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
AK009_00002	468			hypothetical protein	GTGAAAACATTTGGTAAAGTATTATTAACAGGAGCTTTAGCTTTAGGTGGTTTAACAGCTATGAACATTGATACACCAAAGGCACATGCTGACGGAGCAAGCGAGTTCTGTCGTTATATTTGTGGTCCTAGCGAAACGGTGAACGGTGTTACAGTTCAGGTACACTCTACACAAGTTACTTTTGGTAACAGCGTAATTGCAAGAATTACAAATGACCGAGCGGAAGAAATTCATTACAATGTCAGCCTTGAAAAGAAATATGGCGATAGATGGGGAGAATTTGAAACCAACTTCCGTTGGCAAAATCAATGGGTCCCAGCTGGAAGCAATGATGAAATTGCAACTTTCACAGGATATGGCGATGATATTTATGAGGATGGAACATATCGTTATAAAGTCGAAATAAAAGACGCTGACGGTTCTATTGATACAATTTACACAGCAGGAATGACAGTTACAGGGCGATAG	MKTFGKVLLTGALALGGLTAMNIDTPKAHADGASEFCRYICGPSETVNGVTVQVHSTQVTFGNSVIARITNDRAEEIHYNVSLEKKYGDRWGEFETNFRWQNQWVPAGSNDEIATFTGYGDDIYEDGTYRYKVEIKDADGSIDTIYTAGMTVTGR				NA	NA	NA	NA	NA
AK009_00003	216			hypothetical protein	ATGGCGCGTTGTACGTATTGTAAAACGAAGTGGAAAGTAAAAGACGTATGGTCGCTTCTCATAACATTTGAAAAAGATTGTCCGTATTGTTTTGGAAGACAATATATGTCTAATGATACTTTTCATCAAGCTAACGCCGCTTTACCACTGTTATTTTTATGCCCTTTAATTGTTGATTTAAGCGATGAAAATCCTTTAGATAAATACCGGAAATAA	MARCTYCKTKWKVKDVWSLLITFEKDCPYCFGRQYMSNDTFHQANAALPLLFLCPLIVDLSDENPLDKYRK				NA	NA	NA	NA	NA
AK009_00004	486		COG0500	putative methyltransferase	GTGAAAACAACAGAAAATTTTACTGACAGGGCCGATATATATGCACAATATCGTCCTAGTTATCCTAATGAATATATTGATTACTTACTTTCAGCTAACCAACTGAAAGGAAATCCGATTGTAGCTGATATTGGTTCAGGTACGGGTACGGGGATATTTAGCCGCCAGCTGCTTGAAAGTGGTTTACATGTTATTGGAGTTGAGCCAAATAATGATATGAGGAAGATGGCTGAGCAATCGTCAAAACTATATTCTCGTTTTCAATCCATAAAAGCAACTGCTGAAAATACCACTTTAAAAGAAAATAGTGTAGATTTAGTAACTGTTGCCCAAGCATTTCATTGGTTTGATAAAGAGGCTTTCAAAATTGAATGCCAACGAATTTTAAAACAAAAAGCAAACGTTGCTCTTGTTTGGAATAGTAGAGATTTAACTAGTCCACTTATTAAAGAGAACGCAGAAATTTGCCACATCAAATTCAAATGA	MKTTENFTDRADIYAQYRPSYPNEYIDYLLSANQLKGNPIVADIGSGTGTGIFSRQLLESGLHVIGVEPNNDMRKMAEQSSKLYSRFQSIKATAENTTLKENSVDLVTVAQAFHWFDKEAFKIECQRILKQKANVALVWNSRDLTSPLIKENAEICHIKFK				NA	NA	NA	NA	NA
AK009_00005	228			hypothetical protein	ATGGTAAGAAAAACGTTCAAGATGCGCGTGTCTAGAAATAGAACGATTTCGATTAATGGATCGATTCTTGATGTGGATGTTACACATGATGAATTTTTACAAGAGTTTGTTGAGTGGGTTGATTCTAAAGGTTGGTCGTTTATGGGGATAACGGATGAGATTACGCCCGAGGAAGCTAGTCAAAAGTTAATAGATTCGTTGATTGATGAGAAGGATAAGAAAGAGTAA	MVRKTFKMRVSRNRTISINGSILDVDVTHDEFLQEFVEWVDSKGWSFMGITDEITPEEASQKLIDSLIDEKDKKE				NA	NA	NA	NA	NA
AK009_00006	1287	dacB_1	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	ATGGTAAATTTTAAGAAAATTTCGGTTTTTATTACAGTTATTTGTTTGTTTTTGTTGACACCTATGACATTGCGTGCTGAGACGAATATTGGAGTAAATCCAGAACAAGTTGCACCACCACCTGCGGAAGGACCAAATGTTTTTAGTCAGTTTGCAACGACAATTGATGCGAAAACAGGAGATGTTTTGTATGACAAAAACGCATATCACCGCGCATATCCTGCTAGTACGACGAAAGTGTTAACAGCGATTCTACTCATGGAGCATACAAAGCCAGAGGATCAATTTACATTTTCACAATTAGCATTAGATCAAGAGAAGAGTAATTATCAAATTGAGTTTCAACCTGGAGAGACAATTAATAGAAATACTGCGCTTATGATTTTAATGGTGCTGAGTGCGAATGATGTGTCGTATGCGATTGCGGAGCGGATTGGCGGGAGTGTTGAAAATTTCGCCAATATGATGAATGAGAAAGCAAAGCAATTAGGAGCGAGAGATAGTCACTTTGTAACACCGAATGGATTGCATGATCCGAATCATTATACGACGCCATATGATATGGCTATGATTACGAAAGGTGTGCAAAATTATCCTGAAATTTTACAAGCGATGAATACGAAAAGAACGACAGTTACGACGTCTAGGCAGACGGTGTCTATTTTTAATAAATCTAATTTTTTTGAAAATCCATATAGCATTGGCGGTAAGACAGGGTTTACGAATGAAGCGCGTAATACACTTGTTTTATTAAATGAGAAAGATGGAAATCGTATTATAAATGTAGTAATGGCTTCTCAAAGACCTGAAATTTATGAAGATTTGAAGCAGATGGCGGACTATTCTTTTGGTCAATTTGTGAAGCAAACTGTACTAGATAAACATAGTTGGCATCAAAAAACAACATATTTAAATAAAGATATTAATAGTGAACTTGAAAAAAGTGCAGAACTTATGCTTAAGAAAGATGAAGGGAAAAATGTGAAAACTATTTTCCGGGCAGCTTCATTAGATAAAGAATCTTTGTATCATAAAGGAATTCATCGTGGTGAGGTAGTTGGTGCAGTTGATATTACGAAAAATAATCAAACAATTGCGACGGTAAATGTTCTTTCAACAGAAGATGTCACTTTTGCGATGCCTAAAAAAGATACAATTGTATCAGAAGAAAAAGAGTCAAATGTGAAAGTAATAAGTGTTGGGGTAGGCGCACTTGTACTATTTGGAGCCATTTTATATGTAGTGCTACGCCGAAATACAAAAGGAATGAAAACAGAAGAAAAATAA	MVNFKKISVFITVICLFLLTPMTLRAETNIGVNPEQVAPPPAEGPNVFSQFATTIDAKTGDVLYDKNAYHRAYPASTTKVLTAILLMEHTKPEDQFTFSQLALDQEKSNYQIEFQPGETINRNTALMILMVLSANDVSYAIAERIGGSVENFANMMNEKAKQLGARDSHFVTPNGLHDPNHYTTPYDMAMITKGVQNYPEILQAMNTKRTTVTTSRQTVSIFNKSNFFENPYSIGGKTGFTNEARNTLVLLNEKDGNRIINVVMASQRPEIYEDLKQMADYSFGQFVKQTVLDKHSWHQKTTYLNKDINSELEKSAELMLKKDEGKNVKTIFRAASLDKESLYHKGIHRGEVVGAVDITKNNQTIATVNVLSTEDVTFAMPKKDTIVSEEKESNVKVISVGVGALVLFGAILYVVLRRNTKGMKTEEK	PGPT0024040_1337	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_00007	570	sipW	COG0681	Signal peptidase I W	ATGAAATTAATTTGGAAGGTAATTAGCAACGCGATCTCATTTGTTTTATTTGCATTGATGGTGTTTTTAGCTTTTGTAGTTATTTCTTCAAAAGCAAGCGGTGGTGATCCCACAGTGATGGGATATCAATTTAAGAGCGTTCTTTCAGGATCAATGGAGCCAACGTTTTTAACAGGATCAATCATTGCAATAGAACCAAACAAAGATGGTTCTAAATATCAAAAAGGTGATGTTATTACCTTTAAAGAGAAAGATCAAAAAATTATCACTCACCGTATTATCGGTGTAAAAGATACAAATGGAAAAGTAGTGTATGAAACAAAAGGGGATAACAACAACGGACCAGATTTAGAGCCAGTACTTGCAGAAAATGTAGTTGGAAAGTATGCAGATATTACAGTTCCGTATGTTGGGTATTTACTGAATTATGCGAATTCAAAAGCGGGAGCAGCATTACTTCTTATTATTCCAGGAGTCTTTTTACTTGGTTATTCCGCGATTTCTATTTTTGGTGCTATTCGTAGTATTGACGGAGAAAAGAAAGATAAAAAAGTAGAACAATCCGTCTAG	MKLIWKVISNAISFVLFALMVFLAFVVISSKASGGDPTVMGYQFKSVLSGSMEPTFLTGSIIAIEPNKDGSKYQKGDVITFKEKDQKIITHRIIGVKDTNGKVVYETKGDNNNGPDLEPVLAENVVGKYADITVPYVGYLLNYANSKAGAALLLIIPGVFLLGYSAISIFGAIRSIDGEKKDKKVEQSV	PGPT0026405_935	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
AK009_00008	588	tasA_1		Major biofilm matrix component	ATGACTTTAAAGAAAAAATTAGGAATGGGTATTACATCAGCAGTACTAGGAGCAGCGTTAGTTGGTGGAGGAACATTTGCGTTTTTCAGTGATAAAGAAGTGTCAAACAATACATTTGCGGCTGGGACACTGGATTTAGCATTAAATCCATCAACAGTTGTTAACGTATCGAATTTAAAACCTGGGGATACAATTGAAAAAGAATTTAAACTAGAAAATAAAGGCTCTTTAGATATTAAAAAGGTTCTACTGAAAACAGATTATAATGTAGAAGATGTAAAGAAAGATAATAAAGATGATTTTGGTAAACATATTAAAGTAACATTCTTAAAAAATGTAGATAAGCATGAGACAATTGTGAAACAAACTACTTTAGATAAATTAAAAGGTGACACACTTACAGCTGTAGATAATGATTTATCGGCTTGGTTCTGGGATGAAAAAGGTATTTCAGCAGGTAAATCTGATAAATTCAAAGTGAAATTTGAGTTCGTTGATAATGGAAAAGATCAAAATCAATTCCAAGGCGATAAGTTACAATTAAATTGGACGTTTGATGCACAACAAACAGCAGGTGAAGAAAGATAA	MTLKKKLGMGITSAVLGAALVGGGTFAFFSDKEVSNNTFAAGTLDLALNPSTVVNVSNLKPGDTIEKEFKLENKGSLDIKKVLLKTDYNVEDVKKDNKDDFGKHIKVTFLKNVDKHETIVKQTTLDKLKGDTLTAVDNDLSAWFWDEKGISAGKSDKFKVKFEFVDNGKDQNQFQGDKLQLNWTFDAQQTAGEER	PGPT0025195_190	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
AK009_00009	771			hypothetical protein	ATGCTGAAAAGACCGCGGAATTTTAAAAAGATGCTTATATTGCCGTGTATGTGTTCTATTACGTTTTATTTAGGATCTCAAATTATGACGTATACAGAAGCGGCGTTCATTCATGAAACGAAAGTGGAAGCGACGCTTTCTACAGCAATTATATTTCCGAAAACAGTTAATACGTTAAAAGAGCAATCTGAGAAACATAAACAGTTTATTGAGCGTGAGTATGGAACGATGAAGGGGAAATCGAAAGCAACTTCTATTGAAGAAATAAAACAGGCGATTTCTGTATGGCAACAAGGGCGTGAGAAAATTGTTGCTGAGAAGGAAGCTCTGCAAAATGTATATACTGAAATAGAGGCTCCTTACAATCAAATACAAGAAGAATTAAAGGTAAATAAAGATGAGTCGATGCAGCAAGTGTCCGTATATGTAAATGAAGGCTTTCGCAGTATCAAAGAGAAACATGACTATATTGAGAAAGAAATTAGCTTGAAAGCTATTGATGAGCAAATTCAGGCTCTTCAGCAACAATTAAACATTGCAATTGAAGCGGAAGGACAAAAGAAAGCCGAAGAACAAAAGAAAGTAGAAGAACAGAAGAAAGCCGAAGAACAAAAGAAAGTAGAAGAACAAAAGAAAGTAGAAGAACAGAAGAAAGTAGAAGAACAGAAGAAAGTAGAAGAACAAAAGAAAGCCGAAGAACAGAAGAAAGTAGAAGAACAGAAGAAAGTAGAAGAGCAAAAGAAAGCAGAAGAACAGAAAAAAGCGGAGTAA	MLKRPRNFKKMLILPCMCSITFYLGSQIMTYTEAAFIHETKVEATLSTAIIFPKTVNTLKEQSEKHKQFIEREYGTMKGKSKATSIEEIKQAISVWQQGREKIVAEKEALQNVYTEIEAPYNQIQEELKVNKDESMQQVSVYVNEGFRSIKEKHDYIEKEISLKAIDEQIQALQQQLNIAIEAEGQKKAEEQKKVEEQKKAEEQKKVEEQKKVEEQKKVEEQKKVEEQKKAEEQKKVEEQKKVEEQKKAEEQKKAE				NA	NA	NA	NA	NA
AK009_00010	594	tasA_2		Major biofilm matrix component	GTGAGTCTGAAAAAGAAATTAGGTATGGGAGTTGCATCAGCAGCATTGGGGTTAGCTTTAATTGGTGGAGGAACATTTGCATTCTTTAGCGATAAAGAAGTATCAAACAATACATTTGCAGCTGGGACGTTAGACCTTACATTAAACCCTAAGACGCTTGTAGATATTAAAGATTTAAAACCAGGGGATTCTGTTAAGAAAGAGTTCTTATTACAAAACAGCGGTTCGTTAACTATTAAAGACGTTAAATTAGCAACAAAGTATACTGTTAAAGATGCAAAAGGTGATAATGCTGGTGAAGACTTTGGTAAGCACGTTAAAGTAAAATTCCTTTGGAACTGGGATAAACAAAGTGAGCCTGTATACGAAACAACTTTAGCAGACTTACAAAAAGTTGATCCAGATCTTTTAGCTAAAGACATCTTTGCTCCTGAGTGGGGAGAAAAGGGTGGATTAGCAGCTGGTACAGAGGATTATCTATGGGTACAATTTGAATTTGTAGATGATGGAAAAGACCAAAATATCTTCCAAGGTGATACATTGAATTTAGAATGGACATTCAATGCTAACCAAGAAGCTGGGGAAGAAAAATAA	MSLKKKLGMGVASAALGLALIGGGTFAFFSDKEVSNNTFAAGTLDLTLNPKTLVDIKDLKPGDSVKKEFLLQNSGSLTIKDVKLATKYTVKDAKGDNAGEDFGKHVKVKFLWNWDKQSEPVYETTLADLQKVDPDLLAKDIFAPEWGEKGGLAAGTEDYLWVQFEFVDDGKDQNIFQGDTLNLEWTFNANQEAGEEK	PGPT0025195_149	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
AK009_00011	324	sinR	COG1396	HTH-type transcriptional regulator SinR	ATGATTGGAGAACGTATAAAACGCCTTCGTTTACAAAAAGGTATTTCATTAACTGAACTTGCCGAAAAAGCTGGCGTTGCTAAATCTTACATTAGTTCTATAGAACGAAATTTACAAAAAAACCCTTCCATTCAGTTTCTTGAAAAGATCGCAGCAGTTCTACAAATTCCAGTTGATACTTTACTTCATGATGAAACAACAAAGGCAACTAACCTAGACTCCGAATGGACACAACTCGTTAAAGATGCAATGAACTCTGGTGTCTCCAAAGAACAATTTCGTGAATTTCTTGAATTTACAAAGTGGAAGCAAAATCAAAAATAA	MIGERIKRLRLQKGISLTELAEKAGVAKSYISSIERNLQKNPSIQFLEKIAAVLQIPVDTLLHDETTKATNLDSEWTQLVKDAMNSGVSKEQFREFLEFTKWKQNQK	PGPT0014755_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449	NA	NA
AK009_00012	135			hypothetical protein	TTGTACAAAGATAAGACAGACGCACTGGATCAAGAATGGATTGATTTAATACTTGAAGCTCTAGATGCTGGTATCGCCATGCAAGACATCGAACAATTTTTCCAACGTATGAAGCCATCCAGTCAGGCTCAATAG	MYKDKTDALDQEWIDLILEALDAGIAMQDIEQFFQRMKPSSQAQ	PGPT0026295_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026295-sinI-K06372	NA	NA
AK009_00013	2388	ina_1		Immune inhibitor A	ATGAACAAGAAACCGTTCAAAGTTTTGTCATCGATCGCTTTGACAGCTGTATTAGGCCTTTCATTCGGAGCTGGCACTCAATCGGCATATGCTGAAACACCTGTGAATAAAACAGCTACGAGCCCAGTGGATGATCATTTAATTCCAGAAGAGCGTTTAGCAGATGCACTGAAAAAACGTGGGGTAATTGATTCTTCAGCTTCAGAGAAAGAAACAAAGAAAGCTGTTGAAAAGTATGTAGAGGACAAAAAGGGTGAAAATCCTGGGAAAGAAGCAACAAATGGGGATCAACTTACGAAAGAAGCATCTGACTTTTTAAAGAAAGTGAAAGATGCGAAAGCAGATACGAAAGAAAAACTAAATCAGCCAGCAACAGGGACACCTGCAGCGACAGGACCAGTTAAAGGCGGACTAAATGGTAAAGTACCAACTTCTCCAGCAAAACAAAAAGCATATAACGGCGATGTTCGTAAAGATAAGGTACTTGTTTTACTTGTAGAGTACGCTGATTTTAAACATAACAACATCGATAAAGAACCTGGTTATATGTATTCGGAAGACTTTAACAAAGAACACTATGAAAAAATGTTATTCGGTGATGAGCCATTCGCGTTAGAGGATGGAAGCAAAATCGAAACATTTAAACAATATTACGAAGAGCAATCCGGTGGTAGTTACACAGTGGACGGAACAGTTACAAAATGGTTAACAGTTCCTGGTAAAGCTGCTGATTATGGTGCAGATGCTGCTACAGGTCATGATAATAAAGGACCAAAAGGACCACGTGATCTAGTAAAAGATGCATTAAAAGCAGCTGTAGATAGCGGTCTTGATTTATCACAGTTTGATCAGTTCGATCAATACGATGTAAATGGTGATGGAAATCAAAATCAACCAGACGGTTTAATCGATCACTTAATGATTATTCATGCGGGTGTTGGACAAGAAGCTGGCGGTGGTAAATTAGGTGATGATGCAATTTGGTCACATCGCTGGACAGTTGGACCAAAACCATTCGCAATTGAAGGCACACAAGCGAAAGTTCCATATTGGGGCGGAAAGATGGCAGCATTCGACTACACAATTGAACCAGAAGATGGCGCAGTTGGTGTATTCGCGCATGAATATGGCCATGATTTAGGTTTACCAGATGAGTATGATACAGACTATACGGGTCATGGTGAGCCAATTCAAGCTTGGTCTGTTATGAGTGGCGGCAGCTGGGCTGGTAAAATCGCTGGAACAACACCAACGAGTTTCTCACCACAAAATAAAGAGTTTTTCCAAAAAACAATTGGTGGTAACTGGGCAAATATCGTAGAAGTAGATTACGAGAAATTAAATAAAGGTATCGGTCTAGCAACATATTTAGACCAAAGTGTTACGAAATCTAACCGTCCAGGTATGATTCGTGTTAACTTACCAGATAAAGATGTAAAAACAATTGCACCAGCATTTGGTAAGCAGTATTACTACAGCACAAAAGGTGATAATCTTCATACAACGTTAGAAACACCACTGTTCGATTTAACGAATGCAACGAATGCGAAATTTGATTTCAAATCGTTATATGAAATCGAAGCAGAGTATGATTTCCTTGAAGTACATGCTGTAACAGAAGATGGTCAAAAAACGTTAATTGAAAGACTTGGCGAGAAAGCAAATAGTGGAAATGCAGATTCGACAAATGGAAAATGGATTGACAAATCATATGATTTAAGTCAATTCAAAGGTAAAAAAGTAAAATTAACGTTTGAGTACATTACGGATGGTGGTTTAGCATTAAATGGTTTCCTACTTGATAATGCGTCATTAACAGTAGATGGTAAAGTTACATTCTCAGATGATGCTGAAGGTACACCACAATTAAAATTAGATGGTTTCGTTGTATCTAGCGGAACAGAGAAGAAAAAACATAACTACTACGTAGAGTGGAGAAACCATACTGGATCAGATAGCGCATTGAAATTTGCTCGCGGTCCAGAATATAACTCAGGTATGGTTGTATGGTATGCAGACTCAGCTTACGCAGATAACTGGGTTGGTTTACATCCAGGACATGGTTTCCTTGGTGTAGTTGATTCTCATCCAGAAGCAATTGTAGGAACTTTAAATGGTAAACCAACAATTGATAGTAGTACACGATTCCAAATCGCTGATGCGGCATTCTCATTCGATAAAACGCCAGCTTGGAAAGTTGTATCTCCAACGCGTGGAACGTATACGTATGATGGCTTAGCGGGTGTAGCGAAGTTTGATGATTCGAAAACGTATATTAATCAACAGATTCCAGATGCAGGACGTATTTTACCGAAGCTTGGTCTGAAGTTTGAAGTAGTAGGACAAGCTGATGATAATTCTGCAGGTGCTGTTCGTTTATATCGTTAA	MNKKPFKVLSSIALTAVLGLSFGAGTQSAYAETPVNKTATSPVDDHLIPEERLADALKKRGVIDSSASEKETKKAVEKYVEDKKGENPGKEATNGDQLTKEASDFLKKVKDAKADTKEKLNQPATGTPAATGPVKGGLNGKVPTSPAKQKAYNGDVRKDKVLVLLVEYADFKHNNIDKEPGYMYSEDFNKEHYEKMLFGDEPFALEDGSKIETFKQYYEEQSGGSYTVDGTVTKWLTVPGKAADYGADAATGHDNKGPKGPRDLVKDALKAAVDSGLDLSQFDQFDQYDVNGDGNQNQPDGLIDHLMIIHAGVGQEAGGGKLGDDAIWSHRWTVGPKPFAIEGTQAKVPYWGGKMAAFDYTIEPEDGAVGVFAHEYGHDLGLPDEYDTDYTGHGEPIQAWSVMSGGSWAGKIAGTTPTSFSPQNKEFFQKTIGGNWANIVEVDYEKLNKGIGLATYLDQSVTKSNRPGMIRVNLPDKDVKTIAPAFGKQYYYSTKGDNLHTTLETPLFDLTNATNAKFDFKSLYEIEAEYDFLEVHAVTEDGQKTLIERLGEKANSGNADSTNGKWIDKSYDLSQFKGKKVKLTFEYITDGGLALNGFLLDNASLTVDGKVTFSDDAEGTPQLKLDGFVVSSGTEKKKHNYYVEWRNHTGSDSALKFARGPEYNSGMVVWYADSAYADNWVGLHPGHGFLGVVDSHPEAIVGTLNGKPTIDSSTRFQIADAAFSFDKTPAWKVVSPTRGTYTYDGLAGVAKFDDSKTYINQQIPDAGRILPKLGLKFEVVGQADDNSAGAVRLYR				NA	NA	NA	NA	NA
AK009_00014	1368	aldH1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGAGTATTTCCTCTATTGTAAGTAGGCAAAAGGAATATTTTTTAAAAGGGCATACGAGAAGCATCGAAATGAGAAAGAATAATTTGAAGAGGCTTTATGAAGGCATTCAGCGTTTTGAAGAAGAAATATTTCAGGCATTGAAATTAGATTTAAATAAGTCAGTTCACGAGTCGTTTACAACGGAAGTTGGATATGTATTAAAAGAAATTTCTTTTCAATTGAAACATATGTCATCGTGGAGTAAACCAAAGCGAGTTCGAACAGCACTGACTCATTTTGGATCAAAAGGAAAAGTAGTGCCAGAACCGTATGGTGTTACGCTTATTATTGCACCGTGGAACTATCCGTTCCAATTAGCAATTGCACCACTTGTAGGAGCACTGGCAGCTGGAAATACAATCGTTTTAAAGCCGTCAGAGTTAACGCCAAGCGTTTCAAAAGTGCTTAAGAGAATGTTAGGTGAGTTATTCCCAGAAGAGCTTGTAGCGGTAGTAGAAGGTGGCGTTGAAGAGAGTACATCTTTGCTGAGGGAACCGATTGATTATATTTTCTTTACTGGTAGTGTTGGCGTTGGAAAAGTTGTAATGGAAGCAGCAGCGAAACAGTTGACGCCGCTTACGTTAGAACTTGGCGGGAAAAGTCCTTGTATTGTACATAAAGATGCAAAGATAGAGATGACAGCAAGAAGAATTGTTTGGGGTAAGTTTTTAAATGCAGGGCAGACGTGTGTAGCGCCTGATTATATGTACGTGCATTCTTCCGTGAAAGAAAAGCTAATTGAGGCAATGCGACATGAAATTACAGAGCAGTATAGTAAAGAACCTTTGCAAAATGAAAATTACGTGCGTATTGTAAGTGAGCGTCATTTTGAACGATTATGTCGATTTTTACAAGATGGTCAAGTCGTAATTGGTGGAAACTATAAGAAAGATACATTACATATTGAGCCGACAGTACTAGCGGATACTACATGGCAAGATGCTGTTATGGAAGATGAAATTTTTGGCCCGATTTTACCAATCATAGAGTACGACAATATAGAAGATGTAATTGGCACAATTCAGCAACATCCGAAGCCGTTAGCGTTATATGTATTTTCTGAAGATAAAGAAGTACAAAAGAAAGTGACGAGTAATATTTCATATGGTGGAGGCTGTATTAATGATGTTGTCTATCATCTTGCCACGCCATATTTACCTTTTGGGGGTGTTGGAAGTAGTGGATTAGGGGGTTATCATGGGAAAGAAAGTTTTCGGACTTTTTCACATTATAAAAGCATTTTAGCCCAATCTACAGCATTCGACATGAAAATTCGTTACTCTTCTACAAAAAGTGCTTTAAAATTCATACGAAAGTTGTTAAAATGA	MSISSIVSRQKEYFLKGHTRSIEMRKNNLKRLYEGIQRFEEEIFQALKLDLNKSVHESFTTEVGYVLKEISFQLKHMSSWSKPKRVRTALTHFGSKGKVVPEPYGVTLIIAPWNYPFQLAIAPLVGALAAGNTIVLKPSELTPSVSKVLKRMLGELFPEELVAVVEGGVEESTSLLREPIDYIFFTGSVGVGKVVMEAAAKQLTPLTLELGGKSPCIVHKDAKIEMTARRIVWGKFLNAGQTCVAPDYMYVHSSVKEKLIEAMRHEITEQYSKEPLQNENYVRIVSERHFERLCRFLQDGQVVIGGNYKKDTLHIEPTVLADTTWQDAVMEDEIFGPILPIIEYDNIEDVIGTIQQHPKPLALYVFSEDKEVQKKVTSNISYGGGCINDVVYHLATPYLPFGGVGSSGLGGYHGKESFRTFSHYKSILAQSTAFDMKIRYSSTKSALKFIRKLLK	PGPT0006875_9757	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK009_00015	984	potA_1	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGAAAAAGATTATTAAAGTTGAAGCAGTTGAAAAACATTTTGGAAATCAAGTGATTATCCCACCTCTTTCTTTAGATATTAAAGAGGGAGAGTTTTTAACAATTTTAGGGCCGAGTGGCTGCGGGAAAACGACTTTACTTCGTATGATCGCAGGATTTGAAACTCCAACTAAAGGGAATCTTTTATTAGATGATGAAAGAATTAACGATTTACCGCCATATAAGCGTCATATGAACCTAGTGTTCCAACATTACGCACTATTCCCACATATGACAGTGGAGAAGAATATTTGTTTTGGTATGAAAATGCAGAAAGTATCAGCAGCAGAGCAGAAAGAGCGTGCTGAAGAGGCAATGCGTTTAACGCAATTACTTGAGTTCCGTAATCGTAAACCTGCGAAGCTTTCTGGTGGACAACAGCAGCGTGTTGCAATTGCAAGAGCAATTGTAAATAATCCGCGTGTATTACTATTAGATGAGCCACTTGGAGCGCTTGACTTTAAGTTACGAAAAGACTTGCAACGTGAATTGAAAAACTTACAACGTAATTTAGGAATTACGTTCATATACGTAACGCACGATCAAGAAGAAGCAATGAGCATGAGCGATCGTATCGTGGTTATGAATAAAGGACATATCGAACAAATCGGAACGCCGAAAGAAATTTATAATAAGCCGAAAACGTTGTTCGTTGCGACATTCATCGGTGAAAATAATATTGTGAAAAACGGGGAAGGCTATGTAGCAATTCGCCCTGAAAATGTAAAAGTACGTTCGGTTGAAGAACCAATTTTAAAAGAATACCATCTTGGACATATTGAAGATATAGAGTTTGTCGGAAATATGGAGAAGCTTTATGTACGTGATGAGAAAACATCAGAATTACTAATGGCATATCAAACTGCTGAAGAGGCAGCGCAGTGGAGCATTGGAGATAATGTATATGTAGGCTGGGAGCAAGAGGACGAGGTGACCTTAAATTGA	MKKIIKVEAVEKHFGNQVIIPPLSLDIKEGEFLTILGPSGCGKTTLLRMIAGFETPTKGNLLLDDERINDLPPYKRHMNLVFQHYALFPHMTVEKNICFGMKMQKVSAAEQKERAEEAMRLTQLLEFRNRKPAKLSGGQQQRVAIARAIVNNPRVLLLDEPLGALDFKLRKDLQRELKNLQRNLGITFIYVTHDQEEAMSMSDRIVVMNKGHIEQIGTPKEIYNKPKTLFVATFIGENNIVKNGEGYVAIRPENVKVRSVEEPILKEYHLGHIEDIEFVGNMEKLYVRDEKTSELLMAYQTAEEAAQWSIGDNVYVGWEQEDEVTLN	PGPT0007840_2684	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007840-potA-K11072	NA	NA
AK009_00016	849	potB	COG1176	Spermidine/putrescine transport system permease protein PotB	TTGAAAAAAGGGAAATTACTCGCACTACCTACAGTCGCGTGGTTATTAATTTTCTTCCTAATCCCGCTCGTATTCGTATTAGGATTCGCCTTCATGCAGCGCGGAGCTTACGGGACAGTAGAAATGCAATTTACGCTGGAGAATATATCCCGTGTGTTTGATCCATTGTACTTAGGGACATTATGGGAAACTGTTAAAATCGCAGTTATTACTACAGTAATATGTTTATTAATTGGTTATCCATTTGCGTATACAATTACAATTGTTGACCGCAAATATCGTTCTATTCTTTTATTATTGGCAACGATCCCGTTTTGGATTAACTTTCTTGTTCGTTCATACGCATGGATTGTTATTTTACGTTCACAAGGCCTTGTGAATACGTTGTTATTAAAGCTTGGTATTATTAGTGAACCGTTAAATTTATTATATAATACTCCTTCTGTAATACTCGGAATGGTCTATTCTTTATTACCATTTATGATCTTACCAGTGTATGCAGCAATTGAGCAGCTAGATAAGCGTAAGCTAGAAGCGGCTTATGATTTAGGAGCAACACCAATAAAGGCATTTTGGAATATAACAGTGCCGATGACAATGTCAGGAATTGCGACTGGTTCTATTTTAGTATTCGTTTCTTCTATCGGAATGTTTGTTGTATCAGACGTGATGGGCGGATCGAAAGTAGCATTAATCGGAAACGTTATTCAAAACCAATTCTTAGGTGCACGTGACTGGCCGTTTGGATCTGCGTTATCGATTATCGTTGTTCTATTCTCTGTTCTGTTAATTTACTTATATTATCGTGCAACGAAAGTATATAAATATAATGAGAACGGAGGGGAATAG	MKKGKLLALPTVAWLLIFFLIPLVFVLGFAFMQRGAYGTVEMQFTLENISRVFDPLYLGTLWETVKIAVITTVICLLIGYPFAYTITIVDRKYRSILLLLATIPFWINFLVRSYAWIVILRSQGLVNTLLLKLGIISEPLNLLYNTPSVILGMVYSLLPFMILPVYAAIEQLDKRKLEAAYDLGATPIKAFWNITVPMTMSGIATGSILVFVSSIGMFVVSDVMGGSKVALIGNVIQNQFLGARDWPFGSALSIIVVLFSVLLIYLYYRATKVYKYNENGGE	PGPT0007835_1845	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007835-potB-K11071	NA	NA
AK009_00017	801	ydcV		Inner membrane ABC transporter permease protein YdcV	ATGAAGAAGTTTTTAGTTTCTTATTCTTGGTTAATTTTGTTATTCTTGTATTTTCCAATGATGGTTTTAATGGTCTATTCTTTCAACGACTCTCGCATTAATGCGGAGTGGGAAGGTTTTACATTCCATTGGTATACAGATTTATTTCAAAAACAAGATGTTATTGATGCATTTGTAAATAGTATTACGATTGCAGTTATAACAACGATTGTGACAACGGTACTTGGCGTATTCTTTGCGATTGCTTTACATCGTTATAAATATCGTTTCGAAGGGGCTATTAATGGCCTTGTATATTTACCAATTTTAATTCCTGATATTTTAATGGGATTATCTTTACTAATTCTTTTCAGTCAGTTAGGAATGGAACTTGGACAAACAACGATTATTATTGCACATATTACATTTAGTATTTCGTTTGTTGTTGTTATTTTAGCTGCGCGTCTTTCAAGTATGGGACGTGACTTAGAAGAAGCTGCAAATGATTTAGGAGCAACGCCTTGGCAAACGTTTCGTTATGTAACGTTCCCAGCAATTGCACCGGGAGTTATTTCGGCAGCATTATTAACATTCACATTATCAATTGATGATTTTGTAATTAGTTTCTTCGTATCAGGACCAGGATCAACAACATTGCCATTATACATTTACAGTATGGTTAAGCGCGGAGTATCACCAGAAATTAATGCTCTTTCTACAATTTTAATTGTTGCTATCGTAGGATTAATGGTTCTATCTGAAATCTTCCGTAACAAAGGTGCAGATGGTGAAGAAAACTCTGGAGGACACCTTCCTTTATAA	MKKFLVSYSWLILLFLYFPMMVLMVYSFNDSRINAEWEGFTFHWYTDLFQKQDVIDAFVNSITIAVITTIVTTVLGVFFAIALHRYKYRFEGAINGLVYLPILIPDILMGLSLLILFSQLGMELGQTTIIIAHITFSISFVVVILAARLSSMGRDLEEAANDLGATPWQTFRYVTFPAIAPGVISAALLTFTLSIDDFVISFFVSGPGSTTLPLYIYSMVKRGVSPEINALSTILIVAIVGLMVLSEIFRNKGADGEENSGGHLPL	PGPT0007830_1414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007830-potC-K11070	NA	NA
AK009_00018	1050	potD	COG0687	Spermidine/putrescine-binding periplasmic protein	ATGAAATTAATGAAAAGAATAGCTGGCGCAGCAATTAGCTTTAGCCTTGTTGCTGGTGTACTTGCTGGTTGTGGTGAAAAAAAAGAAGAATTAAATATTTATAGCTGGGCTGACAATTTTGATGAGCAAGTGCTAAGAGATTTTGAAAAGAAATATAATGTGAAAATTAACTATGATAAGTACGCAAGTAACGAAGAAATGCTTGCGAAATTACAAGCTGGTGGCGCAAAGTATGATTTAATTCAGCCATCTGATTACATGGTTAAAACAATGGCGAAAATGGATTTATTAGCGCCGTTAGATAAAAAGAATATCCCAAATATCGAAAACATGGTTTCTAATTTCAAAACACCGGCGTTTGATCCAGAGAATAAATATTCTTTAGTGTACACTTGGGGTGTAACAGGGATTGCATACAATAAAAAGTATGTGAAAGAAGCACCTACAAGCTGGGCTGACTTATGGAATGAGAAATATAAAGGACATGTAACGTTACTAAACGATTCTCGTGAAGTATTAGGAATGGGTCTTAAGAAGCACGGTTTCTCAAACAGTACGAAAGAAGATGCAGAGTTAAAGACAGCAGCAGATGATTTAAAGAAGCTGCTTCCAAACTTATTAGCATTTGATACAGACAACATTAAACAAAAATTCATTACAGAAGATGCTTGGATCGGAACAGTTTGGTCTGGAGATGCAGCATTTATCGCAAAAGATAATAAAGATGTAGAATACGTTGTACCAAAAGAAGGCGGCACAATTTGGGCTGATACGTTAGCAATTCCAAAAGGTGCAAAACATAAAGAGCTTGCTGAGAAATTTATGAACTACTTACTAGATGAAAAAGTAAGTGTGAAAAACTACGAGTCAATTGGTTACAGTAATCCAAATGAAAAAGCTCATCCTCTTCATAGTAAAGAATACCGTGATAATCACATGATTTTCTTAACGAAAGAAGAGTTAGATCGTACAGAATGGCTTGTTGATGTAGATGATAAGTTAAAAGACTATGATCGTTACTGGACGGAGCTAAAAACAAAAGGTAAATAA	MKLMKRIAGAAISFSLVAGVLAGCGEKKEELNIYSWADNFDEQVLRDFEKKYNVKINYDKYASNEEMLAKLQAGGAKYDLIQPSDYMVKTMAKMDLLAPLDKKNIPNIENMVSNFKTPAFDPENKYSLVYTWGVTGIAYNKKYVKEAPTSWADLWNEKYKGHVTLLNDSREVLGMGLKKHGFSNSTKEDAELKTAADDLKKLLPNLLAFDTDNIKQKFITEDAWIGTVWSGDAAFIAKDNKDVEYVVPKEGGTIWADTLAIPKGAKHKELAEKFMNYLLDEKVSVKNYESIGYSNPNEKAHPLHSKEYRDNHMIFLTKEELDRTEWLVDVDDKLKDYDRYWTELKTKGK	PGPT0007825_2400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007825-potD-K11069	NA	NA
AK009_00019	648			hypothetical protein	TTGAAGAAGAAGTTACATCAATATGAGATAATGTGTATTGCTTTATTATTTGCTGTATTTGGTATTGTTGCTTGGCGCGTACATGCAGGTGGCGTTACCGTGATGGATACATATGTCCGTGGATTAGTAAAAGGGCTACAAACGGAGAGTTCCCTTACATTTTTCTCGTACTTTACAAAATTGGGATCAGCAATTGGGATAGTCGCTACGCTCGTTATAAGTTTGCTTGTTTTTTGGAAGAAGCGTTATTATGCTACGATGATTGTGTATCCACTGGGAATTTTAATAACACATCTTGTGAATAAAGGGATAAAAGAGATTGTACAGAGAGAACGTCCGTCATTAAATGAAGCGCTAGATGCACTTGGATATAGTTTTCCTAGTGGACATGCAATGCTATCAATTATGACATTTGGATTTCTTGCTTATATCATTGCTGCTAATTTGAAAAGCATAGCTGGGAAATGTGTCACAACGATTTTGATGGGCACAGTAATTCTATCGATTGGATTAAGTAGAGTCATTTTAAATGTACATTACCCAACTGATATTTTAGCTGGTTACTGCGTAGGTTGTATTTTGTTAGTTATCGCTATTTACTATCATCGTTTACTTACTGAGAGATTGGGGTTTAATAAAGAGAGATAG	MKKKLHQYEIMCIALLFAVFGIVAWRVHAGGVTVMDTYVRGLVKGLQTESSLTFFSYFTKLGSAIGIVATLVISLLVFWKKRYYATMIVYPLGILITHLVNKGIKEIVQRERPSLNEALDALGYSFPSGHAMLSIMTFGFLAYIIAANLKSIAGKCVTTILMGTVILSIGLSRVILNVHYPTDILAGYCVGCILLVIAIYYHRLLTERLGFNKER				NA	NA	NA	NA	NA
AK009_00020	2193	ydfJ_1	COG2409	Membrane protein YdfJ	GTGAAGACAAATGTTCATAAAGTTGATAAGTGGGGCAAGTTAGGAGCTTTTTTGTATCAATTTCGTTATACAGTAATTGTAGCGTTACTGTTGCTCGCAATCGCACTTGGGATTTTTGCTCCAAAGCTACCGGGAGTATTAGGTGGTGACGGTTTCCAAACGGAAGGCGACTATCAAAAAACAAAAGAAATTTTAGATAAAGATTTTAAGAGGTCTCAAGATACGCTTCTGCTCGTTTTTGAGAAAAATAAAGATGCTTCGCATGAGGAATTTAAAAAACGAATAGATGAAATTGTAAAGAATGTTCAAGAGAAAGAGAACTATGAATCTTTCCATCACCCAATCCAAAATAAAGAAATGCTACAAGGTGATATCGGTTATGCGACAATTTTATTTTCCGGGAAAACAAATAAAGAAAGAATGGAAAAGACATTACAATTTGCTGATGAGATTGAGAAAGAAAGTAATGTAGCATTAAAAGTAACACCTACAGGATTTCCGAAAATTAATCAAGAGATTAATGAAAGAACGCAAAATGATTTAAAAGTAGCAGAAATGATTGGATTACCAATTGCGTTTCTTGTATTACTATTTTCGTTTGGTAGCCTTTTGGCATCAATTTTACCGATTTTGAATGGGGCGCTTAGTGTTATTAGCACGATGGGTATATTGTATTTTATCGGTGTGGATAAAGAACTTTCTATTTTCGTGTTAAACGTTGCACCGATGATTGGACTTGCACTATCTATTGATTTTGCGCTATTATTTGTGAACCGTTTTCGAGAGGAAGTTGCTAAACGAACGGTAAAAGAAGCGATAGCAATTACATATCAGACGGCAGGACGTGCAATTGTATTTTCAGGATTATGCGTATTTGTTGGGTTGTCAGGTTTGTTTTTCTTTAAGATAGATTATATTCAATCTGTCGCGATTAGCGGAATGATTGTTGTGATTATGAGTATTTTATTCTCACTCACACTTCTTCCAGCGCTATTATCGTTAATAGGTAAAAGAATATTAAAAAAGAATCAAGTAGCACATACGCCGGCAAAAGCATGGCGTAAATTTGCACAATTTGTAATGAAACATCCAATCGCAATGATTATTGTTGTTACAACATTTATTGTTATTTGCTTATTGCCGTTACGTACAGCTAATTTGCAGTTCCCTGGTGTTGAAGCTTTACCTGAAAAGAGTGATACAAGGATTGCATATGAAAAGTATGAAGAAGCATTTAATGAAACTGTCAAAACACACGCTGATGTTATGTTAGTTGTAGAGACGAAAGAAGATATGAAAGAAAAAGAAAGTCTACAAAAGATAGAAGAAGTCGTTCAAAAGTTAAAAGATGATAAGAAAGTACATGAAGTAAGAAGTTTATACGACGGGTTAACTGGAATGAAAGCAGATCAAGTTGTTGGAATATTGCAGTCGCCAGAGTCAGCGAAACTAACTCCTGTATTTGAAGCATACACGAAAGGGAATAAGACGACGATAGAAGTCTTTTTGAAAACAAAACCACGTACAGAGACTGCAAAACAGTGGGTGCGTGACTTTAAAAAGAACTATAAAGAAACGGATGTTACGTATTATCTAGGCGGAATGACGACGTTTCAACAAGAATTAGAAGATGAAATTAAAGATAAAGTTGTAATTGGTATGTCTGTTATATTTGGATCGACCTTTGTTATATTATTATTTGCATTCCGATCTATACTCATTCCAATTAAGGCAATTATTATGAATATACTTAGTTTAAGTGCAACCATTGGAATTGTTGTTTGGTTATTTGAAGGTGGTCATTTCGGTTTAGAAGCGAGTCCGGTTCTGTTTGTCTTACCAATCTTCATTTTTGGCCTCGTATTTGGGCTTAGTATGGATTATGAAGTATTTCTTATTTCACGCATTCATGAGCTCTATGAAGAAACAGGAGATAACGATCAAGCAACGTTAGAAGGGCTCGTTTCAACAAGTAGAATCATTACATCAGCTGCTTTAATAATGATTGTTGTAACGGGTGCATTCGCATTTACTGATATTTTACCAGTAAAGCAGATGGGGCTTGGCGTCGCATTAGCAATATTTCTTGATGCAACAATTATTCGTCTTATGCTCGTACCAAGCTTAATGAAGTTATTTGGAGACTGGAACTGGTGGTTGCCATTTCGAAAAAAACGAGAAAAATCATCATAA	MKTNVHKVDKWGKLGAFLYQFRYTVIVALLLLAIALGIFAPKLPGVLGGDGFQTEGDYQKTKEILDKDFKRSQDTLLLVFEKNKDASHEEFKKRIDEIVKNVQEKENYESFHHPIQNKEMLQGDIGYATILFSGKTNKERMEKTLQFADEIEKESNVALKVTPTGFPKINQEINERTQNDLKVAEMIGLPIAFLVLLFSFGSLLASILPILNGALSVISTMGILYFIGVDKELSIFVLNVAPMIGLALSIDFALLFVNRFREEVAKRTVKEAIAITYQTAGRAIVFSGLCVFVGLSGLFFFKIDYIQSVAISGMIVVIMSILFSLTLLPALLSLIGKRILKKNQVAHTPAKAWRKFAQFVMKHPIAMIIVVTTFIVICLLPLRTANLQFPGVEALPEKSDTRIAYEKYEEAFNETVKTHADVMLVVETKEDMKEKESLQKIEEVVQKLKDDKKVHEVRSLYDGLTGMKADQVVGILQSPESAKLTPVFEAYTKGNKTTIEVFLKTKPRTETAKQWVRDFKKNYKETDVTYYLGGMTTFQQELEDEIKDKVVIGMSVIFGSTFVILLFAFRSILIPIKAIIMNILSLSATIGIVVWLFEGGHFGLEASPVLFVLPIFIFGLVFGLSMDYEVFLISRIHELYEETGDNDQATLEGLVSTSRIITSAALIMIVVTGAFAFTDILPVKQMGLGVALAIFLDATIIRLMLVPSLMKLFGDWNWWLPFRKKREKSS				NA	NA	NA	NA	NA
AK009_00021	417			hypothetical protein	ATGTTTCGTTATTTTAAGTTTAAGTTAAATGATACAGTACAGTTTGCAGAAAACGATGGGCATATGTATCGCATTGTCGGTTATCGGTTAGAAAAGGGATTTTATCCAAAAGATGAATGGACTCATATCATTTATGAACTACTTAGAGAATTTGACGGGTATACGATGGATGCAGAGGAGGAAGAACTTGTAAAGGTCGTTCAAGTAGAGGATGAGTATTACAAAATACAAGAAGTATCAGGTTATCGTTATCCAGTAAAAATGAAACAAAAACAACAAGTGATGAAAATAGAAAGGATGGACGATTTATTAGATGCTTACAATGATTATAAAAGGTTGGCAGATTTCTTTAAAGATTTATCGTATGAACAAAAAGCTGAAGAAGTATTGTTAGAAATGAAAAGGCTTAGAGCTTGA	MFRYFKFKLNDTVQFAENDGHMYRIVGYRLEKGFYPKDEWTHIIYELLREFDGYTMDAEEEELVKVVQVEDEYYKIQEVSGYRYPVKMKQKQQVMKIERMDDLLDAYNDYKRLADFFKDLSYEQKAEEVLLEMKRLRA				NA	NA	NA	NA	NA
AK009_00022	924	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGGAAACAAAGAAAAAGGGCGAATGGTGTGAAATTACCGTTCCAGCTAAATGGAATGGTATAAGTATTGAATCGGTATTAAAAGTAGAATGGGAAATACCGAAAAAGCTATTACATCAGCTTCGTATGGAAAAAGGTGTTACGGTTAACGGGGAACAAAGAAGATGGAATGAGCTTTTAAAAGAGAACGATAAGTTACAAGTTCATATGTTTGCGGAGGAAGAGTACGGTGTAGATCCAGAATATGGTGAATTACATGTAGTATACGAAGATGATCACGTACTCATCGTAAATAAACTAGAGCAAATGGACACACATCCTGCTGAAAAAGGTGGAAACGGGACGCTTGCAAATCTTGTTGCTTTTCATTTTCAAATGCAAGGTTTAGAGACGAAGGTTCGTCATATTCATCGTTTAGATAAAGATACGACAGGTGGTGTCGTGTTTGCTAAGCATAGAATTGCTGGTGCAATTATGGATCGTTTATTAATGGAACGAAAAATTAAAAGAACGTACGCAGCGCTCGTTGAAGGGAAAGTAAAGAAGAAACAAGGAACGATTGATGCTGCTATCGGAAGGGATCGCCATCATGCTACAAGGCGTCGTATTTCTCCAAAAGGTGACCAAGCTATCACATATTATAAAGTAGAAAAGTATTTTAAGAAGCAAAACACGACTTTCGTAACGTTACAATTAGAAACGGGTAGAACGCATCAAATTCGTGTTCATATGAGTCATAATGGTAATCCACTAGTTGGGGATGTATTATATGGTGGGCAAACAAAATATATGTCCAGTCAAGCATTACATGCGATGAAGATAAATTTCTTGCATCCAATTACGAAAGAAGCGATTGAAGTTGATGTGCCGTTTCCTACAAAATTAAATAATAAAATAAAAGAATTTCAAAAAGAAAATGCGTAA	METKKKGEWCEITVPAKWNGISIESVLKVEWEIPKKLLHQLRMEKGVTVNGEQRRWNELLKENDKLQVHMFAEEEYGVDPEYGELHVVYEDDHVLIVNKLEQMDTHPAEKGGNGTLANLVAFHFQMQGLETKVRHIHRLDKDTTGGVVFAKHRIAGAIMDRLLMERKIKRTYAALVEGKVKKKQGTIDAAIGRDRHHATRRRISPKGDQAITYYKVEKYFKKQNTTFVTLQLETGRTHQIRVHMSHNGNPLVGDVLYGGQTKYMSSQALHAMKINFLHPITKEAIEVDVPFPTKLNNKIKEFQKENA				NA	NA	NA	NA	NA
AK009_00023	606			hypothetical protein	TTGATCAAATATAAGTATGTACTTGGAATATTTTTCGCTTGTCTTTTAGTTACTCTATGTCTTTACCCCTATTTACCAAATCGTATGGCAGTACATTGGAACGTAAATGGTGAGCCAAACGAGTTTATGAGTAAACAAGTTGTTGTAGCATTTATTCGTTGTTTTATTATTTTTTCATATGGATTTTTGTATATTATTTCACATAATATATTTAAGTTTAATGAAAGAGAGCATTGTATTATAGGTGGATTTATAAAGAAAATTACATTATTTATGTTGTTTATTCATATGCTTATTCTCTTGATTAATTTTGGAGATTTTATATTCTTTCAAACAGGATTAACGATTGGGATTAGTATGTTTCTTTTTATGCTGAGTAAAGAATTTAAGAAAATAAAAGGCAAAGAAAAAGATCCAATTAAATTACAAAAAATTCGTTTAGTAAGTAGACGGATTTTTCAAGTGATGGCATGTGGCATATTGTTTTCATTGTTTTTGAACTTAGAGTGGGGATTTTATATATTGCTTAGTGTAATAAGCTGTGGATCTATGTTGTTTATGTTCTATATTTTCTATTCATACATAATAGAAAGCTATGAAACTTGA	MIKYKYVLGIFFACLLVTLCLYPYLPNRMAVHWNVNGEPNEFMSKQVVVAFIRCFIIFSYGFLYIISHNIFKFNEREHCIIGGFIKKITLFMLFIHMLILLINFGDFIFFQTGLTIGISMFLFMLSKEFKKIKGKEKDPIKLQKIRLVSRRIFQVMACGILFSLFLNLEWGFYILLSVISCGSMLFMFYIFYSYIIESYET				NA	NA	NA	NA	NA
AK009_00024	813			hypothetical protein	ATGAAAAAGCGTGTTTTATTATCTGTAGCTGCTGCAACAGCTCTTACTTTAGGAGTATCTTCTCTAGATGCACAAGCTGCAACAGTACAACCATCTAACATTAAGGTTCAAAATATTCAGCATTCAAAAGTAATGATGAAACAAATGAACCAACAAGAATTACAAGCATTCTTACAATCTATGGGCGTTGAGTCATTAGCGCAATGGCAACAAGGAAACTTCCTACCAAATTGCATTATTCCTGGTCAACAACCTACTGAAAATGTTGTAACTGAGCAACCAACAGCTAAGCCAGAAACTCAAAAGCCTGCTGAGCAAAAACCTGCTGAAGAAGTTCAAAAACCAGAAGCTCAAAAGCCTGCTGAAAACAACAATACTCAAAAACCTGCTGAACAAAAACCTGCTGAGCAAAAGCCTGCTGAAGAAGCAAAATCTTTAAGCGAGTTCGAACAACGTGTTGTTGAATTAACAAACGCTGAGCGTACAAAGCAAGGCTTACCAGCACTAAAAATCGATACTGAATTAAGCAAAGTAGCACGCATTAAGTCTGAAGACATGCAAAAAAACAACTACTTTGATCATAACAGCCCTACATACGGGTCTCCGTTTGACATGATGAAGAAATTTGGTATTTCTTATACATCTGCAGGTGAAAACATCGCTCAAGGCCAACGTACACCTGAAGAAGTAGTACAAGCTTGGATGAACAGCGCTGGACACCGTGCAAACATCTTAAATAACGGCTTCACTCACATCGGTGTTGGTTATGTAGAAAGCGGCAACTACTGGACACAACAATTTATTACAAAGTAA	MKKRVLLSVAAATALTLGVSSLDAQAATVQPSNIKVQNIQHSKVMMKQMNQQELQAFLQSMGVESLAQWQQGNFLPNCIIPGQQPTENVVTEQPTAKPETQKPAEQKPAEEVQKPEAQKPAENNNTQKPAEQKPAEQKPAEEAKSLSEFEQRVVELTNAERTKQGLPALKIDTELSKVARIKSEDMQKNNYFDHNSPTYGSPFDMMKKFGISYTSAGENIAQGQRTPEEVVQAWMNSAGHRANILNNGFTHIGVGYVESGNYWTQQFITK				NA	NA	NA	NA	NA
AK009_00025	1329	lutA_1		Lactate utilization protein A	ATGACCACATTAAATAAAGAAAATATTCAAAAAGAATTTAAAGAACGATTAAGTGAAGATGAATTACTAAACTGTATGCGATGCGGTTTTTGTTTACCTACTTGTCCTACCTACATTCAATCCGGATATAAAGAGTCACATTCACCGCGCGGACGTATCGCATTAATGAAAGCTATCGTTGATGGTTTAATCGAACCAGATGAAGATGTTGAAAATACATTAAACGTTTGTCTTGGTTGCCGTGCTTGTGAGCCTGTTTGTCCATCTGGTGTAAATTATGGACATTTATTAGAAGAAGCTCGTGATATTATTAATCAAAATAAAAAATTCTCAATGCCAGTGAAAGCTGTTCGAAAAGTCGTTTTTGAAGGATTGTTCCCCCATCAAAATCGAATGAGAACATTAACAGGACTAATTGGATTTTATCAACGTTCTGGTTTACAAACACTAACACATAAAACAGGTATTATGAAGTTATTCCCTGAAACACTTGCAACGATCGATCTCATTTTGCCAAAAGTGCCAAAAATGAAAGCAATGAAAGATCGTCCTTCATTTTTACCTGCAGAAAGTACAAAGAAAAAACAAGTTGCATTCTTCACAGGCTGCTTAATGGATACTATGTTTTTAGAAACAAATAACGCAACGATGAAACTTCTTCAATTAGCTGGTTGTGATATCGTTATTCCGAAAACACAAAGTTGCTGCGGTGCATTGCATGGACATGCTGGTGAAAAGAGTGGAGCAAAAGAATTAGCAAAGCGAAATATAAAGGCATTCGAAGATTTAAACATCGACTATATTATTACGAATGCAGGTGGTTGCGGAGCTTACCTCGTAGACTATGATTATCTTTTAAAGGATGATCCAGAGTGGGCTGAACGTGCTAAGCAGTTTGTTTCTAAGATTAAAGATATTACTGCTATACTAGTAGAACTAGACTTCCATAAGCGAACTGATTTACGACTCACGCAGCAAATTATTACGTATCAAGACTCTTGTCATTTACGCAATGTTATGCGCACAGCTTCTGAACCTCGTATGTTACTAGAGGCTATCCAAGGTGCAACATATCGTGAAATGAAAGATGCGGACCGCTGCTGTGGCTCTGCTGGTATTTACAATATTGTTCATTCAGAGTTATCAATGGAATTTCTAGATTACAAAATGGACCGTGTGCATGAAACAGACGCAGCAACCATTGTTACTGCAAATCCAGGTTGTTTATTACAAATGAAATTAGGAATTGAGCGAGAAGGGCTTTCTCATAAAATGAGAGGAATTCACATTGTAGATTTATTATTAGAAGCAATTGAAACTAACTCGTAA	MTTLNKENIQKEFKERLSEDELLNCMRCGFCLPTCPTYIQSGYKESHSPRGRIALMKAIVDGLIEPDEDVENTLNVCLGCRACEPVCPSGVNYGHLLEEARDIINQNKKFSMPVKAVRKVVFEGLFPHQNRMRTLTGLIGFYQRSGLQTLTHKTGIMKLFPETLATIDLILPKVPKMKAMKDRPSFLPAESTKKKQVAFFTGCLMDTMFLETNNATMKLLQLAGCDIVIPKTQSCCGALHGHAGEKSGAKELAKRNIKAFEDLNIDYIITNAGGCGAYLVDYDYLLKDDPEWAERAKQFVSKIKDITAILVELDFHKRTDLRLTQQIITYQDSCHLRNVMRTASEPRMLLEAIQGATYREMKDADRCCGSAGIYNIVHSELSMEFLDYKMDRVHETDAATIVTANPGCLLQMKLGIEREGLSHKMRGIHIVDLLLEAIETNS				NA	NA	NA	NA	NA
AK009_00026	1413		COG0277	putative FAD-linked oxidoreductase	ATGTTAGAAAAGCAAATTATTCATTCATTCGTATCTATTGTTGGCGAAGATAATGTAGATACATCCAATATGGGGCGTTTAACTTATAGTTATGATGCCACTCCAAACTTCCAAGCAATGCCTGATGCAGTCATTGCTCCACGTAATACAAATGAAGTAGCTGAAGTGTTAAAGGTATGTAACACTCACAAAATTCCTGTGTATGTTCGTGGGTCTGGAACAAATCTTTGCGCAGGAACATGTCCACTTGAAGGCGGTATCGTCCTTATTTTCCGCCATATGAACAATATTTTAGAAATTGATGAAGAAAACTTAACAATTACTGTACAAGCTGGTGTCATTACACTTGATATTATTAAAGCAGTAGAAGAAAAAGGTTTATTTTATCCGCCAGATCCAAGTTCGATGAAGATTTCTACAATCGGCGGCAATATTAATGAAAATTCAGGTGGGTTACGCGGCTTGAAATATGGCGTAACACGTGATTATGTAATGGGGCTTGAACTTGTCTTACCAAATGGTGATATTATTCGTACTGGCGGCAAATTAGCAAAAGATGTAGCTGGTTACGATTTAACTCGTTTATTTATCGGCTCTGAAGGAACACTTGGCGTGGTAACAGAAGCGATATTAAAACTTGTTCCTATGCCTGAAACAAAGAAAACAATGCTTGCACTCTATGAAGATATTAATGAAGCTGCACGTGCTGTTTCTTCTATTATTGCAAATAAAATTATTCCAGCAACTCTGGAATTTTTAGACCAACCGACAATTGAAGTAGTAGAAGAGTTTGCACAAATCGGTTTACCTACAGATGTAAAAGCAATTTTATTAATCGAACAAGACGGCCCGCCCGAAGTAGTCAATCGAGATATTGAAAACATGGCTAACGTTTGCCGCTCTATGAATGCAGTTGATGTTCGCATTGCAAAAGATGAAACGGAAGCAGATGCACTTCGTACCGCTCGCCGTAGTGCACTATCAGCGCTCGCACGATTAAAACCTACTACAATATTAGAAGATGCAACTGTACCACGTTCACAAATCGCTCCGATGGTTGAAGCTATTAATGCCATTGCAAAAAAATATAATATTCCTATTTGTACGTTTGGACACGCTGGTGACGGTAACTTACATCCAACTTGTATGACAGACGCTCGTAATGCAGAAGAAATGCACCGAGCTGAACAAGCTTTTGCTGAAATATTTACGAAAGCAATTGAACTTGGTGGCACAATTACTGGTGAACATGGTGTTGGTGCGATGAAAGCTCCATATTTAGAAATGAAATTAGGTAAAGAAGGTATTGCAGCTATGCAAGGAATAAAGCAAGCTTTCGATCCAAATAACATTATGAATCCTGGAAAAATGTTCGCGAAAGACACTCGAAAAAGAGTGGTGGTTGAGCGATGA	MLEKQIIHSFVSIVGEDNVDTSNMGRLTYSYDATPNFQAMPDAVIAPRNTNEVAEVLKVCNTHKIPVYVRGSGTNLCAGTCPLEGGIVLIFRHMNNILEIDEENLTITVQAGVITLDIIKAVEEKGLFYPPDPSSMKISTIGGNINENSGGLRGLKYGVTRDYVMGLELVLPNGDIIRTGGKLAKDVAGYDLTRLFIGSEGTLGVVTEAILKLVPMPETKKTMLALYEDINEAARAVSSIIANKIIPATLEFLDQPTIEVVEEFAQIGLPTDVKAILLIEQDGPPEVVNRDIENMANVCRSMNAVDVRIAKDETEADALRTARRSALSALARLKPTTILEDATVPRSQIAPMVEAINAIAKKYNIPICTFGHAGDGNLHPTCMTDARNAEEMHRAEQAFAEIFTKAIELGGTITGEHGVGAMKAPYLEMKLGKEGIAAMQGIKQAFDPNNIMNPGKMFAKDTRKRVVVER	PGPT0001890_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
AK009_00027	1116	cdaR_1	COG3835	Carbohydrate diacid regulator	ATGCTATTTCCTGATTTAGCGAATAAAATTGTACGAGAAGTACGCAGACTAATTACAGAGAATATTATTATTATTAATATACAAGGCGTTATTATTGCAAGTACAGATACAGAAAGAATTGGTCAATTTCATGAAGGTGCACTCCGCTGCGCTAACCAAAAGAAAACTGTCATCATTACAACAGAAGATGAAAGGCAGTTGCAAGGTGTAAAGGCTGGAATGAATCTTCCTTTATTATTTCATGACGAAGTAATTGGTGTTATTGGAATTACAGGAGAACCTGAAAATATTTCACGCTATGGAGAAATATTGCGTAAGATGACCGAGTTATTAATTCATGAAAACTACTTTTTAGAGCAACTAGAACTTGAGCACCGTTCTTATGAAGCTTTCGTCTTTGATTGGCTTCAAAATACAGCATGGTCTCCAAGTTTTCTCGATCGCGCCAAAACACTTGGCATTGATTTATATAAGAAGAAACAACTTATTTTGTTTTCTATTGGAAAAAATGACACGATGCTCCAGCGTAAAATATGGCAACATATACGCAATATATTAACAAAAGAGCATCTATTTGTTCGGTGGGGAAATGATCGTTTTATTTTATTTACAGCGATGAGCTCCAACGAGCAAACATACCAATTTTTAAAACGATTAAAACAAGACTGCGAAGCTTTATTTTCTATTCCTTTATATATCGGGATTGGACAAACAGTTACCCCAAACAATATGAACATATCTTACGAACAAGCATTACGTGCTCTTTCTGTATCATTGGAAACGAAACAAATTGTATTTAATGAAGATTTACGTTTAGAAATGTGTTTACAAGATATTTCTGCCGAAACGCGTGAACAATTTCTAGAGCGTACCATCGAAAACTTACTATCATCTCCTGAGCTTATGCACACCTTACGCTTATTTATCGATTATAACCAATCTTATAAACAGACAGCTAAACAATTACATATACACATTAACACATTACATTACAGGCTAAAAAAGATTGAAGAGCATACAGGACTTGATCCAAAACAATTCAAAGACTTAAACGTTTTATACTTCGCACTCCTCCTATTAGATAATCATACAAAAAAGAACGATAAAACAGATTAA	MLFPDLANKIVREVRRLITENIIIINIQGVIIASTDTERIGQFHEGALRCANQKKTVIITTEDERQLQGVKAGMNLPLLFHDEVIGVIGITGEPENISRYGEILRKMTELLIHENYFLEQLELEHRSYEAFVFDWLQNTAWSPSFLDRAKTLGIDLYKKKQLILFSIGKNDTMLQRKIWQHIRNILTKEHLFVRWGNDRFILFTAMSSNEQTYQFLKRLKQDCEALFSIPLYIGIGQTVTPNNMNISYEQALRALSVSLETKQIVFNEDLRLEMCLQDISAETREQFLERTIENLLSSPELMHTLRLFIDYNQSYKQTAKQLHIHINTLHYRLKKIEEHTGLDPKQFKDLNVLYFALLLLDNHTKKNDKTD				NA	NA	NA	NA	NA
AK009_00028	975			hypothetical protein	TTGAGAAAGTATGTTTTTCTTCTCTGTTTTTTATTTCTATTAGTAGGGTGTCAAGGAAGTTCATATACACCAATTGCTAAAGATAAAAATGTTATTATAACAACGAATATAAAAGAAGGAAGCATTAGTTTTATTGATAAAAAAAATAAAAAGTTAATCACGACATGGGAACTAAATGAGCCAATGGCCGGAATCACACTGCTTCCAAACGGTGAGGAAATCCTTGTATACGGTAAGCAATTAGAATATATGTATGTATATTCATTGGCGGAAGGAAGGCAAGTGGAAAAATATAAAACTGGAAAGGGCATTGTAAATGTGGTCGTATCAGAAGATAAAAAGCAATTATTTGCTGCCGATCAAAATGTTCAAAAGGTAAGGTTCTTTACGATAAATGGGAAAGAGACAGGAAATGTTTCAACAGGAAAAGGTCCTATAACGATGGTAGAGTATCATAATCGGTTATCTGTACTAAACTTTTATGATACGAAACTAACGACAATTGATACGAAGAAAAAAGAAGTTGTTCAATCCTTTATGATTCCGCCAGCATCAACCGGAGCAACGATTAGTCCTGATGGGAAAGAAATATGGATTGGCGGACATGGTGATGGAAATCAAGTAAATGAGAAAGTGTTAGTGTATTCTTTACAGGGGGGAGAAATGGTGCGCTCTTTACACGCTCCATTTATGCCTGTGAATATAACGAAGGATAGTAAGTACGTATATGCACTAAGTCATGGTTCGAACACACTTAGAAAGTTTGATATTAGCACATATAAAGAAATAGCTTCTGTAGAAGTAGGATCGAATCCATTTGCATTTTTGGAGAGCGGAGCAGAAGGATATGTAGCAAGTTATGATAGTGATGAAGTGTGCGTTATGGATATGAAGAATTTGAAAATAAAACAAACAATTAAAGTCGGAAAAGGACCGTTTCAACTCATAGAGAGGGAAGGGAAGGATAATGAATAA	MRKYVFLLCFLFLLVGCQGSSYTPIAKDKNVIITTNIKEGSISFIDKKNKKLITTWELNEPMAGITLLPNGEEILVYGKQLEYMYVYSLAEGRQVEKYKTGKGIVNVVVSEDKKQLFAADQNVQKVRFFTINGKETGNVSTGKGPITMVEYHNRLSVLNFYDTKLTTIDTKKKEVVQSFMIPPASTGATISPDGKEIWIGGHGDGNQVNEKVLVYSLQGGEMVRSLHAPFMPVNITKDSKYVYALSHGSNTLRKFDISTYKEIASVEVGSNPFAFLESGAEGYVASYDSDEVCVMDMKNLKIKQTIKVGKGPFQLIEREGKDNE				NA	NA	NA	NA	NA
AK009_00029	672	srrA_1	COG0745	Transcriptional regulatory protein SrrA	ATGAATAAATATAGAGTGCTAGTTGTAGATGATGAAAGTGATATGAGGCAGCTTGTTGGAATGTATTTGGACAACTTCGGATATGAGTGGGGAGAAGCTGAAAATGGAAAAGAGGCTCTTAAAAAACTAGAAACAGATCATTATGATTTCGTTGTATTAGATATTATGATGCCAGAAATGGATGGACTTTCAGTTTGTAAAGAAATTAGAAAAACGTCAGATGTGCCGATTATATTTTTAACCGCAAAAGGTGAAGAGTGGAATAGGGTGAACGGCTTACGTATGGGAGGGGATGATTATATTGTAAAACCGTTTAGTCCTGGGGAATTGGTTGCCCGTATGGAAGCTGTGTTAAGAAGATATACAAAGCAAGAACAGCAAGAAGAGATTCAATTTGGACCAATTCTTATCAATGAAAAAAGTAGACGAATAGAGGCGGATGGTGAGCCGATTTCTCTTACAGTAAAAGAGTTTGATTTACTATATTTTCTTTGTCAGCATACAGGACAAGTATTTAGCCGGGAACAATTACTTGAAAAGGTATGGGGATATGATTATGCGGGAAGTACAAGAACAGTAGATACGCACGTGAAAACGATGCGCTTGAAGCTTGGAGAAAGTGGAAACTACATTCAAACTGTTTGGGGTGTAGGCTATAAATTCGAGGTGTAA	MNKYRVLVVDDESDMRQLVGMYLDNFGYEWGEAENGKEALKKLETDHYDFVVLDIMMPEMDGLSVCKEIRKTSDVPIIFLTAKGEEWNRVNGLRMGGDDYIVKPFSPGELVARMEAVLRRYTKQEQQEEIQFGPILINEKSRRIEADGEPISLTVKEFDLLYFLCQHTGQVFSREQLLEKVWGYDYAGSTRTVDTHVKTMRLKLGESGNYIQTVWGVGYKFEV	PGPT0011710_127	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011710-nisR|spaR-K20488	NA	NA
AK009_00030	1401	rcsC_1		Sensor histidine kinase RcsC	ATGTTTACGATGGTACAAAAACTTTGGCTTACAGTAGTGTGTGCAGTATGTGTAACAGTGTCCTTTCTTTATTTCGTATCTTTATACTCATATGAAAAACTATACGTTGATAATTTAAAAGGTTCATTAGTAATGGAAGGGAAAAATCTTGCTGCTCAGTATGATAAGCGCGAAGGAATATCAATTTTTGAAGAGAAAGTAAGATCATTTGATCAAATATCTAGTTCAGACGTTCTTTTCGTGTCTAATCCGCGTGATTTAAGTGCATGTTTACCTTTTGATGTGCATCATCATTCTCTTATAAGTGAAGGAGATAGGCAAACGCTATTAGATGGGAAAACTGTGACAAAGATAGGATATGAAGAACATTTTGAACGTAATATTATGGGGGTTGTCATCCCTGTATTGGAAAATAAAAAATTAGTCGGAATTGTATATTCTTATATTCCTTTAAAAAGTATAAAAGACTTAATATATGATATGGGTCTTATTTTAGCACCACTAGCAATTGCGATGATTTTAATTACGATATGGGTTGGAAGAAAAATTATAATTGCAATAACGAAGCCGCTTTCGCAAATGGAGCGGGTTGCAAACCATTTGGCTACGGGAGATTTCTCGGAGCGGATTACCGTTTCTTCAGAGGATGAAATTGGACGACTAGGAAAAGCATTTAATAAAATGGCAAATTCATTGGAAACAGAAGATGTAAAGCGTAAGGAATTTTTAGCAAATGTTTCGCATGAACTTAGAACACCACTTAGTTATATAAAAGGGTATAGCGAGGCTATTTTAGATGGCGTTGCAAAGGGACCACAGCAGGAAAAAGTAACGCAGCTAATTCATAAAGAAGCAGGTCGTATGCAGCGTCTCGTTCATGACTTGTTAGACTTAGCGCAATTAGAAGGTGAGCACTTTCCGTTAAAGAAGCAACCTATCGTTTTTTCACAGCTGATTGAAGACGTATTAGATACGTATGAGATTAAGTTTATAGAAAAGGAAATTCATATTTCAACCAATTTAAATCCAGAGGTCATTGTCATGATTGATGAGGATCGTATGCAACAGGTGCTTCATAATGTGTTAGATAATGCGATACGGTATACAAATCAAAATGGAAATATCGTTATAACTTTAGAGCAAATCGATGATTACTGTGAATTAAAAATAAAAGATACAGGAATTGGCATTGATATAGAGCATTTAGAAAATCTTGGCGAGCGCTTTTACCGAGTTGATAAAGCGAGAAGTCGTCAACATGGTGGAACAGGTTTAGGCCTTGCTATTGTGAGACAAATTGTTCATATACATGGTGGACAGTGGAAAATTAAAAGTGAAAAAGATAAGGGAACAACGGTTATTATTAAACTGAATGTACAGGATGAGGTGGGCATGTTCTAA	MFTMVQKLWLTVVCAVCVTVSFLYFVSLYSYEKLYVDNLKGSLVMEGKNLAAQYDKREGISIFEEKVRSFDQISSSDVLFVSNPRDLSACLPFDVHHHSLISEGDRQTLLDGKTVTKIGYEEHFERNIMGVVIPVLENKKLVGIVYSYIPLKSIKDLIYDMGLILAPLAIAMILITIWVGRKIIIAITKPLSQMERVANHLATGDFSERITVSSEDEIGRLGKAFNKMANSLETEDVKRKEFLANVSHELRTPLSYIKGYSEAILDGVAKGPQQEKVTQLIHKEAGRMQRLVHDLLDLAQLEGEHFPLKKQPIVFSQLIEDVLDTYEIKFIEKEIHISTNLNPEVIVMIDEDRMQQVLHNVLDNAIRYTNQNGNIVITLEQIDDYCELKIKDTGIGIDIEHLENLGERFYRVDKARSRQHGGTGLGLAIVRQIVHIHGGQWKIKSEKDKGTTVIIKLNVQDEVGMF	PGPT0003985_663	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK009_00031	657	lutR	COG2186	HTH-type transcriptional regulator LutR	ATGATTAAAAATGGTACGTTAAAACCTGGTGACAAACTACTCCCTGTGCATCAATTAGCTGAGCAGTTTCAAGTTGGCAGATCTGCTGTTCGTGAAGCGCTAAGTGCGCTAAGAGCGATGGGCTTAATTGAGATGAAACAAGGAGAAGGTACATATGTGAAGAACTTCGATTCTTCTTCATTAACAAAATCATTAAACAATAGATTATTAATGAAGAAAGAAGATATTTTGAATTTATTAGAAGTACGAAAGGTGCTTGAAGTGGGGGCAGTTCGAGTAGCGGCGGCAAAACGTACGGAAGATAATTTACAAAATATGAAACATTGGTTAGATGAAATGGCAAAGAGCATTGGAGATGAAAAGGCTGGCGAAAAAGCTGATTTTCAATTTCATATGGGAATTGCAGAGTCTTCGCATAATAACATTTTGCTTGAACTCATGAATCATGTTTCAGAGATGATTGCTGAAACAATTGGTGAATCAAGACGCATTATTTTATATGGTGAACAAACGACATCAGAACGACTTATAGAAGAGCATCAAGTTATATATGATGCGGTGTTAAAACAAGATGTAGAATTAGCGCAGAAAGCAATGCTAGATCATTTAACAAATGTAGAACATATTGTCACAGGTAAAAACGATATAAATTCGTAA	MIKNGTLKPGDKLLPVHQLAEQFQVGRSAVREALSALRAMGLIEMKQGEGTYVKNFDSSSLTKSLNNRLLMKKEDILNLLEVRKVLEVGAVRVAAAKRTEDNLQNMKHWLDEMAKSIGDEKAGEKADFQFHMGIAESSHNNILLELMNHVSEMIAETIGESRRIILYGEQTTSERLIEEHQVIYDAVLKQDVELAQKAMLDHLTNVEHIVTGKNDINS				NA	NA	NA	NA	NA
AK009_00032	720	lutA_2	COG0247	Lactate utilization protein A	ATGAAAGTTACTTTATTTGTTACTTGTTTAGTCGATATGTTTGAAACAAATGTCGGTAAAGCAACAGTTGAAGTGTTGGAGCGTTTAGGTTGTGAAATTGAATTTCCAGAAGCACAAGTTTGTTGTGGTCAGCCTGCTTATAATAGCGGCCATGTAGAAGCAGCAAAAGAAGCGATGAAACATATGATTGAAACTTTTGAAGATGCAGAATATATTGTTACACCATCTGGCTCGTGTGCGACAATGTTTCATGAGTATCCGCATGTTTTCAAAGATGATCCAAAGTGGGCTAAACGTGCACAAAAAGTTGCTGATAAAACTTATGAATTTACACAGTTTATTGTAGATGTTTTAAAAGTTACAGATGTTGGTGCAAGTTTATCAGGGATAGCTACTATTCATAAATCATGTCATATGACACGTATGCTCGGAGTAAAAGAAGCACCAGGGATTTTATTATCAAATGTAAAAGGATTAACTGTGAGAGATTTGCCAAACGTGCAAAATTGTTGTGGGTTTGGGGGAACGTTTTCAGTTAAGATGACTCCAATCTCTGAGCAAATGGTAGATGAAAAAGTAGATAGTGTAATGGAAACAGGTGCAGATTATTTAATCGGTGCAGATTGTGGGTGTTTGTTAAACATTGGCGGACGTATTGAGCGTTTAGGAAAAGAAGTAAAAGTAATGCATATTGCTGAGGTACTGAATAGTCGCTCATGA	MKVTLFVTCLVDMFETNVGKATVEVLERLGCEIEFPEAQVCCGQPAYNSGHVEAAKEAMKHMIETFEDAEYIVTPSGSCATMFHEYPHVFKDDPKWAKRAQKVADKTYEFTQFIVDVLKVTDVGASLSGIATIHKSCHMTRMLGVKEAPGILLSNVKGLTVRDLPNVQNCCGFGGTFSVKMTPISEQMVDEKVDSVMETGADYLIGADCGCLLNIGGRIERLGKEVKVMHIAEVLNSRS	PGPT0018090_1683	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
AK009_00033	1422	lutB	COG1139	Lactate utilization protein B	ATGTCTATGAAAATCAGTGAGAAAAAATTTAATGATCGCGTTGGTGATGGAATTCAAGATTCGTTTATGCGCGGAGCAGTATCTTCGGCACAAACGCGCTTATATACGAATCGCTTAAAAGCCGCAGATGAATTAGGAAACTGGGAAGAGTGGCGTGAACTAGGTGAACAAATCCGTCAACATACGTTAGAAAATCTTGATTATTACTTAATGCAGTTAAGTGAAAATGTATCAAAAAGAGGCGGACACGTGTACTTTGCGAAGACGAAAGAGGAAGCAGCAAAGTATATTCAAGACGTCGCCAAAAAGAAACAAGCGAAAAAAGTAGTAAAATCAAAGTCGATGGTAACAGAAGAAATCAGTATGAACCATGCGCTTGAAGAGATTGGCTGTGAAGTGTTAGAGAGTGATTTAGGAGAGTATATCTTGCAAGTAGATAACGATCCACCTTCACATATTATTGCACCTGCACTTCATAAAAATAGAACGCAAATTCGCGATGTATTTAAAGAAAAGCTAGGCTATGAAAATTCTGATGACCCGTATGAAATGACAAAGTTTGTTCGTAAACAACTTCGTGAGAAATTTATGGATGCAGAAATTGGTGTAACTGGTTGTAACTTTGCTGTTGCAAATACGGGCTCCCTTTGTTTAGTAACGAATGAAGGTAATGCAGATCTTGTTATGTCAATTCCGAAAACACAAATTGCAGTAATGGGTATGGAACGTATGGTTCCGACAATGGAAGAATTAGATGTTTTAGTTGGTTTACTATGTCGTAGTGCAGTAGGTCAAAAATTAACAAGTTATGTAACAGTAGCAGGACCAATTCAAGAAGAGGAAGTTGATGGACCTGAAGAATTCCATTTAGTTGTTGTTGATAATGGTCGCTCTCAAATTCTTGGATCTGAATTCCGTTCAGTATTACAATGTATTCGTTGCGCTGCTTGTGTTAACGTATGTCCTGTATATCGTCACGTTGGTGGACATTCATATGGATCGATTTATTCAGGACCAATCGGCGCGGTATTAACACCGCTTCTAGGTGGATATGATGATTATAAAGAGCTTCCTTATGCATCTAGTTTATGCGGAGCATGTACAGAAGCTTGTCCAGTAAAAATTCCATTGCATGATTTATTATTAAAACATCGTCAAGTCATCGTTGAGCAAGAAGGTCGTGCACCACTTGCAGAAAAACTAGCGATGAAAATGTTTAGTATGGGTGCTTCTTCAGCTGCTTTATATAAAATGGGTTCAAAAATGGCACCAGCGGCAATGAGTCCATTTACATCTGGTAATCGTGTATCAAAAGGTGTTGGCCCACTTAAAAACTGGACGGATATTCGTGAATTCCCAGCTCCAAGTAAAGAACGATTCCGTGATTGGTATAAAGATCATAAGAAAGGCGGGGATAAATAA	MSMKISEKKFNDRVGDGIQDSFMRGAVSSAQTRLYTNRLKAADELGNWEEWRELGEQIRQHTLENLDYYLMQLSENVSKRGGHVYFAKTKEEAAKYIQDVAKKKQAKKVVKSKSMVTEEISMNHALEEIGCEVLESDLGEYILQVDNDPPSHIIAPALHKNRTQIRDVFKEKLGYENSDDPYEMTKFVRKQLREKFMDAEIGVTGCNFAVANTGSLCLVTNEGNADLVMSIPKTQIAVMGMERMVPTMEELDVLVGLLCRSAVGQKLTSYVTVAGPIQEEEVDGPEEFHLVVVDNGRSQILGSEFRSVLQCIRCAACVNVCPVYRHVGGHSYGSIYSGPIGAVLTPLLGGYDDYKELPYASSLCGACTEACPVKIPLHDLLLKHRQVIVEQEGRAPLAEKLAMKMFSMGASSAALYKMGSKMAPAAMSPFTSGNRVSKGVGPLKNWTDIREFPAPSKERFRDWYKDHKKGGDK	PGPT0018095_1235	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
AK009_00034	711	lutC	COG1556	Lactate utilization protein C	ATGACAGGATTAATTCAAAACCGTGATGCCTTTCTAGATAACATTGCAAAAGAACTTGGGCGCGCGCGTAAAACAGAAGGTGTAGAGCGTCCAGTATGGAAAAGTAATGTGAATATAGAAACGTTAAAAGATTATTCACAAGAAGAATTACTAGAAGTGTTTAAAAATCAATGTACAAACATTCATACAACTGTAGTAGAAACGACAAATGAACGTTTACGTGAAGACCTTCAACAAGTAATCATGGAAAACGGCGGAGGACCTATTTTATTATCAGCGGATGAGCGTTTTGATGCATATGGTTTAACATCTTTATTTAAAGAAGAACTTCCAAAGCGAGACGTTGAAGTAAACGTATGGGATCCAGAGAGAAAAGACGGAAATATGCGTTTAGCTGAAAAAGCGAATATTGGTATTGCATTTAGTGATTATACATTAGCTGAATCTGGTACAATTGTTGTACAAAGTCATAAAGGACAAGGACGTTCTTTACATTTTTTACCGACTGTATATTTAGCTATTATTCCACGTGAAACACTTGTGCCTCGTATTACACAAGCAGTTCAGGATATGAACTCACGTGTAGAAGATGGCGAGACAGCGGCATCTTGTATTAACTTTATTACAGGACCAAGTAACTCGGCTGACATTGAGATGAATCTTGTTGTCGGAGTACATGGACCATTAAAAGCAATATATTTCATCGTATAA	MTGLIQNRDAFLDNIAKELGRARKTEGVERPVWKSNVNIETLKDYSQEELLEVFKNQCTNIHTTVVETTNERLREDLQQVIMENGGGPILLSADERFDAYGLTSLFKEELPKRDVEVNVWDPERKDGNMRLAEKANIGIAFSDYTLAESGTIVVQSHKGQGRSLHFLPTVYLAIIPRETLVPRITQAVQDMNSRVEDGETAASCINFITGPSNSADIEMNLVVGVHGPLKAIYFIV	PGPT0018100_416	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
AK009_00035	723	comC		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGTTCACTTATTTATATGCACTGTTAGCAGGAATGGTGTTTGGGTCTTTTTTTATGTTAGTTGCGATGAGGGTTCCATTAGGGGAGTCTATCATTACCCCGCGTTCACATTGTCATTATTGTAAATATGTGCTAAGGCCAAAAGAACTAATCCCCATCATTTCATTTTATATACAAAGAGGCTGTTGTACGAATTGTAAGAGGCAAATTCCGATTATGTATGTAGCATTTGAATGTATAACAGGAAGTATATTTCTTCTTACCGTGTATATGATTGGAATAGAACGAGAGCTTATTATCATTTTATCCCTTTTTTCGCTACTTCTTATTATTTCACTTACAGATTACTTATATATGTTAATTCCTGATTGTATTTTAATTTCATTTGCCGTTTTACTCATTCTCGAAAGTGTTTTTGTACAATTAGTTACTTGGACAGATAGTATAGTTGGTAGTGGTGTTATATTCATTTTGTTATATTGCATGCAAAAGATATATCCAGAAGGGCTTGGCGGTGGAGATATAAAACTACTTTCGTTGCTTGGGTTTATAGTAGGAGTGAAGGGAGTTTTTATCATTTTATTTTTAGCATCTTGTTTTAGTCTTTGTTTTTTCGGGATTGGGATCGTATTAAAGCGTATAGAAGTACGAAAGCCCATTCCATTTGGTCCTTTTATTAGCCTTGGGGCAATATGTTATGTATTGGTCGCATATTCAAAGTAG	MFTYLYALLAGMVFGSFFMLVAMRVPLGESIITPRSHCHYCKYVLRPKELIPIISFYIQRGCCTNCKRQIPIMYVAFECITGSIFLLTVYMIGIERELIIILSLFSLLLIISLTDYLYMLIPDCILISFAVLLILESVFVQLVTWTDSIVGSGVIFILLYCMQKIYPEGLGGGDIKLLSLLGFIVGVKGVFIILFLASCFSLCFFGIGIVLKRIEVRKPIPFGPFISLGAICYVLVAYSK	PGPT0029470_223	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
AK009_00036	312			hypothetical protein	ATGAACGTATATATGGATGATCAAAGAAGTTGTCCGTTCGGGTATGTGCCGGCAACTACAGTAGAATGTACCTTACAAATGGTTCGGGATTATGGTGTGAATATTCTTTCCCTTGATTTTAATATGGGATGGGGAGAAAAAAGTGGACTAGATTTTGTAGAAGCCTTTTGTACAGAAGGGTTATATGTAAATGAAATTCACCTTCATACGAATGATATCATCGGTATGCATAAGATGAAACAAAGATTGGATAAGGGAAAGGAAGAAGGAGAAATTAATCCTTACCTTGTTGTTAAATATGTGGGAAGCTAA	MNVYMDDQRSCPFGYVPATTVECTLQMVRDYGVNILSLDFNMGWGEKSGLDFVEAFCTEGLYVNEIHLHTNDIIGMHKMKQRLDKGKEEGEINPYLVVKYVGS				NA	NA	NA	NA	NA
AK009_00037	852	nirC_1	COG2116	Nitrite transporter NirC	ATGCTAGAACAAGGACTAGATTATGTTGTCAAACTGGCTAAAAGCAAAAAGAAAATGCTAGATACAAACCCAATGCAATATTTCATTCGTGCTGCACTTGCGGGTATTTATATCGGTTTTATTATTGTACTATGTTTTAAATTAGGTAATTTTTTTCACATTGCAGATTCACCAGCAACTTATTTAGCTGCTTCTATGTTTTTCGGGATTGCTCTCGTACTTATTATATATGGCGGTGCTGAATTGTTTACTGGAAACACAATGTACTTTACTGTAGCAACTTTAAGAAAGGAAACAACGATTTCTGATACACTGCGTAACTGGGTTGCTTGTTACGCAGGTAACTTAGGTGGCGCGTTATTCTTTGCCTTACTATTTTACGCAACTGGAATTTTTGAAGCAATTGATCACGGTCACTTAATGAGTAAAGTCGTTGAAGGAAAGATGAACACACCTACAATGCAGTTATTCTTTAAAGCCATTTTATGTAACTGGCTCGTATGTCTTGCTTGCTTCTTACCTTCTCAGGTCAAAGGTGACACAGCAAAAATAATGGTCATGATGCTACTTGTTTTCACATTCTTCTTATCTGGTTACGAACATAGTATTGCAAACTTATCACTCTTTGCTTTATCTTTAGTTTCACCGCATCCTGAGACAATTTCTTTTTCAGGTGCTATTCATAACTTAATTCCTGTTACAATCGGTAACATTATTGGCGGATCAGTATTTGTCGGTATGGTATACCACTACTTAACTAAGAAAACACCTGACGTTCAACAGGAAGAAACTGAAATCGCAGCAGCTCAACAAGAAGAGATTATTCCTTTACAAGCACATATGAAACATTAA	MLEQGLDYVVKLAKSKKKMLDTNPMQYFIRAALAGIYIGFIIVLCFKLGNFFHIADSPATYLAASMFFGIALVLIIYGGAELFTGNTMYFTVATLRKETTISDTLRNWVACYAGNLGGALFFALLFYATGIFEAIDHGHLMSKVVEGKMNTPTMQLFFKAILCNWLVCLACFLPSQVKGDTAKIMVMMLLVFTFFLSGYEHSIANLSLFALSLVSPHPETISFSGAIHNLIPVTIGNIIGGSVFVGMVYHYLTKKTPDVQQEETEIAAAQQEEIIPLQAHMKH	PGPT0000565_25	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000565-nirC-K02598	NA	NA
AK009_00038	795			hypothetical protein	ATGGATGTATCATTATTATTGGAGTATGGTTGGGTATTACTCATCCTAATTGCACTTGAAGGAATTTTAGCGGCTGATAACGCTCTTGTTCTTGCAATTATGGTAAAACATTTACCAGAAGAAAAACGAAAGAAAGCACTATTTTATGGATTAGCGGGGGCATTTGTTTTCCGATTCGGATCGTTATTTATGATTTCGTTCTTAGTCGATGTATGGCAAGTGCAAGCAATCGGTGCCATCTACCTTATGTTTATCGCTGGTAATCACTTATTTAAAACGTATATTAAAAAGAATACGGATGAAGAAACTGAAGAAAAAGAAGCAAAGAAAAAACAAGAGAACTTTTGGTGGACTGTATTTAAAGTTGAGGTTGCTGATATCGCCTTCGCAGTTGATTCAATTTTAGCTGCTGTTGCACTAGCAATGACTTTACCAAAAACAGGATTAGGTACAATTGGTAGTCTTGATACTGGGCAATTCGTTGTTATCTTTGTGGGTGGACTTATCGGATTAATCATTATGCGATTTGCAGCAACTGCTTTCGTACAAATCTTAAAACGTAAACCAGGACTTGAAACTGCAGCATTCTTAATTGTAGGTTGGGTTGGTGTAAAGCTAGCAGTTTATACATTAGCACACCCTGCATTAAATGTAATTCCACATTCATTCCCAGAATCCACTCCGTGGAAGCTTACATTCTGGATTGTATTAGTCGGAATCGCAGTTGGTGGTTGGTTCTTCTCAAAAGAAGTAGAAGTAAAAGTAGAAAAGAATTTAGACGAAAAAGCGCTGTAA	MDVSLLLEYGWVLLILIALEGILAADNALVLAIMVKHLPEEKRKKALFYGLAGAFVFRFGSLFMISFLVDVWQVQAIGAIYLMFIAGNHLFKTYIKKNTDEETEEKEAKKKQENFWWTVFKVEVADIAFAVDSILAAVALAMTLPKTGLGTIGSLDTGQFVVIFVGGLIGLIIMRFAATAFVQILKRKPGLETAAFLIVGWVGVKLAVYTLAHPALNVIPHSFPESTPWKLTFWIVLVGIAVGGWFFSKEVEVKVEKNLDEKAL	PGPT0003866_7	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
AK009_00040	1320	ktrB_1	COG0168	Ktr system potassium uptake protein B	ATGAAACGGATTAATATTAGCATGAGCCCTCCACGCGTTCTTACTTTATCTTTTCTTCTATTATCAGTTGTCGGCACATGCTTATTAAAACTGCCCATTGCTACGACAACGTCCATTTCATGGCTCGATGCCTTATTTACAACCGTTTCCGCTTGTACTGTTACTGGGCTTGGTGTTGTAGATACCGGAAAAATGTTTACTTTATTTGGACAATGTGTCATTTTAGCGCTTATACAAGTTGGCGGGCTTGGCATTATGAGCTTTGCTGTCTTAATTGCGATTATGCTCGGAAGAAAAATCGGTCTTCAAAACCGTATTTTATTACAACAAGCATTAAATCAAACGAATATCGGCGGCGTCATCCGTCTTGCCAAATCGTTATTTTTATTCTCTTTTACAGTCGAATGTATCGCTACTTTAATTCTTTCTTTTGAGTGGGTACCAAAATATGGGGTTACCAAAGGGATCTATTATAGTTTTTTCCATTCAATCTCAGCCTTTAACAATGCTGGTTTTTCTGTGTGGAGCGATAATTTAATGTCCCATTCTCATAGCATTCTTGTCAATTTCGTCATTTCCTCTCTCATCATTTTAGGTGGAATAGGTTTTACAGTAATCGTAGACATAAAAAGAAAGAAAAACTTTAAAAACCTTACACTACATTCAAAACTTATGCTTTCTTCTACTCTAATCGTCAACATTATTGCTACCCTTTTTATTTTTATATTCGAGTTCCATAACTCCCTTTCTATGAGAGGTTTTACCCCATTTGAAGAAGGAATAGCCTCTTATTTTCAAGCAATTTCGACGCGAACTGCCGGGTTTAATACAGTTGATATTTCTACATTGTCAAAACCTTCCCTCCTATTAATGATGCTCCTTATGTTTATTGGTGCTGGTAGCGCTTCAACGGGTGGTGGGATTAAGTTAACAACATTTTTAATCATATTTTTTGGCGTATTTAAATTTCTACAAGAACAAGAGGATATTGTCGTATTTAAAAAATCCATTAAAGATACTCTCATTGTCAAATCATTAACTATTACTATTATTTCCATTTCATTTATCTTTTTTGCTATTTTAATTTTGAGTATTACTGAGCGAGTTCCTCTATTGATGAGTGCTTTCGAAGTATTTTCAGCATTTGGGACTGTTGGCCTCAGTATGAACTTAACACCCCACTTAACTATAATCGGAAAAGCTATTATTATCTTTATGATGTTTTTTGGGAAAATGGGTCCTTTAACATTGGCTTTTTCATTTGCTCGTAAAAAGAACCGGAAAATAAAATATCCGAATGAAGATATTTTAACAGGTTGA	MKRINISMSPPRVLTLSFLLLSVVGTCLLKLPIATTTSISWLDALFTTVSACTVTGLGVVDTGKMFTLFGQCVILALIQVGGLGIMSFAVLIAIMLGRKIGLQNRILLQQALNQTNIGGVIRLAKSLFLFSFTVECIATLILSFEWVPKYGVTKGIYYSFFHSISAFNNAGFSVWSDNLMSHSHSILVNFVISSLIILGGIGFTVIVDIKRKKNFKNLTLHSKLMLSSTLIVNIIATLFIFIFEFHNSLSMRGFTPFEEGIASYFQAISTRTAGFNTVDISTLSKPSLLLMMLLMFIGAGSASTGGGIKLTTFLIIFFGVFKFLQEQEDIVVFKKSIKDTLIVKSLTITIISISFIFFAILILSITERVPLLMSAFEVFSAFGTVGLSMNLTPHLTIIGKAIIIFMMFFGKMGPLTLAFSFARKKNRKIKYPNEDILTG	PGPT0002735_5111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK009_00041	186	sspD		Small, acid-soluble spore protein D	ATGGTAAAAACAAACAAATTATTAGTTCCAGGTGCAGAGCAAGCGCTTGAACAATTTAAATATGAGATTGCACAAGAATTTGGTGTAAGCTTAGGGTCTAATACAGCATCTCGTTCTAACGGTTCAGTTGGCGGTGAAGTAACAAAACGTCTTGTTGCTTTAGCACAACAACAATTACGTGGATAA	MVKTNKLLVPGAEQALEQFKYEIAQEFGVSLGSNTASRSNGSVGGEVTKRLVALAQQQLRG	PGPT0024875_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024875-sspD-K06421	NA	NA
AK009_00042	444	phaJ_1	COG2030	(R)-specific enoyl-CoA hydratase	ATGAATCCATTTCAAGAAGCACAAACTGTTCCGGAGCTTCGTTATGATGAGATTCAAGTCGGTGATCAAGCATCCCTTACAAAAACAATTACGGATGAAGATGTTATCAATTTTGCAAAATTGACTGGAGATGTGAATCCTATTCATATTTTAGATTCTTTTGCAAAAACAACAATGTTTAAAGAACGTATTGCTCACGGTATGCTCGTTTCGAGTTTTATTTCTACCATCCTTGGAACGAAACTCCCAGGCAAAAATACGATTTATTTATCCCAAAATGTTTCATTCCGTGCCCCTGTCAAAATCGGTGATACACTTCGTGTTGTGGCAGAGGTTATTAAGAAGCGTGACGATAAAAAAATCATTACGTTGCAAACAAACATATATAATCAATCAGATGATATTGTCGTGGAAGGAACGGCGACAATACTAAAAAAAGAGTAG	MNPFQEAQTVPELRYDEIQVGDQASLTKTITDEDVINFAKLTGDVNPIHILDSFAKTTMFKERIAHGMLVSSFISTILGTKLPGKNTIYLSQNVSFRAPVKIGDTLRVVAEVIKKRDDKKIITLQTNIYNQSDDIVVEGTATILKKE	PGPT0014741_80	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
AK009_00043	525			hypothetical protein	ATGGAAACTAAACCATACGAATTAGTCGATGCATTTTGGAAAAACTGGTCTCAATCACTTTCCCTTTTCTCTTCAGCTGGGAAACAATTAGAGCAACTTACTTTAGAAACATTAAAACAACAACAAGACGCTTTGCATAAATTAACATCAGGAGTAGATGAACTAGAAAAAGAACTACAACAACTCACTGCTCAGTTCAATAACCAATATACAGATTACGTGAAACAATTAACTGGAAACTCCTTAAATGATCAAATTAACGAGTGGCAAGACAAGTGGAAGGAACTTTCTGCTCATATGCAGCAACTTACTGTTTCTCCTACAAAAACATCTTTGTCAATCCTTACACAAACAAGCGGTCAATTTGAAGAAACAACAAAACAATTTATTGAGCAACAACAATTACAACGTGAAGAGGCTCAAAAACAGTTAGAGGTTTTTTTGGAAGAGTTCAAGTCAAAACAGTTGGAACTCGCAAAAAAGTTCGAGGAAAATTCAAAAAATCTATTTACTTCCATCAAGTAA	METKPYELVDAFWKNWSQSLSLFSSAGKQLEQLTLETLKQQQDALHKLTSGVDELEKELQQLTAQFNNQYTDYVKQLTGNSLNDQINEWQDKWKELSAHMQQLTVSPTKTSLSILTQTSGQFEETTKQFIEQQQLQREEAQKQLEVFLEEFKSKQLELAKKFEENSKNLFTSIK				NA	NA	NA	NA	NA
AK009_00044	453			hypothetical protein	ATGCTACAAAATGAACCAGAACAACGCGAAAGTTTGGAGAACAACCAAGCGAAACAACCAAACTCCATGCCAAAAAACTTCTTAGTTCCCTTCTTACTTCTCTGTCTAAAAGACTGGAGTCTTCATGGTTACAAACTTATTCAAATGCTAATGGATATCGGCTTTTCTTCTGTTGACCAAGGTAATGTTTATAGAACACTACGCAAATTAGAAAAAGAAAACCTTATTTCTTCTACTTGGGATACAAGCGATGGAGGGCCGGCAAAAAGAATTTATTCTTTAACTGAATATGGAGAGCAATATTTAACAACATGTGCGACTTCTTTTGAACATTATCAAAATATGTTGCGAACGTTTTTCACGTTATACACCAATGCATTCTTTCCATTTTCTACTTCTCCAGAAAAGGATGAAAAGGATTCTTCATCTTCACCTGGTGGTACAGCAGAGTAA	MLQNEPEQRESLENNQAKQPNSMPKNFLVPFLLLCLKDWSLHGYKLIQMLMDIGFSSVDQGNVYRTLRKLEKENLISSTWDTSDGGPAKRIYSLTEYGEQYLTTCATSFEHYQNMLRTFFTLYTNAFFPFSTSPEKDEKDSSSSPGGTAE				NA	NA	NA	NA	NA
AK009_00045	483			hypothetical protein	GTGATTGATCAAAAATTCGATCCACTACAAGCATGGAAAAATGCTTATGAACAAACCGAAACATTTTGGGGAAAAGCGCTCAATGAAACAATTAAAACAGAAGAATATTCTGCTTGGATGGGCAGCGTTCTAGATTTGAATTTGTTTTATCAAAAAGCATTAAATGATACGACAAAAAACTATTTAGAACAAGTAAATGTGCCGACGAAAGAGGATATCGCAAGAGTGGCTACGCTTGTTATTAACTTAGAAAATAAAGTAGATAACATTGAGGAGTTTCTAGAGGAGAAAGTAGATTCTTTAGGACAAGCTCCTACATTAAAGCGTGATGTGACGAAAGTGAAACAAGATATTCGTACGCTTGAAACAAAAGTAGATCAAATTTTAGAATTGCTAGAAAAGCAAAATGCAGTACTAGCTAAACTACAAGTACCTGTAAAAGAAGAGATAAAGCCTGCGAATAAGCCGGAAAATAAAAAATGA	MIDQKFDPLQAWKNAYEQTETFWGKALNETIKTEEYSAWMGSVLDLNLFYQKALNDTTKNYLEQVNVPTKEDIARVATLVINLENKVDNIEEFLEEKVDSLGQAPTLKRDVTKVKQDIRTLETKVDQILELLEKQNAVLAKLQVPVKEEIKPANKPENKK				NA	NA	NA	NA	NA
AK009_00046	744	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGTTCAATTAAATGGCAAAGTAGCAATCGTAACAGGTGGAGCAAAAGGGATTGGAAAAGCAATTACAGTAGCATTAGCACAAGAGGGAGCGAAAGTAGTTATTAACTATAATAGCAGTAAAGAAGCAGCTGAAAATTTAGTAAATGAACTAGGAAAAGATGGACATGACGTTTATGCAGTGCAAGCGGATGTTTCTAAAGTAGAAGATGCAAACCGACTTGTGGAAGAAGCTGTGAATCATTTTGGTAAAGTTGATATTCTTGTTAATAATGCTGGTATTACAAGAGATCGTACATTCAAAAAGTTAAATCGTGAAGATTGGGAGCGCGTAATTGACGTGAATTTAAGTAGCGTATTTAATACGACAAGCGCGGTTCTTCCATACATAACGGAAGCGGAAGAAGGAAGAATTATTAGCATTTCTTCTATTATTGGCCAAGCAGGTGGATTTGGCCAAACAAACTACTCAGCAGCAAAAGCGGGTATGTTAGGATTTACAAAATCATTAGCATTAGAACTTGCAAAAACAAATGTCACTGTAAATGCAATTTGCCCTGGATTTATTGATACTGAAATGGTAGCAGAAGTACCAGAAGAAGTACGTCAAAAAATCGTTGCAAAAATCCCGAAAAAACGTTTTGGTCAAGCTGATGAAATTGCAAAAGGTGTAGTATACCTATGCCGTGACGGTGCGTATATCACAGGTCAGCAATTAAACATTAACGGCGGATTATATATGTAA	MVQLNGKVAIVTGGAKGIGKAITVALAQEGAKVVINYNSSKEAAENLVNELGKDGHDVYAVQADVSKVEDANRLVEEAVNHFGKVDILVNNAGITRDRTFKKLNREDWERVIDVNLSSVFNTTSAVLPYITEAEEGRIISISSIIGQAGGFGQTNYSAAKAGMLGFTKSLALELAKTNVTVNAICPGFIDTEMVAEVPEEVRQKIVAKIPKKRFGQADEIAKGVVYLCRDGAYITGQQLNINGGLYM	PGPT0014735_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014735-phbB|phaB-K00023	NA	NA
AK009_00047	1086	phaC	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGACTACATTCGCAACAGAATGGGAAAAGCAATTAGAGCTATACCCAGAAGAGTACCGAAAAGCATACCGCCGAGTGAAAAGGGCGAGTGAAATTTTATTACGTGAACCAGAGCCGCAAGTAGGATTAACGCCGAAAGAGGTTATTTGGACGAAGAATAAGACGAAGCTTTATCGCTACATTCCAAAACAAGAAAAAACACAAAGAGTTCCAATTCTGTTAATATATGCTCTTATTAATAAACCATATATTATGGATTTAACTCCTGGAAATAGTTTAGTGGAATATCTAGTGGATCGTGGTTTTGATGTGTATATGCTTGATTGGGGCACATTTGGTTTAGAAGATAGTCATTTGAAATTTGATGATTTCGTGTTTGATTATATTGCAAAAGCAGTAAAAAAAGTAATGCGAACTGCAAAAGCGGACGAGATTTCTTTACTTGGTTATTGCATGGGTGGAACGCTAACTTCCATTTATGCAGCACTTCATCCGCACATGCCAATTCGTAATTTAATTTTCATGACAAGTCCTTTTGATTTCTCTGAAACAGGATTGTATGGTCCTTTATTAGATGAGAAATACTTCAATTTAGATAAAGCGGTTGATACATTTGGAAATATTCCGCCAGAAATGATTGATTTCGGAAACAAAATGTTAAAACCAATTACGAACTTTGTTGGTCCATATGTTGCTTTAGTAGATCGTTCAGAGAATGAGCGCTTCGTCGAAAGCTGGAGATTGGTTCAAAAGTGGGTTGGTGATGGTATTCCGTTCCCAGGTGAATCATACAGACAGTGGATTCGTGATTTTTATCAAAATAATAAACTGGTTAAGGGTGAACTTGTTATTCGCGGACAAAAGGTAGACCTTGCAAATATTAAAGCGAATGTCTTAAATATTTCCGGGAAACGTGATCATATCGCTTTGCCATGTCAAGTAGAAGCGTTACTAGACCATATTTCTAGCACAGATAAACAATATGTATGTTTACCGACAGGGCATATGTCTATTGTTTACGGTGGAACAGCTGTAAAACAAACATATCCGACGATTGGAAATTGGCTTGAAGAGCGTTCTAATTAA	MTTFATEWEKQLELYPEEYRKAYRRVKRASEILLREPEPQVGLTPKEVIWTKNKTKLYRYIPKQEKTQRVPILLIYALINKPYIMDLTPGNSLVEYLVDRGFDVYMLDWGTFGLEDSHLKFDDFVFDYIAKAVKKVMRTAKADEISLLGYCMGGTLTSIYAALHPHMPIRNLIFMTSPFDFSETGLYGPLLDEKYFNLDKAVDTFGNIPPEMIDFGNKMLKPITNFVGPYVALVDRSENERFVESWRLVQKWVGDGIPFPGESYRQWIRDFYQNNKLVKGELVIRGQKVDLANIKANVLNISGKRDHIALPCQVEALLDHISSTDKQYVCLPTGHMSIVYGGTAVKQTYPTIGNWLEERSN	PGPT0014740_2159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
AK009_00048	1194	puuB		Gamma-glutamylputrescine oxidoreductase	ATGAAACTTATGACCGGTAAGTTGTTTTGGAATACAGGAGTTTCTGTACCTTGTTATCCACCGTTAGAAAGTGATATGATATGTGATGTACTTGTAGTCGGAAGTGGCGAAGCAGGTGCTCATATAGCGCATTCGTTAGCGAAAATTGGTATGAGTGTTACTCTTATTGAAAAAAGAGCAATTGCGTGTGGTAGCACAGCTGCTAATACAGGTTTACTACAATTTCTTCATGATAAATCGTTAACTTCTCTTATTCATACATTTGGTAAAGAAAAAGGGGTACGAGCATATAAGCTTTGTTATGAAGCGCTAAGAACAATGGAAGAGGTTATACCGACTCTTGATATTGATCCCCATTTTATTCCGCGAAATAGTTTATATTATGCAAGTAAAAGTGAGGATGTCTCATTTTTACAAGAGGAATATAATACGTTACAGAATTATGGATTTCCAGTTGAATATTTTACAGAAGCTGATATTAAGAAACGTTATTCTTTTGCAAAACAAGCAGCGTTATATATGCAAGGTGATGCTGAGGTGAATCCGTATTTACTAGCGCATAGTTTTTTGCATAAAGCAAACCAAATGGGAGCTAATATATATGAACATACAGAGGCAATACATATAAAAAAACACCAAAATGATTTAATTTGTTACACGAAAACAGGAAATCAAATTGTAGCAAAGAATATTATTATGGCGACAGGTTATGAAGCGCTTTTTGGAAAGAAAGAAAAGAATACAACAGTAGAAACTTCTTATGCAATTGTAACAAATGAAATAAATCAGTTTGAAGGCTGGCATGAGCGATCGTTAATTTGGGAAACGGCACGGCCCTACTTATATTTTCGAACGTATCGAAACCGCATTATTGTAGGCGGATTAGATGAAGCGATACAAATTCAAACAATCGGTGATACGAAATTATTGCATAAGCGTGATATCCTTATTAATATTGTAAAAGAACTGTTCCCGCAGTATAAAAATATACAGGCAGACTACTATTGGGCAGCCGCATTTGGTGGTACTCATGATGGTCTCCCCATTTTAAAAGAAGACGAAAAGATACATAATTTGTTTTACGCATTGCCGTATGGAGGTAATGGAACTGTATATGGAATGGTCTTTGCCAAATTATTTGAGCAGTTATTTACAAATAAAGAAAGTAAAGATTTTTCTTTATTTAATCGATAG	MKLMTGKLFWNTGVSVPCYPPLESDMICDVLVVGSGEAGAHIAHSLAKIGMSVTLIEKRAIACGSTAANTGLLQFLHDKSLTSLIHTFGKEKGVRAYKLCYEALRTMEEVIPTLDIDPHFIPRNSLYYASKSEDVSFLQEEYNTLQNYGFPVEYFTEADIKKRYSFAKQAALYMQGDAEVNPYLLAHSFLHKANQMGANIYEHTEAIHIKKHQNDLICYTKTGNQIVAKNIIMATGYEALFGKKEKNTTVETSYAIVTNEINQFEGWHERSLIWETARPYLYFRTYRNRIIVGGLDEAIQIQTIGDTKLLHKRDILINIVKELFPQYKNIQADYYWAAAFGGTHDGLPILKEDEKIHNLFYALPYGGNGTVYGMVFAKLFEQLFTNKESKDFSLFNR				NA	NA	NA	NA	NA
AK009_00049	1350	ktrB_2	COG0168	Ktr system potassium uptake protein B	ATGAGAGATATAAAAAAGTTTTTACAAAAATTACGTCCTGTACAACTCATCGTTTTGTTTTATTTATTAGCGGTAGTTGTATCGGTAATATTGCTTAGTTTCCCGTTTGTTACGAAGGCTGGTGTGAAATGGACATTTATAGATGCCCTCTTTACATCTGTTAGTGCGGTAAGTGTTACGGGACTGTCTGTTGTTACGATTTCAGATACATTTACTACGGCAGGAATTATTATGTTAGCCCTTATTTTACAATTAGGCGGCTTAGGGATTATGGCACTTGGTACGTTTGTTTGGATTATAACGGGGAAAAAAATCGGTTTGCAGAGAAGAAGACTCATTATGGCAGATCATAATCAAGGGAATTTATCAGGCCTTGTAGAATTGATGCGTTCTATTTTAATTGTAATTATTTCGATAGAACTTATTGGAGCAATACTATTAGGTACAAGATTTCTACTTTATTTTCCAACTTGGCAAGAAGCTTATTTCCACGGTTTCTTTGCCGCTGTTAGTGCAACTACGAACGGAGGATTTGATTTAACTGGACAATCACTAATTCCGTACAAAAAAGATTATATTGTGCAAATGATTCATATGTTGCTTATTATTTTAGGAGCGATTGGCTTCCCGGTGTTAATGGAAGTAAAACAATTCTTTAGTAAAAGGCGACAGCAACTATTCCGCTTTTCGTTATTTACAAAATTGACGACAACGACATTTTTTGCACTCGTTATCGTTGGAACAATTATGATTTTTCTACTAGAACGAAATCAGTTTTTAGCAGGAAAGTCATGGCATGAAACAGTTTTCTATACATTATTCCAATCTGTGACGACGCGAAGTGGTGGACTGGCTACAATGGATATACGTGAATTGTCACAACCGACGCTTTTATTTATGAGTATATTAATGTTTATAGGGGCATCTCCAAGTTCGGTTGGGGGCGGAATACGTACAACAACATTTGCTGTTAGTATATTGTCACTATACACCTTTGCAAGGGGCGGTAGAACAGTTAGAGTCTTCAAACGTCAGTTACATGAAGAGGATGTACTGAAAGCATCTGTCGTTATGACGATGGGGATTTTGTTATGTGCTACTGCGCTATTCGTTTTATCTATTACGGAAAATGTACCGCTTATGAGCTTAATTGTTGAGGTTTGTTCTGCTTTCGGAACGACAGGACTATCAACAGGTGTTACGCCTGATTTAACAACTATTGGGAAACTTGTACTCATTGTGCTTATGTTTATCGGACGCGTTGGTATTTTAACATTTATTTTAGCTAGTGGTGGAAGGGAACAACCACCTCGCTATAAATACCCGAAAGAACGGATTATTATTGGATAG	MRDIKKFLQKLRPVQLIVLFYLLAVVVSVILLSFPFVTKAGVKWTFIDALFTSVSAVSVTGLSVVTISDTFTTAGIIMLALILQLGGLGIMALGTFVWIITGKKIGLQRRRLIMADHNQGNLSGLVELMRSILIVIISIELIGAILLGTRFLLYFPTWQEAYFHGFFAAVSATTNGGFDLTGQSLIPYKKDYIVQMIHMLLIILGAIGFPVLMEVKQFFSKRRQQLFRFSLFTKLTTTTFFALVIVGTIMIFLLERNQFLAGKSWHETVFYTLFQSVTTRSGGLATMDIRELSQPTLLFMSILMFIGASPSSVGGGIRTTTFAVSILSLYTFARGGRTVRVFKRQLHEEDVLKASVVMTMGILLCATALFVLSITENVPLMSLIVEVCSAFGTTGLSTGVTPDLTTIGKLVLIVLMFIGRVGILTFILASGGREQPPRYKYPKERIIIG	PGPT0002735_4256	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK009_00050	336			hypothetical protein	TTGAAGAAAAAAGAAAAGATTCAATCACCAATTTTAGACGAAACGCTCCCGCATCAAATGAATTTTCCATCTTTTAAAGGAACAGGAAAAACGATGCAACAACCTTTTGTGAATCCATATGATGTTGTAATTGGAGACAGTAAATATAATTCCGAGAACAGTCCACTTAACAATTGGAGTGATGAAGTAGATCCTGCCATTATGGCTGGTGATGAGTGGATCCATCCTACAAATGATATTGGGTGGATTTCAGAAGAAAATCAAGAGTTGCTAAAAAACGAATCAGATAATAAAAATGAAGCTTTTATGCATCCACAATTTGGCATTAACGACTAA	MKKKEKIQSPILDETLPHQMNFPSFKGTGKTMQQPFVNPYDVVIGDSKYNSENSPLNNWSDEVDPAIMAGDEWIHPTNDIGWISEENQELLKNESDNKNEAFMHPQFGIND				NA	NA	NA	NA	NA
AK009_00051	162			hypothetical protein	GTGAATGTATTGGTAAAAAGAAAAGTAAAACAAAATGCGGCAATCAATAATAATAAAACTCCGAAAGAAAGCTTACCAGATGCAGAATTTGCATTAGAGTATGAAGGAGAAAATAGCGCAAAGTATGCTAATCGTAATTCAAAAAAAGGGAAACAAAAATGA	MNVLVKRKVKQNAAINNNKTPKESLPDAEFALEYEGENSAKYANRNSKKGKQK				NA	NA	NA	NA	NA
AK009_00052	1077		COG1840	putative protein	GTGAAAAAAACAATCTTTAAAGCTGTAGCGACTGGAATGGTATTTTCGTTATTAATGGGGTGTGGTGCAAAGAAGGAAGAAAGTGCTGGAGCGAAAGTGAAAGATGAAAAATTATCTGGATCATTAACTGTTTACACAGCAATTGAAGAAGAGCTTGTACCAATTTATCTTGATTCCTTTAAAAAGAAATATCCTGATGTGAAATTAAACATTGTACGTGATTCAACAGGAGTTATTACTGCGAAATTGCTAGCTGAAGGGAAAAATACACAAGCAGATGTTGTATGGGGAACTGCGGCATCAAGTCTATTAGCTTTAGATAAAAAAGATATGTTAAAAGGATACTCTCCAAAAGGAACAGATCGTGTTCTTCCGCAATTTAAAGATGATAAGCAACCTGAAAAATGGGTAGGAAATACTGCATTTATGACGGGGATTGCTGTAAATAAAGAAGAATTAAAGAAGAAAAATTTACCGATGCCAGAATCATATGAAGATTTAACGAAACCAGAGTATAAAGGAACACTTGTTATGCCACATCCAGCATCATCTGGAACAGGGTTTTTAACAGTTTCTGCATGGCTACAAATCATGGGTGAAGATAAAGGCTGGGATTACATGAAGAAACTTCATGATAATATGGCAAGTTATACGCATTCAGGATCAAAACCAGCAAAATTAGCAGGAGCAGGTGAATATCCAGTCGGTGTATCAATGGTTTATAGTGCTTTAAAAGAAAAACAAAAAGGTGCCCCAGTTGAAGTTGTACTGCCGAAAGAAGGATTAGGATGGGAAGTAGAAGCGAACGCACTTATTAAGAAAGATAATGCGAAAAATGATAAATTAGCGCAAGCATTTTTAGATTGGGCAATTACTGATGATGTAATGAAGTTATACTTTGAGAAAAATGGATTTGCGACAATTAAAAATGACTATAAACTTCCAGAGGGATTCCCGAAAGATGTTACTGAAAAATTATATAAAAAGAATGACTTTAAATGGGCAGCAGAAAATCGTGACAAAATTTTAGAAAAATGGGAAAAAGAGTTTGGTCAAAAAGCAGAACCGAAAAAGTAA	MKKTIFKAVATGMVFSLLMGCGAKKEESAGAKVKDEKLSGSLTVYTAIEEELVPIYLDSFKKKYPDVKLNIVRDSTGVITAKLLAEGKNTQADVVWGTAASSLLALDKKDMLKGYSPKGTDRVLPQFKDDKQPEKWVGNTAFMTGIAVNKEELKKKNLPMPESYEDLTKPEYKGTLVMPHPASSGTGFLTVSAWLQIMGEDKGWDYMKKLHDNMASYTHSGSKPAKLAGAGEYPVGVSMVYSALKEKQKGAPVEVVLPKEGLGWEVEANALIKKDNAKNDKLAQAFLDWAITDDVMKLYFEKNGFATIKNDYKLPEGFPKDVTEKLYKKNDFKWAAENRDKILEKWEKEFGQKAEPKK	PGPT0003725_1128	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK009_00053	1002	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGAGCGAATATTTATCAATTCAACACATTCAAAAACAGTTTGATGCATTTACAGCGTTAAAAGATATTTCTTTTACTGTGAACAAAAATGAGTTTGTTTGTTTATTAGGCCCAAGTGGTTGTGGGAAAACGACGTTGCTTCGCATTTTAGCGGGACTAGAGGAACCAACGACTGGCAGTATAGCTGTGAATGGAAAAGATATTACAGCATTGCCTCCTGGAAAGAGAAACTTCGGAATGGTTTTCCAATCGTATGCTTTATTTCCGAATTTAACAGCACTTGAAAATATTGAATACGGCTTAAAGACAAAAAAATATGGGAAAGCAGAAGTGAAAGAGAAAGCGCTAGATGCGTTAAAACTTGTAGATTTGCTGAATGTAAAAGATAAATATCCTGCTCAAATGTCTGGTGGACAACAGCAGCGAGTAGCACTTGCACGTGCGCTCGCTCTGTCTCCAGATATTTTGTTACTCGATGAGCCGTTATCAGCTTTAGATGCAAAAGTGCGTGAAAAATTACGTAGAGAAATGCGTGATTTGCAAGAGGAAATAGGAATAACGACGATTATGGTAACGCATGATCAAGAAGAGGCATTAACGATGGCTGATAAAATTGTTGTAATGAATCATGCGGAAATTATGCAGATTGGAACACCAGAGGAGATTTATCAAAGACCAGCCAATCCGTTTGTGGCAGATTTTATTGGTTCTATTAATTTCTTTTCGAAAAATAACGAAGAACATGCAATTCGTCCTGAACATGTAACAATTGTACAAAAGGAAGGTATTAAAACAGTTGTGGAAAGTATGGAATTTCGCGGATCCGTATATCGGACGGAAGTGCGAGTCATAGAAGAAAACACACACCTTTATAATGAGAAAATTGTAGTGGATATATTAGCATCAGAAGTAGAAGCAACCGCTATTAGAAAAGGAAAGCCGATTCAAATCTCTTTCTCAGAAAATCATATGTTGTCATATGGAAAGAAGGTCATTGTATAG	MSEYLSIQHIQKQFDAFTALKDISFTVNKNEFVCLLGPSGCGKTTLLRILAGLEEPTTGSIAVNGKDITALPPGKRNFGMVFQSYALFPNLTALENIEYGLKTKKYGKAEVKEKALDALKLVDLLNVKDKYPAQMSGGQQQRVALARALALSPDILLLDEPLSALDAKVREKLRREMRDLQEEIGITTIMVTHDQEEALTMADKIVVMNHAEIMQIGTPEEIYQRPANPFVADFIGSINFFSKNNEEHAIRPEHVTIVQKEGIKTVVESMEFRGSVYRTEVRVIEENTHLYNEKIVVDILASEVEATAIRKGKPIQISFSENHMLSYGKKVIV	PGPT0003735_3866	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK009_00054	1758			hypothetical protein	ATGGAGATGTTAGAAAACTATAAGGTAGAAAGTACGAAAAAAAAGATTAAGAGAAGTATTGGGAAAGAGGAATGGATCCAAAGGCTCGTAATTATCGGTATGATCCTTTCCTTCCTTATCATACTTGTATTGCCGCTATTACAAATATTTACACAAGCTTTTTATAATAAAGATGGAGTTTTCATTGGTTTAGCGAATTTCAGTAAATATTTCACAACACCAACTTTAGTTCAGTCTTTACAAAATACAGTATGGATTTCGGGCGCAACAACAATTATTTCAGTTGCAATCGCATTCGTTTACGCATATGCAATTGCCCGTACGAATGTTTTTGGAAAGCGTGTATTTCAGTATGTAGCGTTATTACCATTGTTCGCACCAACGATGATGCACGGTATAGCACTTACATATTTATTTGGTAATCAAGGGCTAGTAACGAAAGGGATGTTTGGGTTATTTGAAGGTATACAAATCCCTTTATATGGACCAGTAGGAATTGTAATAGCTGAAGTTATGTATACATTTCCGCAAGCATTTCTTATATTGCTAATTGCCTTTCAAGGATCTGATTATCGATTATATGAAGCTTCTAATATGTTAGGGGCGAGTAAAACAAAGCAATTTTTCACGGTTACTTTACCTAGTGTAAAGTACGGATTAATTAGTGCAATGTTTGTTGTGTTTACACTTAGTTTTACTGATTTTGGGGCACCAAAAATTGTTGGTGGGCAATATAATGTGCTTGCTACTGACGTATACAAACAAGTAATTGGACAGCAAAATATGCCGATGGGTGCAACTGTCGGAATGATTTTATTAATCCCAGCTATATTCGCATTTGTAGTTGATCGTATTACGCAAAGAAAGCAGGCGAATTTCTTATCTTCAAAAGCAGTACCATACAGAATAATAGCTAATAAGAAAAGAGATGTAATCTCATTCATATATTGTAGTGTAATTACACTTATGATCATTCTATTATTTGTTGCAGTTGGTATTGCTGCAAGTGTGAAAGTATGGCCATATAATATGAGTTTTACATTTGAGCATTTTAATTTTTCGAGTTTAACAGGAGATGGACTTGAAGCATTTAAAAATAGCGTAATTGTTTCAGCAGTTACAGCAGTTATTGGGGCGATTTTAACATTTGTATTCGCATATGCAATTGAGAAAATAGACCAGCTACAATTTTTTAGAAAAACAGGTTACTTTTTCTCTATAGTGCCGTTAGCGATACCAGGTTTAGTACTCGGATTAGGATATGTCTTTTTCTTTAGTCAACCAACGATTCAAATTCTGGGACTATCAGTAACGAATCCGTTTCATTCTTTATACGGAACAATCGCTGTGTTAGTACTAGTAAATATCATTCATTTTTATTCTGTAACATTTGTCACGGCAACGACTGCCTTAAAGAAATTAGACCGTGAGTTTGAGCTTGTTTCGCAGTCAATGGGTATTCCGTTTTATAAAACATTCTTTAGAGTAACAGTACCAATGTGTTTACCAGCAATTTTAGAAATGGTGATGTACTACTTCGTAAATTCGATGGTAACTGTGTCAGCAGTTGTATTCTTATATGCAGCTGATTTTAAACTAGCTGCCGTATCAATCGTAAATATGGATGATGCAGGAAATGTAGCGCCAGCAGCTGCAATGAGTGTACTTATTGTTATTACAAATATTGTAGTGAGAGTTGTATATGAATGGGGAACGAAAGCACTTCGTAACCGAACTTCGCAATGGCAAAAAAGATAA	MEMLENYKVESTKKKIKRSIGKEEWIQRLVIIGMILSFLIILVLPLLQIFTQAFYNKDGVFIGLANFSKYFTTPTLVQSLQNTVWISGATTIISVAIAFVYAYAIARTNVFGKRVFQYVALLPLFAPTMMHGIALTYLFGNQGLVTKGMFGLFEGIQIPLYGPVGIVIAEVMYTFPQAFLILLIAFQGSDYRLYEASNMLGASKTKQFFTVTLPSVKYGLISAMFVVFTLSFTDFGAPKIVGGQYNVLATDVYKQVIGQQNMPMGATVGMILLIPAIFAFVVDRITQRKQANFLSSKAVPYRIIANKKRDVISFIYCSVITLMIILLFVAVGIAASVKVWPYNMSFTFEHFNFSSLTGDGLEAFKNSVIVSAVTAVIGAILTFVFAYAIEKIDQLQFFRKTGYFFSIVPLAIPGLVLGLGYVFFFSQPTIQILGLSVTNPFHSLYGTIAVLVLVNIIHFYSVTFVTATTALKKLDREFELVSQSMGIPFYKTFFRVTVPMCLPAILEMVMYYFVNSMVTVSAVVFLYAADFKLAAVSIVNMDDAGNVAPAAAMSVLIVITNIVVRVVYEWGTKALRNRTSQWQKR	PGPT0003730_968	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK009_00055	795	phnX		Phosphonoacetaldehyde hydrolase	ATGAAAATTGAAGCAGTTATTTTTGATTGGGCAGGTACGACAGTTGATTACGGATGTTTTGCACCACTAGAAGTATTCATGAAGATTTTTCATAAACGCGGCGTTGAAATTACAGTAGAAGAAGCACGTAAGCCAATGGGATTATTAAAAATAGATCATGTAAGGGCACTAACAGAAATGCCTCGTATTGCGGATGAGTGGAAGCGTGTCTTCGGTCAATTACCAACAGAAGTAGACATTCATGAGATGTATGAAGAGTTTGAAGAAATTCTCTTTTCTATTTTGCCAAGTTATGCTACGCCGATTGAGGGGGTAAAAGAAGTAATCGCTTCTTTACGTGAGAGAGGCATTAAAATCGGTTCAACAACTGGTTATACGAGAGAAATGATGGATATTGTTGCAAAGGAAGCAGCGTTACAAGGATATAAACCTGATTTTCTTGTTACGCCAGATGATGTTCCAGCAGGCCGTCCATATCCATGGATGTGCTATAAAAATGCAATGGAACTTGATGTGTATCCGATGAACCATATGATAAAAGTAGGGGACACAGTATCAGATATGAAAGAAGGTAGAAATGCTGGAATGTGGACAGTTGGTGTAATTCTTGGAAGTAGTGAGCTCGGTTTAACGGAAGAGGAAGTGGAGAGTATGGATTCGGTAGAGCTTCGTGAAAAAATAGAAGTAGTTCGTAATCGGTTTGTTGAAAATGGGGCTCATTTTACGATTGAAACGATGCAGGAGCTCGAAAACATAATAGAACATATCGAGAAACAAGAACTAATTATTTCATAA	MKIEAVIFDWAGTTVDYGCFAPLEVFMKIFHKRGVEITVEEARKPMGLLKIDHVRALTEMPRIADEWKRVFGQLPTEVDIHEMYEEFEEILFSILPSYATPIEGVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELDVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVESMDSVELREKIEVVRNRFVENGAHFTIETMQELENIIEHIEKQELIIS	PGPT0002490_532	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002490-phnX-K05306	NA	NA
AK009_00056	1098	phnW_1	COG0075	2-aminoethylphosphonate--pyruvate transaminase	ATGAATGAAAATCACTATTTATTATTAACACCAGGACCATTAACGACAACAAAATCAGTAAAAGAAGTTATGCTATACGATTGGTGTACGTGGGATGTTGAATATAATACGATGGTGCAAGAAGTAAGAGCTAAACTTGTATCGTTAGCGACGAAGGAAGAAGAGAAATATACAACAGTGTTAATGCAAGGAAGCGGTACGTTTTCAGTTGAAGCAGTAATTGGTTCTGTTATTCCGGCAAATGGGAAGCTTCTCGTTTGTACAAATGGTGCGTACGGTAAGCGCATCGTGCAAATGGCAGAGATGTTACAGATTGATGTAGTGGTCAGTCAAACAGAAGAGTGGGAACCTACTAATATTGTAGAAGTAGAAAAGTTATTGCAAGAAGATAAAGAGATTACGCATATTGCAGTTGTTCATTGTGAAACAACGACAGGTATTATAAATCCAATTGTAGATGTATGTAAATTAGGAAAGCAGTATGGAAAGGTTACAATTGTTGATGCGATGAGTAGTTTCGGCGGGATTGAAATAGACATTGCTGATTTACAAATTGATTTTTTAATTAGTAGTGCAAATAAGTGTATTCAAGGGGTTCCTGGATTCGGATTTGTAATCGTAAAACGTGATGAATTATTGAAGTGTAAAGGAAAAGGACGTTCTTTATCTCTTGATTTATATGATCAATGGGAAACGATGGAAAAACAAAATGGGAAATGGCGTTTTACTTCACCTACACATGTTGTACATGCTTTTTATCAAGCACTACTTGAACTAGAAAAAGAGGGGGGAGTGAGAGCGCGTTACAATCGATATTACAACAATCAAAAACTACTAGTGAATAGAATGGGAGAAATCGGATTTAAGCCACTAGTAGATGAGAAATATCAATCTCCTATTATTACATCTTTCATTTATCCAAAAGAGGGGTTCGAGTTTCAACAGTTATATAACGAATTAAAGCGTTATGGATTTGTTATTTACCCTGGAAAAATTTCGAAAGTAGATACGTTTCGCATTGGAAATATCGGTGATGTACATGAAGAAGATATTAATCGCTTAGTTGATAGTATTGCTAAAGGAGCTGTTATTGGATGA	MNENHYLLLTPGPLTTTKSVKEVMLYDWCTWDVEYNTMVQEVRAKLVSLATKEEEKYTTVLMQGSGTFSVEAVIGSVIPANGKLLVCTNGAYGKRIVQMAEMLQIDVVVSQTEEWEPTNIVEVEKLLQEDKEITHIAVVHCETTTGIINPIVDVCKLGKQYGKVTIVDAMSSFGGIEIDIADLQIDFLISSANKCIQGVPGFGFVIVKRDELLKCKGKGRSLSLDLYDQWETMEKQNGKWRFTSPTHVVHAFYQALLELEKEGGVRARYNRYYNNQKLLVNRMGEIGFKPLVDEKYQSPIITSFIYPKEGFEFQQLYNELKRYGFVIYPGKISKVDTFRIGNIGDVHEEDINRLVDSIAKGAVIG	PGPT0002485_629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ANTIBIOTIC_PHOSPHONATE_SUBSTANCES,PGPT0002485-phnW-K03430	NA	NA
AK009_00057	1185	lysDH		Lysine 6-dehydrogenase	ATGAAAGTATTTTGCTTAGGTGGAGCAGGTAAAATTTGTCGTGAAGCTATTTTGGATTTAGTTCAATTTTCATCTTTTGAGACGATTACAGTAGCTGATTTTAACGAGGAAGAGGGCCGTAAAGTAGTAGAATGGCTCAACGATCCTCGTGTTGATTTTGTAAAAGTAGATGTAACGAATCACGAGGATACGGTTGCAAAAATGATTGGTTATGACATTGTAATGGACGGTACGACGATAAAGCTAAACGGATTGTCGACCCGCTGTATTGCAGAAGCAGGGTGTCACGGTGTGAACTTAAATGGATTTGGTGAAGAAAATGAATCGCATGCTATATTTGTTCAAAACGAAAAAACATGTTTACCTGGATTTGGCATGACGCCAGGTGTAACGCAAATGATGGCAATGCATGCAGCAAATCAACTGGATACTGTAGATACGATCCGCGTAAGTCACGGTTCGTATCGTCCGATTGCTTTTTCTGCATCAATTACAGAGACAACGACATATGAATATGATCCACATTTACCATCGCGTACAGTGTATGAAGATGGTGAATTTAAGCAAGTACTTCCGTTTGCGCGTCCAAGAGAAATAGAATTGCCAGCGCCTTATGGTAAGACAACGCAGTATATAATCCCGCATTCTGAAACAATTACGTTAGCAAAGGCACTAGAAAATAAAGGTATCAAACTGATAGAGACGAGAGGAACTTGGCCAAAGCAAAATATGCAACTTGTACATGCTTTATATGATTACGGCATATTGCGTAATGATCAGATTGAAATAAATGGGAAAGAAATTGGTATTATGGATTGTATTTCGCAGTATTTATTACAATCGAAAGAAGGACAAGAAACAGAGGTTTATGGTTATGCACTTCATGTAGAAGTAATAGGTATGAAAAATAATGAGAAGCAAAGACATGTATTATATCATACACATCCGTTATCTGATGGCTCTGTTGTAGGATGGGAAAAATTAAGAGCTTATACGAGAAACGTCGGTATTCCATTTGGGATTGCTGCAGAGTTAATTGCAAATGGAAATGTAAATAGGGTGGGTGTTGTTACGCCTGAAGAAGCTTTTGAAAATCCACAATTGATTTTTGATGAGCTAGCAAAGCGCGGTATTCATATTCATGAAAAAGTTTCTGCTTATAAAGAAAATTACAACCTTGTATAA	MKVFCLGGAGKICREAILDLVQFSSFETITVADFNEEEGRKVVEWLNDPRVDFVKVDVTNHEDTVAKMIGYDIVMDGTTIKLNGLSTRCIAEAGCHGVNLNGFGEENESHAIFVQNEKTCLPGFGMTPGVTQMMAMHAANQLDTVDTIRVSHGSYRPIAFSASITETTTYEYDPHLPSRTVYEDGEFKQVLPFARPREIELPAPYGKTTQYIIPHSETITLAKALENKGIKLIETRGTWPKQNMQLVHALYDYGILRNDQIEINGKEIGIMDCISQYLLQSKEGQETEVYGYALHVEVIGMKNNEKQRHVLYHTHPLSDGSVVGWEKLRAYTRNVGIPFGIAAELIANGNVNRVGVVTPEEAFENPQLIFDELAKRGIHIHEKVSAYKENYNLV	PGPT0020910_50	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
AK009_00058	783	glpR	COG1349	Glycerol-3-phosphate regulon repressor	ATGTCTGTAGTAGGAGAAGAAAGAAAGCGAACCATTCTTGAAAAGGTAGAATTTAAAGGGAAAGTAAAGGTTTCAGAATTAGCGAGAGAATTTGCTGTATCAACAGAAACGATTCGTCGATATTTAGAAGAATTAGATCGTGAAAAGAAGTTGAAAAAAGTGTATGGTGGAGCTGTTCAACTTCCAGGCGCTGGGGTAGAGGCACCAATGTTAGAAAGAGAAATGCTACATATAGAAGAGAAGAAAAGAATTGGTTATAAAGCAGCGACATTTGTAGAAGATGGTGATGTCATTGCAATTGATGATGGAAGTACACCGCTTCAAATGGTTCCATACCTTGTTCATCGTAAAAACTTAACGATTGTAACAAGTTCATTTCCAGTCGCAACACAATTAATTTCTTCTATTAATAAAAAGATGTTTCACGGTGAAGTTTTATTTATAGGTGGAAAAGTATCTCCAAAGCATTCGCGTGTATCAGGGTCTATTTCTCAGCAAGTAATACAGCAATTCCATTTTCATAAAGCGTTCGTTTCGATTGATGGGCTATTACCTAGTTTTGGAGTTTCCAGCTTTGAATTAGAGAAAGCGAAATTGTCAGAGGCGATGATGAAATTAGCTGAGAAAACATATATTTTATGTGATCATACGAAGGTAGGCGTGAAAGGGAATTATCGTATAGCAGCATTTTCACGTATTCAACATGTAATTTGTGATAAAAAAATGCCATATAGTTTTGAAGAAGAACTTATGAAGCATAATATTCAGTGGACAGTTTGTTAA	MSVVGEERKRTILEKVEFKGKVKVSELAREFAVSTETIRRYLEELDREKKLKKVYGGAVQLPGAGVEAPMLEREMLHIEEKKRIGYKAATFVEDGDVIAIDDGSTPLQMVPYLVHRKNLTIVTSSFPVATQLISSINKKMFHGEVLFIGGKVSPKHSRVSGSISQQVIQQFHFHKAFVSIDGLLPSFGVSSFELEKAKLSEAMMKLAEKTYILCDHTKVGVKGNYRIAAFSRIQHVICDKKMPYSFEEELMKHNIQWTVC	PGPT0017590_374	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
AK009_00059	120			hypothetical protein	ATGTCAGAACGAATATATAATAAACTTGTATTGTACGCGAATATTTTGCAAAAAATCGGTGTCATCAATGAGAAGGAAAAAAGTGAAATTCTTCATACGATAGGTAAAAAAGCCCTTTGA	MSERIYNKLVLYANILQKIGVINEKEKSEILHTIGKKAL				NA	NA	NA	NA	NA
AK009_00060	2301			hypothetical protein	ATGATAGGGGATATTATTTTGAAAAAAAATTATATGAAGGCGCTAGTAGTAGCGACAACATTAGCAATTCCATTTGCTACGTACTCTACTCCAGCATTAGCAGCACTAAAAGTTGAAGCAAATCAATCGGTAGCAGCAGCGAGTGATCGCACGTATGATACTGAGATTAAAATATATAAGGATCAAAAAGACGAGCCATCTATGGTTTCTCAATATATAAAAGATCCTAAAGTAACAATTGCAGCTGGCAAAAAAATTGTCACTGTAACAATGCAAGATAGCGATTATTTTCAATATCTTAGAATAGAAGATAGAAACCAGCCTGGTGTATTTCATGATGTGAAAGTTTTGTCAGAAGATAAGAGGAAGAATGGAACGAAAGTAGTTCAATTTGAAATTGGCGAGTTTGAGAAGAAGCACAATATGCAAATGCATATACTTATTCCAGCTATTGGATATGATCACAAATATCAAGTTCAATTTGAAATTAAAGATCCAACTGTAGGTAACAAAGAAACAGAGAAACCAGATGATAACTCTAATTCAGGCAATACGGAAACGGATAATCCAGTTGATAATCAAAACATGATAACAGATAACAAATTAAGAGAACTTGTTAATAAAAAAGTATTTAATAGAAAAGATTTAAATACACCAATTACGAAAGAAGAGTTATTACAAGTAAAGGATTTGTTTTTAAATACAAACGAGATACTTGATTATAGTGCATTAAAATATATGCCAAATTTAAAATCTTTAACAGTTGCGAATGCAAAGATAAAAGATCCGTCGTTCTTTGCGAACCTAAAGCAATTAAATCATTTAGCTTTGCGTGGTAATGAATTTTCAGATGTAACGCCACTTGTTAAGATGAATAATTTAGAGTCTCTTGATTTAAGTAATAATAAAATTACAAATGTTGCACCACTAACTGAAATGAAAAATGTAAAAACTTTATATCTATCAGGCAACCAAATAGAAGATGTAACAGCATTAGCAAAAATGGAACAACTAGATTACTTGAATTTAGCAAATAATAAAATTAAGAACGTTGCTCCATTAAGTGCTTTAAAAAATGTAACATACTTAACTTTAGCAGGTAATCAAATTGAAGATATTAGACCGTTATATTCATTACCTTTAAAAGATTTAGTATTAACGCGTAATAATGTTAAAGATTTATCGGGTATTGATCAAATGAATCAATTAAATAAATTATTTGTCGGGAAAAATCAAATTAAAGATGTGACACCACTTGCTAAAATGACTCAGCTTACAGAATTAGATTTACCTAATAATGAATTAAAAGATATTACTCCATTATCAAGTCTAGTAAACTTACAAAAGCTTGATTTAGAAGCGAATTATATTACAGACTTATCACCAGTGAGCAATTTGAAAAAATTAGTATTTCTAAGTTTTGTTGCAAATGAAATCCGTGATGTCCGACCAGTTATAGAACTAAGTAAGACGGCTTATATCAATGTCCAAAACCAAAAAGTATTTTTAGAGGAAACAGAAGTAAATAAAGAAGTAAAAGTACCTATATATGAAAAAAATGGTGAGATTTCTACGAAAATTCGTCTGAAGAGCGATAACGGTACGTATAGTAATGGTGTAGTGAAATGGAGTACACCAGGTGAGAAAGTATATGAATTTGGTGTGAAAGATCCATTTGCGGATACAGGAATCTTCTTTACAGGGTCTGTTATTCAAAATGTAGTAGAAAGTAAAGACGGTAATACATCTAAAGAAGATGAGAAAACAGAAGTGGTAGAATTTAAAGATGTACCAAAGGGACATTGGTCAGAAGAAGCAATTAATTACTTAGCGAAAGAAAAGTTATTTATAGGCTATGGAAATGGTGAATTTGGATTTGGTGATAACATTACTCGTGGACAAGTAGCTCTTCTAATACAAAGGTATTTAAAATTAGAAAATAATCTAGAACCAAAAACGGCATTTACAGATACGAAAGGAAATATGTATGAAACGGCTATTGATGCAGTGGTTCAAGCTGGTATTATGACAGGGTATGGAAATGATATATTCCGTCCAGATGGAGTATTAACTCGATATGAAATGTCAGTAGTACTACAAAGAGTATTTCAGTTAAAAGAAAATGAAAATAGTGCAGAGAATTTCAAAGATATACCAAATGGCCATTGGGCGAAAGGATATGTGAAAGCTCTAGTAGATAATAAAATATCAAAAGGTGACGGGGAAGGGAATTTTTTAGGAGATAATTTCGTAACACGTGAACAATATGCACAGTTTTTATATAATGCAATAAAGAAATAA	MIGDIILKKNYMKALVVATTLAIPFATYSTPALAALKVEANQSVAAASDRTYDTEIKIYKDQKDEPSMVSQYIKDPKVTIAAGKKIVTVTMQDSDYFQYLRIEDRNQPGVFHDVKVLSEDKRKNGTKVVQFEIGEFEKKHNMQMHILIPAIGYDHKYQVQFEIKDPTVGNKETEKPDDNSNSGNTETDNPVDNQNMITDNKLRELVNKKVFNRKDLNTPITKEELLQVKDLFLNTNEILDYSALKYMPNLKSLTVANAKIKDPSFFANLKQLNHLALRGNEFSDVTPLVKMNNLESLDLSNNKITNVAPLTEMKNVKTLYLSGNQIEDVTALAKMEQLDYLNLANNKIKNVAPLSALKNVTYLTLAGNQIEDIRPLYSLPLKDLVLTRNNVKDLSGIDQMNQLNKLFVGKNQIKDVTPLAKMTQLTELDLPNNELKDITPLSSLVNLQKLDLEANYITDLSPVSNLKKLVFLSFVANEIRDVRPVIELSKTAYINVQNQKVFLEETEVNKEVKVPIYEKNGEISTKIRLKSDNGTYSNGVVKWSTPGEKVYEFGVKDPFADTGIFFTGSVIQNVVESKDGNTSKEDEKTEVVEFKDVPKGHWSEEAINYLAKEKLFIGYGNGEFGFGDNITRGQVALLIQRYLKLENNLEPKTAFTDTKGNMYETAIDAVVQAGIMTGYGNDIFRPDGVLTRYEMSVVLQRVFQLKENENSAENFKDIPNGHWAKGYVKALVDNKISKGDGEGNFLGDNFVTREQYAQFLYNAIKK				NA	NA	NA	NA	NA
AK009_00061	630	mtnB_1	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGTTATTTTTTCTGAAGAAATGGAATGAATTAAAAGATGTGAAATCTGAATTGGCACTTCGTGATTGGTTTTATGGTACCAAAATTAGTTTGTCGCTATGTACGTCAAAAGAGCCGTTAACATTTTTAGTAAATGTTGAGGGAAGAGATAAAGGGCTATTTTCGGAAGAAGATTTTATTGTCGTAAATTGCATGTGCGAGTCAGTATTTGAAAATGAAGAAAAACCAGCTGCAGAGTCATTTATGCATGCGGATATTTATAAAAAAAGTAGTGCAGGATGTATTTTACAAGTGCAGACTGTAGATAGTCATTTAATATCAGAGTTATATGGAGAAGAAGGAGAAGTAACGTTCGATAAACGCAGTGTGGAACGTGTTTTCGGAAAAGAAGGTATAACAGAAATGACCATTCCAATTGTAGAAGATGAAAAAAAATTCGCTGATTTATTAGAAAGCAATGTTCCGAATTTCATTGAAGGTGGAGGAGTAGTTCTTGTTCATAATTACGGCATGATTGTGTGGGGAAAAACGCCAGAAGAAGCGAAAAAATGGCTAGAGGGTATAGAATATTTAATGAACTATCATGTGAAATTATTAATGATTAAGGGCGCAAGAAGCTCTGTTATATAA	MLFFLKKWNELKDVKSELALRDWFYGTKISLSLCTSKEPLTFLVNVEGRDKGLFSEEDFIVVNCMCESVFENEEKPAAESFMHADIYKKSSAGCILQVQTVDSHLISELYGEEGEVTFDKRSVERVFGKEGITEMTIPIVEDEKKFADLLESNVPNFIEGGGVVLVHNYGMIVWGKTPEEAKKWLEGIEYLMNYHVKLLMIKGARSSVI				NA	NA	NA	NA	NA
AK009_00062	624			hypothetical protein	TTGCGAGTTAAATATCATTTTCTGCCAAAGCAGCAAGTAACATTTTGCAAAATAAATGATTCTGGTGAAGAGGCACTGCAAACGATGAACAAAACGGGATTTCGAGCCATCCCGGTATTAGCAGAAGATGAGAAGAAATTCACGGGTATTATTTATAAAGTAGATTTATTAGAAAAAAAATGCAATAGCGGATTAGAGCATGTAAGTGCAGGAGATATGCTTGACAATTCCAATGCATTTATTTTTGAAAAGGATTCCTTCTTCAGAGCCTTTTATGTGATTCGTCGGCTTCCGTTTTTAGCCGTGCTAAATGATTATAATGAATTTGTCGGTATGTTAACGCATTCGAATATATTTGATGTTATTGAAGATTCATTTGGTATGCGGACAGGTGGTTATATATTAACAATTGCAACACAAGATTGTAAGGGAACGATTAAAGAGCTTGGGACATTGTTAAAAGCATATAATATCGGTGGGTTGTTTACACTTGATAACGGTGATCAATATATCCGCCGCGTTATTGTAAATATATCAGATGAGTTAGATGAAACAAGATTAAAGCAATTAATCGGAAAAATAGAGAAAAAAGGATTCAGAGTGAGTCATGTAGATTATATTTAA	MRVKYHFLPKQQVTFCKINDSGEEALQTMNKTGFRAIPVLAEDEKKFTGIIYKVDLLEKKCNSGLEHVSAGDMLDNSNAFIFEKDSFFRAFYVIRRLPFLAVLNDYNEFVGMLTHSNIFDVIEDSFGMRTGGYILTIATQDCKGTIKELGTLLKAYNIGGLFTLDNGDQYIRRVIVNISDELDETRLKQLIGKIEKKGFRVSHVDYI				NA	NA	NA	NA	NA
AK009_00063	771			hypothetical protein	ATGCGAAAATATACGATTACATTGTTCATCATTGTTTTGTTTTTACCGTCCTTCTTATTTCCTATTCAAGCAAATGCTCATACAAATAAAGTTGCTATTGTCATTGATGATTTCGGCAATAATATGAAGGGGACTAATCAAATGTTATCACTTCCCATTCCGCTCACTGTTGCTGTTATGCCTTTTCTTCCTTCCACAAAAGAAGATGCAATAGCTGCCCATAAAAAAGGCCATGAAGTTATTATACATATGCCAATGGAACCTATTAAAGGTAAAAAAGAATGGCTTGGACCGAAAGCAATTACAACCGATTTAAGCGATGAAGAAATAAACAACCGACTTGAACAAGCGATTCAAGAAGTTCCGCATGCAATTGGAATGAACAATCATATGGGGTCAAAAGTAACAGCGGATGAAAGAATTGTTCGCCTTATACTTGCTGCTTGTAAAAAACACGGTTTATTTTACTTAGATAGTAAAACTAATCCTAATAGTGTCGTCCCAAAAATCGGAAAAGAATTAGGAGTTCCTATTATTGAAAACCAACTATTTTTTGATGATGTGTATACAGCAGGACATATTTCAAAACAAGCCCAATTACTCATCAAAAAAATTCAAGAAAAACCTATTATGGTAGCTATCGGGCATGTGGGCCCCCCAGGTGAAATTACATCACGAGTTATTGAAACTTCTATCCCTAAAATTCGTGAGCATGCAGACTTTATTTTTTTATCTGATCTAGCATTATCCCCGCCTCCTGTTTCAAAATAA	MRKYTITLFIIVLFLPSFLFPIQANAHTNKVAIVIDDFGNNMKGTNQMLSLPIPLTVAVMPFLPSTKEDAIAAHKKGHEVIIHMPMEPIKGKKEWLGPKAITTDLSDEEINNRLEQAIQEVPHAIGMNNHMGSKVTADERIVRLILAACKKHGLFYLDSKTNPNSVVPKIGKELGVPIIENQLFFDDVYTAGHISKQAQLLIKKIQEKPIMVAIGHVGPPGEITSRVIETSIPKIREHADFIFLSDLALSPPPVSK				NA	NA	NA	NA	NA
AK009_00064	282			hypothetical protein	ATGTTTACTGTAAAAAGGAAGTACACATTAGAAAAGCTTTCACGTGATATTCATATGAAACGTGAAGAAATGATTCAACTAGGATTAACAAGTGGGCTAAATAGTAGGGAGACAATTCAAGTTAGTCAAGAATTGGACAAGCTTATTTTACAATATCAGTGTTATAAAGAAAAACAAACACCGAAATGGTTTTCAATTATAAAAATACCAATTTTCCAAATCGGGTATGAAGGAAAATCAAATAATTTTTGGCGAATGCTTGTCACTGGTTTTATGAAATAA	MFTVKRKYTLEKLSRDIHMKREEMIQLGLTSGLNSRETIQVSQELDKLILQYQCYKEKQTPKWFSIIKIPIFQIGYEGKSNNFWRMLVTGFMK				NA	NA	NA	NA	NA
AK009_00065	1497	kinD		Sporulation kinase D	TTGAAAGTCAAATTCCAAAGCATAATTATATATATATTGCTTGTTATCCTACCGACAATAGGGATTGGTGCTACATTTTATTCGTATCATACATATAAAATGAAACAGGAAAACAAATTATCCGCTCATACAGTTCTCTTTTTATATAGAGATTATTTAGATCATCATCTTGGTGAAGCAATTTCTGCTTTAGACATGCTTGCAAAAGTTGTAGGCACCGAGACTGGTAATATAAATGGCATTAAACAAATTGTACATGATACAGATGGAAACGATGCACGCTTTTCTGGTCTATATTACGCTACACCAAAAGGGGTCATTACAATCGCATCTGAAGATGAATCAAAGCCCGTAGATGTTTCAGACCGTAAATATATTCAAGACGTTCTACAAACTAAAAAAACCACTGTATCATCAGTCATTACTGATCGCGTTCTTGGACATAAAGCTATTATGATTGCTGCCCCCATATTCAATAAACAGAAGGAGCTCTCAGGATTATTATTAGCTAGTTTACGCTTTGATTACATTTCATCTTCTTTAAATGCCATTAAACCACAATACCATTTTGAGGTAACTGATAAACATGATGTAGTTTTTCTAACCGATGATAATAATGACACAAGTGATACGCATTCTAATATGCTTACTACTCCACTCCAAAGATTAAATTGGAAGGTCTCTGTTTCACCATTACCTATTCATCAAAAAAACTTATACCAGTGGGTTGCAATAGAGTGTATCGCTACTTTATTTTTAATGTCTATTTTATTTTTACTTGCTCAATATATGTTGTTAAAACGTCAAACAAAACTTGAAAGACAACAAAATGAACTACAGAAAATTGAATTAGTTGGAACTTTTGCAGCAAGTACAGCACACGAAATCCGTAATCCTCTTACTGGAATTAAAGGACTCGTCGCTCTATTAAAAGAGAAATATAAAGATGAACAAGATCAGTTCTACTTTTCCGTAATTGAACAAGAAATAGAGCGAATCAATGAAATTGTAAGTGAATTTCTTATTCTCGGCAAGCCAACCGCCATCATCGAACAAACATATGACGTAAGAACAATTCTAAATGAGGTAGCATTAATTATTCAATCTGAGGCGAATTTACATAACATTGTATTCCATTTACATTTGCCAGACCATCCTGTTCATATCCGTTGTTCCAAAGACCATATGAAACAAGTGGTTTTAAACATTACAAAAAATGCAATTGAGGCCATGACTTCTAGTGATACACTAACCATTGTAGTAAAAAACAATGAAACACACGCACAATTGCAGATTACAGATACTGGAAAAGGGATTCCGCAACATATTCAAAAACACCTCTTTCATCCGTTCTTTACTAATAAAGATACTGGAACAGGTCTTGGACTTGTCATATGTAAACGAATTGTAGAGATGTATAATGGGCATATTTTTATTGACAGTACAGAAAACGAAGGAACGACAGTTCATATCGAAATTCCGTTACACATAGTATAA	MKVKFQSIIIYILLVILPTIGIGATFYSYHTYKMKQENKLSAHTVLFLYRDYLDHHLGEAISALDMLAKVVGTETGNINGIKQIVHDTDGNDARFSGLYYATPKGVITIASEDESKPVDVSDRKYIQDVLQTKKTTVSSVITDRVLGHKAIMIAAPIFNKQKELSGLLLASLRFDYISSSLNAIKPQYHFEVTDKHDVVFLTDDNNDTSDTHSNMLTTPLQRLNWKVSVSPLPIHQKNLYQWVAIECIATLFLMSILFLLAQYMLLKRQTKLERQQNELQKIELVGTFAASTAHEIRNPLTGIKGLVALLKEKYKDEQDQFYFSVIEQEIERINEIVSEFLILGKPTAIIEQTYDVRTILNEVALIIQSEANLHNIVFHLHLPDHPVHIRCSKDHMKQVVLNITKNAIEAMTSSDTLTIVVKNNETHAQLQITDTGKGIPQHIQKHLFHPFFTNKDTGTGLGLVICKRIVEMYNGHIFIDSTENEGTTVHIEIPLHIV	PGPT0025287_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025287-kinD-K13532	NA	NA
AK009_00066	447	mhqR_1	COG1846	HTH-type transcriptional regulator MhqR	ATGACATCAAATAATGAACGAGAAGATATTTCTCAATCTTTAAAAGTATTTATTGCATTATCTCGTGTACATCGTTCTGTTATGGATACTACAAATAAATCTATACAAAGTAACGGGTTAAATCCAACGGAATTTGCTGTATTAGAACTGCTATATCATAAAGGCGGTCAACCACTCCAGCAAATTGGTGAGCGCATTTTAATAGCCAGTGGCAGCATTACATATGTTGTAGATAAGCTGGAGAAAAAGGGATTAGTAAAGAGAATCCCATGCCCGAATGACAGACGTGTTATTTACGCGCAATTAACTGAGTCTGGCGAGAACTTTATTGCTTCTATTTTTCCGGGGCATGAGAAAGTTATACATCGGTCTTTTGAAATGTTAACGAAAGATGAAAAAGATGAATTACTTGATCTATTAAAAAAAATTGGGAAGTATGAAAAATAA	MTSNNEREDISQSLKVFIALSRVHRSVMDTTNKSIQSNGLNPTEFAVLELLYHKGGQPLQQIGERILIASGSITYVVDKLEKKGLVKRIPCPNDRRVIYAQLTESGENFIASIFPGHEKVIHRSFEMLTKDEKDELLDLLKKIGKYEK				NA	NA	NA	NA	NA
AK009_00067	1695			hypothetical protein	ATGTCATTTAAAGACTATGAATATAAACGCCCAAATATTGAAGAGTTAAAAGAGAAATTTACTGTTGCTTTAGAGAAGTTTGATAACGCAAAAACTGTAGAAGAACAAAAACAAGTCATTCATTCAATTAATGAAATTCGCAACGATTTTGGTACAATGGGAAACCTTTGTTACATTCGCCATTCTGTTGATACGACGGATACTTTTTATAAGGAGGAGCAGGATTTCTTTGATGAATTCTCTCCAGTTGTACAAGGATATGGTACAAAATATTATAAGGCACTCATTAATTCTCCATTTCGTGAAGAATTAGAGGCGTATTATGGAAAACAATTATTTGCTCTAGCAGAATGTGATTTAAAAACATATTCAGATGAAGTCGTGAAAGATTTACAATTAGAAAATAAATTATCGTCGCAATATACACAGTTATTAGCATCTGCAAAAATTGACTTTGCTGGAGAAGAAAGAACATTATCGCAACTGATTCCGTTTATGCAAGGAAAAGAAAGAAGCGAACGTAAAGCAGCAAGTGAAGCATACTACGGATTTTTAGCTGGAAATGAGGAAGAACTAGATCGTATTTATGATGAGCTTGTTAAAGTGAGAACGAAAATCGCAAAATCTTTAGGTTTCAAAAACTTTGTTGAACTTGGATATGCAAGAATGTACCGTACAGATTATAATGCGGAGATGGTGGCTAATTACCGTCAGCAAGTGCTGGATTATATCGTTCCCGTTACAACGGAATTAAGAAAGCGACAACAAGCACGTATCGGTGTAGAGAAGTTAGCTTATTACGACGAAAACTTTGAGTTTGCTACAGGGAACCCAACTCCAAAAGGAGATGCGGATTGGATTGTTGATCATGGAAAGACGATGTATAAAGAGTTATCGGCTGAGACAGATGAATTTTTCAATTTCATGCTAGATAATGATTTATTAGATTTAGTTGCGAAAAAAGGAAAAGCTGGTGGCGGATATTGTACATATATTGAGAATTATAAAGCGCCATTTATTTTCTCAAACTTCAATGGAACATCTGGTGACATTGATGTATTAACACATGAAGCAGGTCATGCTTTCCAAGTATATGAAAGTCGTAAATTTGAAATTCCAGAATATAATTGGCCAACATATGAAGCGTGTGAAATCCACTCTATGAGTATGGAATTTTTTACATGGCCATGGATGAAGCTATTCTTTGAAGAAGATGCAGATAAATATTACTTCTCTCACTTAAGTTCAGCACTTCTGTTTTTACCTTATGGCGTATCAGTTGATGAATATCAACATTATGTATATGAAAATCCTGAAGCATCACCTGAAGAGCGTAAGACAGCATGGCGTAACATAGAGAAGAAATACTTACCGCATCGTGATTATGAAGATAATGATTATTTAGAGCGCGGTGGTTTTTGGCAACGTCAAGGGCATATTTATAGTTCACCTTTCTATTATATTGATTACACGCTTGCTCAAATTTGTGCGCTACAATTTTGGAAACGTGCAAGAGATAATAGACAAGAGGCGTGGGAAGATTATGTGAATCTGTGTCAACAAGGTGGAAGTAAATCGTTCTTAGAATTAGTAGAAGTTGCAAATTTAACATCACCATTTGCTGAAGGCTGTGTGAAAAGTGTTATTACAGAAATTGAAGCATGGTTACATGCGTTTGACGACACAAAATTGTAA	MSFKDYEYKRPNIEELKEKFTVALEKFDNAKTVEEQKQVIHSINEIRNDFGTMGNLCYIRHSVDTTDTFYKEEQDFFDEFSPVVQGYGTKYYKALINSPFREELEAYYGKQLFALAECDLKTYSDEVVKDLQLENKLSSQYTQLLASAKIDFAGEERTLSQLIPFMQGKERSERKAASEAYYGFLAGNEEELDRIYDELVKVRTKIAKSLGFKNFVELGYARMYRTDYNAEMVANYRQQVLDYIVPVTTELRKRQQARIGVEKLAYYDENFEFATGNPTPKGDADWIVDHGKTMYKELSAETDEFFNFMLDNDLLDLVAKKGKAGGGYCTYIENYKAPFIFSNFNGTSGDIDVLTHEAGHAFQVYESRKFEIPEYNWPTYEACEIHSMSMEFFTWPWMKLFFEEDADKYYFSHLSSALLFLPYGVSVDEYQHYVYENPEASPEERKTAWRNIEKKYLPHRDYEDNDYLERGGFWQRQGHIYSSPFYYIDYTLAQICALQFWKRARDNRQEAWEDYVNLCQQGGSKSFLELVEVANLTSPFAEGCVKSVITEIEAWLHAFDDTKL				NA	NA	NA	NA	NA
AK009_00068	534			hypothetical protein	ATGCTTCAATCTAATATGGATGTGAGTTTAGAAAGTTTAGTAAACTCATTACAGTCTACCCGAAGCACGCTATTATCAGAAATTGAAATGTTAAATGATACAGAAGTGAATGTAAAGCCACGCCGTGATAAATGGAGTATTACTCAAATTTTACACCACTTGCATTTAGTTGAACAATCTGTCACGTCTGCCCTTGTATATGCTTTACAAAAAAACGAAAGAAACATGACTCCATTTAAAGACCTCCAACTTACGCTTGATCGCACACATAAACGAGAAGCTCCTCAGCAAATGCAACCAACAGAAACTTTAATGAAAAAACAGCAAGGAATTCAATTACTAGAACATTCACGACAAGAACTATTACACGCGCTTCATAGTGTTATAGATGAAAAAGATCTATTTGAAAATGGATTAAAGCATCCTGTTTTTAATGATCTGAATTTGTATCAATGGGTTCAATTTCTTGATTTGCATGAACAAAGACATCTTACGCAGTTAAAAGAGGCGAAACATGCAATTTTGCAACGCTAA	MLQSNMDVSLESLVNSLQSTRSTLLSEIEMLNDTEVNVKPRRDKWSITQILHHLHLVEQSVTSALVYALQKNERNMTPFKDLQLTLDRTHKREAPQQMQPTETLMKKQQGIQLLEHSRQELLHALHSVIDEKDLFENGLKHPVFNDLNLYQWVQFLDLHEQRHLTQLKEAKHAILQR				NA	NA	NA	NA	NA
AK009_00069	117			hypothetical protein	ATGTCTAAGAAGAAGCGAGAAGAGGAGCGCGCCTGGAAAGCGCGTAAAGAAAATCAACAACCGCACGGAAAAGTGAAAGCTTTTGCTGAATTAGTTGAAGGAACAGAAAAAACGTGA	MSKKKREEERAWKARKENQQPHGKVKAFAELVEGTEKT				NA	NA	NA	NA	NA
AK009_00070	1209	rcsC_2		Sensor histidine kinase RcsC	ATGCTCGTATATCATTTATTTTGGAATCAAAAAGGGAAACGCTCTCCTAAATTAAATTCAGCTATATTTATTGTATTGTGTTGCCTCGCTACCGTACTCTGTATTACATTTGCAGCAAAAACAAATAATGGTTTTCAATTTGATATGCGCCATATTGTATTAATTGTCGGTACATTAACGGGAGGGCCTATTGCTGGTGGTTCTATCTTAGTTGTATTAAACATATATCGCTTACTATTAGGTGGGGTAGGTGTTTTCCCATCTCTTATCGGTTCTGTTCTTCTATTTATTGTTCTACTATTAACATATAAATTTTTCAATCGAACTTCTAATCGTATAAAAATAACACTTGCTATTATCTACAGTCTCACATATGGATTTAGTTGGATACCTTTCTTTCTTTCAAAGGTTACAAATAAGACTGATTATATACCGCATATTATTGTATATGAGTTATGTTCAATGCTTGGTACGATCCTAATTTTATATTTACTACACATATTACAAACTCAAGTTCGTCTCCAAAACGAACTTATAAATGCTGAAAAGTTTCATTTAATTGGTGAAATGGCAGCGTCTATCTCTCATGAAATTCGCAATCCATTAACTTCAACGAAAGGGTTTTTACAACTGTTACAATCAGATACATGCACTGAGCAGGAACGAAAATTATATATCGACATTGCCATTAACGGCATCGAACAAGCAAATCATGTTCTTACAGATTATTTAACTTTTGCCAAACCAAGCATTGAAAAAGAACAAACATTACAGTTAGAAGAAGAATTACTACATGCATTGTCGTTAATTACACCGCTTGCTAATTTAACAAATGTACGTACTCATTATATAAAGCAAAGCACTTCTTTTTTTATCGCTGGAGAAAAACAAAAACTAAATCAATGTTTATTAAATATTTTAAAAAATTGCATTGAGGCTATGCCAAAAGGCGGTGATCTTTATTTCACATTAGTTCCTGATCATAAGCATATTCAGTTATATATAAAAGATACAGGAATCGGTATGGATTCAGAACAAGTAAAACGTCTTGGTTCGCCTTTCTATTCAACGAAAGAAAAAGGCACTGGACTTGGAATGATGGTCGTATTCAGTGTTGTTCAAGCTATGAACGGAAAAATTGATATTATAAGTGAAAAAGGAATCGGTACAACCTTTTTATTAACTTTTCCACTCATACAAAAAACGTGA	MLVYHLFWNQKGKRSPKLNSAIFIVLCCLATVLCITFAAKTNNGFQFDMRHIVLIVGTLTGGPIAGGSILVVLNIYRLLLGGVGVFPSLIGSVLLFIVLLLTYKFFNRTSNRIKITLAIIYSLTYGFSWIPFFLSKVTNKTDYIPHIIVYELCSMLGTILILYLLHILQTQVRLQNELINAEKFHLIGEMAASISHEIRNPLTSTKGFLQLLQSDTCTEQERKLYIDIAINGIEQANHVLTDYLTFAKPSIEKEQTLQLEEELLHALSLITPLANLTNVRTHYIKQSTSFFIAGEKQKLNQCLLNILKNCIEAMPKGGDLYFTLVPDHKHIQLYIKDTGIGMDSEQVKRLGSPFYSTKEKGTGLGMMVVFSVVQAMNGKIDIISEKGIGTTFLLTFPLIQKT	PGPT0025285_440	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK009_00072	663	queC	COG0603	7-cyano-7-deazaguanine synthase	ATGAAAAAAGAAAAAGCAGTTGTTGTTTTTAGTGGAGGACAAGATAGTACAACATGTTTATTTTGGGCAATAGAGCAGTTTGCAGAGGTAGAAGCTGTAACGTTTAATTACAATCAACGTCATAAGCTAGAAATTGATTGTGCAGCGAAAATTGCAAAAGAGCTAGGAATAAAGCATACGGTACTAGATATGAGTCTATTAAATCAACTTGCTCCAAATGCGTTAACGAGAACGGATATGGAGATTACACATGAAGAAGGTGAATTGCCATCGACATTTGTAGATGGACGAAATTTACTCTTCTTATCATTTGCTGCTGTATTAGCAAAACAAGTTGGAGCACGTCATATTGTAACGGGTGTATGTGAAACTGATTTCAGTGGTTATCCAGATTGCCGTGATGTGTTTGTGAAATCGTTAAACGTTACTTTAAATTTATCCATGGATTACCCGTTTGTCATTCACACGCCACTTATGTGGATTGATAAAGCTGAAACATGGAAATTATCAGATGAACTTGGAGCATTTGAGTTTGTTCGAGAAAAAACATTAACATGTTATAACGGAATCATTGGTGATGGTTGCGGTGAATGTCCAGCGTGCCAACTTCGTAAAGCAGGATTAGATACGTACCTACAAGAACGCGAAGGAGCGAACAACTAA	MKKEKAVVVFSGGQDSTTCLFWAIEQFAEVEAVTFNYNQRHKLEIDCAAKIAKELGIKHTVLDMSLLNQLAPNALTRTDMEITHEEGELPSTFVDGRNLLFLSFAAVLAKQVGARHIVTGVCETDFSGYPDCRDVFVKSLNVTLNLSMDYPFVIHTPLMWIDKAETWKLSDELGAFEFVREKTLTCYNGIIGDGCGECPACQLRKAGLDTYLQEREGANN				NA	NA	NA	NA	NA
AK009_00073	492			hypothetical protein	ATGGATAATTTCTTTGGATTTCGCATCGTAGAAAATTTGCAAAAAATGGACAAGGATATTCAGCGTAAACAGCTCAAATACCATAATAAAAGAGTAATGGTCAGCAAGGAATTTACATTTGATGCAGCACACCATTTACACTGTTATGAAGGGAAATGTAAAAACTTACATGGTCACACATATAAAGTTGTATTTGGAATTAGTGGATATGTAAATGAAATAGGACTTGCAATTGACTTTGGTGATATAAAAGAGATTTGGAAGAATGAAATCGAAATTTATTTAGATCATCGTTATTTAAACGAAACGTTACCTGCAATGAATACGACTGCTGAAAATATGGTCGTTTGGATTTATGAAAAGATGGCAGAGGCACTAACTAAAGAGAATCGAGTGAACGAATATAAAGGAGCTCGCGTAGAATTTGTTCGTCTATTTGAGACGCCGACTAGTTATGCGGAAGTAAGACGGGAGTGGATGCTCGATGAGTAA	MDNFFGFRIVENLQKMDKDIQRKQLKYHNKRVMVSKEFTFDAAHHLHCYEGKCKNLHGHTYKVVFGISGYVNEIGLAIDFGDIKEIWKNEIEIYLDHRYLNETLPAMNTTAENMVVWIYEKMAEALTKENRVNEYKGARVEFVRLFETPTSYAEVRREWMLDE				NA	NA	NA	NA	NA
AK009_00074	717	queE_1	COG0602	7-carboxy-7-deazaguanine synthase	ATGAGTAAAATCCCTGTCTTAGAAATATTTGGTCCGACTATTCAAGGTGAAGGAATGGTTGTAGGGCAAAAGACAATGTTTATCCGTACGGCTGGTTGTGATTATAGCTGCGCTTGGTGTGATTCTGCTTTTACATGGGATGGATCAGCTAAAAATCAAATTAGACAGATGACAGCAGAAGATATTTGGGATGAGCTTGTTGCAATTGGAGGAGAAAAATTTTCTCATGTTACGATTTCAGGCGGGAATCCGGCATTGCTGAAAAATATTGAGTTTCTTCTTTCTATATTAAAAGAAAATGGAATGCGGACGGCAATTGAAACTCAAGGGAGTAAATGGCAAGATTGGTTACTTCAAATTGATGAAGTAACAATTTCTCCAAAACCACCAAGTTCGACGATGAAAACAGATTTTCAGAAGTTAGATGCTATTATTCAGAAACTAGCAGGAAAAGATATTAGTTTAAAAGTAGTAGTATTCGATGATCATGATTTTGAATATGCAGTTAAGATGCACGAACGTTATCCAGATGTACCATTTTTCTTGCAAGTAGGAAACGATGATACAAAAACAGTGGATGATGCGATGCTTATTAAAAAATTATTAGATAAGTATGAGTGGCTGATTGATAAAGCTGTAAATTGTAAAGAGATGAATGATGCAAAAGTATTGCCCCAGCTTCATGCGTTAGTATGGGGAAATAAACGCGGCGTATAA	MSKIPVLEIFGPTIQGEGMVVGQKTMFIRTAGCDYSCAWCDSAFTWDGSAKNQIRQMTAEDIWDELVAIGGEKFSHVTISGGNPALLKNIEFLLSILKENGMRTAIETQGSKWQDWLLQIDEVTISPKPPSSTMKTDFQKLDAIIQKLAGKDISLKVVVFDDHDFEYAVKMHERYPDVPFFLQVGNDDTKTVDDAMLIKKLLDKYEWLIDKAVNCKEMNDAKVLPQLHALVWGNKRGV				NA	NA	NA	NA	NA
AK009_00075	498	queF	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGACAGGAAGATTAGATGAAGATTTAAAAGATGTAACATTACTAGGAAATCAAAATACAAAATATTTATTTGAATATAGCCCAGAAATATTAGAGGTATTTGATAATAATCATCCAAACCGTGATTATTTTGTAAAATTCAATTGTCCTGAATTTACAAGTTTATGTCCGAAAACAGGACAACCAGATTTTGCAACAATTTATATTAGCTATATTCCAGAGCAAAAAATGGTAGAGAGTAAATCTTTAAAGTTGTATTTATTTAGTTTCCGCAATCATGGTGATTTCCACGAAGATTGCATGAACGTTATTATGAACGATTTAATTAAATTAATGGATCCACGTTACATTGAGGTATGGGGGAAATTTACACCACGTGGTGGCATTTCAATTGATCCATACTGCAACTACGGTCGCCCGGGGACGAAGTATGAACAAATGGCTGACTACCGCATGATGAACCACGATCTATATCCGGAAACAATTGATAATCGTTAA	MTGRLDEDLKDVTLLGNQNTKYLFEYSPEILEVFDNNHPNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPEQKMVESKSLKLYLFSFRNHGDFHEDCMNVIMNDLIKLMDPRYIEVWGKFTPRGGISIDPYCNYGRPGTKYEQMADYRMMNHDLYPETIDNR				NA	NA	NA	NA	NA
AK009_00076	186			hypothetical protein	ATGCAGATCGCAGAAACTGGAGATATCATCGAATTTAAAGGTGGAATGCAAGGCCGTGTTCAAAAAGTAAATCAAAACTCTGTTATTGTTGATATAACAATTATGAAGAATTTTAGAGAACTAGATATGGAACCTCTTACAGTTGTAAGTCATAAAAACTATACTGTCATTAATCAAAATGCATAA	MQIAETGDIIEFKGGMQGRVQKVNQNSVIVDITIMKNFRELDMEPLTVVSHKNYTVINQNA				NA	NA	NA	NA	NA
AK009_00077	156			hypothetical protein	ATGTTTGAATTTGTGGGGAGTGTTATAGCTTTAATTTTATTTTTATTTTCTTATATGCATTTAAAAAAGATTCGTCAATATGATACGAATACATATTTTGATGGGATGGATGGTACCCATGCTTCGATAACACATGATAGTGGTGGGGAGATGTAA	MFEFVGSVIALILFLFSYMHLKKIRQYDTNTYFDGMDGTHASITHDSGGEM				NA	NA	NA	NA	NA
AK009_00078	603			hypothetical protein	ATGAAGATTTCTTTTATTCGTCATGGTTGTTTAGGTCGTATAAGAGAACCGATGACAATTAATTCATTTCACGAATGGATGAAACAGTATGATTCCGAGTCAATGATACAAAAAGCTAAAATGCCGATAGAAACAATAGAGGCAATTGAAGCAGCGAAATTTGTCTTAACAAGTGATCAAAGGCGTGCTGTACAATCAGCAGCTGAATTGACAGATTCTTTATCTTTTATGCAAAATTCTCTTTTTAGAGAAGCTGAAGTTCCTTCATGCTTTTTTGCTCCGAAGTGGTTGAAATGCACAATTAAGGTATGGATGTTCATTGGACGAACGTTATGGATACTTGGCTACCATAAAGATGTTGAGTCTTATAAGGAAGTAAGAGAGAGGGCAAGGCAAGCGGCTTACCTGTTACATCGTTATGCTCTCGTACATGGAAGTATTGCTCTTGTAGGTCATAAGTATTTTAATTCGATGATTGGAACGGAGCTGAGGGCAATGGGATGGTCTGGTTCTCCTATTTTGCATAGAAAGCCATGGGGATGTACAACATATACGTTTCACGAGGCGATTGATGGAAATATATTAAATACGAATTTAACATAA	MKISFIRHGCLGRIREPMTINSFHEWMKQYDSESMIQKAKMPIETIEAIEAAKFVLTSDQRRAVQSAAELTDSLSFMQNSLFREAEVPSCFFAPKWLKCTIKVWMFIGRTLWILGYHKDVESYKEVRERARQAAYLLHRYALVHGSIALVGHKYFNSMIGTELRAMGWSGSPILHRKPWGCTTYTFHEAIDGNILNTNLT				NA	NA	NA	NA	NA
AK009_00079	579			hypothetical protein	ATGATTCGGAAAGCAAAAAAGACAGATGCAATGGCAATAGCTCCTTTATTGTATAATGCTCTGCATGAAATTGCTGAAAAAATCACAGGTAGCACAGTTAAAGCAGAAGTATTACTAGGACTTGAGACATGGTTCTCAAAAGAAAATAACCGTCTGAGCTACGAAAACTGTTTTGTCTATGAACAAGACGAGAGTGCAGTTGGAATTATTGTCGCTTATCACGGTAGTGAAGCAACACAGCTTGACGCACCAATTGTACATCACTTAAGAGAATTACATAAAGATGAATCAATTACGTTAGAAAAAGAAGCTGAGCTTGATGAGTATTACATTGATACATTATCAGTTTCAAGTGCACACGGCGGAAAAGGTATAGGTTCTAAATTAATTGAAGCTGCCGAAATCTATGCAACTGAAAAAGGGCATGAAAAAATCGCTTTACTTGTTAATTTAGAAAACACACGCGCCTATTCACTATACGAAAAGTTAGGTTATAAAAAAGATGAAATTGTTATGCTAGTAGGCGAACCTTATGCTCATCTCGTAAAAACATTAAACGTCAAAATTTCTATATCTTAA	MIRKAKKTDAMAIAPLLYNALHEIAEKITGSTVKAEVLLGLETWFSKENNRLSYENCFVYEQDESAVGIIVAYHGSEATQLDAPIVHHLRELHKDESITLEKEAELDEYYIDTLSVSSAHGGKGIGSKLIEAAEIYATEKGHEKIALLVNLENTRAYSLYEKLGYKKDEIVMLVGEPYAHLVKTLNVKISIS				NA	NA	NA	NA	NA
AK009_00080	195			hypothetical protein	ATGGATAAAGAATTAGCAAATACAATTTTAGATCAGCTGAAAAATGGTGAAATAACGGAGTATGTTGTTACGAAAGATGTATTTTATACGTTCAGAGAAGTTGTTGTAAATAGAGAAGACTTTAAGCATTTCATTGGTAACGCACAACGAGGCGGGCAAGTGATTTATACATATTCAGAAACGCCACGTTCATAA	MDKELANTILDQLKNGEITEYVVTKDVFYTFREVVVNREDFKHFIGNAQRGGQVIYTYSETPRS				NA	NA	NA	NA	NA
AK009_00081	318			hypothetical protein	ATGGGCGATTTTAAACAAGGCATTTTACCACATTGGGATTATATGTGGAAAGATAGAGCCGGCAATAGATTTATGGGAATGGTTATGTATCCAGAGAAACGAAAATGTTCAGCAAAAATGCTTCAGAAAATAAAAAGAGCATATGAAGAAGCGATAGAAATTAAAGTAACTGTACAAGTTCAACATACATATCAGTACGTAGAAGGAATGATTGTATACTTTGATGAAGAGGCTCCTGTATGTACAATGCTTGATAAAGATGAAAATCCACATCACATATTTGTAAAAGATATTTTGCGTATTGAGCACTCTGAATAA	MGDFKQGILPHWDYMWKDRAGNRFMGMVMYPEKRKCSAKMLQKIKRAYEEAIEIKVTVQVQHTYQYVEGMIVYFDEEAPVCTMLDKDENPHHIFVKDILRIEHSE				NA	NA	NA	NA	NA
AK009_00082	360	nrdI_1	COG1780	Protein NrdI	ATGTTAGTTGCATATGATTCTATGACAGGAAACGTGAAGCGTTTCATTCACAAATTAAATATGCCGGCCGTTCAAATTGATGAAGATCTAGTAATAGATGAAGACTTTATTCTTATTACGTATACAACAGGTTTTGGCAATGTACCAGAACGTGTTTTAGACTTTTTAGAGCGCAATAATGAAAAATTAAAAGGCGTATCTGCAAGCGGCAATCGTAACTGGGGAGACATGTTCGGTGCAAGTGCTGACAAGATTTCTACTAAATATGAAGTGCCTATTGTATCAAAATTTGAGTTATCTGGAACAAATAACGATGTAGAATATTTTAAGGAAAGGGTGCGGGAGATTGCGACACATTGA	MLVAYDSMTGNVKRFIHKLNMPAVQIDEDLVIDEDFILITYTTGFGNVPERVLDFLERNNEKLKGVSASGNRNWGDMFGASADKISTKYEVPIVSKFELSGTNNDVEYFKERVREIATH				NA	NA	NA	NA	NA
AK009_00083	2085	nrdE_1	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	TTGCGACACATTGAACTGAATAATGAAATCACGCAAATGCAGGACGGTTTTTATCAGCTTCATAAAGATAAAGAGGCATTAGAAGTCTTTATGGAAGAAGCTAGAGAGAATACCGTTCCTTTTAATAGCGTGGCAGAGCGAATGGAGTATATGAAAGAACATGATTACTATTACAACGTTCTGGACGAGTATAGCTTGGAGGAAGTAGAGGGAGTATATAACATCGCTTATGGTGAAAACTTCGAGTTCCAATCTTATATGGCAGCATCTAAGTTCTACAAAGATTATGCGTTAAAAACGAATGATCAAAAACAATACTTAGAAAGCTATGAAGATCGTGTAGCAATTGTGTCATTATACTTAGGACGCGGTGATGTTTCGAAGGCAAAACAATTCGCAAGCATGATTGTAAAACAAAACTACCAACCAGCGACACCAACCTTTTTAAATGCGGGAAGAAGCAGAAGAGGAGAAATGGTGTCTTGTTTCTTGTTAGAGATGGACGATAGCTTAAATTCAATTGGTTTTAACATTAATACTGCGATGCAATTATCGAAAATCGGCGGGGGAGTAGCCTTAAACTTATCTAAGCTACGCGCACGTGGTGAGCAAATTAAAGGTATCGACAACGCTGCAAGTGGTGTAGTGCCTGTTATGAAATTGCTTGAAGATTCGTTTTCATATGCGAATCAGCTTGGCCAACGAAAAGGTGCCGGCGCAGTATATTTAAACATTTTCCATTGGGATATTATTGAATTCCTTGATACAAAAAAAATAAATGCCGATGAGAAGAGCCGTATTCAGTCTCTATCAATCGGAATTATCGTTCCAAGTAAGTTCTTTGAGCTTGCTGAGAAAAACGAACCTTTCCATGTTTTCGCGCCTTATACGGTTTATAAAGAATATGGCAAGCATTTAGATGATATTGACATTGATGAAATGTACGATGAATTAATGAGCAATCCGAAAGTGAAGAAGAAGCCACTAGATATTAGTGCACGTGATATGCTTATTAAAATCGCTATGATTCAGCTTGAGTCTGGTTACCCATACTTAATGTTTAAATCAAATGCAAATAATCAACATCCATTGAAGGATATTGGAACTGTGAAGATGTCGAACTTATGTACAGAAATCTTCCAGCTTCAAGAAACTTCAGAAATAAATGATTACGGTACAGATGACATTATCCGTCGTGATATTAACTGTAACTTAGGATCGTTAAATATCGTAAACGTAATGGAAAATAAAGAAATTCGTGAAGCAGTTCATGCGGGAATGGAAGCTTTAACAGCTGTTTCTGATATGACGATTATTCCGAATGCACCAACTGTGAAAAAAGCAAATGACGAGCTTCATTCAGTTGGACTTGGAGCAATGAACTTACACGGATATTTAGCAAAAAATAAAATCGCTTATGAAAGTGCAGAAGCGAAAGAATTCGCTCGTACATTCTTTATGATGTTAAATTACTATTCTATTGAGAAAAGTATGGAAATCGCTACAGAAAAAGGCGAGACATTTAAAGACTTCGATAAATCTGATTATGCGAATGGCACATACTTCGAAAAGTATGAAACGACAGATTACAGCCCAGTAACTGAAAAAGTTCAGCAACTATTTGAAGGAATTCATATTCCGACAAAAGAAGATTGGACAAGTTTAAAAGAGCAAGTGCAAAAGAATGGTTTATACAACTCATATCGTCTTGCCATTGCTCCAACACAATCAATCAGTTACGTTCAAAATGCAACTTCAAGCGTAATGCCGATCGTAAGTCAAATCGAATCAAGAACATATGCGAACGCGACAACATATTATCCAATGCCGTATTTATCAAAAGATACGTTCTGGTACTATAAATCTTCTTACGATATGAATCAGTTTAAATTAATTGATTTAATCGCAGAAATTCAAGAACATATTGATCAAGGAATTAGTACAATTCTTTACGTTAATAGTGATATTTCAACACGTGAATTAGCACGTTACTACATCTATGCACATAAAAAAGGCTTAAAGAGTCTGTATTATACGAGAACACGTAAATTAAGCGTGGAAGAGTGTGTGGCTTGTACCGTTTAA	MRHIELNNEITQMQDGFYQLHKDKEALEVFMEEARENTVPFNSVAERMEYMKEHDYYYNVLDEYSLEEVEGVYNIAYGENFEFQSYMAASKFYKDYALKTNDQKQYLESYEDRVAIVSLYLGRGDVSKAKQFASMIVKQNYQPATPTFLNAGRSRRGEMVSCFLLEMDDSLNSIGFNINTAMQLSKIGGGVALNLSKLRARGEQIKGIDNAASGVVPVMKLLEDSFSYANQLGQRKGAGAVYLNIFHWDIIEFLDTKKINADEKSRIQSLSIGIIVPSKFFELAEKNEPFHVFAPYTVYKEYGKHLDDIDIDEMYDELMSNPKVKKKPLDISARDMLIKIAMIQLESGYPYLMFKSNANNQHPLKDIGTVKMSNLCTEIFQLQETSEINDYGTDDIIRRDINCNLGSLNIVNVMENKEIREAVHAGMEALTAVSDMTIIPNAPTVKKANDELHSVGLGAMNLHGYLAKNKIAYESAEAKEFARTFFMMLNYYSIEKSMEIATEKGETFKDFDKSDYANGTYFEKYETTDYSPVTEKVQQLFEGIHIPTKEDWTSLKEQVQKNGLYNSYRLAIAPTQSISYVQNATSSVMPIVSQIESRTYANATTYYPMPYLSKDTFWYYKSSYDMNQFKLIDLIAEIQEHIDQGISTILYVNSDISTRELARYYIYAHKKGLKSLYYTRTRKLSVEECVACTV	PGPT0021340_6040	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK009_00084	969	nrdF_1	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGCGTGCGGTAAACTGGAACAAAAAAGAAGATGATTTTAGTTTAATGTTTTGGAAGCAAAACATCGCTCAGTTTTGGACAGAAGAAGAAATTGCGGTTTCGTCTGACAAAAATACTTGGGTGCAATTATCGAAAGAAGAGCAAATTGCTTATAAGCGTGTATTAGGTGGTTTAACACTTTTAGATACGAAACAAGGTGGCGAAGGAATGCCACTTGTACTTGTTCATCTTGAAAATTTACAAGCTAAAAGTGTATTAGCTTTCATGGGAGCTATGGAAGAAGTACATGCGAAGAGTTACAGTCATATCTTTACAACGTTAGCTACTGAAGAAGAAATTGATGATATTTTTGACTGGGTAGACAATCATCCATTACTTGAGAAAAAGGCCGGTATTATTACTGGTTACTATCGTCGTTTGTTAAAGCCTGAGGTAACGAAAAAAGAGCTATATATGGCAATGGTAGCAAGTGTGTTCTTAGAAAGTTATTTATTCTATAGTGGATTCTTCTATCCGCTTTACTTAGCTGGTCAAGGAAAACTAACAGCAAGTGGTGAGATTATTAACTTGATAATTCGTGATGAGTCAATTCACGGCGTATTCGTCGGTATTTTAGCACAACAAATCTTCGCAGAACTTTCTGCAGAAGAGCAACAAGAAGTGCAAAAAGAAACACAAGAGTTATTAATGGAACTATATGAAATTGAAATGGCCTATACAGAAGAAATTTACACTTCTATCGGTCTTGTAGAAGATGTAAATCGTTTCGTTCGTTACAATGCGAATAAAGGGCTTATGAACTTAGGACTTGAGCCGAAGTTTGAAGAAGAAGAAATTAACCCAATCGTTTTAAATGGTTTACGTACAGATACGAAAAACCATGATTTCTTCTCTGTAAAAGGAAATGGTTACGTAAAAGCAACGAATGTTGAAAAGTTAGCTGACGATGACTTCGTGTTTAACTTTTAA	MRAVNWNKKEDDFSLMFWKQNIAQFWTEEEIAVSSDKNTWVQLSKEEQIAYKRVLGGLTLLDTKQGGEGMPLVLVHLENLQAKSVLAFMGAMEEVHAKSYSHIFTTLATEEEIDDIFDWVDNHPLLEKKAGIITGYYRRLLKPEVTKKELYMAMVASVFLESYLFYSGFFYPLYLAGQGKLTASGEIINLIIRDESIHGVFVGILAQQIFAELSAEEQQEVQKETQELLMELYEIEMAYTEEIYTSIGLVEDVNRFVRYNANKGLMNLGLEPKFEEEEINPIVLNGLRTDTKNHDFFSVKGNGYVKATNVEKLADDDFVFNF	PGPT0021345_3645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
AK009_00085	381			hypothetical protein	ATGAAAATAGAGTTTTCTCCAAATATACCAATTTACATTCAGGTAATGGAATACATAAAAAAAGAGATCGTAACAGGACAGTTATTGCCTGGTGATAAAATTCCCTCTGTCCGTGAATTAGCGAGTGAATTACAAGTGAATCCAAATACGATTCAGCGTACATTTCAAGAGCTAGAACGGGATGGAGTTGTTGTAACACGTAGAGGAATGGGACGGTATGTAACGAATGAAGGGGAGAAAATAATGGAGCTGCGAAAAGAGATGGCGAAAGAATTACTTCATTCTTTTATAGATGGAATGGACAATTTAGGTTTTTCAGAAGAAGAAATTCTTACAATTCTTCGTTCTTCATTGCATGATAAGAGGGAGGAGAGCCAATGA	MKIEFSPNIPIYIQVMEYIKKEIVTGQLLPGDKIPSVRELASELQVNPNTIQRTFQELERDGVVVTRRGMGRYVTNEGEKIMELRKEMAKELLHSFIDGMDNLGFSEEEILTILRSSLHDKREESQ				NA	NA	NA	NA	NA
AK009_00086	699	yxlF	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGACAGAGCTATTAAAAATAGAAAACTTATGGAAGAGATACGGATTAAAAGCAGTGATCCGTGAATTAAACATAGAGATTACGGAAGGGAAAATCGTTGGGCTTGTTGGAGATAACGGGAGCGGGAAAACGACGTTATTGAAAATGATTGCAGGCTTGCAACACCCTTCTGAAGGCAGTATCACAATAGACGGTAAAAAGGTAGGATTACAGACGAAAGAAATCGTTTCATTTATGTCCGATAAGCCAATCTTTGATGATTGGATGACTGTAAAAGACGCTTTATTTTTCTACCGGGATTTTTATAAAGACTTCGATATTCAAAAAGCGGTAGATACGATAGCGGAATTTAAAATATCGCTAGAAGAAAAAATTACAGCATTGTCAAAAGGTATGGTTGAGAAGCTGCAGATTATTTTAACGTTTTCTCGAAAAGCGAAGCTATATGTACTAGATGAGCCATTGGGCGGAATTGATCTTGTTTCTAGAGAACATGTACTTGAGCTAATACTTAAATTTTATCGTCAAGACTGTACGCTACTTATATCGACTCATTTAATAAGAGAAATTGAAAATATATTCGATGAAGTAATCTTTTTGAAAGATGGAGAAATAATATTGCATGAAAATGTAGAAGAACTAAGATTTCAAAAGGGTAAAGCAGTACATGAGCTGTTTAAGGAGGCCTATGAGAAATGA	MTELLKIENLWKRYGLKAVIRELNIEITEGKIVGLVGDNGSGKTTLLKMIAGLQHPSEGSITIDGKKVGLQTKEIVSFMSDKPIFDDWMTVKDALFFYRDFYKDFDIQKAVDTIAEFKISLEEKITALSKGMVEKLQIILTFSRKAKLYVLDEPLGGIDLVSREHVLELILKFYRQDCTLLISTHLIREIENIFDEVIFLKDGEIILHENVEELRFQKGKAVHELFKEAYEK	PGPT0006725_27274	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_00087	792			hypothetical protein	ATGAGTCAGCTTTTTCATTATCTGTATAATTGTAATAAGAGAAAGATAGCTATTATTTACTTTGGTTTTATTACAGTTTCATTAATTCTTTTATTTAATATGAAAGGAGTTTCAGGAGTTAGAATTTCAGGTAGGCAAGATATAATTATTATTATATTTTTTATCGTGCTAGGTATAAATGGATTTGCAATTCTTCTAACAGGTATATCGTCTTTTCGGAAAATGTTAAAAGACTCTATGCTACGTTATACTTCTATTTCAGCAAAAAAGTATATATGTGCAAATATTTTATTCTGTGTACTACTCTTTATGATTTTGCTAGGAATAGGAATCATTTTTCTATACTATTTTTCTTTAAATATTTACAATGGCAAAACTAATTTAGGTATTCAGCAAGCGATACACAGTTTATATGATTATGGAATATTACATCATATGTTATCTATTTTCTTATGGGGACTAGATTTTCTTAATATGCTAGTTTCTATTTATTTTATTATAGTAATTGTGAAACTATTCAATGTGAAATCATCGATGAATAAGATTGCTTGTTTAGTTTTGTTCGTCATTTTTACAGCATTTAATGGAGGAATAACGTATATTTTTCAGCAAATAGAAAAGTATGTGTTTGCTATAAATAATATTGGATTTATAGATAAAAATGGTTTTTTAAATACATCATTTTATTCTGGTACCGAGATTACAATTTTAAATCTATTTTTTAATTGTTTATTAACAATTATATTACTAGTAGTTACAGGTTACATAGTCGATAAAAAACTAGAAGTCTAA	MSQLFHYLYNCNKRKIAIIYFGFITVSLILLFNMKGVSGVRISGRQDIIIIIFFIVLGINGFAILLTGISSFRKMLKDSMLRYTSISAKKYICANILFCVLLFMILLGIGIIFLYYFSLNIYNGKTNLGIQQAIHSLYDYGILHHMLSIFLWGLDFLNMLVSIYFIIVIVKLFNVKSSMNKIACLVLFVIFTAFNGGITYIFQQIEKYVFAINNIGFIDKNGFLNTSFYSGTEITILNLFFNCLLTIILLVVTGYIVDKKLEV				NA	NA	NA	NA	NA
AK009_00088	903	bcrA_1		Bacitracin transport ATP-binding protein BcrA	TTGGGAAACGTAGTAGTAAAGTTAGAGAATGTTCGAAAAAGGATTGGTGGAACGGAAATTATTCGTGGTTTATCATTTGAGGTTCGTGAAGGAGAAGTATACGGATTCCTTGGACCGAACGGTAGCGGTAAGACGACGACGATCCGTATGATGACAGGTCTTATTTCAATGACAGAGGGCGATATTACAATTTGTGGACATAGTATTCGCTCGGAGCGTGAAAAGGCACTAGAGCAAATTGGAGCGATTGTAGAAAATCCTGAACTATATGATTATATGACAGGAATGCAAAACTTAAAGCATTTTGCGAACATGGCCATTAAACCAATTAGTAAAGAGCGCATTGCTGAGATTGTAAAGCTTGTTGAATTAGAGCATGCAATTCATAAAAAGGTGAAAACATATTCACTTGGTATGAAACAACGTTTAGGAATTGCACAGGCATTACTTCATCAGCCGAAAATCTTAATTTTAGATGAGCCGACAAATGGATTAGATCCAGCTGGTATTCGCCAAATTCGTGATTATTTACAACGTTTAGCGAAAGAAGAGAATATTGCTGTAATCGTATCAAGTCACTTATTGAGTGAAATTGAATTAATGTGTGATCGCGTCGTTATTATTAAACAAGGTGAGTTTGTACAAGAGTACAACTTACATGAAAAAGTGAAGCATGATGAGGCAGTCGTTGTAGCGTTTGAAGTAGATGAAGTTCAGAAAGCGAATGAAATTATTAAAGGTAAAGCGAAAGGGAATGTAATTGTAGCATCTTTAACAAAAGACAACATTCCACAAATTGTAAAAAAACTTGTTCATGCTGATGTGCTTGTATACGGAGTTACTGTTCAAAATAAAACGTTAGAGGATGAGTTCTTAGCGATTACTGGGGGAGTGAAAGCGTAA	MGNVVVKLENVRKRIGGTEIIRGLSFEVREGEVYGFLGPNGSGKTTTIRMMTGLISMTEGDITICGHSIRSEREKALEQIGAIVENPELYDYMTGMQNLKHFANMAIKPISKERIAEIVKLVELEHAIHKKVKTYSLGMKQRLGIAQALLHQPKILILDEPTNGLDPAGIRQIRDYLQRLAKEENIAVIVSSHLLSEIELMCDRVVIIKQGEFVQEYNLHEKVKHDEAVVVAFEVDEVQKANEIIKGKAKGNVIVASLTKDNIPQIVKKLVHADVLVYGVTVQNKTLEDEFLAITGGVKA	PGPT0006725_14836	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_00089	777			hypothetical protein	ATGTTTAAATTAATTCAAAATGAATTTTTAAAGTTGCATGCGAAAAAAGGTATGTATATTTTAATTGGTGTCATTGCGGCACTCGAAATTTTAGGTACTTTAGCAATGTTGAAGTGGGGAAAAGGTGATGAGTTTAAGGGATCATATTTAGATTATGCAAACTCAGAGATTGGCTTAATTGTTTTATTTACAACGATTTTTGGGATCACACTTGCTGCCCGTACTCTTACTGATGAGTTCCAAAAAGGTACAATTAAACAATTGTTAATCCGTCCAAGAAAAAGACTTGCAGTTTTATTTTCTAAATATATTACAGTGTTATTAGCAATGTTATTTATCGTATTAGCTGGTATGCTAATTGCAATGATTATTGGCGGTATTGTAATGGATGGTAGTAAAACAGAATTAACGTTAGGAATCGTAATGAAGTCCACTTTATATCAATTACTTTCACCGTTCTTTTTTGCAACACTTGCATTTTTCCTAGCAAATGTCTTTAGAAAGTCTGTATTACCATTAATTATTACGATGTTCCTATTCTTCTTACAAGGTGCAATTAACATGGTATTAATAATGTTTGCAAAAGGTGTAGCGAAGTTTGTAGTATTCTTCCATTTGGATTTAAGAGCTTACGACAGTAATAAATTAATTAGTGGTGGAGTAGAACCAACATTTACAGAATTTACGTTTACAACTTCATTATTACTTGTAGCTGCATACTTTGTTGTGTTACTTGTAGCATCAAGTGCATTATTCCAAAAACGTGACGTATTATAA	MFKLIQNEFLKLHAKKGMYILIGVIAALEILGTLAMLKWGKGDEFKGSYLDYANSEIGLIVLFTTIFGITLAARTLTDEFQKGTIKQLLIRPRKRLAVLFSKYITVLLAMLFIVLAGMLIAMIIGGIVMDGSKTELTLGIVMKSTLYQLLSPFFFATLAFFLANVFRKSVLPLIITMFLFFLQGAINMVLIMFAKGVAKFVVFFHLDLRAYDSNKLISGGVEPTFTEFTFTTSLLLVAAYFVVLLVASSALFQKRDVL	PGPT0006730_17405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_00090	1014			hypothetical protein	GTGCACTATGCATTTTCACGTATAAGGCTACGTAGCTTTTTTGGATGGATGATTATAGGGGTGTTCCTTATAATGATACCATTAGGTCTAGCAAATGTTTCTGAGAATACGATGGAGGTTATTTCACAAATAACTGTATTTTTTGTATTTCCGTTACTTTGGCTATACGTAAAAACAAATAAAAATAATGTTGTATTTAACAGTTTTTTTGATAAGCCAGGACGTTTATCTTGGGGATTAATTGTATTAGCAACGATAATGGGGATGATTTTTTCAGTTGGCATATCTCAGATTCAATTTTACATATTAGCACATACGTTACCGAATTTCTTAGTTACTATGCTAGAAGACGGAAATGTTATTAATACGAGTAACGTATATATGACGATATTTACTTTCATTTCAGCATGTGTGTTAGCACCTATTATGGAAGAGGTTATTTTTAGGGGATTTTTCTTACAGCGAATGGCTCATAAATGTGGAATTAAAAAAGCTGTAATTATATCTTCAATTATTTTTGGCCTAGGACATTTTGATGTTATTGGTGCGTTCATGTTTGGTGTCGTTATGTGCCTTTTATACATAAAGACAAAAAATATATGGACGAATATAGCTGTGCACGCTCTAAATAATTTGATTGCAACAAGTATGCAATTTTTCGGTGGAGAAGAAAGTGGTACAATCTCAATTACTGAATTACAAGCGCAAAGTAATTTATGGATTGGTATCGGTCTTACAGTTGTTGGATTACTATGGTTAATTCCGTATGTTTGGAAACAATGGCGTACAGTAAAAGAAGTTGGCGTGCCACCAGTACGTTTTATAAATGAGCAAAAAGTAGTGAATTCATCACAAGAAAATGAAGTGTATAGTCAAGTGATCGTAACCGATAGATTGATGGCCATAGAGTTACCAGATGAGGTTGTAAATAAGCTTCGGTTAGAAGAAAGTGATTATGTAACAGTATCAGTAGAAGAAGATAAAATTGTTATAAAGAAAGCACATAATAGATAA	MHYAFSRIRLRSFFGWMIIGVFLIMIPLGLANVSENTMEVISQITVFFVFPLLWLYVKTNKNNVVFNSFFDKPGRLSWGLIVLATIMGMIFSVGISQIQFYILAHTLPNFLVTMLEDGNVINTSNVYMTIFTFISACVLAPIMEEVIFRGFFLQRMAHKCGIKKAVIISSIIFGLGHFDVIGAFMFGVVMCLLYIKTKNIWTNIAVHALNNLIATSMQFFGGEESGTISITELQAQSNLWIGIGLTVVGLLWLIPYVWKQWRTVKEVGVPPVRFINEQKVVNSSQENEVYSQVIVTDRLMAIELPDEVVNKLRLEESDYVTVSVEEDKIVIKKAHNR				NA	NA	NA	NA	NA
AK009_00091	183			hypothetical protein	TTGAAAATCTGGTTTTATGAAAAAACGGCACAATTAGATGACTTGCTTGGTATTTGGGACAATGTTCCGACCATCCCGCGAATTGGTGAAAAAGTGGAGATTTTAAAGACAGTCCGTACTGTTACAGATATTAAATATGTAAAGAACGGTAATAATTTTCGTATAGAAATTATTACAAATTAA	MKIWFYEKTAQLDDLLGIWDNVPTIPRIGEKVEILKTVRTVTDIKYVKNGNNFRIEIITN				NA	NA	NA	NA	NA
AK009_00092	453	lrpC_1	COG1522	HTH-type transcriptional regulator LrpC	ATGCAACTAGACCGTGTTGATCGAAAAATTTTAAATGAATTATATAATGATAGTCGCCTTTCTATGCGTGAATTGGCGAAACGAGTAAACTTATCTGCTCCGTCTACTGCAGAACGTGTTCGTAAACTTGAAAGTGAAGGCGTTATTCAAAAATATACAATCGATATCGACTATAAAAAAGCAGGACTAGTTTTAGATTGTATTTTAGAAATCACTTTAAAAAATGGTGATACAACACGTATGCAACAGTTTATTCAGTCTTATCCATCTGCAAGTTTTTGTTACCGAGTAACAGGAAGCTTATGCTACATTGTAAAAATTTCTGTTCCTTCACTCGTTGAACTTGAAGAATTTATCAATGATGTTTCTTCATATGCAACGACAGTTTCTCATATCGTATTATCAGAAGTATCTCTTACTCCTGATATTGAACATATCTTCCCAGAAGATTAA	MQLDRVDRKILNELYNDSRLSMRELAKRVNLSAPSTAERVRKLESEGVIQKYTIDIDYKKAGLVLDCILEITLKNGDTTRMQQFIQSYPSASFCYRVTGSLCYIVKISVPSLVELEEFINDVSSYATTVSHIVLSEVSLTPDIEHIFPED				NA	NA	NA	NA	NA
AK009_00093	411			hypothetical protein	ATGGAGAGAATTTCATTATCAAATGTAGGAGATACAAAGTTTCAAAAGTTATTAGGGCATAATTCGGATATATTACATTCGTGGAGTACGTTAGAGGATACACTGTACAATAAAGGAATTCTTTCAGCAGAGTTGAAGGAGCAAGTGAGAAGAACATTAGCGTATGGGAATGAATGTCCGTACTGTATGGCAAAGGGAAGACCTGATGATGTGCAAAAGGCAGAGGAGATTGGTGTAGCCGTTACTTTTGCGCATACATTTGTTCATGACCGAAAAGCGATAGATGATACTATGTTTCACGCATTAAAACAATATTGGACAGAAAAAGAAATTGTAGAGCTTTGCGCCTATGTTTGCTTTATTACTGCGTCACAACAACTTGGTTTTCTATTTCAATTACAGCCAAATTAA	MERISLSNVGDTKFQKLLGHNSDILHSWSTLEDTLYNKGILSAELKEQVRRTLAYGNECPYCMAKGRPDDVQKAEEIGVAVTFAHTFVHDRKAIDDTMFHALKQYWTEKEIVELCAYVCFITASQQLGFLFQLQPN				NA	NA	NA	NA	NA
AK009_00094	555	rutB_1		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGACAAATCAAATAGCACTTATCATAATCGATGTACAAAAGGCATTTCAATTACAAGATTGGGGCGAGAGAAATAATATTTTTGCTGAAGAAAACATGAGAATTTTGTTAGCAGAATGGAGGAAAAGGAAACGACCAGTTTTTCATATTCAACATGTAAATAAAGAAGATGCTCGGTCAATGTTTTATGAGAGAGGGGAAACGGTAAACTTTAAAGAAGAAGTGCAACCACTACCTGGTGAAGTGGTTATTCAGAAATTCGTTAACAGCGCGTTCATTGGGACGAATTTAGAAGAGCAATTAAGAGAGGACAAATGTAATGCAGTAGTAGTTGTAGGATTAACGACAAATCATTGCGTGGAAACTACGACACGAATGGCAGGGAATTTAGGATTTACAACGTATTTAGTGAGTGATGCAACGGCTACTTTTAACCGTAAAGGTTTAGATGGTAAAGAGTATAGTGCAGAAGATATTCACAATATGACACTTGTAAATTTACATGAAGAGTTTGCTACGATTGTGACGACAAAAGAAGCATTAAAATTATTTTGA	MTNQIALIIIDVQKAFQLQDWGERNNIFAEENMRILLAEWRKRKRPVFHIQHVNKEDARSMFYERGETVNFKEEVQPLPGEVVIQKFVNSAFIGTNLEEQLREDKCNAVVVVGLTTNHCVETTTRMAGNLGFTTYLVSDATATFNRKGLDGKEYSAEDIHNMTLVNLHEEFATIVTTKEALKLF				NA	NA	NA	NA	NA
AK009_00095	399			hypothetical protein	ATGGAGCAAATTTCAGTAAAGAAATTAGAAGAGGTACTTGTTGTAGCAGGGGATGATAAACAGAAGCAAAAGGAATTTTATGAATTGCTCTTATCTACTGAGTTTTATGTTGCTGGTTCACTAGAAGCAGAGGACGGGGCAACAGAAGGAATACTTCGTTTGCGTCATTTCCAAGGAGAAGGTAGATGGATCGTTCCGTTCTTTACACAAATGGAATTTGTAAAAGATGTGTTGCCAGAAGGAACGCCCCTTATTACGATACGTGGGAAAGAGTTATTTGGTAGCATTGAGAAAGATGCTACAGCTGTATTAAATGTTGGCACTGATATAAGTAAAACATTTATTCCAGAAGAAATTGCAGATATCGCATCTGGACGAATTTTTAATTATTATAAGTAA	MEQISVKKLEEVLVVAGDDKQKQKEFYELLLSTEFYVAGSLEAEDGATEGILRLRHFQGEGRWIVPFFTQMEFVKDVLPEGTPLITIRGKELFGSIEKDATAVLNVGTDISKTFIPEEIADIASGRIFNYYK				NA	NA	NA	NA	NA
AK009_00096	921	ykfA	COG1619	putative murein peptide carboxypeptidase	ATGATTTATCCAAATGCATTAAAACAAGGTGATACAGTAATGATTATTGCACCATCTGGTCCACCTACAATCGAAAATGTATTAAAAGGTGTGAATGTATTACAAGAGATGGGGTTATCCGTAATAATCGGGAAGAGTGTTTACGAGAAATATGGATTTTTAGCCGGAAGTGATCAAGTTCGGCTTGACGATATACATGAAGCATTTACAAATAATGAAGTGAAGGCAATTTTTTGTGCACGAGGTGGTTATGGAAGTGCTCGTCTTCTTCCTCACATTCAATATGAAGTTATTAGGCAGAATCCAAAAATCTTTTGGGGATATAGCGATATTACAGCTTTACATACTGCTGTTTCACGTTATGCAAAGCTTATAACATTTCATGGTCCGATGATTGAAGAACTAGGAAAAGGTATTGATTCCCTATCTTTATCCTCTTTTAATCAGCTATTCCATCCGTATTCAACCATTTTATCTGCATCAGAATGTATCGTACCTAGCTCTCACAGTACAGTTACAAGTACGTTAGTTGGAGGAAATTTAGCTGTGTTAACAAGTATAATTGGCTCGCCCTACGAGATAAATACGGACAATACACTTTTATTACTTGAAGACATTGGTGAAGAACCGTACCGCATTGACCGTATGTTAAATCAGCTACTTTTATCTGGAAAGTTTAATGAATGCAGGGGCGTTATTTTCACAAGTTGTCACGACTGCACTCCTTCAAAGCCATCTCAATCATTGCAAACAATATTATATGAATATTTCGCGCCATATCATATACCTGTCCTATTCGGTTTACCAATTGGACATATAAGTCCAAACATCGGTATTCCACTTGGAGCTACAGCGACAATAAACACAAATAATAAAACAGTCTCTATTTCTTCTGGTATAGCCACTCCATGTTCAAATTAA	MIYPNALKQGDTVMIIAPSGPPTIENVLKGVNVLQEMGLSVIIGKSVYEKYGFLAGSDQVRLDDIHEAFTNNEVKAIFCARGGYGSARLLPHIQYEVIRQNPKIFWGYSDITALHTAVSRYAKLITFHGPMIEELGKGIDSLSLSSFNQLFHPYSTILSASECIVPSSHSTVTSTLVGGNLAVLTSIIGSPYEINTDNTLLLLEDIGEEPYRIDRMLNQLLLSGKFNECRGVIFTSCHDCTPSKPSQSLQTILYEYFAPYHIPVLFGLPIGHISPNIGIPLGATATINTNNKTVSISSGIATPCSN	PGPT0023815_1979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK009_00097	1089	pnoA		Nitronate monooxygenase	ATGTTTACAAGTCGAGTAACAGACATATTAAAAATTGAGTATCCCGTTGTTCAAGCCGGTATGGCAGGCGCGATTACGACGCCAGAACTCGTTGCAGCAGTAAGTAATAGCGGAGGATTAGGGACGCTTGGAGCGGGCTATATGAGCCCAGAACAAATTTGTGAAGCGATTTATAGAATAAGAGAACTAACAGATAAGCCTTTCGGTGTTAATTTACTTGTAACGAAAGAGATACAAATAGAAGAAGAGAAGGTAAATGAGGCGAAAGTATTACTAAGCGGAGTGAATAGAGAATTAGGTATAGAAGTAGAAGGAACGTTAAAGCTTCCAAAAAGCTATAAGGAACAATTACAAGTCCTATTAGATGAAAAAGTACCGGTCGTTAGTTTTGCATTTCAAACGTTAGAAAAAGAAGAAATAAATGATTTAAAAAGAAGTGGAATAAAAGTTATCGGAACAGCTACCCATGTGAAGGAAGCGAAAGTACTTGCCGAGCTAGGAGTAGATATTATTATCGGACAAGGTAGCGAAGCAGGAGGGCATAGAGGAACGTTTATTGGGAAAGAACGAGATGCTATGATTGGTACTTTTGCGTTAGTACCTCAGTTAGTAGAAGCTGTTCCGCATATCCCAATTGTCGCAGCAGGTGGTGTAATGAACGGACAAGGGCTTGTTGCGGCATTGGCACTAGGAGCAGAAGGTGTTCAAATGGGATCGGCCTTTTTAACAAGTGAAGAGAGTATTACGCACGATGTGTATAAAGAAGCGGTTTTACATAGTACAGATACGAGCACAACGGTAACTCGTGCGTTTTCCGGGAAATATGCACGGGGTATCCGGAATGAATTTATAGAGAGACATGAAGGAAAAGAAGAAGGGCTTCCGATGTATCCAGTGCAAAACGTATTAACTTCTAAAATACGCCAAGAGGCAGCGAAGCAAAATAAGGAAGAATATATGTCACTTTGGGCAGGACAGGCAGCATCGTTGGCACGAATCGAATCAGCTCAGCATGTAGTGGAGCGAGTTATGAAAGAAGCGGAGAATGCAATCGAGCAATTACAAAATATATACAAAAAGACCACTTGA	MFTSRVTDILKIEYPVVQAGMAGAITTPELVAAVSNSGGLGTLGAGYMSPEQICEAIYRIRELTDKPFGVNLLVTKEIQIEEEKVNEAKVLLSGVNRELGIEVEGTLKLPKSYKEQLQVLLDEKVPVVSFAFQTLEKEEINDLKRSGIKVIGTATHVKEAKVLAELGVDIIIGQGSEAGGHRGTFIGKERDAMIGTFALVPQLVEAVPHIPIVAAGGVMNGQGLVAALALGAEGVQMGSAFLTSEESITHDVYKEAVLHSTDTSTTVTRAFSGKYARGIRNEFIERHEGKEEGLPMYPVQNVLTSKIRQEAAKQNKEEYMSLWAGQAASLARIESAQHVVERVMKEAENAIEQLQNIYKKTT	PGPT0006800_1200	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
AK009_00098	1176	dltD_1	COG3966	Protein DltD	ATGAACAAAGCAAAATTTGGTCCGATGCTTTTAGCATTGGCCCTTTTTGCTGTATTCTTACTTATTCCAACGCGCTTCCTACTTCCACTTTTAAGTGATGAAAAAGTAGAACAAGCTGCTACTTCTTTAAAAGAAGAAAAAATTCAAAGTATGATTTTACAGCAAAAGATGTTAGCAAATCCAAAATATCTTCCGATGTACGGTTCATCGGAATTCGCACGTATGGATGCTTTCCATCCATCTAATTATTTTAAAGTAAAGCCTGAAGGGTTCACACCATTCCTTCTTGGACGCGGCGGAACACAAGACCTTGTACATGTGTTAAACTTCGCATCTACAATGGATCAATTGAAAGATAAGAAAATGGTATTCGTTCTTTCTCCGCAATGGTTTGTACCACAAGGTATTGATGAAACGCACTTTGCACCTAACTTTTCAAAGCAACAAGGTTACCATTTCATTTTCAACAATGATTTAAAACCTGAAATGAAAAAACAAATTGCAAAGCGTTTATTAAACTTTGAGATTGTAAAAAAAGAAACTTTATTAAAAATTTCGCTTGAAGGCATTGCTTATGATGATACGAAGTATAAAGTAAAAGCACTTGCTGCTAAACCTTTCGCTTATATTTATCGTAACATTTTAGATCGTAAAGATTTATTTACAGCTATGTTTAATATTAAACCGCACAAAGAAAAGCTTGATCCTTCATTAAAACAAATGAACTGGGAAGAGGCTCGTAAACATGCGGATCAAACAGGTGCAGTAGAATCTGGATCTAATGAATACGGTATTGAAGATGATTATTTCAATAGCAAAATTAAGAAAAAATTAAAGCAACGTGAAGGTTACTTAAAAAATGATGCTTATGACCAATCGCCAGAATATGAAGATTTACAAATTGTACTTGATTTATTAAAACAATCTGGTGCAAAACCGCTCTTCATTTCTGTTCCTGTCAAAGGTCCTTGGTACGACTACGCTGGCTTCCCGAAAGAACGCCGTGAAGCATACTATAAGAAAGTTCATGAGCAAATCGAAAAAGCTGGTTATCCAATTGCCGACTTCTCAAATCATGAATACGATAAATACTTCTTAAAAGATCATATGCACTTAGGTTGGAAAGGCTGGGTTTACATCGACGAAGCCATCCAACAATTTTATAAAGCAAACTAA	MNKAKFGPMLLALALFAVFLLIPTRFLLPLLSDEKVEQAATSLKEEKIQSMILQQKMLANPKYLPMYGSSEFARMDAFHPSNYFKVKPEGFTPFLLGRGGTQDLVHVLNFASTMDQLKDKKMVFVLSPQWFVPQGIDETHFAPNFSKQQGYHFIFNNDLKPEMKKQIAKRLLNFEIVKKETLLKISLEGIAYDDTKYKVKALAAKPFAYIYRNILDRKDLFTAMFNIKPHKEKLDPSLKQMNWEEARKHADQTGAVESGSNEYGIEDDYFNSKIKKKLKQREGYLKNDAYDQSPEYEDLQIVLDLLKQSGAKPLFISVPVKGPWYDYAGFPKERREAYYKKVHEQIEKAGYPIADFSNHEYDKYFLKDHMHLGWKGWVYIDEAIQQFYKAN	PGPT0023385_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023385-dltD-K03740	NA	NA
AK009_00099	240	dltC	COG0236	D-alanyl carrier protein	ATGGCAGAATTCAAAGAGCAAGTATTAGATATTTTAGAAGAAGTATGTGAAAACGATATTGTGAAAGAAAACTTAGATGTTCAATTATTTGAAGAAGGTATCCTTGATTCTTTCGCTGTAGTATCTTTATTAGTTGAATTCCAAGAGCGTTTAGATATTGAAGTTTCTATTTCTGATTTTGACCGTGACGAGTGGGCTACACCAAACATGGTTATTAAAAAGTTGGAAGAAATCCGATGA	MAEFKEQVLDILEEVCENDIVKENLDVQLFEEGILDSFAVVSLLVEFQERLDIEVSISDFDRDEWATPNMVIKKLEEIR	PGPT0020060_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0020060-dltC-K14188	NA	NA
AK009_00100	1176			hypothetical protein	ATGACCGCATATGGATCATTTTATTTTTTCGCTATAGTGGGCATTTTATTAATACCTACTATCATAGCTGGATTAAAAGGTAAAATGTTGCGTAAATATAATGCCGTTTTAACATTAGTCATGCTTGCTATTATCTTCTCAGATAAACCAAAGCAAGCAATGATGTTAGCTGCATTTATTATTTGGCAATATGCCCTTATTAAAGGCTATTTAATTTTAAGAAAACAAAATAATAGTACATTCACATTTTGCATAGCTGTTATTTTATCGATTTTGCCTCTTATTTTGGCAAAAATCGCACCATTTGCATCGTTATTACCTGAGTTAAAACTTGTTGTTTTTCTAGGTATATCTTACGTAACATTCAGAGCAGTTCAAATGGTATTTGAAGTTCGTGATGGTTTAATTAAAGAGCTTTCTTTCTTTAACTTCTGGGAATTCGTTTTATTCTTCCCTGCAATTTCAACAGGACCTATCGATCGTTACAGAAGATTCCAAAAAGATATTCAAAAGCCACCTAGCGCTGAAGAATATCAAAATTTACTATATACAGGACTAAATCGTATTTTCCAAGGTTTCTTGTATAAATTTATTATTGCTTACTTAATAAAGCAATATTGTATGGATCCAGCATTCGCTCAACACGATACAATCTTTTCAAATATGATTTACATGTATAGCTATAGCTTATATCTATTCTTTGATTTTGCTGGTTATAGCTCTTTTGTAATTGGTGTAAGTTATATGATGGGAATTAAAACGCCAGAAAACTTTAATAAGCCATTCCTTAGTCGTAATATTAAAGACTTCTGGAACCGCTGGCACATGAGTTTATCATTCTGGTTCCGTGATTTTATTTACATGCGTTTCGTCTTTTTTGCAACGAAGAAAAAGTTAATTAAGAACCGTTACACAATTTCATATATCGGTGCATTTTTAAACTTTTTCATTATGGGAATTTGGCATATCCAAGGAAGCGCTGTTGCGCAGTATATTATTTATGGTCTATATCATGCCGCACTGTTTATTTTATTCGATATTTTCGAACGAAAAAACAAGAAGCATAAGTTTTGGCCAAACACTAAATTTACACGCATCCTTGCGATTGTAATTACGTTCCACGTTGTATGTTTCGGTTTCCTAATCTTCTCTGGACACCTTAACAGATACTTTTAA	MTAYGSFYFFAIVGILLIPTIIAGLKGKMLRKYNAVLTLVMLAIIFSDKPKQAMMLAAFIIWQYALIKGYLILRKQNNSTFTFCIAVILSILPLILAKIAPFASLLPELKLVVFLGISYVTFRAVQMVFEVRDGLIKELSFFNFWEFVLFFPAISTGPIDRYRRFQKDIQKPPSAEEYQNLLYTGLNRIFQGFLYKFIIAYLIKQYCMDPAFAQHDTIFSNMIYMYSYSLYLFFDFAGYSSFVIGVSYMMGIKTPENFNKPFLSRNIKDFWNRWHMSLSFWFRDFIYMRFVFFATKKKLIKNRYTISYIGAFLNFFIMGIWHIQGSAVAQYIIYGLYHAALFILFDIFERKNKKHKFWPNTKFTRILAIVITFHVVCFGFLIFSGHLNRYF	PGPT0023380_336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023380-dltB-K03739	NA	NA
AK009_00101	1515	dltA_1	COG1020	D-alanine--D-alanyl carrier protein ligase	ATGAAGTTATTAGAACTAATTGAAAAGTGGGCTATTGAAACGCCTGATCAAACTGCTTTTGTTTGGCGAGATGCGAAAATTACGTACAAACAATTAAAGGAAGATTCTGATGCGTTAGCACATTGGATTTCTTCTGCGTATCCAGATGATCGTTCACCAATTATGGTGTATGGCCATATGCAACCTGAAATGATTATCAACTTTTTAGGATGTGTAAAAGCTGGACATGCTTATATTCCTGTAGATTTATCTATCCCAGCTGATCGTGTACAACGTATCGCTGAAAATTCTGGTGCGAAATTACTTTTATCGGCAGCAGCAGTAACTGTAACTGATTTACCAGTTCGCATCGTAAGTGAAGACAACTTAAAAGATATTTTCTTTACTCATAAAGGGAACACTCCAAATCCTGAACATGCGGTAAAAGGTGATGAGAACTTCTACATTATTTACACATCAGGAAGCACAGGTAATCCGAAAGGGGTTCAGATTACTTATAACTGCCTTGTTAGCTTTACAAAATGGGCTGTAGAAGACTTTAACTTACAAACAGGGCAAGTATTCTTAAACCAAGCACCTTTCTCATTCGATTTATCTGTCATGGATATTTACCCATCATTAGTAACAGGTGGTACACTTTGGGCAATCGATAAAGATATGATTGCACGTCCAAAAGACTTGTTTGCTTCTTTAGAGCAATCGGATATACAAGTATGGACTTCGACACCATCTTTCGCAGAGATGTGTTTAATGGAAGCTTCTTTCTCTGAGAATATGCTACCGAACATGAAAACATTCTTATTCTGCGGTGAAGTGTTACCAAATGAAGTAGCTAGAAAATTAATTGAGCGTTTCCCAAATGCAACAATTATGAATACGTACGGTCCAACAGAAGCTACTGTCGCTGTAACAGGTATTCACGTTACAGAAGAAGTACTTGATCAATACAACTCACTTCCAGTTGGCTATTGTAAATCAGACTGTCGCCTTCTTATTATGAAAGAAGATGGCACGATTGCACCTGATGGTGAAAAAGGTGAAATCGTAATTGTCGGTCCAAGCGTAAGCGTTGGATACTTAGGAAGCCCTGAATTAACAGAAAAAGCATTTACTATGATTGACGGTGAGCGTGCCTATAAAACAGGCGATGCTGGCTATGTAGAAAATGGTCTTCTATTCTATAATGGTCGTCTTGATTTCCAAATTAAGCTGCATGGTTATCGAATGGAATTAGAAGAAATTGAGCATCACCTTCGTGCGTGTTCTTACGTTGAGGGAGCAGTTATCGTTCCAATTAAAAAAGGTGAGAAATACGATTATTTATTAGCGGTTGTTGTTCCTGGAGAGCATTCGTTTGAAAAAGAATTCAAATTAACATCTGCAATCAAAAAAGAGCTCAATGAGCGATTACCAAACTACATGATTCCACGTAAATTCATGTATCAATCTTCTATTCCAATGACACCAAATGGAAAGGTAGATCGCAAAAAATTATTGAGTGAGGTTACAGCATGA	MKLLELIEKWAIETPDQTAFVWRDAKITYKQLKEDSDALAHWISSAYPDDRSPIMVYGHMQPEMIINFLGCVKAGHAYIPVDLSIPADRVQRIAENSGAKLLLSAAAVTVTDLPVRIVSEDNLKDIFFTHKGNTPNPEHAVKGDENFYIIYTSGSTGNPKGVQITYNCLVSFTKWAVEDFNLQTGQVFLNQAPFSFDLSVMDIYPSLVTGGTLWAIDKDMIARPKDLFASLEQSDIQVWTSTPSFAEMCLMEASFSENMLPNMKTFLFCGEVLPNEVARKLIERFPNATIMNTYGPTEATVAVTGIHVTEEVLDQYNSLPVGYCKSDCRLLIMKEDGTIAPDGEKGEIVIVGPSVSVGYLGSPELTEKAFTMIDGERAYKTGDAGYVENGLLFYNGRLDFQIKLHGYRMELEEIEHHLRACSYVEGAVIVPIKKGEKYDYLLAVVVPGEHSFEKEFKLTSAIKKELNERLPNYMIPRKFMYQSSIPMTPNGKVDRKKLLSEVTA	PGPT0020055_489	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0020055-dltA-K03367	NA	NA
AK009_00102	147			hypothetical protein	ATGGAAAGATTAAAAGAGATATGGTCTCGACCACTCACACAATGGGTTGCAAAGACGGTTTATTATCTTGCAATTTTATTTGCATTACTTTGGTTGTATGGATTCCATGATACAAACACAAGTACATTTATTTACAATGAATTCTAG	MERLKEIWSRPLTQWVAKTVYYLAILFALLWLYGFHDTNTSTFIYNEF				NA	NA	NA	NA	NA
AK009_00103	1170			N-acetyldiaminopimelate deacetylase	ATGACGAGGGTTTGGAAGGATCTTATTTCAGAAGAAAACATTATAAAATGGAGACGACATTTCCACAAGTATCCGGAATTATCATTTCATGAAAAAGAAACTTCGCAATTTATATATGATACATTATGCTCGTTTTCTTCTTTTGAAGTAACGAGACCGACGAAGTATAGTGTACTAGCAATTAAAAGAGGCGTGAAGCAAGGGAAAGTGATTGCGATTCGAGCTGATATAGATGCTTTACCAATCCAAGAGGAGACAAGGAAATCTTATACGTCTGTAAATAAAGGAGTGATGCATGCATGTGGGCACGATGCTCATGCAGCTATTTTATTAAGTACAGCAGAGATGTTATCAAATATGAAGGAAGAGTTTGTAGGGGAAATTCGTCTATTCTTTCAGCATGCAGAAGAAGCATACCCTGGTGGTGGACAAGAAATGGTCGAGGCGGGCGTTATGGACGGTGTTGATTATGTAATAGGTTTACATGTTATGTCTGGATTGGAGAGCGGAAAGATAGGTATTGCGTATGGGCCAATGATGGCAGCTCCAGACGTATTTACAGTTGAGATTCAAGGCAAAGGAGGACATGCAGCACGTCCAGAAGAAACGATTGACCCTATTGCTATCGGAGCACAGATTATTACAAATTTACAACATATCGTATCAAGAAATACAAGTGCTTTCATGCAAAGAGTCGTTTCAGTTACGCAGTTCCATGGGGGAATGGCTGATAATATTATTCCAAGTACAGCAACTTTAATGGGAACTGTACGTTCTTTTAATCAAACATTAAGAATAGAAGCAGAAGGGAAAATCGAAAAAATTGTGAAAGGAATTACAGAAGCACATGGAGGATCGTATACATATACGTATCGATATGGATATGATCCGGTTATTAATGATGAATATATTACGAAAATAGTAGAAGAAAGTGCACTACATTTGTTTGGGAATGAGCGTGTTGTTAAGCTTGAACCTTCTATGGGTGGGGAAGATTTTTCAGCATATTTAAGAAAAGCACCCGGTTGTTTCATTAAATTAGGAACAGGTAATGAAAATATATATACTTGTTATCCACATCATCATCCGAAATTTGACGTGGATGAATCAGCATTAATTTGTGGAGTGGAGCTATTCTTAGAGACTACTATAAGATTACTAAAATCATAG	MTRVWKDLISEENIIKWRRHFHKYPELSFHEKETSQFIYDTLCSFSSFEVTRPTKYSVLAIKRGVKQGKVIAIRADIDALPIQEETRKSYTSVNKGVMHACGHDAHAAILLSTAEMLSNMKEEFVGEIRLFFQHAEEAYPGGGQEMVEAGVMDGVDYVIGLHVMSGLESGKIGIAYGPMMAAPDVFTVEIQGKGGHAARPEETIDPIAIGAQIITNLQHIVSRNTSAFMQRVVSVTQFHGGMADNIIPSTATLMGTVRSFNQTLRIEAEGKIEKIVKGITEAHGGSYTYTYRYGYDPVINDEYITKIVEESALHLFGNERVVKLEPSMGGEDFSAYLRKAPGCFIKLGTGNENIYTCYPHHHPKFDVDESALICGVELFLETTIRLLKS				NA	NA	NA	NA	NA
AK009_00104	177			hypothetical protein	ATGTTAATGAGAAAAAAATTTCACCTTCTACGGAGGGGATTAAAAGATAAAAATAAAGATGTTGATCAGCATATGGAATGGCAACGAAATGTAATTCGGTCTGAATATGTAGATGAGAAGAAGAGCATTCAAACAGAAAAAGAGATACAAAGTAAAGGGAGAGGTTCAGTTGAGTAA	MLMRKKFHLLRRGLKDKNKDVDQHMEWQRNVIRSEYVDEKKSIQTEKEIQSKGRGSVE				NA	NA	NA	NA	NA
AK009_00105	432			Flavodoxin	ATGATTTTTGCAAGTATGAGTGGAAATACAGAGGAAATGGCTGACCATATTGCCGGCGTAATTCGTGAAACAGAAAATGAAATTGAAGTTATTGATATTATGGATTCACCAGAAGCTTCTATATTGGAACAGTATGATGGAATTATTTTAGGTGCATACACATGGGGAGATGGTGATCTTCCTGATGATTTCTTAGATTTTTATGATGCAATGGATTCTATTGATTTAACTGGGAAAAAAGCGGCCGTATTCGGATCATGTGATTCGGCTTATCCGAAATACGGAGTGGCGGTTGACATTTTAATAGAAAAGCTAAAAGAGCGCGGAGCAGCAGTTGTGTTAGAAGGACTAAAAGTAGAATTAACGCCAGAAGATGAAGATGTAGAAAAATGTTTACAGTTTGGAGCTAAATTTGTAAAACACCTTTCTTAA	MIFASMSGNTEEMADHIAGVIRETENEIEVIDIMDSPEASILEQYDGIILGAYTWGDGDLPDDFLDFYDAMDSIDLTGKKAAVFGSCDSAYPKYGVAVDILIEKLKERGAAVVLEGLKVELTPEDEDVEKCLQFGAKFVKHLS	PGPT0000020_1314	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
AK009_00106	774			hypothetical protein	GTGCATGAGAAAATCTCAATCAAAACGATGACAGATTATCATTTGTATGATTTTATGCGGTGTCCGCATAAATTTTATTTTCGTCATATAAAAAGAAGAGAACCTTCTTCATTTGAATGGCAACAAATAGCGCAAATGATTGTGAATCAAATTATTAACGAGTATTACACGCTACCTGCGGGTCAACAAACGAAAATTGTACTTTTAATATTAATAGAAAAGTATTGGAAAAAAGTAAGGATTAATATGTTTGCTTCGAAGACGGAGTACTATATTGTATTAGCGAAGCTAACGGATCACTTATTACAGTTTGTTGAAAGGGATGATAGTCAGACACCACCATTGTTTTTATACGAGAAGTTTCAAACATATATGGAAGAGTTAGGTGTCCACATGTCATTGACATTTGAAGTTGGTGAGTGGAATGCTGAGTCGTTTGTAATTAAAAAGTATGTTGTCGATGCGGATGAGGAAATGCTTGCTCTTTGTCAGAAGCTAATGACAGTATTCAGTTATAAAGCTTTCGGCGTTCTTCCAGGAAAAATTGAAGTTATTAATTTAATAGAAGGAACTAAGTATGAGTACATTCCGAAACAAGAAGATATTATAACTGGAATGGCTGATTTATCTAGAATGAAAGAAATGTTACAGCAACCTGAGCATTATACTGAGCGTCATTTTCGTTCTGAGTGTATAAGCTGTGCGTTTCGTAGTGAATGCCAAAGTGAAGAAGTAAAGAAAGAAGCGAAACAGAAGAAAAATATAGTTCATTAA	MHEKISIKTMTDYHLYDFMRCPHKFYFRHIKRREPSSFEWQQIAQMIVNQIINEYYTLPAGQQTKIVLLILIEKYWKKVRINMFASKTEYYIVLAKLTDHLLQFVERDDSQTPPLFLYEKFQTYMEELGVHMSLTFEVGEWNAESFVIKKYVVDADEEMLALCQKLMTVFSYKAFGVLPGKIEVINLIEGTKYEYIPKQEDIITGMADLSRMKEMLQQPEHYTERHFRSECISCAFRSECQSEEVKKEAKQKKNIVH				NA	NA	NA	NA	NA
AK009_00107	162			hypothetical protein	ATGAAAGATGAAACGAAAGTATTTCAATGGTTAAAAGAACAAAATGCTCCTTTTGAAATTCAACTGCAAATCTTACAGGCATTTCAATTGTATAAAGTTATTGTTGAAATGGATAAAAAGTTAATGATGTATGAGGAAAGAGTATACAGGGAGAGAATGTAA	MKDETKVFQWLKEQNAPFEIQLQILQAFQLYKVIVEMDKKLMMYEERVYRERM				NA	NA	NA	NA	NA
AK009_00108	903	aacA-aphD_1		Bifunctional AAC/APH	ATGGACTCTTACAAACATTATATAAAAGAAGCTTTGCCTAATCTTTCTATACGTTCATATAAACAAAATAAAGGAGGATGGGATAATGTAGCAGTTATAGTAAATGATGAGCTACTGTTTCGTTTCCCGCGAAAACAGGAATATGCAATGCGAATTCCGTTAGAAAAAGAACTATGCACAATTCTCACTCAATCACTACAAGAAATCAAAGTTCCACAATATCACCTAATTTATAAAAATGAATCTGATGAGGTTCCTCTTTGTAGTTACTATACTCTCATTCATGGTGAACCATTAAAAACAGAAACAATTGCCACGCTGGAGGATACAGAGCTGAAAGCAATTATTACAAAATTAGCTACTTTCCTTGCGGTACTACATAGTATTCCTTTAAACCAAGTTACAACGCTATGTTTCCCTATTAGAAAAACATGTACCTACTGGAAAGAGCTACAAACAAAATTAAACCAATATCTCACTACTAACCTTACTTCATTACAGAAACTAGCCTTAAATCGCTTATTTGAAAATTTCTTTGCATGTTTAGCTACATCCACTTTTCAAAACACAATCATTCACGCTGATTTTACACATCATCACATTTTATTTAACAAGCAGAACAAAAGCATTTCAGGTGTTATCGATTTTGGTGATGCGCAAATTGGCGATCCTGCTTTTGATTTTGCAGGACTATATTATGATTTCGGACATGAGTTTACTACATCTGTATATGAACAGTACAGTACACTTATTTCTCATCATGATCCATTACTCATTCACCGCATTACTACCTTTTATCAATACAGTCCTTTACTACATAATATTATTTATAACTTTGAGTCAGAGAATGAACTCGAATTCATTACAAGTACAGAACAGCTAAAAACGATATTACAGGGATGA	MDSYKHYIKEALPNLSIRSYKQNKGGWDNVAVIVNDELLFRFPRKQEYAMRIPLEKELCTILTQSLQEIKVPQYHLIYKNESDEVPLCSYYTLIHGEPLKTETIATLEDTELKAIITKLATFLAVLHSIPLNQVTTLCFPIRKTCTYWKELQTKLNQYLTTNLTSLQKLALNRLFENFFACLATSTFQNTIIHADFTHHHILFNKQNKSISGVIDFGDAQIGDPAFDFAGLYYDFGHEFTTSVYEQYSTLISHHDPLLIHRITTFYQYSPLLHNIIYNFESENELEFITSTEQLKTILQG	PGPT0028705_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028705-aphD-K17910	NA	NA
AK009_00109	519			hypothetical protein	ATGAAGAAGGGCGGGAGTATTACGAAAAAAAGATTGTTAATCATTTCTCTATGTATCGCTTTTGTATTGTTTTGGTCATATAAAGAGAAGGTTTTTGCTACCTTTAAACCGATTGATCAGTACGAGTTAAATAAGGAATTAAAGAACAAAAGTATAGAAAATTTAACTCATAATGAAATGAAAAAGGTAGGAGAGCATTTTGTGACCGAGCAACTATCAGTGTTTGAGTTTACTAATAAAGAAGATGTGAAACGAAAAGGTGAAGAACTATTTTTAAATAGAGGGTATGAACAATTAATGGGAAATTATTATCCAAATCGTTTTCAAGATTTAGAGTATAAATTTACAAACGAGGAGATACGTGAAGAGACCGATGAGAGTTTTCTTTATCAAGCTGTAGCGTACGTTGCGGGTACTGAAAATGGTAAGAGAAGCAAAATGAAATTGAATTATGAAGTGAAAATTGTAAAGGTTAATAATATATTTATGGTGCTAGAACAAAAGCAGCGCGTACAATAA	MKKGGSITKKRLLIISLCIAFVLFWSYKEKVFATFKPIDQYELNKELKNKSIENLTHNEMKKVGEHFVTEQLSVFEFTNKEDVKRKGEELFLNRGYEQLMGNYYPNRFQDLEYKFTNEEIREETDESFLYQAVAYVAGTENGKRSKMKLNYEVKIVKVNNIFMVLEQKQRVQ				NA	NA	NA	NA	NA
AK009_00110	168			hypothetical protein	ATGAAAGGTGCCTATTATATGAAGAAACAAAATTCCAATCGTTCAAAAAGAACTGTTAAAACACAAAAAGGATATGCAGGAGATTCTGTTCATACACTTAAACAAGTCGAGCAAGGAAATTTATATATTGCTCAAAAAGAACTTGGTCAACAAAATGAAAATCTTTAA	MKGAYYMKKQNSNRSKRTVKTQKGYAGDSVHTLKQVEQGNLYIAQKELGQQNENL				NA	NA	NA	NA	NA
AK009_00111	174			hypothetical protein	ATGGACGACAAAGAAAAAAAGCAATCATTCGATGAAGAATTTGCCCCTGAAATTTCACCTGGATATCGGCAAGATGTACATAAGCCACCTAAATATAAAAACACTTCGTTTTTAATGGGCATTACCATTTTCGCTGCTGTATTACTCATACTTATCATTTTCGTTTATTTTTGA	MDDKEKKQSFDEEFAPEISPGYRQDVHKPPKYKNTSFLMGITIFAAVLLILIIFVYF				NA	NA	NA	NA	NA
AK009_00112	1344	norM	COG0534	Multidrug resistance protein NorM	ATGAAAGAAACTACTTCATTCTCACAAAAGTTAAAGCAATTTGTATTACTATTTTTTCCGATTTTCGTAACGCAAATGTCATTATTTGCGATGAGTTTTTTTGATACAACAATGTCAGGACATGCAAGTCCAACTGATTTAGCAGGTGTTGCAATTGGAACAAGTATATGGCTTCCAGTTAGTACGGGATTAACAGGAATTTTAATGGCTACTACTCCCATTGTTGCACAGCTCGTTGGATCCAAGAAAAAAGAGGACGTTCCCCACGTTGTCATACAAGCAGTTTATTTAGCAATTTGTGCTAGCTTCGTTGTTATCCTCATCGGTTTCTTCGTCGTTTCACCTATTTTAAACGGCATGCGCTTAGAAGAACCTGTGGAACGAATTGCAGCTCAATTTTTAAGTATTATCGCAATAGGAATTATACCTTTATTCACGTACACTGTTTTACGTGGATTTATTGATGCATTAGGAAAAACTCGAACAACGATGATTATTACATTACTATCATTACCAATTAACGTAATATTAAATTACCTATTAATTTTTGGTAACTTCGGTTTCCCAAAGCTTGGTGGTGTCGGAGCAGCAATTGCTTCCACTGCAACATATTGGTGCATTTTAATTATTACAGTCATTATTATTCAGACGAAAGAGCCTTTTGCCTCTTTTAACATTTTCAAACAATTATATCGTCCTTCTCTTTCGAGTTGGACAGCATTCTTAAAGCTTGGCGTCCCTATCGGATTTGCTATCTTTTTTGAAACAAGTATTTTCGCTGCGGTAACGCTTATGATGAGTAATTTTAGTACGACAACTATTGCAGCTCACCAAGCAGCTATGAACTTTGCTTCCTTGTTATATATGACTCCGCTAAGTTTAGCAATGGCAATGACTATTGCAGTCGGATTCGAAGTCGGAGCAAAACGTTACGATAATGCAAAACAATACGGACTGATTGGAATTGGATTAGCCCTTGCCTTTGCTTTATTATATTCGATTCTTCTCTACTTCTTTGATAATCAAATTGCTTCTATTTATACGACAGATGCAAAAGTTCATCATTTAGCAAAAGAATTTCTTATCTTTGCGATTTTATTTCAAATTTCAGATGCAATTGCAACCCCTGTACAAGGAGCTCTGCGTGGTTATAAAGATGTAAATGTTGCTCTAATTATGACTTTAATTGCTTATTGGATAATAGGTCTACCACTAGGTTACATACTAGCAACGTATACAGAATGGGCCGCAAAAGGCTATTGGATCGGTCTTATTATCGGTCTAGCATTTGGCGCTGCCTTCCTACTTATCCGTCTCTTTCAAGTACAACGAAAATATGCATAA	MKETTSFSQKLKQFVLLFFPIFVTQMSLFAMSFFDTTMSGHASPTDLAGVAIGTSIWLPVSTGLTGILMATTPIVAQLVGSKKKEDVPHVVIQAVYLAICASFVVILIGFFVVSPILNGMRLEEPVERIAAQFLSIIAIGIIPLFTYTVLRGFIDALGKTRTTMIITLLSLPINVILNYLLIFGNFGFPKLGGVGAAIASTATYWCILIITVIIIQTKEPFASFNIFKQLYRPSLSSWTAFLKLGVPIGFAIFFETSIFAAVTLMMSNFSTTTIAAHQAAMNFASLLYMTPLSLAMAMTIAVGFEVGAKRYDNAKQYGLIGIGLALAFALLYSILLYFFDNQIASIYTTDAKVHHLAKEFLIFAILFQISDAIATPVQGALRGYKDVNVALIMTLIAYWIIGLPLGYILATYTEWAAKGYWIGLIIGLAFGAAFLLIRLFQVQRKYA	PGPT0029115_8215	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
AK009_00113	792	uppP_1	COG1968	Undecaprenyl-diphosphatase	GTGGCTGATTGGTTAATTGGTTTAATCATGGGTGCTGTTGAAGGGTTAACAGAGTTTCTACCAGTATCATCAACAGGACATATGATTTTAACAGGACATTTAATTGGATTTGAAGATGAGAGAGCGAAAGTTTTCGAAGTTGTTATCCAATTGGGATCGATTTTAGCAGTTGTTGTTATATTCTGGAAGCGTCTATGGTCGTTAGTTGGAATAGGAAAAGTAACAGACGGACCATCGTTAAATTTATTACATATTATTATCGGGATGATTCCTGCCGGGGTACTTGGCGTATTATTCCATAGCACTATTAAAGAGGTTTTATTTGGTCCAGGACCAGTTGTTATTAGCTTAGTAGCCGGTGGTATTTTAATGATTGTTGCTGAGAAGTTTTCAAAACCAAGTACAGCAAGAACGTTAGATGAAATCACATATAAACAGGCATTTACAATTGGAATGTTCCAATGTTTAGCTCTTTGGCCAGGGTTTTCTCGTTCTGGTTCTACAATCAGTGGTGGTTTATTAGCTCGCGTGTCGCATACAGCGGCAGCTGAATATACGTTCATTTTAGCGGTACCGATGATGGTAGCTGCAAGTGGGTTAGATTTAATTAAAAGCTGGGATGTATTAAGCTCAGCAGATATAACGCTATTTGTAACAGGATTTGTAACTGCATTCGTTGTTGCGATGCTTGCAATTGTTTCATTCTTGAAATTATTATCTCGTGTAAAACTAACACCGTTCGCTTACTATCGTTTCATTTTAGCTGCGGTATTCTATTTCTTCATTATGTAA	MADWLIGLIMGAVEGLTEFLPVSSTGHMILTGHLIGFEDERAKVFEVVIQLGSILAVVVIFWKRLWSLVGIGKVTDGPSLNLLHIIIGMIPAGVLGVLFHSTIKEVLFGPGPVVISLVAGGILMIVAEKFSKPSTARTLDEITYKQAFTIGMFQCLALWPGFSRSGSTISGGLLARVSHTAAAEYTFILAVPMMVAASGLDLIKSWDVLSSADITLFVTGFVTAFVVAMLAIVSFLKLLSRVKLTPFAYYRFILAAVFYFFIM	PGPT0024165_4656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK009_00114	555			hypothetical protein	ATGAACTTACAACAATGGGCTGATAAAGGTATGTCCTTTGATACATATGTGAATGAAATGCAAGTAAACCAATACGAGCTACTACACATTTACAATAACTTTTTAATTCCAAATGAATTACTTCCTGTATTAGAAGAACGTCAAAATGACGGCTGGCGTGTTATCGTATTAACTGCTGATTGGTGTGGCGATGCTCTTTTATGCGTACCTGTTATGAAACGAATTTCTGAAGTTGCAAATATTGATATGAGTTTATTAATTCGCGATGAAAACTTAGAATTAATGGATCAATATTTAACAAATGGAACAGCACGTGCGATTCCAATCTTTATTTTCATTGATAAAGATGGAAATGAACAAGCCGTCTTTGGACCACGCGCTCCAAAAGTACAAGAATTAGTAACTTCAATGCGCGCTACATTACCTGAAAAAGAAGATCCAACATTCGAAGAAAAACAAAAAGAAATGTATGCTAATTTCCGTGCTACATTAGCTGATGATACTTCTCTTTGGGAGCATGTAATGGAAAATATGGTGGAAAAAATAGTAAAATAA	MNLQQWADKGMSFDTYVNEMQVNQYELLHIYNNFLIPNELLPVLEERQNDGWRVIVLTADWCGDALLCVPVMKRISEVANIDMSLLIRDENLELMDQYLTNGTARAIPIFIFIDKDGNEQAVFGPRAPKVQELVTSMRATLPEKEDPTFEEKQKEMYANFRATLADDTSLWEHVMENMVEKIVK				NA	NA	NA	NA	NA
AK009_00115	180			hypothetical protein	ATGCATGAGGAGGAGAAATTCTCAAATCTCAGCCTAAAAGATAAAACGATTATCACTAGTATTATTGCTCTTTTTCTCATTATCGTTTTTGCATTTATATTTTTTGTATATGTAGGAATCTTTCAAATTACAGGTATAGAGTATAGTTCACGTACTGCGTTACTTCTCTTTTTTTATTAA	MHEEEKFSNLSLKDKTIITSIIALFLIIVFAFIFFVYVGIFQITGIEYSSRTALLLFFY				NA	NA	NA	NA	NA
AK009_00116	420			hypothetical protein	TTGTCTCAAAATCGAGAGCAATTAATGGAAGAACTATCGACAAATGTGTTTGCTATGTTTCGCACATTGCGTAATGATATCGGAAAAATATTCGGTGGTTACATACCGTGGAATGAATTCATCGTCCTGAGAATATTAAATCGTACGAATAAAGAAATGGTATCGCGTGTAGCAAATGAATTAAATGTGTCGAATAGTCATATTACAGCTGTTACAGAAAAATTAATTAATAAAGGTTTTGTAACTCGTTCACGTTCTACATCGGATCGCCGAGTTGTGTATTTAGAGATTACAGAACAAGGGAAAGATTTAGTTGCGAAAATGGAAGATGCGAAAAAACAATATTTACAAGAAAGATTCTCTGCACTTTCAGAAGATGAAATGAGTGTAATGATTTCGATTTCCAAAAAACTTATTTAA	MSQNREQLMEELSTNVFAMFRTLRNDIGKIFGGYIPWNEFIVLRILNRTNKEMVSRVANELNVSNSHITAVTEKLINKGFVTRSRSTSDRRVVYLEITEQGKDLVAKMEDAKKQYLQERFSALSEDEMSVMISISKKLI				NA	NA	NA	NA	NA
AK009_00117	156			hypothetical protein	ATGACGAATCGTAACGGTAGTAAAGGGAGCGGTAATCAAGGATCACCAAAGTCCGGCCAGTTTAATCAGGAATTTAGCACTGAATTTGAAACTGGTAATGATAATAAAGGGAAAGAATATCGTTCGAAAAAAGGAAGTAAATCAAAAAAGGAGTGA	MTNRNGSKGSGNQGSPKSGQFNQEFSTEFETGNDNKGKEYRSKKGSKSKKE				NA	NA	NA	NA	NA
AK009_00118	1236	gltT_1		Proton/sodium-glutamate symport protein	TTGAAACAAACAAAAGCAATCTTAATCGCATTATTTCTAGGTCTAGTTGTTGGACTCACTCTAAATTTAGCCGCTCCATCTATCTTTGAGCCACTAAATCAATATGTGTTCAACCCAATTGGTCAATTGTTTATTCGCCTTATTAAAATGCTAGTTGTTCCTGTTGTATTCATTTCTATCGTACTTGGTGCTGCCGGCCTTGGAGATCCGAAACAACTTGGAAGAATCGGTTTAAAATCAATTTCATTCTTTCTCGTAACAACTGCGGTTGCCATCTCTATAGCGGTTACATTTGCACTTATTATAAAACCAGGAGCTGGCGGTAATTTTAAAACAGAAGGTCTTAAGTATGAAGGTGCAAAAACTGAAACATCTTTCGTCGAAACATTGCTAAATATCGTACCAGATAACCCAGCAAAAGCAATGGCTGACGGAAATATGTTACAAATCATTGCCTTTGCCGTATTGATTGGACTCGGTATAGCTATTTTAGGAAAACGAGTTCAAGGTATCCATTCATTACTTGAACAGGGCAACGAATTAATGATGTATCTTGTTAATCTCGTTATGAAATTAGCCCCAATTGGAACATTCGGTTTGCTCGCTTCATCCGTTGGTAAAATGGGTCTTGCAGGCGTCGCTGCGATGTTCAAGTATATGATTGTCGTTATGTTAGTACTCATTATTCACGGGGTCTTTGTATATGGCGGCCTATTAAAGGTATTAGCAAAAGAAAGTATCGTCCGGTTCTTTAAGCATTTCGGACCGGTAATGGCAATTGGCTTTAGCACATCTAGCTCTAATGCATCTCTTCCATTTGCAATGAAAACCGCACAAGAGAAGCTTGGAGTTCCAAAAGCAATCAGCTCATTTGTACAACCACTCGGTGCAACGATTAATATGGATGGTACCGCTATTATGCAAGGGGTAGCAACTGTATTTATCGCTCAAGTATACGGAGTTGAACTTACATTACCGCAATTAGCTATGGTCGTATTAACTGCTGTACTAGCTAGTATTGGTACTGCTGGTGTACCAGGTGTTGGACTTGTAATGCTTACAATGGTTTTAAATCAAGTAAATCTACCAGTAGAAGGTATCGCTTTAATTATTGGTATTGACCGTATTCTAGATATGTCAAGAACAGCTGTAAACATTTCTGGTGATGCAATTTGTGCAATGATTGTCGCAAAATCAGAAGAAAAATATAATACTGATCAATCGGCAGCATCTTAA	MKQTKAILIALFLGLVVGLTLNLAAPSIFEPLNQYVFNPIGQLFIRLIKMLVVPVVFISIVLGAAGLGDPKQLGRIGLKSISFFLVTTAVAISIAVTFALIIKPGAGGNFKTEGLKYEGAKTETSFVETLLNIVPDNPAKAMADGNMLQIIAFAVLIGLGIAILGKRVQGIHSLLEQGNELMMYLVNLVMKLAPIGTFGLLASSVGKMGLAGVAAMFKYMIVVMLVLIIHGVFVYGGLLKVLAKESIVRFFKHFGPVMAIGFSTSSSNASLPFAMKTAQEKLGVPKAISSFVQPLGATINMDGTAIMQGVATVFIAQVYGVELTLPQLAMVVLTAVLASIGTAGVPGVGLVMLTMVLNQVNLPVEGIALIIGIDRILDMSRTAVNISGDAICAMIVAKSEEKYNTDQSAAS	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
AK009_00119	1344	ktrB_3	COG0168	Ktr system potassium uptake protein B	ATGGAAGTAACAAAAAAACAAGGGCTGTATAATCGTCTTATACGATTAAACCCACCACAAATATTAGCATTAGGTTTTTTCTGCTTAATTGTGGTTGGCGGTTTGTTATTAAAGTTACCATTCGCAACGAAAGCACATATTAGTTGGGTAGATGCTTTCTTTACAGCAACGTCAGCAGCGACCGTAACTGGTTTGGGAGTAGTGGATACAGCAAGTACATTTACGATGTTTGGCGAAATTGTTATTATGTTTTTAATTCAAACAGGTGGTCTAGGTCTTATGACAATTGCCATTTTAATTGTTTGGGTATTAGGCAAAAAAATCGGATTACGCCATCGTTTATTAATTGGAGAAGCATTTAATCAAACAAATATAGGTGGTCTTGTAAAATTAGTAAAGCGTGTCTTTATATTTTCGATTTGTATTGAGCTTATTGGGGTCATCTTTTTATCGTTTCGCTTTATTCCAGAGTTTGGTTTTGGAAAAGGTTTATACTATAGTATTTTTCATGTAATTGCATCTTATAATAATGCAGGATTTGCTTTATGGCCAGATAATTTAACAAGATATGTAGGGGATCCCATTATTAATATTGGGATTTGCTCTTTAATTGTAATAGGTGGACTCGGTTTTACCGTATTAATTGATATATGGTATAGTCGCAGTTTTCGAAAATTATCACTTCACTCAAAAATAATGATTATTGGAACAGTAGTGTTAAATGTTATAGCAATGATTGTAATTTTTGTATTGGAATATAATAATGTGAAGACGTTAGGGAATTTATCTTTAAATGAAAAACTATGGGCTTCCTTCTTTCAAGGTATTACCCCGCGGACAGCTGGATTTAATACGATTGACTATGGAGGTATGGAAGAATCATCTATATTATTTACGATGATTTTAATGTTTATTGGTGCAGGAAGTGTATCAACAGGTGGAGGAATTAAATTAACAACGTTTGTTATCTTAATTACATCTGTCCTTTCTTTCTTTAGAAAAAAGGAAGAAATTGTTTTATTTCAGCGTACAATTAAAATGTCGACAGTAACGAGGGCCTTAGCGATTGCTGTTGCTAGTCAAATACTTATTTTTACAGCGGTATTTATATTAATGCTTACAGAAAACTTCAGCTTTATTCAATTATTATTTGAGACAATATCAGCGTTTGGCACAGTCGGATTAACGATGGGAATTACTGCAAAGCTATCGGCATTCGGAAAATGTATTATTATGTTTGTTATGTTTTGCGGATTAATTGGACCGTTAACACTTGTGTTTTCTTTAGCGCGACCAGCAAAACAAAAAATAAAATATCCATCGGAAGATGTGTTTACAGGATAA	MEVTKKQGLYNRLIRLNPPQILALGFFCLIVVGGLLLKLPFATKAHISWVDAFFTATSAATVTGLGVVDTASTFTMFGEIVIMFLIQTGGLGLMTIAILIVWVLGKKIGLRHRLLIGEAFNQTNIGGLVKLVKRVFIFSICIELIGVIFLSFRFIPEFGFGKGLYYSIFHVIASYNNAGFALWPDNLTRYVGDPIINIGICSLIVIGGLGFTVLIDIWYSRSFRKLSLHSKIMIIGTVVLNVIAMIVIFVLEYNNVKTLGNLSLNEKLWASFFQGITPRTAGFNTIDYGGMEESSILFTMILMFIGAGSVSTGGGIKLTTFVILITSVLSFFRKKEEIVLFQRTIKMSTVTRALAIAVASQILIFTAVFILMLTENFSFIQLLFETISAFGTVGLTMGITAKLSAFGKCIIMFVMFCGLIGPLTLVFSLARPAKQKIKYPSEDVFTG	PGPT0002735_4425	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK009_00120	375			hypothetical protein	TTGACTGAGAAATTTGATGATTATAAAAGAAGAGATAGAATAGATAGTGATTATAGTGACTATAAAGAAGAGTACGCCGCTGAGGTTGCACCACAACGCATTGATTATGATTACGATGATAAAGACGATAAAGATGTTGTAAAATCATCCGCCGCTGGATCAACTGCTGGTTTTATCGCTCTTGCGCTATCTATCTTATCGCTATTTACATTCCCAACACTATTTGGTCTTGTTTCTGTTTTACTCGGTATTTACGCTTATAATCGCGGAGCTACTGTAACTGGCGGTATCGCTGCAGTTGTCGGTGGGATTGCTGCACTTATCGCAATTTTATTCCGAGTAGCACTTATTGGTTTATTGTTCTCCCTGTTCTAA	MTEKFDDYKRRDRIDSDYSDYKEEYAAEVAPQRIDYDYDDKDDKDVVKSSAAGSTAGFIALALSILSLFTFPTLFGLVSVLLGIYAYNRGATVTGGIAAVVGGIAALIAILFRVALIGLLFSLF				NA	NA	NA	NA	NA
AK009_00121	468	ytfJ_1	COG3874	putative spore protein YtfJ	ATGACTTCCTCTATTTTGGAAAGTATAAAAAGGAATAAAGAGGAAAGGGTGCAATACATAATGGAACATCCAATTGAAAATTTAATGAAAACGGCAATGACAAATTTAAAAGAGATGGTAGATGTAAATACAATTGTTGGGAGCCCGGTCTCAACAGCTGACGGAAATGTAGTATTAACAGTATCTCAGGTGGCTTTTGGTTTTGGAGCTGGTGGAAGTGATTTTAAAGGGGATTTCATTACTGAAAAACATAACGGTGGGCAAAATCAGCATAAAGAGAAAAAGCAAGGGCATCCATTTGGAGGAGGAAGCGGGGCTGGGGTTTCTATTAGCCCAGTTGCTTTTTTAGTAGTCGGTTCTAACGGTGTGCAAGTATTACACCTCAATAGTAGTATACATTTAATTGAAAAGGCTTTAAATACGGTACCAAGCACTGTAGATAAATTTGTAAATGGTCGCCAAAAGTGA	MTSSILESIKRNKEERVQYIMEHPIENLMKTAMTNLKEMVDVNTIVGSPVSTADGNVVLTVSQVAFGFGAGGSDFKGDFITEKHNGGQNQHKEKKQGHPFGGGSGAGVSISPVAFLVVGSNGVQVLHLNSSIHLIEKALNTVPSTVDKFVNGRQK	PGPT0024995_69	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA	NA	NA
AK009_00122	90			hypothetical protein	ATGATTAATATCAAAAACTTAGTAGTTGGTTTATGTATGTTAGTAAGCGGTTTTGTTGTATATGTAATAAAAGAAAAAGCTCCATTCTAA	MINIKNLVVGLCMLVSGFVVYVIKEKAPF				NA	NA	NA	NA	NA
AK009_00124	240			hypothetical protein	ATGGCTAGAATTGGCGTTGAAAACTCATTAACAGACGTTCAACAAGCTCTTCAGCAACAAGGTCATGAAGTTGTTACACTTAACTCAGAACAGGATGCACAAGGGTGTGATTGTTGCGTTGTAACTGGGCAAGATTCTAATGTGATGGGCATTGCAGATGCATCAATTAAAGGATCAGTCATTACAGCTCACGGTTTAACAACGGATGAAATTTGTCAACAAGTTGAAATTCGCACTTAA	MARIGVENSLTDVQQALQQQGHEVVTLNSEQDAQGCDCCVVTGQDSNVMGIADASIKGSVITAHGLTTDEICQQVEIRT				NA	NA	NA	NA	NA
AK009_00125	240			hypothetical protein	ATGGCATGTGTACAAATTAAAGGAACGAGACAAGAGGTAGTAGAAATGTTGCAATTATTTGATCTAATGGACACGAAAGGTTTTTGTAAATTCGATAATTACGTAGAGGTAGAACCAAACACGCAAGAACATAATCATTTTATTGCTTCAATCGACATCCATTCAAATACTTCTTCTGCACAAGATACATTAAACGATCAATTCGTTAGTCAAATGCTTACTGGCGTATATAACGACTAA	MACVQIKGTRQEVVEMLQLFDLMDTKGFCKFDNYVEVEPNTQEHNHFIASIDIHSNTSSAQDTLNDQFVSQMLTGVYND				NA	NA	NA	NA	NA
AK009_00126	897	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	GTGAATGAGCAATGGATTTTCTTAAATGGAGAATTTGTTCCGAAAGATGAAGCAAAAGTTTCGGTATATGATCATGGCTATTTATATGGCGATGGAGTATTTGAAGGAATTAGAGTTTATAGCGGTAATGTTTTCCGTTTGAGAGAGCATCTTGTCCGGTTGTATGAATCAGCAAAATCAATCCTTTTAGAAATTCCATATTCATTAGATGAAGTAACGAATATTGTTGTTGAGACGATTCGACAAAATAAATTATCTAATGGATACATTCGCCTTGTTGTATCAAGAGGAGCAGGAAATCTTGGATTGGATCCCGATTCATGTAAGAAGCCGAATGTAGTAGTAATTGCAGAACAATTATCTTTATTCCCACAAGAATATTATGAGAAAGGGATTCCAGTTGTAACAGTTGCAACGCGCCGAAATCGTCCCGATGTTTTATCCCCTCAAGTAAAATCTTTAAATTACTTAAACAATATTTTAGTTCGTATTGAAGCGAAATTAGCTGGAGTACAAGAAGCACTTATGTTAAATGATCAAGGATATGTAGCTGAAGGATCAGGAGATAACGTGTTTATTGTTAAAGGAAATAAATTAATTACACCACCAAGTTCTGCTGGAGCGTTAGAAGGTATTACACGAAACGCCATTTTAGAAATCGGCGAAAAACTTGGATATGACGTAAGAGAAGAGTTATTTACAAGACATGATGTATATGTAGCTGATGAAGTGTTTTTAACAGGAACAGCTGCTGAAGTTATTGCTGTTACGACAGTAGATGGTAGAACGATTGGTTTAGGGCAAACGGGTCCACATACGAATCGTTTATTGGAAGAATTCCGAAAGTTAGTTATAGAAGATGGAGAGAAAATTTACGAAGAAAATAAAGTTGGATAA	MNEQWIFLNGEFVPKDEAKVSVYDHGYLYGDGVFEGIRVYSGNVFRLREHLVRLYESAKSILLEIPYSLDEVTNIVVETIRQNKLSNGYIRLVVSRGAGNLGLDPDSCKKPNVVVIAEQLSLFPQEYYEKGIPVVTVATRRNRPDVLSPQVKSLNYLNNILVRIEAKLAGVQEALMLNDQGYVAEGSGDNVFIVKGNKLITPPSSAGALEGITRNAILEIGEKLGYDVREELFTRHDVYVADEVFLTGTAAEVIAVTTVDGRTIGLGQTGPHTNRLLEEFRKLVIEDGEKIYEENKVG	PGPT0008860_6102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK009_00128	1701	ilvB_1	COG0028	Acetolactate synthase large subunit	ATGTCTTCAAAAACGGAAGAGAAACTGGCAACTGGTGCACAGCTATTGTTAGAAGCGCTAGAAAAGGAAGGAGTAGAAGTGATTTTCGGTTATCCTGGTGGTGCTGTTTTACCTCTCTATGATGCACTGTATGATTGTGAAATTCCTCATATTTTAACAAGGCATGAGCAAGGAGCAATTCACGCTGCTGAAGGGTATGCCAGAATTACTGGTAATCCAGGGGTTGTCATTGCAACGAGTGGTCCAGGTGCTACAAATGTGATTACTGGTCTAGCAGATGCGATGATTGATTCATTACCACTTGTTGTATTTACAGGGCAAGTAGCAACAACGTTAATTGGAAGTGATGCTTTCCAAGAAGCGGATATTATGGGGCTTACAATGCCGGTGACAAAACATAACTATCAAGTGCGAAAGGCTTCAGATTTACCTCGAATTATTAAAGAAGCATTTCATATTGCTAAAACAGGAAGACCAGGCCCAGTCGTGATCGATCTTCCGAAAGATATGGTAGTAGAGCAAGGAGAACGATGTAATGATGTGCAAATGGATTTACCAGGATACAACCCAAATTATGAACCAAATTTACTCCAAATAAACAAATTATTACAAGCAATTAGTGCTGCAAACAAGCCGTTAATTTTAGCTGGAGCAGGTGTATTGCATGCGAAAGCATCAAAAGAGTTAACAAGTTTTGCGCGTAAATATGAAATTCCTGTTGTGCATACATTACTTGGTCTTGGTGGCTTTCCGCCAGATGATGAACTTTTTCTAGGGATGGGGGGAATGCATGGTTCTTACACAGCCAATATGGCGTTATATGAATGCGACTTACTCATTAATGTAGGCGCGAGATTTGATGATCGGCTTACTGGAAATTTAGCTTATTTTGCTAAAGGAGCGACTGTCGCGCATATCGATATCGATCCAGCAGAAATCGGAAAAAATGTGCCGACTGAAATTCCTATTGTTGCAAGTGCTAAGCGGGCATTGGAAGTATTACTTCAACCAGAAGGAAGGAAAGGAAATCATCATGAATGGATCTCTTTATTAAAGAGTAGAAAAGAACAGTATCCATTCTCTTATAAACGAAACTCTGAAAGTATTAAACCTCAATACGCAATTGATATGCTATATGAAATCACGAAAGGAGAAGCGATTGTAACAACAGACGTTGGGCAACATCAAATGTGGGCAGCGCAATATTATCCGCTGAAAAATCCAGATAAATGGGTAACTTCTGGCGGATTGGGAACGATGGGATTCGGATTTCCAGCAGCAATTGGTGCGCAAATCGCAAAGCCTGAAGAACTAGTCATTGCAATTGTTGGTGACGCTGGGTTTCAAATGACTCTACAAGAATTAAGTGTATTAAAAGAACATTCTTTACCTGTTAAAGTATTTATTTTAAATAATGAAGCTTTAGGAATGGTAAGGCAATGGCAAGACGAATTTTATAATCAAAGATATTCACATTCCTTATTGTCGTGTCAACCAGATTTCGTCGCTCTTGCGAATGCGTATGGTATAAAAGCTGTTCGTATTGATGATCCACTTCTTGCAAAGAAGCAGTTGAAGCATGCGATTGAATTAAAAGAACCAGTCTTAATTGATTGCCGTGTACTTCAATCTGAGAAAGTTATGCCGATGGTTGCGCCCGGGAAAGGCGTTCACCAAATGGAAGGAGTGGAAAAAAGGTGA	MSSKTEEKLATGAQLLLEALEKEGVEVIFGYPGGAVLPLYDALYDCEIPHILTRHEQGAIHAAEGYARITGNPGVVIATSGPGATNVITGLADAMIDSLPLVVFTGQVATTLIGSDAFQEADIMGLTMPVTKHNYQVRKASDLPRIIKEAFHIAKTGRPGPVVIDLPKDMVVEQGERCNDVQMDLPGYNPNYEPNLLQINKLLQAISAANKPLILAGAGVLHAKASKELTSFARKYEIPVVHTLLGLGGFPPDDELFLGMGGMHGSYTANMALYECDLLINVGARFDDRLTGNLAYFAKGATVAHIDIDPAEIGKNVPTEIPIVASAKRALEVLLQPEGRKGNHHEWISLLKSRKEQYPFSYKRNSESIKPQYAIDMLYEITKGEAIVTTDVGQHQMWAAQYYPLKNPDKWVTSGGLGTMGFGFPAAIGAQIAKPEELVIAIVGDAGFQMTLQELSVLKEHSLPVKVFILNNEALGMVRQWQDEFYNQRYSHSLLSCQPDFVALANAYGIKAVRIDDPLLAKKQLKHAIELKEPVLIDCRVLQSEKVMPMVAPGKGVHQMEGVEKR	PGPT0008185_5748	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
AK009_00129	510	ilvH_1	COG0440	Acetolactate synthase small subunit	GTGAAGAGAATTGTTACAGCGACAGTTCGAAATCAAAGTGGTGTGTTAAACCGAATTACAGGGGTTATGACACGAAGACATTTTAATATTGAAAGTATTTCAGTAGGTCATACGGAATCATCAGATATATCGCGAATGACGATAGTTGTGCATGTGGAAAGTGAACAGCAAGTTGAGCAGTTAATTAAACAACTTCATAAGCAAATCGATGTTCTGAAAGTATCAGATATTACAGAAGAAGCGATGATTGCTAGAGAGCTTGCTCTTATTAAAGTAGCAACTTCTGTAGCAAGGGCGGAATTATATAGTTTAATTGAACCGTTTCGAGCCGCTGTAATAGATGTTGGGAAGGATTCCATAGTTGTGCAAGTAACAGGTACGCAAGATAAAGTGGAAGCGTTAATTGAATTACTTAGACCATACGGTTTGAAAGAAATTGCGAGAACAGGTGTAACAGCATTTACACGTAGTATGAAAAAACAAGATAAGCAAGTTATGTTAATTCAATAA	MKRIVTATVRNQSGVLNRITGVMTRRHFNIESISVGHTESSDISRMTIVVHVESEQQVEQLIKQLHKQIDVLKVSDITEEAMIARELALIKVATSVARAELYSLIEPFRAAVIDVGKDSIVVQVTGTQDKVEALIELLRPYGLKEIARTGVTAFTRSMKKQDKQVMLIQ	PGPT0008205_2003	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
AK009_00130	1011	ilvC_1	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGGCAAAAGTTTATTATGAGAAAGATGTAACAGTAAATGTATTAAAGGAAAAGAAAGTAGCAATCATCGGATATGGCTCGCAAGGTCATGCGCATGCGCAAAATTTACGTGATAACGGATTTGATGTAGTAGTAGGTTTAAGAAAAGGTAAGTCTTGGGATAAAGCGAATGAAGATGGATTTTCTGTATATACAGTAGCAGAAGCAGCGGAAAAAGCTGATGTAGTAATGATTCTACTGCCTGATGAATTACAACCAGAAGTATATAAAGCTGAAATTGAACCAAATTTACAAGCCGGAAATTCTCTCGTGTTCGCACATGGATTTAATGTTCACTTTGATCAAGTAAAACCACCAGCTAATGTAGATGTATTTCTAGTAGCGCCAAAAGGACCGGGGCATCTCGTACGCCGTACGTTCGCCGAGGGCGGGGCTGTTCCTGCACTATTTGCCGTATATCAAGATGCAACAGGAGTTGCGACTGAAAAAGCACTTTCTTATGCTGACGGAATTGGAGCAACGAGAGCTGGTGTATTAGAAACGACGTTTAAAGAAGAAACAGAAACAGATTTATTTGGAGAGCAAGCTGTACTCTGCGGCGGAGTGACTGCACTTGTAAAAGCAGGGTTTGAAACGTTAGTTGATGCGGGATACCAGCCTGAACTTGCATATTTTGAATGTTTACATGAACTGAAGCTAATCGTTGACCTTATGTATGAAGGTGGACTTGAAAATATGAGATATTCAGTTTCAGATACAGCGCAGTGGGGAGACTTCGTATCAGGACCACGCGTTGTTACTGAAGATACGAAGAAAGCGATGGGGGCAGTATTAGCAGAAATTCAAGATGGTACATTTGCAAGAGGCTGGATTGCAGAGCATAAAGCAGGAAGACCAAATTTCCACGCGACAAATGAGAAAGAGAATGAACATGAAATTGAAGTAGTTGGACGTAAATTACGTGAAATGATGCCTTTCGTACAGCCGCGAGTAAAGGTAGGGATTAAATAA	MAKVYYEKDVTVNVLKEKKVAIIGYGSQGHAHAQNLRDNGFDVVVGLRKGKSWDKANEDGFSVYTVAEAAEKADVVMILLPDELQPEVYKAEIEPNLQAGNSLVFAHGFNVHFDQVKPPANVDVFLVAPKGPGHLVRRTFAEGGAVPALFAVYQDATGVATEKALSYADGIGATRAGVLETTFKEETETDLFGEQAVLCGGVTALVKAGFETLVDAGYQPELAYFECLHELKLIVDLMYEGGLENMRYSVSDTAQWGDFVSGPRVVTEDTKKAMGAVLAEIQDGTFARGWIAEHKAGRPNFHATNEKENEHEIEVVGRKLREMMPFVQPRVKVGIK	PGPT0008735_3523	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
AK009_00131	1521	leuA		2-isopropylmalate synthase	ATGAAGCAGATTTTGTTCATGGATACAACGCTTCGTGATGGCGAACAATCACCAGGAGTAAATTTAAATGAACAAGAGAAATTACAAATTGCTAGGCAATTAGAGAGGCTTGGTATTCATGTAATGGAAGCTGGATTCGCGGCAGCTTCCGAAGGTGACTTCCAATCAGTAAAACGCATCGCGAATACAATTCAAAATGCTACGGTTATGAGTTTAGCTAGAGCGAAAGAAAGTGACATTCGAAGAGCATATGAAGCAGTGAAAGGTGCTGTATCTCCTCGTCTACACGTATTTCTAGCTACGAGTGATATTCATATGAAATATAAACTTTGTATGTCAAAAGAAGACGTGTTAAATAGTATTCATCGTTCGGTTACGCTTGGAAAATCATTATTTCCGACAGTACAATTTTCTGCAGAAGATGCGACAAGAACATCGAGAGCATTTTTAGCTGAAGCAGTAGAAACTGCGATTCGCGCAGGAGCGAATGTAATTAATATTCCGGATACAGTTGGATATACGAATCCAGAAGAATATTATTCTCTTTTCAAATACTTACAAGAATCCGTTCCATCATATGAAAAAGCGATTTTTTCTTGTCACTGTCACGATGATCTTGGTATGGCAGTAGCAAATTCGTTAGCTGCGGTTGAAGGCGGAGCATTGCAAGTAGAAGGAACGATTAATGGCATTGGAGAAAGAGCAGGGAATGCAGCGTTAGAAGAAGTTGCGGTTGCTCTTCATATTAGAAAAGATTTTTATAAAGCAGAACCTTCTATGACTTTAAAAGAGATTAAGGCGACGAGTACATTAGTAAGCAGGTTAACGGGTATGGTTGTACCGAAAAATAAAGCAATCGTTGGAGCGAATGCATTTGCTCATGAATCAGGCATCCACCAAGATGGGGTTCTAAAAGAAGTAACAACTTATGAAATTATCGAACCAGCGCTTATAGGAGAATCTCAAAATCTCTTTGTACTTGGGAAACATTCTGGCCGTCATGCGTTTACGGAAAAAATGAAAGAGCTTGGTTATGAATTTACAAATGAAGAGCGAGATGCGGTATTCGAAGCGTTTAAAAAATTGGCTGATCGTAAAAAGGAAATTACTGAGGAAGATTTACGCGCACTTATGCTTGGTGAAGCAGCATTTGCAGCCCAGCAATATAACATTACGCAATTACAAGTGCATTTCGTATCAAATAGTACACAATGCGCAACAGTTGTGCTGAAGGATGAGGAAGGAAATGTATATGAAGATGCAGCCACTGGTTCTGGTAGTATTGAAGCGATATACAATGCGATTCAAAGAATTTTAGGACTAGAATGTGAATTGGCAGATTATCGCATACAATCTATTACACAAGGTCAAGATGCACTTGCTCACGTTCATGTTGAATTAAAAGAAGGTAGTCACCAAATATCAGGTTTCGGAGTTGCGCAAGACGTATTGGAAGCGTCGGCGAGAGCTTATGTCCATGCAGCAGGGAAATTAAAATCTCTTATAGCGCTTGTGAAATAA	MKQILFMDTTLRDGEQSPGVNLNEQEKLQIARQLERLGIHVMEAGFAAASEGDFQSVKRIANTIQNATVMSLARAKESDIRRAYEAVKGAVSPRLHVFLATSDIHMKYKLCMSKEDVLNSIHRSVTLGKSLFPTVQFSAEDATRTSRAFLAEAVETAIRAGANVINIPDTVGYTNPEEYYSLFKYLQESVPSYEKAIFSCHCHDDLGMAVANSLAAVEGGALQVEGTINGIGERAGNAALEEVAVALHIRKDFYKAEPSMTLKEIKATSTLVSRLTGMVVPKNKAIVGANAFAHESGIHQDGVLKEVTTYEIIEPALIGESQNLFVLGKHSGRHAFTEKMKELGYEFTNEERDAVFEAFKKLADRKKEITEEDLRALMLGEAAFAAQQYNITQLQVHFVSNSTQCATVVLKDEEGNVYEDAATGSGSIEAIYNAIQRILGLECELADYRIQSITQGQDALAHVHVELKEGSHQISGFGVAQDVLEASARAYVHAAGKLKSLIALVK	PGPT0000080_111	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000080-nifV-K02594	NA	NA
AK009_00132	1065	leuB	COG0473	3-isopropylmalate dehydrogenase	ATGGAAAAACGTATCGTTTGTTTAGCTGGTGATGGTGTCGGTCCAGAAGTTATGGAAAGTGCGAAGGAAGTATTGCATATGGTAGAAAGGCTATATGGACATCATTTTCATTTGCAAGATGAGTACTTTGGTGGTGTTGCTATCGATTTAACTGGGCAACCATTACCACAGCGAACACTTGCCGCCTGTTTAGCGAGTGATGCGGTTTTACTTGGAGCAGTAGGTGGACCAAGGTGGGATAGTGCGAAAGAAAGGCCTGAGAAAGGATTATTAGCATTAAGAAAAGGACTCGGTGTATTTGCGAATGTTCGCCCTGTAACGGTAGAAAGTGCAACTGCACATTTATCACCATTAAAAAATGTGGATGAAATTGATTTCGTTGTCGTTCGTGAATTAACAGGCGGAATTTATTTTTCTTATCCGAAAGAGCGAACGGAAGAAGTGGCGACAGATACACTTACGTATCATCGCCATGAAATTGAACGTATCGTTTCGTATGCTTTTCAATTAGCGAATAAGCGGAAGAAAAAAGTAACATCTATTGATAAAGCGAATGTTTTAGAGTCTAGTAAACTATGGAGAACTGTGACAGAAGAAGTAGCACTTCGCTACCCAAATGTGGAAGTAGAACACATTTTAGTAGATGCAGCGGCTATGGAATTAATTCGAAATCCAGGAAGATTTGACGTTATTGTAACGGAAAATTTATTTGGTGATATTTTAAGTGATGAGGCTTCAGTATTAGCTGGATCATTAGGAATGCTTCCATCAGCAAGTCACGCTGAAAAGGGGCCTTCATTATACGAGCCTATTCACGGATCAGCGCCGGATATTGCGGGGGAAAATAAGGCGAATCCAATTGCGATGATGCGTTCTGTTGCAATGATGCTTGGGCAATCGTTCGGATTAACGAGGGAAGGATATGCAATTGAAGAAGCAGTTTCTGCAGTCCTTAAATCAGGAAAATGTACAGCAGATATCGGGGGGACTGAAACGACAATTTCATTTACAAAGGCAGTTATTCAAGAAATGGAAGAGCAAGCGTTAGTAGGGAGAGGAAAATAA	MEKRIVCLAGDGVGPEVMESAKEVLHMVERLYGHHFHLQDEYFGGVAIDLTGQPLPQRTLAACLASDAVLLGAVGGPRWDSAKERPEKGLLALRKGLGVFANVRPVTVESATAHLSPLKNVDEIDFVVVRELTGGIYFSYPKERTEEVATDTLTYHRHEIERIVSYAFQLANKRKKKVTSIDKANVLESSKLWRTVTEEVALRYPNVEVEHILVDAAAMELIRNPGRFDVIVTENLFGDILSDEASVLAGSLGMLPSASHAEKGPSLYEPIHGSAPDIAGENKANPIAMMRSVAMMLGQSFGLTREGYAIEEAVSAVLKSGKCTADIGGTETTISFTKAVIQEMEEQALVGRGK	PGPT0001441_3515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
AK009_00133	1395	leuC	COG0065	3-isopropylmalate dehydratase large subunit	ATGGGGAAAAGGTTACTAGATAAGCTTTGGGAAAGACATGTAGTTGCGACTAATGAAAATGGATTGGATTTATTATATATCGATCTACATCTTGTTCATGAAGTAACGTCACCGCAAGCCTTTGAAGGCTTGCGGCTTACAAATCGAAGAGTCCGCAGACCAGATTTAACATTTGCAACGATGGATCATAATATTCCAACGAAAGATGTTTGGAATATTACCGATCGTATTGCGAAGCAGCAACTAGATACACTTCGGGAAAATTGTAAACAATTTCAGGTGCCATTAGCGGATATCGGAGATGAAGAGCAAGGGATCGTTCATGTTATAGGACCAGAACTTGGACTCACACAGCCAGGAAAAACGATTGTTTGTGGTGATAGTCATACAGCAACACACGGTGCTTTTGGTGCACTAGCGTTTGGTATTGGTACGAGTGAAGTGGAACATGTATTGGCAACGCAAACGTTATGGCAACGAAAGCCGAAAGCGATGGGCATTGAGTTAAAAGGAAAGTTACCGCAAGGTGTTTATGCGAAAGATATTATTTTACATCTCCTTTCAAAGTACGGAGTAGCAGTTGGAACAGGTTACGTAATGGAGTTTTACGGAGAGACCATTCATGCTATGGATATGGAAGAGAGGATGACGCTTTGCAATATGGCAATTGAAGGGGGAGCAAAGGCTGGTATTATTGCACCAGATGAAAAAACGGTTGCTTACGTAAAAGGGCGTAAATATGCGCCGAAAGACTATGAATCTATTAAGAAAAAATGGTCAGAACTTTATACAGATTTAGATGCAGTTTATGATTTACATATTTCAGTAGATGTTACGGATTTAGCGCCGTACGTTACGTGGGGAACAAATCCTAGTATGGGTGTTCGGATTGATGAGAAATTGCCAGAAAAGTATGATGCAAATGACGAAAGAGCGTTTTCTTATATGGGATTGAGTCCCGGACAAAGTACGTATGACATTCCAGTTCAACATGTTTTCATTGGATCTTGTACAAATTCTAGGCTTTCTGACTTAGAAATTGCTGCATCTGTCGTGAAAGGTAAGAAAGTAAAAGAAGGTGTGCGAGCACTTGTTGTACCCGGATCTCAAAGGGTAAGAGAAGCAGCGATGCATAAAGGATTACATCGCATATTTGAAGAAGCTGGATTTGAATGGAGAGAGCCCGGATGCTCAATGTGTCTAGGTATGAATCCAGATCAAGTGCCTGAAGGAGAACATTGTGCCTCTACGTCAAATCGCAATTTTGAAGGAAGACAAGGAAAGGGAGCACGAACGCATTTAGTTAGCCCGGCAATGGCGGCTGCGGCTGCGTTATATGGTCATTTTGTTGATATTAGAAAGGAGAGTTATGATGGAGCCATTTCGTATTCATAA	MGKRLLDKLWERHVVATNENGLDLLYIDLHLVHEVTSPQAFEGLRLTNRRVRRPDLTFATMDHNIPTKDVWNITDRIAKQQLDTLRENCKQFQVPLADIGDEEQGIVHVIGPELGLTQPGKTIVCGDSHTATHGAFGALAFGIGTSEVEHVLATQTLWQRKPKAMGIELKGKLPQGVYAKDIILHLLSKYGVAVGTGYVMEFYGETIHAMDMEERMTLCNMAIEGGAKAGIIAPDEKTVAYVKGRKYAPKDYESIKKKWSELYTDLDAVYDLHISVDVTDLAPYVTWGTNPSMGVRIDEKLPEKYDANDERAFSYMGLSPGQSTYDIPVQHVFIGSCTNSRLSDLEIAASVVKGKKVKEGVRALVVPGSQRVREAAMHKGLHRIFEEAGFEWREPGCSMCLGMNPDQVPEGEHCASTSNRNFEGRQGKGARTHLVSPAMAAAAALYGHFVDIRKESYDGAISYS	PGPT0001442_3958	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
AK009_00134	582	leuD_1	COG0066	3-isopropylmalate dehydratase small subunit	ATGGAGCCATTTCGTATTCATAAAGGTACTGCCGCAGTACTGATGAATGATAACATTGATACAGATCAAATTATTCCGAAGCAATATTTAAAGAGAATTGAAAGAACTGGGTTTGGGAAGTTTTTATTTGATGAGTGGCGATATGATAATAATCGCCAAGAAACCCCTAATTTTCCTCTTAATGCACAAGAAAGAAAAGGAGCCAGCATATTAATTACAGGTGATAATTTTGGATGTGGCTCGTCAAGAGAACATGCTCCATGGGCGCTTGCTGATTATGGTTTCCGCGTTATTATCGCTGGAGGATTTGCCGATATCTTTTATATGAATTGTATGAAGAATGGCATGTTACCGATTGTAATGGATAAAGATATGCGTGAACAACTTGCTAAAACAGATGCGAGGGAACAAATCACAGTTGATTTAGAAAATGAAGTAATTACAACGAATACGCATAGATTCCATTTTACAATCGAGAAAATGTGGAAAGAGAAGTTATTAAATGGTTTAGATGAAATTAGTATTACAATGCAATATGAACAAGAAATAAAAGAGTATGAAAGAAAAGTGGCTTTATATTAA	MEPFRIHKGTAAVLMNDNIDTDQIIPKQYLKRIERTGFGKFLFDEWRYDNNRQETPNFPLNAQERKGASILITGDNFGCGSSREHAPWALADYGFRVIIAGGFADIFYMNCMKNGMLPIVMDKDMREQLAKTDAREQITVDLENEVITTNTHRFHFTIEKMWKEKLLNGLDEISITMQYEQEIKEYERKVALY	PGPT0001443_3996	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
AK009_00135	1263	hisZ	COG3705	ATP phosphoribosyltransferase regulatory subunit	ATGACAAAATGGAAGCGGGCAAACCCGAATGGAACGAGAGATTATTTATTCGAAGAATGTACATTAATTGAAGAAGTGGAGCAAAAATTAAGGCTTACTTTTTTAGAGAGAGGTTATGAGGAAATAAGAACACCTACAATTGAATTTTATGATGTTTTTGCATTTCAAAATAGACCGATAGATGAAGAGAAGATGTATAAATTTTTTGATGAAAAGGGAAGGATTATCGTTTTACGTCCAGATATGACAATTCCTTTAGCGAGAGTTATTGGAACACAGAGATGGGATACGCCACTTAAAGTGACGTATAGCGGGAATGTATTTCGAGCAAATGAATCCCATTCTGGAAAATATAATGAAATCGTACAAAGTGGTATTGAAGTTATCGGGATTGATAATGTAAGAGCTGAAATTGAATGCGTAATAAGTGTCATTCAAGCACTTCAAAAGTTGAATGTGCAATCTTTTACAATTGAGATTGGGCAAGTACAGTTATATAAATGTATTGTAAAAAAGCTCTCCATCCATGATGAAGAAGAAAGGGTACTTAGAACGTATATAGAAAGTAAAAATTATGCTGCCCTCTCAAATTTCATCGGAGAAAAGAAATTAGATCGATGCGATGAGACAGTAAGATTACTTGAGAAATTACCGAGGCTATTTGGAAATTTAGAAGTTATTGAGGAAGCAGAAAAGCTTGCTTCAAGTAATGAAATGAAAATGGCAATTGCAAGAGTAAAAGAAATGTATGAAACAATGGAAACGTTAGGATATGGTTCTTACATATCAATTGATTTAGGCATGATTCAACACTTAGATTACTATACGGGTGTTATTTTCAAAGGATATATATATGAAATTGGAGAAGAAATCGTTAGTGGCGGAAGATATGATGAGCTAATTGGGAATTTTGGAGAAACGCTGCCGGCTGTTGGACTCGCGGTGCAAGTAAATCAAATTGTGAAGGCGCTACAAGAGCAGCAAGAACCATATGAACGAAATCAAATTGATATTGTGATTCATTATGAGTTAAATAGATTAGCAGAAGCAGAAAGGTTACGAAATTTACTTCGAAAGGACGGGAAAAATGCCTGGTTATCTCTATTCTCTAATTTAAGCGATACCTTTCAATTTGCAAGAAAAAATAAAATAGGAACGGTCGTTGAGGCAAAGAATGAATACTTAGTGGAATATGTGTGGAATGAGAAATGGGTAGTCCAGAAAGAAGGAGAGACTTCATGCGTAACATTCAAATTGCGTTAA	MTKWKRANPNGTRDYLFEECTLIEEVEQKLRLTFLERGYEEIRTPTIEFYDVFAFQNRPIDEEKMYKFFDEKGRIIVLRPDMTIPLARVIGTQRWDTPLKVTYSGNVFRANESHSGKYNEIVQSGIEVIGIDNVRAEIECVISVIQALQKLNVQSFTIEIGQVQLYKCIVKKLSIHDEEERVLRTYIESKNYAALSNFIGEKKLDRCDETVRLLEKLPRLFGNLEVIEEAEKLASSNEMKMAIARVKEMYETMETLGYGSYISIDLGMIQHLDYYTGVIFKGYIYEIGEEIVSGGRYDELIGNFGETLPAVGLAVQVNQIVKALQEQQEPYERNQIDIVIHYELNRLAEAERLRNLLRKDGKNAWLSLFSNLSDTFQFARKNKIGTVVEAKNEYLVEYVWNEKWVVQKEGETSCVTFKLR				NA	NA	NA	NA	NA
AK009_00136	636	hisG	COG0040	ATP phosphoribosyltransferase	ATGCGTAACATTCAAATTGCGTTAACGAAAGGAAGATTAGAAAAACATGTAATTCCACTCTTTGAGCAGATTGGAATTGATTGTTCGGAACTCAAAAATAAAGGTCGGAAGCTTGTATTTCAAAGTAAAAATACAAATGTTTCATTTATTTTAGTAAAAGCGGTTGATGTTGCTACTTATGTAGAACATGGGGTAGCTGATATTGGGATCGTTGGAAAAGATATTTTAATGGAAAACGAGAAAGATATTTATGAAATGCTGGATTTAGGAGTAGGGATTTGTAAGTTTTGTGTTGCTTCTATTCCTACGTATAATCCGAAAAGTTACCGGAAGAAAAGAATTGCTACGAAATACCCACATATTACTTCTACTTATTTTCATGATAAGGGAGAGGACGTAGAAATTATTAAAATAGAAGGTTCTGTAGAAATCGCTCCTCTTCTTGGATTGGCAGATGCAATTGTAGATATTGTTGAAACAGGAAAAACATTACAAGAGAATGGACTTATTGTATTTGAGGAAATGCACTCTATATCGGCTCGGATGATTGTAAATAAGGCGGCCTTAAAAACTAAAAAAGACGAAATATTCAGTATTGTAAATATGATGGAGCAAGAAATCTTATCAGGGAAATAG	MRNIQIALTKGRLEKHVIPLFEQIGIDCSELKNKGRKLVFQSKNTNVSFILVKAVDVATYVEHGVADIGIVGKDILMENEKDIYEMLDLGVGICKFCVASIPTYNPKSYRKKRIATKYPHITSTYFHDKGEDVEIIKIEGSVEIAPLLGLADAIVDIVETGKTLQENGLIVFEEMHSISARMIVNKAALKTKKDEIFSIVNMMEQEILSGK	PGPT0017400_3945	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
AK009_00137	1290	hisD		Histidinol dehydrogenase	ATGGAAATCATTTATGAAGACTTTAAGGAGGCATTATCTAAAATAAAAGTGCTAAGAGAAAACGCTAATATAATAGAAGAAACTGTTCAAAGAAGTGTAAGAGAAATCATTAGAAATGTAAGGGAAGGGAAAGATGAGGCTTTATCTTTCTATACAAAAAAGTTTGATGGTGTAGAGATGAAAGATTTTTGTGTAAGTGAAGAAGAAATACAGCAAGCGAGTATGCTTGTAGAGAATTCATTTTTAGAAGCTTTAAAAGAGGCGAAGAAAAACATTGTTTCGTATCACGAAAAGCAAAAGAAGTACTCAATATTCGATTGTGAAAGTAAAGGCATAATTAGAGGACAGCTCATTCGGCCATTAGAAAATATAGGTGTATATGTACCGGGTGGGACAGCCTCATATCCTTCTTCAGTATTAATGAATGTATTGCCGGCGAAACTCGCAGGTGTGAAAAAGATTGTAATGGTAACACCGCCGAGGAAAGAAGGAATTGATCCTCATATATTAGCGGCTGCAAATCTTGCGGGGGTAGATGAAATTTATACGATAGGTGGCGCGCAAGCAATTGCGGCTTTAGCATACGGGACGGAATCGATTCCGAAAGTGGATAAAATAGTTGGACCGGGAAATTTGTACGTCGCTCTAGCGAAACGAGAAGTATACGGAATAGTAAATATCGATATGATTGCTGGTCCATCAGAAATTGTAGTTGTCGCGGATGAAACAGGTAATGCAAAATATATCGCAGCGGATTTATTATCGCAAGCAGAGCATGATGAGAGAGCAACGGCAATTTGTATTACAACGAATATGGAACTAGCTAAAGAAGTAGAAAAAGAGGTAGAAAGACAGTTAGAAATGTTACCAAGAAGTGAAATTGCACGTGAATCAATAAATAGAAATGGAGCCATCTTTATCGTTCCTTCTTTAGAGGAGGCACTAAAGTTATCAAATGAAATTGCTCCAGAACATTTAGAGTTACATATAAAAGAACCGATGAATGCTCTAGATTATGTGAAACATGCAGGCTCTATTTTCCTTGGGCCATATGCACCTGAACCGCTCGGGGATTATTTGGCGGGACCGAATCATGTATTACCAACGAGCGGAACGGCAAGATTTTTTTCTCCGTTATCAGTCGATGATTTCGTGAAAAAATCAAGTTTTATTTCTTATACGGAGGAAGCATTAAAAAATGTACAGCATCATATTGTAGAGCTTGCAAATAAAGAAGGGTTACATGCACATGCGAGAGCAATCCAAATAAGGTTTGAGGAGGAAAAATAA	MEIIYEDFKEALSKIKVLRENANIIEETVQRSVREIIRNVREGKDEALSFYTKKFDGVEMKDFCVSEEEIQQASMLVENSFLEALKEAKKNIVSYHEKQKKYSIFDCESKGIIRGQLIRPLENIGVYVPGGTASYPSSVLMNVLPAKLAGVKKIVMVTPPRKEGIDPHILAAANLAGVDEIYTIGGAQAIAALAYGTESIPKVDKIVGPGNLYVALAKREVYGIVNIDMIAGPSEIVVVADETGNAKYIAADLLSQAEHDERATAICITTNMELAKEVEKEVERQLEMLPRSEIARESINRNGAIFIVPSLEEALKLSNEIAPEHLELHIKEPMNALDYVKHAGSIFLGPYAPEPLGDYLAGPNHVLPTSGTARFFSPLSVDDFVKKSSFISYTEEALKNVQHHIVELANKEGLHAHARAIQIRFEEEK				NA	NA	NA	NA	NA
AK009_00138	585	hisB_1		Imidazoleglycerol-phosphate dehydratase	ATGCGTCAGTCCAGTCAAGTACGTCAGACGACAGAAACAAAAATTAAATTAAGTTTGCAGCTTGATGAAAGTACGAATGTATCTATTCAAACGGGGATTGGTTTTTTCGATCATATGCTGACTTTATTTGCTAGACATGGAAGATTTGGATTGCAAGTTGAGGCAGAAGGTGATGTATTTGTCGATGCACATCACACCGTTGAAGATGTTGGAATTGTACTCGGAAATTGCTTGAAAGAAGCATTGCAAAATAAAGAGAGAATTAATCGTTACGGTTCAGCGTATGTACCGATGGATGAATCTTTAGGATTTGTCGCAATTGATATAAGTGGACGCTCATATTGTGTATTTCAAGGGGAATTAACAAATCCGAAGCTCGGGGATTTTGATACAGAATTGACGGAAGAATTTTTTAGAGCAGTTGCACATGCTGCCAATATTACATTACATGCGCGCGTTCTATATGGAAGTAATACACATCACAAAATTGAAGCATTATTTAAAGCTTTTGGTAGAGCGCTTAGAGAAGCGGTCGAAAAAAATGCCAACATTACTGGTGTAAATTCAACGAAAGGGATGTTGTAA	MRQSSQVRQTTETKIKLSLQLDESTNVSIQTGIGFFDHMLTLFARHGRFGLQVEAEGDVFVDAHHTVEDVGIVLGNCLKEALQNKERINRYGSAYVPMDESLGFVAIDISGRSYCVFQGELTNPKLGDFDTELTEEFFRAVAHAANITLHARVLYGSNTHHKIEALFKAFGRALREAVEKNANITGVNSTKGML	PGPT0020305_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK009_00139	630	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	TTGATTGCCATTATAGATTATGGAATGGGGAATATTCGTAGTGTAGAGCAAGCATTAAAATATATTGGGGCAGAGCACATTGTAACGAGTGATAAAGAAGAGATATTGAGAAGCGATGGCGTGATTTTACCGGGAGTAGGTGCATTTCCGAAAGCGATGGAAGTATTAGAAGAAAGAGATTTAGTGTGTGTACTAAAAGAAGTTTGTGATATAGGAAAACCACTCCTCGGTATATGTTTGGGCATGCAGCTTTTATTTGAACGAAGTGAGGAACTAAAAGGTTGTAGTGGGTTAGGTTTACTACCAGGGGAAATTCGTAAGTTAAAAGTTTCGTATAAAATTCCTCATATGGGATGGAATGAATTAAGGAAGGAAAGAGAATTTCCGCTTTGGAATGGATTAGTAGATGGTTCTTTCGTGTATTATGTTCATTCATATTACGCGGATTGTCCAGATGAAATTGTATGCGGAGTAAGTGATTATGGAATGCAAGTACCAGGGTTTGTAGCGAAAGGAAATGTATTTGGTGCACAGTTTCATCCAGAAAAAAGTGGTGAAATTGGCATGCAAATATTAAAAAATTTTCAAGGGGTGGTAGAAGCATGGAAATCTTCCCGGCTATCGATTTAA	MIAIIDYGMGNIRSVEQALKYIGAEHIVTSDKEEILRSDGVILPGVGAFPKAMEVLEERDLVCVLKEVCDIGKPLLGICLGMQLLFERSEELKGCSGLGLLPGEIRKLKVSYKIPHMGWNELRKEREFPLWNGLVDGSFVYYVHSYYADCPDEIVCGVSDYGMQVPGFVAKGNVFGAQFHPEKSGEIGMQILKNFQGVVEAWKSSRLSI				NA	NA	NA	NA	NA
AK009_00140	720	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGGAAATCTTCCCGGCTATCGATTTAAAGGAAGGGCGATGCGTTAGACTTTATCAAGGAGAGTTTAGTAAAGAAACGGTGATGAATGAAGATCCGGTAGCGCAGGCGATCATATTTGAAAAGCTTGGAGCGGAAATACTACACATTGTTGATTTAGACGGTGCAATTGCTGGCGAGTCGCTAAATTTTCTCGTCATTGAAAAAATCTGCAAGGCGGTACGTATTCCTGTGCAAGTGGGAGGAGGAATTCGTTCACTTAAAGCGGTGGAGAAGTTATTGTCAGTAGGTGTAGAAAAAGTGATTTTAGGAACAGCGGCTCTTTATGATAAGTCATTTTTAGAGGAAGCAGTTCATCTATATAAAGAGAAAATCATTGTTGGAATTGATGCGAAAAATGGTTTCGTAGCAACGAGAGGTTGGCTTGATTTGTCTGAAATTTCTTATATTAGTTTAGCGAAACAAATGGAAAGTTTAGGTGTTCAAACGATTGTGTTTACAGACATTTCGAAAGACGGGACGCTTGCAGGGCCAAATTTTGAACAATTGACGTTACTTCAAAAAAGTGTGGGCATTCGTCTCATTGCCTCTGGAGGAGTGGCATCTATTCAAGATGTGAAAAAGTTAGATGATATGAATATATATGGTGTCATAATTGGAAAGGCGCTTTACGAGAAAAAGATTGATTTAGAAGAAGTATTACAGGTAACGAAGTTATGTTAG	MEIFPAIDLKEGRCVRLYQGEFSKETVMNEDPVAQAIIFEKLGAEILHIVDLDGAIAGESLNFLVIEKICKAVRIPVQVGGGIRSLKAVEKLLSVGVEKVILGTAALYDKSFLEEAVHLYKEKIIVGIDAKNGFVATRGWLDLSEISYISLAKQMESLGVQTIVFTDISKDGTLAGPNFEQLTLLQKSVGIRLIASGGVASIQDVKKLDDMNIYGVIIGKALYEKKIDLEEVLQVTKLC				NA	NA	NA	NA	NA
AK009_00141	759	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGTTAGCGAAACGAATTATTCCATGTCTAGATGTGAAAGAAGGGCGAGTCGTAAAGGGTGTAAATTTTATAGGATTACAAGATGTCGGTGATCCGGTTGAAATAGCTGAAGCATATAACGAGGCAGGGGCAGATGAAATCGTATTTTTAGATATTACGGCGACCCATGAAGGAAGAAAAACGATTATAGATGTTGTAGAAAAAACAGCAGCAAAAGTATTTATTCCTCTTACGGTTGGCGGGGGGATTTCAAGTGTGAAAGATATGTACAATTTACTAAGAGCTGGAGCAGACAAAGTTTCAATAAACTCAGCGGCAGTGCGAAACCCGAAGCTAATCGAAGAAGGGGCAGAACACTTTGGATCACAATGTATTGTCGTCGCAATTGACGCTAGAAAAGTAGCGGAAGATAAATGGAACGTATACGTCAAGGGTGGAAGAGTTGACACAGAAATGGATGCTATAGAATGGGCGAAGCGTGTTGTTAAGCTCGGGGCGGGTGAAATTTTGTTAACGAGTATGGATGCAGATGGAACGAAAAGTGGATATGATCTTCGTTTAACAGAAGAGATTTCAAAAAGTGTTTCCATTCCAGTCATCGCATCAGGGGGCTGTGGTCATACGGATCACATTATAGAAGTTTTTCAAAAGACAACGGTTGATGCAGCGTTAGCGGCATCCATATTTCATTATGGTGAGGCGACAGTGCAGAGTGTAAAGCGAAAATTAAGAGATGCAAATGTTGAGGTGCGGTTATGA	MLAKRIIPCLDVKEGRVVKGVNFIGLQDVGDPVEIAEAYNEAGADEIVFLDITATHEGRKTIIDVVEKTAAKVFIPLTVGGGISSVKDMYNLLRAGADKVSINSAAVRNPKLIEEGAEHFGSQCIVVAIDARKVAEDKWNVYVKGGRVDTEMDAIEWAKRVVKLGAGEILLTSMDADGTKSGYDLRLTEEISKSVSIPVIASGGCGHTDHIIEVFQKTTVDAALAASIFHYGEATVQSVKRKLRDANVEVRL	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
AK009_00142	306	hisI_1	COG0139	Phosphoribosyl-AMP cyclohydrolase	ATGAAACCTAATTTTTCAAAAGGATTAATACCAGCAATTGTCATCGAAGAAGGTACGAAAGAAGTTTTAATGCTAGCTTATATGAATGAAGACGCATATGAAAAAACGTTAGAGACGAAAAGAACATGGTTTTATTCTCGTTCGAGGCAGTCGTTATGGAATAAGGGAGAAACATCAGGGAATGTTCAATATGTGCAATCTCTATACTTAGATTGTGATCAAGATTCAATTGTTGTGAATGTGAAACAAGTAGGGCCTGCTTGTCATACGGGGGAGAAGACATGCTTTCACTATCAAATTATATAG	MKPNFSKGLIPAIVIEEGTKEVLMLAYMNEDAYEKTLETKRTWFYSRSRQSLWNKGETSGNVQYVQSLYLDCDQDSIVVNVKQVGPACHTGEKTCFHYQII	PGPT0007990_4416	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
AK009_00143	324	hisE	COG0140	Phosphoribosyl-ATP pyrophosphatase	ATGGAAAATGCCTTTAAGTTGCTGTATAAAACAATTGAAGAACGAAAGGAAAGCCCACTTCCTGAATCGTATACAAATTATTTATTTTCAAAAGGAGAAGATAAAATTTTAAAGAAAATTGGTGAAGAGTGCGCTGAAGTAATTATCGCATGTAAAAATAATGATAAAGAAGAAGTAGTGAAAGAAATGGTTGATGTATTTTATCACTGTTTCGTTTTATTGGCTGAAAAAAATATTGCATTGGAAGATGTCATGCGAGAGGTGAAAGAACGAAATGGAAAGCTTTCGAGAGTTGGGGATAGAAGGGAAATAGATACATTATAA	MENAFKLLYKTIEERKESPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEMVDVFYHCFVLLAEKNIALEDVMREVKERNGKLSRVGDRREIDTL				NA	NA	NA	NA	NA
AK009_00144	1017			hypothetical protein	ATGAAAGTAGATTATCATCTTCACTTAGAAGAAGGACCGTATTCAATAAGATGGCTTGCTAAAATAAATGAAGCGTTGGAATGTTATGAACCGCTTCAAGAAAGGCATTCTATTGATTGGCTTATGAAAACACAAGAGCGTTTGCAAAAGCGTGTGAAGGAAGGGCCATTTACAAAAGAATGGATGGATCTCTATTTAGAAGAAGCTGTGCGAAAAGGAATAAAAGAAGTGGGAATTGTTGATCATCTATATCGTTTTCATGAAGCGAAAGGATATTATGAAAAATATGTAGATATTAGTGATTCTAAGCTTGGTCGTATACAGAAGGAATGGTTAGATCAAGTAAGGGTAGTTTCACTGTATGATTTTACAAAGGCAATTGAAGAAGCGAAAGAACGATGGAGTAAAAGAGGTGTCACACTTAAACTTGGAATTGAAGCGGATTATTTTCTTGATTGTGAAGGAGAGTTAAAAGAATTATTAGCGCTAGGAGACTTTGATTATGTAATTGGTTCCGTTCATTTTCTAAATGGCTGGGGATTTGATAATCCGGATACGAAAGAATATTTTGAGGTGCATGACCTACGCACATTATACGATACGTTTTTTAAAACAGTTGAGAGTGCGATTCATACAGAGTTATTTGATATTATCGCTCATCTTGATAATATAAAAGTATTTAATTATCGATTGGATGAGAATGAACAGCTTTCTTATTATAAGGAAATTGCCTGTGCGTTAGTAGAAACGAATACGGCAACAGAAATAAATGCAGGACTGTACTATCGTTACCCTGTTCGTGAGATGTGCCCAAGTCCACTATATTTACAAGTATTAGCTAAGTATGGTGTTCCAATTACGATTTCTTCGGATGCCCATTATCCAAATGATTTAGGGAATTATGTACAAGAAAATGTACAAACATTACGAGCTCACGGTGTTACTCAGGTCGCAACATTTACGAAGCGAGCAAGAGTAATGAGGTTGCTTGAAGAAGAAGTAACAAATTTAAAATGA	MKVDYHLHLEEGPYSIRWLAKINEALECYEPLQERHSIDWLMKTQERLQKRVKEGPFTKEWMDLYLEEAVRKGIKEVGIVDHLYRFHEAKGYYEKYVDISDSKLGRIQKEWLDQVRVVSLYDFTKAIEEAKERWSKRGVTLKLGIEADYFLDCEGELKELLALGDFDYVIGSVHFLNGWGFDNPDTKEYFEVHDLRTLYDTFFKTVESAIHTELFDIIAHLDNIKVFNYRLDENEQLSYYKEIACALVETNTATEINAGLYYRYPVREMCPSPLYLQVLAKYGVPITISSDAHYPNDLGNYVQENVQTLRAHGVTQVATFTKRARVMRLLEEEVTNLK				NA	NA	NA	NA	NA
AK009_00145	168			hypothetical protein	ATGGCGAAACAACAAAATAAACAAAATGTACAAGTTGCACAGCAACAAGCTTATACGTCTGAAACGAATGCTGCATCTCAATCGGTTATTGAGGAGCAAATTAGCGATACGGTTGCAGAAGGAACTATTGATGTGAAGCTCGGAAAAGAATCGCAGGAAAAAGCGTAA	MAKQQNKQNVQVAQQQAYTSETNAASQSVIEEQISDTVAEGTIDVKLGKESQEKA				NA	NA	NA	NA	NA
AK009_00146	972			Putative 2-hydroxyacid dehydrogenase	GTGGCAAAAATATTAGTAGCGGGAAAAATTCCAGAAATTGGATTAGAACTATTAAAAGATCATGATGTAGAAATGTACGATAAAGAGGAGTTAATTTCTATAGATGAATTAACAGAGCGTGTAAAAGATAAAGATGCATTGTTAAGTTTACTTTCAACAAAGGTGCCAAAAGAAGTTATTGATGCAGCGCCTCATTTAAAGATTGTTGCAAACTATGGTGCTGGTTACGACAATATTGATTACACGTATGCTGGGGAAAAAGGAATTGCAGTAACGAATACACCGAAAGTATCAACGGAAGCGACTGCAGAATTAACATTTGCACTTCTTTTAGCAGCGGCGCGTAGAATTCCTGAAGGGGATACGTTATGTCGTACGACTGGATTTAACGGATGGGCACCGTTATTTTTCTTAGGACGAGAAGTCCACGGTAAGACAATTGGAATTATTGGTCTTGGAGAAATCGGGAAGGCTGTTGCAAAACGTGCGAGAGCATTTGGAATGGGTGTTTTATATACAGGGCCAAATCGTAAGCTTGAAGCTGAAAGTGAACTGGGAGCAACGTATGTGACGTTGGAAGAATTATTACAAACAGCAGATTTTATTACAATTAACTGTGCTTATAATCCAAAATTACATCATATGATTGATGAAGAGCAGTTTAAAATGATGAAGAAAACAGCGTATATTGTAAATGCTTCACGTGGACCAATTATGAATGAAGCGGCACTTGCTCATGCATTAAAAACGAATGAAATTGAAGGGGCAGCTCTTGATGTGTTTGAATTTGAACCGAAAATTTCAGAAGAGCTAAAAGAATTAAAGAATGTAGTGCTTGCTCCACACGTAGGGAATGCAACGTTTGAAACTCGTGATGCGATGGCTGAAATGGCTGTCAGAAATATTTTAGCTGTATTAAACGGCGAAGAGCCAGTAACACCTGTAAATCAAAAGGTATTAGTCACAAAATAA	MAKILVAGKIPEIGLELLKDHDVEMYDKEELISIDELTERVKDKDALLSLLSTKVPKEVIDAAPHLKIVANYGAGYDNIDYTYAGEKGIAVTNTPKVSTEATAELTFALLLAAARRIPEGDTLCRTTGFNGWAPLFFLGREVHGKTIGIIGLGEIGKAVAKRARAFGMGVLYTGPNRKLEAESELGATYVTLEELLQTADFITINCAYNPKLHHMIDEEQFKMMKKTAYIVNASRGPIMNEAALAHALKTNEIEGAALDVFEFEPKISEELKELKNVVLAPHVGNATFETRDAMAEMAVRNILAVLNGEEPVTPVNQKVLVTK	PGPT0019780_1259	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
AK009_00147	702			hypothetical protein	TTGTATAGAGCAGCTATTCCAAACTTATTTACGCTCGGAAATTTATATAGCGGATTTTTATCAATCGGCTATGCATCTTTAGGATATTATAAATCAGCTGCTATTTTAGTACTTATCGGGATGATGTTAGATAGTCTTGATGGTCGTGTTGCTCGTTTATTACGTGTTGATTCACAAATGGGAAAAGAGCTCGACTCGCTTGCAGATGTCGTAACATTTGGTGCAGCACCTGCTGTTTTAATGTATTACACATCTTTCTCAAACTACGGAATCATCGGATTATACATAGCGGGATTATTCCCTCTTTTCGGGGCATATCGTTTAGCACGATTTAATGTAACACCATCTTCTACTTCAATGAAATATTTCACTGGAGTACCGATTACAGCAGCGGGAGGGCTTGTTGCTTTCTTAACATTATTTTCACATACCATTCCAAAAATCGTTCTTATTACCGTATTTGTAACGTTCGCATTTTTAATGGTGAGCCGCATTCGTATCCCAAGTTTAAAAGATGTACCAATTCCACGATATAGCATCATTATTACACTATTTTTAGTTGGAATCATTATTACAATGTATCAAACAGGATTTGGCAATTTTTCTGTTTTCTTATTCATTGCCATTCCACTATATATTTTGTACATGTTATCTCAATTCATTAGACAAAGACCGTCTAAAAAAGCGAATAAAGAAAAATAA	MYRAAIPNLFTLGNLYSGFLSIGYASLGYYKSAAILVLIGMMLDSLDGRVARLLRVDSQMGKELDSLADVVTFGAAPAVLMYYTSFSNYGIIGLYIAGLFPLFGAYRLARFNVTPSSTSMKYFTGVPITAAGGLVAFLTLFSHTIPKIVLITVFVTFAFLMVSRIRIPSLKDVPIPRYSIIITLFLVGIIITMYQTGFGNFSVFLFIAIPLYILYMLSQFIRQRPSKKANKEK	PGPT0007695_2555	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
AK009_00148	1887	ltaS1_1	COG1368	Lipoteichoic acid synthase 1	ATGCTACAACATCTGTTTCCAAAACTGCGATTTGCACTCGTTGCAGTCGTTTTACTATGGATTAAAACATATATTGTGTACAAGCTAGCATTTGATATTAAAATTGATAATTTCTTTGAAGAATTCATGCTTTTTATTAATCCACTAGCTGCGTTACTTTTATTTTTCGGCTTAGCTTTACTTGCATCTAAGCACCGAAACCGAATTATAATTGGAATCAGTTTTATACTGTCATTTATTTTATTTGGAAACGCAATGTTTTATGGGTTCTATAACGATTTCGTTACTTTCCCGGTTTTATTCCAAACAAACAATATGGCTGATTTAGGGACAAGTATAAAAGAACTCTTTACGTACAAAACATTACTTTTATTTGCAGATGCAATTATTTTAATGTTTATTTCGCGTAAATTCCCATCATTTGGCGACAAAACACCACTTTCCCGCTCAGAGAAGCGAACTTTCTTTAGCGGTGTAACAGCTTTATTAGCACTACAAATTGTTGTATCAGTTATTTATAAACCACAAATGTTCTCACGCTCATTTGACCGTCAAACTGTTGTGAAAAATTTAGGTTTATACACATATCATCTATTTGATATTACACTTCAATCCAAGTCTTCAGCTGAGCGTGTATTTGCAAGTGGCGATGGATTTTCTGAAATTAAGAACTATACAGACTCAAAAGACAAGCAAGTTGATAAAAACTTATTTGGAGCTGCAAAAGGTAAAAATGTAATTTTAATTTCAATGGAATCTACACAAAGCTTTGTTATTAATAAAAAAATAAATGGAAAAGAAATTACACCATTTTTAAATGAATTTATTAAGGATAGCTTCTATTTCGATAACTTCTATCATCAAACTGGACAAGGTAAAACTTCTGATGCTGAATTTATCGTTGAAAACTCACTTTACCCACTAGATCGTGGTTCTGTATTCTTTACTCATGCAACAAATGAATACACAGCTACACCAGAACAATTAAAGAAATACGGATATTCTTCTGCCGTCTTCCATTCAAACGATAAAACGTTTTGGAATCGGGATGTAATGTATCCTACACTTGGATATGATCGTTACTTTAATTTAAATGATTACGTAGGAACGGAACAAATGTCTGTCGGTTGGGGATTAAAAGATAAAGAGTTCTTTGAACAATCTATTCCAAAGTTAAAATCTTTACCGCAACCGTTCTATACAAAATTTATTACATTAACAAATCATTTTCCGTTTCTTCTAAATCCGGAAGACCAATATGTTGATGAATTCAACTCAGAAAGTGGTGTTGTAAACCGCTACTTCCCAACTGTTCGTTACACAGATGAAGCTCTTAAATTATTTATTAAACAATTAAAAGAAGAAGGACTGTATGATAATTCCGTTATTGTCATTTATGGTGATCATTATGGTATTTCCGAAAACCATAACGCAGCTATGGCACAGTTCCTAGGAAAAGATACTATTACACCATTCGATTCTATGCAATTACAACGCGTTCCTCTTATTATTCATGTGCCTGGTCAAGAAGGAAAAGTTGTTTCTAAAGTATCTGGTCAAATTGATATTAAACCAACGCTCCTTCATTTACTTGGTATTAAAACAAATAAATCCGTTGAATTTGGAACTGACTTATTTATTAAAGAAAAAGACCCGCTTATGGTAATGCGTGATGGTAGCTTTGTTTCTGAAGAGTATGTTTATACAAAAAATATGTGCTACAAAAGAAGTACGGGTGAAGAAGCTGACATGACGCTATGTCAGCCGTATGTTGAAAAAGCAAAAACAGAATTAAAACTCTCCGATAAATTAATTTATGGAGATTTATTACGTTTCGATCCTAATAATCGATATAAAACCGGAACGATGACAACGAAATTTGAATAG	MLQHLFPKLRFALVAVVLLWIKTYIVYKLAFDIKIDNFFEEFMLFINPLAALLLFFGLALLASKHRNRIIIGISFILSFILFGNAMFYGFYNDFVTFPVLFQTNNMADLGTSIKELFTYKTLLLFADAIILMFISRKFPSFGDKTPLSRSEKRTFFSGVTALLALQIVVSVIYKPQMFSRSFDRQTVVKNLGLYTYHLFDITLQSKSSAERVFASGDGFSEIKNYTDSKDKQVDKNLFGAAKGKNVILISMESTQSFVINKKINGKEITPFLNEFIKDSFYFDNFYHQTGQGKTSDAEFIVENSLYPLDRGSVFFTHATNEYTATPEQLKKYGYSSAVFHSNDKTFWNRDVMYPTLGYDRYFNLNDYVGTEQMSVGWGLKDKEFFEQSIPKLKSLPQPFYTKFITLTNHFPFLLNPEDQYVDEFNSESGVVNRYFPTVRYTDEALKLFIKQLKEEGLYDNSVIVIYGDHYGISENHNAAMAQFLGKDTITPFDSMQLQRVPLIIHVPGQEGKVVSKVSGQIDIKPTLLHLLGIKTNKSVEFGTDLFIKEKDPLMVMRDGSFVSEEYVYTKNMCYKRSTGEEADMTLCQPYVEKAKTELKLSDKLIYGDLLRFDPNNRYKTGTMTTKFE	PGPT0023375_1072	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
AK009_00149	396			hypothetical protein	ATGCGAAAATTATTATATTTTATAGCATGCAGTAGTGTTATACTTTTTACTTCACCGAGTGTGTCGGTAGCTCAATATGATGCACCTCTTATGGAAGATGCACTTTATTCTGTTTTATTTCCAAAAATAAATAAAGCAATTGAAAAACAATATGGAAGTTTGAAACCTTATCAATGTCCTAAAATTATTAGTTTAAAAAAAGTGTATAGCGGTACATATTTATTTCAAGCAAGTATTGAAGTGACAAAGTATGAACGTGTTGCTGGGAAAATTGCTCCACCATTTGAGAAGGTAACGATTACATTTAATAACGAAGAAGGCGAATGGGAAGTGACAAAGATTTCAGTAAAGCGCTTACCAAACGATACAAAATTAAACTGTAAAAAAACAATATAA	MRKLLYFIACSSVILFTSPSVSVAQYDAPLMEDALYSVLFPKINKAIEKQYGSLKPYQCPKIISLKKVYSGTYLFQASIEVTKYERVAGKIAPPFEKVTITFNNEEGEWEVTKISVKRLPNDTKLNCKKTI				NA	NA	NA	NA	NA
AK009_00151	1317	lysA	COG0019	Diaminopimelate decarboxylase	ATGTATTTACACGGCACAAGCCGAATTAATGGGCAAGGACACTTAGAAATTGGAGGGTGCGATACGACGCAGCTAGCAAAGCAATACGGAACACCACTTTATGTATACGATGAAGAGTCTATTCGAGGAAAATGCCGAGCGTTTCATCGTGCTTTTAAAGAAAGTGGTTTCTCTTATCAAGTAGCATATGCAAGCAAGGCGTTCTTGTGCATGGAGATGTGCCGAGTAGCTCGTGAAGAGAATATGTCATTAGACGTTGTTTCTGGGGGAGAATTATATACTGCGCTCCAAGCTGGATTTCCAGCATCACGTATTCATTTTCATGGAAATAATAAAACAGAAGAAGAGATAGTGATGGCTCTTCAGGCGAATATTGGTTGTTTTGTCGTAGATAATTTCTTTGAATTAGAAATTTTACACGATTTAGCGATGCAACATGGAAAATTTGTGAACATATTAATTCGTGTAACACCTGGAGTAGAGGCGCACACACATGAATATATTACAACAGGCCAAGATGATTCGAAATTTGGATTTGGCGTTTCAAACGGTCAAGCGATGCAGGCAATTGGATTTGCTTTACAAAAATCAAATTATAATGTGCTAGGGATTCATTCACATATCGGATCGCAAATATTTGAAACAGCTGGTTTTGTTCGAGCAATTGAAGTTCTTCGCCAATTTTTAGAAGAAGTGAGAGAGCAAACAAACTATGTAGTAAAAGTGTTAAATGTAGGCGGGGGATTTGGAATACGCTACACAGAGTCGGATACACCATTAACTCTTGAGACATATGTGCGAGCTGTAACAAGTGCAGTGAGAGAACAATTTACTGTATGTGAATATCCATTGCCAGAAATATGGATTGAACCAGGCCGTAGCATTGTAGGTGATGCTGGGACAACAATTTATACAGTTGGATCTGTGAAAGATATTCCTGGTATTCGGAAATATGTATCAGTCGATGGTGGAATGACAGATAATTTAAGACCTGCTTTATATAGTGCGCGTTATGAAGCAATGTTAGCGAATCGAGGGAATGATGAGAATGAGGAACTCGTTTCGATTGCTGGGAAATGCTGTGAGAGTGGAGATATGTTGATTTGGGATATTCATTTACCAAAAGTCGCTTCTGCTGATTTACTAGCAGTTTCCTGTACAGGAGCCTACGGGTATTCGATGGCGAATAATTACAATCGGATTCGAAGACCAGCCGTGGTCTTTGCAAAAGGCGGAACATCGCAAGTAGTTGTGGAACGCGAAACATATGAAAATATTATTGGGAACGATCGCATACGTATTAAAGAGCTTGTCTAA	MYLHGTSRINGQGHLEIGGCDTTQLAKQYGTPLYVYDEESIRGKCRAFHRAFKESGFSYQVAYASKAFLCMEMCRVAREENMSLDVVSGGELYTALQAGFPASRIHFHGNNKTEEEIVMALQANIGCFVVDNFFELEILHDLAMQHGKFVNILIRVTPGVEAHTHEYITTGQDDSKFGFGVSNGQAMQAIGFALQKSNYNVLGIHSHIGSQIFETAGFVRAIEVLRQFLEEVREQTNYVVKVLNVGGGFGIRYTESDTPLTLETYVRAVTSAVREQFTVCEYPLPEIWIEPGRSIVGDAGTTIYTVGSVKDIPGIRKYVSVDGGMTDNLRPALYSARYEAMLANRGNDENEELVSIAGKCCESGDMLIWDIHLPKVASADLLAVSCTGAYGYSMANNYNRIRRPAVVFAKGGTSQVVVERETYENIIGNDRIRIKELV				NA	NA	NA	NA	NA
AK009_00153	144			hypothetical protein	GTGAGTGTACGGGAACATTTTGATGAAGTATCCGAGAAGATTGAAGCGATGCTTGCTGATATGAAATATGGTTCAATTACAATTGTTGTGCAAGATGGAAAAGTAATTCAGTTAGAGAAAAGTGAAAAAGTACGTTTAAAGTGA	MSVREHFDEVSEKIEAMLADMKYGSITIVVQDGKVIQLEKSEKVRLK				NA	NA	NA	NA	NA
AK009_00154	705	cysH	COG0175	Phosphoadenosine phosphosulfate reductase	ATGTTGACGTATGAAACGTGGGAAGAAAATGTTGTTTCATTTTCGGAAGAAGATGAAACAAAAGGCGCGTTATCAGTATTAAATTGGGCTTATGAAGAGTATAAAGATGAAATCGTCTATGCATGTAGCTTTGGGGTGGAAGGTATGGTATTGCTGCACCTTATAAACCAAGTAAATCCATCTGCTAAAGTTGTATTTTTAGATACAAATGTTCATTTTCAAGAAACGTATGAATTAATTCAAAGAGTGAGGGAACGATTTCCTTCATTGAATATTATAGAAAAACAGCCAGAACTTACACTTGATGAACAGGCGAAGTTGCATGGTGAAAAACTGTGGGAGAGCAATCCGAATCTTTGTTGTAAGATTAGAAAAATTTTACCTTTAGAAAAATCATTAGTCGTGGAAAAAGCATGGATATCGGGCTTAAGAAGGGAACAATCAGAAACACGTAAGCATACAAAGTTTATAAATCAAGATCATCGTTTTCAATCTATTAAAGTTTGTCCACTCATTCATTGGACGTGGAAAGAAGTTTGGCGATATGTATACAAACATAGCTTGCCGTATAACCCGTTGCATGATGTTGGCTATCCAAGTATTGGGTGTGAGAAATGTACTTTACCTGTAGGGGATGGTGGCGATTCAAGAGATGGTAGATGGGCTGGGAAAATGAAAACCGAATGTGGTCTTCATTATCAATAA	MLTYETWEENVVSFSEEDETKGALSVLNWAYEEYKDEIVYACSFGVEGMVLLHLINQVNPSAKVVFLDTNVHFQETYELIQRVRERFPSLNIIEKQPELTLDEQAKLHGEKLWESNPNLCCKIRKILPLEKSLVVEKAWISGLRREQSETRKHTKFINQDHRFQSIKVCPLIHWTWKEVWRYVYKHSLPYNPLHDVGYPSIGCEKCTLPVGDGGDSRDGRWAGKMKTECGLHYQ	PGPT0002785_2961	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
AK009_00155	1137	sat	COG2046	Sulfate adenylyltransferase	ATGAGCACAGTAAACGAATTAGTAAACCGTATAGATGAGACATATGAGGTATCACAAATTGAAAAAGAAATTAAATTAGACAATATTGCTTTAAGTGATTTAGAACTATTGGCGACAGGTGGATATAGCCCGCTTACTGGTTTTTTAGGGAAGGAAGATTATGATTCAGTCGTAGAAACGCTTCGTTTAGCAAATGGTAGTGTGTGGAGTATACCGATTACATTACCGGTAACAGAAGAAGTCGCAGAAAGCCTGAAGACTGGAGAGGAAGTAAAGCTTGTCAACAATGGAAATATATATGGTGTTATTCAAATAGAAGATATTTTCGTACCAGATAAAGAAAAAGAAGCGTTACTTGTATATAAAACAACGGATGAGGTTCATCCAGGAGTGAAAAAGTTATATGAACGGCCAAACGTTTACGTTGGAGGAACTATTATTCTAACAAAACGCTTTGAAAATAATCAATTTCCTTCTTATCGTTTAAACCCAATTGAAACGAGAGAAGAATTTAAAAAACGTGGGTGGAAAACAGTAGTCGGATTTCAAACGAGAAACCCGGTACATCGTGCCCATGAGTATATTCAAAAATCTGCTCTTGAAATTGTAGATGGTCTCTTTTTAAATCCACTCGTTGGAGAAACGAAATCGGATGATATTCCTGCTGATGTAAGAATGGAAAGCTATGAAGTACTCCTTCAAAACTATTATCCGAAAAATCGTGTCTTTTTAAGTGTATTTCCTGCTGCAATGCGTTACGCAGGACCAAGGGAAGCTATATTTCATGCGTTAGTAAGAAAGAATTTTGGATGTACACACTTTATTGTAGGGCGTGATCATGCCGGAGTAGGAGATTATTACGGAACATACGAAGCGCAAGAAATCTTCACGAATTTTACGATAGAAGAGTTAGGCATTACACCACTATTCTTTGAACATAGTTTTTACTGCACGAAATGTGAAGCGATGGCTTCAACGAAAACATGTCCGCACAGAAAAGAAGATCATGTTATTTTATCGGGTACGAAAGTAAGAGAATTATTAAGAAACGGTGAGATTCCGCCAAGTACATTTAGTCGTAAAGAAGTAGTAGAAGTGCTAATTAAAGGTTTAAAAAAAGAAGTAGTAACAGAATAG	MSTVNELVNRIDETYEVSQIEKEIKLDNIALSDLELLATGGYSPLTGFLGKEDYDSVVETLRLANGSVWSIPITLPVTEEVAESLKTGEEVKLVNNGNIYGVIQIEDIFVPDKEKEALLVYKTTDEVHPGVKKLYERPNVYVGGTIILTKRFENNQFPSYRLNPIETREEFKKRGWKTVVGFQTRNPVHRAHEYIQKSALEIVDGLFLNPLVGETKSDDIPADVRMESYEVLLQNYYPKNRVFLSVFPAAMRYAGPREAIFHALVRKNFGCTHFIVGRDHAGVGDYYGTYEAQEIFTNFTIEELGITPLFFEHSFYCTKCEAMASTKTCPHRKEDHVILSGTKVRELLRNGEIPPSTFSRKEVVEVLIKGLKKEVVTE	PGPT0002410_1199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958	NA	NA
AK009_00156	612	cysC	COG0529	putative adenylyl-sulfate kinase	ATGGATACGAATATTACTTGGCATATAGCTTCGGTTTCAAAAGATGATAGAAGAGTGAAGAATGGACATCACAGTTTTGTAATTTGGTTTACTGGTTTATCAGCTTCGGGTAAATCTACAGTAGCGAATGCGGTTGCTCGTAAACTATTTGAAAAGAATATTGGAAATTATGTGTTAGATGGGGATAATATTCGCCACGGTTTAAATAAAGACTTAGGTTTTTCTGAAAGTGATCGTATGGAGAATATAAGGCGTATTGGCGAAGTGGCGAAGCTATTTGTAGATCAAGGTACTGTTGTTCTTACAGCGTTCATTTCACCATTTCGAGTAGATCGAAAACAAGTTAGGGATCTATTAGCGGCAGATGAGTTTATAGAAGTGTTTGTAAAATGTCCAATTGAAGAGTGTGAAAAACGTGATCCAAAAGGGTTATACAAAAAAGCGAGACAAGGTGATATTAAAGATTTTACAGGTATTGATTCACCGTATGAGGAACCAGATCGAGCGGAATTAATTGTAGAAACGCACAAGTATTCTATTGAAGAATGTGCAGAACAAATCGTGAAGTACTTACAAGAGCGTAGTTTTGTCCCGTTGTTTGCTGGGAAGTAA	MDTNITWHIASVSKDDRRVKNGHHSFVIWFTGLSASGKSTVANAVARKLFEKNIGNYVLDGDNIRHGLNKDLGFSESDRMENIRRIGEVAKLFVDQGTVVLTAFISPFRVDRKQVRDLLAADEFIEVFVKCPIEECEKRDPKGLYKKARQGDIKDFTGIDSPYEEPDRAELIVETHKYSIEECAEQIVKYLQERSFVPLFAGK	PGPT0002780_1021	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860	NA	NA
AK009_00157	1623	sir	COG0155	Sulfite reductase [ferredoxin]	ATGAGTTATGAAAAAGTATGGGCTAATAATGAAAAATTAAATCAGACTGAGAAAAATAAATTAGCAAAAGATGGTTTGGAAATTTTTAATGATATTCCTTACTATGCGGAAAATGGATTCGAATCTATTCCGAAAGAAGAGTGGGACGCATTTAAATGGGCAGGATTGTATTTGCAAAGACCGAAAGAAGCTGGCTATTTTATGATGCGTGTAAATATTCCTTCAGGGATTATTACAAATGCGCAGGCGGAAGTGCTTGCTTCTATCGCTGAGGATTATGGACGTGATGTAATAGATATTACGACAAGACAGGCGATTCAGTTTCACTGGTTAGAAATTCAGCAAATGCCAGATATTTTTAAAAGATTAGCAAGAGTTGGGTTATCTTCAGCAGGGGCGTGTGGTGATATAACACGTAATATTACAGGTAATCCACTTGCAGGAATTGATGCGAATGAACTGTTTGATACAACGCATATTGTGAAGGAGGTATATGACTATTTCCAACATAATGAAGAGTTTTCTAACTTACCACGTAAATTTAAAATGTCTATTAGTTCTAACGTTTATAACTCGGCAAACGCAGAGATTAACTGTGTTGCATTTACACCTGCTACGAAAGAAATAGATGGTGAGAAAAAAGTTGGTTTTCATATAAAAGTAGGCGGTGGATTATCAGCCCGTCCATATTTAGCTGATGAATTAGATGTGTTCGTTTTACCAGAAGAAGTGAAGGCGGTAGCAATTGGGATTGCTACTATATTCCGTGATTTTGGATATCGCGAGAAACGTCATTTAGCTCGTTTGAAATTTCTTGTTGCAGACTGGGGAGCAGAGAAATTTAAAGAGAAACTAATAGAGTATACAGGACCATTGCAAAGTAAAGGAGAAAGTGCACTTAAAGGATGGAATGCAGGCTATTTTTATGGTGTTCAAGATCAAAAACAAGATGGATTAAAATATGTCGGTTTTAATGTGCCGGTAGGTCGTTTACATGCAAAAGAAATGTTTGAGATTGCAAGAATTGCAAAGCAGTATGGAAATGGACAAATTCGTACGTGTAACTCACAAAACTTCATCATTCCGAATGTTCCACCAGAAAATGTAACGGGTTTATTAAGTGAACCGTTGTTTGAAGCGATATCTGCAAGTCCGAAATCATTTATTGGTCATGCGGTTTCATGTACTGGTATTGAATATTGCAATCTTGCTCTAGTAGAAACGAAAGAAAGATTACGGAAAATTGCAGAATACTTAGATACAGAAATTGCACTTGATGTTCCAGTTCGAATTCATATGGTAGGATGCCCAAATTCATGTGGTCAACGTCAAATTGCTGACATCGGATTACAAGGGGTAAAAATGAAAACGAAGGAAAAAGGGATTGTTGAAGCATTTGAAATATATGTAGGTGGAACGTTGTTAGATGGCGGTGCCTATAATCAAAAGTTAAAAGGGAAAATAGATGGCGAGGATTTACCGGATGTACTCGCATCATTTATAAGTTATTTTAAAGAGAATAAGTTACCTGCCGAAACATTTTATGATTTTGTCGGACGTATCGGTGTAGATACATTGCAAATAGCTTTAAATAACGTGTTAGAAGAAGTAATAGCGTCTTAG	MSYEKVWANNEKLNQTEKNKLAKDGLEIFNDIPYYAENGFESIPKEEWDAFKWAGLYLQRPKEAGYFMMRVNIPSGIITNAQAEVLASIAEDYGRDVIDITTRQAIQFHWLEIQQMPDIFKRLARVGLSSAGACGDITRNITGNPLAGIDANELFDTTHIVKEVYDYFQHNEEFSNLPRKFKMSISSNVYNSANAEINCVAFTPATKEIDGEKKVGFHIKVGGGLSARPYLADELDVFVLPEEVKAVAIGIATIFRDFGYREKRHLARLKFLVADWGAEKFKEKLIEYTGPLQSKGESALKGWNAGYFYGVQDQKQDGLKYVGFNVPVGRLHAKEMFEIARIAKQYGNGQIRTCNSQNFIIPNVPPENVTGLLSEPLFEAISASPKSFIGHAVSCTGIEYCNLALVETKERLRKIAEYLDTEIALDVPVRIHMVGCPNSCGQRQIADIGLQGVKMKTKEKGIVEAFEIYVGGTLLDGGAYNQKLKGKIDGEDLPDVLASFISYFKENKLPAETFYDFVGRIGVDTLQIALNNVLEEVIAS	PGPT0000445_460	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000445-nirA-K00366	NA	NA
AK009_00158	201			hypothetical protein	ATGGAATTATATCGATTTGAAGCTGTGTTAGCGAATAATATCGTTCCGATTGTTGTTGTTGCTCAAAGTGAAGAGCAGGCATTTAAGCTTGCGGAGATTGAGCTTGAAAAGCATTTTTTACCGTTGCCAGAAGTAAAGGAAATCTCCTTATTTGAAAAAAAGAAGATTCGAAAAGGTGCGGCATTTGTTGTTCATGAGTAA	MELYRFEAVLANNIVPIVVVAQSEEQAFKLAEIELEKHFLPLPEVKEISLFEKKKIRKGAAFVVHE				NA	NA	NA	NA	NA
AK009_00159	777	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGGGGAAGGTGTATATAGTTGGAGCGGGTCCTGGCGATCCGGATTTAATTACTGTTAAAGGATTGAAATGTATTGAGAAGGCAGATGTTATTTTATATGACCGTCTCGTGAATAAAGAATTGCTTTCATATGCAAAGCCTGAAGCGGATTTAATTTATTGTGGGAAACTCCCGAATTATCACACAATGAAGCAAGAGACAATTAACACATTTCTTATTAAATATGCGAAAAAAGGAAAAGTTGTAACGAGGTTAAAGGGCGGTGATCCATTTGTATTTGGTAGAGGGGGGGAAGAAGCTGAAGCGTTAGCAAAGCAGGGTGTACCATTTGAAATCGTTCCTGGAATTTCAGCTGGAATAGCTGCACCTGCTTATGCTGGTATTCCGGTGACGCATCGTGATGCAAGTGCGAGTTTTGCGGTTGTGACAGGGCATAGAAAAGAAGGTGCTGAAGAGGAAGTGAAGTGGGAAAATTTAGCGAAAGGTGTAGAGACCTTGGCAGTATATATGGGAGTTAGTAATTTGCCCTACATATGCGAACAACTTATGAAGCATGGAAAAGATAAAGGTACACCTGCTGCTATTATTGAACGGGGAACGACGTCTATGCAGCGTACAGTTGTCGGGACGTTAGGGACAATTGTAGATGTTGCGAGAAAAGAACAAATTCAAAATCCGAGTATGATTGTAATTGGAGAAGTTGTCCGTTTTAGAGAGAAAATTCATTGGTTTGAAAAACAAACGGAACAGACTTATCAAGTAAGTGGAGTGTTATAA	MGKVYIVGAGPGDPDLITVKGLKCIEKADVILYDRLVNKELLSYAKPEADLIYCGKLPNYHTMKQETINTFLIKYAKKGKVVTRLKGGDPFVFGRGGEEAEALAKQGVPFEIVPGISAGIAAPAYAGIPVTHRDASASFAVVTGHRKEGAEEEVKWENLAKGVETLAVYMGVSNLPYICEQLMKHGKDKGTPAAIIERGTTSMQRTVVGTLGTIVDVARKEQIQNPSMIVIGEVVRFREKIHWFEKQTEQTYQVSGVL	PGPT0003685_1830	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
AK009_00160	753	sirB_1	COG2138	Sirohydrochlorin ferrochelatase	ATGAAAGCCATCTTATATATATGTCATGGAAGTCGTTTGAGGGCAGCGAAAGAAGAGGCAATTCAATTTATTACGACATGTATGAGCCGTATAGAAGCGGCTATTCAAGAAGTTTGTTTTTTAGAGCTGGCGAATCCTTCTATTGAAGAAGGATTTCGTACATGTGCGAAGCGTGGTGCGACAGAGATTATTGCTATTCCTGTTTTCTTATTAGCAGCAGGCCATGTGAAGAATGATATTCCTTTTGAATTAGAAAAGTTAAATAATCAATACCCTAATATTAAAGTGACGTATGGTAATCCGTTTGGTGTATCAGAGACGCTTATAAAGTCGGTATATAACGGAAGTGGTATTGAAGAATATAAAGATGAAGTAACACTTTTACTCGTTGCAAGGGGTAGTAGCGATCCTGAAACTTTACAAGATATAAATCGGATCGCTACTTTATTTCAAGCAGAAGAAAAAATTGCTAAAGTAGAAGTTTGTTTTTTAGCAGCTGCGGAGCCGAAATTTGAGGAGAAATTAAAGGAAGTTGTAGAACGAAAAGAAAAGAACATCGTTGTACTGCCTTACTTGTTATTTACAGGTTTACTTATGAAACATATTGAGAAAGAAGTGCGCCAATATGAATTGGAAGAGATAAAAATCAGTCCATATTTAGGGAAGAATGAAGCGTTTCAAGATATGTTAATTCAGAAAACGACGGAGTTATTGAAGGGAGATCAGTATGTATCCACTTACAGTGCGAGTTAA	MKAILYICHGSRLRAAKEEAIQFITTCMSRIEAAIQEVCFLELANPSIEEGFRTCAKRGATEIIAIPVFLLAAGHVKNDIPFELEKLNNQYPNIKVTYGNPFGVSETLIKSVYNGSGIEEYKDEVTLLLVARGSSDPETLQDINRIATLFQAEEKIAKVEVCFLAAAEPKFEEKLKEVVERKEKNIVVLPYLLFTGLLMKHIEKEVRQYELEEIKISPYLGKNEAFQDMLIQKTTELLKGDQYVSTYSAS	PGPT0008500_114	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008500-sirB-K03794	NA	NA
AK009_00161	615	sirC_1	COG1648	Precorrin-2 dehydrogenase	ATGTATCCACTTACAGTGCGAGTTAATGAGAAACGTGTTGTTGTTATTGGTGGGGGAAAAGTTGCAGGATTTAAAATTATTCCTTTACTCAAACAAGGTGCAGATATAGTTGTAATCAGTCCAGAATTAGATGCGAATTTAGTAAAACTTGTGGAAGAAAAGAAAATTCGTTGGTATCAAAGAGAATATGAAAAAAGTGATATTAAAAGTGCTTTTTTAGTTGTTGCAGCGAGTAGTGATTCAATATTAAATGAACAAGTTGCTGAAGATGCCGCGGAGAATCAATTAGTAAATGTTATTACAAATCCGGAAAGTGGTAATGTTCATTTTCCGGCAGCGATTCATCGTGGTTTGCTTAATATAGCAGTTTCTACTGGGGGAGCGAGCCCGAAGCTCGCAAAAAAAATTCGAGATGAGATTGCAAATAAATATGATGAGACATATGAATCGTATTTAGATTTTTTATATGAAGTAAGGGTGAAGTTAAAAGATTTACAGTTAGAAAAGAGGGAACGAAATATATTGCTCCAGGAAGTGTTGAAATCAGTATATATGCAAAACGAGGGGAAAAGAGAAAGTTTTTTGCGAGAATTAGAGGAAAAGGTTTTAAAATAA	MYPLTVRVNEKRVVVIGGGKVAGFKIIPLLKQGADIVVISPELDANLVKLVEEKKIRWYQREYEKSDIKSAFLVVAASSDSILNEQVAEDAAENQLVNVITNPESGNVHFPAAIHRGLLNIAVSTGGASPKLAKKIRDEIANKYDETYESYLDFLYEVRVKLKDLQLEKRERNILLQEVLKSVYMQNEGKRESFLRELEEKVLK				NA	NA	NA	NA	NA
AK009_00163	1359			hypothetical protein	ATGATGAAAGAAACACAGCAATGGACGTCGAAAATAGGCTTTGTACTCGCAGCAGCCGGAGCCGCAGTAGGTCTTGGTGCGATATGGAAATTTCCATATGTTGCAGGTAATGGCGGGGGAGGAGCATTCTTCCTTGTATTTTTACTATTAACTTTATTTATAGGTATGCCTCTTCTAATAGCGGAGTTTGTTATTGGACGTAGCACGCAAAAAGAGGCGGTTACAGCTTATAAAGTATTAGTGCCAAATAGCAAATTATATCCTTGGATTGGTCGTATGGGAGTTGTTACTTGTTTTAGTGTACTATCTTTTTATAGTGTTGTAGGTGGATGGATTTTACTTTATTTATATTATAGTGTGACAGGCAGTTTCTGGAATGGAGTAGCTGATTATGGACAATTGTTTGGTGAAACGATTTCAAATCCGTTAAGTGCGATTGGAGCACAATTTATCTTTATGCTTTGTACAATTTTTGTCGTAAGTAAAGGTGTAGAGAAAGGTATAGAAAAGGCAAGTAAGTACATGATGCCGCTATTATTTATTTTATTTATAGCGATTATTGTTCGTGCGTTAACACTCGATGGTGCTTTTGCTGGAGTAGAGTTCTTCTTAAAGCCAGATTTTTCAAAGCTTACAGCAGATACGATTTTATATGCGATGGGACAATCTTTCTTCTCGCTAACTGTAGGTGCCTCGGTAATGGTAACGTATAGTTCGTATTTAAAGAAAGAAGAACATTTAGCGAAATCAGCAACATCTATTGTAAGTTTAACTGTTTTTGTTACAGTACTTGCAGGATTAGCAATTTTCCCAGCGATTTTCGCATTAGGAGTTAAACCGACTGAAGGACCGGGATTACTGTTTATCGTCCTTCCAGCAGTATTTGCAAAAATACCATTTGGTCAATTTTTCTTTATTATGTTTTTAATTTTATTCTTCTTTGCGACTTTAACATCAGCAATTTCAATGCTTGAAATTGTAGTAGCATCTGTTGCGAAAGGTAATGAGAAGAAGCGTCCGTCAGCATCATTATTAATTGGTATTCTTATTTTTGCAGTCGGTATTCCATCAGCGTTATCATTTGGAATAATGAGTGACGTGAAAATATTCGGGAAAACATTTTTTGATTTAGTCGACTTTTCAGTAAGTAACGTATTGCTGCCGTTAGGAGTACTAGCTATTTCATTATTTGTACCAAATAAAATGAGTAAAGAATTGTTGATGAAAGAATTAGAAGTGACGGAAACGAAAGGGAAAACGTTATTTAACATTTGGTTCTTCTTACTTCGTTATGTCATTCCGGTAACTGTAATAATTGTATTTTTAAATGCGATAGGTATATTTAAAATGTTTGCATAA	MMKETQQWTSKIGFVLAAAGAAVGLGAIWKFPYVAGNGGGGAFFLVFLLLTLFIGMPLLIAEFVIGRSTQKEAVTAYKVLVPNSKLYPWIGRMGVVTCFSVLSFYSVVGGWILLYLYYSVTGSFWNGVADYGQLFGETISNPLSAIGAQFIFMLCTIFVVSKGVEKGIEKASKYMMPLLFILFIAIIVRALTLDGAFAGVEFFLKPDFSKLTADTILYAMGQSFFSLTVGASVMVTYSSYLKKEEHLAKSATSIVSLTVFVTVLAGLAIFPAIFALGVKPTEGPGLLFIVLPAVFAKIPFGQFFFIMFLILFFFATLTSAISMLEIVVASVAKGNEKKRPSASLLIGILIFAVGIPSALSFGIMSDVKIFGKTFFDLVDFSVSNVLLPLGVLAISLFVPNKMSKELLMKELEVTETKGKTLFNIWFFLLRYVIPVTVIIVFLNAIGIFKMFA	PGPT0013950_1875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK009_00164	159			hypothetical protein	ATGAATACGCAATTACAACAAAAAATAGAAGAAGCTAGAACGACATATATCGGCCGGATATTTACATTTGGCGGCTCAGTTTTATTTTTAATCGGTTCATTCCTCGCAGTCACCACAGCCTATAAAGCGTATAATCGGCTATTACATTCATCAACATAA	MNTQLQQKIEEARTTYIGRIFTFGGSVLFLIGSFLAVTTAYKAYNRLLHSST				NA	NA	NA	NA	NA
AK009_00165	1275			hypothetical protein	ATGAAAAAGAAATTTGCAGCGTTTAGTGTTTTAGCAGCAGGAACGATTTTTGCTTCCCCGTTACTTTCACCCGTATACGCTGAAACGAATCAAGATAAATTAACTAACATTCAATCTGAATTAGAAGGCAAACAAAGTGACTTACAAAATAAATCAGTCGAGAAAGAACAAATAGAAAAAGAAATTCAAGAATTACAGAAGAAAATCGATGAATTAACTACTTCTATTAATAAAAACGAGGCTGAATTAAACGATACAAAAAAAGAAATTAGCAAAACACAACAAGTAATTACTGACAAAAAGAAACATATAGAACAATTACAAACAAACATAGATACACGTCAGGAAGTTATTAAACAACGATTACAATCTATGCAAGAAAAACCGCGTACAAATATCATTACAGAAGTATTAACAAACTCTACAAACATTGCTGATCTTGTTGATAATATGTACTCCGTAAGTTTAATATTAAACAACGATACAGATATTGTAAAAAAACAAACATCTGATCAAAATGCTGTAACTACAGAAAAAGAAGCTGTTGAGAAAAAAGAACAACACCTGAAAGAATCTGAGCAAAAACTAGAACAAAAACAGCAAGAATTACAAAATAACCAACAACAGCAACAAACTCTTATTAACGATCTACATACGAAAGTAGCAAAAGTAGATTCAGAGATTGAAGGATTAGAAGAATCCAAAGGTATTTTAGAAAATCAACGTCAAGCTGTTCAAAAAGCAATTGAAGAAGAAAAACGTGCCGAAGAAGCTCGTAAAGTGGAAGAAGCTCGCCAGGCAGAAGAGGCTCGCAAACAACAAGCTACTAAATCTGCTCAAGCAACTCAAGCAGCTCCAACACCACATGATACAAATATCGGTGGCTTTATCAAACCAGCAGCTGGATCAAAAACATCCGGATTCGGTGTACGTTCTTTAGATAACCATAAAGGAATTGACATCGCTGCTTCGGGAACGGTTCCAATTATCGCTGCTGCAGATGGCGTTGTTATTCGCTCAGAATTATCATCTAGTTACGGAAACGTAGTGTACTTATCTCACCGTATAAACGGAAAAACATATACGACAGTATATGCTCATATGAATAGCCGTTCCGTATCGAATGGACAAACTGTAAAACAAGGCGATCAGCTTGGATTTATGGGGAATACGGGCCAATCATACGGACAACATTTACACTTCGAACTTCATCTTGGAGAATGGAATGTCGGCAAGACAAACGCAGTTGACCCATCTCCTTATATCGGATTATAA	MKKKFAAFSVLAAGTIFASPLLSPVYAETNQDKLTNIQSELEGKQSDLQNKSVEKEQIEKEIQELQKKIDELTTSINKNEAELNDTKKEISKTQQVITDKKKHIEQLQTNIDTRQEVIKQRLQSMQEKPRTNIITEVLTNSTNIADLVDNMYSVSLILNNDTDIVKKQTSDQNAVTTEKEAVEKKEQHLKESEQKLEQKQQELQNNQQQQQTLINDLHTKVAKVDSEIEGLEESKGILENQRQAVQKAIEEEKRAEEARKVEEARQAEEARKQQATKSAQATQAAPTPHDTNIGGFIKPAAGSKTSGFGVRSLDNHKGIDIAASGTVPIIAAADGVVIRSELSSSYGNVVYLSHRINGKTYTTVYAHMNSRSVSNGQTVKQGDQLGFMGNTGQSYGQHLHFELHLGEWNVGKTNAVDPSPYIGL				NA	NA	NA	NA	NA
AK009_00166	1275	gltT_2		Proton/sodium-glutamate symport protein	ATGAAAAGAATAGGACTTGCATGGCAAATATTAATAGGACTTGCACTTGGTATTGCAGTTGGGGCGATTTTCTTTGGCAATCCGGCTGTAGTGAGTTATTTACAACCAATTGGTGATATTTTCATCCGATTAATTAAAATGATCGTTGTACCGATTGTTGTAGCAAGTATTGTTGTTGGGGTTGCTGGTGTTGGCGATGTTAAAAAACTAGGTCGACTAGGCGGAAAAACAATTATTTACTTTGAAATTATTACAACAATTGCAATTATTGTTGGTCTATTAATAGCGAATATTTTCCAACCAGGAAAAGGCGTGAATATGGAGCAGTTAACAAAGACAGATATTTCAAAATATACACATACAACAGAGCAAGTACAAAGTCATTCATTTGCAGATACATTTGTAAATATTGTTCCAACGAACATTATGAAGTCATTAGCTGACGGAGATATGCTTGCTATTATATTCTTTTCTGTACTATTTGGTTTAGGTGTAGCAGCAATTGGTGAAAGAGGAAGACCAGTTCTTCAATTTTTCCAAGGTGTAGCTGACGCAATGTTTTATGTAACAAACCAAGTTATGAAATTTGCACCATTTGGTGTGTTTGCACTAATTGGTGTTACAGTTTCTACATTTGGTCTTGCTTCATTAATTCCATTAGGGAAATTACTAATTGTCGTATATGGAGCAATGATCTTCTTCGTCGTAGTTGTCTTAGGACTTACAGCGAAAATATTTGGAATTAACATTTTCCAATTCTTTAAGATTTTAAAAGACGAGCTGATCTTAGCGTATTCTACAGCAAGCTCAGAAACAGTTTTACCGAAAATCATGGAGAAAATGGAGAAATTCGGTTGTCCGAAAGCAATTACATCTTTCGTTATTCCGACAGGTTATTCATTTAACTTAGATGGATCAACTTTATATCAAGCAATTGCGGCGATTTTCTTGGCGCAAATGTACGGTATTGATTTATCTATTACACAACAAATTACATTATTACTTGTATTAATGGTTACCTCAAAAGGTATCGCAGGTGTACCGGGCGTATCATTCGTTGTATTATTAGCGACACTTGGTACAGTAGGTATTCCACCTGAAGGTTTAGCGTTCATTGCTGGTATTGACCGTATTTTAGATATGGCTCGTACAGCAGTTAACGTTGTAGGAAACTCTTTAGCAGCTGTAGTTATGTCTAAGTGGGAAGGTCAATATGACGCTGAAAAAGGACAAGCTTATTTAAAAGAGATTTCTGAAAAGGGTCAAGCTGCTTAA	MKRIGLAWQILIGLALGIAVGAIFFGNPAVVSYLQPIGDIFIRLIKMIVVPIVVASIVVGVAGVGDVKKLGRLGGKTIIYFEIITTIAIIVGLLIANIFQPGKGVNMEQLTKTDISKYTHTTEQVQSHSFADTFVNIVPTNIMKSLADGDMLAIIFFSVLFGLGVAAIGERGRPVLQFFQGVADAMFYVTNQVMKFAPFGVFALIGVTVSTFGLASLIPLGKLLIVVYGAMIFFVVVVLGLTAKIFGINIFQFFKILKDELILAYSTASSETVLPKIMEKMEKFGCPKAITSFVIPTGYSFNLDGSTLYQAIAAIFLAQMYGIDLSITQQITLLLVLMVTSKGIAGVPGVSFVVLLATLGTVGIPPEGLAFIAGIDRILDMARTAVNVVGNSLAAVVMSKWEGQYDAEKGQAYLKEISEKGQAA	PGPT0000805_733	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
AK009_00167	519			hypothetical protein	ATGAAACGTAAATATGGTGACGGTGCTTCGTGGAAGAGACTAATAGAAAAGAGTTATACGGTTAAGCAAGTGGAAGAGGGAATGCTCGGAATACTGGATATAAAAAAAGTGAGAGAGCCTAGTTGTAAAGAATATGATGGTAAAGAAATTTGTATTGCAAGTGATGGGTATACGTGGGTTCAATATTTCATTAATGGAAAGAACTTTGCGATTACAGCTATGTTAGATGATAGGCACAATTTAGTGCAATATTATATTGATGTGACGAAAGAATATGAAATAGACGATCGTGGTTTACCGTATTTTGATGATTTATATTTAGATGTAGTATTATTACCCAGCGGTAAGGTGTATATATTAGATGAAGAAGAGCTAGAGGATGCTTATAAAAGTGGCGATGTCACGAAGGAAGAGTATGAGTTAGCTTGGTACACTACGAAATGGATATTAGCAGCAATAAAAAATAGTGAATTTTATTGGATTTCAATATTGGAAGAAGAAATCGAAAAGTTAAAATGA	MKRKYGDGASWKRLIEKSYTVKQVEEGMLGILDIKKVREPSCKEYDGKEICIASDGYTWVQYFINGKNFAITAMLDDRHNLVQYYIDVTKEYEIDDRGLPYFDDLYLDVVLLPSGKVYILDEEELEDAYKSGDVTKEEYELAWYTTKWILAAIKNSEFYWISILEEEIEKLK				NA	NA	NA	NA	NA
AK009_00169	1482			hypothetical protein	ATGCCTCGGCAGCGGACTCGATTTCAGAGTGCTGTGCCAAATCCAGCAAGCGTGTGCTTGAAAGATGAGAAGAGTGTTTCTTATAGATGTATAAGACCTCTTCTCATCGGAAGAGGTCTTTTGTTATTCATTAGAAAAAGGTTGAAACTAGGGAGAGATGGTACTTTGAAAGAAACGAGAGGAAATGGTTTAGCTTTATTACCACTTGGGATATTTTTGGCGCTATTTATTGGTTCTGGAATTATTACAGGTGATTTCTATAAATTGCCGATACTTGTAGCGATTTCAATTGCTGTAGGAGTTGCTTTAGTGATGAATCGTAAAGAAAGTTTTAATGTGAAAGTAGAGCGGTTCGCTAAAGGTGCAGGAAATCCAGATATTATGATTATGGTATTAATTTTTGTGCTTGCTGGTGCATTTTCTGAAACTGCTAAAGGAATGGGCGGGGTAGATTCAACTGTTAATTTAGCGTTAACTATTTTACCGCCAGGATTTATCGTAGCTGGAATCTTTGTTATTGGTGCATTTATTTCATTAGCTATGGGGACTTCAATGGGAACAATTGCAGCGTTAGCACCAATTGCTGTAGGTATTAGTGGTCAAACTGATATCTCAATTGCGCTTACGATGGCTACTGTTGTTGGCGGAGCGATGTTTGGTGATAATTTATCATTTATTTCAGATACAACAATCGCAGCTGTTCGTTCACAAGGAACAGAAATGAAAGATAAGTTTAAAACGAACTTTTTAATTGTATTACCAGCGGCTATTATTACAATTGTACTATTAGTAATAGTTACTTCAGGAAGTGATACGCAGGTTAAAGCGCATAGCTTTGATTGGATAAAGATTTTACCGTACGCAGGAGTACTTATTACAGCTCTACTTGGCTGGAATGTACTTATCGTATTAACTGGTGGAACTGTACTATCTGGTGTTATCGGTCTTATAGATGGAAGTTACACGTTAGAAAGTTTCTTTAAAAGTGTAACGACTGGAATGGGCGGTATGATGGAGTTAGTATTACTTGCTATATTAATTGGCGGTATGGTTGAATTAATCCAATATAATGGTGGTATTCAATATTTAATGAATGTATTAACACGTAATATTCGTTCGAAAAAAGGAGCGGAATTTGGTATTGCTGGTTTAGTGAGTATGACGAATATGTGTACAGCAAATAATACGATTTCGATTATTTTTACAGGCCCGCTTGCAAAAAATATTGCGGATCAATATGAAATAGATCCTCGTAAATCAGCGAGTGTATTAGATCTTTTCTCATGTTGTGTGCAAGGGTTGATCCCGTACGGTGCCCAAATGTTAACGGCAGCAGGATTTGCAGCGTTATCTCCGGTTGAATTGTTACCATATGCATTTTATCCAATTTTAGTTGGAGTATGTGGGATTGTTTCTATTTTAATTGGGTTTCCAAGGTTTTCGAAAGTAGCTGAGAAAAAAAAGTATCATAAAACAGCTTAA	MPRQRTRFQSAVPNPASVCLKDEKSVSYRCIRPLLIGRGLLLFIRKRLKLGRDGTLKETRGNGLALLPLGIFLALFIGSGIITGDFYKLPILVAISIAVGVALVMNRKESFNVKVERFAKGAGNPDIMIMVLIFVLAGAFSETAKGMGGVDSTVNLALTILPPGFIVAGIFVIGAFISLAMGTSMGTIAALAPIAVGISGQTDISIALTMATVVGGAMFGDNLSFISDTTIAAVRSQGTEMKDKFKTNFLIVLPAAIITIVLLVIVTSGSDTQVKAHSFDWIKILPYAGVLITALLGWNVLIVLTGGTVLSGVIGLIDGSYTLESFFKSVTTGMGGMMELVLLAILIGGMVELIQYNGGIQYLMNVLTRNIRSKKGAEFGIAGLVSMTNMCTANNTISIIFTGPLAKNIADQYEIDPRKSASVLDLFSCCVQGLIPYGAQMLTAAGFAALSPVELLPYAFYPILVGVCGIVSILIGFPRFSKVAEKKKYHKTA				NA	NA	NA	NA	NA
AK009_00170	357			hypothetical protein	ATGAAACAATTTCTAGCGTTTATCGCAGCCGGTATTTTGGCTTTAATTGCTCTTGGTAGTCTTGCTGGTATTGTAGGATTCGCAATCGGAGCAGGAGTTGTATATTGGAGCTATAAATCATTTGTGCGAGCTAAATCATTTTTTGGAAAGTTAGCTTGGGGTATTGTTGGTTTAATCGGTTTATCCATTGCACTTTCTCATTCACCAGCATTAATCGGTATCGCTGCTTTAGTGGTTTTATACTACGGATACCGTGAGTGGAAAAAAGAAAAAGATGTAGTTGTTGAATCTGCTCCAGAAAGTTCTAAACCATATAGCAACTTTGAAGATGAGTGGAACAAATTAATGAAAAACTAA	MKQFLAFIAAGILALIALGSLAGIVGFAIGAGVVYWSYKSFVRAKSFFGKLAWGIVGLIGLSIALSHSPALIGIAALVVLYYGYREWKKEKDVVVESAPESSKPYSNFEDEWNKLMKN	PGPT0028800_60	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
AK009_00171	663	liaH_1	COG1842	Protein LiaH	ATGAAACAATCTTTATTCGGACGTGTACGCGATGCAATTTTAGCTGATTTTCATAACGTGTTAGATGAGAAGGAAAGAAAAAATCCAATTGCGATGTTAAACCAATATTTACGTGATAGTGAGCGTGAAATAACAAAAATTGAGAAGTTAATTGAGCGTCATAAAACATTAAAATCTAACTTCGCTCGTGAGCTTGAGCAAGCACGTTATTTCGTTAATAAAAGATCAAAGCAAGCTATCGTTGCTCAAGAAGCAGGCGAATTACAATTGCACGAACGTGCGTTAGAAGAGGTAGCTTATTATGAAGGGCAAGTAACTCGATTAGAAGAAATGTATGCAGGTGTTGTAGAGCAAATTGATGAGTTAGAGCGTCGTCTTTCTGAAATGAAAAATAAATTAAAAGAAATGCACGCAAAGCGTATGGAACTAATGGCACGTGAAAATATGGCACATGCAAATCGTCGGATGAATACTGCGATGCATAAAATGGATGAAAATAATCCGTTCTTACGATTTGAAGAAATTGAAGATCACATTCGTGACTTAGAAACTCGTATGAATGAAGGGCATGAGCGTGACACATTTGATATGAAAATTGCAAAACTTGAGCGTGAAATGAAAGAAAAGAATGATGTATCGTTAACGAAAGAGTTAACAAAATAA	MKQSLFGRVRDAILADFHNVLDEKERKNPIAMLNQYLRDSEREITKIEKLIERHKTLKSNFARELEQARYFVNKRSKQAIVAQEAGELQLHERALEEVAYYEGQVTRLEEMYAGVVEQIDELERRLSEMKNKLKEMHAKRMELMARENMAHANRRMNTAMHKMDENNPFLRFEEIEDHIRDLETRMNEGHERDTFDMKIAKLEREMKEKNDVSLTKELTK	PGPT0028805_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028805-liaH-K11620	NA	NA
AK009_00172	741	liaF	COG4758	Protein LiaF	GTGAAGAAACATTTTTCAAAGACACAATTAATGGGGATGCTCCTCATCATATTTGGGTTCGGTCTTTTTCTTGATATGATACTTGGACATTTTGAACCAGGTGGTCTCATTTTTGCATTTATTATGCTTATGTTTGGAAGGCATTATCGTAAAAAGAATCGTTATGTACGGGGGAATGTATTTTTATTTGTTGGTGGTATCGTATTTTTATTTTTCTTATTTTCATCAGCAGCATTTGTTCTTGTCGTATTTGCTTGTTTAGCTTTAATTGGTTATCAATTGATTCAACAAGGACATCAGCAAAAAGCAATGAAGGTTGAAATTAAAGAAAAAGGGATTATAGACGAAGAGAAGCAAATATATCGTACAGAACCATATTTGAAAAATATGTTTGTAGGCAATGTACGAATGATGGATCATATTTATGAACTTGAGGATATTAATGTTCAATATGGTGCTTGTGATGTGGAAATAGATTTAACAACTGCTATGATTCCAGAAGGAGAAACAGTAATTGTTATTCGAGGTGTCGTTGGTAATATTCGTTTATATGTGCCATATGATATTGAACTTTCTTTAAATCACTCTGTTATTGTCGGCCGTGTGCTCTTGCCAGGTCATGAAGAGACAGGGTTTAACCGCAATGTTACATTTAGAACAGAGCAGTATAAAGAGGCTCCTCGTCGTATTAAAATTATTTCTTCGCTTGTCGTAGGCGACACGGAAGTGAGGAAAGTATAA	MKKHFSKTQLMGMLLIIFGFGLFLDMILGHFEPGGLIFAFIMLMFGRHYRKKNRYVRGNVFLFVGGIVFLFFLFSSAAFVLVVFACLALIGYQLIQQGHQQKAMKVEIKEKGIIDEEKQIYRTEPYLKNMFVGNVRMMDHIYELEDINVQYGACDVEIDLTTAMIPEGETVIVIRGVVGNIRLYVPYDIELSLNHSVIVGRVLLPGHEETGFNRNVTFRTEQYKEAPRRIKIISSLVVGDTEVRKV	PGPT0028815_74	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
AK009_00173	1056	liaS	COG4585	Sensor histidine kinase LiaS	ATGAAGAAACAAAAAAATATTTCGTGGATGTATATTCGTTATTCTATGTTGTCCTCTGTTAGTATCGCACTCATTTGTACAATTGTATATGTATGGAAAAGCGAGCAACAAGTGTATGATTTATTATGGAAGGAATCCATCGCTTCTGTTCCAATTGGCTTGTTTATTATGACTACAAGTTTACTTATCGGGGGAATTGTAGGATATGCAATCGGTTACTATATAGAGCAGCGTATACAAGGATTAAATACTTTTCTATTTGAAGTAGAGCGAGGGAATTTTCCGAGTGATGTTTCGTTTACTGCGGATGATGAATTTCATGAAGTGGAGCGAAAAGTAATCGTTCTGGCTCGTCGATTAGAGGAGCAAGCTGGACTCTTTCAAAAAGTAACGAATGAACGAGCTCATTGGAATGAAGAGATGAGACAAGAAGCGATTTCTCAAGAAAGGCATCGCTTAGCAAGGGAGTTGCATGATTCAGTAAGTCAGCAGCTTTTCGCAATGTCGATGATGATGTCAGCGATTAATGAACAAATAACTGAATTTCCAGATGTGACAAAAAAACAATTACAACTTGTTGAAAATATGGTTGTAAATGCTCAATCAGAAATGAGAGCATTGCTCCTTCATTTACGTCCTGTACAATTGGAAGGTAAGAAACTGACAGAAGGTATAGAGGAATTATTAACGGAATTATCGCGAAAACAACATATGAAAATTGAATGGCTTATTGAGCCAATAGAATTAAAAAAAGGTGTAGAAGATCATTTATTCCGTATTGTGCAAGAAGCGCTATCAAATACGTTGCGACACGCGAAGGCAAAGAAAACAGAAGTGCGCCTTCGAAAAATTGATCAATATGCGATTTTAAAAATCATTGATGACGGTGTTGGGTTTGAAGTAGGCGTTAATAAAGCCGGTTCCTATGGCTTAAGATCGATGCAAGAGCGTGTTCATGAAATTGGTGGGACACTCAAGGTACTGAGTTTCCCGGCCAAAGGTACACAAATAGAAGTGAAAGTACCGATTATGCTTGAGAGAGGGGGAGAAGTATGA	MKKQKNISWMYIRYSMLSSVSIALICTIVYVWKSEQQVYDLLWKESIASVPIGLFIMTTSLLIGGIVGYAIGYYIEQRIQGLNTFLFEVERGNFPSDVSFTADDEFHEVERKVIVLARRLEEQAGLFQKVTNERAHWNEEMRQEAISQERHRLARELHDSVSQQLFAMSMMMSAINEQITEFPDVTKKQLQLVENMVVNAQSEMRALLLHLRPVQLEGKKLTEGIEELLTELSRKQHMKIEWLIEPIELKKGVEDHLFRIVQEALSNTLRHAKAKKTEVRLRKIDQYAILKIIDDGVGFEVGVNKAGSYGLRSMQERVHEIGGTLKVLSFPAKGTQIEVKVPIMLERGGEV	PGPT0014865_219	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
AK009_00174	633	liaR	COG2197	Transcriptional regulatory protein LiaR	ATGATAAAAGTATTGCTTGTCGATGATCATGAAATGGTTCGTATGGGTGTATCGGCATATTTATCTACACAACCAGATATTGAAGTGGTCGGGGAAGCTGAAAATGGAAAAAAAGGATCAGAATTAGCACTGCAATTAAGACCGGATATTATTTTAATGGACCTTGTTATGGATGAGATGGATGGTGTCGAAGCAACACGTGCTATTATTCAAGAATGGCCAGAAGCAAAAATTGTAGTTGTAACAAGCTTTTTAGATGACGAAAAATTGTATCCTGTTATTGAGGCTGGGGCGACTAGTTATTTATTAAAAACATCAAGAGCAAGTGATATAGCGGACGCTGTACGAGCTACTTATGATGGAGAAACGGTATTAGAGCCGAAAGTTACCGGGAAAATGATGTCCCGTATGCGTCAAAAGAAAGAGCAACCTTTGCATGAGGAGTTAACAGAAAGAGAGTCTGAAATTTTGTTATTAATTGCAGAGGGGAAAAGTAATCAAGAGATTGCAGATGAATTGTTTATTGCCCTCAAAACAGTAAAGACACATGTGAGTAATATATTAAATAAACTAAATGTAAGTGACCGGACACAGGCGGTTATTTATGCATTTAGACATCAATTAACGAAATGA	MIKVLLVDDHEMVRMGVSAYLSTQPDIEVVGEAENGKKGSELALQLRPDIILMDLVMDEMDGVEATRAIIQEWPEAKIVVVTSFLDDEKLYPVIEAGATSYLLKTSRASDIADAVRATYDGETVLEPKVTGKMMSRMRQKKEQPLHEELTERESEILLLIAEGKSNQEIADELFIALKTVKTHVSNILNKLNVSDRTQAVIYAFRHQLTK	PGPT0014870_396	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
AK009_00175	264			hypothetical protein	ATGTTAGTTCAAACTATATTCGGAATGGATAAGTCTAAAAAATTAGGGGATTATGTGAACGCATTACAAGCGCTTTGTGAACAATATAATGTTGAAACAGATAAAATTGCGATTATTGAGGCAACAGAGGAATACTATTTATTTTTAGTAAAGCAAGAAGACTGCTATGATGTTGTTAAGGTAGAAACAGTTGATACGAATATTGAATATTATACGAAAGCGTATAAAATAAGTAGTTTTAATCATACTGCTTATCAAATGTAA	MLVQTIFGMDKSKKLGDYVNALQALCEQYNVETDKIAIIEATEEYYLFLVKQEDCYDVVKVETVDTNIEYYTKAYKISSFNHTAYQM				NA	NA	NA	NA	NA
AK009_00176	1347	brnQ_1	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAACACTGTATCAAAAAAACATATTTTTTTCACGGGTCTTATGCTATTTTCTTTATTTTTTGGGGCAGGTAATTTAATTTTCCCTCCCATGCTTGGCCAAAACGCAGGTGAAAACTTTTGGCCCGCAATGATTGGATTTTTACTAACAGGAGTTGGCTTACCACTACTTACTGTTATCGCAATTTCTCTATCAGGAAATGGAATGCAGCAACTTGCAAGTCATGTTCATCCATTATTCGGAATTTTCTTTACGGTAGTTGTATACATTGCCATCGGTCCATCCATGGGCATCCCACGTGTTGCAAATGTTGCTTATGAAATGGGTGTTAGTTCTTTCTTACCAGAAACAATCCGCTCTAGCAGCCTAGTGCTATTTGTATATACAATCATATTCTTTACTATCGTATTTTGGCTGAGTTTAAATCCATCTAAACTTGTCGATCGTATTGGAAATATATTAACACCTATTTTATTACTCTCAATTTTCTTATTGTTTGTTAAAAGTGTCTTTACACCACTTGGACAATCAGGACCAGCTATGCAAGAGTATCAAACTTCTCCAATCTTCAAAGGCTTTATGGAAGGGTACTTAACAATGGACACCATTTCAGCACTTGCATTTGGAATTATCGTTGTAAATGCAATTCGCTCTAAAGGTGTGAATGATCGTAAGTCCATTGCCATCGCCACAGCAAAAGCAGGGCTTATTGCCGCTACAGGACTCGTACTTGTATATGGTGCACTCGGCTGGCTTGGGACAACTAGTGTCTCTCTCGGATATGCAAAAAATGGTGGACAGCTACTTACTGTTATCGTACAACAATTATTCGGCCCATACGGTTTGCTCCTATTATCTCTTATCGTTACACTCGCTTGTTTAACGACATGCGTTGGACTCGTATCTGCGTGCAGCCAATATTTTTCAACATTATTGACTACATTTTCATACAAAACGTTCGCGAGTATCATTTGCGCATTAGGATTATTAGTTGCCAACTTAGGTTTAACAAAAATTATCGCAATCTCTGTTCCAATTCTACTTGTTGTATATCCAATTGCGATTGTACTCGTACTACTATCGTTACTTCATAAATACTTCGGTGGATATCGCTCTGTTTATGTAGGTGCTTTAATCGGAGCAGCAGTTGTGAGCGTATTTGATGGATTAAAACAAGGCGGTATTCCAGTCTCGTTTATCACGTCCAACTTTGAATTTATTCCTTTATATAATGAAGGAATAGGCTGGCTATTACCAGCATTAGCCGGAGCACTTATCGGATTTACTATCGCTAAACTAAGCGGTGCTAAAAAAGTTCCCTTAATAACCGACGCAAAAGCATCCTAA	MNTVSKKHIFFTGLMLFSLFFGAGNLIFPPMLGQNAGENFWPAMIGFLLTGVGLPLLTVIAISLSGNGMQQLASHVHPLFGIFFTVVVYIAIGPSMGIPRVANVAYEMGVSSFLPETIRSSSLVLFVYTIIFFTIVFWLSLNPSKLVDRIGNILTPILLLSIFLLFVKSVFTPLGQSGPAMQEYQTSPIFKGFMEGYLTMDTISALAFGIIVVNAIRSKGVNDRKSIAIATAKAGLIAATGLVLVYGALGWLGTTSVSLGYAKNGGQLLTVIVQQLFGPYGLLLLSLIVTLACLTTCVGLVSACSQYFSTLLTTFSYKTFASIICALGLLVANLGLTKIIAISVPILLVVYPIAIVLVLLSLLHKYFGGYRSVYVGALIGAAVVSVFDGLKQGGIPVSFITSNFEFIPLYNEGIGWLLPALAGALIGFTIAKLSGAKKVPLITDAKAS	PGPT0014385_695	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
AK009_00178	210			hypothetical protein	ATGCTTGCGATGGGAGTATTATTTGGCATTATTGCTATAATTGGTTTTATGTGGTTATATTATTCGCGTTCGTTTAAACAAGCAGAAGTTTTACTCTTTCAAAAAGGTAGTTTGTTGACAAATCAGTCTAGATATTTAGTATGTCCGAAGTGTGGAAGTGCACAGGCCAGAAGTGGAGGATATCAAGAGTGTTGCAAAATTAGATTATGA	MLAMGVLFGIIAIIGFMWLYYSRSFKQAEVLLFQKGSLLTNQSRYLVCPKCGSAQARSGGYQECCKIRL				NA	NA	NA	NA	NA
AK009_00179	777	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGTCCATTAATTTTCATGATGCAAATAATAAATACACATACGCAACAAGAAACGCTCATATTTCTTGGGCTGAAATGGTAAAAAACATTACAGACATACAAAACAAGCAAATAATTGATATTGGCTGCGGTGGCGGGATTTATACGAAAGAACTCGCTCTTATGGGAGCCAAAAATGTTGTGGGACTTGATTTTTCAAAAGAAATATTACAAGCTGCAAAAGAAAATTGCAACAATTTCCCAAATTTTTCTTTCATCCACGGTGATGCACATAATATCCCATACCCTAACGAAACATTCGACATAGTTATTTCGCGCGCAGTTATTCATCATTTACAAGACATTCCTACATTTTTATGTGAAGCTTCTCGTATATTAAATAAAAACGGTGTACTTATTTTACAAGATCGAACGATTGAAGATTGTACAGTTCCAGGAAGTCCCGAACACATTCGTGGATATTTTTTCTCTATATTTCCAAAACTCATTGAAATAGAGTCAAAAAGACGTCCAAAAACCAACACGATACAGAAAGAATTACAAAAACATTCTCTTCACGTGCTTCCCACACAAACACAATGGGAAGTACGAAAAATACATGATTCTGTAGAAGCATTGCTACAAGATTTATCTCCTCGAACAGGTCGATCCATTCTATATGAGTTAACAGATGATGAACTTTCTCAACTTCTACAACATATACAGACCACATTACAAAACGTCTCTCCTATTATTGAAAGAGATCGATGGACAATTTGGAGCGCCATGAAGTTGTAA	MSINFHDANNKYTYATRNAHISWAEMVKNITDIQNKQIIDIGCGGGIYTKELALMGAKNVVGLDFSKEILQAAKENCNNFPNFSFIHGDAHNIPYPNETFDIVISRAVIHHLQDIPTFLCEASRILNKNGVLILQDRTIEDCTVPGSPEHIRGYFFSIFPKLIEIESKRRPKTNTIQKELQKHSLHVLPTQTQWEVRKIHDSVEALLQDLSPRTGRSILYELTDDELSQLLQHIQTTLQNVSPIIERDRWTIWSAMKL				NA	NA	NA	NA	NA
AK009_00180	852			hypothetical protein	TTGAAAGGGAAATATGTATTGTTGTTATTTGTTATGTTACTAGCAGCTTGTGGTCAAGCTGAGCAAAAACAAGAAACAAAAAAAGTAGAAGAGACGGTGAATGAAGTGAAAGAAACAATAGGGGTAACCGTTATACAAAAAAAACATAAAGAGAAAAAGTTGCAGGAATCAGAAGCGAAGTTAGTAATAGACATTTTGGATAAAGCTGAGAAACAAGAAATAACCGGAAGCTTCGGTGAACCTGAATATGAAATACAAATTAGTAGAGAGGGGAAAAAAGAAACTTATTATGCATGGTTAAGGGGAGAAGATAGACGAGGATGGGTGCAATATAAGAAAGTTATGTATATGTTGAATGAAAAAGATACGGAAAAGCTTTTGGCTATATTTCCAAATGTTTCAGAACAAAAAGAAGAAGAGATGCAGGTAGGTCCTTTAACGGAGGTAACAAAAAAAGATTTGCAGATTACCGCGTTTCATATTAAAGCAGGCGATCAAAACGTGAATTATATGGTACGGTATACGATTTCACAATCACTATACAACAAGTTAGTGAAGGAACAAGAATATTATTTGCAACTCACTTTCCCAGAAAAAGTTCAAAAATTAATTGGAGCAAAAGAGAGTGAAATGATTTTAGGTGAAAAAGTAAAGGAAGGGTATAAGCAATATGAATTGCATGCTACTGTGCAGGTAAAAGGCGCTTCAGAATCACAATTAAAATCATTAGAAACATATTACGAAAAGTATGATTTAAAAATATTAAACAGTGAAAAAGAAAAAATAGGTGTGTTTCAAAATATAATTCAAATCGTTAAAGAGTATGGTGAAAAAATGAATTTCCAAAGATAA	MKGKYVLLLFVMLLAACGQAEQKQETKKVEETVNEVKETIGVTVIQKKHKEKKLQESEAKLVIDILDKAEKQEITGSFGEPEYEIQISREGKKETYYAWLRGEDRRGWVQYKKVMYMLNEKDTEKLLAIFPNVSEQKEEEMQVGPLTEVTKKDLQITAFHIKAGDQNVNYMVRYTISQSLYNKLVKEQEYYLQLTFPEKVQKLIGAKESEMILGEKVKEGYKQYELHATVQVKGASESQLKSLETYYEKYDLKILNSEKEKIGVFQNIIQIVKEYGEKMNFQR				NA	NA	NA	NA	NA
AK009_00181	198			hypothetical protein	ATGAATTTACAATCTCTCATAATAAGTGTTTTATCATTTTTAGCTTCAACTCTTATTTTTTATACAGTGAGCTATGTATTATTATTAGATTGGTTGCCAAATCACTTACTTATCACTCTTATCATTCTTTCCGCTCTTATGATTTCATTTCTTATTACACGAAAATCAATGAATGAGCCATCTGCAAAAGCAAAATAA	MNLQSLIISVLSFLASTLIFYTVSYVLLLDWLPNHLLITLIILSALMISFLITRKSMNEPSAKAK				NA	NA	NA	NA	NA
AK009_00182	1098			hypothetical protein	ATGAAAAATAATAAAAAAGGATTATGGGGAATTATTGTTGCCATAGGATTATTTTTACTGTCTAAGTTAAAGTGGATATTTGCAATTTTTAAATTAGCAAAGTTTTCAATGGTATTTAGTATGTTTCTATCGCTTGGCGCATACGCAGTTCTATATGGTTGGAAATTTGGGGTGGCGCTCATTTATTTGTTGTTTGTTCATGAAATGGGCCATTTATGGGCTGCGAAAAGAAAAGGAATTCCAACATCGCCAGCAATCTTTATCCCATTTATGGGGGCTCTTATTGGAATGAAAGAGATGCCGAAAAATGCAAAAGATGAAGCTTACATTGCCTATATGGGTCCGCTTTTCGGGCTTCTGTCATATTTACCCGCGATACCGCTTTACATAATGACGAAAGAACCATTTTGGGCGCTTGTTATTTTGCTTGGAAGTATGATTAATTTCTTTAATTTAATTCCCGTTTCGCCGCTAGATGGTGGGCGAATTATTTCAGTTGTCAGCACTAAAATTTGGGGAGCAGGCCTTATTTTATTACTTGGCTATTCAATTTACTTTAAAAGTATTTTGGGAGGATTTATTGTTATTATCGGTTGTATGGAATTATATAGAGTGATAAAGAGAGATGAGCCGATTAAGGAATTAGGGCATAAAATTGATGGGATGAAAGAATATGTTGCTAGGATTGAAGAGGAATTAAAAGAAACGGGTGCTGTACATCGGACTATATACATGATGCATCATGAGATGAATGCATTAAGACAAAGAGAACGGGAAAAAGAGTTACAAATAGGTGAACTTCAAAAAATGGAAGTGTTAGAGTATCTTTTACCGAAGTTCGAACCGTTAGATTATGTTCCATATGAAGATGAAAAAGATGAGTATACAATTCACATAAGGGAAGCATTTGAAGCGTCAGAAAGAAAATTAAATAAATGGAAAATAGAAAAAGAACAACAAGAAAACTATTATAAAGTGGATGCGAAAACGAAATGGACAGTATTTGCTTGTTATATCGGATTAATGGCTATACTCGGTTACACAGCTTATGAAGGATATATTGTTTTACAAGAACATTTGCCAACGAGAAATGTATAG	MKNNKKGLWGIIVAIGLFLLSKLKWIFAIFKLAKFSMVFSMFLSLGAYAVLYGWKFGVALIYLLFVHEMGHLWAAKRKGIPTSPAIFIPFMGALIGMKEMPKNAKDEAYIAYMGPLFGLLSYLPAIPLYIMTKEPFWALVILLGSMINFFNLIPVSPLDGGRIISVVSTKIWGAGLILLLGYSIYFKSILGGFIVIIGCMELYRVIKRDEPIKELGHKIDGMKEYVARIEEELKETGAVHRTIYMMHHEMNALRQREREKELQIGELQKMEVLEYLLPKFEPLDYVPYEDEKDEYTIHIREAFEASERKLNKWKIEKEQQENYYKVDAKTKWTVFACYIGLMAILGYTAYEGYIVLQEHLPTRNV				NA	NA	NA	NA	NA
AK009_00183	519			hypothetical protein	ATGAAGAAATTGCTACGTGTATTCGGGATTATTATCGTAATGATCATCGCGAGTTATAGTCTTATGAAAGTGCTGTTACATTATGCGAATAAGCCTGCTGAGGTAAATACAATAGCTCAAGTAGAAGATGTGCAAGAAGAGACAAAAGTGCTAGATTTTATTCGAATGACACATGAAAGCTATAATAATTTCTTAAATTACGGTAAAGCAGAGAATTATACAGACGGGGATTGGAATCAATTTAAGCAATGGTTTCAACAACAAGAACCATCTTTAAAAAATATACATACGGAAATAAAGAATGAAAAAATAAAACGCGATGTAAATAGAAGCTATGAAATTGTAAAAAAAGGTGTGGAACTTCAAAATATTGAGTATGTAGTGTATGCCCACCGTGTATATCATGACTTGGATATTATCGTAAATAAATATAGGGGGGAAACGAATATCTGGGGGTATACAGAGTTTGGCGAGGGGAAAGATATAAAAGTAATTGAACAAGCTATACAAACAAAATAA	MKKLLRVFGIIIVMIIASYSLMKVLLHYANKPAEVNTIAQVEDVQEETKVLDFIRMTHESYNNFLNYGKAENYTDGDWNQFKQWFQQQEPSLKNIHTEIKNEKIKRDVNRSYEIVKKGVELQNIEYVVYAHRVYHDLDIIVNKYRGETNIWGYTEFGEGKDIKVIEQAIQTK				NA	NA	NA	NA	NA
AK009_00184	1209	hmp	COG1017	Flavohemoprotein	ATGTTAAGTGCAAAAACAATTGAAATCGTAAAGTCAACAGTACCATTATTACAAGAAAAAGGCGTTGAAATTACAACGAGATTTTATGAAATTTTATTTTCAGAACATCCGGAGTTATTGAATATTTTCAACCATACGAATCAGAAAAAGGGAAGACAACAACAAGCGTTAGCGAATGCTGTTTATGCAGCTGCAACGTACATTGATAATTTAGAAGCAATTATTCCAGTTGTAAAACAAATTGGTCATAAGCATAGAAGTTTAGGTATTAAAGCTGAGCATTATCCGATTGTAGGTACATGTTTACTACGTGCCATTAAAGAGGTCGCAGGTGCACCTGATGAAGTTTTAAATGCATGGGGAGAAGCATATGGTGTCATTGCTGATGCATTTATTAGCATTGAAGCAGAGATGTATGAAGAAGCTGCACATAAAGAAGGTGGATGGAAAGACTTCCGTAACTTTGTGATTGTTAAAAAAGTGAAGGAAAGCGATGTTATTACGTCATTTTATTTGAAACCTGAAGATGGAGGGAAAGTTTCTTCATTCATCCCAGGTCAATATGTAACGGTTCAAATCAATATTGAAGGTGAGACATATACACATAATCGTCAATACAGTTTATCCGATGCACCTGGGAAAGAATATTATCGTATTAGTGTAAAGAAAGAAAAAGGTGTAGATACACCAGACGGTAAAGTGTCTAATTACTTACATGAACATGTAAAAGAAGGAGATGTTTTACCAGTAAGTGCACCAGCGGGAGATTTCGTGTTAAATATGGATTCAACATTACCAGTTGTACTAATTAGTGGTGGAGTAGGGATTACACCGATGATGAGTATGTTAAATACGTTAATTGAACAAGATTCAAAACGTAATGTATATTTTATTCATGCAGCAATAAATAGTAATACACATGCAATGAAAGAACACGTTAAGGCAGTAGAAAATGAATATGAACAAGTTAAAGCATATACTTGTTATTCTGCACCGACTGAAAAAGATTTAGAAATGAAGAACTTTGATAAAGAAGGTTTCGTTGAAAGCGAATGGTTAAAAACTATTATTCAGACAACTGAAGCAGAATTTTATTTCTGTGGTCCAGTAGCATTTATGAAGCATATAAATGCTGCACTAACTGATTTAGGTGTGAAACAAGAGCATATTCATTATGAATTTTTCGGCCCAGCAACAAGCTTACAATAA	MLSAKTIEIVKSTVPLLQEKGVEITTRFYEILFSEHPELLNIFNHTNQKKGRQQQALANAVYAAATYIDNLEAIIPVVKQIGHKHRSLGIKAEHYPIVGTCLLRAIKEVAGAPDEVLNAWGEAYGVIADAFISIEAEMYEEAAHKEGGWKDFRNFVIVKKVKESDVITSFYLKPEDGGKVSSFIPGQYVTVQINIEGETYTHNRQYSLSDAPGKEYYRISVKKEKGVDTPDGKVSNYLHEHVKEGDVLPVSAPAGDFVLNMDSTLPVVLISGGVGITPMMSMLNTLIEQDSKRNVYFIHAAINSNTHAMKEHVKAVENEYEQVKAYTCYSAPTEKDLEMKNFDKEGFVESEWLKTIIQTTEAEFYFCGPVAFMKHINAALTDLGVKQEHIHYEFFGPATSLQ	PGPT0013000_602			NA	NA	NA	NA	NA
AK009_00185	513			hypothetical protein	TTGATTCTACACAAAGGAGATGTACTATTCCGTCAAGGCGAGGACGGTCCTTTATACTTTATAAAAACAGGCTTATTAAAAGTAGTTCGGCTAGAAGAAGACGGAACACCATTTTTATTCAACATTATCGTTCCAGGTGAAACGATACCTCATCATTCTTTAATTTCACCGAAAGAATATCACGGTACAGCTATCGCTTTAATAAAGACAGAAGTGGAACCGATCACTAGTAGTGAATGGTACGAGAGACTTCAAGCAAATCCCGAATCATATGCCAACATCGCTATGCAATTGCAATCTAAATTAAGAATGATGCAACAACGAATTGATCAATTGACAACTGTCTCTCCGAAAGAACGTCTTCATCGTTTACAAGAATGGTTCACATTATATTTAGGTGACATTCCTATATATGAAATATTAACACAAACTGAAATTGGTCAACTGATAGGCATACGCCGTGAAACAGTTAACCGTTTATTACGAGAACAAATAAAAAACGAGGTAAAATAA	MILHKGDVLFRQGEDGPLYFIKTGLLKVVRLEEDGTPFLFNIIVPGETIPHHSLISPKEYHGTAIALIKTEVEPITSSEWYERLQANPESYANIAMQLQSKLRMMQQRIDQLTTVSPKERLHRLQEWFTLYLGDIPIYEILTQTEIGQLIGIRRETVNRLLREQIKNEVK	PGPT0015075_4828	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
AK009_00186	228			hypothetical protein	TTGTTAGATGCGATAAGAATGACGGATATGAGAATTCCGGCGAATGCTATCATTCATGTAGAAGAGATGAAAGGTGGAGTCGTTTTATCCGTTGAAGTAGACGGCCAAATTATTTATACGATGGCTTATGATGAAGAAACAGATAGTTATGCTGAATTATATGATCGAAACGATAAGAGGGCGTGCCAAGTACATGAAGACTTTATGGGATGGTCACTTCTTCACTAA	MLDAIRMTDMRIPANAIIHVEEMKGGVVLSVEVDGQIIYTMAYDEETDSYAELYDRNDKRACQVHEDFMGWSLLH				NA	NA	NA	NA	NA
AK009_00187	801			hypothetical protein	TTGGAATACATCATGTTACTTTTCATCGGACTAATCGCCGGGACAGTCGGCAGCCTAGTTGGGCTTGGAGGCGGAATTATTATTGTTCCGTTATTAATTGGATTACACAGTTTATCACCACAACTTGCAGTAGGGACTTCTATGGTAACAGTCGTTTTCACAGGACTATCTTCTACCCTTACTTACATGAAGCATAAGCGAGTGGATTATAAAAGTGGACTTATTTTATTTATCGGAAGCGGTCCTGGTGGTATTATCGGATCATGGGCAAATAAATTTTTAAACCAAGACACATTTTCTTTATACTTTGGGATTTTCCTTATATTCGTCTCAATTCTACTTATGCTTCGAGACAAATTAAAACCTCTTTCCCTCTCAAATACGTCTGTAATTAAGCGTTCTTTTACAGATAATGATGGAAATGCTGTACACTACCAATTCCCACCGTTTCTTGCTATCTTTATCGCCTTTATAGTTGGGTTTATATCTGGGTTATTTGGAATTGGTGGCGGTGCCTTACTTGTTCCAGCAATGATGCTTCTTTTTGCATTCCCAGCACATATTGCAGTAGCAACTTCAATGTTCATCGTATTTCTATCAGCAATTGTAAGTTCTGCAACTCACATCTCACTTGGAAATGTCAGCTGGATTTATGCATTAATCCTTATTCCTGGTGCATGGATCGGCGGAAAAATCGGGGCTTACATTAATACAAAACTGAGTGGTAACGCCGTAATTAATTTATTACGTATTACGTTAATTATTCTTGGAACTAGATTAATCATTATTTCCCTTTTATAA	MEYIMLLFIGLIAGTVGSLVGLGGGIIIVPLLIGLHSLSPQLAVGTSMVTVVFTGLSSTLTYMKHKRVDYKSGLILFIGSGPGGIIGSWANKFLNQDTFSLYFGIFLIFVSILLMLRDKLKPLSLSNTSVIKRSFTDNDGNAVHYQFPPFLAIFIAFIVGFISGLFGIGGGALLVPAMMLLFAFPAHIAVATSMFIVFLSAIVSSATHISLGNVSWIYALILIPGAWIGGKIGAYINTKLSGNAVINLLRITLIILGTRLIIISLL				NA	NA	NA	NA	NA
AK009_00188	999			hypothetical protein	ATGGATACACTCTTGATACTGACCGTTTTAGTAGTCATTTGCGCTTTAGCTTTTGACTTTATCAATGGATTTCACGATACAGCAAACGCTATTGCAACGGCTGTTTCAACGAAAGCTCTAAAGCCTAGACATGCAATTATTATGGCAGCTATTATGAACTTTTTAGGTGCAATGACATTTACAGGTGTAGCAAAAACGATTACAAAAGATATCGTTGACCCATTTGCTTTACAAAATGGTTCTCTTGTAATTTTAGCTGCTTTGCTTGCGGCGATAGCATGGAACTTAATTACTTGGTACTACGGTATCCCAAGTAGTTCTTCGCATGCAATTATTGGCTCCATCGCAGGTGCAGCCATTGCTGCTGCTGGTATTAGCTCATTAAACCTTAAAGGATTCATTAAAATTCTTGAAGCTTTAATCATTTCACCAATTATCGCTTTCGTTATTGGTTATATCGTTTACAGTATTTTTAAAGTGGTCTTTAAAAACTTTAACTTAACGAAAACGAATAAAAACTTCCGTATATTCCAGATTTTCACTGCAGCATTACAAGCCTATACACACGGTACGAATGATGCACAAAAAGCAATGGGAATCATTACGATGGCTCTTATGGCTAATAACTATCATACTTCTAGCGATATCCCGTTCTGGGTACAATTATCTTGTGCTATCGCAATGGGACTTGGTACTTCTGTCGGTGGATGGAAAATTATTAAAACTGTCGGTGGACAAATTATGAAAATTCGTCCTGTAAATGGTGTAGCTGCCGATTTATCATCATCACTTGTTATTTTCGGTGCAACATTCATTCACTTACCGGTTAGTACGACGCACGTTATCTCTTCTTCTATTTTAGGGGTTGGTGCTTCTCACCGTGTGAAGGGGGTAAAATGGGGAACTGCAAAACGTATGTTAATTACATGGGTTATTACACTTCCTATTTCAGCTTCTTTAGCTGCTCTGTTTTACTACCTATTACATTTTGTTTTCTAA	MDTLLILTVLVVICALAFDFINGFHDTANAIATAVSTKALKPRHAIIMAAIMNFLGAMTFTGVAKTITKDIVDPFALQNGSLVILAALLAAIAWNLITWYYGIPSSSSHAIIGSIAGAAIAAAGISSLNLKGFIKILEALIISPIIAFVIGYIVYSIFKVVFKNFNLTKTNKNFRIFQIFTAALQAYTHGTNDAQKAMGIITMALMANNYHTSSDIPFWVQLSCAIAMGLGTSVGGWKIIKTVGGQIMKIRPVNGVAADLSSSLVIFGATFIHLPVSTTHVISSSILGVGASHRVKGVKWGTAKRMLITWVITLPISASLAALFYYLLHFVF	PGPT0002655_3598	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
AK009_00189	621			hypothetical protein	ATGGTCTTTAAATCAAAAAAAGATAAATTTTCTGAAATGTTAATGAATGTTTCCGAAAATTTAAAAGAAGGCGCGCAGTTTTTCGTGGAGTATAAAATTAAAAATGCTAGCGATTTAAAAGAGTTTTCTATGCGCATGAAAGAGTATGAGTCAAAAGGTGACTCATTTATTCACGAAATCATTATGGAGCTAAACAAAGCGTTTATTACTCCAATTGAACGTGAGGACATCCTACAACTTGCAATGAGTATGGATGATGTATTAGACGGATTAGATCACAGTGCTGGTCTGTTCGAAATGTATTCTATTACAGAAGCTGATGAATACATGATTAAATTCGTGGAAGCAATTAATCAATGTGCGATTGAGATTGCAAACTCTGTTGAACTACTGTCTAAAAAGAAGTTAGTCGACATTCGTACGAACGCGATTAAGATTAAGGATTACGAATCACAATGCGATGATATTCGTCGTCATGCGATTAAGCACTTATTCTCTCGTGAAAAAGATCCGATTAAGATTATTCAATTTAAAGAGATTTACGAAGAGCTTGAAGAAGTAGCTGATAGCTGTCAAAGCGTTGCAAACGTATTAGAAACAATTATTATGAAGAACGCGTAA	MVFKSKKDKFSEMLMNVSENLKEGAQFFVEYKIKNASDLKEFSMRMKEYESKGDSFIHEIIMELNKAFITPIEREDILQLAMSMDDVLDGLDHSAGLFEMYSITEADEYMIKFVEAINQCAIEIANSVELLSKKKLVDIRTNAIKIKDYESQCDDIRRHAIKHLFSREKDPIKIIQFKEIYEELEEVADSCQSVANVLETIIMKNA				NA	NA	NA	NA	NA
AK009_00190	2043	pbpF_1	COG0744	Penicillin-binding protein 1F	ATGAAATTGAAGAACACTCATTTTAAAAAAATGCTTGAGTGGTTCAATAAGAGGAAGAAACTTCGTAATTCATTAATTGTATTGGGAAGTGTACTCATTACTCTATTTATTGCTATAAATATAATAATATCCATTCAAGACATATCTGAATTAAAACAAGCTGTTCCACAACCGACTTTAATTTATGATGCAAATAATGAGGTCGCAACTAAATTAGCTTCTTCGAAAACAGAAGGTGTTAAAAGAAAAGATATTCCTGATATTATGGTTCAGGCAATTGTTGCAGTAGAAGATAAGGGTTTTTTTAACCATCATGGTATTTATTATAGTGGAATTATAAGTGCAATTTTTAAAAATATTACAGCAGGAGAAGTTGTAGCAGGGGGAAGTACAATTACACAACAGCTTGCAAAGAATGTATTTTTGACACAAGATCGTACATTTTCTCGTAAAATAAAGGAATACTTTTTAACCAAAAAAATAGAACGTACTTATACAAAAGATGAAATTATTGAAATGTATATGAATCAAATTTATTTTGGGGAAGGTGCTTGGGGAATAAAGAGGGCAGCTAAATCTTATTTTGATAAAGAGGTAAAAGATTTATCAATTTCAGAAGCTGCAACGATTGCAGGTTTAATTAAAGCGCCGTCTGCGTATTCTCCTTATAAAAACTTTAATAAATCAATTGAACGACGTAATGTCGTATTAAGTTTAATGAAGGAACAAGGATATATTTCTGAAGAGCAATACAATAAAGAAAAAGAGTCAGGCCTTGTATTAAAACGTGGGGTTGATGATAAATACAAAGGTAAATACTCCCAATATGTAGACTATATAGTTAGAGAAGCGATGGATAAGTATGAATTAACACAAAATGAAATTTTAGCAGGTGGTTATCGTATTTATACAGAGCTTGATCCGAAAAAACAACAAGCTGTAGAAGATGTTGTGAATAATGATAGTTATTTCAAAGATAGTGGCTCAGATCAACTTATGCAAACGGGTGTAGTCCTTATAAATCCAAAAACAGGCGGTGTTCCAGCTTTAGTTGGAGGTAGAGGACCATATCAGTTTTTACAATTTAATCATGCTACGCAATTAAAAAGACAGCCAGGTTCAACATTAAAGCCTCTAGCTGTATATGTACCCGCTTTAGAACAAGGGTATGAAGTATACGATATATTAAAAGATGAACCATTTCATATTAAAGAATATGAACCGAAAAATAGTGATCAGGCCTTTCATGGTAATGTGACAATGTATGAAGCGGTAGCAAAGTCGTATAATGTTTCCGCTGTGTGGCTATTAGAACAAATAGGATTAGATAAAGGATTGAAATCTTTAGAGCGATTTGGTATTCCGTTAGTACCAGAAGACCGTACGTATCCAATTGCTTTAGGTGGGATGCATGTAGGGACATCACCATTTGTAATGGCCCAAGCATATAGTACATTTGCTAATGATGGGATTCAAGTAGAGGCTCATGCAATTAGAGAAGTTCAAAATGCTGAAGGGGAAATAATAGGGAAATGGTATAAGAAAGAGACACGAGTGACGAGTGAGAAAATTGCTCAAAAGATGACGTATTTATTAAAAGGTGTTGTAGAAAAGGGAACAGGTGGAAAAGCGAAAGTTACTAATGTTGATACAGCAGGGAAGACAGGGACTACTCAACTTGTAAATGGCCCGAGCGTAGGGGCAAAGGACTCGTGGTTTGTAGGATACACACCAGATTTAGTAGGTGCAGTTTGGGTAGGATATGACAAAACAGATAGCGAGCATTATGTTCCAGGTGGTAGTCAAATTACAACGACGATGTTCCGGGATATCATGAAAAAAGCAAATGCAAACCCAGCCCAAAAAGCGTTCCAATTGTCGTTAATATCTGAGGCGGACTATAAAAAACAATTGCAAACAATTGAAGAAGAAAAGCGAAGAAAAGAAGAAGAAAAGAAAAGGCAAGAAGAAGAACAAAAAAGGAAAAAAGAACAGCAAGAGTGGTTTAATAAAGTAAAAGAGTGGATTCCATCGTTATGGTAA	MKLKNTHFKKMLEWFNKRKKLRNSLIVLGSVLITLFIAINIIISIQDISELKQAVPQPTLIYDANNEVATKLASSKTEGVKRKDIPDIMVQAIVAVEDKGFFNHHGIYYSGIISAIFKNITAGEVVAGGSTITQQLAKNVFLTQDRTFSRKIKEYFLTKKIERTYTKDEIIEMYMNQIYFGEGAWGIKRAAKSYFDKEVKDLSISEAATIAGLIKAPSAYSPYKNFNKSIERRNVVLSLMKEQGYISEEQYNKEKESGLVLKRGVDDKYKGKYSQYVDYIVREAMDKYELTQNEILAGGYRIYTELDPKKQQAVEDVVNNDSYFKDSGSDQLMQTGVVLINPKTGGVPALVGGRGPYQFLQFNHATQLKRQPGSTLKPLAVYVPALEQGYEVYDILKDEPFHIKEYEPKNSDQAFHGNVTMYEAVAKSYNVSAVWLLEQIGLDKGLKSLERFGIPLVPEDRTYPIALGGMHVGTSPFVMAQAYSTFANDGIQVEAHAIREVQNAEGEIIGKWYKKETRVTSEKIAQKMTYLLKGVVEKGTGGKAKVTNVDTAGKTGTTQLVNGPSVGAKDSWFVGYTPDLVGAVWVGYDKTDSEHYVPGGSQITTTMFRDIMKKANANPAQKAFQLSLISEADYKKQLQTIEEEKRRKEEEKKRQEEEQKRKKEQQEWFNKVKEWIPSLW	PGPT0023895_577	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
AK009_00191	429			hypothetical protein	ATGAGAGTTATGTCACCGATACGCATTTGGATTGCTCTTATGATATGCATTATTTTATGTGTAGGGTTTTTTTTAACTCTAAAATATTCTACTATTTCAAAAGCAGAGAGAAAAACAGTTCCATACACACTTTTGTATACGAAACAAAACAACATCCTTTATTCCAATTCCACAAATAATGAAAAAAAAGTTATAAAAGGAATGCTTATTACGAAAGCTTCTAGTTACGAAACTCTACTTCAAATTACTGAAACGATTAAAGATCAGTATACAAATAAAGGAATTGATGAAATCACGCTGACTATCCATAATGAAAATAATGGTAGTTATGAAGAAGAATTACCATACGAACCGATTAGTAAAGGAACAATAATCATCACATACGATTCTCAATCCTTTGGCAGTACCAACATTACTCTTAATGAATAG	MRVMSPIRIWIALMICIILCVGFFLTLKYSTISKAERKTVPYTLLYTKQNNILYSNSTNNEKKVIKGMLITKASSYETLLQITETIKDQYTNKGIDEITLTIHNENNGSYEEELPYEPISKGTIIITYDSQSFGSTNITLNE				NA	NA	NA	NA	NA
AK009_00192	228			hypothetical protein	GTGTTAGGAATAGAAATAGTATTTGCTGTAGGTTGTACAGAAATCGTTGTACCAGCTTGTAAAGTAACAATTGTAGAGAAAGAAACAGCACTACCGATAACATTAGTTGAAAAATTACGAGTAAGTGGTTGGCCATTGAATGAAATACCGAATCCAAACGGTGAAGAGCCTGGGAAAGTTGTAGATGCCGAGAAACTAATATCATATACGCCTGTAAAGTATGTGTAG	MLGIEIVFAVGCTEIVVPACKVTIVEKETALPITLVEKLRVSGWPLNEIPNPNGEEPGKVVDAEKLISYTPVKYV				NA	NA	NA	NA	NA
AK009_00193	1266	sasA_1		Adaptive-response sensory-kinase SasA	ATGCTTCCAAACGATGCTACTGTATCTCATGAAAAACGAATTGAAGAACTAGAAAATAAAGTGCGTTTTTATGAAGAACTTGTAAATCAATTACCACATCATTTCACATACAAAAATCCACATATTGGTTTACAAATAAAGAAAACTAGAGCAACTCATTCCATTCAAGAAATACCAAAAGAGAATAAAGAGGCTCATTTTCAACTTACTTGTGATTCATTATTCTTATTTGAACAACTTGAAAAACACTTTGTACATATTTTTGATGCCTTTTCACATCATGTAACCTTTGTCGATAGTAAAGGGAATATTACTTTATGTAATCAAGTTGCCGCAGATGATTTCGGTGTAATACGAAATGATATTATCGGAAAACCGATTCAACAATTACTAAACTTGCCGGAAGAAAAAATTAAAGCGATTGAAACATTAAGAACGGGAACAGAAATATATAATGAAGAAGTTTTAGACAAAAACTATGGCATTATAAACAACCGAATTATTCGCGATTATAACGGGGAGATTTTTAGGGTTATTAGTGTCTTTCATTATTTAAACACAGAGCGTGATGCAGAGAAGTTTTCGTTAGCAGGACGAATCGCAGCCGGAATTGCACACGAGGTACGAAACCCTCTTACGACAGTACGAGGATACTTACAATTTTTACAAGAAAGTGTTTCTCCATCAAATAAAGAGTTATTTAAAAGCTTACTTATCCCTGAATTAGATCGTGCAAATAGTATTATTACAAAATTTTTAGCCATTTCAAAAACACGTGAATTTACAAGAGAACCGTTTCCTATTAATACATTTTTATGCGACTATATTCAACAGTTACTAGCTAGTGAAGTCTTCTTGCATAACATTTCAATTGATTATAACTTTTCTAATGAATTAGATGATATTTTAGTCAATATTGATCGACATGAACTTGTTCAAGTATTTTTAAACCTATTTCAAAATGCCGTCGATGCTCAAGGCGAAAAGCCTCTTTCTATTCAAATCACTAGTTATCGCCTAGATAACTTCGTTCGGATTACTTTCACAGACAATGGAATTGGTATTCCTCTAGCTATTCAAGAATATATCTTTGATCCATTCTTCTCAACGAAGGATTCGGGGACAGGACTAGGCTTATCAGTAACAAAAAAAATCATCCAAAATCATAACGGTACGCTCAAAATGACTAGTGATCCAGACGGTACAACCTTCACTATTTCTATTCCGATTTTACCTAAAGTAAATCGTGAAGCAATTAACTTATAA	MLPNDATVSHEKRIEELENKVRFYEELVNQLPHHFTYKNPHIGLQIKKTRATHSIQEIPKENKEAHFQLTCDSLFLFEQLEKHFVHIFDAFSHHVTFVDSKGNITLCNQVAADDFGVIRNDIIGKPIQQLLNLPEEKIKAIETLRTGTEIYNEEVLDKNYGIINNRIIRDYNGEIFRVISVFHYLNTERDAEKFSLAGRIAAGIAHEVRNPLTTVRGYLQFLQESVSPSNKELFKSLLIPELDRANSIITKFLAISKTREFTREPFPINTFLCDYIQQLLASEVFLHNISIDYNFSNELDDILVNIDRHELVQVFLNLFQNAVDAQGEKPLSIQITSYRLDNFVRITFTDNGIGIPLAIQEYIFDPFFSTKDSGTGLGLSVTKKIIQNHNGTLKMTSDPDGTTFTISIPILPKVNREAINL				NA	NA	NA	NA	NA
AK009_00194	846			hypothetical protein	GTGCTGTTCATTGGAGTGACAGGATGGGGAGATCATGATTCTTTATACGTAGATTCCTATGAAAATAGAAATAAATTACGAACATATAGTGAGTATTTTCCTATTGTGGAAGTGGATAGTTCATTTTACGCGATGCAACCTGCACGAAATTATATAAAATGGGCAATGGAAACGCCGAAAGATTTTTCTTTTGTCGTAAAAGCGTATCAAGGAATGACAGGACATATGAAAGGGGAATTTCCTTTTTCTACGTTTGATGAGATGTTTGATGTGTATAAGCAGTCCATTCTTCCTTTAATAGAAGCTAATAAATTAAAAACAATTTTATTTCAATATCCACCATGGTTTGATTGCAAAAAGAAAAATGTAGATTTTCTTCGATATACGAAAGAAAAAATGGAAGGTTTACCATGTGCAATAGAATTTCGAAATCAAACATGGTTTTATCCAGAAATGAGAGATAAGACGTTACAGTTTCTAGAACAGGAGAAATGGGTTCATACAATTTGTGATGAACCACAGGCTGGGATAGGTTCTGTGCCACTCGTATTAGAGGTTACGAATTCAAACATGGCATTAATACGTTTTCACGGTCGAAATGTTCATGGTTGGCTTGATAAAGGGGAAAATTGGAGAGCGGTTCGTTGTTTATATCGCTACAACAATAAAGAACTGGAAGAATGGGTGGAACGACTAGAGCAATTAAAAAAGAAAACAAAGGATATATACGTACTGTTTAACAACAATTCAGGTGGGGATGCAGCAGATAATGCGAAACAGCTTATGAAAATGATGAACATTACATATGGTGAGCCGAAGCCGGAGCAATTAAATTTTTTTGAATGA	MLFIGVTGWGDHDSLYVDSYENRNKLRTYSEYFPIVEVDSSFYAMQPARNYIKWAMETPKDFSFVVKAYQGMTGHMKGEFPFSTFDEMFDVYKQSILPLIEANKLKTILFQYPPWFDCKKKNVDFLRYTKEKMEGLPCAIEFRNQTWFYPEMRDKTLQFLEQEKWVHTICDEPQAGIGSVPLVLEVTNSNMALIRFHGRNVHGWLDKGENWRAVRCLYRYNNKELEEWVERLEQLKKKTKDIYVLFNNNSGGDAADNAKQLMKMMNITYGEPKPEQLNFFE				NA	NA	NA	NA	NA
AK009_00195	195			hypothetical protein	ATGAACACACTTACAATTGAATTACCAAAAGAAACGGCTGAAAAACTTGATTTATTAAAACAAGCTTACGAAAAGAAAACAGGTGCTTCTATCTCTGAGAGCACTCTCGTGCAAACACTTATCTCAAAAGAATTTATCCAGGCGATAACTCCTTTTGATTTACAACAATTCATCAACGGAAAAGAACAGCATTAA	MNTLTIELPKETAEKLDLLKQAYEKKTGASISESTLVQTLISKEFIQAITPFDLQQFINGKEQH				NA	NA	NA	NA	NA
AK009_00196	531	xerC_1		Tyrosine recombinase XerC	ATGAAACAAGCAGGACAACCTATTCAAAATGAAAAACAATTAGAAACTATCAAAAATATACTTTTACAATCTTCGAAACGTGATGGCTTATTATTCGTATTAGCTGTAAATTCTGGCTTAAAAGTAAGTGAAATCTTACAATTAAAAGTTAGTGATGTAATCGATGAAAATGAAAATGTTCGCCATTCCATTTTATTTTACAATGAAAAAGTGAAGAAACATAAATGGTTTGCTGTAAATGAAGACTTACAGCACGCAATCGAAGACTACATGAAAGAACGTAAAACTTGGAAACGTAATGAACCATTGTTAAAATCTCAAAAAGGAACAAAATCTATTACGAGACAACATGCATGGTACATTTTAAACAAAGCTGCAAAAGAAGTTGGATTAGAAGGGATTAGCTCACATACACTTCGAAAAACTTGGGGTTATTGTGCATACAAATCAGGTGTTGATATTGCATTTTTACAACACTTCTTTGATCACAGTACTCCATCAAAAACTTTAAAGTATATCGGTATTGCTTAA	MKQAGQPIQNEKQLETIKNILLQSSKRDGLLFVLAVNSGLKVSEILQLKVSDVIDENENVRHSILFYNEKVKKHKWFAVNEDLQHAIEDYMKERKTWKRNEPLLKSQKGTKSITRQHAWYILNKAAKEVGLEGISSHTLRKTWGYCAYKSGVDIAFLQHFFDHSTPSKTLKYIGIA				NA	NA	NA	NA	NA
AK009_00197	1815	sasA_2		Adaptive-response sensory-kinase SasA	GTGAAAAACAGAAGTATCGTCTTTAAACTATTTTTATTAACATCAACTTTATTTACAATAATATTCCTACTTTTTTTCCTAGGACAATCTCTATTTTTAGAGAAATTTTATATTAATAAAAAAGTAAAAACAGTTCAAACTGCTTTTGAAAAATTCGTAGATAATTATGACAAAAGTGATAAAAGTTATGAGAAAGTTAGAAAACTAAAACAAGAATTTCATGATAAAACAAATGCCGATATGCAGTTTTTGGATTCTAACGGTATTATTAAAAGTGATAACAATTACTATATCGATGTATTTAATCCCAACAATAATAAACAGTATTCCATTCCACTCAATAACCTTTTAACACCAGAAGAATATAATAAATTCGAAAATTTAGGTTTAAAAAAAGATGTAATAATTAATGTTGATGGAGTCGTACAAGAGAATAATATTATTACACCACAAAAATTAGGAACGAATTATAATCAATGGCAAAACGAACATTTCTATTCGGATTTTCAGTCAATTAATGGTAATCCTTCTAAGAATAGACTTGCAAGCCGATACAAATCTACAACTCGTATCGTCTTTACAGGTGTTATAACTAAGTTACAGCTCCCATCAAAAGCTGAGGTTCGTCTTGCAAATGATATTGAAACATTACAAGCCGTTCAATATTTTGCAGATATTATTAGAGATGGCACTTCTAACTCGAACCAATTAAACACTTTCATATTAGATGGCGGCGAAAATATAAAAAATAGTATCTTTGTAAAGCCGATTATAGAAAACGGAAAGATTACAGAATATGCTTTTGCGATAGCGTCTTTACAACCCGTTAATGAAGCGATGCTAGTTTTAAAAGACTATTATGTTTATGCCTTAATCATCGTGTTTCTCGTTATTATTTTGTTATCCTTCTACTACTCAAAAATCATTGTTAAGCCATTAATTAAAATGAATCGTGTTACAAAAAAAATGGCTAATTTTGATTTCAGCGAGAAATTACCTGTTACAGCCGACGATGAAATTGGTGGGCTTTCCGGCAGTATCAATACATTATCTGTAAATTTAAAAGATCGAATCGATCGATTAAATGTTGCCAATACAAAGTTACAACAAGACATTGAACGTGAACGTCAATTAGAGAAAACAAGAAAAGAATTCATTTCTGGCGTATCACACGAATTAAAAACACCACTGAGTGTAATTAGAAGTTTTGCAGAAGGTATTAAAGATGGTGTTAGTAAGGATACTTCGTATTATACTGATGTTATTTTAGAAGAAACAGAAAATATGAACAGGCTGATTGTTGAAATGTTAGAATTAGCAAAGTTAGAATCTGGTACTTACAAACTAGATATGACGACGTTCTCAATTGGTGAATTAACGCAACAAGTCTATACAAAATTATTATTTAGCATGGAAGAAAAGCATCTACAAGTGAACGTCGATGCAGACCCTTCTATACTTGTTAAAGCAAATCGTAGCCGTATTGAGCAAGTAGTTGTGAACTTACTAAGTAATGCCATCCGCTATACGCCGGATGGAGAAAAAATACAAGTCTCCATTATAGAAGCAGAAGATACCGTAAAAATCGAAATCGAAAATACAGGAAACCCTATCCCTGAAGAAAGTCTTGAAAAAATTTGGGATCGCTTCTATCGCCTAGATGCATCACGTAGCCGTCACACCGGAGGTACCGGTCTCGGATTATCTATTGTAAAAAACATTTTAGACCTCCATCATGCCGAGTACGGTGTGTATAATACGACTAACAGTGTTGTATTCTATTTCAATTTACAAAAAGTAAAAGAAGTCAAATAA	MKNRSIVFKLFLLTSTLFTIIFLLFFLGQSLFLEKFYINKKVKTVQTAFEKFVDNYDKSDKSYEKVRKLKQEFHDKTNADMQFLDSNGIIKSDNNYYIDVFNPNNNKQYSIPLNNLLTPEEYNKFENLGLKKDVIINVDGVVQENNIITPQKLGTNYNQWQNEHFYSDFQSINGNPSKNRLASRYKSTTRIVFTGVITKLQLPSKAEVRLANDIETLQAVQYFADIIRDGTSNSNQLNTFILDGGENIKNSIFVKPIIENGKITEYAFAIASLQPVNEAMLVLKDYYVYALIIVFLVIILLSFYYSKIIVKPLIKMNRVTKKMANFDFSEKLPVTADDEIGGLSGSINTLSVNLKDRIDRLNVANTKLQQDIERERQLEKTRKEFISGVSHELKTPLSVIRSFAEGIKDGVSKDTSYYTDVILEETENMNRLIVEMLELAKLESGTYKLDMTTFSIGELTQQVYTKLLFSMEEKHLQVNVDADPSILVKANRSRIEQVVVNLLSNAIRYTPDGEKIQVSIIEAEDTVKIEIENTGNPIPEESLEKIWDRFYRLDASRSRHTGGTGLGLSIVKNILDLHHAEYGVYNTTNSVVFYFNLQKVKEVK	PGPT0028450_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028450-vanSB|vanS|vanSD-K18345	NA	NA
AK009_00198	708	deoD	COG0813	Purine nucleoside phosphorylase DeoD-type	ATGAGTGTACATATCGAAGCAAAACAAGGCGAAATCGCTGAATCTATTCTATTACCAGGTGATCCATTACGTGCAAAATATATCGCTGAAACATTTCTAGAGGATGTTTCTTGCTATAATAACGTACGTGGTATGTTAGGTTTTACTGGAACTTATAAAGGAAAACGTGTATCTGTTCAAGGTACAGGTATGGGTGTTCCTTCTATTTCTATTTATGTAAACGAATTAATCCAAAGCTACGGAGTTAAAAATTTAATTCGCGTTGGCACTTGCGGTGCAATTCAAAAAGATGTAAAAGTTCGTGATGTTATTATCGCAATGACGGCTTGTACTGATTCTAATATGAACCGTTTAACATTCCCAGGATTTGATTTCGCACCAGCTGCAAACTTTGATCTTTTAAAGAAAGCTTACGATGCTGGAACTGAAAAAGGATTACACGTTCGTGTCGGTAACGTCTTAACAGCAGATGTGTTTTATCGCGAAAGCATGGACATGGTTAAAAAACTTGGAGATTACGGTGTATTAGCAGTAGAAATGGAAACAACTGCTCTTTATACATTAGCAGCGAAATACGGCGTAAATGCATTATCTGTATTAACAGTTAGCGATCACATCTTCACTGGCGAAGAAACAACATCTGAAGAGCGTCAAACTACATTTAACGAAATGATTGAAATCGCTTTAGATGCAGCAATTCAACAATAA	MSVHIEAKQGEIAESILLPGDPLRAKYIAETFLEDVSCYNNVRGMLGFTGTYKGKRVSVQGTGMGVPSISIYVNELIQSYGVKNLIRVGTCGAIQKDVKVRDVIIAMTACTDSNMNRLTFPGFDFAPAANFDLLKKAYDAGTEKGLHVRVGNVLTADVFYRESMDMVKKLGDYGVLAVEMETTALYTLAAKYGVNALSVLTVSDHIFTGEETTSEERQTTFNEMIEIALDAAIQQ	PGPT0013385_1152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
AK009_00199	789			hypothetical protein	ATGGTAGGTGATGTTTTGAAAAATCTTGTCATTGGGCTTATTGCGTTAGTACTTATTGTGGCAGGAGGATTTTACATAAAAAAATATCAAGAAAACGAAGAGACTGTAGGAGATGTTCAGGAAGTAAAGTGGGATGTGTCAAATGGAAAGGGAAATGAGAAAGTAGATATTGTATTTCAGTTGTTAAACAAAAAGAATAATGAAATTCGTGGTGTAAATGATCAAATTCGGGCAGTGATTGTAGATGGACAGTTAAAACACATACAACAAATTAAACCTACATTTGCAGGGAACGGGTCATATAAGTTATCTTCCAAAATAGCGAAAGATGAAGAATATACGATATTTTTATACGAAGATAAAAATAAGTCCGTAGAGTCATTCGCTAGAAAAGATTTTGGTAGAACGAAAGAGGAGAACAATAAGAAAAAAGTGAAATTTCCAATCGACAGTGTACTTACAAAAAAAATAGGGGAGTATGAAGTTTCTCTTTTATTTGGCGCATTACATCCGAATGAACCAGTTACGTTAACATTTCAGTTTCAAGCGAAAAAGGGTGAAAAATTGAAATTACATTCAGAGAGAGGAGAAGTAGAGTCACTCTATATCGTGGATGAAACGAAGGAGAACTTTTTATACGCTATGCCTGTGGATACGGATGAACAATTACAATACCGTATTACATTTCCTGCCGAGGGTACGTATAAAATGTGGGGGAATTTCTATATAAATGGTAAGAAATATGAAAAAGAATTTATTGTACAAGTTCAAAAAAGAAAAAACAGCTAA	MVGDVLKNLVIGLIALVLIVAGGFYIKKYQENEETVGDVQEVKWDVSNGKGNEKVDIVFQLLNKKNNEIRGVNDQIRAVIVDGQLKHIQQIKPTFAGNGSYKLSSKIAKDEEYTIFLYEDKNKSVESFARKDFGRTKEENNKKKVKFPIDSVLTKKIGEYEVSLLFGALHPNEPVTLTFQFQAKKGEKLKLHSERGEVESLYIVDETKENFLYAMPVDTDEQLQYRITFPAEGTYKMWGNFYINGKKYEKEFIVQVQKRKNS				NA	NA	NA	NA	NA
AK009_00200	2580	mprF		Phosphatidylglycerol lysyltransferase	ATGTCGTTTTCATGGAAACGTTTCTTACAAATCGGGAAAATTATCTTCCCATTTGTTGTATTAACAATTGTATTCTTTCAAGCAAAAAAAGAATTAGCGGGCATTTCTTTTTTAGAAGCGATTGATACAATTAAAAACATTCCAACTGGAGGAGTCTTTTTAGCAATTACACTTGGTGCATTCGCTGTATCAACAATGTTCTTTTATGACTATGTTATGCTTCGTTACTTAAAAGCTGATATCCCTGTCCAAAAGATTTTCCGTATCTCGTGGATTGCTAATACTTTAAATGGATTTATCGGGTTTGGTGGTCTAGTTGGAGCCGGCGTACGCACAATGCTTTATCGTCCATACATAAAAGAAAATGGAAAACTTATTAAAAGTATCGCTTGGATGACAACTGCCTTTATTAATGGATTAGCCATTCTTTCATTTCTTGGTCTTATCGGAATATTAGACACGAGATTTATTTTGCATGAAAAACCATGGCTATGGCCTGTTCTTATCTTCTTTGCTCTTTTCGTCCCTATATATATCGGATTTTCTAAATTAAAAAATAGAAAAGCGATGCAAACAGAGGGACAAGAAGAAGAGGAGAAAAACCCAACTGTTTTATACTCATTAGTTTCATTAGTCGAATGGGTATCTGCTGGTATTGTTATGTACGTCATATTACTATTATTTGGCATTGAAATCGAATTCCAAAAGTTTTTAGGCGTATATGTCATTGCTGCTTTAGCTGGTGTCGTTAGTCTTGTTCCTGGTGGTCTTGGATCATTTGATCTTGTCTTCTTAACTGGGCTTGGGCAATACGGCATCGATACAGGTGTTTTGCTTCCTGCTATGTTATTATATCGTCTCGTCTATTACATCTTACCATTCTGCCTTGGTCTCATTTTTGCAGCTTTTGAAATGACAGGAGTAGCCATTAAAAAGTTTGAAGATAAACCCTTTATTGCGCCTGCATTAGAGACAACTGGTGTTATATGGACTTTGCAGCGTGACTTTCTAGGAAAGTTAGGTTCTTGGGCATCTGCTGCTTTAACAGTATTTGCTGGCTTAATGGTTATTTTATCAACTATTCTACCGACAAGTATAAATCGGGCACACGCCTTACATATTCTAGCTCCAAAACATCTTATTCAATTTTCTTTTAGCTTATCGCTAACATTCGGTATTCTCCTCCTCATTCTTTCACGAGGGATATATTACGGAACAAAACGTTCTTATTATATGACGATTGTTTCTTTAATTGGAGCGGCTATTTTTAATACACTAAAAGGAATTGATGTTGAAGAAACTTTTATTTTATTAATCGTACTCGCTGTATTGTATATGCTTCGTAAAAGGTTTGTACGTGAGAAAATGGAAGTCTCACTTTCCGATATCGTAAAAGTTTTTATATTCCTACTTGTAACGTTATATTTATATAAAAACTTAGGTATTTTATTTGCAAGTGCAAAAGAAGCTTTCCAACCTGATTTTGTCGTTCGTAATATTACACAAGTGAAACGAAGTGCATTAGCAGCTGCCTTTTTTGTTCCTACTTTTTTACTAATTGGTTCACTCATTGCAAATCGTTATCGAAATGAATTTCCCGGGCAACCAGCTAATGATAAAAGATTACAAAACTTCTTAGATGAACATGGTGGAAATGTACTTAGTCATTTAGGTTTTTTAGGAGATAAACAGTTCTTTTTCAGTAGTGATGGAAAAGCACTCATTCTCTTCTCAATAACTGGAAAACGACTTATTGTACTAGGTGATCCAATCGGGGACCCTTCCTCCTATCGTACTGTATTGCAAGAGTTTTTAGCTGTGGCTGATCGATTTGGATACATTTGTGTATTCTACCAAATTGAAAGTAAATGGATGAGTTTATATCACGATTTTGGTTATAACTTCTTTAAGCTCGGTGAAGAAGCTGTTGTTGATTTAAATACATTTACAATAACAGGAAAGAAACGCGCTGGCATGCGAGCTACTTTCAACCGTTTTGAAAGAGAAGGCTATACATTCTCTATTCATGAGCCACCTTTCTCAGACGAATTATATGAAGAGTTAAGAAAAGTTTCAGATGCATGGCTTGGTGGAAAAAAAGAGAAAGGTTTTTCACTCGGATACTTCGATCGTGAATATATTAGTCGCGCTCCCATTGCAACATTATCTGATGCGGATGGAAAAATTATTGCATTCACAACATTCATGCCCGTATATCAAAACGGATCATTATCTGTCGATTTAATGCGATATTATCCAGATGCGCCTAGCGGCATTATGGACGCAATTTTCATCCACTTATTCCAATGGGCAAAAGAAAATGAATACCACTCCTTTAATATTGGTATGGCACCACTTTCAAATGTTGGTTTATCCACACAGTCTTTCTGGTCTGAACGAGTGGCTGCTGCAATCTTTAATAACGTTCGTTATACGTATAGTTTCAGCGGATTACGACATTTTAAAGAAAAATATAAACCAGCATGGAGCGGTAAATATTTAGCATTTAGGAAGAATCATTCTTTACCAATTACAATGCTCTCTGTAACAAAATTAATAGGAAAAAGAAAAAACAGCTAA	MSFSWKRFLQIGKIIFPFVVLTIVFFQAKKELAGISFLEAIDTIKNIPTGGVFLAITLGAFAVSTMFFYDYVMLRYLKADIPVQKIFRISWIANTLNGFIGFGGLVGAGVRTMLYRPYIKENGKLIKSIAWMTTAFINGLAILSFLGLIGILDTRFILHEKPWLWPVLIFFALFVPIYIGFSKLKNRKAMQTEGQEEEEKNPTVLYSLVSLVEWVSAGIVMYVILLLFGIEIEFQKFLGVYVIAALAGVVSLVPGGLGSFDLVFLTGLGQYGIDTGVLLPAMLLYRLVYYILPFCLGLIFAAFEMTGVAIKKFEDKPFIAPALETTGVIWTLQRDFLGKLGSWASAALTVFAGLMVILSTILPTSINRAHALHILAPKHLIQFSFSLSLTFGILLLILSRGIYYGTKRSYYMTIVSLIGAAIFNTLKGIDVEETFILLIVLAVLYMLRKRFVREKMEVSLSDIVKVFIFLLVTLYLYKNLGILFASAKEAFQPDFVVRNITQVKRSALAAAFFVPTFLLIGSLIANRYRNEFPGQPANDKRLQNFLDEHGGNVLSHLGFLGDKQFFFSSDGKALILFSITGKRLIVLGDPIGDPSSYRTVLQEFLAVADRFGYICVFYQIESKWMSLYHDFGYNFFKLGEEAVVDLNTFTITGKKRAGMRATFNRFEREGYTFSIHEPPFSDELYEELRKVSDAWLGGKKEKGFSLGYFDREYISRAPIATLSDADGKIIAFTTFMPVYQNGSLSVDLMRYYPDAPSGIMDAIFIHLFQWAKENEYHSFNIGMAPLSNVGLSTQSFWSERVAAAIFNNVRYTYSFSGLRHFKEKYKPAWSGKYLAFRKNHSLPITMLSVTKLIGKRKNS	PGPT0024390_584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
AK009_00201	390			hypothetical protein	ATGATTATAAAAGGTTATGTAGGATATGAGTTAGAAAAGGCGAAACCTAATACATCAGAAGATTTTTTTAACAGATCTGAAGTGACATATATATTAAATGATAAAGAGAAAACTTTTTCGGTTTTATACGTTCGATATTTTGAAGAAGTTTTACAAGAAATTACTCCTTTTGAAGGAAATCCAGTGTATAAAGTAGAAGAACAAAACATATATTTGCGCGATATTGTAGCGATATGTTGTTTAGTGAAGGATAGGGAACTTCGTGCGCAAAAACGTTTGTATTTAAATAATCTGGAAGAATTTCAACAATATTTTGATGAGGGAACGGTGTCGAAAGTACAAGAAATATTGGCTGAATTACATAAAAATAAAAGAGTAGAAATAGCGTGA	MIIKGYVGYELEKAKPNTSEDFFNRSEVTYILNDKEKTFSVLYVRYFEEVLQEITPFEGNPVYKVEEQNIYLRDIVAICCLVKDRELRAQKRLYLNNLEEFQQYFDEGTVSKVQEILAELHKNKRVEIA				NA	NA	NA	NA	NA
AK009_00202	492			hypothetical protein	ATGTCTAATTTGATGGTTGAAAATCAAACAGAACAAGTTTCTATATTTTTAGAAGATGCTATTAATTTGATAACCAATTATGTAAATTATCATACGTTGCCTTCTTTATTAGAGGAAACACCAGCAGGGAATGAGCAATATTATAAAGGGTTATTAGCATCAATGAGACGACTTCTCGTTTTTTGCGAAGAAGGACATGATGCATGTTTTGTTTTGTTGAATAGTCAGCCATTTCGAAAAACAGCAGCTGAAAAAATTTTATATAAGATTTACCATCAAGTAATTGCAGAGTTTTTTTCACCAAAGAGTGATTATTGGTATGAAAATAGTCGGTCTGCATATACAGGAAAAAATTCTATCGTTTTTCAACAAACACCACCTGCATCTTTGGGGCAAGTGATGAAGAGTTTAGAAGGTAAATTTCAATTGATGCGTGAAGAACTAGAATATTATGAGACGGATTATCAGACAAAGATGTTACACAAATATTGA	MSNLMVENQTEQVSIFLEDAINLITNYVNYHTLPSLLEETPAGNEQYYKGLLASMRRLLVFCEEGHDACFVLLNSQPFRKTAAEKILYKIYHQVIAEFFSPKSDYWYENSRSAYTGKNSIVFQQTPPASLGQVMKSLEGKFQLMREELEYYETDYQTKMLHKY				NA	NA	NA	NA	NA
AK009_00203	915			hypothetical protein	ATGAATCAGCAAGGTGTATTTACAGATTACTTTCATGAAGTAGAAAATTGGTGTGAAAGTGTTCTTCACGTATTAGATAGCCGCGCAATGGAAGTGTATGATGTCCATATGCTTGCTTATAAAATTCAGGCGTTGTTAGAGCGTATGAAAGAGCATGAGTATGAAACAGATGCAGAGTTTATGTATGAAATAAGTGATGATGTAGAACATATTCAGCATCACTTGCAGGAAGTATTTATGCAAGAAGAAGAGGAATATGAATTATATGAAAGAGGGGATAGCGAACGAGCTGTTCCAATTGGAGGACATACACTCCCGCCATTACCTTATCCGTATAATGCGTTAGAACCTTATATTTCTAAAGAAATTATGATGTTACACCATGATAAACATCATCGGAGTTACGTGGAAGGGTTAAATAAAGCAGAGAAGATGATGGAAGAAGCGAGAAAAACAAATCAATTTGATTTAATTAAGCATTGGGAAAGAGAAGCGGCTTTTCATGGGTCAGGTCATTACTTACACACGATATTTTGGAATAACATGAAAAAAGACGGTGGTGGGAGTCCAAGAGGTGCTTTTTCACAACAAATCGAACAAGATTTTGGGAGCTTTTTACGTTTCCAAAAACATTTTACAGAAGCGGCCTCTAAAGTAGAAGGTTCAGGCTGGGCAATTCTCGTTTGGGTGCCCCGGTCTGGAAGGTTAGAAATTTTGCAAAGTACACTTCATCAATTATTTACACAATGGGATACGATACCACTCCTTGTACTAGATGTCTGGGAACATGCGTATTATTTACAATACCAAAATCGAAAAGATGAATATATTAAAAACTGGTGGAATGTTGTAAATTGGCCTGATGTAGAAAAAAGGTTTGAAACTGCGAAACAAATTGAATGGACACCATATTAG	MNQQGVFTDYFHEVENWCESVLHVLDSRAMEVYDVHMLAYKIQALLERMKEHEYETDAEFMYEISDDVEHIQHHLQEVFMQEEEEYELYERGDSERAVPIGGHTLPPLPYPYNALEPYISKEIMMLHHDKHHRSYVEGLNKAEKMMEEARKTNQFDLIKHWEREAAFHGSGHYLHTIFWNNMKKDGGGSPRGAFSQQIEQDFGSFLRFQKHFTEAASKVEGSGWAILVWVPRSGRLEILQSTLHQLFTQWDTIPLLVLDVWEHAYYLQYQNRKDEYIKNWWNVVNWPDVEKRFETAKQIEWTPY	PGPT0004190_248	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
AK009_00204	1125	dacB_2	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	ATGAGACGAATTTGTGTAATCATTACGCTTCTTATTATGTACGCAAGCGTTATGCCGATTCCTACATATGCAAAGATGAACAGCAATGTCAGTGCTCGAAATGCTGTATTAATGGAGCAACAGTCTGGTCGTGTATTATACGGAAAAGCAGAACATGAACCACAAAAAATTGCTAGTATAACAAAAATTATGACTGCCTTGTTAGCTGCTGAATCAGGGAAGATGAAAGAAATGGTGTCAGTTAGCAATGAAGCGGTGAGGGTGGAAGGATCAGCAATCTATTTAAAGCCTGGACAAAAAGTGAAGTTAGAAGATTTAGTATACGGACTCATGCTTAGATCTGGTAATGACGCAGCGCAAGTAATTGCTGAAAGTGTGGGTGGGAGTATAGATGGATTCGTATATTTAATGAATGAAAAGGCGAAAGAAATTGGAATGAAAGATACTCACTTCTCAAACCCTCATGGTTTAGATGGAGATGGATCACATTATTCGTCGGCTTACGATATGGCGTTATTAACGAAGTATGCAATGGGAAACGAGTCATTTAAAAAAATCTTTGGAACAAAAACGTATAAATCCGATTCTTGGGATTACCCGTGGAAAAATAAACATAAGTTGGTAACGTCTTATTATGAATTTGCAACAGGAGGAAAAACAGGCTTTACGAAGAAAGCAGGAAGAACGCTTGTTACAACGGCATCAAAAGATGGACTAGATTTAATTGTCGTAACTTTGAGTGCTTCTAGTGATTGGGATGATCATATGAATCTATTTGATAAAGGATTTGAACGTTTCAAGCAAACGAAAGTTTTAGGACAAGGAGCAATTGCTGAAATAAATGAAAAGAAGTATGCCAACCATGTTTATACGAAAAATAGTTTTTCCGTACCGTTAACTGAAGAGGAAAGAAAGAACGTATTATTAAAAGTTGAACTGGATAAAAGTATAACGCTTGAGGATGGAGTAAAGGTTGGAAAGACAGATGTTTATGTTGGCAATGAGAAAGTTGGAGAACGGAATTTATTTTATAGTAAACGGAAGTTAGTAGCTACAACGGGACTTTACTGGAATAATGTGAAAGAAATTTTTTCTTACATGATAGGTGTTGGGAACAATGGTTAA	MRRICVIITLLIMYASVMPIPTYAKMNSNVSARNAVLMEQQSGRVLYGKAEHEPQKIASITKIMTALLAAESGKMKEMVSVSNEAVRVEGSAIYLKPGQKVKLEDLVYGLMLRSGNDAAQVIAESVGGSIDGFVYLMNEKAKEIGMKDTHFSNPHGLDGDGSHYSSAYDMALLTKYAMGNESFKKIFGTKTYKSDSWDYPWKNKHKLVTSYYEFATGGKTGFTKKAGRTLVTTASKDGLDLIVVTLSASSDWDDHMNLFDKGFERFKQTKVLGQGAIAEINEKKYANHVYTKNSFSVPLTEEERKNVLLKVELDKSITLEDGVKVGKTDVYVGNEKVGERNLFYSKRKLVATTGLYWNNVKEIFSYMIGVGNNG	PGPT0024040_5283	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_00205	597	spmA	COG2715	Spore maturation protein A	ATGGTTAATCTCGTATGGGTAGCGATGGCTGTCATTGGGATTGTATACGCCATGATAAATGGAACGATGGAAGAAGTGAATAAGGCTGTATTTGACGGAGCAAAAGATGCAGTAACGATTTGTATAGGACTTATTAGTGTTTTAGTATTTTGGCTTGGTTTAATGAAAATTGCAGAGGAAGCCGGATTGTTAAAAAAATTAGTTTCACTTTTTATGCCGATAGTAAAAAGGTTGTTTCCAGAAATACCAAAGGATCATCCGTCCATGGGATTTATTCTATCAAATATGATGGCAAACTTTTTTGGTCTAGGTAATGCAGCAACCCCTCTTGGTATTAAAGCGATGGAACAACTAAAAGAGTTAAATGGAGGAAAGGATTCGGCGAGCCGTTCTATGGTGACGTTTCTAGCATTAAATACATCAGCTATTACATTAATTCCTACGACAGTCATTTCAATTCGAATGACATATGAATCAGCCAATCCTACTGAAATTGTTGGGGTAACATTTATTGCACAAGTACTTTCTATGATTGGAGCAATTTGGATTGACCGCTATTTTTACCGAAGAAGGAGTAGAAAGGGGCGGAAAAAATGA	MVNLVWVAMAVIGIVYAMINGTMEEVNKAVFDGAKDAVTICIGLISVLVFWLGLMKIAEEAGLLKKLVSLFMPIVKRLFPEIPKDHPSMGFILSNMMANFFGLGNAATPLGIKAMEQLKELNGGKDSASRSMVTFLALNTSAITLIPTTVISIRMTYESANPTEIVGVTFIAQVLSMIGAIWIDRYFYRRRSRKGRKK				NA	NA	NA	NA	NA
AK009_00206	531	spmB		Spore maturation protein B	ATGAGTATTGTAAATACAATTTCCTTATGGGTAATCCCTTGTGTAATTGGTTTTATCCTTTTATATGGCACGATAAAGAAAGTGCCGACGTATGAATCGTTCGTTGAGGGAGGAAAAGAAGGGATTCAAATTGCAATTTCCATTTTACCGTTTATGGTTGGAATGCTTGTGTCTATTTCTATATTCCGATCGTCAGGTGCGCTAGATGCAATGATATCAGTAATGAAGCCAATGCTAGATTTAATTCACGTTCCAGCAGAAATCGTTCCATTAGCACTAATACGTCCTATTTCAGGTTCTGCTGGTCTAAGTATTACGACTGATTTAATTGCTACATATGGGCCAGACTCATTCATTGGGAGATTAGCTTCTACGATGCAAGGGAGTACAGATACGACTTTTTATATTTTAACAGTATACTTCGGAGCTGTTGGTATTAGAAAAATGGGAGATGCATTAAAAGTAGGTCTTTTTGCAGATTTAATCGGAATTATTTGCTCGATTGTCTTTGTTTCCCTATTGTTTCAGTAA	MSIVNTISLWVIPCVIGFILLYGTIKKVPTYESFVEGGKEGIQIAISILPFMVGMLVSISIFRSSGALDAMISVMKPMLDLIHVPAEIVPLALIRPISGSAGLSITTDLIATYGPDSFIGRLASTMQGSTDTTFYILTVYFGAVGIRKMGDALKVGLFADLIGIICSIVFVSLLFQ				NA	NA	NA	NA	NA
AK009_00207	729	rluB	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGGAACGATTACAAAAAGTGATTGCGCAAGCAGGTATTGCATCGAGAAGAAAGGCTGAGGAATTAATTCAGCAAGGAAAAGTGAAAGTTAACGGAAAAATAGTGAAAGAGTTAGGAACAAAAGTAACTCCTCAAGATAAAGTAGAAGTAAATAACATCCCTCTTGAAAAAGAAGAACCTGTTTATTTTTTACTATATAAACCAACTGGTGTAATTTCAAGTGTATCAGATGATAAAGGTAGAAGTGTTGTAACAGACTTTTTCCCTGAAATTACACAACGTTTATTCCCAATCGGACGTCTAGATTATGATACGTCAGGAGTATTATTAATGACAAACGACGGGGACTTCGCAAATATATTAATGCATCCTAAATATAAAGTTGAAAAAACGTATGTTGCAAAAATAAAAGGCCCATTAACAGGTGAGAAAATTCGCATGTTAGAACGCGGTGTTGCATTAGAAGATGGTAAAACAGCACCAGCACATGTGAAAATTATTTCTTGGGACAAGCGTAAAGAGATGGCTATTGTACAATTAACAATTCATGAAGGACGTAATCGTCAAGTGCGTCGTATGTTTGAAGCGTTAGACTGTAAAGTAGTGAAATTAAAACGTGAACGTTATGCTTTCTTAGAAGTAGGAAGCCTGCGACCTGGTGATGCGAGAGAATTGACACCACATGAGGTGAAACAATTACGCGCGCTTGCTTCTACAAAGCCAAGATAA	MERLQKVIAQAGIASRRKAEELIQQGKVKVNGKIVKELGTKVTPQDKVEVNNIPLEKEEPVYFLLYKPTGVISSVSDDKGRSVVTDFFPEITQRLFPIGRLDYDTSGVLLMTNDGDFANILMHPKYKVEKTYVAKIKGPLTGEKIRMLERGVALEDGKTAPAHVKIISWDKRKEMAIVQLTIHEGRNRQVRRMFEALDCKVVKLKRERYAFLEVGSLRPGDARELTPHEVKQLRALASTKPR				NA	NA	NA	NA	NA
AK009_00208	522	resA_1	COG0526	Thiol-disulfide oxidoreductase ResA	ATGAAGAAAAATCGCTTATTATTTCGCGTTATTATTCTACTCATTTTATGTGGTGCTGTAGGATTTACCCTTTATCAAGGATTGTTTGCTAATAAAGAGAAAATGCAAATCGGAAAAGAAGCACCTAACTTTGTTGTGACAGATTTAGAAGGGAAGAAAATTGAACTAAAAGATTTAAAGGGAAAAGGTGTATTTTTAAACTTTTGGGGTACGTGGTGTAAACCTTGTGAAAAAGAAATGCCTTATATGAATGAATTATATCCAAAGTATAAAGAAAAAGGCGTTGAAATCATAGCGTTAGATGCAGATGAAACGGATATTGCAGTAAAGAACTTTGTGAACCAATATGGTTTGAAATTCCCAGTTGCTATTGATAAAGGACAAAAGATTATAGGAACATATGGAGTAGGTCCATTACCGACAAGCTTTTTGATTGATAAAGATGGAAAAGTAGTGGAGCAAATTATAGGTGAACAAACGAAAGAACAGTTAGAAGAGTATTTAAAGAAAATTACTCCGTAA	MKKNRLLFRVIILLILCGAVGFTLYQGLFANKEKMQIGKEAPNFVVTDLEGKKIELKDLKGKGVFLNFWGTWCKPCEKEMPYMNELYPKYKEKGVEIIALDADETDIAVKNFVNQYGLKFPVAIDKGQKIIGTYGVGPLPTSFLIDKDGKVVEQIIGEQTKEQLEEYLKKITP				NA	NA	NA	NA	NA
AK009_00209	1626	ccs1		Cytochrome c biogenesis protein Ccs1	GTGTTGAAAGAAATTAAATGTGAATGTGGACATGTTAATCCGATAGGAACCGTTTTTTGTGAAGCTTGCGGGAAACCATTTGAAAGCAATGAAAATGCAAAACTATTGGATATGCGCTATGAGGGGAGTGCACGGAGATCTCTCACGCAAACAAAAACGATAGTCGATAAAATTTGGAGCTTTTTCTCTTCTGTAAAAGTCGGTGTATGGCTAATCGTAATAACTTTAGCTGCATCAGCGATAGGAACTATTTTTCCGCAAGAAATGTACATAACTCCAGGGATTGCACCAGCTGAATATTATAAGCAAGAATACGGATTTTTAGGGCAATTATACTATCAATTAGGATTTAATAATTTATACGGTTCATGGTGGTATATGATTTTGATTGCTTCTATCGGTATTTCACTTGTGATATGTAGTTTAGACCGCGTTATTCCACTTTATAAAGCTTTAAAAAAGCAAGGCGTAAAAAGACATCCTAGTTTTTTAAAGAGACAGAGATTATATGGGACTGGTACACCGCAAGATGGTGACCTGGAAAGAGTGCAAAAGAATTTAAAGAAAAGAAACTATAACGTGAAAGTGGAAGACGGAAACGTTTTAGCAGAAAAGGGACGCTTCTCGCGTTGGGGTCCATATGTAAATCATATCGGTCTTATTATCTTTTTATTCGGTGCGATGCTTCGTTTTTTACCGAGTATGTACGTAGACGAAGCACTTTGGTTACGTGATGGTGAAACAAAAGAAATACCAGGGACGGATGGACAATACTACTTAAAAAACGAGAAATTTATAAAAGAAGTTTATGATAAAAGTAAGGACAAGGAAGTTTTTGAGGAAGCGATTGATCGTGTAGGCGATAAAATGATTGCGAAAAACTTCCAAACGAATGCTGTATTATATAAAGCTGTGGGCGAAAATATAGCAGGGCAAAAACCAAAGTTGGAAAAAGTAAAAGAAGCGGAAATTCGAGTAAATGAACCACTGAAATTTGATCAATTTGCAGTGTATCAAGTGGATTATAAAGAAAGTGAATTTAAAAGTATGTCCTTCAACTTGCAAAATAAAGAAAATAATCAAAAATGGGGACCGATTAAAGTAGATTTAACGAATCCTAAGGAAAAATATGATTTAGGAAATGGTTATTCTCTAGAACTATTAAGCTATTTTCCTGATTTTTATTTTGATGAGAATGGAAAACCGAATACAAAAACGAAATTACCGAACAATCCTGCATTTGTATTTAAAATGTTTACACCTGAAACACCAGATGGTGAAGTGAGTTTTGTTGGTATTCAGCAAAATATAGAACCTGATGGAAACAACAAATATAAAATGTCGTTTGCGGGTGTTGAAATGCAAAATGCAACAGCACTTACTGTAAGAAAAGATTTAACGCTTTGGATTCTCGGTATTGGAGGATTTATATTTATGGTTGGTGTCATTCAAGGTATGTATTGGAATCATCGCCGTATTTGGATACAACGTGTTAATGATGAATGGTGGATTGCAGGGCATACGAATAAAAATTGGTTCGGTTTAAAGAAAGATATTGAAAGAGTAATAGAAGGTACAGCAATTCCACAGCCAAATGATAAAGTAATCGATAAAAAAATTAGTTAA	MLKEIKCECGHVNPIGTVFCEACGKPFESNENAKLLDMRYEGSARRSLTQTKTIVDKIWSFFSSVKVGVWLIVITLAASAIGTIFPQEMYITPGIAPAEYYKQEYGFLGQLYYQLGFNNLYGSWWYMILIASIGISLVICSLDRVIPLYKALKKQGVKRHPSFLKRQRLYGTGTPQDGDLERVQKNLKKRNYNVKVEDGNVLAEKGRFSRWGPYVNHIGLIIFLFGAMLRFLPSMYVDEALWLRDGETKEIPGTDGQYYLKNEKFIKEVYDKSKDKEVFEEAIDRVGDKMIAKNFQTNAVLYKAVGENIAGQKPKLEKVKEAEIRVNEPLKFDQFAVYQVDYKESEFKSMSFNLQNKENNQKWGPIKVDLTNPKEKYDLGNGYSLELLSYFPDFYFDENGKPNTKTKLPNNPAFVFKMFTPETPDGEVSFVGIQQNIEPDGNNKYKMSFAGVEMQNATALTVRKDLTLWILGIGGFIFMVGVIQGMYWNHRRIWIQRVNDEWWIAGHTNKNWFGLKKDIERVIEGTAIPQPNDKVIDKKIS				NA	NA	NA	NA	NA
AK009_00210	1158	ccsA		Cytochrome c biogenesis protein CcsA	ATGGTGCAAATAAGTAGTAACTTTCTCTTTACCGCATTTATTTTATATTTAATTGCGACTCTATTTTTTGGTGGAGCCATTAAAGAAAAGGGACATAAATGGGCAAATGTAGGAATAACAATTACAATTTTAGGGTTTATAGCACAAACAGTATATTTTGTTACAAGGTGGATTGCATCAGGGCATGCGCCAGTTAGTAACTTTTTTGAATTCGGTACATTTTTCGGCATGATGCTTGTAGGAGCATTTATTGTAATGTATTTTATGTACCGCGTAAGTATAATTGGACTATTTGCATTACCAGTTGCGCTTTTATTAATTGCCTATGCAAGTATGTTTCCGAGGGAAATATCTCCGCTTATTCCATCTTTAAAAAGTAATTGGTTACATATTCACGTGACGACTGCAGCAGCAGGACAAGCAATTTTAGCGATTAGTTTTATTACGGGCGTCATGTATTTATTAAAAAATGTAGATCAATCAACGAGAAGTAAACGGACATTTTGGCTAGAGACGGTAGTGTTTACGCTTGTTTGTACAGTTGGATTTATTGGAGTAACAACGGTATTTTCTAGTATGAAATATGAAGCGAAGTTTCAATGGGTTGATAAAAATGAACAACAACTGGAAATGAAGTACAATCTTCCAGCTTTAGTAGGACCGCATGAAGGGAAGTTACAGACAGAAAATAAATTAGAACCGGTAGTTGAAGTTCCAGCGATTGTAAATGCAAAGAAATTAAATACTGTAATTTGGTCTGTGTTAGTCGGAACATTGCTTTATATCGTATTAAGGCTTGTTTTACGGAAGCGAGTATCGGCGGCACTTCAGCCGTTAGTAAAGAATACGAATAGTGATTTACTAGATGAAATCGGATATCGATCTATTGCAATTGGATTCCCAGTTTTCACATTAGGAGCGTTAATTTTTGCAATGATTTGGGCTCAAATAGCGTGGACGCGTTTTTGGGGCTGGGATCCGAAAGAGGTTTGGGCACTTATAACGTGGCTCTTTTATGCTGCAGTACTACATTTACGATTATCTAAAGGGTGGCATGGAGAGAAATCAGCTTGGCTTGCAGTAATTGGTTTTGCAATTATTATGTTTAACTTTATTGTAGTAAACTTAATTATTGCCGGTTTACATTCATATGCATAG	MVQISSNFLFTAFILYLIATLFFGGAIKEKGHKWANVGITITILGFIAQTVYFVTRWIASGHAPVSNFFEFGTFFGMMLVGAFIVMYFMYRVSIIGLFALPVALLLIAYASMFPREISPLIPSLKSNWLHIHVTTAAAGQAILAISFITGVMYLLKNVDQSTRSKRTFWLETVVFTLVCTVGFIGVTTVFSSMKYEAKFQWVDKNEQQLEMKYNLPALVGPHEGKLQTENKLEPVVEVPAIVNAKKLNTVIWSVLVGTLLYIVLRLVLRKRVSAALQPLVKNTNSDLLDEIGYRSIAIGFPVFTLGALIFAMIWAQIAWTRFWGWDPKEVWALITWLFYAAVLHLRLSKGWHGEKSAWLAVIGFAIIMFNFIVVNLIIAGLHSYA				NA	NA	NA	NA	NA
AK009_00211	717	srrA_2	COG0745	Transcriptional regulatory protein SrrA	ATGGAAAATGAATCAAGAATTTTAATTGTAGATGATGAGGATCGTATTCGTCGTTTATTGAAAATGTACTTAGAAAGAGAACAATACACAATTGAAGAAGCAGATAATGGTGATACAGCTTTAGAAATGGCGTTGCAAAATGATTACGATTTAATCTTATTAGATCTTATGATGCCTGGTAAAGATGGCATTGAAGTATGTAAAGGGGTTCGTGAGAAGAAAGCGACACCAATTATTATGCTGACAGCAAAAGGTGAAGAAGTAAATAGAGTACAAGGATTTGAAGTTGGAACAGATGATTATATTGTAAAGCCATTTAGTCCACGTGAGGTCGTGCTACGTGTGAAAGCGGTATTACGTCGTGCTGTACCAACAACATTCTTTACACAAGATACAACGACAAAAGATGTTACTGTATTCCCGCACTTAACAATTGATAACGATGCACACCGTGTTACTGCAGATGGTAATGAAGTAAACTTAACGCCGAAAGAATATGAGTTACTATTATTTTTAGCGAAAGCTCCTGATAAAGTATTCGATCGTGAGCAATTGTTAAAAGAAGTATGGCAATATGAATTCTTCGGAGATTTACGTACAGTTGATACGCATGTAAAGCGTTTACGTGAGAAGTTAAGTAAAAAATCACCAGATGCTGCGAAGATGATTGTTACCGTTTGGGGCGTAGGTTATAAATTTGAGGTTGTGAACGACTGA	MENESRILIVDDEDRIRRLLKMYLEREQYTIEEADNGDTALEMALQNDYDLILLDLMMPGKDGIEVCKGVREKKATPIIMLTAKGEEVNRVQGFEVGTDDYIVKPFSPREVVLRVKAVLRRAVPTTFFTQDTTTKDVTVFPHLTIDNDAHRVTADGNEVNLTPKEYELLLFLAKAPDKVFDREQLLKEVWQYEFFGDLRTVDTHVKRLREKLSKKSPDAAKMIVTVWGVGYKFEVVND	PGPT0013765_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK009_00212	1743	resE		Sensor histidine kinase ResE	ATGACTATATTACTTCTCGTTTCGTTTGTGCTTGGATTTGTTGCGATTTTACTTTCACAGTTTTTTAGAACATATTATGTTGATATGAGTGAAGATAGGCTTCAAAAAGTTGCAACAAGTGTTTCAGAGTTAATTGAAGAAGGTGCCGATGTAAAAACGATTGAGAATATCGCGTACAAATTCTCTGATTCACTTTCAAGGATCATTATTGTAGAAGATGGTAAAGAAATATCATCTTCGCCGAAACAAGAAGGGTTAGTCACTCTTACAATGGATGATTTGAAAGAAGATAAAGAATTAGCGGCTGTTTTCACAGACAAAAAAGAAATTAAGAATAACATTAGAAAAGCCTCTAATAGTAGAAAGAATAAAAACACTGAAAATGATATTATGATTGTCGGAAAACCAGTGCAGTCAAAAAATCAAAGTGCAGTGTTCGTATACGAATCTTTACAAGTACCGATACAAGGCATGGAGAGAACGACTGATTTTATATTCTTATCAGCAGGGATTGCGATTATATTAACAACGTTCTTTGCATTCTTCTTGTCTACTCGAATTACAGCACCACTCCGTAAAATGCGTGAAGTTGCTTTTGAGGTGGCGCGTGGGAAGTTTGATGCGAAAGCTCCTATGGTGTCTCAGGACGAGATTGGTGAGCTTGCAACGGCCTTAAATCAAATGGGGAAACAGTTGAAGTTTAATATGAATGCACTGCAGCAAGAAAAAGAACAGTTAGCTAGTATTTTAAGTAGTATGGCAGATGGGGTTATTACGTTAAATCAAGAAGGTGAAGTCGTTGTAATTAATCCGCCGGCCGAACATTTCTTACAAGTTTGGCAAGAAGAAAAAGAGATAGAGCTAAGTAAAAAACTACCTTCTGAACTTGTGGAACTATTCCATCTTGTTGTAGAAAGTGAACAACAACAAGTTGTTGAAATTAATTTACAAAAAGGGAACTATGTAGTTCTTATGACGCCGCTTTACAATCAAACGAAAATTCGTGGAGCTGTAGCGGTACTGCGAGATATGACGGAAGAACGCCGTCTTGAAAAGATGCGTCAAGACTTTATTGCGAATGTATCGCATGAACTTCGTACACCAATGGTAATGCTGCAAGGGTATAGTGAAGCGATTTTAGATGATATTGTGCAAACGAAAGAAGAAATTGATGAGTTTGTTCAAATCATTTATGATGAATCCGTTCGTTTAGGTAAACTTGTAAATGAATTATTAGATTTAGCACGCATGGAAAGTGGTAATGTAGAGTTACATATAGGTGAAGTTGATATTCATCCTTTCGTTGAAAAAATAGGTCGTAAATTCCAAGGGATTGCAAAGGATAAAGAGGTCGCGTTAACGGTTGATTTCAAAGATTCAATTGAACAATACCCGTTTGATGCAGATCGTATGGAGCAAGTATTGACGAATTTAATTGATAACGCAATACGTCATACGAATGCAGGCGGACATGTAACGCTTGTAATTGATTCGAAAAATAATGGCCTCATTTTTGAAGTACAAGATTCGGGTGCAGGCATTCCAGAAGAGGATATTCCATTTTTATTTGATCGTTTCTATAAAGCTGATAAAGCAAGAACACGTGGGAAAAAGGGTGGAACAGGACTCGGGCTTGCGATTGCGAAAAATATTGTTCAAGGTCATGATGGTAAAATTTCTGTTTCAAGTGTTGTTGGAGAAGGAACTACATTCTCTGTATATTTACCGAATCGTATAATTTAG	MTILLLVSFVLGFVAILLSQFFRTYYVDMSEDRLQKVATSVSELIEEGADVKTIENIAYKFSDSLSRIIIVEDGKEISSSPKQEGLVTLTMDDLKEDKELAAVFTDKKEIKNNIRKASNSRKNKNTENDIMIVGKPVQSKNQSAVFVYESLQVPIQGMERTTDFIFLSAGIAIILTTFFAFFLSTRITAPLRKMREVAFEVARGKFDAKAPMVSQDEIGELATALNQMGKQLKFNMNALQQEKEQLASILSSMADGVITLNQEGEVVVINPPAEHFLQVWQEEKEIELSKKLPSELVELFHLVVESEQQQVVEINLQKGNYVVLMTPLYNQTKIRGAVAVLRDMTEERRLEKMRQDFIANVSHELRTPMVMLQGYSEAILDDIVQTKEEIDEFVQIIYDESVRLGKLVNELLDLARMESGNVELHIGEVDIHPFVEKIGRKFQGIAKDKEVALTVDFKDSIEQYPFDADRMEQVLTNLIDNAIRHTNAGGHVTLVIDSKNNGLIFEVQDSGAGIPEEDIPFLFDRFYKADKARTRGKKGGTGLGLAIAKNIVQGHDGKISVSSVVGEGTTFSVYLPNRII	PGPT0026265_185	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026265-resE-K07651	NA	NA
AK009_00213	582	yvqK	COG2096	Corrinoid adenosyltransferase	ATGAAATTATATACAAAAACAGGAGATAAAGGAACGACAAGTGTAATAGGCGGTAGAGTTGATAAAGATGATATCCGTGTGGAAGCGTATGGAACAATAGACGAGGCGAATTCTCATATCGGATATGCAATGACTAAGCTTCAAGGCGGGACTTATAGAGATATTTACAATGAGCTCGAAAATATTCAACATGAGCTATTTGATTGCGGAGGAGACTTGGCAATAGTGGAACAAAAAATTCCTTATAAGGTGACAATTGAGATGGTTGAAAGCTTAGAAAGAAAGATTGATTTGTATATAGAAGAAGCACCGCCGCTAGAGCGCTTTATTTTACCAGGTGGAAGCGAGTCGGCAGCTGCTATTCATATTGCACGTACAGTTGTAAGGCGAGCAGAACGATGTATCGTGTCCTTACAAAAAGAAGGAGAAATAAATGAAGTTGTTCTAAAGTATGTAAATAGATTATCTGACTATTTATTTGCAGTAGCTAGAGTAATAAATGCCCGATTACAAGTGAAAGATGTGGAGTATAACCATAGTGCATTAGTTTTTCGTGATAAGAAAGAGAAGGAAGTGGAGTAA	MKLYTKTGDKGTTSVIGGRVDKDDIRVEAYGTIDEANSHIGYAMTKLQGGTYRDIYNELENIQHELFDCGGDLAIVEQKIPYKVTIEMVESLERKIDLYIEEAPPLERFILPGGSESAAAIHIARTVVRRAERCIVSLQKEGEINEVVLKYVNRLSDYLFAVARVINARLQVKDVEYNHSALVFRDKKEKEVE				NA	NA	NA	NA	NA
AK009_00214	615			hypothetical protein	ATGAAAGTTTTAAAATGCGGAGTCATGTTATTGAGTATACTGTTTGTATCTCAATTACATGTTTATGCAGAAGAAAATCGATGGACATGGCCTGTTGAAGGTCAGATAAGTGATTATTTTGGGACAAGGCATGGAAAACACTATGGTATTGATGTAGCTGCACCGATTGGAACGCCTGTGGCAGCTATCCAAGATGGTAAGGTAACGAAGTCTTATTATTCAAGTAGTTATGGAAATGTTGTATTTATTAAACACGGAGAATATGAGGCTGTATATGCACATTTAAATAAGAGATATGTAGTTCAAGGGGATTATATTTCAAAAGGGGAAATAATTGGAGAAGTAGGAAATACAGGAGAATCACGAGGTGCACATTTACATTTAGAAGTTCATCAAGGAAGATGGACGATGGCAAAACAGAATGCGATGAATCCATTGCTTGTTTTACATGAACAAAGAAATGAAGTCGTTTCTTCATCGTTATATGTCGTGCAAAAAGGGGACACTTTAGTTAGTATTGCACGGAAATTTAGTATGTCAGTTAAGGAAATTAAAGAAAAAAATGGGCTGCAGCAAGAGCTAATTTATCCTAATCAACAATTATATGTTAAGTAA	MKVLKCGVMLLSILFVSQLHVYAEENRWTWPVEGQISDYFGTRHGKHYGIDVAAPIGTPVAAIQDGKVTKSYYSSSYGNVVFIKHGEYEAVYAHLNKRYVVQGDYISKGEIIGEVGNTGESRGAHLHLEVHQGRWTMAKQNAMNPLLVLHEQRNEVVSSSLYVVQKGDTLVSIARKFSMSVKEIKEKNGLQQELIYPNQQLYVK				NA	NA	NA	NA	NA
AK009_00215	687			hypothetical protein	ATGAAAAAAGAAAAGAGACATTCTATTCGAGAAGCAATGAAAAAAAACTTAAGAAAAGAATACTTTTACTTAAAAAAAGAATTACTTTTCTACTGCCCAATTGATTTAGGCACATTCTCAAACGAGACATACTATGCTACTTTCGATGAAGATGGCATCAGTATTTATCAGTATGATAAAAAAACAGAAAGTAAATTAAAATTGTGTGAGCGTCATCCGTGGAAAAGTTGGAGTAAAGTGAAGATTGATCACTATTTGACAACTTCTCAATTTATTTTTCAGGGTGAGCGAAATTGGATCTTATCCCTTTTTCAAAAAGGAAAAGAAGCTCAAAGAATTATTGAAGAGCATACATCTTTACAAACAGAAGTTGTTTCCCGCTCTTTCTTAAAAAAACTTCCTGGTTTTCGTTCTAATACACCACTGAATAAATACATCGGTAGCATTTGTTACACTGCACTTATTGCATTTTTATTAAAATGGATGATTCCATTTCAAGCACCACAAATCGCCCTGTATTCTATTTCGATTGGTTGTATGCTTCTTGGCCTACTTTGTTTGACAATCGGTTTAATTGAACCGACTATCGTACTGTTTCGAACAAAAGAGAAAACAAGAACAAAAGTTTTTTACTTATATAGCTATTTAGCTATTTCTGGATTTATATGTGTCTTTATTTTTTGGTAA	MKKEKRHSIREAMKKNLRKEYFYLKKELLFYCPIDLGTFSNETYYATFDEDGISIYQYDKKTESKLKLCERHPWKSWSKVKIDHYLTTSQFIFQGERNWILSLFQKGKEAQRIIEEHTSLQTEVVSRSFLKKLPGFRSNTPLNKYIGSICYTALIAFLLKWMIPFQAPQIALYSISIGCMLLGLLCLTIGLIEPTIVLFRTKEKTRTKVFYLYSYLAISGFICVFIFW				NA	NA	NA	NA	NA
AK009_00217	579	fmnP	COG3601	Riboflavin transporter FmnP	ATGAAACAAAAAAACAGTGTGGTGCAGATGGTGAGTGTAGCGATGCTAAGTAGTATTGCATATTTACTAATGATGTTAGATTTCCCGTTCCCAGGGCTTCCGCCATTTTTGAAAATTGATTTTAGTGATGTACCAGCTCTAATTGCAGCAATTATCTTTGGACCAGTAGCTGGAGTGATTGTAGAGGCAATAAAGAACATTTTACATTACGGGATTCAAGGAAGTTTAACGGGAGTACCAGTTGGAGAAATTGCAAACTTTATTGCAGGATGTTTATTTATTGGACCAGCAGCTTTCTTATTTAGAAAGTATCGTACTGTGAAGAGTTTAACGACAGGGTTAATGCTAGGGACAATTACAATGGCACTTATTATGAGTGTATTAAACTACATCATCATATTCCCGGCGTACACTTGGTTTTTAAATTCACCAGCTATGTCTAGCGAAGCTATAAGAACAACGGTTGTAACGGCAATCTTACCATTTAATTTAATTAAAGGAATTGTTGTAACAATTGTATTTGTGGCATTATTCTCACGCCTGAAAGTATGGGTGTTTGCAAAAATGAAAAATGCATAA	MKQKNSVVQMVSVAMLSSIAYLLMMLDFPFPGLPPFLKIDFSDVPALIAAIIFGPVAGVIVEAIKNILHYGIQGSLTGVPVGEIANFIAGCLFIGPAAFLFRKYRTVKSLTTGLMLGTITMALIMSVLNYIIIFPAYTWFLNSPAMSSEAIRTTVVTAILPFNLIKGIVVTIVFVALFSRLKVWVFAKMKNA				NA	NA	NA	NA	NA
AK009_00218	249			Ferredoxin	ATGGCAAAATATACAATCGTTGATAAAGATACTTGTATTGCATGTGGTGCTTGTGGCGCTGCTGCACCAGACATTTATGACTATGATGATGAAGGTATTGCATTTGTAACATTAGACGATAACCAAGGTATCGTTGAAATTCCAGATGTATTAATTGAAGATATGATGGATGCATTCGAAGGCTGTCCAACTGACTCAATTAAAGTTGCTGACGAATCATTCGACGGAGACGCTTTAAAATTTGAATAG	MAKYTIVDKDTCIACGACGAAAPDIYDYDDEGIAFVTLDDNQGIVEIPDVLIEDMMDAFEGCPTDSIKVADESFDGDALKFE	PGPT0007360_306	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
AK009_00219	1062			hypothetical protein	ATGCAAATACAATATACTTTGTTGCATTGTTTAAAACAATTGAATGGTGAAAGAACCGTTTCATCTATTTATTATTTACTAAAGGGCAAACGTTCTTCGCAAACTTTACAAGATGGAAATATGTTTAGAATTTCTTTTTTGTTCGGAATATATAAATCATTAAATAGAAATGACTATGATGGTGAAGTTGTAAAGTTGTTGCAAGCAGATTTTATTCAAGAAATACATGAAAATACATATGTGTTAACACCTAAGGGTAAAACGCAGTTACATAAATGGGAGGAAGTTTATGCTTTTCCAGCGCATTTGCATGGTTTACATTATGGAGAATTAGGTGAAACATTTTGGAAAAGATTGTCATTGATTATTCAAACTGTATCAAATTTACAACAGAATAATACTAAGTTTATCCCGATTCAACAAGATACAGAAATAATGATGTGGGTGAAACGTTTTCTAACAGGAAGGCCATATAAGAGAAGTGAATTGGCGAGAAAACTGTGGACGGAAGTACATAATCTTTTAGAAAAAAGTAATGCGATAGAAGCGACGATTGTAACATATCGACTAACGGGTTATGAACGGATTGGTTGTACATTGCAACAATTAGCAGAAATTACGAAACAAGATATGTTCAGGGTGTATTTTTTATTTTGGGGTACAATGCATTTCTTTATACAAGAAGTTCGTGATAAAGAAAATGAATTTCCGCTATTAGCTGAAATTATATCTTATCCAAATGAGAGAGCTGAACTATTTAGTTTATCCACGAAAAAAACATATAATTTTTGGAGACAAGGGCGTTCTTTAGAAGAAATAGCAACGATTCGGAATTTGAAGGTTGCAACGATAGAAGATCATTTTGTTGAAATTGCTTTGCGAGAAAAAGATTTTTCTATTGAAATGTTTATGGAAAAAGAAAAGATAGACAAAGTAATAAAAGTAATTGAAGCATTGCAAACGCGGAAGTTACGTGTTTTGAAACAAGCGATTGGAGAAGATATCTCTTATTTTGAAGTTCGTCTTGTATTAGCGCGGATGGAGGGTGTAAATGAAACTTGA	MQIQYTLLHCLKQLNGERTVSSIYYLLKGKRSSQTLQDGNMFRISFLFGIYKSLNRNDYDGEVVKLLQADFIQEIHENTYVLTPKGKTQLHKWEEVYAFPAHLHGLHYGELGETFWKRLSLIIQTVSNLQQNNTKFIPIQQDTEIMMWVKRFLTGRPYKRSELARKLWTEVHNLLEKSNAIEATIVTYRLTGYERIGCTLQQLAEITKQDMFRVYFLFWGTMHFFIQEVRDKENEFPLLAEIISYPNERAELFSLSTKKTYNFWRQGRSLEEIATIRNLKVATIEDHFVEIALREKDFSIEMFMEKEKIDKVIKVIEALQTRKLRVLKQAIGEDISYFEVRLVLARMEGVNET				NA	NA	NA	NA	NA
AK009_00220	1530	dbpA_1		ATP-dependent RNA helicase DbpA	ATGAAACTTGAAGAATATTTATATAAGTGGTTTGGATATTCTGAATTTCGTCCAGGTCAAAAAGGAGTTATTACAGATTTATTAGAAGGAAAAGATGTGATAGCAATGCTTCCGACTGGAAGAGGAAAGTCTATGTGCTATCAGTTTCCGGGGCTTATGCGAGCAGGAACAGTGCTTGTTGTATCGCCGTTATTATCTTTAATGGAAGATCAAGTGACACAATTAAAGTATGTTGTGAAAAACCGAGTGATAGCATTTAATAGTTTTCGGACATTAAATGAAAAAAGAGAAGCGATGAAAAAATTATCTTCATATAAATTTATTTTTGTTTCACCAGAGATGTTACAGTCGGAGTTATTAATTAGGGAATTGAAGAAAATTCATATTTCATTATTTGTTGTTGATGAGGCTCATTGTATTTCTCAATGGGGTTATGATTTTAGACCGGACTATAAGAAACTAAATGTAGTTATTGAAAATATTGGTTCTCCTACAGTGTTAGCATTGACAGCCACAGCGACAAAAGGGGTACTGCAAGATATCGCAGACAGTTTAAATTTAAAGGGTGCCGCGGAACATGTATACTCTATTGACCGTCCTAATATTGCAATGGAGGTGCAATTTGTAGAGACGATAGAAGAAAAGAAAGAGGCGCTTTTGGAGCAGGTGATGTATTTACAAGGGCCGGGGATTGTATATTGTTCAAGTAGAGCGTGGACAGAAAGGTTAACGGAATACTTGAGAGGGAAAGGTGTTACTGGTGTAGCTTTTTATCATGGTGGTATGGAACATGAAGAGCGTATGTTAATTCAACAGCAGTTTATGAACGATCAATTGCAGCTTGTAATATGTACAAGTGCATTTGGTATGGGGGTAAATAAGGCGAATACGCAATATATTATTCATTTTCATTATCCAACTAATATAGCTTCTTACTTACAAGAAATCGGAAGAGCTGGAAGAGATGGCAAACCGAGTATAGCTATTTTATTGTGTAGTCCGTTGGATCATGATTTACCACTTTCAATCATTGAGGATGAATTGCCAAGTAAGTCGCAAATACAATTTTTATTTTCTTTACTACAAGAAAGAATGTTTCAAACGAAAGAATTACCAATAGAAGATGTAGAAGAAATTTGTTATAATGCAGCAAGATTTAATGAGCAATATTGGCGTTTCGTTCGTTATCATCTCGAACAGGTTGGAATTATACAACAACGAAGATTATTATTAGAGGGTTTGTCAGATGAAATTATGAACCGATTAATAGCTGAAGTAGAAATAAGGTTGCGTAATAAATATAGTGAATTAGAAAATATGAAGTCATGGATACGAGTTAAAGGATGTAGACGTGAATATGTGCTGCAACAGTTCGGTTATAGGAAAGAGAAAGAGTTAAATAATTGCTGCGATTATTGCGGTATTACAAAAGAAGATTATAAAAAAAGACGAGCGCAACAATCGGATTTCGACTATAATTGGGAAACAGAGTTACAAAAGCTTTTCGGCCTAGAAAAGATGGAGGAATGA	MKLEEYLYKWFGYSEFRPGQKGVITDLLEGKDVIAMLPTGRGKSMCYQFPGLMRAGTVLVVSPLLSLMEDQVTQLKYVVKNRVIAFNSFRTLNEKREAMKKLSSYKFIFVSPEMLQSELLIRELKKIHISLFVVDEAHCISQWGYDFRPDYKKLNVVIENIGSPTVLALTATATKGVLQDIADSLNLKGAAEHVYSIDRPNIAMEVQFVETIEEKKEALLEQVMYLQGPGIVYCSSRAWTERLTEYLRGKGVTGVAFYHGGMEHEERMLIQQQFMNDQLQLVICTSAFGMGVNKANTQYIIHFHYPTNIASYLQEIGRAGRDGKPSIAILLCSPLDHDLPLSIIEDELPSKSQIQFLFSLLQERMFQTKELPIEDVEEICYNAARFNEQYWRFVRYHLEQVGIIQQRRLLLEGLSDEIMNRLIAEVEIRLRNKYSELENMKSWIRVKGCRREYVLQQFGYRKEKELNNCCDYCGITKEDYKKRRAQQSDFDYNWETELQKLFGLEKMEE				NA	NA	NA	NA	NA
AK009_00221	564			hypothetical protein	ATGAACATTCAAAGGCATAATGTTGAAGATATGAGTCCGCAGGAAATAAGGCTGAATCTATATATAACACAGTTAATTATTATCGGTATTGGCTGTTTACTAGCATATATATTATTTCAAGATGTAAAAGAAGTGTTTAATTTATGGAAATGGGAACCAGTATCTATACTTATTATAGGTGGTTTGTTAGCGATTGGTATTGTGTTATTAGATTATGTTGCAATGCGAGTGTTTCCAGAGTCTTGGTTTGATGATGGTGGTATTAACGATAAGATGTTTCGAGGAATGTCGGTTCTACATTTACTCGTTATTACGTTCGTAATCGGTTTTGCAGAAGAATTTTTATTTAGAGGTGTAGTGCAGACTCATTTTGGAATTGTAATTGCGAGTTTAGTATTTGCAGTGTTACATATTCGTTATATAACAAAGCCATTTTTGTTTTGTTTCGTCTGTTTCATTAGTTTTGTCTTTGGTTATGTATTTGAATGGACAGGGAATTTGTTTATAACAATCTTTGCACACTTTCTTGTTGATTTTATAATGGGACTCCAATTAAGAAAATAA	MNIQRHNVEDMSPQEIRLNLYITQLIIIGIGCLLAYILFQDVKEVFNLWKWEPVSILIIGGLLAIGIVLLDYVAMRVFPESWFDDGGINDKMFRGMSVLHLLVITFVIGFAEEFLFRGVVQTHFGIVIASLVFAVLHIRYITKPFLFCFVCFISFVFGYVFEWTGNLFITIFAHFLVDFIMGLQLRK				NA	NA	NA	NA	NA
AK009_00222	480			hypothetical protein	ATGAGGAAACGAATTCCTGATTTTGAAGAGGAATTAGAAGTTGAGCGAGTGGAAGAAAAAGAAAGTTTACCGCCGCGTAGTGAAATTCATAGAAATAAAGAGAAAAAACAAAAGTTTAAAATAAATCACATTTTCGTCCGGGTTTTAACATTTCTATTCATTCTGCTGCCAATTAGTATTTTGTGGTATACGGATAAATATATTCAGGTGAAGGGCGATAGTAATAATGCCGGGAAAAGTGCGTTTGAAGTAATCTTCTTTGATTCAGCTAAATCTGATTCACAGAAACAGTCTGAAAAAGCGATAACGCATACTGTGAAAGAGGGAGAAACTTTAGAAAGTATAGCGAAGCAATATTTTTCGGATGAAAATGGGATTGAAGTCATTAAAAAGTATAATAACTTGCAAGAAGATGAAGTGAGTGCAGGGCAAGAATTAAAAATTCCGATAAAAGATAAATCCACAAAGCAAGAGAGCTAG	MRKRIPDFEEELEVERVEEKESLPPRSEIHRNKEKKQKFKINHIFVRVLTFLFILLPISILWYTDKYIQVKGDSNNAGKSAFEVIFFDSAKSDSQKQSEKAITHTVKEGETLESIAKQYFSDENGIEVIKKYNNLQEDEVSAGQELKIPIKDKSTKQES				NA	NA	NA	NA	NA
AK009_00223	777	ypbG_1	COG1408	putative protein YpbG	ATGATATGGATTATATTATTCAGTACTCTCATAGGCATTGGGATTTTATTACTTCTTGTGATGTATAAAGAAGCGACGCGTAATACGGTGTTGGAACATACTTTAGTATTTAAAGAATTTCCGAAAAGTTTTCAAAAAGTAAATGTGTTTTTTATTTCTGATATTCATAGAAGAGTTATTTCGAATTTGTTAATTGAACAAGTAAAAGGAAAAGTAGATCTAGTAATTATCGGAGGAGATTTAGCAGAGAAAGGTGTCTCTTTATCAAAAATCTCTGCGAATATTCAAAAGTTAAGAGAGATAGCTCCTGTATATTTTGTGTGGGGAAACAATGATTATGAGATAGAATATCATGAATTAGATGCGTTATTATTAGAAAATAACGTAAAAGTTTTAGATAATACAAGAGTGGTATTTGAGTCTGAATTAGGAGAGAAAATTTGTTTGCTCGGTATAGATGATGTTGGATTGCACCGTGATCGTCTAGATTTGGCATTGGTGGATTGTAAAGAAGAAGGTTTTCGTATCTTAGTTAGTCACAACCCTGATATAATAAAAAAGATGTCTGGAAATGAGCAGATTTCACTTGTATTAAGTGGACATACGCATGGGGGACAAATCCGATTATTCCCATCTAAAAAATATTTAAAAGGTGGCGTATATAACCATTTGAATACGATTCTCTTTGTTAGTAATGGGTACGGAACAACATTGATACCACTTCGTTTCCGAGCACCTGCTCAAACACATATTATTACATTGTGCGGAGGGAAATGA	MIWIILFSTLIGIGILLLLVMYKEATRNTVLEHTLVFKEFPKSFQKVNVFFISDIHRRVISNLLIEQVKGKVDLVIIGGDLAEKGVSLSKISANIQKLREIAPVYFVWGNNDYEIEYHELDALLLENNVKVLDNTRVVFESELGEKICLLGIDDVGLHRDRLDLALVDCKEEGFRILVSHNPDIIKKMSGNEQISLVLSGHTHGGQIRLFPSKKYLKGGVYNHLNTILFVSNGYGTTLIPLRFRAPAQTHIITLCGGK	PGPT0022365_4092	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_00224	876	racA_1		Chromosome-anchoring protein RacA	ATGCCAACTCTTAGTGGAAAATATAATATAAAAGCTGTTTCGAATATAATTGGAGTTCAGCCGAGTACGCTTCGTGCATGGGAAAGACGATATCAAATTATTGCCCCAAAGCGGAATCAAGCTGGGCATCGTTTATATACAGAAGAACATATTCAAATTTTAAAATGGTTAATGGAAAAAGTTTCTTCCGGTATGATGATTGGACAAGCAGTTCAGTTATTAGAAGAGAATCGTTTGCAGAGTACAGTTCAAAAAGAGATACCTTTCGATAAAGAAGTTGTTTTAGTGGACGATTTGCTACAAGCTTTGTTAAAATTTGATGAAATTACAATTACTGCATTATTAAACGAAGCTTTTAGTATATATTCAACAGAGAAGGTTGTTGCCAGTATCGTTCTTCGAGTGACAGACAATTTATTAATGTCAAAAAATAATAATGAGATTTCAATGGCGCAATTCCAATATGCACTATCATTTTTACAAACGCGTCTAGGAATGGTGTATCACAATGCCTCAATGTTTTCCTCTTTACACAAAGTTATTGTGTTAGAAAAGAATGCATTGCAAGGATTTATTTTTTCAACGTATTTACGCTTAAAAGGATATGAGGCGATATATATTAGGACAAGCTTAGCTGAAGATGGTATGTTGTCAGCGGTAGAAGAAATACAGCCGAAATATGTATTTGTATCTTTTGCTGACGAACAAGAAATGAAAAAGACGATGAACTTTATAAATTTATTACAAGAAAAAAGGGAATCTCTTTCTGTTGGCTTTATCGGAAAGGTAGGCGTTCTAAACCAGTTGGACATTGAAACAACCTTAATTGGTGATACAAAAGAAGAATGGGATGAATGGTTAAAAATGTCGGAATAG	MPTLSGKYNIKAVSNIIGVQPSTLRAWERRYQIIAPKRNQAGHRLYTEEHIQILKWLMEKVSSGMMIGQAVQLLEENRLQSTVQKEIPFDKEVVLVDDLLQALLKFDEITITALLNEAFSIYSTEKVVASIVLRVTDNLLMSKNNNEISMAQFQYALSFLQTRLGMVYHNASMFSSLHKVIVLEKNALQGFIFSTYLRLKGYEAIYIRTSLAEDGMLSAVEEIQPKYVFVSFADEQEMKKTMNFINLLQEKRESLSVGFIGKVGVLNQLDIETTLIGDTKEEWDEWLKMSE				NA	NA	NA	NA	NA
AK009_00225	609	mecB	COG4862	Adapter protein MecA 2	ATGAGGCTGGAACGATTAAATTACAATAAGATAAAAATTTTTCTAACATTTGATGATTTATCTGAACGAGGATTAACGAAAGAAGATTTATGGAGAAATGCGCCGAAAGTACAGCAATTATTTCGTGATATGATGCAAGAAGCAAATAAGGAATTAGGATTTGAAGCAGATGGTCCGATTGCAGTTGAAGTATTTTCTCTACAAGCACAAGGGATGGTTGTAATTGTAACGAAAGAAAATCAAGAAATGGATACAGATGATGAGTTTCGTGACGAGTTTATTGAAATGCAAGTGACTCTAGATGAAAGTGAGCATATATTATATGAGTTTGCTACGCTAGATGACATAATTAACCTGTCGAATCGCTTATATAACCTTGGTGTAACTGGCGGAAAGCTATATACGTGGGATAAGCGCTTCTATCTTTGGATGGAAGAAGAGGAACAAATTCAATTGTTAAAGGCGGATTTTATAGCTATTTTAGCGGAATACGGTAATCCGTCTACCGCAACTATTTATCGCATCATGGAGTACGGTAAAGAATTAATGGATTTTAATGCGATAGAACAAATACACAATTACTTTGTGAAAAAACAAAACCTCAGCTAA	MRLERLNYNKIKIFLTFDDLSERGLTKEDLWRNAPKVQQLFRDMMQEANKELGFEADGPIAVEVFSLQAQGMVVIVTKENQEMDTDDEFRDEFIEMQVTLDESEHILYEFATLDDIINLSNRLYNLGVTGGKLYTWDKRFYLWMEEEEQIQLLKADFIAILAEYGNPSTATIYRIMEYGKELMDFNAIEQIHNYFVKKQNLS				NA	NA	NA	NA	NA
AK009_00226	1287	gudB	COG0334	Cryptic catabolic NAD-specific glutamate dehydrogenase GudB	ATGGTAGCCGAAAAGGGAACTCAAACAAAAACACAACAACAAAGGGAACAACATTTTGAACTATTGAATTCAACACAAATTGTTATTAGTGAAGCGTTAGAAAAATTGGGTTATCCAAACGAAGTATATGAATTATTAAAAGAACCAATTCGTATGATGACAGTGAAAATACCAGTTCGTATGGATGACGGGACTGTTAAAATATTTACAGGGTATCGTGCACAACATAATGATGCTGTTGGTCCAACGAAAGGTGGAATTCGCTTCCATCCGAATGTAACAGAAAATGAAGTGAAAGCACTTTCAATCTGGATGAGTTTAAAATGTGGTATTGTTGATTTACCATATGGTGGAGGTAAGGGTGGAATTATCTGTGATCCACGTGAAATGTCATTCCGTGAGTTAGAAAGATTAAGCCGCGGTTATGTACGAGCAATTAGCCAAATCGTAGGTCCGACGAAAGATATTCCAGCTCCAGATGTATTCACAAACTCTCAAATTATGGCATGGATGATGGATGAGTATAGCCGTATTGATGAATTTAATTCACCAGGATTTATTACAGGTAAACCGCTTGTATTAGGTGGATCACATGGCCGTGAAACAGCAACAGCGAAAGGTGTAACAATTTGTATTCGTGAAGCTGCGAAAAAACGTGGCATTGATATTAAGGGTGCACGCGTTGTTGTCCAAGGGTTCGGTAATGCTGGTAGCTTCTTAGCTAAATTTATGCATGATGCAGGTGCGAAAGTTATTGCAATCTCAGATGCTTACGGTGCGTTACATGATCCAAACGGATTAGATATTGATTATTTATTAGACCGTCGTGATAGCTTCGGTACAGTAACAAAGCTATTTAACAATACAATTTCAAATAAAGAATTGTTAGAACTTGATTGCGATATTTTAGTTCCAGCTGCAATTGAGAACCAAATTACAGAAGAAAATGCTAATGATATTAAAGCGAAAATCGTTGTTGAAGCTGCAAATGGTCCAACAACATTAGAAGCGACTAAAATTTTAACAGATCGCGGAATTTTACTTGTTCCAGACGTGTTAGCAAGTGCTGGTGGTGTAACAGTATCTTACTTTGAGTGGGTACAAAATAACCAAGGATACTACTGGACTGAAGAAGAAGTAGAACAACGTTTAGAAAAAGTAATGGTAAGATCATTTGATTCTATTTATGAAACAGCACAAGTTCGTAAAGTGAACATGCGCTTAGCGGCGTACATGGTTGGTGTTCGTAAAATGGCTGAAGCAAGCCGCTTCAGAGGTTGGGTATAA	MVAEKGTQTKTQQQREQHFELLNSTQIVISEALEKLGYPNEVYELLKEPIRMMTVKIPVRMDDGTVKIFTGYRAQHNDAVGPTKGGIRFHPNVTENEVKALSIWMSLKCGIVDLPYGGGKGGIICDPREMSFRELERLSRGYVRAISQIVGPTKDIPAPDVFTNSQIMAWMMDEYSRIDEFNSPGFITGKPLVLGGSHGRETATAKGVTICIREAAKKRGIDIKGARVVVQGFGNAGSFLAKFMHDAGAKVIAISDAYGALHDPNGLDIDYLLDRRDSFGTVTKLFNNTISNKELLELDCDILVPAAIENQITEENANDIKAKIVVEAANGPTTLEATKILTDRGILLVPDVLASAGGVTVSYFEWVQNNQGYYWTEEEVEQRLEKVMVRSFDSIYETAQVRKVNMRLAAYMVGVRKMAEASRFRGWV	PGPT0020205_84	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
AK009_00227	210			hypothetical protein	ATGGAGAATGAAATGCTGGAACGAGTAGAACAATTAGAAGAAAAGGTTAAGAGGTTAGAGGGAGAACTTGCAAGAACGATGAAAGCTCGAAAAGTAAGTACCGTTAGAATGTTCGGGGAAGGGCTACTGTTTTTGATATTTGGTGTGGTTGTAGTAGGGCCGATTATTGCCGTTGTAATCTCAATTTTTATTTGGCTTGCTGAAAAATAA	MENEMLERVEQLEEKVKRLEGELARTMKARKVSTVRMFGEGLLFLIFGVVVVGPIIAVVISIFIWLAEK				NA	NA	NA	NA	NA
AK009_00228	237			hypothetical protein	ATGATGAAAATGACAGTAGACCAAAGATTTATGATGCCAGCAGATGTTGTAGAGCGAGTGGAAGTATTACGAAACAAACAAAGCAAGCGTGGCACATTATTACAATCGGTAAATAAATTTTTCGGTTTAGATACGAAAGAAGATTGTGTTTGGTTTTACGGTTTTTATGGAGTGGCTGTAAGTATCTTGTTGTTTATGGTGTTCACTTCAAATATTTTCGATTTTCTCTTCGTGTAA	MMKMTVDQRFMMPADVVERVEVLRNKQSKRGTLLQSVNKFFGLDTKEDCVWFYGFYGVAVSILLFMVFTSNIFDFLFV				NA	NA	NA	NA	NA
AK009_00229	531			hypothetical protein	ATGGCGATGTTTCCTATAGAGCGCAACTATATTGGATATGGAAGTTCACGGCCGGGGATTCCTCTGACTAAAGTGAGATTTATTGTAAGCCATGATACGGGGAATCCAGGAAGCAATGCGATAGGAAATCGAGATTACTTTAATGAATTACAACCGAAAGCTTCGGCGCATACATTTATAGATGATAAAACAATATTGGAGATTATTCCTATAAATGAAGTTGCGTATCATGTTCGATATGGTGTGCCGACGGATAATGACTTATACGGCTATGACGCGAATAAGGCGGCCATTGGAGTGGAACTTTGTTATGGCGGTGATGTTAACTTTTGGGAAGCATATAATCGTTTTACATGGTATCATGCGTATTTATGCCAAAACTTCGGCTTAAATCCGAAAAAAGATATCGTGTCACATAAAACGCTTGATCCAGCTAGAAAGATTGATCCTGAGAATGTATTAGGGAAACGAGGTATTAAATTTCAGCAGTTTTTAGCAGATGTCTATCGGATGTACGTTTCGTTTAGATGA	MAMFPIERNYIGYGSSRPGIPLTKVRFIVSHDTGNPGSNAIGNRDYFNELQPKASAHTFIDDKTILEIIPINEVAYHVRYGVPTDNDLYGYDANKAAIGVELCYGGDVNFWEAYNRFTWYHAYLCQNFGLNPKKDIVSHKTLDPARKIDPENVLGKRGIKFQQFLADVYRMYVSFR	PGPT0019115_2486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_00230	981	trxB_1	COG0492	Thioredoxin reductase	ATGCAGAAAGAAACAGTTATTATAATCGGAGGCGGTCCGTGCGGATTAGCGGCAGCGATTTCGTTGCAAAAGGTAGGGATAAATCCGTTAGTAATTGAAAAAGGAAACATTGTAAATGCCATTTATAATTATCCAACTCATCAAACATTTTTCTCTTCTAGTGAAAAATTAGAAATTGGTGATGTAGCTTTTATTACAGAAAATCGTAAGCCAGTTCGAAATCAAGCGCTTGCGTATTATCGTGAAGTAGTAAAACGTAAATCTGTACGTGTAAATGCTTTTGAGCGAGTGGAGAAAGTTCAAAAAGATGGAGGAGTTTTTCAAGTTGAGACGACAAAGTGTGACGGAAGTAAAGAAACATATATAGCGAAATATATTGTTGTAGCAACTGGATATTATGATAATCCAAATTATATGAATGTTCCAGGTGAGGGATTGAAGAAAGTAGCTCACTATTTTAAAGAGGGGCATCCTTATTTTGATCGAGACGTAGTAGTTATAGGTGGGAAAAATTCGAGTGTAGATGCCGCATTAGAACTTGTTAAAGCTGGTGCGCGTGTAACGGTACTGTATCGTGGAATTGAGTATTCACCAAGCATAAAGCCTTGGATTTTGCCGGAATTTGAGGCGTTAGTACGAAACGGTACAATTCAAATGCATTTCGGGGCTCATGTGAAAGAAATTACTGAGCATACATTAACGTTTACAGTTGATGGTGAAGTTTATACAATCCAAAACGATTTTGTATTTGCGATGACTGGTTATCATCCTGATCATAGCTTCTTAACGAAGATGGGTGTTCAGATTGATGAAGAAACAGGACGTCCAATTTATACAGAGGATAGAATGGAAACGAATGCTGAAAATATTTTCATTGCAGGTGTCATTGCTGCTGGAAATAATGCAAATGAAATATTTATCGAGAACGGTAGATTTCATGGAGATGCGATTGCGCAAACCATTGCATCAAGAGAAAAATAA	MQKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVKRKSVRVNAFERVEKVQKDGGVFQVETTKCDGSKETYIAKYIVVATGYYDNPNYMNVPGEGLKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKAGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEVYTIQNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPIYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASREK	PGPT0013060_3741	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK009_00231	933	ansA_1	COG0252	putative L-asparaginase	ATGGAGGAGGATAAAGAAACTGGAGTCGTACAACCAGGTGAAAAAAATCCTCTTTTAAAATTCATTCCTGATTTAGAAGGCGATGTTGATTTAATCGTTGAAGATGTGTTCCATTTACCATCTCCCCATATGACACCGAGCGAAATGTTACAATTACAAGTCATCATTGATGAAAGAGTAAAACAAGACAACATTCATGGCGTAGTCATTACGCATGGTACTGATACATTAGAAGAAACAGCCTATTTCTTAGATTTAACAGTACAAGCAACTATTCCGATCGTTGTGACAGGTGCAATGCGCTCTAGCAATGAATTAGGTGCTGACGGCCTATATAACTTCTTATCAGCTGTAAAGGTTGCTAGTTGTGATGAAGCTGCAGAAAAAGGTGTTTTAGTCGTATTAAATGACGAAATTCATTGCGCTACAAATGTAACGAAAACACATACAAGTAATGTCGCAACATTCCAAAGCCCACAATACGGACCAATTGGAATGGTAACAAAACGCGGCGTTGTCTTCCATCACGCTTTAGTACATCATGAAACATATACGATAAACACAGTGTCTAAAAATGTAGTTGTTCTAAAAGCATATGCTGGCATGGATGATACATTATTAGCAGCAATCGAAAATCTTCCTGTAGACGGTATTGTTATCGAAGCGCTCGGACAAGGTAATCTACCTCCAAGAACACTTCCTAGTCTAGAACGATTATTAAATAAAGGTATTCCTGTCGTATTAGTTTCTCGCTGTTTCAACGGTATCGTTCAAGACGTATATTCGTATGAAGGTGGCGGTAAACACTTAAAAGATATGGGCGTTGTATTCACATACGGCTTAAATGCACAAAAAGCACGTATTAAATTACTTGTCGCATTAGAGAATACAAATTCTCATGAATCCATTCAAAATATGTTTATGCACGAATAA	MEEDKETGVVQPGEKNPLLKFIPDLEGDVDLIVEDVFHLPSPHMTPSEMLQLQVIIDERVKQDNIHGVVITHGTDTLEETAYFLDLTVQATIPIVVTGAMRSSNELGADGLYNFLSAVKVASCDEAAEKGVLVVLNDEIHCATNVTKTHTSNVATFQSPQYGPIGMVTKRGVVFHHALVHHETYTINTVSKNVVVLKAYAGMDDTLLAAIENLPVDGIVIEALGQGNLPPRTLPSLERLLNKGIPVVLVSRCFNGIVQDVYSYEGGGKHLKDMGVVFTYGLNAQKARIKLLVALENTNSHESIQNMFMHE	PGPT0020180_3257	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
AK009_00232	174			hypothetical protein	GTGGAAAAGATGGAGAGAATTTTTATTCGTATATTAATAATACAATTTATTTGTCTTTCTGTTGTGCAATTGTTATTTATACATAAGTCATCAGTGAAATATTTATCTAAAATTGTTTATTATGAAGGTGTCATGGTAAAAGACAAAGCGGAAATCTTACAGGTGAATAGGTAG	MEKMERIFIRILIIQFICLSVVQLLFIHKSSVKYLSKIVYYEGVMVKDKAEILQVNR				NA	NA	NA	NA	NA
AK009_00233	678	cmk	COG0283	Cytidylate kinase	ATGGATAAACGAATTTCAATTGCTATAGATGGTCCAGCAGCTGCTGGTAAAAGTACAGTGGCAAAAGTTGTTGCGAAGGAACTTTCTTACGTTTATATTGATACAGGCGCAATGTACCGTACGCTTACATATGCAGCCCTTGAACAAAAAGTAGATATTGAAAATGAAGAGCAGTTAATGGAAGTTGTAAGGAATGTAAATATTGAATTTCAGCAAGGAGAAAATACACAGCTTGTATTTTTAAATGGACAAGATGTTTCTGAAGTAATTCGTACACCTGATGTGACGAATCGAGTATCTATTGTAGCAAAGCATCGCCTTGTTCGTGAAGAAATGGTACGCCGTCAGCAAGATTTAGCGAAAAAAGGCGGCGTTGTAATGGACGGCCGTGATATTGGTACACATGTATTACCGGATGCTGAAGTGAAAATCTTTATGCTTGCTTCTGTTGAAGAAAGAGCGGAAAGAAGACATTTAGAAAATTTAAATAAAGGTTTCGATTCTAATTTAGAGCAGCTAAAAGAAGAAATTGCTCAGCGTGATAAATTAGATTCAGAACGCGAAGTTTCTCCACTAAAAAAGGCTGATGATGCATTGGAATTAGATACGACTTCTTTATCAATTGAAGAAGTTGTCCAAAAAATTATGAGTATTGTTTCAGGAGTGTTTGCGAAATAA	MDKRISIAIDGPAAAGKSTVAKVVAKELSYVYIDTGAMYRTLTYAALEQKVDIENEEQLMEVVRNVNIEFQQGENTQLVFLNGQDVSEVIRTPDVTNRVSIVAKHRLVREEMVRRQQDLAKKGGVVMDGRDIGTHVLPDAEVKIFMLASVEERAERRHLENLNKGFDSNLEQLKEEIAQRDKLDSEREVSPLKKADDALELDTTSLSIEEVVQKIMSIVSGVFAK	PGPT0021220_2202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
AK009_00234	1149	ypfD	COG0539	30S ribosomal protein S1	ATGGTAGAGAAAATGAATGAAGAAGTTATGGATTCAAAAGAATTACAAGTTGGTGACGTTGTTACAGGTTCTGTAACGAAAGTTGAAGAGAAACAAGTGCTTGTAAATGTTGGATACAAAACAGATGGCGTAATTCCAATTAGTGAATTAGCTAACGTTCATATTGAAAAAGCAAGCGATGTTGTAGAATTAGATCAAACACTAGAGTTGAAAATTATTAAATTAGAAGAAGATGATCTTGTCTTGTCTAAACGTGCTGTTGATGCAGAAAAAGCATGGGTAGAATTACAAGAGAAATTTACTTCTGGTCATGTGTTTGATGTTACTGTAAAAGATATTGTGAATGGCGGATTAGTTGTGGATCTTGGGGTTCGCGGTTTTATCCCAGCTTCACTTGTAGAAGTACATTATGTAGAAGACTTTACTGACTATAAAGGTAAAACGTTAGCGGTGAAAATTGTTGAATTAGACCGTGAAAAAAATCGTGTAATCCTTTCGCATAAAGCGGTAGTAGAATTAGAACTAGATTCTAAGAAAAAAGAAGCAATTTCTTCATTAAAAGAAGGGGACGTTGTTGAAGGAACAGTGCAACGATTAACTGACTTTGGTGCTTTCGTTAACGTTGGTGGCGTGGACGGTTTAGTTCACATTTCACAAATTTCACACGAACGTGTAGAGCAACCTTCTGAAGTTTTAGAGCAAGGTCAAAAGGTTAAGGTAAAGGTGTTATCTGTTGATGCTGATACACAACGTATTTCTTTATCGATTAAAGCAGCTCAACCAGGACCTTGGGAAAACGTTGCTGGCGAAATAAAAGCTGGAGATATTCGTGAGGGAGTAGTAAAACGCCTTGTTACATTTGGTGCATTCGTTGAGATTTTACCTGGCGTTGAAGGACTTGTACACGTATCTCAAATTGCAAATCGTCACGTGAAAAATCCGAATGAAGTATTGGAAATGGGACAAGAAGTAAAAGTGAAAGTACTTGAAGTTCACGCAGCAGAGAAACGTATTTCTTTAAGTATAAAAGAAGCGCTTGAGGAAAATAATGTAATTGAAGATTATAGTCAGTATGAGCCAAATGCTGATTCTGCTACTTTCCAATTAAGTGATATTATTGGTGAACAACTGAAAAAATTAAAGAAATAA	MVEKMNEEVMDSKELQVGDVVTGSVTKVEEKQVLVNVGYKTDGVIPISELANVHIEKASDVVELDQTLELKIIKLEEDDLVLSKRAVDAEKAWVELQEKFTSGHVFDVTVKDIVNGGLVVDLGVRGFIPASLVEVHYVEDFTDYKGKTLAVKIVELDREKNRVILSHKAVVELELDSKKKEAISSLKEGDVVEGTVQRLTDFGAFVNVGGVDGLVHISQISHERVEQPSEVLEQGQKVKVKVLSVDADTQRISLSIKAAQPGPWENVAGEIKAGDIREGVVKRLVTFGAFVEILPGVEGLVHVSQIANRHVKNPNEVLEMGQEVKVKVLEVHAAEKRISLSIKEALEENNVIEDYSQYEPNADSATFQLSDIIGEQLKKLKK	PGPT0007615_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK009_00235	1050	fni	COG1304	Isopentenyl-diphosphate delta-isomerase	GTGGTAAGGGCAAAACGTAAATTAGATCATATTGAATACGCTCTTTCTACTGGTCAGTCTCGTACGCATGGCTTTCATGATATTGATTTTGTGCATCAAAGCTTGCCAAATTCAAATTATGACACAATAACATGTGAAACAAAAATCGGCGAACTTTCACTAAGTTCGCCGATTTTTATCAATGCGATGACTGGTGGTGGAGGAGAGAAAACGTTACATATCAATGAGCAATTAGCATATGTAGCGAAACAACATAACCTTGCTATGGCTGTAGGTTCGCAAATGGCGGCGTTAAAAGATGAAAGTGAGGCTGCTTCTTATAAGGTGATCAGAAAGGTAAACCCAAATGGTATTTTCTTTGCTAATTTAGGTAGTGAGGCAACTATCGAGCAGGCAGAGCGTGCAGTTGATATGATTGAAGCGAATGCATTGCAAATTCATTTAAATGTCATACAAGAGTTAACGATGCCAGAAGGAGACCGTGATTTTACTGGCGTACTTCAGCGTATTGAGAAAATTGTTTTAAATAGTAAAGTTCCTGTCATTGTAAAAGAAGTTGGATTTGGGATGAGTAAGGAAACAATGCAACAGTTAGCGAACGTAGGTGTAACGGCAATTGATATTGGTGGGCAAGGTGGTACGAATTTTGCTGCTGTTGAAAATGAAAGAAGACAGCGAATGCTTTCTTATTTTAATAACTGGGGCATACAAACAGCAACCTCGATTATTGAAGCAACCTCTACAAATAATAACCTCTCTTTTATTGCATCAGGGGGTATACAGACAGCGCTTGACGTAGCGAAAGCAATCGCATTAGGGGCGAATACAACTGCGTTTGCTGGTTACTTTTTACGTATTTTAATGCAAGATGGTATCGAGAAATTAGTGGATGAAATTGAGCTTCTACATACAGATTTGAAATTTATTATGACAGCTCTTGGTGCGAAGACGATAGAAGAGTTGCAATCTGTACCTCTTGTTGTAAAAGGTGAAACATATCATTGGTTAATGCAGCGTGGTATTGATACTGCGCATTATAGTAGGAGATAA	MVRAKRKLDHIEYALSTGQSRTHGFHDIDFVHQSLPNSNYDTITCETKIGELSLSSPIFINAMTGGGGEKTLHINEQLAYVAKQHNLAMAVGSQMAALKDESEAASYKVIRKVNPNGIFFANLGSEATIEQAERAVDMIEANALQIHLNVIQELTMPEGDRDFTGVLQRIEKIVLNSKVPVIVKEVGFGMSKETMQQLANVGVTAIDIGGQGGTNFAAVENERRQRMLSYFNNWGIQTATSIIEATSTNNNLSFIASGGIQTALDVAKAIALGANTTAFAGYFLRILMQDGIEKLVDEIELLHTDLKFIMTALGAKTIEELQSVPLVVKGETYHWLMQRGIDTAHYSRR	PGPT0007530_739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
AK009_00236	135			hypothetical protein	ATGGGTAAAGATCGCCAAGAACGAAAACTACGAGAATCACGCCGCGTTGAATCTGATCGTAATCAATCACTACAATATCCAGGTGCAACTGGACTTGATACACCAGAGCAGGCTCGAAAACAAAACCAGCACTAA	MGKDRQERKLRESRRVESDRNQSLQYPGATGLDTPEQARKQNQH				NA	NA	NA	NA	NA
AK009_00237	612			hypothetical protein	ATGGATGGAAGTACTTTTTATTTTGTAGCTTGGATAGGGTGGATCATCGTAACCTTTTTTATGAAAAAGGACCCTATTCGGTGGAAGTTAGGCGCTTGTATAATGATTTTTATAATTTGCTCTCCGTTACATGTAACGATTGCCTCATTCGTGGTATCAGTAAATGCTCTTCTACTTTGTATTATTTCTTTTATAGGAATTACGCTATATTCTGTTTGGAAAAAATTATATAGCTTACTTTCGGCACTTATTATTGCAATGTTATATACAAGTTTTCATTTGTTAGAAATATATGATCCGATTTGGATTGTGGTGGATAGAGTGTTTCTGCTAAGTAGTGCTCTTGTGTATGCATCGGTGTTATTGCATGGGGATCGCATATTACGATTATGTTCCCTATATGTAGGGATGTTACAAGGAGAGTTGCTAGTGACATTTATTTTTCGGAAATTGAATTTTCCATATGATTACGGTAGTTTAGCATTTTTTGATATCGTCGCCGTTTCTACATTATTCATGGCAGTATTGTTTTGGATTGCAAAAGCATCAGTATACATGGAACAGTTTAAGAGAAAAACACGTAAAAGAAAGGCGAGGGTAATGCATGACTGA	MDGSTFYFVAWIGWIIVTFFMKKDPIRWKLGACIMIFIICSPLHVTIASFVVSVNALLLCIISFIGITLYSVWKKLYSLLSALIIAMLYTSFHLLEIYDPIWIVVDRVFLLSSALVYASVLLHGDRILRLCSLYVGMLQGELLVTFIFRKLNFPYDYGSLAFFDIVAVSTLFMAVLFWIAKASVYMEQFKRKTRKRKARVMHD				NA	NA	NA	NA	NA
AK009_00238	894			hypothetical protein	ATGACTGAATATACATCAGCCATTTTATGCGGCGTAATAGCGGGGACAGTTACAAGAGTGTTAATGCTTCGGACGGATACGCGGCAATATCCGACGAGGCTGCATGGGAAAATTATTCATATTGCAATGGGGTTAATTGCAGCTGCTTTAGGAGCGATTGCAATCCCGTCTATTTTGAAAAAAGATTTTTCTGCCATTACATTTCTTACGTTAGCGGCAACACAATTTCGTGATGTACGTAATATGGAAAGAAACACGCTTCAACAATTAGATGGATATGAGCTCGTACCGCGTGGAAATACATATATTGAAGGAATTGCATTGGTTTTTGAAAGTCGCAACTATTTGGCGATGTTAACGTCGTTTGCAACGACATTTGCGTATATAGGGTTCCGTTCATGGATTGCGGGAGTAATTATGGCTATAATCGCATTTTTTATTGCGAAAAAATTAATGTCTGGAAAAAGGCTACATGATCTTGTTGAAATTGAGCACGTGCCCCTTCGTTTTGAAGGGGCAGGACTGTATATTGATAATATTTATATTATGAATATTGGATTGCCGGCGAGGCAAGAAGAGATTATGAAATATGGCATGGGGTTTATTTTAAAACCGAAATCAATTGATGCGATGGTGACAATCTCAAATTTAGGGCAACGGCAAGCTGTTTTACACGATGTTTCGGTGGCGCTAGGGATTTATAGAGATTCTGGTACACCAGCGCTTGTACCGTTAGCAAAGCGTGATTTAGAGGATGGTAGGGTTGGAATTTTTGTCTTACCGCAAGATCAAGATGCAGAGAAAGCGATAAGTGTTATAGGAAATGTACCAACGTTAGAAAGTGCCGTCCATATGTCATCGGAAGCCCCGAAAGGAAGGGGAGATAAGAGATGA	MTEYTSAILCGVIAGTVTRVLMLRTDTRQYPTRLHGKIIHIAMGLIAAALGAIAIPSILKKDFSAITFLTLAATQFRDVRNMERNTLQQLDGYELVPRGNTYIEGIALVFESRNYLAMLTSFATTFAYIGFRSWIAGVIMAIIAFFIAKKLMSGKRLHDLVEIEHVPLRFEGAGLYIDNIYIMNIGLPARQEEIMKYGMGFILKPKSIDAMVTISNLGQRQAVLHDVSVALGIYRDSGTPALVPLAKRDLEDGRVGIFVLPQDQDAEKAISVIGNVPTLESAVHMSSEAPKGRGDKR				NA	NA	NA	NA	NA
AK009_00239	186			hypothetical protein	ATGATGTTAGAAAGCGTTATCCTGGCAGTTATTACAACAGCGCCGGAAAAATTTGCAGGTGGTGCTCCTTTATTTGTTTGTGAGTCGATGGAGGAACTAGAATTTGTTGCAAATAATTTAGAGGCAATTTTAGATGGTATTGCGCATCGCTTACAAGAGAATGTATATATTATTGTGAAACATTAG	MMLESVILAVITTAPEKFAGGAPLFVCESMEELEFVANNLEAILDGIAHRLQENVYIIVKH				NA	NA	NA	NA	NA
AK009_00240	1311	der_1	COG1160	GTPase Der	ATGCCGAAACCAGTAATAGCAATAGTAGGCCGCCCGAACGTAGGAAAATCTACTATTTTCAATAGAATAGTTGGAGAAAGAGTTTCAATCGTAGAAGATATCCCAGGTATAACTCGAGACCGTATTTATAGTGCGGGAGAATGGTTAAATCATGAGTTTAACATTATTGATACAGGTGGAATTGATATTGGAGACGAGCCGTTCTTGACACAAATTCGTCAACAGGCGGAAGTTGCGATTGATGAAGCAGATGTTATCATTTTTATGACGAATGGTCGCGATGGTGTAACTGCAGCGGATGAAGAAGTTGCTAAAATTTTGTATCGTTCTAAAAAACCAATTGTACTTGCGGTAAATAAGGTTGATAATCCAGAAATGCGTAGTGATATTTATGATTTTTATTCATTAGGATTTGGCGAGCCATTCCCGATTTCAGGTACACACGGTTTAGGACTTGGTGATTTGTTAGATGAAGCTGCAAATCATTTTCCAAAGATTGAAGAAGAGGCGTATGACGATGAAACAATCCGTTTCTCTTTAATTGGACGTCCAAATGTAGGGAAATCATCGCTTGTAAATGCACTTCTTGGTCAAGAACGTGTAATTGTAAGTAATATCGCAGGAACGACGCGTGATGCTGTCGATACACCATATAGTAAAGATGATCAAGATTATGTAATCATTGATACAGCTGGTATGCGTAAAAAAGGAAAAGTATATGAAAGTACAGAAAAGTATAGTGTACTTCGTGCACTTAGAGCGATTGAACGTTCTGACGTTGTTTTAGTTGTTTTAGACGGAGAAGAAGGAATTATTGAGCAAGATAAAAAAATCGCTGGATATGCTCATGATTCAGGACGAGCTGTTATTATCGTTGTAAACAAATGGGATGCAGTGAAAAAAGATGAAAAAACAATGAAAGCATTTGAAGAAAATATTCGTGCTCATTTCCAATTCTTGGATTATGCACCGATTGTATTCTTATCTGCAAAAACGAAAAAACGTACACAAACGTTATTACCGGTTATCAATGAGGTAAATGAAAGCCATAGTATCCGTGTACAAACAAACGTATTAAACGATGTAATTATGGATGCGGTAGCGATGAATCCAACACCGACTCATAATGGTAGCCGTCTGAAAATCTTCTATGCGACACAGGTTGCGGTAAAACCACCGACATTTGTTGTGTTTGTAAACGATACAGAATTAATGCACTTTTCATATGAGCGCTTCTTAAAGAATCGTTTACGTGAAGCGTTCGGTTTTGTAGGAACGCCGATTCACATTATTGCTCGAGCAAGAGACTAA	MPKPVIAIVGRPNVGKSTIFNRIVGERVSIVEDIPGITRDRIYSAGEWLNHEFNIIDTGGIDIGDEPFLTQIRQQAEVAIDEADVIIFMTNGRDGVTAADEEVAKILYRSKKPIVLAVNKVDNPEMRSDIYDFYSLGFGEPFPISGTHGLGLGDLLDEAANHFPKIEEEAYDDETIRFSLIGRPNVGKSSLVNALLGQERVIVSNIAGTTRDAVDTPYSKDDQDYVIIDTAGMRKKGKVYESTEKYSVLRALRAIERSDVVLVVLDGEEGIIEQDKKIAGYAHDSGRAVIIVVNKWDAVKKDEKTMKAFEENIRAHFQFLDYAPIVFLSAKTKKRTQTLLPVINEVNESHSIRVQTNVLNDVIMDAVAMNPTPTHNGSRLKIFYATQVAVKPPTFVVFVNDTELMHFSYERFLKNRLREAFGFVGTPIHIIARARD				NA	NA	NA	NA	NA
AK009_00241	1023	gpsA_1	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGACAAAAATCACAGTAGTAGGAGCAGGTAGCTGGGGAACAGCGTTAGCGATGGTATTAGCTGACAATGGACATGATGTACGTATTTGGGGAAATCGCTCAGAACTTATGGATGAAATGAATACGAAACATGAGAATAGTCGATATCTCCCAGGCATTACATTGCCAAGCACAATCGTAGCCTACTCTTCTTTAGAAGAAGCATTAGTAGATGTAAATACAGTACTGCTAGTAGTACCGACGAAAGCGTACAGAGATGTATTACAAGAGATGAAAGAAATTGTTACAGAACCGATTACTTGGATTCATGCGAGTAAAGGGATTGAACCTGGTACGTCAAAACGTATTTCGGAAGTGATCGAGGAAGAAATTCCAGAGAACTTAATTAAAGATGTTGTTGTATTGTCTGGACCGAGTCATGCTGAAGAAGTTGGTTTACGACAAGCGACAACAGTTACGTCTGCAGCAAAGCGTATGGAAGCGGCTGAGGAAGTACAAGATTTATTTATGAATAGTTATTTCCGTGTATACACAAATCCAGATATCGTTGGAGTTGAACTTGGTGGTGCGTTAAAAAATATTATCGCATTAGCTGCTGGTATAACTGATGGTCTTGGATTAGGTGATAATGCAAAAGCGGCATTGATGACACGTGGTTTAACAGAGATTGCTCGTTTAGGAAGAAAAATGGGCGGGAATCCGTTAACGTTTGCTGGTCTAACCGGTATGGGAGACTTAATTGTAACTTGTACAAGTGTTCATAGCCGAAATTGGCGCGCTGGAAATATGCTTGGAAAAGGACATTCTTTAGAAGAAGTGTTAGAAAGCATGGGTATGGTTGTGGAAGGTGTAAGAACAACGAAAGCTGCTCATGAATTGGCAGAGAAAATGGAAGTTGAAATGCCGATTACAGCTGCTTTATATGACGTGCTGTTCAATGGGAATAACGTAAAAGATGCGGTAGGCTCATTGATGGGACGTGTTCGAAAACATGAAGTGGAAGCTATACCTGACTTACTGTAA	MTKITVVGAGSWGTALAMVLADNGHDVRIWGNRSELMDEMNTKHENSRYLPGITLPSTIVAYSSLEEALVDVNTVLLVVPTKAYRDVLQEMKEIVTEPITWIHASKGIEPGTSKRISEVIEEEIPENLIKDVVVLSGPSHAEEVGLRQATTVTSAAKRMEAAEEVQDLFMNSYFRVYTNPDIVGVELGGALKNIIALAAGITDGLGLGDNAKAALMTRGLTEIARLGRKMGGNPLTFAGLTGMGDLIVTCTSVHSRNWRAGNMLGKGHSLEEVLESMGMVVEGVRTTKAAHELAEKMEVEMPITAALYDVLFNGNNVKDAVGSLMGRVRKHEVEAIPDLL	PGPT0024330_1328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
AK009_00242	252			hypothetical protein	ATGGATAATAACATTTTTAATAATATTGAGAAGGAAGCGAAAGTAAATAAAGAGGATATTTTTAAATTAGCGTCATCCGTGCAAAATGCGAATTTACGTGATGAAACTGTACTTCGTCAATTAATTCATCAAGTGGCTCTTATGGCGGGACGTGAAGTGCCGAAAGAGCAAGAGGATCAAATTGTAAAAGCGATTATTAATAATAATATGCCAGCAGATTTTGGCTCGTTAAGCAAAATGTTTAAAAAATAA	MDNNIFNNIEKEAKVNKEDIFKLASSVQNANLRDETVLRQLIHQVALMAGREVPKEQEDQIVKAIINNNMPADFGSLSKMFKK				NA	NA	NA	NA	NA
AK009_00243	204			hypothetical protein	ATGTCAGAAGGGCTTATGAAAATGTGGTTGGCTTTAGGGGCAATTGGATTTATGTTTTTTGCAGTAAGTTTTATTTTATTAAGTAGACATAAAATACAGAATAAATTTTTGAAAGGGATTACAGCGTTAGTAGCGTACACCCTTATGGTTGTGTCAGGAATTGTTATTTTTCTTGTTGTATTTAGTGGACCTGTACAGCAGTAA	MSEGLMKMWLALGAIGFMFFAVSFILLSRHKIQNKFLKGITALVAYTLMVVSGIVIFLVVFSGPVQQ				NA	NA	NA	NA	NA
AK009_00244	714			hypothetical protein	GTGAAAAAAGTCCATATTATTTTAATATTTTGTTGTATGAGCCTTTTAACGGGGTGTCTGTATCCGAAAGAAAATATGAAGCAAAATGCGGTTCCTTATGAAGATCAGCTACAGGTTGTTCAAAAAGCTGTTGTGACATTTAAGGAGCAAAATGATGGGATATTGCCAATTAAGACGAGGGATATGAGTACACCTATTTATCAAAAGTATCCAATCGACTTTCAACAGATTGCCCCGCGTTACATACAAGAAGCACCAGGGAATGCATATGAAAGTGGAGGAGTATATCAATACGTATTAATAGACGTTGAAACAAATCCAACAGTAAAGTTAATTGATGTTAGGATGGCTGAACAAATTCAGGAACTATCTTTAAAGCTTAGGATGTATCGTGATGAACATCAATATCCACCTTTTAAAAAAGTAATTTCAGATGGTGTATATGAATTGGATTTTAAAAAACTAGGATATAAAGATGTGCCACAAGTGACAAGTCCATATTCTGGTAAAGGACTTCCTTTTGTAATTAATGAAAAAGGAGAAGTTTTTGTTGATTATAGAATCGACTTATATGACGCTTTGAAAAAAAATGAAGGGCAGTTTACGGAGGGAGAAGATATTCGAAATATACTTTCGAAAGGTTCCCCGTTTGTACCAGCTTATTCTTTACCGTACACGGTAAAGGACGGAGAACCAATTTTTTTAAAATCATAA	MKKVHIILIFCCMSLLTGCLYPKENMKQNAVPYEDQLQVVQKAVVTFKEQNDGILPIKTRDMSTPIYQKYPIDFQQIAPRYIQEAPGNAYESGGVYQYVLIDVETNPTVKLIDVRMAEQIQELSLKLRMYRDEHQYPPFKKVISDGVYELDFKKLGYKDVPQVTSPYSGKGLPFVINEKGEVFVDYRIDLYDALKKNEGQFTEGEDIRNILSKGSPFVPAYSLPYTVKDGEPIFLKS				NA	NA	NA	NA	NA
AK009_00245	1479	spoIVA		Stage IV sporulation protein A	TTGGAAAAGGTAGATATTTTTAAAGATATTGCAGAACGAACAGGCGGTGATATTTATTTTGGAGTTGTAGGAGCTGTTCGAACAGGGAAATCAACATTCATTAAAAAATTTATGGAACTTGTAGTTATTCCAAATATTGAGAATGAGTCTGACCGTCAAAGAGCGCAGGATGAATTGCCTCAAAGTGCTGCTGGTCGTACAATTATGACGACGGAACCGAAGTTTGTTCCAAACCAAGCGGTTTCTATCGAAGTAGATGAAGGACTTGAAGTGAATATTCGATTAGTAGATTGTGTTGGATATACGGTTCCAGGAGCGAAGGGCTATGAAGATGAGAATGGCCCGCGCATGATTAATACCCCTTGGTATGAAGAACCTATTCCATTCCATGAAGCTGCAGAAATCGGCACGCGTAAAGTAATTCAAGAACATTCAACAATTGGTGTTGTAATTACAACAGATGGAACAATTGGTGAAATTCCAAGAAGAGATTATATAGAGGCAGAAGAACGCGTTGTAAATGAATTGAAAGAAGTAGGAAAACCTTTCATTATGATAATTAATACGGTACAGCCGTATCATCCAGATACAGAGCAATTACGCCAAAGTTTATCAGAAGAATATGATATCCCGGTTATTGCAATGAGTGTGGAGAGTTTAAGAGAAACAGATGTATATAATGTACTTCGTGAAGCGCTATTTGAATTCCCTGTATTAGAAGTGAATGTGAACCTTCCGAGCTGGGTAATGGTGCTAAATGAAGGGCATTGGTTGCGTCAAAGTTATCAAGAAGCAGTTCAAGAAACTGTGAAGGATATAAAACGTCTTCGTGATGTGGATCGGGTTGTTTGGCAGTTTAGTCAATATGAATTTATTGATCGAGCGAGCTTAGCTGGCATTGATATGGGGCAAGGTGTGGCGGAGATTGATTTATATGCGCCAGATGAATTATATGATCAGATTTTAAAAGAAGTAGTAGGGGTAGAAATTCGGGGGAAAGATCATTTATTGAAGCTTATGCTCGATTTATCTCATGCGAAAACAGAATACGACCAAGTCGCAGACGCACTGCGTATGGTTAAGCAAACAGGATATGGTGTAGCAGCGCCTGCGCTAGCAGATATGAGCTTAGATGAGCCAGAAATTATTCGTCACGGTTCAAGGTTTGGTGTGAAGTTAAAAGCGGTAGCGCCATCCATTCATATGATTAAAGTAGATGTAGAGTCAACGTTTGAACCGATCATTGGTACTGAAAAGCAAAGTGAAGAATTAGTTCGTTATTTAATGCAAGATTTTGAAGATGACCCGTTATCAATTTGGAATTCTGATATATTTGGACGTTCGCTTAGCTCAATTGTTCGAGAAGGAATTCAAGCGAAATTATCCTTAATGCCAGAAAACGCTAGATATAAATTAAAAGAAACGCTAGAAAGAATTATTAATGAAGGATCTGGCGGATTAATTGCGATTATACTATAA	MEKVDIFKDIAERTGGDIYFGVVGAVRTGKSTFIKKFMELVVIPNIENESDRQRAQDELPQSAAGRTIMTTEPKFVPNQAVSIEVDEGLEVNIRLVDCVGYTVPGAKGYEDENGPRMINTPWYEEPIPFHEAAEIGTRKVIQEHSTIGVVITTDGTIGEIPRRDYIEAEERVVNELKEVGKPFIMIINTVQPYHPDTEQLRQSLSEEYDIPVIAMSVESLRETDVYNVLREALFEFPVLEVNVNLPSWVMVLNEGHWLRQSYQEAVQETVKDIKRLRDVDRVVWQFSQYEFIDRASLAGIDMGQGVAEIDLYAPDELYDQILKEVVGVEIRGKDHLLKLMLDLSHAKTEYDQVADALRMVKQTGYGVAAPALADMSLDEPEIIRHGSRFGVKLKAVAPSIHMIKVDVESTFEPIIGTEKQSEELVRYLMQDFEDDPLSIWNSDIFGRSLSSIVREGIQAKLSLMPENARYKLKETLERIINEGSGGLIAIIL	PGPT0024770_258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024770-spoIVA-K06398	NA	NA
AK009_00246	273	hup_1		DNA-binding protein HU	ATGAACAAGACAGATTTAATCAATGCTGTTGCAGAAGCAAGTTCCCTTTCTAAAAAGGACGCAACAAAAGCAGTAGACGCTGTTTTTGATTCTATCTTAGAAGCTTTAAAACAAGGTGATAAAGTACAACTGATCGGATTCGGTAACTTCGAAGTTCGTGAGCGTGCGGCTCGTAAAGGTCGTAACCCACAAACAGGTGAGGAGATTGAAATCGCTGCAAGTAAAGTACCTGCATTCAAACCTGGTAAAGCGTTAAAAGATGCGGTTAAATAA	MNKTDLINAVAEASSLSKKDATKAVDAVFDSILEALKQGDKVQLIGFGNFEVRERAARKGRNPQTGEEIEIAASKVPAFKPGKALKDAVK				NA	NA	NA	NA	NA
AK009_00247	570	folE	COG0302	GTP cyclohydrolase 1	ATGGCAAAAGTTAATTTAGAACAAATTGAACATGCAGTACGCCTTATTTTAGAGGCGATTGGGGATGATCCAAATCGTGAGGGAGTACTTGATACACCAAAACGTGTTGCAAAAATGTACGCAGAAGTGTTCTCAGGTATGCATGAAGATCCGAAAGAGCATTTGCATAAAGTATTCGGAGAAGATCACGAAGAGCTTGTACTAGTAAAAGATATACCATTTTATTCGATGTGTGAGCATCATTTAGTTCCATTCTATGGAGTTGCTCACGTTGCATATATTCCGCAAGGTGGAAAGGTGACAGGGTTAAGTAAATTAGCTCGTACTGTAGATACAATTGCACGTCGTCCACAACTGCAAGAACGTATTACATCAACAGTAGCGAACTCTATTATGGAAGTATTAGAGCCTCATGGTGTAATGGTAGTAGTAGAAGCAGAACATATGTGTATGACGATGCGTGGTGTGAAAAAACCAGGTGCGAAAACAGTAACGACAGCAGTGCGTGGTGTGCTTGAAAATGATGCTGCAGCGCGCAGTGAAATTTTATCGTTTATTAAAACGAAGTAA	MAKVNLEQIEHAVRLILEAIGDDPNREGVLDTPKRVAKMYAEVFSGMHEDPKEHLHKVFGEDHEELVLVKDIPFYSMCEHHLVPFYGVAHVAYIPQGGKVTGLSKLARTVDTIARRPQLQERITSTVANSIMEVLEPHGVMVVVEAEHMCMTMRGVKKPGAKTVTTAVRGVLENDAAARSEILSFIKTK	PGPT0007875_3948	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
AK009_00248	735			hypothetical protein	GTGTGTGACATCTACGGAGGGTATGCGGGTATAAAAGAGAAATTGATGGAGAAATTACGCCATCCTTATTTTATAAACTATATTGAAGAACCATTTATTGATGAAGAAAAGATAGCATTGTTATATGGTGCTTTAAAGAGTGCAAACTTACATATAGAACAAATTGAGCATTACGTAGTAACGATTATGCTTGTGCAAATTGCGCTTGATACGCATGAAAAGGTATCAAATAAAGCAGGCGAGGAAGCGATTGAATCGCATAAATGTCGTCAATTAACAGTACTTGCAGGCGATTACTATAGTGGACTATATTATTATTTATTGTCTATGAATCGTGATATTGTTTTAATTCGTGCACTTGCTGAAGGAATTAAAGAGATAAATGAACACAAAATTATGTTATACCAAAAAGCGCATGAAACGACGGATGACATAATGAAAAGCGTAGTAACGATTGAGTCTGCGCTCCTTCAAAAAACATGTGATCATTTTCATTTATCACATTGGAAGCCATTTATCACATACGTATTAGGTGGAAATCGTCTTCAAAAAGAAATTCAATTGTATGCTGATAAACAACATTCACCTGTTTTTCAAGCGATGCAAGATGCTTTAGGGGATAAAGCAGAAGTAGTGATTAATAGTTGGATGATGGAATTGAGAAAGAAAGAAAAACAATTTTTAGAAAATCACATAGACATTAATGAAATAAATTCTGTGTTAAGGGATAAATAG	MCDIYGGYAGIKEKLMEKLRHPYFINYIEEPFIDEEKIALLYGALKSANLHIEQIEHYVVTIMLVQIALDTHEKVSNKAGEEAIESHKCRQLTVLAGDYYSGLYYYLLSMNRDIVLIRALAEGIKEINEHKIMLYQKAHETTDDIMKSVVTIESALLQKTCDHFHLSHWKPFITYVLGGNRLQKEIQLYADKQHSPVFQAMQDALGDKAEVVINSWMMELRKKEKQFLENHIDINEINSVLRDK	PGPT0007531_248	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007531-hepST-K00805	NA	NA
AK009_00249	714	menG	COG2226	Demethylmenaquinone methyltransferase	ATGCAACAATCAAAAGAAGAAAGAGTACATGACGTATTTGAAAAGATTTCTGATAAATACGATGTGATGAATTCTGTAATTAGTTTTCAAAGACATAAAGCGTGGCGTAAAGAAACGATGCGAATTATGGATGTACAACCAGGCAGTCAAGCGCTTGATGTATGCTGTGGAACCGCAGATTGGACAATTGCGCTAGCTGGAGCGGTAGGTGAACAAGGAAAGGTTGTTGGCTTAGACTTCAGTGAAAATATGTTATCTGTCGGTAAGCAAAAGGTAGAGGCGTTACAATTAAAACAAGTAGAACTTCTACATGGGAATGCAATGGAACTTCCATTTGAAGATAATACGTTTGATTATGTGACGATTGGGTTTGGTTTACGTAACGTACCGGATTATATGCACGTATTAAAAGAAATGACACGTGTAGTAAAACCAGGTGGAAAAGTAATCTGTTTAGAAACATCTCAACCAACAATGATTGGTTTTCGACAAGGGTATATTTTATACTTTAAATATATCATGCCGTTATTTGGAAAGATGTTTGCGAAAAGTTATAAAGAATATTCATGGCTTCAAGAATCTGCTAGTACGTTCCCAGGGATGAAAGAACTGGCTCAAATGTTTGAGCAAGCTGGACTTGAACGTGTGCAAGTAAAACCATTTACTTTTGGGGTAGCAGCGATGCATTTAGGTATTAAACCAGAATCAAAATAG	MQQSKEERVHDVFEKISDKYDVMNSVISFQRHKAWRKETMRIMDVQPGSQALDVCCGTADWTIALAGAVGEQGKVVGLDFSENMLSVGKQKVEALQLKQVELLHGNAMELPFEDNTFDYVTIGFGLRNVPDYMHVLKEMTRVVKPGGKVICLETSQPTMIGFRQGYILYFKYIMPLFGKMFAKSYKEYSWLQESASTFPGMKELAQMFEQAGLERVQVKPFTFGVAAMHLGIKPESK	PGPT0009535_2905	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
AK009_00250	963	hepT	COG0142	Heptaprenyl diphosphate synthase component 2	ATGAAGTTACAACTTATGTACTCTTTTTTACGATCGGATATTAATGTGATAGAAAAAGAATTAAAAAAGACAGTCGCTTCTGAACAGCCATTAGTAGAAGAGGCAGCATTACAGCTTATTGAAGCTGGTGGGAAGCGAATTCGTCCTGTATTTGTGTTGCTTGCAGGGAAATTTGGAGATTATAAGTTAGATGCAATTAAGCATGTTGCTGTTGCGTTAGAACTTATTCATATGGCTTCTCTTGTTCACGATGATGTTATTGATGCTGCATTTTTACGACGCGGCAGTGCGACTGTGAATGCAAAATGGGGAGATCGTATTGCGATGTATACAGGGGACTATCTGTTCGCTAAGTCTCTTGAATGTATAACAAATATCGAAATTCCAGAGGCACATCAAGCGTTATCGCATACTATTTTAGAAGTCTGTAAAGGTGAAATTGAACAAATTAAAGATAAATACAATTATGACCAAAATTTAAGAACGTATTTAAGAAGAATAAAGCGAAAAACAGCATTATTAATTGCCGCGAGTTGTCAATTGGGAGCGATTGCTGCTGGTGCTAATCGTGATACGGTAAATCGTCTATTTTGGTATGGGTATTTTGTAGGAATGTCTTATCAAATTATTGATGACATTTTAGACTTCGTTTCTACAGAAGAGAAACTTGGAAAACCTGCTGGTGGAGATTTACTACAAGGGAATATTACACTTCCTGCTTTATATGCGATGGAAGATCCCGTACTTCGTCAGCAAATCACATCTGTACATGAAAATTCAACAGCAAGTGAAATGCAAGAAATTATTGATGCTGTAAAAAATAGTACAGCAATTGATCAAGCATTTGCGTTTAGTGAACGTTATTTACATAAAGCTTTAGAAATAATAAAACCACTCCCACGTGGACAAGCAAAGTACGCATTACAAAATGTTGCAAAGTATATTGGAAAACGAAAATTTTAA	MKLQLMYSFLRSDINVIEKELKKTVASEQPLVEEAALQLIEAGGKRIRPVFVLLAGKFGDYKLDAIKHVAVALELIHMASLVHDDVIDAAFLRRGSATVNAKWGDRIAMYTGDYLFAKSLECITNIEIPEAHQALSHTILEVCKGEIEQIKDKYNYDQNLRTYLRRIKRKTALLIAASCQLGAIAAGANRDTVNRLFWYGYFVGMSYQIIDDILDFVSTEEKLGKPAGGDLLQGNITLPALYAMEDPVLRQQITSVHENSTASEMQEIIDAVKNSTAIDQAFAFSERYLHKALEIIKPLPRGQAKYALQNVAKYIGKRKF	PGPT0025040_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK009_00251	447	ndk	COG0105	Nucleoside diphosphate kinase	ATGGAAAAAACATTTCTAATGGTAAAACCAGACGGTGTACAACGTGCCTTCATTGGGGAAATTGTAGCTCGTTTTGAGAAAAAAGGCTTTCAATTAGTTGGTGCAAAATTAATGCAAGTCACTCCGGAAATTGCTGGACAACACTACGCTGAGCATAAGGAAAAACCTTTCTTTGGTGAGTTAGTAGACTTTATTACATCTGGACCTGTGTTCGCAATGGTATGGCAAGGTGAAGGTGTAGTAGATACAGCGCGTAACATGATGGGGAAAACAAGACCACATGAAGCAGCTCCTGGAACAATTCGTGGAGATTTCGGTGTAACTGTTGCGAAAAACATTATCCATGGTTCTGATTCTTTAGAAAGCGCAGAGCGCGAGATTGCTATTTTCTTTAAAGAAGAAGAATTAGTTGACTACTCAAAATTAATGAATGAATGGATTTACTAA	MEKTFLMVKPDGVQRAFIGEIVARFEKKGFQLVGAKLMQVTPEIAGQHYAEHKEKPFFGELVDFITSGPVFAMVWQGEGVVDTARNMMGKTRPHEAAPGTIRGDFGVTVAKNIIHGSDSLESAEREIAIFFKEEELVDYSKLMNEWIY	PGPT0021210_2370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
AK009_00252	1173	aroC_1	COG0082	Chorismate synthase	ATGCGATATATTACAGCTGGTGAATCTCATGGTCCGCAACTTACAACAATTATAGAGGGTGTTCCAGCAGGATTGTCTTTAGTAGCGGATGATATAAACGAAGAGTTAGCTAGAAGGCAAAAGGGGTATGGGCGTGGTAGACGCATGCAAATTGAAACGGATCAAGTGCAAATTTTAAGTGGTGTTAGACATGGAGAAACATTAGGTTCCCCTATTGCACTCATTGTTGAAAATCGTGATTTTGCCCATTGGATAAAAGTTATGGGTGCAGAACCTTTAACGAAACAAGAAGAAAAAGAGATGAAAAGGAAAGTGACAAAACCAAGGCCTGGGCATGCTGATTTAAATGGTGCAATTAAATATGGTCATAGAGATATGAGGAATGTACTGGAACGTTCGTCAGCGCGCGAAACGACGGTGCGTGTTGCTGCTGGTGCGGTTGCTAAAAAGGTGTTAGCAGAACTTGGTATTAAAGTGGCGGGCCATGTAATTGAAATTGGCGGTGTACAAGCTAAGGAGGTTACGTATAGTTCAATTGAAGAATTAAAGAGTATTACAGAAGCATCTCCTGTACGTTGCTTAGATGACGAAGCTGGTAACCAAATGATGAAAGCGATTGATGATGCGAAAGCAAATGGTGATTCAATTGGTGGAATCGTTGAAGTAATTGTGGAAGGAATGCCAATTGGAGTAGGTAGCTACGTGCATTATGATCGAAAACTGGATGCGAAATTAGCAGCTGCAATTATGAGTATTAATGCTTTTAAAGGTGTCGAGATTGGAATTGGTTTTGAAGCAGCGCATAGACCGGGAAGTGAAGTTCATGATGAAATTCTATGGAATGAGGAGCATGGATATACAAAAAGAACAAATAATGCAGGTGGATTGGAAGGTGGTATGACGACTGGAATGCCAATTGTTGTGCGCGGTGTGATGAAACCGATACCTACACTTTATAAACCTCTTCAAAGTGTAGATATTGATACGAAAGAGCCTTTTACAGCGAGCATTGAACGTTCAGATAGTTGTGCAGTACCAGCAGCTAGTGTCGTTGCAGAAGCGGTTGTGGCTTGGGAATTAGCAACAGCTTTAATAGAACAATTCGGATTAGATCGTATGGAACTGATTCGTGAAAATATTGAGAAACATAATGAATATGCGAGGGGATTTTAA	MRYITAGESHGPQLTTIIEGVPAGLSLVADDINEELARRQKGYGRGRRMQIETDQVQILSGVRHGETLGSPIALIVENRDFAHWIKVMGAEPLTKQEEKEMKRKVTKPRPGHADLNGAIKYGHRDMRNVLERSSARETTVRVAAGAVAKKVLAELGIKVAGHVIEIGGVQAKEVTYSSIEELKSITEASPVRCLDDEAGNQMMKAIDDAKANGDSIGGIVEVIVEGMPIGVGSYVHYDRKLDAKLAAAIMSINAFKGVEIGIGFEAAHRPGSEVHDEILWNEEHGYTKRTNNAGGLEGGMTTGMPIVVRGVMKPIPTLYKPLQSVDIDTKEPFTASIERSDSCAVPAASVVAEAVVAWELATALIEQFGLDRMELIRENIEKHNEYARGF	PGPT0012875_1345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
AK009_00253	1086	aroB	COG0337	3-dehydroquinate synthase	ATGGGAAACATACATATTCAAACGAAATCAAAAGAATATGATGTACATGTTGGTAAAGAAGCGTTGTCACACTTAACAATGATCGTTCAAAATATGCAGCCAGCTGTATCTAACGTAATGATCATTTCAGATGAAGCTGTTGCATCACTACATTTACAGACAGTTATCGATGCATTACAAGTGGAGCAGGACGTGTTTTCGTTTGTTGTACCAAGTGGCGAAAAAGAGAAGTCTTTCGAAAATTTCTATGCGGCTCATACGTCAGCTCTTGAAAATAAATTAGATAGAAATTCTTTAATTCTTGCACTGGGAGGCGGAATGATTGGAGATTTAGCTGGTTTTGTTGCTGCATCGTTTATGCGTGGTATTCGCTTTGTGCAGGTTCCGACGACTTTATTAGCGCACGATAGCGCAGTAGGTGGGAAAGTAGCGATTAATCATCCGTTAGGTAAAAATATGATTGGTGCATTCCATCAGCCAGAAGCAGTTGTATATCATACACCGTTTTTACAGTCTCTTCCTAAAAAAGAGTGGCGTTCAGGTTATGCAGAGGTGATAAAGCATGCTCTTATTGGTGATGTGGAGCTATATCATTGGTTAAAAGAAGAAGTGCAAACATTAGCGGATCTTCGTGATGAGAAGTTAATCCATATATTAACGAAGGCGATTCCTGTAAAGGCAAATGTTGTATCACAAGATGAAACAGAGAAGGGTGTACGTGCCCATTTGAACTTTGGACATACGTTAGGACATGCTCTTGAAAAAGAGCTAGGGTATGGAAATATTACTCACGGTGACGGCGTAGCGGTTGGAATGTTATTCGCCATATTTTTAAGTGAGCAAGTGTACAAGGTTAATCTTGCTTATGAAGATATGAAGCAGTGGTTCTTGAAATACGGCTATCCAAAAATGCCAAGAGATTTGAATGTAGAGCGCCTCGTTCAATTGATGAAACAAGATAAGAAAGCAAATGCAGGAGCAATTCATATGGTGCTTATGCAGGAATATGGGGTAGTGAATGTCGTATCTATTTCAGATGAGACTGTTCATATTGCGTTAGAGGCATTTCAAAAAGATATGGTTTAA	MGNIHIQTKSKEYDVHVGKEALSHLTMIVQNMQPAVSNVMIISDEAVASLHLQTVIDALQVEQDVFSFVVPSGEKEKSFENFYAAHTSALENKLDRNSLILALGGGMIGDLAGFVAASFMRGIRFVQVPTTLLAHDSAVGGKVAINHPLGKNMIGAFHQPEAVVYHTPFLQSLPKKEWRSGYAEVIKHALIGDVELYHWLKEEVQTLADLRDEKLIHILTKAIPVKANVVSQDETEKGVRAHLNFGHTLGHALEKELGYGNITHGDGVAVGMLFAIFLSEQVYKVNLAYEDMKQWFLKYGYPKMPRDLNVERLVQLMKQDKKANAGAIHMVLMQEYGVVNVVSISDETVHIALEAFQKDMV	PGPT0012865_2760	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
AK009_00254	1113	hisC_1	COG0079	Histidinol-phosphate aminotransferase	ATGAGAGTGAAAGAGCAATTGTTAACTTTGAGAGCGTATGTACCTGGGAAAAACATTGAAGAAGTAAAAAGGGAATATGGATTATCGAAAATTGTGAAATTAGCATCGAACGAAAATCCATTCGGTTGCTCAGCGCGTGTGACAGAAGCATTAACTTCTTTAGCGAGCCAATATGCCCTTTATCCAGATGGATATGCCTTTGAACTTCGGACAAAAGTAGCGGAACATTTAGGTGTAAAAGCAGAACAACTACTATTTGGTAGTGGATTAGATGAAGTCATTCAAATGATTAGCCGAGCGTTACTACATGAAGGAACAAACGTTGTAATGGCGAATCCTACGTTTTCACAATATCATCACCATGCTGTTATTGAAGGAGCAGAAGTTCGTGAAGTATCACTTAAAGATGGTATTCACGATTTAGATGCAATGCTAGAGCAAGTAGATGATAAAACGAAAATTGTATGGATTTGTAATCCGAATAATCCGACAGGTACATATGTTGAGAAACAAAAATTACTTTCATTTTTAGAATCGGTTCCTAAGTCGGCTCTCGTTATTATGGACGAAGCATATTATGAATACGCGGAAGCAGAAGACTATCCGCAAACATTACCACTTCTTGAAAAGTATGAAAATCTTATGGTTTTACGCACGTTTTCAAAAGCATATGGTTTAGCTGCTTTTCGTATTGGATATGCGATTGGGGATGCGAAGTTAATCGGACAGCTAGAAGTAGCAAGGTTACCATTCAATACATCAACTGTAGCGCAATCTGTAGCACTCGCTGCATTAGAAGATCAAGCCTTTTTACAAGATTGTGTGAAAAAGAATGCTGAAGGTCTAAATCAGTATTATGCATTTTGTAAAGAATATAACGTATTCTATTATCCATCTCAAACAAATTTCATTTTCTTAAAACTTGGTATACCGGGTAATGAAGCTTTCGAACGATTAATGAAAAAAGGATATATCGTTCGTTCTGGTGCTGCATTTGGTATCGATGATGGTATTCGTATTACTGTCGGTTTGAAAGAAGAAAATGATGAAATTATAGAGTTGCTGAAAGAGCTTGTAAATGAGCAAGTACAGAAAGAAGAAACATATTCTTAA	MRVKEQLLTLRAYVPGKNIEEVKREYGLSKIVKLASNENPFGCSARVTEALTSLASQYALYPDGYAFELRTKVAEHLGVKAEQLLFGSGLDEVIQMISRALLHEGTNVVMANPTFSQYHHHAVIEGAEVREVSLKDGIHDLDAMLEQVDDKTKIVWICNPNNPTGTYVEKQKLLSFLESVPKSALVIMDEAYYEYAEAEDYPQTLPLLEKYENLMVLRTFSKAYGLAAFRIGYAIGDAKLIGQLEVARLPFNTSTVAQSVALAALEDQAFLQDCVKKNAEGLNQYYAFCKEYNVFYYPSQTNFIFLKLGIPGNEAFERLMKKGYIVRSGAAFGIDDGIRITVGLKEENDEIIELLKELVNEQVQKEETYS	PGPT0020305_2470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK009_00255	1263	bepA_1		Beta-barrel assembly-enhancing protease	ATGCAAAAGTTTGAACAAGTTGTTTCATATATTGAAAATGGTGAAGCGGAAAAAGGATTACAATTATTAAAAGAACAATTAAAAATTGCAAATGATGAAGAGAAGTATGATATCGCTCGTTACTATCATACACTTGGATTTACAGATGAGGCATTAGCGATTACTGAAGACTTACGTTTACTGTATCCGGAAGAAAGTGAATTCACTGTATTTTTAGCAGAATTATATATTGATCTAGATAAAGAAGATGAAGCGATTGAAGTACTTCATGATATTCCAGAAAATGACGATTTATATGTTCAATCTTTATTACTTGTTGCAGATTTATTCCAAATGCAAGGTTTTGATGATGTAGCAGAGCAAAAACTATTAAAGGCGAAAGAAATGATGCCTGATGAACCTGTTATTACGTTTGGGTTAGCAGAATTATATAGTAGTAAAGGTGAAGAACAAAAGGCAATTACTTATTATGAATCGCTATTAGCGGAACATAAAGTAATGGGTGGTGTTGTAATCGCACTTCGTCTTGCAGAAACGTTAAGTGCGATTGGAAACTGGGAAGAGGCGATTTCTTATTATGAAGCAGGCCTAGAGGAACAAAAAGATATTCACTCATTATTTGGATATGCCTTCACATTATACCAAGGTGAAGAATATCAGAGAGCAATCGGTGCTTGGCAAGAACTAAAAGAATTAGACCCTGAGTACGCATCACTGTACATGTATTTAGCGAAAAGCTATGAAAAAGAAGGAATGCTTCAAGAAAGCTATGAAACGCTTCATGAAGGAATTAAAGTAGATGAGCTTTCAGTTCCGTTTTATGTAGAGTTAGCGAACATTGCGGCGAAATTAGGAAAAATAGTAGAAGCAGAGGAAGTTCTTCAAAAAGCACTTGAGTTAGATCCAGGGCATTTAGGCGCAACATTAAAATATGCGTATATCTTAAAAGAACAAGAAAAGTACGAAGATTTAATTGCAATTGTAGAGCGTGCTATTGATAGTGGAGAACCAGATACACAACTACTTTGGGACCTTGCGTATGCAAAAAAACAATTAGAAATGTATTCGGATGCATTAAAACACTATGAAAGTGCATATACTTCTTTTAAGAATCATCCAGACTTCTTAGAAGAATACGGTTATTTCTTATTGGAAGAAGGAAAGCGAAAAGAGGCGAAAGAAGTATTTACCCAGTTATTACAACTAGACCCGACACAAATTCATATTGAAGAGTTGTTATATAATTTAGAGGATTTTTCATAA	MQKFEQVVSYIENGEAEKGLQLLKEQLKIANDEEKYDIARYYHTLGFTDEALAITEDLRLLYPEESEFTVFLAELYIDLDKEDEAIEVLHDIPENDDLYVQSLLLVADLFQMQGFDDVAEQKLLKAKEMMPDEPVITFGLAELYSSKGEEQKAITYYESLLAEHKVMGGVVIALRLAETLSAIGNWEEAISYYEAGLEEQKDIHSLFGYAFTLYQGEEYQRAIGAWQELKELDPEYASLYMYLAKSYEKEGMLQESYETLHEGIKVDELSVPFYVELANIAAKLGKIVEAEEVLQKALELDPGHLGATLKYAYILKEQEKYEDLIAIVERAIDSGEPDTQLLWDLAYAKKQLEMYSDALKHYESAYTSFKNHPDFLEEYGYFLLEEGKRKEAKEVFTQLLQLDPTQIHIEELLYNLEDFS				NA	NA	NA	NA	NA
AK009_00256	594			hypothetical protein	ATGCCGCTTCTTGAATCTAAAAAGAAAAGAGAAAGACAGAGGAGGGACTTAATTGCTATGAATACCCCTGTTTCTGTAAACGAGAAGAAGGATTTTGTAAAATGGTTTTTGAATAATTACCAACTGAAACAGCGTGAATGTGTATGGATTCTGAATTATTTAATGAGTCACGACCAATTGATGCATAAAGTCCACTTCGTAGAGCATGCAAAATATTGTCCGCGTGGCTTAGTGATGTCAGCGAATTGTGTGAAAGACACACCGTTTCACTTTTTTAAACAAAATGTTATGACAACAGATGCTGAAAAATCGTTTCATGATATTCGTTTAAATCGAGATGAGGATATTTATATTCAACTCAACTTTAAATCATCGTTTCAAAATGCGAATTATGTAGCTGTATTAGAAGAAAACCCATATCTACCAAAGCATATTGAAGTAAATGAAAAAGATCGTTTACTTGCAGAAAGGTTTTTGGAAGAAAGTGTATTTTCGTTTAGAAGAGAACGCCTTTTGAAACAAATTGATGAAGCGTTAGATAAGCAAGATAAGGAAGCGTTTCATAGATTAACGGCAGAGTTAAAAACTTTATAG	MPLLESKKKRERQRRDLIAMNTPVSVNEKKDFVKWFLNNYQLKQRECVWILNYLMSHDQLMHKVHFVEHAKYCPRGLVMSANCVKDTPFHFFKQNVMTTDAEKSFHDIRLNRDEDIYIQLNFKSSFQNANYVAVLEENPYLPKHIEVNEKDRLLAERFLEESVFSFRRERLLKQIDEALDKQDKEAFHRLTAELKTL				NA	NA	NA	NA	NA
AK009_00257	462			hypothetical protein	TTGAAATGGATTGTAAAAGATGTGGAACAGTTTGAGCAAGCAAGAGAGTATGTTGATACAGGAGTAATACCGCTTTTATCAATTTCGGCAGCGAAAGAAATAAAAATGGTTGTAGAACAAGGTGAATTTATCGAATTGTTGAGTATGGAATTGGAAAGAGAGTATAAAGGAAGAGTGCTTTTACTGCCTGCTTTTACGTATTTAGTAGAAAGTCAAAAGAATGAAAAAGGTCGTTTGCAAGAATGGACAAATCATTTACGAAGAGAAGGTTTTAAGCATATTGCTTATGTTACAAGTGATTTTTCATGGAAAGAGGATATACAAGAGTTACAGGGAGATTTATTTTGGTTTCCTTCATTAGCATTAGAACAATTTAGTGATCAAGCAAAGAGAGAAGTTATTCATGCACATATAAAAAATATAATGGTGATGTTGGAAGAGAAGTGGGGAAACTCGCAATAA	MKWIVKDVEQFEQAREYVDTGVIPLLSISAAKEIKMVVEQGEFIELLSMELEREYKGRVLLLPAFTYLVESQKNEKGRLQEWTNHLRREGFKHIAYVTSDFSWKEDIQELQGDLFWFPSLALEQFSDQAKREVIHAHIKNIMVMLEEKWGNSQ				NA	NA	NA	NA	NA
AK009_00258	513	petC_1		Cytochrome b6-f complex iron-sulfur subunit	GTGAGCGAGAAAGAACATCGCGTGTCAAGAAGACAATTTTTAAATTACACACTCACAGGGGTAGGAGGCTTTATGGCTGCCGGTATTTTAATGCCGATGACGCGATTTGCGCTTGATCCGGTGTTAAGAAAAGAAGCCGGAACAGATATGGTTGCTGTTGCGCAAGTAAAGGATATTACAACAGAGCCGAAGCGTTTCGATTTTAAAGTGAAGCAGGTTGATGGTTGGTACAAGTCTGAAGAACCAAAATCGGCTTGGGTTCATAAAGATGAAAGCGGAGACATTGTTGCGTTCTCTCCAGTATGTAAACATTTAGGATGTACAGTTAACTGGAATTCGGACAAAGCACATCCGAATCAATTCTTTTGCCCATGTCACGGGGGGCGTTATACAAAAGATGGGATGAACATTAAGGGTACGCCACCCCTTGCTCCGCTTGATGTGTACGAGTCTAAAGTGAAAGATGGAACGCTGTATCTAGGAAAAGCAAAGCCAAGAGGGGGTGCAAAGTAG	MSEKEHRVSRRQFLNYTLTGVGGFMAAGILMPMTRFALDPVLRKEAGTDMVAVAQVKDITTEPKRFDFKVKQVDGWYKSEEPKSAWVHKDESGDIVAFSPVCKHLGCTVNWNSDKAHPNQFFCPCHGGRYTKDGMNIKGTPPLAPLDVYESKVKDGTLYLGKAKPRGGAK				NA	NA	NA	NA	NA
AK009_00259	675	qcrB	COG1290	Menaquinol-cytochrome c reductase cytochrome b subunit	ATGTTAAATAAAATTTATGATTGGGTAGATGAAAGATTAGATATTACACCAATATGGCGTGATATCGCTGATCATGAAGTACCTGAACATGTAAACCCGGCACATCACTTTTCTGCATTCGTCTATTGCTTTGGAGGACTTACCTTTTTCGTTACTGTAATTCAAATTTTATCTGGAATGTTTTTGACGATGTATTATGTGCCTGATATTAAAAATGCTTGGGAATCCGTTTACTATTTACAAAATGAAGTTGCTTATGGGCAAATTGTTCGTGGTATGCACCACTGGGGTGCTAGTCTCGTAATTGTAATGATGTTTTTACATACACTCAGAGTTTTCTTCCAAGGTGCGTATAAAAAGCCCCGTGAGTTAAATTGGATTGTTGGTGTTCTTATTTTCTTTGTTATGTTAGGTCTTGGTTTTACCGGATATTTATTACCGTGGGATATGAAAGCTTTATTTGCTACAAAAGTAGGGATTCAAATTGCAGAGCAAACACCGCTCATTGGTCCTTATATTAAAACATTACTCGCTGGTCATTCCGAAATTGTTGGCGCTCAAACATTAACTCGCTTCTTTGCTATTCACGTCTTCTTCTTACCAGCAGCACTTCTAGGTTTAATGGCCTTCCACTTCATCATGATTCGCAAACAAGGTATTTCCGGTCCACTATAA	MLNKIYDWVDERLDITPIWRDIADHEVPEHVNPAHHFSAFVYCFGGLTFFVTVIQILSGMFLTMYYVPDIKNAWESVYYLQNEVAYGQIVRGMHHWGASLVIVMMFLHTLRVFFQGAYKKPRELNWIVGVLIFFVMLGLGFTGYLLPWDMKALFATKVGIQIAEQTPLIGPYIKTLLAGHSEIVGAQTLTRFFAIHVFFLPAALLGLMAFHFIMIRKQGISGPL	PGPT0030840_498	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
AK009_00260	768	petD		Cytochrome b6-f complex subunit 4	ATGCATCGCGGCAAAGGGATGAAGTTTGTAGGAGATTCTCGGGTACCAGTAGCTCGGAAACCAAATATTCCAAAAGACTATTCTGAATACCCAGGGAAAACAGAAGCATTTTGGCCGAACTTCTTGTTAAAAGAATGGATGGTTGGTGCAGTTTTTTTAATCGGTTATTTATGTTTAACAGTGGCGCATCCGTCGCCACTTGAGAGAATGGCGGATCCAACAGATGCTGGATATATACCACTTCCAGATTGGTATTTCTTATTCTTGTATCAGTTATTAAAGTATTCTTATGCTTCCGGTTCATTTACTGTAATTGGAGCGTTTATTATGCCAGGGATTGCGTTTGGTGCATTACTGTTAGCTCCATTTCTTGATCGAGGTCCAGAAAGACGTCCATTGAAGCGTCCTGTAGCAACTGGATTTATGCTTTTAGCAATTGCATCGATTATCTTTTTAACTTGGGAATCTGTAGCACACCACGACTGGGAAGCTGCAAAGAAACAAGGAGCAATTGTAAAAACAGCGCCAGTTGATAAAAATGATGATGGCTATAAATTAATGCAAAAAAATACTTGTTTAACATGTCATGGTGACAACTTACAGGGCGGGGCGGCAGCACCAGCACTGCAAAACTTAACTTTAAAGCCAGAAGAAATTGCTAAAATTGCGAAAGATGGAAAAGGTTCCATGCCTAAAGGTGTATTTAAAGGTACAGATGAGGAACTGAAGAAGCTTTCGGAATTCGTTGCAAAGTATAATAAAAAATAA	MHRGKGMKFVGDSRVPVARKPNIPKDYSEYPGKTEAFWPNFLLKEWMVGAVFLIGYLCLTVAHPSPLERMADPTDAGYIPLPDWYFLFLYQLLKYSYASGSFTVIGAFIMPGIAFGALLLAPFLDRGPERRPLKRPVATGFMLLAIASIIFLTWESVAHHDWEAAKKQGAIVKTAPVDKNDDGYKLMQKNTCLTCHGDNLQGGAAAPALQNLTLKPEEIAKIAKDGKGSMPKGVFKGTDEELKKLSEFVAKYNKK				NA	NA	NA	NA	NA
AK009_00261	588			hypothetical protein	GTGTACTTGTATGCAATGTTAAGACAACGCTCGGTATTATTATTTTTATTGGTTGTTAACATATTAGGTACAATTTACGGGTTTATATGGTACGGAAATCAATTGAAAGAAACGTCACCTATATTTTGGCCGTTTGTACCAGATAGTCCTATGGCGAGTCTCTTTTTTGTCTTTGTTTTAATTGCTTTTTTGACAAAGAGAAACTGGGGATTAATAGAAGCACTAGCGATTGTTACTTTAATAAAATATGGTATTTGGGCTGTTGTTGTAAATGCGATTATGATTTACGTAAAAGGTTCTATTGGCCTTATGGGCTACATGTTAATGCTTTCGCACTTTGCGATGGCGGTGCAAGGTGTTTTATATGCTCCATTTTACCGTATAAAAAAATGGCATTTTATAGTAGCGGGTGTGTGGACGTTGCATAACGATGCAATTGATTATTTATTTTGGCAAATGCCGCGATATGGAATTATGCATTTGTTTGTAGAGGAAATTGGTTATTTTACGTTTTGGTTAAGCGTTGCTGTACTATGTATTACATATTATTGTTGCTTACGTGAGCACAGGAAACAATTTTCTTTATGA	MYLYAMLRQRSVLLFLLVVNILGTIYGFIWYGNQLKETSPIFWPFVPDSPMASLFFVFVLIAFLTKRNWGLIEALAIVTLIKYGIWAVVVNAIMIYVKGSIGLMGYMLMLSHFAMAVQGVLYAPFYRIKKWHFIVAGVWTLHNDAIDYLFWQMPRYGIMHLFVEEIGYFTFWLSVAVLCITYYCCLREHRKQFSL				NA	NA	NA	NA	NA
AK009_00262	687			hypothetical protein	ATGGAGAAAAATAAGAGTGGTACAAAAATATTGGATCGATTGATTACTTTAATTGTTTCATATAGCATAGCATTTTCTATTTTTGCACTTGCAACAACGGCAGTTGTGTATGGAAAATGGCTGTATTATTTTGAAATTGATTTTTTAAATATTCCTGATTTAGCGGATATGACGAAGGATGAAATTAAAAGAAATTACGATGTGCTTATTACATATTTATCCCCGTTTTATGACGGAGCATTACATTTGCCAACATTAGATATGTCTACAAATGGCCGTATTCATTTTGTAGATGTTAAAAATATTTTAGTAAAGATTCAATATGTGATGTATGCGACAATTATGATTGCAGTGATAGGCGGAATTTATTTATTAAAAAAGAAAAATGAAAAGTTTTTACTGCACGGATCGATTTTAACAATCATTTTTCCGATAGCGCTTATGTTACCAATCGCTATTAATTTTGAAAAGAGCTTTGTATTATTCCATAAGCTTTTATTCAGTAATGATTATTGGATGTTTGATATTGAAACGGATCCAGTTATATTAATGCTACCAGAGGAGTTCTTTATGCATGCTGCGTGTGCTATTTTATTATTCATTTTAGGTGGTAGTATACTTTGTTATAGTTTATATAGATATTTCGTAAAAAAGAAAAGGATGTCAAAGAAAAAATTCTCTGCTTAA	MEKNKSGTKILDRLITLIVSYSIAFSIFALATTAVVYGKWLYYFEIDFLNIPDLADMTKDEIKRNYDVLITYLSPFYDGALHLPTLDMSTNGRIHFVDVKNILVKIQYVMYATIMIAVIGGIYLLKKKNEKFLLHGSILTIIFPIALMLPIAINFEKSFVLFHKLLFSNDYWMFDIETDPVILMLPEEFFMHAACAILLFILGGSILCYSLYRYFVKKKRMSKKKFSA				NA	NA	NA	NA	NA
AK009_00263	789			hypothetical protein	ATGAAGAGAACATTAATTGGATTGATAGCATTTCTAATTATAATGTTTCCATTACGTATATATGCTGAAGAGTGGAATGAGCTAACAGGGTTGTTAGATGACTCGTTACAGTTAGTGAAGCGTAATGAAGATGAAAAAGCAGTACAAGTATTACAACTTTTCTCAGAGCAATTTTTAATCAAGGGGAATGAAAAGAAGCAGGAAGTAACACCAGATCAAGTTAGAGTTATTTCTTTAGCTTACGACAAGGCGCAACAATCGCTCTTTGAAGAAGGTTTAGGTAAGCAAGCTAAAATGGATAATGTGCTGGCATTACAACTTGCTGTTGATGCGCAAGTATCGAAATATCAACCGCTTTGGATGGAAAGAGAAAGAAAAGTAATGGATGCCTTTTCTCAAATGGAAAAAGCGATGGAAAAAGAAGATGTTGGGCAGTTTCAACAAACGTTAAATACATTTTTAAATGAATTCAATATTATTTATCCAAGCTTAATGATTGCTTTGCCAGAAAACGAGGTACAGCGTGTAAATGCTCATTTATCTTATTTGGATGAATTTCGTAACGTTATGTTAAAAACGAAAGGCGGCCAAATGCAATTAGGGATTATTAAAGGGGATTTGCAAAAGATATTTCACACAGTAAAAAAGGATGAAATTGCACCCTCTCTCATTTGGTTTATGACAATTACTGGGGGACTTATTTTATTCACATTAACTTATGTTGGATGGAGAAAGTATAAAGGAGAGAGAGAGAAAAGAAAAAGTAATGTACATTCTAAAAATAGATAA	MKRTLIGLIAFLIIMFPLRIYAEEWNELTGLLDDSLQLVKRNEDEKAVQVLQLFSEQFLIKGNEKKQEVTPDQVRVISLAYDKAQQSLFEEGLGKQAKMDNVLALQLAVDAQVSKYQPLWMERERKVMDAFSQMEKAMEKEDVGQFQQTLNTFLNEFNIIYPSLMIALPENEVQRVNAHLSYLDEFRNVMLKTKGGQMQLGIIKGDLQKIFHTVKKDEIAPSLIWFMTITGGLILFTLTYVGWRKYKGEREKRKSNVHSKNR				NA	NA	NA	NA	NA
AK009_00264	681			hypothetical protein	ATGTTTTATTTAATTTACTTCGCGATCATAATGATCATACCGTTGTATGCACAGTCAAGAGTACGTAGTGCCTATAGCAAGTATTCACAAGTTTATTCAACATCAGGTATGACAGGAGCGGAAGTGGCTCGAAAAATTTTAGATGAAAATGGATTATACAACGTAGCTGTAGAAGAAACACCAGGTCATTTATCAGACCATTATGATCCAACCGCTAAGACGGTTCGATTATCAACAGATAACTATTATGGACATTCAGTTGCTGGTACGGCAGTTGCAGCACATGAAGTAGGACACGCAATTCAAGATGCAAAAGATTACAAATTTATGCGCGTTCGTCATTCGTTAGTGCCAGTTGCAAACTTTGGTTCGAATATGTCTTGGGTTTTCGTCCTAATCGGTATATTTGCACAAATGTCTGGTTTGTTGTTATTAGGTATCATTCTAATGGCAGCAGGTGTTGTGTTCCAGCTCGTTACATTACCAGTTGAGTTTGATGCGTCAAAGCGTGCGATGCAACAAATTGAAGCGTTAGGTATTGTATCAACAGATGAATATGGCCAAGCTCGTAAAGTATTAAATGCGGCAGCATTAACATATGTAGCAGCTGCAGCTGTAGCGGTATTTGAATTATTACGTCTCGTATTAATGTATACTGGTATGCAGCGTAGCGACGACTAA	MFYLIYFAIIMIIPLYAQSRVRSAYSKYSQVYSTSGMTGAEVARKILDENGLYNVAVEETPGHLSDHYDPTAKTVRLSTDNYYGHSVAGTAVAAHEVGHAIQDAKDYKFMRVRHSLVPVANFGSNMSWVFVLIGIFAQMSGLLLLGIILMAAGVVFQLVTLPVEFDASKRAMQQIEALGIVSTDEYGQARKVLNAAALTYVAAAAVAVFELLRLVLMYTGMQRSDD				NA	NA	NA	NA	NA
AK009_00265	642	tmung	COG1573	Type-4 uracil-DNA glycosylase	ATGAAATATCCAGACCATTTAGTAAAACAAGTGAAAGAGCGTAGTGCTCCTTATCAACTAGAAGGTTTTTTAAGTGGACAAGGCCCTGAAAATCCCAAATTTATGTTGTTAGGAGAAGCGCCTGGTGAAACAGAAATTCATAATGGGATTCCGTTTAGCGGGAGGGCGGGAAAACAATTAATGGGTTTTTTAGAGCGTATTCACGTTACAAGGGAAGAAGTATATATTACGAGCGCTGTTCGGAGTAGACCTTATAAATGGCGAGAGAAAAAAGAACGAAATGGTGAAATCATACAAAAAAAGTATAATAGAACGCCAAATCAAGGAGAAATAGTTGCCCATGCGCCTTTATTAGATTATGAATTAGAGAAAATAAATCCGAAGCTTATCGTCACGCTTGGAAATATCGGTCTTCAACGTTTAACAGGAAAAAATAAAAAAATCACAGATGTACATGGGCAATTATTAAAACAGCCCATTCAAAAATTAAAGGATATGCAAAGTGCAGAGTTTATATGGTCAGAGAATGAATATCATGTTTTTCCAACTTTTCATCCAGCTTCTATTTTTTATAATCGGAGTTTATTGGAGCTTATTTATGAGGATTTGGAGAAGCTTAAAAGACTTGTAATAAAAAACTAG	MKYPDHLVKQVKERSAPYQLEGFLSGQGPENPKFMLLGEAPGETEIHNGIPFSGRAGKQLMGFLERIHVTREEVYITSAVRSRPYKWREKKERNGEIIQKKYNRTPNQGEIVAHAPLLDYELEKINPKLIVTLGNIGLQRLTGKNKKITDVHGQLLKQPIQKLKDMQSAEFIWSENEYHVFPTFHPASIFYNRSLLELIYEDLEKLKRLVIKN				NA	NA	NA	NA	NA
AK009_00266	882			hypothetical protein	ATGACATCAAAATTGAAGATGCGAAATATTATTTTTATTTTAATCGGTTCCGCTATATTTTCTTTCGGTATTGTCAATATCAATATTGAAAACCACCTTGCAGAGGGTGGGTTTACTGGTATTACACTATTATTGTATTTTTTATTTAAGTTTGATCCTTCCTACTCAAACTTAATTTTAAATATCCCTATATTTTTTATTGGTTGGAGGTTACTTGGCAGAACGACATTTTTATATACATTAATCGGCACCTTTAGCGTATCTTTATTTCTATGGATTTTCCAGCGTTACGAAGTGCTAAACTTACATTTAAACTTGCAAAATGATATGACACTCGCAGCTTTATTCGCTGGGGCATTTATAGGTATCGGCCTTGGAATAATATTTAAATATGGCGGGACTACTGGCGGTGTAGATATTATCGCACGACTAGCTCACAAATATGTTGGCTGGAGTATGGGAAAAACAATGTTTATGTTTGATGCTGTCGTTATCGTAGTCTCTATTCTTACCTATTTATCATACCGCGAGGGCATGTATACGCTAGTTGCTGTTTTTATCGGTGCTAAAGTCATTGATTTTATGCAAGAAGGGGCTTATGCTGCAAAAGGAGCGACTATTATCTCAGAGAAAAACGATGAAATTGCTGCCAAAATTTTATCTGAAATGGAGCGCGGAGCAACCTTTTTAAAAGCAGTTGGATCGTATACAAAAGTGGAACGTAACGTATTGTATTGCGTTGTTGCTAAAAATGAAATCGTGAAATTAAAAAATATTATTACGTCTGTAGATCCTCATGCTTTTGTCGCTGTAAGTGATGTACATGATGTAGTTGGTGAAGGATTTACGTTAGATGAAAATAAAAACCCTTTACATAATTAA	MTSKLKMRNIIFILIGSAIFSFGIVNINIENHLAEGGFTGITLLLYFLFKFDPSYSNLILNIPIFFIGWRLLGRTTFLYTLIGTFSVSLFLWIFQRYEVLNLHLNLQNDMTLAALFAGAFIGIGLGIIFKYGGTTGGVDIIARLAHKYVGWSMGKTMFMFDAVVIVVSILTYLSYREGMYTLVAVFIGAKVIDFMQEGAYAAKGATIISEKNDEIAAKILSEMERGATFLKAVGSYTKVERNVLYCVVAKNEIVKLKNIITSVDPHAFVAVSDVHDVVGEGFTLDENKNPLHN				NA	NA	NA	NA	NA
AK009_00267	399	ypjD	COG1694	putative protein YpjD	TTGTCAAATCGCGATGAATTGGCTAACATGAAAGAGGAAGGATTAGAGGTGAATAGTATGGAAGCAAAAACGATGAAAGATATGCAGAAAGAAGTAGATGCATATATTGGTCAGTTTAAAGAAGGTTATTTCAGTCCGCTTGCAATGATGGCTCGTTTAACGGAAGAAATGGGAGAGCTTGCAAGAGAGGTAAATCATTATTATGGTGAGAAACCGAAGAAAACAACTGAAAAAGAAAATAGTATTGAAGAAGAGCTTGGAGATGTATTATTTGTTATGATTTGTATGGCAAATAGTTTAAATATTGATTTAGAGACAGCACATAACATTGTAATGAACAAATTTAATACACGTGATAAAGATCGCTGGACACGTATTGATGAGGGAGAGAAAGAATAA	MSNRDELANMKEEGLEVNSMEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGEKPKKTTEKENSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDRWTRIDEGEKE	PGPT0012850_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
AK009_00268	801	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGAAAGAAATTAAAGTAATTATCGCCGGACCAAGAGGACGTATGGGACATGAAGCAGTCCTTCTTATGGAAAGAACGGAACATTTAAATTTAGTAGCAGCAGTGGATTATAAGCATGGTGGTGAGAAGATTTCTGATTTACCTGGCATGCCAGCATTACATGCACCGATTTACGCTGATTTACATACTTGTTTAGATGAAGTAGAAGCAGACGTGTTGTTAGATTTAACAACACCAGAAGTTGGGAAACAACACGTTACACTTGCAGTTGAGCGTGGACTTCGTTCTGTTATTGGTACAACTGGATTTACAGAAGAAGAATTGGCACGTTTAACAGAGAATGCAAAAGAAAAAGCAGTAGGAACAATTATTGCTCCAAACTTTGCAATTGGTGCAGTTCTTATGATGAAATTCTCACAAATGGCAGCGAAATATTTCCAAGATGTTGAGGTAATTGAATTACATCATGATCAAAAATTAGACGCACCATCTGGTACAGCTGTAAAAACGGTAGAATTAATTCGTCAAAATCGTGAATCAAAGCAGCAAGGTCATCCAAATGAAGTAGAGCAACTAGCAGGTGCACGTGGTGCAAATGTAGACGGTATTCACATTCATAGTGTACGTTTGCCAGGGCTTATTGCACACCAAGAAGTAATGTTCGGTGGAGATGGACAAATGTTAACAGTTCGTCATGATTCATTCAATCGTGCATCATTTATGTCAGGTGTAAAACTATCAATTGAGACAGTAATGAACCTGGATCATCTTGTGTACGGTTTAGAAAATATTATCGACTAA	MKEIKVIIAGPRGRMGHEAVLLMERTEHLNLVAAVDYKHGGEKISDLPGMPALHAPIYADLHTCLDEVEADVLLDLTTPEVGKQHVTLAVERGLRSVIGTTGFTEEELARLTENAKEKAVGTIIAPNFAIGAVLMMKFSQMAAKYFQDVEVIELHHDQKLDAPSGTAVKTVELIRQNRESKQQGHPNEVEQLAGARGANVDGIHIHSVRLPGLIAHQEVMFGGDGQMLTVRHDSFNRASFMSGVKLSIETVMNLDHLVYGLENIID				NA	NA	NA	NA	NA
AK009_00269	396	mgsA	COG1803	Methylglyoxal synthase	ATGAAAATTGCCTTAATCGCACATGACAAAAAGAAAAATGATATGGTTTCGTTTGCATACGCATATAAACCAATTTTTGAACAACATGAATTATTTGCAACAGGAACGACAGGGCTTCGCATTATGGAAGCGACTGGATTAGTTGTAACAAGATATCAATCTGGCCCTCTTGGTGGAGATCAAGAAATTGGTGCAATGATTGCAAAAAATGATTTAGATATGGTGATTTTCTTCCGCGATCCATTAACAGCACAGCCGCATGAACCGGATGTGAATGCATTGCTTCGTTTATGTGATGTATATGCGATTCCACTTGCAACGAATATGGCAAGTGCTGAAATGTTAATGCACGCATTAGAGCGAGGAGATTTAGATTATCGTAAGTTAAGAAAATGA	MKIALIAHDKKKNDMVSFAYAYKPIFEQHELFATGTTGLRIMEATGLVVTRYQSGPLGGDQEIGAMIAKNDLDMVIFFRDPLTAQPHEPDVNALLRLCDVYAIPLATNMASAEMLMHALERGDLDYRKLRK	PGPT0001780_1152	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
AK009_00270	705	bshB1_1	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGAGTGGATTACATATATTAGCGTTTGGTGCTCATGCCGATGATGTTGAAATCGGCATGGCTGGTACCATCGCTAAATATACAAAGCAAGGGTATGAAGTAGGTATTTGTGATTTAACAGAAGCTGATCTTTCTTCAAATGGAACGATAGAGTTGAGAAAAGAAGAAGCAAAGGTTGCAGCTCGTATAATGGGAGTAAAAACGAGACTGAATTTAGCGATGCCAGACCGTGGTTTGTATATGAAAGAAGAGTATATACGTGAAATTGTCAAGGTGATCCGTACATATAAACCAAAACTAGTTTTTGCGCCGTACTATGAAGATCGCCATCCAGATCATGCAAATTGTGCAAAGCTTGTGGAAGAGGCTATTTTTTCAGCAGGAATCCGTAAATATATGCCGGAACTTGCACCACATCGTGTGGAGTCTTTTTATAATTATATGATTAATGGTTTTCATAAACCGAATTTTTGTATAGATATAAGTGAGCACCTCTCTATAAAGGTGGAAGCATTAGAATCGTATGAAAGTCAGTTTTCAACAGGGAGTGATGGGGTTAAGACACCGTTAACAGAAGGATACGTTGAAACGGTGATTGCTCGTGAGAAGATGTTTGGAAAAGAAGTTGGAGTCTTGTATGCCGAGGGATTTATGAGTAAGAAACCGGTTTTATTACATGCTGATTTATTAGGGGGATGTAAATGA	MSGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELAPHRVESFYNYMINGFHKPNFCIDISEHLSIKVEALESYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLGGCK	PGPT0019570_784	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
AK009_00271	1146	bshA_1	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAAATTAAAAATAGGTATTACATGTTATCCTTCTGTAGGTGGTTCTGGAGTTGTTGGAACAGAATTAGGAAAGCAATTGGCGGAACGCGGGCATGAAATTCACTTTATTACATCGGGTTTACCATTCCGGTTAAATAAAGTATATCCAAACATTTATTTTCATGAAGTGACGGTAAACCAATACTCTGTATTTCAATATCCACCATACGATTTAGCGTTAGCAAGTAAAATGGCAGAGGTTGCACAAAGAGAAAATCTAGACATTTTACATGTGCATTACGCAATACCACATGCGATTTGTGCATATTTAGCAAAACAAATGATCGGAGAGCGTATTAAAATTGTTACAACCTTGCATGGAACAGATATTACTGTGTTAGGTTCCGACCCTTCGTTAAATAATTTAATTCGTTTTGGTATTGAGCAATCGGATGTTGTAACTGCTGTCTCGCATTCATTAATTAACGAAACGCATGAGCTTGTAAAACCAAGTAAAGAAATTCAAACGGTATATAACTTTATAGACGAACGTGTATATTTCAAGCGTAATATGTCTCAATTAAAGAAAGAATACGGTATAAGTGAGAGCGAAAAAGTACTTATTCATATTTCGAATTTCCGTAAAGTGAAACGTGTGCAGGATGTTGTTCAGGCATTTGCTAAAATTGTTAAAGAAGTAGATGCGAAGTTGCTTCTTGTTGGAGACGGACCAGAATTCTGTACGATTTTACAGATAGTGAAGAATTTACATATTGAAGATCGCGTTTTATTCCTAGGCAAGCAAGATAATGTTGCAGAACTACTTGCGATGAGTGATTTAATGTTGCTTCTATCAGAGAAGGAAAGTTTTGGTCTTGTTTTATTAGAAGCAATGGCGTGTGGTGTACCTTGTATCGGAACACGGGTCGGAGGTATTCCAGAGGTTATTCAACACGGGGAAACAGGATATTTATGTGAAGTTGGCGATACAACAGGAGTGGCAAATCAAGCTACTCAGCTATTAAAGGACGAGGAACTTCATCGTAATATGGGAGAACGAGCAAGAGAAAGTGTTTATGAGCAATTTCGCTCAGAAAAAATTGTTTCACAATATGAAACGATTTACTATGACGTACTAAGGGATGACAAAAATGGAAAGATTTAA	MKLKIGITCYPSVGGSGVVGTELGKQLAERGHEIHFITSGLPFRLNKVYPNIYFHEVTVNQYSVFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPSKEIQTVYNFIDERVYFKRNMSQLKKEYGISESEKVLIHISNFRKVKRVQDVVQAFAKIVKEVDAKLLLVGDGPEFCTILQIVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGETGYLCEVGDTTGVANQATQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVLRDDKNGKI	PGPT0019565_654	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
AK009_00272	1194	cca_1		CCA-adding enzyme	ATGGAAAGATTTAAAAAAGCTAGTTCTATTATTGAGACATTAAAGCAACAAGGACATGAGGCTTACTTTGTTGGTGGGAGCGTACGAGATCTTATTATCGATAGGCCGATTGGAGATATTGATATTGCGACATCTGCTTTACCAGAAGAAGTGATGGCTATATTCCCAAGAAATGTTCCTGTTGGTCTTGAGCATGGAACTGTAATTGTTTTAGAAAATGGTGAGCCTTATGAGGTAACTACTTTTCGAACAGAAAGCGAATATGAAGATTTTCGAAGACCTAGTAGTGTTCAATTTGTTCGTTCATTAGAAGAGGATTTAAAACGTCGTGATTTCACTATGAATGCAATTGCTATGACAGAAGAAGGCGAAATGGTTGATTTATTCGCTGGACAGGAAGCCATTCAACAGAGAGAAATCGTGACAGTTGGAAATGCTGCGGATCGTTTTCAAGAAGATGCCCTGCGAATGATACGTGGTATTCGGTTTGTAAGCACGTTAGGTTTTTCAATAGAAACGAAAACGAAGCAAGCGATTGAAACGTATGGGCATTTGCTAGAACATATAGCAATTGAGCGCATTACAGTAGAGTTTGAGAAACTGTTAACTGGTACATATTGTGTGAAAGGTCTCAAAGAATTAGTAGAGACGAAGCTATTTTCTCATTTGCCATATTTACAAATGTCAGAAGAAAGACTCTTAACAGCTACGCGGTATAAATGGGATTCTTTCGAAACGGATATTGAGGCGTGGGCATTTTTCTTATATTGTATCGGAGAAGAACATCCATCTGTCTTTTTACGTCAATGGAAGTTTTCGAATAAAAAAATAAAAGATATTGTTGCAGTTTTATTGGCAATCCGTACTAGAAAGGAGAGGGGTTGGGATACAGTCCTTCTTTATAAAACGGGAATTCATATCGCTGAAATGGCAGAGAGAGTATATGAAGCGATGATTGAAAGCTATGACCCTACATCTGTTAAACGAGTACAATCAATGTTTCATGTATTGCCAATCCAGGAGCGTCAAGAAATGAATGTGACTGGTAATGATTTATTAAACTGGGCAAACAAAAAGCCTGGTCCGTGGGTTGCTGAAATGCTTCAGAAAATCGAGGAAGCAATCGTACAAGGGAACATAGTTAATGAGAAAGAGCGTATAAGGGAGTGGCTGCAAGGATGCAATCTACTATAA	MERFKKASSIIETLKQQGHEAYFVGGSVRDLIIDRPIGDIDIATSALPEEVMAIFPRNVPVGLEHGTVIVLENGEPYEVTTFRTESEYEDFRRPSSVQFVRSLEEDLKRRDFTMNAIAMTEEGEMVDLFAGQEAIQQREIVTVGNAADRFQEDALRMIRGIRFVSTLGFSIETKTKQAIETYGHLLEHIAIERITVEFEKLLTGTYCVKGLKELVETKLFSHLPYLQMSEERLLTATRYKWDSFETDIEAWAFFLYCIGEEHPSVFLRQWKFSNKKIKDIVAVLLAIRTRKERGWDTVLLYKTGIHIAEMAERVYEAMIESYDPTSVKRVQSMFHVLPIQERQEMNVTGNDLLNWANKKPGPWVAEMLQKIEEAIVQGNIVNEKERIREWLQGCNLL				NA	NA	NA	NA	NA
AK009_00273	981	birA	COG0340	Bifunctional ligase/repressor BirA	ATGCAATCTACTATAAGAAAGCAGTTATTACAAGTTTTTTCTGAAGCGGATGGCGAGTTTGTATCCGGCCAAACGATTAGTGATAAACTTGGTTGTTCAAGAACTGCTGTATGGAAACATATGGAAGATCTCCGGAGTGAGGGATATGAACTTGAAGCTGTGCGTCGATTAGGTTACCGAATTGCAAGTAAGCCAGACAAAGTGACTGCTAATGAAATTCAGTTAGGGCTACAAACGAAGCGAATTGGTAGAACAGTGTATTTTGAAGAAACTGTTGAATCAACGCAGCACATTGCAGCAAAACTGGCTTATGAAGGTGCAGAAGAAGGAACTATCGTTGTAGCAGAAGAACAAACAGCGGGAAGAGGTCGTTTAAGCAGAAAATGGCATTCACCAAAAGGAACAGGAATTTGGATGAGTATTATTTTACGCCCATCGATTCCAGTTCATCATGCACCGCAACTTACTTTGTTAGCGGCTGTTAGTGTTGCACAGGCAATTGAAAAATGTACAGGTGTAGGCGTGGGAATAAAATGGCCAAATGATATTTTAATTCAAGGTAAAAAGGCTGTAGGTATATTAACAGAAATGCAAGCGGATCCTGATAAAATTAATGCTGTCATTATGGGCATCGGTATTAATGCGAATCAAAAGCAAGAACATTTTGATGAAGAAATTCAGCACATTGCTACTTCATTAGCGATTGAATCAGGTAAGCCGATTGTTCGTGCAGAACTTATGCAACAAATCTATTTACAACTAGAAAAATTATATGAAGAGTATTTACAAAATGGTTTCTCTGTCATTAAAATTCTTTGGGAAAGTTACGCTGTGAGCATCGGGAAAGAAATTACTGCTCGAACGATGAGAGAGACGATTACGGGGTTAGCGAAAGGAATCACAGAGGATGGTGTATTACTTCTGGAGGATCATGAGGGGAAAGTACATCATATTCATTCTGCAGATATCGAAATTAAGTAA	MQSTIRKQLLQVFSEADGEFVSGQTISDKLGCSRTAVWKHMEDLRSEGYELEAVRRLGYRIASKPDKVTANEIQLGLQTKRIGRTVYFEETVESTQHIAAKLAYEGAEEGTIVVAEEQTAGRGRLSRKWHSPKGTGIWMSIILRPSIPVHHAPQLTLLAAVSVAQAIEKCTGVGVGIKWPNDILIQGKKAVGILTEMQADPDKINAVIMGIGINANQKQEHFDEEIQHIATSLAIESGKPIVRAELMQQIYLQLEKLYEEYLQNGFSVIKILWESYAVSIGKEITARTMRETITGLAKGITEDGVLLLEDHEGKVHHIHSADIEIK	PGPT0022055_705	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
AK009_00274	390			hypothetical protein	ATGTCTATGAACAGGTGGTTATTTCGATTCAGCAGTTTGCTTGTAATGATTGTATGGTGGATGTCTTTAGGATCCTTTCATGTATTTTCCTCAGTTAATGTCGTAACACAACCCACCGATTTAACGAACGTGATTGAGGTTGAACTAAATGATGATTACTTTAATCCAAATGTCATCACGATTCCGCTTGAAGGATCTACAACATTACTATTGAAAAATAAAGGTAAAAACGAGCACACCTTTACAGTGAAAAAACTCGGCATTGACGTCGTAGTCGAGTCAGGAAAAGAAAAGAATATTACCGTGAAACCTAAAAATACTGGTACATATGAATTAATATGTCGATACCATCTTCTTAAAGGAATGGAAGGCAAAGTAATCGTCAAATAA	MSMNRWLFRFSSLLVMIVWWMSLGSFHVFSSVNVVTQPTDLTNVIEVELNDDYFNPNVITIPLEGSTTLLLKNKGKNEHTFTVKKLGIDVVVESGKEKNITVKPKNTGTYELICRYHLLKGMEGKVIVK				NA	NA	NA	NA	NA
AK009_00275	204			hypothetical protein	GTGTTAGTCGGCATTATTCATCCCTCTGTCCCAGTCCGTTATTGGATCAAGGCAGAATCCAAGTTATTATTTTTCATATTACTTCGAATCATGGTGCAGTTCACTCTGATACTGCCCACATTCGAACTAATTATAGCAAACTACAAAAAGGAATTACTACATTTTTTTGAAAAAATAATTTTTTATTCTTATTACGGTATATGA	MLVGIIHPSVPVRYWIKAESKLLFFILLRIMVQFTLILPTFELIIANYKKELLHFFEKIIFYSYYGI				NA	NA	NA	NA	NA
AK009_00277	837	panB		3-methyl-2-oxobutanoate hydroxymethyltransferase	TTGAAAACAAAAACAGATTTTTTGAAGATGAAAGAGCAAGGTGAGCCGATTACAATGCTAACGGCGTATGATTATCCATCTGCTAAATTAGCAGAAGAAGCTGAAGTTGATATGATTTTAGTTGGAGATTCTCTTGGAATGGTTGTACTCGGATACGATTCAACAGTACCTGTAACAGTAGAGCATATGATTCATCATACGAAAGCTGTACGCCGCGGAGCGAAAGAGACGTTTATTGTAACTGATATGCCATTTATGTCGTATCACGTATCATTACAAGAAACGATGATGAATGCACGCCGCATCGTTCAAGAGAGCGGGGCGCACGCACTGAAGGTAGAAGGTGCTGGAGAAGTTATATCAACGATTCAATATTTGACGAACGCAGGAATTCCTGTTGTAGCGCATTTAGGTTTAACACCTCAATCTGTAGGAGTGTTGGGTGGATATAAAGTGCAAGGAAAAGATGCGGAGAGTGCAAAAAAATTAATAGAAGATGCAAAGAAATGTGAAGAAGCTGGTGCAATAGCGCTTGTGTTAGAATGTGTACCAATGCAGTTAGCAGAACTTATTTCAGAACAACTAACAATACCAACAATCGGGATTGGTGCAGGACAAAAAGTAGATGGGCAAGTGCTTGTTTATCATGATCTTATCTCATATGGCGTAAATCGTGTTCCAAAATTTGTGAAGCAATATACGTCTGTTCAAGAGGAGATTGTGCGCGGGATTTCACAATACGTTACTGAAGTAAAGACAAGGCAATTTCCTGAAGAAAAACATTCGTTCACAATGAAAGAAGAAGACCGCTTAGCGTTATACGGGGGAAAACAATAA	MKTKTDFLKMKEQGEPITMLTAYDYPSAKLAEEAEVDMILVGDSLGMVVLGYDSTVPVTVEHMIHHTKAVRRGAKETFIVTDMPFMSYHVSLQETMMNARRIVQESGAHALKVEGAGEVISTIQYLTNAGIPVVAHLGLTPQSVGVLGGYKVQGKDAESAKKLIEDAKKCEEAGAIALVLECVPMQLAELISEQLTIPTIGIGAGQKVDGQVLVYHDLISYGVNRVPKFVKQYTSVQEEIVRGISQYVTEVKTRQFPEEKHSFTMKEEDRLALYGGKQ	PGPT0008740_1570	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
AK009_00278	849	panC_1		Pantothenate synthetase	ATGAAAATCGTAACTACAGTGCAAGAGATGCAGCAAATTACAAACGAACTGCATGCAAGTGGAAAAAGTATTGGTTTTGTTCCAACGATGGGTTATTTACATGAAGGGCATGCTACCTTATTATGTAAGGCAAGAGAAGAAAATGAAATTGTAGTTTTAAGTGTATTTGTAAACCCGCTGCAATTTGGCCCAAATGAAGATTTAGATCGATATCCTCGTGATATTGATAGAGATGAAAATGTAGCAAAAGAAAACGGTGTAGATTATTTATTTTATCCGAGTGTAGAAGAAATGTATCCATCAGAACAAACAACAACAGTAGAAGTTGTGAAACGCACGGACGTATTATGCGGTAAACAAAGACCTGGTCATTTTGCTGGTGTTGCAACTGTACTAATGAAACTATTTAATATTACGCTGCCCACGCGTGCTTATTTCGGTATGAAAGATGCTCAACAAGTTGCAGTAATTGAAGGATTTGTAACTGATTTCAATATTCCAGTTACAATCGTACCAGTTGATATTGTAAGGGAAGAAGATGGATTAGCGAAAAGTTCTCGTAACGTGTACCTATCACAAGATGAACGTGAAGAGGCTCTTCATTTATACCGCAGTCTATGTATAGCGAAAGAAAGAATTGAGGCAGGTGAACGTAATCCGGAAATCATTACAAATCTTGTGAAAGAGTATATTGAGACGCATACGAAAGGCACTGTAGATTATGCGGATTTATATGCATATCCGTCATTAACAATGGTAGAGAAAGTCGAAGGACGAATCATTTTAGCTATTGCAGTTAAATTTGAAAATGTAAGATTAATTGACAATATAACATTAACGGTTAAATAA	MKIVTTVQEMQQITNELHASGKSIGFVPTMGYLHEGHATLLCKAREENEIVVLSVFVNPLQFGPNEDLDRYPRDIDRDENVAKENGVDYLFYPSVEEMYPSEQTTTVEVVKRTDVLCGKQRPGHFAGVATVLMKLFNITLPTRAYFGMKDAQQVAVIEGFVTDFNIPVTIVPVDIVREEDGLAKSSRNVYLSQDEREEALHLYRSLCIAKERIEAGERNPEIITNLVKEYIETHTKGTVDYADLYAYPSLTMVEKVEGRIILAIAVKFENVRLIDNITLTVK	PGPT0008750_2466	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
AK009_00279	384	panD	COG0853	Aspartate 1-decarboxylase	ATGTTTCGCACAATGATGAGAGCAAAGTTACATCGTGCAACTGTAACGGAGGCAAATTTAAATTATGTAGGTAGTATTACAATTGATGAAGATTTAATGGATGCAGTAAATATTGTAGAAAATGAAAAAGTCCAAATTGTAAATAATAATAATGGTGCTCGCTTAGAGACATACGTTATTAAAGGGGAACGCGGTAGTGGTGTTGTTTGTTTAAACGGTGCTGCGGCAAGGCTTGTACAACCAGGGGACAAAGTAATTATTATTTGTTATGGGCTAGTTACGGAAGAAGAGGTTCATAAACAAGAACCAAAAATTGCAGTACTAGACGACAATAATCAAATTATTGAAATGTTAGGTGCTGAAAAAGCGGGTACGATATTATAA	MFRTMMRAKLHRATVTEANLNYVGSITIDEDLMDAVNIVENEKVQIVNNNNGARLETYVIKGERGSGVVCLNGAAARLVQPGDKVIIICYGLVTEEEVHKQEPKIAVLDDNNQIIEMLGAEKAGTIL	PGPT0008890_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
AK009_00280	2805	dinG_1		3'-5' exonuclease DinG	ATGAGTAAGCGTTATGTCGTTGTTGATTTAGAGACGACAGGGAACTCCTGGAAAGATGGGAAGGATAAAATTACCCAAATTGCAGCTGTTGTAGTAGAAGATGGAGAGATATTGGAGATTTTTTCGTCTTTTGTTAACCCAAAGAGAGAGATCCCACCATTTATTACAGAATTAACAGGGATTGATGAAAGTCTTGTAAAACAAGCCCCGTTATTTCAAGATGTAGCCCCGATGATTGTTGAGCTATTACAAGGTGCGGCTTTCGTTGCGCATAATGTTCACTTTGATTGGAATTTTTTAAATGAAGAATTAAGGCAGGCTGGATATACAGAAATACATTGTCCTAAAATCGACACGGTTGAATTGGCTCAAATTCTTTTACCGACAGCTGATAGTTATAAATTACGTGATTTAGCTAAGAAGCACGAACTAGAACATGATCAACCACATCGTGCGGATAGTGATGCTCTTGCAACAGCGGAATTATTTTTACAATTTTTAAATGAAATTGAAAAGTTACCACTTGTCACGTTGCAATCGCTTTATGAATTAAGCGACGTGTTTCAAAGTGATATAGCTGATGTGCTTTCTGAAAATATTTTAAAGAAAGTAATGCATGGTAAAGAAGATATAGCGGAGTATGAAATACATCGAAATATTGCGCTGAAAAAGCGGAACTATTCCTTAAACCTTGGAGAAACGTGTTCATCAAAGTTTGATGCTTTCTTGAATAAAACGATGGATAAATTGGAATCACATATGCCAAAGTTTGAAAGAAGAGAAAGTCAACAACTGATGATGAAAGAGATATATACGGCGTTAAGAGATTCTCGTTTTTCACTAATTGAAGCCGGTACAGGAACAGGAAAGACTCTTGCGTATTTGCTTCCTAGTCTTTATTTTGCAAAGAGAAAAGAAGAACCTGTCATTATAAGTACACAAACGGTACAACTCCAACAACAAATATTAGAAAAAGAAATTCCGTTATTACAAAAAATAATGCCATTTTCATTTGATGCAGCTCTTCTAAAAGGAAGAAAGCATTATCTTTGCTTACACAAATTTGAGTATGCTTTACAAGAGGAAGAAAAAAATTATGATATGGCTCTTACGAAAGCGAAGATTTTAGTTTGGCTATTGCAAACTGAAACGGGTGATCGAGACGAATTAAATATTCCTGAGGGCGGAAAGTTACTTTGGAATCGTATTTGTAGTGATGCGTATAGTCCAGGCGGTATGCAAAGTAATTGGTTTAGTCGTTGTTTTTACCAGCGAGCGAAGAATAAAGCTTTATTTGCAGATATCGTTATTACAAATCATGCGTTATTATTTCAAGATTTTTCAAGTGAAGAACCGCTGTTTGCTTCATGCGAACATATTATTTTTGATGAAGCTCACCATATTGAAGAAGCTGCGAGTAGAACATTGGGTGAACAGTTCTCTTGTATGTATTTTCAATTGGTTATATCTCGTCTTGGGACGCTAGAAACAGAAGATGTACTCTCCAAAGTATATAAAATGATGAAAAAATCAGAGCAAGCATCTCGTTCAACTTTCCGTATGATAAGTTATAGTTTGAAGGAACTTAAGTTTGATGCGGATGAACTCTTCCAAATGTTACGTACTTTTATATTTAAACAAACAAAGCAAGAGCAAGGAACGAATAATATGCCGCTCATCTATAGGTATAACGCAGAACTAGAAAAAGGTAAGTTGTGGGATAGTATCGTCGAATTAACAAATCGTTTTATATATGAATTAAGAAGGATAGTAACTGCTCTTGAGAAGCAAGTGGATATATTGCAAAGTAAGTTAGAATGGGAGATGCATGTTGTAACAGGTGAATTTATGCATTTAATTGAGTTGCTGAGAAAGATGGCAGAATCATTACAGTTACTCGTATTAGAAAAGAATTCGTATGTAACTTGGATGGAGACTGAAACGAAAGGGACGATTCATTCAACAGTTCTATATGCACAGCCTGTTCATATTGGTGAAAGATTTGCTGATGAATTTTTAACAGAAAAAAAGAGTGTTATTTTTACATCCGCAACACTAACAGTTAACGATACGTTTGATTATATAAAAGAGGAACTTGGTTTACATGATTTCGCTCCAAATACTTTAAAGGTTCCGTCGCCATTTCGTTATGATGAACAAATGAAATTAATGGTTTCAACGGATGTACCTTTTATTAAGCAAGTAAGTAATGAGCGATATATTGAATCTGTATCGGAACATATTGCAAAGATAGCGAAAGCCACAAAAGGCAGAATGCTTGTTTTATTCACTTCGTATGAAATGTTAAAAGAAGCGTATGCGAATTTAAAAAATAATGATGAATTAGAGGGTTATTTATTACTCACACAAAGTGTGAATAATAGAAGTCGAAGCCGCTTAATTCGAAAGTTTCAAGAGTTCGACAAATCAATTTTATTAGGGACGAGTAGTTTCTGGGAAGGGATAGATATTCCAGGAGATGCCTTAAGTTGTCTTGTTATTGTCCGTCTACCATTTACGCCTCCTCATCAACCTATGATGGAAGCGAAAGGTGAGTGGCTAAAAAATCAAGGTGAGGATGTATTCGCTAAATTAGCGTTGCCACAAGCAATATTACGTTTCAAACAAGGATTCGGCCGCTTAATTCGAACGAATACAGATACAGGAACGGTAGTAGTGTTAGATCGTCGTTTGACGAGTTCTTCCTATGGAAAACGATTTCTACAATCGATCCCTAACGTACCTCTTTATGAAGGGCCATTAGAAGAATTATTAGTACAATTAGAAGAACCATTAAATGAATAA	MSKRYVVVDLETTGNSWKDGKDKITQIAAVVVEDGEILEIFSSFVNPKREIPPFITELTGIDESLVKQAPLFQDVAPMIVELLQGAAFVAHNVHFDWNFLNEELRQAGYTEIHCPKIDTVELAQILLPTADSYKLRDLAKKHELEHDQPHRADSDALATAELFLQFLNEIEKLPLVTLQSLYELSDVFQSDIADVLSENILKKVMHGKEDIAEYEIHRNIALKKRNYSLNLGETCSSKFDAFLNKTMDKLESHMPKFERRESQQLMMKEIYTALRDSRFSLIEAGTGTGKTLAYLLPSLYFAKRKEEPVIISTQTVQLQQQILEKEIPLLQKIMPFSFDAALLKGRKHYLCLHKFEYALQEEEKNYDMALTKAKILVWLLQTETGDRDELNIPEGGKLLWNRICSDAYSPGGMQSNWFSRCFYQRAKNKALFADIVITNHALLFQDFSSEEPLFASCEHIIFDEAHHIEEAASRTLGEQFSCMYFQLVISRLGTLETEDVLSKVYKMMKKSEQASRSTFRMISYSLKELKFDADELFQMLRTFIFKQTKQEQGTNNMPLIYRYNAELEKGKLWDSIVELTNRFIYELRRIVTALEKQVDILQSKLEWEMHVVTGEFMHLIELLRKMAESLQLLVLEKNSYVTWMETETKGTIHSTVLYAQPVHIGERFADEFLTEKKSVIFTSATLTVNDTFDYIKEELGLHDFAPNTLKVPSPFRYDEQMKLMVSTDVPFIKQVSNERYIESVSEHIAKIAKATKGRMLVLFTSYEMLKEAYANLKNNDELEGYLLLTQSVNNRSRSRLIRKFQEFDKSILLGTSSFWEGIDIPGDALSCLVIVRLPFTPPHQPMMEAKGEWLKNQGEDVFAKLALPQAILRFKQGFGRLIRTNTDTGTVVVLDRRLTSSSYGKRFLQSIPNVPLYEGPLEELLVQLEEPLNE				NA	NA	NA	NA	NA
AK009_00281	171			hypothetical protein	ATGGAGAAGAAAATCGAAGTACTATCAACGACGCGTATTAAATATTCGTCTGATTTGTATAAAATTGTTGATAGTTTGAATCGTACGTTAAAAGAGCAGGACCTCATGTTCGGACTAGCATTAGACGAAAAAGATAAAGAAACAGCTGTATTTACGATTTACAGAACGTAG	MEKKIEVLSTTRIKYSSDLYKIVDSLNRTLKEQDLMFGLALDEKDKETAVFTIYRT				NA	NA	NA	NA	NA
AK009_00282	504	ypmB	COG5353	putative protein YpmB	ATGAAAAAGTGGATTTTTGCAATCATTATTGTTATCGTTGCTAGCGGAATATATGGGGCGTATGTTTATAATAAAGCGATGGGAAAGAAAATTCCAAAAGAGTCGAAATTTGTAGAAATTGCTAAAGAAAAAGCAAAGCTTACAAAGGTGAAATCTGTTGATTATTACAACGGAAAATCTGCATATATAGTCGTGCAAGGTACAGATGAAAAGGGAGAACAACTTATCGTTTGGGTGCCTGAGAAAAAAGGGGATACTGTAGTAAGGAAAAAGAGTGAAGGTATTTCTGAAAAAGAGGCTATACAAAGAACAATAGAGCAAGTCGGCAATGAAAGTAAGGAATCAAAAAGTAAGCCGAAAGAGATTATGAAAGTGAAATTAGGCTTTGAAAATGATGTACCACTATGGGAAGTTACATATATTGATGATGACAATCGTTATAGTTATTACTATCTTGAATTTAAAGATGGAAAATTTTTAAGACGATATAGCATTGAAAAATAG	MKKWIFAIIIVIVASGIYGAYVYNKAMGKKIPKESKFVEIAKEKAKLTKVKSVDYYNGKSAYIVVQGTDEKGEQLIVWVPEKKGDTVVRKKSEGISEKEAIQRTIEQVGNESKESKSKPKEIMKVKLGFENDVPLWEVTYIDDDNRYSYYYLEFKDGKFLRRYSIEK				NA	NA	NA	NA	NA
AK009_00283	1188			Aspartate aminotransferase	ATGAAATTAGCAAAGCGAGTAGCTGCTTTAACACCGTCTTCAACTTTAGAAATTACAGCAAAGGCACAAGCATTAAAAGCAGAGGGTCATGATGTAATTGCATTAGGGGCAGGGGAACCTGACTTTAATACACCAGAGCATATTATGGATGCTGCACATAAAGCGATGTTAGAAGGGCATACGAAGTATACACCAACAGGTGGATTACAATCGTTAAAACAAGAAATTGTGAAGAAATTTACTCGCGATCAAGGTATTGCGTATGATCCATCTGAAATTATTGTATGTAATGGCGCAAAGCATGCATTATATACATTATTCCAAGTATTACTTGATGAGGGAGATGAAGTTATCATCCCAACTCCTTACTGGGTAAGCTATCCAGAGCAAGTAAAGCTTGCTGGCGGTAAGCCGGTTTATGTAGAAGGTTTAGAAGACAATGAGTACAAAATTACAGCAAAGCAGCTGCGTGAGGCAATTACAGAGAAAACGAAAGCAGTTATTATTAATTCACCGAGCAATCCAACAGGAATGATTTATAGCAAAGAAGAATTACAACAGCTTGGAGAAGTATGTTTAGAACATGATATTTTAATCGTTTCTGATGAAATTTATGAAAAATTAATTTATGGTGGCGTAGAATATATTTCAATTGCCCAGCTTTCTAATGAATTAAAAGAACAAACACTTATTATTAATGGTGTATCTAAATCTCATTCTATGACAGGATGGCGTATTGGATATGCTGCAGGAAATAAGCAGCTTATTAAAGCGATGACGAACTTAGCGAGTCATAGTACGTCAAACCCTACTTCAATCGCTCAATACGGCGCAATTGCGGCATATGCAGGATCACAAGAACCTGTGGAAACAATGCGTCAAGCCTTTGAAGAGAGATTAAACATCATTTATGATAAATTAATTCAAATCCCTGGCTTTACTTGTATTAAACCGCAAGGTGCATTTTACTTATTCCCTAACGTAAAAGAAGCTGTAGCTTTATCAGGATATGCAACAGTTGATGATTGGGCAAAAGCTCTATTAGAAGAGGAAAAAGTGGCTCTTGTACCAGGTACAGGATTTGGTGCCCCAAATAATGTTCGTTTATCATATGCGACATCTCTTGAACAAGTAGAGAAAGCATTGGAACGCATCCATACATTTATGAAAAGTAAAGTGCAAGCTTAA	MKLAKRVAALTPSSTLEITAKAQALKAEGHDVIALGAGEPDFNTPEHIMDAAHKAMLEGHTKYTPTGGLQSLKQEIVKKFTRDQGIAYDPSEIIVCNGAKHALYTLFQVLLDEGDEVIIPTPYWVSYPEQVKLAGGKPVYVEGLEDNEYKITAKQLREAITEKTKAVIINSPSNPTGMIYSKEELQQLGEVCLEHDILIVSDEIYEKLIYGGVEYISIAQLSNELKEQTLIINGVSKSHSMTGWRIGYAAGNKQLIKAMTNLASHSTSNPTSIAQYGAIAAYAGSQEPVETMRQAFEERLNIIYDKLIQIPGFTCIKPQGAFYLFPNVKEAVALSGYATVDDWAKALLEEEKVALVPGTGFGAPNNVRLSYATSLEQVEKALERIHTFMKSKVQA	PGPT0020110_3247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
AK009_00284	708	dnaD	COG3935	DNA replication protein DnaD	ATGAAAAAGAAAATGATGTTACAGTGGTTTGAGCAGGGAAGCATTGCAATTCCAAAATTGCTTATGATGCATTATAAAAAATTAGGTTTAAATGAGACGGAATTTATGGTTGTACTTCATATACATACATTTTTAGAATCAGGTAATTCGTTTCCGACTCCTTCAGAGATTTCTGAACGGATGACGATAACAGAAATGAAATGTATGGAAATAATTCAAGCGTTGATTCAAAAAGGTTTTTTATCACTAGAAGGTGGACAAAGATCAGAAGCGATGATGTGCGAAAGTTATTCTTTACAACCGTTATGGGAAAAAATATTACATTTCTTAATGGATGAATCAATAGAGGAAGAGCAAAAAGAAAAAAAACAGCTGCAAGTAAATTTATATACAGTATTCGAAAAAGAATTTGGAAGACCACTTTCGCCGTTCGAATGTGAAACGTTAGGAATGTGGGAGGACCAAGATCAACATCATCCAAATTTAATTCAAGCGGCTCTTAGAGAAGCTGTAATGAGTGGAAAACTAAATTTCCGATATATTGATCGTATTTTATTTGAGTGGAAAAAGAATGGAATTAAAACGGTAGATCAGGCTCAAAATCAAGGTCAAAAATTTAGAGCGAATCAACAAAGAGCACAACAAATGACAAAACAAGAGACGAAATTTACTGGAAAAGTGCCTTTTTATAATTGGTTGGAGCAGTAA	MKKKMMLQWFEQGSIAIPKLLMMHYKKLGLNETEFMVVLHIHTFLESGNSFPTPSEISERMTITEMKCMEIIQALIQKGFLSLEGGQRSEAMMCESYSLQPLWEKILHFLMDESIEEEQKEKKQLQVNLYTVFEKEFGRPLSPFECETLGMWEDQDQHHPNLIQAALREAVMSGKLNFRYIDRILFEWKKNGIKTVDQAQNQGQKFRANQQRAQQMTKQETKFTGKVPFYNWLEQ				NA	NA	NA	NA	NA
AK009_00285	648	nth	COG0177	Endonuclease III	ATGCTTAACAAAACGCAAATCCGTTATTGTTTAGACACAATGGCGGATATGTATCCAGAAGCACATTGTGAATTGGTTCATGACAATCCATTTGAACTTGTAATCGCGGTGGCGTTATCTGCACAATGTACAGATGTACTTGTAAATAAAGTGACAAGAAATTTATTTCAAAAATATAAAACACCAGAAGATTATTTAAGTGTTTCTCTAGAAGAATTACAACAAGATATACGCTCTATCGGATTGTATAGAAATAAAGCAAAAAACATTCAAAAATTATGCCGAATGTTATTAGATGACTATAATGGGGAGGTACCGAGCGATCGAGATGAACTTACGAAATTACCAGGTGTAGGAAGGAAAACAGCGAATGTTGTAGTTTCCGTAGCGTTTGGGATTCCGGCAATTGCTGTTGATACACATGTGGAGCGAGTGAGTAAACGATTAGCGATTTGTAGATGGAAAGACTCTGTGTTAGAAGTAGAAAAAACGTTAATGAAGAAAGTACCGATGGATGAGTGGGGGGTTACGCATCATCGTATGATTTTCTTTGGACGTTATCACTGTAAAGCACAACGACCGCAATGTGAGGAGTGCAGGCTGTTAGAAGTATGTCGTGAAGGAAAGAAGCGAATGAAGGTGAAATAA	MLNKTQIRYCLDTMADMYPEAHCELVHDNPFELVIAVALSAQCTDVLVNKVTRNLFQKYKTPEDYLSVSLEELQQDIRSIGLYRNKAKNIQKLCRMLLDDYNGEVPSDRDELTKLPGVGRKTANVVVSVAFGIPAIAVDTHVERVSKRLAICRWKDSVLEVEKTLMKKVPMDEWGVTHHRMIFFGRYHCKAQRPQCEECRLLEVCREGKKRMKVK	PGPT0013735_3924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
AK009_00286	519	ypoC		putative protein YpoC	ATGGAGCGAGTTATAGAAATACCGAAAGAATTTCATTGCTTACCATTTTTTAAAGAAAGCGTAAATTCAATTGAGTATCATACAGACGAGTCTTTTGAAGAAATAATACAAAATACTTACTTTATATTTGATATTGAAAGACAGTATAAGCCATGGAAGGAAATTGAAAACAGTATTCCAGCAGTGTTGAATGTATGGAAAAATAAGCATGAAGACATTGCTATACTGTTTCGAAATAGAGATAAGCAAGAGGCTGAGGGGCCAATGATTCTTTTTGCAGCTCACTTGTTATCGGTTGTCTATTGGTTAAATGAGCAACCTGTTCATAGTTTGAATGAAATGCAAATAAATACGAATAAATTAAAAGTGCAACCTGTTAATTTTATGGAAAGGTATTCATTCATTATAAAGAAACCGAGTAATTATCATTCTTATATTCAATTAGCGCAGTTATATATCGAAATAGAAAAGCTGTTTGTAAAGAAAATGATAACAAAAAAGAAGTCTGCTTCTCGTTAA	MERVIEIPKEFHCLPFFKESVNSIEYHTDESFEEIIQNTYFIFDIERQYKPWKEIENSIPAVLNVWKNKHEDIAILFRNRDKQEAEGPMILFAAHLLSVVYWLNEQPVHSLNEMQINTNKLKVQPVNFMERYSFIIKKPSNYHSYIQLAQLYIEIEKLFVKKMITKKKSASR				NA	NA	NA	NA	NA
AK009_00287	2703	ponA	COG0744	Penicillin-binding protein 1A/1B	ATGTCAGATAATTATCGTTCTCGTACAGAACGAAATCATGTGAAAAATCAAGAGAAAAAAACACATAAAGAAGAAAAACCAAAGAAAAAAGGCTCCTTTTTCAAGAAATTCCTTATAGGTTGTCTACTTCTTGGTATCGTTGGTCTCGTAGCCGGCGTTTCCGCTTTCTTTGTTATGGTAAAGGACGCTCCAAAATTAGACAAATCCAAACTTGTTAATCCTTTATCAACAAAGTTTCTTGATAAAAACGGGAATTTCTTCTATGAATACGGTGCTGAAAAACGAACGCATGTTACTTATGATCAAATTCCAAAAGTAGTTGAAAATGCATTCCTTGCAACTGAGGATTCGCGTTTCTATGATCATAATGGAATTGATTTTAAACGAACTACAAAAGCAGTTATGGAAAATGTCACTGGTGGTTTCGGTTCCCAAGGTGGTAGTACGATTACACAGCAAGTCGTTAAAAACTATTTTCTAACGATGGATAAAACTGCTAAGAGAAAAGTACAAGAATGGTACTTATCTTATAAATTAGAGCAACAATACTCTAAACATGAGATTTTAGAAATGTACTTAAATAAGATTAATTTAGGTAACCGTTCATATGGTATTGCGACAGCAGCGCAAAAATATTATGGTAAAGATTTAAAAGACTTGCAATTACATGAAGCTGCTATGCTCGCTGGTTTACCCCAAGGTCCAAACATTTATGATCCAACAAAAAAGGAAAATGTTGAACGAGCAACAAATCGTCGTAATGTTGTATTATCATTAATGAATCGACATGGTTATATAACAAAAGAAGAAATGAATAACGCCGTTAAGATCCCAGTAACAGAGGGCCTTCAACCGTCTTCAGAAGTAACTGAGATGAAGTATCAAGCATTTTTAGATGCGGTTGTAAAAGAAGTTGAAAAAGAATATCCTGATGTAAATATCGGTTCAGATGGTTTAACGATTCATACAACACTTGATCAAGATGCTCAAGATTACGCTGACAAAATTATGGATGGCAATCTTATTAAGTATCCAGACGATCAATTCCAAGGGTCATTCGTATTTATGGATACACAGTCTGGAGAAGTTCGAGCAATTGGTGCTGGACGTAAAGAAAGTAAGTCTACTTTCAAAGGTCATAATATGGCAACTGATTTAAAACGCCAAGTTGGTTCAACAATGAAACCAATTTTCGACTACGGTCCGGCAATTGAAAATTTACAATGGTCTACATACCATCAATTAAACGATTCAGAGTATACGTATTCCAATGGTAAAAAAATACAAAATGCAACAAAGAGCTACAAAGGTGACGTTTCACTACGTGAAGCTTTGAAAAAGTCATTAAACATTCCAGCTTTAAAGACAGCACAAACAGTTGGTCTTAATAAGTCAAAAGAATTCGCTGAAGGTTTAGGCATGACCTTTAAAGAAGGAAAAGTCTACGAATCAACAGCAATCGGTAGTAACGAAGGGTCTCCATTGGAAGTAGCAGGTGCATATGCAACCTTCGGTAATAGTGGTAACTATAATAAACCACACTTCGTAAAAGAAGTAACCTTCCCGGACGGGAAAAAGAAAAGCTTTAAACCTAAGGAACAACGCGCAATGCAAGACTATACAGCTTACATGGTTACTGACGTTCTTCGTGACGTAGTAAAACCTGGTTCTGGTGGTACAGGTCCAACAGCATACGTTTCAGGTGTTGACGTAGCAGGTAAAACAGGAACACAAAACTTTGATGCATCAGTTCTTCAAAAATATGATATCCCAGCTGATGCAAACAGAGATAGCTGGTTTGCTGGATATACACCACAATACACAATGGCTGTTTGGACTGGTTACGAAAAAGATGGTCCAAAAAATTATGTTAGTGATCGCTCCACTAGAATTGCACAGCAAATGTTCCAAATAATGATGAGCAAATTCGCTACAGATAAATCACGCTTTGAACGTCCTTCTTCTGTACAAGAAATAAACGGAGAGTTATACGTTAAAGGTGCGAAAAAAGATGCAATTAAACAAATTAAAGTAGATGCCCCTAGTGGTCTGAATGTCACTTTTGATGGCGCTAGCACAGTTACACTAAACTGGTCTGGACCAGCAGAAGTTGACGCATATGCAGCCAGCTATAAAGCAACTGACGGTTCAAGTGGTAGCCTATCAATAAGTGGTACGACAGCTACTCTTGGTGGTATTAAACCAGGTGTTACTTACAGCTTCTCTGTAGTAGCGAAAAAAGGTACTGGAACAAGCCCAGCAATTGGTGCATCCTTCACTGCGCCTGGCGGAACTCCAGATGCGAAAAAAGCTGATGAAGAGGCTAAGAAAAAGGCCGATGAAGAAGCTAAGAAAAAAGCTGATGAGGAAGCCCAGAAAAAAGCTAATGAAGATAAAGTAAAACAAGACGAAGCTAAGAAAAAAGCTGATGAAGAGGCTAAGAAACAACAAGAACAGCAGCAACAACAAGAACAACAACGTAAACAGCAAGAAGAAGCTCAAAAGAAAGCTGATGAGGAAGCTAGAAGAAAAGCTGAAGACGAAGCTAAGAAAAAAGCTGAAGACGAAGCTAAGAAGAAAGCTGAAGAAGAGGCCAAGAAAAAAGCTGAAGACGAAGCTAAGAAACAACAAGAACAGCAACACCAAAATACCGGAGGAGATACACCTCAGGCAGACGGTGCTGTTGTTACAACAGAGTCCTAA	MSDNYRSRTERNHVKNQEKKTHKEEKPKKKGSFFKKFLIGCLLLGIVGLVAGVSAFFVMVKDAPKLDKSKLVNPLSTKFLDKNGNFFYEYGAEKRTHVTYDQIPKVVENAFLATEDSRFYDHNGIDFKRTTKAVMENVTGGFGSQGGSTITQQVVKNYFLTMDKTAKRKVQEWYLSYKLEQQYSKHEILEMYLNKINLGNRSYGIATAAQKYYGKDLKDLQLHEAAMLAGLPQGPNIYDPTKKENVERATNRRNVVLSLMNRHGYITKEEMNNAVKIPVTEGLQPSSEVTEMKYQAFLDAVVKEVEKEYPDVNIGSDGLTIHTTLDQDAQDYADKIMDGNLIKYPDDQFQGSFVFMDTQSGEVRAIGAGRKESKSTFKGHNMATDLKRQVGSTMKPIFDYGPAIENLQWSTYHQLNDSEYTYSNGKKIQNATKSYKGDVSLREALKKSLNIPALKTAQTVGLNKSKEFAEGLGMTFKEGKVYESTAIGSNEGSPLEVAGAYATFGNSGNYNKPHFVKEVTFPDGKKKSFKPKEQRAMQDYTAYMVTDVLRDVVKPGSGGTGPTAYVSGVDVAGKTGTQNFDASVLQKYDIPADANRDSWFAGYTPQYTMAVWTGYEKDGPKNYVSDRSTRIAQQMFQIMMSKFATDKSRFERPSSVQEINGELYVKGAKKDAIKQIKVDAPSGLNVTFDGASTVTLNWSGPAEVDAYAASYKATDGSSGSLSISGTTATLGGIKPGVTYSFSVVAKKGTGTSPAIGASFTAPGGTPDAKKADEEAKKKADEEAKKKADEEAQKKANEDKVKQDEAKKKADEEAKKQQEQQQQQEQQRKQQEEAQKKADEEARRKAEDEAKKKAEDEAKKKAEEEAKKKAEDEAKKQQEQQHQNTGGDTPQADGAVVTTES	PGPT0023875_296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
AK009_00288	603	recU	COG3331	Holliday junction resolvase RecU	ATGACCATTCGTTACCCAAATGGAAAAAGGTATAATCAAGCTTCACAACCTCAAAAAACACCTATAAAAACACATACTTATAGCAACAGAGGTATGTCCCTTGAAGAGGAATTGAATGAAACAAATCAATATTACTTAACCCATAATATTGCATGTGTACATAAAAAACCTACACCTCTTCAAATTGTAAAAGTAGATTACCCCGCTCGAAGTGCTGCAGTGGTAAAAGAAGCGTATTTTAAACAACCTTCTACAACAGATTACAACGGTGTATACAAAGGGAAATACATCGATTTTGAAGCAAAGGAAACAAAAAATAAAACTAGTTTCCCACTTCAAAACTTCCACCTTCATCAAATAGAACATATGAAGCAAGTGGTTGCTCATAATGGAATTGCATTTGTCATTATTAAATTTACACTTTTTGATGAATTTTATTTATTAGATGCAAAACATATTATTGCATTTTGGAATCGTCAAAATACTGGTGGACGCAAGTCGATTACGAAAGAAGAAATAGAAGAGCATGGATCCTTATTATCATGCGGTTATCACCCTCGGATTGACTATATCCGTGTACTAGACACGGTTTATTTTTCGTGA	MTIRYPNGKRYNQASQPQKTPIKTHTYSNRGMSLEEELNETNQYYLTHNIACVHKKPTPLQIVKVDYPARSAAVVKEAYFKQPSTTDYNGVYKGKYIDFEAKETKNKTSFPLQNFHLHQIEHMKQVVAHNGIAFVIIKFTLFDEFYLLDAKHIIAFWNRQNTGGRKSITKEEIEEHGSLLSCGYHPRIDYIRVLDTVYFS				NA	NA	NA	NA	NA
AK009_00289	1089			hypothetical protein	GTGATTATATCAAAAAATGAAAAAAGATGTGACCTTTTTGATGAAAGGTATGATGACTTATTTATGTTGACATGGAATGATTATATGAAAATTAAACAAAATCGAGAAAAAAAGTTTTGTACAGAGGAAGAAAAAGCAATCATTCGCAATATTACAAAGAAAACAGAAATAGCTAATGTGGACAATATTTCTCGGACACAATCTTATCAAGAATATTATTTAAGAAATAGTGAAATCAGGTGGGCCTTTTTAGCGAGTATGGTTTCGAGAAATGCGGGATGGAATATGACCGATTTAGAAGGGAGATATTATGCTACTGTTTTACCTAAAACGGTAAAAAAACATTTATTTCTTCTGTACGAACAAGCTAATTGGATTATTTTCTTAGATGCCTTTCCTCAGCTATTATTGTATGAGGAAAGTAAGAAGAGACGTACACCTCTCTTTCATTTGTTGCAATATTTCAGCGTATCAATTTTTATGGAAAAAGAATGGTTACTTTTCTGGGAGAAAAGAGATATGAATAGGCTTATAACAGCCCTTATTATAAATGAACAAAATAAAATTCAAAAACCAGTCATTGAGAGCACATATTTTAAAAAACATGTATTCCATACTGCACTTTTTAAAGTACAAGAAAGATTTCATATTAGTGCAGTTATCTTCCCAACAATTGAAGGGAGGATGTATGGATTTTCGGTTTATCAATTTGAAACGTTACAACAGCGTATAGAACTGGGAAAAAAATTAGCATGGTTATTGTTTCATCCAATTTATAATGGTTCGTTTTATAAGTTTGCAGTGCAAACTACACATACTGGGTCTAGAGAAGATTATGAATTTTACTCAAAGGAAACTAGAAAATCGTGTACGCCAGCACTTAGAGATAGTTATCCTGTTGTTTTACATGAAGAAATAGAAATGAGAGATTGGTTTTGTGCAAATATGAAAATGAATGTGCTATTTGTACTTGAAGAACCTAAAGAGGAAGTTAATATAACAGAATGGTATAGGAGAAAGAGGGAACAAATCTATAGGATATCTATCGTAAATCGTTTCGTTAAAAGGATGGATGAGTTCATGATATAA	MIISKNEKRCDLFDERYDDLFMLTWNDYMKIKQNREKKFCTEEEKAIIRNITKKTEIANVDNISRTQSYQEYYLRNSEIRWAFLASMVSRNAGWNMTDLEGRYYATVLPKTVKKHLFLLYEQANWIIFLDAFPQLLLYEESKKRRTPLFHLLQYFSVSIFMEKEWLLFWEKRDMNRLITALIINEQNKIQKPVIESTYFKKHVFHTALFKVQERFHISAVIFPTIEGRMYGFSVYQFETLQQRIELGKKLAWLLFHPIYNGSFYKFAVQTTHTGSREDYEFYSKETRKSCTPALRDSYPVVLHEEIEMRDWFCANMKMNVLFVLEEPKEEVNITEWYRRKREQIYRISIVNRFVKRMDEFMI				NA	NA	NA	NA	NA
AK009_00290	105			hypothetical protein	ATGGCAAAGAACAAAAATGAAAAAAAGAAAAACCAAAACAAACAACAAAATAAACCCGAGACTGGCAATCCAAAGCTAGATGGTCCAAACTTCCCTGCTACATAA	MAKNKNEKKKNQNKQQNKPETGNPKLDGPNFPAT				NA	NA	NA	NA	NA
AK009_00291	243			hypothetical protein	ATGGCGATGGTTCAGAAGGAAGATGTAATGAAAAAAATGGATCAAATGTTAAGTTCTCTCGATTTGCTGGAAATGAATATAGGGATTAGAATGAATCATGCATTAAAGGATGCGAGTGAAAAAATATGTAATAAGATAGAAATAACAGAAATGCATATTGAACATATGGAAAATAAATTAGTGCATCACGAAGAAAAAGGGAATTGGGTAAAGACATTTCAAAACGTCGTAGTGAGTGCATAA	MAMVQKEDVMKKMDQMLSSLDLLEMNIGIRMNHALKDASEKICNKIEITEMHIEHMENKLVHHEEKGNWVKTFQNVVVSA				NA	NA	NA	NA	NA
AK009_00292	345			hypothetical protein	ATGAAGAATGAAGCATTAATACAGTCTTCAGAAAAACTCATGCAGTATAATAATGAAGCGAATATAAAAAAAAGAGAACTAATCGAATACGACTTTTATAAGGATATGAAACCATTTGTAGACATGGTAGATGAGGAATTAAAGAAGTGGAAAGAATTAGCTTATACGTGGATTAAAGAAGAAAAGCCAAAGTATATACATGTACAGCAAATTGATCAAGTATACGATAATTTACAAACGAATGTGTTACAATGCTTTGTAAATAAAGGTAAAGGTAAACGATTCTTTGAAACACACCAAGCCATTTCGTATACTTTGCAAAATATAGTTGAGCAATGTAAATAA	MKNEALIQSSEKLMQYNNEANIKKRELIEYDFYKDMKPFVDMVDEELKKWKELAYTWIKEEKPKYIHVQQIDQVYDNLQTNVLQCFVNKGKGKRFFETHQAISYTLQNIVEQCK				NA	NA	NA	NA	NA
AK009_00293	192			hypothetical protein	ATGGTATTAGGGGATTTAAAACAAGCGTTTTCTCAAAAAAAGGGGTATTGCACAGAGAATGCAAATGAATTATTAGACTTTGCGAGACATTGGTATCTCGAAGGAAAAATATGCATTTCAGATTATCGAACATTAATAAAAGAATTAGAAATAAACGGCGCAACAAAACCTACAACAATGACAGAAGCATAA	MVLGDLKQAFSQKKGYCTENANELLDFARHWYLEGKICISDYRTLIKELEINGATKPTTMTEA				NA	NA	NA	NA	NA
AK009_00294	606			hypothetical protein	ATGTTTCAACAATCTAACGTATATCAGCAAACAAATCCATATGCACAGCAAAATATGTACCAATATAATACGGATACATATTTACGGTATAATATGTATCCTTTCGAGCCTTATTATGGAAATCAAAATTATTATCAACCGTTTGAAGTTTCATTTATGAATCAAGCTCAACAACCACAACAGCAGCAACAACCTTATGTGAATCAGGCTCAACAACCACAACAACAGCAACCTCATGTGAATCAGGCTCAACAATCACAACAGCAGCAACCTTATGTGAATCAAGCTCAACAATCACAAGCTCAGCAACCATACATGAATCAACAACAGCAGCAGCCTTATATGAATTCGCAATATTATATGCCACCACCATCGCCCTATGCTAATCAACAAGCGATGTTTTATCCACCAAAACAGCCGTACCCGACGCAGAGTAAACAAAAGCAACAACAGCCAAGTCAGTTTTCTAGTTTTGTTTCTCAATTTAAAACATCCGATGGTAACTATGATGTAAATAAAATGATGAATACAGCTGGACAAATGATGAATGCGATGAATCAGGTGACAGGTATTGTAAAGCAAGTTGGAGGCTTTTTTGGTAAGTAA	MFQQSNVYQQTNPYAQQNMYQYNTDTYLRYNMYPFEPYYGNQNYYQPFEVSFMNQAQQPQQQQQPYVNQAQQPQQQQPHVNQAQQSQQQQPYVNQAQQSQAQQPYMNQQQQQPYMNSQYYMPPPSPYANQQAMFYPPKQPYPTQSKQKQQQPSQFSSFVSQFKTSDGNYDVNKMMNTAGQMMNAMNQVTGIVKQVGGFFGK				NA	NA	NA	NA	NA
AK009_00295	423			hypothetical protein	ATGCATCATTGTCATCCTTGTTTTGGAGGGCATAAGCCTGTAGGACCTATTTGTACAACTGCTCCTGTCGTTCATCCGACGAAACAATGCGTAACACACTCTTTTTCAACAACGGTGGTGCCACACATTTTCCCAACACATACAACACATGTACATCATCAACAAATTAAAAACCAAAACTTCTTCCCACAAACAAATTCAAATGTAAATGTTGTGGACCCAATCGACCCAGGATTCGGCGGTGGATGTGGACCGTGTGGCCATGGTCATCATCACCACGGTCATCAAATATCTCCATTTGGGCCAGGACCGAATGTATCACCGTTTGGACCAGGACCAAATGTATCACCGTTTTTACCAAACAATGTATCACCAGTAGGTCCAAATATCGGACCAAACGTTGGTGGAATATTTAAAAAGTAA	MHHCHPCFGGHKPVGPICTTAPVVHPTKQCVTHSFSTTVVPHIFPTHTTHVHHQQIKNQNFFPQTNSNVNVVDPIDPGFGGGCGPCGHGHHHHGHQISPFGPGPNVSPFGPGPNVSPFLPNNVSPVGPNIGPNVGGIFKK	PGPT0025150_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025150-cotD-K06327	NA	NA
AK009_00296	555			hypothetical protein	ATGAAAGTTATTGCAGTAACAGGATATAAGCCATTTGAACTTGGAATATTTAAAAATGATCATCCAGGGGTGGGGTGTATAAAAAAGGCATTACACCGTAAATTAACCACTTTTGTAGAAGATGGTTTAGAATGGGTTATAATAAGCGGCCAGTTAGGTGTAGAATTATGGGCTGCTGAAGTTGTTTTTGAAATTCAAGTAGAATATCCAGATTTAAAATTAGCGGTATTCACTCCGTTTTTAGAACAAGAAGAAAATTGGAAAGAAGATAATCGTGAATATTACGAATTTATTCTTTCTCAAGCAGACCATGTTGATAGTATCACGAAACGGAAGTATGAAAGCCCAGAGCAATTTAAATTAAAAAATCAATTTTTTATTGAAAAAAGTGATGCACTTTTAGCGGTATACGATGAAGAAAAACCAGGAAGTCCCAAATATATTGTAGAAACAGCAAAGAAAAAAGGGGAAATAGAAAATTATCACAGTTATTTCATTCTTTTTTCTGAGTTACAAGATATAATAGAAGAGGAACAGTGGAATAATGCAGAGTAA	MKVIAVTGYKPFELGIFKNDHPGVGCIKKALHRKLTTFVEDGLEWVIISGQLGVELWAAEVVFEIQVEYPDLKLAVFTPFLEQEENWKEDNREYYEFILSQADHVDSITKRKYESPEQFKLKNQFFIEKSDALLAVYDEEKPGSPKYIVETAKKKGEIENYHSYFILFSELQDIIEEEQWNNAE				NA	NA	NA	NA	NA
AK009_00297	336	gpsB	COG3599	Cell cycle protein GpsB	ATGATTTCGGATAAAATTAAATTAACAGCGAAAGATATTTTAGAAAAAGAATTTAAAACAGGTATGAGAGGTTATCAGCAAGAAGAAGTAGATAAGTTTCTTGATATGATCATTAAAGACTATGAAGCTTTCCACAAAGAGTTTGAGCAATTAAAGCAACAAAATGCTCGTTTAAAGCGTGAATTAGAGGAACAAAAACTAGCAGTAACGCAAGTTCCACAACAACCTGTACAAACACCAGTTGCACAACCGGTTTATAACAACACGAATACGGATATTTTAAAACGCTTATCTAACTTAGAAAAAGCTGTATTTGGAAGTAAGTTATACGAATGA	MISDKIKLTAKDILEKEFKTGMRGYQQEEVDKFLDMIIKDYEAFHKEFEQLKQQNARLKRELEEQKLAVTQVPQQPVQTPVAQPVYNNTNTDILKRLSNLEKAVFGSKLYE	PGPT0014806_129	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
AK009_00299	1140	rlmL	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGGGAAAAGTTACTTTAATTGCAACAGCGGCAATGGGTATTGAAGCGTTAGTTGCCCGAGAAGTTCGCGATCTTGGTTATGAATGTCAAGTAGAAAACAGCAAAGTAACATTTGAAGCAGATGAAAAGGCGATTTGTCGCACGAATTTATGGTTACGTACTGCGGATCGTGTAAAAATTAAAGTTGGCGAATTTAAAGCAACAACATTTGATGAGCTATTTGAAAAAACGAAAGCATTAAACTGGGGAGATTATATTCCAGAGAATGGCGAGTTCCCTGTTATCGGTAAATCTTTAAAATCTGAATTATTCAGTGTTTCAGATTGCCAACGTATCGTTAAAAAAGCTGTCGTTGAAAAATTAAAAACAACATATAAACGTACAACTTGGTTTGAAGAAGATGGTCCGTTATTCCGTATCGAGATTGCAATGCTCAAGGATATTGCAACATTAACAATTGATGCGAGTGGTGTTGGACTTCATAAACGTGGATACCGTATGGATCAAGGGGAAGCTCCGTTAAAAGAAACATTAGCTGCGTCTTTAATTAAATTAACAAACTGGAAGCCAGATCGTCCATTTGTTGATCCATTCTGTGGATCAGGTACAATTCCGATTGAAGCGGCATTAATTGGGCAAAACATTGCGCCAGGATTTAACCGTGGTTTCGCATCAGATGAGTGGGGCTGGGTAGGTAAACAAAACTGGCGTGAAGCGCGTCAAGAAGCTGAAGATTTAGCGAACTATGATCAACGATTACAAATCATAGGATCAGATATTGATCATCGTATGATTCGAGTTGCTCAAGATAACGCAGAAGAAGTAGGTTTAGGTGATTTAATTACATTTAAACAAATGCAGGTAAAAGATTTCACAACAAAAGAGGATTATGGCTACGTTGTAACGAATCCTCCATACGGAGAACGTTTAAGTGAAAAAGCACTCGTTGAACAACTGTATAAAGAAATGGGACAAGTATTCCGTCCGTTAGATACATGGTCAGCGTATGTATTAACAAGCTACGAAGCATTTGAGAAGTGTTACGGAAAAGATGCGTCGAAGAAGCGTAAACTGTTTAACGGATTTATCCGTACAGATTACTACCAATACTTCGGAAAACGTCCACCGCGTAATTCATAG	MGKVTLIATAAMGIEALVAREVRDLGYECQVENSKVTFEADEKAICRTNLWLRTADRVKIKVGEFKATTFDELFEKTKALNWGDYIPENGEFPVIGKSLKSELFSVSDCQRIVKKAVVEKLKTTYKRTTWFEEDGPLFRIEIAMLKDIATLTIDASGVGLHKRGYRMDQGEAPLKETLAASLIKLTNWKPDRPFVDPFCGSGTIPIEAALIGQNIAPGFNRGFASDEWGWVGKQNWREARQEAEDLANYDQRLQIIGSDIDHRMIRVAQDNAEEVGLGDLITFKQMQVKDFTTKEDYGYVVTNPPYGERLSEKALVEQLYKEMGQVFRPLDTWSAYVLTSYEAFEKCYGKDASKKRKLFNGFIRTDYYQYFGKRPPRNS				NA	NA	NA	NA	NA
AK009_00300	183			hypothetical protein	ATGGATAGTTTCCAATTATCAATGATTCAAAAAGCTATTCACCGTACGTATGACGAGCTCGGAAAAGAAGTGGATAGTCAAGGTGCGATTGTAGATGAAATACAAAAAGCACAAGAAGAATATTTGTCAGCTCTTTCACATGAAACAGCGATTGATAAACGGTATTTAAAGTCATTAATATAG	MDSFQLSMIQKAIHRTYDELGKEVDSQGAIVDEIQKAQEEYLSALSHETAIDKRYLKSLI				NA	NA	NA	NA	NA
AK009_00301	1938	yoaA	COG1199	putative ATP-dependent DNA helicase YoaA	ATGTTTACTGAGAAGAGATTACCATTTGAAGTAGGAAAACAAGATAATTTTTATGATAAGTTGAATGAGTGGATTGGAGATGTGTTTTACGACATCCTTCCGGAAAAAGGCTTTGAAGAGCGTGATGAACAAATTTTTATGGCGTTTCAGTTAGAACGCGCTTTCCAAGAAAAGAAAGTTATGTTCGCAGAAGCTGGTGTAGGAACAGGGAAAACAATTGTATATCTTCTATATGCAATTTGTTACGCGCGTTATACTGGGAAACCAGCTATTATTGCTTGTGCAGATGAAACGTTAATTGAGCAGCTTGTGAAAGAAGAAGGGGACATTGCTAAGTTATCTGAAGCATTAGGGCTATCTGTTGATGTAAGGCTTGCAAAATCAATGGATAATTATTTATGCTTACGTAAACTTGAAGATGTTATGAGTGGACGAGCTCCAGAAGTAATTGAAGACGTATATTACGAGTTACCACAGTTTGTATTCGATCATGGTACGATGCAAAACTTTACTCACTATGGTGACAGAAAAGAATTTCCACTTTTAAATGACGAAGAATGGTCAAAAGTAAATTGGGATTACTTCCAAGATTGCTTTACTTGTGATTCTCGTCATCGCTGTGGACAAACTCTTTCTCGTGAACATTATCGTAAAGCAGCAGATTTAATTATTTGTTCTCAAGATTTCTATATGGATCATATTTGGACGTACGATGCTCGTAAGCGTGAAGGGCAAATTCCATTATTACCAGAAAGTAGCTGCGTTGTATTCGATGAAGGACATCTTGTAGAATATGCAGCTCAAAAAGCTTTAACATACCGTTTAAAGCAAACGATGATGGAGCAACTTTTAACGAGATTGTTGCAAAACGATATTCGCGAGGAGTTTGCACATTTAGTAGAAGAAACAATTTGGCAAACAGAGCGATTCTTTGATGTGTTACAAGAGAATAAAAAGGAAATTGCCGGTTCTGATCGTTTAGAAATTACTGTGACAGAAAAAGTAACAGCTGAAGCGAAGCGACTTTATGCAAAAATTGGTGAAGTCGGTGATGCATTAGTATTTGAAAGTGAAATGCATACAGTAAACACGTATGACTTAAATATCGTTGATGAGCATTTAGATGTGTTAGAACATTCACTTCGTCTGTTTATGCACGAGAAAAATGTAATTACATGGGGTGAAGAAGGTGATGGTGCCTTCACGTTAGTTATTATGCCGCGTGCAGTTGAAGAGGTGTTACAAGAGAAAGTATTCTCGAAGAAAATCCCGTATATTTTCTCTTCTGCGACATTATCGAACAACGATTCATTCGCATTTACAGCAAATAGTCTAGGGGTAAAAGATTACTTATCATTCTCAGTTGCCTCACCGTTTGATTATGAGGAGCAAATGGCGGTAAACTTACTATCGCATACGAAAGAAAATGAATGGGAAAGAAAGTGTCAATATACACTTGAAAATATACAAAAAACAAATGGACGTACGCTTGTATTATTCCGTACAACACAAGAACTTGCAGCGTTTAAAGAATATGTAAGTAAAGAACAAATGTCAGTTCCGTTCCTATATGAAGGAGATCAGGAAATTAGTCAGCTCGTTTCTCGTTTCCAAAATGAAGAAGAGACTGTACTTTGTGCCGTTCATTTATGGGAAGGTTTAGATATTCCAGGTTCATCATTATCACATGTTATCATTTGGTCATTACCATTCCCTCCAAACGATCCTGTGTTTGAAGCGAAACGTAAGCACGTAAATGATCCATTCTGGGATGTAGATGTACCGTATATGATTTTACGACTTCGTCAAGGGATCGGACGTTTAATTCGTACGAGCGACGATAAAGGTGCTATATCAATCTTCTTATCTGATTCAGAAGATGAGAAAGTAGTTGCAGCTGTGAAAAATGTACTGCCAGTAGAAGGTAAAGAATTATAA	MFTEKRLPFEVGKQDNFYDKLNEWIGDVFYDILPEKGFEERDEQIFMAFQLERAFQEKKVMFAEAGVGTGKTIVYLLYAICYARYTGKPAIIACADETLIEQLVKEEGDIAKLSEALGLSVDVRLAKSMDNYLCLRKLEDVMSGRAPEVIEDVYYELPQFVFDHGTMQNFTHYGDRKEFPLLNDEEWSKVNWDYFQDCFTCDSRHRCGQTLSREHYRKAADLIICSQDFYMDHIWTYDARKREGQIPLLPESSCVVFDEGHLVEYAAQKALTYRLKQTMMEQLLTRLLQNDIREEFAHLVEETIWQTERFFDVLQENKKEIAGSDRLEITVTEKVTAEAKRLYAKIGEVGDALVFESEMHTVNTYDLNIVDEHLDVLEHSLRLFMHEKNVITWGEEGDGAFTLVIMPRAVEEVLQEKVFSKKIPYIFSSATLSNNDSFAFTANSLGVKDYLSFSVASPFDYEEQMAVNLLSHTKENEWERKCQYTLENIQKTNGRTLVLFRTTQELAAFKEYVSKEQMSVPFLYEGDQEISQLVSRFQNEEETVLCAVHLWEGLDIPGSSLSHVIIWSLPFPPNDPVFEAKRKHVNDPFWDVDVPYMILRLRQGIGRLIRTSDDKGAISIFLSDSEDEKVVAAVKNVLPVEGKEL				NA	NA	NA	NA	NA
AK009_00302	1518	ypwA	COG2317	Carboxypeptidase 1	ATGACAGTTGCTACATATGAAGTAGAAAAACAATTTTTAACATACGTGAAGAAGATACAGAATTATGGAGAAGCATTAAGTTTAATGTTTTGGGATTTAAGAACAGGTGCACCAAAAAAAGGTGTGGATCAGCGTTCTGAAGTAATTGGTATGCTTTCGTCAGAAGTGTTTGCTATGTCGACTTCAGATGAGATGGGAAACTATTTAACAGAGCTTGAAGCTTTAATACGCGAAGATAAACTTTCTGAAACGACGAAGAAAATGGTTGAAGAGTGCCGGAAAGAATATGATAGAAATAAAAAAATTCCACAAGTTGAATATGAGGCTTATGTGAAATTAGAAGCGAAAGCGGAGAGTGTGTGGGAAGAAGCTCGCGAAAAATCTGATTTCGAAATGTTCCGCCCGTACTTAGAAAAAATTGTGGAATTTAAAAAGAAATTTATTACATATTGGGGTTATGAAACATATAAATACAATACATTATTAGATATGTATGAGCCAGGTATTACAGTGGAAGTTTTAGATCACGTATTTGGTCAACTTCGTGAGCGCATCGTACCGCTTGTAAAAGAAATCTCTGAGTCTAAAAAAGGATTAAAAACAAGTGCTTTATCGGAACGATTTTCAAAAGAAAAACAAAAGAACTTTACATTAGAATTATTGAAGCAATTGAATTATGACTTTGAAGCAGGTCGTCTTGATGAAACAGTACATCCTTTCGAAATTACATTAAATAGAGGGGATGTTCGTATTACGACACGCTATGATGAAAAAGATTTTCGTATGGCTGTTTTTGGAACAATTCATGAATGTGGTCATGCAGTATATGAACAAAATATTGCAGAACAATTTGAAGGTACACCACTTTGCAGTGGTACATCTATGGGTATTCACGAATCACAATCATTATTCTTTGAGAACTTTATCGGCCGTAATAAATCATTCTGGAAGAAGAATTATGATTTATTAAAAGAGTATAGCAATGGTCAATTTGATGATATGTCAGTTGATGAGTTTTATGATGCAATTAACGAATCGAAACCGTCATTCATTCGTATAGAAGCAGATGAGCTTACATACCCGCTTCATGTTATGGTTCGTTATGAGCTTGAGAAAGAATTATTTGATGGTACATTACAAGTGAAGGACTTACCAGCAGCTTGGAATGATAAGATGGAAGCATATTTAGGCATTCGTCCGGAAAATAATGCACAAGGTGTATTGCAAGATGTTCACTGGGCTGGTGGTTCATTTGGATACTTCCCATCTTATGCGCTTGGTTACATGTATGCAGCACAGTTTAAGCAAAGAATGTTAAAAGACATTCCGAACTTTGACGCATTATTAGAAGAAGGAAACGTAACACCAATTCGTGAATGGTTAACAGAAAATATTCACCAATACGGTAAAACGAAAAAGCCACTTGAAATTTTAGAAGATGTGACAGGCGAAGGATTAAATGCAAACTACTTAGCAGATTATTTAGAAGCGAAGTATAAAGAAATTTATGAGTTATAA	MTVATYEVEKQFLTYVKKIQNYGEALSLMFWDLRTGAPKKGVDQRSEVIGMLSSEVFAMSTSDEMGNYLTELEALIREDKLSETTKKMVEECRKEYDRNKKIPQVEYEAYVKLEAKAESVWEEAREKSDFEMFRPYLEKIVEFKKKFITYWGYETYKYNTLLDMYEPGITVEVLDHVFGQLRERIVPLVKEISESKKGLKTSALSERFSKEKQKNFTLELLKQLNYDFEAGRLDETVHPFEITLNRGDVRITTRYDEKDFRMAVFGTIHECGHAVYEQNIAEQFEGTPLCSGTSMGIHESQSLFFENFIGRNKSFWKKNYDLLKEYSNGQFDDMSVDEFYDAINESKPSFIRIEADELTYPLHVMVRYELEKELFDGTLQVKDLPAAWNDKMEAYLGIRPENNAQGVLQDVHWAGGSFGYFPSYALGYMYAAQFKQRMLKDIPNFDALLEEGNVTPIREWLTENIHQYGKTKKPLEILEDVTGEGLNANYLADYLEAKYKEIYEL				NA	NA	NA	NA	NA
AK009_00303	471			hypothetical protein	ATGCTTTATACATATACAGTAATGACGCAAGAAGAAGCGGAAGAGATTGCATATAACTGGCACTATGAAGGGAAATATTCTTTTTATGATATAGCGGCAGATGAAGAAGATTTAGATGAGTTTTTACATGATGAGAGTAGAGGGAATCATACATTTTCTGTAAAGGAAAATGGCACTCTCATTGGTTTTTTTACTGTTTGTAAAATGAATAATGGAACGGTTGATATAGGACTTGGAATGAGACCTGATATAACTGGCAATGGATTTGGTTTACAGTTCGTGAATGCGGGACTAGCTTTTAGTGAAGAAAAATATGGGTGCAATTATATAACACTATCAGTAGTGAAATTTAATGAGAGAGCTATTAAAGTATATAAAAGGGCAGGGTTTGAAGCAGTTGGGACGTTTATACAAAAAACAAACGGTAGTTGTTTTGAGTTTTTGAAAATGAATTATATATGTGGAAAATAA	MLYTYTVMTQEEAEEIAYNWHYEGKYSFYDIAADEEDLDEFLHDESRGNHTFSVKENGTLIGFFTVCKMNNGTVDIGLGMRPDITGNGFGLQFVNAGLAFSEEKYGCNYITLSVVKFNERAIKVYKRAGFEAVGTFIQKTNGSCFEFLKMNYICGK				NA	NA	NA	NA	NA
AK009_00304	897			hypothetical protein	ATGAATACACTTAAAGTTAAACAATTAGCAAATAAGGAAGGACTAAATATATTAGAAGATTCAATAGTAATTAATGAATCTGGCGTTGACTTTCAAGTAGCACACGTTAAAGAACAAAACGGAGATAAATGGATACTAAGAATTCCTCGTAGACCAGAATCTATGAGACATGTCCAACGAGAAAAAAAAGCATTAGAACTTATGAAAAAACATGTAGAATTCCAAGTTCCTGATTGGTCTATATTCTCTGAGGAACTAATCGCTTATAAACAACTAAGTGGCGTTCCTGCCGCTACTATCGATATAGAACGACAAGAATATATATGGAACTTTAATGAAAAGAATGCACCAACTGAATACAATATTTCATTAGGAAAAGTTCTAGCGAATTTACACTCATTACCTCAGCAAAAATTTAATAATATAGGTGTTGAAATTCTTACTGCTAATGAATTAAGAACTTCTATGAAACAAAGGATGAATCGAGCGAAGGAACAATACCACATCAATCAAAACTTATGGGATCGTTGGCAAGCATGGCTAGCTGAAGACTCTTTTTGGCCATCTCATGTAGGAGTAAAGCACGGGGATATACATCCAGGTCATATCCTGATTGATAAGAAAAATAATGTAACTGGCTTAATCGATTGGACAGAAGTAGGGATAGCTGATGTATCTATCGATTTCGCTTCCCATTATCTGCTCTTTGGGAAAGATGGACTAACAAAGTTAATTAATTCTTATGACAATTCTGGCGGTAAAACTTGGTCAAGAATGGATGAACATATTATCGAACTTCTAACAACAAATAGTATCACTGTTGCTGTATACGCTCAAGTATCAGGTTTGAAAGACATGCATGAAATAGCTGTACACATGCTATCAACTGAAAGTTAA	MNTLKVKQLANKEGLNILEDSIVINESGVDFQVAHVKEQNGDKWILRIPRRPESMRHVQREKKALELMKKHVEFQVPDWSIFSEELIAYKQLSGVPAATIDIERQEYIWNFNEKNAPTEYNISLGKVLANLHSLPQQKFNNIGVEILTANELRTSMKQRMNRAKEQYHINQNLWDRWQAWLAEDSFWPSHVGVKHGDIHPGHILIDKKNNVTGLIDWTEVGIADVSIDFASHYLLFGKDGLTKLINSYDNSGGKTWSRMDEHIIELLTTNSITVAVYAQVSGLKDMHEIAVHMLSTES	PGPT0028010_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028010-mph-K06979	NA	NA
AK009_00305	747	map_1	COG0024	Methionine aminopeptidase 1	ATGATTACAATTAAAACGAAAAATGAAATAGATTTGATGCATGAATCTGGAAAATTACTTGCTTCATGTCATAAAGAAATTGCGAAAATGATAAAGCCAGGTATAAAGACACAAGAGATTGATACGTTTGTTGAAATGTATTTAAAACAGCATGGTGCCACATCTGAACAGAAAGGTTACAATGGGTATCCATATGCGATATGTGCATCTGTAAACGATGAAATGTGTCATGGGTTTCCGGCCGATGTTCCTTTAAATGAAGGAGATATTGTAACAATTGACATGGTAGTAAACTTAAATGGTGGTCTTTCAGATTCTGCTTGGACGTATAGAGTTGGAAATGTTTCTGAGGAAGCGGAAAGGTTAATGGTAGTAGCTGAGAATGCATTGTATAAAGGGATTGATCAGGCGGTAATCGGTAATCATGTAGGGGACATTGGGTATGCAATTGAGAGTTACGTAGCAAATGAAGGTTTTTCTGTCGCAAGAGACTTTACGGGACATGGAATAGGTAAAGAGATCCATGAAGAACCAGCAATTTTTCATTTTGGGAAACAAGGACAAGGGCCTGAGTTGCAAGAAGGAATGGTAATTACAATTGAGCCAATTGTAAATGTAGGTATGCGATATTCGAAAGTAGATTTAAATGGATGGGCTGCAAGAACGATGGACGGGAAATTATCAGCGCAATATGAGCATACAATTGCAATTACAAAAGATGGGCCAATTGTTTTAACGACGCTTTGA	MITIKTKNEIDLMHESGKLLASCHKEIAKMIKPGIKTQEIDTFVEMYLKQHGATSEQKGYNGYPYAICASVNDEMCHGFPADVPLNEGDIVTIDMVVNLNGGLSDSAWTYRVGNVSEEAERLMVVAENALYKGIDQAVIGNHVGDIGYAIESYVANEGFSVARDFTGHGIGKEIHEEPAIFHFGKQGQGPELQEGMVITIEPIVNVGMRYSKVDLNGWAARTMDGKLSAQYEHTIAITKDGPIVLTTL	PGPT0020010_9140	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
AK009_00307	594	xpt	COG0503	Xanthine phosphoribosyltransferase	ATGAAAGTATTACAAGAAAAGATTTTGAACGAAGGAAAGGTTTTATCTGGTGACGTATTAAAGGTAGATGCATTTTTAAATCATCAAATTGACCCAGTACTTATGCAAGAGATTGGAAAAGAATTTGCTAAACGTTTTAAAGAAGAGAACATTACAAAAATCGTAACGATTGAATCTTCAGGCATCGCACCAGCAGTTATGGCTGCATTAGAGCTTGGTGTAAAAGTAATCTTTGCAAGAAAACGTAAATCGTTAACGTTACAAGATAATATGTACGTTGCAAACGTATACTCATTTACGAAACAAGAAACGAATGAAATTTCATTATCTCGCAATCATATCGATGAAAATGATCGTGTATTAATCATCGATGACTTTTTAGCAAACGGTCAGGCTGCTTTAGGTTTAATGAGTTTAGTAGAGCAAGCTGGAGCGAGTATTGCAGGAATTGGAATTGTTATTGAAAAAGCATTTCAAGATGGAGGAAAGAAGCTTCGTGAACAAGGCGTTCGTGTTGAATCACTAGCAGAAATTGCATCACTTGATAACGGCACAGTTACATTTGTACAGCATGAAACTGCGGAGGTGAAATAA	MKVLQEKILNEGKVLSGDVLKVDAFLNHQIDPVLMQEIGKEFAKRFKEENITKIVTIESSGIAPAVMAALELGVKVIFARKRKSLTLQDNMYVANVYSFTKQETNEISLSRNHIDENDRVLIIDDFLANGQAALGLMSLVEQAGASIAGIGIVIEKAFQDGGKKLREQGVRVESLAEIASLDNGTVTFVQHETAEVK	PGPT0007305_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
AK009_00308	1323			Nucleobase transporter PlUacP	ATGAAGCAGCATCCATTTAAAATTGCATCGCTTGGTATGCAGCATATGCTTGCTATGTATGCTGGCGCAATTATCGTACCGCTTATTGTAGGCGGCGGACTTGGTTTAAATCAAAAAGAGTTAACATACTTAGTCTCAATTGATTTATTAATGTGCGGCGTTGCGACAATTTTACAAGCATTATCAAATCGCTTTTTCGGTATTGGACTCCCAGTTGTACTTGGTTGTACATTTACAGCGGTTGGGCCGATGATTGCAATTGGAAAACAATACGGTGTGTCTTCTATCTATGGGGCAATTATTGCTGCCGGGTTATTCGTTGTTATTTTTGCGAAATTATTTGGAAAGCTTGTAAAACTGTTTCCACCAGTTGTAACAGGGTCTGTCGTTACAGTAATTGGAGTTACACTTGTTCCAGCCGCTATTAATGATATGGCTGGTGGAGTAGGAAGCAAAGATTTCGGAAGTCTTGAAAACTTAGCGTTAGCATTTGGAGTGTTATTATTTATCATCATTATGTATCGTTTCTTTGATGGGTTTATCCGTTCAATTTCTATTCTATTAGGTTTGTTGTTCGGTACTATCGTTGCAGCATTTATGGGGAAAGTAAGCTTGCAAGCAGTTGGAGAGGCGGATTGGTTCCATGGTATTCAGCCATTTTACTTCGGTACACCAACATTTGAATTAACACCAATTATTACAATGATTCTCGTTGCTTGTGTAGGGATTGTAGAAGCAACAGGTGTATACTTTGCATTATCTGATATTTGCAATAAAAAAATCGGTGAAAAAGAATTAGCAAAAGGGTATCGTGCAGAAGGATTAGCGATGGTGTTAGGTGGTATTTTTAACGCGTTCCCATATACAACATACTCTCAAAACGTAGGACTTGTTCAATTAACTGGAGTAAGAAATCGCGTTATTATTTATACTTGCGGTGGTATGTTAATCGCTCTTGGGTTTATTCCGAAAATTGCAGCTATCACAACAATTATTCCGAAGTCAGTACTTGGCGGTGCTATGCTCGCAATGTTTGGTATGGTTATGGCATATGGTATTAAAATGTTAAGTAGCGTTGACTTTGGAAGACAAGAAAACTTATTAATCGTTGCATGTTCTGTTGGAATTGGGCTTGGCGTAACAGTCGTTCCTACATTATTCTCACAACTTCCAGAAAGCATTCGTATTTTAACAGATAACGGAATTGTACTTGGAAGTGCATCAGCAGTATTGTTAAATATCGTATTTAATATGGTGCCGCAGCGCAAAGTGAAAGTAAAAGAAGAGCCGGTGTCTATGCAAAGTGCAGTAAGAGAAGCGTAA	MKQHPFKIASLGMQHMLAMYAGAIIVPLIVGGGLGLNQKELTYLVSIDLLMCGVATILQALSNRFFGIGLPVVLGCTFTAVGPMIAIGKQYGVSSIYGAIIAAGLFVVIFAKLFGKLVKLFPPVVTGSVVTVIGVTLVPAAINDMAGGVGSKDFGSLENLALAFGVLLFIIIMYRFFDGFIRSISILLGLLFGTIVAAFMGKVSLQAVGEADWFHGIQPFYFGTPTFELTPIITMILVACVGIVEATGVYFALSDICNKKIGEKELAKGYRAEGLAMVLGGIFNAFPYTTYSQNVGLVQLTGVRNRVIIYTCGGMLIALGFIPKIAAITTIIPKSVLGGAMLAMFGMVMAYGIKMLSSVDFGRQENLLIVACSVGIGLGVTVVPTLFSQLPESIRILTDNGIVLGSASAVLLNIVFNMVPQRKVKVKEEPVSMQSAVREA	PGPT0007330_128	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
AK009_00309	1164			hypothetical protein	ATGACACAAAACATTTCACAAGGCGAGAGGATACATTCCATCGATATTATTAGAGGAATAGCTGTATTAGGTATTTTTCTTGTTAACTGGCCAATTATTGCCGGGGTTGACTCACGTGATATTACAGGAATTTACGAAGGGATAGACAGCTATATTCGCCTATTTTACGATATGTTTATTCAAACGAAATTTTATACAATTTTTTCGTTTTTATTCGGATTAGGTTTTTATATTTTTATGAATCGTGCTGAGGCGAAGACCGATCGTCCAAAAACTTTGTTTGTTCGCCGCTTACTTATCTTATTATTATTTGGGTTCTTACATTACGTTCTTTTATGGGACGGTGACATTTTACATACTTATGCAATTACCGGGTTTTTCTTATTTTTATTTTACAAAAGAAAGACACGTACTATTTTAATATGGTCAATTGTACTATTAAGTTTCATGCAATTGTTCACATTATTAGGTTCTCTTGTCATGTTATTAGTGCCGGTAGATGAACTAGGCCTTTCCATAGCCATTATGCCGTTAGAAAACTGGGGCTTACAAATTACAGACAGATTCTATTCTTTCTATTCTGAAGCAATAAGTAACAGTCTTATTATGCTTCCTGAAACACTAGGATTGTTTTTACTCGGATTATATGCCGGTAAAAAAGACATTTTCCGCCGTGCTAAGGAATTAGATCCAAAACTTAAAAAATGGCAAATCATTATGTTCATTTTAACATTACCGATGTGGTTTATTATGGTTTACTTCTTTATGAACAATCAACCATACACACCATTTTCACTTATGGGTATTACGATGATAAGCGGAAAGACATTGTTCATCTTCTACATTGTCACGTTAATGCGTTTATTACAAAAAGAAAAATGGCAAACAGTATTACGTCCATTCCAATACGTTGGACGAATGGCGTTAACGAATTACATCTCACATACAATTGTTACATTACTTGTATTTGGGCTACTATTCAAAAATGATTATCTTGCTCCATTATGGGTTGGACCACTATTCTGCGTCGGTTTCTACACGTTACAAATCTTTATTAGCCGCTGGTGGCTTTCACATTACCAATACGGGCCACTTGAGTACATTTGGCGTCTTGGTACTTACGGGAAAATGATGCCACTTAAAAAGAAAAGCAAGGTCTCATAA	MTQNISQGERIHSIDIIRGIAVLGIFLVNWPIIAGVDSRDITGIYEGIDSYIRLFYDMFIQTKFYTIFSFLFGLGFYIFMNRAEAKTDRPKTLFVRRLLILLLFGFLHYVLLWDGDILHTYAITGFFLFLFYKRKTRTILIWSIVLLSFMQLFTLLGSLVMLLVPVDELGLSIAIMPLENWGLQITDRFYSFYSEAISNSLIMLPETLGLFLLGLYAGKKDIFRRAKELDPKLKKWQIIMFILTLPMWFIMVYFFMNNQPYTPFSLMGITMISGKTLFIFYIVTLMRLLQKEKWQTVLRPFQYVGRMALTNYISHTIVTLLVFGLLFKNDYLAPLWVGPLFCVGFYTLQIFISRWWLSHYQYGPLEYIWRLGTYGKMMPLKKKSKVS				NA	NA	NA	NA	NA
AK009_00310	3660	der_2		GTPase Der	ATGACAAACATAGTACAGACAAACGGTATGAGAAAACTTGTTTGTTTTTATGAAGAGTGGCAAAAACACGGCGATGCAGAGAATAGTTTAAAGTTGTTTGAGGTGATTCAAAAATATAAACAAGAACAGCTTATGATAGCGTTCTGCGGTCACTTCTCTGCAGGGAAATCAACGATGATGAATCATCTATATAAAGCACAGTTGTTACCAACAAGTCCAATTCCGACAAGCGCTAACGTCGTTAAAATTGAAAAGGGATTTGATCGTGTTGTTGTAACGATTAAATCTGGAGAACAGTACGAATATGATGGTGCATATTCAGCGGAAGAATTAAAACAAATTTGTAAAGACGGTGATGAGGTAATTGGTGTTCATATTTATCGGAATGATGCGCCAATTCCTGAGGGTGTTATGTTAGTTGATACACCAGGGATTGATTCAACAGATGATGCCCATCAATTAGCGACAGAATCAACGCTGCATCTAGCAGACGTAATTTTTTATATGATGGATTATAATCACGTCCAATCGGAAGTGAATTTACAATTTGTTAAAGAATTGAAACAACGTAATAAAACGGTTTATCTCGTTGTAAATCAAATAGATAAACATAAAGAAAATGAATTATCGTTTGAGGATTATAAAGATAGTGTAAAACAATCGTTCTCTAACTGGGATATTGAAGTAGATGGAGTTTATTATACGTCATTAAGAATGATGAACCATCCACATAATGAAATTGGAAGCTTAGAAACATTAATTACATCTATTATGAAAGAAAAAAAGCAGTATGTAAGAGATGGAATGGAGCGAGAAACAGAATATTTAATGGGGGAACATTTCTCGTTTATTCTTTCTGAAAATGAAAAAGCTCTTTTGACATATGAGGAAGAGTTAGCATCACCGCTTTCGATTTCAGAAATAGTTGAAAAGAAAGAAGAGCTAACGGAAATTAAACATCGCGAGGCTAGTAAAGAATCTCATGTGAGAAACGAATTTATAAAAGGTTTACAAGCTATATTAGATAACGCGTATTTAATGCCATTTGAAATGAGAGAATTGGCAAATGCATATTTAGAAACGAAATTAACAAAGTTTAAAGTTGGTTTGCTATTTGCAAAAGGAAAGACGGAGCAAGAAAAACAAAGACGTGTAGAGGCGTTTTATTCTGCCCTTCAAAAGACTGTTGAAACGCAACTTGATTTTCATGTGAAAGAATTTATTGTGGCCTTCTTAAAAGAAGAAGGATTGTTCACGGAGGAAATTGGGAAAGACATATATGCTTTAGAAATTGCTTTTGGACCAGAAATGTTAGCTGAAGTCATTAAACAAGGTGCAGGTTTCACAGGTGATTACTTACTTCTTTATACAGCGGATGTAGCGAATGAACTGAAGAAACGTTATTTTACAAAAGCTCAGCAAATTTTTGATAAAAGTGCAGTCGTTTTAAAGCAAAAGGTGAAGGAAGCAGTTGCTCGTATGGAACAAGAGATTGAAAAATATACGATGTTGCAAACGGCAAAAGAGACGGAATTACAATACAGTAACAATTTAGAGACATATGAAAGTTATTTACAAAATATTTGGCGCGAGCGTGTTGCTACACCAGAAGGATTGCAAATAGAGGAGATATTGCAACGTGAAAAACAAATTGTTAGTGAGAAATTTACACTACAAGAGCAGGAGATTGTAAATGATAACGGGGCGGCTCATGAAGAAGAGATAAAAGGAACAGCAGTTTTAAATATTCAGCGTATATTAGAGAAAGTGAAGAAAGCTGAAATGATATTAGAGCCATTGCCAGCGCTGAAACATGTACAGCAAGAGGTAATAGAAAAAAGGCGTCGTGTGGAAACGAAACAATTTACAGTAGCGTTATTCGGAGCTTTTAGTGCTGGGAAATCATCATTTGCCAATGCCTTACTAGGTGAGAAGGTACTTCCTGTATCACCAAATCCGACGACGGCAACGATTAATCAAATTTTGCCGGTTACAGAGGAAAAACCACACGGAACAGTAATGGTTCAATTCAAATCAAAGCAAGCTTTATTAGAAGATATGAAAGCTGTTTATAAGCTGTTTCATTATGAGATTACTACGTTAGATGAGGCGTTAGCACAAATTGATAAAGTTATGAAATATCCTTCACCAACTGGGAAGCAAAAAACAACATTTAGCTTTTTACGAGCGGTACAAAAAGGGTATGATGCAGTTTCTACTTATTTAGGAGAACAAGTACAAGTTACATTAGAAGAGTTCTCTGATTATGTAGCGAACGAAGAAAAATCATGCTTCGTTGAGTATATGGAGCTTTATTATGATTGTGCTTTAACAAGGCAGGGAGTAGCGCTTGTAGACACACCTGGAGCGGATTCTATTAATGCTCGCCATACGGATGTTGCATTCCAGTATATTAAAAACGCAGATGCTATTTTATTTGTAACATATTATAACCATGTATTCTCTCGTGCTGATCGTGAATTTTTAATTCAGCTTGGTCGTGTAAAGGATACCTTTGCCCTTGATAAAATGTTCTTCTTAATTAATGCGGCGGATTTAGCAGAGTCTGAAGAAGAACTTGAAATGGTAAAAGGTTATATCGCAGATCAGCTACTGCAATACGGTATTAGAAATCCGCGTTTATTTGCAATTTCAAGTTTATGTGCGCTTGAAGAGAAACAAGGAAAGAATGTTGAAAAAGAGAAGTATGGTATTTTACAAAACTCTGGAATTACTAAGTTTGAGGAATCATTTACGTCCTTTATGATGAGAGATTTAATGCTTGTTTCTGTGCATGCTCTATATGGTGCGTTGCAAGGGGCAGATCAGCTTTTAGTAAACATGATAAATGGTGCAAAGCAGGGGAATGAAGAGAAAGAGAAGCAAACGAAAAAATATGAAGCAGAGCGTGGTCAACTACTTCATATCATTTCATCATATAGTGTACTTGCTGAAGAACAGGCGATGCAAAATGAAGTGAAAGAGTTGCTTTATTACGTGCAACAGCGTCTATTCCTACGCTATAACGATGTGTTTACTGAATTTATTAATCCGGCGTCACTTCGAACGGATGGAAATGTGAAAACACAATTGCAACAGTGTGTTATGGAATTAGTAGCATTTATTCAGCATGATTTATTACAAGAAATGCGTGCGACATCATTACGTCTTGAAAAATGGATAGACGAAGCGATGAAGCGTGCAAAGGACGAAATTGTAGTGAACTGTAAAGTAGAAAATCAATCAATTTCTATGAATGGAACAGTGGAGTATGAATATAAAGATATTACACATAAAGAACCGTTCCCTTCAGTTGAAATAAAAGATTTCAAAAAAGCACTGGCACATTTTAAAAATGAGAAAAGCTTTTTTGAAAAGAATGACAAAGCTTTTATGCAAGAAGACGCTAAATCTGTATTAGAACCGCTCGTATCAAACTATGTAGCCGATGAAAAAGATTTATTTGTTCATCATTATAAGCAAGAATGGGATATGAAGTGGAACTTATTCCAAAAAGTGATGCAACAAGATGTGATGAACTATTATGAAAGTATATTGTTTGCATTGGCTGAAACGATCGATGTATCTCTATATGAACAAAGTAAAGAACAATTGCAAAAGCAGTTAGTAGAGATTGAAAAAGAAATTTATGTTATATAG	MTNIVQTNGMRKLVCFYEEWQKHGDAENSLKLFEVIQKYKQEQLMIAFCGHFSAGKSTMMNHLYKAQLLPTSPIPTSANVVKIEKGFDRVVVTIKSGEQYEYDGAYSAEELKQICKDGDEVIGVHIYRNDAPIPEGVMLVDTPGIDSTDDAHQLATESTLHLADVIFYMMDYNHVQSEVNLQFVKELKQRNKTVYLVVNQIDKHKENELSFEDYKDSVKQSFSNWDIEVDGVYYTSLRMMNHPHNEIGSLETLITSIMKEKKQYVRDGMERETEYLMGEHFSFILSENEKALLTYEEELASPLSISEIVEKKEELTEIKHREASKESHVRNEFIKGLQAILDNAYLMPFEMRELANAYLETKLTKFKVGLLFAKGKTEQEKQRRVEAFYSALQKTVETQLDFHVKEFIVAFLKEEGLFTEEIGKDIYALEIAFGPEMLAEVIKQGAGFTGDYLLLYTADVANELKKRYFTKAQQIFDKSAVVLKQKVKEAVARMEQEIEKYTMLQTAKETELQYSNNLETYESYLQNIWRERVATPEGLQIEEILQREKQIVSEKFTLQEQEIVNDNGAAHEEEIKGTAVLNIQRILEKVKKAEMILEPLPALKHVQQEVIEKRRRVETKQFTVALFGAFSAGKSSFANALLGEKVLPVSPNPTTATINQILPVTEEKPHGTVMVQFKSKQALLEDMKAVYKLFHYEITTLDEALAQIDKVMKYPSPTGKQKTTFSFLRAVQKGYDAVSTYLGEQVQVTLEEFSDYVANEEKSCFVEYMELYYDCALTRQGVALVDTPGADSINARHTDVAFQYIKNADAILFVTYYNHVFSRADREFLIQLGRVKDTFALDKMFFLINAADLAESEEELEMVKGYIADQLLQYGIRNPRLFAISSLCALEEKQGKNVEKEKYGILQNSGITKFEESFTSFMMRDLMLVSVHALYGALQGADQLLVNMINGAKQGNEEKEKQTKKYEAERGQLLHIISSYSVLAEEQAMQNEVKELLYYVQQRLFLRYNDVFTEFINPASLRTDGNVKTQLQQCVMELVAFIQHDLLQEMRATSLRLEKWIDEAMKRAKDEIVVNCKVENQSISMNGTVEYEYKDITHKEPFPSVEIKDFKKALAHFKNEKSFFEKNDKAFMQEDAKSVLEPLVSNYVADEKDLFVHHYKQEWDMKWNLFQKVMQQDVMNYYESILFALAETIDVSLYEQSKEQLQKQLVEIEKEIYVI				NA	NA	NA	NA	NA
AK009_00311	255			hypothetical protein	ATGGACAACAATGAGAAAAAATGCAACGTCATCTCTATTGATGGAAAGAAGAAGAAAAGCGACACGTATTCCTACCCAAAATTAGTAGTAGAAAACAAAACATATGAATTTTCTTCATTCGTCTTATGCGGTGAAACACCAGATGGCAGACGACTCGTTCTTACTCATATGATTTCTACCGATGAATTTGCTGGATTTGTCAAATCTTTAGATACTGTACTGCAAAAGAAAATTGAACGAATCTTTTTCTCATAA	MDNNEKKCNVISIDGKKKKSDTYSYPKLVVENKTYEFSSFVLCGETPDGRRLVLTHMISTDEFAGFVKSLDTVLQKKIERIFFS				NA	NA	NA	NA	NA
AK009_00312	462	yvbK_1		putative N-acetyltransferase YvbK	ATGGGTGTAGTAATAGAGTATATTTCGAAAGAAGAAGCTATACCGAAGTCTTTATTGCTACTTGCTGATCCAAGTGAACGGCAAATAGCTACATATGTACAAAGAGGATTAACATACGTAGCAAAGCAAGAGGGTAGCGTTATCGGTGTATATGTTCTTTTAGAAACAAGGCCAAAGACGATGGAAATCATGAATATTGCGGTTGCAGAGCATGTGCAAGGAAAAGGGATTGGAAAGAAGCTAGTAAGTCATGCTGTAGAAACTGCTAAAGGATATGGTATGTCAAAACTGGAAATTGGTACAGGTAATTCTAGTGTTTCACAACTTGCTTTATATCAAAAATGTGGATTTCGTATTTTTTCTATTGATTTTGATTACTTTTCGAAGCATTATGAAGAAGAGATTATTGAAAATGGCATTGTATGCCGTGATATGATTCGGCTTGCAATGGAATTGAATTAG	MGVVIEYISKEEAIPKSLLLLADPSERQIATYVQRGLTYVAKQEGSVIGVYVLLETRPKTMEIMNIAVAEHVQGKGIGKKLVSHAVETAKGYGMSKLEIGTGNSSVSQLALYQKCGFRIFSIDFDYFSKHYEEEIIENGIVCRDMIRLAMELN	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
AK009_00313	273			hypothetical protein	ATGGAAGTACATAAAGCAATTACAGCACATTCTCGTAAACAAAATGAAAGTGTAAAAGCATGTTTACAATTAGATGCGCAGCGTGAAGCAGCTATTGAAGCAGCCGTATCTCTTGCGTCAAATGGGAAAGAATTTTCGGTTGATGTCATTAATGTTGTAACAAAGCAAATTAATGATCTTGCAAAAAATGGTGTTACCTTGCAGCGTAAATATGTTACAGAAGAAATGGTTATGGAGTATGTAAGTCGTTTACAAGAGAAAGAAGGTCGTTAA	MEVHKAITAHSRKQNESVKACLQLDAQREAAIEAAVSLASNGKEFSVDVINVVTKQINDLAKNGVTLQRKYVTEEMVMEYVSRLQEKEGR				NA	NA	NA	NA	NA
AK009_00314	834	sseA	COG2897	3-mercaptopyruvate sulfurtransferase	ATGATAGTTACAGTCGAATGGTTACGTGAGCATATAGAAGATGAGAACGTCCGTGTAATCGATTGTCGTTTTGATTTAGCGAATCCTAATTGGGGTAGAGAAAAGTATGAAGAAGAACATATTCCTCATGCTTTATATTTTGATTTGAATTTAGATTTATCAAGTCCTATAGTAGAGCATGGTGGCCGCCACCCGTTGCCAAGCATTGAAGAGTTTGCGGACAAGCTTTCGGAGGTTGGTATTGATGAACATACGACAGTAATTGCGTATGACAGTCAAGCTGGTGCAAATGCTGCTCGTTTATGGTGGTTATGTAACTATGTAGGACATGAGAAAGTATATATATTAGATGGTGGTTTCCCGGTTTGGAAAGAGAATGGACTACCGACAACAACGGAAATTCCTGTTGTTATACGAAAAACATTCAAAACAAACATACAAGATCATATGCTTGTATCGATGGAAACAGTAAGAGAGAATATCCAGGCAGGTGCAGATGTTACGTTAATTGATTCAAGAGAGCCAAAACGTTATGCTGGTGTAGAGGAACTTGTCGATCATAAAGCAGGACATATTCCGACAGCAGCAAACTATTTTTGGAAGGATGGAATGTTGCAATCAGGACAATTTAAGAATGAAGCTGAGCAACAAGGACGATTCCAAAATCTGTCGAAAGATAAGGAAACCATTGTATATTGTGGTTCTGGTGTTACGGCATGTCCAAATATCATTGCGTTAAAATTGGCTGGATTCCAAAATGTTAAATTGTATGCGGGTAGCTGGAGTGATTGGATTTCTTATCCAGAAAATCAAATTGCAAAAGAAGAAGATTAA	MIVTVEWLREHIEDENVRVIDCRFDLANPNWGREKYEEEHIPHALYFDLNLDLSSPIVEHGGRHPLPSIEEFADKLSEVGIDEHTTVIAYDSQAGANAARLWWLCNYVGHEKVYILDGGFPVWKENGLPTTTEIPVVIRKTFKTNIQDHMLVSMETVRENIQAGADVTLIDSREPKRYAGVEELVDHKAGHIPTAANYFWKDGMLQSGQFKNEAEQQGRFQNLSKDKETIVYCGSGVTACPNIIALKLAGFQNVKLYAGSWSDWISYPENQIAKEED	PGPT0002045_4722	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
AK009_00317	102			hypothetical protein	ATGAAGACAGAAAGTGCTACATTTATTACGGAAACTTCACAGGTGAATCAAGATAATATTGATATATCTATGCAACAAAAAAACCTTACGTATAAAACGTAA	MKTESATFITETSQVNQDNIDISMQQKNLTYKT				NA	NA	NA	NA	NA
AK009_00318	450			hypothetical protein	ATGCGCTTAGAATATCGACTTAATGATGAAACGAAAGGGTATCCTGCTTTATGGAACTACGCCAATATTTCTAATTCTGAAATTATCGCACGCATGACTTGTGAATATTTTATTAAAGAGAAAAATACTTATGTTGTTACTGCAACTTCGGTTGATCCAGACGGAACAGCAGTTATTTATATTCAAAAAGAAGTTTTCGCCAATGACCCTTCAGACCCTACATACTCCCACATCGGTTTTGAAATTAGAGAACTAAGTGAAACGAGTTCAAGCTTAGTAGATAGTCAAGATGTATGGAACTACGAAGAAATTTTACCATCTCTTCATTCAGATATTATATATATTCAGCGAGACGGCATGTCTATGGAATTCTCCTTGGATTCAAGAGAGATTGATGAAGACAGAAAGTGCTACATTTATTACGGAAACTTCACAGGTGAATCAAGATAA	MRLEYRLNDETKGYPALWNYANISNSEIIARMTCEYFIKEKNTYVVTATSVDPDGTAVIYIQKEVFANDPSDPTYSHIGFEIRELSETSSSLVDSQDVWNYEEILPSLHSDIIYIQRDGMSMEFSLDSREIDEDRKCYIYYGNFTGESR				NA	NA	NA	NA	NA
AK009_00319	312			hypothetical protein	GTGACAAAAACGAAATGGCTAGTAGGTGGTGTCGTAACGTCTTTAATGACTGGCACTTTATTTGGTTGCGCACAAGATCTTCCCCCAAAACCGAATGATAATAGTTGTTCTGATTGGGATTGGGATGATGAACTTGGGGTATGGCAGTGTGATGATAGTAGTTCAGGTTATCGTGGGCATTATTTCTATGGTGGGCGATACTATCAAAATAAATCCACTTTTAAAAATTCATCGGCGTTTAAATCGTATCAATCGTCTGCTGAATTTAAAGGTGGAATTGGAAGCGGTTCAAAGGGAGGATTTGGGGGCTAA	MTKTKWLVGGVVTSLMTGTLFGCAQDLPPKPNDNSCSDWDWDDELGVWQCDDSSSGYRGHYFYGGRYYQNKSTFKNSSAFKSYQSSAEFKGGIGSGSKGGFGG				NA	NA	NA	NA	NA
AK009_00320	1239	ygiC	COG0754	Putative acid--amine ligase YgiC	ATGTCGCAATACATAAGGGATCGAAAAGATTTTTATTTAAAATATCCGAATTTTTGGTCGGATTTATATGAATGTGAATATAGTTTGTTTCATGTTTTTTCTATAACAAATCAGACTTTGGAACAATTACACTTAGCGACTGAACGAATGGGTAAAATATTTTTTAAGACTGCTAGACTTTTGCGAAATTTAAGTGACGAACAGCTTCTTGAGCTTGGTTTTCCTCCTGCGAGCTTATCATTCATTAGAATGAAAGGATTATATCCTGAATCTGTTATTTCACGATTTGATTTCGTTATAACGGTTGATAACCAAATTAAAATGCTTGAGTTTAATAGTGATACACCAACTTTTATTATGGAATGCTTTCAAATGAATGGAGAAATTTGTGAAAACCTAGGTTATGATGATCCAAACTCGGATCAAGAACGATTACTATCTTCTGGTGTTACGAAAGCTGTAATGGAAGCGACAAAGGGATTAGACAATCCAAATGTTGTTTTTACAGCACATCATGAACATATTGAGGATTGGAATACGACTATGTATTTAAGTCAGTTATGCCATGTTGAAAATAAAGTAGTGCCAATGTCAGAACTTAGAATTACGAAAGGTGCTCTAGTTGATAAAGATGGGGCGAAGATTGATGTTTTATATCGCCAAACATATCCGATAGAAGATTTAATTGAGGATCAAGATCCTGAAACAGGAGATTTGGTAGGTGTGGAACTGCTGCAACTTGTAAAAGCCGGAAAGCTTTTTATAATAAATCCTTTGTCAGCATTTTTACTTCAGCCAAAATCAATTCAGTGTCTTATTTGGGGGTTAGCAGAAGAAGAGGTCTTTTATACAAACGAGGAACAACAGTGGATTAAAGAATATATGTTACCTACATATTTAGAACCAGATTTATTTTTAGGAAAAGGTTCTTTCGTTCAAAAACCTTCATTTGGTAGAGAAGGAGATACAATTACGATTCGCGATAAGGATGAAAATATTATGCTTCAAAATGCACATCAAACGTATAAAACTTCACTGCCGATATTTCAAAAGTATATAGAACTTCCAGTCGTATCCTTGGAAACAGAAAAAGGGATGGAGAAACTGTCGTATGTGTTTGGTTCTTTTTTAATTGTTGGAAAAGCAAGTAGTATCGGTATTCGCGCGGGAGAAAAGATTACAGGAAATGAATCGTACTATTTACCGGTAGGTATAAAAAGGAGGGGGAAAAATGATTAA	MSQYIRDRKDFYLKYPNFWSDLYECEYSLFHVFSITNQTLEQLHLATERMGKIFFKTARLLRNLSDEQLLELGFPPASLSFIRMKGLYPESVISRFDFVITVDNQIKMLEFNSDTPTFIMECFQMNGEICENLGYDDPNSDQERLLSSGVTKAVMEATKGLDNPNVVFTAHHEHIEDWNTTMYLSQLCHVENKVVPMSELRITKGALVDKDGAKIDVLYRQTYPIEDLIEDQDPETGDLVGVELLQLVKAGKLFIINPLSAFLLQPKSIQCLIWGLAEEEVFYTNEEQQWIKEYMLPTYLEPDLFLGKGSFVQKPSFGREGDTITIRDKDENIMLQNAHQTYKTSLPIFQKYIELPVVSLETEKGMEKLSYVFGSFLIVGKASSIGIRAGEKITGNESYYLPVGIKRRGKND				NA	NA	NA	NA	NA
AK009_00321	387			hypothetical protein	ATGATTAATTTTCTATCATATTTAGCAGTAACACTCGGACTTTTATGTATTGGTCTGTTCTTGATGGAAGTGACAACGAAAGTTAAGGAATTTAAGTTAATGGCTCAAGGGAATAAGGCGGTAAGCTATGTGCTTGGAGGACGATTACTTGGGTTAGCTATTGTTTTATATTCGACAGCAGCTAATTCAATTTCACTTCTTGATATGATTTCGTGGGGAGCAGTTGGGATTTTGGCTCAAATTATCGTTTTTTATTTAGCTGAGTGGCTTACACCACGCTTTAATATAAACAAAAGTCTTGAAGAAGATAATCAAGCAGTCGGTCTTTTTCTTATGTTTTTATCGCTTTCAATTGGGATTGTAATTGCTGGCTGTATAACTTATTAA	MINFLSYLAVTLGLLCIGLFLMEVTTKVKEFKLMAQGNKAVSYVLGGRLLGLAIVLYSTAANSISLLDMISWGAVGILAQIIVFYLAEWLTPRFNINKSLEEDNQAVGLFLMFLSLSIGIVIAGCITY				NA	NA	NA	NA	NA
AK009_00323	726			hypothetical protein	ATGTTATATGCAAACAAAACTGTGGGTAACACGTCATATAAACTAAGTAAAAAATCAATAAAAGAACAAACAATGCTTCAAAAAAATAAAGATTTATTAATTGAAATTGCAACAAGAGATGTAAAATCTGTATTTGCATATTTTAAAACAACAAGAGACGGACTATCAATGAAAGAGGCACAAAAACGTATTCAAGTATATGGCCGAAATGAACTAACTTCAAAAAGAGCACTTCTTGCAGAAGTAATGATGAAGCTTAGTGGCATGATCCCAGGTTTTTCAAAACAACGTGTTTGTGATGAATTACAACGTGAAACGATTACTGTATCTAGAGTAGAATGTTCTAGTAGTACAGGGCTAAATAGTGAACTGAAAATGATGGAGATACCAGTGCAAGAACTTGTACCTGGAGATATGATTTTTCTTTCGGCTGGAGATGCTGTGCCAGCTGATGTACGTATTATTTATGCAGATGATTTATTAGTAAATGAGTCTGTGTTAACGGGAAACGAAGCGAGTATAGAGAAGTTTGAAAGCTGCTATCACCTTGAACGTAAACGATTTATTCCATTAAAACGGATGAAAGATTATAATCCACTTGAGCTTGAAAATGTATGTTTTAAAGGTTCGCATATTGTTAGTGGAAATGCAAAGGCTGTCGTTGTTTCTACTGGAAAAAATACGTATTCAGGCATATTGCATACTTGTTGTAGTAGGATGTCTTAA	MLYANKTVGNTSYKLSKKSIKEQTMLQKNKDLLIEIATRDVKSVFAYFKTTRDGLSMKEAQKRIQVYGRNELTSKRALLAEVMMKLSGMIPGFSKQRVCDELQRETITVSRVECSSSTGLNSELKMMEIPVQELVPGDMIFLSAGDAVPADVRIIYADDLLVNESVLTGNEASIEKFESCYHLERKRFIPLKRMKDYNPLELENVCFKGSHIVSGNAKAVVVSTGKNTYSGILHTCCSRMS				NA	NA	NA	NA	NA
AK009_00324	867	ypcP	COG0258	5'-3' exonuclease	ATGAAAAAAGTATTATTAGTTGATGGTATGGCACTATTATTTCGTGCTTTTTACGCAACAAGTGTCTACGGACAATTTATGAAACGACAAGATGGAACCCCTACGAACGGGATTCATGGTTATATGAAACACTTGTTAACAGCTACGCAAGCGATCGAACCAACACATATCGTTACATGCTGGGATATGGGAAGTACGACATTTAGAACAGAATCGTTCTCGAATTATAAAGCAAATCGTGCAGCGCCACCAGAAGAATTAATTCCTCAATTTGATTTAGTGCAAGAAATGACTGCGAAATTATCCATTCCAGTTATCGGTATGAAAGGCTACGAAGCCGATGATTGTATCGGTACGCTTGCAAAACAATATTGCAATGAAGCTGAAGTTTATATTTTAACTGGTGATACAGATTTACTTCAACTTGTTGATAAGAACGTTACAGTTATGCTTCTGCGTAAAGGAATTGGAAATTACGAATATTACACACCGGAGAAAATTATGGAAGAAAAAGGTGTAGAGCCGTGGCAAATCGTCCATGCAAAAGCTTTCATGGGAGATACAAGTGATAATTATCCAGGTGTAAAAGGTATCGGTGAAAAAACAGCGTATAAGCTTATTCAAGAGCACGGAACAGTATCCGCTGTACTAGAAAATGTAGAATCATTAACGAAAGCGCAGCGTACGAAGATTGAAAGTGATTTAGAGAACTTAAATATTTCGTTGCAATTAGCACAAATTCACTGTGAAGTTCCAATTTCATGTTCACTAGAAGAGGGACTACACACAATGGATGAAGAAAAACTTAAATTTGTTTGTGAAGAAATGAATTGGGGAAGACCTGAAATATTAATAAATATGCTATAA	MKKVLLVDGMALLFRAFYATSVYGQFMKRQDGTPTNGIHGYMKHLLTATQAIEPTHIVTCWDMGSTTFRTESFSNYKANRAAPPEELIPQFDLVQEMTAKLSIPVIGMKGYEADDCIGTLAKQYCNEAEVYILTGDTDLLQLVDKNVTVMLLRKGIGNYEYYTPEKIMEEKGVEPWQIVHAKAFMGDTSDNYPGVKGIGEKTAYKLIQEHGTVSAVLENVESLTKAQRTKIESDLENLNISLQLAQIHCEVPISCSLEEGLHTMDEEKLKFVCEEMNWGRPEILINML				NA	NA	NA	NA	NA
AK009_00325	141			hypothetical protein	ATGAGAAAAAAAGTGAGAAAATCTTTTAAACAATTATTAATTGAAAATAAACAATCACTATTAAATAATAAAGAAAATATGAAAGAAATTGAAGAAAGAATTGAGAAACGACATGTAGCATATAGTGGTGCCAGTAATTAA	MRKKVRKSFKQLLIENKQSLLNNKENMKEIEERIEKRHVAYSGASN				NA	NA	NA	NA	NA
AK009_00326	1194			hypothetical protein	ATGAAGAGATACGAAGAATTGGACTCTATAAGAGGGATTTCTTCATTAGTAGTAATGATTGGTCATCATTTAATGATTTTTTCAGCATTTCAAAATTACAGTTATGAAGATAATAAACCATTTGTTGTGTATCTATTAAAAGAAACACCTGCTCGTCTAATTTTTAGTAGTGGTAACGAATCTGTTATTATCTTTTTTGTTTTGAGCGGATTTGTTTTGTATGAATCTATTGAAAAAAACTATAGTAGCTATGGGTCATACCTTTTAAAACGTATATGCAGAATATATATTCCTTATATTGTGGCAATAATTATAGCGATTATATGCCAGACTACAATTAGTGAATATGGTATTTCTTATTTAAGTGAATGGTTTAATCGCTCATGGACGATTGAAAGTTCTTCAAGCTTAATCGCACAACATATTTTATTGGTTGGGAAATATAATACAGATGCATATAACGGTGTGATTTGGTCGCTTGTCCATGAAATGCGAATATCAATAATTTTCCCGTTAATTTTGATGATTTGCTTACGAAAAACGTTAAGGGGTTCATTACTATTATTGTTTAGTTTTAGTATATGTTCTGTCATCATATTATTTTTGTTTCGTTCGGGCTTAACATTAACAAGCTATGCATTAACTTTGCATTATACGGTGCTATTTTTACTAGGAGCACTAGTTGCGAAGTATAAAAATAATTTAATAGTTTTTTATAGTAATTGTACTAAAAACACGAAAATTGCATGGTTTTTATTTGCGATTTTACTTTTTATGTATGAAGGGCTTATTGGAGAAATGAAAGTGCTCAATAATTTTATATTTCGAGACTATGTAGTGGCGATAAGTGCATGTCTATTTGTCATATTAAGCTTGTCAATATCAACTTTGTCGTCCTTACTACGTAATAAATACTTGTTATATTTGGGGAAGATTTCTTACAGTCTTTATTTATATCATATTATATCGTTATTTTCCCTTATATACATGCTCCATAAAATATTACCGTTGCTTATTATTTTAATTTTTTCACTTGTTTTTTCGTTTATATTTGCAATGCTTTCGTATATATATGTAGAAAAATTTGCATTGAGAGTCGGAAAGTATGTAACAAAACAAGTGGATAGAAAGGAGAAAGGGTTATCTGTAAAGAGTGACTTGCAGGATGTTATTCAGAAAAGGGCGGTGAAATAA	MKRYEELDSIRGISSLVVMIGHHLMIFSAFQNYSYEDNKPFVVYLLKETPARLIFSSGNESVIIFFVLSGFVLYESIEKNYSSYGSYLLKRICRIYIPYIVAIIIAIICQTTISEYGISYLSEWFNRSWTIESSSSLIAQHILLVGKYNTDAYNGVIWSLVHEMRISIIFPLILMICLRKTLRGSLLLLFSFSICSVIILFLFRSGLTLTSYALTLHYTVLFLLGALVAKYKNNLIVFYSNCTKNTKIAWFLFAILLFMYEGLIGEMKVLNNFIFRDYVVAISACLFVILSLSISTLSSLLRNKYLLYLGKISYSLYLYHIISLFSLIYMLHKILPLLIILIFSLVFSFIFAMLSYIYVEKFALRVGKYVTKQVDRKEKGLSVKSDLQDVIQKRAVK				NA	NA	NA	NA	NA
AK009_00327	744	ywqC_1	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	TTGAAGCAAGAAATGAGTATAAAAGATTTTCAACAATTATTGAAAAGAAGATTCGTAACGATTATTTTAACGATGTGTTGTTTAACCGCTTCTTTAGTTCTTATCTCTATGTATGTTTTAAAGCCGTCATATCAATATTCAACGCAAATTCTTGTTGGGAATTTAGATGAGTTTAATAAGGAAAATTCAACAAATAAAACACAAGAAAATAAGCAACTAGTAACATCGTATGTCGATATTTTAAAAAGCCCATTAATTATTTCAACAGTTAAAAAAACTTTGAAATTAGAGCAATCAAGTTATGAATTAGCACAAAAAATCTCGGTGGTAAATACGGACAACTCACAAATTGTAACTGTTACAGTAAAAGATTCCAATCCGAAAGTCGTGAAAGACATAGTAAAGACATTGGCAGAGCAATCACAACAAAGTTTTCAACAGTACACAAATGTACAAGGTGTGAAAGTGTTGACGGATCCTGAGTTACAGGAACAGGCTGAAAAATTGTTTCCAAAATTTCAACTAATCATTCCTATTTCTTTAATTGTTAGTTTTTTTGTTGGGATAGGTTTAGCTGTATTTCGAGATTATTTTGATGAACGTATATACACGGAACAAGATTTAGAGAAAATAACAACAGTCTCTGTTATTGGTCACATAAATATGAAACCGAATAGAAAAAAGAAACCTACAGAGGTTGATAAACAATCATCTATATATCGAGGTGAACATGTTGATGTTTAG	MKQEMSIKDFQQLLKRRFVTIILTMCCLTASLVLISMYVLKPSYQYSTQILVGNLDEFNKENSTNKTQENKQLVTSYVDILKSPLIISTVKKTLKLEQSSYELAQKISVVNTDNSQIVTVTVKDSNPKVVKDIVKTLAEQSQQSFQQYTNVQGVKVLTDPELQEQAEKLFPKFQLIIPISLIVSFFVGIGLAVFRDYFDERIYTEQDLEKITTVSVIGHINMKPNRKKKPTEVDKQSSIYRGEHVDV				NA	NA	NA	NA	NA
AK009_00328	621	yveL	COG0489	Putative tyrosine-protein kinase YveL	ATGTTGATGTTTAGGACAAAGAAACAGCTGCCATTCGATCTGCATGATGATCTGATGAAAGAACAGTTTTATACGGTGTATCACGAGCTAAAAAAATCTGGAAAACAACTGTTCACAGTTAGTTCAACGAAGGACAGAGGGGTTGTTGCCTCGCTTATAGTAAATATGGGTCTAGTGTTTGCGGAAATGAAGAAAAAGGTGTTACTTATTGATGTGAATTTTTCTGATCCTAAATTACATGTATTATTACAAAGTGATCACATGATAACAGTAAACGATATAATAAGCTCTTCCCCCTGCAATTATGAATCTTTTTCTAGTAATTTGTCTAAATACTTATATTGTATTCCTGCAAAAAAAACAGTACACACAGGGACCCCCTTAGTTGCTATGGATGAATTTGATAATGCGATTGCTAAGTGGAAAGAAGATTTTGATTACATTTTCTTTTATTCTTCTGAAGTATTTGACCTTCCTGCTACGCACATTATTGCAGGGAAGTGCGATGGAGTGGTTTTAGCAGTTAAAAAGCGAAAAGATTCACTACGTACAGTGCAAAAAGTAATAGCGGATATAAAGAGAAAAGAATGTGAATTAATAGGTATAATTTTATATTCTTGA	MLMFRTKKQLPFDLHDDLMKEQFYTVYHELKKSGKQLFTVSSTKDRGVVASLIVNMGLVFAEMKKKVLLIDVNFSDPKLHVLLQSDHMITVNDIISSSPCNYESFSSNLSKYLYCIPAKKTVHTGTPLVAMDEFDNAIAKWKEDFDYIFFYSSEVFDLPATHIIAGKCDGVVLAVKKRKDSLRTVQKVIADIKRKECELIGIILYS				NA	NA	NA	NA	NA
AK009_00329	639	wecA		UDP-N-acetylgalactosamine-undecaprenyl-phosphate N-acetylgalactosaminephosphotransferase	ATGATTCGTGAAACAAATCAAGCCAAGTTGTATACGATTCCGGCTCAAGAAAAGCCTAGCATATTGAATCGAAGTGTAAAACGCTTGTTTGATATTATATTTTCAATCATATTGTTACTATTAACGATACCAATTATGTTGTTCTTTTGTATTATGATTACTTTAGAAACATCAGGGGCTCCAATTTACTTTCAAGAACGTTTAGGTATAAACGGGAAGAAGTTTAATGTATTTAAATTAAGGTCGATGGTAAAGGATGCTGAAATGAACGGACCACAATGGGCAAAAGAACATGATCAAAGAATTACAAAAGTTGGATTGTTTATAAGAAAAACGAGAATTGATGAATTACCACAACTCTTAAATATTTTAAGAGGAGATATGTCTTTTGTAGGTCCTAGACCAGAGAGAGAGTTTTTTTATAATGAATTTGATGCGTATATTCCAGAATTTAAGGATCGTTTAATGGTAAAACCAGGCTTAACAGGATGGGCACAAATAAATGGAGGGTATAATCTTGATCCAAAGGAAAAGTTGAGGTTAGACATGGAGTATATTGAAATGAAAACGATTCGGATGGACATCCGTATTTTATGTAAGACCGTTTTAATTGTATTGAACGGTAATGGTGCAAGATAA	MIRETNQAKLYTIPAQEKPSILNRSVKRLFDIIFSIILLLLTIPIMLFFCIMITLETSGAPIYFQERLGINGKKFNVFKLRSMVKDAEMNGPQWAKEHDQRITKVGLFIRKTRIDELPQLLNILRGDMSFVGPRPEREFFYNEFDAYIPEFKDRLMVKPGLTGWAQINGGYNLDPKEKLRLDMEYIEMKTIRMDIRILCKTVLIVLNGNGAR	PGPT0015235_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015235-tuaA-NA	NA	NA
AK009_00330	1437			hypothetical protein	ATGGGTAGATCTATTCTAAATAATATTATCCATCTATTTTATAGCACGATTTTAGCTAACCTTCTTCAGGCTGTCAGTTTAATTGCTTTAGCAAACTTTTTTAACGCACAACATTATGGGATGTTTAGTGTTGCCATAGCAGTGACGTTTGTTATGTTATTTTTTACAGACTTAGGACTTAGTAATACATTTCTTCGAGAAGGGGCAAAGGATGGAGCAGATTTAGAGAAGATTTTATCATCGTATATAAAAATAAGAATGATTCTACTTATTTTTATTTCTATCATCGGTTATATTTCTATTCATTATATGTATGTAGATAAAAATTTAATTTATATGATGATAAACGTAATGTTTTTCATGTTAATAGGATTAACTTGGCAAAACATAGGGATTGCCTATTTTCAACTGACGGAACGTATGAAGTATATAGCGCTCATTAAAGTTGTATCATCATCGGTTGTTATTATAATTACATTTTTTTGTATTTTCGGAGAATTACCGGTGTATGTAACGGCTCGCTTATATGCTTTTGGGTATATGATCGGCGGTTTATTCAGTATATATATCATGAGAAGAAAGACGAAAATGAATATGAAAGTCGTAATTCATAAAGCGTTATTTTGGCAATTAACTCCTTTTATTATTAGCGGTTTTTTAATAATGGGTACGCCACAATTAGCGCCTATCTTGCTTAACTATACATTGCCATTAAATATGGTAGGTGTTTTTGCAGTGGCGTACCGGATGCCAGCAGCTTTATATCAAGTACCGGGGGTAATTGCAGGTGCATTTTTTCCAGTGCTCTTTAAGCATTATAACCAGAATAATTTAGAAGAGCATACGAAATTAAATTTGCTTCAAATTAAATCAATGGCGATTGTAGGAATATGTATGACGATCGGTTTATATCATTTAGCACCATACTTTATTTCTATATTTTTTCATGAAGAATGGAGCAATGCAGTAGAACCACTCCAAATATTATCATTTCTTATTGTGCTACAAAGTTTAAATATTGCCATTGCTGACGGTTTAACGACGAGTGGATGTCAAAATAAAAGAACTGTTGTGCAGTGTGTAGCATTGGTGATAGGTGGGTTTATGCTTTATAGCTTTAGTAGTATTGGTGGAGTGATAGGAGCGGCATACGCTATGGTTTTATTTGAAATCGTCGCTTTAGTGGGATATATAGCGGTAAGTGTAGTGAAGAAAAAAATTGTATTCCAAATTGTAATACCGTATACAATTTATTTTGGTGTAACCTTTATTGGAGTGCAATATATAGTGCATACATATCATTTGATTGCGCTTGTTCTTAATATACTAATTGTAGTAGCTGCCATATTCCTATATGATTATGAGCTAAAAAAACTTCTTCTTTCTTTTATAAGAAAAATACGCAAAAAGGATTATATTACGAAACAGGGGATATAG	MGRSILNNIIHLFYSTILANLLQAVSLIALANFFNAQHYGMFSVAIAVTFVMLFFTDLGLSNTFLREGAKDGADLEKILSSYIKIRMILLIFISIIGYISIHYMYVDKNLIYMMINVMFFMLIGLTWQNIGIAYFQLTERMKYIALIKVVSSSVVIIITFFCIFGELPVYVTARLYAFGYMIGGLFSIYIMRRKTKMNMKVVIHKALFWQLTPFIISGFLIMGTPQLAPILLNYTLPLNMVGVFAVAYRMPAALYQVPGVIAGAFFPVLFKHYNQNNLEEHTKLNLLQIKSMAIVGICMTIGLYHLAPYFISIFFHEEWSNAVEPLQILSFLIVLQSLNIAIADGLTTSGCQNKRTVVQCVALVIGGFMLYSFSSIGGVIGAAYAMVLFEIVALVGYIAVSVVKKKIVFQIVIPYTIYFGVTFIGVQYIVHTYHLIALVLNILIVVAAIFLYDYELKKLLLSFIRKIRKKDYITKQGI				NA	NA	NA	NA	NA
AK009_00331	1215	tuaE		Teichuronic acid biosynthesis protein TuaE	ATGGGAAATAATATGAAAGTATCGATGGGATGGATTATTCTTCTAATATTATTTGTTATGTTAAGTAAATACAATTTATATATTGGATTTTCATTGAAGGTATATATGATTTTTTTAGTCATATATTTTTGTTTAACAATTAAAGACTTTCATATTCAAAAGTTATATTTTCATGAAGTTGTATTTTTACTGTTTTATTTCATTTATTGTTTAAGTGGAATTCTTTCTATGTATTTAAATACTAGTATTCGTATGATTTTTGGCGTGCTACTCGTTTTAGGATGCTATTTTATAATGAGGAATTTATTGGGGAATACTGAAATAGTGGTACTTGAATCATCTATTGCTTATGTAGGAGTAGTATTTAATGTTGTAAGTCTAATACTCTATATAATCGGTTTACAATACTTTGGTTTATACGGTGGAGAAGAGAGAGAAATTTTTGCTGGGTTATTAGTTGATAGAGGATATCCACGGTTAATTGGATTGCTAGATGATCCTAATATTTTCATTTTCTATAATACAATATTTTTTATGTACTATATGACGAATTTACAAAATATCACCAATATATTAGGGTTGATTTTATGTGTTACGACGAGTCTATTAACCTTTTCAAGGGGCGGTATATTAGCTCTTGTACTTGTCGTTTTTGTATATATATGTATGTCTAGTTTCGTTAAAAAAGTAAAAATAATTATGAGCTTAGTATTGTTTAGTTTAGTTATTTTTAGTTTATCGAATAGTGTAATGGGGGGCCAATTAGATGACATATTAAATAAACGAATTTCTGATTTTTCCCATGATAATGGAAGTGGTAGATTTACATTATGGGAAGCTGCTTTTAAATATTATTTATCCAATCCATATATCGGAATCGGTGCTTTTAACTTCTCAAATTATTATGAGTATCAATTTAATGAAAAATTATATGTACACAATACATTTTTAGAAATTTTGTCTGAATCGGGTACAATTGGTTTTCTTCTATATAGCGCGTTTTTATTCATATTAATGTTCAAGCTAGCGCAGCATACTTTATTTCGTGAAAAACCATACCTTCTATTGACTATGATTGCATTTTTATTTCAGATGATGTCATTGTCACTCATTATTAACGAAGCGTTCTTTTTATTTTTAGCAGTTGTTGTGAAGTATATTTCAATATATGAAGGAAGGAGAAAGATAGATGGTAAAATGTCTATCAGCACATAA	MGNNMKVSMGWIILLILFVMLSKYNLYIGFSLKVYMIFLVIYFCLTIKDFHIQKLYFHEVVFLLFYFIYCLSGILSMYLNTSIRMIFGVLLVLGCYFIMRNLLGNTEIVVLESSIAYVGVVFNVVSLILYIIGLQYFGLYGGEEREIFAGLLVDRGYPRLIGLLDDPNIFIFYNTIFFMYYMTNLQNITNILGLILCVTTSLLTFSRGGILALVLVVFVYICMSSFVKKVKIIMSLVLFSLVIFSLSNSVMGGQLDDILNKRISDFSHDNGSGRFTLWEAAFKYYLSNPYIGIGAFNFSNYYEYQFNEKLYVHNTFLEILSESGTIGFLLYSAFLFILMFKLAQHTLFREKPYLLLTMIAFLFQMMSLSLIINEAFFLFLAVVVKYISIYEGRRKIDGKMSIST				NA	NA	NA	NA	NA
AK009_00332	801	tuaG_1	COG0463	Putative teichuronic acid biosynthesis glycosyltransferase TuaG	ATGGTAAAATGTCTATCAGCACATAACGAGCCGCCTTATGTTTCTGTAATAACACCTTCTTATAATAGTATACGATTTATAGGTGAGACAATTTTATCTGTACAGAATCAATCGTATGAAAACTGGGAAATGATTATCGTTGATGACTGTTCAACCGACCAATCTGCCGCAAAAATTAAAGAGATAATAGAAGGAGACTCACGAATTAGGTTATTATCATTAAAAGAAAATGTCGGTGCTGCTAAAGCTCGGAATTTAGCTATTCAAGAGGCGAGAGGAAGGTACATTGCCTTTTTAGATAGTGATGATATATGGTTGCCGCATAAATTGAAGACACAATTATTATTTATGGAAGAAATGAATATTGCTTTTTCATATGCGTCGTATAGTTTAATTGATGAAAATGGTAATGAACTAAATCGCGAAGTGAGTGTACCAAAATCTGTTGACTATCATTATTTAGCAGGGAATACAATTATCGGGTGTTTAACAGTGATGATTGATCGTGAAAAAATTCCGTATGTCGAAATGCCTAGTATACAGCCGGAAGATACAGCGTTATGGCTGAACTTATTACATGAAGGGTATGAAGCAAAAGGGATACAGCAAGTATTAGCAAAATATAGAATTGTTACAAATTCTGTTTCTAGAAATAAAATTAGAGCAGCTTTCCGGTATTGGAAATTGTTAAGGGAACAAGAACGACTGAATTCGGTGCAAATTTTTTACTATTTTAGTAAGTATGCTTATCATGCTTATAAAAAAAATAAAATCAATGTAGTTGGGAAGACGCAATTATGA	MVKCLSAHNEPPYVSVITPSYNSIRFIGETILSVQNQSYENWEMIIVDDCSTDQSAAKIKEIIEGDSRIRLLSLKENVGAAKARNLAIQEARGRYIAFLDSDDIWLPHKLKTQLLFMEEMNIAFSYASYSLIDENGNELNREVSVPKSVDYHYLAGNTIIGCLTVMIDREKIPYVEMPSIQPEDTALWLNLLHEGYEAKGIQQVLAKYRIVTNSVSRNKIRAAFRYWKLLREQERLNSVQIFYYFSKYAYHAYKKNKINVVGKTQL	PGPT0015205_33	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
AK009_00333	1053	mshA_1		D-inositol-3-phosphate glycosyltransferase	ATGAATATACTGTTGATGACAGATAAATTGATAACTGGCGGAGCCGAGAGCTATTTCTGTAAATTGGAAAGTAATTTGCATTATGAGGATTTTGAGATTTATACAGCTGCAGGTAATGGAGAACTATATGAATCTCTTACTAGAAAAGAAAATTTTATATTACTTAGTCGATGGAATCATTTGAGAAATATTTATTATTTACGAAACGAAATTTGTAAACGAAAGATAGAACTTATTCATGCAAATAGTTTGCGAATGGTATTATATGCTTTGCTACTTCAAAAGTTTATTAAAAAAAAGATGAAAATTGTTTATACGAAACATAATGTAACGATATTAGAAAAGAAAATGCCAACGCTTTTTCGTTATTTCATGAATAAATATGTAAACAATATTATTACAGTAAGTGAGTTTGAAAAGAATAATTTAATTTCAATTCATGTAGCAGAAGAAAAAATAAATACAATTTATAACGGTGTCGATATTGAAAAGTTTTTATTCCAGCAGAAAAAGAAAGAATCTACATATAAAATAGGGATATTAGCTAGATTATCCAAAGAGAAAAACCATCTACTATTTGTCAAAATTGCAAATGTGTTGAAAAAGAGAAATGATTTTATGTTTTATATTGCTGGTGATGGACCAGAGAAAGAATCGATTATGAAAGAAATAGAAAAATATGGATTGCGACAAAGTGTAAAGATGCTAGGAAATATTTCAGAACCGCATGAGTTTATAGGGAAAATGGATGCCTTACTTTTATTATCTTTTCGTGAAGTATTTCCAATGGTAGTAATTGAAGCGATGGCTACAGGGACACCAATTGTTTCAATAGATGTTGGCGGAATACATGAAGCGGTAATAGATGGAGAATCAGGTGTTTTGGTATCTGAATATTGCGAATTGGAATTCGCAAGTGCACTGGAGGAACTACAAGGGAATGAAGAAAAGGTAAATGCTATTAGACTCGAAGCACGAGAGAAAGCAGTGAGGTATTTCTCGTTAACTAAAATGATAGAAGAAACGAAAAATATATATGAATTAAACAAATGA	MNILLMTDKLITGGAESYFCKLESNLHYEDFEIYTAAGNGELYESLTRKENFILLSRWNHLRNIYYLRNEICKRKIELIHANSLRMVLYALLLQKFIKKKMKIVYTKHNVTILEKKMPTLFRYFMNKYVNNIITVSEFEKNNLISIHVAEEKINTIYNGVDIEKFLFQQKKKESTYKIGILARLSKEKNHLLFVKIANVLKKRNDFMFYIAGDGPEKESIMKEIEKYGLRQSVKMLGNISEPHEFIGKMDALLLLSFREVFPMVVIEAMATGTPIVSIDVGGIHEAVIDGESGVLVSEYCELEFASALEELQGNEEKVNAIRLEAREKAVRYFSLTKMIEETKNIYELNK				NA	NA	NA	NA	NA
AK009_00334	1548			hypothetical protein	TTGTCAGAATATATTTCTTCCCAAGAAGATTGTGTGCCAGAAAGTAGCGTTCACATTAATTGTTTTGGCGCAGTTCCAAACTCGGGAAATGATAGCTCATTAGCAATTCAGCAAGCTATTGATTATTGTGTAGCGAATCGAATTTCGACGGTTAGAATTACCGGGGTAAATACGTACAAAATTGTAAAGCCGATTGTTATTAAATCAAACGTAAGATTAGAGTTAGATCCTACCGTAACGCTGCAAATTGATGGAGATTTTAATGCATTTGAGCTACAAAGTAACGCTTCGATAGTTGGTGGTACTCTTCAAGTTATAAATCCATTGTTTCAATCTGTTGTTATTTATGTTTCTGGTTCACAACAAATCGAAGTACCTAATCAATCTGTTATATCAAATATAAATATAGTAAATGCAACCCCATCGTATAAAGGAAAAGCTATACATTTTTATTGTCAAAAGGCATGGGATTTTATTAGTTTCTTTCAAGTTAAATTTATTCAAATTAAAAACTTTCAAACTGCAATACATTTGAAGACAGAATATATAAATGATATCAATACACCTTGCTGGATTAACGCCAATGTATTTCAATCTATATTTATTGATGGATGTGTGTATGGGATTGAAGTAGATGGAAATAGTGATTTACCAAATGAAAGTTCAGGAAATACGTTTCATGCTATTCAAGTACAATGTAGACAACAAACGAAAAAAGTAATTCGTTGCTCAGGTGCGTATAATACATTTGATTGTATGATTTGGGATACGTACCGGATGAGTAGTGAACAAATTGTCATTGAATTTTCTTCTAATTCTCATCGTAACTACCTTTTTTCAAATCTGCTTTCGACAACTATTGTAGATAAAGGGCAATATAATGTTTGTAAGTCTACCTATGAAGAATCTCTTCGAATTCAGTTACCGATTACGTTAAATAAACCTCACTTAATAGGCAATCAAGATGATATATTAGTAAATGCTCAGCAAAAGTATATTGTTAAGCAAGTAAGTGGGAAAGTACCGTACGGTGGAAATCTAGCAAATTGCTTTAATTTAATAGATGAACAAAGTGTAAACTATATTGACGTTCCAGATAGTAATCCAGTTGTTATTGAACTGGATTTTACGAAAAAACCAATACAAATGTTAAATTGTTTCGGAATGTATTTTGGATGGGGAGAGAGTCCAAAAAAAATTAAAATTGAATATGCATTAAGCGCAACTGGAAATTGGGTTATCGCATCGGATGTTCCATTAAATGTAGGCGATACAATTATATCGAATATGAAGGCGAATCAACTATATAAAGTAAGAATTACATTAAGTGGTTATTCTCAAGATCATAAGCGTTTTCGAATTAATCGCATTTTTGCAAGGTCTTCTATGGAAAATGGGAATGCTTGGTTAGCTACAACTGGTGGAAGAATGTTTGGAGATATTGAAATAGAGGCAAGTAAAGGCATAATCATGAAGACAGCTAGTGGAATGAAATGGAAAGTTACTATTAATGAAGCTGGCCAACTTATTACGACTAAAATAACTTGA	MSEYISSQEDCVPESSVHINCFGAVPNSGNDSSLAIQQAIDYCVANRISTVRITGVNTYKIVKPIVIKSNVRLELDPTVTLQIDGDFNAFELQSNASIVGGTLQVINPLFQSVVIYVSGSQQIEVPNQSVISNINIVNATPSYKGKAIHFYCQKAWDFISFFQVKFIQIKNFQTAIHLKTEYINDINTPCWINANVFQSIFIDGCVYGIEVDGNSDLPNESSGNTFHAIQVQCRQQTKKVIRCSGAYNTFDCMIWDTYRMSSEQIVIEFSSNSHRNYLFSNLLSTTIVDKGQYNVCKSTYEESLRIQLPITLNKPHLIGNQDDILVNAQQKYIVKQVSGKVPYGGNLANCFNLIDEQSVNYIDVPDSNPVVIELDFTKKPIQMLNCFGMYFGWGESPKKIKIEYALSATGNWVIASDVPLNVGDTIISNMKANQLYKVRITLSGYSQDHKRFRINRIFARSSMENGNAWLATTGGRMFGDIEIEASKGIIMKTASGMKWKVTINEAGQLITTKIT				NA	NA	NA	NA	NA
AK009_00335	15033			hypothetical protein	ATGCCCATTACGAATCGATTTTCTACCACCACTAACGGCGCACTCGCTATTACAGGTAATACTTTAGGCTTAAGTAAAATTAGTAATCAAAACCGTGCTGGTACAATCGGGGCCATTGGTGCGTTCGTAACTACGAATACAGCTTTACAAGTTCCTACTTTTCCTGCTGGTACAACGTTAAACTATACACAAAATAGTTCTACCGCTATTTTAAATATCCCTGCTGGCAGTACTATTCTTTACGCAGAACTCATATGGGGAGGAAATTATTTAACTCGCGATCAAAATATTACAAGTGTTCTAGGAAATCCCATTTCATTTACGACACCCGTTTCAACATACTCAATTACTCCTTCAGCTGTTACAGCTTCAAATCAAACATTCGTTTCAAACTCTATTACATTTGGCTTTTATACTCGTTCAGCAGACGTAACAACTCTTATTCAAGCGGGAGGTTCTGGTTCCTATACTACAGGAGCTGTCCCTGGACTTGTTGATCCTTTAGATGCTTCAAATGGATCTATTAACTCGGCTGGATGGACACTCATTGTCGCTTATCAAAACGGGACATTGCCTGCAAGAAACTTAACCATTTATGTAGCGGGTAACCGTGTTTCTGCTGATACCGGTAGTGCAGATGTAGCTGTTTCTGGATTTTTAACACCTTCAGGAGGACCTGTAAGCGGGAGATTATTTTTAAGTTCTATTGAAGGAGATGCAGATTTAATAGGGGATCAAGCATTATTTGGACCAAATTTCAGTTCATTAAATGCTTTATCTGGGCCAAATAATGCTGTAAATAATTTCTTCGGTTCTCAAGTTAATAATGCTGTTGGAAACTTAGATACAACTGGGACATTTGGAACGCGAAATCAAAGTGCTTCTACAGGCACAAACATCTCCGCTGGGAGACAGGGCTGGGATATTACTTCTATTGATATTTCTCCTTATTTAACAAACTCACAAGTGTCCGCCGCAATCCGTTTAACAACTAACGGAGATGCGTATATGTTAAATACAGTCGGTTTACAAATCAACATAAATTCACCTACTATACAAGCAACAAAAAGCGTGAATAAAAGTGTTGCTGCAATTGGAGATATTCTCACTTATACAGTTACGATCCCTAACACCGGACTTCTTCCGGCGAATAATGTTACCTTTACAGACATTCTCCCTAACGGGACTTCCTTTATACCTGGCACTGTAACAGTAGATAATGTCCCGCAAACAAACGCAAATCCCGCCGCTGGTATATCTCTTGGAACAATCAATAATGGTGCTTCTCGTACAGTAACTTTCCAAGCTACTGTCGTTTCTCTTCCAAGTCAAAACCCTATCTCTAATACCGCTAATATTACATTTCAATATACACCTATCGCCGGAGGAACAACCTTTAACGGTCTTGCAACAAGCAATTCTGCTGGAACACAAATTAACCTGGCAGATATTAATGGAACAAAATCAGTCAACAAAATTTTTACCGATATTGGTGAAACATTAACTTACAGTATTGCCTTAGCTAATATAGGAAATATCGCTGCAACGAACGTTATATATACGGATCCGATTCCTGGCGGAACTACTTTCATTCCAGGAAGTGTAACTGTTAACGGAGTTACTCAAGCTGGAGCAAATCCCGCTAATGGTATATCAATTGGTTCGATTGCCGCAAATTCCACTACTACTATTTCATTCCAAGTGCTCGTTCCTTCTATCCCTCAAACAAATCCAATATTAAATAGTGGAACAACAACATATCAATATATTCCTGTACCAAATCAACCTGCAGTAAGTGGGACTGATACGACAAATATCGTATCTACTCAAGTGAATAACGCTACTGTAACAATGGTAAAAGCAGTAGATAAAAATTTTGCAGATATTGGTGATACACTAACGTACACCGTTTCTTTTACAGGTACAGGTAATACAAATGCGAACAATGTTATTTTTACAGATGTCATTCCTACTGGAACAACTTTTGTTCTAAACAGTTTAACAATAGATGGCACTACACAAGTGGGCGCAAATCCCGCTAACGGCGTGAACATTGGATCCATCCCAAGCGGCACAACAAAAAATGTTACATTTCAAGTAGTAGTAAACACAATACCCGCGTCAAATGTCGTATCTAATGGATCAAGTGCTTCTTATCAATATACCGTCAATCCTATCCAATCACCCGTTACAAAAAACATTTCTTCTAATCTCGTTTCCACTCAAATTAACAATGCGAATGTAACATTAACAAAATCAACTAACAAACAATTTGCCACAATTGGTGAAACGATAGGTTATACAATCCTTATTACAAACAGTGGAAATACAGCCGCTAATAACGTACAACTAACAGATCCACTTCCAAATGGAACGATATTAACATTAGGTTCGGTAACGCTCAACGGCGTTTTGCAAAATGTAGATTCTCTCGTTGCTTTACCTATTGGCACAATTCCTGCTGGAGCTACTTTTACCCTCTCTTTCCAAGTAACAGTTATTAATATTACTTCACAAAATCCTATCCTTAATAACGCTTTTGCCTCTTACATTTACACTGTAAATCCAAGTCTGCCACCAACTTCAAAAACAGCAAATTCTAATTCTGTTACATCTACAATTAGACTAGCAAATCTCCATGCTAATAAATCTGTAGATAAGACGTTTGCGGAAGTTGGCGATGTATTAACTTACACCTTTGCTCTTACTAACGATGGAAATGTTGCAGCGAACAACGTATTACTATCCGATTCCATCGCGAATGGCACTTCCTTTGTACCGAACAGTGTTATAGTTAACGGTGTTACTCAGCCGGGCATAACACCAGCTAGCATCAATATTGGTAGCATCAATGCTAATACTACAATTACAGCTTCATTCCAAGTAGTAATAACTAGCATTCCAAATCCAAACCCTATTTCAAATAGCGCTTTCGTCTCCTACAACTTTATCGTGGATCCAAACGCTTCACCTGTAAATAAAAACACTACTTCAACCACTACATTTACTCAAGTAAACGATGCAAATGTCATTTCAGCAAAAACAGTGGATCAAGCGTTCGCTACCGTAGGGGATATATTAACTTATACTGTTACTTTGACGAATGCAGGAAGTGTTTCTGCTGATAGTCCTACTTTCGTAGATACAAATCCAGACGGTACTACCTTTATTCCAAACACTTTTCTTATTAATGGTGTACTCCAAAATAACGCAGATCCAAATATAGGTGTTCCACTACCTTCCATTCCTGCTAACGGCTCACTTACCGTCTCTTATCAAGTAACCGTCACCTCTTTACCAACACAAAACCCAACGATAAATTCATCTAGTACACAGTATAGTTTTATTCTAAATCCGGGAGATCCACCAACTATAGAAATATCTGTAAGTAACACTGTAAGTACACAAATTAATTTAGCTAATGTAGTTATTGTCAAAGAAGTAGATTTAACTATCGCCGATGTCGGGCAACCAATCACATATACAATTTCTTTAGCTAATCTTGGCAATACTACAGCAAATAATGTTATTGTTACTGATATAATCCCTAATGGCACCACTATCGTACCAAATAGTATTTTTATAGGTGGTGCTTTACAACTAGGTGCAGATCCCAGTACCGGTCTTCAAGTCGGCTCCATTCCTTCGGGTGGTTTTACAACGATTGTTTTTCAAATAAGTGCAAATGGGCTACCTTCACCAAATCCAATTCAAAACAGCGCTTCACTTCAATATAGCTTTATCGCTGATCCAAATTTACCCGCTCTTGTTAGAAACGCTGCTAGCAATATAGTAACTACACAAATTAATACTGCTAATATCATTGCTACAAAGCTAACAAGCACAAACTTTGCTGATGTCGGTGATATCATATTATATGCGACTATTTTAACAAATAACGGGAATATCCCTGCTGCTAATGTAACGTTTACAGATATCATTCCAGCGGGTACCCTCTTCATTCCTAATACTGTAACGATTAATAATGTCCCTATAGCTAATGCAAATCCTGCTAACGGCATTTCGATTGGTACGATAGGAGCAAATTCATCACGCACCGTTGCATTCCAAGTTTTTGTACCAACTATCCCTGCTGTAAATCCGATTACAAATCAATCAGGCACAACATTCCAATATACGTATGATCCATCCAAACCCGCTGTGATGCAGATGGTTGCTTCTAACACTGTACAGACAACTATTGATAACGCCTCAATTGCCGCTACTAAATCGGCAGATAAACAGTTTGCTAACGTAAATGATATTATTACGTACACGACTACTTTAACGAATAACGGGAATACACTTGCATCAAATGTAATATTTACAGATGTAATCCCAAACGGGACATCGTTCATTCCTAATAGTGTTACTGTAAACGGGAATGCACTGCCTAATGTCAATCCAGCAAGCGGAATTGCAATCGATCCAATAGATCCGAATACAAATACGATCATCTCGTTCCAAGTACAAGTAAATTCTATCCCGAACCCGAATCCAATCCCGAACCAAAGTAATACAACGTATCAGTATGTCATAGATCCTAACTTACCTCCAGCATCCGCTAATGCGCTGAGTAACGTAATAACAACTCAAATCAATAATGCCACGATTATCGCTACAAAATCAGTGAACACACCGAATGCTGCAATTGGAGATATCGTTACTTATACAATTGCAGTTACGAACACAGGAAATATCCCTGCTAGTGCTACAGTTTTAACAGATGGGCTTGGACCTGGTGCATCCTTCATCCCAAATTCCGTTACAATAAATAACGTTTCCCAACCTGGATTAGATCCTTCATTAGGGATTCATTTAGACGATATTTCACCAGGAAACACTACTTTCATTACATTCCAAGTGAAAATTCTGGCTATTCCACCTAGTGGAACTTTAACGAATAATGCTCTTGTAAACTACGAATATGCAGTGAATCCAGCTGAAACGCCAGCTATTGGTAGTACCGTTACAAACACAACAGTTACACCGATTATTGACGCTACTTTAGTAATAAATAAAAGTGCTAGTACAACTTTCGCTACGATTGGTGATACAATTACATTCACTTCATCTGTTACAAACACAGGAAATACTACTGCGAACAACATTGTTTTTACTGATACAATTCCAAACGGTACTACCCTTGTCCCAAATAGCTTTAAGATAAATGGTGTAACCGTCCCGAATGCAAATCCACAAAACGGTATCAATATTGGTAACTTAAATTCAAATGCATCGGTTACACTCAGTTTCCAAGTAAACATCACAACGCTTCCAAATCCTAATCCAATTCCGAACAAATCATCGCTTCAATATAGCTTTATTGTTGATATAAATGAACCGCCTGTTTCACGAACAGTTCAATCCAATACAACTTTTACGCAAGTAAATTCAGCTTCCGTTATCGCAACGAAAACTGCGAGCAGTGCATTTGCCGCTGTTGGCGATACAATTACGTATACAACTACTCTCACTAATAGCGGAAATACTACCGCAAACACACCTGTTTTTATCGATATATTACCACCTGAACTTTCATTCGTTCCTGATAGCGTACAAATTAATACCATCCCACAACTTGGATTTAGACCAGATAGCGGAATCTCTTTAGACTCAATTCCAGTTGGAGGAACGACAACAATTAGCTTTCAAGCTATCGTTGGCTCAATACCAGCTACAAATCCAACTTTGAACCAATCCAGTACGACATACTTGATCATTGTTGACCCTACCCAGCCACCGGTGACAGAAACAGCTACAAGTAATCCAACTTTAGTTCAAATTAATGAAGCAATTATTCAAGCAACGAAAAGTGTGGATCGACTATTTTCTGACGTAGCACCTGGAAATTCATTTTTAACGTATACAGTTTTATTAGAAAATGTAGGGAACACAACTGCTACGAATATCATTTTTACAGATCCTATTCCAAATAACACAATATTTATAGAAGATAGCGTTCGAGTCGGCGGAGTTTTATTGCCTGGGGTAAATCCAGCGAATGGAATACCAATTGGGGATATTATTGCAGGAGATTTTACAAACGTCACCTTCCGCGTTCAAGTAGTTAGTATTCCAAATCCAATTTTCACAATTGGACCTGGTGGACCAAACTCACCGGTTGTAAATAGTGCCTCCATTGACTATCAATTTATTACAGGACCTAATTTACCACTCGTTTCAAGAAGTACGACATCCAATCCCGTTGCGACACAAATAAATTCCGGAGAAATTGTGGCAATCAAATCTGTAGATAAAACTTTCGCAACGATTGGCGATACAATTTCTTATACAATTACATTAAGTAACCCTGGAAATGTCACTTCACAAAATATAATTTTCACAGATATTTTACCTGACGGAACGACATTCATATCTGGCACTCTTACAAACGATTCTGGTACACAGCAAATCGGAAATCCAGCTAGCGGGATACAGATTGGAAATATAAACCCAAATGGAACGGCCGTTATTTCTCTCAACGTACTTGTTACAAACATTCCAAGTATAAATCCTATCTCTAATTTTAGTTCCATACAATTTGAACATGTGATTGATCCTAGCCAACCTTCTGCATTACAAACAGCTGTATCTAATACAGTTTCAACGACCATTAATAGCGCAGTATTAACTACAACAAAAAGTGTTGATAAATCTATTATTTCCGTCGGGGATACACTTACGTATACAACGACTATTACGAATACAGGAAATACACCAGCTACAAATATAACTTTTACAAGTGCGATTCCTCCTAGTACTACTTTTGTACCAGATTCGGTCACTATAAATGGCATCCAGCAGCTTGGTGCACAGCCAGCACTCGGAGTAAATATACCAAATATCGCTCCTGGTGAAACAGTAACTGTTACTTTCCAAGTAAATGTGATTTCTGTTCCCCCTTCAAGCTCAATTATGGGTAACGATACAATTTTATATTCTTATACTGTTGATCCAAACGGAACTCCTGCTACTACTTCTACTTCAACAAACATTGTTACAAACCCTGTATTAGATGCTATGATAATGATGATTAAATCAGTTGATCAAACACTTGTAACGCTAGGTGATACCATTACCTATGCGACAATTTTAACGAATAATGGTAATACAAATGCAACGAATATTACTTTCACCGACCTTATACCAGATGGTACAACGTTTATTACTGATAGCGTTACAATAGATGGCATCACGCAAATTGGTCTTAATCCTAATACAGGTATAACGATTGGAGCAATTGCTCCTAACAGCTCAATATCTATAGCATTTCAAGTTACCGCTACTTCTACACCTGTTCAAAATCCTATTGCCAATTCCGCTAGTGCTTCTTACACATTTATCGCTGATCCAAATGCCCCTATTGTTTCAAGAAATGTTACTTCAAACACAGTGTTCACTACGATTAATACAGCTACCATTCTTTCATTAAAACAAGTCGATAAATCCTTTAGTCGTATTGGAGACACACTCACTTATACTGTCGCTTTAACAAACAATGGAAACTCATCCGCACAAAATGTTATATTTACAGATACAATGCCGAGCGGAACTACTTTTATTGCAAACACATTCTCTATTAATGGGGTTCCTCAAAGCGGTGCGGATCCATCGAATGGTGTGAATATTGGGACTATAACAGCCGGGACTACAGTAACCGTTTCGTTCCAAGTTACTGTAACGTCATTACCAACGGAAAACCCCATTGTAAATTTCTCATCAACATCGTACCAATTAGTCTCACCACCTGATGCAGAAACTTCAATTAGCAATCCTGTTTCAACGCAAATTAAAGAAGCCATATTATCCATGACGAAAAATGAAAGTGTATCCTTTGCAGATATCGGGCAAACTGCTTTTTATACTACTTCTATTACCAATGTAGGAAATACCGATGCAACTAACATTGTTTTCACAGATGTATTACCAAGTGGACTCACATTTGTTCCTAACACATTAACTGTCAATGGCGTTTTACAACCTAACGCGAATCCAAATACAGGTGTATTACTTGCAACACTTCCACCAAATGAAATATATAGTATCGTCTTTCAAGTGACAGTGAACAGTATTCCTCCTAGTAACCCAGCACCAAATACAGCATCAACGACGTATGAGTTTACTGTTGATCCAAGTAATCCGCCAGTATCGAGTACAGCTACTTCCAACACTACACTCCTTCAAATAAACAACGCAACTATTATTAGCACAAAAACAGCAGATCTTACTTTCGCGGATGTTGGTAATACAATAACATTTACACTTAACCTCCCTAATACCGGGAATACACTTGCATCAAATGTAACTATTATTGACATTCTTGATAGTAATTTAAGTTTCGTTCCAAATAGTTTCACAGTTAATGGGCAAACCATTCCAAACGCTGATTTATCTACTGGTGTAAATATTGGTTCCATTAATGGTGGTAATGCGGCAATCGTTACATTCCAAGCAACTGTTATTACACTTCCAACACTTAATCCCATTTCTAACTCTGCTTCTATCACATATCATTATGTCGTTGATCCTAGCCAGCCACCTATTACAACTTCCAATCAATCTAATACAACGACAACACAAATTAATAGCGCTACCCTTACTGCACAAAAAAATTCAAATGTATCTACGGTAGATATCGGGCAGGATATTACCTACACCGTTACAATTACAAATAGCGGAAATGTTAGTGCGACGAATGTTATTTTTACCGACCTTATTCCAGACGGAACTTCCTTTGAACCGAATAGTTTTACACTGAACGGAACTAGCATCCCAAATGCAAATATCATTACAGGCGTTCCAATTGGTGATATTGCGCCAAACGAATCTGTCATCGTAGCATTCCATATTAATGCCAATGAAATTCCGCCTATAAATCCAATTACTAATCAAGCTAGCGTTAGCTTTCAATATATCGTTAATCCAGCTAATCCTCCAGTTTCAAAAAACATTACTTCTAATAGCGTTTCAACACAAATTGAAAGTGCTATTTTAAATACGATTAAAATAGGAGATAAAGCATTTGCAACGATTGGTGATACGATTACGTATACAACAACTATTACGAATACAGGAAATATCCCAGCTAACAATGTTGTATTCTCAGACCCTATACCATCGTGGACACAATTTGTTGCAGGATCAGTTGTTGTTGATGGAACTCCATTAACATCCGCTTCTATCATTGACGGCGTTGGCATAAATACAATAACTCCAAATCAAATCGTAACAATCGTATTCCAAGTTCAAATTGTAAGCAACCCAACAACGCTCACACCTGAACTCCAAAACTTAGGATTTGTTAACTTCCAATATAACGTAGGCAATGCATTACAGGCTCAACCTGGCAATGTGGAAACGAACGTCTTCGTTACCTCTATTAATTCAGCAATACTTTCAGCTGTAAAAACTACTAATACAGCCTTTGCAAATATTGGAGATACAATCACTTATACAGTTTTGATTCAAAATAATGGCAATACAAACGCTACGAATGTAAATTTCTCAGACATGGTTCCAGCAGGAACAACCTTTGTTGAAAATAGTTTTACTGTAAATGGAAGTAGCCTTCCAGGCGCAAATCCAAATAACGGAGTTAATATCGGAACAGTTAACACGGGTAGTTCCTTAACCGTTACTTTCCAAGTCATTGTTACATCAACCCCACCTTCAAATCCGATTACAAACGTAGCATCTATTCAATACGCATTCATCGTTGATCCAGCCTCTCCTCCTGTTACAAGTACGATAAATTCTAATAGCGCTTCAACACAAATTAATAACGCGACTGTTACAACTGTTTTACAAGCAAATCGAACAATCGTATCTATCGGAGATGTAATTACGTATACAGCAACATTAACGAACACTGGAAACTTCCCTGCAAACTCTGTATTACTCATTAACGGCATTCCTGAGGGAGCATTATTTGTTCCAAATAGTGTCACGCTCAACGGAGTTTCACTTCCAGATGCAAGTCCAACTCTCGGTATTCCAGTTGGTATTATCGCACCAGGTGATTCTGCTACTATTACGTTCCAATTTCTCGCTAGTTCTATTCCACCGCAAGGAGCAATTATCAATCAAGCCATTACAAGTTACACGTATATCGTCAATCCAAGTCAACCTCCAGTTACAGCAACATCCTCATCTAATACGGTTAACACAGCTGTTGTTGATGCATCGTTATCCGCAATTAAAAATACAGATTCTCTCGTACAATCTACTGACGGTACAATCACTTACACAGTAGTCGTTCAAAATAACGGAAATACTACTGCAAATACAGTTACTTTAACAGATTTGGTTCCAGAAGGAACTGCATTTATTCCTAATAGCGTAACTATTAATAACGTTTCCGTTCCAGGTGCCGATCCTAATGTAGGAATACCATTAAACTCCATCGCACCGTCAGAAATAGTTACCGTCACATTCCAGGTTATCGTTCAATCCATTCCAAGCGTGAATCCAATTTCCAATACGGCCCGTATTGACTATACTTTTATCGCTGATCCAACTGCTCCCATCATCTCTCGAACAATTACGTCTAATCCTGCTTTCACACAAATTTCGGATGCGACTATCCTTTCTTTAAAAGCAGTCAATGCACAACAAGCAACAACAGGTGATATTTTGACTTATACAATAACATTAGAAAATACAGGAAATATCCCAACTACGAATCTCACATTTTCAGACACTATCCCTCAAGGGACTACCTTTGTAGAAAATAGTTTTACACTTAACGGAACAGCTATACTTGATGCCAATCCTAATGTAGGTGTTACTTTGCCTAACCTAGCTGCAAACGCTACGCACCTTATTTCGTTCCAAATTCTTATTAACGATTCATTCTCGCAAGAATCAATTACAAATCAATCCAACACAACTTATACAATTCAGCCAGACCCAGGGCAACCGCCTATTACTGAAACATCTACTAGTAATATCGTCATTACAAATTTCGTGCAAGCACAATTGACAATTACAAAAACATCCAATCCAACAACTGTTGATATTGGCGGAACTATACTTTATATTTCTGAAGTAAAAAATATCGGCAATGTTGACGCAATAAATATTAATTTCACAGATTCTATTCCAGCTGGGACTACATTCGTTCCCGATAGTGTCACAATTAACGGTATCCTTCAGCCAGGTGTAAATCCAGAAAACGGAATACCGATTGGAACAATTCCAGCAAACAGTTCCAAAACGATACTATTTCAAGTGCAAACAAATAATCCACCTACTGAAACCGAAATTGTAAATCAATCTTCAGCAACTTACCAATATGTAAGTATTCCTGCAGCCCCACCAGTAAATCGTTCTGCAAATTCTAATATCGTTACAACATCACTTCAAAATGCAAATATTATTTCTGTTAAAAGTGCGGATGTAACTTTCGTATCAATCGGGCAAATTATTACCTACACAAATACACTTCAAAATATAGGAAGCGTTCCAGCTAACAATACCGTTTTCATTGATAACATTCCAGAAGGTACTATATTCATTGAAGATAGCTTAGCAATAAATAATGTAATTCAGCCTGGCGCTAATCCTGAAAACGGAGTAACTCTCGGCACGATACAACCAAATGAAACAGTCACTATTTCATTCCAATTACAACTTACAAATATACCAGAGGGCAATACAGTCATTAATATTTCAGACACTTCGTACGAATACCAAATTGACCCTAGTTCTCCAATTATTCAGCGTAGATCGTTATCAAATGCAGTAAATACTGAAGTGCGGACGGCAAATGTTAGTGCCATTAAATCCGCCAATAGATCCATTACACGCATTGGTCAAATCATCACATATACAGTCGCAGTTACAAACGCCGGTACAGTACCTATTACAAATACTCTCCTAATTGACGCAATTGCAGCTGGGACCACATTCGTTCTAAATAGCATTCTTGTAGATGGCATACCGAGACCTAATGAAAATCCAATTACCGGTATCAACCTTGATATTATCCTTCCAAATAATACAATTATTGTTACTTTTCAAGTAAGCGTAGTCTCTATACCGCCACAAAATAACATTAATAATATCGCAGTCATTCACTATGAGTATGAACCAGACCCAAGCGCACCACCAATTTCAGAAACGACATCTTCCAATAGTACAAATATACAATTTATTGATGCTATTCTTATTGCTACAAAATCCGCTAATACTGTATTAGCTAACATTGATGAAACCATTGAATATACAGTATTCATTCAAAATAACGGATCGACTACAACTAACTCCATCTTTTTTACAGATACTATAGCGGATGGAACAGTATTTATTCCAGGAAGTGTAATAGTTAACAATACTGTACTTCCTGCAGCAGATCCGAATATCGGCTTTTCCATTCCTAATGTCGCAGCAGGTCAAATAGCTACAATAACATTCCAAGTTTCCGTTACGAATTTACCTGTTGTAAATCCAGCACCTAATACTGCAAACATCGTCTACGACTTTATTTTCAATCCTGACTTTGCACCAATTCAAAAATCTACTACTTCCAATACTACTTTCGTTCAAATTAATGATGCTGATATCGTTTCACTTAAAACTGTTGATTTGACCTCTGTAACAATTGGTGACATTTTAACTTATACAACAACTTTAACGAATACAGGGAATACGGATGCCACTGCTGTTGTATTTACAGACAATATACCTGATGGAACAACTTTTATTGACGGTAGCGTTTTAGTAAATAACATTCCTCAGCTTAACGCCAATCCAAGTGCAGGTATACTTGTAGGAACGATTACTCCTAACACTTCTATCCCAGTCACATTTTCTGTTACCGTCGTAGCTCTTCCTGCTAGCGGCCATGTTCAAAATCAATCAACTTCTCGTTATACAATAAACGCGGAAGAACAAATATCGACTAGCAATATTACCTTCACTGAAGTTATTTCTGCTAATGTAATTGCGACAAAAACAACGCCTATCCAATATGCTGACTTACAAACTATCATCCCTTATACAATTTCCATCATAAATAACGGAAATATACAAGTCGAAAACATTATTGTTACAGATATCATCCCAGCAAATACGAGCTTTATAGAGAATAGTGTTATCGTGAACGGCAATGCTCGGCCAAATGACAACCCTCTTAACGGTATACAAATTGATAACATTCCGCCTAATACGACAGCAACTATTCTATTCCAAGTACGGGTTACTTCGATTCCACAAACAAATCCAATCTCTAACACGAGTACAATTGAATATGAATACACGGTACCAGATCGACCACCTATTACCGAAACTATTATTTCATCAGCTGCCGCAACAGAAATTAATCACGCGAATTTGAATAGTAATAAGGCTGTTGACCTTGCATTTGCAACGGTTGGTGATACGTTAACGTATACGATTACACTAAATCAAACCGGTAATGTTGCAACAAATGATGTAAACATTCAAGATATTATTCCTCAAGGTACTACGTTTATAGAAAATAGCGTCATTGTAAACGGAGAAGCTCTTCCAGGAGTGAATCCAGTAAGCGGCATACCAATTGGCACTATAATTGTTGGTGGAGATGCTATCGTTTCATTCCAAGTAACTGTGACTTCTATTCCAACACCAAATGAACTAAACAACAACGCAATTACTACTTTTAACTATATAGTCAACCCAAATAACGTACCCGTTACAAATACGACTACAACAAATACCGTCACAACTACTGTCCAAAATGATAATGTCATTGCCATAAAATCTGTTGATGTAACGAATGCCTTACCTGGTCAAACTTTAACGTATACAATTACGATTACGAATAGCGGTAATGTAACGATTGAAGACCTTCTTGCCATAGACACCGTACCAATAGATACGACTTTTGTTGCTGATAGTGTTACGATTAACGGAATCAATCAGCCTAATGAAAATCCTGAAAATGGTATTACGTTAGGAAATCTTGCTCCTAATGAATCTGTTATTATTACGTTCCAAGTGACAATATCTTCTTCTACTCTTCAATCTACAATTAATAATGATGCTTCTGTTTCCTATACCGTTATCATTGATCCAACAAAACCACCTATTACAATTACAAAACAAACAAATACCGTTACAACGACAGTCATTGATCCGATGGTTCGCATTGAAAAAACAACTGACAAATCTATTGTCGTTATAGGAGATATCATTACATTCACATTAGCGGTATTTAATCACTCCCCCATTCCGACAATCAGTACTTCTGTTATAGACAGCATTCCAGCTGGTACAACATTTATAGAAAATAGCGTAACAATTAACGGTACTTCGGTTCAAAATGTTCGTCCAGACACTGGTATTAATATTGGTTCTTTATCTGCAGATACAGTAGCAACTATAACATTTCAAGTTCTCGTAACTTCTATTCCTTCAAACAGTACAATTATAAATTCTGCAACAGTTACCGCTGCTTTTCAATTGACACCACAGGATCCAATTATTACTTTCATTGTTAATTCAAATATTGTTCGTATACCAGTTCAATTTGTAACTGCAACAGTCACGAAAAACGCTTCCGTCAGCTCCGCTTATTTAAACCAATACTTTGATTACACGGTGCGTATTACAAATACTTCCGAAATTTCACTCTCAAATATTTCTTTACAAGATACCATTCCAGCAGGTTTACAATTTATAAACGGCACTGTCTTTATTAACGGTGAACGCTCTCCACTAGCGAACCCAAATATCGGTTTCCTAGTTGCCACTAATTTAGAGCCAAATGAAACAATTATCGTGTTATTCACAGTACAAGTAATAAGTCCACCTATTAATAATCAATTTAAAAATACGGCCAATATTTCGTTACAACTTCAAGTCTCGCCTACCGATCCACCAATTACAGTAACCGTTACAAGCAACGAAAACATCGTCACCTTTGTTCCAGAAAATCCAGACGAAACACTTCCAAATTTAAATTGCTTCTTTGACGGTGAACGCTTCATACGGATTACTCCCCAAAATGCAAGAAATTACCTTTGGACTTGGATTTGGTGGAATTAA	MPITNRFSTTTNGALAITGNTLGLSKISNQNRAGTIGAIGAFVTTNTALQVPTFPAGTTLNYTQNSSTAILNIPAGSTILYAELIWGGNYLTRDQNITSVLGNPISFTTPVSTYSITPSAVTASNQTFVSNSITFGFYTRSADVTTLIQAGGSGSYTTGAVPGLVDPLDASNGSINSAGWTLIVAYQNGTLPARNLTIYVAGNRVSADTGSADVAVSGFLTPSGGPVSGRLFLSSIEGDADLIGDQALFGPNFSSLNALSGPNNAVNNFFGSQVNNAVGNLDTTGTFGTRNQSASTGTNISAGRQGWDITSIDISPYLTNSQVSAAIRLTTNGDAYMLNTVGLQININSPTIQATKSVNKSVAAIGDILTYTVTIPNTGLLPANNVTFTDILPNGTSFIPGTVTVDNVPQTNANPAAGISLGTINNGASRTVTFQATVVSLPSQNPISNTANITFQYTPIAGGTTFNGLATSNSAGTQINLADINGTKSVNKIFTDIGETLTYSIALANIGNIAATNVIYTDPIPGGTTFIPGSVTVNGVTQAGANPANGISIGSIAANSTTTISFQVLVPSIPQTNPILNSGTTTYQYIPVPNQPAVSGTDTTNIVSTQVNNATVTMVKAVDKNFADIGDTLTYTVSFTGTGNTNANNVIFTDVIPTGTTFVLNSLTIDGTTQVGANPANGVNIGSIPSGTTKNVTFQVVVNTIPASNVVSNGSSASYQYTVNPIQSPVTKNISSNLVSTQINNANVTLTKSTNKQFATIGETIGYTILITNSGNTAANNVQLTDPLPNGTILTLGSVTLNGVLQNVDSLVALPIGTIPAGATFTLSFQVTVINITSQNPILNNAFASYIYTVNPSLPPTSKTANSNSVTSTIRLANLHANKSVDKTFAEVGDVLTYTFALTNDGNVAANNVLLSDSIANGTSFVPNSVIVNGVTQPGITPASINIGSINANTTITASFQVVITSIPNPNPISNSAFVSYNFIVDPNASPVNKNTTSTTTFTQVNDANVISAKTVDQAFATVGDILTYTVTLTNAGSVSADSPTFVDTNPDGTTFIPNTFLINGVLQNNADPNIGVPLPSIPANGSLTVSYQVTVTSLPTQNPTINSSSTQYSFILNPGDPPTIEISVSNTVSTQINLANVVIVKEVDLTIADVGQPITYTISLANLGNTTANNVIVTDIIPNGTTIVPNSIFIGGALQLGADPSTGLQVGSIPSGGFTTIVFQISANGLPSPNPIQNSASLQYSFIADPNLPALVRNAASNIVTTQINTANIIATKLTSTNFADVGDIILYATILTNNGNIPAANVTFTDIIPAGTLFIPNTVTINNVPIANANPANGISIGTIGANSSRTVAFQVFVPTIPAVNPITNQSGTTFQYTYDPSKPAVMQMVASNTVQTTIDNASIAATKSADKQFANVNDIITYTTTLTNNGNTLASNVIFTDVIPNGTSFIPNSVTVNGNALPNVNPASGIAIDPIDPNTNTIISFQVQVNSIPNPNPIPNQSNTTYQYVIDPNLPPASANALSNVITTQINNATIIATKSVNTPNAAIGDIVTYTIAVTNTGNIPASATVLTDGLGPGASFIPNSVTINNVSQPGLDPSLGIHLDDISPGNTTFITFQVKILAIPPSGTLTNNALVNYEYAVNPAETPAIGSTVTNTTVTPIIDATLVINKSASTTFATIGDTITFTSSVTNTGNTTANNIVFTDTIPNGTTLVPNSFKINGVTVPNANPQNGINIGNLNSNASVTLSFQVNITTLPNPNPIPNKSSLQYSFIVDINEPPVSRTVQSNTTFTQVNSASVIATKTASSAFAAVGDTITYTTTLTNSGNTTANTPVFIDILPPELSFVPDSVQINTIPQLGFRPDSGISLDSIPVGGTTTISFQAIVGSIPATNPTLNQSSTTYLIIVDPTQPPVTETATSNPTLVQINEAIIQATKSVDRLFSDVAPGNSFLTYTVLLENVGNTTATNIIFTDPIPNNTIFIEDSVRVGGVLLPGVNPANGIPIGDIIAGDFTNVTFRVQVVSIPNPIFTIGPGGPNSPVVNSASIDYQFITGPNLPLVSRSTTSNPVATQINSGEIVAIKSVDKTFATIGDTISYTITLSNPGNVTSQNIIFTDILPDGTTFISGTLTNDSGTQQIGNPASGIQIGNINPNGTAVISLNVLVTNIPSINPISNFSSIQFEHVIDPSQPSALQTAVSNTVSTTINSAVLTTTKSVDKSIISVGDTLTYTTTITNTGNTPATNITFTSAIPPSTTFVPDSVTINGIQQLGAQPALGVNIPNIAPGETVTVTFQVNVISVPPSSSIMGNDTILYSYTVDPNGTPATTSTSTNIVTNPVLDAMIMMIKSVDQTLVTLGDTITYATILTNNGNTNATNITFTDLIPDGTTFITDSVTIDGITQIGLNPNTGITIGAIAPNSSISIAFQVTATSTPVQNPIANSASASYTFIADPNAPIVSRNVTSNTVFTTINTATILSLKQVDKSFSRIGDTLTYTVALTNNGNSSAQNVIFTDTMPSGTTFIANTFSINGVPQSGADPSNGVNIGTITAGTTVTVSFQVTVTSLPTENPIVNFSSTSYQLVSPPDAETSISNPVSTQIKEAILSMTKNESVSFADIGQTAFYTTSITNVGNTDATNIVFTDVLPSGLTFVPNTLTVNGVLQPNANPNTGVLLATLPPNEIYSIVFQVTVNSIPPSNPAPNTASTTYEFTVDPSNPPVSSTATSNTTLLQINNATIISTKTADLTFADVGNTITFTLNLPNTGNTLASNVTIIDILDSNLSFVPNSFTVNGQTIPNADLSTGVNIGSINGGNAAIVTFQATVITLPTLNPISNSASITYHYVVDPSQPPITTSNQSNTTTTQINSATLTAQKNSNVSTVDIGQDITYTVTITNSGNVSATNVIFTDLIPDGTSFEPNSFTLNGTSIPNANIITGVPIGDIAPNESVIVAFHINANEIPPINPITNQASVSFQYIVNPANPPVSKNITSNSVSTQIESAILNTIKIGDKAFATIGDTITYTTTITNTGNIPANNVVFSDPIPSWTQFVAGSVVVDGTPLTSASIIDGVGINTITPNQIVTIVFQVQIVSNPTTLTPELQNLGFVNFQYNVGNALQAQPGNVETNVFVTSINSAILSAVKTTNTAFANIGDTITYTVLIQNNGNTNATNVNFSDMVPAGTTFVENSFTVNGSSLPGANPNNGVNIGTVNTGSSLTVTFQVIVTSTPPSNPITNVASIQYAFIVDPASPPVTSTINSNSASTQINNATVTTVLQANRTIVSIGDVITYTATLTNTGNFPANSVLLINGIPEGALFVPNSVTLNGVSLPDASPTLGIPVGIIAPGDSATITFQFLASSIPPQGAIINQAITSYTYIVNPSQPPVTATSSSNTVNTAVVDASLSAIKNTDSLVQSTDGTITYTVVVQNNGNTTANTVTLTDLVPEGTAFIPNSVTINNVSVPGADPNVGIPLNSIAPSEIVTVTFQVIVQSIPSVNPISNTARIDYTFIADPTAPIISRTITSNPAFTQISDATILSLKAVNAQQATTGDILTYTITLENTGNIPTTNLTFSDTIPQGTTFVENSFTLNGTAILDANPNVGVTLPNLAANATHLISFQILINDSFSQESITNQSNTTYTIQPDPGQPPITETSTSNIVITNFVQAQLTITKTSNPTTVDIGGTILYISEVKNIGNVDAININFTDSIPAGTTFVPDSVTINGILQPGVNPENGIPIGTIPANSSKTILFQVQTNNPPTETEIVNQSSATYQYVSIPAAPPVNRSANSNIVTTSLQNANIISVKSADVTFVSIGQIITYTNTLQNIGSVPANNTVFIDNIPEGTIFIEDSLAINNVIQPGANPENGVTLGTIQPNETVTISFQLQLTNIPEGNTVINISDTSYEYQIDPSSPIIQRRSLSNAVNTEVRTANVSAIKSANRSITRIGQIITYTVAVTNAGTVPITNTLLIDAIAAGTTFVLNSILVDGIPRPNENPITGINLDIILPNNTIIVTFQVSVVSIPPQNNINNIAVIHYEYEPDPSAPPISETTSSNSTNIQFIDAILIATKSANTVLANIDETIEYTVFIQNNGSTTTNSIFFTDTIADGTVFIPGSVIVNNTVLPAADPNIGFSIPNVAAGQIATITFQVSVTNLPVVNPAPNTANIVYDFIFNPDFAPIQKSTTSNTTFVQINDADIVSLKTVDLTSVTIGDILTYTTTLTNTGNTDATAVVFTDNIPDGTTFIDGSVLVNNIPQLNANPSAGILVGTITPNTSIPVTFSVTVVALPASGHVQNQSTSRYTINAEEQISTSNITFTEVISANVIATKTTPIQYADLQTIIPYTISIINNGNIQVENIIVTDIIPANTSFIENSVIVNGNARPNDNPLNGIQIDNIPPNTTATILFQVRVTSIPQTNPISNTSTIEYEYTVPDRPPITETIISSAAATEINHANLNSNKAVDLAFATVGDTLTYTITLNQTGNVATNDVNIQDIIPQGTTFIENSVIVNGEALPGVNPVSGIPIGTIIVGGDAIVSFQVTVTSIPTPNELNNNAITTFNYIVNPNNVPVTNTTTTNTVTTTVQNDNVIAIKSVDVTNALPGQTLTYTITITNSGNVTIEDLLAIDTVPIDTTFVADSVTINGINQPNENPENGITLGNLAPNESVIITFQVTISSSTLQSTINNDASVSYTVIIDPTKPPITITKQTNTVTTTVIDPMVRIEKTTDKSIVVIGDIITFTLAVFNHSPIPTISTSVIDSIPAGTTFIENSVTINGTSVQNVRPDTGINIGSLSADTVATITFQVLVTSIPSNSTIINSATVTAAFQLTPQDPIITFIVNSNIVRIPVQFVTATVTKNASVSSAYLNQYFDYTVRITNTSEISLSNISLQDTIPAGLQFINGTVFINGERSPLANPNIGFLVATNLEPNETIIVLFTVQVISPPINNQFKNTANISLQLQVSPTDPPITVTVTSNENIVTFVPENPDETLPNLNCFFDGERFIRITPQNARNYLWTWIWWN				NA	NA	NA	NA	NA
AK009_00336	861			hypothetical protein	ATGATTGAATTGGAAATTAGGGTGGAGCGTCTTAGGAAAGAACAAATAGGCGATATTGTAGCGTTATCTTCTTATATTGGCTGGGATTATAACAGAGAAGAAATTGAAGCAGTTTTTAACTCAGGTATTGTATACGGCGTCTGGAATGAGAGAAAGGAACTTATTGCTAGCGCAGCAATTATATTATACGGGGAGGCGTTGGCATCTATTGGAATGGTAATTGTACATCCAGATTATAAGGGGAGAGGGATTGGAAAGATGATAACGAATTCATGCATGAATAGCGTATCAGCTCAAACTCCATGTATGCTTATTGCTACGGATGAAGGGAAGCCCTTATATGAAACATTAGGATTTAGGGTAGTAAGCTATGTTTCTAAATATATTTGTAACTCGTACAATGCGAATCATAAATGTGCAGAAAATGAAGAATATATGATGGTTTATAAAGAGAGTGATTTAGAAGGAATAATAAAAATAGATAAAGGCGCATTTGGGACAAGCCGAAACGAGTTTTTAAAACAAAGAATTATGCAAAGTGAGCAGTGTGTCGTTGTAAAGGATACGAAAGAAAATGTAGTAGGATACGGTATAAGTATACAAACGCCAGAAAATAAAATAATAGGACCAGTCGTTGCTAAAAATAATGCGATGGCGATGAGAATAGTACATGATTTAGCAAGAGGGCATAATGGAAAATTAAGAATGGATGTACCAGAAGGAAAGAACGATTTCATGAAAGAATTAGAGATTGCTGGTTTTAAAAAGGTGAATACACCACCAATTATGATGAAAAATAGTAATCGGTTAATAAAGAGAAATAGTGAACTATATAGTATTGCAGCACAAATTTTTGGATAA	MIELEIRVERLRKEQIGDIVALSSYIGWDYNREEIEAVFNSGIVYGVWNERKELIASAAIILYGEALASIGMVIVHPDYKGRGIGKMITNSCMNSVSAQTPCMLIATDEGKPLYETLGFRVVSYVSKYICNSYNANHKCAENEEYMMVYKESDLEGIIKIDKGAFGTSRNEFLKQRIMQSEQCVVVKDTKENVVGYGISIQTPENKIIGPVVAKNNAMAMRIVHDLARGHNGKLRMDVPEGKNDFMKELEIAGFKKVNTPPIMMKNSNRLIKRNSELYSIAAQIFG				NA	NA	NA	NA	NA
AK009_00337	561			hypothetical protein	ATGAAACAAGCACTATTAATTATCGACGCTCAACAAGAATTAATTGATGGAAATGAGCAAGAAAATGAAGTTTTTCGTAAAACCGAGCTATTATCTACACTAAATACAGCCATGCAGAAAGCAATAGATTCCAATGCTCTTATTGTTTTCGTAAGAGATATCGATGTTGCTTCTGGCAGCGGAGAAGGATTTGAAGTACATAATCAAATTCAAGTACCTCAGTCTGCAATCTTTATTAATAAAGCAGCAACCAATTCATTCTACGGCACTTCTTTACTTGAACTTTTAAAAGAAGAGAAAATTGGCCATATCGTTATCGGTGGATGTAAAACAGAGCATTGTATCGACACCGCAGTTAGAACTGCGACTGTACAAGGATTTGATGTTACATTAATTAAAAACGGTCATTCCACAACTGATTCTAACGTATTATCTGCAGAGCAAATTATTGCTCATCACAATAAAACTTTACACGGTCATTATAACGTTGATCATTTTTCTATGGTGAGAGATATCGAGGAAGACCTCTTTCAGCCAACTCATGACCAATATCGTGATTAA	MKQALLIIDAQQELIDGNEQENEVFRKTELLSTLNTAMQKAIDSNALIVFVRDIDVASGSGEGFEVHNQIQVPQSAIFINKAATNSFYGTSLLELLKEEKIGHIVIGGCKTEHCIDTAVRTATVQGFDVTLIKNGHSTTDSNVLSAEQIIAHHNKTLHGHYNVDHFSMVRDIEEDLFQPTHDQYRD				NA	NA	NA	NA	NA
AK009_00338	261			hypothetical protein	ATGCAAACAGTAGAAGATTATCTTTCATTCTTACATACGAAAGGATTTAAATTATCAGAGGAAGCACAAGGGTTTATTATGTTCGGACAAGGATATACTGGTGCGTCTGATGGGATTGTGAACGCAGCAATAGAAGCGACAATTAAACATCAATTGCAGTTTGATGGTAGTTATTTCGTTGCGTTATTAGAACGATTGAAAGAGGAAGAAATTACAGATAAAAAAAGCGCTAAGGCTTTTATGCGGAAGTTACAAGCATAA	MQTVEDYLSFLHTKGFKLSEEAQGFIMFGQGYTGASDGIVNAAIEATIKHQLQFDGSYFVALLERLKEEEITDKKSAKAFMRKLQA				NA	NA	NA	NA	NA
AK009_00339	906			hypothetical protein	GTGAAAAAAGATTGGATTGCTCCTCTTGCTTTATTATTTGTCTCTTTTATTTGGGGAGCTACGTTTGTTGTCGTTCAAAATGCTATGTCTTTCGTTGGTCCATTTACCTTTAATGGTATTCGCTTTTTATTCGCTGGAATTATTTTATTATTCGTTCAAATGATTTTCTCAAAAAACACTTCAAAACAAGATATAAAACAGAGTAGCCTCGCTGGATTAATCGTTGGGTTCTTTTTATGTGTTGGCTATGTATTACAAACATTTGGCTTACTTTATACAACTTCTTCAAAAGCAGGTTTCTTAACAGGGCTTAGTATCGTTATGGTACCAATTTTGTCTTTTATCTTTTTAAAACAAAAAGCTACCATTTTTATCGTACTTGGTATTGCTGTAGCAACAGCAGGTTTATACTTATTAACAGCTGCTGATTCTTTCCAATTAAATATAGGAGATATACTTGTTCTCGGTTGTGCAATCGCTTTCGCTGCCCATATTCTTATTAACGGCTTCTTTTCTAAGAAAATATCACCTTTATTATTAAGCACATCTCAAGTATTAGCTGTTGGTATATTTTCTTCTATTTGCGCTTTCTTGTTTGAAGATTGGGAAAAATTATTTTCAGTATCACTATGGACGAATCAATCTTTTTTATTCGCACTCTTTCTAACTGCCCTGTTTGCAACATCTATTGCTTTTTTCATTCAAACATCGGCCCAAAAGCACACTTCTCCAACGAGAGTAGCAATTATTTTCGCAATGGAACCCGTTTTTGCTGCATTAACAGGCGTTCTCGTTGCAAATGAACAACTTTCTATTTCTGCTATTATCGGATGTCTATGTATTTTCCTGGGCATGATTTTTGTTGAATGGCCTTCCAAAACAAAAAAAGAAGCGCAGGCTGCGTGA	MKKDWIAPLALLFVSFIWGATFVVVQNAMSFVGPFTFNGIRFLFAGIILLFVQMIFSKNTSKQDIKQSSLAGLIVGFFLCVGYVLQTFGLLYTTSSKAGFLTGLSIVMVPILSFIFLKQKATIFIVLGIAVATAGLYLLTAADSFQLNIGDILVLGCAIAFAAHILINGFFSKKISPLLLSTSQVLAVGIFSSICAFLFEDWEKLFSVSLWTNQSFLFALFLTALFATSIAFFIQTSAQKHTSPTRVAIIFAMEPVFAALTGVLVANEQLSISAIIGCLCIFLGMIFVEWPSKTKKEAQAA				NA	NA	NA	NA	NA
AK009_00340	387	rnhA	COG0328	14.7 kDa ribonuclease H-like protein	TTGATTGAAGTATATATTGATGGTGCATCAAAAGGAAATCCTGGTCCTTCTGGTGCAGGAGTGTTTATTAAAGGCGTTCAACCACCTGTACAATTATCATTACCACTTGGAACAATGTCCAATCATGAAGCAGAATACCGCGCTTTACTTCTAGCATTAAAATATTGCATCGAGCATAATTATAGCACTGTCTCTTTTCGTACAGATTCCCAGCTTGTCGAACGGGCTGTTGAAAAGGAATACGCAAAAAATAAAATATTTGCACCTCTTTTAGATGAAGCACTACAGTACATAAAAAACTTCGATCTCTTTTTTATTAAGTGGATTCCAAGTAGTCAAAATAAAGTAGCTGATGAATTAGCTAGAAAAGCTATATTACAAAATTAA	MIEVYIDGASKGNPGPSGAGVFIKGVQPPVQLSLPLGTMSNHEAEYRALLLALKYCIEHNYSTVSFRTDSQLVERAVEKEYAKNKIFAPLLDEALQYIKNFDLFFIKWIPSSQNKVADELARKAILQN				NA	NA	NA	NA	NA
AK009_00341	873	lacX		Protein LacX, plasmid	ATGATAGCAACAATCCAAAATGAAAAAGTGATCGTTTCCATTTCTGACAAAGGTGCAGAATTACAAAGCGTTCGCTTAAAAGAAGACAACACAGAATATTTATGGCAAGGTGATTCTACATATTGGGGACGCCGTGCACCAATTTTGTTCCCAATTGTCGGCCGATTAGTAGATAATACATACTACGTAGACGGTAAACCATATTCATTAACACAACACGGTTTCGCTCGTGATCTTACTTTCTCTGTGAAAGAACAAAGTGAAACAAAGATTACTTATATCGTTACTAATAATGAAGAAACGTTAAAAAAATACCCATACGAATTCGAATTACTCATTTCTTATGAGCTAGAAGGACAAAGCGTTCATGTAACATATGAAGTAAACAATCCTACTTCTAAAGAGATGTTCTTCTCAATTGGGGCACATCCTGGATTCAACTTCCCTTTATTGGATGGTGAATCATTTACAGATTATCACTTATCGTTTAATGGTTCGGAACGCTTAGAAACAAGCGTATTAGAAGGACCTTACCTTTCAAACAAAAAGCAATTAATCGCTGAAAATACAACTGAATTGCCACTTACATATGATTTATTCAAAAATGATGCGCTTATTTTTGAAAATATGAATACGAATGAAATTTCGATTCGTTCTCATAAACATAATAAATTTGTAAAAGTAGAATTTGATGGCTTCCCATTTGTCGGCGTATGGACACCAGGGGATAACGCACCTTTCTTATGTATTGAACCTTGGTATGGAATCGCTGATGAAGTAAATCCAGCAAAAGATTTCAAGGACAAAAAGGGAATTCAATCTTTACAAGCGAATGAAACATTTACATGTCGTTACAGCATCACAATCGGATAA	MIATIQNEKVIVSISDKGAELQSVRLKEDNTEYLWQGDSTYWGRRAPILFPIVGRLVDNTYYVDGKPYSLTQHGFARDLTFSVKEQSETKITYIVTNNEETLKKYPYEFELLISYELEGQSVHVTYEVNNPTSKEMFFSIGAHPGFNFPLLDGESFTDYHLSFNGSERLETSVLEGPYLSNKKQLIAENTTELPLTYDLFKNDALIFENMNTNEISIRSHKHNKFVKVEFDGFPFVGVWTPGDNAPFLCIEPWYGIADEVNPAKDFKDKKGIQSLQANETFTCRYSITIG				NA	NA	NA	NA	NA
AK009_00343	486	queT	COG4708	Queuosine precursor transporter QueT	ATGAATATTAGAACTTTAGTCGGCAATGGTATTTTAGCGGCATTATATATTGCTGTTTCTATGCTTATTCAGCCATTTGGCTTTACGAATGTACAATTTCGTATTTCAGAGATGTTTAATCATCTCGTTGTATTTAACAAGAAAGCAATTTACGGAATTGTATTAGGTGTATTTTTAACGAATCTCTTTTTCTCACCTATGATCGCTTATGATTTAGTATTTGGAGTAGGGCAATCTATTCTTGCATTAGTTGCAACGATTATTTCTATGCGATTTATTAAAGGTGTTTGGGCTCGTATGATTTTTAATACGGTTATCTTTACGATTACAATGTTTATGATTGCAATTGAACTTCATCTTGCATTGGGTTTACCATTTATGTTGTCTTGGTTAACATGTGCAGTCGGTGAATTTGTTGTAATGGCCATTGGTATGCCTGTAATGTACTGGATTAATAAGCGAGTACAATTTGAAAGATTTATGTAA	MNIRTLVGNGILAALYIAVSMLIQPFGFTNVQFRISEMFNHLVVFNKKAIYGIVLGVFLTNLFFSPMIAYDLVFGVGQSILALVATIISMRFIKGVWARMIFNTVIFTITMFMIAIELHLALGLPFMLSWLTCAVGEFVVMAIGMPVMYWINKRVQFERFM				NA	NA	NA	NA	NA
AK009_00344	660			hypothetical protein	ATGAAATATAAAATTCATTGGTTGTATAAAACGAAGCGAGGATTGCAGACGGAATTAACAACAGATTATATGAACATAGAAGAAATACTTCAATTTGCAGAGGATTTTGAGAAAACAGGAAGAGCTAAGGAACTTTTATTTTACGATGAAATGGATGCAGAATGGTCATTAAAGGAAATGAAAAAACTGAGTAAACAAGTAGAGGAAGAGCCCCAAGAAATACTCGTTTATTTTGATGGGGGGTATGATGTGCAAACGAAAGAAGCTGGCGTTGGTATATGTGTGTACTATAAAAAAGGAAATACAAACTACCGCATTCGCCGCAATGCATATATAGAAGGTATAGATGATAATAATGAAGCGGAATATGCATCACTATTATACGGTATGAATATACTCGAGGAATTAGGGATTAAATATGAAGCAGTTACACTTCGCGGAGATTCTCAAGTTGTATTGCAGCAATTGGCGGGAGAATGGCCTTGTTATGATGAGCATTTAAACCATTATTTAGATCAAATTGAACAAAAGGCGAAGCAAATGAAATTAAAACTTGTATGTGATCCGATATCTAGAAAACAAAATAAAGAAGCACATCAATTAGCAACGCAAGCATTAGAAGGGACAGTCATTGATAGTCATAAAGAAATAACCGAATAG	MKYKIHWLYKTKRGLQTELTTDYMNIEEILQFAEDFEKTGRAKELLFYDEMDAEWSLKEMKKLSKQVEEEPQEILVYFDGGYDVQTKEAGVGICVYYKKGNTNYRIRRNAYIEGIDDNNEAEYASLLYGMNILEELGIKYEAVTLRGDSQVVLQQLAGEWPCYDEHLNHYLDQIEQKAKQMKLKLVCDPISRKQNKEAHQLATQALEGTVIDSHKEITE				NA	NA	NA	NA	NA
AK009_00345	177			hypothetical protein	GTGGATAAAAAGCAACTCATTACAGAGGTAAATGACTTATTAGAAACATATTGTGAAGGATGTTTCTTGCGAGAACATAATCGAAAGACAAATAGTAAATATTATGCACATTCATTTTGTATAAGACAATGTACAGTTGGAGAAACATTGAAAAAGTATGGAGAACAGTTGTCATAA	MDKKQLITEVNDLLETYCEGCFLREHNRKTNSKYYAHSFCIRQCTVGETLKKYGEQLS				NA	NA	NA	NA	NA
AK009_00346	249			hypothetical protein	ATGGGATCAGAAGTAAATGATTTTGAAGAAGTAAAATTCCGTGTAGAAACAGCACAAAAGATGGTAGGTTCTGCAACAATTTCAATGGATCCAGACACATTAGAGCATGCCACTACTGCAGTAGAAGCAGCTCGCTCACAGCTTGAAATTATGAAATCTGTTGCAGTAGATTTAGATGAACCATTTTTAATGAACGAGGAAAAGAAACTAAGCAAATGCGAGGAGCAATTAAACGAAGCAAAGCACTAA	MGSEVNDFEEVKFRVETAQKMVGSATISMDPDTLEHATTAVEAARSQLEIMKSVAVDLDEPFLMNEEKKLSKCEEQLNEAKH				NA	NA	NA	NA	NA
AK009_00347	198	cspD_1	COG1278	Cold shock protein CspD	ATGCAAGGAAAAGTAAAATGGTTTAACAACGAAAAAGGTTTTGGATTTATCGAAATGGAAGGCGCTGACGATGTATTCGTACATTTCTCTGCTATTCAAGGAGACGGCTACAAAGCTTTAGAAGAAGGTCAAGAAGTATCTTTCGACATTACTGAAGGTAACCGTGGACCTCAAGCTGCTAACGTAGTAAAACTTTAA	MQGKVKWFNNEKGFGFIEMEGADDVFVHFSAIQGDGYKALEEGQEVSFDITEGNRGPQAANVVKL	PGPT0014675_9851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_00348	729			hypothetical protein	ATGAATAGGTCGTACTTATTAGATAATGAAGGAATGAGAACGAGAACCGACATACCGGATTGGGTTGCAAAAGAATTTGAGATTTTTTCAAGTGTCGTGTTAGAACCAACTTTTCCATGTTATTTCGGTTTAACAGCTTTGAAAAAGAATGAACTTCGTTATTCATTTCTTTCTCATAATGATTGGAGTCATTTGCCGCATACAATGTTATCTTTTTTAGAGTTAATGAAAGAGAGGCCGATTGTAAGAAGGGGCTTTTTCCTTTTTGTAGAACCGGAATGTGAAGAACGATCACTCGAATATTACCGTGATTCCTTTTGGAAAGTGTTACAGTATTTACATGAAAACGATAATCAAGCATGGCCAAAGCAAATTCCTGAAGATCCAGACCATTATTTATGGGAATTTTCATTTTGTGGTGAGCCAATATTCGCATTTGGAAACGCGCCAGCTTATAAACAGCGAAAAACTAGACATTTAGGGAATTCTCTCGTTATTGGGTTTCAGCCACGCACTATTTTTGATGGATTAGAGGGGGATCGTCCTAAAGGAGCATATTCAAGACAAATGGTCCGTGAGCGAGTTGAAAAGTGGGATCAATTGCCGAAACATCCTAACATTAGTCATTATGGTGACCCAGAGCATCGTGAATGGAAACAATATTTTATAGGAGACGATGTAGAACCAATAAAAGGGAAATGTCCTTTTCTTCATAGGATAGAAAAGTAA	MNRSYLLDNEGMRTRTDIPDWVAKEFEIFSSVVLEPTFPCYFGLTALKKNELRYSFLSHNDWSHLPHTMLSFLELMKERPIVRRGFFLFVEPECEERSLEYYRDSFWKVLQYLHENDNQAWPKQIPEDPDHYLWEFSFCGEPIFAFGNAPAYKQRKTRHLGNSLVIGFQPRTIFDGLEGDRPKGAYSRQMVRERVEKWDQLPKHPNISHYGDPEHREWKQYFIGDDVEPIKGKCPFLHRIEK				NA	NA	NA	NA	NA
AK009_00349	744			hypothetical protein	ATGGCTCTTTTGTATATTTTGGATAAAAAAGGGTATTTTATTATGAAAGCTAGTCTATTTTTTCAAATTACATCATTAACTAGTAGTAAAGAGAGTAGAAAGGATAGAGCGATGATTGGAGCAATTATACAGCAAATCGTATTAGGTATTTCATTAGCTGCGCCAGTAGGGCCGATTAATATTGAAATGTTAAAACGAGGAATTGAACGTGGGTTTTGGCATGCTTGGGTTGTTGGAATTGGTGGAATGACTGCAGATGTTTTATTTATGCTTCTCATTTATTTCGGTTTATCTTCTGTGTTTATGTATACATATGTACAAGCCTTCATGTATTGCACGGGTTTTTTCTTGTTATTTTATTTAGGATTTCAAAGTGTAAAACAAGGAATTTCCCACTCAAACATGGAATATAAAAAAGAAGAGGTAGGTGGTCTTAAGCAATCGTTTATGGCAGGATTTTTAATTGCGATATCCAATCCATTAAATCTTGTTTTTTGGTTTGGTATATACGGAAGTACACTTAGCTCATTACTTACGAAGGTAACGAAACAAGAAGCTTTTTTGTACAGTCTTTGCATTATTGCAGGTATTATTTTATGGAATTTAAATATTGCTTTTTCTGTACATTTTGGAAGAACTTTATTAAAACCAAAAGCGCTTGGCTACATAACAGCCGGAGCAGGTATTATTTTAGTAGGTTACTCTATACATTTTGCATACAAAGCTTTACAGTTGTTCACATAA	MALLYILDKKGYFIMKASLFFQITSLTSSKESRKDRAMIGAIIQQIVLGISLAAPVGPINIEMLKRGIERGFWHAWVVGIGGMTADVLFMLLIYFGLSSVFMYTYVQAFMYCTGFFLLFYLGFQSVKQGISHSNMEYKKEEVGGLKQSFMAGFLIAISNPLNLVFWFGIYGSTLSSLLTKVTKQEAFLYSLCIIAGIILWNLNIAFSVHFGRTLLKPKALGYITAGAGIILVGYSIHFAYKALQLFT				NA	NA	NA	NA	NA
AK009_00350	294			hypothetical protein	ATGTATCGAACCACTATTGACGGAAAAGAAATTATAATTACGTTAGCGCCAAAAATTCGAAAAGAAATTACTGATAGAAATCCACTATATGAAGCAGTATTTCATAATGCTGCAAGATTGCTACAAACAAAGCAACCGACGTTTGCAGTAAATCATCAAATATTTGGTCTCATTATTGGAGAAGTGCAAAGAGGAGAAGTAACAGTGTTTGCAGTGGAACATATTATTCCAAAGCAAAATATATTTGGACCAAACAATTTTTTCTCGACAATAGAACAGCAGGCAAATTTGTAA	MYRTTIDGKEIIITLAPKIRKEITDRNPLYEAVFHNAARLLQTKQPTFAVNHQIFGLIIGEVQRGEVTVFAVEHIIPKQNIFGPNNFFSTIEQQANL				NA	NA	NA	NA	NA
AK009_00351	630			hypothetical protein	ATGAAGAAAGTGGGGAAAGAGTTCTTTTTACAATATGATATCGTCATTATGTATAGCATTCTATTTATTTTCATTATTATTTTAAAAATGCAATTTTTAACGTGGTTTGGCATGTTAGCATGTATGTTTGGAATTGTTTTCTATACACTGAATGAATATATGACACATCGTTTTTTATTCCATATAAAGCCACCTAAAAACACATTTCTATTAAAAATGTTAAGAAGATTACATTATGATCACCACGTATATCCAGATGATTTAAAACTTTTGTTTTTACCTGTATGGTTTAGTATACCTAGTTTTACTATATATTTACTTATAGCATATGGTATTACAAAAAGTCTTACTATTACACTTTCATTTGGAATCGGAATGATTATTATGCTGCTCGTTTACGAATGGAAACATTATATTGCCCATAGACCGATTCGTCCCGTCACTAAGTTTGGAAGATGGCTAAAAAAACAACATATATTACACCATTATAAAAACGAAAAGTTTTGGTTCGGTGTTTCAAATCCAGTATTCGATTTTATATTTGGAACACTTAAAGACGGAAAAGAGGTTGAGTTAAGCGAAACAGCTCGTAATTTAGAAAAGGAAAAAAAGACAAAAGTAGTGCGTTAA	MKKVGKEFFLQYDIVIMYSILFIFIIILKMQFLTWFGMLACMFGIVFYTLNEYMTHRFLFHIKPPKNTFLLKMLRRLHYDHHVYPDDLKLLFLPVWFSIPSFTIYLLIAYGITKSLTITLSFGIGMIIMLLVYEWKHYIAHRPIRPVTKFGRWLKKQHILHHYKNEKFWFGVSNPVFDFIFGTLKDGKEVELSETARNLEKEKKTKVVR				NA	NA	NA	NA	NA
AK009_00352	342			hypothetical protein	ATGAAACGAGATGATACGTCAGCACGTAAGTTGCAAAATGAGGTGAATTATACAGAGGTCGTTCAGTCGGAAGAATTTCAATTGTTATTAAATACGAAAAAGAAGTTTATCATTCCAATGAGTATTTTCTTTTTTAGTTTTTTTATCGCATTACCTATTTTAACATCGTATTCAAAGGTGCTCAATACACCTGCATTTGGTGACGTTACATGGGCGTGGGTATTTGCTTTTTCCCAATTTATCATGACATGGGCACTATGTATGATTTATAGCAAAAAAGCAGAATCATTTGATGAAATCTCCCGAAAAATTCTGCAAGATATGCAAAAAGGGAGGGGCTGA	MKRDDTSARKLQNEVNYTEVVQSEEFQLLLNTKKKFIIPMSIFFFSFFIALPILTSYSKVLNTPAFGDVTWAWVFAFSQFIMTWALCMIYSKKAESFDEISRKILQDMQKGRG				NA	NA	NA	NA	NA
AK009_00353	1551	actP	COG4147	Cation/acetate symporter ActP	TTGAATACTACTGCGTTTGCACTATTTTTAATTATTGTTCTTGGTACGCTTGTCATAACCTATTTTGCATCGAAAAAAACGAAAAATGCGAGTGAATTTTATACGGCTGGAGGGGGATTAACTGGTTGGCAAAATGGTCTGGCCATTGCTGGAGATTATATGTCTGCTGCTTCATTTCTTGGTATAGCCGGAGCAATCGCATTAACTGGGTTTGATGGATTCTTTTATAGTATCGGTTTTTTAGTTGCTTATTTAGTTGTACTATATCTTGTTGCAGAACCGCTTAGAAATTTAGGAAAGTACACTTTGGCGGATATGATTGCAGCACGCTTTGATGCGAAAAAAGTTCGCGGAGTCGCAGCTCTTAATACGATGACGATTTCTATCTTTTATATGATTGCACAATTAGTTGGCGCGGGTGCACTTATTAAATTATTATTAGGAATTGAATATACGACATCTGTATTAATCGTTGGAACACTTATGACGGTGTATGTTATTTTTGGTGGTATGACAGCAACGAGCTGGGTACAAATTGTAAAGGCTGTATTACTTATGGCTGGTACGTTTATTATTTCTGTTATCGTTTTCGCAAAATTCAACTTCAGCGTGACTGAAATGTTCGCTCAAATGAAAACAGCTACACCATTAAAAGATTCATTTTTAAATCCAGGTGTAAAGTATAAGGATGGTCTTGATACACTTTCTTTAAATTTAGGACTAGTACTTGGTACAGCTGGATTACCACATATACTTGTCCGCTTTTTTACAGTACGTGATGCAAAAACTGCACGTCAATCTGTCGTATATGCGACGTGGTTAATTGGTGCATTTTATATTATGACGATTTTCTTAGGATTTGGTGCGGCGGCTTTTGTAGGAAATGAAGCGATTATTAAAGCGAACCCAGCTGGTAATATGGCGGCACCTTTATTAGCAAAAGCGTTAGGTGGAGATTTCTTATTTGCTTTCGTATCAGCAATTGCTTTTGCAACAATTTTGGCTGTAGTGGCAGGTCTCGTATTAACGGCAGCATCAGCATTCGCTCATGATTTTTATAATGAGATCATTCGCAAAGGGAAATCAACAGAAAAAGAGCAAGTATCTATGGCTCGGTATGCATCTATTGGCGTAGCGATACTATCTATCATACTTGCATTATTTGCCCAAACATTAAACGTAGCATTTTTAGTATCATTAGCATTTGCAGTTGCAGCGAGTGCAAATCTACCAGTGATTTTATTTACAATATATTGGAAGCGTTTTAATACAACGGGTGCTATTTCCGGTATGATTGTAGGGCTCGTATCAGCAATTGTTCTCGTAGCGTTGAGTCCGAATGTTTGGAACCCTGTAGCTGGAAAAGCTATTTTTGTTGGGGAAGCGATATTCCCATATACGACACCAGGAATTATTTCAATTCCGCTCGGATTTCTTGCAGCATATTTAGGAACTGTTTTATCTAGTAAGAAAGAAGATGCAGCGAAATTTGATGAAATTCTTGTGAAATCTAATACTGGTCACGGTATTAGTGATGCGTCTTCACATTAA	MNTTAFALFLIIVLGTLVITYFASKKTKNASEFYTAGGGLTGWQNGLAIAGDYMSAASFLGIAGAIALTGFDGFFYSIGFLVAYLVVLYLVAEPLRNLGKYTLADMIAARFDAKKVRGVAALNTMTISIFYMIAQLVGAGALIKLLLGIEYTTSVLIVGTLMTVYVIFGGMTATSWVQIVKAVLLMAGTFIISVIVFAKFNFSVTEMFAQMKTATPLKDSFLNPGVKYKDGLDTLSLNLGLVLGTAGLPHILVRFFTVRDAKTARQSVVYATWLIGAFYIMTIFLGFGAAAFVGNEAIIKANPAGNMAAPLLAKALGGDFLFAFVSAIAFATILAVVAGLVLTAASAFAHDFYNEIIRKGKSTEKEQVSMARYASIGVAILSIILALFAQTLNVAFLVSLAFAVAASANLPVILFTIYWKRFNTTGAISGMIVGLVSAIVLVALSPNVWNPVAGKAIFVGEAIFPYTTPGIISIPLGFLAAYLGTVLSSKKEDAAKFDEILVKSNTGHGISDASSH	PGPT0001400_3105	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
AK009_00354	1350	tpa	COG0161	Taurine--pyruvate aminotransferase	ATGAAAACGAAGCAAACTGATGAATTATTAGCAAAAGATGAGCAATATGTTTGGCACGGAATGCGTCCCTTTAGTCCAAATAGTACAATGGTAGGGGCAAAAGCTGAAGGGTGCTGGGTTGAAGATATACAAGGAAAAAGATATTTAGATGGTATGAGTGGTCTTTGGTGTGTGAATAGTGGATATGGAAGAAAGGAGCTCGCAGAAGCGGCTTATAAGCAATTACAAACATTATCATACTTTCCGATGTCACAATCTCATGAACCAGCTATAAAGCTTGCTGAAAAGTTAAATGAGTGGCTTGGGGGAGAGTATGTTATTTTCTTCTCAAATAGTGGTTCAGAAGCGAACGAAACAGCTTTTAAAATAGCAAGGCAATACTATGCGCAAAAAGGTGAACCACATCGTTATAAATTTATGTCACGTTATCGTGGGTATCACGGGAATACAATGGCGACAATGGCAGCGACGGGACAAGCGCAGCGTAGATATCAATATGAGCCGTTTGCTTCAGGCTTTTTACACGTAACACCACCGGATTGTTACCGTATGCCTGGGATTGAAGGGCAGCATATTTATGATGTAGAATGTGTGAAAGAAGTCGATCGTGTTATGACGTGGGAATTAAGTGAAACAATTGCCGCTTTTATTATGGAACCAATTATTACAGGTGGGGGCATTTTAATGCCACCACAAGACTATATGAAAGCTGTTCATGAGACGTGTCAAAAACACGGTGCCTTGCTTATTAGTGATGAAGTGATTTGCGGCTTCGGTCGTACAGGAAAAGCATTTGGATTTATGAATTATGATGTGAAGCCAGATATTATTACGATGGCAAAAGGCATTACGAGCGCATATTTACCATTATCTGCAACAGCTGTGAAAAAAGAAATATATGAAGCATTTAAAGGGAAGGGAGAGTATGAATTCTTCCGACATATTAATACATTTGGTGGAAATCCAGCAGCTTGTGCATTAGCACTTAAAAACTTAGAGATTATGGAAAATGAAAATTTAATCGAGCGATCTGCGCAAATGGGTTCCCTTTTATTAGAGCAACTAAAAGATGAAATTGGAGAACATCCGCTTGTTGGGAATATTAGAGGAAAAGGTCTATTAGTTGGAATCGAACTAGTAAATGATAAAGAGACGAAAGAGCCAATTGATAACGACAAAATTGCAAGTGTCGTAAATGCTTGTAAAGAAAAGGGCTTAATTATAGGACGCAACGGTATGACAACAGCAGGATATAATAACGTCTTAACATTAGCACCGCCGCTTATTATTTCAAGTGAAGAAATTGCCTTTGTTGTTGGAACGTTGAAGACGGCGATGGAACGTATTTAA	MKTKQTDELLAKDEQYVWHGMRPFSPNSTMVGAKAEGCWVEDIQGKRYLDGMSGLWCVNSGYGRKELAEAAYKQLQTLSYFPMSQSHEPAIKLAEKLNEWLGGEYVIFFSNSGSEANETAFKIARQYYAQKGEPHRYKFMSRYRGYHGNTMATMAATGQAQRRYQYEPFASGFLHVTPPDCYRMPGIEGQHIYDVECVKEVDRVMTWELSETIAAFIMEPIITGGGILMPPQDYMKAVHETCQKHGALLISDEVICGFGRTGKAFGFMNYDVKPDIITMAKGITSAYLPLSATAVKKEIYEAFKGKGEYEFFRHINTFGGNPAACALALKNLEIMENENLIERSAQMGSLLLEQLKDEIGEHPLVGNIRGKGLLVGIELVNDKETKEPIDNDKIASVVNACKEKGLIIGRNGMTTAGYNNVLTLAPPLIISSEEIAFVVGTLKTAMERI	PGPT0001925_259	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
AK009_00355	279			hypothetical protein	ATGGAGAAATATGATCCGAACAAACATTATCACATCGGATATTATGAAGATGGATATGATTTAGAAGTGACGGCGTACAAAAGAATAAATGAACCAGTTTGGGATGCTTATCTTCCGCACTATGAGGTAGACGGTTTTTATAAGAAAGTGGAGGAAATGAAACTAGGCGAATATATAGATGATTATGGCATTAAGGTGTATTCATTTAGTAATGATATCGATGATGAAGAAGCACGAATTATTTTTGAAAAATGGTTAAAAAAGAACGAGATTGTTTAA	MEKYDPNKHYHIGYYEDGYDLEVTAYKRINEPVWDAYLPHYEVDGFYKKVEEMKLGEYIDDYGIKVYSFSNDIDDEEARIIFEKWLKKNEIV				NA	NA	NA	NA	NA
AK009_00356	1164	gerN_1	COG0475	Na(+)/H(+)-K(+) antiporter GerN	ATGGAATTCGAATTTTTCTTTCAAATTGCACTTATTTTATTAAGTACAAAGCTTGCTGGTGATCTTAGTGTTAGATTAGGTCAACCTTCTGTGCTAGGTAAATTAATTGTCGGTATCGTTATCGGCCCAGCTATATTAGGTTGGATTGAAAATTCAGAGCTTCTAACTCAATTAAGTAATGTCGGTGTTATTCTTTTAATGTTTATGGCAGGACTTGAAACAGACTTAGATGAATTAAACGCAAATCGCAATTCTTCTTTAGCAGTTGCACTCGGGGGTATCATTCTTCCATTCGTAGGTGGTTACGTTTCCGGTCTTGTTATGGGAATGGAACAAGGAAACGCTGTATTCTTAGGGTTACTTCTATGTGCGACAAGTGTTAGTATTTCCGTACAAACACTTCGTGATTTAGGTAAAATGAAAACACGTGAAAGTACGACGATGCTTGGAGCCGCTGTATTTGATGACATTCTTGTTGTTATTTTATTAGCATTCGCAATGAGCTTCTTAGGCACAGATGATGTTAACTTAACAATGGTTATCTTGAAGAAAGTAGTATTCTTCGCTTCTATTATTTTAATCGGATGGAAAGGTGTACCAGTGATTATGCGCTGGTTATCACCACTACGCGTATCTGAGTCTATCGTGAGCGCAGCTCTTATCATCTGTTTCTCATTCGCATATTTCGGCGAATTATTAGGAATTGCTGGTATTATCGGTGCTTTCGCTGCTGGTATTGCAATTTCTCAAACAAACTACAAACATGAAGTAGAAAAGAAAGTAGAACCAATTGCTTACGCTATGTTCGTTCCAGTATTCTTCGTTAGTATCGGTATGAATATTACATTTGACGGTATTGGCAATCAAATTTGGTTCATCCTAGCATTAACAGTAATCGCTGTATTAACAAAACTAATTGGTTGTGGTGTTGGTGCACGCATGACTGGATTTGATGCAAAGTCTTCTGCAATTATCGGTTCTGGTATGGTTTCTCGTGGTGAAGTTGCACTTATCATCGCAGGAACAGGACTCTCTTCAGGTCTATTAGCACAAGATTACTTTACAGCAATCGTTATTGTCGTTATTTTAACTACAATGATTACACCACCAATGTTAAAATACACTTTTGGTGCTAAAGATAAAGCAATGAATGAAAGCAAGTAA	MEFEFFFQIALILLSTKLAGDLSVRLGQPSVLGKLIVGIVIGPAILGWIENSELLTQLSNVGVILLMFMAGLETDLDELNANRNSSLAVALGGIILPFVGGYVSGLVMGMEQGNAVFLGLLLCATSVSISVQTLRDLGKMKTRESTTMLGAAVFDDILVVILLAFAMSFLGTDDVNLTMVILKKVVFFASIILIGWKGVPVIMRWLSPLRVSESIVSAALIICFSFAYFGELLGIAGIIGAFAAGIAISQTNYKHEVEKKVEPIAYAMFVPVFFVSIGMNITFDGIGNQIWFILALTVIAVLTKLIGCGVGARMTGFDAKSSAIIGSGMVSRGEVALIIAGTGLSSGLLAQDYFTAIVIVVILTTMITPPMLKYTFGAKDKAMNESK				NA	NA	NA	NA	NA
AK009_00357	414	rnjA_1	COG0595	Ribonuclease J1	TTGAATTCATTAAAAAATAACTTGTCTATTGTTGCTTTAGGTGGAGTAAATGAAATAGGAAAAAATATGTATGCTATCCAATATGAAAATGATATTGTCGTCATTGATTGTGGGTCTAAATTTCCAGATGAAAGTTTATTAGGGATTGATTTAATAATTCCAGACGTCACATATTTACAAGAAAATAAAGAAAAAATTCGCGGTTTAGTAGTAACGCACGGGCATGAGGACCATATTGGCGGAATACCATATTTTTTAAAACAACTAAATGTACCAATCTATGCAACAAAGTTAACGTTAGGTTTAATTGAAATTAAATTAAAGGAACACAATCTTCAAAATGATACGGAATTAATCGTTATTCATTCAGAATCAGAAATTGATTGTGGTTCTATTAAGGCAACCTTTTTTTAA	MNSLKNNLSIVALGGVNEIGKNMYAIQYENDIVVIDCGSKFPDESLLGIDLIIPDVTYLQENKEKIRGLVVTHGHEDHIGGIPYFLKQLNVPIYATKLTLGLIEIKLKEHNLQNDTELIVIHSESEIDCGSIKATFF	PGPT0001770_8777	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK009_00358	1134	rnjA_2	COG0595	Ribonuclease J1	ATGGCTAAAATAGGAAGTGAAGGTGTACTAGCTTTATTATCTGAAAGCACAAATGCAGAACGCCCAGGTTTTACTCCATCAGAAAGGTCAGTAGGAGAACGGATAGAGGAAATATTTATGAAAGCAAATAGAAAAGTAATTATTTCTACGTTTGCTTCTAATGTGAATCGTGTTCAGCAAATAGTTGAAGCATGTATAAAAACAAATCGAAAATTGGCTTTGCTCGGGAGAAGTATGGTAAATGTAGTAGAAGTTGCTCTAGAGAAAGGATATTTACATATTCCAGACGGCATGTTAATTGAAGCAAATGAGGTAAATCGTTTAGATCCAAAGCAGGTTGCATTACTTTGTACAGGAAGTCAAGGAGAACCAATGGCAGCTTTAGCGCGTTTAGCTAGTGGAAACTATAGACAAGTGGATATTTTACCAGAAGATACGGTTATTATAGCCGCGACCCCTATCCCAGGAAATGAACGTAATGTTTCTCGAATTATCGATAATTTATTTGCATTAGGAGCAAAGGTGATTTACGGATCAGGTAGTTCTACTGGAGTGCATGTATCCGGTCATGCATATCAAGAAGAGTTGAAGTTAATGCTTACATTAATGAAGCCAAAATATTTTATTCCAATTCATGGAGAGTTTAGAATGCTACATCACCATAGTTTGTTAGCAGAATCAATTGGTATTGAAAAGGAAAATATCTTTATCGTACGTAATGGAGATGTTGTAGATATAAGTAATGAAGTGGCAATTCAATCTAGAAGAATACAGGCAGGAAATATATATGTAGATGGATTAGGAATTGGAGATGTTGGAAATGCATTATTACGTGATCGTAAACAACTTTCAGAAGATGGAATGCTCGTTATAGTTATTACTTTTAATAAAGTGGATGGAGAAATAATTTCAGGTCCTGATATTATTTCTCGTGGATTTGTCTATGTTCGTGATTCAGAAGAATTTTTAAGAGAATTAAATAAATTAGCTGTTATTACAATTAATAATTTAAAGAAAGAGAATGTGAATAGCTGGGGTATTTTGAAAAGGGAGGTAAGAGAAGCGTTAGGGAGGTATATATATACAAATACAAAACGAAAGCCGATGATTCTTCCTATAATAATAGAGGTTTAA	MAKIGSEGVLALLSESTNAERPGFTPSERSVGERIEEIFMKANRKVIISTFASNVNRVQQIVEACIKTNRKLALLGRSMVNVVEVALEKGYLHIPDGMLIEANEVNRLDPKQVALLCTGSQGEPMAALARLASGNYRQVDILPEDTVIIAATPIPGNERNVSRIIDNLFALGAKVIYGSGSSTGVHVSGHAYQEELKLMLTLMKPKYFIPIHGEFRMLHHHSLLAESIGIEKENIFIVRNGDVVDISNEVAIQSRRIQAGNIYVDGLGIGDVGNALLRDRKQLSEDGMLVIVITFNKVDGEIISGPDIISRGFVYVRDSEEFLRELNKLAVITINNLKKENVNSWGILKREVREALGRYIYTNTKRKPMILPIIIEV				NA	NA	NA	NA	NA
AK009_00359	831			hypothetical protein	ATGTTATTAAATAAACGCTTTACAATTGGAGAAATGGCAAAAATGCATAATATAGCGGAATCAACTTTACGCTATTATGATGAGAAGGGAATTTTTCATCCGTCCACTGTGGACCCGCAAACAAATTATCGTTATTACACAATCGATCAATTTTCACTATTAGATACGATTAAATTTTTACGCCAGTTAAATATTCCGTTAAAGGAAATTAAGAAATATATTGATGAAAGAAATCCAGCATACGCACTCAATTTACTGGAAAAACAACAAGAAATGATGTTGAAAAAACAAAGAGAAATTGAGTATGCTTTGGCGAAAATGGAGCATAGAATTCATTTAATTAAGGAAGCAACAAAAGCAAAAGCTGAACAAATGGTAATTAAAGAGATCCCGCAGCGGAAAATTACAGCAATTGCGGTTGCCCCGAATACGACGGATGATATGTTTGAGTACTACATCCATTCGTTGCAAAAAAATATGAGGCAAATGGATGATAGTTTATTTTCTGGAGATATTGGTGTAACTGTTGCGAAAAAAGGATTAATGCAAAATGAGTTTCAAGCATATAGCAGTGTATTTATTCTTTTGGATTATATGCCGTATGAAGTGCATACTTCAGATGAAATTAAAGAAGGTTTATATGCTTGTTCTTATCATCATGGACCATATGAAGAAACAGATGCAACGTACAAGGAGTTACTTACATACATTGATAAAGAAGGTTACGAAGTACATGGAGATTCGATTGAGATTGGATTGATTGATTGGTCTGTAACAGAAGATCCTGAGGAGCAAGTAACAGAAATTCAAATTCCTATAATGAAAAAATAA	MLLNKRFTIGEMAKMHNIAESTLRYYDEKGIFHPSTVDPQTNYRYYTIDQFSLLDTIKFLRQLNIPLKEIKKYIDERNPAYALNLLEKQQEMMLKKQREIEYALAKMEHRIHLIKEATKAKAEQMVIKEIPQRKITAIAVAPNTTDDMFEYYIHSLQKNMRQMDDSLFSGDIGVTVAKKGLMQNEFQAYSSVFILLDYMPYEVHTSDEIKEGLYACSYHHGPYEETDATYKELLTYIDKEGYEVHGDSIEIGLIDWSVTEDPEEQVTEIQIPIMKK	PGPT0003907_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA	NA	NA
AK009_00360	1356	mepA_1		Multidrug export protein MepA	ATGGAAGCAACAGAAAAATTAAGAGAAAAACCAATTAAAAGTTTATTTATTTCTTATTTAATACCAGCCGTCCTCGGAATGGTATTAATGTCAGTGAATATTGTAATTGATGCGGTTATGATTAGTAGAGGAGTTGGGGCGAACGGTTTAGCAGGAGTGAACGTGGCTATTCCAGCCTTTTCGATTTTCTTCTCTATTTCATTATGGATTGGAATGGGCGGGGCAACGTTATATTCCATTGCATTAGGTGAAAATAAACGAGAGAGAGCAAGGTCTATTTTTACTCAATCAATGACGGTAGCAGTTGTTATCGTAGGTGTTTTAGCAGCTATTTGCTTATGGAGAATAGAAGATTTAGCATACTTATTTGGTGCAAATGAAGTGATTTTACCGTATGCATTAGACTATTTACACGTATTATTAACATTTGGAATGATATACGTTTTAGAAAATATTTTAAGCACATTTATTCGAAATGATGGAAATCCTAATTTAGCGATGGCAGGTCTTGTTGTAACGGCTGTATTAAATATCGTGTTTGACTACATCTTTATTTTTATTTTTGGATGGGGCGTAACAGGTGCTGCTTCAGCGACTATTCTTTCGGCAGCGATTGGTTTCCTTGTATTATTAACTCATTTCTTTAGAAAAAGTAGTATCTTAAAGTGGACGAAATTCCATTTTGACTGGGATACTGTCAAACAAATTATGGTGATTGGTTTCCCAAGTTTTACAGCAGAAAGTACGGTTGCAATCGTAACGATTGGTTTTAATATCGCATTCGTCCAATATGCAGGAGAAGTAGGAGTAGCTTCCTATGCGATGGTGAATAGTATTCATGCAATGACATTACTATTATTCTTCGGTGTAGGTGCTGCATTGCAACCAATTGCTAGTTTCCATTATGGTGCAAACTTATCAGAAAGATTGCGTGAAGGATTGAAGTTTGCTGTGAAAATTGCAGTTGTCCTCGGAGGCGTTGCGATAATTGTCGGATTATTCTTCGGGAAATATATCATTGGTTTATTTGATGTTCAATCTCCAGAATTATTGGAGTTAACCTTAACAGGTATTAGTTTATTCTTTATCCAATACGTATTTTTAGGTTATAACATTGTGTATGGAGAGTACTTCCAATCAGTGCGACAAACGAAGAAATCAGTACTTATTATAATGAGCCGAGGATTACTATTTATTCTTCCATTGTTATGGATTATGCCAAAATTATTTGGGATAAACGGAATTTGGCTCGTTATGCCAGTTGCGGAAGTAATGACAGCGATTATCGTATTTACGATGAATCGTATAAAACATCCTGTTCCATTAAATATGGCAGGAGAGAAAGAAGCGATATGA	MEATEKLREKPIKSLFISYLIPAVLGMVLMSVNIVIDAVMISRGVGANGLAGVNVAIPAFSIFFSISLWIGMGGATLYSIALGENKRERARSIFTQSMTVAVVIVGVLAAICLWRIEDLAYLFGANEVILPYALDYLHVLLTFGMIYVLENILSTFIRNDGNPNLAMAGLVVTAVLNIVFDYIFIFIFGWGVTGAASATILSAAIGFLVLLTHFFRKSSILKWTKFHFDWDTVKQIMVIGFPSFTAESTVAIVTIGFNIAFVQYAGEVGVASYAMVNSIHAMTLLLFFGVGAALQPIASFHYGANLSERLREGLKFAVKIAVVLGGVAIIVGLFFGKYIIGLFDVQSPELLELTLTGISLFFIQYVFLGYNIVYGEYFQSVRQTKKSVLIIMSRGLLFILPLLWIMPKLFGINGIWLVMPVAEVMTAIIVFTMNRIKHPVPLNMAGEKEAI				NA	NA	NA	NA	NA
AK009_00361	666			hypothetical protein	TTGCTTCTCTTTTTATGTAACGTGTCGTTCTTTTTTATCTTATTTTTACTATCGCTTAAGTTACTCGGTAAATCCGCGTTAGCACAACTAACTCCTCATGATTTTGGGGCTATAATTTTTTTATCTTATTTAGCTTTCCAGGCCATACCCGTCTCTGGTGCTTTACAAGCATTTCTCGGTATGGTTGTTATCACATGTTTACATTTACTCCTTACAAAATTAAGCCTATTTAACAAACTAAATCGCTTTATTCTCGGACACCCTATCATTTTAATTAAACATGGTGATATTATTTTTGAGAACTTACAAAAAAGTAGATACCCCATTGCAGAACTCCTTTCTAATCTTCGCGTTGCAGGTTATCCAAGTGTTCATGAAATTGAATACGCTATTTTAGAAGCAAACGGCGCTATTAGTATTTTACCAAAAAGAGAACTTGTACCATTAACTCCAAAAGATTTAAACATAGATGTTAAGTATGCTGGGTTACCAATTGCCCTTATCGTCGATTCACAAATTCAATATGATAACTTAAAGTTAATACATAAAAATGAAAAATGGTTATATAAAGAATTAAAAGAAAAAGGAATTACAAATATTAAAAACGTTGCCTTTGCTTCTGTTCAAGAAACGGATGGATCTTTTGCGATTAGTTTAAAGGAATAA	MLLFLCNVSFFFILFLLSLKLLGKSALAQLTPHDFGAIIFLSYLAFQAIPVSGALQAFLGMVVITCLHLLLTKLSLFNKLNRFILGHPIILIKHGDIIFENLQKSRYPIAELLSNLRVAGYPSVHEIEYAILEANGAISILPKRELVPLTPKDLNIDVKYAGLPIALIVDSQIQYDNLKLIHKNEKWLYKELKEKGITNIKNVAFASVQETDGSFAISLKE				NA	NA	NA	NA	NA
AK009_00362	579			hypothetical protein	ATGAGAAAGAAGAAAATAATGAAGTGCATTTTAGTTGTCATAATGATTTGCGCCGTGTATATGGGTTTTTTACAATATCACATTTATAAGCATGGGCATATGAATGCAACCTACGATGCTGACTACATAATTGTACTAGGATCGAAAGTAAATGGGACGAAACCATCTTATTCATTGCAATATCGTATTGATAAAGCAGCTGAATATTTAAAATCACATGAGAAAACAATTGCTATTGTATCTGGCGGACAAGGAAAAGGTGAAGACATTTCAGAAGCATTAGCAATGAAACAAGGATTAATAAAACAAAACATCGCAGAAGACCGTATTATAATGGAGGACAAATCTACGAGCACAGATGAGAACATTACATTCTCAAAACCGTTAATACCAGCCGATATGAAAAAAGGTATGATCGTAACAAACGATTTTCATATGTTTAGAGCGAAAAAAATAGCGGCCAAACAAGGTTTACAATTAGAAGGTCTTCCGGCAAAAACACCGAAACCAATCATCATTCCATCGAATGTACGTGAATATTTAGCAATTACACAATATTGGTTTATGAATCGAATATAG	MRKKKIMKCILVVIMICAVYMGFLQYHIYKHGHMNATYDADYIIVLGSKVNGTKPSYSLQYRIDKAAEYLKSHEKTIAIVSGGQGKGEDISEALAMKQGLIKQNIAEDRIIMEDKSTSTDENITFSKPLIPADMKKGMIVTNDFHMFRAKKIAAKQGLQLEGLPAKTPKPIIIPSNVREYLAITQYWFMNRI				NA	NA	NA	NA	NA
AK009_00363	318			hypothetical protein	ATGAAAGGAAATAATATTTTATCTTCGTTATGTTACTTTAGTATATTTTTTGCACCATTTTTACTACCAATTATCGTGTACTTTGTTGCAGAAGATGAAGTGAAGTATCACGCGAAAAAAGCATTTTGGTCACATGTTTTCCCATACGCAATCTTATTTGGAGGACTAGCAGTATCAGGAATGTACGGTTTAGGTTTCGATCAATCTGACGGTGCTGGAATTGGAATGATTATCACATATGCAGTGTTCATTCTTGTAGGAATTTATTACTTTATTTGGAATATCGTCAGAGGTATTAAAGTTTTGAAAACGGCGTAA	MKGNNILSSLCYFSIFFAPFLLPIIVYFVAEDEVKYHAKKAFWSHVFPYAILFGGLAVSGMYGLGFDQSDGAGIGMIITYAVFILVGIYYFIWNIVRGIKVLKTA				NA	NA	NA	NA	NA
AK009_00364	735	nfrA1	COG0778	FMN reductase (NADPH)	ATGAATGAGATGATACATAAGATGGAGCAACATGTTTCAGTTCGTAAATATAAAGAAGAATCAATTCCGAAAGATGTAGTAGAAAAGATGGTGCATGCTGCGCAACATGCAGCTTCATCACATTTTGTACAGGCGTATTCTGTTATATATGTAACAGATCAGGAATTAAAGGCTAAACTAGCAGAGCTATCCGGAAATCGCCATGTGAAGGACTGTGCAGCATTTTTTGTTTGTTGTGCAGATTTAAAACGACTTGAAATTGCATGTGAAAAACATAGTACAGAGATAAAGCATGAGGGAGTAGAAGACTTTATCGTTGCGACGGTAGATGCTTCCCTTTTTGCGCAAAACTTAGCACTAGCAGCAGAATCATTAGGATACGGTATTTGTTATATTGGTGGTATTCGTAATAATCCGAGAGAAGTGAGCGAATTGCTTCATTTACCGGATAAAGTATATCCTGTATTTGGAATGACAGTCGGTGTACCAGATGAAGAACATGGAGTTAAACCACGTTTACCAGTAGCAGCAGTTCTTCATGAAAATGGATATGATGAACAAAAATATGATGAATTACTAAACGAATATGATGAAACGATGAACGCGTATTATAAAGAAAGACCATCAAACAAGAAAAACGTAACATGGACAGAATCAATGAGTTCGTTTATGTCTAAAGAAAAAAGAATGCATATGAAAGAGTTTTTAAGTGAAAAAGGATTAAATAAGAAGTGA	MNEMIHKMEQHVSVRKYKEESIPKDVVEKMVHAAQHAASSHFVQAYSVIYVTDQELKAKLAELSGNRHVKDCAAFFVCCADLKRLEIACEKHSTEIKHEGVEDFIVATVDASLFAQNLALAAESLGYGICYIGGIRNNPREVSELLHLPDKVYPVFGMTVGVPDEEHGVKPRLPVAAVLHENGYDEQKYDELLNEYDETMNAYYKERPSNKKNVTWTESMSSFMSKEKRMHMKEFLSEKGLNKK	PGPT0000290_535	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
AK009_00365	291			hypothetical protein	ATGCTTATGATTTTCAATTCTGAAGAGGATTTAATTATAGCTATGAAAAAACATGATCAAGATGCTTTGAAAGAAGTGATTGATCAATATGGAAAATTAATTTTGTACATTATTCATAAATCATTAAGTACCCCTATTGAAAAACAATATGTGGATGATTGTTATAACGATGTATTTACTGTCATTTGGTTTAATATCGACCAATTTGATAATGATAAAAAGCGGCATAATAGCCGCTTTTTATCGTTATCACGTTTAAAAATATATCATGATATTTCATTCGAAACCTAA	MLMIFNSEEDLIIAMKKHDQDALKEVIDQYGKLILYIIHKSLSTPIEKQYVDDCYNDVFTVIWFNIDQFDNDKKRHNSRFLSLSRLKIYHDISFET	PGPT0014960_10046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_00366	726			hypothetical protein	TTGGGTATCACATTCATTTTCATATGTATTATATTAGTGGCTTCTATTCTGCAAGCAAGTACAGGTTTTGGCTTTTCCATAATGGCAACCCCTTTCTTACTTATGTTATTTTTACCACAAGAAGCTATACAAATAAACATTATTTTATCTTTAATTATCTCCATTTCACTCATTTGGAAAATAAGAATGGACGTTGATTTTGTTCTACTGAAAAGGTTTATTTTGGGAAGTATAGTTGGTGTACCTTTTGGTATTTTAATCTTCATTTCCGTTAACATAAACACTTTTAAATTAGCAGTTAGCATCCTACTCTTACTATTAACATTGTTGCTAATATGCAACGTTAAGGTTAGATCAACACAATCTAGAGATTTCATAGTTGGCGGATTATCTGGTCTTTTAACGACAAGTATCGGTATGCCAGGTCCACCCCTGTTACTTTATTTTACAGGAACTAATACTGAAAAAGAGAAGTTAAGAGCAACTACATTAGCTTTTTATCTGTTTATATATTTCATTAGTCTAGTAACTCAAATACTCTTTACTGGCACAAACAAAACCATTTGGGAATCAAGTTTTTATGCCATTCCAATTATATTTTTAGGTTTGTTTATAGGTCAAATTATTTTTAAATGGCTTAATCAACGGATTTTTAAAATATTTACGTATATCCTTTTAAGTTGTACGGGTATGTATCTTCTTATTGAAAGTTTGCATTTATTATAG	MGITFIFICIILVASILQASTGFGFSIMATPFLLMLFLPQEAIQINIILSLIISISLIWKIRMDVDFVLLKRFILGSIVGVPFGILIFISVNINTFKLAVSILLLLLTLLLICNVKVRSTQSRDFIVGGLSGLLTTSIGMPGPPLLLYFTGTNTEKEKLRATTLAFYLFIYFISLVTQILFTGTNKTIWESSFYAIPIIFLGLFIGQIIFKWLNQRIFKIFTYILLSCTGMYLLIESLHLL				NA	NA	NA	NA	NA
AK009_00367	120			hypothetical protein	ATGAGTTATGGTGGAAGTTGCGCTGGTTTCGGCGGTGGATTTGCTTTGCTTATCGTACTATTCATCCTTCTAATCATCATCGGATGTAGCTGTTGGGGTGGCGGCGGATACGGATATTAA	MSYGGSCAGFGGGFALLIVLFILLIIIGCSCWGGGGYGY	PGPT0024985_219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_00368	219			hypothetical protein	ATGTACTATAATTTTACAAGTAATATTATGGGAAAAGGGAGTTTTAGTATAGAGATGGAGATGGGACAATTACAAAATAAAATAGAAAACAAAAAGAAAGAGTTAATTCAACTTGTTGCGAGACACGGATTGGATCATGATAAAGTTTTGTTATTTAGCCGAGATTTAGATATACTAATTAATAAGTTTATGAATGGAAAAGACAAAGTGCATAAATAA	MYYNFTSNIMGKGSFSIEMEMGQLQNKIENKKKELIQLVARHGLDHDKVLLFSRDLDILINKFMNGKDKVHK				NA	NA	NA	NA	NA
AK009_00369	189	hfq_1	COG1923	RNA-binding protein Hfq	TTGGAACATTTACAGGAAGAATTGTATAAACAAATAAAAGAAGAAAAAGGTACAGTTACAATTTTCTTAAAGAGTGGCGTTAGAATAGTAGGAGAAGTTGTTGGAGTAGATAAATTTACAGTTTTAATATTAGTGGATGGAAAACAACAGCTTATTTATAAGCAGGCTATATCAACAATAATGAAATAA	MEHLQEELYKQIKEEKGTVTIFLKSGVRIVGEVVGVDKFTVLILVDGKQQLIYKQAISTIMK	PGPT0025560_2140	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
AK009_00370	603			hypothetical protein	ATGGAACACAACATTTTACAAGTCATTGCATTAGCAGAAAAACTAAAATATGAAATGCGACATAGCTGGCTTTCTAACGGACGTCAAGAAAGTGTTGCCGAACATACATGGCGTATGTCTCTAATGGCTATTTTAGTTGAACCTTATTTGGATCAAAAAGTAAATATTGAGAAATTACTTAAGATGGTTATTATTCACGACCTAGTCGAAGCCGAAGCTGGTGATATCCCTGCTTTTGATACGATGAATAGTCACGAATTACAACTACAAAAACAAAAAAATGAACTAGAAGCTATTTTAAATATTAAACAAACATTAACAAGTTCTCTCGGTGAGGAATTATATGACTTATGGATGGAGTTTGAAGCGAAAGAAACGTACGAAGCAAAAGTTGCTAATGCACTCGATAAACTTGAGGTGAAAATCCAACATAACGAAGCTGATATTGATACGTGGTTACCAATTGAACATAAAATGACATTCCAAGTAGCAAAGCATACAAACTTTGATTCTTTCCTATCTAAATTACAAAAAATTATTGAACAAGATGGAGAAAAGAAGTTAATTGCTGCCGGTATTGATGTTGAGGCATGCAAGCAATAA	MEHNILQVIALAEKLKYEMRHSWLSNGRQESVAEHTWRMSLMAILVEPYLDQKVNIEKLLKMVIIHDLVEAEAGDIPAFDTMNSHELQLQKQKNELEAILNIKQTLTSSLGEELYDLWMEFEAKETYEAKVANALDKLEVKIQHNEADIDTWLPIEHKMTFQVAKHTNFDSFLSKLQKIIEQDGEKKLIAAGIDVEACKQ				NA	NA	NA	NA	NA
AK009_00371	834	pomA_1	COG1291	Chemotaxis protein PomA	ATGGGAGAGAAAAATCAAGTATTAGCTAGACCACAAAGAAGAAAAAGGAAGTTTGATATTTCTAGCCCAGTGGGCATTATAGTAGGTTTCATTATAGTGATAGCAGCAATTATGCTTGGCGGCGGTGGAATAAAAGCTTTTAAAAACTTTTTAGATGTTTCATCTATTTTAATTGTCATAGGGGGAACAACAGCGACAATTGTTGTGGCATATCGATTTGGAGAAATAAAAAAATATACGAAAAGCATTTTTACTGTTTTACATAGAAGAGAAGAAGATTTAGAACAGTTAACGGATTTGTTTGTCGATTTTTCGAAAAAGTCTAAAAAGCATGGCTTGCTTTCTTTAGAGGTTGATGGAGAGCAAGTAGACAATCCTTTTATTCAAAAAGGAATTCGATTAATGTTAAGCGGTTACGATGAAGATGAATTAAAAGAAGTGTTACTGAAAGATATTGAAACGGAAGTGTATGAGTTAAGAAAAGGAGCAGCATTATTAGATAAAATTGGTGATTTTGCTCCAGCTTGGGGAATGATTGGTACGTTAATCGGTCTTATCATTATGCTCCAAAACTTACAAGATACATCGCAAATTGGTACAGGGATGGCAGTTGCGATGTTAACGACATTATATGGGTCCGTACTTGCGAATATGATTGCAATCCCTCTTGCGGAAAAAGTATATCGTGGTATTGAAGATTTATATACAGAGAAGAAGTTTGTAATAGAAGCAATTTCAGAATTGTATCGTGGACAAATCCCTTCTAAATTAAAGTTGAAACTGGATACATACGTATACGAAACAAAGGTAAAAAAGGTAAAAGGAGCAGCCTAA	MGEKNQVLARPQRRKRKFDISSPVGIIVGFIIVIAAIMLGGGGIKAFKNFLDVSSILIVIGGTTATIVVAYRFGEIKKYTKSIFTVLHRREEDLEQLTDLFVDFSKKSKKHGLLSLEVDGEQVDNPFIQKGIRLMLSGYDEDELKEVLLKDIETEVYELRKGAALLDKIGDFAPAWGMIGTLIGLIIMLQNLQDTSQIGTGMAVAMLTTLYGSVLANMIAIPLAEKVYRGIEDLYTEKKFVIEAISELYRGQIPSKLKLKLDTYVYETKVKKVKGAA	PGPT0015370_1502	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
AK009_00372	678	motB_1	COG1360	Motility protein B	ATGAGTAAAGGACCGCAAAAGGGATCGCCTCGTTGGATGACGACTTTTACAGATTTAACAATGTTATTATTAACTTTCTTTGTATTACTAGTTGCTACATCAAAGCAAGATGCAGTAAAATTGTCAAAGATGCTTGAAAAGTTTAGTGATACGGGGCAAGTAGATGCAAAAGTAATGGAAAATACAATACCGGATATTTCACATGAAAAAAATGATGAAAAGATGATCTCAAAAAAGAGAATGGATGAATTATATAAGAAGTTAAAAGCGTATGTAGATAATAACGGTATTAGTCAAGTGAATGTATATCGAGAGGATACAGGGGTAAGCGTCGTTATAGTAGATAATTTAATATTTGATACAGGCGATGCAAACGTTAAGCCCGAAGCGAAAGGGATAATAAGTCAATTAGTTGGATTTTTTCAATCCGTACCTAACCCAATTGTTGTAGAGGGACATACAGATAGTAGACCTATTCATAACGAGAAATTCCCTTCAAATTGGGAGTTATCTTCAGCACGAGCGGCAAATATGATTCACCATTTAATTGAAGTGTATAATGTGGATGATAAAAGGCTAGCTGCGGTAGGATATGCAGACACAAAGCCAATTGTACCAAATGATTCACCGCAAAACTGGGAAAAAAACCGTCGCGTTGTTATTTATATAAAAGAGTAG	MSKGPQKGSPRWMTTFTDLTMLLLTFFVLLVATSKQDAVKLSKMLEKFSDTGQVDAKVMENTIPDISHEKNDEKMISKKRMDELYKKLKAYVDNNGISQVNVYREDTGVSVVIVDNLIFDTGDANVKPEAKGIISQLVGFFQSVPNPIVVEGHTDSRPIHNEKFPSNWELSSARAANMIHHLIEVYNVDDKRLAAVGYADTKPIVPNDSPQNWEKNRRVVIYIKE	PGPT0015375_4808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
AK009_00373	369	cheY	COG0784	Chemotaxis protein CheY	ATGGCACATAAAATTTTAGTAGTAGACGATGCGATGTTTATGCGAACGATGATTAAAAACTTATTAAAAAGTAATGCTGAATTTGAAGTTATTGGCGAAGCAGAGAATGGGGTAGAAGCAATTCAAAAGTATAAAGAACTTCAACCTGATATTGTAACATTAGATATTACTATGCCAGAAATGGATGGGCTTGAAGCATTAAAAGAAATTATTAAAATTGATTCAAGTGCAAAGGTTGTTATTTGTTCTGCAATGGGACAACAAGGTATGGTATTAGATGCAATTAAGGGCGGGGCAAAAGACTTTATTGTAAAGCCATTCCAAGCGGATCGTGTAATTGAAGCTTTAACAAAAGTAGCAAATAGTTAA	MAHKILVVDDAMFMRTMIKNLLKSNAEFEVIGEAENGVEAIQKYKELQPDIVTLDITMPEMDGLEALKEIIKIDSSAKVVICSAMGQQGMVLDAIKGGAKDFIVKPFQADRVIEALTKVANS	PGPT0015690_3240	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
AK009_00374	2004	cheA	COG0643	Chemotaxis protein CheA	ATGCAAACAGATCTATTAAATATATTTTTTGAAGAGTCAGAAGAACATTTACAGTCGCTAAATGAAAATGTGCTAGTGTTAGAGCAAAATCCTGCTGATATGGATGTTGTAGGAGAAATATTCCGCTCCGCTCATACATTCAAAGGTATGTCTGCGAGTATGGAATTTACGGAGATGGCTGATTTAACACATAAGATGGAAAATGTGTTAGATGAAATTCGTCATGGGAATATAGTTGTAAATGCGGATATTATTGATGTGATTTTTGAGTGCATTGATAATTTGGAGAAGATGGTTGCAGATGTGCAACAAGGTGGAATGGGCAATATTGATGTAGTCTCAACTAAACAGAAATTAGAAGCATTATTGAACGGTAATGTAGAAACTACTACGGAACATATAGAGCAAAATCATATAGACAACGATGATGCAGTTTCGCATGCAGTGCATATAACAGTTGAACAGCAAGCAATTTTAAAAGCAGTACGTGCCATTATGTGTATTGAAGCATTACAAAATGTGGGGAATATACAAAAAACAGCTCCGAGTATTGAAGAAATTGAAGCAGATGCTTTCGGATTTGAATTTACAGTATTTATGGATACGGATTGTAGTATAGAAGAATTGAAACAAGTAGTACTTCATGTTTCTGAAATTGAGAAAGTGGAAGTAAAGCAAGGAGAACCTATATCGAGGGAAGTAGCTTCTAAAAAAGTCGTTACACAAGAAGTTGTGCAAGTAGAAGAAACGCTACAACCAGCTGTGGCTACGCAGGTAGAATCACCGATAGTGGCAACGAATCAGCCAGCTAAAAGTACTACAAAAACGAAAAATGCTAAAGTGGAGAATCGTTCAATTCGTGTTCAATTAGAGAAAATTGAAAGATTAATGAATATGTTTGAAGAAAGTGTAATTGAACGTGGGCGCATTGATGAATTGGCTCAAACGATTCAAAACAAGGAACTAATTGAACATTTAAATCGATTAGGCGATATTTCAAAAGATATTCAAAATGTACTATTAAATATGCGTATGGTGCCAATTGAAACTGTGTTCAATCGTTTCCCGCGTATGGTACGTATGTTAGCGAAAGATTTAGGGAAAAAAATCGATTTACAAATTACAGGTGAAGATACTGAAGTAGATAAAATTGTTATTGATGAAATCGGTGATCCGCTCGTTCATTTAATTCGAAATGCAATCGATCACGGTGTTGAAACTGTTGAAAAACGACGTGATGCAGGTAAAAATGAGACAGGTACTATTAAATTAGAAGCTTTTCATAGTGGAAATCATGTCGTTATTCAAATTACGGATGATGGAAACGGTATTAATAAAGGGAAAGTATTAGAAAAAGCGATTAAAAATGGCGTTGTAACTGAAGCAGATGCGAATAGATTAACAGATCGTGAAGTGTTTGATCTTATTTTCCAACCAGGATTTAGTACAGCTGAAGTTGTATCAGATCTTTCTGGACGCGGTGTCGGATTAGATGTTGTAAAACATACGATTCATAGTTTAGGTGGACATTTAATTATTGATTCTGAGGAAGGAAAGGGAAGTACATTTAGAATTGAACTTCCGTTAACGTTGTCTATTATTCAATCTATGCTTATTCAAACGAATGATAAGCGTTATGCTTTACCTCTTGGAAATATCGTTGAAGCAATTCGAATTAAGAAAGAAGACATCCAATCCTTACAAGGAAAAGATGTGTTAAATTATCGTAATCAAATTATTGAAGTGAAACATTTAAGTACTGTATTTGGTGAAAAAACAGTAGATGAGGCGTTTGCGTCATATGATGGTCAAATGGTTCCTGTGTTAATTGTTCGTAATACACATCGCAGCTATGGACTTATTGTAAACACAATTATCGGTCAAAGAGAAATAGTCTTAAAGTCATTAGGTGACTTCTTTGCAGAGAGTTCTAATTATTTCTCTGGTGCGACGATTCTCGGTGATGGACGAGTGGTCCTCATTTTAAACCCAGAAGGTTTATAA	MQTDLLNIFFEESEEHLQSLNENVLVLEQNPADMDVVGEIFRSAHTFKGMSASMEFTEMADLTHKMENVLDEIRHGNIVVNADIIDVIFECIDNLEKMVADVQQGGMGNIDVVSTKQKLEALLNGNVETTTEHIEQNHIDNDDAVSHAVHITVEQQAILKAVRAIMCIEALQNVGNIQKTAPSIEEIEADAFGFEFTVFMDTDCSIEELKQVVLHVSEIEKVEVKQGEPISREVASKKVVTQEVVQVEETLQPAVATQVESPIVATNQPAKSTTKTKNAKVENRSIRVQLEKIERLMNMFEESVIERGRIDELAQTIQNKELIEHLNRLGDISKDIQNVLLNMRMVPIETVFNRFPRMVRMLAKDLGKKIDLQITGEDTEVDKIVIDEIGDPLVHLIRNAIDHGVETVEKRRDAGKNETGTIKLEAFHSGNHVVIQITDDGNGINKGKVLEKAIKNGVVTEADANRLTDREVFDLIFQPGFSTAEVVSDLSGRGVGLDVVKHTIHSLGGHLIIDSEEGKGSTFRIELPLTLSIIQSMLIQTNDKRYALPLGNIVEAIRIKKEDIQSLQGKDVLNYRNQIIEVKHLSTVFGEKTVDEAFASYDGQMVPVLIVRNTHRSYGLIVNTIIGQREIVLKSLGDFFAESSNYFSGATILGDGRVVLILNPEGL	PGPT0015645_3808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
AK009_00375	1635			hypothetical protein	ATGCCTGAGCAACACACAAAAGGGGATACGAGCACGATTGTGCTAGAAAAAGAAAATGAGCATTTAACGCCTCAAGAATGCGATATTCTTGGCGAAATTGCAAATATATCATTTGGTTCAGCTTCGACTGTATTATCAACAATTTTAAATAGGCAAGTAAGCATTACTGCTCCTCGCATAGAGTTGGTAGATTTATATGATTCAAGAGATGTCGAAGTTCCACATGTTGTATTAAACATTCACTTTACAAAAGGATTAGATATGGAAAACCTTCTTGTCCTTAAGCAAGATGTTGCATTGTCTATTGCTGATTTAATGATGATGGGAACAGGCGAGGTGGAGGACGGAAAAGAACTTGGTGAATTAGAGCTAAGTGCTGTACAAGAAGCGATGAATCAAATGATGGGATTCGCAGCTACATCTATGTCGGAATTCTTCCAAGATACAGTAGATATGTCTCCGCCGACGATTAAAGTTGTAAAGTTATCAGAAGAAATGGAGAAAATCTCTGAAATCGATGGAAATCATACGATTGTTAAAGTGTCGTTTGATTTAAAGATAGATAATCTTGTAAACTCTAAACTTGTACAAATTGTTTCTGTTGAGCATGCGAAACAAATGGTAAATAAATTAATGCAATTATCTGGTGGAGTAGAAGAAAAAGACGAGACAGCAGAAGTAGTGGAAACTGAGATTGTAGAAGAAGTTGAAAAAGAGCATTTAACACAAGAAGAGAAAGATGTGCTTGGTGAAATTGCAAATATTTCAATTGGTTCCGCTTCAACAGTATTGTCAACGCTTTTAAATCAGCCAGTTACAATTAGTACACCAAATGTGGAAGCAATCAATGTTCGGCATTATGATGGAGTACCAGTACCATTTGTTATTTTAAATGTCGACTTTGTTGAAGGGCTAAAGAATGAGAATGTATTCGTATTTACAAAAGATGTCGCCTTAACAATGGTAGATTTAATGATGATGGGAACAGGGGAAGTTGATCCGGAAAAAGAGTTGACTGAATTAGAACTGAGCGGTATTAAAGAGATTATGAACCAAATGATGGGGCATGCTGCTACGGCGATGTCAGAAATGTTTCAAGAAAAAATGGACATGACGCCGCCAAATGTTAAATTTGTAACGTTAAAAGAAGAAATGGAGTATTTGGGAGAGTCAATGGAAGTGGACGAACTCGTTCAAATTACGTTCAATCTTGAAATTGGCGATCTGCTTCAATCGAAAATGTATCAAATTTTGCCAATTTATGAAGCGAAAGAAATGGTAAGGCGACTTCTGTATCCAATGGTGGAAGAAGAGATTGCAACAGAAGAAATTGAAGAAGAAAAAATTGTAGAACCAGTTGTGCAACCTATTGAATTTAAAGAAGTAAAACAAATGGAGCCAGTATATATGGACACGTCCATTCTACAAAATGTAGAAATGAACGTGAAATTTGTATTTGGAAGTACAGTGAAAACGATTCAAGATATATTAAGTTTACAAGAAAATGAAGCAGTTGTACTAGATGAAGATATTGATGAACCGATTCGTATTTATGTAAATGATGTATTAGTGGCGTATGGTGAACTTGTAAATGTAGATGGATTTTTCGGAGTAAAAGTGACGAAATCACTATAA	MPEQHTKGDTSTIVLEKENEHLTPQECDILGEIANISFGSASTVLSTILNRQVSITAPRIELVDLYDSRDVEVPHVVLNIHFTKGLDMENLLVLKQDVALSIADLMMMGTGEVEDGKELGELELSAVQEAMNQMMGFAATSMSEFFQDTVDMSPPTIKVVKLSEEMEKISEIDGNHTIVKVSFDLKIDNLVNSKLVQIVSVEHAKQMVNKLMQLSGGVEEKDETAEVVETEIVEEVEKEHLTQEEKDVLGEIANISIGSASTVLSTLLNQPVTISTPNVEAINVRHYDGVPVPFVILNVDFVEGLKNENVFVFTKDVALTMVDLMMMGTGEVDPEKELTELELSGIKEIMNQMMGHAATAMSEMFQEKMDMTPPNVKFVTLKEEMEYLGESMEVDELVQITFNLEIGDLLQSKMYQILPIYEAKEMVRRLLYPMVEEEIATEEIEEEKIVEPVVQPIEFKEVKQMEPVYMDTSILQNVEMNVKFVFGSTVKTIQDILSLQENEAVVLDEDIDEPIRIYVNDVLVAYGELVNVDGFFGVKVTKSL	PGPT0015410_27	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
AK009_00376	1389			hypothetical protein	ATGAAAAACGTAAAGTTTTTTCTAATGAGTTGGCTATGCATACATGTGTGCTTGTTCTTCCCCTTGCAAAGTCAGGCTGAGGAACAAATTGAGCCAGATCAAAAAATAAATGAAGTGAATGTACAAGAAGAAAAGTCAGAGCAAGTGGAAACGAAACAAGATGAAGAGAAACAAAAAGAAGTAGAACAACAAGAAGTAGAACAACAAGAAGCAGAACAACAAGAAGTAGTAAATAAACAATTGGGTGAAAGAAAGATAGAAACGGAACAAGGAATTGTTACAGTAAATAAGCCGGAGCTTAAAGTTGGCGAAGAAGTGCGAATTGCTGTAGAACCAAATGGGAAAAACATTCAAAGCATGAAAGGTATATTGCAGTTACAAAAAAATGGCGAGCAATATGCGCAAGAAAGAATGCTATCTTTTGAGTATGATGAAGAAACGAAGAGCTGGGTTGCTAACTATAAAGCAGGGGATTTTGATTTGCAAGGTGATTGGAATCTTCAGCTCTTTCAAAGTTACAAAGAGAATGAGAAAGAAGACCTCATAAAAAATGAATTGAAAGTCCCGCTCATTCGTATTAAAAATGAAACGCCTACTATAGATAAAGAATTGCCAAAGTTACAGGAAGTTACTATTGATGAAGTAAAAGAAAACTTAGTTGAACGAAAACAGGGAGATTCTATACATATACGAGTAAAAGCGTCAGATATAGAATCGGCTGTAAAAGAAGTGCGCGTTACATTAAAAGGGAAAGAAAATAAAGAGCTTTCGTTTTTATTAGACTACAACAAGTATGATATGGATTGGCAAAAAATATTTGAAATAACAGAAGAATTGCCAGCTGGGCCATACGAATTACATGTAGAGATAATAGATGCAGCAGGTAATAAACTTGTTGAGGAAAGTGAATATACCATTTCTATTTTGGCGCCAAAAAACGAAGATGACAAAAAGATAGAAGAGAAAGAGAAAGAAGATAAATTAGATAATAAACTAGAAAATGAATTAGAAGATAAGAAAGAAAATGAGAAGCAAGAGGATTTGAAAGTCAAAAACCCGCTTCCAGAAGAAAAATTACCAGTTGTTCAAATTCCGAAGCAAGATGAGGAAGTAAATAAGTTTATAAAAGAACCGTTGAAAGAGAAAGAGGAATTTACTTACGTCATAAAAGAGCCGTTCGAAGACAACAAGGAAGTACATAAGGCGAAGGACCGAAAAGAGAAAAATAACAAACAAGTTGCCTCTAAAAAGAAAGAACAAAAAGAAGAATCAAAAGACAAGAAAGAAGAAAAAGGTGAACAGGGAGTACAAGCTTCGGATGTGTTTACTATCATGTCAGGTTTATTCGTACTGTTTTTAGTTTTAAAGAGTAATAAAGAATGGGGCTAA	MKNVKFFLMSWLCIHVCLFFPLQSQAEEQIEPDQKINEVNVQEEKSEQVETKQDEEKQKEVEQQEVEQQEAEQQEVVNKQLGERKIETEQGIVTVNKPELKVGEEVRIAVEPNGKNIQSMKGILQLQKNGEQYAQERMLSFEYDEETKSWVANYKAGDFDLQGDWNLQLFQSYKENEKEDLIKNELKVPLIRIKNETPTIDKELPKLQEVTIDEVKENLVERKQGDSIHIRVKASDIESAVKEVRVTLKGKENKELSFLLDYNKYDMDWQKIFEITEELPAGPYELHVEIIDAAGNKLVEESEYTISILAPKNEDDKKIEEKEKEDKLDNKLENELEDKKENEKQEDLKVKNPLPEEKLPVVQIPKQDEEVNKFIKEPLKEKEEFTYVIKEPFEDNKEVHKAKDRKEKNNKQVASKKKEQKEESKDKKEEKGEQGVQASDVFTIMSGLFVLFLVLKSNKEWG				NA	NA	NA	NA	NA
AK009_00377	717			hypothetical protein	ATGGAGATTAAACGTACGACAATTGAAGATAAGGCGTTACAACCATTAAAACAGCCTGCAGCTATTTCGGAGCATGAAATCCAGAAAGAACGAAAGCGTAGCAATTTAGTGTTTACTGGACAGTCTAAAATTATTTCGAAAAATAATGAAATAGGTATTTTACTTGCAAGTTTAAGTGATGGAAAGATTATGAAGGAAATGCTTTCTAAAGAGATGGATACAGTGTTACAACTTTTTAAAAAGCTACATACGTTATCTGGAGAAGGTAAGCAAACAGAAAAAATATTTGAACAAGTAATTAGAAGCCTACAAGGGCTTGTTAAGCAGGCGCATATAAAAGACCTTCCTTTGTTAGATGGAACATATGATTTCGCTGAAGTACAACTATCATTTGGTAGAAAAGTACATATTCCGTTACTAGATGTGAGCGCACTTATTTCTAGAGTGGAAAGTGATTCTTCAGAAGGAAATATAAATTTGATGGTAACGGTTATTACTGCTTATATAACGAAATTGTCTAACGAAACAATTTTAATTAGTGTTACAGACCGCATTGCTAAAGATCGGGATGTAAGTGTATGGAGAGCGCTTGCGGAAATTAACATGACACAATTATCACAGGCATTGAAACAAACGATGCAAGAACATAAATGGTCTATGACGTTTCTTTTTCTCTTCATATGGATTGTCGGTATTATTTTAATTCGAGTTATGTAA	MEIKRTTIEDKALQPLKQPAAISEHEIQKERKRSNLVFTGQSKIISKNNEIGILLASLSDGKIMKEMLSKEMDTVLQLFKKLHTLSGEGKQTEKIFEQVIRSLQGLVKQAHIKDLPLLDGTYDFAEVQLSFGRKVHIPLLDVSALISRVESDSSEGNINLMVTVITAYITKLSNETILISVTDRIAKDRDVSVWRALAEINMTQLSQALKQTMQEHKWSMTFLFLFIWIVGIILIRVM				NA	NA	NA	NA	NA
AK009_00378	783	cheR_1		Chemotaxis protein methyltransferase	ATGATAATTGAACAAGATTATGATCATTTTATCGCGAGTTTTAAACAACAATTCAATATGGATATCGCTTCGTATAAGCAAGATAGAATGCGCCGTAGAATCGATGCTTTCATTTCGAGAAAAGGCTTTGAAAACTACACTAATTTTTTAAACAAATTACGTGCTGATCAAAATTTATTTTTAAATTTTATTGACTATATTACAATTAACGTTTCAGAGTTTTTTAGAAATAAAGAACGATGGCAAACTTTAGAGTCGAAAGCACTACCTAAATTACTCGAACAAAATAGCGGAAAATTAAAGGTATGGAGTGCCGCTTGCGCTGCTGGTGAAGAACCGTATACACTTTCTTTAATTTTATCAAAGCATCTAGCTCCATTTCGTTTTGAAATTCAAGCAACAGATCTTGATTTTCATATTTTAGAAACTGCAAAACGCGGTCAATATACAGAACGTTCGTTAAAGGAATTACCTAATGATTTGAAAGAACGTCATTTCACAAAAGAGAATGATCTATATTCATTGCATCAAAACATTAAACAAAACGTCTCGTTTAAACAACATGACCTTTTAATGCAGTCATTCGATACAAATTATGATTTGATTATTTGTCGCAACGTAATGATTTATTTTACCGAAGAAGCAAGAGTAAAACTTTATGAAAAATTTAGTCGTTCTTTACGAAAAGGCGGCGTACTATTTGTTGGTAGTACGGAACAAATTTTAACACCCGAGCGTTACAATCTTCAGCGATTTGATACATTCTTCTACGAAAAAATATAA	MIIEQDYDHFIASFKQQFNMDIASYKQDRMRRRIDAFISRKGFENYTNFLNKLRADQNLFLNFIDYITINVSEFFRNKERWQTLESKALPKLLEQNSGKLKVWSAACAAGEEPYTLSLILSKHLAPFRFEIQATDLDFHILETAKRGQYTERSLKELPNDLKERHFTKENDLYSLHQNIKQNVSFKQHDLLMQSFDTNYDLIICRNVMIYFTEEARVKLYEKFSRSLRKGGVLFVGSTEQILTPERYNLQRFDTFFYEKI	PGPT0015670_4122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
AK009_00379	498			hypothetical protein	ATGAATATTTTCCTTTGTGGTTCAAATCAATTAACAGCATTAGATCAAGAAGAAATTAAAAAATTTTTAACTGACTATGCTCACAAACATAAAATTTACATATTATGTTATAAATCTATTGAAAATGAGGTTCTTCGTTTTTTCGTTGAGAATGAAAGACTCGCTCAAAATTTATGCCTTTACACGCTGCAACCATTGCAAGCAATAACAGATGAATTTCAAGAAGTCGTTGATTACTTAAAAAAACACGGAGCCGAATATGTTGCTTTCGATCATCCTTCTGACTCCATTTACCGATCAGATTATATGTTTTTTGTTAAACAAATTATTGAAGACACTGATTTAGTTCTCTGTTTTTATAATGGGGACAAACATACATCTGTCATCCCTGTCGATGTTGCAAAAGAAGCAGGTATTGATGCTGTCATTTATGATTTACCAGGATTACATGAAAAGCAAATGAAAAAAAGCTTTGAACAAAAAATTCGTATGATGTAA	MNIFLCGSNQLTALDQEEIKKFLTDYAHKHKIYILCYKSIENEVLRFFVENERLAQNLCLYTLQPLQAITDEFQEVVDYLKKHGAEYVAFDHPSDSIYRSDYMFFVKQIIEDTDLVLCFYNGDKHTSVIPVDVAKEAGIDAVIYDLPGLHEKQMKKSFEQKIRMM				NA	NA	NA	NA	NA
AK009_00380	465			hypothetical protein	ATGCTACGTTCTATCTCGCATAATCCAATTTTATCGCATATACCGCCTGCTACTCAAATGCCGAAAGAAGCAAATGTCAGGACAGGACTTGCATTTTCGGATAATTTGCATGCAGATCCGAAAAAAGATAAATTACTAGAACAAATGGAAGCGTTTGTCGATAATATTGGAGAAATTAAAGAAAAAATTGAAATGGAATTAACGCTTGATAATGTAATGGAATACAAAAATACAGTAAAATCATTTTTGAATTTTTACGTTGATAATGTATTGCAGTATAAAGATGTCATGTCTCGTCACCCACGTTATGGATATTCACAGAAAATGACGATTGTGAAACAGGCAGAAATGGGATTGAATGAATTAGAAGATGTTATGAATTTAATTAATACGAAAACAGGACATTTAGAAATGTTAAATCAAATTGGAGAAATCCATGGTTTAATTGTGAATTTAGTCTTGTAA	MLRSISHNPILSHIPPATQMPKEANVRTGLAFSDNLHADPKKDKLLEQMEAFVDNIGEIKEKIEMELTLDNVMEYKNTVKSFLNFYVDNVLQYKDVMSRHPRYGYSQKMTIVKQAEMGLNELEDVMNLINTKTGHLEMLNQIGEIHGLIVNLVL				NA	NA	NA	NA	NA
AK009_00381	453			hypothetical protein	ATGTACATACAATTATATGAAAAGCTCGTTATTATACAAAAGGCGTATGAAAATATTCAAGCGCTTGGAGAGCAAATATATGAGAATTTAAAAAATAAAGATATAAATGCAGTTCAAAAGTTACAAGTAGAACAATTGCAGTACATTGATGGTTTAAAAGGACTATCTAGCTCATTCGAAGAAATGGTTGTTCAGTTTTGTAAAGAAAAGGATGTTGAAGCATCTCGTGTAAGTGCATTATTTTCGTATTTTTCTCAAGAAGAAATTGAAAAAATGGAAGAATTACAAAAAAACGTAACTGAATTAGAAGAGAATGTAAAAATGATTCTTTTGAAAAATCAATATTACTTAAACGTACTATTAAAAACTACAGAAAGTATTGTGGATTCTGTTTCTGAATATAATTTAGAGCGAAACAATAATTCGCAAATCTTTATGAATGAACTATTGTAA	MYIQLYEKLVIIQKAYENIQALGEQIYENLKNKDINAVQKLQVEQLQYIDGLKGLSSSFEEMVVQFCKEKDVEASRVSALFSYFSQEEIEKMEELQKNVTELEENVKMILLKNQYYLNVLLKTTESIVDSVSEYNLERNNNSQIFMNELL				NA	NA	NA	NA	NA
AK009_00382	1299			hypothetical protein	ATGAGATTATCTGATTATAATACACCGCTATCAGGGATGCTAGCGGCTCAAATGGGATTACAAACAACGAAACAAAACTTATCTAACATTCATACACCGGGTTATGTGCGTCAAATGGTGAATTACGGATCTGTTGGAGCAAGTAATGGTCATACGCCAGAACAGAGAATTGGTTACGGTGTACAAACGCTAGGTGTTGACCGTATTACTGATGAGGTAAAGACGAAGCAGTTTAATGATCAATTATCTCAGCTCTCTTACTATAACTATATGAATTCGACTTTATCACGTGTAGAGTCTATGGTTGGAACGACAGGAAAGAATTCATTATCTAGTTTAATGGACGGTTTCTTTAATGCCTTTCGTGAAGTGGCAAAAAATCCAGAACAACCAAACTACTACGATACATTAATTTCTGAAACTGGGAAGTTCACAAGTCAAGTAAATCGTCTTGCGAAAAACTTAGATACAGTGGAAGCGCAGACGGCAGAAGATATTGAAGCGCATGTTAATGAATTTAATCGTCTTGCTGCTAGTTTAGCAGAAGCGAATCATAAAATTGGACAAGCAGGTACACAAGTGCCGAATCAACTTTTAGACGAACGAGATCGCATCGTTACAGAGATGTCTAAGTATGCAAACATCGAAGTATCTTATGAATCTATGAATCCTAATATTGCGAGTGTTAGAATGAATGGTATTTTAACAGTAAATGGACAAGATACATATCCACTTCAATTAAATAAAGAAAAAGACCCAATGTCAGTTGAGATTTACGGTTCAGAAATCAATGTAACTAGCGGAGCGATAAAATCAGCGATTGACACGAAAGCGAAGATTGTTGATTATAAAAAAAATCTTGAAGACTTAATGAGTTCAGTGAAAAATCAAGTGAATACAGTGATGGGAAAAGATTTCTTCGTTGGAGATCATGCGAAAGATATGAAGTTAAATCCAGAATTTCAAAAAGATATTTCGAAAATGAAAATATCTGCTGAAACAGCAAATAAACTAGCAGCAATTACAGATGGAGACTATAAAGAAGGTCTTTCTTATAAAGCAGCATTAGACCAATTCATAGTTCGTGTAGCTTCTGATAAAAGTGCAGTGAATGCTTATCAAAAAATTCATGGGGACTTATTAGAAGGCATTCAGCAAGAAAAGATGAGCGTTGAAGGGGTAAATATGGAAGAGGAAATGGTAAATTTAATGGCCTTCCAAAAATATTTCGTGGCGAACTCTAAAGCTATTACTACGATGAATGAAGTGTTTGATAGTCTATTTTCGATTATTCGATAG	MRLSDYNTPLSGMLAAQMGLQTTKQNLSNIHTPGYVRQMVNYGSVGASNGHTPEQRIGYGVQTLGVDRITDEVKTKQFNDQLSQLSYYNYMNSTLSRVESMVGTTGKNSLSSLMDGFFNAFREVAKNPEQPNYYDTLISETGKFTSQVNRLAKNLDTVEAQTAEDIEAHVNEFNRLAASLAEANHKIGQAGTQVPNQLLDERDRIVTEMSKYANIEVSYESMNPNIASVRMNGILTVNGQDTYPLQLNKEKDPMSVEIYGSEINVTSGAIKSAIDTKAKIVDYKKNLEDLMSSVKNQVNTVMGKDFFVGDHAKDMKLNPEFQKDISKMKISAETANKLAAITDGDYKEGLSYKAALDQFIVRVASDKSAVNAYQKIHGDLLEGIQQEKMSVEGVNMEEEMVNLMAFQKYFVANSKAITTMNEVFDSLFSIIR	PGPT0015195_2914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
AK009_00383	864			hypothetical protein	ATGAGAGTATCTACATTTCAAAATGCAAACTGGGCAAAGAATCAGTTAATGGATTTGAACGTGCAACAGCAATATCATCGAAATCAAGTAACTTCAGGGAAGAAAAATCTTCTTATGAGTGAAGACCCACTTGCGGCAAGTAAGTCATTTGCGATTCAACATTCATTGGCGAATATGGAGCAAATGCAAAAAGATATAGCGGATTCGAAAAATGTATTAACACAAACTGAAAATACTTTACAAGGTGTTTTGAAATCTCTAACGAGGACAGATCAATTAATGGTGCAGGCATTAAGTGAGCAAAATGGTGAAAAAGAATTGAAGGCCATTGGTGCAGAGATTGATCAAATTTTAAAACAAGTTGTATATTTAGCGAATACGAAAGAGCAAGGTCGTTATATTTTCGGTGGTGATAGTGCAGAAAAACTGCCATTTACAGAAGATGGTACGTATCAAGGTGGACAAAATGATGTGAACTGGCAACTAAATGACGGTTATGAAATAAAAGCATTTCGAAACGGAGAGGCATTATTATCTCCGGTTATAAAGACGTTAAAACAGATGAGTGAAGCGATGCAAAAAGGTGATCAAAAAGCGTTACAACCGTTATTAGGAGAAAACAAGAAAAACTTAGATGGCATCATTAACCGTACAACTGAAGTTGGTTCAACAATGAACACAATGGAGACGTTTAAAACAATTTTAAGCGAACAAAATTTAGCGCTTCAAGAAAACCGTAAAGAAATTGAAGATGTCGACTTAGCGGTAGCAATTTCCGACTTAGCATATATTAATGCAACATATGAAGCGACGTTAAAAGCTGTTAGTACGATGAGTAAAACGAGTATTTTAGATTATATGTAA	MRVSTFQNANWAKNQLMDLNVQQQYHRNQVTSGKKNLLMSEDPLAASKSFAIQHSLANMEQMQKDIADSKNVLTQTENTLQGVLKSLTRTDQLMVQALSEQNGEKELKAIGAEIDQILKQVVYLANTKEQGRYIFGGDSAEKLPFTEDGTYQGGQNDVNWQLNDGYEIKAFRNGEALLSPVIKTLKQMSEAMQKGDQKALQPLLGENKKNLDGIINRTTEVGSTMNTMETFKTILSEQNLALQENRKEIEDVDLAVAISDLAYINATYEATLKAVSTMSKTSILDYM	PGPT0015505_2768	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
AK009_00384	1320			hypothetical protein	ATGGCAGTTACATCAACAGGTATTGGTAATAGACAACAAATTTGGAATCTAGGCAATAATATAATAGATACTTCAAAGCTAGTAGAATTAGAATTACAAGCGTTGGATATGAAGAAAACTCCTTATAATAATGAAAAGGAACAACTTACACAAGAAAAATTATTATATGCAAGTTTGAAAAAGGAATTTAGTTCTCTAACACAAACAATGAAAGATTTATCTAGTTTTAAAGGGAATGAAAAAAAAGTAACACTCTCTCAAGAAGGATATATTAGTGTGACAGCAGATGCTTCAGCAATTGCAGGAACCTTTAATATTGAAGTCAAAGAATTGGCTCAACGCCATCAAATTTCAAGTGAAAAGATAGCGGATTTAGATGCTAAAATTGATATGGAAGAAACAATAAAGATTAACAATCAGGATATTGTAATTACAAAGGATACTACATACCGTCAATTAATAAATAAAATTAATAGTGGAAATTATGGAGTTTCGGCATATTCTCTTGGAAATAAGATATTCTTTTCTTCTTCAAAAATGGGCGAAAAGGGAGCTATTAAGTTAGAAGATAGCGGTCAATTTTTAGAAAAGATGGGATTTGTAAAAACAGATGGTACACTTAATGAAATAGAAAAGGCTAAAAATTCAACATATGTAATTAATGGGGTTGAAGAGCATGGAGAGTCAAATACAATAGAAACTCTTCCAGGTGTTAAAATTCAACTAGATAAATCTGAGGTAGGAAAGAGCGTTAAATTTACAGTAGAAGATTCAAATGTAAAAGAAGCGAATGAACTTATAAAAAAAATGGTAAGCAATTATAATCAAGCGGTATCTACAGTAGAATTATTTGGTGGGAAAAATGGAGCGCTTCAAGGCCAAAATATTATGGGTGATATTAGAAGGATTATGAATAATATTGTAACATACTCACAAGATGGAAATTATTTGTTTTCGTATGGTATTCAGGTGACAAAAGAGGGTACATTACAAGTTGATGAAGCAAAATTAACAAACGCTTTGAAAGAAAACCCGGATGCGGCAAAACAATTCTTTTTTAGTGCAGATGGTCTTGGAAAACAAATAGATACACAATTTAATAAGATATTCGGTGACGTGGGAATCATAGGAGAAAGAATAAAAATTATAGATGACCGTGTGGGGAAACTAGATCGTAAAATCAATGATATTGACATTCAAAATAAGCAAAAACAAGATGATATTGTAAAGAAATATCAAAAATTAGAAAGTACATTAGCGGCGCTTGATAGTCAGCTAAAAACAATTAAAGCAATGACAAAACAAAAAAGTGATGATTAA	MAVTSTGIGNRQQIWNLGNNIIDTSKLVELELQALDMKKTPYNNEKEQLTQEKLLYASLKKEFSSLTQTMKDLSSFKGNEKKVTLSQEGYISVTADASAIAGTFNIEVKELAQRHQISSEKIADLDAKIDMEETIKINNQDIVITKDTTYRQLINKINSGNYGVSAYSLGNKIFFSSSKMGEKGAIKLEDSGQFLEKMGFVKTDGTLNEIEKAKNSTYVINGVEEHGESNTIETLPGVKIQLDKSEVGKSVKFTVEDSNVKEANELIKKMVSNYNQAVSTVELFGGKNGALQGQNIMGDIRRIMNNIVTYSQDGNYLFSYGIQVTKEGTLQVDEAKLTNALKENPDAAKQFFFSADGLGKQIDTQFNKIFGDVGIIGERIKIIDDRVGKLDRKINDIDIQNKQKQDDIVKKYQKLESTLAALDSQLKTIKAMTKQKSDD	PGPT0015200_2464	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
AK009_00385	369			hypothetical protein	ATGCAAGCATGGCAACGTTATATGCAAAATGATATTATGACGAGTAATCCGATTAAAAATACAATTTTTATTTATGAAAGATGTATTGTAGAGTTTCGTAATTTAGAAGAACTTTTACATACTTTTAACTTACAAGAAGGAGATGCGCTTCTTGAAAAGTTAGAACGTATTTTTGAAGAATTAAAACTTCAATTAAACCCTGAAATTACAAAAGATTTATATGATAGTTTATATGGCTTATACGATTGGATTAGCATTCAAATTCAAACGATGAAAGTGACTCGTGAGGCAAAAGACATGGATGCAATTGTGAAAGTATTACAAGATTTAATAGATGGTTACCGCGGAGCACTTGAAAATGAACAATGA	MQAWQRYMQNDIMTSNPIKNTIFIYERCIVEFRNLEELLHTFNLQEGDALLEKLERIFEELKLQLNPEITKDLYDSLYGLYDWISIQIQTMKVTREAKDMDAIVKVLQDLIDGYRGALENEQ	PGPT0015620_2170	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
AK009_00386	273			hypothetical protein	ATGAACAATGATATTTATCGGACGTTTGTCGGCTGTTTTAATGAAATCGGTGAATTGCAAGTGTCAGATGGAGAGTTTGCTGAGAAGAGTGAAATGTTAAATCGCTGGATGATGACATTGGATGAAGAAACACGTGCACAAGTTGCAGCAGAAGTAAGCCCATTCATTATTAAGGCAGCTCAGCATATTCGAGATAAGCAAAAGATTTTGGAAGAAATGATAATGGAAAATGATGGGCGGATGAAAGCTAATTCATTTTACGGTAAATATTAA	MNNDIYRTFVGCFNEIGELQVSDGEFAEKSEMLNRWMMTLDEETRAQVAAEVSPFIIKAAQHIRDKQKILEEMIMENDGRMKANSFYGKY				NA	NA	NA	NA	NA
AK009_00387	408			hypothetical protein	ATGCCAGATTTAGTGAGTGATGTAAGCCATTATATGAATTATTTAGTAACGAAACGAAATACGGTTTCTAGTAATATTGCAAATGCGAATACACCTGGCTATAAAGCACAAGATGTAACATTTGCTGAGCAGATGAATAAAAGTAGTGCATTATATAAAAACAATGCGGCTGATTTAAAGAGCAATCCAGATTTATATCAAACGAATGAAATGCACTTGCCGACAGTAAATATGAAAAATACATATGCAAAGATTCAAACAAAATCAATGCAAACGAATAAAGACGGAAATAGTGTGGATGTAACGACAGAAATGCTAGATTTAATGAAAGCAAATCAGTTATACGGTATTTCAATTAACGCGATTAATACACAATATGCAATTAACCAAGCGGCACGCGGACGTTAA	MPDLVSDVSHYMNYLVTKRNTVSSNIANANTPGYKAQDVTFAEQMNKSSALYKNNAADLKSNPDLYQTNEMHLPTVNMKNTYAKIQTKSMQTNKDGNSVDVTTEMLDLMKANQLYGISINAINTQYAINQAARGR	PGPT0015470_1113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
AK009_00388	414	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGTTTCAGGCAATTAATGCAAGTGGCTCAGGGCTAACGACAGCGAGAAAGTGGATGGAAGTTACTTCTAACAATATTGTAAATGCGAATACGACGGCGGCTCCGGGGGCAGATTTATATGAGCGTCGTAGTGTGGTGCTAGAATCAAACAATAGTTTTGCAAGTATGTTAGATGGTGCTCCTACTAATGGAGTAAAAATAAAAAGTATTGAAGCAGACAAAACGGAAAATTTAGTGTATGATCCGACGCATCCGCACGCAAATGAAGAAGGATATGTACGTTATCCAAATATTGATGTAACTGCTGAAATGACGAATGTAATGGTTGCTCAAAAAATGTATGAAGCGAATACGAGTGTATTAAATGCAAATAAAAAAATGCTTGATAAAGATTTAGAAATCGGCCGAGGATAA	MFQAINASGSGLTTARKWMEVTSNNIVNANTTAAPGADLYERRSVVLESNNSFASMLDGAPTNGVKIKSIEADKTENLVYDPTHPHANEEGYVRYPNIDVTAEMTNVMVAQKMYEANTSVLNANKKMLDKDLEIGRG	PGPT0015475_1552	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
AK009_00389	300	fliE		Flagellar hook-basal body complex protein FliE	ATGAAAATCCAACCAATGTTACATACACAACCATTTGGAGCAATTCAGTCAATTGGTGCACCGAAAACTTCTCAAACATCTGTAGTTGAGGGGAAAAAGTTTATTGATTTATTGGAAGATATGAATCAAACGCAAAACAATGCACAAACAGCAGTATATGATTTACTAACTAAAGGGGTAGGAGAAACACATGACGTTTTAATTCAGCAAAAGAAAGCTGAGTCTCAAATGAAAACAGCTGCTCTCGTACGTGATAATCTTATTGAAAATTATAAGTCACTAATTAATATGCAAATTTAG	MKIQPMLHTQPFGAIQSIGAPKTSQTSVVEGKKFIDLLEDMNQTQNNAQTAVYDLLTKGVGETHDVLIQQKKAESQMKTAALVRDNLIENYKSLINMQI	PGPT0015515_2150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
AK009_00390	1578			hypothetical protein	ATGGAAAAGATGAAAAATGTTATCCAATCGTTAAAAACGTGGCATAAGTTAGTAATTGGTGCTGCGCTTTTAGCGATTGTAACAGGAGCACTTTTATACTTCACCTTGCCAGATAAATATGTTGTTGTATATCAAAATTTAAATGATACAGATAAACAAGAGATTACAGCAGAATTATCGAAGTTAGGTGTCGATTATCAATTAGCGGCCGATGGTTCGATTCGTGTGCAAAAGAATGATGCTCCATGGGTTCGAAAAGAAATGAATGGGATGGGCTTACCGTTTAATTCTAAAAGCGGTGAGGAAATTTTATTAGAAAGCTCGCTCGGTTCAAGTGAGCAAGATAAAAAAATGAAACAAATTGTCGGTACGAAGAAGCAATTGGAGCAAGATATTGTAAGAAACTTTGCGACAGTTGAAACGGCAAATGTTCAAATTACATTGCCTGAAAAAGAGACGATTTTTGATGAAGAAAAAGCAAAAGGAACAGCGGCGATTACGGTTGGAGTGAAGCGTGGCCAATTGTTAACAGCTGATCAAGTTGCAGGTATACAGCAAATGATAAGTGCAGCAGTTCCTGGTGTGAAGGCAGAAGAAGTAAGTGTTATTGATAGTAAAAAAGGTGTTATCTCAAAAGGAGCAGATGAAGCGCATTCTAGTAGTTCCTCTTCTTATGAGAAAGAAGTAGAGATGCAGCATCAACTTGAAGGTAAATTAAAGCAAGATATTGATGCAACATTAATGACGATGTTTAAACCGAATGAATATAAAGTGAATACGAAAGTATCTGTAAACTACGATGAAGTTACACGTCAGTCAGAAAAGTATGGTGATAAAGGTGTACTTCGTAGTAAACAAGAGCAAGAGGAAAGCTCTACTGCGCAAGAAGGGACAGATACGAAGCAAAGTGCTGGTATTACAGCAAACGGTGAAGTGCCGAACTACGGTACGAACAATAATCAAAATGGTAAAGTTGTTTATAATAATAAAAATGGTAATAAAATAGAAAACTATGAAATAGATAAAACAGTTGAAACAATTAAGAAACACCCAGAATTAACGAAAACAAATGTTGTTGTATGGGTAGATAATGATACGCTAGTAAAACGTAGAATGGATATGACAACTTTTAAAGAAGCAATCGGAACAGCGGCAGGACTTCAAGCTGATCCGAACGGTAACTTTATAAATGGTCAAGTTAACGTTGTAACTGTTCAGTTCGATCAGCCGAAAGTCGAAAAAGAGAAAGAGCCAGAAAAAAGTGGCATGAACTGGTGGTTATTCGGTGGAATTACAGCTGGCTTATTAGCGATCGGTGGTCTAGTATGGTTCTTATTAGCAAGACGTAAGAGAAAGAAAGAAGAAGAAGAGGAATATGAAGAATACTTAGCAGAAGATGAAATTGCTGCAAGTAATGAAAGTATCTTGGAAATTCCTGAAGAAAAAATAGTGCCAGAGCCAAAACCTGAACCAGAAGAACCGAAAGAACCAACGTTAGATGAACAAGTGCAGGATGCTACGAAAGAACATGTAGAAGGTACTGCAAAAGTAATTAAAAAATGGCTAAACGGACAGTAA	MEKMKNVIQSLKTWHKLVIGAALLAIVTGALLYFTLPDKYVVVYQNLNDTDKQEITAELSKLGVDYQLAADGSIRVQKNDAPWVRKEMNGMGLPFNSKSGEEILLESSLGSSEQDKKMKQIVGTKKQLEQDIVRNFATVETANVQITLPEKETIFDEEKAKGTAAITVGVKRGQLLTADQVAGIQQMISAAVPGVKAEEVSVIDSKKGVISKGADEAHSSSSSSYEKEVEMQHQLEGKLKQDIDATLMTMFKPNEYKVNTKVSVNYDEVTRQSEKYGDKGVLRSKQEQEESSTAQEGTDTKQSAGITANGEVPNYGTNNNQNGKVVYNNKNGNKIENYEIDKTVETIKKHPELTKTNVVVWVDNDTLVKRRMDMTTFKEAIGTAAGLQADPNGNFINGQVNVVTVQFDQPKVEKEKEPEKSGMNWWLFGGITAGLLAIGGLVWFLLARRKRKKEEEEEYEEYLAEDEIAASNESILEIPEEKIVPEPKPEPEEPKEPTLDEQVQDATKEHVEGTAKVIKKWLNGQ	PGPT0015430_2533	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
AK009_00391	1005	fliG	COG1536	Flagellar motor switch protein FliG	ATGTTAGATGAAATCTCCTCCAAAGAAAAAGCTGCCATCCTTATTCGTACATTAGAAGAAGGGGTGGCAGCAAAAGTCATTGAATATATGACAGCTGAGGAAAAAGAAGTATTACTTCGTGAAATCGCGAAGTTTCGTGTATATAAACCAGAAACGTTAGAAAATGTACTAGGAGAGTTCTTATATGAACTAAATGTAAAAGAATTGAACTTAGTCACTCCAGATAAAGAATACATTCGTCGCATATTTAAAAACATGCCAGAAGACGAACTGGAAAAATTATTGGAAGACCTTTGGTATAACAAAGATAATCCATTTGAATTCTTAAATTCACTTACAGATTTAGAGCCACTTCTTACAGTGCTTAATGATGAATCACCACAAACAATTGCAATTATCGCTTCTTATATTAAACCGCAGCTTGCGTCTCAATTAATTGAGAGATTGCCAGATCATAAACGAGTAGAGACGGTAATGGGTATTGCGAAGTTAGAACAAGTTGATGGTGAATTAATTAATCAAATTGGTGAGTTGTTAAAATCGAAATTAAATAATATGGCATTCAGTGCAATTAATAAAACTGATGGCTTGAAAACGATCGTAAACATTTTAAATAACGTTTCACGAGGTGTTGAAAAAACAGTCTTTCAAAAGCTGGATGAAGTCGATTATGAGTTATCTGAGAAAATTAAAGAAAATATGTTTGTCTTTGAAGACTTACTTGGTCTTGAAGCTCTTGCGCTTCGCCGTGTATTAGAAGAAATTACAGATAACGGTGTTCTTGCGAAAGCACTTAAAATTGCAAAAGAAGAAATTAAAGAGAAACTATTTACATGTATGTCTTCAAACCGTAAAGAGATGATTCTAGAAGAATTAGATGGCTTAGGACCGCTTAAGATGACGGATGCTGAAAAAGCGCAGCAAACGATCACTGGTACAGTGAAAAAGCTAGAGAAAGAAGGAAGAATTATCGTTCAAAGAGGTGAAGAGGATGTCCTTATTTAA	MLDEISSKEKAAILIRTLEEGVAAKVIEYMTAEEKEVLLREIAKFRVYKPETLENVLGEFLYELNVKELNLVTPDKEYIRRIFKNMPEDELEKLLEDLWYNKDNPFEFLNSLTDLEPLLTVLNDESPQTIAIIASYIKPQLASQLIERLPDHKRVETVMGIAKLEQVDGELINQIGELLKSKLNNMAFSAINKTDGLKTIVNILNNVSRGVEKTVFQKLDEVDYELSEKIKENMFVFEDLLGLEALALRRVLEEITDNGVLAKALKIAKEEIKEKLFTCMSSNRKEMILEELDGLGPLKMTDAEKAQQTITGTVKKLEKEGRIIVQRGEEDVLI	PGPT0015400_1851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
AK009_00392	690			hypothetical protein	ATGTCCTTATTTAAAAACAGAATTCCGAAGAATTCTGTTTCTTTTTCTGAAGAAACGTATGAATTACAATTTCCAAAACCAGCTTCAGTCCAAATAGAAGAGGAAGAATTACAAGCTGATCATGCAGAACTTCGCGCCCAGCAAGAATCATTACATATGGAAATGAATCAGCTAAGGCAAGAGCAGCAAATGCTAGAAAGAGAGCGGCAGCAGTTATTACAAGATAAAGAACAATTTCAAATGCATATTCATGAACAAATGGAACAGATGGAAGCAGCGCGTGTGCAGTTTCAAAAAGAACAACAAGAAACAGCATACGAATGGACAGAGTTATTATGGGATCAATCTTTTCATCTAGCAGAAAAAATCGTGAATCAAGCGGTAGATTCACGATTGCTTGATGTGTTACCTATTTTAACTGGCATCGTGCAAACATTGCCAACTTCGTTTGAAAAATTAATCATTACAGTACATCCAGAAACGTTTGAACGTATTCAAGAAGAGAAGGAAAATACGAAAGAATATTGGTTGCTACAATTAGTAGAATGGAAATATGATTTCTCCCTGCAGTTTGGTGAATTTGTTCTGGAAGAAGAGAAAGAGTTCTTTGAATTTAAATTTGCACCTATATTTGCGAAACTTCGTCAGAAATGGGAAGAAGAGAAGCTATTTGAGGAGCAAAATGTATGA	MSLFKNRIPKNSVSFSEETYELQFPKPASVQIEEEELQADHAELRAQQESLHMEMNQLRQEQQMLERERQQLLQDKEQFQMHIHEQMEQMEAARVQFQKEQQETAYEWTELLWDQSFHLAEKIVNQAVDSRLLDVLPILTGIVQTLPTSFEKLIITVHPETFERIQEEKENTKEYWLLQLVEWKYDFSLQFGEFVLEEEKEFFEFKFAPIFAKLRQKWEEEKLFEEQNV	PGPT0015335_1836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
AK009_00393	1305	yscN		putative ATP synthase YscN	ATGAGCCGTCTGTTAATGAATGAGAACGAAAAATGGAATAAGTTCATTGAAACACCACTGTATACGAAAGTAGGCAAAGTTCATAGTGTACAAGAACAGTTTTTCGTAGCAAAAGGGCCGAAAGCGAAGATTGGAGATGTTTGCTTCGTTGGAGAACATAAGGTCTTATGTGAAGTGATTGCTATTGAAAAAGAAAATAATATGCTACTTCCATTTGAACAGACAGAAAAAGTATGTTATGGAGATTCAGTGATTTTAATTTCAGAAGATGTTGTTGTACCACGTGGTAATCACTTACTCGGAAAAGTGTTAAGTGCAAATGGTGAAGTATTAAATGAGGACGCTGAAAACATTCCATTACAGAAAATAAAACTAGATGCACCGCCTATACATGCATTTGAACGTGAAGAGATTACTGATGTATTTGAAACAGGAATAAAATCAATTGATTCTATGCTAACAATTGGTATCGGTCAAAAGATTGGTATTTTTGCTGGATCAGGTGTTGGTAAATCTACTTTACTTGGAATGATAGCAAAAAACGCAAAAGCTGATATAAACGTTATTAGTTTAGTAGGAGAACGTGGCCGGGAAGTAAAAGACTTTATTCGAAAAGAATTAGGCGACGAAGGTATGAGAAAAAGCGTCGTTGTTGTAGCGACGTCAGATGAAAGTCATCTTATGCAACTTCGTGCAGCGAAACTCGCAACGTCTATTGCTGAATACTTCCGTGATCAAGGCAATAACGTATTACTTATGATGGACTCTGTTACTCGTTTTGCCGATGCACGAAGAAGTGTTGATATTGCTGTTAAAGAGTTACCGATTGGTGGTAAAACACTGCTAATGGAAAGTTATATGAAGAAGCTGTTAGAGCGGTCCGGGAAAACACAAAAGGGATCTATAACAGGTATTTATACGGTGCTTGTTGATGGGGACGATTTAAATGGTCCTGTACCAGATTTAGCACGTGGTATTTTAGATGGACATATTGTATTAAAGCGTGAGCTTGCAACGCTTAGTCATTATCCTGCAATTTCAGTATTAGATTCAGTAAGTAGGATTATGGAAGAAATTGTTTCGCCACATCATTGGCAACTTGCAAATGAAATGAGAAAAATTTTATCAATTTATAAAGAAAATGAATTGTATTTTAAGTTAGGAACGATTCAAGAAAATGAAGAAAATGCTTATATTTTTGAATGTAAAAATAAAGTAGAAGGTATAAATACGTTTTTAAAGCAAGGTCGATCGGATAGTTTCCAATTTGATGATATCGTTGAAGCGATACACCATATAGTATAA	MSRLLMNENEKWNKFIETPLYTKVGKVHSVQEQFFVAKGPKAKIGDVCFVGEHKVLCEVIAIEKENNMLLPFEQTEKVCYGDSVILISEDVVVPRGNHLLGKVLSANGEVLNEDAENIPLQKIKLDAPPIHAFEREEITDVFETGIKSIDSMLTIGIGQKIGIFAGSGVGKSTLLGMIAKNAKADINVISLVGERGREVKDFIRKELGDEGMRKSVVVVATSDESHLMQLRAAKLATSIAEYFRDQGNNVLLMMDSVTRFADARRSVDIAVKELPIGGKTLLMESYMKKLLERSGKTQKGSITGIYTVLVDGDDLNGPVPDLARGILDGHIVLKRELATLSHYPAISVLDSVSRIMEEIVSPHHWQLANEMRKILSIYKENELYFKLGTIQENEENAYIFECKNKVEGINTFLKQGRSDSFQFDDIVEAIHHIV	PGPT0015340_2493	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
AK009_00394	411			hypothetical protein	GTGGATAAACAGCAGTACGACACAATAAAATTGCAAATAAATCAAGAAAAAGAACATATTTTAAAAGAAGTGTATGAATTAACAGCTGAAAAAAGAAAAATAGAACAAAAAAAAGAATATGATTTATATGTTGTGAAATCGCGTAGTAAAGTCGTACAAACTGGGCAACGTATTATGGCTGGCATGCTTTCTTCACATACGTTTTCACCTGAAAGAATAGAAGAATGGAATCGAAAAATTAAAAAAACGGAAGGTTTTATTCAAAAAAATGAAAGCCTTTTAGAGCAAGTAAAAGAAAAAGAACGTGTCATTGATGAGATGTATCAAGAAAATTGCAAAAAGCTTGCGAAAGCACAAGAAAAGCTGGAAGAAAAAATGCTTCTGGATTTGAAAATGTGTATGAATGGATGA	MDKQQYDTIKLQINQEKEHILKEVYELTAEKRKIEQKKEYDLYVVKSRSKVVQTGQRIMAGMLSSHTFSPERIEEWNRKIKKTEGFIQKNESLLEQVKEKERVIDEMYQENCKKLAKAQEKLEEKMLLDLKMCMNG				NA	NA	NA	NA	NA
AK009_00395	1110			hypothetical protein	GTGATACAGTCTGTATTACCGGTGCAACAAAGTTTACCTCCGCAAAAAGACAAAGGGCTAGAAATACAATCAAAAAATGAAGATTCTTCATTCGATCGTACGATGAGAATGGAAAATAAAAAACAGCCGAAAACGGAGAAAACGAAACGAGAAGAAGCACCAACAGAAGAGAAAAAAGATTATATTCTTTCTAAAAAATCGGTAACGAAAGAAGAGCCTATTGTAAAGAAAGAAGAAAAAAAAGAGACAGAACAGTTGTTATTAGCTGTATCTGAGCAAATGGTTGCAATTGAGCAATTACATGTGCAGCCGGAATTGTTATATCAATACATACAAAAAATACAAGAGCTATATCAAGAATATGGCAATATTAAACTTAATGAATTACCTGCAGCTGAATTACAACAATTACAAGAACTTCTTTCAAATATGAATATCAAAAATGCTATATGTTTAGAAGATACAATGCAAATGGTATTAGACAAAATGAAGATGCCGGAGCAAACGATGCAAGCATTGAAGGTTGTAGAAACAGAAACTTGTAATATCGCAAAGAAACAAGAAGAGTTTAAAGACGTAGATCTTCCGAAAGGTGAGAGCGATGATGCAAAGGTAGAGTTGCCAGAGGTTGATGCATTAAATGATTCGAGCTCTACAGGTGCAGAGTTATTAAATAAAACGACGAGTACCGAACACATAGGGAAATCAAATAGTGGTGCTGAGAAAGTTTCATTACCTGACTTAGGAAAGAAAATGGAAGCGCAAGTAGAAGCGCTGCAAAAATTTGTAGTGAAACAAGAACGTGTTTTATTCCAGTTAAATCCAGAAAAACTTGGTACATTAACAGTATTTATGAAAAAACACGGAGATCAAATTGACGTTCACGTAGAAATGGAAAAACACGATGCGAAAAAACGTGTTGAAATCATTTTTGATGAATTGAAATTAAAGTTAAAAGAAAAAGAAATAAACATTCAAATTAGCTATTCAGATAAAGATGAAAATCGTAAAGAACAGCGAGAACAAGAGCAAAGGCAAAAACAGAAATTAGCAAATACAAATCATGAAAAACAACAATCAACAGAATTTGCGGGATTATTGGAGGAATAA	MIQSVLPVQQSLPPQKDKGLEIQSKNEDSSFDRTMRMENKKQPKTEKTKREEAPTEEKKDYILSKKSVTKEEPIVKKEEKKETEQLLLAVSEQMVAIEQLHVQPELLYQYIQKIQELYQEYGNIKLNELPAAELQQLQELLSNMNIKNAICLEDTMQMVLDKMKMPEQTMQALKVVETETCNIAKKQEEFKDVDLPKGESDDAKVELPEVDALNDSSSTGAELLNKTTSTEHIGKSNSGAEKVSLPDLGKKMEAQVEALQKFVVKQERVLFQLNPEKLGTLTVFMKKHGDQIDVHVEMEKHDAKKRVEIIFDELKLKLKEKEINIQISYSDKDENRKEQREQEQRQKQKLANTNHEKQQSTEFAGLLEE				NA	NA	NA	NA	NA
AK009_00396	579			hypothetical protein	GTGCCAACAGTTGGATTAAATACAACGAGTACAAATCATATTCCGTTACAAACAGGAGCGCAAAAAAGTAATGTACCTGTTAATGGTGTACAATCGCCAGTGCAACAAAGTAATGGAGTTTCTGCAGGAGCGCAAAAGACTCCTGGGGTAATGGGGAAAGATGATTTCCTGAAATTGTTTTTATCAAGTTTTCAACATCAAGATCCATTTAATGCGATGGATATGAATCAAATGATGAATCAGACAGCACAGTTATCTCTTATGGAACAAGTACAGAATATGACGAAAGCAGTAGATAAGCTGCAATCAACGATGTATTCAACAGCACTTGATGGTGGAATGAAGTTTTTAGGTAAATACGTAAGAGGTGTTGACGGCGACGGAAACAAAGTAACCGGTCAAGTAGAAACGGTTCGCCTTGCGGAAAATAACGATGTACAGCTCGTTATTAATAATAAAGTTGTATCTCTTCGTTTCGTTGAGAGAGTGTCTGATAAACCGATTGGGGAAACGAACCCAGAAGACGCAAAGAAAGACGATCAAAAAGTAACTGAAGAAGTAAAAACTACAAATTCATAA	MPTVGLNTTSTNHIPLQTGAQKSNVPVNGVQSPVQQSNGVSAGAQKTPGVMGKDDFLKLFLSSFQHQDPFNAMDMNQMMNQTAQLSLMEQVQNMTKAVDKLQSTMYSTALDGGMKFLGKYVRGVDGDGNKVTGQVETVRLAENNDVQLVINNKVVSLRFVERVSDKPIGETNPEDAKKDDQKVTEEVKTTNS	PGPT0015480_2083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
AK009_00397	1224	flgE	COG1749	Flagellar hook protein FlgE	ATGATTAAAGCGTTATATACAAGTATTACAGGAATGAATGCAACACAAAATGCATTAAGTGTAACTTCAAATAATATTGCCAATGCACAAACAGTAGGTTATAAAAAACAAAAAGCAATGTTTGATGATTTACTATATAACAATTCGATTGGTGCAAAAGGTGACGGTAAATATGCAGGAACGAATCCGAAAAGTATTGGTAACGGTGTAAAAATGAGTGGTACGGTTACGGATTATAGTGATGGTACAATTACGTTAACAGGTGGCAAAACACAAGCAGCAATGGAAGGTAATGGTTTCTTCGTTGTAGGTGATTCAAAAGGCGGAAATATGGAATTTACTCGTAAAGGTACGTTTGGGATATCTTCAGATTACTATATTACGAATACTGAAGGTCAATACGTGTTTGCATACCCTGCGAATGAGGCAACTGGTGAGGTTGATTTATCTGGAATTCCAGGACCGTTGCAAATTCCAATGGGAACAGCAATTGGTGGTATTCGAACATCGAAAGGGACAATTAAAGGGAATATTCCAACTGGTGAAAAACAAATTACACAAGATTTACCTGTATATGATAATGCAGGGAATACATGGACAATGCGTGTAGAGTTTAAACAAACGAGTGAACATAATTATACATATAAAGTACAAATGCGCAATGACTCGAAAAAAGAAACAGAGTTTAAAGATGTTCAAGGTGCAGGTGGTAATATGACATTTGATGCTGTTGGAAATCCAAATCCGAAAGAGCAAGGAGCCAATATTCCGTTTGATGGAGGCTCTATAAAATTAGACTTAAGTCATTTAACAAATCATCCAACAGATAAAACATTATCAGTAACAGACGTAGATGGTAGAGCAGCAGCGACGGTTAAAGATTGCTTCATTGCTGACGGTGGATATGTAATGGTAAAATATTCTGATGGAAGTATGAAATCAGCTGGTCAATTAGCTGTTGCGATGTTCCCGAACGAAGGTGGACTAATGAAAACAGGTAATGGTAACTATACAGCGACGAATACAACAGGTATTTTAGCACTTGGTGCATCTGGTCAAAATGGTGCAGGTAAAGTACGCGGTGGTGCACAAGAAGGTGCCAATGTGGATTTATCTGTAGAATTCGTTGACTTAATGTTATACCAACGCGGATTCCAAGGAAATGCGAAAGTAATTAAAGTTTCAGATGAAGTATTAAATGAAGTTGTAAACTTAATTCGATAA	MIKALYTSITGMNATQNALSVTSNNIANAQTVGYKKQKAMFDDLLYNNSIGAKGDGKYAGTNPKSIGNGVKMSGTVTDYSDGTITLTGGKTQAAMEGNGFFVVGDSKGGNMEFTRKGTFGISSDYYITNTEGQYVFAYPANEATGEVDLSGIPGPLQIPMGTAIGGIRTSKGTIKGNIPTGEKQITQDLPVYDNAGNTWTMRVEFKQTSEHNYTYKVQMRNDSKKETEFKDVQGAGGNMTFDAVGNPNPKEQGANIPFDGGSIKLDLSHLTNHPTDKTLSVTDVDGRAAATVKDCFIADGGYVMVKYSDGSMKSAGQLAVAMFPNEGGLMKTGNGNYTATNTTGILALGASGQNGAGKVRGGAQEGANVDLSVEFVDLMLYQRGFQGNAKVIKVSDEVLNEVVNLIR	PGPT0015485_2183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
AK009_00398	336			hypothetical protein	ATGACAAGACAAGAGCGAATTTTACAATTGCCTTTTTTCGAAAATAAACGTGAACTTGCCGAGCAAGTATTAAAAATAGAACGAGAAGAGCATGTATATTTACCAGATCAATTTGAAATTAAGCAAGTGCCTCCGTATTCATTTGGCGAAAAACAAGCAATCATTGGCCGTATCCATGAGTTTTATTTCATAAGTGTTGGTAGCGATAGCGTTTGGAAGTATCAGCTGTTTAAGGATGAGATGAAGTGTCGTGAGTTTTTTGTTATGTTGCCAAATATTACGGATCAGCAGATAGCGTTTTGGTTTAATAACATAGAGTTATTGAAAAGTTCTTAA	MTRQERILQLPFFENKRELAEQVLKIEREEHVYLPDQFEIKQVPPYSFGEKQAIIGRIHEFYFISVGSDSVWKYQLFKDEMKCREFFVMLPNITDQQIAFWFNNIELLKSS				NA	NA	NA	NA	NA
AK009_00399	486			hypothetical protein	ATGGCGCAAAATAAGTATCGCGTTACATTCATTTCGCCGAGTGAGGTTGAGCAGCGGACTGTAATGGCGGCGAATAGTTTGCCAGATTTAATCCGTAAAGTAGAGAGTATTATTGCCGATCCAAACGGTTATTTTGTGAATGATAAAAAAAATAATTGTTATTTTAAAGTGATTAAAGAAAATGTTACGTTTATTCAATATGAGTTACTATTTTCTGATAAGGAGATTCATATTGAAAAATTAAAACATATAGCACCGGTGGTATTAAAACGATTATTCGAAAAAATAAATGACCCGGAATTATATGCACTTGCGCTACTTGATGTTGATATAGCAACGAAAGAATATGTGCTAGCAGAAATGAATTCTGAGCTGAGAATAAGAGTAGAGACGGAGCTTTCGAAAAAATGGGAAGCAATGCCGACAGAAATTGTAGGAGCGCAAGAAGTGTTATTAGAAGCACTTGCTTCGTTTATACAAGATTAA	MAQNKYRVTFISPSEVEQRTVMAANSLPDLIRKVESIIADPNGYFVNDKKNNCYFKVIKENVTFIQYELLFSDKEIHIEKLKHIAPVVLKRLFEKINDPELYALALLDVDIATKEYVLAEMNSELRIRVETELSKKWEAMPTEIVGAQEVLLEALASFIQD				NA	NA	NA	NA	NA
AK009_00400	909	cheV	COG0784	Chemotaxis protein CheV	ATGTCACAAGCACAAAGTATTTTATTAGAAAGCGGAACAAATGAATTAGAGATTGTTACGTATACTGTTGGTGAAAACCTATTTAGTATTAATGTTATGAAAGTACGTGAAATCATTAATCCATTCCCTGTTACAACTGTGCCAGAATCTCATCATGCAGTTGAAGGTGTTGTTCAAGTACGTGGTGAAATTTTACCTGTTATTAACTTGGCAATGGCTCTTAATTTAAAGTCAACAAAGCCACTTGATCAAACGAAATTTATCATCTCAGAATTAAACCAAATGAAAGTTATTTTCCGCGTTGATGAAGTGCATCGTATTCAACGTATTTCGTGGGAACAAATTGATGAACCAGCTTCATTATCTATGGGACTAGAAGAAACGACATCTGGTATTGTAAAACTAGATGGCAAAATCATTTTACTATTAGATTATGAAAAAATTGTATGTGAAATTAGCGGCACTGGTTATGACAATAAATCAATTGCAGGGTTAGAACAAAAAACAGATCGAGCTGAAAAAGTAATTTATATTGCAGAAGATTCAGCGATGCTACGCCAAATATTAGAAGAAACATTATCATCAGCTGGATATACGAAAATGAACTTCTTCAGCAATGGTGCAGAAGCGTTAGCGCAAATTGAAAAATTAGCGAAAGAGCAAGGCGAGAAAATGTTTGAACATATTCACTTGCTAATTACGGATATTGAAATGCCAAAAATGGATGGACATCATTTAACGAAAGTGGTTAAGGATAGTGAAGTAATGAATCGTTTACCAGTCATTATTTTCTCTTCATTAATTACAAATGAATTATTCCATAAAGGTGAAGCTGTAGGAGCAAATGCCCAAGTAAGTAAGCCAGATATTCAAGAGCTAATTGGTTTAGTTGATAAGTTAGTGCTTTAA	MSQAQSILLESGTNELEIVTYTVGENLFSINVMKVREIINPFPVTTVPESHHAVEGVVQVRGEILPVINLAMALNLKSTKPLDQTKFIISELNQMKVIFRVDEVHRIQRISWEQIDEPASLSMGLEETTSGIVKLDGKIILLLDYEKIVCEISGTGYDNKSIAGLEQKTDRAEKVIYIAEDSAMLRQILEETLSSAGYTKMNFFSNGAEALAQIEKLAKEQGEKMFEHIHLLITDIEMPKMDGHHLTKVVKDSEVMNRLPVIIFSSLITNELFHKGEAVGANAQVSKPDIQELIGLVDKLVL	PGPT0015675_1542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
AK009_00401	948	mogR		Motility gene repressor MogR	ATGTATCACCACACAGCAATTAATGTATTAGGTCTTTTACAAAACATGTCAAATAATAAAATGAACGATATGCAACTAGAGGTGGAATTTAAAAAAATAGAAAAAGAATTCCAAGTAAAGTATGAAGAATTAGTTGATTTATATAATAGAATGGTATTATTTCAAATAGATATAGAAAAAAATGGCGGGATGCGAGCATATGAAAAATCAGCAATTACATGGCTGAAGTCTGAACTAGAGCTACTGTATGAAGTGTATCAATTTTGTCAACGTCACGGTTTAAACATTTTAAATATTTCAAAATACGTAAGTAAAAATGAACTAAATCTTTTTCCAAAAACAGAAAGTCAATTGCAAAATACGTATTATAAATTAAAAAAACGTGAAATATCGTTTGAAAATATTGAAAAACAAAAACCAGGACGAAAGCGAAAATATATACCAGTAAAAGAGACAATCGTTGCAAGAAAACAAGAAAACGAGTACGAATTAAAAGAAGAAATCCAGCATAAAGAGGATGAAAAAAATCTTGTAACAGTTATATCTGGTATTGTTGATAACTTTGAAACAATTAATCAATGTAGTGAAAGGAAAGAAGACGAACTACATCAGTTTATGGAAGGTATTTATAAGCTTTCTAGCATGGCAGCAGGGCGTTCTAGAGAGGCGAAGAATACACGTAGCTTAGAAGGTGAATTGCAGTCGTTACAACTAGAAAATGAAAGGTTAAAACGAGAAAAAGAAGAGCTTGTGCAAGATATTAAAGGCATGACGCAGCTTTTAATTCATTTCATTACAAGTTCTGATATTGATCAAATTCGTAAATTACCAACTTTCGTACAAGATTGTAAAATGGAATTACATAAACTAGGGCTATATAATGCACAAGACGGAAAAATGAAAATAATGGTTGACCGTAGCGGACAAGTTATGACGGTAACACAGTAA	MYHHTAINVLGLLQNMSNNKMNDMQLEVEFKKIEKEFQVKYEELVDLYNRMVLFQIDIEKNGGMRAYEKSAITWLKSELELLYEVYQFCQRHGLNILNISKYVSKNELNLFPKTESQLQNTYYKLKKREISFENIEKQKPGRKRKYIPVKETIVARKQENEYELKEEIQHKEDEKNLVTVISGIVDNFETINQCSERKEDELHQFMEGIYKLSSMAAGRSREAKNTRSLEGELQSLQLENERLKREKEELVQDIKGMTQLLIHFITSSDIDQIRKLPTFVQDCKMELHKLGLYNAQDGKMKIMVDRSGQVMTVTQ				NA	NA	NA	NA	NA
AK009_00402	876			hypothetical protein	ATGGCTGCTCCACCTTTTGATGCTTCATATACACGGACAATGTCACCTTTTTTCAATTTTGACACTGTAATTGCATCTGCATTTCCAACTTTATTATTTGACACTGTGATTTTTTCTACTGCCGGTGCCACTGTTGTTGGCTCCGCTTCATACTTCACTGTGACTCTCTTACTCTCATCTTTATTCGGTTTCGTTACTGTTACGTATACGGTGCCACCTGTTGATACTAGTAAATCTTTTCCTGTGATTGTTGCTTCTTTTTTGCCCTCGGCCACAGCAGCTGAAGTTGCTTTCAAGTTTCCTCCTGTTGATGCATCATATATTTTTACAATATCTCCTGGAGCCAACTCACTCACTGTAATTGTATCCGCATCTCCAGCTTTATTGTTCGCTACTTTTACTGTATCCACCGCTGGTGCCACTGTTACTTCCGATTCATATTTCATCGCTGTACGTGTACTTTCTAATTCACTTTCACTTTGTACACTTACGTACACTGTGCCACCTGTTGCTTTTAGTAAATCTTTTTTTGTAATTGTAACTTCTACTTTACCTTCTGCTACTGCTTCTGATGTCGCAATCGCTTCTCCACCTTTAGATGCTTCGTACACTCTCACAATGTCGCCTTTTTTCAATTCTGACACTGTAATTGTGTCAGTTTCACCTTTTTTATTATTTATAATATTCGCCTTTTCTACCGAAAGTGCTGCTGTTTTTGCTGATGTAACCTCAGCTGCAACAGCAGTAATTGATGGATATGTAGCTGAGACTAGTAATGCTGAACTTACACAAACGCTTGCTAAAAACTTCGAATTTTTACTTTTCATTCTCATAATCCTCCCAAAGATTATTTTTCTATTATTTTATTCCTTATAA	MAAPPFDASYTRTMSPFFNFDTVIASAFPTLLFDTVIFSTAGATVVGSASYFTVTLLLSSLFGFVTVTYTVPPVDTSKSFPVIVASFLPSATAAEVAFKFPPVDASYIFTISPGANSLTVIVSASPALLFATFTVSTAGATVTSDSYFIAVRVLSNSLSLCTLTYTVPPVAFSKSFFVIVTSTLPSATASDVAIASPPLDASYTLTMSPFFNSDTVIVSVSPFLLFIIFAFSTESAAVFADVTSAATAVIDGYVAETSNAELTQTLAKNFEFLLFILIILPKIIFLLFYSL				NA	NA	NA	NA	NA
AK009_00403	564			hypothetical protein	GTGGCACCAGCCGTAGAAAAAATCACAGTGTCAAATAATAAAGTGGAAGCAGAAGATACAATTACAGTGTCAGAACTGAAAAAAGGTGACATTGTCCGTGTATATGAAGCATCAAAAGGTGGAGAAGCAATCGTAACATCAGAAGCAGTAGCGGAAGGAAAAACAGAAGCAACAATTTTAGGGAAAGATCTTTTAAAAGTAACAGGTGGCACGGTATATGTAAGTGTACAAAGTGAAAATGAGCTAGAAAGTGCTCGTACAGCGGTGAAATATGAATCACAAGTAACGGCGGAGCCAGTAGGTGGAAATATTGTTGTTTTAAATAATGACGGAGCGGCTGATATTGTTAGAGTGACTGGTTTAACAGCAGGTGATAAGGTAAGTGTATATAATGAAGAGACAGTCCAAGAAGCAATTGGAACAGCAACGGTAGCAGAAAATAAAACGGCGGTAAATGTTGTAATCCCTCAATTAGGAGAAGTAGCAGGAAAAATCTATGTAAGTGTTACAAAAGTAAATAAAGATGAAAGTAAACGTGTTGCAATAAATTATATTGCTGAGTAA	MAPAVEKITVSNNKVEAEDTITVSELKKGDIVRVYEASKGGEAIVTSEAVAEGKTEATILGKDLLKVTGGTVYVSVQSENELESARTAVKYESQVTAEPVGGNIVVLNNDGAADIVRVTGLTAGDKVSVYNEETVQEAIGTATVAENKTAVNVVIPQLGEVAGKIYVSVTKVNKDESKRVAINYIAE	PGPT0022155_3102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
AK009_00404	264			IS3 family transposase ISBce19	ATGAGACAGTACGTCCGTACTCTTGAATCAAGAGCTATCGCCCAGAGTATGTCTCGAAAAGGCAACTGTTACGACAACGCAGTAATAGAAAATTTCTTTGGGATTATGAAGTCGGAGTTCCTCTACATAAAAGAATTTGAAAATGTAGAGCACTTTAAAATAGAATTAGAAAAATATATAGATTATTATAATACGAAACGGATTAAGGAAAAATTAAAAATGAGCCCGGTACAATACCGGACTCACTTTTATCAAGCTGCCTAA	MRQYVRTLESRAIAQSMSRKGNCYDNAVIENFFGIMKSEFLYIKEFENVEHFKIELEKYIDYYNTKRIKEKLKMSPVQYRTHFYQAA	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
AK009_00405	537			IS3 family transposase ISBce19	GTGAAGGCACTCGTGGAGCTAGCTACTATTCCTCGAAGCACGTATTATGATTTAGTAAAGAAAATGAATCTTCCAGATGTAGATGCCGATTTGAAAGCTGAGATTAAAGCGATTTATGAGGAAAATAAAGGTCGTTATGGTTACCGTCGCATTCGTGATGAGTTAACGAATCGTGGCCAGAAAGTGAACCACAAGAAGGTTCAGCGCATTATGAAAGAGCTTGGGTTAAAGTGTGTTGTGCGTATGAAGAAATATAAATCCTATAAAGGAAAAGTCGGTAGAATTGCACCTAATATTTTAGAGCGTAATTTTCATACAGATGCACCGAATCAAAAGTGGGTAACAGACATCACAGAGTTTAAATTGTTTGGAGAAAAACTGTATGTATCACCTGTATTAGATTTGTATAATGGTGAAATTATTACCTATACAATTGGTTCTAGACCGACGTATTCGCTTGTTTCAGACATGTTAGAGAAAACATTGGAACGTTTACCTGAAACGCACCAGCTACTGATGCATTCGGATCAAGGATAG	MKALVELATIPRSTYYDLVKKMNLPDVDADLKAEIKAIYEENKGRYGYRRIRDELTNRGQKVNHKKVQRIMKELGLKCVVRMKKYKSYKGKVGRIAPNILERNFHTDAPNQKWVTDITEFKLFGEKLYVSPVLDLYNGEIITYTIGSRPTYSLVSDMLEKTLERLPETHQLLMHSDQG				NA	NA	NA	NA	NA
AK009_00406	519			IS3 family transposase ISBce19	ATGGCTAAATTTACAGCTGATGAAAAAATACAAATTGTTCTACGTTATTTGAACGGAAATGAAAGTTATCGAGAAATAGGTAGATCGCTCGGTATAAGTGACACAATCATTTTGAATTGGGTAAACCAATATAAACAGAATGGTCTGGAAGCTTTTCTAAAACGATGTACAAATTACACACAACAATTTAAACTAGACGTACTAAACTTTATGATTGAAAACGGTATGTCCTTATTTGAGACGGCAGCTATCTTTAATATTCCTACCCCTTCAACGATTTCTGTTTGGAAAAAACAGCTCGAAACACAAGGAATTGATGCCCTTCAATCTAAGAAAAAGGGGCGTCCATCCATGAAAAAAGATTCAAATAAACAATTAAAACAACCTTTAGCTGAAGGATCAGTCGAAGCACTTGAAGCACGCATTAAACAGCTTGAGATGGAAAATGAGTACTTAAAAAAGTTAAATGCCTTAGTTCAAAACAAGGAAAAATCACAAAACAAGACAAAGCGCAAGTAG	MAKFTADEKIQIVLRYLNGNESYREIGRSLGISDTIILNWVNQYKQNGLEAFLKRCTNYTQQFKLDVLNFMIENGMSLFETAAIFNIPTPSTISVWKKQLETQGIDALQSKKKGRPSMKKDSNKQLKQPLAEGSVEALEARIKQLEMENEYLKKLNALVQNKEKSQNKTKRK				NA	NA	NA	NA	NA
AK009_00407	852	hag	COG1344	Flagellin	ATGAGAATTAATACAAACATTAACAGCATGCGTACTCAAGAGTACATGCGCCAAAACCAAGCAAAAATGAGCAACGCTATGGACCGTTTATCAAGCGGTAAACGTATCAACAGCGCTTCTGACGATGCAGCAGGTCTTGCAATCGCAACTCGTATGAAAGCACGTGAAGGCGGTTTAAACGTAGCTGGACGAAACACTCAAGATGGTATGTCTTTAATTCGTACAGCTGACTCAGCTTTAAACTCAGTTTCTAACATTTTATTACGTATGCGTGACCTTGCTAACCAATCTGCCAATGGTACAAACACTAAAGGTAACCAAGCTTCTTTACAAAAAGAATTTGCTCAACTTACAGAACAAATTGATTATATTGCAAAAAATACGCAATTCAATGATCAACAATTATTAGGTACTGCAGATAAAAAAATTAAAATTCAAACGCTAGATACAGGATCTACTAATCCTGCTCAAATCGAGATTACACTTAACAGTGTTAAATCCGCTGATTTAGGTCTTGATGTACAAATTGGTGATGAAGGTGATGCTGAAAGTACAGCTGCTGCAGATCCAACGAGTGCTAAGCAAGCAATTGATGCAATTGACGCTGCCATCACAACAGTTGCTGGACAACGCGCTACACTTGGTGCAACATTAAACCGTTTTGAATTTAATGCTAACAACTTGAAGAGTCAAGAAACTAGCATGGCTGATGCTGCTTCTCAAATCGAAGATGCTGATATGGCAAAAGAAATGTCTGAAATGACTAAGTTCAAAATTTTAAACGAAGCTGGTATCAGCATGCTTTCTCAAGCAAACCAAACTCCACAAATGGTAAGTAAATTATTACAATAA	MRINTNINSMRTQEYMRQNQAKMSNAMDRLSSGKRINSASDDAAGLAIATRMKAREGGLNVAGRNTQDGMSLIRTADSALNSVSNILLRMRDLANQSANGTNTKGNQASLQKEFAQLTEQIDYIAKNTQFNDQQLLGTADKKIKIQTLDTGSTNPAQIEITLNSVKSADLGLDVQIGDEGDAESTAAADPTSAKQAIDAIDAAITTVAGQRATLGATLNRFEFNANNLKSQETSMADAASQIEDADMAKEMSEMTKFKILNEAGISMLSQANQTPQMVSKLLQ	PGPT0015190_3887	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
AK009_00408	786	mltF		Membrane-bound lytic murein transglycosylase F	ATGATAGTTGGAAATATAGTAAAAGAAGTGCTTGCATATAAGAAAGGACAAATTCAGCAAAAGCTAAGTAGTCCACAAGCATTTGTTAGTAGTCGTTTTCAAGAGAAGTTGCAGAGTGAGCCTGCGAAGGAGACGAAAGAAACTACGCAGCCGGCAAAAGTAGAGGATATGAGTCAGCCGGTACAATCTACGAAAATAGAAGCGGTTGTTAATAAACCGGCAGAAACTATTAATAAAGTAGAGGAAGCGAGTAAGCCTGAAGAAAAGGCTGAAACGAAGAAAGCAGATGAAGTGCAAGTTGCGCAAAAAGAGTTTGAACGACGTTTCCCAGAAACGAAAAATGAGGCTGTTGATACGTGGGAATTAACGAAGAAGTATAATATTCAAAAAATACGTTCTTCCAATGAAGGGAAGTATGAGGATATTATTGATCGCACTAGCCGTACATACGGAATTCCGAAAACGTTAATTCAAAAAATGATTGAAGTAGAGTCTAATTTTAATCCGAAAACGGTGTCACATGCAGGTGCGATGGGACTTATGCAGCTTATGCCAGCGAATGTGAAGGAGATGGGCGTGAAGAATCCCTTTTCACCAGCTGAAAGTATTGAAGGTGGCGTGAAAGAGTTAAGCGGTTATTTAAAGAAGAATAACGGCGACTTAGTATTGGCACTTGCTTCTTATAATGCTGGCCCTGGGAATGTGAGAAAGTACGGAGGCGTACCGCCATTTAAAGAAACGCAAGGATATATTAAAAAAATATTAAATATCGACGTTTCAAAATAG	MIVGNIVKEVLAYKKGQIQQKLSSPQAFVSSRFQEKLQSEPAKETKETTQPAKVEDMSQPVQSTKIEAVVNKPAETINKVEEASKPEEKAETKKADEVQVAQKEFERRFPETKNEAVDTWELTKKYNIQKIRSSNEGKYEDIIDRTSRTYGIPKTLIQKMIEVESNFNPKTVSHAGAMGLMQLMPANVKEMGVKNPFSPAESIEGGVKELSGYLKKNNGDLVLALASYNAGPGNVRKYGGVPPFKETQGYIKKILNIDVSK	PGPT0024070_2873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
AK009_00409	225			hypothetical protein	TTGAAATTACAAGATGATATTCCGTTAACAATTTATTTTGAAATCGGAAATACGAAAAAGAAAATTGAAGATTTGCTTCATATTACGAAAGGTACATTGTATCGTCTTGAAAATTCAACGAAAAATACGGTGCGTCTTATGCTTGAGAATGAAGAGATTGGAACCGGAAAGATTTTGACGAAGAATGGGAAGATGTACGTTGAAATCGTTGAATTGAAAAGGTAG	MKLQDDIPLTIYFEIGNTKKKIEDLLHITKGTLYRLENSTKNTVRLMLENEEIGTGKILTKNGKMYVEIVELKR	PGPT0015410_3013	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
AK009_00410	987	fliM	COG1868	Flagellar motor switch protein FliM	ATGAGTGGCGAAAAATTAAGCCAAGAGCAAATTGATGCCCTGCTGAAGGCGGTAAATGAAGGCGAGGAAATGCCAGCTTTCGCACAAGAAGCAGGAAAGCAAGAGAAATTTCAAGAGTATGATTTTAATAGACCAGAGAAGTTCGGTGTTGAGCATTTACGTAGTTTGCAAGCGATTGCTTCTACGTTTGGAAAACAGACGTCACAGACGTTATCAGCGCGTATGCGTATTCCAATTGAACTAGAGCCTTCAACAGTTGAGCAAGTTCCATTTACGAGTGAGTATGTGGAGAAAATGCCGAAAGATTATTATTTATATTGCGTGATTGATCTCGGTTTACCAGAGCTTGGAGAAATTGTTATTGAGATTGATTTAGCATTCGTTATTTATATTCATGAATGTTGGCTTGGCGGAGATAGTAAGCGTAACTTTACGATGCGCAGACCGTTAACAGCATTTGAGTTTTTAACGCTTGATAATATATTCTTGCTTCTTTGTAAAAATTTAGAGCAATCATTTGAAAGTGTTGTTGCGATTGAACCGAAATTTGTAACGACGGAAACAGATCCGAATGCATTAAAGATTACGACAGCGAGCGATATCATTTCATTACTTAACGTAAATATGAAAACAGATTTTTGGAATACGACGGTGCGTATCGGGATTCCGTTCTTATCTGTTGAAGAAATTATGGATAAGTTAACGTCTGAAAATATTGTCGAACATTCTTCGGACAAACGTAGGAAGTATACGTCTGAAGTGGAAGTGAAAGTAAATCAAGTGTACAAACCTGTTCACGTTGCGATTGGTGAGCAGAAAATGACAATGAGTGAGATTGAACAAATTGAAGAAGGCGATATTATTCCGCTTCATACGAAAGTTTCGGATGAATTACTTGGTTATGTAGATGGAAAGCATAAATTTAATTGTTTTATTGGAAAAGATGGAACGCGTAAGGCGCTCCTATTTAAAAGTTTTGTAGAGTAG	MSGEKLSQEQIDALLKAVNEGEEMPAFAQEAGKQEKFQEYDFNRPEKFGVEHLRSLQAIASTFGKQTSQTLSARMRIPIELEPSTVEQVPFTSEYVEKMPKDYYLYCVIDLGLPELGEIVIEIDLAFVIYIHECWLGGDSKRNFTMRRPLTAFEFLTLDNIFLLLCKNLEQSFESVVAIEPKFVTTETDPNALKITTASDIISLLNVNMKTDFWNTTVRIGIPFLSVEEIMDKLTSENIVEHSSDKRRKYTSEVEVKVNQVYKPVHVAIGEQKMTMSEIEQIEEGDIIPLHTKVSDELLGYVDGKHKFNCFIGKDGTRKALLFKSFVE	PGPT0015405_1702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
AK009_00411	360			hypothetical protein	ATGAAGCATGAAGTATCTCCCGTGTCATTAATGGGATTAGAAGATTTTGCAGGAAAGCGAAATGAAGCAGGTAAAGCACATATCGATACTGTTTCAGATATTTCGATTGAACTTGGTGTAAAGCTTGGAAAGTCATCTATTACGCTTGGAGATGTAAAGCAGTTAAAAGTTGGCGATGTTCTTGAAGTAGAGAAAAACTTAGGACATAAAGTAGATGTGTATTTAAGTAATATGAAAGTCGGCATCGGTGAAGCAATCGTAATGGACGAGAAATTCGGTATTATCATTTCTGAAATTGAAGCTGACAAGAAACAAGCGGCGCTTATGAAAGCGCAAAGTCAAATGCAAGATAAAGAGTAG	MKHEVSPVSLMGLEDFAGKRNEAGKAHIDTVSDISIELGVKLGKSSITLGDVKQLKVGDVLEVEKNLGHKVDVYLSNMKVGIGEAIVMDEKFGIIISEIEADKKQAALMKAQSQMQDKE	PGPT0015410_2196	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
AK009_00412	321			hypothetical protein	ATGTCGTATATGACGACCTTATTTCAAGTCGTTTTACTGTTTGGTGCGCTCGGTTACGGTGCATATTATATGACGAAAAAGACGCGCAAACAGCAGTTTTTTAAGCAGGGTGAAAATGGCCATATTCAAGTAAAAGACGGCGTTTATTTAAATCATCAAACGAGTGCCTTTTTATTTGAAGTGGACGGAAAGCAAGTGTTCACTGTTATTAGTAATAACGGTGTACAGTCTGTGCAATTAACCGGAACAGGAAATCAGTTTCAACAAGCACTAGAAGACGCGGTGAAGACTGAAACGAAAAAAGTAGAGGATCCATCATGA	MSYMTTLFQVVLLFGALGYGAYYMTKKTRKQQFFKQGENGHIQVKDGVYLNHQTSAFLFEVDGKQVFTVISNNGVQSVQLTGTGNQFQQALEDAVKTETKKVEDPS				NA	NA	NA	NA	NA
AK009_00413	759			hypothetical protein	ATGAGAATAAAGAAACAGTTATCATTATTAGCCGTTATTTTCGTATTTTCTATCGTTTTTTCAATTATTTTTGTAAATCCAGCGTATGCGGCCCCGAACGGTTTTATTAATTTCGAAAATGGAAAAGAGTTTACGAGTAATTCAAGTGTACAACTATTTGCGCTCGTTACCCTTTTATCATTATCTTCTTCTATCGTTCTATTATTTACACATTTTACTTATTTTATGATCGTTCTTGGGATTACACGTCAAGGACTTGGGGTAATGAATTTACCACCAAACCAAGTGCTTGTTGGACTTGCATTATTTTTATCACTCTTTACGATGCAGCCTGTACTCGGGCAACTGAAGAGCGATGTGTGGGATCCGATGACGAAAGAGAAAATAACAGTAAGTCAAGCTGCGGAAACGACAGCTCCTATTATGAAAGAATATATGTCAAAGCATACGTATAAGCATGATTTGAAAATGATGCTGAAAGTACGCGGAGAAGAGTTGCCGAAAGATTTGAAAGATCTTTCCTTATTTACACTCGTACCATCCTTTACGTTAACGCAAATTCAAAAAGGTTTACTAACAGGGATGTTCATTTATTTAGCGTTTGTATTTATAGATTTGATTATTAGTACACTTTTAATGTACCTCGGGATGATGATGGTACCGCCGATGATTTTAAGTTTACCGTTTAAAATACTCGTTTTCGTATATTTAGGTGGATATACAAAAATTGTCGATATTATGTTTAAGACGGTCGCCTGA	MRIKKQLSLLAVIFVFSIVFSIIFVNPAYAAPNGFINFENGKEFTSNSSVQLFALVTLLSLSSSIVLLFTHFTYFMIVLGITRQGLGVMNLPPNQVLVGLALFLSLFTMQPVLGQLKSDVWDPMTKEKITVSQAAETTAPIMKEYMSKHTYKHDLKMMLKVRGEELPKDLKDLSLFTLVPSFTLTQIQKGLLTGMFIYLAFVFIDLIISTLLMYLGMMMVPPMILSLPFKILVFVYLGGYTKIVDIMFKTVA	PGPT0015350_1150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
AK009_00414	276			hypothetical protein	ATGAATACGTCACCAATTATAGATATTTTCCAAACCTTTTTTTATAAAGGGGTTATGATTTTAATGCCGATTGCCGTTGTAAGTCTGATTGTCGTTATTATTATCGCGGTTATTATGGCAATGATGCAAATTCAAGAGCAAACGCTGACGTTTTTACCGAAAATGGCGAGTATTGTGCTCGTAATTATCATTTTAGGTCCGTGGATGTTCCAAGAGTTAACGATGCTTATTTTAGATTTATTTGATAAAATCCCATCGCTATTGCGTTCGTACTAA	MNTSPIIDIFQTFFYKGVMILMPIAVVSLIVVIIIAVIMAMMQIQEQTLTFLPKMASIVLVIIILGPWMFQELTMLILDLFDKIPSLLRSY	PGPT0015355_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
AK009_00415	762	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGAATATGGAATTATGGGCGGCAACGTTTTTTGCGTTTTGTCGCATTACTTCATTTTTATATTTTTTACCGTTTTTCTCAGGCCGATCCATTCCAGCAATGGCGAAGGTTACAGTTGGACTCGCTCTTTCAATTACAGTGGCGGATCAAGTGGATGTCTCTCACATCAAGACAGTTTGGGACGTTGCAGCTTATGCAGGAACGCAAATTGTAATTGGATTATCACTTTCAAAAATTGTAGAAATGCTGTGGAACATTCCGAAAATGGCAGGGCATATTTTAGACTTTGATATTGGTTTATCACAAGCAAGTTTGTTTGATGTAAATGCAGGGTCACAGTCCACTTTGCTATCAACAATTTTTGATATATTTTTTCTTATTATTTTTATTTCACTGGGCGGCATTAACTATTTCGTTGCCACTATTTTAAAGTCGTTTCAATATACAGAGGCGATTTCAAAATTGTTGACGACTAGTTTTTTAGATAGTCTACTCGCAACGTTATTATTTGCGATCACATCAGCGGTTGAAATTGCTCTGCCGCTTATGGGAAGTTTATTCATCATTAACTTTGTTCTTATTTTAATTGCAAAAAATGCTCCGCAATTAAACGTTTTTATGAATGCATACGTAATTAAAATTACATGTGGGATTTTGTTTATTGCGATGAGTGTACCGATGCTCGGTTATGTGTTTAAAAATATGACGGATGTATTACTTGAAGAGTATACGAAACTATTTAACTTTTTCTTAACGAAGTAG	MNMELWAATFFAFCRITSFLYFLPFFSGRSIPAMAKVTVGLALSITVADQVDVSHIKTVWDVAAYAGTQIVIGLSLSKIVEMLWNIPKMAGHILDFDIGLSQASLFDVNAGSQSTLLSTIFDIFFLIIFISLGGINYFVATILKSFQYTEAISKLLTTSFLDSLLATLLFAITSAVEIALPLMGSLFIINFVLILIAKNAPQLNVFMNAYVIKITCGILFIAMSVPMLGYVFKNMTDVLLEEYTKLFNFFLTK	PGPT0015360_2277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
AK009_00416	1047	flhB	COG1377	Flagellar biosynthetic protein FlhB	ATGGCAAAGGATAATAAAACAGAAAAGGCCACCCCGCAGAAGCGTAAAAAATCGCGTGAAGAAGGGAATATTGCCCGGAGTAAAGATTTAAATAATTTATTTTCCATACTTGTATTAGCAGTTGTCGTTTATTTCTTCGGAGATTGGCTAGGGTTTGAGATTGCGAATTCCGTAGCGGTACTGTTTAATCAAATTGGAAAAAATACAGATTCAACCGAGTATTTCTATTTAATGGGGATGCTACTACTAAAAGTATCAGCTCCGATATTAATACTCGTATACGCTTTTCATTTATTCAATTATATGATTCAAGTCGGCTTTTTATTTTCTTCAAAAGTTATTAAGCCGAAAGCGTCACGTATTAATCCGAAAAACTATTTTACGAGACTGTTTAGTCGTAAAAGTTTAGTAGATATTTTGAAATCACTATTTTATATGGGATTAATCGGTTACGTCGCTTATGTTCTTTTTAAAAAGAATTTAGAGAAAATCGTGAGCATGATTGGATTTAACTGGACTGCGTCACTTACTGAAATTATTAGGCAAATTAAATTTATTTTCTTAGCAATTTTAATTATTTTAATCGTTCTTTCTATTATTGATTTCATTTACCAAAGATGGGAGTACGAGCAAGATATTAAGATGAAAAAAGAAGAAGTAAAAAGGGAGCATAAAGATAATGAAGGGGACCCGCAAGTAAAGGGGAAACGAAAAAACTTTATGCATGCCATCTTGCAAGGGACAATCGCGAAGAAGATGGATGGTGCAACGTTTATTGTGAACAACCCGACGCATATTTCGGTTGTACTTCGTTACAATAAACACATTGATGCAGCACCAATTGTCGTTGCAAAAGGGGAAGATGAGCTCGCATTATATATACGAACGCTTGCCCGTGAACAAGAAATACCAATGGTGGAAAACCGTCCGCTTGCTCGTTCTTTATATTATCAGGTCGAGGAAGATGAGACGATTCCAGAAGATTTATACGTAGCTGTAATTGAAGTTATGCGCTATTTAATTCAGACGAACGAACTTGAAGTGTAA	MAKDNKTEKATPQKRKKSREEGNIARSKDLNNLFSILVLAVVVYFFGDWLGFEIANSVAVLFNQIGKNTDSTEYFYLMGMLLLKVSAPILILVYAFHLFNYMIQVGFLFSSKVIKPKASRINPKNYFTRLFSRKSLVDILKSLFYMGLIGYVAYVLFKKNLEKIVSMIGFNWTASLTEIIRQIKFIFLAILIILIVLSIIDFIYQRWEYEQDIKMKKEEVKREHKDNEGDPQVKGKRKNFMHAILQGTIAKKMDGATFIVNNPTHISVVLRYNKHIDAAPIVVAKGEDELALYIRTLAREQEIPMVENRPLARSLYYQVEEDETIPEDLYVAVIEVMRYLIQTNELEV	PGPT0015325_2630	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
AK009_00417	2067	flhA	COG1298	Flagellar biosynthesis protein FlhA	TTGTTTAAGATAGAGTCTGCAAGAACCTATTTTTCTATCTTTTTAGCAGCGTCATTCGTAGTGGCGCTCTTAATTCCACTTCCACCATTTATACTTGATATCATTATCGTTTTTCTACTAAGTATGTCAGTGCTTATTTATATGCGAGCGACAAGTATTAACGAGTGGGATGAATTAAAGTCATTTCCAACGATGTTGTTATTAATCGGGATTTTCCGCGTATCGATTAACGTTTCGACGACGCGAGCGATTTTGACAGATGGAAATGCAGGTCATGTTATTGAAGAGTTCGGCCAGTTCGTAATTGGCGGAAACTTATTAATTGGTATCGTTATTTTTACAGTATTAATCATATTCCAGTTTATCGTTGCAAACGGTGCATCTCGTACAGCTGAAGTAGCAGCTCGTTTTACACTTGATTCTTTACCGGGGAAACAAATGTCTATCGATGCTGATTTAAACCAGCGTATTATTTCAGAAAAAGATGCACAGGCAAAACGAAAAAAATTAAATATGGAAACAGAGTTTTACGGGGCGATGGATGGTGCCGGAAAGTTCATTAAAGGGGACGTTATTTTCGGGATTGTCATTTTATTCGTAAACATTATTTTCGGTTTAATTGTCGGCATGATGCAGCAAGGAATGAGCTTTGCAGATGCAGCTCTTCATTATACACAGTTAACTGTCGGTGACGGAATCGTAAACCAAATCGGTTCATTAATGCTTGCAATTTCAACAGGTATTATCGTAACGCGTGTATTTGACGGCTCACCGGATACAGTAACAGAAGGTATCTTTAAAGAGTTATTAGCGCATGAAGTCGTTGTATATGCACTAGGTGGTTTATTTATCGCAATGGGTATTTTTACTCCGCTACCGTTTCTACCATTCGCACTCGTTGGTGGAACGATTATCTTCTTAGGCATTCGTAATAAAAATCGAATAAAGAAAGAAAAAGAAGACGAGCTTCAAAAAGAATTAGAAATGATTCAAGGCGAAGATGAGCAACTGCAACAAGTGGAAGATTCATTCGGAGTATTTACGGATAAATATCCGATTATTGTAGAACTCGGTTTAGATTTAGCAGCACTTGTAAAGCAGAAAATTAACGGGGAAACAGCTCGTGATAAAGTTGTTCTTATGCGGAAGTCGATTATTACTGACCTTGGTATTAACGTTCCTGGAATTAACTTTAAAGATAATACGAGCTTTAGACCACGCGGACGTTACATTATTCGTATTAAAGGTGCGAAGGCAGCTGAAGGTGTTTTAAAATCAGGTTATTTATTAGCACTGAAAACACCGAACGTAATGGCTGATTTAGATGCAGAGCCAGCTAAAGATCCAATTTTCGGTGAAGATGGATATTGGATTTTAGAGCATATGGTGCAAGATGCACAAATGAAAGGCTATCAAGTGTTAGAGCCACTTAGCATATTAATTACACATTTAGATGTTGTCGTTAGACGTAATCTTCATGAATTAATTCAGCGTCAACATGTAAAAGACTTAATTAACTCGCTTGAAAATGATAATGGCGTTCTATTAGAAGAGATTAAGAAGAAAGAAATTGATTTATCACTCGTTCAAAATGTTATTAAACAACTTCTAAAAGAAGGTATTTCTATTCGTGATTTACCAACAATTATTGAAGGTATTATTGACGGCAAAGAAATTTATCAAAACCACGTTGACGGTGTGACATCATTTGTTCGTGAATGTATTTCAAAAGTTATTTGTGAAAATGCGAAAAATCCGGACGGAAAAATATATGCAGCGCTCTTCTCTGATTCAATTGAGTTAGATGCGGATGTTGTGAATAATTCATATCAAGGTTACTTATTAAACTGGGATTTAGATTTAGAAACACGTGTCGTTGAGCAAGTGCAGCGCGTCTTTAAGCAAGCACGTTTAATGGGAAGAGAACCAGTGTTATTAACACGTAGAAAAGATTTTAGATTTGCGATCGTAAGACTGCTAGAACGTTATCAAGTGGAAGCACAAGTACTTTGTATTAGCGAATTAGCACCAGAAATTGTTGTGGATCAAATTGCTTATATTGAATAG	MFKIESARTYFSIFLAASFVVALLIPLPPFILDIIIVFLLSMSVLIYMRATSINEWDELKSFPTMLLLIGIFRVSINVSTTRAILTDGNAGHVIEEFGQFVIGGNLLIGIVIFTVLIIFQFIVANGASRTAEVAARFTLDSLPGKQMSIDADLNQRIISEKDAQAKRKKLNMETEFYGAMDGAGKFIKGDVIFGIVILFVNIIFGLIVGMMQQGMSFADAALHYTQLTVGDGIVNQIGSLMLAISTGIIVTRVFDGSPDTVTEGIFKELLAHEVVVYALGGLFIAMGIFTPLPFLPFALVGGTIIFLGIRNKNRIKKEKEDELQKELEMIQGEDEQLQQVEDSFGVFTDKYPIIVELGLDLAALVKQKINGETARDKVVLMRKSIITDLGINVPGINFKDNTSFRPRGRYIIRIKGAKAAEGVLKSGYLLALKTPNVMADLDAEPAKDPIFGEDGYWILEHMVQDAQMKGYQVLEPLSILITHLDVVVRRNLHELIQRQHVKDLINSLENDNGVLLEEIKKKEIDLSLVQNVIKQLLKEGISIRDLPTIIEGIIDGKEIYQNHVDGVTSFVRECISKVICENAKNPDGKIYAALFSDSIELDADVVNNSYQGYLLNWDLDLETRVVEQVQRVFKQARLMGREPVLLTRRKDFRFAIVRLLERYQVEAQVLCISELAPEIVVDQIAYIE	PGPT0015320_2157	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
AK009_00418	1311	srp54		Signal recognition particle 54 kDa protein	ATGGAAAGTACAGAAAAGAAAGAAGCGTTAATGCGAATAAAAGCAGCTTCGAAAAATGAATTGTATCGAAAGTTATTTGACCAATATGGTACAGATTATTATTACGTTGTCGATGAAAGTGTAAAACGAAATATACCGTTTTTCTGGAAAAAGGATTATGAAATGTTAGTTGCTTTTCCAGAAGAAAAACAGGAAGAAGTGAATGAAGGTACAGCTCAATTTCATGAACAGTTAATGGATGTTGTGAATGATCCTTCAGAACAAATTGTGAAGGCGAATGGAATTCAATCAGTACTGCACAATTTAGAAAACGTAACGACTTCTATGTCATACGCGGCGATGCAAACAGGAAATAGTGAAGAATGGGCAAGAAAAAAAGAGAAACTATTAAAGCTGTTCGAAAAAGGAATTGTCGTTGTGAAACCGACGAAAGAAGCGGAAGTAACGAAAAAGAAAAAAGTTGTGAAACAAGTCGTTCCGGTAAAGAAAGAAGAAGTAGCTCCAAAGAAAGAAAATCAAGAATCTGTACCGTTTATTATTCAAAAAGTAATTCGGATGCTAGAACAAAACGATGTAGAACAATATTTCATTTATGCATATGCTGAAAAGTTAAAAATAAAGTTTGAAAATGCAACGATGATTACAGAAGAAGAAGTTATCAGGTACATATTGGAAGATATGAAATCTCATTTTAATACGGAAAACGTCTTTGAAAAAGAAGTACAAACAATCGCATTAATCGGTCCAACTGGCGTTGGTAAAACGACGACACTCGCGAAAATGGCATGGCAATTTCACGGTAAGAACAAAACAGTTGGTTTTATAACGACAGATCATTCTCGCATAGGGACAGTGCAGCAATTGCAAGATAACGTAAAGACAATTGGATCGGAAGTAATTGCTGTGCGTGATGAAGCTGCAATGACAAGAGCGCTTACGTATTTTAAAGAAGAAGCACGCGTCGATTATATTTTAATTGATACAGCCGGAAAAAATTATCGTACGTCAGAAACAGTGGAAGAAATGATTGAAACGATGGGACAAGTAGAACCAGATTATATTTGTTTAACGTTATCAGCTTCGATGAAAAGTAAAGATATGATTGAAATCATTACAAACTTTAAAGATATTCATATAGATGGTATTGTGTTTACAAAATTTGATGAAACAGCAAGTAGTGGCGAATTGTTGAAAATTCCAGCAGTATCATCAGCTCCTATTGTATTAATGACAGATGGCCAAGACATAAGGAAAAATATACATATCGCTACAGCTGAACATTTAGCGAAACAAATGTTACAAACATCGTAG	MESTEKKEALMRIKAASKNELYRKLFDQYGTDYYYVVDESVKRNIPFFWKKDYEMLVAFPEEKQEEVNEGTAQFHEQLMDVVNDPSEQIVKANGIQSVLHNLENVTTSMSYAAMQTGNSEEWARKKEKLLKLFEKGIVVVKPTKEAEVTKKKKVVKQVVPVKKEEVAPKKENQESVPFIIQKVIRMLEQNDVEQYFIYAYAEKLKIKFENATMITEEEVIRYILEDMKSHFNTENVFEKEVQTIALIGPTGVGKTTTLAKMAWQFHGKNKTVGFITTDHSRIGTVQQLQDNVKTIGSEVIAVRDEAAMTRALTYFKEEARVDYILIDTAGKNYRTSETVEEMIETMGQVEPDYICLTLSASMKSKDMIEIITNFKDIHIDGIVFTKFDETASSGELLKIPAVSSAPIVLMTDGQDIRKNIHIATAEHLAKQMLQTS	PGPT0015550_945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
AK009_00419	780			hypothetical protein	ATGAATATGAACGGTCTTTATATAGGTTCTATGGGTATGATGAATTACATGCAGCGTATTAATGTTCATTCGAATAACGTTGCAAATGCTCAAACGACAGGATTTAAAGCAGAAAATATGACGTCTAAAGTATTTGATGTACAAGACACATATCGCCGAGGAGATGGGGCGGTAACAAATATCGGTTCGGTCGATTACGCTGTAGTACCAGCTGCAACACATGTGAATTTAGTACAAGGAAATATACAAATGACAAATAGTGCTACAGATTTCTTTTTAGATGACGGCGCGGCCGGCACAACATCATTTTTCGTTACTTCTAAAAATGATGAAACGTTTTTAACGAGAGATGGTAGTTTCACATTAAATAGTGATCGTTATTTACAAACATCTTCAGGTGCTTTCGTAATGGGAGAGAATAATGAGCGTATTCGTATTCCAGAAGGAGCAAAGGTTGCTGTACAAGCAGACGGTACATTATATGATGAAGTAACACAAAATAATATTGCTCGTTTACAAACAAAAACAGTAGATGCCGAAACGAATGCTCGTCTCGTGCAACGTGAGAACAAAAGCTTTACACTAGCAGAAGGAAACATTGCTAATTTACCGAACGGAACAGGAATAGTAAAAAATCATATGCTAGAAAATTCAAATGTTGATATGACGAAAGAGATGGCAGATCTTATGACGGATCAAAAAATGATTCAAGCATCACAGCGTGTTATGACGTCATTTGATAAAATTTATGAAAAAGAAGCGAATGAAATATTGAGATAA	MNMNGLYIGSMGMMNYMQRINVHSNNVANAQTTGFKAENMTSKVFDVQDTYRRGDGAVTNIGSVDYAVVPAATHVNLVQGNIQMTNSATDFFLDDGAAGTTSFFVTSKNDETFLTRDGSFTLNSDRYLQTSSGAFVMGENNERIRIPEGAKVAVQADGTLYDEVTQNNIARLQTKTVDAETNARLVQRENKSFTLAEGNIANLPNGTGIVKNHMLENSNVDMTKEMADLMTDQKMIQASQRVMTSFDKIYEKEANEILR	PGPT0015495_2303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
AK009_00420	1299	ntaA		Nitrilotriacetate monooxygenase component A	ATGTCTAAAAAGAATCAACTTTGCATTGGATTATGTTTAATTTCTAGAAAGAAAGAACAAGAGAATGAGTTTAATTCCGGAATTGATGAGCAAGTAGAGTTGGCACTACAGGCAGAAAAGGCTAAGTTAGATTTTGTTTTTAAAGCCGATTATTTAGTGGCCCACCCAGATTTAATTGCTAGAAATAAAGGGAATGTAATTTTAGACCCAACATTATTGTTTACTGCTATTGCGTACGCAACTGAAAAAATTGGAGTCGTTACAACCGCTTCAACTTCATTTTATCCACCATATATATTAGCAAGGCAATTACAATCGTTACACTGGATTAGTAACGGCCGAGTAGGGTGGAATATTGTTACATCAATTGACGGTGCTGAAAACTTTGGTGAGGAAGGGATGCCATCATCTGAGGAGAGATATGCGAAAGCAGCAGAATGTACAGAGTTAGTAAGAAAACTTTGGAGGAGTCATCCTTATGAAGTGTTGAAAATAGATAACACTGAAGTTATTAGAGAGATGGCCAAGCCAATTGAACATAGTGGTGAATATTTTGAGGTAAAAGGTCCGCTGAATATCCCACAGCATATATCAGGAGAAATGCCATTATTTCAAGCCGGTGCTTCAGAGTCTGGTCGGAATTTTGCTGCTTCTGTTGCAGATGCAATTTTTGCTGCAACGCCAGATGTAGAGTCAGGTATTGAACTTCGTCAAGATTTAAGAAGAAGAGCAGAACAGCATGGCCGGAAGCAAGATGCTATACGCGTATTACCTGGATTATATTTCTTTATAGGTGATACATATGAAGAGGCGCTAGAAATGCATAGACAAGCTCATCAACATCTCACAAAAGAGAAGAGATATGCGTTACTTGAAATGGTTCTCGGATTAGATGCGAGAGGGATTCCGCTAGAAAGTAAAATTACCGAAGAGATGCTGCCAAGTCGGGATCAAACTGTACGTAGTAAAACACATGCAGAATTATTACGGCATTTCATTATTAAAAATGAACCAACAGTTGAACAAATACTAGAGCGACCAGAAGTTGTTGGATCGGCTCATTGGGTTGCGGTTGGTACACCAAAAGACGTTGCGAAGCAAATTATGGATAGGTTTGAGGCCGGAGCGTTAGATGGATTTATTGCTATTCCAGGAGGACCTCCCAAGTCACTAAATCTATTCTTTAGTGAAGTCATTCCTTTATTTGTGAAGGCGGGAGTATTTAGAGAAGAGTATACAGGTTCTACTTTACGGGAGCATTTGGCGGGAAACATGTTAAATACTTTACAGTTAAAATAA	MSKKNQLCIGLCLISRKKEQENEFNSGIDEQVELALQAEKAKLDFVFKADYLVAHPDLIARNKGNVILDPTLLFTAIAYATEKIGVVTTASTSFYPPYILARQLQSLHWISNGRVGWNIVTSIDGAENFGEEGMPSSEERYAKAAECTELVRKLWRSHPYEVLKIDNTEVIREMAKPIEHSGEYFEVKGPLNIPQHISGEMPLFQAGASESGRNFAASVADAIFAATPDVESGIELRQDLRRRAEQHGRKQDAIRVLPGLYFFIGDTYEEALEMHRQAHQHLTKEKRYALLEMVLGLDARGIPLESKITEEMLPSRDQTVRSKTHAELLRHFIIKNEPTVEQILERPEVVGSAHWVAVGTPKDVAKQIMDRFEAGALDGFIAIPGGPPKSLNLFFSEVIPLFVKAGVFREEYTGSTLREHLAGNMLNTLQLK				NA	NA	NA	NA	NA
AK009_00421	711	alaS_1	COG0013	Alanine--tRNA ligase	ATGAAAACGGCATTATATTTAGAAGATGCATACAAAACGAGTTGCGAGACAGAAGTGATAAGAGTGGAAGGGAATAAAGTATTTGTAAAAGAAACAGTTTTTTATCCAACTGGTGGAGGACAGGAATGTGATACGGGTGTCATTGTACAAGATGGGTCTGTATTTGAAGTTGAAAAAGTAAAGAAGGAGCAGGGAGAAATAGTTCACTATATAAAAGATGAAGCTCAAGTAAAATTAGGTCCAGTTAAATTAGAGATTAATTGGGAAAGACGTCATAATTTAATGCGTCATCACTCTTTACTGCATCTTATCGGAGCTGTAGTTTATGAAAAGTATGGAGCTCTATGCACCGGAAATCAAATTTATCCTGATAAAGCACGTATCGATTTTAATGAGTTACAAGAGTTATCGAGCGTGGAAGTAGAAGAAATTGTTGAGGCAGTGAATAAACTTATTAAGCAAAATAAAGAAATTTCCACTCGTTATATGAGCCGCGAAGAAGCAGAAAATGCTGTAGGAATGATTAAAACAGCAATCAATCTCCTGCCAACTACTATCCAAGAAATCCGCATTGTTACAATTGAAAACTTAGACGAACAAGCTTGTGGAGGCACACATGTGAAAAATACGAGTGAAATAGGAACACTTGTTATTGATAAAGTAAAAAGTAAAGGGAAGCAAAATCGCCGTTTTGAAGTAAGAGCGATTTAG	MKTALYLEDAYKTSCETEVIRVEGNKVFVKETVFYPTGGGQECDTGVIVQDGSVFEVEKVKKEQGEIVHYIKDEAQVKLGPVKLEINWERRHNLMRHHSLLHLIGAVVYEKYGALCTGNQIYPDKARIDFNELQELSSVEVEEIVEAVNKLIKQNKEISTRYMSREEAENAVGMIKTAINLLPTTIQEIRIVTIENLDEQACGGTHVKNTSEIGTLVIDKVKSKGKQNRRFEVRAI				NA	NA	NA	NA	NA
AK009_00422	837			hypothetical protein	ATGGATGAAATTATAAAGGAATTACAAAAGTTAGGATTTTCCCAATATGAATGTAAAGCGTATATTGGATTGTTAAAACATTCCCCAGTAACTGGCTATGAAGTGAGTAAACAAACAGGAGTACCTCGTTCTATGATTTACGAGGTACTCGGTAAGTTAATGGATAAAGGAGCAGTGCATATTGTACCTTCTGAACCAGTTAAATATGTACCAGTACCAGCTACCGAATTAATGAATCGAATGCGAAAAGACTTTGAAAAGTCCTTTGAATTTTTAGATGAGAAATTAAATTGTTTAGAACAAGAGCGACAAATAGATGTAATTTCGCATATTCGCTCAAATGATCGTGTTTTAAAAGAAATATGCAATATAATTAATAGGGCAAAGGAAGAATTATGGATTTCTGTATGGGAAGATCAAGTGCATGAAATTGAGCCATACATTTATCAAAAGGAAGAGGAAGGCGTACATATATTTTCAATCTTATTTGGAGCTCCAGAAACAAAAATAGGAGCGACGTTTCACCATAATTATATGACGCCTCACGTTGTTGAAAAGAGAATGGGTGGTCATTTAACTGTTATTGCGCGTGATGGAGAGGAAGTATTAATTGCGAACTTCTCAAATGATAGCACTTCATGGGCCGTTACAACGTATGACCCAGCGCTAGTTCTCGTTGCTACAGAGTATGTGCGGCACGATATTATGGTTGAAGAAATCACGAAGGAATTTGGAGCTGATAAGTTAGATACGTTATGGCGTGAAAATATAGATTTAGTTCATGTCGTAACAGGAAAACGAACTTTAGAAGGAATGGAGGATGATAGAGATGAGTAA	MDEIIKELQKLGFSQYECKAYIGLLKHSPVTGYEVSKQTGVPRSMIYEVLGKLMDKGAVHIVPSEPVKYVPVPATELMNRMRKDFEKSFEFLDEKLNCLEQERQIDVISHIRSNDRVLKEICNIINRAKEELWISVWEDQVHEIEPYIYQKEEEGVHIFSILFGAPETKIGATFHHNYMTPHVVEKRMGGHLTVIARDGEEVLIANFSNDSTSWAVTTYDPALVLVATEYVRHDIMVEEITKEFGADKLDTLWRENIDLVHVVTGKRTLEGMEDDRDE				NA	NA	NA	NA	NA
AK009_00423	726			hypothetical protein	ATGAGTAAAGCTCAGGCACATGTAGCTTTGCAGAGCGATGATACATTTCAGCAAGGAGTAAAAGATTGTTTACCAACTGTATTTGGTTACTTGAGCATCGGTATAGCAGCTGGTGTAATTGCAAAAACAGCAGGTTTTTCTATCATTGAAATTGCATTTATGTCCACTTTAATTTATGCAGGTTCTGCCCAATTTATATTAGCTGGTATGTATGCAGCCGGTGCTCCTGCTTCCGCAATTATTTTTACTGTATTTTTTGTTAACTTGCGCCACCTTCTTATGAGTGCTGCACTCGCGCCGTACTTTACGAAAATTCCTCTATTTAAAAACTTAATCATCGGTTCGCAAATTACAGATGAAACTTTCGGCGTTGCAGTGCAACACGCGGCGCAAAAAGGATATTTAGGTGAAAGATGGATGATCGGGCTTAACGTAACAGCGTATTTAAATTGGATTCTTGCTACTATTATTGGTGGACTGTTTGGTGAGTGGATACCAGATCCACATACATACGGGATGGATTATGCATTACCAGCGATGTTTATTGGATTATTTGTTCTTCAGCTCATAAGTAGTAAACCAAAACTAGCAATTCATTTAAGTGTTGCAATTGTAGCGATTATCATCGCATACGTTTCACACCTATTTATGCCAGATAGTATAGCGGTTATTATCGCAACCTTACTAGCTGCGACGATTGGAGTGGTGATTGAAAAATGGAAATGA	MSKAQAHVALQSDDTFQQGVKDCLPTVFGYLSIGIAAGVIAKTAGFSIIEIAFMSTLIYAGSAQFILAGMYAAGAPASAIIFTVFFVNLRHLLMSAALAPYFTKIPLFKNLIIGSQITDETFGVAVQHAAQKGYLGERWMIGLNVTAYLNWILATIIGGLFGEWIPDPHTYGMDYALPAMFIGLFVLQLISSKPKLAIHLSVAIVAIIIAYVSHLFMPDSIAVIIATLLAATIGVVIEKWK				NA	NA	NA	NA	NA
AK009_00424	312			hypothetical protein	ATGGAAATGAGATTAGATGTATTATTACTTTTACTAGCAGCAGGAGCTGTTACACTCGTGCCACGTATTTTACCTCTACTCGTATTTAGCAAACTACAAATTCCTGACTGGGGTTTAAAATGGTTAAATTACATACCAATTGCGATATTAGCAGCGCTTTTAGCACAAGTTTTATTTATGCATGAGACGATGCAGTGGGATTACCTTATCGCAGCAATTCCCACATTTCTTGTAGCGATATATACTCGTAGTTTATTAGGTACAGTATTAACGGGAGTGGTTGTGATTATTTTGTTACGTTTCTTTTTCTAA	MEMRLDVLLLLLAAGAVTLVPRILPLLVFSKLQIPDWGLKWLNYIPIAILAALLAQVLFMHETMQWDYLIAAIPTFLVAIYTRSLLGTVLTGVVVIILLRFFF				NA	NA	NA	NA	NA
AK009_00425	171			hypothetical protein	ATGATACTTTTAACGATAGGAGCAATTTTGTTAACGTTGTTTATTTTCTTTATTATCGGCTTTATTACGTTTATGATGTTTGTTGATAAGGCGACACCTCAAATATATTATACACCTTGTGAATCAGTGACAGTGAAAGCTAAAGGTAAAGATAGAAGGAAGAAAAGTTGA	MILLTIGAILLTLFIFFIIGFITFMMFVDKATPQIYYTPCESVTVKAKGKDRRKKS				NA	NA	NA	NA	NA
AK009_00426	585			hypothetical protein	ATGAAGGAAAAATTAGCTCTCGTTATTGTTCATGAAATATATGGTGTGAACGACCATATGCATCACGTTACCGAGCAATTTACTTCATCTCATATTGACGTATTCTGTCCTAATCTTCTGCACTTACAACACGCATTTCATTATCGTGATGAAGAAAAAGCATATGAACATTTTGTAAATCATATTGGATTTAATGATGGAAAAGACCAAATTGAAGCATTCATCAATACCCTTTCAAGCAATTATACACATATTGGACTTATCGGCTTTAGTGTTGGAGCTACCATCTCATGGCTATGTAGTAACAATCCGAAAATAGATTTTATCATCGGATGTTACGGTTCTCGTATACGCGACTATGTTCACATAAAGCCTACATGCGCTACACTACTTATATTTCCTGAAAAAGAAGCTAGTTTTTCAGTATCCTCTTTAATTCAAACATTGCAGCAACAAAAAAATCCTTTACTAGAAATACAACAACTACACGGTGAACATGGATTTCTAAATCCGTACACTGAAAAATATAACGGGCACTCTACAAAACAAGCATACAATGTAATAGATTCATTTCTTGTAAAGTGA	MKEKLALVIVHEIYGVNDHMHHVTEQFTSSHIDVFCPNLLHLQHAFHYRDEEKAYEHFVNHIGFNDGKDQIEAFINTLSSNYTHIGLIGFSVGATISWLCSNNPKIDFIIGCYGSRIRDYVHIKPTCATLLIFPEKEASFSVSSLIQTLQQQKNPLLEIQQLHGEHGFLNPYTEKYNGHSTKQAYNVIDSFLVK				NA	NA	NA	NA	NA
AK009_00427	336	yqjZ	COG2329	putative protein YqjZ	ATGAAAAATACTTCACAAAAAATGAGTCATTATTATGCCGTGATATTCACTTCTAATTTATCAAATGATACAACAGACTATAATACCGTTGCCGAAACAATGGAGGAACTTGCAAAGCAACAACCTGGATTTTTAGGTGTAGAAAGTGCACGAGGTAATTCTGGGCTCGGAATAACAATTTCTTATTGGGAATCACTTGATGCAATTGAAAATTGGAAGAAGAACGCCTTACATAAAGAAGCGAAAAAAAGAGGTCGTGAGCAATGGTATGAAAACTTCCATCTGCGTATTTGCCTTGTTGAGAAAGAATTTAAGTTTCAAAGAGGCACAATATAA	MKNTSQKMSHYYAVIFTSNLSNDTTDYNTVAETMEELAKQQPGFLGVESARGNSGLGITISYWESLDAIENWKKNALHKEAKKRGREQWYENFHLRICLVEKEFKFQRGTI				NA	NA	NA	NA	NA
AK009_00428	2226	bcsA	COG1215	Cellulose synthase catalytic subunit [UDP-forming]	ATGAGCCTCTCTATATACGAAGGTTTAGGTATTATTTTTTTCGTAATCATTATTACTTACGCCCTTGCACACAAATATTTATGGTCAAAAAAATTACTTATTATTCTATTTCTCATTTGTAATGCTATTTATCTTATTTGGCGAACTTTTTATTCGTTACCAACTATTAATCTCATAAGTATTATCGCTGGTATTATATTGTTAATTACAGAATGGGCTGGTTACTTACAATCTATCGTTTTTAGCATTGTTTCATGGAAACCATATAAACGGAAAGAAGTACCATTATCCACTTTTGAAAAACTACCTACTGTCGACATATTTATTGCCACTTACAATGAACCGATCGATTTGTTAAAACGTACTGTAGCTGGTTGTACGTTGATTACTTATCCGAAAGAGTTACTAAACATTTATATTTGTGACGACGGGCGCCGTGAAAGTGTAAAGCAACTTGCGGCAGATTTTTCTGTTCATCACATAACTCGCACCGAAAACAAGCATGCAAAAGCTGGAAATTTAAATCATGCGATGCTTCATTCAAAAGGTGATATTATCGTAACAATGGATGCCGATATGATACCACGAGCTAACTTTTTAGAGCGAACGATTGGATATTTTTCTAAAAATAATGTTGTATTCGTTCAAGCACCACAAGTTTTTTATAATGCTGATCCTTTCCAATATAATTTGTTTTTTGAAGATAACATCGCCAATGAACAAGATTTCTTTATGCGCCAGTTAGAAGAAGGGAAAGATCGCTTTAATGCTACGATGTATGTTGGTAGTAACGCCCTATTTGGCCGCACCGCGCTTGAAGAAATTGGAGGATTTGCGACTGGAGTTATTACTGAAGATATGGCAACTGGTATGCTACTACAAGCTAACAAATGGGAGACTATATTTGTCAATGAAACACTAGCTGTTGGATTATCCCCAGAAACATTTAGTGATTTATTAAAACAACGGGACCGCTGGTGTAGAGGGAACATTCAAGTCGTAAAAAAATGGAATCCTTTCACTATAAAAGGATTATCTTTTATGCAGCGTCTTTTATATGCAGATGGAATTCATTATTGGTTTTTCGGTGTTTATAAAATGATATTTTTATTAGCACCGCTATTATTTTTAGTATTTGATATTTATAGTTTAGAAATTAATTTCATGCACTTATTTATGTTCTGGGCACCTGCCTTTTTAACATCACAGCTTATTTTCAAAGCTGTTTCTAATAAAAAACGAACAACTACGTGGAGTCATGTGTACGAAGTTGCTATGGCTCCTTATATGGGATTTGCTATTTTATCAGAAATTTTCTTACGTAAAAAGTTTCAATTTCATGTGACAAGAAAGGGAGTTCAAAATAATACAAGGCATTTTTTATGGATTGCAAGCATCCCTCATCTCATATTACTCATTTTAACAATTATTGCACTTATTCGAGCAACACTTATGCTCTTATACCCTGAGCAATATTATATTGAAAGAGAGAGCTTATATATTAACATTTTCTGGTTACTATACAACGGGATAGCTATTGTCACTTCACTATTTGTAGCATTTGAAAGACCGCGTTTTCGAAATTCAGAACGTTTCGTAGTAAATTTACCAGGTACTTTATATGCCGAAGATATGATCATTTCTTGCAATATCCTTGATATTAGTGAAACGGGGGCACGTTTTGAATTAGATTCCTCCATTCCATTTGAAACTTTATCAAGTCTATCTTCCTATATGCTATCTTTTGGCGAGGTAGAAAAGATTTATAGTACAAAAAAATGGATTCGGAGACAAGAAAGTTCTGTACAAGTTGGTGTATCATTTGATGATGTATCCCATGAGCAATATTGTAAACTCATTCTTCATCTATTTAGTAAACCGGTTAATGACCGGGTGGAAAAGGTGTACGATAAAGCATTTCTTACACTAGCAATTGCATCTTTCATAAAAAACACAAAAAAAGCACCAAGACAATTTCGCAGGCAACATATACGTGAGCAACTGATGTCTCCTGGAACATTGCATATGAATGGGATGCCGATTGAAGCGACCATTATCGACTATAGTACAGGTGGGTGCCAAGTACAAACGAACATCCCTCTTGTGATTGACCAAATTATACAAGTAACAATGGAAGAACGTAATATTCAAAAGAAAAATGCACAAGTGTGTTGGATTCAAAAAAAGGGTCGTAAAATATATGCTGGATTAAAATTCACAGCGTAA	MSLSIYEGLGIIFFVIIITYALAHKYLWSKKLLIILFLICNAIYLIWRTFYSLPTINLISIIAGIILLITEWAGYLQSIVFSIVSWKPYKRKEVPLSTFEKLPTVDIFIATYNEPIDLLKRTVAGCTLITYPKELLNIYICDDGRRESVKQLAADFSVHHITRTENKHAKAGNLNHAMLHSKGDIIVTMDADMIPRANFLERTIGYFSKNNVVFVQAPQVFYNADPFQYNLFFEDNIANEQDFFMRQLEEGKDRFNATMYVGSNALFGRTALEEIGGFATGVITEDMATGMLLQANKWETIFVNETLAVGLSPETFSDLLKQRDRWCRGNIQVVKKWNPFTIKGLSFMQRLLYADGIHYWFFGVYKMIFLLAPLLFLVFDIYSLEINFMHLFMFWAPAFLTSQLIFKAVSNKKRTTTWSHVYEVAMAPYMGFAILSEIFLRKKFQFHVTRKGVQNNTRHFLWIASIPHLILLILTIIALIRATLMLLYPEQYYIERESLYINIFWLLYNGIAIVTSLFVAFERPRFRNSERFVVNLPGTLYAEDMIISCNILDISETGARFELDSSIPFETLSSLSSYMLSFGEVEKIYSTKKWIRRQESSVQVGVSFDDVSHEQYCKLILHLFSKPVNDRVEKVYDKAFLTLAIASFIKNTKKAPRQFRRQHIREQLMSPGTLHMNGMPIEATIIDYSTGGCQVQTNIPLVIDQIIQVTMEERNIQKKNAQVCWIQKKGRKIYAGLKFTA	PGPT0022275_723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
AK009_00429	180	sspH_1		Small, acid-soluble spore protein H	ATGAATATACAACGTGCAATAGAGCTTTCTGTGTCAGCGGAACAAGCCAATGTCAGTTTTCAAGGCATGCCTGTTATGATTCAACACGTCGATGAAAGCAATGAAACCGCCCGCATATATGAAGTAAAAAACCCAGGACGCGAATTAACTGTTCCAGTTAATAGCTTAGAGGAAATATAA	MNIQRAIELSVSAEQANVSFQGMPVMIQHVDESNETARIYEVKNPGRELTVPVNSLEEI	PGPT0024895_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
AK009_00430	1215			hypothetical protein	ATGGCAACTCTCGGTGAAAAAATTAAAGCATTACGAAAAGAAAAAAAGCTTACGCAAACAGCACTGGCAGGTTCGGAACTGACAAAAAGTATGCTTAGTCAAATTGAAAATGGAAAAGCTACACCTTCTATGAAAACATTACAATATATTGCGGAAAAACTTGAATGTGAAACGAGCTTTTTATTAGAAGAAGATGAAGAAGAAATTGTGGAACTCATTCAAAAAATGGAGCCATTAATAAAATCAAATAAATGCGATGAAGTATACAAGACTTTACTACCTATCGTTCAAAAAGAACTACCCCTTACTTTAAACACAGCACGTTTATATAAACAGTTCATAACTGGAGCGGCCATTATGAACGATTACAATATTGAATATTACGTTGAAACAGCTGTTTCTATATTTGAAAAATATACTTTGTATCGTGAAAGTACTGAAACGAAACTACTGTTTTACTATATGCTCTACAAACGGAAAAAATATAAAGAATGTTTACAGTTGATTAGCAGAATTCGCGATGAATATAAAACGAAGAATTTAGAAATGGATCTTATTACACATATACAATTATATTTAAAAGAAGCAATTATTTTACTCGCATATGGTAATTATGAAAAATGTGAAAAAATCATTTTAGATGCACTTGCATTTTCAAAAAAACATCAAGTGTATTATAAAACAGATGAATTTTACCGTATTTTATCTTATCAAAAAATCATTACAACCGATAAAGAACGATATTTATATTACATAAAAAAATCGGAGCAATTTGCCATTTTTACAGAAGATACTTTATCCGCTGCAAATATAGATATATTAAAAGCTTATTACTACAATACCGTTACGAATGAATATACAATTGCATTAGAACATTTAGAACAATTCCGAGAAAAACTAAAAGATGTACCGATTTTTCAAGACGATGGATTGTATTATCTTGAAAAAGGAAAATCTCTGTATGGTTTAAAACGTTACGAGGAAGCTTTGGAAACATTAAAACGTGCTAACATTCCAGATTATATGAGTCATCCACTTGATCAGTCATGGTTATTAACAGCTGGATCATATCGTGCCCTGTGTCATATAGAACTTCAAGATAAAACGGCTGCTCTGAAAGAAGCAAAAGAAGCAGTTCAAACGATGGATGGTTATCCTAATTCCATCTTTTCTTCATTTATTAAAGAAACATTACAAATAATACAAAAACTTTAA	MATLGEKIKALRKEKKLTQTALAGSELTKSMLSQIENGKATPSMKTLQYIAEKLECETSFLLEEDEEEIVELIQKMEPLIKSNKCDEVYKTLLPIVQKELPLTLNTARLYKQFITGAAIMNDYNIEYYVETAVSIFEKYTLYRESTETKLLFYYMLYKRKKYKECLQLISRIRDEYKTKNLEMDLITHIQLYLKEAIILLAYGNYEKCEKIILDALAFSKKHQVYYKTDEFYRILSYQKIITTDKERYLYYIKKSEQFAIFTEDTLSAANIDILKAYYYNTVTNEYTIALEHLEQFREKLKDVPIFQDDGLYYLEKGKSLYGLKRYEEALETLKRANIPDYMSHPLDQSWLLTAGSYRALCHIELQDKTAALKEAKEAVQTMDGYPNSIFSSFIKETLQIIQKL				NA	NA	NA	NA	NA
AK009_00431	1269	entS_1		Enterobactin exporter EntS	ATGGGAGATATAAGTATAGGACAACATGATTCAAGAATGAAGATTGCAACTAGAAATATCATTTTAATGATGATTGGAAAAATGACGTCTTTATTAGGCGCAGGTATTTATACGTTCGCAATGGGATTATATGTATTAAAGACTACTGGTTCAGGGATGGGGTTTGCAATTACGCTCGTTTGCGGATCACTTCCAAGGATGATCTGTGGCCCAATTGCTGGTGCTGTAGCAGACCGTGTGAATCGAAAATGGCTTGTCATTGGTACTGATTTATTAAGTAGTTTAACGATGCTTAGTATGTTTATTCTTGCTACTATATTTGGGTCATCACTTCTTTTTATTTATATTTCAGCAGCATTATTATCAATTTGTGCAAGTTTTTATTCTGTTGCATTAACTTCGTCTATTCCGAGTTTAGTAGATGAAGGACGTATTCAAAAAGCGAGTGCTTTAAATCAAACGGCGGCTTCTTTATCAAATATTTTAGGACCGATTATTGGCGGAGTTGTATATGGTTTCTTTTCAATTAAATCGTTTTTCCTATTAAATAGCATTACGTTCTTTTTAGCGGTTATTTTGCAATTATTTATCGTATTTGATTTATATAAAAAAGAAGTGGCTGAAAGTACAGAGCATTTCTTGACGAGTATAAAAGAAGGTTTTTTATATGTAAAAAGACAACGTGAAATATATGGTTTAATGAAAATAGCATTGTGGGTAAACTTTTTTGCGTGTGGTCTAACAGTTGCACTTCCGTACATTATCGTCCATACATTGCATTTATCTTCAAAGCAACTCGGTACTGTAGAGGGAATGTTAGCAGTCGGGATGCTAATGGGAGCGATTGCTTTATCAGTGCGTAAAGAATTGAATAATCCGTTTCGTTCTATTTATACTGGACTGTTTTTGTTTGCAGGTTTAAGTTTATGTACAGTCTTTCCGTTGTTAGTTGTCATTCCAAAAGTAGCAAGTTTTATTTACTATATTGCTTTTATGATGTTAACTGGTATAGCAATTATGATTGTAAACATTCCAATGCAAGTACATATGCAAAAAACGACAGGTCCGAGCTACCTAGGGCGTGTGTTTGGCCTACTTGAAACAATTGCGACTGCAATCGCACCACTTGGTATGATTGTATATGGACTACTATTAGATATGTTGCCAACTAGCATTGTTATGATGACAATAGGCGGAGGGTTATTGTTAGTTGTATTAGTTGGAGTAAAGCAACATATGGCGAAAAAACAAGTAGATGTGTCCGCTTAA	MGDISIGQHDSRMKIATRNIILMMIGKMTSLLGAGIYTFAMGLYVLKTTGSGMGFAITLVCGSLPRMICGPIAGAVADRVNRKWLVIGTDLLSSLTMLSMFILATIFGSSLLFIYISAALLSICASFYSVALTSSIPSLVDEGRIQKASALNQTAASLSNILGPIIGGVVYGFFSIKSFFLLNSITFFLAVILQLFIVFDLYKKEVAESTEHFLTSIKEGFLYVKRQREIYGLMKIALWVNFFACGLTVALPYIIVHTLHLSSKQLGTVEGMLAVGMLMGAIALSVRKELNNPFRSIYTGLFLFAGLSLCTVFPLLVVIPKVASFIYYIAFMMLTGIAIMIVNIPMQVHMQKTTGPSYLGRVFGLLETIATAIAPLGMIVYGLLLDMLPTSIVMMTIGGGLLLVVLVGVKQHMAKKQVDVSA	PGPT0027965_558	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
AK009_00432	525			hypothetical protein	ATGAAAAAATTAAATTTTGTTATGCTTTTTCTATTAATCGTAATGGCTGGATGTAGCAATTATGACACATATATTGAAACAGGTATGCAATCATTGAAAGATGAAAAGTATAGTGATGCAACAATGTGGTTCGAAAAAGCAGAAAAAGAGAAATCAGGAAATGAAGCGAAATCATATAAAGAAGTTGCTGAGAAAATGGATCACGGGGCAACAGCATTAAAAGACGGTAAGTATTTAGAAGCGAAAGACATTGCAAATGAAGTGTTACAAAAGAAAAAAGATGATGCACTTGAAAAAGCTGTAACATCAAATGCAGAGAATATGCTTCAAAAAGCAAAAGATGTAGAAGAGAAAGTGAATGAAAGAGTAGCAAAGCGTAGAAAGGTAGAAGAAGAAGGAATCGATAAAATTATTAAAGCTGTCGATAGTATAGATGAAGTGAAAGAAAAAGAGAAGAAAGTATCAGAAGCATTAGATAAGGCTGAAGAGGCGCAAGCAAAAATTGAGGCAAAGAAAAATAAATAG	MKKLNFVMLFLLIVMAGCSNYDTYIETGMQSLKDEKYSDATMWFEKAEKEKSGNEAKSYKEVAEKMDHGATALKDGKYLEAKDIANEVLQKKKDDALEKAVTSNAENMLQKAKDVEEKVNERVAKRRKVEEEGIDKIIKAVDSIDEVKEKEKKVSEALDKAEEAQAKIEAKKNK				NA	NA	NA	NA	NA
AK009_00433	894	cmpR_1		HTH-type transcriptional activator CmpR	ATGAATCTCTTAAAATTAGAAATTGTAGTACTTATTAAGAAATACAAAAAGCTTACAATTGTTGCAGAAAAACTTGGCGTTAAACAACCAACTATTACATTTCATATAAAAAGCTTAGAAGAAGAACTCGGTGTGTCTTTATTCGAATTACGTTCTGGAAGGTATTTCTTAACAGAGGCTGGTGAGGCTTTGCACCATTATGCTTCTAAAATAGATGCACTTATGAAAGAAGCTAGACGTGTCACGCAAGAGTTTAAAGATTTTAATAAAGGTGCTATAACAATCGGCGCTAGTTATGTACCAGCGACTTATCTTTTGCCAGAAGTCGTTCATGAATTTCAATGTGAATTTCCCAATATAAAAATAACGCTACTAGTTAAAACAGCCCCTGAAATTCGAATGATGCTACAAAATCACGAAATCGATCTTGGGATAATTTCCGCTGCTCCATTTGATGAACCACTTTTAAAACAAACGAATATAATACCTGATACACTTGTTCTTGCCTTTTCCAAAGAACATCATTTTTCAAAGAAAGAAAATGTATCGTTACAAAATATCGAAAAGGAACGCATACTATTGCATCGTAATCCATCTACAACGAGAGATTTACTTACAAAATGGATGTCAGTTCATAACATTACATTCCAATCAGAAATTGAATTAGACTCATTAGAAACGATGAAACAAATTTTAAAATATGGTAATGGAATTGCCTTTATTTCTAAACTTGCTATTGAGCAAGAAATACAACGAAATGAGCTATGCTATATACCAATCCCAGAATTTGAATTTCAGCGTAATATTTATACGATTCATCATGAGGACAGATGGAATTCTAAAATCATTTCTTTTTTACTACAGAGCATCCATTCATTTGCAACAAAAAATTAA	MNLLKLEIVVLIKKYKKLTIVAEKLGVKQPTITFHIKSLEEELGVSLFELRSGRYFLTEAGEALHHYASKIDALMKEARRVTQEFKDFNKGAITIGASYVPATYLLPEVVHEFQCEFPNIKITLLVKTAPEIRMMLQNHEIDLGIISAAPFDEPLLKQTNIIPDTLVLAFSKEHHFSKKENVSLQNIEKERILLHRNPSTTRDLLTKWMSVHNITFQSEIELDSLETMKQILKYGNGIAFISKLAIEQEIQRNELCYIPIPEFEFQRNIYTIHHEDRWNSKIISFLLQSIHSFATKN	PGPT0001160_690	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK009_00434	993	potA_2		Spermidine/putrescine import ATP-binding protein PotA	ATGGATATTACAATTAGTGGATTAGAAAAGACATTTGGAAAAACACAGGCGTTAAAGCCGTTGCAGATTGTAATGAAACAAGGGGAATTCACTACACTTTTAGGACCTTCGGGGTGTGGGAAAACGACTTTACTTAGAATGATAGCAGGGCTTGAAGAACCGGATAAGGGAGAAATATATTTTGGAGACCAGTGCATGTATTCTGCTGCAAAAAAGATAAAGACACCTCCTCATGAACGGAATATCGGTATGGTATTTCAAGATTTTGCTTTATGGCCGCACATGACTGTTTTTGACAATGTTGCATTTGGTTTAAGGGCTACAAAGCAAACAAATCATTTACGAGAAAAAGTAGAAGATGCGATAAAGCGAGTTCGCCTGCAAGGTATGGAGAAAAGGTATCCACACGAACTTTCTGGTGGACAGCAACAACGTGTCGCATTCGCTAGAGCAATTGTAACAAAACCTCATTTTATTTTATTTGATGAACCGCTAAGTGCACTCGATGCAATTTTACGAGAAGAAATGAGAATAGAGCTTATGGATATCGTTCATTCCATTGGTTTAACTGCACTGTATGTCACTCACGATCAAACAGAAGCAATGTCAATGTCAGACCAAATTATTGTCATGAAACAAGGAGAAGTATTACAAAAAGGAACACCGGAAGATATTTATGTGAAACCGTCTCATGAATTTGTTGCCAAATTTGTTGGTAAGGCGAATTGGCTTGTAGAGGGTAAAAAAATGGTTCGTCCAGAGCATGTGAGCTGGACGAAAAATGAAGTGTGCGAAATGTATACAGGTGAAATTAAGCACGTTACATATGTAGGAGAACGGTATGAAATAAAAGTAAACATGGGGGCACTCGGAATATGGACAGCTTATCACAATAGTAAATTAAGCATCGGTAAACCAGTATCGTTATATGTGCCAAAAAAATGTATTCATCATATAGGGGGAGAATCGTATGAAGAAATTCAGTTCGCTTAA	MDITISGLEKTFGKTQALKPLQIVMKQGEFTTLLGPSGCGKTTLLRMIAGLEEPDKGEIYFGDQCMYSAAKKIKTPPHERNIGMVFQDFALWPHMTVFDNVAFGLRATKQTNHLREKVEDAIKRVRLQGMEKRYPHELSGGQQQRVAFARAIVTKPHFILFDEPLSALDAILREEMRIELMDIVHSIGLTALYVTHDQTEAMSMSDQIIVMKQGEVLQKGTPEDIYVKPSHEFVAKFVGKANWLVEGKKMVRPEHVSWTKNEVCEMYTGEIKHVTYVGERYEIKVNMGALGIWTAYHNSKLSIGKPVSLYVPKKCIHHIGGESYEEIQFA	PGPT0003735_3926	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK009_00435	1026		COG1840	putative protein	ATGAAGAAATTCAGTTCGCTTAAGTCTTTATTTGTATGTACTTTATTATTTTCGGCTGTAGTAACAGGGTGTAGTTCAAAGACAGGCAATGCAGATGCAAAAAGTAAAAATACGAATGAAAAGAAAATTGTTGTATATAGTGCAGGGCCAAAAGGGTTAGCAGAAAAAATTCAAAAAGACTTTGAAAAGAAAACAGGTATAAAAGTAGAAATGTTTCAAGGAACAACAGGTAAGATTTTAGCGAGAATGGAAGCTGAAAAGAAAAATCCAGTCGTTGATGTAGTCGTACTTGCATCATTACCAGCGATGGAAGGATTAAAGAAAGAGGGTCAAACGTTAGCTTATAAAGAAGCGAAACAAGCTGATAAGCTGCGTTCTGAATGGTCAGATGATAAAGGACATTATTTCGGGTATAGTGCTTCAGCATTAGGGATTGTGTACAATACAAAAAATGTGAAGACAGCGCCTGAAGATTGGAGCGATATAACGAAAGGGGAATGGAAAGGAAAAGTGAATCTTCCAGATCCAGCACTTTCAGGTTCAGCTTTAGACTTTGTAACAGGATATGTGAAAAAGAATGGAAAAGATGGATGGAATTTATTTGAACAGCTTAAGAAAAATGAAGTTACAGTAGCAGGAGCAAATCAAGAAGCTTTAGATCCAGTAGTAACAGGTGCGAAAGATATGGTAATTGCAGGTGTTGATTATATGACGTACAGCGCAAAAGTAAAGGGTGAACCGGTTGATATTGTTTATCCAAAAAGCGGAACAGTTATTAGCCCACGTGCAGCGGGGATTATGAAGGATAGTAAAAATGTAGAGGGTGCAAAAGAGTTTATTGATTATTTATTATCAGATGATGTGCAAAAACAAGTTGCTAAAGCGTATTTATTGCCAGGTAGAACAGATATAAAAGCTGAAAATAGACCGAATGTAGAAGAGATTCCAGTATTAAATATTGATTGGAAAACAGTTGAGAAAGAGCAAGATGAAATAGGAAAACAATTTAAGAAAGTATTTCAATAA	MKKFSSLKSLFVCTLLFSAVVTGCSSKTGNADAKSKNTNEKKIVVYSAGPKGLAEKIQKDFEKKTGIKVEMFQGTTGKILARMEAEKKNPVVDVVVLASLPAMEGLKKEGQTLAYKEAKQADKLRSEWSDDKGHYFGYSASALGIVYNTKNVKTAPEDWSDITKGEWKGKVNLPDPALSGSALDFVTGYVKKNGKDGWNLFEQLKKNEVTVAGANQEALDPVVTGAKDMVIAGVDYMTYSAKVKGEPVDIVYPKSGTVISPRAAGIMKDSKNVEGAKEFIDYLLSDDVQKQVAKAYLLPGRTDIKAENRPNVEEIPVLNIDWKTVEKEQDEIGKQFKKVFQ	PGPT0003725_3055	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK009_00436	1671			hypothetical protein	ATGGTAAATCGATTCATATCAGTAAGACAAGTTGGAATGACGGTAGCGTTATTACTTGTGGCGATGTTAATCGTCATTCCGCTTTTTCTCATTTTATTTTCTAGTATATATGAAAATAGCAGCTGGAACTTTTTAAAGCCTTTTGAAGTGATGCAGAGTGGTGGATTAGCTGGGATTTTTCTAAACTCGATGCTTCTAGGTGTACTCGTTGTAATAGGAGCTACAATATTTGCATTTCCATTGGCGTTTATTATGAGCAAAACAGATGTAGGAAAGTATAGTAAGTTAGATATTGTTTTTATGATTCCATTTATGACACCGCCGTATATTGGATCAATGGGCTGGATTTTGTTCATGCAACCTAACGGCTATTTTGAACAATTTTTTCCGATGCTAAAGACAGTTTCATCATCGTTTTTTAGTTTAGGAGGTATGGTCTTAATTATGAGTCTGCATTTATTCCCATTCCTTTATTTCATGCTGAAAAACACGTTACTTCAGATTGGGAGTAGTAAAGAAGAAGCTGCAGCAGTTCATGGCGGAAGTTTTCTCTATCGTTTAAGAAAAATAATATTGCCGTTATTAGTATCAAGTTATGTAATGGGTGCTTTACTCATTTTCGTAAAGACGATTGCTGAATTTGGAACACCGGCTACATTCGGACGTAGAATAGGATTCCACGTGTTAACATCAGAAATCCATAAATTTATTTCGAGTTGGCCAATTGATTTTAGTAGTGCAACAGCATTATCTTCTTTATTACTTAGTGCTTGTATGCTCATTTGGTATATGCAAAATGTATTGAATCGAAAGTATTCATATGCAATGGTTAGTGGAAAAGGTGTGAAATCTAAAAGATATACTTTGTCTATATTTACGCGCGTTGTAGCATGGATGTATGTAATTGGTTTATTAATCGTATCAATTGGAATTCCATACTTTTCTATACTGATTGCTTCTTTGTCAAAATTAAGAGGCGGCGGTTTACATGTAAATAACTTTACAACAAGCCATTATGAGGCATTGTTTACAATGGGATCTCCGGGATTAGAGGCTTTATGGAATAGTTTTCTTTTTTCACTCGTAACAGCGATTATTGCGGTAATGATTGGAGTCTTTTTGGCACTTATGATTCGAAAGGGGAAAAAAAACTCTGAAAAATGGCTCGATATGTGCGGTATGTTACCCAATATGGTACCAGGAATCGTTATGGTTGTAGGTCTTATTCTATTTTGGAATTCACCATATATGGCCCTGTCAATTTACAATACACCAGTCATGGTTATCGTAACGTATGTTGTGCTGTTTTTACCTTACACGGTGCAATATGTAAAATCATCACTCGGACAAATTGATGATTCTCTCATGCAGGCAGGAAGCATTTTTTCGGGAAATTATATTTATATTTTTAGAAAAATAATATTGCCTCTTATTATCCCAGGCATTCTTGCTGGATGGGCGATGACATTTACAATTTCGATAAGAGAGTTAGTAGCATCGCTTCTCGTATTACCTCCATCAGTAGAAACGTCAGCAACGTTTATTTTTGCTCAATTTGAACAGGGTGAAGTATCTATAGGCATGGCGATGGCCGTTGTTTCTGTTGGACTTACAACAATGTGCTTATTACTGCTACAACATATGGAGCAAAAGCGAAAAGGGGTAGCATGA	MVNRFISVRQVGMTVALLLVAMLIVIPLFLILFSSIYENSSWNFLKPFEVMQSGGLAGIFLNSMLLGVLVVIGATIFAFPLAFIMSKTDVGKYSKLDIVFMIPFMTPPYIGSMGWILFMQPNGYFEQFFPMLKTVSSSFFSLGGMVLIMSLHLFPFLYFMLKNTLLQIGSSKEEAAAVHGGSFLYRLRKIILPLLVSSYVMGALLIFVKTIAEFGTPATFGRRIGFHVLTSEIHKFISSWPIDFSSATALSSLLLSACMLIWYMQNVLNRKYSYAMVSGKGVKSKRYTLSIFTRVVAWMYVIGLLIVSIGIPYFSILIASLSKLRGGGLHVNNFTTSHYEALFTMGSPGLEALWNSFLFSLVTAIIAVMIGVFLALMIRKGKKNSEKWLDMCGMLPNMVPGIVMVVGLILFWNSPYMALSIYNTPVMVIVTYVVLFLPYTVQYVKSSLGQIDDSLMQAGSIFSGNYIYIFRKIILPLIIPGILAGWAMTFTISIRELVASLLVLPPSVETSATFIFAQFEQGEVSIGMAMAVVSVGLTTMCLLLLQHMEQKRKGVA	PGPT0003730_2498	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK009_00437	1311		COG1236	Ribonuclease	GTGCTTATTACTGCTACAACATATGGAGCAAAAGCGAAAAGGGGTAGCATGATGAGGATAGAAGTATGGGGTGGGGCAGGAGAATACGGTCGCTCCTGCTATTTTGTAAAAAATAAAGAGACGAAAATATTATTTGATTGTGGTATTAATCGATCATATGAGAAGAGTTATCCAGAAATAGAGAGAGAAGCTGTTCCATTTTTAGATGCGGTATTTTTATCACATATTCATGAAGATCATACGATGGGTTTACCTTTATTAGCGAAGTATGGATATAAGAAAAAAATTTGGACGACTCGTTATACGAAGGAGCAACTGCCGTTATATTATGAAAAATGGAGAAACTATAATGTGATGCAAGGGTGGAATTTACCTTATAGCGACCAACACATAAAAGATTTAAATTATGTATGTATTGATGAGATTAGTAATCCAAATGAATGGATACAAATTACTCCTACATTGCGGTTTCAGTGGGGATATAGTGGGCATGTATTAGGAGCTGTTTGGTTTTTAGTTGATTTGTGTAATACATACGTGTTCTATTCCGGCGATTATTCAGCAGAGTCTAATATACTACGAGCTAATTTACCTGAGAAATTGGGCCACAATATAAAAGTTGCAATTGTAGATGCCGCTTACCACACAGATGATGTTTCGCAAAATGAAAGATTAGATGATCTATGTGCAGAAATTGAGCGAGTTATGCAGAATAAAGGAATAGCATTGCTACCGCTGCCACAACTTGGTAGGGCGCAAGATATAGTATTGTATTTATATGAACGATATAAAGAATTTCCGCTTATAGTAGATAAAGAAATTTTGGCTGGATTTGAAGAGATGTTCATATATAAAGATTGGATAAAAAATAATGAAGAACTTAAATGGATTATGGAGAGTTTAAAAAGAAACATAATCGTTATGGATAATGACATTAGTATGCAAAATAGTTATGGAATAGTTGTAATGAGTGATGCGAATATGCAAACGAAACGAGCACAGTTATGCTATGAACAGCTTCGGAATGAAAAACGTAATTCCGTTATTTTTACTGGGCATATTGCGAAAGGGAGTTTTGCAGAAAGAGTTATGAAAGAACATGTAAGGAGTACATGTAGGGTGAAGCGAGTTCCGTATAAAGTTCACCAAAGTATAAAAGAAGTTAAAGAGATGTTAAATACATTATTACCAGAACATACGGTGCTAGTGCATGCTTTGAAAGAGGATACGGATCGATTACAACAAAAGCTAAGTACAGCAGGATATGAAAATGTATATTCACTTGCAATGGAACGTATAGAAGTCATTTAA	MLITATTYGAKAKRGSMMRIEVWGGAGEYGRSCYFVKNKETKILFDCGINRSYEKSYPEIEREAVPFLDAVFLSHIHEDHTMGLPLLAKYGYKKKIWTTRYTKEQLPLYYEKWRNYNVMQGWNLPYSDQHIKDLNYVCIDEISNPNEWIQITPTLRFQWGYSGHVLGAVWFLVDLCNTYVFYSGDYSAESNILRANLPEKLGHNIKVAIVDAAYHTDDVSQNERLDDLCAEIERVMQNKGIALLPLPQLGRAQDIVLYLYERYKEFPLIVDKEILAGFEEMFIYKDWIKNNEELKWIMESLKRNIIVMDNDISMQNSYGIVVMSDANMQTKRAQLCYEQLRNEKRNSVIFTGHIAKGSFAERVMKEHVRSTCRVKRVPYKVHQSIKEVKEMLNTLLPEHTVLVHALKEDTDRLQQKLSTAGYENVYSLAMERIEVI	PGPT0003730_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK009_00438	834			hypothetical protein	ATGAAAAAAGTATTTGTATTCGTAAGTATTTTCTTTTGTTGTTTTCTTTATAACGTTAAGGAAGGGTTTGCTGCTAGTCCAATGAAACCTAGTTTTGAAGTAAAGTTATTATTGAAGCCAGAACAAGTATTAGGTTATAACAAAGAGATGAAGCAAGAGGTGCTAGAACATTTCCAGGCTGGTACAAAATATGAAAGAATACAAGTACAATTTTTAGATACTGCAAATAAAAGTTTAAGTGATGAAGGTTGGTTTGCTAGAATTCGAAAGAAAGAATTTAGTAAAGATTTTGAACTAACATATAAAAAAAGATATCCTATTCAAAATGGTGTAATTCAAGATGCACTAGAAGTAGCTAAAAAAGAAGGATTCGATAGTAATACGGATAGTTATGAGGCGGAAATAGATTGGGGATTTGAGAAGAAAACATTAAGCATTTCAAATAAGAAAAGCTACAGTGCTAAAGGATATGGGATACTTGATTTACCAAATGAACAAGCTGCTCAAAACATGTTAATAGAAAAATTACCAGGGAAAATGAACAAATGGTTGTATACAAATTGGGGAGAAGAGATGTTAAAGAATTCCCGTATTTACGGTCCTGTATTAATGAAGCGATATACAGGAGAGTTTGAAAACATAAAAGCAAATATTGAAATTTGGCCATTAAGTAATACCGGAAAATTAGAAGATGACTTCGTAATAGAAGTGTCATTTAAAACAAATGAAGAAAGTATTGCGACAAAACAAAGGGAATTATTAATAGCGAGTTTAGAGAAAAAAGGCTGGTTGTTACCGAAAGATAGTTTGAAGACAGAGCTTATTTTTCAGTAA	MKKVFVFVSIFFCCFLYNVKEGFAASPMKPSFEVKLLLKPEQVLGYNKEMKQEVLEHFQAGTKYERIQVQFLDTANKSLSDEGWFARIRKKEFSKDFELTYKKRYPIQNGVIQDALEVAKKEGFDSNTDSYEAEIDWGFEKKTLSISNKKSYSAKGYGILDLPNEQAAQNMLIEKLPGKMNKWLYTNWGEEMLKNSRIYGPVLMKRYTGEFENIKANIEIWPLSNTGKLEDDFVIEVSFKTNEESIATKQRELLIASLEKKGWLLPKDSLKTELIFQ				NA	NA	NA	NA	NA
AK009_00439	423			hypothetical protein	ATGACGACTTGGTTTATTGTAATGTTAGTTGTATTTGGGGCATTTAAAATTATCGTTTCTAGCCTTCCTAACACTGTTATTGAATCCATTATTAGCAAGTACGAAACACATCCAAAACTTGAAGAAGAGAATGTGACTATTACAATTCACGGAAATAACGTAGAAGGCGAACAGAAATCAAAAATTATTCATGATTTTAACGAAGGTTTATTTTTAGATCGCTATTATGCACCACCCCATAATGAAGGCACTCCTTTAATTATCAATGCAAAACGTGGTAAAAAAGATTTCATATTTTATATTTACAGTCATGAAGAGCATGTTGATGTTGTAAAACAATATAAAAAGAAGGTAGTTGCTTATAGTTTACGCTCTAAAAATCTTCAAAATAGTGATATGTTCGTGTCAGCTGATTTAGCTTAA	MTTWFIVMLVVFGAFKIIVSSLPNTVIESIISKYETHPKLEEENVTITIHGNNVEGEQKSKIIHDFNEGLFLDRYYAPPHNEGTPLIINAKRGKKDFIFYIYSHEEHVDVVKQYKKKVVAYSLRSKNLQNSDMFVSADLA				NA	NA	NA	NA	NA
AK009_00440	162			hypothetical protein	ATGAGTACTGTAGCAATCGTATATGGTATTATTCTTTCCACAATTATTGTTTTGTTTTTTGTTGGGGTTTCACGTTATATTCATAAATGGAAAGAAAGCGTTGCGAAATTAAATCACATTGAAGAAGAACTTAGTGATTTAATGTTACATCATGGTAAATAA	MSTVAIVYGIILSTIIVLFFVGVSRYIHKWKESVAKLNHIEEELSDLMLHHGK				NA	NA	NA	NA	NA
AK009_00441	1092			hypothetical protein	GTGAACATATTAAAGATTATAGGAATTGTTGCAGGAGTGATTATAGTAGCAGTTATAGTTTTCTTTGTCATAATGAAGTATTATTTGTCAAAAAAAGATTCTGATTACGTATTAACGTATATAAAAGAACATAAAGACGATGAGACATGTTCATTACTGATTAGAAAAAATGGTGAGGTATTAACATCTATAAATGAAAATAAAAAATTGCCATTAGCGAGTACGGCAAAAATCGTAATAGCAGTTGAATTTGCTAAGCAAGTGTCAGAAGGAAAAATAAGTCGAGATGAACAAATTTCATTGCAGGAGCTAGAAAAATATTACGTTAAAAATACTGATGGTGGAGCGCATCCTACCTGGTTAGAAGATGCCAAAGTGAGAGAATTAGTGAAAAATAGACAAATCGCTTTAGAAGAAGTCGCTAAAGGAATGATTCATTATAGTTCTAATGCAAATACAACATATTTGTTAGATAAGCTTGGAATAGAAAGAGTAAATGAAAGTATAAAAGAGTTAGAGCTTACTAGTCATGATAAGTTCACTTCTTATACGTCTGCACTATATATGAGAGGATACGTAGAAAAAGAACTTCATGTGCCAGAAAATCAGTCATTAAAAACGTTACGTAACATGTCAAAAGATGAGTATAATAAACATGTGTTACAAATTCATGAATGGATGAAAGATGAAGAAGAATGGAAAAAACGTGAAATTCCATTAAAGGTAGATATGGAATTTCAGCGAATTTGGTCAGATCGATTAGTGAGTGCAAACGCTAAAGATTATATGAGTATAATGGAAAAAATAAATAGTAGAAATTATTTTCCTAAATTAATGCAAGAAGAAATCGAGAATATTTTCAAAGGCACAGTTGATAATAGTAAGTTAGAATTTGCGGGGCAAAAAGGTGGATCTACCGCATTCGTATTGACCAAAAGTTTGTATAGTACAGATAAGAAAGGTAATAAGATAGAAGCTGTCATTATGTTTAACGATATAGAAAATCAAGTTGTATATCAAAAGCTGAGAAATAATATAAATTATTTTATTCAAGATGCTATAACAGATGAAGAGTTTAGAAATAAATTATAA	MNILKIIGIVAGVIIVAVIVFFVIMKYYLSKKDSDYVLTYIKEHKDDETCSLLIRKNGEVLTSINENKKLPLASTAKIVIAVEFAKQVSEGKISRDEQISLQELEKYYVKNTDGGAHPTWLEDAKVRELVKNRQIALEEVAKGMIHYSSNANTTYLLDKLGIERVNESIKELELTSHDKFTSYTSALYMRGYVEKELHVPENQSLKTLRNMSKDEYNKHVLQIHEWMKDEEEWKKREIPLKVDMEFQRIWSDRLVSANAKDYMSIMEKINSRNYFPKLMQEEIENIFKGTVDNSKLEFAGQKGGSTAFVLTKSLYSTDKKGNKIEAVIMFNDIENQVVYQKLRNNINYFIQDAITDEEFRNKL				NA	NA	NA	NA	NA
AK009_00442	672			hypothetical protein	ATGCTATTAAAGGTAGGTATTGAGATGAGGTTGAATGAGTATATGCTTGAAACGTTTCCGAATTTAGAACTTAGACCACTTCTATTTTATAATTGGGATATTGGTATTCGTTTTAGATTAGGTGTGGACTATGATTGTAATAACATTTATGAAAATTGTCTATATTTAGAAGGCGTTTATAAAAGGACGATTACTTTATTTCAGTCTTTACATTCAACAAAAGATGATATTTATATTGTAGTGGATGTAAATGACCATGCAAACGGTGAAACTTTCAAACAGAAATTGAATATCTTTTCTAAGTATGTCAAAGAGAAGTCCGATTTGTTTAAGTTACAGAAAAATACAATCCCTTATGTTTTTCCAGATGAAGATGAAGATGGAGCATATAAAACACATAGATATACTTTGAAATGTGAAATCTCTGACTTTACATACATTCCTATGCTAAAAGCAATTTGTAATCAAGATATGGGAATAAAACCGAGTATTTTTCATAGGGTGTATTTTATAAATGTTAACAAGAATACTATATTTCACGTTTATGATGATAGAGGTTGTGATGTATTAGCTATCTCTCCTGATACAATTAGGGATATTTATAATACATATAATGATTGGATATTAGAATACGATAGAAATAAAATTGATAAAGTATTTAATTGGATGTAG	MLLKVGIEMRLNEYMLETFPNLELRPLLFYNWDIGIRFRLGVDYDCNNIYENCLYLEGVYKRTITLFQSLHSTKDDIYIVVDVNDHANGETFKQKLNIFSKYVKEKSDLFKLQKNTIPYVFPDEDEDGAYKTHRYTLKCEISDFTYIPMLKAICNQDMGIKPSIFHRVYFINVNKNTIFHVYDDRGCDVLAISPDTIRDIYNTYNDWILEYDRNKIDKVFNWM				NA	NA	NA	NA	NA
AK009_00443	576	gpmA_1		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGACGACAATCTATTTCGTTCGCCATGCCCACTCTACATATACAAAAGAAGAAAGGGAACGACCTTTATCTGAAAAAGGGCACTGTGATGCAGAGAATGTAACGCATTTATTAAAAGATAAACATATTGATGTTGTTATTTCTAGTCCGTACAAAAGAGCGATCCAAACTGTACAAGGAATTGCGAATACATATAAATTATTAATACAAACAGAAGAAGATTTGCGTGAAAGATTATTGAGTACAGAGCCAGTAGCAGATTTTAATGTTGCTATGCAGAATGTGTGGAAAGATTGGAGTTTTGCATACGAAGGCGGAGAATCGAGTGATGTCGCACAAAGGCGCGCTGTAATATGTATGCAAAATATATTAAAACAATATGAAGGTAAGAACATTGTAATAGGTACGCATGGGAATATTATGGTATTACTAATGAATTATTTTAATTCGAAATATGATTTTGAGTTTTGGAAAACACTTCATATGCCTGATGTGTATAAATTAAATTTTGATAAAAATCGCTTCATTTCTGCTGAAAGAATAGAGAAAACAGGTCATCGGTTAAATATTTTGTAA	MTTIYFVRHAHSTYTKEERERPLSEKGHCDAENVTHLLKDKHIDVVISSPYKRAIQTVQGIANTYKLLIQTEEDLRERLLSTEPVADFNVAMQNVWKDWSFAYEGGESSDVAQRRAVICMQNILKQYEGKNIVIGTHGNIMVLLMNYFNSKYDFEFWKTLHMPDVYKLNFDKNRFISAERIEKTGHRLNIL	PGPT0018030_3885	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
AK009_00444	372			hypothetical protein	ATGTTTGAGAAAGAGAAAGAAGGGCTTATTGAAGTTCAAAACGTATATGAAATTGCACCAGAAGATGGAACAATTATTGGTATGGCAACGGAAGAAGAAATGGAAATTGCTGCTGAACTAGAGTTACAGTACTATGCTCATTCTCGTTTGTTAGAAGCAAATATTCAGTTAGACGGTTCCTCCTACAAAGAGTTACTTCAGGAGTTCCAGGAGTACGAAAGAAAATCAATGAGCTTTTGGCGAGCGATACATAAACGTTTAGCTGTGCCATGGGCGTGGGTACTACGTATTGATGTTGCGAATGGCCCTATATATGTAAGTAATGGTAGTTCATATTACGAAGAAATCGATGATGAAGAAGATTATGAATAG	MFEKEKEGLIEVQNVYEIAPEDGTIIGMATEEEMEIAAELELQYYAHSRLLEANIQLDGSSYKELLQEFQEYERKSMSFWRAIHKRLAVPWAWVLRIDVANGPIYVSNGSSYYEEIDDEEDYE				NA	NA	NA	NA	NA
AK009_00445	933	rutD_1		Putative aminoacrylate hydrolase RutD	GTGTATCGTTTTTGCTTGTCAAAAATTATTTCAAGCTTAGGAGGAATTAACATTCATAAATTTGTAGAAATAATGGGGCAAAATATAGAAGTACATATAAAAGGAAGTGGTAAACAAACTGTAGTCATTCAAACCGGAATGAGTTGCTCATTTTATGATTGGTTTCCTATTATAGAAAAGCTTTCAGAGTACTTTACAGTCGTTTCATACCATCGCCCAGGTTACGGAAAAAGTGATGTAGGCCATCAGCCGCGTACAATAAGGCAAGTTACAAAAGAGCTACATATGTTACTAAACAAACTAGCTATTCAAGAGCCATTTATTCTAATCGGTCATTCCTACGGAGGATTATGTGCACAACATTTTGCGATGTTACATGAAGATAAGCTGCAAGCACTTATTTTAGTTGATTCTACTTCGATGAACTTACACCGTTTAGATGAACTTCATTTACCAATTTCTGATCAAACTGATTCTGATGATGTTTGGTTTCAAAAATATAATATGTATTCCAAAATGGATGTAGACACACTTTATAATGAACTAAAATCTATGATCGCCAATCAATCAAAACAGCAAATTGAATTCTCTACCTCCGCCTCATTATATAAAGCGACAGCTTCTGAACTATCTGAGTGGAAAAACTGTGCTCTCTCACTAAAAGAGCTATGTAAAACATTAGAAATACCATTAATCGTTATCGGTAGAGATCCTCAATATTCTATTACTCAATTGACTAATGGTGGCATGCCAAAAGAGGAAGCAACACAACTTGAAGCAATGTGGCAAGAACTAATTCATGAACAATTACACCTCTCAACTAACAGCCACTATATTCTTGCCCAACATGCTAGTCACGGTATAGAAAATGATCGACCAGATATTATTATTGAAGCAATTCATTTCTTACAAATCAAAAAAGGAAGCAACTAA	MYRFCLSKIISSLGGINIHKFVEIMGQNIEVHIKGSGKQTVVIQTGMSCSFYDWFPIIEKLSEYFTVVSYHRPGYGKSDVGHQPRTIRQVTKELHMLLNKLAIQEPFILIGHSYGGLCAQHFAMLHEDKLQALILVDSTSMNLHRLDELHLPISDQTDSDDVWFQKYNMYSKMDVDTLYNELKSMIANQSKQQIEFSTSASLYKATASELSEWKNCALSLKELCKTLEIPLIVIGRDPQYSITQLTNGGMPKEEATQLEAMWQELIHEQLHLSTNSHYILAQHASHGIENDRPDIIIEAIHFLQIKKGSN				NA	NA	NA	NA	NA
AK009_00446	330			hypothetical protein	ATGCATTTCCTCGTTAAAGTAATCGTTTCGGCACTTATTATCGGCGTTATCACTGAAGTTGCTAAACATTTCAGTACGATAGGTGGCTTTATTGCTGCCCTTCCACTCGTTAGTTTACTTAGTCTATTTTGGATTTCATTCGAAGGCGGGAATAAACAAGAATTAAGTCAATTTGCTTTAGGGGTATTATATGGATTCCCCGCATCAGCACTACTATTATTTATCGTCTATATTGGTTTAAAAAATTCATTTACACTTAGTACATCTGTCCTACTCGGTATAGGTGTTTGGTGTATCGTTTTTGCTTGTCAAAAATTATTTCAAGCTTAG	MHFLVKVIVSALIIGVITEVAKHFSTIGGFIAALPLVSLLSLFWISFEGGNKQELSQFALGVLYGFPASALLLFIVYIGLKNSFTLSTSVLLGIGVWCIVFACQKLFQA				NA	NA	NA	NA	NA
AK009_00447	411			hypothetical protein	ATGAACAACATTAATCAACATTGGGAGAGCATTTATTATCACTTACGATACGAATACGAGGACAACCTTTCCCACCAAGCAATTCGTATTTTACAAATCGTTTCTCGTGAGAAAGATATAACAATTGGAAAAGTCGCTACTGAGCTTAGTCTTTCTCATAACACAGCGTCTGAACACATAAAGCGCCTTATTCAAAAGGGCTTCATCGTTAAAGAGAGAAATAAACAAGATGAAAGAGTGGTAAACCTTACATTAACAATTGAAGGGATTGAAGTATTAGAAAAACATACTTTACTGGATAAAGAAAAGATAAAAATATTAGAATCACAGTTATCAAAAGAAGAACAACAATTAATTGAAAAAGCATTTTCGTTATTAGCGAAGGAGGCAAAATATGCATTTCCTCGTTAA	MNNINQHWESIYYHLRYEYEDNLSHQAIRILQIVSREKDITIGKVATELSLSHNTASEHIKRLIQKGFIVKERNKQDERVVNLTLTIEGIEVLEKHTLLDKEKIKILESQLSKEEQQLIEKAFSLLAKEAKYAFPR	PGPT0013155_5211	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK009_00448	828			hypothetical protein	ATGTGTAAAGGTATACATTTAGCAAGAGAGAGGATGATAGCTGTGAATACATTCAAATGGATTAGTCATGAACAGATGTATGTAGATGAAATACATGTTGAAAAATGTGGTCCTCTTTCAGTCGGCGTATATGGGGGGAATCAAGAGAGTGATGCATATGAACGAGGAGATGCGGTGCTTGCTTGGTGGGATCCTGAATTACAATTTGAATTTGTTATGATTTTTGATACACATCACAAAACAAAAAATATAGATTATATAATAGAAGCGATTTCGGCAAGAAAAGAAAAACTAAAAGAGTTATTCTCATATCCAATACATTTAGCTTTTCATCATACACATATGTACTTATTAGCGTTATTTACAGATGAGTTATTTATTAAAAAATGTGATCAAGATGATGAGGAACTCGCTTGCTTAATTTGTTTACGAAAAGGCGAATTTTTATATTGGTTATCAGTTGGTGATTGTTTCGCGTATTTATTCCATTCTGAGAAAACGAAAAATGGAAAAGGACGATTAAATAAACGGAAAAATTACGAATATATTGGTAGGAAAAATATTTTTGCAGCAAATACACCTTGCTTTACGTCAGGTGTAAGAGGATTAGAAAAAGGAATGAATCACATTGTAATGGCAACAGATGGTATTTTAGAGTGTGACAAACGAAGGTTTGATGATGATCAATCTTTAGTAGAAATATTACACGACGGAAGTTGCTTGCAGATTGAGCCCGTATTAACAAATGTATTGCAGTGGAAAGGTAGAGATTGTGCCACGATTATTGGATGGTCTATTGATACTGATAATAAACAATGTGCTAATTAA	MCKGIHLARERMIAVNTFKWISHEQMYVDEIHVEKCGPLSVGVYGGNQESDAYERGDAVLAWWDPELQFEFVMIFDTHHKTKNIDYIIEAISARKEKLKELFSYPIHLAFHHTHMYLLALFTDELFIKKCDQDDEELACLICLRKGEFLYWLSVGDCFAYLFHSEKTKNGKGRLNKRKNYEYIGRKNIFAANTPCFTSGVRGLEKGMNHIVMATDGILECDKRRFDDDQSLVEILHDGSCLQIEPVLTNVLQWKGRDCATIIGWSIDTDNKQCAN				NA	NA	NA	NA	NA
AK009_00449	1830	asnO_1	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 3	ATGTGTATGTGTGGAATTACAGGTTGGGTAAATTGGAATAAGGATCTCTCCAATGAACATGTTATTTTAGAAAAGATGGCAAATAGTATCCAGCATCGTGGTCCTGATGCTGAAGGATTTTGGTTTTCACCTCGCGCGGCCTTTGCACACCGACGTTTAATTGTTATTGATCCAGAAGGCGGGACGCAGCCGAAGACATTTCGTGCTGGTGATTATACGTATGCTCTTACTTATAATGGAGAAATTTATAATTTCCGTGAACTGAGAGAGCAACTTCAAAAATGTGGTCATACATTTGAAACCCATTCAGATACAGAAGTATTACTACATGCTTATTTAGAATGGAAAGAAGACTGCGTACGACATTTAAACGGAATTTTCGCTTTTGCATTATGGGATGAACAGAAGCAACAATTGTTTTTAGCACGAGATCATTTAGGTGTAAAACCGCTCTTTTTTACAGAAAGAAATGGCAGTATTATTTTCGGCTCTGAAATTAAAGCATTATTAGCGCATCCATCTGTCCCTGCTGAAATTGATGCGGATGGAATAAATGAAATATTTGGATTAGGCTTATTTCGCACTCCAGGATGTGGTGTGTTTAAGCATATTCAAGAAGTACGTGCTGGACATTCTATAACATTTACACGTCATAAAAAAGTAGTTACGAAGTATTGGAATTTAGAAAGTAAGATCCATACAGACTCTATAGAAGATACATCTTCGCATATTTTATCTATTTTACAAGATACAGTAAAAAGACAATTAATTGCCGATGTTCCTCTCGTTTGTATGTTATCAGGCGGATTAGACTCTAGCGGTATTACTGCACTTGCAGGTAAAGAATTTGCAGAGGAGCACGAAACACTTCACACGTATTCAATCGACTTTTTAAATAGCGCCAAAGATTTCGAGCTGACATTTGCTCGCACTGGCTTAGACGCTCCTTGGGTAAAACGTGTTTCCGAACATGTAGGGACATCGCATCATGACATTATTGTGAATGCTGAAGAATTAGCAAATCACTTATTCGTTCCCCTCCATGCGAAAGATTTGCCAAGTGCAGGCGAAATGGAAACTTCACTATATTTACTATTTTGCGAAATGAAAAAAGATGCAACCGTAGCTTTATCTGGTGAATCGGCTGATGAAGTATTCGGGGGATATCCTTGGTTTCATCAAGAAGAACTACTGTATGTAGATAAGTTTCCATGGTTAACAAACTGGAAAAACACATCTTCTCTATTATTAAACGAAGTAACAAAGCAATGTAATCCTGAACACTATATCAATAAAAGATTCCATGAAGCTGTTCATGAAGTACCTACTCTTGAAGGGGAAAGTAAAAAATCCGCGAAACAACGCCAAATGTTTTATTTATTTTTAACGAGATTCCTTCCTTTCTTACTTGACCGTAAAGATCGTATGAGTATGGCTGTTGGTTTTGAAGTTCGTGTACCGTTTTGCGATTATAGATTAGTTGAATATTTATGGAATGTTCCTTTCAACATAAAAAGTATTGATAATATTGAAAAAGGCATTTTACGTAGAGCACTACAACCAGCTTTACCTGACGATGTACGCAATAGAAGAAAAAGTGCTTATCCAACTTCACAAGATCCACACTACTTACAAACAATCCGTAATTTAACACTTGATATGTGTAGCAATAAAAACAATCCTATTTTCTCACTTATTAACCATTCCATCTTACTTTCAATTGCTAATCAAAGTAATAAAGAGATTAACAATTTTGAGGCAAGAAGTGCCATGGAGTATATGCTACAAGTAAATGAATGGTTGAAAACATATCATATTCATATTGCTTAA	MCMCGITGWVNWNKDLSNEHVILEKMANSIQHRGPDAEGFWFSPRAAFAHRRLIVIDPEGGTQPKTFRAGDYTYALTYNGEIYNFRELREQLQKCGHTFETHSDTEVLLHAYLEWKEDCVRHLNGIFAFALWDEQKQQLFLARDHLGVKPLFFTERNGSIIFGSEIKALLAHPSVPAEIDADGINEIFGLGLFRTPGCGVFKHIQEVRAGHSITFTRHKKVVTKYWNLESKIHTDSIEDTSSHILSILQDTVKRQLIADVPLVCMLSGGLDSSGITALAGKEFAEEHETLHTYSIDFLNSAKDFELTFARTGLDAPWVKRVSEHVGTSHHDIIVNAEELANHLFVPLHAKDLPSAGEMETSLYLLFCEMKKDATVALSGESADEVFGGYPWFHQEELLYVDKFPWLTNWKNTSSLLLNEVTKQCNPEHYINKRFHEAVHEVPTLEGESKKSAKQRQMFYLFLTRFLPFLLDRKDRMSMAVGFEVRVPFCDYRLVEYLWNVPFNIKSIDNIEKGILRRALQPALPDDVRNRRKSAYPTSQDPHYLQTIRNLTLDMCSNKNNPIFSLINHSILLSIANQSNKEINNFEARSAMEYMLQVNEWLKTYHIHIA	PGPT0020150_3648	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
AK009_00450	567			hypothetical protein	ATGAAATCAAATGAGAAAAATTTTATAAAAAGATTACAGCGGCAAAAAGAAGACGCGTTAGAATTTGTTGTCGATACATACTTACCACTCATAAAGGGGATCACGCATAAAGTTCTACTTCCAATTCAAAATGATGGACTCATAGAGGAATGTATAAACGATATATTTCTTTCCATTTGGAATAACGCAAATAAATTTCATGGAGAGCCGAGTGATTTTAAAAAATGGATTGCAGCGATTGCAAAGTTTAAAGCAATTGATTATTACCGAAAAGCGACTAAAAAAGTAGAAATTATTTCAGATGAGTTTCATATCAGTACAGAAAAATCAGCAGAAGACGAATTAATCGTTATGGAAGATAGGGAAGAATTATTGAAGCTCATTAATCAATTAGAACCGTTAGATCAAAAGGTATTCATTATGAAATATCTCCTCGGTATGAAGACAGAGGAAATTGGAGAAAAATTAAGATTAACTCGAGCAGCTATAGATAATCGAGTGTACCAGGGGAAAAAGAAACTACAACAAAATGCTACGAAAATTAGTTTTGGAGGTAGTGCAATATGA	MKSNEKNFIKRLQRQKEDALEFVVDTYLPLIKGITHKVLLPIQNDGLIEECINDIFLSIWNNANKFHGEPSDFKKWIAAIAKFKAIDYYRKATKKVEIISDEFHISTEKSAEDELIVMEDREELLKLINQLEPLDQKVFIMKYLLGMKTEEIGEKLRLTRAAIDNRVYQGKKKLQQNATKISFGGSAI	PGPT0014960_7884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_00451	1107			hypothetical protein	ATGAAAGACATTTATGAACTATTGAATAATATTGATATAGATGAAAAAGAACTAGAGGAAATTGAGGCTTCTGAAATTGAAAAAGAAAAAGTGAAGCGTAATGTAAAACAATCGATACGTACGAAGAAAAAGATGAAAAGTTGGAAAAAAGGTGTCGCTGCTGCATCTATTTTAGTAGGACTATCAGTTGCAACACTTGGTATTGGTTTTCCAACCTATGCTGGAGGTCTTCCTATAGTAGGAGATATATTCCGATTTTTAGATAATGATAGAACAGGGCTACATGAAAATTATAAAGAGTTTTCGACTGAATTGAATATGACGAGAGAGAGTAATGGGGTTAAGGTTACAATTAATGATGCTGTGTTTGATGGGAGAACTGTAACGATAACGTATTCTATCGAAAGTGAAAAAGATTTAGGAGAGCATCCGAGCATATTTGGTTCCCCGCAAGTAAGCATGTCTAATGGTGCGGCTGGAAGTTCTAAAACTACGAAAGTAGGAGATAAAAAATATGTAGGTATGACTACAACAAGTGATCTTGGTAGTAAAAGAATGGACGTTGCAAATGTTAGATGGAATATGGAATCAATTAATATGTACGAAGAAAAAAAATCAATAAAAGGGAATTGGAATTTTGCTCTTACTTTAAAGGCGATGGATAGTAAGGATATAAAAGTTAATGGGATTTCCGAAAAAGAAGGTATAAAAGTAAATATAGACAAAATGGAAGTAACACCTATGTCATTTATCGTTTTTTATAATCAGGAAGAATCTAAGGCATTAAGGCGCATATGGGATAGTGCAGATGTTGAGCTAGAAATAAAAGATGATTTAGGAAATCAATACGCTGGTGAAGGAAATGGCGGAACGGGTACAGTAGCAGAACCACATAAAAGTAGTTGGAGTACTACATTCCAAAAATTGAATAAAAATGCTACAAAGCTTATCGTTACGCCTCATGTGAATTTGCGAGTGCATACACCTGAAAATCATGGTGGAGTGGAGTATGTGAATGGAAAAGAGAAGAAAATTGAAGTGCCGAAAAAAGAAGCGAAGAGTAAAGATATTGTTCTAGATGATATCGTAATTGATTTAAAGAAATAG	MKDIYELLNNIDIDEKELEEIEASEIEKEKVKRNVKQSIRTKKKMKSWKKGVAAASILVGLSVATLGIGFPTYAGGLPIVGDIFRFLDNDRTGLHENYKEFSTELNMTRESNGVKVTINDAVFDGRTVTITYSIESEKDLGEHPSIFGSPQVSMSNGAAGSSKTTKVGDKKYVGMTTTSDLGSKRMDVANVRWNMESINMYEEKKSIKGNWNFALTLKAMDSKDIKVNGISEKEGIKVNIDKMEVTPMSFIVFYNQEESKALRRIWDSADVELEIKDDLGNQYAGEGNGGTGTVAEPHKSSWSTTFQKLNKNATKLIVTPHVNLRVHTPENHGGVEYVNGKEKKIEVPKKEAKSKDIVLDDIVIDLKK				NA	NA	NA	NA	NA
AK009_00452	1074			hypothetical protein	ATGAAACGTTTATTTCTCTGTATGGAACGTGAACTTGTTGTAGTGAAAGAACAATATGATGACTATGAAACGACTTACCACTTACAAAATATGCAACCTACCTGTATCGCTGTTGATCCATTTCAAAAAAATCGTGTATATTGCGGAACATTTGGACGAGGTCTATGGTTAAGTGACGATAGCGGGGATTCATGGAGACCAATTGGAGATTCTTATCGTTACTTTGATTTTCCTAAAGAAGATGGTATTTTGCACTCCTCTATCACTTCCATAACAATAAGCTCAAATGAACAAGTTAACGGATATGGTGTCGTTTATGTTGGCACAGAACCGAGCGCTTTATTCCGCTCTGAAAATGGTGGTGAAACGTGGACTGAACTTAAAAATATGAAATCATTATTATCTTCTTATACGTGGGCATTTCCGCCTAGACCTTTTACCCATCACGTACGCTGGATTACAGTTGATCCAAACAACCCTAATACAATACACGTTTCAATCGAAGCTGGTGCTGTTATTCAAAGTAATGATAAAGGGCATACATGGATCGATAAAAAATTCGGTGCCCCTATCGATGCTCATCAATTACTTATGCACCCTGAAGCACCAAATCGCCTTTATGCATCATGTGGTGACGGATTTATGGGCGGACCTGATCGTGCATATCTTGAAAGTTATAACAATGGAAACAGCTGGATCTCATGCAGTGAAGGACTTGAACATCATTATTTATACAGCATGGCTATCGATCCCGCTGATTGCAATACGATTCTCGTTTCAGCTGCACCGAGTGCTGATCTCGCTCATCACCATATTCCTTATGAATCTTATATTTATCGAAAAACGAAAGATACTCCTTTCCAGCAAGTACAACAAGGACTACCATCCGCAATCGGTACAGTCATTTCGATGTTTGCGACAAACAAGGCAGAACCACATACGTTTTACACGTTAAATAACAACGGCGTGTTTCAATCCAATGATAGCGGCGAATCGTGGGAACAACTAAACATTCCGTGGAAAGATGAGTATAAAACGCAGCATCCACATGCGTTACTCGTAACTAGTTTTTAG	MKRLFLCMERELVVVKEQYDDYETTYHLQNMQPTCIAVDPFQKNRVYCGTFGRGLWLSDDSGDSWRPIGDSYRYFDFPKEDGILHSSITSITISSNEQVNGYGVVYVGTEPSALFRSENGGETWTELKNMKSLLSSYTWAFPPRPFTHHVRWITVDPNNPNTIHVSIEAGAVIQSNDKGHTWIDKKFGAPIDAHQLLMHPEAPNRLYASCGDGFMGGPDRAYLESYNNGNSWISCSEGLEHHYLYSMAIDPADCNTILVSAAPSADLAHHHIPYESYIYRKTKDTPFQQVQQGLPSAIGTVISMFATNKAEPHTFYTLNNNGVFQSNDSGESWEQLNIPWKDEYKTQHPHALLVTSF				NA	NA	NA	NA	NA
AK009_00453	900	czcD	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGGGACATTCGCATGATCATGGTCATTCAAAAAATAAAAAGGCGTTACTAATTGCCTTCCTACTAACAACAAGTTTTATGATTGCAGAAGTTGTTGGTGGATTTGTAACAAATAGCTTAGCACTATTATCTGACGCGGGGCATATGTTAAGTGATGCGGTATCTTTAGCCTTAAGTTTACTTGCGTTTAAGCTCGGAGAAAAAACAGCAACAACTGCGAAAACATATGGATATAAGCGAGTCGAAATGTTAGCAGCATTATGTAACGGTGTCGTTCTTATTGTCATTTCGGTATACATTTTTATTGAAGCAATCCGCCGTTTTAAAGAACCAGTTGAGATTGCTAGTAATGGGATGCTCATTATTGCTGTACTTGGTCTGCTTATTAATATTTTATCAGCTTGGATATTAATGAGAGGCGGAGATGTGAAGGGGAACTTGAATTTAAGAAGTGCTTTCCTCCAAGTATTAGGCGATCTATTAGGATCAGTCGGAGCGATTATTGCAGCGCTATGTATTAAATTTTTCGGATGGACGGTTGCTGATGCGATTGCTAGTATTCTTGTGTCTATTTTAGTCATTATTAGTGGATGGCGTGTAACACGTGATACCGTCCATATATTAATGGAAGGTGCACCCCAGCACATAAATGTTGAAGAGGTAAAAAGTACATTATTAAATATTACGGTTGTAAAAGAAGTTCATGATTTGCACATATGGTCTGTCACATCTGATTTTCAAGTATTAACTTGCCATTTGATTATTAAAGGTGATGAAACGCAAAATGTATTAAAAGAGGCTACGGATGTATTAAAGGAGAAGTTTCATGTAGAACATGTCACCATTCAAGTAGAAATAGATGGTGAATTTAATCATAGTGAGACAACCTGCAAAGTATGA	MGHSHDHGHSKNKKALLIAFLLTTSFMIAEVVGGFVTNSLALLSDAGHMLSDAVSLALSLLAFKLGEKTATTAKTYGYKRVEMLAALCNGVVLIVISVYIFIEAIRRFKEPVEIASNGMLIIAVLGLLINILSAWILMRGGDVKGNLNLRSAFLQVLGDLLGSVGAIIAALCIKFFGWTVADAIASILVSILVIISGWRVTRDTVHILMEGAPQHINVEEVKSTLLNITVVKEVHDLHIWSVTSDFQVLTCHLIIKGDETQNVLKEATDVLKEKFHVEHVTIQVEIDGEFNHSETTCKV	PGPT0004255_2818	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
AK009_00454	171			hypothetical protein	ATGAGTAGTCAACTCCGTTTTGCTGTTGAAAATCGTAAGAGGCATTTAATTGATGAGTTAATTGGAGCAGGTGTGTTTAAAATTCGTGACCGACAATTATACGAGCTGTCTTTAGAGGAATTAGAAAAAGAGTATGAAGATATTGAGGATTACGCAAATATTCAGGCATAG	MSSQLRFAVENRKRHLIDELIGAGVFKIRDRQLYELSLEELEKEYEDIEDYANIQA				NA	NA	NA	NA	NA
AK009_00455	225			hypothetical protein	TTGTTAGCAGGATATCAAGAAGAAACGTTTGTTGGAGATAAAAATAAATTAGTGAAGCTTTCAGGAGCATTTTCTTATATAGTCGGAGTTGCTACTATAATATTACCGCTTGGCTTAGAAAAAATAGGTGATGTAGTTGGTAACATATATACTATATTAATTGTTTTAGGTACAGTTGTATTTATAATTAAAGCAAACCTATTAAATAAGAGTGCTATAAAATAA	MLAGYQEETFVGDKNKLVKLSGAFSYIVGVATIILPLGLEKIGDVVGNIYTILIVLGTVVFIIKANLLNKSAIK				NA	NA	NA	NA	NA
AK009_00456	1188	yciC_1	COG0523	Putative metal chaperone YciC	ATGAAAAAAGTACCTATCACTGTATTAAGTGGGTTTTTAGGATCTGGAAAAACTACCTTACTACATCACATTTTGACTAATAAGAACAACTTAAAAGTAGCTGTTATCGTTAATGATATGAGCGAAGTAAACATTGATGCATCTCTTATAAAAAAGGGTGGTTTTTCACGTACGGAAGAGAAATTAGTAGAAATTCAAAATGGTTGCATCTGCTGTACACTACGAGAAGATTTAATGATAGAAGTGGATCGTCTTGTTGAAAATGGTGATATTGACTATATTATTATTGAATCTTCTGGTATAAGTGAGCCTATTCCAGTTGCTCAAACGTTTACTTATACAGACGAAGTTCTTAACATTGATTTAACGAGAAATTGTCGCCTCGATACGATGGTTACAGTTGTAGATGCAAATAGGTTTTGGGATGATTTTGCAGATGGAGAAAGTTTATTAGACCGAAAACAAGCAATCGATGAGAATGATACCCGGGAAGTTATTGATTTATTAATAGATCAAATTGAGTTTGCAAACGTAATTATTCTTAATAAAATAGATTTGCTAGAAAAAGAAGATGTGATAGAGCTTCATCATTTACTAAAAAAATTAAATCCTAATGCAAAAGTTCTTAAATCTTCGTTTAGCAAAGTACCATTACAAGAAATTTTAAACACAAATCTATTTAATTATGAAGAAGCCAGTCAATCGGCCGGCTGGATACAAGAATTAAATAGTGAACATCATACACCGGAAACGGAAGAATACGGTATCAATTCCTTTGTTTACCGTCGCAAATATCCTTTCCATCCCGAGCGCCTTATGAATTGGCTAGAAAAATGGCCTTTAGATGTTGTAAGAGCGAAAGGATTCTTCTGGCTCGCATCTCGTAATAATATGATAGGGCTTCTATCTCAAGCAGGTTCCTCTATTACAATTCAAGGAGCCGGTGAATGGATAGCCGCATTACCTGAAACTGAAAGAAATCAAATGATTGCAGAAGAACCAGAAGTATTAAAAAACTGGGACGAGCGATATGGAGATCGAATAACTGAGCTCGTATTTATCGGTATTGATATGAATCGTTCTGTGATTGAACAATCATTAGATGATTGTCTATTAACAGAAAAGGAAATGGAACAAAAGTGGAATACATTTATTGATCCTATTCCGGCTTTTACTTATACTTCATAA	MKKVPITVLSGFLGSGKTTLLHHILTNKNNLKVAVIVNDMSEVNIDASLIKKGGFSRTEEKLVEIQNGCICCTLREDLMIEVDRLVENGDIDYIIIESSGISEPIPVAQTFTYTDEVLNIDLTRNCRLDTMVTVVDANRFWDDFADGESLLDRKQAIDENDTREVIDLLIDQIEFANVIILNKIDLLEKEDVIELHHLLKKLNPNAKVLKSSFSKVPLQEILNTNLFNYEEASQSAGWIQELNSEHHTPETEEYGINSFVYRRKYPFHPERLMNWLEKWPLDVVRAKGFFWLASRNNMIGLLSQAGSSITIQGAGEWIAALPETERNQMIAEEPEVLKNWDERYGDRITELVFIGIDMNRSVIEQSLDDCLLTEKEMEQKWNTFIDPIPAFTYTS				NA	NA	NA	NA	NA
AK009_00457	978		COG0701	Putative two-component membrane permease complex subunit SMU_747c	TTGGTCTTTAATAGAGTTTCAAAAGAATTAGTAGGCATAGCTCTTATCGCTATGTTTCTCTTTTTATTATTTTTTGTAGATTTTACAAGTCTAGCAAATTTGCACAAAAATATACCACAGGAATGGTTGAATGTGAATACAGTATTTTTAAGTATCATTTTTGAAGCAATACCCTTTATTTTATTAGGGGTAATTGTTTCTTCATTTATTCAAGTGTTTGTGACGGAAGATATGATTCAAAAAGTAATGCCGAAATCTCCGATTGTTGCAATGATTCCAGCAGTATTTGTGGGAGTTCTTTTTCCAATGTGTGAATGTGTCATTATACCAATTGTAAGAAGGCTCATTCAAAAGGGGTTACCACTTCATGTAGGCATTGTTATTTTACTGAGTGCACCCATTATGAATCCAGTCGTTTTTTTATCTACTGTATATGCGTTTCAAAAAAATGATTATGTTGTATATGCACGCTTTGGGATAACAATTTTAGTTGCTCTATTCATAGGTCTAATTGTGTATTATTGCTATCGCGAAAGAAATGTTTTAAAAGACGTAGAGGTTTCAGTTCAAACAAGCAAAAAAAAGAGTTGGAAAGATGTTATGAATCACACTGTAGATGAGTTTTTTGATACTGGTAAGTATTTATTGATTGGTGCTTTTTTAGCAAGTGTATTTCAAACGTTTTTTGATCGGAATGTACTGGATGCAGTAGCACATAACGAAGTAATTGCCCCCTTTATTATGATGGGATTTGGTTATGTTTTATCAATTTGCTCTGCAGCCGATGCTTTTATAGCGGCATCTTTTGGACATGTTTTCTCAGTAAAGGCACTTCTCGCATTTCTTGTGTTTGGGCCGATGCTTGATATGAAAAATACGTTAATGCTATTTGCATATTTTCAAAAGAAATTTGTATTCTTTTTAATGGGAATTGTCATTGTATCTGTGTATACCATCCTGCAAATTATAATGTTATAG	MVFNRVSKELVGIALIAMFLFLLFFVDFTSLANLHKNIPQEWLNVNTVFLSIIFEAIPFILLGVIVSSFIQVFVTEDMIQKVMPKSPIVAMIPAVFVGVLFPMCECVIIPIVRRLIQKGLPLHVGIVILLSAPIMNPVVFLSTVYAFQKNDYVVYARFGITILVALFIGLIVYYCYRERNVLKDVEVSVQTSKKKSWKDVMNHTVDEFFDTGKYLLIGAFLASVFQTFFDRNVLDAVAHNEVIAPFIMMGFGYVLSICSAADAFIAASFGHVFSVKALLAFLVFGPMLDMKNTLMLFAYFQKKFVFFLMGIVIVSVYTILQIIML				NA	NA	NA	NA	NA
AK009_00458	885		COG3689	Putative two-component membrane permease complex subunit SMU_746c	ATGGAGAAAGAGGAGCAGAAGGCATATCATCGCTATATTCGTGGTATTATTTTAATTGGTTTAGCAATGCTCTTATTTAAACTACTTGTAACAGGGAATATTTATAATTTTATCGCTCCAAAAATGATTAAATTTACGTATATAGCTTTTGTAGTGATTTTACTTCTTGGTTCTTTACAAGTTTGGAGAGATGGGAGAGAAAAAGAGGATGATTGTAATTGTTGTAAGCATCATACAGCATTAAAATCAGGGATGAAAAGTTTCTTTGTATATGTTTTATTTGTTGTTCCGATTATTAGTGCTTTTCTATTTGGAAATGTAACAATTGATGGAAGTTTAGCAGGAAAAAGGGGTATGAATCAAAGTGTACAGGCGAGAAGTATGGAAGGGAACGAAAAAGAGGGGAAACAGGATGATTTTGATGGGCGAGAGGTATTCGATGATCCAGATGAAACATCAAATTTATCAACGACTTATGAAACGGAAGAGCAAGTAGTAAAAAGTATGTTAGGACAGCATAAACTACAAGTAGAGGATAAGGATTATGTTCAAACAATGAGTATAATTGGTCAAGATGTAAAAGGGTTTAAAGGGAAAGAAATTATATTCTCAGGGTTTATATATAATGATAAGGATGTGACGGGTAATAAAGCAGTAGTGGCTCGATATGGCATAACTTGTTGTATTGCGGATGCATCAGTCTGGGGGATGATTGTTACCGGGAAAAATGTTGAAAAAATATCAGAAGAAACATGGGTGAAAATAACAGGATTATTAGATGAAACGACATATAAAGGAACAGTCTTTCCACTTGTAAAAGTAAACAAAATCGAGAAAATTAATAAGCCAACTGACCCATATGTATATGATGCTTTACCGCAATAG	MEKEEQKAYHRYIRGIILIGLAMLLFKLLVTGNIYNFIAPKMIKFTYIAFVVILLLGSLQVWRDGREKEDDCNCCKHHTALKSGMKSFFVYVLFVVPIISAFLFGNVTIDGSLAGKRGMNQSVQARSMEGNEKEGKQDDFDGREVFDDPDETSNLSTTYETEEQVVKSMLGQHKLQVEDKDYVQTMSIIGQDVKGFKGKEIIFSGFIYNDKDVTGNKAVVARYGITCCIADASVWGMIVTGKNVEKISEETWVKITGLLDETTYKGTVFPLVKVNKIEKINKPTDPYVYDALPQ				NA	NA	NA	NA	NA
AK009_00459	660			hypothetical protein	ATGAACTGGGTTACTCATAAACCATCATTTGAATTTGAAACATTTAGTCCTATTATTCGGTCACAATCTGCGTGGAGTGGACATTTAGATTTTGCATATGACTTAGTACGATTTGAAAAACCAGAAACTTTAGTTGAGTTAGGTACACATCTAGGTGCTTCTTTCTTCAGTTTTTGTCAGGGAGTAAAAGATGGAGGGTTATCGACTAAATGCTTTGCAGTAGATACTTGGGCTGGAGATGGGCATACAGGTCCATATGGAGAAGGGGTTTTTCAAATAGTAGAAAAAGTAGTGAGCGATAACTACCTTAATATAGGAAATTTAATTCGATCTACTTTTGATGATGCTGTAGACCAGTTTCAAGATGAAACGATAAATCTTTTGCATATTGATGGCTATCATACGTATGAAGCTGTTTCTCACGATTATAACACATGGCTACCGAAAGTCGCGAAAAACGGTATTGTATTATTTCATGATATTGAAGTTAGAAGTGGTGATTTCGGCGTATATCAGTTTTGGGATGAGGTAAAAGCGAAGTACCCTCATTTTCAATTTGCGCATTCATATGGACTGGGAGTGTTATTTCCGAAGGGTTGTAGTGATAAGTTTGAGGAAATACTTAAAAATAAAGAAGAAATACAAAATATGTATAAATAA	MNWVTHKPSFEFETFSPIIRSQSAWSGHLDFAYDLVRFEKPETLVELGTHLGASFFSFCQGVKDGGLSTKCFAVDTWAGDGHTGPYGEGVFQIVEKVVSDNYLNIGNLIRSTFDDAVDQFQDETINLLHIDGYHTYEAVSHDYNTWLPKVAKNGIVLFHDIEVRSGDFGVYQFWDEVKAKYPHFQFAHSYGLGVLFPKGCSDKFEEILKNKEEIQNMYK				NA	NA	NA	NA	NA
AK009_00460	1404	mleN_1	COG1757	Malate-2H(+)/Na(+)-lactate antiporter	ATGAAAAGTGTAAGATTACCATCGATGCTAGAAATCATAGTTCTTTTATTACTATTTCTTGCTGTTGTCTTTTCCTTCCAAACGATTTTTGATCTCCCAATTCAATTAGCGCTATTTATTTCATGGTTTTTAGTAATTGCGCTTGGATTAAGATTAGGATTTCGTTATCAAGAATTGCAAGATGCAATTACGAAAGGGATTTCTAACGGATTAGAAGCAATACTGATTTTAGTTGCAGTAGGTGCTTTAATTGGAACGTGGATTGCTGGTGGGGTAGTACCAACATTAATCTATTATGGATTAGAATTTATTCATCCTAGCATATTCCTATTAGCAACATTAATTATTTGTTCTATAACTTCTATCGCAACAGGAACGTCTTGGGGAACAGTGGGAACAGCAGGTATTGCTATGATGGCGATTGGTGAAGGACTTGGTTTACCACTTCCGCTTGTTGCTGGTGCAGTTCTTTCAGGAGCTTATTTCGGCGACAAATTATCACCACTTTCTGATAGCACAGTTCTTGCAGCTTCTATGGCGAAAGTAGATGTTATTGCTCACGTTCGAGCTATGCTCGTATTAGATGTTCCAGCTTATATTATTACTAGTATTATGTTTACTGTAGCTGGTTGGATGTATGGCGGCGATAATGTAGATTTGAATCGAGTAGAATTTTTAAAAGAAGCTTTATTAAAGCAATTTGATATTAAAATATGGATGCTTATTCCAGCGGTCATTGTTATCGTTCTATTAGCGATGAAGAAACCGTCTATGCCAACAATTGCAATGGGAGCTTTAATTGGTGCAATTTGGGCAACTCTTTTCCAAGGGATGAACTTTGGAGAGGCGATTGGAACAGCTTATAACGGATTCTCAATTCAATCTGGTGTTGAGTTTGTTGACAAGTTATTAAACCGTGGTGGAATTAACGGCATGCTTGGCTCAGTAGCTGTTATTATTTTCGGTTTAGGATTTGGTGGATTACTTGAAAAACTAGGTGTTTTAAAAGTAATCGTATCAAAATTTGAGAAGAAATTAAATTCTGCAGGTAATGTAACATTGTCTACATTAATCGTGGCATTCTTAGCTAATATATTTGGTTGTGCGATGTATGTATCACTAATTTTAACACCAAAAATTATGGAAGATAGCTATGATAAATTAAAAATAGACCGTCGTGTATTAGCGCGTAACTCAGAAGTAGGTGGAACGTTAACTTCAGGTATGGTTCCATGGTCTGATAATGGTATTTTTATGGCGGGTATTTTAGGTGTAGCAACGTTCTCATACGTTCCGTTTATGTGGTTAAGCTTCGTATCGTTAATTTTAGCAGTTATTTACGGATATACAGGCAAATTCATCTGGTATGTAGATGATGCAGATAAAGGAAAGCAAGCATCATAA	MKSVRLPSMLEIIVLLLLFLAVVFSFQTIFDLPIQLALFISWFLVIALGLRLGFRYQELQDAITKGISNGLEAILILVAVGALIGTWIAGGVVPTLIYYGLEFIHPSIFLLATLIICSITSIATGTSWGTVGTAGIAMMAIGEGLGLPLPLVAGAVLSGAYFGDKLSPLSDSTVLAASMAKVDVIAHVRAMLVLDVPAYIITSIMFTVAGWMYGGDNVDLNRVEFLKEALLKQFDIKIWMLIPAVIVIVLLAMKKPSMPTIAMGALIGAIWATLFQGMNFGEAIGTAYNGFSIQSGVEFVDKLLNRGGINGMLGSVAVIIFGLGFGGLLEKLGVLKVIVSKFEKKLNSAGNVTLSTLIVAFLANIFGCAMYVSLILTPKIMEDSYDKLKIDRRVLARNSEVGGTLTSGMVPWSDNGIFMAGILGVATFSYVPFMWLSFVSLILAVIYGYTGKFIWYVDDADKGKQAS	PGPT0013945_1060	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
AK009_00461	381		COG0789	putative HTH-type transcriptional regulator	ATGTATTATACAATTGGGCAAGTCGCCAAAATGCAACACTTAACTATTTCTCAAATACGTTATTATGATAAACAAGGACTGTTCCCTTTTCTGCAAAGAAATGAAAAAGGAGATCGAGCTTTTGATGAAGAAGCACTCAAATACTTAGAAATGATTTTGTGTTTAAAAAACACTGGTATGCCTATTCAAAAAATAAAACAATTTATCGACTGGTCTATGGAAGGAGAATCTACCATCTTTCAACGGTTGGAATTAATGAAACAACAAGAGACCAATGTCTTACAGCTCATCCAAGACACTGAAAAAAACTTAAAAAAGATACAACAAAAAATTGCTAAATATGAGAATGAAGTAACTTCAGCAGATGCTATTACAAAATAA	MYYTIGQVAKMQHLTISQIRYYDKQGLFPFLQRNEKGDRAFDEEALKYLEMILCLKNTGMPIQKIKQFIDWSMEGESTIFQRLELMKQQETNVLQLIQDTEKNLKKIQQKIAKYENEVTSADAITK				NA	NA	NA	NA	NA
AK009_00462	711			putative oxidoreductase	ATGAAAAAATATGCTTTTATAACAGGTGCGAATAAAGGAATTGGATATGAACTTGTTCGTCAATTAGCAGAAAAAAATTATCACGTATTTTTAGGTGCTCGTAATGAACAACTTGGACAACAAGCCGTAGACTCTTTAAATGTTTCAAACGTTTCCTATATTCAAGTAGATATTTCAAATTCACAATCCATTCAAGAAGCAACAAAGAAAATTCACGAAACGACTGACCATTTACATTTATTAATTAATAACGCAGGCATTGCATTAGACTTCAATACGCTACCTAGTGAATTAAATATTGAAACTTTACGCCAAGGATTTGAAGTTAACTTTTTTGGAACTTTCCAAATGATACAAGCCTTTTTACCATTATTAAAGAATTCAAGCAACAGTAAAATACTAAATGTAACAACTGACATGGCCTCACTAACAATGTTTGCTAATGGTGAAACACATCCAATCAATACACTAGGATATAATTCTTCCAAAACTGCTATTAATGCTTTAACATTAGCTTTTAGTAAAGAATTTGCTACTAACGGTCCAGAAGTATTTGGGATAACTCCTGGTTTTACAACTACTGATCTTAATGGAAATTCCCCTGGTGGCCATACAACTATTGAAAGTGCTAAAATTATTATTAAATATGCATTAAGTGAAACAAACTATAATGGTAAAATACTAAATAAAAATGGCATTATACCTTGGTAA	MKKYAFITGANKGIGYELVRQLAEKNYHVFLGARNEQLGQQAVDSLNVSNVSYIQVDISNSQSIQEATKKIHETTDHLHLLINNAGIALDFNTLPSELNIETLRQGFEVNFFGTFQMIQAFLPLLKNSSNSKILNVTTDMASLTMFANGETHPINTLGYNSSKTAINALTLAFSKEFATNGPEVFGITPGFTTTDLNGNSPGGHTTIESAKIIIKYALSETNYNGKILNKNGIIPW				NA	NA	NA	NA	NA
AK009_00463	1389	fumC		Fumarate hydratase class II	ATGGAGTACAGAATTGAAAGAGATACATTAGGAGAAATAAAAGTTCCAGCTGATAAATTATGGGCAGCACAAACACAACGTAGTAAAGAAAACTTTCCAATTGGAACAGAGCAAATGCCGCTTGAAATTGTAAAAGCATTTGCAATTTTAAAGAAGAGTGCAGCGCTTAGCAATCAAAAATTAGGAAAGTTATCAGAAGAAAAAGCAGAAGCAATTGTAGAAGCTGCTGATGAAGTGATTGCAGGGAAATGGAATGAACATTTTCCGCTTGTCGTATGGCAAACAGGTAGTGGTACACAGTCAAACATGAATGTGAATGAAGTAATTGCAAATCGTGGGAATCAAATTTTGAAAGAGAATGGATCTGACGTACATATTCATCCAAATGATGATGTGAACATGTCACAAAGTTCAAATGATACATTTCCAACGGCGCTCCATGTAGCTTGTGTAATCGCAGTAGAAAATCACGTATTACCAGCAATCAGGAAATTAAAAGGAACTTTAGCAGAAAAAGTAACTGCATTTGAACATATTATAAAAATTGGTCGTACACATTTACAAGATGCAACACCGTTAACTTTAGGGCAAGAAATTAGCGGATGGCACCGTATGCTTGAAAAAACAGAGCGTATGATTGCAGAGAGCAATACATATATGAAAGAGTTAGCAATTGGTGGAACTGCGGTTGGAACAGGTATTAATGCTCATCCTAAATTTGGTGAGATGGTATCAGAGGAAATTAGTCAATTTACAGGTAAACAATTTGTTTCTGCACCAAATAAGTTCCATGCATTAACGAGCCATGATGAAGTTGTATATACTCACGGTGCATTAAAAGCATTAGCTGCAGATCTAATGAAGATCGCTAACGATGTACGTTGGCTTGCAAGTGGTCCACGTAGTGGTCTTGGAGAAATTATTATTCCAGCCAATGAACCAGGAAGCTCTATTATGCCAGGTAAAGTAAATCCAACGCAAAGTGAAGCATTAACGATGGTTGTAGCGCAAGTGATGGGGAATGATGCAACAATCGGATTTGCTGCGAGCCAAGGTAACTTTGAGTTAAACGTATTTAAACCTGTTATTGCTTATAACTTCTTACAATCAGCTCACTTATTAGCGGATGCAATTGTTTCGTTTAATGACAATTGTGCAGTTGGTATTGAAGCAGATGAAGAAGTAATTAATGAAAATGTGAATCGTTCACTAATGCTTGTAACAGCGCTAAACCCACATATCGGATATGAAAATGCAGCGAAAATTGCGAAGTATGCTCATAAAGAGGGATTAACTTTAAAAGAAGCAGCATTGCAATCTGGGCTACTAACAGAAGGGCAATTTGATGAAATTGTAGATCCAAAGAAAATGATTGCTCCAAAAGAGTAA	MEYRIERDTLGEIKVPADKLWAAQTQRSKENFPIGTEQMPLEIVKAFAILKKSAALSNQKLGKLSEEKAEAIVEAADEVIAGKWNEHFPLVVWQTGSGTQSNMNVNEVIANRGNQILKENGSDVHIHPNDDVNMSQSSNDTFPTALHVACVIAVENHVLPAIRKLKGTLAEKVTAFEHIIKIGRTHLQDATPLTLGQEISGWHRMLEKTERMIAESNTYMKELAIGGTAVGTGINAHPKFGEMVSEEISQFTGKQFVSAPNKFHALTSHDEVVYTHGALKALAADLMKIANDVRWLASGPRSGLGEIIIPANEPGSSIMPGKVNPTQSEALTMVVAQVMGNDATIGFAASQGNFELNVFKPVIAYNFLQSAHLLADAIVSFNDNCAVGIEADEEVINENVNRSLMLVTALNPHIGYENAAKIAKYAHKEGLTLKEAALQSGLLTEGQFDEIVDPKKMIAPKE	PGPT0001650_3510	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
AK009_00464	423			hypothetical protein	TTGAAATTTAAAGCGAAAAAAAATCCATTCCACGTCATTTTCATTACATTATTTCTAATTATTTTTTTCGTTTCGTTATTCTTCCAAAATGAAAATTCTATTTTTTTCACTCTCATGATGCTATTAAATATCGTGAATCTTTCTTCATTCTATTTCTCTCACTACAACGTAACGGAATCATCTCTTGTTGTAAAACACGGTTTCATACTTCGTACTGAAATCCCATTTAAAGACATTCGCCATATTAAGTACTCTGGCAAAAAACTTCGTTCAAAAAAATGGACTAGGCAACAATTAGAAATTAATTATAATTTATTTGACTCAGTGACCACTTTCGTACCACAAGAAGAAGAAAAATTCATTTCACTCTTAAAAGAGAACTGCCCACAGATGAAAGTAATGAATACGCCTGCTAACAAATAA	MKFKAKKNPFHVIFITLFLIIFFVSLFFQNENSIFFTLMMLLNIVNLSSFYFSHYNVTESSLVVKHGFILRTEIPFKDIRHIKYSGKKLRSKKWTRQQLEINYNLFDSVTTFVPQEEEKFISLLKENCPQMKVMNTPANK				NA	NA	NA	NA	NA
AK009_00465	378			hypothetical protein	ATGGATATTCTTCAAGACTCTTGGTTTACCGTTAAGCAAATTGCACAGAATACATATGCGATTAGTGAATATGGAACCGGTATTCATCCATTACAAAACTTCAGTATTCAATTTCAACTACAAAAAAGATGTTTCCGTATAAGAAAACACCTTTTACTTTTTATCCCACATTTAAGGGCAGTAAGACTCCCACATCAAAATTCAGCGGAAGCAAAGAAGTTAAATGAGGGCGGGCTGCCCTTAAAAGCCCGATTGGTGAGGGCTAATAATCAGTTGATTAAAGTTTCAATTTATATATTCTATTTACAGTCTCTACTAAAACCTTACTTGCTTGTACAAATGTATGCTTTCGATTTCTATCTTCAACAAATTTATTAG	MDILQDSWFTVKQIAQNTYAISEYGTGIHPLQNFSIQFQLQKRCFRIRKHLLLFIPHLRAVRLPHQNSAEAKKLNEGGLPLKARLVRANNQLIKVSIYIFYLQSLLKPYLLVQMYAFDFYLQQIY				NA	NA	NA	NA	NA
AK009_00466	765			hypothetical protein	ATGAGTGGTATTTCAGAGAAGTTTTGGGATGCGTCAATAGAGGAATTAAAGAAAGGGTATGTGTTTGATGGAGAAAAAGAGGAGTACATTTGCTTAGCTTGTGGTGAAACATTTATTAAAGGTGTTATTTATCAAGATAATCAAGTTTTGTATGAAGCAGAGAAGTTCGTCCGATTGCATATTCAAAATGAGCATACGTCTATGTTTGATTATTTGTTAAATATGGATAAGAAATTTACTGGTTTAACGGATTTACAAAAGAAAATGGTTCAGTTTTTCCATATGGGACTGAATGATAAAGAAATTGTAAAAGAGTTGGATGGCGGAAGTACATCAACAATTCGTAATCATCGATTTACACTGCGAGAGAAAATGAAGCAAGCAAAAGTATTTTTAGCTCTAATGGAATTATCAGAAGAAAAATCAAAAGTACAAACGAAATTTGTACCAATTCATAGAACAGCAACGATGGTGGATGATCGATACAATATTACGGAAGAAGAAAATGATGAAGTATTAAAAGCTCATTTTACAGAAGGATTAGATGGACCTCTTTCTAAATTTCCGAAAAAACAAAAGCGTAAATTAATTATATTACGTCATTTAGTAAAGAAGTTTGATAGTAATAAAAAGTATACTGAAAAAGAAGTAAATACAGTGATAGAAAATGTATACCCTGATTTCGTAACTTTAAGAAGATATTTAATCGAGTATGGATTTTTAGATCGAACAGCCGATGGAAGTCAATATTGGGTGAAGTTATAA	MSGISEKFWDASIEELKKGYVFDGEKEEYICLACGETFIKGVIYQDNQVLYEAEKFVRLHIQNEHTSMFDYLLNMDKKFTGLTDLQKKMVQFFHMGLNDKEIVKELDGGSTSTIRNHRFTLREKMKQAKVFLALMELSEEKSKVQTKFVPIHRTATMVDDRYNITEEENDEVLKAHFTEGLDGPLSKFPKKQKRKLIILRHLVKKFDSNKKYTEKEVNTVIENVYPDFVTLRRYLIEYGFLDRTADGSQYWVKL				NA	NA	NA	NA	NA
AK009_00467	1410	mepA_2	COG0534	Multidrug export protein MepA	TTGAAACCACCTGCAGATAACAATAAAGAAGGTGCGGAGTCACATAAGTTGGAAAGTGAGAGTAAACCGATTTGGAAATCGATGTCGATGTTTTTAGTACCATTATTATTAAGTAATGTACTACAATCAGTTGGACAATTATTTGGTATGGTAGTAGTAGGAAGATGGCTTGGAGTTAATGATTTAGCGGCTATATCAGCATTCTTCCCATTATTTTTCTTGCTCGTTTCATTTGTAATTGGTATCGGTTCAGGAAGCTCTATTTTAATTGGTCAGGCGTTTGGTGCTAAAAACGAAGATCGTTTAAAAGCTATCGTTGGTACGACGCTGACATTTACCTTTATTATTGGAGTTGTGTTGGCGATAATAGGCAGTATTTTTGCGATGGATATTATGCGTCTAATGGGAACGCCAGAAAATATTATTGAAATAAGTGTACATTATGCACGAATTTTATTTATATCGATGCCAGTATTATTTTTATATTTCGCATACACAACATTTATGAGAGGTACAGGAGATTCTAAAACGCCATTTTACTTTTTAATTGTAAGTACAGCGCTAAATATGATCTTATTACCAATTCTTATTTTTGGATGGTTAGGAGCTCCGAAATTAGATGTGTATGGAGCAGCCTATGCCTCTGTTATATCTACAGTTATTACGTTTATTGTCATGCTTTTGTATTTAAAGAAGAAAAATCACCCATTACAACTAGATAGCACGGTTAGAAAATACCTTCGAATGGATGGGGAGTTATTAAAGCTATTGCTAAGGCTCGGTATTCCAGCGAGTATTAATATGATATTAGTTTCATTATCTGAAATTGCTGTAATCGCGTTTGTAAATCGTTACGGTTCGGATGCAACAGCTGCTTACGGAGTTGTGAATCAAGTTGCAAGTTATGTACAAATGCCAGCAGTTAGCCTTGGTATTACAGTTTCTATTTTTGCAGCACAATCAATTGGGGCGAATCAATTTGATCGATTGCAGAAAGTTGTGAAGGTCGGAATTATTATGAACTACGTCATCGGTGGTGTGTTAATAGCTCTTATTTACTTATTCTCAAGAGACATTTTATCACTATTTTTAACGAGTCAAACTACAATTGAAATTGCTCATAGCTTAGTTATGATTACGTTATGGAGTTATTTAATTTTCGGTCATGCACAAATTATTAGTGCGACAATGCGAGCGAGTGGTACAGTACTTTGGCCAACTGTTATTGGAGTTGTTTCAATTTGGCTTGTGGAAGTACCCGTAGCATATTATCTTTCTTACCATACAAGTCTTGGAATAGAAGGGATCTGGATCGGGTATCCAGCAGCATTTATTGTCAGCTTAATACTACAGTATGCATATTATAAGCTTTCATGGCAAAAGAAACGAATTACACGATTAGTTAGTTAA	MKPPADNNKEGAESHKLESESKPIWKSMSMFLVPLLLSNVLQSVGQLFGMVVVGRWLGVNDLAAISAFFPLFFLLVSFVIGIGSGSSILIGQAFGAKNEDRLKAIVGTTLTFTFIIGVVLAIIGSIFAMDIMRLMGTPENIIEISVHYARILFISMPVLFLYFAYTTFMRGTGDSKTPFYFLIVSTALNMILLPILIFGWLGAPKLDVYGAAYASVISTVITFIVMLLYLKKKNHPLQLDSTVRKYLRMDGELLKLLLRLGIPASINMILVSLSEIAVIAFVNRYGSDATAAYGVVNQVASYVQMPAVSLGITVSIFAAQSIGANQFDRLQKVVKVGIIMNYVIGGVLIALIYLFSRDILSLFLTSQTTIEIAHSLVMITLWSYLIFGHAQIISATMRASGTVLWPTVIGVVSIWLVEVPVAYYLSYHTSLGIEGIWIGYPAAFIVSLILQYAYYKLSWQKKRITRLVS				NA	NA	NA	NA	NA
AK009_00468	699	pepE		Peptidase E	ATGAAATTAGCTGTCATTGGTGGCGGTGATTTACAAGATTCAAATCACTTGCCTATTAATGAACGCCTTATAGAATTAACAAATAAACAGTATCCAAAAGTATTGTTTATTCCAACGGCAAGTCATGATGATGAAAGCTATATAAAATTATTTTTAGACACGTTTGAAAAACAATTACATTGTGAAGTACAAATTTTACGTACTACAACAGATTCACCTTCTAAGTATGAAATAGACGAGATGATTCATTCAGCCGATTTAATTTATCTAGGTGGCGGGAATTATATTCACATGTTTACGCAATGGAAAGAACATAGACTCGATGAAAAATTATTATTGGCTCTGCAACAAGGAACACTTATTGCTGGTTATAGCGCTGGTGCTATGTGTTGGTTCACGTCTAGTATCCGATCAGATTATGAAGGTTCTGGTTATATAGAGAGTAACGGATGGGGGATTGTTAATAAAAGATTTTGTCCACATTATAATCAATTAAATAGAATGAACGCCTTCCATTCCTTTTTACAAAATCATCAAGGGAATATAGAAGGAATTGCACTGGAGGATAATTGCGCTTTATATATTACAGAGGAATCCTTTGAGATTATCGGTGAACCAGAAAAAGCGTGGGAGTTTTATATGAGTGATAAAACACTCATTAGACAACATTTTGATATAACTTTAAAAAGCTATTTGTAA	MKLAVIGGGDLQDSNHLPINERLIELTNKQYPKVLFIPTASHDDESYIKLFLDTFEKQLHCEVQILRTTTDSPSKYEIDEMIHSADLIYLGGGNYIHMFTQWKEHRLDEKLLLALQQGTLIAGYSAGAMCWFTSSIRSDYEGSGYIESNGWGIVNKRFCPHYNQLNRMNAFHSFLQNHQGNIEGIALEDNCALYITEESFEIIGEPEKAWEFYMSDKTLIRQHFDITLKSYL				NA	NA	NA	NA	NA
AK009_00469	396			hypothetical protein	GTGGATTTTCGATTTGAATTTACAACGAAGCTGAAAGAATACTTAGACGATGAGAAGGATGAAAAAATAATAAAAGATGGGCACAGAGATGTAATTTTTCACTATTTATATGCGTTAGAGACTGAAATTGGCGTTGTTAAAAATCCTAATTTTACTTTTTTTGCATCAGGAAGACGTTCACATATAGTGTTAGAAAATGTTGAATTTAAAACAGAAGTAAATGTAAAAAGTAATATAATTGAAATTACAAAAATAGTGGATAATGTAGCTATTCCGTTAGATACTATCGTAGCGAAAGATCGGGAATTATTTGCACTTGGGCGTAATGAGAAGTTTAGTGTACAAATATTAGAGCAGTATCTTTTTGATACATTTGGAGATAAGTTAGGCTTATAA	MDFRFEFTTKLKEYLDDEKDEKIIKDGHRDVIFHYLYALETEIGVVKNPNFTFFASGRRSHIVLENVEFKTEVNVKSNIIEITKIVDNVAIPLDTIVAKDRELFALGRNEKFSVQILEQYLFDTFGDKLGL				NA	NA	NA	NA	NA
AK009_00470	414			hypothetical protein	ATGTTTACTCAAAACTATAAATTAAATGAGCACGGGTTAAATCATTTCTTTGGACCGCTTGAAGCGAAAATTATGGAGATTGTTTGGTCTAACAAAGGTATTACGATTAAAGAAGTGCAGCAGAAATTAAGTGAAGAATCGCCTGTGAATTTTAACACTGTTATGACAGTTATGAACAGGTTAGTAGAGAAGTTACACTTAGAAAAACAGATTGTAAAAAGAAGTGGCATATATCGTGCTGTACAAACAAAAGAAGAATTCTTATCCAAGCAAACGAAGAAAATGACACAGGAATTGATGGGGGAATTTGGAGATTTAGTTGTAAATCATATGTTAGATGAGTTAGAGCAGGCTGATCCGACTTTAATAAAAAAGTTAGAAGACAAATTGAGTCAGTTAAAAAAAGAGGATTAA	MFTQNYKLNEHGLNHFFGPLEAKIMEIVWSNKGITIKEVQQKLSEESPVNFNTVMTVMNRLVEKLHLEKQIVKRSGIYRAVQTKEEFLSKQTKKMTQELMGEFGDLVVNHMLDELEQADPTLIKKLEDKLSQLKKED				NA	NA	NA	NA	NA
AK009_00471	813			hypothetical protein	ATGAAATGGCAAATGCGTAAAATCGTATTGTTAGCAGTAATTGTTAGTACCCTCTTTTTCAGTATGTTAGTGTATTACGTTACATATCCATTTCTGTTTCAAAATAAGATGTTCTTTCTTTCAAATTTTTGCTTGTTCCAGTTAGAAAAACATATGAAAGAATTATCGCTGATTCGTATTATAATCGCTGGATTATTATTACTTACTATATTAATCGTGTGCAAAAGAATTTGGCGACAATTTTTCTATAGTAAAAAATTACAAAAAGTACTTATCCCTTTCATCCGAAAAGGAAAACAAATATATATATTGCCGACTACGGAAGTTGCGGCATTTACAATTGGATTATTCCGTCCGAAAGTTGTCATGTCGGAAGGTTTGCTTCAGACGTTTTCAGATGAAGAAATTGATGCGATTATTTTCCATGAAGAATATCATCAAAAGAATTGGGATCCGCTAAAATTATTTTGTTTTACGTTATTAGCAGAAGGAATGATGTACATCCCGATATTAAAAGGGTTGTTACAGCGATATCATACGTATCAGGAGCTAGCTGCTGATAAATATGCGATGCAAAAAATGGAATCTTCATTTGAGTTAGGTAGCGCGTTATTAAAATTAATTAAAATAAAGACAATGGAAAATCGATGTGTTACCGCTTCATTTGCAAAAACAGCAATAAATTTACGAATCGAGCAAGTGTTAAATGAAAAGGTTGTTAAGCTTACTATTCCGTTACATACGAATTCGGTATATGTAACAGTAGGTTTATTCTGTATGTCGGTTGTACTTATTGTCGGAGAGTGCATATAG	MKWQMRKIVLLAVIVSTLFFSMLVYYVTYPFLFQNKMFFLSNFCLFQLEKHMKELSLIRIIIAGLLLLTILIVCKRIWRQFFYSKKLQKVLIPFIRKGKQIYILPTTEVAAFTIGLFRPKVVMSEGLLQTFSDEEIDAIIFHEEYHQKNWDPLKLFCFTLLAEGMMYIPILKGLLQRYHTYQELAADKYAMQKMESSFELGSALLKLIKIKTMENRCVTASFAKTAINLRIEQVLNEKVVKLTIPLHTNSVYVTVGLFCMSVVLIVGECI				NA	NA	NA	NA	NA
AK009_00472	714			hypothetical protein	ATGAATGCAGCAGATTTAACAATTTGGCTTGTGGCTGGGGCGGGAGTATTGTCATTTATATCACCGTGCTCTTTACCGTTATATCCATCTTATTTATCTTATATTACAGGTGTGTCTATCCAAGATTTAAAAGAAAATCGTGGGATTATGCAAAAATCAGCGATTATACATACCATATTTTTTATGATCGGATTTTCGGTTATATTTTACGCGTTAGGTTTATCGGTAAGCTGGATTGGAATAACATTTTCATCTAACCAAAAATTGATTCAACAAATTGGTGGGATTTTTATTGTTTTAATGGGGCTATTTATGACGGGCTTGTTTCAGCCTAAGTGGCTTATGGCAGAGAAAAAGGTGCAGTATAGAAGTAAATCGACTGGATATATTCGCTCGATTTTAGTCGGTATGACATATGCAGCGGGTTGGACGCCATGTGTTGGACCGATATTTTCAGCTGTACTCATGCTTGGCGCGACGAATCCTGAAGGGGCACTTCTTTATATTACAGCGTATACTCTTGGGTTTGCGGTTCCATTTTTCGTGATGGCATTCTTTATTGGGAAGGTAAAATGGATTGTTACATATGCGAATGTCATGATGAAAATTGGCGGTGGAATGATGATTGTAACAGGTATTTTATTGTATACAAATCAAATGACGAAAATTACAGCATTCTTTATTCGTCTATTCGGTGGATTTACAGGCTTTTAA	MNAADLTIWLVAGAGVLSFISPCSLPLYPSYLSYITGVSIQDLKENRGIMQKSAIIHTIFFMIGFSVIFYALGLSVSWIGITFSSNQKLIQQIGGIFIVLMGLFMTGLFQPKWLMAEKKVQYRSKSTGYIRSILVGMTYAAGWTPCVGPIFSAVLMLGATNPEGALLYITAYTLGFAVPFFVMAFFIGKVKWIVTYANVMMKIGGGMMIVTGILLYTNQMTKITAFFIRLFGGFTGF				NA	NA	NA	NA	NA
AK009_00473	555	resA_2	COG0526	Thiol-disulfide oxidoreductase ResA	GTGAAGAAACTAATTGCTATTATACTAGTAGGTGCTCTCGTTTGGGCGGGGGTTAACTTTTATAATTCAAAGAAAGAAGAAAAGGAAAGAAAAGCAAAGCAAGCAGAGTTACAAGAGAAAGAAGTATTACCACAAGTAGGTTTTAAAGCACCTGGCATCACATTAAAAGGATTAGACGGAAAGTTGCAGTCGTTAAATGATGCCAAGGGAAAACCGTATATTATTAATTTTTGGGCATCATGGTGTGGGCCGTGTGAAATGGAGGCACCTGACTTAGTTCATATGTATGATAAATATAAAAAGGATGTTGAAATTTTTGCGGTGAATGCAACTGTTAGTGACCCAGTACAAGAAGCAAGCGCATTTGCTAATCGCTATGGGTTTGAGTTTCCTGTTCTACTAGATATGGACGGAGTAGCTGGACTAGATTATAAAGTATTCTCTTTACCGACGACATTTTTTGTTAATAAAGATGGAATCATAGTAGATCATGTACGAGGTGTATTACCACCAGATCAATTAGAAAAGAAATTTAAGAAATTGATTGAGAATTAA	MKKLIAIILVGALVWAGVNFYNSKKEEKERKAKQAELQEKEVLPQVGFKAPGITLKGLDGKLQSLNDAKGKPYIINFWASWCGPCEMEAPDLVHMYDKYKKDVEIFAVNATVSDPVQEASAFANRYGFEFPVLLDMDGVAGLDYKVFSLPTTFFVNKDGIIVDHVRGVLPPDQLEKKFKKLIEN				NA	NA	NA	NA	NA
AK009_00474	687			hypothetical protein	GTGACGATGGAGTGGATCGTGAGGTTACAACCCATATCTCTTATAATTGGAAGTCTATTTGGATTTATGTTGATGAAACGAAAGATGAGGCATCAAAATGTATCATATGAAAAAATGATGGATGCCGTAACAAATGCTTTTCTTATCATCGTATTTGTATGGAAGTTTGCGCCAGTAATTTTAAATCCTGTATGGGCTTTTGGGGCGCCAGTGCAAGCAATATTAGCTGTTGGGAGTATGCAACATATTGTAGTAGGATGCGTAATTGCGAGTGTATACATTGTTTGGAAAAGTAAAAAGGAGCAATTTTCGCTTCGTATTTTACTTGATGTATTGCCTTTTAGTCTGTGTGTGAGTATTATCTTTTATTTTCTATTACATCATGAAGTAGGCGCACAAACGACACTACCATGGGGAATAAAAATATATGAATCTAAACTTTTATATCACCCTATTTTCGTATATGAGATCATCCTTGCTCTTTGTATAATGGGCTTTTTATGGATGAAAAATGAAAGGCTTGGAAATGGAAAGAATATAAGTGTTTTTCTAATTATTGAGGGGTTTGCTCAAATCATTATTTCGCTTGTTAGTGAACAAAATTCGGTTCTGTTTGGTCTATCAGCACAGCAAATAATGAGCTTTTGTATTATTAGTTTAGGGATTTTGTTAGTGTCGAAAAAATAA	MTMEWIVRLQPISLIIGSLFGFMLMKRKMRHQNVSYEKMMDAVTNAFLIIVFVWKFAPVILNPVWAFGAPVQAILAVGSMQHIVVGCVIASVYIVWKSKKEQFSLRILLDVLPFSLCVSIIFYFLLHHEVGAQTTLPWGIKIYESKLLYHPIFVYEIILALCIMGFLWMKNERLGNGKNISVFLIIEGFAQIIISLVSEQNSVLFGLSAQQIMSFCIISLGILLVSKK				NA	NA	NA	NA	NA
AK009_00475	138			hypothetical protein	ATGAAAAAGATTAGTTTAGCTATTTTAACCTTTACATGCATACTTGCTTTTGGATTTAATAATTTTACTGAAAGTCAACAAGCAAAACAACTTCCAAAATGGGATACAGATAAACAAGAAACACATGCAGACCTATAG	MKKISLAILTFTCILAFGFNNFTESQQAKQLPKWDTDKQETHADL				NA	NA	NA	NA	NA
AK009_00476	1095	rapF_1	COG0457	Response regulator aspartate phosphatase F	ATGAGTGTGTTATTAAAAGGGCATGAACAGATTGTCAACGAATTAAACATTTTATATCAAGTAATGGTAGCGGAGCAATTAATTGAAGCGAAACAATTAAAAGAAAAAATAGAGAAACAGATTAATAAAATTGAAGCTGATCAAAATCTATCGCTTTACTACTCCCTACTAAACTTTAAATATAAGGTCCTAACCGATTGGACAAACATTAAGTATGATACTTTTAGTCAAATTGTTCGTTTAGACAATCCAATAACTGAAGACTTTATTACTTATTATTATCACTTTTTTAAAGCTGAACATGCTACCATTATTGGAAATTATGATGAAGCAAAAAAAGAATACGAAAAAGCTGAATCCCTTTTAAAACATGTACCAGGCGAACTAGAAGAAGCTGAATATAAATATAAATTTGCTATATTTAATCACCATACAAACAAACCACTTACAGCAATCAATTATGCAAATCAAGCTAAAGAGATTTTCTCAAAATATCCACGTTATGAAATTAAAATAGCTCTATGCGAAAACATTTTAGGCTCATGTTCTGTTTATTTAAAACAATTCGAACAAGCCGAAGAGAACTATAATTCAGCAATCAATATTTTACAAAAGCTGAAAGACGATACACTAATCTTAAAAGTTCGAAATAACTTAGGTTGGCTCTACTCTTCTCAAAATCTATCAACCCTTGCTATTAGACATCTTACAATAGTTACAAACAAATTACCTAAACACCTAAAAGCCAATTTTCTACAAGCCAAAGAACATTTTATTTTAAATGAAAAAGAACTTGCAAACCATTGGGTTCAAAAAGGCTTAGAAATTTGTAATGAATTAAATAATCAAGAATATAAACACCATTTCACTATCTTAAAAACACAACACACTGGTATTCTAGACGACTTAGAAAACGCAATCATTGCAGGCACTACATATTTTAACAGTAAAGAATTATACGATTATGCACAAGAATATTACGAATTATTAGCAGTAGAATTTCATAAAGTGAATAAAATAGAGAAATCTCAAAAATATTTTTTCAAAACTTACGAAGCAAAACAAAAATTATTAACTAAGGAGGCACTAAGATAA	MSVLLKGHEQIVNELNILYQVMVAEQLIEAKQLKEKIEKQINKIEADQNLSLYYSLLNFKYKVLTDWTNIKYDTFSQIVRLDNPITEDFITYYYHFFKAEHATIIGNYDEAKKEYEKAESLLKHVPGELEEAEYKYKFAIFNHHTNKPLTAINYANQAKEIFSKYPRYEIKIALCENILGSCSVYLKQFEQAEENYNSAINILQKLKDDTLILKVRNNLGWLYSSQNLSTLAIRHLTIVTNKLPKHLKANFLQAKEHFILNEKELANHWVQKGLEICNELNNQEYKHHFTILKTQHTGILDDLENAIIAGTTYFNSKELYDYAQEYYELLAVEFHKVNKIEKSQKYFFKTYEAKQKLLTKEALR	PGPT0025770_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025770-rapF-K06364	NA	NA
AK009_00477	177			hypothetical protein	GTGAATATTACAAGTGCCTCTGGTAGTGGTGGGATGAATCTGACTCATGATACGTTAGCATCAATGGGAGGGATAGTTTCAGTTGTAAATATGTTTTTAGGAGGATTGTTCGGATTGGGTCCAACTGTTAAGTTTTTAACAAAAATTTCACTTTCTTATTTAATAAAAACAGGATAA	MNITSASGSGGMNLTHDTLASMGGIVSVVNMFLGGLFGLGPTVKFLTKISLSYLIKTG				NA	NA	NA	NA	NA
AK009_00478	546	puuR_1		HTH-type transcriptional regulator PuuR	ATGGAAAATATAGATATTGGTAAAAAAATTGAAAAACAAAGAAAAGAAAAAGGTTTAACTAGTAAAGAACTAGCAAAGATGGCCGATATTACACCATCTATGTTAAGTCAAATTGAGCGTGGGTCGGCTAACCCTTCTATTCAAACATTAAAAGTACTTGCTAAAGCTCTTGATGTTCCAACATTTAGCTTTTTACTTGAAGATACAAATACAGACGATTTAATTGTACGTTCCCATAAACGAAAGAAAATGATTATCGATAATTTATCATATGAAATGCTTTCACCTGATTTCACTGGAAATTTAGCAACAGCAATTATGACCGTCCCGCCTAATACAGCTTCATCAGAAAATGTGCTAGAACATAAAGGAGAAGAATTAGCATTTGTCTTAGATGGGAAAATCACATTATATTTAAACGAGGAAGAATACGTATTAGAAACTGGTGACAGTGTAAAGATACCTGCTTATTTAAAGCATAAATGGGTGAATCATTTTGAAAAAAACGCGATAGTTTTATTTTCTGTTACTCCGCCGATTTTTTAA	MENIDIGKKIEKQRKEKGLTSKELAKMADITPSMLSQIERGSANPSIQTLKVLAKALDVPTFSFLLEDTNTDDLIVRSHKRKKMIIDNLSYEMLSPDFTGNLATAIMTVPPNTASSENVLEHKGEELAFVLDGKITLYLNEEEYVLETGDSVKIPAYLKHKWVNHFEKNAIVLFSVTPPIF				NA	NA	NA	NA	NA
AK009_00479	1332	dsdA_1	COG3048	D-serine dehydratase	ATGAAAGAAATAGGGGCATTACAAGCAGAATACCCATTAGTGAATAAACTTATTGCAACAAAAGAAGTATTTTGGATAAACCCACACATAGAAAAGTATGAAAGGGCAATAAAAGATTCACCACTTAATGAAGAGAATGTAAAAGATGCGGAAGAGAGATTAAAGCGTTTTGCGCCATATATTGCGAAAGTTTTTCCTGAAACGAAAGGGACTAACGGCATAATCGAATCACCTTTAGTAAAAATACCTTCTATGAAAGAAGCTTTAGAGACAAATTACAAGCAACCTATTTTAGGAGAATTATTATTAAAATGTGATAGTCATCTCCCGATATCAGGATCAATTAAAGCTAGAGGTGGCATTTATGAAGTGTTGAAACATGCTGAGCAACTAGCATTGCAGCACGGAATGTTAACAGAAGAAGATGATTATTCCATTTTAGATAGTGATACATGTAGAGAGTTTTTCTCGAAGTATTCAATTGCGGTAGGTTCTACAGGGAATTTAGGACTTAGCATAGGAATTATGAGTGCGAATCTAGGTTTTAATGTAACTGTTCATATGTCAGCAGACGCAAAAGAATGGAAGAAAAGTTTATTAAGAAGTAAAGGTGTAAACGTTATTGAATATGAAGATGATTATAGCAAAGCAGTAGAAGAAGGAAGACGACAGGCAGATGCGGATCCTAGCTGTTATTTTGTAGACGATGAAAACTCACATGATCTATTTTTAGGATACTCAGTAGCAGCATCACGATTACAAAAGCAATTAGAAGAGTTAGAGGTTGTAGTAGATGAAGATCACCCTTTATTTGTTTACCTTCCGTGCGGAGTAGGAGGAGGACCTGGCGGAGTAGCATTCGGTTTAAAGTTATTGTATAAAGACAACGTTCATTGTTTCTTTGCAGAGCCAACACACTCACCATGTATGTTACTCGGCTTAATGACAGGCCTTCATGACAAAATTGCCGTTCAAGATATCGGAATTGATAATGTAACAGATGCGGATGGACTTGCGGTAGGAAGACCGTCTGGATTTGTCGGGAAAACGATGGAACCATTTTTAAGTGGAAATTATACAGTAAACGATGAAGAGTTATATAGATTGTTAAAAGAACTAGCTGATACGGAGAATATTTATTTAGAGCCTTCTGCACTAGCAGGTATGATAGGGCCAGTGAAAGTGTGTAAAGAAGATGAGTATTTACAAAAGCAACAGTTAACAGAGAAAGTGAAAAAAGGTACTCATATTGTGTGGGGAACGGGTGGAAGCATGGTTCCTAAAGATGTAATGAATGAATATTATAGGAAAGGTTTGGAATTAACGATATAA	MKEIGALQAEYPLVNKLIATKEVFWINPHIEKYERAIKDSPLNEENVKDAEERLKRFAPYIAKVFPETKGTNGIIESPLVKIPSMKEALETNYKQPILGELLLKCDSHLPISGSIKARGGIYEVLKHAEQLALQHGMLTEEDDYSILDSDTCREFFSKYSIAVGSTGNLGLSIGIMSANLGFNVTVHMSADAKEWKKSLLRSKGVNVIEYEDDYSKAVEEGRRQADADPSCYFVDDENSHDLFLGYSVAASRLQKQLEELEVVVDEDHPLFVYLPCGVGGGPGGVAFGLKLLYKDNVHCFFAEPTHSPCMLLGLMTGLHDKIAVQDIGIDNVTDADGLAVGRPSGFVGKTMEPFLSGNYTVNDEELYRLLKELADTENIYLEPSALAGMIGPVKVCKEDEYLQKQQLTEKVKKGTHIVWGTGGSMVPKDVMNEYYRKGLELTI	PGPT0001970_412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
AK009_00480	1248			hypothetical protein	ATGTCATTACAGACTAAATATATAGCGGGTATTTCGCTTGGGGTTATGGGTGTCGGCTTTGCGGCTTCTATCCCTTTTCAAGGAACGGTAGCTGGAGAGATTATACAAGGTGGATTTGAAGCTGGATTGGTTGGGGGACTTGCGGATTGGTTTGCAGTTACTGCTTTATTCCGTCATCCGATGGGAATACCAATTCCGCATACAGCTTTGTTACCTAAAAACCGTAAACGGGTAACGAAAGGGCTCATTCATACGTTAGAAAATGAATGGCTAACGAAAGAAAGTATTACGAATAAAGTAAAAGAGATGCAGTTAGCACAAATGGTACTGCAAATTGCTGAGAGAGAAATGCAGTCTGATGCTGTGAAAAAGGGGATTGTAACGATTGCAGAGAAAGCAATTGTAACAATAGATACAGAAAAGTTAGCTGTTATTATTGAAAAAGAATTAAAAACATATTTACATACAATTAATACAAGTAATATTTTACAAGTGCTTGTTGATCAATTAGTTGTGCAAGAATATGATGAAAAGACACTTGATTACATATTAGTGAAGGTAAAAGATTGGACAGCGCAAGATGAAGCTCGTTACCAGCTCGGTAGCTTAGGTATGAAGGCGATGGAAAATATAAAAGTAGATGGATTCTTGCAGTTTACTTTGAAATCATTTATGAATATTGTAGATGAAGATAAAATTGGCGGTATTTTGCAGAAGTTTATCATTAGTAATATTAACAGCTTACAAGAGGCTGATAATAGCACAAGACAACTTATATTAGCGAAGATTCGTCAAGAGATTATCAATGTAAAAGAAAATGAAGCTTTATTACAGGAATTAGAAAATTGGAAAGAAAAGTGGATTGCGAATTGGAATGCTACTGACAAAATAAAAGAGATGCTAGAGCAAGTACAACAAAGAGCAGTTGCTTTTGTAAATAATGAAGAATTTGCTAATCAATATGTTATTCCATTTTTACAAAAACAAATGAATAAAATAAAAGAAGATGAACAGACAGTTCAAAAAATAGAAGATTGGTTACAAAAACAAGTTGTGAATCTTATTGAGAAGAACCATTCGAAAATTGGTAAGCTTGTACAAGAAAACCTTGATAAGTTAGACGATAAAACGTTAATCGAAATGATTGAAAATAATGTCGGTAAAGATTTGCAGTGGATCCGAGTGAACGGGGCGGTTTGCGGATTTATGATTGGATTAGTGTTAGAAGGAATTAAAGCGATTATATAA	MSLQTKYIAGISLGVMGVGFAASIPFQGTVAGEIIQGGFEAGLVGGLADWFAVTALFRHPMGIPIPHTALLPKNRKRVTKGLIHTLENEWLTKESITNKVKEMQLAQMVLQIAEREMQSDAVKKGIVTIAEKAIVTIDTEKLAVIIEKELKTYLHTINTSNILQVLVDQLVVQEYDEKTLDYILVKVKDWTAQDEARYQLGSLGMKAMENIKVDGFLQFTLKSFMNIVDEDKIGGILQKFIISNINSLQEADNSTRQLILAKIRQEIINVKENEALLQELENWKEKWIANWNATDKIKEMLEQVQQRAVAFVNNEEFANQYVIPFLQKQMNKIKEDEQTVQKIEDWLQKQVVNLIEKNHSKIGKLVQENLDKLDDKTLIEMIENNVGKDLQWIRVNGAVCGFMIGLVLEGIKAII				NA	NA	NA	NA	NA
AK009_00481	957			hypothetical protein	ATGAGGACTTGGCGTGTTGGAACATTCTCAATGGGGCTTTCTATTATATCGTTAGGATGCTTTTTACTATTTTCAGTCGTAAAAGGAATTCAAGTATTAGATACACTAACTGCATGGTGGCCAGTTTTACTTATCATACTTGGAGCTGAAGTTTTACTATACCTTGTATTTTCTAAGAAGGAACAATCATTTATTAAATATGATATTTTCAGCATTTTCTTTATCGGCGTTTTAGGAAGCGTCGGAATTGCTTTTTACTGTTTATTATCAACTGGATTACTAGAAGAATTTCGTCATTCTATTAACACAACGAGACAAACGAGTAATATTCCAGACGGACAATTTGATATACCTGAATCTATCAAAAAAATTGTAGTAGATGCAGGGCATCAGCCTCTAACGATAGAGGGAAATAATACAAATCAAATTCACCTTTTGGGAACTTATGAAATGACGACGAAAGCAAATGAAAAACTCAATTTAAAACAAGATGATTTCCTTTCAGTTCAAACGGCTGGAGAAACGATGTATATCAATTTAAAATCATTACCTGTTCAACATACGTTATTTAGTTCAGCACCACAAGTGAAACCAACGCTTGTTCTTCCACAAAATAAAAATGTGGAAATCCGTGCTTCAAATAACGAACTATCTCTTTATCCAGGTCAATTACAAAATAATTGGTTTGTACAAGAAAGCTCAAGAGTGTCTGTCCATCTTGCAAAAGAGAGTGATGTTTCTTTAACAGCAGTAACGAATCAAAAAGAAACACACGGAAGCACACCTTGGGAACAAGTAGAAGATTTAACAAAAAAAGAAAATACTTCTTCAGAAGAACATCCAGAATTAAACAACCAAGAACATTGGTATAAAAATTCAATTAAAACTGGAAATGGCACGCACAAGTTAAATATTGAGAAAACTTATAATTTAAATATGAGCGTTATTGAAAAATAA	MRTWRVGTFSMGLSIISLGCFLLFSVVKGIQVLDTLTAWWPVLLIILGAEVLLYLVFSKKEQSFIKYDIFSIFFIGVLGSVGIAFYCLLSTGLLEEFRHSINTTRQTSNIPDGQFDIPESIKKIVVDAGHQPLTIEGNNTNQIHLLGTYEMTTKANEKLNLKQDDFLSVQTAGETMYINLKSLPVQHTLFSSAPQVKPTLVLPQNKNVEIRASNNELSLYPGQLQNNWFVQESSRVSVHLAKESDVSLTAVTNQKETHGSTPWEQVEDLTKKENTSSEEHPELNNQEHWYKNSIKTGNGTHKLNIEKTYNLNMSVIEK				NA	NA	NA	NA	NA
AK009_00482	1071			hypothetical protein	ATGAATAAAAATCCCTTTTTAGCACTTGTATTAGGGCTAATTCCTGGGCTTGGACATTTATATTTAAAGAAATTTGGACGGTTTATTTTATATAGCGGAGGGGCTGTATTTCTATTTATCTTTGCAGCATTTTGTACAATAGCATTAGGAGCCCGTGATATTGCTTTTCTTTCTCTATTTTTACTAGTCGTGTTATGGGCAATCAATTTATTAGATTTAGTTATCACTATTATTAATCAATCGAAAAAACAAGCTGCCGGAGAATTCATAGAATCCTCTAAAGAGAGCGAACGATTTTATATCATTCTCTTATCCATCATCCCTGGACTTGGCCATTTTCAATTAGGACTTATGCAACGCGGACTTACATTTTTAGTAGCTTGCACAGGAATCGGAAGTATGATCATTTTCGTTGCACTTTTAACATCGCAAGAAAGTTTTCTTATCTTCCTTATTACATTACCTGTTTTATGGATTTACAATTTCTTTGACGTTGTTCAGCAACTCCAGAAAAAAGAACGTGGCGAGCAATTAGATGATCGTACTATTTTCGAAGAGTTTGAAGAGCACCGCGAGCAAGGAAAGAAAAATAAAACATTTGCTTCTATTTTAGCGATGTTCCCCGGAGCAGGTCATATGTATTTAGGCTTACAACGCCGTGGTCTTCAGCTTATGGCAGCCTTTTTACTATCTATTTATTTACTCGACTTATTAAGACTTTCTGCGTTTTTATTTTTAGTGCCAATCATTTGGTTCTATAGCTTTTTTGATGCTTTACAGCAAACAGCAAAATACGGAAAAGAACGAGTACAAGACGAACCCATTATCGATTATTTTATAAATCATCAAAGATGGATTGGTATCGGATTAATTACACTCGGTGTTTATTATTTATTAGATCAAACAGTCCTTCCTATTTTGAATGATTATTTTGTAACTATATTTAATATTCATCTTAGTGAACTATATTATCGCTATTTCCAAACATCTATCGTTGCGCTCCTTTTAATTGGCGGCGGCTTTAAATTGTTACTTGGAAATAAAGAAAACAAAGGTGGGACAAGCGAATGA	MNKNPFLALVLGLIPGLGHLYLKKFGRFILYSGGAVFLFIFAAFCTIALGARDIAFLSLFLLVVLWAINLLDLVITIINQSKKQAAGEFIESSKESERFYIILLSIIPGLGHFQLGLMQRGLTFLVACTGIGSMIIFVALLTSQESFLIFLITLPVLWIYNFFDVVQQLQKKERGEQLDDRTIFEEFEEHREQGKKNKTFASILAMFPGAGHMYLGLQRRGLQLMAAFLLSIYLLDLLRLSAFLFLVPIIWFYSFFDALQQTAKYGKERVQDEPIIDYFINHQRWIGIGLITLGVYYLLDQTVLPILNDYFVTIFNIHLSELYYRYFQTSIVALLLIGGGFKLLLGNKENKGGTSE				NA	NA	NA	NA	NA
AK009_00483	444			hypothetical protein	ATGATGCATTATTCAAAAGAAGATTGGCGCAATTATACATTAGATTTTATAGAAAGCAATGAACGTGAATCTATGGAAGAACATCTTTATGAATGTGATCATTGTTTAGCACTTTATATGGAAAGTATTGATGAACAACATGAAAACCTTCCAATGATAAATGATGATTCATTTACGAACGAAGTTATGACGCAAATTAATTTTGAAACACTACAGTCTAATGAAAATATAAAAACAACCTCACTAAAGCGCACGATCATTCACTACATAATTGCGACTGCGGCTACAATTATTTTTATGATAAGTGGTTTATTTCAGTATATTTTTACAGCGACATCAAATTTAGAGAAATCTTCAAAACATAACGAGTCTTCTATCTCACAACAAATTGTAAACAAATCGGTAGACACATCGAAAAAGGACGGAGGTTCAAAGCATGAATAA	MMHYSKEDWRNYTLDFIESNERESMEEHLYECDHCLALYMESIDEQHENLPMINDDSFTNEVMTQINFETLQSNENIKTTSLKRTIIHYIIATAATIIFMISGLFQYIFTATSNLEKSSKHNESSISQQIVNKSVDTSKKDGGSKHE				NA	NA	NA	NA	NA
AK009_00484	483	algU_1	COG1595	RNA polymerase sigma-H factor	GTGCAAACATATCGTCATTATATTTTTCAAGTTATCTTTTCTATTGTAAGACATGAAGAAGATGCGAAAGATGTTACACAAGAAGTATTCGTAAAAATTCACGCCTCTCTCCCAAATTATCAATTTCGCGGATTAAAAACGTGGATGGCACGTATTGCCACCAATCACGCTATTGATTATAAGAGGAAGAAAGCTCGAGAAAGTGAAGAACTCTCCTTATGTAAAGAAAATGAGGAAAATATACAGTCCTCTCATAATATTGAGGCTTTATTATTGACGAAAGAGCAGAAATTACTCATTGCTCAAAAACTGAGAGAACTTCCTGAAAATTACCGTGACGTCGTTCTCGCACATTACTTACAAGAAAAAAGCTATCAAGAAATTGCTTTACAGGAAAACATTGAAGTAAAAACAGTCGAAATGAAACTGTATCGGGCAAGAAAATGGATTAAAAAACATTGGAAGGAGGAAGAGTTTCTATGA	MQTYRHYIFQVIFSIVRHEEDAKDVTQEVFVKIHASLPNYQFRGLKTWMARIATNHAIDYKRKKARESEELSLCKENEENIQSSHNIEALLLTKEQKLLIAQKLRELPENYRDVVLAHYLQEKSYQEIALQENIEVKTVEMKLYRARKWIKKHWKEEEFL				NA	NA	NA	NA	NA
AK009_00485	672	lnrK_1	COG2197	Transcriptional regulatory protein LnrK	ATGTTAGTAGGAGGAAGGTCCATACTAACAAACATGAAAATTAAAATATTAATAGCAGACGATAATTCTTTTATTAGAGAAGGCATGAAAATTATTTTAAATACATATGAAGAGTTCGAAGTGGTAGATACAGTAAATGATGGAGAAGAAGCTGTAGCATATTGTAAAAAGCATGAAGTTGATATTGCTCTTTTGGATGTTCGTATGCCAAATATGAACGGTGTAGAGGCGACGAAGTTTATTTGTGAAGAGACGAAAACAAAACCGCTTATTTTAACGACGTTTGATGATGATGAATATATTTTGGATGCAGTAAAAAACGGAGCGAAAGGGTATTTATTAAAAAATAACGATCCGGAGCGTATTCGTGATGCAATAAAAGGGGTATATAATGGCCAAACTGTTATGCAAGATGTAGTTCTCGATAAAATTAAGTCCAATTTAATGGAAAGTAAAGAGGAAGAATGTAAAATAGATAAAAGTCTTTTTACTGAAAGAGAGCTTAGTATTATCGCATTAATTGCAAAAGGTTTCTCAAATAAAGAAATTTCGAAACAGCTTTTTATATCTGAAGGAACAATCGCAAATTATATTACATCAGTTTTAGGGAAAACGGGACTTGAACATCGCACACAAATTGCGATTTACTACTTAACAGGGAAAGTAGATTAA	MLVGGRSILTNMKIKILIADDNSFIREGMKIILNTYEEFEVVDTVNDGEEAVAYCKKHEVDIALLDVRMPNMNGVEATKFICEETKTKPLILTTFDDDEYILDAVKNGAKGYLLKNNDPERIRDAIKGVYNGQTVMQDVVLDKIKSNLMESKEEECKIDKSLFTERELSIIALIAKGFSNKEISKQLFISEGTIANYITSVLGKTGLEHRTQIAIYYLTGKVD	PGPT0012750_316	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
AK009_00486	1101			hypothetical protein	ATGGAATTTTGGTTAACTGTAAGTAAATTAATTGTCTTTATATATATTGTGTTCAGTTACATACATTCAAATGTTACGAACTTACCATGGGTTATATTTGCTTTGCTTTTATATCTTTCTGTAAACGTGCTAATCTCTATATTAAAAAAAGATACGTACAAAAAAATATTGATTTGTATTTCAATTAGTGTAGTTATGTTATTAACATGGAGGGTTCATCCGTTTTTTATTTTGTTTTTACCTTTGAATTTATACGAAATTACATTCCATTACATAGACAAGAATTGGTCACGCTTTGTTATTATGATGCTTCCAATTACAATTACAGATGAAAGCATTCGAATGACTTATGGATTAATTGTTGCATTTTCTTTTCTCGTTTTAACTATGGCAGATCGATATATATCACGTGTAGTAAAGCTTGAATCGCAAAATGATAAGATGCGAAAAGATATGCAACGACTTACGAAAAGCTTACATGAAAATAAAGAGTACATAAGACAATCAGAATACACATTTAAGCTAGAAGAGAGAAATCGGTTATCACAAGAAATTCATGATAAAATTGGTCACTCGATGACAGGTGCATTAATTCAAATGGAAGCTGCAAAGAGATTAATGGGGATAGATAAAGAAAAATCTGCGGAGTTATTACAAAATGCAATTCATATTTCAAAAGATGGAATTGAAAGTATTCGCATTACATTAAAAAATATGAAGCCACCAACTGAGCAAATTGGCATTCACCGTATGAAATTATTCATAGAGGAGTTTGCTAGTAAGCATGATGTAAACATTCCTTTCGTATATAAGGGAAACTTAGATATGATTTCTCCCATTCAGTGGAAAATTATTGGTGAAAATGTTACCGAGGCACTAACAAATGCGATGAAATATGCTGATGCGACAGTTATTTCTATAGATATTCATGTACTTAATAAGATGGTTAAGGTGCAAGTGAAGGATAACGGAAAAGGCGCAGCTCTTGTTAAGAAAGGTCTCGGTATTATGGGGATGGAGGAGCGAACAGCGTCTGTAAATGGGAAAATTATTGTAGATGGAACAAGTGGTTTTTCAGTGACGATGTTGTTGCCGATATAA	MEFWLTVSKLIVFIYIVFSYIHSNVTNLPWVIFALLLYLSVNVLISILKKDTYKKILICISISVVMLLTWRVHPFFILFLPLNLYEITFHYIDKNWSRFVIMMLPITITDESIRMTYGLIVAFSFLVLTMADRYISRVVKLESQNDKMRKDMQRLTKSLHENKEYIRQSEYTFKLEERNRLSQEIHDKIGHSMTGALIQMEAAKRLMGIDKEKSAELLQNAIHISKDGIESIRITLKNMKPPTEQIGIHRMKLFIEEFASKHDVNIPFVYKGNLDMISPIQWKIIGENVTEALTNAMKYADATVISIDIHVLNKMVKVQVKDNGKGAALVKKGLGIMGMEERTASVNGKIIVDGTSGFSVTMLLPI				NA	NA	NA	NA	NA
AK009_00487	942	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGATGAATACATTAGAAATTAAAAATTTAACGAAAAAATTTGGTGATTTCATCGCGGTAGATAATATGTCTTTATCTATTAAAGAAGGAGAGATATTTGGCTTTTTAGGATCAAATGGTGCTGGTAAAAGTACAACGATAAATATGATTGCTGGGTTGTTAAGAAGTAATGAAGGTGAAATTAGCATATTAGGAAAAAATATAAAAAAACATAATCGATTTGCGAAGATGAATATCGGTATCGTTCCGCAAGATATTGCGATTTATGAAGAGTTAACTGCCTATGAAAATGTGAAATTCTTTGCTGGATTGTACGGTTTAAGAGGAGCAGAGCTAAAAGCAAGAGTAGAGGAAGCGCTTCAGTTTGTGGGGCTTAGTGATAAACATAAAAGTTATCCGAAAAACTTTTCTGGCGGGATGAAACGAAGATTGAATATCGCTTGTGCGATCGCTCATAGACCGAAGTTAATTATTATGGATGAGCCGACAGTGGGAATTGATCCACAGTCAAGAAACTATATTCTCCAGTCTGTTCGAAAATTAAATGAAATGGGAAGTACCATTATTTACACGAGCCACTACATGGAAGAAGTAGAAGAGATTTGTACGAAAATAGCAATTGTAGATCACGGTAAAGTAATTGCAGAAGGTACGAAAGAACAGTTAAAAGCGATTATTACTGATACGAAAGATATTTGGGTTGAAGTGAAGTCAGTAGAAAATTTAGATGTAAAAAAGTTAAAAGAGATAAACGGTGTGAAAGCTGTTCAAATTGAAGAGAACGTAATTAAAGTAAACTCGGATGCAGGAGTAAACAATTTAAATAAAATTATTCAGCACTTCATTAATCATGATATTGAAATTCGTTCGGTAGAGGAGCAGGCCCCGAACTTAGAAACAGTATTCCTTACGTTGACTGGAAGAAACTTACGAGATAAATAA	MMNTLEIKNLTKKFGDFIAVDNMSLSIKEGEIFGFLGSNGAGKSTTINMIAGLLRSNEGEISILGKNIKKHNRFAKMNIGIVPQDIAIYEELTAYENVKFFAGLYGLRGAELKARVEEALQFVGLSDKHKSYPKNFSGGMKRRLNIACAIAHRPKLIIMDEPTVGIDPQSRNYILQSVRKLNEMGSTIIYTSHYMEEVEEICTKIAIVDHGKVIAEGTKEQLKAIITDTKDIWVEVKSVENLDVKKLKEINGVKAVQIEENVIKVNSDAGVNNLNKIIQHFINHDIEIRSVEEQAPNLETVFLTLTGRNLRDK	PGPT0006725_8672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_00488	1110	lnrN_1	COG0842	Linearmycin resistance permease protein LnrN	TTGAACATCTTCAATATTGCAGTTATGCATATTAAAAGAGATTTCAGAGACGTAAGAACTTTAGTTTTTATGTTAGCATTTCCGGTTGTACTTATGCTTGTGTTAGGAACAGCGTTAACGAATGCATTTGATAGCGATAGTCAAGCGATTAAAGATATACAAGTGCTCTACAAAGATGAAGCGAGTAGCACATTTTCTCAATCGTTCGAAGCATTTACGAAAGAAGTCGATAAATCGGGTATTCATTTTAAAAAAGCTTCCGAAGGTATAGATGGGAAAGAAGAAGTGAAGCAAAATAAATATGCTGCTTATGTAGAGTTAAATAAAGATGGTGCAAAATTTTATGGAAGTGACAAAAGTAGTGTTGAGGGAAGTATTGTGGAAGGCATGCTTACAACATTTGTTGATAAGTACAATGTAGCGGCCGAAGTTGCAAAAGTAGATCCTAGTAAGGTGAGCACAGTTTTTTCAAGCGGAAATCATAATGATTATATAAAAGAAACATCTTTACAAGCTGCGAAAAAACCAGGTTCTATGGATTACTACGCGGTTGTAATGACAACGATGATTGCACTATATGCTGCGATGGGAGCGAGTTCTTTAATTCGAGGAGAACGAATACGTAAAACAGGAGATCGTCTCATTGCTGCACCTATAAGTAAGGCTGAAATATTCATTGGAAAAGTACTTGGTAGCCTAGTAGCAAATGCTCTGTGCATATTACTCGTCATGTTATTTAGTAAATTTGTTTTTCAAGCGAATTGGGGCGACCATCTTGGAATCATATTTCTTATTTTATTAACACAAATTTTTCTAGCAATTAGCTTCGGTTTAGGAATTGGATATATTACAAAAACACCGGAATCATCTAGAGCAATTATTATGGTTATTGTGCAATTATCCTCTATTTTTGGTGGTGCATATTTCGTAATAGAAGAAAATTTCGTTACGAATTTATCACCATTAACGTGGGCAAACACAGCTGTTATGAAAATTATTTATGCAAATGATGTAGGAGCAGCACTACCGGTAATATGTTTAAACCTTGGCATTTCAGCACTCTTTTTATTAATTGCAATTATTGCATTACGTAGACGGGAGGGGCTATAG	MNIFNIAVMHIKRDFRDVRTLVFMLAFPVVLMLVLGTALTNAFDSDSQAIKDIQVLYKDEASSTFSQSFEAFTKEVDKSGIHFKKASEGIDGKEEVKQNKYAAYVELNKDGAKFYGSDKSSVEGSIVEGMLTTFVDKYNVAAEVAKVDPSKVSTVFSSGNHNDYIKETSLQAAKKPGSMDYYAVVMTTMIALYAAMGASSLIRGERIRKTGDRLIAAPISKAEIFIGKVLGSLVANALCILLVMLFSKFVFQANWGDHLGIIFLILLTQIFLAISFGLGIGYITKTPESSRAIIMVIVQLSSIFGGAYFVIEENFVTNLSPLTWANTAVMKIIYANDVGAALPVICLNLGISALFLLIAIIALRRREGL				NA	NA	NA	NA	NA
AK009_00489	1146	lnrN_2	COG0842	Linearmycin resistance permease protein LnrN	ATGAAAGATATTTTATGGCTCATACAAAAAACGTTATCTGTACTTTTGAAAAATAAAAAAGGGTTATTCATTATTATTAGTTTGCCGATAATTGGAACACTAATCTCCTTCTCGATGTATGGGAATATGGGGCAAGGGACGTTAAATATCGGGGTTATTAATAAAGAAAATCAATCTATAGCAAATGATACGGTGAAATTTTTAGAAGGATTAAATCATGTAAAGGTAAGTAAAATTAAAGAATCTGAAGTAGAAGATAAACTCACTTCCAAAAAACTTGATGGAGTTATTACATTAGATTCTGGTTTTTCAAAAAGTGTTCGAGAAGGGAAACCAAATCATATTGAAATTTCATCGATTAAAGGTGATCAAGTAACAGGATTTATAAAATCATATTTATACAATTATATTGATAATGTAGCAGCTATTAGTAAAGTAGCAGGAACAGATCAAAGTGCATTTGATACTATGTACGCAGGATATCAAAAAGGTTCATTTAAAATGAAAACTGAGACGCTAGAAGATACTTCGAAAAATAAAGATATGACAAACCAAACGATGGGTTACCTTATTATGTTTATGCTATTTTCAGCAGCGAACTTATCAGGTTATATTTTAAAAGAAAAAGAAAATAGAACGTATTTTAGACTCTTATCAACGCCGATAGATGGGAAGAAATTCATATTATCTAATGTCGGGGTAAATATGCTGCTATTAACAGTACAAATTCTGATTACAATCTTATTCCTAACGAATATTTTTCATATAAATATCAATATGCCTTTCATAGTGATGATTGGTGTACTCATGCTATTTGCTTTAATAGCGATTGGAATATCGTTAGTCCTTGTCGCTTTTTCGAAAAACTCAGCATCAGCAAATGCACTGCAAAATATGATTATTGTACCAACATGTTTACTGGCTGGATGTTATTTTCCTTATGACATTATGCCAAAAGCGGTACAAAAAGTAGCTGATTTTCTTCCGCAGAGATGGCTATTAGACACAGTATCAAAACTACAACAAGGAATTCCAATTTCAGATTTGTATTTAAATATTTTAATCTTATTTGCCTTTGCAGTAGCATTCTTCTTAATTGCTATTTATAAGTTTGGAAGAAATAATGATGCGAGAAACTTTGTTTAA	MKDILWLIQKTLSVLLKNKKGLFIIISLPIIGTLISFSMYGNMGQGTLNIGVINKENQSIANDTVKFLEGLNHVKVSKIKESEVEDKLTSKKLDGVITLDSGFSKSVREGKPNHIEISSIKGDQVTGFIKSYLYNYIDNVAAISKVAGTDQSAFDTMYAGYQKGSFKMKTETLEDTSKNKDMTNQTMGYLIMFMLFSAANLSGYILKEKENRTYFRLLSTPIDGKKFILSNVGVNMLLLTVQILITILFLTNIFHININMPFIVMIGVLMLFALIAIGISLVLVAFSKNSASANALQNMIIVPTCLLAGCYFPYDIMPKAVQKVADFLPQRWLLDTVSKLQQGIPISDLYLNILILFAFAVAFFLIAIYKFGRNNDARNFV				NA	NA	NA	NA	NA
AK009_00490	1212	clsB_1	COG1502	Minor cardiolipin synthase ClsB	ATGATTAAAAAAATATTGCGAGTTACTTCTATTGTAATTACTATTTTCGTTTTTGTTTTAATTTGGATGCATATTGACGTTACGCTCGGAAGAAAAATGGAAGTCGGGAAAAATATGCCGACAGAGTACGCTCCTCATTATAGTGATTTTCAATTATATGTAGAAGGAAAGTCATTTTATAAACAGTTATTTACTGATATAAGAGAGGCGAAGCAATCTATTTACACGTACTTTTTCATTTTGTCGGATGATAAAAGTAGCCATACTTTTTTAAACTTATTAAAAGAGAAGGCGAGAGAAGGAGTAAACGTATATTTATCTGTCGATTTACTTAACGATTTATCATTTGAAAGAAAGGTGAAAAAAGAATTACAGGAAAGTGGCGTGCATTTTACATATAGTAGAAAACAGGAATTACCATTCGGGTTTTATTCCCTACATCATCGTAATCATCGCCGTATTACGACGATTGATGGAGAAATTGGCTATACAGGCGGATTTAATATAGGAGATGAGTACTTGGGGAAAGATAAGCGATTTGGATATTGGCGTGATTATCATGTACGGCTTAAAGGAGAAGGAGCAAAAGATTTAGAGGAGCAATTCGCTTTAGATTGGAAGCGAGATACGAAAGAAGATATAAAGAGAAGTACGAATAAGGCTAGCAAAGGGAATACATTACATACTATGACTAGTTACAATGGCCATTACGTTGCTGAGAAATATATAGAGCTCATAAAACAAGCTCAGCACTCAATTGTAATTGCAACGCCGTATTTTATAGCGAAAAATAAAGAATCTATGAATGCTTTAATCGCGGCGCAAAAGCGTGGTGTTACAGTAAAAATACTTTGGTCATATAAACCAGATCTACCTCTTATAAAAGAAGCGGCGTATCCATACATACGTCAGGCTGTTAATAATGGGATTACTGTATATGGGTATAAAAAAGGAATGTTTCATGGAAAGTTAATGCTGATTGATAATGAGTTAACTGTTATAGGTACAACAAACTTTACTTCGCGTAGCTTCAATATAAATGATGAAATGAATTTTTATATTTATGGTGGTCCTATTGTAGAACAAGTTAATAAGGCGTTAACAGAGGATTTTCATGATTCGAAAGAAATGACGAAAGAGTTTTTTGAAAAGTTATCTTTTTGGGAGCGTTGTAAGGAGAAAGTAGCGGGATTGGTTGACTTCTATTTGTGA	MIKKILRVTSIVITIFVFVLIWMHIDVTLGRKMEVGKNMPTEYAPHYSDFQLYVEGKSFYKQLFTDIREAKQSIYTYFFILSDDKSSHTFLNLLKEKAREGVNVYLSVDLLNDLSFERKVKKELQESGVHFTYSRKQELPFGFYSLHHRNHRRITTIDGEIGYTGGFNIGDEYLGKDKRFGYWRDYHVRLKGEGAKDLEEQFALDWKRDTKEDIKRSTNKASKGNTLHTMTSYNGHYVAEKYIELIKQAQHSIVIATPYFIAKNKESMNALIAAQKRGVTVKILWSYKPDLPLIKEAAYPYIRQAVNNGITVYGYKKGMFHGKLMLIDNELTVIGTTNFTSRSFNINDEMNFYIYGGPIVEQVNKALTEDFHDSKEMTKEFFEKLSFWERCKEKVAGLVDFYL	PGPT0007725_4611	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
AK009_00491	744	pyrH_1	COG0528	Uridylate kinase	ATGAGACCATATAAACGTGTCTTAATTAAATTAAGCGGCGGTGCACTTGCCGATCAAACTGGAAATAGCTTTAACTCCAAACGATTAGAACATATCGCAAACGAAATTTTATCCATTGTTGATTTAGGTATCGAAGTATCCATCGTCATCGGTGGCGGTAACATTTTTAGAGGTCATCTAGCTGAAGAATGGGGAATTGATCGCGTAGAAGCTGATAATATCGGTACGTTAGGTACAATTATTAACAGCTTAATGCTTCGCGGTGTTTTAACAAGTAAAACAAATAGAGAAGTGCGCGTTATGACTTCCATTCCATTTAATGCAGTAGCTGAACCATACATTCGTTTGCGTGCAGTCCACCATTTAGATAACGGTTATATCGTTATCTTTGGAGGCGGAAACGGGCAACCGTTCGTGACGACAGATTATCCAAGCGTACAAAGAGCTATTGAAATGAATAGTGATGCCATATTAGTCGCAAAACAAGGTGTCGACGGCGTTTTTACAAGTGATCCAAAGCATAACAAATCAGCAAAAATGTACAGCAAACTAAACTATAATGATGTTGTTAGACAAAATATACAAGTCATGGATCAAGCAGCATTACTGCTTGCCCGAGACTACAATTTACCAGCACATGTCTTTAACTTTGATGAGCCTGGAGTGATGAAACGAATTTGTTTAGGGGAGCATGTAGGGACGTTGATTAATGATGATGCTTCATTGCTGGTGCATGAAAAATAA	MRPYKRVLIKLSGGALADQTGNSFNSKRLEHIANEILSIVDLGIEVSIVIGGGNIFRGHLAEEWGIDRVEADNIGTLGTIINSLMLRGVLTSKTNREVRVMTSIPFNAVAEPYIRLRAVHHLDNGYIVIFGGGNGQPFVTTDYPSVQRAIEMNSDAILVAKQGVDGVFTSDPKHNKSAKMYSKLNYNDVVRQNIQVMDQAALLLARDYNLPAHVFNFDEPGVMKRICLGEHVGTLINDDASLLVHEK	PGPT0021205_811	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
AK009_00492	1272	gltT_3		Proton/sodium-glutamate symport protein	ATGAAAAAATTCGGATTGGCAACACAAATTTTTGTAGCGCTTGTTTTAGGGATTGTAGTAGGGGCAGTCTTTTATGGCAATAAAACGGCGATTTCTTATATCACACCAATTGGAGATATATTTATTCACTTAATTAAGATGATTGTAGTACCAATTGTTATTTCAGCATTAATTGTTGCAGTAGCTGGTGTAGGAGATATGAAAAAGCTTGGGAAACTGGGCGGTAAGACAATTCTTTATTTCGAAATTATTACGACAATTGCTATTTTAATGGGATTACTTGCAGCGAATATATTCCAACCAGGTACTGGTGTTGATATGAGTAATTTACAGCAAAGTGATATTTCTTCTTATAAACAAACTGCAGATGCAACCGAGAAGAAAGGTTTTGCTGAGACAATTGTTCACATTGTACCGAAAAACGTATTTGAATCGATTGCACAAGGTGACCTATTACCGATTATATTCTTCTCAGTATTATTCGGCTTAGGAGTTGCGGCAATTGGGGAAAAAGGAAAGCCTGTCTTTAACTTTTTTGAAGGCGTACTCGAAGCCATGTTTTGGGTTACAAATCAAGTGATGAAATTTGCACCATTTGGTGTATTCGCATTAATTGCCGTTACGGTTGCAAAATTTGGTGTAGCGACATTACTTCCGCTAGGAAAACTAGTGCTAGCTGTATACGTAACTGTTATACTATTCGTTGTGATTGTATTAGGTATTAATGCACGAATGGTTGGCGTAAACATTTTTACATTAATGAAAATTTTAAAAGAAGAACTGATTCTTTCGTTTACGACAGCAAGTTCAGAAGCTGTTTTACCTAATATAATGAGAAAAATGGAAGAGTTCGGTTGTCCAAAGGCAGTTGCCTCTTTCGTAATTCCGACAGGTTATACATTTAACTTGACTGGATCGGCTATTTATCAAGCGTTAGCGGCATTGTTTGTTGCACAAATGTACGGTGTGCACATGTCATTAACGGAGCAAATAACGTTATTATTCGTTCTCATGTTAACATCCAAAGGTATGGCGGGAGTTCCAGGTGCATCGTTCGTTGTTGTATTAGCAACGTTAGGTTCAATGGGGTTACCACTAGAAGGTATCGCGTTAATTGCGGGAATTGACCGCATTTTAGATATGATTCGCTCATCTGTCAATGTATTAGGAAATGCATTAGCGGCCATTGTTATGTCGAAGTGGGAAGGCGAATTCGATAATGAGAAAGCAAAACAATATGTAGAAACAGTCAAAGAAACAAAAGCAGCATAA	MKKFGLATQIFVALVLGIVVGAVFYGNKTAISYITPIGDIFIHLIKMIVVPIVISALIVAVAGVGDMKKLGKLGGKTILYFEIITTIAILMGLLAANIFQPGTGVDMSNLQQSDISSYKQTADATEKKGFAETIVHIVPKNVFESIAQGDLLPIIFFSVLFGLGVAAIGEKGKPVFNFFEGVLEAMFWVTNQVMKFAPFGVFALIAVTVAKFGVATLLPLGKLVLAVYVTVILFVVIVLGINARMVGVNIFTLMKILKEELILSFTTASSEAVLPNIMRKMEEFGCPKAVASFVIPTGYTFNLTGSAIYQALAALFVAQMYGVHMSLTEQITLLFVLMLTSKGMAGVPGASFVVVLATLGSMGLPLEGIALIAGIDRILDMIRSSVNVLGNALAAIVMSKWEGEFDNEKAKQYVETVKETKAA	PGPT0000805_777	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
AK009_00493	1440	aspA_1	COG1027	Aspartate ammonia-lyase	ATGGCAACATTAACTGAAGTTAAAAATGGTGTTCGAATTGAAAAAGATTTTTTAGGTGAAAAAGAAGTGCCAAACTATGCATACTACGGCGTACAAACAATGCGTGCAGTAGAAAACTTCCCAATTACAGGATACAAAATCCATGAAGGCTTAATTAAAGCATTCGCAATTGTAAAAAAGGCTGCAGCGCTTGCTAATACAGATGTAGGAAGATTGGAATTGAACAAGGGCGGCGCGATCGCAGAAGCCGCTCAAGAAATTCTTGATGGAAAATGGCATGATCATTTCATCGTAGATCCAATCCAAGGCGGAGCAGGTACTTCAATGAATATGAATGCAAATGAAGTCATGGCCAATCGTGCTCTTGAATTATTAGGAATGGAAAAGGGAGACTATCATTATATTAGTCCAAATAGTCATGTAAACATGGCGCAATCAACAAACGATGCATTCCCAACGGCGATTCATATTGCAACATTAAATGCATTAGAAGGCTTATTACAAACGATGGGTTATATGCACGATGTATTTGAATTAAAAGCAGAGCAGTTCGATCATGTTATTAAAATGGGTCGTACACATTTACAAGACGCTGTGCCAATTCGTCTTGGACAAGAATTTAAAGCATATTCTCGCGTACTTGAACGTGATATGAAACGTATCAAGCAATCACGTCAACATCTATATGAAGTAAATATGGGAGCAACTGCAGTTGGTACAGGCTTAAATGCAGATCCAGAATATATTGAAGCAGTTGTAAAACATTTAGCTACAATTAGTGAACTACCACTTGTTGGTGCAGAAGACTTAGTAGATGCAACGCAAAATACGGATGCATACACAGAAGTATCAGCAGCACTGAAAGTATGTATGATGAATATGTCTAAAATTGCGAATGACCTTCGCTTAATGGCATCAGGTCCACGTGTTGGCTTAGCGGAAATTATGTTGCCTGCTCGTCAACCAGGTTCATCTATTATGCCAGGGAAAGTAAACCCTGTTATGCCAGAAGTAATTAATCAAATTGCGTTCCAAGTAATTGGTAACGACCATACAATTTGCCTTGCTTCAGAAGCAGGACAGTTAGAATTAAACGTTATGGAACCAGTACTTGTTTTCAACTTACTTCAATCTATTAGCATTATGAATAACGGTTTCCGTGCCTTTACAGATAATTGCTTAAAAGGAATTGAAGCGAATGAAGATCGCTTAAAAGAGTATGTTGAGAAGAGTGTAGGAATTATTACAGCCGTGAACCCTCATATCGGTTATGAAGCAGCAGCTCGCGTTGCGAAAGAAGCAATTGCAACAGGTCAATCCGTTCGAGAACTTTGTGTGAAAAACGGTGTACTGTCACAAGAAGACTTAGAGTTAATTCTAGATCCATTCGAAATGACGCACCCAGGGATTGCAGGAGCAACTCTTTTAAAGAAAAATTAA	MATLTEVKNGVRIEKDFLGEKEVPNYAYYGVQTMRAVENFPITGYKIHEGLIKAFAIVKKAAALANTDVGRLELNKGGAIAEAAQEILDGKWHDHFIVDPIQGGAGTSMNMNANEVMANRALELLGMEKGDYHYISPNSHVNMAQSTNDAFPTAIHIATLNALEGLLQTMGYMHDVFELKAEQFDHVIKMGRTHLQDAVPIRLGQEFKAYSRVLERDMKRIKQSRQHLYEVNMGATAVGTGLNADPEYIEAVVKHLATISELPLVGAEDLVDATQNTDAYTEVSAALKVCMMNMSKIANDLRLMASGPRVGLAEIMLPARQPGSSIMPGKVNPVMPEVINQIAFQVIGNDHTICLASEAGQLELNVMEPVLVFNLLQSISIMNNGFRAFTDNCLKGIEANEDRLKEYVEKSVGIITAVNPHIGYEAAARVAKEAIATGQSVRELCVKNGVLSQEDLELILDPFEMTHPGIAGATLLKKN	PGPT0020125_507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
AK009_00494	1713	maeA	COG0281	putative NAD-dependent malic enzyme 2	ATGAGTAAGTTTACAGTAGCTTCTAATGGTTCATTAGAAACGACATTAAGAGGAGTAGAAGTATTATCGACACCACTTTTAAATAAAGGGGTCGCTTTCACGCAAGAAGAGAGAGAAGAATTAGGTTTAAAAGGGTTATTACCGCCAGCAGTTTTAACATTAGAAGAACAAGCACGCCGAGCATATGAACAATTCTGTTCTCAGCCGGATGATTTATTAAAGAACGTATATTTAACAGCGTTACATGATCGAAATGAAGTATTATTTTATCGTATATTAACAAATCACTTACGTGAAATGTTACCAATTGTATATACACCAACAGTCGGTGTAGCAATTCAAAGGTATAGTCATGAATACCGTAAACCGCGTGGTGTGTATTTATCAATTAACGATCCGTCGGGTATCGAAGAAGCATTCGCCAATATCGGTGCAACAGCTGAAAACATTGATTTAGTCGTTGTAACAGATGGAGAAGGCATACTTGGAATTGGTGACTGGGGTGTTGGTGGTATAAACATCGCAATCGGGAAATTAGCTGTTTATACGGCCGCAGTTGGTATCGATCCTAGCCGTGTATTACCGGTAATTTTAGATGTGGGTACAAATCGTGAGGAACTATTAAACAATCCATTTTATATTGGAAATCGTCACCCTCGTATAACTGGTGAAGCTTACGATGAATTTATTGATACATTTGTACAAGCAGTGAATAAACAATTCCCGAAAGCACTTTTACATTGGGAAGATTTTAGTTCTCGAAATGCACGAAAAATTTTAGATAAATATCGTCATGATATTTGTACATTTAATGATGATATTCAAGGTACAGGTGCAGTTTCACTTGCTGCTGTGTTATCGGCAGTGAAAGCTTCTGGTGTACCATTAAGTGAACACCGCGTTGTTGTATTTGGTGCTGGTACGGCTGGAATCGGTATCGCAGATCAAGTTAGAGATGCGATGGTCCGCGTAGGCGTATCTGAAGAAGAATCATATAAGCGTTTCTGGTGTATTGATCGTAACGGATTAGTTACAGATAATATGGAAGACCTTCTTGATTTCCAAATTCCGTACGCAAGAAAAGAAGCGGAAGTAAGTGAGTGGAAGCAAAATGATATGATCGGACTTGCTGAAGTTGTGAAACATGTAAAACCGACAATTTTAATTGGTACATCTACTGTTGCGGGCGCATTTAAAGAGGAAATTATTAAAGAAATGGCTTCTCACGTAGAAAGACCAATCATTTTACCAATGTCGAATCCAACACCGCTTGCTGAAGCAAAGCCAGCAGATGTAATCGAGTGGACAGAAGGAAGAGCATTAGTTGCAACAGGAAGTCCATTTGAACCAGTTACATATAACGGTGTAACGTATGTGATTGGACAATCAAATAATGCACTTATTTTCCCAGGGCTTGGTCTTGGAACAATTGTAGTACGTGCAAGCGTTATGACGGATGGAATGTTCGCAGCAGCTGCTGAAGCAGTTGCAAGTATGGTAGATACAAGTCAGCCAGGAGCACCTATTTTACCAGAGGTCGAAGAATTACGTAATATCTCAGAAATGGTTGCAATTGAAGTAGCTAAAGTTGCAGTTGCAGAAGGTGTTGCAAGAGTGAACTTAAGTGATAACGATATTAAGATGGCAGTGAAAGAAGCAATATGGGAGCCGGAGTACCGCCAAATAAAAGCGGTAGAAAAGGTTAGAATATAG	MSKFTVASNGSLETTLRGVEVLSTPLLNKGVAFTQEEREELGLKGLLPPAVLTLEEQARRAYEQFCSQPDDLLKNVYLTALHDRNEVLFYRILTNHLREMLPIVYTPTVGVAIQRYSHEYRKPRGVYLSINDPSGIEEAFANIGATAENIDLVVVTDGEGILGIGDWGVGGINIAIGKLAVYTAAVGIDPSRVLPVILDVGTNREELLNNPFYIGNRHPRITGEAYDEFIDTFVQAVNKQFPKALLHWEDFSSRNARKILDKYRHDICTFNDDIQGTGAVSLAAVLSAVKASGVPLSEHRVVVFGAGTAGIGIADQVRDAMVRVGVSEEESYKRFWCIDRNGLVTDNMEDLLDFQIPYARKEAEVSEWKQNDMIGLAEVVKHVKPTILIGTSTVAGAFKEEIIKEMASHVERPIILPMSNPTPLAEAKPADVIEWTEGRALVATGSPFEPVTYNGVTYVIGQSNNALIFPGLGLGTIVVRASVMTDGMFAAAAEAVASMVDTSQPGAPILPEVEELRNISEMVAIEVAKVAVAEGVARVNLSDNDIKMAVKEAIWEPEYRQIKAVEKVRI	PGPT0001350_503	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
AK009_00495	1290	glnK_1	COG0642	Sensor histidine kinase GlnK	TTGAATTGGAATCAATTATGGAAGAAAGATATGTCCCTTTTAATTATATTAATGGTCGTTGTTCCTATTGCTGGGGAGCTGAACTTTCATCCCTTTAATGATACGTTTCGAGTTAGCTTCGGTACACCGCTATTTTTCTTTTTATTATTATTTTTAAGAAGAGTACCAGCAGGAGTTGCAGGTATTCTTGTTGGTATATCTGTAGTCTTATTCCGAGTATGTCTTGACTGGATCATGCAAGGTTCATTTCATATGACAGAATCATTTTATTTGCGTTATCCTGTGTTCTTCTATTATTTTATTTATGGCAGTCTTTTTTCGCTTTGCAGGGTAAATAAGTTCCATCAGAAACCAATCATTATTGGATGCCTTGGCATTTCAATTGAAATTGTTGCAAGTATGTCAGAACTTGCGTTCTATCACATGTTAGTACTCGGTACAACAATAACGATTTCTGAAGTAAATAAACTTATTATTATTGCTATTTTTCGTAGTTTCTTTGCACTTGGTTTTTTAAATATGATGAATTTATATGAAACGAAATTAAAAGAATCGCAAGTTCGAAAAGAAAATGAAAACATGTTAATGCATCTTTCTAATTTATATGTGGAATCTGTTCATTTGAAAAAGACATTACAAAATGCAGAGTTAATTACACAAGAAGCATATCAACTATATCGAAATTTACAAGCGAACGATGATCCCAATAATAAAACAGCATTGAAAATAGCAGGAGAAGTGCACGAAATAAAAAAGGATAATCAAAGAATTTTTGCGGGATTATCTAAACTCTTATTAGATAAAAATGTAGCTGAGTATGTAGACGGACATGAGCTTACAGAAATGATTGTAAGAATAAATGAAAAGTACGCTGGAATGCTAGAGAAAGATATACGTTTTTCTAAATATATAGAAGGTGAACACGCTGCATATCACGTGTATACAGTGCTATCAATCTTTAATAACTTAGTTGCCAATGCAGTGGAAGCAATTGAAGATAGAGGTCTCATTCATATTGATTTATATAAACGAGAGCAACATGTAATATTTGAAGTAATTGACGATGGCCCTGGTATTGCACAAAAGTATAAAAAATTAGTATTTAAGCCCGGGTTTACTTCCAAGTATGATCAAACAGGAACACCGTCAACAGGCATTGGACTTTCTTACATACATGAAATGGTAACAGAGCTAGGCGGAGAAGTAAGATTAGAAGACAATGAAACCGGAAAAGGGTGTAAGTTTATCGTTTGTTTACCGGAGTGCAGTTTAAAGCGGGAAGGGGAATAG	MNWNQLWKKDMSLLIILMVVVPIAGELNFHPFNDTFRVSFGTPLFFFLLLFLRRVPAGVAGILVGISVVLFRVCLDWIMQGSFHMTESFYLRYPVFFYYFIYGSLFSLCRVNKFHQKPIIIGCLGISIEIVASMSELAFYHMLVLGTTITISEVNKLIIIAIFRSFFALGFLNMMNLYETKLKESQVRKENENMLMHLSNLYVESVHLKKTLQNAELITQEAYQLYRNLQANDDPNNKTALKIAGEVHEIKKDNQRIFAGLSKLLLDKNVAEYVDGHELTEMIVRINEKYAGMLEKDIRFSKYIEGEHAAYHVYTVLSIFNNLVANAVEAIEDRGLIHIDLYKREQHVIFEVIDDGPGIAQKYKKLVFKPGFTSKYDQTGTPSTGIGLSYIHEMVTELGGEVRLEDNETGKGCKFIVCLPECSLKREGE	PGPT0000735_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0000735-ycbA|glnK-K07717	NA	NA
AK009_00496	963	cheB_1		Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGCAGTTTAAAGCGGGAAGGGGAATAGATTTGTTTTATTATATCGTAGACGATGATGAAGTTTTCCGTTCAATGCTGTCGCAAATTATTGAAGATGGAGATCTTGGAGAAGTAATTGGTGAGGCGGATGACGGAGCTTTTATTGAAGCGGATCAACTAAATTTTAAAAAAATAGATATTTTATTTATTGATTTGTTGATGCCGATGAGGGACGGAATTGAAACAGTTCGTCACATTGCGTCAACTTTCACGGGGAAAATTATTATGATTTCTCAGGTGGAATCGAAGCAGCTTATAGGTGAGGCATATACATTTGGTGTAGAATATTATATTACAAAACCATTAAATAAAATCGAAGTTGTATCTGTTGTACGCAAAGTGATAGAGCGTATTAGATTGGAGCGTTCTATACATGATATTCAAAAATCATTGAATAACGTGTTTCAGTGGGAAAAACCGCAATTGCGTACTGAACCAGTACAAGAAGGAAAAAAGATAGGGGATTTAGGGCGCTTTTTACTATCAGAACTCGGTATTGCGGGAGAGAATGGAAGTAAAGATTTACTTAGTATGCTGGAATATTTATATGGTCAAGAAAAGGCACAGACATTTGACTTTGGCTTTCCTGCGTTAAAAGAAATTTTTCATCATATTACGATAAGGAAATTAGGGGATATAGCTTTAGAGGCGGATATTGATAAAGAGAAAAAAGCGTCTGAACAAAGAGTACGTCGAGCTATTTATCAGTCGTTAAATCATTTGGCTTCTTTAGGACTAACAGACTTTTCAAATCCAAAATTTGAAAGCTATGCTCCAAAATTTTTCGATTTCACTGTAGTTAGAAAACGGATGACAGAAATGACGAAAGATGAACTTGCATCTTCTGGTCATACGCGAATTAATACAAAGAAGTTTATTCAAGTGTTGTATTTTGAGGCGAAGAGGTTGATGGAAATAGAGTGA	MQFKAGRGIDLFYYIVDDDEVFRSMLSQIIEDGDLGEVIGEADDGAFIEADQLNFKKIDILFIDLLMPMRDGIETVRHIASTFTGKIIMISQVESKQLIGEAYTFGVEYYITKPLNKIEVVSVVRKVIERIRLERSIHDIQKSLNNVFQWEKPQLRTEPVQEGKKIGDLGRFLLSELGIAGENGSKDLLSMLEYLYGQEKAQTFDFGFPALKEIFHHITIRKLGDIALEADIDKEKKASEQRVRRAIYQSLNHLASLGLTDFSNPKFESYAPKFFDFTVVRKRMTEMTKDELASSGHTRINTKKFIQVLYFEAKRLMEIE	PGPT0000740_80	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000740-ycbB|glnL-K07719	NA	NA
AK009_00497	3195	rapA_1		RNA polymerase-associated protein RapA	ATGAGTTTCACATTGAATAAATCGATTATTAAAGAAGTGTGCGGAGAGACCTCATATAAAAGAGGTGAAGCCTATTATAAATCAAATAAAGTGATAATAAATCATTATGATAAAAATAAAGAAATTTGCGAGGCTACAGTAAAAGGGAACGAGGATTTCCATGTTACAGTAGAAAAAGCTAAAAAGGGTGATGTTGTTGCAAAATGTAGTTGTCCTTCATTATCGTCTTTTCAAACGTATTGTCAACATGTTGCAGCAGTATTAATACAAATAAACTATAATCAACAAACAGGTGGAATGAGCTCCACTAGTAACAGAAACGATCAATTGACAAGTGGTATGTTTCAGCTGTTTGCGGACAAACCACTGAGGCCAAAAAGTAAACAACACCGTTTTGATACACGCGAAATATTAGATGTTGAGTTTATATGTACACCAGTAGCTACGAGAAGTGGTGGGGCTCTACTTGGAATTCAATTGAAACTTGCCAAAGTGTATTTCATAAATCATATTAGAGAATTTCTTTCTAAGGTGGAGAAAAGAGAGTCTTTTCATTGTTCAAATGAATTTACATATACGCCAGATGTACATAGTTTTAAACAAGAAACGGATGCGATTATCCAGCAGCTCATTAAAATGTATCATAACGAAAAAATGTATGAGGATGCGCTAGAAGTACATGCGAAACAAGATGAAAGTATGATATTCATACCACCAGCTTCATGGAAAGATATGCTCTCTTCACTTTCTAAAGTTGAATATGTACAGCTGAAACAAAATGAACAACTGTTTCAGGGATTACAAGTTTCAAAAGGTTTGTTGCCGTTACACTTTGAATTTACAAAGGGAAATAATGGCGGATTTACACTTCATATAGATGGTCTAAATCGTGTACGAGTTATGGATATGTATAACAATGCACTTTACGATGGGAAATTATATCACTTACACATTGAAGATTGTATGCGACTTATTGAATTACAAAAGATGATAAGTCGCTCAAATAGTAATCAGTTTTATATTCCAGAAAGTAAGATGGAACATTTCGTCGGGAAAGTTGTACCAGGATTAATGAAGCTCGGAACTGTACACATTGATGAAGTAATATCGGATCGTGTTGAAACACCTTCGCTAAAAGCGAAATTGTATTTAGACCGCGTGAAAAATCGCTTATTAGCAGGTCTTGAATTTCACTATGGGAACGTCATGATTAATCCGCTAGAAGAGGATGGACAGCCGTCTGTTTTTAATCGTGATGAGAAAAAGGAAAAAGAGATTTTAGACATTATGAGTGAAAGTGCCTTTGCAAAAACAGAAGGCGGTTACTTTATGCATAATGAAGAAGCTGAGTATAACTTTTTATATCACGTCGTGCCAACATTAAAAGGTTTAGTTGATATTTATGCGACGACAGCAATTAAATTGCGAATTAGTAAAGGGGATGTAGTTCCTCTTATTAGAGTGAGAAGAAAAGAAAGAATTGATTGGTTGTCATTTCGTTTTGATATAAAAGGAATACCAGAAGCAGAAATTAAAGGTGTATTAGCGGCTCTTGAAGAGAAACGTAAATATTATCGATTGGCGAACGGTTCTTTTTTATCGCTAGAGAGTAAAGAGTTTAATGAAATTAATCAGTTTATAAAAGAATCAGGTATTCGGAAAGAATTTTTACATGGAGAAGAGGTAAATGTTCCGCTTATTCGGAGTGTAAAATGGATGAATGGACTTCATGAAGGCAATGTTTTAAGTGTGGATGATTCTGTTCAAGAGTTAGTAGAAAACATTCAAAATCCGAAAAAATTAAAGTTTGCTGTGCCAAATACTTTAAATGCAGAAATGAGAAAGTATCAAGTATATGGGTTCGAATGGATGAAAACACTTGCTTATTACCGTTTTGGCGGTATTTTGGCAGATGATATGGGACTTGGAAAAACGTTGCAAAGCATTGCTTTTATAGATTCTGTTTTGCCTGAGATTCGAGAAAAGAAGCTGCCTATATTAGTCGTTTCACCATCATCTCTTGTTTATAATTGGTTTAGTGAATTGAAAAAATTCGCCCCGCATATTAGAGCGGTTATTGCAGATGGAAACCAAGCAGAGCGCCGGAAGATTTTGAAAGATATAGCGGAATTTGATGTCATAATTACGTCATATCCATTACTGAGAAGAGATATAAGATTATATGCAAGACCATTTCATACACTATTTCTTGATGAAGCACAGGCGTTTAAAAACCCTACAACACAAACGGCAAGAGCTGTGAAAACAATTCAAGCTGAATACCGTTTCGGACTAACGGGGACACCTGTAGAAAATTCATTAGAAGAGCTATGGTCTATCTTCCATGTCGTTTTCCCGGAATTATTACCAGGAAGAAAAGAGTTCGGTGATTTAAGGCGTGAAGATATAGCGAAGCGAGTGAAACCATTCGTATTAAGACGGTTAAAAGGGGACGTATTAAATGAGTTGCCAGAGAAAATAGAGCACTTACAATCATCGGAGTTATTACCCGATCAAAAGAGTTTCTATGCTGCTTATTTAGCGAAGTTAAGGGAAGAAACGTTGAAGCATTTAGACAAAGACACGTTACGTAAAAATAAAATTAGAATTTTAGCTGGTTTAACGAGATTGCGACAAATTTGTTGTCATCCCGCTTTATTTGTTGATGATTACAAAGGAAGTTCAGCTAAATTTGAACAACTGTTAGAGATTCTAGAGGAATGTAGAAGTACAGGGAAGAGAATATTAATTTTTTCTCAATTTACGAAGATGCTTTCTATTATTGGTCGTGAGTTAAATCGACAAGCAATTCCATACTTTTATTTAGACGGGAGTACACCAGCGCAGGAACGTGTAGAGCTGTGCGATCGGTTTAACGAAGGAGAAGGAGAGCTATTTCTCATTTCTTTAAAAGCTGGTGGTACCGGACTTAATTTAACTGGTGCAGATACAGTAATATTATATGATTTATGGTGGAATCCAGCTGTTGAACAACAAGCGGCCGATAGAGCGTATCGAATGGGACAAAAAAATACAGTGCAAGTTATAAAGCTAGTAGCTCAGGGAACAATTGAGGAGAAAATGCATGAACTGCAAGAAAGTAAGAAAAATTTAATCGCTGAAGTGATTGAGCCGGGAGAAGAGAAATTGTCCTCAATCACAGAGGAAGAAATTCGAGATATTTTAATGATTTAA	MSFTLNKSIIKEVCGETSYKRGEAYYKSNKVIINHYDKNKEICEATVKGNEDFHVTVEKAKKGDVVAKCSCPSLSSFQTYCQHVAAVLIQINYNQQTGGMSSTSNRNDQLTSGMFQLFADKPLRPKSKQHRFDTREILDVEFICTPVATRSGGALLGIQLKLAKVYFINHIREFLSKVEKRESFHCSNEFTYTPDVHSFKQETDAIIQQLIKMYHNEKMYEDALEVHAKQDESMIFIPPASWKDMLSSLSKVEYVQLKQNEQLFQGLQVSKGLLPLHFEFTKGNNGGFTLHIDGLNRVRVMDMYNNALYDGKLYHLHIEDCMRLIELQKMISRSNSNQFYIPESKMEHFVGKVVPGLMKLGTVHIDEVISDRVETPSLKAKLYLDRVKNRLLAGLEFHYGNVMINPLEEDGQPSVFNRDEKKEKEILDIMSESAFAKTEGGYFMHNEEAEYNFLYHVVPTLKGLVDIYATTAIKLRISKGDVVPLIRVRRKERIDWLSFRFDIKGIPEAEIKGVLAALEEKRKYYRLANGSFLSLESKEFNEINQFIKESGIRKEFLHGEEVNVPLIRSVKWMNGLHEGNVLSVDDSVQELVENIQNPKKLKFAVPNTLNAEMRKYQVYGFEWMKTLAYYRFGGILADDMGLGKTLQSIAFIDSVLPEIREKKLPILVVSPSSLVYNWFSELKKFAPHIRAVIADGNQAERRKILKDIAEFDVIITSYPLLRRDIRLYARPFHTLFLDEAQAFKNPTTQTARAVKTIQAEYRFGLTGTPVENSLEELWSIFHVVFPELLPGRKEFGDLRREDIAKRVKPFVLRRLKGDVLNELPEKIEHLQSSELLPDQKSFYAAYLAKLREETLKHLDKDTLRKNKIRILAGLTRLRQICCHPALFVDDYKGSSAKFEQLLEILEECRSTGKRILIFSQFTKMLSIIGRELNRQAIPYFYLDGSTPAQERVELCDRFNEGEGELFLISLKAGGTGLNLTGADTVILYDLWWNPAVEQQAADRAYRMGQKNTVQVIKLVAQGTIEEKMHELQESKKNLIAEVIEPGEEKLSSITEEEIRDILMI				NA	NA	NA	NA	NA
AK009_00498	135			hypothetical protein	ATGAGTAAAACGAAAGCAAAACCGAAAAAAGGTGTAGGACAAGGTACAGGAAGTAAAGGATGGAACCGTTGGCAATCAAGTGCAAAGAAAAAGGCAGCTGCCAAACCATACAAAAGTAAAGGTACAAAGAAGTAA	MSKTKAKPKKGVGQGTGSKGWNRWQSSAKKKAAAKPYKSKGTKK				NA	NA	NA	NA	NA
AK009_00500	984	asnA	COG2502	Aspartate--ammonia ligase	ATGTATCAATCATTAATGACAGTAAGAGAGACTCAAATCGCAATTAAGGAAGTTAAAACATTTTTCGAGGACCAATTAGCAAAACGCCTTGAACTATTCCGCGTATCTGCACCATTATTCGTAACGAAAAAATCAGGATTAAACGATCACCTAAACGGTGTAGAACGCCCAATTGAATTTGATATGTTACATTCAGGAGAAGAATTAGAAATTGTTCATTCACTAGCGAAATGGAAACGATTTGCATTACATGAATACGGATACGAAGCTGGTGAAGGTTTATATACAAACATGAACGCGATTCGTCGTGATGAAGAACTTGATGCAACGCATTCCATTTACGTTGACCAATGGGATTGGGAAAAAATCGTTCAAAAAGAATGGCGTACTGTCGATTACTTACAAAAAACAGTACAAACAATTTATGGAATATTCAAAGATTTAGAAGATCACTTATTTGAAAAATATCCGTTCCTTGGAAAGTATTTACCAGAAGAGATTGTTTTCATTACTTCTCAAGAACTAGAAGATAAATATCCAGAATTAACACCGAAAGATCGTGAACATGCAATTGCGAAAGAACACGGTGCAGTCTTTATTATTGGAATTGGTGATGCACTTCGTTCAGGTGAAAAGCACGACGGACGCGCAGCTGATTATGACGATTGGAAATTAAACGGTGATATTTTATTCTGGCACCCAGTACTACAATCTTCATTTGAATTATCATCAATGGGAATTCGTGTTGATAGTAAATCACTTGATGAGCAGTTAACGAAAACTGGTGAAGACTTCAAACGTGAGTATGATTTCCATAAAGGTATATTAGAAGACGTACTACCATTAACAATCGGCGGTGGCATTGGACAATCAAGAATGTGCATGTACTTCTTACGTAAAGCACATATCGGTGAAGTTCAATCTTCTGTATGGCCTGACGATTTACGTGCAGCTTGTAAAAAAGAAAACATTCATCTGTTTTAA	MYQSLMTVRETQIAIKEVKTFFEDQLAKRLELFRVSAPLFVTKKSGLNDHLNGVERPIEFDMLHSGEELEIVHSLAKWKRFALHEYGYEAGEGLYTNMNAIRRDEELDATHSIYVDQWDWEKIVQKEWRTVDYLQKTVQTIYGIFKDLEDHLFEKYPFLGKYLPEEIVFITSQELEDKYPELTPKDREHAIAKEHGAVFIIGIGDALRSGEKHDGRAADYDDWKLNGDILFWHPVLQSSFELSSMGIRVDSKSLDEQLTKTGEDFKREYDFHKGILEDVLPLTIGGGIGQSRMCMYFLRKAHIGEVQSSVWPDDLRAACKKENIHLF	PGPT0020145_789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020145-asnA-K01914	NA	NA
AK009_00501	453			hypothetical protein	ATGGCAAAAAACAAATTACTACGAATGGACAATGTCAGCATCGTTGTAGAATCCCTTGATAACGCAATCTCTTTCTTTGAGGAGATTGGCTTGAATCTCGAAGGTCGAGCCAATGTCGAAGGTGAATGGGCTGGTCGCGTAACTGGACTCGGTTCTCAGTGCGTAGAGATCGCTATGATGGCCACTCCAGATGGCCACAGCCGAATTGAACTTTCGCGATTTCTCACCCCTCCTACTATAGCAGATCACCGAACAGCTCCTGTAAACGCCCTCGGTTATCTACGCGTCATGTTCACCGTTGAAGATATTGACGAAATGGTATCGAGACTCACTAAGCATGGTGCAGAGCTCGTTGGCGAAGTTGTTCAGTACGAGAACTCGTATCGTCTCTGCTACATTCGTGGAGTCGAAGGAATTTTAATCGGTTTGGCGGAAGAACTCGGTAATAAGTAA	MAKNKLLRMDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAMMATPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVMFTVEDIDEMVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELGNK				NA	NA	NA	NA	NA
AK009_00502	1230	lysC_1		Aspartokinase	ATGGAAACAATTGTTCAAAAATTTGGTGGCACTTCTGTCGGAAGCGTCGAACGCATTCAACATGTAGCAAATTTAATTATTGAAGAATATGAACGAGGTCATAGCATTGTCTCTGTCGTTTCAGCAATGGGAAAAAGCACAGATGAACTTGTCGCACTCGCTAACGCTATCACAGAAAATCCAAGTAAACGTGAAATTGATATGCTTCTATCTACAGGAGAACAAGTAACTATTTCATTATTAACAATGGCACTGCAAGCAAAAGGCTATCATGCAATTTCATTAACAGGGTGGCAAGCAGGTATTACGACAGAATCTGTACATAGTAGTGCACGGATTACTGACATTCATACAGATCGTATTCAATCTTATCTTGCTGAAGGCACGATTGTTATCGTAGCTGGTTTCCAAGGTATAAGTGTAGAAAATGAAATTACAACGCTTGGCCGTGGTGGTTCTGATACGACTGCTGTCGCACTAGCCGCTGCACTTAAAGCAAAAAAATGTGATATTTATACGGACGTGACAGGCGTATATACGACGGACCCACGAGTTGTAAAAGATGCTTACAAATTAGACGAAATTTCTTATGACGAAATGTTAGAGCTTGCTAATCTCGGTGCCGGCGTATTACACCCGCGCGCTGTTGAGTTTGCTAAAAATCATAACGTAGTTTTAGAAGTTCGCTCAAGTATGGAACAAGAAAACGGAACAATTGTAAAAGGAGAATGTAACATGGAACAACAATCAATCGTTAAAGGTATTGCATTTGAGGATAACATTACACGTGTCACAATTAAAGGATTAGAACAAGGCTCGCTTTCAACAGTTTTCTCTACATTAGCAGCAGCACACATTAATGTAGATATCATAATTCAAAGTATTACAAATGAAGGAACTGTACACCTCTCCTTCTCCATTCATTCGAATGATTTAAGAGAAACTTTAGAAGTTTTGGAACAAAATCAAGAAACTCTTCACTATGAATCTGTAGAACATGAAAATCACTTAGCAAAAGTATCAATCGTAGGATCTGGCATGGTATCTAACCCAGGTGTCGCTGCAAATATGTTCACTACTTTAAAAGAAGAAGATATTCATATTAAAATGGTAAGTACATCAGAAATTAAAGTGTCTGTCGTTATTGACCGCCTTCATTTAGTAACAGGCGTTGAGGCGCTGCATCAATCATTTATGGCGAAAATTGAGCCTTTCGTGCAAATGAGCTAA	METIVQKFGGTSVGSVERIQHVANLIIEEYERGHSIVSVVSAMGKSTDELVALANAITENPSKREIDMLLSTGEQVTISLLTMALQAKGYHAISLTGWQAGITTESVHSSARITDIHTDRIQSYLAEGTIVIVAGFQGISVENEITTLGRGGSDTTAVALAAALKAKKCDIYTDVTGVYTTDPRVVKDAYKLDEISYDEMLELANLGAGVLHPRAVEFAKNHNVVLEVRSSMEQENGTIVKGECNMEQQSIVKGIAFEDNITRVTIKGLEQGSLSTVFSTLAAAHINVDIIIQSITNEGTVHLSFSIHSNDLRETLEVLEQNQETLHYESVEHENHLAKVSIVGSGMVSNPGVAANMFTTLKEEDIHIKMVSTSEIKVSVVIDRLHLVTGVEALHQSFMAKIEPFVQMS	PGPT0014040_4897	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK009_00504	909			hypothetical protein	ATGAAAAGGAAACAGCCTATTTATGTTGCGACAAAAATGAACACGACGATGGAAAAATTATGGAGATATACGCAAGAACCAGATATACATACAGAGTGGGATGCTCGCTTTACTGAAATTTCGTATTTAGGGAAAAAAGAAGGAGAACCACAGAAGTTTTTGTATAAAACAAAGATTGGATTTGGGCTTGAAATAGCTGGAGAAGGGGAATCAATAGGTGAAATAAGAAAAGAAACTGGTGAAAGAATTTCCTCTTTAAAATTTTGGACGGATAATACATTATCTCTTATTCAAATAGGACGTGGTTATTGGAAGTATACGCCGAATAAAGAATACATCCATTTTGAGACACAATATGATTATGATACAAGATTTGGTCGTATAGGAAATGTAATAGATTCCTATATTTTTCGTCCGTTATTAGGTTGGGCGACCGCTTGGAGTTTTGATGCCTTAAAATTATGGTTAGAAAAGGGGCTTCATCCTAGGTTACTAATTAGAAGAACAATGACGTATTGGCTCGTATGCTTTTTATTTGCTTTTGTATGGATATATCAAGGGATAGTGCCGAAACTACTGTTTACTCATTCAGAAGAAGTAAAGATGCTTTCTGTATTAATTGGTTCAAATGAAAGTAGTGTATATATACTTAAAATAATTGGGGTGTTAGAAATAATTTTCGGTGTCGTATGGCTGTTGCCACTAACAAAACGAAAATTATTTATACTGCATATTATTGTATTACTAGTTTTAACGTTAGCGGCAGGATTTACGAATATCGCAAGCTTTACAGGGCCGTTTAATCCGATTACATTAAATGTTCTTCTAATGGGGTTATCAATTGTCGGTTATATAAATAGTTTCGATTTACCAAGCGCGAAAAATTGCAAGAGGGCGAGAAAGGGATAA	MKRKQPIYVATKMNTTMEKLWRYTQEPDIHTEWDARFTEISYLGKKEGEPQKFLYKTKIGFGLEIAGEGESIGEIRKETGERISSLKFWTDNTLSLIQIGRGYWKYTPNKEYIHFETQYDYDTRFGRIGNVIDSYIFRPLLGWATAWSFDALKLWLEKGLHPRLLIRRTMTYWLVCFLFAFVWIYQGIVPKLLFTHSEEVKMLSVLIGSNESSVYILKIIGVLEIIFGVVWLLPLTKRKLFILHIIVLLVLTLAAGFTNIASFTGPFNPITLNVLLMGLSIVGYINSFDLPSAKNCKRARKG				NA	NA	NA	NA	NA
AK009_00505	612			hypothetical protein	ATGGCTAATATGTATGAACGATTATTAGGGGATACCTATAAAAATCTTCATCCTGAATTGCAGAAGCGTTATGCCATTACAGAAGAGAATAGTTTTACAGGGGAAGGAAAGATGGATGAAATTTACGGTGGCTCTTTTTTCGTGAAATTTATATTGAAAATTGCATCGAAGTTTCGAATGTTTTTCTCGGAACGAGGAGAGGAAATTCCATTTACGATACAAAACATAGCTGAGCGAGATGAATATGGACAAGAATTAGTAAGGTGGAACCGTACTTTTTATTTTCATAATAAGAAAAGATATTTTAACGCAGTTATGCAATTGGATGAAAACGAAAATGAAATTGTAGATTATTTTGGCGAACCACATTTACTCGTTTCTACACTACATTTTCATATCGATGAGTTAGGGGCAATGCATATTGCTTCAAAGAAACAATGGTTTTATATGTTTGGAAGAAAAATTCCGTTGCCAAAATTCTTGTATGGTGAAGCAAAAATTGTTGAAAGTTATGATGCAACACTACAGTGTTTTCGAATTCATGTACAAGTACGAAACCCGTTAATTGGCTCGCTTTTTTCATATAAGGGAACATTTGTGGAAAGGAAATAA	MANMYERLLGDTYKNLHPELQKRYAITEENSFTGEGKMDEIYGGSFFVKFILKIASKFRMFFSERGEEIPFTIQNIAERDEYGQELVRWNRTFYFHNKKRYFNAVMQLDENENEIVDYFGEPHLLVSTLHFHIDELGAMHIASKKQWFYMFGRKIPLPKFLYGEAKIVESYDATLQCFRIHVQVRNPLIGSLFSYKGTFVERK				NA	NA	NA	NA	NA
AK009_00506	1620			hypothetical protein	ATGAAAAATATAATATTTGGGCTTGCTGGTTATGTTGTTTTTCTATTATGTGAGCGGTCGAATATAAATCCTGTTGAAGCAATTATATTATTATCTGTTTTATTATTTATACCAATGTCACTTTGTATTATTGATAAAAGAAAAAGAGATGGATCGTATTTATTATTTTATAAATTCGTATCGTTTTTATATCCAATTGCAGCAATTTGTGCAATGCTAGCTTTCGTCACAAATCACTATGTATTTGCGCTAGTTTGGTTTGTATATACAGGAATTGTTGCGTTATTTGGTGTAAGTAGATTGCTAGAAAGAGGATGGAAGCCGTTAGAAGAGACCGCCATAGATAGTGCGTTTATTTATTTGTTTTTAGGTGGTTTTTGGTTTTTTGCTTCAGTAGCAAAACTTTCAATTATGCAGTTTAGCTCTGACATTGTTTTACTCACAGCTGCACATTTTCATTATTCGGCGTTTCTATTGCCATTATCAGCTGGTTTAATAGGGAGAAAAAGAGAAAAGAGAAGTAAAGTGTATGATGTTATTATGTTTATCATCATGATTTCACCTATGACAGTCGCAATAGGAATTACATACTCGAGAATATTTGAATTTTTTGCAGTGTTTCTATATTTATGTGCGATTTATGGGTATGGATTTTACGTTTGGAGAGCAAAATTTAATGCTATCAGTGCAAAGATTCTACTAATCGTTTCGTCTAGTACACTCATGGTTACAATTATGTTCTCACTTATATACTCATACGGGAATTTGAAGCATGTAATGACGATTACAATTGCTCAAATGGTTTGGATTCATGGTGTTGTCAATGGAATTGGAGTAGCGTTACCGGCATTTGTCGGCTGGATGATCGAAAAGAGTGTTCCGAATTATAAATACTATGGGAAACCAATGAGTAAATTAAGAGGAAGTGTGGCAATTGGTGAGGCTTTTTTATATAGCGGCAATTTAGTAGGCAGTAAGGAATACAACGGTTTAGTTGATCAAATAACTGATTTTCATAGTGAGTCATTTGACGTGACGAAGGTACCTTTAAGTATTATTCGTTTTTATGAAAATACAACAGAGTATGAGTTGCAATCAAATATTAAATGGGCTCGTTGGTTCCGCCCATTTGCATTTTGTTATGAGAAAATGAGTAAGCGTGTAGGACAAATACATTTAGGGATGGGCGGCAATTGGGAAACGATGCATGGCTCTATCATTAATGTAATAGATGAGAAAGATGGAAGAGAGAATGTAAGGGCTTGGCTAAGGAAAAATGAAGCAGGTGAATCTATTTTTGTAGCTCTTTATTCAAAGCATACAAATAAGAATGAGACATATATGAATATCGCCTTACCTTTACCTTATTCGAATATGACTGGTATTTTGAAAATATATAATGATAGTCATGATTTAATCATTACTAGTAAGTTAAGAGAAAATGGTCAGGGAGATGAGGGTATTTATTTACATACTCAGTTCTTAACAATCCGTTTACCGTTAGCAGAGACTTTCGTCATTACAGAGGATAAGGATAAAATGTTAACAGCTCATCATAGCATGTGGATATTTGGACTTAAATTTTTACATATTCATTATAAGATTGAAAAAATTACTTAG	MKNIIFGLAGYVVFLLCERSNINPVEAIILLSVLLFIPMSLCIIDKRKRDGSYLLFYKFVSFLYPIAAICAMLAFVTNHYVFALVWFVYTGIVALFGVSRLLERGWKPLEETAIDSAFIYLFLGGFWFFASVAKLSIMQFSSDIVLLTAAHFHYSAFLLPLSAGLIGRKREKRSKVYDVIMFIIMISPMTVAIGITYSRIFEFFAVFLYLCAIYGYGFYVWRAKFNAISAKILLIVSSSTLMVTIMFSLIYSYGNLKHVMTITIAQMVWIHGVVNGIGVALPAFVGWMIEKSVPNYKYYGKPMSKLRGSVAIGEAFLYSGNLVGSKEYNGLVDQITDFHSESFDVTKVPLSIIRFYENTTEYELQSNIKWARWFRPFAFCYEKMSKRVGQIHLGMGGNWETMHGSIINVIDEKDGRENVRAWLRKNEAGESIFVALYSKHTNKNETYMNIALPLPYSNMTGILKIYNDSHDLIITSKLRENGQGDEGIYLHTQFLTIRLPLAETFVITEDKDKMLTAHHSMWIFGLKFLHIHYKIEKIT				NA	NA	NA	NA	NA
AK009_00507	486			hypothetical protein	ATGCCTCTAAATTCACATAACATCGAACACCAGATCTATACAATGTGTATGATCCAACGTAACAATGAAGTTTTACTCATAAAACGCCCCAACCATCGAGGTTTCCCTGGCTACATCGCTCCTGGCGGCAAAGTAGATTTCCCCGAAAGTATCGTTCAAGCCGCTATAAGAGAAGTAAAAGAGGAAACTGGATTACTTGTTTCGAATTTAACTTTTAAAGGATTAGATGAATATGTAAATCCGAAAGGTAATGTTCGGTACATGGTATTTAACTACTGGACAGACTCATTTGAAGGTGAACTTCTTTTAAACCCTCCTGAGGGCGAATTATTATGGATACCAATCGATACAGCACTACATCTTCCTATGCAAGATTGGTTTAAAGAGAGATTCCCATTATTTTTTGAAACAGGCACTTTTGAAATTCAACGTGTTTGGGATAATGAGCTAAATAAACAAATTTCTATGACAATTACCCATACATAA	MPLNSHNIEHQIYTMCMIQRNNEVLLIKRPNHRGFPGYIAPGGKVDFPESIVQAAIREVKEETGLLVSNLTFKGLDEYVNPKGNVRYMVFNYWTDSFEGELLLNPPEGELLWIPIDTALHLPMQDWFKERFPLFFETGTFEIQRVWDNELNKQISMTITHT				NA	NA	NA	NA	NA
AK009_00508	1263	bacE_1		Putative bacilysin exporter BacE	ATGCAAGGAGAAATACAAAAGGAGAAAAGTTTAGGTTATGTTGGTAAATTATTATTACCGGTTAAAGTATCACCACACTTTAAATTTTTATGGATTGGACAATTACTCTCGGCCTTAGGTAGTTCGATAACTATGGTCATACTCCCAGTTGTTGTGTATTCATTAATTGGCTCAACAGTTGTGATGGGAATGACAATGGCAATGTACATGCTACCTAATATTCTCGCTTTACCGTTTGCAGGTTTAATTGTAGACCGAATTGATCGGTTTAAATTAATGTTATTTACGGATATACTCCGCTGTATATTAATGCTATTACTTGCATCGCTTATATTTATGGATTTATTAACAATTACAGTTTTATACATTCTCGTTGCCTTATACGGACTTATGGAAGGGATATTCCAACCAGCATATTCTGCTGTAAGGGCGAAAGTATTCGTTCCTGAAATTCGTAATGCAGCTAACGCACTCACTCAAATGAGTAATCAAGGTATACGATTAATTGGACCAGCACTTGGTGGGTTAATCGTATCGGTTGCGTCTGCAGGGATAGGTTTCGGACTAGATGCAGTAACGTACTTATTATCATTTTTATGTTTATTATTTTTAAAAGAAATTAAGTTTGAAAAAGTAAAACCCATTGAAAAGAGTAAGCTTAATTACAAACAAGAGTTTATGGAAGGTGTATTAGTTTTAAAAAGTCATCCGTGGCTGTGGATTACAATTTTAGTTTTTTCTTTTATAAATATTTGTTATGCCGGCATTATCGTCGTATTAATTCCGTGGTTATTTAATGTTCATCATCATTTTGAAGCTTACGTGTATGGACTTGGCATGGCCTTTTCTGGTGGTGGGGCTGTAATTGCTGCATTAATATTTGGTGGGAAAGAGCGGTGGCATAAGAGAGGATTACTGGCTTATGGAGGTGTTTTAATGAGTGGTATTGCTTTATTAATTATGCCATTCATTTCTTGGGCACCCGCTTTAATATTCTTAATGGCAATTGAAGGATTTGGCATGATGATATTTGGACTCATTTGGGAAACGAGTTTACAGGAACTTGTACCAGAAGAAGCATTCGGAAGAGTGGCAAGTCTTGATATGTTGGGTTCTTTTGCTTTATTGCCATTAGGGTATGTAGTTGTAGGCTGGTTAGCTACTGTCATAGGTGGCGAGATAACTATTATAACACTAGCTAGTTTAGTAATTTTAACAATTGGAATAGCATTGTCTGTACCGAGTATTCGTCGATTTAATTGA	MQGEIQKEKSLGYVGKLLLPVKVSPHFKFLWIGQLLSALGSSITMVILPVVVYSLIGSTVVMGMTMAMYMLPNILALPFAGLIVDRIDRFKLMLFTDILRCILMLLLASLIFMDLLTITVLYILVALYGLMEGIFQPAYSAVRAKVFVPEIRNAANALTQMSNQGIRLIGPALGGLIVSVASAGIGFGLDAVTYLLSFLCLLFLKEIKFEKVKPIEKSKLNYKQEFMEGVLVLKSHPWLWITILVFSFINICYAGIIVVLIPWLFNVHHHFEAYVYGLGMAFSGGGAVIAALIFGGKERWHKRGLLAYGGVLMSGIALLIMPFISWAPALIFLMAIEGFGMMIFGLIWETSLQELVPEEAFGRVASLDMLGSFALLPLGYVVVGWLATVIGGEITIITLASLVILTIGIALSVPSIRRFN				NA	NA	NA	NA	NA
AK009_00509	465			hypothetical protein	ATGAAACGAAAAATATTAACTCTCTTTACGCTTATATGTTTAGCACTACCAATGCAAGCTAGTGCTTACACATTTCAGTCACTACCGATTGCGTCAAAGTCTAAACAATGGTATGTCGAAATTGATAAATCTCATAACTCAAACAAGCAAGCAATCCAGCCAAAGCAAGGTGTATTTGATACGTATAGTTTACTCGTAAAAAACATCGGTCATGATGTATCAAACGTATCTGTGGAAATACTTGATAACAATCCTACCTCTAAGGCTACCTTTAAACCTACTACACCTAATGAAAATATTTCTAAAAGTCATACAAGCTTTGAGTACATGGTATTCCCATTAGACTTTAATAGTCATAATTTTAAAGTTGTGATCACTTGGGAAGAAAAGAATTTCTCTTATAACGGCCATCCGGTAAATGAAGGTAAAAAAATGAAACAAACATTTGTATTTAGTGAAGAATAA	MKRKILTLFTLICLALPMQASAYTFQSLPIASKSKQWYVEIDKSHNSNKQAIQPKQGVFDTYSLLVKNIGHDVSNVSVEILDNNPTSKATFKPTTPNENISKSHTSFEYMVFPLDFNSHNFKVVITWEEKNFSYNGHPVNEGKKMKQTFVFSEE				NA	NA	NA	NA	NA
AK009_00510	804		COG2326	Polyphosphate:AMP phosphotransferase	ATGGAAAATGTACATCTTGCTAAAGTAGATTTAACGAAAAAAATTGAATCAAAATCTAAGTACAACAAGAAACTCGAAAAATATCAAAGGCGCTTATTAGCATTACAGCAAATTTTGAAAGAAGAAAAAATCGCAGTTATGCTTGTTATGGAAGGATGGGATGCGGCTGGTAAAGGTGGGGCAATTAAGCGGGTGACGGAACATCTTGACCCACGTGGGTTCCAAGTAGATCCAATTGGAGCGCCTGCACCTCATGAAAAACGTTACCATTATTTGCAACGTTTCTGGCGCAAAATTCCACAGTACGGGCAAATTAACATTTTTGATCGCTCATGGTACGGTCGTGTGTTAGTTGAGCGTGTTGAAGGTTTTGCTACAAAGGAAGAGTGGATGAGAGCATATGATGAGATTAATGATTTTGAAAAACTACTAACAGATGACCATTACATAATAGGGAAGTTCTTCTACCATATAAGTAAAGAGGAACAGTTAAAGAGATTTAACGATAGAGAGAAAAATCCTTTGAAAAGATGGAAAATTACAGATGAAGATTGGCGTAATCGTGAAAAATGGGATGAGTATGTTGAAGCGATGGAAGACATGTTTGAAAGAACAAGTAAGCAAAATGCGAAGTGGCATATTATTGAAAGTAACGATAAATTGTATGCCCGTGTGAAAACGTTAAAAATCATTATTTCATTCATAGAGGATTATTTCTTAGAACATGGTATAGAATTGCCTTCTTATTATTATGAAATGAAAGAGGATATTGAAGTTTTGCAAGATGTAGGTGTGAAAGAGTAA	MENVHLAKVDLTKKIESKSKYNKKLEKYQRRLLALQQILKEEKIAVMLVMEGWDAAGKGGAIKRVTEHLDPRGFQVDPIGAPAPHEKRYHYLQRFWRKIPQYGQINIFDRSWYGRVLVERVEGFATKEEWMRAYDEINDFEKLLTDDHYIIGKFFYHISKEEQLKRFNDREKNPLKRWKITDEDWRNREKWDEYVEAMEDMFERTSKQNAKWHIIESNDKLYARVKTLKIIISFIEDYFLEHGIELPSYYYEMKEDIEVLQDVGVKE	PGPT0002695_610	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753	NA	NA
AK009_00511	576			hypothetical protein	ATGATTATCGATTATATACTATGTGGGGGTTTTACTTTGAAGGGAAGAGATGTTGTTTTAGGTTTATTAATGGAAAAGGAATTGTCTGGTTACGATATTAAAATTGTTTTTGAAGACGTATTTACTCATTTTTTTGATGGAAGTTTTGGAATGATTTATCCAACGTTACGACAATTGGAGAATGAGGGGAAAATAAAAAAAGAAGTTGTCATGCAAGAGGGAAAACCGAATAAGAAAATGTACTTTATTACAGATGAGGGGCGTGAAGAATTTTATCAATACATGCAGACGCCTGTAGAGAAGGATGTTTTACGTTCGGATTTTTTAATGAGAATGTATTTTGGTAACTATAGTGATGATGTAACAATAAAAAAATGGATTAAAGATGAAATTGAAAGAAAAGAAGCGTACATTGCAGATCTTCGATTGAAATATGAAAAGTGGAGAGTAGGTATTACTTTCGTCGAAGAAATTTCACTAGATGTAGGTATTGCATCGTATAGTGCACAAGTGGAGACTTTGAAGAAAAAATTAGAAGAGTTAGAGGCGAAAGAAAACAATAAAACAGAAGAATGA	MIIDYILCGGFTLKGRDVVLGLLMEKELSGYDIKIVFEDVFTHFFDGSFGMIYPTLRQLENEGKIKKEVVMQEGKPNKKMYFITDEGREEFYQYMQTPVEKDVLRSDFLMRMYFGNYSDDVTIKKWIKDEIERKEAYIADLRLKYEKWRVGITFVEEISLDVGIASYSAQVETLKKKLEELEAKENNKTEE				NA	NA	NA	NA	NA
AK009_00512	1749	mdtD		Putative multidrug resistance protein MdtD	ATGGAGCAAACAAAGGGTATTAAGATTGTCTTTTTAATGTGTCTAGGTATCTTTCTTTGTATGATTGATACGACAATTATGAATATAGCTTTACCGGCAATACAATCGAGTGTAAATACTTCATTAGAAAAGATGTCTTGGGTATTAAATGTTTATACAATGACGATTGCAGTACTCGCCATTCCGTTAGGGCGGATAGCTGATATCTTTGGAAAAGCAAAGATGTATATTCTTGGTTTGGTGATTTTTGGTGGTGGATCGGTACTTTGCGCTTTTGCTAATACAGGTGATTTTCTTATTTTTTCTCGTTTTATACAAAGTATTGGTGCGGCGATTTTATTTCCAACAAGTATGGTAATTGGTGTATCAGCTATGCCATTAGCTAAGAGGCATGTTGCGCTTGCGATTTTAGGAGTAACACAAGGATTGTCAGCTGCTATGGGACCAGTGATAGGTGGAATTATTACGCAAAATTTAGGATGGAGATGGGTGTTCTTCGTTAATGTTCCGGTTTGTATAATAGGAATCGTGTTATGTTGCATCATGCTACAAATAAAAAATGAAGAACGTATTATCTCAAAAATAGATTGGATAGGACTACTATTAAGTAGCACAGCAATTTTTTCATTTACTCTCATATTAGTAAAAGGTAATACATGGGGATGGCAAGGTAATATTGCTTTGTCTTGTTATGCAATTAGCACTATTTCTCTTATTCTATTTGTTTTAGTAGAACGAAAGATTCATAACCCAATGGTGAATTTAAAGTTATTTCAAGATCGAATGTTTGTCGGAGCGTCTATCGTTGTTATATTAAGTAATTTATTTTTAATTGGAGTTACTGTATTGCTTCCAACGTTCTTGACGAAACTACAAGGTCGGACGGAAATTGAAGCGGCTTTTTTAGTGACACCTATTTCAGCAATGATATTTTTAATCTCACCAGTTGCAGCAACTTTAATTAAAAAACTCGGAAAAGTAACTATTATTTTGTCAGGATTTCTTGTTATGGGGCTTTCCTACTATTGGTTGCAAATGATTGATGTTCATTCAACAAATATAGAAATTATTATTCCGTGTATGATATTAGGTGTTGGATATGGTTTAGTAGTGGGGCCAATTACAGTTTTAAGTGCTTCTTCATTTGAAGGAGAACTGTTAACTGCTTCTCAAAGTGTTGTATCAATGTTACGACAAGTTGGAATTGTATTGGCGGTTGCAATATTTGTCTCTAACTTAACTCACAATTTAACTGTAAATAAAGAAAAAGTATATCGTTATGCAGAAGAAAAGGTGCGTAATATTCATGTGAATAGTGCTGAGCAAACTGAAATTTTACAAATGACTAAAGAGAAAATAGAGAATCAAAGTTTAGAGTCGAATATAAATAAGAAACAAAATGCAATGACAATAGGATTAAGTAAAGAGAAAAAGGAAGAATTGATTCGCGACAAGACGGATGAAATATTAAGAGAAGTTCCAGTAGAATATAGAGATGTAAAAAGAGAAGAAGTTATGAGGCAAGTGACAAAAGAAGTTGAAAAACAAGAGGAAAGTATAAAGAAAGAGGTACTCACATTTTCAAATGATGTGAATCATTATGCCAAGAATCAGATGGCTATGAGTTTTACAGATTTATATAAAGCAAGTGTGCCAATTATTTTAATTTGTGCTTTCGTAAGTTTGTTGTTTTGGGAAGGGAAAGCTTTGAGTAAAAAGAGAATGGGAAGATTAGTAGAAGAAGCGTAA	MEQTKGIKIVFLMCLGIFLCMIDTTIMNIALPAIQSSVNTSLEKMSWVLNVYTMTIAVLAIPLGRIADIFGKAKMYILGLVIFGGGSVLCAFANTGDFLIFSRFIQSIGAAILFPTSMVIGVSAMPLAKRHVALAILGVTQGLSAAMGPVIGGIITQNLGWRWVFFVNVPVCIIGIVLCCIMLQIKNEERIISKIDWIGLLLSSTAIFSFTLILVKGNTWGWQGNIALSCYAISTISLILFVLVERKIHNPMVNLKLFQDRMFVGASIVVILSNLFLIGVTVLLPTFLTKLQGRTEIEAAFLVTPISAMIFLISPVAATLIKKLGKVTIILSGFLVMGLSYYWLQMIDVHSTNIEIIIPCMILGVGYGLVVGPITVLSASSFEGELLTASQSVVSMLRQVGIVLAVAIFVSNLTHNLTVNKEKVYRYAEEKVRNIHVNSAEQTEILQMTKEKIENQSLESNINKKQNAMTIGLSKEKKEELIRDKTDEILREVPVEYRDVKREEVMRQVTKEVEKQEESIKKEVLTFSNDVNHYAKNQMAMSFTDLYKASVPIILICAFVSLLFWEGKALSKKRMGRLVEEA				NA	NA	NA	NA	NA
AK009_00513	1275	rfnT		Riboflavin transporter RfnT	TTGCTAGATAAGGCAGGGGCTTTAATAGATAATCATGTGTACACAGAAGAAGAGCAACAAAAACTATACAAACGAACGTTAATAATCGTCAGCATTTCACAAATGTTTGGCGGTGCAGGACTAGCTGCTGGTATTACAGTGGGAGCACTTCTTGCGCAGCAAATGCTTGGAACAGATGCATTTGCAGGATTACCAACTGCTATGTTTACATTAGGATCGGCATTAGCAGCTTTCATAGTAGGGAAGCTTTCGCAACGATATGGACGCCGGATAGGTCTTGCAACAGGGTTCATAGTAGGTGGATTTGGAGCAATTGGTGTTGTAATGGCAGCTTTAACAAATAGTATTATTCTTTTACTTATTTCTTTACTCATATATGGTGCCGGTACAGCCACGAATCTACAAGCTCGTTATGCAGGTACAGATTTAGCAGATAAGAAGCAGAGAGCAACGGCTGTTAGTATTACGATGGTAATGACGACTTTCGGTGCAGTTGCAGGACCAAATTTAGTAGGGGTAATGGGAAGTTTTGCTCATTCAATTGGAGTTCCTAAACTTGCAGGTCCGTTCATACTATCGGCAGCAGCATTTATACTGGCGGGTCTAGTTCTTTTTGTTATGCTTCGTCCAGATCCGTTAATTATTGCTAACATAATAGAAAGATATAAACAGGAACATACATATAAAGGGCAACCAGTAACAGAAGAAGCGAAAGAAAATAAACGAGGTATTACAGTTGGAGCAATCGTAATGATACTTACGCAAATAGTGATGGTTGCGATTATGACGATGACACCAGTTCATATGGGACACCACGGTCACGGTTTAAGTGCAGTAGGACTTGTGATAGGTTTTCATGTAGGTGCAATGTATCTTCCATCTCTCGTTACAGGAATGTTAATTGATAAAATTGGCCGAACTACAATGAGTATAGCTGGTGGAGTGATTTTACTTGCAGCGGGTGTCATAGCTGCGATAGCGCCAAGTGATTCTTTATTATTATTAATCGTTGCTCTTTCTTTACTTGGGCTAGGATGGAACCTCGGATTGATAAGTGGTACAGCACAAATCGTTGATTCCACAACACCGTCTACACGTGCTAAAACACAAGGGAAAATAGATGTTTTTATTGCGCTAGCTGGAGCTTCTGGTGGAGCGATGTCAGGTATGGTAGTAGCGAATTCAAGTTATGCGGTATTGTCATTGGCTGGAGGCGTGTTAGCGTTATTACTTATTCCTGTTGTGATATGGTCTCGAAAAGGGGCAAGAAATTAA	MLDKAGALIDNHVYTEEEQQKLYKRTLIIVSISQMFGGAGLAAGITVGALLAQQMLGTDAFAGLPTAMFTLGSALAAFIVGKLSQRYGRRIGLATGFIVGGFGAIGVVMAALTNSIILLLISLLIYGAGTATNLQARYAGTDLADKKQRATAVSITMVMTTFGAVAGPNLVGVMGSFAHSIGVPKLAGPFILSAAAFILAGLVLFVMLRPDPLIIANIIERYKQEHTYKGQPVTEEAKENKRGITVGAIVMILTQIVMVAIMTMTPVHMGHHGHGLSAVGLVIGFHVGAMYLPSLVTGMLIDKIGRTTMSIAGGVILLAAGVIAAIAPSDSLLLLIVALSLLGLGWNLGLISGTAQIVDSTTPSTRAKTQGKIDVFIALAGASGGAMSGMVVANSSYAVLSLAGGVLALLLIPVVIWSRKGARN				NA	NA	NA	NA	NA
AK009_00514	984	fabHB	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 2	ATGCATTCTAAATCTCGTATTACTGCAATTGGTACTTATGTTCCAAATCAAATATTGTCTAATAACGATTTAGAAAAGATGGTCCATACGAATGATGAATGGATTGTACAAAGAACAGGAATGAAGGAAAGAAGAATCGCTAGCGAAGAAGAATATTCCTCAAACTTAGCCATTAAAGCAATTAAAAATTTATGTACAACATATAAGAAAAACTTAGAAGATGTCGACTGTATCATTGTCGCTACTACTACTGCTGATTACGTTTTCCCTAGCGTTGCTTGCCAAATACAACAATACTTCAACATACCTCATACACTAGCTTTTGATTTAAATGCAACTTGTGCTGGTTTTACATATGGACTACACGTCGGTAATAGCTTAATCACTTCTGGATCACATAAAAAAGTACTTGTCGTAGCGACAGAGACATTATCTAAAGTTACTGATTATACCGATAGAACGACCTGTATTTTATTCGGTGATGGTGCTGGAGCTATTTTATTAGAAAGAGATGAAGACACCCCAAGCTTTATCGCTGCTCACATGGGAACAAACGGTGATGGCGGCATTCATCTATATAGAACAAACTTATCTACTACTATGAATGGCACACCACTGCAAACAAATGAAAAAATCGTTCAAAATGGAAGAGAAGTATATAAATGGGCAACACGTACAGTGCCAAAAGGCATAAAAGATTTAATACATACCGCAAATATGCCAGTAGATGATATAGACTGGTTCATACCCCACAGCGCTAACTTACGAATGATCGAATCTATTTGCGAAAAATCTCAAATTTCAATACAAAAAACATTAACGAGCGTGGAATATATGGGGAATACCTCTTCAGTCACCATTCCACTCGCTCTAGATTTAGCTATAAAAGAAGGGAAGTTAAATAATGGAGACACACTTTTACTATACGGATTCGGTGGTGGTCTTACACATTTAGGGCTTATTGTAGAGTGGAATTTAATTTAA	MHSKSRITAIGTYVPNQILSNNDLEKMVHTNDEWIVQRTGMKERRIASEEEYSSNLAIKAIKNLCTTYKKNLEDVDCIIVATTTADYVFPSVACQIQQYFNIPHTLAFDLNATCAGFTYGLHVGNSLITSGSHKKVLVVATETLSKVTDYTDRTTCILFGDGAGAILLERDEDTPSFIAAHMGTNGDGGIHLYRTNLSTTMNGTPLQTNEKIVQNGREVYKWATRTVPKGIKDLIHTANMPVDDIDWFIPHSANLRMIESICEKSQISIQKTLTSVEYMGNTSSVTIPLALDLAIKEGKLNNGDTLLLYGFGGGLTHLGLIVEWNLI	PGPT0008355_4568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
AK009_00515	1260	hflX_1	COG2262	GTPase HflX	ATGGAAGAAGTATTACAAAGAGCAGTTTTAGTTGGAGTAAATGTAGGTAATGAAGATGATTTTGCATATTCGATGGAAGAGTTAACAAATCTTGCGGAAGCTTGTGATGTAGAGGTAATTGGGCAAGTAACGCAAAATTTACAACGAGTAAATCCATCGCATTATATCGGAAAAGGAAAGATTGAAGAAGTAGCAGCGTATGTACAAGAAATAGATGCGAATATGGTCATCTTTAATGATGAATTATCTCCTTCACAAATTCGAAATTTAGAAGAGGATTTAGATTGTAAGGTAATTGATCGTACCATTTTAATTTTAGATATTTTTGCGCAACGTGCGAAAACGAAAGAAGCACAGCTACAAGTAGAAGTAGCCCATCTTCAGTATATGATGCCTCGTTTAATCGGTCTTCGTGAATCGTTAGGAAGACAGAGCGGCGGCGTTGGTACGAAAAATAAAGGTGTCGGTGAGAAGAAGTTAGAGTTAGACCGTCGTAAAATTGAAGAACAAATTTCAGTTTTAAATAAAGATTTAGAAGCGCTCGTTGCCCAGCGTCAAACGCAGCGAAAGCAACGTAAGAAAAATGAAATACCTGTTGTAGCATTAGTAGGTTATACGAATGCAGGAAAGTCAACGACGATGAATGCAATGCTTGAAATTTATAATGGTACAGAAGAAAAACAAGTATTTGAAAAAGATATGTTATTCGCGACGTTAGAAACATCTGTACGAAATATTGATTTGCCAGATAATAAATCATTCTTATTAACAGATACAGTTGGATTTGTAAGTAAATTACCACATCATCTTGTGAAGGCGTTCCGTTCAACGTTAGAAGAAGTAGCGGAAGCAGACCTACTTATTCACGTCGTAGATTACGCAAATTCAAATTATGAACAATTAATTGATATTACAAATGAAACGTTAAAGAAAATTGGAGTAGAAAATATTCCAACGATCTATGCTTATAATAAATCAGATATGGTAGATGTTGAAATTCCGAAAGTGCAAGAAGATCGCGTTTATTTATCAGCGAAGAAACATGTTGGAATTGAAGAACTTGTAGAAATGATTCGCTCACACATCTATAAAGAGTATACGAAGTGTGAAATGTTAATTCCATATGATCAAGGACAGGTAGTTTCGTATTTCAATAATCATGCACACGTTTTATCTACGAGTTACGAAAACGAAGGTACCAAATTAGAAATAGAATGTAAGACGAGTGATTACGAGAAGTATAAGCATTTTGCAATTTAA	MEEVLQRAVLVGVNVGNEDDFAYSMEELTNLAEACDVEVIGQVTQNLQRVNPSHYIGKGKIEEVAAYVQEIDANMVIFNDELSPSQIRNLEEDLDCKVIDRTILILDIFAQRAKTKEAQLQVEVAHLQYMMPRLIGLRESLGRQSGGVGTKNKGVGEKKLELDRRKIEEQISVLNKDLEALVAQRQTQRKQRKKNEIPVVALVGYTNAGKSTTMNAMLEIYNGTEEKQVFEKDMLFATLETSVRNIDLPDNKSFLLTDTVGFVSKLPHHLVKAFRSTLEEVAEADLLIHVVDYANSNYEQLIDITNETLKKIGVENIPTIYAYNKSDMVDVEIPKVQEDRVYLSAKKHVGIEELVEMIRSHIYKEYTKCEMLIPYDQGQVVSYFNNHAHVLSTSYENEGTKLEIECKTSDYEKYKHFAI	PGPT0007245_3578	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
AK009_00516	1212	fsr		Fosmidomycin resistance protein	ATGCAGGCAGTTTCACACAAAAAAACTGTAGAAACACCGACAATATATCGAATTTTATTTGCGATTAGCTTTGGGCATTTTTTAAATGATTCGATGCAAGCAGTTGTGCCGGCGTTGTTTCCTATTTTGGAAAAAACGATGAATTTATCCTATATGCAAGTAGGGTGGATTGCGTTTGCTTTAAATATGACGTCATCGATTATGCAACCGGTGTTTGGTATGTATTCAGATAAGAAGCCATCACCATTTTTATTACCACTCGGTATGTTTTCAAGCATGCTTGGAATGATTGGACTCGCGTTTGCACCAAACTTTATTATTGTTATTATTTCTGTTTTATTTATTGGTTTAGGTTCCGCAGTTTTTCATCCAGAAGGCGCTCGTGTTGCGTATATGGCGGCAGGTGCAAAACGAGGGTTAGCGCAAGCGATTTATCAAGTTGGGGGAAACACGGGGAATTCCTTAGCTCCTATTTTTACAGCGCTAATTTTCGTTCCACTCGGTCAAATTGGTTCATTAGGTTTTACAGCATTTGCAGCAGTAGGAATTGTATTATTAATTTTCGTATCGAATTGGTACAAAAATGAATTAGCAACCGGCGCTGTAAGAAGGAAGAAGAGGGCTGCGCTTGAGGCGGAAAATGCAATTGTAAGTACACACATTAAATTCGTTATTATACTTCTTGTTTTTCTTACTTTTGTACGTTCTTGGTACGGTGCTGGTATCGGGAATTTCTATCAATTTTACTTAATAGAGCATTATGGTTTATCTATAAAAAATGCCCAGTATTTCGTATTCGCATTTATGATTGCTGGTGTGTTAGGAACTTTCTTCGGAGGACCGTTAGCAGATCGATTTGGTAAGAAAAATATCATCGTATTTTCAATGTTAGGTTCAGCGCCACTTGCACTGTTATTACCACATGTCTCACTTGTGTGGGTCGTACCGTTATTTTTATGTATCGGTTTTATTAGTTCAAGTAGTTTTAGTGTAATTGTTGTATATGCACAAGAGCTTGTACCTGGAAAAGTGGGAATGGTGTCAGGATTAATCGTAGGTCTTGCGTTTGGACTTGGAGCATTAGGTGCAGTAGTTCTTGGGAAATTAGCAGATATATATAGCCTGCAATTTATTATGCTATTATGTAGTTGTCTACCATTAATTGGACTCACTTCATGGTTACTGCCAAGTGATAAGAAAACGATAGAATAG	MQAVSHKKTVETPTIYRILFAISFGHFLNDSMQAVVPALFPILEKTMNLSYMQVGWIAFALNMTSSIMQPVFGMYSDKKPSPFLLPLGMFSSMLGMIGLAFAPNFIIVIISVLFIGLGSAVFHPEGARVAYMAAGAKRGLAQAIYQVGGNTGNSLAPIFTALIFVPLGQIGSLGFTAFAAVGIVLLIFVSNWYKNELATGAVRRKKRAALEAENAIVSTHIKFVIILLVFLTFVRSWYGAGIGNFYQFYLIEHYGLSIKNAQYFVFAFMIAGVLGTFFGGPLADRFGKKNIIVFSMLGSAPLALLLPHVSLVWVVPLFLCIGFISSSSFSVIVVYAQELVPGKVGMVSGLIVGLAFGLGALGAVVLGKLADIYSLQFIMLLCSCLPLIGLTSWLLPSDKKTIE				NA	NA	NA	NA	NA
AK009_00517	918	cysK_1		Cysteine synthase	ATGAAATTATGTGAAAACGTAACAGAATTAATAGGCGATACACCTGTCGTCCGATTATCTAAATTTATTCCGGAAGACGCAGCAGATGTGTATGTGAAACTAGAAATGTTTAATCCATCGCGCAGTGTGAAAGACCGTGCTGCTTATAATTTACTTCACGTTGCAGAAGAAAATGGTCTCATCAAACCAGGAGATACAATCATTGAACCGACAAGCGGGAATACAGGGATTGGTTTAGCGATGAATGCAGCAGCTAAAGGGTATAAAGCGATTTTAATTATGCCAGACAATATGTCAAAAGAGCGTATTAATTTATTAAAAGCATACGGGGCAGAAGTAGTTTTAACACCAGCAGAACAAAGAATGCCAGGAGCAATTGCGAAGGCGTTAGAATTGCAAAAGCAAATACCGAATAGTTTTATTCCGCAACAATTTGAAAACCCAGCTAATCCGAATATTCACCGCTATACGACTGCGCTTGAAATTTATGAACAAATGGATGGAGAGCTTGACGCCTTTGTTGCAACGGCAGGAACAGGCGGAACGATTACAGGGACTGGTGAAACGTTAAAAGAGAAATTACCAAACTTATATATTGCAGTAGTGGAACCGAAAGGATCTCCCGTTTTATCAGGTGGTGTACCAGGTCCTCATAAACTAGTAGGAACAAGCCCAGGGTTCATCCCGAAAAACTTAAATATAGAAGTGTATAACGAAATTATTCAAATTGCAGACGAAGAGGCTTTAACGACAATGAGAAACTTAGCTAGACAAGAGGGATTATTAGTTGGGCCGTCTTCTGGAGCATCTGTTTACGCTGCAATCATGATAGCGAAACGTCTAGGCGCTGGTAAAAAAGTTTTATGTATTGCGCCTGATACAGGGGAACGTTATTTGAGTATGGGGTTATTTGAATAA	MKLCENVTELIGDTPVVRLSKFIPEDAADVYVKLEMFNPSRSVKDRAAYNLLHVAEENGLIKPGDTIIEPTSGNTGIGLAMNAAAKGYKAILIMPDNMSKERINLLKAYGAEVVLTPAEQRMPGAIAKALELQKQIPNSFIPQQFENPANPNIHRYTTALEIYEQMDGELDAFVATAGTGGTITGTGETLKEKLPNLYIAVVEPKGSPVLSGGVPGPHKLVGTSPGFIPKNLNIEVYNEIIQIADEEALTTMRNLARQEGLLVGPSSGASVYAAIMIAKRLGAGKKVLCIAPDTGERYLSMGLFE	PGPT0002810_6943	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
AK009_00518	513			hypothetical protein	ATGAAACTATTAAAACCAATCCATGAATATAGTGAGCATATTACGGCGTATAGACAGGCATTTTTACAATCAGGGGAACAACCACATGGAAGTAGTTCTTTACAAAACTTTGATTCTCTTGATGAATGGTTTGAAAAAGTGAGTAAACAAGAACTAGGAGAAAATATACTAGCTAATCGAGTGCCATCTAGCCAGTTTTTAAGTTTTGAAAAAAGGGAACTTATAGGTTTTGTGAATATTAGACATAGATTAAATCCAGAATTATTACGGGAAAGCGGTCATATTGGATATAGTGTCCATCCAAATAAGCGTCGCCACGGTTACGCTACGAAACAACTACAACTTGCATTAGCTGAAGCACAAAAATTAGGATTACAGAAAGTGTTAATAACTTGCGATAAATCCAATATCGGTTCTGCTAAAACGATTCAAAAGGTTGGCGGTGTGTTAGAAAATGAAGTAGTTTCTTCTCGTACTGGTGAAGTTATTCAGCGCTATTGGATAGAAATATGA	MKLLKPIHEYSEHITAYRQAFLQSGEQPHGSSSLQNFDSLDEWFEKVSKQELGENILANRVPSSQFLSFEKRELIGFVNIRHRLNPELLRESGHIGYSVHPNKRRHGYATKQLQLALAEAQKLGLQKVLITCDKSNIGSAKTIQKVGGVLENEVVSSRTGEVIQRYWIEI				NA	NA	NA	NA	NA
AK009_00519	870			hypothetical protein	ATGAAAAGTAAGGGGATTACTGCAATTTTAGGAGGAAATGAATTGGGATTAAAAGAGAAAGCAATAGAGATGGCAGAGATTTATAGGAAAAATCCGAAAGTGGAAGCTATTATTTTAGCGGGTTCAGTAGCTAGAAAACTTGAAGATGAACATTCAGATATAGAATTACATATTTTATGGTCAACACCGCCGGAAGATGAGGATCGTAGGGCCCCTATTTATCATATTGATGGGAAAATATTATCGTATCATCCGTATGAGGAAGAAGAATGGTCGGAAACGTATTTAACGAAAGAGGGAATTAAATTAGAGATTAGTAACTTTTTAACAGAGACAGTAGAGAAAGTGATTTCGGATGTGGTGGATCAATATGATATAAGTTATGAAAAACAATGTATTGTATCATCTGTTCATGATGGTGTTAGTTTGTATGGAGAAGGGAAAGTGAATGAATTAAAAGATAGAGTAGCGGCATATCCAGATGAACTAGCAAAACGGATGATTTCAGAAAATCTATGGTTAAGTAATCGTTGGCACAATCGAAAGGCGCTTTTAAAACGGAAAGATTGGCTTATGCTTTATGACGTTATTTGTGAAGTACAAAGGAATGTATTTGGTGTTTTATTTGGTTTGAATAAAATGTACGTACATCATCCAGCGTTTAAATGGATGCCTAATAATGTGGAACGAATGACTATTAAACCTGAAAAATTATATAAACGTATGGCAGATACATTAATAGGGAGTCCAGAAAATAGTGTGCAGGAGTTAGAGTTGCTAATAGAAGAAGTATTGCAACAAGTTCATACATACGCGCCAGGAGTAAATGTGGATGAGCAAGAAAAATCTATTTTTTATTTTGTGAAATAG	MKSKGITAILGGNELGLKEKAIEMAEIYRKNPKVEAIILAGSVARKLEDEHSDIELHILWSTPPEDEDRRAPIYHIDGKILSYHPYEEEEWSETYLTKEGIKLEISNFLTETVEKVISDVVDQYDISYEKQCIVSSVHDGVSLYGEGKVNELKDRVAAYPDELAKRMISENLWLSNRWHNRKALLKRKDWLMLYDVICEVQRNVFGVLFGLNKMYVHHPAFKWMPNNVERMTIKPEKLYKRMADTLIGSPENSVQELELLIEEVLQQVHTYAPGVNVDEQEKSIFYFVK				NA	NA	NA	NA	NA
AK009_00520	576			hypothetical protein	ATGGGTTTTTTTAATAGGTTTTTTAAAAAAGTTGAAAAAGTAAATGAGCAAGAGGCCACTCTTCATGAATTAAGTGAAGAATTGTATGTTGAATCACCGGTAGAGGAAGCGACTAGTTACTGGGTATCAATGGCACAAAATATAATTATTAATGCTGTAAAGGCAGCTGACAATGATGTGGAACGTGCCTTCGTATTATTGAATTTGAAGAAAGGTGAGGCTTCATTTGATATTTTTTATCAAATAAATGGGCAATTGTATTTCTGGGATCAGCTAGAAAATGAGAAGATAAAAAATAGAATTCAGAACGAGTTGTTACCGCAAGCTCCAGAAGTTTCAAATGCAGTAAATGAGCAATTTCGTGAAGCTGATCACCCTATAATTTCGTTCGCACAATTGCAGTTTGAATGGGAAACGAAAGCCTGGTTCTCACATATAATTTGGGAAGATAACCTTGCTGCTCAATTGCCAAAAACTCAAATTTTAAATGAATGGTTTCGTGTAATTAAAGAAGAAACGAAAAATAGACCACTGGATAGTGATGCGAAATTTTCTTGGTATCCATCAAACTCTTAA	MGFFNRFFKKVEKVNEQEATLHELSEELYVESPVEEATSYWVSMAQNIIINAVKAADNDVERAFVLLNLKKGEASFDIFYQINGQLYFWDQLENEKIKNRIQNELLPQAPEVSNAVNEQFREADHPIISFAQLQFEWETKAWFSHIIWEDNLAAQLPKTQILNEWFRVIKEETKNRPLDSDAKFSWYPSNS				NA	NA	NA	NA	NA
AK009_00522	1338			hypothetical protein	ATGAATTCACAGCAATGGACATCGAAATTAGGTTTCGTATTAGCTGCAGCAGGTTCGGCAATTGGTCTTGGGGCGATTTGGAAATTCCCATATATGGCCGGCATTGGAGGAGGCGGAGCATTCTTCCTAATTTTCATCGGTTTCACATTATTAATTGGTTTACCGCTATTATTAGCTGAATTTGTTATTGGAAGAAGTACACAAAAAGAGGCTGTCGATGCATATAGAGAGATTGCTCCTAAAACGTTATGGCCTTGGTTAGGTAAATTAGGAATTGTAACATGTTTCATATTACTTTCTTTCTACAGTGTTGTAGGAGGCTGGATTTTATTATATTTATGGAATGCAATTACAGGTAGACTATGGGAAGGAAATGGAGCATACGAAGCTACGTTTGGTGAAATCATTTCCAATCCATATTTAGCAGTTGGATCACAGCTATTATTCATCCTTATTACTATTTTCATCGTAAGTAAAGGTGTACAAAATGGTGTTGAAAAAGTAAATAAATATTTCATGCCAGCACTATTCGTTTTATTCTTTGTATTAATCGTTCGTGCACTTACATTAGATGGTGCTGGAGAAGGCGTTCGTTTCTTCTTACAACCTGATTTCTCACATGTAACATCAGAAGTTATATTATACGCAATGGGGCAATCGTTTTTCTCATTATCTGTCGGGGTAGCCGTTATGGTAACGTATAGCTCATACTTACCGAAAGAAGAAAGCTTACCACGTTCAGCATTTTCTATCGTAGCCTTAACTCTTGTTATTACATTACTTGCAGGACTTGCAATTTTCCCAGTTGTGTTCGCATTTGGAATGGAACCATCTCAAGGGCCGGGACTATTATTTATCGTGTTGCCAGCTATTTTCAGTAAAATGGCATTCGGAAAATTATTCTTCATCGTTTTCTTATTACTATTCTTCTTCGCTACGATTACATCAGCAATTTCGATGTTAGAAATTAGTGTTGCATCGTTAACATCAAAAGGTAAAGGGAAACGTGAAAAAATGGCCTTAATCGTAGGGTTATTAATCTTCGTTGTTGGGGTACCATCAGCATTATCATTCGGTATATTAAGTGATCTGAAGATTTTCGGAAAGACAGTCTTTGATTTAGCGGACTATGCAGTAAGTAACGTTTTAATGCCACTTGGTGTATTATTAGTTTCTATCTTTGTTCCTTTAAAAATGAAGAAAGATGTATTAATGAAAGAGCTAGGTGTAAGTAAAAATAAAGGTTATAAACTATTCGTATTATGGTTATTCTTACTTCGCTTTATGGCACCAATTGCGATTATTATCGTATTCTTAAATGTACTTGGCATTATATAA	MNSQQWTSKLGFVLAAAGSAIGLGAIWKFPYMAGIGGGGAFFLIFIGFTLLIGLPLLLAEFVIGRSTQKEAVDAYREIAPKTLWPWLGKLGIVTCFILLSFYSVVGGWILLYLWNAITGRLWEGNGAYEATFGEIISNPYLAVGSQLLFILITIFIVSKGVQNGVEKVNKYFMPALFVLFFVLIVRALTLDGAGEGVRFFLQPDFSHVTSEVILYAMGQSFFSLSVGVAVMVTYSSYLPKEESLPRSAFSIVALTLVITLLAGLAIFPVVFAFGMEPSQGPGLLFIVLPAIFSKMAFGKLFFIVFLLLFFFATITSAISMLEISVASLTSKGKGKREKMALIVGLLIFVVGVPSALSFGILSDLKIFGKTVFDLADYAVSNVLMPLGVLLVSIFVPLKMKKDVLMKELGVSKNKGYKLFVLWLFLLRFMAPIAIIIVFLNVLGII	PGPT0013950_2720	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK009_00523	705		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGAGGAAAAAAATTATCATTACAATCGTTACACTATTCTTTATTATCACGGCATTATTCGGAACATACAAATTGATGAACGCAAGAAGCTTTCAATTATTTGGAGATTTAACACAACGCGTAGAAACAAATGAAAAAGTGATCGCTTTAACTTTTGATGATGGCCCTACTAACAATGTAAAACAAATATTACCGTTACTAGATAAATACAACGCTAAAGCTACTTTCTTTTTAATTGGAAATGAATTAGAGAAAAGTCTATCATTAGGAGAAGCTATCGCGCAATCTGGGCACCAGCTTGGAAACCATACATATTCTCATAAAAGAATGATTTTCAAAACACCTTCTTTTATTAAAGATGAAATAGAAAAAACGAATTCATTAATCCGCCAAACAGGATTTACAGACGAAATTGATTTTAGACCGCCTAACGGAAAAAAATTAATTGGACTACCCTATTATTTAAATAAAAATAATATTGAAACGATTATATGGGATCTTGAGCCCGATACTTTTTATAAATCTGCGGCTGATAAAATTAAATATGTTAATAAAAATGTAAAACCAGGTTCTATCATTTTACTGCATTCTATGTATGATGAGTCTGATGACAATTTAAAAACGATTGAAGGTATTTTAGATTCTTTATCTAAGAAGGGCTATCAGTTCGTAACAGTAAATGAATTGCAAAAAAGAGCAAAATAA	MRKKIIITIVTLFFIITALFGTYKLMNARSFQLFGDLTQRVETNEKVIALTFDDGPTNNVKQILPLLDKYNAKATFFLIGNELEKSLSLGEAIAQSGHQLGNHTYSHKRMIFKTPSFIKDEIEKTNSLIRQTGFTDEIDFRPPNGKKLIGLPYYLNKNNIETIIWDLEPDTFYKSAADKIKYVNKNVKPGSIILLHSMYDESDDNLKTIEGILDSLSKKGYQFVTVNELQKRAK	PGPT0018645_4189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_00524	264			hypothetical protein	ATGAAATACGTAAAAGCTAATGCTGTTTTACCAGAGAGTTTAATTACTGAAATTCAAAAGTATATACAAGGTGAAACAATTTACATTCCGAAACAAGAAACGAAACATTATAAATGGGGTACACGATCTGGCGGAAGAAAACAACTAGATGAAAGAAATAAAGCAATTAAAGAAGCGTTTAAAAGTGGGATTGCTATTCATCAACTTGCAGAAGAATATTTTCTTTCTGGGGAAACGATTAAAAAGATTGTGTATTCTAAATAA	MKYVKANAVLPESLITEIQKYIQGETIYIPKQETKHYKWGTRSGGRKQLDERNKAIKEAFKSGIAIHQLAEEYFLSGETIKKIVYSK				NA	NA	NA	NA	NA
AK009_00525	687			hypothetical protein	ATGAATCATCTTGGACAAATAACGATAGAACTTTTTGTTGGTTTTTTTGTTTTATTAATTGCTACTAAAATATTAGGGAAAACACAAATATCGCAGCTAACACCTTTTGATTTTATTTCTGCCATTGTACTCGGAGAATTGGTTGGAAATACGATATATGACCCTGAAGTGAAAGTCTGGTCCATTTTATATGCGGTACTAGTATGGACAGTATTAATTTACGCAATAGAAGTGATAACGCAAAAATATAGGGGGACAAGAAGGTTTTTTGAAGGATATCCTTCTATTATTATTCGTAATGGATATATTGACAGAGATCAATTAAAATCGAATCATTTGGATATAAACCAATTACAACAAATGCTTAGGCAACAAAAAGATATATTTTCAATCCGAGAAGTTGAATATATGATATTGGAACCTAATGGAAACATAAGCGTTCTGAAAAAAAGTAAATACGAATCTCCTACTATAAATGATTTAAGTTTAAAACATAAGCCTGTCTACTTACCAATTTCATTAATTAGTGATGGGAAAGTAGTTAAGGATAATTTGAGGGAAGCAGGATTTGATGAAGGGTGGCTTTATAAACAAATAAAGCAAAAAGGAATTACTAAATTTGAAGACGTATTATATGCGGAATGGAAAACAGATGATGGCTTCTTTTGTCAGGAAATGCAGCGGTAG	MNHLGQITIELFVGFFVLLIATKILGKTQISQLTPFDFISAIVLGELVGNTIYDPEVKVWSILYAVLVWTVLIYAIEVITQKYRGTRRFFEGYPSIIIRNGYIDRDQLKSNHLDINQLQQMLRQQKDIFSIREVEYMILEPNGNISVLKKSKYESPTINDLSLKHKPVYLPISLISDGKVVKDNLREAGFDEGWLYKQIKQKGITKFEDVLYAEWKTDDGFFCQEMQR				NA	NA	NA	NA	NA
AK009_00526	642			hypothetical protein	ATGGAAGCGTTTATTAGAAGTGATCAATATAATTTTATAAAATCACAAGCTTATATTTTAGCAAACGGGCATGCAACGGCAAACGATAGAGGTGTAATTCAAGCGTTAAAATCACTTGCGATCGAAAAGATAATACATGTATTTGAGAATTTAACCGATGAACAGAAAGAGTTAATTGATACGGTATTAACAGTTCAAAATAGAGAAGATGCAGAATCATTTTTAATGAAAATAAATCCGTATGTAATTCCGTTTCAAGAAGTTACAGCACAAACATTAAAAAAATTATTTCCTAAAGCAAAAAAGCTAAAACTTCCCGATATGGAAGAACTGGATATGAAAGAATTATCTTATTTAAGCTGGATTGACAAAGGATCAAGCAGGAAATTTATTATAGCGAAAAATGATAAAAATAAGTTTGTTGGTCTGCAAGGAACGTTCCAAAGTTTAAATAAAAAAAGTATTTGTTCATTATGTCATGGGCATGAAGAAGTAGGGATGTTTTTAGTTGAAATTAAAGGTGATGTACCAGGAACTTTCGTTAAAAAGGGAAACTACATTTGCAAAGATGGTGTAGCTTGCAATCAGAATATGAAATCGCTAGATAAATTGAACGATTTTATTGAACGCTTGAAGAAATAA	MEAFIRSDQYNFIKSQAYILANGHATANDRGVIQALKSLAIEKIIHVFENLTDEQKELIDTVLTVQNREDAESFLMKINPYVIPFQEVTAQTLKKLFPKAKKLKLPDMEELDMKELSYLSWIDKGSSRKFIIAKNDKNKFVGLQGTFQSLNKKSICSLCHGHEEVGMFLVEIKGDVPGTFVKKGNYICKDGVACNQNMKSLDKLNDFIERLKK				NA	NA	NA	NA	NA
AK009_00527	888			hypothetical protein	ATGGATTACCTTTTATCGAGAGAAAAAGTGAAGCGATGGCCCAAAGATATGATAGCGGCGGGGCGTTGTCATACAGTTGGCCTGAAATCGGATGGCACGGTAGTAGCGGTGGGCCGGAATAAAGAAGGGGAATGTAATGTAAGTGGCTGGCGAGATATTGAAGCAGTCGCAGTGGGCAATGTTCATATGGCAACGAACACGGGTAATGCTCATACAATCGGTCTTACATGTGACAGTACTGCGGTAGCAGTGGGTTGGAATAAGCATGAACAATGTGATGTAAACGATTGGCATAAAATTGTAGCGGTTGCGGCAGGGTGGCGTCGTACTATTGGCCTGAAATCGGATGGCACGGTAGTAGCGGTGGGCCGAAATAAAGAAGGAGAATGCAATGTAAGCAGTTGGCAAGGTATTGTGGCAGTCACAGCGGGTGACTGGCATACAGTCGGTCTTAAATTGGACGGCACATTGACGACTGTGGGGAATAATCGATATGGTCAATGCAATGTAAGTAGCTGGCGAGGTATTGTAGCGGTCAAGGCTGGGTATCTTCATACTGTTGGTCTTAAACGAGACGGTACGGTGACGGCAGTGGGGAATGATAAACATAACCAGTGTGATGTAAGTGGCTGGATAGATATTGTAGCAATAGCGGCTGGTACGAATCATACAATCGGACTAAAATCAGACGGTACCGTGGTGGCAGTGGGCTGGAATGAGTATGGTCAATGTAACGTAAGCGATTGGCGCGATATTGTAGCGATAGCGGCTGGTTGTGCACATACAGTCGGACTAAAATCAGACGGCACGGTGGTAGCGGTAGGTAATAATGAATTTGGCCAATGCGATGTAGGTAGCTGGCGCGACATTCGGTCGCCTGGCAAATAG	MDYLLSREKVKRWPKDMIAAGRCHTVGLKSDGTVVAVGRNKEGECNVSGWRDIEAVAVGNVHMATNTGNAHTIGLTCDSTAVAVGWNKHEQCDVNDWHKIVAVAAGWRRTIGLKSDGTVVAVGRNKEGECNVSSWQGIVAVTAGDWHTVGLKLDGTLTTVGNNRYGQCNVSSWRGIVAVKAGYLHTVGLKRDGTVTAVGNDKHNQCDVSGWIDIVAIAAGTNHTIGLKSDGTVVAVGWNEYGQCNVSDWRDIVAIAAGCAHTVGLKSDGTVVAVGNNEFGQCDVGSWRDIRSPGK				NA	NA	NA	NA	NA
AK009_00528	201			hypothetical protein	ATGCTTAAAAGGTTTTTACTTTCTTTACCGGATGTTTTACTTATATGTATCGTTCTCTACATAACGTACACAAATTCTTTTAGTTTTGGACAGATGTTAGTAATTTCAATTGCAATCGGAATTATTGGTGGTCTTGCTATTAGAATTTGTAAGGATGTATTCACGTATATAAGGTGGACAATTAAACAAAGAAAAACTTGA	MLKRFLLSLPDVLLICIVLYITYTNSFSFGQMLVISIAIGIIGGLAIRICKDVFTYIRWTIKQRKT				NA	NA	NA	NA	NA
AK009_00529	537	msrA_1	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGTCCGAAAAAACATACGAACTCGCAACCTTCGCAGGCGGTTGCTTTTGGTGCATGGTAAAACCATTTGATGAACTTCCTGGTATTCATAAAGTACTTTCTGGCTATGCAGGAGGTCATGTAGAAAACCCAACATATGAACAAGTAAAAGTTGGAACATCTGGACATTTAGAAGTTGTTCAAATTACATTCGATCCTTCTATTTTTCCTTATCAGAAATTACTAGACTTATATTGGCCACAAATCGATCCCACTGATGATGGCGGACAATTTTTTGACCGTGGTCCATCTTATCGTACCGCTATTTTTTATCATAACGAAACACAAAAAGGGCTTGCTGAAAAATCAAAACAAGCTCTTACAGAAAGCGGTATGTTTAAAGATCCAATCGTGACTGAAATTCGTCCTGCTGCACCTTTTTACGCAGCAGAGGAATACCACCAACATTTCTATAAAAAGAATCCAGAGAAATATGCTACTGAGCAAAAGGAATCTGGTCGTGAAGACTTTATTAAAGAAAATTGGCAAAAAAAATAA	MSEKTYELATFAGGCFWCMVKPFDELPGIHKVLSGYAGGHVENPTYEQVKVGTSGHLEVVQITFDPSIFPYQKLLDLYWPQIDPTDDGGQFFDRGPSYRTAIFYHNETQKGLAEKSKQALTESGMFKDPIVTEIRPAAPFYAAEEYHQHFYKKNPEKYATEQKESGREDFIKENWQKK	PGPT0013065_4440	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
AK009_00530	759	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTAAAAGGGAAAGTAGCGTTAGTTACAGGAGCAAGCCGAGGAATTGGACGAGCGATCGCTAAACGTTTAGCAAATGACGGTGCATTGGTTGCTGTTCATTACGGTAATCGAAAAGATGACGCTGAAGAAACTGTTCATGAAATTCAATCAAATGGTGGCCAAGCTTTTTCTATCGGCGCAAATTTAGAATCCTTACATGGTGTAGAAAACCTTTATAAAGCTTTAGATACTGAATTACAAAAGCGCACTGGTGAAACACAATTTGATATTTTAATAAACAATGCTGGCATTGGTCCTGGTGCTTTTATTGAAGAAACGACTGAACAATTTTTTGATAGAATGTTTTCAGTAAATGCAAAAGCACCATTCTTTATCATTCAACAAGCACTGCCACGTTTACGTGACAATAGCCGAATTATTAATATTTCATCCGCTGCGACCCGCATTTCTTTACCTGATTTTGTTGCATATAGTATGACGAAAGGCGCTATTAATACAATGACTTTTACACTAGCAAAACAGCTTGGAGCACGAGGAATAACGGTGAATGCAATACTTCCAGGATTTATTAAAACAGATATGAATGCAGAACTCTTGAGCGACCCGATGATGAAGCAGTACGCTACTACTATTTCCGCTTTCAATCGCTTAGGTGAAGTAGAAGACATTGCCGATACTGCTGCATTCCTTGCTTCTCCAGACAGCCGCTGGGTAACTGGACAATTAATTGATGTGAGCGGAGGATCTTGTTTATAA	MLKGKVALVTGASRGIGRAIAKRLANDGALVAVHYGNRKDDAEETVHEIQSNGGQAFSIGANLESLHGVENLYKALDTELQKRTGETQFDILINNAGIGPGAFIEETTEQFFDRMFSVNAKAPFFIIQQALPRLRDNSRIINISSAATRISLPDFVAYSMTKGAINTMTFTLAKQLGARGITVNAILPGFIKTDMNAELLSDPMMKQYATTISAFNRLGEVEDIADTAAFLASPDSRWVTGQLIDVSGGSCL	PGPT0003180_10066	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
AK009_00533	900	ilvE_2	COG0115	Branched-chain-amino-acid aminotransferase	ATGGGAAACCAGTACATTTACATGAATGGGGAATTTGTAGAAAAAGAAAAGGCAGTTGTTTCAGTATATGATCACGGCTTTTTATACGGAGACGGTGTATTTGAAGGGATTCGTAGTTACGGAGGAAATGTATTTTGTTTAAAAGAACATGTAAAACGATTATATGAATCGGCAAAATCTATTTTACTTACAGTCCCACTGACAGTTGACGAAATGGAAGAAGCAGTTTTACAAACGTTGCAAAAAAATGAGTATGCGGATGCTTACATTCGTTTAATTGTTTCACGAGGAAAAGGTGACTTAGGGCTCGACCCTAGAAGTTGTGTGAAACCGAGCGTTATTATCATTGCAGAACAATTAAAGTTATTCCCTCAGGAATTTTACGATAATGGATTAAGCGTTGTATCTGTTGCATCAAGACGTAATACGCCAGATGCATTAGATCCACGCATTAAGTCAATGAACTACTTAAATAACGTACTTGTAAAAATTGAAGCGGCACAAGCAGGAGTGTTAGAGGCTCTTATGTTAAATCAACAAGGATATGTTTGTGAAGGTTCTGGCGATAATGTTTTCGTTGTGAAAGATGGAAAAGTATTAACCCCACCATCCTATTTAGGAGCATTAGAAGGTATTACGAGAAATAGTGTTATCGAGCTATGTGAACGACTGAGTATTCCATGTGAGGAAAGACCATTCACTCGCCATGATGTATATGTAGCGGATGAAGTATTTTTAACAGGAACAGCAGCGGAGTTAATTCCAGTTGTAAAAGTTGATTCGAGAGAAATTGGAGATGGGAAACCAGGAAGTGTAACGAAACAATTGACCGAAGAATTTAAAAAATTAACGAGAGAAAGAGGAGTACGTGTTCCCGGGCTGACGGAAAGCTTAGCATAA	MGNQYIYMNGEFVEKEKAVVSVYDHGFLYGDGVFEGIRSYGGNVFCLKEHVKRLYESAKSILLTVPLTVDEMEEAVLQTLQKNEYADAYIRLIVSRGKGDLGLDPRSCVKPSVIIIAEQLKLFPQEFYDNGLSVVSVASRRNTPDALDPRIKSMNYLNNVLVKIEAAQAGVLEALMLNQQGYVCEGSGDNVFVVKDGKVLTPPSYLGALEGITRNSVIELCERLSIPCEERPFTRHDVYVADEVFLTGTAAELIPVVKVDSREIGDGKPGSVTKQLTEEFKKLTRERGVRVPGLTESLA	PGPT0008860_6014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK009_00534	1716	ilvB_2	COG0028	Acetolactate synthase large subunit	ATGAAGCAGCAGTATACAGCGTATGAGAAGTTACAGTGTGAAGAAATGACAGGCGCTGGGCACGTGATTCAATGTTTGAAGAAATTGGGTGTAACGACCGTTTTCGGCTATCCAGGCGGAGCGATCTTACCAGTATACGATGCGTTATACGAAAGTGGTTTGAAACATGTTTTAACTCGTCATGAACAAGCTGCCATTCATGCGGCTGAAGGATATGCGAGAGCTTCTGGAAAGGTCGGGGTAGTCTTTGCTACCTCTGGCCCAGGGGCGACAAATTTAGTTACCGGCTTAGCAGACGCTTATATGGATTCGATTCCTTTAGTTGTCATTACCGGCCAAGTTGCAACGCCTTTAATTGGTAAAGATGGATTTCAAGAAGCGGATGTTGTCGGAATTACAGTACCTGTTACGAAGCATAATTACCAAGTTCGTGATGTAAATCATGTATCACGAATTGTGCAAGAAGCTTTTTACATCGCCGAAAGCGGACGCCCGGGACCAGTATTAATCGATATTCCAAAAGATGTTCAAAATGCAAAAGTCACCAGTTTCTTTAATGAAGAAGTTGATATTCCGGGGTACAAACCAGAACTTGTACCAGACAGCATGAAACTTAGAGAGGTAGCTAAAGCAATTTCAAAATCAAAGCGTCCGCTTCTTTATATTGGGGGAGGTGTCATTCATTCAGGTGGATCCGATGAACTTTTTGAATTCGCAAGGGAGAACCGTATTCCAGTCGTTTCAACTTTAATGGGACTTGGTGCATATCCACCGGGAGATCCATTGTTTTTAGGGATGCTTGGTATGCATGGGACATACGCTGCTAATATGGCGGTAACAGAATGTGATTTACTACTTGCATTAGGTGTTCGCTTCGATGATCGTGTAACAGGAAAATTAGAACTTTTTTCTCCGCACTCGAAAAAAGTACATATTGATATTGATCCTTCTGAGTTTCATAAAAATGTAACTGTAGAGCATCCCATTGTTGGTGATGTGAAAAAAGCGTTACACATGTTGTTACATATGTCTATTTATACACAAACAGACGAATGGCTTCAGAAAGTAAAGGCATGGAAAGAAGAATATCCACTTTCTTATAAGCAAAAAGAATCTGAGTTAAAACCACAGCATGTGATCAACTTAGTAAGTGAATTAACGAATGGTGAAGCGATTGTCACAACAGAAGTAGGACAGCATCAAATGTGGGCTGCTCACTTCTATAAAGCAAGAAAACCTCGGACGTTCCTTACCTCTGGAGGATTAGGAACGATGGGGTTTGGTTTTCCAGCAGCAATTGGTGCTCAGCTAGCTAAAAAAGAAGAACTTGTCATTTGTATTGCAGGTGATGCTTCTTTTCAAATGAACATTCAAGAACTACAAACAATTGCTGAAAATAACATCCCTGTAAAAGTATTTATCATAAATAACAAATTTTTAGGGATGGTAAGGCAATGGCAAGAAATGTTTTATGAAAATCGTTTATCAGAATCAAAAATTGGATCGCCAGATTTTGTGAAAGTGGCAGAAGCTTATGGAGTGAAGGGATTAAGAGCGACAAATTCAACAGAGGCGAAACAAGTGATGTTAGAAGCATTTGCTCATGAAGGTCCTGCCGTAGTTGATTTTTGTGTAGAAGAAGGTGAAAACGTATTTCCGATGGTTCCGCCAAACAAAGGGAATAACGAAATGATTATGAAGAGGTGGGAAGAATGA	MKQQYTAYEKLQCEEMTGAGHVIQCLKKLGVTTVFGYPGGAILPVYDALYESGLKHVLTRHEQAAIHAAEGYARASGKVGVVFATSGPGATNLVTGLADAYMDSIPLVVITGQVATPLIGKDGFQEADVVGITVPVTKHNYQVRDVNHVSRIVQEAFYIAESGRPGPVLIDIPKDVQNAKVTSFFNEEVDIPGYKPELVPDSMKLREVAKAISKSKRPLLYIGGGVIHSGGSDELFEFARENRIPVVSTLMGLGAYPPGDPLFLGMLGMHGTYAANMAVTECDLLLALGVRFDDRVTGKLELFSPHSKKVHIDIDPSEFHKNVTVEHPIVGDVKKALHMLLHMSIYTQTDEWLQKVKAWKEEYPLSYKQKESELKPQHVINLVSELTNGEAIVTTEVGQHQMWAAHFYKARKPRTFLTSGGLGTMGFGFPAAIGAQLAKKEELVICIAGDASFQMNIQELQTIAENNIPVKVFIINNKFLGMVRQWQEMFYENRLSESKIGSPDFVKVAEAYGVKGLRATNSTEAKQVMLEAFAHEGPAVVDFCVEEGENVFPMVPPNKGNNEMIMKRWEE	PGPT0008185_4992	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
AK009_00535	231	ilvH_2	COG0440	Acetolactate synthase small subunit	ATGAATCATACTTTTTCACTCGTTATTCATAACGAGCCAAGCGTCTTATTACGTATAAGTGGGATTTTTGCTCGGCGTGGTTATTATATTTCTTCTTTACATTTAAATGAAAGAGATACAAGTGGTGTTTCTGAAATGAAACTCACAGCAGTTTGTACTGAAAATGAAGCGACATTACTTGTTAGTCAGTTGAAAAAATTAATTGATGTACTGCAAGTAAATAAATTATAA	MNHTFSLVIHNEPSVLLRISGIFARRGYYISSLHLNERDTSGVSEMKLTAVCTENEATLLVSQLKKLIDVLQVNKL	PGPT0008205_4204	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
AK009_00536	1008	ilvC_2		Ketol-acid reductoisomerase (NAD(+))	ATGAAAACATATTATGAGAAAGATGCAAATGTAGAGTTATTACAAGGAAAAACTGTTGCAGTAGTTGGTTATGGATCACAAGGTCATGCGCAAGCACAAAATTTACGTGATTCTGGTGTAGAAGTTGTAGTTGGTGTTCGTCCTGGTAAGTCGTATGAAGTAGCGAAAGCAGATGGATTTGAAGTAATGTCTGTTTCAGAAGCGGTTCGAACCGCACAAGTTGTACAAATGTTATTGCCAGATGAACAGCAAGCTTATGTGTATAAAGCAGAGGTAGAAGAGAATCTTCGTGAAGGACAAATGTTACTTTTCTCACATGGATTTAATATTCACTTCGGACAAATTACCCCGCCAAGTTACGTAGATGTAGCGATGGTCGCGCCAAAAAGTCCAGGTCACCTCGTTCGTCGTGTATTTCAAGAAGGAAATGGTGTTCCGGCATTAGTGGCAGTACATCAAGATGCAACAGGAACAGCATTAAGTTTAGCTCTTGCGTATGCAAAAGGTGTAGGCTGTACACGTGCAGGCGTAATTGAAACGACATTCCAAGAAGAAACAGAGACGGATTTATTCGGAGAGCAAGCAGTGCTTTGCGGCGGGGTAACTGCGCTTGTGAAAGCTGGTTTTGAAACATTAACAGAAGGTGGATATCGACCTGAAATTGCATACTTTGAATGTTTGCATGAATTAAAGTTAATTGTTGATTTAATGTACGAAGGCGGTTTAACGAATATGCGCCATTCTATTTCAGATACGGCAGAGTTCGGAGATTATGTAACAGGATCGAGAATTGTTACAGATGAAACGAAGAAGGAAATGAAGCGTGTTTTGACAGAAATTCAGCAAGGTGAATTTGCGAAGAAATGGATTTTAGAAAATCAAGCAGGGCGTCCAACGTATAATGCGATGAAAAAAGCAGAGCGAAATCATCAGTTAGAAAAAGTAGGGGCAGAGCTTCGTGAAATGATGAGCTGGATTCATGCACCGAAAGAATTAGTGAAAAAATAG	MKTYYEKDANVELLQGKTVAVVGYGSQGHAQAQNLRDSGVEVVVGVRPGKSYEVAKADGFEVMSVSEAVRTAQVVQMLLPDEQQAYVYKAEVEENLREGQMLLFSHGFNIHFGQITPPSYVDVAMVAPKSPGHLVRRVFQEGNGVPALVAVHQDATGTALSLALAYAKGVGCTRAGVIETTFQEETETDLFGEQAVLCGGVTALVKAGFETLTEGGYRPEIAYFECLHELKLIVDLMYEGGLTNMRHSISDTAEFGDYVTGSRIVTDETKKEMKRVLTEIQQGEFAKKWILENQAGRPTYNAMKKAERNHQLEKVGAELREMMSWIHAPKELVKK	PGPT0008735_3627	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
AK009_00537	1674	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGAGAAGTGACATGATTAAAAAAGGTTTTGATAAAGCGCCGCACCGTAGTTTATTAAAAGCAACTGGTTTGAAAGATGAAGATTTTGATAAACCTTTCATAGCGATTTGTAATTCTTTTATTGAAATTATTCCAGGGCATAAGCACTTGAACGAGTTTGGGAAACTTGTAAAAGAGGCAGTTCGCGCGGCAGGTATGGTACCATTCGAATTCAATACGATTGGAGTTGACGATGGTATTGCGATGGGACATATCGGTATGCGTTATTCTCTTCCGAGTCGTGAAATTATTGCAGATTCAGTAGAAACGGTTGTAAATGCACACTGGTTTGACGGCATGATTTGTATCCCAAATTGTGACAAAATTACACCTGGTATGATGATGGCTGCACTACGTATTAACATTCCGACTGTGTTTGTTTCAGGCGGCCCGATGGCAGCAGGAAAAACATCTAAAGGAGAAGTTGTCGATTTAAGTTCTGTTTTTGAAGGAGTAGGAGCTTATCAATCTGGGAAAATTTCAGAAGAAGAATTAAAGGATATTGAAGATCATGGCTGTCCATCTTGTGGTTCTTGTTCCGGAATGTTTACGGCGAACTCTATGAACTGTTTATGTGAAGTGTTAGGTTTAGCTCTTCCTGGTAACGGGAGTATTTTAGCAATTGATCCAAGACGTGAAGAGTTAATTAAACAAGCAGCAGAGAAATTAAAAATTTTAATTGAAAGAGATATTAAACCAAGAGACATCGTAACGGAAGAAGCGATTGATGATGCGTTCGCGCTTGATATGGCAATGGGTGGATCAACGAATACAGTATTGCACACATTAGCTCTCGCACAAGAAGCGGGTTTAGATTACGATATGAATCGCATTGATGCCGTTTCAAGACGTGTACCACATTTATGTAAAGTAAGCCCTGCTTCCAATTGGCACATGGAAGATATTGATCGAGCGGGCGGGATTAGTGCAATTTTGAAAGAGATGAGCCGAAAAGAAGGGGTGCTTCATCTAGACCGAATAACGGCTACCGGGCAGACGTTAAGAGAAAACATTGCTCATGCAGAGATTAAAGATAAGGAAGTTATTCATTCTCTCGAAAACCCTCATAGTGAAGAAGGGGGATTACGTATATTAAAAGGAAACCTTGCGAAAGATGGAGCGGTTATTAAAAGCGGTGCAACAGAGGTAAAGCGTTTTGAAGGACCTTGCGTTATTTTTAATTCACAAGATGAGGCGCTTGCGGGCATTATGCTTGGAAAAGTGAAGAAAGGCGATGTAGTTGTTATTCGCTATGAAGGACCAAGAGGTGGCCCTGGTATGCCAGAGATGTTAGCGCCAACTTCAGCGATTGCTGGAATGGGATTAGGTGCAGATGTTGCGCTATTAACGGATGGTCGTTTCTCGGGTGCTTCACGTGGTATTTCAGTAGGACATATTTCACCAGAAGCAGCTGCGGGTGGAACGATTGCACTTCTTGAACAAGGGGATATTGTATGTATTGATGTTGAAGAACGCTTGCTAGAAGTAAGAGTTAGTGATGAAGAATTAGATAAGCGTAAAAAAGAATGGAAACGACCAGAAGCGAAAGTGAAAACTGGCTGGCTTGGACGTTATGCACAGATGGTAACATCGGCGAATACAGGTGCAGTTCTAAAAATCCCGGATTTTGATTGA	MRSDMIKKGFDKAPHRSLLKATGLKDEDFDKPFIAICNSFIEIIPGHKHLNEFGKLVKEAVRAAGMVPFEFNTIGVDDGIAMGHIGMRYSLPSREIIADSVETVVNAHWFDGMICIPNCDKITPGMMMAALRINIPTVFVSGGPMAAGKTSKGEVVDLSSVFEGVGAYQSGKISEEELKDIEDHGCPSCGSCSGMFTANSMNCLCEVLGLALPGNGSILAIDPRREELIKQAAEKLKILIERDIKPRDIVTEEAIDDAFALDMAMGGSTNTVLHTLALAQEAGLDYDMNRIDAVSRRVPHLCKVSPASNWHMEDIDRAGGISAILKEMSRKEGVLHLDRITATGQTLRENIAHAEIKDKEVIHSLENPHSEEGGLRILKGNLAKDGAVIKSGATEVKRFEGPCVIFNSQDEALAGIMLGKVKKGDVVVIRYEGPRGGPGMPEMLAPTSAIAGMGLGADVALLTDGRFSGASRGISVGHISPEAAAGGTIALLEQGDIVCIDVEERLLEVRVSDEELDKRKKEWKRPEAKVKTGWLGRYAQMVTSANTGAVLKIPDFD	PGPT0001875_4864	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
AK009_00538	1263	ilvA	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGGTGCAGAAGGTAAAGGAGAGAGTGAAAATTGAAGATATCTTAATGGCTCATAATTGCATGAAAGATATCGTTATTAAAACACCGTTACAACGTGATACAGTTTTATCTGAGAAATATGATTGTGACGTTTATGTAAAACGAGAAGACTTACAATTGATTCGCTCTTTCAAAATTCGTGGTGCGTACAATTTAATTCAAAGTTTATCAAAAGAACAATTACAAAACGGTGTTGTATGCGCGAGCGCTGGTAATCATGCGCAAGGAGTTGCTTATACGTGTAATTTATTGAAGATTGCGTCAAAAATCTTCATGCCGACGACAACACCTAAACAAAAAGTATCACAAGTACAATTTTTCGGTGGTGATTTTGCGGAAATCGTATTAGTTGGTGATACATTTGATAGCTCTTTCCAAGAAGCGCAGCGCTATTGTGAAGAAAATAGAATGACGTTCGTTCATCCGTTTGATGATCCGTATGTAGTTGCTGGTCAAGGGACAGTTGCAGTTGAAATTATGCATGATATGGAGAAATCGGTTGACTATATCTTTACGGCAATCGGCGGTGGTGGGTTAGCATCAGGTGTTGGTACATATGTGAAAGGTGTTAGTCCTGCTACAAAGGTTATTGGTGTAGAGCCGATGGGAGCTGCATCTATGAAAGAGGCTTTTCTTCAAAATGAAAATGTCGCATTAGAGAAAATAGATAGTTTTGTTGATGGGGCAGCTGTTAAAAAAGTAGGAAAGTTAACATTTGAAACTTGTAAAGATGTAATTGATGACATTGTTTTAGTACCAGAGGGAAAAGTTTGTACGACGATTTTAGAACTGTATAAGAAAAATGCAATTGTAGCTGAACCGGCTGGTGCACTATCTATTGCAGCGCTTGATTTATATAGAGATGAAATAAAGGGTAAAACAGTTGTATGCACGCTAAGTGGTGGAAATAACGATATTGATAGAATGCAAGAAATGAAAGAACGTTCGCTCATTTACGAAGGATTAAAACATTACTTCATTATTGAATTCCCGCAACGTTCAGGTGCGCTAAGAGAATTTCTTGATAAAGGATTAGGACCAGAAGATGATATTACGCGCTTTGAATACATTAAGAAACATAATAAAGAAAATGGTCCAGCGTTAGTCGGCGTAGAGTTGAAACATAAAGAAGATTATGAGCAATTAATTACTCGCTTTAAAGAAAATAATATTCAATTTATGGAGCTTAATAAAAATCCCATCTTGTTTGATTTACTTACTTAA	MVQKVKERVKIEDILMAHNCMKDIVIKTPLQRDTVLSEKYDCDVYVKREDLQLIRSFKIRGAYNLIQSLSKEQLQNGVVCASAGNHAQGVAYTCNLLKIASKIFMPTTTPKQKVSQVQFFGGDFAEIVLVGDTFDSSFQEAQRYCEENRMTFVHPFDDPYVVAGQGTVAVEIMHDMEKSVDYIFTAIGGGGLASGVGTYVKGVSPATKVIGVEPMGAASMKEAFLQNENVALEKIDSFVDGAAVKKVGKLTFETCKDVIDDIVLVPEGKVCTTILELYKKNAIVAEPAGALSIAALDLYRDEIKGKTVVCTLSGGNNDIDRMQEMKERSLIYEGLKHYFIIEFPQRSGALREFLDKGLGPEDDITRFEYIKKHNKENGPALVGVELKHKEDYEQLITRFKENNIQFMELNKNPILFDLLT	PGPT0001960_2904	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
AK009_00539	228			hypothetical protein	ATGCTGAAAGACTTAATAGAAAATGTAAGTTTGTTAGAGAATATTTATAAAATATCTATAGCCGTTCTACTTTTATGTTCAATTTTCTCTGTTAGACTTCTAAAAAAAATAAAACGCGAACGAAAACTTACTACCTTTGAATTTACTATGTATGTAATCATTCGTATTGCGATACTCTTTTGGTTAACTAGCTTTATCCTTCTTGAATATGGAAAATATTTAGTTTAA	MLKDLIENVSLLENIYKISIAVLLLCSIFSVRLLKKIKRERKLTTFEFTMYVIIRIAILFWLTSFILLEYGKYLV				NA	NA	NA	NA	NA
AK009_00540	1104			hypothetical protein	ATGAAAACTTTACTAAAACGATTTCTGTTAATAGCCTTTTGCATTACACCAATTGTTTTATTAATTAACTACTCTTTTACTTCAAAAGCGAAAGACAAACCCGATTTGCAAAACAAATCTAGTAAAACCGCTTCAACAAGTGAAAAGAAAATAGAAGACCCGGAAATTACACTCACTTTCTCTGGTGATACAATGTTCGATTGGCAATTACGTCCTGTAATCGAAAAAAATGGGGCTGATTATCCATTCCAACATGTAAAAGAAGAAATAACAAAAGCTGATATTTCTTTCGTTAATTTAGAGTCAGCATTTACAACGAGAGAAAAGAAAGCTCCTGGACAACTGTTTTGGATTAAAAGTGATCCATCCACGCTACAAGCTATAAAAAACACTGGATATGACATCGTAAATATCGGAAATAACCATACACTTGATTATGGGCAAGATGGATTATTAGACACGATTTCTCACGTAGAAAAATTAAAATTCCCTTATATCGGAGCCGGAAAAAATGCAAAAGATGCATATACAGCACGAGAAATGACTGTAAAAGGGAAAAAGTTCAAATTTCTTTCCTTCGTTCGATTTATGCCTGATACGAACTGGGTAGCTGGTAACAATAAACCTGGTGTTGCAAACGGATATGATTTAAATCTCGTAACAAAAACAATTAAAGAGCAAAAACAAGATGCAGACTATTTAATCGTCTATATGCATTGGGGCGTTGAAAAATCAAATCGTCCGGTAGAATACCAAAAACAATATGTACCTAAAATGGTTGAAGCAGGAGCTGACGCGATTGTCGGGAGTCACCCGCATTGGTTACAAGGATTTGAGTATTATAATAAAGTTCCTATCGCTTATTCATTAGGTAACTTTTTATTCCCAAGTTATGTGAGTGGGAAAAGCGCCGAAACTGGCGTATTAACTTTAACTTTTAAAGGAAAGGATGTACAAATGTCATTCAATCCTTACATCATTCGTAACAACCAAGTTTCCCCTGTAAATGAGGAAGAAAAGAAAAAAGCTCTTCAATATTTACAAACAATTTCAACTGATGTAGAAATTGATGCTACAGGGAAAATAAAAAACAAACGAAACTAG	MKTLLKRFLLIAFCITPIVLLINYSFTSKAKDKPDLQNKSSKTASTSEKKIEDPEITLTFSGDTMFDWQLRPVIEKNGADYPFQHVKEEITKADISFVNLESAFTTREKKAPGQLFWIKSDPSTLQAIKNTGYDIVNIGNNHTLDYGQDGLLDTISHVEKLKFPYIGAGKNAKDAYTAREMTVKGKKFKFLSFVRFMPDTNWVAGNNKPGVANGYDLNLVTKTIKEQKQDADYLIVYMHWGVEKSNRPVEYQKQYVPKMVEAGADAIVGSHPHWLQGFEYYNKVPIAYSLGNFLFPSYVSGKSAETGVLTLTFKGKDVQMSFNPYIIRNNQVSPVNEEEKKKALQYLQTISTDVEIDATGKIKNKRN				NA	NA	NA	NA	NA
AK009_00541	717	ydfK	COG1811	putative membrane protein YdfK	ATGGTTATATTAGGAGCAGTTGTAAATGGGATTTGTATTATATTTGGTACTTTACTAGGTAAATTATTTAGTAGGATTCCAGAAAGTATGAAGGGAACAATTATGCATGCAATCGGTTTAGCGGTTACTGTGCTTGGGCTTCAAATGGCATTGAAAAGTGAAAATTTTCTTGTTGTCATACTAAGTTTAGTGATTGGTACCGTCATCGGGGAATGGCTACAATTAGAGAGAAAGTTAAAACATTTAGGGGATTGGCTAGAAAATAAAGTTGGATCAAAAGGGAAAGGGAGCATATCAGAAGGCTTTGTAACTGCTACTTTAATTTTTGCAATAGGTGCGATGGGCATACTTGGTGCACTCGACAGCGGGATTCGTGGCAATCATGATATTTTATTTACAAAGGCGATTATCGATGGATTTATTTCTATTATATTAACGACAACTTTAGGAATTGGTGTAGTATTTTCGGCGATTCCAGTTATTTTATACGAAGGAGGGATTGCGGTTTTTGCAACACAAATTAATAGTTTGGTCCCGAAAGAATTAATGAATCAATTTATAGTGGAAATGACAGCTACAGGTGGTATTATGATAGCCGCTATTGGATTGAACTTACTTGGTGTTATTAAAATTAAGGTGGCAAATTTATTGCCAGGTATATTGGTAGTTGGAATAATCGTTTCACTTATTTATGGTTACGGTTTACTAGTAAAGTAA	MVILGAVVNGICIIFGTLLGKLFSRIPESMKGTIMHAIGLAVTVLGLQMALKSENFLVVILSLVIGTVIGEWLQLERKLKHLGDWLENKVGSKGKGSISEGFVTATLIFAIGAMGILGALDSGIRGNHDILFTKAIIDGFISIILTTTLGIGVVFSAIPVILYEGGIAVFATQINSLVPKELMNQFIVEMTATGGIMIAAIGLNLLGVIKIKVANLLPGILVVGIIVSLIYGYGLLVK	PGPT0003195_299	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_TRANSPORT,PGPT0003195-ydfK|yqgA-K07150	NA	NA
AK009_00542	852			hypothetical protein	ATGGAGGAGTATAAATTTACAAAACGTGTTCATAACATATTGAAGATTGCAGCAGAAGAGGCAGAAAGTAATATCATTCAACCAGCTCATCTGTTTATCGGTATGTGTAAAGAAGGTACTGGAGTTTGTAGCGAGTTGTATATGTATTTGTTCCGTAAAGTGGGGATAGAGTTTTCAGAAAAACTTTCAATACGAAAACAATACGACTCACCGTATCAAGAGTATGAAAAAATAGGACAATATAAGGTATCTTATAAGGTGCTAGAAATTTTACAAATAGCGAAGAAACGTATGGAACGTTTCCAGCAAGTAATAATGAATGAAGGACATGTTATATATGCACTATTTCATGTAGATACGTTTATTGGAAATGTACAAATAAAAAAAGATATATTACGTATTATAGCTGAGCCAAGAGATTTAGCGGTCGATCTAAAATGTTTTGTTCCTACTTATAATCATTTAATTTGTACTGTTAGAAAGGCTAGCCCTTCTGATTTTGAAAAATTAGCAAGTTTTGTTAAAGAGGAATTTGGTGAACGTTGGTTACATTCAATAGAGTATGGATTTCGTACATATAAAGATAATTTATCTATTTATATAGCAGAACAAGAAGAAGTGATAGTAGGTTTCGCTTGTTATGATGTAGTGAGAGGAAAGAAGGGATTGTTTGGTCCAATGGGCACAGCGAAAAAAAATCGTGTGAATGGTGTAGGGAAGCAATTGTTATATCGTTGTTTACATAGTATGAAGAAAGAAGGATATGAATACGCAATTATTGGACAAGCAGGTCCGGTTGAGTTTTATGAGCGATGTTGTAATGCACGTTTAATACCGGTAGAGAGTAATTAA	MEEYKFTKRVHNILKIAAEEAESNIIQPAHLFIGMCKEGTGVCSELYMYLFRKVGIEFSEKLSIRKQYDSPYQEYEKIGQYKVSYKVLEILQIAKKRMERFQQVIMNEGHVIYALFHVDTFIGNVQIKKDILRIIAEPRDLAVDLKCFVPTYNHLICTVRKASPSDFEKLASFVKEEFGERWLHSIEYGFRTYKDNLSIYIAEQEEVIVGFACYDVVRGKKGLFGPMGTAKKNRVNGVGKQLLYRCLHSMKKEGYEYAIIGQAGPVEFYERCCNARLIPVESN				NA	NA	NA	NA	NA
AK009_00543	1215	sbnD		Staphyloferrin B transporter	ATGGCCAGCTGGAAACGAAATTTGATGATTTGTTGGCTAGGTTGTTTTACCACTGCAGCCGGTATGAGTTTAGTAATTCCTTTTTTATCTTTTTATATTGAGGAATTAGGAGTAACTGGCACTTCTAGTATTGCACAGTGGTCAGGACTTGCATTTGGTATAACATTTTTAATGGGTGCGATCGTATCACCAATATGGGGAAAGCTTGGTGATATACATGGACGGAAATTGATGCTTATTCGTGCGAGCCTTGGTATGGCGATTATTATGACGCTTATGGGGTTTGTAACGGATGTGTATCAACTAGTCGCACTAAGATTTTTGATGGGAGCGGTATCTGGTTTCCTTTCAACGGCGATGACATTTATTGCAGCAGAAACTCCGAAAGAGCATTCAGGTTGGGCAATTTCTACAATTTCAACTGGGGGCGTGAGCGGTTCTTTACTTGGCCCATTACTTGGTGGTTATTTGTCGGAGTTAATTGGAATGCGCCATGTTTTTCTTGTTACAGGAGCTTTTTTATTCCTTTCTTTTCTCATCGTTTTTTTCTTCCTACATGAAGAGAATCACTCCGCTCAAGCAAAAAAAGTACAACAGAAAAAAGTATGGACGATGGTTCCAGCAAAGCATTTAATTATTAGTTTATTTGTAACAACATTTATTATTCAACTTGCGAACATGTCAATTCAACCTATTATTACATTGTATGTAAAGAATTTAGAAGGCCCAGGAACAGCTCATATTGAAATGATTGCAGGTGCAGTCATGTCTGCGACAGGTTTAGCTATTATTATGGCAGCTCCTAAGCTAGGTAGATTATCAGATCAAATTGGTCCTCAAAAAACGTTAGTTGTAGCGTTGTTTGCTGCAGGAATTATTTTTATCCCGCAAGCATTTGTAACCTCAGCTTGGCAACTATTAATTCTTCGATTTTTATTAGGTATCGCACAAGCAGGATTATTACCTTCCGTACAAACTCTACTAAAACAACATACACCAACCCATGTAACGGGACGAATATTTGGATATAATCAATCGTTTCAATTTTTAGGAAATATGATTGGACCAGTACTTGGTGGACAAATTGCAGCACATGCGGGCTTCCAATATGTTTTCTTCTCTACATCATCACTATTATTTATTGCGTGCATTTGGGTTTATTTTCATAATAAGAACGAAGAGGTATCAGAGAAACGACATTTGGAAGTTAGTTAA	MASWKRNLMICWLGCFTTAAGMSLVIPFLSFYIEELGVTGTSSIAQWSGLAFGITFLMGAIVSPIWGKLGDIHGRKLMLIRASLGMAIIMTLMGFVTDVYQLVALRFLMGAVSGFLSTAMTFIAAETPKEHSGWAISTISTGGVSGSLLGPLLGGYLSELIGMRHVFLVTGAFLFLSFLIVFFFLHEENHSAQAKKVQQKKVWTMVPAKHLIISLFVTTFIIQLANMSIQPIITLYVKNLEGPGTAHIEMIAGAVMSATGLAIIMAAPKLGRLSDQIGPQKTLVVALFAAGIIFIPQAFVTSAWQLLILRFLLGIAQAGLLPSVQTLLKQHTPTHVTGRIFGYNQSFQFLGNMIGPVLGGQIAAHAGFQYVFFSTSSLLFIACIWVYFHNKNEEVSEKRHLEVS	PGPT0029185_682	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
AK009_00544	762	ygiD	COG3384	4,5-DOPA dioxygenase extradiol	ATGATGCCATCATTATTTTTAGCACACGGATCACCGATGCTTGCTATTCAAGATACAGACTATACAAGGTTTTTAAAAACACTTGGAGCAACATATAAACCGAAAGCGATTATTATTTTCACTGCTCATTGGGAAAGTGAAGCATTAACGATTTCTTCATCAGATAACGAATATGAAACAATTTATGATTTTGGAGGTTTTCCTCCTGAGTTATACGAAATCAAATATCGTGCGAAAGGTTCTTCTAACATTGCATCTATGTTAGAAACAAAATTTAAAAACAAAGGTATTCCAGTCCATCATAATATGACGAGAGGTTTAGATCATGGCTCATGGACTCTTCTGCACCGCATGTATCCAGAAGCAAATATTCCTGTCGTCCAAATTTCAGTCAATCCATTCCTTCCTGCAAAAGAGCAATTTAAGATTGGAGAAGCACTTAAAGGGCTTGGACAAGAAGATATTTTAATAATCGGTAGCGGTGTTACTGTTCATAACTTACGAGCTTTGAAATGGAATCAAACGACACCCGAACAATGGGCAATTGAATTTGATGATTGGATTATTAAACATATGCAGACTACTGATAAAGATGCATTATTTAATTGGGAGAACAATGCCCCTCATGCACAATTAGCAGTACCAAGAGCAGAGCATTTTGTTCCTTTATTTATCGCTATGGGAAGCGGTGAAAATAACGGTGAAGTCATTCACCGCAGTTATGAGATGGGTACATTAAGTTATCTTTGTCTTCAATTTTAA	MMPSLFLAHGSPMLAIQDTDYTRFLKTLGATYKPKAIIIFTAHWESEALTISSSDNEYETIYDFGGFPPELYEIKYRAKGSSNIASMLETKFKNKGIPVHHNMTRGLDHGSWTLLHRMYPEANIPVVQISVNPFLPAKEQFKIGEALKGLGQEDILIIGSGVTVHNLRALKWNQTTPEQWAIEFDDWIIKHMQTTDKDALFNWENNAPHAQLAVPRAEHFVPLFIAMGSGENNGEVIHRSYEMGTLSYLCLQF				NA	NA	NA	NA	NA
AK009_00545	924		COG2267	Monoacylglycerol lipase	ATGAACGTACAGGAAAGTTTCGTTACGGCATTGGATGGATCGGAAATTTATTTACGTAAGTGGCTACCAGAAAGAGATCCGCGAGGGATTATTCAAATTGCACATGGTATGACAGAACATGCAGGTGTTTATACAGACTTTATTGCTGCGTTATTAAAAGCAGGGTATGGTGTTTATGCACATGATCATAAAGGTCATGGGAAAACAGTGAAAAGAGAAGAAGATTATGGTCATTTTAAACCAAATGTAGGTTGGAATGAGGCTGTTTCTGATGTTATTTTTGTATCAGAAACGATAAGAAAAGAGCAGACATGCCCGTTATTTTTACTTGGACATAGTATGGGTTCTTTTTTATCAAGACGTGCTGTACAACTGAAAGGTGAATTATATGATGGATTCCTTATTTCAGGAACTGGTGGAAATCCAGGGATTTTAGGAAGTATCGGTCATAAAGTAGCGACAATTGAGATGAAATTACGCGGGGAAAAAACGAAAAGTCCAATGTTAAATTTTTTATCTTTCGGAAACTTCAATTCACACTTTAAACCAAATCGTACAAAATTTGATTGGTTATCTTCAGATAACAGTCAAGTAGATAAATATATTGCGGACCCATTATGTGGATTCATTTGTACAACGAGTTTTTATCGAGAATTATTTTCTGGTGTATTAGAAGTAAATAAACTAGAAGAGTTCAAAAAAACACCGAAAAACCTTCCGATACATATTTTTTCAGGAGATCGTGATCCTGTTGGGGATATGGGGAAAGGTGTAAAAGAAGTATATGAAAATTATAAAAAATGCGGCGTGACAGATGTAACGCTGCATTTATATGAAAATGGCAGACATGAAATGTTCCATGAAGTAAATAAAGATGAAGTATTTCAAGATTTGATTTCTTGGTTAGATAAGCATATTGTATGA	MNVQESFVTALDGSEIYLRKWLPERDPRGIIQIAHGMTEHAGVYTDFIAALLKAGYGVYAHDHKGHGKTVKREEDYGHFKPNVGWNEAVSDVIFVSETIRKEQTCPLFLLGHSMGSFLSRRAVQLKGELYDGFLISGTGGNPGILGSIGHKVATIEMKLRGEKTKSPMLNFLSFGNFNSHFKPNRTKFDWLSSDNSQVDKYIADPLCGFICTTSFYRELFSGVLEVNKLEEFKKTPKNLPIHIFSGDRDPVGDMGKGVKEVYENYKKCGVTDVTLHLYENGRHEMFHEVNKDEVFQDLISWLDKHIV	PGPT0023520_1015	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
AK009_00546	606	mfpA	COG1357	Pentapeptide repeat protein MfpA	ATGAGTGAATTTGTTAATAAAGAATATGTAGAAATAGATTTTCAAGATGTTTTGATTAAGGAAGAGGAATTGAAGAATAGTACATTCATAAAATGCCGTTTTAGAGGGATAGATGCATCGGAAGTTTCTACTGAAAATTGTAACTTCATAGAATGTGATTTTACCGGTGCTCTTTTTAACGCTTCTATTCATCAAGGAACTACATTTGCGAATTGTAAGTTTGTTGGTGCGAATTTATTCGTATCGAAGTTTGAAGAATGTAAAATGACTGGCTCTGATTTTGAAGAAGCGAATTTAGACGGAATAACTATCATATCGGGTGATTGGTCATATACGAATTTAAGGTTTGCGAACTTAAGTAAACAAATGTTAAAGGGTATACGTTTCATGGAAGCGGACCTATATGAATGTAATTTAGAAAAAGCAGATTTACGTGAAGCGGATTTAACCGGTGCACAATTAGGTAAGGCGAAACTTAGCGGTGCAAATTTAAAGGGAGCGATAGTTGATAGAATTGACTTTACAAGCTTTAATTTGAAAAATGTAAAATTAGATATAGCACAGGCAGTTGCGGTAGCTAGATGTTATGGGGCTAAGGTAAACTAA	MSEFVNKEYVEIDFQDVLIKEEELKNSTFIKCRFRGIDASEVSTENCNFIECDFTGALFNASIHQGTTFANCKFVGANLFVSKFEECKMTGSDFEEANLDGITIISGDWSYTNLRFANLSKQMLKGIRFMEADLYECNLEKADLREADLTGAQLGKAKLSGANLKGAIVDRIDFTSFNLKNVKLDIAQAVAVARCYGAKVN	PGPT0028050_394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLONE_RESISTANCE,PGPT0028050-qnr|mcbG-K18555	NA	NA
AK009_00547	645			hypothetical protein	ATGGAAGATAAAACATTAGGTATACTACTAGATGTAGTTGGGGAATTATTTTCAGATGAAATATCAATTGCCGTTTCGAATACGAAAGAATATATTTACTATCGGCCAAGTAAACGAATTGATTTAAAGATTAGCGCTGGGGACCCTATTAAGGAAGGGACGATTGCTCATAAAGCAATGGTAACGAAGCAAAAAGCCTCTGAGTTTATTAACCGAGATATTTTCGGTATTCCTTATCATGGAATGGCGGTACCATTTTCAAATAATGGCAAGATTGAAGGTTGCGTGACGGCAATTTATCCAGCTTTAACGGATGGTAAGTCAGTCGTTACTTTAAAAACAACAGACGGATGGGTTCCGGTTCCTTTTTCAAAGGTCATGTATTTAGAAGCTAAAGATAAAAAGACGTATGTGAATTCAGAAGAGTTAACAGGAACACATAAGTACTCGCTACAAGAATTCGAATACTTGTTGCCGAAAGATTCCTTTATTAGATGCCACCGTTCCTTTATTGTAAATGTTAATCATATTAAAGCGATTTATCCTGATACGCATTCTACTTTTGTACTTTCTATGGATAACGGAGAGAGGGTACCAGTGAGTCAGTCATACGCTAGCTATTTTCGTAAGCTTCTAGGATTCTAA	MEDKTLGILLDVVGELFSDEISIAVSNTKEYIYYRPSKRIDLKISAGDPIKEGTIAHKAMVTKQKASEFINRDIFGIPYHGMAVPFSNNGKIEGCVTAIYPALTDGKSVVTLKTTDGWVPVPFSKVMYLEAKDKKTYVNSEELTGTHKYSLQEFEYLLPKDSFIRCHRSFIVNVNHIKAIYPDTHSTFVLSMDNGERVPVSQSYASYFRKLLGF	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
AK009_00548	1515	cat1	COG0427	Succinyl-CoA:coenzyme A transferase	ATGGAAAATAATTTAGATAGAATTAGGGATCAACGATTAAAAGATCGCGTAGTTACACCCGAAGAAGCAGCTTCATGGATTGAAAGTGGAATGACTTTAGGTTTAAGTGGATTTACACGTGCTGGTGATGTAAAAGCAGTTCCATTTGCACTTGTAAATCGAGTTAAGAATGATAAATCTTTTAAAGTAAATGTTTATACAGGGGCTTCCTTAGGTTCGGATGTAGATAAATTATTTGCTGAGGCAGGGATTTTAGGGAAAAGATTGCCTTTCCAAGCCGATGCAACTATGCGAAAAGGAATTAATAACGGAGACTTTTTATTTGTGGATCAGCACTTATCTCATACAGCAGAGTTACTCCGTGCTGACGTTATGGATATAGATGTTGCTATTTTGGAAGCGGTTGCGATTACTGAAGATGGTATGATTATTCCAACCACTTCAATTGGAAATTCCTTAGCATTTTCCTTACATGCTAAGTCTATTATCATTGAAATGAATATGGCTCAATCTACGCAATTAGAGGGACTGCATGATTTATATGAACCAGGTAAACAAGGGGTAAGACTTCCAATTCCGCTCGTAAAAACGGATGATCGAATTGGAACAATTGGTATCCCGATAAATCCTGAAAAAGTGAAGGGGATTGTGTTTACGAATCAACTGGATTCACCATCGACAATTGTTCCTCCAGATGAAGAAACTGTCATTATGGCACAACATTTAATAGAGTTCCTTCGAGAAGAAGTTAAAGTAGGCCGATTAACAAAGAGTTTAGCACCGTTACAATCGGGAATTGGTTCAGTTGCCAATGCAGTATTGCACGGCATGCTAGATTCGGAGTTTGAAGATTTAGAAGTGTATTCTGAAGTTTTACAAGATGCGGTCTTTGATCTAATGGACGCTGGGAAAGTTAATTTCGCTTCCTGCTGCTCGATCACGCTTTCTGAAGAGAAAATGCAACAAGTATTTTCTAACTTTGAAAAATACCGAGACAAATTAATGATGCGCCCACAAGAGATTTCTAATCACCCTGAAATCATTCGCCGCCTAGGATTAATCTCGATTAATACTGCTTTAGAATTAGATATATACGGAAATGTTAACTCTACTCACGTTTTAGGTACAAAGATGATGAATGGTATTGGTGGTTCTGGTGATTTTGCGAGAAATGCACGTCTAGCTATATTTGTTACGAAATCAATTGCAAAAGGTGGTAACATTTCAAGTATCGTTCCTTTCGTTTCTCATGTAGATCATACGGAACATGATGTAGATGTTATCGTCACTGAACAAGGGTATGCTGACCTAAGAGGATTAGCGCCAAGAGAAAGAGTGGAACTAATTATTGAGAATTGTGTACATCCAATGTATCGTGACCAGCTAAGAGCTTATTACGAAGAAGCACAAACAAGAGGTGGACAAACTCCTCATGTTTTAGAAAAAGCTTTTTCTTGGCATACGAACTATGCTAAAAATGGAACAATGCTTGAAGCGGTAGTAGAAACTGTATAG	MENNLDRIRDQRLKDRVVTPEEAASWIESGMTLGLSGFTRAGDVKAVPFALVNRVKNDKSFKVNVYTGASLGSDVDKLFAEAGILGKRLPFQADATMRKGINNGDFLFVDQHLSHTAELLRADVMDIDVAILEAVAITEDGMIIPTTSIGNSLAFSLHAKSIIIEMNMAQSTQLEGLHDLYEPGKQGVRLPIPLVKTDDRIGTIGIPINPEKVKGIVFTNQLDSPSTIVPPDEETVIMAQHLIEFLREEVKVGRLTKSLAPLQSGIGSVANAVLHGMLDSEFEDLEVYSEVLQDAVFDLMDAGKVNFASCCSITLSEEKMQQVFSNFEKYRDKLMMRPQEISNHPEIIRRLGLISINTALELDIYGNVNSTHVLGTKMMNGIGGSGDFARNARLAIFVTKSIAKGGNISSIVPFVSHVDHTEHDVDVIVTEQGYADLRGLAPRERVELIIENCVHPMYRDQLRAYYEEAQTRGGQTPHVLEKAFSWHTNYAKNGTMLEAVVETV	PGPT0001545_447	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
AK009_00549	294			hypothetical protein	ATGAAGATAAGAGAAGCGTTATTAAGTGAAGCAAATGAATTAAGTGAATTCGCACTACATTCAAAAGCAACGTGGAATTATAGTGAAGAATTCATACTTGCCTGTAAGGAAGATTTAACAATTACGGAAGAGTACATAAAAAATAATTTTGTATATGTTTTAGAAAACGATAATACGAAGATTGGGTTTTTCTCATTTTTACATAACGATAAAGCTCTCGATTTCTTATACATTCATCCTCGTTACATAGGAAAGGGGTATGGAAAAATAATGTGGAAGTTTGTAATAGAGTAA	MKIREALLSEANELSEFALHSKATWNYSEEFILACKEDLTITEEYIKNNFVYVLENDNTKIGFFSFLHNDKALDFLYIHPRYIGKGYGKIMWKFVIE				NA	NA	NA	NA	NA
AK009_00550	360			hypothetical protein	ATGGATGATGTAAAGGAAAAAAGAATATATGAAGCACTAATAAAATCGTGGTCGATTGAAACAAGTTCAAAGTGGACAATTGAAAATCCAGCAAAGGGACAATGTGGTGTTACAGCTCTTGTCGTTCAAGACATATACGGAGGAGAAATTAAAAAGACAAAAGTAAGAGAGGTATGGCACTTTTATAACTTTATAGATGGGCAGAGATTTGATTTTACAGAGACTCAATTCAATGGGAAATTGAATTATATGGATGAAAAGTCAAATCGGGAAGAAGCATTTGCAGATACAAATGAAAAGCAATATAGCATTTTGAAGGAAAAAATAACAAAAGAATTAAAATTATCTTTTGACTCTTAA	MDDVKEKRIYEALIKSWSIETSSKWTIENPAKGQCGVTALVVQDIYGGEIKKTKVREVWHFYNFIDGQRFDFTETQFNGKLNYMDEKSNREEAFADTNEKQYSILKEKITKELKLSFDS				NA	NA	NA	NA	NA
AK009_00551	1326	mtaD	COG0402	5-methylthioadenosine/S-adenosylhomocysteine deaminase	TTGAAAGGGGAAATACTTTTGAAAACAACTTATGTAAACGCTACAATTGTAACGATGAATGAACAAAACGAAGTGATAGAAAATGGATATATCATTGTAGAAAATGATCAAATTATAGATGTAAAGAGCGGAGAATTCGCTAATGATTTTGCAGTAGATGAAGTAATTGACATGAAAGGAAAGTGGGTTTTACCAGGGCTTGTAAATACACATACACACGTTGTAATGAGTCTCTTAAGAGGTATTGGCGATGATATGTTATTACAACCATGGCTGGAGACGAGAATTTGGCCACTTGAAAGTCAGTTTACTCCAGAGCTTGCGGTTGCTAGTACGGAATTAGGATTACTTGAAATGGTGAAAAGTGGTACAACATCATTCTCTGACATGTTTAATCCAATTGGAGTAGATCAAGATGCAATTATGGAAACGGTATCAAAGAGTGGGATGCGAGCTGCTGTTTCAAGAACTTTATTTAGCTTCGGAACGAAAGACGATGAAAAGAAAGCAATCGAAGAAGCTGAGAAATATGTGAAGCGTTACTATAACGAAAGTGGCATGTTAACTACGATGGTTGCACCGCATAGTCCATATACATGTAGTGCAGAACTGTTAGAAGAGTGCGCTCGTATTGCAGTAGAAAATCAAACGATGGTTCATATTCATCTTTCGGAAACAGAGCGTGAAGTACGTGATATTGAAGCGCAGTACGGGAAACGTCCAGTAGAATATGCAGCAAGTTGCGGGTTGTTTAAACGCCCAACAGTTATTGCACACGGTGTAGTATTAAATGAAAATGAGCGTGCATTTTTAGGAGAACATGATGTTCGAGTAGCACATAACCCAAATAGTAATTTAAAACTAGGTTCTGGTATAGCAAATGTAAAAGCGATGCTAGAGGCAGGAATGAAAGTAGGAATTGCAACAGATAGTGTGGCATCTAACAACAATTTAGATATGTTTGAAGAAATGCGCATAGCGACTTTACTACAAAAAGGTATTCACCAAGATGCAACAGCGTTACCAGTTGAAACAGCTCTTACACTTGCGACTAAAGGAGCTGCTGAAGTAATCGGGATGAAACAAACAGGATCACTTGAGGTTGGAAAGTGTGCTGATTTTATTACGATTGACCCATCTAATAAGCCGCATTTACAACCAGCAGATGAAGTGTTATCGCACCTGGTATATGCAGCTAGTGGAAAAGATATAAGCGATGTAATTATTAACGGAAAGCGTGTCGTTTGGAATGGCGAATGTAAAACGTTAGATGAAGAGCGTATTATATTTGAAGCGAGTCGTTATAAACGAGGTTTACAAAGATAG	MKGEILLKTTYVNATIVTMNEQNEVIENGYIIVENDQIIDVKSGEFANDFAVDEVIDMKGKWVLPGLVNTHTHVVMSLLRGIGDDMLLQPWLETRIWPLESQFTPELAVASTELGLLEMVKSGTTSFSDMFNPIGVDQDAIMETVSKSGMRAAVSRTLFSFGTKDDEKKAIEEAEKYVKRYYNESGMLTTMVAPHSPYTCSAELLEECARIAVENQTMVHIHLSETEREVRDIEAQYGKRPVEYAASCGLFKRPTVIAHGVVLNENERAFLGEHDVRVAHNPNSNLKLGSGIANVKAMLEAGMKVGIATDSVASNNNLDMFEEMRIATLLQKGIHQDATALPVETALTLATKGAAEVIGMKQTGSLEVGKCADFITIDPSNKPHLQPADEVLSHLVYAASGKDISDVIINGKRVVWNGECKTLDEERIIFEASRYKRGLQR	PGPT0023665_1480	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
AK009_00552	1629	dppE_1	COG4166	Dipeptide-binding protein DppE	ATGAAGCGAAAAAAGAGCCATTTAATGGTAATGGCACTTGTTACATCTTTATTATTAACAGCTTGTAATAATAAAGCGGATAAAAGTGACATAGAGGTTAAAAAACAAGTGTTAAATGTAACAGTATCAGAAGAAATTCCTTCTCTGGACACTGTGAAAACAACAGATGGTACATCAGCGCACGTTATGCAGAATATATTTGAAGGGTTATATGTATTAAATGATCAAGATCAGCCTACTCCAGCCATAGCAAAATCGTTTAAAAGAAGTGAAGATGGTAAGAAATATACATTTGACTTGCGTAAAGATGCAAAATGGTCAAATGGGGATAATGTAACAGCAAATGATTTTATGTTTGCGTGGAAACGTGCAATTAACCCTGAAACAGCATCTCAATATGCGTCCATGCTCTTTTATGTAAAAAATGCCAAAGAGATTAATAAGGGAGCAATGTCTCTAGATGAACTTGGAGTTACGGTTATAAATGATTATAAGTTAGAAGTTGAACTAGAACAGCCAATTCCGTATTTTTTACAGTTGTTAGCATTACCTATATATTTACCACAGCATGAATCATTTTTGAAAGAACAAGGAAACAATTATGCATTGGAACCTAGTAATCTCATATATAACGGTCCATTTGTATTAGAAAAATGGAAGCATGAACAAGAGTTTCAATTAAAGAAAAATGCTACATATTGGGATCAAAAGAAAGTGAAACTAGACGAAATAAACTTTCATATCGTGAAGGATACAATGACAGCTGTAAATTTATATGAAGCCGGAGATTTGGACCGGGTACCTATTAATTCGCAAGTTGTAGACAAGTATAAGGGGAATAAGGAATTACATATGTCGAGTGATCCTGGAATTGCTATGCTTCGTTTTAATGAAAAAAATACCGCGTTAGCAAATAAAAAGGTGCGTCAATCTATTTCATTAGCGTTAAATAAAGATGATTTCGTTGCTCACTTTATTAATAACGGAGCAAAACCTGCAAGTGGACTTGTACCAGTTGGTCATGTAAATGAAGAGACTGGCAAAGATTTTAGAAAAGAAAACGGAGATCTTTCTCTATATGACTTACAAAAGGCGAAAAAGATTTGGGAAGAAGCGAAAAAAGAACTTGGAGTAGGCGAAGTAAACCTTGAGTTTCTAACATTTGAACAAGATAACGCAAAACGTATGGCAGAATATATAAAAGGTGACTTAGAAAAGTATTTGCATGGATTAACGATACAAATTAAACAACAGCCATTTAAGCAAAAATTACAGTTAGAACAAACAGGTGATTACGATATAACTATGGCAAATTGGGGACCTGACTATAAAGACCCAATTAGTTATTTAGAGTTATTTACGACAGGGAATCCGAATAATAAAATGAATTATTCTAATGTTCGTTACGATGAATTAATAAAGAAAGCGAAAACGGATTTTGTACTAGATAGGGAAAAACGATGGGAAGCGTTGCGAGAAGCCGAGCAGGTATTATTAGAAGATGCTGCGGTGGCGCCGCTTTATCATATTGGCTCAGCGTATGTACAAAAGGAGTATGTAAAAGGGATTGAAAAACATCAATTTGGTGGTGTTTATACTTATAAGAATGCTTATATTGCTAATGAATAA	MKRKKSHLMVMALVTSLLLTACNNKADKSDIEVKKQVLNVTVSEEIPSLDTVKTTDGTSAHVMQNIFEGLYVLNDQDQPTPAIAKSFKRSEDGKKYTFDLRKDAKWSNGDNVTANDFMFAWKRAINPETASQYASMLFYVKNAKEINKGAMSLDELGVTVINDYKLEVELEQPIPYFLQLLALPIYLPQHESFLKEQGNNYALEPSNLIYNGPFVLEKWKHEQEFQLKKNATYWDQKKVKLDEINFHIVKDTMTAVNLYEAGDLDRVPINSQVVDKYKGNKELHMSSDPGIAMLRFNEKNTALANKKVRQSISLALNKDDFVAHFINNGAKPASGLVPVGHVNEETGKDFRKENGDLSLYDLQKAKKIWEEAKKELGVGEVNLEFLTFEQDNAKRMAEYIKGDLEKYLHGLTIQIKQQPFKQKLQLEQTGDYDITMANWGPDYKDPISYLELFTTGNPNNKMNYSNVRYDELIKKAKTDFVLDREKRWEALREAEQVLLEDAAVAPLYHIGSAYVQKEYVKGIEKHQFGGVYTYKNAYIANE	PGPT0021015_3107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_00553	531			IS1595 family transposase ISSpgl1	ATGTTTCCTATATTGAAAACAGACCGACTCATTTTAAGAGAACTTACCGAAGAAGATGCACCGCGTATACTACAATGCTTTTCTAATACTAATGTACTGCGCTATTATGGCCAAAAACCGTTACAAGATGTTGATCAAGTGAAACAAATCATTCATAACTTTAAGCTCAGTTACAATGCAAGAAACGGTATAAAATGGGGAATCGAATTAAAAGACAAGAAAGAACTCATCGGTACCATTGGTTTTCACGATTGGTCTTCTGAGCATAAACGAGCCAATATAAGTTATGCCTTTTTACCTGAACACTGGGGAAAAGGATATGCGACTGAAGCTGTTTCTGAGGTTATATCATACGGTTTCCATACGATTCATTTAAAGCGGATCGGGGCAATTGTATTTCTTGAAAATGAAGCTTCCAATAAAGTACTATTAAAATTAGGCTTTGAAAAAGAAGGCGTTCTAAAAAATTATATGTATCAAGATGATATCCCATATGATACGAATTTTTACGCTTTATTAAAATCGGTTTAA	MFPILKTDRLILRELTEEDAPRILQCFSNTNVLRYYGQKPLQDVDQVKQIIHNFKLSYNARNGIKWGIELKDKKELIGTIGFHDWSSEHKRANISYAFLPEHWGKGYATEAVSEVISYGFHTIHLKRIGAIVFLENEASNKVLLKLGFEKEGVLKNYMYQDDIPYDTNFYALLKSV				NA	NA	NA	NA	NA
AK009_00554	699	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGGAGAAAAATTCAATTTTAATTGTAGATGATGATCAAGATATTGTTCAATTTATAAAAGTGAATCTAATGCAAGAAGGTTTTAAAGTTTTTAGTGCTCATAACGGAGAAGAGGCTTTAGAAATAATAAATAATAACAGTATTCAACTTGCTATTTTGGATATTATGATGCCTCAAATGGATGGTATAGAACTTTGTAGAAGGGTTAGAGAGAAACATAGTTTACCAATTATGTTTTTAAGCGCGAAATCATCGGATGTAGATAAGGTAATTGGATTTAGTACTGGGGCAGATGATTATATTGTGAAGCCGTTCAGTACAATTGAATTTATCGCAAGAGTGAAAGCTCAATTAAGAAGGTATACATATTTCAACCAAAATGCTGTTCAAGTAATGGAAAAGAAAATAAATATTAGAGGTTTAGAAATAGATGAAGTGTCGAGAACAGTAATGTTATATGGAGAAACAATGAATCTTACGAAAACTGAATATGATATTTTGTACTTAATGGCCGCTGCAAAGAATCGTGTGTTCACTATTGAAGAAATATATGAGAGCGTTTGGAAAGAAAGAGCCTATGAAAGTAATAATACAGTAATGGTTCATATTGCAAGATTAAGAAATAAAATTGAAGAGAATCCAAAAGAGCCGAAGTTTATTCAAAATGTTTGGGGAGTCGGATATAAAATTGAAGATTAA	MEKNSILIVDDDQDIVQFIKVNLMQEGFKVFSAHNGEEALEIINNNSIQLAILDIMMPQMDGIELCRRVREKHSLPIMFLSAKSSDVDKVIGFSTGADDYIVKPFSTIEFIARVKAQLRRYTYFNQNAVQVMEKKINIRGLEIDEVSRTVMLYGETMNLTKTEYDILYLMAAAKNRVFTIEEIYESVWKERAYESNNTVMVHIARLRNKIEENPKEPKFIQNVWGVGYKIED	PGPT0028485_126	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
AK009_00555	1101	rcsC_3		Sensor histidine kinase RcsC	ATGTTTGGGGAGTCGGATATAAAATTGAAGATTAAATCATTACAAGGCATTAGAGCTAAGTTTTTTATTGCATTCATATGTAGCATTTTGTTAGCAACTGTAAGTATAATAGCGTTTCAAATTGTAATTGGAAATATATATAGTCATGTTACTGCGTTAGAGGAAAAATATTCATTTTTATATTTTATAGTTTTTTTGATTTTTACTACAACATACTTTGCATTCATGACAAAAACGATGATGAAAAGATTATCTCAAATTAATAAGAACGTGAAGAAAATAAGTGATGGTAATTTTGAAATACATATACCTATTTCGAAAAGCGATGAGATTGGTGAACTAGCGGCAAATGTTAATAGAATGGCGAAAAGTTTAAAAGAGTCTATTGAGAATGAAAAAAAATCACAGGAAATGAAAAATGAAATGATTAGTAATATTTCTCATGACTTACGAACGCCAGTAACATCTTTAATAGGTTATGCGGACCTGTTAGGAAATAAACTTCATTCAAATGGAGAAGAATGTGAAGAGTATGTAAGTATATTAAAGCGAAAAAGTTATGAATTAAAAAATCAAGTAGATGATTTATTAGAATACTGTCAAATAAATTATAGAGAGATTGAATTACATAAAGATGAAATAGATATGAAAGCATTAATTGAACAAATCATGATTGACTTTGTACCACAATTAGATGATGCCAATATGAGCTTTTATATTAAAAGTGATGAAGTGCTACATGTAGAAGTTGATGTGGCACTTATAGTGAGACTATTTGAAAATGTAATAGGTAATAGTATTATGTATGGAAAAGATGGAAAGGAAATTGCAATTGGAATTTCCAATAAAACAATGAATGTTGAAGTAGAAATTAAAAATTTTGGACAATGCATTCCGAAAGAGGACCTTCCTTACGTTTTTGAGAAATTTTATCGTAGTGAAAAATCACGTAGCTCTCATACGGGTGGGAAAGGAATAGGACTTGCAATTTCGAAAAGTATAGCACAGCTCCATCAAGGGGATATAACTGTACGTAGTAACGATAAAGAAACAGTTTTTACTGTAAAATTACCGCAGTATAAAAAAGTAAGAAAGTCGTAA	MFGESDIKLKIKSLQGIRAKFFIAFICSILLATVSIIAFQIVIGNIYSHVTALEEKYSFLYFIVFLIFTTTYFAFMTKTMMKRLSQINKNVKKISDGNFEIHIPISKSDEIGELAANVNRMAKSLKESIENEKKSQEMKNEMISNISHDLRTPVTSLIGYADLLGNKLHSNGEECEEYVSILKRKSYELKNQVDDLLEYCQINYREIELHKDEIDMKALIEQIMIDFVPQLDDANMSFYIKSDEVLHVEVDVALIVRLFENVIGNSIMYGKDGKEIAIGISNKTMNVEVEIKNFGQCIPKEDLPYVFEKFYRSEKSRSSHTGGKGIGLAISKSIAQLHQGDITVRSNDKETVFTVKLPQYKKVRKS				NA	NA	NA	NA	NA
AK009_00556	861			hypothetical protein	ATGTGGAAGAAATTTTTATTAGTAATTATAGTTCCTTTTTTAATTATAAGTTGGAGTTTAATTTATGTAGCTAATGGTGTTACATCAGTCTTTGTTTGGTGGTGTATACAGGCTTTTAGTGTAATTTCAGTTTTTCTCTTAATAGGATCAGTAATAATGTTTTTTTTGAACGGCATTTTTAGAAAGCGGATAGATAGAACGCTACTTTTAATTATTCTGTTTTCTATCATTGGAGCTTGGCCTGTCGGTTGGTTTGCTAATATAGGTAGAATTGCTTATCCAGCAGATATACAATCGATGAGTCCTAAAGCAGTAGTTCGTGTTCCTTTGAATGAACGAGCATTGATAGGTTGGGGCGGTGATCGGTTAGAAACGAACTATCACGTTATAAAACCAAATGAAAGGTGGGCATATGATATCCTTATGCCGCCTGCTGAAGTGAAAAGTAGTATGTTAGAGGATTATGGAATATATGGAGCAGAAGTAATGGCACCAGCTTCTGGAACAGTTGTATCTATTAATAATGATGAAAAAGATGTAGTTCCAGGAGAGGATGATTTTCAGTCGATGGCGGGGAATCATATTTATTTACGACTAGATGAATCAGGGACATTTTTGATTCTTGCCCATTTAAAGAAAGGCTCAATTAAAGTGAGGGAAGACCAACATGTAAATGAAGGAGAGGTTCTTGCTCAAGTCGGTAACTCCGGAAGTTCAAGTGAGCCGCATTTACATATTCATCATCAAAGGCAGGATCCGTCCAAAGTAAATATGTTTTTTGCGGAAGGATTGCCACTTTACTTTCGAACTGAAAATGGTGTCATGATGCCGGAAAGAGGGACATACATAAGTGGTAAGTAG	MWKKFLLVIIVPFLIISWSLIYVANGVTSVFVWWCIQAFSVISVFLLIGSVIMFFLNGIFRKRIDRTLLLIILFSIIGAWPVGWFANIGRIAYPADIQSMSPKAVVRVPLNERALIGWGGDRLETNYHVIKPNERWAYDILMPPAEVKSSMLEDYGIYGAEVMAPASGTVVSINNDEKDVVPGEDDFQSMAGNHIYLRLDESGTFLILAHLKKGSIKVREDQHVNEGEVLAQVGNSGSSSEPHLHIHHQRQDPSKVNMFFAEGLPLYFRTENGVMMPERGTYISGK				NA	NA	NA	NA	NA
AK009_00557	1296	mntH	COG1914	Divalent metal cation transporter MntH	ATGAATAAAGATATAACAAAAGATGAACATCTCCCTTCTGAAAGTACAACTGTACAATCAGCTCACTTAGCTTTAAGTGGAGAAACAAAAGGCTGGAAAAGACTGTTACCATTTTTAGGGCCCGCTTTTATCGCTTCCGTTGCTTATATTGATCCTGGCAACTTTGCTACAAATATCGCAGCTGGTTCACAATATGGATATTTACTATTATGGGTTATATTCGCTTCTAACTTAATGGCTGTATTAATCCAAACTTTATCGGCTAAATTAGGAATTGCTACAGGAAACAATTTACCCGAAATAGCTCGTGAAAACTTTCCAAAGCCTGTGTCTATCGGCTTATGGATACAAGGTGAACTCGTTATTATGGCTACAGATTTAGCTGAATTTATCGGGGCAGCACTCGGATTGTATTTATTATTTGGAATACCTATGTTACCAGCTGCTTTAATTACAGCAGTCGGATCATTTATTATTCTTGAGTTTCAACGCAGAGGATTTCGCTCACTAGAAGCTATTATTACAGGGATGATCTTTATTGTAGTAATAGCATTTGGGATCCAAGTTTTTTATGCAAAACCAGAATTAAGTCCCCTTCTTTCAGGACTATTTATTCCGAAATTCCAAGGTGTAGACAGTATATTACTTGCAGCAGGGATTTTAGGTGCGACAGTTATGCCGCATGCAATATACTTGCATTCTGCATTAACACAACGCCGCGTGGTTGGAACAACTGACGAACAAAAGAAAAAGATTTTTCGTTTCGAATTTATCGATATTATTATTGCAATGGTTATCGCTGGAGCAATTAATGCAAGTATGTTAATTGTAGCAGCTGCACTATTCTTTAAAAACGGTATGCACGTTGAAGATTTAGATGTTGCTTACACTCAATTTACCAACTTAGTAGGTCCTGTATCGGCTGCATTATTTGGGATTGGACTTTTATCAGCAGGTTTATCAAGCTCTTCTGTCGGTACAATGTCAGGTGATATTATTATGCAAGGATTCATTCGCATGCATATTCCGTTATATTTACGTCGATTTATTACAATGATTCCACCACTAGTTATTATCGCTTTAGGTGTAAATCCAACTTACGCTCTCGTTATGAGTCAAGTTGTCTTATCATTTGGTATTGCATTTGCACTAGTGCCACTTATTATGTTTACAAGTAATAAAAAGATTATGGGTGCACTCGTTAACCACCGTATAACAACATTTATCGCATGGATAATTGCAGCACTCGTTATCATTTTAAATATTTTCTTACTGTATCAAACGTTTGTAGGGTAA	MNKDITKDEHLPSESTTVQSAHLALSGETKGWKRLLPFLGPAFIASVAYIDPGNFATNIAAGSQYGYLLLWVIFASNLMAVLIQTLSAKLGIATGNNLPEIARENFPKPVSIGLWIQGELVIMATDLAEFIGAALGLYLLFGIPMLPAALITAVGSFIILEFQRRGFRSLEAIITGMIFIVVIAFGIQVFYAKPELSPLLSGLFIPKFQGVDSILLAAGILGATVMPHAIYLHSALTQRRVVGTTDEQKKKIFRFEFIDIIIAMVIAGAINASMLIVAAALFFKNGMHVEDLDVAYTQFTNLVGPVSAALFGIGLLSAGLSSSSVGTMSGDIIMQGFIRMHIPLYLRRFITMIPPLVIIALGVNPTYALVMSQVVLSFGIAFALVPLIMFTSNKKIMGALVNHRITTFIAWIIAALVIILNIFLLYQTFVG	PGPT0004370_1480	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
AK009_00558	960			hypothetical protein	TTGGCAACTACAAAACCATACAGAGTATTACTATATTACATGTACACAACAATTGAAAATCCAGAAGAATTCGCGGCAGAGCATTTAGAATTTTGTAATTCACTTGAATTAAAAGGAAGAATTCTTGTAGCAAAAGAAGGTATTAACGGAACTTGTTCTGGAACTGTAGAGCAAACAGAAAAATACATGGAAGCAATGAACAATGATCCACGTTTTGATGGTATCGTATTTAAAATAGATGAAGAAGAAGGGCATGCATTCAAGAAAATGCACGTACGTCCTCGTCCAGAATTAGTTACACTTCGTCTAGAAGATGACATTAACCCACACGAAATAACTGGGAAGTATTTAGAGCCAAAAGATTTTTATGAGGCAATGAAACAAGAAGATACAGTTATCATTGATGCACGAAATGATTATGAATTTGATTTAGGACACTTCAAAGGTGCGATTAAACCTGATATTGAATCATTCCGTGAATTACCAGATTGGATTAGAGAAAACAAAGAAACACTTGAAGGTAAAAAGATTTTAACTTATTGTACAGGCGGAATTCGTTGTGAGAAATTCTCAGGTTGGTTAGTTCGTGAAGGTTATGAAGATGTAAGTCAGCTTCACGGCGGAATTGTAACGTACGGAAAAGACCCAGAAGTACAAGGTGAGCTTTGGGATGGACAATGTTACGTGTTTGATGAGCGTATCGCTGTACCAGTAAATCAAAAAGAACATGTTATCGTTGGTAAAGACCACTTTACAGGTGAACCATGTGAGCGCTATGTAAACTGTTCAAATCCAGAATGTAATAAGAAAATTTTATGTTCTGAAGAAAACGAAGCGAAATATTTACGTGCATGTTCTCATAAATGTCGTGTAAGTCCACGTAACCGCTACGTAATACAACATGAATTAACGGAAGAGCAAGTAGCTGCTGCATTAGAGAAAATCGAAGCAGGGAAGTAA	MATTKPYRVLLYYMYTTIENPEEFAAEHLEFCNSLELKGRILVAKEGINGTCSGTVEQTEKYMEAMNNDPRFDGIVFKIDEEEGHAFKKMHVRPRPELVTLRLEDDINPHEITGKYLEPKDFYEAMKQEDTVIIDARNDYEFDLGHFKGAIKPDIESFRELPDWIRENKETLEGKKILTYCTGGIRCEKFSGWLVREGYEDVSQLHGGIVTYGKDPEVQGELWDGQCYVFDERIAVPVNQKEHVIVGKDHFTGEPCERYVNCSNPECNKKILCSEENEAKYLRACSHKCRVSPRNRYVIQHELTEEQVAAALEKIEAGK	PGPT0013330_1164	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
AK009_00559	105			hypothetical protein	ATGTGGTATGCTGCAGTAAATGAAATTTTTATCAGCGATTTTTCAAATATATCGAATTACCGACAAATGACAGAACCGTATAACAAAAAAGGTACTCCAAAATAA	MWYAAVNEIFISDFSNISNYRQMTEPYNKKGTPK				NA	NA	NA	NA	NA
AK009_00560	1476			hypothetical protein	ATGGAGGCAATACAAACAATTGAGGAAAAAGGTGTAGCAACAGCTATATTCCAATTTATATTCCCGTTTTCGTTTAAAACTGGATATGAACAAAATATGTTCCCTTTCTTACAAAAAAACGATTTTCGTCCTTTTCGGCTCGATCATCTCGATGATGAAAATACATATTATGGGGAGTTTAAAGTTTCACATCAAAATATGGAAGCATACTATCTTTCATTTACAAATAAAATTCTCTTTCCTCACTCAGAGCATCAAAAGGGCTTGCAACGTTATTCAAAAGATCTTAACTTAACTGGACATTTAACAACAAACCTTATTTCAATTCCATTCAAGATACACTCTATTGATGTAACACTTTGTCCTTATGAACTTGGCTTCTTAACAATTCGAACAGAAGTAAACACTGCTCCAAACATGACTTTATCTGAAGCAATCGAATTCGCAGATCGCTTCCGTGTACTTGAAACTAAAACTGATACAAATGAGTCTATTTGTATTGAATGTAACGGAAAAAAGTATTCCCAAGTTGAAAAATTCATTTTTGGTTATTTATTTCATGGCGTAACTGATTTCTTTGAAAAGAAGAGATTAAGAAGTTCATACTTTCAAACCTTCCCTTTCTTTGAAGACCAGAGAATGTACGTCCAAACTTTATTGTCACTAAAAGAAGGTATGGAACTTAATGAAGTGGATGTTTATCGTACTTCCAGTCTTTCCGGATTAACAAGTGATGGTAAGCCATATGTGAGTGCAAGTAACCTTCCTTACATTCATAACTATTTAAAAAAACACGCTTACCAGAGATGGGCTCCAAATCGTTACTTCATTATGGAAGAACATATTTTTACATGTGTAACAAATGAAGGAGAACGCGAAATCGATAAACTTGCTAGTCAAATGTACGGAGAATTTTATTACGCTTTATTATTAAACCTATTCCATAAAATTGTTTTATTAAAAATGGCAAACGCCTATGCTGAGCTAAATATTGAACAAGATACTAATGAAATAGAGAAATTAATTTATTCGATTAATTCGTTCACTGCTAATTATTTTTCTTTAGAATTAGTATCTCAATCACAAAGTGAAGATATTTTCTTCCGCTTAAGAAAACTTTTTAATATTGAGGTTTTATACTCGAACGCGAAACAAAATCTTGATAGTTTGTTTAAATATCAAGAAAATGTCGCCTCAAAAAAAGATAGTCTCTTATTATTAATTTTAACGCTCTACTCTGTAGTAGGCCAAATGTTAGGGTTTACTATGATCGATCTTCTAAGAAACACCGATTCAAACAAAATATCGTCACCTCTTGAATTTTTCGCTCTATTAATTGCGATTAGCGGCATTGTCATTTCACTTATTTTAGGGGCTCAAGGGTTATACCAATGGGCTGTGCAGCACAAAAGAAGAAAAGCATGGGTAAAACAAACTGTACTGTCTGCTGTAAAAGAAAAAGAGGATAAAAATTAA	MEAIQTIEEKGVATAIFQFIFPFSFKTGYEQNMFPFLQKNDFRPFRLDHLDDENTYYGEFKVSHQNMEAYYLSFTNKILFPHSEHQKGLQRYSKDLNLTGHLTTNLISIPFKIHSIDVTLCPYELGFLTIRTEVNTAPNMTLSEAIEFADRFRVLETKTDTNESICIECNGKKYSQVEKFIFGYLFHGVTDFFEKKRLRSSYFQTFPFFEDQRMYVQTLLSLKEGMELNEVDVYRTSSLSGLTSDGKPYVSASNLPYIHNYLKKHAYQRWAPNRYFIMEEHIFTCVTNEGEREIDKLASQMYGEFYYALLLNLFHKIVLLKMANAYAELNIEQDTNEIEKLIYSINSFTANYFSLELVSQSQSEDIFFRLRKLFNIEVLYSNAKQNLDSLFKYQENVASKKDSLLLLILTLYSVVGQMLGFTMIDLLRNTDSNKISSPLEFFALLIAISGIVISLILGAQGLYQWAVQHKRRKAWVKQTVLSAVKEKEDKN				NA	NA	NA	NA	NA
AK009_00561	945	panE_1	COG1893	2-dehydropantoate 2-reductase	ATGCGGATTTTAGTATTAGGCGCTGGTGGAGTCGGAGGGTTTTTTGGTGGCAGATTAGTCGAAAAGGGAGAAGATGTTACATTTCTTGTTCGTAGTAAACGGAAAAAACAATTAGAGGAAAGAGGACTTGTAATCCGAAGTGTTAACGGGGATTTTTCCTTCCAACCGAAATTAATAACGAAAGAAGAGAGAACTTCTCCATTTGATGTCATTTTATTTTCAACAAAAGCGTATCACTTAAACGAGGCTATTCAAGATTTGAAGCCGTTTGTTGGCGAAAATACTGTAATCATTCCATTGTTAAATGGTATCGCTCATTTATCACTACTACAAAAAGAATTCGGCGAAGAAAAAGTAATTGGCGGTTTATGCTTTATCGAGACGACGTTAAACGATCAAGGAGAAATTGTACAAACTAGTGCTGCCAACAGACTTGTGTTTGGAGAAATTAAGTCTCAAAATTCAGAGAGAGTAAAGCATATTTCTAAAGCATTTGCAGGTACGAAGTCTAGTTTTGTTTTAAGTGAAAATATTACGCAAGATATGTGGCATAAATATTTATTTATTACTGTAATGTCAGGTATGACAACGTTAATGCGTGCACCAATTGGACCAATTCGTGAAAGTGAAGGCGGCCGTGATTTTATCCGTAATGTGTTTGAGGAATCTGTACAAATCATGAGAGTATTAGGAGCTCCAGTAAAGGAAAATATTGCCCAGGAACATATGAAAACGATTGATAAAATTTCGTATGATATGAAGTCATCGATGCAGCGTGATATGGAAAAGGGTTCATTTATTGAAGGGAAGCACTTGCAAGGATATTTACTGGATGTAGCAGAGAAATTTTCTATAGCGGCACCATTATTAGGAACTATATATCAAAATTTAAAGGTGTATGAAGAGATGACCTTTAACAAATCTGTAATAGAATTAGATGTATGA	MRILVLGAGGVGGFFGGRLVEKGEDVTFLVRSKRKKQLEERGLVIRSVNGDFSFQPKLITKEERTSPFDVILFSTKAYHLNEAIQDLKPFVGENTVIIPLLNGIAHLSLLQKEFGEEKVIGGLCFIETTLNDQGEIVQTSAANRLVFGEIKSQNSERVKHISKAFAGTKSSFVLSENITQDMWHKYLFITVMSGMTTLMRAPIGPIRESEGGRDFIRNVFEESVQIMRVLGAPVKENIAQEHMKTIDKISYDMKSSMQRDMEKGSFIEGKHLQGYLLDVAEKFSIAAPLLGTIYQNLKVYEEMTFNKSVIELDV	PGPT0008745_2317	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
AK009_00562	129			hypothetical protein	ATGTCTAAAGAAAAGAAGCCTATTTTTTCCGATTCATATTTAGATGCAGTAGCAAATGAAATTAATCAGTTATATGGTAAACGTGAACAGGAAATAAATTTGACAGATAGAACGAAAAGAAATAAATGA	MSKEKKPIFSDSYLDAVANEINQLYGKREQEINLTDRTKRNK				NA	NA	NA	NA	NA
AK009_00564	1827	kimA	COG0531	Potassium transporter KimA	TTGGTTTCATCTATTAAAAGATTTTTAATTGGAAGACCGTTAAAATCAACGGAGCTTGGAGAACAAAAGCTTAATAAAACGAAAGCTTTAGCTATTTTATCTTCTGACGCATTGTCATCAGTTGCTTACGGTCCAGAGCAAATTTTAATTGCTTTAGCAGGTGTTGGAGCGATCGCCTATTGGTATTCCATTCCGATCGCTGTTGGGGTATTAGTATTATTGACAGCCCTTATTTTATCTTATCGTCAAATTATTTTTGCTTATCCGCATGGCGGGGGAGCGTATGTTGTATCAAAAGAAAATTTAGGGATGAATCCAGGCTTAATTGCTGGAGGATCTTTATTAGTTGACTATATTTTAACTGTTGCGGTAAGTGTGTCCGCGGGTACAGATGCAATTACTTCTGCGTTTCCTAGCTTACATGCACATAACGTAATTATTGCGGTTATATTTGTTATATTAATTACGATATTAAATTTAAGAGGAGTAACGGAATCAGCTTCCGTGCTAGCATATCCTGTTTATTTATTCGTTTTAGCACTATTTATATTAATTGGTGTGGGCATATATAATATTTTAACTGGTCATGTTTCACCTACTTTACATGCGCCGATTGGAACACCAGTTGCAGGAATTAGTTTATTTTTATTACTAAGAGCATTTGCATCAGGTAGTTCTGCTTTAACAGGTGTTGAAGCAATTTCAAATGCAATTCCGAACTTTAAAGATCCTGCGCCAAACAATGCTGCAAAAACATTGCTTGCAATGGGTGCATTACTTGCTGTGTTATTTTCAGGAATTGTATTTTTAGCTTATTATTACGGAGTGACTCCGAGTAAAGAAGTAACAGTTGTTTCTCAAATTGCTGAACAAACATTTGGACGTAATTTCATGTACTATTTCATACAAGGTACAACAGCTTTAATATTAATTCTCGCTGCTAATACAGGCTATTCTGCATTTCCTTTATTAGCGGTTAACCTTGCAAAAGATAAATTCATACCGAGAATGTTTACGATTAGAGGAGACCGTTTAGGTTACTCAAACGGTATTATTATACTTGGAGTTGCTTCGATTATTTTAATTGTAGCTTTCCAAGGACAAACAGAACATTTAATTCCACTATATGCAGTAGGTGTATTTATTCCATTTACACTTTCTCAAACAGGGATGGTATTAAAATGGCTTCGGGAAAAACCTGAAGGATGGGCTTTAAGATTAACGGTTAATTTAATTGGTGCAGTTATTAGTTTTATCGTAATGAGCATGTTCTTTTTAACTAAATTTGCACAAGTTTGGTCGATACTTATTTTCTTACCTGCAATCATATTCTTATTCCACAGAATTAAGAAGCACTATGATGCGGTAGGTGATCAGTTAAGTTTAAAAACTTGTGAACCACTTGTTCCGATTAAGGGAAATGTAATCGTCGTTCCGGTAGCTGGTATGACTCACGTAGTAGAAAATTCATTGAACTATGCTAAGGCTCTTTCGGCAGATCAAGTTATTGCTGTATATGTTGCTTTTGACAGGGAAGAGGAAAAGAAATTTGAAGAGAAATGGAAAAAGTGGCAACCTGAAGTTAGGCTTGTTACATTACATTCTCATTATAGAAGTATTATCCAGCCGCTAACGAAGTTCATCGATACAGTGCAATATAAGGCAAGTGAATCGAATTACCGCGTTACGGTCGTTATACCACAGTTCATTCCGAAAAAAGGTTGGCATAACATTCTTCATAATCAATCCAGTTTACTCATACGTGCGTATTTACTGTATAAAAGAAATGTTGTTATTACGACAGTTCCATATCATTTGAAAAAATAA	MVSSIKRFLIGRPLKSTELGEQKLNKTKALAILSSDALSSVAYGPEQILIALAGVGAIAYWYSIPIAVGVLVLLTALILSYRQIIFAYPHGGGAYVVSKENLGMNPGLIAGGSLLVDYILTVAVSVSAGTDAITSAFPSLHAHNVIIAVIFVILITILNLRGVTESASVLAYPVYLFVLALFILIGVGIYNILTGHVSPTLHAPIGTPVAGISLFLLLRAFASGSSALTGVEAISNAIPNFKDPAPNNAAKTLLAMGALLAVLFSGIVFLAYYYGVTPSKEVTVVSQIAEQTFGRNFMYYFIQGTTALILILAANTGYSAFPLLAVNLAKDKFIPRMFTIRGDRLGYSNGIIILGVASIILIVAFQGQTEHLIPLYAVGVFIPFTLSQTGMVLKWLREKPEGWALRLTVNLIGAVISFIVMSMFFLTKFAQVWSILIFLPAIIFLFHRIKKHYDAVGDQLSLKTCEPLVPIKGNVIVVPVAGMTHVVENSLNYAKALSADQVIAVYVAFDREEEKKFEEKWKKWQPEVRLVTLHSHYRSIIQPLTKFIDTVQYKASESNYRVTVVIPQFIPKKGWHNILHNQSSLLIRAYLLYKRNVVITTVPYHLKK				NA	NA	NA	NA	NA
AK009_00565	1161			hypothetical protein	GTGAAAAAGACTTTAATTACAGGGTTATTGGTTACAGCAGTATCTACGAGTTGCTTCATTCCTGTAAGCGCTTACGCTAAGGAGGGGCAAACGGAAGTGAAAACAGTATATGCACAAAATGTAATTGCTCCAAATACATTATCCAATTCAATTAGAATGTTAGGATCACAATCACCGCTTATTCAAGCATATGGATTAATTATTTTACAACAGCCAGATATTAAGGTAAATGCGATGAGTAGCTTAACGAATCATCAAAAGTTTGCAAAGGCGAATGTACGAGAATGGATTGATGAATATAATCCGAAGCTAATTGACTTAAATCAAGAGATGATGAGATACAGCACTAGATTTAATAGCTATTATAGTAAGCTCTATGAATTAGCAGGAAACGTAAATGAAGATCAGCAAGCAAAAGCAGATTTTATGAGTGCATATGGAAAATTACAATTGCAAGTACAAAGCATCCAAGAGAGTATGGAGCAAGATTTATTAGAGTTAAATCGATTTAAAACAGTATTAGACAAAGATAGTAACAACTTATCAATTAAAGCCGATGAAGCAATAAAAACACTGCAAGGATCAAGTGGAGATATTGTGAAATTAAGAGAAGATATTAAAAGAATTCAAGGTGAAATTCAAGCTGAATTAACTACTATTTTGAATAGACCTCAAGAAATCATTAAAGGTTCTATTAATATTGGTAAACAAGTATTTACAATCACAAATCAAACTGCACAAACGAAAACAATCGATTTTGTTTCTATCGGTACTTTAAGTAATGAAATTGTAAATGCTGCAGATAGTCAAACGAGGGAAGCAGCTCTTCGCATTCAACAAAAGCAAAAGGAGTTATTGCCACTTATTCAAAAGTTATCACAAACTGAAGCAGAGGCGACTCAAATTACATTCGTTGAAGATCAAGTAAATAGCTTTACAGAATTAATTGATCGTCAAATTACAACTTTAGAAACGTTATTAACGGATTGGAAAGTTTTAAATAATAATATGATTCAAATTCAAACAAATGTCGAAGAAGGCACGTATACAGACAGTAGTTTACTTCAAAAACATTTCAATCAAATTAAAAAAGTAAGTGATGAAATGAATAAGCAAACAAATCAATTTGAAGATTACGTTACAAACGTTGAAGTACATTAA	MKKTLITGLLVTAVSTSCFIPVSAYAKEGQTEVKTVYAQNVIAPNTLSNSIRMLGSQSPLIQAYGLIILQQPDIKVNAMSSLTNHQKFAKANVREWIDEYNPKLIDLNQEMMRYSTRFNSYYSKLYELAGNVNEDQQAKADFMSAYGKLQLQVQSIQESMEQDLLELNRFKTVLDKDSNNLSIKADEAIKTLQGSSGDIVKLREDIKRIQGEIQAELTTILNRPQEIIKGSINIGKQVFTITNQTAQTKTIDFVSIGTLSNEIVNAADSQTREAALRIQQKQKELLPLIQKLSQTEAEATQITFVEDQVNSFTELIDRQITTLETLLTDWKVLNNNMIQIQTNVEEGTYTDSSLLQKHFNQIKKVSDEMNKQTNQFEDYVTNVEVH				NA	NA	NA	NA	NA
AK009_00566	1209	hblA_1		Hemolysin BL-binding component	ATGACAAAAAAACCTTATAAAGTAATGGCTCTATCAGCACTTATGGCAGTATTTGCAGCAGGAAATATTATGCCGGCTCATACGTATGCAGCTGAAAGTACAGTGAAACAAGCTCCAGTTCATGCGGTAGCAAAAGCTTATAATGACTATGAAGAATATTCATTAGGACCAGAAGGCCTAAAAGATGCAATGGAAAGAACAGGTTCAAATGCTTTAGTAATGGATCTGTACGCTTTAACAATTATTAAACAAGGTAATGTTAACTTTGGAAATGTATCGTCTGTTGATGCGGCTTTAAAAGGGAAAGTAATTCAGCACCAAGATACAGCTAGAGGAAATGCGAAGCAATGGTTAGATGTATTAAAACCACAGCTTATTTCAACGAATCAAAATATCATTAACTACAATACGAAATTCCAAAACTATTATGATACTTTAGTTGCTGCAGTTGATGCAAAGGATAAAGCGACTCTTACGAAAGGCTTAACTAGATTATCAAGTAGTATTAATGAAAATAAAGCACAAGTGGATCAGTTAGTAGAAGACTTGAAGAAATTCCGAAATAAAATGACTTCGGATACGCAAAACTTCAAGGGTGATGCAAATCAAATTACATCTATATTAGCTAGTCAAGATGCAGGAATTCCGCTATTACAAAATCAAATTACAACGTACAATGAAGCAATTAGTAAATATAATGCAATTATTATCGGTTCATCTGTTGCGACAGCTCTAGGACCAATTGCAATTATCGGTGGTGCAGTAGTTATTGCTACGGGCGCAGGAACACCGCTAGGAGTAGCATTAATTGCAGGTGGTGCAGCAGCTGTAGGCGGTGGTACAGCTGGAATCGTATTAGCGAAGAAAGAGCTTGATAATGCACAAGCAGAAATTCAAAAGATAACAGGACAAGTTACAACTGCGCAATTAGAAGTAGCTGGATTAACGAACATTAAAACACAAACAGAGTATTTAACAAATACAATTGATACTGCAATTACAGCGTTACAAAATATTTCAAACCAATGGTACACAATGGGATCAAAATATAATTCTTTACTTCAAAATGTGGATTCAATTAGTCCAAACGACCTTGTTTTCATTAAAGAAGATTTAAACATTGCGAAAGATAGCTGGAAAAATATTAAAGACTATGCAGAAAAGATTTATGCTGAAGATATTAAAGTAGTAGATACGAAAAAAGCATAA	MTKKPYKVMALSALMAVFAAGNIMPAHTYAAESTVKQAPVHAVAKAYNDYEEYSLGPEGLKDAMERTGSNALVMDLYALTIIKQGNVNFGNVSSVDAALKGKVIQHQDTARGNAKQWLDVLKPQLISTNQNIINYNTKFQNYYDTLVAAVDAKDKATLTKGLTRLSSSINENKAQVDQLVEDLKKFRNKMTSDTQNFKGDANQITSILASQDAGIPLLQNQITTYNEAISKYNAIIIGSSVATALGPIAIIGGAVVIATGAGTPLGVALIAGGAAAVGGGTAGIVLAKKELDNAQAEIQKITGQVTTAQLEVAGLTNIKTQTEYLTNTIDTAITALQNISNQWYTMGSKYNSLLQNVDSISPNDLVFIKEDLNIAKDSWKNIKDYAEKIYAEDIKVVDTKKA				NA	NA	NA	NA	NA
AK009_00567	1080	hblA_2		Hemolysin BL-binding component	ATGCAGAAAAGATTTTATAAAAAATGTCTTTTAGCGGTAATGATTGCTGGGGTGGCAACGAGTAACGTATCTCCTTTACATCCTTTTGCAGCAGAACAAAATGTAAAGGTACTACAAGAAAATGTGAAAAACTATTCTCTTGGACCAGCTGGATTCCAAGATGTAATGGCACAAACGACATCGAGTATATTTGCAATGGATTCATATGCAAAATTAATTCAAAATCAACAAGAGACGGATTTAAGTAAAATAAGTTCGATTAATAGTGAATTTAAAGGGAATATGATTCAGCATCAAAGAGATGCAAAAATTAATGCAGCATATTGGTTAAATAATATGAAGCCTCAAATTATGAAAACGGATCAAAATATTATAAATTACAATAATACTTTTCAATCGTATTATAACGACATGTTAATAGCGATTGATCAAAAGGATAGCGGAAAATTAAAAGCGGATTTAGAAAAGTTGTATGCGGATATTGTAAAGAATCAAAATGAGGTAGATGGATTATTAGGAAATTTGAAAAGTTTTCGCGATAGAATGGCGAAAGATACAAATAGTTTCAAAGAGGATACAAATCAGTTAACAGCGATATTGGCAAGTACGAATGCTGGTATTCCAGCTCTAGAGCAACAAATAAATACATATAACGATTCGATTAAAAAGAGTAATGATATGGTCATTGCTGGTGGCGTACTTTGCGTAGCGCTAATAACATGTCTTGCTGGCGGGCCGATGATTGCGGTTGCAAAAAAAGATATCGCAAATGCAGAAAGAGAGATAGCTAATTTAAAAGATAGAATTTCAGGAGCACAAGCAGAAATCGTAATTTTGACTGATGTAAAAAATAAAACAACAAACATGACGGAAACAATTGATGCAGCAATTACAGCACTACAAAACATATCAAACCAATGGTATACAGTAGGTGCAAAATATAATAATTTACTACAAAACGTAAAAGGAATTAGTCCGGAAGAGTTTACGTTTATAAAAGAAGATTTACATACAGCGAAAGATAGCTGGAAAGATGTAAAGGATTATACAGAAAAATTACATGAAGGTGTGGCAAAGTAA	MQKRFYKKCLLAVMIAGVATSNVSPLHPFAAEQNVKVLQENVKNYSLGPAGFQDVMAQTTSSIFAMDSYAKLIQNQQETDLSKISSINSEFKGNMIQHQRDAKINAAYWLNNMKPQIMKTDQNIINYNNTFQSYYNDMLIAIDQKDSGKLKADLEKLYADIVKNQNEVDGLLGNLKSFRDRMAKDTNSFKEDTNQLTAILASTNAGIPALEQQINTYNDSIKKSNDMVIAGGVLCVALITCLAGGPMIAVAKKDIANAEREIANLKDRISGAQAEIVILTDVKNKTTNMTETIDAAITALQNISNQWYTVGAKYNNLLQNVKGISPEEFTFIKEDLHTAKDSWKDVKDYTEKLHEGVAK				NA	NA	NA	NA	NA
AK009_00568	1230			Aminopeptidase 2	ATGACTTTTGAAGAAAAATTACAAGCATATGCAGAACTTACGGTGAAAATCGGTGTGAATATTCAACCAGGGCAATACTTATTAGTCAATACATCAGTGGATGCATTGGATTTCGCCCGTATAGTTGTGAAAGAGGCTTATAAGGCTGGGGCAGGGCGTGTTCATGTTAATTTCTCGGATGAAGAAATGGAACGTGCTTACTTTGATTATGCCTCAGATGAAGAATTTAATCGCTTCCCAGAGTGGATAGTCAAAATGAATGATGAGCTGATCGAATGTAAAGGAGCATTATTAATGATAGATGCTACAGATCCTGATAAATTTACAGGTATTTCATCTAATCGTCTAGCTACCTATCAAAAGGTAGCAGGAGCTGCTCTGAGCAACAATCGCAACGCCGTAATGAAGGATTCAGTAGCTTGGTCTATGGTAGCAGTTCCTTCACCAAAGTGGGCATCGAAGGTGTTCCCGGATTTAGCAGCTGAGGATCAAGTACCAGCATTATGGGAGGCTATTTTTAAAGCTGTTCGTATTGGTGAAGGCAGTGCTATTGAAAAATGGCGTGAACATGTAAAAAATTTAGAATCTCGTGCGGTCCTACTGAACAATAAAAAATATATAAAGCTTCACTATACAGCGCCAGGTACTGATTTAACAATTGCATTAGCACCACAGCATAAATGGATTACTGGAGGTGGCAAAACTCCTGATGATACTATCTTTATGGCTAATATGCCGACCGAAGAGGTTTATACGTTACCGATGAAACAAGGTGTAAATGGCTATGTAAGCAATACAAAACCATTAGTTTATCAAGGGAATATTATCGACGGCTTTAAACTGACATTTGAAGAAGGAAAAATTGTTAAAGCTGAAGCACAGGTAGGACATGATTTATTACAGGAGCTTATTAATGTGGATGAAGGCTCGTGCTATTTAGGTGAGATAGCACTTGTACCAAATGAATCACCAATTTCAGCATCGGGAATTTTATATTTTAATACATTGTTTGATGAAAATGCATCGAACCATTTAGCGATTGGTAAAGCTTATCCAACTTGCTTAGAGGATGGAAGAGATTTAGAAAACGATCAGCTTGAAACGTTAGGTGCAAATATTTCAGTAACACATGAGGATTTTATGATTGGCAGCAGTGAGATGGACATCGACGGTATTCTACCAGATGGAACTGTAGAACCAATTTTCCGTAAAGGTAGCTGGGCATTTTAA	MTFEEKLQAYAELTVKIGVNIQPGQYLLVNTSVDALDFARIVVKEAYKAGAGRVHVNFSDEEMERAYFDYASDEEFNRFPEWIVKMNDELIECKGALLMIDATDPDKFTGISSNRLATYQKVAGAALSNNRNAVMKDSVAWSMVAVPSPKWASKVFPDLAAEDQVPALWEAIFKAVRIGEGSAIEKWREHVKNLESRAVLLNNKKYIKLHYTAPGTDLTIALAPQHKWITGGGKTPDDTIFMANMPTEEVYTLPMKQGVNGYVSNTKPLVYQGNIIDGFKLTFEEGKIVKAEAQVGHDLLQELINVDEGSCYLGEIALVPNESPISASGILYFNTLFDENASNHLAIGKAYPTCLEDGRDLENDQLETLGANISVTHEDFMIGSSEMDIDGILPDGTVEPIFRKGSWAF	PGPT0020940_95	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
AK009_00569	1371			hypothetical protein	ATGAATTTCTGGGAAGTTGTTTTGATAGTAGTGAATTTTAGTCTATTGAGTTGGATACTGTTAATAGGCAGAGAAACGAAAAAGTGGTCTAAATTAGCTACTTTGATTGCCGTTGTAATGGTTACAGTTCAGTTATTGGCAGAAGGTTTTAGGTGGCAGATGATTCCGGCATATGTATCCCCAGTTATCTTAATTTTATGCTATTTATTAACTGGGCGGAAAAAGGGCTGTAGAAGTTGGGGTATATTCATAGTTAAGACCTCGTTGCTATGTATCTATTTGTCTGTAGCAGTGGCGCTACCTTTACTTATGCCAGTATTTTCATTTGAAGAACCAACCGGCCCACATAGGATCGGTACGAAGGTATATCATTGGATTGATCATCAGAGAAATGAAGCATATTCGAAAAATCCAACCGATCGGCGCGAACTGATGGTGCAAATTTGGTATCCTACAGCTGAAAAAAGTAAGGGGGATCCAGAACCTTATATTCGTAACAGAAATGAGCTTTCCAAGGGATTGGAAAAAACATTGTCCATTCCTGCATTTGCATTCAGCCACATGGAATTGGTAAAATCTCATTCGTTTATGGATTTACAACTCTCAGATTCAGAGAATCATTATCCCATATTACTTTTCTCTCATGGTTTTAATGGTTTTCGTAATCAAAACACGTTTCAAGTTGAGGAGTTGGCTAGTCAAGGATATATTGTTCTAAGTATCGATCATACCTTTGATGCTGCAGCTACCGTCTTTCCAGATGGTCGAACTGCTTACGTACAGCCCATCAATTTAACTGATGAAGGGGATAGCCACATAAAATTATGGGAGGAAGATGTCAGCTTTGTCCTTAATCAGATAGAGAAACTTAATCAAAACGATGAGACCGGCTTCTTTACAGGAAGAATGGATACTTCGCGAATTGGAATGTTTGGTCACTCTTACGGTGGAGCTACCGCAGCACAAATACTTGCAAAAGATTCTCGTGTCAAAGCAGCTATCAATATGGATGGTACATTGTATGGAGAAATCTTTCCTGAAAGTGGAATTGGAAAACCATTTCTACTCATGAGTGCAGAAGAGCCTGATGAAGCAGATCCCTATGAAGTGAGGGAGCGATATGGACGTGGGTTAGCTGGTGGTGGTATGTCAATGGTCATACCTCATACGGATCATACAAGCCTCACTGATTTACATTTGTTCTCCCCTCTGTTGCAGAGTCCAGGTGAAAATCCAAAGGAAGTTCATCGTATTATCAACGAATTCAGCCTGGCATTTTTTGACCAGTATGTAAAACAGAAGGATGACGGCTCAACCCTTAAAAGGCTGATGACCAAATACCCGGAAGTGAATTTTAAAGTAAACCGATAA	MNFWEVVLIVVNFSLLSWILLIGRETKKWSKLATLIAVVMVTVQLLAEGFRWQMIPAYVSPVILILCYLLTGRKKGCRSWGIFIVKTSLLCIYLSVAVALPLLMPVFSFEEPTGPHRIGTKVYHWIDHQRNEAYSKNPTDRRELMVQIWYPTAEKSKGDPEPYIRNRNELSKGLEKTLSIPAFAFSHMELVKSHSFMDLQLSDSENHYPILLFSHGFNGFRNQNTFQVEELASQGYIVLSIDHTFDAAATVFPDGRTAYVQPINLTDEGDSHIKLWEEDVSFVLNQIEKLNQNDETGFFTGRMDTSRIGMFGHSYGGATAAQILAKDSRVKAAINMDGTLYGEIFPESGIGKPFLLMSAEEPDEADPYEVRERYGRGLAGGGMSMVIPHTDHTSLTDLHLFSPLLQSPGENPKEVHRIINEFSLAFFDQYVKQKDDGSTLKRLMTKYPEVNFKVNR				NA	NA	NA	NA	NA
AK009_00570	585			hypothetical protein	ATGAAGAAAGACTTGTCAGCGTTGAAGGAAGCGAGATTTAATGCAATTCTTGATTCGGCTACTATATTGCTTGTTGAAAATCCTACTGCTTCGATGAATGAAATTGCGGAATATGCGGGAATTGGAATTGCTACACTCCATCGCTACGTCGAAAGCAGGGAGAAATTGATGCTGTTCTTAGGCCATCGGGCTATACAACTGGTAAGTGATACTGTAAACCAGATTCCACTGGATGAGGAAAGAAGCGAAAACTATATCCCGGAACTCATTGAAGCGTTAATCCCTTTAGGTGACAAAATCTATTTTCTAGGTCATGATGCATCTGTATTTAACAACAAAGAATTAGGTAAAGCAGAAGAGAAGCTGAGGGAACCCTTACGACGCGTTATTGAGCTGTTACAACAAAGAGGTTATTTTCAGCAAACGGTTAGCAGCGAATGGATTTTGAATACGCTTTATGCTCTGCTTTTCCATACTTGGGAACAGGTACATGAAGGAAATGTGGCTAAAAAATCTGCTGCAGAGCTTGTTTTAAATACATTTTATTATGGTTTTAAAGCTAAGGATGATTTGAGAGGTAAGTGA	MKKDLSALKEARFNAILDSATILLVENPTASMNEIAEYAGIGIATLHRYVESREKLMLFLGHRAIQLVSDTVNQIPLDEERSENYIPELIEALIPLGDKIYFLGHDASVFNNKELGKAEEKLREPLRRVIELLQQRGYFQQTVSSEWILNTLYALLFHTWEQVHEGNVAKKSAAELVLNTFYYGFKAKDDLRGK				NA	NA	NA	NA	NA
AK009_00571	624			hypothetical protein	ATGAATCAAATCTCTATTGTAAAGGCTGTTCATCAATCCATGGTCGGCGCCCAGTTAAATGTAATGGCATTGGAATACATGGCGTTTCCACTTGCAGGATCTGAGGAGAAGAACACAGTCGAAGGGACATTTTGTAAGCTCTGGCGGCAGGAGAACAACCGTTTTAGTCATCAATACGCTTATGAAGCTCAAATGGACGGGAAAACTTTAGGGATGATTACTTGCTATCCCATACCCGTTTTAAACCGTCTTGCCTGGTCCACTTTTAAACAGCTGCTTTCATTCCGAAAGCTGGGTTTTGTTATTTATAACATTTTGAATATCAAAATGCTTTATTCCATGTTTACCTTGAAGGAGGGAGAAGATGACGAGTTTCACATCGGAACAATTGCCTTATTGCCCGAAAGTCGAGGACTAGGGATAGGTACCAGACTACTTAAGTTTGCCGAGGAACAAGCTTCCCTGCAAGGCTTTGCCAAATGCTCTCTGACGGTAAAGAAAGAGAATCAACTTGCCATTAAATTGTATCAGAGGATAGGCTACCAGATTACAGGCGAAATTAATAAACCAAAGTTATCGTTGTACAGAATGGTCAAAAACGTAGAATCTTACAACCGTTTATAA	MNQISIVKAVHQSMVGAQLNVMALEYMAFPLAGSEEKNTVEGTFCKLWRQENNRFSHQYAYEAQMDGKTLGMITCYPIPVLNRLAWSTFKQLLSFRKLGFVIYNILNIKMLYSMFTLKEGEDDEFHIGTIALLPESRGLGIGTRLLKFAEEQASLQGFAKCSLTVKKENQLAIKLYQRIGYQITGEINKPKLSLYRMVKNVESYNRL				NA	NA	NA	NA	NA
AK009_00572	312			hypothetical protein	ATGATTGTAACAACAACTTCTGGAATTCAAGGTAAAGAGATTATTGAGTATATTGATATTGTAAATGGTGAAGCTATTATGGGTGCAAATATTGTCCGCGATGTATTCGCTTCCGTTCGTGATGTTGTCGGTGGCCGTGTTGGTGCTTATGAAAGTAAGCTAAAAGACGCTCGTGATATTGCAATGGGCGAAATGAAAGAACTTGCAAAAGAAAAAGGTGCGAACGCTATCGTTGGTATTGACGTAGATTACGAAGTTGTTCGTGATGGAATGTTAATGGTTGCTGTCAGTGGTACAGCTGTACGTATATAA	MIVTTTSGIQGKEIIEYIDIVNGEAIMGANIVRDVFASVRDVVGGRVGAYESKLKDARDIAMGEMKELAKEKGANAIVGIDVDYEVVRDGMLMVAVSGTAVRI				NA	NA	NA	NA	NA
AK009_00573	654			hypothetical protein	GTGAACTTTATAAAAATGAATAAAAAAGAAATCATTATGCTCATAATCTTTACAATGTTTGTACCATTTCAAATTGGCTTGTACATATTATTTGGCATATCACTTTTAGCTAATGTCAATTTAGTTGAATCAGAATTTGTTCTTAGTGCCATCGGTTTTACTGTACCTGCTATTGTAGGAATCATTTTCTTTAGGAAAGAAATTATTGAAAGTTTTACTTATTTTAAAGAGAAGACAATTTTGAAAATAGTAAGTATTCCTATGGTAGTTTTATTTACGGTAATTGTGGAACAGTGTGTTATGCGTTTTCTAGCAACTGGTCAACCAGAGAACCAAGAGCAGCTCCTTGAAACGGGTGCGGAGGTACCTCTTGTATTTACATTGCTTGTATTTGGTATTCTGGGTCCAATACTTGAAGAAATTGTGTTTCGTCACATATTAATAAATCGTTTTTCTTACCATATTGGTACTGCTATTGCATCTATCATTTCGATTATGATTTTTACACTTCTTCATACGAACCAACTTTCGGATATTGCTATTTATTTACCTGGATCGTTGATACTTACTGCGGCTTATCTTATTTCTAAAAGATCCATTGCATATGTTATAGCGATACACATGTTAAACAATTGCCTTGGTTTCATTCTGTAA	MNFIKMNKKEIIMLIIFTMFVPFQIGLYILFGISLLANVNLVESEFVLSAIGFTVPAIVGIIFFRKEIIESFTYFKEKTILKIVSIPMVVLFTVIVEQCVMRFLATGQPENQEQLLETGAEVPLVFTLLVFGILGPILEEIVFRHILINRFSYHIGTAIASIISIMIFTLLHTNQLSDIAIYLPGSLILTAAYLISKRSIAYVIAIHMLNNCLGFIL				NA	NA	NA	NA	NA
AK009_00574	591			hypothetical protein	ATGACTAAAGTTGATAAGGTTAAAGAAAAAATTATTGAAACATCTTTATATTTATTTAATACTAATGGGATAACTCGCACATCCATCCAGGATATAATGACAGCTACTGAACTACCTAAAGGATCTATTTATCGTAGATTCAAAAGTAAAGAAGAAATTGTCCTTGCTGCCTACGACAAAAGTGGTGAGATTATGTGGAGTCATTTTCATAAAGCAATGGAAAATAAAAAGACAGCAATCGATAAAATCCTTGCAATTTTCCTTGTATATCAAGATGCAGCTAATAATCCTCCTATTGCTGGAGGCTGTCCATTACTTAATAGCGCAATTGAAAGTACTGGAGTATTTCCAGAATTACAAAAAGCAGCAGCAAAAGGTTATGATGATACAGTAATGTTAATGGCTTCTCTCATAAAAGAAGGAATAGAGAAACAAGAACTTAAAGAAGATATAGAGGTTATATCACTTGCTTCCTTTCTTGCATCTTCAATGGAGGGGGCTATTATGGCAAGTCGAGTATCTAACGATAATATACACCATCATTATTTTATTGAACAAATAAAACATCATCTTTTCACTTATTCTAAATAA	MTKVDKVKEKIIETSLYLFNTNGITRTSIQDIMTATELPKGSIYRRFKSKEEIVLAAYDKSGEIMWSHFHKAMENKKTAIDKILAIFLVYQDAANNPPIAGGCPLLNSAIESTGVFPELQKAAAKGYDDTVMLMASLIKEGIEKQELKEDIEVISLASFLASSMEGAIMASRVSNDNIHHHYFIEQIKHHLFTYSK				NA	NA	NA	NA	NA
AK009_00575	948	deoR	COG2390	Deoxyribonucleoside regulator	ATGGAAAAAGATAAACAACAATTAAGTGTTGAAGTTGCAAGATTATATTATCAATCAGATTATAGCCAGCAAGAAATTGCTAACAAATTAAATATTTCAAGACCGACGATTTCTAGATTGTTAAAGTACGCCAAAGAGAAAGGGTTTGTTCAAATTAGCATCGCTGATCCATTTGCGGATTTAGATAACGTTGGGAATTTACTAAAAGAAAAGTACAACTTGTTAGAAGCGCATGTTGTATTTTCTCCAGTGCCAGAATATGCAACGATTACAGAGTATATTAGTAAATATGCAGCTGAGTATATGGGAAAGACGGTTAAAAATGGTGATATCGTTGGTGTAAGCTGGGGAATGACGATGTATGAAATCGCTAGAAAAATTGTACCACAACATGTAAAAGGTGTAGAAGTTGTTCAGTTAAAAGGTGGTATTAGTCATTCAAGTGTAAATACATATGCGAATGAGACCATTGCTTTATTTGCAGATGCTTTTCAAACGACGCCAAGAAATCTACCTCTTCCAGTTATATTTGATAATGCAGTGACAAAAGAATTAGTAGAGCAGGATCGACATATTCATCACATTATCGAAATGGGGAAACAAGCGAATATTGCAATTTTTACTGTAGGAACAGTGCGAGATGAAGCGCTATTATTCCGATTAGGTTATTTCGATAAGGAGGAAACAAGTTTACTCAAAAAACAATCGGTCGGTGACATTTGTTCACGTTTCTTTGATGGAGACGGAAATATTAGTAGTGAAGAAATTAATAAGCGGACCATTGGAATTGAGTTAGAGGAACTGAAATTAAAAAAACGCTCTATTTTAGTTGCAGGTGGTAATAGAAAAATAAAAGCAATTGATGGTGCGTTACGTGGCGGGTATGCAAATGTATTAATTATCGATCAGCATACAGCAAAAGAATTGTTACATTATCAAAAAGATTAG	MEKDKQQLSVEVARLYYQSDYSQQEIANKLNISRPTISRLLKYAKEKGFVQISIADPFADLDNVGNLLKEKYNLLEAHVVFSPVPEYATITEYISKYAAEYMGKTVKNGDIVGVSWGMTMYEIARKIVPQHVKGVEVVQLKGGISHSSVNTYANETIALFADAFQTTPRNLPLPVIFDNAVTKELVEQDRHIHHIIEMGKQANIAIFTVGTVRDEALLFRLGYFDKEETSLLKKQSVGDICSRFFDGDGNISSEEINKRTIGIELEELKLKKRSILVAGGNRKIKAIDGALRGGYANVLIIDQHTAKELLHYQKD				NA	NA	NA	NA	NA
AK009_00576	672	deoC	COG0274	Deoxyribose-phosphate aldolase	ATGAATATTGCAAAGTTAATTGACCATACAATTTTAAAAGCTAATACTACAAAAGAAGATGTTATGAAAGTAATCGAAGAAGCAAAGGAATATAAATTCGCTTCTGTTTGTATTAATCCTACATGGGTAAAGCTAGCTGCTGAAGAATTAGCTGGACATGGTGTAGATGTTTGTACTGTAATCGGTTTCCCATTAGGAGCAAGCACTACTGAAACAAAAGCTTTCGAAACAAAAGATGCTATCGAAAAAGGTGCAACTGAAGTTGATATGGTAATCAACGTAGGCGCTTTAAAAGATGGCGATAACGAGTTCGTTGAAAAAGATATTTATGAAGTAGTACAAGCAGCAAAAGGAAAAGCTCTTGTAAAAGTAATCATTGAAACTTGCCTATTAACAGATGAAGAGAAAGTACGAGCTTGTGAATTATCAGTAAAAGCTGGTGCTGATTTCGTAAAAACTTCAACTGGATTCTCAACTGGCGGAGCAACTGCTGAAGATATCGCATTAATGCGTAAAACAGTAGGACCAAACGTTGGTGTAAAAGCATCTGGTGGCGTTCGTACACGTGAAGATGCAGACAAAATGGTAGCTGCTGGAGCTTCTCGCGTTGGAGCAAGTGCTAGTGTTGCAATCGTATTAAATGATGCAAAAGGTGCTACAGATAACTACTAA	MNIAKLIDHTILKANTTKEDVMKVIEEAKEYKFASVCINPTWVKLAAEELAGHGVDVCTVIGFPLGASTTETKAFETKDAIEKGATEVDMVINVGALKDGDNEFVEKDIYEVVQAAKGKALVKVIIETCLLTDEEKVRACELSVKAGADFVKTSTGFSTGGATAEDIALMRKTVGPNVGVKASGGVRTREDADKMVAAGASRVGASASVAIVLNDAKGATDNY	PGPT0017445_2879	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
AK009_00577	1182	nupC_1	COG1972	Nucleoside permease NupC	ATGAAATACTTAATTGGTATTTTTGGCCTCGTATTGATTTTAGGTATCGCTTGGCTTGCTAGTAATAATAGAAAGAAAGTCAAATATCGCCCAATCATAACGATGGTTATATTACAATTCATTTTGGGGTTTTTATTATTAAATACAAGTGTAGGGAATATATTAATTAGCGGAATAGCAGATGGTTTTGGAGAGCTATTAAAATATGCCGCTGACGGTGTGAATTTCGTATTTGGTGGATTAGTAAATCAAAAAGAGTTTTCGTTCTTTTTAAGTGTATTAATGCCAATCGTATTTATATCAGCTTTAATAGGTATTTTGCAACACATTAAAGTATTACCTATTATTGTGAAATCTATCGGTCTAGCATTAAGTAAAGTAAATGGAATGGGGAAACTAGAATCATATAATGCTGTTGCTTCTGCGATTTTAGGACAATCTGAAGTGTTTATTTCAGTTAAGAAACAACTAGGGTTATTGCCAGAGAAAAGAATGTATACATTATGTGCATCTGCAATGTCTACCGTTTCAATGTCTATCGTTGGATCGTATATGGTGTTATTAAAACCACAATATGTTGTAACCGCTTTAGTGCTTAACTTATTCGGTGGTTTTATTATCGCTTCTATCATTAACCCGTATGAAGTTACTGAAGAAGAAGATATGTTAGAAGTGCAAGAAGAAGAGAAAAAGACTTTCTTTGAAGTATTAGGGGAATACATTATAGATGGATTTAAAGTTGCGATTACAGTAGCAGCTATGTTAGTCGGTTTCGTTGCTCTTATCGCATTCATTAATGCAGTATTTAAAGGTGTAATCGGTATCTCATTCCAAGAAATTCTTGGTTATGTATTTGCGCCATTTGCATTTATTATGGGTATACCTTGGCATGAAGCAGTTAATGCCGGAAATATTATGGCAACAAAATTAGTATCAAATGAATTTGTCGCTATGACAGATTTAGCGCAAGGAAACTTTAATTTCTCAGATAGAACGACAGCGATTATATCTGTATTCTTAGTTTCATTTGCAAACTTCTCTTCAATTGGAATTATTGCAGGGGCAGTTAAGAGCTTAAATGAAAAGCAAGGGAATGTAGTCGCAAGATTCGGTTTGAAATTACTTTTCGGTGCAACATTAGTAAGTTTCTTATCCGCAACAATCGTTGGCTTATTATTTTAA	MKYLIGIFGLVLILGIAWLASNNRKKVKYRPIITMVILQFILGFLLLNTSVGNILISGIADGFGELLKYAADGVNFVFGGLVNQKEFSFFLSVLMPIVFISALIGILQHIKVLPIIVKSIGLALSKVNGMGKLESYNAVASAILGQSEVFISVKKQLGLLPEKRMYTLCASAMSTVSMSIVGSYMVLLKPQYVVTALVLNLFGGFIIASIINPYEVTEEEDMLEVQEEEKKTFFEVLGEYIIDGFKVAITVAAMLVGFVALIAFINAVFKGVIGISFQEILGYVFAPFAFIMGIPWHEAVNAGNIMATKLVSNEFVAMTDLAQGNFNFSDRTTAIISVFLVSFANFSSIGIIAGAVKSLNEKQGNVVARFGLKLLFGATLVSFLSATIVGLLF	PGPT0021065_475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_00578	1302	pdp_1	COG0213	Pyrimidine-nucleoside phosphorylase	ATGAGAATGGTAGATATTATTGCAAAAAAACGTGATGGCAAAGAATTAACGACTGAAGAAATCAAATTCTTTATTAATGGATATACAGACGGAAGTATTCCTGATTATCAAGTGAGTGCACTTGCAATGGCAATCTTCTTTAAAGATATGACAGATCGTGAACGTGCAGATTTAACGATGGCGATGGTGGAGTCTGGAGAAACAATCGACTTATCAGCAATTGAAGGAATTAAAGTAGACAAACATTCAACTGGCGGTGTTGGTGATACAACAACATTAGTATTAGGACCATTAGTAGCTGCTTTAGATGTACCAGTAGCAAAAATGTCTGGTCGTGGTTTAGGACATACTGGCGGAACAATTGATAAATTAGAAGCAGTAGAAGGATTCCACGTTGAAATTACGAAAGAGCAGTTCATTGATATTGTAAACCGTGACAAAGTAGCTGTTATTGGACAAACAGGAAACTTAACACCTGCAGATAAAAAAATTTATGCATTACGTGATGTAACAGGAACTGTTAACTCAATTCCTCTAATTGCAAGTTCAATTATGAGTAAAAAAATTGCAGCTGGTGCTGACGCAATCGTACTTGATGTAAAAACAGGTGCTGGCGCATTTATGAAAACAGAGGAAGATGCAAAAGAATTAGCACATGCAATGGTACGTATCGGAAATAATGTAGGACGTCAAACGATGGCTGTTATTTCAGATATGTCACAACCTCTTGGCTATGCGATTGGTAACGCTCTAGAAGTGAAAGAAGCAATTGATACTTTAAAAGGTGAAGGGCCAGAAGATTTAACAGAATTAGTACTCGTATTAGGTAGCCAAATGGTCGTACTTGCGAAAAAAGCAAGTACATTAGAAGAAGCTCGTGAAATGTTAATTGAAGTTATGAAAAATGGAAAAGCAACTGAGAAATTTAAAGAGTTCTTAAGCAACCAAGGCGGAGACAGCTCGATTGTAGACAATCCAGAAAAAATGCCACAAGCTAAGTATGTAATTGATGTACCTGCAAAAACTTCAGGTGTTATTTCTAACATTGTTGCAGATGAAATCGGTATCGCAGCTATGTTACTAGGTGCTGGCCGCGCGACAAAAGAAGATGAAATCGATTTAGCGGTAGGATTAATGTTACGTAAAAAAGTTGGCGATGCAGTAAAAGAAGGCGAGCCATTCGTAACAATCTATGCAAACCGTGAAAATGTAGAAGATGTAAAAGCAAAAATCTATGAGAACATTTCTATCGCTGAAACAGCAGTGGCTCCTAAATTAGTTCATACAGTTATTACTGACTAA	MRMVDIIAKKRDGKELTTEEIKFFINGYTDGSIPDYQVSALAMAIFFKDMTDRERADLTMAMVESGETIDLSAIEGIKVDKHSTGGVGDTTTLVLGPLVAALDVPVAKMSGRGLGHTGGTIDKLEAVEGFHVEITKEQFIDIVNRDKVAVIGQTGNLTPADKKIYALRDVTGTVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKTEEDAKELAHAMVRIGNNVGRQTMAVISDMSQPLGYAIGNALEVKEAIDTLKGEGPEDLTELVLVLGSQMVVLAKKASTLEEAREMLIEVMKNGKATEKFKEFLSNQGGDSSIVDNPEKMPQAKYVIDVPAKTSGVISNIVADEIGIAAMLLGAGRATKEDEIDLAVGLMLRKKVGDAVKEGEPFVTIYANRENVEDVKAKIYENISIAETAVAPKLVHTVITD	PGPT0021295_797	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756	NA	NA
AK009_00579	396	cdd_1	COG0295	Cytidine deaminase	ATGGATAAGAAAAAATATATTGAAGAAGCAAATAAGATGTTAGCAAAAGCATATATTCCGTATTCAAAATTTCCTGTTGGTGCAGCATTAGTTACGAAAGAAGGTAAAATCTATACTGGTTGTAATATAGAAAATGCTTCTTACGGTCTATGTAACTGCGCAGAAAGAACAGCGATCTTTAAAGCAGTATCAGAAGGGGAGCGTGACTTTAGTTACTTAGTTATTACAGGCGAAACAGACGCACCGATTTCACCATGTGGTGCTTGTAGACAAGTAATTGCTGAATTCTGTGAACCGAAAATGCAAGTTTTACTAACGAATGTAAAAGGTGATGAAAAGGAAGTGACTGTTGAGCAATTACTTCCAGGTGCTTTCTCAATAGAAGATTTAAAATAA	MDKKKYIEEANKMLAKAYIPYSKFPVGAALVTKEGKIYTGCNIENASYGLCNCAERTAIFKAVSEGERDFSYLVITGETDAPISPCGACRQVIAEFCEPKMQVLLTNVKGDEKEVTVEQLLPGAFSIEDLK	PGPT0021360_3553	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK009_00580	276			hypothetical protein	ATGGGACAATTTCAAAGTAATTTTCAAAGCGCTACACAAATCGCAACGCAAATGAGGGCAGCTTCAGATACAATCCAAAGCGCAACAAATCGTTCTATAAAAAAGGCGACACGTACTACGCTTTCAGTTAATTCAAAAGCACAAGAAGCGAACCAACAAGTTTTAGATTTGACGAAACAATTTTCCACCGCCTTTCAACAAGCGGTCGATAATATTCATTCGGTAGCCAAAGAGTTTGAGAGAATGGATCACGAGCTTCACAATACTTTCCGCTAA	MGQFQSNFQSATQIATQMRAASDTIQSATNRSIKKATRTTLSVNSKAQEANQQVLDLTKQFSTAFQQAVDNIHSVAKEFERMDHELHNTFR				NA	NA	NA	NA	NA
AK009_00581	363			hypothetical protein	ATGGATCGAGATATCAAAAAACAAATTAAACAGTTAAATCAAAAATTACGAAGTGTATTTGAAGAACAGGACCGAAATCAATCCGCGCTTCGAACTCAGGAACAAGCGGAAGCTGATTTTCACGAATTGAAAAATCGAAGCAACCGCTTATTTAACCGTATTTTAGAAACTTGGCACAACGATAAAGAGTTATCTCATTTCTTTATAAATATCCGTCAAGAAGCACAACACATTGAGCGAAAACTTACATTTGAATTAGAAAATCAAAAAGAAACATTACTTAAAGAAAGACGAGACCTTAGTGATTCAGAAAACGACCTATCCTACCAGCAACAACAATTAGCAAGGGAGGTCAATGCATGA	MDRDIKKQIKQLNQKLRSVFEEQDRNQSALRTQEQAEADFHELKNRSNRLFNRILETWHNDKELSHFFINIRQEAQHIERKLTFELENQKETLLKERRDLSDSENDLSYQQQQLAREVNA				NA	NA	NA	NA	NA
AK009_00582	135		COG5444	Ribonuclease	ATGAGTTTAAATATGTATTTGGGAGAAGTACAAAGCCAAACTCAAAGCATGAATGCTGTATGTACAGCTACCATTCAAGGTATGGAACAAGCCATTCAATCGATTGATGCTTTTACAAGTGATACCGTTCTATAA	MSLNMYLGEVQSQTQSMNAVCTATIQGMEQAIQSIDAFTSDTVL	PGPT0027685_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BC_0920-BC_0921_TOXIN-ANTITOXIN_SYSTEM,PGPT0027685-toxin_BC_0920-K21496	NA	NA
AK009_00583	1218			hypothetical protein	ATGAAAGCAAGTATGGAAGCCATCACTCAAACTATGCCAATACCAGGTATAGACGCTATGGCAAATCTTTTTACTGTCATGAGGAAAAAACTTCAAGAAAAGTTAGACCATCTACATGAATTTAATCAAACGTCTAGCAATAACTATGCTACAGCAATTCAATTAGCTAATAGTATTGCTACAGGTCTTGCAGAAGTACAAAGTGGAAAAGGTTTTAGTCCTGCAAGTGGTACATTTAGTAAACAAGTATTGAATATGGAGTGGACGACTTCTATCCAGGCGATTACAGAAGATAGGAATCGTCAGGCTGATAATTCAATTGAAGAAGGTGCAATGTGCGGTAAAATTTCGCCTAAATCTGACTTCGAGAAGGCTTGGGAAAGAGAGAAAAAGGATCTAAGTGATGCATGGACTGGTATTTCTACAGGTTTTGTAGATGGTGCTGTAGATGCATGGGAAGGATTCGTAGCTTTAGGCGATAAAGAAACGTGGTTAAACATGCGAGATGCAATTATTAATTATAAAGAAACACTTCCTGCTGCATGGAATACTTTATCAGATTCATTCATTAATGATTTCTGGAACGGAGATATGGAAAGTAGAGAGCACTATGCTGCCTATGGTGTAGCATCATTATTAACAGGTTTTATTGGTGATAAAGGTCTTAGTAAAGCAGGACAAGCAGGGAAGTTAGCAATCGCTGGCAACCTAGCAAAAGGAAAGTCGTTTATGACTAATTCTGCTGCATATAGAAATGTATTAACTGATTTTAAGTTGAACACTGGAAACCGTTTGGCTTATGCTGATGTTGGAGGAAGTTCTATAAAATATGAACTTGGTGGGGCATACCAAGAAGCGAAAGACTTATTAAATCAATTTGCGGTTTCAAAAGAGGAATATAAAGATTTAAGGAAGAGAACACCCAATAATAGGATAAGAAAAAGCGTAAATACAGACGTACCCAAAATTGATCCTGTATATGGTTATGAAGTGGAAAAACTTGAAGCTGACCACATTGTTTCAATGAAAGAAATAACGGACATGGAAGGTTTTGACCTATTACCGAGAGAACAACAAATAGAAGTGCTTAATATGGATGTAAACTTTGTTGGACTTGGAAAACCAACAAATGCTTCTAAGAATGCAAAAGATTGGAGTACATGGCCGGGGCACCCTAAATACGGCGGAAATTATAAGACTAGAAATGTTAGAACGTGA	MKASMEAITQTMPIPGIDAMANLFTVMRKKLQEKLDHLHEFNQTSSNNYATAIQLANSIATGLAEVQSGKGFSPASGTFSKQVLNMEWTTSIQAITEDRNRQADNSIEEGAMCGKISPKSDFEKAWEREKKDLSDAWTGISTGFVDGAVDAWEGFVALGDKETWLNMRDAIINYKETLPAAWNTLSDSFINDFWNGDMESREHYAAYGVASLLTGFIGDKGLSKAGQAGKLAIAGNLAKGKSFMTNSAAYRNVLTDFKLNTGNRLAYADVGGSSIKYELGGAYQEAKDLLNQFAVSKEEYKDLRKRTPNNRIRKSVNTDVPKIDPVYGYEVEKLEADHIVSMKEITDMEGFDLLPREQQIEVLNMDVNFVGLGKPTNASKNAKDWSTWPGHPKYGGNYKTRNVRT				NA	NA	NA	NA	NA
AK009_00584	615			hypothetical protein	TTGAAAACAATAGTTAAAAATATAGGTGGTAAAAAGATAATAGCTACAGCAGAAGAACATTTAGGCCCCCAGATAGAAAAGTTATTGTATTTGCTAACTAAAGTAGAAGATAACAAATTAGTTGATAGATTTTCTATGCAAGTTGGTTGGTCTATTTTTGTTCTATCCAAACGTGAAGATGGGTATCATATTATTGCCCCAGATTATACAAAAAATCCATTTAAGGATACTACAGATGATCTAACAATTGCTTTATGGGTGCAATTAGAACAAGTGCATTGTTTACGTCAGTTAAATATTGACGGTGAAACAATAAAGTTTAGCGATAAAATAGTGACTTCAAAAAATGTGTTACAACTAGATGAGGTTTATTTACAAAGAGCTAGGGATTGTGACAAAGGTGATTCTGGTTGGTATATCGGTCCTGTCGATGAAACAGAAGAAACTGACGGTGAATTAGAAGCATATTACGCATATCAGCTACTAAAAATTAGACCTTCAATTATTCAAGTTTTAGCCTTACCTTATGAATATCTGGTAGTTTTTGAGAAAGATAAAATCAAAGCCATTTTAGATGATAATGATGTCGATGTTTGGAATGGAGTTACAAACTAA	MKTIVKNIGGKKIIATAEEHLGPQIEKLLYLLTKVEDNKLVDRFSMQVGWSIFVLSKREDGYHIIAPDYTKNPFKDTTDDLTIALWVQLEQVHCLRQLNIDGETIKFSDKIVTSKNVLQLDEVYLQRARDCDKGDSGWYIGPVDETEETDGELEAYYAYQLLKIRPSIIQVLALPYEYLVVFEKDKIKAILDDNDVDVWNGVTN				NA	NA	NA	NA	NA
AK009_00585	93			hypothetical protein	ATGAACTCAAAAATCCCGGAAATTCTAGGAATATTAGACGGTTATGAGAAAAGGGTAATTTTAGTAATTATAGAAACTGAAGCAATGGTTTAA	MNSKIPEILGILDGYEKRVILVIIETEAMV				NA	NA	NA	NA	NA
AK009_00586	396			hypothetical protein	ATGAAGAAATTATATAATGCGGCATTTATTTACTTAATTATTGGTTTATTATCAGGTGTATTTGCAAGAGAGTATACGAAAGCACAAGGAATTAAAGGATCCACAATGTTGCAATTAGTGCATACACATGTATTAGTGCTCGGTTTTGTATTCTTTTTAATTGCTTTAGCTTTATGTAAAGTGTTTCATGTACAAGAAACAAAGAGCTTTTGTGCATGGTTTGTTGTTTATAATGTAGGAGTAATCTTTACTATTGCTACAATGCTATGGAGAGGTCTTTTACAAGTAAATGGAACTGACTTTTACGGTTTAAGCCATATGGCTGGATTAGGTCATGTTATTATAAGTATCGGGCTCGTTTGGTTTATGATTTTGCTCAAAAAGTCTTTTAAATAG	MKKLYNAAFIYLIIGLLSGVFAREYTKAQGIKGSTMLQLVHTHVLVLGFVFFLIALALCKVFHVQETKSFCAWFVVYNVGVIFTIATMLWRGLLQVNGTDFYGLSHMAGLGHVIISIGLVWFMILLKKSFK				NA	NA	NA	NA	NA
AK009_00587	480			hypothetical protein	ATGATAGCACTTTTATCAAGTGTCATAGCGTTTTGTATGGCTGTTGGAGTAATGTTTCTACGTTTTAAAGCAGCGAAAAAGCCGGTAACGAAAAAGAAAATTATATTACCACCAATTTTTATGAGTACAGGCGCGATGATGTACTTTTTACCAGAGTTTCGATTAACATCGTTAGAAATAGTCGAGGCAATTAGTATAGGGCTTATTTTCTCTATTTTTCTTATTAAAACAACTAAGTTCGAAATAAAAGGCGAACATATATTTATGAAACCGTCAAAAGCATTCATATTTATTTTAGTAGGCTTATTAGCTGTACGCGTGGCATTAAAGTCATATTTAAGCCAATCAATTGATTTGGCAGAGTTAAGCGGAATGTTTTTCTTACTTGCATTTGCGATGATTGTGTCGTGGAGAATTGCGATGTATCGCTCGTTTACTAAATTAGAAAAGACAATAAACAGAGCTGGAATTTCTATATAG	MIALLSSVIAFCMAVGVMFLRFKAAKKPVTKKKIILPPIFMSTGAMMYFLPEFRLTSLEIVEAISIGLIFSIFLIKTTKFEIKGEHIFMKPSKAFIFILVGLLAVRVALKSYLSQSIDLAELSGMFFLLAFAMIVSWRIAMYRSFTKLEKTINRAGISI				NA	NA	NA	NA	NA
AK009_00588	231			hypothetical protein	ATGCAAAACATTTTATTCCGTATTAATGAATTATCAAAAAAAGAAAGAACATCTGGATTAACAGTTGATGAAAAACAAGAACAACAAATGTTGCGTCAAAACTATACAGAAACATTTCGTGGAAGCCTAGATTCCATTTTATTAAATACAAAAATTGTTGATCCTAATGGTCTTAACGTTACACCAGTTGCATTACAAGATGCTCAAATACGTTTAAAATTAAGCAAATGA	MQNILFRINELSKKERTSGLTVDEKQEQQMLRQNYTETFRGSLDSILLNTKIVDPNGLNVTPVALQDAQIRLKLSK				NA	NA	NA	NA	NA
AK009_00589	1284	pepP	COG0006	Xaa-Pro aminopeptidase	ATGAAATCAACATTTTTTGCTCAAAATAGAGAACGATTAGCAAACACATTACCAGAGGAATCCATTACGATTTTATTTGCTGGACAAGCACCTCATATGTCAGCCGATGCACATTATAAATTTGTACCGAATCGTAATTTTTACTACTTAACGGGAATCGGTGAACCAAATGTTATTTTTATGCTGAAAAAGTTTGGGAATAGTGTAGAAGAGACACTTTTCATTGAAAAATCAGATCCAGTAATGGAAAAATGGGTTGGGAAAACAGTTTCTAGCGAAGAAGCAGAGGGAATTTCAGGTATAAAGAAAGTTGTATATTTAGATAGCTTTGAAAAGACAATGTCAAATATACTTTTTACAGAAAATGCGAAGCATCTATATTTAGATATAGAAAGTCGTGAGTGGAATGGTATGGAGACAAAAACATTAGCATTTGCTAAACATGTAAGAGAAAAATACCCACACGTAACAATTGGTAATGTATATCCGAACATTTGTGAATTACGAGTATTTAAAACAGAAGAAGAAATTGAAATTATTAAAGAAGCGATTGCTATAACGAAAGACGGTATTTACAACGTACTTAAGCATGCAAAAGCAGGCATGATGGAGTATGAATTAGAAGCACAATTTGATTTTACACTGAAATCATCTGGCATTAAGCACCATGCATTCAATACAATTTTGGCGAGTGGGAAAAATGCTACAGTTCTTCATTATGAAGATAATGATGCACAAATTCAAAATGGTGATTTAGTATTGCTAGATTTAGGCGCTCAAAAAGACTACTATAACGCTGATATTAGTTATACATTCCCGGCAAATGGAACATTCTCTAGTCGCCAAAAACAAATTTATAATATTGTATTAAAAGCATTAAAAGAAACAACAGAGATTATTAAGCCAGGATTAAAGTTCGCTGCATTAAATGAGCATACAAAAAAGGTACTGGCAGAAGAGTGTAAAGCAATTGGTTTAATTCAAGAAGATGAAGAGTTATCAAAATACTATTATCATGGTGTCAGCCATTTCCTTGGTTTAGATACACATGATGTAGGAACATATAAAGATAGAGTGTTAGAAGAAGGTATGGTTATTACGATAGAACCAGGTCTTTATATTGAGGAAGAGTCAATTGGTATTCGAATAGAAGATGATATTCTTGTAACGAAAGACGGGTATGAAAACTTGTCAAAAGATATCATTAGAGAAGTTGAAGAAATTGAAGAATTTATGAGTATAAATAATGAACATGTAAAAGGAAACCAAGCTGTAGTTAAATAA	MKSTFFAQNRERLANTLPEESITILFAGQAPHMSADAHYKFVPNRNFYYLTGIGEPNVIFMLKKFGNSVEETLFIEKSDPVMEKWVGKTVSSEEAEGISGIKKVVYLDSFEKTMSNILFTENAKHLYLDIESREWNGMETKTLAFAKHVREKYPHVTIGNVYPNICELRVFKTEEEIEIIKEAIAITKDGIYNVLKHAKAGMMEYELEAQFDFTLKSSGIKHHAFNTILASGKNATVLHYEDNDAQIQNGDLVLLDLGAQKDYYNADISYTFPANGTFSSRQKQIYNIVLKALKETTEIIKPGLKFAALNEHTKKVLAEECKAIGLIQEDEELSKYYYHGVSHFLGLDTHDVGTYKDRVLEEGMVITIEPGLYIEEESIGIRIEDDILVTKDGYENLSKDIIREVEEIEEFMSINNEHVKGNQAVVK	PGPT0006770_5436	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
AK009_00590	636			hypothetical protein	ATGAAAATTGATAGACCAAAAATTTCACCAGAGTTATCTTCAAAGAATTTTCAAGATATTTTTTATGAAGAAGATCCAACATTGGAAGTGTGTGAAATTATAGACTCCACTTTCGAAAATGAATCTGTAGATAGAGTACGATTATATGATGCGGTGATAAAAAACTGTAAGTTTACTAATACAGACTTTAGCAATATTGATATTACAGATGTTTGTTTTGAAAACTGTGATTTATCAAATGTTAATTTAAGCAATTCTTCTGTTCACAGAGTCGAATTTAAAAACAGTAAATTAATCGGAGTAAATTTCACAGAATCTAGCTTAGGAAATGTTAAATTTGAGAATTCAATTTTGAATTTAGCGGCATTTGGAAATTCCAAACTAGAAAAAATCATCTTCAATGAAACTTCATTAAATATTGCAGATTTTTTTGACTGTAAACTTAAAAAAGTTGAATTCCAATTATGTAGTCTTGATGAAGCTAATTTTGATCAGACATCACTGAAGGGGATAGATATTAGTTCTTCTAGCTTTGATACGCTTACAGTTTCAGTGAACGATTTAAGAGGATGTAAAGTATCAACATATCAAGCTGTTCAGTTTGCAACTTTATTAGGATTAATAATTAAAGATTAG	MKIDRPKISPELSSKNFQDIFYEEDPTLEVCEIIDSTFENESVDRVRLYDAVIKNCKFTNTDFSNIDITDVCFENCDLSNVNLSNSSVHRVEFKNSKLIGVNFTESSLGNVKFENSILNLAAFGNSKLEKIIFNETSLNIADFFDCKLKKVEFQLCSLDEANFDQTSLKGIDISSSSFDTLTVSVNDLRGCKVSTYQAVQFATLLGLIIKD				NA	NA	NA	NA	NA
AK009_00591	1641	mmcO	COG2132	Multicopper oxidase MmcO	ATGAAGCGATTTGTATTAAAAGCTGTTACGGTCTCTGTAATATTTTTAATTGCTGCATGTTCTTTGGCCACAAATACAACAAATGATCATAAAAATATGAAAGATAAAAAAACAATACAGACTGAAACAGCTACAAAACCATTGAAGGTTCAAAAAGGACCAGAAGTTACTTTAATAGCGAAAGAAGAAAAGCAAAAGTTAAGTAACGGTGTTATTGTTCCAGTCTGGACATTTAATGGATCATCTCCTGGTCCAGAAATTCGGGTGAAAAAAGGTGAAAAGGTGAAAGTGACATTAAAAAATGAATTATCTGCACCAGTATCTATTCATTGGCATGGATATCCTGTCCCAAATAACATGGATGGAATTCCAGGCGTGACACAAGATGCAGTTGAACCAGGAAAAAGTTTCACTTACGAATTTGAAGCGAACGTACCAGGAACGTACTGGTATCACTCGCATCAAGATTCTGTAAATCAATTAGATAGAGGTTTGTATGGAGCGCTCATTGTAGAAGATACAAAGGAAAAATATGATAAAGATTACACATTAATGTTGGATGAATGGGTTACAGATAAAGAAGAAATGAATAAGCAGTTAAAAGAAATGACAAAAGGGCAAATAGGTAATAAATCTAAAGGTAATGAAAATGAGGAAAAGAATGATGATAAGAACGGCATGGATCATTCTGGTATGGACGTGGGCAGTGATCAAAAAGACTCTAGTAATATGGAAGGAATGGACCATGGAAATATGAAGATGGAAGGTCATGATATGAGTATGTATGATTTATTCACAATCAATGGAAAAAGCGGTGATTTAGTAGTGCCATTGAAAGTGAATAAGGGAGATAAAGTTCGTTTTCGACTCGTTAATGCTGGTTATCTATCACATGATATACATGTTCACGGTCATGATATAAAAGTAATTGCGACAGATGGTCAACCAATAAACGATCCAAAAGTTATAAAGGATAAAGTAATTTCAATCGCACCGGGCGAACGTTATGATATTGAATTTACTGCTAATAAAACTGGGAAATGGTATGTTGAAGACCATTCGAAAAATAAAGGTGCAAAAGGAATGAAAGCTGTTATTGAATATGATGGCAGCAAAGAGATGAAAGATAAAGCAGACGAAAAAGAAAAATTACCGAAAGTAGATATAATGAAATATGGTACTAAAAAATTAGGTAGTTTCACGTTAAATCAAGAGTATACTGCCACATATAATATGGACTTAAATACGCAAATGAATGGAAATGAAATGGTATATACAATTAACGGAAAGGTATTTCCGGATATTGACCCAATTCAAGTAAAAAAGGGTGATTTAGTAAAAGTGAAGTTGGTAAATCGTTCTAAAATGGATGATCACCCAATGCATTTACACGGGCACTTCTTTCAGGTGTTGAGTAAAGATGGAAAACCGATAAAAGGTTCTCCAATTGTAAAAGATACATTGAACTTAAAACCAGGAGAAGAATATGAAGTAGCCTTTGTAGCAGACAATCCCGGTGAGTGGATGTTCCACTGTCACGACCTACATCATGCTTCAGCAGGAATGGTAACGGAAGTGAACTATACAGATTATAAATCTGACTATGTTCCAAACCAAAACATTCCTAATAAGCCAGAATAA	MKRFVLKAVTVSVIFLIAACSLATNTTNDHKNMKDKKTIQTETATKPLKVQKGPEVTLIAKEEKQKLSNGVIVPVWTFNGSSPGPEIRVKKGEKVKVTLKNELSAPVSIHWHGYPVPNNMDGIPGVTQDAVEPGKSFTYEFEANVPGTYWYHSHQDSVNQLDRGLYGALIVEDTKEKYDKDYTLMLDEWVTDKEEMNKQLKEMTKGQIGNKSKGNENEEKNDDKNGMDHSGMDVGSDQKDSSNMEGMDHGNMKMEGHDMSMYDLFTINGKSGDLVVPLKVNKGDKVRFRLVNAGYLSHDIHVHGHDIKVIATDGQPINDPKVIKDKVISIAPGERYDIEFTANKTGKWYVEDHSKNKGAKGMKAVIEYDGSKEMKDKADEKEKLPKVDIMKYGTKKLGSFTLNQEYTATYNMDLNTQMNGNEMVYTINGKVFPDIDPIQVKKGDLVKVKLVNRSKMDDHPMHLHGHFFQVLSKDGKPIKGSPIVKDTLNLKPGEEYEVAFVADNPGEWMFHCHDLHHASAGMVTEVNYTDYKSDYVPNQNIPNKPE	PGPT0004106_172	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004106-pcoA-NA	NA	NA
AK009_00592	249			hypothetical protein	ATGATGGGAGCAATGATTACAGAAATGTTAAACGCTCAACAAGCTCATAGTATATTGTTCATTAGCCTTTTACTTACTATAACGATTACTATGTCCTGTGTGATTCAATTGTTATCGGAGAACTTTTCTACTTTTATCCAACAGCGTTTTTTGTTATTACTTTCAATTAGTGTAGTAATTATCGTTGCCGTATTCGCGACATTCCCAGATCATACTCCTGCACCTGGGCATAATCAACATATACATTAG	MMGAMITEMLNAQQAHSILFISLLLTITITMSCVIQLLSENFSTFIQQRFLLLLSISVVIIVAVFATFPDHTPAPGHNQHIH				NA	NA	NA	NA	NA
AK009_00593	321			hypothetical protein	ATGTTTGCTTATACGTTAACTACCTTAACACTTTGCTGTACCTCAATTCTTATTGCATCCAATATTTCCAAACGTAAGGGTACCCTAATGGAGTATATGGTATTTATTATGTCTTTTAGTATGAGTATCGGTTTAAGTATTGGTTTTTATTTAGGCATTCTCTTTAAGGGGGAATTACTATATTCTACTTTACTTGCTATTTTAATTAGTGGGTCTACGTTTTCATCTATATACTGCTTTAGAAGGAATGTTCTCTGGATTAATGGCAAGTATGATGGGAGCAATGATTACAGAAATGTTAAACGCTCAACAAGCTCATAG	MFAYTLTTLTLCCTSILIASNISKRKGTLMEYMVFIMSFSMSIGLSIGFYLGILFKGELLYSTLLAILISGSTFSSIYCFRRNVLWINGKYDGSNDYRNVKRSTSS				NA	NA	NA	NA	NA
AK009_00594	2145	topB_1	COG0550	DNA topoisomerase 3	ATGAAATTAATTATTGCCGAGAAACCAGATCAAGGGTTGGCTCTTGTTTCACAGTTTAAATATCGCCGGAAAGATGGATATTTAGAAGTAGAAGCAAATGAGTTATTTCCAAATGGAGCGTACTGTACATGGGCAATTGGTCATTTGACGCAGTTATGTAATCCAGAGCATTATCACGCAGAGTGGAAAAAATGGTCACTTAATACATTACCGATGATTCCAGAGCGTTTTCAATTTGAAGTAACAAAGTCAAAGTATAAGCAATTTAACGTTGTGAAACAGCTGTTACATAATCCACAGGTAACAGAAATTATTCACGCAGGCGATGCTGGGCGTGAAGGGGAACTAATCGTACGAAATATTATTAATCTTTGTAACGTGCAAAAGCCTATGAAGCGTCTATGGATTTCGTCTTTAACGAAGCAAGCTATTTATCAAGGGTTTAAAAATTTACTTGATGAATCAGATACAATTAATACGTATTACGAAGCATACACAAGATCTTGTGCTGACTGGGTTGTTGGCATGAATGCATCACGTGTGTTTAGTATTTTGTTAAAGAAAAAAGGAATGAATGATGTATTTTCTGCTGGTCGTGTCCAAACACCAACGTTAGCATTGATTGTAAAGCGTGAGAAAGAAATTGAAAACTTTAAGTCAGAGCCTTTCTGGGAAGTGTTTGCAACCTTTAATATAGAAGGAAAGAAATATGACGGGAAATGGGAGAAGGATAATGAATCCCGCTTAAAAGACCCTGATATGGCGAATAAAATTGCGGCATTTTGCCAAGGGAAACCGGCTGTTGTGAAGGAAATGAAAACGGAGCGTAAAGAGTTTCAGCCGCCGCTTTTATTCAACTTATCATCACTGCAAGCAACGGCAAATAAAGCCTTTAAGTTTTCACCGAAAAAGACGCTTGATATAACGCAAGCACTCTATCAAAAAGGGATTGTTTCTTATCCACGTTCAGATTCTAACTATGTTACTCAAGGAGAAGCAGCGACTTTCCCTGATATTTTACAGAAGTTAAGTCAGTTTGATGAATATAAAGGTTTATTACCGGCTCCGGTTGAATCCATTATGAACAATAAGCGTTATGTAAATGAAAAGAAAGTAACAGATCACTACGCGATTATTCCGACAGAGCAAGTTACAAATCCAAGCAAACTATCAGGTGATGAAAAGAAAATTTACGATATGATCGTAAGAAGACTAATTGCGGCGCATTATGAAGTAGCGATTTTTGACTATACAACGATTACAACTCTTATAGACGAACGTGCTGCGTTCATTTCGAAAGGAAAACAGCAAATTCAAGAAGGTTGGCGTAAAGTTATTTTCCAAGATGATAAAGATGACGAAACAATTCTTCCAATTGTTGCTGAAGGCGAAGAAGGAAAAGTTGTAAAGGTGAAAGTGAAAGAAGGAAAAACACAGCCGCCGAAGCGTTATACAGAAGGACAACTTATTACGTTAATGAAAACGGCAGGTAAGTATTTAGAGAATGAAGAGCTTGAGAAAGTATTAAAGAAAACAGAAGGTTTAGGTACTGAGGCAACTCGTGCAGGTATTATTACGATGCTGAAAGACCGTAAATATATAGATGTGCAGAAAAACCAAGTGTATGCGACCGATAAAGGAAAAGTATTAATTACAGCAATCGGTGATAAAATACTCGCTTCACCAGAAATGACTGCAAAATGGGAGCAACGCCTTGCGGAAATCGGGGAAGGTACAGCTTCACCAGCTACATTTATGGAACAGACGAAAAAGCTATCAGCTAAAATTATTGAAGACGCAGTGGAAATGTCTGAGAAGTGGGATTTCACGGGACTACATGTTGAATCGATTGAACGAAAAGGATCGAAATTTACAACGGGTAAAAAGGTTGGTAGCTGTAAAAAATGTGATGGCGATGTAATTGATAAGTCAACGTTTTACGGTTGTTCTAACTATAATACAACGCAATGTGATTTCACCATTTCAAAGAAGATATTAAGTAAAACAATTTCGCAAAAGAATATGACAAAGCTCTTAAAAGGTGAAAAGACTGATTTAATTAAAGGCTTTAAAAAGGGCGAGAAAACGTTTGATGCGAAATTAGAGTGGAAAGATAATAAGATTAATTTTGTATTTGAGAATTAA	MKLIIAEKPDQGLALVSQFKYRRKDGYLEVEANELFPNGAYCTWAIGHLTQLCNPEHYHAEWKKWSLNTLPMIPERFQFEVTKSKYKQFNVVKQLLHNPQVTEIIHAGDAGREGELIVRNIINLCNVQKPMKRLWISSLTKQAIYQGFKNLLDESDTINTYYEAYTRSCADWVVGMNASRVFSILLKKKGMNDVFSAGRVQTPTLALIVKREKEIENFKSEPFWEVFATFNIEGKKYDGKWEKDNESRLKDPDMANKIAAFCQGKPAVVKEMKTERKEFQPPLLFNLSSLQATANKAFKFSPKKTLDITQALYQKGIVSYPRSDSNYVTQGEAATFPDILQKLSQFDEYKGLLPAPVESIMNNKRYVNEKKVTDHYAIIPTEQVTNPSKLSGDEKKIYDMIVRRLIAAHYEVAIFDYTTITTLIDERAAFISKGKQQIQEGWRKVIFQDDKDDETILPIVAEGEEGKVVKVKVKEGKTQPPKRYTEGQLITLMKTAGKYLENEELEKVLKKTEGLGTEATRAGIITMLKDRKYIDVQKNQVYATDKGKVLITAIGDKILASPEMTAKWEQRLAEIGEGTASPATFMEQTKKLSAKIIEDAVEMSEKWDFTGLHVESIERKGSKFTTGKKVGSCKKCDGDVIDKSTFYGCSNYNTTQCDFTISKKILSKTISQKNMTKLLKGEKTDLIKGFKKGEKTFDAKLEWKDNKINFVFEN				NA	NA	NA	NA	NA
AK009_00595	1248			hypothetical protein	ATGAACAGTAACAATTTGATTGTTAAACATATGGATAACCCCCATGAGTTGGAGAAGATGTATAGAAAAGATCCGAAAGCTTTTAAAAAAGCATTCTCACAAGCATGGGGCCAAAACCCTGATTCTCAAATTCTAGGTGCTTGGTATGAAAGGTTGCATTTTAAGGAGAAAGTAAATAAAGAAAAAACATCTTTGTTTCAAAAAGGTTTCTTATTCATGGGCCTTTTAGCTATTCTGGCCGGCATAAGCACTAGAATCATTTTCCACTTTGTTGAGCAGGAAGCAATTGCTCCAATTAATTTGGCTTTTGGTGTAATTCCCTTTATTGCTGCTTATTTTGTTTACAATAATAAGCCGAAAAAAAGTATTATTTATTCCCTTATAGCGTTATTCCTAGTTTCCGGGGTGTATCTTAATACGTTGCCAATAAATTATAAAGACAGTACCATACTTGCGTATTTACATCTTCCTATATTTTTATGGGTCTTAGTAGGGCTTGCATTTACAGGAAATGAATATTCAAAAGGCAGTACAAGATTAGCCTATATTAAATTTAATTTAGAATATTGTCTTCTCTACGGGAGCATGGCAGTGAGCGGAATGATACTAGCAATATTCACCATGCGTTTATTTAGCTTTGTTGATTTAGATATAGGAGAATTCTATTTTAGTAATGTTGTTTTATTTGGAGCAGCGGCTCTCGCTATTGTGACTGCATACTTAGTATCAATGAATCTTAAGCTTGCTAAAAATATTACACCATACATATCTAAAATTTTTAGTCCTCTCGTCCTGATTACCTTGCTTATCTATCTTATAACGGTAATTTTGGTCGGGAAAAATCCATTCTTGGATCGCAATTTCCTAATGGCCTTCAACGGAATACTGCTTGGTGTATTGGCTGTTACTATATTTTCTATCGTTGAGAGTGACTCAGACGAGAAAAAGAGTATTTCAGATTATATAAATTTTGCCTTAATTGTTCTGGCACTTATTATTGATACTGTTGCATTGTCAGCCATCGTATTTAGACTTTCTTCTTACGGGATTACACCTAATAGACTAGCTGTTTTAGGTGTAAACATACTGATCTGGGCAAATCTAATTTGGATTATGTTTTCCTATATGCGTTTCTTGCAAAATAAATCAGGACCAAAAGCTATCCAAGATGCCGTTACGAAGTATTTGCCAATATACGGACTTTGGGCAGCTTTCGTCATATTTACGTTTCCTATCATTTTTAATTAG	MNSNNLIVKHMDNPHELEKMYRKDPKAFKKAFSQAWGQNPDSQILGAWYERLHFKEKVNKEKTSLFQKGFLFMGLLAILAGISTRIIFHFVEQEAIAPINLAFGVIPFIAAYFVYNNKPKKSIIYSLIALFLVSGVYLNTLPINYKDSTILAYLHLPIFLWVLVGLAFTGNEYSKGSTRLAYIKFNLEYCLLYGSMAVSGMILAIFTMRLFSFVDLDIGEFYFSNVVLFGAAALAIVTAYLVSMNLKLAKNITPYISKIFSPLVLITLLIYLITVILVGKNPFLDRNFLMAFNGILLGVLAVTIFSIVESDSDEKKSISDYINFALIVLALIIDTVALSAIVFRLSSYGITPNRLAVLGVNILIWANLIWIMFSYMRFLQNKSGPKAIQDAVTKYLPIYGLWAAFVIFTFPIIFN				NA	NA	NA	NA	NA
AK009_00596	666	acr3_1	COG0798	Arsenical-resistance protein Acr3	ATGTTAATGGTTACTCCATGCACAGATTGGTACTTAATCTTTACTGAAATAGCGAAAGGAAATGTAGCACTTTCTACTGCAATTTTACCTGTAAATTTAATTTTGCAAGTTCTACTCCTTCCAATTTATTTATTTTTATTTGCTGGTGTCATGAAAACTGTAGCGGTTTTTGTTTTAGTAGAAAGTATTGTTATCGTAATCGTCTTACCATTTATACTTGCACATGCTACAAAATTCATTATGAATAAAATGAAAAAAGCTGAAACTCTCGAGAATAAACTCATTCCGTTTTTCAGCTCTGCTCAAATTGTATTTTTAAGTTTAGCAATAGTAGCGATGTTTGCATCACAAGGTAAATATTTACTGCAAAATATGAATGTCGTTTTATTATTACTCGTTCCTGTTCTATTGTTCTTCATCATTAATTTTTTACTAGGACAATTTATCGGGCGCATGATGCATTTATCTTACAAAGATACAGTAAGTCTAAGCTTAACAACGTTAGCAAGAAACTCACCTGTTGCACTCGCTATCGCTGTGACCGCTTTTCCAGATGAGCCTCTTATCGCACTTGCACTCGTTATTGGACCATTGATTGAGTTACCAGTACTAGCTTGTGTGTCACAAGTTTTGTTGCTTATTAAGAAAAAACGGCAATACGCATAA	MLMVTPCTDWYLIFTEIAKGNVALSTAILPVNLILQVLLLPIYLFLFAGVMKTVAVFVLVESIVIVIVLPFILAHATKFIMNKMKKAETLENKLIPFFSSAQIVFLSLAIVAMFASQGKYLLQNMNVVLLLLVPVLLFFIINFLLGQFIGRMMHLSYKDTVSLSLTTLARNSPVALAIAVTAFPDEPLIALALVIGPLIELPVLACVSQVLLLIKKKRQYA	PGPT0004705_3024	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
AK009_00597	348			hypothetical protein	ATGAGCACTATAGAAAAGATTCAAACTTTTATTATTCTTTTTGCTGTTACATGCGGCATCGTACTCGGACAATTTAATATGATACATACGTATTCAGACAAGTTTATTGTTCCCTTCTTATTTTTTATGCTATATGGATTATTCCTCAGCATCCCATTAAAAGAAATAAAAAACGGATTTCGCAATTTAAAATTTGCTGGAACAAGTCTTACTATTAACTTCTTATGGACACCTTTACTCGCTTGGGGGGTTAGGGGCACTATTTCTTTCAGATCATCCAGCACTTTGGGTTGGATTTATAATGTTAATGGTTACTCCATGCACAGATTGGTACTTAATCTTTACTGA	MSTIEKIQTFIILFAVTCGIVLGQFNMIHTYSDKFIVPFLFFMLYGLFLSIPLKEIKNGFRNLKFAGTSLTINFLWTPLLAWGVRGTISFRSSSTLGWIYNVNGYSMHRLVLNLY	PGPT0004705_2979	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
AK009_00598	693	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGGGATTATTTAGCTCGTTATTTGGTAAAAAAGAAGAAAATAAGAATGTAGAGGGGAATAAAAAAATGTCAAAAGTATTATTTGTAAAAGCAAACGATCGTCCAGCGGAGCAAGCAGTTAGTTCAAAAATGTATGAAACATTTGTAAGTACTTATAAAGAAGCAAATCCAAATACAGAAATTACGGAATTAGATTTATTTGCATTAGATCTTCCTTATTACGGAAATATCGCGATTTCAGGTGGATATAAACGTAGCCAAGGCATGGAGTTAACAGCTGAAGAAGAGAAGGCAGTTGCTACAGTAGATCAATATTTAAATCAGTTTTTAGAAGCTGATAAGGTTGTATTTGCATTCCCATTATGGAACTTTACAGTACCAGCACCATTAATCACATATATTTCATACTTATCTCAAGCTGGAAAAACGTTTAAATATACAGCAAATGGCCCAGAAGGTTTAGTTGGTGGTAAAAAAGTAGTTGTGTTAGGTGCTCGTGGTTCAGATTACTCTTCAGAACAAATGGCTCCTATGGAAATGGCAGTTAATTACGTAACAACTGTACTTGGATTCTGGGGAATTACAAATCCAGAGACAGTTGTAATTGAAGGGCACAATCAATATCCAGATCGTTCACAACAAATTGTTGAAGAAGGTCTAGAAAACGTTAAAAAAGTAGCAGCGAAATTTTAA	MGLFSSLFGKKEENKNVEGNKKMSKVLFVKANDRPAEQAVSSKMYETFVSTYKEANPNTEITELDLFALDLPYYGNIAISGGYKRSQGMELTAEEEKAVATVDQYLNQFLEADKVVFAFPLWNFTVPAPLITYISYLSQAGKTFKYTANGPEGLVGGKKVVVLGARGSDYSSEQMAPMEMAVNYVTTVLGFWGITNPETVVIEGHNQYPDRSQQIVEEGLENVKKVAAKF	PGPT0006790_134	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK009_00599	1359	brnQ_2	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGGCGAATAAAGTACCGTTTTCGTTCATAGTAGTTATTGGATTAATGTTATTTGCACTATTTTTTGGAGCGGGAAATTTAATTTTCCCAGCGATGCTTGGTCAATCAGCAGGAGAGAATGTATGGATTGCTAACGCTGGATTTTTAGTAACTGGTGTTGGACTACCATTACTAGGTGTACTAGCATTTGGTTTTTCAGGTAAAGATGATTTGCAGTCATTAGCAAGTCGCGCTCACCCAGTGTTCGGGATTGTGTTTACAACAGTTTTATACTTAGCGATCGGTCCGTTATTTGCAATACCGAGAACAGGAAATGTATCTTATGAAATTGGTCTTAAGCCGTTTATGCCAGAGGGAGTAGGTTCTACACCTTTAATTCTTTTCACAATTATATTCTTTAGCATCACTTGTTTTTTTTCGCTAAATCCCGCGAAAATTGTCGATATTGTTGGAAAAATTTTAACGCCAATTAAGTTGACTTTCATCGGTATTTTAGTAATCGTTGCTTTTATACATCCGATTGGAGATATGCAAGCACCAGTGGAAGCTTATACATCACATGCATTCTTTAAAGGATTCCAAGAAGGATACTTAACGATGGATACGCTCGCATCATTCGTATTCGGGATTATCATCATCAATGCTATTAAAGAAAAAGGTGCAAAAACGAAAACACAAATTATGGTCGTTTGTGCAAAAGCGACAATAATTGCAGCATCTATTTTAGCAATTATCTATACAGCTCTTTCTTATATGGGTGCTTCAAGTGTTGCAAAGCTTGGACATTTAGAGAACGGTGGAGAAGTATTAGCGAAAGTTTCTAACTACTATTTTGGATCATACGGCGGAGTATTATTAGGATTAATGATTACAGTAGCGTGTTTAACAACTAGTGTGGGACTTGTATCAGCATGTTCTTCATTCTTCCATAAGTTATTCCCAAATGTTCCTTACAAAGCAATTGCAATCACGCTCTGTGTATTTAGTGCCATTGTTGCAAACGTAGGATTAACACAATTAATCGCAGTTTCTGTTCCAGTATTAACAGCAATTTATCCACTAGCAATCGTATTGATTTTCTTAACATTCTTCCATTCATTATTTAAAGGAAGAGCGGAAGTTTATCAAGTAAGCTTGATCGTAACATTTATCATCAGCTTATTCGATGGATTAAGTGCAGCTGGAGTTAACATTGAAGTAGTAAGCCAAGTGTTCACTAAATTCCTTCCGATGCAGGAAGTAGGACTAGGCTGGATCTTCCCAGCGATTATCGGTGGATTTATCGGATATGGCATTAGCATTTTAAAAGTGAAAAACCAAGTTCAACCAGCAACTAGAGCAGATAAGAAAATAGGTTAA	MANKVPFSFIVVIGLMLFALFFGAGNLIFPAMLGQSAGENVWIANAGFLVTGVGLPLLGVLAFGFSGKDDLQSLASRAHPVFGIVFTTVLYLAIGPLFAIPRTGNVSYEIGLKPFMPEGVGSTPLILFTIIFFSITCFFSLNPAKIVDIVGKILTPIKLTFIGILVIVAFIHPIGDMQAPVEAYTSHAFFKGFQEGYLTMDTLASFVFGIIIINAIKEKGAKTKTQIMVVCAKATIIAASILAIIYTALSYMGASSVAKLGHLENGGEVLAKVSNYYFGSYGGVLLGLMITVACLTTSVGLVSACSSFFHKLFPNVPYKAIAITLCVFSAIVANVGLTQLIAVSVPVLTAIYPLAIVLIFLTFFHSLFKGRAEVYQVSLIVTFIISLFDGLSAAGVNIEVVSQVFTKFLPMQEVGLGWIFPAIIGGFIGYGISILKVKNQVQPATRADKKIG	PGPT0014385_414	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
AK009_00600	420	epi	COG0346	Ethylmalonyl-CoA/methylmalonyl-CoA epimerase	ATGAAAAAAACAATTGATCATATCGGAATCGCAGTTCGTGATATAGATAGTACGATACGTTTTTATGAAAATGTGTTACTAGGAACTTTAATAGATCGTTACGTAAGTGAAGCTCCTGGTGTGGAAAGCGAAGTAGCCATTCTTGAAGTGGATGGAGATAGAATTGAATTACTTGCACCGACGAATAATACGACATCTCCAATTGCCCGTTTTATTAAACAAAAAGGTAAAGGTGTTCATCACGTTGCGTATCGAGTAGATGATTTAGATGTGGCTTTAGAGGAATTGAAAGAACAAGGTATTCGAACGTTAAAGCATACACTTCGAATTAATAAACACGGCAGAAGATTAATCTATCTTAACCCAGCGGATACAGAGGGAACAATCATAGAGTATTGTGATTATCCGGAAGAGAAATAG	MKKTIDHIGIAVRDIDSTIRFYENVLLGTLIDRYVSEAPGVESEVAILEVDGDRIELLAPTNNTTSPIARFIKQKGKGVHHVAYRVDDLDVALEELKEQGIRTLKHTLRINKHGRRLIYLNPADTEGTIIEYCDYPEEK				NA	NA	NA	NA	NA
AK009_00601	1650	ycnJ	COG1276	Copper transport protein YcnJ	ATGATTGTGAAAGTAATGAGAAGGTTAGGGGCATGGCTATTACTTGCGTGTGTGCTTATCATATTGATACCGAAAAGTACATCTGCTCATGCGTACGTTGTGAAATCAAACCCTGTTGAAAATGAAACTTTGAAGAAGGCACCATCTGTTGTGAAAATCGAATTCGATGAGGACATACAAGTTTCAAGTTTTAATACATTGTACGTGAGGGATACATCAGGTAAAAGGGTCGATTTGAAAGATGCTCATATTGATAAAAAAAACAAAAAACTATTAGAAGCAGGATTAAAAGAAAATCTGAAAAACGGACTCTACTCTATTCAGTGGAAAGTGATTTCAGCTGATGGACATCCAATTCAAGGGGTTATTCCATTCCGTATTGGATTAGCAGAAGCGGGAACAGACGATGTACAAGTGGAAGAGATGGGGTATGTCCCGCAAATCGATATGATTATGGAACGTGGAATTTTATATGCGAGTTTCTTGCTATTTTTAGGAGTTCTCTTCTTTAATCTTATTATGTATAAAGGGAATGCAACCTCGGTTCGATCAAGGAGTAAGAACATAATATGGATCTCCTTATTTGGGATATTTATTAGCTTGTTATTCAACCTACCATTGCAAGCGAAAATAAATGCAGATGTTTCATGGCTAGAAGCATTCAATCCTTTACTCTTAAAAGAAACGTTACAGCTTTCTGTTTTTGGATATGTATGGATTACTCAAATGGTTCTTATTAGTTCACTTATAATTGTGACGTATTTTGCGATGAAGTGTGGGAAGCTATCGTCGTTTAAAGTATGGAGTATTCCAATAGTATTGTTTATCGGGATACTTGTTATGAAAGCCTTTAATAGTCATGCATATGGTTTGAAGTTTAAAGAGATTGCTGTCGTTATGGATTTTCTGCATTTATTTGCAGCTTCATTATGGATTGGCGGTCTATCATCCATTATTCTTCTTTTACGTAAAGAGGATGACAAGTGGAGTATGTATTGGGATATGATTAAGCGTTTTTCACCGTGGGCAACAGGTGCTGTCATCGTGATTTTAATAACAGGTCTTTTTAACAGTACATTTTTTATTCCAACAATCCACTCTTTATTTGATACGAAGTATGGATTAGCTTTATTAGCAAAAATACTTTTATTCATTTTCATGGGGATATTGGGAATTGTACATTATGTGAAAGGGAAAATGAGAGCGCAGAAGGGATTAGGCGCTACGGTGAAAGTAGAGTTTATCATCGGAATTATCATTTTTGTCATCGTAGCTTTTATGACAAACGTACAAACACCACCGATGCCTCCTACTGGACCTTTTACAGAAAGTAAGCAACTGGATAATGGGTATGAACTTACTTTACATGTAAGTCCTAATAAAGTAGGACAAAATACATTTCATATTACTTTAAAGGATGAAAACGGACAACCTGTTACTGATATGGAGCAAATTATTTTAACTACTCAATCATTAGATATGAATATGGGAAAAGGTTCATTTAAAGTTTCAGCAGTTTCACCGGGAGAATATGAAGCAGAAGGTATGTATATTAACATGACAGGAAACTGGAATATACATGTTCATGGATTAACAAAATCTCTGGATAGCTTCGATACAGATTATAAATTTATTGTAGGTGGCAGATAA	MIVKVMRRLGAWLLLACVLIILIPKSTSAHAYVVKSNPVENETLKKAPSVVKIEFDEDIQVSSFNTLYVRDTSGKRVDLKDAHIDKKNKKLLEAGLKENLKNGLYSIQWKVISADGHPIQGVIPFRIGLAEAGTDDVQVEEMGYVPQIDMIMERGILYASFLLFLGVLFFNLIMYKGNATSVRSRSKNIIWISLFGIFISLLFNLPLQAKINADVSWLEAFNPLLLKETLQLSVFGYVWITQMVLISSLIIVTYFAMKCGKLSSFKVWSIPIVLFIGILVMKAFNSHAYGLKFKEIAVVMDFLHLFAASLWIGGLSSIILLLRKEDDKWSMYWDMIKRFSPWATGAVIVILITGLFNSTFFIPTIHSLFDTKYGLALLAKILLFIFMGILGIVHYVKGKMRAQKGLGATVKVEFIIGIIIFVIVAFMTNVQTPPMPPTGPFTESKQLDNGYELTLHVSPNKVGQNTFHITLKDENGQPVTDMEQIILTTQSLDMNMGKGSFKVSAVSPGEYEAEGMYINMTGNWNIHVHGLTKSLDSFDTDYKFIVGGR	PGPT0004095_393	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004095-ycnJ-K14166	NA	NA
AK009_00602	621	ycnI	COG4549	putative protein YcnI	ATGAAACGTATAAAAAAATTAGGAACAACAATGATCGCAACAATAATTGCAATGGGAATCTTTTCGTTACCTGTTAGTGCTCATGTGACGGTAAAGCCAGAAACTTCTGATGTTAATTCATGGGAGACTTACACAATAAAGGTACCAGTTGAAAAAAATATAGCAACAACAAAAGTCACACTAAAAATACCGTCTGGCGTTGAGTTTCAACAGTATGAGCCAGTGCCAGGGTGGAAAGTGGAAGCGCAAAAAGATAGTGCTGGAAAAGTGAAAACTGTAGTATGGGAAGCGACAGGAGAAGGGATTTTAACCGGTCAATTCCAACGATTTACTTTCGTCGCTAAAAATCCGGATAAAGAGCAAAAAATAGCTTGGGACGCATATCAACAATATAAAGATGGAGAAATTGTTGAATGGACAGGCGATGAAAAAGCTGAAAAACCACATTCACTTACTACAATTGCAAAAGGTACGTCATTAACAGGAGAACATGGTGAAGTGTCTAGTGTAGAAAAGAATGAAGGCACTAGTAATATGCAAGTAATAGCGATTGTCTTATCTATTTTGGCGATTGTATCGTCGGTTGGTGCGTGTGTTTTTGTAGTACGTCGTAAAAAGTAA	MKRIKKLGTTMIATIIAMGIFSLPVSAHVTVKPETSDVNSWETYTIKVPVEKNIATTKVTLKIPSGVEFQQYEPVPGWKVEAQKDSAGKVKTVVWEATGEGILTGQFQRFTFVAKNPDKEQKIAWDAYQQYKDGEIVEWTGDEKAEKPHSLTTIAKGTSLTGEHGEVSSVEKNEGTSNMQVIAIVLSILAIVSSVGACVFVVRRKK				NA	NA	NA	NA	NA
AK009_00603	906	eamA_1	COG0697	putative amino-acid metabolite efflux pump	GTGACACAGCTTTCTCGAACTAAGACGGCCATAATCCTTACCTTTCTCGTTTTCATGTGGGGAATCAATTGGCCTTTATCTAAGTTTGCCCTGCATTATACACCACCCGTTTTATTTGCAGGCGTTCGAACTTTAATTGGAGGATTCATTTTACTCCTTTTCGCATTACCGAAATACAAAGAGTTACACTTAAAAGAAACTTGGCATTTATACGTTATTTCTTCTTTACTTAACATCATTATATTTTACGGATTACAAACTGTAGGCCTTCAATATATGCCAGCTGGGTTATTTTCCGCCATTGTATTTCTACAACCTGTTTTACTCGGCATTTTCTCATGGATTTGGCTTGAAGAATCTATGTACGGCTTAAAAATTTTTGGGCTTGTTCTTGGATTTATTGGCGTGGGTGTCATTAGCTCTAGTAGTTTAACTGGACATATCTCTATTATCGGAATCCTTCTCGCGATAGGATGCGCTATTGGCTGGGCACTTGGAACAGTATTTATTAAGAAGACTGGGCACCGCGTTAATTCCATTTGGATGGTAACACTTCAGCTCATTATTGGCGGGCTTTGCTTAATTGGATTTGGTTCAGAGTTTGAAAGCTGGTCTAGTATCGCTTGGAGTATACCATTTGTTAGCGTACTTCTCTTTATTTCGTTCTTCGTTATTGCAATGGGGTGGCTTGCATACTTCACACTTGTTGGAGCTGGTGAAGCAAGTAAAGTTGGGGCTTATACATTCCTCATTCCACTAATCGCTATTATTGTAAGTTCAATTTTCTTACATGAGGCCATTACAATGAGCTTATTTATTGGGTTATTATTTATTGTTGTGAGCATTTGTTTTGTAAATATAAAACCAAAAGCACTTGCTATAAGGCAGCAAGTTGAATTGAAATAA	MTQLSRTKTAIILTFLVFMWGINWPLSKFALHYTPPVLFAGVRTLIGGFILLLFALPKYKELHLKETWHLYVISSLLNIIIFYGLQTVGLQYMPAGLFSAIVFLQPVLLGIFSWIWLEESMYGLKIFGLVLGFIGVGVISSSSLTGHISIIGILLAIGCAIGWALGTVFIKKTGHRVNSIWMVTLQLIIGGLCLIGFGSEFESWSSIAWSIPFVSVLLFISFFVIAMGWLAYFTLVGAGEASKVGAYTFLIPLIAIIVSSIFLHEAITMSLFIGLLFIVVSICFVNIKPKALAIRQQVELK				NA	NA	NA	NA	NA
AK009_00604	870	gltC_1		HTH-type transcriptional regulator GltC	ATGACCATTACACAACTGCAAGTATTAATAAAAACCGTTGAGTTAGGTAGTTTTACGAAGGCAGCTCGGGTGTTAAATATGACGCAGCCAGCTGTTAGTCATGCGATTTCAAGTATTGAGTCAGAGATAGGAGTTACGATTCTTATACGTGATAAACGAAAAGGATTAATTGTTACGGATGTAGGAAACAGAATTCTTGTACATATTAGAGAGATTTTGAACGGTGTAGAGAAGATTGAACAAGAAGTTGCGATGGAGAAAGGGCACGAAGTTGGGACGATTCGAATTGGGAGTTTTCCGAGCGCTTCTGCACATTTCTTACCCAAAATGATAAACCTTTTTAAGGAGAAGTATCCGAACTTAGAAGTCGTTCTTTGTGAAGGAACGATTAAAGAAGTTGAAGATTGGTTAGTATCGAGGGTTATTGATATAGGAATTGTTATTTTGCCTAATAAAGATATGGAGATTGTTCCATTAACGAAGGGGAAAATGGTTGCTATCTTAAGAGAGGATCATCCTCTCTGTAAGAAGGACGCTCTTACAATTTGTGATTTAGAGAATGAACCGATCATATTATGTAAGGGTGGATACGAACCACCCATTATTGATATGTTTAAACAAGCAAACGTACCACTTCGGGCTGAATATGTAATTTCGACAGTTACTACAGCTTTAAATATGATTCAAGAAGGATTGGGCATTGCAATATTAGCTGAATTATCTTTAACGAATTTACCAAAAAATGTGCAAACGAGAGAATTGGAACCACAAGTATGGAGAGAAATTGCTTTAGCTGTTCCTTCATTAAAGGATTCTTCAATCGCTGTGCAGCTATTTATTGAAGAATTTCAATCGCTATTTGCAGAATAA	MTITQLQVLIKTVELGSFTKAARVLNMTQPAVSHAISSIESEIGVTILIRDKRKGLIVTDVGNRILVHIREILNGVEKIEQEVAMEKGHEVGTIRIGSFPSASAHFLPKMINLFKEKYPNLEVVLCEGTIKEVEDWLVSRVIDIGIVILPNKDMEIVPLTKGKMVAILREDHPLCKKDALTICDLENEPIILCKGGYEPPIIDMFKQANVPLRAEYVISTVTTALNMIQEGLGIAILAELSLTNLPKNVQTRELEPQVWREIALAVPSLKDSSIAVQLFIEEFQSLFAE				NA	NA	NA	NA	NA
AK009_00605	432	ywnA_1	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGAAAATTAGTAGCCGCTTTTCCATAGCTGTTCATATTTTATCTATTTTGAAAAACAATCCATCTTCACTTTGTACTTCAGACTATATGGCTGAGAGTGTCAATACAAATCCAGTAGTCATTCGTAAAATCATGTCGTACTTGAAACAAGCTGGCTTTGTTTACGTAAATCGTGGACCGGGTGGCGCGGGATTACTAAAGGATTTATATGAAATCACATTGTTAGATGTGTATCATGCAGTGAACGTAGTCGAAGAAGACAAGCTATTTCATATTCACGAGCAACCGAATCCAGATTGTCCAATTGGGGCGAATATTCAAGCGGTGTTAGAAATTATTTTAATTCAAGCACAATCCGCGATGGAAGAAGTTTTGAGAAATATTACAATGGGGCAGTTGTTTGAAACTTTGCAAGAAAAAATGAATGCTTAA	MKISSRFSIAVHILSILKNNPSSLCTSDYMAESVNTNPVVIRKIMSYLKQAGFVYVNRGPGGAGLLKDLYEITLLDVYHAVNVVEEDKLFHIHEQPNPDCPIGANIQAVLEIILIQAQSAMEEVLRNITMGQLFETLQEKMNA				NA	NA	NA	NA	NA
AK009_00606	651			hypothetical protein	ATGACTGTAAAAATGAAAGTATACTCAGATTTTATATGTCCGTTTTGTTTTTTAGCAAAAGGTCCATTAGATGAGGTAGCGAAAGAGAAAGATGTAGAGATTGAATGGATGCCATTTGAATTACGTCCAAGTCCATATTCAAAAATAGATCCATGGAATGAACCAGAAAAATTAGGTTCATGGGATGCTTTCATTCTTCCGACAGCGAAGAAGTTAGGAATTGATATGCGCTTGCCACGTGTTTCACCACATCCATATACACATTTAGCTTTCGAAGGATGTCAATTTGCGAAAGAACGTGGACTAGGTAATGAGTATCATCACCGCGTATTCACAGCATTTTTCCAAGAAGAGCAAAACATTGAAGATATTGATGTGTTAACAAAATTAGCGGTAGAAGTAGGACTTCCTGAGGCGGAATTTAAAGATGCTTTAGTAACTCGTAAATATAAAGAAAAGCATCAAGAAGCAATTCAACACGCATATGATGAAGCGAATATTATGGCTGTTCCAACTGTCATGATTGGAGATGAAGTCATTCAAGGGCTTGCTAGTAAAGAAACACTAGAAAGGGTCATTGATAAAGAAATTGAAAAGGATAAAACAAATTCATTTGAAGGTATGCAATGTAATACCGATGGATATTGCTAA	MTVKMKVYSDFICPFCFLAKGPLDEVAKEKDVEIEWMPFELRPSPYSKIDPWNEPEKLGSWDAFILPTAKKLGIDMRLPRVSPHPYTHLAFEGCQFAKERGLGNEYHHRVFTAFFQEEQNIEDIDVLTKLAVEVGLPEAEFKDALVTRKYKEKHQEAIQHAYDEANIMAVPTVMIGDEVIQGLASKETLERVIDKEIEKDKTNSFEGMQCNTDGYC				NA	NA	NA	NA	NA
AK009_00607	603			hypothetical protein	ATGTCAGCAACTACAACAAACTTAAAAGAAGCAATCGTGAACCGCCGTTCAATTCGTAAAGTAGCAAAAAACGATGCAATTACGAAAGAAAGAATTGAAGAAGTGTTAAAAACAGCTTTACACGCACCAACATCTTTCAATATGCAAAGTGGTCGTATGGTTGTATTAATGGATGGAGAGCATGAAAAGTTTTGGGATATTGTTAAAGAAACACTAAGAGCTCGCGTACCAGCAGAAAACTTTGAAGCGACTGTAGAAAGATTAAAAGGTTTCCATACAGGTGTTGGGACTGTGTTATTCTTTGAAAATCAAGCAACAGTAGAAAAAATGCAAGAAAATGCACCATTATATAAAGATCAGTTCCCATTCTGGTCTCATCAAGGAAATGCAATGTTACAACATACTGTATGGATGTTATTATCGGCTGAAGGAATTGGTGCATCATTACAACATTACAACCCAATCGTAGATGCTGAAGTGAAAGAAACTTGGAACATTCCAGCAGAGTGGAGCTTAGTAGGTCAAATGCCATTTGGTGAACCAAACGAACAACCAGCAGAAAGAACGTTCTTGCCTACTGAAGATGTAGTGAAATTTTATTAA	MSATTTNLKEAIVNRRSIRKVAKNDAITKERIEEVLKTALHAPTSFNMQSGRMVVLMDGEHEKFWDIVKETLRARVPAENFEATVERLKGFHTGVGTVLFFENQATVEKMQENAPLYKDQFPFWSHQGNAMLQHTVWMLLSAEGIGASLQHYNPIVDAEVKETWNIPAEWSLVGQMPFGEPNEQPAERTFLPTEDVVKFY				NA	NA	NA	NA	NA
AK009_00608	132			hypothetical protein	ATGAATGATGAGAAAAAATATACAGTGGTAGGTACTGATGTTGAGGAAGTAAAGCGTTTAAATAAAAATTCAGGATTAACGTATAATCAAGTGAAAGAAATGTTAGCAAAGCAAATGCAAAAAAAGAAGTAA	MNDEKKYTVVGTDVEEVKRLNKNSGLTYNQVKEMLAKQMQKKK				NA	NA	NA	NA	NA
AK009_00609	1611	gatA_1		Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGAAGAAATGGGTAAAGGTAACGCTGTCTATCACTGGAGGCATTGTCTTATTAGCGTGTGCCGGCGGATATTACGTGTATAAAAATTATTTTCCAAAGGAACCTGAGCGTATTGTATATGATAAAGAAAGAGTGCTACAACCGATACATAATCAGCTTAAAGGAATCAATATAGAAAATGTAAAGATAAAAGAAAAAGAAGTCGTAAATGCGACTGTAGATGAGCTTCAAAAAATGATTGATGATGGAAAGTTGTCATATGAAGAATTAACGAGTATTTATCTCTTTAGAATACAAGAACATGATCAAAATGGAATAACATTAAATTCTGTTACAGAGATAAATCCTAATGCGATGGAAGAAGCAAGAAAGTTAGATCAAGAGCGGGGTAGAAACAAAAATTCGAATTTATATGGTATTCCTGTCGTTGTAAAAGATAATGTACAGACGGAAAAAGTGATGCCGACTAGTGCAGGAACTTATGTATTAAAAGATTGGATTGCAGATCAAGACGCAACAATTGTGAAGCAGTTGAAAGAAGAAGGAGCATTTGTTTTAGGAAAAGCGAATATGTCTGAGTGGGCGAACTATTTATCTTTTACAATGCCAAGCGGGTATAGCGGGAAAAAAGGACAAAATTTAAACCCGTACGGTCCGATTACATTCGATACTTCAGGATCAAGTTCAGGATCTGCTACAGTAGTTGCGGCAGATTTTGCGCCGCTTGCAATTGGAACAGAAACGACGGGATCGATTGTTGCACCAGCGGCGCAGCAATCAGTAGTTGGGTTACGTCCATCTTTAGGTATGGTAAGTAGAACAGGAATTATTCCATTAGCTGAAACTCTTGATACAGCAGGACCTATGGCAAGAACAGTAAAAGATGCAGCAACGTTATTTAATGCAATGATAGGTTATGACGAAAAAGATGTTATGACAGAAAAAATGAAAGATAAAGAAAGAATTAATTATACAAAGGATTTATCAATAGATGGATTAAAAGGGAAAAAGATAGGGCTTCTTTTTTCTGTAGACCAACAAGATGAAAATAGAAAAACAGTAGCAGAAAAAATAAAAAAAGACCTTCAAGATGCAGGTGCAATATTGACTGATTATATTCAGTTAAACAATGGGGGTGTAGATAATTTGCAAACTTTAGAATATGAGTTCAAGCATAATGTAAACGACTATCTTTCACAGCAAAAGAATGTACCGGTAAAATCGTTAGAAGAGATTTTAGCGTTTAATAAAAAGGATAGTAAAAGACGAATAAAGTACGGACAAACATTAATTGAGGGGTCTGAAAAATCTGCTATAACGAAAGAAGAGTTCGAAAACGTAGTACAAACGAGTCAAGCAAATGCAAAAAAAGAGCTAGATAGGTATTTAGTAGAACAAGGTTTGGATGCTCTAGTTATGATTAATAACGATGAAGTTCTTCTATCAGCTGTAGCTGGTTATCCGGAATTAGCGGTTCCTGCTGGATATGATAAAAATGGAGAACCAATCGGTGTAGTGTTTGTAGGGAAACAGTTTGGTGAAAGAGAGCTTTTCAATATGGGATATGCGTATGAACAGCAGTCTAAAAATAGAAAATCACCTAGTTTATAA	MKKWVKVTLSITGGIVLLACAGGYYVYKNYFPKEPERIVYDKERVLQPIHNQLKGINIENVKIKEKEVVNATVDELQKMIDDGKLSYEELTSIYLFRIQEHDQNGITLNSVTEINPNAMEEARKLDQERGRNKNSNLYGIPVVVKDNVQTEKVMPTSAGTYVLKDWIADQDATIVKQLKEEGAFVLGKANMSEWANYLSFTMPSGYSGKKGQNLNPYGPITFDTSGSSSGSATVVAADFAPLAIGTETTGSIVAPAAQQSVVGLRPSLGMVSRTGIIPLAETLDTAGPMARTVKDAATLFNAMIGYDEKDVMTEKMKDKERINYTKDLSIDGLKGKKIGLLFSVDQQDENRKTVAEKIKKDLQDAGAILTDYIQLNNGGVDNLQTLEYEFKHNVNDYLSQQKNVPVKSLEEILAFNKKDSKRRIKYGQTLIEGSEKSAITKEEFENVVQTSQANAKKELDRYLVEQGLDALVMINNDEVLLSAVAGYPELAVPAGYDKNGEPIGVVFVGKQFGERELFNMGYAYEQQSKNRKSPSL	PGPT0006115_1359	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
AK009_00610	1014			hypothetical protein	ATGAATGAAGTAAAGAGTTTTTTTCGAAGTAGAGGGTTTCAACGGTTTCTCGTTTTAATAATAGTAGCGCTTGTATTATATGCATTAAAAAGTATGATCAATTTAATATTAATTACGTTTATACTGACGTTTTTAATGGATCGATTTCAACGTTTTATTTCAAGAAAATTGAAAGTAAACCGGAAAATTGTTATTGCATGTTTGTATATAATACTAGTTTCCTTTATAGGCACAACGTTATATAAATATTTACCTGTGCTGACGATACAAATTTCACAATTAATTTATCAATTTAAACTGTTTTTTCAAAATCCACCTGATAATGAAATCGTTAAATATGTACTTTCGACAATTAATGGGATGGAAGTATCAAAATATATAGAACAAGGTGTAGATGTCATATATCAATCAATAGCAAATATAGGGAAGGTAAGTTTACAAATATTATTATCTCTAATTTTAAGCTTATTTTTCTTATTAGAAAAAGAGCGTATTATTACATTTACATCTAAGTTTAAAGATAGTAAGTTAAAAATCTTTTATGAGGAAATTGCATATTTTGGTGAAAGATTTGCAAGATCGTTCGGAAAAGTAATTGAAGCTCAGTTTTTAATTGCCGTTGTAAATTGTATTCTTACTGTCATTGCATTAATTGTTTTAGGATTTCCACAGCTACTTGTATTAGCTGTTATGGTTTTCTTACTAGGGTTGATTCCTGTTGCAGGTGTGATTATTTCTTTGTTTCCACTTTGTATCATTGCTTACAACGTAGGCGGAGTTATGTACGTAGTATACATACTCGTGTTCATAACAGTAATCCACGCTCTTGAAAGTTATTTTTTAAATCCGAAGTTTATGTCTGCAAAAACAAATTTACCAATCTTTTATACATTTATGATTCTCATCTTCTCAGAGCATTTCCTCGGAATATGGGGGCTTATTATCGGGATACCAATCTTTATCTTTTTATTGGATGTACTTGATATAAATAATGAGGATGCGACTAAAAAATAA	MNEVKSFFRSRGFQRFLVLIIVALVLYALKSMINLILITFILTFLMDRFQRFISRKLKVNRKIVIACLYIILVSFIGTTLYKYLPVLTIQISQLIYQFKLFFQNPPDNEIVKYVLSTINGMEVSKYIEQGVDVIYQSIANIGKVSLQILLSLILSLFFLLEKERIITFTSKFKDSKLKIFYEEIAYFGERFARSFGKVIEAQFLIAVVNCILTVIALIVLGFPQLLVLAVMVFLLGLIPVAGVIISLFPLCIIAYNVGGVMYVVYILVFITVIHALESYFLNPKFMSAKTNLPIFYTFMILIFSEHFLGIWGLIIGIPIFIFLLDVLDINNEDATKK				NA	NA	NA	NA	NA
AK009_00611	945	ldh1_1	COG0039	L-lactate dehydrogenase 1	ATGAAAAAAGGTATTAACCGTGTTGTATTAGTAGGAACAGGAGCAGTTGGATGTAGTTATGCTTACTGCATGATTAACCAAGCCGTAGCTGAAGAATTTGTTTTAGTCGATGTAAATGAGGCAAAAGCTGAAGGGGAGGCAATGGATTTAAGTCATGCTGTTCCATTCGCACCAGCTCCAACTAGAGTATGGAAAGGCAGCTACGAAGATTGTAAAGATGCTGACCTTGTAGTTATTACAGCTGGATTACCACAAAAACCAGGCGAAACACGTTTAGATTTAGTTGAGAAAAACGCTAAAATCTTTAAACAAATCGTTCGCAGTATTATGGATAGCGGATTTGATGGCATCTTCTTAATCGCAACAAACCCTGTAGATATTTTAACTTACGTAACTTGGAAAGAATCTGGTTTACCGAAAGAACGTGTAATCGGTTCTGGTACAACGCTTGATTCTGCTCGTTTCCGCTATATGTTAGGTGAGTACTTCGATATTGGTCCACACAACATTCACGCTTATATTATCGGAGAACACGGCGATACTGAACTTCCTGTTTGGAGTCATGTTTCCGTTGGTATCCAAAAACTACAAACACTGCTTGAAAAAGACAACACGTATAATCAAGAAGATTTAGACAAAATTTTCATAAACGTCCGTGATGCAGCTTACCATATTATTGAGCGTAAAGGCGCAACTTATTATGGTATCGGTATGTCACTTCTACGTGTTACAAAAGCAATTTTAAACGACGAAAATAGTGTATTAACTGTATCAGCTTACTTAGAAGGTCAATATGGTCAAAAAGATGTTTATATCGGGGTGCCTGCTGTTTTAAATCGCGGCGGTGTTCGTGAAATTTTAGAGGTTGAATTAAGTGAAGAAGAAGAATTAAAATTCGATCACTCTGTTCAAGTATTAAAAGAAACAATGGCTCCGGTTCTTTAA	MKKGINRVVLVGTGAVGCSYAYCMINQAVAEEFVLVDVNEAKAEGEAMDLSHAVPFAPAPTRVWKGSYEDCKDADLVVITAGLPQKPGETRLDLVEKNAKIFKQIVRSIMDSGFDGIFLIATNPVDILTYVTWKESGLPKERVIGSGTTLDSARFRYMLGEYFDIGPHNIHAYIIGEHGDTELPVWSHVSVGIQKLQTLLEKDNTYNQEDLDKIFINVRDAAYHIIERKGATYYGIGMSLLRVTKAILNDENSVLTVSAYLEGQYGQKDVYIGVPAVLNRGGVREILEVELSEEEELKFDHSVQVLKETMAPVL	PGPT0001760_2252	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK009_00612	1437	rebO		Flavin-dependent L-tryptophan oxidase RebO	ATGGGGAACCCATTAGCAATGGAAGAAATGCTTCATATTATTCATGCAGGGCTTGTCAAAAAGAATAACCCAAAACGGATTACGATTGCAGGTGCAGGGATTTCTGGATTAGTTGCAGGTTCTTTATTAAAAGAGGCTGGGCACGAAGTAACGATTATAGAAGCAAATAACAGAATAGGTGGCAGGGTGTATACGATTCGGGAACCATTTAGTGTGGGTTTATATTTTAATGCGGGACCGATGAGAATCCCTGACACCCATAAGTTAACCTTAGCGTATATTCATAAATTTAAACTACCTTTAAACCTTTTTATAAATAAAACTTTTGCAGATATCATTTATACGAATAACATTCAAACGAGATTGAATGTGTTTGAAAATGATCCAAGTGTACTTGAATATCCGGTTTTGGATAAAGAAAGAGGAAAAACGGCAGAAGAGCTAATGATTGAGGTATTAGAACCAATACTAAATTATATTAAGAAGGATCCTGATAAAAACTGGCTTATCGTTGAAAAAAAGTATAAAACGTATTCGCTTGGTTTATTTTTAATGGAGTATTATTCAGATGGTGCAATAGATATGATTGGGGTACTTCTTGATATGGAAGCTTATATGGGAATGTCCTTAATTGAAGTATTACGTGAAATGATTTTCTTTACTTCAACGACGAAATATTATGAAATAACTGGTGGAATGGATAAGTTATCGAATGCATTCTTACCACAATTAAGAGAACATATTTTAATGCCATATAAGGTTGATAAAATTATACAAGAAGATAATAAAGTAATGTTACAAGGAAATCATGAACAAACGTTAGAGCAATTTACAATAACAAGTGATTTTGCTATTATTACAATTCCATTTTCAGCGTTAAGATTTGTAGAAGTTCAGCCATACTATTTATTCTCTTATTTTAAAAAAAGAGCAATTCGTGAATTAAATTATATTGCTGCAACTAAAATTGCAATAGAGTTTAAAAGTAGATTTTGGGAGAAAGCGGGACAGTGTGGCGGTAAATCTATTACTGATTTACCGATACGGTTTACATACTATCCGAGTTATGGCATTCATACTCCAGGACCAGCTATCGTAATAGCAAGTTATACGTGGGCAGATGAGGCGTTAACATGGGATAGTCTCCCGCAAAGAGATCGTATTCGTTACGCATTAAAAAATTTAGCGGAAATATACGGTGACATCGTCTATAGTGAGTTTGTCACTGGAACATCTTTTAGCTGGAGTAAAAATCCGTATTCTTGCGGTGCATTTACAGCTTTCGAACCAGGCCAAGAGCTCGAGTTATTTCCGTATATTACACCACCATCTGGAAAAGTACATTTTGCAGGAGAGCATACGACATTAACACATGGATGGATGCAAGGGGCAATTGAGTCTGGAGTAAGAGTTGCATATGAAGTAAATGAACAGTGA	MGNPLAMEEMLHIIHAGLVKKNNPKRITIAGAGISGLVAGSLLKEAGHEVTIIEANNRIGGRVYTIREPFSVGLYFNAGPMRIPDTHKLTLAYIHKFKLPLNLFINKTFADIIYTNNIQTRLNVFENDPSVLEYPVLDKERGKTAEELMIEVLEPILNYIKKDPDKNWLIVEKKYKTYSLGLFLMEYYSDGAIDMIGVLLDMEAYMGMSLIEVLREMIFFTSTTKYYEITGGMDKLSNAFLPQLREHILMPYKVDKIIQEDNKVMLQGNHEQTLEQFTITSDFAIITIPFSALRFVEVQPYYLFSYFKKRAIRELNYIAATKIAIEFKSRFWEKAGQCGGKSITDLPIRFTYYPSYGIHTPGPAIVIASYTWADEALTWDSLPQRDRIRYALKNLAEIYGDIVYSEFVTGTSFSWSKNPYSCGAFTAFEPGQELELFPYITPPSGKVHFAGEHTTLTHGWMQGAIESGVRVAYEVNEQ	PGPT0007641_1226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
AK009_00613	924	yciC_2	COG0523	Putative metal chaperone YciC	ATGAATAAAGTGGAGATTCATATATTAGGTGGTTTTTTAGGTAGTGGAAAATCAACATTATTACAAAATTTATTGTTAGCAGAGAAAAAGAAGAATAGAAAAGTTGCAGTATTAATGAATGAAATTGGTGAATACTCGGTAGATACAGATATTATTGGAAAAGAGAATGTTTTAAGAGAACTTCTTAAAGGCTGTATTTGTTGTACGTTAAAAGAAGAGCTTGAAATACAATTACATTCGTTATACCAACAAGAAAGACCAGATGTCATTTATATAGAAACGACAGGTGTTGCGCATCCAATTGAAGTGTTAGACGCGTGTGTCTCGCCAATTTTAGCTCCTTTCCTGGAAGTGAAATCAATTGTAGTCGTTTTAGATGCAGTAAGGTGGTTAAACAAAAGTATATTAAGTGCAAATGTACAACAGCTATTGCATGAGCAACTGAAATTTGGTAGTCACATTCTTGTTAATAAAGCAGATTTACTAACAGATGAAGATAAGAACATAGTACTTGAAGAAGTAAAGACAATAAATGATCATGCGAAAATGTATGAGACAAAGTATTGTAATATATCTTTAAAAGATATAGAAGAAGCAGAATTTCCAAATGATGAGGAACATGAGACACTACACGTTAAACAGCATTTACATATACAAACGATGACGTATCAATTTACGAAACCGATTGATCAAGACAAATTATATGAATGGCTTTCGAATTTACCAGATAGTATTTATCGAGTGAAAGGCTTTGTGAAATTCCATGGAGATAAATACCCTCACCTATTCCAATATTCGTTCGGAGTACCGACTTTACTGGAACAAGATTTCGGTTTCCCAACAAACTTAGTAGTAATTGGAGAAGGAATAGATAAGAAACGATTGGCTGAAGGGTTAGAGAAAGTAGAACTTAACTCTAATTAA	MNKVEIHILGGFLGSGKSTLLQNLLLAEKKKNRKVAVLMNEIGEYSVDTDIIGKENVLRELLKGCICCTLKEELEIQLHSLYQQERPDVIYIETTGVAHPIEVLDACVSPILAPFLEVKSIVVVLDAVRWLNKSILSANVQQLLHEQLKFGSHILVNKADLLTDEDKNIVLEEVKTINDHAKMYETKYCNISLKDIEEAEFPNDEEHETLHVKQHLHIQTMTYQFTKPIDQDKLYEWLSNLPDSIYRVKGFVKFHGDKYPHLFQYSFGVPTLLEQDFGFPTNLVVIGEGIDKKRLAEGLEKVELNSN				NA	NA	NA	NA	NA
AK009_00614	1218	braC	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGTCGATGAAAAAACGTAAGTGGCTAAAGACAATGTTTACTGGTTGTGTTTTAGGTTCATTATTAATAACGGCAGCTTGTTCAGGAAAGAAAACAAGTACAGAGGATGAAAAAACGATTAAGGTAGGAGTCCTTGCTTCTTTAACAGGACCGCTAGAATCGTATGGAAAACAAACAGTGAACGGATTTGAATTAGGGTTAGACTATGCAACTGGTGGGACTGGGAAAGTAGATGGGAAAAAGATTAAGTTTGTTGTAGAAGATACAGAAACGAAAGCGGATGTAGCAGTGAAGAAAGCTACGAAGTTATTAGAAGAAGAGAAAGTTGATTTTTTAGTTGGATCGTCTAGTTCAAGTGATACGTTAGCGGTTTTACCACTGGCAGAAGAATATGAAAAGATTATGGTTGTAGAACCGGCAGTTGCGGATAGTATTACCGGGAAGAACTGGAATAAATATATTTTTAGAACTGGAAGAAGTTCCTCACAAGATGCGATTGCAGGAGCAGCAGCAATTGCGAAAAAAGATGTAAAGATTGCGACATTTGCCCCAGATAACGCTTTTGGTCGTGAAGGGATTGCTGCATTTAAAGCGGGTGCGAAAAAATTAGGTGCGAACATTGTGAATGAGCAATACGCGGATACAAATTCAACAGATTTTACAGCGAATATTCAAAATATCATTAGTTCAAAACCAGATTATTTATTTATCGTTTGGGCAGGGGCAAATTCACCTTGGAAACAGTTGAAAGATATGAATGTGGAAGCGCAAGGTATTAAAATTTCTACAGGTGCGCCAGATATACCAGCATTAAAAACAATGGATGCATTAGTAGGTATGCAAGGTTTTTCTGTATATTATCACACACTTCCAAAAAATAAAGTGAATGATTGGCTAGTTGAAGAGCATAAAAAACGTTTTAATGGTGCAGTGCCAGATTTGTTTACAGCGGGAGGAATGTCAGCAGCAATTTCTATTGTAGAAGCCTTAAAGAAAACAAAAGGTGATACAGATGTAGATACCTTGATTAAGAAAATGGAAGGAATGGAATTTGATACACCAAAAGGAAAGATGAAGTTTAGAGAGAAGGATCACCAAGCGATGCAGACACTGTATTCTATCACATTGAAAAAGCAAGACGGTATTGATTATCCGGTGCCAGTGTTAGAGCGAGAATTAACGATGAAAGAAACAGAACCACCAGTTCAAAATAAATAG	MSMKKRKWLKTMFTGCVLGSLLITAACSGKKTSTEDEKTIKVGVLASLTGPLESYGKQTVNGFELGLDYATGGTGKVDGKKIKFVVEDTETKADVAVKKATKLLEEEKVDFLVGSSSSSDTLAVLPLAEEYEKIMVVEPAVADSITGKNWNKYIFRTGRSSSQDAIAGAAAIAKKDVKIATFAPDNAFGREGIAAFKAGAKKLGANIVNEQYADTNSTDFTANIQNIISSKPDYLFIVWAGANSPWKQLKDMNVEAQGIKISTGAPDIPALKTMDALVGMQGFSVYYHTLPKNKVNDWLVEEHKKRFNGAVPDLFTAGGMSAAISIVEALKKTKGDTDVDTLIKKMEGMEFDTPKGKMKFREKDHQAMQTLYSITLKKQDGIDYPVPVLERELTMKETEPPVQNK	PGPT0020765_4900	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
AK009_00615	774	lptB	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	GTGACACATTTGTTAGAGACGAAAAATCTTAGCGTATCTTTTGGTGAAGATCATGTTATTAAAGATGTAAATTTAACTGTCCAAAAAGGAAAACTCATTTCTATTATCGGGCCAAATGGTGCGGGGAAGACAACATTATTTAATTTACTAAGTGGACAGATTTCACCAACAACAGGTCAAGTGTATTTTAAAGGGCAAGATATTACAAAACTATCGATTTCAGATCGAACACGCTTAGGAATCGGTCGCTCTTTTCAACTTACAAACATATTCCCAGAATTAACAGTACTTGAAAATGTTCGTTTAAGTGTTCAATCATTCGTACAAGATTACTATAGCTTTTTCCCGAATCCAGCAAAATTTAAGCAACAAGTTGGAGAGGCGAGACGTTTCTTAAAAACAGTATTACTCCACGAGAAAGAGAACGTATTAGCGAAAGATTTGGCACATGGGGAGAAAAGAAAGCTAGAACTTGCGATGTTATTAGCTTTAAAAACGGATGTGTTATTACTTGATGAGCCGACGGCAGGTATTTCGGTTGAGGAAGTCCCTGCTATATTACAAGTGATTGAAAATATTAAGAAACATCCAGAGAGCACAATTGTACTTATCGAACACAAAATGGATATGATACTAGGTTTGTCAGATCATCTTATCGTTTTATTTCATGGAGAGTTATTGGCTGAAGGATTGCCAGAAGAAATTATAAAAGATGAGCGTGTACAAAGTGCTTATTTAGGGGGATTATATAGTGGCACTATTACAAGTGAATAA	MTHLLETKNLSVSFGEDHVIKDVNLTVQKGKLISIIGPNGAGKTTLFNLLSGQISPTTGQVYFKGQDITKLSISDRTRLGIGRSFQLTNIFPELTVLENVRLSVQSFVQDYYSFFPNPAKFKQQVGEARRFLKTVLLHEKENVLAKDLAHGEKRKLELAMLLALKTDVLLLDEPTAGISVEEVPAILQVIENIKKHPESTIVLIEHKMDMILGLSDHLIVLFHGELLAEGLPEEIIKDERVQSAYLGGLYSGTITSE	PGPT0020780_5178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
AK009_00616	702	livF	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	GTGGCACTATTACAAGTGAATAATATAGAAACGTATTTAGATCAGTTTCATATTTTGCAAGGAGTATCTCTTACTGTTGAGAAAGGGACGATTACTGTACTGTTTGGTAGAAACGGGGCAGGGAAAACAACGACATTACGCTCAGTTATGGGGTTTCACCGGATTGCAGATGGTGAAATTTATTATGATAGTGCAAAAGTAAGTGGATTACCTACACATTTAATTTCAAGGAAAGGAATAGGGTATGTACCAGAAAATCAAGGTATTTTTCATGATTTGACAGTAGAAGAAACATTCGCTCTTGCTAGGGGGAAAGGTGAAGAAGTAGAAGGGAAAATAGAGTGGATGCTGGAACTATTTCCGGATTTAAAGCAGTTTTGGAATAAGAAAAGTGGGCTCTTGAGCGGAGGGCAAAAGCAAATGTTGGCTATTTCAAGAGCGTTTATTAATAGTGATGGATTATTACTTATTGATGAACCGAGCAAAGGGCTATCCCCGATAATGGTGGAGAAATTAATGGTAGCTATTTTGAAGATGAAAGAGAAAACAACAGTTTTACTTGTTGAGCAAAATTTTATGATGGCTAGTCAAATTGGCGATTATTTTTACATTATGGATAACGGACGAATTGTTCATAACGGTTTTATGAATGAATTAAAAAAGGATAAGGAAATGTGTCATAAATATTTAGGAATCTCTTAA	MALLQVNNIETYLDQFHILQGVSLTVEKGTITVLFGRNGAGKTTTLRSVMGFHRIADGEIYYDSAKVSGLPTHLISRKGIGYVPENQGIFHDLTVEETFALARGKGEEVEGKIEWMLELFPDLKQFWNKKSGLLSGGQKQMLAISRAFINSDGLLLIDEPSKGLSPIMVEKLMVAILKMKEKTTVLLVEQNFMMASQIGDYFYIMDNGRIVHNGFMNELKKDKEMCHKYLGIS	PGPT0020785_8434	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
AK009_00617	861	livH	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGATGTGTTAATAAATTTATTTGTAAATGGGATTTCAACAGGGATGCTCATTTTTTTGTTAGCATCAGGTCTTTCACTTATTTTCGGTCTAATGAGCGTTTTAAACTTTGCACACGGTGGTTTATTTGCGTGGGGAGCATTTACAGGTGTTTGGTTATTTAATATGACAGGAAGTTATATATTAGCTTTAGTTGGAGCAGTAGCTATGGGAATGTTCCTAGGATTTATTTTAGAAAGGTTTCTTATTAGACCAGTATATGGAAATCATGTTCGACAGCTGCTCGTTACGCTTGGAGGAATGCTCGTTCTTAGTGAGTGTATTAAAATATTTTGGGGGCCAAACCCTATTAGTGCAAAATTACCGTTATGGTTACAAGGAAGTTTTACATCCGGAGGTATTATATTAATTAAATATCGTCTATTTGTTATTTTGATTGGGATAATTATTTACATTGCACTACTATTATTACTCAAAAAGACGAAGATAGGTCTTATGATCCGTGCTGGTGTAATGGATAAAGAAATGGTTCAAGCGCTTGGTATTAATGTAAAAGCGATATTTTCTTTCGTCTTTTTATTAGGAGCAGGGATGGCAGCTTTGGGAGGATTCTTATTAGCACCGTATTCGGGCGTTATTTTCGCCGAGATGGGCATGCAGTATGCAATTTTAGCATTTATAGTAGTAATTATCGGTGGATTAGGAAGCGTACAAGGTTCAGCTATTGCTTCTTTAATTGTCGGATTAGCTGGTGCTTTTACAGCGTATTTTATACCAGATTTATCACTTGCAATTAATATGTTAATGTTACTATTTTTCTTAATAGTGAAGCCAACTGGACTTGTTGGTGAAAAGGGGTGA	MDVLINLFVNGISTGMLIFLLASGLSLIFGLMSVLNFAHGGLFAWGAFTGVWLFNMTGSYILALVGAVAMGMFLGFILERFLIRPVYGNHVRQLLVTLGGMLVLSECIKIFWGPNPISAKLPLWLQGSFTSGGIILIKYRLFVILIGIIIYIALLLLLKKTKIGLMIRAGVMDKEMVQALGINVKAIFSFVFLLGAGMAALGGFLLAPYSGVIFAEMGMQYAILAFIVVIIGGLGSVQGSAIASLIVGLAGAFTAYFIPDLSLAINMLMLLFFLIVKPTGLVGEKG	PGPT0020770_9168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
AK009_00618	954			hypothetical protein	ATGCTCATTTGTTTAAGTGTATTTCCGTTCGTAAATGATTCACGGAGCCTGTTAATTTTGTTCACTCAAATCTTCATCTTTGCTATTTTTGCAATGAGTTTTGATGTATTGCTTGGGTATACAGGAATTGTATCGTTCGGTCATTGTATGTTCTTTGGGATAGGAGCATATGGGGTAGCGCTTTTATTTGATCGACAAGGCGTATCAATAACGAACTTTTTAATTGGAATAGTAGCTGCAATTATCGTTTCAGCAATCGTTAGTTATATAATTGGTTTGCTTTCTTTACGATTGAAAAGTCATTTTTATGCAATGTTAACACTTGCTATTTCACAGTTGTTTTTCGTACTTGCTGAAAAATGGCGTGGGCTTACTCACGGAGGAGATGGTTTTACATTTGGGGTACCAGAAATATTCCGTGATCGTTTTACTTTTTATTATGTATCACTTGTATGTTTATGCTTCATTTTTATTCTATTACGTCTTTTTACAAAGTCTTCTATTGGGAAAGTATTAAAGGCAATTTCACAAAATGAACAACGTGTTGAAGCACTTGGATATAAAGTCCTCCATTATAAAATAATCGCAAGTGTAGTCGCAGGAATAGTAGCTGCAATTAGCGGTGGTTTATTTGTTATTACATTACGCTTTGTCAATACGACTGTATTTTCAATTGAAATGACACTAAATGCACTCTTAATGACAATGATTGGAGGAGTCGGAACATTAATTGGAGCTATTGCTGGATCTGGGATTATTGAATCACTAAAATATTATTTATCAGAACTAGCGACGGAATATCCGATTTTTGAAAGATGGACGATTATTCTAGGTTTATTGTATATTATCGTGCTACTTGTTTTTCCGAAAGGATTGGTTGGGACGGTTAAGAAATTGAAGGGTTTTAAAAGGAATAAGAAGGAGAAAAGTACAGAAGTGGAGCAAAACGTGTGA	MLICLSVFPFVNDSRSLLILFTQIFIFAIFAMSFDVLLGYTGIVSFGHCMFFGIGAYGVALLFDRQGVSITNFLIGIVAAIIVSAIVSYIIGLLSLRLKSHFYAMLTLAISQLFFVLAEKWRGLTHGGDGFTFGVPEIFRDRFTFYYVSLVCLCFIFILLRLFTKSSIGKVLKAISQNEQRVEALGYKVLHYKIIASVVAGIVAAISGGLFVITLRFVNTTVFSIEMTLNALLMTMIGGVGTLIGAIAGSGIIESLKYYLSELATEYPIFERWTIILGLLYIIVLLVFPKGLVGTVKKLKGFKRNKKEKSTEVEQNV	PGPT0020775_6651	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
AK009_00619	789	yofA	COG0583	HTH-type transcriptional regulator YofA	ATGGAAATAAATGATCTTATTATATTCAAAACTGTGGCCAGTGAGGGTTCTATTAGTAAAGCTGCTAAAGAGTTAGGATATGTTCAACCGAACGTAACTGAGCGAATCAAAAAATTAGAACAAGAATTAGAAACGCCTTTACTACATAGAGATAACAAAGGTGTTTCCTTGTTACCTGCTGGTGACATTTTATTAGATTACACGAATAAAATATTAACTCTATTAGAAGAAGTAAAAGATGAAATTAAAACGAGTGGTTCTTCTTATATAATAGCGACGTCACAATCTATTTTGACAAATTATTTAAGTAAGCGTATTAAAGTAAATTTCAGAAATTATCAAATATATGTAGAAAGTAGTAGTCATTTGCAAAAATTACTGCAGCAACAAAAAGTTGATATGGTCATAACTTATGAGGATTATCCTGACGCATCGTTTAAAAAAGTGTTCACAACCTCAATTTCTGTAGGCTTATTAAAAGCGAAAGAAAAATGTACCATTGATTATTCAAAAGAAATTTTCTTCGTTAGCAATGACAAAAAGTGCCCTTTTAGGAATAAGACAATACAATTTCTAAAAGAAAACAATCTATCTCAGCGACAACTTCAACAGTTGGATTCTTATTCGCTTATGGAAGAGTTTATTGCTGATGGAAAAGGAATAGCATTTTTACCGATTAAAAATGATACATTAGTAATAATTGAAGATGTTCCCCTTGAGAATTTAGCTGTTCATTTTTTTACGAATCAAACCTTTATAAAGCATATCCCTGATGAACTATTTGATTAA	MEINDLIIFKTVASEGSISKAAKELGYVQPNVTERIKKLEQELETPLLHRDNKGVSLLPAGDILLDYTNKILTLLEEVKDEIKTSGSSYIIATSQSILTNYLSKRIKVNFRNYQIYVESSSHLQKLLQQQKVDMVITYEDYPDASFKKVFTTSISVGLLKAKEKCTIDYSKEIFFVSNDKKCPFRNKTIQFLKENNLSQRQLQQLDSYSLMEEFIADGKGIAFLPIKNDTLVIIEDVPLENLAVHFFTNQTFIKHIPDELFD				NA	NA	NA	NA	NA
AK009_00620	549			hypothetical protein	ATGATTGGAATGCAATATAAGGTCATTCTTCCAAAGGATTATGACATGGAAATTATTAAGAAAAGGGTAAAGGATAATGGCTATAAAACTGATGGTTTCCAAGAACTAAATTTTAAAGCTTATTTAATTACGGAAACGGAGAAAGACGGGAATTTTTATAACTGCTATGCACCTTTATATATTTGGAATGGTCATGAAGGGATGAATAAATTTATCTTTGAAGGGTATTACGATAACATTTTACAATCTTTTGGATGGCAACAAATACATATAGGTGTTCCATTAGTGGTTAATCTAAGTGATGGATTTAAGAAAAGTAGATATGTTGTTGAATATGCAGGAAGTATTTCTCAAAGTAAAACGTTGATTGGGACTCAATTAAGCACGATAAATGAAGATGTACAAAACAACGAAAAGTGTTTAGGGAATGTAATCGTTTATAATCCGGATAAATGGGGATATAGTAGGTTTGAGTTTTATGAAGAGAAGCCTGAAATGGTAACAAATAAAGGTGTTACAGTATATGAGATTTTGCACATTTCACGATGA	MIGMQYKVILPKDYDMEIIKKRVKDNGYKTDGFQELNFKAYLITETEKDGNFYNCYAPLYIWNGHEGMNKFIFEGYYDNILQSFGWQQIHIGVPLVVNLSDGFKKSRYVVEYAGSISQSKTLIGTQLSTINEDVQNNEKCLGNVIVYNPDKWGYSRFEFYEEKPEMVTNKGVTVYEILHISR				NA	NA	NA	NA	NA
AK009_00621	144			hypothetical protein	ATGCCTTTTGTGAACGTTTATTATCATGAAAATATATTAAATAAAGAAGAGTTGAAAAAGATAGGTGAATGTATTCATCTGTCATTAATTGAACATTTTAACATCCCTGAAAATGATTTTTTTCAAATGTTTTTACCTTATTAA	MPFVNVYYHENILNKEELKKIGECIHLSLIEHFNIPENDFFQMFLPY	PGPT0005005_603	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
AK009_00622	201			hypothetical protein	ATGATTTATGTTTCTATTACATGTGGACCGGAAAGAACGATAAAACAAAAAAGGAATTTATATCAGTCGATATCCTTGAAGGTTTCTAAATGCTCGGGGATAAAAAGTGCAGATATTTTTATTACGCTAAATGAGACATCTGCTGAAAATTGGTCATTTGGTCAAGGATTGGCACAATTGGTAAAAGTGAAGGGTGAGTGA	MIYVSITCGPERTIKQKRNLYQSISLKVSKCSGIKSADIFITLNETSAENWSFGQGLAQLVKVKGE	PGPT0005005_603	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
AK009_00623	324			hypothetical protein	ATGATGAATGAATCAATTGAATATTGTATTCAAGAGAAAATGAGAGAAAAGGCACCTGCATTTGCTCATTATAGTGAAGAGATATTGTTTGAGGAAGTGTGGCGGGATGATACTTTAACATTAAGAGAAAGAAGTTTATGTACAGTGTCGGCATTAATCAGTCTTGGTCATACAGAACAATTACTATTTCATTTGCAGTTGGCCAAACAAAATGGAATTGCAGAAAATGAAATGATTGCATTAATAACGCATATGGCTTTTTATGTTGGCTGGCCCAAAGCAGTAACAGCTTTAAATATAGCAATGAATGAAATGGAAAGTTAA	MMNESIEYCIQEKMREKAPAFAHYSEEILFEEVWRDDTLTLRERSLCTVSALISLGHTEQLLFHLQLAKQNGIAENEMIALITHMAFYVGWPKAVTALNIAMNEMES	PGPT0005005_4230	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
AK009_00624	444		COG1846	putative HTH-type transcriptional regulator/GBAA_1941/BAS1801	ATGCGTGATAATACGATAGGATCATTAATATGGTTACGTTTAATACGATTTACGAACCAAAGTAATCAAATGTCAAATGAGTTTTTAAAACGTTTTGATTTAACGACAGCTCAATTTGATGTGCTTTTGCAAATACGTACGTATCAACCACTAACACAAATGGAGTTAGCTGAAAAGGTAACTGTTACACAAGGTGGCATTTCTCGAATGTTAACTCGTCTTGAAAAAGAAGGATATATTGTACGAAAACAAGATTGGAAAACAAAAACAATTAGTCTTACAGAGCAAGGAGAAGCAGCTTTAGAGAGAGCATTGCCAGAGCAACTTGCATTTCAATCTTCGTTTTTTGATGATGTATTAAATGAAGAAGAGCAGAAAATATTATACGAGCTGATGACGAAAGTGCATAAGCATAGTGAAAAAAAAGAATTACCGCAAAAGTAA	MRDNTIGSLIWLRLIRFTNQSNQMSNEFLKRFDLTTAQFDVLLQIRTYQPLTQMELAEKVTVTQGGISRMLTRLEKEGYIVRKQDWKTKTISLTEQGEAALERALPEQLAFQSSFFDDVLNEEEQKILYELMTKVHKHSEKKELPQK				NA	NA	NA	NA	NA
AK009_00625	1056	luxA		Alkanal monooxygenase alpha chain	ATGGAAAAATACCGTATAGATACAAGAAAAGGAATTGAGTTTGGATTATATTCAATTGGTGATCATGTTTTAAATCCACATAATGGGGAGAAAATTACGCCAGAGAAAAGAATTCACGAACTAATTGAAACAGCTAAGTTAGCAGATGAGGCAGGGCTTGATGTGTTTGCTGTCGGCGAAAGTCATCAAACACATTTTACAACGCAAGCTCATACAGTTATTTTAGGTGCGGTCGCGCAAGCTACGAAAAATATAAAAATTGCAAGTTCAGCAACGATATTAAGTACATCTGACCCAGTTCGAGTATATGAGGATTTCGCTACCATTGACTTGATTTCTAATGGTCGTGCTGAAATCGTAGCTGGTCGTGGATCTCGTATTGGAGGATATAGTTTACTTGGTTATGACGTGAATGATTATGAAGAATTATTTGAAGAGAAGATGGATCTTTTATTAAAAATTAATAACGAGGAACATGTAACATGGAATGGACAGTTCAGAGCACCGCTCGCACATGCATCGGTTATTCCAAGAGCGAAAAATAATAACTTACCAATTTGGCGTGCAGTTGGAGGTCCACCAGCTAGTGCAATTAAAGCAGGACGTGCAGGTGTGCCAATGATGATAACAACACTTGGTGGTCCAGCAATTAACTTTAAAGTGTCAGTAGATGCTTACCGCGAGGCTGCTCAGCAAAGTGGATTTGATCCAGCTAGTTTACCAGTTGCGACAACGAGTTTATTTTATACGGCAAAAAATTCACAAGATGCACTTAGTGAATATTATCCTCACATTAATGCTGGTATGCTTACACTGCGCGGTGGTGGGTATCCGAAACAGCAATTTACAAATGCAATAGATTACCGTGATGCTTTAATGGTTGGTAGCCCACAACAAATCATTGAGAAAATGCTTTACCAATATGAATTGTTTGGCCAACAACGCTTTATGGCACAAATTGATTTTGGCGGTGTACCATTTGATAAAATTGAGAAAAATATTGAATTAATTGCTACTGAAATATTACCAGCCGTTAGAAAACATACAGCAAAATAA	MEKYRIDTRKGIEFGLYSIGDHVLNPHNGEKITPEKRIHELIETAKLADEAGLDVFAVGESHQTHFTTQAHTVILGAVAQATKNIKIASSATILSTSDPVRVYEDFATIDLISNGRAEIVAGRGSRIGGYSLLGYDVNDYEELFEEKMDLLLKINNEEHVTWNGQFRAPLAHASVIPRAKNNNLPIWRAVGGPPASAIKAGRAGVPMMITTLGGPAINFKVSVDAYREAAQQSGFDPASLPVATTSLFYTAKNSQDALSEYYPHINAGMLTLRGGGYPKQQFTNAIDYRDALMVGSPQQIIEKMLYQYELFGQQRFMAQIDFGGVPFDKIEKNIELIATEILPAVRKHTAK				NA	NA	NA	NA	NA
AK009_00626	1404	cydA_1	COG1271	Cytochrome bd-I ubiquinol oxidase subunit 1	ATGGAAACGCTCGAATTGGCACGAATACAGTTCGCATCAACAACGATTTTCCATTACTTTTTTGTTCCGCTGTCAATTGGTTTAGCTTTTATTATTGCGATCATGCAAACGTTGTATGTGGTAAAAGGGCAAGAAGTATATAAGAAGATGGCAAAGTTTTGGACGCAATTATTCCTTATTAACTTTGCAGTAGGTGTAGTAACAGGTATTTTACAAGAATTTCAGTTTGGTATGAACTGGTCAACGTATTCACGTTTTGTAGGTGATGTATTTGGTCCCTCGCTTGCAATTGAAGGATTACTGGCATTTTTCATTGAGTCTACATTCCTAGGTTTATGGGTATTCGGTGAGGATAAATTACCGAAGCGAATTCACTTAATGTGTATTTGGCTCCTTTCAATTGGAACGATGTTATCAGCATTCTGGATTTTAACTGCAAGTGCATTTATGCAGTCACCTGTCGGGTATGAAATGGCAGCTGATGGTCGTGCACAAATGAATGATTTCTTAGCCATTATTCAAAACCCACAACTATGGGTACAATTCCCGCATACAATTACAGCAGCAATTGCAACAGGTGCATTCTTTATTGCGGGTGTAAGTGCATGGAAAATTACAAAAGGACAAGAAACTGTAGTATTTAAAAAATCTTTCCGCATTTCTATCATTGTTGGAACAATTACAACGGCGCTTGTATTATTCTTCGGTCATGCACAAGCGCAACAATTAATTAAGACACATCCAATGAAGATGGCGGCAGCTGAAGCACTATGGAATACAAGTGAGGATCCAGCGCCATTTACAGTATTTTCGAAAATTGATACAGAGAAGAAAGAAAATTCGTTTGAAATTCAAATCCCTTATATGCTAAGTCTATTATCGTATGATAAGTTTAGCGGTCAAGTTGAAGGGATGAATCAAATTCAAAAACAATATGAAGAAAAATATGGACCTGGGGATTATATTCCTCCAGTGCATACAATGTTTTGGAGTTTTAGAGCGATGGTAATGAGTGGAACATTCATGCTTCTTCTAGGAGCTTACGGATGGTTCTTATCAAGAAAAGATCGTTTAGCTGAAAAAACGTGGTATTTAAAATTAATGGTGTATGCAATTTCTCTTCCATTCATCGGTAATACAGTAGGGTGGATTATGACTGAAATGGGTCGTCAACCTTGGGTTGTATTTGGTGTAATGAAAACAGAAGATGCTGTATCACCAAATGTAACATTCGGTGAAGTATTATTCTCACTTATTTCATTCACATCAATGTATTTAATTATGGGTGGAATTTGTGTGTACTTATTTGTTCGTACCATTAAGGGCCACACGAATAAGAAAACGAAAAAGGATTATCAAAGCCATGATCCATTTGATAAGGAGGAAGAGTATGTTATCTCTTAA	METLELARIQFASTTIFHYFFVPLSIGLAFIIAIMQTLYVVKGQEVYKKMAKFWTQLFLINFAVGVVTGILQEFQFGMNWSTYSRFVGDVFGPSLAIEGLLAFFIESTFLGLWVFGEDKLPKRIHLMCIWLLSIGTMLSAFWILTASAFMQSPVGYEMAADGRAQMNDFLAIIQNPQLWVQFPHTITAAIATGAFFIAGVSAWKITKGQETVVFKKSFRISIIVGTITTALVLFFGHAQAQQLIKTHPMKMAAAEALWNTSEDPAPFTVFSKIDTEKKENSFEIQIPYMLSLLSYDKFSGQVEGMNQIQKQYEEKYGPGDYIPPVHTMFWSFRAMVMSGTFMLLLGAYGWFLSRKDRLAEKTWYLKLMVYAISLPFIGNTVGWIMTEMGRQPWVVFGVMKTEDAVSPNVTFGEVLFSLISFTSMYLIMGGICVYLFVRTIKGHTNKKTKKDYQSHDPFDKEEEYVIS	PGPT0026700_3348	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
AK009_00627	1017	cydB_1	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGTTATCTCTTAATGAGTTATGGTTTTTAGTTATTGCAATCTTATTTGTTGGATTCTTCGTACTGGAAGGTTTCGACTTTGGGGTAGGAATGGTTTCGAGGTTTTTAGGAAAGAATGATTTTGAAAAACGAGTTTACTTAAATACAATAGGACCGTTCTGGCACGCGAATGAAGTATGGCTTGTTTGTGCTGGTGGAGCCATGTTTGCGGCATTTCCGCACTGGTATGCAACTTTATTTAGTGGTTTTTATATTCCGTTTGTATTTATGCTTCTTGCTTTAATTTTAAGAGGTGTTTCCTTTAAATTTCGTGCGAAAATAGATAATCATAAATGGAAGAGTGCGTGGGATTGGGGGATGTTTATTGGAAGTATGTTACCTCCTATCCTTTGGGGAGTTGCGATTGCAAACTTTATGGTAGGTGTACCTATTGATGAGAGTAAAAATGTTGTAGGTGGATTCCTGCAATTACTTCATCCATTTGCGTTACTTGGGGGAGTAATGTTTCTCCTACTATGTATTGTTCACGGATTACAATTTCTTACGATACGTACAACTGGTAAATTGAGAGAACGTGCACGAATTGCTGCAATAAAAATTGCACCATTTTCATTAATTACACTTCTTGTTTTTGCTGGTGTGGGGTTATGGAAAACCGACATTTTCACTGCTCATGGAACAGAATGGATTATGGTACCAATCGGAGCTTTTGTAGCACTATTAGTGTCCACTTTATTAAATAAAAGAAGAAGAGATGGTTGGGCTTTCTTTATGACGAGTTTAACAATCATTTTACTAAGTGCGAGTGTATTTATCGGTATGTTCCCACGTGTTATGATTAGCTCTTTAGGAGCAATGAATGATTTGACAATTTACAACGCAGCATCAGGAGCTTATGCATTAAAACTTATGACTTACTTTGCGATTGCTATTTTGCCTTTCGTTATCGGAAGTCAAATATGGAGTTATTATGTATTTAGACAACCTGTTAAGTCAGACAACGATTTGGAGTACTAA	MLSLNELWFLVIAILFVGFFVLEGFDFGVGMVSRFLGKNDFEKRVYLNTIGPFWHANEVWLVCAGGAMFAAFPHWYATLFSGFYIPFVFMLLALILRGVSFKFRAKIDNHKWKSAWDWGMFIGSMLPPILWGVAIANFMVGVPIDESKNVVGGFLQLLHPFALLGGVMFLLLCIVHGLQFLTIRTTGKLRERARIAAIKIAPFSLITLLVFAGVGLWKTDIFTAHGTEWIMVPIGAFVALLVSTLLNKRRRDGWAFFMTSLTIILLSASVFIGMFPRVMISSLGAMNDLTIYNAASGAYALKLMTYFAIAILPFVIGSQIWSYYVFRQPVKSDNDLEY	PGPT0026705_2760	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
AK009_00628	1722	cydD	COG4988	ATP-binding/permease protein CydD	ATGAAAAGAAAAAGAGGACTTCCGTCTTATCCCGGTAGCCGTATTTTATATGTAGCGTTAACGATTATTAGTATTTTAGAAGCTTTTAGTATTATTGCGCAAACAATCTTTTTAGCACGAGCTATTACGTTTTTATTTCATGGAGAGACAGTACAAACAATATTAAGTGAAATTGTTTATTTTGGTATCGCGTTTGCAGCGCGTCACATAGTAGTTCGAACATCACAAATATTAGTGGAACGTTTTGCCGAAAAAACAGGGTCGTTACTAAGAAAACAATTGATACAGGCATATTTCACATTAGGTCCAAGGTATGTTCAAACGGTTGGAACTGGTCATCTGGTTACCTTATCAATTGAGGGGATTGAGAAATTTAAAACATATATTGAATTAACGATTCCTAAAATGATTAGAAGCAGTATCGTTCCAGGTCTAATTGTACTATATGTTTTTACGCTAGATATTGAGTCTGGAATCATTTTAGTTGTAACGATTCCTATCGTGATCATATTTATGATTCTTCTCGGATTAGCAGCGCAAAAAATGGCAGATAGTCAGTATGAGATATATCGTGTACTTTCGAACCATTTTGTAGATACGTTAAAAGGTTTAGAAACATTAAAGTATTTAGGGAAAAGTGAACAGCACGAAGGAAAGATTGAAAAAGTAAGTAAAAGATATAGAAAAGCAACGATGCGTACTTTGCGAGTTGCTTTTCTTTCTTCTTTTGCATTAGATTTCTTTACGAGTTTATCAATCGCGTTTGTGGCAGTTGGATTAGGGATACGCTTAATAGATGGAACGATTATACTATTACCAGCCCTTACAATTTTGATTTTAGCTCCGGAATATTTTCTGCCGATTAAACAAGTGGGAGCAAATTATCATGCGACATTAGATGGACAAATTGCGATGGAGCAAATAGAAGAGATTTTGCAACAACAAAAAGGAATAGAAAAGAAAGATTTAAATGAAGATATAGTATGGAATGCCTCTAGTAGCTTGAAATTACAAGATATCAAAGTTAATAATACTGAATCTGAGAAGGCTATATTAGAAAGGATTAATTTTACTTGGGAAGGTAACGGTGCTATTGGTGTTATTGGTGAAAGTGGTGCGGGGAAATCGACGTTAATCGACGTATTAGCCGGGTTTTTATCTCCTTCGAGTGGAAAGATGTTAGTAAATGGTCTAGAAGTTGATGGATCTACTCGTGAAGATTGGCAAAAAAATATTGCTTACATTCCGCAGCAACCTTATATTTTTCCGCTTTCATTAAAGGATAACATTCGTTTTTATGAAACAAAAGCAACAGATGAAGAAGTTGAAAGAGTTATTAATGAAGTCGGCCTTCGTTCACTCGTTACATCACTTCCAAATGGGATGCACGAAAGAATTGGGGAAGGTGGACGTATGCTAAGTGGCGGACAAGAACAGCGTGTTGCTATGGCGCGTGCACTTTTAAGTAAAAAACCAATCATTTTATTAGATGAGCCTACGGCACATCTTGATATTGAAACCGAATTTGAAATAAAGCAAGCGATGTTACGTCTATTTAATGGAAAGTTAGTATTTTTAGCAACTCACCGTCTACATTGGATGAAACAAATGGACCATATCCTTATTTTAAATAAAGGGGAAATGAAAGAAAGTGGGACGTATGAAGAACTTTTAGAGAGTGAGACATTACATTTTCATAGGGAAGAGAGGGGAGAGAAATGA	MKRKRGLPSYPGSRILYVALTIISILEAFSIIAQTIFLARAITFLFHGETVQTILSEIVYFGIAFAARHIVVRTSQILVERFAEKTGSLLRKQLIQAYFTLGPRYVQTVGTGHLVTLSIEGIEKFKTYIELTIPKMIRSSIVPGLIVLYVFTLDIESGIILVVTIPIVIIFMILLGLAAQKMADSQYEIYRVLSNHFVDTLKGLETLKYLGKSEQHEGKIEKVSKRYRKATMRTLRVAFLSSFALDFFTSLSIAFVAVGLGIRLIDGTIILLPALTILILAPEYFLPIKQVGANYHATLDGQIAMEQIEEILQQQKGIEKKDLNEDIVWNASSSLKLQDIKVNNTESEKAILERINFTWEGNGAIGVIGESGAGKSTLIDVLAGFLSPSSGKMLVNGLEVDGSTREDWQKNIAYIPQQPYIFPLSLKDNIRFYETKATDEEVERVINEVGLRSLVTSLPNGMHERIGEGGRMLSGGQEQRVAMARALLSKKPIILLDEPTAHLDIETEFEIKQAMLRLFNGKLVFLATHRLHWMKQMDHILILNKGEMKESGTYEELLESETLHFHREERGEK				NA	NA	NA	NA	NA
AK009_00629	1725		COG1132	putative ABC transporter ATP-binding/permease protein	ATGAGTAACTGGGTTAAACCTTATATAAAACAAAATAAAGGTAGAATGACTTTAACTATTTTCCTTGGTCTTCTTGGAGTTAGTTCAGGAGCGATGTTACTTTTTATTTCAGGTTATTTAATCTCAAAATCTGCCCTTAGACCAGAAAATGTAATGGCTGTATATGTTCCTATTGTTGCAACAAGAGCGTTTAGTATAGGGCAAGCTGTGTTTCATTATATAGAGCGCTTAGTCGGACATGATGTCGTACTACGTATATTAGAAAAAATGAGAACGAAGCTATATAGAATAGTAGAACCACAGGCGTTATTTTTCCGTTCTCGATTTCAAACGGGTGATATGTTAGGAGTGTTATCCGAAGATATAGAGCATTTGCAAAACCTATATTTACGTACAATATTTCCTAGTATATTAGCGCTAGTTGTTTATAGTATCTTCGTACTTGTTATCGGTGCATTTGACCTTGTGTTTGCACTTATTGTAGGTTGTATGTTAGCTATTATCGTGTTTCTTCTTCCATTTGTATCATTACTTTTGATGAAGAAACACCATGTTACTTTAAAGCAAGGCAGAAGCCGTTTGTATCAACAACTGACGGATGCTGTTTTTGGATTATCTGATTGGCAGGCAAGTGGTCGTAAAGGTGAATTTATTAATGAGTATGTAAAACAAAATGATCAGTTGTTAAAAATCGAAAAGAGAGTGAAACGCTGGTATCATATTCGGGACAGTATCATTCAATCAGTAGTAGGTATTGTAGTTATTTCGATGATTATATGGACTGGAAATGAAGCGGCAAGTGAGCAAATTGCTCCTACAGTTATCGCAGCTTTCGTATTAATGACTTTATCTGTAACGAATGCGCTTATTCCTATTGCAGATGCCATCGATCGAATCCCGTCGTATGTAGAATCTACCCATCGTCTTAATGGCGTAGAAAGTGATATTGTTTTACATGATAAAATGGATTTGTATGGAGATAATGATTACGTTGAACCAAGACATGTAGATATTGAACTGAATCACGTATCGTATAGTTATCCAGATAGTAATGAGATTGTATTAAAAGACGTATCATTACAAATAAAAGCAGGGAAGAAAATTGCTATTTTAGGCAGAAGTGGGACAGGGAAATCTACTTTACTAAAATTGTTAACAGGGGCGTTAAGCCCAGTAAACGGCCAAGTTGTATTGAATGGTGAACGAGCTCATACGAATCTTTTATCTAAATATATTTCTGTATTAAATCAAAAGCCCCATTTGTTTGATACGACAATTGGAAATAATGTACGAATTGGCAAACCAGAGGCGACGGATGAAGAGATATGGAAAGCTTTAGAGAAAGCACAATTAGCTTCACATATTACTTCTCTTCCGGACGGATTACAAACAAAAATGCATGAAATGGGAAAGCGGTTTTCTGGTGGTGAAAGACAAAGGGTTGCTTTTGCTAGAACTCTTATGCAAGAAACACCCATCATTGTACTTGATGAACCGACTATCGGTTTAGATCCGAAAACAGAATTGTCTTTAATTGAAACAATGTTTTCTGCAACGGAAGAAAAGACGGTTATTTGGATTACGCACCATCTTGTAGGAATAGAACATGTAGACGAAGTTATATTCCTTGATCGTGGCCAAATTGTCATGCAAGGTAGTCATAAACAACTTCTGAAAGAAAATGAAAAGTATCGTAAACTTTATGAGTTAGATAAAGGAATATGA	MSNWVKPYIKQNKGRMTLTIFLGLLGVSSGAMLLFISGYLISKSALRPENVMAVYVPIVATRAFSIGQAVFHYIERLVGHDVVLRILEKMRTKLYRIVEPQALFFRSRFQTGDMLGVLSEDIEHLQNLYLRTIFPSILALVVYSIFVLVIGAFDLVFALIVGCMLAIIVFLLPFVSLLLMKKHHVTLKQGRSRLYQQLTDAVFGLSDWQASGRKGEFINEYVKQNDQLLKIEKRVKRWYHIRDSIIQSVVGIVVISMIIWTGNEAASEQIAPTVIAAFVLMTLSVTNALIPIADAIDRIPSYVESTHRLNGVESDIVLHDKMDLYGDNDYVEPRHVDIELNHVSYSYPDSNEIVLKDVSLQIKAGKKIAILGRSGTGKSTLLKLLTGALSPVNGQVVLNGERAHTNLLSKYISVLNQKPHLFDTTIGNNVRIGKPEATDEEIWKALEKAQLASHITSLPDGLQTKMHEMGKRFSGGERQRVAFARTLMQETPIIVLDEPTIGLDPKTELSLIETMFSATEEKTVIWITHHLVGIEHVDEVIFLDRGQIVMQGSHKQLLKENEKYRKLYELDKGI				NA	NA	NA	NA	NA
AK009_00630	1149			hypothetical protein	ATGAAGGAGCAGTATAAAATCATTGTTTTAAGTGATGAATTATCCGGGGAGAGGATTCGAAATACATTAGACAAAAATAAATGTAAAACAATAGTTCATGTTGTAGACGTTTCAGATGTTGTTCGAATAGAAAATTCTTTTCAATATATAGTCATTTGGAGAGTGGAAGCAGAAAAACTTACAAATGACTTGATAAATAGGGGTGTGCAAAGTTCAAAAATTATTAATTTAACAAAATACATGTATGAATGGAAGGATAAATTAATTTCTATCTATCAAATAAATCCAGAGCTTATGTCTTTATACATTTCTATGAAAAAAGCAAAGAGTGATCCGACGTATGAATTGTTTGCTACCGGTTTGTCTTATCCACATTGTGGCATAAGTACGGAGCTCCTCTCAAAAAAGTCAATAAAATTAACACTTCCATCGCAAGATCTATACTATGATTATTTAATAGCGTCACAACTTCTATCAAACACTCATTCATTTCAATATTGTTTAATAGGAATAGCCTATTTTTCATTTTTCTTTGATATGTCGTTATCATCTGAATCATATAGAATTCACAAAGTATATTATCCATTGTTTCAAGATGGTCATCATACTGTAGTTCATTCTCCTCTACCCACTGATGGATTCTCACATCTAAATACTCCGAAACCACTTCTTTCTATTTTTAATTTGCATTTTGAATATATTTTATTAGATGAACTAAAAGATGAATCATTGGTACTGCCTTGGATAAATGCTGAATGGAATACTACTCCTCTTTACATTCCTTTTGAAGAACACGGGAAAATAAGAGCAGCTTCACACGCTAAATTGGCGTATCCTCATACTTTAGTTGAAAATAAAATGATTTTTAAGAAATATTTAGAATTACTATTAAAAAACGATATAAAGCCATTAATTGTTGTATTCCCTGTTACTTCACATTATTTCAATTGTAGTAGTAAGAAATTAAAAGAAGATTTTTATAAAGTTATAAATGAGTTTCAAACTCAATATTCTTTTCAAATCATAGATCTATTTGATTCGCCATTATTTTGTGAGGATGATTTTTATGATAGTGATCATATGAATAAAAAAGGTGCAAATAAAATGTCCGCGTTATTAAATATGTTTATTCAGGAACGAAAAGTATGA	MKEQYKIIVLSDELSGERIRNTLDKNKCKTIVHVVDVSDVVRIENSFQYIVIWRVEAEKLTNDLINRGVQSSKIINLTKYMYEWKDKLISIYQINPELMSLYISMKKAKSDPTYELFATGLSYPHCGISTELLSKKSIKLTLPSQDLYYDYLIASQLLSNTHSFQYCLIGIAYFSFFFDMSLSSESYRIHKVYYPLFQDGHHTVVHSPLPTDGFSHLNTPKPLLSIFNLHFEYILLDELKDESLVLPWINAEWNTTPLYIPFEEHGKIRAASHAKLAYPHTLVENKMIFKKYLELLLKNDIKPLIVVFPVTSHYFNCSSKKLKEDFYKVINEFQTQYSFQIIDLFDSPLFCEDDFYDSDHMNKKGANKMSALLNMFIQERKV				NA	NA	NA	NA	NA
AK009_00631	2562			hypothetical protein	ATGAGAAATCGTATTGAAAGAATTGAAGAGGTCGTAGAGCAACTTCCGTTGGTAAGTGTGTTAATTCCTACGTATAATCGTCCTCGCTACTTTGAAAAGGCGTTATGTAGTGTGTTAGAACAAACGTACCCTAATATAGAAATTATAGTTGGAGATGACAGCACGAATGACGAAACAGAAAAGGTGTTACAAAAATATTTATGTGATCATTTAAATATTATTTATATAAAAAACAGATCAACTCTCGGACAATTTGAAAATGCGCTAATGTTATTTCATGAAGCGAACGGTGAGTATATAAATTTTTTAATGGATGATGATATATTTCATGTGAATAAAATTGAAAAGATGATGAAGTATTTTTTCAATGATCTAGATAATGAAATTAAGCTAGTAACATCTCATCGTCAAGTAATTGATGATAAAGGGAAAGAACTACGACATATTTATTCAACTGTCCGTTTATTTGAAGAGGATACGATTATAGAGGGAATAGAATTAGGAAATAAGGTAATTGTGGATCAAAAAAATTATATTGGAGAACCAACAACAGTTTTATTTCGTAAAAATGAGTTACAAGAACCGTATGGGATTTTTGATAAGAGGCGGTATTTATGTAATGTAGATATAGCTTCATGGTTATCTTTATTAAGTGAAGGAAAAGCAGTATATATAGCAGAGACACTTAGTTACTTTCGATTACATCCAGATCAACAGTTAAATGAATCTAATAAAATGATGGATGGGTTAGAAGATTTTTCACACAGTATTATAGCGGGAGAAAAATATGGTTTCTTATCCAACGAAAAAGATTTAGACAAAGCGATAACTAATTTTCTAGATTATGCAAGAAGGATAGTTCCATCATCGATATTATATACATTAGACTATTACCAAAAAATTAGAGGAAAGAAAATAAATATAGAAAAGAAAAAACAGCATATAAATAATAATTCTTCTTTACCGAAAGTAAGTATACTTATTCCTGCATACAATAGACCTTATTACTTGGAATTAGCGCTCAACAGTGCTCTGAATCAAACATATGAAAATATAGAAATTATTATTTCTGACGACAGTACAAATAATGAAGTCAATGTTATGATTCAACCGTACTTACGTGAATATGAGTGTATTACATATGTTGAAAATGAAACGCCATTAGTTGCTGAAAACTTTAATAAGTGTATAGAACTTGCGAATGGGGATTATATAAACTTTTTATTAGATGATGACTTATTTCATCATGAAAAGATCGAGAGAATGATGAAATACTTTTTGGCATTAGAAAACATTTCATTTGTGACGTCATATCGTGAACTGATTGATGAGAATGGAGAGATATTACCACCTTCAACATTGAATATGAAAATCGCGAAAGAAACAACACTTTTTGAAGGAAAAGAATTAGGGAATTATATGTTAAAAAACTTAAAAAATATAGTTGGTGAGCCGACAACTGTTTTGTTTAATCGGGATTTGTTTGAAGGTAAGTTTGGGTATTTTAAAGGAAAGGCTTATTCTGCTATTAATGATATTGCAACTTGGATAGATATGATGAGAAAAGGAAAAGTAGTTTATATACAAGAACCTCTTAGTTATTTTAGACAACATAGTGGACAAAATCAAAAACAAATGCATTTTATGTTAATGACAATTGAAGAGTGGATTGAATTAATTATAGATGCATATAATAGTGGATTTTTAAGTTCTGAAAGTGAGTATAAAGAGAGTTTATCTTATTGTTTAGAAAATGCGGGATTTATAGTTAAGGATGCAGTAAGAAACGGCGAAATAGATCAAATTTATAATGAAAAGATAAAAAAAGGGTTACACAAATTAGTTGCTCACATGTTTGAGAAAGAATTCTGTTATTGTCAATATTGCAATCAACAATTTGAAAAATTTTCACCTTGGCCAGCACATTATGATTTTCCGAAATATAAATTTGAGATGTGGAATAAAGATACAGGGATATGTCCAGTTTGTAATTCGATGGATCGTGAAAGATTGTATCGTACATACATTGAAACGGAAACAGACTTGTTAAATAGAAACTATACTATGCTTCATATTGCACCTGAAGCGAAGTTAAGAGATTGGTTTAACGAGTATAAAAATATTACGTACGTATGTGGTGACTTAGAACCAAAGGATCCATTAATGAAGGAAATTGATGTTACAAGGATTACATATGATAGTAATACCTTTGATGTAATATTATGTAGCCATGTGTTAGAACACGTTCCTGATGATGACAAAGCAATGCGAGAGTTATATAGAGTGTTAAAGCCAAATGGATGGGGAATTATTCAAGTACCAATCGTAATGAATGTAGATTTTATTGTAGAGAATGAATTAATTGTAACACCACAATTGAGGAAATTAGCTTTTGGTCAAGAAGATCATGTGAGAATTTATAATCAATCGGGATTTATTCAACGATTAATGAATGCAGGATTTAAGGTGGAATTATATAACATAGCGGAAAAACAAGGAATGAAAAGTGCTAGGAAATTTGGATTATCTGAAACAGATATGCTCTATATTGTCCGAAAATGA	MRNRIERIEEVVEQLPLVSVLIPTYNRPRYFEKALCSVLEQTYPNIEIIVGDDSTNDETEKVLQKYLCDHLNIIYIKNRSTLGQFENALMLFHEANGEYINFLMDDDIFHVNKIEKMMKYFFNDLDNEIKLVTSHRQVIDDKGKELRHIYSTVRLFEEDTIIEGIELGNKVIVDQKNYIGEPTTVLFRKNELQEPYGIFDKRRYLCNVDIASWLSLLSEGKAVYIAETLSYFRLHPDQQLNESNKMMDGLEDFSHSIIAGEKYGFLSNEKDLDKAITNFLDYARRIVPSSILYTLDYYQKIRGKKINIEKKKQHINNNSSLPKVSILIPAYNRPYYLELALNSALNQTYENIEIIISDDSTNNEVNVMIQPYLREYECITYVENETPLVAENFNKCIELANGDYINFLLDDDLFHHEKIERMMKYFLALENISFVTSYRELIDENGEILPPSTLNMKIAKETTLFEGKELGNYMLKNLKNIVGEPTTVLFNRDLFEGKFGYFKGKAYSAINDIATWIDMMRKGKVVYIQEPLSYFRQHSGQNQKQMHFMLMTIEEWIELIIDAYNSGFLSSESEYKESLSYCLENAGFIVKDAVRNGEIDQIYNEKIKKGLHKLVAHMFEKEFCYCQYCNQQFEKFSPWPAHYDFPKYKFEMWNKDTGICPVCNSMDRERLYRTYIETETDLLNRNYTMLHIAPEAKLRDWFNEYKNITYVCGDLEPKDPLMKEIDVTRITYDSNTFDVILCSHVLEHVPDDDKAMRELYRVLKPNGWGIIQVPIVMNVDFIVENELIVTPQLRKLAFGQEDHVRIYNQSGFIQRLMNAGFKVELYNIAEKQGMKSARKFGLSETDMLYIVRK				NA	NA	NA	NA	NA
AK009_00632	1131		COG0399	Protein	ATGGAGAATATTCCTTTTTTACGTGCTTCAACTGTACCTGTAATTGAGTATTTGGACGAATTGAAGGAAATTGATACATCTCACATATATACGAATTATGGACCTATAAATCAACGTTTTGAGGAAACAATTATGTCGGTATTTTTTCAAAACAGGGGAGCTGTTACAACAGTAGCAAACGCAACGTTAGGGTTAATGGCGGCTATTCAACTAAAGAAAAGAAGAAAGGGAAAGTATGCTCTCATGCCTAGCTTTACATTCCCTGCGACTGCCTTAGCCGCTATTTGGTGTGGATTGGAACCTTACTTTATTGATATTTCAATAGATGATTGGTATATGGATAAAACGGTACTTTTGGATAAGATAGAAGAATTAAAAGAAGAGGTTGCGATTGTTGTCCCGTACGCCACTTTTGGATCATGGATGAACTTAGAAGAATATGAAGAATTAGAGAAGAAGGGGATTCCGGTTGTCGTAGATGCGGCACCGGGATTTGGATTAATGAATAGAGGGATGCATTACGGTCAAGATTTTAGTGGAATGATCGTATATAGCTTTCATGCAACAAAGCCGTTCGGAATTGGTGAAGGAGGGCTCATATATAGTAAAAACGAAGAAGATATACAACGTATTAAAAGAATGGGGAATTTCGGATTTGATAAAAATCGTGAATGCACGATGATGGGGTTTAATTGTAAAATGTCTGAATACGCAGCAGCTATTGGGATTGCGACTATAAAAAAGTGGGATCAAAAATTAAAAGAACGCACCCGTATTTCTGAATGGTATAAACAGTTGTTACAAAATACTGGGTTAATGAAAAAAGGGTGGAAAGTCCAAAAGACAGAAGCAGTTATTCACCAATTTATGCCTATCATTTGTCCAGAAGAAGTTCGCAACATACAAGTAATAGAAGAACTGAAAAAACAGAAAATAGAAGCTAGATTATACTTTTCACCATCTTGCCACCAACAAGTTCTTTTTAAAAACTATAAGTCTACAGATTTAACAAAAACGAATAAAATAGCTAAACGAATCGTAAGTTTACCTTTATGGGAAGGAATGACGAAAGAACTAGTAGAGCAAATTGTAATCTGTTTAGAGCAGAAGGTGGTGTTGGTAGATGAATAG	MENIPFLRASTVPVIEYLDELKEIDTSHIYTNYGPINQRFEETIMSVFFQNRGAVTTVANATLGLMAAIQLKKRRKGKYALMPSFTFPATALAAIWCGLEPYFIDISIDDWYMDKTVLLDKIEELKEEVAIVVPYATFGSWMNLEEYEELEKKGIPVVVDAAPGFGLMNRGMHYGQDFSGMIVYSFHATKPFGIGEGGLIYSKNEEDIQRIKRMGNFGFDKNRECTMMGFNCKMSEYAAAIGIATIKKWDQKLKERTRISEWYKQLLQNTGLMKKGWKVQKTEAVIHQFMPIICPEEVRNIQVIEELKKQKIEARLYFSPSCHQQVLFKNYKSTDLTKTNKIAKRIVSLPLWEGMTKELVEQIVICLEQKVVLVDE				NA	NA	NA	NA	NA
AK009_00633	567	vioB	COG0110	dTDP-4-amino-4,6-dideoxy-D-glucose acyltransferase	ATGAATAGTTTTTATAGTCAAGAAGAACTAAAGAAAATTGGGTTTTTATCTGTTGGGAAAAATGTATTGATTAGTAAAAAAGCAAGTATATATAATCCGGGTGCTATATCAATTGGTAATCATGTAAGAATTGATGATTTTTGCATTTTAAGTGGCAAAATCACAATTGGAAGTTATTCGCACATATCAGCGTATACAGCGTTATATGGAGGGGAAGTTGGGATTGAAATGCATGATTTTGCAAACATCTCAGCTAAAACAATTGTATATGCAGTACTTGATGATTTCAGTGGAAATACATTAATGGGGCCAACCGTCCCGAATCAATATAGGGATGTGAAAGCAGAAAAAGTTATTTTAAAAAAACATGTGATTATTGGTGCTAATTCTATTGTTTTTCCAAATGTAACTGTAGGAGAAGGTACGGCAGTCGGCGCGATGAGTATGGTAAAAGAGAGTTTAGATGATTGGTATATTTACGCTGGAGTTCCCGTAAGGAAAGTAAAACCTCGTCAAAAAAAGATGCTAGAGTTAGAAATTGATTTTTTAAAAAGCATTCATTCTTAA	MNSFYSQEELKKIGFLSVGKNVLISKKASIYNPGAISIGNHVRIDDFCILSGKITIGSYSHISAYTALYGGEVGIEMHDFANISAKTIVYAVLDDFSGNTLMGPTVPNQYRDVKAEKVILKKHVIIGANSIVFPNVTVGEGTAVGAMSMVKESLDDWYIYAGVPVRKVKPRQKKMLELEIDFLKSIHS	PGPT0022860_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-N_ACETYLVIOSAMINE_MODIFICATION,PGPT0022860-vioB-K21379	NA	NA
AK009_00634	222			hypothetical protein	ATGTTTGATGAGGATGGGATTGTATTAATTATGGAACCAGCTGATGAAAGAAACTTGAGGAGATTTATTTTTTCAGTGCCAAAGTCAGTGTATGAAAAGAAGGGGCTTACATTACACTATGGAACAGCTATAGGACAAGGATATATGGATATAATTGAAGATATTATAAGCGTACATATAGAAATAGATGTTGTAACGATAATAGGGCATGTAAGAGGATAA	MFDEDGIVLIMEPADERNLRRFIFSVPKSVYEKKGLTLHYGTAIGQGYMDIIEDIISVHIEIDVVTIIGHVRG				NA	NA	NA	NA	NA
AK009_00635	447			hypothetical protein	ATGAAAATAAAATCAATTTTATTAGTATTTATAGTTTCAATTGGTTTAATGGGATGTTCAATAGTGGAGGAAGGAAAGAACTCGATAGATTATGCTCAAAAGGCGACAGACTATGTAAATGAAATAAGTGCATTTGCAAATGATGCACCAGCATTAGCAGAAAAGGCCGTTAATGATAGTGAGGCTCGAAAAGAATTAGAAACGAAGCTTAGTGAAATTAAACAAGATATACCCGCATTCAATGAATTAACGCCACCTGATGTAGCAAAGGATCTTCATCAACAAATCGTCGGATATAACGAAAAGTTAAATACGTTAATTGATACGGCGATGACAAAGATAGAAGAAGGGAAAGTGGATGTAGAGCAATTTAAAAACTCAGAGCTTATGCAGACGGTAGATCAAGTTCGAGATTTGAAAGATAAGGTGCAAAATTTAGGTCAATAG	MKIKSILLVFIVSIGLMGCSIVEEGKNSIDYAQKATDYVNEISAFANDAPALAEKAVNDSEARKELETKLSEIKQDIPAFNELTPPDVAKDLHQQIVGYNEKLNTLIDTAMTKIEEGKVDVEQFKNSELMQTVDQVRDLKDKVQNLGQ				NA	NA	NA	NA	NA
AK009_00636	339	arnE		4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE	ATGAATAGTTATATGTTATTATTTATTTTCGGGATAATTTTAGCTAATTACTCACAAATATTATTAAAAAAAGCTACTTTACAACAATACGATTCTAGAATAAAAGAATATGTGAATCCTTATGTTATTATCGGCTACTCTTTATTTGTACTTAACGCTGGATTAAATGTAATCGCCATGAAGGGCATGGAATTAAAACAAGCATCAGCATTAGAATCCTTAAGTTATATCATCATATTAATTTTCGGTTGGTATTTCCTAGGGGAAAAAATAACGAAACGTAAACTCATCGGTAACATGATTATTATCTTTGGTGTAATCGTTTATTGTATCCAATAG	MNSYMLLFIFGIILANYSQILLKKATLQQYDSRIKEYVNPYVIIGYSLFVLNAGLNVIAMKGMELKQASALESLSYIIILIFGWYFLGEKITKRKLIGNMIIIFGVIVYCIQ	PGPT0029230_409	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
AK009_00637	342			hypothetical protein	ATGAAACCAACTATTAAAAATTATGTATTTTTACATGTAGCTTTTTTGATATATTCTATCATTATGGTTTACATGAAATGGGCAGCTCAATTTCCAATTGCTTCAATCTCATTTTTTATTGCTTATTTCGGACTAGTTGTACTTTTATTCGGATATGCAATTTTATGGCAACAAGTAATTAAACATTTCGAAATTTCAAAAGCATATTCACATCGCGGGATTATTATACTATGGTCAATGCTTTGGTCAGTATTTCTATTTGGAGATACGATTCAGTGGAATCATTTACTTGGTGCAGCTATTATTATCGTCGGAATTGTGGTGGTGACAAAAGATGAATAG	MKPTIKNYVFLHVAFLIYSIIMVYMKWAAQFPIASISFFIAYFGLVVLLFGYAILWQQVIKHFEISKAYSHRGIIILWSMLWSVFLFGDTIQWNHLLGAAIIIVGIVVVTKDE				NA	NA	NA	NA	NA
AK009_00638	1002	mccF_1		Microcin C7 self-immunity protein MccF	ATGCTACTTCCAAAATCATTGCAATACGGAGACACAATTGGGATCTATTCCCCTTCTTCACCAGTAACTTACACTTCTCTAAAAAGATTTGAACGAGCAAAATCTTACTTACAACAGAAAGGGTTTCATATATTAGAAGGTTCATTAACAGGTCGATATGATTTTTATCGTTCTGGTAGTATACAAGAGCGCGCTGAGGAACTAAATGCCTTGATAAGAAATCCTAATATTTCTTGTATTATGTCAACAATTGGTGGGATGAATTCAAATTCACTATTACCTTATATTGATTATGATGCTTTTCTAAATAACCCTAAAATAATGATTGGATATTCAGATGCAACTGCTTTATTACTAGGAATTTATGTTAAAACAGGAATTCCTACATTTTATGGGCCAGCTCTCGTCCCTTCCTTTGGCGAATTTGAACCTTTTGTTAATTGCACATACAAATATTTTGCAGAAACTTTACTACATGATCAATCTCTTCCTTATCATATAAAACAACCATTATTTTGGTCAGATGAATTTATTAATTGGGAAAAAAAGACGAAGGAGAAAGAACTTCGACCAAACAATTGGATTTCAGTAATTGATGGAAAAGCTACTGGGCGTATTATTGGCGGGAATTTAAACACGATACAAGGAATTTTTGGTAGCCCCTATATGCCACATATTCAAGAGGGCGATATTCTCTTTATTGAGGACAGTTCAAAAGATGCAGCTACTATCGAAAGAAGCTTTTCATTCCTTAAAATTAACGGTGTATTCGATAAAATTTCAGGTATCATTCTTGGAAAACATGAGCAATTTGATGATTGTGGTACAAATCGAAAACCTTTTGAAATACTATTAGAAGTACTTCAAAATCAAAGAATTCCTTTTCTAGCCGACTTCGATTGTTGTCATACACATCCAATGATTACCATGCCTATCGGTGTTCAAGTAGAGTTAGATGCAACAAATAAAACGATACATATTGTAGAACCTTGGAAAAAATGA	MLLPKSLQYGDTIGIYSPSSPVTYTSLKRFERAKSYLQQKGFHILEGSLTGRYDFYRSGSIQERAEELNALIRNPNISCIMSTIGGMNSNSLLPYIDYDAFLNNPKIMIGYSDATALLLGIYVKTGIPTFYGPALVPSFGEFEPFVNCTYKYFAETLLHDQSLPYHIKQPLFWSDEFINWEKKTKEKELRPNNWISVIDGKATGRIIGGNLNTIQGIFGSPYMPHIQEGDILFIEDSSKDAATIERSFSFLKINGVFDKISGIILGKHEQFDDCGTNRKPFEILLEVLQNQRIPFLADFDCCHTHPMITMPIGVQVELDATNKTIHIVEPWKK	PGPT0023815_706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK009_00639	954	dacA_1		D-alanyl-D-alanine carboxypeptidase DacA	ATGAATCGGTTAAAATGGGGAAGGATGACAGTCCTATTAGTCATTATTTTAGGGGTATGTTGGTTCTTATTCCAAGGAAATCAAAAGAGCGTAGCAAATGTAGAGGGACAACCTTTGCAAGTGGCAGAACTACCTAAAGCAGGATTTTCTGAAAAAGTAGTCCCGCCAAAGTACATCCCACCAGAAATTAATGCAAAAGCAGCTATGATTATCGATGCGAGTGATGGAGATATTATTTATCAATATAATGAAAATGAAGCTTTTGCACCGGCTAGTATGTCTAAGATGATGACAGCGTATCTCCTACTAGAGAGTATACATAACGGGAAAGTTCGCTGGGAAGATCCAGTTAAAATGAGTGCGAAGGCGGCACAAACAGAGGGAGCGAGAATCCCAGTACAAGTTAATGACACATTAACTGTTAAAGATTTATATCATGCATTAATGATTGAGTCAGCTAATAATTCAGCTGTGGCTTTAGCAGAACATATGGCAAAATCGGAGAAAGATTTCGTTCAGCTTATGGATGCAAAAGCGAAACAGTTAAAAATGTCGGAACATGCTAAATTTGCAAATGCTTCTGGATTACAAGAGCCAGATGGAAGTGAAACAAAAATGACGGCTGCTGATGTAGCACAATTGGCGTATCATCTTATAAAAGATTATCCGGAAATATTAGAAGTGACTCACTTACGCCAAAGTCAGCTAGCATTTAATAATATTAATGTTATAAGCACAAACGACATGTTAAACAAAAATAATAAAAGTTTATATATAGAAGGAATGGACGGACTAAAGACTGGATTTACAGATAGTGCAGGATACTGTTTTACTGGGACTGCCAAGCAAGGTGATAATCGAATTATTACAGTGGTCATGGGGACATCAAGTAAAACAAAACGTTTTACAGAGACGAATAAGTTAATGTCGTATGCATTTGGATTAGTTAATTAA	MNRLKWGRMTVLLVIILGVCWFLFQGNQKSVANVEGQPLQVAELPKAGFSEKVVPPKYIPPEINAKAAMIIDASDGDIIYQYNENEAFAPASMSKMMTAYLLLESIHNGKVRWEDPVKMSAKAAQTEGARIPVQVNDTLTVKDLYHALMIESANNSAVALAEHMAKSEKDFVQLMDAKAKQLKMSEHAKFANASGLQEPDGSETKMTAADVAQLAYHLIKDYPEILEVTHLRQSQLAFNNINVISTNDMLNKNNKSLYIEGMDGLKTGFTDSAGYCFTGTAKQGDNRIITVVMGTSSKTKRFTETNKLMSYAFGLVN	PGPT0024040_5787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_00640	603			hypothetical protein	ATGATGGCAAAAGATTTTTACTCAGCAATTGAAGACAGAAGATCTATTTATGCAATTAGTAAAGAGCAAGTAGTTTCTGATGAGAAAATTCAAGAAGTGATTTATCATGCTGTAAAACATACACCTTCAGCTTTTAATTCTCAAAGTGCTCGTGTTGTTGTTTTATTAGGAGAACAACATGATAAATTATGGGATATTACGAAAGAAACGTTAAGAAAAATTGTACCTGAAAATAACTTTGCACCTACTGAAGAAAAAATGAATGCATTTAAAAGTGGTTATGGAACGGTTTTATATTTTGAAGACAGTGAAGTAGTGGAAGGCCTTCAAGCAAACTTTGCATTATATAAAGATAATTTCCCAACTTGGTCTCAGCAATCATCAGGAATGTTACAATTTGCAATTTGGACAGCTTTAGAAATTGAAGGGTTTGGTGCTACGTTACAGCATTACAATCCGCTAATTGATGAAGAAGTGAGAAAAGAGTGGGATGTTCCAGGAAATTGGAAACTCACTGCGCAAATGCCATTTGGTAAACCGGTAGTACAGGCTGGTGAAAAAGAATTCCAATCGTTAGAAAACCGTGTAAAAATTTATAAATAA	MMAKDFYSAIEDRRSIYAISKEQVVSDEKIQEVIYHAVKHTPSAFNSQSARVVVLLGEQHDKLWDITKETLRKIVPENNFAPTEEKMNAFKSGYGTVLYFEDSEVVEGLQANFALYKDNFPTWSQQSSGMLQFAIWTALEIEGFGATLQHYNPLIDEEVRKEWDVPGNWKLTAQMPFGKPVVQAGEKEFQSLENRVKIYK				NA	NA	NA	NA	NA
AK009_00641	171			hypothetical protein	GTGAGACATATAATAGATGATCCTATACAAAAAAATATAGAGCTGTACTATGCTTTTATTCAATTCGTTTCAATGATAACATTACAAAAAATATCAGTTGTTGAAACACGTAAAGATGAATTGAAAAATCAGATAAAAAATGAAGGACAAAAAAAACCTTATTACTTATAA	MRHIIDDPIQKNIELYYAFIQFVSMITLQKISVVETRKDELKNQIKNEGQKKPYYL				NA	NA	NA	NA	NA
AK009_00642	1293			hypothetical protein	ATGAAAAAAGTAATTGCAGGTTTAGCAGCAGCTTCTGTAGCTGGCGTTGCAGTTCCAGGAATGGATTCTGCTCATGCACAAGTTTCAAATGAAGCGCTAAAAGAAATTAATGGACAAACTCAAACTCAAACGACTGTAACTGAAACAAAAACTGTAGAAACAACTTCTGAATTAAAATACACAGTAACTGCTGATGTATTAAATGTTCGTTCAGGTGCTGGTACAGGACATAACGTTATTTCTAAAGTAAAATCAGGCCAAGTGCTACAAGTAGTTGGACAAGAAAATGGTTGGTTCAAAGTAAACGTAAATGGTCAAACAGGTTATGTAAGTGGTGACTTCGTAACGACTGGTGGCAAAACAGGAACGACTGTTCAACAAGGAACAGGTACTTACACAGTAAACGTTTCTTCACTTAACGTACGTACAGGCCCAAGTACATCTCATACAGTATTAGGTTCTGTAAACAAAGGTAAAACAGTACAAGTTGTAGGTGAAGTACAAGATTGGTTTAAAATCAACTTCAATGGTGGAACTGGATACGTAAGCAAAGACTTCGTAACAAAAGGTGGTTCTGCTGTATCTAACGAAACACAACAACCAACTACAAACAACAATACTACAACAGTTCAAACTGGTGGTTCTTATGTTGTTAACACTGGTGCTTTAAAAGTACGTACAGGCCCAGCTACATACAACGCTGTAATCGGTGGAGTAACAAATGGTAAAGTATTAAACGTTACTGGCGCTGAAAATGGTTGGTACAAAATTAACCATAACGGCCGCACAGGTTACGTAAGTGCAGACTTCGTTAAGTTTGTAAAAGGCGGAGTAAATAACGTTACAAATAACAATAACAATAACAATAACGTTACAAATAACGTTCAACAACCAGGTAAAGACGTACAAAAACCAACAACAGGTGGAGATACATCTTCAATCGCTGGATTCGCTAGATCTTTAAATGGTTCACCATACAGAACTGCTGGTACAACACCTGCTGGTTTTGACTGCAGTGGATTCATTCACTACGTATTAAATCAAACTGGTCATAAAGGCGCTCGTCAAACAGTTGCTGGATACTGGAGCTCTAAAACAAAAACTAGCAATCCACAACCAGGTGATTTAGTATACTTCCAAAATACTTATAAATCAGGTCCTTCTCACATGGGTGTTTACTTAGGAAACGGTCAGTTCATTAGTGCAGAAACAGATGCAACTGGTGTACGTATTAGTTCTGTAAGTAACTCTTACTGGAGCAAGCACATTTTAGGTTACACAAAAGCATACTAA	MKKVIAGLAAASVAGVAVPGMDSAHAQVSNEALKEINGQTQTQTTVTETKTVETTSELKYTVTADVLNVRSGAGTGHNVISKVKSGQVLQVVGQENGWFKVNVNGQTGYVSGDFVTTGGKTGTTVQQGTGTYTVNVSSLNVRTGPSTSHTVLGSVNKGKTVQVVGEVQDWFKINFNGGTGYVSKDFVTKGGSAVSNETQQPTTNNNTTTVQTGGSYVVNTGALKVRTGPATYNAVIGGVTNGKVLNVTGAENGWYKINHNGRTGYVSADFVKFVKGGVNNVTNNNNNNNNVTNNVQQPGKDVQKPTTGGDTSSIAGFARSLNGSPYRTAGTTPAGFDCSGFIHYVLNQTGHKGARQTVAGYWSSKTKTSNPQPGDLVYFQNTYKSGPSHMGVYLGNGQFISAETDATGVRISSVSNSYWSKHILGYTKAY	PGPT0024010_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024010-lytF|cwlE-K19223	NA	NA
AK009_00643	765	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	TTGCAAACAAATATACATTCTGAAAAGGAAACAATTATTTTTATTCATGGGTTAGTTGGTAATCGTCGCGCCTTCAAAAAGGAGCAAAAACGATTTTCTGCCTCCTACAACATTATAACTTATGACTTATTAGGTCACGGTGATGATAAAGGAGAAGCAATCGACTTTTCATTACAGCGCCTCGTAGATCAATTATTAAACTTATATGAACAAGAAAATATTAAAAAAGCTCATATTTGTGCACTAAGTTACGGCTGTTACATCTCTACAATTTTTGCACAAATGCATCCAGAAAAAGTATTAAGTATTTGTCATATTGGAGGACATTACAATAACCCTTCTCGTTTATATAATGTATTTCAAAATTTTTGGGAGAAGCGAGGAGATGAATACTCTAAATGGCTCTCTCAATACGCAAATACTATTTTTCCAAGTGGTATACTAAAAGCAAATCCATTCGCAGTCATTTCAAGAAATATTTACTACCGTTTCGGATTACAATTACATTCATCCATAATTGCCCAGTCATTACGACATCGGTTAGAATTCGATTTAAAATCTAAATTAAAATCACTCCCTCACCCTATACTATGGGTAATGGGAGAGCATGATCATCTCTATAAATCTTGTCTATTTGATTTGAAATCTATTTTACCTAACGTTCTATACAAGGAAATACCTTTAGCAGGACATGCAGCGAACTTATTTCGTCCTAACTATTTCCACGACTTATATGATCGATTTTTAAATGGAAAGTTAAAATAA	MQTNIHSEKETIIFIHGLVGNRRAFKKEQKRFSASYNIITYDLLGHGDDKGEAIDFSLQRLVDQLLNLYEQENIKKAHICALSYGCYISTIFAQMHPEKVLSICHIGGHYNNPSRLYNVFQNFWEKRGDEYSKWLSQYANTIFPSGILKANPFAVISRNIYYRFGLQLHSSIIAQSLRHRLEFDLKSKLKSLPHPILWVMGEHDHLYKSCLFDLKSILPNVLYKEIPLAGHAANLFRPNYFHDLYDRFLNGKLK				NA	NA	NA	NA	NA
AK009_00644	1761	bmrA_1	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGGAAGTTAGAAATGAAATGAAGAAAAAAGGGAGTTGGAGGCAGTTTTTACGCCTTATTCAAGATACAAATCCTCCGAAAGGAATTTTAGTTTTTGCATTATTAATGAGTTTGCTTTCTACGGGAGCGAGTTTATTTATTCCCATGCTAACAAAAGGATTAGTAGATAATTTTTCGCTTTCTTCAATTAGTGCAGGACAAATTGTTGGGTTAGTTGCTTTCTTTGTAATGCAAACTATTGCGGCAGGGTTATCTATATATTTACTAAATTATATTGGGCAGAAGATTGTAGCGGGACTAAGAGAACGTTTGTGGAAAAAGGTACTTATCTTGCCGGTATCTTATTACGATCAAAATAGAACAGGTGATACGATTAGCCGTATGACGAATGATACAGGTGTTGTGAAAACGTTAATTTCTGAGCATTTGTCAAACTTATTAACAGGTGGTATTTCAATTGTTGGATCGTTAATTGTATTATTTGTTTTAGATTGGAAAATGACTGCGTTACTTTTAACGGTTATTCCGTTGTCTGTATTAATTTTAGTTCCACTTGGACGAAAAATGTATAAGATTTCAAAAGCGCTTCAAGATGAAACGGCATCTTTTACAAGTGTGTTAACGCAAGTGTTATCGGAAATTCGTTTAGTGAAATCTTCAAATACAGAAAAAAGAGAATATGAAACGGGTAATACAGGTATACAAAAGTTATTACAATTTGGTTTGAAAGAAGGAAAAGTGCAAGCATTAATTTCGCCAGTTATGTCGTTTGTTTTAATGGCACTACTTGTTATTATCGTAGGATATGGCGGGATGCGAGTTTCTAGCGGTGCATTAACAACTGGTGAACTTGTAGCGTTTATTTTGTATTTAGTTCAAATTATAATGCCGATGAGTCAATTATCTATGTTCTTTACACAATTTCAAAAGGCAATCGGTGCAACGGAAAGAATTAGTACGATTTTAGAATATGAAGTAGAAGATCATGAAACTGGTGTGAAAGTGGCAAATGCTAAGCAGCCGATCGTTCTTGAAAATGTACATTTTGAGTATAACGAAGAAGAGCAAGTTTTGAAAAATATTGATTTCATAATTGAATCTGGAAAAGTGACAGCGATTGTAGGACCAAGTGGTAGTGGGAAAACAACGTTATTCTCATTACTGGAACGTTTTTATGAGCCAACTAGTGGTGCCATTAAATTAGGAAAAGAATCAATTACGAGTTATTCATTACAGTCATGGCGACGTCAAATCGGTTACGTATCACAAGATAGTCCGTTAATCGATGGAACGATTCGTGATAATATTTGTTACGGTGTTGAAGGCGAAGTAACGGATGAAGAAATTGAAAAAGTAGCAGCAATGGCATATGTTGATGCATTTATTCATGACTTACCAAACGGTTATGCAACAGAAGTTGGAGAACGCGGTGTGAAGCTTTCTGGTGGACAAAGACAGCGAATTGCCATTGCCCGAGCGTTACTTCGAAATCCGCAAATTCTTATGCTAGATGAGGCAACTTCAAGCTTAGATAGTAAATCTGAGTCTGTCGTTCAAAAAGCGTTAAATAACTTAATGAAAGGCAGAACAACGTTAGTGATTGCGCATAGACTTTCTACTGTTGTAGATGCAGATAAAATTATCTTTATTGAGAAAGGGAATCTTACAGGTAGTGGTACGCATGATGAATTATTACAGACGCATGATATGTATCGTGAGTTTGCAACGCAACAATTGAAAATTAAAGAGGGTGCATTTTAA	MEVRNEMKKKGSWRQFLRLIQDTNPPKGILVFALLMSLLSTGASLFIPMLTKGLVDNFSLSSISAGQIVGLVAFFVMQTIAAGLSIYLLNYIGQKIVAGLRERLWKKVLILPVSYYDQNRTGDTISRMTNDTGVVKTLISEHLSNLLTGGISIVGSLIVLFVLDWKMTALLLTVIPLSVLILVPLGRKMYKISKALQDETASFTSVLTQVLSEIRLVKSSNTEKREYETGNTGIQKLLQFGLKEGKVQALISPVMSFVLMALLVIIVGYGGMRVSSGALTTGELVAFILYLVQIIMPMSQLSMFFTQFQKAIGATERISTILEYEVEDHETGVKVANAKQPIVLENVHFEYNEEEQVLKNIDFIIESGKVTAIVGPSGSGKTTLFSLLERFYEPTSGAIKLGKESITSYSLQSWRRQIGYVSQDSPLIDGTIRDNICYGVEGEVTDEEIEKVAAMAYVDAFIHDLPNGYATEVGERGVKLSGGQRQRIAIARALLRNPQILMLDEATSSLDSKSESVVQKALNNLMKGRTTLVIAHRLSTVVDADKIIFIEKGNLTGSGTHDELLQTHDMYREFATQQLKIKEGAF	PGPT0028965_174	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
AK009_00645	678	hssR_1		Heme response regulator HssR	TTGATACCTAAAATTTTAATAGTAGACGACGATCCACACATTAGGGAACTCGTTTCTGTATTTTTAGAACGAGAAGGTTTTCAAACATATGAGGCAATTGATGGAGTAGATGCACTTCGGAAAATGGATGACGTAAAAGTCGATATGGTTATTCTTGATATCATGATGCCAAATATGGATGGATTTGATGTATGTTTTGAATTAAGAAAATACTATGATATCCCGGTTCTGATGCTAACTGCCAAAGGGGAAACATCACAAAAAGTAAAAGGATTTCACCTTGGGACAGATGATTATCTTGTAAAGCCATTTGACCCTATAGAACTAGTAGTGAGAGTAAAGGCATTATTGAAACGTTACCAAATTACAGTTTCACAATCGATTCAAGTTGGAAATGTATTATTAAATCGTAAAACATTCGAAGTTACATCTGGAGAACAAACGGTTACGTTACCGTTAAAAGAATTTGAGCTGCTCTTTACTTTAGGGTCTAAATCGGGAAGAACTTGTTCGAGAGAGCAATTAATTGAAGAAATATGGGGATATGATTTTGAAGGGAATGAACGTACACTAGACGTTCATATTAATCGGTTACGTGAGAAGTTTCAAGAAGAGCAGTCGAAATTTAGTATTAAAACGATAAGAGGATTAGGGTATCGCTTAGAGGTAAGTAAATGA	MIPKILIVDDDPHIRELVSVFLEREGFQTYEAIDGVDALRKMDDVKVDMVILDIMMPNMDGFDVCFELRKYYDIPVLMLTAKGETSQKVKGFHLGTDDYLVKPFDPIELVVRVKALLKRYQITVSQSIQVGNVLLNRKTFEVTSGEQTVTLPLKEFELLFTLGSKSGRTCSREQLIEEIWGYDFEGNERTLDVHINRLREKFQEEQSKFSIKTIRGLGYRLEVSK	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
AK009_00646	1074	rcsC_4		Sensor histidine kinase RcsC	ATGAGAAAAAGAAAACGAATGAGTAAGTTGAAGATGCTGAAAGTATTTGGAGCGGTATTAGCGCTCTTTTCTTTTCTTACTATCATTTGGTCTATCGCATTTTATATAGCAACTAGTATATTGAATGCTTTTGACGTAAACGTATCGCCATTTGTTGCCTTTCTAATTAGTGATATGGTCGGTTTTGTATTTATTATTCTTATTTGGACATTAATTGGAATATTAATGAGGCCAAAACGAGAGGCAATGATTTGGACTATTATTGAACCGATACAAAAAATTGCAAAAGGAGACTTCTCCGTAAAAATACGAAATGAAGAAAAGTATGATGGAGAAATTGGCGTGCTCGTAAAAAGTATAAATGATATGACAGATGAACTGAATACGATGGAGAAAATGAGACAAGAATTTGTATCAAATGTTTCTCATGAAATACAGTCACCATTAACTTCTATAAAAGGATTTGCTAGAGCACTACAAGACGATAATCTTTCTGAGGAAAAAAGAAAGCATTATCTTACAATTATTGAAACTGAAACAACGAGATTATCTAAACTAAGTCAAAATTTACTAAAGCTAACTCTTTTAGAATCCGAAGAGTATACACCAGAGAGAGTGAGCTATCGATTAGATCAACAGTTAAAGCAAATTGTGTTAAATAGTGAACCACTCTGGGCTGAAAAAGAAATTGAATTAGATCTTGATTTAGAGAAAGTCCATGTAACTGCAGACCAAGAAAGTATGAGTCAAGTGTGGATTAATTTAATTCATAATAGCATTAAATTCACTCCAAGCGGTGGTACAATTACTATTCAATTAAAGGAACATGAGACAGTAGTGGAAGTGCGTATCTGTGATTCAGGAATTGGTATATCAGAAGAACAGAAACAACATATTTTTGAGCGTTTTTATAAAGCGGATTCTTCACGAAATCGTGCCTCTGGAGGAAGTGGCTTAGGTTTAGCTATTGTAAAGAAAGTACTCGATCTTCATCAAGGAGAGATAAAAGTGGAGAGTGAGGAAGGAAAAGGTACTGAATTTATTGTGCGTATTCCTAATTATGAAGAAAAATAG	MRKRKRMSKLKMLKVFGAVLALFSFLTIIWSIAFYIATSILNAFDVNVSPFVAFLISDMVGFVFIILIWTLIGILMRPKREAMIWTIIEPIQKIAKGDFSVKIRNEEKYDGEIGVLVKSINDMTDELNTMEKMRQEFVSNVSHEIQSPLTSIKGFARALQDDNLSEEKRKHYLTIIETETTRLSKLSQNLLKLTLLESEEYTPERVSYRLDQQLKQIVLNSEPLWAEKEIELDLDLEKVHVTADQESMSQVWINLIHNSIKFTPSGGTITIQLKEHETVVEVRICDSGIGISEEQKQHIFERFYKADSSRNRASGGSGLGLAIVKKVLDLHQGEIKVESEEGKGTEFIVRIPNYEEK	PGPT0002705_4093	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK009_00647	720	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	TTGGCAGAATTATTACAAGGCAAAAATGCTTTAATTACAGGAGCAGGTAGAGGGATTGGTCGCGCTGTCGCAATTGCATTAGCGAAAGAAGGCGTAAATGTAGGCCTATTAGCTCGTTCAGAAGAAAACTTAAAAGCTGTAGCGAAAGAAGTAGAAGCAGAAGGCGTAAAAGCTGTTATTGCAACTGCTGATGTTTCTTCATACGAAGAAGTGACTACTGCGATTGAAACGTTAAAAAATGGTTTAGGATCTATCGATATTTTAATTAATAACGCTGGTATTTCTAAGTTTGGTAAGTTTTTAGAACTAGACGTTGCTGATTGGGAAAAAATCATTCAAGTAAACTTAATGGGTGTATACTATGCAACTCGTGCTGCTTTACCGAGCATGATTGAACAACAATCTGGTGATATCATTAACATTTCATCTACAGCAGGACAAAAAGGTGCACCTGTAACAAGTGCATATAGTGCTTCTAAATTTGGTGTTCTTGGTTTAACTGAATCGTTAGCGATGGAAGTTCGTAAGCATAACATTCGTGTAACAGCTTTAACACCAAGTACAGTAGCAACTGATATGGCTGTAGATTTAGGATTAACTGATGGAAACCCTGATAAAGTAATGCAAGCAGAAGATATTGCAGAATTTATCGTAGCGCAGCTAAAATTAAATAAACGTACATTTATTAAATCTGCTGGGCTTTGGTCTACTAATCCATAG	MAELLQGKNALITGAGRGIGRAVAIALAKEGVNVGLLARSEENLKAVAKEVEAEGVKAVIATADVSSYEEVTTAIETLKNGLGSIDILINNAGISKFGKFLELDVADWEKIIQVNLMGVYYATRAALPSMIEQQSGDIINISSTAGQKGAPVTSAYSASKFGVLGLTESLAMEVRKHNIRVTALTPSTVATDMAVDLGLTDGNPDKVMQAEDIAEFIVAQLKLNKRTFIKSAGLWSTNP	PGPT0003180_21240	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
AK009_00648	420		COG4122	Catechol O-methyltransferase	ATGAGTACAATTGAGAAATGGACGGCTGTTGATCAATATATGAGTGATGTATTAATACCGAAAGATTCTACATTAGAAAGGGTCCTTCAAGCGAATGCTGCAGCTAATTTACCGGCACATGATGTATCGCCAACGCAAGGGAAGTTTTTACAACTATTAGTACAAATTCAAGGAGCTCGAAACATTTTGGAAATTGGTACTCCAGGCGGATATAGCACGATATGGATTGCAAGGGGCTTACCATCTGGAGGCCAAGTTGTTACATTGGAAGCAAATGAAAAACATGCAGAAATTGCACGTAGCAATATTGAACGTGCTAATTTGAATGATAAAATTGAAATACGAACAGGATTAGCGTTAGATTCTTTACAACAAATAGAAAATGAGAAGCATGAACCTTTTGATTTTATCCCGCATTAA	MSTIEKWTAVDQYMSDVLIPKDSTLERVLQANAAANLPAHDVSPTQGKFLQLLVQIQGARNILEIGTPGGYSTIWIARGLPSGGQVVTLEANEKHAEIARSNIERANLNDKIEIRTGLALDSLQQIENEKHEPFDFIPH				NA	NA	NA	NA	NA
AK009_00649	255		COG4122	Catechol O-methyltransferase	ATGCTGATAAACAAAATAATCCGACTTATTTTTGAATGGGCACTGAAACTATCACGCCCTGGTACCGTAATTATTGGAGATAATGTAGTACGTGAAGGAGAAGTTATTAATGATACTAGTAACGATCCTCGTGTACAAGGGATACGTCGTTTCTATGAATTAATAGCTGCAGAGCCACGTGTTAGTGCTACAGCGCTTCAAACTGTCGGAAGTAAGGGATACGATGGATTTGTAATGGCAATCGTAAAAGAATGA	MLINKIIRLIFEWALKLSRPGTVIIGDNVVREGEVINDTSNDPRVQGIRRFYELIAAEPRVSATALQTVGSKGYDGFVMAIVKE				NA	NA	NA	NA	NA
AK009_00650	870	aadK		Aminoglycoside 6-adenylyltransferase	ATGAGAACTGAAAAAGAAATGTTAGACGTAATTATAAATACAGCAATAGAGGATGAAAGAATTCGAGCAGTTATCATGAATGGATCGCGTGTAAATCCAAATGTGAAAAGAGATTGTTTTCAAGACTATGATATTATGTATGTTGTAAATGATATACAATCTTTTACGTCTAATCATAATTGGGTTCATAGATTTGGAGAAATAATGATAGTACAAATGCCAGAAGAAATGTCGTTAGTTCAACCAGATGAAGATGGAAAGTTTCCGTATTTAATGCAGTTCATGGATGGGAATCGGATTGATTTAACGCTAGTTCCAGTTGAGTTAATAAAAAAGTTCGTTGGACAAGATAGTTTAAGTAAACTGCTTCTTGATAAAGATAATTGTCTGGAAGAATTCCCACCAGCAAGTGATAAAGATTACTTAGTAAAAAAGCCTACAGAAAAAGAGTTTTTAGATTGTTGTAATGAATTTTGGTGGTGTAGTACGAATATCGCAAAAGGGTTATGGCGAGAGGAACTTTCTTATGCAAAAGGAATGCTTGAAGGACCAGTGCGAGATATGTTCATCGTAATGCTAGAATGGTATATTGGTATGAAAACAGACTTTACAGTTAATACAGGGAAGTTTGGAAAGCATTTCGAGCAATATATTGAAGAAGATATGTGGGAGCAATTTAAAAGGACATTTTCTAATGCAGAATATGAAAATATATGGGAGTCATTCTTTGTTATGGGTGATTTATTTAGAGAAGTGGCGAACGAAATTGCTAACACATATGAATATCAATATCCGCAAGATGATGATAAAGTGACGAACTATTTAAAACATGTGAAAGCTTTGCCAAAAGATAGTACATCAATTTATTAA	MRTEKEMLDVIINTAIEDERIRAVIMNGSRVNPNVKRDCFQDYDIMYVVNDIQSFTSNHNWVHRFGEIMIVQMPEEMSLVQPDEDGKFPYLMQFMDGNRIDLTLVPVELIKKFVGQDSLSKLLLDKDNCLEEFPPASDKDYLVKKPTEKEFLDCCNEFWWCSTNIAKGLWREELSYAKGMLEGPVRDMFIVMLEWYIGMKTDFTVNTGKFGKHFEQYIEEDMWEQFKRTFSNAEYENIWESFFVMGDLFREVANEIANTYEYQYPQDDDKVTNYLKHVKALPKDSTSIY	PGPT0028695_162	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
AK009_00651	828		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGTATTATTTTTATTCGCCAGAAATGTTTGCTCCATATCAATGGGGACTAGAACGAGATGTTTCGTATGCTTATATGCCATATAACTCACTTTATTATGGAGAATATATAAGCGCATTGCCATACGCATATATCCCTCAAAGCTATGAAGTACAAATGAAAGTAGATGATCGTGGATCGTGGACACCATTTTCATGGGTTGAAAAATATGCGTACGCATTTTCAGGACCGTATAATAAAGCGGAAGTAGCTCTTACATTTGATGATGGACCAGATTCAGAATTCACGCCAAAAATATTAGATAAGTTAAAACAACATAATGTAAAAGCTACTTTTTTCTTACTTGGTGAAAACGCAGAAAAATTTCCGAACGTAGTAAAGCGTATTGCAAATGAAGGGCATGTAATTGGTAATCATACGTATAGTCATCCAAATTTAGCGAAAGTAAATGAGGATGAGTACCGTAATCAAATTATAAAAACAGAAGAAATATTAAATCGTTTAGCTGGTTATGCACCAAAGTTTATACGTCCGCCATACGGTGAAATACTTGAAAATCAATTGAAGTGGGCGACAGAGCAAAATTTTATGATTGTACAGTGGAGTGTTGATACAGTTGATTGGAAAGGTGTAAGCGCTGATACGATTACAAATAATGTATTAGGGAATTCATTTCCAGGAAGTGTCATCCTTCAGCATTCAACACCGGGTGGGCATCTACAAGGATCTGTAGATGCACTAGACAAAATCATTCCGCAGTTAAAAACGAAAGGGGCACGTTTTGTAACACTTCCGAGTATGTTCCAGACATCAAAAGAAAGAAATTGA	MYYFYSPEMFAPYQWGLERDVSYAYMPYNSLYYGEYISALPYAYIPQSYEVQMKVDDRGSWTPFSWVEKYAYAFSGPYNKAEVALTFDDGPDSEFTPKILDKLKQHNVKATFFLLGENAEKFPNVVKRIANEGHVIGNHTYSHPNLAKVNEDEYRNQIIKTEEILNRLAGYAPKFIRPPYGEILENQLKWATEQNFMIVQWSVDTVDWKGVSADTITNNVLGNSFPGSVILQHSTPGGHLQGSVDALDKIIPQLKTKGARFVTLPSMFQTSKERN	PGPT0018645_2804	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_00652	342			hypothetical protein	TTGATCTATGCATTAGTAAACGTAGGAATAAGCATATTGATCGGTGTTATATTTATACTTGCTGCAATTATCCTTCAAAAAAATCCACCAACGGATATTAACGCAGCATATGGTTATCGTACGAAACGATCCATGAAAAATAAGGAATTATGGGATGCGGGTAATAGGTATAGTGCAGAAGTGATGAAGCAAAACGGATTCATCATGATGTTAATTGGAAGTATTATTAGTATACTGTTTAGATATCCACATACAACAGCAGTGATTATGGCGGTCATGGTATTGTTAATCATTCACTTATTTAGGCGAGTAGAGAAGAGATTAAAGACAATTGAACAATGA	MIYALVNVGISILIGVIFILAAIILQKNPPTDINAAYGYRTKRSMKNKELWDAGNRYSAEVMKQNGFIMMLIGSIISILFRYPHTTAVIMAVMVLLIIHLFRRVEKRLKTIEQ				NA	NA	NA	NA	NA
AK009_00653	609	idi_1		Isopentenyl-diphosphate Delta-isomerase	ATGACAGAGTGGTTAACAATATTTGATCCTGAAAGAAATACACTTGGGAAGAAATTACGTGACGAAGTGCATCGTGACGGTGATTGGCACGAAACATTTCATTGTTGGTTTGTAGAAAAAGATAATGAAGATATGTTCTTATATTTCCAATTACGCTCTAAAAATAAAAAAGAAGCTCCATGTATATGGGATATTACTTCAGCTGGACATATTATGCATGATGAAGATGTACAAATTGGTGGCCTTCGTGAAATCGAAGAAGAATTGGGGCTTTCCTTTCAAACTACTGATTTAATATACAAAGGCATCTTTAAAATAGATTATGAAATTTCAAATCTTACTGATCGTGAATTTTGTCATATGTATTTTCACAATGTCAACAATCCACTTCCATTCGCACCAGGTGAAGAAGTAGACGATGTGATGAAAGTACATACAACTCCTTTTCTACAACTATTAAAAGGAGAGATTTCATCTTTAACGACGATTTCAGTCCTAAACAATAAACCGATTACGATAACATTTGAAGATATTTATCCGTATGATCTTGCATACTATGAATTTGTTGTTGAACAAGGAAAAGAACTACTAAAAAATAATAGTTTGTAA	MTEWLTIFDPERNTLGKKLRDEVHRDGDWHETFHCWFVEKDNEDMFLYFQLRSKNKKEAPCIWDITSAGHIMHDEDVQIGGLREIEEELGLSFQTTDLIYKGIFKIDYEISNLTDREFCHMYFHNVNNPLPFAPGEEVDDVMKVHTTPFLQLLKGEISSLTTISVLNNKPITITFEDIYPYDLAYYEFVVEQGKELLKNNSL				NA	NA	NA	NA	NA
AK009_00654	639			hypothetical protein	GTGGAGATAGAGCGTATGGAAATAAAATCGATTATTTCAACAGAGGAAGAGTTACGGAAAATATTGGGGCAACCAAGTGAGCGAGCATTGAAAAAAGTTATTTCATCATTAGACCACCATTGCATAGATTTTCTTTCTAAATCTCCTTTTCTAGTATTATCTACTGCAAATAAGTTGGGGGAGTGTGACGCCTCGCCGAGAGGAGACGCACCTGGATTTGTTTACATATTAAATAATAGTAAAATTATTATTCCGGAAAGACCAGGAAACCGCCGTATAGACTCCATTTTGAATATTATTTCCAATCCAAGTATAGGATTAATCTTTTTTATTCCAGGTCTTGGGGAGACACTCAGAATAAATGGCCGAGCGTATATTACAAACGACGAAGAAGTTTTGAAAGAAATGCAGGCGAATGGACGTAATCCATTGCTTGGAATTGTTGTTGAAATAGAAGAGTGTTATATTCATTGTGCAAAAGCTTTTATTCGTTCTAAGATGTGGGATCCAGAATCTTGGTTAAATAAAAAAGAGTTACCTTCAGCAGCAAAAATGTTACTGGAGCATGCGAAAGTGAATACTTCAGAAGAAGATGTTGCACGTTCTTTAGAAGAAAGTTATACAAAAAGATTGTATTAA	MEIERMEIKSIISTEEELRKILGQPSERALKKVISSLDHHCIDFLSKSPFLVLSTANKLGECDASPRGDAPGFVYILNNSKIIIPERPGNRRIDSILNIISNPSIGLIFFIPGLGETLRINGRAYITNDEEVLKEMQANGRNPLLGIVVEIEECYIHCAKAFIRSKMWDPESWLNKKELPSAAKMLLEHAKVNTSEEDVARSLEESYTKRLY				NA	NA	NA	NA	NA
AK009_00657	1296	hom_1	COG0460	Homoserine dehydrogenase	ATGAATAACGTTATAAATGTTGGGGTATTAGGTTTAGGTACGGTCGGAAGTGGTGTTGTTCATATTTTGAAAGAACATTATAAAAAAATCGCTCTTGATACAGGATACGAAGTGAAAGCGAAAACAGTCGTTGTACGTGATTTAGAAAAAGAACGCGATGTTTGTATTGATGAAATTGCAGTAACAAGCCATGTAGATGAAGTTCTAAATGATTCGAATATTGATATTGTAGTAGAGGTAATGGGTGGAATTGAAGAAGCAAAACAGCATATTGTTAAGGCTTTACGAAATAAGAAACATGTCGTAACAGCAAATAAAGATTTAATGGCTGTATACGGTGCAGAGCTTCTCAAATTAGCGAACGAAAATGATTGTGATCTATGTTATGAAGCAAGTGTAGCGGGTGGTATTCCAGTGTTAAGAGGATTAACTGACGGGCTAGCATCAGATCAAATTGAAAAAATAATGGGAATTGTAAATGGTACAACAAATTATATGTTAACAAAAATGAGTCAAAATGGGTGGTCTTATGAAGAGGCTTTACAGGAAGCGCAAAAATTAGGTTTTGCAGAATCGGATCCGACAGCAGATGTAGATGGACTAGATGCGGCGAGAAAGGTAGCAATTCTTGCAAACTTAGGTTTTTCGATGAATGTTTCATTAGATGATGTGCAAGTAAGAGGGATTCGAAAGGTCGAAAAAGAAGATTTACAAATGGCTGAAAAGTTAGGATTTACTATGAAGTTAATTGGTAAGGCAGAAAAACAAGGGCCAGCCATTCATTTAAGTGTAGAACCGACGCTTTTACCGAGACGGCATCCATTATCGAATGTAAATAATGAATTTAATGCAGTATATGTTCATGGTCAAGCGGTAGGAGAAGTAATGTTTTACGGACCTGGAGCTGGAAAGTTGCCAACTGGTTCTGCCGTAGTAAGTGATATTATTTCCATCGTTAAAAATATGAATCAAGTTCCGAAAAATAAAAGTGCATTAAAAGAACCAGTTCCTTATGAATTACAAGGTGATGAAGAAGTAGTTTCGAAATATTTCTTGCGTATTTCATTACGAGATGAGCCTGGGATGTTGCAAAAAATAACAGAATGTTTCGTTAATTACTCTGTAAGTTTAAAAGAAGTTATTCAATTACCTTTAAACCGTGAACTGGCAGAAGTTGTTGTTGTGACACATCGAACTTCCAAGTATCAATTCGAACGAGTTTTAGGAGCGATAGAAGCTGTCGCAAGTGAAATAAACAGTTACTACATTATTGAGGAGGAAAAACAATATGTATAA	MNNVINVGVLGLGTVGSGVVHILKEHYKKIALDTGYEVKAKTVVVRDLEKERDVCIDEIAVTSHVDEVLNDSNIDIVVEVMGGIEEAKQHIVKALRNKKHVVTANKDLMAVYGAELLKLANENDCDLCYEASVAGGIPVLRGLTDGLASDQIEKIMGIVNGTTNYMLTKMSQNGWSYEEALQEAQKLGFAESDPTADVDGLDAARKVAILANLGFSMNVSLDDVQVRGIRKVEKEDLQMAEKLGFTMKLIGKAEKQGPAIHLSVEPTLLPRRHPLSNVNNEFNAVYVHGQAVGEVMFYGPGAGKLPTGSAVVSDIISIVKNMNQVPKNKSALKEPVPYELQGDEEVVSKYFLRISLRDEPGMLQKITECFVNYSVSLKEVIQLPLNRELAEVVVVTHRTSKYQFERVLGAIEAVASEINSYYIIEEEKQYV	PGPT0020155_2138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK009_00658	1059	thrC	COG0498	Threonine synthase	ATGTATAAAGGACTATTAAAACAGTATGCTTCTTATTTACCGGTGAATGAAAAAACACCTGATGTGAGCTTAATGGAAGGAAACACACCTCTTATTCCGTTATTAAATATATCAAAGCAATTAGGGGTTCAGCTATATGGTAAGTACGAAGGAGCGAATCCGACAGGTTCTTTTAAAGATCGTGGTATGGTGATGGCAGTTGCTAAGGCGAAAGAAGAAGGTTCAGAAGCAATCATTTGTGCATCAACAGGTAATACATCAGCATCAGCTGCAGCATATGCGGCACGTCTTGGGATGAAATGTATAATCGTCATACCTGAAGGAAAGATTGCACATGGGAAATTAGCGCAAGCGGTCGCTTATGGAGCTGAAATTATTTCAATAGAAGGGAATTTCGATGATGCACTTAAGGCTGTAAGAAATATTGCTGCAGAAGAGCCGATTACGTTAGTAAACTCAGTAAATCCTTATCGAATTGAGGGGCAAAAAACGGCAGCATTTGAAATTTGTGACCAATTGCAAAATGCACCAGATGTTCTAGCTATCCCTGTTGGGAACGCAGGAAATATTACAGCATATTGGAAAGGTTTCTGTGAATATGAGAAAGAAAAAGGTTATAAGAAGCCAAGAATTCATGGCTTTGAAGCGGAAGGAGCAGCTGCAATTGTAAAAGGGCATGTAATTGAAGAGCCTGAAACAATTGCAACAGCGATTCGAATCGGTAACCCGGCAAGTTGGTCATACGCAGTAGAGGCTGCTGAGCAGTCTCACGGTGAAATAGATATGGTATCAGATGAAGAAATTTTACATGCGTATAGGTTATTGGCAAAAACTGAAGGAGTTTTCGCTGAACCGGGATCAAATGCTTCATTAGCCGGCGTAATTAAACATGTTGAATCTGGAAAAATCAAAAAGGGAGAAACAGTTGTTGCAGTATTAACTGGAAATGGTTTGAAGGATCCTGATATCGCTATTTCTTCAAATCAACTAGACATCGCAAGTGTGTCAAATGATATAGAACAAATTAAAGATCATATTAAAGGGGTGATTATGTCGTGA	MYKGLLKQYASYLPVNEKTPDVSLMEGNTPLIPLLNISKQLGVQLYGKYEGANPTGSFKDRGMVMAVAKAKEEGSEAIICASTGNTSASAAAYAARLGMKCIIVIPEGKIAHGKLAQAVAYGAEIISIEGNFDDALKAVRNIAAEEPITLVNSVNPYRIEGQKTAAFEICDQLQNAPDVLAIPVGNAGNITAYWKGFCEYEKEKGYKKPRIHGFEAEGAAAIVKGHVIEEPETIATAIRIGNPASWSYAVEAAEQSHGEIDMVSDEEILHAYRLLAKTEGVFAEPGSNASLAGVIKHVESGKIKKGETVVAVLTGNGLKDPDIAISSNQLDIASVSNDIEQIKDHIKGVIMS	PGPT0009175_6383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
AK009_00659	894	thrB_1	COG0083	Homoserine kinase	GTGATACCATTTAGCGTTCGTGTCCCTGCTAGTACGGCGAATGTTGGTCCTGGATTTGATTCAGTTGGAATAGCTTTGTCATTGTATTTAGATGTGGTGGTTAAAGAAAAAGCTGATAAATGGCAAGTAATCCATTCCTTTGAAGAATCAATTCCGACAGACGATAAAAATTTAATCGTTAGCACGGCATGTAAAGTATGTCCTTCTATATCACCCCATATAATAGAAGTTACTAGCAATATCCCATTAACGAGAGGGCTAGGAAGTAGTGCATCAGCGATTGTAGCTGGGATAGAGCTTGCGAATCAACTAGGTGATTTGAACTTAACTGCTGATCAAAAAGTTCAAATTGCTACAAATTTTGAAGGACATCCTGATAATGTTGCTGCTTCTATATTAGGTGGAACTGTAATCGGAGCACTTGATGGAAAGGATATTTCCGTCGTAAGAATTGAGAGCAAGGAATTAGGGGTAATTTCTCTTATTCCGAATGAAGAATTAAATACAGATGAAAGTCGATCTGTATTACCAAAGATGTTTCCGTTTCATGAGGCAGTTAAAGCTAGTGCGATAAGTAACGTATTAGTAGCTGCATTATGTCAAAAGCGGTGGGAAGTTGTAGGTGAAATGATGGAGAGAGACCATTTTCACGAGCCATATCGTTTAGAACTCGTACCGTTATTACCATCTATTCGTAAATGCGCAAAAGAATTTGGTGCGTACGGCACAGCACTTAGCGGTGCGGGACCATCTATTTTTATATTAACGCCATATGAGAAACGTCAAGAAATCGCTGAGCAATTAGCGAGAGTATTTACAGATATGAAAGTATGTGAGCTTGAAATCGACCATAAAGGTATTATTGTAAATAAGGAAGAGCATATTGGATTATAA	MIPFSVRVPASTANVGPGFDSVGIALSLYLDVVVKEKADKWQVIHSFEESIPTDDKNLIVSTACKVCPSISPHIIEVTSNIPLTRGLGSSASAIVAGIELANQLGDLNLTADQKVQIATNFEGHPDNVAASILGGTVIGALDGKDISVVRIESKELGVISLIPNEELNTDESRSVLPKMFPFHEAVKASAISNVLVAALCQKRWEVVGEMMERDHFHEPYRLELVPLLPSIRKCAKEFGAYGTALSGAGPSIFILTPYEKRQEIAEQLARVFTDMKVCELEIDHKGIIVNKEEHIGL	PGPT0020275_2611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
AK009_00660	210			hypothetical protein	ATGAATAAAGAGTCACCAGAAGAAAAAAGAGAGCGTATGAGACAAAGTGAATTAAAAAGTAATCCTACGGGTTCTTTACATGACGGACTCAATAGAGCGGAAACAGGTAGTTCAGTTGATATAGCAGGTGGTATGAATTGGAAAGGTACAGGGATAATCATTTTAGTACTACTTTTAGGATACATTGTATACACTTATTTTTTCAGTTAA	MNKESPEEKRERMRQSELKSNPTGSLHDGLNRAETGSSVDIAGGMNWKGTGIIILVLLLGYIVYTYFFS				NA	NA	NA	NA	NA
AK009_00661	2304			hypothetical protein	ATGAAAAAAATGATAGCGATATGTCTTCTAACAACTATGCCATTTTCGACTTTAGTCGGTTGTGACGTAAAAGGTAGTAATGCTGTACAAGAGTCTAAAATAAAGAAAGCGACGTATAAAGATTTTACTTATGATGTAAATCCAGAAACATTCACAGTAACTGTAGAACATGAGGGTGTAAAGGAACAGGCATCACAACCCCTACCGAAAATGAAGGTATCGAATGTAAAAAAAGAAAAGGATCGTACATCGTGGGAATATCCAGATCAAAAAGTAAAAATAAAATTAGAAAAGAAAAAAGACCACTTAAACATTGAAGTGGAATCGACTGGTGCAGAAAGTTTTACATGGCCGAAAGTAGAAGCTGAAAATTATACACTTCCGTTATGGGAGGGTAAGCAAATTCCGAGCAATGATGAGAATTGGAAGAAGTTTTTAAAGGATGATGCATATTCATTTGCTGAATCATTTTCTATGAAGTTTTTCGCATTAAATGGTTCGAAATATTCAATTGTATATATTGCAAACAATATGTTTAATAATGAATTGAAATTTCATTCGGATCCGAAAATAGGATTTGATTTTACACATGAATTTCCGAGCATAAATAAAAATAAAACATATGGATTTCAATTATATGTGACAAATAATGATGCGGTAAGCATTGCTAAACTGTATAAGGATGATATTGTTCGAAAAGGTGAATTTAAAACATTACAAGAAAAGGCTAGAAAAAATAAAGAAATCGAAAAGTTATATGGAGCGGCGCATTTTTATTTTTGGAATCAAAATGGTTTATCAGAAAGTAATATAAATTGGCCAAAACTAAGAGAGCAAATAAATAGCCCGCTGTTTAGCCATATAAAAGAACTTATTCAAAAGAACAGTTCAGAGCCTGGGGAACTGAATGTATTAGATCAAGTAAGTAAACAAGATTTCATTGATAAGTATCAAAAAAATGTTATTTTACGTTATATAAACGAAGTATTATCTATGAAGGAATTTTATAAAGAGGATATTTTTCAAAACGTTGATCAGGAAGCTAGTGTGCTATTAAAGAAAGGTGTAGGTCACTTAACGAATACAGAATTGTATAGCTTAAATAAGCATTCATTAAAGTCGCTACTTGGTGATGCGGTTGAAGAGGTAAGTAAATGGGGTAATGCAGATGGAACGGATATACTAAAGGAAATGAAAGAGGCAGGAATAGAAAAAGCGTGGATTGGTCTGCCGAACTGGGAACAAGGATTTATGCAACCTAATTTCGTGACAAAAGCTAAGGAAATGGGGTATTTAGTTGGTCCGTATGATTCTTATCATTCCATTCACGAAAAAAGTGATAAAAATTGGAACACAGCATCCTTTAATGACCCGTCATTATATGAAGAGGCTACTGTAACGAAGAAAAACGGAGAAAAGGTGCAAGGCTTTTTAGGAAGAGGTCGCAAGTTAAATCCGACTTTATCGCTGCCTAGTGTAAAGGAACGCATGAATGATATATTACAAAATGGTCCTAAATATAATTCATGGTTTATTGATTGTGATGCGACAGGTGAAATTTACGATGACTATTCAGCGAAACATATAACGACGCAAGAGCAAGATTTAAAAGCACGTTTAAAACGAATGGACTACATTGCGCAAGAAAAGGGTATGGTCGTTGGTTCTGAAGGCGGAAATGATTTTGCTAGTGGTACGATTGCATTTGCACATGGAATTGAAACACCTGTTATTAAATGGGACGATGAAGATATGCGGAAAAATAAAACAAGTCCGTATTATGTCGGTGGATATTGGTCACCAAATCAAAATGTGCCTGAAAAATATGCAAAACAAGTACCATTGAAAGAAGAATATAAACAAGTATATTTAAACCCAGTATATTCGGTACCATTATATAAATTAGTATACAATGATTCCGTTATTACAACGCATCATTGGGAATGGGGAAGTTTAAAGGTAAAAGATGAAGTTGGAAATCGAATGCTGTCTGAATTATTGTATAATGTTCCTCCGTTGTACCATTTAGATGAAGTAGAGTGGAATAAGCATAAAAAAGAAATTACAGAGCATCTAAAAGTTTGGAATGAAGTTCATGAAAAAGCAGTAAAAGAAGAGATGACGAATTTTGCGTATTTGTCAGAAGATAAGCTAGTACAATCTGTTTCTTATGGAAAAGATATTAAAATCATTGTGAACTTCTCAAATGAAGACATGGAAGTAGAAAAAACGAAAATAAAAGCAAAGTCGGCTTACATTGATAATCAGGGGAAGAAAAGCGTGTATACGCCGTTTGAGAAATAA	MKKMIAICLLTTMPFSTLVGCDVKGSNAVQESKIKKATYKDFTYDVNPETFTVTVEHEGVKEQASQPLPKMKVSNVKKEKDRTSWEYPDQKVKIKLEKKKDHLNIEVESTGAESFTWPKVEAENYTLPLWEGKQIPSNDENWKKFLKDDAYSFAESFSMKFFALNGSKYSIVYIANNMFNNELKFHSDPKIGFDFTHEFPSINKNKTYGFQLYVTNNDAVSIAKLYKDDIVRKGEFKTLQEKARKNKEIEKLYGAAHFYFWNQNGLSESNINWPKLREQINSPLFSHIKELIQKNSSEPGELNVLDQVSKQDFIDKYQKNVILRYINEVLSMKEFYKEDIFQNVDQEASVLLKKGVGHLTNTELYSLNKHSLKSLLGDAVEEVSKWGNADGTDILKEMKEAGIEKAWIGLPNWEQGFMQPNFVTKAKEMGYLVGPYDSYHSIHEKSDKNWNTASFNDPSLYEEATVTKKNGEKVQGFLGRGRKLNPTLSLPSVKERMNDILQNGPKYNSWFIDCDATGEIYDDYSAKHITTQEQDLKARLKRMDYIAQEKGMVVGSEGGNDFASGTIAFAHGIETPVIKWDDEDMRKNKTSPYYVGGYWSPNQNVPEKYAKQVPLKEEYKQVYLNPVYSVPLYKLVYNDSVITTHHWEWGSLKVKDEVGNRMLSELLYNVPPLYHLDEVEWNKHKKEITEHLKVWNEVHEKAVKEEMTNFAYLSEDKLVQSVSYGKDIKIIVNFSNEDMEVEKTKIKAKSAYIDNQGKKSVYTPFEK				NA	NA	NA	NA	NA
AK009_00662	1002	tagU_1	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGCTCTGAATTAGAACAAAATACGAGAAGTAATAAAAAGCGTTCTAAAAGAAAGTCAATAAAATGGTTCATATTAATTCCATTTTTCCTACTTATTTTTGGAGGAGTAGGATATGGTTCGTTTATATATAATAAAGCAAAAGCAGTTGTAAATGATGCATATGCAAAAATTGAAAAGTCATCAAAGCGTGATAAAGAAGTTGAACCTTTAAAGGATAATATTTCAATATTAATCATGGGTGTAGATGGAAGTGAAATGAGAAAAAGCCAATATGGCGAAGCAGTTCGAACAGATGCACTTTTATTAGCAACAATTAATAAAGATGATAAGTCTGTTAAGCTAGTAAGTATTCCACGTGATTCACGTGTTTATATTCCAACTAGAAAAAAATTAGATAAAATTACTCATGCTCACGTATTTGGTGGCGTAGAAAGCACACGCGATACAGTGGAAAGATTTTTAAATGTCCCTGTTGATTATTATGTGAAGTTTAACTTTGAATCATTCGTACAAATTGTCGATTCAATTGGTGGTATTGATATTGATGTACCAGTTACTTTCACTGAACAAGATAGTAAAGACCAAGCTGGTATGATCCATTTAGAAAAAGGTTACCAACATTTAAATGGAGAACAAGCACTTGCACTTGCAAGAACGCGTAAAATTGATAGTGACGCAATGCGTGGACAGAGACAGCAACTTGTAATAGAAGCAATTGCCAAAAAAGCGATGTCTGTTCAATCAATTAGCAAAATGGGCTCTTTACTAGATGCGGTTGATAAAAACATGAAAACGAACTTAACATTTGACGATATGCTTGCCATTACAAAAAATATGGCAGGAACTAATTTGGAAATGGAAAAAATGCAAATAGAAGGTACAGATAAACGTATCGGTGGTATTTATTATTACATTCCAAATGAAAAAAATATAAAAGATATTTCAAAAAAATTAAATGATCATTTAGGTGTAACGCCAAAATCAGTTCGAAACGAATAA	MSSELEQNTRSNKKRSKRKSIKWFILIPFFLLIFGGVGYGSFIYNKAKAVVNDAYAKIEKSSKRDKEVEPLKDNISILIMGVDGSEMRKSQYGEAVRTDALLLATINKDDKSVKLVSIPRDSRVYIPTRKKLDKITHAHVFGGVESTRDTVERFLNVPVDYYVKFNFESFVQIVDSIGGIDIDVPVTFTEQDSKDQAGMIHLEKGYQHLNGEQALALARTRKIDSDAMRGQRQQLVIEAIAKKAMSVQSISKMGSLLDAVDKNMKTNLTFDDMLAITKNMAGTNLEMEKMQIEGTDKRIGGIYYYIPNEKNIKDISKKLNDHLGVTPKSVRNE	PGPT0023440_2421	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
AK009_00663	822		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGGAAAAAGCTTTAAAAATTAAACAAATAGTAGTCGTTTTAATAGCGATTGCCGCAGTAGCTATTGGGTATTACATGTTCCAATCAATTACTTCACCAGCAAAAGCTGTTGCAAAACAAGAAAATGTAGTGCAGCTTGCAAGTGAACAGCCGAAAGTTGAAATGAATAAAACGGCACCAAGTCGTTTTAATGGAAAAGAAAGAAAAGTTGCTTATCTTACATTTGACGATGGGCCAGGGAAATATACGGCTGAATTATTAAATACGCTAAAACAACATGATGCGAAGGCGACGTTCTTTTTAATTGGAGCGAATGTAAAAGAATTTCCTGATTTAGTGAAACGTGAAAATGCTGAGGGTCATTATGTAGGCATGCATAGTATGACACATAATTTCGCAAAGTTATATAAAAATGGCGAGTATGTAAATGAAATGAAAGAAGATCAAGGTTTAATCGCTAATATTATTGGGAAATCACCTAAATTAACACGTCCTCCATATGGTTCGATGCCTGGATTGAATGAAGGTCTTCGAAATAAAGTGGTAGAAGGCGGATTTAAAGTATGGGATTGGACAATTGATTCATTAGATTGGAAATACAATAAAATGCCAGTTGATGCAGCTGCAGCACAAATTGCTCAAAATGTCTTAACAAACGCAACAAAACCACAAGAAGTAATTTTAATGCATGATATTCACCCGCAATCAGTTGCTGCTGTGCCAGCAATTTTAAAGGGGCTAAAAGAAAAGGGTTATGAGTTTGAAGCTTATCATGAAGAGAGTCACTTTCCAGTGAACTTCTGGCATGATAACCGTATGTAA	MEKALKIKQIVVVLIAIAAVAIGYYMFQSITSPAKAVAKQENVVQLASEQPKVEMNKTAPSRFNGKERKVAYLTFDDGPGKYTAELLNTLKQHDAKATFFLIGANVKEFPDLVKRENAEGHYVGMHSMTHNFAKLYKNGEYVNEMKEDQGLIANIIGKSPKLTRPPYGSMPGLNEGLRNKVVEGGFKVWDWTIDSLDWKYNKMPVDAAAAQIAQNVLTNATKPQEVILMHDIHPQSVAAVPAILKGLKEKGYEFEAYHEESHFPVNFWHDNRM	PGPT0012155_64	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012155-cda2-K01452	NA	NA
AK009_00664	657			hypothetical protein	TTGAAGTATGGAAAAGTAGCAGTAGTTGGAGCATTATCAGTAGGGCTTTTAACAGGTTGTTTCGGTGAAAAGCCAGAAGAAAATCTATATACAGCTTTTGAAACAGCAGCAACACAAGAAAAATCTTTAGTGGATGAAGCAAAAAAATTAGAGCAGTTAGAGAAACAAGGGCAAGAATTATATGCTCAAATTTTGCAAGAAGGTAAAGATCATAATGAAGCAGTTGTGAAGAAAATAGAGCAAGCTACTGCAAATGTAGATGACCGTGAAAAAGTATTGAAAAGTGAAAAAGAAATGCTAGAAAAAGCACAGAAGGAAACGAAATCTGTTCAAAGTAATATAGAGAAAATTGAAGATAAGAAGTTACAAAAACAAGCAAAAGCAGTAGAAGAGTCGTATAAAAATCGTTATGATGCATTCAAAAAGATGAATGAAAATTACACGAAAGTATTAGCGACTGAAAAAGAACTGTATGAAAAATTAAAAGTAAAAGAAACGAAATTAAAAGAAATCGGTGAAAAAGTTAAAACTGTTAATGAATTAAATGTGGAAGCACAAAAATCGAAAGAGCAGTTTAACAAATTTACAAAAGAGTATAATGACAGTAAATTAGCATTCTACAAAGATGCAGAGATTAAGATTAAAGATCAGAAATAA	MKYGKVAVVGALSVGLLTGCFGEKPEENLYTAFETAATQEKSLVDEAKKLEQLEKQGQELYAQILQEGKDHNEAVVKKIEQATANVDDREKVLKSEKEMLEKAQKETKSVQSNIEKIEDKKLQKQAKAVEESYKNRYDAFKKMNENYTKVLATEKELYEKLKVKETKLKEIGEKVKTVNELNVEAQKSKEQFNKFTKEYNDSKLAFYKDAEIKIKDQK				NA	NA	NA	NA	NA
AK009_00665	681	sapB_1	COG1285	Protein SapB	ATGTCATATGAATTTTTACTCAAATTAGGTTTAGCACTCTTTTTAGGATTATTCATCGGGATAGATAGGCAGCTAAAGAATAAACCGCTTGGTGTGAAAACAAGTATGGTTATTTCTGTAGCAAGTTGTTTAATTACGATGGTTTCAATTGAAGCCGTACATGTATATTCTGTTCCAGGGCATACAAATATGGATCCAATGCGTCTAGCTGCTCAAATTGTGAGTGGGATTGGTTTTCTTGGGGCAGGTGTTATTTTACGAAGAAGTAATGATGTTATTTCTGGATTAACGACAGCTTCTATGGTGTGGGCTGCTTCAGCTTTAGGTATAGCAATTGGGGCAGGCTTTTATTTACAAGCGACGGTTGCTATGATTTTAATTATTTTAGCAATTAACGTACTTCCACAACTTGTGAAAATTGCAGGTCCGTATTCATTACGACAAAAGGATTTATCTATAAAAATTACTGTAAAAGAGCATCATGAGTTAGATGGTATATTTAAGCAAATTAAAAATTTAGGTATGCATGTGAAACGAGTGAAAATTAAAGATATAGATAGTGGAGCATTTCAGCAATTGGAAATGGTTATTTTAGCTCCAGAAGATTTATATACAACAGAGTTATATAGCTCCCTGAAAGAGATTGATCGTGTTGTTTCAGTGGAAGTGGAAAGTAGATAA	MSYEFLLKLGLALFLGLFIGIDRQLKNKPLGVKTSMVISVASCLITMVSIEAVHVYSVPGHTNMDPMRLAAQIVSGIGFLGAGVILRRSNDVISGLTTASMVWAASALGIAIGAGFYLQATVAMILIILAINVLPQLVKIAGPYSLRQKDLSIKITVKEHHELDGIFKQIKNLGMHVKRVKIKDIDSGAFQQLEMVILAPEDLYTTELYSSLKEIDRVVSVEVESR	PGPT0014005_1746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK009_00666	534			hypothetical protein	ATGGAAATACATATTAGAAGAGCTATAAAAGATGATATACGAGGTATAGCAAAGGTGCATGTTGATAGCTGGAAAACAACGTATAAAGGTATATTTGCTGACGAATTTTTAGAAAATATAACATATGAGCAACGAGAAAAACAATGGGAAAACATTTTTCAACAAGAAGATACATGCCAATATAGATTTGTAGCAGAGACGTTAAATGGAACGATAGTCGGATTTATTGATGGGGGAGTTGAAAGAAGCGGTGCATATAATTGTGATGGGGAATTATATGCAATCTATCTTTTACAACAGTATCAAGGATTGAAAATAGGCCAAAAGTTATTTCAAGCGTTACTATCAGAATGTGTAAAGAATGATATGCAATCTCTTTTAGTTTGGGTCGTTACGAATAATCCTTCTAAAAAGTTTTATGAAAAATTCAACCCTGAAAAAATTGATACGAAATTTTTAGAGAGAGTAAAGGTAGAAGAAACAGCGTATTGTTGGAGAGATTTGAATTTGTTACAAAAACAAACAGCTATATAG	MEIHIRRAIKDDIRGIAKVHVDSWKTTYKGIFADEFLENITYEQREKQWENIFQQEDTCQYRFVAETLNGTIVGFIDGGVERSGAYNCDGELYAIYLLQQYQGLKIGQKLFQALLSECVKNDMQSLLVWVVTNNPSKKFYEKFNPEKIDTKFLERVKVEETAYCWRDLNLLQKQTAI				NA	NA	NA	NA	NA
AK009_00667	1809			hypothetical protein	ATGCAGCATGCGAAACAAATCGCAGAACATGCAACATTACAAAGCTTTTTAAACTGTTATTTAAGAGAAACAGGGAGTGGAGAATGGATTACAGAGGATGAAAGAATGAAGAGTATCTTCAGTAATACGTTGAATAGAGATACAGTCCCCACATATTTATGTTGTCGGCTATCGGCACAGAACGTTACTTTGTATGGAGAAGTTATATATAAATCATCAACAGATCGCCATTTGTTTGGAGAAAAATTTTATTATCAAATTGGAGATAGTAATTCTGTTATTAAAGCAGATTACGTTACAGTTATTACATTTTTAATAAAAGAGATGTCTATCAACTACGGAGAAGGAACGAATCCTGCGGAACTTATGCTTCGAGTCATTCGTAGTTGTCAAAATATTGAGGAATTTATAAAAGAGAGAATAGAAGATACATCCGCATTATACGGTTTCCATACAACTTTTATAGAAGCGGAGCAGTCTTTATTATTTGGGCATTTAACTCATCCTACACCAAAGAGTAGACAGGGGATATTGGATTGGAAAAGTGAAATGTATTCTCCAGAATTAAAAGGAGAATGCCAGCTTCATTATTTTCGGGCACATAAAAGTATAGTAAATGAAAAATCATTATTATCAGCTTCTACAACAACGATTATAAAAGAAGAATTAAGTAATGATGAGATGGTTAGTAAGGAATTTATAGCGAAGTACTGTAAGGAAGATCAATATGCATTAATTCCAATTCATCCGCTTCAGGCAGAATGGCTCTTGCATCAAGCTTACGTACAGGATTGGATAGTTCAAGAATTGCTTGAGTATATTGGACCTGTAGGTAAGTATTTTATGGCAACATCATCACTAAGGACGCTGTATCATCCCGATTCGAAGTATATGCTTAAGTTTTCATTTCCGGTGAAAGTAACGAATTCAATGCGTATTAATAAACTGAAAGAACTTGAGAGTGGTCTTGAAGGGAAGGAAATGTTAAATACGGCTATTGGTGAAGTACGAGAAAGATTTCCAGGCTTTGATTTTATTTGTGATCCAGCCTATATTACATTAAATTATGGAACACAAGAATCTGGATTTGAAGTGATTATTCGCGAGAACCCTTTTTATAGTGAACATGCAAACGACGCAACATTAATTGCTGGGCTAGTTCAAGATGCTATACCTGGGGAGCGTACGCGGTTATCGAATATTATTCATCGCCTAGCAGATTTAGAAAGTAAAAGCTGTGAAGAAGTAAGCTTAGAGTGGTTTAGAAGATATATGAATATTTCTTTAAAGCCAATGGTATGGATGTATTTACAGTATGGTGTTGCATTAGAAGCTCATCAGCAAAATAGCGTTGTTCAGCTAAAAGATGGTTATCCGGTCAAATATTATTTCCGTGATAATCAAGGATTTTATTTCTGTAATTCAATGAAAGAGATGCTTAATAATGAATTAGCTGGTATTGGAGAACGTACTGGAAATTTATATGACGACTATATTGTGGATGAGAGATTTCGTTACTACTTAATTTTCAATCATATGTTTGGCCTCATTAATGGTTTTGGCACAGCAGGATTAATTAAGGAGGAAATTCTTCTCTCGGAATTAAGGTCTGTACTTGAATCATTCCTTCCGTATAACCGGGAACCTTCAACATTTTTAAGAGAATTATTGGACGAAGATAAGTTAGCGTGTAAAGCAAATTTACTAACGAGATTTTTCGATGTCGATGAGTTAAGTAATCCATTAGAGCAAGCAATTTATGTGCAAGTACATAATCCGCTCGTTAGAGAAGTGGCTGTTCGTTCATAA	MQHAKQIAEHATLQSFLNCYLRETGSGEWITEDERMKSIFSNTLNRDTVPTYLCCRLSAQNVTLYGEVIYKSSTDRHLFGEKFYYQIGDSNSVIKADYVTVITFLIKEMSINYGEGTNPAELMLRVIRSCQNIEEFIKERIEDTSALYGFHTTFIEAEQSLLFGHLTHPTPKSRQGILDWKSEMYSPELKGECQLHYFRAHKSIVNEKSLLSASTTTIIKEELSNDEMVSKEFIAKYCKEDQYALIPIHPLQAEWLLHQAYVQDWIVQELLEYIGPVGKYFMATSSLRTLYHPDSKYMLKFSFPVKVTNSMRINKLKELESGLEGKEMLNTAIGEVRERFPGFDFICDPAYITLNYGTQESGFEVIIRENPFYSEHANDATLIAGLVQDAIPGERTRLSNIIHRLADLESKSCEEVSLEWFRRYMNISLKPMVWMYLQYGVALEAHQQNSVVQLKDGYPVKYYFRDNQGFYFCNSMKEMLNNELAGIGERTGNLYDDYIVDERFRYYLIFNHMFGLINGFGTAGLIKEEILLSELRSVLESFLPYNREPSTFLRELLDEDKLACKANLLTRFFDVDELSNPLEQAIYVQVHNPLVREVAVRS	PGPT0003545_35	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003545-asbA-K24108	NA	NA
AK009_00668	1839	sbnF	COG4264	2-[(L-alanin-3-ylcarbamoyl)methyl]-3-(2-aminoethylcarbamoyl)-2-hydroxypropanoate synthase	ATGAGAGTGGACATGTATCATACGAAAGTATTGAAGGCGCTCGAATCAGAAGATTACATTTCAGTACGAAGAAGAGTGCTACGTCAATTAGTAGAATCGTTAATTTATGAGGGGATTATTACACCGGTTCGCATAGAAAAAGAAGAACAAATTCTTTTTATAATACAAGGACTTGATGAAGAAGACAAAAGTGTCACGTACAAATGCTATGGCAGGGAACGGATGACATTTGGACGTATTTCTTTAGACTCATTAATAGTAAGAGTCCAAGATGAACAGCAAGAAATACAATCTGTCTCGCAATTTCTAGAAGAAGTTTTTCGAGTTGCTAGTGTAGAACAAGCCAAATTAGATTCTTTTATGCACGAATTAGAACAAACAATATTTAAAGACACGATTGCACAATATGAAAGAAATAATAAGAAAGAATACAATCAAAAATCTTACGATGAGTTTGAAAGCCATTTAATAGACGGCCATCCATATCACCCTAGTTATAAAGCTCGTATTGGATTTCAGTATCGTGACAATTTTCAATATGGATATGAATTTATGCAGCCAATAAAACTCATATGGATTGCAGCGCATAAAAAATACTCCAGTGTAGGGTATGAGAATGAAGTAATTTATGACGAAATTTTAATAGAGGAGATTGGTGAGCGTAAGTTAGAAGAGTTTATGGAGCGAATTTGTAATCGGGGATGTAATCCAAAACAGTACGTGTTTATACCTGTTCATCCTTGGCAGTGGGAGAATTTCATCATTTCAAATTATGCGGATCATATACAGGGTAAATTTATTATTTATTTAGGAACATCAGAGGATGAGTATTGCGCACAACAGTCAATGAGAACGGTAAGAAATATTACGAATCCAAAGAAACCGTACGTTAAATTATCGATGAATTTACTCAACACTTCAACACTCCGTACGTTGAAACCGTATTCTGTTGTGAGTGCACCAGCAATATCAAATTGGTTAAGTGATGTTGTAAGTAATGACGCCTATTTAAGCGATGAAGCACGTTTAATCTTGTTAAAGGAGTTTTCCAGTGTAACGTATGACACAAATAAGAAAGCTATATATGGTTCATTAGGATGTATTTGGCGCGAAAGCGTTCACAAGTATTTAGATGCACAAGAGGACGCAATTCCTTTTAATGGTTTATACGCTAAAGAGAAAGATGGTACACCAATTATTGATGCATGGTTGAACAAATATGGAATGAAGGATTGGCTACAATTACTTATTCAAAAAGCGATAATACCAGTTATACATCTTGTTGTAGAGCATGGCATCGCACTGGAATCACATGGACAAAATATGATTCTAGTCCATAAAGAAGGGGTGCCTGTTCGTATTGCGTTAAAGGATTTTCATGAAGGGCTTGAGTTTTATCGTCCATATTTGAAAGAAGTTGATAAATGTCCCGACTTTACTAAAATGCATAGAACATATGCGAATGGAAAAATGAATGATTTCTTTGAAATGGATCGCATCGAATGTTTGCAAGAGATGGTATTAGATGCACTTTTCCTGTTTAATTTAGGAGAATTAGCGTTCGTACTTGCGGATGAATATGGATTGAAAGAAGAACGTTTTTGGATAATGGTTGTTGAAGAAATTGAAAATCATTTAAGAATATATCCACATTTGAAAGGTAGATTTGAAAATATTCAATTATATGCACCTACATTCTATGCTGAACAATTAACGAAACGTCGATTATATATGGATGTGGAATCGCTTGTTCATGAAGTTCCAAATCCATTGTATAGAGTAAGACAACTTATGAAACAAAAATCAGTTGTTACAGGGGGAAATTATGCTAATCGTTAA	MRVDMYHTKVLKALESEDYISVRRRVLRQLVESLIYEGIITPVRIEKEEQILFIIQGLDEEDKSVTYKCYGRERMTFGRISLDSLIVRVQDEQQEIQSVSQFLEEVFRVASVEQAKLDSFMHELEQTIFKDTIAQYERNNKKEYNQKSYDEFESHLIDGHPYHPSYKARIGFQYRDNFQYGYEFMQPIKLIWIAAHKKYSSVGYENEVIYDEILIEEIGERKLEEFMERICNRGCNPKQYVFIPVHPWQWENFIISNYADHIQGKFIIYLGTSEDEYCAQQSMRTVRNITNPKKPYVKLSMNLLNTSTLRTLKPYSVVSAPAISNWLSDVVSNDAYLSDEARLILLKEFSSVTYDTNKKAIYGSLGCIWRESVHKYLDAQEDAIPFNGLYAKEKDGTPIIDAWLNKYGMKDWLQLLIQKAIIPVIHLVVEHGIALESHGQNMILVHKEGVPVRIALKDFHEGLEFYRPYLKEVDKCPDFTKMHRTYANGKMNDFFEMDRIECLQEMVLDALFLFNLGELAFVLADEYGLKEERFWIMVVEEIENHLRIYPHLKGRFENIQLYAPTFYAEQLTKRRLYMDVESLVHEVPNPLYRVRQLMKQKSVVTGGNYANR	PGPT0003550_34	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003550-asbB-K24109	NA	NA
AK009_00669	1239	menE_1		2-succinylbenzoate--CoA ligase	ATGCTAATCGTTAATAAACAAGAGTATAGCAAAAGTGATTTTGAATTGAGATTACAAGTTTATGCGGAAATGGAACAATTTCAAAAAGCAGAAGGAAATAGATTTGCACTTTGTCTGAAAGATCCATTCGATATTATTACGCTTGTGTTTTTCTTAAAAGAAAAGAAATCATCAGTATTACTTATACATGAAGATACGCCAAAAGAAACAGCTATTGAAATGGCAAAGCGTGCAAATTGTGTAGGAATTTTATATGGAGAATATGGGGATTTTACAAAATTAGAAGTAGGGAACTTTTTACTAGAAGAGCCTTCTTTATTGCAATATAGTTCTGGAACTACAGGGGAACCGAAATTGATTCGTAGAGCATGGACAGAAGTTGATACGGAAATTACCGCTTATAATGAAGCTTTAAACTGTGGAGTAGATGAAGTGCCAATCGTTATGGCTCCTGTTTCACATTCATACGGACTAATATGTGGTACGTTATCAGCAATTAAGAGGGGGAGCAAGCCTGTAATCATTACGAACAAAAATCCTAAATTCGCATTAAATATAGTTCGTAATACAGAAAAACATATCATATATGCAGTGCCACTTATGTTACACATTATGGGGAGTTTTCCATTAGGAACGTTTCGGTTTCATAAAATTATGACATCCGGATCGCCTTTGCCAGAAGCACTATTTTATAAACTAAAAGAAATGACAACATTTATGATGCAGCAATATGGTTGTTCTGAAGCAGGTTGTATTAGTATATGTCATGATATGACAAGCCATTTAGATTTAGGGAACCCTCTACCTCATGCGAGTATAAGCATAGGTTCAGATGAAAATGCACCGGAAGAAATCGTCGTGAAAATGAACGATAAGGAAATTTTCACGAAAGATTTAGGGTATAAATCTGAGCGCGGCCTTCATTTTATGGGGCGTATGGATGATGTAATTAACGTTTCAGGATTAAAAGTCTTTCCTATAGAGGTAGAAGAAACAATGCTTCGATTGGAAGGTGTTCAAGAGGCAATTGTATATCGAGGGAAACATCCTGTGATGGGCGAAATAGTTAAAGCGAAAGTGATCTCTCATGTTGATCCAGTGCAAATAAGAGGATGGTGTATTCAGCACTTACCTTCTTATAAAGTTCCGCATGAAATTGAAAGTGTAAATGAAATTCCTAAAAATAAAACGGGAAAAGTAAGTAGAAAGTTACTAGAGATGGGAGAGGTTACAACATGA	MLIVNKQEYSKSDFELRLQVYAEMEQFQKAEGNRFALCLKDPFDIITLVFFLKEKKSSVLLIHEDTPKETAIEMAKRANCVGILYGEYGDFTKLEVGNFLLEEPSLLQYSSGTTGEPKLIRRAWTEVDTEITAYNEALNCGVDEVPIVMAPVSHSYGLICGTLSAIKRGSKPVIITNKNPKFALNIVRNTEKHIIYAVPLMLHIMGSFPLGTFRFHKIMTSGSPLPEALFYKLKEMTTFMMQQYGCSEAGCISICHDMTSHLDLGNPLPHASISIGSDENAPEEIVVKMNDKEIFTKDLGYKSERGLHFMGRMDDVINVSGLKVFPIEVEETMLRLEGVQEAIVYRGKHPVMGEIVKAKVISHVDPVQIRGWCIQHLPSYKVPHEIESVNEIPKNKTGKVSRKLLEMGEVTT	PGPT0003555_46	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003555-asbC-K24110	NA	NA
AK009_00670	276			hypothetical protein	ATGAGACGGGAAGCGTTAAAGAATGCCGTGTTAAAAATTATGATAGAAAAAATGGAACTGAAAAATGTAACGCATTTAGAAGAAACGATGCGCTTAAATCAAGATTTATATATAGATTCGGTAATGATGTTACAGCTTATTGTATACATAGAAATGGATTTAAAGCTATGCGTTCCAGAGGATGAGGTAGATCCAAAAGCATTTCTTACTGTAGGATCTTTGCTTGATTTTATGGAGGAGTTACAGCCGTTACAGGAAGTAAATGTGAATAACTAA	MRREALKNAVLKIMIEKMELKNVTHLEETMRLNQDLYIDSVMMLQLIVYIEMDLKLCVPEDEVDPKAFLTVGSLLDFMEELQPLQEVNVNN	PGPT0003560_13	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003560-asbD-K24111	NA	NA
AK009_00671	984			hypothetical protein	ATGACTTCAATTAAAGTGCACTGTTTAGTGAGTTGTTTTTGTGAAATTATAAAAAGGCGTAGCGACATTGATTTTCGTCCATTTTATTTTGGACTATGGGATGGAGATTTTGATATAATAGAAGGCGGAATTATTTCATATCACTCTGAAAACATTAACCATGATCATTATTTACTTTGGTTTGAAAAATTGTACGGTATTAAAGTAAACGAATGGTATGATCATGCAAAAGATAAAGATAGCAATGTAGAAATGTTTTTAGAATTAGTAGAAAACAAGCCGGAAAATCGTTATATCATTGTAATGGTTGATATGTCTTTATTGCCAGAGAGGGAAAATAAATTTCATCAAAAACCGTTTCCGCATTATTTAATGATATCAAAAACAGAGAAAGAAGAAGAGTGGTTCATGCTAGATCCTGATTTTCGTTGGGAAGGGAGTATGGAAAGAGAAAAAGTACTTCACTCTGTTCAAGATAACCCATTTGGTGGAGGGTATTTCATTGATATAGAAAGAATTGGGGAGCCAACGCAAGAAACAGTAGCTAGTTATTTCACAGAAACATTCAAAAAGAACGACAATGAACTGACTATGGAACTAAAAAATGTAATTGTAAAAATGGCAAATGAGGAAGAAGGGTATACGCTTTCTGGACTTGTAGCAGCAGTAAAACAAATACCAGTACTTGCAATTCGTAAATATAGTTATGAGCATGCCTTTGCATACTTCCGTGAAACGTTGCAATATTCGGAGCAAGAATTTGATTATTGGTGTGATCGGGTAGAGGATATTGTACAAGGATTTACAAATGTACAGTATCGTGCAATTAAAATGGCAATGACGAATAATAAAGGTATGCTAGTATCGATTATTGAAAAACTGGATGAAATGAATGCAATTGAACTGCAAATTAAGAAGGAATTAGAGAGACAGTTTCTATCATGGAAAGGTATGAAAACAAATCAGTCTGTCGTAACTCTTTAA	MTSIKVHCLVSCFCEIIKRRSDIDFRPFYFGLWDGDFDIIEGGIISYHSENINHDHYLLWFEKLYGIKVNEWYDHAKDKDSNVEMFLELVENKPENRYIIVMVDMSLLPERENKFHQKPFPHYLMISKTEKEEEWFMLDPDFRWEGSMEREKVLHSVQDNPFGGGYFIDIERIGEPTQETVASYFTETFKKNDNELTMELKNVIVKMANEEEGYTLSGLVAAVKQIPVLAIRKYSYEHAFAYFRETLQYSEQEFDYWCDRVEDIVQGFTNVQYRAIKMAMTNNKGMLVSIIEKLDEMNAIELQIKKELERQFLSWKGMKTNQSVVTL	PGPT0003565_69	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003565-asbE-K24112	NA	NA
AK009_00672	843	asbF		3-dehydroshikimate dehydratase	ATGAAATATTCGCTATGTACCATTTCATTTCGTCATCAATTAATTTCATTTACTGATATTGTTCAATTTGCATATGAAAACGGTTTTGAAGGAATTGAATTATGGGGGACGCATGCACAAAATTTGTACATGCAAGAACGTGAAACGACAGAACGAGAATTGAATTTTCTAAAGGATAAAAACTTAGAAATTACGATGATAAGTGATTACTTAGATATATCATTATCAGCAGATTTTGAAAAAACGATAGAGAAAAGTGAACAACTTGTAGTACTAGCTAATTGGTTTAATACGAATAAAATTCGCACGTTTGCTGGGCAAAAAGGGAGCGAGGACTTCTCGGAACAAGAGAGAAAAGAGTATGTGAAGCGAATACATAAGATTTGTGATGTGTTTGCTCAGCACAATATGTATGTGCTGTTAGAAACACATCCCAATACACTAACGGACACATTGCCTGCTACTATAGAACTATTAGAAGAAGTAAATCATCCGAATTTAAAAATAAATCTTGATTTTCTTCATATATGGGAGTCTGGCGCAGATCCAATAGACAGTTTCCATCAATTAAAGCCGTGGACATTACATTACCATTTTAAGAATATATCTTCAGCGAATTATTTGCATGTGTTTGAACCTAATAATGTATATGCTGCAGCAGGAAGTCGTATTGGTATGGTTCCGTTATTTGAAGGTATTGTAAATTATGATGAGATTATTCAGGAAGTGAGGGATACGAATCTTTTTGCTTCTTTAGAATGGTTTGGACATAACTCAAAGGAGATATTAAAAGAAGAAATGAAAGTATTAATAAATAGAAATTTAGAAGTAGTAACTTCATAA	MKYSLCTISFRHQLISFTDIVQFAYENGFEGIELWGTHAQNLYMQERETTERELNFLKDKNLEITMISDYLDISLSADFEKTIEKSEQLVVLANWFNTNKIRTFAGQKGSEDFSEQERKEYVKRIHKICDVFAQHNMYVLLETHPNTLTDTLPATIELLEEVNHPNLKINLDFLHIWESGADPIDSFHQLKPWTLHYHFKNISSANYLHVFEPNNVYAAAGSRIGMVPLFEGIVNYDEIIQEVRDTNLFASLEWFGHNSKEILKEEMKVLINRNLEVVTS	PGPT0003570_51	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003570-asbF-K15652	NA	NA
AK009_00673	207	sasP-C_1		Small, acid-soluble spore protein C	ATGGCTAGAAATCGTAATTCTAATCAATTAGCATCACATGGAGCACAAGCGGCTTTAGATCAAATGAAGTATGAAATTGCACAAGAGTTCGGTGTACAACTGGGAGCTGATACTTCTTCACGTGCAAACGGTTCTGTAGGCGGTGAAATCACAAAACGCCTAGTAGCGATGGCAGAACAACAGCTTGGTGGCGGATATACTCGCTAA	MARNRNSNQLASHGAQAALDQMKYEIAQEFGVQLGADTSSRANGSVGGEITKRLVAMAEQQLGGGYTR	PGPT0024865_120	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
AK009_00674	1230	ymfD_1		Bacillibactin exporter	ATGTTAAAAAAAGAAAACTGTTGTTTAATTGCGCTTGCATCAGTTCCACTTGTCATGACATTAGGGAATTCAATGCTTATTCCAATCTTGCCGACAATTGAAAAGAAATTACATATTTCATCGTTTCAAGTATCCATGATTATTACAATTTACTCTATCGTAGCCATTTTACTTATACCGATTGCTGGTTATTTATCAGATAGATGGGGACGAAAGATGGTAATGGTTCCGAGTTTGCTGATTGCGGCTATAGGAGGAGCGATAACTGGCTGGGTATCTTGGAAAGTTGATAATCCCTACATTTGGATACTAATGGGTAGAGCGATTCAAGGTATTGGTGCTGCTGGTGCAATGCCGGTTGTTATACCGTGTGTTGGTGATTTATACAAAGATGAAAAACAAGTTAGTACAGGTTTGGGAATCATTGAGACATCCAATACATTTGGAAAAGTGCTGAGCCCTATTTTAGGATCTGCTCTTGCTGCCATTGTATGGTTCTTACCATTTTGGGCGATTCCAGTTTTATGTGTCGTATCAATTGTTTTATTGCTGGTATTAGTAAAGGCAAAAAAACAAGAAGGGGAAGTACCACCACTAAAAGAGTTTATTCAATCTATTATCTCTACGTTTCGAGAAAAGGGAAGATGGTTAATTGCCATTTTTGCATTAGGTGCAATTATTATGCTTATTTTATTCGGAATTCTCTTTTATTTGTCGACTATACTGGAATCAAAGTATGACATTCATGGTATATGGAAAGGGTGTGTGCTTGCTATCCCGTTACTTGTACTGTCACTTAGTTCATATATGGCCGGTAAAAAAATTGGAGATAATCAAAATGTTATGAAGAAGTGTATTTATATTGGTTTTTTAATGGCAGCTGCATCAGTCATCATTCCTTTATTTATAAAAGGGATTTATTTACTACTTCTTTGTCTTGTTATTATGGGGATAGGAATTGGTATGGCACTCCCATGTTTAGATGCCCTCATTACACAAGGAATTGAAAAGGAGCAAAGGGGAACGGTTACGTCATTTTATAGTTCAATGCGATTTATCGGTGTAGCAGCTGGACCACCTTTATATTCTTTTTTTATGAAAGGGGCGGACCATGAAGTGTTTTATTTGACAAGTATTTTTGCTGCCATTGGTGCTGTTATAGCAATCATTTGGATTAAACCAGCAAAAGATGAAAAGACGGTAAAACAGAAACCGGAACCTACTTCATAA	MLKKENCCLIALASVPLVMTLGNSMLIPILPTIEKKLHISSFQVSMIITIYSIVAILLIPIAGYLSDRWGRKMVMVPSLLIAAIGGAITGWVSWKVDNPYIWILMGRAIQGIGAAGAMPVVIPCVGDLYKDEKQVSTGLGIIETSNTFGKVLSPILGSALAAIVWFLPFWAIPVLCVVSIVLLLVLVKAKKQEGEVPPLKEFIQSIISTFREKGRWLIAIFALGAIIMLILFGILFYLSTILESKYDIHGIWKGCVLAIPLLVLSLSSYMAGKKIGDNQNVMKKCIYIGFLMAAASVIIPLFIKGIYLLLLCLVIMGIGIGMALPCLDALITQGIEKEQRGTVTSFYSSMRFIGVAAGPPLYSFFMKGADHEVFYLTSIFAAIGAVIAIIWIKPAKDEKTVKQKPEPTS	PGPT0003580_287	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
AK009_00675	615	argO	COG1279	Arginine exporter protein ArgO	ATGAGTGAAGCAATTATTCATGGTATCATTCTTGCATTTGGACTTATCATTCCATTAGGTGTACAAAATGTTTTTGTCTTTAACCAAGGTGCGAGCCAACCAAACATTTGGAGGGCAGCCCCTGTAGTATTAACTGCCTCTATATGTGATACGTTACTCATATTGATTGCGGTGCAAGGTGTCTCCCTTGTACTCCTTACTTTTTCTTGGCTAACTAACTCGTTATATATAATTGGATTTTTCTTTCTCCTATATATGGGCTTTGTTATTTGGAGAAGTAACCCTTCCAACGATGTAAAACAAGAAAAAAGTATGCCCTTAAAAAAGCAAATCCTTTTCGCAGCATCAGTCTCATTATTAAATCCACATGCAATTTTAGACACAATCGGTGTAATTGGAACAAATTCTATTCAATACATAGGAAGTGAAAAATGGGCTTTCACACTTGCAACTATTATCGTTTCTTGGATTTGGTTTATAAGCTTAGCTTTAGCGGGGAAATTTCTAAAAAGACTAGACTCAACCGAAAAGGCAATCTTATTATTAAATAAATTTTCTGGTCTCATCATATGGGGTGTCGCGCTTTATATGTTAAAACAAGTTATTTATTCTTAA	MSEAIIHGIILAFGLIIPLGVQNVFVFNQGASQPNIWRAAPVVLTASICDTLLILIAVQGVSLVLLTFSWLTNSLYIIGFFFLLYMGFVIWRSNPSNDVKQEKSMPLKKQILFAASVSLLNPHAILDTIGVIGTNSIQYIGSEKWAFTLATIIVSWIWFISLALAGKFLKRLDSTEKAILLLNKFSGLIIWGVALYMLKQVIYS	PGPT0020651_1589	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
AK009_00676	1443	norG_1	COG1167	HTH-type transcriptional regulator NorG	ATGGAAAGATTCGTTTGGAAACCGAATATGTCTCTAGCGACGCCGCTGTATAAACAAATAGAAACGTATATAAAAGAAAGGATCGTTAATGGAGAATGGATCGTTGGAACAAAATTACCTTCACAAAGAGATTTGGCCCATACATTTGGTGTGAATCGAAGCACAATTGTAATGGCTTTCGATGAACTAGTTGCGAAGGGATATATTGAAGGGAATGGCAGGAAAGGAACAATTGTTGTAAATAATAATGAGAATGCTTCAACTTACGCACCCCCGCCTAATTGGCAGTCTTATGTAGAAACAGGAGTTCATTATCCGAATCTCCCAGCTATTCAAGAGATTAATCAAGCTGAATTTTATCCACATGTAATTCGGTTAGGAACAGGTGAGCTCGCGCCGAGTCTCTTACCTGAGACAAAGATGAAAGAAATTATGAATAAGCTTTTAAAGTCAAATGTGACGCTTGGGTATGAAGAGCCGAAAGGAAATCTTTATTTAAGGGAAAAGATTTCCGAATACTTAAAGGGGCATAGTGTATATGTATCTCCTGACTCTATATTAATTGTTTCGGGAGCAATTCAAGCGCTGCAACTTATTTCTATGGGGCTTCTTTCGAAAGGGGCATCAATCTTATTAGAGAAACCATCCTATTTATATTCACTTAATGTTTTTCAATCAGCAGGAATACGTTTAATTGGAATCCCAATGGATGAGAGTGGCTTACATCCATCATTTATTGAGAAATATAAGAAGCAATTTAATGCCTCTATTTTATATACAATTCCGTCTTTTCATAATCCGACGAATTTTAGTATGGATACTAAGAGGCGAAAAGAAATAATGGAAGTATGTAATGAAATTGGATTACCTATTATAGAGGACGCAGTGTATCAAGACTTATGGTTTGATGCACCTTGTTCAAAACCTTTAAAAGCCTATGATAAAAATGGAATCGTATTACATATTGGAAGCATGTCCAAAGTAATTAGTCCAGGTTTAAGAATTGGATGGATTGTTGGACCCGAGCCAGTAATTCAAAGATTGTCAGACATAAAAATGCAAACAGATTATGGTTCAAGCTCTATATCCCAGCAAATTGCAGCAGAGTGGTTTACAAATGGTCTATATGATGAGCATTTACGATTTGTAAGAAGTGAATTGAAAAAACGAAGAGATTTTATGTTACTAATGTTAGATAAATATCTTCGTGAAATAGCAACTTGGCATGAACCAACAGGTGGGTTTTATATATGGGTACATATAAAAGTACCCATTTCATATCGTAGTTTATTTGATAAAGCTCTGCGAGAAAAGGTTTTATTAAACCCAGGTACTTTGTATGATAGAAGTGCAAATCAATTTTTGCGCCTATCATATTCATATGCAACGTTAGAAGAAATTGAAATAGGTATAAAAAAACTTGCACAACTAATGAAAAAGTAA	MERFVWKPNMSLATPLYKQIETYIKERIVNGEWIVGTKLPSQRDLAHTFGVNRSTIVMAFDELVAKGYIEGNGRKGTIVVNNNENASTYAPPPNWQSYVETGVHYPNLPAIQEINQAEFYPHVIRLGTGELAPSLLPETKMKEIMNKLLKSNVTLGYEEPKGNLYLREKISEYLKGHSVYVSPDSILIVSGAIQALQLISMGLLSKGASILLEKPSYLYSLNVFQSAGIRLIGIPMDESGLHPSFIEKYKKQFNASILYTIPSFHNPTNFSMDTKRRKEIMEVCNEIGLPIIEDAVYQDLWFDAPCSKPLKAYDKNGIVLHIGSMSKVISPGLRIGWIVGPEPVIQRLSDIKMQTDYGSSSISQQIAAEWFTNGLYDEHLRFVRSELKKRRDFMLLMLDKYLREIATWHEPTGGFYIWVHIKVPISYRSLFDKALREKVLLNPGTLYDRSANQFLRLSYSYATLEEIEIGIKKLAQLMKK	PGPT0028960_227	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_00677	168			hypothetical protein	ATGAAACAATATGTAATTTGCCAAATGATTGGTGGACATAAATACTTAGCTGCTTATGCGGAGACGAAGCAAGAGGCGATTGAAAAAGCAGAACTGTTAGGATTAAGAACGGGAAATCGTTACATAGTTATTACTGCAGAAGAAGCCGAAGGGTTAACGTATCCTTAA	MKQYVICQMIGGHKYLAAYAETKQEAIEKAELLGLRTGNRYIVITAEEAEGLTYP				NA	NA	NA	NA	NA
AK009_00678	966			hypothetical protein	ATGAAGATTGATGGTGTTTTTGAAGGAGGCGGTGTGCGCGGTATTGCGCATATTGGGGCAATTTGCGCGTTAGCCGAAAAAGGTTATGAATGGGAACGTGTAGCTGGTACATCGGCTGGTTCGATTATTGCAGCGCTCCTAGCGGCAGGATATTCTTGTTCAGAGTTAAAAACGATTATAACTGATATTGATTATAATAAATTTATGAAAAGAACTTTTATTGATAGAATTCCTTTTATCGGTAAGGGACTAAGTGCATGGACTACTCTAGGTATATACTCTAATGTATTTATAGAAGAATGGATTGAAGAATTACTTCGAAAAAAAGGTGTTCATTTATTTACTGATTTACCAGATCTAAACAAACTCAAAATCATCGCCTCTGATATTAGTAATGGTAAAATGGTTGTCTTTCCTGACGACTTACCAAACTACGGATTTTTAAATTATCGCTTCTCTATTGCTAAAGCGGTAAGAATGAGTAGTACAATCCCCTTCTTCTTTGAACCCGTAAAATGGAGAACTCCAAAATGGAAGCAGCCTTGTTATATGGTTGATGGAGGAATTCTAAGTAATTATCCAATTTGGATCTTCGATTCACCTACCGCTCCTCGCTGGCCGACTTTCGGATTTCATTTTGTAAAGGATGAAATTCAAGCTGACCCTGCTCGCTATAACGAGCCTATTTCCATGTTCAAAGGACTATTTAAAACAATGATGCAAGCCCATGATTTACGTCATTTAGATAAGGAATCAAAAGCAAGAACCATTACAATTCCAACAGGAACGATTACAAGTACTAATTTTGAACTGACAAAGGAAGAAAAAGAATGGCTTTACAATTCTGGTTATAACTCTGCTAATAAATTTTTACAAGCTTGGAACTTTAGGCAATATATTGATGAATATAGAAAAGGGAATCAAGACCGAAAGACAAATCGATTTTTCCGTCAACTTGACTCATAA	MKIDGVFEGGGVRGIAHIGAICALAEKGYEWERVAGTSAGSIIAALLAAGYSCSELKTIITDIDYNKFMKRTFIDRIPFIGKGLSAWTTLGIYSNVFIEEWIEELLRKKGVHLFTDLPDLNKLKIIASDISNGKMVVFPDDLPNYGFLNYRFSIAKAVRMSSTIPFFFEPVKWRTPKWKQPCYMVDGGILSNYPIWIFDSPTAPRWPTFGFHFVKDEIQADPARYNEPISMFKGLFKTMMQAHDLRHLDKESKARTITIPTGTITSTNFELTKEEKEWLYNSGYNSANKFLQAWNFRQYIDEYRKGNQDRKTNRFFRQLDS				NA	NA	NA	NA	NA
AK009_00679	144			hypothetical protein	ATGGGTTACGGATATAGTTGCTGTGGTTACGGATACGGTGGTGGCGGCGGTTGTGGTTACGGAGGTTTCGCTTTATTAATCGTTTTATTTATCCTTCTAATCATCATCGGAGCTAGTTGTTGGGGCGGCTTTGTAGGCTGCTAG	MGYGYSCCGYGYGGGGGCGYGGFALLIVLFILLIIIGASCWGGFVGC	PGPT0024985_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_00680	753			hypothetical protein	ATGAATAAAAAAATTGAAGTATTAATTGATAAATATGAACTAACACACTTGAAAGAGGAACTTATTAATACTATATTTCCTTGTATAAAAGTTGTGCCAAAGCAGCAGGAAACTGTTGCGATAGGTAGTTCGAAAATGGGGGGATTTCCAGATTTACCAGCTTTATTTGAATATCCAAAGCATAAAGGAAATCCACTACAATTTATCGCGCAATTTAACTTAAGTGATTTACAAAATGTTGGTATGGATCACAATCTTCCTAAAACGGGGATGCTGTATTTCTTTTGCATTGAAAATTATTTTGAAGAAAATGTGAACCTAACAGAAGCTGGGCATGTACTTTATTATGATATTCCTGTAGAGCAATTACGAAGAGAAAATCAAATACAAGCGAAATATAACCAGTGTGCAATTACTTTTGAACTGACATACAAATTACCAGAACTTTTCATTGAAGATGAGGCTGATTCAGATCATTTCTTGCAATTACTTGAAGAGCTAATTCCGGATAACTACGATAACCATCAAATGTTTGGTGAGCCATTCTCTGTACAAGAAGAAGTGTTATATGAGACAGGAGAATATATGGGAGTAGACCCGCAGCAAATGACTCTTTTATTCCAAATTGATTCAGATCATAAAAATTGTAATATGGTTTGGGGAGAACTAGGAATGCTATATTTCTGCATTAGTAATGAAGATTTGAAAAATCGACGTTTTGAAAATACATGCTGCGTATTACAAACTTGCTAA	MNKKIEVLIDKYELTHLKEELINTIFPCIKVVPKQQETVAIGSSKMGGFPDLPALFEYPKHKGNPLQFIAQFNLSDLQNVGMDHNLPKTGMLYFFCIENYFEENVNLTEAGHVLYYDIPVEQLRRENQIQAKYNQCAITFELTYKLPELFIEDEADSDHFLQLLEELIPDNYDNHQMFGEPFSVQEEVLYETGEYMGVDPQQMTLLFQIDSDHKNCNMVWGELGMLYFCISNEDLKNRRFENTCCVLQTC				NA	NA	NA	NA	NA
AK009_00681	1161			hypothetical protein	ATGGGAAAGACAAGTAAGTATGTGACAGCTGCCGCACTTTGTTCAACTATAGTAATGGGAGGCTTACAAGCGTCATCTGTATCTTATGCAGCTACAAATCCGACTACAGTGACAGCACAATCAGATGTAAAGTTATTAGATGATTTCAGAAAAGAATTAAAAAAACAGATTGATAATCGAGAAGAAAATATTACAATCACATATAAAACAAAAGATAGAAATGCTAGAAATATTATGGATCAATTGTATGGTGAGTTTAATAAAATTGTAGATGCTGATGAGTATGTAAAATATAATGTAGGGTCTACTAGATATTCTATTAAAGGAATGCCAGGGGACTATACGTTTACACTGCAAGTAAAATACCGTGAATCAAAAGAACAAACTCAATATGTAAAAGCTCAGGCGAAAGCAATTGTTGGATCAATTGTAAAACCAGGGATGGATGAGCATGAGAAAGTAAAAGCTATTCACGATTACGTTGTTAAGCATGTGTCTTATGATACGTCTTATCAAGCGTATACGGCATATGAAGCATTAGCGAATCGTTCTGCCGTTTGCCAAGGATATACACTATTAACGTATGAGTTGTTAAAAGAGGCAGGTATTCAAAATCATATTGTAACAGGCACAGGAAACGGACAAGCTCACGCGTGGAATTTAGTAAACATTGAAAACAAATGGTATCACCTAGATACTACATTTGATGATCCAGTACCAGATAAAGCAGGGCGTGTAACTTACTCATATTTTAATATGTCTGACGAACAGTTAAGTAAAGATCACGACTGGGATCGTAGTAAATATCCAGCAGCAACTACAAGTTATTTTGGTGAATTAACAAATAAAATAAAAGCTGGTAGCTCAAAAACTGTCGTATATGAGCAAATGTTAAAAGAAACAAATTTACAATACTTATCTGCGGAATACGGAGCAGATAATTATAATGAATTTAAGAAAAAGTTACAGCAACAGTTTGCAGCCAAACCAGAAAAAGTAGAAGTACGATATAAGCAGTCCATGGATGGAGCGATGCAAGATATAAAGAAAGTATTAAATGAAATAAATTGGCCAAAAGGTGCAAAGCGTGTGTCTTATCAAGTAGCACCATATAGTGCAATGGCCGGTTATTCATTAGCGACAATTACATTTACGTATTAA	MGKTSKYVTAAALCSTIVMGGLQASSVSYAATNPTTVTAQSDVKLLDDFRKELKKQIDNREENITITYKTKDRNARNIMDQLYGEFNKIVDADEYVKYNVGSTRYSIKGMPGDYTFTLQVKYRESKEQTQYVKAQAKAIVGSIVKPGMDEHEKVKAIHDYVVKHVSYDTSYQAYTAYEALANRSAVCQGYTLLTYELLKEAGIQNHIVTGTGNGQAHAWNLVNIENKWYHLDTTFDDPVPDKAGRVTYSYFNMSDEQLSKDHDWDRSKYPAATTSYFGELTNKIKAGSSKTVVYEQMLKETNLQYLSAEYGADNYNEFKKKLQQQFAAKPEKVEVRYKQSMDGAMQDIKKVLNEINWPKGAKRVSYQVAPYSAMAGYSLATITFTY				NA	NA	NA	NA	NA
AK009_00682	462	rppH_1		RNA pyrophosphohydrolase	ATGGCCAACTATATAAAAGAATTACGTGAAAAAGTAGGGCATGATTATGTTTTCTTAAATTTTGCCGGTGGTTGTGTATTTAATAAAGAGGGAGAAGTATTATTGCAAAAAAGAGGAGACTTTAACGCTTGGGGATTTCCAGGTGGCGCAATGGAGATAGGAGAATCGGCTGCGGAAACTGCGATTCGAGAAATAAAAGAAGAAACCGGGTATGATGTAGAAATAAATGAGCTTATTGGAGTGTATACAAAATATTTTCAATCATATCCAAATGGAGATAAGGCACAGTCAATTGTGATGTGTTTTTCATGCTCAATAGTTGGAGGCGACAAAAAAGTAGATGGTGATGAAACGTTAGATTTGAAGTTTTTCCCGTTAGACGACATGCCACCGTTATTTTGTAAACAACATGAAGATTGCTTGCAAGATTTATTGGAGAAAAGAGTAGGGGTATATCGCTAA	MANYIKELREKVGHDYVFLNFAGGCVFNKEGEVLLQKRGDFNAWGFPGGAMEIGESAAETAIREIKEETGYDVEINELIGVYTKYFQSYPNGDKAQSIVMCFSCSIVGGDKKVDGDETLDLKFFPLDDMPPLFCKQHEDCLQDLLEKRVGVYR	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
AK009_00683	819	nadE	COG0171	NH(3)-dependent NAD(+) synthetase	ATGACATTACAAGAACAGATTATGAAAGCATTACATGTTCAGCCTGTAATTGATCCAAAAGTTGAAATTCGTAAACGAGTTGATTTCTTAAAAGATTATGTAAAAAAAACAGGTGCAAAAGGATTTGTACTTGGGATTAGCGGCGGCCAAGACTCTACATTAGCAGGACGCTTAGCACAACTTGCAGTTGAAGAAATTCGTAACGAAGGTGGTAACGCAACGTTTATCGCTGTACGTCTTCCTTATAAAGTACAAAAGGATGAAGATGACGCACAATTAGCGTTACAATTTATTCAAGCTGATCAATCAACTGCATTTGATATCGCTTCAACCGTTGATGCTTTTTCAAATCAATACGAGAACTTATTAGGTGAATCATTAACTGATTTCAATAAAGGTAACGTGAAAGCTCGTATCCGTATGGTTACACAATATGCAATTGGTGGACAAAAAGGGCTACTTGTTATCGGAACAGATCACGCTGCAGAAGCTGTAACAGGGTTCTTTACAAAATTCGGAGATGGTGGTGCAGATTTATTACCATTAACGGGATTAACGAAGCGCCAGGGACGTGCATTATTACAAGAGTTAGGTGCAGACGAGCGACTGTACTTAAAAATGCCAACAGCTGATTTATTAGATGAAAAACCGGGTCAAGCTGATGAAACAGAGTTAGGTATTACTTATGATCAATTAGATGATTATTTAGAAGGTAAAGCAGTTCCAGCTGACGTTGCAGAGAAAATTGAAAAACGTTACACAGTAAGTGAGCATAAAAGACAAGTACCAGCGTCAATGTTTGATGATTGGTGGAAATAG	MTLQEQIMKALHVQPVIDPKVEIRKRVDFLKDYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVEEIRNEGGNATFIAVRLPYKVQKDEDDAQLALQFIQADQSTAFDIASTVDAFSNQYENLLGESLTDFNKGNVKARIRMVTQYAIGGQKGLLVIGTDHAAEAVTGFFTKFGDGGADLLPLTGLTKRQGRALLQELGADERLYLKMPTADLLDEKPGQADETELGITYDQLDDYLEGKAVPADVAEKIEKRYTVSEHKRQVPASMFDDWWK	PGPT0013445_2267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
AK009_00684	258	yxdM_1		ABC transporter permease protein YxdM	ATGAACATTAGAGAACTCGCATATCGGAATGTAACGCGAAATAGACGGACATACTCAGCCTATTTTTTAAGTAGTGCATTTGCAATTATGGCCTTTTTTGTGTATTCATTTTTTGCGTTTCATCCGGCATTAAGTGCAGGAGAATTGGGGCAGTACGTATTCGTAAGTATGTCTTTTGCACAGTCTATTATTTACTTATTTACATTCTTCTTTATTTTATATTCGATGGGGAATGTTTTTAAAAACGAGAAAGCGTGA	MNIRELAYRNVTRNRRTYSAYFLSSAFAIMAFFVYSFFAFHPALSAGELGQYVFVSMSFAQSIIYLFTFFFILYSMGNVFKNEKA	PGPT0027860_417	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
AK009_00685	1611	yxdM_2		ABC transporter permease protein YxdM	ATGATGCTAGGTATGACGAAATATCAATTAAAGCGTCTTATCTTTTTTGAAAATATTATGATTGGAATAGGGGCAATTATTTTTGGTATTCTTTCAGGTATGTTATTTTCAGGGGTATTAATATTTGCCGCCCCGATGATATTAAAACTAGATATCTCCTTATCCTATTACATACCGATGAAAGCAATTGTTGTAACGAGTATTATGTTTTTCATATTATTTATGATCATATCATTGTTTAGTGCAGGAATGATTCGTAAAAATAAAATTATGAAGTTGTTTAGAGGATCAGCAGAGGCAAAACCGGAACCGAAAGCATCAATCATTTCTTCAATATTAGCAGTAGTGTTGCTTAGTGCTGGCTATATAGGAGCTCTTCTATCGCATGGCGCAATGGTATTTATTATGATGATTCCTGTTACAACGGTAGTTACTATTGGGACGTATTTGTTGTACAAGCAGCTGAGTGTCTTTATTATTCGATTATGTAAAAAAAGTAAACGTTTCTATTGGACACAGACTAATATTATTACGTTATCAGATTTAGCGTATCGCATGAGAGATAACGCAAGAATGTTCTTTATTGTAACCATTATTTCTACTGTAGCATTTTCAGCAATAGGGACATTAGTTGGCTTCGCATCCATGACGAAAGAGATAATGGAGAGACCAATTGCGTTTCATTACCATTCTAAGCAAGGGAATAGTAACGAATCACAACATATACAAATGATTGACAAAGGATTAAAGAAACATAATATAGCAGCTTCAAAAACTAATATTTCGACAAAGAAAACGGAGGAACAGTCGTTAAGAAGCGCCACTTTTATAAAAGAATCAGACTATAAGGAATATGCAAAGTTAACAGGAGAACCATTTAATACTGTAGCAAATAAAGAGGTTGTATTTTTGTCAGCTAATATACCAGGGCCGGCGATGAAAGAAAGAAAAGAAATTACTTTACCCAATATGAATGAACATTTAAAGGTGAAAAAAGTTACTTCATCTTCATTGGGGAAAATATTAAGAGGAAATGTTTATGTAATCTCTAATAATCAATATGATTCATTACAAGATGGATTTATAGAGACAAAAGATTATATGTATAAAACTGAAAGAATGAAAGATGAGATTGAAATTGGTAAAGAGCTTACGCATCAAATTAAACCGCATCAAGAACATTCAACGTTTAGTGCGGAAGAGTACGAACAAAACCAAAGTTTACAAATTGCAGGACCGATTTTATTTGTAGGTTTCTTTATTGGTATAGTATTTTTCGTTTGCACAGGAAGTTTCCTTTACTTCCGTTTATTCTCCGATTTGGAGGATGATGTTCGCTTGTTCGAAATGATTCGAAAAGTTGGATTGACGAGTGGGGAATTATCGAAGGTAGTTACAATTCGATTGGCGCTTTTATTCTTCGTTCCAATTGGTGTTGCAACATTACATGGGGCAGTAGCCTTAACGGCGTTAGGGCAAATGTTTGAGTACTCATTGTTTAAAGAAAATACAGTTGTATTAAGTATTTTCATAGGTATTCAAGTTGTATACTTCTTACTTATAAGATCCCGTTATGTAAAACAATTGAAAGAGAGATTACGTATGCATTAA	MMLGMTKYQLKRLIFFENIMIGIGAIIFGILSGMLFSGVLIFAAPMILKLDISLSYYIPMKAIVVTSIMFFILFMIISLFSAGMIRKNKIMKLFRGSAEAKPEPKASIISSILAVVLLSAGYIGALLSHGAMVFIMMIPVTTVVTIGTYLLYKQLSVFIIRLCKKSKRFYWTQTNIITLSDLAYRMRDNARMFFIVTIISTVAFSAIGTLVGFASMTKEIMERPIAFHYHSKQGNSNESQHIQMIDKGLKKHNIAASKTNISTKKTEEQSLRSATFIKESDYKEYAKLTGEPFNTVANKEVVFLSANIPGPAMKERKEITLPNMNEHLKVKKVTSSSLGKILRGNVYVISNNQYDSLQDGFIETKDYMYKTERMKDEIEIGKELTHQIKPHQEHSTFSAEEYEQNQSLQIAGPILFVGFFIGIVFFVCTGSFLYFRLFSDLEDDVRLFEMIRKVGLTSGELSKVVTIRLALLFFVPIGVATLHGAVALTALGQMFEYSLFKENTVVLSIFIGIQVVYFLLIRSRYVKQLKERLRMH	PGPT0027860_409	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
AK009_00686	288	abrB_1	COG2002	Transition state regulatory protein AbrB	ATGAAAGCAACAGGAGTTATTCGAAAAGTAGACGAATTAGGACGAATTGTTATCCCTAAAGAATTACGCGATGTATTGGGAATACAAATCAAATCACCGCTTGAAATTTTTGTAGAAGCAGATAAAATCATTTTGCAAAAATATCAACCTTACAATGCTTGCCAAATCACAGGTGATGTTTCAGAACAGAACATATCATTAGCAAATGGAAATATTACTGTTGGGATAGAGGGAGCGGAATATTTAGTAAAAGAAATAGAAAAGTTTTTAAACAAGAGTGAGGTTTAG	MKATGVIRKVDELGRIVIPKELRDVLGIQIKSPLEIFVEADKIILQKYQPYNACQITGDVSEQNISLANGNITVGIEGAEYLVKEIEKFLNKSEV	PGPT0014790_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_00687	948	isp_1	COG1404	Intracellular serine protease	ATGAGTAGTACAGTGAATAAGCAAAAAGGTATACAATTGATTCCGTTTACCGTAAATAAGGTGGTAGAGCAAGTAAATGAAATTCCACCAGGTGTACAACTGATTCACGCTCCACAAGTATGGGAAAAGAGTGTGAAGGGGCAAGATGTAGTCGTTGCCGTATTAGATACAGGGTGTGATACCAATCATATAGATTTAAAGGATCGTATTATCGGCGGAAGAAATTTCACAAAAGATTATGAAGCTGATCCAAATGTGTATCTTGATAATAACGGACATGGTACTCATGTAGCGGGCACGATTGCCGCGACTGAAAATGGTGTCGGTGTATTGGGAGTTGCACCACTTGCTAAAATGTTAGTATTAAAAGTTTTAGCGGGAGATGGTTCTGGAAGTTATGAGCAAATTATTGAGGCAATTCATTATGCTGTAAATTGGAGAGGGCCGAATCAAGAGAAAGTGAGAATTATTTCAATGTCACTTGGTGGTCCGCAAGATGTTCCAGAATTACATGAAGCAATTCAAAATGCGGTAAATCAGGATGTTCTCGTTGTATGTGCTGCTGGAAATAATGGAGATTGCGATGATGAAACAGAGGAATTAGATTTCCCAGGTGCTTATTCTGAGGTAATTGAAGTTGGTGCTGTTAATTTAGAGCGGAAGATTACATGTTTTAGTAATTCAAATCAAGAAATTGATCTAGTAGCGCCAGGTGATGAAATATTATCTACGTATCCAGATGGGAAATATGCTGTGTTAAGTGGAACTTCCATGGCGACGCCGCATGTTGCTGGAGCGCTCGCCTTGCTCATTAAACAGTGTGAGAAAGAATATGGTCGAAAGTTATCGGAGCCGGAAATATATGCACAACTCATTAAAAGAACTGTACCTTTAGGGTACGAACGTACATCTGAAGGAAATGGATTAATAGATTTATTAAAAGAATAG	MSSTVNKQKGIQLIPFTVNKVVEQVNEIPPGVQLIHAPQVWEKSVKGQDVVVAVLDTGCDTNHIDLKDRIIGGRNFTKDYEADPNVYLDNNGHGTHVAGTIAATENGVGVLGVAPLAKMLVLKVLAGDGSGSYEQIIEAIHYAVNWRGPNQEKVRIISMSLGGPQDVPELHEAIQNAVNQDVLVVCAAGNNGDCDDETEELDFPGAYSEVIEVGAVNLERKITCFSNSNQEIDLVAPGDEILSTYPDGKYAVLSGTSMATPHVAGALALLIKQCEKEYGRKLSEPEIYAQLIKRTVPLGYERTSEGNGLIDLLKE				NA	NA	NA	NA	NA
AK009_00688	309			hypothetical protein	ATGCGTACACTCTATCATCCAAATCGAGAAGAAATTCAATTTTCTTCTGTCTTATATGCACTTAGCGATCAAATTCGTTTACAAATTGTAAATATGTTACTAGAGAAAAACGAACAATCTTGTGGCGCTTTAAACATTCCTATTGCGAAATCAACTTTATCTCACCATTTCAAAGTTTTACGTGAGTCAGGTGTTATGTACACGCGCCTTGAAGGAACACAACGTTTCATTTCAATTCGTGAAGAAGATTTAAATGCTAGATTCCCAGGTTTGTTACAAGTTGTATTACATGCGACAGAGCCATATTAA	MRTLYHPNREEIQFSSVLYALSDQIRLQIVNMLLEKNEQSCGALNIPIAKSTLSHHFKVLRESGVMYTRLEGTQRFISIREEDLNARFPGLLQVVLHATEPY				NA	NA	NA	NA	NA
AK009_00689	936	iolS_1	COG0667	Aldo-keto reductase IolS	ATGAAGTATACAAAATTGCAAAAGGCAGGATTAAATATTTCAAAGTTGGGTTTAGGTACAAATGCAGTAGGGGGACATAATTTATATGCTGATGTGAATGAAGAAGAAGGAAAGCAATTAGTAGAAGAAGCTATTCAGCAAGGGATTACATTTTTTGATACAGCAGATTCATATGGTGTCGGTAGATCTGAGGAAATGGTAGGAGAAGTATTAAAGGGAAAACGCCATAAGCTTATACTTGCTACAAAAGGTGGAATTCAACCGTTATTAAATGGAGAAACTTATATTAACAATGAACCAAGTTATTTAAGAAATGCTGTGGAGAATAGCTTAAGAAGGTTACAGACTGATTATATTGATTTATATTATTTGCATTTTACAAATTCTGAAACAAGTTACATAGATTCAATCGGAGAGCTTACTCGTTTAAAAGAAGAAGGGAAAATTCGTTCAATTGGAATATCGAACGTAAACATAGAACAATTAAAAGAAGCGAACCAACATGGTCATATAGATGTTGTACAATCTCCGTACAATATGTTAGAACGTACGGCTGAGGAAGAACTGTTGCCGCATTGTATAGAAGCGGGTATTTCATTTATTCCATATGGGCCTCTTGCTTTTGGAATATTAGGCGGAAAATATACAGAAGATTTTAAATTGAACAAAGTCGATTGGCGCCAAAATGTAAATCTATTTGAAGAAAATACATATAAGAGTAATTTTAAGAAAGTGGAAAAGTTAAAAGGGCTAGCTAAAGAAAATGATATTGAAGTGTCTCATTTAGCGTTAGCATGGTTATTAAATAAAGAAGGAATTGATACAGTTATACCTGGTGGAAAGCGGGCAGAGCAAATAAGAGAAAGTGTGAAAGCGGTAGACGTTTCATTGAATAAAAGAGTCATGAAAGAAATCCAATCTATTTTAGAAGATTAG	MKYTKLQKAGLNISKLGLGTNAVGGHNLYADVNEEEGKQLVEEAIQQGITFFDTADSYGVGRSEEMVGEVLKGKRHKLILATKGGIQPLLNGETYINNEPSYLRNAVENSLRRLQTDYIDLYYLHFTNSETSYIDSIGELTRLKEEGKIRSIGISNVNIEQLKEANQHGHIDVVQSPYNMLERTAEEELLPHCIEAGISFIPYGPLAFGILGGKYTEDFKLNKVDWRQNVNLFEENTYKSNFKKVEKLKGLAKENDIEVSHLALAWLLNKEGIDTVIPGGKRAEQIRESVKAVDVSLNKRVMKEIQSILED	PGPT0018520_117	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
AK009_00690	549			hypothetical protein	TTGGCCTACTTTATTTTTCAAACCGGAAATTTTGCTGCATTTTCATTCTTTGGTGTATGGCTTTTCGTTCAATTTGGGTTACAGGTTCATGAAGTAGGTACGGCTATGCTTGTACTAGGATTAGGAAATTTAGCTGGTAATATTTTGGGCCCTAGACTCGTAAATAAAATTGGTTACAATTTTTCTTTCTATGGTGGAATTGTATTTACAGCAGTGTTATATGTAATACTCCCTTATTTAAAGAGTATTATATTTGTTGAATTATTTTTCTTTGTTTTATTTTTTGTGACAGGAATTTTGTTTGTATTAATGATGGGACACTTACAAAACATGTCTACTATAGCAAGAGGAACAGGTGCTGCTCTTGCAAATGCCTCGATGTACATTGGCCAAATGATTGGTGCGGCAATAGCAGGAATGTTATTTGCAACATCTCATAATTTTATATTAGTAGGTAGCTTTACTGCGTTATTATATGTTTTAGCTTTATTTCTGTTTAGAAAAAGTGAAAACATTAATAAAGATAATGAAAAAGGAATTGCATCATAA	MAYFIFQTGNFAAFSFFGVWLFVQFGLQVHEVGTAMLVLGLGNLAGNILGPRLVNKIGYNFSFYGGIVFTAVLYVILPYLKSIIFVELFFFVLFFVTGILFVLMMGHLQNMSTIARGTGAALANASMYIGQMIGAAIAGMLFATSHNFILVGSFTALLYVLALFLFRKSENINKDNEKGIAS	PGPT0003185_903	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
AK009_00691	234			hypothetical protein	GTGTTTCGTATGACAAAAAAGAAAATAGAAGATTTCTTAACAAACTCCGAAAAAGAGGAACTGCTAGAAAACTATAAATGTTTACGAGAAGCCCGCACAAAAAGCGAAGCTAACTATTTTGGTGAAGCAGTGAACCATCTATTAAATAAAGCAAAACAACGAATTATTAAAGATGCAGGTATACATGATGAAAATGCAGCAACTGTTCAATCAAAAAGAAAAGCACTGTTTTAG	MFRMTKKKIEDFLTNSEKEELLENYKCLREARTKSEANYFGEAVNHLLNKAKQRIIKDAGIHDENAATVQSKRKALF				NA	NA	NA	NA	NA
AK009_00692	348			hypothetical protein	ATGGAAATGTATCAATGGCTAACCGCTGTTCTCGTTGGTGGCATTACTGGCTTCGTTTCCCATCTAATCAATAACCAAGGTAAGTTATTGCTTCCACGCCGTTTGAAAACATTTTTTCATTTTGGATTTTTAACTGATATTTTTACCGGTAGCCTAGCCGCACTTCTCGGACTCGTTTTATTCGATGTCACCGCAATAAAAGAAATTATAAAAGTATCCATTGTAACTGCTATTTCCGGTCAAACTTTCTTACTACATCAAGCTCTTGGTGGCGAACAGGCTAAAAATACGCAAATTGGGAAAGCTGATGAGAAGATTCAAGAAATTGACAAATTATTGCGACGTTAG	MEMYQWLTAVLVGGITGFVSHLINNQGKLLLPRRLKTFFHFGFLTDIFTGSLAALLGLVLFDVTAIKEIIKVSIVTAISGQTFLLHQALGGEQAKNTQIGKADEKIQEIDKLLRR				NA	NA	NA	NA	NA
AK009_00693	477			hypothetical protein	ATGAATATAGATTATCGAATAAGAAGTGTAGATGGTTATACAAAAAAAATAGGGGAATTAGTAAGCATGCTTGAGCATACGAGAGCTGTAACATTAGGCGAAGTAAGAAATTTATCAGTTGAGCAATTAGATTTAATTATGCAGAGTAGCGGGAATTCAATTGGTGCCTTATTAAAACATATAGCAGCTATTGAAAAAGTTCATCAGCTTATTTCATTTCAAGATCGTGACTTTACAAAAGAAGAATTAGAAATATGGGAAGATGCACTGTATTTAGGGGAAGCGGGTAGAGCAATCCGTGGTCATGAAATACAGTATTATGTACAACTTCTACAAAGTGTTCGAGAAGAATCTCTGAAGTATTTAAGTGAACAAGGTGATGAGTGGCTCATGTCAGAAAGAAAGTGGCCTAACGGTGTAGTATATAACCAGCACTATCTTTGGTTTCATGTGCTAGAAGATGAAATTAGTCACTGA	MNIDYRIRSVDGYTKKIGELVSMLEHTRAVTLGEVRNLSVEQLDLIMQSSGNSIGALLKHIAAIEKVHQLISFQDRDFTKEELEIWEDALYLGEAGRAIRGHEIQYYVQLLQSVREESLKYLSEQGDEWLMSERKWPNGVVYNQHYLWFHVLEDEISH				NA	NA	NA	NA	NA
AK009_00694	1050	rsgA_1		Small ribosomal subunit biogenesis GTPase RsgA	TTGAATCAAAATATTTTAGAATCGTATGGCTGGGATTCTTTTTTTGAGGAACAAGCTGTAGAGAAATTTGAAGTAGGTCGTATTTTACTTGAGCATAAGCATATATATCGCATTATTTGTAACGATGGTGAATATATGGCAGAACTGTCTGGGAAGTTTCGGCATGAAGCAGTAACGAAGGGAGATTATCCAGCTGTTGGTGATTGGGTGTATATAAAGAAAATAGAGAATGAAAAGAAAGCTATCATTCATAGTATTTTTCCGAGAAGAAGCTCTTTCTCTAGACAAGAGGCTGGTACTCGAACGGAAGAACAAGTAATAGCAGCGAATGTAGATTATCTATTTTTAGTGAATGCACTTAACCATGATTTTAATGTAAGAAGAATGGAACGTTATTTACTTTTAGCGTATGAAAGCGGTGCAATGCCTGTAATTGTTTTAACAAAGAGTAGTTTATGTGAGGACATGGAACAGAAAATTGTTGAAACGGAAGCTGTGGCAATTGGTGTTCCAATCTTCGTCGTTGATAGTTTAGAGCATACTGGTATTGAATCGTTGCAGCAATTTGTTTCTTCAGGGAAAACAATTGCTTTAGTCGGATCATCCGGTGTTGGGAAATCCACTTTGTTAAATGCACTTATAGGAATTAAAGTAGCAAAAACGGGAGATATTCGTGAGGAAGATAGTAAAGGAAGACATACGACAACTCATCGTGAATTGTTCCGATTACCGAGTGGTAGTTTAGTTATTGATACTCCCGGCATGAGGGAATTGCAACTTTGGGAAGGAAGCGAAGCGATTCAAACAACATTCTCTGATATTGAAAAACTCGCGACAACATGCCGTTTTCGTGATTGTAAGCATGAGAATGAACCAGGATGCGCGGTGCATAGTGCAATTGATAACGGACTTATTACGATAGATCGTTTGAAAAGCTATAAAAAATTACAAAGAGAACTGGCGTATTTTATGAGAAGACAAGATGCAATCCTTGCCAGAGCAGAGCGTGATAAGTGGAAAAAGCTTTCTAAACAACATAAAAAAATGTAA	MNQNILESYGWDSFFEEQAVEKFEVGRILLEHKHIYRIICNDGEYMAELSGKFRHEAVTKGDYPAVGDWVYIKKIENEKKAIIHSIFPRRSSFSRQEAGTRTEEQVIAANVDYLFLVNALNHDFNVRRMERYLLLAYESGAMPVIVLTKSSLCEDMEQKIVETEAVAIGVPIFVVDSLEHTGIESLQQFVSSGKTIALVGSSGVGKSTLLNALIGIKVAKTGDIREEDSKGRHTTTHRELFRLPSGSLVIDTPGMRELQLWEGSEAIQTTFSDIEKLATTCRFRDCKHENEPGCAVHSAIDNGLITIDRLKSYKKLQRELAYFMRRQDAILARAERDKWKKLSKQHKKM	PGPT0009020_1663	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
AK009_00695	1983	mcpA_1	COG0840	Methyl-accepting chemotaxis protein McpA	ATGGGTAAACTATTAAATTTGTTTCGTGATATGAAAGTAGCAAAAAAGCTATTAATTTCATTCTTTGTAATTTTAATTGCGGCTGTGTCTATTATCGGAGGCATGTCTTATCAAACAGCCAAAAAGAATTTTGAATCACAAATTAAGAGTAGTGCCAACGACAATATAAAAATACTGGATAATTTAATCAATCAAATGATTGATGCAAAATTTAATGATGTGAATAATTTTGCACGGGTGATTCAGGGGAATATGTATCAAGGAGATAATCAGGATGAATTAAGAAAAATATTATCTCAATATATAAATTTAAATAAAGATGTTGAACAAGTATATGTTGCCGGAAATGATAAAAAATTTGTGCAAGAACCAAATATACAAATGGCAGCAGATTATGATCCAACAGCACGACCTTGGTATAAAGATGCAGTGGCAAAACAAGGTGGTATTGTTGTTACTGAGCCGTATAAGGCAAAAGGAAATGGACATATTGTCGTAACAATCGCAAAACAAACAGAAGATAAAAATGGGGTTGTTGCGCTAGATTTAAGTTTAGATAATTTATTAAAAACATCAAAGTTAATTAATATTGGTAAAAAAGGATATGCCTTCATTTTAGATGGAAAGCAAAAAATAATTGCTCATCCACAAGAAAAATCAGGAGAAAAAGCGGCTGATTCTTGGGCAAAGAAAATTTATGAAGATAATCACGGTGCTTTTTCATATTCTTATGGTGGTAGTGAAAAGAATATGGTATTTGCTACAAATGTAAAAACAGGTTGGAAAATTGGTGGGACTATGTACTCAAGTGAAGTAATTGAAGCTGCTCAACCTGTATTTTATAATATGTTAATTGTTATGCTTATCTCATTAGTAATAGGTGGAGCACTTATTTATTTTGTAACACTTTCAATTACGAAGCCTTTAAAGAGATTAGTTGTTACCTCTAAAGAAATAAGTGAAGGGGATTTAACGCAAACAATTGAAATTCATTCTAATGATGAAATCGGCCAACTTGCTAAAGGCTTTAATGAGATGACGAATTCGTTACGGACGTTAATCGGAAGAATTAACGATTCAGCTGGGCATGTTGCAGCGGCATCAGAAGAGCTAACTGCAAGTGTAAGGCAAGCAAGTGAAGCGACTGAGCAAATTACAATCGCAATGGATGAAATATCAAGTGGGGCAACGACGCAAACAACAAGCGTAGAAAATGGTGCTATGTTGCTATTTGATGTAACGGAAGGAATTCAGCATGTAGCAAATAGTTCATCATCTATTAATACGGCTTCCGCACATACTCGTGAAAAAGCAGAAGATGGTGGGAAACTAGTAGGAAGAACAGTAAACCAGATGCAGTCTATTGCAGAATCTGTGTCACAATCAGATGCAGTTATACAATTACTAAATAATAAATCAAAACAAATTGGTGATATTTTAGAAGTAATTCAAAATATTGCAGATCAAACAAACCTTCTAGCTCTAAATGCGGCGATTGAAGCTGCAAGAGCCGGTGAGCATGGAAGAGGTTTTGCGATTGTTGCAGATGAAGTACGTAAATTGGCAGAGCAGTCTAGCGTATCTTCTAGTGAAATTAGTAAATTAATATGTGAAATACAAGATGATATGGGTAAGACAGTCAAATCTATGAATCATGTAAATGAGGAAGTTCAATCTGGACTTGTTATCGCAAATGAAACGAAGCAAAACTTTGCTGAAATTTTACAATCTACAAATGAAATAGCTAATCAAATTAAGACGATGGTTGAAACGGCTAATGGAATGTCAAAAGGGGCAAATGAAGTATCTATTTCGGTAGGACAAATTGCAATGACAGCACAAAATAATGCAACAAGCACACAAAATGTTGCGGCTTCAGCTGAAGAACAGCTAGCTTCGATGGAGGAAATTGGATCCGCAGCGGGCACGTTATCTCAAATGGCTGAAGAGTTACAAGGACTAATTGACAGATTTAAAGTTTAA	MGKLLNLFRDMKVAKKLLISFFVILIAAVSIIGGMSYQTAKKNFESQIKSSANDNIKILDNLINQMIDAKFNDVNNFARVIQGNMYQGDNQDELRKILSQYINLNKDVEQVYVAGNDKKFVQEPNIQMAADYDPTARPWYKDAVAKQGGIVVTEPYKAKGNGHIVVTIAKQTEDKNGVVALDLSLDNLLKTSKLINIGKKGYAFILDGKQKIIAHPQEKSGEKAADSWAKKIYEDNHGAFSYSYGGSEKNMVFATNVKTGWKIGGTMYSSEVIEAAQPVFYNMLIVMLISLVIGGALIYFVTLSITKPLKRLVVTSKEISEGDLTQTIEIHSNDEIGQLAKGFNEMTNSLRTLIGRINDSAGHVAAASEELTASVRQASEATEQITIAMDEISSGATTQTTSVENGAMLLFDVTEGIQHVANSSSSINTASAHTREKAEDGGKLVGRTVNQMQSIAESVSQSDAVIQLLNNKSKQIGDILEVIQNIADQTNLLALNAAIEAARAGEHGRGFAIVADEVRKLAEQSSVSSSEISKLICEIQDDMGKTVKSMNHVNEEVQSGLVIANETKQNFAEILQSTNEIANQIKTMVETANGMSKGANEVSISVGQIAMTAQNNATSTQNVAASAEEQLASMEEIGSAAGTLSQMAEELQGLIDRFKV	PGPT0015710_7772	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
AK009_00696	306			hypothetical protein	ATGGGAGTGTACTGGGGGACAAAAAGACATTCTTGGCTTAGTTACGTTTCATTTTGGCTAAGTATTTCATTTTTTATTGTTTTTCTAATTGAAGTGTTTATATTAAAAACACTTTCGAATAGCTCGGTGCAAATTGTTAAATATTTTTATTTTATACTTGTGCCAGTAAATATTTTTCTTAGTTTAAAGTTACTATTTAAGAAGAATGAAAAGAAAGCGTTACCTATTTTTAGTTTCATTGTCTCATTATTATTCGCAATTTTAATAATCGTATTAGTTTTAGCAGCTATAGGGAAGTTCTTTTAA	MGVYWGTKRHSWLSYVSFWLSISFFIVFLIEVFILKTLSNSSVQIVKYFYFILVPVNIFLSLKLLFKKNEKKALPIFSFIVSLLFAILIIVLVLAAIGKFF				NA	NA	NA	NA	NA
AK009_00697	366			hypothetical protein	ATGCTATACGAGGATTTGGAGACATTATTTCAAACAGCTCCGAAAGAAGATAGAGGCGGATGGAAATATATAATCCAAGAACAAAATGATACATATAAAATTGTTGATGAAATTCTGAAAAATCAAATGAGTGTCGAATTGTATTTTAATGAATACGATGAGGTGAAAATCACTTTATATAAAGATGGAATTCCCATTACGACTATGCAAAGAATTGCGATTTCAAAAGTTGAATTAGACGAAGATGAAGAGGGTATTCAATTTGTTTTAGAGCGCATGCCTAGTCGAATGATTCGGTTGCAATTAAAGCCATATTTAGCATTAGAAATGGGGCCGTACTGGGAAGTATGTGATGATTGTGAATGA	MLYEDLETLFQTAPKEDRGGWKYIIQEQNDTYKIVDEILKNQMSVELYFNEYDEVKITLYKDGIPITTMQRIAISKVELDEDEEGIQFVLERMPSRMIRLQLKPYLALEMGPYWEVCDDCE				NA	NA	NA	NA	NA
AK009_00698	1041			hypothetical protein	ATGGACAATCAACAATGGCAAGTAGCAAAGAAAGTAGCTGCTACTTATATCGGAACTGTCGTTGGAGCTGGATTTGCTACTGGACGAGAAATTGTTGAATTTTTCACAGTGAATGGATTATATGGGACAATTGGCATATGTGTAAGTGGATTTTTTTTTATTTGGCTCGGCACAAAGATGATGTTACTTTCATCGCAAATTGGGGCATTTTCAGCGCAAGAATTTAACAAATATTTATTTGGGGATGTATTTGGGAATGTTGTAAACACATTATTATTACTCGTTTTATTCGGCGTAACGAGCGTTATGTTATCAGGGGCTGGTGCAGTATTTGAAGAGCAACTTCGCTTACCAAGACAACTCGGTATTCTCATTACAGTTATCGCTTGTCTCATTATAAGTAGCCGCGGATTACAAGGTGTTTTTGAAGTAAATACACTTGTCGTACCTATTATGATGATTTTTATTATCGGACTTGCTATTACAACCTTTTTTCACGGTACACCTTCCATTAATAACACTATTCCTGCAGAGAGTTGGAATATGAAATGGATTACTAGCCCTATTACATATGTCGCCTTAAATCTTTCTCTCGCCCAAAGTGTTCTCGTCCCATTAGCCAGTGAAGTTAAGGATCGAAAAGCCATTTTTTGGGGTGGGATTTTAGGGGGTGCTGGACTTTCTTTAATTTTATTATGCAGCCATTTAGCAATCTTATCAGTCGATCAATTTTATCAATATAACATCCCAATGGCTGAAGTCATAAGAAGATTTAATGCAACTTTTCACTTCTTCTTCGTTCTCATTATTTTCGGTGAAGTTTTCACAACTTTAGTTGGTAATGTGTTCGGAATGACAAAACAGATGCAATCTATTACTGGGTGGAAAAATAACAATATTATTTTCTTTATTTTACTAATTAGTTATTGCTTTAGTTACATCGGTTACAGTGACTTACTTCACATTCTATATCCTATCATCGGATGGGTAAGTATTGTTATACTTCCAATCATTGCATTTAAACAACTTCAAAAAACATAA	MDNQQWQVAKKVAATYIGTVVGAGFATGREIVEFFTVNGLYGTIGICVSGFFFIWLGTKMMLLSSQIGAFSAQEFNKYLFGDVFGNVVNTLLLLVLFGVTSVMLSGAGAVFEEQLRLPRQLGILITVIACLIISSRGLQGVFEVNTLVVPIMMIFIIGLAITTFFHGTPSINNTIPAESWNMKWITSPITYVALNLSLAQSVLVPLASEVKDRKAIFWGGILGGAGLSLILLCSHLAILSVDQFYQYNIPMAEVIRRFNATFHFFFVLIIFGEVFTTLVGNVFGMTKQMQSITGWKNNNIIFFILLISYCFSYIGYSDLLHILYPIIGWVSIVILPIIAFKQLQKT				NA	NA	NA	NA	NA
AK009_00699	444	dps1	COG0783	DNA protection during starvation protein 1	ATGAGTACGAAAACAAATGTTGTTGAAGTATTAAACAAGCAGGTAGCAAACTGGAATGTGTTATATGTGAAACTACATAATTATCACTGGTATGTGACAGGGCCACACTTCTTTACATTACATGAGAAATTTGAAGAGTTTTATAATGAAGCTGGAACGTATATTGATGAGTTAGCAGAACGTATTTTAGCTTTAGAAGGTAAACCATTAGCGACAATGAAAGAATATCTCGCAACATCTAGTGTCAGCGAAGGGACAAGCAAAGAATCTGCAGAAGAAATGGTGCAAACATTAGTGAATGATTATTCTGCACTTATTCAAGAATTAAAAGAAGGTATGGAAGTTGCGGGCGAAGCTGGCGATGAAACATCAGCTGACATGTTGTTAGCAATTCATACAACATTAGAACAACATGTATGGATGCTAAGTGCATTCTTAAAATAA	MSTKTNVVEVLNKQVANWNVLYVKLHNYHWYVTGPHFFTLHEKFEEFYNEAGTYIDELAERILALEGKPLATMKEYLATSSVSEGTSKESAEEMVQTLVNDYSALIQELKEGMEVAGEAGDETSADMLLAIHTTLEQHVWMLSAFLK	PGPT0004055_3823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
AK009_00700	456			hypothetical protein	ATGTTTCGCTTTTTCAGAACTGGAAAAGAAGAGCGGGAAATTACGAAAGATGAATTAGAACAAGCGATGGCTCAGTTTTTAGAAACGAATGCTAATATTGTTTATACAGTATTAGTAAATGACGATTATACAGTGAATTATGATTTGTTAAAACCGTATTTACCTGCATTTCCAACAAATGATTTTCTCATAACGAAGGAAACGCTTGAGGTATTTGAACATACAGCAGAAAATTTAAACCTAGTGAAAGAAATTGATGTCGTACAAAAAGCAGTAGATCAATACGTAACAGAAAAAGAAATGTTCCCAATTGTTGAAGGTAGCGAAGATCGCCTCATATGCGGAATGAAACTAGGACCTTACTTAAATCGTAGCTTAAAAAGAGACTTATATATTTCAGAAAAACATTATTTAGTTTCAAGTAAACCAGATAGAAAAAAACAAAAGAGCGGGTAG	MFRFFRTGKEEREITKDELEQAMAQFLETNANIVYTVLVNDDYTVNYDLLKPYLPAFPTNDFLITKETLEVFEHTAENLNLVKEIDVVQKAVDQYVTEKEMFPIVEGSEDRLICGMKLGPYLNRSLKRDLYISEKHYLVSSKPDRKKQKSG				NA	NA	NA	NA	NA
AK009_00701	945			hypothetical protein	ATGAAAAATAGTATGACTTACATTCAATTATTAAATGAAACGTTACGTTGTTATGCAAATAAAGGAAGTTTTGAAGCGTACAATTATATAATGGAAAATGCTACAGGTGTAATAGGGAATGAGGCGCAAATATATAATTTTAAGTATGCGCTCGCAAGTGCATCGGGACTTGAAAAAGAAGCATTACATTTAATGAGAGAGGCCATTATAGAAAAGGGATTCTGGTATGGAAATGAGTATTTAATTTCGGACGATGATTTAAAATCACTACATAAATTTGAAGAATTTCATACAATGGTTCAATTATGTAAAGAAAGAGAAGGATTAGCACATAAAACGGAAAGACCAGACGTGAAATATATATACAGCAAGAAAGAGGGAAATCTACTACTTACATTACATGGTGACCAAGAAAATATTCAAATAGTAGAGCCATATTGGAAATCAGTTTTGACACAAGATTACACGTTAGCTTTACCACAGTCTTCACAAATTCAGTTTTCAGATGGATTTGTTTGGGATGATCTAGAGAGAGGGAAAGGGGAATTAAAAGAGCATTACAATAAGTTTATAGAAAATCATACAGTAGAAAATGTAATAATTGGTGGTTTTTCTGCAGGGGCAAGAGTAGCTTTATATACGATTTTACAAAAAGATATAGATGTAGATGGTTTTGTTTTTATGGCACCCTGGCTTCCCAAGATTGAAGAATGGGATGAGTTGTTGAGTGTGCTGCAGGATAAACATATAAAAGGATATATAGTATGCGGGGATCAAGATGAAGATTGTTTCGAATCCGTGCAGCAATTTGTGCAACTATTAAGAGATAAGAATATAGAACATAAGTATAAAGTTGTGCCTGACTTAGATCATAATTATCCTATTAACTTTGATGAGCTATTAAAAGAAGCTATTGAATATATAGGAAATGAAAACAATAAGTAG	MKNSMTYIQLLNETLRCYANKGSFEAYNYIMENATGVIGNEAQIYNFKYALASASGLEKEALHLMREAIIEKGFWYGNEYLISDDDLKSLHKFEEFHTMVQLCKEREGLAHKTERPDVKYIYSKKEGNLLLTLHGDQENIQIVEPYWKSVLTQDYTLALPQSSQIQFSDGFVWDDLERGKGELKEHYNKFIENHTVENVIIGGFSAGARVALYTILQKDIDVDGFVFMAPWLPKIEEWDELLSVLQDKHIKGYIVCGDQDEDCFESVQQFVQLLRDKNIEHKYKVVPDLDHNYPINFDELLKEAIEYIGNENNK				NA	NA	NA	NA	NA
AK009_00702	1002			hypothetical protein	ATGATCAAGTTAAGTGTATTAGACCAATCACCTATTTCAGATGGTAGCACAGCAGCCCAAGCTTTTTCACATACAGTTACGCTTGCACAAGAAGTTGAAAAACTCGGATTCACACGTTTTTGGGTATCCGAACATCATAATTCCGTAGGCTTAGCTGGTTCAAGTCCAGAAATACTTATTTCTCATATTGCCGCAAAAACGGACCATATTAGAGTCGGTTCAGGTGGTGTTATGTTACCGCATTATAGCCCATATAAAGTCGCTGAGAATTTCCGTATTTTAGAAGCACTGTATCCAAATCGTATCGATCTCGGTGTTGGTAGAGCCCCTGGTGGTATGCCAATAGCAACTCGCGCACTTCAAGAAGGGAAAATGGTCTCACTTGATCAATATCCAGAACAAATTGCAGACGTTGCAATGTACATACATGATCAAGTACCAGAAAACCATCACTATGCAAACTTAAAAGCCACTCCAGTTATCCCAACATCTCCTGAAATGTGGATGCTCGGTTCTAGTGGAGAGAGCGCTAAAATTGCTGCAAACAACGGAGCTTCTTTCGCATTTGCACAATTTATTAATGGCTTTGGAGGCCCTGAAGTTATGAGGGCTTACCAAGAACAATATCAGCCCTCATTTTTAGGAGATAAACCAAAGTCAATCGTTGCTATTTTTGTTATTTGCGGAGAAACAAATGAAGAAGCAGAAAAAATTGCTTCTAGTTTAGATTTATCAATCTTATTATTAGAGCAAGGAAAACGAACTACTGGTACACCTTCTATTGAAACTGCTCAAAATTATTCATACAGCGCTTATGATTTATTCCGTATAAAAGAAAATCGTCAACGTATGATTGTTGGTGATCCGTCTTCTGTAAAAGAAAAAATAATAAACTTAAGCAAAGCATACAATACTGACGAATTTATGATTGTCACGATTACTCATCAATTCGAACATAAATTAAAGTCTTATCGCTTACTAGCAAATGCTTTTAATTTATAA	MIKLSVLDQSPISDGSTAAQAFSHTVTLAQEVEKLGFTRFWVSEHHNSVGLAGSSPEILISHIAAKTDHIRVGSGGVMLPHYSPYKVAENFRILEALYPNRIDLGVGRAPGGMPIATRALQEGKMVSLDQYPEQIADVAMYIHDQVPENHHYANLKATPVIPTSPEMWMLGSSGESAKIAANNGASFAFAQFINGFGGPEVMRAYQEQYQPSFLGDKPKSIVAIFVICGETNEEAEKIASSLDLSILLLEQGKRTTGTPSIETAQNYSYSAYDLFRIKENRQRMIVGDPSSVKEKIINLSKAYNTDEFMIVTITHQFEHKLKSYRLLANAFNL				NA	NA	NA	NA	NA
AK009_00703	192			hypothetical protein	ATGAAACATACTTATGACTACCATGCTACAAAAAAACATTTAGAATTAAAGAAACAAAACTTATGTAAAAAACTTAGCAATATGACACTATCTGCAAAAGAACGTGAACAGCTAAAACGTGAAATTGACAACTATGAATATATTTTAAATCTAGTCGAAATGAATCATTATGAACGCGGATTTTCTCATTAA	MKHTYDYHATKKHLELKKQNLCKKLSNMTLSAKEREQLKREIDNYEYILNLVEMNHYERGFSH				NA	NA	NA	NA	NA
AK009_00704	1464		COG1231	L-amino acid oxidase	GTGCAGAAAGATATAATGTATAACACTGAAATGGATGAAGCGTTAAAAGTTATAGATAAAGGATTGAAGAAGACGATAAGTCCAAAACAAATTATTGTAGTGGGAGCTGGTATGGCTGGATTAGTTTCAGCATCTTTATTAAAGGCTGCAGGACATGATGTGAAAATTTTTGAAGCAAACAACCGGGTAGGTGGCCGTATAGAGACAGTTAGAATGGAAGATACCGGATTATATTTAGATGTGGGAGCAATGAGAATTCCGTATACACATAGGTTAACGATGGCATATATAAGAAAATTTGGGCTACAGGTGAGTCCTTTTATTAATAGGAATGAGACGGATATTATTTATGTAAATGGACGGAAAACGACGTTGAAACAATATGAAAAGGATCCGAGTATTTTAAGGTATCCTGTGGAAATGAACGAAGTGGGAAAAACGTCTGAAGAACTATTGTTATTAGCAGTACAGCCGATAATAAATTTTATTAAAAGAAATCCAGAGAAAAATTGGGATGTTGTAGTGAAGGATTTTGGGAGATATTCCACAGGACAATTTTTAAAGTATCATCCTTATCAGTATAATACTTACTTTTCGCCAGTAACAATTGAGATGATCGGTGTTCTATTAGATTTAGAAGGTTTTTTAGAGCGGTCGTTTGTAGAGACTTTACGATTTCTATACATTATGCAAGAGGAGAGCGGATTTTGTGAAATTATGGGCGGGAATGATAGATTACCAAAGTCATTTTTACCGCAATTAGAAGAAAATATTATATATAATCAAAAATTAATGAAGTTACATCAACACGATAATGGTGTGACAGCTTTCTATCGGAACGAGGAAACTTTTGAATATAGTAGTATTACAGGAGATTTAGTTATTGTTACTATCCCGTTTTCGACAATGCGTTTTGTAGAAGTAGATCCGTTTGATTCTATATCTCATGAAAAATGGAAAGCAATTCGTGAATTGCATTACATGCCTGCGACGAAAATAGGAATTCAATTTAAAAGCAGATTTTGGGAAGAACAAGGGCAATTAGGTGGCAGAATTATAACAGATTTGCCAATTCGTTATGCCTATTATCCAAGTCATGGAATTGGAGAAAAAGGACCTGCTATGATGTTAGGTAGCTATACATGGTCTTACGATGCATTGTTATGGGATGGTTTATCAAAAGGCGATCGTATTTATTACGCCTTACACAACTTAGCAACAATATTAGGTGGTCAAGTGTATGATGAGTTCATATCTGGAATATCAAAAAGCTGGACATTGGATCCGTATGCGCTTGGAGGATTTGCGCTTTTTCAAGCAGGTCAAGAATCTGAGCTACAACCAGCGATTGTCAAACCAGAGGGGAGAATATTCTTCGCTGGAGATCATACAACGCTATATCACGGATGGATTCAAGGTGCGATTGAATCTGGAATTTTTGTAGCGATGGAAGTGAATGAGTAA	MQKDIMYNTEMDEALKVIDKGLKKTISPKQIIVVGAGMAGLVSASLLKAAGHDVKIFEANNRVGGRIETVRMEDTGLYLDVGAMRIPYTHRLTMAYIRKFGLQVSPFINRNETDIIYVNGRKTTLKQYEKDPSILRYPVEMNEVGKTSEELLLLAVQPIINFIKRNPEKNWDVVVKDFGRYSTGQFLKYHPYQYNTYFSPVTIEMIGVLLDLEGFLERSFVETLRFLYIMQEESGFCEIMGGNDRLPKSFLPQLEENIIYNQKLMKLHQHDNGVTAFYRNEETFEYSSITGDLVIVTIPFSTMRFVEVDPFDSISHEKWKAIRELHYMPATKIGIQFKSRFWEEQGQLGGRIITDLPIRYAYYPSHGIGEKGPAMMLGSYTWSYDALLWDGLSKGDRIYYALHNLATILGGQVYDEFISGISKSWTLDPYALGGFALFQAGQESELQPAIVKPEGRIFFAGDHTTLYHGWIQGAIESGIFVAMEVNE	PGPT0007641_1122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
AK009_00705	585	ydaF_1	COG1670	Putative ribosomal N-acetyltransferase YdaF	GTGAATCCGTTATTATTCGATTTTGCTTCTGAATTTTATACTGACAGGCTTTTTATTCGAATGCCGAAACCAGGAGATGGTAAAGTTGTATATGATGCAATTCAAGCTTCAATACAAGAACTAAAACCTTGGATGGCTTTTGCACAAAAAGAGCAAACAGAGGAAGAAATAGAAGAGAGTATTAGAAAATCGCATATTCAATTTTTGCAACGTGAGGATTTAAGATTACTAGTATTTTCGAAAGAAACAGGTGAATTTATTGCTTCTGCCGGATTACATCGTATTAATTGGGATATACCTCAATTTGAAATCGGATATTGGATTGATACAAGGTTTAGCGGAAAAGGCTATATGGTAGAGGCTGCGAAAGGTATAACGGATTATGCTTTTTCTGAATTGAAAGCAAACCGTGTAGAAATTCGTTGTGATTCTCTAAATAAAAAGAGTAGAGCGATACCTGAGAAATTGGGCTTTAAATTAGAGGGGATTTTAGAAAGTGCGAGTATTGCAGTAGATGGAAATGGATTAAGGGATATGTGTGTATTTGCAATGACGAGAAATACATATAAAAAAGAAGAGCTGTAA	MNPLLFDFASEFYTDRLFIRMPKPGDGKVVYDAIQASIQELKPWMAFAQKEQTEEEIEESIRKSHIQFLQREDLRLLVFSKETGEFIASAGLHRINWDIPQFEIGYWIDTRFSGKGYMVEAAKGITDYAFSELKANRVEIRCDSLNKKSRAIPEKLGFKLEGILESASIAVDGNGLRDMCVFAMTRNTYKKEEL				NA	NA	NA	NA	NA
AK009_00706	903	ydhF	COG4989	Oxidoreductase YdhF	ATGGAACGAGTTCAAATGAATGAAACGCTCGAATTCTCTCGTATTATTCAAGGATTTTGGCGTTTAGCAGAATGGAATATGACGAAACAAGAATTACTTTCTTTCATTGAAGATTGTATGGATATGGGAATTACTACTTTTGATCACGCTGACATTTACGGCGGATATACGTGTGAAGGGTTATTTGGCGAAGCTTTACAATTAAAGCCTTCCTTACGAGAAAACATGCAAATTATTACAAAGTGTGGAATCGCTCCCCCATCACCAAAATTTCCAGAGCGATATGTTGCTCACTACAATACTAGTGCAGAGCACATTATTCAAAGTGCAGAAGCATCACTAAAAAATTTACATACAAATTATATTGACGTATTACTTATTCATCGTCCCGACCCTTTTATGGATCCAAATGAAGTGGCAAAGGCATTTTCACAATTAAAACAAGAAGGAAAAGTTCGTCACTTCGGTGTATCTAACTTCTTACCTTCACAATTTAATATGTTAAGTTCTTACTTAGATTTCCCGCTTATTACGAACCAAATTGAAGTTTCTGCATTGCAGCTTGAGCACTTTGAAAAAGGGACAATTGATTTATGCCAAGAAAAACGAATCAATCCAATGATTTGGTCACCTCTTGCTGGTGGGGAAATCTTTACTGGTCAATCAGAACGCGCCGTACGTGTACGTGAAACTGTGCAAAAAGTTGCTACTGAGCTAGGTGTTACTAGTATCGATACGGTTATGTATGCTTGGTTACTTGCGCATCCAGCTAACATGATGCCAATCGTTGGATCTGGTAAATTAGATCGTGTAAAAACGGCCGCTCTTGCTACAAACGTTAAATTAGATCGTCAACAATGGTTTACAATTTTCGAAAGCTCTAATGGACATCCTGTACCATAA	MERVQMNETLEFSRIIQGFWRLAEWNMTKQELLSFIEDCMDMGITTFDHADIYGGYTCEGLFGEALQLKPSLRENMQIITKCGIAPPSPKFPERYVAHYNTSAEHIIQSAEASLKNLHTNYIDVLLIHRPDPFMDPNEVAKAFSQLKQEGKVRHFGVSNFLPSQFNMLSSYLDFPLITNQIEVSALQLEHFEKGTIDLCQEKRINPMIWSPLAGGEIFTGQSERAVRVRETVQKVATELGVTSIDTVMYAWLLAHPANMMPIVGSGKLDRVKTAALATNVKLDRQQWFTIFESSNGHPVP				NA	NA	NA	NA	NA
AK009_00707	951	yjiA	COG0523	P-loop guanosine triphosphatase YjiA	ATGATTCCAGTAACAATATTAACTGGTTTTCTTGGATCAGGGAAAACGACTTTATTAAATCGTATTTTATCAGAAAATCACGGTAAGAAATTAGCGGTGATTGTAAATGAAATAGGGCAAATTGGCATTGATAATCAGTTGATTATGAATGTAGAAGAAGAAATTATGGAAATGACAAATGGCTGTTTATGCTGTACTGTACGTGAAGATTTACTTGTTGCTTTAAAACAGTTACTGGACGTAAAAGCAGAAGGGAAAATGGATTTTGATGGTTTAGTAATTGAAACGACTGGACTTGCAAATCCAGGGCCGATTATTCAAACATTCTTTTTAGATCCAGTCATTCAATCTGCATACCAAATTAACGGTGTTGTAACGGTGGTAGATAGTTATCATATACATAAACATTTTGAAAAAGGATTAGAGGCAAAAGAGCAAATTGCGTTTGCGGATGTCGTTTTAGTAAATAAATTAGATTTAATTGAAGAGAGTGAGAAAGAAAATCTCTTGCATGAAATTCAAGGAATTAACCCGACTGCAAAGTTAATTGAGGCGACTAACTGTGAGGTAGATATACCATCTTTATTACAAATCCAAACGTTTAAAACGAAAGATACGTTGCAAATTTACCCTCATAAAGAACATAATCACTTAGAAGGTGTGAAATCATTTGTATTACGTGAAGAACGTCCGCTGGATTTACAAAAGCTTAATGAGTGGATGTCAGCTGTCGTTCAAGAGCTAGGGGAATATTTATATCGTTACAAAGGAATTTTATCGATAGATGGAGTAGATAAACGTATCGTTTTCCAAGGTGTACATACTTTATTTGCCGCTTCGTACGATAGAGAGTGGCAAGAGGGTGAAGAGCGAGTAAGTGAAGTAGTTTTCATCGGAAGAGATATTAATAAAGAGTGGTTCCAAGAACATTTTCAGGAGTGTGTGAAATAA	MIPVTILTGFLGSGKTTLLNRILSENHGKKLAVIVNEIGQIGIDNQLIMNVEEEIMEMTNGCLCCTVREDLLVALKQLLDVKAEGKMDFDGLVIETTGLANPGPIIQTFFLDPVIQSAYQINGVVTVVDSYHIHKHFEKGLEAKEQIAFADVVLVNKLDLIEESEKENLLHEIQGINPTAKLIEATNCEVDIPSLLQIQTFKTKDTLQIYPHKEHNHLEGVKSFVLREERPLDLQKLNEWMSAVVQELGEYLYRYKGILSIDGVDKRIVFQGVHTLFAASYDREWQEGEERVSEVVFIGRDINKEWFQEHFQECVK				NA	NA	NA	NA	NA
AK009_00708	471	bltD	COG0454	Spermine/spermidine acetyltransferase	ATGAATCTTCACATTTGTGAAGTAACAGCAAAAAATTGGCGTTCAGTAGTTGCTTTAAACGTCACAAAAGATCAGCAACAATTTATTGAAAGTAACGCGTTTTCTTTAGCAGAATCATTATATGAAGGAAACGGAACGTCAGTAGGTTTATATGATGGAGAAACACTTGTAGGTTATGCAATGTATGGATGGTATTCAGTAAAACATAAAAGTGTATGGCTCGATCGCTTTATGATTGACCAACAATATCAAGGAAAAGGATACGCAAAACGTTTCCTTCGCTTACTCATTCAATTCTTACAAGAAAAATTTGAATGCAAAATAATTTACTTAAGTTTACATCCAGACAACAAACTTGCAATGGGACTGTATGAATCATTTGGTTTCCGCTTAAATGGTGATATTGATGATGAAGGTCCAGTTGTAGGTGTTGTAATGGAGTTACTAATAGACGAAAATACAAGCCTGTGA	MNLHICEVTAKNWRSVVALNVTKDQQQFIESNAFSLAESLYEGNGTSVGLYDGETLVGYAMYGWYSVKHKSVWLDRFMIDQQYQGKGYAKRFLRLLIQFLQEKFECKIIYLSLHPDNKLAMGLYESFGFRLNGDIDDEGPVVGVVMELLIDENTSL	PGPT0007790_1555	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
AK009_00709	951	znuA	COG0803	High-affinity zinc uptake system binding-protein ZnuA	ATGCCTAAAAGATTGACTATATTTTCATTCTTACTTATTTTTACCTTAATTTTCGCTGGCTGCTCAAATAAAAAAGAAAGTAATGCCAAGAAAGATGGAAAGCTAACAGTTTATACAACGATTTTCCCACTTGCTGATTTCGCAAAGAAAATCGGTGGCGACTATGTAAATGTTGAAGCAATTTACCCACCTGGTGCAGATTCACATACATTTGAACCAAGTCAAAAACAAACAGTACAAGTTGCAAAAGCTAATTTATTCGTTTATAACGGCGCTGAATTAGAACCATTTGCTGAAAAAATGGAAAAAACATTACAAAAAGAAAATGTTAAAATTGTAAATGCATCTAAAGGTATTGAGCTTCGTGCTTCTACTGAAGAAGAGCATCATGATCATGGAGATGGCCATAAAGAAGATGAACATCATCACGATAAAGACCCGCATGTTTGGTTAGATCCTACTCTAGCAATGAAACAGGCGGAAAAAATTAAAAATGCACTTGTAGAATTACAACCTGAACATAAACAAGAATTCGAAAAAAACTTCGCCGCACTTCAAACTAAATTTACTGATTTAGACGATCAATTTAAGGCAGCTGTAGCGAACGCAAAAACGAAAGAAATTTTAGTTTCTCATGCTGCCTATGGTTACTGGGAACAACGATACGGCCTAAAACAAATTCCTATCGCTGGAATTTCAGCTTCTGATGAACCATCTCAAAAGCAGCTTGCTGACATTACAAAAACAGTAAAAGAACATAGTCTAAAATATATTTTATTCGAAACGTTCTCTACTCCAAAAGTAGCATCCGTAATTCAAAAAGAAACTGGTACAAAAGTTTTACGCTTAAATCACTTAGCTACTATTTCTGAAGATGATGCGAAAAATAATAAAGATTACTTCACTTTAATGGAAGAAAACGTAAACACATTGAAAGAAGCAACAAACTAA	MPKRLTIFSFLLIFTLIFAGCSNKKESNAKKDGKLTVYTTIFPLADFAKKIGGDYVNVEAIYPPGADSHTFEPSQKQTVQVAKANLFVYNGAELEPFAEKMEKTLQKENVKIVNASKGIELRASTEEEHHDHGDGHKEDEHHHDKDPHVWLDPTLAMKQAEKIKNALVELQPEHKQEFEKNFAALQTKFTDLDDQFKAAVANAKTKEILVSHAAYGYWEQRYGLKQIPIAGISASDEPSQKQLADITKTVKEHSLKYILFETFSTPKVASVIQKETGTKVLRLNHLATISEDDAKNNKDYFTLMEENVNTLKEATN	PGPT0004220_1815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
AK009_00710	216			hypothetical protein	ATGCATGCATATGTGACAACGCTGTTTTCATATATTGAAAAGGAGGTTAAAGAGGGGGGTGAGCGTTTGGGTTACTTAATGGAAGCTATTTTATTAATATTAGCGGTAGTATTGCCATTATCTTTTGTATTAATTTTTTTAAGAAGATTAATAAGTAATTTAGGGGACGCTACAACAATAACGAAATTACAAGAGAGAGATGAGAAAAAAGAGTAA	MHAYVTTLFSYIEKEVKEGGERLGYLMEAILLILAVVLPLSFVLIFLRRLISNLGDATTITKLQERDEKKE				NA	NA	NA	NA	NA
AK009_00711	660			hypothetical protein	ATGAATAAGCGAACAGCGTTAATACTTGGTGCAAGTGGTTTAGTTGGACAAGAGATAACGCGTCTATTACTTGAATCAGATTACTATGATTCGGTTACTATTTTTGTAAGAGATCCAATGCAATGGCAACATGAAAAGTTACAGCAGAAACAAGTTGATTTTTCGGTATTAGAGGAATATAAAGAGTTCTTTGCTGTGGATGATGTTTTTAGTTGCTTAGGAACAACAATAAAAAAAGCAAAAACAAAAGCAAATTTTAAAAAAGTAGATTATGAATATACGTTACGAGCTGCTTGTTTAGCTGAAAAACAAGGGGTACAAAATTTCCTTGTTGTGTCTTCTATGGGAGCGAATCCTAAATCATTTTTCTTTTATTCACAAGTGAAAGGAAAAATGGAAGAAGAATTGCAAAAGTTAGTGATCGGTGGTATTCACATTTTTAGACCATCATTATTAGTAGGAAATCGACAAGAATTTCGTTTCGGTGAACGAATGGCTGAAAAGTTATCTCGTATTATTCCTTTTATCTTTAAAGGGGCTTTCAAAAAGTATAAACCAATTTCAGCTAAAGATGTGGCGAAAGGGATGTATATAACCGCGCTGCGAGAAGAATCGGGTATCCATACTTATAATTCAAATGAAATTACAACGATAGAATAA	MNKRTALILGASGLVGQEITRLLLESDYYDSVTIFVRDPMQWQHEKLQQKQVDFSVLEEYKEFFAVDDVFSCLGTTIKKAKTKANFKKVDYEYTLRAACLAEKQGVQNFLVVSSMGANPKSFFFYSQVKGKMEEELQKLVIGGIHIFRPSLLVGNRQEFRFGERMAEKLSRIIPFIFKGAFKKYKPISAKDVAKGMYITALREESGIHTYNSNEITTIE				NA	NA	NA	NA	NA
AK009_00712	1038	namA	COG1902	NADPH dehydrogenase	ATGAATTCCAAGCTTTTTTCACCTTATACAATTAAGAACGTTACACTAAAAAATCGTATCGTTATGTCGCCTATGTGTATGTATTCATCGGGGAATGAAGATGGCCGCGTTACGAATTTCCATCTCATTCATTATGGAACTCGCGCTGCTGGCCAAGTAGGTTTAGTTATGGTTGAAGCAACTGCCGTTTTAGCTGAAGGACGAATTTCTAACAAAGACTTAGGCATTTGGGATGACAACCTAATTGAAGGCTTACATAAAACGACTACTTTTATACATGATAACGGTGCAAAAGCTGCCATTCAACTCGCTCACGCCGGAAGAAAAGCTGAATTAGGTACGAATGCTTTCGCTCCTTCTGCAATTCCTTTTAGTGATACGATGAAAATACCAGTAGAAATGAATATACAGCAAATCAAAGAGACTATATTAGCTTTTCAGAGGGCCGCGTTACGTTCAAAACAAGCCGGATTTGATGTTATCGAACTACATGGCGCTCACGGTTACCTTATCAATGAATTCCTATCACCACTTACTAATAAACGAACGGATGAATACGGCGGCTCACCTGAAAACCGCTATCGCTTCTTACGCGAAATCATCGACTCTGTAAATAAAGTTTGGGACGGACCAATATTCGTTCGTATTTCAGCAAATGATTATCACCCTGACGGACTAACAGTTCAAGATTATGTTCAGTATACAAAGTGGATGAAAGAACAGGGAATAGATTTAATCGATTGTAGTTCTGGTGCAGTTGTACCAGCACATATTGATGTGTATCCTGGTTACCAAGTACAATACGCCAAACATATTAAAGAGTATACTAAGATTGCAACTGGTGCAGTTGGATTGATTACGACTGGATCTCAAGCAGAGCAAATTTTAAATGATAACGAAGCAGATTTAATTTTCATCGGACGTGAGTTACTTCGCAACCCGTACTTCCCGAGAATAGCAGCCAATGAACTTGGCTTTGAATTGCAAGAACCTCACCAATATAAGCGAGCACCAGGAAAAATTCATACGAATAAATAA	MNSKLFSPYTIKNVTLKNRIVMSPMCMYSSGNEDGRVTNFHLIHYGTRAAGQVGLVMVEATAVLAEGRISNKDLGIWDDNLIEGLHKTTTFIHDNGAKAAIQLAHAGRKAELGTNAFAPSAIPFSDTMKIPVEMNIQQIKETILAFQRAALRSKQAGFDVIELHGAHGYLINEFLSPLTNKRTDEYGGSPENRYRFLREIIDSVNKVWDGPIFVRISANDYHPDGLTVQDYVQYTKWMKEQGIDLIDCSSGAVVPAHIDVYPGYQVQYAKHIKEYTKIATGAVGLITTGSQAEQILNDNEADLIFIGRELLRNPYFPRIAANELGFELQEPHQYKRAPGKIHTNK	PGPT0005575_429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
AK009_00713	453	ogt	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGTACCAGGCTTATTATGAAAGCGAAGTAGGTTTGCTAGAAATTACAGCAAATCAAGAAGGCATTACGTCTGTTATATTTGTTGATGAACGACAAGAAGAGAATAAAAATGAAATGATAGAACAATGTATAAATGAGTTAGATGAATATTTTAAAGGGAAAAGAAAAGAGTTTACGGTCCCGCTGTCTGCGGAGGGAACCGCATTTCAAAAAAATGTATGGGATGCTCTTTATACTATTCCGTACGGCGTAAGTGCTTCATATTTAGATATTGCAGAGAAGGTTGGAAATACAAAAGCTGTACGGGCAATAGGAGGGGCAAATAGTCGGAATCCAATTTCAATAATCGTTCCATGTCACCGTGTAATAGGAAAGAGTGGAAAGCTTGTTGGATATGCAGGTGGTTTATGGAGGAAAGAGTGGTTATTAAAACACGAAGGTATTTTGAAATGA	MYQAYYESEVGLLEITANQEGITSVIFVDERQEENKNEMIEQCINELDEYFKGKRKEFTVPLSAEGTAFQKNVWDALYTIPYGVSASYLDIAEKVGNTKAVRAIGGANSRNPISIIVPCHRVIGKSGKLVGYAGGLWRKEWLLKHEGILK				NA	NA	NA	NA	NA
AK009_00714	987			hypothetical protein	TTGAAATGTATAAATTGTGGGCAACCTTGCGAGGAGGAACAGTTAAATTGTGCAAGTTGTCAGCGAAACTTGGATAATGAACAAGATGAAGGCAGCTCGTTAATAGATAAAGAACTAGAAGTATATGTAGGGAGACAATATCCGTATTACAAAAGGAAATGGGAGCTTGAGAATAAGCGGATTGCTAGGTGGAGCTGGAATGGTTGGGCTGCTATTTTCAATATAGGCTGGCTAGGATATCGTAAGTATTATGTACCAGCTGCTTTATTTATGTTGTTATTAGTAGCGTGTGATGCATTTTCGTATTATATGGGATTTAATGTAGCGTTGCCAATCATTAATATGGTACCTCTTACGTTTTTATTACTCATTTTTATTCTGTTTGGAATGGGGATTTTTGCAAATGGATTATACTATCAATTTGCGGAAAGACGTATATACCGAATAAAAGCAAGAGAAATAAAAGATAAATCAGTTGAAAACTATCTAATCAATGATAGCGGCGGAACGAGCAAAATGGGAGCGACAATTGTTACTATTTTAGCAGTTGCTAGCATATTTTTTAGTCATTTCTTTTTTCCGACTGATCGAGACGTTATTCAAAAGGTTCGTACAAGCTCGCTTTATGAATATCCTTTCTTTTCAATAGGTGAATCTTTCGAAAATTATTTTCAAAATTCAGGTTGGATATATTATCGTGGAACGGAAGGGTTAGAATTAGTAGAATTCCAAGGATATAACGCCGGAACGCCAAGACAAAAGGTGAAGATTCAATTTGTTGTCGATTATAAATTAGGTGAAGTGGAACCATACTCACTTATGGTTAATGGTGAATCTAAAACTGAAGAAGAGTTTTTGAAGCTGATGGAAGAAATATTTAAAGTTCAAAATCCATTTGATATAGAGGATGGATTACAAGTAAATGCTATTCAAGGAAGCGACTGGAAAGAAATTTCCGATCGCTTTTTTCTATGTATGTTAAAATAA	MKCINCGQPCEEEQLNCASCQRNLDNEQDEGSSLIDKELEVYVGRQYPYYKRKWELENKRIARWSWNGWAAIFNIGWLGYRKYYVPAALFMLLLVACDAFSYYMGFNVALPIINMVPLTFLLLIFILFGMGIFANGLYYQFAERRIYRIKAREIKDKSVENYLINDSGGTSKMGATIVTILAVASIFFSHFFFPTDRDVIQKVRTSSLYEYPFFSIGESFENYFQNSGWIYYRGTEGLELVEFQGYNAGTPRQKVKIQFVVDYKLGEVEPYSLMVNGESKTEEEFLKLMEEIFKVQNPFDIEDGLQVNAIQGSDWKEISDRFFLCMLK				NA	NA	NA	NA	NA
AK009_00715	1662	dppE_2	COG4166	Dipeptide-binding protein DppE	ATGAAGAGAAAGACAACAACAATTGCTGCACTTGCGTTAACGACGAGTGTATTGGTTGCAGGATGTGGGAATGGTGAGAAGGCTTCGACAACGAAGAAAGAATCGAATAAGGGAATGGCCGATAAACAAGTTTTAAATTTGCTAGAAACAGCTGAAATTCCTTCAATGGATACATCTAAATCAACGGATTCTGTATCTTTCCGTGTATTTGTAAATGCAATGGAAGGTTTATATCGTCTAGATAAAGATAATAAACCAACACCAGGTATGGCAAAAGATGTGAAGATTAGTGAAGATAAAAAGACATATACATTTGAATTACGTGATGCGAAATGGTCAAATGGTGATCCAGTTCGAGCACAAGATTTTGTATATGCATGGCAACGTACATTAGATAAAGCAATAGCGGCAGAATATGCATTCATTTTATTTGATGTGAAAAATGCACAGAAAGTAAATAAAGGTGAATTACCAGCAGATCAATTGGGTGTTAAAGCGAAGGATGATAAAACGTTGGTAGTAGAATTAGAGCAACCAGCACCTTATTTTCTTGAGCTTACGTCGTTCCCTACATTTTTCCCATTAAATGAAAAATATGTGAAAGAGCAAGGAGATAAATATGGATTAGAAGCAGATAAATTATTATATAATGGACCATTTACAATGAGTCAATGGAAACATGAACAAAATTATCAGTTAAAGAAAAATCCTAATTATTGGGATAAAGATACTGTAAAGTTAGACGAAATTAATGTAAGTATTGTGAAGGAAACAAGCACGGGAGTAAATTTATATGATAGTGATCAAGCAGATCGAGTTATTTTAACTTCTGAATTTGTTGATAAATATAAAAAGAATAAACCAGATGAATTTAAAACGAAGTTAGATCCACGCATATATTTCTTGCGTTTTAACCAAAAAAATGCAACATTTAAAAACCAAAAAGTACGTGAAGCAATTGATTTGGCATATGATAAAAAAGGAATTGCTGATGTCATTTTAAATGACGGTTCATTGCCAGCATATTTCTTAGTACCTGAAAAATTCACGACAGGTCCGGATGGAAAAGACTTCCGCTCTGTAAATAAAAACTTCCGTGATAGTAAAGATAATGCAGAGAAAGCAAAAAAATTATGGGAAGAAGCGAAGAAAGAGCTTGGTCAAGATACAATTACGGTTGAATTACTAAACGATGATAACGGTAGCCGTAAAAAAGTAGGCGACTTTATTAAAGAAGAACTAGAGAAAAACTTGCCTGGTATTAAAGTGAATTTGAAACAGCAACCATACAAGCAGAAGCTAGATTTAGAAAAGAAATTCCAATATGAATTCTCATTATCTGCATGGAGCCCTGATTATCCGGATCCAATGACTTATATTGATATGTTTGTTACTGGAAGCTCATTTAATGAAATGGATTATTCTAATCCGAAGTATGATGATTTAGTAGCGAAATCAAAAGGAGAGCTATTAAAAGATGATAAAGCACGCTGGAATGCACTTGCGGAAGCTGAAAAAATCTTAATTGGTCAAGACGCAGCAATTTCTCCTACGTACCAACAAAGTACAGCTTATTTAGAGAAGCCGTTTGTAAAAGGCATTGCTAACCATACGTTTGGCGGGGACTTCAGTTATAAATGGGCATATGTTACAAAAAAATAG	MKRKTTTIAALALTTSVLVAGCGNGEKASTTKKESNKGMADKQVLNLLETAEIPSMDTSKSTDSVSFRVFVNAMEGLYRLDKDNKPTPGMAKDVKISEDKKTYTFELRDAKWSNGDPVRAQDFVYAWQRTLDKAIAAEYAFILFDVKNAQKVNKGELPADQLGVKAKDDKTLVVELEQPAPYFLELTSFPTFFPLNEKYVKEQGDKYGLEADKLLYNGPFTMSQWKHEQNYQLKKNPNYWDKDTVKLDEINVSIVKETSTGVNLYDSDQADRVILTSEFVDKYKKNKPDEFKTKLDPRIYFLRFNQKNATFKNQKVREAIDLAYDKKGIADVILNDGSLPAYFLVPEKFTTGPDGKDFRSVNKNFRDSKDNAEKAKKLWEEAKKELGQDTITVELLNDDNGSRKKVGDFIKEELEKNLPGIKVNLKQQPYKQKLDLEKKFQYEFSLSAWSPDYPDPMTYIDMFVTGSSFNEMDYSNPKYDDLVAKSKGELLKDDKARWNALAEAEKILIGQDAAISPTYQQSTAYLEKPFVKGIANHTFGGDFSYKWAYVTKK	PGPT0021015_1379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_00716	417	fosB_1		Metallothiol transferase FosB	TTGTTAAGGGGAATCAATCATATTTGTTTTTCGGTATCTAATTTAGAAAACTCTATTATGTTTTATGAAAAAGTATTAGAAGGAGAATTATTAGTTAAAGGGAGGAAATTGGCGTATTTTAACATATGTGGAGTATGGATAGCGCTTAATGAAGAGACACATATTCCGAGAAATGAGATTCATCAATCTTATACGCACATTGCATTTTCTGTTGAACAAGAAGACTTTGAATATCTAATACAGCGATTAGAAGAAAATGATGTTCATATTTTAAAAGGAAGAGAACGTGATGTCAGAGATTGCGAATCTATATACTTTGTTGATCCTGACGGTCATAAATTTGAGTTTCACTCAGGGACACTGCAAGATCGTTTAAATTATTATAGAGATGAGAAACCTCATATGACATTTTATTAG	MLRGINHICFSVSNLENSIMFYEKVLEGELLVKGRKLAYFNICGVWIALNEETHIPRNEIHQSYTHIAFSVEQEDFEYLIQRLEENDVHILKGRERDVRDCESIYFVDPDGHKFEFHSGTLQDRLNYYRDEKPHMTFY	PGPT0028560_143	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
AK009_00717	546			hypothetical protein	TTGCATGCACTTGTAATTGGTGGAACAGGAATGCTAAAGAGAGTTTCTATGTGGCTTTGTGAGCAAGGGTTTCATGTTTCTATTATCGGGCGAGATGAAGTGAAATTAGAAAATGTTAAGCGGATGAGTTCTACACTAGAAAATATTACATGCCTTTCGTTAGATTATCATAATGATGAAGATGTAAAGCTAGCTATTAAAAGTACAGTTGAGAAAAATGGCCCGATCACATTAGCTGTTGCATGGGTACACTCAAGTGCAAAGCATGCACTATCAAATATTTGTAAAGAACTAGATTTATCGTCTAAAACATATAGTTTATTTCATATTTTAGGTAGTAAAGCATCACGTATGACTGCACAAAAAATAGGGAGTACGCGATGTAGTTATCATAGAATTATTTTAGGTTTTATTTTAGAAGATACATATGGAAGATGGCTTACTCATGAAGAGATAGCTGATGGAGTTATAAAAGGGATTGAAAGTAAACGAGCGGAGTGGATTGTAGGGAGAGTTGAACCGTGGGAATTACGACCAACATGGTGA	MHALVIGGTGMLKRVSMWLCEQGFHVSIIGRDEVKLENVKRMSSTLENITCLSLDYHNDEDVKLAIKSTVEKNGPITLAVAWVHSSAKHALSNICKELDLSSKTYSLFHILGSKASRMTAQKIGSTRCSYHRIILGFILEDTYGRWLTHEEIADGVIKGIESKRAEWIVGRVEPWELRPTW				NA	NA	NA	NA	NA
AK009_00718	612	pspA_1	COG0406	Phosphoserine phosphatase 1	ATGAAAACAACTATATATGTAACAAGGCATGGTGAAACAGAGTGGAATGTAGTGAAGCGAATGCAAGGACGGAAAAATTCTGCTTTAACTGAAAATGGTATAGTTCAGGCGAAACAATTAGGGAATCGAATGAAAGATTTACCAATCCATGCGATCTATAGTAGTCCGAGCGAAAGAACACTTCATACGGCAGAGTTAATAAAGGGGGAACGTGATATACCCATTATAGCGGATGAGCATTTCTATGAAATCAACATGGGTATATGGGAAGGACAAACAATCGCGGATATAGAAAAGCAATTTCCAGAAGAAGTACATCTGTTTTGGAATGAGCCACATCTTTTTCAGTCAACATCAGGCGAAAATTTTGAGGCCGTTTATGAAAGAGTAATTGAAGGGATGCAGCTTCTTTTAGAGAAGCATAAGGGACAAAGCATATTGATTGTTTCTCATGCGGCAGCAGCAAAATTACTTGTAGGGCATTTCGCGGGAATTGAAATAGAAAATGTGTGGGATGATCCATTTATGCATAGTGCTAGTTTGAGCATAATAGAATTTGAAGAGGGTATTGGTAAAGTGAAACAATTTGCAGATATAAGTCACTTTCAATAA	MKTTIYVTRHGETEWNVVKRMQGRKNSALTENGIVQAKQLGNRMKDLPIHAIYSSPSERTLHTAELIKGERDIPIIADEHFYEINMGIWEGQTIADIEKQFPEEVHLFWNEPHLFQSTSGENFEAVYERVIEGMQLLLEKHKGQSILIVSHAAAAKLLVGHFAGIEIENVWDDPFMHSASLSIIEFEEGIGKVKQFADISHFQ				NA	NA	NA	NA	NA
AK009_00719	561			hypothetical protein	ATGAAACGTGATATTAGAAAAGCTGTTGAAGAAATCAAAAGTGCTGGGATGGAGGATTTCTTACACCAAGATCCAAGCACATTCGAATGTGATGACGATTGCTCTTCAAAAATTGAGTGTAGCGACGATTGTAAATGCCCAAGAACAAGATGTACTCGTGTGAAACATTGTACATTTGTTACAAAATGTACTCACGTTAAAAAGTGGACATTTGTTACGAAATGTACTCGTGTACGCGTTCAAAAATGGACGTTCGTTACGAAAGTAACACGTAGAAAAGAATGCGTTTTAGTTACAAAACGTACGCGTAGAAAACATTGTACTTTCGTTACAAAATGTGTACGTTTTGAAAAGAAATTTTACTGGACTAAACGATGTTACTGTAAAAAATGCGAATTCTTCCCTCACGGACACGGCGGCTCTTGCGATGATTCATGTGATCATGGTAAAGACTGTCACGATGATGGGCACAAATGGAATGATTGCAAAGGCGGACATAAATTCCCATCTTGCAAAAATAAGAAATTTGATCACTTCTGGTATAAAAAACGTAACTGCTAG	MKRDIRKAVEEIKSAGMEDFLHQDPSTFECDDDCSSKIECSDDCKCPRTRCTRVKHCTFVTKCTHVKKWTFVTKCTRVRVQKWTFVTKVTRRKECVLVTKRTRRKHCTFVTKCVRFEKKFYWTKRCYCKKCEFFPHGHGGSCDDSCDHGKDCHDDGHKWNDCKGGHKFPSCKNKKFDHFWYKKRNC				NA	NA	NA	NA	NA
AK009_00720	1077	cotH	COG5337	Inner spore coat protein H	ATGTTACCTTCATATGATTTTTTTGTTCATCCAATGTACTTAGTGGAATTGAAAAAAGACATTTGGTCAGATAGTCCAGTGCCAGCAAAATTAACTTATGGAAAAAAGAAATATGACATTGATATCGTATACCGAGGAGCTCATATTCGTGAGTTTGAGAAAAAATCTTATCATGTTATGTTTTATAAACCAAAAAAATTTCAAGGTGCGAAAGAGTTTCATTTGAATTCTGAGTTTATGGATCCGTCTCTCATACGAAATAAACTATCGCTAGACTTTTTTCATAACATTGGTGTACTTTCGCCAAAATCACAACATGTATTTATAAAAATTAATGGTCAAATTCAAGGTGTGTATTTACAGTTAGAATCGGTTGATGAAAACTTTTTGAAAAATAGAGGATTACCGAGTGGTTCTATTTATTATGCGATAGATGATGATGCGAATTTTTCATTAATGAGTGAACGAGATAAAGATGTTAAGACGGAGCTCTTTGCGGGTTATGAATTTAAATATTCGAATGAAAATAGTGAAGAACAACTGAGTGAATTTGTATTTCAAGCGAATACTTTGACGAGGGAAGCCTATGAAAAAGAGATTGGGAAGTTTCTACATGTAGATAAATATTTACGATGGTTAGCAGGAGTTATTTTTACGCAAAACTTTGATGGTTTTGTCCATAACTATGCACTATATCATAACGATGAAACAAATTTATTTGAAGTTATACCGTGGGATTATGATGCGACTTGGGGGCGAGATGTACAAGGGAGACCGCTTAATCATGAATATATCCGCATTCAAGGGTATAACACGCTAAGTGCAAGATTGTTAGACATACCTGTGTTTAGAAAGCAGTATCGAAGTATTTTAGAAGAAATATTAGAAGACCAATTTACAGTTTCGTTTATGAGGCCGAAAGTAGAAGGATTGTGTGAATTGATTCGTCCATATTTACTACAAGATCCATATATGAAAGAAAAATTAGAAACATTTGATCAAGAGGCTGATATGATTTATGAATATATAAATAAAAGAAGAAAATATATACAAGACCACTTATATGAATTGGATTAA	MLPSYDFFVHPMYLVELKKDIWSDSPVPAKLTYGKKKYDIDIVYRGAHIREFEKKSYHVMFYKPKKFQGAKEFHLNSEFMDPSLIRNKLSLDFFHNIGVLSPKSQHVFIKINGQIQGVYLQLESVDENFLKNRGLPSGSIYYAIDDDANFSLMSERDKDVKTELFAGYEFKYSNENSEEQLSEFVFQANTLTREAYEKEIGKFLHVDKYLRWLAGVIFTQNFDGFVHNYALYHNDETNLFEVIPWDYDATWGRDVQGRPLNHEYIRIQGYNTLSARLLDIPVFRKQYRSILEEILEDQFTVSFMRPKVEGLCELIRPYLLQDPYMKEKLETFDQEADMIYEYINKRRKYIQDHLYELD	PGPT0025165_306	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025165-cotH-K06330	NA	NA
AK009_00721	618			hypothetical protein	ATGACGATTAAATGGATTGATTGGGTAAAACAAATACAATCTATAACCCAAGCAGGTTTAACGTATTCTAAGGATGTGTACGATATAGAACGCTTCCAACAATTACGAGACATTTCGATTTCGATGATGTCACATTACACAAAAACTGATTGGGAAGTTGTAGAGAAATTATTTGCAAGTGAGACAGGCTATCAAACACCTAAAGTTGATATAAGAGCAGTTGTTTTTCAAAATGAAAAGTTATTATTTGTGAAAGAAAAAAGCGATGGGAAATGGGCATTGCCAGGTGGATGGGCTGATGTCGGTTATACGCCAACCGAAGTTGCAGCAAAAGAGGTTGTCGAAGAGACGGGTTATGAGGTAGATCATTTTAAGTTACTAGCTATATTTGATAAAGAAAAACATCAACCATCTCCATCGGCGACGCATGTATATAAGATTTTCATTGGATGCGAGATTATTGGTGGAGAAAAGAAAACTAGCATTGAAACAGAAGAGGTGGAGTTTTTTGGTGAAAATGAATTGCCTAATTTATCAATTGCTAGAAATACAGAAGACCAAATTAAAGAGATGTTTGCCTACATGAAAGACCCGCAGAAAGAGAAATTAATAGATTAA	MTIKWIDWVKQIQSITQAGLTYSKDVYDIERFQQLRDISISMMSHYTKTDWEVVEKLFASETGYQTPKVDIRAVVFQNEKLLFVKEKSDGKWALPGGWADVGYTPTEVAAKEVVEETGYEVDHFKLLAIFDKEKHQPSPSATHVYKIFIGCEIIGGEKKTSIETEEVEFFGENELPNLSIARNTEDQIKEMFAYMKDPQKEKLID				NA	NA	NA	NA	NA
AK009_00722	603			hypothetical protein	ATGTTAGCAAACATAATAGATCAGTTATTGCAATTTTTTGCAAGCTTAGGTTACTTTGGAGTAGCTCTTGCTTTAATGATTGAAGTAATCCCAAGTGAAATTGTACTTTCGTATGCTGGCTTTTTAGTAGCGGATGGTAAAATTAGTTTTGTGGGTGCAGTTATCGCCGGAACGATTGGTGGTACTTTAGCCCAAATCTTTTTATACTGGCTTGGATACTACGGAGGGCGTCCGGTTGTAGAGAAATATGGGAAATATCTGCTTATTAATAAACACCATTTAGACATAGCGGAAGGTTGGTTTAAGCGTTATGGAGCTGGCGTAATATTTTCTGCGCGCTTTATCCCAGTAGTACGTCATGCAATCTCTATTCCAGCAGGACTAGCTAAGATGCCATTAAAACTATTTACGCTTTATACGGTTGTAGCGATCATTCCATGGTCAATTCTATTTATATACTTAGGTGAAAAACTTGGTGGGAATTGGCGACAAATTAAAGAGTATGCATCTGATTACACACATTACATAATTATAGGAGCTGTTCTTTTTATTGCTCTATACTTCGGTTTAAAATATTTGAAAAAGAAAAAAACAACACGCTAA	MLANIIDQLLQFFASLGYFGVALALMIEVIPSEIVLSYAGFLVADGKISFVGAVIAGTIGGTLAQIFLYWLGYYGGRPVVEKYGKYLLINKHHLDIAEGWFKRYGAGVIFSARFIPVVRHAISIPAGLAKMPLKLFTLYTVVAIIPWSILFIYLGEKLGGNWRQIKEYASDYTHYIIIGAVLFIALYFGLKYLKKKKTTR				NA	NA	NA	NA	NA
AK009_00723	1380	murJ_1	COG2244	Lipid II flippase MurJ	ATGAAAGGGTCACCGTTTATACGTGGAACGATATTTTTAACGATGGCAACGATGATATCAAAAATGTTAGGGTTTATATATGTTATACCATTTACAGCAATGGTCGGTACGAGTGGGTACGTTTTATATACGTATGCATATCGCCCCTATACAATTATGCTCAGCATTGCGACAATGGGATTACCACTTGCAGTTTCAAAAATGGTATCAAAATATGATCAACTGAATGATTATCATACGGTTAAGAGAGTGTTGAAAAGTGGAATCGTGTTTATGTTTATAATGGGAGTCATTTCGTGTTTTACGTTATATATGCTAGCTCCGCATTTAGCTAAGCTTGTCATCGATGGAAATGATCAAACGGGGAATAGTGTAGGAGCGGTTACTACTAATATTCGAATTGTAAGTTTTGCGTTAATACTTGTGCCAGTAATGAGTTTATTAAGGGGCTTCTTTCAAGGATTCCAATCGATGGGGCCTTCTGCATTAAGTGTAGTTGTAGAGCAATTTTTTCGGGTTTTAACCATTTTAATAGGAAGCTTTGTCGTTTTATATGTTTTAAAAGCGTCTGTTTCATTAGCGGTTGGTATTTCAACGTTCGGTGCATTTATGGGAGCTGTAGGTGGATTAACTGTTTTAAGTGCATATTATATAAGAAGGAGAAGGCACTTAAAGAAAAAAGAGATGGCAAGTATACCACAAACAACAAAATCCTTTTTCTCATTGTATAAGGAGCTCTTTACATATTCTATTCCTTTTGTTGTGGTGGGCTTAGCAATTCCGTTGTATCAGACTATTGATACATTTACAATTAATAAACTACTTATACAAATAGGGTATATGCAAGGAGAAGCGGAAAAAATTAATGCGATAATTGGTCTTGTTCAAATGGTTGTGCTCATCCCGGTATCCGTTGCGACAGCTTTTAGTATGTCTCTCGTACCAGAGATGACGAAAGCTTACACAGCAGGAAATACGAAGCTATTGTACAAACATTTTACGAGAACAAATGTATTAGTAGTAGCGATTACGGTGCCGGCTGCAATTGGAATGATTGTGTTAGCCAAGCCTGTATATACTCTTTTATTCGGTGCTGGAAATGATCCAGAGATGGGGAGAATCATTTTACAGTATTATGCTCCTGCTTGCATACTATTTTCTCTTTTTACAGTAACGGCTGCTATGCTACAAGGAATCAATCAACAGCAGAAGACGGTGCTAGGACTAGTGATTGGAATTATTGTGAAAATAGTTTTAAATATTGTATTGCTTCCGTATTTCGATTATGTAAGTTTTATTATTTCAACATACGCGGGCTATACGATTTCAGTTGGGTTTAACTTGTGGATGCTTTCTAAATATGTTATAAAGGCAACATAA	MKGSPFIRGTIFLTMATMISKMLGFIYVIPFTAMVGTSGYVLYTYAYRPYTIMLSIATMGLPLAVSKMVSKYDQLNDYHTVKRVLKSGIVFMFIMGVISCFTLYMLAPHLAKLVIDGNDQTGNSVGAVTTNIRIVSFALILVPVMSLLRGFFQGFQSMGPSALSVVVEQFFRVLTILIGSFVVLYVLKASVSLAVGISTFGAFMGAVGGLTVLSAYYIRRRRHLKKKEMASIPQTTKSFFSLYKELFTYSIPFVVVGLAIPLYQTIDTFTINKLLIQIGYMQGEAEKINAIIGLVQMVVLIPVSVATAFSMSLVPEMTKAYTAGNTKLLYKHFTRTNVLVVAITVPAAIGMIVLAKPVYTLLFGAGNDPEMGRIILQYYAPACILFSLFTVTAAMLQGINQQQKTVLGLVIGIIVKIVLNIVLLPYFDYVSFIISTYAGYTISVGFNLWMLSKYVIKAT	PGPT0017190_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328	NA	NA
AK009_00724	942			hypothetical protein	ATGTTAAATATATATTTAACAGACCGAAACGGAAAACTACAAGAGATTGAGGAAATGCAAAAGGGGTGCTGGATTAATGTACTTCATCCAACAGAAGAAGAAATTCAATATCTAGTACAAACTTTAAATGTAGACTTAGATTTCATTAAAGACCCTTTGGATGATGAAGAACGCTCTCGTATTGAAAAGGAAGACAATAATACTTTAATTATCGTGGATATTCCGACAGTTAGACATGACGAAGAAGGAAATTCGATTTATGACACGATTCCAATAGGTATGATTGTGATGCCAGATTGCTTTGTGACAATTTGTTTAGAAGAAAACCCAATTTTTGAACGTTTTATTAATCAACGTATTAAAGAATTTTATACGTTTAAGAAGACGCGCTTTGCACTTCAGCTCTTATATACGATTTCTACTTATTATTTAAGATACTTAAAGCAAATAAATCGAAAAACAATTGATTTAGAGCATCAATTAAATCAGTCAATGAAAAATAAAGAGATTTTCACATTATTAGGCCTTGAGAAAAGTTTAGTATACTTTACAACGTCATTAAAGGCTAATAAAATTGTGATTCAAAAGTTAATGCGTAATAGTACATTTTTAAAAATGTATGAAGACGATCAAGATTTATTAGAAGATGTATTAATTGAAAATAAACAGGCTATTGAAATGGCGGAAATATATAGTCACATTTTAAGTGGAATGATGAATACTTTTAGCTCCGTTATATCAAATAATTTAAATAGTGTTATGAAACTGTTAACGTCAATTACGATCATTTTATCTTTACCGACGATGGTTTCTAGTTTCTTTGGAATGAACGTAAAGGTTCCGTTTGAAGGGGAAGCCCACGGTTTTGTAATTGTACTCATCATATGTGTAACACTATCTTTCACGTTAGCTTTTGTTTTTTGGAAGAAACGTTACTTTTAA	MLNIYLTDRNGKLQEIEEMQKGCWINVLHPTEEEIQYLVQTLNVDLDFIKDPLDDEERSRIEKEDNNTLIIVDIPTVRHDEEGNSIYDTIPIGMIVMPDCFVTICLEENPIFERFINQRIKEFYTFKKTRFALQLLYTISTYYLRYLKQINRKTIDLEHQLNQSMKNKEIFTLLGLEKSLVYFTTSLKANKIVIQKLMRNSTFLKMYEDDQDLLEDVLIENKQAIEMAEIYSHILSGMMNTFSSVISNNLNSVMKLLTSITIILSLPTMVSSFFGMNVKVPFEGEAHGFVIVLIICVTLSFTLAFVFWKKRYF	PGPT0014010_4608	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK009_00725	897		COG0701	Putative two-component membrane permease complex subunit SMU_747c	ATGGAATTGTTTCAATTACCGAAAGCATTCCTGCAAATGAATACAATTTTTATCTCCATATTGATCGAAGCACTTCCTTTCGTGCTCATTGGTGTATTTATTTCAGGATTCATTCAAATGTTCGTGACAGAAGATATGGTAGCAAAATGGATGCCGAAAAACCGATTTCTGTCTGTTTTAGTAGCTACTTTTTTAGGGATGTTGTTTCCAGGTTGTGAATGTGGAATTGTTCCGATTGTAAGACGATTAATCGGAAAAGGGGTTCCGCCATATGCGGGGATTGCATTTATGTTAACTGGGCCAATTATTAATCCAGTTGTTTTATTTGCAACATACGTTGCCTTTGGAAGTAGTATGCACATGGTATGGTATCGTTCTATTGTAGCGATTATCGTAGCAATTATCGTTGGAATTATATTATCATTTATGTTTAGAGAACATCAATTAAGAGATGATCACTTCCCAGAAGTGAATCATAAGCGTCCATTACGTAAAAAAATGTGGGATGTATGTACGCATGCTGTTGAGGAATTTTTCTCGATGGGAAAATATTTAGTATTAGGTGCGTTAATTGCAGCTGCAGTTCAAACGTTCGTACAAACTTCAACACTTCTTGCTATAGGACAAGGGCCGTTCTCTTCACCAGCTGTTATGATGGGACTTGCTTACATATTATCACTTTGTTCAGAAGCGGATGCGTTTATTGCTTCATCATTCCAAAGTACATTTTCAACAGCATCACTTGTCGCGTTCCTTGTTTACGGACCGATGGTGGATATTAAAAATATGTTTATGATGCTTGCGACATTTAAAACGAAATTTGTAATTGTCGTTACAGTTACAGTTACACTTGTTGTTTATGCAAGCTCACTACTCATTTATGCGATGGGGTGGTAG	MELFQLPKAFLQMNTIFISILIEALPFVLIGVFISGFIQMFVTEDMVAKWMPKNRFLSVLVATFLGMLFPGCECGIVPIVRRLIGKGVPPYAGIAFMLTGPIINPVVLFATYVAFGSSMHMVWYRSIVAIIVAIIVGIILSFMFREHQLRDDHFPEVNHKRPLRKKMWDVCTHAVEEFFSMGKYLVLGALIAAAVQTFVQTSTLLAIGQGPFSSPAVMMGLAYILSLCSEADAFIASSFQSTFSTASLVAFLVYGPMVDIKNMFMMLATFKTKFVIVVTVTVTLVVYASSLLIYAMGW				NA	NA	NA	NA	NA
AK009_00726	870		COG3689	Putative two-component membrane permease complex subunit SMU_746c	ATGTTTCGAGCGTATATATTATTAGGTTTTACAATATTAATTGCGCAGCTTCATATTTCGGGTAACATTACGAAGTATATCAATATGAAGTATGCTTATTTATCAACAACAGCAGCAATTATTTTAGGTTTCTTAACGATTGTACAAATTATCGTCGTTTTCCAAAAAGAGCACCAAAAGGAAAAAGAGAAAAATGATTGCAGTTGTGACCATAGCCATTGCGGGCATGATCATTCAAAAGATGAGAATACATGGTGGAAAAAAGCATTTTCGTACTCATTGTTTTGTTTTCCGATTATCTCAGGCTTATTTTTCCCGATTGCAACGTTAGATTCAGATATTGTTAAGGCGAAAGGATTTCATTTTCCTGTTGCACAAGCAGAAAGTAAGGATCCATTTATGACAAGACAATTTCTAAGACCTGATACGAGCATTTATTACGGGAAAGAAGGATACCGCGGTGTAATGGAAAAAGGGAAGAAAGAGTTTGTTACGAAAGACAATATTAATTTGAAAGATGAAGACTTCCTAAAGGGTATGGAAACAATTTACAATTATCCTGGCGAGTTTACTGGGAAAAAATTATCTTTTAAAGGGTTTGTTTTTAGAGATGATTCTTCTAAAAAAGAACAATACTTCTTATTCCGTTTCGGTATTATACATTGTGTAGCAGATTCTGGTGTGTATGGTATGTTAGTGAAAAAACCAGAAGGTGTAGAATGGAAAAATGATGATTGGATTCAAATAGAGGGAGAAATTTCTACTGAATTTTATCAGCCGTTTCATGCGAATATTCCTGTATTAGAAGTAACGAAATGGAATAAAGTTGAACAGCCGAAAGAACAATATGTATTTAGAGGGGCCGATTGA	MFRAYILLGFTILIAQLHISGNITKYINMKYAYLSTTAAIILGFLTIVQIIVVFQKEHQKEKEKNDCSCDHSHCGHDHSKDENTWWKKAFSYSLFCFPIISGLFFPIATLDSDIVKAKGFHFPVAQAESKDPFMTRQFLRPDTSIYYGKEGYRGVMEKGKKEFVTKDNINLKDEDFLKGMETIYNYPGEFTGKKLSFKGFVFRDDSSKKEQYFLFRFGIIHCVADSGVYGMLVKKPEGVEWKNDDWIQIEGEISTEFYQPFHANIPVLEVTKWNKVEQPKEQYVFRGAD				NA	NA	NA	NA	NA
AK009_00727	507			hypothetical protein	ATGACAGAAGTAAAGGGGAAAACAGCCAATGAGTCAAGGGTGTTCAAAACGAGCCGAGTATTCCCAACAGATTTAAATGATCATAACACGCTATTTGGTGGGAAGATATTAGCGGAGATGGATATGGTTGCTTCTATTTCAGCATCCAGACATTCGAGAAAGGAATGTGTCACAGCATCTATGGACTGGGTCGATTTCTTACATCCTGTTCGTTCTTCAGATTGTGTTAGTTATGAATCTTTCGTAATTTGGACGGGAAGAACTTCAATGGAAGTGTTTGTGAAGGTAGTGGCTGAAGATTTAATCTCAGGTGAGAAGCGTATAGCGGCAACGTCATTCGTTACTTTTGTGGCACTTAGTAAGGAAAATAATCCAGTTCCTGTACCGCGTGTTATCCCTGAAACAGAAGAAGAGAAAGAATTACATCGTATTGCTGTGTTACGTGCAGAACAGCGTCATATACGTAAGGCAGAGAGTAAGAAAGTAGCCACATTGTTAACCTTTTGA	MTEVKGKTANESRVFKTSRVFPTDLNDHNTLFGGKILAEMDMVASISASRHSRKECVTASMDWVDFLHPVRSSDCVSYESFVIWTGRTSMEVFVKVVAEDLISGEKRIAATSFVTFVALSKENNPVPVPRVIPETEEEKELHRIAVLRAEQRHIRKAESKKVATLLTF				NA	NA	NA	NA	NA
AK009_00728	1185	clsB_2	COG1502	Minor cardiolipin synthase ClsB	ATGAAGCACTTTTTCGCTATAATTCTTTGTTTAATAGGTGTATTCATTTGGATGAACATCGATGTGGAAATGGGGAAGGAAATGGCTAGTGAATATGAATTAGGACAAGTTCGATTAGGTGAATTTCAACTATATACGAACGGTGAAGAGTTATATAGAAAATTATTTGACGATATAAACGATGCAGAAAAGTATATATATATCCATTTTTATATTGTAGGAAAAGATGAAATAAGCCAAGAGTTTTTACAGTTATTAGAGAAAAAAGCATCTAGCGGAGTAGAAGTGAAATTGTCAGTCGATCGGATAGGCGGATATAAGTTGAAGAAAAAGGTAATTAGCCGATTAAAGGAAAACGGTGTGAAGTTTACATTTAGTAAAAAACTGAAACTGAAAAATGTGTTCTATTCTTTGCATCAACGGAATCATAGACGCATTGTTACCATAGATGGAAAGATATCATACGTCGGTGGCTTTAATATCGGAAAGGAGTACCTTGGACAAGATCCGAAGTTTGGGCCATGGCGTGATTATCACGTGCGCATCCATGGTGATGGTGCAGCGGATATGGAAAGAAAGTTCGCCGAAGATTGGAAAGAAGATACAGGAGAAAAAATGCCTATACATGAAAGTATACCTACATTAGGGAATGTGAAATATCAATATTTATTTTCAAATGGAAAAGGCTTATGGGAAAAGTATGGGACACTTTTAAAAAAGGCTAAAAAGTCTTTAATTATCGCTACACCATATTTTGTACCAAGTAAAGAAATGGTGAAAGAGTTAAAAGCTGCATTAAATCGTGGTGTTAATGTAAAAATTCTCGTGCCATTTAAAAGTGATGCCATATTGTTAAAACAAGCTGCCTATCCATATTTGAAAGATATGTTACATGCTGGAGCGGAGATTTATCAATATCGAAATGGATTCTTTCATGGGAAAGTAACAATCATTGATGGAGAAATTGTTGATATTGGGACAGCGAATTTTGATAATAGAAGTTTTTATTTAAATTGCGAGTCTAACTGTATCATATATGATAAAACAGTTGTTGATGAAGTATGGAGTCGATTACAGGTAGACTTTCATAAATCAAAACGATTTTCTGAAGAAGATTTTGAGAAAATTAGTGGATGGGATTGGTTTTTAGCAAGAATAGCGAATGTTTTAGCATCATATTTATAG	MKHFFAIILCLIGVFIWMNIDVEMGKEMASEYELGQVRLGEFQLYTNGEELYRKLFDDINDAEKYIYIHFYIVGKDEISQEFLQLLEKKASSGVEVKLSVDRIGGYKLKKKVISRLKENGVKFTFSKKLKLKNVFYSLHQRNHRRIVTIDGKISYVGGFNIGKEYLGQDPKFGPWRDYHVRIHGDGAADMERKFAEDWKEDTGEKMPIHESIPTLGNVKYQYLFSNGKGLWEKYGTLLKKAKKSLIIATPYFVPSKEMVKELKAALNRGVNVKILVPFKSDAILLKQAAYPYLKDMLHAGAEIYQYRNGFFHGKVTIIDGEIVDIGTANFDNRSFYLNCESNCIIYDKTVVDEVWSRLQVDFHKSKRFSEEDFEKISGWDWFLARIANVLASYL	PGPT0007725_4947	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
AK009_00729	459			hypothetical protein	ATGGACTGTATGAAAGAATTAATGAGATATAGTTATATACTAATATACAAGGTTGGAGAGTATGCTGGAAAGGTCAGAGACGAAGAATTAAAAAATCTATTACAGCACCATTTACCATATATGTTACAAGCATATAATGAACAAGTAAATTTTCAAGAAGGAGAGAATGTGCAGCATATAACCTGTGAAACAACGGAGTTTGGTTTGCATGAAATGGAAAAGGAAACAGTTAGTAAATATACAGGGGATATTCATATTGCAACCTGTTATATTGCGCACTTGAAACGATTAGCTTTAAAGTTTGCTCAAGTTGCAGTGGAAGTTGCTAATCCGGAGTTTCGCTCATTTTTGGAAAATTGTTTCTTGAAAATGAACCGTTACGCTTATAGTGTGTGGCAATATGTTATGAAGAAGGAATATAAGATTACACATCTATATGAAAATGAAAAGTTTGCATGA	MDCMKELMRYSYILIYKVGEYAGKVRDEELKNLLQHHLPYMLQAYNEQVNFQEGENVQHITCETTEFGLHEMEKETVSKYTGDIHIATCYIAHLKRLALKFAQVAVEVANPEFRSFLENCFLKMNRYAYSVWQYVMKKEYKITHLYENEKFA				NA	NA	NA	NA	NA
AK009_00730	180			hypothetical protein	ATGAATAAATGGGTTAAATCATTAACTGCTATGGCACTTGCAAGTTCTTTATTAATGGTAGGTTGTAGTAAAGGTGAGGACAAGAAGAAAGAAGACGAAACAACAACACAACAAGAGGACAAAAAGGATAAAGAAACAAGCGGAACTGAGAAGTCTACGGATTCTAAAGAAAAGAAATAA	MNKWVKSLTAMALASSLLMVGCSKGEDKKKEDETTTQQEDKKDKETSGTEKSTDSKEKK				NA	NA	NA	NA	NA
AK009_00731	624			hypothetical protein	ATGAAAGTATGTATATTGGGAGCAACAGGACGAGTAGGTTCAAATATAATTAATTTAGCATTAAAGGATTCAGCTGAAGTGACTGCATTAGCGCGTGATTTAAATAGAATAGAAATACAACATGAAAGGTTACGAGTTATAGAAGGTAATGTATTGAACGAAGAGGATATAAAGAAAGCGATAGAAGGAAGTGATATAGTAATTAGTGCACTTGGAACGGATCAAAATAGAACATTAGCGAAGAGTATGCCACAAATTATAAAGCAAATGGAAGAAGCAGGGGTTCATAAAATTATTACAGTAGGAACAGCCGGTATTTTACAAGCAAGAACAAATCCAAATTTATATCGTTTCCAATCAACGGAATCCAAAAGGAAAACGACAACAGCAGCAGAAGATCATTTGGCTGCATATAAGGTACTAAGTAATAGTAATAATTTATGTTGGACAGTTGTTTGTCCGACACATTTAATAGACGGTGAGGCGACAGAGGTATATCGAACTGAAAAAGATATATTGCCAGAAGGTGGATCAAAAATTACAGTGGGTGATACGGCACACTTTGCATGGGATCTATGTAAGAAAAACATATATGAAAATAGCCGAGTAGGTATTGCATATTAA	MKVCILGATGRVGSNIINLALKDSAEVTALARDLNRIEIQHERLRVIEGNVLNEEDIKKAIEGSDIVISALGTDQNRTLAKSMPQIIKQMEEAGVHKIITVGTAGILQARTNPNLYRFQSTESKRKTTTAAEDHLAAYKVLSNSNNLCWTVVCPTHLIDGEATEVYRTEKDILPEGGSKITVGDTAHFAWDLCKKNIYENSRVGIAY	PGPT0020900_1499	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
AK009_00732	483			hypothetical protein	GTGACTGTTTTATTAACAATTTGTATCATTGCCTGTTTCATTGTTTCATTTCTCGCCTTTATTTATCCCATTATCCCTGGCATACTAGCTGTCTGGGCTGGATATTTGATTTACCATTTCGGTATAAATGGAGGAGAATTAACAACTTCTTTTTGGATTATTCAAGTCATTTTCACTCTTTTCATTTTCGTTGCTGATTTTATTGCAAATGGATATTTCTTAAAAAAATACGGTAGTTCTAAATGGGGCGAACGTGTCGGAATGATTTCTATCATTGTTGGATCGTTTTTCTTCCCACCATTCGGACTTATTATCATACCGTTCTTATCAGTATTTATAACAGAACTAGTGCATAAAAAAGCGCCAAAAGATGCCTTTCTAGTTGGAGTCGCTACTGTAGTTGGTTTTTTAAGCAGTACAGTAGCGAAAGCAATTCTCCAAATCATTATGATTATCATCTTCGTATGTTATATCATCTTTTAA	MTVLLTICIIACFIVSFLAFIYPIIPGILAVWAGYLIYHFGINGGELTTSFWIIQVIFTLFIFVADFIANGYFLKKYGSSKWGERVGMISIIVGSFFFPPFGLIIIPFLSVFITELVHKKAPKDAFLVGVATVVGFLSSTVAKAILQIIMIIIFVCYIIF				NA	NA	NA	NA	NA
AK009_00733	1308			hypothetical protein	TTGGACATATTAAATATTTTTCTCATATTTGTACTTATTCTTATTTCTGGCTTTTTCGTCGCATCAGAATTCGCTGTTGTAAAAGTACGTAAAAGTCGAATTGACCAACTTGCAAATGAAGGTAATAAACAAGCTTTAGCTGCAAGAAGTGTCCTATCTAATTTAGATGTTTATTTATCAGCTTGTCAACTCGGCATTACGATCACTTCTTTAGGGCTTGGTTGGCTTGGTGAACCGACTGTGGAGCATATACTACGACCGCTCTTTGAAAAAATTAATATTACTGGAACAATGGCTAACACTTTATCTTTTGTTATTGCTTTTAGTGTTATTACATTTTTCCACGTTGTATTAGGTGAGTTAGTTCCAAAGTCTTTCGCAATTCAAAAAGCAGAAGCAATCACACTCAAATTTGCAAGACCACTTATTTTATTTGATAAAATTATGTATCCATTCATTTGGCTACTAAATAGTGCAGCTATATTTTTCACAAAACTACTCGGATTAGAACCTGCGAAAGAAAATGAACTTGCTCATTCTGAAGAGGAATTGCGACTCATTTTAGGTGAAAGTTTTAAAAGCGGTGAAATAAACCAAACCGAATATAAATATGTAAATAACATTTTTGAATTTGATGATCGAGTTGCGAAAGAAATTATGGTTCCTCGTACCGAAATGATTTGCTTATCTACTGAAAATACGTTAGAAGAAAATATGGATATCGTCGCTACTGAGAAATATACACGCTATCCAATCATTGAAAAAGATAAAGATGATATCATTGGGATGATCAATACGAAAGAAGTATTCCATGATCAAACGAAAGGTATTTATAAACCACTTGAATCTTATATACATCCTGTTCTAACTGTATTTGAAACAGTTCCAATTCGTAAAACGTTAGTCCACCTTCAAAAAAATCGCGTTCAGATGGCAATCGTTATGGATGAATATGGTGGCACTGCCGGACTTTTAACGATGGAAGATATTCTTGAAGAAATCATTGGAGAAATTCAAGATGAATTCGATGCGGATGAACCACCTATGATTGAAAAACGTACACCTAAGCTTACTGTTGTAGATGGAAAGGTACTTATTTCTGAAGTAAATGATATGTTTGGCCTACATATTGATGATAGTGATTTAGATACAATCGGAGGGTGGATTCTCTCTCAAGCAGTTGACTTAAATATTGAAGCTGGCTATTCCATTGAATATGCTGGTTTTCAATTTAAAGTATTAGAACTTGATGGACATCAAGTCAAAAAAGTTGCTGTACATAAACTAGATATTAAAAAGGAGCTATAA	MDILNIFLIFVLILISGFFVASEFAVVKVRKSRIDQLANEGNKQALAARSVLSNLDVYLSACQLGITITSLGLGWLGEPTVEHILRPLFEKINITGTMANTLSFVIAFSVITFFHVVLGELVPKSFAIQKAEAITLKFARPLILFDKIMYPFIWLLNSAAIFFTKLLGLEPAKENELAHSEEELRLILGESFKSGEINQTEYKYVNNIFEFDDRVAKEIMVPRTEMICLSTENTLEENMDIVATEKYTRYPIIEKDKDDIIGMINTKEVFHDQTKGIYKPLESYIHPVLTVFETVPIRKTLVHLQKNRVQMAIVMDEYGGTAGLLTMEDILEEIIGEIQDEFDADEPPMIEKRTPKLTVVDGKVLISEVNDMFGLHIDDSDLDTIGGWILSQAVDLNIEAGYSIEYAGFQFKVLELDGHQVKKVAVHKLDIKKEL	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
AK009_00734	870			hypothetical protein	ATGTCCTTATTACGCTCACATATATACAAATTAATAATTGGTGTTATTGTTATTTTTGCCATAAGTCCAATTCCAGCTCTTTTTATTACACACAATTACTCTTATCAAAATGGATTTATTAGCATTTTTCAAAACTTCGCACAGCTTTCTTCTATATCAATTCCAAAGGTTGATTGGATGCATGAATCTATCTTTTTCTCAGCAAATCAAATGATACATACTTCTAATCATTCAACACCATTATTCCCTTACATATGGGAAATATATTTTATATCGATTGTTCGTTTTACTTTTACCCTTGCGATCGGATTTTTCATAAGTTTGGGTATCGGCCATTTATTTTTCAAAGTACCTAACTCGTTTAAAAAGTTTACTACTGTATTGAATTGGATACCTTACTCTTTTTGCACTGTAGTATTACAATGTTCAGTCTTATTACTACTTCTATACGTCGCACAATTTATAAACCTTCCTTACTACTCATCTTTTATCATCGTATGTAGTACTTCCATGATTATCGTTATGCAAGCAATAAAAAAATGGATTCCTTTCTTGAAAAACACAAATGAATATGAAATAAAACATGATTCTTTTCTTGTGGATACATTGTTTTTGGCGCTTACTTCGAATCATAAATCAATTTTAGGTTCCATTATTCTTTCATTCGTTTTTATGGAATGCGTTTTTCATACAAGTGGACTGTTACAATTTATCGTTCAATTTGGCGGAAATTCACCCATAATTGTTACAATAGGCTTATTACTACTCTATATCCCATATAGCATACTTTCTTTTCTTCAAACACTATGGACCACAAACTACTCCAAGCAACAGTCATATACTTTAACAAGAAGTGTTCCAAAACCTTAA	MSLLRSHIYKLIIGVIVIFAISPIPALFITHNYSYQNGFISIFQNFAQLSSISIPKVDWMHESIFFSANQMIHTSNHSTPLFPYIWEIYFISIVRFTFTLAIGFFISLGIGHLFFKVPNSFKKFTTVLNWIPYSFCTVVLQCSVLLLLLYVAQFINLPYYSSFIIVCSTSMIIVMQAIKKWIPFLKNTNEYEIKHDSFLVDTLFLALTSNHKSILGSIILSFVFMECVFHTSGLLQFIVQFGGNSPIIVTIGLLLLYIPYSILSFLQTLWTTNYSKQQSYTLTRSVPKP				NA	NA	NA	NA	NA
AK009_00735	588	betI_1		HTH-type transcriptional regulator BetI	TTGGGGGGAAATGAAAACGTATCAACGAAAGAAAAGATTTTAAATACAACATTGGAATTAATTAAAAAAGAAGGTTTTGAAAGGGTAACGATAAGAAAAATTGCAGCATTGTCAGATGTAAATATCGCGCTTGTAAATTACCATTTTGGTTCAAAAGAAAAGTTGATTAGTGAGACGATTAGAGTCTTATTAATTAGCTTTCAAGGCACTTTTTCTATTTTAGATAATATTACAGTGCCAGCAAAAGAAAGATTAAAAATATTTTTATTGGATTATGTACTAGTAATTCGGCAATATCCGAAGTTAGTTAGGAAGATTATTGCAATGGGAACTACGGCATTTACATCTCAATACGAATATGGGGATTTTTTGAAGAGGCTAGGTTTTAGTAAAGTGAAGAATATTTTGAGCGAAATAACGAATGAAACGGATCAGGAAATTTTAATGATGATGACAGTACAAATATTTGGATCTATTTTTCTTCCCACATTAATGATGCCAATTCTCGAATCAGGGGCAGATATAAAAGTACCATCTGTAGAAAAACAGATTGATTTCCTATTTGAACGCTATTTTTATAAAAATTGA	MGGNENVSTKEKILNTTLELIKKEGFERVTIRKIAALSDVNIALVNYHFGSKEKLISETIRVLLISFQGTFSILDNITVPAKERLKIFLLDYVLVIRQYPKLVRKIIAMGTTAFTSQYEYGDFLKRLGFSKVKNILSEITNETDQEILMMMTVQIFGSIFLPTLMMPILESGADIKVPSVEKQIDFLFERYFYKN	PGPT0029255_971	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
AK009_00736	633			hypothetical protein	GTGATAGAGATGGCTAGTTTCTTTAGAAAGCATTGGTGTGATATAGGATTAGTGGTCGCTATTGTTGTCGTAGTTTGTTTAGTCGCGAATTTGGGAGAAATGAGTGAAATGAAAGTACTGTTATGGTTAAGTTTTGTGGCCATTTTAGTGCATCAATTTGAAGAGTATCGTTGGCCAGGTTATTTTGCTGGTCTATTTAATGTAGTTATATTTAAAAGTGATATACCAGATCGCTATCCATTAAATACGCAATCTGCTATGGTAATAAATATTTTGATTACGTATGTTTTTTATTTACTCCCGGTTTTCTTTCAAAATATAATATGGCTTGGGTTGGCACCTATTTTAATGGGATTTTTTCAATTCATATGGCATGGTATTTTTGCGAATATAAAAGCTAAAACAATATATAATCCGGGATTAGGTGCGGTTGTATTACTACATGTTCCAATTGGTTATGTATATATGAGATATATTCTTTTACACAATCTGGCTACAAATTTGGATTGGTTATTTGGGGTGATCTACTTTCTAATAGCTACCTATTTTTTAATTATAAAAGGAAATATATTAATGAAAAGTAAGGAGACAAATCATTACTTTTCTAAAAAGCAACTAGGTCCGTACAAATGA	MIEMASFFRKHWCDIGLVVAIVVVVCLVANLGEMSEMKVLLWLSFVAILVHQFEEYRWPGYFAGLFNVVIFKSDIPDRYPLNTQSAMVINILITYVFYLLPVFFQNIIWLGLAPILMGFFQFIWHGIFANIKAKTIYNPGLGAVVLLHVPIGYVYMRYILLHNLATNLDWLFGVIYFLIATYFLIIKGNILMKSKETNHYFSKKQLGPYK				NA	NA	NA	NA	NA
AK009_00737	648			hypothetical protein	ATGAGGATTAAAGGGAATTACGTGCCGAAAAGGGAAGTTTTACTGTGCTCAAGTTCGATTACGATAGGGGAAGCGTTAGAGCATTTAAATAAAACGGGGTATCGTTGTGTACCAGTTTTAGATGAAAAAAAAGAGAAATTTTTAGGGAATATATATAAAGTAGATATTTTAGAATATAAAGGATCGCTTGATGAGAGTGTAATACAATTATTAAACGATAAAGAAGGATTTGTGAGAGAAGATTCATCTTTCTTTAAAGTATTTTTTACAATAAAAAAATTGCCATATTTATCAGTAGTTGACGAAAAAGGGATTTTCCTTGGAATTTTAACGCATAAAAAAGTTTTTGAGTTATTAGAGGATGCATGGGGCGTTCACTCTAGTAAATACTCTGTCATGATTGGAACGCAAGACTATAATGGAGCAATTCAAAAGTTATCGACAGTTTTAAAGAAATACACTGGTATTCAAAGTTTGATGACTTTTGATAATGATGCCTTATTAGTTCGGAGAATTATGTTTACATTAGGAGAAGAGTTTAACGACGGTGAATTAGAGACATTATTGAAAGATTTAGAAGATCACGGATTTAGAGTTGTGTATGTGGAAGAGATGAAAAATCCACGTGAAGTTGAAACGATAGAGTAA	MRIKGNYVPKREVLLCSSSITIGEALEHLNKTGYRCVPVLDEKKEKFLGNIYKVDILEYKGSLDESVIQLLNDKEGFVREDSSFFKVFFTIKKLPYLSVVDEKGIFLGILTHKKVFELLEDAWGVHSSKYSVMIGTQDYNGAIQKLSTVLKKYTGIQSLMTFDNDALLVRRIMFTLGEEFNDGELETLLKDLEDHGFRVVYVEEMKNPREVETIE	PGPT0013589_110	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013589-opuCA-NA	NA	NA
AK009_00738	1353	brnQ_3	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGCAAATGAAGAGCATGAAGGGACGTTTAAGGCCAGGTGATACGGTAGCAATTGGTTTAATGCTATTTGCATTATTTTTAGGAGCAGGAAATTTAATTTTTCCGCCAGTTTTAGGTCAACAAGCAGGAGAGAATGTTTGGATTGCTACAATAGGATTCCTTGTAACGGGAGTCGGATTACCCCTACTAGCTGTAACAGCTGTCGCGTTTGTAGAGGGGGACTTGAAAGCGCTGTCTTCTAGAGTCCACCCTATATTTGCGTTTATTTTCCCATTGATTAGTTATTTAGCAATTGGACCATTTTTCGCAATCCCGCGTACTGGAGCTGTTTCGTTTGAAATGGGTATGAAGCCGTTTTTATCAGAGGCAATGGTTTCAGAGTGGTACATGCTATTTCTTTTCACGATAGTTTTCTTCGGAATAACGTGGTATTTATCATTAAATCCATCTAAATTAGTGGATTGGTTCGGAAAGTTTCTTACGCCACTATTGGTATTAATTGTCGCTGTTATTGTCGGAAAGGCAATTATTGATCCAATTGGAGAGCCGGCTGCGCCGTTAGCTGCTTACAAAGAAAATGCTTTCTTTGGTGGATTTATTCAAGGATATTTAACGATGGATGCAATTAGTGCTCTCGTATTTGGAATTGTCGTTGTACAAGTTATTCGCTCTAAAGGGATAAAAGAGAGTAGTCAAATTGCAAAAATAACAGTCGTATCAGGTATTATTGCTGTACTTGGTTTAACGTTAATTTATTTATCACTTGCTTATCTTGGTTCAACAAGTACATCACTTGGTGTCTCAGAAAACGGTGGTCTTATTTTAACGAATGTTGTAAATGAGCTATATGGGACGAGTGGTAAAATTTTATTGGGGCTTGTTATTATACTCGCTTGTTTAACAACTTCTGTTGGGTTAACATCTGCGTGTGCGGGTTTCTTTACAAACTTATTCCCAAAACTTTCACATAAAACGATTGTAACAATGGTATGTGTATTTAGTTTAATTGTATCTAACCTAGGTTTAACACAATTAATCGCCGTAACATTACCTGTGTTAATGATCATTTATCCAGTTGCAATTGTATTAATCGTACTTTCGTATTTCCATAAGTGGATTGGGAAGCGTAATACAATTTATATTGGAGCTATTTTAGGTGCATTGTTAATTAGTTTCTTTAACGGTTTAGAAAGTGCGAACATTAAAATTGACGTGATTTCTAATGTACTACAAATGTTACCGTTATATAACGAAGGAATCGGATGGTTAATTCCATCATGTATTGGCGGGATTCTCGGTTTCTTCCTCTATAAATCAAATGAATCAAGTAAATTACAAAAGAAAGGTGCTTAG	MQMKSMKGRLRPGDTVAIGLMLFALFLGAGNLIFPPVLGQQAGENVWIATIGFLVTGVGLPLLAVTAVAFVEGDLKALSSRVHPIFAFIFPLISYLAIGPFFAIPRTGAVSFEMGMKPFLSEAMVSEWYMLFLFTIVFFGITWYLSLNPSKLVDWFGKFLTPLLVLIVAVIVGKAIIDPIGEPAAPLAAYKENAFFGGFIQGYLTMDAISALVFGIVVVQVIRSKGIKESSQIAKITVVSGIIAVLGLTLIYLSLAYLGSTSTSLGVSENGGLILTNVVNELYGTSGKILLGLVIILACLTTSVGLTSACAGFFTNLFPKLSHKTIVTMVCVFSLIVSNLGLTQLIAVTLPVLMIIYPVAIVLIVLSYFHKWIGKRNTIYIGAILGALLISFFNGLESANIKIDVISNVLQMLPLYNEGIGWLIPSCIGGILGFFLYKSNESSKLQKKGA	PGPT0014385_568	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
AK009_00739	330	csaA	COG0073	putative chaperone CsaA	ATGGCTAATTTTGAAGATTTTTTAAATTTGGATTTGCGAATTGGAACTGTAATACATGCAGAGGAATTTAAAGAAGCGAGAGTTCCAGCGATTAAACTAGAAATTGATTTTGGAGAAATTGGGATAAAGCAGTCAAGTGCTCAAATTACGAAAAGGTATAGCCCAGAAGGTTTAGTCGGTCAACAAATTGTTGCTGTTGTAAATTTCCCGCCAAAGCGTGTAGCTGGATTTAAATCGGAAGTGCTTGTGCTTGGCGGCGTTCCTGAAGCTGATGATGTTGTGTTGCTTCAGCCTAATATGGAATTGCCAAATGGAACAAAAATTAGCTAG	MANFEDFLNLDLRIGTVIHAEEFKEARVPAIKLEIDFGEIGIKQSSAQITKRYSPEGLVGQQIVAVVNFPPKRVAGFKSEVLVLGGVPEADDVVLLQPNMELPNGTKIS				NA	NA	NA	NA	NA
AK009_00740	567			hypothetical protein	ATGGAACAAAAATTAGCTAGGGTGAAGGCAGGGGCTAATATGGGTATCGGACGAGAATATTTACAATGTGCGATTTCGAACTTTAAAGCAACAAAGAAGCAAGGGGAACGGGCACTTTCTCAATTATCATACGAACAAATACAATGGTCTTCTCATGAAGAAACAAATAGTATAGCGATTATTATAAAGCATCTGCATGGTAATATGCGTTCTAGATGGACGGATTTTTTAACATCTGATGGTGAAAAAGTTGATCGTGACCGAGATGGTGAATTTGAAGGAGGCTATTCTTCAAAGAAGGAAGCCCTTGCAGCGTGGCAAGAAGGATGGGAATACGTTTTTAATACGATGAATACGATATTGCCGGAACATCTATTGAAGACGGTATACATTCGTGGTGAAGCTCATACGGTCCTGCAAGCAATTGAAAGGCAAATTTCTCATTATGCATTGCATATTGGACAGATTATTTACATCGGTAAAATGTTAAAAGAAAATGAGTGGCTATGTTTAAGCATTCCTAAAGGACAGTCAACTCGTTATGTAGAGAAAAAACGTTCAACATAA	MEQKLARVKAGANMGIGREYLQCAISNFKATKKQGERALSQLSYEQIQWSSHEETNSIAIIIKHLHGNMRSRWTDFLTSDGEKVDRDRDGEFEGGYSSKKEALAAWQEGWEYVFNTMNTILPEHLLKTVYIRGEAHTVLQAIERQISHYALHIGQIIYIGKMLKENEWLCLSIPKGQSTRYVEKKRST				NA	NA	NA	NA	NA
AK009_00741	297			hypothetical protein	TTGAAGCTATTAATAGGAATATTACCAATCGCTCTATCATTCATTTTTTATTTGTCCGCTAAGCATCCAAAAGTCTCTATTGTGCTACATATTTCTGCGTACTTGGCACTGTATGTACTCGGTACAATTATTTCCATTAATATATACGATGTTTTAATACAAGATTTAGTTTTCATGACAAGCATTCATGGAATTTTACTGAATCCATTTTTCCTTATTGCAGGAGCGTATATAGGAACTTACACTTTGTACCTACTTTTGTCTCACATTATTATGAAAATAAAAAATGGAGCGTAA	MKLLIGILPIALSFIFYLSAKHPKVSIVLHISAYLALYVLGTIISINIYDVLIQDLVFMTSIHGILLNPFFLIAGAYIGTYTLYLLLSHIIMKIKNGA				NA	NA	NA	NA	NA
AK009_00742	1155			hypothetical protein	ATGAATCGGGGCTTTTTTTTTATGAAGTTTACAAGCATGCGTAAGTTAGTTTTATTTGTTATTACTACAGTGCTAGCGACTTTTTTTCTTATTAGTATGATGGTAACCTCTATGAAAGAGACGAAGTCAACGTATTTATATAATTGGTTAAATGAGTTATCGATGAATGGTTACATGTATGTACTTGGAAAAGAGAATCATTATTTTACACAGGAGTATCGAAATTTGAATCAAGATTTTTCAATTTCTTCTTTTCTCTTTTCTATGGCTACAAATATTCGCTTTAATGATGTACGCAGTTTTGTCGGGAAAGAGCTCCCTGGGTTTGGTAAGTACGATACAGAAATTGTTATTGCGGGTGAGGGTACAAATTATTCTAACTTACCGATAGAGTCGAGTGTCCCTCTTGAAGAAGTAGTGAAGGAACGGACTAGTGGAACTGGACAAGCACCTAAACAAGATACGAGTAAAGAGAAAAAACAGCCGTCCCAAACGACCGGGAAAAGACAAGTTGCGTTTATTTATCATACACATAGCTGGGAATCCTATTTACCTTTACTTAACTTAACGAATGACCCGAATCCGAATAAAGCAACGAGTTCTGTATCGAATATTTCTATATTAGGAGACCGTTTCCGTGAACAACTAGAAGGTGAAGGAATTGGCGCCACTAACGATAAGAGTGATGTTGGTCAAAAGTTAATAAGTAAAGGTTTAAACAGTAATAGTTCGTATAAGATGTCACGAGAAATTGTGCAGCAAGCTATGGCTGGAAATAAAGATCTTCAATACTTTTTTGATTTGCATCGTGATAGTGCCCGAAAGAATGTAACGACAAAAACAATTGGAGATAAATCATATGCAAAGCTTGCATTTGTAGTAGGGAAAGGAAATAAAAACTATGAAAAAAACTTACAATTAGCGACAGCTTTACATGAGGCGATTAATAAGAAATATCCAGGAGTGAGTCGTGGGGTCATTCAAAAAGGGTTCCAGACAGGAAATGGAATCTATAATCAAGACCTATCAGGACAAGCGATATTAATAGAAGTTGGCGGTGTAGATAATACAGAGGAAGAATTGAATCGATCAATTGATGCACTTGCTAAAGCATTTGGTGAATATTTTTGGCAGGCAGAAAAAGTGAATGGATAA	MNRGFFFMKFTSMRKLVLFVITTVLATFFLISMMVTSMKETKSTYLYNWLNELSMNGYMYVLGKENHYFTQEYRNLNQDFSISSFLFSMATNIRFNDVRSFVGKELPGFGKYDTEIVIAGEGTNYSNLPIESSVPLEEVVKERTSGTGQAPKQDTSKEKKQPSQTTGKRQVAFIYHTHSWESYLPLLNLTNDPNPNKATSSVSNISILGDRFREQLEGEGIGATNDKSDVGQKLISKGLNSNSSYKMSREIVQQAMAGNKDLQYFFDLHRDSARKNVTTKTIGDKSYAKLAFVVGKGNKNYEKNLQLATALHEAINKKYPGVSRGVIQKGFQTGNGIYNQDLSGQAILIEVGGVDNTEEELNRSIDALAKAFGEYFWQAEKVNG	PGPT0024690_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385	NA	NA
AK009_00743	657			hypothetical protein	ATGATGAGACGTCACAGAATAGACATAATTTGTCGTTGTTATAGTAATATCGAAATTTGTCAATTTATAGTAGGAGATTTACAAAGGGATTTTCGGGAAAGTAGAGAAAATCTTTTTATAAGGAAAACTTTTTATTATGAAACTGGTAGGGTGATTGAAGTGATTAGGGAAATCAAAATAGAAGATGCAGCATCATTTTTGCAATTAAGTAAGCAATTAGATGAAGAAACGAAGTTTATGTTATATGAACCAGGAGAAAGAAAAACTACAGCTGAGCAACAAGAAAAAATGATCCATCGCTTTATAGAAAATGAATATGCAACAATATTTGTAGCAGTTGAAGATGAGAGGATAGTAGGTTTTATATTAGTGAATGGAAATAACATTCAAAGAAAGAGGCATGTAGCAACCATTGTAATTGGTATTTTGCAAGAGTATAACGGGCGAGGTATTGGGACGAGATTGTTTAAAGAGGTTGAGAAGTGGGCAAAATTACATGATGTATGGCGTTTAGAATTAACAGTAATGGCCCACAATACAAGAGCTCAGGCACTATATAAAAAAGCTGGATTTGAGAAAGAAGGTGTCAAAAAAGCTGCTCTTATTATCGATGGAAAGGGCATCGATGAGTATGAAATGGCCAAATTATTAAAATAA	MMRRHRIDIICRCYSNIEICQFIVGDLQRDFRESRENLFIRKTFYYETGRVIEVIREIKIEDAASFLQLSKQLDEETKFMLYEPGERKTTAEQQEKMIHRFIENEYATIFVAVEDERIVGFILVNGNNIQRKRHVATIVIGILQEYNGRGIGTRLFKEVEKWAKLHDVWRLELTVMAHNTRAQALYKKAGFEKEGVKKAALIIDGKGIDEYEMAKLLK				NA	NA	NA	NA	NA
AK009_00744	741	yodJ_1	COG1876	Putative carboxypeptidase YodJ	ATGAAAAAAAGATGGGCACTACTTGGTATCATAGCTGCAATAATTATTGTTGGAGTAGCAGGAATCAATTATAAAATGTATAAGGATAAGCAGGCGCGGGAAGTAAGTGTAAATAGCATATTTCCGAAAGCAAAAGAAACGATTGCTAATATGGATGGGGATATTGCGGTAATTAATAATCCGAATTCAATGCTTGTACTTGTGAATAAAAGTAGGCGTTTACCAGATGGGTATAGACCGCCAGATTTAGTTATTCCGAAAGTGCGCTACTCTAGTGAAGGTGATCAAGAAAAGAAAAAGATGAGAAAAGAGGCAGCGAGGGCGCTTGAGGATATGTTTCAGCAGGCTGACAACGAGCGTATTTTCCTGTTTGCAGTTTCTGGATTTAGATCTTTTGATCGACAAAAAGCATTAAATACGATGTATAAAAAACAAGATGGAGAAGCAAAAACAGCAATGTCTAGCGCGGTTCCTGGTACAAGTGAGCATCAAACTGGACTAGCTATGGATATTACGTCTCAATCTGCTAAATTTCAGTTAGAGACGGTTTTTGGGGAAACGAAAGAAGGTCAGTGGCTTTCTGAAAATGCCCATAAATTTGGTTTTGTGATTCGATACACAAAAGCGAAAGAGACGATTACGGGCTATCGGTATGAACCATGGCACGTAAGGTATGTGGGAAATCCACAAGCTACATATTTGTATGATAATCAACTGACGCTTGAAGAAGTAACAGAGTGA	MKKRWALLGIIAAIIIVGVAGINYKMYKDKQAREVSVNSIFPKAKETIANMDGDIAVINNPNSMLVLVNKSRRLPDGYRPPDLVIPKVRYSSEGDQEKKKMRKEAARALEDMFQQADNERIFLFAVSGFRSFDRQKALNTMYKKQDGEAKTAMSSAVPGTSEHQTGLAMDITSQSAKFQLETVFGETKEGQWLSENAHKFGFVIRYTKAKETITGYRYEPWHVRYVGNPQATYLYDNQLTLEEVTE	PGPT0024055_1256	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
AK009_00745	447			hypothetical protein	ATGACGATGTTATATAAGAAAAAAGTACATGCATATATTACAAGAGAAAAAGAGGGGGTTATGCAATTACTTGTTTTTAAACATCGTGATATACATGAAGCTGGTATTCAAGTGCCAGGGGGAACGGTTGATGAAGGTGAAACGTTAGAAGCGGCTATATTGCGTGAAGTACAGGAAGAATCCGGATTGCGTCATTTATGCATAGAGCGTTTTTTAGCAGATTACATTATACATATGAAAGAAAAACAGGAATATGAAAAACGCCACTTTTTCCATGTAACTTTACTAACAGATGTAAAGGATACTTGGGAACATATTGTAAGTGCTGGTGAGGAAGATAAAGGATTAGTATTTTGCTACGAATGGATTAATATTGCAAAATGCCCTGAATTAGCTGGGAAACAAGGTGAGTTTTTAAATTTGTTAGATGAAGTATACGCACAGTAA	MTMLYKKKVHAYITREKEGVMQLLVFKHRDIHEAGIQVPGGTVDEGETLEAAILREVQEESGLRHLCIERFLADYIIHMKEKQEYEKRHFFHVTLLTDVKDTWEHIVSAGEEDKGLVFCYEWINIAKCPELAGKQGEFLNLLDEVYAQ				NA	NA	NA	NA	NA
AK009_00746	1476	gatA_2	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGGAAATTCAGTTTAATCCAATCTTAAAAACGGAACTAACAATTCAAGATATTCAAAATGAAATGGAATCTGGAAAGTTAACTTCAAAAGAGCTAGTGATGTATTATCTCTATAGAATCGCAAAGTATGATCAAGACGGACCGAAAATCAATTCAATTTTAGAAATCAATCCAGATGCTATTTTTATTGCAGAAGCGTTAGATCATGAAAGAAAGACAAAGGGTGTAAGGGGTCCGCTACATGGTATACCTGTTTTGGTTAAGGATAATATTGAAACGAATGACTCCATGCATACAAGTGCAGGTACGATTGCTCTAGAACAAAATATAAGTAGTGAAGATGCATTTCTCGTTACTAAACTGCGAGAAGCAGGGGCCGTGATAATAGGAAAAACGAATATGACAGAATTAGCAAATGCAATGTCTTTTAAAATGTGGGCTGGATATAGTGCAAGAGGTGGTCAAACACTTAATCCATACGGAACGGGTAAGGATGGTATGTTTGTTGGGGGCTCAAGTACAGGCTCTGCGATAGCAGTTGCCGCTAACTTTACAGTAGTATCTATTGGGACAGAAACCGATGCTTCTATTTTGAGCCCCGCTGTTCAAAACTCTGTAGTTGGCATTAAACCGACTGTCGGTCTAATTAGTCGTAGAGGAATTATTCCATTCACTTATTCGCAAGATACAGCTGGACCATTTGCTAGAACAGTAACAGATGCCGCTATTTTACTAGGGAGCTTAACTGGAGTGGATGAGAAAGATGTAGCAACTCGTAAAAGTGAAGGTAGGGCATATCCGGATTATACATCTTACCTTGATGCTAATGGTTTAAATGGAGCGAAAATTGGTGTGTTTAACGACGCACCAAAAGATTATTACGAAAATGGTGAGTATGATGAAAAATTGTTTAAAGAAACGATCCAAGTATTACGTAATGAAGGAGCGGCAGTAGTAGAGAATATTGATATTCATTCTTTTCATAGAGAATGGAGTTGGGGAGTTCCGCTTTATGAACTGAAGCATAGTTTAGATAACTATCTTTCTAAATTACCTTCTACTATTCCGGTACATTCTATTTCGGAGTTAATGGAGTTTAATAAAAACATGGCAGAAAGAGCTTTAAAATATGGACAAACTAAGTTAGAGAGAAGAAAAGATTTTCCTAATACGTTACGAAATCCAGAATATTTAAATGCGAGATTAGAAGATATATATTTTTCTCAAGAACAAGGCATTGATTTTGCATTGGAAAAATATAATCTTGATGCGATACTGTTTCCTTCCTATATAGGTTCTACTATATGTGCGAAAGCGGGTTATCCGTCTATAGCAATACCAGCAGGGTATATGGAAAGCGGGAGACCTTTTGGAATTACGATTGCAAGTACTGCCTTTAGTGAAGGGATATTAATTAAGCTAGCTTACGGTTTTGAACAGGCGACAAAACATAGAAAAATCCCGAACTTGTCATGA	MEIQFNPILKTELTIQDIQNEMESGKLTSKELVMYYLYRIAKYDQDGPKINSILEINPDAIFIAEALDHERKTKGVRGPLHGIPVLVKDNIETNDSMHTSAGTIALEQNISSEDAFLVTKLREAGAVIIGKTNMTELANAMSFKMWAGYSARGGQTLNPYGTGKDGMFVGGSSTGSAIAVAANFTVVSIGTETDASILSPAVQNSVVGIKPTVGLISRRGIIPFTYSQDTAGPFARTVTDAAILLGSLTGVDEKDVATRKSEGRAYPDYTSYLDANGLNGAKIGVFNDAPKDYYENGEYDEKLFKETIQVLRNEGAAVVENIDIHSFHREWSWGVPLYELKHSLDNYLSKLPSTIPVHSISELMEFNKNMAERALKYGQTKLERRKDFPNTLRNPEYLNARLEDIYFSQEQGIDFALEKYNLDAILFPSYIGSTICAKAGYPSIAIPAGYMESGRPFGITIASTAFSEGILIKLAYGFEQATKHRKIPNLS	PGPT0006115_3354	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
AK009_00747	1200			hypothetical protein	TTGAAAAACCAGTCACTAACTTACTACTTAGGTTCCAAAATATGCATTACTCTTGCTGACATCGTATATGTAATGATTATTACAACTCATATTTATATAGCAACTAAATCAGCTACTATTACTGCTCTTTTTCCACTATTACAAGTTATCACAAATCTAATTGCTAACATCTCTGCACCTCTTATAGTAAATCGTTTTCCACCTTATACGTTGTTATATACGCTACAATGGCTAAAAACAGTCTTTTTACTATTATTAATGATTTTATTTCCGGTCTTATCCACAAATATTATAGCTCTATTAACTTTTATTTTTTTCATTTCATTATGTAGTGGATGGAGTGCTCCATTACTATACAGCATTCTTCCGCGCCTTACACCAAAAGAAAAATTAGTAAAAGTAAATAGTATCTTTTCCTTTTCAACACAAATTGCGCAAGCCGCCGCTTATTCATTTACGAGTGTTATCGTTCTTCTCATTGGCGCTACATCTACACTCATGATTAATAACATGTTGATGATTTTTGGATGCATTGCATTACACTTTTCATTACATACCATACATACTGAACGAATAGCAGACCCTCCCTCTTCAAAAAGTACTGCTTTATCGGAAGGTTGGAAACTCTTATTTCAAAATCCTTCTCTCCGTACCGTTACATATATGGACTTAATTGAAACTTTCGCAGGGACAATATGGATTGGTGCTATTACAATGGCATATGTTACGTCTATTCTTCATAAAAGCGAAGAATGGTGGGGATATATTAATACAAGTTATTATGTTGGTACGTTAATCGGTGGTCTATTAGCATGGAAAATGAGTTCCTATATTCAAAACAATTTAATACGCTCCATGTCGATTGGCTCTCTTATGTTTAGCATTCTTACATTTTTATATGGTATGACGAGCAGCGGATTTATTGCGCTTTTTCTATGTGTTCTAATGGGACCATGTTATCAAATTAGAGATATTTCTCAAACGACAGTTTTACAATCAAGTGTCGCCCCTTCTTTATTATCAAAAATGTATACAGCACATGGCGCCCTTCTTTCAACAACTTCTGGTCTTTCTATGCTTAGCGTTGGCATTATTACTGATATGTTCGGTGTCCGTACAATTTATATAATCGCTTCTATTCTTATTTTATGTTCCGCTTGTTTATCTTTCAGTTTATTAAAATATTATAAACCAGAGTAG	MKNQSLTYYLGSKICITLADIVYVMIITTHIYIATKSATITALFPLLQVITNLIANISAPLIVNRFPPYTLLYTLQWLKTVFLLLLMILFPVLSTNIIALLTFIFFISLCSGWSAPLLYSILPRLTPKEKLVKVNSIFSFSTQIAQAAAYSFTSVIVLLIGATSTLMINNMLMIFGCIALHFSLHTIHTERIADPPSSKSTALSEGWKLLFQNPSLRTVTYMDLIETFAGTIWIGAITMAYVTSILHKSEEWWGYINTSYYVGTLIGGLLAWKMSSYIQNNLIRSMSIGSLMFSILTFLYGMTSSGFIALFLCVLMGPCYQIRDISQTTVLQSSVAPSLLSKMYTAHGALLSTTSGLSMLSVGIITDMFGVRTIYIIASILILCSACLSFSLLKYYKPE				NA	NA	NA	NA	NA
AK009_00748	429			hypothetical protein	ATGGCTGCTTGGGTAATTTGGTTTATAATAGCTGGTATTTTATTTATCGCAGAAATGTTGTCGATTACATTTTACATGCTTTGGCTTGGAATTGGGGCTGTTGTCGGAGGTCTTATTGCTTTGTTTGCTCCTGATGCACTACTGTTACAAGTTACTGTTGGTGCAATTGTAAGTTTAACTTTGACATTCTTTACGAAAAGAATTTCAAAAAACTTTCGAGAAGCAAAAGGTTTTACTGATACAGTAGATATGCTTGTTGGTAAAAAAGGGATTATTATGCAAGCGATTACAAATGAAGCGAATGGTATTGTAAAGGTGGATGGAGATACTTGGACAGCTATTGCAGATTCTTCAATTGATGCTGGAGAAAAAGTCGTTGTTATAAAGAGGCATAGTACTATATTACAAGTGAAAAAGGAGAGTGAATAA	MAAWVIWFIIAGILFIAEMLSITFYMLWLGIGAVVGGLIALFAPDALLLQVTVGAIVSLTLTFFTKRISKNFREAKGFTDTVDMLVGKKGIIMQAITNEANGIVKVDGDTWTAIADSSIDAGEKVVVIKRHSTILQVKKESE	PGPT0024505_1176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024505-ybbJ-K07340	NA	NA
AK009_00749	969		COG0330	putative protein	ATGGTAGCATTAACGTTAACGATTATATTCGCACTAATTGTAGTTACATTTATCGCATTAACAATTAAAATTATTCCTCAGCAAAAAGTTGGGGTTGTTGAAAGATTTGGTAAGTTTCAACGTATCATGCACCCTGGGTTAAATATTTTAATACCAATTGTAGATCGTGTCCGTGTATATCATGACTTACGTATTCAACAAACGAATGTACCACCGCAAAAGGTAATTACGAAAGATAATGTTCAAGTAGAAATTGATACAATTATTTTCTATCAAATTGTTGAACCAGAACTTGCGACATATGGTATTTCAAACTATGAATATGGTGTTCGTAATATTACTTCAGCAACGATGCGTCAAATCATCGGTAAAATGGAACTAGATGAAACGTTATCTGGTCGTGAAAAAATTTCAACAGAAATCCGCTTAGCGCTTGATGAAGCAACAGAAAAATGGGGCGTACGTATTGAACGTGTCGAAGTTGTTGATATTAACCCGCCAAAAGATGTGCAAGCATCAATGGAAAAACAAATGAAGGCTGAGCGTAATAAACGTGCGATTATTTTAGAAGCTGAAGCAGCAAAACAAGATAAAGTTCTTCGCGCTGAAGGGGAAAAGCAAAGTAAAATCTTGATGGCTGAAGGGGATAAAGAAGCGCGTATTCGCGAAGCTGAAGGTTTAAAAGAAGCGAAAGAATTAGAAGCGCAAGGGGAAGCAAGAGCAATTGAAGAAATCGCAAAAGCAGAACAAAACCGTATTGAATTGCTTCGTGAAGCGAATATAGATGAACGTATACTTGCTTATAAATCATTTGAATCATTAGAAGAAGTTGCAAAAGGACCAGCAAATAAAGTCTTTATTCCGTCTAATGCAATTGAAACACTTGGTACTCTTGGGGCAATTGGAGAAATATTTAAAGAAAAACAAGCGAAGAAACTACCTTCAAATGATACAGGAAAAGAACAATAA	MVALTLTIIFALIVVTFIALTIKIIPQQKVGVVERFGKFQRIMHPGLNILIPIVDRVRVYHDLRIQQTNVPPQKVITKDNVQVEIDTIIFYQIVEPELATYGISNYEYGVRNITSATMRQIIGKMELDETLSGREKISTEIRLALDEATEKWGVRIERVEVVDINPPKDVQASMEKQMKAERNKRAIILEAEAAKQDKVLRAEGEKQSKILMAEGDKEARIREAEGLKEAKELEAQGEARAIEEIAKAEQNRIELLREANIDERILAYKSFESLEEVAKGPANKVFIPSNAIETLGTLGAIGEIFKEKQAKKLPSNDTGKEQ				NA	NA	NA	NA	NA
AK009_00750	1155			hypothetical protein	ATGTATAAAGAAGGTGATGCAGTGAAAAAGTATGCAACTCGAATACATGGGAAGAAACTAATTTCGTTACTCCTTTTATATGCGCTAATAGTAATTATGATAGCGTCGATTCTGACGTCACTTTTACATACAATGAAATCGAATTATGCAAATCAATGGTTTGGAAAAGTATCGATGCAAGGTTTTGTTCAAATGATAGAAAGTGAGAATCGCTATTATGGATTTGATTATTTTAAGCAGAATAAACGAGAGTCAGTTGGGAATTTAATGTTCTCTATTGCGACAGATTTGAAGATTAAAGATTTAAGAACATTTGTCGGTAAAGAAGTACCTGGTATGTCAAAGTATTATTCTAACATTATCGTAGCTGGGGAAGGGACAAACTTGACGAATATCCCAAATGAATCTAGTGTACCGATTGAAGAAGTAACGAAAGAGCGGAAAGTAGCAAAAGATAAAGTTACAGAAGCGGAAAAGAATAATCCGGTTCAGAAAAAGAACGGAGCGAAAAAAGGTGAGAGTGCAGTATATATTTATCATACACATAGCTGGGAATCCTTCTTTCCATTATTACCAGGGGCAACTGATCCATCTAGCCCAGATGTAAATGTGTCCTTACTAGGAAAACGTATGAAGGAACAACTTGAGGGGCAAGGAATTCCAGTAATTCACGATAAAACGAATATGGGTGATTTATTAGCGAGTAAAAAGTGGGTATGGTATCAGTCATATAAAGCGTCTCATGAATATGTAAAAGAAGCATTAGCACAAAATAATAAAATTGCGTTTCCGATTGATATACATCGTGATGACCAGCGTAAGAAAGTAACAACAAAAGTAATTAACGGGAAATCGTATGCAAGATTATATTTTATAATTGGGATGGAAAATGAAAGGCGTGCTGAAAATGAAAAAATTGCAAGAGCAATCAATAGTTATTTAGATGAAAACTACTACGGATTAAGTAGAGGGATTTTTCCGAAGTATAAAAAAGATGGAAATGGCGTTTATAACCAAGATTTATCGAAAAATGCGATGTTAATTGAAGTTGGTGGTGTTGATAATACGTTAGATGAATTATATAACACAATTGATGTGTTAACAGAAGCGTTTAGTAAATATTATTGGAATGATGCGGAAAAAGTGAATGGATGA	MYKEGDAVKKYATRIHGKKLISLLLLYALIVIMIASILTSLLHTMKSNYANQWFGKVSMQGFVQMIESENRYYGFDYFKQNKRESVGNLMFSIATDLKIKDLRTFVGKEVPGMSKYYSNIIVAGEGTNLTNIPNESSVPIEEVTKERKVAKDKVTEAEKNNPVQKKNGAKKGESAVYIYHTHSWESFFPLLPGATDPSSPDVNVSLLGKRMKEQLEGQGIPVIHDKTNMGDLLASKKWVWYQSYKASHEYVKEALAQNNKIAFPIDIHRDDQRKKVTTKVINGKSYARLYFIIGMENERRAENEKIARAINSYLDENYYGLSRGIFPKYKKDGNGVYNQDLSKNAMLIEVGGVDNTLDELYNTIDVLTEAFSKYYWNDAEKVNG	PGPT0024690_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385	NA	NA
AK009_00751	591	pspA_2	COG0406	Phosphoserine phosphatase 1	ATGCAAATACTACTAATACGCCACGGAGAATCAGAAGCTGATATTTTACATGTGCATGAAGGACGAGCTGATTTTGAGTTAACTGAAAAAGGGAGACAACAAGTACAAAAACTTGTACAGAAAGTGAAAAAAGATTTTGCACCAGATTTCATTTGGGCAAGCACATTAAAACGTGCTCGTGAAACGGGTGAAACATTAGCAGAAGTAATTGGTTGTCCAATTCAATTAGAAGAGGAATTAATGGAGTTTAATAATGGAATACAAGCTGGCTTATCATTTGAAGAAGCAAAGAAATATCCAGAACCAAAGTTTCTTCATGACCGTTTTGAAAACGGAGAGTCATTTATTGAGTTTCGAATGAGAATAGAAGGGATTTTTTCTAAAATTGTGACAGAGAATACATATGATCGAATTGCGATTGTTGCCCATGGAGGCGTAATTAATAGTCTATTACGTGCATTTTTCAATATGCCAATTTCAATGGACTACTATTTCAAAATGGGAGATACGGGAATAAGTTTAATTGAAATTGAGGGTGAACAAAAAACGGTGCATTTCATTAATGATACGAATCATTTGGACGGGATGTAA	MQILLIRHGESEADILHVHEGRADFELTEKGRQQVQKLVQKVKKDFAPDFIWASTLKRARETGETLAEVIGCPIQLEEELMEFNNGIQAGLSFEEAKKYPEPKFLHDRFENGESFIEFRMRIEGIFSKIVTENTYDRIAIVAHGGVINSLLRAFFNMPISMDYYFKMGDTGISLIEIEGEQKTVHFINDTNHLDGM	PGPT0018030_3752	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
AK009_00752	777	yitU_1	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU	ATGTACAAAGTTGCATTTTTTGATGTTGACGGTACGCTTTTAAGCGAGATTGATAGAAGTATGCACGAAAGTACAAAAGAAGCGGTACAAAGATTAATAGATAAGGGGATTCACGTAGTTGTTACAACAGGGAGACCATATAGTTTATGCTCACAATTTAAGGGGTTAGGCATAAATACGTATATTTCTGCAAATGGTGCACATATAAAATGTGGGGAAGAAGTTATACATAAATCAGTACTTTCAAGCGAAATCGTTCATGATATTTCAAATTTTGCTGAATTACATGGTCACAGTGTTTCTTACTTTACAGAAGAATTTGCAATGAATGATATTGCCTCCAAAGATGAACGTGTCATACGAGCGTTAAATGAAACTTTAAATTTAGAGCGGTATCCTGACAAAGTTAAAAACTTGTCAGATGAGATGTATTGCATATGTCTGTATGCCGATGAAGCAGAAGCTCAAAAATTCATTGAAAGATATCCAGCACTTACGTTTGACCGTTTTCATGGTTACGTTATAAATGTATTGGAAGATAGTAAAGTATCGAAGCTAACTGCAATTCAAAAAGTATTGGAACATTTAAATATTAGTAAATCAGAAGCCATTGCTTTTGGTGATGGTGGAAATGATATTGAGATGTTGCAGTATGTAGGATTAGGAGTTGCGATGGGAAATGGTGGAGAGGAGTTGAAGAGAAGGGCTGATTTCGTTACAACGAAGGCGAGTGAAGGCGGAATTTCTTATGCCTTAAAGAAGTTACGCATTATTTAA	MYKVAFFDVDGTLLSEIDRSMHESTKEAVQRLIDKGIHVVVTTGRPYSLCSQFKGLGINTYISANGAHIKCGEEVIHKSVLSSEIVHDISNFAELHGHSVSYFTEEFAMNDIASKDERVIRALNETLNLERYPDKVKNLSDEMYCICLYADEAEAQKFIERYPALTFDRFHGYVINVLEDSKVSKLTAIQKVLEHLNISKSEAIAFGDGGNDIEMLQYVGLGVAMGNGGEELKRRADFVTTKASEGGISYALKKLRII	PGPT0017727_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
AK009_00753	546			hypothetical protein	ATGGATTCAAGAAAAGATTCTCTTCCTTTAGGGATTGAGCCGTACGCAGAGTTAATCAAAAAGACAGCATCAGCGGAAACGGATCCAATCGCAGCAAAACTTGGTTTGTTAATGTTATGGACGTCTGATAATGTTCTTGATGCTGTTGACGTAGATTTAGCTCCACTTGGTATTTCAGAGAGTAAATTAGATTTTTTACTATTGTTTATTTTGCGTGAAATGGAAGCGAATGGGGAAGAAGTGAACATGAGTCCTTCGGATATTGCGAGTCGATTAGGGATTACACGTGCTTCTGTCACTGGCTTATTAGATTGGATGGAGAAACGAGAGTTAATCGTAAGATTCCACCATTCTAAAGATCGAAGAAGATTAAAGGTGAAAATTACTCCGAAAGGAAAAGAACTAGTTACACATTCTTTACCAACTTTTTGGTTATCTTGCGCTTCGTTAGTTGATGGCTTTAATCAAGAAGAGCGTCAAGTTTTAGAAAAGCTATTAAATAAAATGCAAGCAACTATGCAGGTGAAATTAGGAGAAGGTAGGTAA	MDSRKDSLPLGIEPYAELIKKTASAETDPIAAKLGLLMLWTSDNVLDAVDVDLAPLGISESKLDFLLLFILREMEANGEEVNMSPSDIASRLGITRASVTGLLDWMEKRELIVRFHHSKDRRRLKVKITPKGKELVTHSLPTFWLSCASLVDGFNQEERQVLEKLLNKMQATMQVKLGEGR	PGPT0029235_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029235-emrR|mprA-K15974	NA	NA
AK009_00754	1182	ynfM_1		Inner membrane transport protein YnfM	ATGGAAATAGGAAAGGAAGTAAATAGTGAAAAGAATTATACAATAATGACAGCTGTATTATGTTGGTCGGGTATGGTAGTTATGTCTAGCCTATATGTAACAATACCTTTAATCTCTCTATTTTCAAACATTTTTAATACGTCATTAACACACTCGGCAGCTACAGGAAGTATATTTTCTGTTGGCTTTGCTATAGGGTGTTTGTTATTTGGGGCAATCTCTGATAAATATGGACGAAAAAAAGTGATTTTTATTGGATTGCTTGCACTGTCGATAGTTTCTTTTTGCTTAGGGTTTGTAGATAGTTTATTTTGGCTTGTTATTTTTAGAGGTATACAGGGGATAGCCGCAGCTACATTTTCTCCAGTAGCGTTAGCCTACGTTGTAGAAATGTTCCCAGTAGAAAAAAGGGTTACAACAATAGGGTTTGTTAGTATCGGTTTTTTAGTAGCTGGAATTGTAGGGCAGGTAATAAGTATTGCTGTTAGTCAGCATTTTGGATGGCATATGGTTTTCTTTCTTCTTAGCATTGTCTATATAAGTACTGCTATATGGGTTTATTATTCTCTTCCGAAAGGAGAGACGTCTCAATCCTATACTGATATTTTGGAACCAATTAAACAGATGGGTAAAGTTTTTACAAATAAAAGCTTAGTATTAAGCTATATAATTGCATTCGTTTTATTAATGGCTTTTGTTAATATGTATACTGTTTTAGGGAATTATTTGAGCTCTCCTACTTACAATTTAACTGCGGAACAAATCCTTTATTTTCGCTTAGCAGGGCTGTTTGGTATGTTGCTGTCACCACTTGCAGGTCGTTTAACAAAGAGGTTTGAAATAAGGAAAGTTCTTCAAGGAGGATTGTTGATTGCTATTTTTAGTCTAAGTTCAATGGGCTTTGTTTCGTATCTATTTCTACTTGTAATGATGAGTGTCTGTTTTGTAATAGGTATTGCTATATCCGTTCCGTCTTTAGTTTCTCTTGTAGGTCAATTAGGAGGGAAAGCAAGGGGAATAGCGGTATCTATTTATACTTTTATTTTATTTTTAGGTACTAGTATAGGGCCTATCATTTCTATTTATCTTATGAAAATAGGAGGTTATGCTCAAACATTTATTTTATTAGGAATGATACTTTTTATTGGTTTTGTAGCTTCTCTATTTATAATTAATGAATGA	MEIGKEVNSEKNYTIMTAVLCWSGMVVMSSLYVTIPLISLFSNIFNTSLTHSAATGSIFSVGFAIGCLLFGAISDKYGRKKVIFIGLLALSIVSFCLGFVDSLFWLVIFRGIQGIAAATFSPVALAYVVEMFPVEKRVTTIGFVSIGFLVAGIVGQVISIAVSQHFGWHMVFFLLSIVYISTAIWVYYSLPKGETSQSYTDILEPIKQMGKVFTNKSLVLSYIIAFVLLMAFVNMYTVLGNYLSSPTYNLTAEQILYFRLAGLFGMLLSPLAGRLTKRFEIRKVLQGGLLIAIFSLSSMGFVSYLFLLVMMSVCFVIGIAISVPSLVSLVGQLGGKARGIAVSIYTFILFLGTSIGPIISIYLMKIGGYAQTFILLGMILFIGFVASLFIINE	PGPT0017201_1763	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
AK009_00755	462			hypothetical protein	ATGTTTGTTCAATCTGCATTACATCAACTAAAAGTTGCTATTGATACTTCTATTGATATGCTTAACCAATATAGTGAAAACGATTTAAAAATACAACCGATTCACTCAAAACGATCATTATTTGAAATGTATGCACATCTTTCTCTTATTTGTCATGCTGATTTACTCATTTTAAATGGTATTTCAGAAAAAGAATTACATACCTTTTATATAGAACATACGCCCGTAACAGTTGCTCACATGCAACAAACGATGATTGAAGGATACAACCTTCTCTCTAAAACATTTCTTTCCTACTCCCAAATAGAATTAGCAGAAGTTATGACTGCCTATTGGGGGATTTCTTATTCGCGCTTTGAATGGTTACTTGAAATCGTTGCACACTTTTATCATCATCGTGGACAAATTCATATTTTATTATGCGAGCATATGAAAGATCCTCGCATTCCTTTATTTGAGTGA	MFVQSALHQLKVAIDTSIDMLNQYSENDLKIQPIHSKRSLFEMYAHLSLICHADLLILNGISEKELHTFYIEHTPVTVAHMQQTMIEGYNLLSKTFLSYSQIELAEVMTAYWGISYSRFEWLLEIVAHFYHHRGQIHILLCEHMKDPRIPLFE				NA	NA	NA	NA	NA
AK009_00756	1227	alr2	COG0787	Alanine racemase 2	ATGAAACGTGAAATAGAATGGAATGCAATTATTGAGTTAGGAGTTAGACCAATGAGTTTGAAATATGGAAGAGATACAATTGTAGAAATTGACTTAAATGCTGTAAAACATAATGTAAACGAATTTAAAAAACATGTAAATGATGAAAAAATTAAGATGATGGCTGCTGTAAAAGCGAATGGGTATGGCCATGGGGCAGTTGAAGTTGCCAAAGCTGCAATTGAAGCAGGAATAAATCAACTTGCAGTTGCATTTGTAGATGAAGCGATAGAATTAAGAGAAGCAGGAATTACTGTGCCGATTTTAATTTTAGGATACACACCAGTTGCGGCTGTAGAAGATGTAATTCAATATGACGTTATGATGACTGTTTATAGAGTAGAAGATTTACATGGTATAAATGAAATTGCAAACCGTCTTCAAAAGAAAGTACAAATTCAAGTGAAAATTGATACAGGAATGAGTCGTATCGGTTTACAAGAAGAAGAGGTTAAACCATTTTTAGAAGAATTAAACCGTATGGAGTATGTAGAGGTAGTAGGGATATTTACGCATTACTCTACGGCAGATGAAATCGATAAATCATATACGAATATGCAAACAAGTTTATTTGAAAAAGCTGTTAATACAGCGAGAGAATTAGGAATTCAAATACCATATATTCATAGTTCAAATAGTGCAGGATCAATGGAATTAAGTAACACATTTCAAAATATGGTACGCGTTGGAATAGGAGTATACGGTATGTATCCGTCAAAAGAAGTGGATCATACAATCGTTTCTTTACAGCCTGCGTTGTCGTTAAAATCAAAAGTAGCTCATATTAAACATGCGAAGAAGAATCGCGGTGTAAGTTATGGGAATACGTATGTAACAACTGGTGAAGAATGGATTGCGACTGTACCAATTGGTTATGCTGATGGTTATAATCGTCAATTATCTAATAAAGGCTATGCGTTAATTAACGGGATTCGAGTACCTGTTATCGGCCGTGTTTGTATGGATCAGTTAATGCTGGATGTTTCAAAAGCGATGCCAGTACAAGTAGGAGACGAAGTAGTATTCTACGGTAAACAAGGTGAAGAAAATATCGCAGTAGAAGAAATAGCGGATATGTTAGGTACAATAAACTATGAAGTTACATGTATGCTAGATAGAAGAATTCCGCGTGTCTATAAAGAAAATGACGAAACAACTGCAGTTGTAAATATATTAAGAAAAAACTGA	MKREIEWNAIIELGVRPMSLKYGRDTIVEIDLNAVKHNVNEFKKHVNDEKIKMMAAVKANGYGHGAVEVAKAAIEAGINQLAVAFVDEAIELREAGITVPILILGYTPVAAVEDVIQYDVMMTVYRVEDLHGINEIANRLQKKVQIQVKIDTGMSRIGLQEEEVKPFLEELNRMEYVEVVGIFTHYSTADEIDKSYTNMQTSLFEKAVNTARELGIQIPYIHSSNSAGSMELSNTFQNMVRVGIGVYGMYPSKEVDHTIVSLQPALSLKSKVAHIKHAKKNRGVSYGNTYVTTGEEWIATVPIGYADGYNRQLSNKGYALINGIRVPVIGRVCMDQLMLDVSKAMPVQVGDEVVFYGKQGEENIAVEEIADMLGTINYEVTCMLDRRIPRVYKENDETTAVVNILRKN	PGPT0020040_350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
AK009_00757	714	tam_1		Trans-aconitate 2-methyltransferase	ATGTCTAAAAAACTTATTTATTCTAATTATGATATTTTCGCATCTATTTATAATAAACATTGGGGGCATTTTTCTGAACACTCCTATCCAGCTTTTGAACAACTCGTTTTACAATATGCACAACCACGTTCTCATATTTTAGATCTTTGTTGCGGGACTGGTCATCTTACTAGGAAACTACTTGATCATAATTTTGTAGTAACTGGTATAGATGGTTCTACTCAAATGATTGAGTATGCACGTAAAAATGCGCCAGATGCAACCTTTATCGTCGATGACGCTCGCTATTTCAATATAAATGAGCAATTCCACTACGTCATCTCTGCCGGTGATAGTTTAAACCATATTATGAATTTAGATGAACTAAAAAGTGTGTTTCAGAAAGTTTACTCCGTATTACATAACGAGGGTATATTCGCATTTGATATGAATATGGAAAAAGGATTTCTTAAAAACTGGATTGCTTCATTTCATATTTCAGAGAAAGAATATGTTTGTACGATTGATTCTACATATAATAATGAAAATAAAAAAGCAGAAATGAACTTTATACTATTTCACCATGACATAGATAATAATTGGACAAGAAGTGACTTTTCTTTTGAAGAAGCTTGTTATTCCAATGAAGAAATAATTTCTTCATTGGAATCCGTAGGTTTTAAGAACATTCAATTCCACGGTACAAATAGAGCATTTTTCACTTGCCAAAAATAA	MSKKLIYSNYDIFASIYNKHWGHFSEHSYPAFEQLVLQYAQPRSHILDLCCGTGHLTRKLLDHNFVVTGIDGSTQMIEYARKNAPDATFIVDDARYFNINEQFHYVISAGDSLNHIMNLDELKSVFQKVYSVLHNEGIFAFDMNMEKGFLKNWIASFHISEKEYVCTIDSTYNNENKKAEMNFILFHHDIDNNWTRSDFSFEEACYSNEEIISSLESVGFKNIQFHGTNRAFFTCQK				NA	NA	NA	NA	NA
AK009_00758	888	mshD_1		Mycothiol acetyltransferase	ATGGATATTCGGAAAAAGCGTTCTGTAACAGAAAGTGAAATACAGCAAATGAAGGATTTGGCTTATATTTGCGGGCAACAAGACAACCTTGATTACTCTTCAGATTTACATATCAACTTTTTAAAAAATCGAAATGAAGATTATATAAACGATTTTCTTCTTTATAACGGCACTCAATTAATTGGCGCTTTAAATATGTATGATTTTGAAAGACCAACAAAGCTTGAACTAATAGGCTTTGTACATCCTCATTTTAGAAAACAACGTTTCGGAACTATCCTTTTACAAACTGCAATGAAAGAAATACAAAATAGAGAGACAGATGAAGCTCTTCTTATTATCAATGGGGATTCTATTTCTGGGAATGAATTTGTAAAACATATGAAGTTACCATATTTATATAGTGAATATAGTATGGAGTTCAAGACAAACGAACTTCAAAAAACAACAGATAATAATATACAGCTTACTCTTGCAACTTCAGAATCACTTCTTGATCTTATTGAAATTTCTAGTAAAGCTTTTGGTGATTCAGTAGAAAATACGGCTACATGGTTACAAAAAATGATGACTTCACCTTCTCATAAAGTTTACAGTGCTCTTGTCGATAAAAAAATGATAGGAACGATTACAGTTACTGAGCAAGATCATTCTACTATATTATCAGGATTCGCTGTCCACCCTTCCTATCAAGGTAAAGGCTACGGTAAAGCTATTTTAAACTATATGACACATAAGCTCTTCACAAATGGTGCTACAACAATTGAATTACAAGTTGAAACAAAGAATAACAATGCTTTGAAGCTTTATACACAATGCGGTTTTGAAATTATGATGAAGCATGATTATTATAATTTAATGAATAGCAAGGAGAATATTTATGTCTAA	MDIRKKRSVTESEIQQMKDLAYICGQQDNLDYSSDLHINFLKNRNEDYINDFLLYNGTQLIGALNMYDFERPTKLELIGFVHPHFRKQRFGTILLQTAMKEIQNRETDEALLIINGDSISGNEFVKHMKLPYLYSEYSMEFKTNELQKTTDNNIQLTLATSESLLDLIEISSKAFGDSVENTATWLQKMMTSPSHKVYSALVDKKMIGTITVTEQDHSTILSGFAVHPSYQGKGYGKAILNYMTHKLFTNGATTIELQVETKNNNALKLYTQCGFEIMMKHDYYNLMNSKENIYV				NA	NA	NA	NA	NA
AK009_00759	879			hypothetical protein	ATGTTACAACAACTATTCAATTCACCTATTCTATCCGTTCAAGCCTTGCACCCAGGTTATGAAGATCATGCAAGTGATGTTTTTCTCGTTCAAACAGAAGATACAGAAGTTATCGTTCGTGCTTCTAAAATGAATGAAGAACCAAATAATGATTTTTGGTGGGGATGTAAAAATTTATTTGGAATTGATCCAAGGAACGTCCATCATTTAGAAACGGTACATACATTGTTGCAAGAACATACGAATCTTCCTATCCCAACAATATTAGAAAAACATGTTTTAAATGGCCGTGAATTTGTGGTGGTTGAAAAGTTAGTAGGTAACACAGTTCAATCTTTTATCGAGCAACCAGATTCTATTTTATTCAGCCTAGGAAAAGGACTTGCAGAAATACATAAATTTAAAGCCGATTTCATAGGAAATCCGTCAGGCACGTTCCAAGTTCCACTAGATGAATTCCAATCACATATTTTAAACGTAAGTAAAGAGCTTGTGAATATGTTTTATTCTGATGATGAAAGCATACAAAATGCATTCCCTACCTTTGAATCACAACTTTCTTCCCTGTCCGTACCAAAGGAATCTACACTCGTCTTAATTGATATGGATCCTACTCAATTTTTATCTGACGGTACAACTATTACGGGTTTAGTAGATACTGAAGCTTACGCTGTTGCTCCGCGAGAGCTTGATTTTATCGGACTAGAATATGTACTTACCGAAAAAGAAGCACATGCCTTTCAAAGTGGTTACGAAACAATTATGTCTATTCCTCACTTAGAAGAATATAGACAGCCTTATCGTTATTTATACCGACTGTTATCTGTGCAAGGTAATGTGGAATTAAAGAAATGGTTAAGTCACCCATCCTATTTTTAA	MLQQLFNSPILSVQALHPGYEDHASDVFLVQTEDTEVIVRASKMNEEPNNDFWWGCKNLFGIDPRNVHHLETVHTLLQEHTNLPIPTILEKHVLNGREFVVVEKLVGNTVQSFIEQPDSILFSLGKGLAEIHKFKADFIGNPSGTFQVPLDEFQSHILNVSKELVNMFYSDDESIQNAFPTFESQLSSLSVPKESTLVLIDMDPTQFLSDGTTITGLVDTEAYAVAPRELDFIGLEYVLTEKEAHAFQSGYETIMSIPHLEEYRQPYRYLYRLLSVQGNVELKKWLSHPSYF				NA	NA	NA	NA	NA
AK009_00760	1209	oleD_1		Oleandomycin glycosyltransferase	ATGGCAAATGTACTCGTAATAAATTTCCCTGGGGAAGGTCATATTAATCCGACTTTAGCTATTGTAAGTGAGTTAATTCAGCGAGGGGAAACAGTTGTTTCTTATTGTATTGAAGATTATAGAAAGAAGGTTGAAGCAACAGGTGCGGAATTCCGAGTGTTTGAGAATTTTCTCTCTCAAATTAATATTATGGAACGAGTAAATGAAGGTGGGAGCCCTTTGACGATGCTATCTCATATGATTGAAGCATCAGAGCGTATTGTTACTCAAATTGTAGAGGAAACAAAAGAGGAAAAATACGATTATTTAATATATGATAATCATTTTCCAGTAGGACGTATTATAGCGAATATTTTACAATTACCAAGCGTTTCATCTTGTACAACGTTTGCTGTTAATCAGTACATTAATTTTCATGATGGGCAAGAATCGAGACAAGTAGATGAAATGAATCCATTATATCAATCTTGTTTAGCGGGAATGGAAAGATGGAATAAGCAGTATGGAATGAAATGTAATAGTATGTATGATATTATGAACCATCCTGGTGATATTACGATTGTATATACTTCAAAAGAATATCAGCCGCGTTCAGATGTATTTGATGAATCGTATAAATTTGTAGGTCCATCAATTGCTACTCGAAAAGAAGTGGGGAGTTTTCCTACTGAAGATTTAAAAAATGAAAAAGTAATTTTCATTTCTATGGGAACAGTTTTTAATGAGCAACCTGCTCTGTATGAAAAGTGTTTTGAAGCGTTTAAAGATGTAGATGCCACAGTCGTATTAGTCGTTGGTAAGAAGATAAATATAAGTCAATTTGAAAATATCCCGAAAAACTTTAAGTTGTATAATTATGTCCCGCAATTAGAAGTTTTACAGCATGCTGATGTATTCGTGACACATGGTGGTATGAATAGTTCGAGTGAAGCGTTATATTACGGTGTTCCATTAGTTGTAATTCCGGTAACAGGAGATCAGCCATTCGTTGCAAAACGATTGACTGAAGTAGGGGCAGGCATAAGACTTAATCGTAACGAGTTAACTTCTGAATTGTTATGTGAGACTGTAAAGAAAGTAATGGATGATGTGACGTTTAAGGAAAATAGTCGTAAAGTGGGAGAGTCGCTTAGAAATGCTGGTGGATATCAAAGGGCAGTTGAGGAAATACTTGAATTAAAAATGAAGCCGTACGTAAAGATTAAATAG	MANVLVINFPGEGHINPTLAIVSELIQRGETVVSYCIEDYRKKVEATGAEFRVFENFLSQINIMERVNEGGSPLTMLSHMIEASERIVTQIVEETKEEKYDYLIYDNHFPVGRIIANILQLPSVSSCTTFAVNQYINFHDGQESRQVDEMNPLYQSCLAGMERWNKQYGMKCNSMYDIMNHPGDITIVYTSKEYQPRSDVFDESYKFVGPSIATRKEVGSFPTEDLKNEKVIFISMGTVFNEQPALYEKCFEAFKDVDATVVLVVGKKINISQFENIPKNFKLYNYVPQLEVLQHADVFVTHGGMNSSSEALYYGVPLVVIPVTGDQPFVAKRLTEVGAGIRLNRNELTSELLCETVKKVMDDVTFKENSRKVGESLRNAGGYQRAVEEILELKMKPYVKIK				NA	NA	NA	NA	NA
AK009_00761	846			hypothetical protein	ATGAAGAAAGTATTTGAATACGTATTATTAACAATTGGCTCAATTATAGTAGCAGGTTCATTAGAGCTTATTTTAGCACCTAATGGATTAGTAGATGGCGGGGTAACGGCTATTGCTATTATGGCAAATAAAGTTGCAGGATTGCCGCTTTATGGCGTTTTCTTAGGAATTAATATCCCAATTTTATTATTTACTGCAAAAGTAATGGGAAAGAAATTTTTTATCCGTACATCTTATGCGAATGTAGTTACAACACTCGGATTAATTTATTTAAAACCATTTCCAGCAATTACGACTTCTGAGTTATTAATTGTACTTTATGGTGGAGTGCTGTTCGGAATTGGTGTTGGGATTGTTGTTAAAATGGGTGGAGCAATTGACGGTTCGGAAATGTTAGCAGTTTGGATGAATAAACACTTTAATGTACCAATTAGTACATTTTTACTTGCAGTAAATGCAGTTATTTTCATCTTTGTTGCAATTTTATTTTCAATCGAACAAGCGATGTTCTCATTAGCAATTTTCTATATTGTTACGAAGATGATTGATTTTATATTAGATGGTATTAATCAAGGTAAGAGCGTTATGATTATTTCTGGTAAGAATAAAGAAATAGGCGATTTACTTATGAAAGAATTGCAACTATCTGTTACGTATCTACATGGAGAAGGTGGTTTTTTAGGGGAGCATAAGAGAATCATTTATTGCATTACAAACCGATTCATTTATCCGAAAATGAAAGATCTCGTTCTCTCTGTAGATCCAACCGCTATAATTGAAGCTTCCTATTCAACAGAAACGACTGGTGTGAAACGTCCGGGAAGGAAAGCTAGGTCAGGTGAGTAA	MKKVFEYVLLTIGSIIVAGSLELILAPNGLVDGGVTAIAIMANKVAGLPLYGVFLGINIPILLFTAKVMGKKFFIRTSYANVVTTLGLIYLKPFPAITTSELLIVLYGGVLFGIGVGIVVKMGGAIDGSEMLAVWMNKHFNVPISTFLLAVNAVIFIFVAILFSIEQAMFSLAIFYIVTKMIDFILDGINQGKSVMIISGKNKEIGDLLMKELQLSVTYLHGEGGFLGEHKRIIYCITNRFIYPKMKDLVLSVDPTAIIEASYSTETTGVKRPGRKARSGE				NA	NA	NA	NA	NA
AK009_00762	1416	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGATTTTACTATCCCATTGCAATTACAAAGTAACACACCTATTTACTTGCAAATTTACGAATATATAAAAGCTGAAATTATACAAGGGACTATTTCTGTTGGCACACGTCTACCCTCACACAGAAATTTAGCATCACAACTTAATATTAGCCGCATTACTGTTGAATCAGCTTATCAACAATTATTAGCTGAAGGTTATGTAGAAAGTAAACCGAAACGTGGTATTTTTGTAGCAAATTTCGATATTGACGTTATCCCAAATAAAAAACGAAATGCAGCAAAGAAGACGAGCAATTTGATAGACGAAAAATTCGAATACGATTGTAGCCAAGGGCTTATTGATCAAAATAAATTTCCGATTACAAATTGGAAACGGGCATTACAAGAATCCATACTTACATACGAAAATGCACTATTTGCCAAAGAAGACCCTCAAGGTGAATTCGCTCTTCGAGAGCATATATCAACATATTTATATCATTCTCGCGGTGTACATTCTTCACCTGATCAAATTGTGATCGGTGCCGGAACGCAGCCACTTCTCTGGTTACTACTTCAACTGCTTGGCCCTACAAAAGAATACGGCATTGAAAACCCTGGATTTCACCGTATACACGCAATCATTAAAAGCTGTGATAGACAAATCCATCCCATACCATTGGATGAAAAAGGGATTAATATTTCTAGCTTATACAATACAAATGCCAATGTCGCATACGTTACACCATCACACCAATTTCCACTTGGGATTATTATGCCTTTACCTAGAAGGTTAGAATTGTTAAAGTGGGCTAATGATTGCAATGGATACATTATTGAAGATGACTATGACGGAGAGTTTCGCTACGCTGGTAAGCCGATTCCTTCTTTACAAAGTCTTGATTCAAATGAACGCGTTATTTATATGGGGACTTTCTCAAAATCTTTTTTACCTTCTTTACGAATGGGATATGTTGTTTTACCACCACATCTTTTAAAAATATATCAAGAACTGTATGGAATTTTTAAACAAACAGTGGCTACAATACAACAACTTGCTTTTGCTAACTTTATACAAAGCGGGGATTGGGAACGTCACCTTAATCGGAGTCGTACACTATATAAAAGAAAACATCATGCGTTAGTAAAATCCATTATGAAAGAAATGGGGGCTAATGTTCAAATTCTTGGCGAACAGTCCGGACTTCATATTGTTTTATGTGTACATAACAGTATGAATGAAAATGAAATGATTGAATCCGCTAAAAAACAAAGCGTTAAATTATACCCACTTTCTCCATATGATTTCATGAATGATTTACGCAAGGAATCATATGTATTACTCGGTTTTGGTAGTATTCCGGAAAATAAAATTGAGACGTTGGCTACATTATTGAAAGACGCTTGGTTCCCTAGTTGCAAGGAAACTTGTTAA	MDFTIPLQLQSNTPIYLQIYEYIKAEIIQGTISVGTRLPSHRNLASQLNISRITVESAYQQLLAEGYVESKPKRGIFVANFDIDVIPNKKRNAAKKTSNLIDEKFEYDCSQGLIDQNKFPITNWKRALQESILTYENALFAKEDPQGEFALREHISTYLYHSRGVHSSPDQIVIGAGTQPLLWLLLQLLGPTKEYGIENPGFHRIHAIIKSCDRQIHPIPLDEKGINISSLYNTNANVAYVTPSHQFPLGIIMPLPRRLELLKWANDCNGYIIEDDYDGEFRYAGKPIPSLQSLDSNERVIYMGTFSKSFLPSLRMGYVVLPPHLLKIYQELYGIFKQTVATIQQLAFANFIQSGDWERHLNRSRTLYKRKHHALVKSIMKEMGANVQILGEQSGLHIVLCVHNSMNENEMIESAKKQSVKLYPLSPYDFMNDLRKESYVLLGFGSIPENKIETLATLLKDAWFPSCKETC	PGPT0016790_3786	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
AK009_00763	423			hypothetical protein	ATGAATGTTAAAGAAGTAGTAACAGAAGAGCAATTACATGAAGTATTACCTGTTTTACAGCAATTACGAACACAACTTTCAAAAGAGGAAACAGGCACTTTATTTCGAAATATGAAAGAAGAAAATTATAAACTATTCTCGCTGCGTAATGAAGATGATGAAGTTGTTAGCCTTGCAGGTGTAGCGATTTGTACGAACTTTTATAATAAGAAGCACGTTTTCGTATATGACCTTGTAACGGCAGACGCACATCGTTCAAAAGGACATGGAAATGTATTACTTTCGTATATAGAGAACTGGGGAAAGGAAAACGGATGTGAGTCTATCACCCTCACGTCAGCATTTTCAAGAATTGATGCTCATCGTTTTTATGAAAGAGAAGGGTATGATAAGGTGAGTTATTCTTTTCATAAAGAATTATAA	MNVKEVVTEEQLHEVLPVLQQLRTQLSKEETGTLFRNMKEENYKLFSLRNEDDEVVSLAGVAICTNFYNKKHVFVYDLVTADAHRSKGHGNVLLSYIENWGKENGCESITLTSAFSRIDAHRFYEREGYDKVSYSFHKEL				NA	NA	NA	NA	NA
AK009_00764	1128	apaH_1		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	TTGAAAAAAATAAAGAAACTATCAATCCCTAATGATGCTAGAGTTATTGTCATATCGGATATTCATGGAGAATTAAATCTTTTAAAAGAAGCACTACATAAAGTTAACTTTAAAGATGAAGATTATTTAATTATTAATGGAGATCTTTGCGAGAAAGGACGAGATAGCGTAGGTGTAGTAAACTACGTTATGAATCTTGTAAAGAACAATTCAAAGGTTCACGTTGTTGAAGGGAATTGTGAAGTTTTAGTTGATGCTCTTCTAAATGAAAATCCTCGTCTTATTAATTATTTATGTACGAGGAAGCATTCAATTTTTAATGAATGGCTAGAGCAACTGGATTTTTCAGTTCATGAAGGTACTTCAATTCGTGAAGTGAAAGAAGCATTGCTAAGTGAATTTTCACAAGAACTATATTGGCTAACGGAGTTGCCAACAGCGATTGAAACAGAAGATTATATTTTTGTGCATGCAGGGCTAGAAGATAGAGTAGATTGGAAAGAAACAGAGCGCAAAAATGCGATAGCAATGCCGGAGTTTTTTTATAAATCACATAAAGCAAATAAGTATGTAATAGTTGGTCATTGGCCAGTCGTGAACTATTCTGAAGAAGCACCGTCTAACAATCCAGTTGTTGATGAGGAGAAAAAAATTATTGCAATTGATGGAGGAAATGCAATTAAAGAAGCAGGACAATTAAATGCATTTATTATTCAGAGGAAACAAACGGGCGATACATTTTCTTATACATATGTAGACTATTTCCCACAGTATGAAGTAATAGCGGATTTTAATGCGAATTCAGAAATGCAGGGCGGAGTGACATATCCGTATTATTACATAGAGCCTATCGAGAAGATGCAAGATTACACCGTATGTAAGCAAAAGGAAACGAATAATTTGCTCACTGTAAAAAATGAATATATGAAACAACTTGAGTCAGGTGAATATACAGTGAAAACCGATATTTCTTGTGCGCAAATAAGCGTTAGGAAGGGAGATATCGTTTCTCTCATTGATGATAGCTGTTCAGGATATGATTTAATTAAAAAAGATGGCGTAGAGGGTTGGATAGAGAAAGGGATTTTGCTTGAGGTGAATAAAAAGGGAAATAATATATTGAGCTGA	MKKIKKLSIPNDARVIVISDIHGELNLLKEALHKVNFKDEDYLIINGDLCEKGRDSVGVVNYVMNLVKNNSKVHVVEGNCEVLVDALLNENPRLINYLCTRKHSIFNEWLEQLDFSVHEGTSIREVKEALLSEFSQELYWLTELPTAIETEDYIFVHAGLEDRVDWKETERKNAIAMPEFFYKSHKANKYVIVGHWPVVNYSEEAPSNNPVVDEEKKIIAIDGGNAIKEAGQLNAFIIQRKQTGDTFSYTYVDYFPQYEVIADFNANSEMQGGVTYPYYYIEPIEKMQDYTVCKQKETNNLLTVKNEYMKQLESGEYTVKTDISCAQISVRKGDIVSLIDDSCSGYDLIKKDGVEGWIEKGILLEVNKKGNNILS	PGPT0030420_453	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
AK009_00765	627			hypothetical protein	GTGAATAATCGATTTAGTATTGCTTTATTTCTCACTATGGTTACCACAAATATTATTCTATATTTCTTCTTACCATCAAATATTGTTACGAAATGGGACTTCAATGGAACGCCTACATCAACAATGGATAAAAGCACTTTTGTAATCGTAAATATAATTATATGTTCCTTCTTATTCTTTATATTTTTAGCTTTATCTAAAGCAGCGAGTAACCAGAAATTTCTCCATTGGATCGGCAACACAATATTACTATTCTTATTTTTTGTCGATATTGTCATCGCCCTCATCGCTCTTGGCTTTTCACTCCCTCTTGATCATTTCATATTTTTAGCATTAGGGCTTTTATTTATATTAATAGGTTATTTCAGTTCCAAAATTGATACGACTAAATCAACCGTTTCATTAGAATGGAATGATAAGCACCTTGAAAAAAGAGCTTCAAATATTAGTAGTATTTCAATGATGATAGCAGGGATTTTTTTAGCGATACTTCCTTTTATCGTTTCTGCTCCCTATAGAGGTTATGGCATACTAGCAATTCTTTTAGGAATGACGCTTATCATTCTGCCGACTACGATTTATTTACTTATTAAAGACAGCAAGCAGTCCACTAATTTAAAAGGTTAA	MNNRFSIALFLTMVTTNIILYFFLPSNIVTKWDFNGTPTSTMDKSTFVIVNIIICSFLFFIFLALSKAASNQKFLHWIGNTILLFLFFVDIVIALIALGFSLPLDHFIFLALGLLFILIGYFSSKIDTTKSTVSLEWNDKHLEKRASNISSISMMIAGIFLAILPFIVSAPYRGYGILAILLGMTLIILPTTIYLLIKDSKQSTNLKG				NA	NA	NA	NA	NA
AK009_00766	567	ydaF_2	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGCAAAACGTTGTATTAAAGGGGAAGAAAGTTACAATTCGTACAATAGAAGAATCGGATATAAAAACATTATGGAATATCATATTTAAAGAAGAAAGCCCAGAATGGAAGAAATGGGATGCGCCATATTTCCCGTTCTCAATGCAAGAATACTCTTCCTATAAAGAGAAGATGCAAAATCGTTTGAAAGAAGAACCACTGTCAAATTTAATTATAGAAAATAACGGTCAAATCATTGGGACAGTCGGGTTTTATTGGGAATATAAAATGACGCGTTGGTTAGAGATGGGAGTTGTGATTTATGAGCCAACATACTGGAATGGTGGATATGGTACAGAAGCATTAAAATTATATAGAGATTTGCTATTTGAAAAAATGGAGATTGGTAGAGTAGGAATCACGACTTGGTCTGGCAATGAACGAATGATGAAAGTAGCAGAGAAAATAGGAATGAGCTTAGAAGGTAGAATGCGAAAGTGTCGTTATTATAACGGAACATACTATGATTCTATTCGAATGGGCATGATTCGTGAAGAATGGGAAGCGCTATGTGTAACGAAGGGGTGA	MQNVVLKGKKVTIRTIEESDIKTLWNIIFKEESPEWKKWDAPYFPFSMQEYSSYKEKMQNRLKEEPLSNLIIENNGQIIGTVGFYWEYKMTRWLEMGVVIYEPTYWNGGYGTEALKLYRDLLFEKMEIGRVGITTWSGNERMMKVAEKIGMSLEGRMRKCRYYNGTYYDSIRMGMIREEWEALCVTKG				NA	NA	NA	NA	NA
AK009_00767	561			hypothetical protein	TTGTACGCTATCATTGCTACATTTGATCGTGTGTTTACTAATAAAATTACAGAATTACAAAATAAATTAACAAATGTAATTGGAACAAATCAATTAGCTGGAGTAGAACCTCATATAACGATTGCGGATTATAATGAGTTGGATGTTAATTTGTATATTGAAAAATTAAAGGAATTTGTAGCTATTCAAGAAAACATGTCTGCAGTCACTTTTCCTTCTGTTGGAACTTTTCCTACTAACGGTACGGTTTTTCTAGCGCCGACTGTTACCGATGATTTATTGAGACTTCATCATTTTTATCATGATCATTTCAAAACTTTTCATGATAATTCAAATTCATATTATGTACCAGGAAAATGGGTTCCGCATTGTACGATTGCGAATCATTTGAATTTAACTCATTTTTTAAGTGTGATGGAGTATATATATGAGAATTTTGATGTTACAACAGCTTCGATTGAAAAGTTAAAATTAATTAAGGTCAATTATGAAAATGGTTCTGCCGTTTCTTCTAGTATATTAGCAGAATATAATTTAAAGAGAATGGAGACATCGAGATGA	MYAIIATFDRVFTNKITELQNKLTNVIGTNQLAGVEPHITIADYNELDVNLYIEKLKEFVAIQENMSAVTFPSVGTFPTNGTVFLAPTVTDDLLRLHHFYHDHFKTFHDNSNSYYVPGKWVPHCTIANHLNLTHFLSVMEYIYENFDVTTASIEKLKLIKVNYENGSAVSSSILAEYNLKRMETSR				NA	NA	NA	NA	NA
AK009_00768	486	mshD_2		Mycothiol acetyltransferase	ATGACATATATAATTAGAGAAATGAAGCAAGAAGATATTCAGGCTGTACAATCAGTAGCGAAAATAGCTTGGCATGATACATATGAAGGCATTATTCCGAGAGAGATTCAAGATAGTTTTTTAGACGAGGCATATTCTGATGAAAAAATGAAATATCGCCTTAAAAATACACATTTATTCGTTGCGGAAGAAGAGGGAGAAGTAATAGGATTTGCGAACTTTTCACCTGTTAGACTACAAAACGAAGCAGAATTAGGGGCAATTTATTTGTTACCAGATCAGCAAGGAAAAGGGATCGGAAGTGCTTTATTACAAAGAGGGATTAAGGCATTAAATGGGATACGGAAATTGTACATACATGTAGAAGCTGCAAATGAAAAAGGAAAACGCTTTTATGAAGCGAAAGGTTTTGCTGAATTAGAGCAATTTGAAGAAGACTTTGAAGGACATATGATGCAGACAGTAAGGATGGTTTTATACGTATAA	MTYIIREMKQEDIQAVQSVAKIAWHDTYEGIIPREIQDSFLDEAYSDEKMKYRLKNTHLFVAEEEGEVIGFANFSPVRLQNEAELGAIYLLPDQQGKGIGSALLQRGIKALNGIRKLYIHVEAANEKGKRFYEAKGFAELEQFEEDFEGHMMQTVRMVLYV				NA	NA	NA	NA	NA
AK009_00769	141			hypothetical protein	ATGAGAACTTTTGATTTTAGTGAAAAAGTAGGAAAGCACTTATCAGTATTTCAATCTAATTTCATCATGTCGAAAATAGTAAACCATCAAGGAAATGTACATATCGGTGCTATGCATTTACAAGCCAATGGAATAATCTGA	MRTFDFSEKVGKHLSVFQSNFIMSKIVNHQGNVHIGAMHLQANGII				NA	NA	NA	NA	NA
AK009_00770	171			hypothetical protein	GTGTGTGGGGCAAATAAGGAAAAGGTAAAGATAGAGGCGGGACAAGCTGTGTTTTGGGAGAAGGGAGAGCTTCATGAAACAAGTACAGAACAAGGATTAACGGCAATTGTTATGGAAGCGGAGAATCTTGAACAAGGGATAGTAATGCCTATTATTCAAGGGGAGTTGTGA	MCGANKEKVKIEAGQAVFWEKGELHETSTEQGLTAIVMEAENLEQGIVMPIIQGEL				NA	NA	NA	NA	NA
AK009_00771	429			IS1595 family transposase ISBsu3	ATGATAATTAAGGCGAATCAAGAAGATACCAATGAAATATTAAAATATGCGGCTCAATCGCTTTTTGAAGGGACGAGAGGGAATTGTCAATTAAGTACCGAGAAAGCGGTTGAAATTACAAAGCCGATTGTAGAAAAAGGAGCATACTATTTAATCATTAAAGAAGAAAATAAAGTAATGGGATGGATATTAATAGGGGAAAATACAGACTATTTTTCTCGTGAAAAACTTGGATTTATATATGAATTGTACGTTTTCCCAGAATATCGCGGGAGAGGATTATCGCGAGAACTGATGGAAGCTGGTATTAAGGAATTAAAGGAGAAGTATTCAGAAATTAGGTTGAATGTATTTGCTGGGAATTTTGCAAAAGAGATGTACGAAGAGTTTGGGTTTGTTGAAAGGCAGGTAATTATGACTTTGAAGTGA	MIIKANQEDTNEILKYAAQSLFEGTRGNCQLSTEKAVEITKPIVEKGAYYLIIKEENKVMGWILIGENTDYFSREKLGFIYELYVFPEYRGRGLSRELMEAGIKELKEKYSEIRLNVFAGNFAKEMYEEFGFVERQVIMTLK				NA	NA	NA	NA	NA
AK009_00772	297	esxA_1		Type VII secretion system extracellular protein A	ATGGCAGGACAAATTCGTATGTCACCAGAGGAACTTAAATCGAAAGCTACTCGATATGGACAAGGTGCAAATCAAATTGAGGACATTTTACGTCAACTACAAAACTTACAAAATGAATTAAGAGGAGAATGGGAAGGTCGTGCTTTCGAAGGTTTTGACCAACAGTTCAATCAATTAAAGCCAAAAGTACAAAACTTCGCACAGTTATTACAAGAAATTAATATGCAGCTTAATAAAACTGCAGAAGCTGTTGCTAGACATGACGAAGATCTTTCTCGTAATTTCGGTCTACAATAA	MAGQIRMSPEELKSKATRYGQGANQIEDILRQLQNLQNELRGEWEGRAFEGFDQQFNQLKPKVQNFAQLLQEINMQLNKTAEAVARHDEDLSRNFGLQ	PGPT0030476_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030476-esxA-NA	NA	NA
AK009_00773	3792			hypothetical protein	GTGAAAAAGTTCAAATGGAGCATCTTGTTGTTTATTATTTTAGCTCTTGTACTATCAACAGGGGTCTCCTATTTAGCATTAAATCAAAATGTTAAGAAAGCTAATGAGAATACTACACCAAAAATGACAGTTGCGTTGGTAAATGAAGATCAGGGCACTGTTTTTGAGGGCAATAAAATAGCATTTGGGGATCAATTTGTTAAAAATGTAAATAAAAATACGAAACAAGAATGGTACGTAGTTAGTCGCGGGGTAGCAGAAAATGGATTGAAAAATAATAATTACAATATGATGATTGTTATTCCAAATGATTTTTCTAGGAAAGCAGTTGCGATTGATTCAGAGATTCCGGAGAAATTAACGTTAAACTACAAAGTAAATGCAACTGGGAATAAGGATTTGAAAGCTGAGGCAGAAAATACAGCTTCTGTTATTTTAGAAGATTTCAATAAGCAAATAATCGACGTTTATTTTGCGAGTATTATCGGTAAGCTACAAGGTGCACAAGATAATATAGGTAAAATAATTGAAAAAGGAAACGTTCAAACAACTATGTATAAAAAAGATATACATAGTCCGTTAGCAAATTACACAAATCAATTTAAAACAGTACAAGATTATACAGGTGTTTCTGTTAATAGTTTCAAAGGATTTCAGGATGTTTTAAAAGGTTTCGGTCAAGCGTTAGATGAAGGGAATAAATCTAACAGTACGTACTTAGATGGTTTTAATAACTTTCAAAAAATGCAAACTGATAACAATTTGTTAGCGAATAATTTCACAAATCAATTCAATCAATATATGAATGATATGAATACAGGCGATGCTTTAAAGCAATTAAGTGCATTGGAATCAGCTAATAAAAGTATTTCAAATCAATTTACGTTTTCAGAGAAAGAACCAAATGTTTTAACTGATGCTTCAGCAGTTCAAAAATATTTAGCAGATGTAAAAAAACAAGTATCTGAATATGATACAGAACTTGCTGGAAAGTTAGAAGGTGATATTCAAGAGACGGTAATTAAGAAGTTAAAGCAATCTATGTCGAATGATGGAAAGCAAGAAATCTTCATAAATACATTAATGAAACAACCAGATGCTCGAATAAAGAAACAAATCGAGAATTTAATTGCGAAATTACCTAGTTTAAACATGGAAGAAATCGGTCAAAGTGATTTACCAGATGCAACGAAATTACAACTGCAAAATGTAATTCAATTTACAAAAAAATATAATAAAGAAAATAATTTTTATTATGATCCTGTAAATAAAATATCTTTAGGAAACGCAATTAAAGAAGTGAAGGATAGACTTTATACAGAGAGAATTACATTTAGTGATACTGCGAAAGTAATTAAAATGGAATCGCCGCAAATTTTGAAGATAAAGATTCCAGAAGAATTTAAATTAGATGGAAGTACAGAAGCTTTATATATTGATGATGTGGATCGTACAAGTGACTTTCTACAAAGCGAAGCAGGAGAAATTACAATAGCTCCTCGTAATGAAGGGGATATAAAGATTGATCTGCATGTGAAGTTAAAAGATCCAAACATCAATATAGATGTTTTCTCTCCTGTAATGTGGCAATGGGAATTGAGTGGGACTCATACAAAAGAAACTAGTCCTGAGAAAGAAGAACCTAATAAAGAAGAACCTAATAAAGAAGATAAAGGAACACAAACGGAAAATAGCAAGGTGGAAAATGTGGTTCATAAATCACAGTATGGCATAATGCCGTTAGTACACAATGCTAAAAAACCTATTATCAAAAAAATGGAAAACACAACAGGCAATAATGAAGGAAACCAAGGAGGCGGAACAGGGAAAGATAACGGAACTGGAGGAAACCCAGGAGGCGGAACGGGAACAGGTAACGGAACTGGAGGAAACCAAGGAGGCGGAACGGGAACAGATAACGGAACCGGAGGAAACCCAGGAGGCGGAACGGGAACAGATAACGGAACTGGAGGAAACCAAGGAGGCGGAACGGGAACAGATAACGGAACTGGAGGAAACCCAGGAGGCGGAACGGGAACAGATAACGGAACTGGAGGAAACCCAGGAGGCGGAACGGGAACAGATAACGGAACCGGAGGAAACCCAGGAGGCGGAACGGGAACAGATAACGGAACTGGAGGAAACCCAGGAGGCGGAACGGGAACAGACAACGGAACTGGAGGAAACCCAGGAGGCGGAACGGGAACAGACAACGGAACCGGAGGAAACCCAGGAGGCGGAACGGGAACAGATAACGGAACCGGAGGAAATCCAGGAGGCGAAACGGGAACAGATAACGGTAAAGTTATTGAAAGTACAACGAATCAAGTTATACATCAAAAAACAGAAAAAATAACAGATATTACTTCTAGTGTATTAATAAAAGAAGCAGTAGATACAGTTGAAAGTTATCAAGGTTTAATGAGCCTTTACGAAATGTATTATGGGATTGATTTAAGAACGAAAGATGTAGGTCCTAAGTTAGAAGAGGGAAGTTTAGATGCAATTGCGACGGACCAATCTTTGTACTACGTATTAAATAAACAAAGCTTAATCGATTTAATTTCAAATCTTGTTTCATCAAGTATTACTACAGAAATAAAGCAAGATATGTCAGGTTTAAAACAAAAAATAAACTCTTATCAACAATCTATTACTAGTGCGGATCAAAATTCTATGCTACTAGCGGAGAAATTAAATGGAACGACGCAACAAGCAACTAGTATGAATGAAAATTTAGGAGAGTATGTAAAAGGTTTAGCGAAATGGCGTGAGAATAGCTTAAAGCTAGTTGAAGAGCAGCAAGTAGTAACAACAAATCATGCTGGTGAGCAAACGGCTGTTTTATCGTTAGATTCTGGTATTAAATCATTAATGATGCAAAGTCAGTCATTGGTCGAAAGTTCGAAGCATAGTTTAGCAACTTCAGACGATGTATATAAAACATTTGATCAAATTAATGGACAAGCAAAAGAAATTCAAGACAGCGGAACGACAATTGTTTCAAAAGCTGATTTATTATTAAATGACTTTACAAAGAAAATGGAAGATGATAAATCATTCTCCAAAAACTTTACGAAAATTTTAGCGAATAGTCGTATTGGAGATCGTCAAAATGAAATGCTATATGACTTTTTAGCTAGTCCAGTTCAAAAGCAAAATGATGGAGTAATTGTAGCAGGTAATGCTTTTACACCGTACTTAATTGTATTAACTTGTTTCATTGTTGCATTATTTACAGCATACGCAATTGCGAATCAAGAAAAGAAACGAATGCAATCGGATCATTTTGAAGAGAAATTCTCATTAATTGATATGAATGTACCAACTACAGTAGTAGCTTTCGGTATATCAATTGTGGAAGGAATTAGTATAGGTATCATTTCTGGGCGTCTTTTAAAGTTCGGTCAGGATCAAAGTTTACTATGGATTGCGTTCATCACATTTATTATGATGGCGTTTGTATTGGTCTCAACCTACTTATTACGACAAATAAAAATGGTAGGAATGTTTATACTATTAGTATTTTTAAGCATGTACCTATTTTTAACTGAGGCAGTTGGAAGTAAAGTAGATCAAATGTCTTCTGTCGGAAAGATACGTCAATTCTCACCGCTTCAGTATATAGAAAGTTTTCTAAATGATTTTATTAGTGGTAAAGATACTGGGAAAGTTATTTTTGTCGTATTGTTTGTAATTGCCATTATTGGATTGGTTAGTAATCTATTTGTATGGCATAAGAAATGGGAGGAAAAAGAAGTAAATGATCAAACAATGGAGCATAGTGGCTAA	MKKFKWSILLFIILALVLSTGVSYLALNQNVKKANENTTPKMTVALVNEDQGTVFEGNKIAFGDQFVKNVNKNTKQEWYVVSRGVAENGLKNNNYNMMIVIPNDFSRKAVAIDSEIPEKLTLNYKVNATGNKDLKAEAENTASVILEDFNKQIIDVYFASIIGKLQGAQDNIGKIIEKGNVQTTMYKKDIHSPLANYTNQFKTVQDYTGVSVNSFKGFQDVLKGFGQALDEGNKSNSTYLDGFNNFQKMQTDNNLLANNFTNQFNQYMNDMNTGDALKQLSALESANKSISNQFTFSEKEPNVLTDASAVQKYLADVKKQVSEYDTELAGKLEGDIQETVIKKLKQSMSNDGKQEIFINTLMKQPDARIKKQIENLIAKLPSLNMEEIGQSDLPDATKLQLQNVIQFTKKYNKENNFYYDPVNKISLGNAIKEVKDRLYTERITFSDTAKVIKMESPQILKIKIPEEFKLDGSTEALYIDDVDRTSDFLQSEAGEITIAPRNEGDIKIDLHVKLKDPNINIDVFSPVMWQWELSGTHTKETSPEKEEPNKEEPNKEDKGTQTENSKVENVVHKSQYGIMPLVHNAKKPIIKKMENTTGNNEGNQGGGTGKDNGTGGNPGGGTGTGNGTGGNQGGGTGTDNGTGGNPGGGTGTDNGTGGNQGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGGTGTDNGTGGNPGGETGTDNGKVIESTTNQVIHQKTEKITDITSSVLIKEAVDTVESYQGLMSLYEMYYGIDLRTKDVGPKLEEGSLDAIATDQSLYYVLNKQSLIDLISNLVSSSITTEIKQDMSGLKQKINSYQQSITSADQNSMLLAEKLNGTTQQATSMNENLGEYVKGLAKWRENSLKLVEEQQVVTTNHAGEQTAVLSLDSGIKSLMMQSQSLVESSKHSLATSDDVYKTFDQINGQAKEIQDSGTTIVSKADLLLNDFTKKMEDDKSFSKNFTKILANSRIGDRQNEMLYDFLASPVQKQNDGVIVAGNAFTPYLIVLTCFIVALFTAYAIANQEKKRMQSDHFEEKFSLIDMNVPTTVVAFGISIVEGISIGIISGRLLKFGQDQSLLWIAFITFIMMAFVLVSTYLLRQIKMVGMFILLVFLSMYLFLTEAVGSKVDQMSSVGKIRQFSPLQYIESFLNDFISGKDTGKVIFVVLFVIAIIGLVSNLFVWHKKWEEKEVNDQTMEHSG	PGPT0030471_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VII_SECRETION_RELATED_PROTEINS,PGPT0030471-esaA-NA	NA	NA
AK009_00774	504			hypothetical protein	ATGATCAAACAATGGAGCATAGTGGCTAAGTTATCATTTCTCTCTATCCTTTTACTGTTTGTCGCGCTACCGATAAGGAGCGCGGCTGACAGTTATCTTGGTGATGATGGGAAGATTAAGTTTAAAGTGGATCGACTTGAAGAAAGCGACCAAGAAAAAAATAAAAAGGAACATAAGGAAACAGAATTAGATAAAGCATCAATTGAGTTATTTAACCAAGATATAGAAGAAGAAATTGAGAAAAAGAAAAAGAAAGAACAAAAAGATATGGAAGCTCTGCGAGATTCTCTTTTTATAAAACAAAAAGAGAATAATAGTGTTAAAGATACGAAAAATAGTTTGTTTAGCAGTGAATACATTGTCAGAAAAAGTGCAGATGAAGTAGCGAGTAATGAAACAATGAATGAAGAGCCAATTAGTATAACAATAATATTATTATTTGGCGGTGGCATTTTACTTATTTGCATCGGTATTTATACGGTTCTTCGTAAAAGTTGGAGGTAA	MIKQWSIVAKLSFLSILLLFVALPIRSAADSYLGDDGKIKFKVDRLEESDQEKNKKEHKETELDKASIELFNQDIEEEIEKKKKKEQKDMEALRDSLFIKQKENNSVKDTKNSLFSSEYIVRKSADEVASNETMNEEPISITIILLFGGGILLICIGIYTVLRKSWR	PGPT0030466_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030466-essA-NA	NA	NA
AK009_00775	252	esaB		Type VII secretion system accessory factor EsaB	ATGGCAATACAAACACATATTAATGTCACAGTAGATTTTAATAAATGGAATGGAAATACATACGATTTGCGTATTCCGAATCACCAATCTATTAAATATTTATTGAAAAACTTATTAGATACGCTAAAGATTGATAATCATGAAGGTTCACATTTTGTAATTAAAGTGAAAAATAAGTCAATTGTTTTAACAGATAATGATCGTTTAATTGATCACCAAATAACAGATGGAGATATTTTGCAAGTTTTATAA	MAIQTHINVTVDFNKWNGNTYDLRIPNHQSIKYLLKNLLDTLKIDNHEGSHFVIKVKNKSIVLTDNDRLIDHQITDGDILQVL	PGPT0030472_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VII_SECRETION_RELATED_PROTEINS,PGPT0030472-esaB-NA	NA	NA
AK009_00776	1200	essB	COG4499	Type VII secretion system protein EssB	ATGACGGAAAAAATAATTCAAATTGATGCAATGAACTATCAATTTCAAATAGAAAAAGAAAATTGGAAATTGGAGATGACCAAATCTCAAACACGTATAAAAGACTTCCGTCAATTCGATATAATTACGGGCGTATCATCTGAATTTGTACCATTAACAATAGAAGAAGCGGATGATATGTTTACGTTTCTATATCAAGTAGATAAAAAATTATATAAGTGGGACAATCTTAGCCGTTTTGGAAGAAATGAGAAATTAAGACTACTTCGGAATGTTGCGCAGTTTCGTAAATATTTGAATAAACGAATCACGTTCTTTTTACATCCAGACAATATAGTTTTTAATGCTAATTTAATACCAAGTATTATACATAGAGGAATTCGAGATATTGTTCCACCAACCCCGTTATCAGAAGAACAATTTTTAACACAATATAAGTGTCTAATTATTGCTTTATTCTCCCAAAAACATAACTTTGATGATTTGTATGCTGGGTTACTAAAAGATGCAAAAGAAACAACATTTGAACAGACCGTTGCTCAAATGGAAAGCTTAGATGCATTACTGCAGTTTCTTGATGACAGCTTTGAGAAGGAACAAACAAAAACAGAGAAAAATATGCAGTTAGTACCTAAAAAAAGCTATAAATCGTTTAAATACTTAGCTTTTTCCTTCATAGCGGCGACAGTTATTTTAGCTGCTCCTTTAATATATTTCACTTTTATAAAATTTCCTTATCAAAATAAATTGTTAGAAGCAAATGCAAGTTTCATAGCAACTGATTATGACAAAGTCATTACGCAATTAAATGAAGAGGAATTTGAATTATTACCGATTGCATCTAAATATGAGTTAGCATTTGCATACATTACAGCTGAAAAACTAGGTGAAGCTCAAAAGAAATCGATTATGAAAAACATTAGTTTGAAAAGTGATGAAAAGTATTTGCTGTATTGGATGTATAACGGAAAAGGTAATTTTGATAAATCATTAGATTTAGCTAAGACACTTGATGATCCTCAGCTTATTATGTACGGCCTTGTTAAACAAATTGAATCACTGAAAAATAATCCGGATTTATCAGGAGAAGAACGTGATCAAAAGTTAAAAACATATGAGCAACAATTAGATGAATATAAAAAGAAATATGGCAGTTCATCAAGCGATAAAAATTTGTCGGACACAGAGAAAAAAGAGTAA	MTEKIIQIDAMNYQFQIEKENWKLEMTKSQTRIKDFRQFDIITGVSSEFVPLTIEEADDMFTFLYQVDKKLYKWDNLSRFGRNEKLRLLRNVAQFRKYLNKRITFFLHPDNIVFNANLIPSIIHRGIRDIVPPTPLSEEQFLTQYKCLIIALFSQKHNFDDLYAGLLKDAKETTFEQTVAQMESLDALLQFLDDSFEKEQTKTEKNMQLVPKKSYKSFKYLAFSFIAATVILAAPLIYFTFIKFPYQNKLLEANASFIATDYDKVITQLNEEEFELLPIASKYELAFAYITAEKLGEAQKKSIMKNISLKSDEKYLLYWMYNGKGNFDKSLDLAKTLDDPQLIMYGLVKQIESLKNNPDLSGEERDQKLKTYEQQLDEYKKKYGSSSSDKNLSDTEKKE	PGPT0030467_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030467-essB-NA	NA	NA
AK009_00777	4506	essC	COG1674	Type VII secretion system protein EssC	ATGGAGCAACTATTAGTATTGACTTATGGAGACAAAATATATAAGTGCACATTACATCCAAATGAGCAATCAATAGTGTCGATTGGAAAAGAGTGGACAAATGATATTACGAATCCAAGTTTAGAACAAGAAATAGAGTTAAAGTGGAATAATGAAGTAAATGCTTGGATGGTACAGGATCAATTAATAGAATTCAATAAGGAAGTTGAGATTGGAAAAACAAGAGATGTGAGCTTGAAAATCTTTATATCTATTATTGGCACAACTAAAGTGTTTGATATCGGAACGAAACTTTCTCTTACAGTGAGTCGAAACGATTACGATGATATTTCTATTACCGGGACTAGTGTAGATTTAATGCTATCTCGCGAAACGTTGTACGATTCTTTTAAAGTGAACGTGTATGGCGGGGATGTATTTCATAATTATACGAAGTTAAAAGATAGCGTTATGTTGGAATCAGGAGACGTATTATATTTTGATGGTATTTTATTGGAGATTGGTAGTGAAGACATTCAAGTACTTTCTTCAGAAGATAAAGTGAAATCTGCGTTACCTATTTTAGTAGAATCAGAAACGAATTATCAAAGTGGTTATCCAGACTATCATCGTTCACCACGTATTATTTACCGTGAACCAGAAGAGAAAATGACAATTGCAAAGCCTTCAAGTATGCCATCAAAACCAACGGAGCATTTAGCAAGAATCATTGCACCTTCACTTGTCATGATTGTCGTAACTGTATTACTTGCTATTTTCATGAAATATGGAATGTTTATTATCGCATCGATTGCGATGACATTAGTAACAATCATTGTTTCTGTCACATCGTATATTAAAAATTTGAAGCAATATAAAGTCGACATTGTTGAACGAGATAAAAGCTATAGAGAGTATATAAAACAAAAAACGAAAGATTTACATGCAGAAAGTGAAAAACAGCGTCACGCATTACATTATCACAATCCAAATGTAGAAGTAATACGTAATATGGCAGTTCAAGTAAATCCTCGAATTTATGAAAAAACAATGTTACATCATGATTTCTTAACATTTAGCGTTGGAACAGGACAAGCTAATACGAGTTTTGAAATTCAATTTAATGAAGAAGAATTTAGTCAAACGAAAGATGAATTAATTGATATAGCACGTGAACTAAGACAGCGTTATCTATCATTGGAAGATGTACCAGTTGTAACAGATTTAATGAATGGACCAGTCGGTTATATTGGTCAACGCTCTTTAGTGTTAGAGCAATTACAATTATTAGTTGCACAAACGGCTTTATTCCATAGTTATTATGACTTGCAGTTTATTACTATTTTTCCGGAAGAAGAAAAAGAAAAATGGGATTGGATGCGCTGGTTACCTCATGGAAGTGTTCGCGATATAAATGTACGTGGATTTGTATACCATGATCGTAGCCGTGATCAAGTGTTAAATAGTTTGTATCAAATATTGAAAGAACGAAAATTAAAACTAGATGAAAAAAGTTCTACTAATGAAAAAATGTACTTTGCACCGCACTATGTCGTTCTCATTACAGATGAAAAACTAATATTAGACCATGTTGTTATGGAATTCTTTAATGATGATCCGAGTCAATTAGGTGTATCACTTGTATTTGTACAAGATGTTATGCAAAGTTTACCGGAGCATGTGAAAACGGTAATAGACATAAGAGATGCAAAACAAGGGAACATCATCTTAGAGCAAGGAGAACTTGTTAACCGTCAATTTAAACTAAATCATGTGCCAAAAGGATTCAATTTAGAAGATATTTCACGGGCATTAGCACCATTAAATCATTTGCAAAACTTAAAAAATAGTATTCCAGAAAGCGTAACATTTTTAGAAATGTACGGCGTTGAAAAAGTAAAAGAACTGAATATCACAAGTCGTTGGGAGAAAAATGCAGCGCATAAATCTTTAGCTGTACCACTTGGGCTACGTGGTAAAGAAGATATCGTAAACTTAAACTTACACGAAAAAGCACACGGACCACACGGATTAATAGCAGGTACAACAGGTTCAGGTAAATCGGAAATTATCCAATCGTATATTTTATCTCTAGCAGTCAATTTCCACCCGTACGAAGTAGCCTTTTTACTAATTGACTATAAAGGCGGCGGAATGGCGAATTTATTCAAAAACTTACCGCATTTATTAGGAACAATTACGAACTTAGATGGAGCACAAAGTATGAGAGCGCTCGCATCAATTAAAGCTGAATTACAGAAAAGACAACGATTATTTGGTGAAAATGATGTAAACCATATTAATCAGTATCAAAAACTGTATAAAGAAGGCTTAGTAAGTGAGCCGATGCCGCATCTATTTTTAATTAGTGATGAATTCGCAGAACTGAAGTCAGAACAACCAGAATTTATGAAAGAGTTAGTTTCAACAGCGCGTATCGGTCGTTCGCTCGGAATCCATTTAATATTAGCTACGCAAAAACCGAGTGGTGTTGTAGATGATCAAATTTGGAGTAACTCGAAATTCAAACTAGCATTAAAAGTTCAAAATACGTCAGATAGTAATGAAATTTTAAAAACACCGGATGCTGCTGAAATTACATTACCAGGACGTGCTTACTTACAAGTTGGGAATAATGAAATATATGAACTATTCCAATCAGCTTGGAGCGGAGCAGACTATGTAGAAAACAAAGAAGATAAAGAACATTTAGATGCAACGATATATGCAATAAATGATCTAGGACAATATGAAATATTAAGTGAAGATTTAAGTGGACTTGGTAGTAGTAAAGAAGTAATAAGCGTACCATCTGAACTGGATGCTGTCATTGACTACATTCACGATTACGCAGAAATAAATGAAATTGAAGCATTAGCAAGACCGTGGTTACCACCACTTCCAGAAAGCGTATATTTACAAGACTTACATGCTATTCAGTTCAAAGAAGCATGGACGAAAGAAAAGAAACCATTACAAGCAACAATTGGTCTACTAGATCAGCCTGAATTACAATCACAAAAACCATTAACATTAGATATTAGTAAAGACGGACACGTAGCGGTCTTCTCAAGTCCAGGCTACGGAAAATCAACATTCTTACAATCAGTCATTATGGATGTAGCTCGTCAACATAGTCCGGAGCATTTGCATGTGTATTTAGTGGACCTTGGAACAAATGGTCTTCTACCTTTGAAAGGATTACCTCATGTAGCGGATACGATTACGATTGATGAATCTGAAAAATGTTTAAAGTTTGTTGAAAGATTAACTCAAGAAATGAAAAATCGTAAACGATTATTAAGTGAATATGACGTTGCAAATATTGAAATGTATGAAAAGGCAAGTGGGAAAGAAATACCACATATTATTATTGCGATCGACAATTATGATGCAGTAAAAGAAGCGAAGTTCTATGAAAGCTTTGAAATGCTAATTATGCAAATTGTCCGAGATGGTGCAAGTTTAGGAATTCATACCTTAATTAGTGCAGGGCGACAAAATGCACTTAGAATTCAATTGTACAATAATATTAAAATTCAAACTTGCCTATATATGATTGATCAAAGTGAAGTAGCTAGTATTGTAGGGAGATCTGATATAAAAGTGGAAGAAACAGCAGGAAGAGCGTTAATAAAACTAGAATCTCCTACATTATTCCAGATTGCATTACCTACGAAAGCAGAAGATGAATTACAGCAAATTCAATTATTACAACAAGAAGCAAATGATATGGATCGAGAATGGGATGGAGAACGTCCGAAGGCAATTCCAATGATGCCAGAAGTGATTGATATTGCTACTTATCGTAAAAATAAAGACGTTACAAAAGCTCTACAAGCAGCAAGAATTCCAATGGGGCTTGATTTTACAAACGTAGAAGTTGTAGCTCATGATATTGCAGTGAATGATCATTTAATGATTTATAGTGTAGATGATAGTATGAGAAAACAAATTGTATCTAGCATCCTATCTCAATTGAATAAAGATTATTTTGAAAGTGTGACGTTGGTGGATACAGCAGAGTATAGTTTCGTTCAATATAAAGACGATGTGACGCACTACATTGTAGACGAAAATGAAATAAATATGCATGCAAAGTATTGGATGGAAGTAATTCGTGAACGAGCTCTTGAATTAGCACAAGCAAGACAAGAAGGTAGAGAAATTCCTGCATTCACAAAACAACTCATTATCATGACAAATGTTGAAGAGTTTAGTAAATTTGTTTATTTAGAAATGGAAGATGCAGCAACTTTAATTGATCTATCTCGTACAGTAGGCATTTACTTTGTATTAGCAGGTCACCACGACTACATGGACCGAAATCGTGAAGCTCTACCTATGAAAATGAGAAGTAAGCTAACAGCAGCAATTATCGCAATGCCATTAAATGATCAAAGTATCTTCAACATAAAATATATAAGCAACGAAGCGCCATTAGGTAAAGATGAAGTGTATTACTATCAAAAAGGGAACATAATGAAACTAAAAATGCCTAGAGTAACTAACGAGGTGACAGTATGA	MEQLLVLTYGDKIYKCTLHPNEQSIVSIGKEWTNDITNPSLEQEIELKWNNEVNAWMVQDQLIEFNKEVEIGKTRDVSLKIFISIIGTTKVFDIGTKLSLTVSRNDYDDISITGTSVDLMLSRETLYDSFKVNVYGGDVFHNYTKLKDSVMLESGDVLYFDGILLEIGSEDIQVLSSEDKVKSALPILVESETNYQSGYPDYHRSPRIIYREPEEKMTIAKPSSMPSKPTEHLARIIAPSLVMIVVTVLLAIFMKYGMFIIASIAMTLVTIIVSVTSYIKNLKQYKVDIVERDKSYREYIKQKTKDLHAESEKQRHALHYHNPNVEVIRNMAVQVNPRIYEKTMLHHDFLTFSVGTGQANTSFEIQFNEEEFSQTKDELIDIARELRQRYLSLEDVPVVTDLMNGPVGYIGQRSLVLEQLQLLVAQTALFHSYYDLQFITIFPEEEKEKWDWMRWLPHGSVRDINVRGFVYHDRSRDQVLNSLYQILKERKLKLDEKSSTNEKMYFAPHYVVLITDEKLILDHVVMEFFNDDPSQLGVSLVFVQDVMQSLPEHVKTVIDIRDAKQGNIILEQGELVNRQFKLNHVPKGFNLEDISRALAPLNHLQNLKNSIPESVTFLEMYGVEKVKELNITSRWEKNAAHKSLAVPLGLRGKEDIVNLNLHEKAHGPHGLIAGTTGSGKSEIIQSYILSLAVNFHPYEVAFLLIDYKGGGMANLFKNLPHLLGTITNLDGAQSMRALASIKAELQKRQRLFGENDVNHINQYQKLYKEGLVSEPMPHLFLISDEFAELKSEQPEFMKELVSTARIGRSLGIHLILATQKPSGVVDDQIWSNSKFKLALKVQNTSDSNEILKTPDAAEITLPGRAYLQVGNNEIYELFQSAWSGADYVENKEDKEHLDATIYAINDLGQYEILSEDLSGLGSSKEVISVPSELDAVIDYIHDYAEINEIEALARPWLPPLPESVYLQDLHAIQFKEAWTKEKKPLQATIGLLDQPELQSQKPLTLDISKDGHVAVFSSPGYGKSTFLQSVIMDVARQHSPEHLHVYLVDLGTNGLLPLKGLPHVADTITIDESEKCLKFVERLTQEMKNRKRLLSEYDVANIEMYEKASGKEIPHIIIAIDNYDAVKEAKFYESFEMLIMQIVRDGASLGIHTLISAGRQNALRIQLYNNIKIQTCLYMIDQSEVASIVGRSDIKVEETAGRALIKLESPTLFQIALPTKAEDELQQIQLLQQEANDMDREWDGERPKAIPMMPEVIDIATYRKNKDVTKALQAARIPMGLDFTNVEVVAHDIAVNDHLMIYSVDDSMRKQIVSSILSQLNKDYFESVTLVDTAEYSFVQYKDDVTHYIVDENEINMHAKYWMEVIRERALELAQARQEGREIPAFTKQLIIMTNVEEFSKFVYLEMEDAATLIDLSRTVGIYFVLAGHHDYMDRNREALPMKMRSKLTAAIIAMPLNDQSIFNIKYISNEAPLGKDEVYYYQKGNIMKLKMPRVTNEVTV	PGPT0030468_237	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
AK009_00778	831			hypothetical protein	ATGAAATTAAAGAAGAAAGCTAAGGTGATGATAGTCGTGTCAATAGTGGCAAGTTTATTAAGTGGATGTGGTTTTGGGGAAAAGCAAATAGATTATAAGCCATTTGTCAAAGCTTTGGATGAAGGTGACATGAGAAAGGTTATGTCTGCGAGTGATGATGGGTATGCGTATGTGAAGGAACGGGTTATTGATTTTACGACAGAAAAAAATGGTGATGACAGAATTCATAATACACTATATCAAACTACTGAAGGTATATATAATTTGAAAGAAAAATTGTTATATGGAATAACGTCTCAAAAAATAACAAGTAAAACAAAAGATATAAAGGATAGGCATAAGGATATTAATTATAAAGAAGAAGAAAAATATAATACCAACTTTATGTATAAAAACGGAAAACTTCAAGGTTCGGATTCAAATTTAGATATTTCTCCTGTGAAATTGATATTTAATAGATTACAAGGTGTAGGGAATTTAAAACTGAAAGCAGATGGTAATAGAAAAAAATTTAATGAACCAAATTCAGTTGGATTTACTTTAACAGAAGCACAATTTCAAGAAATAATTAATGATAAATTAAAATTGCAATATAATAAATTTGAAAATGCATCAATTGTACTTAACTTTAACGATTCAATAGACAATGAAAAACACCCAATGCAAATAACAGAATTAACAATTTCAATTGACTATGAGAAGAAAAATGATGAAGGTAAAATGTTAACGCATAGTCAACAAATATATGTTTATTTTAGTAGTAAAAAAGATAACAATCAGGAAGCTAAGAAAGAGTTTGTAAATTATGAAAAACAATATAAAAATAAGTAA	MKLKKKAKVMIVVSIVASLLSGCGFGEKQIDYKPFVKALDEGDMRKVMSASDDGYAYVKERVIDFTTEKNGDDRIHNTLYQTTEGIYNLKEKLLYGITSQKITSKTKDIKDRHKDINYKEEEKYNTNFMYKNGKLQGSDSNLDISPVKLIFNRLQGVGNLKLKADGNRKKFNEPNSVGFTLTEAQFQEIINDKLKLQYNKFENASIVLNFNDSIDNEKHPMQITELTISIDYEKKNDEGKMLTHSQQIYVYFSSKKDNNQEAKKEFVNYEKQYKNK				NA	NA	NA	NA	NA
AK009_00779	1584			hypothetical protein	TTGACGAAAGGTGTGGAAAAGACAGAAAATTATAGATTGACTTCGGATTGGGGGAAATTGAAACTAGCAGGAGAAGATATATATAGTTTCAATAACAGCGAAGAGCCATATAATAAAACAGGAGAAAACGGCAGGGAATTAAACATAAATACTTTAGAAGAAAAATTTGGTGCAACACTTATAGAGGTTGAAGTGGATAAAGATACAGGATTTGCAGCTTATGCCTTTAAGGATAATAAAACAGGAGAAGTTGTTATTTCGTATGTTGGAACGGAAGCTGGAAAAGACAATAATAGTGATGTAGTAGTGGATGCGGAGATAGGTGGTCATAATTTAACCAATGCAAATAAATTAGTGTTTAATGATTGGGAACATGAGTTAGAAGTAAAACAATATGATCAAGGAGAGGCATTTTACGAAAAAGTGAAACAATATGCTGATGGTAAAACCATTAGTATAACAGGACATTCTTTGGGCGGAGGTATTGCAAATACAGTAGCATTAAGGCATCAAGAAGACGATATTGATGTTTTGGCGCTAAATCCAGCACCAGTTTTAAATCGAGATGTAGATAAGTTTGGTAATGGCTTTGATATGAAAAATGTTCGGAATATCATTAATCAGAATGATCCACTACATATTGGGATAAAGGCAGCAGACTTCACACTTCCAGGAAGAATGTATAAAATCCCAAATCAAGCAGGACACTCATATGCTTTTACAGCGAAGGATTATGATGAAAGTGGGCACCTAATATGGCTTGATAAACTAGCAAGTGATAATGATACAGGGTGGGATATTATTCCGGGGATTCTGGAGCTTTCCCAATCTACTGGTGCAATATATACAGGAACTATAAATGACGTATTTCATAGAAAAGTTTCTATCCAGGAAGAAAAAATAGCTGGAAATGCAATTAATTTGATACTAAGCGTAACGCCAATTTCTACTATTTTAGGTGGGATATTATGGTACTCGGACGTTATGCAAGGTAGCAAGGAGCTTGAAAAGCTAAAAGATATAGTTCAAGAAGGTTTTTCAAGATTAAATACAAAGTATGAAGGGCTAAAATCCCAAATTACAGCAGAAGCAATTCAATTTAGCCTAATGGCTACAATTGAAATTAAAGGCACAGTAGATACAGCTGTAGAGTGGATTGAAACAACTTTAGCGAAATGTAAGGAAAAAGTTTTAGAAGTATTAGAGTCTGTATTTAATACTGCTATAAATTTTTTGGCTGGAAGTGTTGTAGTATATTTAGCTACAAGTGAAATTTTAGAAATTGCAAAAGAAGTAGCAGCTTCTTACGTGCAAGATTTACTAGATTTGTTTAAAGGAGATTTTGTGGTAGATACAAATGTAGCTGCAATTGTATCTGAACATATATTAAGTCATCGTCACTCATTATTAAATCTCTTTATGAATGATAACAGCAGGGGGATAAACCGTTCTTTATTAGGTGAAATTGCTAAAGATGTAAAGGAGTTATCAAAAGATTTAAAGCAATTAAACAACGATGTTTCAGAGGCAGTATTTTCTATGTTTGCAAAAGATGAAGAATTAGGGGCAGTTTCATATTATTAA	MTKGVEKTENYRLTSDWGKLKLAGEDIYSFNNSEEPYNKTGENGRELNINTLEEKFGATLIEVEVDKDTGFAAYAFKDNKTGEVVISYVGTEAGKDNNSDVVVDAEIGGHNLTNANKLVFNDWEHELEVKQYDQGEAFYEKVKQYADGKTISITGHSLGGGIANTVALRHQEDDIDVLALNPAPVLNRDVDKFGNGFDMKNVRNIINQNDPLHIGIKAADFTLPGRMYKIPNQAGHSYAFTAKDYDESGHLIWLDKLASDNDTGWDIIPGILELSQSTGAIYTGTINDVFHRKVSIQEEKIAGNAINLILSVTPISTILGGILWYSDVMQGSKELEKLKDIVQEGFSRLNTKYEGLKSQITAEAIQFSLMATIEIKGTVDTAVEWIETTLAKCKEKVLEVLESVFNTAINFLAGSVVVYLATSEILEIAKEVAASYVQDLLDLFKGDFVVDTNVAAIVSEHILSHRHSLLNLFMNDNSRGINRSLLGEIAKDVKELSKDLKQLNNDVSEAVFSMFAKDEELGAVSYY				NA	NA	NA	NA	NA
AK009_00780	261			hypothetical protein	GTGGATTTACATACGATAATGTCAAGAGTTCATAGTACATTTCCAGCTAGTGGTGGACGAGAACAAATTATAAACGTTGTAGTGCAATTGGAAAAAGCAGCTGCATCTTTAACTGGGGATATTAGAAGGTTAGAGAGTAGTATTGATAGTACATTACAAGGGAAAACACGTGAGGCATTTATTGATCGTATCCGTCAATTAGAGAAAAAAAGACAAAAAATAGAAGAGAAAATTAGCGTACTAAAAGGGACAGTGAATTAA	MDLHTIMSRVHSTFPASGGREQIINVVVQLEKAAASLTGDIRRLESSIDSTLQGKTREAFIDRIRQLEKKRQKIEEKISVLKGTVN				NA	NA	NA	NA	NA
AK009_00781	351			hypothetical protein	ATGAAAGATTATATGGATAGAGTATTACCTTTAGGCAGTGTTGTGAGATTGGCTCTTAAAGAAGGGGAAAATGTAGAGTATGTAATCACTACGAGAGGTTTATTACTTGATGAAAACACATTCTATGATTATGGCGGAGTGTTGCATCCAGTGGGTTTAACCGAAGAGACATATAAATTATTTAACCACGCGGATATTGCAGAGGTTAAATTTGAAGGGTATCGAAATAAAATTGAAGGTCAATTCGCAGCTAAGTTTAAAATGTGGCGGAATGAGTTTGTTGAAAAAGTAATTGAAAAAAATAAAAAGAAACAACAAGAACAAGAGTTAGAAATAAAGGGAAAAAAATAA	MKDYMDRVLPLGSVVRLALKEGENVEYVITTRGLLLDENTFYDYGGVLHPVGLTEETYKLFNHADIAEVKFEGYRNKIEGQFAAKFKMWRNEFVEKVIEKNKKKQQEQELEIKGKK				NA	NA	NA	NA	NA
AK009_00782	813			hypothetical protein	ATGAAGTTAAAGAAGAAAGTTAAGATGATGATAGTTATGTCAATAGTAGCAAGTTTATTAAGTGGATGTGGTTTTGGGGAGACAAAGATAGAGTATGAGAGATTAGTAAAGGCGTTGGATGAAGGGGACATGAAGACTGTTATGTCTGCTAGTGATGATGGGTATGCGTATGTGAAAGAAAGAAGCATATATGGGACTTTTGAGGAAAAAGAAGACGGTACTCATAGTAAAACAATCTATCAAACAACAGAGGGGATTTATAATACCGATGAGAAAAAATTATTTGGAGAAACAACGGAGGAAATAGCTACGAATATTAAAAATGAAAAAGAAAAGGCGGATAATAGTAATTACAAAGAAGAAGAAATTTATCATACTAATATAATGTATGAAGGTGGGGAAGTGAAGACTGTAAAAAAGGTATTTGATGTGTCCTCTGTTAAATTAATTATGGATCGCTTACAGGGAATAAAAGATTTGAAAGCGTCAGAAGATACAAAGGGATTCGATGAACCGAATATTGTTAGTTATAGTCTAACAGAATCTCAGTTTCAACAAGTACTAAACGATAAATTAAAGTTAGAATATGATGAATTTATTGGTAGCTCAATTGGATTGCACTTTAATGCTATAAAAGATTCAAAGAAAGGATCTATGGGACTATTAGAAATAAGAATAGCTGTAAGTGTAAAGAAAGAAAATGTTTTAAAACAACAGCAAATATTTGTAAGCTTTAATGATAAAAAAAGTAATAATAAAATAAAAGAAGACTATTTGAACTATCAAAGACATTTTAATTATGTAGGTGATTAA	MKLKKKVKMMIVMSIVASLLSGCGFGETKIEYERLVKALDEGDMKTVMSASDDGYAYVKERSIYGTFEEKEDGTHSKTIYQTTEGIYNTDEKKLFGETTEEIATNIKNEKEKADNSNYKEEEIYHTNIMYEGGEVKTVKKVFDVSSVKLIMDRLQGIKDLKASEDTKGFDEPNIVSYSLTESQFQQVLNDKLKLEYDEFIGSSIGLHFNAIKDSKKGSMGLLEIRIAVSVKKENVLKQQQIFVSFNDKKSNNKIKEDYLNYQRHFNYVGD				NA	NA	NA	NA	NA
AK009_00783	537			hypothetical protein	GTGACCAAAAGATTAATTAATAAAATAATTATTATGATGGTAGTAATGATTCTATTAGGTACGTGTAGTTTTGGTGAAAAAAAGATAGATTATGAGCCGTTTGTCAAAGCTTTGGATGAAGGAGATATGAGAAAGGTTATGTCTGCGAGTGCTGAGGGATATGCGTATGTGAAAGAACGAGTTGTTGATTTTACTATAGAAACAAATGGTGATGAAAACCATTATAATACGCTATATCAAACTACTGAAGGTATATATAATTTGAAAGAAAAACTGTTATATGGAATAACGTCTCAAACAATAACAAGTAAAACAAAAGATGAAGAGGATAGACATAAGGATATTAATTATAAAGAAGAAAAATATAATACAAACTTTATGTATCAAAACGGAAAAGGTCAAGAATCTGATTCGAATTTGGATGTTTCTCCTGTGAAATTGATATTTAATAGATTACAAGGTGTAGGGAATTTAAAATTGAAAGCAGGTGGTAATAGAAAAAATTTAATGAACCAAATTCAGTTGGATTTACTATAA	MTKRLINKIIIMMVVMILLGTCSFGEKKIDYEPFVKALDEGDMRKVMSASAEGYAYVKERVVDFTIETNGDENHYNTLYQTTEGIYNLKEKLLYGITSQTITSKTKDEEDRHKDINYKEEKYNTNFMYQNGKGQESDSNLDVSPVKLIFNRLQGVGNLKLKAGGNRKNLMNQIQLDLL				NA	NA	NA	NA	NA
AK009_00784	231			hypothetical protein	TTGCAATATGATAAATTTGAAAATGCATCAATTGTACTTAACTTTAATGATTCAATAGATAATGAAAAACACCCAATACAAATAACAGAATTAACAATTTCAATTGACTATAAGAAGCAAAATGATGAAGGTAAAATATTAACACATAGTCAGCAAATATATGTGTATTTTAGTAGTAAAAAAGATAACAATCAAGACGCTAAGAAAGAGTATGTAAATTATAAAAAGTAA	MQYDKFENASIVLNFNDSIDNEKHPIQITELTISIDYKKQNDEGKILTHSQQIYVYFSSKKDNNQDAKKEYVNYKK				NA	NA	NA	NA	NA
AK009_00785	267			hypothetical protein	ATGTTTAAGTGGTTTAAGAGGTTTGTGAAGTGGGTTAACGGGCCCGTTAATCTAGATCAGGCTGCTATTGAGTTTTATATCGGTGACGATAGAGTCGTTCTCATAGGTGCTGATGCGATGAACTTTGTAGCTAACTTTAATAAGAAATACAAAACTCTATATGTTGAAAATAAATTAACTGGAATGAATATACGATTTAGGGTATTTCATGTGGGTACCTACAAGAGAACAACTTATAAAGCAAGTACTGGGGAGGTAGGAAACTAA	MFKWFKRFVKWVNGPVNLDQAAIEFYIGDDRVVLIGADAMNFVANFNKKYKTLYVENKLTGMNIRFRVFHVGTYKRTTYKASTGEVGN				NA	NA	NA	NA	NA
AK009_00786	105			hypothetical protein	ATGGATATTATGGAGATAGTAATGAAAAAGTGGTTTGCTGGCTCGGTCGCCTTGTTAGTTGTAGCTTATAGGGAGTTGGTTCTTCCCGTGGAGCGATGTACCTAA	MDIMEIVMKKWFAGSVALLVVAYRELVLPVERCT				NA	NA	NA	NA	NA
AK009_00787	210			hypothetical protein	ATGGATGGTACACAGAGGAGGGAAACTGTTTTGTACACAGATACAGAAAAACGAACTGATAAAATTGAACGTATCCCTTGGGGGAGTAAGGATGATGGTAAATCAATTGAGGAAATCTCATACACCAAAATGAGGACGACTGCTGTCTTGTCGAAAACCAAAAGTTTAATAAATAAAGAATTTATACATATATCTTGTGTCTTATTTTGA	MDGTQRRETVLYTDTEKRTDKIERIPWGSKDDGKSIEEISYTKMRTTAVLSKTKSLINKEFIHISCVLF				NA	NA	NA	NA	NA
AK009_00788	849			hypothetical protein	ATGAGTACACCACTAACGATTGACGAACTAAGAGGAATGTCTGTAAAGGAAGCGATATTACTAGGAGCTGACGTTATTTCACCCGCTCAGAAGGAAGCACGAAAAGGAAAACCTAAGGATAATTACAAGGAAGGCAACCGCCAGTTCACTATGGTGAGAGAGGAGATAAAAGAAGTGAATGAATACTTGTCATTAGAAAACTCAGGAGTGATGATGTTCCTATTAGGGTTTGCCAAGCTGGGTGAGAACGGATCTTTATATTACCGTGAGGAAGGTAAAGAATCTGAGTTGCTTTCAGTTAGCAAACTAGCAGATCTACTAGGGAAGACACCTAGAGCAACAAACATTATCCTAGCAGAACTGGAAAAGTTAAGTCTTATCGTTAGAACTAAGAAAGGTCGCAACACAACCATCTCACTAGGAGAACAGTTCTTCAATGTAGGCAGCTACGAGGGTAAAGACTTGTTTACAAAGGTATACAAAGGTAAGTTACTCGAGGTAGCCAAAAAGATTTCCTTCTCGGAGTTAGGACTCTTCTTCAAACTACTTGGTCACTTCCATTACGATCTACACGTACTAGTGGACAACCCTCATGAGGTGAAAGTATCAGAGTTAAATATATGGAGTCGGAAACATGTTGCTCCCTCGGTTGGTTGCTCGGCTGATTTCGCTAAGAGAGCTATCCCTAAGTTAATCAGAGCAGGCTTACTCATGGAGATTAGTTCCGCTAAGAAATTGATTATCTTGAATCCCCTACTTGTAAGTAAGAAACTGAGAACGCCAAACATAAAGGAGCTTGCTGAAGCTATCGAGTTGGCAAGCTTCACACGTGAAAACTTCAAAAAGTGA	MSTPLTIDELRGMSVKEAILLGADVISPAQKEARKGKPKDNYKEGNRQFTMVREEIKEVNEYLSLENSGVMMFLLGFAKLGENGSLYYREEGKESELLSVSKLADLLGKTPRATNIILAELEKLSLIVRTKKGRNTTISLGEQFFNVGSYEGKDLFTKVYKGKLLEVAKKISFSELGLFFKLLGHFHYDLHVLVDNPHEVKVSELNIWSRKHVAPSVGCSADFAKRAIPKLIRAGLLMEISSAKKLIILNPLLVSKKLRTPNIKELAEAIELASFTRENFKK				NA	NA	NA	NA	NA
AK009_00789	210			hypothetical protein	ATGAACATTTACTCAAGAGAAACAATCCTAGAAGTACTAGCTGAATTGAAATACTACGGTAAAAATATAACCGAGGCAGGACTAATGAGAGACCGTCCTCGTTTGTATAACGCCATTAGATGCTATTTTGAAAGCCTAGAAGATGCGATCTCCAAGGTTACACCTATACCGGTACAGACTTACAGATGGACTATTAAGGAGGAATGCTAA	MNIYSRETILEVLAELKYYGKNITEAGLMRDRPRLYNAIRCYFESLEDAISKVTPIPVQTYRWTIKEEC				NA	NA	NA	NA	NA
AK009_00790	489			hypothetical protein	ATGAGCAGAATCAAATGGAGTAAGGAATTAATTCTTAAGAAGATACAGGAGTTAGAAACTCAAGGAGTTAACTTTGGAGGTGGATCTATACAGAAAACTAATCGTTCTCTGTATAGTGCTGGCTGTAGACTCTTTGGCAACTGGTCTAGTGCTTGCGAGGAAGCAGGTGTATTAGTGCCAGCTAACCCTAAAGTAACTACGGCAGAAGTACTCAAAGTGTTTGAACCACCTCAGGAGGATCAAGTGAGCCAGTCTAATAAGGCATATGAGGACTTTAGAATAATAACTCCAGATTATGAAGAGTACACTAGAAAACTAACATGGAGACTGATAGGAACAATCGGATTAGCATCAGATCCGTTTAGTTTCATCCCTGAGAAGACAGGAGTTAACGTGAAAGTCTTCAATGGTTGGCTAAGAGGAAGCGAAACAATGGGGTACGATGATATGGTCACAATAGGGAAATACCTGAGGGAGCTGGCTCAATAG	MSRIKWSKELILKKIQELETQGVNFGGGSIQKTNRSLYSAGCRLFGNWSSACEEAGVLVPANPKVTTAEVLKVFEPPQEDQVSQSNKAYEDFRIITPDYEEYTRKLTWRLIGTIGLASDPFSFIPEKTGVNVKVFNGWLRGSETMGYDDMVTIGKYLRELAQ				NA	NA	NA	NA	NA
AK009_00791	195			hypothetical protein	ATGATTAGCAAACAAGAATTAAACGATGAGTTGCGGACTCGGTGGAAAGCTCAACAGGAGCACTACGGAACACCTATTGTGTTCTTTGCTAATAAGATTGGCTTTAGTAAGACGACTGTTAGGAGATGGATTGAAGGATCGTTCGACTTCTCAATGGGTTCGGCTCAAGTGGTACAAGCTTATTTAAATCAATAA	MISKQELNDELRTRWKAQQEHYGTPIVFFANKIGFSKTTVRRWIEGSFDFSMGSAQVVQAYLNQ				NA	NA	NA	NA	NA
AK009_00792	291			hypothetical protein	ATGAAGAAATCAGCCAAGTTAGATGCAAGCCAACAAGAAATCGTCCTCAAGTTAAGTCATGTGAGAGACATGTTTGCTCACAGAGTGGCCATGAAAGACAACCTCATGTTAGGAAACCATATGCCAAAGCTAAAGAGATTAGCTAAGGAAAAGGGAGTACTTGGTGAGGACGGTCAAATTCCTGTCGAGTATGCACAAGCGTATTACGATGAGGTCGCTAAAGTGTCCGCTAAAGTGGATAAGGACTTCGAGGAGTTCAAGAAAGCATTCGATAAATATTTTGGAGAGTAA	MKKSAKLDASQQEIVLKLSHVRDMFAHRVAMKDNLMLGNHMPKLKRLAKEKGVLGEDGQIPVEYAQAYYDEVAKVSAKVDKDFEEFKKAFDKYFGE				NA	NA	NA	NA	NA
AK009_00793	879			hypothetical protein	ATGGCAGATTTAACTTTAGGACAACACCCTTTACTAAAGAAAGCATTCTTGGATGCACGATTCAAACATCTAACAGAGAAACGCTTCATTGCTGACTCTCTATTTATGAAAGTGAGTGCGGATGCTTTAGCGGTTAAATACTTCAAGGACGCTGACGTAGACTCACAAGGACGTTACAACTATGAAGAAGTCCCTGAGGTAGGTGAAGGATCTAGCTACAAGCGTATCGGCTTATCAGAAGTAGCTAAGATTGAGATGATCCGTAAGTACGGCTTAGAGGCAGCTGTCTCTTATGAAATGCAAAAGTGGGGACAAACAGGCGTATTCGAACGAATCTTCCTTAAATTGTCTAACTCAGTAGTGGCTATGGTTAACACTATGGCTTACGACAAGATTCACTCTGAGCCTAACATTGGAGGACGCACAAAGACGGGTGCAGCAGGAGACGAAACTTGGGATAATGCCACTCTAGGCGCTGACAAAATGATTAGCGATATCATTGACGCTAAGGCTTCAGCTAAGAAGTTTGGCTATTCTCTTGATACGATGGTTATCTCTACAGAGACGGAAGCACTGTTCTTGAAGAATAAAGGTATTCGTGATGCTCTACGTGAGAACAACACAGATATCGCTTTACTAAACGGCTACATTGGTAACTTCTTAGGGTTGGACGTTATCGTTGATGAGAACTATAGTGATGACCAAGTGTTAATGTTACAACGTGGAATCCTTGGAGACATCGCCGATGCGGAGCCATTGAAGTCTCATACGTATAACCAAGAGGAAGACTCTACTACGATCTTACGTGTGAGCCGTTTCACTACAGCTTACGTAACAGATCCGAAAGCAGTTTACTTACTTAAGAATATCAAAGCTTAA	MADLTLGQHPLLKKAFLDARFKHLTEKRFIADSLFMKVSADALAVKYFKDADVDSQGRYNYEEVPEVGEGSSYKRIGLSEVAKIEMIRKYGLEAAVSYEMQKWGQTGVFERIFLKLSNSVVAMVNTMAYDKIHSEPNIGGRTKTGAAGDETWDNATLGADKMISDIIDAKASAKKFGYSLDTMVISTETEALFLKNKGIRDALRENNTDIALLNGYIGNFLGLDVIVDENYSDDQVLMLQRGILGDIADAEPLKSHTYNQEEDSTTILRVSRFTTAYVTDPKAVYLLKNIKA				NA	NA	NA	NA	NA
AK009_00794	480			hypothetical protein	ATGATAGAAAAATTCAATGAAGGCTCAATCACTGGGGGAGACTTACTCAAAGATGCTGTACTATTTTTGGAGGGAACTCACCGAGGTAAACCATATACAAAGCAAGACTTACATACCCTTGCTAACTCGTTTAACAAGGCTGACAATGTACCAGTCCAGTTAGACCACAGTGAGAGCGCAAAGGACACTGTAGGCTTCTTAGAGAGCGTATCTGCACAGGGTGGCCAACTCTTAGGTAAGCTACGTATCATTGACGAGAAGGTAAAGGAACGAGTAGACAAGGGACTTATGAAGAAGGTCTCCGTGTCATTCTACACAGACACTACCGGTAAGCCTACACGTTTACGTGAAGTTAGCCTAGTAGCTTTCCCACAAGTCAAGGGAGCGGAACTGTTTAACGAATCACTAAGCGAGGACGAACAATTCTATAGAAACTATGTAGCTGGTCTAGGGATTGGCTCAAGAGGGAGGAAACTATAA	MIEKFNEGSITGGDLLKDAVLFLEGTHRGKPYTKQDLHTLANSFNKADNVPVQLDHSESAKDTVGFLESVSAQGGQLLGKLRIIDEKVKERVDKGLMKKVSVSFYTDTTGKPTRLREVSLVAFPQVKGAELFNESLSEDEQFYRNYVAGLGIGSRGRKL				NA	NA	NA	NA	NA
AK009_00795	438			hypothetical protein	ATGGGTAAAGGAATGAAAGGACAGCCTATGGAGTGGAAAGACGAGGAAGCAAAGAAGCGTTCTCTAGCAAACTTACAGCCTAATGCGGCTATGAAGCACGGACTACGTAGCCAGAACTTTGAGGCTACATTAACAGAAGCAGAGCTTCAGCAGATTGCTAAGACAGAGAGCGACATCTTAGCACAGCTAGGAGATTCAGCGACCTCTACAGACAAGATCAATGCAGAGAGATACGCTATTGCACTCATCAAGGTACAACGAGCTGACCAAATTGAGAACGTATCTATCAAGTATAAAGACTTCACAAAGGAGCTTCTTGAGATTGAGAAACAGTTAGGCCTAGACAGACGTTACCGATTGAGTAAGTCTAACACTGAGAATCCTTCTAATACTGATTGGATGCTTAGCTTGTTTGATGGTGCTAACGAAAAACTATAG	MGKGMKGQPMEWKDEEAKKRSLANLQPNAAMKHGLRSQNFEATLTEAELQQIAKTESDILAQLGDSATSTDKINAERYAIALIKVQRADQIENVSIKYKDFTKELLEIEKQLGLDRRYRLSKSNTENPSNTDWMLSLFDGANEKL				NA	NA	NA	NA	NA
AK009_00796	246			hypothetical protein	ATGGATAAACTACATGTATTGTATACTGTGAAAGTTAAGTTTAAGGGAGAAGAAGCTGGGGAGAAAGTCCTGAAAAGGAAGCACCTCTCTAAGTGCGCTAAGGGGAAAGTATCTGACCAGCTCCAGTTTGTCTATGACTTCTATAGCCAACTATATAATACGAATTACACTGAGATGGTAGGACTAGACATGAAGTTTATCTCAGTAGCTGAATACGATGAATTATACCAAGAGGTATACGAGTGA	MDKLHVLYTVKVKFKGEEAGEKVLKRKHLSKCAKGKVSDQLQFVYDFYSQLYNTNYTEMVGLDMKFISVAEYDELYQEVYE				NA	NA	NA	NA	NA
AK009_00797	105			hypothetical protein	ATGCCGATGAGGAAGGAAGACACGGAGTTTAAACTTAGAGTGATGATTCTGCTATGGGTTGTACTATACGGAGCATTCGCTATGTTAGTACTCTTTAATATCTAG	MPMRKEDTEFKLRVMILLWVVLYGAFAMLVLFNI				NA	NA	NA	NA	NA
AK009_00798	336			hypothetical protein	ATGATACCTATGCTGAAATACAAAGATATTTCAAGGCAAACGCTAGAAGTAGAGTTTATCGTAGGTTCAATGTATTTTACAATTAAGGATGAATACAAACGTTATGTCCATTGTATATTCTCGATTGGAAGAGCTCGTGAGTTTGTGAGAATCTTAAGTAATGGAGAGATGGCTGAGGTGTTTGATCGTGGAGGAGATTTATTGAGAGTTCGTCCTATGAGAGATGACCATCTCGCTATTGAAATTGAATCGAAGGGGATGAGTAAGGGGTTTGTGTTAGATAAACAGCAAACTCAAGAGTTATCTAATTGGTTTCAACGAGTGCACAAACTATAA	MIPMLKYKDISRQTLEVEFIVGSMYFTIKDEYKRYVHCIFSIGRAREFVRILSNGEMAEVFDRGGDLLRVRPMRDDHLAIEIESKGMSKGFVLDKQQTQELSNWFQRVHKL				NA	NA	NA	NA	NA
AK009_00799	222			hypothetical protein	ATGACAACAAACACTATTCAACCAACTAATTTAGATATCGCTATGGAGGAGATCGATACTCTAGTATCTAACTTCCAAGACTCACTATCTCGTATTACTAATAAAGTTTGCAAAGTAGATACATTCCAACTAGGCCTTACGTATGTAGTTATCTTACGGGCTGGCAAAATCTCTAAGACTCTTAGTTTTAATTTAAATGAATTAACTGAGGAGAACTTTTAA	MTTNTIQPTNLDIAMEEIDTLVSNFQDSLSRITNKVCKVDTFQLGLTYVVILRAGKISKTLSFNLNELTEENF				NA	NA	NA	NA	NA
AK009_00800	189			hypothetical protein	ATGCAGGAGAAACAACTCAGGTACTTCACACGAGTTATGAACGCCTACTCGCTGGAAAGCATTGAAGAGGCTCAAAGATTTTATAAACTGTTCAGCGCTCTCAAGTTGTTACCACAGAGTAAGCGTAAAGAACTCGTAGATATAGCCTTTGAGCGTATCAATGAAGGAAAGTCTATAGTAGATAAGTGA	MQEKQLRYFTRVMNAYSLESIEEAQRFYKLFSALKLLPQSKRKELVDIAFERINEGKSIVDK				NA	NA	NA	NA	NA
AK009_00801	756			hypothetical protein	ATGAAGGAACTACGAAAATACCAATCATTTAATTCTGTAACCGAGATGGACAAGTCTGTCCAGCAATACATTGAGAAGTACAATCTAAGCGAGCGTGATCTAACTGTGTTATGGAAGATTGCTAGTTATAGTTGTAAATTCGTTGGAGTCAGTTACCTTAAGACAGATACACTAGCAGATCTAACTGGATACGTGAGACGTACTGTACAGCGCTCCCTCAAGTCTTTAGCTGAGAAGGGAATCATCACAAGACACTCTCAGTATAAACCTGTTAAAGGTGGCTATAGTGCTTCTATAACGGTTATTAATCCATTCGAGAGTCATCTTGAGGAGTCACAATGCGAGGTAGCTGAGGAGCCTACTCCTGAGTGCATTGAGGAGTCACCAGCTCATACAGATACAATTATTTCTAAAACTAAAAGCTCTAATAATAAAACCTACGTAGCACACGAGTTAGGACTAGCTCACTTGGATGCTATTGGCGTACCTACTCAATTCTCTATAGCAGCATTACCTTATTTGGATGTACAAGCTGTTTATAAACTTTGGAGCAAAGTACAAATGGCTGCAAAAAAACATGCTCCTGATCTAGTTGACACTGTAGAGATCGCTGTCTCATCAGTACGAGCTAGTGTGCTTGCTAGCAAGGTTAAACGTGTACGTGATTTCACTGGCTACTTCTATGGAGTTCTGGCCCAGAAGTTATCTACTGCTCAGCGATCTCTTAAGTGTCGTCTGTTTAATTTCCTCCAGTAG	MKELRKYQSFNSVTEMDKSVQQYIEKYNLSERDLTVLWKIASYSCKFVGVSYLKTDTLADLTGYVRRTVQRSLKSLAEKGIITRHSQYKPVKGGYSASITVINPFESHLEESQCEVAEEPTPECIEESPAHTDTIISKTKSSNNKTYVAHELGLAHLDAIGVPTQFSIAALPYLDVQAVYKLWSKVQMAAKKHAPDLVDTVEIAVSSVRASVLASKVKRVRDFTGYFYGVLAQKLSTAQRSLKCRLFNFLQ				NA	NA	NA	NA	NA
AK009_00802	918	xerC_2	COG4973	Tyrosine recombinase XerC	ATGGCACTACTTAGATTTATGATTAAGGATTACCTAGAGGATAAAGAACTTAGCGGGCTAGCTCCTAGGACAATACAGAGCTATGGAGATACACTCAATGAGTTTTCTCGCTGGCTCGTTGTTGAGAAGGAGATCATTAACATCGAGGATATTACTCCACCAGTTATAAAGGGCTACCTCCTCTACTGTTCCAAGGAGAGAGGAAACACAGTGGTCACTCGTAATGGTAAGCTCCAGCACTTGAAGACATTCTTTAGGTACCTAGAGGATGAGGACATTATAGAGATCCGCAGCAATCCCACTAACAAGATTAAGCCGGCTAAGACGGACAAGACCATCAAGGTTTACTCCGATGAACAGATAAAGCAGATGCTTAGATACTACAGGAGGATGCGCTCTCGAGAAAACACGTTGTACAGCTACAGAGGTCATACCGTGATAGTCGTCCTCGCGGGTACAGGCATAAGACTAGGCGAGCTGGTATCCATGAGGTGGGATTCTGTGGATCTACTCAATAAGACTATCACTATCTTTGGGAAGAATCGCAAGAGCCTGTCTACTCCGTTAACGGATAAGGTAGCTCGGGAGTTGTACGAGTGGAGATTATTCTGCGAGAAGTACTACATTAAGTTGCCTGCTCATGTGTTTAATGACCACAGAGGTAACCCACTCACAGTGAACGCTGTCAAGTTAATGTTCACCAGATTGTCTTCACGCATGGGTTTCAAAACTACAGCTCACATGTTTAGGCATACCTATGCAAGTAACTGTTTAAGAGCTGGCATGGATATATACACCTTGAGTAAGCTGATGCATCACTCCCAAATAAGAACTACTGAGGTTTACCTACATGCTTTCGGTAACTCGTTAGCTGAATCAAACGATAAGTATAACCCACTTAATAGGTTCGACTTTTAA	MALLRFMIKDYLEDKELSGLAPRTIQSYGDTLNEFSRWLVVEKEIINIEDITPPVIKGYLLYCSKERGNTVVTRNGKLQHLKTFFRYLEDEDIIEIRSNPTNKIKPAKTDKTIKVYSDEQIKQMLRYYRRMRSRENTLYSYRGHTVIVVLAGTGIRLGELVSMRWDSVDLLNKTITIFGKNRKSLSTPLTDKVARELYEWRLFCEKYYIKLPAHVFNDHRGNPLTVNAVKLMFTRLSSRMGFKTTAHMFRHTYASNCLRAGMDIYTLSKLMHHSQIRTTEVYLHAFGNSLAESNDKYNPLNRFDF	PGPT0022000_4755	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_00803	615			hypothetical protein	ATGATGCGAAAATTAACAAAGAAAGATCATGAACAAGTATTCGCTTATCTAAAAGAAGAAGCAGCCCTTAACTTGTTTATTATTGGAGATATTGAAGCTTTCGGTTATGACACAGATTTTCAAGAATTATGGGGAGTATTTAAAGAGAATGGAACATTAAAATCAATTCTACTCCGATTCCACGATTCATTTATACCCTATAGTAAAGAAGAATTTATTACCACTGATTATGAGGCACTTCTTTCCGCATATAAGCCACTTAAACTCTCTGGTAAGTCGACTATCGTAGAACAATTTGAAACTGCTTCAAATATACAACTAGGTACTAAAAATGAAATGTATTTTTGCGAATGTCTAAATGACAACAACTTACCTAGCACACCAATTCATGAAACAATTAAACTTGCCTCACTCGATGATATAGAACGAATTATGAAATTACGAAGTGACATCGCTGAATTTCCGACTACCAATGAATCAGAGAAAATATTAAGGCAGACTATCGAAACAAATACAGGACGCACATACTATATTGAAAAAGATGGCGTGATCATCGCATCCGCCTCTACTTCCGCTGAAAATTCATTATCCGCTATGGTAGGACAGGCGAGTTAA	MMRKLTKKDHEQVFAYLKEEAALNLFIIGDIEAFGYDTDFQELWGVFKENGTLKSILLRFHDSFIPYSKEEFITTDYEALLSAYKPLKLSGKSTIVEQFETASNIQLGTKNEMYFCECLNDNNLPSTPIHETIKLASLDDIERIMKLRSDIAEFPTTNESEKILRQTIETNTGRTYYIEKDGVIIASASTSAENSLSAMVGQAS				NA	NA	NA	NA	NA
AK009_00804	426	ytfJ_2	COG3874	putative spore protein YtfJ	GTGGATCATCCAATTCAAGGGTTAATGAAAGCAGCAATGGAAAATTTAAAAGAAATGGTTGATGTAAATACGATTGTTGGAGAGCCTGTTCAAACGGCTGACGGTGGTGTGGTGTTAACGGTTTCTAAAGTAGCGTTCGGTTTTGGAGCAGGAGGTTCTGATTTCCAAACGAATGATGGACAAAGAGCGAACGGTAACGCTGCATTTGGTGGCGGTAGCGCGGGTGGTGTTTCGATTACACCAGTAGCATTTCTTGTGGTGAATAAAGATGGAGTAAATATTCTTCATTTACAAAATGCGACACATTTAGCAGAAAAAATGATTGAATTAGCTCCGCAAACAATTGATAAAATTCAATCGATGTTCCAAAAAGAAGAAAAGAAAGAGGGAAATCATCATCCTCAAAACCCTGATGAAATCCTTTAA	MDHPIQGLMKAAMENLKEMVDVNTIVGEPVQTADGGVVLTVSKVAFGFGAGGSDFQTNDGQRANGNAAFGGGSAGGVSITPVAFLVVNKDGVNILHLQNATHLAEKMIELAPQTIDKIQSMFQKEEKKEGNHHPQNPDEIL	PGPT0024995_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA	NA	NA
AK009_00805	777			hypothetical protein	TTGTCTGGAGGATCTGACCAAGTAAAGAATATGATATATATTAATGGTAATCGTCGAGGTCATTGTTTTATTACATCAGGAATTACGTTTAAAGAGTTTGCGAGTAACATCCCTTCACCGCTTCATCAAGTGTTGCTTTTGAAGCACAACTTTGAATGGACGGATTTTCATTATCATACTTTATTTGAATATGTTGAGGAAGAAAATATACATAAGTTAATTCAAGCAGAGATTGATGAATTTGATGAATTTTGTTGGGTAGATTTTGATGATGCAAGCGATTTAGATGAATTAGAGCCGAAAGAAATTGCAGAATTATTATATTTGGCTCACAAAAAAGAACCACTTGCAAGAACATTCTTTCCGCTGTTGAAAAATCGATTTGTTTATTTTTCACATGATGACGGATGGTACAACAAAGTGTATTATCGTAGAATTGCTGATTTTGTAGGAATGTTAAGTAAAGTCATTCCGTATAAACTCGGTGCTTTCGGTAAGAAACGTTTTTCTTTCTTCCAAAAATCAAAAATTTTCCCAGCAATTTCAAAAGAATTGATCATGGGGCTGATTCCACTAATGGAAGATGGTCTTTACATAGATCTAGCAGGGAAGATTGAGTCAAGAAGAGGTCTTGAAATTCCGGTATATGTAGTTGGTTCGTATGAAAGTACGGATGAGGTGCTAGATAATATCGATGAATTGAAAGAGGAAGCAACAGAAACAGGTTGGCTCATTTTTGATAAGAAAGAACAAGAGTGGCAATGGGTTGTTGACTAA	MSGGSDQVKNMIYINGNRRGHCFITSGITFKEFASNIPSPLHQVLLLKHNFEWTDFHYHTLFEYVEEENIHKLIQAEIDEFDEFCWVDFDDASDLDELEPKEIAELLYLAHKKEPLARTFFPLLKNRFVYFSHDDGWYNKVYYRRIADFVGMLSKVIPYKLGAFGKKRFSFFQKSKIFPAISKELIMGLIPLMEDGLYIDLAGKIESRRGLEIPVYVVGSYESTDEVLDNIDELKEEATETGWLIFDKKEQEWQWVVD				NA	NA	NA	NA	NA
AK009_00806	321			hypothetical protein	ATGAAGAAATATTATACAATTGTGGGTATTATAAGTATTATTCTCGTGGCAATATTACTTATAACTTGTCCGAAAGAATCAGATTTTAAAGTGTATGTAGAGGATAAGTATGCGTTGAATTGTAATGAGAGTAGTTTTGAATGCACGCAAAATGTAGATGGTAAAAAAGAAAAACTACAATTTGAAAGTACAGATGCACGAAATGGTGTATTCTTTATGACTGTAAAGCAAACATTTAAAACAGAAGCTGGTGTTTCAAAAGAATATAGCGGAGTAGGAATGTTTGGTACATTTCTTTTTGTTTCAGAGAAGACTTTCTAG	MKKYYTIVGIISIILVAILLITCPKESDFKVYVEDKYALNCNESSFECTQNVDGKKEKLQFESTDARNGVFFMTVKQTFKTEAGVSKEYSGVGMFGTFLFVSEKTF				NA	NA	NA	NA	NA
AK009_00807	213			hypothetical protein	ATGAAGAATACATGTATCGTTTGCGGTGGTAAGGAGTTTTTTTCCTCAACTTTGTATGCACGTACGAAACAAGATTGGGCATATGCACAAAATATGTATCGATTTGAAAAAGTATTTATTGAGCATCGAGATGAAGAAAATTATCCAGTGTTTCAAGAAATTACAGCGAAACATTGTTGTGGATGCGGTCATATTATGTTGTATCATGAATGA	MKNTCIVCGGKEFFSSTLYARTKQDWAYAQNMYRFEKVFIEHRDEENYPVFQEITAKHCCGCGHIMLYHE				NA	NA	NA	NA	NA
AK009_00808	339			hypothetical protein	ATGCGAAGAAAGAGAAATCATCATTTTAAAAGTGGTGAAAAAAACGAAGAGTATGCAGCTGAAATATCACCAGCTGGCATACCAATTAGACATAAGCGTAAAGAAATTGCAAATGAAATAGAAGGTACAAATACCGGTGCAATGGTAGGCTATGTCGCTTTATTTCTTTCGTTATTCTCCATTGCTTTTTATCCCGTTACGCTCGGCTCCCTAGCAATTTTAGTTGGCCTATTAGCTGTCAATTTCGGAGCAAGAACACTTGGATATACAGCAATTGGTTTTGGTAGTTTTTCTGTTTTATTTACTTTACTTTATCCGCTTGCTTTGTCAGCGTTTTAA	MRRKRNHHFKSGEKNEEYAAEISPAGIPIRHKRKEIANEIEGTNTGAMVGYVALFLSLFSIAFYPVTLGSLAILVGLLAVNFGARTLGYTAIGFGSFSVLFTLLYPLALSAF				NA	NA	NA	NA	NA
AK009_00809	681	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGACAACATTTAATTGGCATGAATCAGCAGAGAAGAAATGGGATAGTAGTGCGGAGTTTTGGAATCAAAATAGTCAGGAAATGTGGGATAGCGGGAGCAGAAGTACAATTATTCCGTTTTTTGAACAATACGTGAAGAAAGAAGCACAAGTGCTCGATGTTGGTTGTGGTGATGGTTACGGTACATATAAATTAAGTCGCGCAGGCTATAAAGCAGTGGGAGTAGATTTATCGGAAGTGATGATTCAAAAAGGTAAGGAGCGCGGAGAGGGACCAAATTTATCTTTTATAAAAGGAGATCTTTCTGCATTACCATTTGAAAATGAGCAATTTGAATCAATTATGGCAATTAATTCTTTAGAATGGACGGAAGAGCCATTACGAGCGTTAAATGAAATAAAGCGTGTGTTAAAGAAAGATGGATATGCATGTATTGCAATTTTAGGACCGACAGCAAAGCCACGAGAGAACAGTTATCCTCGCTTGTATGGAAAAGACGTTGTTTGTAATACGATGATGCCTTGGGAATTTGAACAGTTAGCGAAAGAACAAGGTTTTGAAGTTGTAGATGGCATCGGCGTATATAAGCGCGGAGTAAATGAGAAGATGCTAGGTCAACTACCTACAGAGTTACAACAATCGTTAACATTCTTATGGGTATTTATGTTAAAAAACGTATAA	MTTFNWHESAEKKWDSSAEFWNQNSQEMWDSGSRSTIIPFFEQYVKKEAQVLDVGCGDGYGTYKLSRAGYKAVGVDLSEVMIQKGKERGEGPNLSFIKGDLSALPFENEQFESIMAINSLEWTEEPLRALNEIKRVLKKDGYACIAILGPTAKPRENSYPRLYGKDVVCNTMMPWEFEQLAKEQGFEVVDGIGVYKRGVNEKMLGQLPTELQQSLTFLWVFMLKNV				NA	NA	NA	NA	NA
AK009_00810	1752	fhs		Formate--tetrahydrofolate ligase	GTGCAGAAAATACAAAAAACTGATACAATATCATCAGAACCAATTAAAGGGGGACTAGGGTATATGACAACTACTACAACAGTGAAATCCGATATTGAAATCGCACAAGAAGCGAGTATGAAGAAGATTCAAGAAATTGCAGCTGATTTAAATATTTTAGAAGATGAATTAGAGCCATACGGGCATTATAAAGGTAAGTTATCTCTTGATATTTTTAAGCGCTTACAAGATGAGAAAGACGGTAAAGTTGTTTTAGTAACAGCGATTAACCCAACTCCAGCTGGAGAAGGTAAATCAACAGTAACAGTTGGTTTAGGTCAAGCTTTTAATAAAATTGGTAAGAAAACAGTAATTGCACTTCGTGAACCATCTCTTGGACCAACGATGGGATTAAAAGGTGGAGCAGCAGGTGGCGGTTTTTCACAAGTCGTACCAATGGAAGACATTAACCTTCACTTTACTGGAGATATCCATGCGATCACAACTGCCAATAACGCATTAGCAGCGTTTATTGATAATCATATCCAACAAGGAAACACACTTGGAATTGATACGCGTAAAATCGTTTGGAAACGCTGTGTTGACTTAAATGATCGTGCCCTTCGTAATGTAGTAATTGGTCTTGGTGGACCTGTACAAGGTGTACCACGTGAAGACGGTTTTGACATTACAGTAGCATCTGAAATTATGGCCGTGTTCTGCCTTGCAACAGATATTCAAGACTTAAAAGCACGTCTATCTCGCATCGTAGTTGCTTATAACTTTGCAAATCAACCTGTAACGGTTAAAGATTTAGGTGTAGAAGGTGCGTTAACGCTATTATTAAAAGACGCATTAAAGCCAAACTTAGTACAAACGTTAGAAAATACACCAGCTATTATTCATGGTGGACCATTTGCGAATATTGCTCACGGTTGTAACAGTGTTATCGCTACGACAATGGCAGCAAAATTAGGTGATTATGTTATTACAGAAGCTGGATTCGGTGCTGATTTAGGCGCTGAAAAGTTTTTAGATATTAAAGCCCGTGCAGCTGGTATTAAACCAGAAGCAGTTGTTATTGTTGCGACTATTCGTGCGCTTAAAATGCATGGCGGCGTTGCAAAAGATCAATTAAAAGAAGAAAATGTAGATGCATTAGCAAAAGGTATGGAAAACTTACAGAAGCATGTTGAAACAATTCAAAGCTTCGGTGTGCCTTTCGTAATTGCAATTAATAAATTCATTACAGATACAGATGCAGAAGTTACATACTTACAAGAGTGGTGTAATGAGCGTGGCTATGCAGTATCCTTAACAGAAGTTTGGGAGAAAGGTGGCCAAGGCGGAGTTGATCTTGCTGAAAAAGTACTAAAAGAAATCGAAAAAGGTGAAAACAACTACGCACCACTTTATGAGTTAGAATTACCCTTAGAAGAAAAAATTCGTACAATTGCTCAAAAAGTATATGGCGCAAAAGATATTGAATTTGCTCCGAAAGCACGTAAGCAATTAGCTCAATATGAAGGAGAAGGTTGGAGTAACCTACCAGTTTGTATGGCGAAAACTCAATACTCTCTTTCTGACGATGCAACAAAATTAGGTCGTCCATCTGACTTTATCGTTACAATTCGTGAGTTAAAACCATCTATCGGTGCAGGCTTTATCGTTGCGTTAACAGGTACAATGTTAACAATGCCAGGTCTTCCAAAACAACCAGCAGCACTTCAAATGGATGTAAATGAAGATGGAAAAGCAGTAGGTTTATTCTAA	MQKIQKTDTISSEPIKGGLGYMTTTTTVKSDIEIAQEASMKKIQEIAADLNILEDELEPYGHYKGKLSLDIFKRLQDEKDGKVVLVTAINPTPAGEGKSTVTVGLGQAFNKIGKKTVIALREPSLGPTMGLKGGAAGGGFSQVVPMEDINLHFTGDIHAITTANNALAAFIDNHIQQGNTLGIDTRKIVWKRCVDLNDRALRNVVIGLGGPVQGVPREDGFDITVASEIMAVFCLATDIQDLKARLSRIVVAYNFANQPVTVKDLGVEGALTLLLKDALKPNLVQTLENTPAIIHGGPFANIAHGCNSVIATTMAAKLGDYVITEAGFGADLGAEKFLDIKARAAGIKPEAVVIVATIRALKMHGGVAKDQLKEENVDALAKGMENLQKHVETIQSFGVPFVIAINKFITDTDAEVTYLQEWCNERGYAVSLTEVWEKGGQGGVDLAEKVLKEIEKGENNYAPLYELELPLEEKIRTIAQKVYGAKDIEFAPKARKQLAQYEGEGWSNLPVCMAKTQYSLSDDATKLGRPSDFIVTIRELKPSIGAGFIVALTGTMLTMPGLPKQPAALQMDVNEDGKAVGLF	PGPT0008065_198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008065-fhs-K01938	NA	NA
AK009_00811	528			hypothetical protein	ATGTTTGATCCAACTGCTTTTGACAATTTAAAAGTAATCGTAGAAGGTGCTGTGTATGATTTTGATCTACATGGAGATATTCTTGTAACAGATCGAAAAGATATGATGGACCTTGCTTCATTAAGTCGTATATATCATATCTCATTTCAATTAACAGAACCGTTTGAACCATTAGTAGAAGCAACATTTTCATTATCTGTGGATGCAAAGAACTTGTCTGGTGAAATACTAGAAGTGCCTCAGTTTACACCAGGTTGTGAAATGAAGCTAGCATTTTCATTCCCGTTAGAACAACCAGAAGTAGGATGCGAAGAAATTGAAACTTTAATGCGTTCTATATGGGGAAAAGAAAGAATGATTATGCAGAAAGTTTCATACGAATATAATAAGCAAGCGATTTCATATCATAATAAGGTAGAGGTTCTATTTCAAAAAGCGATTACAGAAGACCATGTTGATGATTTAATAGCTGTTATTTCAAACATGATAGAAACGGTGCGAACAATACAGCATTTTCTTCAAAAATAG	MFDPTAFDNLKVIVEGAVYDFDLHGDILVTDRKDMMDLASLSRIYHISFQLTEPFEPLVEATFSLSVDAKNLSGEILEVPQFTPGCEMKLAFSFPLEQPEVGCEEIETLMRSIWGKERMIMQKVSYEYNKQAISYHNKVEVLFQKAITEDHVDDLIAVISNMIETVRTIQHFLQK				NA	NA	NA	NA	NA
AK009_00812	1170	cshC	COG0513	DEAD-box ATP-dependent RNA helicase CshC	ATGATAAAAGATATGCAACCATTTTTACAAGAAGCTTGGGAGAAGGCTGGTTTTAAAGAATTAACTGAAATTCAAAAACAAGCGATTCCAACTATTTTAGAAGGACAAGACGTTATAGCTGAATCTCCAACTGGAACAGGAAAAACATTAGCGTACTTATTACCCCTTTTACATAAAATTAATCCTGAAGTAAAACAGCCACAAGTTGTTGTTTTAGCGCCAACACGTGAACTTGTCATGCAAATTCATGAAGAGGTTCAAAAGTTTACAGCAGGAACTGAAATTTCAGGGGCATCTTTAATTGGTGGTGCAGATATTAAGCGCCAAGTTGAAAAATTAAAGAAACACCCGAGAGTAATTGTCGGTTCACCAGGACGTATTTTAGAATTAATTCGAATGAAAAAGTTAAAGATGCATGAAGTAAAAACGATTGTATTTGATGAGTTTGATCAAATTGTAAAACAAAAGATGATGGGCGCAGTACAAGATGTAATTAAATCTACAATGCGAGATCGTCAATTAGTATTCTTCTCGGCGACAATTACAAAAGCGGCAGAAGATGCTGCACGCGATTTAGCAGTTGAACCACAATTAGTGCGTATAACACGTGCAGAGTCAAAAAGCTTAGTTGAACATACGTATATCATTTGTGAGCGACGCGAAAAAAATGATTACGTAAGAAGAATTATGCATATGGGCGATGTAAAAGCAGTTGCTTTCTTAAATGACCCATTCCGTTTAGATGAAATTACTCAGAAATTGCAATTCCGTAAAATGAAAGCAGCAGCTCTTCATTCAGAAGCAAGTAAGCAAGAGCGTGAAGCGACGATGCGTGCATTCCGTGGTGGGAAACTAGAGATTCTCCTTGCTACTGATATTGCAGCACGCGGTATCGATATTGATGATTTAACACATGTAATTCACTTAGAGTTACCAGACACAGTAGACCAATACATTCACCGCTCAGGACGTACTGGACGTATGGGTAAAGAAGGAACAGTAGTTTCTCTTGTAACAGAACAAGAAGAACGTAAATTACTGCAATTTGCGAAAAAACTAGGCATCGTATTTACGAAGCAAGAAATGTTCAACGGATCATTCGTAGAAACGAAACCGAAAGCACCAAAGAAAAAGAAACCAGCATTTACTGGGAAGAAAAAGCCTAGATAA	MIKDMQPFLQEAWEKAGFKELTEIQKQAIPTILEGQDVIAESPTGTGKTLAYLLPLLHKINPEVKQPQVVVLAPTRELVMQIHEEVQKFTAGTEISGASLIGGADIKRQVEKLKKHPRVIVGSPGRILELIRMKKLKMHEVKTIVFDEFDQIVKQKMMGAVQDVIKSTMRDRQLVFFSATITKAAEDAARDLAVEPQLVRITRAESKSLVEHTYIICERREKNDYVRRIMHMGDVKAVAFLNDPFRLDEITQKLQFRKMKAAALHSEASKQEREATMRAFRGGKLEILLATDIAARGIDIDDLTHVIHLELPDTVDQYIHRSGRTGRMGKEGTVVSLVTEQEERKLLQFAKKLGIVFTKQEMFNGSFVETKPKAPKKKKPAFTGKKKPR				NA	NA	NA	NA	NA
AK009_00813	810			hypothetical protein	ATGGATAGGAAATTAGGAATGTTTTTGAATACGAAACATATTGAAGTAAACGAAGGAATACAAAAAGCAAGGGAATGGGATTTAGAATATATTCAATTATATGCTATGAATAAAAACTTCAACTTAGCTAATATTCCAGTGGTAGAATGGACTGCTTTAAAGAAAAGCTTATCTTTTAATGGAATAAAGATTCCATCATTAGCAATTAGTTTTGGAGAAAATGGAATTACAGGAACAGAAGTTGACAGTGCAATAGATCAGATTAAATATATTACTGACAGAGGTTTGGAGCTGGGAGCAAAGATAATAACAGCTCATATTGGGAAAGTTCCAGATGATGAAAAAAGTGAGTACTATGATAAAATGATACGGGTTTGTTATGAGATAGGGGAATTAGCATTCAAACTTGGGGGAGTCTTTGCTATTGAGACGGGATCTGAAAAAACAATAGTATTAAAACAATTTTTAGAAACTGTAAACTCGAAAGGACTAGCTGTTAACTTTGACCCAGCAAATTTAATAAGTGATGTAAATGAAAATCCGGAAGAAAGTTTATTACTATTAAAAGATTATATAGTACAAACTCATATTAAAGATTGTAAAGAAGTGAAAAGCGATCGTTCAAGTAAGTATATAGAAGTAGCAGTAGGAAATGGTGAAGTGGATTTCGATATATTTTTCAAAGTATTAGATGAAATTGGATTCGACGGATATAACATGATTGAAAGAAATGATTATTTTGACGAACTGGATGGGATGAGTCAGTCGATAAATTTTGCAAAGAAGTACATACCAACTCAAAAGGAATAA	MDRKLGMFLNTKHIEVNEGIQKAREWDLEYIQLYAMNKNFNLANIPVVEWTALKKSLSFNGIKIPSLAISFGENGITGTEVDSAIDQIKYITDRGLELGAKIITAHIGKVPDDEKSEYYDKMIRVCYEIGELAFKLGGVFAIETGSEKTIVLKQFLETVNSKGLAVNFDPANLISDVNENPEESLLLLKDYIVQTHIKDCKEVKSDRSSKYIEVAVGNGEVDFDIFFKVLDEIGFDGYNMIERNDYFDELDGMSQSINFAKKYIPTQKE	PGPT0017530_1120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
AK009_00814	429			hypothetical protein	GTGGAAACCTACATAGAATATAAAAAACCATTAGGGGGAAATGAAATGATCCATAAAGTTGGACAAATTATGCTGTATGTAAATAATCAAGATGAGGCAGTAAATTTTTGGACGGAAAAGGTAGGGTTTCATGTAGTAGCAGAGGAAGATAACAAGCAAGGAATGAGATGGATTGAAATCGCTCCGACTAATGGTGCTGAAACGAGCATTATACTACATAATAAAGAAGTTATTTCGAAAATGAGCCCAGAATTAAATCTTGGTACACCGTCCTTAATGTTCTTCTCAGAAAATCTGGATCAATTATATGCAGATTTAAAAAATAAAAATGTTACTGTTGGAGAAATGGTAACTATGCCTTCTGGTAAAGTATTTAACTTTGCTGATAGCGAAGGGAATTATTTTGCGGTTATGGAAAAGAACAAATAG	METYIEYKKPLGGNEMIHKVGQIMLYVNNQDEAVNFWTEKVGFHVVAEEDNKQGMRWIEIAPTNGAETSIILHNKEVISKMSPELNLGTPSLMFFSENLDQLYADLKNKNVTVGEMVTMPSGKVFNFADSEGNYFAVMEKNK	PGPT0013300_4829	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
AK009_00815	639			hypothetical protein	ATGGGATCACGAATTATGCATGCTATTATCGCTATCAAGATTGCCGAAAAACTATATATCCAAGATAAAACTTCTTTCATACTTGGAGGTGTAGCCCCTGATGCGGTTCATTCAGCAGAAGAAAAAGGAACTTCACACTTTTACGCTGGTACAACGAAAAACTATACGAGAAGGATAGATTTCAATTCTTTTTTTCAAAAATATAAAGCTCATATGGATTCCCCTTTTCTCTTAGGCTATTACACCCATCTCATTGCCGATGACAATTGGCTAAGCGGCTTTTTTCTACCTTGGCTAAAAAATAGAATCGAAAATGACGAAACGATCGCACCCCTGTACTATAACGATTTTAAATTATTAAATGCAAAGTTGCTTCATCATTACGATACAGAACAGCAACTCTTCTCTCTTCTCAACCAAGAGGCTCACATCATGGATATTGAAGAAGTTTCTAAAGAAAACGTTTTTTCTTTTCGAAAGTATCTTTTTGAAGATATGTTGTATCCGGAGCAAAATTTGCATGAAGACTTACAAGTGTTTACGTTTGACCAAATCGTTGGTTATATTGAGACAGCCATTGAAAAAGGCGTATTTTATATTAATCAATTCTCTAATGAAAAATCCACTTCAAACATGTAA	MGSRIMHAIIAIKIAEKLYIQDKTSFILGGVAPDAVHSAEEKGTSHFYAGTTKNYTRRIDFNSFFQKYKAHMDSPFLLGYYTHLIADDNWLSGFFLPWLKNRIENDETIAPLYYNDFKLLNAKLLHHYDTEQQLFSLLNQEAHIMDIEEVSKENVFSFRKYLFEDMLYPEQNLHEDLQVFTFDQIVGYIETAIEKGVFYINQFSNEKSTSNM				NA	NA	NA	NA	NA
AK009_00816	987	qorA	COG0604	Quinone oxidoreductase 1	ATGAAAGCTATCGTTGTAACGTCGTTCGGTGGTCCTGAAGTGATGAAATATACAGATGTGGATATACCCGCTATTTCAGAAGATCAAGTTTTAATTCGTGTTGTTGCTACTAGTGTGAATTTCGCCGATATTAAATCCCGTTATGGTAAAAAAGGAAATAAAGCACTACCTTTTATACCAGGGATAGATGCCGCTGGTATTGTAGAACGTGTCGGTTCTCAAGTGAAAAATATTCATCCTGGACAACGTGTCATTGCTTTTCCTCAAAATGGATCTTACGCAGAATACGTTGTCGCAAACGAAAACCTTACTTTCGTTTTACCTGATGAAGTCGATTTTCAAACTGCAGCTGCTTGTCCGATTGTATCTTTTACAAGCTATAATTTACTCGCAAATGTTGCAAGGCTTCAACAAGGCGAGTCTGTACTCATTCATGCTGCGGCTGGCGGAATTGGTACAACAGCTATTCAACTTGCAAAACGATTAGGGGCTGGAACCGTTATTGGTACTGTCGGAAGTGAAGTAAAAAGAAAAATAGCTTTAAATGCTGGAGCTGATTATGTTATTTGTCACCAAGATGAGGATTTTGTAAAGAAAGTCAACGAACTGACAAACGGTGAAGGGGTTGATGTAATTTTAGACTCTATTTCTGGAACGGTTTCAGAAAAAAGTTTAAATTGTCTCGCTTATTATGGTCGCCTCATTCATTTCGGTAATGCTAGCGGTGAAATTGGTAATTTCCAAACGAAAGATTTACACGCAAGTTGTCGCTCTATACTCGGTTTTAGCTTTGGCACTACACGAAAAAAACGTCCTGAACTACTCCAAGAAACTGCAAATGAAGTTTTCCGTTATTTACGTGATGGCAGTCTAAAAGTAAAAGCAACGAAATCTTTTCCGCTTCAAGATGCAGGGAAAGCACATGAATGGGTCGAAAGTAGAAAAAGTACAGGGAAAGTAATACTAACTGTTCAGTCCTCTTCCTGA	MKAIVVTSFGGPEVMKYTDVDIPAISEDQVLIRVVATSVNFADIKSRYGKKGNKALPFIPGIDAAGIVERVGSQVKNIHPGQRVIAFPQNGSYAEYVVANENLTFVLPDEVDFQTAAACPIVSFTSYNLLANVARLQQGESVLIHAAAGGIGTTAIQLAKRLGAGTVIGTVGSEVKRKIALNAGADYVICHQDEDFVKKVNELTNGEGVDVILDSISGTVSEKSLNCLAYYGRLIHFGNASGEIGNFQTKDLHASCRSILGFSFGTTRKKRPELLQETANEVFRYLRDGSLKVKATKSFPLQDAGKAHEWVESRKSTGKVILTVQSSS	PGPT0013255_4470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK009_00817	579	cnrH		RNA polymerase sigma factor CnrH	GTGAAGGATGAAACAGTGTATACAAATTTAATCCAATTGACTTTATCAGGAAATAAAGAAGCGTATAGCGAATTGTATGATAAAACGATTCAAGAAGTATATAAAACAGCACATTTTTTAATTGAAGATAAAACAGATGTAGATGATGTCGTTCAAGAAATATACATACAACTATATGAATCGCTTCGTAAGTATGATAGTGAGAAGCCATTTCGTCCTTGGCTAATTGGACTTGCGATTAAACAAATTCACTCTTATAGAAGAAAGAGGTGGATGCGACTACGCATTATAAAAAAAGCAGAAGAGCAAAGAAAACCAGTACAAATTGATTTTTCTAACGATGTTGTAAGTAAAATATCAAACAAAAAACTAATTGAACTCATTCATAAATTACCGTATAAATTGAAACAAGTTATTATCTTAAGATACTTACACGATTATTCACAAGAAGAAGTAGCACAAATATTACATATTCCAATTGGTACTGTGAAATCTAGAATTCATTCGGCATTAAAGAAACTACGTCAAAAAGAGCAAGTAGAAGAAATCTTTTTAGGAGAGGTAGGGAATGTGAAATGA	MKDETVYTNLIQLTLSGNKEAYSELYDKTIQEVYKTAHFLIEDKTDVDDVVQEIYIQLYESLRKYDSEKPFRPWLIGLAIKQIHSYRRKRWMRLRIIKKAEEQRKPVQIDFSNDVVSKISNKKLIELIHKLPYKLKQVIILRYLHDYSQEEVAQILHIPIGTVKSRIHSALKKLRQKEQVEEIFLGEVGNVK	PGPT0014960_6886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_00818	681			hypothetical protein	ATGAGTTTAGATTGTAGAGTTAGAGAATCTATACGAGAAGAAGCGAAGGGGATTGTTGCCCCGCCGGAGTTAAAAGAAAAAGTAATCGTTCAAATTAAAATGAATCAAGGAGGGCGTAAGAGAAAGAAACATCTTATTGCAGGAGTGCTTGCAGCAGCTCTTTTAATCCCGACGACTGGTTTTGCGTATCAATCTATTATGGCGGATGGTATATACGGATCTTTTGAGAATTTAAAAAAACATGCCGGAGCAATGACATTAGAAACGTATATGCGTTTTAATGCAAAATTATCAGAAGCGAAAGATGAAATGGGTACGAAGGAATATGAAGAGTTTACAAAAGAAATGAAAAAATTAACTAGTGCAAAGCTTGCGTACGGAGATTCGAACGGTAATATAGATTACGATCAATTATCACCAGCTAAAAAAGAGGAATTGAAAAAGGTAGTAATGGAGCTTCATCCGTATTTTGATAAATTAAATGGCCATAAATCTAGTAAAGAAGTACTAACTCCTGAAGAGTATGAACAATATATGGAGGCATTAATGTCATATCAAACTGTGTTAGTAAAAACGAAATCGAGTGGCGGGATAACAGTAGAAGAAGTACCTGAGGCGTACAAAGAAAGATTTATTAAAGCGGAGCAGTTTATGGAGTATGTAGATGAAAAGGTGAGATAA	MSLDCRVRESIREEAKGIVAPPELKEKVIVQIKMNQGGRKRKKHLIAGVLAAALLIPTTGFAYQSIMADGIYGSFENLKKHAGAMTLETYMRFNAKLSEAKDEMGTKEYEEFTKEMKKLTSAKLAYGDSNGNIDYDQLSPAKKEELKKVVMELHPYFDKLNGHKSSKEVLTPEEYEQYMEALMSYQTVLVKTKSSGGITVEEVPEAYKERFIKAEQFMEYVDEKVR				NA	NA	NA	NA	NA
AK009_00819	1947	ubiB		protein kinase UbiB	ATGTTTTTTCAATTTTTTCTACTAGCAATCATTATGTCTTTTATTAGTGGTCGACTAATTGGTACAAAACTAAATCTTTTCAAACAAGCAAGTGCAGCAACTTTAGGTGTTTCACTTACGTCAGCTCTGTATTGGTTTTTATATTTACGCTATCAAGATGAATCGGTTGTCGGTGTTGATAGATATTTTTGGCTAGGAAGCTCATTAATTGTATCCATGCTTTGTTACCTAGTTTTTGAATTATTTGATCCTATTAGACGAGGCGAAATGGATGACGTAGTAACGGAAAGCCGAAATCCTATTTCAAAATTCTTCGCAAAGGTTGGTAGACAAAAAAGATATATGCGTGTCTCTTCTATTGCAATAAAACACGGAATGGGTAAATATTTAGCTTTAAAGCGCTCGCCAGAAGCAGATCGTAAGCTCGCCACTTCACTTCGAAATACACTAGAAGAATGCGGCGGTGTATTTATTAAATTCGGACAAGTTTTATCAACTCGCTCTGATTTATTACCACCTGCTTTTATTCACGAGTTATCAAACCTTCAGGAAAATGTAACGCGTTTATCACAAAAACAAGTTGAAGAAATATTAAAAAAGGAACTACATATACCAAAAGATGAAATTTTCAGCTCCTTTGAAATGGAACCGTTAGCTGCCGCCTCTATTGGCCAAGTACATAAAGCGAAGTTGAAAGAAAACGACCAGGATGTCGTCGTTAAACTACTACGTCCTAATATTTCTGAGACAATTAAACGTGACTTAGATATTTTAATTCATTTTTCTTTATGGATTTCCAACAAATCAACTTGGGCTAAAAATATCGGATTTCTTGATTTAGCACATGGCTTCTCCATCGCAATGAAAGAAGAAATTGATTTCAAAATTGAGGCTCGTAACTTCGAACAAGTGTCTGATTCACTAAAAAATAGCGAAACGAAAGTAAAAATACCGAAAGTATATAAAGAATACAGTAATTCAAAAATACTTGTGCTTGAATTTTTAGATGGAGTAAGTGTTAAAAGTGGGTCAGCATTATTAAATGAATTACAAATTGATACGAAAAAAGTACAACGACAACTCTTTGATTGTATTTTAGAGCAAATTTTCTTTAAAGGTATTTTCCATGCAGACCCTCATCCAGGTAATGTGTATGTTCTTCGTGATGGCACACCTGCATTACTTGATTTCGGTTCCGTCGGGCGATTAGGAACACTACAACAAGATGCATTCAAGCGACTACTTATCGGCTTTGAGCGCAAAAATTCTTATGTCTTGCTTGATGGACTGCTTCAATTAGTTGAAAAGAAGCCAAATGTTGATAAAGAGGAATTAGAACAATCTATCAGTCAATTATTAATCCAAAGTACGTATGGTTCTACAAATGGTTCTGAAGAATTCATTCAGGGGCTATTTCAAATAATCGCTGAGTTTGAATTAGCATTTTATCCAATGGTTGCAGGGGCTTTCCGTTCTCTAATTACGCTAGAAGGAACGATGCTGCAACTAAATCCCGAATTCAATTTAATGGACGAAGCGAAACGCTTTGCGAAAGATCATGCAGCTAGTTTCATGTCAGTTAACAATTATTCTAGTTTAAAAGAAGCTGCAACAAACGAATTACTCGCTATGTTACCTGCCATGCGACGCATTCCTAGAAAACTAGATGATTTAAGTTCAAAACTAGAAAACGGAGAACTATCCGTTAAGGTTGGCTTTTTCTCTGAAGAAACAAATGCATCGTTTATTACTACATTTATCTCACAATTCCTCATTGCATTTATTGGAACTGCATTTGGTGGGATTTCGGTAGGCGTATTGCATTTAGCAAACAGTGCGACAGAGCCAAATGATCAATTTTTAAGTGTCGTTGGTTACGGTGGTTTATTTATAAGTGCGATATTACTTGTAAGAGTCGCTATTCATGCGGTAAGGAAATTTAAGTAA	MFFQFFLLAIIMSFISGRLIGTKLNLFKQASAATLGVSLTSALYWFLYLRYQDESVVGVDRYFWLGSSLIVSMLCYLVFELFDPIRRGEMDDVVTESRNPISKFFAKVGRQKRYMRVSSIAIKHGMGKYLALKRSPEADRKLATSLRNTLEECGGVFIKFGQVLSTRSDLLPPAFIHELSNLQENVTRLSQKQVEEILKKELHIPKDEIFSSFEMEPLAAASIGQVHKAKLKENDQDVVVKLLRPNISETIKRDLDILIHFSLWISNKSTWAKNIGFLDLAHGFSIAMKEEIDFKIEARNFEQVSDSLKNSETKVKIPKVYKEYSNSKILVLEFLDGVSVKSGSALLNELQIDTKKVQRQLFDCILEQIFFKGIFHADPHPGNVYVLRDGTPALLDFGSVGRLGTLQQDAFKRLLIGFERKNSYVLLDGLLQLVEKKPNVDKEELEQSISQLLIQSTYGSTNGSEEFIQGLFQIIAEFELAFYPMVAGAFRSLITLEGTMLQLNPEFNLMDEAKRFAKDHAASFMSVNNYSSLKEAATNELLAMLPAMRRIPRKLDDLSSKLENGELSVKVGFFSEETNASFITTFISQFLIAFIGTAFGGISVGVLHLANSATEPNDQFLSVVGYGGLFISAILLVRVAIHAVRKFK	PGPT0009520_149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688	NA	NA
AK009_00820	435			hypothetical protein	ATGCAAAGAGTAATGCTATACCTCTGCTTCACATTATTTATCGTCTTATTATTATTTGTTGGAGTGAAGATTCAATTTTATTTAGATACAGACGCGCAAGTGAACTTTAACGTTTATCCAAGATTATTCTACTTTACACTCTTTCCTCTTTTGGTCGGCATTTTATTACGATTCCTTCAATCCATTAATCACGAAACAAGTAAACAAAACTGGAGTTTTCAACCGGATAAGTTTATCGCTATTACAGTGCCTACAATATTAATTTCCTTTTCTCCAGCACTACTTTTCTCACCACTTGGCGAATACCTACCTTATTTAGCTAATGTTATTCTTATAAATACAACTTTTGTTACGATAATTAGTTTAATAGCTGGTTATTCACTATTAGATTGTTTTATACAAAAGGACAATGCAACGATGAAAAAATATAATTGA	MQRVMLYLCFTLFIVLLLFVGVKIQFYLDTDAQVNFNVYPRLFYFTLFPLLVGILLRFLQSINHETSKQNWSFQPDKFIAITVPTILISFSPALLFSPLGEYLPYLANVILINTTFVTIISLIAGYSLLDCFIQKDNATMKKYN				NA	NA	NA	NA	NA
AK009_00821	972			hypothetical protein	ATGAAAAAAGTAGAGCAATTATCTTCTCACCTATATCTTATTGATGATTTCGATTTACAGCATAATGAACGAACAGGTACGTACGTTTTATTAGGTGAAGATATTACTTTAATTGAAACTTGTGCAGCCCCTTCTCTTCCGTATATTTTAGACGGCTTACAACAATTACATATTGATTTAAACGAAGTTAAAAACATTATCGTTACACATGTTCATTTAGATCACGCCGGTGCTGCTGGTTTAATGATGGAAAAATGCCCAAATGCTACGTTATATGTGCATTCTCGTGGTGCTCGTCATATGATTGATCCAACAAAACTTATTTTAGGTGCAAAAGCTGTGTACAAAGAAGATTTCGATAAACTCTTTGATCCAATTCTTCCAATTGAAGAAGAACGTGTTCATATTGTACAACATGGTGATACGTTAAAAATTGCAGAAGACCGCATCCTTACATTTTATGATACACCAGGGCATGCGAAGCACCATATTAGCATTCACGATTCATTAACAAACGGGATTTTTACTGGCGATACAATTGGAATTTATTATAGAGAACTCGCAGACGTTGATGTAGAGTTATATCTACCATCAACGTCCCCTTCACAATTCCAACCAGATGCGATGATTGCTTCTAAAAATCACATTCAAAGCATGAATGTAGATACTATTTATTTCGGTCATTACGGCGCATCCTCTCATGTTACAGAAATATATAATCAACTGGAACATTGGCTACCTATTTTCGTTCATACTGGTAAGGAAGTCTTTGAACAGTATAATGATTTCGATGAAGCGACTAAAGCTTTACAAACTTTATTAATGGATAAAATCTCTTCTCATCTTACAAAGTTAAACGTTCCAGCAGATCATTCCGTTTATAACATTTTACATCTAGATATAGAAATTAGTGCGATGGGCATTATTGATTATTTCACGAAGCAAGAAAAAGCAAACTCCACTATTAACTAA	MKKVEQLSSHLYLIDDFDLQHNERTGTYVLLGEDITLIETCAAPSLPYILDGLQQLHIDLNEVKNIIVTHVHLDHAGAAGLMMEKCPNATLYVHSRGARHMIDPTKLILGAKAVYKEDFDKLFDPILPIEEERVHIVQHGDTLKIAEDRILTFYDTPGHAKHHISIHDSLTNGIFTGDTIGIYYRELADVDVELYLPSTSPSQFQPDAMIASKNHIQSMNVDTIYFGHYGASSHVTEIYNQLEHWLPIFVHTGKEVFEQYNDFDEATKALQTLLMDKISSHLTKLNVPADHSVYNILHLDIEISAMGIIDYFTKQEKANSTIN				NA	NA	NA	NA	NA
AK009_00822	210			hypothetical protein	ATGAAAACTGCACAACATGAAACGATTTCAAATCGCGAGTTTTATTTCGTACTATATATGATGTTATTGTATGTTACTGGCTGGGTAATCGATGTAAATGGTTTATTCTTAAGCTCCTACTTTAATTTAGCAGGAGAAATTATGCTTCCATTAGTTGGTGGGATTGTTGGACTGTTCATTATGTCTATTAATAAACAACAAACGAAATAA	MKTAQHETISNREFYFVLYMMLLYVTGWVIDVNGLFLSSYFNLAGEIMLPLVGGIVGLFIMSINKQQTK				NA	NA	NA	NA	NA
AK009_00823	483	gpx1		Hydroperoxy fatty acid reductase gpx1	ATGACAGTTTATAATTTTTCAGCTAAAACAATTACAGGTGAAGAAAAATCGTTAAAAGATTACGAAGGAAAAGCACTTCTTATTGTAAATGTAGCTAGTAAATGTGGTTTCACACCGCAATATAAAGGATTACAAGAGGTGTATGATAAATATAAAGACCAAGGACTCGAAATACTCGGATTTCCTTGTAACCAATTCGGGGGACAAGAACCAGGTACAGAAGCGGACATTACTAGTTTTTGTGAATTAAACTACGGTGTAAACTTCCCAATGTTTGCAAAGGTTGATGTGAAAGGTGATAAGGCTCATCCTTTATATACATACATGACAGAACAAGCACCAGGTTTACTCGGTATGAAAGCAGTGAAATGGAATTTTACGAAGTTTTTAATCGGAAAAGACGGGAAAGTAGTAGGGCGTTTTGCGCCGCAGACGAAGCCGGTAGATTTAGAGGTTGAGATTGAGAAGGTACTTGGAGAATAA	MTVYNFSAKTITGEEKSLKDYEGKALLIVNVASKCGFTPQYKGLQEVYDKYKDQGLEILGFPCNQFGGQEPGTEADITSFCELNYGVNFPMFAKVDVKGDKAHPLYTYMTEQAPGLLGMKAVKWNFTKFLIGKDGKVVGRFAPQTKPVDLEVEIEKVLGE	PGPT0013115_4595	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
AK009_00824	2229			hypothetical protein	ATGATAACATTACAAGCAAAATACAAGTGGGATACGAACAAATTCTTCATGCATGCATGTGTATTTCTTCTTTTACTAGAATGGATAAGACCTCTTATAGGTATTACAAATGTAGGTAGATTAGATATTTTCGTAACATTTATAGGAATTTGCTTCGCTCTCTCTTTTTTTCAAACGAGGTGGCAGATTCCAATAAAAATTGTCACAGTCCTATTTATCATTCATTCCCTATATTATAAAAATGCTTTTATAAATCCATCTTGGCTAACAACACTCTTTTCTGATATGTCTCGAAATTCCTCCCTATTTTTCCAAGGGAATTTACTAGATATTTCTCCAGTTTTTCCGACGGTTTTATTTTTTCTCTCATTTTGGTTTTTGAGTTCTTTCACTTCATTTTGGATTATTCATAAAAAACGTGGGTTTTTATTTCTTGTATTGACTATTATTTATATCGCAACTTTTCATAACTTACATTTATACAATGCAAACTACGCTATTATTCGTACTGTTGTCATCGGCTTTTTTATGCTTAGTCTTCTTCAAGTAGAACGAATAAAAGAGCGCGAACACTTACAAAATTATGCTAGGGAAATCTCAAAATTACTTAGACCACTTACAATATTTATTGTATTATTAGCAACCATCGCATACTTTGCTCCAAAATTTGGCCCTCAATGGCCAAACCCAATGGATTTTTTAAAATTCAACACATCTGAAGCAAGTAAAGAACAAAAAGTTTCTACAATTGGGTATGGTTTAGATGACTCGCGATTAGGTGGTCCTTTTAAGGCGGATCCTACAATTGTTTTCACAGCACGAACGCAAAACAAACAATATTGGCGAGTAGAAACAAAAGATTTTTATACAGGAAAAGGCTGGGAAATTTCTGAAAATCCGAAAAAGGTTTCTTTTAAAAATAAAAACGACGTCGTAAGCTGGTACGAACAAAATACAAAAACGGAAACGACTGAGGCAACAATTACCATGCTAAAAAGTTATCCTCACCTTACCTATCCAGCAGGATTAGTATCAGTTGAGGCTTCTTCTGATGTATCATACAGTGTTAACTCGTTTTCAGAAAAAATTTATACAATAAATGGAGACTCTTCTACTACTTTACATTCGTATAAAGTAACATATGAGATCCCTGAGTTTTCCATAGAAAACTTGAAAGCTGTAAAAACAAATGAAGGTCAAGAAACAAATCCTTATTTTATGACAAAGTACACACAACTTCCCGAGTCATTACCACAGCGCGTAAAAGACTTGGCTGCCAATCTTACAAATGATAAAGACAACCGATATGATAAAGTATTAGCTATTGAAAATTACTTCACAGACAACTCTTTTACATACGAATCAACGAATGTCTTATTTCCTGCCAAAAGCCAAGATTATGTAGATCAATTCCTTTTCGATACAAAAAGCGGCTACTGTAATAATTTTTCGACGTCTATGATTGTACTACTTCGTTCTGCCGGGATTCCTGCTCGCTGGGTAAAAGGCTATACAGAAGGAACTCTTGACAATACACTTGCCTCTGCAGAAGGTGCGGATGTTTATACAATCACGAACGATAACGCACACTCTTGGGTCGAAGTATATTTCCCAGGATACGGATGGATTCCATTCGAACCAACAAAAGGATTTACCAATCCCTATAATTTTATAAATAATACGCCTGCTCCTATTTCACAAAATAGCGAAGCAAATAATTCTAATAACGAGCAAATACACCAACGAAATAATGAAGCAAAACTTAAAAGTTTAATAGAACATACAGAAGAAGCTTCTACTAAAAAGGTCACAAATTCTAAAACTAGTTTTTCTTGGTGGTACGTATTCCTCTCTACGATACTAATTAGTATTATGGGATACATTCTCTTCATCACTAGAATGAAATGGATGACATTTCTTATTATTCATTTCTATAGATACCGAAAAGATGATGCTGTTTATCAAAAAGCTTACGGTGCACTTTTAAAACAATTTGCGAGAATTGGCATACCACGGGGTGAAAGTCAAACATTCCGAGAATACGCTCTCCATATCGATACACTTTACAAATCGGCCGATATGCAACAACTTACTGCCAGTTATGAGAACGCTATGTATCAACAGGGGCAGGCTGCAGCAGAATGGAAGACATCCGTACACTTATGGGAAGTGCTTATGAAAAAAGCAGGTTCTCTACCTAAATCAGATGGCTTTGATACAGTTATTTAA	MITLQAKYKWDTNKFFMHACVFLLLLEWIRPLIGITNVGRLDIFVTFIGICFALSFFQTRWQIPIKIVTVLFIIHSLYYKNAFINPSWLTTLFSDMSRNSSLFFQGNLLDISPVFPTVLFFLSFWFLSSFTSFWIIHKKRGFLFLVLTIIYIATFHNLHLYNANYAIIRTVVIGFFMLSLLQVERIKEREHLQNYAREISKLLRPLTIFIVLLATIAYFAPKFGPQWPNPMDFLKFNTSEASKEQKVSTIGYGLDDSRLGGPFKADPTIVFTARTQNKQYWRVETKDFYTGKGWEISENPKKVSFKNKNDVVSWYEQNTKTETTEATITMLKSYPHLTYPAGLVSVEASSDVSYSVNSFSEKIYTINGDSSTTLHSYKVTYEIPEFSIENLKAVKTNEGQETNPYFMTKYTQLPESLPQRVKDLAANLTNDKDNRYDKVLAIENYFTDNSFTYESTNVLFPAKSQDYVDQFLFDTKSGYCNNFSTSMIVLLRSAGIPARWVKGYTEGTLDNTLASAEGADVYTITNDNAHSWVEVYFPGYGWIPFEPTKGFTNPYNFINNTPAPISQNSEANNSNNEQIHQRNNEAKLKSLIEHTEEASTKKVTNSKTSFSWWYVFLSTILISIMGYILFITRMKWMTFLIIHFYRYRKDDAVYQKAYGALLKQFARIGIPRGESQTFREYALHIDTLYKSADMQQLTASYENAMYQQGQAAAEWKTSVHLWEVLMKKAGSLPKSDGFDTVI				NA	NA	NA	NA	NA
AK009_00825	1215			hypothetical protein	ATGAAACAAATGCTGCGAGCGCTATATCACGTTATGAAGTTATTGCTACTCCCTTTATGCCTAGTCTTAACATTTGTGTACGCTATGTTTCAAGGAGGGTTTGTAAGTTGGTTTTTATTTTACAGCACAATTCCCATTGCTCTTTATTCACTACTACTCCCCTTCTACGCTTTACGGGACGCTGAAGTAAAACGAACAACAAACCAAAATGGATATGTAGTAGGAGAACAATTTGTAAGCACGATTACAATAAAAAGAAAATTTCCTTTTCCCTTACTTTATTTAGTTATAGAAGATGAACTGCCACCACAATTTATAAGTTGTAAACAAACAAAGATGAATAAGGTAGTACTCTTCCCAGGATTGAAACGAAATATTTCGTTTCAATATGTTATTGACACAATCCCTAGAGGCGAGCACACTTTTTCAAGCGTTCGTGTCAAAACTGGCGATTTATTCGGCATGATGGAGAAAGAAGTAACTTTTTCAGTTCCAGATACATTTTTAGTCTATCCCCAGTATGTAGATATAGCGTATCGACAATTGGAAAATCATTTCGAACAAGGAGCGCTTTCAGCAAATATAAATTCTGCAAAAGACTCTACAATCTCTGTCGGTGTCAGAGACTATAAACCTGGAGATCGCTTTTCATGGATTGATTGGAAAGCAACTGCACGAACAAACAATATTATGACAAAAGAGTTTGAACAACAGCGCAGCCATAATATCATGATATTCATAGACAGAACCGAGTCTCCTCTATTCGAATCAGTCGTCACATTTACTGCCTCTATCGTAAGGGCTGTCTTGAAACAAAATTCACCAGCATCATTCGTGTCTATCGGAAAAGAACAAACTATTTTCCCTTTAGATAATGGAGATACGCAGTTACAACAAATCCTTTGTCATTTAGCAAAAGTACAAGCAGACAGTGTATTCCCGCTCTCCCAGAGTGTAGAAATAGAACTAAGAAAAATTTATGAGCCCGTCACGGTTATACTCGTGACAAGTAATCTTTCTCCCGATATTCAAAAGGCGGCTGATTGTGCTGCTATAAGAAATAGAAAATGTATGATTTTTGTCGTGAAAGAAAAAGCGAATCAACTTTCACACCGAGAACTCAGTATATTAGAAACTCTAAAAAAACGACAAATATTTGTAAACACGGTTTATGAAAACCGGTATACAAACGTGTTTTTTGAGGTGAGCAAATGA	MKQMLRALYHVMKLLLLPLCLVLTFVYAMFQGGFVSWFLFYSTIPIALYSLLLPFYALRDAEVKRTTNQNGYVVGEQFVSTITIKRKFPFPLLYLVIEDELPPQFISCKQTKMNKVVLFPGLKRNISFQYVIDTIPRGEHTFSSVRVKTGDLFGMMEKEVTFSVPDTFLVYPQYVDIAYRQLENHFEQGALSANINSAKDSTISVGVRDYKPGDRFSWIDWKATARTNNIMTKEFEQQRSHNIMIFIDRTESPLFESVVTFTASIVRAVLKQNSPASFVSIGKEQTIFPLDNGDTQLQQILCHLAKVQADSVFPLSQSVEIELRKIYEPVTVILVTSNLSPDIQKAADCAAIRNRKCMIFVVKEKANQLSHRELSILETLKKRQIFVNTVYENRYTNVFFEVSK				NA	NA	NA	NA	NA
AK009_00826	963			hypothetical protein	ATGCCCCAGCTTGATTCATTACATCCCACTGTAGAAAAAATAATCAATAATATTGAAAAAATAATGGTCGGAAAACGAAAAGAAACAATCTTAGCTTTGACAGCTCTCTTAGCTGAAGGTCATGTGCTATTAGAAGATGTTCCTGGTGTCGGCAAAACAATGCTAGTACGTGCTCTTTCTAAATCCATTGATGCGGATTACAAGCGAATTCAATTTACACCTGATTTACTGCCATCAGATGTAACAGGAGTTTCTATTTATAATCCGAAAGAGCTCCAATTTGAGTTCAAGCCTGGACCAATTATGGGGAATTTTGTACTTGCTGATGAAATTAATCGTACATCTCCTAAGACACAATCTGCTTTACTTGAATGTATGGAAGAAGGCAATATTACAATAGATGGCATTACAAGGCCTTTACCAAAGCCGTTCTTTGTCATGGCTACACAAAATCCGGTCGAATATGAAGGAACATATTCTCTACCAGAAGCTCAGCTCGATCGTTTCTTATTGAAACTAAAAATGGGATATCCTACACCAGAAGAAGAATTTGAAATTTTAAACCGGATGGAAAAAACAAATCCACTCTCTCAATTACAGGCCATTACTACAATAGAAGAATTACTTTATTTACAACAAAGCGTACGGGTAGTAAGTATGGACAAAGCAATTAAGCATTACATTGTAAAGCTTGTTAATCAGACTCGTACGTATAGCTCTATACAGCTAGGAGCAAGTCCACGTGGCTCAATTGCTTTAATGAAAGCTTCACAAGCTTATGCATTTATCCATGGCAGAAATTATGTTATTCCAGACGATGTTAAATTTTTAGCTCCTTACGTTTTAGCGCATAGGCTCATTCTAAAAATGGAAGCAAAATTTGAAGGGATAACAGGAGAACAAGTTATCGCAAAAATCGTTGCACGAACTACCGTGCCGACTCAAAGGACGATGAACCCTTGA	MPQLDSLHPTVEKIINNIEKIMVGKRKETILALTALLAEGHVLLEDVPGVGKTMLVRALSKSIDADYKRIQFTPDLLPSDVTGVSIYNPKELQFEFKPGPIMGNFVLADEINRTSPKTQSALLECMEEGNITIDGITRPLPKPFFVMATQNPVEYEGTYSLPEAQLDRFLLKLKMGYPTPEEEFEILNRMEKTNPLSQLQAITTIEELLYLQQSVRVVSMDKAIKHYIVKLVNQTRTYSSIQLGASPRGSIALMKASQAYAFIHGRNYVIPDDVKFLAPYVLAHRLILKMEAKFEGITGEQVIAKIVARTTVPTQRTMNP				NA	NA	NA	NA	NA
AK009_00827	3684	narG	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAAGAAGAAACCTTCAGCACTAATGAGACGTTTAAAATATTTTTCACCAATAGATCGTTATAACGATAATCATACTCAAGAAACATATGAAGATCGTGAATGGGAGAATGTGTACAGAAAGCGTTGGCAGCATGATAAAGTAATTCGTTCTACACATGGTGTGAACTGTACTGGTTCATGTAGCTGGAATATATATGTGAAAGATGGAATCGTAACTTGGGAAGGACAGGAGCTTAACTATCCAACTACAGGTCCAGATATGCCTGATTTTGAACCACGAGGATGTCCGCGTGGAGCGAGTTTTTCTTGGTATATTTATAGTCCACTTCGTGTGAAATATCCGTATGTACGTGGTGTTCTTTGGAGTATGTGGCAAGAGGAATTACAAAATAACAAGTCACCACTAGATGCTTGGAAAAGCATTGTGGAAAACCCTGAAAAAGCACGCAAGTATAAGCAGGCACGTGGTAAAGGGGGATTCATTCGTGCGAATTGGGATGAAGTGTTACAACTTGTTTCTGCTTCATTACTCTACACAGTAATGAAATACGGTCCAGACCGAAATGTTGGTTTTTCACCAATTCCAGCTATGTCGATGTTAAGTCATGCTGCTGGTAGTCGTTTTATGCAACTTATGGGCGGGCCAATGCTTAGTTTCTATGATTGGTACGCAGATTTACCACCAGCTTCTCCTCAAATTTGGGGCGATCAAACAGATGTACCAGAAAGTAGTGACTGGTATAACTCTGGTTACATTATGACATGGGGTTCAAATGTACCGATGACGAGAACACCAGATGCTCACTTTTTAGCAGAGGTTCGATATAAAGGAACGAAAGTCGTTTCTGTCAGTCCTGACTTCGCTGAATCTACAAAGTTTGCCGATGATTGGATTAGTGTAAAACAAGGTACAGATGGTGCACTTGCGATGGCAATGGGGCATGTGATCTTACAAGAGTTTTACGTAGATAATCAAGTGGAATATTTCACAAAGTATGCGAAGCAATATACTGATTTTCCTTTCTTTGTCACATTGAAACAAAAAGGAGATCAATTCGTTGCTGATCGTTTCTTAAACGCTTCTGATATTGGACGCGAAACGAAGTTAGGAGAATGGAAGCCTGTTCTTTGGAACGAGAATACGAATGATTTTGCAACACCTCAAGGCACAATGGGCTCACGTTGGGATAACGAAAAGAAATGGAACTTGCGTTTAGAAGATGAAGAAACAGGTGAAAAGATTGACCCACGTCTTTCTTTACTTGGAATGGAAGAATCGATTGGAACTGTACAAATTCCGTACTTCTCTGATGATGGAAACAAAGTATTAGAACGTACAATTCCAGTGAAAAAGGTTATGACAGAAGAAGGCGAAGTGTTCGTTACAACTGTATACGACTTAACGTTAGCAAATTACGGCGTGAACCGAGGGCTTGGCGGACAAGAGCCGAAAGACTTCAATGATGATGTACCGTTTACACCTGCATGGCAAGAGAAAATGACAGGAGTGAAACGAGAACTAATTATTCAAATCGCTCGTGAGTTCGCACAAAATGCCGTTGATACAAATGGTCGCTCGATGATTATTGTTGGAGCTGGTATTAACCATTGGTTTAATTCTGATACGATTTATCGCGCAGTTTTAAATCTTGTTCTTCTAGTTGGAGCACAAGGAGTAAACGGCGGGGGATGGGCGCATTATGTTGGGCAAGAAAAATTACGACCAGCAGAAGGATGGCAAACAATCGCGATGGCAAAAGATTGGCAAGGGCCACCGAAATTACAAAATGGTACATCTTTCTTCTATTTCGTAACAGATCAATGGCGCTATGAAGATACACCGGTTGGACATCTAGCATCACCAGTAGAAGGCAACTCTCGTTATCAACATCACGGTGATTACAACGTATTAGCGGCACGACTTGGCTGGCTACCTTCGTATCCGACATTCGAGAAAAATGGGATTGAATTATATAAAGAAGCTGTTGCTGCTGGTGCAACAACGCAAGAAGAAATCGGAAAATATGTTGCACAAAGATTAAAAGAAAAAGAACTAAAATTTGCGATTGAAGATCCAGATAACAAAAACAACTTCCCGCGCAACTTATTCGTATGGCGTGCGAACTTAATTTCAAGTTCTGGTAAAGGACACGAATATTTCTTAAAACATTTATTAGGTACAACAAACGGGTTAATGAATGACGATAGTGATTCATTACGACCAGAAGAAATTAAATGGCATGAAGAAGCACCAGAAGGGAAGTTAGATTTACTTATTAACTTAGATTTCCGTATGGCTGGAACAGCGCTTTATTCTGATATCGTCTTACCTGCTTCAACTTGGTACGAAAAACATGATTTAAGTAGTACAGATATGCATCCATTTGTGCATCCATTTAATCCAGCAATCGGTTCACCGTGGGAAGCGCGCTCTGACTGGGATATTTTCACTTCACTTTCTAAAGCTGTGTCAGATTTAGCGAAGAAAATTGATCTTGAACCAATGAAAGAAGTTGTTGCAACGCCACTTCTTCACGATACACCGCAAGAATTAGCGCAACCACTTGGCAAGATTAAAGATTGGAGCAAAGGTGAGTGTGAGCCAATACCAGGTAAAACAATGCCACAAATTCATGTTGTTGAAAGAGATTATAAAACAATTTATGACAAAATGACTTCGTTAGGACCAAATGCGGGAAAACAACCGATTGGTACGAAAGGGATTTCTTGGTCCGCAGAAAAAGAGTATGAGCAATTAAAGAGTCGATTAGGAGTTGTTCGAACGGATTCTATTGCAAAAGGTTGCCCAGACATAAAAGAAGCAATCAATGCTGCTGAAGCGGTATTAACACTTTCTTCTACAACAAATGGTCATATGGCTGTAAAAGCATGGGAAGCACTTGAAAAACAAACGGATTTAAAATTACGTGATTTAGCAGAAGAACGTGAAGAAGAATGCTTCACATTTGAACAAATTACAGCGCAGCCAAAAACAGTAATTACTTCTCCGGCCTTTACAGGTTCTGAAAAAGGTGGACGTCGTTACTCACCGTTTACAACAAATGTGGAACGCCTCATCCCTTGGAGAACAATCACTGGACGACAATCTTTCTACTTAGATCATGACATGATGAAAGAATTTGGTGAAACGATGGCAACGTTTAAACCGATTCTGCAACATAAACCGTTCCGTAAATCACGACCTGAAGTAGAAGGAAAAGAGATTACGTTAAATTATTTAACGCCGCATAATAAGTGGTCCATTCATAGTATGTATTTCGATTCATTACCAATGTTAACGCTGTTTAGAGGTGGTCCAACTGTTTGGATGAATAAAGAGGATGCTGAAGAAGCTGGTGTAGCAGATAATGATTGGATTGAGTGCTTTAATCGTAACGGTGTTGTTGTAGCCCGTGCTGTTGTAACGCATCGTATACCGAGAGGAATGGCGTTTATGCACCATGCACAAGATCGTCACATTAACGTACCTGGTACGAAATTAACAAGTAACCGCGGGGGAACGCATAATAGTCCAACTCGAATTCACGTAAAACCGACACATATGATTGGTGGATATGGTCAATTAAGTTATGGATTTAACTATTACGGTCCGACTGGGAACCAGCGTGACTTAAACGTTGTAATTCGCAAACTGAAGGAGGTAGATTGGCTTGAAGATTAA	MKKKPSALMRRLKYFSPIDRYNDNHTQETYEDREWENVYRKRWQHDKVIRSTHGVNCTGSCSWNIYVKDGIVTWEGQELNYPTTGPDMPDFEPRGCPRGASFSWYIYSPLRVKYPYVRGVLWSMWQEELQNNKSPLDAWKSIVENPEKARKYKQARGKGGFIRANWDEVLQLVSASLLYTVMKYGPDRNVGFSPIPAMSMLSHAAGSRFMQLMGGPMLSFYDWYADLPPASPQIWGDQTDVPESSDWYNSGYIMTWGSNVPMTRTPDAHFLAEVRYKGTKVVSVSPDFAESTKFADDWISVKQGTDGALAMAMGHVILQEFYVDNQVEYFTKYAKQYTDFPFFVTLKQKGDQFVADRFLNASDIGRETKLGEWKPVLWNENTNDFATPQGTMGSRWDNEKKWNLRLEDEETGEKIDPRLSLLGMEESIGTVQIPYFSDDGNKVLERTIPVKKVMTEEGEVFVTTVYDLTLANYGVNRGLGGQEPKDFNDDVPFTPAWQEKMTGVKRELIIQIAREFAQNAVDTNGRSMIIVGAGINHWFNSDTIYRAVLNLVLLVGAQGVNGGGWAHYVGQEKLRPAEGWQTIAMAKDWQGPPKLQNGTSFFYFVTDQWRYEDTPVGHLASPVEGNSRYQHHGDYNVLAARLGWLPSYPTFEKNGIELYKEAVAAGATTQEEIGKYVAQRLKEKELKFAIEDPDNKNNFPRNLFVWRANLISSSGKGHEYFLKHLLGTTNGLMNDDSDSLRPEEIKWHEEAPEGKLDLLINLDFRMAGTALYSDIVLPASTWYEKHDLSSTDMHPFVHPFNPAIGSPWEARSDWDIFTSLSKAVSDLAKKIDLEPMKEVVATPLLHDTPQELAQPLGKIKDWSKGECEPIPGKTMPQIHVVERDYKTIYDKMTSLGPNAGKQPIGTKGISWSAEKEYEQLKSRLGVVRTDSIAKGCPDIKEAINAAEAVLTLSSTTNGHMAVKAWEALEKQTDLKLRDLAEEREEECFTFEQITAQPKTVITSPAFTGSEKGGRRYSPFTTNVERLIPWRTITGRQSFYLDHDMMKEFGETMATFKPILQHKPFRKSRPEVEGKEITLNYLTPHNKWSIHSMYFDSLPMLTLFRGGPTVWMNKEDAEEAGVADNDWIECFNRNGVVVARAVVTHRIPRGMAFMHHAQDRHINVPGTKLTSNRGGTHNSPTRIHVKPTHMIGGYGQLSYGFNYYGPTGNQRDLNVVIRKLKEVDWLED	PGPT0000285_1228	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
AK009_00828	1476	narY	COG1140	Respiratory nitrate reductase 2 beta chain	TTGAAGATTAAAGCACAAGTCGGAATGATAATGAATCTAGATAAATGCATCGGCTGCCATACTTGTAGCGTAACGTGCAAAAACACCTGGACAAATCGTCCAGGTGCTGAATATATGTACTTCAATAACGTAGAAACGAAGCCTGGAATTGGTTATCCGAAACAATGGGAAGATCAGGAGAAATATAAAGGCGGTTGGGAATTGAAAAATGGTGAAATTCAGCTGAAATCTGGTTCGAAAATGAAACGTCTTATGAACATTTTCCACAATCCAGATCAACCAACAATTGATGATTATTTTGAACCTTGGAATTATGATTATGAAACGTTAACAAATAGTCCGCAACGTAAGCATCAACCAGTTGCTCGTCCGAAATCAGCAATTACAGGCGAATTTATCGACAAAATTGAATGGGGTCCAAACTGGGAAGATGATTTAGCAGGCGGACATATAACAGGATTGCAAGATCCGAACGTAAAGAAAATGGAAGAAGAAATTAAAACAGATTTTGAAAACGTCTTTATGATGTATTTACCACGCATATGCGAACATTGTATGAATCCCTCGTGCGTATCATCTTGTCCATCTGGTGCGATGTATAAACGTGAAGAAGATGGGATTGTTCTTGTCGATCAAAATGCATGTCGCGCATGGAGATTCTGCGTATCATCTTGTCCATATAAAAAAGTGTATTTTAACTGGCAAACGAATAAAGCTGAAAAATGTACAATGTGTTTCCCACGTATTGAAGCGGGTATGCCAACGATTTGTTCGGAAACATGTGTAGGACGTATTCGGTATATTGGGGTAATGCTATATGACGCTGACAAAGTAAAAGAAGCAGCTTCTGTTGAAGACGAAAAAGATTTATATGAATCTCAGCTTACTGTTTTTCTAGATCCAAATGATCCAGAAGTGGCAGCTGAAGCGAAAAAACAAGGAATTCCTGAAGAATGGATTAAAGCGGCGCAACAATCGCCAATTTATAAAATGATTATCGATTGGAAAATTGCTCTACCTCTTCACCCAGAGTATCGTACAATGCCAATGGTTTGGTATATCCCGCCGCTTAGCCCGATTATGAATATGGTGGAGGGAAAAGGTAGTAACTGGCAAGCAGAAGAGATTTTCCCTGCTATTGATAATATGCGTATTCCAATTCAATATTTAGCGAATTTACTCACTGCGGGGGATGAATCACACATTCGTCTTACATTGAAGAAAATGGCTGTTATGCGAACGCATATGAGAGCACTTCAAATTAATAAAGAGCCAAATGAAGCTGTATTAAAAGAACTTGGTTTAACGAAACAGGATGTAGAAGATATGTATCGTCTTCTTGCTATCGCGAAATATAAAGATCGCTTCGTTATTCCGACATCTCACCGTGAACAAGTGGCAGATTTATATAGCGAACAAGGAAGCTGTGGTTTATCATTCACAGGTGGTCCAGGCTCTTGTATGACAATTTCTTAA	MKIKAQVGMIMNLDKCIGCHTCSVTCKNTWTNRPGAEYMYFNNVETKPGIGYPKQWEDQEKYKGGWELKNGEIQLKSGSKMKRLMNIFHNPDQPTIDDYFEPWNYDYETLTNSPQRKHQPVARPKSAITGEFIDKIEWGPNWEDDLAGGHITGLQDPNVKKMEEEIKTDFENVFMMYLPRICEHCMNPSCVSSCPSGAMYKREEDGIVLVDQNACRAWRFCVSSCPYKKVYFNWQTNKAEKCTMCFPRIEAGMPTICSETCVGRIRYIGVMLYDADKVKEAASVEDEKDLYESQLTVFLDPNDPEVAAEAKKQGIPEEWIKAAQQSPIYKMIIDWKIALPLHPEYRTMPMVWYIPPLSPIMNMVEGKGSNWQAEEIFPAIDNMRIPIQYLANLLTAGDESHIRLTLKKMAVMRTHMRALQINKEPNEAVLKELGLTKQDVEDMYRLLAIAKYKDRFVIPTSHREQVADLYSEQGSCGLSFTGGPGSCMTIS	PGPT0000500_1255	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
AK009_00829	531	narX_1	COG2180	Nitrate reductase-like protein NarX	ATGAAACAAAGTTTACAAACAGCTTTTTCTTGTTCTTCTTTTCTTCTCTCCTATCCTGAACTAGGGTGGAGAGAAGCTTTAACTGAATTGCAAGAAGAGGTTGAAACAATAGAACAAGAAGACGTTAAAGCGTCACTTACAGGCTTTATAAAGCAAGCGCTAGATAAAACGAATGATCAATTCATTGATAGTTACGTATATACATTCGATTTTGGGAAGAAAACAAATATGTATCTTACTTATATGAACACTGGTGAACAAAGAGAAAGAGGTATTGAATTACTAGAGTTAAAACAACATTATAAAAAATCAGGTTTTAGCGTAACAGATAAAGAACTACCTGACTATTTACCACTTTTACTTGAGTTTTTTGCAAATGCAAATGAGCAAGACAGTGAACCAATTATGAGTAAATACACGGAAAATATACAAGCATTACATGTTCAATTAAAAGAAGCGGGTAGTATGTATGAACCAATTCTTGCGTCTGTGCTACTCGCTATCGAAACATGGGGTGTACAGACAAATTAG	MKQSLQTAFSCSSFLLSYPELGWREALTELQEEVETIEQEDVKASLTGFIKQALDKTNDQFIDSYVYTFDFGKKTNMYLTYMNTGEQRERGIELLELKQHYKKSGFSVTDKELPDYLPLLLEFFANANEQDSEPIMSKYTENIQALHVQLKEAGSMYEPILASVLLAIETWGVQTN	PGPT0000510_1350	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
AK009_00830	690	narX_2	COG2180	Nitrate reductase-like protein NarX	ATGATGGATCAATTTCTTTGGGTATTGTTTCCCTATATCATTTTTGCGATCTTTATCGGTGGACATATTTTTAGATACAACTATGATCAATTTGGATGGACATCAAAATCTAGTGAACTATTAGAAAAGAAGATGCTCCGGGTCGGAAGTCTATTATTCCACTTTGGGATCATGTTCGTAATTGGCGGCCATGTTATGGGGATTTTAATTCCAGAAGCTGTATATCGTTCAATAGGTATTTCTGAGCATATGTATCATGTAGTAGCAATTAGTTTTGGGCTTCCGGCAGGTATTGCTTCTATTATCGGTTTAATTATATTAACGTACCGCCGTGTAACAGTAAAGCGTATCATTGCAACGAGTACAAAGGGAGATTATATTGCGCTTATTTTATTACTTATCGTAATGCTAGCAGGACTTTCTTCAACATTTTTAAATATAGATTCAAAAGGATTTGATTATCGTACAACGATTGGCCCTTGGTTCCGAAGTCTCTTTATTCTCCAACCGAAAGTTGAATATATGATGGAAGTACCAGTATGGTTTAAAATTCATATTCTTGCAGGAATGGGTTTATTCGCAGTATGGCCATTTACAAGACTTGTACATGTATTTAGTGCCCCAATTAAATATGTAAGCCGTAGTTATGTAATTTACAGAAGACGTATTCCTAATGAGTTGAAAAAATAA	MMDQFLWVLFPYIIFAIFIGGHIFRYNYDQFGWTSKSSELLEKKMLRVGSLLFHFGIMFVIGGHVMGILIPEAVYRSIGISEHMYHVVAISFGLPAGIASIIGLIILTYRRVTVKRIIATSTKGDYIALILLLIVMLAGLSSTFLNIDSKGFDYRTTIGPWFRSLFILQPKVEYMMEVPVWFKIHILAGMGLFAVWPFTRLVHVFSAPIKYVSRSYVIYRRRIPNELKK	PGPT0000505_828	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
AK009_00831	693	fnr	COG0664	Anaerobic regulatory protein	GTGGCAAACAGTATGACATTATCTCAAGATTTAAAAGAATTACTTGCATCTGTTGAATATAAAATGCAAATTAAAAAAGGTAGTTTTATTTTTCAAGAAGGTATGGAGGCAACAGAGCTCTATATCATCCACTCAGGAAAAGTACAAATTAGTAAATTAAGTGCTGACGGGCAAGAATTAACACTCCGTATTTGTTCGGCATACGACATTATTGGAGAATTAACATTATTCACGGACAATGCGAAGTATTTATTAAATTCAAAATGCCTTGAAGATGTTGAAGTAGGGGTTATAAAGCGTGAAACCTTAGAAAAAGCATTGCTCCAAAAACCCGCACTTGTATTTGAATTTATGAAATGGATTAGTGAACATTTAAGAAGAATGCAAACGAAGTTCCGAGATTTAGTATTACACGGCAAAAAAGGTGCCCTGTATTCTACTCTTATACGAATGACAAATAGTTACGGTGTATTAAAAGAAAATGGGATTCTCATCGATTTACCATTAACGAATCAAGAACTTGCTAATTTCTGTGCAACTTCACGTGAAAGTGTAAATCGAATGTTAAATGAATTAAAAAAGCAAGGTACAATTTCTATTCATAAAGGAAAGATTACAATCCACGATTTACAATTTTTAAAATGTGAAATTGCTTGTGAAGATTGCTCTGCCTCTGTTTGTAGCATTGATTAG	MANSMTLSQDLKELLASVEYKMQIKKGSFIFQEGMEATELYIIHSGKVQISKLSADGQELTLRICSAYDIIGELTLFTDNAKYLLNSKCLEDVEVGVIKRETLEKALLQKPALVFEFMKWISEHLRRMQTKFRDLVLHGKKGALYSTLIRMTNSYGVLKENGILIDLPLTNQELANFCATSRESVNRMLNELKKQGTISIHKGKITIHDLQFLKCEIACEDCSASVCSID	PGPT0015075_1190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
AK009_00832	1014	moaA_1	COG2896	GTP 3',8-cyclase	ATGCACGAGAACATGAAAGATTCTTTAGAACGGCCACTTCAAGATTTACGTATTTCAGTTATTGATCGTTGTAATTTTAGGTGTACATACTGTATGCCTGCTGAAGTGTTCGGACCTGATTACGCTTTTTTACAGGAAGAGCTTTTATTAACGTTTGATGAAATAGAAAGATTAGCGAGATTATTTATAAGTCTGGGAGTCAATAAAATTAGGCTTACTGGCGGTGAACCGTTATTGCGTAAAGACTTACCGATGTTAATTGCAAGACTTGCAAAGCTAGAAGGCTTAAAAGATATTGGACTCACAACAAACGGTATTCATTTAGCAAAACAAGCAAAGGCGTTAAAAGAAGCGGGATTAAAACGTGTAAATATTAGTTTAGATGCGATAGAGGATTATGTCTTCAAAAAAATTAATGGACGAAATGTAAATACAAAACCTGTACTGAAAGGAATTGAAGCAGCAAAGGCTGCTGGATTAGAAGTAAAGGTAAATATGGTCGTAAAAAAAGGAATGAATGATAGTCAAATTCTTCGTATGGCTCGTTATTTTAAAGAACAAGACATTCAGCTCCGTTTTATAGAGTTTATGGATGTGGGCAGTACAAACGACTGGAACTTTGAACAAGTTATTACGAAGGAACAATTAATAGAGAAGATTAATCGCGTATATCCAGTTGAGCCCGCTCAGCCTCGTTACTTTGGAGAAGTTGCGAAATTGTATCGATATGTAGGGAGCGATGCAGAAGTTGGGTTTATTACTTCAGTATCTGAGTCATTTTGTTCTTCTTGTACGAGAGCTCGTATCTCGGCAGACGGCAAGTTTTTCACGTGTCTATTTGGAACGAAAGGAACGGATTTGCGAACGCTTCTTCGAGGAAATATTTCTGATGCATCACTATTAAAAATTTTACAACATACATGGCGATATAGAACAGATCGATATTCAGATGAAAGAACGGCGGAAAGTACAAATCAACGTCCAAAAGTTGAAATGTCCTACATTGGCGGATAG	MHENMKDSLERPLQDLRISVIDRCNFRCTYCMPAEVFGPDYAFLQEELLLTFDEIERLARLFISLGVNKIRLTGGEPLLRKDLPMLIARLAKLEGLKDIGLTTNGIHLAKQAKALKEAGLKRVNISLDAIEDYVFKKINGRNVNTKPVLKGIEAAKAAGLEVKVNMVVKKGMNDSQILRMARYFKEQDIQLRFIEFMDVGSTNDWNFEQVITKEQLIEKINRVYPVEPAQPRYFGEVAKLYRYVGSDAEVGFITSVSESFCSSCTRARISADGKFFTCLFGTKGTDLRTLLRGNISDASLLKILQHTWRYRTDRYSDERTAESTNQRPKVEMSYIGG	PGPT0008410_2034	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
AK009_00833	1014			hypothetical protein	ATGCAAGAGCGATATGCAAGGCAAATATTGTTTTCTGGAATTGGTGAAATAGGACAAAGAAAAATAAGAGAAAAGCATGTGCTCCTAATTGGTGCAGGTGCATTAGGAGCTGCGAATGCAGAAACACTCGTTAGGATGGGAATTGGGAAATTGACAATCGCTGACCGTGACTACGTGGAATGGAGTAATTTACAGCGGCAACAGTTATACATAGAAGAAGATGCGCAGCAATGCAAACCGAAAGCAATTGCAGCGGCAGAACATGTAAGGAAGATTAATTCTGAAGTAAAAATTGTACCAGTTGTAACGGATGTCACAATGCAAGAAATAGAAGAGTTAACAAAAGAAGTGGATCTCATCATAGATGCGACTGACAATTTCGATACGCGCCTACTTATAAATGACATTTCACAAAAAGAAAATATACCTTGGATATATGGTGGATGCATTGGAAGTTACGGTGTAACGTATACAATTCTTCCTGGGAAAACACCATGTTTTCGCTGTCTAATGGATCATCCTATGGGCGGTGCAACATGCGATACAGCCGGAATCATTCAGCCAGCTGTACAAATGGTCGTTGCTCACCAAGTAACAGAGGCGATGAAAATATTGGTGGATGATTATGAGTCGTTAAGAGGAACGATGTTATCATTTGATATTTGGAACAATCAATATCTTTCATTAAAAGTAAATAGACAGAAAAAAAGTACATGTCCATCTTGTGGGAAATCACGAACGTATCCAAGTCTAGCATTTGAAGCGCAGATGAAAACGGAAGTGCTATGCGGACGGAATACAGTTCAAATCCGTTCAGGAATAAAGAGAGATCTTAATTTAAACGAAATTCAAAAACGATTACAAAAAAGTGTACATGTCCAAAAAACGCCTTACTTACTATCATTTCTAATTGATGAATATCGTTTCGTTTTATTTACAGACGGTAGGGCATTTATTCATGGAACAAATGATGTGAAAATAGCAAAACGATTATACGCAAAATATATAGGATGA	MQERYARQILFSGIGEIGQRKIREKHVLLIGAGALGAANAETLVRMGIGKLTIADRDYVEWSNLQRQQLYIEEDAQQCKPKAIAAAEHVRKINSEVKIVPVVTDVTMQEIEELTKEVDLIIDATDNFDTRLLINDISQKENIPWIYGGCIGSYGVTYTILPGKTPCFRCLMDHPMGGATCDTAGIIQPAVQMVVAHQVTEAMKILVDDYESLRGTMLSFDIWNNQYLSLKVNRQKKSTCPSCGKSRTYPSLAFEAQMKTEVLCGRNTVQIRSGIKRDLNLNEIQKRLQKSVHVQKTPYLLSFLIDEYRFVLFTDGRAFIHGTNDVKIAKRLYAKYIG	PGPT0008935_87	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
AK009_00834	1290	moeA_1		Molybdopterin molybdenumtransferase	ATGTTAGAAAAACGTATACCAATTCCGGTGGCAGAAGCAGTGGCACGTGTAATGAAATACGCTCATCAAGGTGAAATAGAAAAGGTTTCTCTTATAGAAAGTTACGGAAGAATTCTTGGAGAAGATGTTATTGCAGATCATGATGTCCCTCACTTTGATCGCTCTCCATACGACGGGTTTGCGATTCGAGCAGAAGATACAAAAGAAGCGAGTAGTAGTAACCCCATTCAGTTTGAAGTGATTGGCGAAATTGGAGCAGGTTTTGTTTTTCCAGAAGAAGTGAAACCATTTCAAACTGTCCGTATTATGACAGGTGCCGCAATTCCAGCCGGATGTAATGCAGTTGTTATGTTAGAGCTAACTGAAGGATTTGAAGAAAGTGAAAAGACTTATATGAAATTGAAACGCTCCTTTATTGCTGGGGATAACATTTCTTTTAAAGGTGAAGATGTAAAACAAAATACCATCCTTGTGAAAAAAGGGACTGTTATTAACCCTGGAGTAGTGGCGCTTCTTTCTACGTTTGGTTATAGTACCGTTTACGTTGTAAAACAGCCGGTTATCGGAATTGTAACGACAGGAAGCGAACTGCTTGAAGTACATGAACAATTAAAGCCAGGGAAGATTCGAAATAGTAACTCCTATATGATAGCTGCTCAAGTTGAACGAGCGGGCGGAGTTGTACAGTATTATGGACAATTCGCTGACGATTTTGAGACGTGTTATAACACTGTGAAAAAAGCGATAAAAGAAGTCGATATTTTAATTACAACTGGTGGCGTTTCGGTAGGAGACTATGACTATTTACCTGCTATTTATGAGGAATTACGAGCTAATGTGCTTTTCAACAAAATAGCGATGCGACCAGGAAGTGTGACAACTGTAGCTGAGCTAGAAGGAAAACTATTATTTGGTCTATCTGGTAATCCTTCAGCTTGTTATGTCGGTTGTGAATTATATGTTCGGCCAGTCATTGGAACATATTTGCATAGAAAAGATTCGCACGTATATCGTACAGAGGCAATATTACAGAAAGACTTTCTGAAAGCAAACCCATTTACTCGTTTTGTACGAGGGAAAGTGGAAATTGTAGATGGAACATTGCAAGCTACACCAGTTGGTTTAGACAAATCTAGTGCAATTTCTTCACTTGCAGGGGCGAATGCATGTATCGTCCTGCCGGGAGGAACGAGAGGATTTAAAGCAGGAATAACTGTCTCGGTACTGTTATTAGAATCAAGCGCCGGAAGTGAGTGGCCGTGGGAAGAACCACTTCGATCATACAAATAA	MLEKRIPIPVAEAVARVMKYAHQGEIEKVSLIESYGRILGEDVIADHDVPHFDRSPYDGFAIRAEDTKEASSSNPIQFEVIGEIGAGFVFPEEVKPFQTVRIMTGAAIPAGCNAVVMLELTEGFEESEKTYMKLKRSFIAGDNISFKGEDVKQNTILVKKGTVINPGVVALLSTFGYSTVYVVKQPVIGIVTTGSELLEVHEQLKPGKIRNSNSYMIAAQVERAGGVVQYYGQFADDFETCYNTVKKAIKEVDILITTGGVSVGDYDYLPAIYEELRANVLFNKIAMRPGSVTTVAELEGKLLFGLSGNPSACYVGCELYVRPVIGTYLHRKDSHVYRTEAILQKDFLKANPFTRFVRGKVEIVDGTLQATPVGLDKSSAISSLAGANACIVLPGGTRGFKAGITVSVLLLESSAGSEWPWEEPLRSYK	PGPT0008430_1466	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_00835	471	moaE_1		Molybdopterin synthase catalytic subunit	ATGGCACATACGTATTATGAAGTAATTGATACACCTATTTCAATTGAAGAAGTTACAAACAAAGTAATTCGTCGTGAATGTGGCGCAGTTGCGACTTTCATTGGTACTGTTAGAGAATTTACGAAAGGCCGTCGTACGCTATATTTAGAGTATGTAGCATATAAGTCAATGGCGGAGAAACAGCTTAAGAGAATTGGCACCGAAGTAGGAGAGATGTGGCCTGGGACAAATGTCGCCATTACACATCGCATTGGTACATTACAAATTTCTGATCTTGCTGTTGTCGTCGCTGTTTCTACACCACACCGGAAAGCTGCCTATGAGGCGAACGAATATATTATGGAGCGTATAAAACAAATTGTTCCAATATGGAAGAAAGAGTTTTGGAAAGATGGTGAGTCATGGATAGGTGATCAGTTAGAGAAGGTAGCGTATGCAAATGGTGAGCCTGGAAAGGAGATGAGAATATGA	MAHTYYEVIDTPISIEEVTNKVIRRECGAVATFIGTVREFTKGRRTLYLEYVAYKSMAEKQLKRIGTEVGEMWPGTNVAITHRIGTLQISDLAVVVAVSTPHRKAAYEANEYIMERIKQIVPIWKKEFWKDGESWIGDQLEKVAYANGEPGKEMRI	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
AK009_00836	234	moaD_1		Molybdopterin synthase sulfur carrier subunit	ATGATTGAAGTACTATTATTTGCACATTTACAAGAAGAAGTAAGTAAGTCAGCATTACACATAGGTTGTGAAAATATTACGGTTGCTGAACTAAAGGAAGTCCTTATTACGAAATACAACGTAGCAATTTCAAGTGAGATAATGGTCGCTATAAATGAAGAGTATGCAAATGAGGATGATATCATTCAAACTGGCGATGTCATAGCAATGATTCCGCCAGTAAGTGGTGGTTGA	MIEVLLFAHLQEEVSKSALHIGCENITVAELKEVLITKYNVAISSEIMVAINEEYANEDDIIQTGDVIAMIPPVSGG	PGPT0008415_30	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK009_00837	1170	narT	COG2223	putative nitrate transporter NarT	ATGAAAGGTCCTAATTTTCAATTAAGTTTACAAACTTCTAATCTAGTTATCGGTTTTATGGTATGGGTTATTTTATCATCATTAATGCCTTATATTAAAGCGGATATTCCATTAACTGCGGGACAAATTTCTATGGTAACAGCAGTACCGGTTATTTTAGGTTCTGTTCTTCGTATTCCAATTGGCTATTGGACAAATCGTTTCGGAGCAAGAAAATTATTCTTTATTAGTTTTATTCTATTATTATTTCCTGTCTTTTATATTAGTGTTGCCAATTCTATGATGGATTTAATTATTGGTGGATTATTTGTAGGAATTGGTGGAGCTGTATTCTCAGTAGGGGTAACTTCTTTACCAAAATACTTTCCGAAAGAGAGCCACGGTTTTGTAAATGGTATTTACGGTGTCGGTAACGCCGGAACAGCAATCACTTCGTTTTTAGCACCTGTTATCGCAACTTCAGTTGGTTGGAGAACGACAGTACAATGTTATTTAGTTTTACTTGCAGCATTTGCACTTATGAACTTTTTATTAGGTGATCGTAAGGAGAAAAAGGTGAATACACCATTAATGGAACAAATAAAAGGTGTATATAAAAATGAAAAACTTTGGTTTTTATGTATCTTTTACTTTTTAACATTCGGATCATTTGTCGCATTTACAGTATACTTACCAAACTTTTTAGTATCTCACTTCGGATTAGAAAAAGTAGATGCAGGTATGCGGACAGCCGGATTCATTGTACTCGCAACAATTATGCGCCCGATTGGTGGTTGGCTCGGTGATAAGTTTAATCCATTTAAAATATTAATCTTCGTATTTATCGGTTTAACACTTTCAGGTATTATTTTATCATTTATGCCTAGTATGAACGTGTATACATTTGGTTGCCTACTAGTCGCATTTTGTGCAGGGATTGGAAATGGTACAATCTTCAAACTCGTTCCAATGTACTTCTCAGAACAAGCCGGTATTGTAAATGGGCTCGTTTCAGCTTTAGGCGGACTAGGAGGATTCTTCCCGCCACTAATTTTAACATTACTATTCCAATTAACAGGTCATTATGCAATTGGATTTATGGCGTTATCAGAAGTCGCACTTGCTTGTTTAATCATTACAGTATGGATGTATAGCCAAGAGAAATTGTTAGTGATGTTAAAGAATCATTAA	MKGPNFQLSLQTSNLVIGFMVWVILSSLMPYIKADIPLTAGQISMVTAVPVILGSVLRIPIGYWTNRFGARKLFFISFILLLFPVFYISVANSMMDLIIGGLFVGIGGAVFSVGVTSLPKYFPKESHGFVNGIYGVGNAGTAITSFLAPVIATSVGWRTTVQCYLVLLAAFALMNFLLGDRKEKKVNTPLMEQIKGVYKNEKLWFLCIFYFLTFGSFVAFTVYLPNFLVSHFGLEKVDAGMRTAGFIVLATIMRPIGGWLGDKFNPFKILIFVFIGLTLSGIILSFMPSMNVYTFGCLLVAFCAGIGNGTIFKLVPMYFSEQAGIVNGLVSALGGLGGFFPPLILTLLFQLTGHYAIGFMALSEVALACLIITVWMYSQEKLLVMLKNH	PGPT0000300_4029	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
AK009_00838	918			hypothetical protein	ATGATTATTTTTATTATATTAGACGTAATATTACCAATATTAATATTGCTGCTAATTGGTGCAATTTTACAAAGGAAGTTCCAATTTAACTTAAAGCAGCTATCTACACTTATTACTTATTGCTTGATGCCAGCGGCTGTATTTATGAATATATATGATATTAGTATAGAGACAGGTTTGTTGCTCCAGATAATATACTATTTAATGCTTTATAGTTTGAGTCTGATCATAGTAAGTCATTTCATTTCAAAAACATTAAAGTTAGAAAAAGGAGAAAGTGCAGCTCTAAAAAATAGTATTTCGTTAATGAATTCCGGTAATTATGGATTACCAGTAAGTCAATTGATTTTCAGTCACAATCCAGTGGGGGTTTCCATTCAAATTTTTATTGTGATTTTCCAGAATCTTTTAACTTATTCATATGGGATATATAACTTACTATCAGCAACAAAAACAATCGGAAGTATTATTCAATCATTTCTAAGACTGCCTGTACTTCATGCGCTTGTATTAGGGGTTCTCTTTCAATCTTTTAAAATTCAAATACCTAATTCTATCTTTCTACCTCTTAATCAGCTTGCGAATAGTTTTGTTGCAATAGCAATCATATTGCTAGGAGCGCAATTATCTAACATTAAGCTTAATTTTTTCCATCGAGTCATAACATGGGCTTTAATTGGAAGGTTACTGATAGGACCATTATTAGCACTTGCCATGATCTATCTACTAAACATTGATGGTATTGTTGCACAATCATTATTTATTGCAAGTTCTTTTCCTACTTCAAGAAATACATCAACCATTGCTATGGAGTATCAAATAGAGCCTGAACTACATGCACAAATCGTTTTATTTTCAACACTTTTCAGCATTGTTACAGTAACTGTCGTTATTTATTTGTCATATATTTTGTTTTGA	MIIFIILDVILPILILLLIGAILQRKFQFNLKQLSTLITYCLMPAAVFMNIYDISIETGLLLQIIYYLMLYSLSLIIVSHFISKTLKLEKGESAALKNSISLMNSGNYGLPVSQLIFSHNPVGVSIQIFIVIFQNLLTYSYGIYNLLSATKTIGSIIQSFLRLPVLHALVLGVLFQSFKIQIPNSIFLPLNQLANSFVAIAIILLGAQLSNIKLNFFHRVITWALIGRLLIGPLLALAMIYLLNIDGIVAQSLFIASSFPTSRNTSTIAMEYQIEPELHAQIVLFSTLFSIVTVTVVIYLSYILF	PGPT0007208_3717	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
AK009_00839	378			hypothetical protein	TTGAGTAAACAGAATATCAGCACAACAGTTTCAGGAGATATAATTGTTACCCATCTAGTTGGAAATATAAAAACAGATGATGTGTATGAATGGTTTAATGGTTTTGAGCAGGTTTGTCAGCAATTCATTTCTGAAGGGCGGAAATACAAATTGTTGGTGGATAGAAAAGGATACACGCCAAATCATTTTTCTGTTCAAAAAGTATGGAAAGAGAAGTTCTTCAATGAAATCATTTTGAATAACAGTAAGGCAATTGCATTTCTCCTTGAAGAGGGGGAGATAATGGATTATTTACAACAATCTAATACGAAAGAATCTGTGAGATTTTTTGATGATTATGAACAAGCGCTAATTTGGTTGAATGAATATCCAATATAA	MSKQNISTTVSGDIIVTHLVGNIKTDDVYEWFNGFEQVCQQFISEGRKYKLLVDRKGYTPNHFSVQKVWKEKFFNEIILNNSKAIAFLLEEGEIMDYLQQSNTKESVRFFDDYEQALIWLNEYPI				NA	NA	NA	NA	NA
AK009_00840	474	sirC_2		Precorrin-2 dehydrogenase	ATGTATAACATGTACCCTCTTATGTTTAATTTAAATAAAAAAGTGGTCGTTATAGTTGGTGGTGGTAAAATCGCATATCGAAAAGCGTCCGGATTAAAGGATACAGGCGCTTTTGTCACCGTTATCAGCCCAGAAATTTGCGAGGAAATGAAGGAACTTCCTTATATTACTTGGAAGCAAAAAGCTTTTAGTAATAATGATATTAAAGATGCTCATCTTATTTATGCAGCTACAAATCAACATGCTGTAAATATGATGGTCAAACAGGCCGCCCATGATTTCCAGTGGGTTAACGTCGTAAGTGATGGTACAAAATCATCGTTTCACACACCTGGTGTCATCCGACATGATGAATATGTTGTCACTATTTCAACTTCAGGTAAAGATCCATCGTTTACGAAGCATTTGAAGCAGGAACTAACATCTATATTTCCTAAACTTATAAACAAGCTTTCTCGTACTCATAAAATGTAA	MYNMYPLMFNLNKKVVVIVGGGKIAYRKASGLKDTGAFVTVISPEICEEMKELPYITWKQKAFSNNDIKDAHLIYAATNQHAVNMMVKQAAHDFQWVNVVSDGTKSSFHTPGVIRHDEYVVTISTSGKDPSFTKHLKQELTSIFPKLINKLSRTHKM				NA	NA	NA	NA	NA
AK009_00841	711	sirB_2	COG2138	Sirohydrochlorin ferrochelatase	ATGAAAGGAATTGTATATGTTGGACACGGGAGCCGCTTACAAAAAGGTAACGAACAATTCATTCACTTTATTCAATCTGTTATAAAAGAACGTAACGAACGGATTCAAAAAATAGCTTTCCTAGAACTAACGACACCTACCATTTCGGATGCAGTTACAGAAGCAATACTAGAGGGTGCAACTGCAATAATGATTGTACCTGTTTTATTATTTGCAGCAGCTCACTATAAACGTGATATTCCTTTTGAGATAGAGAAAATACAAAAGCAATATCCACATATAACATTTTCAGTTGTACAACCTTTTAGTACACATCCACATATGGTTGAACTTGTAGTAAAAAGAATACGTGAAACTATGCCAATGCAAGGTAGTAGTGTTTTACTCGTAGGGAGAGGCAGTAGTGATCCACAGCCGTTACATGAATTACAACAAATCGGAGCAGTCGTCGAACGAAAACTCAGTATGCCAGTATCGTGCTCCTTTTTAACGAAAGGAACTCCCTCTTTTACTGCTGAGCTCAAGGCTATAACATCGACTTCATCCCATGTATATGTCATGCCGTACCTTCTCTTTACCGGATTATTACTTCAAAAAATTAAATTGCATGCAAAAAAATACGATCACGTTACAACTTGTAACTGTCTTCAGTTTGATAGATACATGAAGTTAACATTATTAGAACGAATGGAGGAATGCATATATGTATAA	MKGIVYVGHGSRLQKGNEQFIHFIQSVIKERNERIQKIAFLELTTPTISDAVTEAILEGATAIMIVPVLLFAAAHYKRDIPFEIEKIQKQYPHITFSVVQPFSTHPHMVELVVKRIRETMPMQGSSVLLVGRGSSDPQPLHELQQIGAVVERKLSMPVSCSFLTKGTPSFTAELKAITSTSSHVYVMPYLLFTGLLLQKIKLHAKKYDHVTTCNCLQFDRYMKLTLLERMEECIYV	PGPT0008500_197	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008500-sirB-K03794	NA	NA
AK009_00842	1425	nasF	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGAACGGATATGTATATTTAGTTGGTGCAGGACCAGGTGATGAAGGGCTTATTACAAAGAAAGCGATAGATTGTTTAAAGCGTGCAGATATCGTTTTATATGACCGTTTATTAAACCCTTTCTTTCTTAGTTATACAAAAGAAACATGTGAACTTATGTATTGCGGCAAAATGCCAAAGAATCATATTATGCGACAAGAAATGATTAACGCCCACCTCCTTCAATTCGCACAAGAAGGAAAAATCGTTGTCCGATTAAAGGGCGGAGATCCATCTATTTTTGGCCGCGTTGGTGAAGAAGCAGAAACTTTAGCAGCAGCGAACGTTCCATATGAAATCGTACCAGGTATTACATCTAGCATCGCCGCTAGTAGCTATGCAGGTATCCCCCTCACCCACCGTAACTACAGTAATAGCATCACTTTATTAACTGGGCATGCAAAAGGCCCTTTAACCGATCATGGAAAATATAATTCATCCTATAATAGCGACACGATCGCCTACTACATGGGTATAAAAAACTTACCTACAATTTGTGAAAACTTACTACAAGCAGGAAAGAAAAAAGATACACCAGTAGCCGTCATTGAATGGGGTACAACTGGTAAACAACGTGTAGTCACAGGGACACTGTCCACCATTGTTTCTATCGTCAAAGACGAAAATATTTCTAACCCTTCTATGTCAATTGTTGGTGATGTTGTTACTTTACGGAATCAAATTGCTTGGAAAGAACGTAAACCATTGCACGGCAAGAAAGTTTTACTTGCATCTGCAACAAATAAAAAAAGCGCAATAAAGCAAATGTTACAAGAGTCCGGTGCAGAAATATATCAAATTCCAATTTTCCAAAAGAAAGAATACACATTAACCTCTGAACAAATTAATAAGATTTTTAACGTTGATCGTCTTGTATTTTGTTCCGCTGAGAGTGTAGACATCTTAGTGCAATCATGTAGTAAATATCATAAAGATATTCGCTCCTTACAGGCAGAGCTTCAGTATATGAACCTTTCTATTCAAGAAAAGCTTATGCAATATGGATTGTTAAGTAAACCTGCGCAATTTTCTTCGAATTCAACGATTTATTTAGGACGAAACATTAACCGAATTGCTGTTATTCAAGAAAAAATTGGTGCTGGTTCCTATATGATGACTCATGAGTACACAATTGATCATCGCTTCGATGAAATTCATTCCCGTATGCTTTCTGAATTCTCATGGGACAGCATTGTATTTGAAGGTCGTGCTTCTATTGATACGTTTCTAGCAGAAATAAAACGCCTAGGCTTTATCAATATTCTTACTCTCCCATTCTCGTATACCGACGTTCCAACTTTATACTATGCGAATAAAGTCGGTTTTCATAATGTAGATGAGCAATTACAAGACATGATTATGAAGAAAGATTTGGTGGTACGATGA	MNGYVYLVGAGPGDEGLITKKAIDCLKRADIVLYDRLLNPFFLSYTKETCELMYCGKMPKNHIMRQEMINAHLLQFAQEGKIVVRLKGGDPSIFGRVGEEAETLAAANVPYEIVPGITSSIAASSYAGIPLTHRNYSNSITLLTGHAKGPLTDHGKYNSSYNSDTIAYYMGIKNLPTICENLLQAGKKKDTPVAVIEWGTTGKQRVVTGTLSTIVSIVKDENISNPSMSIVGDVVTLRNQIAWKERKPLHGKKVLLASATNKKSAIKQMLQESGAEIYQIPIFQKKEYTLTSEQINKIFNVDRLVFCSAESVDILVQSCSKYHKDIRSLQAELQYMNLSIQEKLMQYGLLSKPAQFSSNSTIYLGRNINRIAVIQEKIGAGSYMMTHEYTIDHRFDEIHSRMLSEFSWDSIVFEGRASIDTFLAEIKRLGFINILTLPFSYTDVPTLYYANKVGFHNVDEQLQDMIMKKDLVVR	PGPT0003670_1127	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003670-cobA_hemD-K13542	NA	NA
AK009_00843	318	nasE	COG2146	Assimilatory nitrite reductase [NAD(P)H] small subunit	ATGATACAAACGAAAGAAAAAATAAAAGTTATGCGTGCGGAAGACCTTCCTATTCAAATCGGTAAAGAGGTGCAAATGAATGGTATGTCTATCGCCCTATTCCGCCTTTCAAATGGAGATATTCGAGCTGTAGAAAATCGTTGTCCTCATAAAAACGGACCGTTAGCAGAAGGAATTGTATCTGGAGAATTCGTCTTTTGTCCACTGCATGATTGGAAAATTTCATTACTAACAGGTGAAGTGCAAAAACCTGATGACGGCTGTATCCAAACATACGAAGTAGAAGTTATTGATGGTGACATTTATATAAACATGTAA	MIQTKEKIKVMRAEDLPIQIGKEVQMNGMSIALFRLSNGDIRAVENRCPHKNGPLAEGIVSGEFVFCPLHDWKISLLTGEVQKPDDGCIQTYEVEVIDGDIYINM	PGPT0000455_1888	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
AK009_00844	2406	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	ATGAAAAAACGTTTAGTTATGATCGGAAATGGTATGGCTGGCATACGTTGTATGGAAGAAATATTAAAACATGATAGTGATTCATATGAGATTACTATTTTTGGAGATGAACCACATCCAAACTACAATCGCATTATGCTCTCTCATGTTTTACAAGGCAAAACAAATATGCAAGATATCATTATGAATGAATATAGTTGGTATGAGGAAAATGAAATAACTTTGTATACAGATGAAAGGGTTCAAAGTATTAACCGAGAAGAAAAAATAATCATCACAGAAAAAAATCGTACTCTTACATATGACAAACTAATTATCGCAACAGGTTCTAGTGCTTTTATTTTGCCCGTTGAAGGTTCTACTCTTCCTGGCGTAACAGGATTTCGAACTATTGAAGATACACAATTTATGATTGATACCGCTAATGAAAAGAAAAAGGCTGTTGTCATTGGTGGTGGATTACTTGGCTTAGAAGCTGCAAGAGGTCTTATTGATTTAGGAATGGACGTATATGTCGTTCATTTAATGCCAAGCTTAATGGAGCAACAACTAGATGCCAAAGCAGCTTCTCTATTACGCGAAGATTTAGAAGCGCAAGGCATGCAATTTCTAATGGAAAAGAAAACTGTAAAAATTCTTGGTACAGACCATGTTGAGGGCATTCAATTTGAAGATGGTGAAGTTGTAGATTGTGATTTAATCGTAATGGCTGTCGGAATACGCCCAAATACGCAAATAGCAAAAGATGCTGGTTTAATTGTAAATCGCAGTATTGTAGTCAATGACTATATGCTAACAAATGATGAATCCATTTATGCAGTTGGAGAATGTGCAGAACATGACGGTATCGCATATGGACTTGTTGCTCCTCTTTATGAACAAGGTGCGATATTAGCAAAACATATAACGAATTTACAAACTGATGGATATACGGGCAGTATCGTCGGTACACAATTAAAAGTTGCAGGTTGTGATTTATTCTCTGCTGGCCAAATTTATGAAGATGACCAAACGAAAGCAATATCCATCTTTGATGAATGTAAACGTTCCTATAAAAAAGTATTAATTCGTGACAATAAAGTCGTCGGTATCGTTTTATATGGTGACACAGCTGACGGTACACGCCTCTTTAGCATGTTAAAGAAAGAAGAGGATATACAAGAATATACAGCCGCTTCCCTTCTCCACAAAGCTGGTGAAGAAAGTGCACTTGACGTTGCTACAATGAGTGCGGATGACACGATTTGCGGATGTAATGGTGTTACGAAAGGTACAATCGTTCACGCCATTTTAGAACAAGAGTTAACGACTTTTGAAGAAGTTAAGGGCTGTACGAAAGCCGCAGGTTCTTGTGGTAAATGCCGTCCGCTTGTGGAACAAGTTTTATCTCATACACTTGGAGATGCTTTTGATGCCTCAGCGCTATCTGCCGGTATGTGTGGATGTACAACTTTATCCCGTGATGAAGTCGTAGCGGCCATTCACGAGAAAGGCTTAAAATCTCCAAAAGAAGTACGAAATGTTCTTGGTTTTATACATGAAGAAGGCTGTTCAAAATGTCGTCCTGCTTTAAACTACTATTTACGTATGGCGATTCCAGAAGAATATGAAGATGATAAATCGTCCCGTTTCGTTAATGAAAGAATGAATGGTAACATCCAGCACGATGGTACATTCTCTGTTATTCCACGCATGTACGGAGGCGTTACAACAGCTGATGATTTAATGAAAATTGCTGAAGTTGCGAAAAAGTACGATGTTCCTCTTGTGAAAATTACAGGTGCAAGCCGAATCGGCTTATATGGTGTTAAGAAGCAAGATTTACCTAACGTATGGGCTGACTTACATATGACTTCGGGATATGCATATTCAAAATCGCTTCGTAATGTAAAATCATGTGTTGGTTCTCGCTTCTGCCGTTTCGGTACGAAAGATTCATTAGGACTTGGTATGTTGCTTGAACAATCATTAGAAATGGTAGATACACCTCATAAAATGAAGATGGGTGTAACGGGCTGTCCGCGTAACTGTGCGGAAGTACTGACGAAAGATTTTGGCGTTGTTTGTGTCGAAAATGGATACCAACTTTATATTGGCGGAAATGGTGGTACGGAAGTACGCGAAGCTGATTTTGTAATGATTGTCCCTACTGAAGATGATGTCCTTCGCATCGCTACAGCTTATATGCAATATTATCGTGAAACTGGTATTTATGGAGAGCGTACTGCCTACTGGACAGAACGTTTAGGCTTCGATCACATAAAAGAAATACTGCAAGATGCAAATATGGTCACTAAGTTAAATGAACGTTTCCAAAAAGCTCGTGGCACATATAAAGAAGCATGGGGACAAGCACTAGAAACGAAATCATTAAAAGCGATGTATGAAGTAGAAACTGTGAAATAA	MKKRLVMIGNGMAGIRCMEEILKHDSDSYEITIFGDEPHPNYNRIMLSHVLQGKTNMQDIIMNEYSWYEENEITLYTDERVQSINREEKIIITEKNRTLTYDKLIIATGSSAFILPVEGSTLPGVTGFRTIEDTQFMIDTANEKKKAVVIGGGLLGLEAARGLIDLGMDVYVVHLMPSLMEQQLDAKAASLLREDLEAQGMQFLMEKKTVKILGTDHVEGIQFEDGEVVDCDLIVMAVGIRPNTQIAKDAGLIVNRSIVVNDYMLTNDESIYAVGECAEHDGIAYGLVAPLYEQGAILAKHITNLQTDGYTGSIVGTQLKVAGCDLFSAGQIYEDDQTKAISIFDECKRSYKKVLIRDNKVVGIVLYGDTADGTRLFSMLKKEEDIQEYTAASLLHKAGEESALDVATMSADDTICGCNGVTKGTIVHAILEQELTTFEEVKGCTKAAGSCGKCRPLVEQVLSHTLGDAFDASALSAGMCGCTTLSRDEVVAAIHEKGLKSPKEVRNVLGFIHEEGCSKCRPALNYYLRMAIPEEYEDDKSSRFVNERMNGNIQHDGTFSVIPRMYGGVTTADDLMKIAEVAKKYDVPLVKITGASRIGLYGVKKQDLPNVWADLHMTSGYAYSKSLRNVKSCVGSRFCRFGTKDSLGLGMLLEQSLEMVDTPHKMKMGVTGCPRNCAEVLTKDFGVVCVENGYQLYIGGNGGTEVREADFVMIVPTEDDVLRIATAYMQYYRETGIYGERTAYWTERLGFDHIKEILQDANMVTKLNERFQKARGTYKEAWGQALETKSLKAMYEVETVK	PGPT0000450_2364	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK009_00845	708	scdA	COG2846	Iron-sulfur cluster repair protein ScdA	ATGAAACATACATTTACTGAAACTTCTATTGTCGGTGAGATCGTTACACAATTCCCGAAAGCTAGTGATCTTTTTAAATCATATAGAATAGATTTTTGTTGTGGTGGCAATAAACCGCTTATTGATGCAATTCATGAAAGAAATTTATCAGCTACTGAAGTGCTTACAGAGTTAAATACGCTTTATAATAATATGAAACGATTAAATGAATCTGAAATTGATTGGAAAAATGCTTCTTATCGCGAATTGATTGATTATGTTATAAATAAGCATCATCGCTATTTAAATGAAGAGTTGCCACAATTAAGTCCGTATGTGACAAAAGTATTACGTGTTCATGGGGCAAGTCAGCCTCATTTAGCTCAAATTCATAAGCTATTTCATGAACTAAAGATGGAACTAGAACAACATTTAATTAAAGAAGAAACAGAAGATTTTCCATTAATTTTAGAATTTGAACAAAATCCAACTGAAGAAAACTATGTGAAGTTACGTAAAGTAGTAGATGAGTTGGAAAATGAACATAACCACGCAGGCAACATTATTAAAGAGCTTCGTAAAGTTACAAATGACTTTACTCCTCCAGAAGGAGCTTGCGGCACTTATCGACTTGTTTACCAACGCCTTGAAGCACTAGAGTCTGATTTATTTGAGCATATTCATTTAGAAAATAACATTTTATTTCCACGTGCAATTACGAGAGTGTAA	MKHTFTETSIVGEIVTQFPKASDLFKSYRIDFCCGGNKPLIDAIHERNLSATEVLTELNTLYNNMKRLNESEIDWKNASYRELIDYVINKHHRYLNEELPQLSPYVTKVLRVHGASQPHLAQIHKLFHELKMELEQHLIKEETEDFPLILEFEQNPTEENYVKLRKVVDELENEHNHAGNIIKELRKVTNDFTPPEGACGTYRLVYQRLEALESDLFEHIHLENNILFPRAITRV	PGPT0012950_398	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012950-ytfE|scdA-K07322	NA	NA
AK009_00846	984			hypothetical protein	ATGGCGATTTTGAGTAATATTGGTGCAGCTTTATTTTTTATTGCTTTTATTCTTTTAATCTTATGTATCATTTCATTCTTTAAAAAAAATGGAAAAACAAAACAATATGGACGTCCTACCGTTATTCTTTTTATGATTTCAATTATATTAATAGTGACTGGTACAACAAAATCTGAACACCCAGTCATCGAATTTTTTGCTATTTTAAGTTTCATTCTATTTATATTCTTCCTTGTACTTGCAATATTATCTGTTATTAAGAAAACAGGTGTAGCAAAAAAACAATTTATTATTACAGCCGTATTATTTGTCATTTTTGTTGCGCTATTAGGTATTTCAGCTCCTTCTTCTGAAAAAACGACAGCAACTAGTACAAAAGTTGCCTCTAACAATGAAGAACAAAAAGATAGCGAAAAGAAAAAAGAACTAGAAAAGAAAGAGGCTGACGAAAAAACTCAAAAGCAAGAAGATGAGAAGCGTCAAGCCGAGGAACAAGCTCGTAAGCAAGAAGATGAGAAGCGTCAAGCCGAGGAACAAGCTCGTAAGCAAGAAGATGAAAAACGTCTAGCCGAGGAACAAGCTCGTAAGCAAGAAGATGAAAAACGTCTAGCCGAGGAACAAGCTCGTAAGCAAGAAGATGAAAAACGTCTAGCCGAGGAACAAGCTCGTAAGCAAGAGGATGAAGAACGTCTAGCTGATGAACAGGCTCGTAAACAACAAGAAGAACAAAAACGTCAGGCTGATGAACAAGCTCGTAAGCAACAAGAAGAGCAAAAACGTCAGGCTGATGAACAAGCTCGTAAGCAACAAGAAGAGCAAAAAGCACAGCAAACTCAAACACAACCTACCTCAGGAAATACTAGTAGTGCATATTACAAAAATTGTGATGCAGTTAGAGCTGCGGGGAAAGCTCCTCTATATAAAGATCAACCAGGATATAGTCGTAAACTAGATAGAGACGGCGATGGAGTTGCATGCGAATAA	MAILSNIGAALFFIAFILLILCIISFFKKNGKTKQYGRPTVILFMISIILIVTGTTKSEHPVIEFFAILSFILFIFFLVLAILSVIKKTGVAKKQFIITAVLFVIFVALLGISAPSSEKTTATSTKVASNNEEQKDSEKKKELEKKEADEKTQKQEDEKRQAEEQARKQEDEKRQAEEQARKQEDEKRLAEEQARKQEDEKRLAEEQARKQEDEKRLAEEQARKQEDEERLADEQARKQQEEQKRQADEQARKQQEEQKRQADEQARKQQEEQKAQQTQTQPTSGNTSSAYYKNCDAVRAAGKAPLYKDQPGYSRKLDRDGDGVACE				NA	NA	NA	NA	NA
AK009_00847	153			hypothetical protein	ATGGAATTTCAATTGTTGGTAACTTGTATATTACAAGAAGGTAATGCTTACTTTTTAGTAACGAAGGTAGACGATGTTATTACGTTAAAAGTACCGATTACTGCGGGAGTAGCAGGTTTATTTTTAGCTTTAGGTGTACCAAGATGTTCTTAA	MEFQLLVTCILQEGNAYFLVTKVDDVITLKVPITAGVAGLFLALGVPRCS				NA	NA	NA	NA	NA
AK009_00848	210			hypothetical protein	ATGAAAAGAAAAACATTTGATATTCCAGTTACATTGCGAAGAGAGTGGTTTTTAATAGAGTTAGCTCATTTAACGAAAAAATATGGAATTGAAATTGCAACTAGCAAAATGGGTGCTGCACCGTTTTTAAGAGATCAAGTTACAGAATCAAAGATAGGGAAAGGGTTACAATACGATAAATATGATGATGAGTATATAATTGAAAATTAA	MKRKTFDIPVTLRREWFLIELAHLTKKYGIEIATSKMGAAPFLRDQVTESKIGKGLQYDKYDDEYIIEN				NA	NA	NA	NA	NA
AK009_00849	840	nhoA_1	COG2162	Arylamine N-acetyltransferase / N-hydroxyarylamine O-acetyltransferase	ATGATGACCAATTTACAAAAGGAGTTTTTTGAACGCTTAAAAATTCCTGCAAAAGAAATAACATTTGATGATTTAGATGAAATCTTATTAAAAATGGGAATGATTCTCCCCTATGAAAATCTTGATATTATGGCTGGTACTATTAAAAATATCTCAAAAGATAACTTAATAGAAAAGTTACTTATTCAAAAACGAGGTGGACTTTGTTATGAATTAAACTCCTTATTGTATTATTTTTTAATTGATTGTGGGTTTCAAGTATACAAAGTAGCCGGTACTGTTTATGATCTTTACGATAATAAATGGAAGCCCGATGATGGTCATGTCATTATCATATTAAGTCATGAGAATAAAGATTATGTTGTGGATGCAGGTTTTGCATCTCATCTCCCTTTACATCCAGTCCCTTTTAAAGGAGAAGCCATCTCCTCTCAAACAGGAGAATATCGAATTCGTAAACGAAATACTCGAAAAGGTACGCATATTTTAGAAATGAGAAAAGGAGCTAACGGAGAATCTACAAGTTTCTTACAATCTGAACCTTCAAATGAATGGAAAATAGGTTATGCTTTCACTTTAGATCCAATAGATGAGAAAAAAGTGAATAACATTCAAAAAGTGATTGTAGAGCATAAAGAATCTCCTTTTAATAAAGGAGCTATCACTTGTAAATTAACTACTTATGGTCACATATCGTTAACAAATAAAAATTACACAGAAACCTTTAAAGGCACCAAAAATAAACGACCAATAGAATCTAAAGATTATGCTCGCATTCTTCGTGAATCTTTTGGAATAACGCAAGAGAAATATGTAGGAAAAACACTAGAAAGAGGTTAG	MMTNLQKEFFERLKIPAKEITFDDLDEILLKMGMILPYENLDIMAGTIKNISKDNLIEKLLIQKRGGLCYELNSLLYYFLIDCGFQVYKVAGTVYDLYDNKWKPDDGHVIIILSHENKDYVVDAGFASHLPLHPVPFKGEAISSQTGEYRIRKRNTRKGTHILEMRKGANGESTSFLQSEPSNEWKIGYAFTLDPIDEKKVNNIQKVIVEHKESPFNKGAITCKLTTYGHISLTNKNYTETFKGTKNKRPIESKDYARILRESFGITQEKYVGKTLERG	PGPT0019890_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK009_00850	1602			hypothetical protein	ATGAGACTGATGAGAAGATGTGTGGCCTTACTAATTGTATTTTTTATCATGGCTCCAACGATTAGCACAAATGTACAGGCAGAAGTTGTAAAAGAGCTTGGAAAGGGGTTTCCTGACACAGAAGTATTTACACCTGGGGAATGGTTTTTAGGCCAAAAACCTGCTAATTATGATGAGAATAAACCACCAATTCTCTTTGTACAAGGAAGAAATGGTAATGCGGATAGTTGGTATGGAAAGACAGTATATCATGATATAAATGATATGTATGATTATGCTTTGAAAGCAGGCTATCAAACAGTGTTTATACAATTATATGATGCTGCGGGGAAAGGTTCGGCTAGTCAGTGGGATAACGGAAAACTGTTAGCACAAAAACTTGAAGAAATATATAATCATTTCGGTAAAAAAGTTAATATTGTAGCGCATAGTAAAGGTGGTATTGATACACAAGCCGCATTAGTTGAATATGATGCGAATCGATTTGTTGGAAATGTTATTACACTTGCTACACCGCATCACGGCTCAAATTTAGCAGATTTGTCATATAGTTGGTGGGCAGGGTGGCTAGCTTCTATATTAGGTCAAAAAGATGATGGTACGTACTCGTTACAAATAGGTGAAATGGCAAAGTTTCGTTCAACAATAGATAATAACCCAGCAGCTAAATTAAACCGTTACTATACGGCTACTGGGACTAGCTGGGGGCCAACATTTTCTGCATTATCTATGGGCGGGTTATATTTATCATCGTACGGTTCAAATGATGGACTAGTAAATGAATGGAGTGCGAAGCTATCGTACGGTACACATTTATTTACAGATTCCAGATTTGATCATGACAATATAAGAAAAGGATCAGCTGTTTTTACACGAATCGAACCATATTTACGTACGACAAATGTGGAATTACCAGCTTTAGTAGCATCCAGCACTAGTTCAAATGAAAATCTAGAACAATTAAATACAACTTCAAATCAAAATATTTTAGGAGGCGAATTACCACAAAATCAGTGGATAGAGCAAACCGTTACAGTTGATAAAAAAGCGGAAGGAATCGTTTCTGTACTAACTGCTTCTTCTGATGTAGAAGTACAAATGGTATCTCCAAAAGGAAAAATATATGCAAATAAAGATAGCGCTATAACTACTGGTGAAGGCGAATCTTTCTTTAATGGGGCGACAATTAGAACATTTAAGTTTGATAAATTGGAAGTAGGCGAATGGAAAATCAAAATGATGGCGAAGCAGTCGAAAGATGCATATTTAGTTGTAAGCGATTACAAGAATGACGCACCATTTGTTCTTCAAATACCTACAAAAGTTAAAGTAAATAAACCTGAGTATAAACTGAAAAAATCACCAATGGCACCTGAAATGAAAGGGGATCTTTCCATAACAGTAAGAGTCGTTAATAAAGAAGGTAAGTTAGTCTCTGAATTTAATGAATTACAAAATGTTAATACGAATACATTTACAGGTGCTTTGAAAGATATAAAACAACCGGGAGTATATAACGTTACGATGGATATAAAAGGGATGAATAAAGAAGGAAAACCATATAATCGTACGATTGTTAAGTCGGTTTATGTAGAGAAATAA	MRLMRRCVALLIVFFIMAPTISTNVQAEVVKELGKGFPDTEVFTPGEWFLGQKPANYDENKPPILFVQGRNGNADSWYGKTVYHDINDMYDYALKAGYQTVFIQLYDAAGKGSASQWDNGKLLAQKLEEIYNHFGKKVNIVAHSKGGIDTQAALVEYDANRFVGNVITLATPHHGSNLADLSYSWWAGWLASILGQKDDGTYSLQIGEMAKFRSTIDNNPAAKLNRYYTATGTSWGPTFSALSMGGLYLSSYGSNDGLVNEWSAKLSYGTHLFTDSRFDHDNIRKGSAVFTRIEPYLRTTNVELPALVASSTSSNENLEQLNTTSNQNILGGELPQNQWIEQTVTVDKKAEGIVSVLTASSDVEVQMVSPKGKIYANKDSAITTGEGESFFNGATIRTFKFDKLEVGEWKIKMMAKQSKDAYLVVSDYKNDAPFVLQIPTKVKVNKPEYKLKKSPMAPEMKGDLSITVRVVNKEGKLVSEFNELQNVNTNTFTGALKDIKQPGVYNVTMDIKGMNKEGKPYNRTIVKSVYVEK				NA	NA	NA	NA	NA
AK009_00851	549			hypothetical protein	TTGGGTTCATACTATCATTCTTCAAACTCGTATAAAAAATGCTCATGCAAATCTTCTTCCAGTTCAAATAAAAAATGTTCATGTGACCATTCACATAAACGAAGCTGTCCTGCATACGGAACTTTTTGGCAAACTGAATTTATAACTGTTCCTTTTGGCAACCCTTTTCCATTTAATCACGTTGGACCTTTAGCAGGAGGCGTTTCCTTACTAAACCCTACTACTATACAATTTAGACAAGCTGGTGATTATAGAGTTTCGTTCATTTCCAGTATTAATACTACTTTAAATCCTGTATTTCCACATATCCCAGTCATAACTATATTTTTAAATAACAATCCACTTGCTAATAGTCAAGGTGACTTCGCTATTCAAATGAATACTTCATCAAATAACGAATGTCTTCAACTCGTTGGCGAAACGATTGTTACAGTGCCAGCTAATTCAACTCTTCAACTTAGAAATAATAGTGGCTTTAATCGTCAAAGTATTGTAACTTGTGACAATGGTATAAATTCAGTTGAATTAACAGTTACAAAACTAAGTTAA	MGSYYHSSNSYKKCSCKSSSSSNKKCSCDHSHKRSCPAYGTFWQTEFITVPFGNPFPFNHVGPLAGGVSLLNPTTIQFRQAGDYRVSFISSINTTLNPVFPHIPVITIFLNNNPLANSQGDFAIQMNTSSNNECLQLVGETIVTVPANSTLQLRNNSGFNRQSIVTCDNGINSVELTVTKLS				NA	NA	NA	NA	NA
AK009_00852	276	spoVS_1	COG2359	Stage V sporulation protein S	ATGGAAAATATATTAAAGGTATCTTCAAAATCAAGCCCAAATTCAGTCGCAGGTGCAATAGCAGGTGTACTAAGAACAAGTGGTAATGTGGAAATTCAAGCGATTGGGGCTGGAGCTATAAATCAAGCGATTAAAGCAATTGCGATTGCAAGAGGGTTCGTCGCTCCAAGTGGTATTGACTTAGCTTTTGTTCCAGCGTTTCAAGAGATTTCTATTAATAATGAAGAGAGAACAGCGATTAAATTAATTGTAGGCCCTAGAAAGAAAAGGTCTTAG	MENILKVSSKSSPNSVAGAIAGVLRTSGNVEIQAIGAGAINQAIKAIAIARGFVAPSGIDLAFVPAFQEISINNEERTAIKLIVGPRKKRS	PGPT0024850_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416	NA	NA
AK009_00853	264			hypothetical protein	ATGTTTTTAAAAATAAACAACCTTAAAACTGCTCATTTAGAAGATTTAGTTTTAGTAGCGGCCATTGAACGTTTTTATGATAGTTTACCTGATAAATGGAGAGAAATAGTAGCAGACAATATTGATTGTGCTAGTTATGTAGATGGGAAATATGAAGCGCACGTTTTAATGGAAAATGGTATGGAAATAAAAATAGAAATCTTTTATGTGGAAGAAGACAAAGATGAAGAATGGATATATAAAGCTTATAAAGTTTTATTATAG	MFLKINNLKTAHLEDLVLVAAIERFYDSLPDKWREIVADNIDCASYVDGKYEAHVLMENGMEIKIEIFYVEEDKDEEWIYKAYKVLL				NA	NA	NA	NA	NA
AK009_00854	174			hypothetical protein	ATGAATTTTGTAAACTTTGAAACACAAGAGCAATTTAAACAGTTACAAAAAAATAATGTTGTAATTGTGAAATGGAAAAAAAGCGTAAGGCAGTACAAGGAATTAGGAGAAATCACACATCATAATTCTTACACAATTAATCGTATAAATGAATTGATTTTGAAAATAGTTTAG	MNFVNFETQEQFKQLQKNNVVIVKWKKSVRQYKELGEITHHNSYTINRINELILKIV				NA	NA	NA	NA	NA
AK009_00855	348			hypothetical protein	ATGGGATATAACAGCTTTCCTGTAGTACGTGGAAGAGGTATGGTGAAATGGAATCCGTTTGCTTCAATACCGGAGCAATACGAGGAAATACATAGAATGTTTGAGGAACAATATAAAGTACCTAAACCTTTTTTAACACAAGATACTATGGAACGAATAGAAAGAGCGTTAATGCAATCTTTTCACGAGGAAGAAGAAATACATACCTCATACTATCGTGATGGAATGGTGCAAGACATGTACATAAATGTATTACATATTGAACCGATGACGAAAACTATATATTGTACAGATGCTTTTGGTTTGAATACTAAGTTTAAGTTTGATGAATTGGTGAATATAAATTAA	MGYNSFPVVRGRGMVKWNPFASIPEQYEEIHRMFEEQYKVPKPFLTQDTMERIERALMQSFHEEEEIHTSYYRDGMVQDMYINVLHIEPMTKTIYCTDAFGLNTKFKFDELVNIN				NA	NA	NA	NA	NA
AK009_00856	1074	rapG		Response regulator aspartate phosphatase G	ATGAGTGTTGACATTATTTCTAAAGAAGAAATCACAAAATTATTAAACGAATGGTATCAAGCTATGATTTCACAACGTGTATTACAGTCTCAGAAAATAAAAGAAGATATTGCAAATAAAATCAATAATATTAAGGAAGACCAAACAATATTAGTCTACTACGCTTTATTGAATGCACGGTATAAACTGCTAATTCGGGATATGGATAGTACAAAAGATATTCTGGACAAAATCGAGCCTTTACCAGAGTCTACAGAAACATTTTTAGAGTACTATCATCATTTATTTAAAGCAATTTACGCTATTAATAAAGCAAACCATAGTGAAGCAAGAATGCAATTTGAAAAAGCTGAAACGTTTTTAGAGTACATGCATGATGAAATTGAAAAAGCTGAATTTAATTATTGGCTTGCAGTCCATTACTATCACGTATTAAAACCGATCCTAGCAGTTCAATTTGCTACAAAGGCGAATGAAGTATTTTCAATTAGTCCAGGGTATGAATTAAAAACTGCAGCATGCTTAAATACTTTAGGAATGGCACACATTCGACTAAATGAATTCGAAAGTGCAGAGGAATATTTACTTTCAGCACTAGGTACCTTCCAAAAATCTAATGATGAACTTCTTATTAAACGAGTTAAGCATAATTTAGGACTTTTATACGCAAGTCAAAACATGCCAGAGTTAGCAATTAAACACTTAGAGGATTCATTAGAAAATAACGCTAAAACTATGTTTCTTTTAGCAAGAGAACATTTTAAGTTAGGTTATAGTCATATCGCTAATGAATATATTGAGAATGGCTATAAGATTAGCGACTTATGTTATCGTCATCATTTCCGAATTTTAAAAGCAGTACATAACTATGTACCGCAAGAAGAATTAGAAAATGTGGTTATAGAAGGTATTTCGTATTTTGAAAAAGAAGAATTATATGATTGGGTAAAAGAATATGCTTCTCTTTTAGGTGAAAGATTCTATGGTTCAGAAAATCACAGAAAAGCAAGCAAGTATTTGCACATCGCTTTAGATGCAGACAAAAAGAGCATAGAAAGAAGGGCGCTAAAATGA	MSVDIISKEEITKLLNEWYQAMISQRVLQSQKIKEDIANKINNIKEDQTILVYYALLNARYKLLIRDMDSTKDILDKIEPLPESTETFLEYYHHLFKAIYAINKANHSEARMQFEKAETFLEYMHDEIEKAEFNYWLAVHYYHVLKPILAVQFATKANEVFSISPGYELKTAACLNTLGMAHIRLNEFESAEEYLLSALGTFQKSNDELLIKRVKHNLGLLYASQNMPELAIKHLEDSLENNAKTMFLLAREHFKLGYSHIANEYIENGYKISDLCYRHHFRILKAVHNYVPQEELENVVIEGISYFEKEELYDWVKEYASLLGERFYGSENHRKASKYLHIALDADKKSIERRALK	PGPT0025775_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025775-rapG-K06365	NA	NA
AK009_00857	126			hypothetical protein	ATGAAAAAAGCAATCTTATTAATGATGATGTTATCCGCTGTTTTTACTTTTGGTCTTACTAATGTAAAAGACATACCACAAAACGAAGCAATTGAAGTGTTTATGGATCATGGAGAACATATTTAA	MKKAILLMMMLSAVFTFGLTNVKDIPQNEAIEVFMDHGEHI				NA	NA	NA	NA	NA
AK009_00858	828			hypothetical protein	ATGTTCTATAATAATCAACCGCCTTATCCAAGGCAACCATTGTATCCTCAACAACAAGAACAGAGATACACAGAACAATACGAAGAACAAGAGTTACAACAGCAAGAACCACAATATGACGAAAACCCATATGCAACAACGCAAAACCAAGAAACTGAATTTCAACAAAATCCATATGACGCACGTCCAAATTATGAATATCCTCAAAATCCATATGCAGCACCACAAAATCAAGAACAGCGATATCCTCAAAATCCATATGTAATACCACAAAACCAAGAACAACAATATCAACAAAATCCATATGCAGCACCACAAAACCAAGAACAACAATATCCTCAAAATCCATATGTAGCACCACAAAACCAAGAACAACAATATCAACAAAATCCATATGCAGCACCACAAAACCCATACACAACTCAACCACAACAACCGCAATACCAACAACAAATGTATCAACCAAACTACGACGCACGTGTCTCACCACCTAAACCACCAACAATAGATCCAACTCAACCACAAATTTTACCGCCTGGACCAACACTAGACATTACACAACCACAAATATTGCCACCTGGACCAATTACTGAACCAACACAACAACAAATTCAACAAGTTGTCGGTACACAGTTTTTACCTTTCAAGAAACCCGTACTAGATTTCGTAAAACCATGGGTAGATTACGGTTTAAATGAAGCAAAACATACATCACATGAACACGCATTAACAGAAGTTGCTGCGATTATGTTTTTAGTTGGTAAAGGCTTCAATCCGACGATTGCACATTATATCGTTGAATCTTGGGAGAAGAATGAGCAGTTTTAG	MFYNNQPPYPRQPLYPQQQEQRYTEQYEEQELQQQEPQYDENPYATTQNQETEFQQNPYDARPNYEYPQNPYAAPQNQEQRYPQNPYVIPQNQEQQYQQNPYAAPQNQEQQYPQNPYVAPQNQEQQYQQNPYAAPQNPYTTQPQQPQYQQQMYQPNYDARVSPPKPPTIDPTQPQILPPGPTLDITQPQILPPGPITEPTQQQIQQVVGTQFLPFKKPVLDFVKPWVDYGLNEAKHTSHEHALTEVAAIMFLVGKGFNPTIAHYIVESWEKNEQF				NA	NA	NA	NA	NA
AK009_00859	648	yedJ	COG1418	putative protein YedJ	ATGACAAAACAAGAAAAAATTCAAAAAACAATTACTTTTGTAAAACATATTTTAGAAAAAGATGCGAGTGGGCATGATTGGTATCATATTGAACGTGTACATAAAATGGCGATTTCTTTATCTGAGCAAGAAGGTGGAAATCGTTTTATAATTGAAATGGCAGCATTACTTCACGATGTGGCAGATGAAAAGCTAAATGAAAGTGAAGAAGCAGGAATGAAAAAAGTTTCTGATTGGTTAGAAGAGCTACGGGTTGAAGAAGAGGAAAGTAAACATATTCTTCATATCATCGCCAATATGTCTTATAAAGGTGGCCATGGCGGCACAGTAGAGTCACTTGAAGGGAAAATTGTTCAAGATGCGGATCGTTTAGATGCTCTTGGTGCAATAGGAATTGCTCGTACATTTGCATATGGCGGGGCAAAAGGGAGATTAATGTATGACCCAACTATTCCGCCGCGTGAAGAAATGACGAAAGAAGAATATAGAAAAAATAATGATCCATCTTTAAATCATTTTTATGAAAAACTTTTGAAATTAAAAGATTTAATGAATACGAATGCAGCAAAACAAGAGGCTGAAATTCGTCATCGTTATATGGAACAGTTTATTGAACAATTTATGAAAGAGTGGAATGCACAAATATGA	MTKQEKIQKTITFVKHILEKDASGHDWYHIERVHKMAISLSEQEGGNRFIIEMAALLHDVADEKLNESEEAGMKKVSDWLEELRVEEEESKHILHIIANMSYKGGHGGTVESLEGKIVQDADRLDALGAIGIARTFAYGGAKGRLMYDPTIPPREEMTKEEYRKNNDPSLNHFYEKLLKLKDLMNTNAAKQEAEIRHRYMEQFIEQFMKEWNAQI				NA	NA	NA	NA	NA
AK009_00860	1896	ettA	COG0488	Energy-dependent translational throttle protein EttA	ATGAAAATGTTAACTGTGGAGAACTTATCAAAATCATATGGGGAAAAGCCGTTATTTGATGGATTATCATGTAGTATTACAGAAGGACAACGTGTCGGAATTATTGGTGTAAACGGAACTGGTAAATCGACATTATTAAAAATTATTGCAGGATTAGAAACTCCTGATACAGGTGATATGACGCATTCACGTGGGTATACAATTAGTTATTTATCACAGCAACCAGAGTTTGATGAAAAACTGACAGTATTAGAGCAAGTGTTCCATGGTGATACACCTTTAATTCGTCTTCTTCGTGATTATGAAAAAGCACTATTAAATATTGAAAAAGATCCAAGTAATGAAAAAGTACAGGAACAATTATTTGCAGTGCAGCAACGTATGGATGCAATGAGTGCATGGGAAGCAAATGCAAATGCGAAATCTCTTTTAACGAAATTAGGAATTACGGACTTCACTGCAATTGTTGGGAACTTATCTGGTGGACAGAAAAAACGTATCGCAATGGCACAATGTTTTATTGAAACACCTGATTTATTAATTTTAGACGAGCCTACGAACCATCTTGACCATGAGACAGTTGAATGGTTAGAAGAATATTTAGCGAGATATACAGGTTCGGTATTACTTGTAACCCATGATCGTTATTTCTTAGATCGTGTGACGAATCGTATTTTTGAATTAGATAATGGTAAATTATATAGCTACGAAGGAAACTATAGTACATTTTTAGAAGCGAAAGCACTTCGTGAAGAGCAAGAATTGGCACAAGAATCCAAACGCCAAAATTTATATCGTCGTGAACTTGCTTGGATTCGTCGTGGTGCAAAAGCCCGTTCTACGAAACAAAAGGCGCGTATTCAGCGTTTTGATGAGCTAAAGGAACAAGAAGGACCAGCTGCAAAACAGTCAGTTGATATTGCACTAAGCGGAAGTCGTCTAGGAAAGAAAGTACTTGAGTTAAAAGATGTAACGAAAAAATTTGGCGATAAGACGGTATTACATAATTTTAATCATATTGTGAAACCGGGTGATCGTATCGGAATTATTGGGGCGAATGGAAGCGGGAAATCTTCCCTATTAAATATGCTTGCAGGTAAGTTATCTCCTGATAGTGGTGAAGTTGAAGTAGGACAAACTGTAAAAGTTGCTTATTATACGCAAGAAAATGAAGAGATGAATTTAAATCAGCGTATGATTGAATACATTAAAGAGATTGCAGAAGTTATTCATACGACAGATGGAAAAGTAATTGGTGCATCTCAAATGTTAGAACGTTTCTTATTCCCGACGCATTCACATGGTACACCACTTGGTAAACTATCTGGTGGTGAAAGAAGACGTTTATATTTATTACGTATTTTAATGGGAGAACCAAACGTACTTTTACTTGATGAACCTACGAACGATCTAGATACACAAACATTAACAGTACTAGAAGATTATTTAGAAGATTTCCCAGGTGTCGTTTTAACTGTATCGCATGACCGTTACTTCTTAGATAAAGTAGTAGATGAACTGTTCATCTTTACTGGTGGAGGCGAAGTGCGTGAGTTTTTAGGTAGTTATACAGATTATTTAGAAATGGAAAAAACGAGAGAACTTATGGAGAAAGCGGAAGTTCAAAAAGAGAAAAAAGTTGTAGAAGAAGCTCCAAAACAACAACGTAAACGTAAACTTTCATACAATGAACAGCGTGAATGGGAAACGATTGAAGATACAATTGCCGAACTTGAAGAGAAAATTGAGTCAATTGGAGAAGAACTTGCGAAAGTTGGATCTGACTTCACAAAGGCACAAGAATTATCTGAAGCACAGCAGAAAACAGAAGAAGAGCTAGAAAAAAAGATGGAAAGATGGAGTGAACTATCAGACATCGTTGAAGGATTAAAATAA	MKMLTVENLSKSYGEKPLFDGLSCSITEGQRVGIIGVNGTGKSTLLKIIAGLETPDTGDMTHSRGYTISYLSQQPEFDEKLTVLEQVFHGDTPLIRLLRDYEKALLNIEKDPSNEKVQEQLFAVQQRMDAMSAWEANANAKSLLTKLGITDFTAIVGNLSGGQKKRIAMAQCFIETPDLLILDEPTNHLDHETVEWLEEYLARYTGSVLLVTHDRYFLDRVTNRIFELDNGKLYSYEGNYSTFLEAKALREEQELAQESKRQNLYRRELAWIRRGAKARSTKQKARIQRFDELKEQEGPAAKQSVDIALSGSRLGKKVLELKDVTKKFGDKTVLHNFNHIVKPGDRIGIIGANGSGKSSLLNMLAGKLSPDSGEVEVGQTVKVAYYTQENEEMNLNQRMIEYIKEIAEVIHTTDGKVIGASQMLERFLFPTHSHGTPLGKLSGGERRRLYLLRILMGEPNVLLLDEPTNDLDTQTLTVLEDYLEDFPGVVLTVSHDRYFLDKVVDELFIFTGGGEVREFLGSYTDYLEMEKTRELMEKAEVQKEKKVVEEAPKQQRKRKLSYNEQREWETIEDTIAELEEKIESIGEELAKVGSDFTKAQELSEAQQKTEEELEKKMERWSELSDIVEGLK				NA	NA	NA	NA	NA
AK009_00861	732			hypothetical protein	ATGAGAACATCTAATCCAATGTTGAAAAAAGAGGCATTCCGTAAAGAGGGAGCAAGCGCTTCTGCGATGACGATTGGCGGAACAGTAGGCAAAACGTTTATTATGCTTATCTTGCTACTTGCAACGTCTGTCTATTCATACATACAAATGATGCAGGGGACGATGAAGATGCCAGTATTAATTGGTGCTTTAATCGTTGCGGCAATCATCGCATTTGCGTCTATGTTCTTCCCGCGTATTTCACCTTTTGGTGCACCAATCTATGCAGCGGTAGAAGGGGTTGTGTTAGGAAGTATTTCAGCAGTTTATACAATGAAATTTGGCGATTCTATCGTTTTAAATGCTGTATTACTAACAATCTCAATTCTATTTGCAATGTTAGTGTTATATGCAACACGCGTAGTAAAAGTAACGGATAAATTCCGTACAGGCGTTATGGCAGCAACACTTGGAATTATGGTTATGTATTTAGTCGTATTCCTACTAAATATGTTTGGTGTAACTGTTCCATACATTCACCAAGGTGGTACAATCGGTATTATTATTAGTGCAGTTGTTATCGTAGTTGCTGCATTAAACTTATTACTAGATTTCGATTTAATCGAAAATGGTGTACGTAGTCAAGCTCCGAAATATATGGAGTGGTATACTGCGATGGGACTAATGCTTACATTAGTATGGTTATACTTAGAAATTCTTCGTTTCGTTTCTTACTTTACGAAAAATGACTAA	MRTSNPMLKKEAFRKEGASASAMTIGGTVGKTFIMLILLLATSVYSYIQMMQGTMKMPVLIGALIVAAIIAFASMFFPRISPFGAPIYAAVEGVVLGSISAVYTMKFGDSIVLNAVLLTISILFAMLVLYATRVVKVTDKFRTGVMAATLGIMVMYLVVFLLNMFGVTVPYIHQGGTIGIIISAVVIVVAALNLLLDFDLIENGVRSQAPKYMEWYTAMGLMLTLVWLYLEILRFVSYFTKND				NA	NA	NA	NA	NA
AK009_00862	255			hypothetical protein	ATGATGAAAGAGAAGAAAGGGATTATGAAAAAACTATTTTCTAAAAGTTTTTTCATAGAACTAGATGAAACTTTAACGTATCCATCATCAGAAGTTATTACTTCAGTGATTGAAGGATATGCAACTGAATGCAATGAGAGACTAAAATTTGAGAGTAAAGTTAAACTGATTACGTTCTACTTAGAAAATGTAATGTACCGTGCTGAAATAAAGATGGCTCGCGGAGGATATTACATAGCTTGTACTGAAGTGTAA	MMKEKKGIMKKLFSKSFFIELDETLTYPSSEVITSVIEGYATECNERLKFESKVKLITFYLENVMYRAEIKMARGGYYIACTEV				NA	NA	NA	NA	NA
AK009_00863	336	ssbA_1	COG0629	Single-stranded DNA-binding protein A	ATGATGAATCGAGTTGTATTAATCGGTAGATTGACAAAGGAGCCAGAATTATACTACACAAAACAAGGCGTCGCTTATGCAAGAATATGTATTGCGGTGAATAGAGGATTTCGAAATAGTTTAGGTGAACAACAAGTCGATTTTATTAATTGTGTCGTTTGGCGCAAATCGGCTGAGAATGTAGCTGAATATTGTAAGAAGGGGTCGCTCGTTGGGATTACAGGGCGTATTCAGACTAGTAATTACGATGATGAACAAGGCAAGAGAATATATAGAACTGAAGTTGTGATTGAGAGTATTACCTTTTTGGAGAGAAGGCGGGAGGGGGCATCGTAA	MMNRVVLIGRLTKEPELYYTKQGVAYARICIAVNRGFRNSLGEQQVDFINCVVWRKSAENVAEYCKKGSLVGITGRIQTSNYDDEQGKRIYRTEVVIESITFLERRREGAS				NA	NA	NA	NA	NA
AK009_00864	474			hypothetical protein	ATGAGTATAAACTATCCATTTAAACCAAAATCAAATCGTTATTTAGTACCAGGACAATTTTGGACTATTCCTTTAGATAACAGTAAATTTGCATGTGGTAGAGTAATTGAAACAGATCCAAATAGTAGAAGGGGATTTTTAGCAGGTTTGATGGACTGGATCGGAGATAGCCCACCTATGGCTGAAAATTTAAAAGGTTGTAAAACGTTAATACAAATAGATGTTCATATTAAAACCATTCATGAAACAGCATTGGATGGTTTTATAAGTGGCTATCGTTCATTAGAATTAGATGGAATTGAAACAGAGTATTTCACTTCACAAATGGTTCATGATGAGAATTGTATGTTAATGAAAGGATATTCAGTACTTAGACAGGCGACCAAAGAAGAAGCAGATACGTATGATCAGTTCGGTTACGCAGGTTACATGATGATTAAATGTTACGCAGAAGATTTATTAGCAAATAAATAA	MSINYPFKPKSNRYLVPGQFWTIPLDNSKFACGRVIETDPNSRRGFLAGLMDWIGDSPPMAENLKGCKTLIQIDVHIKTIHETALDGFISGYRSLELDGIETEYFTSQMVHDENCMLMKGYSVLRQATKEEADTYDQFGYAGYMMIKCYAEDLLANK				NA	NA	NA	NA	NA
AK009_00865	1128			hypothetical protein	GTGAAGATTAAAGCAATTGAACCGACGCCAAGTCCAAATACAATGAAAGTTATTTTGAATGAAGTATTACCATCAGGAGCGCGTAATAATTATACAAATGAAAATAAAGAACAAGCGCCAATGCAAGTGCAAGAAATTTTGAAAATTGAAGGCATTAAAGGTGTATATCATGTAGCCGACTTTTTAGCAGTGGAGCGAAATGCGAAGTATGACTGGAAAGTTTTATTACAACAAGTTCGTGCTGTTTTCGGCGAAGAAGTAGTGGAAGAAAGTGAAGAACAACAACTTGCTCATTTTGGAGAAGTGAAAGTGTTTGTTCAAATGTTCTTTACAATTCCAATGCAAGTAAAGTTAACAGATGGAACGACGGAAGAACGTGTTGGTTTACCAGATCGTTTTAAAGAATCAATTATGAAAGTGCAAATGTCTGCACCAAACGTTGTAAAAGAGCGTAAATGGGTGGAACAAAGTACACGTTACGGTAACTTTGAAGAAATCGGGAAAGAAGTAGTGGAAGAGATTGTTGCTGCTTATTCAGAAGAACGTGTAAATGAAACGGTTAAAGAATTATTAAATCAAGCAGGTGCTGTTGAAGTAACGATTCAAAAGCGTGAGCCATATAAAGTAACAGAAGAGATGATGAAAGATTCTGACTGGAAAAACCGTTTTGCAGCATTAGAACAAATGGATCCTACTGAAGAAGATATTCCAGTGTTGAAGATGGCGTTAGATGATGAAAAAGTTTCGATCCGCCGTTTAGCAACTGCGTATTTAGGTATGGTAAAAGGTGATGGAGTATTGCCATTATTATATAAAGCGTTATTAGATCGTTCAGTAAGTGTTCGCCGTACAGCAGGCGATTGCTTATCAGACGTAGGTGATCCAGCAGCGATGTTCGTTATGATTAAATCTCTGAAAGATTCAAGTAAATTAGTACGCTGGCGTGCAGCTATGTTCTTATTTGAGCTTGGAGATGAAAGTGCAATTCCAGCATTAAAAGCAGCGCAAGATGATCCAGAGTTTGAAGTAGCGATGCAAGCGCGTCTAGCATTAGAGCGTATTGAAGGCGGAGAAGAAGCAAAAGGTTCTGTATGGAAACAAATGACAGAGTCTCGTAAAGGGGAATAA	MKIKAIEPTPSPNTMKVILNEVLPSGARNNYTNENKEQAPMQVQEILKIEGIKGVYHVADFLAVERNAKYDWKVLLQQVRAVFGEEVVEESEEQQLAHFGEVKVFVQMFFTIPMQVKLTDGTTEERVGLPDRFKESIMKVQMSAPNVVKERKWVEQSTRYGNFEEIGKEVVEEIVAAYSEERVNETVKELLNQAGAVEVTIQKREPYKVTEEMMKDSDWKNRFAALEQMDPTEEDIPVLKMALDDEKVSIRRLATAYLGMVKGDGVLPLLYKALLDRSVSVRRTAGDCLSDVGDPAAMFVMIKSLKDSSKLVRWRAAMFLFELGDESAIPALKAAQDDPEFEVAMQARLALERIEGGEEAKGSVWKQMTESRKGE				NA	NA	NA	NA	NA
AK009_00866	384			hypothetical protein	ATGATTGTTTTCTATGATAGTTGGTGTCCGATGTGTACGGCGGTTGCAGAACGTACGAAAAAATTAGATAAAAAAGGTAAGATGAAATTTGTTTCATTTCGAGATGAAGATGTAGTTGAGAAGTATGAGCTTTCTCAAGAACTACAAAGTAAGATGGAACAAAGACTGTATATTTTTAAAAATAATAAGTGGTATGACGGCATTCAGAGCATAGATGTATTAGCAAAGGCCGTACCATCTTATTGGTTTGCCGTTCCTTTTATAAAGCTATCTATCGTACTTGGTTTTGGAAGTAAAGTATACGATTATATCGCTAATAATAGAAAACTTGTTCCAGTGGGACATTGCCGCGGTGGGGTTTGTGAAATCCCTACAAAAAAATGA	MIVFYDSWCPMCTAVAERTKKLDKKGKMKFVSFRDEDVVEKYELSQELQSKMEQRLYIFKNNKWYDGIQSIDVLAKAVPSYWFAVPFIKLSIVLGFGSKVYDYIANNRKLVPVGHCRGGVCEIPTKK				NA	NA	NA	NA	NA
AK009_00867	435			hypothetical protein	ATGTCAAATGCTTATGAAGAATACATGCGCCAAATGGTAATCCCAATGCGCCAAGAGTTAGTGCGTTCTGGGTTTGAAGAGTTAACTACAGAAGAAGCTGTAACAGAATTTATGGAAAATACATCAGGTACAACTTTAGTAGTTGTAAACTCTGTTTGTGGTTGTGCAGCTGGTTTAGCACGTCCATCAGCAGGTCAAGCGGTTGTTCGTGCTGAAAAACAACCTGATCATCTTGTAACTGTATTCGCAGGTCAAGATAAAGATGCTACCGCAAAAATGCGTGAATACTTCGGAGAAATCCCTCCATCTTCACCATCTATGGCATTATTAAATGGAAAAGAAGTTGTTCACTTCATTCACCGTCATGAAATTGAAGGTGCAACTATGGACGAAATTATTACGAACTTAGAGCAAGCTTTCGAAAAGAATTGCTAA	MSNAYEEYMRQMVIPMRQELVRSGFEELTTEEAVTEFMENTSGTTLVVVNSVCGCAAGLARPSAGQAVVRAEKQPDHLVTVFAGQDKDATAKMREYFGEIPPSSPSMALLNGKEVVHFIHRHEIEGATMDEIITNLEQAFEKNC	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
AK009_00868	777	rsmJ		Ribosomal RNA small subunit methyltransferase J	ATGATAGTAACAACAGCAGGAAGAACAAATAAAGAAATGACAGCATATGCAAAGGAGGTAGCAGAAGAATTAAATCGTTCTTTTATTTTACGTAATGATATACCAGTGCATAAATTACATGAGCAGTATGAACAAGATGTACTTGTCGTAGGAAAGAACCGATTAGCTATTTATCCGAAAGGTACGGAAGAATCATTTTTCTTTCATCCGAACTCAGCGATGTTTCGTGTGAAAAGGTTAATGCGTGGAGAGCACGATCCGTTTGTACAAGCTGCTAAATTAGAGAGCGGAATGACAGTGTTAGATTGTACGCTCGGTATGGCATCAGATAGTATTGTAGCTAGTTATGTTGTTGGTGAAAGTGGAACAGTAACAGGACTTGAAGGCAATGAATATATGGCTTATATCATGAAAAATGGTTTGAAAACATGGTCTTCATCTGTTTCTGAAATCGATGAAGCAATGCAAAGAATCCTAGTAAAGCAAACGGAGCATTTTTCATTTTTAGCGCAATGTGAAGACGATAGTTACGATGTCGTTTACCTTGATCCTATGTTTGAAGAAACTGTCATAGAATCTGACGGAATTAAAGGATTAAAACACTTCGCTTTGTATCATGATATTACTGATGAAACAATTGCGGAGGCGAAGCGAGTGGCGAGAAAGCGTGTCGTATTAAAAGATCATTTCCGTAGTTCTAGATTTGAAAAACACAATTTTCACGTATACAAAAGAAAAAGTGCTAAGTTTCACTTTGGTGTAATTGACCCTTGCTAA	MIVTTAGRTNKEMTAYAKEVAEELNRSFILRNDIPVHKLHEQYEQDVLVVGKNRLAIYPKGTEESFFFHPNSAMFRVKRLMRGEHDPFVQAAKLESGMTVLDCTLGMASDSIVASYVVGESGTVTGLEGNEYMAYIMKNGLKTWSSSVSEIDEAMQRILVKQTEHFSFLAQCEDDSYDVVYLDPMFEETVIESDGIKGLKHFALYHDITDETIAEAKRVARKRVVLKDHFRSSRFEKHNFHVYKRKSAKFHFGVIDPC				NA	NA	NA	NA	NA
AK009_00870	1689	argS_1	COG0018	Arginine--tRNA ligase	ATGGATTATAAAATGCAGTTTGCGGAAAGTTTATCTAATATTTTCACGAATGAACTAACGCAAAAACAAATTTTAGATTTAATTGAAACACCGAAACAAGATGAATTTGGAGATGCAGCGTTCCCATGCTTTTCATTAGCAAAGAAATACAAAAAAGCACCAGCTATTATCGCAAAGGAAGTTGCTGAGAAATTAAATAATCCGTTTTTTATGAAAGTAGAAGCCGTTGGTCCTTATGTAAATGTATTTTTCAATCGTGAAACTGTAAGTGATGCAGTATTAAAAACAGTTTTAGCGGAGAAAGAAGAGTTCGGTCAAAACCACTTTGGCTGTGAAAAAACAGTAGTAATTGATTATTCCTCTCCTAATATCGCGAAACCTTTTTCGATGGGGCATTTACGTTCTACAATGATAGGAAATTCGCTGAAACATATCGCTGAAAAATGTGGCTATGAAGTTGTAGGGATTAATTATATAGGAGATTGGGGAACACAGTTTGGAAAGTTAATTACGGCTTATAAAAAATGGGGAAATGAAGCAGTAGTTAAAGAAGATCCAATACGTGAGCTATTTAAGTTATATGTCCAATTCCATGAAGAGGTAAAAGACGACGAAGAACTAGAAGAAGAAGGACGTGCTTGGTTTAAGAAATTAGAAGAAGGTGATGAAGAAGCGGTAGAGCTTTGGAATTGGTTCCGTCATGAGTCCCTTAAAGAATTTTCTCGCATTTATGAACTTCTCGGCGTAGAATTTACTAATTTTCAGGGAGAAGCATTTTATAATAATTTAATGGAAGATTTTATTGGGATTTTAGAAGAACATGAGTTGCTTGAAGAATCAGAAGGTGCATTAGTCGTTAATTTAGAAGAAGAAGGAATGCCGCCTTGCTTAATTAGAAAATCAGATGGTGCGACGATTTATGCAACGCGTGACTTAACGGCAGCTTTATATCGTCAAAACACTTATGGGTTTGATAAAGCGCTATATGTTGTTGGTCCAGAACAAAGCTTACATTTCAATCAATTTTTCACCGTATTAAAAAAACTTGGCTATACTTGGGTTGATGGTATGGAACACGTACCGTTTGGCTTCATTTTAAAAGATGGTAAGAAAATGTCGACACGTAAAGGAAGAGTTATTTTACTTGAAGAAGTACTCGAAGAAGCAATCGAACTTGCAAAACAAAATATTGAAGAGAAAAATCCAAACTTAAAACAAAAAGAAGTAGTAGCAAAGCAAGTCGGTGTTGGTGCAGTCATCTTCCACGATTTAAAAAATGAGCGTATGCACAATATTGAATTCTCATTAGAAAACATGCTGAAATTTGAAGGAGAAACAGGCCCGTACGTACAGTACACACATGCACGTGCTTGTTCTATTTTAAGAAAAGAAAGTGTAGAATTTGAAACATGTACATTTGCTTTAAAAGACGATCATAGCTGGAGTGTCGTAAAATTACTAAATAAATTCCCGCAAATAATTGAAGCAGCTTTCAATAAAAATGAGCCATCGATTATTTCGAAATATGTATTAGATGTAGCACAATCATTCAATAAATATTACGGTAATGTTCGTATATTAGAAGAGAGCAAAGAAAAAGACAGCAGACTCGCATTGGTTTATGCTGTGACGGTTGTATTAAAAGAAGGATTACGTTTACTTGGGGTGGAGGCACCTGAGGAAATGTAA	MDYKMQFAESLSNIFTNELTQKQILDLIETPKQDEFGDAAFPCFSLAKKYKKAPAIIAKEVAEKLNNPFFMKVEAVGPYVNVFFNRETVSDAVLKTVLAEKEEFGQNHFGCEKTVVIDYSSPNIAKPFSMGHLRSTMIGNSLKHIAEKCGYEVVGINYIGDWGTQFGKLITAYKKWGNEAVVKEDPIRELFKLYVQFHEEVKDDEELEEEGRAWFKKLEEGDEEAVELWNWFRHESLKEFSRIYELLGVEFTNFQGEAFYNNLMEDFIGILEEHELLEESEGALVVNLEEEGMPPCLIRKSDGATIYATRDLTAALYRQNTYGFDKALYVVGPEQSLHFNQFFTVLKKLGYTWVDGMEHVPFGFILKDGKKMSTRKGRVILLEEVLEEAIELAKQNIEEKNPNLKQKEVVAKQVGVGAVIFHDLKNERMHNIEFSLENMLKFEGETGPYVQYTHARACSILRKESVEFETCTFALKDDHSWSVVKLLNKFPQIIEAAFNKNEPSIISKYVLDVAQSFNKYYGNVRILEESKEKDSRLALVYAVTVVLKEGLRLLGVEAPEEM				NA	NA	NA	NA	NA
AK009_00871	219			hypothetical protein	ATGTTCTGGATTTATTTAATTCTAATTTTTATTTCAGGCGGAAGTGGAATTGGTTTTATGACTCAAAATAAGTATACAGAAGCAATAATAGCTTTTGTTATTTGTATACTATTGTTTGGGCTACTGTATTATTATCTTAAAAGAAACAAAAGAAAGAGAAAAGCAGATTGTGACGATTTAGACTGTACGGATTGTTTTGATTGTGATTGTACTTGTTAA	MFWIYLILIFISGGSGIGFMTQNKYTEAIIAFVICILLFGLLYYYLKRNKRKRKADCDDLDCTDCFDCDCTC				NA	NA	NA	NA	NA
AK009_00872	435			hypothetical protein	ATGGCTTCTTATTTACTAGATGGGGAGAAACAATCGGAATTTATTCAGCTAGGTGTTTTGCAGAAATTATTTGAAAGTGATACGCAAAGAAATGGTAAAGATGGCAATATAGGCATGAAAATACCGATATATTTAAGTGAATTAGGTGTGAAAAATATTGAATGTAGAGTAAGCGATAAAGTGAACTTTTTAGATTCAAATATGCATCACAATGATAAAAACGATTTGTATCAATCATTAAAAGAAGAGGGGATTGCAGGTGATCCGGGTGATAAGCAACAATTTGTAGAACGTTTAATAGCCAGAGGATTAACATATGATAATGCGCTAGCTCAATATGAAGCTGAACTACGATTTTTTAAGGCATTTCATCTTCATTCTTTTTTAGTATATGCTCCGAATATGAAAATTACATTTGGTGAAATAGAATGTTGA	MASYLLDGEKQSEFIQLGVLQKLFESDTQRNGKDGNIGMKIPIYLSELGVKNIECRVSDKVNFLDSNMHHNDKNDLYQSLKEEGIAGDPGDKQQFVERLIARGLTYDNALAQYEAELRFFKAFHLHSFLVYAPNMKITFGEIEC				NA	NA	NA	NA	NA
AK009_00873	270			hypothetical protein	ATGTTGAAAGATAGTGATTTATTAAGGAGTGCTACCTTCAATATATGGAACCATGATAGTCTTTGGTTGGAGAGATCAGAAGCTATTTGTGAGGAAATTCGAACTATTTCTCCACATATTCTTGCTCTACAGGAGGTTAGAAGTTGTGTTAATTTGAATTCAAAGAAAAATGTTGCACAGTATATAGCGGGTCAAATAGGGTATCCGTTTTGTATATTTAAGGAGTACCCTGATTTAATGAATGAGAAAAATGTCATTTTTTGTTGGTAA	MLKDSDLLRSATFNIWNHDSLWLERSEAICEEIRTISPHILALQEVRSCVNLNSKKNVAQYIAGQIGYPFCIFKEYPDLMNEKNVIFCW	PGPT0018615_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018615-mapP-K06896	NA	NA
AK009_00874	4203	bepA_2		Beta-barrel assembly-enhancing protease	ATGCTAGATTTTAAGCAGTTAGAAACTTGTTTGAAAGATAAGAGATTTGTAGACGGATTACAGGAAATAAATAATGAAATTGCATATATAAAAGAAACGAATACTTTATCCTATGTGAAGAATTGGCTTGCCAATATTCCTTCGCATAAGGAGTTTGATATATTAATTCGCCTTACTGATGAAGGGCTTATGCACCAATACAGTTCATTTCTCATTCGCTACGCTTATAAAAAATTCCCAAATATGAGAACGCTCTCTTTATATTGTGATGAGTTAATTGATGAGCGAAAAATTCTTGAAGCAGAGCAGTTGTTAAAATCTTCTTTAGAAGAGTTAGGTAAAGAAGAAATAGATGCAGATTTTTTAGCGAAAACATATTTTACGTTAGTACGATGTCTTTTAGAAATGAAACGAAACGAAGAAGCGCTAATGTATATGAAAAAAGCAGAGGAGTACAGTACACGTGCAGTCTTTGATAAATGGGGCTACGTTTATATGCATACAGGTGAATGGGAGAAAGCGGAAGAACAATTTATTGCTGGCATACAGCATGAAGATTGTGAAGAGTTATCTACCTATTTATTATCACAATTGTATGCGAATAAAGGGGAACAAAAACGTGCAATACAGTTAATTGATGATGCGATTGTAAAGTTTCCACAAGTACCATATTTTCATTTTGAGAAGGTAAAGTATTTATTAGATTTAGAGCAATATGAAGAAATGTTAGCGGTAATAGATAACATAAATACTCAGCTGCCATATCATGCCTATAATACTTACTTTGTACATTTACGTGCAGAAGCGTTGTACAAAATGAATAAGTTTGCAGATTTACAAAAGCTATTAAGAGAAGAAAAGAGTTTAAAAGAATCTTTATATCATAATTTAGAAAAAAATCCGGATGGAAAAAAGGTTCACTTGCCGATAGTTCCTATTGTACAAAAGGATAATTATTGTGTTCCGACAAGTTTAGAGATGATGTTGCGTATATGGGGAGAGAAACGTACACAAGATGAAATAGCAGAGTTTATTTTTGATATGACAGGTTCGAAGTTTTCAGATACTGTTTCTTATTTAGAAGAATTAGGTTATGAATATCGTTATTTTAAAGGGAATGAAGAGAATTATAAGAGACTGATTGACGAAGGAATTCCTGTTTTATTAAGTATAGATATTGAGCATGCTTCACACGTACAAGTTCTATCTGGATATGATGATACATTGCAAGCTTTCTATGTTCAAGATCCAAACTTTATAGAACCAGTTCTTGTGGAATATAGTAAATTACAAGAAAAATATCGTTATACAGGCTGTTTAGCAATCACGTTTGTTCCGAAAGAAAAGAAGGAGCAACTAGCGTTTCTAAGTGAAGAAGAAAATCGTTATTTTAAATCTATTTTTTCTCTTACGGATCATTTAGATGAACATGACAAAGAGGGAATTAGTAACTTAGTACAATTTTTAAAAGAAACGAGTGATAATCCAAATACGTGGTTATATACGATAAAGCACTTAGATGTTGAAGTAGATAAAGAATTTATTTTATATTGTATCGATAAGTTAATGGAAAAGTTTCCGAACTCGGACTTTGTTAAATTGCATGGTGCACAGTGTTTTATTCGTCTTCAGGAAGTAGACAAAGCCGAGCAAATGCTGACAAGCGTTGAGAAGAAAAATAATCGTGCATTATATCATTTGATAAATGGAAGATATGCTTTTGAGCAGGAAAGTTATATAGAAGCAATTTCAAGCTTTCGTTCATCGTTACAATTAGACGCAGATCAGCCTATTGCTTGGAGTTTTCTCGCTTTATCCTATATGTATATTGATCAATCTGAAAAAGCATTGCAATACTCTCAAGTTGCGTTAGAGCGTAGTCCTGAAAGGTTTACTTTAACGAATCACGGTTTAATATTAATAGATTTAGAAAGATATGAAGAAGCATATGAAATCTTTAATGACTTGTTAAAAGAGTATAAATATGAAGCACATGTATGGTATGAACGAGCGAGATGTGCACATCAACTAGGAAAATTATATTTAGCAATAAAAGGGCTTAAAGTAGCGATTCTTTTGGATAGTAATGCACCTTACATTTATACGAAACTTTCGGAAATATACGAATCTGATTTGAAGGATGAGGAAAGTACGAAAGAAATTTTATTAAACGGTATTGAGAATTGTGATGATAAAGCACCTCTTTACGTAAAATTAGGTGACTATAATTTTCAAAATGATAGCTTGGAAGAAGCAGAAGTATTGTATAAGCGTGCTTTAGAAGAAAATGATGAGGATGTTTATTCTCACTTCGGACTTACACAAGTGTATATGGCAAGAGAACAATACAAGGAAGCAAAAGAATATATTCTTGGTCTTGAGAAGCAAATTGAAAAGAGCCAAGATTTCCTCATGAATGCAGGAATGGTTTTATGGGATGCTGAAATTGAACTTGGTGGAAATGAAGAAGGATTTAAAGTAGCGCTATCTAAGTTAGAAAATGGTATAAAGAAAAGTGATTATAATGTAGCAAGTGCGTTAGATGAATATGTGAATCGAATTAAAGGAACGGAATTTGTACAACGAGGTATAGCGTTTTTAAGAACGTTACACAAAGAAAGAAATGAAGTAAGTGAGTACGGTTGTTATGCAGGTATTTTATATGAATCTATTGGACAGTATGGCCAAGCGATGAAAAGATATAATAAGGCGATAGAACAAAAGGACACGGCATTACCGTATTACCGAATTGGTGAAACACTTATGGCATTAGGGCAATTGACGGAAGCAAAACAAGCGTATGAAACATGTTTAGAGCTTGATGGGAATTTCGTAGGTGTACATTTACAGCTTGCGGAAATATACGAAAAAGAAGAAAACCGTTCTAAAGAACAAAGTCATATGGTTCAGGCGATGAAGGAAGAGCCATTGCATATTAATATGGAATATTTGGCACAGCTTTCAGTAGATATGAATCTTCAGGAAGAATTGCTGACGGAACTAGAACAATTAGCGGACGAAGTACCTGAAATATGGCGTTTAGATGCGATTGCATATGTGCATGGTGTGATGAATGAAATAGATAAAGAACAAGAACAGATTGAATACGCGCTACAATTAGATGGTGAGCATATAGAAGTTCTATATCATTATGCAAAAGTATTAGTGAAAAAAAGAAATGTAAAAGCAATTGAAGTTGCAATGAAAGTAATACAAAAAGATTTTGATAATGAACGTATATTTGATGTTTATGTAAAAGCAGTAGAGCAACATAAAAAATTGTCTAACATACGAGATTTTCTTCATACGTTAAAGGTGAAAAAAGCAGAAAGAAGTACAGCATTCATGTATGCTGCAGCTGCGGTTACGGAAATATGGATTGAACGGCAGCTGCATGAACAGCCAAAACGATCTATCATTACGAGAGCTTTTTATCGTATGAAAAATCGTGCGAAAGAAATTTCAATGGTTACTATGATAATTGATTTATATGAAATCTCTTTAAAGTTAAATCCGAAAAATAGTATGGCAGCACAGCGATTTGCGCTATTTTATGAGAATGTAGAGATGAATAAAGAAGCAATAGAGATTTTGCACACGTCACTAGAAAATAGATGGGATTATGAAGTAGCGAAGCAACTTGTAAATCTTTTCGTTGAGTGCGAGGAAGAAGATATGTTAAGAGATGCTTTGGAATTAACGAAGCAAATGGTTCGAGAACTACCAGATGATTATGATACACTTCTTCTGCAAGCACAAGTATTCTTTAAAGCAGGGGAAGAAAGAAAAGCAGAAAAGATGATCTTACAATTAATGGAGCAAACACCGTTCGTAAGTAGAGCATTTCTTGCTTTAGGAGAAATGTATCAAAGTCAAGAAAGGTTTGAAGAGGCAATTCATCTATTAGAAAATGCTTCTATAAATCATCCAAATGAAACAGCAATTCTCCTTTCTTTAGCGTCTTCATATCATGGTGCCGGCCAAACACTAAAGGCAGAAAAAATAGCAAATGAAGTATTAACAATGGATGCAAGTGATTTGTTAGCAAGATATGATCGTGCTTGTTATTTAGCACAGTTAAATAGAAATGAAGAGGCGAAGAAAGAGCTTGAAATTGTCCTTCGTGAGGATGAATCGGGATTCTTTGCTGAACTTATTGAGGATGATGAAAATTTAGCAGCATTGCGAGAATTTGAAAAGTAA	MLDFKQLETCLKDKRFVDGLQEINNEIAYIKETNTLSYVKNWLANIPSHKEFDILIRLTDEGLMHQYSSFLIRYAYKKFPNMRTLSLYCDELIDERKILEAEQLLKSSLEELGKEEIDADFLAKTYFTLVRCLLEMKRNEEALMYMKKAEEYSTRAVFDKWGYVYMHTGEWEKAEEQFIAGIQHEDCEELSTYLLSQLYANKGEQKRAIQLIDDAIVKFPQVPYFHFEKVKYLLDLEQYEEMLAVIDNINTQLPYHAYNTYFVHLRAEALYKMNKFADLQKLLREEKSLKESLYHNLEKNPDGKKVHLPIVPIVQKDNYCVPTSLEMMLRIWGEKRTQDEIAEFIFDMTGSKFSDTVSYLEELGYEYRYFKGNEENYKRLIDEGIPVLLSIDIEHASHVQVLSGYDDTLQAFYVQDPNFIEPVLVEYSKLQEKYRYTGCLAITFVPKEKKEQLAFLSEEENRYFKSIFSLTDHLDEHDKEGISNLVQFLKETSDNPNTWLYTIKHLDVEVDKEFILYCIDKLMEKFPNSDFVKLHGAQCFIRLQEVDKAEQMLTSVEKKNNRALYHLINGRYAFEQESYIEAISSFRSSLQLDADQPIAWSFLALSYMYIDQSEKALQYSQVALERSPERFTLTNHGLILIDLERYEEAYEIFNDLLKEYKYEAHVWYERARCAHQLGKLYLAIKGLKVAILLDSNAPYIYTKLSEIYESDLKDEESTKEILLNGIENCDDKAPLYVKLGDYNFQNDSLEEAEVLYKRALEENDEDVYSHFGLTQVYMAREQYKEAKEYILGLEKQIEKSQDFLMNAGMVLWDAEIELGGNEEGFKVALSKLENGIKKSDYNVASALDEYVNRIKGTEFVQRGIAFLRTLHKERNEVSEYGCYAGILYESIGQYGQAMKRYNKAIEQKDTALPYYRIGETLMALGQLTEAKQAYETCLELDGNFVGVHLQLAEIYEKEENRSKEQSHMVQAMKEEPLHINMEYLAQLSVDMNLQEELLTELEQLADEVPEIWRLDAIAYVHGVMNEIDKEQEQIEYALQLDGEHIEVLYHYAKVLVKKRNVKAIEVAMKVIQKDFDNERIFDVYVKAVEQHKKLSNIRDFLHTLKVKKAERSTAFMYAAAAVTEIWIERQLHEQPKRSIITRAFYRMKNRAKEISMVTMIIDLYEISLKLNPKNSMAAQRFALFYENVEMNKEAIEILHTSLENRWDYEVAKQLVNLFVECEEEDMLRDALELTKQMVRELPDDYDTLLLQAQVFFKAGEERKAEKMILQLMEQTPFVSRAFLALGEMYQSQERFEEAIHLLENASINHPNETAILLSLASSYHGAGQTLKAEKIANEVLTMDASDLLARYDRACYLAQLNRNEEAKKELEIVLREDESGFFAELIEDDENLAALREFEK				NA	NA	NA	NA	NA
AK009_00876	3102	mupA		mupirocin-resistant isoleucine--tRNA ligase MupA	ATGAAGAAAGTAGATGTAAAAGAGTCAGCTGTAGGGAGAGAAACACGTATTCGTAAGCAGTGGAACGAACAAAGCATTTTTGAACAATCAATTCAGAATCGAGAAGGCGCGCAATCGTTTGTGTTTTATGAAGGACCACCAACGGCGAACGGTTTACCACACGTCGGCCATGCACTTGGTCGGGCAATTAAAGATTTAGTAGCAAGATATAAAACGATGGCTGGTTATAAAGTAGTAAGAAAAGCAGGATGGGATACACATGGTTTACCTGTAGAACTAGGTGTTGAGAAGCAACTTGGTATTTCTGGTAAACATGAGATCGAAGAATATGGCATTGAACCATTTATTCAAAAGTGTAAAGAGAGTGTTTTCACATATGAAAAGCAGTGGCGTGAATTCACTGAAAGTATTGGTTATTGGGTAGATATGGATGATCCATATGTAACTTTAAAGAATCCATATATCGAAAGTGTATGGCATATTTTGGGAACAATCCATGAAAAAGGATTGTTATATAAAGGACATAGAGTTTCACCATACTGTCCAAGCTGCCAAACCTCATTGAGCTCACATGAGGTTGCACAAGGGTATAAAACAGTAAAAGATTTAAGTGCAACTGTGAAGTTTAAAGTGAAAGATAGTGAAAATGAGTATTTCTTAGGCTGGACAACAACGCCTTGGACACTTCCAGCAAACGTAGCGCTTGCTGTACATCCAAATATGGAATATGTTAAAGCAAAACAAGAAGGTCATGTATACATTGTTGCGAAAGAACGTGTACAAGAAGTATTAAAAGAAAACTATGAAGTATTATCTGTTCATAAAGGCGAAGAATTATTAAACACATCTTATACAGCGCCATTTCCGATGAAAGAAGTTACAAATGGTTACCGCGTTATCGCAGCAGAGTTTGTAACGGCAGATAGTGGTACAGGACTTGTTCATATTGCTCCAGCATATGGAGAGGACGATTATAGAGTTGTTCAAAGTGAAGGATTGTCATTCTTGCACGTTGTAGATGAAAAAGGTGAGTATACAGAAGCGGTACCATTTTTGAAAGGTAAATTTGTAAAAGATTGTGACGTTGACATTGTTCGTTATTTAGCGAAAGAAGGTTTACTATATCATAAAGAAAAATATGAACATAGCTATCCACATTGCTGGCGTTGTGATTCACCACTTCTTTATTATGCAGGAGAAAGTTGGTTAATCCGAACAACTGCAATTAAAGATACATTTTTACAAAATAATGATTCAGTTACTTGGTATCCGGATCATATGAAACATGGACGCTTTGGTAAGTTTTTAGAAAATATGGTGGACTGGAATATTAGCCGAAATAGATATTGGGGAACGCCATTAAACGTATGGGAATGTGAAAGTTGTGATCATCAGTTTGCGCCGAAAAGCATTGCCAAATTAAGAAAGCATAGTACGAAAGAAACACCGGAAGATTTAGAATTGCATAAGCCTTATGTAGATGAAGTTCAAGTCTGCTGCGAAAAATGCGGAGGCACAATGAATCGTACACCAGAAGTAATTGATGTTTGGTTTGATAGTGGTTCCATGCCATTTGCACAATATCATTACCCATTTGAAAATAAAGAGTTATTTGAAGAGCAGTTTCCAGCTGATGTTATTGCAGAGGGAATTGATCAAACACGCGGCTGGTTTTATAGTTTATTAGCAGTCTCAGCACTGTATACAGGAAAAGTACCGTATAAACGAGTGTTATCACTAGGGCATGTTTTAGATGAAGAAGGGCAGAAAATGTCTAAAAGTAAAGGGAATGCACTAGATCCAGTTGATTTAGTAGATAAGTTTGGTGCAGATGCGCTAAGATGGGCTTTACTTGTTGATAGTGCTCCGTGGAATGCGAAGCGTTTTTCTGAAAGAACCGTACTGGAAGCGAAATCTAAATTTGTAGATACATTAGTCAATGTGTATAGCTTCTACGTTTTATATGCAAATTTAGATGAGTATAACCCGAAAGAAACGTATGATGTAAAGCGTACGAAATTAGACGAATGGGTATTATCAAGATTGCATAGTACAACGAAAAAAGTGAGAACAGCACTTGATGATTATCAATTTACGAATGCAGCTCGTGAAATTGCAGCACTTGTAGATGAAGTGAGTAACTGGTATGTAAGACGCTCACGTAATCGTTTCTGGGAATCTGGTATGAACGCTGAAAAAGCTGCTGCGTATGAGACACTTCATGAAGTACTTGTAACAATTAGTAAATTAATTGCACCATTCACACCGTTTGTCGCGGAAGACATTCATCTTAATTTAGAAGGAAGTAGTGTTCATTTAGCTGATTATCCAGTTGTAAATGAATCACTACTTCAGCCGAAATTAGAAGCGGAAATGGATGCTGTTTTACAAGTTGTTGAACTTGGAAGAAGTAACCGTAATCAGCATTCTTTAAAAGTAAAACAGCCGCTAGCAGAACTTGTATTACTTGAGCATAACGAGAATGATATGGATTGGGAATCTTATCGTGATATCGTTATGGATGAGTTAAATGTAAAAGCGTTCCATGTTGAACTCGATGAAACAAAATACACATCATATCAATTGAAGCTTAATTTTAAAACAGCGGGGCCGAAGTTCGGTAAAAATGTGAATGCAGTGAATGGTTGGCTAAAACAATTATCACAAGAAGAAGTGCAAAACTTTGTATCAACAGGAAGAGCAGTTTACGAAGCAACACCAGGAGAAGAAGTAGTTGTAACTGCTGAAGATGTGTTAGTTGAGAAAGTTGCAAAATCAGGATTCTCTAATACGACTAACGGACAATACACAGTTATGTTAGATACGAATGTAACGGAAGAATTGTTACAAGAAGGAGTAGCGCGTGAATTCATTCGTGCGGTTCAAGAATATCGTAAACAGTTGAATTTACCAGTTAATTTACGAGTCGATGTTATTCTCGATACAGAAGTAGAGCTACAGCGAACGTTAACGAACCATAAAGATTTATTGGAAGAAAACTTACTCGTTAAACAATTTACATTTGGTCACTTAACGAACGAAGACGATGAACTTTCTTTAGGTGAGACAAAACTTAGAATTAAATTAAGTGCGGCTAATTAA	MKKVDVKESAVGRETRIRKQWNEQSIFEQSIQNREGAQSFVFYEGPPTANGLPHVGHALGRAIKDLVARYKTMAGYKVVRKAGWDTHGLPVELGVEKQLGISGKHEIEEYGIEPFIQKCKESVFTYEKQWREFTESIGYWVDMDDPYVTLKNPYIESVWHILGTIHEKGLLYKGHRVSPYCPSCQTSLSSHEVAQGYKTVKDLSATVKFKVKDSENEYFLGWTTTPWTLPANVALAVHPNMEYVKAKQEGHVYIVAKERVQEVLKENYEVLSVHKGEELLNTSYTAPFPMKEVTNGYRVIAAEFVTADSGTGLVHIAPAYGEDDYRVVQSEGLSFLHVVDEKGEYTEAVPFLKGKFVKDCDVDIVRYLAKEGLLYHKEKYEHSYPHCWRCDSPLLYYAGESWLIRTTAIKDTFLQNNDSVTWYPDHMKHGRFGKFLENMVDWNISRNRYWGTPLNVWECESCDHQFAPKSIAKLRKHSTKETPEDLELHKPYVDEVQVCCEKCGGTMNRTPEVIDVWFDSGSMPFAQYHYPFENKELFEEQFPADVIAEGIDQTRGWFYSLLAVSALYTGKVPYKRVLSLGHVLDEEGQKMSKSKGNALDPVDLVDKFGADALRWALLVDSAPWNAKRFSERTVLEAKSKFVDTLVNVYSFYVLYANLDEYNPKETYDVKRTKLDEWVLSRLHSTTKKVRTALDDYQFTNAAREIAALVDEVSNWYVRRSRNRFWESGMNAEKAAAYETLHEVLVTISKLIAPFTPFVAEDIHLNLEGSSVHLADYPVVNESLLQPKLEAEMDAVLQVVELGRSNRNQHSLKVKQPLAELVLLEHNENDMDWESYRDIVMDELNVKAFHVELDETKYTSYQLKLNFKTAGPKFGKNVNAVNGWLKQLSQEEVQNFVSTGRAVYEATPGEEVVVTAEDVLVEKVAKSGFSNTTNGQYTVMLDTNVTEELLQEGVAREFIRAVQEYRKQLNLPVNLRVDVILDTEVELQRTLTNHKDLLEENLLVKQFTFGHLTNEDDELSLGETKLRIKLSAAN				NA	NA	NA	NA	NA
AK009_00877	1512			hypothetical protein	ATGTTTAATAAAAAAATGGTGGCAATGGCAATGACTGTGCCGTTAGTAATGGGGACGATTTCTACGGTTTCGGCATTGGAAAAACAACAGCAAGTAAAGTTAGAAGCTTATTCGCCACAGAAAAAAGCAACTGAATATTTAAAAGAAAATGCTGCGCAGTATGGATTGAAGGCAGACCTTTCAGACTTGCAATATATTTCTACAACAGAAACGTCAGTAGCTTCATATGTTAGGTTCCAACAAGTTGTTAACGGTGCTCCTGTATTTTCAAAACAAATTACAGTTACTCTTAACGGAGAAGGAAAGGGAGTACTCGCTGTTTCTGATTATCAGCCTGTTACAGGTGTGAAGGAAGTAACGACAAAAATTAGTGAAAAAGATGCAATACAAAAATCAATGGCGTATGTTGGAGAAGCAAGTGAGCAAAACTTATGGGCTCCTACAGAGAAAGAATTCGGATATATTGTTGAAGAAGGAATGGCTCGTCCAGTATATAAAGTTGTAGTCCATTCTAATAATCCATTTGGTGCATGGGAAACATTTATTGATGCAGAAAATGGAAAGTTAATTAAAAAGGTTGATATAAACCGAAAAGCTGAAGGGTCAGGAAAAGTATTTTTACCTAACCCAGTAGTATCTAGCGGTAGTAAAGTAGGCTTAAAAGATAATAACGATGCAGATTCAACAGCTCTAACGAACCAACTGAAAACTGTTACGTTAAAAGGTTTAGATGGAACAGGATTTTTAATTGGAGAATATGTAACGATTTCTTCAAAAGCGAAAACAAAATCTACGAATTTACAATTTAACTATACACGTGCAAATGATAGCTTTGAAGATGTGATGTCGTATTATCATATCGATACATTACAGCGTTACATTCAAGGGTTAGGTTTTAAAAATATTAATAACCGTTCGATAAAAGTGAATGTTAATGGTACAACTGATGATAATTCATTCTATTCTCCATCAACAAAAGCTTTAACTTTCGGTACTGGCGGTGTTGATGATGCAGAAGATGCTGGTATTATCGCACATGAGTATGGGCATTCGATTCAAGATAACCAAGTTCCTGGCTTTGGTAGTTCAGCAGAAGGCGGAGCGATGGGAGAAGGATTTGGCGACTTCTTAGGTGCTACATATGAAGATGCAGTATCGACTACAGGATACGGAAAAGCATGTGTTGGAGAATGGGATGCGACAGCTTACTCTAGTTCAGATCCAACATGCTTACGCCGATTAGATACGAATAAAGTATATCCGAAAGATATAACGAATGAAGTGCATGATGATGGTGAAATTTGGGCACAAGGTCAATACGAAATGGCACAAGCTTTTGGCCGTGATGTAGCAACAAAAATCATTTTACAATCACACTGGTCATTAACACCAAACTCTAAATTCAGTGATGGAGCAAAAGCGATTAAGCAAGCAGATGCTCTTTTATATGGCGGACAACATGCTGCTGATATCGATCGTATTTGGACAGCGAGAGGCATTAGTACGAATTAA	MFNKKMVAMAMTVPLVMGTISTVSALEKQQQVKLEAYSPQKKATEYLKENAAQYGLKADLSDLQYISTTETSVASYVRFQQVVNGAPVFSKQITVTLNGEGKGVLAVSDYQPVTGVKEVTTKISEKDAIQKSMAYVGEASEQNLWAPTEKEFGYIVEEGMARPVYKVVVHSNNPFGAWETFIDAENGKLIKKVDINRKAEGSGKVFLPNPVVSSGSKVGLKDNNDADSTALTNQLKTVTLKGLDGTGFLIGEYVTISSKAKTKSTNLQFNYTRANDSFEDVMSYYHIDTLQRYIQGLGFKNINNRSIKVNVNGTTDDNSFYSPSTKALTFGTGGVDDAEDAGIIAHEYGHSIQDNQVPGFGSSAEGGAMGEGFGDFLGATYEDAVSTTGYGKACVGEWDATAYSSSDPTCLRRLDTNKVYPKDITNEVHDDGEIWAQGQYEMAQAFGRDVATKIILQSHWSLTPNSKFSDGAKAIKQADALLYGGQHAADIDRIWTARGISTN				NA	NA	NA	NA	NA
AK009_00878	480			hypothetical protein	ATGCAAAAAGCAATTAGTTTCTTTCTCCTATTGTTTTGCCTAATTGTAGTAAACGAAACATACGCCTATTCACCAAAATCTTTACCAATCTCTCAAAACTCTGGTCAATGGCTAGTGAATATTGATAAACCGAAAAAAACAAACAAAAATATGCTTCAAGCTAAAAAAACTGAATTTCAAACATATCATTTTTCAGTAAAGAATATCGGGAATAGTGAAGTATATAACGTAAACGTCGAAGTATTCCGCAACGAACCAAATAAGAAAACGAAATATGAACTCTTTTCCCTAAAGGAAAGTCGTTTAGCAAGTGGAAAAACTGGATTTGAACACGCTAATTTACCTGTTGCTACAAAAGCGGATGAGGTTGATGTTATTATTACATGGCAAGAACACCCATTCCGATTGATGCGAAATGGTCAAAAAGTTGAATCTAGAAAATTTAAAGAACATTTTGTTTTTAAAGAAGCTAAAAAGTAA	MQKAISFFLLLFCLIVVNETYAYSPKSLPISQNSGQWLVNIDKPKKTNKNMLQAKKTEFQTYHFSVKNIGNSEVYNVNVEVFRNEPNKKTKYELFSLKESRLASGKTGFEHANLPVATKADEVDVIITWQEHPFRLMRNGQKVESRKFKEHFVFKEAKK				NA	NA	NA	NA	NA
AK009_00880	1299	aspS2	COG0017	Aspartate--tRNA(Asp/Asn) ligase	ATGAATTCAATAATGAAGCGTTCACTCACAAAAGAATGTATGGAACAAAGTGGAAAGGTTGTATTACTTCAAGGATGGGTAAAAAAAATTCGGCATCTTGGAAATGTTAGTTTTTTATTATTACGGGACAGAACAGGAGTAATTCAATGTGTATTAGAGAATGGATTGGCTGGATATAAAGTTGATGTAGAAAGTGTTGTCCATGTAATCGGTGAAATAGTCGAGACGTCGAAAACAGAATTGGGTGTTGAAGTACTTGCTCATGAAGTGAAAGTAATAAACGGTGCAGAACCACTTCCATTTGAAATAAATAAAAAGAAGTTACAAGTGGGCTTAGATCAACTACTTAATGAGCGAGTAATATCATTAAGGCATGAGCGAACCGCAGCGATTTTTAAAGTGAAATCTACACTCGTTCAGAGCTTTAGTGAAATTCTTATAGAGAACGATTTCACACGGATCTTTACGCCAAAAATTGTTTCGCAAGGGGCAGAAGGAGGAGCAAATGTTTTTAAGCTTCCATACTTCCAAAAAGAAGCTTATTTAGCACAATCACCACAGTTCTATAAGCAAATGATGGTGGCAGGTGGGTTAGAACGAGTTTTTGAAATTGCACCTGTATATAGAGCGGAACATCATAATTCTTCCCGTCATTTGAATGAATATATATCGTTAGACGTAGAACTTGGTTTTATTCATGATTTTTATGAAGTGATGCAACTAGAAACGGATGTTTTACGATATATGTTTCAACAAGTAGCGAAAAAATGTGAAATAGAACTACAACTATTACAAATAGAAGTACCTGTTATTACTGAAATACCTAAAATTACATTGTTAGAAGCACAAGAAATTTTGAAAAGTAAGTATCGTAAAGAATCTCCTGTAGGGGATTTAGATACAGAAGGTGAAAAGTTACTAGGGAAATATGTAAAGGAAACATATAATAGTGAATTTGTTTTCATTACACATTATCCGAAAGAAGCGAGACCGATGTATACGATGCAAAATAAAGAGAATCCAGCTATTACTGATTCATTCGACTTATTATATAAAGGGTTAGAAATAACGTCAGGGGCACAGCGAATTCATAATTATGAAATGTTACTCGCTTCGTTTAAAGAAAAAGGATTACACCCAGAGAAATTTCAATCTTATTTAAATACATTCCGATACGGTTGTCCCCCGCATGGAGGTTTCGGAATTGGGTTAGAAAGGATTGTATATAAACTATTAGAATTAACAAATGTACGAGAGGCGAGTGCTTTTCCGAGAGATTGTACTCGTCTTATACCGTAA	MNSIMKRSLTKECMEQSGKVVLLQGWVKKIRHLGNVSFLLLRDRTGVIQCVLENGLAGYKVDVESVVHVIGEIVETSKTELGVEVLAHEVKVINGAEPLPFEINKKKLQVGLDQLLNERVISLRHERTAAIFKVKSTLVQSFSEILIENDFTRIFTPKIVSQGAEGGANVFKLPYFQKEAYLAQSPQFYKQMMVAGGLERVFEIAPVYRAEHHNSSRHLNEYISLDVELGFIHDFYEVMQLETDVLRYMFQQVAKKCEIELQLLQIEVPVITEIPKITLLEAQEILKSKYRKESPVGDLDTEGEKLLGKYVKETYNSEFVFITHYPKEARPMYTMQNKENPAITDSFDLLYKGLEITSGAQRIHNYEMLLASFKEKGLHPEKFQSYLNTFRYGCPPHGGFGIGLERIVYKLLELTNVREASAFPRDCTRLIP				NA	NA	NA	NA	NA
AK009_00882	1341			hypothetical protein	ATGAAACAAACGGAGCAATGGACTTCGAAATTAGGTTTTATAATGGCTGCAGCAGGATCAGCAATTGGACTTGGCGCAATATGGAAGTTTCCTTATATCGCCGGGAAGAGCGGGGGAGGAGCATTCTTTTTAATCTTTATATTATTTACTATATTAATTGGATTACCACTACTTATAGCTGAATTTATGATTGGACGTAGTACGCAGAAACAAGCAGTTGGCGCATTTAAAAGTATTGCACCAAATACAGGGTGGCACTGGATTGGACGCCTTGGTGTTGGAACGTGTTTTATACTACTTTCATTTTATAGTGTTGTAGGTGGATGGGTGTTAATTTATTTATTCAGAGGAATTACTGGACAACTAATTGCACCGGGACAAAATTACGGAGCATTATTTACTGAAACAATTGGGAATCCCACTTGGGCTATTATGGGACATTTCGCTTTTATGTTCATTACGATATGGGTTGTATCAAAGGGTGTACAAAACGGAATTGAAAAAGCAAGTAAATATATGTTGCCAGCATTGTTCGTTTTATTTGTCGCTCTTATTATTCGTTCGTTAACACTTGATGATGCTATGAAAGGTGTGAAGTTTTTCTTACAACCAGATTTCTCAAAGATTACTTCGGAAAGTATTTTGTTCGCAATGGGGCAATCATTCTTTGCAATTAGTATCGGGATTTCAATTATGGTTACCTATAGTTCCTATTTAAATAAAAAAGAAAGTTTACCAAAATCAGCAATAACAATTGTTGGATTGAATTTATTTGTTTCTTTATTTGCAGGTCTTGCCATTTTTCCCGCCGTATTTTCATTAGGAATGGAGCCGACAGAAGGACCTGGATTACTATTTATCGTATTACCATCTGTATTTAGTCAAATCCCATTCGGTGGATTTTTCTTAACAGTATTCCTTGCACTATTTACATTTGCGACATTAACATCGGCATTTTCTCTACTAGAAACTGTTGTTTCAGCATTAGCAAATGGTGAACAAGAAAAGAGAACGAAATTATCATGGCTGATCGGTTTCGGCATTTTCTTAGTAGGTATACCATCAGCGTTATCATTTGGAGTATGGAGTGATATTACGATTTTCGGAAAGAATATTTTTGATGCAGTAGACTTCTTATCTAGTAATATATTAATGCCACTTGGAGCACTATTTATTAGTATTTTCGTTTCATTCAAAATGGAAAAGAAGATACTAGAAGCAGAGTTTTTTGTAGGTGGAAATTATGGAAAGAAAGTATTTACTTGTTGGGCATTTTTACTTCGATTTGTAGCACCGCTCGCAATCATTATCGTCTTCTTAAATGTAATAGGGATTATTTAA	MKQTEQWTSKLGFIMAAAGSAIGLGAIWKFPYIAGKSGGGAFFLIFILFTILIGLPLLIAEFMIGRSTQKQAVGAFKSIAPNTGWHWIGRLGVGTCFILLSFYSVVGGWVLIYLFRGITGQLIAPGQNYGALFTETIGNPTWAIMGHFAFMFITIWVVSKGVQNGIEKASKYMLPALFVLFVALIIRSLTLDDAMKGVKFFLQPDFSKITSESILFAMGQSFFAISIGISIMVTYSSYLNKKESLPKSAITIVGLNLFVSLFAGLAIFPAVFSLGMEPTEGPGLLFIVLPSVFSQIPFGGFFLTVFLALFTFATLTSAFSLLETVVSALANGEQEKRTKLSWLIGFGIFLVGIPSALSFGVWSDITIFGKNIFDAVDFLSSNILMPLGALFISIFVSFKMEKKILEAEFFVGGNYGKKVFTCWAFLLRFVAPLAIIIVFLNVIGII	PGPT0013950_2530	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK009_00883	876	pip_1		Proline iminopeptidase	ATGAATATTAGAGGGAAAAAGCTATACGTTGAAACACATGGAAATCCTAAAAATAAGCCAGTCTTATACTTGCATGGTGGACCAGGAGAGAGTTGTTATGATTTTTCATTTCATCAAGCGGAACGTTTAAAAGATTCTCTATATGTAATTATGATAGATCAAAGAGGTGTTGGTCGTTCAGAAAAAATTACTGAAGACGAAGCTTTTGGATTAAATGATTTGATTGAAGACTGTGAGGAATTAAAAAAAGTATTACAAATTGAGAAGTGGTCTATAATTGGACATTCTTTCGGTGGATATGTAGCATTGCTTTATGCGTCGATATATCCAAGTTCAATAGAGAAAATAATATTTGAAGGACCAACTTTTGATTTTGCATTAACAAGTAGAGCTTTGTTGCAAAAGACAGGGCATTTATTAAAAAAGTATGGAAAAGAAGAAGTAGCAAAAGAGTGCTTTGCTTATTCATCTAGCGATGCTAGTTCAGAAGAGTTGTTAGAAGCTTATATAAGATTAAGCGCTGAATTAGAAGAAAAAAGAATGGAGATTTACAATAATAAGGAAGATAGGACAGATGAGAGTTTATACAGTGATGAAGAGTGGGAAATATTTTCAAATCGCTCCAAAATGCACTTTGATAGATTAAAATTAGAGGGAGCATGTCATACATCATTATTATCAAAAATAAAAGATGTACAAAATCTAATGTTATTAATAGTAGGAAAACATGATGTAGTAACGTGTGAAGAACAAATTAAAACATTTAATAAAGATGCCCGAAACGGCAAGTATATCGTATTTGAAGAGAGCGGTCATTCACCTCATTATGAGGAAGCAGATAGATTTGCAGAAACAGTCATACATTTTTTGAAATGA	MNIRGKKLYVETHGNPKNKPVLYLHGGPGESCYDFSFHQAERLKDSLYVIMIDQRGVGRSEKITEDEAFGLNDLIEDCEELKKVLQIEKWSIIGHSFGGYVALLYASIYPSSIEKIIFEGPTFDFALTSRALLQKTGHLLKKYGKEEVAKECFAYSSSDASSEELLEAYIRLSAELEEKRMEIYNNKEDRTDESLYSDEEWEIFSNRSKMHFDRLKLEGACHTSLLSKIKDVQNLMLLIVGKHDVVTCEEQIKTFNKDARNGKYIVFEESGHSPHYEEADRFAETVIHFLK				NA	NA	NA	NA	NA
AK009_00884	576			hypothetical protein	ATGAAGATCAAAACAGAGAAAGATATAATTCGCTTAATAGAAAACGACGAATGGATGATGAATGTATTACAAATGGCAAAATCACTAGAGTTACCTGATTGGTGGGTTTGTGCCGGCTTTGTTCGTTCTAAAATTTGGGATACTTTACATGACTATGAAGCTAAAACGGCTATGCCTGATGTTGATGTGATTTATTATGATAGTCTACATCAAGATGAGATATACGAACAATCATTAGAAACGAAATTAATGAATATTGATGCTACTATTCCTTGGTCTGTAAAAAATCAAGCTCGTATGCATGTAGTGAATAATATGCCACCATATTCTTCTTCTGTTAATGCTATTTCTAAATTCCCTGAAACAGCAACGGCTTTAGGAGTTACACTTGATGAACTAAACAATGTTATATTAACAGCCCCATGTGGTATTGAAGATGTCCTTTCCTTACAAGTGAGACCAACAGCTCATTTTCTTAAATCGAAAGAACGATTACATATGTACAAAAACAGAGTTATAAAAAAGAATTGGCAAAGTAAGTGGCCTAACATCACAATCACATATCCAGAAATTTAG	MKIKTEKDIIRLIENDEWMMNVLQMAKSLELPDWWVCAGFVRSKIWDTLHDYEAKTAMPDVDVIYYDSLHQDEIYEQSLETKLMNIDATIPWSVKNQARMHVVNNMPPYSSSVNAISKFPETATALGVTLDELNNVILTAPCGIEDVLSLQVRPTAHFLKSKERLHMYKNRVIKKNWQSKWPNITITYPEI				NA	NA	NA	NA	NA
AK009_00885	798	amj		Lipid II flippase Amj	ATGTCAATTACGTTAATTTTTATAATGGCTTTCACAATTGTAATCCACGCAGTTGAAACAAGCTCTTATAGTATTCGATTAGCGGGGGTTCGTTTAAAGAAGATTGCTGTCGCATTATCCGTCGTAGGAATCGTATTACTCATTTCAAGAACGTCAAACTTACTACAAGCCTTTTTACTTGGCGGGATTGTGGACGAAGCAAAACTAGATCCTTCTATTGATTTAGAGCATATTATACGTCTTGTACTATTATCTGCTTCTATCGGTACATTGCTTGCGATTATACTGTATCCAACTTTGACAAAACTATTTGGATATGTCATTCAAAACTTTGAAACAGACGGTTCTTTCATTCGAATGATGAAAACGAATAACATTCAAAAATTAAAGTACACAAAAAAATATGTCCGCTTTCCAAAGTTAGAAATGATTCATAGACTGCGTATCGGTGGTATTCCAAAGCGTATTATGCTTATTAACATGTTTGCTACTGCTATTTATACAGCTGGGGTACTTTCTGCCCTTTACGCTTCTTTTTTAAATCCAGATTATGCAACAAATGCAAGTACAGCTTCTGGCCTTGTAAATGGTTTCGCCACTATTTTATTAACTGTATTACTCGATCCACGCATTGCTCTTTTAACAGAACGTGCTTTACAATCAGAAAGCGGTGCTGAATCTATGAGTAAAATGTATGGTTGGCTAATGATTTCTAGACTTCTCGGCACATTATTGGCACAACTACTATTTGTACCAGGTGCTTACTGGATTTTATGGATTATTGAACTTATGCATTAA	MSITLIFIMAFTIVIHAVETSSYSIRLAGVRLKKIAVALSVVGIVLLISRTSNLLQAFLLGGIVDEAKLDPSIDLEHIIRLVLLSASIGTLLAIILYPTLTKLFGYVIQNFETDGSFIRMMKTNNIQKLKYTKKYVRFPKLEMIHRLRIGGIPKRIMLINMFATAIYTAGVLSALYASFLNPDYATNASTASGLVNGFATILLTVLLDPRIALLTERALQSESGAESMSKMYGWLMISRLLGTLLAQLLFVPGAYWILWIIELMH				NA	NA	NA	NA	NA
AK009_00886	666		COG0546	5'-nucleotidase	ATGTATAAAACATTTCTATTTGATTTAGATGGAACTTTAACGGATCCGAAAGAAGGGATTGTAAATTCGGTTTTGTATGCGTTAAAAAAAGTAGGAATTGAAGAAGTACATATAAGTGAGTTAGATTCATTTATAGGTCCTCCTATTCAGCAATCATTCGTAGAGAGATATAATATGAGTGAAGGAGAGGTTGAACGTGCAGTTTTTTACTTCCGTGAGTATTTAAAGCAGCGTGGATTGTTTGAAAATAATGTATACGAGGGGATTCTGAAGCTCTTGCAACAATTAAAAAGTTCAGGAAATCGCATATTCGTAGCTACTTCAAAGCCCACTGTATTTGCGAAACAAGTTATAGAGCATTTTCAATTAACGAATTATTTCGAAGATATCCTTGGAAGTAATTTAGATGGTACGAGAATAAAAAAAGAAGAAATAATTGCTCATATTTTACAAACAAATGAAGAACTAAATAAAGAAGAAATGATAATGATTGGTGATAGAAAGCACGATATAATAGGTGCGAATCAGAATGGAATTGCTTCAATTGGTGTTTTATATGGCTATGGCTGTGAGAAAGAACTGACTGAAGTTAGTGCGACTTACATAGTGAAAGATGTTGAAGAACTGTATCATTTTTGTGTAAGAAAAATTTTAATAAATCAGTAA	MYKTFLFDLDGTLTDPKEGIVNSVLYALKKVGIEEVHISELDSFIGPPIQQSFVERYNMSEGEVERAVFYFREYLKQRGLFENNVYEGILKLLQQLKSSGNRIFVATSKPTVFAKQVIEHFQLTNYFEDILGSNLDGTRIKKEEIIAHILQTNEELNKEEMIMIGDRKHDIIGANQNGIASIGVLYGYGCEKELTEVSATYIVKDVEELYHFCVRKILINQ	PGPT0001730_4323	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK009_00887	1440			hypothetical protein	TTGGAGTTAGTTATTATATTATTAGCACTAAGTTTACTTATGTTCGTAGCATATAGAGGCTTTTCTGTTATTTTATTCGCACCGATATTTGCATTATTTGCAGTATTTTTGACAGAACCTAGTTATGTATTACCTTTCTTTTCTAATATCTTTATGGAGAAAATGGTTGGATTTATAAAGTTATATTTTCCTGTGTTTTTATTAGGAGCAATATTTGGAAAAGTAGTGGAAATGTCAGGAATTGCAGATTCTATCGCAAAAACGATTATTGAGTTAGTTGGTGAAAAACGTACTATATTAGCGATTGTATTAATGGGGGCTATTTTAACGTATAGTGGTGTTAGTGTGTATGTAGTAGTGTTTGCTGTTTATCCGTTCGCAGCTAAGTTGTTTCGACAAGCTAATATTCCAAAGCGTTTAATCCCTGGAACGATTGTTCTTGGAGCAGTAACGTTTACAATGGATGCGCTACCTGGATCACCACAAATTCAAAATGTAATACCTACAACATTTTTTAAAACGAATATTTATGCTGCACCGATACTCGGCATTGTAGGAGCAATTTTTGTTCTTACATTAGGTTTACTATATTTAGAGAGTAGACGTAAGAAGGCAAAAGCGGCAGGTGAAGGATATTTTGGTTTTAATGATGGAAATACTGAAATGGCAGCATCTTTGCAATTAGAACAAAAAAATATGCCATTAATTAATAACATTGAAATTACAAGAGCACAACAACTTATTGCATTTATACCACTTATTTTAGTAGGTGTAATGAATAAAGTGTTTACTATTATGATACCAAAGTGGTATCCAAGCGGTTTTGATTTTTCTGCAATTGGTATGAAAGCATTTGGAAAAGTAGAATTAAGTGCAGTAGTAGGAATTTGGTCTGTAGAATTGGCACTTATTATAGGGATCTTAACAACGTTATTATTATATTGGAAGCGAGTAGTAACAGGTTTCCAAGCTGGATTGAATACAAGTATTGGTGGAGCGCTACTTGCAACGATGAATACAGGAGCTGAGTTTGGATTCGGTGGTGTCATTGCAGCACTTCCAGGCTTCGTAATTATGAGAGATGGCATCTCTGCTACTTTCACAAATCCGTTAGTGAATGGTGCAGTAACGACGAATATTTTAGCTGGAATTACAGGCTCTGCATCAGGAGGAATGGGAATAGTATTAAGTGCAATGGGAGATAAATTTATTGCAGCGGCCAATCAATTTGATATTCCATTAGAAGTTATGCACCGTATCGTATCAATGGCATCAGGAGGAATGGATACACTACCGCATAACGGGGCTATTATTACTATTCTTACAGTAACAGGATTAACACATAAACAGTCCTATAAAGATATATTTGCTATTACAATTTTGAAAACGGTTGCTGTATTTTTAGTTATCGCGTTCTATACTTTAACAGGACTCTATTAA	MELVIILLALSLLMFVAYRGFSVILFAPIFALFAVFLTEPSYVLPFFSNIFMEKMVGFIKLYFPVFLLGAIFGKVVEMSGIADSIAKTIIELVGEKRTILAIVLMGAILTYSGVSVYVVVFAVYPFAAKLFRQANIPKRLIPGTIVLGAVTFTMDALPGSPQIQNVIPTTFFKTNIYAAPILGIVGAIFVLTLGLLYLESRRKKAKAAGEGYFGFNDGNTEMAASLQLEQKNMPLINNIEITRAQQLIAFIPLILVGVMNKVFTIMIPKWYPSGFDFSAIGMKAFGKVELSAVVGIWSVELALIIGILTTLLLYWKRVVTGFQAGLNTSIGGALLATMNTGAEFGFGGVIAALPGFVIMRDGISATFTNPLVNGAVTTNILAGITGSASGGMGIVLSAMGDKFIAAANQFDIPLEVMHRIVSMASGGMDTLPHNGAIITILTVTGLTHKQSYKDIFAITILKTVAVFLVIAFYTLTGLY				NA	NA	NA	NA	NA
AK009_00888	1212	dhaT	COG1454	1,3-propanediol dehydrogenase	GTGGAGTACTTGCAAGAAGTTTCTGAGTTTCGTATGCCAAAGTCGGTATTATATGGAAGGAATTCGCTTGAAAAACTGGGGGAACAATCAAAAAAGTTAGGGAAAAGAGCTTTTATAGTTACTGATACAATTATGGAGAAATTAGGATATCTTGAAAAGTGTATACAACAACTAAATAAGAAAAGTATTACTGTTAGTACATATAATAAAGTGGATGCTGAACCTACAAATATACACGTGTTAGAAGCCTTATCTCTTTGTAAAGAGGAAAAGTGTGATTTTATTATCGGTATTGGTGGTGGAAGTTGTATTGATGCTGCGAAAGCAGTAGCGGTTTTATATACAAATGGTGGAGAAGTTGAGGATTATGTCGAAAAGGATATTGAAATAGAAAACAATCCACTACCACTTATTGCAATTCCAACAACTTCTGGTACTGGATCGGAAGTTACAAGTGTAGCAGTAATTACGAATAAAAAAACAGATGTAAAAATGATGATGAAGCATCCTAGTTTTATACCGAAAGTAGCAATTATAGATCCAGTTTTGACAAGTTCGTTACCACCACAAATTACGGCAGCAACAGGAATAGATGCGTTATGTCATGCGATTGAAGCTTATATTTCTAAATTTTCACAGCCACTTACAGATGTACTTGCTCTTTCAGCTATTGAAAGTATTATGAAATATTTACGTATAGCATATGAAGATGGACGTAATATGGAGGCAAGAGAAGCGATGATGATTGCTTCCTTACAAGCTGGAATTGCATTTTCTAATGCATCAGTTACATTAGTTCATGGAATGTCAAGGCCAGTGGGAGCATTATTTCATGTACCGCATGGAATATCAAATGCCATACTATTACCTACAGTGTTAGAGTTTACAAAAACAAGTGCAGTGAAAAGGTTAGCAAAAATTGGACGTAGTTTAAATAAGGATTTGTATTCGAATTCTGATGAGGAAGTAGCAGACTACACGCTTGGGGAAATAAAAAAACTTTGCTTTGATCTTCGTATTCCAAATTTAAAAGAATATGGAATCGATGAAATTGAATTTGAAAATGCTATTTCTAAAATGGCATCAGATGCAATTGAAAGTGGTAGCCCAGCTAATAACCCACGTGTTCCATCATATGATGAAATCAAAGCGTTGTATCGAGAGTGTTTTAATTATAAGTATAAAGAATTTATAAAAACATCAGATTGTTAA	MEYLQEVSEFRMPKSVLYGRNSLEKLGEQSKKLGKRAFIVTDTIMEKLGYLEKCIQQLNKKSITVSTYNKVDAEPTNIHVLEALSLCKEEKCDFIIGIGGGSCIDAAKAVAVLYTNGGEVEDYVEKDIEIENNPLPLIAIPTTSGTGSEVTSVAVITNKKTDVKMMMKHPSFIPKVAIIDPVLTSSLPPQITAATGIDALCHAIEAYISKFSQPLTDVLALSAIESIMKYLRIAYEDGRNMEAREAMMIASLQAGIAFSNASVTLVHGMSRPVGALFHVPHGISNAILLPTVLEFTKTSAVKRLAKIGRSLNKDLYSNSDEEVADYTLGEIKKLCFDLRIPNLKEYGIDEIEFENAISKMASDAIESGSPANNPRVPSYDEIKALYRECFNYKYKEFIKTSDC	PGPT0006375_45	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
AK009_00889	696	ygeA_1		L-aspartate/glutamate-specific racemase	ATGAAAACGATAGGTCTTATAGGTGGTATGAGTTGGGAATCAACTTCTGAATATTATCGAATTATTAATGAAGAAATAAAAGAGAGATTAGGAGGGCTACATTCAGCAAAATGTTTGATTAATAGTGTGGATTTTGAAGAGATTGAACGATGTCAGTCTAGCGGAGATTGGGATGGTGCTGGAGAAATTCTAGGGAATGCGGCATATTCATTACAAAAGGGAGGAGCAGACTTTATAATCATTTGTACAAATACAATGCATAAGGTAGTTGGAAAAATAAAGGCGAAAATTGATATTCCAGTCTTACATATTGCTGATGCAACTGCAAAAGCAATTAAAAGAAAAGACATTCAAAAGGTTGGTCTGCTTGGAACTACATATACAATGGAGCAAGATTTCTATAAGTCAAGTATAGAAGAAAATAATATAAAAGTAATAGTACCATCAGAAAAAAATAGAAAAGAAATAAATAAAGTAATATATATAGAATTATGTTTAGGAAAAATAGTATCTCAATCTAGAGAATATTATAAAAGAGTCATCGAAGAGTTAGTGCAAAAAGGAGCACAGGGAATCATATTAGGTTGTACAGAAATAGGGTTATTAATAAAGCAAGAAGACGTATCTGTCCCGATATTTGATACGACTCATATACATGCAATTGAAGCAGTCAAGGTAGCTCTAGATAGAATGTAA	MKTIGLIGGMSWESTSEYYRIINEEIKERLGGLHSAKCLINSVDFEEIERCQSSGDWDGAGEILGNAAYSLQKGGADFIIICTNTMHKVVGKIKAKIDIPVLHIADATAKAIKRKDIQKVGLLGTTYTMEQDFYKSSIEENNIKVIVPSEKNRKEINKVIYIELCLGKIVSQSREYYKRVIEELVQKGAQGIILGCTEIGLLIKQEDVSVPIFDTTHIHAIEAVKVALDRM				NA	NA	NA	NA	NA
AK009_00890	474			hypothetical protein	ATGTTTTCAGTTCAACCAATCGCATTTGTACATAATGAAAGAAAGGAAATAAAAGATGATGAGTGGGGAGAAGTAAGATCCCGTATAACTTTAACTGAAATGTATGCAGAAGAAAGTATACAAGGGATTGAAGATTTTTCTCATATTGAAGTTGTTTTTTATTTTCATAAAGTAACTGACGAGCAAATTCAGTATTTTGCTAGACATCCTAGAAATAATAAGGATTATCCTGAAGTAGGTATTTTTGCACAGCGCGGGAAAAATCGCCCGAATCGCATAGGTGTAACAATTGTAAAGGTGATCAAAAGAGAAGGTAAATCAATTATTGTTGAGGGATTAGATGCTATTGATGGCACTCCTATATTGGATATAAAACCAATAATGAAAGAGTTTATGCCGAAAGAAGAAATACACCAGCCTAAATGGGCAACGGATATAATGAGACAGTATTGGAAGGGGAATGGAGTAAAATGA	MFSVQPIAFVHNERKEIKDDEWGEVRSRITLTEMYAEESIQGIEDFSHIEVVFYFHKVTDEQIQYFARHPRNNKDYPEVGIFAQRGKNRPNRIGVTIVKVIKREGKSIIVEGLDAIDGTPILDIKPIMKEFMPKEEIHQPKWATDIMRQYWKGNGVK				NA	NA	NA	NA	NA
AK009_00891	489			hypothetical protein	ATGGGCAACGGATATAATGAGACAGTATTGGAAGGGGAATGGAGTAAAATGAGAATATATGAGGCAACAATTGCAGATTTAGATGGACTAGCATCAGTTTTTAATAACTATCGCATGTTTTATAGGCAGGATTCTGATTTAGAAGGGGCAAAAGTATTTTTACGAAACCGAATTGAGAAAAAAGAGTCCGTTATTTTCGTAGCAGTTGAAGACGGCGAATATATTGGGTTCACACAACTATATCCATCATTTTCTTCCATTTCAATGAAAGAATTATGGATTTTAAATGATTTATTTGTACAAGCGGCGAAGCGTGGAGCCGGAACAGGTAAAAAATTATTAGAAGCTGCTAAAGAATACGCATTAGAAAATGGAGCGAAAGGTGTAAAATTACAAACAGAGATTGATAATTTATCAGCACAACGATTATATGCTGAAAATGGTTATTTGAGAGATAATCGTTATTTCCATTACGAATTAACGTTTTAA	MGNGYNETVLEGEWSKMRIYEATIADLDGLASVFNNYRMFYRQDSDLEGAKVFLRNRIEKKESVIFVAVEDGEYIGFTQLYPSFSSISMKELWILNDLFVQAAKRGAGTGKKLLEAAKEYALENGAKGVKLQTEIDNLSAQRLYAENGYLRDNRYFHYELTF				NA	NA	NA	NA	NA
AK009_00892	219			hypothetical protein	ATGACAATTATTATTAATATTGACGTCATGTTAGCAAAACGAAAGATGAGTGTAACGGAGCTTTCGGAGAAGGTTGAAATTACGATGGCGAATCTTTCTATTTTGAAAAATGGGAAAGCAAAAGCGGTTCGTTTTTCAACATTAGAAGCGATATGTAAAGCTTTGGAGTGTCAGCCAGGGGATATTTTGGAGTATAAAAACGATGAGAATACTCAATAA	MTIIINIDVMLAKRKMSVTELSEKVEITMANLSILKNGKAKAVRFSTLEAICKALECQPGDILEYKNDENTQ	PGPT0014940_1275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK009_00893	528	hisB_2		Histidine biosynthesis bifunctional protein HisB	ATGACAAACATTAAAGCAATTTTCATTGATCGTGACGGTACAATTGGTGGTGACACTACAATACATTATCCAGGATCTTTTACATTATTTCCATTTACAAAAACATCCTTGCAAAAACTAAAAGCTAAGAATATAAAAATTTTCTCTTTCACAAATCAACCTGGGATTGCAGATGGAATAGCAACTGTAGCCGATTTTGTACAAGAATTAGAAGGCTTCGGTTTTGATGATATTTATGTATGTCCTCATAAACACGGTGATGGTTGTGAATGCCGTAAACCGAGTACAGGCATGCTGCTTAAAGCAGCAAAAAAACATGGGCTTGATTTAACACAATGTGCTGTAGTTGGTGATCGCTGGACTGATATTGTTGCAGGAGCAAAAGTAAATGCGACAACGATTCTAGTCCGAACAGGCGCTGGGTATGATGCTTTGCATACGTACCGAAACAAATGGGCACATATTGAACCAAACTACATTGCAGATAACTTTGAAGATGCAACAAACTGGGTTTTAAATCAACTATAA	MTNIKAIFIDRDGTIGGDTTIHYPGSFTLFPFTKTSLQKLKAKNIKIFSFTNQPGIADGIATVADFVQELEGFGFDDIYVCPHKHGDGCECRKPSTGMLLKAAKKHGLDLTQCAVVGDRWTDIVAGAKVNATTILVRTGAGYDALHTYRNKWAHIEPNYIADNFEDATNWVLNQL				NA	NA	NA	NA	NA
AK009_00894	432	phnO		Aminoalkylphosphonate N-acetyltransferase	ATGTCTTTTCAAATTCGTGAAGCAACGATAGATGATATAGACGCACTTTGTTCTTTAACGAAAGAATTAAAAGGTTCCTCTATTTCCTATGAAGATATGAACAATCGATTACAATTCGTACAAATGAGTCCGTTTGATTTTTTATATGTTTACGAGGAAGAAGAAGCTATATTTGGATTACTTGGATTTCGTATACGTGAAAATTTAGAAGATGTAACACGTTATGGAGAGATTTCAATTATTAGCGTTGATTCTAACATACGACGTAAAGGCATTGGACAAGTTTTGATGGATTATGCAGAACAATTAGCAAAGAAACATAATTGCATTGGCACATGGCTAGTTAGTGGAACAAAAAGAGTAGAAGCTCATCCTTTTTACAAAAAATTAGGCTATGAGGTAAATGGCTACCGATTTGTAAAACATTTTTAA	MSFQIREATIDDIDALCSLTKELKGSSISYEDMNNRLQFVQMSPFDFLYVYEEEEAIFGLLGFRIRENLEDVTRYGEISIISVDSNIRRKGIGQVLMDYAEQLAKKHNCIGTWLVSGTKRVEAHPFYKKLGYEVNGYRFVKHF				NA	NA	NA	NA	NA
AK009_00895	711	ecsA_1	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGTTAGAAGTAAATATCCGCTCAGCTGGATATGAAATAGGTGAAAAAACAATTCGTGATATAGCTTTTTCTATCGAAAAAGGTGAACTAGTTGCTCTTATTGGAGCAAATGGTGCTGGGAAGAGTACGACGATAAAAACGATGCTGGGATTACTTGTAAATATGGACGGTGAAATATCATTCGGTGAAAAGAAAAATCCGTATGCATACGTACCAGAACATCCAACATACTATGATTACTTGACGCTCTGGGAACATATTGAATTATTAATGGCAGCTCGTGGAAGTGAAATGGGAAGCTGGGAAGAAAGAGCGGGACAATTATTACATACTTTTCGAATGGATAAGCATAAACATGAATATTTATCAAAGTTTTCAAAAGGTATGAAACAAAAATCGATGCTAATATTGGCGTTTTTAACTGAGCCAGATTTTTATATAATTGACGAACCCTTTATCGGTTTAGATCCAGTAGCTACGAAAGAGTTTTTAAGTTATTTATATAAAGAAAAAGAGCGCGGAGCAGGAATTTTACTTTGTACGCACGTATTGGATACTGCTGAAAAAATTTGTGAAAGATTTTTACTCATTTCACAAGGTACATTAGTCGCAGATGGACATTTAGAATCTATTCAAATGTTAGCGGAAATGCCGGATAGCTCATTACTAGACTGTTTTGATATAATTGTAAGGCGTGAACAACATGATTAA	MLEVNIRSAGYEIGEKTIRDIAFSIEKGELVALIGANGAGKSTTIKTMLGLLVNMDGEISFGEKKNPYAYVPEHPTYYDYLTLWEHIELLMAARGSEMGSWEERAGQLLHTFRMDKHKHEYLSKFSKGMKQKSMLILAFLTEPDFYIIDEPFIGLDPVATKEFLSYLYKEKERGAGILLCTHVLDTAEKICERFLLISQGTLVADGHLESIQMLAEMPDSSLLDCFDIIVRREQHD	PGPT0006725_26452	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_00896	1200			hypothetical protein	ATGATTAAACAACAATTTTATAAAAGATTATGTCATGAGCTCCAGCGGAAGTGGAATTCTATATGTTCGGTAACAGATTGGACAGTCGCGTTATATATTATTATTCCAACACTTATATTTATGGGAATCTATTATAGGTCACTATGGATAAATGAATTATCAATGGAAGAGACGATTTATTTCGGATTAGGATTACTCGCATTTTATCTAGTAACATATCCGAGAGGAGTTCGTTCGTTTTTTGAGCAAGCGGATAGTTTATTTTTAATTTCGTATGCAACACATATGCGAAAATTAGTCCAGTATGGCATGATGTACACATTTGTTCGAATAGCGATAACGAATGTAATAGTAGTCGTTATTATGTTACCAGTGTTGATGAAAAGTATCGGAGTAACAGAGATACAAGTCGTATTATTTTGGGTATTCTTTACTATATTTCGATTTATGTTGTCGTTGTTAACAAGATTTATTCATGTACAGGTGGGGAAACGATGGGTTTTATGGATTGTAAAAAATGTAGTATTTTCTATGAGCTTGTCCTTTTTTGGAATTAGTTTATTTTTTATTTATAAAAATCTATATTATTCAATTCTATTTATCGGTCTAGTAATTTTCTTAAGTAGTGTATTAGTAAAAGAGAAAATGAATTATAAAAAGTTCTTTTTTAAAGAAATCGAGAAAGAAAAAGAGGAAAGCATGCGCTGGACGAGCGGAATTATGCAAGTTGGTGGTCATGCAGCTAAACCGAGTAGCTCGAATAAAAAACCGTGGATGTTTCCGCGTTCTAAAAGACTATTAGGAAAAAAAGCAGATTCTCTTATTATCGAATCTTTTTTGAAAGAATTTTTCCGTACAAGTACTGCACGAATATTTTATATTCAAATTGTATGTATGAGTACTGCAAGTATAATCATGACTCCAAGGTGGATTGCAGCTATTGTTCTTGTATTTACTGTAGTTGCAATTTCTCGCTATGCGCGTGATTATTGGAATGAATTTACGAAAAAAATGTTTCTTCATTTATATTGTGAAGAAGGAAAATTACTTTTGCTAAGGTGGAAGGCAGATCGTTATTTACTACTACCAGCAATACTCTTGTATGCAATAGTTATACTTGCCCAGTTTTATTTATTGCCAGCTGTGATTGGTGGCTTTGTTTTTATTTTATTAATTGTATGGATTGTATTTTTACCATAA	MIKQQFYKRLCHELQRKWNSICSVTDWTVALYIIIPTLIFMGIYYRSLWINELSMEETIYFGLGLLAFYLVTYPRGVRSFFEQADSLFLISYATHMRKLVQYGMMYTFVRIAITNVIVVVIMLPVLMKSIGVTEIQVVLFWVFFTIFRFMLSLLTRFIHVQVGKRWVLWIVKNVVFSMSLSFFGISLFFIYKNLYYSILFIGLVIFLSSVLVKEKMNYKKFFFKEIEKEKEESMRWTSGIMQVGGHAAKPSSSNKKPWMFPRSKRLLGKKADSLIIESFLKEFFRTSTARIFYIQIVCMSTASIIMTPRWIAAIVLVFTVVAISRYARDYWNEFTKKMFLHLYCEEGKLLLLRWKADRYLLLPAILLYAIVILAQFYLLPAVIGGFVFILLIVWIVFLP	PGPT0006730_4296	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_00897	588			hypothetical protein	ATGCCAAATTGGTTTAGAAAAACCTTAGTCGCATTAATTACCGTATTTACATTTGGTTTAGTGACGCCTCCTTCCATATTGCTTGATAATGCCAAAGCTGCGGACAAGCCTACGAGCACAGCTGGGCAACAAAGTTTGGAGAGCACGTCCTATACATATGAAGAAACGAATGACAGGTTAACCACCGATACTTTTATTACTTATGCAATGCAAGAAGCAGAGAAGCAGTCGATGCAAAAGTTTGGTACTAAAATTGGTCCAGTAATTGAAGATGAATTTAAAGATGTAATATTACCGAAAATTGAAGAGGCAATTGCTGAGCTTGCTAGTGATGTACCAGAAGACTCACTACAATCATTAGCGATTTCTCAAAAACCAGCTGGTGGAAATAATGAAAAGATTTTTCACGTCTACGATACGAAATCAGGAAATGATTTATTGCGTTTCCATGTAAGAAGAGATCATCCGCCGCAAGATGGTTATTATTTTAATTTCCATTATCACCGTTTTGATGATGGATACTCTGGACATCATGAGTTAGGAAATATTTATTGGAATACAAATGTACCGCCGAAATGGTTGTCTTAA	MPNWFRKTLVALITVFTFGLVTPPSILLDNAKAADKPTSTAGQQSLESTSYTYEETNDRLTTDTFITYAMQEAEKQSMQKFGTKIGPVIEDEFKDVILPKIEEAIAELASDVPEDSLQSLAISQKPAGGNNEKIFHVYDTKSGNDLLRFHVRRDHPPQDGYYFNFHYHRFDDGYSGHHELGNIYWNTNVPPKWLS				NA	NA	NA	NA	NA
AK009_00898	636	gph_1		Phosphoglycolate phosphatase	ATGCAAAAATACATTGTTTTTGACTTTGATGGCACATTAGTAGATTCGCAAAATATATTTGTACCAATTTATAATCAAATTGCTGAAAAGCACGGATATAAAACGGTAAAGGAAGAAGAAATTGAACATTTACGTAAATTAACGATGCCAGAGAGATGTAAACAACTCGATGTACCACTGTATAAATTACCGATATTAGCGTTGGAGTTTTATAAATTATATCAGCCTGCTATAAAAGATCTTGTTTTATTTCATGGGATGAAGGATGTATTAGATGAACTATATAAAAAAGGATACGGTATTGCGGTTATATCATCTAACTCAGAAGAGCATATTCGGGCATTTTTACACAAGAATGATATAGAAAATATACAAGAAGTGTATTGTTCTAAAAATCTGTTTGGTAAAGATAAAATGATAAAAAGATTTTTAAAATCGAAAAAGATAACAGAGCAGGATATGTTATACGTTGGTGATGAACAGCGAGATGTAGCAGCGTGTAAAAAGGCTGGAGTGAACGTGATTTGGGTATCTTGGGGATATGATGTCATTGAAACAGTGAAAAAAGATGCACCAGATTATATGGTTCATAAGCCGATGGAAATTGTGGAAGTAGTACAAGGAGCGTATTCTTAA	MQKYIVFDFDGTLVDSQNIFVPIYNQIAEKHGYKTVKEEEIEHLRKLTMPERCKQLDVPLYKLPILALEFYKLYQPAIKDLVLFHGMKDVLDELYKKGYGIAVISSNSEEHIRAFLHKNDIENIQEVYCSKNLFGKDKMIKRFLKSKKITEQDMLYVGDEQRDVAACKKAGVNVIWVSWGYDVIETVKKDAPDYMVHKPMEIVEVVQGAYS	PGPT0001730_6992	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK009_00899	387			hypothetical protein	ATGAATACACTTCGAGCAGGCATTCATCATATTGAATTTTGGGTAGCGAATTTGGAGGAGTCCATTTCTTTTTATAATAAGTTGTTTTCCATAATTGGATGGAGAAAGTTAAATGAAGTAGCATATAGCACAGGAGAAAGTGAAATATATTTTAAAGAAGTAGATGAGGAAATCGTAAGGACGTTAGGGCCTAGACATATTTGTTATCAAGCTATTCATAGAGAAGTAGTTGATGAAGTAGCAGATTTTCTTTCTAGTACGAAAGTGAAGGTAATACGTGGTCCAATTGAAATGAATCATTATTCGGAAGGTTACTATACGATTGATTTTTACGATCCGAATGGATTTATTGTAGAAGTTGCCTATACACCAAAGGCAGAAATGTAA	MNTLRAGIHHIEFWVANLEESISFYNKLFSIIGWRKLNEVAYSTGESEIYFKEVDEEIVRTLGPRHICYQAIHREVVDEVADFLSSTKVKVIRGPIEMNHYSEGYYTIDFYDPNGFIVEVAYTPKAEM				NA	NA	NA	NA	NA
AK009_00900	933			hypothetical protein	ATGAAGATAATTACAGCGCAGCAAAACAATATACAAATTGTAAAAGATGCAGTGGATATTAAAGAAATTTCTAAAGGTTTTTCGCCTGACAAGAAATATATAATTATGAGTGCGAATAATGAAAAATATTTATTTCGGACAGGCGATATAAAAGAGTATGAAAGAAAGAAAATAGAGTTTCAAATTTTAAATGAAATGGTAAAATGTAACGTACAGGCACAAAGGCCAATTGAAATAGGTATATTGGAAGAAGAAGGTGTATGCTATAGTATTTTTTCATATTTAGAAGGGGAAGATGCGAAGAGACTATTGTCTACGTATTCACCAAAAGAACAATATGATATTGGCATAGAGGCAGGAAAAGATTTAGCGAAAATGCATACACTTGAAGCTCCTAAGAATATACTTCCGTGGTATGAAAGAGCAATGAAAAAACATAGGAAATATTTAGAGGCGTATAAAACATGCGGAATTAAAATTGAAAATGATGATAAAATTATTAAGTTTATAGATGAAAATGAAATGTATGTAAAGGATCGCCCAAATCGATTTCAACACGATGATTTTCATTTAGAAAATATAATTGTACGGGATGGGAGATATGTAGGTGTAGTTGATTTTAATGGTTATGACTGGGGCGACCCACTGCATGATTTCGTAAAAATTGCACTATTTGCAAGAGACATTAGTATTCCATATTCAATCGGACAAATAGAAGGATACTTTAATGAGAGAATACCAGAGGAGTTCTGGAAATTATATGCGGTGTACGTTGGCATGACAGTTTTCTCATCAGTTGTCTGGACATTACGAGCAGCACCGCATATGTTGGAGGATACGTTAGAGCGTCTTCATATTGTATTAGAAGATCATAAAAACTTTGAACTATTGAAGCCGATTTGGTTTCAACCAGATAAGATGGATATGAAATAG	MKIITAQQNNIQIVKDAVDIKEISKGFSPDKKYIIMSANNEKYLFRTGDIKEYERKKIEFQILNEMVKCNVQAQRPIEIGILEEEGVCYSIFSYLEGEDAKRLLSTYSPKEQYDIGIEAGKDLAKMHTLEAPKNILPWYERAMKKHRKYLEAYKTCGIKIENDDKIIKFIDENEMYVKDRPNRFQHDDFHLENIIVRDGRYVGVVDFNGYDWGDPLHDFVKIALFARDISIPYSIGQIEGYFNERIPEEFWKLYAVYVGMTVFSSVVWTLRAAPHMLEDTLERLHIVLEDHKNFELLKPIWFQPDKMDMK				NA	NA	NA	NA	NA
AK009_00901	1458	dap_1		D-aminopeptidase	ATGTCTAAATTCGGAACGCCTGTTATGACTTCTTTACAAACAACGGTTGAAAAAATGATGAAGGATTTAAATGTTCCTGGTGCTGCTGTCGCTGTAATAAAAGACGGTGAAGTTATTATTTCAGAAGGTTTCGGCTATCGTAATATAGAAACAAAAGAGGCTGTTACACCGCATACTCGATTCGCAATCGGTTCCTCAACGAAAGCTTTTGGCACACTTTCATTAAGTTTGTTAACACAACAACAAAAATTTAATTGGGATAGTCCTGTCCAGTCTTTTATACCTAACTTCTCTTTATCTGAAGTACTTGCTAGCTCACAAGTTACCGGACGAGATTTAGCTTCTCATCGAACCGGTGTAAGCCGTCATGAGGCTCTTTGGTATAGCTCTTCCTTATCTCGAAAAAATCTCGTTGAAAAAATAAAACATTTACCACTTGATGCGCCGTTCCGAACAGCGTTTCTATATAACAACTTAATGTATACAACAATCAGCTACATTGTGGAAAATATTACAAATCAAACGTGGGAACAATACGTTACAGAACATATTTTAGAGCCTTTAAATATGAATCAAACAAACTTCTCTGTTACAGATTCACAAACTACAGATGATTATGCTTTACCTTACGTTGAAAATGAAGGTAAAATAAAAGAAGTTCCATTCCATAACATCGATACAGTTGGAGCTGCTGGGTGTATTAATTCTACAATTGAAGATATGGCAAATTGGGTCCTTCTTCACTTAAACAAAGGTAAATTTGGAAATCATGAATTAATCTCCTCTGAATTATTACAACAAATGTATACACCACATAATTCCATTCCAGATCAACCAGTTTTATCACTTCCTGAATCTCCATTAAATAGTTACGGTCTTGGTTGGTTTATTAGCGCTTACCGTGGTAATAAGGTAATTCATCATGGCGGTAATATTGATGGGTTTTCAGCACTTGTTTCATTCATACCAACAGAAAACATAGGCCTTGTCATTTTAACGAATGCTGGAGGAACATTACTTCCTACTTATCTCGCTAATCAAATTTATGACGAACTACTTGAATTAGAATCCATTGATTGGCATAAACGTGCTGTAGAAGATACTGAGAAAATGAAGGAAATGATGAAAGAAGCAACTGAATCGCTTCCTGAACAAATTAAAGGGACTACACCTTCTCACAAGTTAGAGGATTATACTGGTACTTTTGAACATCCTGCATACGGAACATTACAAGTATACAAACAAGATGATTCGTTATTTGTACAATTTATGGAGATGAAGGTTCAATTGCACCATCATCACTACGACATCTTCTCTGCAAAAATTGACTTATTCCAAATGAAAATGAGTTTATTATTCGCTTATGAAATGAATGTGAGTGGTGAATTCCCATCTCTTCAGTTACATGTGCCAGCTATGTTAAGTACTCAGCCGCTGACATTTAAGAAAATCAAATAA	MSKFGTPVMTSLQTTVEKMMKDLNVPGAAVAVIKDGEVIISEGFGYRNIETKEAVTPHTRFAIGSSTKAFGTLSLSLLTQQQKFNWDSPVQSFIPNFSLSEVLASSQVTGRDLASHRTGVSRHEALWYSSSLSRKNLVEKIKHLPLDAPFRTAFLYNNLMYTTISYIVENITNQTWEQYVTEHILEPLNMNQTNFSVTDSQTTDDYALPYVENEGKIKEVPFHNIDTVGAAGCINSTIEDMANWVLLHLNKGKFGNHELISSELLQQMYTPHNSIPDQPVLSLPESPLNSYGLGWFISAYRGNKVIHHGGNIDGFSALVSFIPTENIGLVILTNAGGTLLPTYLANQIYDELLELESIDWHKRAVEDTEKMKEMMKEATESLPEQIKGTTPSHKLEDYTGTFEHPAYGTLQVYKQDDSLFVQFMEMKVQLHHHHYDIFSAKIDLFQMKMSLLFAYEMNVSGEFPSLQLHVPAMLSTQPLTFKKIK				NA	NA	NA	NA	NA
AK009_00902	957	thyA	COG0207	Thymidylate synthase	ATGAAACATGCTGAAAATGAATACTTAAATTTATGCCGCCATGTAATGGAACATGGTACGAAGAAAGAAGATCGTACAGGGACAGGAACTGTATCTGTATTTGGATATCAAATGCGTTTTGATTTGAGTAAAGGATTTCCTTTATTAACGACAAAAAGAGTACCATTTCGCCTTGTAGCAAGTGAACTACTTTGGTTTATGAAAGGTGATACAAATATTCGCTATTTATTGCAGCATAATAATAATATTTGGAATGAATGGGCATTTAAGAGCTGGGTGGAAAGTGACGAGTATACTGGTCCTGACATGACTGATTTTGGTCTTCGCTCACAACAAGATGAAGAATTTAAAGTACAGTACGATGAGCAAATGGAATTGTTTAAAAAGAACGTTTTAGAAGATGATGATTTCTCAAATAAATATGGTTATTTAGGAGACGTATACGGTAAACAGTGGCGTGCTTGGAAAACGACAGCCGGTGAGACACTTGATCAATTAAAAGATGTAATTGAAATGATTAAAAAAACACCAGACTCACGTCGTTTAATCGTTTCTGCTTGGAATCCTGAAGACGTACCGAGTATGGCATTACCGCCTTGTCATACATTATTCCAGTTTTATGTAGCGGACGGAAAACTTTCTTGTCAGTTATATCAAAGAAGTGGTGACATATTCCTTGGAATTCCATTTAACATCGCAAGTTATTCACTACTAACACATTTAATTGCACATGAATGTGGTCTTGAAGTAGGAGAATTTGTTCATACAATTGGAGATGCACACATTTATACAAATCATTTTGAACAAGTAGAAAAGCAATTGGCACGTGAACCACGTCCGTTCCCGAAACTTACATTAAATTCAGATGTGAAATCTGTTTTCGATTTTGAAATGGAAGATTTAACGATTGAAGGATACGATCCGCATCCAGCAATTAAAGCACCGGTTGCAGTATAA	MKHAENEYLNLCRHVMEHGTKKEDRTGTGTVSVFGYQMRFDLSKGFPLLTTKRVPFRLVASELLWFMKGDTNIRYLLQHNNNIWNEWAFKSWVESDEYTGPDMTDFGLRSQQDEEFKVQYDEQMELFKKNVLEDDDFSNKYGYLGDVYGKQWRAWKTTAGETLDQLKDVIEMIKKTPDSRRLIVSAWNPEDVPSMALPPCHTLFQFYVADGKLSCQLYQRSGDIFLGIPFNIASYSLLTHLIAHECGLEVGEFVHTIGDAHIYTNHFEQVEKQLAREPRPFPKLTLNSDVKSVFDFEMEDLTIEGYDPHPAIKAPVAV	PGPT0008145_639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
AK009_00903	489			IS1595 family transposase ISSsu9	ATGATTGTTTCATTTATGGTCGCAATGGACGAAAATAGAGTAATTGGTAAAGATAATAATTTACCTTGGCGTTTACCGAGTGAATTACAATACGTGAAGAAAACAACGATGGGTCACCCGCTTATTATGGGAAGAAAGAACTATGAAGCGATTGGTAGACCGCTGCCTGGAAGACGTAATATTATTGTAACTCGTAATGAAGGATATCACGTTGAAGGATGTGAAGTTGTTCATTCTGTAGAAGAAGTATTTGAACTATGTAAAAATGAAGAAGAGATTTTTATTTTTGGCGGGGCGCAAATTTATGATCTCTTTTTACCTTATGTAGACAAATTGTATATAACAAAAATCCATTATGCATTTGAAGGAGATACATTCTTCCCAGAAATGGATATGACAAATTGGAAAGAGATTTTTGTGGAAAAAGGTTTAACGGATGAACAAAACCCGTATACGTATTATTACCATGTATATGAGAAACAACAATAA	MIVSFMVAMDENRVIGKDNNLPWRLPSELQYVKKTTMGHPLIMGRKNYEAIGRPLPGRRNIIVTRNEGYHVEGCEVVHSVEEVFELCKNEEEIFIFGGAQIYDLFLPYVDKLYITKIHYAFEGDTFFPEMDMTNWKEIFVEKGLTDEQNPYTYYYHVYEKQQ	PGPT0007945_3195	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
AK009_00904	1986	pbp_1	COG0768	Beta-lactam-inducible penicillin-binding protein	TTGAGAAAGATATGGGGGATTCTTTTTCTTTGCTTAACATTCATGTTAGTTGGATGCGGTAAAGAAGAAAAACCACAAGAAGCGTTTGATACATATGTAAAAGCATGGAATAAACAAAAATTTGCAGATATGTATGATCAACTATCAAAAAATGCAAAAAAAGATATTTCAAAGAAAGAGTTTACTGAGAAATATGAAAAAATTTATTCTGGTATCGAAGTAAAAGACTTAAAGGTAGAAACAGGGGAAGTAAAAGAAGATAAAAAAGATGAAGGCCCTGTTCCTTTTAAAGTAAGCATGGATACAGTTGGTGGTAAAATTACTTTTGGCCATGAAGCAAAAATGGTGAAAGAAAAAGATGGAGATAAAGAATCTTGGAAAATAGATTGGACTCCTGATTTTATTTTCCCTGGTATGACGAAAGATAGTAAAGTGCGTATGCAGACAACACAGCCAAAACGTGGTGAAATATACGATCGTAATGGAAAAGGTCTTGCAACGAATGGGAAAGCTTCTGAAATTGGAATAGTTCCAGAAAAATTAGACGATACTGCTCCGCAAACGAAAGAGACAGTAGCGAAGTTGTTAAATATGACTGTAGAAGAAATTGATCAAAAATTAGCTGCTAAATGGGTAAAACCAGGGTATCTCGTACCAATTGGAATTTTGCCTGAAGGGGCAACGCAAAATACGTACATTGATTTAGCAGGTGTTTCAACAAAACCTGTAAATGTTCGTACATATCCATTAGGGGAAGCGGCAGCTCATCTAACTGGTTATATCGGAAAGGTAAATGCTGAAGATTTAAAAACGCTTCAAAAGAAAGGCTATCAAGCTGATGATCCAGTTGGTAAAGCTGGTTTAGAGCAAGTATTAGAGGAAAAGCTACGCGGTAAAAAAGGTGGCCGTGTCTTTGTAGAAGATGCACAAGGAAAAGAAATTAAAAACTTGGCAAAAACAGATGCTGTTGATGGAGAAAACGTAACTTTAACTATTGATAGTGCTGTTCAAGAAAAAACGTACAATGAAATGAAGGGCGAAGCTGGTTCAAGTGCAGCAATTAATCCGAAAAGTGGAGAAACAATTGCACTAGTAAGTAGTCCAGCATATGATCCGAATTTAATTGCACGAGGAACATCGAAAGCACAACGCGAAGCTTGGAATAATGATCCGAAAAAACCGATGACGAATCGCTTTACACAATTATCGGTACCAGGTTCTGTATTTAAACCAATTACAGCTGCAATTGGTCTTGAAACGAAAACGATTGATCCAAAAGAAGAGTTAAAAATTGAAGGATTAAAATGGACAAAAGATTCTTCTTGGGGTAATTATTATGTAACGCGTGTGAAAGATGCAAATCCGATTGATTTTGATAAGGCGATGAAATACTCGGATAATATTTACTTCGCACAAGAAGCATTGAAAATCGGAAAAGACAAGTTTATGAGTGAAGCGAAAAAATTCGGATTCGATGAAAAATTACCAATTGAATATGGATTCCCTGCTTCTAAAATTGCAAATGACGGTATTAAAAATGATATTCAAATGGCAGATACAGGATATGGACAAGGGCAAGTATTAATGACTCCTCTTCATTTAGCTTTAACGTATGCGCCAATTGTAAATGATGGAACGATTCCATCACCGTATATTATTAAAACAGATAAACAACCAAAAGCTTGGAAAGAAAATGTAATTTCTAAAGGAAATCAGGATATATTAAAAACTGCTATGACGAAAGTAATTAATGATCCGGATGGTACAGGGAAAATTGCTAAAATTGATGGAATGACTCTTGCTGGAAAAACAGGTACAGCGGAATTAAAAGTATCCAAAGAGGCCGAAGGAAAAGAACTAGGCTGGTTCGCTGCATTTGATTTGAATTCACCAGATATGGTCATTACAATGATGATTGAAGATGTAAAAGGTAGAGGTGGAAGTAACATTCCAGCTGAAAAAGTAAAACATGTTTTTCAAAAATAA	MRKIWGILFLCLTFMLVGCGKEEKPQEAFDTYVKAWNKQKFADMYDQLSKNAKKDISKKEFTEKYEKIYSGIEVKDLKVETGEVKEDKKDEGPVPFKVSMDTVGGKITFGHEAKMVKEKDGDKESWKIDWTPDFIFPGMTKDSKVRMQTTQPKRGEIYDRNGKGLATNGKASEIGIVPEKLDDTAPQTKETVAKLLNMTVEEIDQKLAAKWVKPGYLVPIGILPEGATQNTYIDLAGVSTKPVNVRTYPLGEAAAHLTGYIGKVNAEDLKTLQKKGYQADDPVGKAGLEQVLEEKLRGKKGGRVFVEDAQGKEIKNLAKTDAVDGENVTLTIDSAVQEKTYNEMKGEAGSSAAINPKSGETIALVSSPAYDPNLIARGTSKAQREAWNNDPKKPMTNRFTQLSVPGSVFKPITAAIGLETKTIDPKEELKIEGLKWTKDSSWGNYYVTRVKDANPIDFDKAMKYSDNIYFAQEALKIGKDKFMSEAKKFGFDEKLPIEYGFPASKIANDGIKNDIQMADTGYGQGQVLMTPLHLALTYAPIVNDGTIPSPYIIKTDKQPKAWKENVISKGNQDILKTAMTKVINDPDGTGKIAKIDGMTLAGKTGTAELKVSKEAEGKELGWFAAFDLNSPDMVITMMIEDVKGRGGSNIPAEKVKHVFQK	PGPT0023945_247	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023945-pbpC-K21467	NA	NA
AK009_00905	636	azoR2_1	COG1182	FMN-dependent NADH-azoreductase 2	ATGACAAAAGTACTATTTATCACAGCAAATCCAAATTCAGCAGAAGGTTCTTTCGGAATGGCAGTAGGGGAAGCTTTCATCGAGGCTTATAAAAACGAGCATCCACAAGACGAAGTTGTAACAATTGATCTATTCAATACTACTGTACCAGCAATCGATGCAGATGTATTTGGTGCTTGGGGTAAATTTGCAGCAGGTGAAGGTTTTGAAACTTTAACTGAAGTTCAACAACAAAAAGTAGCAGCAATGAACACAAACTTAGAAACATTTATGCATGCAGATCGTTATGTATTCGTAACTCCAATGTGGAACTTTAGCTATCCACCAGTAGTAAAAGCATACTTAGATAACGTAGCAATCGCAGGTAAAACATTCAAATATACTGAAAATGGTCCAGTTGGCTTATTAGAAGGTAAAAAAGCACTTCACATTCAAGCAACAGGTGGCGTATATTCTGAAGGAGCATACGCAGCTGTAGACTTCGGTCGTAATCACTTAAAAACTGTATTAGGATTTGTCGGAGTAAATGAAACTGAATATATTGCAGTTGAAGGTATGAATGCAAACCCTGAAAAAGCACAAGAAATTAAAGAAGCAGCAATTGCTAATGCTCGTGAATTAGCAAAACGTTTCTAA	MTKVLFITANPNSAEGSFGMAVGEAFIEAYKNEHPQDEVVTIDLFNTTVPAIDADVFGAWGKFAAGEGFETLTEVQQQKVAAMNTNLETFMHADRYVFVTPMWNFSYPPVVKAYLDNVAIAGKTFKYTENGPVGLLEGKKALHIQATGGVYSEGAYAAVDFGRNHLKTVLGFVGVNETEYIAVEGMNANPEKAQEIKEAAIANARELAKRF	PGPT0006790_974	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK009_00906	720	aas		Bifunctional protein Aas	ATGATTCAAACGTTTTTTAAAATCTTTTATTTAATTTTAATCGTAATTGCGATTACACCGAGAATGTGGCGTCTTAAAAGACAAGTAAATACGATGGCGCCAAAAGAAAAAGATAATGCTGTGTACAAAACGACAAATTGGTTTGGTAAGAAAATGGTACGTGTAGCTGGAGGGACAGTAGAAGTGAAAGGGCTTGAAAATGTTCCGAAAGACAAGCCGGTACTAGTTGTAAGTAATCACCAAAGTAATATGGATATCCCTGTTTTACTAGGTTACTTAAATAAACCAATTGGATTCGTGTCAAAAGCAGAAATTAAAAAGTTCCCAGTTGTGCCAACTTGGATGGAACTTATGAATTGTGTATTTATGGATCGTAGCGATCGTCGTCAATCTCTTAAAGCAATTAAAGATGGAATCGAGCTATTAAAGAATGGACATTCTATCGTAATTTTCCCAGAAGGGACAAGAAGTAAGGGTGGCGAAGTTGGAGAGTTTAAGGCTGGTAGTTTTCATCTTGCAGTAAAGTCAGGTGTAGCAATTTTACCTGTAACGTTAGATGGTACATATAAGATGTTTGAAGCGAATGGAAATCGTATGAAGCCAGCTCATGCAACAGTAACAATTTCTAAGCCGATTACACCTGAAGATTATGCGAATATGGATATTAAAGAATTAACGAAGCATACACAGGAAGTTATCGCATCACAATTACATAAGTAG	MIQTFFKIFYLILIVIAITPRMWRLKRQVNTMAPKEKDNAVYKTTNWFGKKMVRVAGGTVEVKGLENVPKDKPVLVVSNHQSNMDIPVLLGYLNKPIGFVSKAEIKKFPVVPTWMELMNCVFMDRSDRRQSLKAIKDGIELLKNGHSIVIFPEGTRSKGGEVGEFKAGSFHLAVKSGVAILPVTLDGTYKMFEANGNRMKPAHATVTISKPITPEDYANMDIKELTKHTQEVIASQLHK	PGPT0024380_4580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
AK009_00907	657			hypothetical protein	ATGACTGAAAAAATGACACGAATGACCCAATTTGTAAAAGAAGAAATTGCAAATGCAATTACACATGGTATCGGTGCCATTTTAAGCATCCCTGCCTTAATCATATTGATTATTCATGCTTCTAAGCACGGTACCGCATCAGCTGTAGTTGCATTTACTGTTTATGGTGTAAGCATGTTCTTACTGTACTTGTTTTCAACATTGCTACACAGCATCCATCATCCTAAAGTTGAAAAAATATTTACTATTTTAGATCATTCAGCCATTTACTTATTGATTGCTGGCACGTATACTCCTTTTCTACTTATTACACTTCGTGGCCCATTAGGATGGACGTTACTTGCTATTATATGGACACTTGCAATCGGAGGTATCGTCTTCAAAATTTTCTTTGTACGTCGCTTTATAAAGGCATCAACTTTATGTTACATCATTATGGGCTGGCTCATAATCGTTGCCATTAAACCACTTTATGAAAATCTAACTGGACATGGTTTTTCACTACTTTTAGCAGGTGGAATTTTATATTCTGTCGGAGCTATATTCTTCCTTTGGGAAAAGCTACCTTTCAACCATGCCATATGGCACCTGTTCGTTTTAGGTGGTAGTGCGATGATGTTCTTTTGTGTACTCTTTTATGTCTTACCTACAGCATAA	MTEKMTRMTQFVKEEIANAITHGIGAILSIPALIILIIHASKHGTASAVVAFTVYGVSMFLLYLFSTLLHSIHHPKVEKIFTILDHSAIYLLIAGTYTPFLLITLRGPLGWTLLAIIWTLAIGGIVFKIFFVRRFIKASTLCYIIMGWLIIVAIKPLYENLTGHGFSLLLAGGILYSVGAIFFLWEKLPFNHAIWHLFVLGGSAMMFFCVLFYVLPTA				NA	NA	NA	NA	NA
AK009_00908	186	tatAd		Sec-independent protein translocase protein TatAd	ATGTTTTCAAATATTGGCTTTCCAGGGTTAATTTTAATTTTAGTAGCAGTACTCATTTTATTTGGGCCTAAAAAATTGCCGGAAATCGGGAAGGCTTTAGGGGAAACGTTAAAAGAGTTTAAAAAATCAACGAAAGAATTGACAGATGACGCATTTCAAGAAAAGGAAAAGAAAGAAAAAATGTAA	MFSNIGFPGLILILVAVLILFGPKKLPEIGKALGETLKEFKKSTKELTDDAFQEKEKKEKM	PGPT0029290_4689	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
AK009_00909	753	tatC1	COG0805	Sec-independent protein translocase protein TatCd	GTGGTGAACGAGTTGGAAGATCGGGAAATGAGCGTAGTAGAACATATTGTTGAGCTTCGAAAAAGAGTAATATATACGGTGTTATCCTTTGTACTATTTTTAATTATCGGATTTACTTTTACAAAGGATATTTATTTTTGGCTTGTAAAAGATTTACCAATGAAATTAACTGTTCTCGGTCCAAGTGATGTATTGTGGATTTTTTTCTCGATTGCTACAGTATTTGCTATCGTTTGTACAATTCCTTTTGCTGCTATACAAATTTGGTTATTTGTAAAACCGGGTTTACATCCAAATGAACAAAAGATGACAATAATGTATATACCGGTATTGTCTATATTATTTATTGCAGGTTTATGTTTTGGATACTTTATTGTAATGCCATTTCTATTTCACTTTTTAACTACGATAGGTAATGAAATGTTTAATACGATGTTTACGACAGAAAAGTATTTTCATTTTGTACTTAATTTAACAGTCCCATTTGCTGTGATTTTTGAATTACCAGTCGTTGTAATGTTTTTAACTAGTATTGGAATACTTACGGCGGAATTTTTAATAAAAATAAGAAGATATGCTTACGTAGCACTGATTATCATTGCATCTTGTATATCACCGCCTGACTTTTTATCTCATAGTTTAGTTGCGGTGCCGCTTATTTGTATTTATGAAGTAAGTATTGCTTTATCAAAGGTTGTTAGTAAGAGGAAAAAGAAAAGAGAAGAAATGCAGTCGAAAAGTGCCTCGTTATAA	MVNELEDREMSVVEHIVELRKRVIYTVLSFVLFLIIGFTFTKDIYFWLVKDLPMKLTVLGPSDVLWIFFSIATVFAIVCTIPFAAIQIWLFVKPGLHPNEQKMTIMYIPVLSILFIAGLCFGYFIVMPFLFHFLTTIGNEMFNTMFTTEKYFHFVLNLTVPFAVIFELPVVVMFLTSIGILTAEFLIKIRRYAYVALIIIASCISPPDFLSHSLVAVPLICIYEVSIALSKVVSKRKKKREEMQSKSASL	PGPT0029295_3734	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
AK009_00910	252			hypothetical protein	GTGATTACGAAAAGTTTTTATTTCACTCATTCAACAGGGGATTGTATTAAAATATTCGAAATCCCTGTCCTACAGGCGCAGCATCCATTATCGTTTCTAATTCAGTCTCGTCTTCAATTATTTATTGCAAAAATTCAAAAACAAAAACATCCAAGATTTGCATATTCTTTCCGTGAATATTTACAAAATTGTTTGAAGTGGAATGATTATTTAAATGTATATAAAACAAATACTCTTGAAAAAAATGCATGA	MITKSFYFTHSTGDCIKIFEIPVLQAQHPLSFLIQSRLQLFIAKIQKQKHPRFAYSFREYLQNCLKWNDYLNVYKTNTLEKNA				NA	NA	NA	NA	NA
AK009_00911	864			DegV domain-containing protein	TTGGAAAGGGAAGAATATAATATGCAAAAAATTAAAATTGTAACAGATTCAACGGCAGATTTATCACAAGAAGTAATCGAGAAGTATGACATTCATGTTCTACCATTATCAATCTCTGTAAATGGACAAACATATTTAGATCGCGTTGATCTACAACCAGATGAATTTATTGAAGAAATGCTTAAATCAGAGGAATTACCAAAAACATCGCAACCAGCAATGGGTACATTTGTAGAAATGTATAACAAGTTAGGTGAAGATGGAAGTGAAGTACTTTCCATTCATATGACAAGTGGAATGAGTGGTACTGTAGCAACTGCAAATAGTGCTGCATCAATGACCGATACAAAAGTAACAGTTGTTGATTCTCAATTTATTACACATGCTTTAGCATATCAAGTAATTGAAGCTGCAAAAATGGCAAATGAAGGGCGCTCACTAGAAGAAATTTTAAAACGTGTAGATGAAGTAAGAAAGAATACTCGTTTATATGTAGTAGTAGATACATTAGAAAACTTAGTGAAGGGTGGACGTATCGGTAAAGGAAAAGCGTTTATCGGTTCGCTGCTTAATATAAAGCCAATTGCTAGTCTTGAAGACGGTGTTTATAATCCTGTAACGAAAGTTCGTAGCCAAGGCCAAATTGTAAAAACATTAGCTAAGTTATTTGAGCAAGATACAGCTGGAAAAGTTGTAAAGGCTGTTGCAATTCCACATGCGAAAGCAATTCCTTTAGCTGAAAGTATGAAAGCGGCGGTTGAAAAAGTGAGTGGGTTTGCTCAATCAGAAATTTTCTATACAACGCCTATAATTAGTACTCATACAGGTCCGGGTGCAATCGGATTTATGTATTTAGCAGAGTAA	MEREEYNMQKIKIVTDSTADLSQEVIEKYDIHVLPLSISVNGQTYLDRVDLQPDEFIEEMLKSEELPKTSQPAMGTFVEMYNKLGEDGSEVLSIHMTSGMSGTVATANSAASMTDTKVTVVDSQFITHALAYQVIEAAKMANEGRSLEEILKRVDEVRKNTRLYVVVDTLENLVKGGRIGKGKAFIGSLLNIKPIASLEDGVYNPVTKVRSQGQIVKTLAKLFEQDTAGKVVKAVAIPHAKAIPLAESMKAAVEKVSGFAQSEIFYTTPIISTHTGPGAIGFMYLAE				NA	NA	NA	NA	NA
AK009_00912	975		COG2220	putative protein	ATGGCAAAGCGCTATGAAAATATGGATAATGTTAGTACAAAAAAATCAATTCGCTCTTTTTTACGCTGGCGTAAAGAACGAAAGCAAAACAAAAAAGATTTTTCTTTCTTAGTAGAACAATCACCCGTTAAACAAAGTGCATTTTTGCAAAGTAATGTAAAAAAAACGACTGTCACATGGATTGGGCATTCTACTTTTCTTATCCAAACGAATGGACTTAATATATTAACAGATCCAGTATGGGCCAATAAATTAAAGCTAGTTCCAAGACTTACAGAACCTGGACTCTCTATAGAAGCACTACCTAAAATTGATATTGTCCTTATTTCACATGGTCATTATGATCATTTAGATTTTTCAACTCTTCGTCAGTTGAATGATGATGTTCTATACCTTGTACCTATCGGATTAAAAAAATTATTTACTCGTAAGAAATTTAAACATGTAGAAGAGTATAAATGGTGGGAAAGTACGATAATTAACGAAGTTTCTTTTCACTTCGTACCTGCTCAGCACTGGACGAGAAGATTCTTATTTGATATGAATACGTCTCACTGGGGGGGATGGATTATTGATAATGAAACGACTATGGAAACCATATATTTTTGTGGCGACAGTGGCTATTTCCAAGGTTTCAAAGAAATTGGTGAACGCTTTTTAATTGATATTGCTCTTATGCCCATTGGCGCTTATGAACCAGAATGGTTTATGAAAGTATCTCATGTTTCACCTGAAGAGGCTGTGCAAGCTTATTTAGATTTAAACGCTACTCATTTTATACCGATGCATTACGGAGCATTTGCACTCGCCGATGAAACACCTCGTGAAGCAATAACTAGACTTCGAAATAATTGGAATTTGCGCATGTTACCATGGGAACAACTGCATGTACTCTTTTTAGGCCAAACTTTTATTTATAGTAACGCAACAAATGATAAGCAAATAAATGAAAAAATTGAAACTTTACATGTGTAA	MAKRYENMDNVSTKKSIRSFLRWRKERKQNKKDFSFLVEQSPVKQSAFLQSNVKKTTVTWIGHSTFLIQTNGLNILTDPVWANKLKLVPRLTEPGLSIEALPKIDIVLISHGHYDHLDFSTLRQLNDDVLYLVPIGLKKLFTRKKFKHVEEYKWWESTIINEVSFHFVPAQHWTRRFLFDMNTSHWGGWIIDNETTMETIYFCGDSGYFQGFKEIGERFLIDIALMPIGAYEPEWFMKVSHVSPEEAVQAYLDLNATHFIPMHYGAFALADETPREAITRLRNNWNLRMLPWEQLHVLFLGQTFIYSNATNDKQINEKIETLHV				NA	NA	NA	NA	NA
AK009_00913	588	ypmQ	COG1999	SCO1 protein	ATGAAGCGTTATCAAAAAATAATTGGTCTTATGGTTGTATTTTGTCTCTTTGTACTTGCTGGATGTAGTGGATCAGGTTCAAAGCTTCGTAAACCATTGAATTGGGATTTAGAAACTTTCCAATTTACAAATCAAGATGGAAAGCAATTTGGTACAAAAGATTTAAAAGGGAAAGTTTGGGTTGCAGATTTTATGTTCACAAATTGTCAAACAGTTTGTCCACCAATGACTGCAAATATGGCCAAGCTGCAAAAGATGGCAAAAGAAGAGAAGATAGACGTTCAGTTTGTTTCATTTAGTGTAGATCCAGACCTTGATAAACCAGAAAATCTGAAAGCATTTATTCAAAAGTTTACAGAGGATACTAGTAACTGGAATTTATTAACGGGATATTCGTTAGAAGATATTACAAAGTTTTCAAAAGATAATTTCCAATCACTTGTAGATAAGCCGGAGAACGGTCAGGTCATGCATGGTACATCATTTTATTTAATTGATCAAAACGGAAAAGTAATGAAAAAGTATAGTGGCATTAGTAATACGCCATACGAAGACATTATACGTGATATGAAGCGATTAGTGGATTAA	MKRYQKIIGLMVVFCLFVLAGCSGSGSKLRKPLNWDLETFQFTNQDGKQFGTKDLKGKVWVADFMFTNCQTVCPPMTANMAKLQKMAKEEKIDVQFVSFSVDPDLDKPENLKAFIQKFTEDTSNWNLLTGYSLEDITKFSKDNFQSLVDKPENGQVMHGTSFYLIDQNGKVMKKYSGISNTPYEDIIRDMKRLVD				NA	NA	NA	NA	NA
AK009_00914	462			hypothetical protein	ATGAGTGAAGAAAAAAAAGATTCTTCTCGCCCACCGGTTCGTAATTACTTAAAGCAAATTGATGATTTCTTCGAGCAAACACCTCTTCGCAATGTAATCGCTGATTTAAATCATTTTTTCCAAAAAGGAAACCGTTTATTAACATTCCCTGTAGATTTATATGAAGTTGGTGAAGAACTCGTTGTTACAGCTGAACTACCAGGTATACAAAAAGAGCAAATCCAAATTGAAATACAAAGTGAATACTTAAAAGTCTCTGTAAAAGAAGAGATACTCGAAGAGGAAGAAGAAACATCCCATAACTATTATCGCCGAGAACGTTCCATTTCAGAAGCATCAAGATTGATTAAGTTGCCGTATTCAATTAATAAAAAAGCAGCAAAAGCTTCTTATCAAAACGGCGTATTAGAAATTCGGGCGCCGAAACTTCCCCAACAACATGACATTTTATCCATAGACTAA	MSEEKKDSSRPPVRNYLKQIDDFFEQTPLRNVIADLNHFFQKGNRLLTFPVDLYEVGEELVVTAELPGIQKEQIQIEIQSEYLKVSVKEEILEEEEETSHNYYRRERSISEASRLIKLPYSINKKAAKASYQNGVLEIRAPKLPQQHDILSID				NA	NA	NA	NA	NA
AK009_00915	1902	asnB_1	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGTGGTTTTGTAGGATGTTTATGTGAAAACCCTAGAGAGTTTTCAGAAACAGAAAAACATCAATTTGAAAATATGAACACGATGATTTTCCACCGTGGTCCAGATGACGAAGGATATTTTCGTGATGAACATGTACAATTTGGCTTCCGCCGTTTAAGTATCATTGACTTAGAGGCAGGACATCAGCCGCTAACTTATGAAAATGATCGATATGTAATTATTTTTAATGGTGAAATTTACAACTATGTAGAATTACGTGAAATGTTACTTGAAAAAGGTGCAACGTTTGCAACGCAATCTGATACAGAAGTTATTATTGCATTGTATGCACATATGAAAGAAAAATGTGTAGACTACCTTCGTGGTATGTTTGCATTTATGATTTGGGATCGTGAAGAGAAGAAACTTTTCGGTGCACGTGACCACTTCGGTATTAAACCTCTATACATCGCACAGCAAGGTGATACTACATTCTTCGCATCTGAGAAGAAAAGTATTATGCATGTGATGGAAGATAAAGGCGTTAATCCAACGTCACTACAACATTATTTTACGTACCAATATGGCCCAGAGCCAGAAACATTAACAATTGATGTTAATAAAATCGAGCCTGGTCATTATTTCGTAAAAGAAATCGGTAAAGAGATGGAAATCCATCGCTACTGGAAACCTTATTTCAATGCTTCAAGTGCAACGAAAGAGGAGCATATCCAAGCAATTCGTGATGTACTATATGATTCAGTAAAAGTGCATATGCGTAGTGATGTACCAGTAGGTTCATTCTTATCTGGTGGTATCGATTCATCTATCATCGCTTCTATTGCAAGAGAAATGAATCCAAATCTTTTAACATTCTCTGTTGGTTTTGAGCAACGTGGTTTCAGTGAAGTTGATGTTGCAAAAGAAACTGCTGAGAAATTAGGCGTTAAAAACCATAACGTATTCATTTCAGCGAAAGAATTTATGGATGAGTTCCCAAAAATCATTTGGCATATGGATGATCCTTTAGCTGATCCAGCAGCTGTACCATTGTACTTCGTTGCTAAAGAAGCACGTAAACATGTAACAGTTGTTCTTTCAGGTGAAGGCGCAGACGAGCTATTTGGTGGTTATAACATTTACCGTGAGCCAAACTCACTAAAAATGTTCTCTTACATTCCTAGCCCAGGTAAGAGTGTTCTAAAAGCATTGAGTGGTGCTCTTAAAGAAGGATTTAAAGGTAAGAGCTTCCTAGAGCGTGGATGTACACCAATTGAAGAGCGTTACTATGGAAATGCGAAAATCTTCCGTGAAGAAGAAAAAGCTGAATTAATGAAGTATTACAATGAAAGTGTTAACTATATGGATATCACGAAACCATTGTATAACGAGATTAAAGATTATGATGATGTAAGTAAAATGCAGTACATTGACATGTTCACATGGTTACGCGGTGACATTTTATTAAAAGCTGATAAAATGACAATGGCAAACTCATTAGAACTTCGTGTACCGTTCTTAGATAAAGAAGTATTCGATGTTGCATCTAAAATTCCAACTGAACTTAAGATTGCTAACGGAACTACGAAAGCTATTTTACGTGAAGCAGCACGCGGAATCGTTCCAGATCACGTATTAGATCGTAAAAAACTTGGATTCCCAGTACCAATTCGTCACTGGTTAAAAGACGAAATGCATGATTGGGCTATAAATATTATAAACGAAAGTAAGACAGAGCATTTAATCGACAAACAGTATGTATTAAACTTACTGGAAGCACATTGTGCAGATAAAGGCGATTATAGCCGTAAAATTTGGACTGTACTTGCGTTTATGGTATGGCACCAAATTTATGTTGAGCATAAATACGATACGAACAAGTTCCATGAAGAAACAAAACGTGCGTATAGCTTAGTGTAA	MCGFVGCLCENPREFSETEKHQFENMNTMIFHRGPDDEGYFRDEHVQFGFRRLSIIDLEAGHQPLTYENDRYVIIFNGEIYNYVELREMLLEKGATFATQSDTEVIIALYAHMKEKCVDYLRGMFAFMIWDREEKKLFGARDHFGIKPLYIAQQGDTTFFASEKKSIMHVMEDKGVNPTSLQHYFTYQYGPEPETLTIDVNKIEPGHYFVKEIGKEMEIHRYWKPYFNASSATKEEHIQAIRDVLYDSVKVHMRSDVPVGSFLSGGIDSSIIASIAREMNPNLLTFSVGFEQRGFSEVDVAKETAEKLGVKNHNVFISAKEFMDEFPKIIWHMDDPLADPAAVPLYFVAKEARKHVTVVLSGEGADELFGGYNIYREPNSLKMFSYIPSPGKSVLKALSGALKEGFKGKSFLERGCTPIEERYYGNAKIFREEEKAELMKYYNESVNYMDITKPLYNEIKDYDDVSKMQYIDMFTWLRGDILLKADKMTMANSLELRVPFLDKEVFDVASKIPTELKIANGTTKAILREAARGIVPDHVLDRKKLGFPVPIRHWLKDEMHDWAINIINESKTEHLIDKQYVLNLLEAHCADKGDYSRKIWTVLAFMVWHQIYVEHKYDTNKFHEETKRAYSLV	PGPT0020150_1701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
AK009_00916	360			hypothetical protein	ATGATTACGTTTGAGAAAGTTACTATAGAAAATGAAAGCGTTGTTAAAGAAATGTTTAAATCGCATAGTTTAGGTGAGAAAAAGGTACAGTATTGTGTGAAAGTTGATGATACATATATTGGTGTAATAGATTATAGTGTTCAAGAGGAACGAGCTGTTTTATCACAGCTAATTATTCATTTTGATTACCAAGGTTATGGTTATGGTACAAATACGTATTTTACATTTGAAGAAATGATGAAACAAAGAAATGTGAAAGAAATAAAAGTGCTACAAGAGGAATTAACAGAAAAAGCGCATTCTTTCATAGAGAGTTTTGGCTTTACTTCAGAAGATGGAGCGTATGTGAAGAAAATATAA	MITFEKVTIENESVVKEMFKSHSLGEKKVQYCVKVDDTYIGVIDYSVQEERAVLSQLIIHFDYQGYGYGTNTYFTFEEMMKQRNVKEIKVLQEELTEKAHSFIESFGFTSEDGAYVKKI				NA	NA	NA	NA	NA
AK009_00917	330			hypothetical protein	ATGACTTCTGGTCTTGTATTAATTGGAGGGTGCTTTATAGTAGCAGAACTATGTCATATAATCATTCGGAAAAGAATGATTAAGAAAAGAAAGCCGTATGAATTACAATACGTCCCTGTCTTTTTCATTATATTTTGTATGCTTAGTACATTACAAAATATAATGAACTTTCCACCACTTGTGAATGTTTTTTTAAAGTTCGGTTTACTTTATAGTGGTGTTGGAATAGTACTTTTATTTATTTTATTTTGCATACGTTATATTCACTATCAATCGTATATATTTATTTTAAATTGGTTAAAGCAAGATGATAGAAACCGCCTTACATAA	MTSGLVLIGGCFIVAELCHIIIRKRMIKKRKPYELQYVPVFFIIFCMLSTLQNIMNFPPLVNVFLKFGLLYSGVGIVLLFILFCIRYIHYQSYIFILNWLKQDDRNRLT				NA	NA	NA	NA	NA
AK009_00918	987			hypothetical protein	ATGAAACTTGTTATAGACGCAGGGCACGGTGGATATGATTCTGGTGCTGTTGGTAATGGCTTAGTAGAAAAAAACTTAACGCTTCAAATTGCTAGACGCGTTCGAGATATTTTAACGGTAAATTACCCAATTACAATTAAAATGACACGTGATAGTGACGTGTTTATTTCCTTATCGGAACGTGCTAATATTGCTAATGCTTTTGGTGCGGATTATTTTATTTCATTTCATATTAATAGCGGCGGGGGTACAGGTTTTGAAAGCTATATTTATAATGCGTTATCCAACAGCAGCACTGCATATGCAAAGCAACAAAAGATGCATACAGCAGTAAATCCTGTATTAACAAAATACGGTCTTCGTGATCGAGGAGCAAAAAAAGAAAATTATGCGGTATTAAGAGAAACCGCAATGGATGCAATTTTAACTGAGACTGCCTTTATTGATACAACGTTTGATGCAAATTTATTAAAAAATCCACAATTTATTGAAGATCTAAGTCAAGCGTATGCAAATGGAATAGCGGCTATTTTTGGAGTAGCTCCAAATCCACAACCTCCAAACCCACAACCGACACCTCAAACGAAGGGAATCGCTTATATCCTTGGGAAAAATGTAAATTTAAGAAATGGTCCATCAACTTCTTCCTCAGTTATTCGTCAATTAAATTCTCCAGAATCTTACGTTGTATATCAGGAAAGTAACGGATGGTTAGATTTGGGGAATGGACAATGGGTGTATAATGATCCTTCTTACATTAATTTTGTAAAGACAAGCAATAGTGATGGAAGTCCGATTGGGGTTGCATATATACAAGGGATGAATGTAAATTTAAGAAGTGGTCCATCAACTACATCTGCAGTTATCCGTCAATTAAATCCTCCAGAATCTTATTTAGTATATATAAATGAAAATGGCTGGTTAAACCTTGGTGGAAATCAGTGGGTATATAATGATCCATCGTATATTAAGTATACTCAATATTAG	MKLVIDAGHGGYDSGAVGNGLVEKNLTLQIARRVRDILTVNYPITIKMTRDSDVFISLSERANIANAFGADYFISFHINSGGGTGFESYIYNALSNSSTAYAKQQKMHTAVNPVLTKYGLRDRGAKKENYAVLRETAMDAILTETAFIDTTFDANLLKNPQFIEDLSQAYANGIAAIFGVAPNPQPPNPQPTPQTKGIAYILGKNVNLRNGPSTSSSVIRQLNSPESYVVYQESNGWLDLGNGQWVYNDPSYINFVKTSNSDGSPIGVAYIQGMNVNLRSGPSTTSAVIRQLNPPESYLVYINENGWLNLGGNQWVYNDPSYIKYTQY	PGPT0024160_4887	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_00919	966	yfiY_1	COG0614	putative siderophore-binding lipoprotein YfiY	ATGATACATACTAAAAAACTAATTATGTTCTGCATTATGATACTCATGGTTGTAATTGCAGGATGTAGTAAAGAAGAGAAAAAAGAAAATGATATATCAGCTAAAGCAAAAGATTCATATACGGTCAAGCATGCAATGGGCGAAACGACAGTAAATGGTACACCTAAAAAAGTTGTTGTTGTTTTAACAAATGAAGGTGCAGAGGCTCTCCTAGCTGTGGGCGCAACGCCAGTGGGGACTACGAAACCACGTGCTGGTGATGAATGGTACCCTCATGTAGCGAAAGAATTAAAAAATACGGAAGTTGTAGGAACTGAACGTGATATTAATTTAGAAGCAGTAATGAAGCTTAAGCCAGATTTAATTATCGGAAATAAAATGCGTCACGAAAAAATATATGATCAGCTAAAAGAAATCGCACCAACTGTTTATGCAGAAACATTACGCGGTGATTGGAAAGAAAACTTTACGCTTTATACAAAAGCTGTAAATAAAGAAAAAGAAGGGCAAAAAGCTCTTGATGATTATAAAAAACGTATTGAAGGAATGAAAGAGAAGTTAGGCGATAAATTGAATTCTAAAGTTTCTATTATTCGTTTCGTGCCAGGTGATGTTCGTATTTATCAAAAAAACTCATTCTCGGGAGTTGTTTTAAATGATATTGGATTTAAACGACCACCATTACAAGATAAAGATGATTTTGCGATAAAAGGAATTACAAAAGAGCAAATTCCAAATATGGACGGGGACTACTTATTTTATTTCACGTCTGATAAAGATGCAGATAAGAATAATGAAGGAAATTCGTTAGCAAAGGAATGGACAGAAGATCCACTCTTTAAGCAACTACAGGCTTCTAAAAATAATAAAGTATTCCAAGTGGATGAAGTAATCTGGAATACAGCAGGCGGTATTAAAGCTGCGAATCTTATGTTAGATGATATTGAAAAATATTTCCTTAAATAA	MIHTKKLIMFCIMILMVVIAGCSKEEKKENDISAKAKDSYTVKHAMGETTVNGTPKKVVVVLTNEGAEALLAVGATPVGTTKPRAGDEWYPHVAKELKNTEVVGTERDINLEAVMKLKPDLIIGNKMRHEKIYDQLKEIAPTVYAETLRGDWKENFTLYTKAVNKEKEGQKALDDYKKRIEGMKEKLGDKLNSKVSIIRFVPGDVRIYQKNSFSGVVLNDIGFKRPPLQDKDDFAIKGITKEQIPNMDGDYLFYFTSDKDADKNNEGNSLAKEWTEDPLFKQLQASKNNKVFQVDEVIWNTAGGIKAANLMLDDIEKYFLK	PGPT0003765_6143	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
AK009_00920	876	dat_1		D-alanine aminotransferase	ATGAAAGCTACTCATAAAGAGTGGATCTTGTTTAATGGGAGAATGATTAATACGAAGGAAGAACAGCCGATGGTCGCATTAGAAGAGCGCGGCTTCCAATTTGGTGATGGTATTTATGAAGTATTTAGACTATACGATGGCAAGCCTCATTTATTAGATTTACATTTGGAACGATTCTTTAACTCTATGGCAGAAATAAAACTAATTCCACCATTTACGAAGGAAGAATTAGTGGAAGAGTTACATCAAATGATTGAAAAAAATCAATTTCAAGAAGATGGGAATGTATATTTACAAATATCAAGAGGTGCACAACCACGCAATCATGTATATGAATCAGATTTACAACCGACATATTTTGCAAATCTTGTTTCGTTCCCAAGACCAGTTGCTTCAATGAAGGCAGGGATTAAGGTAACGGTAGAAGAGGACATCAGGTGGAAGTTTTGCCATATAAAATCATTAAATCTTTTACCAAATATCATGATTAAAAATAAAATAAATGAACAAGGGTATCAAGAAGCAATATTAGTACGAGATGGCATTGTGACTGAAGGGTGTCATTCGAATTTCTTTATGGTGAAAAATAATAAATTGATTACACATCCGGCTGACAATTTCATTCTACAGGGCATTACGCGGCACTATGTTATTACATTAGCGAAAGAGTTACATATCGAAGTAGAGGAACGAGAGTTTTCATTACAAGAAGTATATGAGGCTGATGAGTGCTTCTTTACAGCGACGCCGCTTGAAATATTCCCAGTCGTTCAAATTGGTGATGAACAGTTTGGAAACGGCGAAAGAGGACCAATTACAAAGAAACTCCAAGTGGCATATGAAGAAAGTATTAGATTGTTTAAAGTTATGAACTAA	MKATHKEWILFNGRMINTKEEQPMVALEERGFQFGDGIYEVFRLYDGKPHLLDLHLERFFNSMAEIKLIPPFTKEELVEELHQMIEKNQFQEDGNVYLQISRGAQPRNHVYESDLQPTYFANLVSFPRPVASMKAGIKVTVEEDIRWKFCHIKSLNLLPNIMIKNKINEQGYQEAILVRDGIVTEGCHSNFFMVKNNKLITHPADNFILQGITRHYVITLAKELHIEVEEREFSLQEVYEADECFFTATPLEIFPVVQIGDEQFGNGERGPITKKLQVAYEESIRLFKVMN	PGPT0001915_235	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824	NA	NA
AK009_00921	648	nbzA		Nitrobenzene nitroreductase	ATGAATTATGAAGGTTTTAAAGAAGTAATTCACGGAAGACGAAGTGTTAGAAAGTTCACAGAACAAGAAGTATCTACTAATGATATAAAAGAAATAATTGATTGTGCTCGTTATGCACCGAGCGATACGAACTCACAAACGTGGGAATTCTTGGTCATTATGAACCGAGAGAAGATTAAAGAAATTGAACAAATGACATGGGATGCTTTACATAAACTTGCGGCAAAAGCAACAGATAATGGAGAAGAGAAAGCAGGGAAATTACTTACGCGTTCTTTCGGACCATATGCGACAGCTTTCTCTGAGGCACCAGTATTAATCGTATGCTTGGCAACACCATATGAATCAAAGTTTCGTGAAAAGATATTTGATCCCATTGCTTTTGTTCCAGATTCAGTTTGGGAAGAAGAAGGGATTAAGAGTAGCTGTTTAGCGGCACAAAACTTAATGTTAGCTGCACATGCAAAGGGACTTGGTACTTGTCCAATGACAGGGCCAGTATTGCTAGCTCAAGATGAACTGCGCCAATATTTACAAATTGAGCCTGAAAAACAAATAAATATGGTTATTTCACTCGGATTTCCGAAAGATAAGCCAAAAAAACTTCCAAGAAAAGAAGTAGAAGAAATCACAACATTTGTTTTTTAA	MNYEGFKEVIHGRRSVRKFTEQEVSTNDIKEIIDCARYAPSDTNSQTWEFLVIMNREKIKEIEQMTWDALHKLAAKATDNGEEKAGKLLTRSFGPYATAFSEAPVLIVCLATPYESKFREKIFDPIAFVPDSVWEEEGIKSSCLAAQNLMLAAHAKGLGTCPMTGPVLLAQDELRQYLQIEPEKQINMVISLGFPKDKPKKLPRKEVEEITTFVF				NA	NA	NA	NA	NA
AK009_00922	489			hypothetical protein	TTGAAAAAATTCATAATCACTGGATTGTCTGTATTGTTATTAGTAGGTTGCGGTGCTCCACAGGAAAAAGAGGACGCGCAATCAAAACAGGAAGAACAAGTTGTAAACGCAAGTGATGAGAATATGGTTGTATTTCCTGAAGGCGCAATGTCAATTGGAGAAGGGAAAGTAAAAGTTATTACTCCAGATGGTACTTCTGAAAATGGAAATATACCGACTGTATTCATCAAAAAGGATACTTTAATTCAGCAAGTTGAATTAGAACTTTCTAATTTTCAAAGTGATAAAGAAACATTCATATTTGTAGATCAAATGTATACAGATAAACATCAAGTAACTAGTACAACACAGACAACAGTACAATTAAAAGAAAAGACGCTGGAAACAGGTAGTCATACAATTACTGCAGTTCAGTATGAAAACAATGACCCGAAAGGAAAGGTTATTAGTTTTAATCAAGCAACATTTGAGACAAAGCCTGCGTCTTAA	MKKFIITGLSVLLLVGCGAPQEKEDAQSKQEEQVVNASDENMVVFPEGAMSIGEGKVKVITPDGTSENGNIPTVFIKKDTLIQQVELELSNFQSDKETFIFVDQMYTDKHQVTSTTQTTVQLKEKTLETGSHTITAVQYENNDPKGKVISFNQATFETKPAS				NA	NA	NA	NA	NA
AK009_00923	270			hypothetical protein	TTGTTTGGATGGAATGGTGTAATAGGGAATAATTTATTTCGTTTTCTAGTACGATTAAGCAGTAAGGAATCACTTGTTACTACTATGATGGAGAAAAAGGTTGAAGGTATGAATCGATATGTTCGTATCTTCTTGATTAGTATAATCATGTCAGTAATTTGGGTTACTATACAAGACGTTAATCAACTTACGTTTAATTATCAAACTTATGACTTGTTAATGGGAAGTATATGTTTTGTCATTGTGTGCCTGTTTTATGATAAACTTTGA	MFGWNGVIGNNLFRFLVRLSSKESLVTTMMEKKVEGMNRYVRIFLISIIMSVIWVTIQDVNQLTFNYQTYDLLMGSICFVIVCLFYDKL				NA	NA	NA	NA	NA
AK009_00924	549	rutB_2		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGAAACGAGCTCTTATTAATATTGATTATACATATGATTTTGTAGCGGAAAAAGGCGCTTTAACTTGCGGAAAACCAGGTCAAGAAATCGAACAGGAAATTGTACATATAACGAAGCAATATATTGAAAATGGAGATTACGTAGTGTTTGCAATTGATAAACATGAAGAAAATGATGAATATCATCCCGAAGCGAAATTATTCCCTCCTCATAATATAGCAGGTACAAATGGTAGAGACTTATTCGGTGAGTTACAAGAAGTATACGAAACATATAAAAATGCTGAGAATGTATATTATATGGATAAAACGCGATACAGTGCGTTTGCTGGAACAGATTTAGAGATGAAGTTAAGAGAAAGAGGAATAGAAGAAGTTCATCTTGTAGGTGTTTGTACTGATATTTGCGTTCTTCATACAGCAGTAGATGCGTATAATAAAGGATTTAAAATTGTTGTTTATGAAAAGGCAGTTGCATCTTTTAATGCGCAAGGGCATGAATTTGCACTTGGACATTTTAAATCTTGTTTACATGCAGAAGTGAAATGA	MKRALINIDYTYDFVAEKGALTCGKPGQEIEQEIVHITKQYIENGDYVVFAIDKHEENDEYHPEAKLFPPHNIAGTNGRDLFGELQEVYETYKNAENVYYMDKTRYSAFAGTDLEMKLRERGIEEVHLVGVCTDICVLHTAVDAYNKGFKIVVYEKAVASFNAQGHEFALGHFKSCLHAEVK	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
AK009_00925	450	nudC_1		NADH pyrophosphatase	ATGGGATATATTGAAGAACTAAGAGAAGTTGTTGGATCAAGGCCACTCAATTTAGCAGGCGTTGCGGTAGCTGTTTTCAATGAACAAGGACAAATATTACTACAACAAAGGCGAAATGGCATGTGGGGTGTCCCAGGAGGTTTTGTGGAACTTGGTGAATCTACAGAAGAAGCTGGAAGACGAGAAGTACTTGAAGAAACAGGAATTGAAATTGGTACACTTCAGCTGGTAAGTGTATTTTCAGGTAAAGAATTTTTTGTGAAATTACCGAACGGAGATGAATTTTACCCTATGACAATCGCTTACCTTTGCAAAGATATTACAGGTGGCTCGCTACAAGCTGATCGAGTCGAATCATTACATGTACAGTTTTTTAATTTAAATGAGCTACCACAAAATATTAGTCCATTCATAAAAAAATTAATTGAGCAAAATGTCGTCTCGGTTTAA	MGYIEELREVVGSRPLNLAGVAVAVFNEQGQILLQQRRNGMWGVPGGFVELGESTEEAGRREVLEETGIEIGTLQLVSVFSGKEFFVKLPNGDEFYPMTIAYLCKDITGGSLQADRVESLHVQFFNLNELPQNISPFIKKLIEQNVVSV				NA	NA	NA	NA	NA
AK009_00926	894	yfkC	COG0668	putative MscS family protein YfkC	ATGAGTTTATTAACGTATACTGAAGAATTTTTTAATTATGTAAGGGAGTTTTTACTTTTAAGATTTTTGCTATTTGCTTTAGTTTTAATCATTATTTCGTTTGTAATAAACCGTATTATTGATTGGTTTTTTAGGAAATCAAGCTTTTTTGATGAAGAGGTAGAGCAGACAATTCAAAGTGTAATTCGATCTATTTTTAGATATATCATTATCATCAGTCTTATCATATATTTAATTAGCCAATTTGTAGATATAAAAAGTATTATTGCAGGTGCAGGGATAGCTGGAGTTGTCATCGGTTTTGCTGCACAACAGATGCTAAAAGATGTTATATTAGGCTTTGCAAGATTAGCGGACAAAGAGTTTCGAGTTGGTGATTTTGTAACTTTTAACGGAACAAATTCAGGAACTATTGAAGAGATTAGTATTCGTTTTATGCAAATACGTGAATGGTCAGGAAAATTACTTACCATCCCACACGGAGAGATTAGAACGATACAAAATTTTAATAAAGGATGGATGCGTGTAATTGAACGTATCACGGTAAGTTATCAGGAAGATCCAACAAGAGTGAAGGAATTGTTAGAAGAAGTATGTGTTATATGCAATGAAAAATTGGATCAAACTCTTTATAGAGTAGAGGATGAGGCTGTTGAACCATTTAAATACGTCGGTGTTACAGACTTAAATCCTAACCTGAAATATGTTGGCTATGAATTTTGTATTACAGGTTTAATAAAGCCAGAAGATTATTTTGAAACTTCTAGACAAGTAAGATTTGAATTAATGTCTATATTCCATAAGAATCAAGTGCAAATGCCGGCAGCGAATATGGTTGTTACTACTGAAAGTTTACAGCATATTCATGGTGGAAAATCTTTATCGGACAGCTAA	MSLLTYTEEFFNYVREFLLLRFLLFALVLIIISFVINRIIDWFFRKSSFFDEEVEQTIQSVIRSIFRYIIIISLIIYLISQFVDIKSIIAGAGIAGVVIGFAAQQMLKDVILGFARLADKEFRVGDFVTFNGTNSGTIEEISIRFMQIREWSGKLLTIPHGEIRTIQNFNKGWMRVIERITVSYQEDPTRVKELLEEVCVICNEKLDQTLYRVEDEAVEPFKYVGVTDLNPNLKYVGYEFCITGLIKPEDYFETSRQVRFELMSIFHKNQVQMPAANMVVTTESLQHIHGGKSLSDS				NA	NA	NA	NA	NA
AK009_00927	1125			hypothetical protein	ATGAGAATGAACTTTGAAGAAAAAGAGATGCATCGTTTAGAAGCATTAAAAGAAATTGCTGAATTATTAAATGAAGCAACAAACTTACAGGATATGTTAGAAAAAGTGTTGCATACATTGTTACAAGTAATGAATTTACAAACAGGGTGGATATTCTTTATTGATGAAAGTGGAAAGCATAGCATGCTTGTAGACGAAAATTTACCAGAGGCTCTTACGTGGCAAGAGAAGAAGCCGATGTGTGAAGGAAACTGTTGGTGTGTAGAACGTTTTGTGAATGGGAGATTAGAAAAAGCGACTAATATTATTGAATGTAAGCGAATAGAAGATGCAATTGAATGTAATTGGGGAGAGACAGAAGATGTTACACATCATGCGACAATTCCGCTTAGGTCTGGATCAGAGAAATTTGGCCTATTAAATGTAGCCGCGCCTCATAAGACACATTTTTCTGAGGAAGAGTTAGCGTTATTAGAATCAATTGCATTTCAAATTGGAACGACAATACAACGTATTCAATTAGTTGAGAAAGAACGTAAATATGTAGTGGTAGCGGAAAGAAATCGACTTGCACGTGATTTACATGATTCAGTAAAACAATTGTTATTTTCTATTATGCTAACAGCAAAAGGTACTTTGAATATGACGCAAGATAGAGAATTGCAAGAGATGTTAAGTTATATTGGAGAATTATCACAAGAAGCATTACAAGAGATGACGTTATTAATTTGGCAATTAAGACCTGAAGGATTAGAGAAAGGATTAGCAGAAGCAATTCAAAATTACGGGAAGTTGTTAGGAGTTCAAGTGGAAGTTCGAATTGATGGGATGGTTTCAATTGGGGATGAAATAGAAGAAGTTTTATGGCGTATTAGCCAAGAGGCGCTACATAATTGTAAAAAGCATGCTTCGTGTGAAAAGGTACATGTTCTTTTAAAAATAGAAAATAACCAGTTATTTTTTTACATAGAAGATAATGGAATAGGATTTATACAAGATCAAGTAAGGGAGTCAGCACTTGGCCTGAAAAGTATGAAGGAACGTATTCAATTAATGAAGGGATCGTTTCAAATTATAACAGAGCTGAGAAAGGGTACAAAAATAGAAATTCAATTGCCGATTTGA	MRMNFEEKEMHRLEALKEIAELLNEATNLQDMLEKVLHTLLQVMNLQTGWIFFIDESGKHSMLVDENLPEALTWQEKKPMCEGNCWCVERFVNGRLEKATNIIECKRIEDAIECNWGETEDVTHHATIPLRSGSEKFGLLNVAAPHKTHFSEEELALLESIAFQIGTTIQRIQLVEKERKYVVVAERNRLARDLHDSVKQLLFSIMLTAKGTLNMTQDRELQEMLSYIGELSQEALQEMTLLIWQLRPEGLEKGLAEAIQNYGKLLGVQVEVRIDGMVSIGDEIEEVLWRISQEALHNCKKHASCEKVHVLLKIENNQLFFYIEDNGIGFIQDQVRESALGLKSMKERIQLMKGSFQIITELRKGTKIEIQLPI				NA	NA	NA	NA	NA
AK009_00928	642	vraR_1		Response regulator protein VraR	TTGAAGATTAAATTGCTATTAGTTGAGGATCATCATATCGTTCGAAGAGGACTTGTATTCTTTTTGAAAACGAGAGGAGAATTTGAAATTATTGGGGAAGCGGAAAATGGCGAAGAGGCATTACATTTCGTGCAAAAAGAAAAACCAGATGTCGTACTAATGGATGTATCAATGCCGAAAATGGATGGAATTGAGGCGACAAAACGTCTAAAGCAATACGATGAGACGATAAAGGTACTTATATTAAGTAGTTTTTCAGAGCAAGATTATGTTATACCAGCACTTGAAGCTGGAGCAGATGGTTATCAATTAAAAGAAGTACAACCTGAGCAACTTGTCGCTTCTATTATTGCAGTACATCAAGGAAATGCGAATTTTCACCCGAAAGTAACACCTGCATTAATGGGGCGTTCCGCAGTAAAGAAGGAAATAGAAAATCCTTTTTCAATGTTAACGAAAAGAGAGCAAGAGGTACTTCGTGAAATTGCGAAAGGAAGAAGCAACAAGGAGATTGCAGCAGAACTTCATATTACAGAACAAACTGTGAAAACACACGTTTCAAACGTTTTAGCTAAATTGGAAGTGGATGATCGTACGCAAGCCGCATTATACGCAGTGAAACATGGGGAGAATTATTCATAA	MKIKLLLVEDHHIVRRGLVFFLKTRGEFEIIGEAENGEEALHFVQKEKPDVVLMDVSMPKMDGIEATKRLKQYDETIKVLILSSFSEQDYVIPALEAGADGYQLKEVQPEQLVASIIAVHQGNANFHPKVTPALMGRSAVKKEIENPFSMLTKREQEVLREIAKGRSNKEIAAELHITEQTVKTHVSNVLAKLEVDDRTQAALYAVKHGENYS	PGPT0014870_302	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
AK009_00929	108			hypothetical protein	ATGATTAGTTTAACTAATCGATTTTTACAGGATAAAGCTACGATGGAAGGGGAAGATATGCTATGCCTGGTACAAGAAGTGGGATTGGAAAGATTCAGGCTTCGTTAA	MISLTNRFLQDKATMEGEDMLCLVQEVGLERFRLR				NA	NA	NA	NA	NA
AK009_00930	855	ybbH	COG1737	putative HTH-type transcriptional regulator YbbH	ATGCCTGGTACAAGAAGTGGGATTGGAAAGATTCAGGCTTCGTTAAATGGTTTATCACCGAAATTGCGAAGTATTGCCGAACATATTTTGAAACATCCACAAGATGTTGTACATAAATCTATTACAGAATTAGCTGAAGTTACGAATAGTTCCGAAGCTACGATATTCCGCTTATGTAAACACCTTGGTTTGCAAGGTTTTCAAGATTTAAAGATTACATTAGCCCGTGAAATTGTACATACACCAATGCAAAATATTCATGAAGAGGTATCAGCAGAAGATAGTATGGTAACTGTTGCTAAAAAAGTTTTTCATTCGCATATTACAGGACTGCAAGATACTTTACATTTGCTAAATGAAACAGCACTTGAGCAGGCTGTACGAGCCTTGCAAGAAGCAAGTCGAATTGAGTTTTATGGAAATGGTGGCTCTGGTATTATTGCGATGGATGCGTATCATAAGTTTATGAGAACGGGTATTTCTTGTATCGCTCATACTGATTCGCATTTTCAAATTATGGGAGCAGGTTTACTCTCGAAAAATTCAGTTGTTATTGGCATTTCTCACTCTGGTAGCAATAAAGGATTACTTGAAGCATTAGAAGTAGCGAAAGCAAGAGGGGCCAAAATTATTGCGATTACGAGCTATAAGAAATCAGCATTAAGTCAACTTGCTGATATAACGTTATATACATCAACACGTGAGACTGAGTTCCGCACAGAAGCAAGTTCATCACGATTAGCACAGTTAAGCTTATTAGATACTTTGTATGTAGGGTTGTCGTTGCAGCGACAAGAGGAAACGCTTAAAAATTTACAAAGTATACGTGAAACGATTTCGATGAAGCGAATATAA	MPGTRSGIGKIQASLNGLSPKLRSIAEHILKHPQDVVHKSITELAEVTNSSEATIFRLCKHLGLQGFQDLKITLAREIVHTPMQNIHEEVSAEDSMVTVAKKVFHSHITGLQDTLHLLNETALEQAVRALQEASRIEFYGNGGSGIIAMDAYHKFMRTGISCIAHTDSHFQIMGAGLLSKNSVVIGISHSGSNKGLLEALEVAKARGAKIIAITSYKKSALSQLADITLYTSTRETEFRTEASSSRLAQLSLLDTLYVGLSLQRQEETLKNLQSIRETISMKRI	PGPT0017985_833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
AK009_00931	864	yddE_1	COG0384	putative isomerase YddE	ATGAAAATATCCGTTTATGTTGCAAGTGCATTTAGCAAGGATCATAAAGGCGGAAATAAAGCAGGAGTGGTATTTATTGAGAATACAAATACATTGACCACTACTCAAAAAATGACAATAGCGAAACAACTGGGTTATGCGGAAACCGCATTTATATCAGAATCTGAAATTGCTGATTATAAATTTGAGTATTTTACTCCAAAAGAAGAAGTTGATTTATGTGGTCATGCCACAATTGGCTCTTTCGCGATACTGATGCATTTAAATAAAATTTTCAAGAATCGCTATACGATTGAAACGAACAGCGGTGTTCTTACTATTACCATAACAGATGACATCATATTCATGGAACAAAATAAACCGATATTCTATGATGTTGTATCTCCAAATGAGTTCACCGACTGTTTTGACATTAAAGATATAGACAATAAATACCCAATCCAAATTGTCTCCACGGGCTTAAAAGATATTTTAATTCCTATAAAAAGCGAAACACAATTACATGCACTGCAACCTAATTTTGAAAAAATTAAAGAAATCAGCAAGTATTATAATGTTGTTGGGATGCATCTATATACTTTTAATGACAATCGAATTATATGCAGAAATTTTGCTCCACTATACGACATTAATGAAGAAGCAGCGACTGGAACTTCAAACGGTGCATTAGCTTGCTACCTTTATGAACAGCACTATTTGCAAAAAGAAGTCTATGTATTTGAACAAGGTTATTCTTTACACTCGCCTTCCGAAATATTAGTTAAATTAGCAACCAATAGCAAAAATAAAATAGAAAAAGTTTATGTTGGCGGTAAAGGCTATTACTGTGAAACTAAGTGTTTAAATGTAGAAAATATTGAGTAA	MKISVYVASAFSKDHKGGNKAGVVFIENTNTLTTTQKMTIAKQLGYAETAFISESEIADYKFEYFTPKEEVDLCGHATIGSFAILMHLNKIFKNRYTIETNSGVLTITITDDIIFMEQNKPIFYDVVSPNEFTDCFDIKDIDNKYPIQIVSTGLKDILIPIKSETQLHALQPNFEKIKEISKYYNVVGMHLYTFNDNRIICRNFAPLYDINEEAATGTSNGALACYLYEQHYLQKEVYVFEQGYSLHSPSEILVKLATNSKNKIEKVYVGGKGYYCETKCLNVENIE				NA	NA	NA	NA	NA
AK009_00932	1038	adh		Alcohol dehydrogenase	ATGAAAGCAGTAGTGGTTAATAAAAACAGCAAAGCAAACATCGAAGTGGTTGAAAAAGAATTACGTCCGTTACGCTCAGGTGAAGCGTTAGTAGATGTAGAGTATTGTGGAGTTTGCCACACTGATTTACACGTTGCGAATCATGATTTTGGTAACACTGATGGCCGTATTCTTGGTCATGAGGGTGTAGGTATTGTTACGAAAATAGCTGATGATGTTAATTCGCTAAAGATAGGTGACCGTGTAAGTATTGCATGGATGTTCCAATCTTGTGGACGTTGTGAATATTGCGTAACTGGTAGAGAAACATTTTGCCGTGAAGTTAAAAACGCAGGTTATTCAGTAGATGGTGGTATGGCTGAACAATGTATCGTTACAGCTGATTATGCGGTAAAAGTACCAGAAGGATTAGATCCTGCTCAAGCATCATCAATTACATGTGCTGGTGTAACTACATATAAAGCTATTAAAGTATCAGATATTAAACCTGGTCAACCTATTGTAATCTATGGCTGCGGTGGATTAGGTAACTTAGCTATCCAATATGCTAAAAATGTATTTGGTGCAAAGGTAATCGCAGTAGACATTAATGACGACAAATTAGCCTTAGCGAAAGAAGTTGGTGCTGATATGACTATCAATCCAATTTCTCAAGGTCCTGCTGATAAAATTGTTCAAGAGGAGCTTGGTGGCGCTTATGCTGCGGTAGTAACAGCAGTCTCTAAAGTAGCCTTTAACTCAGCAGTTGATGCAGTACGTGCTTGCGGTAAAGTAGTTGCAGTAGGGCTACCAGTAGAAACAATGGACTTAAACATCCCGCGACTTGTACTGGATGGAATTGAAGTAGTTGGTTCTCTAGTTGGTACTCGTAAAGATTTGGAAGAGGCGTTTATGTTTGGGGCAGAAGGAAAAGTAGTGCCGGTTGTTCAAACTTGTTCGCTAGATAAAGTACAAAATGTATTCGAAGAAATGGAACAAGGTAGAATTCAAGGGCGTATGGTAATTGATTTTAAAAAACATAATTGTGATTGCAAATAA	MKAVVVNKNSKANIEVVEKELRPLRSGEALVDVEYCGVCHTDLHVANHDFGNTDGRILGHEGVGIVTKIADDVNSLKIGDRVSIAWMFQSCGRCEYCVTGRETFCREVKNAGYSVDGGMAEQCIVTADYAVKVPEGLDPAQASSITCAGVTTYKAIKVSDIKPGQPIVIYGCGGLGNLAIQYAKNVFGAKVIAVDINDDKLALAKEVGADMTINPISQGPADKIVQEELGGAYAAVVTAVSKVAFNSAVDAVRACGKVVAVGLPVETMDLNIPRLVLDGIEVVGSLVGTRKDLEEAFMFGAEGKVVPVVQTCSLDKVQNVFEEMEQGRIQGRMVIDFKKHNCDCK	PGPT0006365_1125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
AK009_00933	1020			hypothetical protein	ATGAAATCTATTTGGAAATCAAAACGCTTTTTAATCGGCTTTACTTATTTATTCATACTTATTTCAGCTAGTTTTATTTATAGTTGGTTCTTTAAAGATAACATCCCAAAACCTCCTCAGTTACTTTACAATGAAAATAACGAATTACTTGGAAAGGCTCCCTTTCCACCATCGTTAATTCCACCTTTTGGATCTGATCGTTTTGGAGAGTCTGTTTTCTTACAAATTGTAGAAGGAGCAAAATTTACTATTTTATTAGCCGTGGCAATTAGCTTCTTTCGAATTTTATGCGGAACATGTATAGGAATCCTCTTAAGTTTATTTGCTCCAAAACTCAAGAGATTTTTCCAGTCATGCTCAGAAGTTTTTTATTATATTCCAACTCTATTTATCGCATTCATACTTATCACGCCCGTTAATATTGTAATCACGTCAAATGCTGATGGGGTAGATCCAAATATTTCATTTACGTTTTATCAAGTACTCGTACTTATTTTCGTCGCTCTGCCTACACTTTCTTTATACATATCCTCAGAGGTTGATGAATTTATGAAACAAGATTACATCTTAAGTTCACAATTACTGGGGGCTAGTCGTTTTCATATTATTAAAAAACACTTACGAGTCTTATTACTTGACCGCTTATTTGTATTATTTATGGAACATATCGTCCAAACACTCATACTCGTTATCCATTTAGCGTTGCTTAACATTGTAATTGGCGGCATACAAATGCGTGAACTCTATGACGGAGTGCTCAAACCTGTTTCTCTATCTAATGATTGGGCAGGCCTTATTGGATTAAATCGTAATGAAATGAATCTTTCATGGTGGATTATTTTTTATACTCTCGCTTCATTCTTTATTACGATTCTATTTATTAAGCTTATGACCATCGGGATTCAAGATGCACTGAAAGCAAGAGATTCGCAAATTGTAGCAATTCAAAACGTTCCAGATCATAAAAAATTTGTTAAACATAAAGATTCTTTTTCGTTTGCAAATAAAGTAAACCTTTAA	MKSIWKSKRFLIGFTYLFILISASFIYSWFFKDNIPKPPQLLYNENNELLGKAPFPPSLIPPFGSDRFGESVFLQIVEGAKFTILLAVAISFFRILCGTCIGILLSLFAPKLKRFFQSCSEVFYYIPTLFIAFILITPVNIVITSNADGVDPNISFTFYQVLVLIFVALPTLSLYISSEVDEFMKQDYILSSQLLGASRFHIIKKHLRVLLLDRLFVLFMEHIVQTLILVIHLALLNIVIGGIQMRELYDGVLKPVSLSNDWAGLIGLNRNEMNLSWWIIFYTLASFFITILFIKLMTIGIQDALKARDSQIVAIQNVPDHKKFVKHKDSFSFANKVNL	PGPT0004450_2891	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
AK009_00934	903			hypothetical protein	ATGTTAAATACAATATCTCAATTCACAATTAAGCTTTCATCAATTCTTTTATCACTCTTACTATTATTAAATTTACCTTATTTATTTATCACTCAACAAGGATTTACCTTTCAACCAATTTATTTTTTTAATCAGATCGTTACCATGTTAAAACAGGTCTTCTCCCTTGAATCATTAGTGATTATAGGATCAGACCCGAAGTTTGGCCATTTCAAAAAAACACCATTATTTCCAACTGTTTTAGAACCTTACCTATATTCATTTACTATATTATTTTCAGCCTTTTTTCTTGCTCTCTTTTTATCATCTAGCATGGCATTTTTTTATTTTTTAGCAAAAGATTATATAAAAAAATGGATAAACCGAATTGTGTTCATATTAGAAGCTGTCCCTGATATGATGATGATGATTTGTTTGCAAATATTTTTCATATGGGTACTTCAGAAATTTGGGGAATCTCCTGTCACTATTATTTCTTTTAATGAAAATCGAGCTTATTTACTCCCTATTTTATCATTAGCTGTCTTACCTACATTACAAATGTTTCGGATGATGGTGTTATACATAAAAGAAGAACAAGGAAAACATTACGTAGAGGTTGCATATGGAAAAGGCCTTTCATCAAGTTATATATTATGCATTCATTTATTCAAAAATATATCTATCCACTTCTTCCACCATTTAAAAACGATTTTTGTTTTCTTACTTTCTAATTTATTCATTTTAGAATTTGTTTTTAATATGGAAGGCATTATTCAATTTTTATTTAATAAGGCGTTTGTTTCACCTCCAGCTACATTTATTATACTTGTTATGATTATTTTACCGTTTTACGCCATTTTCCAAATAATCTCATTCATGATGAATAGATGGAAAAAGCAATTGAAAGGAGTATCATTATGA	MLNTISQFTIKLSSILLSLLLLLNLPYLFITQQGFTFQPIYFFNQIVTMLKQVFSLESLVIIGSDPKFGHFKKTPLFPTVLEPYLYSFTILFSAFFLALFLSSSMAFFYFLAKDYIKKWINRIVFILEAVPDMMMMICLQIFFIWVLQKFGESPVTIISFNENRAYLLPILSLAVLPTLQMFRMMVLYIKEEQGKHYVEVAYGKGLSSSYILCIHLFKNISIHFFHHLKTIFVFLLSNLFILEFVFNMEGIIQFLFNKAFVSPPATFIILVMIILPFYAIFQIISFMMNRWKKQLKGVSL	PGPT0004445_14773	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
AK009_00935	90			hypothetical protein	ATGTATGTGTTGTTAATGAGAGGAAAGAGTGTATTGCGTAACGAATATAACGTAATTTTACCGCAAGGAGTAGCTAAATTTAGTGTATAA	MYVLLMRGKSVLRNEYNVILPQGVAKFSV				NA	NA	NA	NA	NA
AK009_00936	1536	xylB_1	COG1070	Xylulose kinase	ATGGAAACAAGGGGGAGAGTAATCGGGATTGATATCGGTACCACAAGTACGAAAACGGTTGTGTTCACAGAAAAAGGAAAAGTCATTGCATCACATGCAATCGATTACCCAATTATTCAACCGAACGTCGGATGGGCTGAGCAAGATCCTGATGTAATATGTGCCGCTGTATACAAAAGTGTAAGCGTTGCCATCGAAAAGGGTAATGTATTACCAGAAGATATTTCTTCAATCGGTATTAGTACAGCTATGCACGCATTAATTGCAGTAGATGAAAATGGTGCGCCATTAACGCGTTCTATCATTTGGGCAGATAATCGAAGTACGAAGCAATCAGAAAAATTATTACAACAAATGAATGGGCATGAAATTTATAGACGTACAGGTACACCAATTCATCCGATGTCACCACTTTCTAAATTGTTATGGATGAAAGAAGAGGAACCAGAGTTATATACAAGTGCTTATAAATTCATTTCCATTAAAGAGTATGTGATTTACCAATTATTTTCACGCTACGTAGTTGATTATTCGATTGCTTCTGCTACGGGGTTATTTAATTTAGAAACATTAAACTGGGATGAAGATGTTTTAACTATGTTACATATGTCACCAGAACAATTATCAACCCCTGTACCAACTACATATATTTTATCAGGTATGAAGCCAGAATTAGCACAGAAGATGGGGATAAGTGCAGAGACACCAATTGTCATAGGAGCAAGTGATGGGGTTCTTGCAAATGTAGGAGTTGGGGCGATATCACCGGGTGCGGCTGCAATTACCATTGGAACGAGTGGTGCGGTTCGAACAATCTCATCAAATATAAATACAGATGAGAAAGGGAGAACGTTTTGTTACGCATTAACAGATGAGCACTGGGTAATCGGTGGTCCAACGAATAACGGCGGAATATTACTGAGATGGTTACGTGATGAATTTGGTAGTCCAGAGCAAGAAGTAGCAAGAAAGCTCGGAATTGATCCTTATGATTTATTAATTAAATATGCAGAAAGCGTACCAGCTGGAGCGGATGGGCTATTGTTCTTACCTTTCTTATCTGGAGAACGCGCACCTTACTGGAATGCAAATGCTCGTGGTACATTCTTTGGAATCAATCTTCAACATAAGCGAGAACATTTTATACGTGCAGTGATGGAAGGTGTTTGTATGAGTGTATATTCAGTAGCACTCGCAATTAGAGATTGTACAGGGCCACTTACTGAAATACGAGTTTCAGGAGGGTTTGCGAAATCTGCATTTTGGAGACAAATGTTGTCCGATATGATGGGGAAAGAATTGCTTGTACCTGAAAGTCATGAAGCATCTGCGCTTGGGGCAGCGGCAGTTGCTTTATATGCTGTAGGAAAAATTGATTCTCTTGAAGAGGTAAAGGATTGGATTGATATTGTTCATCACCATGTACCGAATAAAGAAAATACGGCTATATATTTAGAAATGTTTTATATGTATGAACGACTTTACAATCGCTTGAAAGAAGAATTTGATTGTATAGCTGCTTTCCAACGTAAATAA	METRGRVIGIDIGTTSTKTVVFTEKGKVIASHAIDYPIIQPNVGWAEQDPDVICAAVYKSVSVAIEKGNVLPEDISSIGISTAMHALIAVDENGAPLTRSIIWADNRSTKQSEKLLQQMNGHEIYRRTGTPIHPMSPLSKLLWMKEEEPELYTSAYKFISIKEYVIYQLFSRYVVDYSIASATGLFNLETLNWDEDVLTMLHMSPEQLSTPVPTTYILSGMKPELAQKMGISAETPIVIGASDGVLANVGVGAISPGAAAITIGTSGAVRTISSNINTDEKGRTFCYALTDEHWVIGGPTNNGGILLRWLRDEFGSPEQEVARKLGIDPYDLLIKYAESVPAGADGLLFLPFLSGERAPYWNANARGTFFGINLQHKREHFIRAVMEGVCMSVYSVALAIRDCTGPLTEIRVSGGFAKSAFWRQMLSDMMGKELLVPESHEASALGAAAVALYAVGKIDSLEEVKDWIDIVHHHVPNKENTAIYLEMFYMYERLYNRLKEEFDCIAAFQRK				NA	NA	NA	NA	NA
AK009_00937	1350	gntT_1	COG2610	High-affinity gluconate transporter	ATGGTAGTTGGGATCGTACTAGCGGCAGTTGTCATACTACTTTTACTTATTACGGTAGTAAAATGGCATCCATTTGTCGCATTAATTTTAACAGCAATTGGTGTAGGATTAGCAATGGGAATGCCTTTAATTGGAACTTCACCAAAAGATCCAGGAATTATTGATTCTATTAAACTAGGGCTTGGTAATACGTTAGGATTTTTAGCAATAGTTTTAGCACTAGGAACGATGCTTGGAAAAATGATGGCCGAATCTGGTGGTGCTGAACGTATCGCTAACACATTAATTAATCGTTTTGGGAAGAAACGAGTTCACTGGGCGATGATGTTCGTTGCATTTTTAGTAGGGATTCCGGTATTTTTCCAAGTTGGATTTGTCCTATTAATTCCGTTAGTATTTACAATTGCGTTAGAAACTGGGGTATCACTTATTACAATCGGTATTCCGCTAGTAGCAGGACTGTCAGTCGTACACGGACTTGTTCCACCGCATCCAGCGGCAATGGCGGCAGTTGGTATTTTTAAAGCAGATGTAGGGAAGACAATTTTATATGCGTTAATTGTCGGACTTCCAACTGCAATTATTTCAGGTCCACTTTACGGGAAATGGATTGGTGCTCGTATCCATAAGGAAGTACCATTAGATATAGCGGAGCAATTTATTGAAAGAGATAAGAAGAAAGAACTTCCTAGCTTCGGAAATACATTGTTTACTATTTTACTTCCAGTATTTCTTATGCTTGGTGCATCCATTGCTGAAGTAGCGTTACATAAAACGAGTCAACTTGCACAAGTGTTACACTTTATTGGAGATCCAATAGTCGCTTTATTAATTGCAACGATTTATTCTTTCTTTAGCCTTGGTTATGCAAAAGGATTTTCTAAAGATAAAGTATTACAATTTACAAATGATTGCCTTGGGCCAATTGCAAACATATTGTTAGTGATTGGTGCAGGCGGCGCATTTAATAAAGTACTATTAGATTCTGGAATTGGAACGACAATTGCAGATATGGCGAAAGAATCGCATATTTCACCGATATTATTAGGGTGGGGAATTGCGGCACTAATCCGAATCGCAACTGGATCGGCAACTGTTTCTATGATGACAGCAGCTGGAATTGTAGCACCGATTGCAGCAAGTACACCTGGTGTAAATGTTGAACTACTAGCACTTGCAACAGGCGCAGGGTCATTAATTTTATCACACGTGAATGATTCGGGATTTTGGATGATTAAAGAATATTTCGGAATGACTGTGAAAGAAACATTATTAACATGGACCGCAATGGAGACTATACTATCAGTTGTAGCACTTGGATTAATTTCGATATTAAATATATTTGTATAG	MVVGIVLAAVVILLLLITVVKWHPFVALILTAIGVGLAMGMPLIGTSPKDPGIIDSIKLGLGNTLGFLAIVLALGTMLGKMMAESGGAERIANTLINRFGKKRVHWAMMFVAFLVGIPVFFQVGFVLLIPLVFTIALETGVSLITIGIPLVAGLSVVHGLVPPHPAAMAAVGIFKADVGKTILYALIVGLPTAIISGPLYGKWIGARIHKEVPLDIAEQFIERDKKKELPSFGNTLFTILLPVFLMLGASIAEVALHKTSQLAQVLHFIGDPIVALLIATIYSFFSLGYAKGFSKDKVLQFTNDCLGPIANILLVIGAGGAFNKVLLDSGIGTTIADMAKESHISPILLGWGIAALIRIATGSATVSMMTAAGIVAPIAASTPGVNVELLALATGAGSLILSHVNDSGFWMIKEYFGMTVKETLLTWTAMETILSVVALGLISILNIFV	PGPT0001340_1923	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
AK009_00938	897		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	ATGAAACTAGGTTTAATTGGATTAGGAAAAATGGGATTCCCATTAGCTGAACACTTACATGAAGACAAGCATGAAGTAGTTGTATACGATGTAAATAAAGAGCTTGTAGAAAAGGCAGGAAAACTAGGAATTACTGCACGTCATACATTAAAAGAAATGATCGCTGAATTAGAAGCTCCTCGTACGATCTGGGTAATGGTGCCTGCAGGAGAAGTTGTAGAGTCAGTATTAAAAGATGTGTATCCGTTATTAGATGAAGGTGATATCGTTATTGAAGGCGGAAATTCATTCTATAAAGATACGTTACGCCGTGCTGAAGAAGCGAAAAGCTTTGGGTTACATTATGTAGATATCGGTACATCTGGCGGTGTAGAAGGAGCTAGATACGGTGCTTGTTTAATGGTTGGTGGAGAAAAAGAAATTTATGACCAATTAGAACCTTTATTTAAAGATTTAGCAGTAGAAAATGGCTATTCTTATGCTGGCCGCGTTGGTAGTGGTCATTTCTTAAAAATGGTTCATAACGGTATTGAGTACGGCATGATGCAAGCAATCGCTGAAGGATTTGAAGTACTAGATAAGAGTGACTTTGATTTCAATTATGAAGATGTTGCAAAAGTATGGGCGAACGGATCAGTAATCCGCGGTTGGTTAATGGACTTAACTGAAAAAGCATTTGCAGATGATCCTAAACTTGATGGCATTAAAGGTGTAATGAACTCTTCAGGAGAAGGGAAATGGACTGTTGAAACTGCGCTTGAGTTACAAGCAGCGGCACCAGTAATCGCGATGTCATTATTTATGCGCTATCGTTCTCAGGAAGATGATACATTCCATGGAAAAGTAGTTTCAGCACTACGTAATCAGTTCGGTGGACATGAAGTTGTAAAAAAATAA	MKLGLIGLGKMGFPLAEHLHEDKHEVVVYDVNKELVEKAGKLGITARHTLKEMIAELEAPRTIWVMVPAGEVVESVLKDVYPLLDEGDIVIEGGNSFYKDTLRRAEEAKSFGLHYVDIGTSGGVEGARYGACLMVGGEKEIYDQLEPLFKDLAVENGYSYAGRVGSGHFLKMVHNGIEYGMMQAIAEGFEVLDKSDFDFNYEDVAKVWANGSVIRGWLMDLTEKAFADDPKLDGIKGVMNSSGEGKWTVETALELQAAAPVIAMSLFMRYRSQEDDTFHGKVVSALRNQFGGHEVVKK	PGPT0017385_4600	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
AK009_00939	675			hypothetical protein	TTGGATTACATTTGGCTAGATGACAAATCACCAATTTTAGAACAACTACCAAGAAACTTTAAATCTGCAGCTATATTGCTACATCCTTTTATCCAAATGCCTTTAGGATGGGAAAAGTCTGTGAGAAAAAGACCATATGAGCACATCTATCCTAGCACTGAAGAAATCATTCATAATGGGAAATCCGTTTCTTGGAAGGAAATGATGTCTTGTAGTGGATTACATTCATACGCAGAATTAGCAATGGCCATGTTGACTTCCATTAGTGCCCTTTCAGAAGAATATAAAAGAGAGGATTTAGCTGAAAAGCTACATTCAAACTTAAAAAAAGATCTTTATTATCCAACAGAAGATTATACGTCTATATTTTTATTACACAAATTACTTAAACTCCTCGGTTCTAAAGGTGCAAGAAATCTATATTTCTCTGAACCAATTCTTGATACAAACGGATTATTACAGGTAAATAATACTACTCCATTAGATATTTGGGACATTAGCAATAATGAGTTAATTATTACTGGCGAAGACAATGAGTATGCGTTTATGAGTATATACGATTCCTTTACAACCTTATTATTAGCTAAAGAAGAAAATATAGAATATATTGTTCAATCAATGAATGTTGAAGCTGTCATTTGTGACAAAAAAACGATGATTGATTGGTATTTGTAA	MDYIWLDDKSPILEQLPRNFKSAAILLHPFIQMPLGWEKSVRKRPYEHIYPSTEEIIHNGKSVSWKEMMSCSGLHSYAELAMAMLTSISALSEEYKREDLAEKLHSNLKKDLYYPTEDYTSIFLLHKLLKLLGSKGARNLYFSEPILDTNGLLQVNNTTPLDIWDISNNELIITGEDNEYAFMSIYDSFTTLLLAKEENIEYIVQSMNVEAVICDKKTMIDWYL				NA	NA	NA	NA	NA
AK009_00940	1221			hypothetical protein	ATGGGAAATGAGCAAGTGAAGTCTGTAAAGGAAGAAAAAAAGTTATGTCTTTGTATGATCGTCAAAAATGAGTCTAGAATTATGGAAAGATGTTTAAATGCAACAAAATCAATTGTAGATTTTGTTTCTATTTGTGATACTGGATCGACGGATAATACGCCTGAAATTATTGAAAATTGGTGTAAGGAAAATGAGATACCTGGAACGGTTCATCATGAGCCGTTTAAAAACTTTGGTTATAACAGAAGCTTAGCTGTTTCATTAGCGCAAAAAACATATCCAGAAGCGGATTATTTATTAATATTAGATGCAGATATGATTTTAGAGGTTGATCCGAATTTCGATAAAACGAGCTTAACGGAAGATCATTATCTTACATTGCAATATGATGTTCATATTAAATATTGGCTTACACGTCTTTTGAAAGCTTCTTTACCATGGAAATCTGTCGGTGTTACTCATGAGTATTGGGATATAGATCGTTCAAAAGTTGGAGTGAATTACAATACGAGGGTAGATCGGTTAGAGACTCTTGTCGTGAATGATCCTGGAGATGGCGGGAGTAAAGCTGATAAATTTGAAAGAGATGAGAGGTTGTTATTACAAGGAATAAACGACCCAGAAACAACGCCGGATTTGCATATAAGATATTTATTTTATTTAGCGCAGACTTATTTTCATTTAAGTCAATTTGAAGATTCGATTAAATGGTATAAAAAACGAGTGGAAGCAGGGGGATGGGTTGAAGAGGTATTCTATTCGTTATTGCGAATAGGATTTTGTTATGAGCAGTTAACAAATCGTTCAGCAAATAAACAAAATGAAGTGACAGATGCTGATGAAAAAGAAACTGTTAAAGGGCAAGAAGAGCAATATTTAGCATTAGCTGTTTTTTATTTTCAAAAAGCGTGGGAATATAGACCAACCCGGGCTGAACCATTATATCAACTTGCAAGGTTGTATCGATTACGATCTCAAAACAATATTGCTTTGATGTATGCTCTGCAAGGGAAGGAAATTCCTTTTCCAAAGGATGATCTTCTATTTGTAGATTATCATGTGTATGATTACTTATTTGATTATGAAATTTCTATTAGTGCTTTCTATATACCTCATAAAAAACATTTAGGGGCCGTTTCGCAAAAATATTTGAAATCGATTAAAGAAGAGATTCCATTTCATATAGCAAATATAGTAGAGAATAATGCAAAATTTTATTAA	MGNEQVKSVKEEKKLCLCMIVKNESRIMERCLNATKSIVDFVSICDTGSTDNTPEIIENWCKENEIPGTVHHEPFKNFGYNRSLAVSLAQKTYPEADYLLILDADMILEVDPNFDKTSLTEDHYLTLQYDVHIKYWLTRLLKASLPWKSVGVTHEYWDIDRSKVGVNYNTRVDRLETLVVNDPGDGGSKADKFERDERLLLQGINDPETTPDLHIRYLFYLAQTYFHLSQFEDSIKWYKKRVEAGGWVEEVFYSLLRIGFCYEQLTNRSANKQNEVTDADEKETVKGQEEQYLALAVFYFQKAWEYRPTRAEPLYQLARLYRLRSQNNIALMYALQGKEIPFPKDDLLFVDYHVYDYLFDYEISISAFYIPHKKHLGAVSQKYLKSIKEEIPFHIANIVENNAKFY				NA	NA	NA	NA	NA
AK009_00941	1155			hypothetical protein	ATGGAATTAATGCGATGGGCGATTGAACTAGGAGAATCGGTGCATGGAAATACGTATGAAGAATTGATGCCACTACTAGACTATTATTATGATCGTGATCATTTAAAAGCGTATTGTATCGCAAATCTTCTTTTAAACATGGATGTATTAGATGAACATCGGGAAAGAATCGAATTAAGAAGATGCATTGCTGCTTATTATGCTGGATTATATAAAGTAGCAAGAAAACATGCAAATGAGTTAGTACTTAAACATCCGGATGTAGATTTATATAAAAATAATCTAAAATTAATGGAAGCTTATTTGAATAAAGAATATGATTATTGTCTTTTTATATGCCCAAAGACATACGGTAGTTTCATAGATGTTGCGCGAGCTTTAAAGTGGCGGTTGGAGCAGGAGGGGAATACAGTAATTATATCAGAAACAATACTGGGAAATGTAAAGAATACAATTGTTTTTGGAGCGCATACATATGCATATAACCCGAACCTTCTTCCGAAAGACGCAATTATTTATAATTTAGAACAGCTATACGAAGGAAGTCCATATGCGCACCCCCTTTATTTAATATTATTAAAAGATAGAGTGATTTGGGATTATAGTAAACAAAATATAGAATGGTTAAAACAAAAAGGGGTAGGAAAAGAAATAAAACATGTAGAAATGAACTATGCTCCAACTTTGGAAATAAAAAAAGATGCATTTGAAGATGAGATTACTGAAGATATTGATATTCTGTTTATAGGTGCTCTTAATCCGAGGCGGCAAGCTATTTTTGATCACCTAAAAGCGATTGCCCCGAATTTAAATATAGTTTTTAAAAATAATGCGTGGGGAATTGTTAGAAATGAATTGATTGCTAGGTCGAAAATTATATTAAATATTCATTTTTACTTATCAGGAATTCTTGAAACACCTCGCGTGTCTTATGCAGTCGCAAATAAAAAATTTATTATTTCCGAAAATAGTAATCCAGAAGATGAGGTAGAGTGGCCGGGAATTGTATTTACTCCGTACGAAAAAATAATTGAAAACGTAATGAAATATATAGAATTACCAGAAGAACGGAAAAGATTAGCGGAAAAAGCATATAATCATTTTGAAGCAAATGAAAGTTTAGGTACATTGAGTCTGAGAGATGAAACGAAGTAA	MELMRWAIELGESVHGNTYEELMPLLDYYYDRDHLKAYCIANLLLNMDVLDEHRERIELRRCIAAYYAGLYKVARKHANELVLKHPDVDLYKNNLKLMEAYLNKEYDYCLFICPKTYGSFIDVARALKWRLEQEGNTVIISETILGNVKNTIVFGAHTYAYNPNLLPKDAIIYNLEQLYEGSPYAHPLYLILLKDRVIWDYSKQNIEWLKQKGVGKEIKHVEMNYAPTLEIKKDAFEDEITEDIDILFIGALNPRRQAIFDHLKAIAPNLNIVFKNNAWGIVRNELIARSKIILNIHFYLSGILETPRVSYAVANKKFIISENSNPEDEVEWPGIVFTPYEKIIENVMKYIELPEERKRLAEKAYNHFEANESLGTLSLRDETK				NA	NA	NA	NA	NA
AK009_00942	537	azr		NADPH azoreductase	ATGAAACTAGTCGTTATTAACGGTACACCAAGAAAATTTGGCAGAACTCGCGTGGTGGCAAAATATATTGCGGATCAATTTGAAGGGGAATTATATGATTTAGCAATCGAGGAGTTACCTTTATACAATGGAGAAGAGTCACAACGTGATTTAGAGGCAGTAAAAAAATTGAAAACGTTAGTGAAAGCTGCGGATGGGGTTGTATTATGTACACCAGAATATCATAATGCGATGAGCGGTGCGCTGAAAAACTCTTTAGATTACTTAAGTAGTAGTGAATTTATTCATAAACCAGTTGCGTTGTTAGCGGTTGCTGGTGGCGGTAAAGGTGGAATAAATGCATTAAACAGCATGCGAACGGTCGCTAGAGGTGTTTATGCAAATGCAATTCCAAAACAAGTTGTGCTTGATGGATTACATGTGCAAGATGGGGAACTTGGGGAAGATGCGAAACCATTAATTCATGATGTAGTTAAAGAGTTAAAAGCATATATGAGCGTATATAAAGAGGTGAAAAAGCAACTAGGAGTGGAGTGA	MKLVVINGTPRKFGRTRVVAKYIADQFEGELYDLAIEELPLYNGEESQRDLEAVKKLKTLVKAADGVVLCTPEYHNAMSGALKNSLDYLSSSEFIHKPVALLAVAGGGKGGINALNSMRTVARGVYANAIPKQVVLDGLHVQDGELGEDAKPLIHDVVKELKAYMSVYKEVKKQLGVE	PGPT0006791_138	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206	NA	NA
AK009_00943	1230			hypothetical protein	ATGTCCTCCCTTTATCATGATTCTCGCTTGTATTACATTCTAGGGGCCAATAGTCTATCTGCTATTGGTTCCGGAATTGTTATGATAACGATTCCGTGGCTGTTAATTAAAGAGAGTGGAGGAGAGACAACATTTGGTTATGTTTCTATCATTGCAACCCTCATTATGTTTTTATTAACACCATTCATTGGGCAAAGTATTGATCGTTTTTCAAGAAAATCTTTATTGCTATGTAACGAAGGAATCGGAATAGCTGTAATTGGAATAATGTTTATATGGGGATTTGCTGGGCAACCTTATCATTCTATTCACTATATTCTTATTTATATAGCCGGATCATTCTACTATTTATTATTTTATCCTACAATATTTGCGTTCAACCAAGAGATATTTCAAGCGGAACATTATAAAAGTTTAAGTGGAACGATGGAAATACAAGGACAGTTAACACAAGTTATTTCTGGAGCGGCCGCGAGCTTCTTAATTGAAATTGTATCTTTGAAGTGGATTTTGTTAGTAGACATGTTAACTTTTGCTGGAGCATTTTTTCTTTTCTTATGTATACCGTACGTAAAGAAAAAAGAAGTGAAAAGAAAAATAACATTTAAGAAGCAATTATTTGAAGGAATTCACTTTATGAAAAAACGTCCTAAGCTCTTTTGGTTCTTACTGGCCACTTATATGCCGTTTATAGGTGTTATGATGGCAAATTATTTAATACCAGTTTATATTTCGGATATACTTAAAGCCAATGCCTCTGTATACGCAATAGAGGGGATGATGTACGGTGTTGGAGCGGTTGTTGCAGGAATCTGTATTCCACTCATAATGAAATATGTAAAAACAGAAGTTTCAATCGTTATGACGATGTTCATTTATGTAATTTCAATTACCGCAATGAGTATTGAACCTTCCGTAATTTTCTTATATGGACTTGCAATTTTTCATGCAGTTGGAAATGCGGGTACAAGAGTGGCGAGAAATGTATTGATGATGGAGGAAATTCCAAATGAAGTAATGGGACGTGTAGACAGCTTATTTCGCCTAATTGGTACTGGAATACGAATTTTATTATTAATGTTGTTTACAGCGGGTGTATCTAAAGTTGGAGTCATGCTGCCGTTTTACGTATTAAGCTGCATATTGATCTTCTCATTAGGAATCGCTATTTATTATGTACTATCACAACGTAAAGTAGCGGCGCATGTTTCTAATAAATCAATCGTTTGA	MSSLYHDSRLYYILGANSLSAIGSGIVMITIPWLLIKESGGETTFGYVSIIATLIMFLLTPFIGQSIDRFSRKSLLLCNEGIGIAVIGIMFIWGFAGQPYHSIHYILIYIAGSFYYLLFYPTIFAFNQEIFQAEHYKSLSGTMEIQGQLTQVISGAAASFLIEIVSLKWILLVDMLTFAGAFFLFLCIPYVKKKEVKRKITFKKQLFEGIHFMKKRPKLFWFLLATYMPFIGVMMANYLIPVYISDILKANASVYAIEGMMYGVGAVVAGICIPLIMKYVKTEVSIVMTMFIYVISITAMSIEPSVIFLYGLAIFHAVGNAGTRVARNVLMMEEIPNEVMGRVDSLFRLIGTGIRILLLMLFTAGVSKVGVMLPFYVLSCILIFSLGIAIYYVLSQRKVAAHVSNKSIV				NA	NA	NA	NA	NA
AK009_00944	558			hypothetical protein	ATGAACAAATGGATCTTTCTTATAATTTTATTATTACCGCCACTATACATCATTTATATGACGTTTCGAATGAACAAAGTTGCTCGTGAAAAATTGAGCTATCACTCTCCGTACGTTCTTATACTGGGTGCAAAGTTATTTGGAGATAGACCGTCTTTATCTCTTCAAAATCGTTTGGATGTAGCGTTGGAGTATTTATTTTCCCATCCTGAAGCGAAAGTAATTGTTTCAGGTGGTCAAGGAGAAGATGAAGATATATCGGAAGCTCACAGCATGAGAAACTATTTAATGGTACATGGTATAGATGAGAGTCGTATTTTAATAGAAGATCAATCTACAAATACGTATGAAAACTTAAAGTTTAGTATGGATTTATATAATGTGAAACATGCGGTAGTTGTAAGTAATACGTATCATTTATATCGAACGAAAATAATTGCAAAGCGTTTAGGCATGAAGATGGAGGCACTAGCTGCTGAAACACCAATTCGTTCTAAGAGAAAAATGTATGTTCGCGAATATGCTGCTATTATGAAAACAATATTGTTCGATCGTTAG	MNKWIFLIILLLPPLYIIYMTFRMNKVAREKLSYHSPYVLILGAKLFGDRPSLSLQNRLDVALEYLFSHPEAKVIVSGGQGEDEDISEAHSMRNYLMVHGIDESRILIEDQSTNTYENLKFSMDLYNVKHAVVVSNTYHLYRTKIIAKRLGMKMEALAAETPIRSKRKMYVREYAAIMKTILFDR				NA	NA	NA	NA	NA
AK009_00945	948	opuBA	COG1125	Choline transport ATP-binding protein OpuBA	GTGATTCAATTTAATCATGTGTCAAAATCGTATGAAGATGGCACGAAAGCAGTGGATTCATTGCATTTAGAAATTAAAAAGGGAGAATTTTTTGTTCTCATCGGTCCGAGTGGTTGCGGGAAAACAACGACAATGAAGATGATTAATCGTTTAATCGAAACGACTGAAGGGTCGATTTTAATCGATGGAAAAGATATTCAACAATATAATATAAACGAATTACGTTGGGATATAGGATACGTGTTGCAACAGATTGCTTTGTTTCCTCATATGACAATCGCTGAAAATATTGCAGTTGTTCCTGAAATGAGGCAATGGAGCAAAAAGGAAATAAAAGCACGCGTCGATGACTTGTTACATATGGTTGGATTAGATCCGGATATATATCGAGATCGTATGCCTGATGAATTGTCAGGAGGACAAAAACAACGTGTCGGTGTCGTGCGAGCATTAGCCGCAAACCCGAAAATCGTTCTTATGGATGAACCATTTAGTGCGTTAGATCCATTAAGTAGGGAACAGCTTCAGAAGGATATTGTACAGTTGCAAAAAAAGATTCAAAAAACAATCGTGTTCGTAACACATGATATGCAAGAAGCATTATCACTTGGAGATCGCATTTGTATTATGAAAGAAGGAAAAGTTGTTCAACTAGATACACCAGAAGGAATTATACATAATCCGAAAAATGAATTTGTAGAGGAGTTCATTGGAAATCGTGGACGAACTTGGTATGAGGAGAAAAGTGTAGCAGATGTATTGCCGCTTGATCAAAGTGTGCAATTAGAAGGGCAGGCACTATCATTACATTCTTCTTTAGAAGAAGCGCTAGTTCGTGTGCGTGACGAGGAGGTCGTTCCAGTTGAAGAAAACGGTCAATATATTGGAGCGTTAACAAGTCGTCATATTGTCAATTACATTGTTGAACAAATGAAGGAAAGAGGTTAA	MIQFNHVSKSYEDGTKAVDSLHLEIKKGEFFVLIGPSGCGKTTTMKMINRLIETTEGSILIDGKDIQQYNINELRWDIGYVLQQIALFPHMTIAENIAVVPEMRQWSKKEIKARVDDLLHMVGLDPDIYRDRMPDELSGGQKQRVGVVRALAANPKIVLMDEPFSALDPLSREQLQKDIVQLQKKIQKTIVFVTHDMQEALSLGDRICIMKEGKVVQLDTPEGIIHNPKNEFVEEFIGNRGRTWYEEKSVADVLPLDQSVQLEGQALSLHSSLEEALVRVRDEEVVPVEENGQYIGALTSRHIVNYIVEQMKERG	PGPT0013585_2009	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
AK009_00946	1512			hypothetical protein	GTGACTAATTTTATACAAACGTTCCAAGAACGAAAAATAGAATTACTAACTGCATTAAGTGAGCATTTACAAATATCGCTTATTTCATTATTTTTTGCAGTAATTATAGCGGTGCCACTTGGCATTTTATTAACAAGAAAAGAACGAATGGCTGAATTTATAATAGGAACTTCTGCGGTAATGCAGACAGTGCCATCACTTGCATTACTTGGACTATTAATTCCGTTAGTAGGAATCGGAAAACTTCCAGCGATTATCGCATTAGTTGTGTATGCACTATTACCTATTTTACGAAATACATATACAGGAATAAGGGAATTAGATGAATCACTAATAGAAGCCGCGAGAGCTATGGGGATGAATAGTTGGAGAAGGTTGTGGAAGGTAGAACTTCCTCTTGCATTGCCTATCATTATGGCCGGTATTCGTACAGCGATGGTATTAATTGTTGGAACGGCTACATTAGCAGCTCTCATTGGTGCTGGTGGGCTAGGTAAGCTTATATTATTAGGTATAGATCGAAATGATCATGCACTTATCATTTTAGGGGCCGTACCAGCCGCGTTACTCGCTTTATTCTTTGATATAGTACTTCGCATGCTTGAACGACCGAAACGCTCTTCTAAGCGTGTTATATTGACGATATGTATAGTTGTAGTAATGATTGCTTCTCCATTTCTTTGGAGTACAGAAAAGAAAGATATTGTTATTGCGGGCAAACTTGGATCAGAACCTGAAATTTTAATTCAAATGTATAAGCAGCTTATTGAACAAGATACCGATTTACACGTACAATTAAAACCAGGTCTTGGGAAAACAGCATTTGTATTTGAAGCGTTGAAATCAGGTGAAGTAGATGTGTACCCAGAATTTTCAGGAACAGCGCTATCTACTTTCGTGAAAGAAGAACCAAAGAGTACAAATCGTGATGAAGTATATGAGCAGGCTCGCGTTGGACTGGAAAAGAAATATAATATGATTATGTTGATGCCAATGGAGTATAACAATACATATGCACTAGCCATGCCGAAAAAAATAGCAGATCAAAAGAATATAAATACTATTTCTGATTTAGGGAATGTTGCGCAGGAAGCCAAAGTAGGATTTACATTGGAATTTGCTGATCGTGAAGATGGTTATAAAGGAATGCAAAAATTATATAACTATAAGTTCTCGAATGTTAAAACGATGGAGCCGAAGCTGCGTTATAGCGCAATTCAATCTGGAGATGTTAACGTAATTGATGCATATTCAACAGATAGTGAATTGGAGCAATACGGACTAAAAGTGCTAAAAGATGATAAAGGGTTATTCCCACCTTATCAAGGAGCACCATTATTAAGAAAAGAAACGTTACAGAAATATCCTGAACTTGAAAAGGTATTAAATAAATTATCTGGAAAGATTACAGATGAAGAAATGCGAAAAATGAATTATGAAGTTAATGTGAATGGTAAAAGTAGTGAAGAAGTCGCAAAACAATTTTTACAAAAAGAGAATTTACTTCGTTAA	MTNFIQTFQERKIELLTALSEHLQISLISLFFAVIIAVPLGILLTRKERMAEFIIGTSAVMQTVPSLALLGLLIPLVGIGKLPAIIALVVYALLPILRNTYTGIRELDESLIEAARAMGMNSWRRLWKVELPLALPIIMAGIRTAMVLIVGTATLAALIGAGGLGKLILLGIDRNDHALIILGAVPAALLALFFDIVLRMLERPKRSSKRVILTICIVVVMIASPFLWSTEKKDIVIAGKLGSEPEILIQMYKQLIEQDTDLHVQLKPGLGKTAFVFEALKSGEVDVYPEFSGTALSTFVKEEPKSTNRDEVYEQARVGLEKKYNMIMLMPMEYNNTYALAMPKKIADQKNINTISDLGNVAQEAKVGFTLEFADREDGYKGMQKLYNYKFSNVKTMEPKLRYSAIQSGDVNVIDAYSTDSELEQYGLKVLKDDKGLFPPYQGAPLLRKETLQKYPELEKVLNKLSGKITDEEMRKMNYEVNVNGKSSEEVAKQFLQKENLLR	PGPT0013590_838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK009_00947	1428	arcD_1	COG0531	Arginine/ornithine antiporter	ATGACAGATGGGGTGGTACAAATAGAAAAGAAATTAGGATTCTTTCCATTAATCGCATTAGTAGTTGGAACGATGGTTGGTGGCGGTGTTTTTAGTTTACCGCATGATTTAGCAGTAGGAGCAAACAGTGGCGCAATAATAATTGGCTGGTGTATTACAGCGATGGGAATGATTCCACTTGCGCTCGTATATCAAACGTTAGCAAGACAAAAACCGGAACTTGAAGGTGGAATTTATAGTTATGCACGTGCTGGTTTCGGTGAATATATTGGGTTTAATAGTGCTTGGGGATATTGGCTAGCAGGAATCTTAGGTAATGTCGCAACAATTATGTTACTGTTTAGTACATTAGGTTATTTCTTTCCAATTTTCAAAGGAGGAAATAATGTTGCATCTATCGTTGGGGCATCACTTTTATTATGGACACTTCATTTTCTAATTTTATTTGGAATCCGTGAAGCTTCTATTATGAATGTTATCGCAACAATAGGGAAGTTAGTTCCAATCGTTTTATTTATTGTTGTAATGGTAACAGCCTTTCGCTGGGACACATTTACACATGATTTTTGGGGAGAAGGAACAATCTCAGTTTCCGCTATACTTGGTCAAGTGAAAAATACAATGCTTGTAACACTTTGGGTTTTCATTGGAGTTGAAGGAGCGGTTGTATTATCCGGAAGAGCGAAGAATAGCCGAGATGTTGGTAAGGCAACAGTAATGGGGCTTATTTTAGTAATGTCCATTTATATTTTAATTTCTGTCCTATCAATGGGAGCTATGACAAGAGGCGAACTTTCTGTGTTAGAAACTCCGTCAATGGGACATGTATTAGAGCATGTTGTTGGTCCATGGGGGGCAGGTGCGATTAATATCGGGTTAGTTGCTTCACTTGTCGGTACATTAATTGGCTGGTTTTTACTTGTTTCTGAAATTTCTCATGTAGCAGGAAAAGATGGCGTATTTCCAAAAGTCTTTACGAAAACAAATAAAAAGCAAACACCGCACATGGCATTATGGATTTCAAATGGTGTTGCTCAAATTATATTTATCATCGTTCTGTTTTCAGAATCAACATATCAAATTATGTATTTCATTGCATCAACATCAATTTTATTACCATATTTATTATCAGCGTTATTCCAATTAAAATTAGTCATTACAAACGAGCTAAAAGACGCTAAATTAAAAAATGGAGCGTTAGCTTTAATTGCTTCGATTTACTCTGTATGGCTTCTTTATGCAGCTGGTTTAAAGAATTTACTACTCGTTTCAATTGTGTATGGAATTGGAATTATTGTTTACACGTTTGCAAGAAAAGAACAAGGGAACCGTTGTTTTGCAGGTGCAGAGAGATATGTGATGTGGGCAATTATTGTTGCGGCTATCACATCCCTGTATATGTTATTAACTGGAAATATAAAAATGTAA	MTDGVVQIEKKLGFFPLIALVVGTMVGGGVFSLPHDLAVGANSGAIIIGWCITAMGMIPLALVYQTLARQKPELEGGIYSYARAGFGEYIGFNSAWGYWLAGILGNVATIMLLFSTLGYFFPIFKGGNNVASIVGASLLLWTLHFLILFGIREASIMNVIATIGKLVPIVLFIVVMVTAFRWDTFTHDFWGEGTISVSAILGQVKNTMLVTLWVFIGVEGAVVLSGRAKNSRDVGKATVMGLILVMSIYILISVLSMGAMTRGELSVLETPSMGHVLEHVVGPWGAGAINIGLVASLVGTLIGWFLLVSEISHVAGKDGVFPKVFTKTNKKQTPHMALWISNGVAQIIFIIVLFSESTYQIMYFIASTSILLPYLLSALFQLKLVITNELKDAKLKNGALALIASIYSVWLLYAAGLKNLLLVSIVYGIGIIVYTFARKEQGNRCFAGAERYVMWAIIVAAITSLYMLLTGNIKM	PGPT0020620_702	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
AK009_00948	261			hypothetical protein	ATGGAAGAAAAAGAACAGTTGTCTAGAATAATTGATTTAGCTAGTGAGTTAAGGAAAGTATTAGTGCAAGAATCTTTTTTTAATCATCATCCTGAATTGAGAGGAGTCATTGAAAATTTAGCAAGTTCTGTTGAAAATTTGGCGGAATTACAAAAAAGTAAAGATGAAAATGCTGAAGATCGATTACGTTACGTACTTGCTAAAATGAAAATTGCTCATAATGCAATTTTACAAGAGAAAAAAGCATTTCCTTCTCATTAA	MEEKEQLSRIIDLASELRKVLVQESFFNHHPELRGVIENLASSVENLAELQKSKDENAEDRLRYVLAKMKIAHNAILQEKKAFPSH				NA	NA	NA	NA	NA
AK009_00949	1818			hypothetical protein	GTGAGATTACATAAAGCTCTTCAGCCAAGTTTTATAAAACGAATGTACTATATGAGATTTTTAGGGAAATTTACAAAAGCTGAGAAAGAGAAGAGTGGAGAGAATTTCTTTGTACAATGCTTATCGCCAATACCATTCACTTTACAGGAACAATTTGCAAATGAACCATATGTATTTGAAGGGGTATGTAGTAATAAAAAGAATGAAAAAATCTTTTCGGAATTAAAGAAGAGGAAATTAGAAAAGCAATTAGTGATGTTTCGTCTTTATTATGAAAGAGGAAATGTATACGTGGAGTTAATATGTACAGAAGAACCGAAAGAAATAGCAAGCAGCTATAAAATGATTCCTGCACCTAAAGTTACAAATAATAAAAAAAGAGAGTCTTTAGAACGAAAACTTAGCAACGGTTATTTATCATTTCTTATGCCAAAATTTCCGAAAGACTTTGAGCCTCCCGAATTATTGTGGCATGATGGAAGACTGTATGGAAACATATCCTTAAAGTCATCAATTAGCTCAATCGCATATTTTGAACAGAAACGGGAATGTAAATATATAAACTGCAGTGACTGGACGAAGTATGTAGAAATAGCGGTAGAAGATCAATTATATTTTGTAAGTGATCATGTGTATGAGCAATTAAAAAAACGAATGCATGAAGAAGGTAAGATAGTTGAAGTAGAGGATATAAAAGTGCAAAAAGAGGAATGGGAATGGGATGAGCGTGAATCATCCTTTTTACAGTATGTACAAAGTATGGTGCATAATAAAGGGCTATATTTGGATGAAACGGATATTTATAATTTCCATATAAGTGTAAAAACAAATATGTTAACGATTCTTGGTGGTATACCGGGCGTTGGGAAATCACGTTTTGTGCAAACTTATGCAGAAGCATTAGGGTTACAGTATGGGGAGGAATTGGTTTGGATTCCAATTTCGCCATCGTATCAAGAACCACATGATTTACTTGGTTACCTTCATCCGAATGGTACTTTTATTGAAAGTGAAACGAAGTTAGTTAGGACGTTAATGAAGGCGAAAGAAAATCAAAATCAACTGTATATAATCGTTTTTGATGAAATGAACATGTCTCATATTGAGCATTGGTTTACTCCATTTCTCTCTGTTCTTCAACTTGAAACAAAAAATCGTATTTTAAACTTGTATGAGGGTGTTCAGGACATTGAGAATTCAATTCCATCAACAATTGAAATTGGAGAAAATATTATATTTGTAGGTACTGTGAATTTTGATGAAACAACGAAAGAGCTCTCCGATCGATTATTAGACCGAACGAACCTAATAACGTTACAGAAAATTCCGTTTTGTGAGATGGGCATGGAACAGGGGAAAGTCGTATTACACCCACCTTTGAAAGTAACAGCGGGAGAATTTCGGATAAATTGGATGAGAAATAAAGCGATGATTGAAGTGTTTTCTGAAGAAGAATTAGAGCTATTAGATAAGTTGCATGTCGTATTGTCATCACATGATGCGTCTAAGGGAATTTCTTTCCGATGTGCAAATGCAATTGCGACTTATTTGCAAAACATACCGTTCCAAAATAACCATACCTATATGATCAGTAGAGAAGAGGGGTTTGATTTACAAATAAAGCAGCGTGTATTAACGAAAATCAGAGGGACCGAAATGATGGTTGGGTCTTTACTTTCTGAAGAAGCAAAAAGGGGAGCGACCTTAGTACCTCTTTTGCAATCTGCACTTGCAAACAGAGTATCTACATTTGAACATTCTTTAGCATATATACGAGAAAAACGTAGGGAACTGGAGCTGTATGGATATGCAAAATGA	MRLHKALQPSFIKRMYYMRFLGKFTKAEKEKSGENFFVQCLSPIPFTLQEQFANEPYVFEGVCSNKKNEKIFSELKKRKLEKQLVMFRLYYERGNVYVELICTEEPKEIASSYKMIPAPKVTNNKKRESLERKLSNGYLSFLMPKFPKDFEPPELLWHDGRLYGNISLKSSISSIAYFEQKRECKYINCSDWTKYVEIAVEDQLYFVSDHVYEQLKKRMHEEGKIVEVEDIKVQKEEWEWDERESSFLQYVQSMVHNKGLYLDETDIYNFHISVKTNMLTILGGIPGVGKSRFVQTYAEALGLQYGEELVWIPISPSYQEPHDLLGYLHPNGTFIESETKLVRTLMKAKENQNQLYIIVFDEMNMSHIEHWFTPFLSVLQLETKNRILNLYEGVQDIENSIPSTIEIGENIIFVGTVNFDETTKELSDRLLDRTNLITLQKIPFCEMGMEQGKVVLHPPLKVTAGEFRINWMRNKAMIEVFSEEELELLDKLHVVLSSHDASKGISFRCANAIATYLQNIPFQNNHTYMISREEGFDLQIKQRVLTKIRGTEMMVGSLLSEEAKRGATLVPLLQSALANRVSTFEHSLAYIREKRRELELYGYAK				NA	NA	NA	NA	NA
AK009_00950	1851			hypothetical protein	ATGCAAAATGAAGGGCGTTACGAAACAAAAATCGTTGATACGAATGAAACGCTCCCTTTTGTATTAAAGTTAATCATTGGAAATGAGGGGAAAGGAGATTATATTTTATTAAATCGTCTTTGTACATCTACTACAGCATTGGTTCAATGTATTTATAAAGTACAAGAATTAAAACCAATTAGATTGCAGTATAATTATGAAATCCCAATGAATATTACTTTTATATGGAATAAAGTATATGAGGGACAGAAAAATATGAAAGAGGCTCAATATGAAATAAATGAAAAAAAACAAAGAGTATTAATATATGAACATGGGAAAACAGAATTCTTTTATCCATGGCGCTGCGGTTTATACCATTTTGAAGTGCGCATAGAAGATACAACGTATTATGGCGCTTTTCAAATCGTACCGAAAAACTTTTTTGATGATCAATTTGAAATGATTCAAGACTATGTGAAGTCAATTTTAAATGAGTTGATTTTGGATAGAGGTTATTATAAAAAGACTTTCTCTGCACTTAGCGATATTGAGGATTCTTCTTATTTAGTGTTGCTTAGAAAGTTACCCCAAAAAATGAAAATGATAAAGCAAATCTTTAAGAAAATAGAATCAAGTTCAAAATTTATAAATGCATATAAATGGGAAGGAAAAGAGCGAAAGCCAACAAGAAGAGGAACTATAGTGGCAGAAAGAAAACCTTATGCCAAACATTATAATCGTAAGTTTATGGAACAAAAAAATAGTAAGGAAAATGCATTTCTTAAATATAAAGCGATGCAATTTTATCATTATTTAATTGAAGCTAAAAGTTTTTTACGTCAAACAATTGAAATCTTAGAAAGAGAAAAAAAGAAAAAATCAGAAGAGTTTCAAGCCGTAAAAACGATTATACAAACAATTGAGCGAAATGGATCGGTAACCGATAGAGAGAAGCAAAAATATAAAAATATACATTTACTAAAAGAAGCCGATTTACGAAAGAGCTCAATGAAAATACAAGAATATAAAATATTGGCGCATATCGTGCATGAAAATGTACAATACTTTCAAATGTTAATGCACTCTTCGTTTTGGATGGAAGTTACTGAAACAAGTAACATGAACTTACATGATTTACCGATACCACATCAACAATTACTACATCATTTAGAAGTACTCCCGCAATATACGGATCAATCTCCATCGTTATTATTTGTTTATAAGCCAACGTTTTTAGTGTATGAATATTACGCTTTTTTTATCGTTATTTCAATTTTAGAGCAAATTGGTTTTGAGGCTAGAAACTCAATTCGTGAACAAATACAAGAACATTTTTATGTAGATGGATTACAAGATGGAACGACAGTAGTTTTAGAACGAGATGATATAAAGGTGCATGTCGCATTTAATGATTTAATTGAAACACATCCTCTTATTGCATTAAGTAAAGGTAGTAATTTTTACAATGGTGAGGATACGAAGAAGCCAGATATTCGCTTAGACTGTTATGTAAAAGAAGATGGGAACTACGTATATAAATCTTCTATTATTATTGAAGTGAAATACAGTCCAATGTACAATATTTTTCAGCATGTCGGAAATACAAAAGCAACTGAGCAAATGTATAAGTACTGGTCTATAAAGTATGTAGAAGAACAGGATGGAAAGCGAGTCTATTATCGAAGGTCAATTTATGAAGTCATTTGTGTATATCCAGGAAGCCATATGCATAGTAAAAAAATTGAGTCTGGATGCGGTGTTTTCTTGCAGTTATATCCATATAAGACGAAACAAGGGGAAGAGAAATTAGCTGGAAAACATGGGATGGTACAAATTTTTGAAAAATGGTTAAAAAGCATTCAGAAGTAA	MQNEGRYETKIVDTNETLPFVLKLIIGNEGKGDYILLNRLCTSTTALVQCIYKVQELKPIRLQYNYEIPMNITFIWNKVYEGQKNMKEAQYEINEKKQRVLIYEHGKTEFFYPWRCGLYHFEVRIEDTTYYGAFQIVPKNFFDDQFEMIQDYVKSILNELILDRGYYKKTFSALSDIEDSSYLVLLRKLPQKMKMIKQIFKKIESSSKFINAYKWEGKERKPTRRGTIVAERKPYAKHYNRKFMEQKNSKENAFLKYKAMQFYHYLIEAKSFLRQTIEILEREKKKKSEEFQAVKTIIQTIERNGSVTDREKQKYKNIHLLKEADLRKSSMKIQEYKILAHIVHENVQYFQMLMHSSFWMEVTETSNMNLHDLPIPHQQLLHHLEVLPQYTDQSPSLLFVYKPTFLVYEYYAFFIVISILEQIGFEARNSIREQIQEHFYVDGLQDGTTVVLERDDIKVHVAFNDLIETHPLIALSKGSNFYNGEDTKKPDIRLDCYVKEDGNYVYKSSIIIEVKYSPMYNIFQHVGNTKATEQMYKYWSIKYVEEQDGKRVYYRRSIYEVICVYPGSHMHSKKIESGCGVFLQLYPYKTKQGEEKLAGKHGMVQIFEKWLKSIQK				NA	NA	NA	NA	NA
AK009_00951	597			hypothetical protein	ATGTTCCAGCGTGTTCAAACAAAGGAAGAACATTTTGGGTTCGAGCAACTATGGGGAGATTTTTGTGAAGAAAGAAACTTAATGTTTGTAGAACGTAATTTAAATCCATCACGATTTTTATTAATAGAAGATGAACATCCTATTGGTACAGTAGAATGTATTAAGTATACGGTACCTGAACAATCAAATTCTGAGTTTTTCTATCCGTTTTCTAAAAATGATTTAGTAAAAGATTTGAAGAATGTGTATGAAATAGGCAAGTTAAGTATTTCGAAAACATCTCGTGGGAGAGGACATTTCAAAAGGTTAACAGCTATTTTATTTATACATGCGTTAGAAACAAAAGCTGAATGGTACATTGCAGCAGTGACAAAAAGAATGTATATGTATTTACTTACACTCGGTTTTCCAATTGAACCGATAGATAATCCATTTCAGTTTCATGATACTTTACAAGGTGTACCAGTAAGAATTCATGCTCGAAAAGGGGTTACGCATTTGTATTCTTTAAAAGAATTTCGTGATGTGATTCAAGGGAATGCTCATGCACAGGCATTAATTGCAGAATACAGTAAAAATATTATGTTAACGAAATAA	MFQRVQTKEEHFGFEQLWGDFCEERNLMFVERNLNPSRFLLIEDEHPIGTVECIKYTVPEQSNSEFFYPFSKNDLVKDLKNVYEIGKLSISKTSRGRGHFKRLTAILFIHALETKAEWYIAAVTKRMYMYLLTLGFPIEPIDNPFQFHDTLQGVPVRIHARKGVTHLYSLKEFRDVIQGNAHAQALIAEYSKNIMLTK				NA	NA	NA	NA	NA
AK009_00952	543	racA_2		Chromosome-anchoring protein RacA	TTGGAATATAAAACACCATTTATCGCAAAAAAATTAGGTGTTAGCCCAAAGGCTGTTGTCCGGATCGCGCAACAATTAAATCTTACGATAGAAAAAAACAAATATGGCCACTTTATTTTCACACAAGATGATGTCGATCAAATGTTAGAACACCATCTATTTCAAATAGAGCAGTCTCAAAATCCTCAACCTACTCAAAAGGCTTCCTCAAATGAGGTTGAAGAATTAAAAACTCAAGTCAATACAATTGTTCAAAACATATCATCGAATGATTTTGAGCAATTAGCTAATCAATTAAACACTATTACAAGAAGGCTCGATCGAATGGAAGAACAAATGCAAGATAAGGCAAATGATGTCGTCACATACCAACTTTTACAACACCGTCGTGAAATGGAGGAAATGTTAGAGCGAATTCAAAAGTTAGAAGCTGCGCTAACGAAAGAAGAACCCATTTATATTACTCCTGATTCAAAACCAACATACGAACGAGAAAAGAAACCGAAGCGCCGCAAAATGATTTTTAGTATATTTGGATTATAA	MEYKTPFIAKKLGVSPKAVVRIAQQLNLTIEKNKYGHFIFTQDDVDQMLEHHLFQIEQSQNPQPTQKASSNEVEELKTQVNTIVQNISSNDFEQLANQLNTITRRLDRMEEQMQDKANDVVTYQLLQHRREMEEMLERIQKLEAALTKEEPIYITPDSKPTYEREKKPKRRKMIFSIFGL				NA	NA	NA	NA	NA
AK009_00953	1356			hypothetical protein	TTGGACATATATAGTATAAGTATAGTGATTGTTTTAATTGCCTTAACGGCATTTTTCGTTGCAGCAGAATTTGCAATTGTTAAAGTGAGAAGTTCACGAATTGACTATTTAATTGCAGAAGGAAATAATCGTGCAACATCGGTCAAAACAGTCATTACAAACTTAGACGAATATTTATCTGCTTGTCAGCTAGGAATTACTGTTACAGCTTTAGGAATTGGGTGGTTTGGTAAACCTGCGTTAAAGCAAATGTTTGATACGCTTTTTGCAAATTGGAATATCTCTACTCAACTAGCAGACATTTTTGCTGTAATTTTAGTATTTTTTTTAATTACTTTTTTACATGTTGTAATAGGGGAATTGGCCCCAAAAACATTTGCAATTCAAAAATCTGAACAAGTAAGTTTGCTTGTTTCTAAGCCGTTAATTTTCTTTTATCGTATTGCATTCCCATTTATTTGGATATTAAATGGTTCAGCTCGAATCATTACGAAGCTGCTAGGGTTGAAACCGCCGAAGGGGCATGATGAGGTTCATTCAGAAGAAGAATTACGGTTGTTAGTTTCAGAGAGTTATAAAAATGGTGAAATTAATCAATCTGAATATAAATATGTAAATAAAATTTTTGAATTTGATGATCGGATTGCAAAAGAAATAATGGTACCTCGAACCGAAATGAATATTATAAGTAAAGAAATGCCTGCTGAAGAAGCTTTGCAAAAAATGTCTCGTGAAAAATATACAAGGTATCCAGTTGTTGATGGCGATAAAGACCACGTAATAGGTTTTGTGAATTTTAAAGATATTTTTACTGAGTTTGTACAACATAAAGCTGTTAATAAAAAGACAGTAGAGCAATATATGAGACCAATTATTTTAGTTATCGATTCTATCCCAATTCATGATTTGTTTTTAAAAATGCAAAAAGAAAGAACACATATTGCTATATTGATAGATGAATATGGTGGGACATCTGGACTTGTTACTGTTGAAGATATTCTGGAAGAAATTGTTGGAGATATTCAGGATGAGTTTGATACGGATGAGCAGCCAGAAATTCAACAAGTTAGTGAAACGAAGACGATACTAGAGGGAAAAGTACTTGTTAGTGAAGTGAATACGTTATTTGGTTTAGGGATTGATGATGATGGTGTTGATACAATTGGTGGTTGGATTTTAACGAAGAATATAGAGATTGCTGAAGAGGATTCCATTGAAATTGAAAATTATAAGTTTTGTGTGAAAGAATTAGATGGACACTATATAAAAAGATTGGAAGTTACAAAGATAGTAGAATCGATTGTTATTTTAGAAGATGAAAAACAAATTTCATTACAAGAGCAAATTAGCTCGTAA	MDIYSISIVIVLIALTAFFVAAEFAIVKVRSSRIDYLIAEGNNRATSVKTVITNLDEYLSACQLGITVTALGIGWFGKPALKQMFDTLFANWNISTQLADIFAVILVFFLITFLHVVIGELAPKTFAIQKSEQVSLLVSKPLIFFYRIAFPFIWILNGSARIITKLLGLKPPKGHDEVHSEEELRLLVSESYKNGEINQSEYKYVNKIFEFDDRIAKEIMVPRTEMNIISKEMPAEEALQKMSREKYTRYPVVDGDKDHVIGFVNFKDIFTEFVQHKAVNKKTVEQYMRPIILVIDSIPIHDLFLKMQKERTHIAILIDEYGGTSGLVTVEDILEEIVGDIQDEFDTDEQPEIQQVSETKTILEGKVLVSEVNTLFGLGIDDDGVDTIGGWILTKNIEIAEEDSIEIENYKFCVKELDGHYIKRLEVTKIVESIVILEDEKQISLQEQISS	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
AK009_00954	1425	gabD_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGAAAAAGCATTTATATATAAATGGAGATTGGAAATCTGTAAACACGTATAAACCATTATACGCACCATATTCTGAAGAAATATTAGCAGAAATTGCACAAGGAACGGAAGAAGATGTAAAAGAGGCTGTTATTGCTGCAAAAAATGCAATGACAAAAATGAATAAATTATCCGCATATGATCGTGCGATTATTTTAGAGAAGGTTGCACAAAAAATGGATGAAAGAAGAGAAGAATTTGCAGAGATTATTGCAAAAGAAGCTGCAAAACCAATACGTGCTGCTAGGGGAGAAGTGGATCGTACTGTTCAAACATACAAATTTGCAGCTGAAGAAGCGAAGCGTATATATGGTGAGACATTGCCATTAGACGCCGCACCTGGTGCGGATGGGCGTATTGCATATACAATCCGAAAGCCGATTGGTGTAATAGGGGCTATTACACCATTTAATTTCCCATTAAATTTAGTTGCGCATAAAGTTGGACCTGCAATTGCTGCCGGAAATACAGTTGTGTTAAAGCCAGCTGATCAAACGCCATTATCATCTTATGCATTAGTTGAGTTATTTGAAGAGGCAGGATTGCCAAATGGAGCTTTAAATATCATTTCTGGTCCTGGCTCCACGGTGGGTGAGGCAATCGTTAAAAATGATTATGTTGCTTCTATTACTTTTACCGGAAGTCCAAAAGTTGGAATCGGAATAAAACAAAAGGCTGGGTTAAAACGAGTTACGTTAGAACTAGGATCAAATGCTGCTGTTATAATTGATGAAGATGTAGAGTTAACAGATGAAATCATTGAACGTGTAAAATGGGGAGCATTTGTTAATAATGGGCAAGTTTGTATTTCCGTACAACGTGTTTTTGTACATGAAACGAAAATGCATGAATTTCTTTCGAAGCTAAAGAAAGCGATGGAATCAGTAGTTGTTGGTGATCCACTGCTTGAAGAAACGGATGTATCAGCTTTAATTTCAAAAAAAGATGTAGAGCGAATTGATATGTGGGTTCAAGAAGCAATCAAGGAAGGAGCAACTATTTTACACGGTGGTAAGAAGCGGGATGCAAGAATTTTTGAACCGACTGTATTAACAAATGTTCCAAATCATGTATCTGTGCAGTGCCAAGAAGTATTCGGTCCACTCATGACAGTAAATACATTTAAAGAATTTGATGAAGCGATTGAGCAAGTAAATAATTCGCGTTACGGCTTACAGGCAGGAGTATTTACAAATAATTTATTTAAAGCAATGCGTGCAATCGATGAGTTAGAGGTTGGTGGTGTCATGATTAATGATATTCCAACGTTCAGAGTAGATCATATGCCTTATGGTGGTGTGAAAGAAAGTGGCACGGGGCGCGAAGGAATTAAATATGCAATAGAAGAAATGACAGAAATGAAATTAGTATGTATTAAAAAATAA	MKKHLYINGDWKSVNTYKPLYAPYSEEILAEIAQGTEEDVKEAVIAAKNAMTKMNKLSAYDRAIILEKVAQKMDERREEFAEIIAKEAAKPIRAARGEVDRTVQTYKFAAEEAKRIYGETLPLDAAPGADGRIAYTIRKPIGVIGAITPFNFPLNLVAHKVGPAIAAGNTVVLKPADQTPLSSYALVELFEEAGLPNGALNIISGPGSTVGEAIVKNDYVASITFTGSPKVGIGIKQKAGLKRVTLELGSNAAVIIDEDVELTDEIIERVKWGAFVNNGQVCISVQRVFVHETKMHEFLSKLKKAMESVVVGDPLLEETDVSALISKKDVERIDMWVQEAIKEGATILHGGKKRDARIFEPTVLTNVPNHVSVQCQEVFGPLMTVNTFKEFDEAIEQVNNSRYGLQAGVFTNNLFKAMRAIDELEVGGVMINDIPTFRVDHMPYGGVKESGTGREGIKYAIEEMTEMKLVCIKK	PGPT0001580_5300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK009_00955	393	yueI	COG5506	putative protein YueI	ATGGTAAATAAAAATGTGGAAGATTATCTCCAAGAAGGCATTTACGGCCAAAAGCAAAACAAACCAGAAGAACGTAATATGTATTTAACTACATTACGTGAGCGTGTAGAAATCGCTTTAACGATCGGTCAAGTAATGCAAAGTAATGTATACTCTGAAGTGGCGGGTAGCATGCGCTCTTCTCAATCATTACAACTCCTCCTAAATGGTGGCATTGCTTACCCACATTTATCAAAATACATTAAATTAGCAAACGAAAAAAATGTTCCTTTTACAATTGTTCAAAATAAAGATACAAAAACACCAATCGGTTTAGTATTAACTCATGCTACTGCTGTAGATAAAGAACAAATTTATGTAGAAGATACTATTTTCAAACAAGAAATGAAGTAA	MVNKNVEDYLQEGIYGQKQNKPEERNMYLTTLRERVEIALTIGQVMQSNVYSEVAGSMRSSQSLQLLLNGGIAYPHLSKYIKLANEKNVPFTIVQNKDTKTPIGLVLTHATAVDKEQIYVEDTIFKQEMK				NA	NA	NA	NA	NA
AK009_00956	1119	sasA_3		Adaptive-response sensory-kinase SasA	ATGGAGGTTTTTCCAATCGATAAGGATATTAAAGAAATATTTTGTTCACACTTGAAAAACAATAGGCACCAATTCGTAGAGAACTGGAAAAACAAAATGATAATTTCCGAAAAAGATCCATTTAAACTAGAAGTAGTTCAAAATGGAGAGGATTTACTAGAGTTGATTATCGAACTTACTATGGAAGATAAAGATATAAATTATCTTCAACCGTTATGCGAGAAAATTGCTATTGAACGTGCTGGAGCAGATGCGAATATTGGAGATTTTGTTTATAACGCAAACGTGGGAAGAAATGAACTTTTCGAAGCGATGTGTGAATTAGATGTTAGCGCTCGTGAATTGAAACCAATTATGGCAAAAATACATACTTGTTTTGACAAATTAATTTATTATACCGTTTTAAAATACTCGGAAATTATATCGAAGAATTTAGAGGAAAAACAGCAATATATTAATGAAACACATAAAGAAAGGCTGACGATTTTAGGGCAAATGTCAGCTAGTTTTGTACATGAATTTCGTAATCCGCTTACTTCCATTATGGGATTTGTCAAACTATTAAAGGCAGATCATCCGAGTTTATCGTATTTAGATATTATTTCGCATGAATTAGATCAATTAAATTTTCGTATTTCGCAATTTTTACTCGTATCGAAAAAAGAAATGTGGAATGAATCGGAACGGTTTTGGCTTAATGACTTGTTTCAAGACATTATACAATTCTTATATCCGAGTTTGGTCAATGCGAATGTTTCAATTGAAAAGAATTTACCGTATCCAATTCCGCTTGTTGGTTATCGAAGTGAAGTGAGACAAGTATTTTTAAACATATTAATGAATTCAATTGATGCTCTTGAATCAATGAAAGAAGAACGAAAAATTATCATTGATGTATTTGAAGAAGATCAAGCTATTCGAATTGTGATAAAAAATAATGGACCAATGATTCCAGCTGAAAATGTAGAAACGATTTTTGAACCGTTTGTAACTACTAAAAAGTTAGGAACTGGTATTGGCTTATTTGTATGTAAACAAATTGTGGAAAAACATAATGGGTCCATTATGTGTCGATCAGATAACGATTGGACAGAATTTCAAATTGCATTTCAAAAATAA	MEVFPIDKDIKEIFCSHLKNNRHQFVENWKNKMIISEKDPFKLEVVQNGEDLLELIIELTMEDKDINYLQPLCEKIAIERAGADANIGDFVYNANVGRNELFEAMCELDVSARELKPIMAKIHTCFDKLIYYTVLKYSEIISKNLEEKQQYINETHKERLTILGQMSASFVHEFRNPLTSIMGFVKLLKADHPSLSYLDIISHELDQLNFRISQFLLVSKKEMWNESERFWLNDLFQDIIQFLYPSLVNANVSIEKNLPYPIPLVGYRSEVRQVFLNILMNSIDALESMKEERKIIIDVFEEDQAIRIVIKNNGPMIPAENVETIFEPFVTTKKLGTGIGLFVCKQIVEKHNGSIMCRSDNDWTEFQIAFQK				NA	NA	NA	NA	NA
AK009_00957	750			hypothetical protein	ATGTCTCAATCTGAAATTGAAAAATATGGACAAGAAGTTACGCAATACGAACAGCTCGCACGTTACTATCAGTTTCGTAATCCTAAAAAATATATAGAATTATATATGAAATATTGCGATGCACTTTCAAAACTTGTACAGGCGCATGAAACAAGGGATTCACAAGAAGCTACTTTACCGTCACATATAAGAATTTTTCATGCCGATCCAAATATACCGGCGGTTGACATTTTAGTAAACGGACAAAAAGTTATTAAAAATATTTCATTTAAGCAATTCAGCCCTTATTTATCATTAGTACAAGGTAAATACCGTATAGATATTGTCCCTGTCGGAAATGAAACTCCAATCTTTTCAGCATTGGTACCAATAATGGGAAATCATACTTATACTCTTGCTGCAATAAATAGTGATAATCACCTACAATTACAACCTATACTTGATAATACACATTTACCAGCTGGTCAAGCCAAAATACGCTTTGCACATTTCTCTCCAGATACCCCTGTTGTAAATGTCGATTTAAAAGATGGAGATCATTTATTTGAAAATGTACTCTTTAAACAGATAACAGATTTTTTGCAAGTTAGCCCCGGTACAGCGGATATTGAAATTTCACTCGCAAATAATAAAAACGTTTTATTGACTATACCGAAATTCAATGTTGAACCAAATGTTATTTATACAATTTCAATAGTAGGTTATTCAACTAAAGATCCTAAATTAGAAGCCGTTATACTCACAAATTAA	MSQSEIEKYGQEVTQYEQLARYYQFRNPKKYIELYMKYCDALSKLVQAHETRDSQEATLPSHIRIFHADPNIPAVDILVNGQKVIKNISFKQFSPYLSLVQGKYRIDIVPVGNETPIFSALVPIMGNHTYTLAAINSDNHLQLQPILDNTHLPAGQAKIRFAHFSPDTPVVNVDLKDGDHLFENVLFKQITDFLQVSPGTADIEISLANNKNVLLTIPKFNVEPNVIYTISIVGYSTKDPKLEAVILTN				NA	NA	NA	NA	NA
AK009_00958	1371		COG0161	putative aminotransferase	ATGAAAGAAACGTCAATTTTCTTCATATATATATACAAATTGGAGAAATGGGGGAGCGCTATGCGCGATTACTTAATTAAACCACTTGTTGGTCAGCCATATCCAATGATTTCACATGGAAAAGGTGTTTATTTGTATGATCAAAATGGTAATAAATATTTTGATGGTTCGTCAGGAGCAATTACGGCAGGTATTGGGCATGGCGTAAAGGAGATTGCAGACGTTATTAAAAAGCAAGCTGAGGAGATTGCTTTTGTTTATAGATCACAGTTTACGAGTGAACCAGCTGAAAAATTAGCGAAGAAGTTAAGTGATTTAAGTGTAGGAGATTTGAACTGGAGTTTCTTTGTAAATAGTGGTACGGAAGCAAATGAAACAGCTATGAAAATTGCAATTCAGCATTTTCAAGAGCGAGGTATTCAAGGTAAGCATAAAATTTTATCGAGATGGATGAGTTATCACGGTATTACGATGGGTGCGTTATCGATGTCTGGTCACCCACTACGTAGACAACGTTTCGTATCTATTTTGGAAGATTATCCGACTATACCAGCTCCATATTGTTTCAGGTGTCCTGTTCAAAAGGTATATCCAACTTGTCAGCTGGCATGTGCGACTGAATTAGAAAGATCAATTGAAAGAATTGGTGCAGAGCATATTGCTGCTTTTATTGCTGAGCCGATTATCGGAGCAGCTGGAGGTGCGGTTGTTCCGCCAAAAGACTATTATAAAGTCATTAAAGATATTTGCAACCATTACGATATTTTATTTATTGCGGATGAAGTAATGACTGGGCTTGGTCGTACGGGAGCATGGTTTGCGATGGAGCATTGGGGTGTAGAACCTGATATTATGACACTTGGTAAAGGGCTAGGAGCGGGATATACACCGATGGCAGCGACAGTTGTAAGTGATCGTGTTATGGAACCAATATTACGTGGATCACGTTCAGTAATGAGCGGTCATACGTTAAGTGCAAATCCATTGTCTGCAGCAACGGCTTTAGCTGTTATTGAATATATGGAGAAACATAATCTCCCTGAAAAAACAGCAGAAAAGGGAGAATATTTAATAAAAGGCTTACAGAAAGTTCAACAACAATCGACAATCATTGCTGATGTGCGCGGAAAAGGGTTGCTAATTGGAGTAGAATTGCAACCGTTTACAAAAGCGTCGGAGCTTATTTCGGTTGCAGCTAAAAATGGCCTGCTTTTATACCAAGCAGTTTCAGGGCAAGCAGGAAAAGAAGATAGTGCACTGCTAGTAGCACCGCCAATGACAACTACATATTCCGAGTTAGATGAATTACTTTCAATTTTCTCTAAAAGTGTGGAAGAGATGATGCAAAAAGGAGGGCATAGTATCGCATGA	MKETSIFFIYIYKLEKWGSAMRDYLIKPLVGQPYPMISHGKGVYLYDQNGNKYFDGSSGAITAGIGHGVKEIADVIKKQAEEIAFVYRSQFTSEPAEKLAKKLSDLSVGDLNWSFFVNSGTEANETAMKIAIQHFQERGIQGKHKILSRWMSYHGITMGALSMSGHPLRRQRFVSILEDYPTIPAPYCFRCPVQKVYPTCQLACATELERSIERIGAEHIAAFIAEPIIGAAGGAVVPPKDYYKVIKDICNHYDILFIADEVMTGLGRTGAWFAMEHWGVEPDIMTLGKGLGAGYTPMAATVVSDRVMEPILRGSRSVMSGHTLSANPLSAATALAVIEYMEKHNLPEKTAEKGEYLIKGLQKVQQQSTIIADVRGKGLLIGVELQPFTKASELISVAAKNGLLLYQAVSGQAGKEDSALLVAPPMTTTYSELDELLSIFSKSVEEMMQKGGHSIA	PGPT0007136_1	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION	PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM	PHYTOHORMONE-IAA_RELATED_TRYPTOPHAN_PATHWAY,PGPT0007136-yodT-NA	NA	NA
AK009_00959	699	atoD	COG1788	Acetate CoA-transferase subunit alpha	ATGACAACTATTACAAATACATTCGGTAAATTAAAAGAAATTGAGGAAGTAATTTCTTTGTTCCATGATGATATGACATTAATGTTTGGGGGATTTGGAGGGATTGGATCCCCTCCATCTTTAATACAGGCAATTTTAGAAAAAGGCGTTACAAATTTAAATTTGGTTGGAAATGACACTGGATTTCCTGATGTAGGTATCGGTCGTCTTGTTACAAATGAAAGAGTTAAATCACTAATTACTTCTCACATTGGCTCCAACCCAAATGCAGGAAGGCAACTAAACGAGGGAAGATTACAAATTGAGTTTTCTCCGCAGGGAACATTAGCAGAGCGCATTCGTGCTGGTGGTGTTGGTCTTGGTGGTATTTTAGTTGATGTAGGTGTTGATACGATTGTGGAAGAGGGAAAACGAACGGTTGAAATGAATGGTAAGACATATTTAGTTGAAACAGCATTAACTGCTGAAGTTTCAATTGTATATGCGAAAAAGTCAGATCCGTTTGGTAACCTTGTTTTTGACAAAAGTGCACGAAATATGAATCCTCACGTAGCAATGGCTGGGGATATAACAATTGTAGAAGCAGAAGAAATAGTCCTGCTAGGAAGTTTAGATCCAGAGGAAATCGTCGTTCCAGGTGTTTTCGTAAATTATATTGTACCGTCGGAAGGAGTGAACTGGAAATGGGTATGGGCGTAG	MTTITNTFGKLKEIEEVISLFHDDMTLMFGGFGGIGSPPSLIQAILEKGVTNLNLVGNDTGFPDVGIGRLVTNERVKSLITSHIGSNPNAGRQLNEGRLQIEFSPQGTLAERIRAGGVGLGGILVDVGVDTIVEEGKRTVEMNGKTYLVETALTAEVSIVYAKKSDPFGNLVFDKSARNMNPHVAMAGDITIVEAEEIVLLGSLDPEEIVVPGVFVNYIVPSEGVNWKWVWA	PGPT0021755_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021755-atoD-K01034	NA	NA
AK009_00960	663	scoB	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGGTATGGGCGTAGAAGTGAGAGATAAGATTGCTAGGCGAGCGGCGAAAGAAATACAAAATGGCATGATTGTAAATTTAGGTATTGGCATACCATCGCTTGTACCAAATCATTTGCCTGACGATATAAATGTTATGTTTCATGCGGAAAATGGAATCGTCGGAATGGGACCAACACCAAGTAAAGGGAATGAAGATGAAAATTTGTGTAACGCAGCAGGTTTACCAACTTCTCTTATAACAGGAGCGAGTTATTTCGATAGCTGTACAGCGTTTGGTATGATTCGAAAAGGTTTGCTAGATATAACGATTCTTGGTTCATTACAGGTAAGTGAAAATGGTGATTTAGCAAACTGGATTGTACCTGGAAAACGTGTTCCAGGCATTGGTGGAGCAATGGATTTAGCACAAAAAGCGAAGCGGGTCGTTGTTGTGATGAATCATGTTGATAAGTATGGAAATGCAAAAATTGTTTCAGAGTGTACATTGCCATTAACTTCAAAGAAATGTGTAGATTTAATTATTACTGATATGGCGGTCATGGAGGTAACTCCGAGTGGACTTATATTACAAGAATTAATGAGTCCATACACAGTAGAAGATGTAAAACGACATACAGAAGCTGATTTTCAAATTAGTTCTAACTTACTAGTAATTGAATGA	MGMGVEVRDKIARRAAKEIQNGMIVNLGIGIPSLVPNHLPDDINVMFHAENGIVGMGPTPSKGNEDENLCNAAGLPTSLITGASYFDSCTAFGMIRKGLLDITILGSLQVSENGDLANWIVPGKRVPGIGGAMDLAQKAKRVVVVMNHVDKYGNAKIVSECTLPLTSKKCVDLIITDMAVMEVTPSGLILQELMSPYTVEDVKRHTEADFQISSNLLVIE	PGPT0021750_131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021750-atoA-K01035	NA	NA
AK009_00961	1269	ylmB_1	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	GTGGAGCAATTAAAAAAGCAAGTTTGTGATTATATTGAGAGTCATGAAGAAGAAAGTGTAAAATTTTTAAAGCGATTAATTCAAGAAAAGAGCGTATCTGGTGATGAAAGCGGTGCGCAGGCGATTGTGATTGAAAAATTACGTGAATTAGGTTTAGACCTCGATATTTGGGAGCCTTCTTTTTCTAAAATGAAAGGTCATCCTTATTTTGTATCACCCCGTACAAGTTTTTCAGATAGCCCAAATATTGTAGCAACTTTAAAAGGAAGTGGCGACGGGAAATCTATGATATTAAATGGGCATATTGATGTAGTTCCGGAAGGGGATGTGAATCAGTGGGAACATCATCCTTATAGTGGTGAGAGAATAGGAAATCGTATATATGGCCGTGGAACGACGGATATGAAAGGCGGAAATGTCGCACTCATGCTTGCGATGGAAGCGATTATTGAATCTAGCATTGAATTAAAAGGAGACATCTATTTTCAAAGTGTAATAGAAGAGGAAAGTGGCGGAGCAGGGACATTAGCAACTATATTACGAGGATATAAGGCAGATGGTGTCATTATTCCAGAACCTACTAATATGAAGTTTTTCCCGAAACAACAAGGTTCCATGTGGTTTCGTCTACGTGTAAAAGGGAAAGCAGCACACGGTGGAACGCGTTATGAAGGGGTTAGTGCAATTGAAAAAAGTATGTTTGTTATAGAACATGTAAGAAAGCTAGAGGAGAAAAGAAATAGTCGAATCACAGATCCGTTATTTAAAGGAATTCCGATTCCAATTCCAATTAACATTGGGAAAATTGAAGGAGGGAGTTGGCCAAGTTCTGTTCCCGATGAATTAATTTTAGAAGGAAGATGCGGTGTTGCGCCGAATGAGACTATAGAGGCGGCAAAAGAAGAATTTGAGAATTGGATTGCTGAATTAAATGATGTGGACAATTGGTTTGTTGAAAATCCAGTAGAAGTAGAATGGTTTGGAGCGAGATGGGTTCCTGGTGAATTAGAAGAAAATCATGAACTTATTACCGCACTTCATCATAACTTTGTTGAAATCGAAGGGAACGAACCAATTATTGAAGCATCTCCTTGGGGGACTGATGGAGGTTTATTTACACAAATCTCAGGTGTACCAACTATAGTATTTGGTCCAGGAGAGACAAAAGTAGCACACTATCCAAACGAGTATATAGAAGTTGATAAAATGATAGCTGCCGCAAAAATTATTGCATGTACATTACTAGATTGGTGTGAGGTGAAAAAATGA	MEQLKKQVCDYIESHEEESVKFLKRLIQEKSVSGDESGAQAIVIEKLRELGLDLDIWEPSFSKMKGHPYFVSPRTSFSDSPNIVATLKGSGDGKSMILNGHIDVVPEGDVNQWEHHPYSGERIGNRIYGRGTTDMKGGNVALMLAMEAIIESSIELKGDIYFQSVIEEESGGAGTLATILRGYKADGVIIPEPTNMKFFPKQQGSMWFRLRVKGKAAHGGTRYEGVSAIEKSMFVIEHVRKLEEKRNSRITDPLFKGIPIPIPINIGKIEGGSWPSSVPDELILEGRCGVAPNETIEAAKEEFENWIAELNDVDNWFVENPVEVEWFGARWVPGELEENHELITALHHNFVEIEGNEPIIEASPWGTDGGLFTQISGVPTIVFGPGETKVAHYPNEYIEVDKMIAAAKIIACTLLDWCEVKK	PGPT0014254_605	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
AK009_00962	900	yodP		N-acetyltransferase YodP	ATGAAATACTATGAATCTTTTAGAGAACAGACGAATTGTTATACAGTAGAAGGCGTTTTAGATTATTTTAATAAACGTATCCGAGTAGACCACTATACAGGAAATGTTGAAAGTATTATACAGACAATTGACGAACTAGCAGAGAAACATTCTTTCACTAAATGTATTATTAAAGGAAAGGGAGAGCATGTTTCAACATGGCTCTCTTTCGGTTTTTTGTTGGAAGCAACGATACCTCATTATTTTCAAGGACACGATGCATACTTTTTTGTGAAATATAATAATGATGAAAGACGAAATAGTATGCATTGGACTGAGGAAGATACTATATTAAGCGGTGTAAAAGGAAAAGAAATAAAAGAAAAAGTAGTTCCAGAGAAATTTCTGCTGAGAAAAGCGACTGAAGAAGATGCAGAAGAATTAGCAACTGTATTCGGAAAAGTATTTGAAGTGTATCCGACACCTTTAAATGAAGCGAGTTATGTATTACAGACGATGAAAGAAGACGATACAATTTACTACGTGTATGAATTTGAGGGGGAAATTATTAGTACAGCATCTGCAGAAATGAATATAAAAGAAGGGAATGCAGAATTAACAAATTGTGCTACTTTACCTGAATATCGTAAACATGGATTTATGAAAAGTTTACTAATTAAATTAGAGGAAGAGCTCCGAGAAAAATCTATTTTCTGTTCCTATACAATTGCTCGATCGCTTTCTTTCGGAATGAATGCTGCATTTCATCAATTAGGCTATACGTATAAAGGAAGACTGGCGAATAATTGCTACATTTTCGATAAGTTGGAAGATATGAATATATGGGTGAAAGATTTATCTAGCTATTCGAAAGCAGTAAAAATTCCGCCTCAAAATTCGGCTGTAAAGCAAAATAGTTAG	MKYYESFREQTNCYTVEGVLDYFNKRIRVDHYTGNVESIIQTIDELAEKHSFTKCIIKGKGEHVSTWLSFGFLLEATIPHYFQGHDAYFFVKYNNDERRNSMHWTEEDTILSGVKGKEIKEKVVPEKFLLRKATEEDAEELATVFGKVFEVYPTPLNEASYVLQTMKEDDTIYYVYEFEGEIISTASAEMNIKEGNAELTNCATLPEYRKHGFMKSLLIKLEEELREKSIFCSYTIARSLSFGMNAAFHQLGYTYKGRLANNCYIFDKLEDMNIWVKDLSSYSKAVKIPPQNSAVKQNS				NA	NA	NA	NA	NA
AK009_00963	1434	rocR_1	COG3829	Arginine utilization regulatory protein RocR	ATGCCGAAAATTCGGCATGTAATTGCTGGATTTTCGGCAAAAGGGGGGATGACATTGCTAGCAGTTTCGACACAAGAAGTCATTGAAGCGATTTTGGGCAGCATTGATGAGGCTATACACGCTGTAGATGAAAATGGAATTACAATATTTTATAACTCTGTAGCTGCAAAACACGATGGATCCAAGATTGAAAAAGTGTTAGGGAAGCATTTGTTAGAAGTGTTCCCGTCTTTATCAAGGGAAACGAGTACATTGATGAAAGTATTAGATACAAAAAAACCTATCGTACATCAAGTACAGCATTATCAAAATTTAAATGGTGAAGATGTTTGTACAGTAAATACGACGTTACCTATTTTTATAGATGGGAATATTGCCGGGGCTGTTGAAATTGCAAAGGATTACTCTACAATTCAAAAACTTACTGACACAATTGTTGATTTACAGTCGAAAATAAAACGGTCATCTAGAAAAAAATTGATTAAAAAGCATGCTGCATTTGAGACGATAGTGACAAATGATACGCGGTTTAAACAGACGAAAGAGCTAGCACAAAAAGTAGCACCAACAGACGCAAATGTTTTAATATATGGTGAAACAGGAACAGGAAAAGAACTGTTCGTACAAGCAATTCATGAAGCTTCTAAAAGAAAAAACAAGCCATTTATTGCACAAAACTGTGCAGCTTTACCAGAGTCGTTATTAGAAAGTTTATTGTTTGGAACGACAAAAGGAAGCTATACAGGAGCGATTGAAAGAGCTGGGCTATTTGAACTTGTTGATGGTGGTACATTATTTTTAGATGAACTGAATTCAATGCCTCTTGATTTGCAAGCAAAAATGTTACGAGTGTTAGAAGATGGAGTCATTAGAAGAATTGGTGATAATAAGACGAGAAAAGTAGATGTTCGCGTTATTACCGCAATGAACCAGCCTCCAGAAATATGTTTACGAGAGAATAAAATTCGCACTGATTTATATTATCGCTTAAACGTATTTTCATTATATATCCCACCGCTTCGTGAAAGAACTGAGGATGTACTATTATTAGCATCTTATTTTTTGAAAGAATATAATAAAAGTTATAAAAAAGGTGTACTTCAAATTGATGAGGAAGCGAAAGATAGACTGCAAGCTTATCAGTGGCCTGGAAATGTCCGGGAGTTAAAACATACGATTGAACATGCTGTCATAATTGCAGAAGGTAATACATTAACAGCTAATTGTTTACCGCGTACATTTCGGAAAGAGAATCTTCCGAAGAAGAAGAGCATATTGCCACTTAGAGAAGCACTTCATCAAACAGAAAAAGAATTAATAGATCAAGCGTTGATTGAAACGGAAGGGAATATATTACAAGCCGCAAAAATGTTAGGTATCCCTCGTCAAACGCTTCAATATAAACTGAGCAAGTACGACAAAACCGCCGAATAA	MPKIRHVIAGFSAKGGMTLLAVSTQEVIEAILGSIDEAIHAVDENGITIFYNSVAAKHDGSKIEKVLGKHLLEVFPSLSRETSTLMKVLDTKKPIVHQVQHYQNLNGEDVCTVNTTLPIFIDGNIAGAVEIAKDYSTIQKLTDTIVDLQSKIKRSSRKKLIKKHAAFETIVTNDTRFKQTKELAQKVAPTDANVLIYGETGTGKELFVQAIHEASKRKNKPFIAQNCAALPESLLESLLFGTTKGSYTGAIERAGLFELVDGGTLFLDELNSMPLDLQAKMLRVLEDGVIRRIGDNKTRKVDVRVITAMNQPPEICLRENKIRTDLYYRLNVFSLYIPPLRERTEDVLLLASYFLKEYNKSYKKGVLQIDEEAKDRLQAYQWPGNVRELKHTIEHAVIIAEGNTLTANCLPRTFRKENLPKKKSILPLREALHQTEKELIDQALIETEGNILQAAKMLGIPRQTLQYKLSKYDKTAE	PGPT0001030_2508	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
AK009_00964	1422	kamA	COG1509	L-lysine 2,3-aminomutase	ATGTTACATGATGTATACAAACCAAATCGTCACTGGAAGGATATCGAATTATGGAAAGATGTTACTGAAGAGCAATGGAATGATTGGGTTTGGCAATTAACGAATACGATCAAAACGTTAGATGACTTAAGAAAAGTAATTAACTTAACACCTGAAGAAGAAGAGGGCGTTAAAATTTCAACGAAAACGATCCCGTTAAACATTACACCGTACTATGCTTGGCTAATGAATCCTGATGATCCACGCTGTCCGATTCGGATGCAATCAGTACCGATTTCGGAAGAGTTATATAAAACAAAATATGATTTAGAAGATCCGCTTCACGAAGATGAAGATTCACCAGTTCCAGGGCTAACACATCGTTATCCAGACCGTGTACTATTCTTAGTAACAAATCAATGTTCTATGTATTGTCGTTACTGTACACGCCGTCGTTTTAGTGGACAAATTGGAATGGGTGTACCGAAGAAACAATTAGATGATGCGATTGCTTATATTAGTGAAACACCACAAGTACGAGATGTATTAATCTCCGGTGGTGATGGACTTCTAATTAACGATAAAATTTTAGAATATGTATTAAAAAATTTACGAGAGATTCCGCATGTTGAGATTATTCGTATCGGAACGAGAGCACCAGTAGTATTCCCGCAACGTATTACAGAAAATTTATGTAACATTATTAAAAAATACCATCCAGTATGGTTAAATACACATTTCAATACATCTATTGAAATTACTGAAGAATCGAAAAAGGCATGTGAAATGTTAGCGAATGCTGGTGTTCCAGTCGGAAACCAAGCAGTAATTTTAGCTGGTATTAACGACAGCGTTCCAATTATGAAAAAACTTATGCATGACTTAGTAAAAATCCGTGTACGTCCATATTACATTTATCAATGTGATTTATCTGAAGGTATCGGTCACTTCCGTGCACCAGTATCTAAAGGTCTTGAAATTATTGAAGGTTTACGTGGACACACATCTGGTTATGCTGTTCCGACATTCGTTGTTGATGCGCCAGGTGGAGGCGGTAAAATTGCACTTCAACCAAACTATTTAATCTCACAAAGTGCAGATAAAGTTGTACTTCGTAACTTTGAAGGTGTTATTACGACGTATCCAGAGCCAGAGAGCTATATTCCAGGAAGAGCGGAAGGATACTTTAAAGAGATTTATCCGAACTACGAAGAAAAACGTTCAGATGTTGGTATCGCAGGTCTTATGAGCGATAAGAAATTTAACCTCGTTCCAGACGACTTACAGCGTATGAACCGTCGTAAAGACTACGAAGATAATGATACTCATGCATCTTTAAAAGATAAACGTGATAAGCGTGATCAATTAAAAGATAAAAAATATCAAGCACAAATGGCTAAATTAGAAGAAAACGACAAAAAAACTGAGGGTGATGCAGTATGA	MLHDVYKPNRHWKDIELWKDVTEEQWNDWVWQLTNTIKTLDDLRKVINLTPEEEEGVKISTKTIPLNITPYYAWLMNPDDPRCPIRMQSVPISEELYKTKYDLEDPLHEDEDSPVPGLTHRYPDRVLFLVTNQCSMYCRYCTRRRFSGQIGMGVPKKQLDDAIAYISETPQVRDVLISGGDGLLINDKILEYVLKNLREIPHVEIIRIGTRAPVVFPQRITENLCNIIKKYHPVWLNTHFNTSIEITEESKKACEMLANAGVPVGNQAVILAGINDSVPIMKKLMHDLVKIRVRPYYIYQCDLSEGIGHFRAPVSKGLEIIEGLRGHTSGYAVPTFVVDAPGGGGKIALQPNYLISQSADKVVLRNFEGVITTYPEPESYIPGRAEGYFKEIYPNYEEKRSDVGIAGLMSDKKFNLVPDDLQRMNRRKDYEDNDTHASLKDKRDKRDQLKDKKYQAQMAKLEENDKKTEGDAV	PGPT0014370_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0014370-ablA-K01843	NA	NA
AK009_00965	273			hypothetical protein	ATGAATTGTATGTGGTGTGACAGTACAGAAGCGAAAGAAAGCTTGAATACTGTATATTGGGAATTACCAGATGGTACGAAAGCCATTGAAATCCAAAAGACACCATGTATTTCTTGTTCCTCGTGCGGGATGGACTATCAATCAGACCATACAGTAAAAGAAATTGAAGATCAGTTATTTTTAATTTATACGAAAGATTTACCAAAACAACTAACATATGAAGAATTAATGGGAAGACCACGTCTATTAAAAAGAAATTACTTCGACTTTTAA	MNCMWCDSTEAKESLNTVYWELPDGTKAIEIQKTPCISCSSCGMDYQSDHTVKEIEDQLFLIYTKDLPKQLTYEELMGRPRLLKRNYFDF				NA	NA	NA	NA	NA
AK009_00966	192			hypothetical protein	ATGATGAAGCATCGTGCAGCTTTATTTAGAAATGAAATTTCAGATTTAGCAGAGGCGATGTATGATGATTTAAGTTTTCCGAAGCAATCTGAAGACTATGATGAAATTAGTTCATACTTAGAGTTGAGCGGAATGCTAGAAAGTATGTCTATATTTGATGAAGCCTGGGATTTATACATACAAGATAGATAA	MMKHRAALFRNEISDLAEAMYDDLSFPKQSEDYDEISSYLELSGMLESMSIFDEAWDLYIQDR				NA	NA	NA	NA	NA
AK009_00967	663			hypothetical protein	ATGGCAAGAAAAAAACAACCTAAATACAACGTAGGGGACATAGTCGTGATTACGCTATATGGAACCGTTGGGAAAATCACAAATATGAAGGTTTTAGATGGAGTTTATGTATACGAAGTCAATAATCACGATGGATTTTACGTAGAGCAAACGCTGCAGCACGTTACAGAGCAAGATATGAAAAAGGGCGATACGGAGTGGATTGAATTAAATTATAATTTCACGTTTGGTGATCTTGTGCAAGTAACTGGATATGATAAAGATGTTTTCCGTATTGTTGGTTTTCGTACAGAAGTATGGAGATATAAGAATGACGCATGGGAAGATACAATTTATGAATTGTCACGGATTACGGATGGTGAATGGTTAGAAGCGGATGAGTCAGATTTAACGTTACTTGCCAATGCTCAAACGGCAAATGCAATTTTGAAGAAACTGAAACAAGATAAAGCAGGTATGAATAAATTAGATTTAGGTAAGTTAAAGTCAATTAACAACTCGAAAAAAGTGAGTGTTAAGACGAATCGTCAAGAAATCATTGATGGATTACTTGATATTTATAACGATTATCAATTATTGTTCGATACATTTAAAGATGAAGAATATAAAATTGTAATGGATGTTGTTCATAATTATTTAGTTAAATTGACAGAGAAAAAATAG	MARKKQPKYNVGDIVVITLYGTVGKITNMKVLDGVYVYEVNNHDGFYVEQTLQHVTEQDMKKGDTEWIELNYNFTFGDLVQVTGYDKDVFRIVGFRTEVWRYKNDAWEDTIYELSRITDGEWLEADESDLTLLANAQTANAILKKLKQDKAGMNKLDLGKLKSINNSKKVSVKTNRQEIIDGLLDIYNDYQLLFDTFKDEEYKIVMDVVHNYLVKLTEKK				NA	NA	NA	NA	NA
AK009_00968	156			hypothetical protein	ATGGAAAATCAATATGAAGTAGGACAAACAAAAGAAGAGTTCATGCATGAAGATCAATGGGCAGACTCTCTTATAAAGTGGCTTTTTATTTTTTTAATAATTGTAGGCATACCTTATACTGCATATGTTGTTGTTCAATTTATTCTCTCTTTCTAG	MENQYEVGQTKEEFMHEDQWADSLIKWLFIFLIIVGIPYTAYVVVQFILSF				NA	NA	NA	NA	NA
AK009_00969	180			hypothetical protein	ATGAAGGAAATTGAAGTCGTGATTGATACGGAAGAGATTGCGGAGTTTTTTTATGAGCAACTAATTGAAAGAGGGTACGTCCCGAAACGAGAAGAAATTGAAGATCTCGCAGATATTACATTTGAGTATTTATTAGAGAAATGCATGATTGATGAAGTTTTTGATGAAGAGGATGAATGA	MKEIEVVIDTEEIAEFFYEQLIERGYVPKREEIEDLADITFEYLLEKCMIDEVFDEEDE				NA	NA	NA	NA	NA
AK009_00970	822	ybdM	COG0515	putative serine/threonine-protein kinase YbdM	ATGAAATGGCGTCGTGTACTAGCATTATTTGATAGACCACTGCGGAAAAATACAATTGTTGCAGAACGTTATAAAATTGAATCAGTAATTGGAATGGGCAGTTATGGGGTCACATATGTCGTTAATGATTTACAAGTAAATAGATATAAAGTCTTAAAACAATTAAGACAAAGTAAACAAAGATATGAGTCTGGTAGAAAATCATTTGAACAAGAGAAAATGATTTTACAAACATTAAATCATCATGCAATTCCTAGTCTGTATGATCATTTCATATGGGAGAAAAAGAGCTTCTTTGTGATGGAGTACATGCCTGGTAAAAATTTTGAAGATTATATTTTCATAGATGGGTATGTATATACAGAACGTGAAGTTTTTGAGATTTTATATGAAATATTAGAAATTGTATCGGTGTTTCATAGTGAAGGCATTATTCACCGAGATTTACGCATTCCAAACATATTAATGAAAGAAAATCAAATTAGTATTATTGATTTTGGATTGGCTAAATGGAAAGGTGAGGGTGATGAGAGAGCTACAACTTACGAAGGTGAACAAGCTTTGATGCGAGAAGTCCACTTTCGTAGCGACTTTTATGCACTCGGTCATTTCTCGTTATTTTTATTATATGCAGGATATGAATCTAATGAAAAACAGGAAAAACCATGGTACGAAGAATTAACTTTGGAAAATTATAATCGCGAAATGCTTATGCGAATGTTACAAATAAAAACGCCGTACTATGAGAATGTACAAGATTTAAAACAAGATGTAGCTTCTGCTTTAGAAAGGATGGAGACTCCATGTTTCAAAAGTTTTTAG	MKWRRVLALFDRPLRKNTIVAERYKIESVIGMGSYGVTYVVNDLQVNRYKVLKQLRQSKQRYESGRKSFEQEKMILQTLNHHAIPSLYDHFIWEKKSFFVMEYMPGKNFEDYIFIDGYVYTEREVFEILYEILEIVSVFHSEGIIHRDLRIPNILMKENQISIIDFGLAKWKGEGDERATTYEGEQALMREVHFRSDFYALGHFSLFLLYAGYESNEKQEKPWYEELTLENYNREMLMRMLQIKTPYYENVQDLKQDVASALERMETPCFKSF				NA	NA	NA	NA	NA
AK009_00971	756	spo0M	COG4326	Sporulation-control protein spo0M	ATGTTTCAAAAGTTTTTAGCAAGCGTTGGTATTGGGAGTGCAAAGGTAGATACTGTTCTTGAAAAAGATGAGTATATTGTTGGGGAAGAAATAGTTGGAAAGGTTCATATAACTGGAGGTTCAGTTAGCCAGCAAATTGAAAGCATTTACTTAACATTATCGACGTCGTATGTACGAGAAGTGGATGATAAAAAAGTAACATCAACGTATGATTTAGAGCGAGTACGCTTAACAGAACCATTTTCTATAGAACCGAATGAAAAAGTTGAAATTCCATTTTCTTTTCCAATGCCAATTGAAGCACCACTTACACTTGATATGAAAACGGTTTGGATTCATACAGGTCTTGATATTAAACATAGTATAGACCCAAGTGACCGCGACTACGTTCAAGTGTTACCCAATGCATTATTAAGTAGTGTTTTAGATAGTGTAAATGAATTAGGGTTTAAAGCACGTCATATAGAATGTGAAGAATTACCGCATCGATTACGTAAGCAAGTTCCATTCGCACAAGAATTTGAGTTTATTCCAGTTTCTGGAGAGTATTATGGGAAATTAGATGAATTAGAATTATTAATCTTGCCACGTGCATACGATCGACTAGAAATTATTATGGAAGTAGATAGAAAATCTCGTGGTTTAGCTGGATTATTCGCTGAGGCGCTTGATCTTGATGAGAAGGTGATTCGTTTTACCGTAACAAGAGAAGATATCCCTGAGATGAAGCAAAAAATTAATAATTATATTTTTTAA	MFQKFLASVGIGSAKVDTVLEKDEYIVGEEIVGKVHITGGSVSQQIESIYLTLSTSYVREVDDKKVTSTYDLERVRLTEPFSIEPNEKVEIPFSFPMPIEAPLTLDMKTVWIHTGLDIKHSIDPSDRDYVQVLPNALLSSVLDSVNELGFKARHIECEELPHRLRKQVPFAQEFEFIPVSGEYYGKLDELELLILPRAYDRLEIIMEVDRKSRGLAGLFAEALDLDEKVIRFTVTREDIPEMKQKINNYIF	PGPT0024630_579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024630-spo0M-K06377	NA	NA
AK009_00972	636	pgpB	COG0671	Phosphatidylglycerophosphatase B	GTGAAACGATATCGACATTTATACTTGCTAAGTTTTACGTTACTCATTTGTTTTGTCGTATTATCACTTTCGTATCATACCGCTTGTATTGAGAATTTTGACAATATAGTCGCACATTTTATTCAAAGCTTTCGAAACGATTATTTGACGACCTATTTTACTTGGGTGTCTTTTATCGGTTCCAAAAGGATATTTTTCCCATTACTCATTATTCTTGTAATGTATTTTCTCGTTAGAAAAAAGTTGCTTAGTGCATTGCTTCTAACAATTAATTACTACGGATCTCGTTATTTAAACAGTCTGCTTAAACTATGGTACGAACGAGCAAGACCTGATGTTACGCAGCTTGTTACTGCAACTGGATATAGTTTTCCGAGCGGTCATACGATGAATGCTACGGCTTTTTTAGGATTTATTGCATACGTCACAATTACTGAAGATCGTATTTCGTTGCATAAAAAATTGCTAATTATTCTTATAGCAAGCTTTGTTGTATTATCTATTTCAGTTAGCCGAATATATCTTGGCGTGCACTATCCATCTGACATATTAGCAGGATGGGCAGCTGGCGGTAGCTGGCTCGTTTTATGTGTTATATTCCATAAAACGTTCATAAAAAAAGAACCTATGTCATAA	MKRYRHLYLLSFTLLICFVVLSLSYHTACIENFDNIVAHFIQSFRNDYLTTYFTWVSFIGSKRIFFPLLIILVMYFLVRKKLLSALLLTINYYGSRYLNSLLKLWYERARPDVTQLVTATGYSFPSGHTMNATAFLGFIAYVTITEDRISLHKKLLIILIASFVVLSISVSRIYLGVHYPSDILAGWAAGGSWLVLCVIFHKTFIKKEPMS	PGPT0007715_445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007715-pgpB-K01096	NA	NA
AK009_00973	882	mneS	COG0053	Manganese efflux system protein MneS	ATGGATACTCTTTCTCATAAAGAAGCTGATAAAGGTGCTATTGTCAGCATTATGGCCTACATATTTTTATCCTCTATGAAAATCATCATCAGTTATATTACCCTCTCTAGCGCATTACGTGCTGACGGTTTAAATAACTTAACGGATATCGGTGCTTCTTTAGCGATATTAATTGGTCTAAAAATATCTCGTAAACCTCGTGACCCAGATCATCCGTATGGGCATTCACGGGCCGAACAAATCGCATCACTTGTTGCGTCCTTCATTATGGCAACAGTCGGATTAGAAGTTGTTATTAGTGCCATTCAATCTTTCTTAAATCCGAAACAAGCAGCACCTAATGTACTCGCTGCATGGGTTGCTTTATTTTCTGCTGTCGTTATGTACTGCGTGTATTTGTATACGAAAAAAATTGCAGCACGAACAAAAAGTAAATCACTAGAAGCTGCTGCAAAAGATAATTTATCAGATGCACTCGTAAGTATCGGTACTGTAGTAGGTATTGTCGGTTCTCAGTTCCAAATGCCTATTTTAGACCCTATTGCCGCTTTAATTGTTGGTCTTATTATTTGTAAAACTGCATGGGAGATTTTCGTAGAATCTTCTCATATGCTAACAGATGGAATTGATCCTGATAAAATGGAGGAATACGCTGATGCTATTGAGCATATTGGCGGTGTGGAAAACATTGTAGATATTCGAGCACGTATGTACGGGAATCAAACGTACGTTGATATTACAATTGAAGTAGATGCTCGTATGGATGTTGGAGAAAGTCACTGTATTACCGACAACATCGAAGCTATGCTTCGCAAAAAGTTTGGAATTTACCATGCACACATTCATGTTGAGCCAATGAAAAAAGAACCTATTATGACATAG	MDTLSHKEADKGAIVSIMAYIFLSSMKIIISYITLSSALRADGLNNLTDIGASLAILIGLKISRKPRDPDHPYGHSRAEQIASLVASFIMATVGLEVVISAIQSFLNPKQAAPNVLAAWVALFSAVVMYCVYLYTKKIAARTKSKSLEAAAKDNLSDALVSIGTVVGIVGSQFQMPILDPIAALIVGLIICKTAWEIFVESSHMLTDGIDPDKMEEYADAIEHIGGVENIVDIRARMYGNQTYVDITIEVDARMDVGESHCITDNIEAMLRKKFGIYHAHIHVEPMKKEPIMT				NA	NA	NA	NA	NA
AK009_00974	315	ydbP	COG0526	Thioredoxin-like protein YdbP	ATGAAAGAAATTAAAACAGAACAAGAATTCAAAGACATCATCGCAAGCGAGGAGCCAGTAGTTGTTAAGTTCTTTACTACATGGTGCCCAGATTGCGTACGTATGGACAACTTTATCGGAGATGTAATGGAAGAGTTCAATAAATTTGAATGGTATTCTATTAATAAAGATGAGTTTCCAAGTATCGCTGAAGAGTATCAAGTAATGGGTATTCCAAGTTTACTTGTATACCAAAATGGTGAGAAGCTAGGCCACTTACATAGTGCTAATGCAAAAACTGAAGAGCAAGTTACTGAGTTTTTAGAAGCATACTAA	MKEIKTEQEFKDIIASEEPVVVKFFTTWCPDCVRMDNFIGDVMEEFNKFEWYSINKDEFPSIAEEYQVMGIPSLLVYQNGEKLGHLHSANAKTEEQVTEFLEAY	PGPT0013055_9127	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK009_00975	276			hypothetical protein	GTGGACATAACTCAAAGCGTATCAAGAATAGTGGTTAATGGAAAAGATCTTTCTTTCACTTCAGTTCAAACCTCTGCATGGAATCATGGACCTGTAAATGATTTAATTGTTACGACGAATCAGAGAGTGAATGAGCTTTATCAATTCATGTGGTCACAAGTACCGGTTACGATTTCGGTATATTTTCTTCAAGGGGCGGATTTACTGAGGTTCGTTAGGGTTGCGGGAATTGATGAGCGTGTAACAGGAGAATATGTATATCATTTCATTTGGTGA	MDITQSVSRIVVNGKDLSFTSVQTSAWNHGPVNDLIVTTNQRVNELYQFMWSQVPVTISVYFLQGADLLRFVRVAGIDERVTGEYVYHFIW				NA	NA	NA	NA	NA
AK009_00976	252			hypothetical protein	ATGTTTTATTCATATTTTAATTCTCAAGCTGGCATGCGACCAGCGTATGGTACGTCTATAACGTATAGTGGAGCACAAAGTACAGTCCAAGCTATTCAACAAGCATTACAAATGCAACAACAAATGCAAATGCAGCAGCAAGGAGTACAACCATATTACTCATCCGTAGAGTATTTTTACCCAGTACATCATGTTACACCGTATGGAAGTTCTTTTCTTACTATTCCATATGGAACTGTATACAACTTATAA	MFYSYFNSQAGMRPAYGTSITYSGAQSTVQAIQQALQMQQQMQMQQQGVQPYYSSVEYFYPVHHVTPYGSSFLTIPYGTVYNL				NA	NA	NA	NA	NA
AK009_00977	537			hypothetical protein	ATGTCTTGTTATTACTACTGTAAGTATTGTAAGGAGTATAAAAAGAAGCACCATGATTGTTGTAAGAACACTAGTAAGTGCCATGATAACAAGGACAATCTTGTTAGAGCATCGGCATTTAGAGCTAGAAATACTGTGAATCAAAATGTTCCTGCTAATACTTTTGTGAAAGTGTTATTTCAAAATGAACAATTTGATTTAGCGAATGAGTATAATCCAGCAACATCTATTTTTATGCCGAAGACTAAAGGAGTATATTCTATTATTGGAACGATTGGTTTCTTTCCAAACGATCCAACTTTAAATTATAGAGCGCGTGTAGAAATTCGTGTGAATGGAAACGCAGCGATAGCTATAGATAATGACTTTTTTGGTCCAATAAGTTTTGGAAATGTAGTAAGTGTTTCGACGATTGTTCAATTGAATGCAGGGGATGAAGTTGAGGTTTATGCACAAAGTAGTATAGATGGAGTTTTAAGTCCTTTAGAAGATGGTGCACATTTTGAAGTAGCAAGATTTCCTTCTCCGATTAAATAA	MSCYYYCKYCKEYKKKHHDCCKNTSKCHDNKDNLVRASAFRARNTVNQNVPANTFVKVLFQNEQFDLANEYNPATSIFMPKTKGVYSIIGTIGFFPNDPTLNYRARVEIRVNGNAAIAIDNDFFGPISFGNVVSVSTIVQLNAGDEVEVYAQSSIDGVLSPLEDGAHFEVARFPSPIK				NA	NA	NA	NA	NA
AK009_00978	576			hypothetical protein	ATGTCTTATTATTACTGTAAGTATTGTAAAGATTACAAAAAGGAAAGTCATGATTGTTATAGAAAAAGTAGTAAATGTGATAGGAAGTATGTAAAGGTGAAGTGTTGTGATGATAAGAAAGAGGAGCTTGTAAGGGCATCGGCATTTAGAGCTGTGAATACAGTTAATCAACCTGTTCTAGCAAATACTCCTGTTAAAGTATTATTTCAAAATGAACAATTTGATCTAGCGAATGAATATAATCCAGTAACATCCATTTTCACTCCGAAAACTAGAGGGGTATATAGTGTATTAGGAAATATAACATTTTCTCCAAATGATTTTAATGTGAATTACAGAGCTAGAGTAGAAATTCGTGTAAATGGAAATCTAGCAATAGCGATAGATAATGATTTCTTTGGAACAGGAGTATTTTTTAATAATGATGTTTCAGTAACTACTATTCTTCAATTAGAAGCAGGAGATTCAGTTGAAGTTTTTGCAGAAAGTAGTATTGCGGGCGTAATTGTACAAAATGTTAATGGTTTAAATACGGTTCACTTTGAAGCGGCAAGATTTCCTTCTCCAATTAAATAA	MSYYYCKYCKDYKKESHDCYRKSSKCDRKYVKVKCCDDKKEELVRASAFRAVNTVNQPVLANTPVKVLFQNEQFDLANEYNPVTSIFTPKTRGVYSVLGNITFSPNDFNVNYRARVEIRVNGNLAIAIDNDFFGTGVFFNNDVSVTTILQLEAGDSVEVFAESSIAGVIVQNVNGLNTVHFEAARFPSPIK				NA	NA	NA	NA	NA
AK009_00979	195			hypothetical protein	ATGGAAAAAAAGCCTATCGTGTTCAAAATCCCACCAAATTCAAAGCTAAAAGTTACATTTTTCGGTCCTTGTAACGAAGTAATTACAAATGTGTCTATTATTAATCAACTATGCACCCCAAAATGTCAAACTATCACGCAATATCCAGACTTTAAGAAATATGTAACTGAAGTACGATCGTTATCCCGTTGTTAG	MEKKPIVFKIPPNSKLKVTFFGPCNEVITNVSIINQLCTPKCQTITQYPDFKKYVTEVRSLSRC				NA	NA	NA	NA	NA
AK009_00980	591			hypothetical protein	GTGGAAGAAAATGTACAAGCTCAGCTTTCGCCACCGTGGATCACATATTTTAATGAATTAAAAAATTCAATAGGTGCTGATCCAACTGTTACAGTTGGGCCACTTATTCCTGTTGGTGGTAATTATATTATTTTAGTGCATGCGTTAAGTAATGAAAAAGCGAGAGCGTTAGCAACGTTTTTAAAATCTTTTGTACAATTTGGGAATGTAAGTGTGACAGTTATTGTAACGAATAATGAGAATGAAATTGTAAATCCATTTCCTTGTCCACTAGATGCATTTGAAATAGCTCATTTATTTCAAGTAGCACTAGAAAACAATCCTTATTTTGAACAAGTTGTGGTACAGCCTCAGTTCCCTGGCGGACCGAATGTTGTCTTTCCGGTGTTCACTGCGGAAGTCATTCAGTTTTTCAATGACGATATTTCTAACTTATGTCAAACGTTTACAGGTGTTGCTGCCAATGTATTTCGTGATGTAATGAATGATGAGGTTTGTGATAGCCCAATATTATTTTCTACAAGTTGTGTTATGAACAGTGAAAATACACAATTACAAAATAAAGATTTAACACCAAAATTGTTTTATTAG	MEENVQAQLSPPWITYFNELKNSIGADPTVTVGPLIPVGGNYIILVHALSNEKARALATFLKSFVQFGNVSVTVIVTNNENEIVNPFPCPLDAFEIAHLFQVALENNPYFEQVVVQPQFPGGPNVVFPVFTAEVIQFFNDDISNLCQTFTGVAANVFRDVMNDEVCDSPILFSTSCVMNSENTQLQNKDLTPKLFY				NA	NA	NA	NA	NA
AK009_00981	999			hypothetical protein	ATGGGTTATATTGTAGATATTTCAAAATGGAATGGAACTATCAATTGGGATATTGCAGCATCTCAGCTAGATTTAGTGATAGCTAGAGTTCAAGATGGCTCTAATACGGTGGATTTTATGTATCGAAATTATGTTAGTGAAATGAAAAAGTATAGTATCCCATTCGGTAATTATGCTTTTTGCCGTTTTATATCTATTGCTGATGCAAAGAAAGAGGCACAAGATTTTTGGAATCGTGGTGATCAATCAGCTAAGTTTTGGGTGGCGGACGTAGAAGTTCAAACGATGGCAGATATGCAAGGCGGGACACAGGCATTTATTGATGAATTACGCCGTTTAGGTGCGGAAAAAGTAGGATTATATGTAGGGCATCACATGTATTTATCATTTGGAGCACGTAATATTGAAGCTGATTTCGTATGGATCCCTCGTTATGGAGGGAATAAGCCAGCATATCCATGTGATATTTGGCAATATACGGATTCAGGGAATGTTCCTGGGGTTGGGAAATGTGATCTGAATCGATTAGTAGGAAATAAGTCACTTTCTTGGTTTATAGATTCGAACAAAGCAAATCAACCTAACATAGTGTATACACAGCAACCGAATGGCATTGGTATTGCAGTTTCGAAATATCCTGATGGATACGGAATAAATTTATATGAGAACCCCATGAATCCTCAATTTACAGGTGCACTCACTCAGAAAATTCCATATTTAATCTTAACAGGTTATTGGGGAGGCGGTGAGCAAGATATGATTTGTTTAGGGAACGATAAGCAGTGGGCATATTTAAAACATTTTAAGGTGAAATGGTTTTATGCAACTTCGAAATATCCTGTCGGCTACAGAGTAAATTATTATGAAGAGCCTGAATGTATGAATTATAAAGGAAATATAGATGGATCGACATCTTTTCGAGTGTGGGATAGAGTGGGAAATGCGGTAGATATCGGGCAGAATAGTTGGATACCTGAAGAACATGTAATTATTAAGTAA	MGYIVDISKWNGTINWDIAASQLDLVIARVQDGSNTVDFMYRNYVSEMKKYSIPFGNYAFCRFISIADAKKEAQDFWNRGDQSAKFWVADVEVQTMADMQGGTQAFIDELRRLGAEKVGLYVGHHMYLSFGARNIEADFVWIPRYGGNKPAYPCDIWQYTDSGNVPGVGKCDLNRLVGNKSLSWFIDSNKANQPNIVYTQQPNGIGIAVSKYPDGYGINLYENPMNPQFTGALTQKIPYLILTGYWGGGEQDMICLGNDKQWAYLKHFKVKWFYATSKYPVGYRVNYYEEPECMNYKGNIDGSTSFRVWDRVGNAVDIGQNSWIPEEHVIIK	PGPT0019115_556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_00982	852	prsA3_1	COG0760	Foldase protein PrsA 3	TTGAAAAAGAAAAAGATATTTATTGGAACGATTATTTCATGCTTGATGCTAGCATTATCTGCATGTGGTTCCTCAGACAACGTAGTAACATCAAAAGTAGGAAATGTTACAGAGAAAGAATTAAGTAAAGAATTACGACAACAATATGGAGAAAGTACTTTATATCAAATGATGTTAAGTAAGGCATTGCTAGATAAATATAAAGTTTCAGATGAGGAAGCAAAAAAGAAAGTAGAAGAAGCAAAAGATAAAATGGGTGAGAACTTTAAATCGACTTTAGAACAACTTGGATTGAAAAATGAAGATGAATTAAAAGAAAAAATGAAGCCAGAAATTGCATTTGAGAAAGCAATCAAAGCAACAGTTACAGAAAAAGATGTGAAAGATAACTATAAACCAGAAATGAAAGTAAGTCACATTTTAGTGAAAGATGAAAAAACGGCTAAAGAAATAAAGGAGAAAGTAAATAATGGTGAAGATTTTGCTGCCTTAGCAAAACAGTATTCAGAAGATACTGGTTCAAAGGAACAGGGCGGGGAAATATCTGGTTTTGCTCCTGGGCAAACAGTGAAAGAATTTGAGGAAGCTGCGTATAAATTAGATGCAGGCCAAGTAAGTGATCCAGTTAAAACAACTTACGGTTACCATATTATTAAAGTGACGGATAAAAAAGAATTGAAGCCATTTGATGAAGTAAAAGATAAAATTCGTAAAGATTTAGAACAACAAAGACTAGAAGATACGACAGGTAAATGGAAACAACAAGTAGTCAATGATTTATTGAAAGATGCTAATATTAAAGTGAATAATAAAGAATTTAAAGATACATTTAAATTTCTAGAAAAGAAATAA	MKKKKIFIGTIISCLMLALSACGSSDNVVTSKVGNVTEKELSKELRQQYGESTLYQMMLSKALLDKYKVSDEEAKKKVEEAKDKMGENFKSTLEQLGLKNEDELKEKMKPEIAFEKAIKATVTEKDVKDNYKPEMKVSHILVKDEKTAKEIKEKVNNGEDFAALAKQYSEDTGSKEQGGEISGFAPGQTVKEFEEAAYKLDAGQVSDPVKTTYGYHIIKVTDKKELKPFDEVKDKIRKDLEQQRLEDTTGKWKQQVVNDLLKDANIKVNNKEFKDTFKFLEKK				NA	NA	NA	NA	NA
AK009_00983	219			hypothetical protein	ATGAAAGTAATCTTTCAGGGAGAGGGCGGCGCGAAAATTTTTGAGTCATATGATGAAAATATAAGTGATTTATTAGCAATATTAAAAGAAACGAAAGGGATTAAAATAGGGATGGTTGAGTATAAAGTGTTAAAGTACGAACTTAATTATTTTCGTCATCCGAAAAAATCGGATACAGAGAGAGAGTTACATATAATAGTACAACCTATGTATATGTAA	MKVIFQGEGGAKIFESYDENISDLLAILKETKGIKIGMVEYKVLKYELNYFRHPKKSDTERELHIIVQPMYM				NA	NA	NA	NA	NA
AK009_00984	231			hypothetical protein	ATGAGTTTAGCTAGTTACATAGGCTGTAATGTAGAAATTCCGTTAACGGTTCCAGATTCTAATGATGTAATTGTTTTTGGACCGTGTTTTTCAGATGAAAGTATGCTTGAAATTGTACAAGAGTATCAATTCCAAACAAATTTCACATATGAGGTTTCAACTAGTTGGGGAATTGAACTTGTCGAGTGGCAAAACGTAAAGGAAAAAAAGAAGCGAAAGAAAAACTTTTAA	MSLASYIGCNVEIPLTVPDSNDVIVFGPCFSDESMLEIVQEYQFQTNFTYEVSTSWGIELVEWQNVKEKKKRKKNF				NA	NA	NA	NA	NA
AK009_00985	222			hypothetical protein	GTGGCAAAACGTAAAGGAAAAAAAGAAGCGAAAGAAAAACTTTTAACTTTATGCAAGATTATGGAAGGCTATTTGGAAGATGGAGACTATTTCGAATTATTTAGTTGTTGGGTTGGTGATGAAGGTAAGGAACGAGTAGGGGAATTGAAATTAAAAATAAATCATTTTAATATAGATGAATTATGTATTCCAGAAAGAACATTAGTTAGGATAGAAAAATAA	MAKRKGKKEAKEKLLTLCKIMEGYLEDGDYFELFSCWVGDEGKERVGELKLKINHFNIDELCIPERTLVRIEK				NA	NA	NA	NA	NA
AK009_00986	336			hypothetical protein	ATGAACGATGTAAAGATACAAAAAGAAGAAAGAGAGTGGGTTCCGTTTACAGTAATATCGGAACAACTTTTAAATATGAGAAAGATTATTGGAGAGAAATTAAAAGTACAAAAACCGCTTTTAACAAATGAAGCAAAAGAGAGAATTTCTGATAAATTATTAAATTCATTACTGTCTGAGAAAGAAATATTGGTAACATATTTTGAAGATGGCTACATATTAACAAGCTACATGACAGTTGTACATATTAATCCGGTAAAACAAATTGTAATTTGCACAGACGCCTTTTATAAAACTTACGTATTTAACGCTATGGATATTATTGAAATAACGTAA	MNDVKIQKEEREWVPFTVISEQLLNMRKIIGEKLKVQKPLLTNEAKERISDKLLNSLLSEKEILVTYFEDGYILTSYMTVVHINPVKQIVICTDAFYKTYVFNAMDIIEIT				NA	NA	NA	NA	NA
AK009_00987	216	gerPF_1		putative spore germination protein GerPF	ATGCCATCAGTTGTAGGAAATTTAGTTGTACAAAATAGTAATGGTTCATTTAACTTAGGTGATTTCTACAACGTTTCTCCGAAAGAAAATACGAAAGCTTATAATGGCTCCGGCGCATCAAACGTTGGTTTTGTTGTTAATACTTTTAGCGGTGTTAGCGCGACCAATACATTTGATTCTGACCTTGCAGATCAAAACCAAGTGGGTACAGCCTAA	MPSVVGNLVVQNSNGSFNLGDFYNVSPKENTKAYNGSGASNVGFVVNTFSGVSATNTFDSDLADQNQVGTA	PGPT0025090_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
AK009_00988	339			hypothetical protein	ATGAAAGATATTATGAAAAAAGTTGATTTAACAGATGCCAAATCAAGTAATCTTGTTGCACTAATTTATAGTAATGAAGTTATATTAGTTGAAGACGCATTTTGTCCAAATGAAATAAAATTAAAGTTTAATGAAATTGCAATTTTATCTGCAATTAAAACAGCTCATATTGCGAAAGTTTCTATTAGGAAAGAACTTGAAGCGCTTTTTCATGATACGGGTGTTATATTAGTGAAACAAAATGTTGATTATGGTAGTAGTCAATCTATTACCATGCATTTTGAGCAATTTAAAAAATTGCAATATGAGATTGAACATTTAAATAAAAGTATGTCATAA	MKDIMKKVDLTDAKSSNLVALIYSNEVILVEDAFCPNEIKLKFNEIAILSAIKTAHIAKVSIRKELEALFHDTGVILVKQNVDYGSSQSITMHFEQFKKLQYEIEHLNKSMS				NA	NA	NA	NA	NA
AK009_00989	708	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAAGAGAAAAGAAATTGGTAAGTCTGTAATTATTACAGGTGTGACACAAGGGTTAGGACGTGCGATGGTTGATCGATTTCATGAATTAGGGTGGAACATATATGGTTGTGGACGCTCAAAAGATAAAATTGAAGAACTAAAAAAACAGTACAGTAAAATACATGATTTCCAAGTAATTGATATTTCAGATTCTCAGCAAGTTAACAATTGGGCAAATTATATACTTAATAGACATAAGGCTCCCAATCTGATAATAAATAATGCATCGATTGTAAATCAAAATGCACAACTTTGGAAAATTACGGCTCAAGAATTTGAAAATGTAATGAATGTAAACGTGAATGGTGTAGTAAATGTAATAAGAGCGTTTGTTCCAGCAATGGTAGTTAGGAAAGAAGGGATTATCATTAATATGAGTTCTAGTTGGGGAAGAGAAGGTGAGGCTGAGCTTGCGCCATATTGTGCCTCGAAATTTGCTATTGAAGGTATCACTAAATCTATGGCCCTGGAATTACCCTATGGCATGGCTGTAGTTGCTTTAGATCCTGGAGGGAGTATTAGTACTCCAATGCTGAAGTCATGTGCTCCACAATATATAAATGAATCACCTACACCTGAAACTTGGTCACATAAAGCAATTCAATATATATTGAATATAACAATAGATAAAAATGGAGATTCGTTGACATGTCCAGCATGCATATAA	MKRKEIGKSVIITGVTQGLGRAMVDRFHELGWNIYGCGRSKDKIEELKKQYSKIHDFQVIDISDSQQVNNWANYILNRHKAPNLIINNASIVNQNAQLWKITAQEFENVMNVNVNGVVNVIRAFVPAMVVRKEGIIINMSSSWGREGEAELAPYCASKFAIEGITKSMALELPYGMAVVALDPGGSISTPMLKSCAPQYINESPTPETWSHKAIQYILNITIDKNGDSLTCPACI				NA	NA	NA	NA	NA
AK009_00990	675			hypothetical protein	ATGAATCCACGCGGTTTAAAAGTGACAGGGGCATGGTTTCAAGTGGGAGGGAACCTTACAGCTGCTATTGGGACGACAAGAGGATTTATTGGAGAAGAGAAAGTTGAATCGGACCTTGTTATTGTAGGGAGCTCATTACAAGCCCTCGGGTATATATTACAAATCATTGCGAGCAAGTATGATGACGGGGAAGAAAAAAGAGAAAATCAAAATATAGGCTTAGAGAATCAAAGTAAATTACTTGATAAAATAGGAATTGAGTTATTAGCATTAGGGAATATATCAAATGTAATAGGAACATATTTTAATATAAATGAACAATTGAAAGAAAATGATTTTCTTATTATTATAGGGAACAGTTTACAATCAATCGGTGCTTTTTTAGGAGTAGAAGCAGCTTTGATGGATATAAATGTACTACAGAAAATTATTATACTAGGTAACTCCATGCAAAGTTTAGGAGCTGGATTACAAGCGTATCAAGGCGTTTCAAATTTATTGAAAGATGAGAGAGAAAATGAAGATAGTATTTTTGATAAGAAGGATGAGAGAATAATTGCACTCATTGGTATTTGGATACAAGCGCTTGGAACGTTAATTTCTGCAATTGGAGTAACTGCAATAGAGGAAGAAAATAGGCTAGCAAACAATGAAAAGTCTGAAATACTTATATAA	MNPRGLKVTGAWFQVGGNLTAAIGTTRGFIGEEKVESDLVIVGSSLQALGYILQIIASKYDDGEEKRENQNIGLENQSKLLDKIGIELLALGNISNVIGTYFNINEQLKENDFLIIIGNSLQSIGAFLGVEAALMDINVLQKIIILGNSMQSLGAGLQAYQGVSNLLKDERENEDSIFDKKDERIIALIGIWIQALGTLISAIGVTAIEEENRLANNEKSEILI				NA	NA	NA	NA	NA
AK009_00991	213			hypothetical protein	ATGATGTATTTATTAGCAATTTTTCTTCCGCCTGTTGCTGTATTATTTTGTGGAAAACCAATTCAGGCAATAATAAATTTCATATTAACACTAATATTTTGGGTTCCAGGAGTTATACATGCAATTCTTGTAGTGCATGATAAAAAAGCTGATCGGCGTTTGAAAAAACAAATTCAAGCATATGATGAAATTAATAAGAGGAATCGAAGGTAA	MMYLLAIFLPPVAVLFCGKPIQAIINFILTLIFWVPGVIHAILVVHDKKADRRLKKQIQAYDEINKRNRR				NA	NA	NA	NA	NA
AK009_00992	210			hypothetical protein	ATGATGAAGCTATCTCCCGTGATTTCAAAAAATATAGTTGCTGTTGGCTACAATCCTTTTTCTATGATTTTGCGAATCCAATTAAAGAATGGTATGTACGATTTCTTTAATGTACCAGAAAGTATCTATACTGGCCTATTACATGCACAATCTAAAAGTTATTATCATAAAACTTACATTAAAAATTCTTTCCGCCACACAAAAATTTAA	MMKLSPVISKNIVAVGYNPFSMILRIQLKNGMYDFFNVPESIYTGLLHAQSKSYYHKTYIKNSFRHTKI				NA	NA	NA	NA	NA
AK009_00993	2499	mtgA_1		Biosynthetic peptidoglycan transglycosylase	ATGTCAGAAAATTATCGTTCTCGAGAGGAACGACGACAAGTTAAAAAGAAAAAACAGCCAGCGTCTAAAACACAAAAACCAAAAGGTAAAACATCATTCTTTCGCAAGTTTTTAATTACTTGTTTATTACTTGGTATTGTTGGTTTAGTGGCGGGGGTTGCTACCTTTTTTGTAATGATTAAGGATGCACCAAAACTTGAGAAAGCAAAACTTGTTAATCCGTTATCCTCAAAAATTTATGATAAAAACGGGGATTTGGTATATGAATATGGAAAAGAAAAAAGGACGAATGTTACGTATGAGCAAATACCTAAATTAGTAGAAAATGCATTTTTAGCGACAGAAGATTCACGTTTTTATGAGCATAGCGGAGTAGATTTTAAAGGTACTGCCCGTGCTGTTCTAGTAAGTCTTAAAGGAGATTATGGTTCTCAAGGTGGAAGTACGATAACACAGCAAGTTATTAAAAACTACTTCTTATCAATGGACAAAACACCAAAGCGTAAGGCACAAGAAATATATTTAGCTTATAAGCTAGAACAACAGTATTCAAAACATGAGATATTAGAGATGTACTTAAATAAAATTAACTTAGGAAACCGTTCATATGGGATCGCAACAGCAGCACAAAACTACTATGGTAAAGAATTGAAGGACTTAACATTACCAGAAGTTGCGATGCTTGCAGGTTTACCGAAAGCACCGAATAACTATGATCCAACGAAAAAAGAAAATGTTCAAAAAGCAACAGAAAGAAGAAATGTTGTTCTAAACTTAATGAATCGACATGGATATATAACAAAACAGGAAATGGAAGAAGCATCAAAAGTTGACGTAGAAAAGGGACTCAAGCCTGCAACTCAACTACAAACAATGCCATATCCTGCATTTATGGATGCAGTTGTGAAAGAAGTAGAAAAAGAATTGCCAGATGCTAATATAGGTTCTGACGGTTTAGAAATTTATACAACGTTAGATCCGAAAGCACAGAAACTTGCTGATAATATTTTAAATAATAATATCATTGATTATCCGAACGATAAATTCCAAGGTGCATTTACATTTATGGATACCAAAACAGGAGAAGTTCGTGCTATAGGTAGTGGCCGTGGAGAAAATAAAGCTGTATTTAAAGGGCACAATATGGCAATTGAATTAGATCGTGCAGCTGGTTCAACGATGAAGCCGATTTTCGACTACGCTCCTGCAATTGAATATTTAAAATGGGCTACGTACCATCAAATTGATGACTCTCCATTTAAGTATTCAACGGGACAAGAAGTACGAAATTCAGATAGAAGTCACATGGGTCCAATTACAATGCGTGTAGCATTAGAAAAGTCACGAAATATCCCAGCAATTAAGACTGCGAAAGAAGTCGGAATTAATAAATCAAAAGACTTCTCTGAGAAATTAGGCATTACATTTAATGCAGCACCGACTGAATCAACAGCGATTGGTACAAATGAAGTATCACCAACTGAAATAGCGGGCGCTTATGCGGCATTTGGTAATGATGGTAAATATACGAAACCGCATTTTGTTAAGAAAGTCGTTTATCCAGATGGTAAGTCACAAAGTTTTGGACAAAAACCAAAACAAGTTATGACAGATTCTACAGCATATATGATTACAGATATGCTTCGTTCTGTAGTTAGATCAGGTACTGGTACATCTGCAAATGTAGCATCTTTAGATGTAGCTGGAAAAACGGGTACGACAAACTACTCATCAAAACAATTAGCTCAATATAAAATTCCAGAAAGTGCAACTCGTGATAGTTGGTTTGCTGGATATACACCGCAATATACGATGGCAGTATGGACTGGGTATATGAAAGATGGCAAAGACGAGTATATTAGTAGTAAAAATACGAAAATTGCACAGTTGATCTTTAAAGAAATGATGAGCGAAATGGCTACAGATAAATCACGCTTTAAAATGCCAAGTAGCGTCATTCAAGAAGGTAGTGAGCTACGTATAAAAGGTGAAAAACGTGATTCATCGCCAAATACTAGCGTACCGGATACAACGGAGCAACCAAAACAAGATCAACAGCAAAAAACTGAAGAAGAGAAAAAGCAAGAAGAATTAAAGAAACAAGAAGAACTGAAAAAACAAGAAGAACAAAAGAAACAAGAGGAACTTAAGAAGCAAGAAGAACAAAAGAAACTAGAAGAGCAAAAGAAACAAGAAGAAGAAAAGAAACAAAATGAACAAAATAACGGAGGAGGCCAAGGAACGACACCTCCAGCGAATAACGGAGGAGGCCAAGGAACGGCACCTCCAGCGAATAACGGAGGAGGTCAAGGAACGGCACCTCCAGCGAATAACGGAGGAAACCAAGGAACGACACCTCCAGCAAATAGCGGAGGAGGCCAAGGAACGGCACCTCCAGCGAATAATGATGGAAGTCAAGGAACTCCAACCCCACCTGCAACAGTACAACCAAATAATGGTGGAAATGCAGGAGAGGTTCCTGCCAATAATGGACAATAA	MSENYRSREERRQVKKKKQPASKTQKPKGKTSFFRKFLITCLLLGIVGLVAGVATFFVMIKDAPKLEKAKLVNPLSSKIYDKNGDLVYEYGKEKRTNVTYEQIPKLVENAFLATEDSRFYEHSGVDFKGTARAVLVSLKGDYGSQGGSTITQQVIKNYFLSMDKTPKRKAQEIYLAYKLEQQYSKHEILEMYLNKINLGNRSYGIATAAQNYYGKELKDLTLPEVAMLAGLPKAPNNYDPTKKENVQKATERRNVVLNLMNRHGYITKQEMEEASKVDVEKGLKPATQLQTMPYPAFMDAVVKEVEKELPDANIGSDGLEIYTTLDPKAQKLADNILNNNIIDYPNDKFQGAFTFMDTKTGEVRAIGSGRGENKAVFKGHNMAIELDRAAGSTMKPIFDYAPAIEYLKWATYHQIDDSPFKYSTGQEVRNSDRSHMGPITMRVALEKSRNIPAIKTAKEVGINKSKDFSEKLGITFNAAPTESTAIGTNEVSPTEIAGAYAAFGNDGKYTKPHFVKKVVYPDGKSQSFGQKPKQVMTDSTAYMITDMLRSVVRSGTGTSANVASLDVAGKTGTTNYSSKQLAQYKIPESATRDSWFAGYTPQYTMAVWTGYMKDGKDEYISSKNTKIAQLIFKEMMSEMATDKSRFKMPSSVIQEGSELRIKGEKRDSSPNTSVPDTTEQPKQDQQQKTEEEKKQEELKKQEELKKQEEQKKQEELKKQEEQKKLEEQKKQEEEKKQNEQNNGGGQGTTPPANNGGGQGTAPPANNGGGQGTAPPANNGGNQGTTPPANSGGGQGTAPPANNDGSQGTPTPPATVQPNNGGNAGEVPANNGQ	PGPT0023875_1805	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
AK009_00994	282			hypothetical protein	ATGTGGGTATCATTAAGAGTAACTGCCGTAGTTCCTTCGACTCCTGGGATACATGTTCCTGCAGTTCATACAGCTAGCTCCGATGTAGGAATTGAACTTCCCGCAACTTGGCAACAATATCAAATTCCCGGTCAAGTTACCCCCTCATTTTGGCATCATGGTGCACACCCAAGTAGTACTACCATTTATAGCCATAGTTATCCTCCACTACCTCCGACTCAAGTCTTTTATCATTTCCCTTCAATTTATTTCCAAAATTTTTATGGTACGTTTAACATTTAA	MWVSLRVTAVVPSTPGIHVPAVHTASSDVGIELPATWQQYQIPGQVTPSFWHHGAHPSSTTIYSHSYPPLPPTQVFYHFPSIYFQNFYGTFNI				NA	NA	NA	NA	NA
AK009_00995	1200	cntE		Staphylopine export protein	ATGTACAATGAGGTTGTTAATCGTAATATTTTACGAGTGTATGGAGGTATTTTTATGGAACGATTATGGACGAAATCATTTATTAAAATGACTTTCGCAATGTTATTTTTATTTACAGGATTTTATTTACTTGTTCCAACGCTACCGCTCTTTATTAAAGAGATAGGTGGCAATGAATCGCAAGTTGGACTCATGATGGGGATGTTTACGATAGCTGCTGTAGTAATACGACCGATTATTGGAGGAATGCTAGATCAATATGGTAGAAGATCCTTTATTATTTTCGGACTTATCTTTTTTGGATTAACGATGTATTCCTATAATATAGCATCGACTATTGTCCTTTTAGCTGTTTTACGTGTTATTCACGGAGTAACATGGGCTGTTTCTACAACAGCTGTTGGAACAGCAATAACTGATATTATTCCAGATTCACGCCGTGGAGAAGGAATGGGCTGGTACGGGATGGCGATGACAATTGCAATGGCCATCGGACCTATGATTGGATTATGGGTTGTGCAAAATTATTCATTTAATGGTCTATTTTTATTAGCGACGTTGTTATCTTTTATGGCAGTCGTATTATCACTAATAACGAAGATGCCATTTACGCTACAAAAAGAAAAAGGAAAAATTCAGCTATTTGAGAAATCCGTATTAACAATCACGATTGTAGTATTCTTTTTATCGTTTGCATATGGAGGAATAACAACCTTTTTACCGTTATTTGCATCATCAATTCATGTAAATCCGGGAACTTTCTTTCTTGTATATGCAATTGCATTAACAATTGTAAGACCAATTTCAGGGAAACTATTAGATAAGTGTGGAGAAGTATTCATCATACTCCCAGCATTATGTATTACTATTTTAGCTATAGTTGTTTTAACTATTTCAAATGGTTTGATAGGTGTAATTATCGCAGCAACATTATACGGTATTGGATTTGGTTCAGCGCAGCCAGCTTTGCAAGCGGCAATGCTTACAATTGTCGATCCGAGTAAAAGAGGAGTTGCAAATGCTTCATTTTTTACAGCGTTTGATTTAGGAATCGGGTTAGGTGCTATTGTACTTGGAGTTGTTTCACAAATGTTTGGTTATCGTATTTTATTTTCAGGGAGTGCAATTTCAGCATTGATAGCCTTAATTATTTTCGTCTTCTTTGTAAAACAACGATTAGGAAAAAAAGAGTTTGTGTAA	MYNEVVNRNILRVYGGIFMERLWTKSFIKMTFAMLFLFTGFYLLVPTLPLFIKEIGGNESQVGLMMGMFTIAAVVIRPIIGGMLDQYGRRSFIIFGLIFFGLTMYSYNIASTIVLLAVLRVIHGVTWAVSTTAVGTAITDIIPDSRRGEGMGWYGMAMTIAMAIGPMIGLWVVQNYSFNGLFLLATLLSFMAVVLSLITKMPFTLQKEKGKIQLFEKSVLTITIVVFFLSFAYGGITTFLPLFASSIHVNPGTFFLVYAIALTIVRPISGKLLDKCGEVFIILPALCITILAIVVLTISNGLIGVIIAATLYGIGFGSAQPALQAAMLTIVDPSKRGVANASFFTAFDLGIGLGAIVLGVVSQMFGYRILFSGSAISALIALIIFVFFVKQRLGKKEFV				NA	NA	NA	NA	NA
AK009_00996	291			hypothetical protein	ATGGAAATTTCAATTGATCGTAAAGCTCTGCAATGGTTCCAGGAAGAATTACGTATAAAGCACGGTGAATCTGTACGTTTTACTGTAAGGTACGGAGGGGATAGTTCAATTCAGCCCGGATATTCTTTAGGGGTTGTTGCTGAGAAACCAGATGGAGAAATAGTGTCAGTTGAGAAGGAAGGTATTATATTTTTTGTAGATTGTGATGATCTTTGGTATTTTCAAAACTATGATTTATTTGTAAGTTATCATGAGGAAATGGAAGAAATTCAATTTAATTATGTAAAATAA	MEISIDRKALQWFQEELRIKHGESVRFTVRYGGDSSIQPGYSLGVVAEKPDGEIVSVEKEGIIFFVDCDDLWYFQNYDLFVSYHEEMEEIQFNYVK				NA	NA	NA	NA	NA
AK009_00997	1122	mmgD	COG0372	Citrate/2-methylcitrate synthase	ATGATGAAAGCTGAAGAAAAATTTTCCCCGGGATTAGATGGTATAGTGGCAGCGGAGACGAAAATTTCGTTTCTTGACACAGTAAAAGGTGAAATTGTAATTCAAGGGTATGACTTAATCGAACTCTCAAAAACAAAAGAGTATTTAGACATTGTGCACCTTTTATTGGAGGAACACCTACCGAATGAAGATGAAAAAGCAACACTTGAAAAGAAACTAAAAGAAGAATATGCAGTACCAGAAGGTGTATTCAACGTACTAAAGGCATTGCCTAAAGAGACGCATCCCATGGATGGATTACGTACAGGTGTGTCAGCGTTAGCTGGTTACGATAATGATATCGAAAACCGCTCGTTAGAAGTGAATAAAAGCCGAGGGTACAAGCTGTTAAGTAAAGTGCCAAACATTGTAGCGAATAGCTATCATATTTTAAATAATGAGGAGCCAATTGAACCTCTTAAAGAATTATCTTATAGTGCGAATTTCTTCTATATGTTAACTGGTAAAAAACCAACTGAACTTGAGGAAAAGATCTTTGATCGTTCCCTTGTTTTATATAGTGAGCATGAAATGCCAAACTCTACATTTACAGCTCGCGTTATTGCATCAACACAATCAGATTTATACGGTGCTTTAACAGGTGCAGTTGCATCTTTAAAAGGAAGTTTACATGGCGGTGCAAATGAAGCGGTTATGTACATGCTTTTAGAAGCTGGTAATGTTGAGAAATTTGAAGAGTTATTACAGAAGAAACTATATAACAAAGAAAAAATTATGGGCTTTGGACACCGTGTTTATATGAAGAAGATGGATCCAAGAGCACTTATGATGAAGGAAGCTTTAAAACAGTTATGTGATGTAAAAGGTGATTATACACTATATGAAATGTGTGAAGCTGGAGAAAAGATTATGGAAAAAGAAAAAGGAATTTATCCAAATCTTGATTATTATGCAGCTCCAGTATATTGGATGCTAGGTATTCCAATTCAACTTTATACACCAATCTTCTTTAGCTCTAGAACAGTGGGGTTATGTGCGCACGTTATTGAGCAACATGCAAATAATCGTTTGTTCCGTCCACGTGTAAATTATATTGGCGAGCGACATGTACTTAGTAAATAA	MMKAEEKFSPGLDGIVAAETKISFLDTVKGEIVIQGYDLIELSKTKEYLDIVHLLLEEHLPNEDEKATLEKKLKEEYAVPEGVFNVLKALPKETHPMDGLRTGVSALAGYDNDIENRSLEVNKSRGYKLLSKVPNIVANSYHILNNEEPIEPLKELSYSANFFYMLTGKKPTELEEKIFDRSLVLYSEHEMPNSTFTARVIASTQSDLYGALTGAVASLKGSLHGGANEAVMYMLLEAGNVEKFEELLQKKLYNKEKIMGFGHRVYMKKMDPRALMMKEALKQLCDVKGDYTLYEMCEAGEKIMEKEKGIYPNLDYYAAPVYWMLGIPIQLYTPIFFSSRTVGLCAHVIEQHANNRLFRPRVNYIGERHVLSK	PGPT0001455_5713	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
AK009_00998	1437	mmgE	COG2079	Citrate/2-methylcitrate dehydratase	ATGATTAAAACAAATGAAATTAAGCAAAAAGATGCATTATTAGAAGAGATTACCGATTATGTATTAAATAAAGAGGTTACTAGTGCAGAAGCATTCAGTACAGCTCGTTACGTATTACTTGATACACTTGGATGTGGAATTTTAGCACTGCAATATCCAGAATGTACGAAATTACTAGGACCAGTTGTGCCAGGAACAATCGTGCCAAATGGTACACGTGTACCAGGTACGTCTTATGTACTAGATCCAGTAAAAGGTGCATTTAATATCGGATGTATGATCCGTTGGTTAGACTATAACGATACTTGGCTTGCAGCAGAGTGGGGACATCCATCTGATAACCTAGGCGGAATTTTAGCGGTTGCAGATTATATTAGCCGTGTTCGTATTTCAGAAGGAAAAGAAGCTTTAAAAGTACGTGAAGTATTAGAAATGATGATTAAAGCACATGAGATTCAAGGCGTGCTCGCTTTAGAAAACAGCTTAAACAGAGTTGGTCTTGACCATGTATTATATGTAAAAGTAGCAACAACTGCAGTAGTTGCGAAAATGCTTGGCGGAACACGTGAAGAAATCTTTAATGCATTATCACATGCGTGGATTGATAATTCTAGTCTTCGTACATATCGTCATGCTCCAAATACGGGCTCACGTAAATCATGGGCTGCAGGTGACGCAACGAGCCGCGGTGTTCATCTTGCAATGACTGCTCTAAAAGGTGAAATGGGTTATCCAACGGCCCTATCTGCACCAGGATGGGGATTCCAAGATGTATTATTCAATAAACAGGAATTAAAATTAGCAAGACCACTAGAGTCATATGTAATGGAAAATGTATTATTTAAAGTGTCATATCCAGCAGAATTCCATGCACAAACGGCTGCAGAATGTGCAGTGAAGTTGCATCCGGAAATTAAAGAGAGATTAGATGAAATTGACCGTATTACAATTACAACTCATGAATCAGCAATTCGTATTATTGATAAAGAAGGTCCATTAAATAACCCAGCTGATCGTGATCATTGCTTACAATACATTACGGCAATTGGTTTATTAAAAGGAGATATCGTTGCAGACGATTATGAAGATGCAGTAGCAAACGATCCACGTGTAGATGAATTACGTAATAAGATGGTTGTTGTTGAAAACAAACAGTACAGTTTAGATTACCTTGACCCGAACAAGCGCTCAATCGCCAACGCTGTTCAAGTTCACTTTAAAGATGGCACAGTAACAGAAAATGTGGAATGTGAATATCCACTTGGTCACCGTTTCCGTAGAGACGAAGCAATCCCAAAAGTTGTTCAAAAGTTCACTGCAAATATGGCAGGTCATTATTCTAGTAAGCAACAAGAACAAATTCATGAAGTTTGTTTAAATGAAGAAAAACTAGAAAATATGAATGTAAACGAATTTGTAGATCTATTCTTAATTTAA	MIKTNEIKQKDALLEEITDYVLNKEVTSAEAFSTARYVLLDTLGCGILALQYPECTKLLGPVVPGTIVPNGTRVPGTSYVLDPVKGAFNIGCMIRWLDYNDTWLAAEWGHPSDNLGGILAVADYISRVRISEGKEALKVREVLEMMIKAHEIQGVLALENSLNRVGLDHVLYVKVATTAVVAKMLGGTREEIFNALSHAWIDNSSLRTYRHAPNTGSRKSWAAGDATSRGVHLAMTALKGEMGYPTALSAPGWGFQDVLFNKQELKLARPLESYVMENVLFKVSYPAEFHAQTAAECAVKLHPEIKERLDEIDRITITTHESAIRIIDKEGPLNNPADRDHCLQYITAIGLLKGDIVADDYEDAVANDPRVDELRNKMVVVENKQYSLDYLDPNKRSIANAVQVHFKDGTVTENVECEYPLGHRFRRDEAIPKVVQKFTANMAGHYSSKQQEQIHEVCLNEEKLENMNVNEFVDLFLI	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
AK009_00999	909	mmgF	COG2513	2-methylisocitrate lyase	ATGGCTTGGGTTGTGAAAAAGCAGTCAACACAAGAGGAGCTTGCGAATCGATTCCGAGCTTTAGTAGAAGCAAATGAAATTTTGCAAATTCCAGGTGCTCATGATGCAATGGCGGCTTTAGTTGCAAAAAATACAGGTTTTTCAGCTCTTTATTTATCCGGAGCTGCTTATACTGCAAGTAAAGGGTTACCAGATTTAGGTATCGTGACGTCTACTGAAGTGGCTGAGAGAGCAAGAGATTTAGTAAGAGCTACAGACTTACCTGTTCTTGTTGACATTGATACAGGATTTGGTGGTGTACTAAATGTAGCGAGAACAGCTGTAGAAATGATGGAAGCGAAAGTAGCAGCTGTCCAAATTGAAGATCAGCAATTACCAAAAAAATGTGGACATTTAAATGGTAAGAAACTTGTTACTACAGAAGAATTGGTTCAAAAAATTAAAGCAATTAAAGAAGTTGCACCGAGCTTATACATTGTAGCACGTACTGATGCTCGCGGCGTTGAAGGATTAGATGAAGCAATTGAAAGAGCAAATGCATATGTAAAAGCCGGTGCAGATGCAATTTTCCCTGAAGCGCTTCAATCAGAGGAAGAATTCCGTCTATTTAATAGTAAGGTAAATGCACCTTTACTTGCGAATATGACTGAATTCGGAAAAACTCCATATTATAGTGCAGAGGAATTTGCGAATATGGGCTTTCAAATGGTTATTTATCCTGTAACTTCACTTCGCGTTGCAGCGAAAGCGTATGAAAATGTGTTTACTTTGATTAAAGAAACAGGTTCTCAAAAAGATGCACTTTCTAATATGCAAACGAGAAGTGAATTATACGAAACAATTTCATATCATGACTTTGAAGAGTTAGATACTGGTATTGCAAAAACAGTATTATCAGAAGATCAATAG	MAWVVKKQSTQEELANRFRALVEANEILQIPGAHDAMAALVAKNTGFSALYLSGAAYTASKGLPDLGIVTSTEVAERARDLVRATDLPVLVDIDTGFGGVLNVARTAVEMMEAKVAAVQIEDQQLPKKCGHLNGKKLVTTEELVQKIKAIKEVAPSLYIVARTDARGVEGLDEAIERANAYVKAGADAIFPEALQSEEEFRLFNSKVNAPLLANMTEFGKTPYYSAEEFANMGFQMVIYPVTSLRVAAKAYENVFTLIKETGSQKDALSNMQTRSELYETISYHDFEELDTGIAKTVLSEDQ	PGPT0001555_366	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
AK009_01000	1710	fadE_1	COG1960	putative acyl-CoA dehydrogenase	ATGGAGAAAACGAAGTTACCATGGGATGAATTTTTTTCACTCAATAAAGATATAAATCATACTTACTTTACACCAGAAGATTTTTCAGGTGATGAAGATTTAATCGCAAAAACGACAGAACAATTCGTTAAACAAGAAATTGTTCCACAAATGGAGAATATTGAACAACATAACTATAAAGTTTCTCGTCAATTATTTGAGAAAGCTGGGGAACTTGGATTATTAGGCATTGAGGTACCAGAAGATTATGGCGGGTTCGAGTTAGGAAAGGCTGTCTCAGGTCTTGTAGCAGAGAAAATGGGTTACGCTGGTGCATTTAGCGTTTCATTTAATATACACGCTGGTGTCGGTACATTGCCTTACATATATTACGGAACGAAAGAACAGAAAGAAAAATATTTACCAAAAATCGCATCGGGAGAATGGATTGGGGCTTATGCTTTAACTGAGCCAAATGCTGGTTCGGATGCATTAAGTGCAAAAACGAGCGCAGTATTGAATGAAGAGGGAACAGCTTGGAAGTTAAATGGTGAGAAGCAATGGATTACAAATGCTCATATGGCAGATGTATACGTTGTTTTTGCAAAGACAAATAAAGGAATGACAGCATTTATTGTCGAAAGAACATGTGAAGGTGTATCCATTGGGTTAGAAGAAAAGAAAATGGGTATTAAAGGTTCTTCAACGGCGACTCTTATTTTAGAAGATGTTGTCATCCCTGTTGAAAATGTTTTAGGGGAAGTTGGGAAAGGGCATCACGTAGCTCTTAATATTCTTAACTTTGCTAGACTTAAACTTGCTTTTGGAAATATTGGAACAGCAAAACAAGCAATTGGTTTGTCGGTTCAATATGGAAAAGAGCGAAAACAGTTCCAAACGGAATTAGTAGACTTTACGATGATTCAAGAGAAAATTGCAAATATGATTATTGCTACATATGGAGCCGAAAGTGCAGCTTACCGTACAGCAGGTGTAATTGATGAAGCAATTCATGAGAGCGATGAAGATCTTATGAAAAAAATGTCTCAATTTGCAATTGAATGTGCACTAAATAAAGTAAATGCTTCTGAAACACTTGCTTATATTGTAGATGAAGCTGTACAAATTCATGGTGGTTACGGTTATATGCAAGAGTACGAGGTAGAACGATTGTATCGTGATGCTAGAATTAGTCGTATTTTTGAAGGAACGAACGAAATTAATAGATTAACAGTTGCCAAAATGTTAATGAAGCAAATCGAACAATTAGAAGATACTGAAGTAGAAAGTGATGTAGCAAATGTCGAAAGAAACCATCGTTACATTTTATTAGCGAAAAAATTGTTGAAACAATCTTTGAAAACGCTCTCTAAAACTCCAAGTCTAAAAATCGACCAAGAACAAGAATATTCACGTGTAATATCAAATATGTTGACGGACGTGTACGTCATGGAATCAGCGTTTTTACGTACGAGAAAAGCAGTAAGTAAAAATGGTGAGGAAAAAGAACGTACGAAGCAACAAATAACGGATGTTATTTGTGAAGAAGGATATCGTAAAGTAGAAGAAGCGGCGATTTCTGTACTTTCAGCGGCTGTCACAGAAGAAAAAGATAGACATGTGATTTTAGCTGAAATCCGTCAATTATTAGTACCTTTATACACGAACGTATTTATGAAGAAGAGAGAAATTGCGAAAGCTATTATAAATCGTGGGAAATATATTGTGTAA	MEKTKLPWDEFFSLNKDINHTYFTPEDFSGDEDLIAKTTEQFVKQEIVPQMENIEQHNYKVSRQLFEKAGELGLLGIEVPEDYGGFELGKAVSGLVAEKMGYAGAFSVSFNIHAGVGTLPYIYYGTKEQKEKYLPKIASGEWIGAYALTEPNAGSDALSAKTSAVLNEEGTAWKLNGEKQWITNAHMADVYVVFAKTNKGMTAFIVERTCEGVSIGLEEKKMGIKGSSTATLILEDVVIPVENVLGEVGKGHHVALNILNFARLKLAFGNIGTAKQAIGLSVQYGKERKQFQTELVDFTMIQEKIANMIIATYGAESAAYRTAGVIDEAIHESDEDLMKKMSQFAIECALNKVNASETLAYIVDEAVQIHGGYGYMQEYEVERLYRDARISRIFEGTNEINRLTVAKMLMKQIEQLEDTEVESDVANVERNHRYILLAKKLLKQSLKTLSKTPSLKIDQEQEYSRVISNMLTDVYVMESAFLRTRKAVSKNGEEKERTKQQITDVICEEGYRKVEEAAISVLSAAVTEEKDRHVILAEIRQLLVPLYTNVFMKKREIAKAIINRGKYIV	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
AK009_01001	891	Hgd		2-(hydroxymethyl)glutarate dehydrogenase	ATGAAAAAGATTGGTTTTATCGGTTTAGGTAACATGGGTCTTCCGATGTCAAAAAATCTAGTTAAATCAGGTTACACAGTATATGGCGTGGACTTAAATAAAGAGGCAGAAGCGTCCTTTGAAAAAGAAGGCGGAATTATCGGTCTATCAATCTTAAAACTAGCAGAAACATGTGATGTAGTTTTTACAAGTTTACCTTCACCTCGTGCTGTTGAAGCGGTATATTTTGGAGCAGAAGGATTATTTGAAAATGGTCACTCGAATGTAGTTTTCATTGATACAAGTACGGTATCGCCGCAGTTAAACAAACAATTAGAGGAAGCTGCAAAGGAAAAGAAAGTAGACTTTTTAGCAGCACCTGTGAGTGGTGGAGTAATCGGAGCCGAAAACCGTACATTAACGTTTATGGTTGGTGGATCAAAAGAGGTATATGAGAAAACGGAATCTATCATGGGCGTACTAGGCGCGAATATTTTCCACGTTAGTGAGCAGATTGATAGTGGTACAACTGTTAAGTTAATTAATAACTTATTAATTGGTTTTTATACAGCTGGAGTGAGTGAAGCTTTAACATTAGCGAAAAAGAACAATATGGATTTAGATAAAATGTTTGATATTTTAAATGTAAGTTACGGTCAAAGTAGAATTTATGAACGTAATTTTAAAAGTTTTATAGCACCTGAAAACTACGAGCCAGGATTTACTGTGAACTTATTGAAGAAAGATTTAGGATTTGCAGTTGACTTAGCTAAGGAAAGCGAACTCCATTTACCGGTAAGCGAAATGTTATTAAACGTATATGACGAAGCTAGTCAAGCTGGATATGGTGAAAACGATATGGCTGCTTTATATAAGAAAGTTAGCGAGCAATTAATTTCTAATCAAAAATAA	MKKIGFIGLGNMGLPMSKNLVKSGYTVYGVDLNKEAEASFEKEGGIIGLSILKLAETCDVVFTSLPSPRAVEAVYFGAEGLFENGHSNVVFIDTSTVSPQLNKQLEEAAKEKKVDFLAAPVSGGVIGAENRTLTFMVGGSKEVYEKTESIMGVLGANIFHVSEQIDSGTTVKLINNLLIGFYTAGVSEALTLAKKNNMDLDKMFDILNVSYGQSRIYERNFKSFIAPENYEPGFTVNLLKKDLGFAVDLAKESELHLPVSEMLLNVYDEASQAGYGENDMAALYKKVSEQLISNQK	PGPT0018170_509	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
AK009_01002	1461	iolA	COG1012	Malonate-semialdehyde dehydrogenase	ATGATTACAACTGAAATTAAACGAGTAAAAAATCACATTAACGGTGAGTGGGTTGAATCGACAGGTACGGAAGTAGAAGCAGTTCCAAATCCAGCGACTGGAAAAATTATCGCTTACGTTCCACTATCTCCAAAAGAAGATGTTGAAAAAGCTGTTGAAGCGGCAAAAGCAGCATTCGAAACGTGGTCTAAAGTACCAGTTCCGAATCGTTCAAGAAATTTATATAAATATTTACAGCTATTACAAGAAAACAAAGATGAGCTTGCGAAAATCATTACGCTAGAGAATGGTAAGACGCTAACGGATGCAACAGGTGAAGTACAGCGTGGTATTGAAGCAGTGGAACTTGCAACATCGGCACCTAATTTAATGATGGGTCAAGCGCTGCCGAATATTGCTAGTGGAATTGATGGATCAATTTGGCGCTACCCAATCGGAGTTGTTGCTGGTATTACGCCGTTTAACTTCCCAATGATGATTCCGTTATGGATGTTCCCACTTGCAATTGCTTGCGGTAATACATTCGTATTAAAAACATCGGAAAGAACGCCACTTTTAGCGGAGCGACTTGTAGAATTATTCTATGAAGCAGGTTTCCCAAAAGGCGTATTAAATTTAGTACAAGGCGGAAAAGATGTTGTAAATAGCATTTTAGAAAATAAAGATATTCAAGCTGTTTCGTTCGTCGGTTCTGAGCCAGTAGCTCGTTACGTATATGAAACAGGTACGAAACACGGAAAACGTGTACAAGCGTTAGCGGGTGCAAAAAACCATGCGATTGTAATGCCAGATTGCAATCTTGAGAAAACAGTACAAGGTGTAATTGGATCTGCATTTGCAAGTAGTGGAGAGCGCTGCATGGCATGCTCAGTAGTAGCAGTAGTGGATGAAATTGCTGATGAATTCATTGATGTATTAGTAGCAGAAACGAAAAAATTAAAAGTAGGCGATGGCTTTAACGAAGATAACTATGTTGGACCATTAATTCGTGAATCTCATAAAGAGCGTGTTTTAGGCTATATTAATAGTGGTGTAGCAGATGGGGCAACTTTATTAGTAGATGGCCGTAAAATTAATGAAGAAGTTGGAGAAGGTTATTTTGTAGGTGCGACAATCTTTGATGGCGTGAATCAAGAAATGAAAATTTGGCAAGATGAAATTTTTGCTCCAGTATTAAGCATTGTACGTGTTAAAGATTTAGAAGAAGGTATTAAACTAACAAATCAATCTAAATTTGCAAATGGTGCGGTTATTTATACGTCAAATGGTAAACATGCACAAACATTCCGTGATAACATCGATGCTGGTATGATTGGTGTAAATGTAAATGTTCCAGCACCAATGGCATTCTTCGCATTTGCAGGAAATAAAGCTTCATTCTTTGGTGATTTAGGTACAAATGGTACAGATGGCGTTCAATTCTATACACGTAAAAAAGTTGTAACTGAGCGATGGTTTTAA	MITTEIKRVKNHINGEWVESTGTEVEAVPNPATGKIIAYVPLSPKEDVEKAVEAAKAAFETWSKVPVPNRSRNLYKYLQLLQENKDELAKIITLENGKTLTDATGEVQRGIEAVELATSAPNLMMGQALPNIASGIDGSIWRYPIGVVAGITPFNFPMMIPLWMFPLAIACGNTFVLKTSERTPLLAERLVELFYEAGFPKGVLNLVQGGKDVVNSILENKDIQAVSFVGSEPVARYVYETGTKHGKRVQALAGAKNHAIVMPDCNLEKTVQGVIGSAFASSGERCMACSVVAVVDEIADEFIDVLVAETKKLKVGDGFNEDNYVGPLIRESHKERVLGYINSGVADGATLLVDGRKINEEVGEGYFVGATIFDGVNQEMKIWQDEIFAPVLSIVRVKDLEEGIKLTNQSKFANGAVIYTSNGKHAQTFRDNIDAGMIGVNVNVPAPMAFFAFAGNKASFFGDLGTNGTDGVQFYTRKKVVTERWF	PGPT0002295_3995	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
AK009_01003	633	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	ATGATAGAAAATTATCTTCTTTTCATCATTATGTCTATTTGTCTTATCATTTTACCTGGTCCAGATACAGCAATGGCTACGAAAAATACATTGATTGCCGGTAAAGTCGGTGGAGTAAAAACAGTGTTCGGTACATGTATCGCGCTATTAATTCATACTTTAGCTGCTGTAATTGGTCTTTCTGCACTTATTGTAAAGTCAGCTCTTTTATTTTCTATTTTCAAGTACGTTGGGGCTCTCTATTTAATATATATCGGTATTAAAGCCCTTTTAGCAGTAAGAAATAAAGAAGGCGTAGATACAAATGATATATCTTTAAATAATGAAAACAAACATACTTCTTGCTTTCGCCAAAGATTTCTAACGAATTTATTAAATCCTAAGATAGCAGTCTTCTTTTTAACTTTTTTACCGCAATTTTTAAATCCAAATCATAATACATTTATTCAACTTCTTGTAATGGGCCTTACTTACCTCGTTTTAACCGCCTTTTGGTTTGCGTTTTATATATTTTTAATTGATAAAATTAGTGCTTTTATGAAAAAACCGAAAACGCAACGTTATATTCAAGGGCTAACAGGAATCGTCCTAATTGGATTTGGTGTTAAACTAGCTTTTGAAAAAAGTAATTGA	MIENYLLFIIMSICLIILPGPDTAMATKNTLIAGKVGGVKTVFGTCIALLIHTLAAVIGLSALIVKSALLFSIFKYVGALYLIYIGIKALLAVRNKEGVDTNDISLNNENKHTSCFRQRFLTNLLNPKIAVFFLTFLPQFLNPNHNTFIQLLVMGLTYLVLTAFWFAFYIFLIDKISAFMKKPKTQRYIQGLTGIVLIGFGVKLAFEKSN				NA	NA	NA	NA	NA
AK009_01004	1056	menB_1		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGACTGAACACGTTTTATTTTCTATTAGTGAAAACGGCGTTGCAACAATTACTTTAAACCGTCCAAAAGCACTTAATTCTTTATCTTATGACATGTTACAACCTATCGGACAAAAACTTAAAGAGTGGGAACACGATGAGCGTATTGCACTTATCGTGTTAAAAGGTGCTGGCACAAAAGGTTTTTGTGCAGGCGGCGACATTAAAACTCTTTATGAAGCGCGTTCCAATGAAGTGGCATTGCAACATGCAGAACGTTTTTTTGAAGAAGAGTATGAAATTGATACATATATTTATCAATATACAAAACCGATTATTGCTTGTTTAGATGGAATTGTAATGGGCGGTGGTGTCGGTCTTACAAATGGTGCGAAGTATCGCATTGTAACTGAGCGTACGAAATGGGCAATGCCAGAGATGAATATCGGCTTCTTCCCAGACGTCGGAGCTGCATATTTCTTAAATAAAGCACCTGGATATACAGGACGCTTCGTTGCTTTAACAGCATCTATTTTAAAAGCTTCTGACGTATTATTTATTAATGCTGCTGATTACTTTATGACATCTGATTCATTACCAGAGTTTCTTACTGAACTTGAAAGTGTAAATTGGCATAAAGAAGATGATGTACATACTAATTTAAAAGAAGTTATTCGTACATTTGCAACTGCTCCAAACTTAGAAAGCGAGCTGACTCCTTCATTAGAAGCAATCAATTCACATTTTGCTTTCGATACAATTGAAGAAATCATCCATTCATTGGAGAAAGATGAAAGTTCCTTTGCTCTAAAAACAAAAGAAACACTGTTATCAAAATCCCCTATTTCACTAAAAGTAACCTTAAAACAGTTTATTGATGGACAAGATAAATCCGTTGAAGAATGCTTCGCTACGGACCTTATACTTGCTAAAAATTTCATGAGACATGAAGATTTCTTCGAAGGAGTACGCTCCGTTGTCGTTGATAAAGATCAAAATCCGAATTATAAATATAAACAGTTAAGTGACGTTTCAGAAGAAGATGTGAATCGTTTCTTTAACTTACTTAATGCATAA	MTEHVLFSISENGVATITLNRPKALNSLSYDMLQPIGQKLKEWEHDERIALIVLKGAGTKGFCAGGDIKTLYEARSNEVALQHAERFFEEEYEIDTYIYQYTKPIIACLDGIVMGGGVGLTNGAKYRIVTERTKWAMPEMNIGFFPDVGAAYFLNKAPGYTGRFVALTASILKASDVLFINAADYFMTSDSLPEFLTELESVNWHKEDDVHTNLKEVIRTFATAPNLESELTPSLEAINSHFAFDTIEEIIHSLEKDESSFALKTKETLLSKSPISLKVTLKQFIDGQDKSVEECFATDLILAKNFMRHEDFFEGVRSVVVDKDQNPNYKYKQLSDVSEEDVNRFFNLLNA	PGPT0001860_343	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
AK009_01005	258			hypothetical protein	ATGCCAGGACCTTTACTATTGTCGGTTATTATTTTGTCTTTTTTAATGATAGGAATAACGCAGTATTTTCATCATACAGATACGACAGAAGAAGTGAAGGATAAAGTACGTCTCGTATTTCCGATTTTTATAATATCTATTTCATTCTGTATTTTATTAAATAAAGATGGGTACATTGTCGCAGTGTTCTCATTTTTCGTCGCAATCGTTTTAATTACCGTTTTATATTATGTAATGAAAGACTTTATACAAAAATAA	MPGPLLLSVIILSFLMIGITQYFHHTDTTEEVKDKVRLVFPIFIISISFCILLNKDGYIVAVFSFFVAIVLITVLYYVMKDFIQK				NA	NA	NA	NA	NA
AK009_01006	240	ytmB		putative protein YtmB	ATGAAATTTGAGATGCACACAAAAATTATTTCAAATGAAAAAGAAGTAAGATTACATATTGAAGAAAATATATTTCAATTAATATTGGATGGTTATCACTTATTTACAATTCAAGAAATATTGCCTTTATATAAATCAAATGAAGAAAGAATTGGAAGTGCAACGATATTGAAGCTAGAGTGGGAGAACGGAAAAACTACAATAAACTATCAACTCGTTTCACTAAAATCAGTAAATTAA	MKFEMHTKIISNEKEVRLHIEENIFQLILDGYHLFTIQEILPLYKSNEERIGSATILKLEWENGKTTINYQLVSLKSVN				NA	NA	NA	NA	NA
AK009_01007	1158	sbcD		Nuclease SbcCD subunit D	ATGAAGTTATTTCATACAGCGGATTGGCATTTAGGTAAGCTTGTTCATGGCGTGTATATGACTGAAGACCAAAAGATTGTATTAGATCAGTTTGTACAGGCGGTTGAAGAAGAAAAACCAGATGCCGTAATTATTGCAGGGGATTTATATGACCGAGCAATTCCACCTACAGAAGCAGTAGACTTATTAAATGATGTGCTGCAAAAAATAGTTATTGAATTACAAACACCAGTTATTGCAGTAGCTGGTAATCATGATAGTCCGGATCGTATCCATTTTGGAAGTGGTTTAATGAAAAAACAGGGATTACATATTGTAGGTCAATTTCAATTCCCGTATGAACCTGTCGTACTAAATGATGAATATGGAGAGGTTCACTTCCATCTAATACCGTATGCAGACCCAAGCATAGTTAGACACGTGTTGAAAAATGAAGACGTACGTTCTCATGATGATGCGATGCGCATTTTTATGAATGAGCTCTCTGAAACGATGGATAAAGAAGCTAGACATGTATTTGTTGGACATGCATTTATAACTTCTTCAGGAGAAGCGGAGGAGAATACAAGTGATGCAGAACGACCACTTTCAATTGGTGGTGCTGAATATGTAAATAGTCATTATTTTGATAAGTTTCATTACACAGCGCTTGGACATTTACATCAAGCGCATTTTGTACGTAATGAGACGATTCGATATTCTGGTTCACCACTTGCCTATTCTATTTCTGAAGAGAAACATAAAAAAGGTTATTACATTGTAGAAATGAATGAAACCGGTGAAGTAGCGATTGAAAAAAGGTTACTTTTACCACGTCGTAAAATGCGAACAGTAGAAGCGAAAATAGATGAATTATTACAGCACCCAGTAAGTGAAGATTACGTATTTGTAAAATTATTAGACGAAAATCCTGTCTTACAGCCAATGGAGAAAATACGATCTGTATATCCAAATGCAATGCACGTTGAAAGAGCGATGCAACGGCGAGAACTCACAGATACAAATGAAGTAACTGTTTCAAGACATAAAACGGATGATTTATCTCTTTTAAAGGCTTTCTATAAAGAAATGAAAGGGTTAGATTTATCAGAAGAGAAAGAAAGCCTATTTATAGATGTATTACAAACAGTGCAAGAGCGGGAAGGTGAACGAGGATGA	MKLFHTADWHLGKLVHGVYMTEDQKIVLDQFVQAVEEEKPDAVIIAGDLYDRAIPPTEAVDLLNDVLQKIVIELQTPVIAVAGNHDSPDRIHFGSGLMKKQGLHIVGQFQFPYEPVVLNDEYGEVHFHLIPYADPSIVRHVLKNEDVRSHDDAMRIFMNELSETMDKEARHVFVGHAFITSSGEAEENTSDAERPLSIGGAEYVNSHYFDKFHYTALGHLHQAHFVRNETIRYSGSPLAYSISEEKHKKGYYIVEMNETGEVAIEKRLLLPRRKMRTVEAKIDELLQHPVSEDYVFVKLLDENPVLQPMEKIRSVYPNAMHVERAMQRRELTDTNEVTVSRHKTDDLSLLKAFYKEMKGLDLSEEKESLFIDVLQTVQEREGERG				NA	NA	NA	NA	NA
AK009_01008	3090	smc_1		Chromosome partition protein Smc	ATGAGACCGATTCAGCTTATTATGACAGCATTCGGGCCATATAAACAGAAAGAAGTAATCGATTTTGAAGATCTTGGAGAACATCGTATTTTCGCTATTTCTGGGAATACGGGAGCTGGAAAAACAACGATTTTTGATGCGATTTGTTATGTATTATATGGTGAGGCTAGCGGAGAAGAACGTAGTGATACGAGCATGCTTCGAAGTCAATTTGCTGATGATAATGTTTATACAAGTGTTGAACTAACCTTTCAGTTAAAAGGGAAACGCTATGAAATAAAACGACAACTTGGACATAAAAAACAAGGGAATAAGACTATTACAGGACATGCAGTAGAATTATATGAAGTTATTGATGGAGAAAACGTTCCAGCCGTCGATCGTTTTCATGTAACAGACGTAAACAAAAAAATGGAAGATTTAATTGGGTTAAGTAAACATCAATTTAGCCAAATTGTTATGTTACCCCAAGGGGAATTCCGAAAACTATTAACATCTGAGACGGAAAATAAAGAAGAGATTTTACGTCGTATTTTTAAAACGGATCGTTATAAATTAATGCGTGAGTTACTTGATCAAAAGAGAAAACAATGGAAAGACGTCTTGCAAGAAAAACAAAAAGAGAGAGAGCTCTATTTCCGTAATGTTTTTAAATTACCAATCCGTGATGGAGCATTATTAGAGACATTAGTGGCACAAGAACATGTAAATACGCATCAAGTAGTAGAAGTGTTAGAACAAGAAACAACCGTGTATAAGGCAGAGGTTGAGCAATTACAAGTAGAACAAGATGTTCAAACGAAGCAATTAAAGGATGCAGAAACACGTTTTCATGCAGCAAAATCTGTAAATGAGAAATTTATAGATTTACAACAAAAGAATGAGAAATATAACACTTTACAAGAGAACCGTGCAGCAATTGAAGGGAAAGAAAAATCCTTTAAACGTGCGGAACAAGCAAAACGCTTATTACCATTTGAACAATGGTATGAAGAAGCGATGCAAAATGAGCAGAAAGCTGAAAGTTTGTTAAAACAGATAATCGTCAAACAAGAACAGATAATGAATAGTTTTGAGCTTGCTCAGGAGAAGTATGAAGTAGTAAAGAATAAAGAACTTGAACGAGAAGAGGCTAAAAAACTTGTTCAAAGATTAGAAGAGTTACAAGCGATCATTGAATCATTAGCTGAGAGAAAGCTGAATTTACAAAATGCCGAAATTCAAATAGGGAAATTAAAAGAAAGTATGCAAAAGTTGGATCAACAACTAGAAGAGCATACAAGTCAAAAACAGGGAATGTCTGATGAATTGCAGCAATTAGAACAAGCACTTGAGCAATATGTAGCTAAAGTAGAAGAACTAACCAATATGCGAGAAGATGCAAAAGTTTTAAAGCAAGCATATGATGTTTGGCAAGAAAAACAAAAATTTGAGCAAGAAAAAGAAGCGGCAAATAATAAAATGCAAGTGGCAGTTCGTGCGTATGAAAACATGGAGCGCCGCTGGTTAAGTGAACAAGCTGGTATACTAGCTCTTCATTTACATGATGGTGAATCTTGTCCGGTATGTGGTAGTACGAATCATCCACAAAAAGCTACAGAGCAAAGTAATGCGATCGATGAAAAAGAGTTAAACGATTTAAGAGATAAGAAGAACATTGCTGAAAAATTAAATGTGCAAGTAGAGGAGAAATGGAATTTTTATCGACTACAATATGAACAAGTGATAGAAGAAGTTGTGAAGCGCGGCTACAACTCGGAAAAATTAGCTGAAACATATAGTGCACTTGTTCAAAAAGGAAAACAATTAGCAGCAGACGTGAATACGTTAAAAGCAAGTGAAGAAACACGTAAGCAGATTGCTGTGAACATGAAAAGCGTAGAAGAAAAAATAGAAGAACTTCAGAAACAAAAACGGGAAGTAGAAACAATGCAGCACCGTACAGAAATGGAGTGCATGCAACTTCGTACGTCATATGAACATGATAAACGAAATATTCCAGAAAACTTACAAACAGTACAAGCTTGGAAAGCACAGTTGGACCAAGCTATGCAGGAACTTAGGTTAATGGAGGACGAATGGAAGAAAGTGCAGGAAGCGTATCAGCATTGGCAAAATGAAAATATACGTATTCAAGCTGAACAGAAAGGTGCTTCTAATCAATTTGAAAGTGCAAAATTGAAGAAAGAAGAAACTTTCGCACGCTTTATGAAAGAGCTAGAACAAAGCGGGTTTACAGATCAATTCACGTATAAAGAAGCCAAATTAAGCGATGCCCAGATGGAGATGTTACAAAAAGAAATTCAAGGTTATTATTCATCTCTCGAAGTGCTTGCAAAACAAATTGAAGAGTTAAACTCAGAATTAAAAGATAAAGAGTATATGGATATTACATCTTTAGGTGAACACATAAAAGAACTAGAAATTAATCTCGATATAATTAAAGAAAAACGTCAACGTGCGCAAAATGCGGTAACATATATTTCTGATTTACATGAAAACATTAGACGTATTGACGAACAAATTCACGATGAAGAGAAAGCTTTCCAAGAACTTGTTGATCTATATGAAGTAATGAAAGGTGATAACGAAAGTCGTATATCATTTGAACGTTACATCCTAATTGAGTATTTAGAACAAATTGTTCAAATCGCAAACGAACGACTACGTAAATTATCAAATGGACAATTTTATTTAAAACGAAGTGAGCGAGTTGAAAAGAGAAACCGTCAAAGTGGATTAGGATTAGATGTGTACGATGCATACACTGGTCAAACACGTGATGTAAAAACATTATCTGGCGGAGAGAAATTTAACGCATCACTTTGCTTAGCGCTAGGAATGGCAGATGTAATTCAAGCATATGAAGGTGGTATTTCCATCGAAACGATGTTCATCGATGAAGGGTTCGGTTCATTAGATGAAGAATCATTAACGAAAGCAGTAGATGCCTTAATTGACTTACAAAAATCAGGCCGATTTATCGGTGTCATTTCACACGTACAAGAGCTGAAAAACGCAATGCCGGCTGTATTAGAAGTAACGAAGCAGAAGGATGGGTGTAGTCAGACTAGGTTTGTGGTGAAGTAA	MRPIQLIMTAFGPYKQKEVIDFEDLGEHRIFAISGNTGAGKTTIFDAICYVLYGEASGEERSDTSMLRSQFADDNVYTSVELTFQLKGKRYEIKRQLGHKKQGNKTITGHAVELYEVIDGENVPAVDRFHVTDVNKKMEDLIGLSKHQFSQIVMLPQGEFRKLLTSETENKEEILRRIFKTDRYKLMRELLDQKRKQWKDVLQEKQKERELYFRNVFKLPIRDGALLETLVAQEHVNTHQVVEVLEQETTVYKAEVEQLQVEQDVQTKQLKDAETRFHAAKSVNEKFIDLQQKNEKYNTLQENRAAIEGKEKSFKRAEQAKRLLPFEQWYEEAMQNEQKAESLLKQIIVKQEQIMNSFELAQEKYEVVKNKELEREEAKKLVQRLEELQAIIESLAERKLNLQNAEIQIGKLKESMQKLDQQLEEHTSQKQGMSDELQQLEQALEQYVAKVEELTNMREDAKVLKQAYDVWQEKQKFEQEKEAANNKMQVAVRAYENMERRWLSEQAGILALHLHDGESCPVCGSTNHPQKATEQSNAIDEKELNDLRDKKNIAEKLNVQVEEKWNFYRLQYEQVIEEVVKRGYNSEKLAETYSALVQKGKQLAADVNTLKASEETRKQIAVNMKSVEEKIEELQKQKREVETMQHRTEMECMQLRTSYEHDKRNIPENLQTVQAWKAQLDQAMQELRLMEDEWKKVQEAYQHWQNENIRIQAEQKGASNQFESAKLKKEETFARFMKELEQSGFTDQFTYKEAKLSDAQMEMLQKEIQGYYSSLEVLAKQIEELNSELKDKEYMDITSLGEHIKELEINLDIIKEKRQRAQNAVTYISDLHENIRRIDEQIHDEEKAFQELVDLYEVMKGDNESRISFERYILIEYLEQIVQIANERLRKLSNGQFYLKRSERVEKRNRQSGLGLDVYDAYTGQTRDVKTLSGGEKFNASLCLALGMADVIQAYEGGISIETMFIDEGFGSLDEESLTKAVDALIDLQKSGRFIGVISHVQELKNAMPAVLEVTKQKDGCSQTRFVVK				NA	NA	NA	NA	NA
AK009_01009	174			hypothetical protein	ATGCCTACAGCGTTACAAGAAGAAGTCGAAGAAGCACGGGAAACATATGTCAGTCGTATCATCTTAGTTGGAGGATCCGCTTTATTTTTAGTAGGCGGAGTTATCTCGGCAATTTCAGCCTTTAAAACTTATAATCGTTTAGAGAATACGCCGCCTTCTACAGATAATTCATAG	MPTALQEEVEEARETYVSRIILVGGSALFLVGGVISAISAFKTYNRLENTPPSTDNS				NA	NA	NA	NA	NA
AK009_01010	381			hypothetical protein	ATGAAAGTTTTAATCAAGGGTTTTAAAAAATTTGGAAATAGATCTTATGAATATGGAATTCATATAAAAGGGGAATGTCTTATGACAACATATACGAGTGAAATGAGAAAAACTTTAGTTTCAGAAGAAGATGTAGATATTTTAAAAATTATGGCGCATCCAATCCGCCTGCAAATTGTAAATGAATTAAGTACGAGAAAAACTTGTAATGTAACACAATTAACAGAGTTACTGAATATTCCGCAATCTACTGTTTCACAACATTTATCAAAAATGAAGGGTAAAGTGTTACGAGCAGAGAGAAGAGGTTTAGAAATTTATTATCATATTAACAATTTAAAAGCGAGTAAGATTGTTAATGTTTTAGGGTATATAAACTAG	MKVLIKGFKKFGNRSYEYGIHIKGECLMTTYTSEMRKTLVSEEDVDILKIMAHPIRLQIVNELSTRKTCNVTQLTELLNIPQSTVSQHLSKMKGKVLRAERRGLEIYYHINNLKASKIVNVLGYIN	PGPT0004300_320	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_01011	186			hypothetical protein	ATGAAAGCAAACGTAGGGGATACTATACTTTTTCAACGAAACAATTTAAAGATTACAGGATCTGTACTAAAACTTTATACTGAATCGGTCTTAGTTGAAATTACAAATGTAAGCGGTGGTACTTTTGAATTTGATCGAACAATTGTAAATCATAAAAACTATAAAGTTTTAAATACAAATACATAA	MKANVGDTILFQRNNLKITGSVLKLYTESVLVEITNVSGGTFEFDRTIVNHKNYKVLNTNT				NA	NA	NA	NA	NA
AK009_01012	1203	yhjX_1		putative MFS-type transporter YhjX	ATGAAAAAATCAACTGTTAATCCATGGTTTGTTGTTCTTGGCACAGTTATAGTACAGATGGGGCTTGGAACGATATATACATGGAGTTTATTCAATCAGCCTTTAGTTAGTAAATATGGTTGGAGTCTTAACGCTGTTGCGATAACTTTCTCAATTACTAGTCTTTCTTTAGCATTTTCAACTTTATTTGCGAGTAAATTGCAAGAAAAATGGGGACTTCGTAAACTTATTATGATAGCTGGATTAGCATTAGGACTAGGATTAATACTTAGTTCACAAGCGTCCTCATTAATATTGCTTTATGTACTAGCAGGAGTTGTTGTAGGTTATGCAGATGGTACAGCATATATCACTTCACTATCAAATTTAATAAAGTGGTTTCCGGAGCGTAAAGGTTTAATTGCTGGTATTTCTGTCTCTGCATATGGTTCAGGTAGCTTAATTTTTAAATATGTTAATGCACAGTTGATTGAATCAGTTGGTGTATCGCAAGCATTTATATACTGGGGTTTAATTGTTACAGCTATGATTGTAATTGGTGCTTGTTTAATCCATCAAGCCGCAGATCAAGGAGCAGTTCATGAAACAAAAACTAAGGAATACACAACGAAAGAAATGTTAGGCACAAAACAAGTATACTTATTATTTATAATGTTATTTACATCATGTATGAGTGGCTTATACTTAATTGGTATGGTAAAAGACATTGGTGTTCAACTTGTGGGACTTAGCGCAGCAACAGCAGCTAATGCGGTGGCTATGGTTGCAATCTTTAATACATTAGGTCGTATTATTTTAGGACCGTTATCGGATAAAATTGGTCGTTTAAAAATCGTTACTGGTACTTTTGTTGTTATGGCGAGTTCAGTTTTAGTTCTAAGTTTTGTAGATTTAAATTATGGTATTTACTTCGTATGTGTAGCAAGTGTAGCGTTTTGCTTTGGTGGAAATATCACTATTTTCCCAGCTATTGTTGGTGATTTCTTCGGTATGAAAAACCATAGTAAGAACTATGGAATTGTGTATCAAGGATTTGGATTTGGGGCGCTTGCAGGTTCCTTTATCGGTGCACTTCTGGGTGGATTCAAACCAACATTCATGGTGATTGGTGTATTATGTGTCGTGTCATTCATTATCGCAATTTTAATTCAAGCACCTAAACATAAAAAAGAACAAGAAGAAGAGTATCGCAGCGTAGCATAA	MKKSTVNPWFVVLGTVIVQMGLGTIYTWSLFNQPLVSKYGWSLNAVAITFSITSLSLAFSTLFASKLQEKWGLRKLIMIAGLALGLGLILSSQASSLILLYVLAGVVVGYADGTAYITSLSNLIKWFPERKGLIAGISVSAYGSGSLIFKYVNAQLIESVGVSQAFIYWGLIVTAMIVIGACLIHQAADQGAVHETKTKEYTTKEMLGTKQVYLLFIMLFTSCMSGLYLIGMVKDIGVQLVGLSAATAANAVAMVAIFNTLGRIILGPLSDKIGRLKIVTGTFVVMASSVLVLSFVDLNYGIYFVCVASVAFCFGGNITIFPAIVGDFFGMKNHSKNYGIVYQGFGFGALAGSFIGALLGGFKPTFMVIGVLCVVSFIIAILIQAPKHKKEQEEEYRSVA	PGPT0017235_1478	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
AK009_01013	786	dhbA	COG1028	2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase	ATGAACTTAGGGGAATTTGATGGGAAAACAGTTTTAGTAACAGGTGCAGCACAAGGCATAGGCAGTGTCGTTGCCAAAATGTTTTTAGAAAGAGGAGCCACAGTTATTGCGGTTGATCAAAATGAAGAGGGGTTAAATGTACTCTTAAATCAAAATGAATTAAATAAAACACGTATGAAAACGTTTCGTTTAGATGTGAGTGATAGCACTGCTGTTGAAGACATTGTAAATCATATTGCAAATGAAATAGCGCCAATAGATATTTTAGTAAACGTTGCAGGGGTTTTACGTATGGGAGCAATTCATTCGTTAAGTGATGAAGATTGGAATAAAACATTCTCTGTAAATACTACAGGGGTTTTCAATATGTCCCGAGCGGTAAGTAAAAATATGATGTTAAGAAAATCAGGGGCAATTGTTACAGTCGGTTCAAATGCGGCAAATACGCCGAGAATGGAGATGGCTGCGTATGCTGCGTCAAAGGCTGCAACAACGATGTTTATGAAGTGTTTAGGATTAGAGCTTGCAGCATACAATATACGCTGCAACTTAGTTTCTCCAGGTTCTACTGAAACTGAGATGCAAAGATTACTATGGGCTGATGAGAATGGAGCTAAAAATATAATTGCTGGTTCTCAAAATACATATAGACTCGGAATTCCATTACAAAAAATTGCACAACCTTCAGAAGTTGCTGAAGCAGTGTTATTTTTAGCTTCAGATAGAGCAAGTCATATTACAATGCACAATTTATGTGTCGATGGCGGTGCTACGTTAGGAGTTTAA	MNLGEFDGKTVLVTGAAQGIGSVVAKMFLERGATVIAVDQNEEGLNVLLNQNELNKTRMKTFRLDVSDSTAVEDIVNHIANEIAPIDILVNVAGVLRMGAIHSLSDEDWNKTFSVNTTGVFNMSRAVSKNMMLRKSGAIVTVGSNAANTPRMEMAAYAASKAATTMFMKCLGLELAAYNIRCNLVSPGSTETEMQRLLWADENGAKNIIAGSQNTYRLGIPLQKIAQPSEVAEAVLFLASDRASHITMHNLCVDGGATLGV	PGPT0003210_111	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-SIDEROPHORES	ISR-ENTEROBACTIN|ENTEROCHELIN,PGPT0003210-entA|vibA|viuA|vabA|angA|dhbA|cbsA|aebA-K00216	NA	NA
AK009_01014	1200	dhbC	COG1169	Isochorismate synthase DhbC	ATGAGTGAACATACAGCTGTAAAGGAATTGTCAGAAAAACTTTTAGAAGATTATAAGACTGAATCTTCGTTCTTTTTTGCTTCACCAACTCGAACGATATTAGCAGAAGGAGAGTTTACTACAGTAAAGCATCGTGAAATTGAAAGTTTCCCAGAGCTTGTGCAAGCGACATTAAGTAATGCGAAACAAGCTGGAAATCCAAATCCTATTGTTATGGGTGCTTTGCCATTTGATCGTAGAAAAGAAGTCCAACTTATCGTACCAGAATATAGTAGAATTTCTGAGCGTTTACAATTTGATACAACCAATCAGCTTGAAACAAATGAGAACGTAACATTTGAAATGACGCCAGTACCAGAACCTGAAGTTTATATGAATGGTGTGAAGCAAGGAATTAAAAAAATACAGGACGGTGATTTGAAGAAAATCGTTCTATCTAGATCGTTAGATGTTAAATCTTCCGAAAAGATTGATAAGCAAAAACTTCTGCGAGAATTAGCAGAGCATAATAAGCATGGTTATACATTTGCTGTGAATTTACCGAAAGGTGAAAAAGAGAACAGTAAGACGCTAATTGGAGCAAGCCCTGAATTACTTGTTTCACGTAATGGTATGCAAGTTATTTCTAACCCGTTAGCTGGTTCGAGGCCACGTAGTGAGGACCCAGTAGAAGATAAAAGAAGAGCAGAGGAATTACTTTCTTCTCCAAAAGATTTACATGAACATGCGGTAGTAGTTGAAGCGGTTGCCGCTGCACTTCGTCCGTATTGTCATACATTACATGTTCCAGAAAAGCCATCAGTTATTCATAGTGAAGCGATGTGGCATTTGTCTACAGAAGTGAAAGGTGAACTTAAGGATCCAAATACTTCTTCTTTACAATTAGCAATTGCCCTTCATCCTACGCCAGCAGTTTGCGGAACTCCGATGGAAAAGGCAAGAGAGGCTATACAGTATATTGAGCCATTTGACCGCGAGTTCTTTACAGGAATGCTAGGATGGAGCGATTTAAATGGAGATGGAGAATGGATTGTTACAATTCGTTGTGCTGAAGTACAAGAAAATACACTTCGTTTATATGCAGGAGCTGGAGTTGTTGCTGAGTCAAAACCAGAAGATGAGTTAGCAGAAACATCAGCTAAGTTCCAAACAATGTTAAAAGCTTTAGGGTTAAGAGATAGTTCACTTAATGAAAAATAG	MSEHTAVKELSEKLLEDYKTESSFFFASPTRTILAEGEFTTVKHREIESFPELVQATLSNAKQAGNPNPIVMGALPFDRRKEVQLIVPEYSRISERLQFDTTNQLETNENVTFEMTPVPEPEVYMNGVKQGIKKIQDGDLKKIVLSRSLDVKSSEKIDKQKLLRELAEHNKHGYTFAVNLPKGEKENSKTLIGASPELLVSRNGMQVISNPLAGSRPRSEDPVEDKRRAEELLSSPKDLHEHAVVVEAVAAALRPYCHTLHVPEKPSVIHSEAMWHLSTEVKGELKDPNTSSLQLAIALHPTPAVCGTPMEKAREAIQYIEPFDREFFTGMLGWSDLNGDGEWIVTIRCAEVQENTLRLYAGAGVVAESKPEDELAETSAKFQTMLKALGLRDSSLNEK	PGPT0003220_241	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0003220-entC|vibC|viuB|angC|vabC|dhbC|basJ|cbsE|aebC-K02361	NA	NA
AK009_01015	1617	dhbE	COG1021	2,3-dihydroxybenzoate-AMP ligase	ATGCTAGTAGGTTATAGGGAATGGCCAAAAGAATTTGCCGATCGTTATCGAGAAGAAGGGTGTTGGCTTGGTGAAACATTTGGAGGAGTGTTAAGAGAGCGAGCTGAGAAATATGGAGATCAAATCGCGGTTGTAAGCGGTAAGACGCATGTAACGTACAGTGAACTTGATAAAAAGGTAGATCGTTTAGCAGCAGGTTTACTGAATTTAGGAATAAAGAAAGAGGACAGAGTTGTAATACAGTTACCTAACATTATCGAGTTTTTCGAAATATGTTTTGCACTATTTCGAATTGGAGCGCTTCCTGTCTTTGCACTGCCTTCACATCGAAGTAGTGAAATTAGTTGTTTTTGTGAGTTTGGTGAGGCGAGCGCTTACGTTATTTCAGATAAGGCCCTCGGTTTTGATTATCGAAAACTAGCAAGAGAAGTGAAAGAGAAAGTGCCAACTTTACAACATGTAATTGTAGTGGGAGAAGAGGAAGAGTTTGTGAACATAAATGATCTGTATATGGATCCTATCTCATTGCCAGAAGTTCAGCCCAGTGATGTTGCATTTCTCCAATTATCAGGAGGGACAACAGGTCTTTCTAAATTAATTCCTAGAACACATGATGACTATATTTATAGTTTACGTGTTAGCGCTGAAATTTGTAATTTGAATGCAGAAAGCGTCTATATGACAGTTCTTCCAGTAGCACACAATTATCCAATGAGTTCTCCAGGAACATTTGGAACTTTCTATGCGGGTGGAAAAGTGGTATTGGCAACTGGTGGTAGCCCAGATGAGGCATTTGCTCTTATCGAAGAAGAAAAAGTTACAATTACAGCGCTCGTTCCGCCATTAGCAATGATTTGGCTTGATGCTGCATCTTCTCGTAATGCCGATTTATCGAGCCTAGAGGTTATTCAAGTAGGTGGTGCTAAGTTTAGTGCTGAGGTTGCAAAACGTATACGCCCTACATTTGGATGTACGTTACAGCAAGTATTCGGTATGGCGGAAGGATTAGTGAACTATACCAGATTAGACGATCCGGAAGAAATTATTATTCATACACAAGGTAGACCAATGTCTGCACACGATGAAGTACGAGTTGTTGATGAAAATGACAACGATGTAAAACCTGGCGAAGTAGGTAGTTTATTAACACGAGGTCCATATACAATTCGTGGTTACTATAAAGCCGAAGAGCATAATGCACGATCATTTACAAAGGATGGATTTTATCGCACAGGAGATCTTGTAAAAGTAAATGAACAAGGATACATCATTGTAGAAGGAAGAGATAAAGATCAAATTAACCGTGGTGGTGAGAAAGTTGCTGCGGAAGAAGTTGAAAATCATCTATTAGCACACGATGCGGTTCATGACGTAGCAATTGTATCTATGCCTGACGATTATTTAGGTGAACGCACCTGTGCTTTTGTTATAGCTCGCGGACAAGTTCCAACTGTAAGTGAATTAAAAATGTTTTTAAGAGAACGTGGTATAGCGGCTTATAAAATTCCAGATCGAATTGAATTTATTGAATCATTCCCGCAAACAGGAGTCGGAAAAGTCAGCAAAAAAGAACTACGTAAAGTCATTGCTGAAAAACTTATTACAGTAAAACAATAA	MLVGYREWPKEFADRYREEGCWLGETFGGVLRERAEKYGDQIAVVSGKTHVTYSELDKKVDRLAAGLLNLGIKKEDRVVIQLPNIIEFFEICFALFRIGALPVFALPSHRSSEISCFCEFGEASAYVISDKALGFDYRKLAREVKEKVPTLQHVIVVGEEEEFVNINDLYMDPISLPEVQPSDVAFLQLSGGTTGLSKLIPRTHDDYIYSLRVSAEICNLNAESVYMTVLPVAHNYPMSSPGTFGTFYAGGKVVLATGGSPDEAFALIEEEKVTITALVPPLAMIWLDAASSRNADLSSLEVIQVGGAKFSAEVAKRIRPTFGCTLQQVFGMAEGLVNYTRLDDPEEIIIHTQGRPMSAHDEVRVVDENDNDVKPGEVGSLLTRGPYTIRGYYKAEEHNARSFTKDGFYRTGDLVKVNEQGYIIVEGRDKDQINRGGEKVAAEEVENHLLAHDAVHDVAIVSMPDDYLGERTCAFVIARGQVPTVSELKMFLRERGIAAYKIPDRIEFIESFPQTGVGKVSKKELRKVIAEKLITVKQ	PGPT0003270_507	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003270-entE|psmE|dhbE|basE|angE|aebE-K02363	NA	NA
AK009_01016	894	dhbB	COG1535	Isochorismatase	ATGGCTATCCCATCTATTTCAGTATATAAAATGCCAATTGAATCAGAACTACCAAAAAATAAAGTGAATTGGACACCAGATCCGAAACGTGCAGTACTTTTAATTCATGACATGCAAGAATATTTTCTTGATGCATATAGCGATAAAGAATCACCAAAAGTAGAACTTATTTCAAATATTAAAATGATAAGAGAAAAATGTAAGGAACTTGGTATACCAGTTGTTTATACAGCACAACCTGGTGGGCAAACGTTAGAACAACGAGGTTTATTACAAGACTTTTGGGGTGACGGTATTCCTGCTGGACCGGATAAAAAGAAAATTGTTGATGGACTTACTCCTGATGAAGATGATATATTCCTAACAAAATGGAGATATAGTGCATTTAAAAAGACAAATCTATTAGAAATTTTAAATGAACAAGGAAGAGATCAACTTATTATTTGCGGTATTTATGCGCATATTGGCTGTCTTTTAACAGCTTGTGAAGCATTTATGGATGGTATAGAGCCCTTCTTTGTAGCAGATGCAGTTGCTGATTTTTCACTAGAGCATCATAAACAAGCATTGGAGTATGCATCTAATAGATGTGCAGTAACGACATCAACAAACCTACTGTTAAACGATTTGCAAAGTGTAAAAGGTGATGAGAGTGAAGGAATCACTATACAGGAAGTGCATGAACTAGTTGCACAACTACTTCGTGAGCCAATAGAAAGTATTGATTTTGATGAGGACTTATTAAATAGAGGACTTGATTCGGTCAGAATTATGAGTTTAGTAGAGAAGTGGCGTCGTGAAGGGAAAGAAATCACTTTTGCAGATTTAGCAGAACATCCAACTGTTGCAGGTTGGTACAGTTTACTATCTTCACAAACAGCACAGGTGCTGTAA	MAIPSISVYKMPIESELPKNKVNWTPDPKRAVLLIHDMQEYFLDAYSDKESPKVELISNIKMIREKCKELGIPVVYTAQPGGQTLEQRGLLQDFWGDGIPAGPDKKKIVDGLTPDEDDIFLTKWRYSAFKKTNLLEILNEQGRDQLIICGIYAHIGCLLTACEAFMDGIEPFFVADAVADFSLEHHKQALEYASNRCAVTTSTNLLLNDLQSVKGDESEGITIQEVHELVAQLLREPIESIDFDEDLLNRGLDSVRIMSLVEKWRREGKEITFADLAEHPTVAGWYSLLSSQTAQVL	PGPT0003215_126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|BACILLIBACTIN|VANCHROBACTIN|ACINETOBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003215-entB|vibB|viuB|vabB|angB|dhbB|basF|cbsB|aebB-K01252	NA	NA
AK009_01017	7158	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGCCTAACAGTCAAAAGATTCGTCATTCGTTATCATCTGCGCAGTCTGGTATGTGGTTTGCGCAACAATTAGATCCGCTTAACCCAATTTATAATACTGGGGAATATGTAGAAATAAACGGAAATATTCATCAAGAAATTTTCGAATTAGCTGTACGTAAAGTTGTAATAGAAGCAGAAGCACTTCATGTTCGCTTCGAAGAGGATGAAATTGGCCCATGGCAAGTTATTGAAGAATCACAGTTTTATATGCATTTTATTGACGTTCGTAAAGAAGAAAACCCTGAAGAAGCTGCTAAAGTATGGATGAAAAATGATTTATCTATGCCCGTCGATTTGAAAAAAGATATTTTATTTACGGAAGCACTTATTCAAGTTGAAAATAATCGTTTCTTTTGGTATCAGCGCATCCATCACATTGTGATGGATGGCTATGGATTTTCACTTCTTAGCCAAAAGGTAGCGAATGAGTATACATCACTTATAGAAGAAACAAACAAGAATGAAAAGCCATTTGGTTCTCTTACAAAAGTTGTACAAGAAGATATTGAGTATCGTGAGTCTAAACAATTTCAGGAAGATCGTACTTTTTGGTTAGAAAAGTTTGCTGATGAACCAGAAGTTGTAAGCTTGGCAGAACGAGCACCGAGAACATCAAATGGATTTTCACGAGAAACAGCTTATTTATCTAGTTCTAGCACGAAAACTTTACTAGAAGATATCAATATTTCGTTAACAAGTTGGCCGGAATTCATTGTCGCTGTAACAAGTATTTATATGCATAAATTAACAGGTGAAAATGATATTGTTTTAGGTTTACCGATGATGGGGCGTCTAGGTTCTGTATCTATTCATACACCAAGTATGGTAATGAATTTAGTACCACTGCGTCTCACTGTAACTCCAAATATAACTCTTGCGGAATTATTGCAGCAAGTTTCTAAAGAAATCCGAGATGTACGTCGTCATCATAAATACCGTCACGAGGAATTAAGAAGAGACTTAAAGTTACTAGGTGAAAATCAAAGGTTGTTTGGACCGTTAGTGAATGTTATGCCTTTTGATTACGGGCTTAATTTTGCTGGAAATCGTGGTATTACGCATAACTTATCAGCAGGACCTGTAGATGATTTATCGATAAATGTATATAAACGTTTTGATCAAAATGAGCTAATGATTCATTTTGATGCGAATCCCGAAGTATATAATGGCGCGGAGCTAGCATTGCATAAAGAAAGATTTATGAATCTATTTGAATTAGTAATAAAGAATTATGAGAAAAACGAGTCGATTGGAAAAATAAATATTACTCTGCCTGAAGAAAATCATAAGGTTTTATTAGAATGGAATGAAACGAAGGAAGATGATGAGTTAATCAGTCTACCTATATCATTTGAAAAACAAGTGCAAAAAAATCCAAATAAACTAGCGATTACTTGTGACGGTATAAACCTTACGTATAAAGAGCTAAATGAACGAGCGAATGAACTAGCACATTATTTAGTAGGAGAAGGAATACGACCAAATCAGTTTGTAGCTTTAGTATTCCCTAGATCAATAGAAATGGTAGTTAGTATGCTAGCAGTCTTAAAGGCTGGTGCAGCATATTTACCAATAGATCCAGAATACCCAGCAGAAAGAGTTAATTATATAGTAGATGATGCAAAACCAGTTTGTATCATAACACATTCATCTGTTTCATCTAAGTTAGTTATAGAAAATGGTATGAAAAAAATTGTATTAGATGGCGAAGAAACGAAACTAGCGTTACATACATATTCTCGTATGAATATAGCATGTAAGAATGATGTATTACTTTTAAACCCAGCCTATACAATATATACTTCAGGCTCAACAGGAAACCCAAAAGGTGTAATTGTTCCTATGAGAGGTTTAAGTAACTTTTTAATGGCTATGCAACAAAAGTTTTCGTTAAATGAAAATGATCATTTATTAGCAGTTACAACTTTTGCGTTTGATATTTCTGCTCTAGAAATTTATTTACCTCTTATTAGTGGTGCAAGTTTAACAATTGCGCAAAAAGAAGACATACAAGAGCCTTCTGCATTAACGACACTTTTACAAGAAGAAAGAGTGACCGTTATGCAGGCTACACCGACGCTTTGGCAGGCGTTAGTAACTGATTATCCAGAGAAGCTACAAGGGCTAAACATACTTGTTGGTGGTGAAGCTCTTCCAGCGCATTTAGCAAATAAATTAAAAGAATTAGGTTGCTCAATAACTAATTTATATGGACCAACTGAAACGACGATTTGGTCTACTTTCATGAACATTGATGAAAGTGAAAAGGGTATACCTCCTATTGGAAAGCCAATTTCCAATACAGAAGTGTATGTATTGGATGCAGGGTTACAACCAGTTCCACCTGGAGTTATTGGTGAATTATATATTGCAGGGGAAGGACTTGCAAGCGGATATTTAGGAAAACCTGAGTTAACAGCTGAACGGTTTGTTGCAAATCCTTATGGAGAATCAGGGAAGCGCATGTACCGTACAGGAGATCTTGTGAAATGGCGTAGTGATGGTGCGTTAGAGTACATTAGTCGCGCAGATCATCAAATTAAAATTCGTGGATTCCGAATTGAATTAGCTGAAATTGAAACGGTATTACAACGACATGAAAATATTCAACAAGCGGTAGTAATGGTACGAGAAGATCGTCCAAATGATAAACGCATCATTGCATATATCATTGCAGAAGAAAAGGAACCGATTAATCTTTCAGAAATTCGTTCTTATGTTTCAGAAAGTTTAGCGAATTATATGATACCATCGGCATTTGTTGTGCTAGAAGAATTACCATTAACGCCAAATGGTAAGGTTGACAGAAAGAAATTACCTGCGCCTAATTTTAATGGAATGAACAATGAGAGGGTTGCTAGAAATCCGAAAGAAGAAATATTATGTGATTTATTTGCAGAAGTACTTGGTGTTTCTCGAATTAGTATTGATGATAATTTCTTTGAAATGGGTGGACATTCCCTTCTTGCATCTCGTTTAATGGCAAGAATTCGTGAAACGTTAAGTGTGGAATTAGGTATCGGGAAACTATTTGAATCACCAACTGTTGCCGAACTGGCGAAACAATTAAACCATGCAAAAAGTGCAAGACCAGCTATTCAGAAAGCAAGTAGGCCAAATGAAGTTCCACTTTCATTTGCACAGCGCAGGTTATGGTTCTTAAATTGTTTAGAAGGTCCAAGTCCTACTTATAATATTCCGCTAGTCATTCGTATGAATGGAATATTGAATGAGGAAGCATTACAAGGTGCTTTTTATGATGTAGTTGAGAAACATGAAACACTTAGAACAATTTTCCCTAACGTATTAGGTAGTTCCTATCAGAAAATTTTAGATATGGAAAACTTAAATCTAGAAATGATTATAACAAAAACATGTAAAGATGAATTAGAAAGTGTACTTTCAGAGGCGGTAAGATATAGTTTTAACCTCGATATTGAGCCGGCAGTTCGTTTGCAACTTTTTACAGTGAGTGAAAACGAACATGTATTATTAATTTTATTACATCATATTGTAGGTGATGGCTGGTCATTACAGCCGTTAACGAGAGATTTTACAGCGGCGTATAAAGCACGATGTCAAGGTGACAGAGTTCAGCTGGAGACACTTCCAGTTCAATACGCAGATTATGCACTTTGGCAACAACAATTGCTAGGTGATGAAACGACACCAGAGAGTCTTATTTCAACACAATTAGATTTTTGGAAAGAAGAACTTAAAGGTTTACCAGATCAAATGGAGTTACCTACAGATTTCCAGCGTCCAATTGAGACGAGTTACCGCGGGGAAACAATTCATTTTCATATAGATGAAGGTATGCATAGTAGGTTAGTAGAGCTTGCACGTAAAAATGGAGTTAGTTTGTTTATGGTGTTACAAGCAGGGCTTAGTGCACTATTTACAAGATTAGGTGCAGGCACTGATATACCAATTGGAAGTCCCATTGCTGGAAGAAATGATGATGTACTTTCAGATATTGTTGGTTTATTTGTAAATACATTAGTGTTACGTACAAATACTTCAGAAGATCCAAGTTTTAAAGAATTATTAAATAGAGTGAAGCAGGTAAATCTTGCAGCTTATGAAAATCAAGATGTTCCATTTGAAAGGCTTGTTGAAGTGTTAAATCCAGTACGTACTCGAAACAGCCACCCGTTGTTTCAGGTTATGTTAGCTTTTCAAAATACACCAGAAGCAACGTTTCATGTACCAGGTTTAGAAGCGATCCTTGAAATTCAAAGCGTCGGTTCTGCGAAATTTGATTTAACATTTGAAATTAGTGAGAGTAACGGGGATGATGGTACTCCGAACGGTTTACATGGATTACTAGAGTTTAGTACCGATTTATATAAACGTGAAACGGTTCAAAAACTAATAGAACGATTCATTTTGTTATTAGATGATGCGGCGACAAATCCGGATCAATCCATTGGCAGATTAGAAATATTAACTTTAGCAGAGAAAAATACAGTATTAGAAAAGTGGAATGGTGGTTTTCAAATTGCACCAGAAATGACATTGCCACAATTATTTGAAAAACAGTCTCATATAAATCCAAATTCTATTGCTGTTGTCTTTGAAGATAAGAAATTAACTTATGAAGAGTTAAATAGAAAAGCAAATAAAATAGCTCGATTCCTAATAGCAAAAGGGATTGGTCCTGATCAACTCGTTGCTTTAGCGATGCCAAGATCATTAAACATGGTGGTAAGCTTATTAGCTGTTCTTAAAGCTGGTGCTGGATACCTTCCGTTAGATCCAGATTACCCAGCAGATCGTATTTCATTTATGCTACACGATGCGAAACCATCATGTGTTTTAACGAATTCAGAAGTGGAAATTGAATGTGACGAGGCACTAAAAGTTTTAGTTGATGATGTGAAAGTAATAGCAGAAGTTGAGAAATATAGTGAAGACAATATTGATGAAGTGGAACGAATTAAGCTATTATCTCCATCACATATTGCTTACGTTATTTATACATCAGGCTCAACGGGTAGACCGAAAGGCGTTATGATACCTCATCAAAATGTAGTAAGACTTTTAGGGGCAACTGATCATTGGTTCCAGTTTGACGGAAACGATGTTTGGACGATGTTCCATTCATACGCTTTTGATTTCTCGGTTTGGGAAATTTGGGGACCTTTATTATACGGAGGGCGTTTAGTTGTAGTGCCACATACTGTAAGTCGCTCGCCGAAAGAATTTTTACAGCTTCTTGTTAAAGAAAAGGTTACGGTTTTAAATCAAACTCCATCAGCGTTCTATCAATTGATGCAAGCAGATCGTGAAAATGAAGAGATTGGCCAAAAATTATCTTTACGATATGTTGTTTTTGGAGGAGAAGCACTTGAGCTAAGTCGCTTAGAAGATTGGTATAGTCGACATCCTCATAATGCACCAAAGCTTATTAATATGTACGGTATTACGGAGACGACAGTGCATGTTAGTTATATTGAATTAGATGAAACTATCGTCTCTTTACGAGCAAATAGTTTAATTGGGTGCAGTATACCTGACCTTAAAGTGTATGTGTTAGACAACTATTTACAACCAGTGCCACCTGGAGTAGTTGGAGAAATGTATGTTGCAGGTGCAGGGCTTGCGCGTGGATATTTAGGAAGAGCAGGATTAACGGCTGAACGCTTTATCGCAGATCCATTTGGCAAGCCAGGTACAAGAATGTATCGTACAGGAGACTTAGCTCGCTGGCGTAAAGATGGGACGCTAGATTATATAGGACGTGCAGATCATCAAATAAAAATTCGTGGATTCCGAATTGAATTAGGAGAAATAGAAGCAGTCATAATGAAGCACCCTAAAGTTGAGCAAGTAGCCGTTATTGTACGGGAAGATCAACCAGGGGATAAACGGTTAGTTTCTTATATCGTCGCATCAAATGATGAAGAGATTGATACGAATGAAATGCGTCAGTTTGCTAGTGGTAGTTTACCAGATTATATGGTTCCATACGCTTTTGTAGTAGTAAATGAGTTACCTTTAACTCCAAACGGTAAATTAGATAGAAAGGCATTGCCAGCTCCAGAATTTATCGCATCATCTTCTAGTCGTGGTCCAAGAACACCGCAAGAAGAAATGTTATGTGACTTGTTTACAGAAGTGCTAAGTGTACCTCAAATTGGAATTGATGACGGATTTTTTGATCTTGGTGGGCATTCACTCCTTGCAGTACAGCTTATGAGCCGCATTAAAGAGGCGCTTGGAGTGGAACTAAACATTGGCACTTTATTTGCAGCACCGACTGTTGCAGGGTTAGCTGAAAGACTTGAGATGGGGAATGGTCAAAGTGCACTTGATGTGTTGCTTCCATTACGAGCAAGCGGGGATCAATTACCACTATTTTGTGTACATCCAGCAGGTGGATTAAGTTGGTGCTATGCAGGACTTATGAAATCTTTAGGAACAGATTATCCAATCTATGGTGTACAAGCACGTGGTATTGCTAAAAATGAAGAACTTCCAAAAACTTTAGAGGAGATGGCGGCGGATTACTTGAAACACGTTCGTGAAGTACAGCCTCATGGACCATATCGTTTACTAGGCTGGTCGCTTGGAGGAAATGTTGTGCATGCAATGGCGGCGCAACTACAAAATGGAGGGGAAGAAGTAGAATTACTCGTTATGCTTGATTCTTATCCTGGACACTTCTTACCGAATACGGAAGCGCCTACTGAAGAGGAAGCGTTAATAGCATTACTTGCTTTAGGCGGATATGACCCAGATAACATGGATGGTAAACCACTTACAATGGAAAGTGCAGTTGAAATCCTTCGTAAAGATGGAAGTGCATTAGCAAGTCTTGAAGAAGAGACTATATTGAATTTGAAAGAAACATATGTAAATTCAGTAGGGTTGTTAGGGAAGTATGTACCGAAAGTTTATAACGGAGATATCTTATTCTTTAGATCTACTGTTATACCAGATTGGTTTGATCCTATTTCTCCAAATACGTGGCTAAATTATTTAGACGGGCAAATTGTGCAGCACGATATTGATTGTAGACATAAAGATCTATGTCAGCCAGGTCCACTCACGGAAATTGGACAAGTATTAGCGAAATATTTGCAGAATAAGAAAGGGGTAAGTAGAGTATGA	MPNSQKIRHSLSSAQSGMWFAQQLDPLNPIYNTGEYVEINGNIHQEIFELAVRKVVIEAEALHVRFEEDEIGPWQVIEESQFYMHFIDVRKEENPEEAAKVWMKNDLSMPVDLKKDILFTEALIQVENNRFFWYQRIHHIVMDGYGFSLLSQKVANEYTSLIEETNKNEKPFGSLTKVVQEDIEYRESKQFQEDRTFWLEKFADEPEVVSLAERAPRTSNGFSRETAYLSSSSTKTLLEDINISLTSWPEFIVAVTSIYMHKLTGENDIVLGLPMMGRLGSVSIHTPSMVMNLVPLRLTVTPNITLAELLQQVSKEIRDVRRHHKYRHEELRRDLKLLGENQRLFGPLVNVMPFDYGLNFAGNRGITHNLSAGPVDDLSINVYKRFDQNELMIHFDANPEVYNGAELALHKERFMNLFELVIKNYEKNESIGKINITLPEENHKVLLEWNETKEDDELISLPISFEKQVQKNPNKLAITCDGINLTYKELNERANELAHYLVGEGIRPNQFVALVFPRSIEMVVSMLAVLKAGAAYLPIDPEYPAERVNYIVDDAKPVCIITHSSVSSKLVIENGMKKIVLDGEETKLALHTYSRMNIACKNDVLLLNPAYTIYTSGSTGNPKGVIVPMRGLSNFLMAMQQKFSLNENDHLLAVTTFAFDISALEIYLPLISGASLTIAQKEDIQEPSALTTLLQEERVTVMQATPTLWQALVTDYPEKLQGLNILVGGEALPAHLANKLKELGCSITNLYGPTETTIWSTFMNIDESEKGIPPIGKPISNTEVYVLDAGLQPVPPGVIGELYIAGEGLASGYLGKPELTAERFVANPYGESGKRMYRTGDLVKWRSDGALEYISRADHQIKIRGFRIELAEIETVLQRHENIQQAVVMVREDRPNDKRIIAYIIAEEKEPINLSEIRSYVSESLANYMIPSAFVVLEELPLTPNGKVDRKKLPAPNFNGMNNERVARNPKEEILCDLFAEVLGVSRISIDDNFFEMGGHSLLASRLMARIRETLSVELGIGKLFESPTVAELAKQLNHAKSARPAIQKASRPNEVPLSFAQRRLWFLNCLEGPSPTYNIPLVIRMNGILNEEALQGAFYDVVEKHETLRTIFPNVLGSSYQKILDMENLNLEMIITKTCKDELESVLSEAVRYSFNLDIEPAVRLQLFTVSENEHVLLILLHHIVGDGWSLQPLTRDFTAAYKARCQGDRVQLETLPVQYADYALWQQQLLGDETTPESLISTQLDFWKEELKGLPDQMELPTDFQRPIETSYRGETIHFHIDEGMHSRLVELARKNGVSLFMVLQAGLSALFTRLGAGTDIPIGSPIAGRNDDVLSDIVGLFVNTLVLRTNTSEDPSFKELLNRVKQVNLAAYENQDVPFERLVEVLNPVRTRNSHPLFQVMLAFQNTPEATFHVPGLEAILEIQSVGSAKFDLTFEISESNGDDGTPNGLHGLLEFSTDLYKRETVQKLIERFILLLDDAATNPDQSIGRLEILTLAEKNTVLEKWNGGFQIAPEMTLPQLFEKQSHINPNSIAVVFEDKKLTYEELNRKANKIARFLIAKGIGPDQLVALAMPRSLNMVVSLLAVLKAGAGYLPLDPDYPADRISFMLHDAKPSCVLTNSEVEIECDEALKVLVDDVKVIAEVEKYSEDNIDEVERIKLLSPSHIAYVIYTSGSTGRPKGVMIPHQNVVRLLGATDHWFQFDGNDVWTMFHSYAFDFSVWEIWGPLLYGGRLVVVPHTVSRSPKEFLQLLVKEKVTVLNQTPSAFYQLMQADRENEEIGQKLSLRYVVFGGEALELSRLEDWYSRHPHNAPKLINMYGITETTVHVSYIELDETIVSLRANSLIGCSIPDLKVYVLDNYLQPVPPGVVGEMYVAGAGLARGYLGRAGLTAERFIADPFGKPGTRMYRTGDLARWRKDGTLDYIGRADHQIKIRGFRIELGEIEAVIMKHPKVEQVAVIVREDQPGDKRLVSYIVASNDEEIDTNEMRQFASGSLPDYMVPYAFVVVNELPLTPNGKLDRKALPAPEFIASSSSRGPRTPQEEMLCDLFTEVLSVPQIGIDDGFFDLGGHSLLAVQLMSRIKEALGVELNIGTLFAAPTVAGLAERLEMGNGQSALDVLLPLRASGDQLPLFCVHPAGGLSWCYAGLMKSLGTDYPIYGVQARGIAKNEELPKTLEEMAADYLKHVREVQPHGPYRLLGWSLGGNVVHAMAAQLQNGGEEVELLVMLDSYPGHFLPNTEAPTEEEALIALLALGGYDPDNMDGKPLTMESAVEILRKDGSALASLEEETILNLKETYVNSVGLLGKYVPKVYNGDILFFRSTVIPDWFDPISPNTWLNYLDGQIVQHDIDCRHKDLCQPGPLTEIGQVLAKYLQNKKGVSRV	PGPT0003165_51	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003165-dhbF-K04780	NA	NA
AK009_01018	225	mbtH	COG3251	Protein MbtH	ATGACGAATCCATTTGAAAATGATAATTACACATATAAAGTATTAATAAATGAGGAGGGCCAGTATTCTCTCTGGCCTGCTTTTCTCGATGTACCTATTGGCTGGAATGTCGTATATGAAGAAGCTAGTAGGCAGAGCTGCTTAGAATATGTTGAATATAACTGGAAAGATTTGAATCCGAAAAGTAATCAAGTTCGCGAAAAAACATTAGCAGGAAAACGATAA	MTNPFENDNYTYKVLINEEGQYSLWPAFLDVPIGWNVVYEEASRQSCLEYVEYNWKDLNPKSNQVREKTLAGKR	PGPT0003370_431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
AK009_01019	1431	hsrA		putative transport protein HsrA	ATGAAAGCAAAACTAAATCCAAAAGTAGTTGTAAGTATCGTGTATATAACTGCGATGTTTATGGCTGCGATGGACGCAACGATTGTAAATGTAGCACTGCAAACGATAAGTAGAGAACTACAAGTACCTGCATCTGCAATGGGGACGGTTAATGTTGGGTATTTAGTTAGTTTAGCTGTTTTCCTTCCGATTTCTGGTTGGTTAGGAGATCGTTTTGGGACGAAAAGAGTATTTTTAATTGCTCTTTTCGTATTTACAATCGCTTCTGCTTTATGCGGAATGGCTAACGATATTACTTCATTGAATATTTTTCGTATCATTCAAGGTGCTGGTGGAGGACTTTTAACACCGGTCGGAATGGCGATGTTATTTCGAACATTTTCACCAAAGGAAAGACCGAAGATTTCCCGGTTCATTGTACTTCCAATTGCTGTAGCGCCAGCAGTTGGGCCTATCATCGGTGGTTTCTTTGTAGATCAAATGTCTTGGCGTTGGGCATTTTATATTAATGTACCGTTTGGAATCGTTGCATTGCTATTTGGACTTCTATTTTTAGCAGAGCATGTTGAAAAATCAGCTGGTCGCTTTGATTCTCTTGGCTTTATTTTATCAGCACCAGGATTTGCGATGCTCATATATGCACTCAGCCAGGGACCATCAAAAGGGTGGATTTCTCCAGAAATTATGAGTACCGGGGTAGCTGGGCTTGTATTCATTGCGTTGTTTATAATCGTAGAACTGAAAGTAAAGCAACCGATGTTAGATTTACGCTTATTAAAAGAACCAGTATTTAGAAAGATGAGCATTATATCATTATTTTCATCAGCTGGTTTATTAGGAATGTTATTTGTTTTTCCACTTATGTATCAAAATGTGATAGGAGTTTCCGCGCTAGAATCAGGACTTACGACATTTCCAGAGGCGATTGGATTAATGATTTCTTCACAAATTGTGCCATGGTCATATAAGAAATTAGGAGCTCGAAAGGTAATTTCTATTGGATTAATATGTACGGCGGTTATATTTGTTTTATTGAGTTTTGTAAATCACGATACGAATCCGTGGCAAATCCGGGCATTATTGTTTGGCATTGGTATTTTCTTAGGTCAATCTGTCGGTGCAGTTCAATTTTCTGCCTTTAACAATATCACGCCGCCTTCTATGGGGAGAGCGACTACTATATTCAATGTGCAAAATCGATTAGGTTCAGCAATAGGAGTAGCTGTTTTAGCTAGTATACTAGCTGGTTTTGGAAGTAATAACGTTCAATCCGATTTTTTACCATATCAAGCAGCATTAATTGGATCAGCAATATTTTTGCTCATAGCACTACTATTTTCTTTACGTATTTCCGATAAAGAGGTAATGTCAAAGAAGAAAGAAAAAACATTATCAGTATCAGAAAAAGAGAAAGTACTTGTCAATGAATAA	MKAKLNPKVVVSIVYITAMFMAAMDATIVNVALQTISRELQVPASAMGTVNVGYLVSLAVFLPISGWLGDRFGTKRVFLIALFVFTIASALCGMANDITSLNIFRIIQGAGGGLLTPVGMAMLFRTFSPKERPKISRFIVLPIAVAPAVGPIIGGFFVDQMSWRWAFYINVPFGIVALLFGLLFLAEHVEKSAGRFDSLGFILSAPGFAMLIYALSQGPSKGWISPEIMSTGVAGLVFIALFIIVELKVKQPMLDLRLLKEPVFRKMSIISLFSSAGLLGMLFVFPLMYQNVIGVSALESGLTTFPEAIGLMISSQIVPWSYKKLGARKVISIGLICTAVIFVLLSFVNHDTNPWQIRALLFGIGIFLGQSVGAVQFSAFNNITPPSMGRATTIFNVQNRLGSAIGVAVLASILAGFGSNNVQSDFLPYQAALIGSAIFLLIALLFSLRISDKEVMSKKKEKTLSVSEKEKVLVNE				NA	NA	NA	NA	NA
AK009_01020	750			hypothetical protein	ATGATAGAAAGTAAAGTTGTAGATTCTATTCCAACTTTGAATGAGAATGATTGTCAAATATGGTGGGCAAGAATTTCAGATTTACAATCATGGCATTACAATTTACTAAATAATATAGAGCGAGAGAAAGCAAATTCGTATCATCATTCGGCAGATCGAGCTCGTTTTATAATAGGTTGCGTAATTAGTAGATTAGTTCTCGGCAAGATACTTTCTATGTCACCAGTCCAAGTACCAATTGATCGAATGTGTTCCGTATGTAAATTGCAGCATGGAAGACCACAATTACCAGAAGGTATGCCGCAATTATCTGTTTCGCATTCAGGTGAGTGGGTTGTCGTTGCATTTACAAAATCTGCACCTGTTGGCATAGATGTAGAACAAATGAATCCAAATGTAGATGTTATGAAAATGGCAGAAGGTGTATTAACAGACATTGAAATAGCACAAGTTATGAAACTGCCAAATGAACAGAAAATAGAAGGTTTTTTAACATATTGGACTCGAAAAGAAGCGGTGTTGAAAGCGACAGGTGAAGGACTAATGATTCCACCAGTACATATTACAGTATCAGCTCCAAATAATCCTCCAAGATTGTTAGTTTTTAAGGATAAGCAAGAGTTGGCAAATAATACAATGATGGAAGATGTAAGGCCTAGTTTAGATTATATGGCTTCTGTTGCAATATTCAGTAAGGAAGTGACTGAAATTACGCAATTAGACGCGGTAGCACTTTTAAATCTTAAATAA	MIESKVVDSIPTLNENDCQIWWARISDLQSWHYNLLNNIEREKANSYHHSADRARFIIGCVISRLVLGKILSMSPVQVPIDRMCSVCKLQHGRPQLPEGMPQLSVSHSGEWVVVAFTKSAPVGIDVEQMNPNVDVMKMAEGVLTDIEIAQVMKLPNEQKIEGFLTYWTRKEAVLKATGEGLMIPPVHITVSAPNNPPRLLVFKDKQELANNTMMEDVRPSLDYMASVAIFSKEVTEITQLDAVALLNLK	PGPT0008845_1258	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
AK009_01021	543			hypothetical protein	ATGTTAGTGGCGGAAAATAGAAAGAATGAATTCACTTATAATATACAAGCAATTAAAAATATTTTATTTTCTGGAGATACATCATCCATTCACGCTTTAGAAAAGCTTTTAAATGATACAGTTCAGTTTGATGTTCTTGAACAAGAGGCACTTGGTAGACAGTACATTCCGAAAGAAGCAAAGAATTTCTTTGATAAAGATGGAACATTTCTTTACCGTGTATCTAATGTTAGTTATAAAGGTAAGGTTTTATCTGAAAATCTAATTTTTGCAGACACTTCGTTTTTACCGGACGCAATAAAGAGTGAATTAGAGAGTGGAAATATTCCTGTTGAAAAGCTTATAGAAAAGATGGAAGTAAGAAGAAACGTATTATATGAAGGATATCAGCCATCTGGAAATATTATCGAATTGTTTGATGGATGTTCTGTTACAGCGAATGTGTATCCAACTAGAAAGTATCAAATTGTAAGTAACTGCAAATGTGTATTTTATATTTGTGAAGTGTACCATGCAGAGAATATAAAGCAATTGCTTAAATGA	MLVAENRKNEFTYNIQAIKNILFSGDTSSIHALEKLLNDTVQFDVLEQEALGRQYIPKEAKNFFDKDGTFLYRVSNVSYKGKVLSENLIFADTSFLPDAIKSELESGNIPVEKLIEKMEVRRNVLYEGYQPSGNIIELFDGCSVTANVYPTRKYQIVSNCKCVFYICEVYHAENIKQLLK				NA	NA	NA	NA	NA
AK009_01022	273	hupA	COG0776	DNA-binding protein HU 1	ATGAACAAAACAGAATTAATTAAAAACGTAGCACAATCAGCTGATATTTCTCAAAAGGACGCTTCTGCAGCTGTACAATCCGTATTTGACACAATTGCTAATGCATTACAATCTGGCGATAAAGTTCAATTAATCGGATTTGGAACTTTTGAAGTGCGCGAAAGATCTGCTCGTACAGGACGTAATCCGCAAACTGGCGAAGAAATTCAAATCGCAGCTGGTAAAGTTCCTGCATTTAAAGCAGGTAAAGAATTAAAAGAAGCTGTTAAATAA	MNKTELIKNVAQSADISQKDASAAVQSVFDTIANALQSGDKVQLIGFGTFEVRERSARTGRNPQTGEEIQIAAGKVPAFKAGKELKEAVK				NA	NA	NA	NA	NA
AK009_01023	768			hypothetical protein	ATGATTTTTCGTGAAAAAAATGAGAAGGAAAGTATATTAATTCGTCAACATGATCATGGTTTTTTAGCTGGAGAGATTGCAAAGCATATAAAAGAGGACTTTTTTGAAGGTAAAACATATTTAAAAGAAACAGTTGATGCAATATATGAGCATGACAGAGGATGGATAGAGCTTGATAAAGTACCAATTTTGAATGATGCTAAAAATATTCCATATACATTTATGGATTGTCCAAGCCCATTACGTTTTGTTTTTTATACGATTGGTTTGAATGAAATTGAAAATTCTAATCCATACGGGGCATTGCTTTGCAGTAAACATTTTTTATCATTTCCACTAAACGAGGAAGATGAAGAGATGATGTCATTTTATAAACATGAATTAGAACGACAAAAAAGAATTTTGAAAACGTCAACAAAGGAACAGTTTGCGATGTTTGATAAACATTATAGATTATTAAAGTTTTGTGATGAACTTTCTTTATACGTATGTATGAATAAGCCTGGTGTAAAAAAGAAAGATGAAATTGATTTATTTAAAGATGGTTTTGAAGGAACAGAAATGTTTAATAGTAAGGAGGAGAAACTTATTCAAGCTGAATGGGTAGACGAGGAAACAATTCGGATTACACCATTTCCATTTCAAACGGAATTTCATACGTATGTAAAATATAAAACGATAAATAAACAGGAAATGAAAGGAAAAGGGATTGCAAAGGCTGATAGAGAATCGGAAATGAAGAAACAAACCATTCGTTTCATACAATAA	MIFREKNEKESILIRQHDHGFLAGEIAKHIKEDFFEGKTYLKETVDAIYEHDRGWIELDKVPILNDAKNIPYTFMDCPSPLRFVFYTIGLNEIENSNPYGALLCSKHFLSFPLNEEDEEMMSFYKHELERQKRILKTSTKEQFAMFDKHYRLLKFCDELSLYVCMNKPGVKKKDEIDLFKDGFEGTEMFNSKEEKLIQAEWVDEETIRITPFPFQTEFHTYVKYKTINKQEMKGKGIAKADRESEMKKQTIRFIQ				NA	NA	NA	NA	NA
AK009_01024	525			hypothetical protein	TTGAAAGACTATATATTAAAACAGTGTGATTACCATGCTTGGGCTAATACTAGATTATTCAATCGATTAAAAGAGTTACCAAACTATGAGACAATTTTTAATGAGCAGATACAGAGTGTATTCCCATCCATTAAGGATACTTTTGTGCATATTTATATTACAGATCAAGTGTGGTTACACATATTGCATAGTAAAAGTATGAATGAAGCAATACAAGACCGAGAAGATTTACGAAAACAAATTGAAACTAAATCGTTACATGAATTAGAAAAAATGTTTGAAAACATGGCAAATCAATATAAAGACTTTTTAATTACAATACAAGACGTGAATGCTGTATTTGTTATTGAGAACCCATATGCAGGGGCATTAGAAACTTCAATTTTAGAGTTAGTACAACATGTCGTAAATCATGGTACATATCATAGAGGAAATATAACAGCGATGATTCGTCAACTTGGTCATTCGTCGACAATGATGGATTTTGTACTGTATTTACATATGGTTAAAAAGCATGGAGAGTAA	MKDYILKQCDYHAWANTRLFNRLKELPNYETIFNEQIQSVFPSIKDTFVHIYITDQVWLHILHSKSMNEAIQDREDLRKQIETKSLHELEKMFENMANQYKDFLITIQDVNAVFVIENPYAGALETSILELVQHVVNHGTYHRGNITAMIRQLGHSSTMMDFVLYLHMVKKHGE				NA	NA	NA	NA	NA
AK009_01025	1194			hypothetical protein	TTGAAAAACAAAATCATTGTTTTCCTATCTGTTTTATCATTTATTATTGGTGGTTTCTTCTTTAACACGAATACTTCAAGCGCTGAAACATCATCTACTGATTACGTTCCTAACCAATTAATCGTTAAGTTCAAGCAAAATGCATCTTTAAGTAACGTGCAATCTTTTCATAAATCTGTCGGAGCTAATGTCTTATCTAAAGATGATAAGTTAGGTTTTGAAGTCGTTCAATTTTCGAAAGGTACTGTAAAAGAAAAAATAAAGAGTTATAAAAATAATCCAGATGTAGAATATGCAGAACCGAATTATTACGTTCACGCCTTTTGGACTCCGAACGACCCATATTTTAAAAATCAATATGGATTGCAAAAGATTCAAGCTCCACAAGCTTGGGATAGCCAACGAAGTGATCCTGGTGTAAAAGTAGCTATTATTGATACAGGAGTTCAAGGCTCACACCCTGATTTGGCTTCGAAAGTAATTTACGGGCATGATTATGTTGATAACGACAATACATCTGATGATGGTAATGGTCATGGTACACATTGCGCTGGAATTACTGGAGCCCTTACGAATAACAGTGTCGGAATTGCTGGTGTTGCCCCACAAACTTCAATTTATGCTGTCCGCGTATTAGATAATCAAGGAAGTGGTACACTTGATGCTGTAGCGCAAGGTATTCGAGAAGCTGCTGATTCGGGGGCAAAAGTAATTAGTTTAAGTTTAGGAGCTCCAAATGGTGGTACTGCATTACAACAAGCCGTTCAATATGCATGGAATAAAGGCTCTGTTATAGTTGCAGCTGCTGGAAATGCTGGAAATACAAAAGCTAATTACCCTGCTTATTACAGCGAAGTAATTGCAGTTGCTTCTACAGATCAAGCAGATAAGAAATCTTCATTTTCTACTTATGGTAGCTGGGTAGATGTTGCAGCACCAGGTTCAAATATATACTCCACTTATAAAGGAAGCTCGTATCAATCATTAAGTGGTACTTCTATGGCAACACCTCATGTTGCAGGAGTCGCTGCTCTTTTAGCAAATCAAGGATATAGCAATACACAAATTCGCCAAATTATTGAGTCAACTTCTGATAAAATTAGTGGTACAGGTACGTACTGGAAAAATGGTAGAGTCAATGCATTTAAGGCTGTACAATACGCTAAGCAATTACAAGAAAATAAAGCTTCTTAA	MKNKIIVFLSVLSFIIGGFFFNTNTSSAETSSTDYVPNQLIVKFKQNASLSNVQSFHKSVGANVLSKDDKLGFEVVQFSKGTVKEKIKSYKNNPDVEYAEPNYYVHAFWTPNDPYFKNQYGLQKIQAPQAWDSQRSDPGVKVAIIDTGVQGSHPDLASKVIYGHDYVDNDNTSDDGNGHGTHCAGITGALTNNSVGIAGVAPQTSIYAVRVLDNQGSGTLDAVAQGIREAADSGAKVISLSLGAPNGGTALQQAVQYAWNKGSVIVAAAGNAGNTKANYPAYYSEVIAVASTDQADKKSSFSTYGSWVDVAAPGSNIYSTYKGSSYQSLSGTSMATPHVAGVAALLANQGYSNTQIRQIIESTSDKISGTGTYWKNGRVNAFKAVQYAKQLQENKAS				NA	NA	NA	NA	NA
AK009_01026	1368	alsT_1	COG1115	Amino-acid carrier protein AlsT	ATGGAGACAGTAAGTAAAGTGTTAGAACAAATCAATCACTATGTGTGGGGACTACCAACGTTGTTGTTACTCGTTGGTACTGGTATCATTCTCACAGTGCGTTTAAAAGGTTTACAGTTTAGTAAACTATTATACGCTCACAAACTAGCTTTTAAAAAATCAGAAGATACATCTTCTTCTGGAGATATTAGCCACTTCCAAGCGCTTATGACAGCTATGGCGGCAACGATTGGTATGGGAAATATCGCTGGTGTTGCAACAGCTGTGACAATCGGTGGTCCCGGTGCAATCTTTTGGATGTGGATTACTGCTTTGTTCGGGATGGCAACAAAGTATGCCGAAGCAATTCTTGCGGTGAAATACCGTGTTAGTAATGAAAATGGCGAATATTCGGGTGGACCAATGTACTATTTAGAACGTGGTTTAGGAAAGAAATGGCTTGCTGTTTTATTCGCCATATTCGGTACAACTGCTTCTTTCGGTATCGGTAATATGGTGCAATCTAACTCAGTTGCAGAGGCAATGCGAATTAATTTCTCTTTCCCCCCTGCTCTAACTGGTATATTGATGTCGTTTTTAATCGCTATTGTTATTTTAGGCGGAGTTAAAAAAATCGGGAAAGTGACAGGATATATCGTTCCTATTAAAGCTTTCTTTTATATCATTGCTGGCCTTATTATTATTTTCTATCACTACGATCAAATTCCAGAAGCATTTTCACTTATTTTTTCTGGTGCATTTACTGGTACTGCAGCTGCTGGTGGTTTTATCGGAGCAACAGTTGCATCAGCTATTCAAATCGGAATGGCGCGCGGTGTATTTGCGAACGAGGCTGGTTTAGGGAGTGCCCCTATTGCCGCGGCGGCTGCAAAAACAGATTCACCTGCAAAGCAAGCATTAGTTTCTATGACCGGTACTTTTCTAGATACGTTTATTGTATGTACAATTACAGGACTTGTATTAATTACAACAGGTGCATGGAAATCAGGTAAAACTGGCGTTGAAGCTACAACACTTGCATTCCAATCTGTATTCGGTACTGCTGGTAGTATGATTCTCGGTATCGCAATTATTTTATTTGCCTACTCTACTATTTTAGGCTGGTCGTATTATGGAGAAAAATGTGTAGCTTATTTATTCGGAGAAAGTGCTGTTAAATATTATAAAGCAATCTTTATCATCATGATTGCTATTGGTGCGAATTTAAAATTAGGCATCGTATGGACATTTGCGGATATTGCAAATGGACTTATGGCAATTCCAAACTTAATTGGTCTAATTGGATTAAGTAGTATTGTTGTCGCTGAAACGAATCGCTTTTTACAAGCAGAGAAATTAAAAGAAAGTCATAAAAAACAGGCAAGTTAA	METVSKVLEQINHYVWGLPTLLLLVGTGIILTVRLKGLQFSKLLYAHKLAFKKSEDTSSSGDISHFQALMTAMAATIGMGNIAGVATAVTIGGPGAIFWMWITALFGMATKYAEAILAVKYRVSNENGEYSGGPMYYLERGLGKKWLAVLFAIFGTTASFGIGNMVQSNSVAEAMRINFSFPPALTGILMSFLIAIVILGGVKKIGKVTGYIVPIKAFFYIIAGLIIIFYHYDQIPEAFSLIFSGAFTGTAAAGGFIGATVASAIQIGMARGVFANEAGLGSAPIAAAAAKTDSPAKQALVSMTGTFLDTFIVCTITGLVLITTGAWKSGKTGVEATTLAFQSVFGTAGSMILGIAIILFAYSTILGWSYYGEKCVAYLFGESAVKYYKAIFIIMIAIGANLKLGIVWTFADIANGLMAIPNLIGLIGLSSIVVAETNRFLQAEKLKESHKKQAS	PGPT0014405_3961	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
AK009_01028	576			hypothetical protein	TTGCAGAAATTACTTTTTACTAAATGGACAGTTATTATTTCTATTTTCATCATTTTCGGTACAATTTTCTACGTTACTAATGTTAAAAATAACAACGAAAAAGCACCTGTAGAAACAGCGGATACAAAAACTTTCAAAACGAAATTACAACCTAAAATTAATGAATTGACTACTAATTATAATGAAATCATTGAAAAAGATTGGTTGCCTGCCTGGGAAGAGATTAACACGAATGGAGATTCAGTAGATCGAAATAAACTATTAGTTACAATGAATGCCGTTTCCAAGCAGTATGAAACAATTATGAACGAAATAGACACACTTAAAATTGAAGAAAACATAACAGATATAGATATACAAAAACAACTACTTCAATTCACAACTCAGTTTAAATCCGCATCAAATTTCATGAAAAATGCAGCAAATTTGATTATAGACGGAGCAAATAACTCTACTCCAACCAATGAAACTATTGAAAAAACAAAACAAGCTTTAGGACTTGCGGATCAACATATTGTCATCGCTTTATCTACTTTATATGAAGTTGAAGATAAATTAGGACTTACAAAAAAATAA	MQKLLFTKWTVIISIFIIFGTIFYVTNVKNNNEKAPVETADTKTFKTKLQPKINELTTNYNEIIEKDWLPAWEEINTNGDSVDRNKLLVTMNAVSKQYETIMNEIDTLKIEENITDIDIQKQLLQFTTQFKSASNFMKNAANLIIDGANNSTPTNETIEKTKQALGLADQHIVIALSTLYEVEDKLGLTKK				NA	NA	NA	NA	NA
AK009_01029	309			hypothetical protein	GTGAAAATGAATAGAAGAAAACTAGTTTCAAGTATTTCAATGGCTATGTTATTAGTTGGTGTAATTGCATTCATATTTATGAATAAAGAATCTAAAATTAAAGGTTTTCCAGTACCAATGTCAGCAATTCATATTAACGATGATAAGGAAGAGGATTATCAATATATAAGTGTAATGCCAATTACAAAGGCGAGTGGATGGGAGAACTTAGGGGAAAACGGGCATACTGTTAGTTTTAAAAAGGGGGAGCGGAAGGTAACTGTATTACATTATCCAGGAGAAATTACGTATTATTTGTTTGAAAAATAA	MKMNRRKLVSSISMAMLLVGVIAFIFMNKESKIKGFPVPMSAIHINDDKEEDYQYISVMPITKASGWENLGENGHTVSFKKGERKVTVLHYPGEITYYLFEK				NA	NA	NA	NA	NA
AK009_01030	621			hypothetical protein	ATGTTACTAAAAACAATCTACTGTAAGGTGGAAGAAGAGAAAAAAGAATTGTTTTCCAGTGCGCAAGAAAAATGGCATGATATACAACACCTAGATGGTTTTCATGGACAATTTGGTGGATGGAATGAAGATGAGGCATGTGTATTTACTTTATGGGAAGATAGAAGTGTATATCAATCATTTATGAATGCTTCTCACGATACAATTTATTTAAATAGTAATCAAGAGGATACGTTTCTTTCATGTGAAATTGAATTATTTCAAACGTTGTATGATATAACTGATATGCATTTGGAAGATATTGTAATAGAGGGAGCATTCGTAAGAGTTGCTATATGTGATGTAAAGTTGGAAAAGGAAAAGCATTTTTTACATAAGCAAGAAACAATTTGGAATAAAGGAATGGAAAAAGCAAAAGGAATGCTAGGTGGAGTAGTTGGGAAGTCTTTAAAAAATGAAAATCGTTACATAGTGTTAACGTATTGGAAAGATGAAATAGCGCACCAACATTATGTGGAAGAGATTTTCCCAGATTTATATAAATTAGCTAATATTCATGAAGATATAGAAGAGATAAAAGGAAAACAAGCTGTATGTAAGGAAGAATGGCTTGTATATTAA	MLLKTIYCKVEEEKKELFSSAQEKWHDIQHLDGFHGQFGGWNEDEACVFTLWEDRSVYQSFMNASHDTIYLNSNQEDTFLSCEIELFQTLYDITDMHLEDIVIEGAFVRVAICDVKLEKEKHFLHKQETIWNKGMEKAKGMLGGVVGKSLKNENRYIVLTYWKDEIAHQHYVEEIFPDLYKLANIHEDIEEIKGKQAVCKEEWLVY				NA	NA	NA	NA	NA
AK009_01031	765	rluF_1	COG1187	Dual-specificity RNA pseudouridine synthase RluF	TTGTACGGTAGAAGCAGTGTGAGCTTGAAATTTTTTTTAGAAAAGGATGTGCCTAATTTGCGTATCAATAAATTTATTAGTGAAGCTGGAAAAGCGTCTCGACGTGGAGCGGATAAACTAATTAATGAGAGAAGAGTAATTATTAACGGTAAGGTTGCAAAAATTGGTGACCAAGTAAATCCAGGTGATGATGTACGAGTAAATGGAGAGCAGCTTCGAATTGCTCGAGATCACGTATATATCGCTTTAAATAAACCAGTAGGTATTACATGTACGAGTGAAAAAGCTGTAAAAGGTAACATTATCGATTTAGTGAACCATCCTTTACGAATTAGTCACATTGGACGTCTTGATAAAGACTCAGACGGTTTAATTTTGTTAACGAATGATGGTGATATCGTTAATGAAATTTTACGTGCTGAAAACAAACATGAGAAAGAATATATCGTTTCAGTAGATAAGCCAATTACTCCTGATTTCTTAGAGAAAATGGCAGCGGGTGTTAAAATTTTAGGAACAAAAACGCTTCCTTGTGAGATTACACAGCTATCAAAATATGAGTTCCAAATTATTTTAACCCAAGGGCTAAATCGTCAAATTCGCCGTATGTGTGAAGCTTTAGGTTATCAAGTATACACGTTAAAACGTACGAGAATTATGAATATCGAATTGAATAATTTACCAGTTGGACAGTGGAGAGATTTAACGAAGAAAGAGAAAAGACGTCTATTTGCAGACTTAAATTACGAACCACAAGATTGGTAA	MYGRSSVSLKFFLEKDVPNLRINKFISEAGKASRRGADKLINERRVIINGKVAKIGDQVNPGDDVRVNGEQLRIARDHVYIALNKPVGITCTSEKAVKGNIIDLVNHPLRISHIGRLDKDSDGLILLTNDGDIVNEILRAENKHEKEYIVSVDKPITPDFLEKMAAGVKILGTKTLPCEITQLSKYEFQIILTQGLNRQIRRMCEALGYQVYTLKRTRIMNIELNNLPVGQWRDLTKKEKRRLFADLNYEPQDW				NA	NA	NA	NA	NA
AK009_01034	1923	thrZ	COG0441	Threonine--tRNA ligase 2	ATGAAAGAACAAATGATTGAAATTAAATTTCCAGATGGTAGCGTGAAAGAATTTGTAAATGGAGTTACTTTAGAAGAAATTGCTGGATCCATTAGCAGTAGTTTGAAAAAGAAAGCAGTCGCGGGGAAAGTAAATGATGGATTATATGATTTACGCCGAAATATTGAAGAAAATGCGGAAGTGGAAATCATTACTATAGATTCAAATGAAGGTGTAGAAATCGCAAGACACTCTGCGGCACATATTTTAGCGCAAGCTGTAAAAAGATTGTATGGTGATATAAATCTTGGAGTAGGGCCTGTTATTGAAAATGGATTTTATTATGATATGGATCTTCCAAGTAGTGTAAACATAGAAGATTTACGAAAAATCGAAAAAGAAATGAAAAAGATTATAAATGAAAATATAAAGATAGAACGAGTTGAGGTTTCTCGAGAAGAAGCAGCTAAGCTGTTTCAAGAAATAGATGATAGTTTGAAATTAGAAATTTTAGAAGCAATTCCTAGTGGAGAAAGTGTAACACTATATAAACAAGGTGAATTTGTAGATTTATGTAGAGGACCACATTTACCATCTACAGGTTATTTGAAAGCATTTCAATTAACTCACGTTTCCGGTGCATATTGGCGAGGTGATAGTAATAACCAAGTGCTTCAGCGTATATATGGTGTTGCATTCTCTTCTCAAAAAGAATTAGAAGAGTATTTACATTTCGTTGAAGAAGCAGCAAAAAGAAATCATCGTAAGTTGGGAAGTGAGCTTGAGTTATTTATGTTTTCTGAAGAGGCTCCGGGAATGCCGTTTTATTTACCGAAAGGACAAATTATTCGAAACGAATTGGAAGCATTTTTAAGAGAAATTCAAAAAGAGTACAATTATCAAGAAGTACGCACTCCGTTCATGATGAACCAAGAAGTATGGGAGAGATCAGGGCACTGGGGACATTATAAAGATAATATGTATTTCTCTGAAGTAGATAATAAAAGTTTTGCATTAAAACCGATGAACTGCCCAGGGCACATGCTTATGTTTAAAAATAAATTGCATTCTTATCGTGAATTACCGATTCGTATGTGTGAATTTGGTCAAGTACATCGTCATGAATTTAGTGGTGCGTTAAACGGATTATTAAGAGTACGTACTTTCTGCCAAGATGATGCACATTTATTTGTAACTCCAAAACAAATTGAAGATGAAATTAAATCCGTAATGGCGCAAATTGATTACGTATATAAAACTTTTGGATTCGAATATGAAGTAGAGCTTTCTACTCGTCCAGAAGATTCAATGGGTGATGATAAATTATGGGAGCAAGCAGAAGCAGCATTAGAAAATGTATTACAATCGCTAAATTATAAATATAGACTAAATGAAGGTGACGGTGCATTTTACGGGCCGAAAATTGATTTTCATATTAAAGATGCTTTAAATAGAAGTCACCAGTGCGGAACAATCCAGCTTGATTTCCAAATGCCAGAGAAATTTGATTTAAATTATATAGATGAAAATAATGATAAGAAAAGACCAGTTGTTATTCACAGGGCAGTTTTAGGGTCATTAGATCGCTTCTTAGCAATATTAATTGAGCACTTTGGAGGTGCGTTCCCGGCATGGGTGGCACCAGTTCAAGTGAAAGTAGTTCCGGTTTCAAATGCAGTACATGAACAATATTGCAGTGAGGTTGCACATAAATTAGCACAAGCTGGAGTTCGTGTTGAACAGGATGCACGAGATGAAAAATTAGGATATAAAATAAGAGAAGCACAAATGCAAAAAGTACCGTATTTTCTTGTTATTGGGGATAAGGAAATGGAAAGCGGAGCTGTAAATGTACGTAAATATGGGGAAGAGAAGTCAGAAGTTGTTGCGCTAGATGTATTTGTGGCAAGGATTGAAGAGGAAATAAAGAATAGAGAATATTGA	MKEQMIEIKFPDGSVKEFVNGVTLEEIAGSISSSLKKKAVAGKVNDGLYDLRRNIEENAEVEIITIDSNEGVEIARHSAAHILAQAVKRLYGDINLGVGPVIENGFYYDMDLPSSVNIEDLRKIEKEMKKIINENIKIERVEVSREEAAKLFQEIDDSLKLEILEAIPSGESVTLYKQGEFVDLCRGPHLPSTGYLKAFQLTHVSGAYWRGDSNNQVLQRIYGVAFSSQKELEEYLHFVEEAAKRNHRKLGSELELFMFSEEAPGMPFYLPKGQIIRNELEAFLREIQKEYNYQEVRTPFMMNQEVWERSGHWGHYKDNMYFSEVDNKSFALKPMNCPGHMLMFKNKLHSYRELPIRMCEFGQVHRHEFSGALNGLLRVRTFCQDDAHLFVTPKQIEDEIKSVMAQIDYVYKTFGFEYEVELSTRPEDSMGDDKLWEQAEAALENVLQSLNYKYRLNEGDGAFYGPKIDFHIKDALNRSHQCGTIQLDFQMPEKFDLNYIDENNDKKRPVVIHRAVLGSLDRFLAILIEHFGGAFPAWVAPVQVKVVPVSNAVHEQYCSEVAHKLAQAGVRVEQDARDEKLGYKIREAQMQKVPYFLVIGDKEMESGAVNVRKYGEEKSEVVALDVFVARIEEEIKNREY				NA	NA	NA	NA	NA
AK009_01035	768	bceA_1	COG1136	Bacitracin export ATP-binding protein BceA	ATGTCAACAAATGTAGTTACTGTAGAAAGTGTAGAAAAAACGTATGGGAAAAGAAATGAGAATCAGTCAAAAGCATTAAGGGGCGTATCGTTAAGTATTAAAGAAGGAGAATTTGTCGGGATTATGGGGCCTTCTGGATCTGGAAAAACGACTTTACTTAATGTGATAAGTACACTTGACCAGGCGACAGGTGGTAGTGTGACGATAGCTGGAACAAATATTACTTCTATGAAAGGTAATGCATTATCAGATTTTCGATCTCAAAAATTAGGTTTTATCTTTCAAGATTTTAACTTACTAGAAAATTTATCAATTTATGAAAATATCGCTTTACCACTTTCTTTGCAAGGCGTACCGTCCAGTGAGATTACTGGAAAGGTAAATGACGTTGCAAAAAAATTAGGCATCACTGAAATTTTAACAAAATATCCGACTGCTGTTTCTGGAGGACAAAAACAAAGAACAGCGGCGGCAAGAGCTTTAGTACATAATCCGGCAATTGTATTAGCAGATGAACCGACAGGAGCGCTTGATAGTAAAAACGCAAAAAGTTTATTAGAAGCGATGCAAGATTTACATGAAAATCACAATGTAAGTATTTTAATGGTTACACACGATGCATTTAGTGCAAGTTATTGTGAGCGTATTTTATTTATTCAAGATGGTCTTCTTTATAAAGAATTAAATCGTCAAGGCACTCGAGAGAATTTCTATCAAGACATTTTAGGTGTGCTCGCTCATATGGGCTCAGCTGCTGAGTCTAAGTAG	MSTNVVTVESVEKTYGKRNENQSKALRGVSLSIKEGEFVGIMGPSGSGKTTLLNVISTLDQATGGSVTIAGTNITSMKGNALSDFRSQKLGFIFQDFNLLENLSIYENIALPLSLQGVPSSEITGKVNDVAKKLGITEILTKYPTAVSGGQKQRTAAARALVHNPAIVLADEPTGALDSKNAKSLLEAMQDLHENHNVSILMVTHDAFSASYCERILFIQDGLLYKELNRQGTRENFYQDILGVLAHMGSAAESK	PGPT0013345_2473	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01036	1881	bceB_1	COG0577	Bacitracin export permease protein BceB	ATGTTATTTAAATTATCACGTCATAGTATGAAAAAGATGTTAAAAGATTATATGGTTTTACTTATTGGTCTCGTTATTAGTATTAGTATTTTCTACATGTTCCAAACGATGGCGATGAATAGTGAATTTACGAAAGATAATAGCCTAATTAGTAGTATTAGACTCGTCTTTTGGGTAGGTGCAATACTATTATCTTTCATTACTGTATTTTATATTATATATGCCAACTCTTTCTTGCTCACGTTAAGAAGAAAAGAACTCGGTATGTACATGATGCTTGGTGCGAAAAAGAAAAAAGTAGCACAGTTATTATTTATTGAAACATTCGGTATGGGGATTGTAAGTATTATTATCGGTATTGTAGTAGGGATGTTACTTGCAAGTGTAGCAGGAAACTTTTTAATGAATGGAATGGAAATTTCAGCAAAAGGTAGTTACGCATCTGTATACACACCAGCAATTTTAGTTACAGCTATTTTCTTCTTAATACTATTTTTCATTACTGGCTTAATGAACAGCGTCCGATTGTTACGTAAAACTGAACTAGAGTTAATTCGTGAAGATGAAACACTAGATGAAGTGAAGAAAAGTAAAACTCGCATTATTATAATGACAGTACTTGGTGTATTACTGGTAAGTACAGGGTACTATTTTATGATCAATGTAAAAATATATGCTGAATTAGGTTTTATTATAGCAACCATCGTTACAACACTTGGCACATATTTTATCTTTAGTTCATTACTCCCATTTTTTGTGATGAAAATTAAAGGGAATAAAAAACGAAATGAAATTGGTCTAAATAGTTTTACATATGCACAGCTACGCTTTCGAGTAAATAGTTTATCGAGAGTATTAGGTACTGTAGCGATGTTAATTGCATTAGGAGCAGGTGCGATGACTGCAGGTATGGCGTTCCAAAAAAATGTAGGTATTATGACAGACTTTTCTCGTGTATATGATGTTGTAATTCATGATCCGAATGATCAAGACAAAGCGGCCTTGAAAGAAATGGAAATTGTTGAAGAGAGCAATTACAAATATAAAGTAGATGGAGAAGCGGTTTATTATTTACGTAACGACTTAACTGCGAAACCACCACTTGTTTCAGACCATTTTGATACAAAAACTTTAAAAGAGCCTGTTCGTAAACGTGTGACTGAACCTTTAACTGAACCTGTATATTCAGCTTTAGAGGCTCCTGAATTAGCAAAATTCCCTCAAATGCCAAAGGATTGGGAAGACGCAGTTGTAAGAGAGATACAAATTACGCATAATCAATTTAGCGGAAAACCAGTAAGAATTGCAGACGAAGAGCATTATAAAGGGATTCAAGGAACAGAACACACTGTAACATTAGCAAAAGTAGATGATATGAAAAAATATAAACCGTTATTGATCGAAATAGACAAGAGACAAAAAGAACAAATTGAAAAAGCAACAGGTGCAAAGGTAGACTTATTTACGAAAATGACAATTTATCAGTTTATGAACAGCTTCATGAGCGGAACAATGTTTATGGGATTTTTCCTCGGAATTGCCTTTTTAGCAATGATGGCGAGTTCCCTTATGTTCAAAATATTAACAGGTGCTTCTCGTGATGTACGCCGTTATGAAATGTTACGAAAAATCGGCGTAAGACGTAGTATGTTAACGAAAAGTATATATAAAGAAATTTCATATTTATTTATCTTCCCAGCAATCATTGGCATCTCTCACGTTTTAGTGGGGCTTAACTTATTCAGCTTTATATTAGTTGATCCGTTTGTAAAAGTGTGGGTGCCAATAGGAATCTTCTTAGTCATTTATTTCATCTATTACTGGATAACTGTTCAACTTTATAAAGGGATGGTAATGCCGAAAGAAGAGGTAGCTAAATAG	MLFKLSRHSMKKMLKDYMVLLIGLVISISIFYMFQTMAMNSEFTKDNSLISSIRLVFWVGAILLSFITVFYIIYANSFLLTLRRKELGMYMMLGAKKKKVAQLLFIETFGMGIVSIIIGIVVGMLLASVAGNFLMNGMEISAKGSYASVYTPAILVTAIFFLILFFITGLMNSVRLLRKTELELIREDETLDEVKKSKTRIIIMTVLGVLLVSTGYYFMINVKIYAELGFIIATIVTTLGTYFIFSSLLPFFVMKIKGNKKRNEIGLNSFTYAQLRFRVNSLSRVLGTVAMLIALGAGAMTAGMAFQKNVGIMTDFSRVYDVVIHDPNDQDKAALKEMEIVEESNYKYKVDGEAVYYLRNDLTAKPPLVSDHFDTKTLKEPVRKRVTEPLTEPVYSALEAPELAKFPQMPKDWEDAVVREIQITHNQFSGKPVRIADEEHYKGIQGTEHTVTLAKVDDMKKYKPLLIEIDKRQKEQIEKATGAKVDLFTKMTIYQFMNSFMSGTMFMGFFLGIAFLAMMASSLMFKILTGASRDVRRYEMLRKIGVRRSMLTKSIYKEISYLFIFPAIIGISHVLVGLNLFSFILVDPFVKVWVPIGIFLVIYFIYYWITVQLYKGMVMPKEEVAK	PGPT0013350_10813	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01037	738	zupT		Zinc transporter ZupT	ATGGAACGTTTATGGATCCCAATGATTGTAACATTTTTTTCGTTCGGTGGATTACTGTTAGGTGGTGCTGTTGGAGTAGCAACACGCCAACTCATTGAAGAAAAGATGCATCGTTTATACGCATTATGTGGTGGTATTTTATTCGGGTTATTATCACTTGAAATTATCCCTGAAACATTTTCAAGCTATGAAATAATTGGGCCTATACTTGGTATAGCCATCGGTATTTTAGTTATGAGCTTATTAGATAACTATTGTCATCATCCAATGATACATAAAAAAGATCAACAAGCATGGCAAACCTTCCTTTTTCTCTCTTTCGCTATATTTATTCATAATATACCTAGTGGATTTGCGTTAGGTACAGCTTTTATAAATCATAATGACTCTGCCATTCCCTTTTTAATAGCAATCGTCGTGCACCATATTCCAGAAGGATTAGCTTTAATTATTCCATTTCTTTTTACAAAGCATAAATATATTTCCTTTTTATTAACGACTTTATTACTTTCTCTTATTCTCGGTACTGGTACGGTTTTTGGAATTTTGATGGAAGGAAAAGCTCGTCACCTGCAAGGCCTCATTATGGGAAGTGCTATTGGTTCACTTGGATATGTCACAATTCATGAAATGCTTTGGAAAGCTAAGAAACAGCTCTCTTTCCTTACATTTCTAATGTGGGCAACTAGTGGTTTTCTCCTAATAATAGCGTTTACTCTACTAGCTGGACATCACTAA	MERLWIPMIVTFFSFGGLLLGGAVGVATRQLIEEKMHRLYALCGGILFGLLSLEIIPETFSSYEIIGPILGIAIGILVMSLLDNYCHHPMIHKKDQQAWQTFLFLSFAIFIHNIPSGFALGTAFINHNDSAIPFLIAIVVHHIPEGLALIIPFLFTKHKYISFLLTTLLLSLILGTGTVFGILMEGKARHLQGLIMGSAIGSLGYVTIHEMLWKAKKQLSFLTFLMWATSGFLLIIAFTLLAGHH	PGPT0004250_2507	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
AK009_01038	867	gloB_1		Hydroxyacylglutathione hydrolase	ATGCAACAAATTAAAAAAATAGGAAACTCATTTTGGTATATGACACCAGTTTCTGAAACGGATAGACCTATATTAGGAATGGTTGTTGGAAAAGAAAAAACTTTAATGATTGATGCAGGGAATTCAGAAGAACATGCACAATTATTTTTAGAAATGTTAAAAGAACAAAATGTATCGAATCCTGATTTTGTAGCACTAACGCATTGGCATTGGGATCATATTTTTGGATTATCTGTATTACGGAATGCATTAACTATTTCGCACGCTGAAACGAAAAAAGAAATGCAGGCAATAGTATCTTATGAATGGACAGATGAAGCGTTGGACGCACGCGTAAAAGAGGGTACTGAAATTGAATTTTGTGCGGATTGCATCAAGAAAGAGTTTGAAGAAAAAGCGAGAAATATTAACATTATTCCTCCAACCTTAACGTTCCAGGATCAAATGGAATTAGACCTTGGTGAAGTGACCTGCGTGTTAAAACATGTGGGCGGAGATCATGCACATGATTCTGTTGTTATGTACATAAAAGAAGAAAAGATATTGTTTTTAGGAGACTGTATATATGCAGATATTTTTTCTTCGAAGTGGAACTATACGACGAAAAGAACGTTTAAATTGATAGATGAATTAGAGAAATTTGATGCTGAGACATATATTCTTTCTCATGGGGAAGCGATAAATCGAGAGGAGTTTTTACAAGAGATTCGTATGTTAAAAACAGTAGGAACTTATACAGAAATTCATAAAGGCGATGAAGAGAAGATAAAGGCAGTGTATAAACAAGAACTAGATAGAGAATTAAATGAAGATGAGTTAGAAACAATAACGTATTTTGTCAATGGTTATGAAATGAATAATCAATAA	MQQIKKIGNSFWYMTPVSETDRPILGMVVGKEKTLMIDAGNSEEHAQLFLEMLKEQNVSNPDFVALTHWHWDHIFGLSVLRNALTISHAETKKEMQAIVSYEWTDEALDARVKEGTEIEFCADCIKKEFEEKARNINIIPPTLTFQDQMELDLGEVTCVLKHVGGDHAHDSVVMYIKEEKILFLGDCIYADIFSSKWNYTTKRTFKLIDELEKFDAETYILSHGEAINREEFLQEIRMLKTVGTYTEIHKGDEEKIKAVYKQELDRELNEDELETITYFVNGYEMNNQ				NA	NA	NA	NA	NA
AK009_01039	942	rihB_1		Pyrimidine-specific ribonucleoside hydrolase RihB	ATGAAGAAAAAAGTGTACTTCAATCATGATGGCGGCGTAGATGATTTAATTTCATTATTTTTATTACTTCAAATGGAAAACGTTGAGCTTACCGGTGTATCTGTTATCCCAGCAGACTGCTATTTAGAACCCGCAATGTCTGCCAGTCGTAAAATTATCGATCGCTTCGGCAAAGGTAATATTGCAGTAGCCGCTTCAAACTCTCGCGGGCAAAACCCGTTTCCAAAAGACTGGCGGATGCATGCATTTTATGTAGATGCTCTACCAATTTTAAATGAGTCTGGAAAAGTTGTAACACCCGTGGTGGCAAAACCCGCGCATCATCATTTAATAGAAACGCTTCTACAAACGGAAGGAAAAACAACTTTATTATTTACTGGGCCCCTAACTGACCTTGCTCGTGCATTATATGAAGCTCCCATAATCGAAGATAAAATTGAACGTCTCGTTTGGATGGGTGGTACATTTCTTACAGCAGGCAATGTACATGAACCAGAGCATGATGGAACAGCTGAGTGGAATTCGTTTTGGGACCCTGAAGCAGTGGCTCGTGTATGGGATGCAAAAATTAAAATCGACTTAGTGACACTAGAAAGTACAAACCAAGTTCCGTTAACTATAAACATACGTGAACAGTGGGCAAAAGAGAGAAAGTATATTGGTGTTGATTTCCTTGGTCAATGTTATGCAATGGTCCCCCCTCTCGTTCACTTCTCAACGAACTCTACTTATTATTTATGGGATGTACTAACTACCGCGCTTGTCGGAAACACTAGCCTTGCAAAAACTGAAACGATTAATAGTATCGTTCATACATATGGACCAAGTCAGGGGCGTACAGAGGAAACTGCTGATGGACGACCTGTAAATGTCGTTTATGATGTAAAACGTGATGTATTCTTTGAATATATTACTGAATTAGCAAAGAAAGCTTCTACTTGA	MKKKVYFNHDGGVDDLISLFLLLQMENVELTGVSVIPADCYLEPAMSASRKIIDRFGKGNIAVAASNSRGQNPFPKDWRMHAFYVDALPILNESGKVVTPVVAKPAHHHLIETLLQTEGKTTLLFTGPLTDLARALYEAPIIEDKIERLVWMGGTFLTAGNVHEPEHDGTAEWNSFWDPEAVARVWDAKIKIDLVTLESTNQVPLTINIREQWAKERKYIGVDFLGQCYAMVPPLVHFSTNSTYYLWDVLTTALVGNTSLAKTETINSIVHTYGPSQGRTEETADGRPVNVVYDVKRDVFFEYITELAKKAST	PGPT0013465_1953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_01040	603			hypothetical protein	ATGAATGAACAAGGATTTTTCGTATATCATATCGTAACAAAGAAAAAAATGCATATCGGACAAATCATTCCTTTTAACAAAAATCAACACAATACTCTATATCACTTCTTTTTTGAAAGAGAACAATTAAATGCTAATGGTGAAGATGGCATACAAATTTTAAATAAACACTATAAAAATAACGAATTACATATAAATAATGAAAATGCTAAAGTAGTCATGAGTTATATGGATCAAACAATTAGAGCAGCTAGAGAAACAATTGTAGAAATGGTTAGACTACAAGAATTCCCTGAATATCCTTCCAGATTATCTTGTTTATACGCTGCAAAAAGCTATGAAGATGCTTTAAAATGGAAAGCATTATTTGATTCTTACAATCGAGAAGTTTTACAGATTGTTAAACTACAAGTAATCGGAAGTTCTTTTGAAGGTGACGGGAATCTTTTACCAAAAGAAGATGGTATTCCTTTTTCTCAAAAAATCGAACAAGCTAGAGAGTATTGGAAAGGAAATATTAGAAATGAACTTCCTGAGCTACTGATTAATGGAGAAATTGAAGTGGTGGAAATTATTGATGACTTCTCCTCAATTCATATTTAA	MNEQGFFVYHIVTKKKMHIGQIIPFNKNQHNTLYHFFFEREQLNANGEDGIQILNKHYKNNELHINNENAKVVMSYMDQTIRAARETIVEMVRLQEFPEYPSRLSCLYAAKSYEDALKWKALFDSYNREVLQIVKLQVIGSSFEGDGNLLPKEDGIPFSQKIEQAREYWKGNIRNELPELLINGEIEVVEIIDDFSSIHI				NA	NA	NA	NA	NA
AK009_01041	486			hypothetical protein	TTGCCAACAACAAGAAAAGAAAACCTCCAATTTGGTATGATGATGTGCCTTGGGATGGTTATCGTAATGACTTTTTACAATTTACTAATGAATGAAACAGGAGGACCAATTTATATTAAAGAGATTGCATTAGAACTATTAATTGGCTTTATTATTGCGCTATTAATTGAAATATGTATCGTTGGACCTTGTGCGAAAAAAATTGTATTCATGTTGCCATTTGATAAATCTAAGAAAATAAATATTATCGTTGCGATGGCGACAACTATGGTAATCGGAATGGTGTTCTTTATGTCATTTTTCGGTATGGCTATGATGCATTTACATGGTGGACTACAAGGAGCTTCATTTGTTTCAATTTATTTTTCAATTTTTATTAAAAATTTCATAATGGCATATCCATTACAATTAATTATTATGGGACCGCTTGTACGTTTCTTATTTGCAAAGTTTGTTATGAAAAAGAAATCTTTTAATGTAGCGTAA	MPTTRKENLQFGMMMCLGMVIVMTFYNLLMNETGGPIYIKEIALELLIGFIIALLIEICIVGPCAKKIVFMLPFDKSKKINIIVAMATTMVIGMVFFMSFFGMAMMHLHGGLQGASFVSIYFSIFIKNFIMAYPLQLIIMGPLVRFLFAKFVMKKKSFNVA				NA	NA	NA	NA	NA
AK009_01042	426			hypothetical protein	TTGAAAGGTATTATATTTGCTGTTTTTGCGGGGATATTTATAACACTTCAAGGAACCTTTAATGCGAAACTTAGTTCACATATCGGTATATGGTCGACGAGTATTATAACCCATTTAATTGGATTCCTTATTGCAACAACTGTATTTTTGTTAAAGAAAGAAGAGAAAGTAACAGATTTAAAGAGTGTGAAAAAAGTATATTTAGCAGCGGGTGCATTTGGTGGATTCATTATTTGTGCAGAAACGATGGCGATATATTCACTAGGAGTTACATTGACAGCTGGCACACTAATGGTTGCTCAATTGTTAACGGCAACAGTTATTGAAATGAAAGGACTGTTTCATATAAAAAAGATACAGATGGAGAGATATCATATTGTGGGAACAATAGTAATGATTATAGGTATTGTTGTATTTAATATGTAA	MKGIIFAVFAGIFITLQGTFNAKLSSHIGIWSTSIITHLIGFLIATTVFLLKKEEKVTDLKSVKKVYLAAGAFGGFIICAETMAIYSLGVTLTAGTLMVAQLLTATVIEMKGLFHIKKIQMERYHIVGTIVMIIGIVVFNM	PGPT0009795_2398	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK009_01043	696	yeiL_1	COG0664	Regulatory protein YeiL	ATGGAGGATAAATCAGGTTTAATTACGCATTATTTGAGAACCAATAAAACGCTCGAGATTTTTTCAGAAATAGATACAGTTTATTTTCAATTAAATTACTTTGAAAAAGGCGAGCTTATTTGCAATATAGATGACGAAATGGATCGTTTATATTTTGTTGTTAAAGGTAAAGTAAAAGTTTACACGATTACATCAGAAGGAAAGAAACTAATCCTTCGCTTTATCAATCCATTGGCCATTGTTGGTGATATTGAATTAATTCAAAATAGCAAAGCACATAATGTCGTTGAAGCTTGTTCAGATGTTATAGCTATCTCCATTTCTAATACGGTTATTAGAAACAGGTTATTACATGATCCTATATTTATGAAGTTCTTACTTGAAAACATTGCGAACACGTTAAAAATATCGACTCGTTTTACTGCTCTTAATTTACTTTATCCTGTAGAAGTACGTGTAGCTAGTTATTTACTTTCAATTTCAACAGATAGTAACGGGGATATGTACAAAGGGGATTTGGATACGACTTCGGTAACAAGTATTGCAGACTTTATAGGGGTAAGTTATAGGCACGTAATTCGGGTATTACAAAGATTTTATAATGATAAATTAATTGAAAAGAGTAATGGAGTTATTGTCATTAAAGATTTTTCTAGAATGAAGGAAGTCGCTAAAGATAATATATATGAGCAATGA	MEDKSGLITHYLRTNKTLEIFSEIDTVYFQLNYFEKGELICNIDDEMDRLYFVVKGKVKVYTITSEGKKLILRFINPLAIVGDIELIQNSKAHNVVEACSDVIAISISNTVIRNRLLHDPIFMKFLLENIANTLKISTRFTALNLLYPVEVRVASYLLSISTDSNGDMYKGDLDTTSVTSIADFIGVSYRHVIRVLQRFYNDKLIEKSNGVIVIKDFSRMKEVAKDNIYEQ	PGPT0015075_1746	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
AK009_01044	471			hypothetical protein	TTGATTGGATTTAGTTTAGCTATATTAGCAGGAATATTAATTAGCTTACAATCTGTTTTTAATGCAAAAGTAAATGAAAATGTAGGACAGTGGTTAACGACTACATGTGTCCTTGGAATAGGTCTCATTAGTTCTATTCTATTTTATATCATTACAGAAAACAGTATTAACATTAAAGTGTATACTACAAATTATTTGTTTTATGTAAGTGGACTGTTTGGCATCGGGTTAATTATTTGTATAATGGGTGCAATAAAGAGCTTAGGTCCAGCATATACGGTGCTAATTAGTCTTATTACTCAATTGGTCGTTGCGTTATGCATTGATACATTCGGATTATTTGGAATGGAGAGCATTCCATTACAAATAAATAAATTAGTTGGTATAGGTTTATTAATTGTGGGGGTAGGAATTTTTAAAAATCTATTTTTGAATAAGAAAGCTATTCATATAAGAAAGGGTAGGGTCTAA	MIGFSLAILAGILISLQSVFNAKVNENVGQWLTTTCVLGIGLISSILFYIITENSINIKVYTTNYLFYVSGLFGIGLIICIMGAIKSLGPAYTVLISLITQLVVALCIDTFGLFGMESIPLQINKLVGIGLLIVGVGIFKNLFLNKKAIHIRKGRV	PGPT0009795_981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK009_01045	891	pip_2		Proline iminopeptidase	ATGAATCAGTTAATGTTGCAAGATGGTGTACACTATTTGAAAATCAATGGGATTATGCATTGGTGTAAAGTTGCAGGGACAGCTCATAATACAGTCCCTCTTATTATAGTACATGGTGGTCCAGGTGGTAATCATTATGTATTCGAAAGAACGCTTGGTTTGAAGTTAGAAGGAAATATGACTGTAGTTTATTACGAACAAAGAGGTTGCGGACGAAGTGAGGCACCAGAAGATGACGGTGAGTACTCAATCAATACTCTAGTCGAAGATTTAGAGGAATTAAGAAAGCAATTACATGTAGAGAAGATAAATTTGTTAGGATATTCTTTTGGTGGACAACTTTGTTTAGAGTATGCTTTGAAATATCCAAAAAATGTTGAACAAATGGTATTACAAGCACCATCGTTAGATGATTTTAATGATATGTATACTGTGCAGATAGAAGGTTTTCTACAAGTAACGAAAGGGGAAGTGAAAGAACAAATATTGATAATAAGTAAGTCAGAAATTCCTTTAAAAGAAAGGTATAATCAAGTTTGGAGTATAGTTGATACAGAAAATGTAGATCGACTATTGTTTAAAAATGAAGAATTTGCAAAGCTAAATAGAAGGTTTTGGGAGGAAAGTAAGTTAAGTAATACAGGGAAGATGAGTAAAGTTATTTTTGGAACAAAATCATCTTTACCGCTTATTGAGCGTATTAAAGGTTTAGAAATTGATACGTGTGTCATAGTTGGAGCGCATGACTATAACACGGGTGTAGGAATGAGTTATAGAATAACGAGACAATTGAAAAATGGTAAACTTGTTATATTTGAAAATAGTGGACATTTCCCAGATATCGAGGAGACGGATAAAGTATGTGAAACGATTATTGAGTTTTTGGAATAA	MNQLMLQDGVHYLKINGIMHWCKVAGTAHNTVPLIIVHGGPGGNHYVFERTLGLKLEGNMTVVYYEQRGCGRSEAPEDDGEYSINTLVEDLEELRKQLHVEKINLLGYSFGGQLCLEYALKYPKNVEQMVLQAPSLDDFNDMYTVQIEGFLQVTKGEVKEQILIISKSEIPLKERYNQVWSIVDTENVDRLLFKNEEFAKLNRRFWEESKLSNTGKMSKVIFGTKSSLPLIERIKGLEIDTCVIVGAHDYNTGVGMSYRITRQLKNGKLVIFENSGHFPDIEETDKVCETIIEFLE				NA	NA	NA	NA	NA
AK009_01046	408			hypothetical protein	ATGGAAAATAGTATACGCCACACAAGTGAACATCCTACAGATTTTAATGGATTATTATCCTTATACGAATCTTTAGGATGGAATTCTCTTAAATTAACGGTTAACGAGTTAGAACAAATGTGTAAGCAAAGTTGGTATGCAATTTATGTTTTTGATGATAAGAGGTTAGTAGGGATGGGGCGTGTCATATCAGATGGAGTCATAACAGGCATTATTTGTGGAGTTGGTGTATTGCCAAAATATCAGTCTAGTGGCATCGGAAAAGAAATAGTGAAACGATTAATCCAGCACTGTGAACAAAACAAGGTTATTCCACAACTTATGTGTGTAGAAAAATTGCAATCTTACTATGAATCTATAGGGTTTGAAGCATTCTCTATTGGGATGACAAAACATATTATAAGATAA	MENSIRHTSEHPTDFNGLLSLYESLGWNSLKLTVNELEQMCKQSWYAIYVFDDKRLVGMGRVISDGVITGIICGVGVLPKYQSSGIGKEIVKRLIQHCEQNKVIPQLMCVEKLQSYYESIGFEAFSIGMTKHIIR				NA	NA	NA	NA	NA
AK009_01047	654	yflN_1	COG0491	putative metallo-hydrolase YflN	ATGGAGATTGCTAAAGGGATAGAAATGTTACAACTTGAATTTCAAGAATTTGTTATTCATCCAATTCTTTTATGGGATGATGAAATGGCAGTATTAATAGATACGGGTTTCCCAGGACAAATTGAAGATATACAAGTAGAGATGGAAAAGGTTGGGGTATCATTTGATAAGTTAAAAGTCGTGATTTTGACGCATCAGGATATTGATCATATAGGTAGTCTTCCGGAGTTGTTGCAGCGCTGTGGAAATAATATTAAGGTTTATGCGCACGAATTAGATAAGCCATATATTGAGGGGGATTTGCCTTTATTGAAGGAAGGAAATGTAGAGAACCGACCAAAAGGAAAAGTGAGTGATACTGTGATTGACGGACAAGAACTTCCGTATTGCGGTGGAATACTAATTCTTCATACTCCAGGGCATACTCCGGGTCATATTAGTTTATATTTGAAACGAAGTAAAATTCTTATTGCAGGAGACTCTATGTATAGTGTGAATGGGATGTTAGGAGGAATTCACGCCCCAACAACTATAAATATTAAGGAAGCAAAGCAGTCTTTGAAGAAGTATTTAAATTTACATATTGAATCTATAGTTTGTTACCATGGGGGATTAAGTAAGGAGAATATAAATGTTCAACTTCAAAATTTGTAA	MEIAKGIEMLQLEFQEFVIHPILLWDDEMAVLIDTGFPGQIEDIQVEMEKVGVSFDKLKVVILTHQDIDHIGSLPELLQRCGNNIKVYAHELDKPYIEGDLPLLKEGNVENRPKGKVSDTVIDGQELPYCGGILILHTPGHTPGHISLYLKRSKILIAGDSMYSVNGMLGGIHAPTTINIKEAKQSLKKYLNLHIESIVCYHGGLSKENINVQLQNL				NA	NA	NA	NA	NA
AK009_01048	624			hypothetical protein	TTGGAACAAAAACAACGTCCTCTCGGAAGGCCTCGTCAAAATAAAAATACAAAATCTACAAAAGAAACCATTTTAGAAGTGGCAACCCGCTTATTTCTTACACAAAATTATCAAGTCGTTTCTATGGATGAGGTCGCAAAAGTTTGTGGTGTTACGAAAGCAACTGTCTACTATTACTATTCAACAAAAGCCGATTTATTTACCGCTACTATGACCGAAATGATGGTACGTATACGCGAAAATATGTCTCAAATACTCTCTACAAACAAAACGTTAGAAGAAAGATTATTAGACTTCGCTAAAGTTTACTTACACGCAACGATGGATATTGATATGAAAAATTTTATGAAAGATGCAAAACTGTCGTTATCTGAAAAACAATTGAAAGAATTAAAAAATGCTGAAGATAATATGTATGAAGTACTAGAAAAAGCACTCGATAATGCGATGCACATCGGAGAAACTCCGAAAGGAAACGCTAAATTTGCGGCTCATGCTTTCGTATCTTTATTATCAATTGGGAATTTTAAAGATGAGAATCACAATCCTATTCTTGCAAATATAGATGAATTAGCACAAGAAATCGTTTCTTTTTATTGGAATGGGTTAGGTCATTCATATTAA	MEQKQRPLGRPRQNKNTKSTKETILEVATRLFLTQNYQVVSMDEVAKVCGVTKATVYYYYSTKADLFTATMTEMMVRIRENMSQILSTNKTLEERLLDFAKVYLHATMDIDMKNFMKDAKLSLSEKQLKELKNAEDNMYEVLEKALDNAMHIGETPKGNAKFAAHAFVSLLSIGNFKDENHNPILANIDELAQEIVSFYWNGLGHSY	PGPT0028895_713	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
AK009_01049	2232	apeX	COG2409	Apo-petrobactin exporter	ATGAAAAAGCACCCGTTACATATGTTAGGGAGGCTTGTAGCAGGGAAAAATACGCAATGGATCACTTTATCGGTGTGGGTTCTTATTACATTATTACTTTCATTTACGTTACCACAAGTAAACAGTACGAAAGAACCGAATCCAAAAAATTTACCTGAAACAGCTATGTCACAGCAAGCGGAAGCGCTTATGAAAAAAGAGTTTCCGAATAATACAGGGAATCCGTTGTTAGTAGTATGGTATAGAGATGGTGGATTACAGTCACAGGATTATAAACTCATACAAGACGTTTATAAAGAGTTAAAAGCTAATCCTTTAAAAGAACAATCAACGTTACCGCCATTTGATACAATTCCAGAGCAAGTATTATCAAAAAGTGCATCAAAAGATGGTACATCATTTGTTACACCGGTATTCTTTAATAAATCTGCTGGTACGGATATATTAAAAGGAAATCTGGAAAAGCTTGAAAAAAAAGTGAATAGTAAGGTGGATGAAGATCCATTTAAACAAAAAATAAGTGAATCTGGTTTACATGTTCGATTATCTGGGCCTGTAGGTATTCAAACGGATGCAGTTAGTTTATTTAGTCAAGCAGATGTGAAATTGTTAGTGGCTACTGTATTATTAGTCTTGATCCTATTAATTTTGCTTTACCGTTCGCCAATTTTAGCAATTTTACCTATACTTGTTGTTGGCTTTGCATACGGTATCATTAGTCCTACACTCGGTTTTTTAGCTGATCACGGATGGATTAAAGTAGATGCCCAAGCAATATCAATTATGACAGTATTATTGTTTGGTGCTGGAACGGACTATTGTCTATTTTTAATTTCAAGATATAGAGAGTACTTGTTAGAAGAAGAAAGTAAATATAAAGCATTACAACTTGCGATTAAAGCTTCTGGCGGTGCAATAATAATGAGTGCGTTAACTGTTGTACTTGGATTAGGAACATTACTACTTGCTCATTATGGTGCCTTTCATCGATTTGCAGTACCATTTAGTGTTGCTGTATTTATAATGGGAATCGCGGCTTTAACCATTTTACCAGCACTATTATTAATTTTCGGTAGGATTGCATTTTTCCCGTTTATACCGAGAACAACTTCAATGAATGAGGAGTTTGCAAGAAAGAAAAAGAGGGCTGTAAAAGTTGAAAAATCAAAAGGCTCCTTTAGTAAAAAACTTGGAGATGTAGTAGTACGAAGACCGTGGACAATAATTATGCTAACTGTGTTTGTATTAGGTGGATTGGCTTCGTTCGTACCACGTATTCAATACACATATGACTTATTAGAATCGTTTCCAAAGGATATGCCTTCTCGTGAAGGGTTTACGTTAATTAGTGATCATTTCTCAGCTGGTGAACTAGCACCAGTAAAAGTGGTTGTTGATACGAAAGGAAAAGAGCTTCCTATTAAACAAGAACTAGAGAAATTTTCTTTCGTAAATACAGTGAAAGAGCCAAAAGAGGGAAAAGAAAATAAGCAAATACAAATGTATGAAGTTTCTTTAGCGGAAAATCCATACTCAATTGAAGCGTTAGATCAAATTCCTAAATTGAAAAGTAATGTAGAAAAAGTATTAAAAGATGCTGGGATTCGTAATACTGAAGATCAATTGTGGATTGGTGGAGAAACAGCTTCATTATATGATACAAAGCAAATTACTGAACGTGATGAATCAGTAATTATTCCAGTAATGATTAGCATTATCGCTTTACTATTACTTGTCTACTTACGATCGGTTGTTGCGATGATTTATTTAATTGTAACTGTCGTTTTATCATTCTTCTCAGCGTTAGGAGCAGGATGGATATTGCTTCATTACGGTATGGGAGCGCCGGCCATTCAAGGTGCGATACCGTTGTACGCATTCGTATTTTTAGTTGCTTTAGGTGAAGATTATAATATCTTTATGGTTTCAGAAATATGGAAAAACAGAAAGACACAAAATCACATGGATGCAGTAAAAAATGGTGTAATACAAACAGGTAGTGTTATTACATCGGCAGGTTTAATTTTAGCAGGAACTTTTGCAGTGTTAGGTACACTTCCAATTCAAGTATTAGTTCAATTTGGTATTGTAACTGCAATTGGCGTATTACTAGATACGTTTATCGTAAGACCGTTACTTGTACCCGCAATTACAGTTGTGTTAGGCCGATTTGCTTTTTGGCCAGGTAAACTTTCAAGAAAGAGTGAAGAAATACAAAAGGTGGATGCATAG	MKKHPLHMLGRLVAGKNTQWITLSVWVLITLLLSFTLPQVNSTKEPNPKNLPETAMSQQAEALMKKEFPNNTGNPLLVVWYRDGGLQSQDYKLIQDVYKELKANPLKEQSTLPPFDTIPEQVLSKSASKDGTSFVTPVFFNKSAGTDILKGNLEKLEKKVNSKVDEDPFKQKISESGLHVRLSGPVGIQTDAVSLFSQADVKLLVATVLLVLILLILLYRSPILAILPILVVGFAYGIISPTLGFLADHGWIKVDAQAISIMTVLLFGAGTDYCLFLISRYREYLLEEESKYKALQLAIKASGGAIIMSALTVVLGLGTLLLAHYGAFHRFAVPFSVAVFIMGIAALTILPALLLIFGRIAFFPFIPRTTSMNEEFARKKKRAVKVEKSKGSFSKKLGDVVVRRPWTIIMLTVFVLGGLASFVPRIQYTYDLLESFPKDMPSREGFTLISDHFSAGELAPVKVVVDTKGKELPIKQELEKFSFVNTVKEPKEGKENKQIQMYEVSLAENPYSIEALDQIPKLKSNVEKVLKDAGIRNTEDQLWIGGETASLYDTKQITERDESVIIPVMISIIALLLLVYLRSVVAMIYLIVTVVLSFFSALGAGWILLHYGMGAPAIQGAIPLYAFVFLVALGEDYNIFMVSEIWKNRKTQNHMDAVKNGVIQTGSVITSAGLILAGTFAVLGTLPIQVLVQFGIVTAIGVLLDTFIVRPLLVPAITVVLGRFAFWPGKLSRKSEEIQKVDA				NA	NA	NA	NA	NA
AK009_01050	183			hypothetical protein	ATGAATAACAAAAATATGAATAAAAAAGAAAATGTTACTGAAAACACTACATCTATTCAAAATAATAATACTGCAAACCTTACTATCGAAGAACAAGCAATGAACGGCTTATACGGAATGCCCGAAACAACAATTGAAGATGCTGATCACGCTTCAGCTGATGATTTGACTTCAAAAAATTAA	MNNKNMNKKENVTENTTSIQNNNTANLTIEEQAMNGLYGMPETTIEDADHASADDLTSKN				NA	NA	NA	NA	NA
AK009_01051	651	cat_1		Chloramphenicol acetyltransferase	ATGAAGTTCCATGTAATTGATAGAGAAGATTGGAATAGAGAGCAGTATTTTGAGCATTATTTAAAGTTGAAATGTACATTTAGTATGACTGTGAATGTTGATATCACGATGTTATTAGAGGAAGTATATCAAAAGGGAATAAAATTTTATCCCGTTTTTATATATTTAATTTCTAGAGTAGTAAATAATCATAAAAAATTTCGAACATGTTTTAACGATGAAGGAGTTTTAGGCTATTGGGAGGAAATGATACCGAATTATACAATCTTTCATAAAGATGATAAGTCTTTTTCAAGTATATGGACGGATTATTCAAGTGATTTCCGCACTTTCTATAAAAATTATGAAGACGATATGAGATGCTATGCTAATGTTCATGGTCTTTTCACGAAAGAAAATATTCCGCCTAATGTATTTCCGATTTCTAGCATACCTTGGACTAGTTTTACTGGATTTAATCTTAATATTAATAATGATGAAAAATTTCTATTGCCAATTATAACTTGTGGGAAATATTTTAACGAAGGAAATAAGGTTATGCTACCAGTTTCATTGCAAGTACATCATTCGGTTTGTGATGGATATGATGCGAGTCAATTTATAGAAGATTTACAGCAGTTAAGTAATACTTGCAACGAGTGGCTTAAGTAA	MKFHVIDREDWNREQYFEHYLKLKCTFSMTVNVDITMLLEEVYQKGIKFYPVFIYLISRVVNNHKKFRTCFNDEGVLGYWEEMIPNYTIFHKDDKSFSSIWTDYSSDFRTFYKNYEDDMRCYANVHGLFTKENIPPNVFPISSIPWTSFTGFNLNINNDEKFLLPIITCGKYFNEGNKVMLPVSLQVHHSVCDGYDASQFIEDLQQLSNTCNEWLK	PGPT0028030_255	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
AK009_01052	525			hypothetical protein	GTGAAATTCTTAAGCATTGAAAAAGATGAAATCTTAATTGGGAATATGGCAAAATTGTATTGTAAAGTATTTGAGAAAACAAATTTCAATGAAATGATCGAGCGAATGAATAGGCATATAGAATATACAGGTTTTAAAGGTATAGTAGCAATAAATGATGAAAATGAAGTAGTTGGCTTTACTTATGGTTATCGCTCAATGGAGGGACAGTACTATAATCAATTAATGAGAGAAGCGTTACATCTAGAGCAAGTAGACGAATGGTTACAAGATTGTTTTGAATTTGTAGAGTTAGCAGTTCACCCACAATACCAAAATGAAGGTCTTGGAACGAAATTACATAATAAATTACTAGAAGGGCTTTCAAATAGAACAAGTGTTTTAACAACACAAATAAACAATGAAAAAGCACGTTCGTTATATGAAAGATTAGATTGGGTAAATGTATTAGAGCCATTTCATCCAAGTAAAAATGATGTTCCATATATAATAATGGGAAAAGCATTAAAAATAAAAGTGAATTGA	MKFLSIEKDEILIGNMAKLYCKVFEKTNFNEMIERMNRHIEYTGFKGIVAINDENEVVGFTYGYRSMEGQYYNQLMREALHLEQVDEWLQDCFEFVELAVHPQYQNEGLGTKLHNKLLEGLSNRTSVLTTQINNEKARSLYERLDWVNVLEPFHPSKNDVPYIIMGKALKIKVN				NA	NA	NA	NA	NA
AK009_01053	939			hypothetical protein	ATGAAAGGGAAAACAACAATGCTATCTATAGAAAAAGCTACAATTTTAGATGCTGAGAAATTAACAGAAATAATGAAAAGAACATTTGATGCAGAAGCAAAACAATGGCTATACGGCCAAGATAATGTCATTGATTATAACATTCAACCGCCAGGATATTCTTCAGTTGAAATGATGGAATATTCCATTGAAGAATTGGATTCTTTCAAAGTTGTCATGGATAAAGAAATAATCGGAGGGATAATAGTTACGATTTCTGGTAAGTCGTACGGTCGAATTGATCGTATTTTTGTAGATCCTGTTTATCAAGGAAAAGGAATTGGATCACATGTTATGAAATTAATAGAAAAGGAATATCCGAACATAAAGATTTGGGATCTCGAAACATCTAGTAGACAAATTAACAATCATCACTTTTATAAAAAGATAGGTTACCAAATGATTTTTGAATCGGAAGATGAGTATTGTTACGTGAAAAGAATAAAAACAAGCTCAAACAAAGAGAGTGTAGTTACAAATAAAGATATGAAAAATAGTCAATACGAAAACTGTAATTTAGCAAATACAGAGTATTATCAAGTGAATTTAAAAAACAGTTCATTTGTTGGTAGCAATATAATGAATACGAATATGAGTAATTGTAATGTAAGTCAATCAAAGTTTAGAAATATAAATTTTAGAAGGTCATCATATGCAGATTTAAATCTTTCTGGCAGTAAATTTAATTTGGTGACTTTAGGTGGAGTGCAATTTAAAAATACAAGTCTCGGAGATGAGAAGGAACCTATTGTATTCGATAAATGTGATTTGGAAGGTAGCACCATAAGTAATAGTAATCTGAAAAATATTGAAATAGAAAATTGTGATATAGTCGGCATGAAACTAAATGGTATTCTGATTGAAAATTTGCTTAATTTATATAACAAGGTGAAAAGTTAA	MKGKTTMLSIEKATILDAEKLTEIMKRTFDAEAKQWLYGQDNVIDYNIQPPGYSSVEMMEYSIEELDSFKVVMDKEIIGGIIVTISGKSYGRIDRIFVDPVYQGKGIGSHVMKLIEKEYPNIKIWDLETSSRQINNHHFYKKIGYQMIFESEDEYCYVKRIKTSSNKESVVTNKDMKNSQYENCNLANTEYYQVNLKNSSFVGSNIMNTNMSNCNVSQSKFRNINFRRSSYADLNLSGSKFNLVTLGGVQFKNTSLGDEKEPIVFDKCDLEGSTISNSNLKNIEIENCDIVGMKLNGILIENLLNLYNKVKS				NA	NA	NA	NA	NA
AK009_01054	510	aaaT_1	COG0454	L-amino acid N-acetyltransferase AaaT	ATGGGGATCAACGTTAGAGCAGTAGAAATACAAGATGCTAGAGCAATTCATCGTATATGTATACAAGATGAAGTTTTACCGTATATGGTTTTCTTACCTAGCATGCGTGTAGACGCTATGGAAAATAGAATTCGAAATTTAGCACCAAATCAATTTGAATTTGTTGCAGAATATGATGGAGAAATTGTTGGGTTTGTAGGTTTAACACAAAGTCCGGGACGAAGATCTCATTCAGGCGATTTATTCATTGGGGTCGATAGTGAATATCATAATAAAGGAATTGGGAAAGTACTTCTTACGAAGATGCTTGATCTGGCTGATAATTGGTTAATGTTAGAGAGAGTAGAACTAGGTGTGTTAGAAACGAATCCAAAAGCAAAAGCTTTATATGAAAAATTTGGATTTGTAGAAGAGGGAGTAAAGATAGGGAATTTGAAAGCTCAAGGAAAGTTTATTAATGAAATTATGATGAGTCGTTTTAGACCGGATGGTTTAATTGTACATAATTAA	MGINVRAVEIQDARAIHRICIQDEVLPYMVFLPSMRVDAMENRIRNLAPNQFEFVAEYDGEIVGFVGLTQSPGRRSHSGDLFIGVDSEYHNKGIGKVLLTKMLDLADNWLMLERVELGVLETNPKAKALYEKFGFVEEGVKIGNLKAQGKFINEIMMSRFRPDGLIVHN				NA	NA	NA	NA	NA
AK009_01055	888			hypothetical protein	TTGAAATCACCTATTCTTTCATATTGCATCTTATTTTTTGGTGTATTCGCCTTATCAACTTCTGCAATTTTTGTAAAATTGGCAGATGCTCCTGCTACAATCATTGCTTTTTACCGATTATTCTTTGCCACACTGATTCTGTTACCGTTATTACTATTTAATAAAAATAGTCGAGATGAGCTAAAAACTTTAACGAAAAAACAATGGGGATTCGGATCCATATCTGGGCTATTTTTAGCTGCACATTATGTACTTTGGTTTGAATCATTACAATATACTTCTGTAGCAAGCTCTACAGTTATCGTAACGCTACAACCTTTGTTCTCAATGATTGGTGTTTATTTTTTATTTAAGGAGAGATTTACGAAAGGAGCGGTTATTGGTTGCCTCATCGCTATTTCAGGTAGTATCGTTATTGGCTGGCAAGATTTCCAAATTAGTGGAGCAGCTTTATATGGAGATATTTTAGCATTTATCGCTGCCGGTATCATTACTGCTTATTTTTTCATTAGCCAACACGTTCGTAAAGATTTGGCACTTATACCATATTCGGTAATTAGTTATGGAAGTAGTGCTGGCTTTCTTGGCATATTTGCTTTCACGCAACAAGAATCTTTCATCCATTATTCTACACAAACTTGGTTGTGCTTTATTGGATTAGCTTTCATTGCTACAATTTTAGGACAAACCATTTTTAATTGGTTATTAAAATGGATGAGTGCTACTTTAATTTCCATGAGCATTTTAGGAGAAACAATTGGAACTTGTATACTAGCGTACTTTATATTACATGAGACCATTTCTTTACAACAAGGACTAGGAATTACCGTTATTTTTATTGGTTTAGTATTATTTTTATTACAGCCAAATTCTAATAAAAAAGCATGA	MKSPILSYCILFFGVFALSTSAIFVKLADAPATIIAFYRLFFATLILLPLLLFNKNSRDELKTLTKKQWGFGSISGLFLAAHYVLWFESLQYTSVASSTVIVTLQPLFSMIGVYFLFKERFTKGAVIGCLIAISGSIVIGWQDFQISGAALYGDILAFIAAGIITAYFFISQHVRKDLALIPYSVISYGSSAGFLGIFAFTQQESFIHYSTQTWLCFIGLAFIATILGQTIFNWLLKWMSATLISMSILGETIGTCILAYFILHETISLQQGLGITVIFIGLVLFLLQPNSNKKA				NA	NA	NA	NA	NA
AK009_01056	561	puuR_2		HTH-type transcriptional regulator PuuR	ATGATACATGATAGGCTTGGACAAACGGTATTAAGTTACCGTAAGAAAAATAACATGACAATTCGTGAATTCGCTGATTATGCAGGGATTAGTACATCGTTAATTAGCCAAATTGAAAGAGGGCATGCTAATCCTTCTTTAAATGTTTTGGAATTAATTGCAAAAGCATTAAATGTACCGCTGTTTACACTTTTTATTAACGAAATTGATACAGATTCGCTCATTTCTAAGAAAAAAGATCGAAAAAAAGTATATCGGGAAAACAATAATCACATTGTATATGATGTATTAACACCTGATTTTATGAAAGCACGTATTGAAATGCTAATGATGGATTTAAATAAACAAGCAAACACAACAGAAAGCCATTATTCCCATGAAGATAAGGAAGAGATTGCTGTTGTTATGAAAGGGGAAGTGTATGTGGAATTGGAGGGAAAAGAATATTTTTTAGAAGAAGGCGATGTTGTACGTATTCCACCGAATGTGAAGCATCGATTTTTGAATAAAAGTGATGAATCGAATCACATTTTATTTGTACTGACACCATCTTTAGGGTGA	MIHDRLGQTVLSYRKKNNMTIREFADYAGISTSLISQIERGHANPSLNVLELIAKALNVPLFTLFINEIDTDSLISKKKDRKKVYRENNNHIVYDVLTPDFMKARIEMLMMDLNKQANTTESHYSHEDKEEIAVVMKGEVYVELEGKEYFLEEGDVVRIPPNVKHRFLNKSDESNHILFVLTPSLG				NA	NA	NA	NA	NA
AK009_01057	948			hypothetical protein	ATGGAAAACAAAAGTATTTTAAAAGGCGGCCTTTCAATTATTTCTCAATGCAAAAAAGAAACAAATGATATTTGGCATGCGCATTTTGGAGCAGCTGCAATTGCTAGTTATTTTTTTATGAAAGATAATAATATTGATGAAGAAACAGCTCGTAATATGTATTCGCAAACAAGGATGATGCTGAACAAGAAAAAAATTGGTGAGATGATTGATGATAAAAAAGAAATAGATTTTCAAATTGCGGAGAATATGATTATAAAATCTTTAGAACAAACGATTGATGAACTTCATTGGGTGGGGCATAACGTCATTTATGCGTCATTAAGTTTATTGGCTATGAAAGAGCTACAAAAATGGGGCGATAATCAAGCAATTGAAGGGATTACTACTCTTATTTTATCATTTCGAAAAACAATTCCAGGTAGATCGTGGATTGGTTATACGACGAAAGAAGTAAAACAATTAAGTTTTGAAGATGAGATGAAAAGTGAATTGAGTAATCCAACACAAGTATCTCAGTTCATTTTAAATGAGTTATCGAAATTTAATAGTATTTATCGAGCGGAATCGCATCATGATTTAATTGGGCATTTGCTTACTTACTCCCACGCAATTAATATAATGTACGATTTAGGGCATATAGATATATTTCAACGAGGGATACGCCCGCTTTTAAAACTAGTATACGTACTACGAGCTAGCCAAAAGCTCAAGCTGAATACGGGAATAACTTTACACTCACCTATAGATCGATTACCTTTAATTCAATCTAAACGTGCAAATATTTTACCAACTGAAAATATATTTTGGATAAAAGACTATAGTGAATTCGATTGGGATTTTGGTCATGTATTTAAATTCTCATATAGTTATTTTAATCATATAAAGAGAGCTCCAGATTATAAAGATATAACATTAGAAAAATTCCGGTATGTTATTAATTCTTAA	MENKSILKGGLSIISQCKKETNDIWHAHFGAAAIASYFFMKDNNIDEETARNMYSQTRMMLNKKKIGEMIDDKKEIDFQIAENMIIKSLEQTIDELHWVGHNVIYASLSLLAMKELQKWGDNQAIEGITTLILSFRKTIPGRSWIGYTTKEVKQLSFEDEMKSELSNPTQVSQFILNELSKFNSIYRAESHHDLIGHLLTYSHAINIMYDLGHIDIFQRGIRPLLKLVYVLRASQKLKLNTGITLHSPIDRLPLIQSKRANILPTENIFWIKDYSEFDWDFGHVFKFSYSYFNHIKRAPDYKDITLEKFRYVINS				NA	NA	NA	NA	NA
AK009_01058	150			hypothetical protein	ATGGAACTAGCGAAATTAGAAAAAGTAATTGAAATAAAAAAAGAAGAACTTTTATATTTAGTATCGGATTATGGAATTCAACATGAAAAAGTATTGGCATTGAGTCAAGAACTAGACAAATTAATCAATTACTTTATGTTTTTAAAATAA	MELAKLEKVIEIKKEELLYLVSDYGIQHEKVLALSQELDKLINYFMFLK				NA	NA	NA	NA	NA
AK009_01059	1392	hemY_1	COG1232	Protoporphyrinogen oxidase	ATGAAAACAGTTGTTGTTATCGGTGGAGGTATAACGGGACTTTCTACTATGTTTTATTTAGAAAAATTAAAAAAGGATTATAATATCGATTTAAATTTAATTCTTATTGAGAAAGAAGAGTATTTAGGTGGTAAAATCCATAGTGTGGAAGAAAAGGATTTCATTATGGAGTCAGGAGCGGATTCAATCGTTGCTCGTAATGAATATGTTATGCCACTTGTAAAAGATTTAAATTTAGAAGATGAAATGGTATATAATGAAACGGGTATTTCTTACATATATTCTGAAAACATGTTACATCCGATTCCTTCTGATACTATATTTGGGATACCGATGAGCGCCCAGTCTTTGTTTAGCAGTACGCTAGTCTCAACGAAAGGGAAAATCGTAGCTTTAAAAGATTTCATAACGAAAAATAAAGAGTTTACGAAAGATACATCACTTGCTCTATTTTTAGAAAGTTTCTTAGGGAAAGAGTTAGTGGAAAGACAAATTGCTCCTGTACTTTCAGGCGTATATTCTGGTAAATTGAATGAGCTTACAATGGCATCTACACTACCGTATTTACTGGATTATAAAAATAAGTATGGAAGTATTATTAAAGGTTTTGAAGAGAATAAAAAACAATTTCAATCAGCAGGAAATAAAAAATTCGTATCATTTAAAGGTGGACTATCTACGATAATTAATCGCTTAGAAGAAGTGCTTACTGAAACTGTCGTAAAAAAAGGTGCTATAACGACGGCTGTAAGTAAACAAGAAGATCGATATGAGATTTCTTTTGTAAATCATGAAACAATACAAGCTGATTATGTTGTTTTAGCAGCTCCGCATGATATAGCACAAACTTTATTACAGTCTAATGAGTTAAATGAGCAGTTTAATACATTTAAAAACTCATCTCTTATAAGTATTTACTTAGGATTTGACATACTAGATGAACAACTACCAGCTGACGGCACAGGGTTTATTGTAACGGAAAACAGTGATTTACATTGTGATGCTTGTACATGGACAAGTCGAAAGTGGAAACATACATCCGGTAAACAAAAATTATTGGTAAGAATGTTTTATAAGAGCACCAATCCGGTATATGAAACAATCAAAAATTATAGTGAAGAAGAATTAGTACGAGTAGCTTTATATGATATTGAAAAGAGTCTCGGAATTAAAGGTGAACCAGAAGTAGTCGAAGTTACAAATTGGAAAGATTTAATGCCGAAATATCATTTAGAACATAATCAAGCGGTTCAAGCATTGCAAGAAAAAATGACGAATCTTTATCCAAATATATATTTAGCTGGTGCCTCATATTATGGTGTCGGAATTGGTGCGTGTATTGGAAATGGAAAGAATATAGCCAATGAAATAATGGCTACATTAAATGAATAA	MKTVVVIGGGITGLSTMFYLEKLKKDYNIDLNLILIEKEEYLGGKIHSVEEKDFIMESGADSIVARNEYVMPLVKDLNLEDEMVYNETGISYIYSENMLHPIPSDTIFGIPMSAQSLFSSTLVSTKGKIVALKDFITKNKEFTKDTSLALFLESFLGKELVERQIAPVLSGVYSGKLNELTMASTLPYLLDYKNKYGSIIKGFEENKKQFQSAGNKKFVSFKGGLSTIINRLEEVLTETVVKKGAITTAVSKQEDRYEISFVNHETIQADYVVLAAPHDIAQTLLQSNELNEQFNTFKNSSLISIYLGFDILDEQLPADGTGFIVTENSDLHCDACTWTSRKWKHTSGKQKLLVRMFYKSTNPVYETIKNYSEEELVRVALYDIEKSLGIKGEPEVVEVTNWKDLMPKYHLEHNQAVQALQEKMTNLYPNIYLAGASYYGVGIGACIGNGKNIANEIMATLNE	PGPT0008475_1588	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
AK009_01060	549			hypothetical protein	ATGTATATATTCATCAGCTTATCCCTCTTACTCATATTACTTATTTTTTTATTCGCAAAAAAATTCACACCAAACTCATTCATGATGACTAGCTTTAAAGGTAATAGCTTTAGGACATTTTCAATCGGTATTTTAATCGCTGCCATACTCTCACTTTCATATGGAACTTATCATGCGGTAACATATCAACCTAGTTATTTAGATATTAAATTAAAAAATCAAAACTATACTGTTTTCGGTAATGTAGGCGAATTCGGTTATTTCTCCGAAGAATTATTAAAAAAAAATACAGAAGTACAACTATATTTCGTCTCTTGGAAAACAATACAGTTAAAAAATCCGGTAATACTTATAGAATATCCTTCAGGAAAACAAGAAACATGGAAGCCAAATATCGTATCAATACCGGTAAATAAATTACAAGAAAAACATGATATAAAAGATATTTATCAACTATCACCGTATTCATTTAAAGAGTCTGGAGAAATAACATTAACAATAAAAGAAAACAATGTAAAAAACAATACAATTTCCATTCAAATAAAATAA	MYIFISLSLLLILLIFLFAKKFTPNSFMMTSFKGNSFRTFSIGILIAAILSLSYGTYHAVTYQPSYLDIKLKNQNYTVFGNVGEFGYFSEELLKKNTEVQLYFVSWKTIQLKNPVILIEYPSGKQETWKPNIVSIPVNKLQEKHDIKDIYQLSPYSFKESGEITLTIKENNVKNNTISIQIK				NA	NA	NA	NA	NA
AK009_01061	552			IS1595 family transposase ISSpgl1	ATGGCATTTCCTATATTAGAAACAGAACGCTTACGTTTAGTTGAAATAGAACAATCTTATTGTCAAAAAATATATGAAATCTTTTCATTGGATGAAGTGACGTGTTACTACGGTATGAATTCTTTTACGGAGTTTGGACAAGCTTCACGTATGATCGAATCTTTTTCAAAAAATTACTTTGAGAAAAAGGCAATACGATGGGGAATTGTGTTAAAAGAAACGAACGTTTTAATAGGAACAATTGGACTAAACAATTTACAATTATGGAGTAAACGATCTGAGATTGGATATGATCTGCATCCTCGCTATTGGGGAAATGGTTATGCTTCAGAAGCAGCTGGAGAAATTATTGATTATGGATTTAAAGATTTAGGTTTGTTTAGAATTGGAGCTATTACATATCCTGAAAATGTTACTTCTTGTAGAATGTTATCTAAAATTGGCTTCCAAAAGGAAGGGCTATTGCGCGGATATATTCATCAAGGAAATAAGCAACACGATGCATTATTGTATTCTATAGTGCGAACTGATGTTGAGGACATAAATTTATAA	MAFPILETERLRLVEIEQSYCQKIYEIFSLDEVTCYYGMNSFTEFGQASRMIESFSKNYFEKKAIRWGIVLKETNVLIGTIGLNNLQLWSKRSEIGYDLHPRYWGNGYASEAAGEIIDYGFKDLGLFRIGAITYPENVTSCRMLSKIGFQKEGLLRGYIHQGNKQHDALLYSIVRTDVEDINL				NA	NA	NA	NA	NA
AK009_01062	186			hypothetical protein	ATGTATCGCAATCGAAAGAACGATGTAGCAGAAGTACCACCAGAACAAACCCCTGTTTGGGAATGTGAATCAGAGGATTGTTTAGGATGGATGAGAAAGAACTTTTCATTTGAAGAAGAGCCTAAATGCCCTTTATGTAAAAGTAGCATGAAAAGCGGAGAACGTTTATTACCTAAATTAGGTTAA	MYRNRKNDVAEVPPEQTPVWECESEDCLGWMRKNFSFEEEPKCPLCKSSMKSGERLLPKLG				NA	NA	NA	NA	NA
AK009_01064	204	cspA_1	COG1278	Major cold shock protein CspA	ATGACATTAACAGGTAAAGTAAAATGGTTTAACAGCGAAAAAGGTTTCGGTTTCATCGAAGTTGCAGACGGTAACGATGTATTCGTTCACTTCTCAGCTATCACTGGCGACGGCTTCAAGTCTCTTGACGAAGGTCAAGAAGTTAGCTTTGAAGTTGAAGAAGGTAACCGCGGACCTCAAGCTAAAAACGTTGTAAAGCTATAA	MTLTGKVKWFNSEKGFGFIEVADGNDVFVHFSAITGDGFKSLDEGQEVSFEVEEGNRGPQAKNVVKL	PGPT0014675_6506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_01065	897			hypothetical protein	TTGCAAAATAAACAATTTAAAATAATTGAAGCAGCAAAAGAAGGAAGAAGAAAAGTTCATCCTGTTTTTGCTGTCATACTCGCGATTATATTTTTAACTTTAGGTGAATTATTTATGTTGTTTATGCTGATTTTACCGAAAGCAGAAACAACTTTTATGAAGGCGATTTATAGCGACATTGAGATGATATTAACGTTTGGCGGCGCAATATTTTTTGTGTTTTTATGGATTAGATTTGTAGAGAAAAGATCATTTTCATCCATTGGTTTTTGGAGAAATCAATGGATAAGAAAATATTTGAGAGGTACATTAATAGGATTTGTTTTCATTTCAATACCAGTAATTTTATTCCTATTAGCAGGAGTTGTAACATTACAAATACAAAAAATTACAGTAACCGCTATATTGGGTATTGTAGGTTCTTTAGTTGCATTTTTAATACAAGGGGCAACGGAAGAAATTATTGTACGAGGTTGGTTATTCCCGGTTCTTTCTGTTAGAAGTCGTATATGGGTTGGGATTGTTGTGACATCTTTCTTATTTGGTTTTCTTCATTTACTTAATCCAGGTATTACAATTCTTTCAATATCGAATATAATATTAGTTGGTGTATTTGCAGCTTTTTACGTTTTAAAAGACAGTAGTCTGTGGGGGATTTGCGCATGGCATTCCATTTGGAATTGGGCACAATATAACGTCTACGGTTTTGCAGTTAGCGGGATGACCATATATTCAACTCCGCTATTTAAACCTGCAACAAATGGCCCCGAATTCCTTCATGGAGGCACGTTCGGAATTGAAGGTAGTATCATTACAACAATCATGCTCACTGTCGCTTCAATTGTTTTATGGAGAAAGTTATGGGGAAGAAAAGCGAAACAACGAAATTTTAGTTAA	MQNKQFKIIEAAKEGRRKVHPVFAVILAIIFLTLGELFMLFMLILPKAETTFMKAIYSDIEMILTFGGAIFFVFLWIRFVEKRSFSSIGFWRNQWIRKYLRGTLIGFVFISIPVILFLLAGVVTLQIQKITVTAILGIVGSLVAFLIQGATEEIIVRGWLFPVLSVRSRIWVGIVVTSFLFGFLHLLNPGITILSISNIILVGVFAAFYVLKDSSLWGICAWHSIWNWAQYNVYGFAVSGMTIYSTPLFKPATNGPEFLHGGTFGIEGSIITTIMLTVASIVLWRKLWGRKAKQRNFS				NA	NA	NA	NA	NA
AK009_01066	660			hypothetical protein	ATGAAAGAGGGAGAAACTATGGGGATAATAGCATTTGAGGGAGCAAGCGCTGTTGGTAAAAGTACCACGTGCCGTGAATTAGAAAAGAATTATGGTGCTTATATAATACCTGAAGTCAATTCTTTATTTGAAAGGCCAAAAAATGAACATAGAACATGGTATTTTGAAAAACAAGTTGAGCGCTGGAATATAGCTGTTCAGAAGTCAGAGCAATATGAATTAGTAATACTCGATGGCGATATATATCAGCCACTTAGTTATAATTGGTGTTTTCATTTTGATCTATTTAATCAGCCATTATCTTTAATAGAAAATTTTTATAAAGAAAAGATGATAAATAGGGAAATTGGTTTTCCGGATCAATATTTTTATTTATATACGAACGATGAAGAACTTAGAAAGCGGAAAGTATCTGATGAAACGAAAAGAAGGAGAAACTTTGAAAAACATTTACATATATCAAAATCGTTTCAGTGTTATTATGAAAATTTAAATTCTGTTACAGATGGGTATTGTAAATTAATTGAGGCGAAAAGTGTAAAATCGAATGAAATAGAAATTGTAAAGAATTTAAACAGTTTAAATGTTTGTGAAGAAAGACGTTTTGATGTTTCGAGGTTAGATGCTATTACGAAGTGGTTAAAAGAAAATCGTGCATAA	MKEGETMGIIAFEGASAVGKSTTCRELEKNYGAYIIPEVNSLFERPKNEHRTWYFEKQVERWNIAVQKSEQYELVILDGDIYQPLSYNWCFHFDLFNQPLSLIENFYKEKMINREIGFPDQYFYLYTNDEELRKRKVSDETKRRRNFEKHLHISKSFQCYYENLNSVTDGYCKLIEAKSVKSNEIEIVKNLNSLNVCEERRFDVSRLDAITKWLKENRA				NA	NA	NA	NA	NA
AK009_01067	606			hypothetical protein	ATGAAAACACTATTTAAAATAATAGGTATTCTAGCTGGTATGGCGGTAATTGGAGTAGGTTTAACATATGGTATGCTGTATTATTTAAATAATAGTAAACCAGCTGCGAAAAAGGCATCACCAGCTGCTCCAGCAGTAGAAGTATTAGCTGATAGTAATGTAAAAGCAGAAGATGCAAAGCTTTTAGAAAATGGCAATTATTCATTGCCGAATAGTGGTTTTAATAAAAATTTTAAATGGACAGATGAGAACATACAGACAGCATTACATGAAATGGCACATCAAAAAGCGAAAGCTGATCAAAAGTGGGGCTATATTTTTATTACACAAGAGCGGATTGAAAGCTTAATTGATATTGTAAAGAGTAATGATCTTGTACAGGGAAGTACATATGTAGAAATTTTAGAACGATGGAAACAAGGAAAATATGAAAAAGTTGATGCAGATCACAATAAGATTTGGAAATTACAAAGCGGGAATTTAGGAGAAGGAAAAGGAGTAATGTCGGAAGCTGAGCAAAAAGAATTAATTAATCAAGTGTTTATGAACAAAGGTACATATTCAGGTAGTAAATTAATTGCAGGCGGGGGACAGACTAATAAATAG	MKTLFKIIGILAGMAVIGVGLTYGMLYYLNNSKPAAKKASPAAPAVEVLADSNVKAEDAKLLENGNYSLPNSGFNKNFKWTDENIQTALHEMAHQKAKADQKWGYIFITQERIESLIDIVKSNDLVQGSTYVEILERWKQGKYEKVDADHNKIWKLQSGNLGEGKGVMSEAEQKELINQVFMNKGTYSGSKLIAGGGQTNK				NA	NA	NA	NA	NA
AK009_01068	867	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGGAAATGAGACATGTTAAAACATTTTGCGCCATTGTGAAGTATGGTAATTTTTCTAAAGCTGCTCATGCGCTAGGTTATGCGCAATCTACTGTTACAGCACATATGAAAGCTTTAGAGAACGATTTACATATTCCTCTTTTCGATCGGTTAGGGAAAAAAGTGCTACTTACAAAAGCAGGTCATCAATTTCATCCTTATGCATTAGAATTACTTGCAATATATGAAAAAGCGCAAGAAATCCCCCAAAATACAGATTATTTAGAAGGTACATTAAGTATTACATCTAATGAATCATTAGCGGTATACCGATTACCACAATTATTACGTACTTACAAACAGAAAAATCCGAAAGTAAATATCGTACTTGAAACAAACACAAATGAACAAGCATTACAAAAATTACGTGAAGGAGAAACAGACGTTGTCTTCATAATTGGAGAAAGTATAGAACATAATGATTTTATTACGCGTACTTTTAGTAATGAAACATTTGGATGGATTTTACCAGCTTATTCCGCTGCACACGCAAATCCATTCCAGTTATTACAGGACACCCAGTTCATTTTTACAGAACAAAGCTGCGGCTATAGGCCAATGGTAGATCGTTTTTTACGTCAAAGTGGAAATATTCCAGCTAAAACATTTGAAACTTCCAATGTTGAAGTCATTAAACAATCCGTTATGTGTGAATTAGGCATTTCAATTCTTCCTTATATCGTTGTACAAGAAAGTTGCCAAAAAGAACAACTATGTTTTCAGCCTATCGAAACTCCAACCATTATGCAAAGTCATGTAATCTATCATAAATCCAGATGGATTTCCCCGGTATTACAGTCGTTTCTTTCCTTACTTGAACGAGACTAA	MEMRHVKTFCAIVKYGNFSKAAHALGYAQSTVTAHMKALENDLHIPLFDRLGKKVLLTKAGHQFHPYALELLAIYEKAQEIPQNTDYLEGTLSITSNESLAVYRLPQLLRTYKQKNPKVNIVLETNTNEQALQKLREGETDVVFIIGESIEHNDFITRTFSNETFGWILPAYSAAHANPFQLLQDTQFIFTEQSCGYRPMVDRFLRQSGNIPAKTFETSNVEVIKQSVMCELGISILPYIVVQESCQKEQLCFQPIETPTIMQSHVIYHKSRWISPVLQSFLSLLERD				NA	NA	NA	NA	NA
AK009_01069	1044	asd_1	COG0136	Aspartate-semialdehyde dehydrogenase	ATGATCAAAAAGGGCTATCATGTAGCTGTTGTTGGGGCTACAGGTGCGGTAGGGCAAAAAATTATTGAACTGTTAGAGAATGAAATGAAGTTTAATATAGTTGAAGTTACATTGCTTTCATCAAAACGATCCGCCGGTAAGAAAGTAAGATTCAAAGGACGAGAGATAATTATACAAGAGGCAAAAACAACTAGCTTTGAAGGTGTAGATATTGCCTTTTTTAGTGCTGGGGGAGAAGTATCTAGACAATTTGTAACTCATGCAGTTTCTAGTGGTGCGATTGTAATTGATAACACAAGTGAGTACCGAATGGCACAAGGTGTACCGCTCGTTGTTCCGGAAGTGAATGCGCATACTTTAGAGCGGCATAAAGGTATTATTGCAGTTCCAAATTGTTCAGCATTACAGATGGTAACTGCACTTCAGCCGATTCGAAAATCATTCGGTTTAGAAAGAATTATCGTTTCAACATATCAAGCTGTATCGGGTTCTGGCATTCATGCGATTCATGAATTACAAGAGCAGGCTAAGTCTATGCTTGCTGGTAAAGAAGTGAAAAGTGATATATTACCGGCGAAAAAAGATAAAAAACATTATCCAATAGCGTTTAATGTACTGCCTCAAGTAGATATATTTACAGACAATGATTTTACTTTTGAAGAAGTAAAGATGATTCAAGAAACGAAGAAAATATTAGAAGATGAAAACTTGAAAATGGCAGCTACTTGTGTACGTGTTCCAGTCGTATCAGGGCATTCAGAATCGGTTTATATAGAACTGGAAAAAGAAGCAACCGTTGCGGAAATTAAGGAAGTATTAATGGATGCACCAGGTGTTATTTTGCAGGATAACCCTAGTGAACAGCTGTATCCAATGCCATTATATGCAGAAGGGAAAATAGATACATTTGTCGGAAGAATACGTAAAGATCCTGATACGCCAAACGGATTCCACCTGTGGATTGTTTCCGATAATTTATTGAAAGGTGCGGCTTGGAATTCAGTTCAAATCGCAGAGACTTTAGTGGAAAGGGGGATACTTTAA	MIKKGYHVAVVGATGAVGQKIIELLENEMKFNIVEVTLLSSKRSAGKKVRFKGREIIIQEAKTTSFEGVDIAFFSAGGEVSRQFVTHAVSSGAIVIDNTSEYRMAQGVPLVVPEVNAHTLERHKGIIAVPNCSALQMVTALQPIRKSFGLERIIVSTYQAVSGSGIHAIHELQEQAKSMLAGKEVKSDILPAKKDKKHYPIAFNVLPQVDIFTDNDFTFEEVKMIQETKKILEDENLKMAATCVRVPVVSGHSESVYIELEKEATVAEIKEVLMDAPGVILQDNPSEQLYPMPLYAEGKIDTFVGRIRKDPDTPNGFHLWIVSDNLLKGAAWNSVQIAETLVERGIL	PGPT0014045_2731	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
AK009_01070	264			hypothetical protein	ATGCTAAAAGTTATGTTACCATTTGTTCTTATCTTTTTTCTTGTTATTGCGATGTATATTGCTTATCAAAAGAGAAAAAAATCCGAGATAAAAGGATTGAAAAGTGCGCTAACTTCTATTTGTTTCTTTTCACTCGCAATATTAAATATGTTTGCATATTGGTTTCATTTTGGCGGTGTTTTTACTTGGTTATTTTCAATTGTATTATTGCTAGTTGGTGCATATTTTACAAAATATATTCCAATATCTAAAAAGGTACATTAA	MLKVMLPFVLIFFLVIAMYIAYQKRKKSEIKGLKSALTSICFFSLAILNMFAYWFHFGGVFTWLFSIVLLLVGAYFTKYIPISKKVH				NA	NA	NA	NA	NA
AK009_01071	903	cynR_1		HTH-type transcriptional regulator CynR	GTGATTTCAATCGAATTACGACAACTTGAATACTTTTTAGCTGTTTCAAAAGAATTACATTTCACAAAAGCAGCTGAGAAATTAAATATTTCACAGCCTTCACTAAGTCAACAAATACGTGCATTAGAGCATGAAGTAGGAATGCCACTTTTCGATCGAATTGGTAAAAAAATATCTTTAACTGAAGCAGGGAAGATTTTATTATCACATTGTAAAACCATTTTTCATGAAGTCGAACAAGCTCGTTCAGCCCTTCAAGACCTAAACGGATTACAGCAAGGTTCCTTAACAATAGGGGCTTTGTTAACCGTCGTAAATTATTTACTACCACCAGCTATTTTAAATTTCAATAATTTATATCCCAATATAGAGCTTTCTGTATTAGGGCTTCGTACAGGAGATATTCGTGAAAAATTATTACAAAACGAACTAGATATCGGCATTACATTTCTCCCGGTGCAAGATAAAGAAATTATCTCCATCCCTCTATACAAAAGCGACCTTACATTGGTCGTGCCAACTGGTCATCGATTAGCTAAACGTAATCATGTATCTATTACTGAACTACAGAACTACCCTTTAATTCTTTTACCTAAAAATTTCTTTTTAACCGAACTAATTACATCTCATTGTCAAAAATTCAACTTTAGACCAAGACCAATTTTAGAAATTAGTACGATGGAATCTTTAATCCAAATGGTTTCTAAAGGAATGGGAATTACAGTGTTACCACAACCATATATAGACTTTTTACAAAATAAAAACATTCAAGCTATTAAAATAGAAAACCCTACTCCAATAATTGAAATAGGGCTTATTTATAGAAAAGATAAATATATGTGTGCTGCCACTCGAGAATTTATTGAGCAACTACAAATCACAGTACGTTCTTTCCAAAACTAA	MISIELRQLEYFLAVSKELHFTKAAEKLNISQPSLSQQIRALEHEVGMPLFDRIGKKISLTEAGKILLSHCKTIFHEVEQARSALQDLNGLQQGSLTIGALLTVVNYLLPPAILNFNNLYPNIELSVLGLRTGDIREKLLQNELDIGITFLPVQDKEIISIPLYKSDLTLVVPTGHRLAKRNHVSITELQNYPLILLPKNFFLTELITSHCQKFNFRPRPILEISTMESLIQMVSKGMGITVLPQPYIDFLQNKNIQAIKIENPTPIIEIGLIYRKDKYMCAATREFIEQLQITVRSFQN				NA	NA	NA	NA	NA
AK009_01072	690	yiiM_1	COG2258	Protein YiiM	ATGGCTAATGAATATCGATTATTATCTTTAAATATAGGATTACCAAAAGAGGTTACATACGGCGGAAAAGTAATTCATACAGGCATAAATAAGAAACAAGTAAAGGAACCGGTATATTTATCCTTTGTAAAGTTTAATGGAGATGGACAGGCGGACTTAGTTCATCATGGAGGAGTAGATAAAGCAGTTTGTGTTTATACTGGTGATCACTATCCATACTGGGAACAAGAATTGAATCAAGATCTTGTATATGGGGCTTTTGGAGAAAATATAACAGTTAGTGGTATGCGCGAAGAGGATGTTTGTATTGGTGATACGTTTGAGCTAGGACAGGCAATCGTACAGGTAACACAACCAAGGCAACCTTGTTTTAAATTAGCAAAAAAATATAATATTCCAAAGTTACCACTATATTTTCAAGAAACAGGATATACAGGATTCTATTTTCGCGTATTAAAAGAAGGATGGGTATCATCAGTCGATACATTAAAAAGACTACAGTCTGATCCAAAAGGTGTTTCAGTAGCGTTTGCTAACCGTATCATGCACAAGGAAAAACAAAATATTGAAGGGATAAAAAGGATATTAGAAGTAAATGCACTTTCAAGTAGTTGGAGAAAGTCTTTTGAAAAGCGTATAAGTGGAGAAGAAATTAATACGAAGGAAAGACTTGAAGGGATAAAAGACTAA	MANEYRLLSLNIGLPKEVTYGGKVIHTGINKKQVKEPVYLSFVKFNGDGQADLVHHGGVDKAVCVYTGDHYPYWEQELNQDLVYGAFGENITVSGMREEDVCIGDTFELGQAIVQVTQPRQPCFKLAKKYNIPKLPLYFQETGYTGFYFRVLKEGWVSSVDTLKRLQSDPKGVSVAFANRIMHKEKQNIEGIKRILEVNALSSSWRKSFEKRISGEEINTKERLEGIKD				NA	NA	NA	NA	NA
AK009_01073	885			hypothetical protein	ATGGGGAATGTTGAAAAAATGGCAAGTCTTCTAATAGAAGAACCGAAAAGAGAGCAGTTATTTCCTTTATTTGAAGAAGTGTTTGAAATTACAACTCAAACATTGAATGATTTTTCGGATAAAGGGTATTGGGATGATACATATAAAGCTTTATCATTTTTACAAGAAGATAAAGTGATTGCAAATGTTGCGGCATTTTCACTCCCATTATTAATTAATGGAGAAAAAATAAATGCGGCGGGTATTCAATCAGTAATGACACATCCTAATTTCCGTAGACAAGGGCTAATGAAACAATTAATGGGTAAAATGATAGAAGAAATCGATAAGAAATGTGAATGTACATTATTGTTTACGGAAAACCCTGAACTATATACAGCGTTTGGATTTAAAGTTGTGCAGGAATATTTGATGACTATACCATACGATAAAAACAATAATAACGATTCACTACTTAAAAAATTAGATTACTATAATGTAGAGAATAGACAGTTAATACATGAAACTATTGATAGTGGCCAAAGACTTTCAAATAATTTTTCAACTTTAAATTTCCGTCCTTCATTTTATTTGAATATGTATGACTCGGAATGGAATGAGAAATTGTATTATTCAGAGAAACTAGATGCTTTAATCGTTTATGAAGTAGACAATGAAAAGTTGAAATTATTTGGAGTATTTGCGCCAGTACTTCCGGTTTTAGATGAAATATGTGGAGAAATCAATGAAAGGTTTACGGAAATCGAATTTTATTTTTCTCCAGATCAATTAGGGATTGAGGATGTACAGTTTACAGAATTACAGTCTAGTAAGTATTTAATGGTTCGAAGTGATAAAGAGTTAGATTTTAAAGGTTATAAATTCCCAGTATTAGCGGAGTTTTAA	MGNVEKMASLLIEEPKREQLFPLFEEVFEITTQTLNDFSDKGYWDDTYKALSFLQEDKVIANVAAFSLPLLINGEKINAAGIQSVMTHPNFRRQGLMKQLMGKMIEEIDKKCECTLLFTENPELYTAFGFKVVQEYLMTIPYDKNNNNDSLLKKLDYYNVENRQLIHETIDSGQRLSNNFSTLNFRPSFYLNMYDSEWNEKLYYSEKLDALIVYEVDNEKLKLFGVFAPVLPVLDEICGEINERFTEIEFYFSPDQLGIEDVQFTELQSSKYLMVRSDKELDFKGYKFPVLAEF				NA	NA	NA	NA	NA
AK009_01074	552			hypothetical protein	ATGAATGTACCTGAATACTATAAGATTAATGACAATCATGCGTTTATTGTCCGTTCGAAAGCAGAAACTGATTTTTGGCTTAAAACACATTATGGTTTTGAAGTAATGAATGGTCATGTATTTTATAATGAGATGATGACAGACTTTCAAGCTGAAGTTCAGTTACGTATGAATCCAAATTCAAAATTCGATCAAGCAGGTCTTTTTGTTATGATTTCGGAGAACTGTTGGCTAAAAACATCTTTAGAATATATCCCTGAAGGGCCATCTCACTTAGGTGCTGTCGTAACGAATAATGGATATTCTGACTGGTCAACGCAAGATTATCCAACTGAAGAAGCTAAGCAACAAATTCGTTTTCGAATTATTCGAAAACGTGGTGATTATACAATATATGTGAAAAAGAGCCATCAATGGGAACAAATAAGAATCACTCATTTAATGGAGGATATAGGGAATGAGCCTATTAAAATAGGTTTTTACACGTGTAGTCCTTCTAAAAATAAGGGATTTGAGACTGAGTTTTTAAATTTTACAATTGAAGAAATATAG	MNVPEYYKINDNHAFIVRSKAETDFWLKTHYGFEVMNGHVFYNEMMTDFQAEVQLRMNPNSKFDQAGLFVMISENCWLKTSLEYIPEGPSHLGAVVTNNGYSDWSTQDYPTEEAKQQIRFRIIRKRGDYTIYVKKSHQWEQIRITHLMEDIGNEPIKIGFYTCSPSKNKGFETEFLNFTIEEI				NA	NA	NA	NA	NA
AK009_01075	1755		COG1132	putative ABC transporter ATP-binding protein	ATGAAATCATTTCGTAAGTTATTACAGTATTTAAAACCATACATGTTCTTCGCTATTATTGGACCGCTATTTATGGTACTTGAGGTTGCGATGGACTTAATTCAACCGACTATTATGCAACATATCATTGATGTTGGGATTGCAAATCGGGATTTAAATTATGTAATAAAAATGGGGCTTCTTATGATAGGGGCAGCAGCACTCGGTTTAGTTGGAGGGCTTGGGTGTATGATGTATTCTACAAAAGCAGCTGTTAATTTCGCTACAGACATAAGAAAAGATGTGTTTGCGAAAATAGAAACATTTTCTAGTAATAATCGTGATTCATTTGGAACAGGTAAATTATTAACGATTGTGACGAATGATATCACTTCTATTCAATCGGCAATGACGATGACATTACGTGTTCTCGTTCGTGGCCCACTGTTATTTATCGGAAGTATAATTATTGTTTTTGTAACAGCGCGAGAGTTATTTCCAATATTACTTGTAGTTGTTCCAATTTTATTACTTGCAATTATTTTAATTGCAAGTAAAGCAAGTGGTACATTTAAAAAGGTGCAAGAGGCATTAGATAAAGTGAATACAAAGTTACAAGAAAATTTATCTGGTGTGCGTGTTATAAAAGCGTATGTAAGACAAAAATATGAAATCGCTCAATTTGGAAATGTAAATACAAATTTAACGAAGATAAATATTCGAGCTGTGCAACTTATTTCTTTAATGATGCCAATCATTATGCTAGTTGTAAGTGGCGGGATTGTTGCAACATTATGGATTGGTGGAGAAAAAGTATTCAGTGGAACACTTCAAGTAGGAGCGATTTTGGCATTTATTAATTACTTGAATATCATTTTAATGTCACTTATGTCGATTAGCATGGTATTTATTCAAATTGCGCGAGCTTTTCCATCTGCGGATCGTGTAAAGCAAGTGTTAAATACTGAAGTTGATATTATAAGCGAAGCGAATGCGATTGAACCTGAGAAAATCGAGGGGAATATAGAATTTAAAAATGTTAGTTATAGCTATACGAAAAATAATGAATATGTTTTAAAAGATATTTCGTTTAGCATACAAAAAGGTGAAAAAGTAGGGATTATTGGATCGACTGGAAGTGGTAAATCAACCTTAGCGAAACTGTTACCACGTCTATATGATGTGGATCAAGGTGAAATATGTATAGATGGAATAGATGTTAAAACATATGATTTGCAAAAACTCCGTGCTTCAATAGGCTTTGTACCTCAGAAGGCGTTGTTGTTCTCAGGTAGTATAGAAGAGAATTTACGTTATGGTAAAGAAGATGCAACACACGATGAGCTGGAAGTAGCAACTGCATCAGCTTGTGCGACTGAGTTTATCAATAAGCTGGAAGAATCTTATCAATATAATTTAACACAAGGTGCAACAAATCTATCAGGTGGACAAAAACAACGTGTATCAATTGCAAGAGCACTTGTGAGAAAACCACCGATTCTAATATTAGATGATTCTACATCAGCAGTTGATGCGAAATCAGAGGCTACTATTCAAACAGCTTTAAAAACAAAATATAAAGGCACAACGACTTTATTAATTGCGTCCAAAATTTCTTCCATAATGGATGCGGATAAAATACTTGTATTAGATAATGGTGAATTAGTTGGTAATGGTACACATGAACAATTGTTAGAACAAAGTGAGGTTTATCAGGAAATTTATCTTTCCCAAGGTGGTAATTTGTATAAAGAAGGTGGGGAAGAACATGCGTAA	MKSFRKLLQYLKPYMFFAIIGPLFMVLEVAMDLIQPTIMQHIIDVGIANRDLNYVIKMGLLMIGAAALGLVGGLGCMMYSTKAAVNFATDIRKDVFAKIETFSSNNRDSFGTGKLLTIVTNDITSIQSAMTMTLRVLVRGPLLFIGSIIIVFVTARELFPILLVVVPILLLAIILIASKASGTFKKVQEALDKVNTKLQENLSGVRVIKAYVRQKYEIAQFGNVNTNLTKINIRAVQLISLMMPIIMLVVSGGIVATLWIGGEKVFSGTLQVGAILAFINYLNIILMSLMSISMVFIQIARAFPSADRVKQVLNTEVDIISEANAIEPEKIEGNIEFKNVSYSYTKNNEYVLKDISFSIQKGEKVGIIGSTGSGKSTLAKLLPRLYDVDQGEICIDGIDVKTYDLQKLRASIGFVPQKALLFSGSIEENLRYGKEDATHDELEVATASACATEFINKLEESYQYNLTQGATNLSGGQKQRVSIARALVRKPPILILDDSTSAVDAKSEATIQTALKTKYKGTTTLLIASKISSIMDADKILVLDNGELVGNGTHEQLLEQSEVYQEIYLSQGGNLYKEGGEEHA	PGPT0029025_740	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
AK009_01076	1797		COG1132	putative ABC transporter ATP-binding protein	ATGCGTAATTTTCAAGGACAATTTGCTAATAAAGGTAGAAGAAACACGCCAAAGATGGGAAAAGCTAAAAATGCTCAAGGAACTGTAATGCGGATATGGAATTATATGGGCTATCAAAAAGCTGCTCTTATGTTTGTTATATTTCTAGTAGTTGTTACTACATTACTTGGATTATTAGGTCCATATTTTATGGGAGTCATTATAGATCAATATATTGTACCGAAAGATTTAAGTGGTACAGCAAGAATGTGTATGTTACTTATCGCGATTTATGGTGTAACGGTACTTTTAACATGGTTACAAACGTTTGTCATGATTAACGTTGCATTAAAAACAATTCAAAAAATACGACAAGATATTTTTGAGAAAATCCAAACGCTTTCTTTACGGTTCTTTGATGTACGTTCTCAAGGTGATTTAATGAGCCGTGTGACAAATGATATAGATAATTTGAACCAAGCTTTGACACAAAGTGTTGTACAAATTATTTCATCAGCGTTAACTTTTATAGGTGTAACGATTGCGATGTTCGCCTTAAATTGGATTTTAGCAATTGTAACTTTAATTACAGTACCTATTATGTTTTACGTTACAAAAAAACTAGTTGCATATAGTGGTAAAAACTTTGCGAAGCGTCAAAAAGATTTAGGTGAATTAAATGGATTTATTGAGGAAGCAATTACAGGTGCGGATGTTACAACGTTGTACGGAAAAGAAAAAGAAACTGTACAAAATTTCAATAAAATTAATGAACAGCTAAGAGTTTCAGCTACGAAGGCTGATACATTTTCAGCTTTTATTTTTCCAAGTATGAACTTTATTAATAACTTAGGTATGGGGCTTGTCATTGGGACTGGATCAGTTATGGTCTTAAACGGAATGACAACAATAGGTGTTATTGCGGCTTTTATTAATTATTCTCGTCAATTCTCAAGACCGTTAAGTCAATTTGCGACTTTAATGAATACAATTCAAGCAGCAGTTGCTGGTGGAGAACGTGTTTTTGAGATTATGGATGAGGTACCAGAAATTCAAAATAAAAAAGACGCATTTGTTGTACAAAATTTACAAGGGCATGTTGTACTTGAGAATGTTTCATTTGGCTACGCAGAAAATAAAACGATTTTAAAAGAAGTAAGTCTTAAAGCGCAGCCAGGAGAGACAATTGCTTTAGTTGGTCCGACTGGATCAGGGAAAACAACAATCATTAATTTGTTAACTCGTTTTTACGATATACAGCAAGGACAAATTCATATTGATGGAAAAGATATAAAAGATTATGATATTAATTCTTTACGAAGTAAAATAGGAGTAGTTTTACAGGATACGTATTTATTTGCAGGCTCGATTATGGATAATATCCGTTATGGACGCTTAGATGCTAGTGATGAAGAAGTCATCACTGCAGCTAAGGCAGCATCTGCACATTCTTTTATTAAGCATTTGCCAAATCAATATGAAACAGAAATTGCTTCAGAAGGATCGAATTTAAGTCAAGGACAAAAACAACTTCTTGCGATTGCACGAGCAATTTTAGCAGATGCAGATATATTAATTCTCGACGAAGCGACATCTAATATTGACACAAGAACAGAATTACAAATACAAGCAGGACTAAATAATTTAATGAGAGGTCGCACAAGTTTTGTGATCGCTCATCGACTTAAAACAATTGAAAAGGCAGATCAAATCCTTGTTATAAAAGATGGAAATATTTTAGAAAGAGGGAATCATGAATCTCTCATGGAAGATAAAGGATTCTATTTTGATTTGTATACGAGTCAGTTTAAAATATAG	MRNFQGQFANKGRRNTPKMGKAKNAQGTVMRIWNYMGYQKAALMFVIFLVVVTTLLGLLGPYFMGVIIDQYIVPKDLSGTARMCMLLIAIYGVTVLLTWLQTFVMINVALKTIQKIRQDIFEKIQTLSLRFFDVRSQGDLMSRVTNDIDNLNQALTQSVVQIISSALTFIGVTIAMFALNWILAIVTLITVPIMFYVTKKLVAYSGKNFAKRQKDLGELNGFIEEAITGADVTTLYGKEKETVQNFNKINEQLRVSATKADTFSAFIFPSMNFINNLGMGLVIGTGSVMVLNGMTTIGVIAAFINYSRQFSRPLSQFATLMNTIQAAVAGGERVFEIMDEVPEIQNKKDAFVVQNLQGHVVLENVSFGYAENKTILKEVSLKAQPGETIALVGPTGSGKTTIINLLTRFYDIQQGQIHIDGKDIKDYDINSLRSKIGVVLQDTYLFAGSIMDNIRYGRLDASDEEVITAAKAASAHSFIKHLPNQYETEIASEGSNLSQGQKQLLAIARAILADADILILDEATSNIDTRTELQIQAGLNNLMRGRTSFVIAHRLKTIEKADQILVIKDGNILERGNHESLMEDKGFYFDLYTSQFKI	PGPT0029030_1929	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
AK009_01077	504			hypothetical protein	ATGCGCTCATCAATTCGTAAATTCGCTAATTTTAATTGTGAAGCACAAGCACCTAGTACACTACCTGCCCTAGGTTTTGCCTTCAATGCTACTTCACCTCAATTTGCAACATTATTTACACCACTACTATTACCTAGTACAGGCCCAAATCCTAACATTACTGTCCCTGTAATCAATGATACAATTAGTACTGGAACTGGTATTAAAATTCAGATAGCTGGTATTTATCAAATTAGCTATACATTAACAATTAGCCTTGATAACGTTCCGGTAGCCCCGGAAGCAGCGCGCTTTTTCTTGACATTAAATTCATCGACTAATGTTATTGCAGGATCCGGAACCGCAGTCCGTTCTAATATTATCGGAACTGGTGAAGTCGATGTATCAAGTGGTGTCATTCTAATTAACTTAAACCCTGGTGATGTAATTCAAATTGTCCCCGTTGAAGTAATAGGTACAGTAGATATTCGTTCTGCAGCGTTAACAGTTGCGCAAATTCGTTAA	MRSSIRKFANFNCEAQAPSTLPALGFAFNATSPQFATLFTPLLLPSTGPNPNITVPVINDTISTGTGIKIQIAGIYQISYTLTISLDNVPVAPEAARFFLTLNSSTNVIAGSGTAVRSNIIGTGEVDVSSGVILINLNPGDVIQIVPVEVIGTVDIRSAALTVAQIR				NA	NA	NA	NA	NA
AK009_01078	285			hypothetical protein	ATGCCTATCGTTAAACCTTTTATAGCTGGAAGACGATTTGTAAGTACAGCAGCAACAGGAACTGCTGCTGGAGCAGATTTAACTTTTGCTAACACAGACTTCACTGATGACACTGGCGCTGTAACAACATTCCCTGCTTCTTATGCCTTTTTAACACTTTATATTAATGGTGTTATTCAAACAGGTGATACTATTACTGGTGTGACTACTACAGCTGCTACTATTATAGGAGGAGCAGTCCTAGATGGAGGCACTCCTATTGCAATTGAATTTACTATAACGTAA	MPIVKPFIAGRRFVSTAATGTAAGADLTFANTDFTDDTGAVTTFPASYAFLTLYINGVIQTGDTITGVTTTAATIIGGAVLDGGTPIAIEFTIT				NA	NA	NA	NA	NA
AK009_01079	273			hypothetical protein	ATGGCTGATAAGTATAAATTTTTAATTCTCATTGTTACCGCATTTTTTTCATTCTTTTCTTTAATAAAAGATTTCCGCAACACTTCAAAAAGTTTCTTTTGGGGTAGTTTTTTAATTCTTACAAGCTTCATGATACTATTAATACATGCTCTAGATTTAACTCAAATACTTATTTATCCAAAGCAAATTGCGCTTGAATTTATTACAATACCACGTAAATTATTTTTGCCATCTGTCACTGAGGCCGCCAGTTTCCCTACAACACTAAGATAA	MADKYKFLILIVTAFFSFFSLIKDFRNTSKSFFWGSFLILTSFMILLIHALDLTQILIYPKQIALEFITIPRKLFLPSVTEAASFPTTLR				NA	NA	NA	NA	NA
AK009_01080	585	eamB	COG1280	Cysteine/O-acetylserine efflux protein	ATGCCAATATTTTCTTTTTTGTTATTTGTTTTTATAAGCAGCTTCACACCTGGCCCTAACAATTTCTTAGCTATGACATACGCAAATCAACACGGATTAAAGAGAAGTATAAACTTTTGCTTTGGAGTAGCATTCGGTTTTTTCATCCTCACTTCTTTATGTAGTTTCTTTAATATTGTATTAATTAATATTGTACCTATAATTGAATTGCCTTTAAAGATTTTAGGTGTCGCGTATATGCTATATTTAGCCTTTAAAATAATCACTAGTAAAGGCAGTGCAGAACCCGATGAAAAAAATAATAAAAACTTATTTACAGTGGGTATTTTTCTTCAATTTGTTAATCCAAAAGGAATATTATTTGGACTCACCGTAGTCTCTACTTTTATACTCCCTTACTACAACTCATATTCAATTTTTCTACTTTTCTCATTATTCCTAGGTATAGTTGGTTTACTGAGTACATTTAGTTGGAGCCTTTTTGGTTCCATGTTCCAAAAAATTTTATTAAAACATAATCAATTATTTAACATCATTATGGCTGTTTTATTGATTTTCAGTGCTATTTCAATTGTTATTCACTAG	MPIFSFLLFVFISSFTPGPNNFLAMTYANQHGLKRSINFCFGVAFGFFILTSLCSFFNIVLINIVPIIELPLKILGVAYMLYLAFKIITSKGSAEPDEKNNKNLFTVGIFLQFVNPKGILFGLTVVSTFILPYYNSYSIFLLFSLFLGIVGLLSTFSWSLFGSMFQKILLKHNQLFNIIMAVLLIFSAISIVIH				NA	NA	NA	NA	NA
AK009_01081	558	sutR_1	COG1396	HTH-type transcriptional regulator SutR	ATGGAAGAAATTCAACTTATTCTGGCAAAAAATTTAAAATCAATACGTGAAAAAGAAAAATTAAGTTTAGAAAAGGTCTCTCAATTAACAGGTGTAAGTAAAACGATGATTGGACAAATTGAAAGAGGAGATTCAAGCCCGACACTAACAACAATATGGAAAATTGCTAATGGTTTGAAAGTATCCTTTACCTCTTTAATTAATAATCCACAGCCTGATACGAAAGTGATTTTACGAAATGATGTTCAAGCATTGTCTGAAGACAATGGGAGATATAAAGTGTATCCCTCATTTCCTTTCCAAGATGATAGAAACTTCGAAATCTATACGGTTGAAATTGAAACAGAAGGGAATTTAAGTTCAGAAGCACATAAAGAGGGTACTGAGGAATTTATAACGGTATTTGAAGGGGAATTGAAAATTGATATAAATGATTGTCAATATACGTTAAATAATGGAGACTCAATTCGCTTTAAGGCGGATAGACCGCATACTTATACTAATTCAGGAAGAACATTAACTCGGTTAAGTATGACTATTTATTATCCAGCTTTATAA	MEEIQLILAKNLKSIREKEKLSLEKVSQLTGVSKTMIGQIERGDSSPTLTTIWKIANGLKVSFTSLINNPQPDTKVILRNDVQALSEDNGRYKVYPSFPFQDDRNFEIYTVEIETEGNLSSEAHKEGTEEFITVFEGELKIDINDCQYTLNNGDSIRFKADRPHTYTNSGRTLTRLSMTIYYPAL				NA	NA	NA	NA	NA
AK009_01082	525			hypothetical protein	GTGATTTATATTCAAGATAATAATGAAATTAGAAAAAAAGAAATAATGTCAATGGCCCTTGACATTATTTTCCCTTACAGGCTTACTGGGCCTACCGGAAGTACTGGTTTAATCGTTACAACAAACTCTATGTTCGCTAATAATACATTAGGTGGTCCCATCTCTGTGATATTAGGTGGCACTAATATTCCTCTTTCTAATAACCAAAGCCTCGGTAATTTTACAGTTAACGCCTCAAACGATATATTTACAATTCCTGTAACTGGAAGATATCATTTAACCTATCAAGTTAATACGACAACCTCTCTACTTGCTGGAACAAGACTACTATTAAACGCTTCTACGCCAATTCCTGGCTCTATTTTTTCTCCCGCGTTATCAACTTCAAATTATAGTAATAATTTAATTACTAATTTAAATGCTGGTAATACAATTTCACTACAATTATTTGGTATATTATCCGTCGTGAATTTAGTTGGAGGCGGATCAACAGGTGCCTCTCTTACAATTATACGAATTGATTAA	MIYIQDNNEIRKKEIMSMALDIIFPYRLTGPTGSTGLIVTTNSMFANNTLGGPISVILGGTNIPLSNNQSLGNFTVNASNDIFTIPVTGRYHLTYQVNTTTSLLAGTRLLLNASTPIPGSIFSPALSTSNYSNNLITNLNAGNTISLQLFGILSVVNLVGGGSTGASLTIIRID				NA	NA	NA	NA	NA
AK009_01083	741			hypothetical protein	TTGAAACGCAATGACAATTTATCATTGAATAAGGGGATGATAGGGCCAGAAAATATTGGACCTACATTTCCGATTCTTCCACCAATTTATATTCCAACAGGAGAAACAGGTCCGACCGGAATAACGGGAGCAACCGGAGAAACGGGACCGACCGGAATAACGGGACCGACCGGAATAACGGGAGCAACCGGAGAAACGGGATCGACCGGAATAACGGGAGCAACCGGAGAAACGGGATCGACCGGAATAACGGGACCGATCGGAATAACGGGAGCAACCGGAGAAACGGGACCGATCGGAATAACGGGAGCAACCGGAGAAACGGGACCGACCGGAATAACAGGTTCAACGGGAATAACGGGACTGACCGGAGTAACCGGGCTAACCGGAGAAACGGGACCAATCGGAATAACGGGACCAACTGGAATAACAGGACCAACGGGAGTAACTGGAGCAACAGGTCCTACTGGGGGTATTGGCCCTATAACAACAACCAATTTGTTATATTACACTTTTGCAGATGGAGAGAAACTTATATATACAGATACTGACGGGATACCTCAATATGGTACAACAAATATTTTGTCTCCTAGTGAAGTTTCTTATATTAATTTGTTTGTTAACGGAATACTGCAGCCACAACCATTATATGAAGTGAGTACTGGTAAATTAACTTTATTGGATACGCAACCACCATCGCAAGGATCTTCAATTATATTACAATTTATCATTATTAATTAA	MKRNDNLSLNKGMIGPENIGPTFPILPPIYIPTGETGPTGITGATGETGPTGITGPTGITGATGETGSTGITGATGETGSTGITGPIGITGATGETGPIGITGATGETGPTGITGSTGITGLTGVTGLTGETGPIGITGPTGITGPTGVTGATGPTGGIGPITTTNLLYYTFADGEKLIYTDTDGIPQYGTTNILSPSEVSYINLFVNGILQPQPLYEVSTGKLTLLDTQPPSQGSSIILQFIIIN				NA	NA	NA	NA	NA
AK009_01084	1317			hypothetical protein	ATGACAAGTAATAATTGTTTTGGTCATAACAACTGCAATAATCCGATTGTTTTCACTCCAGATTGTTGTAAAAATCCACAGTCAGTTCCTATTACTAGGGAACAATTAAGTCAATTAATTACTTTACTAAACTCATTAGTATCAGCTATTTCAGCATTTTTTGCAAATCCAAGTGATGCAAACAGAGTAGCGTTATTCAATTTGTTTAATCAATTTTTAATTTTCTTAAATTCCTTATTACCTTCCCCAGAAGTTAATTTTTTGAAACAATTAACTCAAAGTATTTTAGTTTTATTACAATCTCCAGCTCCTAATTTAGGTCAATTGTCAACATTATTGCAACAATTTTATAGCGCACTTGCACAATTCTTCTTCGCTTTAGATCTTATCCCTGTATCCTGCGACTCAAATGTCGATCCTGCAACTTTACAAGTTCTTTTTAATTTATTAATTCAATTAATCAATGCTACTCCAGGTGCAACAGGTCCAACAGGCCCAACAGGTCCAACAGGTCCTGGAGGTGGAGTAACAGGTCCAACAGGCCCAACAGGTCCTGGAGGTGGAGCAACAGGTCCAACGGGAGCAACAGGAGCAACAGGAGCAACAGGCTTAACAGGAGCAACAGGAGCAACAGGTCCAACAGGCCCAACAGGTCCAACAGGTCCAACAGGAGCAACAGGCTTAACAGGAGCAACAGGCTTAACAGGAGCAACAGGTCCAACAGGCTTAACAGGAGCAACAGGTCCAACAGGTCCAACAGGAGCAACAGGAGCAACAGGCCCAACAGGAGCAACAGGTTTAACAGGAGCAACAGGTGCAACTGGTGGCGGAGCTATTATTCCATTTGCTTCAGGTACAACTCCATCTGCGTTAGTTAACGCGTTAATAGCTAATACAGGAACTCTTCTTGGATTTGGATTTAGTCAGCCTGGTGTAGCTTTAACTGGTGGAACAAGTATCACATTAGCATTAGGTGTAGGTGATTATGCATTTGTAGCACCGCGCGCAGGAACTATTACGTCATTAGCAGGTTTCTTTAGTGCAACAGCTGCATTAGCTCCACTATCACCAGTTCAAGTGCAGATACAAATATTAACTGCACCTGCAGCAAGCAATACGTTTACAGTACAAGGCGCACCTCTATTATTAACACCAGCATTTGCCGCAATAGCGATTGGTTCTACAGCATCAGGAATCATAGCTGAAGCTATTCCAGTAGCGGCTGGGGATAAAATACTGTTATATGTTTCATTAACAGCAGCAAGTCCAATAGCTGCAGTTGCTGGATTTGTAAGTGCAGGTATTAATATCGTTTAA	MTSNNCFGHNNCNNPIVFTPDCCKNPQSVPITREQLSQLITLLNSLVSAISAFFANPSDANRVALFNLFNQFLIFLNSLLPSPEVNFLKQLTQSILVLLQSPAPNLGQLSTLLQQFYSALAQFFFALDLIPVSCDSNVDPATLQVLFNLLIQLINATPGATGPTGPTGPTGPGGGVTGPTGPTGPGGGATGPTGATGATGATGLTGATGATGPTGPTGPTGPTGATGLTGATGLTGATGPTGLTGATGPTGPTGATGATGPTGATGLTGATGATGGGAIIPFASGTTPSALVNALIANTGTLLGFGFSQPGVALTGGTSITLALGVGDYAFVAPRAGTITSLAGFFSATAALAPLSPVQVQIQILTAPAASNTFTVQGAPLLLTPAFAAIAIGSTASGIIAEAIPVAAGDKILLYVSLTAASPIAAVAGFVSAGINIV				NA	NA	NA	NA	NA
AK009_01085	633			hypothetical protein	TTGACTGCCAACATCGACTATACCTCCCCCTCAACTAATTTTACTTATGATGTAAATAAAAGTAATTTTTTTCAGAAAGATGCCCAAAATTATATAAATGTACTTGGCATTAAACAATTAAATACTTTAGAAAATACTTCTTTATTAGATATTTATTTAAGTACAGGAAATGTTGTAGAACCACATATTCATCAAAATGCAGCTGAACTTGTTTATTGTATTTCAGGGTCTGCTGTTGTTTCTTTACTTAATCCATTTACGAATCAAATATTAAACTTATCGATAAAACCGGGGCAAGTTGCCAACATTCCACAAGCGTGGTGGCATTATGAAATTGCTACAGCAGATAATACTCATTTATTAGCTATTTTCAATGCCCCAGCGCCAGAAGTTATTTTCGGTTCTGACATTTTAAGATTAACTCCGGCTCATATGATGGCCCATACTTACTGCCTCAATGAACAACAATGGAAACAAGCGATTTCTCCTATTCAATCAACTACTGTAATTGGTCCTCCGGCAAACTGCAATCAAAACCGTGAAATGAAAAATTATCCAATCCACCCCCTTACTCAACAGCCTAATCCCTATCGCCAAGATTCTTATTACTTTCCTCTGTACTGGGGTTATTAA	MTANIDYTSPSTNFTYDVNKSNFFQKDAQNYINVLGIKQLNTLENTSLLDIYLSTGNVVEPHIHQNAAELVYCISGSAVVSLLNPFTNQILNLSIKPGQVANIPQAWWHYEIATADNTHLLAIFNAPAPEVIFGSDILRLTPAHMMAHTYCLNEQQWKQAISPIQSTTVIGPPANCNQNREMKNYPIHPLTQQPNPYRQDSYYFPLYWGY				NA	NA	NA	NA	NA
AK009_01086	306			hypothetical protein	ATGTCATTTAGTGAAATGATTAGAAATGAAGTACTCAGCTGGGCGGGTGTTTCTGAAAAAACGCATCGATTTGGTGGTATTGAAATAAATTATGGCAAGAAAGAACTTGGCCATCTTCATGGTGATAAATTAGCTGATTTACCATTTCCGAAGTTAAAGCGAGATGAATTAGTGAAGCAGGGATTGGTAAAACCACATCACGTATTACCTGAATCAGGATGGATCAGTTATTATATAAAGAGTGAAGAGGATATTCCATTTGCAATTGAGTTATTTCGTATGCAATATGACCGAATTAAAAAGTAA	MSFSEMIRNEVLSWAGVSEKTHRFGGIEINYGKKELGHLHGDKLADLPFPKLKRDELVKQGLVKPHHVLPESGWISYYIKSEEDIPFAIELFRMQYDRIKK				NA	NA	NA	NA	NA
AK009_01087	1311			Renalase	ATGAATACATTTGATATAGCAATTGTTGGCGGTGGGCTTGCTGGATTAACAGCATCTATATATTTAGCGAAAGCTGGAAGGAAAGTGATTGTATTAGAAAAGTCGAGTCAATTCGGTGGCCGAGGGATGACTATAAATAAAAATGGAATCTGCATGAATCTTGGTGCACATGCTTTATATAGAGGCGGGGCAGCGTTTATAACTTTTAATGAGCTCGGTATGAATCTTCCAGGTGGAATACCATCTACAAAAGCACATGGAATATGGAAAGGGGATATATTCACCATCCCAACAGATTTTCGCTCAATTTTATCAACACCACTACTTTCGTGGTCTGCAAAAGTACAATTCTCACGTCTTATGATTCGTTTAGGAAATTTAGATGTAGGAGAAATTCCAAAAATGAGTCTAACTACATGGGCAGAAAATGAAATAAAAGATCCAATGGTTCGCAATATCTTTTATGCGCTATGCCGGACGACAACATATACGTTTGCTCCTACAATACAATTAGCATCATCTGTACTAAAGCAAATACAGCTTTCTATAAAAGAAGGAGTGCTTTATGTAGATGGTGGTTGGGAAACGATAATAACAAAATTAAGAGCTATAGCGAACGATGCCGGCGTGCAATTTTTGGCTAAAAAGCATGTTTTGGAAATAGAGCATTACGAAGATAAACAAAGAATACATTGTGTTGATGATGAGGTTTTTGAAGTAGGTACAGTCATCGTGACGACTCCGCCGAAAGAAGCTTGTAAAATAATAAAAGGTGCAGAAGGAACAAGTTTGCATAGGTGGAGTGAACAATCGGTACCGGTTACTGTTGCTGCATTAGATATTGGCTTGAGACAATTACCCAATCCTACACATCAATTTGTATTAGGATTAGATCAACCTATATTTTTCACAAATCAATCGAGAGCAGCTAAATTAAGTGAAGATGGATCAATTGCAGTGAGTCTAATTAAGTACCATAATCCTGTGCTAGCGATGAATCATATTCATGAAGATAAAGAACAGTTGGAAAGTACGATGGAGTTGTTACATCCAAATTGGAAAAGAGAAGTTGTTGCACAGCAATATTTACCGAAAATAACAGTAGTACATGATTTTCCTCATATTGACCGTGTTGAAAAACCGGGCCCAAATATACCTGAAATGCCAGGTATTTATGTTGCAGGAGATTGGGCAGGGCATGATGAAATATTAGCTGATGCTGCGGTAGCAAGCGGGAAACGTGCAGCGTTACACATTTTAAAGCAATATGAAAGTGAGGTAGTTCATCATGGAAACGGAGCAGTTATATGA	MNTFDIAIVGGGLAGLTASIYLAKAGRKVIVLEKSSQFGGRGMTINKNGICMNLGAHALYRGGAAFITFNELGMNLPGGIPSTKAHGIWKGDIFTIPTDFRSILSTPLLSWSAKVQFSRLMIRLGNLDVGEIPKMSLTTWAENEIKDPMVRNIFYALCRTTTYTFAPTIQLASSVLKQIQLSIKEGVLYVDGGWETIITKLRAIANDAGVQFLAKKHVLEIEHYEDKQRIHCVDDEVFEVGTVIVTTPPKEACKIIKGAEGTSLHRWSEQSVPVTVAALDIGLRQLPNPTHQFVLGLDQPIFFTNQSRAAKLSEDGSIAVSLIKYHNPVLAMNHIHEDKEQLESTMELLHPNWKREVVAQQYLPKITVVHDFPHIDRVEKPGPNIPEMPGIYVAGDWAGHDEILADAAVASGKRAALHILKQYESEVVHHGNGAVI				NA	NA	NA	NA	NA
AK009_01088	870	sigJ		ECF RNA polymerase sigma factor SigJ	ATGGAAACGGAGCAGTTATATGAAGCGTATCAACCATTATTATTTTCGTTAGCATACAGAATTCTTGGGAGCGTTATGGATGCTGAGGATATCGTTCAGGATGTATTTATCTCGCTAAATAATATAGAAGATCCTCAATCTATAGAAAATATGAAAGCATATTTATGTAAGATGGCGACAAATCGTTCAATTGATAAATTACGATCGGTAGCGCATAAACGTAACGTGTATGTAGGGATGTGGTTACCAGAGCCACTTGTAGAAGAGAGTGATGAGCCATCAAAGTCATTTATAATGAAAGAATCCCTTTCCACCGCATATTTATTACTTTTACAACAACTATCTGAGGTAGAAAGGATTGTTTTCATATTAAGAGAGGTTTTCAGTTATGAATACGAAGAAATAGCTTCAATTGTTGATAAGAGTAGTGTGAACTGCAGGAAGATCTTTCAACGTGCACGAAAAAGCATTTTGGAGAAACCGAAGCAATCAAAATTAAGCACGGAGAAAATGGCTTCTTATGTTGAAAAGTTTGTATCATCATTACAGTGTGGGGATGAGGAAGGTATGTTAGAAGTATTAAAAACAGATGCTATACTCAAAGCTGATGGTGGTGGTAAAGTTACGACTGCGATTAATCCGATTTATTCTGCGGATCGAATTATGCGCTTGTTCTTTGGGATTGCACAACGATTGACAGAAGAGTACACTGTTGATTTCAAAATGGTAAATGGTATGCCAGGAGTTATAGTTACAATAAATAATAAAGTAACGTATGTTCTTTCGTTTGCATTTGAGGATGAGAAAATTTCAAATATTTATATGATGGTTAATCCTGAAAAACTTATGCATTTAAATGTAAAAATATAA	METEQLYEAYQPLLFSLAYRILGSVMDAEDIVQDVFISLNNIEDPQSIENMKAYLCKMATNRSIDKLRSVAHKRNVYVGMWLPEPLVEESDEPSKSFIMKESLSTAYLLLLQQLSEVERIVFILREVFSYEYEEIASIVDKSSVNCRKIFQRARKSILEKPKQSKLSTEKMASYVEKFVSSLQCGDEEGMLEVLKTDAILKADGGGKVTTAINPIYSADRIMRLFFGIAQRLTEEYTVDFKMVNGMPGVIVTINNKVTYVLSFAFEDEKISNIYMMVNPEKLMHLNVKI	PGPT0014960_1920	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_01089	159			hypothetical protein	ATGAACGTGATTAGCTTAGATGCTGCTCGAAAACGAAAGCAGCATAAAAAATTAATGATTACTATACCGATTATTACACGTATTTATGAAGAAGACGGGGAAATTAAATTTGAGGTAGCTGGCGAAAAAGATGTACCTCTTGAAATGTTAGAAAAATAA	MNVISLDAARKRKQHKKLMITIPIITRIYEEDGEIKFEVAGEKDVPLEMLEK				NA	NA	NA	NA	NA
AK009_01090	594	trmR_1		tRNA 5-hydroxyuridine methyltransferase	ATGAAAAGAATGGATACAGTAGATTCATTATTATTGCAACTTGAACAATATGGAGAAGAGCATGATCGAAATAAAAAAACAAGGGAAGAAAAATTACGGAATGTTTCTCGTGAGATGGGGCAATTTTTATCAATTTTAGTAAAAGGGTGTAATGCAAAAAACATCTTAGAAATTGGAACTTCTAATGGTTATTCTACATTGTGGTTAGCTAATGCGGTAGAAGAAACGAATGGAAATGTAACGACTGTAGAGCTTTCTTCAGAACGAGTTGGAGAGGCACTTGTCAATTTTGAAAAGGCAAACCTGTTACAAAGAATCGATATTCATAATCAAGAAGCCGGGGCATTTTTAGATTCGCAATTAAATCATTCATTTGATTTTATTTTCCTAGATTCAGAGCGTACGCAATACATGTGGTGGTTTGAGCATATAAAACGTATGTTACAACCAAAAGGTTTTCTTGTTGTTGATAATGCAACTTCTCATGCGAGTGAATTAGGTGAGTTTATAAAAATGATTGAAGAAGATGATACGTTTGAAACGGTGTTATTAGCGTTTCAAAAGGGAGCATTTGTAGCTCGCAAAAATAAATAA	MKRMDTVDSLLLQLEQYGEEHDRNKKTREEKLRNVSREMGQFLSILVKGCNAKNILEIGTSNGYSTLWLANAVEETNGNVTTVELSSERVGEALVNFEKANLLQRIDIHNQEAGAFLDSQLNHSFDFIFLDSERTQYMWWFEHIKRMLQPKGFLVVDNATSHASELGEFIKMIEEDDTFETVLLAFQKGAFVARKNK				NA	NA	NA	NA	NA
AK009_01091	1164			hypothetical protein	ATGAAATATAGTGCATATGAATTCGCACATATAAATAAAGGAGCGATTTTGTTGACTGAACTCGAGAAAAAAGAACCTGTATCCATTGTGAAAGATAATAATGTAGAAGTAGTAGTTGATACAGTTATAAAAGATGCAGAATTAGAGGAACTAAATAAAGAAGCTGATCTTTATGTACAAAAGTTAAATAGCGAGCAAAATACAGATTTATCAAAAGTATTGTCTCAGCTAGGAGATTTAGGGGATAAAGAGCAACAAGCAGCAGGACAAACGTTATCAGCTTTAAAACGCCCTGTAACAGCGATGATGAATGGGAAAAATGAAGAAATTCCAAATACATTGTTAGAATTACGAAAAGTGGTATCAGAGCTTGATCCCAATTCACTTAAAGCAAGTGGTATGAAGAAAATAATGTTTAAAGTATTCAAGAAAAATCCACTTGAAACATACGTGCATAAATACCAATCTATAGATAAACAAATCGAGGAAATTATTAGATCCCTCCTAATTGGTCGTGATAACCTACAAGAGGATACAGTTGGTCTTGAAATGTTAAAAGAACAATCGCACGATAAAATTCATGCTCTTGATAAACAAGTATACTTAGGGAAAAAGCTTGCTGGCATGCTTGAAGCTGAAAAACAAAACCCAGAGCGTCAAAGGGATATTCCGTTAATTAACGATGCATTAGAAAAGATACTTGTACGTACACGTAATATGCAGCAAGCGAAAAGTGTATTATTACAATCTATAGCTTCTGTAGACATCATTAAGAAAAACAATGAAAAATTAACAGAGGCAATACGTAATGCGATTACGATGACGCAAAACGTTGTAACAGTTTCAGCTGCTATTCAGCTAGCATTAACGAATCAACGTAAAACAATTGATGCCGTAAATGCGACGAATGAAGCAATTGAATCGATGGTGTTAAGTAATTCTCAAGCGTTAAAACAAAATACAGAAGAAACGACGAAATTGCTTGAGAATCCTGCTATTAGCATGGATAAATTACGCGAATCATTCCAAAATGTGTTCGCTGCAATTGAGGCATCTGAAAAATCGTCAGAACGTATTATTGAGTCAAGTAAGAAGTTTGTTATTGAACTAGACACATTTAATGATGAGATGAAGCAGAAACTCATTCAGCGTCCAAGGAAATAA	MKYSAYEFAHINKGAILLTELEKKEPVSIVKDNNVEVVVDTVIKDAELEELNKEADLYVQKLNSEQNTDLSKVLSQLGDLGDKEQQAAGQTLSALKRPVTAMMNGKNEEIPNTLLELRKVVSELDPNSLKASGMKKIMFKVFKKNPLETYVHKYQSIDKQIEEIIRSLLIGRDNLQEDTVGLEMLKEQSHDKIHALDKQVYLGKKLAGMLEAEKQNPERQRDIPLINDALEKILVRTRNMQQAKSVLLQSIASVDIIKKNNEKLTEAIRNAITMTQNVVTVSAAIQLALTNQRKTIDAVNATNEAIESMVLSNSQALKQNTEETTKLLENPAISMDKLRESFQNVFAAIEASEKSSERIIESSKKFVIELDTFNDEMKQKLIQRPRK				NA	NA	NA	NA	NA
AK009_01092	834			hypothetical protein	ATGAGTTTCATTCAAACAGTACTATTACTACTCGGTACATTGCTTTTAATAGCATTTACTGTCGTTGTTTTAGTCGTATATTTCGGACGGAAACTGTATTTTTCATGGACGAAGCCATATAAAAAAGCGCAAGATTCTTTAGATAAGTTATCAAACAAATCAATACCGTTTCTACAAGAATTTACACAACACCCACTGTTTTATCGCTGGATTCGCACCGAAGGAAAGAAAGAACAAAATATACTAAATACTCTATTCTGTGCATCAGGTCAACGTACGAGAGAACAAGTCTTCTCGATGTTACCGAAAGAAAAGCAGAAAAAAGTGCATGTAATGGCAAAAACTACGAAAAAGCTTACAAGTGAAGATATCGATGTGGCTGCGATGAAAGTGAAAGATTTCTTAAGACAAGAAACGCAGCAAACTGTAAAACCGACAGACTTATCATTTTATAAATTGTATTTTTATGACCGTTATCCAGACGCATTAAATACAATTCAAGCGTATAAACGCTCAATAAATCCTTCATTACAAAGAACGGTTGATGATATTACAATTTCAGTATTAAATGCACTTCCGTACTATCAAGAGCAACGCATGTTTGAACAACAACATAAACTTGAAACGTTCTTAATGAAAGATTTAACGGCCATGTTATCGTTGGTAGTACAATTACCACCTTCACAAAGACCAGAGAAGGAAGAAGAATTGAAAATCTACTTGGAAAATTTCAAAAAAGAAATGGAAGTAGTAGAGCGAGATATTCGCGACTCAATTGATCATGATTTAAATGTGAAGATGAGAGCAGCGACTGAGAAGTTTAAGAATAAATAA	MSFIQTVLLLLGTLLLIAFTVVVLVVYFGRKLYFSWTKPYKKAQDSLDKLSNKSIPFLQEFTQHPLFYRWIRTEGKKEQNILNTLFCASGQRTREQVFSMLPKEKQKKVHVMAKTTKKLTSEDIDVAAMKVKDFLRQETQQTVKPTDLSFYKLYFYDRYPDALNTIQAYKRSINPSLQRTVDDITISVLNALPYYQEQRMFEQQHKLETFLMKDLTAMLSLVVQLPPSQRPEKEEELKIYLENFKKEMEVVERDIRDSIDHDLNVKMRAATEKFKNK				NA	NA	NA	NA	NA
AK009_01093	1560			hypothetical protein	ATGATCGTTAAACGTTTATTAATGATATGTTGTATCGTCATCTTGTTCATCCCTTTCTCTTTCATTTCCCCTCACTCTACTTATGCTGAAGTAAATACTACGTACAAAAAACATGAATTACGTGCTGTATGGATCGCATCAGTTCTGAATATTGATTGGCCCACAAAAACTGGCTTACCTATTGAAAAGCAGAAACAAGAATTTATAAGATTATTAGACGATGTAAAAAGCACTGGTATGAATGCAGTTGTTGTACAAATTAAACCAACAGCTGATGCTTTCTATCCCTCAAATTACGGCCCTTGGTCTGAATACATTACGGGTACACAAGGAAAAGACCCCGGATACGATCCACTTGCATTTATGATTGAAGAAGCACACAAAAGAAATATAGAATTCCACGCATGGATTAATCCATACCGAATAACGATGAATCACACTGATATAAATCGATTATCAAATAATCACCCTGCAGGGCAACACCCCAATTGGGTTGTACCTTATGGCGGAAAGTTATATTACAATCCCGGTATTCCAGAAGTGAAAAAATTTATAACAGAAGGTGCTTTAGAAATCGTACAAAATTACGATATTGATGCGCTGCATATGGATGATTATTTTTACCCATATAAAGTAGCCGGTGAAGAATTTCCAGATCAGAAAACATACGAAACATATAATAACGGTAAATTTACAAATATAGAAGATTGGCGACGTAACAATGTAAATGAACTTGTAAAAGATTTAAATACTGCTATAAAACAAGAAAAATCATACGTAAAGTTTGGCATTAGTCCGTTCGGTGTATGGCGAAATATAGCTGACGATCCGACTGGCTCTAACACAACCGCAGGCCAAAGAAACTATGATGACCTTTATGCTGACACACGTGAGTGGATACAAAAAGGATATATTGACTACATTACACCGCAAATATATTGGAATATAGGTTTCACCCCAGCTGCATATGACATATTAGTAGATTGGTGGGTTAAAGAAACAAATAACAAACCGATTCACCTATACATCGGTCAAGCGGCCTATAAAATTAATAATAACTCCGTCTCTGCTTGGTCTGATCCAGAAGAATATCCAAGACAAATTACATTAAACCGGCTATATCCTGAAATAAAAGGTAGTATGCATTTTAGCTTAAAAGATATTAATAACAATCCACTTGGAGTTAAAGATAGACTCTCAAAAGACATATATATACATCCTGCATTAATCCCGCCTATGCCTTGGATTGATCATGATGCACCAAAACAACCGACATTAAAAGGTGCCATTCCAAGAAATGAAGGTATTGCAATCGGTATCATTGATAATAGAGATAATGATTCTGCTTATTACGCTATTTACCGCGCGAATGGGCAAAATGAAGTGGATATACAAAATCCTAAAAATTTACTTACTACTGTAAGAAAAACAAAACTTGGAGAAATTTATGTAGATAAAACCGTTATTTCTGGAGAAATGTATACGTATGTCGTAACTGCAGTTGATCGATTGCATAATGAAAGTGTGGCTTCTAGTCATACTACCGTTAGAGCAAAATAA	MIVKRLLMICCIVILFIPFSFISPHSTYAEVNTTYKKHELRAVWIASVLNIDWPTKTGLPIEKQKQEFIRLLDDVKSTGMNAVVVQIKPTADAFYPSNYGPWSEYITGTQGKDPGYDPLAFMIEEAHKRNIEFHAWINPYRITMNHTDINRLSNNHPAGQHPNWVVPYGGKLYYNPGIPEVKKFITEGALEIVQNYDIDALHMDDYFYPYKVAGEEFPDQKTYETYNNGKFTNIEDWRRNNVNELVKDLNTAIKQEKSYVKFGISPFGVWRNIADDPTGSNTTAGQRNYDDLYADTREWIQKGYIDYITPQIYWNIGFTPAAYDILVDWWVKETNNKPIHLYIGQAAYKINNNSVSAWSDPEEYPRQITLNRLYPEIKGSMHFSLKDINNNPLGVKDRLSKDIYIHPALIPPMPWIDHDAPKQPTLKGAIPRNEGIAIGIIDNRDNDSAYYAIYRANGQNEVDIQNPKNLLTTVRKTKLGEIYVDKTVISGEMYTYVVTAVDRLHNESVASSHTTVRAK				NA	NA	NA	NA	NA
AK009_01094	306	celA_1		PTS system cellobiose-specific EIIB component	ATGAAGGTTTTGTTTGTCTGTTCTGGAGGAATGTCCAGTGCAATTGTTGTAAACGCTTTAAAAAAAGAAGCGGAGAAAAATGGTTTGAACATGGAAGTGCATGCAATTGGAACGAATGAGGTAGAGGAAGAAGTAAAGAATGGCTGGGATGTCGTAATGGTGGCACCTCAAATAAGACACCGATTTGACTCTGTAAAAAAATTTGCAGAGGAGGAATCTATTCCGTGTGGCATCATTCCACCGCAAGCATACACGCCGCTTGGAGGCCCGACTTTATTAAAAACTGTAAATGAATTAATCAGTTAG	MKVLFVCSGGMSSAIVVNALKKEAEKNGLNMEVHAIGTNEVEEEVKNGWDVVMVAPQIRHRFDSVKKFAEEESIPCGIIPPQAYTPLGGPTLLKTVNELIS	PGPT0016975_1477	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
AK009_01095	1284	licC_1	COG1455	Lichenan permease IIC component	ATGAATAAGTTTGTCACGTTTCTTGATAAAAACTTATCTGGCCCGATGGCAAGGCTTTCTGAGCAGAGGCATCTACAAGCAATCCGTGATGGAGTTATTTCGGCGTTACCATTTATTATAGTAGGAAGCTTCTTTTTAATAGTAGCATTTCCACCACTGCCGAAAGATAGTTTCATATCGGTTTGGGCATTAAAGAATCAAACAAGTATATTAATACCATATCGTTTAACTATGTTTATTATGTCCTTATATATAGCATTTGGAATAGGATATAATTTAGCGAAAAGTTATAAATTAGATGCTTTATCAGGAGCACAGCTTGCGGTATGTTCACTACTTTTAACATTAACGCCTGAGTTAATTGATAAAAAAGGATTTATGCTTCCAATGACAAACCTCGGAGGTCATGGATTATTTGTGACGATGATTGTCTCTATTTTATCAGTTGAGATTTTAAGATTTTGTAAGAAGAATAACGTAACGATAAAAATGCCAGAACAAGTACCACCGTCAGTATCACGTTCATTTGAAGCACTTATACCTGCAGCATTCGTTATTATTATTATGAGTCTTATTACAGTCGTTTTTAAAGTTGATTTACATTACGTTGTAGATAAACTAGCCGCACCGTTAGTAAAAGCTGGTGATAGTTACTTTGACGTTATTATACCTGTATTTTTAATTACGTTTTTCTGGTCTTTCGGGATACACGGAGTATCAGTTGTAGGTACTGTGGCAAGGCCGCTTTGGGATGTGTATTTAGGAAAGAACGGTGAAGCTGTAGCAAGTGGAGCGAGTCATTTTCCGTTTATTGCACCAGAACCGTTTTATCAATGGTTTATTTGGATTGGTGGTTCGGGCGCAACGTTAGGGCTTGTGTTAGCTATGATCGTATTTGGTCGATCAAAATATTCGAAAGCATTATCGAGAACGTGTATTGTTCCGGGGATTTTTAATATAAATGAACCGGTTATATTCGGTTTGCCGATTGTATTAAATCCAATTTTAATTATTCCTTTCGTCATTACACCGTTAGTAACAGCTACTATAGCTTATGCTGCAACAGCGATGGGATTTGTAACACCAACGCATATTATGCCGCCATGGACATTACCTGCTCCAATTGGTGCTTATTTAGCAACAGGTGGAGATTGGCGTGCGATTGTATTAGTTTTTATAAATATAACAATATCGTTCCTTATTTATTTACCATTCTTTAAAATGTACGACAAAAATATGCTTGAAATTGAAAAGAATGGTGACGGGGAATCTGTTAATCCTTAA	MNKFVTFLDKNLSGPMARLSEQRHLQAIRDGVISALPFIIVGSFFLIVAFPPLPKDSFISVWALKNQTSILIPYRLTMFIMSLYIAFGIGYNLAKSYKLDALSGAQLAVCSLLLTLTPELIDKKGFMLPMTNLGGHGLFVTMIVSILSVEILRFCKKNNVTIKMPEQVPPSVSRSFEALIPAAFVIIIMSLITVVFKVDLHYVVDKLAAPLVKAGDSYFDVIIPVFLITFFWSFGIHGVSVVGTVARPLWDVYLGKNGEAVASGASHFPFIAPEPFYQWFIWIGGSGATLGLVLAMIVFGRSKYSKALSRTCIVPGIFNINEPVIFGLPIVLNPILIIPFVITPLVTATIAYAATAMGFVTPTHIMPPWTLPAPIGAYLATGGDWRAIVLVFINITISFLIYLPFFKMYDKNMLEIEKNGDGESVNP	PGPT0016970_2595	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
AK009_01096	270			hypothetical protein	ATGAATATAAAATTTAGTTATAAAGGCGTATTTTTATTATTATTTGGAGTGATTTGTGCAAATTTACTTTTTGTCCCTTTATTAGGCATGCTAAATCTATCACAAATGCATAGTATCTGGCTCGTTACAAGTATTGCGGCAAGCGTTTTGCTTACGGTAGTTGTTTCTTTCATTGATGGATCGTTTGCATCGAAAGCTCAGTTGTTTTTTAGATTTATATTGTTTTCGATTGGTTGTACGTTCGTTACTTACATGATTGTTTTTTTGTAA	MNIKFSYKGVFLLLFGVICANLLFVPLLGMLNLSQMHSIWLVTSIAASVLLTVVVSFIDGSFASKAQLFFRFILFSIGCTFVTYMIVFL				NA	NA	NA	NA	NA
AK009_01097	1149	anmK	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGTATATTGCAGGGGTAATGTCTGGTACTTCATTAGATGGAATAGATGTAGCGCTCGTTCATATAGAAGGAAGTGGTGTAGATTCTAAAATCGAACTCATCCATTTTACTACTGTTCCATTTTGTAATGATATGAAAAATGAGATCCAACAAGCGTTATCAATTGAAACTTCGAATGTCCAACTTATATGTAGTTTAAATTTTAAACTTGGTTTATGCTTCGCCAATGCTGTAAAGGAAGTTTGTAAAGAGGCCAATTTTCCTTTGAGACAATTAGATTTAATAGGCTCTCACGGACAAACGATTTATCATCAGCCAAAGCAAGAAGGAAATATTATTTCTTCAACATTGCAAATTGGGGAACCAGCAGTAATAGCATATGAAACGAACACGACAGTTATCTCGAATTTCCGAACGATGGACATGGCGGCAGGGGGACAAGGTGCACCACTTGTACCATATTCAGAGATTATTTTATATCGGCATCAAACTAAAAATAGACTACTACAAAATATTGGCGGGATTGGTAATGTTACAGTGGTTCCAAGTAAACGAAGTAATGAGAGTGTTATTGCTTTTGATACTGGACCAGGGAATATGATAATTGATGAAGTATGTCAAAGGTTATTTCAGTTGTCATATGATCAAAATGGTAAGATTGCAAAACAGGGAGTAGTTGTAGATGAAATTTTGACTTATTGTATGAACCATCCATTTTTGAACGTGAAACCACCAAAATCAACAGGTAGAGAACAGTTTGGAGAAGCGTTTGTGACTGAATTATTGAATCGATTTGAAAAGCATAGTAGAGAAAATATATTGGCAACTGTCACAATGTTTACAGCAAGTTCAATTGTTCATCATTATCAGGAATTTATTTTTCCGTATTATGAAATCGATGAAGTAATTTTAGGCGGGGGCGGAAGTTATAATCGTACACTTGTTGAAATGATACGATTTGGATTAAAGGAAGAAAAATGCAAAATATTTACTCAAGAAGATTTAGGCTATTCCTCAGCGGCGAAAGAAGCAATCGCCTTTGCGATTTTAGCAAACGAAACGTATCATCGTAATCCGAGTAATGTGCCGAGCGCAACAGGTGCAAAGCAATCTGTAGTTTTAGGGAATATAACATTCCCTCCAATTTGA	MYIAGVMSGTSLDGIDVALVHIEGSGVDSKIELIHFTTVPFCNDMKNEIQQALSIETSNVQLICSLNFKLGLCFANAVKEVCKEANFPLRQLDLIGSHGQTIYHQPKQEGNIISSTLQIGEPAVIAYETNTTVISNFRTMDMAAGGQGAPLVPYSEIILYRHQTKNRLLQNIGGIGNVTVVPSKRSNESVIAFDTGPGNMIIDEVCQRLFQLSYDQNGKIAKQGVVVDEILTYCMNHPFLNVKPPKSTGREQFGEAFVTELLNRFEKHSRENILATVTMFTASSIVHHYQEFIFPYYEIDEVILGGGGSYNRTLVEMIRFGLKEEKCKIFTQEDLGYSSAAKEAIAFAILANETYHRNPSNVPSATGAKQSVVLGNITFPPI				NA	NA	NA	NA	NA
AK009_01098	894	murK	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	ATGAAGTATATGATTGGAGTAGATGGCGGGGGAACGAAGACAGAAGCAATTGCATTTGATAAAGACGGTAACGAATTTGCAAGAGCTACAAGTGGATTTGGAAATATATTAATAGATTTTGAAGAAGCTCTTGTGCATATTATGGAAGTGATTGATCAATGCCAGAAAGGGTTATTAAAGGGGGATTGCGTTTGTATTTGTTTAGGATTAGCGGGTGTAAGTGGAGCAAATACAAATGAATTAACATTACGTCTAAAAAAGAAGTATGGAACACCAATTGAAGTATTCAATGACGCAATGATCGCACATGCAGCTACTTTAAAAGGGAATGACGGAATTTTAACAATTGGTGGTACAGGTGCGATTTGTCTTGGAAAGAAAGGAGAAGCGTATGAGTATAGCGGTGGATGGGGACATATTTTAGGTGATGAAGGAAGTGGATATTGGATTGCATTACAATCTTTAAAGAAAATGGCAATTCAATTTGATCAAGGAATCAGTCTTTGTCCATTGAGTTTGAATATTCAAAGGCAGTTTCAACTTTTGACACCGTCTCATATAAAAAGCTTAGTATATACTTCTTCTAAAGATAAAATTGCAGCAATCGCGCCATTAGTTATTCAGGAAGCGAGAAATGGAAATGATGATGCACATGAAATTATAATGCAAGCTGGAAAGGAATTAGCAAGGATTACAGTAAATGTTTATAACAAGTTAAACTTTAAGCACTCAACGCCAATTGCAGTAAGTGGCAGTATATTGCGTTTAGTTCCTGAAATATTTGCTGTATTTAAGAAATGCTGTGAAGAAAGTATGAAAGAAATTATATTTGTATCACAAGCAGAAATGGCAGTGAAAGGAACATATTATTTAATGAGGGATATATATTTTTAA	MKYMIGVDGGGTKTEAIAFDKDGNEFARATSGFGNILIDFEEALVHIMEVIDQCQKGLLKGDCVCICLGLAGVSGANTNELTLRLKKKYGTPIEVFNDAMIAHAATLKGNDGILTIGGTGAICLGKKGEAYEYSGGWGHILGDEGSGYWIALQSLKKMAIQFDQGISLCPLSLNIQRQFQLLTPSHIKSLVYTSSKDKIAAIAPLVIQEARNGNDDAHEIIMQAGKELARITVNVYNKLNFKHSTPIAVSGSILRLVPEIFAVFKKCCEESMKEIIFVSQAEMAVKGTYYLMRDIYF				NA	NA	NA	NA	NA
AK009_01099	549	plsY_1		Glycerol-3-phosphate acyltransferase	ATGATTAATAGTATGCAGTTTTTATATTTGGTGGCTTCTTATTTAATTGGAAACATCTTGACCGCTTATATAGTAACAAAATTGAGACATAACGTTGATATTAGGGGTGAAGGAAGCGGAAATCCTGGTGCAAGAAATATGGGGCGCGTATATGGAAAAGGGTATTTCATCGCTACATTTTTAGGTGATGCAATTAAAGGAGCAATCGTTGTTACTGTTGCAAAATATCTTTTTGAAGATCCTACATTCGTAATGTTAACATTATTGGCCGTTATTATTGGACATATTTACCCAGTTTTATTTAAAGGTAAGGGCGGTAAAGGTATTTCAACATTTATTGGAGGATTAATCGCATTTAATTATTTGATAGCGCTTACCCTCATAGGCATTTTTATTGTATTTTATTTAATATTTAAAGGATTTACGAAGCCAGGACTAATTACGATTGCTTGTTTACCAATTTGTATGATTCTTTATTCTTATTCTATTGTTACGACTATTTTAAGTGGAATGATTATTGTACTTATTCTATATGTAAATCGAGAATAA	MINSMQFLYLVASYLIGNILTAYIVTKLRHNVDIRGEGSGNPGARNMGRVYGKGYFIATFLGDAIKGAIVVTVAKYLFEDPTFVMLTLLAVIIGHIYPVLFKGKGGKGISTFIGGLIAFNYLIALTLIGIFIVFYLIFKGFTKPGLITIACLPICMILYSYSIVTTILSGMIIVLILYVNRE	PGPT0024375_196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
AK009_01100	1584	phnW_2		2-aminoethylphosphonate--pyruvate transaminase	ATGGGGTTAATTTATAAAGTTGCTGATCAAGATTGGGAATTTGAAAGTATACATAAATTAAATTATAAAACTTTTGTGGAAGAGATTCCACAACATGAAGAAACGAAAGACCAGTTTCGTATAGATAGGTTTCATGAAGAAAATACATATTTAATTTGTTTAGATGAGGATAGATTAGTAGGTATGGTCGCGGTGCGGGGAAAACGACCATTCTCGTTAGATTATAAAATTTCAAATTTAGATGTTTATTTGCAAGAGCATGGAGAAAAAGTGTATGAAATTCGTTTACTTTCAGTAGAACGTGAATATAGGAATGGAAGAGCGTTGTTAGGATTAATCCGTTTTCTACATCGTTATTTGCTTCTAAACGGATATGAATTAGCACTCATTTCTGCAACAACACGTGAACTAGCTTTATATGAGCAGATGGGATTCAAAGATTTCCATACGTTAGTTGGTACAGAAGCAGCAACCTACCAGCCAATGTATGTTACCCCTGCTATGTTTGAAGAATCGAGTGTTGGAAGTATTATGACGAAAGAATACACGTTTTTACCTGGTCCAGTAGACATTGAAGAGAACGTTCGAAAGGCATTTTGTACTAAGCCTATTTCGCATCGCTCTAAGTCATTTCAAGTGACAATGGACAATGTGAAAAAACGGTTACTTCACATGACAAAAGCAAAACATGTACAACTTATGTTAGGAACAGGGACGTTAGCCAATGATGCGATTGCTTTACAGTTACGTTCTTTAAAAGGGAAAGGACTAGTATTAACAAATGGAGAATTTGGAAATAGATTAGTTGGGCATGCAAAACGAGCACAGTTACATTTTGATACGTATAAAAAGGAAATGAGAGAGCCGTTTATTTATACAGAATTAGAAGAAATAATGACAACTGGAAATTATGAATGGCTTTGGTTTGTTCATCATGAAACATCTACTGGAATGTTAAACGATTTAAACGAGCTAAATACTCTTTGTAACGAGAATCAAATGAAACTATGTGTAGATTGCATAAGCTCAATTGGAGCAATACCAATAGACTTGAAGGATGTGTATTTTGCAAGTGGTGTTAGCGGTAAAGCGATTAAATCATATACAGGAATTTCTTTCGTTTTTCATAACCACATTGTAAAAATAAACGAGGCTGTGCCGGCCTATATGGACATTGGCATGTATGAAGAAAATGAAAGCATTCCATACTCACAATCATGGAATTTAATTTATGCATTGCAAGAAGCGTTGAAGAGATTTGAAGATGAAAAGGCATTTGTAAAAATTAAAGAGACATACGATTATGTTGAAGAAGTTATTACTGATATGGGCTTAAAGCTTGTTTCACCTAAAGAACATGCCGCGCCAATTATACTTACTATTGTATTGAGCGAAGATCATTCTTCTAAAGTAGTAGGCGATGCATTAGCATTACAAGGATACATCGTTCATTATGAGTCATCTTATTTACAAAAGAATAATTGGATCCAAATTGCATGTTTAAATCATTATAAAGAACGTGATATGAAGAGGATGTTGAATTGTTTGCAAATGTGTTTATTTCAGAGTGGGGTACAAATATAA	MGLIYKVADQDWEFESIHKLNYKTFVEEIPQHEETKDQFRIDRFHEENTYLICLDEDRLVGMVAVRGKRPFSLDYKISNLDVYLQEHGEKVYEIRLLSVEREYRNGRALLGLIRFLHRYLLLNGYELALISATTRELALYEQMGFKDFHTLVGTEAATYQPMYVTPAMFEESSVGSIMTKEYTFLPGPVDIEENVRKAFCTKPISHRSKSFQVTMDNVKKRLLHMTKAKHVQLMLGTGTLANDAIALQLRSLKGKGLVLTNGEFGNRLVGHAKRAQLHFDTYKKEMREPFIYTELEEIMTTGNYEWLWFVHHETSTGMLNDLNELNTLCNENQMKLCVDCISSIGAIPIDLKDVYFASGVSGKAIKSYTGISFVFHNHIVKINEAVPAYMDIGMYEENESIPYSQSWNLIYALQEALKRFEDEKAFVKIKETYDYVEEVITDMGLKLVSPKEHAAPIILTIVLSEDHSSKVVGDALALQGYIVHYESSYLQKNNWIQIACLNHYKERDMKRMLNCLQMCLFQSGVQI				NA	NA	NA	NA	NA
AK009_01101	1002	tdcB_1		L-threonine dehydratase catabolic TdcB	ATGATAACTAGAAAACTACCATTACATATAGATAATATTAAAAAAGCTCACAAGATTCTAGATAGAAATGCTCGTAAAACGCCATTAGTAAAATCTTTTTACTTGACTAGTAAAACGGGCGGAGAAATTCATTTGAAATTAGAAAATATGCAATTAACGGGTTCTTTTAAATTTCGTGGCGCATTTAATAAAATGTCGCGGCTCACGGATCAAGAAAAAGAAAGAGGTGTAATTGCATGTTCAGCAGGTAATCATGCACAAGGAGTTGCATTATCTGCTCATTTACTCGGTATTAAGAGTAAAATTGTTATGCCAATTTCTGCACCGCAGGCTAAAGTCGAAGCAACTAGAGGATATGGATCTGAAGTAATTTTACATGGTGAAACATTTGATGATGCAAAGGCAAAATGTGAAGAAATTATAAGGGAAACAGGTGAGACATACTTACATCCATATGATGATGTAGAGGTAATGGCTGGTCAAGGTACAATTGGATTAGATATTCTTGATGATATGTGGGATGTAGATACTGTCATTGTACCAATAGGTGGAGGCGGAATTATTTCTGGTATTTCTGTAGCATTAAAATCTTTTAATCCATCGATTAATATAATTGGTGTCCAAGCAGATAATGTTCATGGAATGAAGGCATCTTACGATAAAGGAGCAATCGTAGAACATTATGAGGCGCCTACTATTGCAGATGGTTGCGCTGTTAAAATACCAGGGGAATTAACATTTGAAATTGTAAAAGAATTAGTAGATGATATTGTAACTGTATCAGAAAAAGAACTGGAAGTAGCGATGAAAGATTTATTACAACGTGGGAAAGCTGTTGTAGAAGGTGCAGGTGCATTAGCAACTGCTGCACTTCTTGCAGGAAAAGTTGATAGCTATATAAAAGGAAAAAAATTAGTAGCGGTTATATCTGGTGGGAACGTGGACTTACAGCGCATATCAAGTGTATGTGAGCACTTTTTTGTCGCTAATGAAGTGAAATAG	MITRKLPLHIDNIKKAHKILDRNARKTPLVKSFYLTSKTGGEIHLKLENMQLTGSFKFRGAFNKMSRLTDQEKERGVIACSAGNHAQGVALSAHLLGIKSKIVMPISAPQAKVEATRGYGSEVILHGETFDDAKAKCEEIIRETGETYLHPYDDVEVMAGQGTIGLDILDDMWDVDTVIVPIGGGGIISGISVALKSFNPSINIIGVQADNVHGMKASYDKGAIVEHYEAPTIADGCAVKIPGELTFEIVKELVDDIVTVSEKELEVAMKDLLQRGKAVVEGAGALATAALLAGKVDSYIKGKKLVAVISGGNVDLQRISSVCEHFFVANEVK	PGPT0001960_5451	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
AK009_01102	471	pchR_1		HTH-type transcriptional regulator PchR	ATGAATAAAGAAGAACAGGTCATGAACGGTTTCAGGGAATTATATAATAAGCTGGTTTGGCTTAATAAAGATAAGATGGAAGAAGGTCTTAAAGGTTTTAAGTCTTCTGAAGTCCACTGCATTGAATATATTGAAAATAATGTGGATTCTAATGTGACACAACTTGCAGAGGCTTTTTATGTGACTCGCGGTGCTATAAGTAGAATGACTAAGAAGCTCATACAAAAAGGCCTTATTGAAAGCTACCAAAAGTCGGAAAATAAGAAAGAAATTTATTTTAGGCTTACCGAAGAAGGGAAAGAAATTTATAAAATCCATGAAGATCTGCACAAAGAGTTTCAAGAGCGGGATAAAGCTGTATTTGAGCAAGTAACTGAAGAAGAATTCGACAGTATAATTAGTTTCGTGGAAAAGTATAGTAGACATTTGGATGCAGAAATAAAGAAACAAGGTATACATATTAAATCCTAA	MNKEEQVMNGFRELYNKLVWLNKDKMEEGLKGFKSSEVHCIEYIENNVDSNVTQLAEAFYVTRGAISRMTKKLIQKGLIESYQKSENKKEIYFRLTEEGKEIYKIHEDLHKEFQERDKAVFEQVTEEEFDSIISFVEKYSRHLDAEIKKQGIHIKS				NA	NA	NA	NA	NA
AK009_01103	1236	tetA_1		Tetracycline resistance protein, class C	ATGTCTATATTTAGATCACAAAATGAAAGGAAAACTGAAAAAAGCATAGATAAACATGCTTTACTATTCGGACTTATTTCTGTATTTCTTTGTGGTATAGGTTTCAGTATTATCATGCCTGTAGTCCCATTCTTAGTACAGCCATATACAAGTAATCCGGAAGAACAAGCATTAGTTGTTACACTACTAACTTCCGTATATGCGGCTTGCGTGTTTTTAGCTGCCCCAGTACTCGGAGCTTTAAGCGATAAGTATGGCCGTCGTCCATTACTTTTAATATGCTTATTTGGTTCTGCAATTGGGTACTTAGTTTTTGGTATAGGAGGAGCTTTATGGGTACTATTTGCTGGACGCATAATAGAAGGAATAACAGGCGGGAGCATAAGTACTATCTTCGCATATTTTGCAGACATCATTCCAAAAGAGCAGAGAACAAAATACTTTGGATGGGTGAGTGCAGTTGTAGGTGCGGGAACTATCATTGGCCCCACTATTGGGGGATTACTTGCCAAGTTTGGTGATACTGTACCTATGTATTTTGGAGCAATCATAACGTTAATAAATGTTGTATATGGGATCAAATATATGCCTGAGAGTCTTGACAAAAATAATAGGTTAAAAGAGATTACTTTTGTAAGGTTGAATCCTTTTGCACAGCTAGCAAACATACTTTCCATGAAAAATTTAAAATGGTTACTTGTCTCAGCGTTTTTACTTTGGATACCTAACGGATCTTTACAAGCAATTTTCACGCAATTTACAATGGATACTTTCAGTTGGAAACCTGCACTAATCGGACTTATGTTTTCAATTTTGGGCTTTCAAGACATTGTTTCACAAAGTTTTATAATGCCAAAGCTTTTGATCCAGCTTAGTGATAAACAAATAGCAATTCTTGGGATGGTTTCGGAGATTATAGGATACAGTTTTATTGCGGCATCAGCTTTGTTTTCACTCTATCCACTACTTATCGTTGGAATGCTGATGTATGGTTTTGGGGATTCAATTTTCGGGCCTTCATTCAACGGGATGCTTTCAAAGTCTGGCGGTTCTAGTGAACAAGGAAGGATTCAAGGGGGAAGTCAATCTATTCAAGCTTTAGCAAGAATGATTGGTCCTATTATTGGAGGGCAAATCTATGTATCGCTTGGTCATGCTGCACCTGCTTTTATGGGTATGATCCTTATAGTCGCGGCAATAGCAGTTTTGTATAAGGGGACACATGCAACTGTATAG	MSIFRSQNERKTEKSIDKHALLFGLISVFLCGIGFSIIMPVVPFLVQPYTSNPEEQALVVTLLTSVYAACVFLAAPVLGALSDKYGRRPLLLICLFGSAIGYLVFGIGGALWVLFAGRIIEGITGGSISTIFAYFADIIPKEQRTKYFGWVSAVVGAGTIIGPTIGGLLAKFGDTVPMYFGAIITLINVVYGIKYMPESLDKNNRLKEITFVRLNPFAQLANILSMKNLKWLLVSAFLLWIPNGSLQAIFTQFTMDTFSWKPALIGLMFSILGFQDIVSQSFIMPKLLIQLSDKQIAILGMVSEIIGYSFIAASALFSLYPLLIVGMLMYGFGDSIFGPSFNGMLSKSGGSSEQGRIQGGSQSIQALARMIGPIIGGQIYVSLGHAAPAFMGMILIVAAIAVLYKGTHATV	PGPT0027875_705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027875-tetA-K08151	NA	NA
AK009_01104	330			hypothetical protein	ATGGAGAAACAGACACTTTGGAAAAAGTTCAAAAAAAGCTCTGTAAACCTCGGTAAATCCAGCGTATATGAAAGTATTATCTTATTCTACACAATGAAAAAGAAAGAATTACCTACTAAAGCGAAATTCATAATATTAGCCGCTTTATCTTATTACGTATTAACAATTGATTTCATTCCAGATATAGCTGCTATTATTGGGATTGGCTTATTAGATGATGTTTTAGCAATCGCTGTAGCGCATAAATATGTTATGCGCCATGCAGATGCTGAAATTCGAGAGAAGAGCAAGGTAAAAATGGAGTCATTATTTACTTCAGCACAAGCATAA	MEKQTLWKKFKKSSVNLGKSSVYESIILFYTMKKKELPTKAKFIILAALSYYVLTIDFIPDIAAIIGIGLLDDVLAIAVAHKYVMRHADAEIREKSKVKMESLFTSAQA				NA	NA	NA	NA	NA
AK009_01105	687	yflN_2	COG0491	putative metallo-hydrolase YflN	ATGAAAATAATAGAACTACCAATTGAATTCGAATTTAACGGGCAAAAACAATGTATTTATCCAAGTTTAATTATATTACATAATGAATTAACGTTAGTCGATACAGGATATCCAAGTTTTTTACCTTTAATTGAAAATGCAATATTAAAACATGGATATGAGATGAAAAACTTAAAGAATATAATTATTACCCATTATGATGACGATCATATAGGGGCTTTATATGATTTTAAAATGAAATATCCAAATATTAATGTTATTGCTAGTGAAATTGAATCTAACTATATTAGTGGTGATATAAGATCAGAGAGGTTGGCTCAAGCCGAAAAAATGTTAGAACGTATGCCAAATGAAGAAAAAGAATTTGGTAAATGGTTTATTCAACAGTTAAAAAATATAAAACATATTTCCGTCGATGAAAAAGTACATGATGGTCAAATGATTTTGAATAATGAATGTCAAATAGTAGCGACGCCAGGACATACTTCGGGGCATATTTCATTATATTTTCCGAATTTAGACTGTGTAATTACAGGAGATGCAGCGGTTCAAGAGAATCGTGAGTTAGTAATAGCTAATCCGGATTTTTGCTTAGATATAGAAAGGGCGGAAAAGTCTTTAAATAGGATTAAAAGTCTTAAAGCAGCACAGTATTATTGCTACCATGGAGGAAAGCTGACTTTATAA	MKIIELPIEFEFNGQKQCIYPSLIILHNELTLVDTGYPSFLPLIENAILKHGYEMKNLKNIIITHYDDDHIGALYDFKMKYPNINVIASEIESNYISGDIRSERLAQAEKMLERMPNEEKEFGKWFIQQLKNIKHISVDEKVHDGQMILNNECQIVATPGHTSGHISLYFPNLDCVITGDAAVQENRELVIANPDFCLDIERAEKSLNRIKSLKAAQYYCYHGGKLTL				NA	NA	NA	NA	NA
AK009_01106	270			hypothetical protein	ATGGGTTCGTTATTTGATGTAATAGCAAATGTTATTTTGTTTTATCCTCGAAATGACATGAAATTGAAACACCATATTGCAAAATTAAGTGAATTAGAGTGGTTTCGAAATCTACATGAAGATCCGAAGTATACAAGTTTAATTTGGAGTAATAGAAAAATTAAAAAGTATATTTTGACTTCTGCAAATATGGAACCATTAATAAAATCCGAGAAAAAGCAAAAAGAATTTGTCCATCTAGTACAGGATGAATATAAAAAAAGAAGATAA	MGSLFDVIANVILFYPRNDMKLKHHIAKLSELEWFRNLHEDPKYTSLIWSNRKIKKYILTSANMEPLIKSEKKQKEFVHLVQDEYKKRR				NA	NA	NA	NA	NA
AK009_01107	1353	cshE	COG0513	DEAD-box ATP-dependent RNA helicase CshE	GTGGTCTATTTGAAAAACTTTTTAGAATTAGGAATTAGTGAAACTTTTAATCATACATTACGTGAAAATGGAATTACAGAAGCAACACCAATTCAAGAAAAGGCAATTCCAGTTATTCTGTCAGGTAAAGATATTATTGGGCAGGCGAAAACTGGAACGGGTAAAACGTTAGCATTTGTGTTACCGATTTTAGAAAAAATCAATCCAGAGTCTAGTGATGTTCAGGCTTTAATTGTTGCACCAACAAGGGAACTAGCTCTGCAAATTACAACTGAAATTAAAAAAATGCTTGTTCAAAGAGAAGATATTAATGTACTAGCGATTTATGGTGGGCAAGATGTAGCACAACAATTGAGAAAATTAAAAGGTAATACACATATTGTTGTTGCAACACCAGGACGATTATTAGATCATATACGACGCGAAACAATTGATTTAAGTAATCTTTCAACGATTGTACTAGATGAAGCGGATCAAATGCTTTATTTCGGTTTCTTATATGATATTGAAGATATTTTAGATGAGACACCTGGTAGTAAACAAACGATGTTATTCTCAGCAACGATGCCAAAAGATATTAAAAAATTGGCGAAGCGTTATATGGATGAGCCGCAAATGATTCAAGTACAAAGTGAAGAAGTAACGGTAGATACAATTGAGCAGCGTGTCATTGAGACGACAGATCGTGCAAAGCCAGATGCACTTCGTTTTGTTATGGATCGTGACCAGCCATTTTTAGCAGTTATTTTCTGTCGTACAAAGGTTAGAGCAAGTAAGCTTTATGATAATTTAAAAGGACTAGGTTATAATTGTGCTGAACTTCATGGTGATATACCTCAAGCGAAACGTGAAAGAGTTATGAAGAGTTTCCGCGAAGCTAAAATTCAGTACTTAATCGCAACGGATGTAGCAGCTCGTGGACTTGATGTAGATGGTGTAACGCACGTATTTAACTTTGATATCCCTGAAGATGTAGAAAGTTATATTCACCGCATTGGCCGAACAGGACGTGCAGGTGGATCAGGTCTTGCAATTACGTTCGTTGCAGCGAAAGATGAAAAACATTTAGAAGAAATTGAAAAAACGCTTGGTGCACCAATACAAAGAGAAATAATCGAACAACCGAAGATAAAACGTGTAGATGAAAATGGAAAACCGGTACCAAAGCCGGCTCCAAAGAAATCAGGTCAAAATCGTCAAAGAGATAGCCGCGAAGGTTCAAGAAGTGAATCAAGACGTGATTCGAGAAATAGCTCGAGAAGTGATTCAAGAAATGAAAATAACCGATCATTTAATAAGTCAAGTAATAAAAAAGGTAGTACAAAGCAAGGTCAGCAAAGACGTGGCCGTTAA	MVYLKNFLELGISETFNHTLRENGITEATPIQEKAIPVILSGKDIIGQAKTGTGKTLAFVLPILEKINPESSDVQALIVAPTRELALQITTEIKKMLVQREDINVLAIYGGQDVAQQLRKLKGNTHIVVATPGRLLDHIRRETIDLSNLSTIVLDEADQMLYFGFLYDIEDILDETPGSKQTMLFSATMPKDIKKLAKRYMDEPQMIQVQSEEVTVDTIEQRVIETTDRAKPDALRFVMDRDQPFLAVIFCRTKVRASKLYDNLKGLGYNCAELHGDIPQAKRERVMKSFREAKIQYLIATDVAARGLDVDGVTHVFNFDIPEDVESYIHRIGRTGRAGGSGLAITFVAAKDEKHLEEIEKTLGAPIQREIIEQPKIKRVDENGKPVPKPAPKKSGQNRQRDSREGSRSESRRDSRNSSRSDSRNENNRSFNKSSNKKGSTKQGQQRRGR	PGPT0013740_2849	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
AK009_01108	711	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAAAACTGAAACGTTACACACACAAGAAGACATCTTAAAAATGCTTGATTCATTATTAAGACCTGCAGAACCATTTTGGAATGAGTTTTATGAGAATAGAGAAAAGGATGTTCCGTTTTTTGAAAATGTTCCAGATGAGAATCTAGTTTCGAATATACAAAAAGAGAGAGTTTCAAAAGGGAAGGTATTAGAACTTGGATGTGGTCCAGGTAGAAATGCCATTTATTTAGCGACTCAAGGATTTGATGTAACAGCAGTGGATTTATCTGTAGAAGGCATTAACTGGGCAAAAGAGAGGGCATTGGCAAAAGGGGTAGAAATTCATTTTATTTGTAATTCAATTTTTAATTTAGAGGTTCAAAACGAATTTGATTTTGTATATGATTCGGGCTGTTTGCATCACATTCCACCGCATAGAAGAATAAATTATGTGGATTTAATTAAAAACTCATTAAAATCGGGTGGTTATTTCGGATTAACATGTTTTGCAGCAGGCAATTTAGATGAGCGAAATGGATCAGAAATAACAGATTGGGACGTATATAGAGAATGGAGTCTACAAGGTGGTCTTGCATACTCGGAAGAAAAGTTAAGAGAGATATTTAAAGAATTTGAGGTAATTGAGATTAGAAGGATGAAACAAATGAAACAACCGAAAGAAATGTTTGGAGAATCATTTCTTTGGACAGCATTATTTAAGAAGAAATAA	MKTETLHTQEDILKMLDSLLRPAEPFWNEFYENREKDVPFFENVPDENLVSNIQKERVSKGKVLELGCGPGRNAIYLATQGFDVTAVDLSVEGINWAKERALAKGVEIHFICNSIFNLEVQNEFDFVYDSGCLHHIPPHRRINYVDLIKNSLKSGGYFGLTCFAAGNLDERNGSEITDWDVYREWSLQGGLAYSEEKLREIFKEFEVIEIRRMKQMKQPKEMFGESFLWTALFKKK				NA	NA	NA	NA	NA
AK009_01109	408			hypothetical protein	ATGAGTAACACAAATCAAAAAATTACTACGTTTTTAATGTTTGAAGGCAAAGCTGAGGAAGCAATGAATTTTTATACGTCGCTATTTGATCAATCGGAAATTGTAAGTATTTCTCGCTACGATGAAAATGGACCTGGTAAAGAGGGAACTGTAATTCATGCAACTTTTACGCTAAATGGCCAAGAGTTTATGTGTATTGATAGTTATGTAAATCATAATTTTACATTCACTCCAGCTATGTCTCTTTATGTAACTTGTGAGACAGAAGAAGAAATTGAAACGGTCTTTCATAAACTAGCGCAGGATGGAGCAATTCTCATGCCTTTAGGTTCTTATCCGTTTAGTAAAAAGTTTGGCTGGTTAAATGATAAGTATGGTGTATCTTGGCAGTTAACTCTTGCTGAATAA	MSNTNQKITTFLMFEGKAEEAMNFYTSLFDQSEIVSISRYDENGPGKEGTVIHATFTLNGQEFMCIDSYVNHNFTFTPAMSLYVTCETEEEIETVFHKLAQDGAILMPLGSYPFSKKFGWLNDKYGVSWQLTLAE				NA	NA	NA	NA	NA
AK009_01110	783			hypothetical protein	ATGGATACTACACAACAAAACAGTAATGCATGGGATAAGAAGGTTGAAGAAGGTTCTAGATACACGCAGCCTGTAAGTAGCGAGATTATTGAGAAAAGCAAATCAGGTGAATGGGAGATTACAGTCACTACGGAAAAGTCAGTTCCTAGAGAGTGGTTTCCAAAGTCATTAGATGGATTAAAGATACTTTGCTTAGCGTCAGGTGGTGGACAACAAGCACCTGTTCTAGCTGCTGCTGGAGCAGATGTAACAGTTACTGATATATCTAAGAAGCAATTGGAACAAGATAAAAAGGTAGCAAAACGGGATGGTTTGACTTTAAAAACCGTACAAGGAGATATGTCAGACCTTGGTGACTTTGAGGATGAATATTTTGATATTGTTGTAAATCCTGTCTCTAATTTGTTTGTAAAAGATGTTCATCTTGTATGGAATGAAGTTTCTAGGGTTTTAAAGAATAAAGGTATTCTTATTGCTGGATTTACAAATCCATTACTATGGATCTTTGATGATAACCAAGAACAAAAAGGTATTCTTGATGTTAAACATTCAATTCCTTCATCAACATTGGATTATTTGCCAGAGGATGAAGTTCAAGATTACATCGATTCAAATCAAACAATAGAATATGCGCATACTTTAGAAGACCAAATCCAAGGCCAAATTGAAGCTGGTTTTGCTATGACAGGTTTTTATGAGGATGATTTTGGTGGGACAAGGATATTAGATAAGCATATTAAAACATTTATTGCGACAAAAGCTATAAAGTTAAAGATGGATTAA	MDTTQQNSNAWDKKVEEGSRYTQPVSSEIIEKSKSGEWEITVTTEKSVPREWFPKSLDGLKILCLASGGGQQAPVLAAAGADVTVTDISKKQLEQDKKVAKRDGLTLKTVQGDMSDLGDFEDEYFDIVVNPVSNLFVKDVHLVWNEVSRVLKNKGILIAGFTNPLLWIFDDNQEQKGILDVKHSIPSSTLDYLPEDEVQDYIDSNQTIEYAHTLEDQIQGQIEAGFAMTGFYEDDFGGTRILDKHIKTFIATKAIKLKMD				NA	NA	NA	NA	NA
AK009_01111	825	ipdC	COG3961	Indole-3-pyruvate decarboxylase	GTGAAGTTAACTGATACTATTACAGGCGGCTTCACACAAGGTTTTACAAAAGAACAAGTTATAGAAATCCATCCCTACACTGTGAAAATTATAGATAAAAAATACGGTTCAGTTGTAATGCAGGATATTTTACAACATTTAAGTGATTCAATTGAGCATCGTAATAAAGATACTCTTGACGTTAAGCCATTTATTTTAAAATCATCTCTTTTTACTGAAGAGTTCAATCCCAAATCACAAATGGTCACACAAAAACGTTTTTGGCAGCAAATGTACCATTTCTTACAAGAAAACGACATCTTAATTGTAGAACAAGGAACACCTTTCTTTGGTAGTGCTGCTATCCCTCTACCTAATAACACTGCATATGTAGGACAACCGTTATGGGGATCTATCGGATATACACTGCCCGCTCTAATTGGTACACAGGTCGCCAATTTATCACGGCGCAACATTTTAATTATTGGTGACGGTTCTTACCAAGTAACTGCCCAAGAGTTATCAACTATACTACGTCAAAATTTAAAACCGATTATATTTTTAATCAATAACAACGGATACACTGTTGAACGTGCCATTCACGGCCAAAACCAACCATATAATGACATACAGATGTGGGATTATACTAGCTTGCCGAACCTATTCGGATCAGAAGAAAAAAGCCTAACATTTAAAGTGGAGAATGAAACAGAGTTAACAGAAGTCTTAACAAATATAACTTTTAATAAGAATCAACTTATCTTTATTGAGGTAATAATGAGCCAAAGCGATCAACCTGAATTGTTAGCTAAACTCGGGAAAAGATTCGGTCAGCAAAATTCTTAA	MKLTDTITGGFTQGFTKEQVIEIHPYTVKIIDKKYGSVVMQDILQHLSDSIEHRNKDTLDVKPFILKSSLFTEEFNPKSQMVTQKRFWQQMYHFLQENDILIVEQGTPFFGSAAIPLPNNTAYVGQPLWGSIGYTLPALIGTQVANLSRRNILIIGDGSYQVTAQELSTILRQNLKPIIFLINNNGYTVERAIHGQNQPYNDIQMWDYTSLPNLFGSEEKSLTFKVENETELTEVLTNITFNKNQLIFIEVIMSQSDQPELLAKLGKRFGQQNS	PGPT0007185_437	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0007185-ipdC|ppdC-K04103	NA	NA
AK009_01112	483			hypothetical protein	ATGACACAACATAAAGAAGAACAGATGAATGAGGCATTAGCATTATTTTATTTTGCATATAAAACATTTACTGAAAAGCCAGATGAAATTATAAAAGAATATGGCATTCAACGAGTACATCATCGAATTTTATTTTTTATCGCACGTTTTCCAGGGATAAGTGTAAATGAGTTATTATCATTATTAGAAATAAGTAAACAAGCTCTCCACGGGCCACTACGTCAACTTGTGGAAAAGGGCTTAATTGAGAGTAATGAAGCTACGCATGACCGCCGTGTGAAACAGTTGTCTTTAACAGAACAAGGTGCAGATTTAGAGAAAAAATTGAGCGATGTACAAAGACAACAAATGGGCGCTATTTTTTCAAAATTTGGTGAATCATGTGAAGACAATTGGCATCAAGTTATGAATGAAATGGCAAATAGTCGATCAGGTTTTGATGCTTGGATATCAAAACGGGAAATACCAGTCGATCAAAAATAA	MTQHKEEQMNEALALFYFAYKTFTEKPDEIIKEYGIQRVHHRILFFIARFPGISVNELLSLLEISKQALHGPLRQLVEKGLIESNEATHDRRVKQLSLTEQGADLEKKLSDVQRQQMGAIFSKFGESCEDNWHQVMNEMANSRSGFDAWISKREIPVDQK				NA	NA	NA	NA	NA
AK009_01113	738	gpmA_2	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGATAAAACTTGTACTTATTCGTCACGGACAAAGTTTATGGAATCTTGAAAATCGCTTTACTGGATGGACAGATGTTGATCTATCAGAGAATGGATTAAGTGAAGCGAGAGAAGCAGGAGCAATATTAAAGAAAAACAGATATACTTTTGATGTGGCTTATACATCTGTATTAAAACGCGCAATTCGGACGTTATGGATTGTACTTCATGAGATGGATCTTACTTGGGTCCCAATACATAAATCTTGGAAGCTAAATGAAAGACATTATGGTGCATTGCAGGGGTTGAATAAAGATGAAACTGCTCAAAAATATGGTGAGGAGCAAGTTCATATTTGGAGAAGAAGTGTTGATGTAAGACCACCGGCTCTTACTGAAGACGATCCTCGATATGAAGCGACCGATCCAAGATATAAAACACTCAAAAAAGGTGAATTTCCATTAACTGAATGTTTAGAGGATACGGAGAAGAGAGTACTTGCTTATTGGCACTCAGAAATTGCGCCGATATTAAAAAATGGTAATAAAGTAATTATTTCATCACACGGTAACACAATTCGCTCGCTAGTAAAATACTTAGACAACCTTTCGAGTGATGGTGTAGTTTCATTAAATATTCCAACTAGTATTCCGCTTGTTTATGAATTAGACGAAAACTTACGTCCGATTCGTCATTATTATTTAAGTATGGATGGAGAAGTACCTGAAGGGGAAATTCCGAAACATATTTCTTTTTAA	MIKLVLIRHGQSLWNLENRFTGWTDVDLSENGLSEAREAGAILKKNRYTFDVAYTSVLKRAIRTLWIVLHEMDLTWVPIHKSWKLNERHYGALQGLNKDETAQKYGEEQVHIWRRSVDVRPPALTEDDPRYEATDPRYKTLKKGEFPLTECLEDTEKRVLAYWHSEIAPILKNGNKVIISSHGNTIRSLVKYLDNLSSDGVVSLNIPTSIPLVYELDENLRPIRHYYLSMDGEVPEGEIPKHISF	PGPT0018030_2337	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
AK009_01114	738	spoIISA		Stage II sporulation protein SA	ATGATCTCTAACATTCGAATTGGCTTATTTGTTTTAGCGATTTTCTTTGTAGTCCTTGTTTTCTTTTATTGGAAAAATGAGGAGTTGTACGAGGAGAAAAAGCAACGTATTAGAAAGACTTGGTATGGTTTGTTTATCATATCTGTCACCGTGTATTTCATGATAAAAGGAATTGATTTAACCCTCTGGAAAAATCTTTTAATGTTTACTGCAATGGTTATTTTTGTTGATATTGCGTTCATTTTAACGCCTAATATTTCAGAAATATGGGGTGCGAAATTTAGCGATATTGGCAAGACAGTTCAATCAATAAAACGATCATTAATTGCATCTAAAGCGAGAGGAGAAATATACACCACAATTATTCAAAATGTTAATCCAGCAGTTTTCGGTACGATGGAATGGCATACGGAAGAAGAATATACAAAGAGCTTAAATGTATTTTTAGATTCATATGGGGAAAAAATTGGCGCGAAAATTGTTGTTTTTGAAGCGGCAAAGGAATTAAATACAAACTTTCGTGGTATTCGCTCGCAATTTAGTATTATCGTTCCGTTAGAACATATCGAGCAATTGAATGAGCAGAAAGCAGTGCAAGTAGAAAATGTCGGGATTATACCAGCAAAAATAGTAAGTGATGTTTTCATTGTTATTGATGGAAAGAAAAATAACCTGCAAGATCGGGATTTTGAAAATGTATATAATTTAACAATACATCATAGTTATTTTAGTAAATAA	MISNIRIGLFVLAIFFVVLVFFYWKNEELYEEKKQRIRKTWYGLFIISVTVYFMIKGIDLTLWKNLLMFTAMVIFVDIAFILTPNISEIWGAKFSDIGKTVQSIKRSLIASKARGEIYTTIIQNVNPAVFGTMEWHTEEEYTKSLNVFLDSYGEKIGAKIVVFEAAKELNTNFRGIRSQFSIIVPLEHIEQLNEQKAVQVENVGIIPAKIVSDVFIVIDGKKNNLQDRDFENVYNLTIHHSYFSK				NA	NA	NA	NA	NA
AK009_01115	129			hypothetical protein	GTGGTAAAAGATTATGACAATGATTTTTTTAAAGAAGATAACGAAGATACAACAGATTTCTCTTTAATAAAAGGGGATGCGTTGCAGCAAGTAGAAGAATTAGAAGAAGAATTAAAAAGAAAATCATAA	MVKDYDNDFFKEDNEDTTDFSLIKGDALQQVEELEEELKRKS				NA	NA	NA	NA	NA
AK009_01116	177	spoIISB		Stage II sporulation protein SB	ATGGCTGAAGTCAATGTACAAAAGTCTTCGTTTTTTAAAGAAAAAAAAGAAGAATCCAATACAGATTTCTCTCTTGTGAAAGGTGCATTAACGGAGAATATAAATCGGTTAGAGAAACTGATGAATAATAGTAGTTCAAAATATATACAAGTGAAAAGAACAAAAGAAAATGCATAG	MAEVNVQKSSFFKEKKEESNTDFSLVKGALTENINRLEKLMNNSSSKYIQVKRTKENA				NA	NA	NA	NA	NA
AK009_01117	390			hypothetical protein	ATGAAAAAGTTTGCAGCAATTATTACACTATGTTTATTATTTTTTAGTTTTACTATTGGCTGTGAGAGAGCGTCACTAAATAAAATTGGTAAAGATGTATATTACATGCAGATAAAAGGCGAAGGAGCTATCGAAAAAGTAGATGGTAGAAACTTACGAAACTATACGCTGCCCGCATATCATGAAGATGGTGTCAAAAAACAAATTACATTTAGAAGTACAAAAAAAGAAAACGACCATAAATTAAATGAAGACGCGTTTTTACGCCTTTATGTAGATCAAGATGATAATAGCAAAAATGAAATATCATCAATTGAAGTAAAGTCCTATGAAGAGATTCAGAAAACAGATTTACCTAAAAAAGTAAAAGATAAGTTTACTATTAAATAA	MKKFAAIITLCLLFFSFTIGCERASLNKIGKDVYYMQIKGEGAIEKVDGRNLRNYTLPAYHEDGVKKQITFRSTKKENDHKLNEDAFLRLYVDQDDNSKNEISSIEVKSYEEIQKTDLPKKVKDKFTIK				NA	NA	NA	NA	NA
AK009_01118	1470	pepD	COG2195	Cytosol non-specific dipeptidase	ATGTATTCTACTTTAGAACAATTAACAAAGCACCCTGTATTTTATCATTTTGCAGAAATTTCAAAGATTCCTAGAGGATCAGGTAATGAAAAGGAAATTAGTGATTATTTAGTGGGCTTTGCAAAAGAGCGTAACTTAGAAGTCATTCAAGATGAAGCATTAAATGTCATTATTAAAAAAGAAGCAACAGCTGGTTATGAAAATGTACCAGCTATTATTATTCAAGGTCATATGGATATGGTTTGCGAAAAAAATCAAGCAACAGTACATGATTTTGAAAAAGATCCAATTGAATTACGAATCATTGGGGACATGTTATATGCAAATCAAACAACTTTAGGTGCGGATAATGGTATTGCAGTTGCGTATGCATTAGCTTTATTAGATTCAAAAGAAATTCCGCATCCAGCACTTGAAGTCGTTATCACTACTGAAGAAGAAACGACAATGGGCGGGGCTTTTGCTATTGATCCAAATCATTTTGAAGGAAAGATATTTATAAATATTGATTCTGAAGAAGATCATAAATTACTTGTAAGTAGTGCAGGTGGTGCGAAAGCTGTTGAAACAATTCCCGTAATTTGGGATGAAACACCAGCGAATATGGATGCATACCGTCTATATGTTGGCGGTCTAAAAGGCGGACATTCTGGTATGGAAATTGATAAACAACGCGGTAATGCGAACAAAGTATTAGGACGAGTGTTACGTGATTTATCAGCACATACGGAGTTTAACATAAGTGAAGTTCACGGCGGATTAAAAACGAATGCAATTCCGCGTGAAAGTGTAGCTACAATTTTAATTCGTACAGAAGATGTAGGGCAAGTAGAAGAAAAACTAGAATCATGGACACGTGTATTACAAGAAGAAATGCGTGCTGTTGATTCAGATGTTCATGTTACACTGACAAAATTGGATGAAACAGTTGAAAAAGTATTTGCTAAAGAGACACAAAAGCAGCTTATTTCATCATTATTCTTAATTCCGAATGGTATTCAAAGTATGAGCATGGATATTAAAGGTCTTGTAGAAAGCTCAACAAATTTAGGCGTTATTGAAACGTTGCAAGATGAAATTAAATTACGTAACGAAGTGCGAAGTTCTGTAAGTAGTTTAAAACAACATGTTGCAGAAGAAATCAAATATATTGCTGAATTAGTTGGTGCTACATTTGAAATAGAGTCAGAGTATCCAGAATGGCCATACAATCCAAACTCACAAATTCGTAATTTATTTGAAAAAGTACATCAAGAAAAATACAATAAAGAAATTGAAATCTTCGCTGTACATGCGGGGATTGAGTGTAGCGCATTCGTTCAAAAGATGCCTGAATTAGATGCAATTTCATTCGGACCAGACATCTTTAACGTCCACACTCCAGATGAACATATCAGTATCTCTTCTGTAGTGAATAACTGGGGATTCTTCGTTGATGTAATGAAGGTTACGAAAGAATTAGCTAAGTAA	MYSTLEQLTKHPVFYHFAEISKIPRGSGNEKEISDYLVGFAKERNLEVIQDEALNVIIKKEATAGYENVPAIIIQGHMDMVCEKNQATVHDFEKDPIELRIIGDMLYANQTTLGADNGIAVAYALALLDSKEIPHPALEVVITTEEETTMGGAFAIDPNHFEGKIFINIDSEEDHKLLVSSAGGAKAVETIPVIWDETPANMDAYRLYVGGLKGGHSGMEIDKQRGNANKVLGRVLRDLSAHTEFNISEVHGGLKTNAIPRESVATILIRTEDVGQVEEKLESWTRVLQEEMRAVDSDVHVTLTKLDETVEKVFAKETQKQLISSLFLIPNGIQSMSMDIKGLVESSTNLGVIETLQDEIKLRNEVRSSVSSLKQHVAEEIKYIAELVGATFEIESEYPEWPYNPNSQIRNLFEKVHQEKYNKEIEIFAVHAGIECSAFVQKMPELDAISFGPDIFNVHTPDEHISISSVVNNWGFFVDVMKVTKELAK	PGPT0020955_268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020955-pepD-K01270	NA	NA
AK009_01119	810			hypothetical protein	ATGAAGGGAAGAAAGCATTTTATTGTTTGTATGGTTTTATTGTTCTTCACATTTAGTTTTATTGGTGTTCAGAAAATAATAGCAGAAGAAGTTGAATTTTCAGGGACAACAGCTCCATTGAATGTAAATGTTAGAGAGGCGAAAAGTTTGAATGCAAATATTGTAGATGTGATTCCCGGAAATACAAAAGTATCTTTTAAAGGATGGGAGTATGGTGAAGCGGTTAAAGATTACTGGACAGGAAATTTAGATAATCGTTGGTTTTACTATTTTAAAGATGGAAAAAAAGTATATGTAACGTCAGCGTATATTAATGGAAATCCTCCAAGTACACCAATAGACCGTAAATTATCTGTACCTAACATATTACAAGAAAGATCAAATTGGTGTTGGGCAGGCACTTCGGTTTCAGTTTTAAATTATTTTGGGAAAACTCCTTCACAAGATCAGTACGTTAGGTATGTTAAGGGTGGATCATATAATAATCCTGCAACTTCACGTGAAATACAATATGGATTATCGGGATATGGTGTTAGTTCAGCTATAAGTTCTGGAGCAAAATCGTATGATTGGTTCAAAAGTCAAATTAATAGTAATCAGCCGATGATTGTACTCATTATGTGGCAAAATGGAGCTAACATCGGACACTTTCTAGTACTTGATGGATTTTATAAAGGGACAAATGGAACAGATTATATAACGTACATGGACCCTTGGTATGGTGATCATTATAATCATAATTTCAGTACGTTCCATAACAATAATAATTTTTGGTGGAGTGAAACTGTTTATAATATCCATGCAAACTAA	MKGRKHFIVCMVLLFFTFSFIGVQKIIAEEVEFSGTTAPLNVNVREAKSLNANIVDVIPGNTKVSFKGWEYGEAVKDYWTGNLDNRWFYYFKDGKKVYVTSAYINGNPPSTPIDRKLSVPNILQERSNWCWAGTSVSVLNYFGKTPSQDQYVRYVKGGSYNNPATSREIQYGLSGYGVSSAISSGAKSYDWFKSQINSNQPMIVLIMWQNGANIGHFLVLDGFYKGTNGTDYITYMDPWYGDHYNHNFSTFHNNNNFWWSETVYNIHAN				NA	NA	NA	NA	NA
AK009_01120	606			hypothetical protein	ATGGGAAATCTACTTAAGCTTGTGATACCGTGCATGTGTTTAATGACCGTTATTATTTTCGCTAGTAAAATTAGTTATGCATCAAAAAATAAAAGTGAATCAGTACAATCGATCGCATTAAAAGATTATCAATATAGTAAGGGAAGTTCTTCTGAAAATTTAAATTTTGAAAAAATAACAACATCTCCATTTTCGTTACCAATCTATGCAACAATTCCAGCACAGCAAATTTTAAATAGCTCTGAATTTAAGCAATTGCTATTACCAACAAATGAAAAGCTGTGGTTTATTATGAAGGGTGAGCAGCCAGAAGGACTAATTGTTGCGAATGATACTGAACCGATTCGAACGGGCGGAGAAAATAGAAGTAAAGATTTATATGGATTATATAAAGCAATAAAAAATAATACAAATGAAACAAAAGATATTAGTTATTTCGAATTTGAAGGGCAAGGAATATTGGTAGTAAATCAAAATAATGATCAAGAAATATACCTTAGCAAAGGTGCCGCTGCCATATTAAAACTTCCTGCTGGTCAAAAAGTATTGAGCAGTGAAGTAATACAGAAAATGAAAGAGAGAATTGTAACTAGTTTTGAAAAGTAG	MGNLLKLVIPCMCLMTVIIFASKISYASKNKSESVQSIALKDYQYSKGSSSENLNFEKITTSPFSLPIYATIPAQQILNSSEFKQLLLPTNEKLWFIMKGEQPEGLIVANDTEPIRTGGENRSKDLYGLYKAIKNNTNETKDISYFEFEGQGILVVNQNNDQEIYLSKGAAAILKLPAGQKVLSSEVIQKMKERIVTSFEK				NA	NA	NA	NA	NA
AK009_01121	252			hypothetical protein	ATGAAAAGAATATTAACCGAAAGAGAATTAGAAGTGGCTATTTATGTAGCAAAAGGATATACAGATGCAGAAATTTCCAGAAAAATATATGTTACCCCTAGAAGAATTTCAACGATAATTAATCATATTAAAGAAAAATGGCATATTAATTCTAGAGTGGAATTAGGTATTTTAGTTTATCATTATGGTTTTATAGATGCACCCTTATTTTCTAATAAGGAAATTCAGCTATGCAAAAAGGTTGTACAGTAG	MKRILTERELEVAIYVAKGYTDAEISRKIYVTPRRISTIINHIKEKWHINSRVELGILVYHYGFIDAPLFSNKEIQLCKKVVQ				NA	NA	NA	NA	NA
AK009_01122	663			hypothetical protein	ATGGAATTCTACAATCTTGGTATTATTATTAAAGAACTTAGAAAGAAAAAAAATATGTCACAATCTGAATTATGTCATGGAATATGTTCACAAAGCCAAATTAGTAAGATAGAAAAAGGGATTATTTATCCATCTAGCATATTGTTGTATCAACTATCTGAAAGACTTGGTATTGATCCAAATTATATATTTGCACTGACCAAAAATAAAAAAATAAAATATATTGAAAATGTAAAATGTGTAATGAGAGATTGTGTGAAACAAAAAGAATATAATGAGCTTTACGAAATAGTGAAAAAAGAGAAAAACGAAAATAATTTCCAATCAAAAGAAGATAAACAATTTCTATTATGGCATGAAGCGATTGCTATATATTATGTAAATGGAGCAACAATTAATGCTTTTGACATTTTAAATAGAGCACTAAAACAAACTTTAAGTAGTAGTAACTTTTTATCAGAAAAAGAAATAAGCATAATGAATTCAATTGCTATAATACATGCAGAAAATGAAGAGTATGAGAAAAGCATAAATATATTAAAACAAAGTTTAATTAATTTTAATAAGATAGAATTTCCTAGAGAAAAAGAAATCAAATTAAGACTCATTCATACGTTAACAAAATGTCTACACCTTGCAAATCAATATGAAGAAAGCGATTAA	MEFYNLGIIIKELRKKKNMSQSELCHGICSQSQISKIEKGIIYPSSILLYQLSERLGIDPNYIFALTKNKKIKYIENVKCVMRDCVKQKEYNELYEIVKKEKNENNFQSKEDKQFLLWHEAIAIYYVNGATINAFDILNRALKQTLSSSNFLSEKEISIMNSIAIIHAENEEYEKSINILKQSLINFNKIEFPREKEIKLRLIHTLTKCLHLANQYEESD				NA	NA	NA	NA	NA
AK009_01123	234			hypothetical protein	ATGAAGAAAGCGATTAAGTATAGTGAAATAGGTATAAAATTAGCCATAAATATGAATACTTTATACTTATTAGGTGAATTGTTTTTTGAAAAAGGTGCAATTTTATTGAAAGTTCAGCACTCTAATGAAGTTGGTTTAACATACATAAAAAAGGCATTATTTATATTTGAACTAACAGAAAGAAAACAATATATAAAAATGATCAAGGATAAATATATTAAAAATGAAGAATAA	MKKAIKYSEIGIKLAINMNTLYLLGELFFEKGAILLKVQHSNEVGLTYIKKALFIFELTERKQYIKMIKDKYIKNEE				NA	NA	NA	NA	NA
AK009_01124	279	abrB_2	COG2002	Transition state regulatory protein AbrB	ATGAAATCAAGAGGGATTACTCGTAAAGCAGATAGCATGGGGCGTATTGTTATTCCAATGGAAATAAGACGGAGTTTAGGAATTGTAGAAAAAGATTCTCTTGAAATGTTTATAGAAGAGGATCAGATTATTTTACGAAAATATCAATCTCCAAGAGCTTGTGCACTTACAGGTGATATTTCAGACAGCAATATTTCGTTAGCGAATGGGAAGATTATTGTAAGTCCAGAGGGGACGGAACTATTAATAAAGAAGTTACAGCAATATCTTTTAAAATAA	MKSRGITRKADSMGRIVIPMEIRRSLGIVEKDSLEMFIEEDQIILRKYQSPRACALTGDISDSNISLANGKIIVSPEGTELLIKKLQQYLLK	PGPT0014790_313	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_01125	1251			hypothetical protein	ATGAATAAAGGAATACTGCAGATTACAGAAATCGAAGAAATTAGCATTCCTAATGTATTGAAGGATAAAATCAAGAATCTAATAGACCATGAATTAAAAACTCATAATCCTTATACTTGTGATCAAGAAATAGCTGCAAGCTTTTCAAGAGAGTGGCTTAATTGTTTGATTGATTATTCAAAGAAAACTTCGAATTCAGATATGAAAAAACTACTACATATGATAAAAGTAGCGAATTGTGGTGGAAACGTACCACCTACTCTTATTAAAAATATTCCATGTGATCCTATGGAAACCCTATTACCTGGGGAAAATCGCAAAGGTTTTAATTATGGTGAAGACGAAGACGATAGAATGAAAAAATATTTTTATGCAGAATGGGTCACATGGCTTTTTGCCACACTTTTTAATTATGATGCTTTAATTCACCCATCCGAACATGCAGGGAAAAATAGATTTCACCTCATTTCCCCTTTGAACAACGATGAAGTTTTGCGAAATGTCGGTGCAAGCACCGGTGGCGGGAACTTTTATCAACATAACGATGCCACAGTGTATACAGACATGAAAGACCAATCAGATATTGAAGCAAGATTGAAAATATTCAATACGAATTTAGAAATTGTATCAAATAGACTTAATAAATCCGTGGAACGAATAGTGTCTGAAATTACTTGTGGAAAATTTACTAGAGTTGATGCTCTTTTATTAAAAGGAGTGTTAAATTTAAAAACTCAAACTCATATTGGAACGCCAAAATTACTTCAAAAGCATCTTGAAGAAAATCACTTCAGTAAAGATGATATATTGGCGATAAGTAAAATGCCTATTGCTCATATCGCAGGAATGGCGGATGGTGAAATATCGGGATTTGTAGGGGAAATAAACCAAATCATATTTTTGGATGATAATGGTGATATTATTGCAACTTGTTTGAATGGAGCAGAAAATAGATTGATTTATGTGGGAAAAAGTGAAGAAGAAAAATTGAAATTTGACATGTTTTTAGAACTCTTACGAACAACGCCCACTTATAAGGTTCCACTTACATCTGAAGATTTATTAATTATTCCAAATTCATACTATGGTAAACAAACAAATGTAACTCATGGTAGGGAAAGGTTATCTGAGGAAGAATATAAAATTCCGATTGGAGATAATAAGTACGGAAGAAGAATTGTTTGCAGGCAGTACGTTTCCAGCCGATTACGTGATCAGAAAGAAAGTTACTTTACAGATATTATTAACTAG	MNKGILQITEIEEISIPNVLKDKIKNLIDHELKTHNPYTCDQEIAASFSREWLNCLIDYSKKTSNSDMKKLLHMIKVANCGGNVPPTLIKNIPCDPMETLLPGENRKGFNYGEDEDDRMKKYFYAEWVTWLFATLFNYDALIHPSEHAGKNRFHLISPLNNDEVLRNVGASTGGGNFYQHNDATVYTDMKDQSDIEARLKIFNTNLEIVSNRLNKSVERIVSEITCGKFTRVDALLLKGVLNLKTQTHIGTPKLLQKHLEENHFSKDDILAISKMPIAHIAGMADGEISGFVGEINQIIFLDDNGDIIATCLNGAENRLIYVGKSEEEKLKFDMFLELLRTTPTYKVPLTSEDLLIIPNSYYGKQTNVTHGRERLSEEEYKIPIGDNKYGRRIVCRQYVSSRLRDQKESYFTDIIN				NA	NA	NA	NA	NA
AK009_01126	759	yfcA_1	COG0730	putative membrane transporter protein YfcA	ATGGATTTTACTATTGAATTACTCATATTACTATTTTTAGTAGCTGTATTAGCAGGGTGGATAGATACAATTGCTGGAGGCGGTGGTATGATAACTATCCCGATAATGTTATTAGTAGGTATGTCTCCTTCTGTAGCGATAGCAACTAATAAATTGCAAGGGAGTAGCGGAACTCTCATGGCGACAGTGTTTTTTATTAAGAAGAAAGAAATTAATCTTAAAGAAATGCGTTTGTCCATCTTAATGACCTTTTTTGGATCAGTTTTGGGTGGATGGCTTGTTTTACAGATACGGGCAGAATATCTAATCATGATATTACCTTTTTTACTTATTATTATTGGTCTTTATTTTCTATTATCTCCAAATATAGCAAACGAAGATCGACCGAGAAAAATAAGTATGTTGTTGTTTGCGTTAACAGTGGCTCCATTCCTTGGATTTTATGATGGTTTCTTCGGCCCAGGAACAGGTAGCTTGATTGCTTTAGCGTTCATTCTTTTATATGGATATAGTGCTACACGGGCAACTGCAAATGCTAAGATTTTGAATTTTACTAGTAATTTCGCTGCTTTGTTGTATTTTATTATTTTTGGCCAAATCGATTGGACAATTGGATTGATTATGATGCTTGGTCAAATTATAGGGTCATATATTGGGGCGAAGATGGTGCTTACAAAAGGGACGTCATTAATACGACCAATAGTGGTTATTGTTTGCTTTGTCATGGCAATTAAGATTTTTTTACAAAATATGAACTAA	MDFTIELLILLFLVAVLAGWIDTIAGGGGMITIPIMLLVGMSPSVAIATNKLQGSSGTLMATVFFIKKKEINLKEMRLSILMTFFGSVLGGWLVLQIRAEYLIMILPFLLIIIGLYFLLSPNIANEDRPRKISMLLFALTVAPFLGFYDGFFGPGTGSLIALAFILLYGYSATRATANAKILNFTSNFAALLYFIIFGQIDWTIGLIMMLGQIIGSYIGAKMVLTKGTSLIRPIVVIVCFVMAIKIFLQNMN				NA	NA	NA	NA	NA
AK009_01127	660	cat_2	COG0110	Chloramphenicol acetyltransferase	ATGAAGCATCCATTATTTAATCATTGGTCAGAAACAAAATATATAAAAGATATAGTAACAAATCCACTCATTGAAGTAGGAGAGTACTCCTATTATTCAGGGTATTATGGTCATCAAAATTTTGAAGATGGTTGTGTAAGGTATTTGTGGGGGGATGCTAAGTCACAAGCACTGTTTAATCCAATTGAACAGATGGGATGGCATCTTGATAAACTCATTATTGGGAATTATGTTTGCATTGCAAGTGGAGTAGTCATTTTAATGGGTGGTAACCATAATCATCACTCAGAATGGATTACAGTATATCCATTCGCTGAGCAAATTGAACAATCATATGAAACTAAGGGCGATACAGTCATTAAAAGTGATGCTTGGATTGGAATGAATGCTATAATAATGCCTGGCGTTACTATTGGTGAAGGTGCAATTGTTGCTGCAGGATCTGTCGTAAGTAAAGATGTTCCGCCGTATACAATAGTTGGTGGAAATCCTGCTAAGGAAATAAAGAAACGATTCACTGATACAGAAATAAACATGTTAATGGAAATGCGTTGGTTTGATTGGGATAGGAAATTGATCGAGAAGGCAATTCCGCTGTTATCTAGTCCATCCATCGAACCATTATTTGCTTTTTATAAAAATGAAGTAAAAAATAAATAA	MKHPLFNHWSETKYIKDIVTNPLIEVGEYSYYSGYYGHQNFEDGCVRYLWGDAKSQALFNPIEQMGWHLDKLIIGNYVCIASGVVILMGGNHNHHSEWITVYPFAEQIEQSYETKGDTVIKSDAWIGMNAIIMPGVTIGEGAIVAAGSVVSKDVPPYTIVGGNPAKEIKKRFTDTEINMLMEMRWFDWDRKLIEKAIPLLSSPSIEPLFAFYKNEVKNK	PGPT0028035_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028035-catB-K00638	NA	NA
AK009_01128	1314	dacA_2	COG1686	D-alanyl-D-alanine carboxypeptidase DacA	GTGAAAGGTATGTTTTGCAAGAGATTTATTGCAATAGTAACAGTGCTTACACTATTTTTTAGTATGTTCGTTACATTTGGAAGAGCAGCAGCGGAAACAGTTTCTGCTATAGACGTTGAAGCAGGATCAGCAATTTTAATAGAAGCAAATTCCGGAAAAATTTTATATCAAAAAAATGCAGATGAATCATTGGCAATTGCTAGTATGACAAAAATGATGAGCGAATACTTAGTTCATGAAGCGGTAGATAAAGGAAAACTTAAATGGGATCAAAAAGTTAAAATTTCTGAATATGCACATAAGATTTCGCAAGATCGTTCATTATCAAATGTTCCATTAGAAAATGGTGGCTCTTATACGGTAAAAGAGTTATATGAGGCAATGGCAATTTATTCTGCAAATGGTGCAACAATTGCTTTAGTTGAAGAGATTGCTGGTAAAGAGGGCAATTTTGTAAAAATGATGAACGATAAGTCGAAAGAGTTTGGAATGAAAGATTATAAATTTGTAAACTCTACAGGCTTAACAAATCAAGATTTAAAAGGATATCACCTAGAAGGGACAACTCTAGACGAGAAAAATAAAATGTCTGCAAGGGATTGTGCAATTTTAGCACAACGTCTTATTCAAGATTTTCCTAAAATATTGAATACAGCAAAAATTCCTAAAAAAACATTCCAAGAGGGTGGTAAATATCCAATTGATATGGCGAACTTTAACTGGATGTTAAAAGGTTTAATTAAGCAATATGAAGGTGTAGATGGTTTGAAAACAGGAACGACTCCAGAAGCGGGAGATTGTTTCACTGGGACAGTAGAAAGAAATGGTATGCGCCTAATTTCTGTAGTGATAAAAGCAAAATCTCATACGGCACGCTTTGATGAAACAAAGAAATTATACGATTATGGATTTGCGAATTTTGAAGTGAAGAATGTCTACGGAAAAGATTCAGTAGTAAAAGGACATGAAACGGTACGAGTAGCAAATGCAAAAGAGAAAGATGTAGTAGTTCAAACGAAGCAAGCTGTTTCACTTCCAATGCGGAAGGGAAACAAAGACGGTTATAAAAAAGAATTTAAAGTATCAAATAAAGAACCAGAAGCGCCTATTAAAAAAGGTGTAACAATTAGTAAAATAATTATCTCGCCTAAAGATAATACCGATCCTGGGTTCTTATCAGGTAATTCATTACAAATAGACCTTGTAACAAAATCTGATGTGGAACAAGCAAATTGGTTTACACGTTTTATACGTAAAACTGGATCTTTTTTTAGTGGTATGTGGGATAGTGCGATTGATATAGTAAAAAGCTAA	MKGMFCKRFIAIVTVLTLFFSMFVTFGRAAAETVSAIDVEAGSAILIEANSGKILYQKNADESLAIASMTKMMSEYLVHEAVDKGKLKWDQKVKISEYAHKISQDRSLSNVPLENGGSYTVKELYEAMAIYSANGATIALVEEIAGKEGNFVKMMNDKSKEFGMKDYKFVNSTGLTNQDLKGYHLEGTTLDEKNKMSARDCAILAQRLIQDFPKILNTAKIPKKTFQEGGKYPIDMANFNWMLKGLIKQYEGVDGLKTGTTPEAGDCFTGTVERNGMRLISVVIKAKSHTARFDETKKLYDYGFANFEVKNVYGKDSVVKGHETVRVANAKEKDVVVQTKQAVSLPMRKGNKDGYKKEFKVSNKEPEAPIKKGVTISKIIISPKDNTDPGFLSGNSLQIDLVTKSDVEQANWFTRFIRKTGSFFSGMWDSAIDIVKS	PGPT0024040_930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_01129	1110			hypothetical protein	ATGAGTAAGAGAATAAAAGAATTAGATTCCATACGAGGGTTAGCGGCACTTACTGTGGTATTTGGACATTTTTGTTTAATGCTACCATCGTTGCCTAATTCTATTAAATTTTCCCCGCTTAGGTTTTTATGGGCGGGTGGGGAAGCTGTTATCGTTTTTTATGTACTAAGTGGTTTTGTGTTATCGATGGCACTTTATCATTCAAAAACAAATTATTGGGGATATTTAATTAAGAGATTTGTAAGAATTTATATTCCTTATTATTTTTGGATAATTGTTTCCTTTGTTTTATTTATTTTATTTTCGTCGTATGAAGTGGTAGGACTACGGGATTGGTTCTATGATAGGTGGCAAGGGTCTATAACAAAATTAGATATTCTAAACCACTTTGTGCTTCTTAATAACTTTTTTACGGAAAATTATAATCCAGTTATTTGGTCATTGGCTCAAGAAATGCGTATATCTATTGTGTTTCCTTTGTTATTCCTTCTTTTTTATAAATTGAATTGGAAGAAAACGATACTATTTGCTTTGAGCTTTTCTTTAATTAGTGTTTTTCTTAATGTGTTGTATATTGGGAAAGCTGAAGGATTTTATAATGGTTATGCTGATACACTGCATTTTACATCTATGTTTATGGTTGGAATGTTACTTTTTAAGTATCAGGAAAAACTTATCTACTCATATAGGAATATGAAAAAATTTAAAAAAGGATTTCTTATTGCATTAGGGATTATTCTGTATTTATATTCCATTTTAATTTATGGTTTTTCCCGTAATGATACTACTTTCTTATTAAAAGATTGGGGTGTCGTAATGGGGGTTGGTATATTTATTATAATGGCTATGAGTAACCTAAAAGTAAAAGCATTTTTAAATAAGAGTGTATTTGTATATTTAGGAGAAATTTCATACAGTATCTATTTGTGTCATTTTCCAATCATGATGGTACTATTTAAACTTTTGTATACAAAGATACCTATCTTTTTCCTTCTTACTTTATGCATTGCAATGACACTACTTTTTTCTATAGTTTCATATCATTTAATCGAAAAGAAATGTATCAACTGGGCAAAACAAAGAACAACCAATTTTTTGAAAAAAGTATAA	MSKRIKELDSIRGLAALTVVFGHFCLMLPSLPNSIKFSPLRFLWAGGEAVIVFYVLSGFVLSMALYHSKTNYWGYLIKRFVRIYIPYYFWIIVSFVLFILFSSYEVVGLRDWFYDRWQGSITKLDILNHFVLLNNFFTENYNPVIWSLAQEMRISIVFPLLFLLFYKLNWKKTILFALSFSLISVFLNVLYIGKAEGFYNGYADTLHFTSMFMVGMLLFKYQEKLIYSYRNMKKFKKGFLIALGIILYLYSILIYGFSRNDTTFLLKDWGVVMGVGIFIIMAMSNLKVKAFLNKSVFVYLGEISYSIYLCHFPIMMVLFKLLYTKIPIFFLLTLCIAMTLLFSIVSYHLIEKKCINWAKQRTTNFLKKV				NA	NA	NA	NA	NA
AK009_01130	591			hypothetical protein	ATGTGGAAGCGATTTGTAGCAATTGGTGATAGTTTTACAGAGGGGATAGGGGATGAAGTTGAGGGAATTGCATTAAAAAGCTGGATAGATCATTTTGTTCAACTGTGTGAAAACGATATAAAATATGCTAATTTGGCAAAGCGTGGCTTAGTAACTAAAGAAATTCGCTCGCAGCAATTGGAAAAGGCGTTAACTTTTAATCCAGATTTGGTTAGTCTCATTGCAGGGGCAAACGATGTTTTAAAAGGACGTTGGAATCATGATGCATATAAGAACGATATGGAATTTATGATAGATTCATTAAGTAAAGCAGGGGCTGATATTATTATAGCAAACCTTCCTGATTTTACAGTTAGGCTTCCTTTTGCTTCTGAAAAAAAACAAGTAATAAAAGAACAATTATTAGAGGCAAATGAAGTTATACGTTCACTGAGCAGAGAATATAAGTTTCATCATGTTGATTTTTGGAATCATCATTTAGTTAATGACAATACGCTTTGGTCTAAGGATTTAATTCATCCAAACTCAAAAGGATATGTAAAAGTTGCTGATTTGATTTTTAGTAGTTTGTCTGTACAGAAGACAAAATAA	MWKRFVAIGDSFTEGIGDEVEGIALKSWIDHFVQLCENDIKYANLAKRGLVTKEIRSQQLEKALTFNPDLVSLIAGANDVLKGRWNHDAYKNDMEFMIDSLSKAGADIIIANLPDFTVRLPFASEKKQVIKEQLLEANEVIRSLSREYKFHHVDFWNHHLVNDNTLWSKDLIHPNSKGYVKVADLIFSSLSVQKTK				NA	NA	NA	NA	NA
AK009_01131	1254			hypothetical protein	ATGAAAACTACTGATTCAAAAGGCCTATTAGGAAATAGGGTTTATTTACAAGTTTTCTCTGCTTATTCATTGCTTATGCTTGGTGTTTTTATTGATATGTTAGCGATTATGACTATAGTTGGGTTTGAATGGGAAGTAGATCCTACTATGATTGGATTGATCCCTGTTGCATATGCACTTCCTGGAATTATTTTTGGCTCATGGGCAGGTGTTATTGCAGATCGTTTTAGAAAAATTCCAATTATGATGTTCTGTAATCTAATGGTTGGTCTAATAACAATTGCTCTTTTATTTGTACAAGATATCCACTGGCTCTTAGTGGCATTAATGATTCGTTCCATTTTTATTGTTTTCTATTATCCTGCACAGCAAACACTAACAAGACAGATTGTATCCCCGGACTTACTTACTAAAGCAGTAAGTATCAACGGAATAGTAGAGCAGGGTACCAAGATAGTAGGTCCACTTATAGGGGGCATGTTGCTGAGCTGGTTTCAACCAGAGTTCTGCCTCATTATAAGAGCTATAAGTTGTTTATTAGCTACCTTAGTTCTCATACCCACAATAAAATTTAAAGAAACTATATCGAAAGAATTTGTTGAAAAGCAAAAACAAAGTACTTGGACCGCTTGGGTACAAGGGTGGGGTTATGTGTTATCTAATCGGATAATATTATCAACCATGATTTTCGTTACAATAGCCATGGCAGTATTACAATTAGTCGACTCACAATTCCCAACTTTATTTAAGAGCTTATTCCCACATGATAAAAGTAAAATGGGATATATCATTTCTATTATTGGTCTTGGCGGAATACTTGGTGCACTACTAACTCAGAAATTAAAACAATTTCAATATGGCTGGGTAGTATGTGGAGGTATGGTTTTAATGGGAATTGGTTTTGGGGGGATTGGTTTGATAACGCCCGGTACGGTCTTCGTTTTAGCCTATTTAATTAGTTTTATCGCTGGTATCGGAAGTGGGCTGATGCTTGTATCTAATCAAGTCATTTTACAAATAGAATCCGACCAAGATCAAGTAGGAAGAGTATTTGGTATACAAAGCAGTTTAACAAACGCAGTTCTAATTATTTCTCCTGCTATGAGTGGCCCATTAGTGCATTTGTTTGGAGTAACTCAACTCTATGTTTATGGAGGGATTGGGCTTGTTATTATTGGATTAATTGGAGTTTCACTGCAGAAATATTTATGGGCTAAACATAAACACGAACCTATAAGAGCAAATAATTTTTGA	MKTTDSKGLLGNRVYLQVFSAYSLLMLGVFIDMLAIMTIVGFEWEVDPTMIGLIPVAYALPGIIFGSWAGVIADRFRKIPIMMFCNLMVGLITIALLFVQDIHWLLVALMIRSIFIVFYYPAQQTLTRQIVSPDLLTKAVSINGIVEQGTKIVGPLIGGMLLSWFQPEFCLIIRAISCLLATLVLIPTIKFKETISKEFVEKQKQSTWTAWVQGWGYVLSNRIILSTMIFVTIAMAVLQLVDSQFPTLFKSLFPHDKSKMGYIISIIGLGGILGALLTQKLKQFQYGWVVCGGMVLMGIGFGGIGLITPGTVFVLAYLISFIAGIGSGLMLVSNQVILQIESDQDQVGRVFGIQSSLTNAVLIISPAMSGPLVHLFGVTQLYVYGGIGLVIIGLIGVSLQKYLWAKHKHEPIRANNF				NA	NA	NA	NA	NA
AK009_01132	4557	lgrB		Linear gramicidin synthase subunit B	ATGACCAATGAGGAATGTTATCGATTAAGCCATCCGCAGCGAAGAATATGGTATACAGAAGTTATTCATTCTGATAAAGGAATATGTAATTTAAGATTTTTATTTAAACTTCATCGGAAAATGAATTATTCAAAATTAAACCAAGTTGTGAATCGCGTTATCAGTGAAAATGACGGTCTGTGCATTAGGTTAAAAGAAAATGGGCATCAGGAACCGAAACAATATTTTATTAAACATGAAGAACAAGAATTTGAGTTTTTTGATTTCAGTAATGTGGAGAATACAAATTTGCTTGAGGAATGGATTGAGCAGAAAACAAAAGACACGTTTACATTATTTAATTCAGATTTATACTATTTCGCTTTAATAAAATTAAACGATAATGAATGTGCAGTCTTTGGAAATGTTCATCATATTATTATGGATGGTTTATCAATTCAAATATTTACTGAGCAAATTGCAAAATATTATTATGAAATGCATAACGAGAATGAGGAAGGCGAAATTAAAAATTCATATGTTCAATTCCTGACCAATGAACAAACATACTTGAATAGTAGTCGCTTTCAAAAAGATCAAAAATTCTGGTTAGAGGAATTTAAAACACTGCCATCTGTGACTGGATTGAAGCCCTATAATACGTACCAAGTTAGCACCAAAGCATCACGTGAGACATTTATATTAACGGAGCATTTGAAGAGAAAGATAGAAAAATTTTCTGAAGATTACAAAATTAGTTTATATACTTTTTTTGTTGCTGCTTTCTCGTTGTCCATGTATCGGTGGACTTCATCGCTTGATATTGGTTTAGGAATGGCTTACGGCAATCGTATGACTAAAATGGAACGAAAATTGATTGGAATGATGGTGAGTACAGTTCCTTTAAGAATGGATATTGATCCAGAAGAAGAAGTACTTTCATTTATTAGCAGGGTGTCCAGAAAACAAAGCAAATTATTGAGGCACCAGAAATATCCATTTGATTTGTTGTTAAAGCAGATTAATAAAGAGAATAATAGTAATGTGAGACTTTTCGGAACTACGATTGATTATAGGGATCGCGATGAAAGTGGTGACTCACTATGGATTCCAAACCATGAAGAGGTACAAGATTTTGCAGTGCATATTGAAAATCTAATTGATATTGACTCTTTACATGTACATATTGATTATCGTGAGGAGCTATTTTCTAAGGAAGAGATAAAACGGTTTTTTAACGTGATGTTAGCGATAATGGAAAACACTTTTGAAAAACCAAAGCAGAAGGTAGCTGAAATAGAAATCATTTCTGAGGAAGATAAAAGAATAAGTTTAGTTGAGTTCAACAATCCTAAACTGAATGTCCCACCTCAAGTAACTATTCATGAAATATTCGAACAGCAAGCGATGATTTATCCAAATACTATTGCAGTTACGTATGAACAAGAAAAAATTACTTATAAGGAGCTTAATGAACGTGCAAACCAGTTAGCTCATTATTTGCAGAAAAAGGGAGTAGGACCTGATACTTTAGTTGGAATATGCGTTGAACGTTCCCTCGAAATGATTGTAGGTATTTTAGGGGTTTTGAAGGCTGGTGGGGCTTATGTTCCACTCGATCCAACATATCCAGAGCAGCGACTTCAATATATTTTAGAAGATGCTAGCATTCAGTTATTCGTGACGCAAGAAAGTTTAAAAGAATTGAAATGGTTACCAGAAAATGTTGAGTCGATTTGCCTGGATCGTGATCAAGATGAGATTGGGAAAGAAAGTAAGACTTTGCCGCTTTCTAATGTCGGTCCCAAAAATCTGGCATATGTAATCTATACTTCGGGATCAACGGGAAATCCAAAGGGCGTTATGATAGAGCATCACAATGTCATTCGGTTATTTAAATCAACGGATTGTTGGTATCAGTTTAATGAAAAAGATACTTGGACGCTTTTTCATTCGTATGCATTTGATTTCTCAGTATGGGAAATTTGGGGAGCATTATTATATGGTGGAAAATTAGTTGTTGTTCCGTACTGGATTAGTCGATCACCTAAGGATTTTTATCAATTATTAGTGGAGGAAGAAGTCACAGTTCTAAATCAGACACCTTCCGCATTTCGACAATTAATACGAGTGTGTGAACAAGAAGATAAGAATAAAAATTTGCAGCTACGTTACGTAATATTTGGCGGAGAAGCATTAGAACCTATTAGCTTGTTACCGTGGTTTCAAAGGTATGGTGAGAAAAACCCACAGTTAATTAATATGTATGGAATTACAGAAACTACAGTTCATGTTACATATTATCCAATTACTCTAGATGATGTGCAGCATGCTTCAAGAAGTAATATTGGAAAGCGGATTCCCGATTTAGAAGTGTATATACTAGACGCTTATCAACAACCTGTTCCTATAGGTGTTGATGGTGAACTTTATATTGGTGGAGCAGGATTGGCACGTGGATATTTAAATAGACCTGAATTAACAGCAGAGCGTTTTATATCTCATCCATTTAGTAGTGATCCGAAAGCAAGATTATACCGGACAGGAGACTTAGCGAGGTATTTGCCAGATGGGAATCTAGATTATCGTGGAAGAATTGATTATCAGGTTAAAATACGTGGTTTCAGAATTGAAATTGGGGAAATTGAGTCTACTTTACATACATATGTATATGTAAAAGAGGCAGTTGTAATTGTAAGAGAAGATCAGCCGGGCGATAAAAGATTAGTAGCATATGTTGTAGGAGATGGAAATGTAGATGGGTGGAGAGAGTATCTTAAAGCGAAACTACCAAGTTATATGGTTCCTTCGGGATTTGTGGCGATGGAAGCTATTCCACTTACAGCTAACGGTAAAGTTGATCGTGAGGCCTTACCTATGCCGGAGGAAAAGCAGATTAATAGTGAATGTGTTGGCCCTCGGAATAGTAACGAACAGATACTGACTACCATTTGGAAGCGAGTATTAGGTGTTAAAAAGGTGGGAATCTATGATAATTTCTTTGAAATTGGTGGCGACTCGATTCTCAGTATTCAAATCATATCTCAAGCAAGTCAAGTGGGGTTAAAACTTACTCCAAAGCAAATGTTTGAATGCCCAACTATCGCTGAGCTGGCACAAGTGGCTATAGAAACGCAGGGAGTACAAGCGGAGCAGGGAATTGTGATAGGTGATGTGCCTCTTACTCCAATTCAGTGCTGGTTCTTCGAGCAAGAACATCCACATACAGAGCATTGGAATCAATCAATGCTTTTAAGAGTAAAAGAAAGATTGGATGTGAAATTACTAGAGGGAGCGATATTAAATTTACTCAAACATCATGATGCTTTACGTTTCCGGTACGAACAGTTACCAAACGGAACGTGGAGGCAGAGAAATGAAGAGACTGATGAGCTGTCAGTACTCCATGTTGTAAAACGGAATCAAGTTAATGAAAAAGAGTGGAATACAATAATACAAGAAGAAATGAACATTAATCAAGCTAGTTTCAATTTAGTTACTGGTCCGTTAATGAGAGTAGTGTACTTTGAAGATAACTTGACTGGAAATGATCGAATATTCTGGGTGATTCATCATTTAGTAGTAGATGGAGTATCATGGAGGATTCTATTGGAAGATTTACAGGTGGTATATAACCAGATGAAACAAGGTCAAGAAGTTCGCTTACCTGCGAAAAGTACATCTTTTAAAGAGTGGTCTGAACGACTCCAGACATACAGTGATTCGGGTATTTCAAAAGAAGTACAAAATTATTGGAATCAACAAGTAGAAAAAGAAACGATGAAAATTCCAATGGACTATCCAATACAAGAAACGACAGAGGAATCGATTGATCAAGTGACGAGGACTTTAGGAATAGAAGAAACACATGAATTGTTACACGAAGTTCCAGTAACTCATAAGACAAGGATTGATGAGGTACTATTAACGGCATTAGGACAAGCTATCGTCGATTGTACAAATCAGCAAACCGTTTCTATTCATCTAGAAGGACACGGAAGAGAAGAGGTAATTGAAGGTATTGATTTATCAAGGACAGTGGGCTGGTTCACGAGTATTTATCCCGTTCATCTCAATTTTCAAGGAACTCAAACACCTATTGAAGGATTAAAGTCTGTCAAAGAACAATTGCGTCGAATCCCAAATCGCGGAGTTGACTATGGTATTTTACGTTACTTGAATAAAGGATTACTTCCGTTTTATCAGCAAAAGCCTTCAATAAGTTTTAACTATTTGGGCCAATTTGATCAGGTTTTCTCAAGGGAATCTTTGTTTATGCAAGAGACAGGATTTACATTTTTAGATCATGCTCCAGATTCCAAACCATCTCATCTAATTGATGTTATCGGAATGGTGAAAGATGAAAAGTTACATTTTGTTTGGATGTATAGTAGAGAACAGTTTTCTAAATTAAAAATTCAATTGATAGCAGATGGTATGTTGAGGCATCTTCGTCAACTTATAAATAAACCAACAACAGAGTCTGCTTTTACGGTATCAGATTTTGCTGATGCAGAGGATCTTACGGAAGAAAGCTTGAGCAAAGTATTACTTAAATTAAAAAAGAAGAGGGTGTAA	MTNEECYRLSHPQRRIWYTEVIHSDKGICNLRFLFKLHRKMNYSKLNQVVNRVISENDGLCIRLKENGHQEPKQYFIKHEEQEFEFFDFSNVENTNLLEEWIEQKTKDTFTLFNSDLYYFALIKLNDNECAVFGNVHHIIMDGLSIQIFTEQIAKYYYEMHNENEEGEIKNSYVQFLTNEQTYLNSSRFQKDQKFWLEEFKTLPSVTGLKPYNTYQVSTKASRETFILTEHLKRKIEKFSEDYKISLYTFFVAAFSLSMYRWTSSLDIGLGMAYGNRMTKMERKLIGMMVSTVPLRMDIDPEEEVLSFISRVSRKQSKLLRHQKYPFDLLLKQINKENNSNVRLFGTTIDYRDRDESGDSLWIPNHEEVQDFAVHIENLIDIDSLHVHIDYREELFSKEEIKRFFNVMLAIMENTFEKPKQKVAEIEIISEEDKRISLVEFNNPKLNVPPQVTIHEIFEQQAMIYPNTIAVTYEQEKITYKELNERANQLAHYLQKKGVGPDTLVGICVERSLEMIVGILGVLKAGGAYVPLDPTYPEQRLQYILEDASIQLFVTQESLKELKWLPENVESICLDRDQDEIGKESKTLPLSNVGPKNLAYVIYTSGSTGNPKGVMIEHHNVIRLFKSTDCWYQFNEKDTWTLFHSYAFDFSVWEIWGALLYGGKLVVVPYWISRSPKDFYQLLVEEEVTVLNQTPSAFRQLIRVCEQEDKNKNLQLRYVIFGGEALEPISLLPWFQRYGEKNPQLINMYGITETTVHVTYYPITLDDVQHASRSNIGKRIPDLEVYILDAYQQPVPIGVDGELYIGGAGLARGYLNRPELTAERFISHPFSSDPKARLYRTGDLARYLPDGNLDYRGRIDYQVKIRGFRIEIGEIESTLHTYVYVKEAVVIVREDQPGDKRLVAYVVGDGNVDGWREYLKAKLPSYMVPSGFVAMEAIPLTANGKVDREALPMPEEKQINSECVGPRNSNEQILTTIWKRVLGVKKVGIYDNFFEIGGDSILSIQIISQASQVGLKLTPKQMFECPTIAELAQVAIETQGVQAEQGIVIGDVPLTPIQCWFFEQEHPHTEHWNQSMLLRVKERLDVKLLEGAILNLLKHHDALRFRYEQLPNGTWRQRNEETDELSVLHVVKRNQVNEKEWNTIIQEEMNINQASFNLVTGPLMRVVYFEDNLTGNDRIFWVIHHLVVDGVSWRILLEDLQVVYNQMKQGQEVRLPAKSTSFKEWSERLQTYSDSGISKEVQNYWNQQVEKETMKIPMDYPIQETTEESIDQVTRTLGIEETHELLHEVPVTHKTRIDEVLLTALGQAIVDCTNQQTVSIHLEGHGREEVIEGIDLSRTVGWFTSIYPVHLNFQGTQTPIEGLKSVKEQLRRIPNRGVDYGILRYLNKGLLPFYQQKPSISFNYLGQFDQVFSRESLFMQETGFTFLDHAPDSKPSHLIDVIGMVKDEKLHFVWMYSREQFSKLKIQLIADGMLRHLRQLINKPTTESAFTVSDFADAEDLTEESLSKVLLKLKKKRV				NA	NA	NA	NA	NA
AK009_01133	6471	lgrD_1		Linear gramicidin synthase subunit D	ATGGGAGACGTTATTGATATATATGGTTTATCACCTTTGCAAAAAGGAATACTGTTTCATACTTTATACGATCAAGATGATGAACATTCATTTTCCTATATTGTACAAGTAGGCTTCTTGCTCGGGGGGCAATTGGATATTGCTACTTTTGAAAAGGCCTGGGAATATGTTATTCAACGACATGAGGTTTTACGTTCAGTATTTGTGTGGGAGGAAGTAGAAAAACCACTACAAGTGGTTTACCAACGTCTTCCTTTTACTATTCATCAAGAGGATTGGAGCACCTATCCACATGATGAAAGGGCGAAGAAATTACAACAGTTTTTGAATGTAGATCGTAGAAAAGGATTTTTATTGGATGAAGCACCATTGATGAGAGTCACTGCGATTAAAGAGGCAAAAGAGGAAACGAGAATTATTTGGACACATCATCATATTTTGCTAGATGGATGGAGTGTGTCATTGGTCTTTAGTGAAGTGATGGAAGTTTATCTCAAGATGATAAAGGGAGAATTGTTGAATCTTCCTAAACCTCTTCCTTATAAAAAATATATTCAATGGATAAATAAACAAGATCAAAGTCAAGCAGAGGAATTTTGGAAAGAAGAATTAAAAGGGTTCTATGCACCTACTCCATTAGCAATGGAAAGAAAGGAACAAGGACAAGAGAAGGGTTATGGAGAATGTGCTTATCAAGTATCTGAGGAACTTACTGAGAGTTTACAAGAGTGGGTACGAAATAGTCGATTAACGTTGAATACGTTAGTACAAGGTGCATGGGCTTATTTGATGAGTAGGTATAGCGGTGACAGTGACGTCGTATTTGGCGTAACTAGCGCTGGGCGTCCTACTGATTTAATGGGAGCAGAGAATATGGTGGGGCTATTTATTAACACATTACCTACCAGAATTCGATTAACGGATAATACATCAGTAGTAGATTGGCTTCGTAAAATACAAATGAAAGAAATGGAACGAAGACAGTATGAGTATAATTCGTTGATAGATATTCAAGGCTGGAGTGAGGTTCCGCGAAATAGCTCCTTATTTCATACCTTGTATGTGTTTGAAAATTATCCAATTCAAGGTGAGAGAAATGATGATTTAAGATTACTAGATGTTACAAGCACGGAACAAACAAATTATCCTTTAACACTCATTGTAATGCCCGGTAAGAAAATTACTTTAAAGTTGATGTATGATCGAAGCTATTTTAATGAAGAAACAATAAATCTGATTCAGAATCACTTATTGCAAATATTAATTCAGATGACGAAGAGCCTAGATTCAAAACTATTTGAAATTACTCATTTAACAGAAGAAGAACAGATACAGTTACTAGAGGAATGGAATCATACTCAAGTTAATTATTCGGCTGAAGGCATGATTCATACGATGTTTGAGGAGCAAGTTAAAAAAACACCGGAAGCAATCGCGGCTAGTTACGAAAATGAACAAATTACCTATAAAGAGTTGGAGAAGCGTGCAAATCAGCTAGCTCATTATTTACAAAAGCATGGTGTAGGCCCAGAGTCTCTAGTTGGAGTATATATGGAACGTTCATTACAAATGATGATAGCGTTATTAGGTATTCTAAAATCAGGAGCAGCGTATGTTCCACTTGACCCTACTTATCCAGAGAGTCGGCTTCGATATATATTAGAGGATGCTGGAATCGAAGTACTAGTGACGGAAGAGAATTCTAAAAATTTGTTTGTATCTGAAAATATAGAAACGATTTGTATGAATAAAGATTACACTGCAATTGAAAAAGAAGAATCAACCCCATGTATAAGTGGTGTAACAGGAGAAAATTTAGCGTATGTTATGTATACTTCAGGATCTACAGGGAATCCAAAGGGAGTAATGATTGAGCATCATTCAGTAATTAATTATCTAGAATGGATGCAACATAAATATCCGCTTTCTGAAAAGGATGTGGTCTTGCAGAAAACGCCATTCTCATTTGATGTCTCTGTTTGGGAATTGTTTTGGGGCATTCACGTTGGTGCCAGTGTATCTTTCCTACCTCCAGGTGGAGAAAAAGATCCTTCTATTATAGCTGAAGTGATTAAACAACATCAGGTTACTATAGTTCAATTTGTACCTTCAATGTTATCTGTTTTCTTAGATCACTTCAATCGTATTGAATTGAACATGAATTGTTCGTCCGTACGCCATGTATTTTCTGGTGGAGAAGAACTAAGTTCAGGGTTAGTTAGACGATTTCAACAGAAATGGAATTATAGTGGACAAGTGAAATTAACCAACTTTTATGGACCAACTGAAGCCACTATTTATGTGAATGCATTTGATATTCAGCCTAATCAAGAATTTGTTTCTATTGGGCAGCCAATACAGAACACGCAATTATATGTATTAGACCAAAATCAACGCTTGCAATCAATAGGAATTGAGGGTGAGTTATATATTGGTGGTGCTGGTTTAGCACGTGGATACTTAAATCGTCCGAATCTTACTGCTGAAAAATTCGTTTCGCATCCATTCCAATTGGGGGAACGACTATATCGAACAGGAGATTCAGTAAGATATCTAACTGATGGAAATATAGAATTTATAGGTAGAATGGACCATCAAGTCAAAATGCGTGGTTTTAGGATTGAATTAGGAGAAATTGAAGCCACTTTAGAAAAATGTTCGTTTATTAAAGAGGCTGTCGTATTAGTTAGAGAAGATCGTCCAGGTGATCAACGATTGGTTGCATATGTAATAAGCGATGAAAATACCGAGGAGTGGAGAGAGTATTTACAAAAACAATTACCGAATCATATGATTCCAGCGCACTTTGTAGAGTTAGAACACTTCCCGCTTACTCCGAATGGGAAAATTGACCGAAAGGCCTTGCCAATACCTGATGAGCAAGCTATTGGAGATTTAAATGTTCTACCTCGGACGCCATCGGAAGAGCTTATTGCCTCGGTTTGGGGTCAAGTGTTAGGGATAGAAAATATTAGTATTCAGGATTCCTTCTTTGAACGTGGTGGGCACTCACTACTTGCTACTCAAATCGTCTCTCGGTTACAAGAACTGTTCCAAATTAAAATTCCATTACGTGAACTTTTCAAGCACGATACAGTGGAAGCATTGGCGAAACGAGTGGATCAGTTACGAAAAGAAGATAAAGAACGAGAGGTTGCTCCTCTTGTACCTATGAAACGAGAAGAAGTTATCCCACTTTCCTATGCGCAGAAACGTCTATGGTTTATTGATCAATTAATGCCAAATAGTGCGATGTACAATATTCATGCAGCGTGTCGCTTAACAGGTAAATGGTCAATTGAAGCATTGGAGGTCGGATGGAATCAATTGTTGGAGCGTCATGAATCATTAAGGACGACAATTCTAGAACAAGAGGATGAACCTTTTCAACAGGTTCAATCTCATGTGTTCAGACATATTCCTCAAACGAATCTAACAGATCTTTCTTTGGAAGATAGGGAAAGAGAAATGAAACGCCTTATTCAAAACGAGGCGGAGGAACCATTTCATTTGGGACAAGGTCCTCTGATTCGAACACGAATATTGAAAGTGGACAGGGAAGAATGGGTTCTCATTTGTACGATGCATCATATTATTTCAGATGGATGGTCAATGGGAATCTTACTTGAAGAATGGATGGCTTTTTATGAAGGAGCACTAACCGGAAAACCAGTGGAATTGAAGGAGTTATCTATCCAATATGCAGATTTTGTCATGTGGCAGAAGGAATGGCAAAAAGAGGAGAATTTGAATCAGCACCTTCAATATTGGAAGGAAGAATTATCTGGGGAACTACCGGTTTTACAATTACCGATGGATCGTCCTCGACCTGCAGTTCAAACCCATCGTGGTGCAAGTCAGTCCTTAATAGTGGCGAATTCCCTACAGGAAAAGCTCAAAGATTTAAGTCTGCAAGAAGGATGCACTTTATTTATGACATTGATGGCAGCGTATCAAAGCTTCCTTTCTCGTTATACAGGACAGGACGACATTATAGTTGGAAGCCCAATCGCTAATCGAAATGTGAAAGAGATTGAGGGATTAATAGGATTCTTTGCAAACACGTTGGTTTATCGAGCTGATTTCAGTGAAAATCCGACGTTCCAAGAACTTTTGTCGCAGGTAAGAAAAAAAGCGCTAAAAGCATACGAGTATCAGGACATCCCATTTGAGAAAGTGGTAGAATCCGTAAAACCTGAACGGAATACAAGTCATTCACCAATATTCCAAACTATGTTTACTTTACAGAATACGAAACAAGAGTTTCTTCAGCTATCTGAAAGACAAATGGAACTCATGGAAAGCCATGCTTCTGTTGCCAAATTTGATTTGAGTTTATTTGCTTCTGAGACGGAAGAAGGATTATCACTAACCTTTGAATATAATACTGATTTGTTTAATGATACAACCATTGAACGTATGGCAAGTCATTTTAAACATTGGTTAAATCAAATTGTCTCTCATCCAAAATGTGTACTATCAGAACTGAATATGTTATCGAAAGTAGAATATAAGCAACTACTAGAGGAATGGAATAAATCGCGTGTTATAGATATGGAAGAAAGTACGATTCATACAATGTTTGAAGAACAGGTGAAAAAAACACCAGAAGCAATTGCAGTAGTGTGCGAAGATGAAGAACTAACATATCGAGAGTTGGACGAACGCTCGCATCAGTTGGCACATTATTTACAAAAAAATGGTGTAACATGCGAATCATTAGTTGGGGTTTGCGTTACACGTTCATCCGAGATGATTGTCGGTCTTTTAGGAATTATGAAGGCGGGAGGAGCATATGTCCCAATTGATCCAGCGTATCCGGAAAGTCGACTGCAGTACATTTTAGAAGATGCTCAAATAAAGGTACTGGTGACGCAGGAAAAGTTACAACAAAAAATGGTTATACCTAAATTCGTCAACGTGATTTGTATTGATCGTAATCGAGCAGAAATAGAACAAGAAGTAACTACGGTATGTACGAGTGAAGTGACGGGCGATAACTTAGCCTATATTATCTATACTTCAGGTTCCACTGGAAATCCAAAGGGAGTAATGATTGAGCACAGGAATACAGTAACAATGATTCATTGGGCGCACCACACGTATTCCCGAAAGGAATTAGCGGGAGTGTTAGCTTCAACTTCGCTATCTTTTGATTTATCCGTTTTTGAAGTATTTGTTCCCTTAACGATGGGTGGTAAGGTGATTGTCACTGAAAATGCTCTACATCTAGAGAAGTTGTCTTCCAAAGGTGTGACTTTGGTTAATACTGTGCCATCGGCAGCAAAGGAACTGGTTCGAGCAAAAACAATACCTTCTTCGGTAAAGGTGATGAATTTGGCTGGAGAACCATTGCCATATTCGCTTGTTCAAGATTTATACGAGAGAAATACGATTGAAAAGGTGTACAACCTATATGGACCGTCCGAAGATACTACGTATTCCACGTATATGGAATTAGAAAAGGGTGTCATGCATAGGGTCCCACCGATTGGTAAACCAATATTCAATACAGAAGTATATGTACTAAGTGCTGAACAAAAAATGGTTCCAATTGGTGTAGTTGGTGAGTTGTACATTGGTGGATCAGGATTAGCACGTGGATATTTAAAGCGCCCTGACTTAACGAAAAATCGTTTTATACCGCATCCGTTTAAAGAAGGAGAGCGAATATACCGGACTGGAGATTTAGTAAGGTATTTGCCGGATGGAAATTTGGAGTATGTTGGGCGAATCGATCATCAGGTGAAAATTCGTGGGTTCCGGATTGAACTAGGAGAAATTGAAGCGATATTACAAAGGCATACACTAGTTAACGAAGCTATTGTGATGGTGCGGGAAGATTATCCTGGCGACCCACGTTTGATTGCCTATGTTGTAGGAGACGGAGATGCTCAAAAGTGGCGTGATTATCTCAAGGATCAACTACCAAATTATATGATCCCAGCCTATTTTGTTGGATTAAATGCATTTCCACTCACTCCTAATGGGAAAATTGATAGGAAGGCTTTACCAGCACCAGAGAAACAGGAGATAGCAAGTGGTTATATTGCTCCTCGTACGTCTACGGAAAAAACAATCGTTTCGATATGGCATGAAGTTTTAGGTATGGAAAACATCGGAATTCAGGATTCGTTTTTTGAAATTGGTGGCCATTCATTACTTGCTACGCAAGCTGTTTCTAATCTTAAAGAGGCTTTTGCAATCGACATACCATTGCATGATTTATTTATGTTTCATACGGTGGAGCAATTGGCAGAACAGATTGATCAATTGCTCGATAACAAAAATCAAGAAATGCAGAATGGTAGTAAGGAGAATGTAAGTCTTCAAGACTATATTCAAAAGGAAGCAGAAGTGAGTAATGATGAAGAATTACTGGAACTACTTAAGCAATTAGAAGAGCTATCAGAGGAAGAAGCACAAGGGATATTCGAGAGTAATTTGATTGAGGAAGGGGTAAAAAAATGA	MGDVIDIYGLSPLQKGILFHTLYDQDDEHSFSYIVQVGFLLGGQLDIATFEKAWEYVIQRHEVLRSVFVWEEVEKPLQVVYQRLPFTIHQEDWSTYPHDERAKKLQQFLNVDRRKGFLLDEAPLMRVTAIKEAKEETRIIWTHHHILLDGWSVSLVFSEVMEVYLKMIKGELLNLPKPLPYKKYIQWINKQDQSQAEEFWKEELKGFYAPTPLAMERKEQGQEKGYGECAYQVSEELTESLQEWVRNSRLTLNTLVQGAWAYLMSRYSGDSDVVFGVTSAGRPTDLMGAENMVGLFINTLPTRIRLTDNTSVVDWLRKIQMKEMERRQYEYNSLIDIQGWSEVPRNSSLFHTLYVFENYPIQGERNDDLRLLDVTSTEQTNYPLTLIVMPGKKITLKLMYDRSYFNEETINLIQNHLLQILIQMTKSLDSKLFEITHLTEEEQIQLLEEWNHTQVNYSAEGMIHTMFEEQVKKTPEAIAASYENEQITYKELEKRANQLAHYLQKHGVGPESLVGVYMERSLQMMIALLGILKSGAAYVPLDPTYPESRLRYILEDAGIEVLVTEENSKNLFVSENIETICMNKDYTAIEKEESTPCISGVTGENLAYVMYTSGSTGNPKGVMIEHHSVINYLEWMQHKYPLSEKDVVLQKTPFSFDVSVWELFWGIHVGASVSFLPPGGEKDPSIIAEVIKQHQVTIVQFVPSMLSVFLDHFNRIELNMNCSSVRHVFSGGEELSSGLVRRFQQKWNYSGQVKLTNFYGPTEATIYVNAFDIQPNQEFVSIGQPIQNTQLYVLDQNQRLQSIGIEGELYIGGAGLARGYLNRPNLTAEKFVSHPFQLGERLYRTGDSVRYLTDGNIEFIGRMDHQVKMRGFRIELGEIEATLEKCSFIKEAVVLVREDRPGDQRLVAYVISDENTEEWREYLQKQLPNHMIPAHFVELEHFPLTPNGKIDRKALPIPDEQAIGDLNVLPRTPSEELIASVWGQVLGIENISIQDSFFERGGHSLLATQIVSRLQELFQIKIPLRELFKHDTVEALAKRVDQLRKEDKEREVAPLVPMKREEVIPLSYAQKRLWFIDQLMPNSAMYNIHAACRLTGKWSIEALEVGWNQLLERHESLRTTILEQEDEPFQQVQSHVFRHIPQTNLTDLSLEDREREMKRLIQNEAEEPFHLGQGPLIRTRILKVDREEWVLICTMHHIISDGWSMGILLEEWMAFYEGALTGKPVELKELSIQYADFVMWQKEWQKEENLNQHLQYWKEELSGELPVLQLPMDRPRPAVQTHRGASQSLIVANSLQEKLKDLSLQEGCTLFMTLMAAYQSFLSRYTGQDDIIVGSPIANRNVKEIEGLIGFFANTLVYRADFSENPTFQELLSQVRKKALKAYEYQDIPFEKVVESVKPERNTSHSPIFQTMFTLQNTKQEFLQLSERQMELMESHASVAKFDLSLFASETEEGLSLTFEYNTDLFNDTTIERMASHFKHWLNQIVSHPKCVLSELNMLSKVEYKQLLEEWNKSRVIDMEESTIHTMFEEQVKKTPEAIAVVCEDEELTYRELDERSHQLAHYLQKNGVTCESLVGVCVTRSSEMIVGLLGIMKAGGAYVPIDPAYPESRLQYILEDAQIKVLVTQEKLQQKMVIPKFVNVICIDRNRAEIEQEVTTVCTSEVTGDNLAYIIYTSGSTGNPKGVMIEHRNTVTMIHWAHHTYSRKELAGVLASTSLSFDLSVFEVFVPLTMGGKVIVTENALHLEKLSSKGVTLVNTVPSAAKELVRAKTIPSSVKVMNLAGEPLPYSLVQDLYERNTIEKVYNLYGPSEDTTYSTYMELEKGVMHRVPPIGKPIFNTEVYVLSAEQKMVPIGVVGELYIGGSGLARGYLKRPDLTKNRFIPHPFKEGERIYRTGDLVRYLPDGNLEYVGRIDHQVKIRGFRIELGEIEAILQRHTLVNEAIVMVREDYPGDPRLIAYVVGDGDAQKWRDYLKDQLPNYMIPAYFVGLNAFPLTPNGKIDRKALPAPEKQEIASGYIAPRTSTEKTIVSIWHEVLGMENIGIQDSFFEIGGHSLLATQAVSNLKEAFAIDIPLHDLFMFHTVEQLAEQIDQLLDNKNQEMQNGSKENVSLQDYIQKEAEVSNDEELLELLKQLEELSEEEAQGIFESNLIEEGVKK	PGPT0032280_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-GRAMICIDIN_METABOLISM,PGPT0032280-lgrB-NA	NA	NA
AK009_01134	14883	dltA_2		D-alanine--D-alanyl carrier protein ligase	ATGAGAAGTGATTTACTTGCAAAGCTGAGTTCACTTTCTCCTGAGAAGAGAGCATGGCTTCAGAAGCAAATGCAAAAAAAGGAGAATAAAGAAGCTCTCCCGTTGTCTTATGCACAACAACGTTTGTGGTTTATGGACAGATTTAATCCAAATAGTTCTTTATATAATATTCCAACGGTATGGCATCTAAAAGGAAATTGGATACCTGAAGCATTAGAAAAGGGATTCAATCGACTCATTGAACGCCATGAATCATTACGAACTGTTTTTAAAGAAGTAGGAGAACAACCTGTGCAACAAATTGTCGAATTCCTTCCTAGAGCATTACCTGTAAGAGATTACTCTCAACTTCCTCTAGAAGTAAAAGAAAAAGAGGTAGATAGTTTAATTGCGAGAGAAGCGCAAGAACCATTTAATTTAATGAATGGTCCTTTAGTTCGTAATCAGCTTGTTCAATTAGAGAAGGATGAATGGTTATTACTGTGTACGATGCATCATATTATTTCTGATGCTTGGTCCATTGGTATATTCATGAATGAATTACTTGCTTTCTATGAAGAAGAAACGGGCGGAAATCCTGCTAAATTAAGTTCATTATCCATTCAATATGCAGACTTTGCGAAGTGGCAAAAGGAGTGGTTGCAAGGTGATGTGCTAAATCGTCAGCTTACGTATTGGCAAGAAGAATTATCTGGTGAGCTTCCTATTTTACAACTGCCAGTGGATCGACCTCGACCGGTTAAGCAGACTTACTCTGGGGCTACGCATCACGTAATTTTTCCTTATAAATTGCTTAGTCAATTGAAGGATATAAGTCGACAAGAAGGATCTACTTTATTTATGACTTTAATGGCCGCATACCAGAGCTTTCTTGCTCGTTATACGGGACAAAAAGATATTCTAGTTGGTAGTCCGATTGCAAATCGGAACCATAAGGGAGTAGAAGGATTAATTGGTTTCTTTGTTAATACGTTGGTTTACCGATCAGATTTGAGTGGCATCCCTACTTTTCGAGAGATTTTGAACCAAACAAAGAAAAAGGCGTTAAAAGCTTACGAATATCAAGATATACCATTTGAAAAAGTGGTAGAAGCTGTGCAACCTGAACGAAGCACGAGTCATTCCCCTATATTTCAGACCATGTTTACGCTACAAAATATAAAACAAGAACGACTAGATTTGCCTGATAGAAGTATTGAAATGGTAGAAAGTAATATGTCTATTGCTAAATTTGATTTGAGCTTAACTGCCTATGAAGTGGAAGAAGGTCTATTCGTCTCATTTGAATACAACACGGATTTATTTGATAGTAGTACCATTGCACGTATGGCAGGACATTTTGAGAACTGGCTAAATGAAATCACGTATCATCCAGATGAATCATATACAAAGCTGTCAATGTTATCGGATACTGAGCAAAAACAACTCCTAGAAGAATGGAATGATACGGACGTAGTTTATGGTCATGATTGTATGATTCATGAGCTATTTGAGCAGCAAGTTGCACGGACACCTAATGCAGTGGCGGTAGTTTATGAGGGTGGAAAGCTAACGTATCAAGAACTGAATGAAAAATCGAATCAATTGGCACATTTTCTACAAAAACGAGGTATCGGACCTGAATCATTAGTCGGTATATGTATTGAACGTTCTCCTGATATGATTATTGGTCTCTTTGGGATTTTGAAAGCAGGTGGGGCTTATGTCCCACTGGACCCAAGTTATCCCGAAAACCGCCTGAGATACATTTTGGAGAATTCACAAATTCAAGTGCTGTTAACAAAAGAGGCACTACAGGACTGGTTACCTAAAGATATTCGAGCAATTTGTTTAGACCGGGATCAAGTAATGATTTCTAAAGAGAGTAATTTAGCTCCGGTGAGTGGAGTAACAGCAAATAACTTAGCCTATATTATATACACTTCGGGTTCGACGGGAAATCCAAAGGGGGTAATGATTGAACATCATTCCGTTATCAACCGTCTACAGTGGATGCAGAAAAAATACCCATTGTCCGAGGACGATACAATCCTACAAAAGACACCGTTTTCATTTGATGTTTCTGTCTGGGAATTATTTTGGTGGTCATTTGTAGGAGCACGTGTTTGTTTACTTCCACCAGGAGGAGAGAAAGATCCTGCGGTGATTGAGGAGTATATTGAACGATATCGTGTGTCCACCATGCACTTTGTTCCGTCGATGTTATCTACTTTTTTAGATTATATGGAACTATATAATTCGAAAAGGGATGTATCGTCTTTAATTCAAGTTTTTACTAGTGGAGAAGCGTTAAACACTGAGCAGGTTCGCCGGTTTAAGGGGATCTTTTACAATGTTCAGCAAACAAAGTTAATGAACTTGTATGGTCCTACTGAAGCGACTGTGGATGTGACTTATTACGATTGTGATTTAGAAAAAGAGGCAATGCTTATTCCGATTGGTCGTCCGATTGATAATACAGAGTTGTATGTGTTAGATCAATATCAACAAGTGGTCCCGATTGGTGTGGCAGGGGAACTTTACCTTGGAGGAGTAGGATTGGCACGTGGCTACTTCAATCGACCGGATTTAACTACTGAACGTTTTATTCCGCATCCTTTTAAGGACGGGGAACGATTATATCGAACGGGTGACTTGGTGAGATATATGAATGATCGTAACTTAGAATATATTGGAAGAATAGATAACCAAGTCAAAATTAGAGGATTCCGAATTGAATTGGGAGAAATTGAAGCAGCTTTACATGATCACTCATCTGTAAAAGAGGCAGTCGTGTTGGTGAAGGAAGATCGACCAGGAGATAAGCAGTTAGTAGCTTATGTAGTGGGTGAAGGGGATACTGGAGAGTGGCGTGAATATCTCAAGAAGCAATTACCACATTATATGGTTCCGGCATACTTTTTCCAAATTGAAGGTATGCCACTCACTCCAAATGGTAAAGTGAATCGGAAAGCATTATTGGAATTAGAAGAACAGTTCATAAGTGAAGATATTACTTCATCACGAACACCAGTGGAGGAGCTCATTGTTTCCGTTTGGAGCCAAGTGTTAGGAATAAAAAATATTAGTGTGCAGGATTCCTTTTTTGAAATCGGTGGTCATTCACTACTAGCTACTCAAGTAGTGTCACGTTTACAGGAAATTTTTCAAATCGAATTACCAGTACGTGAACTATTTGAATATACAACGGTGGAGTCACTGGCAAAGCGATTAGAACAGCTACGTAAAGGAGATAAAAAACGAGAGATTCCGCCACTAATACCGATGGAGCGAGGAGAAGCTATTCCACTATCTTATGCCCAACAACGTTTATGGTTTATTGATCAATTTACACCTAATAGTGCCCTTTACAATATGCCAATGGTATGCCGTCTTACAGGGAATTGGCTACTTGAAGCATTGGAAACGGGATGGAATCAACTAATAGAACGTCATGAATCACTGCGGACGGTCTTTCAAGAAGTGAATGGTCAACCCGTACAGCAAATTAAATCGTATGCTTTTCAATCAATTCCGAAAACGGATTTAACTATGCTTTCTTCTGAAGACCGAGAAGAAGAGGTTAAACGTTTCATTCAACAAGAAACAGAAGTGCCATTTGATTTAACAGAGGGTCCATTAATCAGGACGAGTATTTTGCACGTGGGAGAGGAAGAATGGATACTCCTTTGTACTTTACATCATATCATTTCAGATGGATGGTCAATGGGAATCCTACTTGAAGAATGGATGGCATTTTATGAGAAAGCAACGGATGGAAAGGTGGCGGAACTTGAACCATTACCGGTTCAATATGCCGACTTTGCTCAGTGGCAAAAAGGATGGCTGAAGGAGGAAGTGCTTGATCAACAACTTCAATATTGGAGGGAAGAATTGTCTGGGGAGCTTCCTGTACTCCAACTTCCTATGGATCGCCCGCGTCCTGCAATACAAACTCATCACGGGTCGACATACACTCTAGTTTTGCCAAGCACGCTACATGATAAATTGAATGAACTTAGCCGAAAAGAAGGGGCTACACTCTTCATGACGCTGTTGGCTGCGTATCAAAGTTTTCTATCTCGTTATACGGGACAAGAAGATATTTTGGTCGGAAGCCCAATTGCGAATCGGAATTATAGAGAAATTGAAGGACTAATTGGTTTCTTCGTTAACACGCTGGTTTATCGAACTAATTTGAGTGGTGGACCGACATTTCAAGATGTACTGTATCAGGTTCGTCAAAAGGCATTGAAGGCGTATGAATATCAAGATATCCCATTTGAAAAAATTGTAGAAGTTGTGCAACCGGAGCGAAGTACAAGTCATTCGCCAATCTTCCAGACTATGTTCATCTTGCAAAATATGAAACAAGAGTTTCCGGTGTTATCTAGTAGAAGTATTGAAATGATAGAAAGCCATAGTCCAATTGCAAAGTTTGATTTAAGTGTGATGGCAGTTGAGACAGAAGAGGGATTACTTTTTACTTTTGAATACAATAAGGATTTATTCAATGCTACTACTATTGAACGGATGGCAGGACACTTTGAGAAATGGCTATATGAAGTTTCTCATCGCCCACAAAATCCGTTGCATGACCTGAGCATGCTATCGGAACCCGAGCGTAATTTGTTATTAGAAACATGGAATGAAACTGTAATGGAAATGTCCCATCAGGGTCTTATTTGCGAAAGATTTGAGGAGCAAGTAGCAATGCGTCCTGATGCGATTGCGATAGTTGATCAAACAAAACAGTGGACTTATGGTGAACTGGATATACAAGCAAATCAGTTGGCAAATGTTTTACAGCGAAAGGGAGTAGCCCCAGAGTCAGTGGTGGGAGTTTATCTTCCGAGGTCAGCAGAGCTAATGGCAAGTTTACTAGGCATTTTAAAAGCTGGTGGAGCTTATGTTGTTTTAGACCCGTTGTATCCAAAATCAAGGTTAGAATACATGATTGAAGATGCAGGAATTCAATTTGTAGTGACGGCGGAAGTACAAGAAGGACATTTCGCACACGTCGAAATGGTGAGGTTAGAAGAATTAACGGTGGAAAGCGTAATTGCACCTACACGTCAAATAAATCCAGAGAACTTAGCCTATATTGTCTATACCTCTGGTTCTACAGGAAAACCGAAGGGTGTTATGGTTGAATATCGCTCATTAATGAATATGGTTTCTTGGCATCAAGAAGTTTATCGTATTTCAGCAGAGGATCGTGCGACTCAGATTGCAGGGGTTGCTTTTGATTCGGCTGTCCAGGAGATTTGGCCGTATCTAACTGCTGGTGCAGCACTCTACTTGTCAACAGAGGAACTGAGAATTAATCCAGAAGCACTAAGGGACTGGCTCATTGATTCACGAATAACAGCTAGTTTTGCACCTACGCCTATTCTGGAAAGACTCTTGAAATTATCTTGGCCAGATAAAACGGATCTTCGTTTTATCATTACTGGTGGGGATCAATTAACACAGTATCCATCTAACGATATTCCTTTTGCGGTAATTAATCAGTATGGTCCATCGGAAAATACCGTTGTTACCACAGATTGTTATGTACCTGTAGGAGTGACAACAGGTACGCCATCGATTGGTCGACCGATTGCGAATACAGAAGTTTATGTGTTAGATTCTCATCTTCAGCTAGTACCAATTGGTGTAATTGGAGATCTCTATATTGGAGGGAAGAGTCTTGCACGTGGATATGCTAATCGTCCGGATCTTACAAAGGAAAAATTTATTCCACATCCTTTCAAGTCAGGAGAACGTCTCTATTATACAGGAGACAAAGCAAGTTATCTTTCTGATGGTAATCTCCAGTTCCATGGACGTATAGATGACCAAGTGAAAATTCGTGGTTTCCGGATTGAATTGGGAGAAATAGAAGCTGTTTTGCAGGCGCATTCTTCTGTGAAAGAAGCTGTTGTATTGGTGCGAGAGGATAATCAAGGTGATAAGAGATTAGTAGCTTATGTAGTTGGTGAAGGAAGTGTCCATGAATGGCGAGAACATCTACAAACACATTTACCTAATTACATGGTTCCAACAAACTTTATTGAGATGGAATTTTTACCACTTACACCGAATGGAAAACTTGATTTGAAGGCATTGCCTATACTTAGTGAACAATCCGCTGAAAATACTGTATACCCAAGAACTCCGCTGGAAGAACTTATTGCTTCAGTGTGGAGTCAAGTGCTAGGAATAAGAGACATTGATGTTCAGGATTCTTTCTTTGAGCTCGGTGGTCACTCTCTACTTGCTACACAAGTGGTCTCACGCTTACAGGAGGTCTTTCAAATCAAATTGCCAGTACGTGAACTGTTCGAATATTCAACGGTCGAGGCATTATCGAAACGAATAGATCAGTTACGTAAGGGGAGCGAAAAACGAGAAATTCCACCATTGATGCCGATAGAACGAGGGGGAAATATTCCACTGTCTTATGCCCAACAGCGCTTATGGTTTATTGATCAATTTGCACCTAATAGTGCACTTTATAATATGCCAATGGCATGCCGTCTTACAGGGAATTGGTTACCTGAGGCATTGGAGTTGGGATGGAATCAGTTGATAGAGCGTCATGAATCTTTGCGGACTGTATTTTATGAAGAGAATGGCCATCCTATCCAGCAGATTCAACCGTACGTTTTCCGTCCGCTTCTGCAAATGGACTTAACTAAGCTTTCATTAGAGGAGCGAGAAAGAAAGTTGGAGCAATGGATTCAAACTGAAGTCGAATCTCCATTTGATTTAGAACAAGGGCCATTGTTCCGTGGGAAACTCATAAGAATTTCAGAAGAAGAATGGATTCTTCTGTGTAATATGCATCATATTATCTCAGATGGATGGTCGATGGAAATCTTACTTCAAGAATGGATGGCATTTTATGAGAATGCGATTGGTGAAAAACAAGCAGAGCTGGAACCACTACCAGTTCAATATGCCGATTTTGCTCAGTGGCAAAGAGAATGGTTGAAAGATGAATTACTATATCAACAACTTGCGTATTGGAAGGAAGAATTATCCGGTGAGTTACCAGTCTTAATGTTGCCAATGGATCGTCCGCGTCCGCCAGTGCAAACCCACCATGGATTAACTCATAATGTTTTGTTATCGTGCTCATTACTGGATAAATTAAACGAACTAAGTCGTCAAGAAGGGGCCACACTTTTCATGACCTTATTGGCAGCGTATCAAAGTTTCCTTGCTCGTTATACGGGACAAACGGATATTATTGTTGGTAGCCCAATTGCAAATCGAAATTATCGAGAAATTGAAGGACTGATTGGTTTCTTTGTCAATACATTGGTTTATCGAGCTGATTTAAGTAATGCACCGGCATTTCAAGAGTTGTTGTCTCAAGTACGGATAAAAGCATTGAAGGCGTATGAGTATCAAGATGTTCCGTTTGAGAAAATTGTAGAGGTTATCCAACCTGAACGAAATACAAGCCATTCTCCGATTTTCCAAACCATGTTTACTTTGCAAAATACGGGACAGAAGCTACCAGAACTACATGGAAGAAATATAGAAGTAATGGAAAGTAATTCCCCTATCGCTAAGTTTGATTTAAGTTTAACTGCTGCAGAAGTGGAAGAGGGTTTATTACTTACTTTTGTTTATAGAACTGATTTATTTGACAGCTTAACTATTGAATCCATGGCTGAACATTTTGGGAACTGGTTGAATGTAATCGTGGAGAATCCTGATAAATCATTAGCTAAGTTGCCTATATTATCAGGATTACAGCAAAAACAGTTGGAAGAGTGGAATAATGATGCTGTAGCATATCTACAGGAAAGTACGATTCATCAGCTGTTTGAAGAGCAAGTAAATCGTACACCTGATGCGGTAGCAGTGGTAGATGAAAAACAGCAGTTAACGTATCGAGAGCTGAATGAAAAAGCTAATCAATTGGCCCACTATCTTCAGCAATGCGGAATTGGGAATGAATCATTGGTTGGACTTTACTTTGAGCGTTCAGTTGAGATGGTTGTTAGTATTATGGGGATTTGGAAGGCTGGAGCAGCCTATGTTCCATTAGACCCATCATATCCAGAAAGTCGCCTACGATATATTTTGGAGGACACTGGAATTCAAGTATTAGTTACGAACGAGTCATTGGAAGACTGGATACCTAAAGAAATGAAGATAGTTTGTCTAGATAGGGATCAAGCAATGATTTCACAAGAAAGCATTCTTTCACCAAAATGTGAAGTAACAGGAGAAACCTTAGCGTATGTTATCTATACTTCAGGATCAACGGGGAATCCAAAGGGTGTCTTGATACAGCATCATTCTGTACTAAACTTGTCACATGGTTTACAAAAAGAGGTTTTCGAACATGAGATACCATCTAACATGCATGTCGGTTTAAATGCGTCAATTGCCTTTGATGCATCTATCCAGCAATTACAAATGCTGCTTTATGGTTCAAGTTTGTATATTATTCCAAATGAAGTACGAAGTGATCCGGAGCAGTTTGTAGCTTATATTAGGGAGAACAAGTTAGAAATCTTTGATATAACACCTTCATTGCTTCAATTACTTATAGATGTCGGATTGTTAGAAACGTGCGATGGCATTCATGTTCCAAGTAAGGTACTGGTTGGTGGTGAAGCAATTATGCCGTCATTATGGGAACAGCTAGTAGAGACTGATAAAATACAGTTTTATAATGTATATGGTCCTACAGAATGTACGGTTGATGCAACATGCTATCATATCAAAAAAGATAGTAAGAGAGTAACAATTGGGCGTCCATTGCCTAACGTCCAAACTTATGTATTAGATAGAAATAGGTTACCAGTTCCAGTTGGTGTGATGGGGGAACTTTATATCGGAGGAGCAGGTCTAGCAAGGGGGTACTTGAATCGTCCAGAGTTAACATCCGAACGATTTATTTCTCATCCATTCAAAGAAGGCGAGAGGTTATATAGAACAGGCGATCTTGTGAGATATCTTCCAGATGGTAATATAGACTACTTAGGAAGAATGGATAATCAAGTGAAGATTAGAGGATTTCGAATCGAACTTGGGGAGATTGAGTCGACTTTACAAGAGCATGACTTGGTAAAAGAGGTAGTTGTAATAGTTAGGGAAAATCAGTCGGGAGATAAGAGATTAGTAGCTTATGTAGTGGGCGAAGGTAGTTTAGAAGAATGGCGAGAGTATCTTAAAACAAAACTGCCAATCCATATGATACCTTCCTACTTTGTCGAAATGAAAGAATTACCGCTAACCATAAATGGAAAGGTTGATCGGAAATCGTTACCTATACCAGATTATCAAGGAACACAAGAAGGCTACGCGGCCCCAAGAAATGAACGTGAACATAAGCTTTCTATCATTTGGGAACGTGTGCTAGGTTCAAAACGTATTGGTATTTATGATAACTTTTTTGAAATTGGTGGAGATTCAATTCTTAGCATTCAGATTGTCTCTCGTGCAAAGCAAGCTGGTTTACAGTTGACACCAAAACAACTATTTGAACACCAAACGATTGCTGAGTTGGCGCAAGTAGTCAAAGAAGAACAAGGTGTACAAGCTGAACAAGGAATTATAACTGGAGAGACGATACTTACACCTATTCAGCAAAGGTTTTTTGCACAAAATCATCCTAATCCACATCATTGGAATCAATCCATGTTCTTTAGAACGAAAGAAAAATTGGACATAGGATCACTGGAAAAGGCAGCGCGTAGCCTTCTACTTCATCATGATGCCCTGCGTTTAAGATATGAACGTTTACCTAATGGGACTTGGGAACAGTGGAATGAAGGAATTAAAGAACAATTGATGCTGACTGTCATTTCATTAGACGAAGTGCCGGAAGCGGATTGGCATGAAGTTATTCAAAAAGAGATTAATGTTGCACAAGAAAGATTGAATTTACATGATGGTCCTTTAATGAGAATGGTGTATTTTGATGAAGATGAGAAGACTGGCCGATTATTTTGGACAATTCATCACTTAGCCGTGGATGGTGTTTCTTGGCGAATTTTATTGGAAGATTTGCAAACAGCGTATACGCAAGCAGTCCAAGGACAAAAAATTCAATTACCTATGAAGAGTACATCTTTTAAAGAATGGTCGGAGAAATTACAACATTACGCTGAAACTGGAATATCAAAAGAAGTGCTACATTACTGGGAGCAGCAGGCTGAACAAGACGTAGTTATACTGCCAGTAGATGGTACTATAAGTAATCCAGTAAGCGCAGTAACTGAGGAAATTACTGTGGTGTTAAACGAGAATGAGACCCGTATGTTATTGCAAGAGACTTTAAGCACTCACCGTGTCCAAATCAATGAAGTATTATTAGCAGCATTGGTACAAGCTACAGCAGCATGTACGGGGCGGCCGATATTAAGCGTAGATTTAGAGGGACATGGTCGAGAAGAGATTATTGAAGATGTTGATTTATCGAGAACCGTGGGATGGTTTACAAGTATTTACCCAGTTCATTTAAATATTACTAATGCTAATACGCCAATTGCAGCATTAAAAGCAGTTAAAGAACAAGTTCGCAAAATTCCTAATAAGGGTGTTGATTATGGGGTGTTGCGTTACATGAACGCAACAATGTGTGAGCAATTAAGCTTCCAATATACACCGTCTATTAGTTTTAACTATCTTGGACAATTTGACCAATTGTTTTCTAGCGATGCAATGTTTATTCCAGAGAACGAATTTAAGCGTTTAGATCATGCTGCCGGTTCCAAGCGATCGCATGTAATTGATGTAATTGGGGTTGTAACGGATGGAAAACTTCAATTCACTTGGGTATACAATGTTGGACAATTTGCCAAATCAACGATTCAAAGTATTGCACAGAATATGCTATATCAAATGAGTACATTGATCCAATTTTCAGATAGAGAATCTGCACTGACCATTTCGGATTTTGCAATGGCTAATCTTAGCCAAGAAGGTTTGACAAATGTACTAAACAAAATGCATCGCGGAAAGAACAATCAGATTACTGATTTATATCCACTATCACCTTTGCAAGAAGGTATGATTTTCCACACATTGCATGACCAAGGGGATGAATATGTTGCACCGTATATAGTGCAATTGAGTTTTATGATTCGAGGGAAAATGAATATTCCTACATTTGAGCAGGCGTGGAAATCTGTAATTCAGCGGCATGAAATTTTTCGTACAGCATTTGTATGGGACGAAATTGAAGAACCTGTACAAGTGGTGTATGAAAATATCCCATTTAAAGTGAACAAAGAAGACTGGCGTACAATGACGAGTGAAGAGATAGAGGAAAAAAGAAAAGTCTTTTTGGAATTAGATCGAAAACAAGCCTTCCAATTTGATGAAGCACCATTGATGCGGGTAACAGTCATTCAAGAAGGTGAGGAAGAATATCGGATTGTTTGGACCCATCACCATATTTTACTGGATGGATGGAGTTTACCATTAGTATTTAATGAATTACTTACAGTCTATCAAAAGAGAATGAATGGAGAAGCTGTGAAGTTACCTAAGTCCTCACCATATAAGAAATATATCCAATGGCTCAGAGAACAAGATAAGGAGCAGGCGGAACAATTCTGGAGAGAGAAGCTAAAAGGTTTTACTGCACCAACTTTACTGGGCTTAGAAAGTAAAGAGGAAGAAAAAGGTTACACAGAGAAGGTTACGTATTTATCAGAAGAGCAGACTCAAGCGTTACAAGGATGGGCGAAACGCAATAAACTTAATTTGAGTACAGTAATTCAAGGTGCATGGGCATATCTCATGAGCCGATATAGTGGAGAAAATGACATTGTTTTTGGTGTAACAAGCTCAGGGCGTTCTACGGAGATTATTGATGTTGAAAACATCGTAGGTCCTTTCATTACAACGTCACCGACGCGAATTCAATTGATGGATGATATAAAATTAATAGATTGGTTGCAGAAGATACAAGAGGAAGAGATAGAAAGAAGACAATATGAGTATGCTTCTTTGACAGAGATTCAGGGGTGGAGTGAAGTTCCTAGAGGAATACCGCTGTTCAATAGTTTATATGTGTTTGAAAATTATCCAGTGAAAGAGGAGTCTTCAGAAAATCTGGAAATTGGTGAATTGGAAGGGGTAGAACAAACCCACTACCCATTAGGGTTAGCTGTAGTTCCAGGAATCCAGTTATCGTTAAAGTTAATGTATGACCGTAGTAAGTTTAATAGAGTAACCATTGAACGAATGCTGGGTCATTTACACCAAGTGTTAATGCAAATGCTCAAAAACATTGATCAAAATCTATCGGAGCTAGTATATATTACGGAAGCTGAACAAAGAAAGCTATTGGAAGAATGGAATAATAATACTATATCCTATCCACGTCAAAATGTAATTCATCAACTATTCGAAGAGCAAGTAAATCGTACGCCTGACGCGTTGGCAGTGGTAGATGAAAAACAGCAACTAACATATCGAGAGCTGAATGAAAGAGCTAATCAATTAGCACATCATTTACAGAAATGTGGAATTGGGACAGAGTCATTAGTTGGCCTTTGCTTTGAGCGTTCAGTTGAGATGGTTGTTGGTCTCATGGGAATTTGGAAGGCTGGAGCAGCCTATGTTCCATTAGATCCATCGAATCCGGAAAGCCGCCTACAATATATTTTAGAAGACACAGGAATTAAAGTGTTAGTTACAAATGAAGTATTACTAGGCTGGATACCTAAAGACATCAAGACAGTTTGCCTAGATAGGAACCAAGCAATGCTTTCTCAAGAAAGCAAACTTTCACCAATATGTGAGGTAACAGGGGAAAATTTAGCGTATGTTATCTATACTTCTGGTTCGACAGGGAATCCAAAGGGGGCTTTAGTACAGCACAATTGTGTAATAAACCTATCCTATGGTTTACAAAAAGAAGTTTTCTCACATGAAATACCTAATAATATGCGCGTCGGTTTGAATGCGTCAATTGCCTTTGATGTATCTATTCAGCAATTACAAATGTTGCTTTATGGTTCAAGTTTATATATTATCCCAAGTGAAGTTCGCACTAATCCGGAACAATTTGTGTCCTATATTAGGGAGAATAAATTGGAAATGTTTGATATGACACCTTCATTACTTCAATTACTTATAGATGGAGGATTGCTAGAAATAAGTGCTGATGTTCATGTACCAAGTAAGATATTAGTCGGTGGTGAAGCAATTATGCCGTCATTATGGGAACAGCTAGTAGAGACAGAAAAAATTGATTTTTATAACGTATACGGTCCTACAGAATGTACGGTTGATGCAACATGCTATCATATCAAAAAAGATAGTAAGAGAGTAACAATTGGCCGTCCGTTGCCGAACGTTCAAACTTATGTATTAGATAAAAATTTGTTACCTGTTCCAGTTGGTGTAACAGGTGAGCTATATATTGGGGGTGCAGGTATAGCGAGAGGATACTTGAATCGCCCAGAATTAACAGCAGAGAGATTCATCCGTCATCCATTTAATGAAGAAGAGCGTTTATATCGTACGGGAGATTTGGTTCGTTATTTACCTGATGGTAATTTAGATTACTTGAGAAGAATTGATAATCAAGTAAAAATTAGGGGCTTTCGTATTGAACTTGAAGAGATTGAAGCGAATCTAGAGAGGCATCCATTGGTAAAAGAAGCAGTAGTTTTGGTAACAGAGGATAAATTAGGAGAGCAGAGATTGGTTGCTTATGTAGTTGGAGATGGTAGTATGCATGATTGGCGTGAATATCTCAAGACACAAGTACCGAATTATATGGTTCCCGCACACTTTATTAAGGTAGACGAGATTCCTCTTACAACGAATGGAAAAGTTGATCGAAAGGCATTGAACAATTTAACTATTTTAAGAGAAAATAACTTTTCTACACCAATCATTCCAAGGGATGAAATTGAATATCAGTTGATTAAAATCTGGCAGGATGTGTTACAGATAGAAGATGTCTATGTAAATGATGATTTCTTTAATAGAGGAGGACACTCTCTCCTTGTAATTAAATTAGTTTCAAAAATTAGGGAGAAGTTTGGAAAAGAGATTAAGGTGTCTACATTGATTAAGAATCCAACAGTGGAAGGAATCGCATGCCTTATTCGTGATAAGCATGATATGACGAAATCAGTAGCAGCGCTAGTTCCACTACAAGAATCAGAGAAAAGACCTTTCTTCTGCGTTCATCCGTTTATGGGGAATGTATTCTGTTACATTCAACTAGCAAGATTGCTTAAGAGCCGTTGTTCATTTTATGGTTTACAGAATCCTCTTATAGAAAAGAAAGAAATTGACGAGTTAACTTTGCCGGAAGTAATTCAACTTTACATGGAAGAAATAAAACGTGTTCAGCCAGAAGGTCCATATCGTCTTGGAGGATGGTCTTTAGGCGGTGCGATTGCTTATGAAATCGCAACTGTATTAAAGAATCAAGGTGAGGAAGTTGAGTTGTTGGTACTCATGGATACTAAAGTACCTTCAAAGCAGGATCATAAAACAAGTGAGGATATGCTCTCATATATATATGAGCATTTCATTCCTAGAGATCTTACTGAGCAGGAAGGAGACCTTGTCCATAAACAAGATATGCTTGTGGAGCAATTAATTATGGAAGGAGTACTCACGCCTGATGCAGATCTTATCAATTTGAAGCAAGTTATCAATGCGCATAGGAAATGCCTGAACATAATGGCAGAGCATGATTTAATACCATACTCTGGAGAAGTTCTCTACTTTAGTGCTGAGGAAGGAAAAGAGTTGTTTACAGATTGGGGACCTTTATTAAAAGGTAGAGTAAATAGGTATTCAGTCCCTGGATCACATGAAGAAATAGTGGATTCACCTGCAGTTGAAAAAATAGCTATGTATCTACTAAATGAATTTGAAGGAATAAAAGAGAAATCCATTTTATTAACGGAAAAGTAG	MRSDLLAKLSSLSPEKRAWLQKQMQKKENKEALPLSYAQQRLWFMDRFNPNSSLYNIPTVWHLKGNWIPEALEKGFNRLIERHESLRTVFKEVGEQPVQQIVEFLPRALPVRDYSQLPLEVKEKEVDSLIAREAQEPFNLMNGPLVRNQLVQLEKDEWLLLCTMHHIISDAWSIGIFMNELLAFYEEETGGNPAKLSSLSIQYADFAKWQKEWLQGDVLNRQLTYWQEELSGELPILQLPVDRPRPVKQTYSGATHHVIFPYKLLSQLKDISRQEGSTLFMTLMAAYQSFLARYTGQKDILVGSPIANRNHKGVEGLIGFFVNTLVYRSDLSGIPTFREILNQTKKKALKAYEYQDIPFEKVVEAVQPERSTSHSPIFQTMFTLQNIKQERLDLPDRSIEMVESNMSIAKFDLSLTAYEVEEGLFVSFEYNTDLFDSSTIARMAGHFENWLNEITYHPDESYTKLSMLSDTEQKQLLEEWNDTDVVYGHDCMIHELFEQQVARTPNAVAVVYEGGKLTYQELNEKSNQLAHFLQKRGIGPESLVGICIERSPDMIIGLFGILKAGGAYVPLDPSYPENRLRYILENSQIQVLLTKEALQDWLPKDIRAICLDRDQVMISKESNLAPVSGVTANNLAYIIYTSGSTGNPKGVMIEHHSVINRLQWMQKKYPLSEDDTILQKTPFSFDVSVWELFWWSFVGARVCLLPPGGEKDPAVIEEYIERYRVSTMHFVPSMLSTFLDYMELYNSKRDVSSLIQVFTSGEALNTEQVRRFKGIFYNVQQTKLMNLYGPTEATVDVTYYDCDLEKEAMLIPIGRPIDNTELYVLDQYQQVVPIGVAGELYLGGVGLARGYFNRPDLTTERFIPHPFKDGERLYRTGDLVRYMNDRNLEYIGRIDNQVKIRGFRIELGEIEAALHDHSSVKEAVVLVKEDRPGDKQLVAYVVGEGDTGEWREYLKKQLPHYMVPAYFFQIEGMPLTPNGKVNRKALLELEEQFISEDITSSRTPVEELIVSVWSQVLGIKNISVQDSFFEIGGHSLLATQVVSRLQEIFQIELPVRELFEYTTVESLAKRLEQLRKGDKKREIPPLIPMERGEAIPLSYAQQRLWFIDQFTPNSALYNMPMVCRLTGNWLLEALETGWNQLIERHESLRTVFQEVNGQPVQQIKSYAFQSIPKTDLTMLSSEDREEEVKRFIQQETEVPFDLTEGPLIRTSILHVGEEEWILLCTLHHIISDGWSMGILLEEWMAFYEKATDGKVAELEPLPVQYADFAQWQKGWLKEEVLDQQLQYWREELSGELPVLQLPMDRPRPAIQTHHGSTYTLVLPSTLHDKLNELSRKEGATLFMTLLAAYQSFLSRYTGQEDILVGSPIANRNYREIEGLIGFFVNTLVYRTNLSGGPTFQDVLYQVRQKALKAYEYQDIPFEKIVEVVQPERSTSHSPIFQTMFILQNMKQEFPVLSSRSIEMIESHSPIAKFDLSVMAVETEEGLLFTFEYNKDLFNATTIERMAGHFEKWLYEVSHRPQNPLHDLSMLSEPERNLLLETWNETVMEMSHQGLICERFEEQVAMRPDAIAIVDQTKQWTYGELDIQANQLANVLQRKGVAPESVVGVYLPRSAELMASLLGILKAGGAYVVLDPLYPKSRLEYMIEDAGIQFVVTAEVQEGHFAHVEMVRLEELTVESVIAPTRQINPENLAYIVYTSGSTGKPKGVMVEYRSLMNMVSWHQEVYRISAEDRATQIAGVAFDSAVQEIWPYLTAGAALYLSTEELRINPEALRDWLIDSRITASFAPTPILERLLKLSWPDKTDLRFIITGGDQLTQYPSNDIPFAVINQYGPSENTVVTTDCYVPVGVTTGTPSIGRPIANTEVYVLDSHLQLVPIGVIGDLYIGGKSLARGYANRPDLTKEKFIPHPFKSGERLYYTGDKASYLSDGNLQFHGRIDDQVKIRGFRIELGEIEAVLQAHSSVKEAVVLVREDNQGDKRLVAYVVGEGSVHEWREHLQTHLPNYMVPTNFIEMEFLPLTPNGKLDLKALPILSEQSAENTVYPRTPLEELIASVWSQVLGIRDIDVQDSFFELGGHSLLATQVVSRLQEVFQIKLPVRELFEYSTVEALSKRIDQLRKGSEKREIPPLMPIERGGNIPLSYAQQRLWFIDQFAPNSALYNMPMACRLTGNWLPEALELGWNQLIERHESLRTVFYEENGHPIQQIQPYVFRPLLQMDLTKLSLEERERKLEQWIQTEVESPFDLEQGPLFRGKLIRISEEEWILLCNMHHIISDGWSMEILLQEWMAFYENAIGEKQAELEPLPVQYADFAQWQREWLKDELLYQQLAYWKEELSGELPVLMLPMDRPRPPVQTHHGLTHNVLLSCSLLDKLNELSRQEGATLFMTLLAAYQSFLARYTGQTDIIVGSPIANRNYREIEGLIGFFVNTLVYRADLSNAPAFQELLSQVRIKALKAYEYQDVPFEKIVEVIQPERNTSHSPIFQTMFTLQNTGQKLPELHGRNIEVMESNSPIAKFDLSLTAAEVEEGLLLTFVYRTDLFDSLTIESMAEHFGNWLNVIVENPDKSLAKLPILSGLQQKQLEEWNNDAVAYLQESTIHQLFEEQVNRTPDAVAVVDEKQQLTYRELNEKANQLAHYLQQCGIGNESLVGLYFERSVEMVVSIMGIWKAGAAYVPLDPSYPESRLRYILEDTGIQVLVTNESLEDWIPKEMKIVCLDRDQAMISQESILSPKCEVTGETLAYVIYTSGSTGNPKGVLIQHHSVLNLSHGLQKEVFEHEIPSNMHVGLNASIAFDASIQQLQMLLYGSSLYIIPNEVRSDPEQFVAYIRENKLEIFDITPSLLQLLIDVGLLETCDGIHVPSKVLVGGEAIMPSLWEQLVETDKIQFYNVYGPTECTVDATCYHIKKDSKRVTIGRPLPNVQTYVLDRNRLPVPVGVMGELYIGGAGLARGYLNRPELTSERFISHPFKEGERLYRTGDLVRYLPDGNIDYLGRMDNQVKIRGFRIELGEIESTLQEHDLVKEVVVIVRENQSGDKRLVAYVVGEGSLEEWREYLKTKLPIHMIPSYFVEMKELPLTINGKVDRKSLPIPDYQGTQEGYAAPRNEREHKLSIIWERVLGSKRIGIYDNFFEIGGDSILSIQIVSRAKQAGLQLTPKQLFEHQTIAELAQVVKEEQGVQAEQGIITGETILTPIQQRFFAQNHPNPHHWNQSMFFRTKEKLDIGSLEKAARSLLLHHDALRLRYERLPNGTWEQWNEGIKEQLMLTVISLDEVPEADWHEVIQKEINVAQERLNLHDGPLMRMVYFDEDEKTGRLFWTIHHLAVDGVSWRILLEDLQTAYTQAVQGQKIQLPMKSTSFKEWSEKLQHYAETGISKEVLHYWEQQAEQDVVILPVDGTISNPVSAVTEEITVVLNENETRMLLQETLSTHRVQINEVLLAALVQATAACTGRPILSVDLEGHGREEIIEDVDLSRTVGWFTSIYPVHLNITNANTPIAALKAVKEQVRKIPNKGVDYGVLRYMNATMCEQLSFQYTPSISFNYLGQFDQLFSSDAMFIPENEFKRLDHAAGSKRSHVIDVIGVVTDGKLQFTWVYNVGQFAKSTIQSIAQNMLYQMSTLIQFSDRESALTISDFAMANLSQEGLTNVLNKMHRGKNNQITDLYPLSPLQEGMIFHTLHDQGDEYVAPYIVQLSFMIRGKMNIPTFEQAWKSVIQRHEIFRTAFVWDEIEEPVQVVYENIPFKVNKEDWRTMTSEEIEEKRKVFLELDRKQAFQFDEAPLMRVTVIQEGEEEYRIVWTHHHILLDGWSLPLVFNELLTVYQKRMNGEAVKLPKSSPYKKYIQWLREQDKEQAEQFWREKLKGFTAPTLLGLESKEEEKGYTEKVTYLSEEQTQALQGWAKRNKLNLSTVIQGAWAYLMSRYSGENDIVFGVTSSGRSTEIIDVENIVGPFITTSPTRIQLMDDIKLIDWLQKIQEEEIERRQYEYASLTEIQGWSEVPRGIPLFNSLYVFENYPVKEESSENLEIGELEGVEQTHYPLGLAVVPGIQLSLKLMYDRSKFNRVTIERMLGHLHQVLMQMLKNIDQNLSELVYITEAEQRKLLEEWNNNTISYPRQNVIHQLFEEQVNRTPDALAVVDEKQQLTYRELNERANQLAHHLQKCGIGTESLVGLCFERSVEMVVGLMGIWKAGAAYVPLDPSNPESRLQYILEDTGIKVLVTNEVLLGWIPKDIKTVCLDRNQAMLSQESKLSPICEVTGENLAYVIYTSGSTGNPKGALVQHNCVINLSYGLQKEVFSHEIPNNMRVGLNASIAFDVSIQQLQMLLYGSSLYIIPSEVRTNPEQFVSYIRENKLEMFDMTPSLLQLLIDGGLLEISADVHVPSKILVGGEAIMPSLWEQLVETEKIDFYNVYGPTECTVDATCYHIKKDSKRVTIGRPLPNVQTYVLDKNLLPVPVGVTGELYIGGAGIARGYLNRPELTAERFIRHPFNEEERLYRTGDLVRYLPDGNLDYLRRIDNQVKIRGFRIELEEIEANLERHPLVKEAVVLVTEDKLGEQRLVAYVVGDGSMHDWREYLKTQVPNYMVPAHFIKVDEIPLTTNGKVDRKALNNLTILRENNFSTPIIPRDEIEYQLIKIWQDVLQIEDVYVNDDFFNRGGHSLLVIKLVSKIREKFGKEIKVSTLIKNPTVEGIACLIRDKHDMTKSVAALVPLQESEKRPFFCVHPFMGNVFCYIQLARLLKSRCSFYGLQNPLIEKKEIDELTLPEVIQLYMEEIKRVQPEGPYRLGGWSLGGAIAYEIATVLKNQGEEVELLVLMDTKVPSKQDHKTSEDMLSYIYEHFIPRDLTEQEGDLVHKQDMLVEQLIMEGVLTPDADLINLKQVINAHRKCLNIMAEHDLIPYSGEVLYFSAEEGKELFTDWGPLLKGRVNRYSVPGSHEEIVDSPAVEKIAMYLLNEFEGIKEKSILLTEK				NA	NA	NA	NA	NA
AK009_01135	705	sfp_1	COG2091	4'-phosphopantetheinyl transferase Sfp	GTGAAAATACCAAAGAATATTGAAAGTCATTTGTTTAAGCAACTTAGTAACTTAGTTTCAAATGAGAAGAAAGAACGAATGAAGCGTTTATTAAATTCATGCGACATTAATAGAACTCTAATAGGAGATTTACTAATCCGATCTCTAATCTGCCAAAAGTATAAAATTAATAATAAAGAAATTAGATTTATATATAATAAGTATGGAAAACCTTTTGTTGAAAAAATTTCTGACTTTCATTTTAATGTGTCTCATTCAGGAGAATGGGTGGTTTGTACTACTGCTAATTTTAACGTGGGTATTGATATAGAAAAAGTTTCAGAAATAGAGGCTTTTAAATTAGCAAAAGAATTTTTTTCAGCGGAAGAATTTTATGATATATCTAATATGAATTCTGATGAAAAAATTAATTATTTTTATGATTTATGGACATTAAAAGAAAGCTATATAAAAACGATTGGAAAAGGGCTTTATACCCCATTAAATTCATTCTCTATAAAAAAAGAATCACGAACTTCAATTTCATACAAGAATATACCTAAAAACTTTTACTTTAAACAATATAACATTGATCCAAATTATAAGTTATCTGCTTGTGCAACAAGAGATGAATTTCCGCAAGAGATAATAATTAAAGACATTTATACAATTTGCCAAACTATATACAAATTTGAAAGTAAGGAGAAAATCAATGCAGAAGACTAA	MKIPKNIESHLFKQLSNLVSNEKKERMKRLLNSCDINRTLIGDLLIRSLICQKYKINNKEIRFIYNKYGKPFVEKISDFHFNVSHSGEWVVCTTANFNVGIDIEKVSEIEAFKLAKEFFSAEEFYDISNMNSDEKINYFYDLWTLKESYIKTIGKGLYTPLNSFSIKKESRTSISYKNIPKNFYFKQYNIDPNYKLSACATRDEFPQEIIIKDIYTICQTIYKFESKEKINAED	PGPT0008845_1840	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
AK009_01136	723	pikAV		Thioesterase PikA5	ATGCAGAAGACTAAACTTTTTTGCTTTCCACATGCTGGGGGATCTGCGTTTAACTACGCAAAATGGAAAAATTACTTTAATCCATATATTGAAGTAGTCCCGATAGAATTAGCTGGTAGAGGATATAGAATTGAAGAAAGCTTGTACCAAGGTATGGAAGAGGCCGTAAATGATGCCTACACTAGTATAGTTAAGCAAATAGACGCTTCACCGTACATTCTATTCGGGCATAGCATGGGGAGTTTGATTGCTTATGAAGTAGCTAGAAAAATACAGGGTTCTAATAACGAATTACCCGAATTTCTTGTTTTATCCGGTAGAAACCATCCAAATAGTAAAATAAAAAATATCCGATATAATCTTCCTAATGAACAATTTAAAAGAGAAGTTATTGCAATGGGAGGTACACCATCTGGGGTACTTCAATCAGAAGAATTAATGGAGATTTTTCTCCCTATTTTAAGAGCAGATTTTAAGATTGTCGAGACATATATTCATGAAAATAATATACAACCATGTGATATTGATTTTCTTATATTTAATGGGAAAAATGATGAATTTACTACATATGATCAAGTAATAAAATGGAAGCAATATACAAGTAAAACGTGTACTTTTCATTCTTTTGAAGGTAGTCATTTCTTTCTAAATGAAAATATTGAAGAAATAGCAAAGAGTATTATAGGAAAATTAAATTCTAAAAGATTATCAACTAGTTTTTAG	MQKTKLFCFPHAGGSAFNYAKWKNYFNPYIEVVPIELAGRGYRIEESLYQGMEEAVNDAYTSIVKQIDASPYILFGHSMGSLIAYEVARKIQGSNNELPEFLVLSGRNHPNSKIKNIRYNLPNEQFKREVIAMGGTPSGVLQSEELMEIFLPILRADFKIVETYIHENNIQPCDIDFLIFNGKNDEFTTYDQVIKWKQYTSKTCTFHSFEGSHFFLNENIEEIAKSIIGKLNSKRLSTSF				NA	NA	NA	NA	NA
AK009_01137	765	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATAAATTGAAGGGGAAAATTGCATTAGTAACAGGGGCTAGTAGAGGAATAGGTCGAAGTATTGCATTACATTTGGCACATGCTGGTGCGTTAGTCGTTGTTCACTATAGTAAAAGAAAAGAAGAAGCAGAAAGTGTAGTGGATAAAATTAAACAAGATGGCGGTTCCGCATTTGCGATTCGTGCAGACTTAAGTACTTTTAATGGCATTAATAACTTGTATTCAATGATGGATCAATCTCTTCAAAAATATATAGGTAATACTACATTTGATATCCTTGTAAACAACGCTGGAATTGGGCAGGTTTTAACATTAGAGGAATCTACAGAGGAGTCTTTTGATGAGGTTATGAATATTAATGTGAAAGCTCCATTTTTCATTATTCAGAAGGCTTTGCCACGTTTAAAAGATGGGGGAAGGATTATAAATATTTCGTCTTTTGTCACAAGGGTAGCCTCCCCAAGTGTTTTTGCCTACAGTATATCTAAGGGGGCAATAAATACACTCACTCATACTTTAGCTCAACAACTTGGTGTTCGTGGTATTACAGTAAATGCAATTCTCCCAGGCATAATTAACACAGAAATGAATGCTGAGACATTGGGTAACCAAGATGGACAAAAATATGCTGCAGGTTTATCGACCTTTAATAGGTGGGGGGAACCTAATGATATAGCTGATATTGTAGGTTTTCTTTCATCATCAGACAGTCGTTGGATAACTGGTGAGTTAATTGATGCAAGTGGTGGATCTTGCTTATAA	MNKLKGKIALVTGASRGIGRSIALHLAHAGALVVVHYSKRKEEAESVVDKIKQDGGSAFAIRADLSTFNGINNLYSMMDQSLQKYIGNTTFDILVNNAGIGQVLTLEESTEESFDEVMNINVKAPFFIIQKALPRLKDGGRIINISSFVTRVASPSVFAYSISKGAINTLTHTLAQQLGVRGITVNAILPGIINTEMNAETLGNQDGQKYAAGLSTFNRWGEPNDIADIVGFLSSSDSRWITGELIDASGGSCL	PGPT0003180_8271	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
AK009_01138	486			hypothetical protein	ATGTATGAAATTATTATGATAGAATCAATTTGTATTAAATCGAAAGGGGATGAGAGTATGCTAAAAAGAATGATTATAGGAGTTTCATCATTATTAGTGGGAGCAACAGTTGGCTTAGCGACTGATGTATCCGCAGCACCTGCACCACCATTAACATCATTAAATGTGGTAAAAGTTGAATCTCAATTAGGCGGGGTTGAATTTATTGGTCCTAATAATTTAAGTACAGCTAAAGATCACGGAGGGAGCTATTTATACATTTATACAAATGAAATGGGATATGGTAGAAATCCAATTGCTCAAATGAGTGGTCAAAAACTAAAAAAAGTAGATTCTAAGATGATTGATATAAATGGGGATAGAACAGTGGATGGATGGGAATATAAATGGGATGCTTCAGGACAGCAAAATGGGCAATTTAAATATCAAAATACATCTACAAATGCACCTTGGAATACATTATCTACGTCATTAAATATTAAATAA	MYEIIMIESICIKSKGDESMLKRMIIGVSSLLVGATVGLATDVSAAPAPPLTSLNVVKVESQLGGVEFIGPNNLSTAKDHGGSYLYIYTNEMGYGRNPIAQMSGQKLKKVDSKMIDINGDRTVDGWEYKWDASGQQNGQFKYQNTSTNAPWNTLSTSLNIK				NA	NA	NA	NA	NA
AK009_01139	1962			hypothetical protein	ATGTTTAAAGTAAAAACAAGGGGAAAAATAAAAGAAATTGTTATGGTTTCAACGGCTTGTACCATGTTGTCAATGTATGGAGCACCAATTTCTAGTACAGAGGCAGCAACCCGATCTCATGCCCCATCAGTTTATGTAACACCACAGAATACTGCTGCTTCAGATATTATTAGCATAGACTGGTCACCAGTCCAAACAGCACCTTATACATATTGGGCTGTGCATAACTGGAATCAGGGAGGAGAAGGTGGTGGTTATGCGGGCTTCCAACAACAAAGTGGTTTTGATCAATTCGGTAAACGTACCCTTCACTTTGCGCTTTGGGATCCAATAGCATCAAACCAAGCAATAAAAGCTGAATATTTATCGCCGACTTCAGAAGCCAGTAGATTTGGTGGAGAAGGAACAGGTCTAAAGGTACAAACAACTTATAATTGGAAAGATAGTGAATGGTATCGAATGACTCTACGTTCTTGGCAAGAAGATGGCCATACAAAGTTTGGCCAGTGGATAAAAGATAATAAATTAAATCAATGGAAGTTAGTTGCTATTATGGATCATCCAGTTGCAAATGTGGCATTTAACTATGGTTTATCGATGTTTCAAGAGGACTGGGCTGGTAATGGACAAGATGTAAGAGAAGCACGTCTTAAAAATGGATACAGCAGAAAAGTTTCAGATAAACAATGGAATTCTTGGAATAATCAGCGTATCTCTGGGCAACATGATACGTCCTATCAATACGATGGAGGAGCAACTTCAGAATATCTATGGGTTAGGGCAGGAGGAAATACTCAATCAACTATTGGTACTGGAAAAACCTTTAATATAAATCAGCCTAGTCAACCAGAAATGGGAAATTTAGATTTTGATATTCAAAATACTCGCTTTGAAGATGGAAAATTAAATGTTTCATGGAAATTGAAAGAACAAAGTACTCCACAGTTTAAAGGGAAAATTGAAATCTATGACAATGAAAAGTTAATGGGACAACCTTTGAAAGTAATCGATAATATTAAGTCTTACAAAACTGAGGTAAGTCAAACTATGCAATTGCCTCAAACGGCTTTTGCTAAAATTACATTAACAGACATATTTGATCGAACTGTAGAGAAAAAAGTAGAAATTACAAATGGAAATTCTGATATTTTAGTAGGGAACCAATTTGCATGGTCCCTAAAAGGATATAGTGATCGAGAAATTGCAAAAGTAGATTATAATAAAACAGCAGAAGAGCTGAAAATCAAATTAGAAGCTGGTGTGCCGCATTCTTATTTCAATAGCACATATGCAAGTATTAAAGTCCAGAACTCATCTGGTAGCGTTTTGTACAATAAGGAAATTATGGGAAATAGACAACAAAATGCTGAAACCCAAACAGTACCTGTAAAAGTAGGAGATTATTTAGAATTCACTCATATAGAAGGGGAAGCAGCAAAGGAAAAAACACGCGCAACATTAACGAATCTTGAAAATAATAAAAATGAGACTATTGGAAAGTCAGCAAGGTATGAGGTTACAAAAGAGGGATTAAAGAAAGTAGAAAAAATGCCAGAGACAACAATTCTAGATGGAAAACAATTTGCATGGTCCCTAAAAGGATATAGTGATCGAGAAATTGCAAAAGTAGATTATAATAAAACAGCAGAAGAGCTGAAAATCAAATTAGAAGCTGGTGTGCCGCATTCTTATTTCAATAGCACATATGCAAGTATTAAAGTCCAGAATTCATCTGGTAGCGTTTTGTACAATAAGGAAATTATAGGAAATAGACAACAAAATGCTGAAACCCAAACAGTACCTGTAAAAGAGGGAGATTATATAGAATTTACTCATATAGAAGGGGAAGTGGCGAAGGAAAAAACACGAGCGACTTTAACTAACCTTGAGAATGGAAAACAGGAATATATAGGAAAGAAAAGAACATATCGGGTTACATCTACAGGTTTAATCAGACAATAG	MFKVKTRGKIKEIVMVSTACTMLSMYGAPISSTEAATRSHAPSVYVTPQNTAASDIISIDWSPVQTAPYTYWAVHNWNQGGEGGGYAGFQQQSGFDQFGKRTLHFALWDPIASNQAIKAEYLSPTSEASRFGGEGTGLKVQTTYNWKDSEWYRMTLRSWQEDGHTKFGQWIKDNKLNQWKLVAIMDHPVANVAFNYGLSMFQEDWAGNGQDVREARLKNGYSRKVSDKQWNSWNNQRISGQHDTSYQYDGGATSEYLWVRAGGNTQSTIGTGKTFNINQPSQPEMGNLDFDIQNTRFEDGKLNVSWKLKEQSTPQFKGKIEIYDNEKLMGQPLKVIDNIKSYKTEVSQTMQLPQTAFAKITLTDIFDRTVEKKVEITNGNSDILVGNQFAWSLKGYSDREIAKVDYNKTAEELKIKLEAGVPHSYFNSTYASIKVQNSSGSVLYNKEIMGNRQQNAETQTVPVKVGDYLEFTHIEGEAAKEKTRATLTNLENNKNETIGKSARYEVTKEGLKKVEKMPETTILDGKQFAWSLKGYSDREIAKVDYNKTAEELKIKLEAGVPHSYFNSTYASIKVQNSSGSVLYNKEIIGNRQQNAETQTVPVKEGDYIEFTHIEGEVAKEKTRATLTNLENGKQEYIGKKRTYRVTSTGLIRQ				NA	NA	NA	NA	NA
AK009_01140	411			hypothetical protein	ATGATTAAAAAACTTATTATTGGTTCTATTTTTTTAGGAACAGCAATAGGAGTAAGTAAACCTACATTTGCTTCAACAAATGATTCTCCATCACAGTTTCAAGATAGGGGAAATGCCCAAGTTCAATCAATACCATCACCATGGCAGTATTTAGGGCAAACCTCTAGGGAACTTCAAATTAAAACTAAGGATCCAAAAGTGCTTGCTTTTGAATTAGCAAAAGAGGCTCCATTTTACGAAGATGAATTAGTGGATGTGTGTTCTGCAATCTTAAGAGAAAATGTAAATGTAGTATATTGGACAAGTAAGGAATGGGCTAGATTTGAAGTAGGAAATTACGAGTTTAAACATGAAATGAAAATTTATAGAGATAAAGAACGTCAGCAATTAATTACTTCACTAGAATCATAA	MIKKLIIGSIFLGTAIGVSKPTFASTNDSPSQFQDRGNAQVQSIPSPWQYLGQTSRELQIKTKDPKVLAFELAKEAPFYEDELVDVCSAILRENVNVVYWTSKEWARFEVGNYEFKHEMKIYRDKERQQLITSLES				NA	NA	NA	NA	NA
AK009_01141	330			hypothetical protein	ATGGTGAAACAGGAGGAGACGCATGGGTGTGGTGTTCAATTTGTCATGAAGAACATCCCGTTCTTTTCTGATATGTTTCAATATAATCAAGGAAACCCCTATCATTCCTTACCATTATGTCAGCACACATATATGGTATACGCTCATTTAACAGAGAATTATGTAGGGGAAGATTTATTTCTTCTGCAAAGTGCTGCAGCATTCCATGATACAGGTAAACCGTTTTGCCGTGTATTTAAAAAGCTCAAAGGGTACCATTCGTATTATGGTCACGAATATGTCAGTACTCACATCGCTTGCCACTTTTTAATGGAACTTGGTTTCGAATAG	MVKQEETHGCGVQFVMKNIPFFSDMFQYNQGNPYHSLPLCQHTYMVYAHLTENYVGEDLFLLQSAAAFHDTGKPFCRVFKKLKGYHSYYGHEYVSTHIACHFLMELGFE				NA	NA	NA	NA	NA
AK009_01142	132			hypothetical protein	ATGATTACAGAGTTTCATATGAAGATGTTACATGGCGGGGAAGAGGCAGCACGTGAAATCTATCATTACTGCGGTGATGAGATGCTTACGAAATTATATTTTTTCCGAGATGCAGATGCATTTGCGAAGTAG	MITEFHMKMLHGGEEAAREIYHYCGDEMLTKLYFFRDADAFAK				NA	NA	NA	NA	NA
AK009_01143	609			hypothetical protein	TTGCACGTTCCTTGGTCGATAGGGGTAACAAGTGATGACCGTGTTCTACAAAATATGGACGGATTTGAAACTCAAGAAGTAATCGTACTAGAAAAGTTAGATGGTGAAAATACATCCCTTTATAAAGATGCTATTCATGCAAGGTCGTTATCAAGTGGTCATCACCCATCGAGAACATGGGTAAAAACGTTACAAGGAAGTATGGGGTATAGAATTCCAGAAGGATGGCGTATATGTGGTGAAAATGTATATGCTTGTCATAGCATTCACTACACAGCACTGACTTCCTATTTTTATGTCTTTTCAATATGGAATGAGAAAAATGAATGTTTATCGTGGGATGCAACAGTTGCATGGTGTAAAAAGTTAGGCCTTGCACACGTTCCAGTGTTATATCGTGGCCCCTATAATGAAAAGGTAATTCGTTCGTGCTACAACGGTACTTCACTCTTTGGAGGGATTCAGGAAGGGTATGTACTTAGATTAACGGATGCGTTTCACTATAATGATTTTTCAAAATCCGTAGGGAAATTTGTTCGAAAAGACCATGTGCAATCCAATCAGCACTGGATGACACATGCGGTTATCCCCAATAAATTAGCAAAATAA	MHVPWSIGVTSDDRVLQNMDGFETQEVIVLEKLDGENTSLYKDAIHARSLSSGHHPSRTWVKTLQGSMGYRIPEGWRICGENVYACHSIHYTALTSYFYVFSIWNEKNECLSWDATVAWCKKLGLAHVPVLYRGPYNEKVIRSCYNGTSLFGGIQEGYVLRLTDAFHYNDFSKSVGKFVRKDHVQSNQHWMTHAVIPNKLAK				NA	NA	NA	NA	NA
AK009_01144	945	blaZ_1		Beta-lactamase 3	ATGTACGTTTTAAACAAGTTCTTTACCTACAAAAAGATTGTACCTGTCGTATTACTTTCATGTGTAACACTAATAGGGTGTTCTAATAGTAATACTCCATCTGAACCACCTAAGCAAACAAAACAAATAAAGCAAATTAAACAAGAAAATACAGGTCATGATTCTTTTGCTAAGCTTGAAAAAGAATATAATGCTAAGCTTGGTATTTATGCTCTGGATACAGGTACAAATCAAACTGTTGCTTATCATCCAAATGATCGTTTTGCATTTGCCTCTACATCTAAATCATTAGCAGCGGGAGCTCTTTTACGTCAGAACTCAATAGAAGCTCTTGATGAAAGGATTACGTATACGCGTGAAGACCTTTCTAATTATAATCCAATTACAGAAAAGCATGTGGATACAGGAATGACGTTAAAAGAACTTGCAGATGCTTCTGTTCGATATAGTGACAGTACGGCACATAATTTAATTCTTAAAAAATTAGGTGGTCCATCCGCATTTGAAAAAATCTTGAGAGAAACGGGAGATACGGTTACTAAATCTGAACGATTTGAACCTGAATTAAATAAAGTACATCCTGGAGAAACGCGCGATACCAGTACACCAGAAGCGATCGCTAAGACACTTCAATCATTTACATTAGGATCTGCACTTCCAACAGAGAAACGTGAATTATTAGTAGATTGGATGAAGAGAAATACGACTGGTGATAAGTTGATTCGTGCGGGCGTACCAAAAGGATGGGAAGTAGCTGATAAAACAGGCGCAGGATCTTATGGAACAAGGAATGATATTGCGATTATTTGGCCACCAAACAAAAAGCCAATTGTTCTTGCCATCCTTTCTAATCATGATAAAGAAGATGCAGAATATAATGATAAGCTTATTGCTGACGCGACTAAAGTCGTATTAGATACTTTAAAAGTTACGAATAAAAACTAA	MYVLNKFFTYKKIVPVVLLSCVTLIGCSNSNTPSEPPKQTKQIKQIKQENTGHDSFAKLEKEYNAKLGIYALDTGTNQTVAYHPNDRFAFASTSKSLAAGALLRQNSIEALDERITYTREDLSNYNPITEKHVDTGMTLKELADASVRYSDSTAHNLILKKLGGPSAFEKILRETGDTVTKSERFEPELNKVHPGETRDTSTPEAIAKTLQSFTLGSALPTEKRELLVDWMKRNTTGDKLIRAGVPKGWEVADKTGAGSYGTRNDIAIIWPPNKKPIVLAILSNHDKEDAEYNDKLIADATKVVLDTLKVTNKN	PGPT0028070_848	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
AK009_01145	195			hypothetical protein	GTGGGGAAATTTGTTGATACAAAAGGAATTAGTAATAATGGAAAGGTTAACGTACAAATTATTAATTATGGAAATATCATTCCAGAAGATCTACCCTATCTTTTCAATATACTTCATATAAAAAATTACAACATAACATATAATAAAAAACGGCAAACCCTCGACGTAGGAGAATCCACCATCACAAATAAATGA	MGKFVDTKGISNNGKVNVQIINYGNIIPEDLPYLFNILHIKNYNITYNKKRQTLDVGESTITNK				NA	NA	NA	NA	NA
AK009_01146	648			hypothetical protein	ATGAAGGATACAAGTAAAAAACAAATTATAAAAGTGTTCCTTATTAGTATTTTAGGCTTAGGAATAATACTTGGAATGCTTTATTTTAATCATAAAACCAATATTCAACAAAATAAAGCACTAGCCACCGAAAAACGTGTATTGCAATATGAGTCTACCTTAAAAAAAGAATTAGAAAAATATAATTTAGGAGAGAAAACTGCAGTTTTATTAGGAATTATGTACCAAGAGAGTAGAGGTGAGGGAAACGACCCTATGCAGTCATCCGAATCACTTGGATTAAAACCAAATGAAATTCAAGAGACAAGCTTGAGCATTAAACAAGGGGTAAAACACTTTGCTAAAATGTACAAATATGGAACGGACAAGGATGTTAGCATGGATACAATTATTCAAAGCTATAATATGGGGCCAGGGTATATTGATTTTATTGCTAGTCAAGAAGTTAAACAACACTCGGAGGATTCAGCCAAAACGTTTTCTAAGATGAAGGTTGATCAAAATCCAGCGATGTATACTTGTGGTGGAAATAAAAATAATTTTAGGTATCCATATTGTTATGGTGATTTCACATATGCCACAAAGGTAAATGAAAAAACAAAACTTATTGAAGAACTTCTTCGAAATGTACATATCTCTTCTAAATAA	MKDTSKKQIIKVFLISILGLGIILGMLYFNHKTNIQQNKALATEKRVLQYESTLKKELEKYNLGEKTAVLLGIMYQESRGEGNDPMQSSESLGLKPNEIQETSLSIKQGVKHFAKMYKYGTDKDVSMDTIIQSYNMGPGYIDFIASQEVKQHSEDSAKTFSKMKVDQNPAMYTCGGNKNNFRYPYCYGDFTYATKVNEKTKLIEELLRNVHISSK	PGPT0023801_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023801-yocA-NA	NA	NA
AK009_01147	507		COG1670	Acetyltransferase	ATGTTTATAAAAACAGAAAGATTATTAATACGAAAATTTGAGTTCAAAGATTGGCAAGCTGTTCATGAGTATACATCAGATATCAATGTTATGAAATACATACCTGAAGGGGTTTTTACTGAAGAAAATACAAGGAACTTTGTGAATGAAAACATTGGTGAAAACGCTAAGAACTTTCCTGTAGTATTAATTAATAAAGATATTCTGATTGGTCATATAGTTTTTCATAAATATTTTGGTGAGCATACATATGAGATTGGTTGGGTGTTCAATCCAAAATACTTCAATAAAGGATATGCTTCCGAAGCAGCACAAGCTACATTGAAATATGGCTTTAAGGAAATGAAATTACATAGGATTATAGCTACATGTCAGCCACAAAATATTCCATCATATCGAGTGATGGAGAAGATTGGAATGAGAAGAGAAGGCTATTTTAGGAAGTGTATACCACATGGGAATGAATGGTGGGATGAATATTATTACGCTATTTTAGAAGAAGAGTAG	MFIKTERLLIRKFEFKDWQAVHEYTSDINVMKYIPEGVFTEENTRNFVNENIGENAKNFPVVLINKDILIGHIVFHKYFGEHTYEIGWVFNPKYFNKGYASEAAQATLKYGFKEMKLHRIIATCQPQNIPSYRVMEKIGMRREGYFRKCIPHGNEWWDEYYYAILEEE				NA	NA	NA	NA	NA
AK009_01148	390			hypothetical protein	ATGTATTCAGTTATTCCTGTTGGATGGGGTGAAAAAAATAATCTTTGGGCTGAAGAGAAAAACGTAGGCGTGCAATCTAATGAGAATAATCCAAATAATTACAAGCCTCAAATAAACGAAGGCAAGAATATTGAAACGAATGATAAGCCCGCATCTAGTACAGCAGGTATAAAGGCAGATAATAAGCCCGAAGAAGCTACTACCAATTGTAAACCTAATAATAAAGAAGTTGAACAATATCATAATAAGGAACAGCAACATAAGGAAGTAGAAGGATTTAAGCCGAGCGATGCAGACATGGAGCGTATTAAACGACAAGAAGACCGGTGGAATACACCATCAGGTGGTGTTGGTGCTACATGGCAAGAAGAAATGAAAAAACAGAAATAA	MYSVIPVGWGEKNNLWAEEKNVGVQSNENNPNNYKPQINEGKNIETNDKPASSTAGIKADNKPEEATTNCKPNNKEVEQYHNKEQQHKEVEGFKPSDADMERIKRQEDRWNTPSGGVGATWQEEMKKQK				NA	NA	NA	NA	NA
AK009_01149	477	yvbK_2		putative N-acetyltransferase YvbK	ATGGAATTAAATAATGTGGATGGAATTAGTATAGAAAAAAGTACAAGTATTAACATGGAAGAAATGGAGTTATTGTTACTAGCTGATCCCTCAACAGAAGTAGTTAATGGATATCTTAAAAAGGGAGATTGTTTTGTTTTAAAAAAAGGTGCTGTTACTGTAGGTATTATGATTTTAATTCCTACCCGAACAGAAACGATTGAGATTATAAATATAGCAGTTTCCGAAAAAGAGCAAGGAAAAGGATATGGGAAATATTTACTTGGGTTTGCTATAGACTATGCTAAAAAAGAAGAATATAAAACTATAGAAATAGGCACAGGAAATTCTAGTTTAATGCAACTAGGCCTTTATCAAAAATGTGGTTTTAGAATAACCAGTGTGGATAAGGACTTTTTCTTACGAAATTATAATGAAGAAATATATGAAAATGGTATTCAATGTATGGATATGATTAGGTTAACGCAAAATTTATAA	MELNNVDGISIEKSTSINMEEMELLLLADPSTEVVNGYLKKGDCFVLKKGAVTVGIMILIPTRTETIEIINIAVSEKEQGKGYGKYLLGFAIDYAKKEEYKTIEIGTGNSSLMQLGLYQKCGFRITSVDKDFFLRNYNEEIYENGIQCMDMIRLTQNL	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
AK009_01150	1329	wbpA_1	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGGTCACAGTATTAAATAATGAAACTAAAAGTTTATTAGTTGAAAAAATTGCAAATAAAAATGCGTGTATTGGATATGTAGGCCTAGGTTATGTTGGACTACCATCGGCTCTTAAATGTTTAGAAGTAGGTTATGCGGTAAGAGGTTTTGATAAAAACTCAGTAAAAATAAGAAAACTAGAACGTGGAATAAGCTATATCAGTGATATTCAAGATACTGAAATCCAAGATGCTTTACATACAAATAGATTTTTTGTTAGTACAGAAATGGATTATATAAACGAATGTGATGTTGTAGTTATATGTGTTCCTACACCATTAGAAAGAACTAGTAAACAACCAGATTTAACATATATTCATTCAGCAGTTGATGAAATAGTTAAATACATTAAAAAAGGTACATTAATTATCTTAGAAAGTACTACTTATCCAGGTACTACAAGAGAAGAAGTTTTATACAAATTAGAACAGAAAACTAATTTTAAAATTGGTGTAGATATATTTGTAGCATACTCTCCAGAGCGAATCGATCCTGCAAATCAATCGTTTTCAATTCAAGATATTATAAAAATCGTAGGTGGAGTTACATCTAATTGTACCGATTGTGCAGCAGCTTTCTATAGTAACTTAATTAAGGATATTCATAAGGTAAGCAGTCCAGAAGTAGCAGAGACAGCTAAGTTATTAGAAAATACGTATCGTTTTATAAATATCGCTTTTATTAATGAAATGACACAAATTTGTAATGAGTTAAACATAAATATTTGGGAAGTAATTGATGCCTCAGGAACTAAGCCATTTGGATTTCAAAAATTCTATCCTGGCCCTGGCGTAGGAGGACACTGTATTCCGATTGATCCTATTTATTTTAAGTGGATTGCAAATAATAAGGATTTAGCAACAAAAATGATTGATGTGGCAAGAGAAATTAATGAAAACATGCCTAAGTACGTTCTTAATAGAGCACTACAGTTACTAGATGATAAAGATGGTAAGGATATTCTTATGGTTGGTGTTGCATATAAAAAGAATGTTAATGATGCTAGGGAATCGCCAGCTTTGGATATTATGAATGATTTAATGATAGAAGACTATAACGTGGATTATTACGATCCGTTTATAGAGGAACTCATTGTGGGCGATAACACATTGAAAAAATCTATAGATTTAAACCTAAGTCAATTAGACAAATACACTTTAATTATTGTTCATACGGATCATGATTGCATTAATTTTAAATTGCTTAACGAGGTAAATTGTTTAATTTTAGACACAAGAAACATATTTAAAGATGAATCAGTATATAAAAAAAATATTATAAGTTTGTAG	MVTVLNNETKSLLVEKIANKNACIGYVGLGYVGLPSALKCLEVGYAVRGFDKNSVKIRKLERGISYISDIQDTEIQDALHTNRFFVSTEMDYINECDVVVICVPTPLERTSKQPDLTYIHSAVDEIVKYIKKGTLIILESTTYPGTTREEVLYKLEQKTNFKIGVDIFVAYSPERIDPANQSFSIQDIIKIVGGVTSNCTDCAAAFYSNLIKDIHKVSSPEVAETAKLLENTYRFINIAFINEMTQICNELNINIWEVIDASGTKPFGFQKFYPGPGVGGHCIPIDPIYFKWIANNKDLATKMIDVAREINENMPKYVLNRALQLLDDKDGKDILMVGVAYKKNVNDARESPALDIMNDLMIEDYNVDYYDPFIEELIVGDNTLKKSIDLNLSQLDKYTLIIVHTDHDCINFKLLNEVNCLILDTRNIFKDESVYKKNIISL	PGPT0018920_321	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
AK009_01151	1158	arnB_1	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGGTAGAGTTTATTCCTTTTTATCGACCGGAAATCAATGATGAAGATATAGATAGGGTAGTTTCTGCCCTTAAATCTGGATGGCTTTCAAAGGGGCCAAAAGTGATAGAGTTTGAAGAGAATTTAAAAGAATATCTGAATACTGAACATGTAGTAAGTTGTAATTCAGGGACTGCCGCATTACATTTAGCATTACTGTCTCTGGGAGTTGGATTAGAAGACGAAGTAATAGTTCCAAGTTTTACTTTTTGTTCAAGTGTAAACGTTATTATGCATGTAGGTGCAAAACCTGTATTTGTAGATATAGATGAAGAGAATTTATGTCTTGATCTTCAAGATGTTAAAAGAAAAATCACTAAAAAAACGAAAGCAATTATTGCAGTTCACTTTGCTGGATATCCGGCTAAATTAAAAGAACTTCAAAAACTATGTAAAGAATACGGACTGTTTTTGATAGAGGATGCAGCGCATGCATTAGGAACAAAATATGATAATACTTTAATTGGTACACATGGAGATGTTATTTGTTTCAGTTTTTATGCCACAAAAAATATAACAACAGGTGAAGGTGGAGCGTTAGTCACTAAAAATGAATCGATTGCTGAAAAAGCTAGATTATATGGTTGGCATGGTATCACCAAAAATGCATGGAATCGTTATGGTGAAGAAGGAAGCTGGCGTTATGATGTTCTATTACCTGGGTTTAAATATAACATGATGGATCTACAAGCTAGTTTGGGTATTAGTCAGTTAAAAAGAGCTGATGAAATGATTGAAAAACGCAAGAGAATAGCTGAAAGGTACCAAGAGGAATTAAAAGAGGTTCAAGAGTATATAACGTTACCTAATTATACTAACAATCCAAGTGTAAAACACGCATGGCATTTATTTGTTATAAAAATTAATTCTAATTCTCCTGTTAGTAGAGATCAGGTAATTCAAGAAATGAAAAAGAGAAACATTGGGCTAAGTGTTCACTTTATTCCTGTTCACATGCATCCGTATTATGAAGAGAGATTTAACGTATATTTACCTAAAACGGAAGAGATATTTAATCAAATTATTTCATTACCACTGTATAGTGCTCTTACAGACAATGAGGTTGAACATATTATAACGTCTTTAAAAAGTCTATATCAATTAAAAATAGGGAGGTAA	MVEFIPFYRPEINDEDIDRVVSALKSGWLSKGPKVIEFEENLKEYLNTEHVVSCNSGTAALHLALLSLGVGLEDEVIVPSFTFCSSVNVIMHVGAKPVFVDIDEENLCLDLQDVKRKITKKTKAIIAVHFAGYPAKLKELQKLCKEYGLFLIEDAAHALGTKYDNTLIGTHGDVICFSFYATKNITTGEGGALVTKNESIAEKARLYGWHGITKNAWNRYGEEGSWRYDVLLPGFKYNMMDLQASLGISQLKRADEMIEKRKRIAERYQEELKEVQEYITLPNYTNNPSVKHAWHLFVIKINSNSPVSRDQVIQEMKKRNIGLSVHFIPVHMHPYYEERFNVYLPKTEEIFNQIISLPLYSALTDNEVEHIITSLKSLYQLKIGR	PGPT0022785_698	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
AK009_01152	924	wbgU		UDP-N-acetylglucosamine 4-epimerase	ATGAAAATTGGGGTTATTGGTGGCAGCGGATTTATTGGTAAGCATGTTACAAAGGAGTTACTAGCAAGGGGGTATGAAGTAGTTATATTTGATAAATTTAAACCAAGTATTGATGTTCCTTTTAAAGAAATTGATATTTTAGATATTGCAACATTAAGAGAAAATCTTATTGATGTCGATGGGGTAATCCATTTAGCTGCATTAGTGGGTGTTGATAATTGCCGTTTAAATGAAGAAGATGTAGTGAGGGTGAACTTTGAAGGCACGAAAAATATTGTACAGGTTTGTAACGAAAATGGCATAGAAAAATTATTGTTTTCTTCCAGTTCGGAGGTATATGGGGATGGAGTGAGTGTTCCGTTTAAAGAAAATGATATTAAAATTCCAAAATCAGCTTATGGAAAAGCTAAATTAATGTCCGAAGATTATTTGAAAGAATACGCTAGTAATAGTTTGAAAATTAGAGTGGTTCGTTATTTTAATGTATACGGTTCACAACAAAATGATAACTTTGTAATTTCTAAGTTTTTAAAACAAGCTCATAGTGGTGAAGATATTACTATTTATGGAGATGGACAGCAAATTAGATGTTTTAGTTATATAAGTGATATTGTTAACGGAACTATACTAGCCTTTGAATATGAAGGAGAAAACTTTGCAGATTTTAATATTGGCAATAACAAACCTATATCTATGGAAGAACTAGCAATAAAAATTAATGAATTAATGGGCAATAAAAGTAAAATTAAATTTCTTGATTTAGGTGAAGAGGGAGTCCGAAATTCTAGCATTGAAATCTTTAGAAGAATCCCTTCAATAGAGAAAGCTAAATTATTTTTAAACTATCAACCAATTATTTCATTAGATAAAGGACTAGAGATAATAATAGGGGAGAAGTATGGAAACACAGTATCTATATCCTAA	MKIGVIGGSGFIGKHVTKELLARGYEVVIFDKFKPSIDVPFKEIDILDIATLRENLIDVDGVIHLAALVGVDNCRLNEEDVVRVNFEGTKNIVQVCNENGIEKLLFSSSSEVYGDGVSVPFKENDIKIPKSAYGKAKLMSEDYLKEYASNSLKIRVVRYFNVYGSQQNDNFVISKFLKQAHSGEDITIYGDGQQIRCFSYISDIVNGTILAFEYEGENFADFNIGNNKPISMEELAIKINELMGNKSKIKFLDLGEEGVRNSSIEIFRRIPSIEKAKLFLNYQPIISLDKGLEIIIGEKYGNTVSIS				NA	NA	NA	NA	NA
AK009_01153	1242	perA	COG0399	GDP-perosamine synthase	ATGGAAACACAGTATCTATATCCTAAGAATCCAAAGAAAATTAAGTATCCCATATATTCTTCTCTTTGGAGTATATCTGATCATGTATTTTTTTTGAAAAGTGTATATAGACCTAATGATTCTAAACTTAAAAAAAGTCTTCAAGCTCTTTATCCGGATGCAGAAATTGTATTAACTAATAGCGGTACATCTGCATTAGTAGTTGGTTTAAAGTACTTAAAAGTGGCAAAGGGAGATGAAGTAATTCTATCAAACTTTAATTGTCCTAATGTAATAGAAGCAATATTAACGGTGGGAGCAAAACCTGTATTAATTGATTTAAACACTAATCATTCAATTTCTCTTAATAAAATAAAAAAACATTGGAATGCTAATACAAAGGCAATTATTCTTACGCACTTGTATGGATGTCATGACGATTTAGAAATTATTGACTGGGCTAGAGAAAATAATATTTATATCATCGATGATGCTGCACAAGCAATGTTTTCTTATCAAAATGGAAAGCCAGTTGGTAGTTTAGGCGACATTGGTATTTTAAGTTTTGGGGGAACTAAACCGATCCCAAGTATTGGGGGAGGAGCGTTACTTCTTAATCGTACAATAAGTGAATTATGTGACATGGGTGAAGAAAAGAAGGAAGAAGTAATTTTAGATTATAAGAATCATTTAAAAACACAATTGGCTATAAAAATAAAAAAGAGTAGAGTACTGAGTTTATTTACTAATTATTGGAGGAAATTAGAGATTCTGCCCTCCTATAATAATAGTAAATTAGATTCTTTACCGGAGAAAACGGAAGTTATAAATCCAAAAAGAATGTCTATAGTACGTTCATTGTTAATTGATAAACACCTACAGAAAACAAAGAAGATTTTAGAAATAAATATATGCAACGCTAGTCTGTGTTATACAATGCTGCAGGAAATTGAAGAAAAGTATGGCGTTAAGATTATATTTTCAGCTCAGAATGTTTATTTAAACTATTTTACCATTATATTCAAAGAATCATCTGATAGATATGAGTGTTCTGTACATTTAGCGGAAAAAGGTATACAAACTTGTTGGAATTACTTACCCCTGAGTGAGATCCCTATTTTTTCGAAGTACGCAACTGAGTCAGAAAATATAGATTATTTATGGCCAAGGGTATTATCAATACCTTTTAAATATCCTTTAGTGAATAAGGACCTTAAGTATATATGTAGTCAAATTCTGAAATATTTAGAGAATAAGAATTAA	METQYLYPKNPKKIKYPIYSSLWSISDHVFFLKSVYRPNDSKLKKSLQALYPDAEIVLTNSGTSALVVGLKYLKVAKGDEVILSNFNCPNVIEAILTVGAKPVLIDLNTNHSISLNKIKKHWNANTKAIILTHLYGCHDDLEIIDWARENNIYIIDDAAQAMFSYQNGKPVGSLGDIGILSFGGTKPIPSIGGGALLLNRTISELCDMGEEKKEEVILDYKNHLKTQLAIKIKKSRVLSLFTNYWRKLEILPSYNNSKLDSLPEKTEVINPKRMSIVRSLLIDKHLQKTKKILEINICNASLCYTMLQEIEEKYGVKIIFSAQNVYLNYFTIIFKESSDRYECSVHLAEKGIQTCWNYLPLSEIPIFSKYATESENIDYLWPRVLSIPFKYPLVNKDLKYICSQILKYLENKN	PGPT0022785_223	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
AK009_01154	882			hypothetical protein	ATGGAAATTGAAATATGTACTGACGCCCAATATTGGGATGCCTGTATGGAAGAATACAATGGTTCTGTATTTCATAGTTACGAATGGGGAAAGTTAATGGAATTATTACCTGGTGTTCAATTTTTCCCAGTACTAATAGAAACACGAGATACAGTAGTTTTAACTCCTATGTATGTACAGGATGGTAGGCTTTTGGGAAGTTTAATTGGTTATGGAGGTCCAATAATAATTGGCCAAGATAAAATAGATTTTTCAGTTTATGAATCCATAATAAATAAGAAGTTTGAAAATAAAATTCAAAAGCTTTTATTACCTATAACGATAAATCCTTTTCAAAGTTATAGTAAAGAAAAGTGGGATTATAAAGAAACTTATATGTTAGATCTACCAAATAGGTTTGAGGATTTATGGACATCGTGTTCTGGAAAAGCTAGGACAAGTGTTAGGTATGCACGTAAACAGAATGTTGAAGTTCGTCCTATAACTGTAGCGGAATTAGATGAGTTTTACCAATTATATCAAGAACATAATACAAGTATAGGAGCGAGTTATTCATTTAGTAGAGAGTTTTTTTATCATTTAGTTCTTAATTTGCAAGAAAAAATCCTTTTCTTAGGGGCATTCTTAGAAGAAGAATTAATTAGTTCCAGCATTTTTATAATGGATAAAAAGGTTTTATATTATTGGATTAACATTAACAATACCGAAGGGAAAAATTCACAATCTTCATATTTACTACTAAATGATGCGTTTGAATTAGCAATTCATAATAAATTAAAGTATGCGGATTTAGGATATTCACATAATAAAGGGATTGCTAGACCTAAGATATACTGGGGGGCAGCTTTGAAAAAATGTTTTTGTTTAAAAGAAAGGATTTAA	MEIEICTDAQYWDACMEEYNGSVFHSYEWGKLMELLPGVQFFPVLIETRDTVVLTPMYVQDGRLLGSLIGYGGPIIIGQDKIDFSVYESIINKKFENKIQKLLLPITINPFQSYSKEKWDYKETYMLDLPNRFEDLWTSCSGKARTSVRYARKQNVEVRPITVAELDEFYQLYQEHNTSIGASYSFSREFFYHLVLNLQEKILFLGAFLEEELISSSIFIMDKKVLYYWININNTEGKNSQSSYLLLNDAFELAIHNKLKYADLGYSHNKGIARPKIYWGAALKKCFCLKERI				NA	NA	NA	NA	NA
AK009_01155	690			putative protein	ATGATTATTAGTGGCCACCAACCAAGTTATTTACCTTGGTATGGTTTTTTTGAAAAAATTCATAAATCAGATGTGTTTGTATTTCATGATATAGCACAATTTGAAAAAAAAGGTTTTTTAAATAGGAATCGTATTAAAACTTCACAAGGAGCGTCTTGGTTAACTGTTCCAATACAAATGAAGAATTATAAAGAAATTCCATTTAATAAGTTAAAGATAGACAATACTCAAGATTGGGAACGGAAGCATTGGAAAGCAATAAGAATTAATTATTCTAATGCACCTTACTTTAATGTATATAAGGATTATTTAGAAAATTTTTATTCGGAAGATTGGATTAATTTAAATGATATGAACATGAATTTTATTCATTTTATTATCCGTGAATTAAACATTGATACGGAACTATATTATGTATCAGATTTAGAGGGGATTACAGGTAAGAAAAGTGATTTTGTATTAGAGTTGTGTCAGAAATTTAATGCCAGTACTTATTATTCTGGAAGTTTAGGGCAAGATTATTTAGACGAAAATGATTTTGAGAATGAAAATATAGAAATTATCTACCAAAGAATAAGGGATTATTCCTACAAGCAATTATTTGGGGAATTTATACCACATTTATCTATTTTAGATATTTTACTAAATTGTGGACCAAAGGAAACAGAAAAATTAATTAAAGGAGTCTAA	MIISGHQPSYLPWYGFFEKIHKSDVFVFHDIAQFEKKGFLNRNRIKTSQGASWLTVPIQMKNYKEIPFNKLKIDNTQDWERKHWKAIRINYSNAPYFNVYKDYLENFYSEDWINLNDMNMNFIHFIIRELNIDTELYYVSDLEGITGKKSDFVLELCQKFNASTYYSGSLGQDYLDENDFENENIEIIYQRIRDYSYKQLFGEFIPHLSILDILLNCGPKETEKLIKGV				NA	NA	NA	NA	NA
AK009_01156	678	bshB1_2	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGAATGTACTTGTATTTGCCGCTCATCCGGATGATGAAATAATTGGTGTTGGTGGAACAATAGCGAAACATGTGAAACAAGGTGATGATGTACATGTTGTAATACTTGCAGAGGGAAAATCTTCTAGAGCTAAAGAATATAAAGAGCTAGATTTAGAGGTTAAGAACTTATCTTATAAAGAAACAGAGGGGGCATGTACTACACTTGGTGTAAAAAGTTTTGCAAGACTAGATTTCCCTGATAATCGTCTTGATACATTACCCTTACTTGATGTAGTGAAAGAGATTGAAAATCACATTAAAAAAATAAATCCTACAATTATTTATACTCAATATGGTGGAGATATAAATATTGATCATACTGTTGTTTACAGAGCAGTAATGACAGCGACACGCCCTCTGCCAGATACTAATATCAAATGGGTATTTGCATATGAAACTTTATCTTCTACAGAGTGGAATTATAATGAAAAAGATAAGTTTCTTCCTAATTATTTTGTGAATATTGAAAATCATTTGGAGGAGAAATTAAGTGCGATGAGACATTATGAATCTGAGTTAAGGGAATTTCCTCATCCACGCTCTATAGAAGCAATGAGACATAACGCATTTGTATGGGGTGCCAAATCTGGATACCAAGCGGCTGAGGCATTTATGTTAGTAAGGGGGACATGGTAG	MNVLVFAAHPDDEIIGVGGTIAKHVKQGDDVHVVILAEGKSSRAKEYKELDLEVKNLSYKETEGACTTLGVKSFARLDFPDNRLDTLPLLDVVKEIENHIKKINPTIIYTQYGGDINIDHTVVYRAVMTATRPLPDTNIKWVFAYETLSSTEWNYNEKDKFLPNYFVNIENHLEEKLSAMRHYESELREFPHPRSIEAMRHNAFVWGAKSGYQAAEAFMLVRGTW	PGPT0019570_997	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
AK009_01157	954			hypothetical protein	ATGGTAGGTGAAGAGAATATGTTAATACCACAGGTCCCGTTCTTTGGTTTAGATAGTAAACAGATTGACTTAAAATGGGTTGAAAAAGGCTATGGATTAGAAGCAAATATTTTTGATGGGACATCTTTATTTGATAACTCATATACAAAAAGGTTTTCTGAGGTCCTGTCTTTTGTTCAAACCCTTAATCCATCCTTGTTAACGCTGCATTTTCCTACTGATAATGCAGACTATCTCAATGATGAATTTATTAAAAAGCAACTATATGAATTTATTAACCTTGCTATAAAGTATAATGCATCAGGTATAACAGTGCATGCTAATCAATTCATGAATGTCGCGGAATTTCAAAACTATAATCTTCTAGATAATAGAAAAAGGATTATAGAGTTCTTTAATATGCTAGATGAGGAAATAAAAGGGACTGATATATGGATTGGCGTTGAAAACCTACCCATTATTGGAAACTTGGGCGATGATTTTGATCCTATATTTATATATCCCGAAGATTTTACTGATTTGGTTAATCTGGAGTTATCTAACGTTGGAATAACATGGGATATATGTCATTGGTCTATAACCTATCTTACACGTTTAGGTATTTCTAAATTATTAAGGCAAGAAGAAATTGAATATAAGGATTTTCATAAGTATTTAAGCTTAATGGATTATATTAAACATTTTCATTTTAGTTCTTTTAAGCATTTAACGATTCCTTATAGTGAGATACGTTGCTATGAGGGAGAGAATCCGGCTAATGGATCTATTGATGAAAGTTTATTACATGAAACTTTATTAAAAGTGAAGAACAATACTTTGGATAAAAACATAGGAATTGTATTTGAGGTTCAGGAAACTGATTATACGAATAGAAAGAGGTCATGGGAGACTCTTAATTGGTTTCATAAAAATATTACTGGTATGCAAACAAAAATGAATTATTTGGAGATATAA	MVGEENMLIPQVPFFGLDSKQIDLKWVEKGYGLEANIFDGTSLFDNSYTKRFSEVLSFVQTLNPSLLTLHFPTDNADYLNDEFIKKQLYEFINLAIKYNASGITVHANQFMNVAEFQNYNLLDNRKRIIEFFNMLDEEIKGTDIWIGVENLPIIGNLGDDFDPIFIYPEDFTDLVNLELSNVGITWDICHWSITYLTRLGISKLLRQEEIEYKDFHKYLSLMDYIKHFHFSSFKHLTIPYSEIRCYEGENPANGSIDESLLHETLLKVKNNTLDKNIGIVFEVQETDYTNRKRSWETLNWFHKNITGMQTKMNYLEI				NA	NA	NA	NA	NA
AK009_01158	1374	ywaD_1	COG2234	Aminopeptidase YwaD	ATGAAAAAACTAACTCTTATAAAGAAGCTTATTGTAACTTTTGGGATTTTGTTGCTTTTCCTTTTTAGTAATTTATCTGAGGATGTAATACTAGTACATGCTATGACTAAGAACGATCAAAGTTCTCTCATGTCAGATAAGGTTCGTGCTAGTCGAGCTATTGAACATACACGTTTTCTGTCTGAGAAAATTGGTCCACGTCCAAGTGGGACTAAGGAAGAACATAAAACAGCTACATACATTGGAGATACATTAAAAAAATTAGGGTATGAAGTTGAGTATCAGGCCTTTCCTGTACCAGATCAATATATTGGGAGTATCTCTTTTAGTGTGTATGGAGAAAAAGAATGGCAAGTTGGAGCAGCATCTAATGCATCTATACCTAAAGATCCTGTCGTAGGGCCGGTAGTTTCTATAGGAAAAGAGAACGATATTAAAAATTCACCTGAGCCAATTCATGGGAAAATAGTATTACTGGAACAAGCTGATACGTATAAGAAATATAATGAACAAGTTGAGTATGCAGCAGAAAAGGGAGCAAAAGCTGTATTGTTATATAGTACGATTGGGGATAGAGGCAACTATGGAGAAGCCTTTAACCCAGTTCTAAAAAAGAAACAATCAATACCTGTATTTGGGCTTGCTTATAATCAGGGAATTAGAATGAAAGATAAAATAGTGCATAATAAAAATATAGTTAGTTTAAAGGCAAAACACGAAATGAATTTGAGTTCATTAAATGTTATTGCGAAAAAAAAGCCCAAATACAAGACAGATAATGAGGATGTAGCAATAATGAGTGCTCATTATGATAGTGTTATCGGAGCACCTGGAGCAAATGACAATGCTTCTGGCGTAGGACTTTTATTAGAGTTAGCATACAATTTTAAAGATATAGAGATTAATAAAGAAATTCAATTCATAGCGTTTGGAGCAGAAGAAAATGAATCCTTAGGTGCTTACCATTATGTTAATCAGTTATCTACAACAGATAAGAAACATATTCTAGGGGTTTTTAATGCAGATATGATAGCGACAAGTTACCAACAGGCTAAGGACTTATATGCAATGACACTAGATGGCTCTCAAAATGAAGTAACAAATACTGCAGTAGCTACTAGTAAAGCATTAGGGAAATCGGTTGTATTAACTGGAAAGTTTGATTCTAGTGATCATGTACCATTTTACGAAGCTGGAATTTCCTCAGCACTATTTATTTGGATGGATGTAGAGAGTTGGAATCCCCTAATTTATCATGTTGAAAAGGTATTCCATACACCTCAAGATACCGTTTTAGAAAATATTTCTCCTCAACGTATGCAGGAGGCACTAGAAATTATAGGGACAAGTTTATATTACTTTATCAAAAGATAG	MKKLTLIKKLIVTFGILLLFLFSNLSEDVILVHAMTKNDQSSLMSDKVRASRAIEHTRFLSEKIGPRPSGTKEEHKTATYIGDTLKKLGYEVEYQAFPVPDQYIGSISFSVYGEKEWQVGAASNASIPKDPVVGPVVSIGKENDIKNSPEPIHGKIVLLEQADTYKKYNEQVEYAAEKGAKAVLLYSTIGDRGNYGEAFNPVLKKKQSIPVFGLAYNQGIRMKDKIVHNKNIVSLKAKHEMNLSSLNVIAKKKPKYKTDNEDVAIMSAHYDSVIGAPGANDNASGVGLLLELAYNFKDIEINKEIQFIAFGAEENESLGAYHYVNQLSTTDKKHILGVFNADMIATSYQQAKDLYAMTLDGSQNEVTNTAVATSKALGKSVVLTGKFDSSDHVPFYEAGISSALFIWMDVESWNPLIYHVEKVFHTPQDTVLENISPQRMQEALEIIGTSLYYFIKR	PGPT0020920_190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020920-ywaD-K19701	NA	NA
AK009_01159	1275	mdrP_1		Na(+), Li(+), K(+)/H(+) antiporter	ATGAGGAGTACATGGAAAGAATTAAAGGGGATGGATCTTAATGTCTGGATCCGCTTTATCGGAGAAGCCTTAAATGGTATTGCAATGATGATGTTAATGCCATTTTTTGCATTATATTTGAAGGATAAAGTGGATTCTCTACTTGAGGTAGGTATAGTTATAGCTTTATCCCCAATTGCGGCGAGTTTTGGTTCATTAATTGGAGGGCATATAGCGGATACTTATGGACGGAAACCAACTATGGTACTCTCTATGGCCAGTAATGGGCTACTAATGCTTGTTTTTTTGTTTATTGATAGTTTTATAGGGTATGCCATTTTATCTATTGGTTTAGGGCTATGTAATTCTTTCTTTGAACCAGCGGCATCTGCAATGGTTACCGATGTAACAGAACCTGAAAAAAGAACTGAGGCATATGGATTACTTAGAATGGCTCATAATATAGGAGCTGCGATAGGCCCTATAATTGGTGCAGCAGTTGTGGTTGTATCAAAAGATGTCATATTTTTGATTACTTCTGGAACCATGCTGTTTTATACAATATTAATGTTATTGTTTCTAAAGGAAACAAAGCCTAAAAATATAATGATACATGAGGAAACACATAAACAGTCAATAAGATTTACGTTAAGAGTTGTTATAAGAGATAGAATATTTCTATTCTATATAGTGACGGGAATCATTATATTTATGGGATTCTCACAATCGGAAGGTATGTTACCACTTCATTTTAGTAATGAGAATACAATGATTTTTGGAAATAGTAATCCATTTCCATATTTAATGACTTTAAATGGCTTATTGGTTGTATGTTTCCAATTTCCTATTTCAAAGTGGTTAACTCACAAACCAATTGGTAAATCAATGCTATATGGTGCTATTCTTTTTGGCGTTGGCCTTTTAGCAATAGGATGGTTACCAAAGTGGTTTCAAGTAATAGACGCAAATGATTTAATTATTCTAGGCTCATTATTAATAGCTTATACAGTTTATACAGTAGGGGAAATGATTATGTCACCTGTCCAAATGACATTCGTCGCTAATATAGCTCCAGAACATTTGAGGGGGACTTATATGGGGGCGGCTAATCTGCAATGGATTACAGGTAATGTATTTGGACCTCTTCTAGGCGGTGTATTACTGGATCAGCTTTTAGGACATATGTTATTTACAATCTTAGGTGTGGGTTGTATTATTTCTGGATTTGTTTACTTACTATTAGATAGACTTATTGAGAATAGAAGTAAACAAATACCTATAAAACAAACATCTTAA	MRSTWKELKGMDLNVWIRFIGEALNGIAMMMLMPFFALYLKDKVDSLLEVGIVIALSPIAASFGSLIGGHIADTYGRKPTMVLSMASNGLLMLVFLFIDSFIGYAILSIGLGLCNSFFEPAASAMVTDVTEPEKRTEAYGLLRMAHNIGAAIGPIIGAAVVVVSKDVIFLITSGTMLFYTILMLLFLKETKPKNIMIHEETHKQSIRFTLRVVIRDRIFLFYIVTGIIIFMGFSQSEGMLPLHFSNENTMIFGNSNPFPYLMTLNGLLVVCFQFPISKWLTHKPIGKSMLYGAILFGVGLLAIGWLPKWFQVIDANDLIILGSLLIAYTVYTVGEMIMSPVQMTFVANIAPEHLRGTYMGAANLQWITGNVFGPLLGGVLLDQLLGHMLFTILGVGCIISGFVYLLLDRLIENRSKQIPIKQTS				NA	NA	NA	NA	NA
AK009_01160	195			hypothetical protein	TTGACATTAGATGATATTATTCTCTTTCTACAAAATTATAAAAAAACATATGAATTTACAAACTTACAAAGTCAAATAAAAACTTTAGAGACAGAAAATCATTCCCTTCTACAACGTGTAACTATGTACGAAGAAGAGTATCGTATGTTACTTAATCATATTGATAAGACAAGAAGTCTAGTTGAAATTAATTAA	MTLDDIILFLQNYKKTYEFTNLQSQIKTLETENHSLLQRVTMYEEEYRMLLNHIDKTRSLVEIN				NA	NA	NA	NA	NA
AK009_01161	276	rsfA_1		Prespore-specific transcriptional regulator RsfA	GTGGTACTCTCAAGACAAGATTCCTGGACGAACGATAACGATTTACTTCTCGCATCCACAGTACTCCAGAATATTCGTAACGGTGGAACACAGTTAACTGCATTCAAGGAAGTAGCAAAGCTACTAAATCGGACACCTGCAGCTTGTGGATTTCGCTGGAATTCATACGTGAGAAAACAATACCAAGAGGAAATACAACAAGCAAAACAAAATCGAGAAGTGGGAAACAATATTTCTCCCTCTCAACAAAAAAAGAAACATACTCTTTATCTTTGA	MVLSRQDSWTNDNDLLLASTVLQNIRNGGTQLTAFKEVAKLLNRTPAACGFRWNSYVRKQYQEEIQQAKQNREVGNNISPSQQKKKHTLYL				NA	NA	NA	NA	NA
AK009_01162	405			hypothetical protein	ATGTTTAACAAAAAACAAACATTCGTAACAACGGTAACAGCTTTAACACTAGGATGTGGATTTACATTCGGATTAACACCGGCCTTTGCAGATTTTAACAAGATTTCCGCCAACAATATTCCTGTTCATTCTATTCAGAACCAAGAACAAGAACCTTTTACTGGATATGTCATTTCAGTAGAGAACAATTATTTAGTAGTTGCAGCTACGTCTACAAAAGATGAAGCTCTTGCTTATCAACATGATTGGTGGAATCTAGTTTCTCAAAATAAGATTTTAAGAGTTCCTGTTTCAGATAGTGAAAACTACACATTAGGTGAGAAATTAAATGTATATGCAGCTGCATGGACTAAATCCCTACCACCAATAGCTGTTATGCCTACAATTGAAAAAGTATTTCATTAA	MFNKKQTFVTTVTALTLGCGFTFGLTPAFADFNKISANNIPVHSIQNQEQEPFTGYVISVENNYLVVAATSTKDEALAYQHDWWNLVSQNKILRVPVSDSENYTLGEKLNVYAAAWTKSLPPIAVMPTIEKVFH				NA	NA	NA	NA	NA
AK009_01163	294	pagR_1		Transcriptional repressor PagR	ATGATAACATTAATATCTGAAAAAAATCTAGCTGAAATCCACGAAGACGATGTAGATGTATTAAAAGTAATGGCACATCCTGTTCGATTACAAATTGTAAATGAATTAATGCACCATAAAATGTGTAATGTTACACAGTTAACGGAAATATTAAGAATCCCCCAATCTACTGTTTCACAACATCTATCAAAATTAAGGGGAACCGTACTCCGTTCAGAAAGAAGAGGGTTAGAGATGCATTATTATATAGATAATGCTAAGGCACGTCAGATTGTTGAAATTTTAGGTTTGTAG	MITLISEKNLAEIHEDDVDVLKVMAHPVRLQIVNELMHHKMCNVTQLTEILRIPQSTVSQHLSKLRGTVLRSERRGLEMHYYIDNAKARQIVEILGL	PGPT0004300_314	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_01164	159			hypothetical protein	ATGAAAAAGATTAAGAAAATTGTATTAAATATGGTAGTAGTAAGTGCATTAGCATGTAGCATAATTAGTTTAAATGTATCACAACACTCTTCGTTTAATGGTGGAGATACGCCAGCACCAACAAAACTGATTGTCTCTGGTGGAGTATCTATTGATTAA	MKKIKKIVLNMVVVSALACSIISLNVSQHSSFNGGDTPAPTKLIVSGGVSID				NA	NA	NA	NA	NA
AK009_01165	1101	rapF_2	COG0457	Response regulator aspartate phosphatase F	ATGAATGTTCAAGAGAAGAGTAATGAGCAATTGATGGGATTATTACACGAATGGTATGAAGAAATTCGTTTATATCATGTAAAAGAAGCAAAACAAACATACCTAAAAGTAAAAGAAAGTTTAAAAGGACTAAAAGCAGATCACTATGTATCATTCTATTATTCCCTACTGAATTTTAGATATATGGTCTTGGTAGATGCAATGAGTATTACAAAAGATTCTTTTAATCAAATAGAAAAACTCTCTACTATCAAAGATGATTTTTTATTTTTAGCTTACTATTATCATTTCTTTAAGGCAATTCATTCTACAATTTTAGCAAATTATACTGAAGCGAAAACACACTATGAAAAGGCGGAAGAACTTTTAATTGATATACCTGACGCAGTAGAAAAAGCCGAGTTTGAGTATAGATTTTCAACTTACTGTTATCAATCTTATCAACCATTTGAAGCAATTCAACATGTAGTAAAGGCAAAAAAAGTATACCAGAATCATGTAGGCTATGAAATTAATGTTGCCTTATGCGACAATGTATACGGTTTAGCTTGTATAGATCTAAGAGAGTTTGAAAGAGCTGAAGAATGTCTCAATACGGTTATTGATGTTTTTAAAAAGTATAATGAAGAACAATTATTATTAAGAGTACGTCATAATTTGGGCTGGTTATATAATATTCAAGATTTATTTCCATTGGCGATCAGACAGAGTTCTGAAATTATAAATACCCTACCGAATCATTTTAAAGCATTATTTGTCTTAGCAAGAGCATATTATAATTTAGAAGGCATTGAAACAGCAAAATCATATATCGAGCAAGGAATGAAGTATACAAATGAATCAGGAAATGAGGAATATAAGCATCGTTTCGCAGTTTTAAATGAACTAATCACAGAACTACCTAGAATTAAACTAGAAAAAGTAGTTACTGATGCTATTTCTTATTTTGAAAAAGAGGAAATGTGGGATTGTGTAAAAGAATATGCAGGGATTTTAGCAATCCAATTTTATGAGGCAGATAATCATGTTAAGGCAAGCAAATATTTCTATATTAGTAATAATGCTGATAAGAAATATTTGAGAAAAGGAGCGTTAAAATAA	MNVQEKSNEQLMGLLHEWYEEIRLYHVKEAKQTYLKVKESLKGLKADHYVSFYYSLLNFRYMVLVDAMSITKDSFNQIEKLSTIKDDFLFLAYYYHFFKAIHSTILANYTEAKTHYEKAEELLIDIPDAVEKAEFEYRFSTYCYQSYQPFEAIQHVVKAKKVYQNHVGYEINVALCDNVYGLACIDLREFERAEECLNTVIDVFKKYNEEQLLLRVRHNLGWLYNIQDLFPLAIRQSSEIINTLPNHFKALFVLARAYYNLEGIETAKSYIEQGMKYTNESGNEEYKHRFAVLNELITELPRIKLEKVVTDAISYFEKEEMWDCVKEYAGILAIQFYEADNHVKASKYFYISNNADKKYLRKGALK	PGPT0025760_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025760-rapC-K06361	NA	NA
AK009_01166	1440			hypothetical protein	ATGGTAGAGGTGTTTATTTTAATGAAGCACAAATTAATTGCAACAGGTATCCTTGCAGGATCTATATTATCCTATTCTTCTAATATTTTAGCAGATACTCATAAATTCCCTGATGTTCCTGTATGGGCTGATAAATCTGTTAATTATTTAGTTGATAAACAGGTATTGAATGGTTATCCAGATGGAACTTTTGGTTCAAATGACTCATTAGACAGAGCTTCGGCTACAAAAATTATGACAAAAGTTTTAGGGATACAAATTGATCCTAATGCAAAACCATCTTTTACAGATTCACAAAACCACTGGGCTACTCCTTATATTGCTGCTGCTGAAAGAGCTGGTATTGTTAAAGGTGAAGGTAATGGAATCTTCAATCCATCCGGGAAAGTAACTCGCGCTGCTATGGCTACGATGCTAGTAAATGCATATAAACTACAAAACACACCAAATTATAACGAGCAGGTTAGATTTGAAGATTTAAAAGGGCATTGGGGAGAAAAATATGCCAATATTTTAATAGATTTAAAAATTTCTAATGGTACTGAGAACGGTTGGCAACCAAATAGATTTATAACACGTGCTGAAGCTGCTCAACTTACTGCAAAAACAGATATGTTACAACAAAATTCAAACGATGAAAAAGAGATTATTACTGCTACTTCATATGAAGATTTAAATTTAACAGTGGCTTCGAAAATTACAGCTCAAGAGATTGATAGTTTTATTGCGAAATATCATTCGGATAGTCCTTTAGTTGGACATGGGCAAGATTTTATCAATGCGCAAAATCAATATGGCGTGAGTGCTCATTATTTAGCAGCGCATGCGATTTTAGAATCTGGATACGGAAAATCAGAAATCGCATATCAAAAACATAATCTATTCGGTCTACGTGCATATGATGGAGATCCGTTTAAATATGCGAAATATTTACCAAGCTACGGCGATAGCATTGCTTATAACGCTAATTATGTACGAGAAAGATATTTAGAAGAAAGTGGTATGTATTATAACGGGCCAACATTAACTGGCATGAACGTGAAATATGCATCAGATAAAGGTTGGGCTAAGAAAATTGCGGGTATTATGGAACGTATTAAACCGTTTCGTGTAGAAGACTATACATATGCAAAAAAATTACCAAAGAATCCTGAAACATTAGATGTCGACGCATTATCTAATGAAATTCCATATAAAATGTATGCAGACGGTTCAAGCTTAAATGTTGTATCATCAGCTACTTACTATCAGGTACCTTATCCATTTAATTTAAAAATTAAAAGTAGACCAGATGTAGCTGTCGAGGAGAATAAAGTTGGTACAGTAACTTCTGGAACAACCATCTTTATTTATCGTGAAGATCCAAATGGATGGGTAGAATTCTCTTTTGAAGCGAATGGAGAAAAATACTGGACATTAAAAAGTAAATTAAGTATGTAA	MVEVFILMKHKLIATGILAGSILSYSSNILADTHKFPDVPVWADKSVNYLVDKQVLNGYPDGTFGSNDSLDRASATKIMTKVLGIQIDPNAKPSFTDSQNHWATPYIAAAERAGIVKGEGNGIFNPSGKVTRAAMATMLVNAYKLQNTPNYNEQVRFEDLKGHWGEKYANILIDLKISNGTENGWQPNRFITRAEAAQLTAKTDMLQQNSNDEKEIITATSYEDLNLTVASKITAQEIDSFIAKYHSDSPLVGHGQDFINAQNQYGVSAHYLAAHAILESGYGKSEIAYQKHNLFGLRAYDGDPFKYAKYLPSYGDSIAYNANYVRERYLEESGMYYNGPTLTGMNVKYASDKGWAKKIAGIMERIKPFRVEDYTYAKKLPKNPETLDVDALSNEIPYKMYADGSSLNVVSSATYYQVPYPFNLKIKSRPDVAVEENKVGTVTSGTTIFIYREDPNGWVEFSFEANGEKYWTLKSKLSM	PGPT0019115_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_01167	555	puuR_3		HTH-type transcriptional regulator PuuR	ATGAACAATATTAATGTTGGTCAAAAAATTATGGCATTTAGAAAAGGTGCCGGATTAACCAGTAAACGTTTAGCAGAGTTAGCTGATATAACACCTTCCATGTTAAGTCAAATTGAGAAAGGAATCACAAATCCATCATTACAAACACTAAAATTAATTTCTGTAGCATTAAATATTCCATTGTTTAATTTTTTCTTAGAGGATACCAGTACAGAAGAATTAGTTGTAAGAGCTAACCAAAGAAAAAAAATAACTTTTCCTGAAAGCGGCAATGTTTCGTATGAGCTATTATCTCCTAATTTAGATGGATCACTAGAATTGGCTTTAATGAATCTGTTACCTCAAACTGCTTCATCTATGGAGCCTGTGGCACATAAAGGGGAAGAAATAGCATTTATTATGGAAGGACAAGTAAAACTATATCTAAATGATGAGGTTTTACTTCTCAATACAGGTGATAGTGTTAAAATCCCACCTTATGCAAAGCATAAATGGGAAAACACTTCTTTAAACAAGGTCACTGTTATATTTGGAGTAACTCCACCATCTTTTTAA	MNNINVGQKIMAFRKGAGLTSKRLAELADITPSMLSQIEKGITNPSLQTLKLISVALNIPLFNFFLEDTSTEELVVRANQRKKITFPESGNVSYELLSPNLDGSLELALMNLLPQTASSMEPVAHKGEEIAFIMEGQVKLYLNDEVLLLNTGDSVKIPPYAKHKWENTSLNKVTVIFGVTPPSF				NA	NA	NA	NA	NA
AK009_01168	141	dsdA_2		D-serine dehydratase	ATGATTAATTTTAAAATATCGTATGTACATATGGCAGCAGCTGCGAAAAAGTGGGAAAAAGATTTACTTAGAAATAAAGGGGCTACTATTTTTGAATATACAGCTGGTTATAGTAAAGCAGTAGAAGAAGGGGGAACATAA	MINFKISYVHMAAAAKKWEKDLLRNKGATIFEYTAGYSKAVEEGGT	PGPT0001970_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
AK009_01169	504			hypothetical protein	ATGAAATCAGCTTTAAATAGTATTATGATCTCCTCGATTTTTGCAGTAGGAGGGATCCTTTCGCTTTTGTTTAATTTAATGGGGGATCAAGATTGGATCTGGAATTGGGTAGGGCTATTACTAGCATATCTATCTTTGGGCATTTTAATCGGTTTATATAATAAAACTGTGGATCACAAAACATTTCCTAAAATACTAAAAAGAACTTTGTTTATTTCCTTTAATGTAACTATATTAGGGATAATAATAGGGGTAACATACCAACTATTAGGAAAGTGGAATCTTACTATAATGATGTATTATTGGCTGATAATTTTATTACTACATTTAATTACTGTAATAACATTAGTCATCCTAGCATTCGAAAACGGTAATAGTAAAAATTACAGCTTACTATATAGTTTTATTATACTTTTAAACATTGTCCTTACCTTAGGACCAGTATTATTTCCAGTAGTTCTAACTATTATAGGAAATGCCATGAACGTTAGTGCAGGGCACTAA	MKSALNSIMISSIFAVGGILSLLFNLMGDQDWIWNWVGLLLAYLSLGILIGLYNKTVDHKTFPKILKRTLFISFNVTILGIIIGVTYQLLGKWNLTIMMYYWLIILLLHLITVITLVILAFENGNSKNYSLLYSFIILLNIVLTLGPVLFPVVLTIIGNAMNVSAGH				NA	NA	NA	NA	NA
AK009_01170	822		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGAAAATTAAGCTTAAGAAAAAAAGAATTATAAGTGTATTGTTAGCTATTACATTAGTAGCAATAGGGTATTACATGTTTCAATCTATTACAAATCCTAAGCTGGTAAATGAGGAAGAGGGAAACAGTGTTCAACAAGTGAGCAGTCTACCTAAAAATGAATTAAAAAAACCAATACCTAATCGTTTTGATGGTAAAGAAAGAAAAGTTGCATATTTAACTTTTGATGATGGACCAGGAAAATATACAGCTAACCTATTAGATGTATTAAAGAAAAATGATGTGAAAGCAACATTCTTTTTAATTGGCGATAATGTGAAAAGGTTCCCAGATTTAGTGAAACGAGAGCATGTAGAGAACCATTATGTGGGTATGCATAGTATGACACATGATTTTAAAAATTTATACACCAATCAGGAATATGTGAAGGAAATGAAAGAGGATCAATCTTTAATTAGAAATGTTATTGGAAACTCCCCGAAATTAACACGCCCACCATATGGATCAATGCCTGGATTAAATGAATCACTTCGAAATGAAGTAGTCAGAAATAATTTAAAAGTATGGGATTGGACAATTGACTCTCTAGATTGGAAATATAATAAACTACCTGTGGATGTAGCGGCCGCAAAAATTGTTCAAAATGTCTTAGCAGGTGCGACGTCTTCAAAGGAAATTGTTTTAATGCACGATATTCATCCACAATCTGTTGCGGCAGTTCCAGCAATTATAAAAGGATTAAGAGAAAAAGGGTATGAATTTGAAGCTTATGATGAGAACAATCATTTTCCAATAAACTTCTGGCATGATAGCCGGATATAA	MKIKLKKKRIISVLLAITLVAIGYYMFQSITNPKLVNEEEGNSVQQVSSLPKNELKKPIPNRFDGKERKVAYLTFDDGPGKYTANLLDVLKKNDVKATFFLIGDNVKRFPDLVKREHVENHYVGMHSMTHDFKNLYTNQEYVKEMKEDQSLIRNVIGNSPKLTRPPYGSMPGLNESLRNEVVRNNLKVWDWTIDSLDWKYNKLPVDVAAAKIVQNVLAGATSSKEIVLMHDIHPQSVAAVPAIIKGLREKGYEFEAYDENNHFPINFWHDSRI	PGPT0018645_2907	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_01171	576			hypothetical protein	ATGAGCAGACGTTTTGCATTAACATATGAAAATAAGATTTTGAGAAAGATAATGATTACCGTAAGCATTATCACACTCGTTTTCATTACAACAGGGTGTGATTCAGTCCAAAATGATGCAAAGGATGTAACGGAGATTCCGCTAAACAGCAAACTAGATTCCCTTATTTCAGAAAGTATCATTGCCTGGAATCAAGACAAATTAAATCATACAAAAAAACAATTTGAGACGCATGTAATCTATGGAACTGAGATGAAGGATGAAAAAATGTATGTCTATCTCCATTCCCTCATGCAAGGATATAACCGCGAAACACAGACAGTTCCTCAAGCAGGACATTTACTTCCAGTCCGTGTGACAGTCACAAAAAATGGCGATGATTACATCATTGAAGATTACCGTGAACCAGGAGATGGTGCTGAAAATGAACCTACTTTGCGCAACATGTTCCCGAATAAGTATGCGGATCAAGCACTTGCTATATCAAATGAAACGATTCAATCATTAGAATCTCGTATGCAAGAATATGTTTCTAAGTGGTTGGAAGATACAAGTAATAAGAGACAAGATAGATAA	MSRRFALTYENKILRKIMITVSIITLVFITTGCDSVQNDAKDVTEIPLNSKLDSLISESIIAWNQDKLNHTKKQFETHVIYGTEMKDEKMYVYLHSLMQGYNRETQTVPQAGHLLPVRVTVTKNGDDYIIEDYREPGDGAENEPTLRNMFPNKYADQALAISNETIQSLESRMQEYVSKWLEDTSNKRQDR				NA	NA	NA	NA	NA
AK009_01172	525			hypothetical protein	ATGAGAAAAGTTATAATGTATTGTGGGATCTTTAGTATGATTCTTTTAAGCGGTTGTATCCGATTCGGAAAAGACACTACAGATACCATTTATCTCATTCCAGAAGCATACGAAGGAGACCTTTTGGTTCTATACAATGTTCCAGGAGCTGAGTTGTTGCCAGAAGAAGATGGGTTTCGTGTTGTTACTTTTTCTGCAGACGGGACCGCAGTAACATCAACACCTAATATGAAATATGGGGAAGTCAACGATACCTATTACACGGTTAACAAGGAAGGAAAGCGCACCAAACTTGACGAAAGCTGCATACGCGTTGGTTCAAATGGAAGCACTACTGAAAACATCGGTGAAGAAAATGAGCATACTTTCTCATACGCGAAATTGGAAGTCACACCTAGTGCATGCTCACAAAGCTTCTCATCATACGGGAGAGAAGTACCAGAAAATCAAGAACATCCTGTAGAGAAGAAACTGAGGGACTTACTGGTGCGTGTAAAAGAGCAGTATATGAAAGTGAAGAGCTAA	MRKVIMYCGIFSMILLSGCIRFGKDTTDTIYLIPEAYEGDLLVLYNVPGAELLPEEDGFRVVTFSADGTAVTSTPNMKYGEVNDTYYTVNKEGKRTKLDESCIRVGSNGSTTENIGEENEHTFSYAKLEVTPSACSQSFSSYGREVPENQEHPVEKKLRDLLVRVKEQYMKVKS				NA	NA	NA	NA	NA
AK009_01173	231			hypothetical protein	ATGTTAGGGATAGGGCTAATTGTATTAGGCATTTTACTTGTCAGCATAGTATCATACCGAGAAATAAAGAAAGCAGGGGGCGTTACCTGGATTGAAATTCTAGTCTATCCCTTTTTATTATTAATATGCGCGCTACTCGAGCATATTGATTTGCCAGGGTTTTTAATATTTTTAGGTTTGGTATGTATTGTTTTTGGTAGCTGTATGGTCATGGGCGTCAATATTCTATAA	MLGIGLIVLGILLVSIVSYREIKKAGGVTWIEILVYPFLLLICALLEHIDLPGFLIFLGLVCIVFGSCMVMGVNIL				NA	NA	NA	NA	NA
AK009_01174	198			hypothetical protein	GTGCAAAGTTTAAAATCTTTAAAACGTGACGTATACATTTTTCTTCCATTGTCTATTTATTTTTCCTCCATTTTTATTTCATTCTATATTATAGAGAATACATTCAACTTGCTAAGTTTTTTACCAGCACTTGGAACCCTGTATGTCTGGGTAACTAGTGTGATAGACATTAAAAATAAAAATTACAAAATAAAATAA	MQSLKSLKRDVYIFLPLSIYFSSIFISFYIIENTFNLLSFLPALGTLYVWVTSVIDIKNKNYKIK				NA	NA	NA	NA	NA
AK009_01175	111			hypothetical protein	ATGAAAATTGTAACAGTTAGTGCGGATGCAACAGTCCATGTTGGTATTTTAAAAGGGATGACAGGAAGTGTTACTAGTTATGATGCGGATACTGGGATGGCCGAAATCTAA	MKIVTVSADATVHVGILKGMTGSVTSYDADTGMAEI				NA	NA	NA	NA	NA
AK009_01176	459			hypothetical protein	ATGAAAAAATTATGTTCATTTGCTTTAATTGGTGCCTTAACCTTTTCGGGTTTTATCGTTTTAGACAGTACGCTACCTGATAAAGCGCGCGCTGAAGTAAATACGATTAAGCAAGCTTCAGCTGTTGTGGATGATTGGCCATGGCAAACGTATTTCTTATTGCATCACAATGCGGACTATATACAAGAATTAGCCCCTGGTAGGTTAAAACAAGGTGGTACGTTTGATACGACGGTATATATAGGCGGAAAAGATGTGGGTGTTGTAAAGATTTATAGATTGAACGGAGAAGGTGAATTGCAGCGCTACAAAACCATTTCTGCAGGTGAGGCTGGGCACCACTACTATTCTAGGTTCACAACACCTATTACAACAGTTTACACACCAGGTACATATGTAGCAGTACTGAAGATAGACACTTCATATTATTATGGTGGCTCCTTCCAAATTACAAAGTAA	MKKLCSFALIGALTFSGFIVLDSTLPDKARAEVNTIKQASAVVDDWPWQTYFLLHHNADYIQELAPGRLKQGGTFDTTVYIGGKDVGVVKIYRLNGEGELQRYKTISAGEAGHHYYSRFTTPITTVYTPGTYVAVLKIDTSYYYGGSFQITK				NA	NA	NA	NA	NA
AK009_01177	144			hypothetical protein	ATGGAAGAAAAACGAATTGCGATTTTTGTAGTGGATGGCAATGTCAAAGTCGCGAGCAAACTCCGTGATGTTGTGTTAGATATTGTTGGTTTTGATAATTTAGGAGAATACGTAGAGCCTGCTTTTACAGGGATATTGTATTAA	MEEKRIAIFVVDGNVKVASKLRDVVLDIVGFDNLGEYVEPAFTGILY				NA	NA	NA	NA	NA
AK009_01178	1056			hypothetical protein	ATGAATAGTTCTAAAGAAAATAATCCTATTTTGGCGGTCGTTAGCTCCAGCGGTAATCAAATTCATTTCTTCAATACGAAAAATTTTGAAAGAATAGGGGTTATAGATTCTCCAGTTACAGAACCTCATGAATTATGTTTCGATTCTAAGCGTCAATTGTTATATGTAAGTATTACTTATCGCTCAGGTTTTTATAGAAATAATCCGGAAAAAAGCCATGAAATTTTAGTTATCGATATTGATCAATTTAAAGTAACTGATATCATTGATATTTCGCCGGAATTTGCACCACATGGTTTAGTTTATAATGAAAAAAAAGACTTATTGTATGTAAGTGTTGAATCTGGTGAAGGAGGAATTTTAATTATTAATCTTAACACAAGAAAAGTGCTAGATAGAATCTCTACAGAAGCAACAGGTCCACATTGGTTTGTGACGAATCCAGATGGTACAAAAGGATATTCCTCTAATAAAGAGGCGCCCTTTATATCGGTTTTAGATACACATAATAAGGAGTTAATTGGAAAAGTATCTATGCCCTATGGTAGTGAAGAACTAGCTATTTCTCCTAAAGGTAATCGAGTTTATATCCCTTCACCATGTTTACTTGGAGACTACAAAGAGGAGCAACCTACACTTAGCATCATTAATACAGAAACCAATAAAATTATAAAGACAAAATCATTTTCAGATTTAATTACTCCGGTTCATGTAACGAATGATGGGAAAGTATTGGTAGGACATACGCGTTTTCAGAATAAGAATGGAGAGAGAACAAGAAGTATGTTTTCTCCAGCACCAGGGTATGTTTCTGTTCTTGATGGAGAATCGTTAAATATGTTAGGTACAATAGAAGTAGATTTACTCCCAATTACAATGCGTTCTTCTACGGACGGAACGGTTGGATATGTTTCTAACCTTAGATCAGGGACAATAAGTGTATTAGATTTAGTTAATTACAAGAATGTTCATACCATTGAAGTTGATCCAGGAGATCGAAATGCAGATCCTTCTGTAAATCAAGGAGCTCACGGTATAGCATATATAGAAAGGTAA	MNSSKENNPILAVVSSSGNQIHFFNTKNFERIGVIDSPVTEPHELCFDSKRQLLYVSITYRSGFYRNNPEKSHEILVIDIDQFKVTDIIDISPEFAPHGLVYNEKKDLLYVSVESGEGGILIINLNTRKVLDRISTEATGPHWFVTNPDGTKGYSSNKEAPFISVLDTHNKELIGKVSMPYGSEELAISPKGNRVYIPSPCLLGDYKEEQPTLSIINTETNKIIKTKSFSDLITPVHVTNDGKVLVGHTRFQNKNGERTRSMFSPAPGYVSVLDGESLNMLGTIEVDLLPITMRSSTDGTVGYVSNLRSGTISVLDLVNYKNVHTIEVDPGDRNADPSVNQGAHGIAYIER				NA	NA	NA	NA	NA
AK009_01179	1968	pbp_2	COG0768	Beta-lactam-inducible penicillin-binding protein	TTGAAAAAATTATGGATGCTGCTTTTCGTTTGTTTCGCAGTTATGTTGGTAGGATGTAATAAAAACGAACCGCCAAAACAAGCATTTGAAGAATATATCAACTTATGGAATGATAGAAAATTTGCAAATATGTATGATCATTTATCAGATCATGCCAAAAAATCGATTTCTAAAAAAGAATTCACAGAAAAATATCAAAAAATCTATGAGGGGATTGGAGCTAAGAATTTAAAAGTTAAAATGAAAGGAGAGAATACGAAAGATAAAGAGCTTTTTCTTTTTGAAGTTAAAATGGATACGGATGTAGGATCAGTTTCATTCATCCACGAAGCAAAACTTGTGAAAGATAAAGAATCTTGGAAAATAGATTGGACACCGGACTTCATTTTCCCAGGAATGAAAAAAGATTACAAAGTACGTATGCAAATAGAGCAAGGAAAACGAGGAGAAATATATGATCGAAATGGAAAAGGGCTTGCAACGAATGGTAAAGCAACTGAGGTTGGAATTATTCCAGAGAAACTAGGCGAAGCAGCAGCGCAAACGAAAGGAATAGTAGCGCAATTACTTGATATGTCTATAGAAGAGGTCGAACAAAAGCTCACAGCGAAATGGATAAAACCAGACTCCTTTGTACCAATTGGCGTTTTAAAAGAGGGAACTAGACAGAATGATTATATTGAATTAGAAGGAGTTTCATCTCGCCCAGTAAATATTCGTACGTATCCATTAGGTGAAGCAGCGGCACACTTAACTGGATATATAGGAAAGGTGAATGCGGAGGAGTTAAAATCACTTCAAAAACAAGGTTATCAAGCAGATGATTTAGTAGGTAAGACCGGTTTAGAGAAAGTGTTAGAAAATAAATTGCGTGGTGAAAAGGGTGGACGCGTATTTATAGAAGATGAGAATGGGAAAGAGATTAAAAACGTAACAAAAAAAGAAGCAAAAGAAGGAGAAAATGTTACGTTAACAATTGATGCTGCAATTCAAGAAAAAATCTTTAATGAGATGAAAACTGAAGCAGGATCTAGTGCAGCGGTCAATCCTAAAACAGGTGAAACAATCGCACTTGTAAGTAGCCCTGCTTATAATCCAAATATAATAGTTAGAGGAGCATCGAAAGCCCAACGAGAAGCATGGAGTAACGACTCGAAACTACCAATGATGAATCGCTTCACACAAGCATTTGTACCAGGTTCCGTATTTAAAACGATTACAGGTGCAATTGGTTTGGAAACAAACACAATAAATCCGAAGGAAGAATTTAAAATTCAAGGATTGAAGTGGACAAAAGATTCATCTTGGGGAAATTACTATGTAACGCGTGTAAAGGATGCAAGTCCAATTGATTTTGATAAGGCAATGAAGTACTCTGATAATATTTATTTTGCTCAACAAGCTTTGAAAATGGGAAAAGATCAGTATATAAATGAATTTAAAAAGTACGGATTTCATGAAAAATTACCAATCGAATACGAATTTCCTATTTCAATCATTGCAAAAGATGGGATAAAAAATGATATTCAACTAGCAGACACGGGCTATGGACAAGGACAAGTATTAATGACGCCACTTCATTTAGCATTAACATATGCACCGATTGTGAATGAAGGGAATATTCCGTCGCCACATCTTTTAAAAGAAGCAAAAGTAGCGGGGAATTGGAAAGAAAATGTGATTTCTAAAAAGAATCAAGAAATATTAAAGAGTGCATTAATCAAAGTCATTAATGACCCTGATGGCGCAGGGAGAATTGCAAAGGTTGATGGTGTAACGCTTGCTGGTAAAACTGGTACAGCAGAACTGAAAGAGTCGAAAGAAGCAGACGGAAAAGAACTGGGATGGTTCGCAGCTTTCGATGCAAATGCACCAGACATGATTGTTACAATGATGATTGAAGATGTAAAAGGAAGAGGAGGAAGTAACGTTCCAGGTGAAAAAGTAAAACATGTATTTCAGAAATAA	MKKLWMLLFVCFAVMLVGCNKNEPPKQAFEEYINLWNDRKFANMYDHLSDHAKKSISKKEFTEKYQKIYEGIGAKNLKVKMKGENTKDKELFLFEVKMDTDVGSVSFIHEAKLVKDKESWKIDWTPDFIFPGMKKDYKVRMQIEQGKRGEIYDRNGKGLATNGKATEVGIIPEKLGEAAAQTKGIVAQLLDMSIEEVEQKLTAKWIKPDSFVPIGVLKEGTRQNDYIELEGVSSRPVNIRTYPLGEAAAHLTGYIGKVNAEELKSLQKQGYQADDLVGKTGLEKVLENKLRGEKGGRVFIEDENGKEIKNVTKKEAKEGENVTLTIDAAIQEKIFNEMKTEAGSSAAVNPKTGETIALVSSPAYNPNIIVRGASKAQREAWSNDSKLPMMNRFTQAFVPGSVFKTITGAIGLETNTINPKEEFKIQGLKWTKDSSWGNYYVTRVKDASPIDFDKAMKYSDNIYFAQQALKMGKDQYINEFKKYGFHEKLPIEYEFPISIIAKDGIKNDIQLADTGYGQGQVLMTPLHLALTYAPIVNEGNIPSPHLLKEAKVAGNWKENVISKKNQEILKSALIKVINDPDGAGRIAKVDGVTLAGKTGTAELKESKEADGKELGWFAAFDANAPDMIVTMMIEDVKGRGGSNVPGEKVKHVFQK	PGPT0023945_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023945-pbpC-K21467	NA	NA
AK009_01180	534	ylaC		RNA polymerase sigma factor YlaC	ATGGAACAGACGTTTATTGAAAAGTGTAATCATGATGAGCTGGACTATGTTATAAAAGACTATTGGCAAGATGTATGGAATTATTCATTTATTATTACGAAAGATCCACACTTATCAGATGATATCACGCAAGATGTATTTATAAAGGTGTTTAAAAATTGGAATTCATTTCGAAAGGAGTCATCTATTAAAACGTGGATATTAAAAATCACAAGAAATACGGCAATAAACTATTTGAAATCCTCTTATTTTAAAAGGATATCTTTAATAGGATTTTTTAGTGACGATAAGCAATCCCTGTCAGCAGAACAAGAATTTTTTAAGCAAGAAGAAATGAATGATGTGTGGAAGGTTGTATTAGAACTACCTAAAAAGCACCGTGAAATAATTATATTGGACGCAAAATATGAATTATCTTATGAAGAAATGGCTGAAACATTAGGAGTATCCATTGGAACTGTAAAATCGAGATTAAGTAGAGCGAGAAGTAAGGTTTCAAAATTAATAGGGGAGGGTAGTAGTGATGAACAATAA	MEQTFIEKCNHDELDYVIKDYWQDVWNYSFIITKDPHLSDDITQDVFIKVFKNWNSFRKESSIKTWILKITRNTAINYLKSSYFKRISLIGFFSDDKQSLSAEQEFFKQEEMNDVWKVVLELPKKHREIIILDAKYELSYEEMAETLGVSIGTVKSRLSRARSKVSKLIGEGSSDEQ	PGPT0014960_10456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_01181	828			hypothetical protein	ATGAACAATAAACAAAATCCTGACTGGTATAGAAAAATAAAAAAAGGGCCAATGGAGAATCGTAAAGATGAAGAAGAATTTATTTCTAAAATAAAGCAGTCTATATATGAAAATAATGAAGTGGATTTTGTAAAACATAAAAGACCATTTCGTAAAAAAGCATTACCAATTGTAGTTGTTTTAGTTTGTACAATGTTATTTTTCATTGTTCAACAACCTTGGCTTGATGATAATAAATCACCGGTACAAAGTAGTACTCAAATTAAGCCTAAAACAAAAGATGAGTCTGCTCAAGATCCATCATTAAAACAATTTATGAATGAACTATATCAAAGTACGAACTCGAAAAATGAAAATGACCTGTACAAAGCGTTAAATGATGAAGTTCTATTTAAAGGGAAGAGTTATAAGAAGGATGAACTGAAGTTTGATGAAGATATTTTTCATGAGTTGCAAGTCGCTCTTACAATGGGGGGAGAGTTTGCAAATGATACAAAAAAAGTATACAAAGTACCAAGTGGATTGACAGAAAGTAACCAACCAAAGCAAGCGCATTTTATATATGCAACGGTTACTGGAAATAAAACGAAAATTTTAGCTGAACCAAAACGAGAATCACAAGTGTTATATGAAGTATCTAATGAAATGGTAAAAGCTTGGATTCCAGAAAAAGTGCAAAATGATGGATATATAAAAATATCGACAATTAATGGCAATACTGGATACGTACAAAAAGAGTATGTTTTAACTGATATTAAGTATTCATTTATGTTCGAAAAAAATGATAATGGTGAATGGAAAATAATAAATATAGATTCTATTTGGTAA	MNNKQNPDWYRKIKKGPMENRKDEEEFISKIKQSIYENNEVDFVKHKRPFRKKALPIVVVLVCTMLFFIVQQPWLDDNKSPVQSSTQIKPKTKDESAQDPSLKQFMNELYQSTNSKNENDLYKALNDEVLFKGKSYKKDELKFDEDIFHELQVALTMGGEFANDTKKVYKVPSGLTESNQPKQAHFIYATVTGNKTKILAEPKRESQVLYEVSNEMVKAWIPEKVQNDGYIKISTINGNTGYVQKEYVLTDIKYSFMFEKNDNGEWKIINIDSIW				NA	NA	NA	NA	NA
AK009_01182	1842	mrdA_1	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGAACTCTTGTCTTCAAACGAAAAACACCTCCAATGAATTTGCATACTTAGTATGCGAATTCAGGAGGTGTTTTTTTCATGTACCACTATTCGGGTTCACTTCATTTTTTGCGGTTTTTTCTATCGTAGGTTTGATTTTACTAATTTTATTAAAAATCAACTTCATTTCAATTACTATCGCAACTTCTTCAGCTGAAAGAGGAAAGATTTTTGATCAAAATGGTGTAATACTAGCTACAAATAAGAAAGTTAAGTCTCTATATTGCACTTCTAATGACGAAAAGCTATCGAAACAAGATACATCAAACACATTAGCTTTTTTTAATCAATTTTCAAGCGAATTTCAACATGATATTTCTACAGAGAACATAAAATCTCAATTACAACAATCTTGTAAAAAGCAGACTATGAATGATATACCGTTATACTCTGATATAACTGAAAATGAACTTGCATTCATAAACAAAAACAAACCCAATAATGTAATAATTAAAAATGAATGGATTCGATATTATCCTAAACACGAAATTGGTTCACAAGTAATTGGGTATGTAGAAAATGACCTTAATTCAAAGCATAAGGCTGTTGGAAAAAGCGGGATTGAGCTGCAATATGAAAATGATTTAAAAGGAAAACCAGGTAAAACTCTTATTTTTAAATTGAATAATAAAAAATTCTTATGGAATATTCAAAAAGTACAAAAAGGTAAAGATGTACGGCTAGCTTTAGACTCTGAGTTGCAGCAAAAGGCAGAAGAAGCATTAAGATCTCAAATTAAGAAAACACCTGATGCTAAAGCTGGTTATGCTGTAGTAAGCGATGCAAAAACTGGCGCAATTTTAACTATGGCCAACACGGCAGTTTTTGATCCAAATATATTAAATACACTTGTATCTTCTAGAAAAGAAAACATTAACTCTCTTTCGCAAAATAAAGCAATTCAAAAATTAAAGTATGGTGAATCTTATGTAAATATGGCTTCTACTATAAAACCACTCACTATTTTAATTGGATTAAACGAAAAGCTTTTCCAACCCGAAGATACTTATTTAGATAAAGGGACTTTTCAGTATGATAATCAAAATAACATTACGAATGCACCTGGAACACCAACAGGTGAGATTACACCGAGGCAGGCTATCATTAATTCATCTAACACATTTATGACAGCAAAAGTAGCTCTGCCCCTATTCAACCAAAATAATGGGAATATAGAAAAAGTGGCCCATATATGGACAGATTATTTAATACAATTCGGCCTACGTTCTAAAACCGGGATTGATTTACCCTTTGAAGAAGACGGACAATATGAATTCCATCCATCTAATAAGTTTGAAAATGGAATCTCCGCTTTATTAAACGCCTCTTGGGGAGGAAATGAAGTGCATACCCCTCTTCAACTCGCTCAATATGCAGCAACTTTGGCAAGTAAAGGTGATAAATATAAACCTCAAACTGTAAGTGCAATTATTAGTCCGGACGGTAAGGAAACAAAAAAGTTTAAACCAATTTTAGAAAGTTCAAATCGTTACCCGATGAACTTTTGGAGTGTCGTGCAAGGTGGAATGAGTCAAAATATAGAGGAAATTAAAAAGTTGCCTTTTGACGTCGCAGGTAAAACAGGTATTACAGGCTTTCCAAATGAGCAAGAAAGAATGATAAATCATTCTCTTTTCATTGCATATGCTCCTACTGAAGATCCACAAATTGCCGTTTCTGTCGTTATTCCTGGTAGTAATTCAGAAAAAAACATTGCCGCTCTCGTTACATCAGAAATTTTAGAGTCTTGGCATACACTTCAAAAAGAGAATAAAAACAAAGAGGAAGGTTCATTAAAGTGA	MNSCLQTKNTSNEFAYLVCEFRRCFFHVPLFGFTSFFAVFSIVGLILLILLKINFISITIATSSAERGKIFDQNGVILATNKKVKSLYCTSNDEKLSKQDTSNTLAFFNQFSSEFQHDISTENIKSQLQQSCKKQTMNDIPLYSDITENELAFINKNKPNNVIIKNEWIRYYPKHEIGSQVIGYVENDLNSKHKAVGKSGIELQYENDLKGKPGKTLIFKLNNKKFLWNIQKVQKGKDVRLALDSELQQKAEEALRSQIKKTPDAKAGYAVVSDAKTGAILTMANTAVFDPNILNTLVSSRKENINSLSQNKAIQKLKYGESYVNMASTIKPLTILIGLNEKLFQPEDTYLDKGTFQYDNQNNITNAPGTPTGEITPRQAIINSSNTFMTAKVALPLFNQNNGNIEKVAHIWTDYLIQFGLRSKTGIDLPFEEDGQYEFHPSNKFENGISALLNASWGGNEVHTPLQLAQYAATLASKGDKYKPQTVSAIISPDGKETKKFKPILESSNRYPMNFWSVVQGGMSQNIEEIKKLPFDVAGKTGITGFPNEQERMINHSLFIAYAPTEDPQIAVSVVIPGSNSEKNIAALVTSEILESWHTLQKENKNKEEGSLK				NA	NA	NA	NA	NA
AK009_01183	297			hypothetical protein	ATGTCTAATGATTTTAATATGGATTATAGTCATTTTGAAAGGAGTGCTAAAATCCTTGAAATGCTGGGTAATTCAAATCGTTTATTGATTGTTAGTGAATTGATTAAAAATGGTGTTATGACAGTTTCTCAACTTAGTGCAGCAACACAAATTGCAGAATATAAAATTCTACAACATTTAAAAAAATTAACGATAAGCAAGGTTATCAGTAGTGAGCGGAAGGGTACAAAAATCTATTGCAAAGTAGAAGAGAAAAAAACCATTGATATTATTTTTTTATTAGAATTGTTAAATTAA	MSNDFNMDYSHFERSAKILEMLGNSNRLLIVSELIKNGVMTVSQLSAATQIAEYKILQHLKKLTISKVISSERKGTKIYCKVEEKKTIDIIFLLELLN				NA	NA	NA	NA	NA
AK009_01184	909			Epimerase family protein	TTGAAAATTGCAATTTGTGGTGGAAGTGGATTTATTGGTAGACATCTTTCAAATTTTCTTAGCAATGAGGGGCATACAGTTTATATTCTTACACGGAAAAAGATAGATGATTTTTCAACTTCTAATATTCAATATGTAAAATGGGATGCTAATTCAAATACATTTCCTTTTTCGTCTATTGATGTTGTCATTAATCTAGCTGGAGAATCTATTAATAACGGTAGATGGACAAAGAAACAAAAAGAAAAGATTTTAGAGAGTAGGTTACAAACTACAAAAGGACTTATTAAGCAATTACACACCCTTGAAATAAAACCTCAAACGTTCATTAATGCCAGTGCTATTGGATACTACGGGGCATCTCAAAAGCAGTCTTTCACAGAGGAACACGAAACTCCGGGAAATGATTTTTTAGCAACTACAGTATCTTTATGGGAACAAGCAGCATCTCAAGCTAAATCACTCGGAATACGTACTATTTACACTAGATTCGGTATTGTATTAGGTAAAGATGGAGGTGCTTTTCCAAAAATGCTCCTTCCCTATCAATTGTATATTGGGGGTACAATCGGAACCGGAAACCAATGGTTATCATGGATTCACATAGATGATGCCGTACGTATAATTGATTTTGCTATCAACAAAAAGGAGGTAAAAGGACCTCTTAATATTACAGCACCAACACCAGCTACTATGAAAGAATTCGGGAAAAATATGGCAAAAATTACAGGGCGCCCACATTGGCTGCCAGTCCCTTCTTTTATCCTCCATACTTTACTGGGAGAAATGAGCATGCTGATATTAGAAGGACAGCACGTATTACCTCAAAAAGCTATTGAACACGGATATCAATATAAATTTTTAACATTAGAACATGCATTACAAAATATAATTCCATCTACAATGTAG	MKIAICGGSGFIGRHLSNFLSNEGHTVYILTRKKIDDFSTSNIQYVKWDANSNTFPFSSIDVVINLAGESINNGRWTKKQKEKILESRLQTTKGLIKQLHTLEIKPQTFINASAIGYYGASQKQSFTEEHETPGNDFLATTVSLWEQAASQAKSLGIRTIYTRFGIVLGKDGGAFPKMLLPYQLYIGGTIGTGNQWLSWIHIDDAVRIIDFAINKKEVKGPLNITAPTPATMKEFGKNMAKITGRPHWLPVPSFILHTLLGEMSMLILEGQHVLPQKAIEHGYQYKFLTLEHALQNIIPSTM	PGPT0014730_1667	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK009_01185	972			hypothetical protein	ATGCAGAGACAATTTCCTAAACCAAAAGTGGTTGTGAGTAAATGCTTGGAATTTGATACCTGTCGTTATAACGGAGATATGATTTTTGATGTTACAATTCAAAATTTAAAACCATTTGTTACATTTATTCCTGTATGTCCTGAAGTAGAAATTGGATTGGGTATACCTCGTGAAACAATTCGAATCGTTGAGGAGAATGGCGTTCAAAAACTTGTGCAGCCTTCTACAAGAAAAGATTTAACAGAACAAATGCAGCATTTTTCTAATTCTTTTTTAAGTACATTACCAGATGTCGATGGATTTATTTTAAAAAGTCGATCTCCAAGTTGTGGAATAAAAGATGTGAATATCTATACGGGGTATGAAAAGTCACCAACGAAAGGAAAAGGTCCTGGCATATTTGGTGGGGCTGTGCTAAGAAAATTATCTCATATTGCAGTAGAAGAGGAAGGGAGATTGTCAAATTTTACTATTCGAGAACATTTTTTCACAAAATTATTTACAATTACTCATTTTAGAAGAATCAAACAAAATGGAAATTTAGAAGAATTGATTGCTTTTCAATCCGTTTATAAGTATTTATTCATGGCATATAATCAGTCAAAACAAAAAGAGTTAGGCAGAATTATTGCCAATCACAAAAAAGATAAAGTTGAGAGCATATTTAAAAAATATGAGGAAATGTTATATGAATTATTAAAAAGAACACCTCGTTATACATCACATGTAAACGTATGTCAGCATATCTTTGGTTATTTTAAAAAGAATTTGAAAAATCAAGAAAAAGAGCATTTTTTAACACTTCTTCAAAAGTATAAAGAAAAAAAGATACCGCTTAGCAGTTTGCTCTCTGTATTAAAATCATGGGCTCTTCGTTTTGAAGAACAATATTTATTAAGGCAAACCTATTTTGAACCTTATCCAGAAACCTTAGTAGAAATTTCAGATTCAGGAAAGGGCAGAGATTACTAA	MQRQFPKPKVVVSKCLEFDTCRYNGDMIFDVTIQNLKPFVTFIPVCPEVEIGLGIPRETIRIVEENGVQKLVQPSTRKDLTEQMQHFSNSFLSTLPDVDGFILKSRSPSCGIKDVNIYTGYEKSPTKGKGPGIFGGAVLRKLSHIAVEEEGRLSNFTIREHFFTKLFTITHFRRIKQNGNLEELIAFQSVYKYLFMAYNQSKQKELGRIIANHKKDKVESIFKKYEEMLYELLKRTPRYTSHVNVCQHIFGYFKKNLKNQEKEHFLTLLQKYKEKKIPLSSLLSVLKSWALRFEEQYLLRQTYFEPYPETLVEISDSGKGRDY				NA	NA	NA	NA	NA
AK009_01186	249	yflH_1		putative protein YflH	ATGTCAGTGCTAGACAATTTTGATCAATGGAAAAGCTTTTTAGGAGAACGATTAGAACAAGCCGAAGGAAAAGGAATTGCTGGTGAGGCAGTTTCAGATATGGCATTCCGTGTAGGTGATTATTTGGCAAATGAAGTAGAGGCGCGAAATGACCAAGAAAAACTATTAGCTGAGCTTTGGAAAGTTGCTAATGAACAGGAACAACATACAATTGCCAATTTAATGGTGAAGTTTGTCCAACATAAATAA	MSVLDNFDQWKSFLGERLEQAEGKGIAGEAVSDMAFRVGDYLANEVEARNDQEKLLAELWKVANEQEQHTIANLMVKFVQHK	PGPT0003182_1355	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK009_01187	264			hypothetical protein	ATGGAGCTTTCTAATGAAAGTAAAACTTATTATGCTGGAGATATTGTCTATATTTTTTATCGAAATCCCCACACTCAAGATGTAGCAAATATACAAGCCGCAGCAGTTGTAAATAACCCTGAGAGACCAAATGAATTAGCGTTGTTCCTTTACGAAACGTATTATCCACTAACAAATGAGATGGCGGTTTATTCTACGGAAGAAGAGGCAAACCAAGCGTACACTTACTATTATGGTGATATTCCAGAGGGGGTGTTGGAATGA	MELSNESKTYYAGDIVYIFYRNPHTQDVANIQAAAVVNNPERPNELALFLYETYYPLTNEMAVYSTEEEANQAYTYYYGDIPEGVLE				NA	NA	NA	NA	NA
AK009_01188	1029	splB	COG1533	Spore photoproduct lyase	ATGAATAAGCCATTTATGCCTAAGCTCGTATATTTTGAACCTAAAGCATTAGATTATCCTTTGGGGAAAGAGCTGTTTGAGAAGTTTTCAAAGATGGATGTTGAAATTCGACATACTACTTCCCATAATCAAGTAAGAGATTTACCAGGCGATAACGATTTTCAAAAGTATCGAGTAGCAAAATCTACACTTGTTGTTGGTGTTAGAAAAACGCTGAAATTTGATACTTCCAAACCTTCAGCGGAGTATGCAATTCCCTTTGCAACAGGGTGTATGGGACATTGTCATTATTGCTATTTACAGACAACAATGGGAAGTAAGCCATATATCCGTACTTATGTAAATGTTGATGAAATCTTAGAAGCGGCTGACAAATACATGGAGGCTCGTGAGCCAGAATTAACAAGATTTGAGGCTTCTTGTACATCAGATATTGTAGGAATTGATCACTTAACACATACGCTAAAACGGGCAATTGAGCATTTTGGGGAATCAAAATACGGAAAGCTGAGGTTTGTTACAAAATTTCATCATGTAGATCATTTACTTGATGCAAAACATAATGGGAAAACAAGATTTCGATTTAGTGTAAATGCTGATTATGTTATTAAAAACTTTGAACCAGGTACGTCCCCTTTAGCTAAACGAATCGAAGCAGCAGGAAAAGTAGCTAGAGCAGGATACCCGTTAGGGTTCATAGTGGCTCCTATTTATCTTCATGAAGGTTGGCAGAACGGGTATTTTCTTATGTTTGAACGTCTAGATGCTGAATTACCTCTTGATGTAAGAGATGATATTACATTTGAATTTATTCAACATCGTTTTACAAAGCCTGCAAAGAGAGTGATTGAAAAAAATTATCCTATGACAAAATTAGAATTAGATGAAGAGAAAAGAAGATATAAATGGGGGAAATATGGAATTGGTAAATATATTTATCAAAAAGAAGAAGAAGATGATATAAAAAATCAACTTTATTCATATATGAATAAATTTTTTCCAAATGCAAAACTAGAGTATTTTACATAA	MNKPFMPKLVYFEPKALDYPLGKELFEKFSKMDVEIRHTTSHNQVRDLPGDNDFQKYRVAKSTLVVGVRKTLKFDTSKPSAEYAIPFATGCMGHCHYCYLQTTMGSKPYIRTYVNVDEILEAADKYMEAREPELTRFEASCTSDIVGIDHLTHTLKRAIEHFGESKYGKLRFVTKFHHVDHLLDAKHNGKTRFRFSVNADYVIKNFEPGTSPLAKRIEAAGKVARAGYPLGFIVAPIYLHEGWQNGYFLMFERLDAELPLDVRDDITFEFIQHRFTKPAKRVIEKNYPMTKLELDEEKRRYKWGKYGIGKYIYQKEEEDDIKNQLYSYMNKFFPNAKLEYFT				NA	NA	NA	NA	NA
AK009_01189	360			hypothetical protein	TTGTCTGCTTTCTTAAAATTAGTAGGAGAAAACATCCGATTATTACGAAAAAAAAGAGGATTGACACAAGAAGAATTAGCTGAACGAATCAATTTACAACAAGCTTATATTGGGGGAGTTGAACGTGGGGAAAGAAATATTTCCATGCTTACTCTACAAAAAATTGCTGTTGGTCTAGAGGTTTCACCTGAAAAAGTGTTAAACTTAAGTAATATCAATTTACTCGAAAACCCTCAAAGAGAGGGATTTCTAAGTATCATTACTTCTCTAATTCATCAAAAAAATATTGATGAATTGCAATTCATCCTAAAGTTTATTCATAACTTCTCTGAGTTCGTAGAAAGTAACAGTATAAAATAA	MSAFLKLVGENIRLLRKKRGLTQEELAERINLQQAYIGGVERGERNISMLTLQKIAVGLEVSPEKVLNLSNINLLENPQREGFLSIITSLIHQKNIDELQFILKFIHNFSEFVESNSIK	PGPT0014755_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449	NA	NA
AK009_01190	312			hypothetical protein	ATGCCTAAGAAAAGAACTCCTTATGAAACGTGGAGAATAAACATAAGACCAATCATATGGAACAGAGATAATAGACAATGTATACGTTGTAAAAAATCAGTCTTATTAAATAAATGTCATATCGATCACATAGTTAGTGGGCTAAGTGGGGATAATAGGATCCGAAATTTACGTACCCTTTGCAGAAAATGTCATGTTCTACGTGCAGATCACTTCCATCAAGGTATGATTGCAAAAGCTTTAAAAGACGGAGTTATAACAGCGGATTGGCGTAAACATGTTTGGGAAGAAGATTCACTATTAAGAAAATAG	MPKKRTPYETWRINIRPIIWNRDNRQCIRCKKSVLLNKCHIDHIVSGLSGDNRIRNLRTLCRKCHVLRADHFHQGMIAKALKDGVITADWRKHVWEEDSLLRK	PGPT0027235_2102	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
AK009_01191	594			hypothetical protein	ATGTCAATAATTTGTGCTAATGTAAAAATCTTAGGAACTAGACCACTTTTATTTAATCGATTTACCGAAGATGCAATCCCTATAACAAAGCAAGAAAAATTGGGAGTTCCAGGAAACAACCCTGAAGAATGGAAAAAAACTTTTCAAGCTACCCCACAAGGACAACTTTATTTGGATCCTATTTATATTTTCACTTGTTTACGTGCGGGAGGAAAGTTTATATCTAAAGGAAGAGGAACATTAGAACCAGAAGTGTCTTCAACACTCCAAGTACTAGATAATAAGATATTCATTAACAGGTTTCTTCCCCCTATTAATGAAATAACAAGGGATGATAAAAAAGATGTATATATTGATGTACGGCCGGTTTCAAGAAGAGGAGTAAAAAATATACGTTATCGTCTAGCCATTTCATCTGGTTGGGAAACAGAGTTTAGTATTATATGGGAAGGAACCTTAATTAATCGTGAACAAATGAGAGCTATTTGCCAAGATGCTGGTGCTTACGCTGGGTTAGGAGACGCAAGAAAAGTAGGATTTGGACGATTCCATGTCACTGATTTTAATATTGTTCAGGAAATAGCACATGCCTAA	MSIICANVKILGTRPLLFNRFTEDAIPITKQEKLGVPGNNPEEWKKTFQATPQGQLYLDPIYIFTCLRAGGKFISKGRGTLEPEVSSTLQVLDNKIFINRFLPPINEITRDDKKDVYIDVRPVSRRGVKNIRYRLAISSGWETEFSIIWEGTLINREQMRAICQDAGAYAGLGDARKVGFGRFHVTDFNIVQEIAHA				NA	NA	NA	NA	NA
AK009_01192	324			hypothetical protein	TTGCGGGTTATTAGTTCAGGGATTATTGGTTTTTCAATGGGTCTTATTCAAAAAAGAGTTGGTTTTAGTGTGAAAAACAGGTCATTTAACAAGGGAGATATTTCTTATTTGGCAATTACTGGGTTAGTTGGTATTGTCATTGCTATTATATTTGCTGGGGCATTCGATATTATTGTGATGGGAGAACCATTTGACAAAATTGTTATACAAGTATTAGGAGCAACAATTTCCGATGTTATCGTATTCTTAGTTCTTGGATTGCCACTGACAATTGGCTTGGCGAAATCCAATAAGAAACATGCACATTTAAAAATTGAAAAGTAG	MRVISSGIIGFSMGLIQKRVGFSVKNRSFNKGDISYLAITGLVGIVIAIIFAGAFDIIVMGEPFDKIVIQVLGATISDVIVFLVLGLPLTIGLAKSNKKHAHLKIEK				NA	NA	NA	NA	NA
AK009_01193	1701	ykoD_1	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGCAACCAATTATTTCGTTTGAACAATTCACCTTTCAATACGGGCATGCTGCGCAGCATACTTTAAGTGATATTACCTTTCATATATACCCTGGGGAAAAAGTGCTAATTGCTGGACGAAGTGGTTCAGGAAAGTCGACATTAGCTCATTGTATCAATGGGCTAATTCCATTTTCTTATGAAGGGATTAGTACAGGTAACGTATTAATTGCCGGTAAAGATCCGAGGGAAGGCAGTATTTTTGAACAGAGTAAACATGTGGGAACAATTTTGCAAGATCAAGATGCTCAATTTATTGGTCTGACAGTAGAAGAAGATGTAGCTTTTTATTTAGAAAATGAATGTGTAAATCAAGAGGATATGAAAAAGATTGTTTCGGACTCATTAAGAAAGGTGAAGATGCATACGTTTCATAAACAAAGTCCACATGAATTATCAGGAGGTCAAAAGCAAACAGTTTCTCTTGCTGGTTTATTAACAACAAATGCGGATATATTATTGTTCGATGAACCGTTAGCGAACTTAGATCCGCTAAGCGCCTTACATACGATAGAACTTATGAAAGATATACATGAGCAATATAATAAAACGATTGTTATTATCGAACATAGAATAGAAGAAATTTTAAAGCTGGATTTAGACAAAGTTATATTAATTGATGAAGGTAAAGTCATTGCAATAGGAACACCAAAAGAAATCTTAGCGTCAAATATATTACCATGTATTGGCTTAAGAGAGCCTATTTACATCGAAGCATTAAAGAGATTACATTTTGATAGTAATAATGACGTAATATATCCAATGGAAAACCTTCAAAAGGAAAAGGTAAGCAACGTTATAAGAGAGTGGATGGAGAAACAAGTCATATTAAAAGGTAATACTAAAAACAAGGAATTACTTAAAGTGGAGAATTTATCATTTTCATACCCTAATAAACAAAAAGTATTAGAAAATGTAAACCTTTCAATATATGAAGGAGAAATTGTGGCACTGTTGGGACATAATGGAGCAGGGAAATCAACATTAGCTCATAGTCTTATAGGCATAAACAAAATGAAAAATGGGGAAATCTTGTTAGAAGGTGAAGATATTAGTTCTTGGTCTATTCGTAAACGTGGGGAAACCATATCTTACGTGATGCAAAATCCAAATCATATGATTACACAGCCCACTGTTTTTGAAGAAGTTTCATTTACATTAAAATTAAATAATTTTTCTAAGGAAGAAATTAAGAATAGAGTAGAAGAAACTTTAAAAATTTGTGGTTTATATCCATTTCGTAATTGGCCAATTCAAGCGCTAAGCTATGGGCAAAAAAAGAGAGTAACAATCGCATCTGTATTAACAATAGATCCCAAGCTTATCATATTAGATGAACCGACAGCGGGACAAGATTATTATCATTATAAACAATTTATGTCGTTTATTAAAAAACTAGCTAAAAAGGGAATCTCATTTGTTTTTATCACTCACGATATGAATCTCGCACTAGAATATGCAGACCGTGCAGTAGTTCTACATGAAGGGAAAATTATTGCGGATAATACAGTGTCTAATGTATTTGGTGATCAAGAAACCTTACAAAGAGCCAACTTAAGAGAGAGTTCTTTAACCAAGCTTGTTAAATTTAGTGGGATTGTATGTCCAGAAAAATTTATGGAGCTTTATTTAGACAGTAATAGGAGGGAGGAAGGTGCATAG	MQPIISFEQFTFQYGHAAQHTLSDITFHIYPGEKVLIAGRSGSGKSTLAHCINGLIPFSYEGISTGNVLIAGKDPREGSIFEQSKHVGTILQDQDAQFIGLTVEEDVAFYLENECVNQEDMKKIVSDSLRKVKMHTFHKQSPHELSGGQKQTVSLAGLLTTNADILLFDEPLANLDPLSALHTIELMKDIHEQYNKTIVIIEHRIEEILKLDLDKVILIDEGKVIAIGTPKEILASNILPCIGLREPIYIEALKRLHFDSNNDVIYPMENLQKEKVSNVIREWMEKQVILKGNTKNKELLKVENLSFSYPNKQKVLENVNLSIYEGEIVALLGHNGAGKSTLAHSLIGINKMKNGEILLEGEDISSWSIRKRGETISYVMQNPNHMITQPTVFEEVSFTLKLNNFSKEEIKNRVEETLKICGLYPFRNWPIQALSYGQKKRVTIASVLTIDPKLIILDEPTAGQDYYHYKQFMSFIKKLAKKGISFVFITHDMNLALEYADRAVVLHEGKIIADNTVSNVFGDQETLQRANLRESSLTKLVKFSGIVCPEKFMELYLDSNRREEGA				NA	NA	NA	NA	NA
AK009_01194	801	ecfT_1		Energy-coupling factor transporter transmembrane protein EcfT	GTGCATAGTACATATTTTCATCGTATGGATGGGGTAGTAAAATTGTTTTTATTTATTTTTTGTATGACGATTACTTTTTTGTTTTTTGATTTTAGGTTGTTGCTAATTTTATTTATTATTGGGTGTATTGGACTCGGAATTGCTAAAATTCCATTTCGTAAAATTTTAATTGTTTTTAGTGTCATATTTACATTTAGTTTATTAAACTCTGTCATGATTTTATTTATTACACCCACTCATGGATCTGAATTAACTGAATCATATACCTCGTTTTTACATATTGGATATGCAACAATTACATATGAAACATTATTTTATGCAGCTACACTTTCATTAAAGTATTTTACGTTATTACCATTTACACTTCTTTTTATTTACACGACAGATTCAAGTGAATTTGTAAGTAGTTTAAGTAAATTTGGTATTCATTATAAGATTACATATGCAATAAATATTGCACTGCGTTATATTCCTGACATCCAGTCTGAGTATAAAATTATTAAACACGCGCAAGAAGCGAGAGGAGTGGCTTTTGAAAAAGGAGAAGCAAGTTTATGGGTTCGTATGAAGAACCGTGTTTTAATTTTCTGGCCACTAATCATTCATTCTCTAGAAAGAATAGATACGGTTTCAAATGCAATGGATTTAAGAGGATTTGGAAAGAAGGATAAACGTACATGGTTTTATACAAGTAAGGCGAAACGTGAAGATTTCATCGCTTTATTTGCCGGTGTTTTCATATTCATTGTTGCCGTATATTTAAAATTAAACGTATTTCAAAATTTTTGGTATCCATTTTAA	MHSTYFHRMDGVVKLFLFIFCMTITFLFFDFRLLLILFIIGCIGLGIAKIPFRKILIVFSVIFTFSLLNSVMILFITPTHGSELTESYTSFLHIGYATITYETLFYAATLSLKYFTLLPFTLLFIYTTDSSEFVSSLSKFGIHYKITYAINIALRYIPDIQSEYKIIKHAQEARGVAFEKGEASLWVRMKNRVLIFWPLIIHSLERIDTVSNAMDLRGFGKKDKRTWFYTSKAKREDFIALFAGVFIFIVAVYLKLNVFQNFWYPF	PGPT0004015_1811	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
AK009_01195	108			hypothetical protein	ATGAGTTACGGTGGTTCTTGTGGTTTTGGTGGAGGTTTCGCTTTATTAGTTGTGTTATTCATTCTATTAATAATTGTAGGATGCAGCTGCTGGGGCGGAGGATACTAA	MSYGGSCGFGGGFALLVVLFILLIIVGCSCWGGGY	PGPT0024985_288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_01196	1260	rcsC_5		Sensor histidine kinase RcsC	ATGGACTTTGTTTATATTAACCAAAACGTATTAAATAACCTTCTATACATTTTATGTAGTATATTTGTTTTTTATTTCATATATGATAGCAGGCATTATTTAAAAAAATACAAAATATTACTGATTACCCTTTGTTCTAGTATCCCGCTTATTTTATGTATGCGATACCCTATCTATATGGATGAAAGTTGTATTCATGATTTAAGACAAATTCCGGTCATAATAGGTACGCTTTATGGTGGATTCCCTGTCGGTATCATATTGTTTACAATTTTATTAATTACAAGATTTATATTTTATGGCTTTAATATGCTAACAGTCGTTGTTTACGGAATAATGTTCATCGTTACAGCACTCGCATCTTCAAAATTTAATACATATAATAGAAAGCTTAAAGTAGCTTTTTCCATGTTTTTAACCTTTTTCCTAGCTATATTTACAACTGTAATTGTATTAACTTTATCAGATTTTGAAGTGAATAATTTGTATATTATTTATTTCATGGTATTACCGACTACTTTAATGTTATTTATTGTTTATATAAATGAAGTTATTAAAGATGCTGTATTAATGCGCTCAAAATTAATTAAAATGGAAAAAATGGAGATTGTTAGCCAACTCGCTGCAAGTATATCGCACGAAGTAAGGAATCCTTTAACGGTTGTAAAAGGATTTACACAGCTTTTAAAAACACCAAATTTAACTCCTGAATCAAGAGACGAATATATTAAACATATACTTGAAGAGTTAAATCGTGCCCAAGAAATTATCGATGATTACTTAACGTTTGCCAAACCTTCTCCAGAAAAATTAGATCAAATTTCAGTAAAACAAGAGTTAAATCGAGTTATTAATATGATATTGCCATTGTGTAATATGAATACGATACATATTACACAGGATTTTTCTGAGGCAACCATTGTTGGTAATAAACAACACTTTCAACAATGTTTTTTAAACTTAATAAAAAACAGTATTGAAGCAATGCCTAATGGTGGTACCTTAAATATTTCCTCATCTATCAATAATAGTAAAGTTGAAATACGAATTGAAGATAGTGGAGTTGGAATGTCACAGGAGCAAATACATCGATTCGGTGAACCGTATTTTAGTACAAAAACGAAAGGCACCGGTTTAGGTACGATGGTTGCTGTTAAGATTATTGAGACGATGTATGGAAGTTTAAAAATCCGAAGTATCGTTAGTAAAGGAACGACTTTAACGATTACGTTCCCAAAATATGGTAAGAATACGCATTAA	MDFVYINQNVLNNLLYILCSIFVFYFIYDSRHYLKKYKILLITLCSSIPLILCMRYPIYMDESCIHDLRQIPVIIGTLYGGFPVGIILFTILLITRFIFYGFNMLTVVVYGIMFIVTALASSKFNTYNRKLKVAFSMFLTFFLAIFTTVIVLTLSDFEVNNLYIIYFMVLPTTLMLFIVYINEVIKDAVLMRSKLIKMEKMEIVSQLAASISHEVRNPLTVVKGFTQLLKTPNLTPESRDEYIKHILEELNRAQEIIDDYLTFAKPSPEKLDQISVKQELNRVINMILPLCNMNTIHITQDFSEATIVGNKQHFQQCFLNLIKNSIEAMPNGGTLNISSSINNSKVEIRIEDSGVGMSQEQIHRFGEPYFSTKTKGTGLGTMVAVKIIETMYGSLKIRSIVSKGTTLTITFPKYGKNTH	PGPT0025285_313	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK009_01197	213			hypothetical protein	GTGGCGAAAAAGATTACGGATTTAAATGAAGGGACTTTTGTGGAACCGTCTAAGCTTACTTTAAAAGACTATCTCGTTCAGTGGCTAGAAATTAAAAGGATGAGTTTAAAAAAGAATACCTACGTTTCTTATAGTAGCAACATAACCCACCATGTTTTACCGAACATGCAGAAAGAAGCAGTAAAAAGTTTTGGTAAAAGTATCTTTGAATAG	MAKKITDLNEGTFVEPSKLTLKDYLVQWLEIKRMSLKKNTYVSYSSNITHHVLPNMQKEAVKSFGKSIFE				NA	NA	NA	NA	NA
AK009_01198	276			hypothetical protein	ATGAAAAAGGTTTTTGTAGTGTTTTTTGTACTAGCATTCGCATTTATGTCTATCAATTCTTCAAAAGTTATGGCTTACGGAAATCATAAAGCGGATCTTTATACAAGCGGCGGATCTCAATTATTGAATTATGTTGGATCTAAACAACCTTTATATAATGATCCTGGTAACCCAAATGTAGTAGGTTATGTTGCTTATCAACCTGTTAAAGTAAAACAAGCATGGTATTTAATTAATACATTGTTAGGACAAAAATGGATAGGTTATAACCTTTAA	MKKVFVVFFVLAFAFMSINSSKVMAYGNHKADLYTSGGSQLLNYVGSKQPLYNDPGNPNVVGYVAYQPVKVKQAWYLINTLLGQKWIGYNL				NA	NA	NA	NA	NA
AK009_01199	465			hypothetical protein	GTGAATTACCAAAATGATAACAACTCTAACATTCACAAACCTTGTTCTTGTCCATCTCCCACGGCTAACAGTTTAAATGTTGTTCAAACTACCCCATCAATAGTTTCTGTAAACTCTGCGATTCCACTAGATACCATGGTAAATTCTAATGGTACGGCAATCTCATTCACACCACCAACAACTGTTTTACTTGAAGGTGGAAGAACCTATTTGGCAATCTATGAAGTGCAAGTTATTATTCAACCAGGAGGTAATTCGGCAGGTATAACTATGTATCTGAATAATAATCCTATCATTGGCTCAGGTACTTCTCTAGGATATACAGCCGGATTCACTTCTGTATCAGCACCCGCAATTTTCACTACACCTCCAGGTATAACAAGTACTCTTACTGTTAATGTAGGACCATATTCTAATACATTAAATACGTTGGGCTTAACTCTTGCTGTTGTAGCATTAACATAA	MNYQNDNNSNIHKPCSCPSPTANSLNVVQTTPSIVSVNSAIPLDTMVNSNGTAISFTPPTTVLLEGGRTYLAIYEVQVIIQPGGNSAGITMYLNNNPIIGSGTSLGYTAGFTSVSAPAIFTTPPGITSTLTVNVGPYSNTLNTLGLTLAVVALT				NA	NA	NA	NA	NA
AK009_01200	330			hypothetical protein	GTGTCAGTTTTCCTTGAAACCACCGCTCCACAAACTGTATTTGAGGATTTTACAAACAATCATAATAAAACATTAATTCAGTTATTCGTTGTCGGGATGAGTGCACCCGTTCAAGTAACTATTCTAACAAGAAGATCTAGCGTACCAATTACTACTACATTACAACCTGTTCAAACAAAAATATTTCAAGTTGAAGATTTTCAAAGTCTTACTCTTACAAAGCAGGAAGGTTCTACTAGTGTAGTTAGTTTATTTGTTCAAAAAACATTTTGTATATACTGTAACGATAATAACGATTCATGTGATGAATATTACCACGAATGTAATTGA	MSVFLETTAPQTVFEDFTNNHNKTLIQLFVVGMSAPVQVTILTRRSSVPITTTLQPVQTKIFQVEDFQSLTLTKQEGSTSVVSLFVQKTFCIYCNDNNDSCDEYYHECN				NA	NA	NA	NA	NA
AK009_01201	261			hypothetical protein	ATGGAGGTCCAGTTAATTCACGAACAAACATATAAAAGTCAGTATGATTTAGAAAGTGCAGTAGAAAAATTCTACGATAGTCTCCGAGAAGAATTCGGAATGGTTGAGGACGAGGATATCAAGCAATTTGACCATATAAGCAGAGTATTTGAAGCGACGGCCGCAATGGAGAATGGTTTGAAATTGAAGGTAGAAATATTCTTTGCGGATGATGCAGACGAAGATGAATCATGGGTTTGTAAAGCTTATCAAGTAGCTTAA	MEVQLIHEQTYKSQYDLESAVEKFYDSLREEFGMVEDEDIKQFDHISRVFEATAAMENGLKLKVEIFFADDADEDESWVCKAYQVA				NA	NA	NA	NA	NA
AK009_01202	234			hypothetical protein	GTGGAAGTTCAATATGATGCGCAGGGCCGAATGAAGTATCATCCTGATTACGATCCGAATCATAAGAAGCCGTATACAACGAAAGAATTAGCCTACATATGTAAGTATTATGGATTCGGAAAGGTGAAGGGAATTGCTTTAGCATTAGGAAGAACGGAATTAACGATAAGGCAGCTAGTAAATACTCTCCGGAAGAATGGAATGTTTGAAAAATATAAAACTATGGGTGAGTAA	MEVQYDAQGRMKYHPDYDPNHKKPYTTKELAYICKYYGFGKVKGIALALGRTELTIRQLVNTLRKNGMFEKYKTMGE				NA	NA	NA	NA	NA
AK009_01203	198			hypothetical protein	ATGTTAGGAAATTGGTTGGGTAAATTAAAAGAACCTAAATGTATACATAGATATAAACTTATTAATAGTCATGACAATGAAGATTTTAAAACTGGTAAGATGGGGATAGTTAGTTATTTCAAATGTGAAAAGTGTGGGAAAGAGAAGGAAATCAGCAAATATACTAATGATGTTAATAGTGACTATTGGGATATTTAA	MLGNWLGKLKEPKCIHRYKLINSHDNEDFKTGKMGIVSYFKCEKCGKEKEISKYTNDVNSDYWDI				NA	NA	NA	NA	NA
AK009_01204	162			hypothetical protein	ATGGAGGGGTTAAAAAATCAGTTACATGAATGGAAAAAGAAATCCAAGCAAGAAAAGAAGAAAAAACCAAAAGAGAAATTAAGTACTCGTGAAATTGAGGATTTAATGGGGATGCATAGACCTTGTTATGAACGAAGACGTGGAGCAATAAGACAAAAATAA	MEGLKNQLHEWKKKSKQEKKKKPKEKLSTREIEDLMGMHRPCYERRRGAIRQK				NA	NA	NA	NA	NA
AK009_01205	108			hypothetical protein	ATGACTAAACAATTATCTTTCTTACCAAAAATTGATAGAACAGCGAAACAAGAGGAATTAGAAGGCGTGTTGGAAAGTGTACGTATACATAGGAAATGTGAAAATTAG	MTKQLSFLPKIDRTAKQEELEGVLESVRIHRKCEN				NA	NA	NA	NA	NA
AK009_01206	360			hypothetical protein	GTGTACGTATACATAGGAAATGTGAAAATTAGAAACAGATTCTTTCTTCTAGTAGAAATTGAAGTGGAAGTTGGAAATGTAGCCATAGAGGAATTTGTTTTTATTCGAATATCTGAGCAAGAAGCTAGAACATTGTTAGTAGGGGGTATTCAACGTTGTACTATTTCTAATTGTATTCCTAGGTCTCATGATGATTTAGAAGTAGAATTCATTTGTGTTTTAATCGTGGGTGGGGAAGCATTTGCGGTTTTTGATGTAGAAGACGATATTGATGAAGCTGTACTTGTTCCAATTTCATTAAGAGAAGCCGAGCGTTTAATCTGTAGAGGAGCAAGACGATGTACAGTTATTAATAGATAA	MYVYIGNVKIRNRFFLLVEIEVEVGNVAIEEFVFIRISEQEARTLLVGGIQRCTISNCIPRSHDDLEVEFICVLIVGGEAFAVFDVEDDIDEAVLVPISLREAERLICRGARRCTVINR				NA	NA	NA	NA	NA
AK009_01207	459		COG3385	IS4 family transposase ISBth4	ATGTCTATTTCTGTATCTGATGAATTACAACTATTTGCTCAAGAGATTCAAAGTTTTTTATCTCCAAATACCTTACGGGATCTTGCTAGAGATGTTGGTTTCGTGCAACGAACCAGTAAATACCAAGCAAAAGATTTAGTCGCTTTATGTATATGGATGAGTCAAAATATCGCTACAACCTCTTTAGCTCAGTTATCTAGCTGTTTAGAATCATCCACAGAAGTACTCATCAGTCAGGAAGGACTGAATCAAAGGTTTAATAAATCAGCCGTTCAGTTTTTGCAACATATATTGACTAACCTTCTAAATAACAAATTAACTTCATCTATACCACTTTCTTCTCCATACACCTCTGTTTTCAAGCGTATTCGCATTTTAGATTCCACTGCATTTCAGCTTCCAGATATATTTTCAACCATTTATCCTGGGCTGGAGGATGTAGCCATACTGCTGGGATGA	MSISVSDELQLFAQEIQSFLSPNTLRDLARDVGFVQRTSKYQAKDLVALCIWMSQNIATTSLAQLSSCLESSTEVLISQEGLNQRFNKSAVQFLQHILTNLLNNKLTSSIPLSSPYTSVFKRIRILDSTAFQLPDIFSTIYPGLEDVAILLG				NA	NA	NA	NA	NA
AK009_01208	474			hypothetical protein	ATGAGAAATAACTTTCAAATCGTTGCGTTACAAGAGAAGGAGTTTAATAACCTATTTCTAATGAATGAAGAAGTATTAAAAAATATCGGGGCAGTCAAAATAATAGCAAATAAAAATCCTGGATATCCTTGCAGGGTAAGTTTGAAGGATGCAGAGGTAGGAGAAGAGGTAATTTTACTGAATTACCAATATCATAGTGTTAATTCGCCTTATAAAGCAAGTGGTCCTATATTTATACGAAAGGGAGCAACTACTGCTAAGCTAGATGTAAATGAAATTCCGCATATGTTACATCATAGGTATCTATCTGTACGCGGCTACAATGCTGACTCAATGATTGTAGAAGCAAGGGTTACAGAAGGTGTAAATTTAAGAGAAAATATAGATGAAATTTTTGATAATAAAGAAGTAGAATATATTCATATTCTTAACGCTAAACCAGGATGCTATAACTGCCTTGTTAATAGAGTGTAA	MRNNFQIVALQEKEFNNLFLMNEEVLKNIGAVKIIANKNPGYPCRVSLKDAEVGEEVILLNYQYHSVNSPYKASGPIFIRKGATTAKLDVNEIPHMLHHRYLSVRGYNADSMIVEARVTEGVNLRENIDEIFDNKEVEYIHILNAKPGCYNCLVNRV				NA	NA	NA	NA	NA
AK009_01209	597	adaA_1	COG2169	Bifunctional transcriptional activator/DNA repair enzyme AdaA	ATGAAAGATCAAAATAACCTTTCTAGAGATACCATGTGGAAAGCAACAGTATCATGTGATTCAGCGTATGACGGGATATTCTTTTACGCAGTCAAGACAACTGGAATTTTCTGCCGGCCTTCTTGCAAGTCTAAGGTTCCTAATTATGAAAATGTATCCTTTTTTTCAAATGCGCAAGAAGCTCAAAGGGCAGGCTATCGCCCATGCAAAAGATGCCGATCAGATCTAAATATAAAAATATACGACCCGTTCGAATGCGTTTTAGAAGATACTATGCGATTGATAAAAAATAATTATGTTCAAAACATGTCTTTAAATGAAATTGCATCAAGGGTAGGAGTTAGTCGTTTTCATTTAAATCGGAGTTTCAAAGAAAGAACAGGGTATACTCCTCGAATATATCTAGAAAGGATCAGAGTTAAGAAAGCAAAGGAACTGCTCTTGACAACGGTCTTTAATAGTACAGAGATTGGTTATCAAACAGGCTATCAAAGTGTATCTAGCTTTTATAATGCATTTAAAAGAAATACAGGATTTTCACCGAGTCAATTCCGGGCTTTCCATAGTGGAAATACCGTAAACCAAGAACTTGACTGA	MKDQNNLSRDTMWKATVSCDSAYDGIFFYAVKTTGIFCRPSCKSKVPNYENVSFFSNAQEAQRAGYRPCKRCRSDLNIKIYDPFECVLEDTMRLIKNNYVQNMSLNEIASRVGVSRFHLNRSFKERTGYTPRIYLERIRVKKAKELLLTTVFNSTEIGYQTGYQSVSSFYNAFKRNTGFSPSQFRAFHSGNTVNQELD				NA	NA	NA	NA	NA
AK009_01210	1287	yjeH	COG0531	L-methionine/branched-chain amino acid exporter YjeH	ATGAACAATAAAGCCATTGGATTATTTCAAGGAATTGCGTTATACATTTCAGCTATTCTAGGATCAGGTGTCCTTTTTTTATCGGGGGTAACGGCCTCAATAGCGGGCCCTGCATCTATTGTATCCTGGTTTATCGTTATTATAATTAGTTTTCCGCTTGCTTATTCCTTTGCTAGTTTGGCACGGATATATCCTGATTCTGGTGGAGCAGCAACCTTTGTTAGAAATTCTTTTGGATATCATCTTGGCAATATCGTTGGGTGGTTTTACTTTGTAACAGCAGCAGTTGGTCAAACGATTGTATCTTTAACTGGTGCTTTTTACGTCAGTCAGGCATTTGGATTTTCGCATTTTGAAACAATTATAATTGCCGTCTTTATTTTGGTAATTGCAGGTGTTTCCAATTATTACGGTGTAAATGTTAGTGGTAAAGTTGCAGTGATTTTAAGTTCCTTATTACTGATTCTTTTAGCGTCAGCTGTATTTGTGGCGTTTCCAAGAATACAATGGGGGAATTTTACTCCCTTTGTTCCAAATGGATGGTTTTCTGTCGGGAACGCTATAACGGTTATCTTTTGGGCATTTTTTGGTTGGGAGGCGATTTGTAATCTGGCTGAGCACTTTAAAAGGCCAGAAAAAGATATTATCAAAGGAGCAGTTATTAGTGCAGTTGTCATTGGATTATTATTTTTAGCGCTAAGTCTTGTCACTATTGGAACGGCCACGTATGGCAGTCAAGAAAGCAACCTGTCTCCTATCGGTGTTATAATGGGAGGTACAGTAGGCGGAGGTGCCAAAGTCGTTACAGCTGTTTTAGCTTTAATTATTTGTACAGGGACAGCGAATGCTTTTGTAGCCAGCCTAACGCAATTAGGATATTCATTAAGCAGAGATGGTGCTTTCCCAAAATTTTTCTCAAGGCTGCATGCAACTACTCAAATTCCAAGACAGATGGTATTGTTTGTTATCTGTTTTTCGGTAGCAGGTGTGTTAGTGACAAAAGCTTTGTCACTAACGTTTGATGATATTTTGTTTATACCGACTTCTCTTGGGATTCTAGTTTATGTTCTTTCAATGGCGGCAGGCGTTAAATTATTTAGGAAGAACACACTGGCATGGTGGGCATCGTTAATCTCTTTCATTTTATGTTTGCTGGTGATTCCATTTTTTCAATTGTATATATTTGTTCCGTTAATTGTCGTGGCTATATATGTGATTTATATGATTTTAAGTAATAAGATTTTCGCCTACAAGGGAGGATTAAAATCTAATGAAAGATCAAAATAA	MNNKAIGLFQGIALYISAILGSGVLFLSGVTASIAGPASIVSWFIVIIISFPLAYSFASLARIYPDSGGAATFVRNSFGYHLGNIVGWFYFVTAAVGQTIVSLTGAFYVSQAFGFSHFETIIIAVFILVIAGVSNYYGVNVSGKVAVILSSLLLILLASAVFVAFPRIQWGNFTPFVPNGWFSVGNAITVIFWAFFGWEAICNLAEHFKRPEKDIIKGAVISAVVIGLLFLALSLVTIGTATYGSQESNLSPIGVIMGGTVGGGAKVVTAVLALIICTGTANAFVASLTQLGYSLSRDGAFPKFFSRLHATTQIPRQMVLFVICFSVAGVLVTKALSLTFDDILFIPTSLGILVYVLSMAAGVKLFRKNTLAWWASLISFILCLLVIPFFQLYIFVPLIVVAIYVIYMILSNKIFAYKGGLKSNERSK				NA	NA	NA	NA	NA
AK009_01211	471	rppH_2		RNA pyrophosphohydrolase	ATGACTACAAATAAGGACTACATTCGTTATATCCGGGGAAAAGTAGGGCATGATTTAATATTTCTTAATTTTGCTGGAGGTATTGTTTATAACGAACGAAATGAAATTCTTTTACAAAAACGGGGAGATAGAAATGAGTGGGGTCTACCAGGTGGTGCTATGGAACTTGGAGAATCTCTTGAAGAAACCGCTAAACGAGAAATATTTGAGGAGACAGGATTAAATGTTGAGGTTGAACATCTTATAGGTGTCTACTCTAAATATTCTGGTGAGTTTCCGAACGGAGATAAAGCTCAGACTATCACTCATTGTTTTCAATGTAAGCCAATTGGCGGAGAACTTACTGTAGATGGTATTGAGACTTTGGATTTAAAATACTTCCCAATAGACCAAATACCAAAATTATTCACAAAACTACACGAAGATGCCTTAGAAGATTGGCTTTCCAAAAGAAAAGGTGTATTTAGATAA	MTTNKDYIRYIRGKVGHDLIFLNFAGGIVYNERNEILLQKRGDRNEWGLPGGAMELGESLEETAKREIFEETGLNVEVEHLIGVYSKYSGEFPNGDKAQTITHCFQCKPIGGELTVDGIETLDLKYFPIDQIPKLFTKLHEDALEDWLSKRKGVFR	PGPT0024450_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
AK009_01212	570			hypothetical protein	ATGAAAGCAACGAAACTCATAGCGTTGACATTGCCAGTTCTATTATTGTTCGGTTGTGGGCTAGGAGATAAAGATTCTACTCCTAAGACTGAAGAAACTAGTAAAGCAATGTTGAAAACTACAATATCTGAGGAACAGTATCCAAGTTACATGTATGAACAATTACTAGATTTTAACTTTAATAAGGATGACATAATAATAGGTTTAGGTTATGCACTAAAAGGTGATGAAAAGTATAAAGAGGTATTCAAAACGGCAAGTATTTTGGATGAAGCTTTAGATCGAATGGAGAACGTAAAAGTACCTGATAAGTATAAAGACACGCATAAACTCATCTTAGAAGGGGTAGAGGATGCAAGAAAAGGTACAAAACCAATATTAGAAGCTAAAGGTAAAGATGTAAAAGAAGTTAGTGTAGTTATTGCGAATAGTTCTCCCCACCTGTTAGGCATGGATAGAGAACAGTGGAAAGAAGCAGTTTACCAATTAGCTAAAGAAAACAAGGATGATTTCTCTAAGGTATATGATAAGAAAATAGAGGAACATCAAAATAGAAAGAGTAACTCGTAA	MKATKLIALTLPVLLLFGCGLGDKDSTPKTEETSKAMLKTTISEEQYPSYMYEQLLDFNFNKDDIIIGLGYALKGDEKYKEVFKTASILDEALDRMENVKVPDKYKDTHKLILEGVEDARKGTKPILEAKGKDVKEVSVVIANSSPHLLGMDREQWKEAVYQLAKENKDDFSKVYDKKIEEHQNRKSNS				NA	NA	NA	NA	NA
AK009_01213	882			hypothetical protein	ATGAAAGATAATTCCGTGGAAATTCAGTTAAATAACGTAACATTCCAATTGAAAGAATATCATAATTTTGATTGGCTTATTAAATTAGGGACCGTATTTGCAGTTTTTGACCAGCAAGATTCAGGTAATATAAGTTTTGGTATAGAAAAAGATGGTCATAAGAAATTTATTAAATACGCAGGAGCACAAACAATTGCATATGAAGGAACAACAAGGGATGCTATTGAAAGGCTAAAAAATTCAGTTACTATCTATGAAGATTTAAAGCATGACTCGCTTATAAGATTAATCGATCATTTTCCAGTTCAATCTGGATATGTATTAATTTTCGATTGGTTTGATGGTGAATGTCTTCATTCGCATTGGCGTTTCCCACCTCCTGAGAAATATAAAAATCCAAACTCTCCATTTTATAAATTTAGACATTTGTCTGCTATAAAACGAATTCATTCCTTACATTCCATTTTTTCTTTCCATACTTATGTAGAAAAGAAAAACTATGTAGCGATAGATTTTTATGACGGTAGTATTTTATATAATTTTAATACAAACGAAACAAAAATTTGTGATATAGATTTATACAGTAAGAAACCTTACATAAATAAAATGGGCCGGCTATGGGGTTCCTCCCGTTTTATGTCACCAGAGGAATTTGAACTAAACGCTATAATTGATGAAAGAACAAATGTATTTAATATGGGAGCAATGGCTTTCTCACTTCTAGGCGGTGAAAAAGATCGTTCCTTTATAAAATGGGAAGCAAGTAAGGAATTATATGAGGTAGCGTATCGTGCTGTAAATGAAAATCGGGCAGAACGGTATGCATCAGTTACAGAATTCTATGATTCGTGGTTAAACGCGGCGAATGCAGAAAGGATATAA	MKDNSVEIQLNNVTFQLKEYHNFDWLIKLGTVFAVFDQQDSGNISFGIEKDGHKKFIKYAGAQTIAYEGTTRDAIERLKNSVTIYEDLKHDSLIRLIDHFPVQSGYVLIFDWFDGECLHSHWRFPPPEKYKNPNSPFYKFRHLSAIKRIHSLHSIFSFHTYVEKKNYVAIDFYDGSILYNFNTNETKICDIDLYSKKPYINKMGRLWGSSRFMSPEEFELNAIIDERTNVFNMGAMAFSLLGGEKDRSFIKWEASKELYEVAYRAVNENRAERYASVTEFYDSWLNAANAERI				NA	NA	NA	NA	NA
AK009_01214	504			hypothetical protein	ATGGACCAACAAATTGTTATTAAAGCATATCAAAAAGACTGGGTTGAAGAGTATATAAAAGAAAAAGAGAAATTCTGTTCCTTGTTAGGACAAGAAATAATTGCTGTTGAACATATAGGAAGCACTGCAGTAAAAGGATTAGGAGCTAAACCTCTTATTGATATGATGATTGGCGTAACGGACTTGCAAATTACTGAAAACTGGATAGAAATTCTATCTGAAATTGGATATGAGTTTGTTCCAAAAGAAGCTACGAATTGGCGCTTTTTTAGAAAGGGAAAATGGAGAGCAGGTACTCATCATTTGCATGTTTATATTTATAATAGCGAAGAATGGAGAAACAATATTTTATTTCGGGACTTTCTAATAAGCCATGAATGGGCACGTGAAGAATATAGAGAATTAAAAGAGATGCTTGCTATTACATATACTTTTGATCGTGTGTCGTATACAAAGGCAAAAACGCCGTTTATTCGAAAAATATTAGAATTAGCTAGAACTTAA	MDQQIVIKAYQKDWVEEYIKEKEKFCSLLGQEIIAVEHIGSTAVKGLGAKPLIDMMIGVTDLQITENWIEILSEIGYEFVPKEATNWRFFRKGKWRAGTHHLHVYIYNSEEWRNNILFRDFLISHEWAREEYRELKEMLAITYTFDRVSYTKAKTPFIRKILELART				NA	NA	NA	NA	NA
AK009_01215	990	adhT		Alcohol dehydrogenase	ATGAAAGCTATTGTACATCAATATAAAAAAGGATTAGAGGGATTAGAATATAAATTTTCACCTGAGATAAGTCCTAATGCAGGTGAAGTAAAAGTAAAGTTAAAAGCTGCAGGATTAAATCATAGGGATTTATTTATTATAAATAATAGAAAAGAAATGGATCTATCATTAGTAATAGGGTCAGATGGATCAGGAGTTGTTACAGAAATAGGAGAAGGAGTTTCAAATATTAAACTACATACAGAAGTTATTATTAATCCTAGTATTGGATGGGAACATGCTACTGAAGTACCGGAGTTACCGGAAGTGCTAGGTGGACCGAAAGATGGAACGTTTGCTGAATATGTAATTGTACCAGCTGAAAATGTAGTAGAAAAGCCTTCATATCTTACTTGGGAAGAATCAGGTGTTTTATCTTTATCCGCACTAACTGCATATAGAGCGCTTTTTACAAAAGGTAGACTGAAGTGCGGCGAACACGTTTTAATTCCGGGAATAGGCGGTGGTGTTGCTACATTTGCCATGTTATTCGCGAAAGCAATTGGCGCAAAAGTGAGTGTTACTTCTAGGGTAGAGAATAAAAGGGAACTTGCTGAGAAATATGGTGCAGATATTTCTTTTCATAGTGCTGGAAATTGGGAAGAGAGCTTACAAGGTGAAAAAGTAGATTTAATAATAGATAGTATAGGTCCGGCAACTTTTTTGAAATATTTTGATGTATTAAAACCAAATGGAAGAATCGTGAATTTTGGTGCAAGCTCAGGAGATAAAATTGAATTACCATTACGCGCGCTATTTTACAATCAAATTGATATTATGGGAACATCCATGGGTAGCGGTGAGGAATTTAATGAGATGATAAAATTTATAGAAAAACATCAAATTAAACCAATTATTGATAAAGCTTACTCGTTAGAAGAAGCAATTCGAGCACTAAGCCGTATGGAACATGGAGAACAATTCGGAAATATTGTACTTCAAATGAATTAA	MKAIVHQYKKGLEGLEYKFSPEISPNAGEVKVKLKAAGLNHRDLFIINNRKEMDLSLVIGSDGSGVVTEIGEGVSNIKLHTEVIINPSIGWEHATEVPELPEVLGGPKDGTFAEYVIVPAENVVEKPSYLTWEESGVLSLSALTAYRALFTKGRLKCGEHVLIPGIGGGVATFAMLFAKAIGAKVSVTSRVENKRELAEKYGADISFHSAGNWEESLQGEKVDLIIDSIGPATFLKYFDVLKPNGRIVNFGASSGDKIELPLRALFYNQIDIMGTSMGSGEEFNEMIKFIEKHQIKPIIDKAYSLEEAIRALSRMEHGEQFGNIVLQMN				NA	NA	NA	NA	NA
AK009_01216	600	bcrC	COG0671	Undecaprenyl-diphosphatase BcrC	ATGAATTACACAGTATTTCAGTGGTTTAATAATTTTGCTGATTCATCCAAACTATTAGATACGTTAATGGTTGCTATTACAAATAGCGCTGCATACGTAGCCATTTTATTTATGCTTATCTTATGGTTTAATAATGGAAAGAAAGATAAGGCAATTAGAAAACAATATACAGTTTTATATACGACGCTTTCGGTTATTTTTGCATTATTAGTAAATGTTCTTATACACGCAGTATATTACCATCCGCGTCCGTTCGTATCACATGATGTACATCAATTAGTACCACATGCAGCAGATTCATCATTCGTTAGCGATCATTCTGTACTTGTATTTTCAATCGTCTTCGTATTTATTCTTAGAGGAGAAAAACTGAAATATATCGCGCTATTATGGGCAGTATTAGTCGGTATATCACGTATGTACGTAGGTGTTCATTATCCTTTAGATATACTTGGTGCAGCATTCTTAACACTTATTATGAGCGCATTAGTAATGCAAAGTGCACGTATGTTTGAACCAATAGCGAAACTTGTATTCAAAATGTATGCATTAGTAGCGAGACGAATTCCTTTCTTAGCGAAATATAACCATATCGCATAA	MNYTVFQWFNNFADSSKLLDTLMVAITNSAAYVAILFMLILWFNNGKKDKAIRKQYTVLYTTLSVIFALLVNVLIHAVYYHPRPFVSHDVHQLVPHAADSSFVSDHSVLVFSIVFVFILRGEKLKYIALLWAVLVGISRMYVGVHYPLDILGAAFLTLIMSALVMQSARMFEPIAKLVFKMYALVARRIPFLAKYNHIA	PGPT0024170_1279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
AK009_01217	2139	pbpB_1	COG0768	Penicillin-binding protein 2B	ATGCAAAAACTCCAAACGAATAAAGGCGCTCGATATATGATGATTGCTTTTATTGTTTTGTTTCTTATTATGATTTTGCGTATATTCTATATTCAGGCAGTAGGAGTCGTGCATAATGTGAATGTAAAGGATCTAGCGAATGAACAACATAATAAAAAAGGTGTTTTAGAAGCGAATCGTGGCACTATCTATGACCAAACCGGGAAGGTGTTAGTACAAGATTCTACAACGTATCGAGTTGTTGTGAATTTAAAAGGAAAAGATAAAGTGAAAAATAAAGATGAAACCGCACAACAATTAGCCGATGCACTTGAAATTGATAAAGAAGAAGTATTGAAAAACTTGCATGAAGGGCGTACACAAGTTGAAATTGGAAAAATTGGTCGGAACTTATCTAGGGAAACGAAGGAAAAAATTAATAATTTAAAAATACCAGGTGTATCTTTTATGACGGAAAAAGCAAGAGTGTATCCGAATGAAGACTTTGCATCCTATATACTTGGTTTTGCTAGACCAGATGATAAAGGGAATACAGAAGGAAAGTTTGGGCTTGAAAAGAGTTTGGATAAATATTTGCGCTCTACAAACGGGAATATAGAATATGTGGGTACACGAAGGGGGATTCCGCTTACGAATGATATAGGTAAAGTAGAACCTGCTAAAAATGGGAATAACGTATATTTAACCCTTGATAAACAAATTAATAGCTTTTTAGAAGAAGCGATGAACAAAGCACAAGAGCATTATGATCCTTCTATGTTAATTGGAATTATTGCTGATCCAAAAACAGGAAAGGTTTTAGCAATGTCTAGTAAACCTAGTTACAATCCTAATGTAGGTGATATCGAATACTTTTTAAATGATCCGATTGCAAATGCATATGAACCAGGTTCAACAATGAAAGTTTTTACGTTAGCAGCTGCCATTAATGAAGGTGTATATAACGGAAAAGAATATTTTCAATCTGGAAAATATTCCGTGGGTTCATCTGATATAAAAGATCATAATGGTGGATTTGGATGGGGATCAATTACGTTTGATGAAGGTTTTGAAAGGTCATCAAACGTAGCTTTCTCTATTTTAGAAGATCAGTTACTGAAACCAAATAAATTTAAGCAATATATGAATAAATTTGGATTCAATCAAAAAACAGGAATAGATTTACCTGGTGAAAGTAAAAATACTTTATTATTAAATACGCAAATTCAACAAGTTACAACTTCTTTCGGTCAAGGTTCTACAGTAACTCCTATTCAATTAATCCAAGCGGCTACTGCAATAGCAAATGATGGGAAAATGATGCAACCATATATCGTTGATAAAATTGTAAATCCAACAAACAAAGAAGTTATTATGGAAAATCAACCGAAAGAAATTGGGAATCCGATAAAAAAAGAAACAGCGGACAAGGTTAGAAGCTTAATGGAGCGTGTTATAACATCTTCAAAAGGAACTGGTACAATGTATAAAGTGGATGGTTATCCAATTGGAGGTAAGACAGGAACAGCACAAATCCCGAATCCTGAAAACGGCCGATATATGGAAGGGAAAGAGAATTACATTTTCTCCTTTTTAGGAATGGCTCCAATTGATGATCCGGAGTTAATCGTATACTTAGCTATTAAGCAGCCAAAGTTAAAAGGAGATGAGTATGGAGCTCAGCCTCTTGCTGAAATATTTAAACCTGTTATAAAAAACAGCCTTGAATATTTAAAAGTGAAACCGTATACAGAAAAACAAATAGCTGATGCAGCGAAACAATCTCAATTAAAAGTGCAAAATTATGTAAATAAATCGATGGATACAATAGAGAAAAGTGTAGAAAAAGAGAAGCTACAGCCGGTAATTTTAGGAGAAGGAAAAATAATAAAACAATACCCACAGTCTGGCGAGGTAATAAGTGAAGGAGATCGTATATTTTTATTAGGAAATAACGCACATATGCCAAATGTAAAAGGTTGGTCCATGCGTGATGTTATGTATTTCTCTAAGCTTTTGAAATTAGATTTGAAAACTTCTGGTACGGGTTATGTAACGAGCCAAAGTATTGAAAAAGGACAAGGTTTACAAGAAGGAGATACACTAGAAATAGAATTAGAACCGCCGTTACAACCGTTAACAGAGGCGAATACAAATTAA	MQKLQTNKGARYMMIAFIVLFLIMILRIFYIQAVGVVHNVNVKDLANEQHNKKGVLEANRGTIYDQTGKVLVQDSTTYRVVVNLKGKDKVKNKDETAQQLADALEIDKEEVLKNLHEGRTQVEIGKIGRNLSRETKEKINNLKIPGVSFMTEKARVYPNEDFASYILGFARPDDKGNTEGKFGLEKSLDKYLRSTNGNIEYVGTRRGIPLTNDIGKVEPAKNGNNVYLTLDKQINSFLEEAMNKAQEHYDPSMLIGIIADPKTGKVLAMSSKPSYNPNVGDIEYFLNDPIANAYEPGSTMKVFTLAAAINEGVYNGKEYFQSGKYSVGSSDIKDHNGGFGWGSITFDEGFERSSNVAFSILEDQLLKPNKFKQYMNKFGFNQKTGIDLPGESKNTLLLNTQIQQVTTSFGQGSTVTPIQLIQAATAIANDGKMMQPYIVDKIVNPTNKEVIMENQPKEIGNPIKKETADKVRSLMERVITSSKGTGTMYKVDGYPIGGKTGTAQIPNPENGRYMEGKENYIFSFLGMAPIDDPELIVYLAIKQPKLKGDEYGAQPLAEIFKPVIKNSLEYLKVKPYTEKQIADAAKQSQLKVQNYVNKSMDTIEKSVEKEKLQPVILGEGKIIKQYPQSGEVISEGDRIFLLGNNAHMPNVKGWSMRDVMYFSKLLKLDLKTSGTGYVTSQSIEKGQGLQEGDTLEIELEPPLQPLTEANTN	PGPT0023935_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724	NA	NA
AK009_01219	1233	entS_2		Enterobactin exporter EntS	ATGAAAAACTTACTTAAAGATTGGAAATATCCTTTATTACTATTGTCCGGAGTTGGTATTGCGAATTTAGGGGCATGGATTTACTTAATAGCACTGAATGTACTTGTCTATAATATGGGTGGCTCAGCCTTAGCTGTTGCTACTTTATATGTAATAAAACCATTAGCCACTTTATTTACAAACGCTTGGTCTGGGAGTATGATTGATCGTTTAAATAAACGGAAGTTAATGATTCACCTCGATATATATCGTGCGTTATTTATCGCTATTTTACCTTTACTTCCGTCACTTTGGATTGTTTATGTATTCGTATTCTTTATAAGTATGGCCAGTGCAATTTATGAGTCAACTGCTATGACGTATATGACGAAATTAATTCCAGTAGAGCGAAGACAACGTTTCAACTCACTACGTAGTTTAATAGGATCTGGTGCATCACTAATTGGACCAGCAGTAGCGGGGGGATTATTAATTGCGGGTACACCAGAATTCGCTATATATATGAATGCTATAGCATTTCTCTTATCAGGATTAATTACATTACTTTTACCCAACCTTGATAAGAAAAAAGATTCGGATACAACTAGTAATACATTATCCCTTACAGTATTAAAAAAAGATTGGAGCACTGTTATAAATTTTAGTAGAAAACATGTGTATGTCGTATATGTGTATTTCTTATTTCAAAGTATGTTCGTATTAGCAACTGCTACTGATTCACTTGAACTATCGTTTGCGAAAGAGGTATTACTACTAACAGATAGTGAATACGGTTTTCTAGTTAGTATAGCTGGTGCAGGCTATATATTAGGTGCCATAACAAATACAATTTTGTCAAAGAAATTAGCACCTTCATTTCTAATTGGAATAGGATCATTATTCATCGCAATTGGTTATTTAATTTATGCCTTTTCAAATGTATTTTTAATAGCTGCTATTGGATTCTTTATTTTATCTTTTTCGATGGCATATGCAAATACAGGATTTTATACATTTTACCAAAATAACATCCCTGTTCATATGATGGGACGGATCGGGAGTATATATGGGCTTATTATTGCGTTAGTAACAATTTTTATTACAATATTATCTGGTGTTGCGACTCAGTTCATTTCTATACAACTTGTAGTTATTGTAGGGTCATTAATAATGTTATTTATCACTATCGTATTGTGTGTGTTTACTTTATCCCCATTGCAATCTAAGTTGTATTCTACTGAATCAATAAAGTGA	MKNLLKDWKYPLLLLSGVGIANLGAWIYLIALNVLVYNMGGSALAVATLYVIKPLATLFTNAWSGSMIDRLNKRKLMIHLDIYRALFIAILPLLPSLWIVYVFVFFISMASAIYESTAMTYMTKLIPVERRQRFNSLRSLIGSGASLIGPAVAGGLLIAGTPEFAIYMNAIAFLLSGLITLLLPNLDKKKDSDTTSNTLSLTVLKKDWSTVINFSRKHVYVVYVYFLFQSMFVLATATDSLELSFAKEVLLLTDSEYGFLVSIAGAGYILGAITNTILSKKLAPSFLIGIGSLFIAIGYLIYAFSNVFLIAAIGFFILSFSMAYANTGFYTFYQNNIPVHMMGRIGSIYGLIIALVTIFITILSGVATQFISIQLVVIVGSLIMLFITIVLCVFTLSPLQSKLYSTESIK	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
AK009_01220	1026	pbpE_1	COG1680	Penicillin-binding protein 4*	GTGATAAAAACAAAAGATGAGATTAATAAAATTGTAAAAGAAATACAAAAGGAAATAGATTTCTCTGGAGTAGTTTTAGTAAAAAAAGAAAAAAAACTAGTCTATGAAAAAGCATTGGGTTACGCAAACCAAAGTGAATGTATAAGCAATACGATACAAACAAGATTCGGCATTGCCTCAGGATGTAAAATTTTCACTGCAATTGGCATCTGTCAACTTGTTGAAAAAGGTGTTATTTCTTTTCATACAAAATTAAAAGATTGTCTAGAGATAAAATTTCCAAACTTTGATGAAGATATTACAATACATCAACTACTAACGCATAGCGCTGGTATACCAGATTATTTTGATGAAAGTATTATGGATAACTTCGAAGATCTTTGGAAACAAACACCTATGTATCTATTAAAGAGCTTAAAAGATTTTTTACCATTATTCCAAAACAGTAATATGATGTTTACACCTGGAAGTAAGTTTCACTACAACAATGCAGGTTTTATCATACTCGGATTAATAATAGAAGAACAGACGGGATTTAAATTTACGGAGTATATAGAAAAGAACATATTTAATCCAATTGGTATGAATGATTCTGGCTATTTTTCTTTAGATAGATTACCAAGACATACAGCACTAGGATATATAAAGGATGAAACTAACCAAAATTGGAGAACAAACGCCTACTCTATACCAATAAAAGGAGGAGCTGATGGAGGTGCATATGTTACTGCACCAGACATGCTGAAATTTTGGGCGGCACTATTTAATAATGAAATTTTAGGAAAGGAATATACAAAGTTACTTTTAACTCCCCACATTCAAGTAAATGATAAACAGTCTTACGGCTATGGAATATGGATTGAAACACGAGAAAACAAGGTATTCAAATATCATATAATGGGATATGATCCAGGCGTCAGTTTTCGCTCGTCTATATATCCAGAATTAGGAATCACTTTAGTTATTCCATCGAATAAAGGGGCAGGACCCGAAAAATTAATGACAGAAATAGAAAGAGCTTTTTAA	MIKTKDEINKIVKEIQKEIDFSGVVLVKKEKKLVYEKALGYANQSECISNTIQTRFGIASGCKIFTAIGICQLVEKGVISFHTKLKDCLEIKFPNFDEDITIHQLLTHSAGIPDYFDESIMDNFEDLWKQTPMYLLKSLKDFLPLFQNSNMMFTPGSKFHYNNAGFIILGLIIEEQTGFKFTEYIEKNIFNPIGMNDSGYFSLDRLPRHTALGYIKDETNQNWRTNAYSIPIKGGADGGAYVTAPDMLKFWAALFNNEILGKEYTKLLLTPHIQVNDKQSYGYGIWIETRENKVFKYHIMGYDPGVSFRSSIYPELGITLVIPSNKGAGPEKLMTEIERAF				NA	NA	NA	NA	NA
AK009_01221	654			hypothetical protein	ATGAAAGGGCGTGTTAGCAATTTGTATATGATCAACGGTAGTTTGTTTATTATTTTAGGGGTTATTTGTTATTTAATTGTACGTGGAATATTAATTGGTACCAAAAATAAAAAACATGTGATTTGGTGGAAAGAAATAATAAGTTTTTTATTCGTGGTCTACATTTGTATGGTTGTTGCAGTAACTTTATTCCCTTTACCAATTGGTTTTCCTTCTAATGTTGAAAATCTGAATCGCTCGGTCAATATAATACCATTTGCATCAATTATTAAAGACATCAATCAAATTGGTAGTGCTTATGATGGGGATGCCCTGTTTATGATTGGTCTAATTGTAAGAAATGTAGGCGGGAATATTTTATTATTAATGCCTTTAGGATTTTCAGCACCAATCTTATGGGATAAATATACGAAATTCAAAAATAATATTTTATTAGGATTTGCTATATCAGTTAGTATTGAATTGCTACAATTAATTGAGTCTTTATTTAGTGGAGTGGGACGTATTACTGATATTGATGATGTGATCTGTAATGTTATAGGTTCTATTGTTGGATATTGTATTTATAATATCTTTTTAAAAGCTATTAATAAATTTAACATTCGATTGTTGGGTAAAACTAATTCTAAAGGTGTGGAATTAGTTGATAAATAG	MKGRVSNLYMINGSLFIILGVICYLIVRGILIGTKNKKHVIWWKEIISFLFVVYICMVVAVTLFPLPIGFPSNVENLNRSVNIIPFASIIKDINQIGSAYDGDALFMIGLIVRNVGGNILLLMPLGFSAPILWDKYTKFKNNILLGFAISVSIELLQLIESLFSGVGRITDIDDVICNVIGSIVGYCIYNIFLKAINKFNIRLLGKTNSKGVELVDK				NA	NA	NA	NA	NA
AK009_01222	456			hypothetical protein	ATGGATATTTTACTTGTTGTTCTTATTATTGTTTTGATGCAAAGTAAAGAACGAAAAGTGAAAATAAACCGTATTTGGCTCATTCCGGCTTTGTTGTGCTTTGTAACAGTTCAGTCCATTATTCGTATGGGACAAATAACTTTGCTGCAAGGACTACTGTTTTTTGTAATGCTTGGAATTGGCTTAGGTATTGGAATTATACGGGGGAAAGCTTTAACATTTCGATTAGATAGTGAAACGGGTCATGTACTACGGAAAGGAAATTGGGTAAGTACAATAATTCTTCTTGTTATTTTAGGAGTAAAAATTATTATTAAACAAAGTATGTTTTCTGGTAGCACGCACCAGACACTAATGGTTGTAACAAATGCCTTTTTATGTATTACATTAGGCACCGTAATTAGTAGACGTTATTATATTTGGAAAAAATATAATGAATTAACACAAAAAGCGTAA	MDILLVVLIIVLMQSKERKVKINRIWLIPALLCFVTVQSIIRMGQITLLQGLLFFVMLGIGLGIGIIRGKALTFRLDSETGHVLRKGNWVSTIILLVILGVKIIIKQSMFSGSTHQTLMVVTNAFLCITLGTVISRRYYIWKKYNELTQKA				NA	NA	NA	NA	NA
AK009_01223	507			hypothetical protein	ATGATATACATTTACACAGACTTCGGCGGTACACATACAACATCACTAGCTGCAGCATATCATTTAAATAAATTACCAACGGATCGTAAGTTAACAAAAGAAGAAATTTTGAATGTAGATTACTTTAATAAATTGAAAACAGAAGATATGGGAAAAATTGTTTTTCATGGAATAGACGAAAACGGTCATCCTGTATATACGATTGGATGTGGCGCATCAAAAGTTGTTGTACCAGCGATGAAGCATTTAGGAGAAATCTTGCAAAAACATTATCAAAGTCATGAAAAAATTATTTTTTCTAATACATCACCAACCGTACCTTTACCAATGACTTTTGGTGGTCTGTTTTCTAGAAGGTTCCATATCGATTTTATTGGCATACCGTTACTCGTATGGGGAGCAAAAATTTGCTGTGATAATATACAAAGGCTTGTTAGTTATACAAAAGAGGCAGGAAGATTAACGAATGATTATGTTGTAATTTTAGATAATGAAACTTTTAAATAG	MIYIYTDFGGTHTTSLAAAYHLNKLPTDRKLTKEEILNVDYFNKLKTEDMGKIVFHGIDENGHPVYTIGCGASKVVVPAMKHLGEILQKHYQSHEKIIFSNTSPTVPLPMTFGGLFSRRFHIDFIGIPLLVWGAKICCDNIQRLVSYTKEAGRLTNDYVVILDNETFK				NA	NA	NA	NA	NA
AK009_01224	807			DegV domain-containing protein	ATGAAGCGTGTTGCTTGGATTACTGATAGTACAACTGCGAATTTTAAAACAGAAGGAGATAACTTTGTTATCCCAATCGAAGTTATTATTGATGGAATTTCGTACAAAGATTGTGAAGAAGGTGTACGTGAACGGGTTTATAATGCGTTAAACGAAGGTAAAATAGTCACTACTTCACAACCTAATATTGGGGAAATGGTAGAGTTGTTTACAAAATGCAAAGAAGGATATGAAGAAGGATTTGCAGTTGCTATTAGCGGAAAAGTAAGTGGAACCTATCAAAATATGAAGTTAGCTGCAGAAATGGCAGGTTTTCCATTAACTGTATTAGACAGTGAAACAACAAGTTATCCAATGGATGAATTAATTAGAAAAGCGAAATCGTTATACAATGATGGTATGACTTTACAAGATATACACAAAACATTAGTAGATGAAAAAAGAAGACCTTTTCATGTATTCCCAAAGAGTTTAAAAGGTTTATATGCGAGTGGTCGTGTAAAGGGTATTCAATTTTTACTTGGAAGTTTATTAAGTGTGAACTTAATACTAGAAGTAAAAGGTGGAGAGCTTTTACTTGAAAAGAAAGTTCGTAAAATCCAAAAATGTCGAGAATATATTAAAAATGAACTTGAAAAAGAATTACCAAAAGTACTTCATATGTTCCATGCTAACGATAAAGCTGGAGCGGAAGAATGGATTGCAGATATTAAACAAGCATTCCCCGAAATGGATTTCAAATTATATCCATTACCAATTTCATTTGCGGTTCATGCAGGTGAGGGAACAATAGCAATTAGTTATTAA	MKRVAWITDSTTANFKTEGDNFVIPIEVIIDGISYKDCEEGVRERVYNALNEGKIVTTSQPNIGEMVELFTKCKEGYEEGFAVAISGKVSGTYQNMKLAAEMAGFPLTVLDSETTSYPMDELIRKAKSLYNDGMTLQDIHKTLVDEKRRPFHVFPKSLKGLYASGRVKGIQFLLGSLLSVNLILEVKGGELLLEKKVRKIQKCREYIKNELEKELPKVLHMFHANDKAGAEEWIADIKQAFPEMDFKLYPLPISFAVHAGEGTIAISY				NA	NA	NA	NA	NA
AK009_01225	426			hypothetical protein	ATGTTTAAAAAAGCAGCACTAGGGATTTCATCGTTAGCAATCACAGCGTTCGTCGGATTAGGGATGGCAACAGAAGCTTCAGCTGGACCAGCAGCACCACTTACTTCACTAAACGTCGTACAAGTAGAGTCTGAGCTGGGCGGAGTAGAAACAATTAACCAAAACAGCTTTAGCACAACACGTAACCACGGGGGAAAATACTTATATATTACAACGAAAGAGATGGGATACGGTCAAAATCCGTTTACTAAAATGAATGGTTCTAATGTAAAAAGTATTGGATCCACAATAATCGGCGGAAAACCAATCGTTGGCTGGTATTACAAATGGGATGCGTCTGGACATCAACAAGGAACATTTGAATACCAAAAAACATCTATAAACGCGCCATTTAATACAATGCGTACGTCAATTTATATCCAATAA	MFKKAALGISSLAITAFVGLGMATEASAGPAAPLTSLNVVQVESELGGVETINQNSFSTTRNHGGKYLYITTKEMGYGQNPFTKMNGSNVKSIGSTIIGGKPIVGWYYKWDASGHQQGTFEYQKTSINAPFNTMRTSIYIQ				NA	NA	NA	NA	NA
AK009_01226	1224			hypothetical protein	ATGAAAATCAGTAAGTTTGCAGAAGTAAATAATGTAAGTGTAGATACGATTAGACATTATATGGACCTCGGACTCGTTATTCCCGAGAAAAAAGGAAGTCACTATTTTTTTGACGAGTATTGTCAAAAGGATATAGAACTTATATTAGAGTACAAATGGCTAGGGTTTAGCTTGTATGAAATTAAAGAACTGTTTCTTTATAAAAATTTAGGGAAATCCTTAGACTATGAAAAGGATAATTTTTATCAATCTTTATTTAAAGTAAAATATGAAAAGATTGAACAAGAAATAAAAACTTTAGAGGAACGAAAATGCAAATTAAAGGAAGCGTTACATAATTTATCTATAGAAACTGAAATTTCGAGTTCAATTTTAGGGGTAGATTTAAAAGTACTTCATTTATTTAAATGTGTTAAGTGTAACGGAAATTTAATTCTTGAAGATGGCATTATTAATAAGAATCAAATTATTGAGGGAAAGTTAATTTGTAATTGTGGTGAAGAATACACGATTATTTCAGGGGTTTTAACAGCTGGCAACTCAGTGAAAGCGTATGAAAAGAAATCACTTGAAGATTCTATTTCGGATTATATTCATGAAACTGATACTGCTTTTTTGGAAAATGTTCAAAGAGGAGGAGAATGGGCGAAAAAGAAACTAATGCAATTAGATTTAAATGAAAAAATACTACTTGATTTAGGGTCTGGTATTGGGTTCTTTTTACGAAATATTTATGAAGAACTACCGGAAGAGTGTTTATATATTGCTGTTGATCGAGATTTGAATAAACTTTTACTTTTAAAAGATGTAATTGAGAGAAGAAATGTGAAAAGAAATATTGTATTTATCTGTGCCGACTTTCTAAACATACCTATTCAGAATAATTCTGTTGATATTGTAATCGATCAATCAGGTACAAGTAATTATAGTTTTGAATATGAGGAGTTCTTATTGTGTGAATTAAATTCCCTTTTTAAACACAATTGTTATTTATTAAGTTCATTTATTTTATTTAATAAATTTAGTATAAATAGCCAAATTGCACCTAGACTCAGAGAGAATTTTACATCTGCAAAAGTAACAAAAGAAATCGAAAATTTACAGTTTCAATCTATTGATGAAAGTACTTCAAATTATTTGATACGAGGGGGAAGGTACGAGGATTTCTTTGTTCAAGGAGAAGAAATTTATACATATTCATTTTTCGGAAAAAGATGGGGTTAA	MKISKFAEVNNVSVDTIRHYMDLGLVIPEKKGSHYFFDEYCQKDIELILEYKWLGFSLYEIKELFLYKNLGKSLDYEKDNFYQSLFKVKYEKIEQEIKTLEERKCKLKEALHNLSIETEISSSILGVDLKVLHLFKCVKCNGNLILEDGIINKNQIIEGKLICNCGEEYTIISGVLTAGNSVKAYEKKSLEDSISDYIHETDTAFLENVQRGGEWAKKKLMQLDLNEKILLDLGSGIGFFLRNIYEELPEECLYIAVDRDLNKLLLLKDVIERRNVKRNIVFICADFLNIPIQNNSVDIVIDQSGTSNYSFEYEEFLLCELNSLFKHNCYLLSSFILFNKFSINSQIAPRLRENFTSAKVTKEIENLQFQSIDESTSNYLIRGGRYEDFFVQGEEIYTYSFFGKRWG				NA	NA	NA	NA	NA
AK009_01227	1296	entS_3		Enterobactin exporter EntS	ATGGGAAGTTTACGATTACATATAGAAAATAAAAAAAGCAATCAAGAATTAAGAAATATTAGTTTATATTCAATTGCAAAAACAGTATCACTATTTGGTAGCTCTATTTATAGTTTTGCATTAGGATTGTATGTTTTACAAATAACCGGATCTGCGTTAAATTTTGCAATTTCGCTCATATTAGGAACGATTCCAATGATTGTTATGAATCCATTTGCCGGTGTCATTGCTGATAAGGTTGATAAAAAGAAACTGGTTATTTGTATGGATTTACTAAGCGGATTATTATTAATAACTGTTTATATATTAAGCAGCTATTATGGATTAAACTTATTCATCATTTATACTACTACCTTTCTTATGACAGTATTTACAACGTTTTTTGGAATAGGATTAGAGGCCGTAAAACCGAATATGGTTACTAAAGAACGGTTAATGAGTATTAATTCTATAAGTAAAATTATCGATTCTATATCTTTAATTTTAGGGCCTATGTTAGGGGGCATTGTTTTTGCAGTCTTTGATATGAAAACTTTTATAATTATTAACGGTATTTCATTTATCCTTTCGGCTATATCCATATTGTTTATAAACTTTAAATTGTGCGAGCAAAACATAAATGAGGAATGTTCAATTAGAGAAATTAATTTTATTGAAGATATAAAGGAGGGATACTCTTACTTATTGGAGCGGAAAAGCTTAAAAAATACTTTTAGTATTTTAATTTCACTTAATTTCTTTTTAGGCTTTGCTGTAACTGTTCCGTTGCCATACATTATTAACACAGTTCTCAATCTTAGTTCTAAGCAATTTGGTATGATTCAAGGGACTTTTCCGATAGGTATGATAGTTGGTGCAATATTAGTAAAAAAGATAACTGATTGTTTTTCTTATTCTTATCTATTGAAAAAAATAAGTTTTATGTTGGCAATTTTTATGATAGTTTCAGGAATACCTGTTTTATTTAAATCTATTGTAGTAAATAATTTGGTATATGTTACTACGTATTGCATGATTATGTTCTTTTTAGGGTTTATGATAGCACAAATTGATATTCCTTTAATGTATTTCATGCAAAATGAGATTCCTGAAGAATATAGAGGAAGAGTTCTTAGTATTGGATTAAGCTTAGGTAAAATAATGCAGCCAATAGCACTTGCAATATCAGGACTATTATTAAATTTCATTCCAGCCTACACGCTTCCCATTGCAGGGGGGATTGTATTTTTTACTTTGAATAAAATTTTAACAAATAAGTTAAATTTAGAAATTCATTCAAAAGATTATAGTGTTTAA	MGSLRLHIENKKSNQELRNISLYSIAKTVSLFGSSIYSFALGLYVLQITGSALNFAISLILGTIPMIVMNPFAGVIADKVDKKKLVICMDLLSGLLLITVYILSSYYGLNLFIIYTTTFLMTVFTTFFGIGLEAVKPNMVTKERLMSINSISKIIDSISLILGPMLGGIVFAVFDMKTFIIINGISFILSAISILFINFKLCEQNINEECSIREINFIEDIKEGYSYLLERKSLKNTFSILISLNFFLGFAVTVPLPYIINTVLNLSSKQFGMIQGTFPIGMIVGAILVKKITDCFSYSYLLKKISFMLAIFMIVSGIPVLFKSIVVNNLVYVTTYCMIMFFLGFMIAQIDIPLMYFMQNEIPEEYRGRVLSIGLSLGKIMQPIALAISGLLLNFIPAYTLPIAGGIVFFTLNKILTNKLNLEIHSKDYSV	PGPT0027965_441	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
AK009_01228	705			hypothetical protein	ATGGCTCCATTAAAGCGCAGAGGAAGAAAAAAGCAAGCACCTATTATTTCAAATACAGGCTTTATCGGCTCTGTCTTTATTGATACATTGGAGTTACAAAAGAAATCCTATTATTTCGCTCGTAAAAAACTTCAAATTGTTCATCGCGTATTAGATGGTCTCTCTGGAGCAACAAGTGCTTTATTTAAAGAACATAACATTTCAGCATACATGTCATGTGTGTATTTACATACACAAAAGAAAATTGGTTTTGTTCTTTCAACGAAACCATTTGAACAAAGTGATGGCGTTGCTTATTTTGTAAATTATTTAATCGAAAAGAATTTTTACGGCGACCATGACGAAGATGTAGAATATCAAGAAGTATTTAATACAGGTTTTATCGGTGTAGTATTCGCTGATTTGTCTAGTATAGATCGCTTTAATTTCGAGTTTGAAATGGGTATGCTAACGAAATTAATGAAAGATATGATTATTCCGGTTAAAGAACTCTTTTTACGCCATAATGTACCGGCTTACATCTCCACTTCTCATTTAGAAGAACAAAACAAATTAGGTTTCGTTCTCTCTGTAAAGCCATATGATGAACGCGCTGAAGCTGATTTATATTTTGAAGCGTATTTAAAAGAACGAGGATTATTTATTGGTGATGAAGAAGATGATATTGATAAAATTGTTATTAGAAAAACAGCTGAATTACGATAG	MAPLKRRGRKKQAPIISNTGFIGSVFIDTLELQKKSYYFARKKLQIVHRVLDGLSGATSALFKEHNISAYMSCVYLHTQKKIGFVLSTKPFEQSDGVAYFVNYLIEKNFYGDHDEDVEYQEVFNTGFIGVVFADLSSIDRFNFEFEMGMLTKLMKDMIIPVKELFLRHNVPAYISTSHLEEQNKLGFVLSVKPYDERAEADLYFEAYLKERGLFIGDEEDDIDKIVIRKTAELR				NA	NA	NA	NA	NA
AK009_01229	105			hypothetical protein	ATGAAAATTACTATTTATTTCGGAAGTCATGAAGATCAAGATGTTCGTACTATGGACTGTCATTTAGATGTAGAAGATACAGAAGAGATTGTTTCTGTATCATAA	MKITIYFGSHEDQDVRTMDCHLDVEDTEEIVSVS				NA	NA	NA	NA	NA
AK009_01230	228			hypothetical protein	ATGAATTATAAACAATTACTAATAGATAACTTTGTGTTTAAAACTTCATATGTTGCGCAATTTGTGCCCGGAATGAGTGTAAAAGAAACGAAAGATTATATTTCTGTTGATTGCGGATTACCTGCCGATACATTCAATGTTATTACTCTACTAAATAATAATTTAACGGAAGGGATTGAGAAATTATATAAGGAGGTATTCTACTATAATCAAAAAAATTTCCAATGA	MNYKQLLIDNFVFKTSYVAQFVPGMSVKETKDYISVDCGLPADTFNVITLLNNNLTEGIEKLYKEVFYYNQKNFQ				NA	NA	NA	NA	NA
AK009_01231	576			hypothetical protein	ATGAGTATTTGGTTATGGGATGAGGAGCAAGAGCGAGATATAAAAAGCGAGTTAATTAAAATCGGTTTAAAAGAAGCGGAACAGAATATTGCGATGGTAGCAGACTTAGAAACAATTTCTCCACCAATAAACATGCCAGTAAGTTTTACAATTCAAGAAGCATCTTCATCTGGAAAAATAAAAAAATTTGGAGAAACATTAGCTAATCTATTCGGCACATCAGAAGAAGGTATACATGTACAAGCATTCTATAATCAAATTTCTAATCTTGATTTATGGAACAGTGAGGATATGAAACTATTTTTAGGATTTTATGAAGGTGAAGTCGTAACTGTTGGTTCATTGATATGTTCAAAAGATAGTATTGGTATTTATGACATAGCAACTAAAGAAGAAATGAGAGGACGAGGATTCGGATCTACTATGTTCAATTTCCTTCTGCAAGAAGCACAAAAATTTAAAAATACTTATTGTGTATTACAAGCTTCACACGATGGAATCAATATTTATAAAAAATCGGGATTTCAAGCTATCGGTAAAATGACTGTATTGGAAAATCGACATTTAATTGAGTAA	MSIWLWDEEQERDIKSELIKIGLKEAEQNIAMVADLETISPPINMPVSFTIQEASSSGKIKKFGETLANLFGTSEEGIHVQAFYNQISNLDLWNSEDMKLFLGFYEGEVVTVGSLICSKDSIGIYDIATKEEMRGRGFGSTMFNFLLQEAQKFKNTYCVLQASHDGINIYKKSGFQAIGKMTVLENRHLIE				NA	NA	NA	NA	NA
AK009_01232	876	glpQ_1	COG0584	Glycerophosphodiester phosphodiesterase	ATGAAAAAGATATATCTTGTTACAATAATTTGTGCCTTTATAGTAATAAGTATCTTTGTTTTTCAGAAAATAAATGAACATAAGTATACTAAAGCTATTAATCAATCAAATCATATAAAAAATATCGCACATAGAGGTGCTTCTGCGTACGCACCTGAACATACAATAGCAGCATATAAATTAGGACAACAAATGAATGGAGATTATATAGAAATTGACCTCCAAATGACAAAAGATGGACATTTAGTGGCTATGCATGACGAAACCTTAAATCGTACAACAAATGGTACTGGGCTAGTGAAAGAGCATACATTAGAAGAAATAAAGCAACTAAATGCAGGTTCTTTTTTTAATGAAAAATATCCGAACTTAGCAAAGAAAGAATTTGAAAATGCTAAAGTCCCAACATTAAAAGAAATTATTGAAACGTTTGGGCATAACGCGAACTATTATATCGAAACAAAATCACCTGATGAATATTTAGGAATGGAAGAAAAATTATTAGAAATTATTAATTACTACGAAATACAGGATAAAGTTATTATTCAATCGTTTAGTGAAGAAAGTCTACAAAAGATTCATAGCTTAAATAGTAATATATCCATAGTACAATTATTACCTTATAAAAAAGCAGTTCAATTAACAAAATTAGAGATAGAAAAGTATAAAATGTACTGCATAGGTCTTGGTATGAATTACAAATATATCGATTCAGATTATGTAAAGAAAATAAAGAAAAGTGGATTAGAAGTTCATCCATTTACAGTAGATAATGAAAATGATATGAAAAAGTTACTTGCATGGGGAGTCGACGGGATGTTTACCAATTATCCAGATCATTTACATTCAATATTGGATTTGAAAAATTATGAATAA	MKKIYLVTIICAFIVISIFVFQKINEHKYTKAINQSNHIKNIAHRGASAYAPEHTIAAYKLGQQMNGDYIEIDLQMTKDGHLVAMHDETLNRTTNGTGLVKEHTLEEIKQLNAGSFFNEKYPNLAKKEFENAKVPTLKEIIETFGHNANYYIETKSPDEYLGMEEKLLEIINYYEIQDKVIIQSFSEESLQKIHSLNSNISIVQLLPYKKAVQLTKLEIEKYKMYCIGLGMNYKYIDSDYVKKIKKSGLEVHPFTVDNENDMKKLLAWGVDGMFTNYPDHLHSILDLKNYE	PGPT0018470_4059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_01233	171			hypothetical protein	GTGGTTTTTTATTGCTTTGATTTCAGTTTACAAAGTTTGAAGCTAGAAGTGAAAACCTTTTTAGATGAATTGGCTTCTTATGTATTTGTACTTCGTATCGTTCTAGGTATATGTACAACCCATGAGACGAATTTTGCATATGATAATAGAAAAGGAGATGTTGCATATTGA	MVFYCFDFSLQSLKLEVKTFLDELASYVFVLRIVLGICTTHETNFAYDNRKGDVAY				NA	NA	NA	NA	NA
AK009_01234	846			hypothetical protein	TTGAAATATCACAATAGAAATGTAAGTAATCTGAATAAATTAGCGGATAATACGAAAGCTGCCGCTTTTAAGTGGTATCAGTACTGCATTGACAATGGTATTGAAGTGTTAATTTACGAAACAATCCGTACGGTCGAGCGACAACGTGAATATGTTCGTAAAGGAGCATCGCAAACGATGCGCTCATATCACTTAGTAGGACAAGCATTAGATTTTGTTCCAATTCAGTCGAATGGTACAGAAGATTGGAATAGCTATAATAAAGAACCGTGGGCATCAGCAATTCGTTATGCTAAACAAATTGGCTTTGAATGGGGCGGTGACTGGAAAGGATTTGTGGATAGTCCGCATTTGCAATATAACTACAAAGGGTATGGAACGGATACTTTTGGAAAAGGTTCTCAAAACGTAGCGACTCCTCCTCCAACGAATGATGGTGTAGGGGTAGCTTATATTAACGGTAGCAATGTAAATTTACGAAAAGGACCTGGTACTGGATATGGTGTTATTCGCCAATTAGGGAAAGGAGAGTCCTACAAAGTATTTGGGCAATCAAATGGCTGGTTAAATTTAGGTGGCGATCAGTGGATTTATAACGATCCATCATATATTCGTTATACGGGAGGAAATGTACCCGCAACTTCACAATCATCAAACGATGGTGTAGGCGTAGTTACTATAATAGCGGATGTATTGCGTGTTCGTACCGGACCAGGAACAAATTACGGTATTGTGAAAAATGTGTACCAAGGTGCAAAATATCAATCGTTTGGATATAAAGATGGTTGGTATAATGTTGGTGGAAATCAATGGGTTTCTGGTGAATATGTTACATTTGTAAAGTAA	MKYHNRNVSNLNKLADNTKAAAFKWYQYCIDNGIEVLIYETIRTVERQREYVRKGASQTMRSYHLVGQALDFVPIQSNGTEDWNSYNKEPWASAIRYAKQIGFEWGGDWKGFVDSPHLQYNYKGYGTDTFGKGSQNVATPPPTNDGVGVAYINGSNVNLRKGPGTGYGVIRQLGKGESYKVFGQSNGWLNLGGDQWIYNDPSYIRYTGGNVPATSQSSNDGVGVVTIIADVLRVRTGPGTNYGIVKNVYQGAKYQSFGYKDGWYNVGGNQWVSGEYVTFVK	PGPT0024025_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
AK009_01235	462			hypothetical protein	ATGAGCATTTTTAACATTCTTTTAACCATACACATACTATTTGGAACAATATGCTTAATCACTGGTATTGTAGCGATGGTTGCTCAAAAGAAGAAAGGAAAACATACTGAATGGGGCGAGATATATCATGCATCCTATGTTGTCATTACCCTTACGGCAATAATATTATCCATTATCAACTGGGATAAAATCGCATATTTATTTTATGTAGCAATCTTCTCTTATTCATTTGCAATTTATGGATACCTCGCACGAAAAAAACGTTGGAAAAATTGGCTCCATCACCACATTAGAGGTATGTTAGGTTCTTATATAGGTGCAGTCACCGCACTTTTAGTAAATGTCGGCATCCATATTCCCATTATAAATTTACTTCCGCCAATATGGTTTTGGTTTTTACCCACATTAATTGGTATCCCCCTCGTAGCCAGTGTATCAAAAAAATATAAAAAGCGTAGTTAA	MSIFNILLTIHILFGTICLITGIVAMVAQKKKGKHTEWGEIYHASYVVITLTAIILSIINWDKIAYLFYVAIFSYSFAIYGYLARKKRWKNWLHHHIRGMLGSYIGAVTALLVNVGIHIPIINLLPPIWFWFLPTLIGIPLVASVSKKYKKRS				NA	NA	NA	NA	NA
AK009_01236	531			hypothetical protein	ATGTTTACATCTATTACATATTTACAATCAGGGAATGACAAACAACAAAAGGTATATGATGTTTTAAATAAACTAAACATAATGGAGGATTTAGCTTTGTATAGTCCCGTTCTTTGCGGGACAATCCCTATAAGAATTGATACTCTCCAATCTGACTTAGATATAGTAATGGAAGTACATAACTTTGATGTTTTTGAGCAGGAAATGAGGTCTTTATATGGTTCTTATAGAGGGTTCAATATAAAAAAGAAAAAAATGAAAGGTACTGAATCGATAAAGGTAAATTTTGAATTCGAAGGTTTTGAATTTGAATTATTTGCTCAGCCTAAGCCAGTGCGTAACCAAAATGCATATAGACATATGATAGTAGAGCACATGCTATTAATGCAGCATTCACATATAAGGGAAGAAATTCTTCGCTTAAAAGAGAACGGTATAAAAACAGAACCTGCTTTTGCTCAAGTATTAAACATTGAAGGAGATCCTTATGAAGGACTTATTGTGTTGGGGCAGGAAATGCGGTTGTGGTAA	MFTSITYLQSGNDKQQKVYDVLNKLNIMEDLALYSPVLCGTIPIRIDTLQSDLDIVMEVHNFDVFEQEMRSLYGSYRGFNIKKKKMKGTESIKVNFEFEGFEFELFAQPKPVRNQNAYRHMIVEHMLLMQHSHIREEILRLKENGIKTEPAFAQVLNIEGDPYEGLIVLGQEMRLW				NA	NA	NA	NA	NA
AK009_01237	1434	norG_2	COG1167	HTH-type transcriptional regulator NorG	ATGACAACGAATAAAAAACTGCCTAAATATCGGCAGATAGTAGATTATATGAAAGAAAAAATCGAAAACGGAGAATGGCCGATCGGAAGTAAGATCCCTAGTCAAAGGCAGTTAGCAAAATTATTTCATGTAAATCGAAGTACTGTAATAACTGCGCTCGATGAACTTATGGCAGATGGCTTAATTCAAGGGAAAATCGGAGCAGGAACAGTTGTAACAAATAATACATGGTCATTATTAGCGACGAATCCCCCGCCTGATTGGAGTGAATATGTAAAAGTTGGTATTCATAAACCTAGCAAGTTAATGGTACGAGAAATAAATGAAGCAGAAGCAAATAAAACACTTATCCATCTTAGTAAAGGTGAACTTGCACCTCAACTTTTCCCGCTAAAAACGATGCAGTCCATTATGAAAAACGTAAGTGACGAATTAGATTATTTCGGATACGAAGAACAAAAAGGTTTTTTACCGTTACGTGAGGCAATAAGTAAATACGTAAAATCATTCGGAATACATGTATCACCGGGTTCTATATTAATCGTCTCTGGTGCATTACAAGCATTGCAATTAATATCAATTGGTCTTTTGCATAGAGAATCAACTGTTTTACTTGAACAACCTTCTTACTTATATTCACTTCATGTATTTCAATCAGCAAATATAAATTTATCTGGTATAGCTATGGATCATCACGGTATTTTACCTAACGAATTATTAAAACGCATTAAATACAGTCAAAAGAAAAACATTTTATATTCTATTCCTAGTTTTCAAAACCCAACTGGGATATTAATGTCTCAAGAACGAAGAAAAGAAATAATAAAGATATGTGAAAAGGAACAGTTACCTATTATTGAAGATGATATTTATCGTGAGTTATGGATTGATGAACCCCCTCCAGCTCCTTTAAAATCAATAGATAAACATGGACATGTATTATATGTTGGTAGTCTATCTAAAACACTTAGCCCAGGACTTAGAATTGGATGGATTATTGGACCTGAACCAGTTATTGAAAGATTGTCAGATATAAAAATGCAAACAGACTATGGATCGAGTTCGTTATCCCAAAGAGTTGCTGCTGAATGGATAAAAAAAGGTTTTTATGAAGAACATGTTGCAAACGTAAGAATTCAACTAAAAGAACGAAGACAAATCATGATACGGGCTTTAAATAAATATTGTGCAGATGTTGCATCGTGGGATATTCCTAGTGGTGGATTTTTTATATGGCTAAAGGTTGTACATAACATTCCGATGAAAAAACTATTTTCAGAGGCACTATCAAAAGGAATTCTTTTAAATCCAGGACGTATTTATGAAGAAGAATCAGATCAGTACATTCGTTTATCATATGGATATGCTTCTCCAGAACAAATGACTAACGGGGTTAAATTGCTGAGTGAATTAATCCGTAAGCTAATGGCATAA	MTTNKKLPKYRQIVDYMKEKIENGEWPIGSKIPSQRQLAKLFHVNRSTVITALDELMADGLIQGKIGAGTVVTNNTWSLLATNPPPDWSEYVKVGIHKPSKLMVREINEAEANKTLIHLSKGELAPQLFPLKTMQSIMKNVSDELDYFGYEEQKGFLPLREAISKYVKSFGIHVSPGSILIVSGALQALQLISIGLLHRESTVLLEQPSYLYSLHVFQSANINLSGIAMDHHGILPNELLKRIKYSQKKNILYSIPSFQNPTGILMSQERRKEIIKICEKEQLPIIEDDIYRELWIDEPPPAPLKSIDKHGHVLYVGSLSKTLSPGLRIGWIIGPEPVIERLSDIKMQTDYGSSSLSQRVAAEWIKKGFYEEHVANVRIQLKERRQIMIRALNKYCADVASWDIPSGGFFIWLKVVHNIPMKKLFSEALSKGILLNPGRIYEEESDQYIRLSYGYASPEQMTNGVKLLSELIRKLMA	PGPT0028960_387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_01238	915	yedA_1		putative inner membrane transporter YedA	ATGCATAATAAAAAATGGGATTTACGCATTATATATGCACACGCGTTTACGATTCTTATATGGGGAACTGCTTTTCCGGCAATTCGTATGGGGCTTGAATCTTATACACCTGAGCATCTTACTTTACTACGCTTATTAATCGCTTCATTTATACTTCTGTTGTTTTCTTTTATCTACAAGTTACGGCTACCGGATTTAAAGGATATCCCAGCAATTTTTATGTTCGGTGCTTTAGGATTCACTTTTTATCACATTGCATTAAACTACGGCGAAAAAACAGTAAATGCTGGTTCTGCAAGTTTAATTGTTTCGGTCACACCTATAGTAACGGCAATTCTTGCTTCTATATTTTTAAACGAAAAAATGAAATTAAATGGTTGGATCGGTGGTGTAATTAGTTTTATAGGAATTGCTCTCATATCATTTAGTCAAGGAGATAGTATTCAATTAAATAGTGGGGGATTATTTATATTATTTGCAGCAATTTCAGAAAGCCTATATTTTGTTTTCCAAACTTCTTACTTAAAAAAGTACGGCTTCTTACCATTTACCATATATACAATTTTATCTAGTACTGTATGTATGCTTATTTTCTTACCGGGAATGTATCAAGAAATACTAGCAGCTCCTCTTGAAGTGAATGTGAGTGTTTTATATTTAGGCTTATTTCCAACAGTACTCCCATATATCGCATTGGCCTATATCATATCTCATGCTGGTGCTGCTGAGGCAACAAGCATGAGATATTTAACCCCAGTAACTGCATGTTTTATTGCTTGGTTATGGTTAGGAGAAGTGCCAACTTTAGTTTCGATAATTGGCGGAGGGATTACTATACTTGGTATCGTGATTGCTCATATACCAGTATTAAGAAAAGAAAAACATAGGAATTTAGCAAATAATCAATCCGTATAA	MHNKKWDLRIIYAHAFTILIWGTAFPAIRMGLESYTPEHLTLLRLLIASFILLLFSFIYKLRLPDLKDIPAIFMFGALGFTFYHIALNYGEKTVNAGSASLIVSVTPIVTAILASIFLNEKMKLNGWIGGVISFIGIALISFSQGDSIQLNSGGLFILFAAISESLYFVFQTSYLKKYGFLPFTIYTILSSTVCMLIFLPGMYQEILAAPLEVNVSVLYLGLFPTVLPYIALAYIISHAGAAEATSMRYLTPVTACFIAWLWLGEVPTLVSIIGGGITILGIVIAHIPVLRKEKHRNLANNQSV				NA	NA	NA	NA	NA
AK009_01239	1362			Endoglucanase	ATGAATGGAAAAAGAAATATTTTCACATGTATTTCTATTATAGGAATCGGTCTAGCTAGTTTTTCTAGTTTTAGTTTCGCAGCAAATGTAACGGACAATTCAGTACAAAATTCTATTCCCGTAGTTAATCAACAAGTAGCTGCTGCAAAGGAAATGAAACCATTTCCCCAGCAAGTTAATTATGCAGGTGTTATAAAACCTACTCATGTTACACAGGAAAGTTTAAATGCTTCTGTAAGAAGTTACTACGATAATTGGAAAAAGAAATATTTGAAAAATGATTTATCTTCTTTACCTGGTGGTTATTACGTAAAAGGAGAGATTACGGGTGATGCGGATGGGTTTAAGCCACTTGGAACTTCAGAAGGTCAAGGGTATGGGATGATAATTACAGTATTAATGGCTGGTTATGATTCGAATGCTCAAAAAATCTATGACGGTTTATTTAAAACAGCAAGAACTTTTAAAAGTTCTCAAAATCCTGATTTAATGGGATGGGTTGTTGCAGATAGTAAAAAAGCACAAGGTCATTTTGATTCTGCTACTGATGGGGATTTAGATATTGCGTATTCTCTTCTTCTTGCTCATAAGCAGTGGGGATCTAATGGAACAGTTAATTATTTGAAAGAAGCACAAGACATGATTACAAAAGGTATTAAAGCTAGTAATGTTACAAATAATAACCGACTAAATTTAGGAGATTGGGATTCTAAAAGTTCACTTGATACGAGACCATCTGATTGGATGATTTCACACCTCAGAGCATTTTATGAATTTACAGGTGATAAAACTTGGCTTACTGTTATTAATAATTTGTACGATGTTTATACGCAATTTAGTAATAAGTACTCTCCAAATACAGGACTTATTTCAGATTTCGTTGTAAAAAACCCACCACAACCCGCACCTAAAGACTTCTTAGAGGAGTCAGAATATACAAATGCATATTATTACAATGCTAGTCGGGTACCATTGAGAATTGTAATGGACTATGCGATGTACGGCGAGAAAAGAAGTAAAGTCATTTCTGATAAAGTCTCTTCATGGATTCAAAATAAAACGAATGGAAATCCTTCTAAAATTGTGGATGGTTATCAATTAAATGGATCTAATATTGGTAGTTATTCAACTGCTGTATTTGTTTCACCGTTTATTGCTGCAAGTATAACGAGTAGCAATAATCAAAAGTGGGTAAATAGCGGTTGGGATTGGATGAAGAATAAGAGAGAAAGCTATTTTAGTGATAGTTATAATTTATTAACTATGTTATTTATTACAGGAAATTGGTGGAAACCTGTACCTGATGATAAAAAAATACAAAATCAAATAAATGATGCAATTTATGAAGGATACGATAATTAA	MNGKRNIFTCISIIGIGLASFSSFSFAANVTDNSVQNSIPVVNQQVAAAKEMKPFPQQVNYAGVIKPTHVTQESLNASVRSYYDNWKKKYLKNDLSSLPGGYYVKGEITGDADGFKPLGTSEGQGYGMIITVLMAGYDSNAQKIYDGLFKTARTFKSSQNPDLMGWVVADSKKAQGHFDSATDGDLDIAYSLLLAHKQWGSNGTVNYLKEAQDMITKGIKASNVTNNNRLNLGDWDSKSSLDTRPSDWMISHLRAFYEFTGDKTWLTVINNLYDVYTQFSNKYSPNTGLISDFVVKNPPQPAPKDFLEESEYTNAYYYNASRVPLRIVMDYAMYGEKRSKVISDKVSSWIQNKTNGNPSKIVDGYQLNGSNIGSYSTAVFVSPFIAASITSSNNQKWVNSGWDWMKNKRESYFSDSYNLLTMLFITGNWWKPVPDDKKIQNQINDAIYEGYDN	PGPT0012170_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
AK009_01240	924	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	TTGGAAAAAGTATTATTTTTCGGAGACCCAGGTATTGATGACTCATTTGCCATTATGTATGGTTTACTGCATCCCGAAATTGAAATTGTAGGTATTGTAACTGGATACGGAAATGTTGAGCATATACATGCTGCACATAATGCAGCGTATATTTTACAGTTAGCAAATAGACAAGACATTCCTGTCATTAGTGGTGCAACAAAACCACTTACAGAAGAAATTACTACGTACTACCCTGAAATTCACGGAGCAGAAGGATTAGGGCCCATCCATGTTCCAGAAAGCGTATTATCTATTCCAATATACAATTTTGGTAGTATCGCTGCGATTCTTGTAAAGTACGGAAAAGATTTAACGATTGTTGATGTAGGAAGATCTACCTCGTTAGCAATTGCTTTTAATTTATGGAATGATTTAATGCTAAATGTAAAAGCAATATATTTCATGGGTGGTGTTTTTTTAGAAGTAGGAAACGTTACGCCGTTAGCAGAGGCAAATGTGTATGGAGATCCGATAGCAAGTAAAATTGTTTTCCATCAAGCAAAGAATTTATTAATATTCCCTTTAAATGTAACAAACAAAGCTGTGTTAACACCAAATGTATTTAGCTATATTCAAGCTAATACAAAGAATCCATTTCATATGATAATGAAACCAATGTATGACTACTATTTATCTGCATACCAAAAACTTAATCCATCTATCGAAGGACCTTTGCTACATGATGTGGTTGCAATAAGTGGATTAGTAAATCCAAGTTTTTTTGAATTTGTGCATCGTACAGTAAATGTAGATACATACGGAGGTACGAAAGGACAAACATTTGCTGATTTCCGCCCTAGCTCTATACCTGAAGGGGCCCATATAGCATTAGAAATAGATGAACAAAAATTCATTCAAGATTTTATAAAAATCATGTTATAA	MEKVLFFGDPGIDDSFAIMYGLLHPEIEIVGIVTGYGNVEHIHAAHNAAYILQLANRQDIPVISGATKPLTEEITTYYPEIHGAEGLGPIHVPESVLSIPIYNFGSIAAILVKYGKDLTIVDVGRSTSLAIAFNLWNDLMLNVKAIYFMGGVFLEVGNVTPLAEANVYGDPIASKIVFHQAKNLLIFPLNVTNKAVLTPNVFSYIQANTKNPFHMIMKPMYDYYLSAYQKLNPSIEGPLLHDVVAISGLVNPSFFEFVHRTVNVDTYGGTKGQTFADFRPSSIPEGAHIALEIDEQKFIQDFIKIML	PGPT0013465_2635	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_01241	288			hypothetical protein	TTGAATGTCCAGTTAAAGGTTGTTACGAGAGAAAATTGGGAAGAAGCATTAAAGCTACAAGTTAAAGAAAATCAGTTGAAATTTGTTCCATCCGTAGCAGTTTCGCTTGCTAAAGTATATATAAAACCAGATGGTGACAATGTAGAGTACATACCATTCTCTATATACGTTGGTGACCTTATGGTTGGTTTTGTAATGCATGCAGTTGTAAGAGAGACATCAGATATGTATTGGATTAACGGATTTATTATTGATCAAAAGCAGCATTACAAGAAAGTATTAATATAA	MNVQLKVVTRENWEEALKLQVKENQLKFVPSVAVSLAKVYIKPDGDNVEYIPFSIYVGDLMVGFVMHAVVRETSDMYWINGFIIDQKQHYKKVLI	PGPT0007790_2207	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
AK009_01242	348		COG0327	GTP cyclohydrolase 1 type 2	ATGCAATTTACTGAAGTGAAAATTGAAGTGTTCATTCCTGAAGAATATATTGAAACATTAAGGGATGAATTAAATAAAATTGGAGCATGTAAAACGGGCGAATATGACCATTGTCTTTCCTATAGTTCAGTGAAAGGATATTGGAGACCGTTAGACGAGGCATCTCCTTTTAATGGAGAAATTGGTCGAATATGCGAAGGGCAAGAATGTAAAGTTGAAATAAAGTGTAAACGAGAACTTGTAAAAGATGCTCTTGAAGTTATTAATGATATTCATCCGTATGAAACACCTATGATTTATATTATACCAATACTAAATGACTATTTTGAGCAACTATACATTGAATAA	MQFTEVKIEVFIPEEYIETLRDELNKIGACKTGEYDHCLSYSSVKGYWRPLDEASPFNGEIGRICEGQECKVEIKCKRELVKDALEVINDIHPYETPMIYIIPILNDYFEQLYIE				NA	NA	NA	NA	NA
AK009_01243	447			hypothetical protein	TTGAAAAGTAAATTACATCATATTGTACGAGCAGTCATGATAAAAGATGAAAAATTATTAGTTGCTGAATATATTGGCCATCATTATTTTTTACCTGGTGGCCATGTTGAAATTGGAGAATCAGCAGAGAATGCATTAATAAGAGAGTTAAGAGAAGAACTTGGAGTAAACTGTAGTATACAACAATTTTTAGGAGTCATAGAAAATCAATGGCAAGATAAAGAAGTGCTTCATCATGAAATTAACCACATTTTTGAAGTAGAGTCACAAGATTTACATACGGACTTACCACCGAAATCTAGCGAGTCTCATTTAGCATTTCAATGGATAGATTGTAATAAAGAAGCCATAAATCATTATGAAATCATGCCAATGCCTTTAGTGAAGGAATTACTAGAAAGAAAGTTAAGTGATGAACTACTAAATTGTTGGATTAGTAATTTTTAA	MKSKLHHIVRAVMIKDEKLLVAEYIGHHYFLPGGHVEIGESAENALIRELREELGVNCSIQQFLGVIENQWQDKEVLHHEINHIFEVESQDLHTDLPPKSSESHLAFQWIDCNKEAINHYEIMPMPLVKELLERKLSDELLNCWISNF				NA	NA	NA	NA	NA
AK009_01244	261			hypothetical protein	ATGAATCAGTTTCAACATGAACTACAAACATTAAATCTTAATGATTATCAAACTGGTAATGTTGTGTATTGGGATCAACAACAAAGTCAATATCCATACTACTACATTCAAGACGATGCACGTCGTTGCGGAGGATGCGGAGGTTGTGGTGGACGCTGTGGCGGTTGTGGCGGCGGTAGATGTGGTGGCTGTGGTGGACGTTGCGTAGGTTGCGCTGGTTGTTTTGGTTGCTTTAATTGCTGGAACTGGTGGATTATTTAA	MNQFQHELQTLNLNDYQTGNVVYWDQQQSQYPYYYIQDDARRCGGCGGCGGRCGGCGGGRCGGCGGRCVGCAGCFGCFNCWNWWII				NA	NA	NA	NA	NA
AK009_01245	1017	dap_2		D-aminopeptidase	TTGTATACATACGAAAAGTTGATTTCTTGGGTAGAAAATATAAAAGAAAAAAATCAAAGTTCTGCTGCAGCACTTTGTATTATAAAAGATAATAAAATCGTGCTAGAGCATTATAGTGGTTATCACTCAAATACATCTACAAGCAAGAAAGTAACAGCACCTTCACAATTTAACGTTGCTTCTGCTAGAAAAAGTTATTTAGGATTAATAATAGCGTATGCGCTTTATGAGGGGAAAATAAACTCTATTGATGATGAAGCGATAAAATATTTTAAAGACTTTGATCCTGTATTGCTTGGTAAAACGACGATAAGACATTTAGTAACACATTCGCACGGATTAGAAGAAACGAATGACGGGACAATTTTTCGTGAATTTGAACCGGGACAATCATGGGCGTATAGAGATATTAATGTAAGAATGATGACACTTCTTATTTATCAGCTATATAACAAAAGTTTTCCTGAATTGTTAAAAGAGCGTGTTTTTAAACCTGCTAAATTTCAAGAAACAGGATGGAGAATACAGCAAGATGAAAATTTGGTTGAAATTATTAATAATCCAAATGAAGACCCGATAAGTGGAATTGGTACAGTAAATGATGGTACTGAAAAAAATCTATTTGTCTCAGCTAGAGAATTTGCGCAGTGGGGCAATCTTCATCTAAATCAAGGCATGATACATGATAAACAAATCGTTCCAAAAGAAGTTATAAAAATTGCTACGAGTTTGCAGAGTCCAACATTTATAAACAAAGAGCTACCACAAAATGGGGTGTTTTGGTTCATCCAAAATGAGCCTGCACAATTAAGCGAACTTGGTGAACGTATTCCAAAAGGGTCGTATCAAATATTAGGGATTACTGGACCGACTATTTTAGTAATACCTGAATATAATGTAGTTGTTGCAAAAATGTATAATAAAAGATATAACTACGGCGGTGATAATTACTTATATTATTTACGTGAATTTAGTAATTTAGTCGCTGATACATTTAGTAACCGTATTAGGGCATAA	MYTYEKLISWVENIKEKNQSSAAALCIIKDNKIVLEHYSGYHSNTSTSKKVTAPSQFNVASARKSYLGLIIAYALYEGKINSIDDEAIKYFKDFDPVLLGKTTIRHLVTHSHGLEETNDGTIFREFEPGQSWAYRDINVRMMTLLIYQLYNKSFPELLKERVFKPAKFQETGWRIQQDENLVEIINNPNEDPISGIGTVNDGTEKNLFVSAREFAQWGNLHLNQGMIHDKQIVPKEVIKIATSLQSPTFINKELPQNGVFWFIQNEPAQLSELGERIPKGSYQILGITGPTILVIPEYNVVVAKMYNKRYNYGGDNYLYYLREFSNLVADTFSNRIRA				NA	NA	NA	NA	NA
AK009_01246	144			hypothetical protein	GTGAAAGATAAAGTGAACAAAAATAAAAAGCAAAATATAAAAGATGTAAATACAGAGCAAAATGCAATTTATAGCGATCCTAAAGATGCAGCTAATATGCAAACTGTACCGCAGCCGAAAGATTTTGATGAAATCGAATATTAA	MKDKVNKNKKQNIKDVNTEQNAIYSDPKDAANMQTVPQPKDFDEIEY				NA	NA	NA	NA	NA
AK009_01247	1209	yhjX_2		putative MFS-type transporter YhjX	ATGAAACAAAGTTCTATAAATCCGTTACTAATTGTTCTAGGTACAATCATTGTTCAAATTGGCCTTGGAACAATTTATACATGGAGTTTATTTAATCAACCCCTTGTAAGTAAGTTTGGATGGAATCTTAATTCAGTAGCGATAACTTTCTCCATAACAAGTTTTTCTTTATCATTCTCAACTTTATTTGCAGCAAAGTTGCAGAAAAAATTAGGACTTCGAAAACTTATTGCTACTGCAGGAATTGTTTTAGGACTCGGCTTAATACTTAGTTCACAAGTTTCTTCTTTACCACTATTATATTTATTAGCTGGTGTCGTTGTTGGTTATGCGGATGGAACAGCTTATATTACATCACTATCTAATTTAATTAAATGGTTTCCAAATCGGAAAGGGCTTATTTCAGGTATATCTGTATCAGCGTATGGAATGGGCAGCTTAATCTTTAGATATATAAACGGAAATCTTATCGATAACCTTGGTGTATCACAAGCATTCTTATATTGGGGTATTATCGTGTTACTTTTAGTGTTAATCGGATCGTTCTTCTTACGTGAGGTAATTGTAAGTAATGCTGTAACTGAAACATTACACAATGACTATACTCCGCGTGAAATGATGCGAACGAAACAAGTATATCTCCTATTTTTTATGTTATTCACCTCGTGTATGGGTGGTTTGTATTTAATAAGTATGGTAAAAGATATCGGCGTACAACTCGTTGGACTTAGCGCAGCAACCGCTGCAAACGCCGTTGCTATGATTGCAATCTTTAATACAGTAGGTAGAATCATTCTTGGGACGTTATCAGATAAAATCGGCCGAATGAAAATTGTCTCTGCAACGTTTATTATTATAGGATTGTCAGTCTTTACTTTAAGTTTTATTCCGCTAAATTACGGAATCTATTTTGCTTGTGTAGCAAGTGTCGCCTTTTGCTTCGGTGGTAATATAACTATATTCCCAGCTATTGTCGGAGATTTCTTTGGATTAAAAAACCATAGTACAAATTACGGCATTGTCTACCAAGGTTTCGGATTTGGTGCGCTTGCAGGATCATTTATTGGAGCGATACTCGGGGGATTTCAACCAACTTTCATTATAATCGGTGTTTTAAGTGTTATTTCCTTCATTATTTCAATATTAATCCGTCCACCAACTGCAGAAAAGAAAAAGGAACTAAAACATTTACATCGGAAAGTTGCTTAA	MKQSSINPLLIVLGTIIVQIGLGTIYTWSLFNQPLVSKFGWNLNSVAITFSITSFSLSFSTLFAAKLQKKLGLRKLIATAGIVLGLGLILSSQVSSLPLLYLLAGVVVGYADGTAYITSLSNLIKWFPNRKGLISGISVSAYGMGSLIFRYINGNLIDNLGVSQAFLYWGIIVLLLVLIGSFFLREVIVSNAVTETLHNDYTPREMMRTKQVYLLFFMLFTSCMGGLYLISMVKDIGVQLVGLSAATAANAVAMIAIFNTVGRIILGTLSDKIGRMKIVSATFIIIGLSVFTLSFIPLNYGIYFACVASVAFCFGGNITIFPAIVGDFFGLKNHSTNYGIVYQGFGFGALAGSFIGAILGGFQPTFIIIGVLSVISFIISILIRPPTAEKKKELKHLHRKVA	PGPT0017235_1395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
AK009_01248	426			Acetyltransferase	ATGAAAATAGTACAGCAGTGGGTACAAGAAGATAGTGATTACATAAGAGAGAAAGTAATTGAATATAATCAAAAATATCTCGCAGATGAAGAAAAAACACCTTCAGAAAAGGTTAGTTTCATAGTAAGAAATGAAAAAGAAGAAATCGTAGGTGGGGTAACAGCAATAATTTTTTGGCACCATGTACACGTTGACTTTCTATCGGTTTCTGAAGAATATAGGCATGAAGGTTACGGAAACAAGTTAATAAAGCTTATTGAAGAATTTGCAATTGAAAAAGGGTGTAGGTTAATTAATTTAAATACCTTTAGTTTCCAAGCTCCTGATTTTTATAAGAAACATGGATATAAAGTAATTGGAGTAAGTGAAGATCATCCGAAAGGACATAATCATTATTATTTAGAAAAACGGCTAAAAAGTATATAG	MKIVQQWVQEDSDYIREKVIEYNQKYLADEEKTPSEKVSFIVRNEKEEIVGGVTAIIFWHHVHVDFLSVSEEYRHEGYGNKLIKLIEEFAIEKGCRLINLNTFSFQAPDFYKKHGYKVIGVSEDHPKGHNHYYLEKRLKSI				NA	NA	NA	NA	NA
AK009_01249	444	nudC_2		NADH pyrophosphatase	ATGAAAAAAGTTAATGTTACATACGCGATTTTGTACGATAAAACTAATGAAAAGATCTTAATGGTAAAAAACAAAGGGGAAAATGGTTCTTATTATACATTACCGGGTGGCGCAGTTAAATTAGGAGAAACCTTAGAAGAAGGAGTAATTCGGGAAGTAAAAGAAGAAACAGGGTTACATATAAACGTAAAAGGGATTTGTTCTATCAGCGAAGCCTTTTTCGAGGAAAGAGATCATCATGCAATTTTCTTTAATTTTCTAGGCGAAATAATCGGCGGGGAGACATATATATCAAGACCAAAAGAAATCGAAGAGATTACTTGGATGGAATTACATATAGCAGCACCGTATTTACGCATACCAGAACATTTACTAGATTTATTACAAAAGAAAGAAACAGTACCTTATTTTTTTAACGGAACAATCGTTCATCAATCTTCATAA	MKKVNVTYAILYDKTNEKILMVKNKGENGSYYTLPGGAVKLGETLEEGVIREVKEETGLHINVKGICSISEAFFEERDHHAIFFNFLGEIIGGETYISRPKEIEEITWMELHIAAPYLRIPEHLLDLLQKKETVPYFFNGTIVHQSS				NA	NA	NA	NA	NA
AK009_01250	1131	dnaN_1	COG0592	Beta sliding clamp	ATGGAGTTCATCGTTAATCACAAACAATTTACTCAAGCACTTTCAGAAGTTAACAAAGCGATATCAACAAAATCTTTAATTCCTATATTATCTGGTATAAAAATAACTGCAGATCAATCTGGAATTACTTTAATTGCAAGTAACTCGAATATTTTTATTGAAAAATTCATTCCTGTTTCAATTGAAGACGAAAAAATTGCAACTATTTTAAAGGCAGGAACTATTGTTGTACCTGCAAAGTATTTCATTGAAATAATAAAGAAAATGCCAAGTGATATAGCAATAAAAAGTAAGAATGAGCAAATTATTAAGATACAATCAGAAGAAATCACATTAAGTTTAAATGGATTTCCTGCAGATGAGTTTCCGAATGTACCGCTTATAGACAATCATGCAGAAATCAAGGTAGAGACTGAGCAATTGATTGAAGTATTTAAACAAACAGTCTTTGCGGTAGCGAAAAATGAATCTAGACCTGTTCTTACTGGGGTGCATATAGAGTTATCTAATAATAAGTTTATTTGTGCTGCAACTGACTCACATAGACTAGCGATACGTGAAACGCGACTTTCCTCAGATGTAAAAGCAAATTGTATTGTACCAAGCGCAACCATTAGTGAACTTCTAAAATTAATGAACAGCAATTCGGAATTCGTATATATTTACCTTTCAGAGAGTCATATTATATTTACGCTTGGAACAACTACATTATATTCAAGACTAATTGAAGGGAAATATCCTAATATTTCTAACCTTATTCCAAATGACTTTAAAACGATTATTAACATAGATAGAAAAAAGATATTACAAGGTGTAGACCGATCAAGTTTATTAGCAAGTGAATGGGCCAATAACAATGTTAACTTAGAAATCATAAACGAATCTACAATTAAAATTTCTTCAAACGCTTCTCAAATTGGGCAAATATCCGAAACGCAACAAATAGATGCGATTCAAGGTGAAAAACAATTAAATATATCTTTCGATGGGCGTTTTATGGTTGATGCTTTAAGAGCAATAAAAGAAGAAACGATTACTTTAAGCTTTGGCGGTTCTATGAGACCGATATTGATTGAAGCAGGAGAGCAATCTGCAGCAATCCATCTTATATCTCCAGTAAGAGCTTATTAA	MEFIVNHKQFTQALSEVNKAISTKSLIPILSGIKITADQSGITLIASNSNIFIEKFIPVSIEDEKIATILKAGTIVVPAKYFIEIIKKMPSDIAIKSKNEQIIKIQSEEITLSLNGFPADEFPNVPLIDNHAEIKVETEQLIEVFKQTVFAVAKNESRPVLTGVHIELSNNKFICAATDSHRLAIRETRLSSDVKANCIVPSATISELLKLMNSNSEFVYIYLSESHIIFTLGTTTLYSRLIEGKYPNISNLIPNDFKTIINIDRKKILQGVDRSSLLASEWANNNVNLEIINESTIKISSNASQIGQISETQQIDAIQGEKQLNISFDGRFMVDALRAIKEETITLSFGGSMRPILIEAGEQSAAIHLISPVRAY				NA	NA	NA	NA	NA
AK009_01251	513	mutX_1	COG0494	8-oxo-dGTP diphosphatase	ATGTACAAGCACACTTTATGTTTTATAAAAAGAAATGAAGAGATACTTATGTTAAATAGAGAATATGATCCGGTAAAAGGATTATGGAATGGGGTAGGAGGAAAGATAGAAAAGGGAGAAACACCTTTAGAAAATGCGATTCGTGAAATAAAGGAAGAGACTAATATAAAAGTTACGTATGACCAAATTCAATTTAAAGGCATTATTAAATGGGAGGATTCTTCATATTCTGGCGGTATTTATGTTTATCTAGTAGAGTTACTTCATGAATTTACATATCACACTCCAAAAAAAGTCGCAGAAGGAATTTTAGATTGGAAAGAGGTTTCTTGGATTCTTAGTGACTATAATTACGGTGTAGGAGAGATGATACCTAAATTTTTAGTTGAAGTGCTCCACAATGAATTAATATTAGAGCATAATTTTATTTTATCTAATCATAAATTAATAGATTATAGGAATAAAGAATTAGCTAAGCAGGACAACTCTATAGATAATATAATTCCATTATAA	MYKHTLCFIKRNEEILMLNREYDPVKGLWNGVGGKIEKGETPLENAIREIKEETNIKVTYDQIQFKGIIKWEDSSYSGGIYVYLVELLHEFTYHTPKKVAEGILDWKEVSWILSDYNYGVGEMIPKFLVEVLHNELILEHNFILSNHKLIDYRNKELAKQDNSIDNIIPL				NA	NA	NA	NA	NA
AK009_01252	939			hypothetical protein	ATGAGGATGAGTGTGATGAAGAAAATAATTATTTTACTCATAGGTATCGTTTTAATTACTATTGCTTTTTATCAATACAACAAAAAAGAAGGTTTAGCTAAAAATGATAAGGTGTATGTAGAAGACTTTAAAGGTAAAAATGATTCAAACAAAATACAATCTGCTATTAATAAAGCAGAATCTAGTAAAATTAAAACAGTATTGCTTGATGATAAGAAGTATAAAATTACGTCACCAATCGTAGTGAAACAGGGTGTAAAGTTATTATTTGGTTATGGAACACAATTTGTTGTTGAAGGTAATTTTAGAGTTCTAGAATTAGAAAAAAACGCTTCTATTGAAGGAGCTTATATAGCTATAGATGATCCTAAATTTAATTCTGAAGTTATATATTTAGACGGAAAAAATAAGTATTATAACACTTGGCACAAAACACAAATAAAAGATATAAATATTATCAATTGGACAGAAACGAATAAAGGTACCGGCATTTCTTTGTATTCTGGTGGGAAGGAAAATGAAATTTCATTTATTAATTTTGAAAATATAAAAGTTGTAGGCATGGAAACTGGGGTGAAATTAGTAGCAAAGAAACCACAATCTGGACATGCATGGATAAATGCCAACCGTTTTATGAACTTCTCTCTCGAAGATTGTGTAAATATGATTTTTATGGATAGTAATGTAACAACGCCAAATGAAATTAGTGGTAACCTATTTACAAACCTTCAAATACAACCTACAAATAAAACGAAAAGTATTGTAAAGGTAAGTGGACAGCATAACGAGTTCCATGGAATGGTGTGGGATTTACAGAAAATCAATCACGAAAACGAACTCATTGAACTAACTGATAAAAGTATGAATACAGTGATTGAAATGTCCAGTGTACCAGCAAATAGAATTTTAGATAGCGGGAAATCAAATATAGTGAAATAA	MRMSVMKKIIILLIGIVLITIAFYQYNKKEGLAKNDKVYVEDFKGKNDSNKIQSAINKAESSKIKTVLLDDKKYKITSPIVVKQGVKLLFGYGTQFVVEGNFRVLELEKNASIEGAYIAIDDPKFNSEVIYLDGKNKYYNTWHKTQIKDINIINWTETNKGTGISLYSGGKENEISFINFENIKVVGMETGVKLVAKKPQSGHAWINANRFMNFSLEDCVNMIFMDSNVTTPNEISGNLFTNLQIQPTNKTKSIVKVSGQHNEFHGMVWDLQKINHENELIELTDKSMNTVIEMSSVPANRILDSGKSNIVK				NA	NA	NA	NA	NA
AK009_01253	963		COG2220	putative protein	ATGAATAAGAAATATACAAATCAAATTCATACTGATATGAGTTTTAAACCGAAAGATATTATAAGTTTAATGACGGATTACTTTAAAATAAAATCAAAGCTGCGTCCTATAAAAGGTTTGCCTATCGTTTTATCAAATAAAGATAATGAACCGTTAGAGAGTGTTACATGGTTTGGCCATTCTGCTTCTCTTTTGAAAATAGAAGGTAAAAAACTGTTATTAGACCCTATGTTTGGAGATGCCTCTTCCCCATTTCCTTTGTTTAATAGTAAACGCTATAGTGGTGTTTTTTCTTTAGAACGTGATGACCTTCAAGAAATTGATGCGATTATCATTTCTCATAATCACTATGATCATTTGAATTACAAAAGTATTATGCAGTTAAAAGATCGCGCAAAGCACTTTTATGTTCCAACTGGAGTTGCACAATATCTTATTAAATGGGGTGTTTCGCCTAGTAAAATTAGTGAGCATAATTGGTGGGACGAAATTACGTTTGATAATATTAAGTTAGTATGTGCGCCTGCAAGGCATTTCTCTGGACGAAGTATGACAGATAGAGATTGTTCATTATGGTGTTCATGGCTTATCCTTGGTCAAGAGACTAAAATTTTCTTTAGTGGCGATAGCGGTTATGCCCCTCACTTTAAGGAAATTGGTGATAAATATGGTCCATTCGATCTTACATTGATGGAATGCGGACAATATGATCCGAGGTGGTCTGCGATTCATATGTTGCCTGAAGAAACTGTACAAGCTCATATTGATGTACAAGGAGAATTACTTCTTCCGATTCATTGGGGTGCTTTTACATTAGCATTACACGAATGGAGTGATCCGATAGAGCGTGTTACGAAAGAAGCTAACCGTTTAGAAGTTAAAATTACAACGCCCCAAATTGGCGAATCTATTACGTTAAAATCTACAAACTATCCTTCAACAGCTTGGTGGAGAGAAATTTAA	MNKKYTNQIHTDMSFKPKDIISLMTDYFKIKSKLRPIKGLPIVLSNKDNEPLESVTWFGHSASLLKIEGKKLLLDPMFGDASSPFPLFNSKRYSGVFSLERDDLQEIDAIIISHNHYDHLNYKSIMQLKDRAKHFYVPTGVAQYLIKWGVSPSKISEHNWWDEITFDNIKLVCAPARHFSGRSMTDRDCSLWCSWLILGQETKIFFSGDSGYAPHFKEIGDKYGPFDLTLMECGQYDPRWSAIHMLPEETVQAHIDVQGELLLPIHWGAFTLALHEWSDPIERVTKEANRLEVKITTPQIGESITLKSTNYPSTAWWREI				NA	NA	NA	NA	NA
AK009_01254	996			hypothetical protein	GTGCACATAGAGCGAAAAAAGAAATCAAAATGTAAACTATCAAAATCTGAAATCATGCATTTGTATACTGAAGGGAAGAGCACCTCAGAAATCGCTGTGCTTGCTAATGTGTCTGCAAGGTATATTCGTATGGTTTTATCAGACAATAACGTACCAAGGCGCGCTATAGGGAGTTGGAAGAGAAAGTATGACATAACAGAAGATTACTTTAAAACGTGGTCAAACAATATGGCTTATATTTTAGGGTTTATAGCAGCAGATGGTGTTATACAGAAAGAAAATCAATGTGTCAGTATATCTCAAAAAGAAAGTTATATTTTAGAAAATATAAAAAAAGAACTAAAAACAAACCAGCCACTTTATCAAAACAAAAAAACAAGCGTATACATGCTAAATATTAATAGCAAAACAATAAAAGACGACCTTATGAACATACACGGAATTATGCCATGTAAATCATTTAACATCGAATTTCCTTTTGTACCAGAAGAATATTTGCATCATTTTGTTCGTGGGTATTTTGATGGGGATGGTTACGTCAAGTATGAAACTTATACAGTTAATTTCGTAGGTGGATCATATAACTTTATGAATTCTTTACATCAAATTCTTCAAAATCGCAATTTACGAGCCGATTTACTAAATCAAAACAAACATTATCGCGTTATTTTATCTGGAAGAAAATCAATACAACTATTTTCAAATTGGATTTATAAAGACAAAGATATTTATTTGCATAGAAAATATGAAGTGTTTCAGAGAGAAAGTCTGAGTTTAGATCAATTACAAGATCGAAAATTAAAACAAACTCAAACTGCCGTTAAACAAAGAAAACAAAATTTCCTTGAAGAATATATGAAAAATAAATGTAATGCTACAACTTGTTCAAATTTAGAAATAAGTGAATCGGCTTTCAAACGTTGGCTAAAAAATGATAATCAATTTAAAAGAGATTATGAAAAGATTAATTTAACAATGTCCACTAGGGATAACTAA	MHIERKKKSKCKLSKSEIMHLYTEGKSTSEIAVLANVSARYIRMVLSDNNVPRRAIGSWKRKYDITEDYFKTWSNNMAYILGFIAADGVIQKENQCVSISQKESYILENIKKELKTNQPLYQNKKTSVYMLNINSKTIKDDLMNIHGIMPCKSFNIEFPFVPEEYLHHFVRGYFDGDGYVKYETYTVNFVGGSYNFMNSLHQILQNRNLRADLLNQNKHYRVILSGRKSIQLFSNWIYKDKDIYLHRKYEVFQRESLSLDQLQDRKLKQTQTAVKQRKQNFLEEYMKNKCNATTCSNLEISESAFKRWLKNDNQFKRDYEKINLTMSTRDN				NA	NA	NA	NA	NA
AK009_01255	396	yabJ_1	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	TTGCAAAAGAAATTTATCAATCCAGAAACGATGCCACCAACTTTTGGATATTCACATGTAGTGGAAGTTAGTAACGCTAAACGAACAATTTACATATCTGGACAAGTAGCGATTAACACTGATGGTCAAATAGTTGGCATTGGTGATTTAGCTACACAAACGCGACAAGTTTTCGAAAATATTAAAAGTGCATTAGAAACTTCGGAATTAAGATTTAATGATGTAGTAAAATTAACATTTTTCCTAACAGATATTTCTCAAATGGCCATGGTTAGAGATATACGAGATCAATACGTTGATACTAAGAATCCACCAGCAAGTTCAGCTGTCGAAGTTAGAAAGTTAATTAACGATAACTTATTAATTGAAATTGAAGCAATTGCTATAGCAAACTAA	MQKKFINPETMPPTFGYSHVVEVSNAKRTIYISGQVAINTDGQIVGIGDLATQTRQVFENIKSALETSELRFNDVVKLTFFLTDISQMAMVRDIRDQYVDTKNPPASSAVEVRKLINDNLLIEIEAIAIAN	PGPT0020030_231	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
AK009_01256	816	ywqG	COG3878	putative protein YwqG	GTGAAGAATACGTATCAACTTCAAATTCCGAAAGAACTAGAACAGTATCGTAGTATTTTAGAAGAAAGTGTGAAACCGTATGTTAAAGTGTCTGGAACATTAGCAGAGACAACGCTTTTTGAAAGTAAGTTTGGTGGTTATCCGTATTTACCTATAGATCAAGAGCATCCTAAAGACTCAAATGGACAACCTATGATGCTACTTGCGCAGTTAAACTTTGAAGAAATGCCGCATGTTGAATATATGCCTCAAAAGGGATTGTTACAGTTTTTCGTAAGTCCTGAAGAAGATCTTTTTGGAGCAGATTTTGATCATCCCACAAGCCAAAAAGACTTTCGAATTGTTTATCATTCTACAATCACAGCGGATTTAACTAAGGTGATTACTGATTTTAGTTATTTAAACACTTTACATTTAGAGAATTTTATCATACCCGAAGCAGCAAAACTAAAGTTTGAGTTGGCATATCAACCAGTAACACCAAGAGATTATCGATTTGAAATGATTTTTAGTGATAACATTGATTGGGAAGAGATTGTTGATGAAGAAAATAATATAGAATTAGGCGAACTGTATGATGATTTATGTAAAGATCAAGGACATAAAATTGGTGGATATCCATTTTTCACACAGACAGATCCGAGAGAATGGGAAGAAAAATACCAGCAACATGACATATTATTGCTGCAAATCGATACAGACGATTCATTAAATATTATGTGGGGCGATTCTGGGGTTGCTAATTTCTTTATACGTAAGGAAGAGCTGTTAAATCTAGATTTTTCCAATGTCATTTACAATTGGGATTGTTACTAG	MKNTYQLQIPKELEQYRSILEESVKPYVKVSGTLAETTLFESKFGGYPYLPIDQEHPKDSNGQPMMLLAQLNFEEMPHVEYMPQKGLLQFFVSPEEDLFGADFDHPTSQKDFRIVYHSTITADLTKVITDFSYLNTLHLENFIIPEAAKLKFELAYQPVTPRDYRFEMIFSDNIDWEEIVDEENNIELGELYDDLCKDQGHKIGGYPFFTQTDPREWEEKYQQHDILLLQIDTDDSLNIMWGDSGVANFFIRKEELLNLDFSNVIYNWDCY				NA	NA	NA	NA	NA
AK009_01257	408			hypothetical protein	ATGAATCAGGAAGAACTCGATAAAAAATTAAAGAAACAAGAGATTTTAGTAAAAGATGAAAAAGTTTGGTCGTATACGTATGAGGATCATATTAGTTCTATCGTTAAACAAGCAGAACAGAAAGGAGCTTTTGATAATTTACCTGGTAAAGGTAAACCTCTTAATCTCGATAAAGATCTTTCTTACAATCCTGAAAAGCAACTTTATAGAACTTTAGCAAATAATCATATTTTGCCTAGGTGGATTGAGCTTTCAAAAGAAATTGAAGATTTAAAAGAAAGACTAAAAGAAAATACAAATACGGCAGAAGCAGCGGAATTAATTCGAACTATCAATAAAAAGGTTTTAGAGCATAATTTACTTTGTCCGACAAGCGCGCAAAAAATGAGGGTGAAAATGGATTTTTAA	MNQEELDKKLKKQEILVKDEKVWSYTYEDHISSIVKQAEQKGAFDNLPGKGKPLNLDKDLSYNPEKQLYRTLANNHILPRWIELSKEIEDLKERLKENTNTAEAAELIRTINKKVLEHNLLCPTSAQKMRVKMDF				NA	NA	NA	NA	NA
AK009_01258	366			hypothetical protein	ATGAAAAACGTATCAAATATAGATAAAGTAGAATCAATAAAATCTTTACAGTCAACAATTAGTAAACTTGAAAATGCCTTATCACAGATGACTCAAAAAGGATCAAATACTACTTTAGTGAAAAAAAGACTCAAAGCAGCTAGTATCGGCTTAGCTATGTTAGAAAGTGTTTGGAAGCAAGAAACTCATCATTATACTCAGGAAGATTTAGCAGAAGCTCGTAATGTTCTGATTGGTTTGCTTCCATCAATTGAAAAGATTTACGTTAAGTCAAAGCTTGGGAGTCCTCAAAGAACGCTTTTAGAAAGAAGAATAAAATCGTTTGAACTTTCTATTCAAGCAATAGACAATTATTCTAGTAAATAA	MKNVSNIDKVESIKSLQSTISKLENALSQMTQKGSNTTLVKKRLKAASIGLAMLESVWKQETHHYTQEDLAEARNVLIGLLPSIEKIYVKSKLGSPQRTLLERRIKSFELSIQAIDNYSSK				NA	NA	NA	NA	NA
AK009_01259	372			hypothetical protein	TTGAAGTTAGGAAAAAGGGTTATTTTTAATGAATTGCAGAAAATGCCTAGTCCGCTGTACAAACCGTTTCCTTATCGCGCTACAGCAAAATTGCAGCGAAACTTAGAAAGTAGATTTACCGAAGATAATTGTATAAACGCTGATTTTAATCATCATTGGATGCATACAGCAGCTACTTTAAATTCTGTACTAAATGGAAACGAACAGAACATTACGTTTCAACAAATAAAGTGGTTAAGAAAATCGTTTTTTGAGTGGTTTCCGCAATATCGTTTTCTAGAAACAGAAATTGTGAATTATCCCATTTTGTATAGAGATTTCATAAGTTATGAGAAGACCAGGAAGCTATTACTTTATTACCTTACTGAATAA	MKLGKRVIFNELQKMPSPLYKPFPYRATAKLQRNLESRFTEDNCINADFNHHWMHTAATLNSVLNGNEQNITFQQIKWLRKSFFEWFPQYRFLETEIVNYPILYRDFISYEKTRKLLLYYLTE				NA	NA	NA	NA	NA
AK009_01260	852			hypothetical protein	ATGAAGAATATCGGTTTAGTATTAGAGGGCGGAGGAATGAAAGGTTTATATACTGCAGGTGTACTCGAATATTTCATGGAAAAGAACTTATTCTTTCCGTATGTAGTCGGCGTATCAGCTGGAGCCTGTATGGGGGCAACCTATTTGTCACGTCAAAAAGGGAGAAATAAGAAAGTAAATACAGAACTAGTATCAGATTACAGGTATATATCTTATCGAAATTTAATTCGAAAACGTGAATTATTTGGGATGGACTTTTTATTTGATGAAGTACCTAATAAAATTGTCCCGTTTGATTTTCAAACTTTCTTAAACTGTAATGAACAATTTGTTATAGGGACGACTGATTGCGAATCAGGACGAGCTGTTTATTATAATAAAATAGAACATGGAAATGATATTTTAAAAATCATCCGTGCATCTAGCTCAGTTCCGTTTATAGCACCTGCTGTAGAATACGATAATCGTAAGTTGTTAGATGGAGGAATTATAGATCCTATTCCAGTTCTAAAAGCTCAAACTGATGGTTATGAAAAGAATGTAGTTATCATGACAAAACCAGAAGGATACGAAAAGCAGCGGAATAAATTTTCTAGACTGGCTAAAATTTTATATAGAAAATATCCGAATATCGCAGAATCTTTAGTAGAACATTATCGTTTTTATAATGAGACGATATCTTATATGAATCAAATAGAACAAAAAGACAACTTTTATGTCATTCAGCCTAGCGTACAGCTTCCAATAAGCGGAATAGAAAGAAATAAAGAGAAACTTGTTAATTTATATAACCTTGGCTATATAGATGCTCAATATCATTATGAAAACGTATTAAATTGGATAGAGAAATAA	MKNIGLVLEGGGMKGLYTAGVLEYFMEKNLFFPYVVGVSAGACMGATYLSRQKGRNKKVNTELVSDYRYISYRNLIRKRELFGMDFLFDEVPNKIVPFDFQTFLNCNEQFVIGTTDCESGRAVYYNKIEHGNDILKIIRASSSVPFIAPAVEYDNRKLLDGGIIDPIPVLKAQTDGYEKNVVIMTKPEGYEKQRNKFSRLAKILYRKYPNIAESLVEHYRFYNETISYMNQIEQKDNFYVIQPSVQLPISGIERNKEKLVNLYNLGYIDAQYHYENVLNWIEK				NA	NA	NA	NA	NA
AK009_01261	378			hypothetical protein	ATGGGTTTATTTAGCGGTATTTTAGGAAATGCATCAAATACGAGTTCTGAAAGTGTAGAACGTGATTTAGAGAAGATTATGCTAGACGATGAAAAAGTAGAGCATGCTTATAAATTAATTCGTGATCTAATCGTATTTACAAATCGTCGACTTATTTTAGTAGATAAACAAGGAGTAACCGGCAAAAAAACAGAATACCATTCTATTCCTTATAAAAGTATTACACAATATAGCATCGAAACGGCTGGGCATTTTGATTTAGATGCAGAACTTAAAATTTGGGTGTCTAGTATGGAGGATCCAATTACGAAAGAATTTAAAGGTGACGATAGTATTTTAAGCATTCAAAAAGCGTTAGTGACATATACGACAAAGTAG	MGLFSGILGNASNTSSESVERDLEKIMLDDEKVEHAYKLIRDLIVFTNRRLILVDKQGVTGKKTEYHSIPYKSITQYSIETAGHFDLDAELKIWVSSMEDPITKEFKGDDSILSIQKALVTYTTK				NA	NA	NA	NA	NA
AK009_01262	474			hypothetical protein	ATGGATATTATATTAGAGAAGGCGACAGAAACTGATGTAGAAGTTATATTTCAAATGCAAATAGACTCATTTAGCCCTTTATTACATAAATATAAAGACTATGAAACAAATCCAGCAAATGAAACTATCGAAAAAACTATTTGTAGAATAAATCAAGTAAACGGTGGCTTCTATAAAATAATAGTGGATATGAATCTTGTTGGAGCGATATGCATTTCACAAAAAGAAACACCCTCTAAATTTTGGATCAGTCCAATGTTTATTCATCCGGGTTATCAAGGAAAAGGAATTGCTCAAAAGGTGATTACATTAATTGAGGAAATGTTTCCTGAAGCAACGAGCTGGGAACTTGCTACTATTTTAGAAGAAGAGAAAAATTGTTTTTTGTATGAAAAGATGGAGTATAAAAGAACAGAAGTTATAAAGAAATTAAATGATAAAACTACACTTATTTATTACAAAAAAGAAAGGTAA	MDIILEKATETDVEVIFQMQIDSFSPLLHKYKDYETNPANETIEKTICRINQVNGGFYKIIVDMNLVGAICISQKETPSKFWISPMFIHPGYQGKGIAQKVITLIEEMFPEATSWELATILEEEKNCFLYEKMEYKRTEVIKKLNDKTTLIYYKKER				NA	NA	NA	NA	NA
AK009_01263	522	yfiT		Putative metal-dependent hydrolase YfiT	ATGAATGATTTGCGTTATCCAATTGGCCAATTTACATACAAACGTCCTATAACGGAAGAAATGATTGATACATGGATTCAAGAAATTGAAGATTTACCTCATGAACTAACAAAGGCAATTAAAGATTTAGATCAGAAGCAGTTAGATACACCATATCGCGTTGGAGGTTGGACTGTACGCCAAGTAGTTCATCACGTCGTTGATAGCCATATGAATAGCTACATACGCTTTAAATTAGCACTGACAGAAAAGAATCCAACTATTAAGCCGTATAAAGAAGAGAAGTGGGCAGAGTTACCCGATTCAAAATTACCGGTAGATGTTTCACTAGTAATGCTAGATTCATTACATAAAAGATGGGTTAACCTTTTATATTCTCTAGAAATTGAAGATTTAGAAAAGACATTTAACCATCCTGAAACTGGTGAAACAAAACTTGCTGTTGCAATAGGACTATACGCATGGCATGGTCGTCATCATACCGCTCATATTACTTCTTTAAGAAAGCGTCTAAATTGGTAA	MNDLRYPIGQFTYKRPITEEMIDTWIQEIEDLPHELTKAIKDLDQKQLDTPYRVGGWTVRQVVHHVVDSHMNSYIRFKLALTEKNPTIKPYKEEKWAELPDSKLPVDVSLVMLDSLHKRWVNLLYSLEIEDLEKTFNHPETGETKLAVAIGLYAWHGRHHTAHITSLRKRLNW				NA	NA	NA	NA	NA
AK009_01264	528			hypothetical protein	ATGGAAATATACATAGAGCAACTAAAGAAACAAGATGTTAAGGATTTATTTACGTTTGAACTTACGAATAAATCTTTTTTTGAAACAATGGTACCAAATCGTGGCTCGAAATATTTTGAATTTGAATATTTCCAAAAACTACTAGACGATTTATTAATAGAACAAGCGGATGGAGATTCTTATTTTTATTTAATTCGTAATGAAGAAAAAGAAATTGTAGGGCGAATCAATTTAGTAGATATAGATACGGAAACTCGAATTAGTTCACTAGGGTATCGGGTCGGAGAAAAATTTACTAAAAAAGGAGTTGCAACAGCAGCCGTAAAATTAATTTTAGATGTAGCGAAAAATAATGAAATTACTGACATTTATGCTAAAACAACGACTAATAATCTCGCATCACAAATTGTACTAGAAAAAAGCGGATTTTCTTCTTATCAAAACGAATCAGATACAACATCTGTAGAATTAAATGGAGAACATGTGAAGTTTGTACATTATATTTGGAGAAATACTTCGCGCTTATAA	MEIYIEQLKKQDVKDLFTFELTNKSFFETMVPNRGSKYFEFEYFQKLLDDLLIEQADGDSYFYLIRNEEKEIVGRINLVDIDTETRISSLGYRVGEKFTKKGVATAAVKLILDVAKNNEITDIYAKTTTNNLASQIVLEKSGFSSYQNESDTTSVELNGEHVKFVHYIWRNTSRL				NA	NA	NA	NA	NA
AK009_01265	921			Putative epoxidase LasC	TTGGTTAAAGGGTTATTGGTAGATGCAAAGCTTAACAAAGTGTGTGGAGTAAAAGTTAAATATTTAGAGACAGACACACAAGAAGAAGTTCATGCAGATCTTGTAGTTGATGCGAGTGGATTTGGCTCAAAAAGTATAGAATGGCTACGAGAATACGAAATTGAAGTAAAAGAAGAGAAAGTTCGTATTGATTTATTTTACGCAACGAAAATGTTCAAACTTAAAGAAAATGAGGAGTTAGACTGTTGTAATATGCTAATGTCTCCGAGTTTCCCTGATAACCCTTATGGCGTTCTTATTCAAACGATAGAAGATAATCGTTATTTTGTTACTTTCAGTGGATACGCAAATGAGAAAGCACCACAAACAGATGATGAGTTTTATGATTTTGCTGAAAACCTATCAATTTCTAATGTTACAGACTTCCTAAACAAGGCTGAGGGAATTACTGATATAAAGACATACAAAATTCCTTATCAAGTACGCCGGCGATTTGATTTAGTGAATAATGTACCAGAAGGCTTATTAGTTGTTGGAGATGCGCAATGTCGTTTTGATCCCGTTTTCGGCCAAGGCGTATCAGTTGCTGCTATGGAGGCTCACCAGTTGCAATTACTTCTGCAAGGCAGAAAACAGCTTGATAAAACATTTACACAACAATTTTATAAAAAGACAGCTAATATAATAGAAACCCCTTGGGATATGACAACGACAGAAATATCACGTCACCCGCAGCTAAAGAGAGAATTAACTACAAAACAAAAATTTCAGCTATGGTATATGAAACAAATATATCGACTATCCGCAAGTAATTCTGATGTTTATATTCGATTAGTACGAGTGATGAATTTAATTCGTAGTCCATTTCATCTTTTTCATCCGAAAGTGCTACTATCTGTATTGCTTAATCGAAAGAAATAG	MVKGLLVDAKLNKVCGVKVKYLETDTQEEVHADLVVDASGFGSKSIEWLREYEIEVKEEKVRIDLFYATKMFKLKENEELDCCNMLMSPSFPDNPYGVLIQTIEDNRYFVTFSGYANEKAPQTDDEFYDFAENLSISNVTDFLNKAEGITDIKTYKIPYQVRRRFDLVNNVPEGLLVVGDAQCRFDPVFGQGVSVAAMEAHQLQLLLQGRKQLDKTFTQQFYKKTANIIETPWDMTTTEISRHPQLKRELTTKQKFQLWYMKQIYRLSASNSDVYIRLVRVMNLIRSPFHLFHPKVLLSVLLNRKK				NA	NA	NA	NA	NA
AK009_01266	363			Putative epoxidase LasC	ATGTTTAATACGGCTATCGTTATTGGTGGAAGTGTGGCAGGAAAGTTTGCAGCAAAAGCATTATCAACTTCTTTTAAAGAAGTAATCATTATAGAAGCTGGTGAAAGATGGGATGGAAAGTCTTCGAGAAAAAGAGTTCCACAAAGTAATCATCCTCACGTGTTATTAAAAGGTGGAGAAAACGCAATTGAAGAATTGTTTCCTAATATTACGAACGAATTAATAGAAGCGGGTAGTATTATAAACAACTTTACGCGTGATTTGAAATGGCATCAATTCGGTCTATGGAAACAACCGTTCATAGGGGAAGTACATATGATTCAACAAAGTCGTCCTTTGCTAGAATGGCATATTCAAAAATGA	MFNTAIVIGGSVAGKFAAKALSTSFKEVIIIEAGERWDGKSSRKRVPQSNHPHVLLKGGENAIEELFPNITNELIEAGSIINNFTRDLKWHQFGLWKQPFIGEVHMIQQSRPLLEWHIQK				NA	NA	NA	NA	NA
AK009_01267	780	uppP_2	COG1968	Undecaprenyl-diphosphatase	ATGAATTGGTTAGAAGCTTTCATATTAGGTATAATTCAAGGTTTAACAGAATTTTTACCAATCAGTAGTACCGGACATCTTTATTTAGGAAGGCATTTATTTCAATTAGATAAAGCAGGCTTATTTTTAGATACGATGTTGCATATTGGGACTTTACTTGCAGTGTTTATTTATTACAAAAAAGAATTTATATATTTAATTAAAAACCCATTTTCAAAGCTCATGTTATTACTTATTGTTGGGACGATACCTGCAGTTGTTATTGGTTTATTGTTTAAAGACTTCTTTGAAGATATTTCAAAAACAGGAATCACGATCGGTTGGGAGTTTTTAGTGACCGGATTCTTTCTCTACATGGCAGATAAACAAAAGAATGGTCGTAAAAAAATGGATGACATCACATATAAAGACGCATTAATTATCGGTTCATTTCAAGCGGCTGCTATTTTCCCAGCGATTTCTCGTTCTGGTATGACAATCGTCGCTGCATTATGGAGGCAGTTAGACCGTGAAACTGCTGCTTACTTTTCTTTTTTATTATCAACGCCAGCCATTGTCGGAGCCATTATTTTGCAATTTGTAGACGTTTTTCAAGGGAAAGCAGAATCTATTTCTAGTACATCTTTAATTGTCGGAACGTTATCAGCAGCGTTTTTTGGATACATAGCCGTTTCATGGATGATTCAATATTTAAAACGTCAATCCTTAAAAGTATTCGCGTATTACGTATGGGGATTAGGTATTTTAATTTTAATGTTGCAATTTACTGATGTATTTTAA	MNWLEAFILGIIQGLTEFLPISSTGHLYLGRHLFQLDKAGLFLDTMLHIGTLLAVFIYYKKEFIYLIKNPFSKLMLLLIVGTIPAVVIGLLFKDFFEDISKTGITIGWEFLVTGFFLYMADKQKNGRKKMDDITYKDALIIGSFQAAAIFPAISRSGMTIVAALWRQLDRETAAYFSFLLSTPAIVGAIILQFVDVFQGKAESISSTSLIVGTLSAAFFGYIAVSWMIQYLKRQSLKVFAYYVWGLGILILMLQFTDVF	PGPT0024165_4840	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK009_01268	207			hypothetical protein	ATGTGGAAGCACACAAAATTTGGTAATGTATTACTTTGGGTAGGCCCTATCCTTGTATTTTTAGGACTATGTATGACAAATGTTATTTCAGATATTCCTTTCTTTGAGGGAAAACATAAAACGCTTGGTATTGTACTTATATTTATAGGGATATTCTGTTTTATTGTGGCTAATCATTTGAAAAAAGGAGAAAGATATGAAGAATAA	MWKHTKFGNVLLWVGPILVFLGLCMTNVISDIPFFEGKHKTLGIVLIFIGIFCFIVANHLKKGERYEE				NA	NA	NA	NA	NA
AK009_01269	381	uvrC_1		UvrABC system protein C	ATGAACTTGATTAAAATTAGTATCCCTGAAGTTGATGTTACAATTACTGAACGTAAACAAGTTATTAAAGGAGACGAGCCAATCATTACTCCAATTAATGGATTTATCGATTTTCACTTGTTCCCTAGAGATAAAGGCGGCATTTTTATGTTTTACAATATTAATGACGAACTTCTTTTCGTAGGTAAAGCTCGTAAAATTAGACAACGTATTAAGAAGCATTTTGAAGATAATGTTTCACCAATTAAAAATCACCGTGATGAAGTATACCGCATTGATGCATGTATCGTAGAAGATCCAACAGAAAGAGAAATTTACGAAACATATATCATTAATGAATATAAAGCGAAATATAACGTTGATAAAGTATTCTACAAATAA	MNLIKISIPEVDVTITERKQVIKGDEPIITPINGFIDFHLFPRDKGGIFMFYNINDELLFVGKARKIRQRIKKHFEDNVSPIKNHRDEVYRIDACIVEDPTEREIYETYIINEYKAKYNVDKVFYK				NA	NA	NA	NA	NA
AK009_01270	564			hypothetical protein	ATGACTAACGTTGCAGTTAGAAGACCAAATTTGAATGATGTAGATGAACTATATTTATTTTTCCGGATAGTTATTACGAATACATACAAAAATGAAGGATTGTCACAATTATTGGATGACATAGAAAATGAAATTAACTCAAAAAAGCAGTATTTGAAAAGTGATTTTGATAGTAACGGAGAAAGTCGTTACTTTTTATTAGCAATTGATACAAGTAACGATAAAATCATTGGAACAATCGAAATTGGTCCAGCAAGTACATTGATTAATAGTTGTACAGGTGGTGTACTTAAAAATTTGTATGAAATAGGAACTGTATTCATACTTCCGGAGTATCAAAGAAAGGGAATAGGGAGTTTATTACTACATACAATGTTTCTTACATTACTTAGCAGAGGGATAACAGAATATTGTTTAGATAGTGGATATAAAAATGCGCAAAGTATATGGACGAAAAAGTTTGGAAAACCTAGCTATGTATTGAAAGATTACTGGGGCGAATCCAGTGATCATATGATTTGGAAGAACAATTTACATGATACACCTATAATATTTGAATTATAA	MTNVAVRRPNLNDVDELYLFFRIVITNTYKNEGLSQLLDDIENEINSKKQYLKSDFDSNGESRYFLLAIDTSNDKIIGTIEIGPASTLINSCTGGVLKNLYEIGTVFILPEYQRKGIGSLLLHTMFLTLLSRGITEYCLDSGYKNAQSIWTKKFGKPSYVLKDYWGESSDHMIWKNNLHDTPIIFEL				NA	NA	NA	NA	NA
AK009_01271	465			hypothetical protein	ATGAATCGTTTTGTACGTTATTGGTATCAACTGATGATAGAGCATGATATAAGCTTTGTTCATAAAAGAAACTTGTCCCTTGCGAATAAGTTAGTACTTACAGCTTTGATGAGTGCATTGGCCACCATGTTTCAAGCAGCGGGGAACTTAATTCCTGGTATAGGTTTGCTCATTAGTCCATTTTCGACATTGCCGATTTTTTTTGCTATTCTCTATTCTATTCGTGAGGGAATACTTTCTTATATTCTTACTATTTTTCTATTATTTATTATTGAGCCAAGTGAACTAATTGTCTTTCCTTTTACTACAGGCTTATTAGGTCTAGCCTTAGGACTAGCCTTTTTAAAATTCAAGAGGAGAATTTGGATTGTTTCCTTTTCAGCGACTTGTCTACTTATAGGGATTATGATCGTTCTCGATGTTTTCCGGTACTTGGTCCTACTGTTCATACAACTATGGACATAA	MNRFVRYWYQLMIEHDISFVHKRNLSLANKLVLTALMSALATMFQAAGNLIPGIGLLISPFSTLPIFFAILYSIREGILSYILTIFLLFIIEPSELIVFPFTTGLLGLALGLAFLKFKRRIWIVSFSATCLLIGIMIVLDVFRYLVLLFIQLWT				NA	NA	NA	NA	NA
AK009_01272	1431			hypothetical protein	TTGACAAAAGTTAAAGTTAATTTACGACCCATTGTTCATAACGTAAATTTACCAACCGTATTGAAAACAACGATACTTCCAGGTGAATCGACCGAAAGACTATTTATCGCAACTCAATTAGGAGAGATTTTTTACATAGGGGACGGAGTTATAAAGAAATTTTTAGATATGCGTCACCTAATTATTAAATTAGGTACATCTGAAGAAGGTGTTTCTAGTAGCGGTTATGATGAACGAGGATTACTAGGACTTGCATTTCATCCACAATTTTATCAAAACGGTTTATTTTATCTTCATTATTCAGTAGCCGGAACTCAAGGTCCAGGTGCACTTTCTGAACAATTTAAACCGAATCCTTGTGACCCTAAAACGTTAAATTTAAAGTGGGTTAATAGAAATACGCAATATGATCACATTGATACAGTGGAAGAATGGACTTTACAATCTAACGGCCAAGCTCAAAAGCGACGAACATTACTGAATGTAAGAAGACCATTTTTTAATCATAACGGAGTCAATAGTTTAAACTTTTCACCTGAGACTGGAAAACTTGTTTTTACAAATGGAGATGGCGGATCAGGTTATGATCCATTTAATTTAAGCCAAGATGATTTAGAAATAGCAGGAAAAATAATTGAAATCGATGTAAATAAAAATACATTTATAAATAACCCTCCTGTAGTTACACGCTTTAATGACCTTCCTTTATCTATACAAGAAACACTTACAGTAATTGCAAAAGGAGTACGTAATATAACCGGCATTTCATTTCAAAGGTTTTATAATCAATATATCAAATACACCGGAAATGTCGGACAGGATATTGTAGAGTCTATTTTTTCATTTGTTCAATATAAACCTATACCAGTTACAGAACTTGTTCAAATGCATTTTATGAGGTTAACTCCCAATCAAGATGGTTTTATCAATTTTGGGTGGCGAGGATGGGAAGGGGATTTACCTACTTCTTTTATACGACATTGTTCCGAAAATCAGACTTTGGATGAGAGAACAATAGTTTATTATGATGAAACAATACAAACTTCAGTGAAGCGTATTCTGCCTCTACTTAGTTATTTTCATAAAGATTTTAGAACCGATAAGTTTGGAGGAACTTCACTTACAGGAGTTCAGCCATATATGGGAAATGCAATTTCAAATTTAACGGGTAGCGTTGTTTTTACCGACCTTGCTAAGAAAGAAGATTCTCGACCGCCAGTTAAGGGTGTTTTAGCTTATACTAGAGCCGGTACAGACGGTAAACATGCTGACTTTCATGCTATTGAAACCAATTATGATTTTGGTACGCAAGCAGCTTATTATATGAGTTTAGGAACAAATTCGGCTCAAACTAGGTTATATTTAGGAGTTTACGGTTCTATGAAAGTAACTGATTTTAACAAAGGTACCATTTTTGAAATTATTCCTTGA	MTKVKVNLRPIVHNVNLPTVLKTTILPGESTERLFIATQLGEIFYIGDGVIKKFLDMRHLIIKLGTSEEGVSSSGYDERGLLGLAFHPQFYQNGLFYLHYSVAGTQGPGALSEQFKPNPCDPKTLNLKWVNRNTQYDHIDTVEEWTLQSNGQAQKRRTLLNVRRPFFNHNGVNSLNFSPETGKLVFTNGDGGSGYDPFNLSQDDLEIAGKIIEIDVNKNTFINNPPVVTRFNDLPLSIQETLTVIAKGVRNITGISFQRFYNQYIKYTGNVGQDIVESIFSFVQYKPIPVTELVQMHFMRLTPNQDGFINFGWRGWEGDLPTSFIRHCSENQTLDERTIVYYDETIQTSVKRILPLLSYFHKDFRTDKFGGTSLTGVQPYMGNAISNLTGSVVFTDLAKKEDSRPPVKGVLAYTRAGTDGKHADFHAIETNYDFGTQAAYYMSLGTNSAQTRLYLGVYGSMKVTDFNKGTIFEIIP				NA	NA	NA	NA	NA
AK009_01273	258			hypothetical protein	ATGACACTCTTATTACAAATCATCGTACCACTTATATGTGCAATATACTTATTTACCCTCTATCATAACGGAACGTATGGATCAGCTTCATTTATTTTAGCAGTCATGATAGGAATTTTCGGTTTAGAGAATATTTTTCAATATGCTAGTCTAACAGATCATACTATTTATCCATATTGGGGAAGTTTGAAGGCTGTTGTTATCGTTTTATCAGTCGTATTTCTATTTAAAAAAGGTGGTTTAACAGGGAAATATTGA	MTLLLQIIVPLICAIYLFTLYHNGTYGSASFILAVMIGIFGLENIFQYASLTDHTIYPYWGSLKAVVIVLSVVFLFKKGGLTGKY				NA	NA	NA	NA	NA
AK009_01274	180			hypothetical protein	ATGTCTATAAATATTATTTCAATAGTCTCTATCATAATATGGATTGTGTTAATTACAGAACTTATAAAACCTTCAAAAGAACAGAATGGACGAAAAATAGTAACTTTAGTAACTGCTGGTTCCGCATCAACACTAATTTTGACGGTTTCATTTATTCAAAATATCCCGTTTTGGAATTGA	MSINIISIVSIIIWIVLITELIKPSKEQNGRKIVTLVTAGSASTLILTVSFIQNIPFWN				NA	NA	NA	NA	NA
AK009_01275	1170		COG3385	IS4 family transposase MICBce1	ATGAAAATACGTAGTCAAATTACATGTGCAAGTTTGGCCCTTTTAATAGTTGGAAGTTCCCTGTTATATACAACACCAACCTCAATTATAAAAGCAGAGCCCACTCAAAATGTATCTAGTTCGTTACAAACAAATACGCAACGAGATCATACTTCCGTCAAGCAAGCAATGCGGGATACATTGCAACTTGGATACCCGGGGATACTTGCTAAAACTTCTGAGGGTGGAAAAACGTGGGGGTATGCCGCTGGAATAGCGGATCTGAGAACCAAGAAACCAATGAAAACAGATTTTCGCTTTCGCATTGGGAGTGTGACGAAGACGTTCACCGCAACAGTTGTACTTCAATTAGCTGGAGAGAATCGCCTGAAGCTAAACGACTACATCGAAGACTGGTTGCCTGGTGTCATTCAAGGAAATGGATATGATGGTAACAAGATTACTATCCGGCACATATTGAACCATACAAGTGGTATCGCTGAATACTCAAGGTCAAAAGACGCTGATTTTACGGATACAAAAAAATCGTATACGGCTGAAGAGTTAGTGAAGATGGGGGTTTCTCTGCCTCCAGACTTTGCTCCAGGAAAGGGCTGGTCTTATTCAAACACAGGATACGTATTACTGGGCATTCTTATTGAAAAAGTAACTGGAAACAGCTATGCGGAAGAGGTTGAAAATCGAATTATTGAACCACTTGAATTGTCGAATACATTCCTACCAGGCAACTCAAGTGTTATTCCAGGCACTAACCATGCCCGTGGATATGTCCAACCAGACGGAGCAAGTGAGCTAAAAGACGTTACTTATTATAACCCAAGTGCAGGTAGCTCTGCTGGAGATATGATTTCTACTGCTGACGACTTAAACAAATTCTTCTCTTACTTGCTCGGTGGCAAATTACTGAAGGAACAGCAACTAAAACAAATGCTTACTACAGTTCCTACAGGAAAAGAAGGAATCGATGGATATGGTCTTGGAATCTATGAAACTAAGCTGCCAAGCGGTGTCTCGATATGGGGACACTCAGGTGGCATTCTAGGGTTTACAACTCTAGTTGGAGGTACACTTGGAGGCAATCATACGTTGGTCGTCAATTGGAATAGTTTGGGTAGAACTGGCAGTCCTAATCCTTTTAAAAATATTTTACTTGCTGAATTTAGCAAGTAG	MKIRSQITCASLALLIVGSSLLYTTPTSIIKAEPTQNVSSSLQTNTQRDHTSVKQAMRDTLQLGYPGILAKTSEGGKTWGYAAGIADLRTKKPMKTDFRFRIGSVTKTFTATVVLQLAGENRLKLNDYIEDWLPGVIQGNGYDGNKITIRHILNHTSGIAEYSRSKDADFTDTKKSYTAEELVKMGVSLPPDFAPGKGWSYSNTGYVLLGILIEKVTGNSYAEEVENRIIEPLELSNTFLPGNSSVIPGTNHARGYVQPDGASELKDVTYYNPSAGSSAGDMISTADDLNKFFSYLLGGKLLKEQQLKQMLTTVPTGKEGIDGYGLGIYETKLPSGVSIWGHSGGILGFTTLVGGTLGGNHTLVVNWNSLGRTGSPNPFKNILLAEFSK				NA	NA	NA	NA	NA
AK009_01276	372			hypothetical protein	ATGAAAAAAGCACTTTACATCAATATAGGTGGAGAAGGACACTTAAATCCAACATTAGGATTAGTACATGATTTAGTACAACGTGGAGACAACATTGTCTATTATTCATCAAATGATTTTGAAGAAAAAATCAAAAAAGCAGGTGCACAATTCCGTCCCATCAATCAAGAGGCACAAAGAGAGCTTTCGGAAACTATGAATCTTATGACTTCCCATCCTCAAGAGTACTTATTACACTTCCTTCATGCTATGGAAAGAATTACTGATTCCATTTTTGAAGAAACCTCCAAAGAAACATACGATTACATCCTCTATGATGCACAGTCTTTACCTGGAAAATGGGTTGCATATTTCTATGGGAACCATAATTAA	MKKALYINIGGEGHLNPTLGLVHDLVQRGDNIVYYSSNDFEEKIKKAGAQFRPINQEAQRELSETMNLMTSHPQEYLLHFLHAMERITDSIFEETSKETYDYILYDAQSLPGKWVAYFYGNHN				NA	NA	NA	NA	NA
AK009_01277	339			hypothetical protein	ATGCGAAAGCTTAGTATAGGCAAACAATTAACAGTGGAGCAGCTAGGAGATATACCTGATAATTTTATTGTTGGTAATTATCTTCCACAATTAGATATACTGCGCCAAGCGGATGTATTTATTAGTCATTGTGGAATGAATAGCACAAGTGAATCACTTTATGGCGCAGGATTTATGTTAAATATCCAGCAATTATTGGCTGAGGATTTAAAACATGCCGTTAATGAAGTGTTGCAGCATTCGATTTACAAAGAGAATGCCAAAAAAATTAGTCAATCATTCCGTGAGGCAGGTGGTTATATCAAAGCTGTTGATGAGATTGTTACATTTACTCGTTAA	MRKLSIGKQLTVEQLGDIPDNFIVGNYLPQLDILRQADVFISHCGMNSTSESLYGAGFMLNIQQLLAEDLKHAVNEVLQHSIYKENAKKISQSFREAGGYIKAVDEIVTFTR				NA	NA	NA	NA	NA
AK009_01278	660			hypothetical protein	ATGAGTATAAATAGTTTTGTGGGATTAATAAAGGACGAATTATTAAAAGAGGTAAGCATACGAAGTGAGGATGAATTCGAGCCTGTAGTAGTTAAAGATATTCCTAGACTTTGGAAGTGTTTAGGGACAGGTAATTATGCCGCAGTATTCATGCACAGAGAATACAAAGATTGGGTAGTGAAAGTTTACGTGCGAGAAGGAGAAGGAATTGAAAAAGAGTCAGAAGCATACCGAAGAATTGGAAATCATCCTTCTTATTCAAAGCTTATATATAAAGGAGAAAATTTCATAGTATTGAAACGTTTAAAAGAAATTACTTTATACGATGCTATTCATAAGGGGATTAAAATTCCTAAGCAGGTAATACTTGATATCAATGAGGCTTTGGAGTATGCGAGGGAACAAGGGTTAACTCCTTGTGATGTTCACGGGAAAAATGTGATGATGGAAAAAGGAAGGGGATATGTGGTCGATGTATCTGATTTCTTAAAAACAAAAGAAGATAGTAAGTGGAGAGACCTAGAAAAGGCATATTTCACCTTTTATTTTCCTTTCATTTATAAATTGCCTTTCCCCGTTAAAATACCGTATTTTATGTTAAACATTGTTAGACGTTCGTACAGAAAATATAAGAAGCTTAAAAAGAAATTCAAATTATAA	MSINSFVGLIKDELLKEVSIRSEDEFEPVVVKDIPRLWKCLGTGNYAAVFMHREYKDWVVKVYVREGEGIEKESEAYRRIGNHPSYSKLIYKGENFIVLKRLKEITLYDAIHKGIKIPKQVILDINEALEYAREQGLTPCDVHGKNVMMEKGRGYVVDVSDFLKTKEDSKWRDLEKAYFTFYFPFIYKLPFPVKIPYFMLNIVRRSYRKYKKLKKKFKL				NA	NA	NA	NA	NA
AK009_01279	441			hypothetical protein	ATGAGAGCGCCATATCAAGTATTGATATTTCCTTATATAAAAACTGTCGATTCTATTCAATATGCCATTTTTAACCGAAGTGATTATGGTTATTGGCAAGGAATAGCTGGTGGCGGAGAAGACGGTGAGATTCCTATTGAATCAGCAAAACGGGAAGCATTTGAAGAGGCTGGTATTACAAGAGAATGTCCATATATACAATTAGATTCTGTGTCTTCACTATCAGTAGAAGATGTAGTTGGAGGATTCCTTTGGGGAGAAGAGGTTTATGTAATAAAAGAATTTTCTTTTGGAGTTAAAGTCCCTACAAAAAACATATCATTATCTAAAGAACACTTCAATTATAAATGGTTATGCTTCGAGGAAGCAGTAACGTTTTTGAAATGGGATAGCAACAAAACAGCATTGTGGGAATTAAACAAAAGACTATTAAAACAATAA	MRAPYQVLIFPYIKTVDSIQYAIFNRSDYGYWQGIAGGGEDGEIPIESAKREAFEEAGITRECPYIQLDSVSSLSVEDVVGGFLWGEEVYVIKEFSFGVKVPTKNISLSKEHFNYKWLCFEEAVTFLKWDSNKTALWELNKRLLKQ	PGPT0007890_681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007890-nudB|ntpA-K08310	NA	NA
AK009_01280	1116	thiO_1		Glycine oxidase	ATGAAATCGTATATTGTAGTTGGATCTGGAATTTTAGGAGCGTCTACTGCTTATCATCTTGCTAAGGCAGGTGCGAATGTTACTATCGTGGATCGCCAACAATTAGGGCAAGCAACTGATGCAGGAGCAGGTATTGTATGTCCATGGCTATCACAGCGTCGTAATAAAGCATGGTATAAAATCGTTAAAGGCGGTGCACGTTACTATTCTTCGTTAATTCAGCAATTAGAAGAAGACGGTGAAACTGACACAGGATATAATCGTGTAGGTGCAATTAGTTTACATACTGACGAGAAAAAGTTAGATCAAATGGAAGAGCGAGCTTATAAACGACGTGAAGATGCCCCAGAGATTGGTGAAATAACTCGCTTATCAGCTGAAGAAACAAAAAAATTATTCCCAGCATTATCAGACGAATATAGTTCTGTTCATATTAGTGGTGCTGCACGAGTAAATGGAAGATTATTACGCAATGCGTTAATAAGTGCTGCGAAAAAACATGGTGCAACTTTTATAAAAGGCGATGCCATATTAGTCCGTGAAGGAAATCATATTACTGGAGTTACAGTAAACGATGAAACAATTTTAGCAGAAAAGGTTATTGTAACTGCAGGCGCATGGGCGAATGAAATCTTGAACCCATTAGGAATTAATTTCTTAGTTACATTCCAAAAAGGACAAATTGTTCATCTGCAAATTGAAAATACAGCAACAGAAAATATGCCAGTTGTTATGCCACCGAACGATCAATATATTTTAACGTTTGACAATGGGCATGTCGTAATTGGTGCAACACATGAGAATGATACTGGTTTCGATCATCGTGTAACAGCAGGTGGTTTACATGAAGTATTCCATAAGGCATTAACAGTTGCGCCTGGCTTAGAAAATGCTACAATGCTTGAAACGAGAGTTGGATTCAGACCATTTACACCAGGATTCTTACCTGTTATCGGACCGCTACCTAACTTTGAAGGAATTCTCGTTGCGAATGGATTAGGAGCTTCGGGTTTAACAGCTGGTCCATATCTAGGAGCGGAACTTGCTAAACTAGCGCTCGGACAAACGATTGAATTAGATTTAAATGATTATGATGTTGCTGGCGCAATTGAATAA	MKSYIVVGSGILGASTAYHLAKAGANVTIVDRQQLGQATDAGAGIVCPWLSQRRNKAWYKIVKGGARYYSSLIQQLEEDGETDTGYNRVGAISLHTDEKKLDQMEERAYKRREDAPEIGEITRLSAEETKKLFPALSDEYSSVHISGAARVNGRLLRNALISAAKKHGATFIKGDAILVREGNHITGVTVNDETILAEKVIVTAGAWANEILNPLGINFLVTFQKGQIVHLQIENTATENMPVVMPPNDQYILTFDNGHVVIGATHENDTGFDHRVTAGGLHEVFHKALTVAPGLENATMLETRVGFRPFTPGFLPVIGPLPNFEGILVANGLGASGLTAGPYLGAELAKLALGQTIELDLNDYDVAGAIE	PGPT0020315_3926	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
AK009_01281	654			hypothetical protein	ATGTCAGTTATTGATAAATTGAAACTTAATAAGTATACAAATATGGTCGTAATTAACGAACCAAGTAATTATGACATTTTTACAGGTAAAGAAACTGTATTCTCAAAAGAACACGATGCTATCTTTATATTTGTAGAAACGCTTGATGAAATGGTGAAACAAACGAATTTTATTATTAGTAATGAAGAATTACTAATTGAAAAAGGTTACGTGTTCTTCGCATATCCGAAAAAAGGTAATGCTCGTTATAGTACGTTTATTCACCGTGATGAGATGTTTCCGGCATTAAACGTTGGAGAAGATGGTTATGTGGGAGAAAGCAATATTAAATTTGCACGAATGGTAAGTATGGATGAAGTCTTTACTGTTGTAGGTTTAAAACGTGAAAAGAAAAAAACAATGAAAACATCTGCTATGAGTCAATGTGTTGCCGATTATGCAGATCGAATTAAAGATGTTGAAGCATTATTAACAAATCACCCGAATGAACTTAAGTTTTATCAAAGTTTAACGCCTGGATATCAGAAAGATTGGGCACGTAATCTTTTTTCTGTAAAACAAGAAAAAACACGTGAAAAACGTCTAGAGAAAATGATAGAAATCCTTTCACAAGGTTATAAAACAATTGAATTATTCCGTAAGAAGAAAAAATAA	MSVIDKLKLNKYTNMVVINEPSNYDIFTGKETVFSKEHDAIFIFVETLDEMVKQTNFIISNEELLIEKGYVFFAYPKKGNARYSTFIHRDEMFPALNVGEDGYVGESNIKFARMVSMDEVFTVVGLKREKKKTMKTSAMSQCVADYADRIKDVEALLTNHPNELKFYQSLTPGYQKDWARNLFSVKQEKTREKRLEKMIEILSQGYKTIELFRKKKK				NA	NA	NA	NA	NA
AK009_01282	768	nhoA_2	COG2162	Arylamine N-acetyltransferase / N-hydroxyarylamine O-acetyltransferase	ATGACAAGTTTACAAGATCAGCTTTTCGCAAGATTAAATCTTAAAAAACGTAATGAAGTAACGTTTGAAGAATTACCTACTATACTCTTTTCATTTGCACATACTATACCATTTGAGAATTTAGACGTTATAGCACAAAATACGAATCAAATCTCTCTGGAAAACTTACGAGAGAAAATTTTAACTAGTTCCCGTGGTGGACTTTGCTACGAATTAAACACCCTTTTTTACTATTTCTTAAAAGACTGTGGCTATGATGTACAACTGGCATTAGGTACGGTTTATAAAAATGATATAAATGCATGGGCACTTGAGGATGGCCATATAACAATTATTTTAACTTATGCTAATGTACAGTATTTAATTGATGTAGGTATAGCTTCATTAGTACCTCTTGTTCCTGTACCTTTTACTGATGAGTCTGTTTCTTCAAAGAATGGGTCGTACCGGGTGAGACGAAAAGATACGAGTAAAGGAAATTATGTTTTAGAAAGAATAGATGCTGAAGGAGAATGGAAAGTTTGTCATGCCTTTTATAAACATATTATTGATGAGATAGTAGTAAACGATGTTCAAAGAAGAGTAATAGAAGATGAGAAATCTATTTTTAATAAGGGACCAATTGCAGTGAAATTGACGGACTCTGGGCATGTCTCTTTAACGAATAATAGTGTAACTGAAATTATTTATGGAGCAAAAACTAAGCGTGAGGTTACAGAAGAGCAATATAGAGAGCTTTTATATACTTTATTTGCTATTAAGTTATGA	MTSLQDQLFARLNLKKRNEVTFEELPTILFSFAHTIPFENLDVIAQNTNQISLENLREKILTSSRGGLCYELNTLFYYFLKDCGYDVQLALGTVYKNDINAWALEDGHITIILTYANVQYLIDVGIASLVPLVPVPFTDESVSSKNGSYRVRRKDTSKGNYVLERIDAEGEWKVCHAFYKHIIDEIVVNDVQRRVIEDEKSIFNKGPIAVKLTDSGHVSLTNNSVTEIIYGAKTKREVTEEQYRELLYTLFAIKL	PGPT0019890_1208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK009_01283	504			hypothetical protein	TTGAACAATTTTAATGATACGATCCGAAATTTAAATAATATAGTTTACCAACCTAACAATTTAATGATTACGAATCTAAAAGAAGAAAAGCAAAACGCAGAATATGCAGGATGTTTATTCCACTTAAATAACAAAACCATTCGTTTTAGAAAATCAAAAGTTACTCCTAATAAAATTGGTCAATTTGTTTCTTTTTGGGAGAAAGATGACAATATGCAAAATCAAGCATTTTCTTATGACGCTGCTCCTGATTTATTAGTTATTACTTGTATAGATGATCATAAACTAGGACAATTCATTTTGCCTAAAGAGATTCTTCTTAAGGAAAAAATCTTGAGAACACAAAATCAAAAAGGCAAGATGGCTATGAGGATTTATCCTATATGGGATAAGCCTGTTAGCAATCAAGCTAAAAAGAGCCAAATGTGGCAACTTCAGTATTTTGTTGATTTAAGCGATTGTAATAATTTACCTATAGACAAACTATTAAATTTGTATTTGTAG	MNNFNDTIRNLNNIVYQPNNLMITNLKEEKQNAEYAGCLFHLNNKTIRFRKSKVTPNKIGQFVSFWEKDDNMQNQAFSYDAAPDLLVITCIDDHKLGQFILPKEILLKEKILRTQNQKGKMAMRIYPIWDKPVSNQAKKSQMWQLQYFVDLSDCNNLPIDKLLNLYL				NA	NA	NA	NA	NA
AK009_01284	369			hypothetical protein	ATGGACATAAAGAAAGTAGTAATCGATGGAATCAATATTGCGGTCATTAGAAACGATAAGGTATTAATATCGGATGTTCAGTCTGCATTAGATACTATGGCAACAGTTCAATACGAGGTAGATGCGAAGCATATTATTATCCACAAGTCATTAATAAGTGAAAGCTTCTTTGATTTAAAAACACGTCTTGCGGGTGATATCCTTCAAAAGTTTATAAACTACAAGGTAAAGATTGCTATCATTGGGGATTTCTCTATTTACACTAGTAAAAGCTTAAAAGACTTTATTTATGAATGTAATAAAGGGAATGACATTTTTTACTTAGCAACTGAGCAACAAGCAATTGAAAAACTAAGTACATTAAAGTAA	MDIKKVVIDGINIAVIRNDKVLISDVQSALDTMATVQYEVDAKHIIIHKSLISESFFDLKTRLAGDILQKFINYKVKIAIIGDFSIYTSKSLKDFIYECNKGNDIFYLATEQQAIEKLSTLK				NA	NA	NA	NA	NA
AK009_01285	696	ppaX_1		Pyrophosphatase PpaX	TTGAAGTGTTATAAAGGTATGCTGTTTGATTTAGATGATACCTTACTTGATAGGGATAAGGCAGTAGCGGCATTATTTTTAATTGTTTTAGAAAAGTGTTATGAAAATGTAGATGGTGCGGCTAAAAGCAACATGTTACAGAAATTCAAAGAATACGATAAAAGAGAATATGGCATAAGTAATAAAACGACAGTTTTAGAATCATTGTTTGATGAATTCACGCCGAAGTATAGATTGCCACGCAATTATATCCAAGATTTTTGGAATAATAATTTCCCTAGATGTTTTTCAATAGACCAAAATACTATTCATTTCTTAAATCAAATAAAGAAGCACTTTAAAGTTGGAATTATAACAAATGGCTCAACTCAGAGGCAAAAAGCTAAAATATTTAACACGAATTTAAATAGGTATTTTGAAACAATCATTATTTCTGAAGAAGTGGGATTTAGTAAACCTGATAAACGTATATTCGAACTAGCGTTAAATAAGCTAAATTTACAGCCGGAAAATACTTTATTTGTTGGGGATGACTTAGAAAAGGATATTGCTGGTCCTCAAAATATAAATATAAAAGGTGTGTGGTTTAACCCTCAAAAAATCAAGAATACTACCAAAATACAACCATATGCCGAGATTAACACTTTGGATAGTTTGTTAAGTTATGTTACTCCACAATATTTTTATAACAAGTAA	MKCYKGMLFDLDDTLLDRDKAVAALFLIVLEKCYENVDGAAKSNMLQKFKEYDKREYGISNKTTVLESLFDEFTPKYRLPRNYIQDFWNNNFPRCFSIDQNTIHFLNQIKKHFKVGIITNGSTQRQKAKIFNTNLNRYFETIIISEEVGFSKPDKRIFELALNKLNLQPENTLFVGDDLEKDIAGPQNINIKGVWFNPQKIKNTTKIQPYAEINTLDSLLSYVTPQYFYNK				NA	NA	NA	NA	NA
AK009_01286	666	regX3_1	COG0745	Sensory transduction protein regX3	ATGAAAAACTATCATATTCTCGTGGTAGAGGACGATCAAGAAATTCAGGAATTAATTAAACAATTTTTAATGACACAGCATTATACAGTGGTAGTCGCTTCAGATGGACTAGAGGGTATGACACAATTTAATAAGCAATCCTTTGATTTAATTCTCCTAGATGTCATGATGCCCAATCTTAATGGGTTTGAAGTTTCTAAAATGATTCGAAGTCAGTCAAACGTACCAATTATTATGCTAACTGCGTTGGAAGAAGAGGAAGATCAAATGAAAGGATTCGATCTTGGGATCGATGATTATATAACAAAACCCTTTTCATTTCATGTTTTGATTAGACGAGTCGAAGCTGTACTTAGAAGAAGTTATGATAAAAATGTAAATAATCATTTGATATTTAAAGAAGTTCGTATCGATGTGGATGCATATAGAGTCTATGTAAATGATGTTGAAATTATATTAACGACAAAAGAGTTTGAAATTCTACAACTACTATTTCAAAATGAGAGAAAAGTACTTACAAGAGAAAATATCGTAGAGAAGGTTTGGGGGTACGATTATTTTGGAGAAACACGAATAATTGATACACATATTAAAAACCTACGCAAAAAATTAGCTATCCCTTATATTAAAACAATAAAGGGTATTGGTTATAAAATTGATGAATAG	MKNYHILVVEDDQEIQELIKQFLMTQHYTVVVASDGLEGMTQFNKQSFDLILLDVMMPNLNGFEVSKMIRSQSNVPIIMLTALEEEEDQMKGFDLGIDDYITKPFSFHVLIRRVEAVLRRSYDKNVNNHLIFKEVRIDVDAYRVYVNDVEIILTTKEFEILQLLFQNERKVLTRENIVEKVWGYDYFGETRIIDTHIKNLRKKLAIPYIKTIKGIGYKIDE	PGPT0028460_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028460-vanRB|vanR|vanRD-K18344	NA	NA
AK009_01287	1461	sasA_4		Adaptive-response sensory-kinase SasA	ATGAATAGTATTGTGAAACTCATGAAGATGAAGCAAATTACTTATAAACTCTTTATGACTACATCTCTCATTTTGTTATCCTTTGCAGTATTGATTTATTTAACTTTATACTTCTTTCTCCCTACGTTTTATGAGCAATATAAAACAGATCAACTTCAAACAGGGATAAACGAAATCATTGATAAGTCTAAAAATCTTACGTTTCAAGATGCGATACCACTTTTTGATGAATACGCAAAAAAAAATAATGCGATGCTTTACCTTCAAAATAAAGAAGGAGTAATTATTTACTCTCCTTCATTTTCTTTTATTCAAAGTGGTACGCAAAAAACAGTAGTTACTAAAGCAACACGATTCGAGAATGCAAGTACCCTTAGCAATTCATATAACGTTACGAAACCAATTCAATTCCAAGATGGTAGTTTAACACTTATAGTCTTTGCTACATTTCAACCGATTGATGAAGCTTCACAGGTTTTAGTACGATTTCTCCCCTATATTAGTATCATTGTGCTCATTATTGGTATAGGAAGTGCTTATTTTTATTCCAGGTTTATTACAAAGCCACTTATTTATATTAATGAAGGTGCACAAAAGATGGCAAATTTAGATTTCTCCGAAAAAATTGAGGTTCGCTCTACAGATGAGTTAGGAGAATTGTCTAATAGTTTGAATGACATGTCTATTAACTTACAACAAGCTATGTTTGATTTAAAAAAAGCAAATGAACAATTAAAAAATGATATTGAAAAAGAAAGAGAAATAGAAACAAAACGCAGAGAGTTTTTTGCGATTGTAGCACATGAATTAAAGTCCCCTCTTACTGTAATGAAAGGATACTTAGAAGGGATGATATACAATATTGGCCCTTATCAAAATCGCGATCAATATTTAAAGAAAAATCATCAAATTATTGAAAGTATGGAACAATTAGTTCGTGAAATTTTAAGCGTATCGAAATTAGAACAACACACCTTCAAACTAAAAGTAGAGGAAGTTAATCCTTCAAAGTTAATAGGTACAATCACAAAAGATCTCGAATTTTTTGCTTCTCAAAAAAGTATCGAAATAATAAAAGAATTTGATTCTGACCTTTCTATTTATACAGATTGTGCTCTTTTAGAAAAAGCATGCAAAAATATTATCCACAATGCGGTTATGTATTCACCACATAATGAAAAAGTCTATATAAAGTTAAGAGAGAATTCTAAACAAGATCAAATCGAAATGAAAATTATAAATACAGGTATCAATATTAAAGATGAAGATATTCAACAAATTTTCAAACCATTTTATCGAATTGAAAAATCAAGGAATCGAAATACTGGAGGAAGTGGTTTGGGGCTATATATTGTTAAACAAATTCTTGAAACGTTAGATATAAAGTATTCAATAAAAAATATGGAACATAGTGTGCAATTTTGCATGAGTATTCCGCTATCTAAACATAAAAACAAATAA	MNSIVKLMKMKQITYKLFMTTSLILLSFAVLIYLTLYFFLPTFYEQYKTDQLQTGINEIIDKSKNLTFQDAIPLFDEYAKKNNAMLYLQNKEGVIIYSPSFSFIQSGTQKTVVTKATRFENASTLSNSYNVTKPIQFQDGSLTLIVFATFQPIDEASQVLVRFLPYISIIVLIIGIGSAYFYSRFITKPLIYINEGAQKMANLDFSEKIEVRSTDELGELSNSLNDMSINLQQAMFDLKKANEQLKNDIEKEREIETKRREFFAIVAHELKSPLTVMKGYLEGMIYNIGPYQNRDQYLKKNHQIIESMEQLVREILSVSKLEQHTFKLKVEEVNPSKLIGTITKDLEFFASQKSIEIIKEFDSDLSIYTDCALLEKACKNIIHNAVMYSPHNEKVYIKLRENSKQDQIEMKIINTGINIKDEDIQQIFKPFYRIEKSRNRNTGGSGLGLYIVKQILETLDIKYSIKNMEHSVQFCMSIPLSKHKNK	PGPT0028450_172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028450-vanSB|vanS|vanSD-K18345	NA	NA
AK009_01288	537			hypothetical protein	ATGGAAATAAGACCAAAGGTAAGTGAATATAACTCCTATTATGCAACGTATACCAACTTGGTATCAGACGGAAATATCATACATATTCTAGAACAACAAATGAAGGAAACGAATCTTTTATTAAAGGGAATTTCTAATAGTAAGGGACTTTTCCGGTATGCTCCTACTAAATGGAGTATAAAAGAAGTAATCGGTCATATAGCAGATACAGAACGTATTATGGCGTATCGATTGCTATCTATCGCTCGAGGCGAGACAGCAGAACTTCCAGGCTATAATGATGATATGTATGTTCTTAGAGCTGCTTTTGATAAGCAATCTATGCAAGATCTTCTTGAGAATTTAATAGTTGTTCGCCAATCTACCCTGTATTTACTTAGAAGCTTAGATAAAGAAGCCTGGTCACAAAGAGGAAATGCGAATAATTCTGAAGTTACAGTTCGTGCATTAGCATACATCATTGCCGGTCATGAGCTTCATCATCTTCAAATTATAAAAGAACGTTATCTTGGTTCTGATGCATATCCAGCAAGTTAA	MEIRPKVSEYNSYYATYTNLVSDGNIIHILEQQMKETNLLLKGISNSKGLFRYAPTKWSIKEVIGHIADTERIMAYRLLSIARGETAELPGYNDDMYVLRAAFDKQSMQDLLENLIVVRQSTLYLLRSLDKEAWSQRGNANNSEVTVRALAYIIAGHELHHLQIIKERYLGSDAYPAS				NA	NA	NA	NA	NA
AK009_01289	183			hypothetical protein	ATGTATGAACAACAAAATAATAGAGATAGAGATCAAAAAATGATGTTTTCGATGCAAGGAGTTCCCACAAATAAAATTAACATGAATCAATTACCTAAATGGATTAAAATTTTTGGATATTGTGCGTTTGGTTGGATGATAGTATTTAGTTTAATTATGATTGTAGGTTTAATTCTGCAATAA	MYEQQNNRDRDQKMMFSMQGVPTNKINMNQLPKWIKIFGYCAFGWMIVFSLIMIVGLILQ				NA	NA	NA	NA	NA
AK009_01290	678		COG1136	putative ABC transporter ATP-binding protein	ATGGAGACAATTTTACAGTTTAAAAATTTAGATTATTATTATGAAAGTAATGGAAAAAATGTAGCGATACTAGAAAATGTTAACTTTTCTTTTCAAAAAGGACATTTCTACACGATTTTAGGACCATCTGGATCTGGTAAAACCACAACTCTAAGCTTAGGTTGTGGACTAGATGTCCCTAAAAATGGTTATGTACTGTATAATGGCAAAGATATTAGAAAAATTGGTTTGGATCGATACCGTAATCAAAATGTATCTGTAATTTTCCAATCTTATAACTTAATAACCTATATGACAGCTCTTCAAAATGTCTTAACAGCAATGGAAATTACAGGTGTTAAAGTGCAAAATAAAACAGCAAGAGCATTACAGTTATTAGAGAGGGTAGGACTCTCAGAAGCTGAAGCGAAACGAAACGTCCTGCAACTAAGCGGTGGGCAACAACAGCGTGTAGCAATTGCTCGAGCACTATCTTGTAATGTTGATTTATTGATTGCGGATGAGCCAACAGGAAACCTTGATGAGCAAACCGCAATGGATATTATAGAACTGTTTCAAGAACTTGCACATAAAGAGAATAAATGTATTATTGTTGTGACGCACTCACAGGAGGTTGCTAAAAAATCAGATCGTGCAGTGTATTTAAGTAAGAAGAAGTTGGTTGTAAATGAAATCTAA	METILQFKNLDYYYESNGKNVAILENVNFSFQKGHFYTILGPSGSGKTTTLSLGCGLDVPKNGYVLYNGKDIRKIGLDRYRNQNVSVIFQSYNLITYMTALQNVLTAMEITGVKVQNKTARALQLLERVGLSEAEAKRNVLQLSGGQQQRVAIARALSCNVDLLIADEPTGNLDEQTAMDIIELFQELAHKENKCIIVVTHSQEVAKKSDRAVYLSKKKLVVNEI	PGPT0013345_14494	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01291	1425			hypothetical protein	ATGAATTTTATGAAACGAGCAATTCTCAGTATGAAAAAAAGGATAGGAACATCATTAATTTTGATGGCAGTTTTTCTGATTGTTACAAATTTGGTTCTTTCAGGTTTCACAATCCAAAATGCATCAAAAAAAGCAGCGGATGCTGCAAGAAAAAAACTTGGTGCAGATGTTACTTTAGGTCTTGATTTCGACAAATTAGGTCAAAAAGCTAAGGAAACTGGAGAAATGCCAAATCCGCCGCAGCTCGATGCAAAAGAAACAGATCAATTAGCGAAGTCCAAGTATGTAAAAGATTATAATTACATAGCTAACACTTTCGGTATTTCTGATGGGCTTAAACTAGTAGGAGCTTCAGAAGGAGAAGGAAAAGGTAAAGTGGGAATGGCGGCTGCGCGAGGCGGTTCAAGCTCTGGTACAGAAATCGATATGAACGCTTCTTTTATGATTGAGGGAGTTCGCAAGACTGCATTACAAGAAAGCTTTAAAAACGGAAAAAGTAAAATCATTGATGGAAAACCAATAACAGAGCAAATGAAGGATCAGAATGTAGCTTTAATGGAAAAACGATTAGCGGAATTAAACAATTTGAAAGTAGGAGACAAAGTTAAAGTGCAATCAGGGGATAAGAAGGAAACCCTTGAGGTTGAAATTATCGGTATTTACGAAACAAATGAGCAAGCAATGGGTCAACAGGCTCCTCCTATTATGGATCCAGCTAATAAACTATATATGCCGCATTCAACTATGAAAAAATTAGAAGTAGACCAAGGTATAAGTAGTGTTCAAGTCGTGTATTTCTTGAATGATCCACAATATATTGATGCATTTAAAAAAGAAGCAAGAAAATTTAATATTGATTTTAATTATTATAAATTAGATGCGCATGATTCATTGTACAAGCAAATGATTGGTCCTATCGAAAATATCTCTTCGACTTCTCAAATGATTATTTATATTGTATCGATTGCAGGTGCGATCATTTTAGGATTAATCATAATGCTATCAATTAAAGGGCGTCGTAAAGAAATGGGAATTCTATTGTCCATTGGAGAGAAAAAGTGGAAGCTGATGGCGCAATTCGTAGTAGAAGTAGTGTGTGTCGCTATTTTAGCATTTGGATTATCCATAACAACAGGAGCTAAAGTTTCTCAATATATCGGGGATAATTTACTTTCGAATGAAATTGCTACTTCAAGCGAAGAAACAGATACCTCGCAACATGGTACTGTAATGATGGCTGGACCTGGTGGTACTCTACAAAATCAAAAAGAAGATCCGATTAATAAAATTGATGTAAGTGTAACAGGAGAAGATGTAGGAAAAATGGGTGGAATTGGACTAGCTATTGCTATAATAGCAACGCTTCTTCCGGCATTATCTATTCTACGTTTAAACCCAAAACAAATTCTTTTAAAAGATGAATGA	MNFMKRAILSMKKRIGTSLILMAVFLIVTNLVLSGFTIQNASKKAADAARKKLGADVTLGLDFDKLGQKAKETGEMPNPPQLDAKETDQLAKSKYVKDYNYIANTFGISDGLKLVGASEGEGKGKVGMAAARGGSSSGTEIDMNASFMIEGVRKTALQESFKNGKSKIIDGKPITEQMKDQNVALMEKRLAELNNLKVGDKVKVQSGDKKETLEVEIIGIYETNEQAMGQQAPPIMDPANKLYMPHSTMKKLEVDQGISSVQVVYFLNDPQYIDAFKKEARKFNIDFNYYKLDAHDSLYKQMIGPIENISSTSQMIIYIVSIAGAIILGLIIMLSIKGRRKEMGILLSIGEKKWKLMAQFVVEVVCVAILAFGLSITTGAKVSQYIGDNLLSNEIATSSEETDTSQHGTVMMAGPGGTLQNQKEDPINKIDVSVTGEDVGKMGGIGLAIAIIATLLPALSILRLNPKQILLKDE	PGPT0013350_11675	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01292	1002			hypothetical protein	TTGATTTTTTCAAAACTCATTGATCGGTACGCCTTATATGATTTACATAAAAAAAGAAGTGTAGCATTTCAGTTTACTTCCCTTTCTAACACTTCATTAAATATAAAGGACATAGAATCTTTTTATAAAGTACAACCATCACATTTTCATTTTGACATTAAGCATTCAAAGCAGGAAAATGAATACATGGTTGGGCAATTCAACTATAAAAGTTCGGTTCAATCCGGTGATTCACGCAACGACTCTGTAACTGGGGAATTATTCTTACATAAAAATGAAAATGCACCTCATGTTATCTTTGTTCACGGTTGGAGAATGGATTCTAACGAACGTGTGAAAAAAATATTCCACGATCATATGACCAGCCTGAAGTGGAATATGTATTATTTCACTCTACCCTATCATTTTGAAAGAAAACCCGATCAATCCTTATTCAGTGGAGAGTATATGGTAAGTGCAAATATTGAACGAACATTACAAGCAACTAGACAAGCGGTAGCTGACTTACGAGCTTTGATTAAATGGATTAAAGCAAATAAAAATGGGCCCCTGATTCTAATAGGAATTAGTTTAGGCGGATTTATTACTAACTTAACCTCTCTTGTTGAAGAAGAAATTGATGTGTTAGCATCCATTTTCTATGCAAATCGACTTTCTTATTCTATTTGGAATACAACTCCAGGTAAATTTATTAGAGAAGACTTGGAACATCATGGTGTTACGTATGATGATTTAATAGATTATTGGAAAATCACTGAACCGAGTCAAGCATTGCCAAAAGTAAAAAAAGAAAATATTTTATTAATTTCAGGTAAGCATGATCTATATGTGCATTCTGAGGATACAGACTACTTGTGGGAATCTTGGGAAAGACCTCCACGATATATTTATAAATGTGGGCATGCCGGGATCGTTCTTAAACGTAAAAAAATTGCAACTGATACTATTGATTTTATTCAAAATCGATTGAACTCCCCGCACTTATCCAATGTCATGCCTTAA	MIFSKLIDRYALYDLHKKRSVAFQFTSLSNTSLNIKDIESFYKVQPSHFHFDIKHSKQENEYMVGQFNYKSSVQSGDSRNDSVTGELFLHKNENAPHVIFVHGWRMDSNERVKKIFHDHMTSLKWNMYYFTLPYHFERKPDQSLFSGEYMVSANIERTLQATRQAVADLRALIKWIKANKNGPLILIGISLGGFITNLTSLVEEEIDVLASIFYANRLSYSIWNTTPGKFIREDLEHHGVTYDDLIDYWKITEPSQALPKVKKENILLISGKHDLYVHSEDTDYLWESWERPPRYIYKCGHAGIVLKRKKIATDTIDFIQNRLNSPHLSNVMP				NA	NA	NA	NA	NA
AK009_01293	957	nlhH	COG0657	Carboxylesterase NlhH	ATGAAAACTAGAGTAAATCCAGAATTATTACAAGGGTTAGAGATGTTTCCGGATCTCGATTTACGCCCGGAAAACTTGCAATCAATCAGAGAAGGAATAGCTCAAATGAGACCACCTACCGTTGTTGATGACTCTCTTTCTTTAACAGATAAAGTCATTGTTGGGCCTGATGATAATCCGTTACCATTACGAATTTATCGTCCAAAATCAAATCATGAATCTTTACCTGTCTTATTATGGATACATGGTGGTGGTTATATCTTAGGTTCTATAGATGATAACGATGATACTTGTATGAGGTTTGCAAAAGAAGCTGGCTGTGTGGTTGTATCTGTAGACTACCGCTTAGCACCTGAACACCCTTACCCAGCACCAATTGAGGATTGTTATTCAGCTTTAAAATGGATTGCTGATAATGCAAAGTCATTAAACATTGATTCAAATCGTATTGGGGTTGCAGGAGTAAGTGCCGGCGGTGGACTAACAGCAGCATTATCATTATTAGCCCGAGATCGAAAATATCCTTCAATTTGTTTACAAATGCCACTATATCCAATGATTGATGACAGAAATGATACACCTTCAGCGAATGAAATTAAAGAGGGATTTGTTTGGAATCAAAAGGAAAATGAAGCTGGCTGGAAAATGTATTTAGGAGAAATGTATGGAACGGATCAAATCCCTGCCTATGCAGCACCTTCTCGAGCTGAGGATTATAGTGACTTACCGTATACTTACACATTTGTTGGTCAATTAGATCCATTCCGCAGCGAAACATTAACCTATGTAAGCAAACTAGCGCAAGCTGGTGTTGATGTGGAGTTTCATTTATATCCAAATGCCTATCACTGGTTTGAAGGGTTAAATCCAAATGCCGATGTATCTATTTATGCTGTGAACGAAATAGTACAAGCAATAAAGACTGGTTTCAAACGAGTATCCAAGGTTGAGGCTTAA	MKTRVNPELLQGLEMFPDLDLRPENLQSIREGIAQMRPPTVVDDSLSLTDKVIVGPDDNPLPLRIYRPKSNHESLPVLLWIHGGGYILGSIDDNDDTCMRFAKEAGCVVVSVDYRLAPEHPYPAPIEDCYSALKWIADNAKSLNIDSNRIGVAGVSAGGGLTAALSLLARDRKYPSICLQMPLYPMIDDRNDTPSANEIKEGFVWNQKENEAGWKMYLGEMYGTDQIPAYAAPSRAEDYSDLPYTYTFVGQLDPFRSETLTYVSKLAQAGVDVEFHLYPNAYHWFEGLNPNADVSIYAVNEIVQAIKTGFKRVSKVEA				NA	NA	NA	NA	NA
AK009_01294	1455		COG0076	Tryptophan decarboxylase	ATGACAAAAAACTTGCAGCTATCAGCCGAAGAAATGCGTCAGTTAGGATATCAAGCGGTTGACTTGATTGTTGATCATATGAATCATTTAAAAAGTAAACCAGTTTCAGAAACGATTGATAGTAATATTTTTAGAGACAAGCTAATTGAAACGATTCCGGAAAACGGATCTAATCCAAAAGAATTACTTCATTTTCTTAATAACAATGTGTTTAATCAAATTACTCATGTGGATCATCCTCATTTTATGGCTTTTGTGCCAGGTCCTAACAATTATGTTGGTGTATTAGCAGATTTTTTAGCAAGTGGGTTTAATGTATTTCCTACAGCTTGGATAGTAGGTGCAGGTGCCGAACAAATTGAATTAACGACAATTAACTGGTTAAAATCAATGCTAGGATTCCCTGATTCAGCTGAAGGACTATTTGTCAGTGGTGGTTCCATGGCTAATTTGACTGCACTTACTGTAGCGAGACAGGTCAAGCTGAATAATGACATAGAAAATGCGATTGTTTATTTTTCTAACCAAACTCATTTTTCTGTAGATCGAGCACTTAAAGTATTAGGTTTTAAACAGCATCAAATTTGCCGAATTGAGACAGATGAAGACTTAAAAATTTCAGTTAGTACTTTAAGAAAACAAATAAAAGAAGATCGATTAAAAGGGAAAAAACCATTCTGTGTTATTGCTAATGCAGGGACAACGAATTGCGGAGCGGTGGACTCCCTCGATGAATTGGCTGATGTATGTGGTGATGAAGATATATGGCTACACGTGGATGGGGCTTATGGGGCTGCAGCAATTCTCAGTGAAAAAGGAAGGGAGTTATTAAGTGGAATTCATCGTGCCGATTCTTTAACGTTAGACCCGCATAAATGGCTTTTTCAGCCTTATGATGTTGGTTGTGTACTTATTCGAAATAGCCAATATTTAAGTGAAACATTCCGTATGATCCCAGAGTATATTAAGGATACAGAAACTAATATAGAAGAAAAAGTGAATTTTGGGGAGCGTGGAATTGAACTTTCTCGTAGATTTAGAGCATTAAAGGTATGGCTTTCTTTTAAAGCATTCGGAGTTACAGCTTTTCGTGAGGCAATTGATCATGGCATTATGCTAGCTGAACAAGTTGAAGAGTTTTTAAGGAAAGAAAAAGATTGGGAAGTAGTAACACCCGCCCAATTAGGAATTGTTACTTTTCGTTATATTCCATGTGAGCTAACATCTACAGATACAATTCATGAAATAAACAAAAAATTGGTGGAAGAAATTAATCAAAGAGGATTTGCTATGCTAAGTACTACTAAATTAAAAGAAAAAGTAGTAATTCGACTTTGCTCTATCAACCCAAGGACAACAAAAGAAGAAATACTTCAAATCATGATGAACATAAAAGCATTGGCAGAGGAAATAAACACATCGCCTAAACATCTTATATCTGTTTCTCAACCTTGA	MTKNLQLSAEEMRQLGYQAVDLIVDHMNHLKSKPVSETIDSNIFRDKLIETIPENGSNPKELLHFLNNNVFNQITHVDHPHFMAFVPGPNNYVGVLADFLASGFNVFPTAWIVGAGAEQIELTTINWLKSMLGFPDSAEGLFVSGGSMANLTALTVARQVKLNNDIENAIVYFSNQTHFSVDRALKVLGFKQHQICRIETDEDLKISVSTLRKQIKEDRLKGKKPFCVIANAGTTNCGAVDSLDELADVCGDEDIWLHVDGAYGAAAILSEKGRELLSGIHRADSLTLDPHKWLFQPYDVGCVLIRNSQYLSETFRMIPEYIKDTETNIEEKVNFGERGIELSRRFRALKVWLSFKAFGVTAFREAIDHGIMLAEQVEEFLRKEKDWEVVTPAQLGIVTFRYIPCELTSTDTIHEINKKLVEEINQRGFAMLSTTKLKEKVVIRLCSINPRTTKEEILQIMMNIKALAEEINTSPKHLISVSQP	PGPT0020450_1097	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020450-ddc-K01593	NA	NA
AK009_01295	7017	tycC_1		Tyrocidine synthase 3	ATGCACATTAAAGATCGAAGTTCAATTCATGAAAATAAAGAAGTAGAAGCGTTTTGGAAGGAGCAATTATCTTCCGAGATTCTCGATTTTTCTGTATTTAAATTTAATAGCGATTACCAACTAAATAAAGAAACACCTTGTGAGTACGTTCAAGTCAGAGTGAATGTAGAATTTAGTAAAAGTATACAAAAAATAAGTAAGTCTCAAGATTTATTATTATTTAGCTGGTTTCAAGCCGCTTTAAGGGTTTGTTTGGCACATTATACAGATCAAGAAAGAATTACCATTGGTATTCCTAGAATTGAAAAGAATCTTGAACAAAGTGAGAATCTTAATAAGTTGATTCCTTTAGGAAGTGAAATCCATCCGCATCACCCCTTTAAACAATTAGTAAATGAGATTGAACAAACGACTTTATTCGGGTATGAAAATCAGGAGTATCCGCTCTCTGAATTATTAGTTAAACACAATTTAACTCCTTTTCAAATTGTAATCGGGATGGAAGGATTACATAATGAAAATTCGCTAGAAGAATACGCAGAGAATAATTTAGCCCTATGGATACGAAGAAAATGGAATGAAATACATAATGAATTTGAATTTCAAATTTCTTGTAAGTCCCGTTCATTCTCTTCTTTGCAACAGTTTGCCAATTCGTATTGTTATGTTTTAAAGCAAGTTTCACAAAATCCGAATTTGGCATTGAAAGATATTTGTATTATTGCAGAAGAAGAAAAAGAGTTGTTAGAAGGATTGAATACTTTTCAAACGGGCATAGACTTGTTTCAATCATTTCAAGATTTGTTTGAAGCGCAAGTATTAAAAACTCCAGATCAAATTGCTGTTGTTTGTAATGATCAATCTTTGACATATAGAGAATTGAATAAGAAAGCGAATCAATTGGCTTCTATTCTTCAAAGTAAAGGTGTTTCAAAAGAAAGTATTATTGGCGTTATGGTAGATCGGTCATTAGAAATGATTATTGGTATGATGGGGATTTTAAAAGCAGGAGCAGCGTATTTACCAATCGACCCTAACTACCCAACTGAACGAATTGAATATATGTTACAAGATAGTCAAGCAAAATATTTACTTAGTAAGCGAACAGAGGAAGTATTGCCGCAATTTGCGGGTGAAGTACTGTATCTTGATAAAGAATATCTTTTCCAAGGTGAAGAAAGTAATTTAGTACGAGAACATAATCCTAATGATTTGGCTTATGTTATTTACACATCAGGATCGACAGGAAATCCAAAAGGGGTAATGATAGAACAAAAATCGCTAGTTCATTTTTTAAATGTAATGAGAGAAAAAGTAAAAGCTAATCAATCATTCTTGTTTCTTGCTAGTGTATCTTTTGATATTTCCTTGTTAGAAATATGTCTTCCTTTAACGCAAGGTTCAAAAGTAGTAATTGCTACAGAGGAACAGTTTGCAACAAAAGAATTGGCTCATTTGGTCAAAAAACATAAGGTGGATTTATGGGAATCAACGCCATCGCGAATGGAAGTGATTTTGAGTGATCCAGAAGGGGCAAATTTTCTAAAAGATTTAAAATCTATTTTATTAGCAGGAGAAGCATTTTCCATTGATTTGGTTGAAAAAATTCGTTGTATCAGTGAAGCAACAATTTTAAATATTTATGGTCCCACAGAAACAACCATTTGCGCAACAGTAAAAGACTTGAGCACTTCCAAAGAAGTTACGATCGGCAAACCAAATCCGAATTATCATTCCTATATATTGAATAAGTATGGCCAATTAAAACCATTTGGAATTCCCGGTGAACTCTGCATTGCTGGAGTAGCGGTAGCACGAGGGTATCTTGGTAAAAGTAAACTGACAGATGAAAAATTTGTACAGAGTCCTTTTGCGGCAGGGGAAATGATGTATCATACAGGTGATCTCGTTCGTTGGTTGCCTAATGGAGAACTTGAGTATTTAGGTCGAATGGATCATCAAGTGAAAATTCGAGGGTATCGGATTGAATTAAGAGAAATCGAAACTCAATTAAGGGAATATCCAGAAATAAACCAGGCTATCGTTGTTGATCAAGTGTATGGAAATAGGAAATTATTAGCTGCCTACTATGTATCGGATAACAAGGTGTCTTTTGGTGAAATCAGAAAATATTTAAGTGATAAATTACCTGAGTTTATGATTCCTGAAAAAATGATTCAGGTAGAAGAGATTCCATTGAATCCAAATGGAAAAGTGGATAGAAAAAGGTTATTGGATATAACCCAAACGGATTATGTATCAATTCCATACGTTGCCCCGCGCAATGAAATTGAACAAAAATTGGTGCGTGCGTGGGAAAAAGTTATGGAGATTGAGGGAATCGGTATTCATGATAATTTTTTTGCATTAAAAGGAGAATCCATTAAAGCACTTCAGGTAATTAATTTATTAAGAAAAGACTGCTTAAAAATAAGTACAACAGATTTTTTTAAGCACCCTACAATCGCTCAACTGAGTTCTTGTGTAAAGTTAGAGCATAAAGAAGAAAACTTTGAAAGTAAACCAACTCATGTTAAAGATTTGTCTAATCCATTCTCCTTAACAGAAGTTCAGACAGCGTATATGTTAGGAAGGAATTCACAGTTTGAATTAAGTGGTATTTCCCCTCAAACATATTTTGAATATGAAACAGCATTGGATATCAATCGTCTTTCAAAAAGTTTTCAAAAGGTGATCCATCGTCATCCAATGTTGCGAGCTGTAATTTTACCAGAGGGAAAACAGCAAATATTACAAAGCGTTCCTGATTACGAGATTGAAATAGAGAGTCTCATAGATTTAGATGATAGGAATCAACATGCTCGCTTACAAGAAGAGCGTTCTCGAATGACTAACCATGTATTCCCTTTGGGGCAATGGCCTTTGTTTGAATTGAAAGCTTTTCTTTTAAAAGAAGACACGTATTTATTATGTTTTCGATACGATGCTTTGTTAATGGACGGAGCAAGCATGAACATTGTTGGACAGGATTTGTTGCATTATTATTATAAACCAAATCAAAAATTAGAATCTTTATCTTTTGATTTTCAAGATTATATGTTTATCTATGATGAAATGAAACAAATCGGAGAATATAAAACAGCAAAAGATTATTGGACAAGTAAGCTTCCTGACTTTCCGTTTGCACCTTCTTTGCTGTTAAAAAAGGATCCAGCAGAGATTGCTACTCCTAAATTCCAATCACTTACAAAAATCCTGGACAATGAAAAATGGACAAAGCTACGAAAGTTAGCACAAGAGAAAGAGGTAACGCCTTCCGCTCTACTTTGTACAATATATGGTGATGTGTTGGCATATTGGAGTAATCAACGTCGATTAGCAATTAATTTGACTGTATTTAACCGTTATCCTGTTCATGATGAAGTAGAACAGATTGTAGGAGATTTCACATCGCTTATTTTGTTGGATGTTGATGTAAAACCAGAGCAAACTTTCTTTACTAGAGTAAAAGAAACGCAATCTACTTTATTAGATGGCCTTGAACATCGTCATTACGATGGAGTTAACTTTATTCGAGATTTTACTCGATATCATCAAATGACGCCAAAAGCAGTTATGCCAATCGTTTTCACCTCGATGTTAGCAGGTGCAGGTGCTTTCTCTTGGGAACAACTTGGTTCTCTTCGCTATATTCATGCTCGGACTCCACAAGTGTATTTGGATAATGTAGTAATTGAAAAAAATGGTGAGTTATTAATTAGCTGGAATTATGTTGAAGAGTTGTTTGATATTGATGTGATAGAAGCAATGTTTTCCCAATTTGTTGACTTATTGGAACAATTGGTGAAACAAAGCGATATAACATCTTTGCAGATGAAAGAATCGGATCAAACTTTAATTGAACAATATAATGAAACAACAGAAAAAATACCTTCAACTACTCTGTATCAATTATTTACAGACCAAGTAAAACGTACACCGAATGAAGTAGCGGTGGTATTTGAGCAAAAATGGTTAACATACTCGGAACTTCATAAACGCTCCAATCAAATTGCCCACTTCTTAAAAGAGCAGGGCATTGGTCTTGGTGACAAAGTCGGTCTTTTAGCCAAAAGACGAGTTGACACAATTGTTAATATGCTAGGTATTTTAAAAGCAGGTGCTGCTTATGTTCCGATTGATCCCAATCATCCTTTAGATCGCCAAACATATATTTTAAAAAATAGCTCATGCAAGCTTTTATTAGAACCTAGTCTTTATGAAGAAAATGATTTGTCATTTTATACAACAGAAGACATGCCCGCTATTGCTGGTCCAGAAGATATTGCCTATATTATATACACTTCAGGAAGTACAGGAAAACCAAAAGGAGTAATTATTACTCACCAAGCGGTTACAAATACGATTCAAGACATAAATCAAAAATATGAGGTAAATGAAGATGATCGTATTATTGGTATCTCTTCCATGTGTTTTGACCTATCTGTATACGATATTTTCGGAGCTTTAAGCACAGGTGCAATGTTAGTAATGATTCGTGATCCGAGAGACATGCAAGAATTAATCCGCACTGTCGAACGTAGAGGGATTACAATTTGGAATACAGTGCCTGCAATCATGGATTTGGCATTGGATCAAGTAGGTTCTCATTTTGAACATTCTTCTTTACGTTTAGTTTTACATAGTGGAGATTGGATTCCCCTTTCTTTACCAGAAAAAATAAAACGACATTTTCCGATTGCAGAAGTAGTTTCACTAGGAGGAGCAACAGAAGCATCGATTTGGTCAATTTATTATCCGGTCAAACAGGTGGAATCACATTGGAATAGTATTCCATACGGGATGCCCTTGGCAAACCAAACGTATTATGTGTTGAACTATGAAAAGAAAATGTGCCCTGTTGGTGTAATTGGAGATTTATATATCGGGGGAGTGGGCCTTGCTAAAGGATATTTAAATGATGAAAAGAAAACAAATGAAGCGTTTGTGTCACATCCTGATTTTGGTCTTATATACAAAACAGGAGATTGTGGAAAAATGCATTCTGAGGGATATATTGAATTTTTAGGCCGCCAAGATTACCAAGTAAAAATTCAAGGGTATCGAGTAGAGTTAGAAGAAATCGCTCATTGTCTTCTAACTTATAAACAAGTCGAACATGCTGTCGTAATTGATCAAACAGATGAGAACGGAATAAAATTTTTAGTTGCATATGTGGTAACTGAGCAAAATATTAGTACAACAGAACTACGAAAGCATTTGCGAGATCACTTGCCAGATTACATGATTCCTTCTTATTTTGTTTATTTGGATCAATTACCCTTGACTCCAAACGGTAAATTAGATAGAAAAGCGCTCCCTACTCCCGAGAAACAAACAAATGAAGTATTTATTGCTCCAAAAACTGAAATGGAAAAAATATTAACTAGTATTTGGCAAGAAGTACTCAAAATAGATCAAGTTGGAGTAAATGATCATTTCTTCGCCTTAGGTGGAGATTCGATAAAAGCGATTCAAGTGTCCGTCAGACTGTATCGACAAGGATTTGAGCTTGAACCAAAAAATCTATTTTCATTTCCTATATTAAGGGACATGGTTCAATTTGTTAAAAAGCTAGACCATTTTTCAAGTTCACAAACAAATGATGTAAACATAATGAACGATAATAAAGCTACATTACTAAATATTAAAGATAAACAACTTAATCAACAAACACTTACCAAAATACAAGAAAAAATGCCGGATATAAAAATAGAACGTATTTACCCGTTAGCACCTTTCCAAGAAGTTATTTATGAACATGCTACGAATGAACCTGATACAAATGCATATTTTGAACAAACAATTTGGGTACTTGAGGGGGAGTTGGATATTAAACTCTTTATTCAGTGTTTCCAACAATTAGTTGATCGTCATGATTCTTTAAGAACAATAATTGTGCAAGATGAACAAGCAAAACCTTGGCAAGCTGTTCTATATGATGTTCAAATAAATTCAGAAATAAAAAACTTGATTGAGATGACGAAACAAGAACAGCAAGAATTCCTAAAACAGTGGATGAATGAAAATTTAAGTCGAGGATTTAAAAATGATGAACTTATGACACGTCTCTGTATATTCCAACTAGGTAATAACGAGCATAAGGTAATTTGGAGTTCCCATCATCTATTATGTGATGGTTGGAGCGTCAGCATTTTGATAGACGAATTATTCCAGCTCTATGAAACAACAAATGCGGGAACTACGGCGGGGTTACCTATAGTAAAACCTTTTGAAACATTCATAGACTGGACTTTGGTACAAGATCATGAGAAAGCACGTCATTTTTGGAGGGATTATTTATCAGGATACAATCAGAAAATTAGTATTCCTAAAAAGGAAGTCCCATCTAAAAGTGAAGGGTTAAACTTCACTTTTATGGATTTAACCTTAGACAAGGATTTGACTAATCAGTTACAGACATTTGTAACTAAAAACAATATAACTATGAATACAGCACTACTAGCTGTATGGGGAATATTACTTGGCAAATTCAACGGAACGAGAGAAGTAGTATTGCCTAATCTCGTATCAGTCAGACCTCCCGAAGTAGAAGGAATTGAAAGTATGTTCGGTCTGTTCACAAATGTTTTGCCTATCCGATTAGCATGGACAGAAACGCAGTCTTTTGTGGACTTCCTGCAAAAGGTACAACTAGAGACATTGAAATGTAATGAGTATGCATACTATTCATTTGTTGATATACAAAAGCAAAGTGAATTAAAAACTGAGTTGACTGACCATCTTTGGGTTTTTGAAAACTATCCAACTAATCCAGCAATCTTTTCTTCAAATGAAAACAGACATTTTGCTATCACGGATTACGAAGTTGTTGATGAGCCACATGTAAAGTATGGAATTATGTGCTTCCCTGAAGAAAGACTTACAATAAAGTTTGGATATGATCAAACGGTATATGAAGCAGAGAAAATACAGGAAATATTAAATCACATCCATTGCTTAATCAACATGATTCTTCAAAATCCAATACAAACAATTTGTGATTACAAATTATAA	MHIKDRSSIHENKEVEAFWKEQLSSEILDFSVFKFNSDYQLNKETPCEYVQVRVNVEFSKSIQKISKSQDLLLFSWFQAALRVCLAHYTDQERITIGIPRIEKNLEQSENLNKLIPLGSEIHPHHPFKQLVNEIEQTTLFGYENQEYPLSELLVKHNLTPFQIVIGMEGLHNENSLEEYAENNLALWIRRKWNEIHNEFEFQISCKSRSFSSLQQFANSYCYVLKQVSQNPNLALKDICIIAEEEKELLEGLNTFQTGIDLFQSFQDLFEAQVLKTPDQIAVVCNDQSLTYRELNKKANQLASILQSKGVSKESIIGVMVDRSLEMIIGMMGILKAGAAYLPIDPNYPTERIEYMLQDSQAKYLLSKRTEEVLPQFAGEVLYLDKEYLFQGEESNLVREHNPNDLAYVIYTSGSTGNPKGVMIEQKSLVHFLNVMREKVKANQSFLFLASVSFDISLLEICLPLTQGSKVVIATEEQFATKELAHLVKKHKVDLWESTPSRMEVILSDPEGANFLKDLKSILLAGEAFSIDLVEKIRCISEATILNIYGPTETTICATVKDLSTSKEVTIGKPNPNYHSYILNKYGQLKPFGIPGELCIAGVAVARGYLGKSKLTDEKFVQSPFAAGEMMYHTGDLVRWLPNGELEYLGRMDHQVKIRGYRIELREIETQLREYPEINQAIVVDQVYGNRKLLAAYYVSDNKVSFGEIRKYLSDKLPEFMIPEKMIQVEEIPLNPNGKVDRKRLLDITQTDYVSIPYVAPRNEIEQKLVRAWEKVMEIEGIGIHDNFFALKGESIKALQVINLLRKDCLKISTTDFFKHPTIAQLSSCVKLEHKEENFESKPTHVKDLSNPFSLTEVQTAYMLGRNSQFELSGISPQTYFEYETALDINRLSKSFQKVIHRHPMLRAVILPEGKQQILQSVPDYEIEIESLIDLDDRNQHARLQEERSRMTNHVFPLGQWPLFELKAFLLKEDTYLLCFRYDALLMDGASMNIVGQDLLHYYYKPNQKLESLSFDFQDYMFIYDEMKQIGEYKTAKDYWTSKLPDFPFAPSLLLKKDPAEIATPKFQSLTKILDNEKWTKLRKLAQEKEVTPSALLCTIYGDVLAYWSNQRRLAINLTVFNRYPVHDEVEQIVGDFTSLILLDVDVKPEQTFFTRVKETQSTLLDGLEHRHYDGVNFIRDFTRYHQMTPKAVMPIVFTSMLAGAGAFSWEQLGSLRYIHARTPQVYLDNVVIEKNGELLISWNYVEELFDIDVIEAMFSQFVDLLEQLVKQSDITSLQMKESDQTLIEQYNETTEKIPSTTLYQLFTDQVKRTPNEVAVVFEQKWLTYSELHKRSNQIAHFLKEQGIGLGDKVGLLAKRRVDTIVNMLGILKAGAAYVPIDPNHPLDRQTYILKNSSCKLLLEPSLYEENDLSFYTTEDMPAIAGPEDIAYIIYTSGSTGKPKGVIITHQAVTNTIQDINQKYEVNEDDRIIGISSMCFDLSVYDIFGALSTGAMLVMIRDPRDMQELIRTVERRGITIWNTVPAIMDLALDQVGSHFEHSSLRLVLHSGDWIPLSLPEKIKRHFPIAEVVSLGGATEASIWSIYYPVKQVESHWNSIPYGMPLANQTYYVLNYEKKMCPVGVIGDLYIGGVGLAKGYLNDEKKTNEAFVSHPDFGLIYKTGDCGKMHSEGYIEFLGRQDYQVKIQGYRVELEEIAHCLLTYKQVEHAVVIDQTDENGIKFLVAYVVTEQNISTTELRKHLRDHLPDYMIPSYFVYLDQLPLTPNGKLDRKALPTPEKQTNEVFIAPKTEMEKILTSIWQEVLKIDQVGVNDHFFALGGDSIKAIQVSVRLYRQGFELEPKNLFSFPILRDMVQFVKKLDHFSSSQTNDVNIMNDNKATLLNIKDKQLNQQTLTKIQEKMPDIKIERIYPLAPFQEVIYEHATNEPDTNAYFEQTIWVLEGELDIKLFIQCFQQLVDRHDSLRTIIVQDEQAKPWQAVLYDVQINSEIKNLIEMTKQEQQEFLKQWMNENLSRGFKNDELMTRLCIFQLGNNEHKVIWSSHHLLCDGWSVSILIDELFQLYETTNAGTTAGLPIVKPFETFIDWTLVQDHEKARHFWRDYLSGYNQKISIPKKEVPSKSEGLNFTFMDLTLDKDLTNQLQTFVTKNNITMNTALLAVWGILLGKFNGTREVVLPNLVSVRPPEVEGIESMFGLFTNVLPIRLAWTETQSFVDFLQKVQLETLKCNEYAYYSFVDIQKQSELKTELTDHLWVFENYPTNPAIFSSNENRHFAITDYEVVDEPHVKYGIMCFPEERLTIKFGYDQTVYEAEKIQEILNHIHCLINMILQNPIQTICDYKL	PGPT0009845_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009845-srfAA|lchAA-K15654	NA	NA
AK009_01296	978			hypothetical protein	ATGAGCGAGAAAATTTATTACTGGTCTCCGATTAAGCATTGGGAGAAGTTGCATAATGAAGTTTTGATAGGGGAAATGAGATTTACAGGTATTCTGTCTGAGTGGTTTCCAGATTTTTATTTTATGGCTCAAAAAGGTGTGAAAATTAGTGAACTAGTAGAGCGCTTTTCGTTAGGAAATGTAGAAGAGACACAAAAAAACATAGAGCTCATGATAAAAAATCGTGTGTTAGTAAGTAATATATTACACCCAAGAGAAGTATTTTCTTCACAAGAAAAGATTTTTTCAAATCCATATAGCAACCAGATTCGCTTTTCTAAAGAAAAGTTAGATAAGTATATGAGTGAACAATTAAATCGCACGCACGTTGCTGCACGGTCGACCGAAATTCAACTTGAAACAACAAATGAGCTACCTACTATAATTAAGGAACGTAGATCTTGTCGTCAATTTGATACGGAAAAACATATTAGTTTTTCGGAATTTTCCCAATTCTTATCAACTCTAAAACAGGTTAAGGAAGAAAAAATATACTATCATTACGCAAGTGCAGGCGGGCTCTATCCCATTGATATCTTTGTTTATATAAAACCAAAACGTATAGAGGGTATGAAAGCTGGATTTTATTATTATAACCCATCAAAAAACAGTCTTGTGATTGTAAACAACATTGATCAAGTGATCAAAAGTGATCATGAGTTAATTAATCAGGATTTATTTACTCAATCTGCATTCTCAGTTTATTTGATTTATAATGCGAACGCTTCTATCCCGAAATACGGTTCAGATGGATATTTATTTGCTTGTATTGAGTCAGGCATTATCACTGCTACCTTAAATATGGTTGCTGAAACATTAAATTTAGGGGTTTGTTCAGTTGGTCATATGAAATTTGAAGATATTCAGCAATTTTTATGTTTGGATAATCATCAAGTGTTTCTCCATGGGCTTGAAGTTGGCTTAAAAATTAACGAGTAG	MSEKIYYWSPIKHWEKLHNEVLIGEMRFTGILSEWFPDFYFMAQKGVKISELVERFSLGNVEETQKNIELMIKNRVLVSNILHPREVFSSQEKIFSNPYSNQIRFSKEKLDKYMSEQLNRTHVAARSTEIQLETTNELPTIIKERRSCRQFDTEKHISFSEFSQFLSTLKQVKEEKIYYHYASAGGLYPIDIFVYIKPKRIEGMKAGFYYYNPSKNSLVIVNNIDQVIKSDHELINQDLFTQSAFSVYLIYNANASIPKYGSDGYLFACIESGIITATLNMVAETLNLGVCSVGHMKFEDIQQFLCLDNHQVFLHGLEVGLKINE				NA	NA	NA	NA	NA
AK009_01297	2562	pulA	COG1523	Pullulanase	GTGGTGCAAATTATAAAAAGATTAATTAACAAAACAGTTTTATTACTTACTTTAATCGTTATGTTATCATCTGTTTTCTCCTTTCATGGTGTGAAGGCAGTTTCAAATTCGAAAACAACTGAAGTTATCATTCATTACAAAGAGAAGCTTGGAAATACAAAAGACTGGAATCTTTGGTTATGGGGAGAAAATGCAAATGGTACATCTTATGAATTTACTGGTGAAGATGAATTTGGAAAATACGCTAAGATAAAAATAGACGGTGACTATAATCGTGTAGGATTTATAGTTCGAACAAATGAATGGGAAAAAGATGGTGGGGATCGTTGGATTGAAAATATAAAGGGCGGTCGTGCTGAAGTATGGATTCTTTCGGGCGATGAAAAAGTATATAACTCTAAGCCTTCTTCAGATCTCTCAATTCAAAAAGCAACTATTGATAGTTTCCATGAAATTACCATAACGACTAATGTCCCGTTTCATATTAGGGAAAAGAAAATTGAAATTGAAGGCATTAAAATTAAAAATATTAGTCCTTATGATATAAATAGTGGAGATATTACTAATAAGGTCAAAATAATTACGGAACAGAAAATTGATTTAAAACAAACATACAAAGTTAAAATAGAAAACTTAGCTGATACGAATACTGAAATTGGTAAAGTCATTCGTAGCGAGGAATTTGATAATTTATTTTATTATAGTGGTAACGATTTAGGGAATACATATACCGCGCAACATACAAAGTTCCGTTTATGGGCTCCTACTGCAAGCGAAGCGAAGTTAGTTACATATAAAAACTGGAACGATAAAATAGGTGCTGAAATAAACATGCAACAAGGTGAAAAGGGAACTTGGACAGCAGAACTAAAGGGGAATCAAAAAGGGCTCTTTTATACGTATAAGGTCAAAATTGGTGATACATGGACTGAAGCGGTTGATCCATATGTGCGTGCTGCTTCTGTAAATGGAGATAAAGGTGCAGTCGTTAATTTAGAAGAAACAAATCCGAAAAAATGGAAAGCAAACAAAAAGCCAAAATTTAAAAATCCGGAAGATGCTATTATTTATGAGTTACATGTACGCGATCTTTCCATCCAACCTGAAAGTGGTATTAAACAGAAAGGGAAGTATTTAGGTGTAACAGAAAAAGGAACAAAAGGGCCAGAAGGTGTAAAAACAGGACTTGATCATATAAAGGATCTAGGTGTTACTCACGTTCAGTTTTTACCGATATTTGATTATGCTTCTGTAAATGAAGAGACTTTAAATGAACCGCAATATAACTGGGGATATGATCCTAAAAATTTCAACGTTCCAGAAGGCTCCTATTCTACAAATCCTTATGAGCCGACTGTGCGAATAACTGAATTGAAGCAAATGGTTCAAACACTACATGATAATAATCTTCGAGTAGTGATGGATGTAGTATATAACCATATGTATAACGCTGCTGAATCTAATTTCCATAAGTTAGTTCCAGGTTATTATTATCGTTACAATGAAGATGGAACATTTGCAAATGGAACTGGAGTAGGAAATGATACTGCTTCAGAAAGAAAAATGATGAGGAAATTTATGATAGATTCCGTCACATATTGGGCAAAAGAATACAATTTAGATGGATTCCGTTTTGATTTAATGGGTATTCATGATTATGAAACGATGAATGAAATACGTAAAGCTGTTAATCAAATTGACCCTTCTATTATACTACACGGAGAAGGATGGGATTTAAATACACCTCTTGCAGCTGAGCTGAAAGCAAATCAAAAAAATGCAGAGAAAATGAAAGGGATTGCTCATTTTAACGATAATATACGTGATGGGTTGAAAGGTAGTGTATTTGAGGAAAAGGAAAATGGTTTTATAAATGGAAAGGAAAACATGGAAGATTGTATTAAAAAAGGTATTACGGCAGGTATTGACTACGATACAAATTCGTCTACCTATCAAGATCCGGAACAGGTATTAACTTATGTGGAAGCACATGACAATCATACATTATGGGATAAACTTGAGTTAACTAATTCAGGTGACAGTGAAGAAGTGCGAAAACAAATGCACAAATTGTCTTCTTCAATTTTATTAACATCACAAGGAGTTCCATTTTTACATGCAGGGCAAGAGTTTATGCGGACGAAATACGGTGATCATAATAGTTACAAATCTCCAGATTCAATTAACCAGATGGATTGGCTGCGCCGTGCAACGTTTAATAATGAAGTAGATTATATGAAGGGTTTAATAGAATTACGCAAAAAGTACTCAGCTTTTCGAATGACATCTGCAGAGCAAATAAAAACACACGTATCATTTATTGATGCCCCGAAAAATACGGTAGCTTATACAATAGAGGGGAATAAAAATGAATACTTTACAGTGGCTCACAATGCAAATAGAGAAGCTGTTGATATAACACTTCCATCGAAAGGTCCTTGGAAAGTACTAGTAGACGGGAAGCAGGCGGGAAGTAAACCACTTTATGTTGTCCATGACAATAAAATTAAAGTTCCTGCATTAAGTTCATTTGTCTTAAAAACAGAGAAACCGATTAAATAA	MVQIIKRLINKTVLLLTLIVMLSSVFSFHGVKAVSNSKTTEVIIHYKEKLGNTKDWNLWLWGENANGTSYEFTGEDEFGKYAKIKIDGDYNRVGFIVRTNEWEKDGGDRWIENIKGGRAEVWILSGDEKVYNSKPSSDLSIQKATIDSFHEITITTNVPFHIREKKIEIEGIKIKNISPYDINSGDITNKVKIITEQKIDLKQTYKVKIENLADTNTEIGKVIRSEEFDNLFYYSGNDLGNTYTAQHTKFRLWAPTASEAKLVTYKNWNDKIGAEINMQQGEKGTWTAELKGNQKGLFYTYKVKIGDTWTEAVDPYVRAASVNGDKGAVVNLEETNPKKWKANKKPKFKNPEDAIIYELHVRDLSIQPESGIKQKGKYLGVTEKGTKGPEGVKTGLDHIKDLGVTHVQFLPIFDYASVNEETLNEPQYNWGYDPKNFNVPEGSYSTNPYEPTVRITELKQMVQTLHDNNLRVVMDVVYNHMYNAAESNFHKLVPGYYYRYNEDGTFANGTGVGNDTASERKMMRKFMIDSVTYWAKEYNLDGFRFDLMGIHDYETMNEIRKAVNQIDPSIILHGEGWDLNTPLAAELKANQKNAEKMKGIAHFNDNIRDGLKGSVFEEKENGFINGKENMEDCIKKGITAGIDYDTNSSTYQDPEQVLTYVEAHDNHTLWDKLELTNSGDSEEVRKQMHKLSSSILLTSQGVPFLHAGQEFMRTKYGDHNSYKSPDSINQMDWLRRATFNNEVDYMKGLIELRKKYSAFRMTSAEQIKTHVSFIDAPKNTVAYTIEGNKNEYFTVAHNANREAVDITLPSKGPWKVLVDGKQAGSKPLYVVHDNKIKVPALSSFVLKTEKPIK	PGPT0012195_493	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
AK009_01298	1704	nprM_1	COG3227	Bacillolysin	ATGAAAAACACAAAGACATTAACTAAGGTAGCATTAACAACAGGATTAGCTTTAACAGCTGTGGCACCATATGGGGTAGGTCATGCAGAGGAAACAGATCAGTTACAAGTTCAAATTCAGGAGGAATCGTTCCGTTCGGGTGAACTTACACAACCGTCACAAAAGGCACCAGAAAATGTAGTAAAGGATGCACTTAAGGAGAAAACAGAGCAAGCTCTGTCCCAAAAACAAGTCAATGGAGAAGCAGGAGTAGATTATAAAGTCCTTCAAAAACGTGGTTCGTATGATGGAACTACACTTGTACGTATGCAGCAAACATACGAAGGAAAAGAAGTATATGGCCATCAATTAACTGCACATGTAGATAATAATGGTGTTATTAAAAGTGTTTCAGGTGATAGCGCGCAAAATTTAAAACAAGAAGAATTGAAAAAACCTATTAATCTATCAAAAGATGAAGCAAAACAATTTATTTATACGAAGTACGGGAACGATATCAAGTTTATTACTGAGCCAGAAGTTAAAGAGGTTATTTTTGTTGATGAAAATAATGGACAAGCTAAAAATGCATACCAAGTTACCTTTGAAGCCGCAACACCAAACTATGTTTCTGGTACTTATTTAGTAAATGCACAAAATGGTGATATGTTAAAAAATATGGTACAAGAATCTAACTTAAAAGCTAGTGACAAACTAGTTGGAGCTTTAAAGAAAAGTAAACAAAGCAGTCTTACATCATTAACTGGAACAGGAAAAGATGATTTAGGTATTTCTCGTTCATTTGGTATCTCTAAACAAAGTAATGGCAAATATGCTCTTGCTGATTATACAAGAGGGCAAGGGATTGAAACATATGATGTGAATTACAAAGATATTACTAAAGAAGAAAGCTATTATCCTGGTACATTAGCGACTAGTACTTCGGCAACATTTAACGATCCCAAAGCGGTAAGTGCTCATTACTTAGCAACAAAAGTATTTGATTTTTATAAAGATAAATACAAGCGTAATAGCTTTGATAATAAGGGACAAAAGGTAGTTTCAGTTGTACACGCTTGGGATTCTGAAGAGACGAATGATCCGAAGAATTGGCAGAATGCATTAAGTGCTAATAATGGAAGTATGCTTGTATATGGTGATCCTATTGTTAAAGCATATGACGTAGCTGGACATGAATTTACACATGCTGTTACTTCTAGCGAATCTAATCTTGAATATTACGGGGAATCCGGTGCGATTAATGAGGCACTATCTGATATTATGGGAACATCTATTGAGAAATACGTAAATAATGGAAACTTTAACTGGACAATGGGAGAACAAACGGGATCTGTTTTCCGTGATATGGAAAACCCAGCTTCTGTTCCATCTTCACTTGGAGTACCTTATCCAGATGATTACAGTGAATTTAACGATTTTAATGGATGGGATCAAGGCGGTGTTCATTTTAATTCAAGTATTATTAATAAAGTTGCGTATCTCATTGCAAAAGGCGGAACTCATAACGGAGTGACTGTTAAAGGAATTGGTGAAGATAAAATGTTTGATATTTTCTATTATGCAAATACTGATGAGTTAAACATGACTTCTAATTTCAAAGAATTGAGATCAGCATGTATTCGAGTGGCAACTAATAAATATGGTGCAAATACAGCTGAAGTTCAAGCAGTTCAAAAGGCATTTGATGCAGCAAAAATTAAGTAA	MKNTKTLTKVALTTGLALTAVAPYGVGHAEETDQLQVQIQEESFRSGELTQPSQKAPENVVKDALKEKTEQALSQKQVNGEAGVDYKVLQKRGSYDGTTLVRMQQTYEGKEVYGHQLTAHVDNNGVIKSVSGDSAQNLKQEELKKPINLSKDEAKQFIYTKYGNDIKFITEPEVKEVIFVDENNGQAKNAYQVTFEAATPNYVSGTYLVNAQNGDMLKNMVQESNLKASDKLVGALKKSKQSSLTSLTGTGKDDLGISRSFGISKQSNGKYALADYTRGQGIETYDVNYKDITKEESYYPGTLATSTSATFNDPKAVSAHYLATKVFDFYKDKYKRNSFDNKGQKVVSVVHAWDSEETNDPKNWQNALSANNGSMLVYGDPIVKAYDVAGHEFTHAVTSSESNLEYYGESGAINEALSDIMGTSIEKYVNNGNFNWTMGEQTGSVFRDMENPASVPSSLGVPYPDDYSEFNDFNGWDQGGVHFNSSIINKVAYLIAKGGTHNGVTVKGIGEDKMFDIFYYANTDELNMTSNFKELRSACIRVATNKYGANTAEVQAVQKAFDAAKIK				NA	NA	NA	NA	NA
AK009_01299	2094	yfkN_1	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	ATGCAATTTATTCTCTTTATTTTTGCAACAGAACCACCTTCAAAATTATCTTTTGTAGTTGAAGTTTCCCGAATAATAAGTTACATTTTTAAAGTTCAAACAACTTTACGAAAGTACAAAAAGGGGAGAAATATTATTATTATGCAAAAAATGAAATGGAAGAACTATGTATGTTACTTTGTAATTCTATTACTGCTCGGAACAGCAGTAATAGTCAAACCACCTATCTCTAAGGCTGAGGAATCTGAAGTTAATATTACATTGTTAGGTACTGCAGATATTCATGGCAGATTTATGCCTTGGGATTATGCGCTTGATGGAGCAAATATGAGTGGAAGTTTGACGCAGCTTTATACGGTTATAAAGAAGGTCCGTCAAGAAAATCAAAATACCATATTAGTAGATGCCGGGGATACAATTCAAGGAAACTCAGTAGAATTATTCAACGATAAGCCACAATCGCCAATGATGGTAGCGATGAATACAATGGGATATGACGCCTGGGCATTTGGAAATCATGAATTCAACTTTGGATTAGATACATTGAAAAAAGTTAGTGAGCAATATAAGGGAAAAACGTTAGCAGGAAATATTTATAAGGAAAATGGAGAGCGCTTTCTTCCTGCATATACAATTGTAGAAAAAGGTGGAATTAAAGTTGGGATTATTGGTATGAATACACCAATGATTAGTGATTTTGAAAAAGGGACAGATCACTTAAATGGTTTAGTGGTGAAAAATCCGGTAGAAGAGACGAAAAAGGCAATTAAGGAATTAGAAGGTAAAGTAGATGTAATGGTAGGAGTTATGCATATGGGATTAGAAAATGAGAATGGTATCCCTGGTACTGGTGTTCAAGATATTGCAAATGCTTGTCCGGAACTAAGCGCTATTTTTGCGGCTCACATGCATAAACTTGTAAAAAAAGAAGTTGTAAATGGCGTAATTATTACAGAGCCAGATAAATATGGAACACATATTTCACGTATTGACCTTACTTTTACAAAGCAAGATGGGAAGTTGGTTTTAAAAGATAAAACTGCTACCGCTATACCTGTAAAAAATGCTGATGGAACAACGATATTATCTGATCCTACACTTGAAGAAACACTAACACCTTTTCACGAATATGCGAGAGGAGATGCAAATGTTGTAGTCGCTCAATTAAAGGGTAGAAATCTTGTTCCTGAAAATGAAATAAAGGGTATTCCAAGTGTTCAGATTCAAGAAACACCTTTATCAGATTTCTTTCATGAAGTCATGCTCTACTACAGTAAAGCAGATGTAGTAGCCCATCAAATTGATAATGATTATGCCCGTTTGGATACAGGTCCTATTAAGAAAAAAGATATTGCGTATAATTACCAATATGCCTTGGGAGAGATTACAGTATATAAGATTTCTGGAAAAGATTTAAAAGACTATATGGAATGGGCAGCAGGATATTTTAACTCATCTCGTGCCGGAGATGTAACCGTTAGCTTTGATAAAACCCGCCGTGCATCTAAATACAGTACGAACGATTTCTTTGGAGGCGTAAAATACGAAATTGACTTAACAAAACCATACGGAAGTAGAATTACAAATTTACGCTCTATTCGTACAAACAAACCAATCAAAATGAGCGATGTTATGACGCTGGGAATGAATGCATACAGAATGGAGGCTCTTCAGGCAAAAGGAGGAGCTTTAGAGGGGCGTAAGTTTGAACAAATTTGGTCATCTAAACAAGAGAATGCATTTGGAGAAACAGGTGGAACCATTCGTAACCTTGCTATTACATATTTAAAAGAGGTAAAGAACGGTGTATACACGCCAAAAGTTATGCGTAATTGGAAAATTACTGGTGTAGATTTACATTCTTCAGAGCATAAGGCTGTAGTTGATCTTGTGAATAAAGGGATTTTAGAAATTCCAAAAACAGAAGACGGAAAATACACAAATATAGCATCTATAAATACGAAAGATTCAATTACAAAAGAAGAGATTGTAGCACTCTCACAAAAAGCAAATATTAATCCAAATCAGTTTAAGCATATAAAAACGAAAGGTGAATTTTACAAAAAACTTAGTAGGATTACTAAAAAAATATAA	MQFILFIFATEPPSKLSFVVEVSRIISYIFKVQTTLRKYKKGRNIIIMQKMKWKNYVCYFVILLLLGTAVIVKPPISKAEESEVNITLLGTADIHGRFMPWDYALDGANMSGSLTQLYTVIKKVRQENQNTILVDAGDTIQGNSVELFNDKPQSPMMVAMNTMGYDAWAFGNHEFNFGLDTLKKVSEQYKGKTLAGNIYKENGERFLPAYTIVEKGGIKVGIIGMNTPMISDFEKGTDHLNGLVVKNPVEETKKAIKELEGKVDVMVGVMHMGLENENGIPGTGVQDIANACPELSAIFAAHMHKLVKKEVVNGVIITEPDKYGTHISRIDLTFTKQDGKLVLKDKTATAIPVKNADGTTILSDPTLEETLTPFHEYARGDANVVVAQLKGRNLVPENEIKGIPSVQIQETPLSDFFHEVMLYYSKADVVAHQIDNDYARLDTGPIKKKDIAYNYQYALGEITVYKISGKDLKDYMEWAAGYFNSSRAGDVTVSFDKTRRASKYSTNDFFGGVKYEIDLTKPYGSRITNLRSIRTNKPIKMSDVMTLGMNAYRMEALQAKGGALEGRKFEQIWSSKQENAFGETGGTIRNLAITYLKEVKNGVYTPKVMRNWKITGVDLHSSEHKAVVDLVNKGILEIPKTEDGKYTNIASINTKDSITKEEIVALSQKANINPNQFKHIKTKGEFYKKLSRITKKI	PGPT0021400_187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
AK009_01300	516			hypothetical protein	ATGGATACATTTGTAAATGACAAGTTTTATGAAACGAGAAATCAATTAGTTGAGGAAATTTCTTTGTTGAGTGATGCTCAATTTAATAGGAAACCAGATAAGGATAAATGGAGTATTGCACAAGTTTGTCATCATTTAGTTTTATTAGATGAAAGAGTGATAACAGTTATTTCCTCAGGGTTAAAAAAGTTAGATAGTACCCAAAATGAGCGTAAAGAAATTCACACTATTTTATTAGATAGAACGAAAAAGTTTATAGCTCCAGAAATGATTGAACCAAGTATAGAACCATTTGAAGTGGAGCAAATGCTCAATATGCTAAACGAATCAAGAAAAGAATTGATGCGTTTTCTGAGTACAATAGAAGATGAATCTAAATTAGTAAAAAAATCAGTGATGCATCCAGCTCTTGGAGAATTATTTCTTGATCAGTGGATAGAATTAATCTATTTGCATGAACAGCGTCATATAGAACAAATCAAAGAGATAAAATTGCCTTGTGAAATTGAAAAGTAA	MDTFVNDKFYETRNQLVEEISLLSDAQFNRKPDKDKWSIAQVCHHLVLLDERVITVISSGLKKLDSTQNERKEIHTILLDRTKKFIAPEMIEPSIEPFEVEQMLNMLNESRKELMRFLSTIEDESKLVKKSVMHPALGELFLDQWIELIYLHEQRHIEQIKEIKLPCEIEK				NA	NA	NA	NA	NA
AK009_01301	471	sbmC_1		DNA gyrase inhibitor	ATGAAAGTTGTTATAAAAAAATTACCACCATTAGAAGTAGCGTATATAAGACGAACTGGTAGCTACTTTGAACCGCAAGATCACTGGGGGAAGTTACTGAACTGGTCAATTGAAAATAAACTGTATCCACCAGAGCAATCATTTATCGGAATATCATTAGATAATCCTGAACTTGTTGCAAGTCATAAGTGCCGGCATGATGCATGTGTTACGATTCCTGAAAACTTCGATAAAGAAAAGTATCATGATGTGCAATTTAAAAGATTAGATGGAGGTACATATGGTCTATACCAGTTCTATGATGAACCTCATAAATTAAGTGAAGCGTATCAATACATGTATGCAGAGTGGCTACTAAATAGTGAGTATGGTGCAGATTATGATAGAGATAATTTAGAGTTTTGCTTAAATAATCTTGCTGAAGATCTAGAAGGAAAGTTAAAAGTTGATTTATTTGTGGCTTTAAAATGA	MKVVIKKLPPLEVAYIRRTGSYFEPQDHWGKLLNWSIENKLYPPEQSFIGISLDNPELVASHKCRHDACVTIPENFDKEKYHDVQFKRLDGGTYGLYQFYDEPHKLSEAYQYMYAEWLLNSEYGADYDRDNLEFCLNNLAEDLEGKLKVDLFVALK				NA	NA	NA	NA	NA
AK009_01302	468	fosB_2		Metallothiol transferase FosB	TTGATTAAAGGAATATACGAAGCGCATTTACCAGTGAGTAATTTACAACAATCTATCAGATTTTATGAAAAACTAGGGTTGAAGTTAGCCTGGAGCGATGAATCAACAGCATTCTTTTGGATTGAGGATGGGAAAAGTTGGCTAGGATTATGGGCGGGCTCTGAATACGAAACAAAATATCATCCTTCTTTACGTCATATTGCATTTAGAGTTTCATATGAGGATTTAAAAGAATCATTATATTGGTTACACTCACTTCAAATTAAAGCTGTTCCGTTTGGGAGTAATGAATCTATTGAACCATTTGTCCGTCCACATCAAGGTAATGCATCTGTTTATTTTATTGATCCAGATGGTAATAGCTTAGAACTTATTTGTCATATTTTTGTACCTAACGCACTAAAACATATAAATGATAAATTATCCTTTAAAGATTGGGAGACACTATTAGCTGACACATTTGAATGA	MIKGIYEAHLPVSNLQQSIRFYEKLGLKLAWSDESTAFFWIEDGKSWLGLWAGSEYETKYHPSLRHIAFRVSYEDLKESLYWLHSLQIKAVPFGSNESIEPFVRPHQGNASVYFIDPDGNSLELICHIFVPNALKHINDKLSFKDWETLLADTFE	PGPT0013300_1664	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
AK009_01303	1305	secY_1		Protein translocase subunit SecY	ATGTTTCGTACGATTTCAAATTTCATGAGAGTAGCTGAGATAAGAAGGAAAATCCTTTTTACACTAGCGATGTTAATCGTTTTTCGAATTGGCACGTTTATTCCAGTTCCTCATACTAACGCAGAGGTATTAAAAGTACAAGATCAAGCTAACGTTCTAGGTATGTTAAACGTATTTGGTGGAGGAGCATTGCAACATTTCTCAATCTTTGCTGTAGGTATTACACCATATATTACAGCTTCCATCATAGTACAATTACTACAAATGGATGTTATACCTAAGTTTTCGGAATGGGCAAAGCAAGGAGAAATGGGCCGTAAGAAATCAGCTCAATTCACTCGATACTTTACAATCATTCTCGCATTCATACAGGCCATCGGAATGTCTTATGGCTTTAATAATATAGCAGGTGGACAATTAATAACAGATCAAAGCTGGACTACATACTTATTTATTGCGACAGTTTTAACTGCAGGTACTGCATTTTTACTTTGGTTAGGCGAACAAATTACCGCTAACGGAGTTGGTAATGGTATTTCGATGATTATCTTCGCAGGTCTCGTTGCCGCGATTCCAAATGTTGCAAATCAAATTTATTTACAACAATTCCAAAATGCTGGCGATCAGCTATTTATGCACATAATAAAAATTGTTTTAATTGGACTCGTAATTTTAGCGATAGTTGTTGGTGTTATTTACATTCAACAAGCTGTACGTAAAATACCGATCCAATATGCAAAAGCTGTTTCAGGAAACAATCAATATCAAGGAGCAAAAAACACTCATTTACCGCTTAAAGTAAATAGTGCTGGTGTTATACCAGTTATCTTTGCTTCTGCATTTTTAATGACGCCGCGTACAATTGCGCAGCTCTTCCCTGATTCAAGCGTATCAAAATGGTTAGTTGCAAATCTTGATTTCGCACATCCAATTGGAATGACACTTTATGTCGGTCTTATCGTTGCTTTCACATACTTCTACGCATTTATTCAAGTAAATCCTGAACAAATGGCTGAGAATTTGAAAAAGCAAAATGGATATGTTCCTGGTATTCGTCCTGGTAAAGCAACTGAACAATATGTAACTAAAATTTTATACCGTTTAACATTTATTGGTGCAATTTTCTTAGGTGCAATTTCTATATTACCGCTCGTATTCACGAAAATTGCTACGTTACCACCTTCTGCTCAAATTGGTGGTACAAGCTTACTTATCATTGTCGGTGTAGCACTAGAAACTATGAAGACGTTAGAAAGCCAGCTTGTAAAACGTCATTATAAAGGCTTTATTAAAAAAGTGAATTAA	MFRTISNFMRVAEIRRKILFTLAMLIVFRIGTFIPVPHTNAEVLKVQDQANVLGMLNVFGGGALQHFSIFAVGITPYITASIIVQLLQMDVIPKFSEWAKQGEMGRKKSAQFTRYFTIILAFIQAIGMSYGFNNIAGGQLITDQSWTTYLFIATVLTAGTAFLLWLGEQITANGVGNGISMIIFAGLVAAIPNVANQIYLQQFQNAGDQLFMHIIKIVLIGLVILAIVVGVIYIQQAVRKIPIQYAKAVSGNNQYQGAKNTHLPLKVNSAGVIPVIFASAFLMTPRTIAQLFPDSSVSKWLVANLDFAHPIGMTLYVGLIVAFTYFYAFIQVNPEQMAENLKKQNGYVPGIRPGKATEQYVTKILYRLTFIGAIFLGAISILPLVFTKIATLPPSAQIGGTSLLIIVGVALETMKTLESQLVKRHYKGFIKKVN	PGPT0025725_3604	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
AK009_01304	918	yedA_2		putative inner membrane transporter YedA	ATGGTCATTTTTAATTACATTTTAGTATGTATTATTTTCGGGACAACATTTTTAACAATAAAAATTGGAATTGAAGCAGGGGCGCCACCGTTGTTTTCAGCAGGAATTCGATTCTTTTTAGCGGGCATAATCCTTATGATTATTTTTAAATTAAAGCGAAAAGAAATTATGCCACATATATTTTCAAAACGTATTATGTATGCTGGATTTTGTTTAACATTTATGACATTCGCAAGTTTATATTGGTCAGAACAATATATTTCTTCGGGATTAGCTGCTGTTCTTTCTGCTACGGGACCAATGATGATTTTATTAATACAAGCAAAGAGGAATAGGGAGAAATTACAAAAGGAACAACTCGTTGCCTTAGTTATTGCACTAATAGGTGTTATATTTGTTTCTTTACCAGGAATGCATCAACAAGTAAGTTTCATATGGAGTATTGCTTGTATTGTTTTAGTTATAGGAGAGTTATTTTACGGAATAGGCTCTATTCGTTCGAAAGAAATACTTTCAGATTTATCAAATGTATCACCATTTCTTATTAACGGAATTCAAATGTTTTATGGAGGGATTTTACTATTAATCGCATCTATTATTGTAGAACAACCAAATGTAACTGTATTAACTTCATGGAGTGTACAATGGCCTATTTTATATCTCATATTTATCGGATCGATCGGTGGACACGGATTATATTACTGGCTCTTATCAAAAACAAACCCAGTATTTCCATCGACGTGGTTATATGTATCACCATTAATAGCAATTATCGTAGGTTATATCGTATTAGGAGAACCCTTAAATCCTACAATGGGAATGGGAGCTTGTCTTATATTGATTGGTGTATTTTTGGCCAATCGTTCAACACTACGGACTTATTTCAAAAAAGGGCGGTTATTAGAGAAGGAGATGTAG	MVIFNYILVCIIFGTTFLTIKIGIEAGAPPLFSAGIRFFLAGIILMIIFKLKRKEIMPHIFSKRIMYAGFCLTFMTFASLYWSEQYISSGLAAVLSATGPMMILLIQAKRNREKLQKEQLVALVIALIGVIFVSLPGMHQQVSFIWSIACIVLVIGELFYGIGSIRSKEILSDLSNVSPFLINGIQMFYGGILLLIASIIVEQPNVTVLTSWSVQWPILYLIFIGSIGGHGLYYWLLSKTNPVFPSTWLYVSPLIAIIVGYIVLGEPLNPTMGMGACLILIGVFLANRSTLRTYFKKGRLLEKEM				NA	NA	NA	NA	NA
AK009_01305	1434	lysN	COG1167	2-aminoadipate transaminase	ATGAAGATTGTATTGCGTAAAGAATCAAACATACCGTATTACAAGCAAATATATATGCAAATTGTTGAAAGAGTACAAAGTGGTATGCTTTCACATGGTGAATCCCTTCCTTCTTTACGTTGTATGGCCACAGATTTACAAATCAATGTATTAACTGTTCGTAAAGCGTATAAACAGTTAGAAACGAAAGGGTATATACGCATCGAACAAGGAAAAGGTGCTTACATATATAAACGTGTAAAGAAAGATTTCAAACCGATACCGTATAAATGGCAACAATCAAGATCTATTAATGTTATGCGTTCTCAATATGCAATGAATAAGCACCGTAAATATTATGATTTTTCACAAGCAATTCTGTATCCTCGTCTGTTACCAAATCCATTTTTGGCAGACGAAATGCATAAATTGCTAGATAAAAATCCGATGTTGTTAGCAACTTATGGGCCAGTTCAAGGCGATTATGAACTGCGAGTTGAAATAGCAAATTACTTAAATGAACACCAGAAATTAGTGACGGACCCATCTCAATTATTAATTACAAGCGGAGCACAACAAGGAATTGATTTAATTGCTCAAACATTATTAAAACCTGGAGATATCGTATTAGTAGAAATTCCATGTTACAGTGCTGCGCTTGACGTTTTCATCAATAAAGGTGTTCAAATCATTCCTATTTCTCTTGATAATCATGGAGTTCGCTCCGACTTAATTGATGATATTTGTCAAAGTAAAAATCCTGTTTTATTGTATACAAATCCCACCTTCCAGAACCCGACAGGTACAGTAATGAGTAAAGAACGAAGAATGGAACTTATAGAACTAGCGGAGCTATATCAATTTTTTATCATTGAAGATGATTCTTTCGGAGAAATATATTTTGAAGGTGCTATAGTCCCACCACCAATCAAAAGTTTTGATAAGGATGGCCACGTGATATATATAAAAGGATTTAGTAAAACGTTAGCACCAGGACTCCGTATCGCAGCACTTTTTGCCGATGGTCCTATTTTTGAATGGCTATATGCAGTGAAAGGTTCCATGGATATCGGTAGTCCTTTATTAACACAGAAGGCACTTCTACCTTTCTTACGTGCGGAACGTATGAAAAATCATTTAGAAAAATTACGTACAGCTTTACAAATGAGACGTGATTTAACAATTGATATACTATCGCCATTAAAAGGACTAAACTTTGAGATACCAAATGGCGCTTTTAATTTATGGGTGAAACTGCCTGATTCGATAGATCCCTTTACCTTATTACAAAAAGCAAATGAAGTAGATGTCTCTTTTTTACCAGGAACAGCTTGTCTATTAAACTACGAAACAAATGATAACCAATTAAGAATTAGCTATTCAATGTTAAACGAGAAAGATATGGCAATTGGATTAGAGAAATTACATGATACAATACGAAACAGTATTTGTTAG	MKIVLRKESNIPYYKQIYMQIVERVQSGMLSHGESLPSLRCMATDLQINVLTVRKAYKQLETKGYIRIEQGKGAYIYKRVKKDFKPIPYKWQQSRSINVMRSQYAMNKHRKYYDFSQAILYPRLLPNPFLADEMHKLLDKNPMLLATYGPVQGDYELRVEIANYLNEHQKLVTDPSQLLITSGAQQGIDLIAQTLLKPGDIVLVEIPCYSAALDVFINKGVQIIPISLDNHGVRSDLIDDICQSKNPVLLYTNPTFQNPTGTVMSKERRMELIELAELYQFFIIEDDSFGEIYFEGAIVPPPIKSFDKDGHVIYIKGFSKTLAPGLRIAALFADGPIFEWLYAVKGSMDIGSPLLTQKALLPFLRAERMKNHLEKLRTALQMRRDLTIDILSPLKGLNFEIPNGAFNLWVKLPDSIDPFTLLQKANEVDVSFLPGTACLLNYETNDNQLRISYSMLNEKDMAIGLEKLHDTIRNSIC	PGPT0028960_484	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_01306	102			hypothetical protein	ATGAAAGCAATTGTTATTGATCGATATGGTAGTGTTGAAGAATTGAAAGAAAGACAAGTTTTAAAATCGGTTGTTAAGAATAACGAAAAAGCTCAACAATAA	MKAIVIDRYGSVEELKERQVLKSVVKNNEKAQQ				NA	NA	NA	NA	NA
AK009_01307	855	rdmC_1		Aclacinomycin methylesterase RdmC	ATGAGTGAAAAGATATTTAAAATAAACGGAATTGATATATGTACAGAAAGCTTTGGGAACCCTAAGAACCCTGCTATTTTATTAATTATGGGCGCTACATGTTCCATGGTTTATTGGGACGAAGAGTTTTGTGAGCTGTTGGCTAGTACGGGGAAATTTGTTATTCGCTTTGATAACCGTGATGTTGGACGCTCTGTTGCCTACGAACCTAGAACTTCCAATTATACAGTAACAGATATGGCTGAAGATGCAATTGGAGTACTAGATGCTTATCATATTGATAAAGCTCACCTATTTGGTATGTCATTAGGTGGTATGATTGCTCAAATTGCCGCTATAAAACATCCCGAAAGAATTTTGACGCTAACTTTACTAGCGACTAGTGTAATAGGATCTGATGACAATACTCGCGATTTACCTCCAATCGATGAAAGAATTTTAACACATCATGTAAATGGCACAAGTATAGATTGGACAAATAAAAACGATGTGGCAGAGTATTTAGTTTCAGGATCTCGTCTATTATGTGGATCAGAACGAATATTTGATGAAAATAGAGTTTATACACAAGTAAAACAAGAAATAGAACGCGCAAATAATTTATTAAGTATGTTTAATCATGCTTTACTTCAAGGTGATGATGCATATGAAGGTGTACTTCACTCCATACAAGCACCTACATTGGTTATTCACGGAACAGATGATACAGCACTCCCATTCGAACATGGCCTCGCACTAATTGATGAAATTCCAAACTCAGTACTATTAACTCTTAAAGGGGCAGGCCATGAAAACCATCCAGATGACTGGGAAAACATAATTACTGCTGTTTCTAAACATACATCTGAAATTTAG	MSEKIFKINGIDICTESFGNPKNPAILLIMGATCSMVYWDEEFCELLASTGKFVIRFDNRDVGRSVAYEPRTSNYTVTDMAEDAIGVLDAYHIDKAHLFGMSLGGMIAQIAAIKHPERILTLTLLATSVIGSDDNTRDLPPIDERILTHHVNGTSIDWTNKNDVAEYLVSGSRLLCGSERIFDENRVYTQVKQEIERANNLLSMFNHALLQGDDAYEGVLHSIQAPTLVIHGTDDTALPFEHGLALIDEIPNSVLLTLKGAGHENHPDDWENIITAVSKHTSEI				NA	NA	NA	NA	NA
AK009_01308	336			hypothetical protein	ATGCGATCTAGGCGATATAAACGTGGTGATCGAGTAAAAATCAATATTCATAAATCGGTATCACCTGAAATGCTTGCGTGGCTGAATAAACAATCAAATCCAACTAATTTCTTCTTTTTTGCTGCGCAGCAACTATTTAAACAAGTAGGAGATATTGACGTTTCTAAAGCTTTACCAAGCAGCCATGTTTTCTCATTATATGTGGAGCCTTCATCCTTATTAAAAGTTGAAGTAAACCCTTTTAAAAACATGACACTAGAAACAAATACATCCACCGAAAATGCAAAAAAAAAATTATGGGAATCTGTTGATCAATTAGATTGTCCATTTTTTTAA	MRSRRYKRGDRVKINIHKSVSPEMLAWLNKQSNPTNFFFFAAQQLFKQVGDIDVSKALPSSHVFSLYVEPSSLLKVEVNPFKNMTLETNTSTENAKKKLWESVDQLDCPFF				NA	NA	NA	NA	NA
AK009_01309	1170			hypothetical protein	ATGTCTATACTTTTAAAAGCTGGTGCAGATGCAGGAAACAACGGTTTGAAGTTAATGGTGAAAGGGCAAGACCCTATTTTTATTCCGAGTATTTATTCTTTATATATAGGTGAGCCTACAGGACTCTTAGATGAGGTAGATGTTTCATTATCTGAATTAGAAAACCACATTGATGTGACTATAAGTTCGCCATCGTTAATGCTAAATAATGTACGATACATCGTTGGAGAAAAAGTCATTCAAGATCAATTAAAAGGTACTGAGGTAGAGAAGAAATCGAATAAGTCAACGGATGAGTTAATGGTTATTACAATACTATCAGGTTTGGCGGTAAGCGCTATGCGTCAAAGTCCAACTTCTAGCCATATTAATATTCGTTATGATTTATCTGTCGCTCTTCCTATGCAGCTTATTACACAAGAAATAGCTGCTGAAAATGCAAAACGTTATATGGGAAATCATAAGGTTATTTTCCATTATCCGAACGGACGCGATGTGACAATTAATGTTTCAATTGAGTTTTGTAAATGCCTGCCTGAGGGCGCATCTGGGACGTGGGGCATTGTATACGATGAAGAAGGAAATGTTGTGAAACATAAAATAGAATGTGAGCCGAATCAAGTTTCTGAAATTGATTTTGTAGATAAGACTCTACTCTCTTTTGATATTGGTGCAGGGACGACAGAAGAAGTTGTTTCATTAGGGGTAAATTTCCGTCCGCAACTAAGTAAAGGTTTATCTTATGGTGTAAAAGAGACGTTATTACAAATTATCACGAGATGGAACCGAAAGTATCCAACTAAGACGATTGATAGTATTACAGAATTCAATCAAATTTATTTAAATGATAAGCATCCGAGAAATACCTTATTAGTTGAGGAATCACAGCCGGCACTATTAGGTTTAGCAGCTCGTGTTGCAACAGATATTATAAATAAAATTGATGATATGAAAGACGATCCATACGTGTTTATTTATGGCGGTGGTGCAGTAATTATTAAAAACAGTTTAAAAATGATTTTAAAGCAAAAAGGACGACTCAAAAATGTAATCTTTGTAGATAATCCGTTATTTACCAATGCACGAGGATTATTAGTCTATACTTGTTCGCCAAAATATAGAGAGCATAAGCAAAAAGAGTTAGGATTTACAAACTTAACGATAAGTTAG	MSILLKAGADAGNNGLKLMVKGQDPIFIPSIYSLYIGEPTGLLDEVDVSLSELENHIDVTISSPSLMLNNVRYIVGEKVIQDQLKGTEVEKKSNKSTDELMVITILSGLAVSAMRQSPTSSHINIRYDLSVALPMQLITQEIAAENAKRYMGNHKVIFHYPNGRDVTINVSIEFCKCLPEGASGTWGIVYDEEGNVVKHKIECEPNQVSEIDFVDKTLLSFDIGAGTTEEVVSLGVNFRPQLSKGLSYGVKETLLQIITRWNRKYPTKTIDSITEFNQIYLNDKHPRNTLLVEESQPALLGLAARVATDIINKIDDMKDDPYVFIYGGGAVIIKNSLKMILKQKGRLKNVIFVDNPLFTNARGLLVYTCSPKYREHKQKELGFTNLTIS				NA	NA	NA	NA	NA
AK009_01310	474			hypothetical protein	ATGATACTTTTCCAATTTTATACTTATATTTGTAAAGAGTTTTTTACAATCGAGGGGGGCAATTATTTATTGAATACTAAAAAAACTATTTTTATCATCATTGTTTTAGCATTAATTGCAATAATAGTACATGGCACATATAAATACATCACTGAAGGTTCTATTTTGGGTAGTACGATTTTTGCTATTTCGTTAATACTTAGTAATTTAATTAATCACATTACTTGGGGAGATCCCCACGGTGTATCAGAAGAAAGTCAAGATGAAATGGGCCAACAAATTACATATAAAAGCTTTAAAATTGCGTATTTTGTGCTTGTAGTTATAATGTTCCTTTTATTAATCTTCTCCGAAGGATTTTCTATGGGGGCTAATTTAGATGGCGTTAAAAACCTCCCTCTGTTCATCGCAATTTGCTCTTCATTCTTTATTTATCCTATTGTCGAACTCATAGTTGCAAAACAATATAAGTAA	MILFQFYTYICKEFFTIEGGNYLLNTKKTIFIIIVLALIAIIVHGTYKYITEGSILGSTIFAISLILSNLINHITWGDPHGVSEESQDEMGQQITYKSFKIAYFVLVVIMFLLLIFSEGFSMGANLDGVKNLPLFIAICSSFFIYPIVELIVAKQYK				NA	NA	NA	NA	NA
AK009_01311	537			hypothetical protein	ATGACAATTTATGTTGCACTACTAAGAGGAATCAATGTCGGTGGACATAAAGTAATCAAAATGGCTGATTTAAAACGATTGTTTGAATCAATAGAATTAAAACATGTGAAAACATATATACAAAGTGGTAATATCGTGTTCGAATCTGAGGAAGGTATAAACTTTCTAAAGGACCGAATACAATCTGAAATGAAAAATGAATTTGATTTCGATGTTCCAGTCATGCTAAGAACACATGATGAATTTATAAATATTATTAAACAATGTCCGTATGAAGTTCATTCATTGTTAGAAGGAGAAAGTGTTCATGTTGCTTTTTTAGCTAATGTACTTTCTGAAGAAGAGAGTAGTAAATTGCTTACATTTAAAAGTGAACTTGAAGATTGCTATATAGATGAGAAGGTTGCTTATTTGTTTTTCAAAAATAGCATTCGAAATTCTAAATTAATGAACCAGTTTCAGAAGTTACATACACCAGCTACAGTTAGGAATTGGCGGACTGTGAATAAATTAAAAGCAATTGTAGAGAGTATGTAA	MTIYVALLRGINVGGHKVIKMADLKRLFESIELKHVKTYIQSGNIVFESEEGINFLKDRIQSEMKNEFDFDVPVMLRTHDEFINIIKQCPYEVHSLLEGESVHVAFLANVLSEEESSKLLTFKSELEDCYIDEKVAYLFFKNSIRNSKLMNQFQKLHTPATVRNWRTVNKLKAIVESM				NA	NA	NA	NA	NA
AK009_01312	1056			hypothetical protein	ATGAATCAAGATAGACAATGGAATATTGTTGGGGGAAGAGTGATTAAAACTGGGATTGCAGTTTTTCTTACAGTGTTAGTTTGTAAATTTTTTAACATCCCAACTATTTTTGCTGTAATAACAGCAATTGTTACAATTGAACCAACTGCAACAGACTCAATAAAAAAAGGGTTTATTCGCTTTCCGGCCTCAACAATTGGATCGGCATATGCCATGACTTTCACATTTTTCCTAGGCCATCAAGCAATTTCTTATGCATTAGCTGCGATGTTTACGATTGTTACATGTCAAAAACTAAGGTTACATGCGGGAACATTAGTCGCGACTTTAACTGCTGTAGCTATGATTCCAATTACGGCAGATCATTATTTTACTGCATTTTTAATTCGTTTAGCTACTACATCTACTGGTATTATAGTATCTACTTTAGTGAATTTTTTCATTTTCCCACCACACTACACGAAAACGATTTTTGGATGTACAGAGGATCTATTTGCTAAAACAGCAAATATTATGGAAGAATGGATTACTGCATTACTTGCAGGAAAAGGTATGAAAAAGGAGACAGCTCAGGATCTATCTAAATTGACTTTATTATTGCATAAGGCGATACAATTTGTTCAATATGAGCAGAAAGATTGGAAATATCATCACCATACAAAGAAGGAAATGAGAAGCTTTTTACTTGTACAAAAGCAATTGCATTTATTACAGCAAATCATTTACCATATAGATAATTTAGCTCGAGTGTCAATTGAGACCTGTGACTGGTCACAAAGTGAAAGGGAAATATTACAACAAACAACTTATTCTATAATTGCTATATTGAGAAACCGTTGTAATGAAATTGATGAGGAACATTTTAAACTTATTGCTGAATTAGACAAGCAATTTTGGAGTTATAAAAATGATTTAAAAGATTATAAACCAGATCATTATCATCACCATTTTTCAAGTGAATCTATTATTTTATTTGAGGTATTATCTATTCATGATATGTTAGAAGAATTAAAACAAATATCCGAGAAATATGAGTGGGAAAATCAATTCAGTTGA	MNQDRQWNIVGGRVIKTGIAVFLTVLVCKFFNIPTIFAVITAIVTIEPTATDSIKKGFIRFPASTIGSAYAMTFTFFLGHQAISYALAAMFTIVTCQKLRLHAGTLVATLTAVAMIPITADHYFTAFLIRLATTSTGIIVSTLVNFFIFPPHYTKTIFGCTEDLFAKTANIMEEWITALLAGKGMKKETAQDLSKLTLLLHKAIQFVQYEQKDWKYHHHTKKEMRSFLLVQKQLHLLQQIIYHIDNLARVSIETCDWSQSEREILQQTTYSIIAILRNRCNEIDEEHFKLIAELDKQFWSYKNDLKDYKPDHYHHHFSSESIILFEVLSIHDMLEELKQISEKYEWENQFS				NA	NA	NA	NA	NA
AK009_01313	498			hypothetical protein	ATGAACATACACACAGGGGAAATTCAATTAGTTCCGTATAAGGAGAAATATAAAGAAGTTATACAAACATTTACTTTACCAAGTGAACAAGTTCAGTTTACATCAGATCCAAGCGCATTACTGGAGAAAGCAAAAAGTGATCGTACAAAAAATGTGATTGTTATTTTAGATTACAATGGGGTACCGGTTGGTCTTTTCGCATTGCAAACGGGAGATAGAGTAAAGGAGTTTACGGATAATGAGGATGCTTTACTTTTAACATCATTTTCTATTAATCACAATAGACAAAGAAAGGGATACGCTAAAAAGTCATTGTTATTATTAGAAGAGTTTGTAAAACGTTATTTTCCAATAAAAAATGAAGTTGTACTTGCTGTGAATGAAAGAAATATTCCTGCACAAAATTTATATGCAAAAGTCGGCTTCCAAGATAAAGGTTTTAGAAGAATGGGACCAATTGGCCAACAAATAATAATGCATTTACCTATAATGAAATAA	MNIHTGEIQLVPYKEKYKEVIQTFTLPSEQVQFTSDPSALLEKAKSDRTKNVIVILDYNGVPVGLFALQTGDRVKEFTDNEDALLLTSFSINHNRQRKGYAKKSLLLLEEFVKRYFPIKNEVVLAVNERNIPAQNLYAKVGFQDKGFRRMGPIGQQIIMHLPIMK				NA	NA	NA	NA	NA
AK009_01314	357			hypothetical protein	ATGATGAAAAAAAGCGCATGTATATTGTTTAGTTTTTGCTTAGGTTTCAGTATGACAGCGTGTGAACAGAGAAAAGAAGTGAAAAATCAAACAGCAACTTCTTCTACTGTGATGGAAAGGCAACAGAAAGCGTCTATCAATATAAACCATTTCTCGAACATAAATGAAGGAATGACTTATACAGAAGTAAAAGATTTAATTGGTTGTGAAGGGGATTTACTTATAGAAGAAGGGGTAGAGCATTCTACACAAATTAAACAAATTTTTGCTTGGAAAGGAAACGATCCAAATTCATTTGTTGAAATTACCTTTTTAGATGGAAGAGTGCATTCAAAAGTACAGCAAGGTATAAGTTAA	MMKKSACILFSFCLGFSMTACEQRKEVKNQTATSSTVMERQQKASININHFSNINEGMTYTEVKDLIGCEGDLLIEEGVEHSTQIKQIFAWKGNDPNSFVEITFLDGRVHSKVQQGIS				NA	NA	NA	NA	NA
AK009_01315	597			hypothetical protein	ATGAAAACTCTAATATATATATTGATGCTTTGCTTCGTTATAACTGGATGCAGTATTGGAAAAAAAGACAATCCAAACGAAAAGCCGGAACAAAAAAATGTCTCAATGAAAAATGTTAATTATACGAATAAATCAAATAAGCCAAATGAAAAAGCAGCAGATCATTTAGCATCTTTAGCTGCAAGTGTGCCAGGTGTGAATGATGCGACAGCCGTAGTAGTCGGCAAATATGCAATTGTAGGTATAGACGTAAAAGCAAAACTTGATCGAACTCGAGTTGAATCAATTAAATACTCTGTTGCAGAAAGTTTAAAAAATGATCCTGACGGTGCTAATGCAGTCGTTGTAGCAGATGTTGATACGTATGAACGCCTCAAACAAATTGGAAAGCAAATTAAAAAAGGAAAAACAGGTGAAGGTATACTAGATGAATTAGCGGCTATTGTGGGCCGAGTAATGCCACAAGTTCCAAATGATATGATTGAAAATAGAGAAACGAATCCAATTAAAGATAATGATAAACAATTACCAAAAGATGAAAAACAAGAGCTAAGAAAAGAACAGGATGATCAATCAAATAATCATTTGAATAAATGA	MKTLIYILMLCFVITGCSIGKKDNPNEKPEQKNVSMKNVNYTNKSNKPNEKAADHLASLAASVPGVNDATAVVVGKYAIVGIDVKAKLDRTRVESIKYSVAESLKNDPDGANAVVVADVDTYERLKQIGKQIKKGKTGEGILDELAAIVGRVMPQVPNDMIENRETNPIKDNDKQLPKDEKQELRKEQDDQSNNHLNK				NA	NA	NA	NA	NA
AK009_01316	1341	ypeB		Sporulation protein YpeB	ATGTTACGAGGTATTATCATTGTATTATTAACAGTCGGTGTAGTAGGAACAGGATACTGGGGCTATAAAGAGCACCAAGAGAAAAATGCGGTTTTAATTAGAGCGGAAAATAGCTATCAACGTGCATTCCATGATTTAGCATACGAAGTCGATTTATTACACGATAAAATTGGCACAACACTTGCGATGAATTCACGATCATCTTTATCACCTGCATTAGCGGATGTATGGCGTTTAACATCTGAAGCTCGCTCAGATGTAGGGCAACTTCCTTTAACATTAATGCCATTTAATAAAACGGAAGAATTTTTAGCGAATATCGGTGATTTTAGTTACCGTGCAGCCATTCGTGATTTAGAAAAAGAGCCTTTAAATGAGCAAGAATATAAAACGTTGCAAACTTTATATTCAAATGCAGGAAATATACAAGATGAACTAAGAAAAGTACAACATCTTGTTTTGAAAAATAATTTACGCTGGATGGATGTAGAAATGGCACTTGCATCAAATCGCGATCCAGCAGATAACACAATTATTGATGGATTGAAAACTGTAGAGAAAAACGTAACATCATATTCTTCTACAAACTTCGGACCGACCTTTACAAGTGCGCAAAAAAATAAAAAAGGCGGATTTGAAGCGCAAGGAAAGGCAATTTCTAAAGATGAAGCGGCGAAAATTGCAAAATCGTTTTTGAATTTAAAAGGAAATGAAAAAGTAGATGTTGAGAAAAGCGGAAAAGGTGCGAAAGAATCTTTCTATAGTGTGAAAATTAAAGATGAAGCAACGAACAATGAGTTTTATATGGATATTACGGGAAAAGGCGGATATCCAATTTGGGTTATGAATAACCGCGAAATTAAAGAACAGAAAGTTAGTTTAAACGATGCAGGTAGTAAAGGTTTGAAATTTTTAAAGGACCATAAGTTTAATAATATGGAGCTTTATGATAGCTCTCAATATGATAATGTTGGTGTGTTTACGTATGTAGTAAATGAAAATGGAGTACGAATTTATCCAGAAGCAATCCAAATGAAAATTGCTTTAGATGACGGTTCTATCGTAGGGTTCTCCGCAAAAGAATATTTAGCGTCGCATCAAAAACGAACAGTTCCATCGGCAAAGTTAACTGTAGCAGAAGCAAGAAAGAAAATCAATCCGGATGTGAAAGTAATGGAAGAACGTAAAGCTGTAGTAGTCAATGATTTGCATAATGAAGTACTTTGCTATGAATTTGTAGGTACTTTAGGAAAAGATACGTACCAAATATTCATTAATGCTAATAGTGGGGCCGAAGAAAAGGTAAAGAAAATGCAAGCTGTTGAAAAAATTTATGATTAA	MLRGIIIVLLTVGVVGTGYWGYKEHQEKNAVLIRAENSYQRAFHDLAYEVDLLHDKIGTTLAMNSRSSLSPALADVWRLTSEARSDVGQLPLTLMPFNKTEEFLANIGDFSYRAAIRDLEKEPLNEQEYKTLQTLYSNAGNIQDELRKVQHLVLKNNLRWMDVEMALASNRDPADNTIIDGLKTVEKNVTSYSSTNFGPTFTSAQKNKKGGFEAQGKAISKDEAAKIAKSFLNLKGNEKVDVEKSGKGAKESFYSVKIKDEATNNEFYMDITGKGGYPIWVMNNREIKEQKVSLNDAGSKGLKFLKDHKFNNMELYDSSQYDNVGVFTYVVNENGVRIYPEAIQMKIALDDGSIVGFSAKEYLASHQKRTVPSAKLTVAEARKKINPDVKVMEERKAVVVNDLHNEVLCYEFVGTLGKDTYQIFINANSGAEEKVKKMQAVEKIYD	PGPT0025130_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025130-ypeB-K06313	NA	NA
AK009_01317	762	sleB	COG3409	Spore cortex-lytic enzyme	ATGCGCCAAAAAGCTATTTTTAAAATAGCAGTTTTACTTGCGTTCATAGGACTGTCTTTAATGGTCAGTAGTATACAACTAAAGAATGTAGAAGCTTTTTCTAATCAAGTCATTCAAAGAGGAGCATCTGGCGAAGATGTCATTGAACTGCAATCTCGTTTGAAATATAACGGATTTTATACGGGAAAAGTGGATGGTGTTTTCGGATGGGGTACATATTGGGCACTTCGGAATTTTCAAGAGAAATTCGGATTACCTGTTGATGGTTTAGCTGGAGCTAAAACGAAGCAAATGCTCGTGAAGGCAACGAAGTATGACAAGTCCACTGCCAATAAAGGAAATAGTGGTAGTACTGCACAAAAAAATAAACCATCTCAAAATAAAGGGACAAATGTTCCGAATGGTTATTCGCAAAATGACATTCAACTCATGGCAAACGCAGTATACGGGGAATCACGTGGTGAACCGTATTTAGGACAAGTTGCAGTAGCTGCTGTTATTTTAAATCGTGTTACAAGTACATCATTTCCAAATACCGTTTCAGGAGTAATATTTGAGCCAAGAGCCTTTACGGCAGTTGCGGATGGGCAAATATATTTAACGCCAAATGAAACAGCGAAAAAAGCTGTATTAGATGCGATTAATGGATGGGATCCAACAGGAAATGCTTTATATTATTTCAATCCAGATACTGCGACTAGTAAATGGATTTGGACTCGTCCACAAATTAAAAAAATCGGTAAACATATTTTCTGTAAATAG	MRQKAIFKIAVLLAFIGLSLMVSSIQLKNVEAFSNQVIQRGASGEDVIELQSRLKYNGFYTGKVDGVFGWGTYWALRNFQEKFGLPVDGLAGAKTKQMLVKATKYDKSTANKGNSGSTAQKNKPSQNKGTNVPNGYSQNDIQLMANAVYGESRGEPYLGQVAVAAVILNRVTSTSFPNTVSGVIFEPRAFTAVADGQIYLTPNETAKKAVLDAINGWDPTGNALYYFNPDTATSKWIWTRPQIKKIGKHIFCK				NA	NA	NA	NA	NA
AK009_01318	333			hypothetical protein	ATGAAAAAATCGTTAAAACGTGTCGCACTCGTCATTCTGTTCCTAACAACATGTTCAAATATATATACAGGCTCATCAATTGTTCATGCGCAGCCGCCGTATGCCAAATGGGGTAAACTTGCCGTAGAAAAGACGAAAGAACAATACCCAAAAGCAGAAATTATTGATTATCTACATATAGGTAGAAAACCCAAAACAGTTCAAATAACTGTTGAAAAATTTAAATTGTGGTTACGTGAAGATGGAAAAGAATATGGTGTTTTTGTTGATGTAGAATTTGAAACGAAGACGGAGAAATTTATAAAGTTGTCGTTTCAGAAGACGAGTAGATAA	MKKSLKRVALVILFLTTCSNIYTGSSIVHAQPPYAKWGKLAVEKTKEQYPKAEIIDYLHIGRKPKTVQITVEKFKLWLREDGKEYGVFVDVEFETKTEKFIKLSFQKTSR				NA	NA	NA	NA	NA
AK009_01319	624			hypothetical protein	ATGAGGGGTGAAAAAACTTTATCTTTATTTAGATTATGTTTAAGTCTTCTAGCATGTAGCGCCATTATTACGCAATTCATAATCAGGGCACAAGTGAAACCGTTCAATCCAGTTAACTTTTTTAGTTTCTTTACGATCGAAAGTAACATTTTAGTTGCATGTATTCTCCTTTTAAGCAGTATCGGAACAGCTACATTTGGTCGATCAGAGCAGTTTGGTATACTTCGTGGTGCGGCAACGGTATATATACTTACGACAGGACTAATTTATTTTTTACTATTAAGAGGATTAGAAGAATCACTTCAAACTGCAATACCATGGGTAAATACGGTGCTGCATTATATCATGCCAATTACCATGCTTTTAGATTGGATTTTAAATCCACCAAATAAGAAAATCACCTGGAAAAAAGCTGCAAGTTGGCTCTTATTCCCGTTTTTTTACGTTGTATATAGCTTATTACGTGGTCCAATCGTAAATTGGTATCCATATCCTTTTTTAGATCCGAGAATAGGAGGATATGGTAGAGTCCTTTTATATAGTATAGGGATAGCTGTTGTAATTGGCGCTATTTGTATATTGGTAAGATTTTTAGGGAATCGAAATTTTAGGAAAGAATTTTAG	MRGEKTLSLFRLCLSLLACSAIITQFIIRAQVKPFNPVNFFSFFTIESNILVACILLLSSIGTATFGRSEQFGILRGAATVYILTTGLIYFLLLRGLEESLQTAIPWVNTVLHYIMPITMLLDWILNPPNKKITWKKAASWLLFPFFYVVYSLLRGPIVNWYPYPFLDPRIGGYGRVLLYSIGIAVVIGAICILVRFLGNRNFRKEF				NA	NA	NA	NA	NA
AK009_01320	918	nylB'		6-aminohexanoate-dimer hydrolase	TTGGATTTCAAGCAACTAGAAAATAAATTCGAAAAGAAAAAAGTGAATACATTTCTTGTTTATCAAAAAGGGGAATTAACAACTGAGTATTATAAAACACCTGAATGTGCAAATAACTTATATAAAATAAATTCGATTACAAAAAGTATCGTATCTTTATTAATTGGTATTGCAATTGATAAGGGCTATATAAATGATATACATACACCGATTACAGAGTGGATTGAAAATGTACCTGGGGAAAAACATGATTTGACGCTTTATCACTTATTAACAATGACTACTGGTGAGGATTGGAAAGAGTTTGGGAATGGAGTAGTATTCCCAAATGACTTTGTAGAATCAGAGAACTGGGTACAGTACATATTAGAAAAGCCAATAATTGAAAAACCTGCTACAAAAATGAATTATAATTCAGGTTCTTCTCATTTACTGAGCTATATTATTCAAGAAGCTACTGGAATGTCGACAGAGCGGTTTGCAAAGAAATATTTATTTGATCCATTAGAAATTAACGAATACGAATGGCAACAAGATCCGCAGGGTATATATGTTGGCGGCTTCGGTATGAAAATGAAATCTACAGATTTATTAAAATTAGGAAAATTATGTTTACAAAATGGATATTGGAATGGGAAAGAAATTGTATCAGCACAATGGTTAGAAGAGTCAAGCAGGGCGCAATTTGAAACATATGAACATGTCGGTGCATATGGATATCACTGGTGGGTATTACATAACGAAAGATTTCACATACCGTATTGTATATATTTCGCTATGGGATATGGCGGACAATACATCGTTATCATTCCTCAGTTAGAAGTAGTAGCTATTATAAGTAGTCATATGCCAAAGCGTGGGCTCGTTCCATTAAAATTATTTATTGAGCATGTACAGGGAAATTCTAATTATTTATAA	MDFKQLENKFEKKKVNTFLVYQKGELTTEYYKTPECANNLYKINSITKSIVSLLIGIAIDKGYINDIHTPITEWIENVPGEKHDLTLYHLLTMTTGEDWKEFGNGVVFPNDFVESENWVQYILEKPIIEKPATKMNYNSGSSHLLSYIIQEATGMSTERFAKKYLFDPLEINEYEWQQDPQGIYVGGFGMKMKSTDLLKLGKLCLQNGYWNGKEIVSAQWLEESSRAQFETYEHVGAYGYHWWVLHNERFHIPYCIYFAMGYGGQYIVIIPQLEVVAIISSHMPKRGLVPLKLFIEHVQGNSNYL				NA	NA	NA	NA	NA
AK009_01321	840	kynA	COG3483	Tryptophan 2,3-dioxygenase	ATGAAAGAAAATGAAAAAGTAATTATTGAAAAAGGGATTCATACGGATTTTAAAGAGAATATGACGTATGGGGAGTATTTACAATTAGATAGTTTACTATCTTCTCAAAAAAGATTATCGGATCATCATGATGAAATGTTATTTATCGTTATCCACCAAGCAAGTGAGCTTTGGATGAAGCTCATTTTACATGAGCTAAATGCGGCGATTGAATCTATTAAACAAGATAAATTACAACCAGCTTTTAAAATGTTAGCACGTGTATCGAAAATTCAGTCTCAAATTATTCAATCTTGGGATATTCTTGCGACATTAACACCATCAGAATATATTGAGTTTCGTGATTCACTCGGTCAAGCTTCAGGTTTTCAATCGTATCAATATCGTATGATTGAGTATGCACTTGGCTATAAAACGCCGCACGCATTAAAAATTTATGAAAAGGATCCAGAATTACATGCACGACTTCATAAAGCGCTACATGCACCAAGTCTATATGATGTCGCGATTCAAGCATTAGTAAAAGAAGGATTCCCTATTCATAAAGATGTGTTAAACCGTGATATTACGCAGCCTTATGAAGAAGATGCAACAGTAGAAGCGGCGTGGTTAGAAGTGTATGTGGATGTGAAAAAATATTGGAATTTATATCAGCTTGCTGAAAAATTGATTGATATTGAAGACTGGCTACAACAATGGCGTTTCCGTCATATGAAAACAGTAGAAAGAATTATTGGACATAAAATGGGAACAGGTGGATCCTCCGGTGTTTCTTATTTAAAACGAGTACTTGATCAAAGATTCTTCCCAGAGCTTTGGAATGTTCGTACGAAATTATAA	MKENEKVIIEKGIHTDFKENMTYGEYLQLDSLLSSQKRLSDHHDEMLFIVIHQASELWMKLILHELNAAIESIKQDKLQPAFKMLARVSKIQSQIIQSWDILATLTPSEYIEFRDSLGQASGFQSYQYRMIEYALGYKTPHALKIYEKDPELHARLHKALHAPSLYDVAIQALVKEGFPIHKDVLNRDITQPYEEDATVEAAWLEVYVDVKKYWNLYQLAEKLIDIEDWLQQWRFRHMKTVERIIGHKMGTGGSSGVSYLKRVLDQRFFPELWNVRTKL	PGPT0020505_1307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453	NA	NA
AK009_01322	630	kynB_1	COG1878	Kynurenine formamidase	ATGAAAACATCAGAGTGGATTGATATTTCACAACCGCTAAATAATAATATTGCAACGTGGCCAGGAGACACACCGTTCTCGTATGAAGTTTCATGGTCAAAAGAAGAAAGTGGCTCGGTAAATGTCGGAAAGTTAACGATGAGTATTCATACAGGCACTCATATTGATGCACCATTTCATTTTGATAATGATGGAAAGAAAGTATTGGATTTAGATGTTCAAGTTTATGTTGGCCCAGCACGGATTATTGACGTTTCTAATCTTGAAAGCATCGGGAAAAAGGAATTAGAAAACTTTCATTTAGAAGGTGTAGAACGATTATTATTACGTACATCTTCACATGGAAAAAATGAAGAATTTCCAGATGTGATCCCTCATTTACGTGCAGACATAGCACCTTTTCTATCAGAGAAAGGTATTCGTTTAATCGGAGTAGATGTACCATCAGTTGATCCGTTAGATGATAAAGAATTAGCAGCGCATCATCAATTATTTAAACATGGAATTCATATTTTAGAAAATGTCGTATTAGATCATGTAGCAGACGGTGATTATGAACTTATTGCATTACCACTTGCATTAACTGATGCAGATGGAAGTCCAGTTCGAGCCGTTATTAGACCAATATAA	MKTSEWIDISQPLNNNIATWPGDTPFSYEVSWSKEESGSVNVGKLTMSIHTGTHIDAPFHFDNDGKKVLDLDVQVYVGPARIIDVSNLESIGKKELENFHLEGVERLLLRTSSHGKNEEFPDVIPHLRADIAPFLSEKGIRLIGVDVPSVDPLDDKELAAHHQLFKHGIHILENVVLDHVADGDYELIALPLALTDADGSPVRAVIRPI				NA	NA	NA	NA	NA
AK009_01323	1287	kynU		Kynureninase	ATGTATAAAGAACCATTTCAACCAACTTATGAGTATGCGCTTGAATGTGATAAACATGATGAACTGAAAGATTTTCAAACTGAATTCTATAAAAAAGAAGGTACTATATATTTAGATGGAAACTCATTAGGGCTACTTTCAAAAAGAGCAGAGAAATCATTACTTACGTTGCTAGATTCGTGGAAAGAATATGGAATTGACGGTTGGACTGAAGGTGAGCACCCGTGGTTCTTCCTTTCAGAGAAATTAGGTAAACTTACAGCCCCTCTTATTGGAGCTTTACCGGAGGAAACTATTGTAACCGGTTCTACGACTACAAATATACACCAAGTTATTGCGACGTTTTATGAACCGAAAGGAATACGTACAAAAATACTTGCGGATGAATTAACTTTCCCGTCAGATATTTATGCACTTCAAAGTCAAATACGTTTAAAAGGATTAGACCCAGATGAGCATCTAGTAAGAGTGAAAAGCCGAGATGGTAGAACACTTTCTGAAGAAGATATTATTCATGCGATGGAAGATGATATCGCTTTAATTTTATTACCTTCTGTTTTATATAGAAGTGGTCAAATTCTTGATATGAAACGTTTAACAACGGAAGCACATAAACGAGACATTCATATCGGATTTGATTTATGTCATTCAATAGGATCTATTCCGCATCATTTCAAAGATTGGGATGTTGATTTTGCTGTTTGGTGCAATTATAAATATTTAAATGCAGGACCGGGTAGTGTTGCAGGACTTTATGTAAATAATAAACATTTTAATAGACTGCCAGGGTTGTCTGGATGGTTTAGTTCTAAAAAAGATAAGCAGTTTGATATGGAGCATACATTAACAGCCGCTGATCATGCAGGTGCTTATCAAATTGGTACACCTCACGTATTAAGTATAGCACCATTAATTGGTTCTCTTGAAATTTTCAAAGATGCTGGTATTGAACGTTTACGTGAGAAGTCTTTACATATTACGAGATACATGCTGAATTTAATTGATCATGAATTAAAAGATTTCGGATTTACAATTGGAAATCCGTTAGAGGATGAAAGTCGAGGCGGGCACATTTATTTAGAGCATGCAGAAGCAGCACGTATATGTAAAGCGCTAAAGGCAAATGGAGTAATTCCAGATTTTAGAGCGCCAAATGGAGTGAGACTTGCGCCGGTCGCTTTATATAACACATACGAAGAAGTGTGGAAATCTGTACAAATATTAAAGGGAATTATGAAAGAAGAAAAGTATAAGCAGTTTGAAAATAAGCGAGAGGTTGTGGCATAA	MYKEPFQPTYEYALECDKHDELKDFQTEFYKKEGTIYLDGNSLGLLSKRAEKSLLTLLDSWKEYGIDGWTEGEHPWFFLSEKLGKLTAPLIGALPEETIVTGSTTTNIHQVIATFYEPKGIRTKILADELTFPSDIYALQSQIRLKGLDPDEHLVRVKSRDGRTLSEEDIIHAMEDDIALILLPSVLYRSGQILDMKRLTTEAHKRDIHIGFDLCHSIGSIPHHFKDWDVDFAVWCNYKYLNAGPGSVAGLYVNNKHFNRLPGLSGWFSSKKDKQFDMEHTLTAADHAGAYQIGTPHVLSIAPLIGSLEIFKDAGIERLREKSLHITRYMLNLIDHELKDFGFTIGNPLEDESRGGHIYLEHAEAARICKALKANGVIPDFRAPNGVRLAPVALYNTYEEVWKSVQILKGIMKEEKYKQFENKREVVA				NA	NA	NA	NA	NA
AK009_01324	612	fadR_1		Fatty acid metabolism regulator protein	TTGAAAAACTCTACTCTTTCATCAAGAAAACACCGCTCCTTAGAAACGAAGAAGAAACTACTACACTCTGGTTACACTATTTTTATACGTAACGGATTTCAAAAAACGACAATTACACAAATTATTAAACATGCAGAAACCGGTTACGGAACAGCATATGTATACTTCAAAAACAAAGACGATCTCCTAATTAGTTTAATGGAAGATGTTATGAATCAATTTCATAATATTGCCAAGCGCTCCTTTTTGCCTCAAACGAAGGAAGAAGCTCATAAAATGATTCGAAATCAAGTTAGAGCATTTCTCCAACTAGCAAAGAAAGAACGAGCTATTTTACAAGTTGTAGAAGAAGCAATCGGATTATCAAAAGAGATACGTAAAAAATGGGACGAGATACGGGAACGCTTCATAAACAATATTACGCAGGATATTACATACTCTCAAGAAAGTGGATTAGCACAGCCTGAATTAAATAAAGAAATTGTAGCACGTGCTTGGTTCGCAATGAATGAGATGTTTCTTTGGGCGATTGTGAAAAATGATAAAAAATTAGAGTTAGAAGAGATAGTACATACATTGACGGAAATGTATACGACGGGGTTATATAAATAG	MKNSTLSSRKHRSLETKKKLLHSGYTIFIRNGFQKTTITQIIKHAETGYGTAYVYFKNKDDLLISLMEDVMNQFHNIAKRSFLPQTKEEAHKMIRNQVRAFLQLAKKERAILQVVEEAIGLSKEIRKKWDEIRERFINNITQDITYSQESGLAQPELNKEIVARAWFAMNEMFLWAIVKNDKKLELEEIVHTLTEMYTTGLYK				NA	NA	NA	NA	NA
AK009_01325	300			hypothetical protein	TTGCCAGCTGGAGCAATTGAACTTGGGGAAACTCCAGAAGAAGCAGTAGTTAGGGAAGTTTTGGAAGAAACAGGATTGAAAGTACAAGTAAAAAAACAAAAAGGAGTATTTGGAGGAGAAAAGTACCGCCATACATATCCGAATGGTGATGAAGTAGAATATATTATTGTTGTGTTTGAGTGTGAAGTTAGCGGTGGCGAGTTGAAATCGATAGATGGTGAATCGTTAAAACTAAAATATTTCCCTTTATCTGAAAAGCCCCTTTTAGCATTGCCATACCCAGATAAAATATTTTTATAA	MPAGAIELGETPEEAVVREVLEETGLKVQVKKQKGVFGGEKYRHTYPNGDEVEYIIVVFECEVSGGELKSIDGESLKLKYFPLSEKPLLALPYPDKIFL	PGPT0024450_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
AK009_01326	123			hypothetical protein	ATGTCACTATATTATAAAAAAATCCGTGAGCAATTAGGGCATGAACTAATATTCATGCCGAGTGTAGCTGCTATTATAAAAAATAAACAGGGGGATATTTTATCCCGCATTAACGGGCAGTAA	MSLYYKKIREQLGHELIFMPSVAAIIKNKQGDILSRINGQ				NA	NA	NA	NA	NA
AK009_01327	258			hypothetical protein	GTGAAGTATATTGAGATTGGAATCGGGAATAAGTGGTTCGTTCGAACGGAAACTGAAAATAAAGATGGGACTGAATTTGAAGAACGAGGAATTATAAAACCTATTTACTTAGAGTCTGTATACGTACGAATTTGGTTTCGGAAAACGTGTTTTATTTTTGATACGAAAGAGGGTTTTAAGAAAGATAAGAAGAGAAGGATTGAATATAAATTTATTGTTGGAATTGTGAGTAGGGTGACTGAAGAAAAAGTACGCTAA	MKYIEIGIGNKWFVRTETENKDGTEFEERGIIKPIYLESVYVRIWFRKTCFIFDTKEGFKKDKKRRIEYKFIVGIVSRVTEEKVR				NA	NA	NA	NA	NA
AK009_01328	1851	acoR	COG3284	Acetoin dehydrogenase operon transcriptional activator AcoR	ATGTTAGCTTCACCGTTTTACTTACATACATGGAAAAAGTTTATTGATGAAGGAGTCTTTGATTCGAACCGTATAAACGAAAGAATTTCAGAGTCATGGCATCGATGTAGACAAGCAAATGTGAATCCTTATATGAATAAAGGTCAGAAAATTTTGTCTTCTAATGTTTTTCAAGAACAAAAGAAAAAGAGTGAAATTTTTCTTGATATAGCATTACCTCAAATACAAAATATGAGAAAAACCATTGATGAACTACAAATGATGGCATTATTAATCGATCCAGATGGTTATGTTCTATCGTTAAGTGGAAATAAACAAACGTTAAAGCGAGCGAAACATATTAATTTTATTGAAGGTGTAAAATGGACAGAAGCAGCTGTTGGTACAAATGCAATTGGAACAGCGCTAGAAATTGAAGAAGCTATTATGATAAGTGGTACTGAACATTATTCCGTGGCATCTCATAGCTGGAGTTGTGCGGCTGCTCCTATCCATAATGATGACGGGAAATTAATTGGTGTTCTAGATTTCTCCTGTCCAATTGAATTTTCGCATCCATATATGCTCGGTATGGTAACTTCAATTGCACATGCAATAGAACGTGAATGTAGCATAAGAGTTCATCAAAATGAATTACACTTAATTCATCGTTTTTTGGATGTCATTGATAGTGACGAACAAGTAGTTATTTGTAATCATCGTGATGTTATCGTTTCTGCGAGTAAGAGTGTTCGTGAACGAATAAATAATTGGTCAAGAATGAAGCTTGAAGAGTTAATGCACCATGGATTGGAAACTAAATTAGAGATACCAGTATATAGTAATGAAAGAATGATTGGGAAATGTATGTATTTAAAGAAAAACAAACAAATAAATACATATTCTGCTTTCGCATTTATAAAAGGAATTACTTTTTCAGGAGTTACCGGGACAAGCAAAGCATTTCAACACACACTAGAAGAAATTAAGCTTGTTTCACCGACTGATGCTAGTGTGTATGTATGTGGTGAGACAGGAGTAGGAAAGGAATATGTTGCGAGAGCGATTCATGAAAATAGCCCAAGAAAAGATGGGCCCTTTATAGCTGTTAACTGCGGTTCTCTGCCTAAAGAATTAATGGAAAGTGAATTGTTCGGTTACGTTGAAGGTGCGTTTACAGGTGCGCGACGTCAAGGGTATAAAGGGAAATTTGAACAAGCGCATGGAGGAACATTATTTTTAGATGAAATTGGTGAAGTACCACCAGAGATGCAAGTAGCATTATTGCGTGTTTTACAAGAACGTACAATAACTCCAATAGGAAGTTCAAAAGAGGTACCAGTAAATATTCGTATTATTACTGCCACACATAAAGATTTACTACGGTTAGTAGAAGAAGGGAAATTCCGTCAAGATTTATATTATCGTTTGCACGTTTATCCGTTATATGTTCCATCGTTAATAGAAAGAAAAGAGGATATCTCATATTTTATACAACACTTTTGCGAACGGAAGAATTGGAATGTTGTATTTCCAAAGAGTATTTGCAATCAATTTTTACAACATACATGGCCCGGAAATATTCGAGAACTAGTAAATGTATTAGAACGCATTTACATCTTGTCGCAAGGACGGGAAATATGCGAAAAGCAAGTCGCTTTTTTGCTACAAACAATGATGGGAAATCAACAACAACTTGAGTTACAAGTTGAAAATAAAACAGAACATCCACTAAATTTTCGCGAAAAAATACAGCGTGATAGCATGATTGAAGTATTACAAAAGACAAACGGAAATGTTTCATTAGCTGCAAAACTATTAGATGTACCCCGTAGTACATTTTATAAGCGAATGCAAAAATATAAGTTATAA	MLASPFYLHTWKKFIDEGVFDSNRINERISESWHRCRQANVNPYMNKGQKILSSNVFQEQKKKSEIFLDIALPQIQNMRKTIDELQMMALLIDPDGYVLSLSGNKQTLKRAKHINFIEGVKWTEAAVGTNAIGTALEIEEAIMISGTEHYSVASHSWSCAAAPIHNDDGKLIGVLDFSCPIEFSHPYMLGMVTSIAHAIERECSIRVHQNELHLIHRFLDVIDSDEQVVICNHRDVIVSASKSVRERINNWSRMKLEELMHHGLETKLEIPVYSNERMIGKCMYLKKNKQINTYSAFAFIKGITFSGVTGTSKAFQHTLEEIKLVSPTDASVYVCGETGVGKEYVARAIHENSPRKDGPFIAVNCGSLPKELMESELFGYVEGAFTGARRQGYKGKFEQAHGGTLFLDEIGEVPPEMQVALLRVLQERTITPIGSSKEVPVNIRIITATHKDLLRLVEEGKFRQDLYYRLHVYPLYVPSLIERKEDISYFIQHFCERKNWNVVFPKSICNQFLQHTWPGNIRELVNVLERIYILSQGREICEKQVAFLLQTMMGNQQQLELQVENKTEHPLNFREKIQRDSMIEVLQKTNGNVSLAAKLLDVPRSTFYKRMQKYKL	PGPT0001030_1641	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
AK009_01329	174			hypothetical protein	ATGCAGGTCAGAACGAAATTATATATTAGTTTATCAGCCGCTATTTTATTTGCAATAGCCGTGATTGTTTTCTTTATAAATGGTAATCCACAAAAGTGGTTTTGGTTATGTATTTTCTTTGCGTCCATTATACAAAATATGGTGCTACTAAAAAAGAATAAAGACGAGCATTAA	MQVRTKLYISLSAAILFAIAVIVFFINGNPQKWFWLCIFFASIIQNMVLLKKNKDEH				NA	NA	NA	NA	NA
AK009_01330	339			hypothetical protein	ATGTTTTACAGAAGGAAGTACTATGTAGTGAAAAATGAATTCATAGAAGTATTTAATGATCATTTCAATAACACGAACTTACCTAATCAGTTAAAGCATGGCTCTAGGCTAATAGGACGCTGGATGAAAGGTAATAAGAATGGTACGTCTGAAGTATTCGCCATATGGGAATATGATAGTTTTGAAAGGTATAAAGAAATTGAATCGAAAATTAGAAGTGACGAGATTCATGTAAAAAGAATACATGATTGGTATGAAAAACATGGCGGAAGAGAATATGTTTTACAGAAGTACATAGTAGAGATGAAAAATGAAGAGTTAGTATGTACTGTAAAATAA	MFYRRKYYVVKNEFIEVFNDHFNNTNLPNQLKHGSRLIGRWMKGNKNGTSEVFAIWEYDSFERYKEIESKIRSDEIHVKRIHDWYEKHGGREYVLQKYIVEMKNEELVCTVK				NA	NA	NA	NA	NA
AK009_01331	597			hypothetical protein	ATGATTGTAAAAGAGCAAGAGTTTCATATAAATGGATTAACTTATACAATTCGTTCTGCAGCTGAGAAAGATGCAGAGCAGTTATCGAAAATTAGAGTTCAGATTGATAGAGAAACTGAAAATATGGATAGAGATGCTGGAGAGGGATTTATAGATGATCTAGGATTTCAAAAAATAATAAAAACAGATAGTGAAGAGACTAAGAATCTCTTTTTAGTTGTAGAAGTGCACAATCGAATCGTTGGATTTTCAAGATGTGAAGGGTCAAATTTTAAGAGATTATCTCATAAAGTGGAGTTTGGTGTTTGTATTTTAAAAGAGTTTTGGGGATATAGAATGGGTAAGAGTCTATTGCAACAATCTATTAAATGGGCTGATGAAAATGCAGTAAATAAAATATCTTTACAAGTATTAGAGACAAACGAGAAAGCTATTCATCTGTATAAAAAATTAGGTTTTGAAGTAGAAGGCATTTTGAAAAATGACAAAAGACTATCGGATGGAAAGTATTATAATACGGTAGTGATGGGAAGGTTTACTGATACTTTTCATAAAAGAGGGGAAGAGGTATGTTTTACAGAAGGAAGTACTATGTAG	MIVKEQEFHINGLTYTIRSAAEKDAEQLSKIRVQIDRETENMDRDAGEGFIDDLGFQKIIKTDSEETKNLFLVVEVHNRIVGFSRCEGSNFKRLSHKVEFGVCILKEFWGYRMGKSLLQQSIKWADENAVNKISLQVLETNEKAIHLYKKLGFEVEGILKNDKRLSDGKYYNTVVMGRFTDTFHKRGEEVCFTEGSTM				NA	NA	NA	NA	NA
AK009_01332	786	glcR_1	COG1349	HTH-type transcriptional repressor GlcR	ATGTTTACTGAAGAACGTCGAGAGAAAATTTTAGAACTACTTAATACAGATGGAAGAGTAATAGCAAAGGATCTTGCGGAAAGATTTGATATGTCTATTGATTCTATAAGAAGAGATTTGTCTATTATGGAAAAGGATGGTTTATTAAAAAGAACGCACGGAGGTGCAATTGAACTTACGCGAGTGAGAAACTTAGCTGCGGAACCAACTAAACGTTATAGTGATAGCTCAATATATGAGGACACAATTGCAAGAGTTGCGGTATCTTATATACAAGAAGGTGATTCAATTTTTATTGGTGGGGCTTCCGTTCATAATGCGATGCTGAAATATTTACCGGAAGTATCATTTACGGTTATTACGAATTCTATAGAAATAGCTGGTTATCTACGAGAATATAAGAATATTGATACGTATTTAATTGGCGGAAAAGTAAAACCTTCAGGGAATATTACTGATACACTTGCCTCTGAATTGATAAGTAGATTTTCTATTGATCTGTATTTCTCTACAGGTGGAGGCATTTCATTACAAGGTATTAGTACCGCAACACCTGAAGTTGCTTATTTTAGTAAAAGAGTAAGTGAAATTGCTAGAAGAAATATTTGTTTAGTTCCGCATAATAAACTTGGAATAGATTGTTTTATAAGAGGAGAGTCTCTAAAAAAAATTGACATTATTATAACTGACGAAGAGGCTAGTAAAGAAACTGTTCAGGACTTTGAGAAACAAGGTAAACAAGTTGTAATAGCGCCATTATATTCATTTGAAAGGAGTTTGACATGA	MFTEERREKILELLNTDGRVIAKDLAERFDMSIDSIRRDLSIMEKDGLLKRTHGGAIELTRVRNLAAEPTKRYSDSSIYEDTIARVAVSYIQEGDSIFIGGASVHNAMLKYLPEVSFTVITNSIEIAGYLREYKNIDTYLIGGKVKPSGNITDTLASELISRFSIDLYFSTGGGISLQGISTATPEVAYFSKRVSEIARRNICLVPHNKLGIDCFIRGESLKKIDIIITDEEASKETVQDFEKQGKQVVIAPLYSFERSLT	PGPT0017590_591	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
AK009_01333	696			hypothetical protein	ATGCACGTTTCTTCCGTTTCACAATATTTTCAATCCTTTTTCTTCCGTCTTTATGCAGTGTTTTCCTCTTTTTCTATTTTGTTAACTTTACATAAAATAAATGCAGATTTGCATATTCCACTAAAAGACTTCTATTTATTTCCTTATTCATGTAAAATTATTCCTATGTTTTACTTTTTAATACAGAAAGGGATTACTATGAAATCATTAATCAAAACGACATGTACAGCATTATTATTTACAGGAATATTAACAGGGTGCAATAGCAATACTACACCAAAACAAGAAAAGAGCGCTCTCGAAAAGAATGCAATGCACTATGGAGAAATAGTTAAAAACGAATACTATAGAGCGACAGTTGAAAATGCAAAGTTTGAAAAAATAGACGAAGAGCGGCGCCTTACTACTCGTGTTATGATTAATAATGTTCGAGAGGATGGACAAACTATTGATCTTTCGGAAATAAAATATTTCATACAAGATGAAAAAACTGGTCAGAAATATGAAGGTGAAGCTCATCCGATAGGTGACGAGCACTATAAAAATGTTCCACACGAATTCTCTTTAACTACTGACGTTGTATTTGAACTGAAAACTTCACCAAAAGATTTAAATAATATGTATTTATACATAGATAGCAAAGCTGCGCCGTTAACAAATACATATTGGAAACTTGATAATTTAGTATCTAAATAG	MHVSSVSQYFQSFFFRLYAVFSSFSILLTLHKINADLHIPLKDFYLFPYSCKIIPMFYFLIQKGITMKSLIKTTCTALLFTGILTGCNSNTTPKQEKSALEKNAMHYGEIVKNEYYRATVENAKFEKIDEERRLTTRVMINNVREDGQTIDLSEIKYFIQDEKTGQKYEGEAHPIGDEHYKNVPHEFSLTTDVVFELKTSPKDLNNMYLYIDSKAAPLTNTYWKLDNLVSK				NA	NA	NA	NA	NA
AK009_01334	603			hypothetical protein	ATGAATAATTTTTGGAATGATCGATATAAATCAGATGAATATTTTTACGGGGAAGAACCTAATACATTTATTAAAGAACAAGCATTTCGTTTAGCAAATCACAATAAAGTAATAGCATTTGCGGAGGGAGAAGGTAGAAATGCTGTATTTCTAGCAAGACAAGGGAACGAAGTAACAGCTATTGATTATTCGGAAGATGGATTAGAAAAGACAAAAAAATTGGCAGAGAAGCATAACGTAAACGTGCATACAAAAAAAGTAGATTTATTAGCTGATAGTTTGCCAGAAAATGAATATGATGCGGCAATTATGGTATTTGGACATTTTCATGATGATTATAAAAAAATGATATTAGATAAAATGATACAAACGATAAAACCTGGTGGATTAATTATGTTTGAAGTTTACTCAAAAAAACAAATAAACTATAGTACTGGTGGACCAAAAGATGTTGATATGCTGTATGATCCAATTGATATCCTTACTTGGTGTGAAGAACATAAGGTAATTCATTTCTTTAATGGAGAACAAGAGCGAGTTGAAGGGAAAGGGCACACTGGTTTAGCTGATGTTATTCAAGTTGTTATTAGAAAATTAATATAA	MNNFWNDRYKSDEYFYGEEPNTFIKEQAFRLANHNKVIAFAEGEGRNAVFLARQGNEVTAIDYSEDGLEKTKKLAEKHNVNVHTKKVDLLADSLPENEYDAAIMVFGHFHDDYKKMILDKMIQTIKPGGLIMFEVYSKKQINYSTGGPKDVDMLYDPIDILTWCEEHKVIHFFNGEQERVEGKGHTGLADVIQVVIRKLI				NA	NA	NA	NA	NA
AK009_01335	402	nsrR		HTH-type transcriptional repressor NsrR	ATGAAATATTCTAAAGCTACAAATTATGCTCTTCATACAATGCTTTTTCTGGCAAAGGCCACACCAAATAAGTTAGTTAGTGTTTACCAATTAGCAGAAATGCAAAATGTTTCACCAACGTACTTGTCTAAAATACTAACTAAGTTGACGAAGGAAGGGATGATACACTCATCATCTGGTCCAAAGGGCGGTTACTCGCTTAGTAAGAATTGGGAAGATATTTCATTTTTAGATATTATACATGCAATTGAAGGCAAAACATCATTGTTTGACTGTTGTTTACATGACAAACCTGGATGTTTAATTAATGAGGCAATGCTCGCAGCAGAAGAGAAAATGGAAGAAGAGTTAAGAAATCAAAAAATCGTAGATCTTGCGAAAAAAATAAAAGTGGATTTTTAA	MKYSKATNYALHTMLFLAKATPNKLVSVYQLAEMQNVSPTYLSKILTKLTKEGMIHSSSGPKGGYSLSKNWEDISFLDIIHAIEGKTSLFDCCLHDKPGCLINEAMLAAEEKMEEELRNQKIVDLAKKIKVDF				NA	NA	NA	NA	NA
AK009_01336	810			hypothetical protein	GTGAATCTTGTACAGCTAAAATGTATTCTAATTTTATACTTTTGTAAATATTCTGAAATTTTAGAAATAATAGGCGGAATATTTACATTTTTACATTATTTCTTTAGAAAAAATGGTTATTGGAATGATATAATAAGTGGATGCATTGCTTTTACTGGATGTAAAGATATTTTAGGAGAGGTGTCATTGAAATATTTTACAAGAGAATGGTATAAAAAAATGCAAGTTTTAGAATTTGTAAGTTTTATAGAGTCTATAAAAGAATGGTCGGAAATGGATATACAAAGTTTAAAGGAAGAAATAGAGGAAAGGAAAATAGATTTATTAAAATTCCTTCCTGAATCGATATACTCAATTATACAAAACATAACAATTAATTCAGAATACCCATCAGGTGAACTGAAAAAACTTATGCAAGAGTGGACAACAGATTATGAGAAAAGAATGGCACAATTAGATCAATCATACGTAGAATATTTTAATTCCATTGAGAAAAAACTTCCGTCAAATGTCGCTCAGTTACACAAGACATCACTACACGATAGTGTAATTAAAGTAATAAAGAGAGAATCAGAAGATACTTTGTCTATCGTATTAGATTGCAGTGGTACTTTTAGTGAATTTGATAAACTTGAAGTAACCTTTATAGGAGTAACAAAGTGTTCTATGCAGGAAAACTTTGACAGTGCTTGGTGGCTATATCATGAAATAGCTCTTACTGAAGATGGTTTTGAACTAGGTGTTTTATTTGACTCTCCATTTAGAGAAGTGACGATTTGCGCAGCAGATGTATTACTTGTGAAGAAATAA	MNLVQLKCILILYFCKYSEILEIIGGIFTFLHYFFRKNGYWNDIISGCIAFTGCKDILGEVSLKYFTREWYKKMQVLEFVSFIESIKEWSEMDIQSLKEEIEERKIDLLKFLPESIYSIIQNITINSEYPSGELKKLMQEWTTDYEKRMAQLDQSYVEYFNSIEKKLPSNVAQLHKTSLHDSVIKVIKRESEDTLSIVLDCSGTFSEFDKLEVTFIGVTKCSMQENFDSAWWLYHEIALTEDGFELGVLFDSPFREVTICAADVLLVKK				NA	NA	NA	NA	NA
AK009_01337	597			hypothetical protein	ATGTTGAAGAAATTAGTAGCAGGGACATTAGTAGCGGGTTTTGCATTAACTGGAGGACTAGGTGCAGTAAGTGCTGAGGAAAAAAGTAACACAATTAAGTCATTTGATTATTTAAAAGTGGATGAACAAAATGTTAATTCATTTGCAAAATTAAGTGATCAGGATAAGAAAGATATCCAAATTACTATGGTATTACCTAAGCAAAATGAAAATGGAGATTGGCTAGCTTATGGTTTTACTAGCCGCGAAACATTGGATGCGTATATTGCAAAGGATAAAAAAGCAATTAAAAATAATATTAATCCTTTAGGTAGTGGTGCTGGTAGTACTGATTTTTATGAACATAAAGATAAAGGTGGCCAATATATTTACTGGAGCAGTGGCTTTAAAAACTTACCATCTAGCTGGAATGACAGAATTTCTTCTGTAAGTACAGCGTCGCCTTCTGCAAGTTATTCAACAACACTTTGGGAACACACTTCAACACAAGGATATGGAAAAGGCGTTTTATTTAAACACGCTGATTGGTACGGTAAAACTGCTAATTTAGCTCCTGAATGGAACGATAAAACTTCAGCTATTGACATTAAAAAGTAA	MLKKLVAGTLVAGFALTGGLGAVSAEEKSNTIKSFDYLKVDEQNVNSFAKLSDQDKKDIQITMVLPKQNENGDWLAYGFTSRETLDAYIAKDKKAIKNNINPLGSGAGSTDFYEHKDKGGQYIYWSSGFKNLPSSWNDRISSVSTASPSASYSTTLWEHTSTQGYGKGVLFKHADWYGKTANLAPEWNDKTSAIDIKK				NA	NA	NA	NA	NA
AK009_01338	1380	pdhD_1		Dihydrolipoyl dehydrogenase	ATGGATAAATTAGTTGTTATTGGGGGTGGACCTGCTGGCTATGTAGCAGCAATTACCGCGGCTCAAAATGGCAAAGATGTCACTCTTATTGATGAAGCTGACCTTGGCGGAACATGTTTAAATGTTGGGTGTATGCCTACGAAATCACTGTTAGAAAGTGCTGAAGTACATGACATTGTGAGAAAAGCGAATGATTATGGAGTTACGATTAATACAGAAAATATCTCAATTGATTGGGGTCAAATACAGGCGAGGAAATCACAAATCGTAAAGCAACTCGTCCAAGGAATACAATATTTAATGAAGAAAAATAAAATTAAAGTTGTAAAAGGAAAAGCGAAATTCGAAACGGATCATCGTGTGCGAGTTGTACAAGGAAATAAAGAAGAAGTAATTGATGGAGGGAGCTTTATTATTGCAGCTGGTTCCGAACCTACAGAATTACCATTCGCTCCGTTCGATGGAAAATGGATTTTAAATAGTAGCCATGCAATGTCTCTTGAGAGTGTACCATCTTCATTGTTAATCGTTGGCGGTGGTGTAATAGGATGTGAGTTTGCAAGTATTTATAGTAGAATCGGCACAAAAGTATCGATAGTTGAGATGGCACCGCAATTACTACCTGGTGAAGATGAAGATATCGCGAATATTTTAAGAGAGAAATTAGAAAAAGATGGTGTGGAAATTTTTACGGGAGCAGTTTTAAAAGGATTAAATAACTATAAGAAGCAAGCTTCATTTGAATACGAGGGAATTACTCACGAAGTAACTCCAGAATTTGTTCTTGTTTCTGTAGGAAGAAAACCACGAGTACAACAATTAGGATTAGAAAAGGCAGGAGTTCAGTTTTCAAATAAAGGGATTGCTGTGAATGAACATATGCAAACGAACGTATCACATATTTCCGCAGTTGGTGATGTGATCGGTGGAATTCAGCTTGCTCACGTTGCCTTCCATGAAGGAACGACAGCAGCATTACACGCAAGCGGAGAAGACGTGAAAGTAAATTATCACGCTGTTCCCCGTTGTATATACACAGCTCCAGAAATAGCTAGTGTCGGGTTAAGTGAAAAAGGTGCAAGAGAACAATATGGTGATATTCTCATTGGAGAATTCCATTTTACAGCGAACGGAAAAGCTCTTATTTTAGGAGAACAAACGGGTAAAGTAAAAGTCATTGTGGAACCTAAATACCAAGAAATTGTAGGGATTTCTATTATCGGTCCTCATGCAACTGAACTTATTGGTCAAGGGACCGTAATGATTCATACAGAAGTTACCGCTGATATAATGAGAGATTATATTGCAGCGCATCCAACCTTATCTGAAGCGATTCATGAAGCATTATTGCAAGCTGTAGGACAGGCTGTACATGCTTAA	MDKLVVIGGGPAGYVAAITAAQNGKDVTLIDEADLGGTCLNVGCMPTKSLLESAEVHDIVRKANDYGVTINTENISIDWGQIQARKSQIVKQLVQGIQYLMKKNKIKVVKGKAKFETDHRVRVVQGNKEEVIDGGSFIIAAGSEPTELPFAPFDGKWILNSSHAMSLESVPSSLLIVGGGVIGCEFASIYSRIGTKVSIVEMAPQLLPGEDEDIANILREKLEKDGVEIFTGAVLKGLNNYKKQASFEYEGITHEVTPEFVLVSVGRKPRVQQLGLEKAGVQFSNKGIAVNEHMQTNVSHISAVGDVIGGIQLAHVAFHEGTTAALHASGEDVKVNYHAVPRCIYTAPEIASVGLSEKGAREQYGDILIGEFHFTANGKALILGEQTGKVKVIVEPKYQEIVGISIIGPHATELIGQGTVMIHTEVTADIMRDYIAAHPTLSEAIHEALLQAVGQAVHA	PGPT0001380_8163	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
AK009_01339	1200	pdhC_1		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCTGTAGAAGTTGTAATGCCGAAGTTAGGTATGGCGATGAAAGAAGGTATTATTACGAGCTGGAATATTAAAGCAGGCGATAATGTAGCAAAAGGAGAACTGATCGCTAGTATTAACTCAGAAAAAATTGAAACGGAAATTGAAGCACCCGCTGATGGTACGGTACTTGATATAGCTGTAAGTGAAGATGAAGGAGTGCCGCCTGGTACTGTAATTTGCTACATCGGTAAACCGAATGAAAAAGTAGAGATGAAGGAAAGTACACCTGTTATAGAAGAAAAAACATCTAATATAGAAGCGCAACATGTACAACATCCAGAACCTTATGTGAAAGAAGTGGCGAAGCAACGAATCAAAATTTCACCTGTAGCGAAGAAAATTGCAAAGTCTGAAAATCTGGATATCAAGGCATTAGTTGGCACAGGTCCTGGCGGAAGGATTACAAAGGCAGATGTATTAAAAGCACTTGAGGTAAGAGGAAACGTTCCGGAAATATCTGAACGAGAAGAAAGTAACGCGGTTCCTGTTACTGGTATGCGTAAAGCAATCGCAAATCGTATGCACGCAAGCTTACAAAATAGCGCACAATTAACGTTAACGATGAAAGTAGATGTAACAGATTTAGTTGCTTTACATAAAGAAATAGCAGAAGTTGTACAAAAAAGATATGATAACAAACTAACCATTACGGATTTCGTCTCTCGTGCTGTTGTATTAGCGCTTGGGGAGCATAAAGAAATGAACAGCGCTTATATAGATGATGCAATTCATCAATTTGAACATGTTCATTTAGGCATGGCAGTCGCATTAGAAAAAGGGTTAGTCGTTTCGGCTATTCGCTTTGCAAATAATTTATCTTTAGTAGAGTTGTCTAAAGAGATTAAGAATGTGGCACAAAAGGCACGAGCAGGTAGCTTAAGTAGTGATGATATGCACGGAACGACATTTACAATTAGTAATTTAGGTAGCTTTGGTATTGAATATTTTACGCCGGTATTAAATACACCTGAAACTGGTATTTTAGGTGTAGGTGCAATTGAACATGTTCCTGTATATAAAGGGGAAAAACTAAGAAAAGGAAGTATGTTACCTTTAAGTTTAACATTCGATCATCGTGTATTAGACGGTGCACCAGCAGCTGCATTTTTACGCACAATTAAACATTATTTAGAAGAACCTATAACAATTCTTTTATAA	MAVEVVMPKLGMAMKEGIITSWNIKAGDNVAKGELIASINSEKIETEIEAPADGTVLDIAVSEDEGVPPGTVICYIGKPNEKVEMKESTPVIEEKTSNIEAQHVQHPEPYVKEVAKQRIKISPVAKKIAKSENLDIKALVGTGPGGRITKADVLKALEVRGNVPEISEREESNAVPVTGMRKAIANRMHASLQNSAQLTLTMKVDVTDLVALHKEIAEVVQKRYDNKLTITDFVSRAVVLALGEHKEMNSAYIDDAIHQFEHVHLGMAVALEKGLVVSAIRFANNLSLVELSKEIKNVAQKARAGSLSSDDMHGTTFTISNLGSFGIEYFTPVLNTPETGILGVGAIEHVPVYKGEKLRKGSMLPLSLTFDHRVLDGAPAAAFLRTIKHYLEEPITILL	PGPT0001390_6006	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
AK009_01340	1035	acoB	COG0022	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta	ATGACTAGAACAGTAAGTATGTCAACTGCAATTAATGAAGCGATGAAAATCTCAATGCGTCGTGATGAAAATGTAATTTTAATAGGTGAAGACGTTGCAGGTGGTGCACAAGTTGATCACCTGCAAGATGATGAAGCATGGGGCGGTGTACTCGGTGTTACAAAAGGACTTGTACAAGAATTTGGACGAAATCGTATTTTAGATACACCAATTTCTGAAGCGGGTTATATGGGAGCGGCGATGGCAGCTGCGGCAACAGGATTACGTCCGATTGCTGAATTAATGTTTAATGATTTCATCGGCAGTTGTCTTGATCAAGTATTAAACCAAGGTGCAAAATTCCGCTATATGTTCGGTGGTAAAGCGAAAGTACCCGTTACAGTACGTACGATGCATGGTGCTGGTTTTAGCGCAGCAGCTCAGCATTCGCAAAGTTTATACGCATTATTTACAAGCATTCCAGGTATTAAAGTTGTCGTTCCTTCCACTCCATATGACGCAAAAGGCTTATTATTAGCGGCAATTGAAGATGATGACCCAGTAATCTTCTTTGAAGATAAAACACTTTACAATATGAAAGGTGAAGTGCCAGAAGGATACTATACAATTCCATTAGGAAAAGCAGATATTAAACGGGAAGGTTCTGATTTAACAATTGTCGCAATCGGAAAGCAAGTTCATACAGCGCTTGCAGCTGCAAAGCAATTATCGAAAAAGGGGCTTGAAGTAGAAGTAATTGATCCACGATCTTTATCACCGCTTGATGAAGATACTATTTTATCATCTGTTGAAAAAACAAATCGTCTTATCGTCATTGACGAAGCGAATCCTAGATGTAGTATTGCAACAGATATTGCGGCAATTGTGGCGGATAAAGGTTTTGATTTGTTAGATGCACCTATTAAACGAATTACAGCACCACATACACCTGTTCCATTCTCACCGCCACTTGAAAAGTTGTATTTGCCAACGCCAGAAAAAGTAATTGAAACTGTATCAGAAATGATCGGAGACCAATCTTTATTACATGTGTAA	MTRTVSMSTAINEAMKISMRRDENVILIGEDVAGGAQVDHLQDDEAWGGVLGVTKGLVQEFGRNRILDTPISEAGYMGAAMAAAATGLRPIAELMFNDFIGSCLDQVLNQGAKFRYMFGGKAKVPVTVRTMHGAGFSAAAQHSQSLYALFTSIPGIKVVVPSTPYDAKGLLLAAIEDDDPVIFFEDKTLYNMKGEVPEGYYTIPLGKADIKREGSDLTIVAIGKQVHTALAAAKQLSKKGLEVEVIDPRSLSPLDEDTILSSVEKTNRLIVIDEANPRCSIATDIAAIVADKGFDLLDAPIKRITAPHTPVPFSPPLEKLYLPTPEKVIETVSEMIGDQSLLHV	PGPT0008235_163	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
AK009_01341	999	acoA	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGTTAAAAACAACTGAAAGTAAAGGGAATGAAATTACGAAAGAACAAGCTCATTGGATGTACGAAAAAATGTTAGAAATTCGTAAGTTTGAAGATAAGGTGCATGAATTGTTCGCGCAAGGCGTTTTGCCAGGTTTCGTTCATTTATACGCAGGTGAAGAAGCGGTAGCAGTTGGTGTATGTGCCCACTTAACGGATAGTGACAGTATTACAAGTACACATAGAGGTCATGGACATTGTATCGCAAAAGGTTGTGATTTAAATGGTATGATGGCTGAACTTTTCGGGAAAGCGACAGGATTATGTAAAGGTAAAGGCGGTTCCATGCATATTGCCGATTTAGATAAAGGAATGCTTGGTGCGAATGGCATTGTAGGCGGGGGTTTCCCACTTGCTTGCGGTTCAGCATTAACAGCTAAATATAAAGGAACAAAAGATGTAAGTGTTTGCTTCTTCGGTGACGGAGCAAACAATGAAGGAACATTCCATGAAGGGGTTAATTTAGCGGCGATTTGGAAGTTACCAGTTATTTTTATCGCAGAAAATAACGGTTATGGTGAAGCAACTACATTTGAATATGCTTCAAGTTGTGATTCTATCGCTGATCGCGCAAAAGCTTATAATATTCCAGGTGTTCAAGTAGATGGAAAAGATCTTCTAGCTGTATATAAAGCTGCTGCAGAAGCAGTTGAACGTGCGCGTAATGGTGATGGTCCAACAATTATTGAATGTATGACATATCGTAATTATGGTCATTTCGAAGGTGAAGCGCAAACATATAAAACATCAGAAGAAAAAGAAGAACATTTAAACGAAAAAGATGCAATTGTGAATTTCCGTAAGCATTTAATTCATGAAGGTTTATTAACAGAATCTGAACTTGTTGATATGGAAAAAGCAGTAGATGATGCAGTACAAAGATCCATTGAATTTAGTGAAAATAGTCCATACCCAGAGGATGAAGAATTATTAAAAGATGTATACGTTTCTTACAAATAA	MLKTTESKGNEITKEQAHWMYEKMLEIRKFEDKVHELFAQGVLPGFVHLYAGEEAVAVGVCAHLTDSDSITSTHRGHGHCIAKGCDLNGMMAELFGKATGLCKGKGGSMHIADLDKGMLGANGIVGGGFPLACGSALTAKYKGTKDVSVCFFGDGANNEGTFHEGVNLAAIWKLPVIFIAENNGYGEATTFEYASSCDSIADRAKAYNIPGVQVDGKDLLAVYKAAAEAVERARNGDGPTIIECMTYRNYGHFEGEAQTYKTSEEKEEHLNEKDAIVNFRKHLIHEGLLTESELVDMEKAVDDAVQRSIEFSENSPYPEDEELLKDVYVSYK	PGPT0008230_350	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
AK009_01342	147			hypothetical protein	ATGAATAAAGTAACAATTCTCTTATTAAGGGAACAAAGGTGGACAAAACGAGACAAACGTCTCATTTTGTCCACTTTTTTATTGTTAAAAGATAGAGAAAACCTATTAAAACAAGGATTCGAAATTGGCACAATACTTGCAATATAA	MNKVTILLLREQRWTKRDKRLILSTFLLLKDRENLLKQGFEIGTILAI				NA	NA	NA	NA	NA
AK009_01343	480			hypothetical protein	ATGGTCCATGTAAAAGCTGTATTAGCGGATCAGTTATTAGCAAATGCAAATGATCCCAGTTGGTATATGCCATTTTCAGATGCAGTTAAGGGTTTGTCTGAGAGGGAAGCTTGCTGGAAACCGAATGAAGAGAGTAATAGTATAGCTGAAATCGTACAACATTTACTGTATTGGAACTCTACGTGGCAAACTAGGTATAAAGAATCAAATGTGAATGCAGTACCCGCTATAGGAGATAATAACAAAAGTTTTATGCTCTCAGATAATCAAACTTTCGATGAATTACGGGAAAAACTACTAGAAAAACTGTTACAATGGCAAAATCTCATAAATGAAGAAAAGGTTGAAAGTGATGTAGTGGGATTTCCTGTTTCTGCAAAGTGGTGGGAAGTGCTAGCGAATGTAACAACTCATAATGCATATCATATTGGTCAAATTATTTACATCCGAAAATTACAGAAGAGCTTTGATAATGAATAA	MVHVKAVLADQLLANANDPSWYMPFSDAVKGLSEREACWKPNEESNSIAEIVQHLLYWNSTWQTRYKESNVNAVPAIGDNNKSFMLSDNQTFDELREKLLEKLLQWQNLINEEKVESDVVGFPVSAKWWEVLANVTTHNAYHIGQIIYIRKLQKSFDNE				NA	NA	NA	NA	NA
AK009_01344	876			hypothetical protein	ATGATAAAAGAAAAAGAAAGCTGGGAAAAAATGAATAAAAAAATCGCAATAATTACTGGAGCCTCAAGTGGATTTGGACTATTAACTACACTCGAACTCGCAAAAAAAGATTATTTAGTTATTGCTACAATGCGGAACCTTGAAAAACAAGTGAACTTACTATCTCAAGCTACTCAACTCAACTTACAACAAAACATAAAAATTCAACAATTAGATGTAACCGATCAAAACTCTATACATAACTTCCAATTATTTTTAAAAGAAATACAAAAAGTAGACCTACTTGTTAATAATGCAGGATATGCAAATGGCGGCTTTGTAGAAGAAATTCCAGTAGAGGAATACCGTAAACAATTTGAAACGAACCTATTTGGAGCTATATCAATTACCCAGCTTGTCTTACCGTATATGAGAAAACAAAGAAGTGGAAAAATCATTAATATAAGCAGCATTAGCGGCCAAGTTGGATTTCCTGGTTTATCTCCTTATGTATCTTCAAAATATGCATTAGAAGGCTGGAGTGAATCGCTTCGCTTAGAAGTAAAACCTTTCGGAATAGATGTCGCTTTAATTGAACCTGGTTCTTACAACACAAATATATGGGAGGTTGGTAAACAACTAGCTGAAAACCAATCTGATACAACATCTCCTTACAAAGAATATATGGATAAAATACAAAAACATATTAATAGCGGTAGTGATACATTTGGTAATCCGATAGATGTTGCTAATAAAATCGTTGAAATTGCTGAAACAAAGCGTACTACTTTACGATATCCTATTGGAAAAGGTGTAAAATTTATGATCTTTACGAAGAAGATTCTTCCTTGGAGATTGTGGGAACACCTTGTTTTGAGAAGCTTTAAGAAGATGTAA	MIKEKESWEKMNKKIAIITGASSGFGLLTTLELAKKDYLVIATMRNLEKQVNLLSQATQLNLQQNIKIQQLDVTDQNSIHNFQLFLKEIQKVDLLVNNAGYANGGFVEEIPVEEYRKQFETNLFGAISITQLVLPYMRKQRSGKIINISSISGQVGFPGLSPYVSSKYALEGWSESLRLEVKPFGIDVALIEPGSYNTNIWEVGKQLAENQSDTTSPYKEYMDKIQKHINSGSDTFGNPIDVANKIVEIAETKRTTLRYPIGKGVKFMIFTKKILPWRLWEHLVLRSFKKM				NA	NA	NA	NA	NA
AK009_01345	510			hypothetical protein	ATGTTAGGTTTACCGTATGGGAAAGTGTTTTTAGTGCCGTGGACTGAAGAATGGGAAATTGAGTTTATGAAAGAGAAACAAATCATTGAGGAACAAATTGGCGAACATATTTTAGCGATACACCATATTGGTAGTACTTCTATTCCATATTTAAGTGCAAAGCCAATTATTGATATAGCAATAGAACTAAAAGATAATGCAGTTGGCATACAATGTATCGCAAAGTTGGAACTACTAAATTATAAATACAGAAAAGATGTATTGCCTGAAAGATACTATTTTAATAAAGGAGAGCCACGAACTCATCAAATTCATATGTATGAACAAGGAAATAAATATTTAATAGAACAATTACAATTTCGAGATTACTTAATAGACAATAAAACATCTCGTATACAGTATGAACAATTAAAAATTCAACTTTCACAAGCTAATCCTACTGATAAACATAAGTATGCGGAGGACAAAACAAATTTCATTACATTCATACTAGCTAAAATAAATGATTGA	MLGLPYGKVFLVPWTEEWEIEFMKEKQIIEEQIGEHILAIHHIGSTSIPYLSAKPIIDIAIELKDNAVGIQCIAKLELLNYKYRKDVLPERYYFNKGEPRTHQIHMYEQGNKYLIEQLQFRDYLIDNKTSRIQYEQLKIQLSQANPTDKHKYAEDKTNFITFILAKIND				NA	NA	NA	NA	NA
AK009_01346	396			hypothetical protein	GTGAAAATAGGAGCTTCTACTTTTTGGATTATAACTATTGTTTTTTGTATAGCTGTCTATTTTCTCGATAAGTTTTTAAGAAAAAAATTGAATATGCCCAAGGGTGGTTTTTGGGGATATAAGAAACATGTAAATAGTTTACATAAAAAATTGGAAATAGGACTACTTTTTATTTATTTAATAACTAGCTTTATGTTTATCTTTATCTTTAAATTCGAAAGTGTTAATATTGCTTATGTCATTTTTACTTATTTAGGTGGGAAGTTAATCTTAAGAGCATTGATGGAATGGAAGTATGATAGAGAGTCGAAAGAATATATATTTTCGGTAATTGGGGTATTCACGTTTATTTTTATGACTTCGATACTATTTTACTTCTTTCCACCTGCTGTATAA	MKIGASTFWIITIVFCIAVYFLDKFLRKKLNMPKGGFWGYKKHVNSLHKKLEIGLLFIYLITSFMFIFIFKFESVNIAYVIFTYLGGKLILRALMEWKYDRESKEYIFSVIGVFTFIFMTSILFYFFPPAV				NA	NA	NA	NA	NA
AK009_01347	438			hypothetical protein	ATGATAAGACCACATTTACGGGCTGAAGTAATGATTGTAAACGACGAACATTCAAAAGTACTAGTACAATGTGATGAAAACGAATCATTTTATCGTTTTCCAGGTGGCTCTATTGAATTTGGTGAAACGTCAAAAGAAGCAATAATTCGAGAGTTAATAGAAGAATACGATTTGAAAGTTCATGTTCAAGAGTTAGCAATTGTAAATGAACACATTTTTGAGTGGGACAACGAAAAAGGTCATCATTGTACATTGATATATTGGGGGACTGTTGAAAAAATCATTACAAATGAAATAAGGCATAAAGAGCATGAGGATATTATATTAATTTGGAAAAGTCTAGAGGAATTACAGGAGAAGCCGACATATCCTGAAGGAATCATAAGTTATTTAGAAGGGGATAACCGTAATATAGTCCAATTTATTTCAAGTAATTAA	MIRPHLRAEVMIVNDEHSKVLVQCDENESFYRFPGGSIEFGETSKEAIIRELIEEYDLKVHVQELAIVNEHIFEWDNEKGHHCTLIYWGTVEKIITNEIRHKEHEDIILIWKSLEELQEKPTYPEGIISYLEGDNRNIVQFISSN				NA	NA	NA	NA	NA
AK009_01348	366			hypothetical protein	TTGAAACTAATTGTCTTATTGTTATGGATTATAATTTTAATTTTTTTAGAAAAAATCGTGAGGAAGAAGTTAAATATACCGAGACAAACAGGATGGAATAGTAAATATGTCAGTCAATCACATAAATGGGGACAATGGATCATCATTATTTCTTATGTAGTACTTATGATGATAGGTTCAATTTGGAATCCAATATACATGACTTATATACCAATTTTCTTTTTTATGACGTTGTACATTTTTCAAGGATATATGCAGTGGAAATATGATAGTAAAGCAAAAGAATATATTATTTCGTTTGGAATTGTTCCGTTATTAATAATTACAGGTATTATTTTGAATGTATTCTATAATACGTATTGGTGA	MKLIVLLLWIIILIFLEKIVRKKLNIPRQTGWNSKYVSQSHKWGQWIIIISYVVLMMIGSIWNPIYMTYIPIFFFMTLYIFQGYMQWKYDSKAKEYIISFGIVPLLIITGIILNVFYNTYW				NA	NA	NA	NA	NA
AK009_01349	831			hypothetical protein	ATGAGTATGCATACAACAAATAATACACAATATTCATGGGTTGGAAATATAGAAATGTGTTTAGGAGAAATTTCAGTTAAGCAATATGGTGATATTGTACTTGGTAAATATGGCGGGAATATAAGTGCTGGAGCGAAAAAGAATGAAGATGGTGCGTTAGTTTGGTCGAATGATGATTGGGAGTTTACAGCTATTTTAGATGGACATAATAGTGCGGAAAGTGTTGATTTAGTAGTAAATACAATCGAAAAAGAATATGAAAATATAAGAATAATTTTGAATGAACCAATTGATACAGTATTTCGATCTGTTGAAAATCATATACTTTCAATTTTTCAATCCTCTTCATTTAAAGAAAAATGCCAAAGAATTAAAGGTGAAACAGCTTGCTTACTATGTGTAAGAAAAGAAAATTATATATGGTGGCTTTCTATTGGTGATTGTTTAGTGTATGTATTTCATGAAGAGTTACATAAGTTAGGGCAATATGCATTAAATCAACGTCATTTTTACGAATGGATTGGAAATGTAAACACATTTGATTTACCTGTTCCTTGTTATTCATCAGGTATTCGTGAATTACGTACTGGAAAGAACCGAATTGTAATGGTGACAGATGGGGTATTAGAATGCGGGGAACGCCGATATGAAACGCCATTAAATCTGTATAATAATATGAATAGAAATAATATTAAACTTAAAGAAAATGTTCACAATGTTTTAGAACATGTTCATCATCAATTCGGACGAGATAGTGCGACCATTATTAGTTGGGATGTTGAAAATAAAGATAATGCTACGTATCCGAGTGATCAGCCGGAGAAAAGGTAA	MSMHTTNNTQYSWVGNIEMCLGEISVKQYGDIVLGKYGGNISAGAKKNEDGALVWSNDDWEFTAILDGHNSAESVDLVVNTIEKEYENIRIILNEPIDTVFRSVENHILSIFQSSSFKEKCQRIKGETACLLCVRKENYIWWLSIGDCLVYVFHEELHKLGQYALNQRHFYEWIGNVNTFDLPVPCYSSGIRELRTGKNRIVMVTDGVLECGERRYETPLNLYNNMNRNNIKLKENVHNVLEHVHHQFGRDSATIISWDVENKDNATYPSDQPEKR				NA	NA	NA	NA	NA
AK009_01350	486			hypothetical protein	ATGGATATGTCAACAAACAATCAAGTAGAACAAAACTGCTTCATTTGCGAAAAACATAAAGGAAATATTATAGTTCCAGGTGGAGCTATTTACGAAGATGAACTCGTTTACGTTGGACATGTCTACTGGGATAGTGAAGAAACATACCTAGGTTATGTAATGATAGATATAAAAAGACATGTACCTGGCCTTGCTGAACTAACAGATGAAGAAGCGAAAGCGTTAGGACTTATAACAAGTAGAGTAAGTAAAGCGCTAAAAGAAAGCGAAGGTGCAGAGCATATTTACACTTTTGTTTCAGGAAATGGTGTACCACATATGCATATGCACATTATTCCACGTTATCCCAATACACCAAAAGAATTTTGGTCACCAACCGAAGTAGCGAAATGGACTGGTGCACCATATGGTGATGAAGAGAAAATAAAAAAACTATGCGAAAGAATACGTAAGTATATGGTAAATGAGTATGCATACAACAAATAA	MDMSTNNQVEQNCFICEKHKGNIIVPGGAIYEDELVYVGHVYWDSEETYLGYVMIDIKRHVPGLAELTDEEAKALGLITSRVSKALKESEGAEHIYTFVSGNGVPHMHMHIIPRYPNTPKEFWSPTEVAKWTGAPYGDEEKIKKLCERIRKYMVNEYAYNK				NA	NA	NA	NA	NA
AK009_01351	168			hypothetical protein	ATGGGAGGAGATGCAATTTTGGCTAAAAATAAAAAAAGAAATGATGCTTTGGCAATAGGTGTCGGTATAGGGGTTGTAATCGGTGTATTTCAAGGGCACTTTACAAATAATTTAGTAATCGGAATTGTGATTGGGATTATAATTGGGATTGCGTTTTTGAAGAAATAA	MGGDAILAKNKKRNDALAIGVGIGVVIGVFQGHFTNNLVIGIVIGIIIGIAFLKK				NA	NA	NA	NA	NA
AK009_01352	147			hypothetical protein	ATGCATCCTCATTGGAATCCAAATATAAATCAACAGTATGTTTATTCCCCCCATCCTGTAAGGAATACATTGCATCATGATTCACAATATATGATGCCGCGCATCGCTAGCCTTGAAAGTCAGTTAGCTAAGAAAATAATCAATTAA	MHPHWNPNINQQYVYSPHPVRNTLHHDSQYMMPRIASLESQLAKKIIN				NA	NA	NA	NA	NA
AK009_01353	837	opuAB	COG4176	Glycine betaine transport system permease protein OpuAB	ATGAATAATATACCACGTATTCCTTTAGGAGAATGGGTCGACTCATTTGTTGCAAGTTTATATGAGCACCTTGAAGGCATATTCCGAGGTTTCTCTTATATTATCGGCGGATTCGTTGATTTACTCACTAATTTTTTAACAATAATACCGGCCATATTGATGATTATTATCCTTTGTTTCCTCATTTGGTACACAACGAGAAAAGTATCATTAATTATTTTTACACTAATCGGCTTATTGTTTATTTTAAATATTAACTACTGGGCACAAACGATGCAAACATTAGCACTCGTACTTACGTCTGTTATTATTTCAATTATTGTCGGAATTCCAATTGGAATATTAGCATCTCAAAATGAACGTTTTTCAAAATTTTTAAAACCAACATTAGATTTTATGCAAACAATGCCGGCATTCGTATACCTCATTCCAGCGATTACATTTTTCGGAGTTGGTGTAGTACCTGGAATTATTGCATCGGTAATCTTTGCAATGCCACCTACAATTCGTTTTACTGACTTAGGAATTAGACAAGTTCCAGAAGATTTAATTGAAGCAGCGAATGCATTTGGATCCACAGCATCACAAAAACTATTTAAAGTACAATTACCACTTGCAACCGGAACGATTATGGCTGGTGTGAACCAAAGCATTATGCTTTCGTTATCAATGGTTGTAACAGCGTCACTTGTAGGAGCTCCTGGGCTTGGAGTTGATGTATATCGCTCGGTAACACAAGTTAATATCGGAATGGGATTTGAAGCTGGATTAGCTATCGTAGTAATCGCAATTATATTAGACCGAATTACACAAGGGTTCCATACGAAAAGAAAATAA	MNNIPRIPLGEWVDSFVASLYEHLEGIFRGFSYIIGGFVDLLTNFLTIIPAILMIIILCFLIWYTTRKVSLIIFTLIGLLFILNINYWAQTMQTLALVLTSVIISIIVGIPIGILASQNERFSKFLKPTLDFMQTMPAFVYLIPAITFFGVGVVPGIIASVIFAMPPTIRFTDLGIRQVPEDLIEAANAFGSTASQKLFKVQLPLATGTIMAGVNQSIMLSLSMVVTASLVGAPGLGVDVYRSVTQVNIGMGFEAGLAIVVIAIILDRITQGFHTKRK	PGPT0013635_2382	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
AK009_01354	1206	opuAA	COG4175	Glycine betaine transport ATP-binding protein OpuAA	ATGGATAATACAAAGGTGCGTGTTGAAAACGTAACAAAAGTATTCGGGAAACATCCGCAAAGAGCCCTTTCTTTATTAAAAGAGGGGAAAAGCAAATCGGAAATTTTAAAAGAGACAGGAATGAACGTTGGTGTAAAAAAAGCAACGTTTGAGGTATACTCTGGAGAAATTTTCGTTATTATGGGTTTGTCTGGTAGCGGGAAATCTACGCTAGTTCGTATGTTAAATCAATTGATTAAACCAACTGCAGGTCATATATACATAGATGGTGAAGACATCGCAACGATGGGAAAAGAAGAGTTACGGAGAGTAAGAAGAACGAAAATGAGTATGGTATTTCAGAAGTTCGCTCTATTTCCGCATCGTACGGTTATACAAAATGTTGCATATGGTTTAGAAATACAAGGGGTTTCGGTAGAAGAGCGAGAGAAAAAAGCGTTAGAATCGCTACAGTTAGTAGGACTCGATCATCATAAAGATAATTATCCAAGTCAACTTAGTGGTGGTATGCAGCAGCGCGTTGGAATCGCAAGAGCACTAACGAATAATCCAGATGTATTACTAATGGACGAGTCATTCAGTGCATTAGATCCACTTATTCGAAAAGAAATGCAAGATGAATTGTTAGAGTTACAAGATAAAATGGAAAAAACGATTATATTTATTACACATGATTTAGATGAAGCGCTTCGAATTGGGGATCGTATCGCATTAATGAAAGATGGAGAAATTGTCCAAATTGGAACGCCAGAAGAAATTATGATGAGCCCCGCTAATGAATTCGTAGAAAAGTTTGTTGCGGATGTGAATTTAGGAAAAGTAATTACAGCGGAATCTATATTAAAACGACCAGAAACTTTATTAATTGATCGTGGACCACGTGTAGCCCTTCAAATTATGAGGAATGCAGGTGTTTCAACTGTATATGTTGTCAATAAAAAGTATGAGTTTTTAGGTATATTAACCGCGGATGATGCGAGTAAAGCAGTTCAAAAACAATGGCCGATTGCTGATTTATTACTTAATGATATTCCGCATGTGTATTTAGATACTTTACTGGAAGAGACATATGCAAAAATGGCGGAGATGAAATATCCGTTACCAGTAATCGATGAGAAGAAAAGGCTAAGAGGAATTATTAAACGTGAAAGTGTCATTCAAGCTCTTGCAGGAAACATTGAGGAAGAGGTGAAAGACGATGAATAA	MDNTKVRVENVTKVFGKHPQRALSLLKEGKSKSEILKETGMNVGVKKATFEVYSGEIFVIMGLSGSGKSTLVRMLNQLIKPTAGHIYIDGEDIATMGKEELRRVRRTKMSMVFQKFALFPHRTVIQNVAYGLEIQGVSVEEREKKALESLQLVGLDHHKDNYPSQLSGGMQQRVGIARALTNNPDVLLMDESFSALDPLIRKEMQDELLELQDKMEKTIIFITHDLDEALRIGDRIALMKDGEIVQIGTPEEIMMSPANEFVEKFVADVNLGKVITAESILKRPETLLIDRGPRVALQIMRNAGVSTVYVVNKKYEFLGILTADDASKAVQKQWPIADLLLNDIPHVYLDTLLEETYAKMAEMKYPLPVIDEKKRLRGIIKRESVIQALAGNIEEEVKDDE	PGPT0013630_717	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
AK009_01355	858			hypothetical protein	ATGCGAAAGAAAATTTGGTTTATATGCCTTGCATTATTTATTACTATGATTTTCACTTCATGTAATGCAACAAATGCAAATTCGAAAGGAAAAATTAAACTTGGTGTAACAAGTTGGAAAGAAAATATTGCAACTGCAAACATGTGGAAAGTTTTATTAGAAGAAAAAGGCTACAAAGTTGAGCTCATGTATTTAGAAAAAGCCGCAATTTGGACTGGTGTCGCTCGTGGTGATGTTGATGCGAATTTAGAAGTATGGCTACCCGTTACGGATAAGCCGCTAAACGATCGTTATAAAGATGATATTGTCTTAAAATCAAAATGGTACGAAGGTACTGGACTTGGTCTAGTCGTACCTTCCTATGTGAAAAATATTAACAGTATTGAAGACTTAAATGCTCATAAAGATGAATTAGATAATAAAATTGTCGGTATCGAACCTGGTAGTAGTCTTATGAATTTAACGAATAAAGCAATGAAAGAATATGATATAAAACTAAAACTTGTCCAATCCTCAGAAGCTGCGATGATGAGTGAATTAAAGAAAGCATATACGAAAAAGAAACCAATCGCTGTTACGCTTTGGAATCCGCATTGGGGTTTTTCAGAATTTGACTTAAAATATTTAAAAGACCCTAAGAAAGTATATGGTGAAAAAGATGACATTTATTACTCCGTTCGTAAAGGTTTCGAAAAAGATCACCCAGATGTTATAAAATACTTTGATAAATGGAAAATGACCGATGAACAACTTGGTACGTTAATGGTCATGTTAAATAAAACAAAAGATCCTGAAGAAGCTGCGCGAAAATGGATTAAAAAAAATCAAGCATTAGTTGATGAATGGGTAAAAGATTAA	MRKKIWFICLALFITMIFTSCNATNANSKGKIKLGVTSWKENIATANMWKVLLEEKGYKVELMYLEKAAIWTGVARGDVDANLEVWLPVTDKPLNDRYKDDIVLKSKWYEGTGLGLVVPSYVKNINSIEDLNAHKDELDNKIVGIEPGSSLMNLTNKAMKEYDIKLKLVQSSEAAMMSELKKAYTKKKPIAVTLWNPHWGFSEFDLKYLKDPKKVYGEKDDIYYSVRKGFEKDHPDVIKYFDKWKMTDEQLGTLMVMLNKTKDPEEAARKWIKKNQALVDEWVKD	PGPT0013640_3756	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
AK009_01356	582	clpP_1		ATP-dependent Clp protease proteolytic subunit	ATGAATGCAATTCCATATGTAGTAGAACAAACAAAATTAGGAGAACGTTCCTATGATATATATTCAAGGCTATTAAAAGACCGCATTATTATTATCGGTTCAGAAATTAATGATCAAGTAGCGAGTAGTGTCGTAGCTCAACTATTATTTTTAGAAGCAGAAGATGCAGAAAAAGATATATATTTATATATCAATAGCCCAGGAGGTTCAACGACAGCAGGTTTTGCAATATTAGATACGATGAATTTAATTAAACCAGATGTACAAACGCTATGCATGGGCTTTGCGGCATCATTTGGTGCATTGTTATTATTATCAGGAGCAAAAGGAAAACGGTTTGCGCTCCCTAACAGTGAAATTATGATTCATCAGCCGCTTGGTGGTGCACAGGGGCAAGCAACAGAAATTGAAATAACAGCAAAAAGGATATTAAAGTTAAAGCATGATATTAATAAAATGATTGCAGAAAAAACAGGCCAACCGATTGAAAGAGTAGCGCATGATACAGAAAGAGATTATTTTATGACCGCAGAAGAAGCTAAGGAATATGGAATTGTAGATGATGTTGTTACGAAAAAATAA	MNAIPYVVEQTKLGERSYDIYSRLLKDRIIIIGSEINDQVASSVVAQLLFLEAEDAEKDIYLYINSPGGSTTAGFAILDTMNLIKPDVQTLCMGFAASFGALLLLSGAKGKRFALPNSEIMIHQPLGGAQGQATEIEITAKRILKLKHDINKMIAEKTGQPIERVAHDTERDYFMTAEEAKEYGIVDDVVTKK	PGPT0014595_8304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK009_01357	687			hypothetical protein	TTGTGCACAAAAGTAACTCATGTTTTAAAGAATCATATCGATATGAATCATTCAAATATAAATTTTTTAATTGAACAATATGGAGAGCTAAAAAGATACTGTACTTTTTTAACGAAAAACAAATGGGATGGGGAAGATCTCGCCCAAGAAACGGTGTGTAAAGTGCTTCAAAAATATAGAAATAAAGATATTTGTATGACACTCGTCTATAAAATAGCTAGAAATCGTTGGTTAGATCAGATGAAGTCTAAGTCTGTTCATGAAAAAATAAGAGAACAAATCACTGTTGAAGAACCACATGAGAACATTGCAGATTTGCATGAAATGGTAGGGAAAGTATTGTCTTCATTAAATGTACAGCAATCCGCAATTTTATTATTAAAAGATGTTTTTCAATATAGTATCGCTGATATTGCTAAATTGTGTTCTGTATCAGAAGGTGCAGTGAAAGCTTCTTTATTTCGGAGTAGAAATAGGCTGAAAACTGTAAGTGAAGAAGGGATCGAGATAGTCGAATTCACAGAGGATATTGAAGTTGTTGTAACGTCTATTCGTGAGGAAAGACCGGAATTGTTAACGAAACTTCTTCCGACAATAGATTTTACTAAGTTACCATCTAAACAGCCAGTCTTATTATTTAGTGTAAAAGAACCTTCTTCCTACAGTTGTATGCTTTGCGTTGCATAA	MCTKVTHVLKNHIDMNHSNINFLIEQYGELKRYCTFLTKNKWDGEDLAQETVCKVLQKYRNKDICMTLVYKIARNRWLDQMKSKSVHEKIREQITVEEPHENIADLHEMVGKVLSSLNVQQSAILLLKDVFQYSIADIAKLCSVSEGAVKASLFRSRNRLKTVSEEGIEIVEFTEDIEVVVTSIREERPELLTKLLPTIDFTKLPSKQPVLLFSVKEPSSYSCMLCVA	PGPT0014960_3125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_01358	321	nqrF		Na(+)-translocating NADH-quinone reductase subunit F	TTGCCAAAATTAACAATTGAAGGTGCGGGAACTTTTGATGTGAAAGAAGGAACAAAGTTAGTATTAGCAATTGAAGATAGCGGTGTCAACATTCTCCATCGTTGCGGCGGGAATGCACGTTGCACGACTTGTAGAGTAGAAATACTAGCAGGTGATTTCTGTGAAGCGAGTGCGAATGAGAAACATGCAATGACGGAAAAAGGGATTGAAGATCATTTACGATTATCTTGTCAAATGCGTGTACATAAAGATATAGTCGTTCGTCCGGTACTTACAGTTGAAAATTCAAGTCTTGATGCTGGGCCACGTCCGGCGGAGTAA	MPKLTIEGAGTFDVKEGTKLVLAIEDSGVNILHRCGGNARCTTCRVEILAGDFCEASANEKHAMTEKGIEDHLRLSCQMRVHKDIVVRPVLTVENSSLDAGPRPAE	PGPT0021560_6421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
AK009_01359	663	rpiA	COG0120	Ribose-5-phosphate isomerase A	ATGAATTTAAAACAACTCGCTGGCGAATATGCTGCTAACTTTGTAAATGATGGCATGAAGATTGGGCTTGGTACAGGTTCTACTGTATATTGGACAATACAAAAATTAGGTGAGTATGTAAAAGAAGGATTATCATTTCAAGCTGTACCGACATCAAAGGAAACTGAAGCATTAGCACAGCAACTAAATATCCCCCTAATTTCGTTAAACGACGTACAAAGTCTTGATCTTACAATTGATGGAGCGGATGAAATCGATTCAAATTTACAACTTATAAAAGGCGGTGGTGGTGCATTACTTCGTGAAAAAATCGTTGCCTCTTCCTCTAAAGAACTAATTATCATTGCTGATGAATCGAAACTTGTAACACATTTAGGTAATTTTCCATTACCTGTTGAAATCATCCCTTTTTCATGGAAACAAACCGAAAATAAAATTCAGTCTTTAGGGTGTCAAACAACATTACGTTTGAAAAATAATGAAACCTATATAACCGATAACAATAACATGATTATCGATTGTATATTCTCTAATCATATTTCTAATCCTGCCCATTTACACACCCAATTAAAAATGATTACTGGTGTAGTTGAAACAGGATTGTTTATAAGTATGACGAGTAAAGCAATTATCTGCACTAAAAATGGGATAAAGGAATTGTAA	MNLKQLAGEYAANFVNDGMKIGLGTGSTVYWTIQKLGEYVKEGLSFQAVPTSKETEALAQQLNIPLISLNDVQSLDLTIDGADEIDSNLQLIKGGGGALLREKIVASSSKELIIIADESKLVTHLGNFPLPVEIIPFSWKQTENKIQSLGCQTTLRLKNNETYITDNNNMIIDCIFSNHISNPAHLHTQLKMITGVVETGLFISMTSKAIICTKNGIKEL	PGPT0017390_3276	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
AK009_01360	435	yjcF_1		putative N-acetyltransferase YjcF	TTGCAATCCAAACTTATAACAGAACTTACTGATTTAGAAACTGCCTTTCACATTCGAAAAGAAGTATTTGTAAAAGAACAAGGTGTCCCTCTTGCAGATGAATTCGATATATTCGATGAAATCGGAGAGCAATGTAAACATATTTTAGTTTATTATCATGAGTTTCCTGTAGGCACAGGGCGTATACGATTTGTTGATGGTGTCGGAAAATTAGAACGTATTTGTATTTTAAAAGATTATCGTACATACGGATTAGGTAAAGTTATCATTCAAACGTTAGAAGAAATTGCTCGTAACGAACAAGTTACAAAAGTGAAGCTACACGGTCAAACACAAGCTGAAGGATTTTATAAAAAATTAGGCTATCAAACTTCTTCTGATATATTCATGGAAGATAGCATTCCACATATACTTATGACGAAAATGTTATCATAA	MQSKLITELTDLETAFHIRKEVFVKEQGVPLADEFDIFDEIGEQCKHILVYYHEFPVGTGRIRFVDGVGKLERICILKDYRTYGLGKVIIQTLEEIARNEQVTKVKLHGQTQAEGFYKKLGYQTSSDIFMEDSIPHILMTKMLS				NA	NA	NA	NA	NA
AK009_01361	603			hypothetical protein	ATGGATGATCCGATTAAGGAGATAGTTGGTGCTTGGTTTGTTGCAGTAGGGACAATTATTGCTGCGGTTGGTAGTACACCTTTTAAAAAATTGAATGACGAATTAAGAAGAGATTTAAACGTATGGGGGAATGTATTACAGGCAACAGGGAACGGCCTAGAAGCTGATGGACAAGGGGAAATATCTCTTGAAAAAATCGGTAATGAAATCCAATCAATTGGTAATGTAACGGTTTTAACAGGACTCATTATAGAATTTGAAGATAATACACAAAAAAAAGTAGTGATTGCAGGGAATTGGATTCAAGCATTAGGTGGTATTACATCAATAGGTGGTGAATTAGAGGATAGTTCCGACATAGATGAATCGTATAACATTGTTGGGAATGTGTTACAAGCGACTGGAAATTCATTACAGGCAATAGGTGGAATAGATGAATTGAAAGCTAGTCGGGATAAAGTGGAAGAAATTTCGGAAGGAAATGAGGAGGATGGACAGATTATAGTGATTACGGGGAGCTGGATTCAAGCGGTTGGTTCAGTAGTTTCATTAATCGGTCAAATAAGAGAAGAAAGACAAGAGATTTTAGACAACAATTCATAG	MDDPIKEIVGAWFVAVGTIIAAVGSTPFKKLNDELRRDLNVWGNVLQATGNGLEADGQGEISLEKIGNEIQSIGNVTVLTGLIIEFEDNTQKKVVIAGNWIQALGGITSIGGELEDSSDIDESYNIVGNVLQATGNSLQAIGGIDELKASRDKVEEISEGNEEDGQIIVITGSWIQAVGSVVSLIGQIREERQEILDNNS				NA	NA	NA	NA	NA
AK009_01362	219			hypothetical protein	ATGTGTACGTATTGGGAAACGTATTTAGAGAATTCTCCGAGAAGCAAGAAAAAAATAAATGAGCCGTTAGCAAAAGCTAACGGCAAACAGGGATGTCACACTAGATGTATTTATAATATTAAAGAAATATTGATTTTTATTCAAATGGAGAGAAGTAGGCTATTAACATGGAGATGCATAAATTCATATCCTGTAAGTAGTAAATTAATGACGGGATAG	MCTYWETYLENSPRSKKKINEPLAKANGKQGCHTRCIYNIKEILIFIQMERSRLLTWRCINSYPVSSKLMTG				NA	NA	NA	NA	NA
AK009_01363	465			hypothetical protein	ATGGCTAATTATTTTTATAAAGATGGTAAAAAATATTATAAAAACCAATCGTATTCGAACGATCAAAAAAATAACTGTTTTATTGAAACTCATACGATAACTGGTTCTGAAGAAAATGCAAATGGAAATATACCTTTATCTGTTTTCCTTGAAACCACCGCTCCACAAACTGTATTTGAGGATTTCACAAACAATCATAATAAAACATTAATTCAGTTATTCGTTGTCGGGATGAGTGCACCCGTTCAAGTAACTATTCTAACAAGAAAATCTAGCCGCCCAATTACTACAACATTACAACCTGTTCAAACAAAAATATTTCAAGTTGAAGATTTTCAAAGTCTTACTTTTACGAAACAGGAAGGCCCTACTAGTATAGTTAGTTTATTTGTGCAAAAAACATTTTGTATTTGCTGTAACGATAATAAAGATTCGTGTGATGAATATCATCAAGATTGTAATTAA	MANYFYKDGKKYYKNQSYSNDQKNNCFIETHTITGSEENANGNIPLSVFLETTAPQTVFEDFTNNHNKTLIQLFVVGMSAPVQVTILTRKSSRPITTTLQPVQTKIFQVEDFQSLTFTKQEGPTSIVSLFVQKTFCICCNDNKDSCDEYHQDCN				NA	NA	NA	NA	NA
AK009_01364	1368	gbpA_1		GlcNAc-binding protein A	ATGAATAATCGATTTTTAAAACAACTACAAAACATGAAAATGAACAAAAAAAGTTTAGGAGCTGTAGCATTAACAGCTGGAATTATTAGTACGACACTTATTCCTCAAAATGCTTATGCGCACGGTTTTGTTGAAAAGCCCGGTAGCCGATCCGCTTTATGTAGTCCAACTTATGGTGCGCTAAATGTAAACTGCGGAAGTGTTATGTATGAACCACAAAGTTTAGAAGCTCCAAAAGGGTTCCCACAAGGTGGTCCAGTAGATGGACAAGTTGCTTCAGCAGGCGGAAAATTTGGTGGTATTTTAGATCAACAAACAGCAAATCGTTGGTTTAAAAATACAATCACTGGTGGGGAAAATACATTTACTTGGAAGTATACTGCGCCTCACTTAACGAGTAAGTGGCATTACTATATTACTAAAAAAGGATGGAATCCAAATAAAGCGCTAACAAGAGCAGATTTTGAACCAATTGGAACTGTGCAACACGATGGTTCTGCAGCTTCAAATAATTTAACTCATAAAATTAATGTACCTACTGATCGTAGTGGATATCATGTGATTTTAGCAGTATGGGATGTAGCTGATACAGCAAATGCATTCTATAATGTAATTGATGTTAATCTTATTAATGATGTGAAACCAGACATAGAAGCGCCAAGTATTCCAAATGGACTTCAGACGAAAAAAGTAACAGCGAATAGTGTAGAACTAACATGGAACTCTTCTACGGATAATGTAGGGGTAAAAGGATATCAAATCTTCCGTAACGGAGAGATGATAGATACAATACTAGGCACTCATTTTATTGATAAGAAATTACAACCAAGCACAGAATACTCTTATACTGTAAAAGCAATTGACGCAGCTGGAAATGTATCGAAAGAAAGTACAGCGCTTACAGTAAAAACAACAGTTGCGACTCCTGATACAGAAGCACCAACACAACCAAAAGGATTACATAGTATGGGAACGACAGCATCAAGTGTGGATTTAATGTGGAGTCCATCTGACGATAACATTGGTGTAGACCATTATGATATTTATAGAGAAATAGAAGGATTAATGAAAAAGATTGCAACATCCAATACAACTTCTTATATGGATAAAAATCTGCTTGCTAATACTACTTATAAATATGTAGTGAAAGCTGTTGATGTAGCTGGAAATGAATCCGTACAGAGTGATATATTCACAATTACTACAAAAGCTGAAAGCGCTTCATATGAAGCGTGGGATGCAAAAAAAGCATATAAAAAGGGAGATAGAGTTCTACACGAAGGAAAAGTATATGAAGCAGTCCAGAGTTATCAAGGAAATGGTGATCCAAACTGGATTTATGCATTATCATTATGGAAAACAGTGTAA	MNNRFLKQLQNMKMNKKSLGAVALTAGIISTTLIPQNAYAHGFVEKPGSRSALCSPTYGALNVNCGSVMYEPQSLEAPKGFPQGGPVDGQVASAGGKFGGILDQQTANRWFKNTITGGENTFTWKYTAPHLTSKWHYYITKKGWNPNKALTRADFEPIGTVQHDGSAASNNLTHKINVPTDRSGYHVILAVWDVADTANAFYNVIDVNLINDVKPDIEAPSIPNGLQTKKVTANSVELTWNSSTDNVGVKGYQIFRNGEMIDTILGTHFIDKKLQPSTEYSYTVKAIDAAGNVSKESTALTVKTTVATPDTEAPTQPKGLHSMGTTASSVDLMWSPSDDNIGVDHYDIYREIEGLMKKIATSNTTSYMDKNLLANTTYKYVVKAVDVAGNESVQSDIFTITTKAESASYEAWDAKKAYKKGDRVLHEGKVYEAVQSYQGNGDPNWIYALSLWKTV				NA	NA	NA	NA	NA
AK009_01365	1194	oleD_2		Oleandomycin glycosyltransferase	ATGGCGCGTGTTTTATGTATTAACGCTGGATCAGAAGGACATATAAATCCAACTTTACCGGTTGTAGAAGAATTGATTTCTCGCGGTGAAGAGGTCGTTTATTTCTCAATAGAAGCTTTCAGGGAGCGGATTGAAAAGACAGGTGCTACTGTACGAACGATTGATGACCAAAAATTTATAAAAGCGTTTCTATCTGGAGGCAGAAATTATTTACAGGAAAGAATAAACGGTCTTCTACATACAGCGGATATTGTTATACCTAGTGTTCTAGAACAAATTGAAGGTGAACATTTTGATTACATAATTCATGATTCTATGTTTGGCTGTGGGCACTTAATTGCTCAAATTCTTAAACTGCCATCCATAAATTCATGTACATCTTTTGCGCAGGATGAAAAATCTTTTGAACAAATGTTAGGTCATCTGTCAAAAAATATTCCAGTAGAAATTCATGATAAAATACAGAATGATTTTCAAAACTTAACGAAGGGAATTGCTGAAAAATATGGTGTTGAAATAAAATCACAGTATGAAGTTTTCTGTAATCCTGCACCCCTTACTATTGTGTATACAATTAAGGAGTTCCAGCCTTTTGGTGATACGTTTGATGAAACATATAAATTTGTAGGACCATCTATCTCTGCACACGTGAAAAACAGAGACGTTGATTTTACTTCAATTGAAGAAAAAAGTCCGATTTATATTTCATTAGGTACTGTTTTTAATGAAGCGATTGACTTTTATAAACTGTGTATGAAGGCCTTTGAGAATAATGAGCATACAATTGTTATGTCTATTGGTAATAAAACGAAAATAAGTAATCTAGGCGAAATTCCTAAAAACTTCATTGTGAAACACTATGTGCCTCAAACCGAACTGCTTACTTATACGAAACTATTTATTACACACGGCGGGATGAACAGTACGCATGAAGGACTATATAACGGGGTTCTGCTCGTTGTAATACCGCAAAGTGCAGATCAGCCAGCAATCGCAAAGCAAGTGGAGAGTCTTGGAGCAGGAGTTCAATTACATATGAATGAATTAACCGTGGAGAAATTGCGTGAAAGTGTGGAGTTAATTTTAAATAACCCTTCATATAAAGAGGCTGCTTTGAATTTGAAGGAATCATTCCGAACATCGGGTGGATATAAGGAAGCTGTTGATGAAATTTTTACATTTGTAGGTCAGTAA	MARVLCINAGSEGHINPTLPVVEELISRGEEVVYFSIEAFRERIEKTGATVRTIDDQKFIKAFLSGGRNYLQERINGLLHTADIVIPSVLEQIEGEHFDYIIHDSMFGCGHLIAQILKLPSINSCTSFAQDEKSFEQMLGHLSKNIPVEIHDKIQNDFQNLTKGIAEKYGVEIKSQYEVFCNPAPLTIVYTIKEFQPFGDTFDETYKFVGPSISAHVKNRDVDFTSIEEKSPIYISLGTVFNEAIDFYKLCMKAFENNEHTIVMSIGNKTKISNLGEIPKNFIVKHYVPQTELLTYTKLFITHGGMNSTHEGLYNGVLLVVIPQSADQPAIAKQVESLGAGVQLHMNELTVEKLRESVELILNNPSYKEAALNLKESFRTSGGYKEAVDEIFTFVGQ				NA	NA	NA	NA	NA
AK009_01366	681			hypothetical protein	ATGACTAACGATTTAATTCAACTAATCGATTCATTAATGGTCAATATTCCAGCTGGAGAGGTAGTATTAAGAGATGATCGAATAAAAAAAGAATGGCTAGTACAAATTCAACCATTTCTTCTTGCAAAGTATGCTGTAACAATGGAACTATATGATGCTATTACAAATAGTACATTAAATAATTTTGAAAAAAATCATAAACCAGTTGTAAATATTTCATGGAACGATGCCATTGCGTTTTGTAATGTACTTTCAAAAATAGCGGGATTAAAAGAATATTATTCTATTAGTGATGTTGGTCAAATTGTGAAATGTAATTTAGATTCGAATGGCTACCGATTACCATCTGAGGCAGAGTGGCAATATGCATGTAAAGCAAGTACAACCGGATATACATACGGGAAACTTCTTGATATAGCGTGGTATAATGAAAATTCAAATGGACAAATTCATGACGTTGGCCAAAAGGAACCGAATGCATGGGGACTTTATGATATGCTAGGGAACGTTTGGGAATGGTGCTATGATTTGTATGATGAAAAAGTATACGGATCATACCGCATTTTTCGTGGAGGTAGTTGGGCGGAGGCAGCGAGAGGTTGCGGCGCTACTTGTCGTCGCCGAAGCCATCCCACATTTCATATAGAAGATCTCGGTTTTAGACTTGCTAGGTCAATTTAG	MTNDLIQLIDSLMVNIPAGEVVLRDDRIKKEWLVQIQPFLLAKYAVTMELYDAITNSTLNNFEKNHKPVVNISWNDAIAFCNVLSKIAGLKEYYSISDVGQIVKCNLDSNGYRLPSEAEWQYACKASTTGYTYGKLLDIAWYNENSNGQIHDVGQKEPNAWGLYDMLGNVWEWCYDLYDEKVYGSYRIFRGGSWAEAARGCGATCRRRSHPTFHIEDLGFRLARSI				NA	NA	NA	NA	NA
AK009_01367	504			hypothetical protein	ATGAAAAAAATAATATTAATTGGTTCTGGTGGTTCAGGAAAATCTACACTAGCAAGACAGTTAGGAAATAAATTAAATATTAAGGTGCATCATCTTGATGTATTATTTTGGAAACCGAATTGGGAAGGTGTTCCGAGAGAAGAACAAATAACAGTTCAAAATAACTTAATTAAAGATGAGAAGTGGATTATTGATGGGAATTATGGCGGGACGATGGGTATCAGACTGAATGCAGCTGATACAATTATTTTCCTTGATATTCATAGAACAATTTGTATTTATCGTGCTTTTAAAAGAATTGTAAAATACCGAAATAAAACAAGACCAGATATGGGCGCGGGGTGTGAAGAAAGATTTGATTTGCAATTTTTTAAATGGATATGGGAATATCCTAATGCTAAACGACCTACAATTTTAAAAGAGTTAGAGCAATTGCCCGAAGAGAAAAAGGTTATTGTTTTAAAATCTCCAAATGAGGTTCGGAAATTTTTAGAGCACATATAA	MKKIILIGSGGSGKSTLARQLGNKLNIKVHHLDVLFWKPNWEGVPREEQITVQNNLIKDEKWIIDGNYGGTMGIRLNAADTIIFLDIHRTICIYRAFKRIVKYRNKTRPDMGAGCEERFDLQFFKWIWEYPNAKRPTILKELEQLPEEKKVIVLKSPNEVRKFLEHI				NA	NA	NA	NA	NA
AK009_01368	930	thrB_2		Homoserine kinase	ATGGAACAAGCACTGGAAATTGCAAAGTTTTGGTTTCAAAATGAACATGTCACAGCTACTGTAATGCAACCAAAAGTAGCGAAGGTTATATGCAAGAATAAAGAGTATATTTTAAAGAGAACGGGATCGATAGACCAACTTCTAGTTGAATTCGATGTTTTGGATCAACTGTATGAAAAGGGAATTAAAGTACAGAGAGTAGTAAAGACAGAAAATGATGAACAATATGTATTATATAAAGAAAAATATTATTGCTTATATGAGTATGTTGCCGGAAGTGTTTTAGAAATAAAAGATACGGATAAGCTGGAAAGGCTAGCAAGTACAATTGGAGAAGAAATAGCTAATCTGCACAAAGCATTATATTCGGTGAATAGTGATCATGAGTTAATAAAAAGAAATTTATATAAGACGGTATTTGAATGGGCTATACCAATTTTAGAAAAGAATGAGTATGTTCATCGAGAGGTAATTCAAAAGATGGAGCGAATGCACACAGATTTCAAGGAAACGGTCCATCCATTACCGAGACAAATTATTCATCGTGATATGCATCTATCAAATGTAATCTTTAAAGATGATAAACTGGAAGGGTTTATAGATTTCGATATTTTAGAAAATAATGTAAAAATATTTGATATATGTTATTGCTGTACAAGTGTATTAAGCGAGGTATTTAGTGATGAAAGATTAAGAGGAAAATGGTTACATATCGTTAGCAAAGTCTTTGAAGGTTATTATAAACAAAATGATTTAACGAAAGAAGAACTAAAAGCTATTTGGTATGTTATGCTTTCAATTCAAATTATCTTTATTGCTTATTTTGTCCAGTTACCAGATTTATTAAAGTTAAATGAAGAAATGTTCTTCTGGATCTTTGCTAATAAGGAAGATATTGAAGAAGTTATAGAAGGTATCGTAAAGGTATGA	MEQALEIAKFWFQNEHVTATVMQPKVAKVICKNKEYILKRTGSIDQLLVEFDVLDQLYEKGIKVQRVVKTENDEQYVLYKEKYYCLYEYVAGSVLEIKDTDKLERLASTIGEEIANLHKALYSVNSDHELIKRNLYKTVFEWAIPILEKNEYVHREVIQKMERMHTDFKETVHPLPRQIIHRDMHLSNVIFKDDKLEGFIDFDILENNVKIFDICYCCTSVLSEVFSDERLRGKWLHIVSKVFEGYYKQNDLTKEELKAIWYVMLSIQIIFIAYFVQLPDLLKLNEEMFFWIFANKEDIEEVIEGIVKV				NA	NA	NA	NA	NA
AK009_01369	387			hypothetical protein	ATGAATACGAAACGAAATAGAGTATTATATGCACTATTTACTATAGTTGTTATTATTTTAGGTCTTAGCTCAAGGAAGTTTTCTTTTGCACTACCACATCTATTAAATGATTACTTAGGCGATGCTTTATGGGCATTAATGATTTTCACTGGCTTTGGATTTTTGTTTCTTAAAACAGAGACGAAGAAGTTGTCTTTTATTAGTTTAATGTTTTGCTACGGGATTGAAGTGAGCCAATTGTATCATGCTGAATGGATAGATAGCATGCGTGCAACGACTTTGGGTGGACTCGTGTTGGGATACGGTTTTTTGTGGAGTGATTTAGTGGCTTATACAATTGGTGTTGGAGTGGGAATACTGTGTGAGGTTATTTTTCGGAAGAAATAA	MNTKRNRVLYALFTIVVIILGLSSRKFSFALPHLLNDYLGDALWALMIFTGFGFLFLKTETKKLSFISLMFCYGIEVSQLYHAEWIDSMRATTLGGLVLGYGFLWSDLVAYTIGVGVGILCEVIFRKK				NA	NA	NA	NA	NA
AK009_01370	708	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAAGATTCGATTAAAGATACGTATGATAAATTAGCGAGTACATATAAAGAAAATCTAGATTTCGCAAATCCATATAACAGTTATTATGAAAGACCGGCGATGATGGAGCTTATTCCAAAGGAACTAGAAGGAAAAAAGATACTAGATGCTGGATGTGCAGCTGGATGGTATACTTCTCAATTCATAGGAAGAAGAGCAAATGTTACAGCAATTGATATAAGTCCTGAAATGGTAAAAGCAGCAAAAGAAAATATAGGAGAAGAAGCAACGTTCCTTTGTCATGATCTGCAAGAAACATTGCCATTTGAAGATAGTACGTATGATGTGATTGTAAGTTCGTTAACTCTTCATTACTTAGAAAATTGGAATCAAGTATTTCAAGAATTTCGTCGTGTACTGAAGCCAGATGGAGAACTTATTTATTCTATTCATCATCCTTTTATGGATTTCACAAAGTTTCCATGTGAAAATTATTTTGAAAAACAGTTATTAATAGATACTTGGGTTAAACCGAATATTACTATTGAAGTCAAGTTTTTCAGAAGGTCACTACAAGACATAATAAATGAAACTACAAATTATTTTGTATTAGAAGAGATAGTGGAACCGAAGGCAGTTGAAAAGATGAAAGAAGTAGACGAAAAATCATATTATTATCTAAATATGAATCCACATTTTCTTATCATAAAAGCAACTAATAAATAG	MKDSIKDTYDKLASTYKENLDFANPYNSYYERPAMMELIPKELEGKKILDAGCAAGWYTSQFIGRRANVTAIDISPEMVKAAKENIGEEATFLCHDLQETLPFEDSTYDVIVSSLTLHYLENWNQVFQEFRRVLKPDGELIYSIHHPFMDFTKFPCENYFEKQLLIDTWVKPNITIEVKFFRRSLQDIINETTNYFVLEEIVEPKAVEKMKEVDEKSYYYLNMNPHFLIIKATNK				NA	NA	NA	NA	NA
AK009_01371	354	yjbR	COG2315	putative protein YjbR	ATGAATGCAACAAGAGCGTACTGTTTATCGAAAAGAAAAGCGACAGAAGATTCTCCAGATGGTTGGAGTGCAACATGTATGAGGCTTAATAATAAAATATTTGCGATAGTAAATCATGAAGAAGGTGAAAAAGCTGCGATTACATTGAAGTGTGATCCAGAAGTCGCATTAAGAATAAGAGAAGATTATCCAGAAACAATTATTCCAGGGTATCATATGAATAAAAAACATTGGAATACCGTTTATATTCGTAAGGGTATAGAACAGGAGCAAATAAATAAAATGATTGATTGGTCGTATGATTTAGTACTACAATCATTTTCAAAGAAAAAGCAGCAGGAGTTAATGAATTAA	MNATRAYCLSKRKATEDSPDGWSATCMRLNNKIFAIVNHEEGEKAAITLKCDPEVALRIREDYPETIIPGYHMNKKHWNTVYIRKGIEQEQINKMIDWSYDLVLQSFSKKKQQELMN				NA	NA	NA	NA	NA
AK009_01372	405			hypothetical protein	ATGTACACGTATAAATTGCAACAAGAACAACCAGTCTGTGCAGAAAAAATAAAAAAACTTTATGATTCTGTCGGTTGGTGGCCAGAAAGAAAAGAAGTCGATATTGAAATAATGTTAAAGAATAGTATAGCAATTGGAGTATGGGAAGAAAATGAATTAATTGGATTTGCTAGAGTCGTTTCTGATGGTGTTTTTCGAGCATACATTGAAGATGTTGTCATACATGAGAGTGTAAGAAATAAAGGTATTGGAGAGAAGATGCTTACAATATTACTTCGAGAAATATCTCATATTGATATTGTTAGTCTATTTTGCGGAGAGAAGCTAATAAAGTTTTATGGTGAGCAACAATTTCAAGCAACGAAGCAAATTGTGATGCATCGTAATCAAACAGGGAAAGAATAA	MYTYKLQQEQPVCAEKIKKLYDSVGWWPERKEVDIEIMLKNSIAIGVWEENELIGFARVVSDGVFRAYIEDVVIHESVRNKGIGEKMLTILLREISHIDIVSLFCGEKLIKFYGEQQFQATKQIVMHRNQTGKE				NA	NA	NA	NA	NA
AK009_01373	417			Acetyltransferase	ATGAAACATATAAAGAACGGTACACGCACTGAAGGAGAATATATTAAAAATAAAGTTATTCAATATAATATGTCCATCTTAACAGATGAGGCAAGACAGACGATGGAAGAAGTAAGCCTCGTAGTAAAAAATGAAGAAGGAAAAATTTTTGGTGGCGTAACAGGTACGATGTATTTTTATCACCTTCATATCGACTTTTTATGGGTTGATGAATCAGTTCGTCATGACGGTTATGGTAGCCAACTTTTACATGAAATTGAAGGTATTGCGAAGGAAAAAGGGTGTAGATTAATATTGCTAGATTCATTTAGTTTCCAAGCACCAGAATTTTATAAAAAGCACGGTTACAGGGAGTATGGTGTCGTTGAAGATCACCCGAAAGGTCATAGTCAGCACTTTTTTGAAAAGAGATTATAA	MKHIKNGTRTEGEYIKNKVIQYNMSILTDEARQTMEEVSLVVKNEEGKIFGGVTGTMYFYHLHIDFLWVDESVRHDGYGSQLLHEIEGIAKEKGCRLILLDSFSFQAPEFYKKHGYREYGVVEDHPKGHSQHFFEKRL				NA	NA	NA	NA	NA
AK009_01374	372			hypothetical protein	TTGAAAAGAAACTTAAAGACTTCAACAATCATTATTTTAATTTTAACGATTATTGCTCTTGAAGTTGGAATCGCACTATCTAATCACAATTTGTCATTAGATACAATTTACTTTGCAGCAATCCTTATTTGTATTGTATTGCTTTTTGGTACACGTGTTTCTGAAAAGAAAGAAAGTAAATCGAAACGAGGGCGAAGAAAAACAGCTCTTATATTTTGGCCATCTATTTTATTGTCTATCACTTGTTTCGCAGTTATAAGTTACATAAGGATAGGCTATGTCTCTGTACCAGGGATAATTGGCTTTTCATGCTTTGTTACATATGGTGGATTCGTATGTATTAGTATTTTAAAGAGAAAAAATAAAATGTAG	MKRNLKTSTIIILILTIIALEVGIALSNHNLSLDTIYFAAILICIVLLFGTRVSEKKESKSKRGRRKTALIFWPSILLSITCFAVISYIRIGYVSVPGIIGFSCFVTYGGFVCISILKRKNKM				NA	NA	NA	NA	NA
AK009_01375	777			hypothetical protein	ATGGAAACTGTCATAAATAAAATAAAAGAGGTACAATCTAATTATGTGGGAATGGAAATTTATTCTACAAAAAACAATCGTATAGTTGCTTCATATAATAGTGAATTAAATATTCCGTTAGCATCAGCAGCAAAATTAGTTATTGGATTTGTAGTAGCACAAATGGTGAAGGAAAATAAACATAATTGGAATGATATACTTCATCACATTAAATTTAATCCGCATGAAGATAGTACGCAGTTATATCCGCATTTACAAGGAAGAACTTCTTTAACACTTAGTCAAGCGGTCGAGGTAATGATAGCTTGTCATGATAGTTACGTTGCACAGTCAGTTGTAATGCACTGTGGTGGATGGGATGCTGTGAAAATGTATGTACAAACGTACTTTTCAAAAATTCATATACAAGAGAATGCTAGAGATGAGAAAAATATTGGAGACTTAAATGAAGTTCTTGCCCTTTTGATACAAACCTTTCAAGGTTATAAATCAGAACCAGAATTATGGGAACCAATTATTAGTGGCATGGTAAGACAACAAGGAGAGTATGAAGAAATCCCATATTATCATTTAGCTCATATGACAGGTGGATTGCTCACAGCTACAATAAATATTGGTATAATAGGAATGTTTAACGAATTTCCGCTTCTTTATGTGATTGGGGGAAAAGATTTACCGAATCGACGTGAAAATAAAGAGGTAGATGAAGCTTTTGCAGTAGTTTTAAAGTACATATACAAAGAATATAGTGAAAACATGCTAGGAGTGAGCGGTTGA	METVINKIKEVQSNYVGMEIYSTKNNRIVASYNSELNIPLASAAKLVIGFVVAQMVKENKHNWNDILHHIKFNPHEDSTQLYPHLQGRTSLTLSQAVEVMIACHDSYVAQSVVMHCGGWDAVKMYVQTYFSKIHIQENARDEKNIGDLNEVLALLIQTFQGYKSEPELWEPIISGMVRQQGEYEEIPYYHLAHMTGGLLTATINIGIIGMFNEFPLLYVIGGKDLPNRRENKEVDEAFAVVLKYIYKEYSENMLGVSG				NA	NA	NA	NA	NA
AK009_01376	513	mnaT	COG1247	L-amino acid N-acyltransferase MnaT	ATGATAAGGGAAGCAACGAAAAGAGATTTAGCATACATTTTAGATATTTATAACGATGCGATACTTTATACAACAGCTGTATATGCGTATAAACCTGTAACCCTTGAAAATAGAATAGATTGGTATGAACAAAAAAAGGCCGAAGGGTATCCAATTTTTATATACGAATTAGATAATAAAGTAGTAGGATTTGCGACATTCGGCCCATTTAGAGCGTGGCCTGCTTATAAATATTCAGTTGAACATTCTGTGTATGTAGATAAGACATATAGAAAAAATGGCATTGGGTCTTTATTCATGAAAGAATTAATTAAAATTGCGAAGGAACGAGAGTATATGACCTTAATTGCTGGAATTGATGCAGAGAATGAGAAAAGTATTGCCTTGCATCAAAACTATGGATTTGTTCATGCAGGGACAATAAAAAAAGCTGGTTATAAGTTTAATAAATGGCTAGATTTAGCTTTTTATCAGCTGGAGCTTAACGGTCCTGAAAATCCTATAGAAGAATAA	MIREATKRDLAYILDIYNDAILYTTAVYAYKPVTLENRIDWYEQKKAEGYPIFIYELDNKVVGFATFGPFRAWPAYKYSVEHSVYVDKTYRKNGIGSLFMKELIKIAKEREYMTLIAGIDAENEKSIALHQNYGFVHAGTIKKAGYKFNKWLDLAFYQLELNGPENPIEE				NA	NA	NA	NA	NA
AK009_01377	1002			hypothetical protein	ATGAATTTAATTGATATTTATGTCGAGGAAGTAGCGAAGAGATTACCTGAAAAAAATCGTGAAGATATTATTCTTGAACTACGGTCAACAATCGAGGATATGTTACCGGATGATTATAATGAAGATGATGAAAAAAGAGTTCTTGAAAAATTGGGAAGTCCAGTTGCATTAGCTAATGGATACTTGGATAGACCAATGCATTTAATTGGACCACGTTATTTTGATGTATATATGACATTATTAAAAATGATCTTACCAATCGCAGTTGTAATTGCGCTTATTTCAATGGTTGCAGAAAATTTTATTAGTTATAGTGGTGATCAGGCTGTATTAAATGTTATTTTAAAATTGATAGGTGAAGGCATTGGAAGAACGTTTGAAGTAGGTTTCCAAGTATTTTTCTGGCTGACAGTTGTGTTTGCTGTTATAGAAAGAACGGATAAAGAAAAGGACCCACAACCATTAACAACAAGTTTAAAAAAATGGACGCCAGATGATTTGAAAAATATTGCGTATATCCCGAAGAAAAAGGCGATCTCAAAGTTTGAAGTGTTTGGAGGTCTAATGTGGACGGCAATATGGGCTACACTTTACTTCTATGCGAATCATCTCGTTGGCGTATACAATGGTACGGAAAATGGACTGAAGTTTGTCTCGCCAACTTTTAATCAAGATGTTTTACTGCAGTACTGGCCAATTGTTGTAATTATGATCGTTTTTGAAATAGGTATATCCCTTTATAAATTAGTGCAAGGAAAATGGACGCAAAGATTGGCGATTGGAAATGCTATTCTTCAAGTAGCTGGGACGATAGTATTCATTGTAATTGTAGTAAATCCACATTTATTTAACACAGGATTTATTACGTATTTGGCAAATGCATTTACTATTTCCACAGAGGAGTTTAAAACGTGGCTCATTGGGGGAGGAATTTTCTTCTATACGTTATCTGCTGCAATAAATATATTTGATGGTTTCCGAAAAGCTAGTATTCGTACGTAG	MNLIDIYVEEVAKRLPEKNREDIILELRSTIEDMLPDDYNEDDEKRVLEKLGSPVALANGYLDRPMHLIGPRYFDVYMTLLKMILPIAVVIALISMVAENFISYSGDQAVLNVILKLIGEGIGRTFEVGFQVFFWLTVVFAVIERTDKEKDPQPLTTSLKKWTPDDLKNIAYIPKKKAISKFEVFGGLMWTAIWATLYFYANHLVGVYNGTENGLKFVSPTFNQDVLLQYWPIVVIMIVFEIGISLYKLVQGKWTQRLAIGNAILQVAGTIVFIVIVVNPHLFNTGFITYLANAFTISTEEFKTWLIGGGIFFYTLSAAINIFDGFRKASIRT				NA	NA	NA	NA	NA
AK009_01378	345			hypothetical protein	ATGGATGCTTTATTAAATTCGTTAATTACTGAACTAAGAAGAGGAACATTAACATTAGCGGTTTTAAGCCAGTTAAGAACACCGCAGTATGGGTATTCACTTGTCCAATTATTGGAGAAATCAGGGATCACAATCGATCAAAGTACTTTATATCCACTACTTCGCCGATTAGAAAAGCAAGAGCTAGTGACGAGTAGTTGGGATAAAACGGAGAGTAGACCGCGTAAGTATTACGTTTTAAGTGAATACGGATTAGAGATATTTTTGCAGTTAAAAAAGGAATGGATAAAGGATTCGAAGGAACTTTATAACTTATTAAAGGAGGACAAGAATGAATTTAATTGA	MDALLNSLITELRRGTLTLAVLSQLRTPQYGYSLVQLLEKSGITIDQSTLYPLLRRLEKQELVTSSWDKTESRPRKYYVLSEYGLEIFLQLKKEWIKDSKELYNLLKEDKNEFN				NA	NA	NA	NA	NA
AK009_01379	321			hypothetical protein	ATGATTACAAAAGTAATTACGAAAAGTAATTGGGAAATCGCAAAAATAATTGGAGAAATTAATGAAGATTCACTTATAGAAGAGGGATTTATTCATTGTTCATTAGTAGATCAAGCTTTAAAAGTTGCAGAAAAATATTTCAAGCATGAAGAAGATGTTTTATTACTTACAATTGATCCAGCCCTATTAAAAGCAGAAGTAAAATATGAACTTGCTTCTAACGGTCAAGAATATCCGCATGTTTACGGAGTAATTAATGTTGAGGCGATTGTAGAGGTTGTTCCATTGCATAAAGAAAACGGAGAGTTTATCCCGCATTAA	MITKVITKSNWEIAKIIGEINEDSLIEEGFIHCSLVDQALKVAEKYFKHEEDVLLLTIDPALLKAEVKYELASNGQEYPHVYGVINVEAIVEVVPLHKENGEFIPH				NA	NA	NA	NA	NA
AK009_01380	687			hypothetical protein	ATGAATACAAATGAACATTGGCATGATTTTATTTGTTACTGTCAGCATCGCGAAGCGGGACTTCGAAAATTAGCTTATAAACATTTAGAGACATTTATTTCAAATGCAAAGAAATGGGAATCAAAAGATCAAGAAGAGTTTGCCATTTCGCTGTTTACTATTTTAGATGCATTAAACGAAAAAGATGAGGTCTTAACTTTCTCACTAAATAGTTTTCTAATTGATATTCTATATAGATGGACAGAAAACAATCCGATTGATTCAAGACCTTTTAGATGGATAGGAATTTATATGGACTCTAGCAATAAAGAAGACGATTTAGAAAAATCCCTTCGAAAAGCGATTGAATTAGGTGGTTATACCGAACAAAAAGCCATGATATACCTAGTTTCTAATTACATCAATACTTTAGAATTTGGTACAAATGAATTCCCTTCAGGTTATTGCGGAGATTTAAGCGAATGTATAGAAAAACTTCCCTATATGCTGCAATTAATTAATAGAATTCAGAATAAGAACATAAAGAAGCTACACATTGGTCAAATACAAGTACAACTACACCTTATTCTAGATTGGTTAAAACATACACAAATTCCAGTAGATGCCGTTCGTATACGGGAAAAAGGACAAACTAAGGAATTAGAAAAGGTCATTGTATATTATTTATACAACAGCTCAAGTCGTTAA	MNTNEHWHDFICYCQHREAGLRKLAYKHLETFISNAKKWESKDQEEFAISLFTILDALNEKDEVLTFSLNSFLIDILYRWTENNPIDSRPFRWIGIYMDSSNKEDDLEKSLRKAIELGGYTEQKAMIYLVSNYINTLEFGTNEFPSGYCGDLSECIEKLPYMLQLINRIQNKNIKKLHIGQIQVQLHLILDWLKHTQIPVDAVRIREKGQTKELEKVIVYYLYNSSSR				NA	NA	NA	NA	NA
AK009_01381	561	aaaT_2	COG0454	L-amino acid N-acetyltransferase AaaT	GTGTGTAGTATCTTATCAACTAATGTTTTTACTTATAAATCTAAGGATGGAAAAACAGTAATAATTAGAGAAGCTAAAGAACAGGATGCAGAAAGAATACTAGATTCTGCTTCAAAAGCTTTAATAAACGCTCCATACACGCTAAGTACGGTTGAGGATGTAAAAAAGGTGCGTATCGATGCTATTCAAAAAACGTTAAAAGCTTATCATGAAAATCCAAATTATGTACAGTTTATTGCTGAAGTTGATGGTAAGTTAGTCGGTGCAATAGATTTTAAGAACGGAAACAAAGAAAAAATTAGTCATCAAGGGGCTTTTGCGATGACCATACTACCTGAATATCGAAATTATGGTATTGGAAGAGCTCTTCTAGAAACGTTAATCAATTGGGCTAAAAATAACAGTAAGATTGAAAAAGTTTGTCTTGAGGTAATGGAAGATAATCTAGGTGCAATCCAGTTATATAAGAATCTAGGCTTCTTTGAAGAGGGTAGAAAAGCAAAGGGTGTAAAATTGGATGATAGCTATCAAAATTTAATATTAATGGCTTTATTCGTTTAA	MCSILSTNVFTYKSKDGKTVIIREAKEQDAERILDSASKALINAPYTLSTVEDVKKVRIDAIQKTLKAYHENPNYVQFIAEVDGKLVGAIDFKNGNKEKISHQGAFAMTILPEYRNYGIGRALLETLINWAKNNSKIEKVCLEVMEDNLGAIQLYKNLGFFEEGRKAKGVKLDDSYQNLILMALFV				NA	NA	NA	NA	NA
AK009_01382	2076	helD_1	COG3973	DNA helicase IV	ATGAGCAACATATTTGAAGATGAGTTACAAAAAATGAAGGATACTTTGCATACGATGGATGAGCAATTGGATAAGCTTGAAAAAATCCCAGTTTATTATGGAGAAGATTTTAAGGAGCAAATTCTTGAAAGTATGAGAGAGTCTAATAGACAAAATTTACGTATTGGTGTGCAAGAGCCGTACTTTGGAAGGTTAGATTTTCAGGAAGATGGTAAAGAAGCAGCTATGCCGATTTATATTGGAAAAGTAGGGGTTTCGGATATGGACACGATGAAACCAATCATTATTGATTGGAGAGCACCTGTCGCAAGTATGTTTTATTCATTTACCGGTGGAGAAGAATTAGCATTTTATCAATCACCAGATGGGTTAGTAGAAGGTGATGTGTATTTAAAACGAAACATTTCTATTCGAAAAAGAGAACTTGAACGTGTCGTTGATACATATGTAAAAGGAAATGAAGATGTATCACATGCCGATGATTTTCTTCTATATCGATTAGGTGAGAATAAAGATAATAAACTAAAGGATATTGTTTCAACGATTCAATCGGAACAAAATGATATTATTCGTGCGGAAAGAAACTTGCCATTATTAATTCAAGGGGTTGCAGGGAGCGGAAAGACAACAATTGCTTTACATCGCCTTGCTTTTTTGATTTATGAATATCGTGAGCAGCTAGAAGCTGAGAGAATGATCGTATTTGCGCCGAATAGTCTGTTTTTAGACTATATTTCGAGTGTACTTCCTGAATTAGGTGTAGGGAATATTAGTCAAACAACGTTTCCGGATTGGGCATTACGCACGTTAGATGATTCAGTGAAACTAAAGCAGACAGAAGAAAAATTGAAAGAAGCATTTTCAATTAATCGTGATGAAGAAAAGGTTATGCTCGGTAAATTGAAAGGTACACTGGAATTTAAGTTCTTTATTGAAGAGAGAATGATTCAATTTGAAAATGAATTAATACCAACAAGTGATTTTGAGGCATGGGACAAAGCTATTATTCCAGTAGAAGACATAAAAAAATGGATGCAAGTTGAATATAAACATTATCCATTAAAGAAAAGAAGAGAAAGATTAGTCGGCCGAATGAAGCGCTGGATTGAAATTGAACTGAAAAAGTATGGAGAAACAAACGAGAAGAAATTATTAAAAAAAGAAGCGACAAAGAGATTGAACACTTATATGAAGTTTTGGCCGAAAATGAGCCCACTTTCACTATATAGTTCAATATTGAAAAGTAAAGAAATACTCGAAGTATTGCCTGAAGAACTTGTGAAAGAAACTGAAAAGAGTTGTCGTAAAAAAGAAGTGTATGTAGAAGATTTACCAGCTTTAATTTACATACATCACCGCATAACAGGTATTGAAATCGGACAGAAATTCCATCACGTCGTTATTGATGAAGCGCAAGATTTTCCACCATTCCAAGTTTATGTATTAAAAGAAATTACACTAGGTAATTCTTTTACTATATTAGGTGATTTATCTCAAGCAATTTATGATTATCAAGGAATTGAAGATTGGAGTGCTTTTAAAGAAGTATTCCAAGAAACAGGTTATTATGAACTGACGAGAAGTTATCGTTCTACAAAAGAAATTATAGAATTTGCGAACGAAATAATTAAAAATGCAGAGATTCCAGTTGGGCTCGCAACACCAGTTTTTCGCAGTGGTGAAGATGTTAAGGTAATCCATGCAGAAGATCAATTTAATGAGATTATGAAGACGTTAAAACATCTACAAAACGAAGATGTGAAAACCATTGCGGTAATAGGAAGAACAGACGATGAATGCCGCGATATATATGAGAAATTAACAAAAGCAGGATTGGCTGTAAACGTTATTGAAGCAGATCAAAGTAAATATGAAGGTGGTATTTCAGTAGTACCTGTCTATTTAGCGAAAGGTTTAGAATTTGATGCGGTGCTTTTAATTGATGTGGATGAAGAACATTACAAAAACACAAAACATGATGCAAAGTTACTATATGTCGGATGTACGAGATCACTTCATGATTTATGGATTTTCCATAGTGGGGAAGCGTCACCTTTAATTAAAGGATTAAAATAA	MSNIFEDELQKMKDTLHTMDEQLDKLEKIPVYYGEDFKEQILESMRESNRQNLRIGVQEPYFGRLDFQEDGKEAAMPIYIGKVGVSDMDTMKPIIIDWRAPVASMFYSFTGGEELAFYQSPDGLVEGDVYLKRNISIRKRELERVVDTYVKGNEDVSHADDFLLYRLGENKDNKLKDIVSTIQSEQNDIIRAERNLPLLIQGVAGSGKTTIALHRLAFLIYEYREQLEAERMIVFAPNSLFLDYISSVLPELGVGNISQTTFPDWALRTLDDSVKLKQTEEKLKEAFSINRDEEKVMLGKLKGTLEFKFFIEERMIQFENELIPTSDFEAWDKAIIPVEDIKKWMQVEYKHYPLKKRRERLVGRMKRWIEIELKKYGETNEKKLLKKEATKRLNTYMKFWPKMSPLSLYSSILKSKEILEVLPEELVKETEKSCRKKEVYVEDLPALIYIHHRITGIEIGQKFHHVVIDEAQDFPPFQVYVLKEITLGNSFTILGDLSQAIYDYQGIEDWSAFKEVFQETGYYELTRSYRSTKEIIEFANEIIKNAEIPVGLATPVFRSGEDVKVIHAEDQFNEIMKTLKHLQNEDVKTIAVIGRTDDECRDIYEKLTKAGLAVNVIEADQSKYEGGISVVPVYLAKGLEFDAVLLIDVDEEHYKNTKHDAKLLYVGCTRSLHDLWIFHSGEASPLIKGLK				NA	NA	NA	NA	NA
AK009_01383	744			hypothetical protein	ATGAACGAATTAAATGTAAAAGAATTTTATAAAAAACAATTTGAACTAATAAGCTATGATATAAATAATGAAAATTGGTTACAGGAAGTTGCTAAAGAAGTGCAAGAACAAGTTGGATATCCAATTCAGACGATGTTAGAACTAGGAGCTGGAAATGGCGGATTTGCAAGGGCGATGTCTAATTTGAATGTAAAAATGACTACTGTTGAGCTTGTACCGGAGTTAGCTATGTTTGCAAAAGAACATGCTACTAATGATATTGAGGTTCATTGCGCCGATTTTTATAAAATTAACTTTAAAGAAAAGTTTGATGTTGTTATTTATTTAGACGGATTTGGTGTAGGAACAGATGAGGAACAATTGATTCTATTAAAACGAATTAAAAATTGGATGATGGATGATGGATGTGCACTTATTGATATTTATCAACCGTTATATTGGGAAAAGGCCAATGGACAAGAAATGCCGATAGGTTCTGCAATGCGAAAGTATGAATATGATAGTGAAAATGCAAGAATGCTAGACCATTGGTGGGAAATAGATTCTTCAAATGATATCGTGACACAATCTTTACGCTGCTATGCTGTAGGTGAGATTAGTAATTTATGTGCCGAGGCTCATTTAAGTATAGTTGGGATTTTCCCAGGAGGAGCGCATGATTTTGAAGCTGGGAAATATAAAGAGCGATCCTCTTTAAATGAATGTTTATCATATCGAATAAAAGTAAAAAAGAGTAGGGATTAA	MNELNVKEFYKKQFELISYDINNENWLQEVAKEVQEQVGYPIQTMLELGAGNGGFARAMSNLNVKMTTVELVPELAMFAKEHATNDIEVHCADFYKINFKEKFDVVIYLDGFGVGTDEEQLILLKRIKNWMMDDGCALIDIYQPLYWEKANGQEMPIGSAMRKYEYDSENARMLDHWWEIDSSNDIVTQSLRCYAVGEISNLCAEAHLSIVGIFPGGAHDFEAGKYKERSSLNECLSYRIKVKKSRD				NA	NA	NA	NA	NA
AK009_01384	384			hypothetical protein	ATGTATCATGTTTTCGTTTATGGCACGTTAAGAAGAGGACAAACGAATGCTCATTATATGTTAGGTGCAACGTGCATTGCAGACAGAGCTTGGACATATGGAAAATTATTTGATACGAATGAAGGATATCCGGCTATGACTTATTCGATTGAAGAAAAGGTGTATGGAGAAGTTTATGTAGTAAATGATGAGATATTGTGTAAGTTAGATGAACTAGAAGAATATACAGGTAATGCGGAGACCGATTTATATGATCGAATCACGCAAACAGTATATGTTGCTGATAGGGAAATAGAAGCATATGTGTATATCGCTCAAGATAAAAAGATGATATTGAAAGTTATTGATTCTGGTGACTGGGTGGAGTATCAAAAAGAAAAATAA	MYHVFVYGTLRRGQTNAHYMLGATCIADRAWTYGKLFDTNEGYPAMTYSIEEKVYGEVYVVNDEILCKLDELEEYTGNAETDLYDRITQTVYVADREIEAYVYIAQDKKMILKVIDSGDWVEYQKEK				NA	NA	NA	NA	NA
AK009_01385	2118	recQ	COG0514	ATP-dependent DNA helicase RecQ	TTGTTTACTAAAGCACAAGAACTTTTAGCGTCCTACTTTGGTTATTCTTCGTTTCGAAGAGGACAAGATGAAACAATTAAAAATGTACTAGATGGGAAAGATACAGTATGTATTATGCCAACGGGTGGCGGTAAGTCGATTTGTTATCAAATTCCGGCATTAGTATTTGAAGGAACGACGTTGGTTATATCGCCTTTAATATCACTTATGAAGGATCAAGTAGATACATTGGTACAGAATGGCATTTCAGCTACATATATTAATAGTTCTATTTCTATTGCCGAAGCAAATCAGCGAATTCAATTAGCGAAACAAGGACATTACAAATTACTTTATGTCGCGCCTGAGCGTCTTGATTCGATGGAGTTTGTTGACCAACTTATCGATATGAAAATCCCTATGATTGCGATTGATGAAGCACACTGTATTTCACAGTGGGGACATGATTTCCGTCCAAGTTATTTACATATACATCGCATATTAGATTATCTTCCAGAAAAACCGCTCGTATTAGCATTAACAGCAACAGCAACACCGCAAGTACGTGAGGACATTTGTAACACACTTGAAATTAATCAAGAAAATACAATTATGACAACGTTTGAGCGTGAGAACTTATCGTTTTCTGTCATTAAAGGGCAAGATCGAAATGCATATTTGGCGGATTATATTCGTCAAAATCAAAAGGAATCTGGGATTATATATGCAGCTACTAGAAAAGTAGTCGATCAGTTATATGAAGATTTAATGAAGGCTGGAGTTTCTGTATCAAAATATCATGCTGGTATGAGTGATAGTGATCGAAATGAGCAACAAGAACTCTTTTTACGAGATGAAGTAAGTGTAATGGTAGCAACATCTGCATTCGGGATGGGTATTGATAAATCGAATATTCGTTACGTAATTCATTATCAGCTTCCAAAAAATATGGAAAGTTACTATCAAGAAGCAGGACGTGCTGGTCGTGACGGATTAGATAGTACATGTATATTGTTATATTCTTCTCAAGATGTACAAGTACAGCGTTTTTTAATTGATCAATCAACTGGAGAATCACGTTTTTCAAATGAACTTGAAAAATTGCAAAATATGACCGATTACTGTCATACAGAACAATGTTTACAATCATTCATTTTGCAATACTTTGGAGAAGAACCGAAAGAAGATTGTGGACGCTGTGGTAATTGTACAGACGATCGCGAGAGCATTGATGTGACAAGGGAATCACAAATGGTTTTATCATGCATGATTAGAACGAACCAACGCTTTGGGAAGCAAATGATAGCGCAAGTATTAACGGGGTCGAAAAATAAGAAAGTTATTGAATTTAATTTTCATACTTTACCAACGTATGGGCTTTTATCGAACCGTAGTGTAAAAGAGGTCAGTGAGTTTATTGAGTTTTTAATTTCAGATGAGTTAATTGCAGTTGAACATGGCACTTATCCGACGTTAAAAGTAACAGAAAAAGGGAAAGAAGTATTACTTGGTAAAGAGAATGTTTTACGAAAAGAACGAGTAGAGACAAGACAAATTGTACAAGACCATCCTTTATTTGAAGTGCTTCGTGAAGTACGTAAAGAAATTGCACAAGGAGAAGGTGTACCTCCGTTCGTTATTTTCTCTGACCAAACATTAAAAGATATGTGCGTGAAAATGCCGCAAAGTGATTCCGAATTGTTGACGGTAAAAGGTATCGGAGAACACAAACTTGTGAAATATGGCTCGCACTTCTTACAAGCAGTTCAGCATTTTATTGAGGAAAATCCAAATTACGCTGAAACGATTAAGACAGAAGTAGTTGCAGAGCGTAAAAAGTCAGGAAAAGCGTCCGCAAATTCTCATTTAGAAACGTATGAAATGTATAAACAAGGTATTGATTTGAATGAGATTGCAAAAGAACGTAACTTATCAAGACAAACAATCGAAAACCATTTAATTCGCTGCTACGAGGATGGAATGGAAGTAGAGTGGCAAAGTTTTGTTCCAGCAGAGTATGAATCTCTTATTGAAACTGCCGTTCAAAATGCTGAGGGTGGTCTGAAATCTATTAAAGAACAGCTTCCGAATGAAGTGAGTTACTTTATGATTCGTGCTTATTTACAAATAAGAAAGTAG	MFTKAQELLASYFGYSSFRRGQDETIKNVLDGKDTVCIMPTGGGKSICYQIPALVFEGTTLVISPLISLMKDQVDTLVQNGISATYINSSISIAEANQRIQLAKQGHYKLLYVAPERLDSMEFVDQLIDMKIPMIAIDEAHCISQWGHDFRPSYLHIHRILDYLPEKPLVLALTATATPQVREDICNTLEINQENTIMTTFERENLSFSVIKGQDRNAYLADYIRQNQKESGIIYAATRKVVDQLYEDLMKAGVSVSKYHAGMSDSDRNEQQELFLRDEVSVMVATSAFGMGIDKSNIRYVIHYQLPKNMESYYQEAGRAGRDGLDSTCILLYSSQDVQVQRFLIDQSTGESRFSNELEKLQNMTDYCHTEQCLQSFILQYFGEEPKEDCGRCGNCTDDRESIDVTRESQMVLSCMIRTNQRFGKQMIAQVLTGSKNKKVIEFNFHTLPTYGLLSNRSVKEVSEFIEFLISDELIAVEHGTYPTLKVTEKGKEVLLGKENVLRKERVETRQIVQDHPLFEVLREVRKEIAQGEGVPPFVIFSDQTLKDMCVKMPQSDSELLTVKGIGEHKLVKYGSHFLQAVQHFIEENPNYAETIKTEVVAERKKSGKASANSHLETYEMYKQGIDLNEIAKERNLSRQTIENHLIRCYEDGMEVEWQSFVPAEYESLIETAVQNAEGGLKSIKEQLPNEVSYFMIRAYLQIRK				NA	NA	NA	NA	NA
AK009_01386	162			hypothetical protein	ATGAAACATCATAATATGAGTTCCATCACGGCAAAAAAGAAAACAACACAACTCCAATTCTCTAATAATGATGCGTGGAAATATGAATCATACTATAAGTACCAACCATTATTCTCTTATAAAAAGCTTTTTAATTTTCTTTCTCAACTTTTTAGATGTTAA	MKHHNMSSITAKKKTTQLQFSNNDAWKYESYYKYQPLFSYKKLFNFLSQLFRC				NA	NA	NA	NA	NA
AK009_01387	624			hypothetical protein	ATGTATTCTTATTGGCAATCGTATTACTCCCCCTACCATAACCCTTATGTAAACTATGATTTATCTGTACGTAACTACCGAATTAGTAAAAACGAGAATTTTTTAAAAGGGTATATGCGTTCTTTATGGGAACAACACGTCGCTTGGACGAGATTGGCTATTATAAGTATTGTATTTAATTTACCCGATGTTAACGTTACTGTTGGACGACTTCTACAAAACGCAACACATATGGGACTATCACTTGAACCATTTTACGGTGAAGATGCAGTAAAAAAATATAGTGCATTAATTAAGGATCACTTAGTCATTGCAGCAGATCTTGTTAAAGCCGCAAAAACTGGTGATCAAAATGCAGCTGCCGCTATAGAGAAAAAATGGTACGCTAATGGTGATGAAATCGTTGAGTTTCTTAATAACATCAACCCATATATAGGAAAAGAAGAATTCCGAAAAATGTTTTATGAACATTTAGCACTAACGAAAGCAGAAGCACTTACCTTCCTAAATAAAGATTATGAAGCAGGAGTACAACTTTACGATAAAATTGAAAAAGAAGCATTAGAAATGGCCGACATGATAACAAACGCAATCGTAAAACAATTCCCACAAGTATTTCAATAA	MYSYWQSYYSPYHNPYVNYDLSVRNYRISKNENFLKGYMRSLWEQHVAWTRLAIISIVFNLPDVNVTVGRLLQNATHMGLSLEPFYGEDAVKKYSALIKDHLVIAADLVKAAKTGDQNAAAAIEKKWYANGDEIVEFLNNINPYIGKEEFRKMFYEHLALTKAEALTFLNKDYEAGVQLYDKIEKEALEMADMITNAIVKQFPQVFQ				NA	NA	NA	NA	NA
AK009_01388	357			hypothetical protein	TTGATTAACGCGATTGGGCTCGTTTTTATACTTACAAATAAACACGAGAAAAAAAAGAAAGTTTACCTAAATGAAAAATTTGCACTAATAGATATTATTGATTCTAAAGAAGTATTTGATGATGAAGGGAATCCTTTAGTAGAACTAACATGTAAATACAGTATATATTTAGATGAAAAATATTACTGTAAATCTCTCGATGATTATACTGGACAAGTATTTCCTTTCTTAAGTGCAAAAATAGGAAAAGGTCTTCTAAGAAACTTAAACTACTACTTTTCTTACGTTGATGCCTATGATAAGAAACCACCAGTTAAAGAAATAAGACCGCTGATGAAACAAGTAACTAACAGATAG	MINAIGLVFILTNKHEKKKKVYLNEKFALIDIIDSKEVFDDEGNPLVELTCKYSIYLDEKYYCKSLDDYTGQVFPFLSAKIGKGLLRNLNYYFSYVDAYDKKPPVKEIRPLMKQVTNR				NA	NA	NA	NA	NA
AK009_01389	453			hypothetical protein	ATGAAATACTCAGAAACAATTATAAGTAAACGACTTCGAATGCTTAAAATGACGGGTATGTTTTTCATGCTAGTATTAATAGCATGGATTGGATATACAAAATTACTTTATGAAAACGGATTTCTTCAAGAAAAAAAGAATTCAGTAGAAGTAATGAATACTAGCATTACAGGAGAAATAGAGCAGCTTTTTCATATAAACTTGCAAGGTTATCGAAAAACAAACCTTGATGCTGTTATAGAAGCAAGTAAAACCGATCCAAGCGAACTATCCCTAATTGAACTGGTCAACAAATCCTGCTCGCGAGATTGCATAGGTGAGCCAGTAACATATGTAAACTCAAACAATGGATATATCTTTTATAAGGAATCTAATGGAACTAATGTAGCTATAACGGTTAAAAAGAAAGACACATGGGTAATTGTAAAGAAATCTGTTCAAGATGGAATATAA	MKYSETIISKRLRMLKMTGMFFMLVLIAWIGYTKLLYENGFLQEKKNSVEVMNTSITGEIEQLFHINLQGYRKTNLDAVIEASKTDPSELSLIELVNKSCSRDCIGEPVTYVNSNNGYIFYKESNGTNVAITVKKKDTWVIVKKSVQDGI				NA	NA	NA	NA	NA
AK009_01390	198			hypothetical protein	ATGGGGAATACTTGTCATTGTGGGCATTCCCGAAATTGTAATAAATTTTGGGATAATTTAATGTTTGGGAGATGTAGATGTAAACGCAGTGATTTTCACGAATGTTGTTGCAAAGAGAAACCGAAATGTGAGTGTGAAAAATGTCATTGTAAAACAAAACCGAAATGCCATTGTAGAGATGAAGATGAAGGGTATTAA	MGNTCHCGHSRNCNKFWDNLMFGRCRCKRSDFHECCCKEKPKCECEKCHCKTKPKCHCRDEDEGY				NA	NA	NA	NA	NA
AK009_01391	831			hypothetical protein	ATGGGTTACATTGTAGATATTTCAAAATGGAATGGCAATATTAACTGGGATATCGCAGCCCCACAATTAGATTTCGTAATTGCACGTGTGCAAGATGGTTCAACTTATGTTGATCCTTTATATAATAATTATGTACAAGCAATGAAAGTAAGAAATATTCCGTTTGGTAATTATGCGTTCTGTCGTTTCGTTTCAGTAGAGGATGCACGGATAGAAGCAAGAGACTTTTGGAACCGTGGTGAAAAAAATGCCACAGTTTGGGTAGCTGACGTAGAAGTAAAAACAATGAATGATATGAGAGCGGGTGCACAAGCATTTATTGATGAATTACGTAGATTAGGAGCTAAGAAGGTCGGTTTATATATTGCTCATCATATGTATGCTCCATTTGGAATGGCAAATGTCAATTCTGATTTTGTATGGATTCCTCGTTATGGTGGTAACAAACCGGCGTATCCATGTGATATTTGGCAATACACAGAAACAGGGAATGTAGCTGGTATCGGAAAATGTGATTTAAATGAGCTAATTGGAAATAAACCGTTAGCTTGGTTTATAAATCAAACTGTTGAGCCAATAAAGAAACAAGAAGGGGTTGGAATTATAGTGAATAAATATAACAAAGTAGTTACTTATGAATTTGGTGTAAATTTAATTCCTGACATGATTCAAATGATGGATAAGCTTGGATATACTTCTAAAATAATATCTCCCGGAAATAACCAAGGACTTGTGTATTTCGAGACAGATTATCGTCAAGGGAACGAACTGGACAAAGTAACGGCTTGGTTAGATACGAAAGGAATTAAATTTTTTTATACAAAAGAGTAG	MGYIVDISKWNGNINWDIAAPQLDFVIARVQDGSTYVDPLYNNYVQAMKVRNIPFGNYAFCRFVSVEDARIEARDFWNRGEKNATVWVADVEVKTMNDMRAGAQAFIDELRRLGAKKVGLYIAHHMYAPFGMANVNSDFVWIPRYGGNKPAYPCDIWQYTETGNVAGIGKCDLNELIGNKPLAWFINQTVEPIKKQEGVGIIVNKYNKVVTYEFGVNLIPDMIQMMDKLGYTSKIISPGNNQGLVYFETDYRQGNELDKVTAWLDTKGIKFFYTKE	PGPT0019115_1034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_01392	735			hypothetical protein	ATGGCTAGATATAGTTTGCACGGAGGACATAATAGTATTGTTCAAGGTGCTAATTTCGGGAATCGGAAAGAACACGTTCTGGATAGGCAAGTTAAAGATGCCGTGGCGGCTAAGTTAAGAGCCTTAGGACACACGGTTTATGACGATACGGACGAGGTAGGAACAACTCAATCACAAAATTTAAATAATATCATTCGTAAAAGCAATTCCCATGCTGTGGATTTAGTTATTTCTTTTCATCTTAATGCAAGCGATGGAAATGGACAGGGTGTTGAGGTTCTGTATTATGATCAGAAAGACTTGGCGGCTAAAATCTCAGCTCAACTAGCAAAAGATATTGGATGGCGTGATCGAGGTGCAAAACAGCGTACAGATTTAGCGGTATTAAATGGGACGAAAGCACCTGCTATTCTTATAGAATTAGGATTTATTGATAATGAATCTGACATGGCAAAATGGAATGTTGATAAAATCGCTAATTCTATTGTGTTTGCTCTTACAGGACAAACTGGAGGAGGTACAGTGGATTTGCTCAAAGTAAAAACTGGCGGTGTAGCATTTAGTAATTTACAAGCTTTGGCTCAAGCGATGGTTGATGCGGGTATTGATGGACAAATTGTCGTTCAGAAAGATGGCATTGGTTATGCTATAACGAATGGCTATCCAGCTGGAAATATCGATAAATTTACAGCTTGGTTAGATGCGCGTAAGTGGTACTATGAGTATGTGAGATAA	MARYSLHGGHNSIVQGANFGNRKEHVLDRQVKDAVAAKLRALGHTVYDDTDEVGTTQSQNLNNIIRKSNSHAVDLVISFHLNASDGNGQGVEVLYYDQKDLAAKISAQLAKDIGWRDRGAKQRTDLAVLNGTKAPAILIELGFIDNESDMAKWNVDKIANSIVFALTGQTGGGTVDLLKVKTGGVAFSNLQALAQAMVDAGIDGQIVVQKDGIGYAITNGYPAGNIDKFTAWLDARKWYYEYVR	PGPT0024160_6612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_01393	450			hypothetical protein	ATGAAAAGGCTATGTATAATTCCTTGTGGAAAAAAGAAAATTTGGGATAAGCATTCAAACTACGGACCGATGGAAGCAAAAGATGTATATATTAGTCCGTTCGGAAAAGCATGTCAGGCATACGCAACTATGTTTTTCGAAAACTGGGTTATATTATCAGCGAAACATGGATTTTTAAGACCAAATGATATTGTATTAGAAAACTATGATCTTGCATTTGATTCAAAAAGCGATGAGGTAATAAGTATAGAGCAATTACAAAAACAGTTGGTAGATAAAAGTTTATTACAGTTTGACGAAATCGTCTTACTAGCAGGAAAAAAGCATAAAAAAGTAGTGACAAAGTTATATCCAGAAGAAATGATTACATATCCGCTAGAGGGGTGTAAAGGGATTGGGTATATGTTGCAGAGGTTGAAAGAAGCTGTGAAGGAAGGGGAGGAAATATAG	MKRLCIIPCGKKKIWDKHSNYGPMEAKDVYISPFGKACQAYATMFFENWVILSAKHGFLRPNDIVLENYDLAFDSKSDEVISIEQLQKQLVDKSLLQFDEIVLLAGKKHKKVVTKLYPEEMITYPLEGCKGIGYMLQRLKEAVKEGEEI				NA	NA	NA	NA	NA
AK009_01394	186			hypothetical protein	TTGTTTCAAATTTATGGAGAGAATCAGGAACAAGCGATTGCTTTCTTTAAAGAGGGAGCGAGTTCAGATTGGAATTTACCTATACAGGAAATATATATAAATACAGGTGTTGCGTTTGACTTTTCGGAAGAAAGGATACAAAGTACTGCAAGGGCTATTTTAGATTTGATTAACGAATTAAAATAA	MFQIYGENQEQAIAFFKEGASSDWNLPIQEIYINTGVAFDFSEERIQSTARAILDLINELK				NA	NA	NA	NA	NA
AK009_01395	894			hypothetical protein	TTGGCTACTTGTCCTTTTTTATCTCTAAAAAACAGAAAATTAAATGCAGGATTTAATAATTATAGTGAGTATGCCTTTAAACAAAAAAATAGAGATTACAGTATTGAAGATTGTTTTAAGTTTCATGAGTCGATAGAAAAGTGTGTTGTACCAATTTGGAAACAGTTAGGAAGTTTTCTTAAAAAGAATCTTGATGTAAAAACGTATCGTCCCTGGGATCTTGCTCCTTGTAATTTGCAAAAATATCCATTTGAAAATTACATTAATTTATTGGATGGAATTGAAGAAATGTTGCGGAAGACAGATTCATGTTTTTATGAGGAATTTACTCATATAAGGAAAGCGGGATTAATTGACGTACAAGAACGGAAAAATAAAGCACCAGGAGCTGCTTGCTTTACCTTATCTCATAGTAAAGACGTTTTTGTTTATTCTAATTTTAGTTCTTCATTTTATGCGATTCATGCATTAATACATGAATTGGGGCATGCATTTCACTTTTATAAACAATTTAACAATGAAAGTAGTATGCAGGAAAGATACCTTCGTGAAGAGGTGGCGGAACTTTATTCCCTTAGTCTTGAATTACTATTAATGGATAAGCTTAATATTTTTTATACGCAAGAGGATGATTATAAAGAAGTACAGCAAGCTCAATTATATCGTACTTTATCGTTATTAATATCGTCAGTTTCAGGAGATGTATTCCAGCACTGGCTTTATACAAATCCAAACCATTCACCAGAAGAGCGAGATGAGAAATATATTGAACTATGTAAAAGGTATCAATATTCATCAGTTGATATTGCAGGAGTAGAGAATGAAATTGGTTCGAGTCATTTCACTTTGTTCAGTTTCCTTTTTATAAAATTGAATATGCAATTGCGCAAATAG	MATCPFLSLKNRKLNAGFNNYSEYAFKQKNRDYSIEDCFKFHESIEKCVVPIWKQLGSFLKKNLDVKTYRPWDLAPCNLQKYPFENYINLLDGIEEMLRKTDSCFYEEFTHIRKAGLIDVQERKNKAPGAACFTLSHSKDVFVYSNFSSSFYAIHALIHELGHAFHFYKQFNNESSMQERYLREEVAELYSLSLELLLMDKLNIFYTQEDDYKEVQQAQLYRTLSLLISSVSGDVFQHWLYTNPNHSPEERDEKYIELCKRYQYSSVDIAGVENEIGSSHFTLFSFLFIKLNMQLRK	PGPT0020965_2652	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
AK009_01396	930	ppaC	COG1227	Manganese-dependent inorganic pyrophosphatase	ATGGAAAAAGTACTAGTTTTCGGGCATAAAAACCCAGATACAGATGCAATTTGTTCTGCAATTGCTTATGCAGAATTGAAAAAAGAATTAGGAATGAATGCTGAGCCTGTACGTTTAGGCGAAATCAGCGGTGAAACTCAATTTGCGTTAGACTATTTTAAAGTAGAAGGACCGCGTTTTGTTGAGACAGTAGCAAGCGAAGTGGACAACGTTATTTTAGTTGACCATAACGAGCGTCAACAAAGTGCTAACGATATCGAATCAGTTCGTGTGTTAGAAGTTATTGACCATCACCGTATTGCTAACTTTGAAACAAGCGATCCTATATACTATCGTTGTGAGCCAGTTGGATGTACAGCTACAATCTTAAACAAAATGTACAAAGAAAATGGCGTTACAATTCGTAAAGAAGTTGCAGGTTTAATGTTATCTGCAATTATTTCAGATTCTTTACTATTCAAATCTCCAACTTGCACAGAACAAGACGTAGCAGCTGCTCGTGAATTAGCGGAAATCGCTGGTGTAGATGCTGATAGCTACGGCTTAGAAATGTTAAAAGCTGGTGCTGACTTAAGCGGAAAAACAATGGAGCAATTAATCTCTCTTGACGCTAAAGAATTCCAAATGGGTAATGCGAAAGTTGAAATCGCACAAGTAAACGCTGTTGATACAAACGACGTTCTTGTACACCAAGCGGAACTTGAAAAAGTAATTTCTGCAGTAGTAGAAGAAAAAGGTTTAGACCTATTCTTATTCGTTGTAACTGATATCTTAACTAACGATTCTGTCGGTCTTGCGATCGGTAAAGCAGCAAACGTTGTTGAGAAAGCATACAACGTATCACTAGAAAACAACACAGCTACATTAAAAGGTGTTGTATCTCGTAAAAAACAAATCGTACCAGTATTAACAGAAGCATTCCAAGCTTAA	MEKVLVFGHKNPDTDAICSAIAYAELKKELGMNAEPVRLGEISGETQFALDYFKVEGPRFVETVASEVDNVILVDHNERQQSANDIESVRVLEVIDHHRIANFETSDPIYYRCEPVGCTATILNKMYKENGVTIRKEVAGLMLSAIISDSLLFKSPTCTEQDVAAARELAEIAGVDADSYGLEMLKAGADLSGKTMEQLISLDAKEFQMGNAKVEIAQVNAVDTNDVLVHQAELEKVISAVVEEKGLDLFLFVVTDILTNDSVGLAIGKAANVVEKAYNVSLENNTATLKGVVSRKKQIVPVLTEAFQA				NA	NA	NA	NA	NA
AK009_01397	666	gbpA_2	COG3397	GlcNAc-binding protein A	ATGAAAAAGAATAGTTTACAAAAGATGAAGAAAGTTATTTTAAGTGGTGGCGTATTACTTACGGGATTATTAACATTTGGATTTTCAGAAAAGGCTTCAGCTCATGGTTATGTAGAATCACCAGCGAGCCGATCTTATTTATGTAAGCAAGGGGTAAATGTAAATTGTGGACCGATTCAATATGAACCACAAAGTGTAGAAGGGATAGGGGGATTTCCGCAACTAGGACCTTCTGATGGACAAATTGCAGGGGCTGGTCATTTTCCTGCTTTAGATGTTCAAACTGTGGATAGGTGGAAGAAAGTTACGTTAAATGGCGGGACGAATACATTCAAGTGGAAACTAACTGCTCCTCATAGTACAAAAGAGTGGAAATATTATATTACGAAAAAAGGCTGGAATCCAAATAAACCTTTAACGCGATCAGATTTAGATTTAGTGCCATTCTATGTGAAAAATGACGGTGGGGCTAGACCAGGGACAACAGTAACGCATGAAGCAAATGTACCAACTGATCGTAGTGGATACCATCTTATTTTAGCTGTTTGGGAAATTGCAGACACTGGAAATGCGTTTTATCAAGTTATAGATGTAAACCTTGTGAATAATGGCTTAGCTTCAAATTTCGCTTTTAACAACGTAGTGCAAGCTCCTACACTATTTTAA	MKKNSLQKMKKVILSGGVLLTGLLTFGFSEKASAHGYVESPASRSYLCKQGVNVNCGPIQYEPQSVEGIGGFPQLGPSDGQIAGAGHFPALDVQTVDRWKKVTLNGGTNTFKWKLTAPHSTKEWKYYITKKGWNPNKPLTRSDLDLVPFYVKNDGGARPGTTVTHEANVPTDRSGYHLILAVWEIADTGNAFYQVIDVNLVNNGLASNFAFNNVVQAPTLF				NA	NA	NA	NA	NA
AK009_01398	504	ttr		Acetyltransferase	ATGCGAAATTTAGTAATTGAAGAAATTAAGCAACTAGAAAATGATATGGAAGAACTTTCGAAACTTTTGAAAACGGTTGTAAATGATGGGGCATCAATTGGTTTTTTGCCTCCACTGGAACAAAAAGACGCAACAAAGTATTGGCAAACAGTCATAGCGCCAGAAGTGATATTGTATGTAGCTAAAATAAACAACGAAGTAGCAGGGAGTATTCAATTACAATTAGTTACAAAGCCTAACGGAATTCATAGAGCCGAGATTTGCAAATTAATGACTCATCCAAACTTTAGACGTAACGGTATTGGACGATTGCTTATGCAAAAAGCAGAGGAACGAGCGAAGCAAGAAAACAGGTCTCTTTTAGTATTAGATACTAGAGAAGGAGATCCATCCAATAAATTGTACAAATCATTAGACTACCAAGAAGTTGGAACAATACCAGGATATGCAATTTCTCCGAATGGAAAGTTAGATGCTACGGTTCTTTATTATAAATGCATATAA	MRNLVIEEIKQLENDMEELSKLLKTVVNDGASIGFLPPLEQKDATKYWQTVIAPEVILYVAKINNEVAGSIQLQLVTKPNGIHRAEICKLMTHPNFRRNGIGRLLMQKAEERAKQENRSLLVLDTREGDPSNKLYKSLDYQEVGTIPGYAISPNGKLDATVLYYKCI	PGPT0012925_137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TABTOXININE-BETA-LACTAM_RESISTANCE,PGPT0012925-ttr-K19113	NA	NA
AK009_01399	642			hypothetical protein	ATGAAATATATATTAGATAGAACGTACGCAAAAGAACTACTCGAATGGGCATATGAACAAAACCCGGGCCCTTGGTTTGAACATTCACTACATGTTGCTCATGCAACTGAAAACATAATTATAGAACTTATAAAAAAAGGGTATGACCTAGATGCTGACATAGCATATAACGCTGCCCTTTTGCATGATATCGGAAGATACAAAGGTTTTACCAAATCGGTCATTCATTCCTATGATGGTTATATGTATATGAATGATTTAGGATATGCAGGAAACGCCATTATTTGTGTGACACACTCATTTCCCTGTAAAAATGAACATATAGATATCGCAGCGGAATGGCATCTCGTTCCTGACCATATGAAAAGCCGGTTGGTTGCAATATTGAATGAACATAGTAACTACGACTTATACAATAAAGTAATTTCTCTTTGTGACGCTCTTGCTGACGCGGATGGCTTTACTACGCTGGAAAGAAGATTAATTTCCGTTGGTTTGCGTCATGGTACAACATCTCATACATCTTTACATTGGAAAGGGTTTTATGCAATTAAGAAAGAATTAGAAGCTTTAATCGGTAAGAGTATATACACAGTTCTTCCTGATGTAGAGAATTCGATTTATGAAGATATAGAATACTAA	MKYILDRTYAKELLEWAYEQNPGPWFEHSLHVAHATENIIIELIKKGYDLDADIAYNAALLHDIGRYKGFTKSVIHSYDGYMYMNDLGYAGNAIICVTHSFPCKNEHIDIAAEWHLVPDHMKSRLVAILNEHSNYDLYNKVISLCDALADADGFTTLERRLISVGLRHGTTSHTSLHWKGFYAIKKELEALIGKSIYTVLPDVENSIYEDIEY				NA	NA	NA	NA	NA
AK009_01400	366			hypothetical protein	ATGGAACATGAGCAACATAGTTCGATAAATGATATTCTACATCATTATAAAGAAGGTATAGGTAGTTTTACAAATCAAATTCCTGAAATCGCTGAGACATATAATGCGTTTACGCAAGCTTGTTTTCAAGAGGGTGCTTTAACAAAAAGAGAAAAACAACTTATTGCATTAGGAATTAGTTTAGCAACGCAAGATGAGTATTGTACAATTTATCATACAAAAGGTTGTCTTGATCAAGGATGTTCGGATAAAGAGATTCTGGAAGCATGTGGTGTTTCAGCAGCATTTGCTGGCGGAGCTGCGATGAGTCAAGCGGTAACTTTAGTGCAAGAGTGTTTAACAGAACTGAAAAATCAAAAGCATTGA	MEHEQHSSINDILHHYKEGIGSFTNQIPEIAETYNAFTQACFQEGALTKREKQLIALGISLATQDEYCTIYHTKGCLDQGCSDKEILEACGVSAAFAGGAAMSQAVTLVQECLTELKNQKH				NA	NA	NA	NA	NA
AK009_01401	1491	acp_1		Sodium/proton-dependent alanine carrier protein	ATGGAGAATTTAGTAGAATGGTTAGTAGGGCAAGTGTGGAGTATCGGTTTAGTTGTTTTTGCATTAGGGGCAGGCGTATATTTCACGATTGCAACACGCTTTTTGCAAATTCGTTATTTTAAAGAGATGATTAAACTATTATTTGAAGGAAAGAGTTCAGAGACGGGAATATCATCTTTTCAGGCATTTTGTTTAGCCTTATCAGGAAGAGTTGGAATTGGTAATATCGCAGGGGTAGCGACAGCAATCGCTTTCGGCGGGCCTGGAGCTGTATTTTGGATGTGGGTAATGGCTTTGTTAGGGGCAGCGAGCGCGTTTGTTGAATCAACATTATCTCAAGTATACAAAAGTAAAGTAGGGAATGAATATCGCGGCGGTACTCCATATTTCATTGAGAAAGGTTTAAAAATGAAATGGTTTGCAGTCATTGTAGCGGTAGTTGTAACACTTTCATATGGCGTGTTATTACCAGGTATTCAATCTAGTAGTATCGCAGTTGGATTTGAAAACTCTAATGGTATTAACAAATATATAACTGGTATATTTTTAGTCGTGTTACTAGCAGCAATTATTTTTGGTGGTGTAAAGAGAATTGCTGGCGTTTCTCAAATGCTTGTTCCATTTATGGCAATTGGTTATGTAATTGTTACATGTATCATATTAATTGCGAATGTAACGGAGATTCCAAGTATGTTTGCTTTAATTTTCTCTAGCGCATTTGGTGTAAATGAAATGTTTGGTGGAATTGTTGGTGCAGCTATTGCATGGGGCGTAAAACGCGCTGTATTTTCAAACGTTGCTGGTGTCGGAGAAGCGACGTATAGTTCGGCTGCTGCTGAAGTATCGCATCCTGCAAAACAAGGATTAGTTCAAGCGTTTTCCGTATATATCGATACAATTGTCGTATGTACAGCGACAGCTCTTATGATATTAATTACAGGTATGTATAATGTTATACCTGAAGGGAAACGCGCTATTGTAAAAAACATAGGAAATGTGGAAGCAGGTCCAATTTATACGCAACAAGCAGTTGAAACTGTGATGACAGGGTTTGGTCCAATATTTATTTCAATTGCAATTTTCTTTTTTGCATTTACAACGTTACTCGCTTATTACTATATCGCTGAAACGACGCTTACTTATTTAGATCGTCAATTGAAGTATGGCTGGTTAAAACCAGTTTTAAAATTTGGATTTTTAATTATGGTTTACATCGGTAGTGTTGAATCAGCGTCGCTTTTATGGAATCTCGGAGATTTAGGAATCGGTAGTATGGCATGGTTAAACTTAATCGCGATTCTATTATTAAGTAAAATTGCATTAAAAGTGTTAAAAGACTATGAAACGCAGAAAAAAGAAGGGAAAGATCCAGTATTTAATCCTAAAAATGTGGGGATTGAAGGATTAACATTTTGGGAAGAAAGAAGTAAAGAGGTTGAAAGAAAAAGTTCTAGAGAAAAAGTTATTGTAGATGATAATTTAAAATTATAA	MENLVEWLVGQVWSIGLVVFALGAGVYFTIATRFLQIRYFKEMIKLLFEGKSSETGISSFQAFCLALSGRVGIGNIAGVATAIAFGGPGAVFWMWVMALLGAASAFVESTLSQVYKSKVGNEYRGGTPYFIEKGLKMKWFAVIVAVVVTLSYGVLLPGIQSSSIAVGFENSNGINKYITGIFLVVLLAAIIFGGVKRIAGVSQMLVPFMAIGYVIVTCIILIANVTEIPSMFALIFSSAFGVNEMFGGIVGAAIAWGVKRAVFSNVAGVGEATYSSAAAEVSHPAKQGLVQAFSVYIDTIVVCTATALMILITGMYNVIPEGKRAIVKNIGNVEAGPIYTQQAVETVMTGFGPIFISIAIFFFAFTTLLAYYYIAETTLTYLDRQLKYGWLKPVLKFGFLIMVYIGSVESASLLWNLGDLGIGSMAWLNLIAILLLSKIALKVLKDYETQKKEGKDPVFNPKNVGIEGLTFWEERSKEVERKSSREKVIVDDNLKL	PGPT0014405_1110	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
AK009_01402	1485	styD_1		Phenylacetaldehyde dehydrogenase	ATGTTAAAGACAAATATTGAGCTGAAACCAAAAGTGGAAGCGTTTTTAAATGAAGAAATTAAAATGTTTATTAATGGCGAATTTGTTTCTGCTATTGGCGGAAAGACGTTTGAAACGTACAATCCAGCAACAGAAGATGTTTTAGCAGTCGTATGTGAAGCGCAAGAAGAGGATATTGATGCTGCAGTAAAAGCAGCAAGATCTGCATTTAAATCTGGTCCGTGGGCAGAAATGACTACTGCTGAAAGAGCGCATCTTATTTATAAATTAGCAGATTTAATTGAAGAACATAGAGAAGAGTTAGCGCAATTAGAAGCTTTAGATAATGGGAAGCCGTATCAAGTAGCACTTGAGGATGATATTTCAGCGACTGTAGAAAATTATCGTTATTACGCAGGATGGGCTACAAAAATTATTGGGCAAACAATCCCGATTTCAAAAGATTACTTAAACTATACGAGACATGAACCTGTAGGTGTTGTAGGTCAGATTATTCCGTGGAACTTTCCGCTCGTTATGTCTTCTTGGAAAATGGGAGCTGCACTGGCGACAGGTTGTACGATCGTATTAAAACCAGCAGAGCAAACACCTTTATCCTTACTATATACAGCAAAACTCTTTAAAGAGGCTGGATTTCCAAACGGTGTTGTAAACTTTGTACCAGGCTTTGGTCCTGAAGCAGGAGCGGCAATTGTAAATCATCATGACATTGATAAAGTTGCTTTTACAGGATCTACTGTTACAGGAAAGTATATTATGCGTCAGTCTGCAGAAATGATTAAGCATGTAACGTTAGAGCTTGGCGGCAAATCACCAAATATCATTTTAGAAGATGCGGACTTGGAAGAAGCAATTAGTGGTGCATTCCAAGGTATTATGTATAATCACGGTCAAAATTGTAGCGCAGGATCACGTGTATTTGTTCATCGTAAACATTATGAAACTGTAGTAGATGCACTTGTGAAAATGGCGAACAACGTAAAACTTGGAGCAGGTATGGAGAAAGGAACGGAGATGGGTCCACTCGTATCTAAGAAACAACAAGAGCGTGTGTTAAATTACATTGAGCAAGGGAAGAAAGAAGGTGCTACAGTTGCGGCTGGTGGTGAACGTGCGCTTGAAAAAGGTTATTTCGTTAAGCCAACTGTATTCACAGACGTTACAGACGATATGACAATCGTTAAGGAAGAAATATTTGGACCAGTTGTTGTTGTACTTCCATTTGATTCGACAGAAGAAGTAATTGAACGAGCGAACAACTCATCTTATGGCCTTGCTGCGGGTGTATGGACGCAAAATATCAAAACGGGTCATCAAGTGGCAAATAAATTAAAAGCAGGAACAGTGTGGATTAATGATTATAACTTAGAAAATGCAGCTGCACCATTTGGTGGATACAAACAATCTGGTATTGGCCGCGAATTAGGTTCATATGCGCTTGATAATTATACAGAAGTGAAAAGTGTTTGGGTAAATATAAAGTAA	MLKTNIELKPKVEAFLNEEIKMFINGEFVSAIGGKTFETYNPATEDVLAVVCEAQEEDIDAAVKAARSAFKSGPWAEMTTAERAHLIYKLADLIEEHREELAQLEALDNGKPYQVALEDDISATVENYRYYAGWATKIIGQTIPISKDYLNYTRHEPVGVVGQIIPWNFPLVMSSWKMGAALATGCTIVLKPAEQTPLSLLYTAKLFKEAGFPNGVVNFVPGFGPEAGAAIVNHHDIDKVAFTGSTVTGKYIMRQSAEMIKHVTLELGGKSPNIILEDADLEEAISGAFQGIMYNHGQNCSAGSRVFVHRKHYETVVDALVKMANNVKLGAGMEKGTEMGPLVSKKQQERVLNYIEQGKKEGATVAAGGERALEKGYFVKPTVFTDVTDDMTIVKEEIFGPVVVVLPFDSTEEVIERANNSSYGLAAGVWTQNIKTGHQVANKLKAGTVWINDYNLENAAAPFGGYKQSGIGRELGSYALDNYTEVKSVWVNIK	PGPT0006875_4301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK009_01403	897	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGCAAAAAATTAAAGGGGCATTTCCAGTATTAATAACACCGATGGATGAATTTCAGGAAATTAATTGGGATGGGGTAAAACAAAATGTAAATTACTTTATCGAACAAAAGGTTGCAGGCATCATCATTAATGGAAGTACAGGAGAGTTTGTAAGTTTATCAAAAGAAGAGCGATTTAAAATGGTAGAAACCGTTTTGAAAGAAATTGATGGCCGTATTCCAGTCATTGTTGGAACTGCTGCGGAAACGACGAAAGAAACAATTGAATATACGAAACATGCAGAAGCGCACGGAGCGGATTGTGCATTAATTATAAACTCTTACTATTGTAAACCGAAGGAAGAGGAGATCTATTTTCATTTTAAAGAAATCTCAAACTCTGTAAATATACCAATTATGTTATACAATAATCCATTTACTTCTGGTGTTGATATGAGTACAGAGCTAATGCTCCGTATTGGAAAAGAGTGTGAAAATGTTACACATATTAAAGAATCTAGCGGAGATATTCGAAAAGCAAGAGATTTAGTAAGACAAAGTGAAGGGGCTTTCCAAGTCTTCTGTGGTTCTGAAGATTTAGTTATGGAATCATATTTAGTTGGTGCCTCGGGATGGGTTTCAGTAGCAGGAAATATCGTTCCTGGTCTCGTTACAAAAATGTATGAGCATTTTCAAAATGGTGAATTAGAAAAAGCATGGGAAATAAACGATGCTATTTTACCACTTTGCGAGTTTCTTGAAGGGTCAGGGAAATATGTTCAAATCGTTAAACGTTCCATGGAATTACATGGGCAAGCGGGAGGACCTTCTCGCTATCCAAGACTAGGATTAACTGTTAACGAAGATCAAAAGCTTCAAACGATTTTATCAAATATTGCAGCTCATGCAGGTGTTTAA	MQKIKGAFPVLITPMDEFQEINWDGVKQNVNYFIEQKVAGIIINGSTGEFVSLSKEERFKMVETVLKEIDGRIPVIVGTAAETTKETIEYTKHAEAHGADCALIINSYYCKPKEEEIYFHFKEISNSVNIPIMLYNNPFTSGVDMSTELMLRIGKECENVTHIKESSGDIRKARDLVRQSEGAFQVFCGSEDLVMESYLVGASGWVSVAGNIVPGLVTKMYEHFQNGELEKAWEINDAILPLCEFLEGSGKYVQIVKRSMELHGQAGGPSRYPRLGLTVNEDQKLQTILSNIAAHAGV	PGPT0002080_4403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK009_01404	942			Trans-3-hydroxy-L-proline dehydratase	ATGAACATTCAAAAAATGTATACAGCAGTAGACGTACATGTAAATGGCGAGGCATTTCGTGTAATGAAAGACGTACCATGCAAATACTACTACAGTTTGGAGCAATTAAATGAACAATTTTCAGGTGAATTAGCAGAAGAGAGGAAGCTTTTATTAAATGAACCACGTGGTTTTATCGGTTTGAATGGGTGTATTGTCGTTCCATCTATCCATAATGAAGTGGATGCAGCTGTATTATTTTTTAATCATGAAGGTTCGATTCCGCTTCATTATGGGGGCATTGTTGCGGTAATAACGATGTTACTCGAAAGTGGGTATTTAAAAAAGAGAGAGTCCAATCAATACAAAATTGAAACGTTATCTGGAATATTTTTAGTTCATGCGTATGTAGAGAATGATGAAGTTGTATCTGTTTCGTTTGAAAGCAAACTTTGCTATTTGATTGAGGAAAATTTACAGGTTGGTAATGTAAGTTATTCTCTCATACAAGCAGATAAAGTATATGCAGTTGTAGAAAAAGGTGCGTATTCGCCAGAAATTCGTGTTGAAAACATTCCAGAATTGAAAAGATGGGGAGAAGCTACACTGCAGGTTATACAAAAACAGTCGCTAATAAAAAGGCTTATTTTAGTAGATCCTTCGCAAAAAGAAAAGAACCATATAAAGTCGATTACATTTCATGAAGATAACTTTATCGTACGTTCGCCAGGTTTTGTTTCTACTATCGTTTCCTATGTTCATGCGTTATTTAAAAATGATTATATGGCGGATAAACCTTTTAAAAATGAAAGTATATTTAATAGTTTTATAACTGTGGAAAAAGTGAAGAAGGAGGAGCTAGGATACATTTTCCGTTTTGAAAGTAGAGGATTTATTACAGGAATGCAGACGTTTCTATTAGACCCTACGGATCCATTTCCGGCAGGGTTCTTATTAAAATAA	MNIQKMYTAVDVHVNGEAFRVMKDVPCKYYYSLEQLNEQFSGELAEERKLLLNEPRGFIGLNGCIVVPSIHNEVDAAVLFFNHEGSIPLHYGGIVAVITMLLESGYLKKRESNQYKIETLSGIFLVHAYVENDEVVSVSFESKLCYLIEENLQVGNVSYSLIQADKVYAVVEKGAYSPEIRVENIPELKRWGEATLQVIQKQSLIKRLILVDPSQKEKNHIKSITFHEDNFIVRSPGFVSTIVSYVHALFKNDYMADKPFKNESIFNSFITVEKVKKEELGYIFRFESRGFITGMQTFLLDPTDPFPAGFLLK	PGPT0014240_679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
AK009_01405	1038		COG3938	putative protein/GBAA_2834/BAS2643	ATGAGGTCACAAAGAGTCTTTACGACTATTGATACACATACGGGCGGGAATCCAACGAGGACATTAATTAGCGGACTTCCAAAGTTGATTGGAGAGACGATGGCAGAGAAGATGTTACATATGAAAAAGGAATATGATTGGATTCGAAAATTGTTAATGAATGAACCGCGTGGTCATGATGTAATGTCAGGGGCATTATTAACAAACCCGTGTCATCCTGAGGCTGATATAGGTGTTATATACATAGAGACAGGTGGATACTTACCGATGTGCGGTCACGATACAATCGGTGTATGTACAGCGTTAGTTGAATCAGGTTTAATTCCAGTAGTTGAACCGATTACTTCTTTAAAACTAGATACCCCGGCTGGCTTAGTGGAAGTAGATATTGCTGTTCAAGATGGAAAAGCAAAAGAGGTATCTTTCTGTAACATACCAGCTTTTTTATTGAAAAATATTACTGTACACGTCAAAGACATTGGAACTGTAGAGGCTGATATTGCGTATGGAGGGAATTTTTATGCCATTATTGATGCGAATTCAGTAGGCCTAGAATTAGTACCAGAAAATGCATCTACAATCATCGATAAGGCGATTCATATAAGAAACACAATTAATGAGAAGTTTGAAATCATTCATCCAGAGTATTCGTTTATTAGAGGATTAACACATGTTGAATTTTATACAGATGCTACTCATGAATGTGCGAATGTGAAAAATACAGTTGTTGTACCACCAGGCGGAATAGATCGATCCCCATGCGGTACAGGAACATCTGCGAAGCTAGCTGTATTATACGCTCAAAAAGAAATCAAAATTGGTGAAGAGTTCATTCATGAGAGTATCGTTGGTTCTTTATTTAAAGGATATGTCGTGAATACGACACATGTTGAAAATATTGAAGCTGTCATAACGAAAATTACGGGATCAGCTTGGCTTATGGGTATGCATAAATTTTTTTACAATGAAATGGATCCACTCAAAGAAGGATTTTTGCTAATTCCGCCGATGGAACATGAAACGGAGGATATAAAATGA	MRSQRVFTTIDTHTGGNPTRTLISGLPKLIGETMAEKMLHMKKEYDWIRKLLMNEPRGHDVMSGALLTNPCHPEADIGVIYIETGGYLPMCGHDTIGVCTALVESGLIPVVEPITSLKLDTPAGLVEVDIAVQDGKAKEVSFCNIPAFLLKNITVHVKDIGTVEADIAYGGNFYAIIDANSVGLELVPENASTIIDKAIHIRNTINEKFEIIHPEYSFIRGLTHVEFYTDATHECANVKNTVVVPPGGIDRSPCGTGTSAKLAVLYAQKEIKIGEEFIHESIVGSLFKGYVVNTTHVENIEAVITKITGSAWLMGMHKFFYNEMDPLKEGFLLIPPMEHETEDIK	PGPT0014240_157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
AK009_01406	1176	hcnC	COG0665	Hydrogen cyanide synthase subunit HcnC	GTGAGGCACTGCGACGTTTTAATTATAGGTGGTGGAATAATAGGGTGTTCTATCGCTTATTACACTTCAAAATACGGAAGAGACGTAACAATCATTGAAAAAGGAGAATTTGTCAGCGGGACGTCTTCACGGTGTGATGGGAATATTTTGGCCATTGATAAAGACCCAGGGTTTGATAGTCAAATGTCTTTAGTAAGTCAAAAATTAGTAACTGATTTAAGTGAAAAATTAGAGCATTCATTTGAATATAGGGCACCAGGAAGTATTCTCGTATGTGAGTCAGACGAAGAGATGGAAGCTGCGCAGCAATGGGTAGATCGGCAAAAAGAAGCTGGATTACCGTTTCGAATGCTTGATAGGCAAGATATAAGAGAAGAGTCGCCTTTTTTTGCTGATGATTTATTAGGCGGTTTAGAATGTGCGACGGATTCAACTGTGAATCCATATCTCCTTGCTTTCTCGCTTCTGTCAGAGGCACAAAAGTTTGGCGCAAAAGCCTTTAAGCAGACCGAAGTAAAGAGTATGAAAATAGAGACGAATGGTTCATTTGTTGTAGAAACTACGAATGGTACTTTTACAGCAAAACAAGTTGTAAATGCAGCCGGTGTGTGGGCTCCTAAGATTGGTCAGATGTTAAATGTAAATATACCAATTGAACCGAGAAAAGGGCATATTATAGTAGCATCAAGGCAACAACATGTAGGATGCCGTAAAGTAATGGAATTCGGTTATTTAATTTCTAAATTTGGCGGAAAAAGAAAAGTAGATGCTTTAACTGAAAAATACGGGGTTGCGCTCGTATTTGAGCCTACTGAAAGTCAAAATTTCTTAATTGGAAGTAGTCGTGAATTTGTAGGGTTTCATACGAGAATAAACAATGAAGTCATTAAATGTATCGCAAATAGAGCGATTCGCTTTTATCCGAAAATGGCAGATATGATGGTAATTCGTTCTTACGCTGGTTTACGTCCGTGGACAGAAGATCATTTGCCGATTATTTCACGAGTGGAACATATTCCGAATTATTTCATTGCCGCTGGACATGAAGGGGATGGGATTAGTCTTGCAGCAGTTACTGGGAAAGTAATTGAAGAGTTATTAAATGAAAAAGAGACAATTATTCCTATTGAACCACTTCGTTTGAGTCGTTTTACAGAAAGGGTGTTAAACGGATGA	MRHCDVLIIGGGIIGCSIAYYTSKYGRDVTIIEKGEFVSGTSSRCDGNILAIDKDPGFDSQMSLVSQKLVTDLSEKLEHSFEYRAPGSILVCESDEEMEAAQQWVDRQKEAGLPFRMLDRQDIREESPFFADDLLGGLECATDSTVNPYLLAFSLLSEAQKFGAKAFKQTEVKSMKIETNGSFVVETTNGTFTAKQVVNAAGVWAPKIGQMLNVNIPIEPRKGHIIVASRQQHVGCRKVMEFGYLISKFGGKRKVDALTEKYGVALVFEPTESQNFLIGSSREFVGFHTRINNEVIKCIANRAIRFYPKMADMMVIRSYAGLRPWTEDHLPIISRVEHIPNYFIAAGHEGDGISLAAVTGKVIEELLNEKETIIPIEPLRLSRFTERVLNG				NA	NA	NA	NA	NA
AK009_01407	1662	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	ATGGCATTTTCATTTCCGACTATACAAGAGTTTTTGGAAAGTATTTTAATCGATCATACATGTAGCCTTAATCACATTAAGCAAGTAAACGGAAGGTTTTATTATCTCCCTTCTACTACAGAAGAATATAATTGCGCCATTATTTATGTAGATGACTCATTCACTGCATTAATTGACGCTTTTTCTTATGAATTAGCTGTTATCATCCTTAACGAAAACGATGAGCCGATATTCTGTATAACCTCTCAGCAAATGATTCCATTTCTTTATAAGTCCTACAATGAACTACAGTCATTTTATAACACCGTAATACAAACAACTGACTCTTCTGTTACAGTCATTGATAGTAAAGAATGCGTTCGAACTTGGACAGATGGTGCTGAAAAAATATTTTCAGTCAACCATAATGAGATTATTGGGCAACCGATTACTCGTTTTTTTGATTATAAAGACTTGGAAATTTTACAATCTTTACATGATGGAAAAAATATAGTCGCTCAGTTCCATCAGCCTCGTCCCGATTTATTCGTATTAATTAATTCAAATCCAGTTTATTGTAATGATGAAATTATAGGAGCAGTCGTTTCAGAAACAGATGTTACAAATCAAGTCGCTTTAAATGAAAAACTATTTAATATGTCACATGAAATGCACCGTTTAGAACAAGAAGTGGCAAAGTATAAAGATGAATCCGATCCATTCCTTGCGATGAATGGGAAAAGTCCTGTTATACAAAGAACGATACAATTAGCTAGAAAAGTTTGTTCGGTGAAATCAACTGTTTTAATACTTGGGGAAAGCGGAGTTGGAAAAGAAGTATTTGCGAAAGCAATTCATGAAGCAAGTGAAGCAGCGAAGGCGCCTTTCATTTCGATTAACTGCGGGGCAATTCCAGAAGCTTTATTTGAAAGTGAATTATTCGGTTACGAGCGTGGGGCCTTTTCTGGAGCGAATAGTAAAGGGAAAAAAGGTAAAATCGAACTCGCACAAGGCGGTACTTTATTCCTCGATGAGATTGGCGAAATGCCGCTCGATATGCAAGTAAAACTGTTACGTGTACTACAAGAACGAAAGTATTACCGAGTTGGCGGAGAAAAAGAAATTAATATTGATTTCCGCATTATCGCTGCTACAAATCGGGATTTACAAGAAGAAATGAGAAAAGGAACTTTCCGAGAAGATTTATATTATCGTTTAAATGTAGTTAGCCTGCATATTCCACCGCTGCGTGAAAGACGAGAGGATATTATCGAACTCACATACTCATTCTTAAACGATTTTTCGATCAACTATAACCGACCAATTCGTGACCTACCTTCAAGCATTATGCATGAACTGCTTCATTACAATTGGCCAGGTAATATTCGCGAACTTCGAAACGTTGTTGAACGGCTTGTGGTATTCGCAACAGACGGAATTATAAAACAAGAATATTTACCATTTCATACGACTGAAACTTTAGACAACCATACAGCTCATTCCCTATTACTCAGCAACAATAATACAATCCTTTCTTTACAAGAAGAGATGGATGAGCATGAGAAAAAAGTTATTGAAAAGGCTTTACGAATTTTAAATGGGAATAAATTAGAATGCGCAAAACAACTTGGCGTAACAAGGGCTACTTTATATAACCGTTTAAAGAAACTCGGACTTCAATAA	MAFSFPTIQEFLESILIDHTCSLNHIKQVNGRFYYLPSTTEEYNCAIIYVDDSFTALIDAFSYELAVIILNENDEPIFCITSQQMIPFLYKSYNELQSFYNTVIQTTDSSVTVIDSKECVRTWTDGAEKIFSVNHNEIIGQPITRFFDYKDLEILQSLHDGKNIVAQFHQPRPDLFVLINSNPVYCNDEIIGAVVSETDVTNQVALNEKLFNMSHEMHRLEQEVAKYKDESDPFLAMNGKSPVIQRTIQLARKVCSVKSTVLILGESGVGKEVFAKAIHEASEAAKAPFISINCGAIPEALFESELFGYERGAFSGANSKGKKGKIELAQGGTLFLDEIGEMPLDMQVKLLRVLQERKYYRVGGEKEINIDFRIIAATNRDLQEEMRKGTFREDLYYRLNVVSLHIPPLRERREDIIELTYSFLNDFSINYNRPIRDLPSSIMHELLHYNWPGNIRELRNVVERLVVFATDGIIKQEYLPFHTTETLDNHTAHSLLLSNNNTILSLQEEMDEHEKKVIEKALRILNGNKLECAKQLGVTRATLYNRLKKLGLQ	PGPT0001030_2236	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
AK009_01408	273			hypothetical protein	ATGACAAATAAAAACAACTTAATCGTTTGTCGTTGTGAAGAGGTTACATATGGACAACTTCAATCGACAATTGCTGAATATAACTGCTCGGCAAGAGAATTAAAACTAAGAACACGTGCTGGCATGGGATTTTGCGGTGGTCGCACATGCAGAATAATGATAGATCGAATGATAGAAAATGCGAATCCTGACGTAACTCTTAATGAACTACCGTTAAAATATCAACCACCAATACGTGCAGTTACTTTTGGATCGGTAGGTGAAAGTAAATGA	MTNKNNLIVCRCEEVTYGQLQSTIAEYNCSARELKLRTRAGMGFCGGRTCRIMIDRMIENANPDVTLNELPLKYQPPIRAVTFGSVGESK				NA	NA	NA	NA	NA
AK009_01409	333			hypothetical protein	ATGAATAGAATTACACATCACCCTATTTTAGGTACTTTACAAAGTAGTGAGCGTATTACTTTTCAATTTAACGGTCATCAATACGAAGCATATGAACATGAAACGATAGCTGCTGCCCTGTTAGCAAATGAAATACGGACATTAAGAGTTCATGAAGATAGCGGGACACCGCGAGGTATTTATTGTAATATCGGGCACTGTTCCGAATGCCGCGTGACAGTAAATAATCAAACAAATGTACGCGCATGCTTAACTGTTGTAGAAGAAAACATGGTTGTTGAAAGCGGGAAACAGCATCCGAATATCGTGAGAGAGATGGTGAAAAAACGATGA	MNRITHHPILGTLQSSERITFQFNGHQYEAYEHETIAAALLANEIRTLRVHEDSGTPRGIYCNIGHCSECRVTVNNQTNVRACLTVVEENMVVESGKQHPNIVREMVKKR	PGPT0013515_1098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
AK009_01410	1245	hcnB		Hydrogen cyanide synthase subunit HcnB	ATGAGTGATGTAATTATCATTGGTGCAGGACCAACGGGATTATCTGCTTCTATCTCTTGTGCTCGTTTCGGACTAAAAGTGCTCGTTATTGATGAATTTATGAAGCCGGGCGGGAGATTGTTAGGACAGTTGCATCAAGAGCCTACTGGAGAATGGTGGAACGGAATAGAAGAATCGAAGCGACTTCATGAAGAAGCAGAATCACTTTCAGTACATATCAGGTGCGGTGTTTCGGTCTATAATTTAGATAAAGATGAAAACAATTGGTTTGTACATACTAATATCGGTACGTTAGAAGCACCGTTCGTACTACTTGCTACTGGTGCTGCGGAATATTTTATTCCCCTTCCAGGCTGGACACTTCCAGGAGTGATGTCAATTGGAGCAGCTCAAGTTATGACAAATGTTCATCGCGTGCAAGTTGGAAAAAAAGGAATCATTATTGGTGCTAACATTTTGTCTTTCGCCATTTTAAGTGAATTGCAATTAGCGGGAATTAAAGTAGATCATATTGTACTCCCTGAAAAAAGCGAGTTAAGTCAAAAAGCTGGTGAACCTGAAGAAGTTTTAAACTCTCTTTTAAATGCAGCACATCTCGCTCCTTCTGCTATTTTACGAATAGGTAGCCACTTTATGAAATATGATTGGATTCGAAAAGCTGGATTAACATTCTATCCAAACAGCGGAATGAAAATAAACGGAACGCCACTTCACCTTCGGAAAGCAGCTCTTGAAATTATCGGAACAGATCAAGTTGAAGGTGTACGTATTGCTAATATTGACTCTAAAGGAAATGTTATTAATGGATCAGAGAAAATATATGAAGCAGATTTTGTTTGTATTGCCGGGGGATTATACCCACTTGCCGAACTTGCAGCTGTAGCTGGTTGTCCCTTCCATTACATTTCAGAATTAGGCGGACACGTTCCTCTCCATTCCGAAACAATGGAAACCCCTCTTCCAGGTTTATTTGTAGCTGGCAATATTACAGGCATTGAAAGCGGAAAAATTGCGATGGCGCAAGGAACTGTTGCAGGTCTATCAATTGCTAAATATGCAAGTAAAAAACGTGATATAGTCGACCAACAATTATATCACGCCATTCAAAACGTTCACTTTGTTCGTCAGAAAGCTGCAATTCAGTTTAATCCGATGGTAGATATCGGTAGACGAAAGATGAATAATTTATGGCATAAATTCCAAACAAATTATAAAGATTTCTATAAACAACAAGAAATTATTTAA	MSDVIIIGAGPTGLSASISCARFGLKVLVIDEFMKPGGRLLGQLHQEPTGEWWNGIEESKRLHEEAESLSVHIRCGVSVYNLDKDENNWFVHTNIGTLEAPFVLLATGAAEYFIPLPGWTLPGVMSIGAAQVMTNVHRVQVGKKGIIIGANILSFAILSELQLAGIKVDHIVLPEKSELSQKAGEPEEVLNSLLNAAHLAPSAILRIGSHFMKYDWIRKAGLTFYPNSGMKINGTPLHLRKAALEIIGTDQVEGVRIANIDSKGNVINGSEKIYEADFVCIAGGLYPLAELAAVAGCPFHYISELGGHVPLHSETMETPLPGLFVAGNITGIESGKIAMAQGTVAGLSIAKYASKKRDIVDQQLYHAIQNVHFVRQKAAIQFNPMVDIGRRKMNNLWHKFQTNYKDFYKQQEII	PGPT0013515_980	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
AK009_01411	510			hypothetical protein	ATGGCGCGAATTCTTCTGATTTTTTTTGAGTTAAAATCCGGATTTGTTATTGCGGAAGTAGAACATACAGGAGAAAGTAATGCAATTCTAGAGTTAAAAGATGAACAAGGTAATGACTCTGGTTCACTTTCGAATTTTATTGGTAATGGAAAAGAAAAACGTGTAGTTTTATTAAACAAGAGTGGAAAATATTTTATTAATCCAATGGCAGATGGTCACTGGAAAGTGAATATGTCTCAGTCTATTCCAATAGATAAAGTAGTAACAGCTCCAGGAACAATTAGTGGTCACGGATCTGATGTTGTTTTTGTGAAGCTTGAAAAAGGTTTGAAAGAATTGCATGGTGTACATAAGAATGGTGAAAGTAATTTTGTAGTTGATTTAAACGATAGCATGATATTTAATGAAATTGGTGCTGCCGATACTACGAAAAAAGTACCTGTAAAAGAAAATGGTATACATATATTCACTATTCAAGCTGATGGTGATTGGACAATCGAAGTGAAATAA	MARILLIFFELKSGFVIAEVEHTGESNAILELKDEQGNDSGSLSNFIGNGKEKRVVLLNKSGKYFINPMADGHWKVNMSQSIPIDKVVTAPGTISGHGSDVVFVKLEKGLKELHGVHKNGESNFVVDLNDSMIFNEIGAADTTKKVPVKENGIHIFTIQADGDWTIEVK				NA	NA	NA	NA	NA
AK009_01412	243			hypothetical protein	ATGAAAAAGAAATTATTAGCAACAATAGCTGCGGTATGTTTATCTTTAACTGCTTGTAATTCAACGGAGCAAACAAAAGATGTACAAGCGAACGAAAAAAAAGATAACAATACTGAACAGCAAACAGCAAAAACTAGCCCGAAAGCTAAAGAGATAAAAGAAAAAAGTGCAGTGGAGAGATTATCACAAGATCATAGTGTTTCGTTAGAAGGTGATGGCGCGAATTCTTCTGATTTTTTTTGA	MKKKLLATIAAVCLSLTACNSTEQTKDVQANEKKDNNTEQQTAKTSPKAKEIKEKSAVERLSQDHSVSLEGDGANSSDFF				NA	NA	NA	NA	NA
AK009_01413	309			hypothetical protein	ATGGAAACAATAAAAATTTCTGAACAAGAATTAATAAATGCGCTTTGCGTATATATAGCTGAAAAAAGACAAGTGGGTCCAGAAGAAGTGTTAGTTGAACTCATGTATGACGATGACTACGGTTTCTCTGCGGAAGTAGAGGTAAATGGTCGCCAGCAAATTTTAATTCAAGCAAACTTAATCGAAGCATTACGCTTATTGCTTGACAGAGAATATAATGTCAATTCATTCGCAGCGAGATTACAACTTGAATTAGATGATGAAGAAGGTATTTACGCATTAGCGAAAATTAATAGTGACGAACAATAA	METIKISEQELINALCVYIAEKRQVGPEEVLVELMYDDDYGFSAEVEVNGRQQILIQANLIEALRLLLDREYNVNSFAARLQLELDDEEGIYALAKINSDEQ				NA	NA	NA	NA	NA
AK009_01414	450			hypothetical protein	ATGTTGAAAAAACTTGTAGCAGTAATGACAGCATTTATGGTTATCTTTGGGGCTAGCAGCTTTATGTTCGTAGATCATGCGGCAGCGAAAAGTTACAAATCTGGTAAAAAATCATTTACACCAAGTTCAGGTCAAAAGTCAAAAGTTGATTTAAACAAAAAAGACTCAAATGTAAATTCTCAAAAAACGACTCCAGATTCAAAAACGAAAGCAACAAACACAGCACCAAAAAGTAATAAAGGAAGCTTTATGAAAGGTTTATTACTAGGTGGTCTTGGTGGTTTACTAATGGGTAGCTTATTTGCAAATATGGGAGCTCTTGGTTCTGTATTAGCGTTTATGGTAAATATGTTAGTAATGGCTGGTATCGTAATGTTAGCAGTTCGTGCATTTAAATACTTCAAAGACCAACGTAAAAAGAAGGCAGATGAAGTAGCATGGAAACAATAA	MLKKLVAVMTAFMVIFGASSFMFVDHAAAKSYKSGKKSFTPSSGQKSKVDLNKKDSNVNSQKTTPDSKTKATNTAPKSNKGSFMKGLLLGGLGGLLMGSLFANMGALGSVLAFMVNMLVMAGIVMLAVRAFKYFKDQRKKKADEVAWKQ				NA	NA	NA	NA	NA
AK009_01415	105			hypothetical protein	ATGAACTTATTATATGAACTTTTGTCGAAATATGCAAGTATTATTTACTTCCGACAGTTTGGTGACAAAGGAAAAATTAAGCAAAACAGAATTGACTTTAAATGA	MNLLYELLSKYASIIYFRQFGDKGKIKQNRIDFK				NA	NA	NA	NA	NA
AK009_01416	765			hypothetical protein	ATGGAAACATTTCATCTCACACGAAACGAAATGGCTACCCTTCTTCTATCACTAAGAGGATGGAATACGAAAAAGCCTCTCGGTATTTTACAAGAAGCTTGGGCAAAGTCACATAAAAAAGATATTGAAAGCGGACAAAGCGTTACAGCTTTTATTACTACCGCACTTTCACCTATTTTTGAAAAGCTGATTAAAATTGACGATACTGATGTCGGTTTTTCTTTAAATGAAATAGTTGCGCTTGGCAATCAGATTGAAAACACAAGTTTCTCTGTAACTGCTATGCAAAACTGGGTGAAACGAGATATAAAAGAAATGATTGGCTCTCCTCAAAAAGGGAAAAAATATTCGATTGAACAAGCAGCCTTACTGTTCATTGTCGAAGATTTAAAAACAGCACTTGATTTTGAATCAATTCGTAAGCTATTACGCCTTATCGTTAATGACCCAGCCGATCGAAGTGATGATTTAATCAATCCTGTTCATTTATATGTAGCATACTCTTCTCTATTTGAAGAACTCAATCAAGGGAATTGCTTACAACTAAATGCAACAGATACAGTTCATACAATTGAAAACATCGTAAAAGAAAAAGCTGATAAAATCGCAAGCAAGTTCGATCAAATTAATAACGAACAACGCGAAGCAATTCGTAACGCTATTATTATTGCGACCCTTTCTGTACATACCGCTTATGTACAAATGTTAGCAAAACGTTACGTAACAGCAACGTTATTTTTACAGAACTTAGATGTGAAGCCTTAA	METFHLTRNEMATLLLSLRGWNTKKPLGILQEAWAKSHKKDIESGQSVTAFITTALSPIFEKLIKIDDTDVGFSLNEIVALGNQIENTSFSVTAMQNWVKRDIKEMIGSPQKGKKYSIEQAALLFIVEDLKTALDFESIRKLLRLIVNDPADRSDDLINPVHLYVAYSSLFEELNQGNCLQLNATDTVHTIENIVKEKADKIASKFDQINNEQREAIRNAIIIATLSVHTAYVQMLAKRYVTATLFLQNLDVKP				NA	NA	NA	NA	NA
AK009_01417	141			hypothetical protein	ATGCTTCTATTTTTTTATAAGAAATTTTTAATAATCTTTTCATTAACCCTTCATGAAAACGTGGCTTATATCCTTTACTATAATACTTATGGGAGACATAAAAGAATTGAAATAGCAATCCCCTATATGAATAAGGTATAA	MLLFFYKKFLIIFSLTLHENVAYILYYNTYGRHKRIEIAIPYMNKV				NA	NA	NA	NA	NA
AK009_01418	606			hypothetical protein	ATGTTAAGTAGTTTTATTCATTCAGTATTAACGTTTTTTGAAGGATTAGGTTATTGGGGCATTATGCTTGGACTTATGATTGAGATTATCCCAAGTGAAATTGTCCTTGCTTATGCAGGATACTTAGTATTCAATGGTAGTATCTCATTTATAGGCGCAGTTGTATTCGGTACAATTGGCGGTGTTATTGCCCAAATCTTTATTTATTGGCTTGGACGATACGGCGGACGCCCTATATTAGAACGTTATGGAAAATATATTTTCATACATAAAAAACAAATAGATGCTGCAGAAGATTGGTTTAATCGTTACGGAACTGGCGTCATTTTTACAGCACGCTTCATTCCAGTAGTGCGTCATGCGATTTCAATTCCTGCTGGTATTACAAAAATGCCTTTACTACGTTTCACTACATTAACAGCACTTGCGATTATCCCTTGGTCTATTATTTTCATTTATTTAGGTGAAAAACTAGGTGAAAATTGGGAGAATATAAACGATATTGCTGGTCCGTATGTGAAATCATTTGCAATTGGTGGCGTCGTACTTATACTTTTATACTTCGTTATAAAAAAATGGACAAAAAAGCGCAAAAATCTTGCTTAA	MLSSFIHSVLTFFEGLGYWGIMLGLMIEIIPSEIVLAYAGYLVFNGSISFIGAVVFGTIGGVIAQIFIYWLGRYGGRPILERYGKYIFIHKKQIDAAEDWFNRYGTGVIFTARFIPVVRHAISIPAGITKMPLLRFTTLTALAIIPWSIIFIYLGEKLGENWENINDIAGPYVKSFAIGGVVLILLYFVIKKWTKKRKNLA				NA	NA	NA	NA	NA
AK009_01419	225			hypothetical protein	ATGCATTGGCAGCAAAAAATACCATACTTAATCGGACGCCCTATCGGTATTTCCTTCATAAATGGGCAAGGAACTTCCGGCGTATTATGTTCAGCGCATGATGGTCAATTATATGTGTATGAATACCTTTATCAAGCTCAGTTCGCAATGAAACATTATGATTATAGACAGGTTCAAGATATACATGCATTCCCAAATTGTCCTCACCAAAATCCTCTATACTAA	MHWQQKIPYLIGRPIGISFINGQGTSGVLCSAHDGQLYVYEYLYQAQFAMKHYDYRQVQDIHAFPNCPHQNPLY				NA	NA	NA	NA	NA
AK009_01420	1182	dltD_2	COG3966	Protein DltD	ATGAAAATGAAGCATGCTTTTGGTCCTATAATTTTAGCGTGTGTGCTTTTTTTCATTATCATTCTAATCCCATCGAAAAGTTTAGTATCGCTTATTAGTGATAAGAAGGTAGAAGATGCGGCTACTTCTTTACAAAAAGAGAAATTACAAAGTGTTTTCTTACAGCAAAAAATGTTAGATAATTCACAGTATTTACCGATGTACGGTTCATCAGAATTTTTACGAATGGATGCATATCATCCGTCTAATTATTTCAAAGTAAATCCAGCTGGTTTTACACCGTTTTTAATTGGAACTGGCGGTACACAAAGTTTAGCTCATATTTTAAATATGACATCTACTATGGATGAATTAGAAGATAAAAAAGTAGTCTTTGTTCTTTCACCACAATGGTTTACAAAGACTGGTGTATCACAAGGGGATTTCACTAATAATTTCTCCAAACAACAAGCATATCATTTTATTTTTAATGATGAGATAAATCCAGAAATGAAGAAGCAAATCGCGAAACGGCTATTAGATTATAAAGTTGTTCAAGAAGATGATATATTAAAAAATTCATTAGAAGGTATTGTATATAATGATACGAAACATAACATAAAAGCAGGTTTAGTTAAACCACTTGCTTATATGCATCGAAATATTTTAGATCATAGAGATTTATTTAACTCTTTATTTAAAATCGAACCGATGAAAGAGAAAACAAATAGCGGACTTCGTTCAATTTCTTGGGAAGACGCACGTAAACACGCAGAACAAGAAGGGAAAGCTGAGTCTACTACAAATACATTTGGAATTGAAAATCCGTATTATCATAAGAATAATCTGAAGAAAAAACTTAAAGGTTTAAAAAACTTTAGAGCAAATGAAACATATGATGAATCACCAGAATATAATGATTTACAAATTATTTTAGATTTATTTAAAGAGAAAAATGTCAAACCGCTCTTTATTTCTGTACCTGTAAATGGGCCTTGGTATGATTATACTGGATTCCCGAAAGAACGCCGTGAAGTGTATTATAAAAAAGTTCGAGAACAGGTTGAGAAAGCAGGATATCCAGTAGTTGATTTCTCTGGCCATGAATATGATAAGTATTTCTTAAAAGATACGATTCATTTGGGCTGGAAAGGTTGGATTTATTTTGATGAAGCAGTGCAGAAATTTTATTCTGAGAAATAA	MKMKHAFGPIILACVLFFIIILIPSKSLVSLISDKKVEDAATSLQKEKLQSVFLQQKMLDNSQYLPMYGSSEFLRMDAYHPSNYFKVNPAGFTPFLIGTGGTQSLAHILNMTSTMDELEDKKVVFVLSPQWFTKTGVSQGDFTNNFSKQQAYHFIFNDEINPEMKKQIAKRLLDYKVVQEDDILKNSLEGIVYNDTKHNIKAGLVKPLAYMHRNILDHRDLFNSLFKIEPMKEKTNSGLRSISWEDARKHAEQEGKAESTTNTFGIENPYYHKNNLKKKLKGLKNFRANETYDESPEYNDLQIILDLFKEKNVKPLFISVPVNGPWYDYTGFPKERREVYYKKVREQVEKAGYPVVDFSGHEYDKYFLKDTIHLGWKGWIYFDEAVQKFYSEK	PGPT0023385_305	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023385-dltD-K03740	NA	NA
AK009_01421	1623	dppE_3	COG4166	Dipeptide-binding protein DppE	ATGAAAAAAGTTGTTCGTTACTCATTAGTTAGTACTCTATTAGTTTCTTCATTTTTAGTTGGCTGCGCAAAAGAAAAAACTACAACAAAGCCGAAAGATGAAAAGAAAGTATTACAGTTACTAGAAACGGGTGAAATTCCGTCGTTAAACTCAGTGAAAGTCACAGATGGAATCTCGTTTAACGTTTTGAATAACGTAATGGAAGGACTATTCCGTCTATCGAAAAATGATGAAGTAATTGAGGCAGGCGCACAAAAATATGAAGTGAGTAAAGATGGAAAGACATATACATTTCATTTGCGTGATGCGAAATGGTCAAACGGAGATCCAGTAACCGCTCATGATTACGTATACGCTTGGAAGCAATTGATTAATCCAGATACCGCTTCTCAATATGCATACATTGCGTACGATGTGAAAAACGCTGAGAAGATAAATAAAAAACAACTAGGTCTAGATGAATTAGGAGTAAAAGCGAAGGATGATAAAACGTTCGTCGTAGAGCTAGAACATCCTGTACCGTATTTTACGAAATTATTAATTTTACCATCCTTCTATCCAATTAACGAAAAATATGCGAAAGAGCAAGGTGATAAATACGGATTAGAAGCAAATAAAGCGGTATATAATGGACCATTTACATTATCAGAGTGGAAGCATGAAGCTAGCTTTACAATGAAGAAAAACGATAAGTATTGGGATAAAAAAGAAGTGAAGTTAGATGAAGTAAACTATCAAATTGTAAAAGAAATTTCAACTGCGGTAAATTTATATGAAACAGATAAAGTTGATAGAGCTGTTATTTCTACAGAATTCGTGGATAAATATAAAAATAATAAAGAGCTAAAACAATATACAGATCCAGTTATGTACTTCTTCCGATTTAATGAAAATGTACCGATTCTTAAAAATAAAAATGCACGTCTTGCGCTAAGTACAGTTTTTGATAAGAAAGGACTTGCGGATTCATTTTTAAATGATGGTTCGGTTGCTGCAAACTATTACGTACCAAAAGGATTTTTAAAGGGACCAGATAAAAAAGATTTTAGAAGTACGGCAGGTGAGTTTAATAAAACTGATGTAAAAAAAGCGAAAGAATATTGGGAAAAGGCAAAGCAAGAAACAGGTACAGATGAAGTGACGTTAGAACTATTAAATTATGACTTAGAAAACTTTAAAAAAGTTGGAGAGTACATTAAAGAGCAGCTTGAGAAAAATTTACCAGGTTTAAAAGTGAATGTGAAATTGCAACCACATACGCAAAAATTAGCACTAGAGAAGAAGAAAGAATATGAAATGTCGTTATCACGCTGGTTACCGGATTATCCAGATCCAATGACTTACTTAGAAGTATTCCTTTCTGGAAGTAGTGTTAATAATACAGAATATGCAAACCCAGAATATGATGCGTTAATTAAGAAGATTAAAACAGAATTAGGTAATGATGAAAAGGCTCGCTGGAAAGCAATGCAGGATGCTGAAAAAATGCTACTTGATGATGCAGTAATTGCACCGGTATTCCAGCGCGGATTATCTTACTTACAAAAACCATATGTGAAAGATTTATATGTACATCAATTTGGTCCAGCTACAAGTTTAAAATGGGCAGATGTACAAAAATAA	MKKVVRYSLVSTLLVSSFLVGCAKEKTTTKPKDEKKVLQLLETGEIPSLNSVKVTDGISFNVLNNVMEGLFRLSKNDEVIEAGAQKYEVSKDGKTYTFHLRDAKWSNGDPVTAHDYVYAWKQLINPDTASQYAYIAYDVKNAEKINKKQLGLDELGVKAKDDKTFVVELEHPVPYFTKLLILPSFYPINEKYAKEQGDKYGLEANKAVYNGPFTLSEWKHEASFTMKKNDKYWDKKEVKLDEVNYQIVKEISTAVNLYETDKVDRAVISTEFVDKYKNNKELKQYTDPVMYFFRFNENVPILKNKNARLALSTVFDKKGLADSFLNDGSVAANYYVPKGFLKGPDKKDFRSTAGEFNKTDVKKAKEYWEKAKQETGTDEVTLELLNYDLENFKKVGEYIKEQLEKNLPGLKVNVKLQPHTQKLALEKKKEYEMSLSRWLPDYPDPMTYLEVFLSGSSVNNTEYANPEYDALIKKIKTELGNDEKARWKAMQDAEKMLLDDAVIAPVFQRGLSYLQKPYVKDLYVHQFGPATSLKWADVQK	PGPT0021015_3586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_01422	1002	ykfC		Gamma-D-glutamyl-L-lysine dipeptidyl-peptidase	ATGAAAAAAGTAGGAACTGCATTTTTAACAACTTTATTTATATTTTCATCGTTTACATCGGCAAATGCTGAAGAAAAGAAGGATAATAAAGCATTTATAGATGTATCTGCTGCAACGTTATGGACAGCACCTGATGCATTAAGGCCAATCGATACACCGAGTGCAACAAATCCAGTGGATCTATGGAAATGGACGAAATCAATGACACTTGACGAGAAACTATGGTTAACAAATGCAAATAAATTAGAAACACAAGCGTTACTCGGTCAAGAAGTAACTGTTATTGATAAGAAAGGCGAGTGGGTGAAGGTATTAGTGCATGGACAGCCAACCCCACGAAATGAAGAAGGTTATCCGGGCTGGATGCCTGAAAAGCAATTAACATATAATCAAGAATTTGCAGATAAAACAAATGAACCTTTTGTGTTAATAACAAAGCCAACAGCGATTTTATATATAAATCCTTCTGAAAAACATAAATCACTTGAAGTCAGTTATAATACAAGACTGCCGCTATTAAGTGAAGACACAATTTCATACCGTGTATTGTTGCCAAATGGTCAGAAAGCATGGCTACGAAAAAATGATGGAACAGTTTACCGCTCTCAAACTGATATTCCAAAACCGACCGCTGATGATTTAATTAACACAGGGAAAATGTTTTTAGGTTTACCGTATATATGGGCTGGTACAAGTGGTTTTGGATTTGATTGCTCTGGCTTCACGCATACGATCTATAAATCGCACGGCATTACAATTCCGCGAGATTCTGGACCGCAATCAAGAGCAGGGGTTGCAGTTGATAAAGAAAACTTACAAAAGGGAGATTTAATTTTCTTTGCACATGATCAAGGGAAAGGTAGTGTCCATCACGTTGCAATGTATATTGGTGATGGCAATATGATTCACTCACCAAGAGCTGAAAGGTCGGTAGAGATTATACCACTAAATACACCAGGATATATAGAAGAATACGCTGGTGCTCGTCGTTACTTACCTTAA	MKKVGTAFLTTLFIFSSFTSANAEEKKDNKAFIDVSAATLWTAPDALRPIDTPSATNPVDLWKWTKSMTLDEKLWLTNANKLETQALLGQEVTVIDKKGEWVKVLVHGQPTPRNEEGYPGWMPEKQLTYNQEFADKTNEPFVLITKPTAILYINPSEKHKSLEVSYNTRLPLLSEDTISYRVLLPNGQKAWLRKNDGTVYRSQTDIPKPTADDLINTGKMFLGLPYIWAGTSGFGFDCSGFTHTIYKSHGITIPRDSGPQSRAGVAVDKENLQKGDLIFFAHDQGKGSVHHVAMYIGDGNMIHSPRAERSVEIIPLNTPGYIEEYAGARRYLP	PGPT0020945_163	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-DIPEPTIDYL-PEPTIDASE_ACTIVITY,PGPT0020945-ykfC-K20742	NA	NA
AK009_01423	1062	ykfB	COG4948	L-Ala-D/L-Glu epimerase	ATGAACAAAATGAAAATTACAGATGTAAAAGTAAATCGTAGACGTGTAAAACTTCATACACCGTTTAAAACCGCGCTTCGTACTGTAACAGAAATTGAAAGTATAGATGTTTATATTCATACAGATGAAGGAGTGATTGGTAAGGGAGCTGCAGCCGCAACGCCAGTTATTTCGGGTGATTTCACCAGTGGAATAGAAGAAGCGATTTTAGGACCGATGCGTTCATGTTTAATTGGTCAAGATATCATTCAGTTTCAGCAGTTACTACAGCGCATTCAAATGAGTTGTATTAGAAATTCAAGTGCGAAAGCAGCGGTAGATATCGCTTTATATGATGTATATTGCCAATATCAAAAGGTGCCGTTATATGCATTGTTAGGCGGGAAGAAAGAAATTTATACGGATATTACAGTGAGTGTGGATGAGCCTGTATTAATGGCAAAAGAAGCGAAGAAACATATAGAAAAAGGATTTCAAACATTAAAGATTAAAGTGGGTAAAGAGGCGCATTTAGATTTGGAACGTATTGAGGCAATTCGAAATGTGGTACCAAGAAATACGACATTACGTTTAGATGCGAATCAAGGTTGGAGTCCAAAAGAAGCGGTCTCTATCATTCAAGGGATGGAAAATCGTAATTTAAATATAGAATTTATTGAACAACCAGTACACGCGAAAGATTGGGATGGGTTAAAGTACGTCAAAGATCGTGTGCAAACGCCAATTATGGCCGATGAAAGTATATTTTCAGCAAGTGATGCATTAAAGCTCGTTCAAGGAAGATATGCAGACTTAATTAATATTAAATTAATGAAATGTGGTGGCATACGTGAAGCATGGCGTATTGCAGATATCGCAGAAACAGCTGGTGTGAAGTGTATGGTGGGAAGCATGATGGAATCTTCACTTTCCGTTAGTGCTGTTGCGCATTTAGCGGCAGCGCATCCTAATATTCATTATTTTGATCTTGATGCACCGCTTTGGTTAATGGAAGAGCCGGAAGGAATGACTTATTCTGGATCAAAGGTAAACCTTCAATCGACAGTGAATAGTAAGTCTTAG	MNKMKITDVKVNRRRVKLHTPFKTALRTVTEIESIDVYIHTDEGVIGKGAAAATPVISGDFTSGIEEAILGPMRSCLIGQDIIQFQQLLQRIQMSCIRNSSAKAAVDIALYDVYCQYQKVPLYALLGGKKEIYTDITVSVDEPVLMAKEAKKHIEKGFQTLKIKVGKEAHLDLERIEAIRNVVPRNTTLRLDANQGWSPKEAVSIIQGMENRNLNIEFIEQPVHAKDWDGLKYVKDRVQTPIMADESIFSASDALKLVQGRYADLINIKLMKCGGIREAWRIADIAETAGVKCMVGSMMESSLSVSAVAHLAAAHPNIHYFDLDAPLWLMEEPEGMTYSGSKVNLQSTVNSKS	PGPT0020045_981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
AK009_01424	327			hypothetical protein	GTGTACGCTTCAAATACAATTTATATCGTAGGGGATGCGAAAGCACCTCAAAATAATCCCATTACTGAAAAGTTTAAAAGCTATTTCGTAGCATTTGTACTTGTTAAGGATACAGGGGAAATTGTAGATGTAGACTGCTCAGCGACAATTGCATTAACATCTCAATTTGTTAAATATTTATTTCTACATAAAAATATAAATGACCCGGCGTTAGTAATGGAAGTAAAGAACCGATATTTCGGCTCTTCTCAAAAAGCGTTACTTGTAGCGCTAAAAGATGCACAGAAAAAATATAATCAGATTGCTGCTTTGTCTACTCAATCATAG	MYASNTIYIVGDAKAPQNNPITEKFKSYFVAFVLVKDTGEIVDVDCSATIALTSQFVKYLFLHKNINDPALVMEVKNRYFGSSQKALLVALKDAQKKYNQIAALSTQS				NA	NA	NA	NA	NA
AK009_01425	357			hypothetical protein	ATGAGGAAACTCAAACGAGTAAATGTTCCTAATATACCAGAGCAGTTATCACAACCTAGTGACAAGCGTAGGATAAATAAAAAGAAGTTAAGGCGACTTATTTTAATGGTCCTTTTTATTGCAGCAACTACTCTGTACGTTCAATATATTTTAACGAAACAACAAGAAGTAATTGATAAGAAGAAAGGTACGATTACGGATCAAAAGGAACAATTAGTATCTTTAAAGAAAGATAAAGATTCTTTAAAGACTAACATAGAAAATTTAACAGACGATGAGGAAGAAATTTTGAAGTTTGCGAGAAAAGAGTATCAATTTTCTAAGTCAAATGAAACTATATTTGTGATGCCCAAGTAA	MRKLKRVNVPNIPEQLSQPSDKRRINKKKLRRLILMVLFIAATTLYVQYILTKQQEVIDKKKGTITDQKEQLVSLKKDKDSLKTNIENLTDDEEEILKFARKEYQFSKSNETIFVMPK				NA	NA	NA	NA	NA
AK009_01426	927	iolS_2	COG0667	Aldo-keto reductase IolS	ATGCATTACCGCACATTAGGTAACACTGGAATAACTGTTTCTGAAATAGGTTTTGGGGCATGGGCAATCGGTGGTGATGAATGGGGACCTGTTAACGATAAACAATCTATAACTGCTATAAAAAAAGCCATTGAGTGTGGTGTGAATTTTATTGATACTGCGGATGTGTATGGTTTAGGACATAGTGAAAAGTTGGTGGCTACCGCGATTAAAGGACATCGTAATGATATTATACTATCAACGAAAGGTGGTTTAATCGGACATCACTACGACACTAATGGCGTTCCTGTATATGATACTCCTGAAAAAATCATCGCCGTATTTGAAACAAGTTTACAACGTCTTCAAACAGATTATATTGATCTTTATTTTTGTCATATTTGGTGGCATAATCGTAGAGAAACAGAAGCATTTCTACGTGCATTTGACATATTAAAACGTGATGGCAAAGTAAGAGCAGTCGGTGTTTCGACTCATGATTTACAATACATTCATCATTTCAATAACAACAACGAAATTGATATCGTACAACTTGATTACAATATATTAAATCGAAAACCAGAAAAAGATATATTACCATTCTTACAAGAGAAAAATCTAGGGGCTGTTATTCGTGGTCCATTAAAAATGGGCATTTTAACTGGAAAATTTACAAATAAAACAATTTTTCCAGATGGAGATTTACGCAAAGATTGGCCAAATGAAACTTGGTTTCAAGAAGACTTACAAACCGTAGAGAAACTTCGGTTGCTCTCAAAAAAAAATCAGACCCTAGGGCAACTTGCACTTCGCTATGTACTCTCTCATCCGGCAGTAAGTGTTGTAATTCCTGGTGCGAAGTCAGGAACGCAAGCACAAGAAAATGCAAATGCATCTGTTCGCCCTATTTTGAGTGATGAAGAGCTTAACTATATTCATTCAATATAA	MHYRTLGNTGITVSEIGFGAWAIGGDEWGPVNDKQSITAIKKAIECGVNFIDTADVYGLGHSEKLVATAIKGHRNDIILSTKGGLIGHHYDTNGVPVYDTPEKIIAVFETSLQRLQTDYIDLYFCHIWWHNRRETEAFLRAFDILKRDGKVRAVGVSTHDLQYIHHFNNNNEIDIVQLDYNILNRKPEKDILPFLQEKNLGAVIRGPLKMGILTGKFTNKTIFPDGDLRKDWPNETWFQEDLQTVEKLRLLSKKNQTLGQLALRYVLSHPAVSVVIPGAKSGTQAQENANASVRPILSDEELNYIHSI	PGPT0018520_309	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
AK009_01427	597	inhA_1		Isonitrile hydratase	ATGATGAATAAATGGAGTGTTGGTATATTTTTATTTAATGAAGTAGAAGTGTTAGATTTTGCAGGACCATTTGAAGTTTTTTCTGTAACTGAGGTGAATGAAGAAAAACCATTTACTGTTTATACAGTTAGCGAGAATGGAGAAATGATTACAGCAAGGAATGGATTGAAGGTACAGCCAGATTATAGTATTGAAAATTTACCACCAGTGGATATTTTAATAATTCCGGGTGGGCTAGGTGCTAGAAAATATGAAATAAAAAATGAAATAGTAATAAAATGGATTCGCCAACAAATGAAAGAAGTAAAGCTGATGACTTCAGTTTGTACAGGAGCGTTATTACTGGCGAAAGCAGGTTTACTGGAAGGGTTAAAAGCAACAACACATTGGGCTAGTATTGAAAAGTTTAAAAATGAGTTTCAAAATGTTGAAGTTATAGAAAATGTAAAGTTTGTAGATGAAGGACATATTATAACATCTGCCGGAATTTCAGCTGGAATTAATATGGCATTTCATATTGTGAAAAACTTGTTAGGTGTGCATGTTGCGGAGGACACAGCGAAGCGAATGGAGTATGATATTAGTTTGCCAAATTAA	MMNKWSVGIFLFNEVEVLDFAGPFEVFSVTEVNEEKPFTVYTVSENGEMITARNGLKVQPDYSIENLPPVDILIIPGGLGARKYEIKNEIVIKWIRQQMKEVKLMTSVCTGALLLAKAGLLEGLKATTHWASIEKFKNEFQNVEVIENVKFVDEGHIITSAGISAGINMAFHIVKNLLGVHVAEDTAKRMEYDISLPN				NA	NA	NA	NA	NA
AK009_01428	492			hypothetical protein	ATGGAGCATTTACAATCAATAGCACAAGCTGTTATAAGTGGTCATAAGGGAAAAGTAGTGAAGTTTATAAAGGCGAGTCCAAGTATTGTTAACGAATGTAGTGAAGATGGCTGGACACCACTTCATTTAGCAGCTTATTTTGGACAAAAAGAAATAGCGAGTTTTCTTTTAGAAAGCGGTGCAGATATACATAGTAGAGCGAAAAACGAAAATGAAAATACGCCTTTGCAAGCAGCAATCGCGAACAAGCAAAGTGAACTTGTTGCTTTCTTAATTGAAAAAGGATCAAATGTAAATATTATGCAAAGTGGTGGCTGGACAGGACTTCACGAAGCGGCATTATTAGGAAATGAAGAAATAATTATGCTACTCCTTAAAAATGGAGCTAATAAGATGATAAAGAAAAATGATGGGAAAACAGCGTATGATATTGCATTAGAAAAAGGATATGATCACCTTTTACATCATTTGAAACAGGAAGTGAACTTATGA	MEHLQSIAQAVISGHKGKVVKFIKASPSIVNECSEDGWTPLHLAAYFGQKEIASFLLESGADIHSRAKNENENTPLQAAIANKQSELVAFLIEKGSNVNIMQSGGWTGLHEAALLGNEEIIMLLLKNGANKMIKKNDGKTAYDIALEKGYDHLLHHLKQEVNL				NA	NA	NA	NA	NA
AK009_01429	231			hypothetical protein	ATGAAAAATATAGACTTTATACTAGAAAGTGATGAGGCATTAAAACCGTCTGAACGATTAGTGCTATTATTATTAGAGAAGCATAGAATGTTATATACGAACGATCTATTGGCATTATCAAATTTATCATATAAAACATTAACAGATTCATTAACGGCGCTTGTTTTAAAATCGTATGTGTTAAAGGAAACAGGTAAGGGAAGAAGACAGAATTGCTATAGATTAGTATGA	MKNIDFILESDEALKPSERLVLLLLEKHRMLYTNDLLALSNLSYKTLTDSLTALVLKSYVLKETGKGRRQNCYRLV				NA	NA	NA	NA	NA
AK009_01430	264			hypothetical protein	TTGGAAAACGTAGAACAAGATAGAATTGAAAATCAAGTGTATTCAAATCGTGTAGTAAGATCAGAATTTGATGCGAATTGGGAAACTTGTATATCAAAGAGTGGTTATGTAATTTATGTAGCAACAAGTAATAATGCTGAAGTAATAGTGCTTCTTGCAGATGGTTCAAGTAAATTATTAATTTTTGAAAAAAGCGGTAAAGTAGTAGTAGGTGGCGGTGGAACAAGTCATTACAGTAAGCCGCATATTGCAATAAATATTTAA	MENVEQDRIENQVYSNRVVRSEFDANWETCISKSGYVIYVATSNNAEVIVLLADGSSKLLIFEKSGKVVVGGGGTSHYSKPHIAINI				NA	NA	NA	NA	NA
AK009_01431	561			hypothetical protein	ATGAAACTTATATTAATATTTGGCCCACAAGCAGTTGGGAAAATGACAGTGGGTCAAGAATTAGCAACATTAACCGGTTTAAAACTTTTTCATAACCACATGACAATTGATTTAGTAAGTCCAATTTTTGATTACAGTACGACAGAAGCAAAAAGGCTAGTAAGTTTATTTCGTAATGAAATATTTGAAGAAGTATCTAAAAGTGATTTATCTGGAATGATTTTTACGTATATATGGGCATTTGACCTCCAATCGGATTGGGATTATATACATTATGTAGAAAGTATTTTTGAATCAAAAGGTGGGACAGTGTATTTTATAGAGCTGGAAGCGGAATTAGATGAAAGATTAGAACGGAATAAAAGTCCGAATAGATTAGAACATAAACCGAAAAAAAGAGATATTGAGTGGTCTCAAAATAATTTGAAAGAGACGATGAAAAAGCATAGATTAAACTCTCTTCATGGTGAAATTGAAAAAGAAGAGTATATAAAAATTAATAACACGTATTTGAGTGCAAAAGAAGTAGCGGAAATGATTAAAGAGAAGTTTCAATTGTAA	MKLILIFGPQAVGKMTVGQELATLTGLKLFHNHMTIDLVSPIFDYSTTEAKRLVSLFRNEIFEEVSKSDLSGMIFTYIWAFDLQSDWDYIHYVESIFESKGGTVYFIELEAELDERLERNKSPNRLEHKPKKRDIEWSQNNLKETMKKHRLNSLHGEIEKEEYIKINNTYLSAKEVAEMIKEKFQL				NA	NA	NA	NA	NA
AK009_01432	762			hypothetical protein	ATGTTTAGTTTTTATAGTACACTTTGTACGGAACTGTATGATTACACAAAACCAGTCGGTTATTCTTTAAATGGTGATATTGAGTATTACAAAGAACGTTTAAAAGATTGTAGAGGAAGAATCCTCGAAGCTGCAGTAGGTTCAGGGCGTGTCATCATTCCACTTCTAGAGGCTGGTTTTACAGTAGATGGGATAGATTATTCACCTGAAATGCTAGATTCTTGCCGTAAGCGCTGTAAAGAGAGAGGCTTACATCCTAATTTATATGAAGGAAGCTTGCAACAATTATCACTTCCGTATAAATATGAGGCAATTATCATTCCTACTGGATCTTTTTGTTTAATTGAAAATCGTGTCGATTCTATAAACGCATTGAAATATTTTTATGAACATCTTAATCCAGGCGGACGATTAATCGTAGATATTATGCTTCCGTATGACTGGAAGACTGGGGAAATTCATACATCGACTTTTTCTTTGCCGAGCGGAGACGGAATCACATTAGAAAATAAATCAATTGAAATAGATTGGCTGAACCAAGTTACTGTATCATATTTGAAATATGAAAAGTGGAGTAAAGGACAGTTAGTACAAACAGAACTACAACGCTTTGCGGTTCGTTGGTATGGAATAGAAGAGTTTAAACTTCTGTTAGAAAGTATAGGTTTCTCTAATATTACTTGCTCTGCTGAATATGCTTATAAAAACGAACCGTCAAGTGCAAATCAAATGTTTACTTTTGAAGCTGTGCGAAAAGAATAG	MFSFYSTLCTELYDYTKPVGYSLNGDIEYYKERLKDCRGRILEAAVGSGRVIIPLLEAGFTVDGIDYSPEMLDSCRKRCKERGLHPNLYEGSLQQLSLPYKYEAIIIPTGSFCLIENRVDSINALKYFYEHLNPGGRLIVDIMLPYDWKTGEIHTSTFSLPSGDGITLENKSIEIDWLNQVTVSYLKYEKWSKGQLVQTELQRFAVRWYGIEEFKLLLESIGFSNITCSAEYAYKNEPSSANQMFTFEAVRKE				NA	NA	NA	NA	NA
AK009_01433	1743	pepX		Xaa-Pro dipeptidyl-peptidase	ATGTTGAGTAAAAAGAAAATGGCAATTACACTGTCAGCAATGCTATCTGCAACAATTATACCTAGCTTTACTATGGATGTGCATGCAGAGAATAAGGAAGAGACTAAAAATACGAAAATTGAATTAGAAAATGGGATGACAAAGCCGATTTATTCTCTCGATGAAGCTATTATCGAAAATTTATATGTAGAGACAGAAGTTGATAGTGATCGCGACGGTAAGAAAGACAGAGTATCGATAAAAGTTATGCGTCCAAAGACAGATCCGAATGTGAAGGTTCCTGTTATTTATGAAATGAGTCCATATCGATCTGGATTAAAAGATGTTCCTGTATATAATGTAGATGAAGAATTGTATGCGTATGAAGGAAAACCGTATGGAGCAGTTAATCTTGGTTCGTATGGGAACTATTACGTGCCAAGAGGTTATGCAGTTATTCTAGGCGAAAGTATAGGTACTGGAAAATCAGATGGATGCCCTACAACTGGAGATGAACAAGAAATACTCGGTACAAAGTCTGTTATTGATTGGGTAAACGGTCGCGCGAAAGCATTTACAGAACAGGGTGAGGAAGTTCAGGCAAATTGGTCTACAGGAAATGTAGGTATGACTGGCGTTTCTTATAATGGTACATTACCAAATGCTGTTGCGACTACTGGAGTTGAAGGTTTAAAAACAATTATTCCAATCGCAGCAATTAGTAGTTGGTATGATTATTATTGTGCAAATGGTGCAGTCATTGCTCCAGGCGGATATCAAGGAGAAGATACAGATAATATGGCAGAAGCAGTACTGACAAGAAAGAATTCAGAAGTTTGTGGTCCGATAATGACAGAACTTACTGCTGGACAAGATCGGAAAACGGGTAATTATAACGATTTTTGGGATAAAAGAAATTATGTAAAAGATGCTAAAAATGTAAAAGCGAGTGTATTTGTTGTTCATGGTTTAAACGATTGGAATGTTAAAACGAAACAGTTCGCACAATGGTGGGATGCTCTTGGAGAAAATGATGTACCTCGTAAAATGTGGCTACACCAAGGTGTTCATGGTGGGACATCAAGTAATAACTGGCAGCAAACACAAAATAAATGGTTAGATTATTGGTTGTACGGAATTGAAAATGGAATTATGGATGAACCAATGGTTGATGTGCAAAGAGAAAATAAATCGTGGCAAAAGATAAAAAATTGGCCAGATCCAGCGGCTGTACCTTCAAAAATCCGTATGTATTTAAGTAATAAATCAGTCAATTTGCGACTAAGTATGGGATCGGTTAATAAAGTTTTCTCATTCGTAGATGATGCACAAATAAAATCAAATCAATTAGTAGCAAACCCAGAATTAGAAGTAGCCAATCGATTAGTATATACAATGCCTGTACTGCAAAAAGATACGCGTATAAGTGGTATACCAAAGATTTCAATTACAGGAAATATTGATCAATCTGTATCAAATTTAACAGCATTACTTGTTGACTATGGAGGAGCGAAGCCGGAAATCGTAACGAGAGGCTGGATGGATCCACAAAACTTAAAGAGTATAGAAAATTCAACGGCGATTCAACCGGGCAAAGATTATACATTTACATGGGACATGCAGCCAGATGATTATGTATTTAAAGTGTGGCATCAAATCGAAGTTGTTTTAATTGCAAGTGATTATGATTATACAATTAGACCGAAAGCTGGAACGAAACTTACAGTGAAATTAAGTGAAGTGACATTGCCGATTGTGAAATAA	MLSKKKMAITLSAMLSATIIPSFTMDVHAENKEETKNTKIELENGMTKPIYSLDEAIIENLYVETEVDSDRDGKKDRVSIKVMRPKTDPNVKVPVIYEMSPYRSGLKDVPVYNVDEELYAYEGKPYGAVNLGSYGNYYVPRGYAVILGESIGTGKSDGCPTTGDEQEILGTKSVIDWVNGRAKAFTEQGEEVQANWSTGNVGMTGVSYNGTLPNAVATTGVEGLKTIIPIAAISSWYDYYCANGAVIAPGGYQGEDTDNMAEAVLTRKNSEVCGPIMTELTAGQDRKTGNYNDFWDKRNYVKDAKNVKASVFVVHGLNDWNVKTKQFAQWWDALGENDVPRKMWLHQGVHGGTSSNNWQQTQNKWLDYWLYGIENGIMDEPMVDVQRENKSWQKIKNWPDPAAVPSKIRMYLSNKSVNLRLSMGSVNKVFSFVDDAQIKSNQLVANPELEVANRLVYTMPVLQKDTRISGIPKISITGNIDQSVSNLTALLVDYGGAKPEIVTRGWMDPQNLKSIENSTAIQPGKDYTFTWDMQPDDYVFKVWHQIEVVLIASDYDYTIRPKAGTKLTVKLSEVTLPIVK				NA	NA	NA	NA	NA
AK009_01434	843	prsA3_2	COG0760	Foldase protein PrsA 3	TTGAAAAGAAAGAAATTAGTAATAGGTAGCATTTTAATGGGGATGACGTTATCTTTATCCGCATGTGGTTCATCAGATACTATTGTAACTACAAAATCAGGAAGCATTTCAGAAAGTGATTTTAACAAAAAATTAAAAGAAAACTACGGTAAACAGAATTTATCTGAAATGGTAGTAGAGAAAGTATTAGATGATAAATATAAAGTTACGGATGAAGAGGTAACGAAACAACTAAAAGAATTAAAAGACAAGATGGGCGATAATTTTAATACATATATGGAATCTAATGGTGTGAAAAATGAAGATCAGTTGAAAGAGAAATTAAAGCTTACTTTCGCTTTTGAAAAAGCTATTAAAGCAACCGTAACGGAAAAAGATTTTAAAGATCACTATAAGCCAAAGCTTCAAGTTAGCCATATTTTAGTGAAAGATGAAAAGACAGCAAAAGAAATTAAAGAAAAATTAAATAGTGGCGAAGATTTCGCGGCATTGGCTAAACAATATTCAGAGGATCCAGGTTCTAAAGAGAAAGGTGGAGAACTATCTGAATTTGGACCAGGTATGATGGTGAAAGAATTTGAGGATGCTGCATATAAGTTAGAAGTTGGTCAATTGAGTGAACCTGTTAAATCTTCCTTCGGATATCATATTATTAAGTTAACGGATAAAAAAGAGCTTAAACCGTATGAGGAAGAGAAAGAGAATATTCGTAAAGAATTAGAACAGCAACGTATACAAGATCCTCAATTCCATCAACAAGTTACTAGAGATCTGCTTAAAAATGCAGATATAAAGGTATCTGATAAAGACTTGAAAGATACCTTTAAAGAGTTAGAAAAATAA	MKRKKLVIGSILMGMTLSLSACGSSDTIVTTKSGSISESDFNKKLKENYGKQNLSEMVVEKVLDDKYKVTDEEVTKQLKELKDKMGDNFNTYMESNGVKNEDQLKEKLKLTFAFEKAIKATVTEKDFKDHYKPKLQVSHILVKDEKTAKEIKEKLNSGEDFAALAKQYSEDPGSKEKGGELSEFGPGMMVKEFEDAAYKLEVGQLSEPVKSSFGYHIIKLTDKKELKPYEEEKENIRKELEQQRIQDPQFHQQVTRDLLKNADIKVSDKDLKDTFKELEK				NA	NA	NA	NA	NA
AK009_01435	1377	sasA_5		Adaptive-response sensory-kinase SasA	GTGAATAAACTTGGAAAAAAGTTATTTTTCAGTATTTCTGCAACTGTTATTCTCATCTTTATGATTTCGTTATTATTCATTAACAATCTCTTACCGAACTATAATATTTATAAAACACGTGAAAACTTAAATAAATTTACAACACAAATACAAAATACAACAGTGGAAAATATAGAGGATGTTATTCATACAATTGAAAGTGAAAACAACGTTACAATTGCGTATACGCCAATTAATCAGTCAGAAGATGCTATGAACGAAGCATTACGCATGCAACTTACGAAAAAGAAAGTGACGTTAAATAAGCTTTGGATTACGAAAGACGAAGTCATGAAAGTGAAGACGGAAGGGCAATCGAATAAACTGTACGATCAAGGAAAGGTAAAAGCGAGTTTTTTTGCTAAATATATTGCGAAAGATGATACGATAATTTTAATTGGGACTTCTATTGCGAATTCAAATGAAATTATAAGTACGTTAAATACATTTTACTTATACATCGTATGTTTCTCGCTGCTTCTTATTATTTTACTTGTGTGGATACTTTCAAAAATAATAACGACGCCACTGAAAGAGCTAAGTGATGTAGCTCAGGATATTTCACATTTGCAGTTTAAAAGAACGAAAGTGAAAACGAATGATGAAATAGGAGAGTTGGCCAATAGTATTAATATCATGAGCGAAAAACTACATGAAGCACATCAAGATTTAACTGATCGTAATGAACATTTAAAACGATTTATGGGTGATGTGACGCATGAATTAAAGACACCGATCGCATTAGTAAAAGCATACTCTATGGGGATTAAAGATGGACTAGATGATGGGACTTACGTAGATACAATTATTAAACAAACAGATCAAATATCAAACTTAATTGAAGAACTATTACGATTTTCTAAACTAGAAAGAGATATTTTACAAAAAGAAGAATTCCCTATTGAACCACTGGTCCAGAGTATATTAGATAAGCATCAGATTGAACTGGATTCGAAAGAAATTAACTTGCAAGTAAACTGTAATACGAGCGATACAATCGTTTATGCAGATTTAAATAAAATGAGAATGGTATTTCAAAATTTAATTTCTAATGCAATAAAATATTCAGCAAATCAAAACATAATAATTACTTTAGAAGATAGAAATAAAAGTATATATTTTCAAATAAAAAATGGCATTCATACGGAAAAAATTAAAGATATCGATAAAATTTGGGAGCCTTTTTACGTACTAGAATTTTCTCGTAGTAAAGAAAAATCAGGTACAGGATTAGGACTAGCGATAGTGAAAAGTATTTTAGAAAGACATGGTTTTGAATATGGAGTTTCCTCTATAGATGGAGAAATTCAATTTTATATAAATGTGAAAAAGGATTAA	MNKLGKKLFFSISATVILIFMISLLFINNLLPNYNIYKTRENLNKFTTQIQNTTVENIEDVIHTIESENNVTIAYTPINQSEDAMNEALRMQLTKKKVTLNKLWITKDEVMKVKTEGQSNKLYDQGKVKASFFAKYIAKDDTIILIGTSIANSNEIISTLNTFYLYIVCFSLLLIILLVWILSKIITTPLKELSDVAQDISHLQFKRTKVKTNDEIGELANSINIMSEKLHEAHQDLTDRNEHLKRFMGDVTHELKTPIALVKAYSMGIKDGLDDGTYVDTIIKQTDQISNLIEELLRFSKLERDILQKEEFPIEPLVQSILDKHQIELDSKEINLQVNCNTSDTIVYADLNKMRMVFQNLISNAIKYSANQNIIITLEDRNKSIYFQIKNGIHTEKIKDIDKIWEPFYVLEFSRSKEKSGTGLGLAIVKSILERHGFEYGVSSIDGEIQFYINVKKD				NA	NA	NA	NA	NA
AK009_01436	648	phoP_1	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAAAGTTTTAATTGCAGATGACGAACAAGATATGTTAAGAATTTTAAAAGCTTATTTTGAAAAAGAAGGCTTCGAAGTTTTATTAGCGAAAGACGGAGAGGAAGCACTTCAAATGTTTTATGATGAAAAAATTGATTTAGCAATTTTGGATTGGATGATGCCGAAACATAGTGGTATTACTGTCTGTCAGGAAATAAAAAAGAATTCAAGCGTAAAAGTGTTAATGCTTACGGCGAAAAGTGAAAGCGAAGATGAATTAGCAGCGCTTCAAAGTGGGGCAGATGAGTACGTAAAAAAACCATTTCATCCAGGAGTACTAATTACACGAGCGAAAAAGCTTATTCAGCATGATGATATTATTCAAGTACAAGATGTAAAGATAAATTTCGCCAAAAATAAAGTATATAAAAATGATATAGAGTTAGAAATTACAAAAACAGAGCTCGAATTAATAAAATGCTTTTTAAATCATAAAGGAACGATTTTAACTCGTAAAAAATTGCTAGATATTGTATGGGGATTTGACTATTTTGGAGAAGAGAGAACTGTTGATACACATGTAAGAAGGCTGCGTAAAAAAATTGGAGAAAATATTATTAAGACGCATCGCGGGCTGGGCTATAGTTTGGAGGAACAAAGTGAATAA	MKVLIADDEQDMLRILKAYFEKEGFEVLLAKDGEEALQMFYDEKIDLAILDWMMPKHSGITVCQEIKKNSSVKVLMLTAKSESEDELAALQSGADEYVKKPFHPGVLITRAKKLIQHDDIIQVQDVKINFAKNKVYKNDIELEITKTELELIKCFLNHKGTILTRKKLLDIVWGFDYFGEERTVDTHVRRLRKKIGENIIKTHRGLGYSLEEQSE	PGPT0002665_1923	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK009_01437	417			hypothetical protein	ATGATAAAAAAAATCGGGGTCATTTCTCTTCTTTTATTTCTATTATCAACAAATGCGTTCGCAAAAACCAATCAACAAATTGAAGTATTTGATTGTCAAAAAGAAATGGTCATTCAAAAACAATCTTTAGATCCAGTAATCCAAAAAGAAGCAGTTCAATACGCTAAAGCAATAACCGGTCCATTTAAAAACTTAAATGTCGTTCCAAAAGATGGCTATATGATAAAAATCCCATTATCTAAGCCGGTTTCTATTACTAATCAATGGTTACACACTACAATAGACGAAGTACTTATACTGCTCCCACTAAATGAAAAGCCTTATATTATGCTTTATGATGATGAAAATAATCCGCATTTTTATTATGTAAAAGGTAAACCAGGATTATTATTGAAACAAATGAACGTTAAAACGTAA	MIKKIGVISLLLFLLSTNAFAKTNQQIEVFDCQKEMVIQKQSLDPVIQKEAVQYAKAITGPFKNLNVVPKDGYMIKIPLSKPVSITNQWLHTTIDEVLILLPLNEKPYIMLYDDENNPHFYYVKGKPGLLLKQMNVKT				NA	NA	NA	NA	NA
AK009_01438	495			hypothetical protein	ATGATTCTCGAGCATTTTTATGTGTTTTCATACTTAGGGGGAATGGACTTGAAAGATATACATATTCAAAAAATAGAAAATTTAATGGAGTATGAATTCAGTCATCTCGTTCAAGACAGTGAAGAAGAAGGTTTTAATTTCCTTATAAGACTAATAAATGAATATAAAAACAAAATAAATGTATTTAATAAAACTGGAGAATGTTTATATGGTGTTTTCCAAGGTGATATGTTAATTGGAGTTGGAGGTTTAAATGAGGATCCGTACACAAAAGACAATAAGATTGTGCGGTTAAGGAGATTTTATATTTCAAGGGATTATCGGCGTATAGGGTTAGGGAACTTATTATTAAACCAACTATTATGTCATGCGGAAAAGTATTTTGAAGTGATTGTTTTACATGCTGACACGAAGCAAGGGGATGTGTTTTATACTGCAAATGGATTTGTAAAAGGGGGATTATATAAGGGATCGAGTCACTACAAACTATTATAG	MILEHFYVFSYLGGMDLKDIHIQKIENLMEYEFSHLVQDSEEEGFNFLIRLINEYKNKINVFNKTGECLYGVFQGDMLIGVGGLNEDPYTKDNKIVRLRRFYISRDYRRIGLGNLLLNQLLCHAEKYFEVIVLHADTKQGDVFYTANGFVKGGLYKGSSHYKLL				NA	NA	NA	NA	NA
AK009_01439	1401	mtnN_1		5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGAACAGAATCGGCATTATTGGAGCAATGCAAATTGAAATAGATTTACTTTTAGAAAAACTAGTTATACAAGAGGAACAGACAATAGCGGGAATGCCTTTTTATATTGGAGAATTCATGGGGATAGAAGTAATTATTACACGTTCTGGTGTAGGGAAAGTAAATGCAGCTGCATGCGCGCAAACATTAATTCATAAATTTGATGTAGACTCTATCATTAATACAGGCGTTGCTGGTGGGTTACATCCAGATGTAAAAGTTGGCGATTTAGTTATTTCAACTAACGTAACCCATCATGATGTAAGTAAAAATCAAATGAAAAACTTATTTCCGTTCAAGGAAGAATTTATCGCAAGTAAGGAATTGGTAGAGTTAGCACGTAAAGCATGTAATAGTAGTAGTTTACGTACTAGGGTTCATGAAGGAAGAATCGTCAGCGGTGAATGTTTTGTTGAAGATTCAAAGTTAAAGGCGAAATTAATAGACGAATACGCACCTCATTGTACAGAAATGGAAGGAGCAGCAATTGGACATGTCGCCTACATAAATGATATACCGTTTCTTGTTATAAGATGTATTTCTGACAGTGCAGATGATGAAGCTCAAGTTTCTTATGATGATTTCGCGAAAACTGCCGCAAATTATTGTTCAGAAATTATCGTTGAGATGCTGAAAAATATATCGAGTAATACTTATAGTTCAAAAGGGGAGAATGACATGTTACAAGCGTTAATTTTTGATATGGACGGAACGTTATTTCAAACAGATAAAATTTTAGAATTATCGTTAGATGATACTTTCAATCACTTAAGATCACTACAACTATGGGATACAGTAACACCAATTAATAAATATAGAGAAATTATGGGTGTGCCGTTACCGCAAGTTTGGGAAGCTTTATTACCGGACCATTCTATTGAAGTAAGAGAACAAACAGATGCATATTTTTTAGATAGACTAATTGAAAACATAAAAAGCGGAAAAGGCGCTTTATATTCAAATGTAAAAGAAATATTTACATATATAAAAGAAAATAATTGTTCAATTTACATTGCTAGTAATGGTTTAACTGAATATTTACGAGCAATCGTAACTTATTATGCTTTAGACAAGTGGGTGACTGAAACGTTTAGTATTGAACAAATACAATCGCTAAATAAAGGTGACTTAGTTAAAAGTATTATGAACAAATATGATATAAAAGAGGCAGCGGTAGTTGGTGACAGGCTATCTGATATAAATGCAGCGAAAGACAACGGTTTACTTGCGATTGGATGTAATTTTGATTTTGCGCAAGAAGATGAACTTGCTCAGGCTGATATAGTAATAGATGATTTAATGGAGTTGAAGGGGATATTATCTGAAGTGAAGAATACGCACGCTATGAATTACATAAAGTAA	MNRIGIIGAMQIEIDLLLEKLVIQEEQTIAGMPFYIGEFMGIEVIITRSGVGKVNAAACAQTLIHKFDVDSIINTGVAGGLHPDVKVGDLVISTNVTHHDVSKNQMKNLFPFKEEFIASKELVELARKACNSSSLRTRVHEGRIVSGECFVEDSKLKAKLIDEYAPHCTEMEGAAIGHVAYINDIPFLVIRCISDSADDEAQVSYDDFAKTAANYCSEIIVEMLKNISSNTYSSKGENDMLQALIFDMDGTLFQTDKILELSLDDTFNHLRSLQLWDTVTPINKYREIMGVPLPQVWEALLPDHSIEVREQTDAYFLDRLIENIKSGKGALYSNVKEIFTYIKENNCSIYIASNGLTEYLRAIVTYYALDKWVTETFSIEQIQSLNKGDLVKSIMNKYDIKEAAVVGDRLSDINAAKDNGLLAIGCNFDFAQEDELAQADIVIDDLMELKGILSEVKNTHAMNYIK	PGPT0014320_3	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
AK009_01440	750	tarA		N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	GTGGATCAGCAGTTTATAAAAGGTATACCTTTTTCAACTTTAGAATATGCAAAAGCTATAAGTTTATTAAAAGGTTGGCTACATGAACAACAAGAGAAACCAAGGTTTGTAGTAACTGCAAATCCTGAAATTGTTATGTCTGCAAAGGAAAATACGGAAAAATCAAAGCAGTTTAAAAAGATGTTACTATCTGCGGATTTAATAACAGCGGATGGGATTGGTGTCATAATTGGCTCGAAAATATTAAAAGGAACTTTGAAAGAACGTGTTACTGGAGCGGATTTAACTCACGATTTAATAAAATATTGTAACGACAATGAATATCGTGTCTTTCTTTTTGGAGCCGCTCCAGAAAGTAATAAAAAGGCATTAGAAAAATTAAATGAGCAGTTCCCAGGAGCGCAGTTTAAAGGACAGCATGGATTTGTAAATGGTGAAGAAATAGAAGAAATAAAAATGAAAATTAAGCAATTCAAGCCGCATTTACTACTAGTAGGACTAGGTTCACCAAAACAAGAAGAGTTCATCTATGAAAACATACAAACATTAAACGTTCCGCTATCTATTGGTATCGGAGGCATGATTGATATAATATCTGGTACTGTAAAAAGAGCACCGAAAATGATGAGGGATACCGGAACTGAATGGCTGTATAGGTTACTCTCACAGCCGAAAAGGTTAAAGAGACAACTTGTACTTCCGAAATTTTTATTGTCGGTTATGTCTGAGAGGATTAAAGGGATTAATTAA	MDQQFIKGIPFSTLEYAKAISLLKGWLHEQQEKPRFVVTANPEIVMSAKENTEKSKQFKKMLLSADLITADGIGVIIGSKILKGTLKERVTGADLTHDLIKYCNDNEYRVFLFGAAPESNKKALEKLNEQFPGAQFKGQHGFVNGEEIEEIKMKIKQFKPHLLLVGLGSPKQEEFIYENIQTLNVPLSIGIGGMIDIISGTVKRAPKMMRDTGTEWLYRLLSQPKRLKRQLVLPKFLLSVMSERIKGIN	PGPT0023455_1224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
AK009_01441	1590			hypothetical protein	ATGCAAGGAATTGCTAGATGGGATTTAAATCGATTGTATTTGAATGAGGATATTCTATTTCCGATTTTAGAGTTGAAAGAGCAATATTTTGTAACAAAAGATGTAGAGGTTCTTTCAAAGCTTATACAAGCTATTGAAAAAGCAGAATACTATTTGTATTGTCAATGGGTTGAAGAAAGTGTTTCATCTGACCTTACTAAATTGAATGTGAAAGTGAAGGAACTAAAAAGTGAAGTACAGCAAATAATAAAACATAGTGAAGTAGAAACTTCCGATAATATTAATATTAAGTTTATAAAAAATGAACTTAGTGCGTGGGAAGATATGTACATACAATTACGGGATAGGATAGAAATAGAGCACAATAATAAACAATTATCCTTTGGACAAGCAAATAATATTGCAATGAATAGTGAAAATGAAAAGGAAAGATTAGAAGTATTCGAGTTACTTACAAGTACTTTACATAAGGAAAAAGAAATCTTTGCTACTGTATTAAATCAAATAGGGAGATTGCGTAATGCAAAGAGTAATGAAATAGAAGATAGAGAGATTTTAACACAATCTTTTCATGCGAATGGCATTTCAGAAGCTGTATTATTCCAAATGTGGAATGCGACAGAAGAAAACCTTGATAAATTAGTAAGTGCTTTAAACGTGTATAAGAAGGGAAAAGAGTCAATTACATGGCATGAACTTATGACAGTAAAGGAAAGTAATGAGGTTATAATTCCTTTTTCAGTAGCAGTACAAAACGTTTATGATGCATGTAAGAATATTGATGAAGAATTAGCAGAATTTGCACGTAATGCGATAGAAAGTGGATGGGTAGATGCTGAACCGAGAGAGAATAAACCACCAGGTGGGTTTTGTGCTCCATTTTTCAGTGAGAAAGAATCACGAATTTCAATGCGCTATGATGGGAGTATAGATAGTGTAAGAGTGCTCGCTCATGAATTAGGACACGCTTGGCATTTTTATAATATGAGTTTCGAACAATCTATATCTTTTTTAGATGATAATTTGCCAATGAGTACGGCTGAATCAGCATCTATTTTCTTTGAAACGGTACTCTTAAATTATCTAATTGAAACAACGGATAGTAAAGATATGAAAAAGTCATTACTTAGCTGGAAAATAAGAAATAGTTTTAATTATGTAATGGCAATACGAGCATCGTATCAGTTTGAAAAAACATTTTATGAAAAATGTAAAGAGGGTCCTTTAAGTGCTGATGAAATTGAGAAATTATCTATAATGGCACAGAAAGAAGCTTATGGAAATGCTTTAAGTGAATACCAACCGTTTGTATGGATGAAATATATTCAATTTTATATAGCAGATGTTCCTTTTTACAATTATCCATACACATTTGGATATTTAGTAAGTTTTAGTTTATTAGAAATCGCTCAAGAAAGTAAAGGTACTTTTCATTCGAAATATAAAGAGTTTTTACGAGAAACAGGAAAGGTTCCAGTAGAGGAGCTTATGAAAAAATATTTTGAAATAGATATAAGAAATTATGAATTTTGGAATAAGGCTTTTATTCAAATTTCTAAAGATATTGATGAATATTTGCAGCTTATGTAA	MQGIARWDLNRLYLNEDILFPILELKEQYFVTKDVEVLSKLIQAIEKAEYYLYCQWVEESVSSDLTKLNVKVKELKSEVQQIIKHSEVETSDNINIKFIKNELSAWEDMYIQLRDRIEIEHNNKQLSFGQANNIAMNSENEKERLEVFELLTSTLHKEKEIFATVLNQIGRLRNAKSNEIEDREILTQSFHANGISEAVLFQMWNATEENLDKLVSALNVYKKGKESITWHELMTVKESNEVIIPFSVAVQNVYDACKNIDEELAEFARNAIESGWVDAEPRENKPPGGFCAPFFSEKESRISMRYDGSIDSVRVLAHELGHAWHFYNMSFEQSISFLDDNLPMSTAESASIFFETVLLNYLIETTDSKDMKKSLLSWKIRNSFNYVMAIRASYQFEKTFYEKCKEGPLSADEIEKLSIMAQKEAYGNALSEYQPFVWMKYIQFYIADVPFYNYPYTFGYLVSFSLLEIAQESKGTFHSKYKEFLRETGKVPVEELMKKYFEIDIRNYEFWNKAFIQISKDIDEYLQLM				NA	NA	NA	NA	NA
AK009_01442	861		COG1307	Fatty acid-binding protein	ATGGGTGTTAAAATCATTACGGATAGTGCGGCGGATTTACCAGTAGAATTGCTGCAAGCATATGATATTGATTTAATTCCACTCCGTGTATATGATGAAGTAGAAACAGAGTATTTAGATGGAGTAACATTAGAGTCAGTTACATTACTGCAAAAAATGAGAGAAGGCGCTGTTTATAAAACGTCATTGCCTTCACTTGAAACTTTCCAAGAAAAATTTGTTTCTTATGCAAAAGAAGGTAATCCTTGTATATATTTAGCTTTTTCATCTGAACTGTCTGGTACATATCAATCATCAGTTGTCATTAAAGAGGAAGTAAAAGAAACATATGCAGATTTAGATTTAGAAATTATTGATACGAAATGTGCTTCGCTTGGTCAAGGGCTTGTCGTATTAGAAGCTGCTAAAATGGCAAAAAACGGCGCATCAAAAGAAGACATATTAAAACGTGTCGCTTTTCTAATGAACCATATGGAACATATCTTCACTGTAGCTGACTTACAGTACCTTGTTAGAGGCGGGCGCTTAAGTAAAGTAGCAGGATTTATCGGTGGTTTATTAAACATTAAGCCGATTTTGAACGTGGAAGAAGGAAAACTTGTCCCACTTGAAAAAGTACGAGGGAAAAAGAAAGTATTAAGCCGTATTGTTGATATTATGGAAGAACGTGGAAAATACCTTAAAGGTCAAACAATCGCTATGACTCACGGTGACGACTTAGAAACAGCTGAAGCGTTAAAAGCATTAATTACTGAAAGATTTGGCTGTGAAGTATTTATCGTAAATACAATTGGTGCAGCAATCGGTGCACATACAGGTCCTGGCGTTATAACGTTATTTTTCTTAAATGAAGTAGAGTAA	MGVKIITDSAADLPVELLQAYDIDLIPLRVYDEVETEYLDGVTLESVTLLQKMREGAVYKTSLPSLETFQEKFVSYAKEGNPCIYLAFSSELSGTYQSSVVIKEEVKETYADLDLEIIDTKCASLGQGLVVLEAAKMAKNGASKEDILKRVAFLMNHMEHIFTVADLQYLVRGGRLSKVAGFIGGLLNIKPILNVEEGKLVPLEKVRGKKKVLSRIVDIMEERGKYLKGQTIAMTHGDDLETAEALKALITERFGCEVFIVNTIGAAIGAHTGPGVITLFFLNEVE				NA	NA	NA	NA	NA
AK009_01443	453	cotX		Spore coat protein X	ATGGAAAAAACATGTCATTCAGATGGAAATAAAAAGTGGAGTGCATTAGATTCTTCAAATCCTCATCCGTCTTTTAAAAATGCTAGCGTTTCAGAAGCAGCTGCGCAAGAAAGTAAAACTTATCAAATTTCTGAAGAATCTATTACAATAGTTGATTCAGCAGATGTAGAAGTTACTACTACTGATACAAAAGCTGCGTTATCTATTCAAGCAGCTTTACAAGCAGCTATTGTGGTTATAATAAGTATTTCTATAGCAGATAGTGAAAAAGCTGATCGTGTAGCACAAGAATTGTTTCAAAAATCATCTATTAAACAAATTAATAAACAAGAAACTGTTATTAGAAATTCTAGAAATGTTACAGTTACGACTACGGATACAGACATAGCAGTAAATGTTCAAATTCTTCTCCAAATTTTATTAGCTTTACTAGTAAAATTAAATATTTTATAA	MEKTCHSDGNKKWSALDSSNPHPSFKNASVSEAAAQESKTYQISEESITIVDSADVEVTTTDTKAALSIQAALQAAIVVIISISIADSEKADRVAQELFQKSSIKQINKQETVIRNSRNVTVTTTDTDIAVNVQILLQILLALLVKLNIL	PGPT0025225_87	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025225-cotX-K06342	NA	NA
AK009_01444	201			hypothetical protein	ATGGATGATTTAAATAAATTTTCTTCCTTTAAGTTTGATAAAGATCAAAAGAATATAATTATAGACCTTTTACTCTCAGATATTTTTAATAGGCATGGGATAAATGAAGAAAAACTAAAAAATTTATCGCCAGAAAAAAAGCAGCAAATTAAAAGTATTATTTCTGAAATACAATCACAGGTTAATAATTATTTAGATTGA	MDDLNKFSSFKFDKDQKNIIIDLLLSDIFNRHGINEEKLKNLSPEKKQQIKSIISEIQSQVNNYLD	PGPT0025220_68	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025220-cotW-K06341	NA	NA
AK009_01445	549			hypothetical protein	ATGTGTGATTGTGAAGTTTGTAGACGAAAGAAAAACCGGGATCCATTAAATCGGGATTCTGAACGAAAAAAAGTGGATTCTGAGCCAATAAAAAAGGATTGTGAACCAAAAAAACAGGTTTCTGAGCCAATAAATCAGGATTCCGAATCAGTAAATTCTTATTCATATAGTAAAAATGCAAATTTTTTAGAAGAAGCTATACAAACAGATGAAATCGATCAAGTTTCTGAGGAATATATTGAAATAGTAGATTCAGCAGATGTACAAGTTACTACTACAGATACAAAAGCTGCGCTATCCATCCAAGCTGCGTTACAAGCAGCTATTGTGGTTGTAGTAAGTATTTCTATAGCAGATAGTGAAAAGGCAGATAAAATAACACAAGAATTGTTTCAAAAATCATCTATTAAACAAATTAATAGACAAAAAACATTTATTAAAAATTCCAGAAACGTAACCGTAACAACTACTGATACAGATATTGCAGTGAATATTCAAATTCTCCTTCAAATTTTATTAGCGTTACTAGTTAAACTAAACATTTTATAA	MCDCEVCRRKKNRDPLNRDSERKKVDSEPIKKDCEPKKQVSEPINQDSESVNSYSYSKNANFLEEAIQTDEIDQVSEEYIEIVDSADVQVTTTDTKAALSIQAALQAAIVVVVSISIADSEKADKITQELFQKSSIKQINRQKTFIKNSRNVTVTTTDTDIAVNIQILLQILLALLVKLNIL	PGPT0025225_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025225-cotX-K06342	NA	NA
AK009_01446	432			hypothetical protein	ATGAGTATTCAACTAGCTACATCTAACGATTTAAAATGGATTAATAATCAATATGAATCAATAGGATTTGTACGAAGTGATTTAAAGAGAGATAAAGTTGCAATTATTACATATAACAACGAGTATGCAGGTGTTGGACGATTAGTCCAAATAGATGCAGATACTATAGAAATGGGCGGGATTTTTATTCTCCCTAAATTTAGAGGGCTACAATTAGCTGGTGAGCTTGTTTCATTTTTAGTAGAAACTGTAAAAAAATCACAAATACAAGATGTATATTGTCTTCCTTTTGAGGAATTAGAAAACTTTTATAAGAAATATGGCTATACTGAAGTCGATACTACGAAAGAAGCAGTCCATCCAATTATTCTAAAAAAATATAATTGGTGTTTGGAGAACTACGATAAACACGTTCTACTATTTAAATTGTAA	MSIQLATSNDLKWINNQYESIGFVRSDLKRDKVAIITYNNEYAGVGRLVQIDADTIEMGGIFILPKFRGLQLAGELVSFLVETVKKSQIQDVYCLPFEELENFYKKYGYTEVDTTKEAVHPIILKKYNWCLENYDKHVLLFKL				NA	NA	NA	NA	NA
AK009_01447	771			hypothetical protein	ATGATACATGAAGCGAATATACATACAAGAAAAAAACTAGTTTCTATGTTTGATGATTTCAATAACGTTATTTTACTTTCTTATTTACAAGGGCATATGGGGACTGCTTGGGTAAATGATCTTGAAAATCCAACAGTAGCACAAGTTACGGTAGGAATTTTCACATTTTACGCTGGAGACCCAAATGTGCAAGAAACAGAAGAGTTATTACGTAACATTCCTGAAAGAATTTTAGTTATCGTAAATAGTGAAGAGTGGAAACAACGCTTAGAAACATTCCATGAAAGAAAAATAGATAAGTTTTTACGCTATAAGTTCAAACGAAATTCAGAAGGTTTTAATCGTTCAAAATTACAGTCTTTTATATCAATACTTCCAAAAGGATATGAGTTAAAAAGAATAGATGAGCATATCGCAAATAGCCCTACATTACATAAAATCTCTGAAGATTTTATAAGTCAATTTCAGTCGGTAGAAGATTATATAAACCGTGGTATAGGTTATAGCATTTTATATAACGGAGAAGTTGTATGTGGTGCATCCTCGTATAGTATTTATAATGATGGAATTGAAATTGAAGTTGCGACTGATCACAATCATAGAAGAAAAGGCTTGGCAACTGTAGTTAGTGCAGCTCTTATATTGGATTGCTTAGAAAATGGAAAGTATCCAAACTGGGACGCAGCGAATACTACATCTGCTAACCTAGCAGAAAAGTTAGGATATGTTTTTGATAAAGCGTATGATACTTATTTTGTGGATAATAGATGA	MIHEANIHTRKKLVSMFDDFNNVILLSYLQGHMGTAWVNDLENPTVAQVTVGIFTFYAGDPNVQETEELLRNIPERILVIVNSEEWKQRLETFHERKIDKFLRYKFKRNSEGFNRSKLQSFISILPKGYELKRIDEHIANSPTLHKISEDFISQFQSVEDYINRGIGYSILYNGEVVCGASSYSIYNDGIEIEVATDHNHRRKGLATVVSAALILDCLENGKYPNWDAANTTSANLAEKLGYVFDKAYDTYFVDNR				NA	NA	NA	NA	NA
AK009_01448	780			hypothetical protein	GTGGATTGTGAGCCGAAACGTGATTGTGGATGTTGCCAAAATAGTATATGTGAATTTTTACAAAGTCTAGAACCGTATACTAAAGTTGAAAGTATTGTAATAGTAGGAAACGAAATCGTTGTATCTTATTTTCTTTCATTTAATGTGATGAAAGGGATTGTATCATTCGTACAAGAAGACAGTGAGGATATTTTTGTAGATTGCTCAAAAATTGATGTAATCCGAATAGGAAAAGTTTGTAGTTGCAAATCGAAAGTTAAATATATTGAAGAGGACTTTAGCTTGCTAGGAAATGTGTGCCCGCAATGTTTAACAGAGGGGAGTACAATCTTTTTTGATTTTCATAATCCAGAATTAAATTTATCTTTACAAGCGAAAACAATTGATGCACCTATATGTACTGAATTTACAGATGAACTTGGGAATGTAGTAAAGCAATTTGCAATTGTAGGTGAAGCGATTGTTTCTAAGGATTTTGTTCAAGTACCTGAACTGTTAGATTTTCGATTAGTTTTATCGGATACTGCTGCGAACCCTTTGAAGTTTGGAATGCTGTTCATTAATTTTCCTGATATTACATTCGTTATTCTTTTCGCATCTAGTGGATACTTAAACATTTCAAATTGTTTAAAGGTAGAGAGTGGAACTGGTAATATCGAAATAGAAGAGCTGAAAAAAATGATAAAGGATGACGTTAACACGTACAAGTCAGTTGTTAAATTGACTAAAGTATATAAAAATGGTGAAATGGAATCTTTTATTTCTAAGAAGGAGTTATAA	MDCEPKRDCGCCQNSICEFLQSLEPYTKVESIVIVGNEIVVSYFLSFNVMKGIVSFVQEDSEDIFVDCSKIDVIRIGKVCSCKSKVKYIEEDFSLLGNVCPQCLTEGSTIFFDFHNPELNLSLQAKTIDAPICTEFTDELGNVVKQFAIVGEAIVSKDFVQVPELLDFRLVLSDTAANPLKFGMLFINFPDITFVILFASSGYLNISNCLKVESGTGNIEIEELKKMIKDDVNTYKSVVKLTKVYKNGEMESFISKKEL				NA	NA	NA	NA	NA
AK009_01449	321			hypothetical protein	ATGGCTAAAATTAAAGTATACCAAGTAAAAGAAGAAAATATGGAAGCAGTAAAAAACATCATTGATGTTGAGGAACAAAACCCAACTGCTGAAAACTTACAAAATCTATATGCATGTGTATTAGAAACTGAAGATATGGCATTGCCTGAATCATACATTGAAGAAGATATCTTAATCGATTCTATGGAAGTTATGGTTAACGCTTCTCAAAGCAAAGTAAGAGACTTAGGTGCATACGATGTAATTGAAGTTCAAAACAAAGGTAAGAAAACACAAATTTTATTACTTGCAGACGAAGAATACGAAATTATTGAAGGCTAA	MAKIKVYQVKEENMEAVKNIIDVEEQNPTAENLQNLYACVLETEDMALPESYIEEDILIDSMEVMVNASQSKVRDLGAYDVIEVQNKGKKTQILLLADEEYEIIEG				NA	NA	NA	NA	NA
AK009_01450	1536	bmr3_1		Multidrug resistance protein 3	ATGGTTGAGAAGAATAATAGGCTCGGCTTTGTTGTAGCGGGCTTATTGCTAGGTATTTTAATGGCATCAATGGATAATACCATTGTCGTTACAGCGATGGGAACAATCGTTGGTGATTTAGGAGGCCTTGAAAACTTTGTATGGGTCGTTTCTGCCTATATGGTCGCAGAAATGGCAGGTATGCCGATATTCGGAAAACTATCAGATATGTATGGTAGAAAGAGGTTCTTTATTTTCGGTTTAATCGTCTTTATGATTGGTTCGGCACTTTGTGGTACTGCTGAAAATATTACACAGTTAGGGATTTATCGTGCCATTCAAGGTATTGGCGGCGGGGCATTAGTGCCGATCGCGTTTACTATCGTTTTTGATATTTTCCCTCCTGAAAAGCGTGGGAAAATGGGTGGTTTATTCGGAGCAGTATTTGGTTTATCAAGTATTTTTGGTCCGTTGCTTGGTGCGTATATTACAGATTACATAAGCTGGCACTGGGTATTTTATATTAACTTACCGCTTGGCGTTTTAGCACTTATTTTTATTACATTCTTTTATAAAGAGTCAAGAGTTCATAGAAAGCAAAAAATTGATTGGTTTGGCGCAATTACTTTAGTTGGAGCAGTAGTTTCTTTAATGTTTGCGCTTGAACTTGGCGGACAAAAGTATGATTGGGATTCTAACTTTATTTTAAGTTTATTTGGTGGATTCGCTATTTTAATTATTGCATTCATTTTTATTGAACGTAAAGTAGAAGAACCGATCATTTCATTTGAGATGTTTAAACAACGTTTGTTCGGAATGAGTACAATTATTGCTTTATGTTACGGAGCTGCGTTTATGTCAGCAACTGTATACATTCCATTATTCATTCAAGGTGTATACGGTGGCACTGCAACAAACTCGGGATTATTACTTTTACCAATGATGTTAGGCTCAGTCGTAACAGCGCAGTTAGGTGGGTTTTTAACGACAAAGCTTAGCTACCGAAACATTATGATCATTTCTGCGGTTATTATGCTAATTGGACTATTTTTATTAAGCACATTAACGCCAGAAACAAGTCGTGTATTATTAACAGTGTATATGATTATTATCGGATTTGGAGTCGGCTTCTCATTCTCTGTACTAAGTATGGCAGCTATTCACAACTTCGGTATGGAACAGCGCGGATCTGCGACTTCGACGAGTAATTTCATTCGTTCATTAGGTATGACACTTGGTATTACAATCTTCGGAATGATCCAAAGAACAGGTTTCCAAGATCAATTAGAAGAAGCATTTAAAGGCATGAGCGGGGGAATGAATACAAACACATTAGGGGATTCAAGAGCCATTTTATCAGAATCGGCAAGATCTCAAATCCCTCCGCAAATATTAGATAAGATTATTGATGCTCTTTCTAGTTCAATTGTTCAAACATTCATGTGGGCATTGGTACCAGCTGGATTAGCATTCATATTCATTTTCTTTATGGGAAATGAGCGCATGGTAATTAAGAAAGAACAAACAAATAAAAAAAGTGAAACATCAAAAGCGTAA	MVEKNNRLGFVVAGLLLGILMASMDNTIVVTAMGTIVGDLGGLENFVWVVSAYMVAEMAGMPIFGKLSDMYGRKRFFIFGLIVFMIGSALCGTAENITQLGIYRAIQGIGGGALVPIAFTIVFDIFPPEKRGKMGGLFGAVFGLSSIFGPLLGAYITDYISWHWVFYINLPLGVLALIFITFFYKESRVHRKQKIDWFGAITLVGAVVSLMFALELGGQKYDWDSNFILSLFGGFAILIIAFIFIERKVEEPIISFEMFKQRLFGMSTIIALCYGAAFMSATVYIPLFIQGVYGGTATNSGLLLLPMMLGSVVTAQLGGFLTTKLSYRNIMIISAVIMLIGLFLLSTLTPETSRVLLTVYMIIIGFGVGFSFSVLSMAAIHNFGMEQRGSATSTSNFIRSLGMTLGITIFGMIQRTGFQDQLEEAFKGMSGGMNTNTLGDSRAILSESARSQIPPQILDKIIDALSSSIVQTFMWALVPAGLAFIFIFFMGNERMVIKKEQTNKKSETSKA				NA	NA	NA	NA	NA
AK009_01451	708			hypothetical protein	ATGGAACATCAACACAGTCTTACTGTTAATGGTTCTGGTATTTCAGCGGGCGGAGATTATAATAAAGTAAAGATTCGCGGTGAAGGAACGATTTCTAATGATATGAGCTGTAATGAATTTAAAACGTACGGCACGAGTGAAGTGTGCGGTAATATGAAAGTGAAAAGTTATGTCGTGTATGGAGATAGTGAAGTACAAGGAAATGTAGATGCGGAATCTGTAAAAGTATACGGAAATACACAAATGCATAGTGATGCTCATATTGAAAAAATAAAAGTAAGAGGTATGATAGAAGTTAAGGGGAAATTAACTGGTGATTTCGTAGATGTGAAAGGCGCTTTAAATGTAAAAGGAGATATTGAAGTTGAAGAACTATCACTAACTGGTGGCCTTGAAAGTGATGGATTACTTAATGCTGAAAATATTGAAATTTCACTTCGTTATGAAGGTAGCAAAGTAAGAGAAATTGGCGGTCAGAAGATTACCGTTCGTAAAAAAGCGAGATTTATTCCATTTACCAATCATGCTGGAAGCCTCCAAACATCTATCATTGAAGGAGATGATATCTATTTAGAACATACGATTGCTGAAGTTGTAAGAGGAAACAACGTTACAATTGGTCCTGGATGTGAAATTAGTATTGTAGAATATCATACTAGTTTTAACCAAAAAAGTAATGCAGTCGTAAAAGAACATAAACAAATATAA	MEHQHSLTVNGSGISAGGDYNKVKIRGEGTISNDMSCNEFKTYGTSEVCGNMKVKSYVVYGDSEVQGNVDAESVKVYGNTQMHSDAHIEKIKVRGMIEVKGKLTGDFVDVKGALNVKGDIEVEELSLTGGLESDGLLNAENIEISLRYEGSKVREIGGQKITVRKKARFIPFTNHAGSLQTSIIEGDDIYLEHTIAEVVRGNNVTIGPGCEISIVEYHTSFNQKSNAVVKEHKQI				NA	NA	NA	NA	NA
AK009_01452	711			hypothetical protein	ATGCGTACAGATAATTTGATTATAAATGGTTACGGTTCATCCAATGGCGGCGAGTTTCATAAAGTACAATTAAACGGAAAAGGAACTGTGAATGGAAATGTTGAATGTGAGCAATTTGAATGTAACGGTTACGGTGCAGTTACTGGCGATTTGAAAAGTAGCAGTGCACGAATTAGCGGATCTGGTAAAGTCGATGGCACAGTTCATGCTGAAACGATGCGAATTGATGGGAAAGCAACAATTACGCAAGATGTAAAGGCAAACAGTTTGAAAATTGCAGGAAAAGGTACGATAGGTGGAAATGTCACTGGTGAAGAATTTAAGGTCAATGGTCAAGCTACAATTGACGGTAATTGTGAAGTGGATACTTTTTCTTCAGAAGGACAATTTACAATTGGCGGATTATTAAGCGCTGATGAAATAAATATTAATATTCACGGTACATGTCGAGCGAAAGAAATTGGTGGTCAAACGATTAAAGTAAAGCATAGACTAAGTACTTTTAGTAGGCTGTTTAAATCAGTATTTGGTATGCAATTAGAGGCTGAACTATTAGAAGGTGACAATATCGATATTGATTATGCTCACATAAGAACGGTAAGAGGAAATAATGTTACGGTAGGACCGAACTGTGAGATTGAACTAATCGAATATACGGGTGTTCTTACTGTTGATAAAAGCGCAAATGTAAAAGAAATTAAGCAGATTTAA	MRTDNLIINGYGSSNGGEFHKVQLNGKGTVNGNVECEQFECNGYGAVTGDLKSSSARISGSGKVDGTVHAETMRIDGKATITQDVKANSLKIAGKGTIGGNVTGEEFKVNGQATIDGNCEVDTFSSEGQFTIGGLLSADEININIHGTCRAKEIGGQTIKVKHRLSTFSRLFKSVFGMQLEAELLEGDNIDIDYAHIRTVRGNNVTVGPNCEIELIEYTGVLTVDKSANVKEIKQI				NA	NA	NA	NA	NA
AK009_01453	624			hypothetical protein	TTGAGTACAGATTTAATTTCAAAAAAAGATTTATTAGAACTAACTGGTATTTCATACGGACAGTTATATAGGTGGAAGAGAAAAAATTTAATACCGGAAGATTGGTTTGTACGAAAGTCAACATTCACGGGTCAAGAGACATTTTTTCCGAAAGAAAAGATATTAGAGCGCATCGATAAGATCCAAACGATGAAAGAGGATTTATCACTTGATGAACTAGCGAATATGTTTTCACCGAGTGTGAGAGAAATTCTTTTAACAAAGGAAGACATTTTACGTAAGGAGATTGCATCAGAACCAGTTTTACAATTTTTCATAGAACAAACGAATAAAACAGCAGAGTTTCAATTTGTAGATATTCTTTATGTGTACATGTTAGAAGAATTACTACAATCGGGAGAGATTAGTTTAGAAGAAGGAAAAATGGTCTTGCAAGTTTTACGTGAAAATTATGAAACAATTAAACATAAAACTTGTGATTTAATCGTTGTCCGAAAATTAGGGATTTCTACATGTTTATTAGTTTCAAACGTGGACGATTTAATTTTTGAAAAAGGCACTAAAATCGTTTTACGCGAAGCGATTATGAAATATACCGAAGCATTAAAAACTAAATTGTTGTAG	MSTDLISKKDLLELTGISYGQLYRWKRKNLIPEDWFVRKSTFTGQETFFPKEKILERIDKIQTMKEDLSLDELANMFSPSVREILLTKEDILRKEIASEPVLQFFIEQTNKTAEFQFVDILYVYMLEELLQSGEISLEEGKMVLQVLRENYETIKHKTCDLIVVRKLGISTCLLVSNVDDLIFEKGTKIVLREAIMKYTEALKTKLL				NA	NA	NA	NA	NA
AK009_01454	1737	sgrR		HTH-type transcriptional regulator SgrR	ATGTTTATTTTAGATCAATACATTGAACTATGGAGTGCTTATGGAAAAGGGGAAAAAGAGGGAGAACAATTGGAAGTAACAGTGCAAAATATATCTGAAACATTATTTTGTACAGAGCGTAATAGTAAATTAATTATAAAAAAATTAGATGAGTTAAATTGGATCAAGTGGTTTCCAGGTCGCGGCAGAGGAAATCGTTCTAAGTTAATATTTCAAAAGGACCCGATATCTTTAATTTTAGATAGAGGAAAAGAAATAACGAAAAAAGGGGATGTGAAAAGCGGGAGCATATTTGTGGAACGCTATAGCTCACATTTTCCATTAGTAAAGGAAGAATATCACTCCTGGGTGGATTCAATATTTGGTCATAAGATTGAAATGACATCTGAAGGGAGAAGAGATGTACTCCGGTTGCAAGTACAAATGAATTTAGATATCACATTAGATCCTGTATACGCTACAATGCGTTCAGAATGCCATATGGTAAAACATATATTCGATACACTCGTGTATGTAGACGGTAATACAAACATTATAGAGCCAAGACTTGCATTTCACTGGGAATATAATGATGCTGAAAAAATATGGACGTTTTATTTACGAAAAGGAGTTCACTTTCATAATGGAAAACAACTTACTGCACATGATGTTATATACTCATTGAATCGATTTATGAAGCTGGAAAATAATGCACACGCATGGATGTTACAACACGTTGAAAGTATTCGTTCAGTGGATGACTACGTTGTCGAAATTCAATTACATACGGAAAATCGAATGTTTTTACATATGCTAAGTGCAGAACAGTGTTCTATCGTGAATAAAGATGAAGCAGGAGAGCTAATTGGAACAGGGCCTTTTCAATTATATAAAAGTAATGAAAATTTGTTCATTTTAGAAGGTCATCCTTTATATTTTCGTGAAAGACCTTTTTTAGATCGTGTTGAGTTGTGGAATGTAGAACAAGGTGTAAGTACATACGATGTTTTAGTAAAGGCGCAGTATAAAGATAAAGAAAAACATAATAAAGAATTGTCTCGGCTTGAGTCGAACGTGACATATATAACATGTAATCATACGAAAGAAGGACCAATGCAAGATGAGTTATTTCGGAAAGCATTATATAAAATCATTCATGGTTATACAATCGTTCAAGAACTCGGCGGAGAACGTGGAGAAGTGGCACAGAAACTAATATTAGCAGGTGAAAGCATTGTAGAGATTGAGGAAGATGTAGAAAGTTTAATTAAAAGGAGTACTTATCATAATGAAGTGCTACAACTCTACACATTTACAGGACGAGATCATGTTGAAGATGCACAATGGATACAAAAAGAGTGTGTGAAGTACGGGATTCGTGTAGAAAATAATTTTCTTGACATAGAAGAGCTATTGGAAGTAAGTACGATACAAAAGGCCGATATGATGCATGATAGTGCCACAATAAGTGAACGAATAGAAGATAGTCTATTATATATGTTTCTTACAAAAAATAGTTTTATTCATGGACAAAGCAGCATGGACTTTCATGAAAAGTTGTCTCCTTATTTTAAACAAGAAGAATTAGAGAAAAGAGTTACACTGTTACGCGATATTGAGGATACTTTGTTACGTCAAATTCATATTATTCCTTTATATCGTAATAAACAAGAGGTAAGTACACATGAAAAAGTCCAAAATATAATGATTAATTCACAAGGTTGGATTGATTTTTATAATATTTGGTTTAAATCTTGA	MFILDQYIELWSAYGKGEKEGEQLEVTVQNISETLFCTERNSKLIIKKLDELNWIKWFPGRGRGNRSKLIFQKDPISLILDRGKEITKKGDVKSGSIFVERYSSHFPLVKEEYHSWVDSIFGHKIEMTSEGRRDVLRLQVQMNLDITLDPVYATMRSECHMVKHIFDTLVYVDGNTNIIEPRLAFHWEYNDAEKIWTFYLRKGVHFHNGKQLTAHDVIYSLNRFMKLENNAHAWMLQHVESIRSVDDYVVEIQLHTENRMFLHMLSAEQCSIVNKDEAGELIGTGPFQLYKSNENLFILEGHPLYFRERPFLDRVELWNVEQGVSTYDVLVKAQYKDKEKHNKELSRLESNVTYITCNHTKEGPMQDELFRKALYKIIHGYTIVQELGGERGEVAQKLILAGESIVEIEEDVESLIKRSTYHNEVLQLYTFTGRDHVEDAQWIQKECVKYGIRVENNFLDIEELLEVSTIQKADMMHDSATISERIEDSLLYMFLTKNSFIHGQSSMDFHEKLSPYFKQEELEKRVTLLRDIEDTLLRQIHIIPLYRNKQEVSTHEKVQNIMINSQGWIDFYNIWFKS				NA	NA	NA	NA	NA
AK009_01455	1215	mdrP_2		Na(+), Li(+), K(+)/H(+) antiporter	TTGAATTATCTCTTACTTCGTTACAATAAACCTATTTTTATTAGACTGTGTGGTGAATTATTAACCAGAACGACTGAATCTATGTTAGCTATCATTATGATTATTTACGTCAATAAAATGTTAAACGGCAATGTAATAATAACTATGCTGATTTTCGGATTACAGCCACTTTCAGACATTTTATTTACACTTATTGCTGGAGGAATTACTGATAAATATGGCCGGAAAAAGATTATGTTACTCGGCTTATTGCTACAAAGTGTTGCAATCGGTAGTTTCGTTTTCGCTCAATCCGTTTTTATATTTGCACTGTTATATGTCATTAATGGCATTGGCCGTTCCTTATATATTCCGGCTCAACGTGCACAAATTGCTGATTTAACAAAAAAAGAGCAGCAAGCAGAAATTTTTGCTCTCCTACAAACGATGGGAGCAATTGGATCCGTAGTCGGCCCTTTAATCGGTGCAAGTTTTTATAATACTCACCCAGAATATTTATTTATCGTGCAAAGTGTAACCCTTACGATATATGCCGTTGTTGTTTGGACCCAGCTCCCAGAAACCGTTCCACCAATAAGTATGTCAAAACAAACAGTTGAGGCAAGTTCACCAAAGCAATTTATTTTTAAACATTACGCCATATTCGGTCTTATGGTTTCTACACTTCCTATTAGCTTTTTTTATGCACAAACTGAGACGAATTATCGTATTTTTGCAGAACATGTATTTCTTAATCTCGTATTCATACTCGCATTTATTTCAACATGTAAAGCCATTTTGGAAATCATTCTACAAATCTTCCTCGTAAAATGGTCTGAACGATTTTCTATGGCGAAAATCATCCTTATTTCTTACGCCTGCTATACAATAGCTGCAGTTGGCTTTAGTTATTCAACGACGAAATTGTCGTTATTCTTCACCTTACTCTTTTTAGTCATTGGAGAAAGTATTGCTCTAAACCATTTATTACGATTCGTTTCAGAAATTGCACCTCATGATAAACGTGGTTTATATTTTTCAATTTACGGTATACACTGGGATATATCTCGAACGTGTGGACCAGTTATTGGTGCAGTTTTATTAAGTAAGTTAAATGGAAGTATGCTGTTTTATATTTGCGCTAGTTTCTTATTAGTTGGAGGTATTGTACAAGCGTTATTTGTTCAAAATTTGGAACGAAAAAAAATCGCAAACCAGCCTACACATAATTTATAA	MNYLLLRYNKPIFIRLCGELLTRTTESMLAIIMIIYVNKMLNGNVIITMLIFGLQPLSDILFTLIAGGITDKYGRKKIMLLGLLLQSVAIGSFVFAQSVFIFALLYVINGIGRSLYIPAQRAQIADLTKKEQQAEIFALLQTMGAIGSVVGPLIGASFYNTHPEYLFIVQSVTLTIYAVVVWTQLPETVPPISMSKQTVEASSPKQFIFKHYAIFGLMVSTLPISFFYAQTETNYRIFAEHVFLNLVFILAFISTCKAILEIILQIFLVKWSERFSMAKIILISYACYTIAAVGFSYSTTKLSLFFTLLFLVIGESIALNHLLRFVSEIAPHDKRGLYFSIYGIHWDISRTCGPVIGAVLLSKLNGSMLFYICASFLLVGGIVQALFVQNLERKKIANQPTHNL				NA	NA	NA	NA	NA
AK009_01456	672			hypothetical protein	ATGATGAAAATATATTTAAAAATAGTTATGTTATTTTTGGTGTTTACATGTATGTTTGCGCTAGCCGCATGTAAAGAGACAGACGAAAAAAACGAAACAAATCCAACCTTGGAAAATAATAAAAATAAACAAAGTAATTCTTCAGAAGAACAGAAAAATCTTGAAACAAAACCAAGTAATGAAAAAACAACAAAACCATCAACTGAGCCAGATTCGAAAAATAGAACATTTAATCAAAAATCAATTAACCACATTAAAGATTTGTTTGAATTAGCAAAAGAAGGAAAAGTACCTAATGTACCATTTGGAGCCCATACAGGGGATATTGAAGAAATAGAAAAAGCATGGGGGAAAGCGAATAAAACCGAACAAGCAGGGAACGGAATGTACGCAACTTTTACAAATAAAAATGTTGTTTTTGGATTTAATAAAGGGTCACAAGTTTTTGATGTACGCTCATATCATGCAGAACTAAAATCGATTACATTACAAGAAATTGAAAAAGCGTTAGGAAAACCATCTTCAGTTAAAGGGAATGGTGGAGACAAAATATATGTATACAAAGTAAATAACCAGTATGAGTTAAAATTTGTCATTCCAAAATCGACTGGTAATGTAGATCATATTTCCGTGTTTTCACCAGAGGATAGTATTAATAAAATGGCAGGATAA	MMKIYLKIVMLFLVFTCMFALAACKETDEKNETNPTLENNKNKQSNSSEEQKNLETKPSNEKTTKPSTEPDSKNRTFNQKSINHIKDLFELAKEGKVPNVPFGAHTGDIEEIEKAWGKANKTEQAGNGMYATFTNKNVVFGFNKGSQVFDVRSYHAELKSITLQEIEKALGKPSSVKGNGGDKIYVYKVNNQYELKFVIPKSTGNVDHISVFSPEDSINKMAG				NA	NA	NA	NA	NA
AK009_01457	147			hypothetical protein	ATGCTTGTAGATGTAAAAGCTTTTATTAAAGCTGCAGGTTTAACATGTATTTCATCATTAAGTGGAGATAACACGTTTGTTTATAATTTTGAAACTGTAAAAAACACTATCGCTACACTTTTTAAGAAGCTAAGATTTACCATTTAA	MLVDVKAFIKAAGLTCISSLSGDNTFVYNFETVKNTIATLFKKLRFTI				NA	NA	NA	NA	NA
AK009_01458	396			hypothetical protein	TTGAAATCATTTACAGTAAATTTCCATCAAGAAGATAATGCAAAAGCGACAACAGTACATAAATTAAGTGAAGAGGACTTCAATAAAGCAACTGAAAAAGGTACTCGTCATTTATTTGATTTAGATACAAACGTTGGCTTCTTCGTATTCTTTGATGCAGAAGATGCAGAAGGAAATGATCAATACTTAATGTTACAATATGAAGGGGATCATGAAGAACCAACTGCGTGCTACGGATTTGATTTAAAACTATATTATCAATTTTTAGCGCTATACTTAAACGATCTTGAATTCCAAGGCGAAACAGATGAGGAAGAGGAAGAATACGGTCCAATTCATCATTTAGCGCACTTACTTTATCATATTGTTGAAGATGGTAAATCAATCGAAGTATAA	MKSFTVNFHQEDNAKATTVHKLSEEDFNKATEKGTRHLFDLDTNVGFFVFFDAEDAEGNDQYLMLQYEGDHEEPTACYGFDLKLYYQFLALYLNDLEFQGETDEEEEEYGPIHHLAHLLYHIVEDGKSIEV				NA	NA	NA	NA	NA
AK009_01459	243			hypothetical protein	ATGATTTGGTCTTTAATCGTTGGTGGTTTATTAGGATGGTTTGCAAGCTTAATTACTGGAAGGGATGTACCAGGTGGTGTAATTGGTAATATTATTGCTGGTATTATCGGTTCTTGGATTGGTACGAAATTACTTGGTAGTTTCGGTCCTGTAATAGGCGGATTTGCAATCATTCCTGCTTTAATTGGTGCGGTTATTTTGATTTTCATTGTGAGTTTTTTACTACGAGCAATGCGGAAATGA	MIWSLIVGGLLGWFASLITGRDVPGGVIGNIIAGIIGSWIGTKLLGSFGPVIGGFAIIPALIGAVILIFIVSFLLRAMRK				NA	NA	NA	NA	NA
AK009_01460	966	rihA_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	GTGAGAATAGTTAATAAGAAAATCATCTTTTTTGGAGACTTTGGTATTGATGACGCCGTAGCGTTAATTTATGCAAATAAAACATGTAAATTAGATATTCTAGGTATTGTTGCAGAGTACGGGAATGTATCACGAGAAATCGTTACGGAAAATGTTTATTTTTTAGAAAGGTACTATGCTACACATGTAAAAATTATTGAAGGTGCGAGTAGGCCGATGACAGCTGAAGAACCTTTGTTTTTCCCTGAAATCCATGGGGATCACGGTTTAGGTCCTATTAATCCACCTGAGATGAGAATTTGTAAACGAGAAAATTTTTGTGAATTAATCAAATTAATCGAACCTTGTCCAGAAGATATTATAATTGTGGCGACAGGAAGACTAACGACGCTTGCTACGTTATTTTTATTGTATCCCAATATAATGGATCGTATTTGTTCGTATTATATAATGGGCGGTGCTTTCCTATTTCCAGGTAATGTTACACCAGTATCTGAAGCGAATTTTTATGGTGATCCAATTGCAGCAAATATTGTTATGAAATATGCGAAAAACGCTAGTATATACCCGTTAAATGTAACACAGGGCGCGCTTATTACGCCTGAAATGGCCAATATAATAGATAAACAAGGAACTGGACAGGCGAAACTCATTAAACCAATGATTGATTTTTATTATGAGAACTTCTATAAAAAAGAATATCCGGGTATTGGTGGAAGCCCTATACACGATTTACTACCGTTTGTCTCGTTTATAAATGATAGTATTTTTGAATATAAAAAATCGGCAGTGTGGATTAGTACGACAAATGATGTGACTAGGGGCCAAAGTGTAGCTGACTTTAGAAAAATAGCTGAACCAACAAGGTTTGATGGTCGGCCGATTCAAAGAATTGCTGTTGGTTTTAACTATCCTGCTTTTAAAGAAGAGTTTATGCGAACAATATTGAAGCCAGATTGTCCTTAA	MRIVNKKIIFFGDFGIDDAVALIYANKTCKLDILGIVAEYGNVSREIVTENVYFLERYYATHVKIIEGASRPMTAEEPLFFPEIHGDHGLGPINPPEMRICKRENFCELIKLIEPCPEDIIIVATGRLTTLATLFLLYPNIMDRICSYYIMGGAFLFPGNVTPVSEANFYGDPIAANIVMKYAKNASIYPLNVTQGALITPEMANIIDKQGTGQAKLIKPMIDFYYENFYKKEYPGIGGSPIHDLLPFVSFINDSIFEYKKSAVWISTTNDVTRGQSVADFRKIAEPTRFDGRPIQRIAVGFNYPAFKEEFMRTILKPDCP	PGPT0013465_1005	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_01461	189			hypothetical protein	ATGATTCGTGTACGCATTGAAGGTACTGAGGAAGAAATGCTTGAATTTATGGGGAAAATGCCGGACATTCCTGGATTTGAAAAGACACATATGAGAGAGCCGAGAAAAGGAAATAACCCGAAATACGATTCGAGTAAAAATGTACTAGCATATTTGTCTTATAAAAAGATTGAAGTCGCCAATAAATAG	MIRVRIEGTEEEMLEFMGKMPDIPGFEKTHMREPRKGNNPKYDSSKNVLAYLSYKKIEVANK				NA	NA	NA	NA	NA
AK009_01462	786	ycgJ		putative methyltransferase YcgJ	ATGAGTAAGGAAGAGCTTGTGAAAAAACAGTTTGGCAGTAATGCAGATAAGTATGTGAATAGTAAAATACATGCTAAAGGACAGGACTTACAATATGTAGTTCAACAAGTTGCGTCTCGCCATAATAATCGTCTTCTTGATGTTGCTACTGGTGGCGGACATGTTGCGAATATGTTAGCACCTATGTTTGAAGAAGTAGTTGCACTTGATTTAACAGAACAGATGTTAGAAGAAGCAAAAGGTTTTATAAAGCAGAATGGTCATGGAAATGTGTCTTTTGTAGTAGGAAACGCAGAGGATTTACCATTTGCAGACCATTTTTTTGATACAATTACATGCCGGATTGCAGCCCATCATTTTACGAATCCGGCTCAATTTATTTTTGAAGTAAATCGTACGTTGGAGGATAATGGATTATTCATCTTAATAGATAATGTTTCGCCAGAAAATAATGAATATGATACATTTTATAATTTTATAGAAAAAAAGCGGGACCCAAGTCATGAACGAGCTCTAAAAAAGACAGAATGGCTTACTTTATTAGAAAAAAACGGTTTGCAAATGCAGTCATGTCTTACTTTTGATAAGAAGTTTGATTTTGACTGGTGGTGTAATATGATGAATGTCCCTGTACAAAAGCGCGAAAAATTAACAGAATGTATGATGAAAGCACCAAACGAAATGAAGGGATATTTTAATATTCAATTTAAAAATAATAAAGTAGATTCATTCTATACTGAAATGGCTATGTTTATATGTAAAAAAAGTACAACATTAAAAAGATAA	MSKEELVKKQFGSNADKYVNSKIHAKGQDLQYVVQQVASRHNNRLLDVATGGGHVANMLAPMFEEVVALDLTEQMLEEAKGFIKQNGHGNVSFVVGNAEDLPFADHFFDTITCRIAAHHFTNPAQFIFEVNRTLEDNGLFILIDNVSPENNEYDTFYNFIEKKRDPSHERALKKTEWLTLLEKNGLQMQSCLTFDKKFDFDWWCNMMNVPVQKREKLTECMMKAPNEMKGYFNIQFKNNKVDSFYTEMAMFICKKSTTLKR				NA	NA	NA	NA	NA
AK009_01463	369			hypothetical protein	ATGTCGAATTCGGGGGCTGATTTATCTGTTTCTCGTTTGATTGTGGCAAATGTAGAGGAAAAGGAATATCATTTTATTGTTCGTGAACATCCGATTGTAGGGAAAGTTATATCGCTATTTGAAAATGGTAAAGAATATGGTTTACTAGATAAACAAATCGCTAATAAAGATAAATTTATTACATCGGAGCTTACTAAATTAGATTATTTTAACTTAGATGTTTTATATCATACACCTGGGTGGATATGGATTGGTATGGATCAATTTGGTTTACATGCTCGTGAGGCTACTTATAACGAAGTAGATGTTATTATGAAGTTGAAAGAGGATTTATATTATATAGATATATACGAAGAAATAAAAATGTAG	MSNSGADLSVSRLIVANVEEKEYHFIVREHPIVGKVISLFENGKEYGLLDKQIANKDKFITSELTKLDYFNLDVLYHTPGWIWIGMDQFGLHAREATYNEVDVIMKLKEDLYYIDIYEEIKM				NA	NA	NA	NA	NA
AK009_01464	117			hypothetical protein	ATGGATGAAGTAATTGGAGAAGTTGTAGCAGGTATTTGTGAATTTGTAGTAGAAGTAACAGCGGATGCTATAGGAAGTTTAGTTTCCGGAAATGATGAGGAAAAAGAAACATTATAA	MDEVIGEVVAGICEFVVEVTADAIGSLVSGNDEEKETL				NA	NA	NA	NA	NA
AK009_01465	333			hypothetical protein	TTGAAATTGAGAATTTCAAGTAGAGATTCACGTAATAATCGAGTAGAATTAATAGCTACAGTTGGTGTAGAAGGTATAACTGAGATTTCACAAGTTTTATTCCGAATTTTCCTTGATAACATTGAAATTTTCAATACACAAGTAGGTATTGAATCAACAAATTCTGAACAATTTTACGTACAAACATTCCAAGCTACAGACCAAAACGTTAGCAGTGGAACACACGAATATTCATTAACTGTAGAAAACCTTATTAGTAGTGCAAGTACAGAAGTTGCTGGTCCTCTATCTTTTAGCGCTTTAGCTATTGGACAAGAGCGTAAATATTGCTAA	MKLRISSRDSRNNRVELIATVGVEGITEISQVLFRIFLDNIEIFNTQVGIESTNSEQFYVQTFQATDQNVSSGTHEYSLTVENLISSASTEVAGPLSFSALAIGQERKYC				NA	NA	NA	NA	NA
AK009_01466	1203	entS_4		Enterobactin exporter EntS	ATGTGGCGTAATAAAAACGTTTGGATTGTTTTAATTGGGGAGTTTATTGCAGGTCTAGGATTATGGCTTGGTATTCTTGGCAACCTTGAATTTATGCAAAAATATGTCCCTTCTGATTTCATGAAATCAGTTATATTATTTATCGGACTATTAGCCGGTGTTCTAGTTGGACCTATGGCTGGCCGTGTCATCGATCAGTATGAAAAGAAAAAAGTTCTTCTTTACGCTGGGTTTGGTCGAGTTTTAAGTGTTATTTTCATGTTTTTTGCTATTCAATTTGAAAGTATCGCATTTATGATTGCATTTATGGTTGCTCTTCAAATTTCAGCAGCATTTTATTTCCCTGCATTACAATCTGTAATTCCACTCATCGTACGTGAGCATGAGTTATTACAAATGAATGGTGTACATATGAATGTTGGTACAATCGCTCGTATTGCAGGTACTTCACTAGGTGGAATTCTTTTAGTTGTGATGAGTTTACAGTACATGTATGCCTTCTCAATGGCAGCATACGCCTTATTATTCCTCTCGACTTTCTTCCTACAATTCGAAGACAAGAAATCAACAACACCAAGTAAACAAGCTGCAAAAGATAATAGCTTTATGGAAGTATTTCGTATTTTAAAAGGAATTCCTATTGCTTTTACAGCACTTATATTAAGTATCATCCCTCTATTATTTATAGCAGGGTTTAATTTAATGGTTATTAACATTAGCGAAATGCAACATGATCCTACGATTAAAGGGTTCATATATACAATTGAAGGTGTCGCATTTATGTTAGGTGCCTTCGTAATTAAACGTCTATCTGATCATTTCAAACCCGAAAAATTACTATATTTCTTCGCAATTTGTACTGCTTTTGCACACCTGTCATTGTTCTTTAGCGATATAAAATGGATGGCTCTTACATCATTTGGTTTGTTTGGGTTTAGTGTTGGCTGCTTCTTCCCTATTATGTCGACAATTTTCCAAACGAAAGTGGAAAAAAGTTATCACGGTCGCCTCTTCTCATTCCGTAATATGTTTGAGAGGGTTATGTTCCAAATCGTCTTACTTGGCACAGGGTTCTTCTTAGATACAATTGGGTTACAATATATGGTTCTCATCTTCGGAGTCGTTTCATTATTGATTATTTCTATTTCCCTTTCTAAGCAGAAACATTATGAAAAACAGCATTCACAATCTGCGAATTTATAA	MWRNKNVWIVLIGEFIAGLGLWLGILGNLEFMQKYVPSDFMKSVILFIGLLAGVLVGPMAGRVIDQYEKKKVLLYAGFGRVLSVIFMFFAIQFESIAFMIAFMVALQISAAFYFPALQSVIPLIVREHELLQMNGVHMNVGTIARIAGTSLGGILLVVMSLQYMYAFSMAAYALLFLSTFFLQFEDKKSTTPSKQAAKDNSFMEVFRILKGIPIAFTALILSIIPLLFIAGFNLMVINISEMQHDPTIKGFIYTIEGVAFMLGAFVIKRLSDHFKPEKLLYFFAICTAFAHLSLFFSDIKWMALTSFGLFGFSVGCFFPIMSTIFQTKVEKSYHGRLFSFRNMFERVMFQIVLLGTGFFLDTIGLQYMVLIFGVVSLLIISISLSKQKHYEKQHSQSANL	PGPT0027965_1219	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
AK009_01467	300			hypothetical protein	ATGTCTGATGGCATTGAAGTATTTATTGTCCTGCTCTTTGCAATTGCTCTGTTTAGCATCCTAAACTTTTTAGCCATTTCCTTATCTGGACATAGTTTAAAAAAAAGAATCGTGGCAGGTTTCATATTTTTACTACTGACTCCCATTGTCTTTTTGACTATCGCAACATTTGCTTCTATATTCGATAAAGCAGGATTTGGCGCAGGTACGTTAGCCTTTATGATCGCAAGCGTATATATATTAAATGGAATAGTGCTTCTGCTTTCCTCTTTATTTATCCTCAAAAAAGATATAACATAG	MSDGIEVFIVLLFAIALFSILNFLAISLSGHSLKKRIVAGFIFLLLTPIVFLTIATFASIFDKAGFGAGTLAFMIASVYILNGIVLLLSSLFILKKDIT				NA	NA	NA	NA	NA
AK009_01468	363			hypothetical protein	ATGAAAAAGGTTCTACTTACAATTCCTATACTAATCATCCTACTTAGTGGATGCAGCAATAACGATATATACGGTTCTTGGGAAGTCGTTGACAATAAAAATGGTGAATGCCCTGTATATTATAAATTTGAAACAGTTGTCAAAAAAGAAAATAAAGAGGAAATTGTGCAAAATTTAGTAGAAATGCAAACCACAAAGAATAAAGACGATTTATATAAAGGCTCATTTGTCAAAAATTCTAATGTATATCACATTGATTATGGTAATTCATTTACATCAGAGCAAACTTTAAAAGTTGCCGACGGTACATTAAATGTATACTTTTTGACAGCTGAAAAATTATGCACGTATAAAAAGAAATGA	MKKVLLTIPILIILLSGCSNNDIYGSWEVVDNKNGECPVYYKFETVVKKENKEEIVQNLVEMQTTKNKDDLYKGSFVKNSNVYHIDYGNSFTSEQTLKVADGTLNVYFLTAEKLCTYKKK				NA	NA	NA	NA	NA
AK009_01469	1200	dapL	COG0436	LL-diaminopimelate aminotransferase	ATGACTTACACGTTAGCAACTAGAATGAAAGCATTCCAATCTTCTATATTTAGTGAATTAGGAGCCTATAAAAAAGAAAAAATTGCAGCAGGTCATAACATGATTGATTTGAGCATCGGAAATCCTGATATGCCGCCCGCTGATTTTGTAAGAGAAACAATGGTACATACAGCGAGTGAGAAAGAGAGCTACGGGTATACATTATCAGGTATTCAAGAATTTCACGAAGCTGTAACTGAATATTACAACAACACTCATAACGTTTTATTAAATGCGGATAAAGAAGTTTTATTATTAATGGGTTCACAAGACGGGCTCGTTCATTTACCTATGGTTTATGCAAATCCAGGTGATATTATATTAGTTCCTGATCCAGGATATACAGCTTATGAAACAGGTATTCAAATGGCTGGTGCAACATCTTACTACATGCCTTTAAAGAAAGAGAATGATTTCTTACCAGACTTAGAAGTCATCCCTGAAGAAATTGCCGATCAAGCGAAGATGATGATTTTAAACTTCCCAGGGAATCCCGTTCCAGCAATGGCCCATGAAGATTTCTTTAAAGAAGTAATCGCATTCGCGAAAAAGCATAATATTATCGTTGTCCATGATTTTGCTTATGCTGAATTTTATTTCGATGGTAATAAGCCAATTAGCTTCCTCTCTGTACATGGTGCTAAAGAAGTTGGCGTAGAAATCAATTCTTTGTCAAAAAGTTATAGTTTAGCAGGTAGCCGTATTGGATATATGATTGGAAACGAAGAAATTGTTCGTGCACTTACTCAATTTAAATCCAATACCGACTACGGTGTATTTTTACCAATTCAAAAAGCGGCATCTGCAGCACTAAGAAATGGCGCTGCATTTTGTGAGAAAAACCGCGATATTTATCAAGAACGGAGAGATACTTTAGTCGATGGATTCCGAACATTTGGTTGGAATGTCGATAAGCCAGCTGGTAGTATGTTTGTCTGGGCTGAAATTCCACAAGGATGGACTTCTCTAGACTTCGCTTATGCATTAATGGATCGTGCGAATGTCGTTGTTACACCAGGTCACGCATTTGGACCTCACGGAGAAGGCTTCGTACGTATTGCACTCGTTCAAGATAAAGAAGTGTTGCAACAAGTTGTTGAAAACATTAGAAATAGCGGCATTTTCGTCCTTGAAAAAGTAAATGAATTAGTTAAAAATTAG	MTYTLATRMKAFQSSIFSELGAYKKEKIAAGHNMIDLSIGNPDMPPADFVRETMVHTASEKESYGYTLSGIQEFHEAVTEYYNNTHNVLLNADKEVLLLMGSQDGLVHLPMVYANPGDIILVPDPGYTAYETGIQMAGATSYYMPLKKENDFLPDLEVIPEEIADQAKMMILNFPGNPVPAMAHEDFFKEVIAFAKKHNIIVVHDFAYAEFYFDGNKPISFLSVHGAKEVGVEINSLSKSYSLAGSRIGYMIGNEEIVRALTQFKSNTDYGVFLPIQKAASAALRNGAAFCEKNRDIYQERRDTLVDGFRTFGWNVDKPAGSMFVWAEIPQGWTSLDFAYALMDRANVVVTPGHAFGPHGEGFVRIALVQDKEVLQQVVENIRNSGIFVLEKVNELVKN	PGPT0012760_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
AK009_01470	399	fabZ_1	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGCATATTAAAGACACACTTCCCCATCGTTATCCATTTTTAATGATTGATAAAGTAATAAATGTAAAACAAGATGAATTCGTTACAGGATATAAACTCATTACAAATAACGAATGGTTTATAAACGATAGTCACAAACATATGCCTCATATGTTAATTGTAGAAGCACTTGCTCAGCTTAGTGCATTTATACATACAAGTGATTCTGAAGGACTAGGATTTCTCTCCTCTTTAGATGGAGTTGAATTCCACGGAAAAGCATATCCCGGTGATAAACTTGATTTACATTATGAGCTAACGCGCAATCGCCGAGGTTTTATTCTTGGTAAAGGTATTGCAACTGTAAACGACCAGCCTATTTTAACTATAGAAAAACTATTAATATATCAAGCAGATTAA	MHIKDTLPHRYPFLMIDKVINVKQDEFVTGYKLITNNEWFINDSHKHMPHMLIVEALAQLSAFIHTSDSEGLGFLSSLDGVEFHGKAYPGDKLDLHYELTRNRRGFILGKGIATVNDQPILTIEKLLIYQAD	PGPT0008365_4024	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK009_01471	822	coaW		Type II pantothenate kinase	ATGGAACGTACTATCGGTATCGATGCTGGAGGCACATTAACGAAAATAGCTTATTTTAACGAAAAAAAGCTATTAACTTTTGAAAAATTTTATTCGCATGAACAACATAAAATAATAGATTGGATTAAAAGCAACAATGGCATAAAACAAATATGTATTACGGGTGGTAAATCGAAACTATTACAGCAACTGCTTACAAGTTCATATAAAATAGTAGAGCTAAACGAATTTAAAGCTACTCTTGCAGGTGTCCAATACATATTAAAAGAAGAAAAACATGCTATACGCAATTTTATTTTAACCAATATCGGTACAGGTACTTCTATCCATTACGTTTATAATGAACAATATATTCGCGCTGGTGGAACCGGAGTTGGCGGTGGGACTATTATGGGACTTTCAAAATTGTTAACAAATATAGATCATTTTGAAGATGTAATCCCTCTAACAAAAGTAGGCTCTAGAAAAGAACTAGATATTACGGTTGGAGATATTTATGGTGGTATTCTTTCCCCTATCGATAATAACTTAACTGCTAGCAACTTCGGAAAAGCAGCCATTACAGAATCAAATAATAGTAGCTCCGATATACTAGCTACTGTGCAAGGACTTGTCGGTGAAGTCGTTACTGCACTAAGCCTTCAATTCGCCGAAACAAAAGACATTGAACACATTATTTATATTGGTTCAACTTTATGTAATAACATACAACTTCAACATATTATTAGTAGCTACACCGAATATCAAAATAAAACACCAATCTTTTTACAAGATGGTGGTAATAGCGGTGCAATTGGTGCATTACTTCATGCTACGAAATAA	MERTIGIDAGGTLTKIAYFNEKKLLTFEKFYSHEQHKIIDWIKSNNGIKQICITGGKSKLLQQLLTSSYKIVELNEFKATLAGVQYILKEEKHAIRNFILTNIGTGTSIHYVYNEQYIRAGGTGVGGGTIMGLSKLLTNIDHFEDVIPLTKVGSRKELDITVGDIYGGILSPIDNNLTASNFGKAAITESNNSSSDILATVQGLVGEVVTALSLQFAETKDIEHIIYIGSTLCNNIQLQHIISSYTEYQNKTPIFLQDGGNSGAIGALLHATK	PGPT0008775_904	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,PGPT0008775-coaW-K09680	NA	NA
AK009_01472	198			hypothetical protein	TTGAAAGAAGATATTCCATACATCCCGCATGTAACAGTCGGAAGAAAAGAAAGTGCCGAATTAGCTGCTGAAGTAGTGAAGGAGATTCCTAGTTTGCATGGGAAGTTAAATTGTGTGATTGATAGAATAAGCGTGGAGCGAATTGGAGAGAACGGGGAATCAATTATTGAATTTGAAGTGCCATTTCTAAAAAGCTGA	MKEDIPYIPHVTVGRKESAELAAEVVKEIPSLHGKLNCVIDRISVERIGENGESIIEFEVPFLKS				NA	NA	NA	NA	NA
AK009_01473	594			hypothetical protein	ATGAAATATATGCATCATAACATAATCGTTATGCTAACAATTTTTTTATTCATTACGGCTTGTTCTAACGGAGAAAGAATAAAAGATATATATGATGTTAGGTCAGATGATTTTAAGAAATATACTGGGACATACGTTGGTAATAATTCAGATGTGGTTGCAATTATTAATCATTTATCCGGTGGTGGAACAGTTCAAAGTATAAGTTTAGAAAATGAAAATATAAAAGTGAACTATGGTGCAAAAGAGAGTGGAGCTCTTACAGAAGAAATGATTGAGACGTATTGGTTTGATGAGAAAGATACGATGAAGAAGAATTTTCTCTTTAATGCTACCTATCTAGTAATTTTAGTACCAAACGCAAAAGCTTATGAGTTTCAAATAGAAAATAAAAACTTTAAGATAACGAGGGAAGAAATGTTATCAATTTTGCATAGGGAATTCGATGATTTTCCAAAAGAAAAAGATATATGGGATAAAAATAAAGTTATAAAGTTCTTTAACGGCAATGAAGAAAAAATTAAAATGCTTGTGGAAGATAAAGATTTTCGGAAATCTTTATTTGCTAAATATCCAGTAAGCCAGTTGAAATAA	MKYMHHNIIVMLTIFLFITACSNGERIKDIYDVRSDDFKKYTGTYVGNNSDVVAIINHLSGGGTVQSISLENENIKVNYGAKESGALTEEMIETYWFDEKDTMKKNFLFNATYLVILVPNAKAYEFQIENKNFKITREEMLSILHREFDDFPKEKDIWDKNKVIKFFNGNEEKIKMLVEDKDFRKSLFAKYPVSQLK				NA	NA	NA	NA	NA
AK009_01474	99			hypothetical protein	ATGATGAAATTACAATTACATGCATTAACTTTAGCGTTAACTGCACCTGTGTTTTCTGGACAATTAAATATGAATTCGACCACCCTAATGGAGAATTGA	MMKLQLHALTLALTAPVFSGQLNMNSTTLMEN				NA	NA	NA	NA	NA
AK009_01475	141			hypothetical protein	ATGACTATTAGCGTATTGTTTTTAAGTATTACGATTCAAAGAAATACAATTTCCAAAGATGAAATTCTTCATAATGAGCAAATTGAAAAAGCTATGAATGATGTTAAGGAGCGCCAAGCACTTTACTGTGATCACCTGTAA	MTISVLFLSITIQRNTISKDEILHNEQIEKAMNDVKERQALYCDHL				NA	NA	NA	NA	NA
AK009_01476	144			hypothetical protein	ATGACTTTTCATATTTTCTTTTTTACGACTGTGCTTCAAAAAAATACTTTATCTGAAACTGAAACCATTCGTAAACAACAGTTAAAACAACTGACTGATAAAATAACTGACATTAAAAGTTCATACTACACTCAAATGTATTAA	MTFHIFFFTTVLQKNTLSETETIRKQQLKQLTDKITDIKSSYYTQMY				NA	NA	NA	NA	NA
AK009_01477	144			hypothetical protein	ATGAAATTTAAAGCATTCTTTTTAACAATCACCATTCAAAAACGTAAGCTTTCACAGAAAGAGATTTTACGTGAGCAACACATCCAAAACATTATGGACGAAGTAAAAGAGCGCCAATCTTCTTATTACACTCGTCTTTTCTAA	MKFKAFFLTITIQKRKLSQKEILREQHIQNIMDEVKERQSSYYTRLF				NA	NA	NA	NA	NA
AK009_01478	141			hypothetical protein	ATGAAATTTAAAGTATTCTTTTTAACCATTACCATTCAAAAAAATAAATTTTCTGAGTCTGAAATGCTTCATGAACGACAAATTAATCAGGCTATGGATTCTGTAAAAGAAAGACAAAGTCATTACTGTAGTCATCTGTAA	MKFKVFFLTITIQKNKFSESEMLHERQINQAMDSVKERQSHYCSHL				NA	NA	NA	NA	NA
AK009_01479	141			hypothetical protein	ATGAAGTTTCACCTTTTCTTTTTAACGATTACGATTCAAAAAGAAACAATATCTCAAAATGAATTAAAACAAGAAAGACAATATAAACAAGTTATTAATGAAATTCGAGATCGTAGAAGCAAATACTACACTCACCTTTAA	MKFHLFFLTITIQKETISQNELKQERQYKQVINEIRDRRSKYYTHL				NA	NA	NA	NA	NA
AK009_01480	1086			hypothetical protein	TTGAAATCAAAAGTGCACTTTTGGACATTAGAAGTGCTAATGGTTGTAGGAATCATATTTATTTGCACAAAAATATCATTTTTATTTCAACCGATTGGTATCTTCATATCAACATTATTTTTCCCAATCTTAATCGCGCTTTTTTTATACTTCATATTTAATCCTGTATTAATCTTTTTGGAGAATAAAAAAGTACCTAGAAATTTAGCGATATTACTGTTATATCTTTTTATCATAACATTAACTGCGGTTGGCGTTGGAGTAGTTGTTCCTACGATTTCACAACAGCTAATGGACTTAGTAAAAAATATGCCAGGCTACATAAAAGAGGGAAAAGTATACATACAAGAATTATCACATCATAGGTTGTTTGAATGGTTATCTACACAAAACTACGTTTCCATTGAAACAATTGAAAAAAATGCAATTGAATACTTAAAAGATATACCAAATACAATTACGTCGAGTGCAACGGCTTTATTTGGTATTATCACGAACGTTGCATTAGTTGTATTTACTGTACCGTTCATTTTATTTTACATGTTTAAAGATGGACATGCCTTTCCAGGAAAAGCGGTAAGTTTATTACCAGAGTCTTACCGTGAAGAGGGGCTTCGTATCATTAAGGAAACGAACGAAACATTATCTGCATATATTCAAGGACAAGCGCTCGTTTGTATATTTGTAGGTGCGTTTACATTTATCGGTTATTTAATTATCGATTTACCGTACGCTTTCGTTTTAGGAATTATTGCAGCATTTACAAACATCATTCCTAACTTAGGGCCATTTATTGGGGCAGCGCCAGCTGTTATTGTAGGACTGTTCGTATCTCCGATGCAAGCATTGTACGTAATTATTATCGTAACAATTGTACAACAGTTTGAAAGTAATATTATTTCACCACGTATTATGAGCTCGAAATTAAACATCCACCCATTAACAATTATTATCCTAATTTTAGGGGTAGGTAACTTTGCTGGAATCATCGGAATGATTTTAGCAGTACCAGTTTATGCAGTAACAAAAACAGTTGTTTCGAACTTAGTGAGATTGTTTAAGACGAAGAGAAGTAATCGGAATTAG	MKSKVHFWTLEVLMVVGIIFICTKISFLFQPIGIFISTLFFPILIALFLYFIFNPVLIFLENKKVPRNLAILLLYLFIITLTAVGVGVVVPTISQQLMDLVKNMPGYIKEGKVYIQELSHHRLFEWLSTQNYVSIETIEKNAIEYLKDIPNTITSSATALFGIITNVALVVFTVPFILFYMFKDGHAFPGKAVSLLPESYREEGLRIIKETNETLSAYIQGQALVCIFVGAFTFIGYLIIDLPYAFVLGIIAAFTNIIPNLGPFIGAAPAVIVGLFVSPMQALYVIIIVTIVQQFESNIISPRIMSSKLNIHPLTIIILILGVGNFAGIIGMILAVPVYAVTKTVVSNLVRLFKTKRSNRN				NA	NA	NA	NA	NA
AK009_01481	822			hypothetical protein	ATGACACAATGCATCATTTGCAGAAAAGATACGAAAGAACTTAGTGAACAATATGTCATTCCAGAAATATTATGTGGATATTATTTCACAAACTCAATTTGTGATACTTGTCATGAACAAATGACAACAAATATCGATCGCCCTTTAATTAGGCATAAATTGAGTCAATTTAAGATTGAACAAATGAAAAGACAAATTGATTCCCCACTCTATACGAATGAGCACGGTGAGGAACTTGCGGCTGCTGAGACTGATGTTGTCGAAGTAAGCGACGAGATTCTTTATTCTAATGCATTAATTATGAAACTATGTAAAAAGCACGATATTTCCTTACATAATGAAATTTGGAAAGAGGAACGTGTAACGAAAGTAGCGAGTTCTATTCAACGTGAATTACTATTAGATAACCGTAAATATAAAATGAGTGTATTAAAAATGGCTTATACATTCGCTGTACAAGCAGTTGACGGCTACTTTGAAGATCAAGATGCAATTGATATTTCTACCATTCTCTCCAATGCAGATTTCGTGGAACTAAAAGAAAAAAGCATTGTACGTGATTTAAGCAAAAGTTCTTTATGGAATACGCTAAATACAAGTAGTGAAAATCATTACTTTATTTTACTTAGCGATAAAGACGGCCTGTTTTGCTTCATTCGTTTGTTTGATATCTTTGATGTTGTCGTTCATTTATCAGAAAAAAGATTTGACCTTCCATCGCCGATTGTCGGTGTAAATAATGTGAATACGCAGAAATTTTATGTCCAAAGTTTAAAACAGTATATGGATGGGCTGTTTAAAGAAAAAGCACCTACTATATAA	MTQCIICRKDTKELSEQYVIPEILCGYYFTNSICDTCHEQMTTNIDRPLIRHKLSQFKIEQMKRQIDSPLYTNEHGEELAAAETDVVEVSDEILYSNALIMKLCKKHDISLHNEIWKEERVTKVASSIQRELLLDNRKYKMSVLKMAYTFAVQAVDGYFEDQDAIDISTILSNADFVELKEKSIVRDLSKSSLWNTLNTSSENHYFILLSDKDGLFCFIRLFDIFDVVVHLSEKRFDLPSPIVGVNNVNTQKFYVQSLKQYMDGLFKEKAPTI				NA	NA	NA	NA	NA
AK009_01482	1113	ssuD	COG2141	Alkanesulfonate monooxygenase	ATGGAATTATTATGGTTTATTCCGGCTTATGGAGATGGTCGATATTTAGGAACGACAAAACGAGGAAGAGCAGCTGAATATGGTTATTATAAGCAAGTTGCTGCGGCAGCTGATTATTTAGGATATACGGGTGTTTTACTTCCAACTGGTCAAGGATGTGAAGACCCTTGGGTGTTAGCTTCAGCTCTTGCTGCTGAAACAGAAAAACTAAAATTTTTAGTAGCAGTGAGACCAGGACTAATGTCACCTACAGTTGCAGCGAGGATGGCATCTACATTTGATAGAATTTCAGATGGGAGACTACTTATTAATGTAGTAGCTGGAGGAGATCCAGTTGAACTACAAGGAGATGGATTATATCTTGAGCATGATGAAAGATATGAAGCAGCGGATGAATTTTTAAAAGTTTGGAAATCGACATTGCAAGGTGAAACGATTTCTTTAGAAGGAAAACATATTCAAGTTACAGATAGTAAAGTTGTATTCCCGCCAGTTCAAACACCATATCCTCCTATATATTTCGGAGGATCATCAGCTGCTGGAAAAGAAGTAGCAGCTGAACATAGTGATGTATATTTAACGTGGGGAGAGCCACCAGAGCAAGTGAAAGAGAAAATAGAAGAAGTAAGAAAACTTGCAGAAGAGAAGGGCCGTACAGTACGATTTGGCATTAGATTACACGTAATTGTAAGAGGAACAGAAGAAGAAGCGTGGGAAGAGGCAGAACGTTTAATTCAATATGTGGATAATGAAACAATTGAGCTTGCTCAAAAGACATTTGCAAGATATGATTCGGTTGGTCAAAAGAGGATGACACATTTAAATAAAGGTACGAGAGAGTCGTTAGAGATAAGCCCTAATTTATGGGCTGGAATCGGACTTGTAAGAGGTGGGGCAGGTACTGCACTTGTAGGCAATCCACATACAGTAGCAGAAAGGATAAAAGAATATGAATCGTTAGGAATTGATACGTTTGTTTTATCAGGATATCCGCATTTAGAAGAAGCGTATGAAGTGGCAGAATTGTTATTCCCATTATTGAAAAACGAGAAGAAAGAAGAAAATAAAATGGTTGGTGAAATGATTGCTGATGCATATGCATTAAAAAAATAG	MELLWFIPAYGDGRYLGTTKRGRAAEYGYYKQVAAAADYLGYTGVLLPTGQGCEDPWVLASALAAETEKLKFLVAVRPGLMSPTVAARMASTFDRISDGRLLINVVAGGDPVELQGDGLYLEHDERYEAADEFLKVWKSTLQGETISLEGKHIQVTDSKVVFPPVQTPYPPIYFGGSSAAGKEVAAEHSDVYLTWGEPPEQVKEKIEEVRKLAEEKGRTVRFGIRLHVIVRGTEEEAWEEAERLIQYVDNETIELAQKTFARYDSVGQKRMTHLNKGTRESLEISPNLWAGIGLVRGGAGTALVGNPHTVAERIKEYESLGIDTFVLSGYPHLEEAYEVAELLFPLLKNEKKEENKMVGEMIADAYALKK	PGPT0003040_1657	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
AK009_01483	849	ssuC	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	GTGGAAAATACGAAAGCTGTTATGAAACCAGCGAGTATAACGATTAAGAAAAATGGCATAAAGAAGGTACGAAAGTTAAATGTAAAAGTTTTAGTAAGGGCGATTACTATACCGGTTATTATATTAATAATTTGGCAGTTGGCTGGCGTATTCGGTCTTGTTTCTAAAACAGTTTTACCAACACCATTAGATATTTTTCTAGCTTTCCAAGAGCTTATTAAAACAGGAGAGTTATTCGGCCATTTAAGTATTAGTGTATTCAGGGCTGCGGCTGGTTTCTTTATTGGTGGGGGCTTAGGAATCATTTTAGGAACGATTGTTGGATTTTCAACGAGAAGTGAGCAATATTTAGACCCATCTGTGCAAATGTTAAGAACTGTACCTCATTTAGCTGTTGCGCCGCTTTTCGTATTATGGTTCGGTTTTGGTGAAACATCGAAAGTGCTATTAATTGCAGATGGTGCATTTTTTCCTTTATACGTAAACGCATTTTTAGGTATTAGAGGTGTGGATTCAAAGTTATTTGATGTTGCGAGAGTGTTAGAGTTTAGCAAAAGAAAACTAATTACGAAACTAATTTTACCATCTGCATTGCCTAACCTTTTACTAGGAGCAAGGTTATCGTTAGGTGTTGCATGGGTGAGTTTAGTAGTAGCAGAACTTATGGGATCTACAGAAGGTATTGGTTATATGATTATGGATGCAAGGCAATTTTCAAATACAGATATCGTATTTGTCGGCATAATTATCTTTGCATTTGTTGGGAAGTTTTCTGACTCTCTAGTACGTTTATTAGAAGTGAAGTTTTTAAGATGGCGAGATAATTTTAAAGGTGAGACTAGGAATTAA	MENTKAVMKPASITIKKNGIKKVRKLNVKVLVRAITIPVIILIIWQLAGVFGLVSKTVLPTPLDIFLAFQELIKTGELFGHLSISVFRAAAGFFIGGGLGIILGTIVGFSTRSEQYLDPSVQMLRTVPHLAVAPLFVLWFGFGETSKVLLIADGAFFPLYVNAFLGIRGVDSKLFDVARVLEFSKRKLITKLILPSALPNLLLGARLSLGVAWVSLVVAELMGSTEGIGYMIMDARQFSNTDIVFVGIIIFAFVGKFSDSLVRLLEVKFLRWRDNFKGETRN	PGPT0003030_661	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK009_01484	987	ssuA	COG0715	Putative aliphatic sulfonates-binding protein	ATGTATAAAAAATTTAAAGTTCTTTCTTTTGCTTTAGCTATATCAGTATGTTTATTAGGATGCGAAAAAAGTACAGCAAGTAGTAAGAAAGAAGATGTAACAATACAAATTGGTATACAGCAAGGATTAAGCCCGCTATTACTAGCAAAGAAAAAGGGATGGTTTGAAGAGGAGTTTAAAAAAGAAGGAGTTAAAGTGAAATGGACAGAGTTCCAAAGTGGACCTCCTTATTTTGAAGCAATCGCATCAAACCGGTTAGACTTTGGTGAAGTAGGGAATTCTCCGGTCATTTCAGCGCAAGCAGCAGGTATTGGATTTACCGAAATCGCCAATACAAGTTATGCGAGAAAAGGAACTGGAATTCTCGTTCAAAAAGATAGCAAGATTGCGAGTGTAAAGGATTTAAAAGGTAAAAAAATTGCAGTAGCAAAAGGAAGTAGTGCCTTTAATTTATTGTATCGAGCACTTGATAAAGAAGGTATTGATGCAAAAGATGTAAATGTCATTCAATTACAACCAGATGAAGCGCAGCCTGCATTCGAATCAGGATCAGTAGATGCATGGGCGATTTGGGACCCTTTCATATCATTACATACGTTAAATAAAGGTGCGAAGGTGATTGCAGACGGTGAAACATTAAATGTCTCTTCACCAGAATTTTTAATTACGAGGACAAAATTTGCGAAAGAACATCCAGAATTAGTTGAGAAATTCCTCAAAGTTTATGAGAAAGCACGTGTATGGCAAGATGCTAACTTAGATGAAGCAATAAAAGTATACACTTCTGTAAAAAAGATAGATGCAGAGATTGTAAAAGAAGTGTTTAATCACGACAAACCAATTTTAGTTCCGGTAACGAAGGAAATAATAGCAGAACAACAAAAGACAGCGGATTTTCAATATAAGCTCGGTTCTATAAAGAAAGAAATTAAGACGGAAAAAGTTGTAGATAATTCTTTCGTAGAAAAAGCATTGAAAGCGAAGTGA	MYKKFKVLSFALAISVCLLGCEKSTASSKKEDVTIQIGIQQGLSPLLLAKKKGWFEEEFKKEGVKVKWTEFQSGPPYFEAIASNRLDFGEVGNSPVISAQAAGIGFTEIANTSYARKGTGILVQKDSKIASVKDLKGKKIAVAKGSSAFNLLYRALDKEGIDAKDVNVIQLQPDEAQPAFESGSVDAWAIWDPFISLHTLNKGAKVIADGETLNVSSPEFLITRTKFAKEHPELVEKFLKVYEKARVWQDANLDEAIKVYTSVKKIDAEIVKEVFNHDKPILVPVTKEIIAEQQKTADFQYKLGSIKKEIKTEKVVDNSFVEKALKAK	PGPT0003025_1664	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
AK009_01485	756	ssuB_1	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGACTGTTTCAATTGATGGGGTATCAAAATATTTTTTGAAACAAACTGGTACTGTTCAAGTATTAGAGAATATTAATTTTCAATTAGAGAAAGGGGATTTTGTTACAGTAATTGGTCCGAGTGGGTGTGGAAAAAGTACATTACTAAAAATTGTTGCAGGTCTAGATAATGATTTTGAAGGGGAAGTTGTTATTGACGGGGAGTCTATCTTAAAACCGAGTAAGAAACAAGGTTTTATTTTTCAAGAACATAGGCTTTTTCCATGGTTAACAGTTGAAGAAAATATAGCGGCAGATTTGTCGTTAAAAGATAAGTATGTGAAAGATAAGGTGAGAGAATGGGTTGAAATCGTTCGTTTAGATGGCTTTGAAAAATCGTATCCGAAAGAAATTTCAGGTGGGATGTCACAACGTGTTGCGATAGCGAGAGCGTTATTAAGAGATCCGAATGTATTATTACTTGATGAACCTTTTGGAGCGCTGGATGCTTTTACTCGAAGTCATTTGCAAGAAGTATTGCTAAATATTTGGGAGCAGAAAAAAACAACAATGATATTCGTTACACATGATATAGACGAAGCGATTTATCTTTCAAACCGAATCATCATTATGAGTGCAAAACCAGGGAAAATACATAAAGTGATTGAAAATAATTTGCCTTATCCGCGAAATAAAACTTCTCAATCGTTCCAACAACTTCGAACGAAAGTATTACAGCAGTTTGAATATGGAGGATTGATTCAAACAAGTATATAG	MTVSIDGVSKYFLKQTGTVQVLENINFQLEKGDFVTVIGPSGCGKSTLLKIVAGLDNDFEGEVVIDGESILKPSKKQGFIFQEHRLFPWLTVEENIAADLSLKDKYVKDKVREWVEIVRLDGFEKSYPKEISGGMSQRVAIARALLRDPNVLLLDEPFGALDAFTRSHLQEVLLNIWEQKKTTMIFVTHDIDEAIYLSNRIIIMSAKPGKIHKVIENNLPYPRNKTSQSFQQLRTKVLQQFEYGGLIQTSI	PGPT0003035_1430	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
AK009_01486	513			hypothetical protein	ATGAATAAGTTACTTACATCGAAAAGTGAAATTATAGAAAGAAAAATCCGGTATAACTCAACAATAGTAGATCACAATTGTTTATTACTTGAAAAGCAATCACAAAGTATCGTTTTATTTCACGAGGTGCAGTATTCATTTACAATGACTGCAAATGATACTAAGTTAACAATCCCAAAAGGGAGTTATACAATCGCATATTACTGGAAAGATTGTCCGTACAATTTATACGTATGGAGAGATATAAAAGGGAAGTATTTAGGTTCCTATTTTAATATCGTAAAAAATACACAAATAAAAGACGAAGTGGTTTCCTTCGAAGATTTAATCATCGATATTATGGTACTTCCAAATGGAGAATACTTCATATTAGATGAGGATGAATTACCAGAACCATTAGGAAATTTCGAAGGTGGTTATGTGAAGGAAGCTCTTTATATATTAATGGATACAATTAAAACGTTCCTTCCAAAAATAATAAAAGGGACTGCTGATATCTTTAAAAATAAATAA	MNKLLTSKSEIIERKIRYNSTIVDHNCLLLEKQSQSIVLFHEVQYSFTMTANDTKLTIPKGSYTIAYYWKDCPYNLYVWRDIKGKYLGSYFNIVKNTQIKDEVVSFEDLIIDIMVLPNGEYFILDEDELPEPLGNFEGGYVKEALYILMDTIKTFLPKIIKGTADIFKNK				NA	NA	NA	NA	NA
AK009_01487	1056			hypothetical protein	ATGAATGTTACACTATCGCGAAGGCGAAAAGGTATTTGGATTGGACTCGTCTCTTTAATTATGCTATCAAACTATTTATTGTATGCTCTTCCAATAGTACCAGCTGCGCCGAAAGAAGTTGTACTTGGGTCATTATTAGATTGCATGTTTGTCATTCCAATCATCACGTATTTCTTCATTATTCGAAAAAGGTACTCGTTAACGTATATAGTTCCTGTTGTAATAGCTGGTTATATTTTTGCAAGATTTATTATTCCAAGTGACTATTTACAAGATTTTTCATACGTTTCTTATATTATAGTTGCAGGAGAAATTGCTTTTGTATGTTTAGAGTTATTCCTTCTATATAAAATTGTTAGAAAGCTTCCTACCATAATAAAAAAATATAAAGAATATAAAAGTGAGTACTCTTCATTTTCTTATGCAATTGATGCTGCGTTTGACGCTACTATGAAAAGAAATAAATTAATAGATATCATTGTAACGGAGTGTAAGTTAATCTATTATGCATTTTTATCGTGGCGTGAAAAAGTACCAGAAGGTGAATACGTATACTCATATCACAAAAAGACTGGTGCAATAGGTGTATATATCATGATCATCCATGCGACCTTAATAGAAAGTATTGGTTTTCATTATTTGCTACACCAGTGGAATCCAGTAATAGCATGGATTTTACTTATTTTAAATGTATACGCGATGATTTATTTTATAGCTGAAATACAAGCGATGCGTAAAAATCCACTTATCGTAACAGAAGAACAAGTAATCATTCAAATTGGATTAGGAAAGAAAATTGTTATATCATTTACACAAATTGATAATATTGCGTTCTACAAGGATGAATTGCTAACGGCAAAAGAAGGGAAACAGGTATTGGATGCAACTGTTATGGAGTTCATAAAAGAACCTGCTACTTTTGAAATAACATTAAAAGAGCCAGTGAAAGCACAGTTGTTATATGGATTTTCTAAAACAGTAAGTCGTGTGCACTTAAATGTTGATGAAGAACGAAAATTTTATGATGCGGTTAAGGAAAAGTTAAAACATGAGTAA	MNVTLSRRRKGIWIGLVSLIMLSNYLLYALPIVPAAPKEVVLGSLLDCMFVIPIITYFFIIRKRYSLTYIVPVVIAGYIFARFIIPSDYLQDFSYVSYIIVAGEIAFVCLELFLLYKIVRKLPTIIKKYKEYKSEYSSFSYAIDAAFDATMKRNKLIDIIVTECKLIYYAFLSWREKVPEGEYVYSYHKKTGAIGVYIMIIHATLIESIGFHYLLHQWNPVIAWILLILNVYAMIYFIAEIQAMRKNPLIVTEEQVIIQIGLGKKIVISFTQIDNIAFYKDELLTAKEGKQVLDATVMEFIKEPATFEITLKEPVKAQLLYGFSKTVSRVHLNVDEERKFYDAVKEKLKHE				NA	NA	NA	NA	NA
AK009_01488	474			hypothetical protein	ATGGAACATTTATTAAAGCAAGCTATTAAACTTAGAAACGAAAAGAAATATGCGCAGTCTAAAGAGATGCTTATAGGATTAACAAACTTTACAAAGGATGCAGAAGTACTGTATCAGTGTGCGTGGATACATGATGTAATGGGGCTAGAAACAGAAGCAGTTCCGTATTATGAGCAGGCAATCGCAAATGGACTTGATGGCGAATCCCTTTGCGGTGCTTATATTGGTCTAGGAAGTACATATCGTTGTATAGGGGAATATGAAAAGGCAATTACAGTATTAGAAGCTGGGGTGAAAAAATTCCCAGAGAACGATCCGATGAAAGTATTTTTATCATTAGCAAAATATAACGTAAACGATCACGAGTCAGCGATGAAATTATTACTTGAAACTGTCGTGAAAGTAGAGGAAGTAAAAGAATTTGAACGTGCCATTTCATTTTATAAAGACCACTTAAATGAGGTTTTTAAATAA	MEHLLKQAIKLRNEKKYAQSKEMLIGLTNFTKDAEVLYQCAWIHDVMGLETEAVPYYEQAIANGLDGESLCGAYIGLGSTYRCIGEYEKAITVLEAGVKKFPENDPMKVFLSLAKYNVNDHESAMKLLLETVVKVEEVKEFERAISFYKDHLNEVFK				NA	NA	NA	NA	NA
AK009_01489	690	coaBC_1		Coenzyme A biosynthesis bifunctional protein CoaBC	ATGAAAGGGAAAAAGGTATTAATTACGAGCGGTGGTTGTCTAGAAAAATGGGATCAAGTACGCGGGCATACGAATATGGCTAAAGGTACAATCGGAAGGATAATCGCAGAAGAACTTCTAGCTAAAGGGGCACATGTTATATATTTACACGGTTATTTTGCGGAGAAACCGAGCGATGTACATAGAGGGTTAGAATTACATCCATTTGAAGGGATTGTTGATTTACAAGATAAAATGAAAAGTATCATCACACATGAAAAGGTTGATGCGGTTATTATGGCAGCGGCTGGATCAGATTGGATTGTGGAGAAGATCTGTGATCAAGATGGTAATGTTCTTAATATGAACGGAAAAATTTCAAGTGATATTGCACCGATTATTCACTTTCAAAAGGCTCCAAAAGTATTAAAACAAATAAAAGAATGGGACCCAGAAACAGTACTTATTGGTTTTAAACTTGAAAGTGATTTAAATGAAGAAGAACTGTTTGAAAGAGCGAAAAATAGAATGAAAGAAGCAAGGGCGAATGTAATGATTGCGAATTCACCACATTCTTTATATTCGCGCGGAGCTGTGCATTATGTAATTGGACAAGATGGTAAAGGGAAGTTGTGTAATGGGAAAGATGAAACAGCGAAAGAAATTGTCAAAAGCTTAGAGGTATTATGTAATCGTGTCACTGCTTTTTAA	MKGKKVLITSGGCLEKWDQVRGHTNMAKGTIGRIIAEELLAKGAHVIYLHGYFAEKPSDVHRGLELHPFEGIVDLQDKMKSIITHEKVDAVIMAAAGSDWIVEKICDQDGNVLNMNGKISSDIAPIIHFQKAPKVLKQIKEWDPETVLIGFKLESDLNEEELFERAKNRMKEARANVMIANSPHSLYSRGAVHYVIGQDGKGKLCNGKDETAKEIVKSLEVLCNRVTAF	PGPT0008805_189	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,PGPT0008805-coaB-K21977	NA	NA
AK009_01490	804	yokD	COG2746	SPbeta prophage-derived aminoglycoside N(3')-acetyltransferase-like protein YokD	ATGAAAATGAATGATATAGTAGCAAGTACAAAATTTCCAAATACAATCGAAACAATAACAAAAGATTTAAAAGCATTAGGAATCGAAAAAGGAATGACAATTATCGTTCATTCATCACTAAGTTCTATCGGGTGGATATCTGGTGGTGCGGTTGCCGTAGTAGAAGCATTAATGAAAGTTGTTACGGAAGAAGGAACGATAATAATGCCAACGCAATCTTCGGATTTATCCGATCCGAAACATTGGTCAAGACCACCTGTACCGGAAGACTGGTGGCAAATTATCCGAGATAACGTCCCGGCATTTGATTCACGTATAACCCCAACAAGGGGAATGGGTGAAATAGTTGAATGTTTTCGTACATATCCGAATGTAGTACGTAGTAATCATCCGTTAGGAAGTTTTGCTGCATGGGGAAAACATGCAGTAGAAATAACAATGAACCATTCGTTATCAATGAGCTTTGGAGAAGAATCTCCATTAAGAAAAATATATGATTTAGACGGGTACGTATTATTAATTGGTGTTGGATATGATTCCAATACGTCTGTTCATTTATCCGAGGTGCGTACTGGTGCATGTGAGTTAATACAAGTAGGAGCACCTATTATAGAAAACGGTGAGAGAGTGTGGAAAGAGTTTGTTGAAATGGATTACGAATCTGAGAAGTTTGTTGAAATTGGTGTTGAGTTTGAGCGAAAAGGAACTGTAAAAAATGGGAAGATAGGGAATGCAACGTGTCGTCTAATGAAACAGCGTGATATAGTTGACTTTGGAACAGAATGGTTTCGTAAGAAAAATTAG	MKMNDIVASTKFPNTIETITKDLKALGIEKGMTIIVHSSLSSIGWISGGAVAVVEALMKVVTEEGTIIMPTQSSDLSDPKHWSRPPVPEDWWQIIRDNVPAFDSRITPTRGMGEIVECFRTYPNVVRSNHPLGSFAAWGKHAVEITMNHSLSMSFGEESPLRKIYDLDGYVLLIGVGYDSNTSVHLSEVRTGACELIQVGAPIIENGERVWKEFVEMDYESEKFVEIGVEFERKGTVKNGKIGNATCRLMKQRDIVDFGTEWFRKKN	PGPT0028625_381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028625-aacC-K00662	NA	NA
AK009_01491	402			hypothetical protein	ATGAATTTACAACTTGTTGAACAACTTGAAAAAGATTCAATATTAAATGTGCTACAATATGCCGTCGGTCCAAATGAAATAAGCTTAAAGAAAGCAGTATTACTTTATCAAAATAATAAAGGGACTTTGTACAAATATGAAGAAAAAGCTTGTATAGGTATAGAAGTAATCGGAGCAACTAAAGCACGAGTATGTCATATAGCAGTGGATCCAGATTATCGTCAAAAAGGAATTGCACTGCAAATGATTAAAGAGGTTGTAAGAATATATCAATTGACTTATATAGAAGCAGAGACAGACGATGGGGCGGTAGAATTTTATAAAAGAATTGGTTTTCGAGTTAAAAGTTTAGGAGAAAAATATAAGGAAATCGAAAGATTTCATTGTTATTTGGAAAAATAG	MNLQLVEQLEKDSILNVLQYAVGPNEISLKKAVLLYQNNKGTLYKYEEKACIGIEVIGATKARVCHIAVDPDYRQKGIALQMIKEVVRIYQLTYIEAETDDGAVEFYKRIGFRVKSLGEKYKEIERFHCYLEK				NA	NA	NA	NA	NA
AK009_01492	939			hypothetical protein	ATGAAAGCAATTGTTATAGGGATACTGGCATCATTTTTCTTTGCCTTTACCTTTGTTTTAAACCGGGCAATGGACTTAGAAGGTGGAAGCTGGATTTGGAGTGCATCATTACGGTATTATTTTATGGTTCCAATGCTATTACTTATTGTTATGTATAGAGGGAACTTAAAGCAACTCTTTCAATATATGAAAAACAATCCGAAAGAATGGTTAGTATGGAGTATCGTTGGATTTGGTCTCTTTTATGCACCGCTTAGTTTTGCTGGAGCGTTCGGACCAGGTTGGCTTGTTGCATCAACATGGCAAATTACAATCGTTGCAGGGATTTTGTTAACACCATTTTTTGCGGTGGATCCACTACATAAAAAACTTCCGATGAAGGAATTAGTTATGTCGGGTATTATTTTATTTGGTGTTGTTCTCATGCAAGTAGAACATGCTTCTTCATTAGGTATTCGTGAAACCGTTTTATGTGTAGTTCCTGTACTTATTGCAGCATTTGCGTATCCTCTTGGAAATCGAAAAATGATGCAAGTTTGTAAAGGGGAATTAGATGTATTTCAGCGAGTACTCAGTATGACATTAGCAAGTTTACCATTTTGGTTTTTATTATCTGGTTACGAAGTATCAACTGGCGGATTACCGTCAAGTAGCCAAGTTTTTCAATGTTTTATTGTAGCAGTTAGTTCGGGGTTAATCGCGACAGTATTATTTTTCTTTGCAACAGATCTTGTGAAAGATGATCCACAAAAACTAGCAACAGTGGAAGCGACGCAGTCTGGTGAAGTTTTATTTGCGCTAGTAGGAGAGCTGATCTGGTTATCTGCACCAATTCCGTCATCATTATCTTGGATTGGTATGAGTCTCGTTATTATTGGGATGATACTTCATAGTTATGTAGCTGTCGTTGTAAAAAAAGAAGAAAAAATAACGGCGTAA	MKAIVIGILASFFFAFTFVLNRAMDLEGGSWIWSASLRYYFMVPMLLLIVMYRGNLKQLFQYMKNNPKEWLVWSIVGFGLFYAPLSFAGAFGPGWLVASTWQITIVAGILLTPFFAVDPLHKKLPMKELVMSGIILFGVVLMQVEHASSLGIRETVLCVVPVLIAAFAYPLGNRKMMQVCKGELDVFQRVLSMTLASLPFWFLLSGYEVSTGGLPSSSQVFQCFIVAVSSGLIATVLFFFATDLVKDDPQKLATVEATQSGEVLFALVGELIWLSAPIPSSLSWIGMSLVIIGMILHSYVAVVVKKEEKITA				NA	NA	NA	NA	NA
AK009_01493	522			hypothetical protein	ATGAAAGATCTCCATTTAGAAAGAAATATGGACCTTCAAGTAGCGATTTTGTATGCGACGGTTGCTGATACGTTTAATAGATTGCAAAGGTTAGTAGAAGGTACTGAAGAGAACGAACTATCCTATAAAGGGTCTGAAAATAATGAAAATAGTATTGGGCAGTTACTTCAGCATTTAGCAGTTGTCGATTTACATTGGGTGTATCGTTTCAAGGGAGAAGATGTTCCAACAACATTTGAAAATAAATATGGTCCTATGTTGAATGAAGTAGGAGAAATGCCGAGTTTAAGAAAATACACGTTGCAAGAGTTAATGCAAGATTATGAAGCAGTGCAAAAATTGTTTCATGAAGAATGTATGAAACTAACAGAAACTGATTTAACGCGGGAAGTTTTGTATGAAAAAGGGGAAACTGCGACTATAAGATGGGGAATTTGGCATATAGCAGATCATAATCGATATCATCAAGCACATATAAGTCGATTGAGGAAATTATATAGAGCTAGATTACATACAAGTTAA	MKDLHLERNMDLQVAILYATVADTFNRLQRLVEGTEENELSYKGSENNENSIGQLLQHLAVVDLHWVYRFKGEDVPTTFENKYGPMLNEVGEMPSLRKYTLQELMQDYEAVQKLFHEECMKLTETDLTREVLYEKGETATIRWGIWHIADHNRYHQAHISRLRKLYRARLHTS				NA	NA	NA	NA	NA
AK009_01494	501			hypothetical protein	ATGATTCGATTACTTACAAAAGCGGATGCAAAACAATATTGGGAGTTACGTTTACAAGCACTACAAGTAAACCCAGAAGCATTTGTAACGACTTATGAAGAAGCAGTACGTCAAGAAAACCCTCTTGAACGCGTTGCTAGTAATCTTTCATCTAACAGTAGTTTTACATTTGGTGCTTTTAATAATGAAAATCGTTTAGTTGGGGTTGTTACTTTATTAACAGAAGAAAAGGATGCATATAAGCATAAAGGGCATATCGTTGCAATGTATGTAGATACTGAAAATCGAAGAAGTGGTCTTGCACGTGATTTAATACGTAAAGCAATTGAAAGGGCAAAAGAGATGAAGCTAGAGCAATTGAACTTAGGGGTTGTGTCAACGAACGAACCAGCCAAACGATTATATGAATCAATGGGATTTAAAACGTACGGAATTGAAAAAAGGGCTATAAAAATGAATGGTGTGTATAGTGATGATGAACATATGGTGTTGTTCTTTTAA	MIRLLTKADAKQYWELRLQALQVNPEAFVTTYEEAVRQENPLERVASNLSSNSSFTFGAFNNENRLVGVVTLLTEEKDAYKHKGHIVAMYVDTENRRSGLARDLIRKAIERAKEMKLEQLNLGVVSTNEPAKRLYESMGFKTYGIEKRAIKMNGVYSDDEHMVLFF				NA	NA	NA	NA	NA
AK009_01495	546			hypothetical protein	ATGAATGTACCATATGTTCAATTAAGAGAATTGACATTAGATGATGTAGAAGATCGCTATCAATGGTCATTAGATAGAGATGTAACAAAGCATTTAGTCGTACCAGATCAATATCCTCCGTTCACTCGTGAAGATACGAGAAACTGGATTGAAGCTTGTATAAGCCGAAAAAATGGTTATGAACAAAGGGCAATTGTTACTGAGAAAGGTATACATATTGGATGGGTAGACCTTAAAAATTTTGATAAAACAAATAAAAATGCAGAACTAGGAATTGCGATTGGAAATAAAGACTATTGGGGTAAAGGATTTGGAATGGCAGCTCTAAACAGCATGTTACATATAGGTTTTTCCCAGTTTGAATTGGAGAAAATTTGGTTACGTGTAGATGAAGATAATACACAAGCTAAAAAGAGTTATGAACATGCCGGATTTGTATGTGAAGGGTTAATGAGAAATGATCGATTGAGACAGGGGAAGTTCATTCATCGCTATCGTTACAGTATATTAAAAGAAGAGTATGAATTAAAAAATAATAACCTATAA	MNVPYVQLRELTLDDVEDRYQWSLDRDVTKHLVVPDQYPPFTREDTRNWIEACISRKNGYEQRAIVTEKGIHIGWVDLKNFDKTNKNAELGIAIGNKDYWGKGFGMAALNSMLHIGFSQFELEKIWLRVDEDNTQAKKSYEHAGFVCEGLMRNDRLRQGKFIHRYRYSILKEEYELKNNNL				NA	NA	NA	NA	NA
AK009_01496	702			hypothetical protein	ATGAAACCAATTGAAGCAGCACAAAACATAATTACATCACAATTTCCGAATTGTGATGTAGCTTTACTCGGCGGAAGCGTTGCACGAGGAGAAGCGACGAAAACATCTGACCTTGATATTGTAATAGTCGATCAAAGTTTAACTTCTTGTTATAGAGAATCTTTCTATAGTAATGGATGGCCTGTTGAGGTGTTTGTTCATAATTTTGAAACATATAAAACCTTTTTCAAAATGGATTGTGATCGAGGGAGACCTTCGTTACCACAATTAGTTTCAGAAGGGATTGCATTAAAAGGGGAAAAGGAAATTGTTGAGAAATTAAAAAAAGAAGCGAATGGTTTACTACATAAAGGACCAGATAAATGGACGGAAGAAACGATTAAGCAGAAGCGATATTTTATTACGGATACTTTAGATGACTTTATTGGTGCAACGAAAAGAGAAGAAGAATTGTTTATCGCTAATCTATTAGCGGATTTAGTACATGAATATGTATTAAGAGTAAATGGTAGGTGGCTTGGGAGTTCAAAATGGTTCATTAGAGTGCTAAGAAGGTATGATGAGCAATATGCAAACAAATTTGTAGCCGCTTTTGATCATTTTTATAAAACGGGAGAGAAAAATGAATTAATTCATTTTATAGAAAAGACGTTAGAACAGTATGGTGGAAGAGTGTTCGAAGGATTTTCTATTGGTAAATAA	MKPIEAAQNIITSQFPNCDVALLGGSVARGEATKTSDLDIVIVDQSLTSCYRESFYSNGWPVEVFVHNFETYKTFFKMDCDRGRPSLPQLVSEGIALKGEKEIVEKLKKEANGLLHKGPDKWTEETIKQKRYFITDTLDDFIGATKREEELFIANLLADLVHEYVLRVNGRWLGSSKWFIRVLRRYDEQYANKFVAAFDHFYKTGEKNELIHFIEKTLEQYGGRVFEGFSIGK				NA	NA	NA	NA	NA
AK009_01497	684			hypothetical protein	ATGTTTCTTGAGGAAGTAATGCAGCAACTAGAGAAATATGGAACAGAACAAAATCGTAAAACGTATAAAAACCACGGAGCGAAAGAGCCACTATTCGGAGTTAGTTTTGCGAATTTAAAATTGTTAAAAAAGAAGCTAAAAAAAGATCATGATTTAGCAGTTGAATTGTGGGAAACAAAAAATATGGACGCAATGACATTAGCAACTTATATTTTAGATCCGAAGAAAATAACGACAGAACAGCTTAATAGTTGGGTTCAGGATGTTGATTATTACTGTTTAATGGATCTTCTTATGACATCTATATGTACTTCGCCAATTGCAATAGAAAGAATGGAAGAGTGGACAAAGTTTAATGATGAATGGATTGGAAGAGCTGGCTGGTCTTTATTAGCAAATATAGCGATTAAAAATAAAGCGTTACATGATGATTTCTTCTCCCCGTACTTAGAAGAGATTAAAGAAAATATACATAATGAAAAAAATAGAAAAAAAGAAGCGATGAATAGTGCTTTAATCGCAATAGGAATTCGTAATGAAGACTTAGAGCGACAAACGATTGGAATTGCGCGTGAAATTGGAAAAGTAGAGGTTGATCACGGTGCGACATCATGTAAAACACCAGATGCAGAAAGCTATATAAAAAAAGCGAGAGAAAGAGCTGAAAAAAAGAAAGTGAAATAA	MFLEEVMQQLEKYGTEQNRKTYKNHGAKEPLFGVSFANLKLLKKKLKKDHDLAVELWETKNMDAMTLATYILDPKKITTEQLNSWVQDVDYYCLMDLLMTSICTSPIAIERMEEWTKFNDEWIGRAGWSLLANIAIKNKALHDDFFSPYLEEIKENIHNEKNRKKEAMNSALIAIGIRNEDLERQTIGIAREIGKVEVDHGATSCKTPDAESYIKKARERAEKKKVK				NA	NA	NA	NA	NA
AK009_01498	948	cysK_2		Cysteine synthase	ATGATAGTAAAACATTTTAAAGAGTTTTCTAAACATGTTGGAAATACACCTCTCATGAAATTAGAATGCGAAGAAACGAAGAACCTTTCTATCTATGCTAAATGTGAATGGCATAATCCTACAGGATCAATTAAGGATAGGGCCGCACTTGGAATGATTAATAAATATTTACAAGAAGCGGACAAAAAACAAAATATTTTAGAGTATAGTGGTGGAAGCTTAGCGAGGTCAATTGGGTGTATTTGTAATTGTTTAGGGATTGAATGCACGTTAGTGTTAAGTTCTGCAACTGGTCAATCTCTATTAAATAAACTCAAATATTATGGTGCTAACGTAATCTTAGTTGATAAATGTAAGGGGTTTTACGCAGTAATTGAGAAGGCAATAGAGATTAGCAAACAAAATCCAGAATTATACTTTTTATTCCAACATTATAATAATGCAAATATAGTAAGTCATATTGAAGGTACAGGGCGAGAAATTATTGCACAAATGATTGGAAAACCAATACATGCATGGGTAGCATCTGCTGGTACTGGTGGAACTCTAATGGGAGGCTATACAGCAATAAAGAATTATACAAAAAATGTTGAACTACATTTAGTAATGCCTGCTGAATTGCCTTATGCTTCGGAACAACCACCAAATGATTTAAAGAAATATGCTGGATCAGGTGGGTTCGGCTTAGGAAGGAAACAACATTTCATAGAACAGGAAGAAAATTTGATAGAAAAACAATGGACTTATTCATATGAAGATACCCTGTATGAAATGGCACGTTTTTACAAAGATACTGGTATAAAAATAGGAACTTCTGCGGCAGCGAATTTATTAGCTGCTAAACAAATTGGGAAAGAAAAAGGTGCGAATTTTAATGTAGTTACAGTTTTTCCGGACGCAGGGTCAATAGAAGAGTGGTCAGATGTAAAAAAATTAGTTGAAAAATAG	MIVKHFKEFSKHVGNTPLMKLECEETKNLSIYAKCEWHNPTGSIKDRAALGMINKYLQEADKKQNILEYSGGSLARSIGCICNCLGIECTLVLSSATGQSLLNKLKYYGANVILVDKCKGFYAVIEKAIEISKQNPELYFLFQHYNNANIVSHIEGTGREIIAQMIGKPIHAWVASAGTGGTLMGGYTAIKNYTKNVELHLVMPAELPYASEQPPNDLKKYAGSGGFGLGRKQHFIEQEENLIEKQWTYSYEDTLYEMARFYKDTGIKIGTSAAANLLAAKQIGKEKGANFNVVTVFPDAGSIEEWSDVKKLVEK	PGPT0002810_4778	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
AK009_01499	390	yycE		putative protein YycE	ATGAAGAATTGGGTTCAATTTAGAATTGCAAGACCAACAGATAGATTTGAAGAAGTGATAAGTTTTTATGAAACAGGATTAGGATTAAAACGTATAGGGGAATTTCACAATCATGAAGGATATGACGGGGTTATGTTTGGTTTACCAGATGAAGAATATCATTTGGAGTTTACTACACATGTTAATGGAAGTCCATGTCCGGCACCGACAAAAGATAATTTACTAGTTTTTTATATGCCTAATAAAGGTGAAATTGAAAAGATAGTGAATCGATTAAGTAATATGGGCTATCATGAGGTGGAACCAGAAAACCCGTATTGGATAGAGAAAGGAACCACAATAGAGGATCCAGATGGTTGGAGAATTGTGCTTATGAATGCATCTGAATAA	MKNWVQFRIARPTDRFEEVISFYETGLGLKRIGEFHNHEGYDGVMFGLPDEEYHLEFTTHVNGSPCPAPTKDNLLVFYMPNKGEIEKIVNRLSNMGYHEVEPENPYWIEKGTTIEDPDGWRIVLMNASE				NA	NA	NA	NA	NA
AK009_01500	822			hypothetical protein	ATGAATAATTATATTTGTACTACATGTGGAGTACAGTATCCCGAAAATGAAGAAGCACCTTCTCGTTGTAAAATTTGTAATGAGGAAAGACAATATGTTAATCCAATTGGGCAGTCATGGACAACATTAGAAACAATGCAAAATAGCAATTTATACAAAAACGAAATAATAAAAGAAGAAAGCGGTTTGTATAGCATTACTACTAAACCTAAATTTGCGATTGGACAAACAGCATTTTTAATACAAAGTAAAACTCTAAATGTTATGTGGGATTGCATTAGTTATTTAGATGATAAAACGATACAACGTATATATGATTTAGGTGGTATTCAAGCAATAGCACTTTCTCATCCACATTATTATTCTACACAAGTTAAATGGGCAGAAACATTCAATGTACCTATTTATATTCATGAAGATGATAAAGAGTGGGTGGTTCGTCCGAGTAAGCAAATTAAATTTTGGTCTGGGGAGCATCTTTTGTTATCGGAAGAACTTATATTACATCGCTTAGGAGGCCATTTTAAGGGCGGGACTGTTATACATTGGAAAGACGGTAATGAAGGGAAAGGTATTTTGTTATCAGGTGATATTATACAAGTAGTTTCGGATCAAAAATGGGTAAGTTTTATGTATAGTTATCCCAATCTTATTCCATTACCAGCGAATAAAGTTAGAGATATGGCAGAGAAAGTAAAAGATATCCAATTTAGTCGACTATATAATGCATTTCATGGTGTGGTGGAAGATGCAAATAAAGCTGTACAAAGATCTGCTGATCGGTATATAAAGGCCCTGCAAGGAGAACTATTTCATACGTAA	MNNYICTTCGVQYPENEEAPSRCKICNEERQYVNPIGQSWTTLETMQNSNLYKNEIIKEESGLYSITTKPKFAIGQTAFLIQSKTLNVMWDCISYLDDKTIQRIYDLGGIQAIALSHPHYYSTQVKWAETFNVPIYIHEDDKEWVVRPSKQIKFWSGEHLLLSEELILHRLGGHFKGGTVIHWKDGNEGKGILLSGDIIQVVSDQKWVSFMYSYPNLIPLPANKVRDMAEKVKDIQFSRLYNAFHGVVEDANKAVQRSADRYIKALQGELFHT				NA	NA	NA	NA	NA
AK009_01501	231			hypothetical protein	TTGAATTATAAAAAAATACTTTCAATATTAATGACAAGCATATTTACAGTAGGATTATTAATTGGCTGTAATCCAGCTCCAAAAGATGAAAAGGAGCCAGATCCAACGGAGGAACCTTCTGAACAAAGACAGGAGGAAAAAAATAATGAATTAAACAAAAAGGATAAGCAAGAACCAGATCCAACAGAAGAGCCATCTGAGGAACAAAAGAAGAAAAAAGAAAATGAGTAG	MNYKKILSILMTSIFTVGLLIGCNPAPKDEKEPDPTEEPSEQRQEEKNNELNKKDKQEPDPTEEPSEEQKKKKENE				NA	NA	NA	NA	NA
AK009_01502	828		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGCACAATGGAATTCGAATGACAACTTTGGTAAAAAGGGCTATGTTGGTTTGTGCGGGGGTATTATTTACATACGAAGCCGCTTTAGGATCAGTACATACTGCTTTAGCTAGTACAGAGGATGAAGCAAAATCTGTTCAACTTGTAAGTGAGATTCAAACATCTCTTGCTCCGAAAGAGGCTCCAAAGCATTATAACGGACAAGTTAGAAAAGTCGCTTACTTAACATTTGATGACGGTCCCGGAAAATACACAGCTGAGCTTTTAGATATGTTAAAGAAAGAAAATGCAAAAGCAACATTCTTCCTAATTGGTTCAAACGTAAAAGCTTTCCCTGATCTTGTAAAACGCGAAGATGCTGAAGGCCACTACGTTGGGATGCACAGTATGACTCATAACTACAAGAAACTTTACACTGAAGGTCATTATGTAGATGAAATGAAGGAAGATCAAGGCTTAATCGCTGGTGTTTTAGGTAAATCACCAGTATTAACTCGCCCATCTTACGGATCAATGCCAGGATTAAACGAAGCTCTTCGCAACAAAGTTGTAGAAAATGGCTTAAAGGTTTGGGATTGGACAATTGATTCTTTAGACTGGAAATATAACAAAATGCAAGTTGATGCTGCATCTGCTAAAATTGTAGAGAACGTACTACATGGTGCTACAAATCCAACAGAAGTTATCCTTATGCATGATATTCATCCACAATCGGTAAAAGCAGTACCTGGAATTATTAAAGGACTGAAAGAAAAAGGATATGAATTAGAAGCATATAATGAGAACGAACACTTCCCATTAAACTTCTGGCATGATAATCGTATGTAA	MHNGIRMTTLVKRAMLVCAGVLFTYEAALGSVHTALASTEDEAKSVQLVSEIQTSLAPKEAPKHYNGQVRKVAYLTFDDGPGKYTAELLDMLKKENAKATFFLIGSNVKAFPDLVKREDAEGHYVGMHSMTHNYKKLYTEGHYVDEMKEDQGLIAGVLGKSPVLTRPSYGSMPGLNEALRNKVVENGLKVWDWTIDSLDWKYNKMQVDAASAKIVENVLHGATNPTEVILMHDIHPQSVKAVPGIIKGLKEKGYELEAYNENEHFPLNFWHDNRM	PGPT0012155_64	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012155-cda2-K01452	NA	NA
AK009_01503	426			hypothetical protein	ATGAATTTTCAAAATAAAAAAATAGTATTACATTTAGAGGTGGTGAAATACCAATTTAAAGATGCAAAAGAGGAGTGTGATAGAAATTGGCTAATAGTAAAAGCGAAACTGTCAGAAGGAAATAAAGTTTTTGAAACGATGGATCCTTTTCTACAAACGTTCGACTTACAGCGTATGAAAAAATGGTTTCAATCATTACCGAATCCTACATATACCGAACTAGATTTCATAGAGCCTAATATAGCGTTTGAATTAATGGGGGAAAATGAAGATGAGTTTCAAATTGTAGTCCGATTATCTCAGGAACTTACCCCTTCATGGTGTAAGGAAGAGGAGTACGAATTTTCTATAAGTATTACACAAGAGGACAGAGAAAAGATTATTCTTTTTATTGAAGAGCAACAAAGAAATTTCCCAAAACGATAA	MNFQNKKIVLHLEVVKYQFKDAKEECDRNWLIVKAKLSEGNKVFETMDPFLQTFDLQRMKKWFQSLPNPTYTELDFIEPNIAFELMGENEDEFQIVVRLSQELTPSWCKEEEYEFSISITQEDREKIILFIEEQQRNFPKR				NA	NA	NA	NA	NA
AK009_01504	468			hypothetical protein	TTGGCGAATCCTACTATTTCAAGCTTAACGGTTCAGAAAATCGCAACAAAAGCAGGGTTAAATCGAACAACATTTTATTTGCATTATCAAGATATTCAAGATTTACTAGACCAAATCACTAGCGAAATTTTAAATGAGCATTCAAATAAAATTGTTGATTTAATACATGCAAAAGATTTATCAGAAAAACAAAAGCTAACACAATTGCTAGATTATTTATATATTCACCGAAATTTTTTATTTATATTATTTAAAATGAATCAATTTGAGGAGCAATTGTTTTTATTTTTAAAGCAATTAATAGAAACGAGAAGAGAGAATACGAAAAAGAATTTACCTGATGATTACGTTGCAGTTGATATTAAAACAGCCTCTTTGGTAGGGATTATCATGTGGTGGATAAGGAATGGACTTCACTTTAGTTCAGATTATATTGCAAATCAAATTTATTTAATGTATAAAGGATGA	MANPTISSLTVQKIATKAGLNRTTFYLHYQDIQDLLDQITSEILNEHSNKIVDLIHAKDLSEKQKLTQLLDYLYIHRNFLFILFKMNQFEEQLFLFLKQLIETRRENTKKNLPDDYVAVDIKTASLVGIIMWWIRNGLHFSSDYIANQIYLMYKG				NA	NA	NA	NA	NA
AK009_01505	159			hypothetical protein	ATGCAAGTAACAAACTTATCTTCTATCTATAGCTCAAGTGATGCGTACGTATTTATGTTAGTCTTATCTATTGTGGCTTTAATTATTGCATGTTTCACGCCTAAAAAAGTAATAATCAAAGATACGAAAGTAAATCTTCAAACAAAAAATGATAATTAA	MQVTNLSSIYSSSDAYVFMLVLSIVALIIACFTPKKVIIKDTKVNLQTKNDN				NA	NA	NA	NA	NA
AK009_01506	672			hypothetical protein	ATGGATTTTCTTTCACCTGAATATTTGTCTGCCTTATTAGCAATTATCGTAATCGATTTAGTGTTAGCCGGAGATAACGCCATTGTAATTGGATTAGCAGCAAGACGATTACCGAAAGATCAACAAAAGAAAGTTATCATTTGGGGAACCGTTGGAGCAATTGCTATAAGAGCTCTTGCTACTTTAGTTGTCGTTTGGTTATTAAAAATACCAGGATTACTTTTAATTGGTGGTGTACTTCTTATATGGATTGCTTACAAATTAATTGCTGAAGGCAAAGACCATGATATTAAGGCAGAAGAAGGATTTTGGTCTGCTATTAAAACCATTATCATTGCTGATGCGTTAATGGGTATTGATAATGTACTCGCTGTTGCAGGAGCTGCGCATGGTAACTTTTCTTTAGTAATCATCGGGCTATTAGTTTCTATTCCTGTAGTCGTATGGGGCAGTACATTGATTTTAAAATGGGTAGATCGTTTTCCTGTCATCATTACGATTGGAGCAGTGGTTTTAGCTTATACTGCTGCAAAAATGATTGTAGATGAGAAATGGTTCGCTGGATTTTTCGAAAGTAACCCTTTCATTAAATGGGCATTTATCATTATGATCATTGTTGGTGTAGTGTTCTTCGGAAAAGCAAAACAAAAAGCAACAGCTAGTTCTGTCTAA	MDFLSPEYLSALLAIIVIDLVLAGDNAIVIGLAARRLPKDQQKKVIIWGTVGAIAIRALATLVVVWLLKIPGLLLIGGVLLIWIAYKLIAEGKDHDIKAEEGFWSAIKTIIIADALMGIDNVLAVAGAAHGNFSLVIIGLLVSIPVVVWGSTLILKWVDRFPVIITIGAVVLAYTAAKMIVDEKWFAGFFESNPFIKWAFIIMIIVGVVFFGKAKQKATASSV				NA	NA	NA	NA	NA
AK009_01507	1974	ltaS1_2	COG1368	Lipoteichoic acid synthase 1	ATGAAACAGTTCTTATTAAAGAGCAAAAGTGTGTTAAGCAATCATTTTGGATTCTTTCTGTTTGCCGTTATTTTATTGTGGCTCAAAACGTATGCAGCCTATGTAACGGAATTTAATTTAGGAATTTCAAACACAATCCAAAAATTCTTGCTGTTTTTTAACCCGCTTAGTTCAGCAGTTCTATTTTTAGGACTTGCATTATTTGCAAAAGGGAAGCGATCTTATATTTGGTTAATTGTTATCAACTTGTTATTGTCGATTCTTTTATATGCAAACGTAGTTTACTATCGCTTTTTCAGTGACTTTATTACGTTCCCAACATTAACACAAACGAATAACTTTGGAGATTTAGGTGGTAGTATTCTTGCGTTGCTACATCTTTATGATCCACTATACTTCTTAGACACGATTATATTAATTGTGTTAGTTGCAACAAAATTTGCAAATCCAAAACCAATTCGTGTTGCGAAGCATAAAGTATCTCTAGTATTTGTAGCAGGTATTTTATTATTCAGTGTTAATTTAGGTCTTGCAGAGTCTGACCGTCCGGAATTATTAACAAGAACGTTTGACCGTAATTATATTGTGAAATATTTAGGGGCATACAACTACACAATTTATGATGGAATTCAAAGTGCGAAAGCATCGACAGAACGAGCATTAGCTGATGGCGATAATATGACAGAAGTACGAAATTATTTAACATCAACTTATGCAAGTCCAAATCCTGAGTATTTCGGTAAAGGAAAGGGAATGAACGTAATTTATATTCATTTAGAGTCATTCCAAAACTTCTTAATTGATTACAAATTAAATGGTCAAGAAGTTACACCGTTCTTAAACTCATTTACAAAAGATGCGAATACGCTATACTTTGATAACTTCTTCCATCAAACAGGACAAGGGAAAACATCTGATGCGGAGTTTATGTTAGAGAATTCAATGTTTGGTTTACCGCAAGGTTCTGTCTTTACAACGAAATCTCATAATACGTATCAATCAGCACCAGCTATTTTAGGACAACAAGGATACACATCAGCAGTATTCCATGGTAACTACAAAACATTCTGGAACCGTGACGATATTTATAAATCATTTGGTTTTAATAAATTCTTTGATGCGTCATACTACGATATGAATGAAAAAGACGTAGTAAACTACGGATTAAAAGATAAACCGTTCTTTAATGAATCTATTCCGTTATTACAAACGTTGAAACAACCGTTCTATACGAAGTTTATTACGTTATCGAACCATTTCCCTTATCCAATTGATAAGGCAGAAGCAACGATTGAACCAGCAACAACAGGTGATTCATCAGTAGATACGTATTTCCAAACAGCACGCTATTTAGATGAATCTGTAAAAGGCTTCATCGATTACTTGAAACAATCTGGTTTATATGATAACTCAATTATCGTTATGTACGGAGACCATTACGGTATTTCAGATAATCATAACGCAGCAATGTCAAAAGTAATGGGTAAAGAAATGAACTCATTTGAAAATGCACAGTTACAACGTGTGCCTTTAATCGTTCGTGTACCAGGAGTGAAAGGTGGCGTACAACATCAATATGGCGGTGAAATTGACGTTCTTCCTACGTTATTACACTTACTAGGTACAGATACGAAAAACTATGTTCAATTCGGTTCAGATTTATTATCACCAGAGCATAAACAAGTCGTTGCGTTCCGTAACGGTAACTACGTAAGCCCAACTGTTACTGCACTAAACGGCAAATACTATGATACAACAACTGGAAAACCTGTAGAATTTACAGATGAAATAAAGAAAAATGAACAAATGGTTCAAAACTCACTAAAATACTCTGACCAAGTCGTAAATGGTGACTTATTACGATTCTACACACCGGAAGGATTCACTCCAGTAGATCGTTCGAAGTATAACTATAACAATCGTGATAAAAACAAAACGAAGGTAAAAACGACTCCGGAAGGGGAAGCTAAATAA	MKQFLLKSKSVLSNHFGFFLFAVILLWLKTYAAYVTEFNLGISNTIQKFLLFFNPLSSAVLFLGLALFAKGKRSYIWLIVINLLLSILLYANVVYYRFFSDFITFPTLTQTNNFGDLGGSILALLHLYDPLYFLDTIILIVLVATKFANPKPIRVAKHKVSLVFVAGILLFSVNLGLAESDRPELLTRTFDRNYIVKYLGAYNYTIYDGIQSAKASTERALADGDNMTEVRNYLTSTYASPNPEYFGKGKGMNVIYIHLESFQNFLIDYKLNGQEVTPFLNSFTKDANTLYFDNFFHQTGQGKTSDAEFMLENSMFGLPQGSVFTTKSHNTYQSAPAILGQQGYTSAVFHGNYKTFWNRDDIYKSFGFNKFFDASYYDMNEKDVVNYGLKDKPFFNESIPLLQTLKQPFYTKFITLSNHFPYPIDKAEATIEPATTGDSSVDTYFQTARYLDESVKGFIDYLKQSGLYDNSIIVMYGDHYGISDNHNAAMSKVMGKEMNSFENAQLQRVPLIVRVPGVKGGVQHQYGGEIDVLPTLLHLLGTDTKNYVQFGSDLLSPEHKQVVAFRNGNYVSPTVTALNGKYYDTTTGKPVEFTDEIKKNEQMVQNSLKYSDQVVNGDLLRFYTPEGFTPVDRSKYNYNNRDKNKTKVKTTPEGEAK	PGPT0023375_585	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
AK009_01508	1626	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGATTACAGTAAGTAACGTTAGTTTGCGTTTCGCGGATCGCAAATTATTTGAAGATGTTAACATAAAATTCACGCCAGGTAACTGCTACGGTTTAATCGGAGCAAACGGTGCTGGTAAATCAACATTTCTAAAGATTTTATCTGGAGAAATTGAACCATCAACAGGTGATATACATATTACGCCAGGTGAGCGTCTAGCAGTATTAAAACAGAACCACTTCGAATATGAAGAGTTCCCAGTATTAGAAACAGTAATTATGGGTCACACGCAACTTTACAAAGTAATGCAAGAGAAAAATGCTATTTACATGAAAGAAGACTTTAGTGATGAAGATGGAATGCGTGCTGCAGAACTTGAAGGTGAGTTCGCTGAGCTTAACGGTTGGGAAGCTGAGTCAGAAGCTGCAATCCTTCTAAAAGGTCTTGGTATTGGTGAAGATCTTCATGACAAAAAATTATCAGAATTGACTGGTGCAGAGAAAGTAAAAGTATTACTTGCTCAAGCATTATTCGGTAAACCTGATATTCTATTACTAGATGAGCCTACCAACCACTTGGACTTAAAAGCGATTCAATGGTTAGAAAACTTCTTAATGAACTTTGAAAATACAGTAATCGTTGTATCCCATGACCGTCACTTCTTAAATAAAGTATGTACGCACATGGCTGATCTTGATTTCGGTAAAATTCAACTTTATGTTGGTAACTATGACTTCTGGTATGAGTCAAGCCAATTAGCTTTAAAATTAACACAAGATGCTAATAAGAAAAAAGAAGAGAAAGTAAAAGAGTTACAAAACTTCATTGCACGCTTTAGCTCAAACGCATCTAAAGCGAAACAAGCAACTTCTCGTAAAAAATTATTAGATAAAATTACATTAGATGATATTAGACCATCATCACGTCGTTACCCATTCGTTGGCTTCACACCTGAGCGTGAAATAGGAAATGACTTATTAACTGTTGAAGGCCTTTCTAAAACAATTGATGGCGAAAAAGTGTTAGATAATGTGTACTTCACTTTAAATAAAGGTGATAAAGTTGCATTTATCGGTCGTAACGATATCGCGATGACAACATTATTTAAAATCCTTATGGGTGAAATGGAGCCAGATAGCGGTTCATTCAAATGGGGTGTTACAACATCTCAATCTTACTTCCCAAGAGATAACTCTAAATACTTTGAGAACAGTGACTATAACTTAGTTGATTGGTTACGCCAATTCTCTCCACAAGATGAGTCAGAAAGCTTCTTACGTGGTTTCTTAGGCCGTATGTTATTCTCAGGTGAAGAAGTTAAGAAGAACGTTTCTGTATTATCTGGAGGCGAAAAAGTTCGTTGTATGTTATCTAAAATGATGTTAAGTGGTGCGAACGTAATCACACTTGACGATCCAACGAACCACTTAGACCTTGAGTCTATCACTGCATTAAACAACGGTTTAATTGCTTTCAAAGGTACAATGTTATTCACATCTCATGACCATCAGTTCGTACAAACAATTGCAAACCGCATTATCGAAGTAACGCCAAACGGTGTAATCGATAAAGAAGCAACTTACGATGAGTACTTAGAAAATGAAGAACTTCAAAAACAAGTAGATGCAATGTACAAAGGTCAATAA	MITVSNVSLRFADRKLFEDVNIKFTPGNCYGLIGANGAGKSTFLKILSGEIEPSTGDIHITPGERLAVLKQNHFEYEEFPVLETVIMGHTQLYKVMQEKNAIYMKEDFSDEDGMRAAELEGEFAELNGWEAESEAAILLKGLGIGEDLHDKKLSELTGAEKVKVLLAQALFGKPDILLLDEPTNHLDLKAIQWLENFLMNFENTVIVVSHDRHFLNKVCTHMADLDFGKIQLYVGNYDFWYESSQLALKLTQDANKKKEEKVKELQNFIARFSSNASKAKQATSRKKLLDKITLDDIRPSSRRYPFVGFTPEREIGNDLLTVEGLSKTIDGEKVLDNVYFTLNKGDKVAFIGRNDIAMTTLFKILMGEMEPDSGSFKWGVTTSQSYFPRDNSKYFENSDYNLVDWLRQFSPQDESESFLRGFLGRMLFSGEEVKKNVSVLSGGEKVRCMLSKMMLSGANVITLDDPTNHLDLESITALNNGLIAFKGTMLFTSHDHQFVQTIANRIIEVTPNGVIDKEATYDEYLENEELQKQVDAMYKGQ				NA	NA	NA	NA	NA
AK009_01509	3117	smc_2		Chromosome partition protein Smc	ATGAGTAAGCTAAAAAATTGGAGAAGTTTATCTTTTCTATTATGGATAGTTATTACTATTACAATGATCGTAACGATGCCTAATATGGATAAATTAGTGAAAGAAAAAGGGCATATTACGATTCCGAATACAGAGCAAAGTAGTATCGCTGACAAAATGATAAGAGAGATGGATAAAGACGGGACAGAAAAATATGATGTTATAGCTGTTTTTAATAGTGGAAGTAAAGCAGCTTTAACAACTGAGCAAAAAGATGAAATAATAAAAACAATCAACGCTTTACAAAATGAAAAAGAGCAATTAGGAATTAAGGAAGTTGTTTCACATTTAGATAATAAAGACTTGGAAAAACAATTGATATCTAAAGACAATACGACCATTTTAACGCAAATTTCTGTAGATAAAAAACATGGTGAAATATCAAAAATTGCAAATGGGCTTCATAATAAAATTAAACCGAAGGGAGTTAAAACGTACTTAACAGGAAGTGATTTAATAGCGGGTGATTTTCTTACATCCTCTCAAGAGGGAGTGAAAAAGACAGAAGTTATTTCTATCATTTTCATTTTAGTTGTATTAATCATTGTATTTCGTTCACCAATTGTTCCAATCGTTTCTCTGCTTACAGTGGGTGTATCATATTTAGTTTCAATGGGGATTATTGCCCATCTAGTAGATCAATTTAATTTTCCGTTTTCTAACTTTACACAAGTGTTTGTAGTTGTTGTCCTGTTTGGGGTTGGAACAGACTATAACATTTTATTATATACAAGGTTTAAGGAAGAATTAAGTAAACAAGAAAATGCATTTTTAGCTACGAAAGAAACGTTTAAATCGGCAGGGAAAACCGTTTTATATAGTGGGATAGCAGTACTAATTGGTTTTGCATCTCTTGCTTTAGCGAGTTTTAAATTATATCAATCTACTTCAGCCGTAGCAATTGGTGTCGCAGTATTATTACTCGTATTAACTACGTTAAATCCATTTTTTATGGTGCTTTTAGGAAAAGGAATGTTTTATCCAGTAAAAACATTTAAAGGTCATGAGGATAGTCGCTTATGGGGATTCTTTGCGAAAAATTCAGTAGCAAGGCCATTTATCGCTTTAATCATCGTACTCGTAATATCGATTCCTTTCGTATTAAAATACTCTACTACACTGAATTACAATGATTTATTTGAAGTGGATAATAAGTATGAATCAAAGATAGGTATTAACGTAATAGAAGATCATTTTCCGCCTGGTTTCTCTTCACCGAGTACATTAGTCATTCAATCTGATAAAAGGCTGGATGAAGGAACTTCTCTACAAATTTTAGATGAATTAACTGATAAAATTTCGAAAGTTAAAGGTGTGTCAGAAGTATATGCACCAACACGTCCAACTGGTGAGAAGATAAAAGAATTATATTTAAATAAGCAAGCGGGAGAATTGAATACAGGATTAGGAGATGCCGATGGTGGCATAAAGGAAATTAATGATGGATTAACGGATGCGAAAAATAAAATGGGAAGTAATGATTCAAATAGTCTTGCGAATGTTCAAAAATTAATTGATGGAACGAACGAGGCGAAAAATGGGGTATCAGCATTAGGAACAGCTTTACATCAATTATCCAGCGGCATAAACGGAGGTGCACAAGGAGCGCAGCAAATTGAGAGTGGGTTAACTTCAGTAAATAAAAATATAAATGTCCTATCCAATGCAACGTCACAGCTTCATACTGGTTATGCACAGTTAGAAAAAGGTTTAAGTTCTTACGATCAATACTTCGGAAGTATTGATCAAGCGATTGACGGTGCGAAAAAAGGATATGAACAAATTGAAATGTTAATGACCAATTTCGTTCAAACGAAACCAGAATTAGCGAATGATCCAAACATACAACAAATGATAGGGATTGCTAAAGAGGCACAAAAAAAATTAAGCGTACTTTCAAATGAATTAAATCAATTAGCAACCCAGCACAAAACGGCGATGAGTTCATTTAAAGAAGCGAATCAATCGTTATGGAAAGTGGATAATGGCTTAAAAGAAATGGGCATTGGAGTTAATAAGTTACAAAAGGGAGCAGCGGATCTTAAAAATGGATTAAATGAAGGTACTGCAGGTTCAAAACAAATTGCAAATAAATCAGTTGAGTTACAATCTGGATTAACGAAAATAAACGATGGACAAGGACAACTTTTAACGGGCCTTAAAGACCTGCAAGAAAAGATGGGGCAATTACAATCCGGTTTATCTAAAAGTACAGAAGGGCTTGGAAAAGTAAGTAATGGTCTGCATGACGCACAGAAATATTTAGGGGAGCTCAATGAGTCGAAAAGCTCTGAGAAGTTTTATATTCCAAAAGAAGTGCTAGAGGGAGAAGATTTCCAAAAAGCATTGAACACGTACATGTCACAGGATAGAAAAATTGCTAAAATGACCATCATTTTAGATGTAAATCCGTATTCCAAAGAAGCGATGCCAATTATTCAAGAAATTAATAAAACAATCGATGGCACTGTAAAGGGAACGGAATTACATGATGCGAAAACAGCGATCGGCGGAACAACATCTAGAAACGTTGATTTAAAAGAAGTAACAGGTCAAGATTTTTTACGTACAGCTACAATTATGTTAATTGGAATTGCCATTGTATTAATCGTAATTACACGCTCACTACTAAACACAATATTTATTATTGGCTCATTACTATTAGCGTACTTCGCATCACTTGGTATAAGCGAACAAATTAGTGCACATGTATTACATGTAGATACATTAAGCTGGAATGTTCCATTCTTTAGCTTCATTATGATTGTCGCTTTAGGAGTGGATTATAGTATTTTCGTAATGATGCGCTATAACGAGATCGAAGGGGATTCGGTAACAAAAATTGTAACTGCATCTCGTCATATAGGAGGAGTTGTATTATCGGCGGCGCTAATTTTAGTAGGGACGTTTGCAGCATTAATTCCATCAGGTGTGTTAACACTTATACAAGTTGCATCAGTTGTTGGCGTTGCACTATTACTATTAGCTTTAATCGTGATGCCGATATTGTTACCTGCTTTAATGGGGTTAACGAGTAAATTGAAGAGTTATAAAGAAAAAATAATAAATACGAAATAA	MSKLKNWRSLSFLLWIVITITMIVTMPNMDKLVKEKGHITIPNTEQSSIADKMIREMDKDGTEKYDVIAVFNSGSKAALTTEQKDEIIKTINALQNEKEQLGIKEVVSHLDNKDLEKQLISKDNTTILTQISVDKKHGEISKIANGLHNKIKPKGVKTYLTGSDLIAGDFLTSSQEGVKKTEVISIIFILVVLIIVFRSPIVPIVSLLTVGVSYLVSMGIIAHLVDQFNFPFSNFTQVFVVVVLFGVGTDYNILLYTRFKEELSKQENAFLATKETFKSAGKTVLYSGIAVLIGFASLALASFKLYQSTSAVAIGVAVLLLVLTTLNPFFMVLLGKGMFYPVKTFKGHEDSRLWGFFAKNSVARPFIALIIVLVISIPFVLKYSTTLNYNDLFEVDNKYESKIGINVIEDHFPPGFSSPSTLVIQSDKRLDEGTSLQILDELTDKISKVKGVSEVYAPTRPTGEKIKELYLNKQAGELNTGLGDADGGIKEINDGLTDAKNKMGSNDSNSLANVQKLIDGTNEAKNGVSALGTALHQLSSGINGGAQGAQQIESGLTSVNKNINVLSNATSQLHTGYAQLEKGLSSYDQYFGSIDQAIDGAKKGYEQIEMLMTNFVQTKPELANDPNIQQMIGIAKEAQKKLSVLSNELNQLATQHKTAMSSFKEANQSLWKVDNGLKEMGIGVNKLQKGAADLKNGLNEGTAGSKQIANKSVELQSGLTKINDGQGQLLTGLKDLQEKMGQLQSGLSKSTEGLGKVSNGLHDAQKYLGELNESKSSEKFYIPKEVLEGEDFQKALNTYMSQDRKIAKMTIILDVNPYSKEAMPIIQEINKTIDGTVKGTELHDAKTAIGGTTSRNVDLKEVTGQDFLRTATIMLIGIAIVLIVITRSLLNTIFIIGSLLLAYFASLGISEQISAHVLHVDTLSWNVPFFSFIMIVALGVDYSIFVMMRYNEIEGDSVTKIVTASRHIGGVVLSAALILVGTFAALIPSGVLTLIQVASVVGVALLLLALIVMPILLPALMGLTSKLKSYKEKIINTK				NA	NA	NA	NA	NA
AK009_01510	567	bm3R1		HTH-type transcriptional repressor Bm3R1	ATGGCTAAAAACAAACAAGAGGATATTTTTGATGCTGCGATGCAACTTTTTGCAGAGCGTGGTTACGATGGTACGACAATTCCAATGATCGCTGAAAAGGCAAAAGTCGGTGCGGGTACTATTTATCGCTATTTTGAAAATAAAGAGGCACTAGTTAACTCATTATTTTCAAAAAGTATGTTAGAGCTTTCTGAAATGATAAAAACAGATTTTCCTGTTGAAGCAAATATTCGTGAACAGTTTAGTCATACGTACAACCGTTTATTTGAATTTGCGAGAAACAATGTGGACGCTTTTTTATTTACAAATTCTCACTGTGACAGTTATTTTCTTGATGAACAAAGTAAGAAAATATTTGACGATTTTATAGGCTTCTTTATGAATATTATTGAAGATGGAATCGCAAAAGGTTTTCTTCGTCCATTGCCTCCAGTTGCTTTAATTATTATTGTATATCAGCCGCTAGAAGCATTAACGAAAGTAATTGCAACAGGGCAATTAGAATACTCGAAAGAGTTAGTAAAAGAATTGGAAGAAAGCTCTTGGAATGCTATTAGAATCATTTGA	MAKNKQEDIFDAAMQLFAERGYDGTTIPMIAEKAKVGAGTIYRYFENKEALVNSLFSKSMLELSEMIKTDFPVEANIREQFSHTYNRLFEFARNNVDAFLFTNSHCDSYFLDEQSKKIFDDFIGFFMNIIEDGIAKGFLRPLPPVALIIIVYQPLEALTKVIATGQLEYSKELVKELEESSWNAIRII				NA	NA	NA	NA	NA
AK009_01511	1161	eis		N-acetyltransferase Eis	ATGAATGTCATGCAATTAAAAGAAGATAAGTTCAGAGAAGCATTACGTTTATCAGAATACGCTTTTCAATATAAAGTAGATGAGGAACGATTACAGCAGCAACTTACAAAGATGAAGGAAAGTCATGAAATATACGGCATTATGGAAGGGGAAGACTTAGCAGCAAAACTACATCTTATTCCGTTTCATATTTACATAGGTAAAGAAAAATTTAAAATGGGTGGCGTTGCAGGAGTAGCGACGTATCCAGAGTACAGAAGAAGTGGGTATGTAAAAGAGCTACTTCAACATTCACTTCAAATAATGAAAAAAGATGGCTATACAGTCTCTATGTTACATCCATTTGCTGTTTCATTTTACCGTAAATACGGCTGGGAACTTTGTGCGAATTTAGTCACATGTCATATGACTAAGAGCGATTTAGTGATGAAAAAACAAGTAAATGGCACTGTGAAACGTTTCAATAAAGAAAATCATCCAGAAGAAGTCGAGAAGCTCTATGAAGTATTTGCAGAACGTTTTTCAGGTATGTTAGTTCGAGAGAAGAACTGGTGGTTACAAGCAGTTTATGATGATTTAACATTAGCGATTTACTATGATGAAAATAAAAAGGCAGCAGGTTACATGTTATACAAAATAGAAAACTATAAAATGACAGTAGAAGAATTTGTACCACTGCATAATGAAGCACGAAATGGTCTGTGGAACTTTATTTGCCAGCATGATTCTATGATTAAAGAACTTGAAATGACAGTAAGTGAAAACGAACCGTTGCTATATTCATTGCAAGAGCCACGCGTGAAGACAGAAATAAAACCATATTTTATGGGAAGAATTGTAGATGTAGAGCAGTTCTTAAAACAATATGAGTTGAGCTGGAACAATGTACAGCAAGAAGTGATCCTACACATTACAGACGCATTTGCTCCGTGGAATAACGTAACAGTGAGACTTGCGAATCATGAAATAACAATTATGAAAGAGGAAACAATAGATAAAGGAATTAAGCTGGATATTAACGCATTATCTACAATAATGTTTGGCTACAAGCGTCCGTTAGAACTTAATGAACTAGAATTCATTAGCGGAAGCGAAGAGGAAATACAAGCATTTGAGAATATAGTTCCAGTACGTAAAGCTTTTATTTATGATTTCTTTTAA	MNVMQLKEDKFREALRLSEYAFQYKVDEERLQQQLTKMKESHEIYGIMEGEDLAAKLHLIPFHIYIGKEKFKMGGVAGVATYPEYRRSGYVKELLQHSLQIMKKDGYTVSMLHPFAVSFYRKYGWELCANLVTCHMTKSDLVMKKQVNGTVKRFNKENHPEEVEKLYEVFAERFSGMLVREKNWWLQAVYDDLTLAIYYDENKKAAGYMLYKIENYKMTVEEFVPLHNEARNGLWNFICQHDSMIKELEMTVSENEPLLYSLQEPRVKTEIKPYFMGRIVDVEQFLKQYELSWNNVQQEVILHITDAFAPWNNVTVRLANHEITIMKEETIDKGIKLDINALSTIMFGYKRPLELNELEFISGSEEEIQAFENIVPVRKAFIYDFF				NA	NA	NA	NA	NA
AK009_01512	1290	aroA1	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase 1	GTGAAAGAAAGAACAATACAACCTGTTAATAACGGATTGAATGGCAATATTACAATCCCAGGTGATAAATCCATTTCACACCGTGCTGTTATGTTCGGTTCGATTGCAGAAGGGAAAACAACAATTAAAGGTTTCTTGTCCGGTGCAGACTGTTTAAGTACTATTTCATGTTTTAAAGAAATGGGAGTAGAAATTACGCAAAACGGTGATGAAGTTACTGTAGTTGGTAAAGGATTAGAAGGTTTACAAGAACCGAAAGCTGTATTAGATGTTGGTAATTCTGGTACAACAATTCGATTAATGTCAGGTATATTAGCTAACACACCATTTTTCTCTTGCGTACAAGGTGATGAATCTATCGCAAAAAGACCGATGAAGCGTGTAACAAACCCATTAAAACAAATGGGTGCAAACATTGACGGCAGAGAAGAAGGAACATTTACACCGCTAACAATACGTGGTGGAGATTTAAAAGCAATTGAATATATTTCTCCTGTTGCAAGTGCACAAGTAAAGTCAGCTATTTTACTTGCAGGGCTTCGCGCAGAAGGTGTAACAGCTGTTACAGAACCACATATTTCCCGCGATCATACGGAAAGAATGCTTGAAGCATTTGGTGTTAAAGTAACTCGAGAAGGAAAGACAGTGAAGCTTTCAGGTGGACAAAAATTAACAGCAACAGACATTCAAGTGCCAGGTGACGTATCATCAGCAGCATTTTTCTTAGTAGCAGGTGCAATCATCCCAAATAGTAAACTAATATTACAAAATGTAGGAATGAATCCAACTCGTACAGGTATTATTGATGTTTTAGAGAAAATGGGTGCTACATTTACTATAGAGCCGATTAACGAAGGCGCATCAGAACCAGCTGCAAACATTACGATTGAAACATCTTCATTAAAAGGAATTGAAATTGGTGGGGATATTATTCCAAGACTAATCGATGAAATTCCAGTTATCGCTTTAGCGGCAACACAAGCAGAAGGTATTACAGTTATTAGAGATGCACACGAATTAAAAGTAAAAGAAACAAATCGTATTGATACAGTCGTTGCGGAGTTAACGAAACTAGGAGCTCGCATAGAAGCAACTGATGACGGCATGATCATTTACGGAAAATCAGCTTTAAAAGGCAATACAGTAAATAGTTACGGTGATCACCGCATCGGAATGATGCTTGCGATTGCTGGCTGCCTGGCAGAAGGGAAAATAATTATTGAAGATGCAGAAGCAGTAGGTGTATCATATCCTACATTCTTTGATGAACTTCAAAAGTTAGCTAAATAA	MKERTIQPVNNGLNGNITIPGDKSISHRAVMFGSIAEGKTTIKGFLSGADCLSTISCFKEMGVEITQNGDEVTVVGKGLEGLQEPKAVLDVGNSGTTIRLMSGILANTPFFSCVQGDESIAKRPMKRVTNPLKQMGANIDGREEGTFTPLTIRGGDLKAIEYISPVASAQVKSAILLAGLRAEGVTAVTEPHISRDHTERMLEAFGVKVTREGKTVKLSGGQKLTATDIQVPGDVSSAAFFLVAGAIIPNSKLILQNVGMNPTRTGIIDVLEKMGATFTIEPINEGASEPAANITIETSSLKGIEIGGDIIPRLIDEIPVIALAATQAEGITVIRDAHELKVKETNRIDTVVAELTKLGARIEATDDGMIIYGKSALKGNTVNSYGDHRIGMMLAIAGCLAEGKIIIEDAEAVGVSYPTFFDELQKLAK	PGPT0012850_2987	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
AK009_01513	1101			hypothetical protein	ATGCGTAAAAAGGTAGTATTAATTGGAACAGGTTTAATAGGAGGCTCTCTCGCATTAGCAATTAAGAAAGAGCACGATGTAATGATAACAGGTTATGATATATTTAAAGAGCAAGTAGAGCGTGCAAAAGAATTACACGTAGTAGATGAAATAGCAGTTGATTTACAACATGCATGTGAAGAGGCACATTTAATTGTTTTTGCTTCTCCAGTTGAAGAAACGAAGAAGTTATTACACAAACTTGCGTCATTCCGTTTACGAGAAGATGTTATAGTGACTGATGTTGGTAGTACAAAAGGGTCTATTATGAACGAAGCGGAAGCTTTATTTTCAAAGGAAGTTTCTTTCATTGGGGGACATCCGATGGCGGGTTCTCATAAAACGGGAGTTGAAAGCGCAAAGGCGCATTTATTTGAAAATGCATTTTACATTTTAACACCGATGAATCATGTACCAAATGAACAAGTGGAAGACCTTAAAGTATGGTTAAAAGGAACAGGATCACATTTTCTTGTTTTAAATACAGAAGAACATGATTATGTAACAGGGATCGTTAGTCATTTCCCGCATCTTATCGCAGCAGGTTTAGTAAAGCAAGTTGAGAAGCATGCAGGAGATAATCCGCTCATTCATCAGCTAGCTGCTGGAGGTTTCAAAGATATTACACGTATCGCATCTAGTAGTCCGAAAATGTGGAGTGATATTGTAAAGCAAAATCGAGAGCATTTAATGGTATTATTAAAAGAGTGGATCTCTGAAATGGAAGGTTTATATAAGACAGTTTCTACTGGAGATGCAGGCGAGATTCAAAACTATTTTGCAGATGCGAAAGAATACCGTGATTCTTTACCAGTAAGAAAGAGTGGTGCAATTCCTGCTTATCACGACTTATACGTTGATGTATTAGATAAGGTGGGGGCATTGGCTCATATTACGAGTATTTTAGCGCGCGAGGAAATTAGTATTACGAACTTGCAAATATTAGAAGCGCGTGAAGGACTGCTTGGGGTATTACGTATTAGCTTCCAAAGGGAAGAAGATCGTATGAAAGCAAAGCTAGCGCTTGGAGAAGAAGAATACCAAACTTATGAAACAATTTAA	MRKKVVLIGTGLIGGSLALAIKKEHDVMITGYDIFKEQVERAKELHVVDEIAVDLQHACEEAHLIVFASPVEETKKLLHKLASFRLREDVIVTDVGSTKGSIMNEAEALFSKEVSFIGGHPMAGSHKTGVESAKAHLFENAFYILTPMNHVPNEQVEDLKVWLKGTGSHFLVLNTEEHDYVTGIVSHFPHLIAAGLVKQVEKHAGDNPLIHQLAAGGFKDITRIASSSPKMWSDIVKQNREHLMVLLKEWISEMEGLYKTVSTGDAGEIQNYFADAKEYRDSLPVRKSGAIPAYHDLYVDVLDKVGALAHITSILAREEISITNLQILEAREGLLGVLRISFQREEDRMKAKLALGEEEYQTYETI				NA	NA	NA	NA	NA
AK009_01514	1101	hisC_2		Histidinol-phosphate aminotransferase	GTGCAAGTAAAGGATCAACTATCATCATTACAACCATATAAACCAGGTAAATCACCAGAACAAATGAAAGAAGTGTACGGAGATCATTCGTTTGTGAAATTAGCATCGAATGAAAATCCATTCGGTTGTTCACCGAGAGTTTTAGAAGAGTTGCAAAAATCTTGGTTGGAACATTCTTTATATCCTGACGGAGGTGCTACAACGCTCCGTCAAACAATCGCAGATAAGTTGCATGTGCAAATGGAACAAGTACTTTGTGGTAGTGGTTTAGATGAAATCATTCAAATAATAAGCCGCGCCGTATTACGAGCGGGAGATAACATTGTAACAGCAGGTGCAACATTCCCGCAGTACCGTCATCATGCGATTATTGAAGGCTGTGAAGTGAAAGAAATTCCTTTAAATAAAGGTGTATACGATTTAGACGAAATTTCGTCAGCGGTAAATAATAATACGAAAATCGTATGGATTTGTAATCCGAACAACCCGACGGGCACATATGTGAATGAGCAAAAATTAACTCAATTTATTGAAGGCATTAGTGAAAATACGTTAATTGTCATTGATGAAGCGTACTATGAATACGTAACAGCAAAAGACTTCCCTGAGACATTATCGCTTTTAGAAAAACATAAAAACATTCTTGTACTTAGAACGTTTTCTAAAGCATACGGATTAGCTTCTTTCCGCGTTGGATATGCGATCGGACAGGAAGAGCTAATTGAGAAATTAAATGTTGTACGTTTACCATTTAACGTATCTTCATTAGCGCAAAAAGCAGCTACAATTGCTTTTAGTGATGACGAGTTTATTAAAGAAATAGTTCGCGTGAATACAGAAGGATTACAGCAATACGAGAGTTTCTGTAAGGAAAACGGTATACCATTTTATTCGTCACAAACTAATTTCATCTTCTTACCGGTAGATAATGCTGGAGAGATTTATGAAGCTTGCGCACATGCAGGGTTTATTATTCGTCCATTCCCAAATGGTGTCCGTATTACAGTTGGAACAAGGGAGCAAAATGAAGGAGTGATTTCAGTGTTAAAACAACACTTTGAAAATAAAAAAAGTAAGTCTCGAGATGAGGCAAATGCGTAA	MQVKDQLSSLQPYKPGKSPEQMKEVYGDHSFVKLASNENPFGCSPRVLEELQKSWLEHSLYPDGGATTLRQTIADKLHVQMEQVLCGSGLDEIIQIISRAVLRAGDNIVTAGATFPQYRHHAIIEGCEVKEIPLNKGVYDLDEISSAVNNNTKIVWICNPNNPTGTYVNEQKLTQFIEGISENTLIVIDEAYYEYVTAKDFPETLSLLEKHKNILVLRTFSKAYGLASFRVGYAIGQEELIEKLNVVRLPFNVSSLAQKAATIAFSDDEFIKEIVRVNTEGLQQYESFCKENGIPFYSSQTNFIFLPVDNAGEIYEACAHAGFIIRPFPNGVRITVGTREQNEGVISVLKQHFENKKSKSRDEANA	PGPT0020305_3434	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK009_01515	1173	aroC_2	COG0082	Chorismate synthase	ATGAGATACATTACAGCTGGAGAATCACATGGACCGCAGTTAACAGTTATTTTAGAAGGTGTACCAGCAGGTTTGACACTTACGGCGGAACATATTAATAAAGAATTATTAAGAAGACAAAAAGGTCATGGACGCGGAAGACGCATGCAAATTGAAACAGATACAGTTGAAATTGTAAGTGGTGTTCGTCACGGGATGACACTTGGATCACCGATTACGTTAATCGTAAAAAATGATGATTTCAAACATTGGACGAAAGTAATGGGTGCCGAGCCAATTTCGGAAAAAGAAAGTAAAGACATGAAACGTACAATTACAAAACCACGTCCCGGACATGCGGATTTAAATGGAGCAATTAAATATGGTCATCGTGATATAAGAAACGTATTAGAGCGCTCATCTGCAAGAGAAACGACAGTTCGTGTAGCTGCTGGTGCAGTTGCAAAACAAATTTTAAGCGAATTAGGCGTGGAAATTGCAGGACATGTTCTTGAAATTGGTGGAGTAAAAGCAAAACATATTTCAAACTTATCAATTGAAGAAATTCAAACAATTACTGAAAACTCACCAGTTCGATGTTTAGATAAAGAAGTAGAGCAAGAAATGATGAATGCGATTGACAACGCAAAAAGTAGTGGAGATTCAATCGGTGGCATCGTGGAAGTCATTGCAGAAGGTATGCCAATTGGCGTTGGTAGTTACGTTCATTACGATCGTAAATTAGATGCAAAACTTGCTGGTGCAATTATGAGTATAAATGCATTTAAAGGTGCTGAAATTGGCGTAGGTTTTGAAGCGGCACGACAACCTGGAAGCAAAGTGCATGATGAAATTCTGTGGGATAAAGAAAAAGGATACACGAGAAAAACGAATAATGCCGGCGGTTTAGAAGGCGGTATGACAACAGGTATGCCAATTGTCGTAAGAGGCGTTATGAAGCCAATTCCTACTTTATACAAACCGTTAGCAAGCGTTGATATTGATACGAAAGAAGAATTCCAAGCGAGTATTGAAAGATCTGATAGTTGCGCAGTACCAGCAGCGGGTGTAGTAGCTGAATCTGTTGTGGCATGGGAACTTGCAGATGCACTAGTCGAACAATTCGGAAAAGATCGTATGGAATTATTAAAACAAAACATTATGCAACACAATAACTACGCAAAAGAATTTTAA	MRYITAGESHGPQLTVILEGVPAGLTLTAEHINKELLRRQKGHGRGRRMQIETDTVEIVSGVRHGMTLGSPITLIVKNDDFKHWTKVMGAEPISEKESKDMKRTITKPRPGHADLNGAIKYGHRDIRNVLERSSARETTVRVAAGAVAKQILSELGVEIAGHVLEIGGVKAKHISNLSIEEIQTITENSPVRCLDKEVEQEMMNAIDNAKSSGDSIGGIVEVIAEGMPIGVGSYVHYDRKLDAKLAGAIMSINAFKGAEIGVGFEAARQPGSKVHDEILWDKEKGYTRKTNNAGGLEGGMTTGMPIVVRGVMKPIPTLYKPLASVDIDTKEEFQASIERSDSCAVPAAGVVAESVVAWELADALVEQFGKDRMELLKQNIMQHNNYAKEF	PGPT0012875_1222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
AK009_01517	1077	aroA_1	COG1605	Protein AroA(G)	ATGGCAAATCATGAATTAGATCAATTACGTAAACAGGTAGATGAAATTAACTTACAACTATTACACCTTTTAAACAAACGTGGTGAAATTGTTCAAAAAATTGGAGAGCAAAAGCAAGTACAAGGTACGAAACGCTTTGATCCAGTACGTGAGCGTGAAGTACTTGATATGATCGCAGAGCATAACGAAGGACCATTCGAAACATCAACTGTTCAACATATTTTCAAAACGATTTTCAAAGCAAGCTTAGAGTTACAAGAAGATGATAACCGCAAAGCGTTACTAGTATCACGTAAAAAGAAACAAGAAAATACAATCGTTGATGTAAAAGGTGAATTGATTGGAAACGGAGCACAAACGTTCATCATGGGACCTTGTGCAGTAGAAAGCTTAGAGCAAGTTCGTCAAGTAGGGCAAGCGATGAAAGATCAAGGCTTAAAATTAATGCGCGGCGGTGCATTCAAACCGAGAACATCTCCATACGATTTCCAAGGTTTAGGAGTAGAAGGACTTCAAATTTTACGTCAAGTAGCAGACGAGTTCGACTTAGCAATTATTAGTGAAATTTTAAATCCGAACGATGTTGAAATGGCATTAGACTACGTTGATGTAATTCAAGTTGGTGCACGTAACATGCAAAACTTCGATTTATTACGTGCTGTAGGTAAAGTTAACAAACCAGTATTATTAAAACGTGGATTAGCAGCAACAATTGATGAGTTCATTAACGCAGCGGAATACATCATTGCGCAAGGCAACGATCAAATTATTCTTTGTGAGCGTGGTATCCGCACATACGAAAGAGCAACACGTAACACATTAGACATTTCTGCAGTACCAATTTTAAAGAAAGAAACACATTTACCAGTTATCGTTGATGTAACACATTCAACTGGACGCAGAGATTTATTATTACCAACAGCGAAAGCGGCACTTGCAATTGGCGCAGATGCAGTAATGGCTGAAGTGCATCCAGATCCAGCAGTTGCATTATCAGATTCTGCACAACAAATGGACATTCCAGAATTCCATAGATTCATGGATGAGTTAAAAGGTTTCAAAAATAAATTATCTTAA	MANHELDQLRKQVDEINLQLLHLLNKRGEIVQKIGEQKQVQGTKRFDPVREREVLDMIAEHNEGPFETSTVQHIFKTIFKASLELQEDDNRKALLVSRKKKQENTIVDVKGELIGNGAQTFIMGPCAVESLEQVRQVGQAMKDQGLKLMRGGAFKPRTSPYDFQGLGVEGLQILRQVADEFDLAIISEILNPNDVEMALDYVDVIQVGARNMQNFDLLRAVGKVNKPVLLKRGLAATIDEFINAAEYIIAQGNDQIILCERGIRTYERATRNTLDISAVPILKKETHLPVIVDVTHSTGRRDLLLPTAKAALAIGADAVMAEVHPDPAVALSDSAQQMDIPEFHRFMDELKGFKNKLS	PGPT0012915_217	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
AK009_01520	3483			hypothetical protein	ATGTGGATTACTTCAGAAGTAGAAATTCCAGATGAGTTAATCGATCACCTTGAGCAAGGAAAGTTAGTGTTATTTGTTGGAGCGGGAGTTTCTATGAAAGGGAAATCAAACTTACCGAATTTTGATGATTTAGTTGATGCAATTGCAAAAACGTTATATGTCGAAAAACGTGAAATAACAGAACCACATGATTATTATCTTGGTAAAATTGCAAAAACAAAAGATGTACATCAAGTTGCAAGAGATCTTGTTCATATAGAGAAATCAAAACCGAATCCATTGCATTTTGCAATTCCAAGGTTATTTCCTTTAGATACAGATATCCGCATTGTAACAACAAATTTTGATCAACATTTTACAACTGCAATTAAGGAAACAAATAGAGATATCAATGTTTATTATGCTCCAGCTTTACCGACTGGGAGAGCATTTAAAGGTCTTGCTTATATACATGGTAATGTAGAACAGGAGAAAGAGGCTTTAATTTTAACAGACGGTGATTTTGGAAGGGCTTACTTAACCGAAGGGTGGGCGAGAAGATTTTTAGTCGATCTATTCTCGAATTACACCGTTTTATTCGTTGGATATAGTCATAATGACCCAGTAATGAAATATTTAGCAACTGGTTTACCACCAAGTACAAGACGATTTGCTTTTGTCGCACAAGGGGAAAATACGTACCACTGGGAACATTTAGGGATAAGACCAATTGTGTATCCGAATAAAGTGAATAATCATCAATCCCTCGTAAAAGCGGTAAAACGCTGGGCGGAATTAATGGGCGATAATTATATTACGAAAAGAATGCGTATTCGGGATATTGTAACGGTTCCCCCGTCAGTAGAACAGGAACAATTATCATACATAAAGCAATCAATTAAAAAAATTGAAACAGTTCGTTACTTTGTGGAATTTGCTCATGATTATGAATGGGTCGAATGGTTAGAAGCAGAAGGTAAATTACAAAATTTGTTTATGCTTACGCCAAACTATAATGAAGTAGATGAATTACTTGCAGAATGGTTAGTGGAACAATTTCTTTTTAGTCATCAGAAAGAATTATTTCAATTAATTTATAAAAACTATTCTAAAATATCACCGTTATTATGGAGAACGATTTGTAACTACTTAAACGAAACGAAGAGTAAGATGGATCCGTTGTTGTTTGCAAGATGGACACTCTTTTTATTAGAAACAGCTGAAAAAGATAGTAGCTCTATAGAAAAGATTTCTAAGTTACTGCAAAAATGTTCTTTTCCTGAGCATAAGGAAATTGCCTTATTGTTACTAACTTTTATTTTAGATGGAAAACTGAAGTTGAAACGTGTAAGAAAATGGGGAAATGATACGCAAGAATCAATAGAACTCGAGGAATCGAGTCGCTTACCAGTATCTACATTTTCTCATGTGGAGCAAATTTGGAACGAAAAGATGAGGCCATATATCACCCATTATGCTGTTCCAATTATGATGATCGGATTAGAAAAATTGAGAATGTTGTCGTTAAGACAAACGGCACTGAAAAAAAGAAATAAGGAAGATGTAGAAAAAGATTTTCATCAAAATGATCTTGCATTTTTAATACAAATTGTAAAAGAGTGTCTAACTTATTTATGTGAAAACAATGAGAAAAAAGCGGATTATTATATTACAGAAATGATAGAAGCAAATAGTGTACTTCAAAAGCGAATTGCAATTGACGCGATGAATAAAAATATTTTTGTTCGTGTAGATGACAAAATGAAATGGTTGTTACATGAAGGACTTCTTTTAGATTTCACTTATAAACACGAAGTTTTTCAACTTTTAAAAAGGCATTATGCACATTGTTTAGAAGAAACAAAAGAAGAAGTCACTCGAACTGTAATAAAGCATCTTACAGAAGAGAGGGTATTTGATGCATGTCTCGTATTAGACTTATTATTCAAGTGTGATTCAAATAGTCCATCTACGGCAAATGGGTATGAGTTAATGAAGCAAAAGCATCCTCATTTTCATTCTGAACGATACAGTGTACAAAAGAAAGAGGATACAGCGCAAAGCATTACTTGTAATGTAACAGCTGACGGATTATTGCAGCTGAAAGATGTTGAAATTATGAAGCAAGTTCGGCAATTTTCGCAAGATGGTGTTTTTGAACAACGCCATTTTTTAGAGATGTTATCAAAAGCATGTAAATTGAATACAGAGTGGAGTATTTCATTCGCATATCAATTAGTAGGAGTGCAAGAAATAAGTAATGAAGTATGGTTTGTTTGTATTAGAGAATGGCGAAATAACCGAGGATTGACAAATGATCAAATCCAAAAAATTATTCCGCTATTGCAGAAATTTGTTAGAAATACTGCTTATCATTGGTTAATTAGTAGTTTTCTATATGAAATTAGTAATCGACTAGAAGAGTTAGAAGAGAATAGTATACGTGTTGTAAAACGCTTTGCTTTTTCAGTGTTTCCTCAAGTTATGAAGAGTGATACGGATTTTAAGCTTGGAAAACAAGATTTTTACAATGAATCAATTCAGCATCCTGTTGGGAAAATGACGGCTGTATTATTAAAGTTGTTATCATATGATCATTTATACGATCGTAATGTATATGAATATTTATTTTTATTTGAAGAACAAGTAAGAGTTAATTTGGAACGAACAAACTTTATGTTTGCTCGTTTAATAGCAGATATTACATTTCTATATCATATTGAAAAGCAATGGTGCCGAAAATATTTGTTACCATACTTAGATTTAAAAAAACAAAATGAAATTACGGAATATGCATGGGCTGGTTTATGTTACACGCAAATAAATTTACCTTTATTTACAGAAATGAAGCGTTTTATTAAGTATGCGATAGAACATTTGGAAGTATTACATCCGCATACGAGGGAAGCTTTCTTGAAGTGGCTTAGCTTTGTATTTATTAAATGTGTACTATATTGGGAGCAAAAAACAGAGTGGTTATACCCTTTACTCATACTAGAAAATGAAGAAAATAAAATTAAATTTATGCAGTTTTTATGCTATTACGTCAAAACATTAAGCGTAAAAGAACAACAAAAATTTTGGACAGCTTGGCTCAGTGTATTTTTACGAGAACGACCAAAAATGGGTGAGATAACTGCGAGAGAATATGTAATGCTTTTACGTATTATCTTATACATGGATGAAATATTAGAAAAAGGATTATGTATTATGTCTCGTGCATTTTCAAGTGTACATGGTAAATGTACAGGTGAGGAAATGAAGCAGTTATTGATTGAAATGCTTCATAAAAAAGAAAGTATGAAAGCGCATAAAGAAATGTTTGCAAATGTGTTTTTTATTTTACTACAAACATGTCACGAAGCCGTTTTATTTGAAAAAGAAATCATACAAATAAAAGAATTATTAGTTCAGTATGAAGTAGAGGAATATGTTTTACATTTACTAGAAAATGAAATAATTCGCATAGGAATTGTAATGGGTGATTTACAAAAAGAATTATAG	MWITSEVEIPDELIDHLEQGKLVLFVGAGVSMKGKSNLPNFDDLVDAIAKTLYVEKREITEPHDYYLGKIAKTKDVHQVARDLVHIEKSKPNPLHFAIPRLFPLDTDIRIVTTNFDQHFTTAIKETNRDINVYYAPALPTGRAFKGLAYIHGNVEQEKEALILTDGDFGRAYLTEGWARRFLVDLFSNYTVLFVGYSHNDPVMKYLATGLPPSTRRFAFVAQGENTYHWEHLGIRPIVYPNKVNNHQSLVKAVKRWAELMGDNYITKRMRIRDIVTVPPSVEQEQLSYIKQSIKKIETVRYFVEFAHDYEWVEWLEAEGKLQNLFMLTPNYNEVDELLAEWLVEQFLFSHQKELFQLIYKNYSKISPLLWRTICNYLNETKSKMDPLLFARWTLFLLETAEKDSSSIEKISKLLQKCSFPEHKEIALLLLTFILDGKLKLKRVRKWGNDTQESIELEESSRLPVSTFSHVEQIWNEKMRPYITHYAVPIMMIGLEKLRMLSLRQTALKKRNKEDVEKDFHQNDLAFLIQIVKECLTYLCENNEKKADYYITEMIEANSVLQKRIAIDAMNKNIFVRVDDKMKWLLHEGLLLDFTYKHEVFQLLKRHYAHCLEETKEEVTRTVIKHLTEERVFDACLVLDLLFKCDSNSPSTANGYELMKQKHPHFHSERYSVQKKEDTAQSITCNVTADGLLQLKDVEIMKQVRQFSQDGVFEQRHFLEMLSKACKLNTEWSISFAYQLVGVQEISNEVWFVCIREWRNNRGLTNDQIQKIIPLLQKFVRNTAYHWLISSFLYEISNRLEELEENSIRVVKRFAFSVFPQVMKSDTDFKLGKQDFYNESIQHPVGKMTAVLLKLLSYDHLYDRNVYEYLFLFEEQVRVNLERTNFMFARLIADITFLYHIEKQWCRKYLLPYLDLKKQNEITEYAWAGLCYTQINLPLFTEMKRFIKYAIEHLEVLHPHTREAFLKWLSFVFIKCVLYWEQKTEWLYPLLILENEENKIKFMQFLCYYVKTLSVKEQQKFWTAWLSVFLRERPKMGEITAREYVMLLRIILYMDEILEKGLCIMSRAFSSVHGKCTGEEMKQLLIEMLHKKESMKAHKEMFANVFFILLQTCHEAVLFEKEIIQIKELLVQYEVEEYVLHLLENEIIRIGIVMGDLQKEL				NA	NA	NA	NA	NA
AK009_01521	438			hypothetical protein	TTGAATGATTTCACAGTAGTGCTTATCAAGTTTATATCGTGCATTATCGCATTTAGCATTGGGCTTGCTTTATTTTTCCCTGCAACGTTTGTTCAAATTATTTCATTCAGTCTCTTTGTTACAATCGTATCCTACATGTTCGTTGATAAAATTATTTTAAATCGAATTGGCAATACTGGTGCCATTATGTCGGATTTCTTATTAACATATTTAAGCGTATGGATTTTCGGTAATATTTTATTAGACAACTATATGCAAATTGCATGGGGCAGTATCCTTTCTGCCATCGTCTTCACTTTATCTGAAGTAATCGTTCATCGCTTCTCAAACTCTCATACAAGGCACAACAATGATAACATTCGTATTAATCGCCGCTTTGCATATGGTACGGAGTTTGCTGAAGAACAAAATATATTGGATAAAGACAAGAAGAAGTAA	MNDFTVVLIKFISCIIAFSIGLALFFPATFVQIISFSLFVTIVSYMFVDKIILNRIGNTGAIMSDFLLTYLSVWIFGNILLDNYMQIAWGSILSAIVFTLSEVIVHRFSNSHTRHNNDNIRINRRFAYGTEFAEEQNILDKDKKK				NA	NA	NA	NA	NA
AK009_01522	531	rutB_3		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGAAAAAAGCGTTAATCGTAATTGATGTGCAAGCGGGTATGTATACAGCTGGAATGCCAGTACATAATGGGGAAAAGTTTTTACAAACATTGCAAGAGCTTATTGGGGAATGTCGTTCAAATGATATCCCAATTATTTATGTCCAACATAACGGTCCTAAAGACCATCCGTTAGAAAAAGGTACGGATGGGTGGCGAATCCATGCGGCAATCGCTCCGCAAGAAGGAGATAATATTGTTGAAAAGACGACGCCAGATTCATTCCATAAGACAAACTTAAGCGAAGTGTTACAAGAGAAAGGAATTGAACACGTTATTCTTTCGGGAATGCAATCAGAGTATTGTGTAGATACGACAACGCGCAGAGCATGTAGTGAAGGATATAAAGTAACGTTAGTGAGTGATGCGCATAGTACATTTAATACAGAAGTGTTACGTGCTGAAGATATTGTGCAACATCATAACGCAGTATTGGGAGCGTTTGCGGATGTTGTTGCATTAAAAGACTTGAAAGTGGCTGCCTCTAAATAA	MKKALIVIDVQAGMYTAGMPVHNGEKFLQTLQELIGECRSNDIPIIYVQHNGPKDHPLEKGTDGWRIHAAIAPQEGDNIVEKTTPDSFHKTNLSEVLQEKGIEHVILSGMQSEYCVDTTTRRACSEGYKVTLVSDAHSTFNTEVLRAEDIVQHHNAVLGAFADVVALKDLKVAASK	PGPT0028650_5	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
AK009_01523	540	aacA-aphD_2		Bifunctional AAC/APH	ATGCTTTTTCAAAAAGAAGGTTTATTGATTAGATACGTAATGGAAGATGATGCATCTATCGTTTCTAAATGGTTAACGGACCCAGCAGTCCTGCGGTATTACGAAGGACGAGATAATCCGCAGTCTGTAGAAAAGGTGCTTGATCATTTTATACATAATCCAAACAGTAATGAAAAAAGATGTTTAATAGAATTTGATACCGTTCCGATTGGTTACATGCAAATGTACCCAGTTGATTCAGAGTGGAAAGCGTTATATGGCTATAAAGAATCACAAAATGTATGGGGAATGGACCAATTTATCGGTGAACCAGCCTATTGGGGAAAAGGAATTGGACAAAAACTCGTTCAGGCAGCAATTACATACATTATGGGTGAAATGGGAGCAGAAGCAATCGCAATGGATCCGAAAGTAAATAATGAACGAGCGATAAAGTGTTATGAAAAATGCGGATTTAAAAAAGTAAAGATTTTAAAGGAACATGAGCTGCATGAGGGGAAATTAGAAGATTGTTGGATGATGGAATACAAACAATTATAA	MLFQKEGLLIRYVMEDDASIVSKWLTDPAVLRYYEGRDNPQSVEKVLDHFIHNPNSNEKRCLIEFDTVPIGYMQMYPVDSEWKALYGYKESQNVWGMDQFIGEPAYWGKGIGQKLVQAAITYIMGEMGAEAIAMDPKVNNERAIKCYEKCGFKKVKILKEHELHEGKLEDCWMMEYKQL	PGPT0028650_102	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
AK009_01524	306			hypothetical protein	ATGGGGGATATATTAAAAAATGCACGACCTATATGGAAACGGACTTGGTTTCGTTATCTAGGGGCATTTTTTATTGTTCAGTTACTGTTTATTTTGTGTGAAATAACTGCGTGGGCACCAAACTTTAGGCCAGGCGGAGAGTTTTTTAATAGAATATTAAATTCTCAATTTTTCACTGAATGGTTCACACTCTATACAATCCCGCAATTTAACGTATTTACAGCATTTTTTGCGATTACATTACTACCATATGCATTAGTAGGTGCAATGAAAGATATAACATCAAGAAAAAATATAAAGGAATAA	MGDILKNARPIWKRTWFRYLGAFFIVQLLFILCEITAWAPNFRPGGEFFNRILNSQFFTEWFTLYTIPQFNVFTAFFAITLLPYALVGAMKDITSRKNIKE				NA	NA	NA	NA	NA
AK009_01525	519			hypothetical protein	ATGTCTAATCCTATATTTACATCCACTTTAATCATTCTTAGAGGAAACTCCGCAAGTGGTAAAACAACGATTGCAAAGCAACTACAAGAACATTTCGGACAAGGTACACTTTTAGTATCACAGGATGTTGTGCGTAGAGATATGCTTAGAGTACACGACACAATGGGGAATTTATCACATGATTTACTATTTGAAATTACAAAGTACGGAAAAGGAAAATGTGAATTTGTTATTTTAGAAGGTATATTGAACAGTAGTAGGTATGGTGAGATGTTAAAAGAATTAATTCGTTATTTTGATAAAAATGCATTTACATATTACTTTGATTTATCATTAGAGGAAACTATTAGACGACATAACACAAGGGACAAACGACATGAATTTGGTGAAGATTCCCTACAAAAATGGTATAATCCGCACGATACAATTGAGGTTGCGAGAGAAACTATTTTTACAGATAACTTTACGCAAAAAGAAATATTTGATGTGATTTTTAATGATATTAAGATATACAAATAA	MSNPIFTSTLIILRGNSASGKTTIAKQLQEHFGQGTLLVSQDVVRRDMLRVHDTMGNLSHDLLFEITKYGKGKCEFVILEGILNSSRYGEMLKELIRYFDKNAFTYYFDLSLEETIRRHNTRDKRHEFGEDSLQKWYNPHDTIEVARETIFTDNFTQKEIFDVIFNDIKIYK				NA	NA	NA	NA	NA
AK009_01526	1638			hypothetical protein	ATGAAAAAAGTAATTGGCGCAGCAACAGCAACTATTTTTGGATTGGGGGCGTTTACCTCAACTGCTACCGCAGAAACAATCGTAACAGCAGATGTACTTAACGTACGTGAAAAACCGACTACAGAATCAAAAGTGGTCGAAAAAGTAAAGAATGGGCAAGAGTTAAAAGTCATCAATACCGAAGATGGTTGGTCAAAAATTGAATTGAACGGTAAAGAAGTGTTTGTAAGTTCGGAGTTTACAAAAGATGTGTATCATGTAACGGCGAATTTGTTAAATGTACGTACCGAAGCAAACACAGAATCAGAAATTCTTGGCAGACTGAAAAAAGATGATGTAATTGAATCAACGCATCAAGTAAAAGACGGATGGCTGCAATTTGAGTATAAAGGAAAAACAGCTTATGCAAACGTTTCTTTCCTATCAAGTACAGCACCAACTGAAAAGAAAACCGAAGAGAAAACGAAGCAAGTAGCGAAAGTACAAAAATCAGTTAAAGAAAAGAAAGAAGTAAAGACGCAGAAAGTAGCAAAAGCGAAAGAAACAACGAAAGCACAAGAAATAGTAAAGCCTAAAGAAGAAGTAAAAGTTAAAGAAGAACCGAAAGCGCAAGAAATAGTAAAGCCTAAAGAAGAAGTAAAAGTTAAAGAAGAACCGAAAGCGCAAGAAATAGTAAAGCCTAAAGAAGAGGCAAAAGTCAAAGAAGAAGTAAAAGTTAAAGAAGAACCGAAAGCGCAAGAAATGGTAAAGCCTAAAGAAGAGGCAAAAGTTAAAGAAGAAGTAAAAGCTAAAGAAGAAGAAAAAGTGCAAGAAATAGCAAAAGCTAAAGAAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGAAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGAAGAAAAAGTGCAAGAAATAGCAAAAGCTAAAGAAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGAAGAAAAAGTGCAAGAAATAGCAAAAGCTAAAGAAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGGAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGAAGAAAAAGCGCAAGAAATAGCAAAAGCTAAAGAAGAAGAGAAAGCAAGAGAAATAGCAAGAGCTAAAGAAGAAGAGAAAGCAAAAGAAATAGCAAAAGCTAAAGAAGAAGAGAAAGCAAGAGAAATAGCAAAAGCTAAAGAAGAAGAGAAAGCAAGAGAAATAGCAAAAGCTAAAGAAGAAGAGAAAGCAAGAGAAATAGCAAAAGCTAAAGAAGAAGAGAGAGCGAAAGAAGTATCAAAAAACAACATAGAGTCTGCTAAACGTGAATTAACGGTAGTAGCGACAGCGTATACTGCTGATCCAAGTGAAAATGGTACATATGGTGGACGCGTTTTAACTGCGATGGGGCATGATTTAACGGCAAATCCGAATATGAGAATTATCGCAGTTGACCCGAAAGTAATCCCATTAGGATCTAAAGTATGGGTGGAAGGTTATGGAGAAGCTATCGCTGGTGATACTGGAAGCGCAATTAAAGGTAATCGTATTGATGTATTAATGGGTTCAAAAAGTAAAGCTATGAATTGGGGAAGACAAACTGTTAAAGTGAAAATTTTATAG	MKKVIGAATATIFGLGAFTSTATAETIVTADVLNVREKPTTESKVVEKVKNGQELKVINTEDGWSKIELNGKEVFVSSEFTKDVYHVTANLLNVRTEANTESEILGRLKKDDVIESTHQVKDGWLQFEYKGKTAYANVSFLSSTAPTEKKTEEKTKQVAKVQKSVKEKKEVKTQKVAKAKETTKAQEIVKPKEEVKVKEEPKAQEIVKPKEEVKVKEEPKAQEIVKPKEEAKVKEEVKVKEEPKAQEMVKPKEEAKVKEEVKAKEEEKVQEIAKAKEEKAQEIAKAKEEEKAQEIAKAKEEEKVQEIAKAKEEKAQEIAKAKEEEKVQEIAKAKEEKAQEIAKAKEGEKAQEIAKAKEEEKAQEIAKAKEEEKAREIARAKEEEKAKEIAKAKEEEKAREIAKAKEEEKAREIAKAKEEEKAREIAKAKEEERAKEVSKNNIESAKRELTVVATAYTADPSENGTYGGRVLTAMGHDLTANPNMRIIAVDPKVIPLGSKVWVEGYGEAIAGDTGSAIKGNRIDVLMGSKSKAMNWGRQTVKVKIL				NA	NA	NA	NA	NA
AK009_01527	492			hypothetical protein	ATGAATCAATTTGAGCAAATGATGTACGTTGGTGTCATCATGTCTATTGTACTATCCGTTATGATTTTAGGGTCCTTATATTATAATCCTCGACTTTCATTAACTGATTATCCGAAAGATATTCAAAAAGTAGTTTTTCCAAAATCGATTCATGAAAAAAAGCAAACCATTTACTTTAATATTGTATATAATGCTATTCTTTTCAGTTGTCCTTTCGTTTCTACATATATATTACATAAGCATGAAAAATTATTGTATATTGATGCTTATTTACACACTTTTGGTATTTTAATGATTTTTAATTTAGTAGATTTATTTATAATTGATTGGCTAATTTTTTGCTGGATTACTCCGAGGTTTGTTGTGATTCCTAGTACAGAAGGAATGAAGGGATATAAAGATTATAAGTTTCATTTAAGAGGTGCTATAGTCGCTACTAAAATTTTAGCAATCGTAAGTTTATTTTTGGCGGGAATTGCAACAACTATTTAG	MNQFEQMMYVGVIMSIVLSVMILGSLYYNPRLSLTDYPKDIQKVVFPKSIHEKKQTIYFNIVYNAILFSCPFVSTYILHKHEKLLYIDAYLHTFGILMIFNLVDLFIIDWLIFCWITPRFVVIPSTEGMKGYKDYKFHLRGAIVATKILAIVSLFLAGIATTI				NA	NA	NA	NA	NA
AK009_01528	483			hypothetical protein	ATGAATCAAGAGGATAAAATTTACGCTGAAAAGGTGTTGAAAAATCTATTCATCGGATCACAAGTTGATGGATTACAATTTGGTATTTCTCCAGGCGCTATAAAGATTCATTTCACAAACTTTCACGACTCAGTTGATTATGACGGACAATTATATATCAATATCGAATCAAAATGGTGTTTATTTAATAAACCTCAAAAAAGATACCCATTAAATGAAGATGAATTTGAAGTTTATTCTGGGGAAGAAGAATATGAAAGAATATTTAAGATAAGAAGACAAAAAGTTACCGATATACAACTTGGCTTAGAAAGCCCTCATTTAATTATTACATTAGATAGTGGACAAATTATTTTTGTAAATGGTTTTCATGATTATTATGAATGTTGGCAATCTGGTGTTCTATGTGAGCAATGGCTTGTAGTCGCTGCACCTGGGAATGAAATCGCCACTTGGGCTCCCGATGAGTTTATCGATAAATAA	MNQEDKIYAEKVLKNLFIGSQVDGLQFGISPGAIKIHFTNFHDSVDYDGQLYINIESKWCLFNKPQKRYPLNEDEFEVYSGEEEYERIFKIRRQKVTDIQLGLESPHLIITLDSGQIIFVNGFHDYYECWQSGVLCEQWLVVAAPGNEIATWAPDEFIDK				NA	NA	NA	NA	NA
AK009_01529	351			hypothetical protein	ATGATGGCATGTGTCCATGATTTTGGAATAATTGACGATTTTACTTCTCAAAAAAATTACGAAGATTATACACCAGAGAAATATCATTGTATTTCTGTTGATGATGATATTATCAGTAGCTTAAATCGAAATTTATCAATTATGAAAACCTACTTTCATACAGTCAAAAATCAGGAATACGGTTTAGCTTATTACGGTATTACAATTATCCCGCCTGAATCATTAGCAATATTCTATGAAACAGTTACATCTTCAAAGTTCTTCAAAAATTCTGATGAGCTGATTGAGTTAGCTTCAAAAATTGAACAAGCTACAACAGAACAAAAGTACATGATCCATTATGGGGTTTAA	MMACVHDFGIIDDFTSQKNYEDYTPEKYHCISVDDDIISSLNRNLSIMKTYFHTVKNQEYGLAYYGITIIPPESLAIFYETVTSSKFFKNSDELIELASKIEQATTEQKYMIHYGV				NA	NA	NA	NA	NA
AK009_01530	726			hypothetical protein	TTGTTACAAACGAAACTCGTTCAAACAAATGAAGTAAGACGGTGCGCATACTTATACCCAAGTTTCTGCTACATATTTAACAAAGTGAAGAAGCCGTTAGCGTTAATTGAAATTGGGACAAGTTCTGGGTTGCAACTGTTCTGGGACCAATATCGTTATTCGTACGGGACGGATGAAATGTACGGAAATATAAATTCAAATGTGCATGTAACTTCTGAAATAAGAGGGGAGAATGTACCGCATTTTCTAAAAGAAAGCCCATCTGTCGTAGAAAGAATCGGACTGGACTTACATGTGAATGATTTACATAATGAGGAAGATTATTTATGGTTACGTGCTTTAATTTGGCCAGAACATAAAGAAAGGCTTGAGATGTTTGATCAAGCTGCATCTTTAGTGAAAAATGAATCTGTCCAATTCATAGAAGGAGACGGTGTAGAGCTATTATCATCTATTATTGAACAAATAAGTGAAGAAGCTGTTATTTGTATTTTCCATACACACGTCGCAAATCAAATACCAGAACAAGTTAAACATAAATTAGAAAAACAAATACAAGAAATCGGCGCAAAACGTGATGTATTCCACCTGTATAACAATATGTGGGATCGTGACCTTCATATTGATTATTATATTAACGGAAACGAATATCGTGAAACGGTTGGAGAAACAGAAGGACACGGGAGATGGTTTAGCTGGAAGATTGGAAATGAGACGCTTATTTAG	MLQTKLVQTNEVRRCAYLYPSFCYIFNKVKKPLALIEIGTSSGLQLFWDQYRYSYGTDEMYGNINSNVHVTSEIRGENVPHFLKESPSVVERIGLDLHVNDLHNEEDYLWLRALIWPEHKERLEMFDQAASLVKNESVQFIEGDGVELLSSIIEQISEEAVICIFHTHVANQIPEQVKHKLEKQIQEIGAKRDVFHLYNNMWDRDLHIDYYINGNEYRETVGETEGHGRWFSWKIGNETLI				NA	NA	NA	NA	NA
AK009_01531	237			hypothetical protein	ATGTGTACAAAAGAACAAATTTCAAACTTATTTCGAAACTTTTCAATAAAGGAATGTAAAGGGTCAAGTGATTTATATGAATATTTATCAATGAAAATTGCTGAAGATGAGGAAGTACTTACACTATCGTCCTATGCTCAGGTAGGTCAACCAGTCCCAAACTTACTATTAGGTGCAGTACATTATTTATTGCTAGCAGGGAAAGAACATCATTTAAAACGTATTATAGTAGTTTAG	MCTKEQISNLFRNFSIKECKGSSDLYEYLSMKIAEDEEVLTLSSYAQVGQPVPNLLLGAVHYLLLAGKEHHLKRIIVV				NA	NA	NA	NA	NA
AK009_01532	1503	mqo1		putative malate:quinone oxidoreductase 1	ATGAGCAACATGCAGCAAAAAACAGACGTTATCTTAATTGGTGCAGGAATTATGAGTGCAACGTTAGGCTCATTACTAAAAGAATTAGCACCTGAATGGGAAATTAAAGTTTTTGAAAAACTCGCAAGTGCCGGGGAAGAAAGCTCTAACGAATGGAATAATGCAGGTACAGGGCATTCTGCGCTATGCGAACTGAACTATACTTCCGAAAAATCTGACGGATCTATAGATATTGGTAAGGCTGTAAAAGTGAATGAGCAATTCCAGCTTTCAAGACAATTTTGGGCATATCTTGTAAAAAGCAAATTAATTCGTAATCCACAAGATTTTATTATGCCACTACCTCATATGAGTTTAGTACAAGGGGAAAAAAATGTTGAGTTTCTAAAAAACCGTTTTGAAGCGCTTTCAAAAAATCCACTGTTTCAAGGAATGGAATTTTCCGACGCTCCTGAAACATTAAAAAAATGGCTTCCACTCATTATGGAAGGCCGTACATCTAATGAACCGATGGCGGCAACGAAGATTGACTCTGGAACAGATGTTAACTTCGGTGCATTAACACGTATGTTGTTTGATTACTTAAAAACGAAAAATGTCGAGCTAAACTACAAGCATAGTGTTGAAAATATTAAGCGCACGAAAAATGGTTTGTGGGAAGTGAAAGTACACGATATGAATAGTGGTAAAATTGAGCATCATACTGCTAAATTCGTCTTTATTGGCGGTGGTGGCGGTAGTCTACCTCTACTTCAAAAGACTGGTATCCCTGAATCAAAGCATATCGGTGGATTCCCAGTAAGTGGACTATTTATGGTATGTAAAAACCAAAAAGTTGTAGAGCAACATCATGCGAAAGTATACGGTAAAGCTAAAGTTGGCGCTCCGCCAATGTCTGTACCTCACCTTGATACGAGATATATAGATAATAAAAAAGCTTTATTATTCGGACCATTCGCAGGGTTCTCACCTAAATTCTTAAAAACTGGCTCAAATCTTGACTTAATCGGTTCTGTAAAACCGAATAACGTCTTAACGATGTTAGCTGCTGGTGTAAAAGAAATGGGACTTACAAAATACTTAATTCAGCAAGTTATGTTATCGCACGAAAAACGCATGGAAGAATTACGCGAATTCATTCCGAACGCGAAAAGTGAAGATTGGGATATTGTAGTTGCTGGACAACGTGTACAAGTAATTAAAGATACTGATGCTGGCGGTAAAGGAACACTTCAATTTGGTACAGAAGTAGTAAGTGCAGCTGACGGCTCAATCGCCGCATTACTAGGCGCATCACCAGGTGCTTCTACTGCTGTTCACGTCATGCTTGAAGTATTAGAAAAATGTTTCCCAAGCCGCATGGTAGAATGGGAAGAAAAAATAAAAGAAATGATTCCTTCATATGGCATTTCACTAACTGAAAATCCAAGGTTGTTCCAAGACCTACACACTTCTACAGGTCGTACGCTTGGATTAAATGAAAAAGAAACAGTTCATAACTAA	MSNMQQKTDVILIGAGIMSATLGSLLKELAPEWEIKVFEKLASAGEESSNEWNNAGTGHSALCELNYTSEKSDGSIDIGKAVKVNEQFQLSRQFWAYLVKSKLIRNPQDFIMPLPHMSLVQGEKNVEFLKNRFEALSKNPLFQGMEFSDAPETLKKWLPLIMEGRTSNEPMAATKIDSGTDVNFGALTRMLFDYLKTKNVELNYKHSVENIKRTKNGLWEVKVHDMNSGKIEHHTAKFVFIGGGGGSLPLLQKTGIPESKHIGGFPVSGLFMVCKNQKVVEQHHAKVYGKAKVGAPPMSVPHLDTRYIDNKKALLFGPFAGFSPKFLKTGSNLDLIGSVKPNNVLTMLAAGVKEMGLTKYLIQQVMLSHEKRMEELREFIPNAKSEDWDIVVAGQRVQVIKDTDAGGKGTLQFGTEVVSAADGSIAALLGASPGASTAVHVMLEVLEKCFPSRMVEWEEKIKEMIPSYGISLTENPRLFQDLHTSTGRTLGLNEKETVHN	PGPT0001440_1080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001440-mqo-K00116	NA	NA
AK009_01533	1044	lsrB		Autoinducer 2-binding protein LsrB	ATGAAGAGAAAACTAGGGATTGTATTGATCGTATGTATTTGTTTAATTGGTTTAATCGCTTGTTCCAGTCAAACGGCAGATAAGAAAAAAGCAGATGATGTGAAATTTGCATTTATCCCGAAATTAACTGGAGTTGGCTTCTTTACATCGGGCGGTGAAGGAGCAAAGGAGATGGGAGATAAGCTAGGCGTACAAGTGAAATATGATGGGCCGTCTGAAGCGAGTGTATCAGGGCAAGTAAAGTATATAAATAATTTCATTAATCAAAACTATGATGCACTTATGGTTTCCTCTACATCAGTTGATGGTTTATCGCAATCACTGCAGCGTGCTAAGAAAAAAGGAATGACTGTCTTAACGTGGGATTCTGATGTGAATCCGAAAGACCGTTCTTTTTATATAAGTCAAGGGACACCAGACCAACTTGCTAACTTATTAATTGAAATGACTTCCAAGCAAATTGGAGATAAAGGAAAAGTAGCTTTCTTTTATTCTAGTCCAACAGTAACGGATCAAAACCAATGGGTAACGAAAGCGAAAGAAATTATTAAAAAGAAATATCCGAACTGGGAAATTGTAACGACGCAGTACGGTGAAAATAATGCGCAAAAATCGTTATCAGTAGGGGAGAACATATTAAAAACGTATCCAGATATTAATGCAGTCATTTGCCCGGATGCAACGGCACTACCAGCGATGGCACAAGCAGCTGAAAACTTGAAAATGGATAAAAAAGTTGTTGTAACTGGCTTCTCTACACCAAACGTTATGCGTGATTACGTAAAACGAGGAACAGTACAACAATTTGGATTATGGGATGTAAAACAACAAGGTGCACTCGCAACGTATGTAGCAAATGAAATAGTAGTAAAAGGGAAGAAGTTAAAAGTAGGGGATAGTTTTGAAGTAAAAGGAATCGGAAAAGTGAAAGTAGAGCCAAACTCCATCCAAGGTTATGATTATGAGGCAGAAGGAAATGGAATTATTGTATTGCCAGAGCGGGTTGTATTTACGAAAGAGAATATTGATAAATATAATTTCTAG	MKRKLGIVLIVCICLIGLIACSSQTADKKKADDVKFAFIPKLTGVGFFTSGGEGAKEMGDKLGVQVKYDGPSEASVSGQVKYINNFINQNYDALMVSSTSVDGLSQSLQRAKKKGMTVLTWDSDVNPKDRSFYISQGTPDQLANLLIEMTSKQIGDKGKVAFFYSSPTVTDQNQWVTKAKEIIKKKYPNWEIVTTQYGENNAQKSLSVGENILKTYPDINAVICPDATALPAMAQAAENLKMDKKVVVTGFSTPNVMRDYVKRGTVQQFGLWDVKQQGALATYVANEIVVKGKKLKVGDSFEVKGIGKVKVEPNSIQGYDYEAEGNGIIVLPERVVFTKENIDKYNF	PGPT0025510_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025510-lsrB-K10555	NA	NA
AK009_01534	990	lsrD		Autoinducer 2 import system permease protein LsrD	ATGAAGTATTTTTACAGATGGGAAGGTGTTCTAATCGTATTACTTCTTATAGAATTCATTCTCTTTAGTTTTATAAATCGTGATTTTTTAAATATTAGAAATCTCCTTTTTAGTACAAATGATTTTCTGTTTATAGCAATCGCAGCGATTCCAATGACTTTCGTTATTGTAACAGGAGGAATTGACGTATCTGTAGGATCTATTATGGGGCTAACTTCGATTTTAATTGGTGTACTTTGGATGAATGGGATTCATATTTTATTAGCAGTAATAATGGCACTTATAGTCAGTTGCTTAGCAGGAGCTTTAAATGGATTCATTATAAAAATGACAGATGTAGAACCACTAGTTGTTACACTCGGAACGATGTTTTTATATGGAGGAATTGCACTCGTCATTTCAGGAGGGGCGGGTGCTTCTGGATATGAAGGGATAAGTGGTTTACCTGATGCTTATGTACAACTAGCAAATGGTAGTTTTATAGGAATACCTAACTTATTATGGCTTCTTATCGCATTAACAATTGTATGCACGATTTTGTTTCACCGAACGATATATGGACGCCACGTACAATTAACAGGAGCGAACGAAAATACAGCAAAATACACCGGGATTCAGACGAAGAAAGTAGTAATCATTGCTTACATACTTTCTGGGTTAGGAGGTGGATTAGGGGGTGCTTTCTTAACTGCATATTTCGGTTCCGCACGTGCTGATATGGGAAGTGAAACAATATTACCAATCATTACAGCAGTCGTATTAGGCGGGACACTTATTACGGGAGGAAAAGGAAGTATTATTGGTACTGTACTAGCGAGTATTTTTATAGGCCTTATGCAATATGGCCTACAAATGACAGGTTTAACAAATGAACAATCAAATGTAGTAATAGGTATTATCCTTATTCTTTCAGTTATTATGAGACATTTCAAATTACATCAATTCTTAGCAGGGAAAAGACGGAATTTGCATAAGGGGGAAATGTCATGA	MKYFYRWEGVLIVLLLIEFILFSFINRDFLNIRNLLFSTNDFLFIAIAAIPMTFVIVTGGIDVSVGSIMGLTSILIGVLWMNGIHILLAVIMALIVSCLAGALNGFIIKMTDVEPLVVTLGTMFLYGGIALVISGGAGASGYEGISGLPDAYVQLANGSFIGIPNLLWLLIALTIVCTILFHRTIYGRHVQLTGANENTAKYTGIQTKKVVIIAYILSGLGGGLGGAFLTAYFGSARADMGSETILPIITAVVLGGTLITGGKGSIIGTVLASIFIGLMQYGLQMTGLTNEQSNVVIGIILILSVIMRHFKLHQFLAGKRRNLHKGEMS	PGPT0025490_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025490-lsrD-K10557	NA	NA
AK009_01535	954	lsrC	COG1172	Autoinducer 2 import system permease protein LsrC	ATGAAACGTATGTTAAAAATGCATGAAACGTCTATCATACTGTTACTACTAATTTATATAGCCATGGTCGGGATAATAAATCCTAGTTTTGTTCAGTTTAACTCGTTATCGTTAATGATGAAATCAAGCGTTATTTTAGTCGTTCTAGCAATTGGCCAATCGTTCGTTTTATTTACGAAAAATATAGACGTATCAGTTGGCTCAATTATGGGATTAAGCGCGGCAGTTTGCGGGATGTTATTAACGAACGGATATAGTGCAGTCTTGTCGATACTTGCTGCTATAATGCTTGGTGCTATTATCGGTTTCATAAACGGGATTGGAGTTGCAAAGTTTCGGGTACCAGCCATTATTATGACATTAGGGATGTTAGGAATTGTTAGAGGTGCAATGTTAATCTTCACAGGCGGGAAGTGGATTGAAGATACTCCAAATAATTTTAAGAAACTTTCATCTATCGTCATACTTGGTCTGCCGATAATTGTATGGGGTGTTCTTATTATTTTATTACTACTATACTTCTTTTTAAGGAAGGTACCATACGGAAGATACTTCTATGCGGTAGGTGACAATGAAGATGGTGCGAGGCTCATTGGGATACCTGTTAATAAAGTAAAGATAAATGCGTTTATTATATCGGGCATAAGTGCGGCAATCGCTGGTTGCATATTTGTTATGAATATCGGGTTCGTTCCAAATCAAACTGGTACAGGAATAGAACTACAGGTGATCGCAGCTGCTGTGCTAGGAGGAATTCATCTAAAAGGAGGAACCGGTTCTATATTTGGAGCCGCATTAGGAGCATTATTTTTAGAAGCAATAAGCAGTTCACTCGTCTTTTTAAAAATACCAGCATTTTGGAATAATGCTATTTCGGGTTTTTTACTATTACTTATTATCATACTAGATAGTGTCATGAAGAAGTGGAAAGTAGAGAGGAGGATGAATCTATGA	MKRMLKMHETSIILLLLIYIAMVGIINPSFVQFNSLSLMMKSSVILVVLAIGQSFVLFTKNIDVSVGSIMGLSAAVCGMLLTNGYSAVLSILAAIMLGAIIGFINGIGVAKFRVPAIIMTLGMLGIVRGAMLIFTGGKWIEDTPNNFKKLSSIVILGLPIIVWGVLIILLLLYFFLRKVPYGRYFYAVGDNEDGARLIGIPVNKVKINAFIISGISAAIAGCIFVMNIGFVPNQTGTGIELQVIAAAVLGGIHLKGGTGSIFGAALGALFLEAISSSLVFLKIPAFWNNAISGFLLLLIIILDSVMKKWKVERRMNL	PGPT0025485_197	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025485-lsrC-K10556	NA	NA
AK009_01536	1482	lsrA	COG1129	Autoinducer 2 import ATP-binding protein LsrA	GTGGAGAACGTACCTTTATTACAAATAAAGAAAATGAGTAAGGCGTTTTTAAATCAACTTGTATTAAAAGAAGTGAACTTACAAGTAGAGCGTGGAGATATATACGCTTTAGTGGGGGAGAATGGCGCCGGGAAATCAACATTAATGAAAATATTAACGGGGTTATATTCGTATGATGATGGAGAGATGTATGTAAAAGGAATGAAGCAACAGTTTTCAAATCCGTCAGAAGCACATAGAAAAGGTATTTATTTAATACCGCAAGAACCACTCATTTTTCCGCATATGACTATTGAAGAAAATATATGTATCGGGTTAAAAGAAAAGAAAAAGAAACTAAGAGTACAGATTCAGCAATTGATTAACAGTCTAGGGTGGGATATTGACCTTTATGAGTTAGGAGCATCATTATCCATTGCGCAGCAACAGTTAGTAGAAATCGTTAGAGGATTAATAAGAGAAGCTGAGATTCTTATTCTAGATGAGCCAACATCGACATTAACAACACACGAAATTAAGAGTCTTTTTGTGTTGATGAAAAGTTTACAAGAAAAAGGAATTGGGATGATTTATATTACGCATCGTTTTCCAGAAATCTTTGAAATTGCCAACAAAGTAGCAATACTACGTGATGGAATGATTGTAAGTCAAGGTGATGTATGTGACTATACATATGACATGCTAATGGAGGGACTATTGCCAAAAGGATATAAACAGAAAGAGAAAATAGAAGTAGTTCAAGAGACAGCAAGGACGAAAAAAATATTAGAAGTGGTTGATATAAATGGTCACGCATTCAAAAATATATCATTCACTGTACATGCGGGAGAGGTTGTAGGTGTTGCTGGCATTATAGGATCTGGCAGAACGGAATTAGCAGAAGCGATATTTGGATTGAAAACTATAAAATCAGGGTCTATCTTATTAGATGGAAAATCAATTGATACGTGTTCTTTGCATAAAAGGCTAGACGAAGGACTAGTTTATGTGCCAGAGGATAGGGCGAGGAATGGAATTTTCTCAATGGCTTCTGTTAAAGAAAATATTGCAGCAGCAAGTTTACAGCAAAATAAGCGCTTTTTTATAAATCAAGAAAAAGAAAGCGCTTTAGTTAATTTTTTTATAGAACAATTCCGAATTGTTGTACAGAATATGAATGAAGAACTCGCATCTTTATCGGGAGGAAATCAGCAAAAAGTCGTACTTGCGAAGTATCTCGCATGTAATCCGAAAATTATTATTCTTGATGAACCGACTCGCGGAATTGATGCGAAAGCAAGGCTTGAAGTGTATGAGACGATAGAAAAAATGAAAAGGGAAGGGCTTGCAATTTTATTAATCTCTTCAGATGTTGAAGAAATTGTTCAATTAGTAAACCGTGTATATGTAATGAGAAATGGACGATTTGTTTCTCATATGGAAAAAGAACAACTGAGTGTGAATGAAGTTACACGCCTTGCAAACGGAGGTGTAGCGAAATGA	MENVPLLQIKKMSKAFLNQLVLKEVNLQVERGDIYALVGENGAGKSTLMKILTGLYSYDDGEMYVKGMKQQFSNPSEAHRKGIYLIPQEPLIFPHMTIEENICIGLKEKKKKLRVQIQQLINSLGWDIDLYELGASLSIAQQQLVEIVRGLIREAEILILDEPTSTLTTHEIKSLFVLMKSLQEKGIGMIYITHRFPEIFEIANKVAILRDGMIVSQGDVCDYTYDMLMEGLLPKGYKQKEKIEVVQETARTKKILEVVDINGHAFKNISFTVHAGEVVGVAGIIGSGRTELAEAIFGLKTIKSGSILLDGKSIDTCSLHKRLDEGLVYVPEDRARNGIFSMASVKENIAAASLQQNKRFFINQEKESALVNFFIEQFRIVVQNMNEELASLSGGNQQKVVLAKYLACNPKIIILDEPTRGIDAKARLEVYETIEKMKREGLAILLISSDVEEIVQLVNRVYVMRNGRFVSHMEKEQLSVNEVTRLANGGVAK	PGPT0025480_199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025480-lsrA|ego-K10558	NA	NA
AK009_01537	951	lsrR	COG2390	Transcriptional regulator LsrR	TTGAAAGGGATGAAGAGTATGACACAGCTGAACTTTGAAGAGAATTTATTAACTAAAGTAGCTTGGTACTATTATAAAGACCAATTAACACAACAGGAAATTGCTTCACTTCTTCACATTTCAAGAAATAAAGTTGTCCGGTTATTAGATAAGGCACGCAGTGAAGGTATCGTTACATTTCACGTAAAAGGAACTGGTTTACACTGTTTAAGTATTGAGCGTGACCTAATGAAAAAATTCCACTTAAAAGATGCTTTCATTATCCCTACTCCAATAGACAATTATCACGCTTCTCTCGGAAAAGCCGCTGCACAATATTTAGAGACTCATCTCCAACAAGGTGATTTACTCGGCATCGGCTGGGGTGAAACAATAAGTAAAATGCTAGAAAACATTCATTTTGAAAGTTCTATTAATCTTTCATTCGTAACGCTAACAGGCGGAGTAAACCACTATCTCCCAAGAAAACAAAACTATTTACACTACATGCAAGGTGATCTTCATATTATTCCTACTCCTTTTCTAGCATCTTCTACTGAAATGGCACAAAGTATTTTATCAGAACCAAGCGTGAAAGATATGCTTCATGTCGCTTCACTTGCACATACGGCAGTTGTCGGTATTGGCGGGTTATCTCAAGACGCTACGATTGTAAAAGAAGAAAAATTAACGCTACGTGAAATGACATATATTCGAAGTCAAAACGGGGCGGGCGATATTTTAGGACAGTTTTATAATACGAATGGTGATTTATTAGAGCTCTCGCATCATAATCGTCTAATTGGCACACCACTTACGATTCTTCGCAGTATGAAGCATGTCATTGGTGTGGCTGGAGGTACTCAAAAGATAGATGCCATTTATGGGGCTTTAAAAGGGAAATTTATTCATACATTAATTACTGATGAAGAAACTGCGCTCTCCTTATTAAGAAAGGAAGGTGATTCTTAA	MKGMKSMTQLNFEENLLTKVAWYYYKDQLTQQEIASLLHISRNKVVRLLDKARSEGIVTFHVKGTGLHCLSIERDLMKKFHLKDAFIIPTPIDNYHASLGKAAAQYLETHLQQGDLLGIGWGETISKMLENIHFESSINLSFVTLTGGVNHYLPRKQNYLHYMQGDLHIIPTPFLASSTEMAQSILSEPSVKDMLHVASLAHTAVVGIGGLSQDATIVKEEKLTLREMTYIRSQNGAGDILGQFYNTNGDLLELSHHNRLIGTPLTILRSMKHVIGVAGGTQKIDAIYGALKGKFIHTLITDEETALSLLRKEGDS	PGPT0025525_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025525-lsrR-K11531	NA	NA
AK009_01538	1563	lsrK	COG1070	Autoinducer-2 kinase	ATGTCTACTTTATTAGCTTTCGATGCTGGTACAGGAAGCATTCGAGCTGTTCTTTTTGATTTACAAGGCAATCAAATTGCAGTAAGCCAAAAAGAATGGGTTCATAAAACTGATCCTCGTTACCCCGGTTCTATGAATTTTGATGTAAAAGCAAACTGGCAACTCGTACAACAGTGTACGAAAGAAGTTCTACAAAAAAGTAATATACTTCCTTCTTCTATTCAAGCTATTAGCGCTACAAGTATGCGAGAAGGTTTTGTTTTATATGATAAAAATGGGCAAGAAATATGGGCATGTGCAAATGTTGATGGCCGTGCATCCGCTGAAGTTAGTGAGCTAAAAGAAATCCGCTCACATCTTGAAGAAGATTTATACAGAAAATCTGGGCAAACTTTTTCATTAGGTGCTTTACCACGTCTACTTTGGATTAAAAAACATGAACCAGAAATCTATTGTAATATCCACTCCTTTACGATGTTAAACGATTGGATTTTGTATAAATTAAGCGATGTACTGCAAATCGACCCTTCCAACGGTTGTACGTCTGGAATCTTTGATTTACAAAATAGAAATTGGGATAACGATGTCGCTAAAGAGTGTGGTATAACTTTGCCATTTTCACCAAAAGTAAATGAGGCTGGTACAGTAATCGGAAACGTTACAAAAGAGTGTGCAGCATTAACTGGATTACTGGCAGGAATTCCTGTCGTCGCTGGCGGCGGAGATGCTCAAATGGCATCACTCGGAACTGGAGTCGTGAAACCAAATCAAACATTAATATGCGGAGGCAGCTTTTGGCAACAAGAAGTAAATATTACAGAACCAATTACAGATCCATATGCTGCGATTCGTGTAAATTGCCATGTCATTTCGAATCTATGGCAATATGAAACAATCGCTTTTTTCCCTGGTCTTGTTATGCGCTGGTTTCGAGACGCTTTTTGCCAAGAAGAAAAAAAGCTCGCTGAAAAACTCGGTGTAGACGCTTATGAATTATTAGAAGAACAAGCGAAAGACGTACCTGTCGGTTCATATGGTATTATCCCTACTTTTTCAAACGTTATGAACTACATTTCTTGGCGTCATGCCGCACCTTCATTCTTAAATTTAAGTTTAGACGCTGACAAATGCGGAAAAAAGGAACTGTTCCGTGCTATTGAAGAAAATGCGGCCTTCGTTACACTTGGAAACTTAAAACTAATTGAAAATCTTACTGATACATTCCCTTCTGAAGTTGTTTTTGCTGGCGGTGCCGCTAAAGGGAAACTATGGCCACAAATTCTATCAGACGTACTCGGCATTCCTGTAAAAGTACCAGTTGTGAAAGAAGCAGCTGCTTTAGGAACTGCGATTGCTGCTGGAGTTGGCGCTGGAATATATACATCTATGGAAGAGGCTGCCGAACAATTTTTACAGTGGGAAAATACATTTGAACCAATCACGGAAAATCACGAGCTATACAAGGAATTCTATGAAACATGGAAAACCGTGTATAACAGTCAGCTCACTTTAGCTGATAAAGGACTTACAACACATATGTGGATTGCGCCAGGTGCACTGTAA	MSTLLAFDAGTGSIRAVLFDLQGNQIAVSQKEWVHKTDPRYPGSMNFDVKANWQLVQQCTKEVLQKSNILPSSIQAISATSMREGFVLYDKNGQEIWACANVDGRASAEVSELKEIRSHLEEDLYRKSGQTFSLGALPRLLWIKKHEPEIYCNIHSFTMLNDWILYKLSDVLQIDPSNGCTSGIFDLQNRNWDNDVAKECGITLPFSPKVNEAGTVIGNVTKECAALTGLLAGIPVVAGGGDAQMASLGTGVVKPNQTLICGGSFWQQEVNITEPITDPYAAIRVNCHVISNLWQYETIAFFPGLVMRWFRDAFCQEEKKLAEKLGVDAYELLEEQAKDVPVGSYGIIPTFSNVMNYISWRHAAPSFLNLSLDADKCGKKELFRAIEENAAFVTLGNLKLIENLTDTFPSEVVFAGGAAKGKLWPQILSDVLGIPVKVPVVKEAAALGTAIAAGVGAGIYTSMEEAAEQFLQWENTFEPITENHELYKEFYETWKTVYNSQLTLADKGLTTHMWIAPGAL	PGPT0025520_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025520-lsrK-K11216	NA	NA
AK009_01539	363			hypothetical protein	ATGTTAAAAGCGAATGAAAATGATTTCTCCTATCGCTTCGGTGATAACGGGCCGAAATATTTAATACAAGGCCCGAATATTGATCTTGGTCTTGTTGTCATTCAGCCTGGGCAAGAGTTTCAAAATCACTATCATACAACGTGTGAAGAAGTTTTTTATGCGTTAGAAGGTGAAATAGACTTCTATGTAAATAACGAAAGAGTTCCGATTAAACAAGGTGATGTCCTGCAAGTTCGCCCTCATGAATCTCACTATCTGATTAACCATTCTGATAAACCTTTTAAAGCTGTTTTTATAAAGTCACCACATTTACCAAATAAAGATACGGTACAAACGGAAAATCCAACATTAACGAAGGAGTGA	MLKANENDFSYRFGDNGPKYLIQGPNIDLGLVVIQPGQEFQNHYHTTCEEVFYALEGEIDFYVNNERVPIKQGDVLQVRPHESHYLINHSDKPFKAVFIKSPHLPNKDTVQTENPTLTKE				NA	NA	NA	NA	NA
AK009_01540	783	lsrF	COG1830	3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase	ATGACTTGGGGATTTAAAAATCGATTAAATACAATTTTACCTGATGGTAGAGCGGTTATGTTAGCAATAGATCACGGATATTTCTTAGGACCAATTCACGGACTAGAACAACCACTTGAAACAGTAAAAAACTTACTTCCTTATACAGACTCCCTCTTTTTAACGCGCGGTGTACTTAGCTCCTGTATTCCTGAAAACTGCAGTACACCGATGGTTATGCGTGTATCTGGCGGCGCTACTGTCGTTGGTAAAGATTTAGCGAATGAAACAATTGTTACACCTGTAAAAGAAGCAGTGAAGCAAAACGCAATTGGCGTTGGCGTTTCTGTTTTTGTCGGATCAGACTATGAAACACAAACTGTTTCGAATCTCGCAAATGTAGTTTCTGAAGCTCACGATTACGGCCTACCAGTACTCGGTATTACCGCAGTCGCAAAGGAATTACAAAAACGTGAAGCTCGCTTTCTAGCACTTGCTTCCCGCGTATGTGTTGAAATGGGTGCTGATATTATTAAAACGTATTACTGCGAAGGATTCGAAAAAATAACGAGCACATGCCCTGCCCCAGTTGTCATCGCGGGTGGCCCAAAACTAGATTCAATCGAAGACGCATTAAACATTACGTACAATGCACTGCAAGAAGGCGCGATCGGAGTAGACATGGGCCGAAACATATGGCAATCTGAGCACCCAGCTGCGATGATTCAAGCAATACATGGTATTGTGAAGAATAGATTGAATGTGAAAGAGGCGCTTGAACTTTATGATGATGTGAAGAATTAA	MTWGFKNRLNTILPDGRAVMLAIDHGYFLGPIHGLEQPLETVKNLLPYTDSLFLTRGVLSSCIPENCSTPMVMRVSGGATVVGKDLANETIVTPVKEAVKQNAIGVGVSVFVGSDYETQTVSNLANVVSEAHDYGLPVLGITAVAKELQKREARFLALASRVCVEMGADIIKTYYCEGFEKITSTCPAPVVIAGGPKLDSIEDALNITYNALQEGAIGVDMGRNIWQSEHPAAMIQAIHGIVKNRLNVKEALELYDDVKN	PGPT0025495_237	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_TRANSPORT,PGPT0025495-lsrF-K08321	NA	NA
AK009_01541	606			hypothetical protein	ATGCGAAGAATGACTTTCGAACGTCCTACCGATCATTACGATGAACGCTTATACTCTATTGATGAAAAAATTTGCGCCCTATTAAAAGAACGAAAAGAACTTTCAGGTGATGACCCAGGTTTTCCACATGATGAAGCGATTTATAAATGGGCTAAGCAATACGAATTTTATCCAGACTATCTAAACTCATTATTCTCTTCCATGATGGATGAAGAAGAATTTAAACCTCGCGTTGAACCAACTGGCTTCAAAAAACATGTACCTGTTTTTAAAACTTATGAACATAATGGCGTCATGTATACTGTAACTTTTATTCGGCAATATGCAAATGCTAGTGTAGTTTATTTATATAGCGATTGGGATTCCACGGATGAAGATTTTATTGAAAATAAGCCTCATAGTTTCTTCCAATTATCAATAGATGATACATACGATTGCTGGTCAGAAGGTGGTGGTGGCACCGATGGACATATGAATCATCAATTCGTTATATCTCCTGTCCTTCCTGATAATTTGTCTGGAATAAGCTTACGATTTAAAGAACTCAGTATCCCGTTTAGGAAAGATCAAGCTGTGCTTGAATTTGAAATTCAGATAGACAAATAA	MRRMTFERPTDHYDERLYSIDEKICALLKERKELSGDDPGFPHDEAIYKWAKQYEFYPDYLNSLFSSMMDEEEFKPRVEPTGFKKHVPVFKTYEHNGVMYTVTFIRQYANASVVYLYSDWDSTDEDFIENKPHSFFQLSIDDTYDCWSEGGGGTDGHMNHQFVISPVLPDNLSGISLRFKELSIPFRKDQAVLEFEIQIDK				NA	NA	NA	NA	NA
AK009_01542	420			hypothetical protein	ATGAAGCTGAATCATTTAAATTTATGTGTTGATGACTTATCAGAAGCGAGACATTTCTTTGAAACATTTTTTGATTTTCAATTTTTGGAACAAAAAGGGAAAGCACTTGTAGTTATGAGTGATGAGAGTGGATTTATACTTGTGCTAAGTGATCCAAAAGCATTTAAAGGGAATAAGGAAGTTACGTATCCGGAAGCTTTTCATATTGGTTTTTTAGTGGAAACTACAAATGAAGTGGATCAAGCGTATAATCGTTTAGTAGCAGGCGGCATTGAAATAGATAAGGAACCTTATTCGATGCGAGGTAGTAGTTATGGTTTTTATTTTACAGTATTTAATGGCTTATTAATTGAAGTGTCTTGTCTTGATTATAGAGAAGGTAAGAAAATTTCAAAGCTTAATAGTAATCACCAAGAGTAA	MKLNHLNLCVDDLSEARHFFETFFDFQFLEQKGKALVVMSDESGFILVLSDPKAFKGNKEVTYPEAFHIGFLVETTNEVDQAYNRLVAGGIEIDKEPYSMRGSSYGFYFTVFNGLLIEVSCLDYREGKKISKLNSNHQE	PGPT0013300_6256	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
AK009_01543	327	hmoA	COG2329	Heme-degrading monooxygenase HmoA	ATGTTTATCGAAACGAAAACATTTACAGTAAAAGAAGGTACATCAAATATAGTTGTAGAACGTTTCACTGGAGAAGGTATTATTGAAAAATTTGAAGGCTTTATCGATTTAAGTGTTCTCGTGAAAAAAGTAAGACGCGGCGACGAAGAAGTTGTCGTAATGATTCGCTGGGAATCTGAAGAAGCATGGAAAAACTGGGAAACAAGTGAAGAACACTTAGCTGGACATAGAGCAGGCCGTGGTAAACCAAAACCAGATCATATTATTAATGTGGATCACGCAGTTTATTATGTGAAATCATCGAAATCGGCTTATCAACAGTCTTAA	MFIETKTFTVKEGTSNIVVERFTGEGIIEKFEGFIDLSVLVKKVRRGDEEVVVMIRWESEEAWKNWETSEEHLAGHRAGRGKPKPDHIINVDHAVYYVKSSKSAYQQS	PGPT0003630_155	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145	NA	NA
AK009_01544	1179	entS_5		Enterobactin exporter EntS	ATGTGGATTGGGAGTGCAATCTCAGAATTAGGAGGGGCTTTCGGAACGTTATGTAATTCAATTCTAGTATATGAGTTAACAGGATCGGAAATGGCTTTAAGTAGTATGTGGCTATTATATTTCATCCCATCACTCATACTGCAATTAATAAGTGGCCCATTTATTGATAAATGGAGCCGGAAGTGGATTATGATTTTTTCACAATGGATACGAGCGTCCGTATTCTTATTACCTTTGATGATGCTAGTTTCGGGTAGTATAGAAGTTTGGCACATTTATGTTGTTCAAATTGTAGTGGGACTTATTACACCTCTTTATACACCTGCGAGTCAGGCAATTACACCGAGCATTGTAAGTCAAGAACAACTTCAAGACGCAAATGCGTACATTGATGGAATGACTCGCCTTATGATGTTTCTTGCGCCAGTATTAGGTGGAGTAGTAATTCATTACATTGGAACAGAATTTACATTATCTTTTGTATGTATTTGTCTATTTGTTAGTGGTGCTTTCTTACTTTATATAAAAGAAAAGAGAACTACAACAGATATAAGAAAAACGTGGCTAGAACAATTTCTTCAAGGTTTTACATATTTTTTTACAAAACCAATCATCGTTTGGCTCGTTATATTTCTTACTTTCGTGCAGTTTGGAGTAGGGGTAACGATGGTCACAAATCTTCCTTATATAAAAGACGAGCTGTCAGCGGGATATGCAGAGTACGGCTATTTCATGGCAGGTTTTCCACTTGGCTACGTAATTGGCTCAGTATTAGTCGGAAAAGTAACATATAAAAGCCGGCGTATACTTATGCTTGGAGGATTGTTTATAGGGGGGCTCACATACATTTCATTAGGGTTCAATCATAGTATTGTCATTGCAATAATAATTGAAGTAATAGCAGGGATTTGTATTGCATTTTTCAATGTTCATAACACGACAATATGCCAACAAACCGTCCCAAATAATATGATGGGACAAGTATTTTCAGTGCGTTTATTTTTTATACGATCCGCTATGCCATTAGGTGTGTTAGTAGGGGGAATATTGAGTGAAATGTGGGGAGTAAGAGCGCTATATGTAATCATCGGTGCAATTATATGTGTTACATCTTTAATAGGGATGTTACTTCCATATTTCAAATTTTTAGATGAGGCGATAGAAAAGAAATCAGCATAA	MWIGSAISELGGAFGTLCNSILVYELTGSEMALSSMWLLYFIPSLILQLISGPFIDKWSRKWIMIFSQWIRASVFLLPLMMLVSGSIEVWHIYVVQIVVGLITPLYTPASQAITPSIVSQEQLQDANAYIDGMTRLMMFLAPVLGGVVIHYIGTEFTLSFVCICLFVSGAFLLYIKEKRTTTDIRKTWLEQFLQGFTYFFTKPIIVWLVIFLTFVQFGVGVTMVTNLPYIKDELSAGYAEYGYFMAGFPLGYVIGSVLVGKVTYKSRRILMLGGLFIGGLTYISLGFNHSIVIAIIIEVIAGICIAFFNVHNTTICQQTVPNNMMGQVFSVRLFFIRSAMPLGVLVGGILSEMWGVRALYVIIGAIICVTSLIGMLLPYFKFLDEAIEKKSA				NA	NA	NA	NA	NA
AK009_01545	1041			hypothetical protein	ATGGAGGTCTATCACATAACGAGTAGAAAGAGGGAAACATACAACGTTCAGGTGAAATATTCGATACTTTTCGAATGTGCACTTGGCATTGCAGCAATTACTCATAAAAGGTTAATTAATACACTTGAAAAGACTGAAAGTGAATGGGAAGGAATTAGACAATCATTAACAAATGAGATGAGAGAACACTTACAGTTTGTAGAAGAACATAATACGTGGAAAGCATTGCTTCAGTTATTGTATGAAGAGGATTTTCAGGACTTATCGCAGTTTAATTTTAAAATTGATTCACTTTCAGAAGAGGATTTGAAATTTATATGTTTACCGTTTTTAGGAGAGAAATATGAAGAGAAAAGACGTTTAGCTGCAACGGGAGTTGTATGTGCAATACACGAACTAAAGGAACTAACAGATGATCATCCGTTTTTTTCTACTTATATTAGCTTTATATGTGATGTAGATGTACAAGTGCTGAAATCTCATTTAATCGCTGTTATGACAGGTTGGTATGAGAGTGTAATTAAGAAAGAGGAGGAAGTACTTTCTATATTAAAACGAGATTATGAAGCAAAAAATGAAATGAATAAAAAGATGAAGCCGGAAGAGTTTGTCGAGTGGGCGACTGGCGGAGTGAACTATATGCCAGAGCCAAGTATTCATCACGTACTTCTTATTCCGCAAATGACGTACAGACCGTGGAATATTGAAGCAGATATTGATGATACGAAAGTATTTCATTACCCAGTTGCGAATGAAAGCATTCATCCTGAAGATCCGTATGAACCGAATTATTTTTTAGTTCAAAAACATAAGGCTCTTGGGGATGAAGCGAGATTGCGAATTGTAAAAATGTTGTTTGAAAAAGAACGTACATTACAGGAAATAACGGAAAGATTGCAGCTTGGTAAATCGACAGTACACCATCATTTGAAATTGTTACGTGCAGCGAAGTTAGTTGATATACATGACGGAAAGTATGTATTAAGGAAGAAAGTAGTACAGTCGTTAGCAAAAGAATTAGAAGCATTTTTAAATAGATAA	MEVYHITSRKRETYNVQVKYSILFECALGIAAITHKRLINTLEKTESEWEGIRQSLTNEMREHLQFVEEHNTWKALLQLLYEEDFQDLSQFNFKIDSLSEEDLKFICLPFLGEKYEEKRRLAATGVVCAIHELKELTDDHPFFSTYISFICDVDVQVLKSHLIAVMTGWYESVIKKEEEVLSILKRDYEAKNEMNKKMKPEEFVEWATGGVNYMPEPSIHHVLLIPQMTYRPWNIEADIDDTKVFHYPVANESIHPEDPYEPNYFLVQKHKALGDEARLRIVKMLFEKERTLQEITERLQLGKSTVHHHLKLLRAAKLVDIHDGKYVLRKKVVQSLAKELEAFLNR				NA	NA	NA	NA	NA
AK009_01546	1194	nupG	COG1972	Purine nucleoside transport protein NupG	ATGCATTTCATATTAAATATGTTAGGGATTTTCGTTGTCATATTAATCGTTTTCTTATGTTCACCTAACAAAAACCATATAAAATGGAGACCAATTGTAATTCTCATCATATTGGAGCTTTTTATTACGTGGTTTATGTTAGGCACGAAGCTCGGCAGTATTATCATTAATAAAATTGCGTCATTTTTCAGTTGGCTACTGGCATGCGCGAACGAAGGTATTCGATTTGCATTTCCTTCCGCTATGGACAGTCCACACATTGATTTCTTCTTTAGTGCATTACTGCCTATCATCTTTGTTATTACTTTTTTCGATATTCTTTCGTATTTCGGAATCTTAACTTGGATTATTGATAAAGTAGGTGCGGTTATTTCAAAGATTTCTCGTTTACCAAAGTTAGAAAGTTTCTTTTCCATTCAAATGATGTTTTTAGGAAACACTGAAGCACTTGCAGTTGTTCGTGATCAATTATCTGTTTTAAAAGAAAATCGTTTGTTGACTTTTGGAATTATGAGTATGAGTAGCGTTAGCGGATCCATTCTTGGCGCTTATTTATCAATGGTACCAGCTACATATATTTTCAGTGCAATCCCTTTAAACTGTATTAATGCATTAATTTTAGCCAATGTATTAAATCCTGTGGAAGTTACGAAAGAAGATGATGTCGTATATACACCTTCAAAGCATGAAAAAAAGGATTTCTTTTCTACTATTTCAAACAGTATGTTAGTTGGAATGAATATGGTTATCGTTATTTTAGCCATGGTAATTGGGTATGTAGCTTTAACAGCATGTTTAAATGGGATTTTAGGCTTTTTTGTAACGGGGTTAACAATTCAAAAAATCTTCTCCATTATCTTTAGTCCTTTTGCATTTTTACTCGGTTTATCCGGCAAAGATGCTATGTATGTAGCTGAATTAATGGGAATAAAAATTACGACGAATGAATTTGTTGCTATGATGGATTTAAAATCAAACTTAAAGTCGCTACAACCGCATACGGTTGCGGTTGCAACAACATTTCTAGCTTCTTTTGCTAACTTTAGTACAGTAGGTATGATTTACGGAACTTACAATTCATTATTTGGCGGGGAAAAATCATCAGTCATCGGTAAAAATGTTTGGAAGCTTCTTGTTAGCGGGATGGCTGTTTCTTTATTAAGCGCTATGCTTGTAGGGCTTTTTGTATGGTAA	MHFILNMLGIFVVILIVFLCSPNKNHIKWRPIVILIILELFITWFMLGTKLGSIIINKIASFFSWLLACANEGIRFAFPSAMDSPHIDFFFSALLPIIFVITFFDILSYFGILTWIIDKVGAVISKISRLPKLESFFSIQMMFLGNTEALAVVRDQLSVLKENRLLTFGIMSMSSVSGSILGAYLSMVPATYIFSAIPLNCINALILANVLNPVEVTKEDDVVYTPSKHEKKDFFSTISNSMLVGMNMVIVILAMVIGYVALTACLNGILGFFVTGLTIQKIFSIIFSPFAFLLGLSGKDAMYVAELMGIKITTNEFVAMMDLKSNLKSLQPHTVAVATTFLASFANFSTVGMIYGTYNSLFGGEKSSVIGKNVWKLLVSGMAVSLLSAMLVGLFVW	PGPT0021085_176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021085-yxjA|nupG-K16323	NA	NA
AK009_01547	1248	proA_1	COG0014	Gamma-glutamyl phosphate reductase	ATGAATGAAGTGTTGGCAAAGGGGATAAAAGCAAAAGAGGTTGCTAGAGAACTTGTGCTTAAAACTACAGATCAAAAAAATGAAGCACTTGCTGCAATTGCTAATCAGTTGATAGTAGAAACAGCTTATATTTTAGAAGAAAACAAACGGGATATTGAAGAAGGTAAGGAGAAAGGATTTTCTGATTCACTCCTTGATCGCCTTTTGCTGAATGAACAGCGAATTGTTGATATGACAGAGGGTATTAAGCAGTTAATTGAATTACGTGATCCTATTGGAGAATGTGTAAGTGCATGGGAACGACCAAATGGACTATCTATTCAGGAGATGCGCGTACCACTTGGTGTTGTCGGAATGATTTATGAGGCAAGACCGAATGTAACTGTTGATGCTGCTACAATTTGTTTAAAAACAGGAAACGCAGTAATACTACGTGGTAGTTCTTCTGCTATCCATTCTAACAAAGCCATCGTTAGCGTTATTCACCGGGCGCTTAAGCAAACTAGCTTGCCTTCAGAAAGTGTACAGCTCATAGAAGATACAACGAGAGATAGTGCAAAACAGCTGTTTACATTGAATGAGTACTTGGATGTTCTTATACCAAGAGGCGGTAAACAATTAATTGATACAGTAGTGAGAGAAGCGTCTGTTCCAGTACTTGAAACAGGTGCGGGAAATTGTCATATATTCATTGATGAAACAGCGGATAAACAAATGGCATTTAATATTATTATAAATGCAAAAACACAGCGCCCATCTGTATGTAATGCAATTGAGACGATTGTACTTCATGAGAATTGGGCAGAGCAATATGGTAGCGAGTTGTTTTCTTCTTTGAAGGAAAGAGGAGTAGAGCTACGCGGTGATAATAAAGCAGTGGCGATTGATACTTCTATCTTACTTGCGACAGAAGAAGACTGGGAAACAGAGTTTTTATCTCTCACACTAGCAGTGAAAGTGGTTGCCACTGTTGAAGAAGCGATTCATCATATAAATACGTATGGATCTATGCATTCTGAAGCGATTATTACTGAAAACGAGGAAAACGTCAGCAAGTTTTTTACTTCTGTAGATGCCGCGGCACTTTATCATAATGCATCGACTCGTTTTACAGATGGATCCGAATTTGGATTCGGAGCGGAAATTGGTATCAGTACGCAAAAATTACACGTAAGAGGACCAATGGGGCTTCCAGCATTAACTTCCACAAAATATGTAATTCGTGGAAATGGACAAATTCGGAGCTAA	MNEVLAKGIKAKEVARELVLKTTDQKNEALAAIANQLIVETAYILEENKRDIEEGKEKGFSDSLLDRLLLNEQRIVDMTEGIKQLIELRDPIGECVSAWERPNGLSIQEMRVPLGVVGMIYEARPNVTVDAATICLKTGNAVILRGSSSAIHSNKAIVSVIHRALKQTSLPSESVQLIEDTTRDSAKQLFTLNEYLDVLIPRGGKQLIDTVVREASVPVLETGAGNCHIFIDETADKQMAFNIIINAKTQRPSVCNAIETIVLHENWAEQYGSELFSSLKERGVELRGDNKAVAIDTSILLATEEDWETEFLSLTLAVKVVATVEEAIHHINTYGSMHSEAIITENEENVSKFFTSVDAAALYHNASTRFTDGSEFGFGAEIGISTQKLHVRGPMGLPALTSTKYVIRGNGQIRS	PGPT0014215_3729	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
AK009_01548	1104	proB_1	COG0263	Glutamate 5-kinase 1	GTGAAAAAACAACGAATTGTTGTAAAGATTGGAAGTAGTTCCTTGGCAGATAGTCACGGAGGCATCTCTACAGAACAGCTTTCAGATCACGTTGCCGCATTGGCTCGGTTGAAAGAGGAAGGGCACGAGGTTGTGTTAATTACATCTGGAGCCGTCGCTGCAGGCTTTTCAGCGCTAGGATATCCTAGTAGACCTGTAACGATTAAAGGGAAACAGGCTGCAGCAGCTGTCGGACAAAGTTTGTTAATGCAGGCGTACACGGAGGAATTCCGTAAATATGGCATCGTTACTGCGCAACTTTTGCTGACGAGAAGTGATTTTTCTAGAAAAGAACAATATAGTAATGCTTACGCTACGTTAGGAGAATTACTAAACCGTTCCGCTCTTCCAATTATTAATGAAAATGATTCCATCTCTTTAGAGGAGCTGACGTTCGGTGATAATGATATGCTGTCAGCTTTAGTAAGCGGGCTTGTTTCGGCGGATATGCTTATGATCTTTACGGATGTGAACGGGTTATATGACAAAAATCCTCAGAAAAATGCGGATGCAAAAAAATATTATTTTCTTCCTGAAGTTACGGAAGAAATTTCTTCTCTTGCAGGAGATGCTGGCTCAAAACTTGGGACTGGTGGTATGAAATCAAAAATCGATGCTGCAAAGACAGCACTCTCTCTTGGTGTGAGTGTATTTATCGGGACAGGACGTGGACAGGAAAAGTTTGTAGATGTTTTGAAGGGTAAGGGTGATGGAACGTATGTTGGTAATGCTCCTCAAAAAGAAATGAAGATGAACAAGCAATGGATTGCCTTGCATTCGCTTGTTAGCGGACAAATTGAAGTAGATGCTGGGGCGGCTACTGCCATCATTCAGCATGGTAAGAGTTTACTTCCAGCTGGTGTTACGAATGTATCAGGATTTTTCCAAGTGGGTGAAGTTGTAGAGGTTGTAACGCAACAAGGGCGCGTAATAGGAAAAGGACAATGCACATATAGTGCAGAGGAACTAAGAGATGTAAAAGGTATGCAAAGCCAAGATATTCAAGTAAGAGGCGAGAGACATAGTTATGAAGTCATTCATAGAGATCATTGGGTTTCACTTTAA	MKKQRIVVKIGSSSLADSHGGISTEQLSDHVAALARLKEEGHEVVLITSGAVAAGFSALGYPSRPVTIKGKQAAAAVGQSLLMQAYTEEFRKYGIVTAQLLLTRSDFSRKEQYSNAYATLGELLNRSALPIINENDSISLEELTFGDNDMLSALVSGLVSADMLMIFTDVNGLYDKNPQKNADAKKYYFLPEVTEEISSLAGDAGSKLGTGGMKSKIDAAKTALSLGVSVFIGTGRGQEKFVDVLKGKGDGTYVGNAPQKEMKMNKQWIALHSLVSGQIEVDAGAATAIIQHGKSLLPAGVTNVSGFFQVGEVVEVVTQQGRVIGKGQCTYSAEELRDVKGMQSQDIQVRGERHSYEVIHRDHWVSL	PGPT0014220_3124	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
AK009_01550	819	proC_1	COG0345	Pyrroline-5-carboxylate reductase	ATGGATAAACAAATTGGATTCATCGGTTGCGGAAATATGGGAATGGCTATGATTGGCGGGATGCTAAACAAAAAGATAGTGTCTTCAAATCATATTATTTGTTCAGATTTAAACACTGCTAATTTAAAAAATGCTAGTGAAAAATATGGGCTAACTACAACTACCGACAACAATAAAGTAGCTAAAAATGCTGATATTTTAATTTTATCAATTAAACCAGACCTATACGCATCAATAATTAATGAAATAAAAGAAGTAATCAAAAACGATGCTATCATCGTTACGATCGCTGCTGGTAAAAGTATTGAAAGTACTGAAAATGCCTTTAATAAAAAATTAAAAGTTGTAAGAGTAATGCCTAATACTCCTGCTCTTGTTGGAGAAGGAATGTCTGCATTATGCCCTAATGAAATGGTGACAGAAAAAGATTTAGAAGATGTACTAAACATTTTCAATAGTTTTGGTCAAACAGAGATCGTAAGTGAAAAATTAATGGATGTTGTAACATCTGTAAGTGGTTCTTCACCAGCATATGTATATATGATTATAGAAGCGATGGCAGATGCTGCTGTACTAGATGGTATGCCTAGAAATCAAGCATATAAATTCGCTGCTCAAGCTGTGTTAGGCTCTGCAAAAATGGTACTAGAAACAGGAATACATCCAGGTGAATTGAAAGATATGGTTTGTTCTCCTGGTGGAACGACAATAGAAGCTGTAGCAACATTAGAGGAAAAAGGATTACGAACAGCGATTATTTCAGCTATGCAGCGTTGTACGCAAAAGTCTGTTGAACTATCTGGTCAAACTAAAAAATAA	MDKQIGFIGCGNMGMAMIGGMLNKKIVSSNHIICSDLNTANLKNASEKYGLTTTTDNNKVAKNADILILSIKPDLYASIINEIKEVIKNDAIIVTIAAGKSIESTENAFNKKLKVVRVMPNTPALVGEGMSALCPNEMVTEKDLEDVLNIFNSFGQTEIVSEKLMDVVTSVSGSSPAYVYMIIEAMADAAVLDGMPRNQAYKFAAQAVLGSAKMVLETGIHPGELKDMVCSPGGTTIEAVATLEEKGLRTAIISAMQRCTQKSVELSGQTKK	PGPT0014225_2717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK009_01551	1641	rocB	COG4187	Protein RocB	ATGTCAAAGTGGCAATCAAAAGAACAATTGATTCAATTATTAAGCAGTCTTGTTGAAATTCCTAGTATTACCGGTTCAGAAGCTGAAGTAATATTGCCAGACTTTGTTGTGGAACAATTATCTGAATTACAGTATTTCAAAGAAAACCCGCATCATTTACAAAAAAATCCGACAGGGGACGGACGATATTTTGTTACAGCACTAGTAAAGAAAAAAGATAGTACAAAAAATACTGTAATTCTAGTAAGTCACTTTGATGTTGTAGATGTACAAGATTACGGAGTGTGGAAAGAAGATGCATTTAATCCTAAAAAGTTAACATCTATGTTTTATTCTCATAAAGATGAACTTCCAGAGCATGTGCGTGAAGATATAGAACATGGGGAATGGCTGTTTGGTAGAGGAACAATGGATATGAAATGCGGTCTAGCATTACAAATGGCAATGATTGAACAAGCATGTGAAGGAAGATTCGATGGGAATGTTCTTTTATTGGCTGTACCAGATGAAGAAGTGAATTCTGTAGGGATGAGGGCCGCTGTTCCGGGACTGTTAGATTTAGCTAGAGAGCATAACTTAGATTATAAAACGGTCTTAAACTCAGAGCCTATGTTTTCAAGACATCCTGGTGACCAAAATAAGTATATTTACACTGGCTCTATTGGTAAAGTGTTACCTGGTTTTCTTTGCTATGGAAAAGAGACACATGTAGGTGAACCTTTTGCAGGCTTAAATGGGAGTTATATGGCTTCATTAATAACAGCAGAATTAGAGTTAAACACAGACCTTTGTGATATTGTAGAAGGGGAAGCGAGTCCTCCGCCAACTAACTTACTTCAAAGGGACTTAAAGGAGGATTATTCTGTACAAATTCCGCATCGTGCAGTTACATTATTTAATTTGTTTTTATTAGAAAAATCAATGACAGATGTAGTTTCATTGTTACGTCAAAAAGTAACGAAAGTAGCAGAGAAAATAGAAGAGTCGTATGAAAAACATGCATATCGTTTTTCTAAATATAATCCATTTATACCACCTAATCTCAAAGTAAATGTATTAACGTATGAAGAGCTTATCACATATGCAATTGAGCAACATGGACAAGAAAAAATAAATCATATTCAATCTAATATTATAAAAAATAGAGAAGATAAAGATGATCGTGCGGTAACGATTGATTTAGTAGATAAATTAGCGATTTTATGTAAAGAAAAGGCACCGATGATTGTACTTTTCTTCGCTCCGCCGTACTATCCAGCTGTGAGTTCACGCAACAATCCTTTAATAAAAGAGGTGGTTGTAGAAATGGAAAAGTATGCACACTACAATCATAAGATTACATTTGAAAACCAAAATTATTTTGGGGGGATTTCAGATTTAAGCTATGTAGGCTTGCAGTATCCACTGGATTCAATGAGTTCGCTTGTAGACAATATGCCATTATGGGATAAAGGTTATTCAATTCCGCTTCAGGAATTAGAAGAGTTTGATGTTCCAGTATTAAATATGGGGCCGGTAGGAAAAGATGCACATCAATGGACAGAACGTCTAGATGTAAACTACGCATTTGAAACACTATTAGATATGTTACCGAAATGCATTGAAAAATTATTAGTTTCTAATAAAATTACACAATCATAG	MSKWQSKEQLIQLLSSLVEIPSITGSEAEVILPDFVVEQLSELQYFKENPHHLQKNPTGDGRYFVTALVKKKDSTKNTVILVSHFDVVDVQDYGVWKEDAFNPKKLTSMFYSHKDELPEHVREDIEHGEWLFGRGTMDMKCGLALQMAMIEQACEGRFDGNVLLLAVPDEEVNSVGMRAAVPGLLDLAREHNLDYKTVLNSEPMFSRHPGDQNKYIYTGSIGKVLPGFLCYGKETHVGEPFAGLNGSYMASLITAELELNTDLCDIVEGEASPPPTNLLQRDLKEDYSVQIPHRAVTLFNLFLLEKSMTDVVSLLRQKVTKVAEKIEESYEKHAYRFSKYNPFIPPNLKVNVLTYEELITYAIEQHGQEKINHIQSNIIKNREDKDDRAVTIDLVDKLAILCKEKAPMIVLFFAPPYYPAVSSRNNPLIKEVVVEMEKYAHYNHKITFENQNYFGGISDLSYVGLQYPLDSMSSLVDNMPLWDKGYSIPLQELEEFDVPVLNMGPVGKDAHQWTERLDVNYAFETLLDMLPKCIEKLLVSNKITQS				NA	NA	NA	NA	NA
AK009_01552	750	kipR_1	COG1414	HTH-type transcriptional regulator KipR	ATGGTACAGTCCATTGATCGAGCGATAAGTATTATTAAATTATTGAATTCTACAAATGAAAAAGAGTATTGGGCTATTTCTGATATAGCAGATGGAACACATCTCCCAGTTAGTACAGTACATAGATTACTTAACTCTCTAATGGAGCATGGGTTAGTTACACAAATACCAGAGACAAAACAGTACAAAATTGGACCAATGTGGATGGAAATAGGGTTACGTCAATTGGAGAAGGTAGACTACAGATCAGTTGCAAGAGAAGTGATGAAGCGGTTGGCCTTTGAAGTCGAAGAAAGTGTCTATTTAAATATTCCAAACGGAACACATTCTATTATCATTGAAAGAATGGATAGTCCTTTAAAAATTCGAGTTATCGATAATCTAGGGGAACAAATTCCACTTTCAATTGGTGCCGCAAATAAAACGATGCTTGCTAATATGAAAACGAATGAAATGGAACATATTGTAGAACATTTACTTTCTTCATTACCAGAACAAAAGCAAATTCTTCTTAATCAAATAAAGCAAATAAAAAATGAAGGATATGCTGTCAGTTATGGTGAAAAAACAGAAGGGACAGCTTCAGTAGCTGCACCTATTATCGGATTTAATCATAAAGTAGTAGGAGCATTAAGTGTTGGGTTAATTAGTCATCGTATTAATGATGATCGACTATCTTTTCTTATTAGCAAGGTAAAACAAGCAGCTCATGAAATATCAATAAAAATCGGCAGTACATCAGAACTATAA	MVQSIDRAISIIKLLNSTNEKEYWAISDIADGTHLPVSTVHRLLNSLMEHGLVTQIPETKQYKIGPMWMEIGLRQLEKVDYRSVAREVMKRLAFEVEESVYLNIPNGTHSIIIERMDSPLKIRVIDNLGEQIPLSIGAANKTMLANMKTNEMEHIVEHLLSSLPEQKQILLNQIKQIKNEGYAVSYGEKTEGTASVAAPIIGFNHKVVGALSVGLISHRINDDRLSFLISKVKQAAHEISIKIGSTSEL	PGPT0018213_1534	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
AK009_01553	1425	rocC_1	COG0833	Amino-acid permease RocC	ATGGCCCAAGTAAGTAATACAAACAATGAATTAAAACGAACGATGAAAAGTAGACACTTATTCATGATTGCACTCGGTGGTGTGATTGGAACGGGGTTATTTAACGGATCTGGCTTTATAATAAGTCAAGCTGGACCTGGTGGATCCGTACTTGCCTTTATGGCCGGTGGATTATTAATGTATTTCGTTATGCTATGTCTTGGTGAACTCGCTGTAGCCATGCCTGTCTCAGGTTCTTTCCAGGAATATGCCACTAAGTTCATCAATCCTGCAACTGGCTTTACAATCGGATGGTTGTATTGGTTAAGCTGGGCGAATACGACCGGTCTTGAATTTACAACTGCCGGCATTACAATGCAGCGCTGGTTTCCTGATATTCCTGTTTGGGTTTGGTGTTTAATATTTGGCGTTACAATCTTCACTATTAACGCATTATCTGCTCGTAGTTATGCAGAAACAGAATTTTGGTTTTCAAGTATAAAAGTATCTGCCATTATCGCTTTCATTATTCTTGGCGGCGCCGCTATGTTCGGTTTTATTGATTTAAAAGGCGACGAACCCGCTCCGCTATTATCAAATTTCGTAAATCATGGTGGTTTATTCCCAAATGGACTTGCCGCTATTCTTTTAACAATGGTTACAGTCAACTATTCCTTCCAAGGTACAGAACTTGTTGGAATCGCAGCAGGTGAAAGTGAAGATCCAGCAAAAACTTTACCTCGTTCTATTAGAAATATTATATGGCGCACGATGTTTTTCTTCGTCTTAGCAATCTTTGTTCTTGTTGCTTTAATTCCTTGGGAAGAAGCTGGATTAACAAAGAGCCCATTCGTTGCTGTTTTTGATAATATCGGTATTCCATATGCAGCTGATATTATGAACTTTGTTATTCTTACTGCTGTTCTTTCTGTTGCAAACTCAGGACTATACGCTGCTACTCGAATGCTTTGGTCTTTATCAAAAAACGAAATGGCTCCAACCTTTTTAAAGAAATTATCATCACGTGGAATTCCTCTCAACGCTTTAATCATGACGATAGCTATTTCTGCTTTTTCTCTTTTGACAAGCGTAGTAGCTGCTGAAACGGTTTACTTATGGCTCATTTCAATTTCCGGAGTCATTACCATTATTGTTTGGATGTCAATTTGTGTTTCTCAATTCTTTTTCCGCAAACATTATTTAGCAGACGGTGGAAAATTAGAAGACTTAAAATTTAAAACACCACTTTATCCACTCGTACCAATTCTTGGTTTTGGATTGTATGGCATTATATTAATCAGTCTTATTTTTATCCCAGAACAACGACTTGGAATCTATTGCACTGTACCATTTATCATCTTTTGCTATACCTACTATCACTTTAAAGTTAAGAAAAGAATATCTACTAACACTCATAGTGAAAGTAAAATTAGCGAGACTATGTAA	MAQVSNTNNELKRTMKSRHLFMIALGGVIGTGLFNGSGFIISQAGPGGSVLAFMAGGLLMYFVMLCLGELAVAMPVSGSFQEYATKFINPATGFTIGWLYWLSWANTTGLEFTTAGITMQRWFPDIPVWVWCLIFGVTIFTINALSARSYAETEFWFSSIKVSAIIAFIILGGAAMFGFIDLKGDEPAPLLSNFVNHGGLFPNGLAAILLTMVTVNYSFQGTELVGIAAGESEDPAKTLPRSIRNIIWRTMFFFVLAIFVLVALIPWEEAGLTKSPFVAVFDNIGIPYAADIMNFVILTAVLSVANSGLYAATRMLWSLSKNEMAPTFLKKLSSRGIPLNALIMTIAISAFSLLTSVVAAETVYLWLISISGVITIIVWMSICVSQFFFRKHYLADGGKLEDLKFKTPLYPLVPILGFGLYGIILISLIFIPEQRLGIYCTVPFIIFCYTYYHFKVKKRISTNTHSESKISETM	PGPT0000815_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_01554	348			hypothetical protein	ATGATAAAAGGTTTCGGAGGAATATTTTGGAGAACTAAGAATCTTGATGTTATAAAAAAATGGTACAGTGAAGTGTTGAAACTTGATATAGAAGATTGGAATGGGACTGTGATTAAACCCCAGTTAGGAAATGAGACCATCTTTTCTTTCTTTACTGAGAATGACAATTATTTTCCAACAGAACAACAAGTAATGTTAAATTTCCAAGTATATAATCTAAACAAGACTATAAAGCATCTTGAGAATATTGGTGTACCTCTTGAAAAGAAAGAAGAAATGAGTGAATTTGGAAAGTTTATTTGGATTAAGGATCCTGAAGGTCGATTGATTGAACTTTGGGAGAAATAG	MIKGFGGIFWRTKNLDVIKKWYSEVLKLDIEDWNGTVIKPQLGNETIFSFFTENDNYFPTEQQVMLNFQVYNLNKTIKHLENIGVPLEKKEEMSEFGKFIWIKDPEGRLIELWEK	PGPT0013300_6206	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
AK009_01555	1017	rtcB	COG1690	RNA-splicing ligase RtcB	ATGACAATACAAGATAAAATTGTTCCTAATCTTGTAGGGGTAGATATTGGGTGTGGAATGGAAGTTGTTGTAATTGATAAGAAAAAAGAAGAAATTAATTTCGATTGTTTAGACGAAATAATTCGTAAATTTGTTCCAAGTGGTTTTCGTATACGAGATAAAGAACATCGATTCTCAAAAATGATTGATTTTGATGGTGTGAGAGCTCCATTTACATTACAACGCGCTCAAAAAAGTATAGGTACTCTTGGGGGAGGAAATCATTTTGTCGAATTAAATGAAGATGAAAAAGGAAATGTATATATTGTCATTCATAGCGGTTCTCGTAATTTAGGTAAGCAAATTGCAGAGTATTACCAAAAATTTGCATATGAACAACTCACTGACGTTACATCAATGAAAGATGAGATTATTAAGAGATTAACTGAAGAGGGTAGAGCAAAAGAAATACAAGAAACTTTAAGAGGAATTCAGAAGCCTAAGATTCGTAAAGAACTAGCTTATTTAGAAGGGCAAGGATTCAAAGATTATATGAATGACATGAATATTGCTCAAAAGTACGCTACGTTAAATCGTAAAGCAATGATTGATGAAATTGTTATGAAAATGGACTGGAAAATAACGGATCAATTTACTACAATACATAACTATATTGACATGGAAAATATGATTCTACGAAAAGGTGCTATTTCAGCTCAGAAAGATGAACGAGTCATTATTCCAATTAACATGAGAAATGGTTCAATTATTGCATTTGGTAAAGGTAATCCAGACTGGAACTTTTCTGGTCCGCATGGGGCAGGACGTATCATGAGTCGTAAGAAGGCTAAAGAATTATTGAGTCTAGAGGACTTCCAAAATACGATGACAGAGGTGTGGACTACATCGGTAGTAGAGAGCACAATTGATGAGGCACCAATGGTATATAAGCCAATGGATGAAATTATCGAAAATACGAACGAAACAATAGATATAAAGCATATTATTAAGCCATTATATAATTTTAAAGCGAATTAG	MTIQDKIVPNLVGVDIGCGMEVVVIDKKKEEINFDCLDEIIRKFVPSGFRIRDKEHRFSKMIDFDGVRAPFTLQRAQKSIGTLGGGNHFVELNEDEKGNVYIVIHSGSRNLGKQIAEYYQKFAYEQLTDVTSMKDEIIKRLTEEGRAKEIQETLRGIQKPKIRKELAYLEGQGFKDYMNDMNIAQKYATLNRKAMIDEIVMKMDWKITDQFTTIHNYIDMENMILRKGAISAQKDERVIIPINMRNGSIIAFGKGNPDWNFSGPHGAGRIMSRKKAKELLSLEDFQNTMTEVWTTSVVESTIDEAPMVYKPMDEIIENTNETIDIKHIIKPLYNFKAN				NA	NA	NA	NA	NA
AK009_01556	174			hypothetical protein	ATGTTGAAATTACAAGGAAAATACAATGAAGCGAAAGTATTTACGAATAACGTTGATGAGACTGCGACTGGGCAGATTATTGATCTTTGTAATCAAGAATTCGTAAAGGATAGTCAAATTCGTATTATGCAGATACACATGCGGGAGCAGGTTGTACGATTGGAACAACAATGA	MLKLQGKYNEAKVFTNNVDETATGQIIDLCNQEFVKDSQIRIMQIHMREQVVRLEQQ				NA	NA	NA	NA	NA
AK009_01557	1032	des	COG3239	Fatty acid desaturase	ATGACCTTAGAAAATACTAAAAATTTAAAAAAACAAGTTGCTCCTTTTGAAAAATCAACGATTAAAAAAAGTGTTTGGCAACTGATCAACACAATCGTGCCATTTATTATTTTATGGTACCTTGCTTATAAAAGTTTGTCAGTTTCTTATTGGTTAACATTAGTTCCAGCACTGTTAGCCGCTGGATTTATGACAAGGATTTTCATTATTTTTCATGATTGTACCCATTATTCATTCTTTAAAAGTCGACGTGCAAATAGAATAGTTGGAACGTGTATGGGTGTTTTAACATTATTCCCATTTGATCAGTGGGGGCATGAGCATTCTATTCACCACGCTACGAGTGGTAATTTGGATAAGAGGGGTACAGGGGATATTTGGACGCTTACAGTAGATGAATATGTAGCAGCACCATTTAGACTCCGTTTAGCATATCGTTTATATCGCAATCCATTCGTTATGTTTGGGTTAGGCCCAATTTATGTTTTCCTGCTTAAAAATAGATTTAACCGAAAAGGTGCTAGAAAAAAAGAACGTATGAACACTTATTTAACAAATATTTTAATCGTTGCTGTAGTAGCTATACTTTGCTGGGCGATTGGGTGGCAATCGTTTCTGTTAGTACATGGTACTATATTCTTAATAGCAGGTTCAGTAGGGATTTGGCTGTTTTACGTACAGCACACATTTGAGGATTCTTATTTTGAAGAGGATAAAGATTGGGAATATGTGAAAGCGGCAGTGGAAGGAAGTTCTTTTTATAAGCTTCCCAAAATTTTGCAATTTCTAACGGGTAATATTGGATTCCATCATGTTCACCATTTAAGCCCAAGAGTACCTAACTATAAACTAGAAGAGGCACACAATAATACGCTTCCTTTAAAAAATGTACCAACGATTACGCTTGCTACAAGCTTACAATCACTGCGTTTCCGTCTTTGGGATGAGAAAAGTAACAATTTTGTTAGCTTTAAAGATGTCAAAAATATAATTAAAAATAATGTTTCTGTTCGGGTGAAATCTGAACTATAA	MTLENTKNLKKQVAPFEKSTIKKSVWQLINTIVPFIILWYLAYKSLSVSYWLTLVPALLAAGFMTRIFIIFHDCTHYSFFKSRRANRIVGTCMGVLTLFPFDQWGHEHSIHHATSGNLDKRGTGDIWTLTVDEYVAAPFRLRLAYRLYRNPFVMFGLGPIYVFLLKNRFNRKGARKKERMNTYLTNILIVAVVAILCWAIGWQSFLLVHGTIFLIAGSVGIWLFYVQHTFEDSYFEEDKDWEYVKAAVEGSSFYKLPKILQFLTGNIGFHHVHHLSPRVPNYKLEEAHNNTLPLKNVPTITLATSLQSLRFRLWDEKSNNFVSFKDVKNIIKNNVSVRVKSEL	PGPT0008400_680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DESATURASE_ACTIVITY,PGPT0008400-desA-K10255	NA	NA
AK009_01558	2388	ina_2		Immune inhibitor A	TTGAAAAAGAAAAAGAAATTAAAACCATTAGCGGTATTAACAACAGCAGCAGTACTAAGTAGTACGTTTGCTTTTGGAGGTCACGCAGCTTATGCTGAGACACCAACATCATCTCTACCAATAGATGAGCACTTAATACCGGAGGAGCGTTTGGCAGAAGCGCTGAAACAACGGGGGGTAATTGATCAATCTGCATCACAAGCTGAGACGTCAAAGGCTGTCGAAAAATATGTTGAGAAAAAGAAAGGGGAAAACCCTGGGAAAGAAATCTTAACAGGAGATAGTCTTACACAAGAAGCTTCTGATTTTATGAAAAAAGTAAAAGATACAAAAATGAAGGAAAATGAACAGGCACAGCAGCCTGAAGTAGGCCCAGTAGCTGGACAAGGTGCAGCATTGAATCCAGGGAAATTAAATGGAAAAGTACCTACTACATCAGCGAAGCAAGAAGAATACAATGGAGCTGTTCGAAAAGATAAAGTACTTGTTTTACTTGTAGAATTTAGCGATTTTAAGCATAACAATATTGATCAAGAGCCAGGATACATGTATTCTAAGGACTTTAATCGTGAACATTATCAAAAAATGTTATTTGGTGATGAACCATTCACTTTATTTGATGGATCGAAGATTAACACATTTAAGCAATATTATGAAGAACAATCTGGTGGTAGCTATACAGTTGATGGGACTGTAACAGAGTGGCTTACTGTTCCAGGAAAAGCATCAGATTATGGTGCTGATGCGGGTACTGGGCATGATAACAAGGGGCCTTTAGGACCAAAAGATTTTGTGAAAGAAGCATTAAAAGCAGCGGTAGCAAAAGGAATCAATTTAGCAGACTATGACCAATTTGATCAATACGATCAAGATGGTGATGGAAATAAAAATGAGCCAGATGGCATTATTGATCATTTAATGGTTGTACATGCTGGCGTTGGTCAAGAAGCTGGCGGCGGTAAATTGAAAGATGATGCGATTTGGTCACATCGTTCAAAACTAGGTTCAAAACCATATGCAATTGATGGCACGAAATCTTCTGTTTCGAACTGGGGCGGAAAGATGGCTGCATATGATTATACAATCGAGCCTGAAGACGGAGCAGTTGGTGTGTTTGCACATGAGTATGGCCATGATTTAGGCTTACCAGATGAATATGATACAAAGTACTCAGGACAAGGTGAACCTGTTGAGTCATGGTCTATTATGAGTGGTGGTAGCTGGGCTGGAAAAATTGCAGGAACAGAGCCAACGAGTTTCTCACCACAAAATAAAGAGTTTTTCCAAAAGAATATGAAGGGGAACTGGGCGAATATTCTTGAAGTAGATTATGACAAACTTAGCAAAGGAATCGGTGTTGCAACATATGTAGATCAAAGTACTACAAAATCTAAACGACCTGGAATTGTTCGTGTTAACTTGCCGGACAAAGATATAAAAAATATCGAATCGGCGTTTGGTAAGAAGTTCTATTACAGTACAAAAGGAAATGACATTCATACAACACTTGAGACACCAGTATTTGACTTAACAAATGCAAAGGATGCTAAGTTCGATTATAAGGCATTTTACGAACTTGAAGCGAAGTATGATTTCCTTGACGTATATGCGATTGCAGAAGATGGAACGAAGACACGCATTGATAGAATGGGCGAAAAAGATGTAAAAGGCGGCGCGGATACAACTGATGGTAAATGGGTTGATAAATCATACGATTTAAGCCAATTCAAAGGGAAAAAAGTAAAACTGCAATTTGAGTACTTAACAGATATTGCAGTAGCTTATAAAGGATTTGCGTTAGATAATGCAGCCTTAACTGTAGATGGAAAAGTTGTTTTCTCTGATGATGCAGAAGGTCAGCCAGCAATGACGTTAAAAGGCTTTACTGTGTCTAACGGATTTGAACAGAAAAAACATAATTACTATGTAGAGTGGAGAAATTACGCTGGTTCTGACACTGCGTTACAACATGCACGTGGCCCAGTATTTAATACAGGAATGGTTGTATGGTATGCGGATCAAAGCTTTACAGATAACTGGGTAGGCGTTCATCCAGGTGAAGGGTTCTTAGGAGTAGTAGATTCTCATCCAGAGGCAATTGTAGGGACATTAAACGGACAACCTACTGTGAAGAGCAGTACGCGTTATCAAATTGCCGATGCGGCATTCTCATTTGATCAAACACCAGCATGGAAAGTAAATTCACCAACACGCGGTATCTTTGATTATAAAGGATTACCAGGAGTGGCAAAATTTGATGATTCTAAGCAATACATCAACAGCGTTATTCCTGATGCAGGACGTAAGTTACCGAAGCTAGGACTGAAGTTTGAAGTAGTAGGCCAAGCTGAAGACAAGTCTGCAGGTGCAGTTTGGCTTCATCGATAA	MKKKKKLKPLAVLTTAAVLSSTFAFGGHAAYAETPTSSLPIDEHLIPEERLAEALKQRGVIDQSASQAETSKAVEKYVEKKKGENPGKEILTGDSLTQEASDFMKKVKDTKMKENEQAQQPEVGPVAGQGAALNPGKLNGKVPTTSAKQEEYNGAVRKDKVLVLLVEFSDFKHNNIDQEPGYMYSKDFNREHYQKMLFGDEPFTLFDGSKINTFKQYYEEQSGGSYTVDGTVTEWLTVPGKASDYGADAGTGHDNKGPLGPKDFVKEALKAAVAKGINLADYDQFDQYDQDGDGNKNEPDGIIDHLMVVHAGVGQEAGGGKLKDDAIWSHRSKLGSKPYAIDGTKSSVSNWGGKMAAYDYTIEPEDGAVGVFAHEYGHDLGLPDEYDTKYSGQGEPVESWSIMSGGSWAGKIAGTEPTSFSPQNKEFFQKNMKGNWANILEVDYDKLSKGIGVATYVDQSTTKSKRPGIVRVNLPDKDIKNIESAFGKKFYYSTKGNDIHTTLETPVFDLTNAKDAKFDYKAFYELEAKYDFLDVYAIAEDGTKTRIDRMGEKDVKGGADTTDGKWVDKSYDLSQFKGKKVKLQFEYLTDIAVAYKGFALDNAALTVDGKVVFSDDAEGQPAMTLKGFTVSNGFEQKKHNYYVEWRNYAGSDTALQHARGPVFNTGMVVWYADQSFTDNWVGVHPGEGFLGVVDSHPEAIVGTLNGQPTVKSSTRYQIADAAFSFDQTPAWKVNSPTRGIFDYKGLPGVAKFDDSKQYINSVIPDAGRKLPKLGLKFEVVGQAEDKSAGAVWLHR				NA	NA	NA	NA	NA
AK009_01559	831			hypothetical protein	ATGAATATAGTGCACTTACGTCCTAAACAGCGTTCTAAGTATCGAATTATGCTAGGGACGTGGTATTACTCTACAAAGAGGTATATTCAGTGGTTATCAGACGGAAAAACATATGCAAAAAGGTTCCAACAAGAAAAGCTACCTTGTACAGCAATTCAGCACCGAACGATATTACTCCGTAAGCTCAAAGATGTAGATATGTGGTATCAACAGAATAAGGTTGTTAATTTGAAAATTGCTGTTAAAAAACTAAATGGTATCGTCATTAGACCAGGAGAAACATTTTCTTACTGGCGTTTAATAGGTAAGCCTACGAGGAAAAAAGGGTATGTAGAAGGTATGGTATTACATTACGGATCTTTTCAAACAGGTATTGGAGGAGGTCTTTGTCAGCTTTCGAATTTAATATATTGGATGACTTTACATACACCACTGACAGTAACAGAACGATATCGTCATAGCTTTGATGTCTTTCCTGATTCTAGGCGAACTCAACCGTTTGGGAGTGGAGCAACTTGTTCCTATAACTATTTGGATTTACAAATTAAAAATGAAACGGACCAACCGTATCAACTTCATCTTTATATGACAGATGAATATTTAGTTGGTGAATGGAGAACAGTCTATCCGCAACTTTATCAATATGAAGTGTATGAGAAAGAACATTCAATTCAACCTGCATACTGGGGCGGTTATATACGACATAATGTGATTCAACGTAAAGTATATAATCAACAGAAACAGTTAATAGAAGATCAATATGTAACAGAGAATCACGCTATAATGATGTACGAACCACTATTAGCTTGTAATAATGAGAATAGTGAGTAA	MNIVHLRPKQRSKYRIMLGTWYYSTKRYIQWLSDGKTYAKRFQQEKLPCTAIQHRTILLRKLKDVDMWYQQNKVVNLKIAVKKLNGIVIRPGETFSYWRLIGKPTRKKGYVEGMVLHYGSFQTGIGGGLCQLSNLIYWMTLHTPLTVTERYRHSFDVFPDSRRTQPFGSGATCSYNYLDLQIKNETDQPYQLHLYMTDEYLVGEWRTVYPQLYQYEVYEKEHSIQPAYWGGYIRHNVIQRKVYNQQKQLIEDQYVTENHAIMMYEPLLACNNENSE	PGPT0028445_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028445-vanW-K18346	NA	NA
AK009_01560	1674	phoB_1	COG1785	Alkaline phosphatase 3	ATGTTGAATTATGGTGTGAAGATAAAAAAGTTGCTATTAGTGGCAGCTATAATAGTAAGCGTATTAAGTACGGAAAGTATGATGAATTATCATGCGGCCAAAGCTAAGGTGAAAAAAGTAGAACATCAGCCTAAAAATATAATTATGATGGTTATGGACGGGACTAGTTCAACGGCGACAACATTGGCTCGCTGGTATAAAGGGGCACCGCTTACGTTAGATCAAATTGTAACAGGAGGTGTTCGTACGTTTTCGGCGGAATCAGCTATTACAGACTCAGCGCCAGCAGCAACAGCATTAGCAACTGGAAATAAATCGAATTCAGGATATGTAGGTGTACTACCTTCTATTGTAAATTCACCTAGCTTAAAGCCAATAAAAGAAGAGGACAAGTTACGGCCGGTCGCAAACGTATTAGAAGGTGCAAAACGTACTGGTCGTGCAACGGGAATTGTTGCTACATCTGAAATTCAGCATGCTACTCCGGCGGGATTCTCAGCTCACCATGTCAATCGCAAGCAATTTAACGTAATTGCGAAGCAGCAAGTATATCAAAATATAGATGTCGTATTAGGCGGGGGAAAAGCGGCGCTTCTACCTATAAAAAGTAATGGAATCCGAAAAGATGGTGAAAATTTAGTAAAGGTGATTCAAGACAAAGGGTACGATTTTGTTGAAACGAAAGATGCGTTATTGAACTCCAAATCTAATAAAATTTGGGGCTCTTTCTCACATCATGCTCTTGCGTTTGATATGGATCGTATAGCAACAAATCCAGAACAACCGACACTTTCTCAAATGACAGAAAAAGCAATTCAAACATTATCAAAAGATAAAGATGGCTTTTTTTTATTCGTAGAAGGTAGTAAGCCAGATTGGGCAGCTCATGCTAATGATCCGATTGGGATTATTAGCGATGTATTGGCATTTGATGAAGCGGTAGCAAAGGCGTTACAATTTGCGAAGAAAGATGGGGATACGATGCTTATCGCTTTAACTGATCATGGTAACAGCGGCATCTCTATAGGGAATAGGAATACGACAAAAGGATACAATACTACACCGGTTTCTGCATACATTGATCCATTGAAAAAGGCGAAAATGACACTTGAAGGAACTATAAATAAACTGAAATCTGATTTATCAAATGTAGAAGATGTAGCTAAACTATACGGTTTGGATAATCTAACTCATGATGAAAAAGAAAAATTAAAAGCGGAAAAAAAGAAAATGGATGTAGGACGAATCCTTACTACATTATTGGCTAATCGTGCAAATATCGGCTTTACGACAGGAGGACATACAGGTGAGGATGTATTCTTATATTCTTATGGACCTCAAAAACCAGAAGGCTTAATCCAGAATACAGACATTGCGAAGACGATGGCCAAAGCGATGGGCTTTAACTTAGAAGAAGTAACGAATAAAATATTTTTAGAGAGTGAGCAAGCCTTTAAGAAAATCGGTGCAACTGTAACAGCCGACAAAACCGAAGGAGTAAACCCGTTACTTGTGGTAAAACATAATAAAGTAGAAGCACAACTATTTGGTAACAAAAATATAATTCGTATCAATGGTAAAGGGTATGAATTAGGAAGTATTATTGTAGAGAGTAATGGAAAGTGCTATGTACCACAAGAAGCAATTCAACTATTTGTAAAGCATTCTCGTTAA	MLNYGVKIKKLLLVAAIIVSVLSTESMMNYHAAKAKVKKVEHQPKNIIMMVMDGTSSTATTLARWYKGAPLTLDQIVTGGVRTFSAESAITDSAPAATALATGNKSNSGYVGVLPSIVNSPSLKPIKEEDKLRPVANVLEGAKRTGRATGIVATSEIQHATPAGFSAHHVNRKQFNVIAKQQVYQNIDVVLGGGKAALLPIKSNGIRKDGENLVKVIQDKGYDFVETKDALLNSKSNKIWGSFSHHALAFDMDRIATNPEQPTLSQMTEKAIQTLSKDKDGFFLFVEGSKPDWAAHANDPIGIISDVLAFDEAVAKALQFAKKDGDTMLIALTDHGNSGISIGNRNTTKGYNTTPVSAYIDPLKKAKMTLEGTINKLKSDLSNVEDVAKLYGLDNLTHDEKEKLKAEKKKMDVGRILTTLLANRANIGFTTGGHTGEDVFLYSYGPQKPEGLIQNTDIAKTMAKAMGFNLEEVTNKIFLESEQAFKKIGATVTADKTEGVNPLLVVKHNKVEAQLFGNKNIIRINGKGYELGSIIVESNGKCYVPQEAIQLFVKHSR	PGPT0002570_762	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
AK009_01561	483			hypothetical protein	ATGAAACAAGGATCCACACTCTTTTTAAAGACCGTTGTGATTCTGATCGGAATCCCTGTTCTTGCTATGTGCATTTTTTTAGTCCCTAAAATAGGAAATTTCGCCGCAGAATTATATCCAGATATTGCATATATTAAATATCTTGTATTTATCAACTTATACGCAACAGCACTACCTTATTACTTCGCACTGTACCAAACATTTAAGCTTTTAAACTATATTGATAAAAACAACGCATTTTCAGAGTTATCTGTTAAAGCTTTAAAAAATATTAAGTACAGCGCATTGGCAATTAGTGTATTATATGTATTAGGTATGCCACTTTTCTATCTTGTGGCAGAGAGAGATGACGCCCCTGGCATTATTATTATCGGAATGATTATGATTTTTGCTTCAATGGTAATCGCGGTCTTTGCTGCCGTTCTCCAAAGACTATTAAAAGATGCTATAGATATAAAATCAGAAAATGATTTAACGGTCTGA	MKQGSTLFLKTVVILIGIPVLAMCIFLVPKIGNFAAELYPDIAYIKYLVFINLYATALPYYFALYQTFKLLNYIDKNNAFSELSVKALKNIKYSALAISVLYVLGMPLFYLVAERDDAPGIIIIGMIMIFASMVIAVFAAVLQRLLKDAIDIKSENDLTV				NA	NA	NA	NA	NA
AK009_01562	216			hypothetical protein	ATGGCAATTATCATTAATATTGATGTAATGTTAGCGAAAAGAAAAATGAGTGTAACAGAGCTTTCGGAGAAGGTTGGAATTACAATGGCTAACCTTTCTATTTTGAAAAACGGAAAAGCAAAAGCAGTTCGGTTTTCAACTTTAGAAGCAATATGTAAAGCATTAGAATGCCAACCGGGTGATATTTTAGAATATCAACCTGAAGAAACCGAATAA	MAIIINIDVMLAKRKMSVTELSEKVGITMANLSILKNGKAKAVRFSTLEAICKALECQPGDILEYQPEETE	PGPT0014940_1382	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK009_01563	312			hypothetical protein	ATGAAAACAGAAATAGTTCCTAAAAAGAAGTACAGTATAATAAGCTATATATCTTTACTCATCGGTATTTTGTGTTTTCTATTCGTGTTTATAACGCCAACAAGGATAGCGAATGCAGGTAATATAGTTGGAGATTATATTACAATTGCCCTGACAGGTGTAGGTATCATGCTTTCAATAATCACAATGACGAAAAGAACAGAGAAGAAGGGAATTGCTATTCTTTCATTAATACTGTCCTCATCATTTTTTATATTTTGGATCATAGCAATTATCCTATTGTTTACTGGTCAAATTAGTTTTGCGCCGTAA	MKTEIVPKKKYSIISYISLLIGILCFLFVFITPTRIANAGNIVGDYITIALTGVGIMLSIITMTKRTEKKGIAILSLILSSSFFIFWIIAIILLFTGQISFAP				NA	NA	NA	NA	NA
AK009_01564	579	gph_2		Phosphoglycolate phosphatase	ATGAATATTTTATGGGATTTTGATGGGACGTTATTTGATACGTATCCTGCATATACAATGATGCTTTCTGAAATATTAGGTGATTCAGTAGAAAAACAAGAAATATACAAAAACTTAAAAATATCATACTCTTATGCAATTCAATATTATAATATTTCATGCGAGCAGGAAGAAAAAATTAAAGTTTTGAAGGGGAAATTTACTCCAAAAGATATGGAACCTTTTGCGGGTGTCGAAGAGGTTTTGAAATTTGCAAATAAAAATGTGATTATGACCCATAAACATAGGAAAGGGGTTATGGCCATTTTAAAATATTACGGCTGGGAAAAATACTTCGTAGATATGGTTACAATTGACGATGGCTTTCCTCGAAAGCCGAACTCTTTGGCTTATAATCATCTGCATAAAAAATACAATATTGATTTAGCTATTGGAGATAGAGAATTAGATTTATTACCTGCAAAAGAATTAGGTATTTCAACATGTATGTTTCAAGGTAATTGTGATGTAGCGGATTATTCTTTATCACATTACTCGGAGTTTTTTAAGGTAGTGATAAATAGAGAGTTTTCTTTATAA	MNILWDFDGTLFDTYPAYTMMLSEILGDSVEKQEIYKNLKISYSYAIQYYNISCEQEEKIKVLKGKFTPKDMEPFAGVEEVLKFANKNVIMTHKHRKGVMAILKYYGWEKYFVDMVTIDDGFPRKPNSLAYNHLHKKYNIDLAIGDRELDLLPAKELGISTCMFQGNCDVADYSLSHYSEFFKVVINREFSL				NA	NA	NA	NA	NA
AK009_01565	582	udk_1		Uridine kinase	ATGAGTACAAACGAACTTATAAAGATTATGAAGAAGCATAGGGAAAATAGATTCATTTTAGGTATAGATGGTTTAAGTCGATCTGGAAAAACAACATTCGTAGCAAATTTAAAAGAAAATATGAAACAAGAAGGCATTCCGTTTCATATTTTTCATATTGATGATCACATAGTGGAGCGTAATAAACGCTATCATACAGGATATGAAGAATGGTATGAGTATTATTGTTTACAGTGGGATATTCCATACTTGAGGCAGAAGTTTTTTCAGAAGTTACAACATGAGACAAAACTGACTTTGCCTTTTTATCAAGAGGAAACAGACTCATGTGAAATGAAAAAAGTACAGATTCCTATTGTAGGCGTAATTGTTATTGAAGGAGTCTTTCTACAGCGAAAAGAATGGAGAGATTTCTTTCATTATATGGTCTATTTGGACTGTCCAAGAGAGACAAGGTTTCTACGTGAGAGTGAAAAAACGCAGAAAAACCTTTCAAAGTTTGAAAATAGGTATTGGAAAGCAGAGGATTATTACTTAGAAATGGAATTGCCGAAGGATAGGGCGGATTTAGTCATTGAATGA	MSTNELIKIMKKHRENRFILGIDGLSRSGKTTFVANLKENMKQEGIPFHIFHIDDHIVERNKRYHTGYEEWYEYYCLQWDIPYLRQKFFQKLQHETKLTLPFYQEETDSCEMKKVQIPIVGVIVIEGVFLQRKEWRDFFHYMVYLDCPRETRFLRESEKTQKNLSKFENRYWKAEDYYLEMELPKDRADLVIE	PGPT0021230_4195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK009_01566	543			IS1595 family transposase ISSpgl1	ATGGGATTTCCGAAACTAGAAACAGAACGTTTACGACTAAGAGAACTTACACTATTAGATGCGGAAACGATGTTCCGTTATTTTTCGAAAGAATCTGTTATACGTTATTTCGGAATGGATTCTTTCCAAAATATTGAGCAAGCGAAAACAACGATTCAAACGTTTAAAAATCGTTATGAAGAAGGAAGTGTATTTCGCTGGGGAATTGAGAAAAAAGGGACGGGCCAATTAATTGGGACGTGTGGATTTCATTTAATTAACAATCATCATAGACGAGCTGAAATTGGTTATGAATTAGATGATACATATTGGGGACAGGGGTATGCATCTGAAGCATTACAAGCAATTTTAGCTTACGGATTTGAAACATTGCAACTTATAAGAATCGCAGCGGTTGTATATGTAGAAAATAAAGCTTCACAACAATTGTTAATAAAAGCAGGATTTCAAGAAGAAGGATTACTTCGAAAACATATGATTCAAAATGGTGTCGCTCATGATACCATTCTATACTCGTTATTAAAAGAAGAGTGGAAGAAGTAA	MGFPKLETERLRLRELTLLDAETMFRYFSKESVIRYFGMDSFQNIEQAKTTIQTFKNRYEEGSVFRWGIEKKGTGQLIGTCGFHLINNHHRRAEIGYELDDTYWGQGYASEALQAILAYGFETLQLIRIAAVVYVENKASQQLLIKAGFQEEGLLRKHMIQNGVAHDTILYSLLKEEWKK				NA	NA	NA	NA	NA
AK009_01567	384			hypothetical protein	ATGGATTTGAAAATGAAGTACATCATTTTATATGTAGAAAAGTTTGAGGAATGTTTAAAATTCTATAAAGATATTTTACAGTTACCTATAAAAGCAGAGCACGGTACATATATTGAATTTAATACTGGAACTACCATTTTAGCGATGAATACGCGGCAAGATGTGAAAGAATTAACAGGACTACCGCTTACAGAAGGTGAATTACAGTCTTCTCATTTCGAATTAGGATTCGTTGTTGAGAATGTACAAGAAACGATTGAGCAATTTAGAGAACAAGGTATTAAGATTTTAGTTGAACCTATTGTAAAACCGTGGGGACAAACAATTTCCTACATTGCTGATCCAGATGGAAATTATATTGAAATTTGTAGTTCATTAGAATAG	MDLKMKYIILYVEKFEECLKFYKDILQLPIKAEHGTYIEFNTGTTILAMNTRQDVKELTGLPLTEGELQSSHFELGFVVENVQETIEQFREQGIKILVEPIVKPWGQTISYIADPDGNYIEICSSLE	PGPT0013300_4856	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
AK009_01568	156			hypothetical protein	ATGTCCAAACCAAATCTCCTGTTTTATGCCAATAAGCTAGGGGGCCGAGAAATCGGCCTCATTTTTTTTGCTCATTACTACAAAGAACAAGGTTTTTATGAGACTTTTGTCGAAATTTTAGGGGTAGATATAAAGGGGGATGTAAAATGGATTTGA	MSKPNLLFYANKLGGREIGLIFFAHYYKEQGFYETFVEILGVDIKGDVKWI				NA	NA	NA	NA	NA
AK009_01569	246			hypothetical protein	ATGGAACCAATGCTATGTCCAAGTTGTAAAACGAACCGTACTCGCTTTAATATTCTTGAGCAACAAGTAAAACCAGTCAAATTAAATCCACAAACTGGTCAAGTAGAAGAAGAATATACAAATGACACGATGAATGCTTTTCATATGGCCTATCAAGGACCTACTTATCGCGTCCAATGCGCTGTATGTGGGCTTGTTGAAAACCCAGAACAATTTATTAAACCTGCTCAAAATCAGTCTTTCTAA	MEPMLCPSCKTNRTRFNILEQQVKPVKLNPQTGQVEEEYTNDTMNAFHMAYQGPTYRVQCAVCGLVENPEQFIKPAQNQSF				NA	NA	NA	NA	NA
AK009_01570	528			hypothetical protein	ATGGAGACAAAGAAGATATTCAAACCTTTCGCAGTATGGAGCTTAGAAAAAGAAGAAGCGTATTTACGTAAAATGCATCAACAAGGCTGGGCGTTACAAAAGTATAACGTAATGTATAGGTTTAAGAAAACTGAGCCGAAAGATGTAGTATATAAAGCAGACTTTAGATTAGAGTATAAAGATTCGACAGAAAAACAAAAAGAATATATCGAAATATATGAAATGTGTGGTTGGAAACATGTAACGAGTTTTGCGAAGTGGAATTACTTTTGTAAAGAAGTAGAAGAGGAAAATGAGTTACCTGATATTTATTCAGACAAAGAAACGAAGATACAAAAACTTGTTGAATTGATACAGTTCGTTGCAATTATGTTTGTAATGTTAATTCCAGTGCTTTACTTATGTTTTCTTGGAGTATCAGAATCAGGATTATATAAAGGTATGGTAGGGTTTTTAGTTTGTATATATTTATATGCGTTTATTAATTTATTTAGGAAGATTAAAAAGTTAAAAAAGGAAATATTTTAA	METKKIFKPFAVWSLEKEEAYLRKMHQQGWALQKYNVMYRFKKTEPKDVVYKADFRLEYKDSTEKQKEYIEIYEMCGWKHVTSFAKWNYFCKEVEEENELPDIYSDKETKIQKLVELIQFVAIMFVMLIPVLYLCFLGVSESGLYKGMVGFLVCIYLYAFINLFRKIKKLKKEIF				NA	NA	NA	NA	NA
AK009_01571	318			hypothetical protein	ATGAATGCGAAGGCGCAAAAATATATTCCGTTAACTGAGGCGACATATTACATACTGTTATCACTAGTGAAACCAATGCACGGATATGGAATTATGCAAATGGTAGAAGAGATGACAAATGGGGAAGTAAAGCTTGGTCCTGGTACTTTATACGGGAATACGACGAAGTTACTAAAAGAGAAGTTAATTGTTGAAGTTGCCTCTACAGATAGAAAGAAGTGCTATGAGTTAACGCCGTTTGGGAGAGAAGTGCTGGAACTGGAGTACAACAGATTACAGCGGTCTGTAAAGAATGGAAACAGTATATTAGGGGAGTGA	MNAKAQKYIPLTEATYYILLSLVKPMHGYGIMQMVEEMTNGEVKLGPGTLYGNTTKLLKEKLIVEVASTDRKKCYELTPFGREVLELEYNRLQRSVKNGNSILGE				NA	NA	NA	NA	NA
AK009_01572	930	ravA		ATPase RavA	ATGATACATAAATTGAAAGAAAACATCGGATCTGTGTTTGTTGGGAAAGAAAATGTTATTGATCTACTGCTCGTTTCACTTCTTGCTGATGGGCATGCACTACTCGAAGACGTGCCTGGTACTGGGAAAACGTTACTGGCGAAAACCATTTCCAAAAGTATTGGTGGTAGTTTTTCTCGCGTTCAATTCACCCCTGATGTACTTCCAAGTGATGTAACAGGTATTGAATACTTCAACCCAAAAACAAGCGAATTCGAATTAAGAATTGGACCGGTTATGACAAACATTTTGCTAGCAGATGAAATTAACCGTGCAATGCCGAGAACGCAGTCGAGTTTGTTAGAAGCGATGGAAGAACGACAAGTGACGCTCGAAAAAAAATCTACGCCTCTGCCGAAACCGTTCTTTGTTATTGCGACGCAAAACCCAATCGAATCACAAGGGACTTTCCCTCTTCCAGATGCACAGCTTGATCGCTTTTTAATGACGATTTCAATTGGTTATCCAACTCCTAAAGATGAGTTACAAATGATGCGACGTTTTCGGAACGATTTACCATTAGAAAGTGTCACATCTGTCATCTCATTAGAAGATATTTTAGAAGCTCAAAAACGAGTAAAAGAAATATTTGTTTCGGAACCGTTAGAACATTACATTATTAAACTTGCTCATGCTACAAGAAATCATGATTATATCGCTAACGGTGTAAGCCCACGTGCCACATTAGCTTTAGTACGTGCTGTTCAAGCTTTAGCCTTTTTACATGGGAGAGAATATTGCACACCAGAAGATATACAATTGTTAGTTCCTTCTGTTTGGAATCACCGTATCGTCTTATCAATGGAAGGTGCATTACGTACGACAAAAAATGATATTATGCAAAGTATTTTAAAAGAAGTTGATGTACCCGTGGAGATTGAGCAAGCATGA	MIHKLKENIGSVFVGKENVIDLLLVSLLADGHALLEDVPGTGKTLLAKTISKSIGGSFSRVQFTPDVLPSDVTGIEYFNPKTSEFELRIGPVMTNILLADEINRAMPRTQSSLLEAMEERQVTLEKKSTPLPKPFFVIATQNPIESQGTFPLPDAQLDRFLMTISIGYPTPKDELQMMRRFRNDLPLESVTSVISLEDILEAQKRVKEIFVSEPLEHYIIKLAHATRNHDYIANGVSPRATLALVRAVQALAFLHGREYCTPEDIQLLVPSVWNHRIVLSMEGALRTTKNDIMQSILKEVDVPVEIEQA				NA	NA	NA	NA	NA
AK009_01573	1167			hypothetical protein	ATGAATGGACAGCGCGTTGTAACTGTACCTTTATTTTTTCAACTTCATATTATTCAACTAACCGTTCCAATCGCGTTACTTTTCACATTCTTTTTCCCGCAACGAATGCTTATGTTTCTCTTTTTCTTCTATTATATATTTGCGATTTTTATTTATAAATATGTCGCTTTCATAGAGAAGAAGTTTCAAATCATAAATGAGAAACAAACTACACGGCTTTTTCCTGAGGAATCTGGACAGTTTTTTATTCATTTAAAAAATGGAGCCAGCATACCGCTCGTTAATGGTGTTTGTTACTTTCATTTAAATTCGTCCCTTATACCGCATAAAGAGCAAGGCATTGAACAAATATCAAAAACGTTATTCTCTTTCCCATTTTCACAACCTGCACATTCGGCACAAAAATGGGATTTAACATTAACCGCTACGAAGCGTGGGGTGTTTCAAATTGAACAGTTTGAATGTGTATTAAAAGATCCATTTCATCTATTAACTGTACATTTACCTGTTTTTGATAAATTAAGGACTGAAATTATTGTGTATCCTTCTCCTAAAGAAGTAGCAGGTTTGCAAGAACTTCAGCAACTTTTAATCGGATCCTATCAAACGAATTTTTCTTTTTACAATGACGAAACATCTATTATAGGTGTAAAACGCTATGAACGTGAATCATTCCGTTCTATTCATTGGAAGGCATCTGCTAAAATGCAGGAATTACAAGCGAAGCAATATGAACCTGTAAAAAATTATAGTTGGACGATTTGTCTTTCTTTAGCTGCCGATCGTGGATTTGGTTGGAAAGATAATGTTGAAGATTTAATTTCATTCGCAACATACATTTGCCAATATGCAACGAAGCATCAAATACCGTTTGAATTATTTATTAGTGTATTAGCAGAAGGTGGTGCATTACATTTATCGTTACATGAAGGGCAAACGCAATATGCAAAAGCTTTAGAAGAATTAGCCCGTATTTCAGATGATAGTACGTTACTTCCGAAACAAGGATTCCTTCATTATGTAACGAGAAAGAGAGAACGATCGTCTACAATGATATACATTGGTTTACAAAGAAATGAACTCCCTCTTCTCTCGCAGCCAACGTTTCTCATTACTAGTGAAGGGATGGTGGAATCGGTTGAAAACTTGGCTATATCACATTCATGA	MNGQRVVTVPLFFQLHIIQLTVPIALLFTFFFPQRMLMFLFFFYYIFAIFIYKYVAFIEKKFQIINEKQTTRLFPEESGQFFIHLKNGASIPLVNGVCYFHLNSSLIPHKEQGIEQISKTLFSFPFSQPAHSAQKWDLTLTATKRGVFQIEQFECVLKDPFHLLTVHLPVFDKLRTEIIVYPSPKEVAGLQELQQLLIGSYQTNFSFYNDETSIIGVKRYERESFRSIHWKASAKMQELQAKQYEPVKNYSWTICLSLAADRGFGWKDNVEDLISFATYICQYATKHQIPFELFISVLAEGGALHLSLHEGQTQYAKALEELARISDDSTLLPKQGFLHYVTRKRERSSTMIYIGLQRNELPLLSQPTFLITSEGMVESVENLAISHS				NA	NA	NA	NA	NA
AK009_01574	1110			hypothetical protein	TTGAAAACTTGGCTATATCACATTCATGATTTCATTCTGCTCCTCCTGCTTTCATTATTAACAGAAAGAGATGAACTAATTAGTATTGCAATATTTTTAACAACAGGCTATATTGGAGTATTTCTTATTCATAAATTTATGCAGAAAAAAACAACAGGATTTGTAATACTTTTAGTTCTTCAAATCGTTCTTTTCTCTTTATTTTTACCTTTTTCTCTTTTTGGCACAATCATATTACCACTATTTTTCTTTATCGTACATGTGGTCGGACCTGGATATCCAGTTCAAAAATCTTTAGGTGGTATTGTATGGTTTGTCGTTTCAGTTATATTTTATGCACCCTTTCCACCGTTTTGGAAACTATTAATGTTAGCCTTGCATCTTATGATTACATTTTGGTTAACCGGGGCAAATCGCAAACAACAACTATTACGTTTTGCTTCTATCATTACGATTGGCTTAATGAGTATATTAATTGTTCAAATATTTCCTTTCATTCGACTTATTTTTGGTTTTATAACGGAAGTAGTCGCATTAGGCGTCGGCTATGCTTTAATGCCATTAATTAAAGCAGCGGAATTAAAAGATACTGAAGATGTTTGGGCAAATAAAGGACATCTCTTAAAACCAAAAATTGAAGACGGAAAAAAAATTCCTGATTTTGATCCAATACTCATAAATAGCGCTACAATAATAGTCTGTACAGCTATCGCTATTTACGTCGTTTGGAAAATAGTAAAAAAACGAAAACATTTAAGTTTACCAAATATGCACGTCTTCGAATCTACTATCATTACTGATAAAGAAGGAATGAGCCAAAATCGTTTTAAACGAAATAAACCGCCACATAACGAAATTCGGAAGGAAATTTTCAAGCTAGAGAGTAAGTTAACCCCTCCTTTAAATAGAAAACGGGGAGAAACTGTTGAGGCTTGGCTAGAAAGAATACATGATGAAGAAGATGTAAATATTCAAAGTGATATTATTATAGATGCTTATAATACGGTGCGTTATTCAAATGGTAAAAGCATTGTACTTCTGCATGAATTTAAGGAAGAGATTCATAAGCTTTATGCATATCAAAAACATTTGAAGAAAAGAAAGAAATAA	MKTWLYHIHDFILLLLLSLLTERDELISIAIFLTTGYIGVFLIHKFMQKKTTGFVILLVLQIVLFSLFLPFSLFGTIILPLFFFIVHVVGPGYPVQKSLGGIVWFVVSVIFYAPFPPFWKLLMLALHLMITFWLTGANRKQQLLRFASIITIGLMSILIVQIFPFIRLIFGFITEVVALGVGYALMPLIKAAELKDTEDVWANKGHLLKPKIEDGKKIPDFDPILINSATIIVCTAIAIYVVWKIVKKRKHLSLPNMHVFESTIITDKEGMSQNRFKRNKPPHNEIRKEIFKLESKLTPPLNRKRGETVEAWLERIHDEEDVNIQSDIIIDAYNTVRYSNGKSIVLLHEFKEEIHKLYAYQKHLKKRKK				NA	NA	NA	NA	NA
AK009_01575	849			hypothetical protein	ATGAACACAAAACTAATAATAGTAGAAGGTTTACCTGGATTTGGAAAATCAACCACTGCAAAGCTAATAAATGAAATTCTAAGCCAAAATAAAATTGAAGTTGAACTATTTTTAGAGGGAAATTTGAACCATCCAGCCGACTATGATGGTGTATCTTGTTTTAATAAATTTGAATTTGATAGATTATTATCTAACAGTGGAGATTTTAAAGAAGTGCTTCTTAAAAGAGTTCTAAAAAAAGGAAGCAATTATTTATTACCATACAGAAAGATAAAAAATGAGTTTGGTGATCAGTTTTCGGACGAATTATTTAACGATATTTCAAAAAACGATATATATGAATTGTCATTCGATAAAAATGTTGAATTAATTGCTGACAAATGGAATAACTTTACTGAAAGTGCTCTAGAAGACAATAAGGTTTATATCTTTGAATGTTGTTTCATACAAAACTCATTAACTATTGGGATGATTAAATATGGTGAACAAAAAGAAAAAATAATAAATTATGTAATGAAAGTTGCAAAAATTATAGAGAATTTAAATCCAATGTTATTGTATGTAGAACAAGATAATCTTGAATTTTCATTTAGGAAGGCACTAAAAGAAAGAACTCCAGAATGGTCCACAGGAATCGTCGACTATTACACTAACCAAGGCTATGGGAAAGAACATAACCATTCAGGTGTAGAAGGAGCGATAAAAGTTCTTGAAGCTAGAAGGAATTTAGAATTAGAAATATTCGATATGTTAAAAATGAAAAAAGAAAAAATCAATAATACAAAATATGAAATTGACTCATATAGCTCAATGTTAAAAGATAAGTTAACAATACAAATGGTGAAATAG	MNTKLIIVEGLPGFGKSTTAKLINEILSQNKIEVELFLEGNLNHPADYDGVSCFNKFEFDRLLSNSGDFKEVLLKRVLKKGSNYLLPYRKIKNEFGDQFSDELFNDISKNDIYELSFDKNVELIADKWNNFTESALEDNKVYIFECCFIQNSLTIGMIKYGEQKEKIINYVMKVAKIIENLNPMLLYVEQDNLEFSFRKALKERTPEWSTGIVDYYTNQGYGKEHNHSGVEGAIKVLEARRNLELEIFDMLKMKKEKINNTKYEIDSYSSMLKDKLTIQMVK				NA	NA	NA	NA	NA
AK009_01576	1458	proP		Proline/betaine transporter	ATGCAACAAAATAATGATTTAAATTTTGAACCTCAAGACGTTAATATTGTCAATCCTAAACAAGCCAGGAAAGCAGTAATTGCTACTGGTATAGGAAACGCAATGGAGTGGTTTGACTTCGGATTATACGCGTATTTAGCGGTTATTTTAAGTCAATTATTCTTCTCAGGTGTTGATAATAGTGGATTGCAGCTTGTACTTACATTCGGTACATTTGCAGCAGCCTTTCTCGTTCGACCAATCGGAGGTGTATTCTTTGGTAGAATAGGAGATAAGTACGGCCGAAAAATCGTGTTAAGTACTACTATTATTTTAATGGCACTTTCTACATTATTCATCGCATTACTACCAACCTATGAACAAATTGGTGTATGGGCACCAATACTACTTTTAGTTGCCCGAATGATTCAAGGCTTCTCTACAGGCGGCGAATATTCAGGTGCAATGGTTTATATCGCAGAATCTTCTCCAGATAAAAAGCGTGGTATACTCGGTAGTGGTCTTGAAATTGGAACACTCTCAGGTTACATTGCTGCATCGGTAATTGTTACCATTTTGACGTTATTGTTAACAGATGAGCAAATGCTCAGCTGGGGATGGCGTATTCCGTTCTTAGTAGCTGCACCAATTGGTTTGGTCGGTTTATACTTACGCCGTCATCTAGATGAATCTCCAATCTTTGAAGAGATGGAAAAAGCACAAGAGGAATCTGAAGACAATGAACAATTTTCATTTATGGATATTATTAAATATCACAAAAAAGACTTCTTATTAAGCACAGTAATTGTCGCCTTCTTTAATATTACAAATTATATGATTCTTTCGTATATTCCTTCTTATCTAACTCAAGTACTTAAAGTCGAAGAAACAACAGGCTTATTAATTATTTCTATTACGATGGCACTTATGATTCCACTAGCACTATATTTCGGTAAGTTAAGTGATAAAATTGGTAATAAACGCGTTGTGCAAATTGGTTTACTTGGTTTAACTGTATTTGCAATTCCAGCATTTTTACTAATAGGTAACGGACATATTGCAGCTATATTTGCAGGTATTTTCGTACTAGGTTTCTTCTTAAGTGTATATGAAGGAACATTACCTTCATTATTACCATCACTCTTTTTCACCGATGTACGTTATCGAGCACTTTCCATCTCATTTAATATTTCTGTATCGATATTCGGTGGAACAACACCGCTCGTATGTTCATACTTAGTTCATGCAACTGGTAACCCGCTCGCACCGGCATTTTATTTAGCAGGTGTAAGTATTATTGGATTAGTTGTATTTAGTGTACTATTTGTTACGACTTCAGGGCGTGCGCTAAAAGGTTCATATCCTACAGTAGAAACGAAAAAAGAAGCACACCTAATCGCTAAAGAAGACCCTGAAGAAACACTTTGGTGGCATGAAGAGTCATTAGAAATTGAAGCAGGGAAGAATGCTTCCATTTAA	MQQNNDLNFEPQDVNIVNPKQARKAVIATGIGNAMEWFDFGLYAYLAVILSQLFFSGVDNSGLQLVLTFGTFAAAFLVRPIGGVFFGRIGDKYGRKIVLSTTIILMALSTLFIALLPTYEQIGVWAPILLLVARMIQGFSTGGEYSGAMVYIAESSPDKKRGILGSGLEIGTLSGYIAASVIVTILTLLLTDEQMLSWGWRIPFLVAAPIGLVGLYLRRHLDESPIFEEMEKAQEESEDNEQFSFMDIIKYHKKDFLLSTVIVAFFNITNYMILSYIPSYLTQVLKVEETTGLLIISITMALMIPLALYFGKLSDKIGNKRVVQIGLLGLTVFAIPAFLLIGNGHIAAIFAGIFVLGFFLSVYEGTLPSLLPSLFFTDVRYRALSISFNISVSIFGGTTPLVCSYLVHATGNPLAPAFYLAGVSIIGLVVFSVLFVTTSGRALKGSYPTVETKKEAHLIAKEDPEETLWWHEESLEIEAGKNASI	PGPT0013645_728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
AK009_01577	1218	argD_1	COG4992	Acetylornithine aminotransferase	ATGTCGGATTGGTTTCAATTAGATAAAGAATATATGATGTCTACATATTGTCGTACAGAGGTTGCAATGGAAAGGGGAGAAGGGTGTAAACTGTATGATGTAGATGGTAAAGAGTATTTAGATTTATTTTCTGGCGTAGGAGTAAATGTATTAGGATATAATCATCCTAAAATTGTACAAACGACAATGGAGCAAGTTGCGAAATCGTTGCATTTACCGTTTCATTTTTTAAACCCAGTTGCAATTGAGTATGCAAAGAAATTAGTAGGTTGTACTTTAAAAAGCGGAAAAGTCTTTTTTACAAACTCTGGTACGGAAGCGACAGAAACGACATTAAAATTAATTGATAAATATAGATCTATTGCGAATGAAGAGCGTGATGGAGTAGTTGTGTTAAAAGATAGTTTTCACGGGAGGACGTTAGGGGCACTACATTTTACGAGACAAGAAAAAGTATATCAAAATTTTCCTAAAACATCTATTCCTGTATATGAAGTAGAGCGCGAGAATATAGACCAATTAGAAGAAACCATTATTAAAGAAAATCCAATTGCGATTATGCTAGAGCCTGTTTTAGGTAGCGGGGGGATTTATCCTTTATCAAGTGAATATTTACATGGTGTTCAAAATTTATGTAAAAAATATAATGTACTTCTTGTCGTTGATGAAGTTCAAAGTGGAATGGGTCGAACGGGAAAACTATTTGCTTATCAAAATTTTAATATTACACCGGACATTATTCAAATCGGTAAAGGAGCAGGAGGCGGGATACCGCTAGGGGGAATTATTGTAGGTGAAAAGTTATGTGATGTATTTTCACCAGGAGATCACGGGACAACGTTTGCTCACTCATCAATGGGAACAGCATTAGGTTTAACTGTATTAAATACATTACTTGATGATGGGTTAATGCAAGAAGCTTATGAAACGTCACTATATTTAAATGACAAACTGCAAGACATTCAGAAAGAAAATTCTTATTATATTCAGGAAGTGCGTCATGCGGGGATGATGTTTGGGATAAGTGTGAATGACACGAATGAAAATGTGAAGAAATTACAGATTGAGTTAATGAATAAAGGGATGTTAGTCGATGTAACACAAGGGAATATTATTCGATTACTTCCGCCGTATATTATTACGAAAGAGGAAATTGACGCATTCACTTATGAATTTATTTCCTGTGTTCATAACATAGCTGCTACAGCAAGTATTTAA	MSDWFQLDKEYMMSTYCRTEVAMERGEGCKLYDVDGKEYLDLFSGVGVNVLGYNHPKIVQTTMEQVAKSLHLPFHFLNPVAIEYAKKLVGCTLKSGKVFFTNSGTEATETTLKLIDKYRSIANEERDGVVVLKDSFHGRTLGALHFTRQEKVYQNFPKTSIPVYEVERENIDQLEETIIKENPIAIMLEPVLGSGGIYPLSSEYLHGVQNLCKKYNVLLVVDEVQSGMGRTGKLFAYQNFNITPDIIQIGKGAGGGIPLGGIIVGEKLCDVFSPGDHGTTFAHSSMGTALGLTVLNTLLDDGLMQEAYETSLYLNDKLQDIQKENSYYIQEVRHAGMMFGISVNDTNENVKKLQIELMNKGMLVDVTQGNIIRLLPPYIITKEEIDAFTYEFISCVHNIAATASI	PGPT0014253_1123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK009_01578	1380	katA_1	COG0753	Vegetative catalase	ATGGATGAAAACTATGATAAACAGGGGCAATCTATACTAGGGAAAGACTTTAATGAAAATGACGAACGTAATGAACAAGCTAAACTTCACTCTCAAACAGTTGGTTCACGTGGACCCGTACTAGAGCAAGATAGTGTACTGCATGAGTCATTACAAGAATTTATTCATGAAAAAATTTTAGAAAGACCTGTTCATGTAAAAGGATTTGGTGCGTTCGGTTATTTTCAAACGATATATTCGATGTCTGAACATACTAAATTAAGTTTTTTACAAAATTCTAATGAGAAAGTTCCTGTTATGGTGCGATTTTCGTTAGCTGTTAGTACGAAAGGAACACCGGATACTTCTAGAAATGTACGCGGTTTTTCCACAAAATTTTATACGAAAGAAGGCATTTTTGACCTTTTATGCAATCACATCCCTGTTTTTTCTGTTCGTGATCCTATGCGTTTCCCTGAAACAATTCAAGCATTATTGCCTTCACCTAAAAATAACTTAATAGACCCTAATAGATTTTGGAGTTTTGTCGCTAAAGCACCTGAATCTATTCATTTTGTTGTCCGTTTATACTCTAATAATGGTACAGTCAAAAGTCTTCGCCACATACCAGGACATAGTGTAAATACATACATTTGGAGAAATGCGGAAGGTAATCGAAAGTATGTAAAGTATCATTGGTACCCATTTGAAGGTGTACAGTACATTACTAGTAAAGAAGCAATTAAACTAGCTGCCGAAAATCCTGATTATAGCGGGAAAGATTTATATGATGCAATTGAAAATGGTAAACCAGTGGAGTATGGCTTATACGTCCAGCTCATGAATCCGAAAGATGAAGCGCACCTATCTTATGATCCTTTAGATGACACAAAAGTATGGGATGAACAGACGTATCCTCTCATACCAGTCGGGAAAATGGTATTAAATAAAAATCCTGAAAATTTTATGGAACAAGTAGAAAAAGTCGCATTTTCCCCTTCTAATTTACTGGATGGTGCAGAACTATCAGATGATAAAATGCTGCAAGGGCGCGCTAATATTTACAGTGATTCACAACGAAGAAGAATTGGTCCCGAATTTCGCAAATTAACGATTAACCAGCAGCAAGATTGGACACCGACTAAGCAAATAACGAGCGGTGACGGAAGATACGTTGAAGGTAAACTTGAAAGAACTTCTATAACAAAACAAAATGACTTTACGCAGGCTGGTGAATTTTATACGAAGTTACAGCCGATAGAAAAAGAACATCTCGCTGAAAACTTAGCTAGTGATTTGAAAGTTATATCCGATGATATTCGAAAGGTAGTTTTGGGGTATTTTCATAAAGTGTCAGCTGATTTGGTGAATAAAATTGAGAGTGCAATACAAAAGCTTTGA	MDENYDKQGQSILGKDFNENDERNEQAKLHSQTVGSRGPVLEQDSVLHESLQEFIHEKILERPVHVKGFGAFGYFQTIYSMSEHTKLSFLQNSNEKVPVMVRFSLAVSTKGTPDTSRNVRGFSTKFYTKEGIFDLLCNHIPVFSVRDPMRFPETIQALLPSPKNNLIDPNRFWSFVAKAPESIHFVVRLYSNNGTVKSLRHIPGHSVNTYIWRNAEGNRKYVKYHWYPFEGVQYITSKEAIKLAAENPDYSGKDLYDAIENGKPVEYGLYVQLMNPKDEAHLSYDPLDDTKVWDEQTYPLIPVGKMVLNKNPENFMEQVEKVAFSPSNLLDGAELSDDKMLQGRANIYSDSQRRRIGPEFRKLTINQQQDWTPTKQITSGDGRYVEGKLERTSITKQNDFTQAGEFYTKLQPIEKEHLAENLASDLKVISDDIRKVVLGYFHKVSADLVNKIESAIQKL	PGPT0014380_5519	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK009_01579	522			hypothetical protein	ATGAAAAAAATATTGTACATCTTAAGCATATTTATTTTGTGTGTATCGATACAACACGTTGTACATTCTCAAACAGATGCACCAAAGTTAACTTCAGATTGTCTCGAAGAAAGTAAAATTCGGGATCAAAAGTATGTGGAAAATATTATGAAGGACATTAAATCCGTATTTCATTTGAATTTTGATGAAGGTGGCTTTTGGGAAGTTAATAAAAGAGATTTAGAAGCTGCACATTTAATGTATGGTGGTCGGATTGATGATACGTATTATAATTCGTTAACTAAAGTTTTTGAAAGTGGTGGATATAGAGGAGAGCCAAGATTGTTTGTAAAGCCGCTTGAAGCATTTTTACTCTATAAAGAAATAGACGATACAAATGTGATAAAACACCTTGAACTTGAAAAAGGGGAATGGGTTGTTACTGAAACGCAAAAGAAGCAAGGGAAAATAGTGGAATACAAACCGTTGCAATGTGAAAAAGATTATTTGAAAAAGAGATATGAGTATCATAATCCCAAATGA	MKKILYILSIFILCVSIQHVVHSQTDAPKLTSDCLEESKIRDQKYVENIMKDIKSVFHLNFDEGGFWEVNKRDLEAAHLMYGGRIDDTYYNSLTKVFESGGYRGEPRLFVKPLEAFLLYKEIDDTNVIKHLELEKGEWVVTETQKKQGKIVEYKPLQCEKDYLKKRYEYHNPK				NA	NA	NA	NA	NA
AK009_01580	1755	yerA	COG1001	Putative adenine deaminase YerA	ATGGGACAAAATCATTTTAAATGGAGTAATAAGCAATTACGAGAACATGTTGAAGTACTAGACGGCACAAGAAGTCCACACATATTATTAAAGAATGCAACATATTTAAATTCCTATATGCGCGAGTGGATGACAGCGCACATTTGGATATATAATGATCGAATTGTATATGTAGGGGAGCAGCTGCCAAAGCAATTAACGGAGTGTGAAGTTGTTGATTGTGAAGGAAAGTATGTCGTACCCGGTTACATAGAACCCCATGCACATCCATATCAGTTGTATAACCCAGAGACGCTAGCGAATCATGCGATGCAGTTTGGGACAACAACTTTTATTAATGATAATTTAACTTTATTTTTCACATTAAAGCGTGAAGAAGCATTTCGTTTATTAGATGAATTCAATAAGATTCCAGCAAGTATGTATTGGTGGTGCCGTTTTGATGGACAGACTGAATTACAAAACGGGGAATCTTTGTTTAATAGTGAAGAAATAGTAGAGTGGCTACAGCATGAAGCGGTGATTCAAGGCGGCGAGCTAACAGCATGGCCCAAATTATTACATGGTGATGATGAAATGTTACATTGGGTGCAGGAAACGAAACGATTACATAAAAAAGTAGAAGGACATTTTCCAGGTGCATCTGAAACGACTTTAGCGAAGTTAAAACTGTTAGGTACAGATTGTGATCATGAGGCGATGACAGGGCAGGAAGCTTTCGCTCGTCTTATGCAAGGTTACACTGTTTCCCTAAGAAATTCTTCAATCCGTCCAGATTTAGAAGTTTTACTGAAAGAATTGTTGGAACTAGGCGTAAAGCAGTTTGATAGATTTATTCTTACTACAGACGGCTCACATCCTTCGTTTTATGCAAATGGAATGACAAACGTTATGATTTCTACCGCGATAAAACAAGGAGTGCCAGTAATAGATGCATACCATATGGCAAGTTATAATATTGCTCGCTATTATAATATGGAGCATGTGCATAGTTCAATTGCGACAGGTAGAATCGCCAATGTCAATATTTTAGAAAGTAAAGAAAATCCGGTGCCAACGAGTGTAATCGCAAAAGGACAATGGGTAAAGCGTGATAGAGTAAACAAAAATGAATCGTTACTTATAGAATGGAGTAACTTCAAAGTAACTCCACTACTGTTAGACTGGACCATAGAAAAAGAGGATATGGTTTTTTCTAATAAAGCAGGTATACACTTATTGAATAACGTTATAACAAAACCATACGTTAGCGAAATCGACTTAGGCCTTAATGAACTGTCTATTGTTCATGATGAATGTTTCCTCATGATGATTGCCCGTGATGGCAGTTGGCGAGTGAATACAGTTGTGAAAGGTTTTGCGAATGAATTAGGTGGCCTTGCTAGTTCTTATTCAGGTACAGGTGATATCATTCTTATTGGAAAGAGTAAAGAAGATATGCTTACAGCTTTTCATAGAGTAAAAGAGCTTGGCGGAGGGATTGTAATTGCTGAAAAGAATGAAGTATTGCACGAAATTGCATTACCATTGCTCGGGATTATGTCGGATGTAAAGATGAGTGAATTAATACAAGAAGAGAAAAAGATGGTGAACTTACTGCAAGCGCGAGGATATGCTTATAACGATCCAGCATTTACGATTTTATTCTTTTCTGCGACGCACTTGCCTTTTATACGAGTAACACCTATAGGATTATATGATGTGAAAAGTAGTAAGGTAGTTGCCCCGCCCGTGAATTTGATAAAGCAATATTAA	MGQNHFKWSNKQLREHVEVLDGTRSPHILLKNATYLNSYMREWMTAHIWIYNDRIVYVGEQLPKQLTECEVVDCEGKYVVPGYIEPHAHPYQLYNPETLANHAMQFGTTTFINDNLTLFFTLKREEAFRLLDEFNKIPASMYWWCRFDGQTELQNGESLFNSEEIVEWLQHEAVIQGGELTAWPKLLHGDDEMLHWVQETKRLHKKVEGHFPGASETTLAKLKLLGTDCDHEAMTGQEAFARLMQGYTVSLRNSSIRPDLEVLLKELLELGVKQFDRFILTTDGSHPSFYANGMTNVMISTAIKQGVPVIDAYHMASYNIARYYNMEHVHSSIATGRIANVNILESKENPVPTSVIAKGQWVKRDRVNKNESLLIEWSNFKVTPLLLDWTIEKEDMVFSNKAGIHLLNNVITKPYVSEIDLGLNELSIVHDECFLMMIARDGSWRVNTVVKGFANELGGLASSYSGTGDIILIGKSKEDMLTAFHRVKELGGGIVIAEKNEVLHEIALPLLGIMSDVKMSELIQEEKKMVNLLQARGYAYNDPAFTILFFSATHLPFIRVTPIGLYDVKSSKVVAPPVNLIKQY	PGPT0021510_717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
AK009_01581	1167		COG3385	IS4 family transposase MICBce1	ATGAAAAAATGTAATTCAATTAAGTTGGCAAGTTTAGCAGCTTTATTAGCGGGTACTACCCTATTCACACCTGGTTTTACTGTGACTGCAGAGTCAACTCAAAATATTTCTAGTTCGTCACAAGTACATGATCAAAAGAATCGTAATGGCTGGAAACAAGTAATGCAGGAAACAGTACAGCTTGGTGCTGTAGGAATATTAGCTAAGGCGTCTAATAACGGAAAAACTAGTAGTTTTACTGCTGGCTTGGCGGACTTAAGTACAAAGAAACCGGTGAATTCGGATTATCGCTTTCGGATTGGTAGTGTGACGAAGTCGTTTACTGCCACGACTATTCTTCAATTAGTAGGAGAAAAGCGCTTACAACTTGACGATCCAATTGAAAAGTGGCTACCGGGTCTTATTCAAGGAAATGGGTATGATGGTAATCAAATTACGATACGACAACTTTTGAATCATACGAGTGGTATCGCTGAATACTTAAAGTCAAAAGACGCGGACATAATGAATTCGAAAAAAACGTATACAGCAGAAGAAATAGTGAAAATAGGCCTTTCGCTGCCTCCAGATTTCTCGCCGGGTAAAGACTGGTTGTATTCAAACACAGGATACGTAATACTAGGAATGCTTATTGAAAAAATAACTGGAAATAGTTATGCGGAAGAAATCGAAAAGCGAATTATTGAACCTTTGGACCTATCAAATACGTTTTTACCAGGAAATTCACCCGTCATCCCAGGAAAGAATCATGCTCGTGGATATGTGAAAATAGAGGGAACAGGCGAGTTGAAAGATATTACGTATTATAATCCGAGTTTAGCTAATGCAGCTGGAGATATGATTTCTAATGCGGATGATTTAAATAAGTTCTTTTCATCTTTACTCGGTGGTAAGTTACTAAAGGAACGCGAGCTAAAAGAAATGCTTACTACAGTTCCTATAGAAGGAAAAGGGGTTGGTGACGCATACGGTCTTGGAATCTATGAGACTAAACTTCCAAACGGTGTTTCAGTTTGGGGGCATGGAGGAGGAATTCCTGGATTTACAACTTTTGCTGGGGGAGTAATTGGAGGCAAACATACATTGGCTATCAGTCTCAACTCTATAGGTGGGGTCGATATTGTTCCACAGTTTAATAAAATGATGCAAATTGAATTTAATAAATAG	MKKCNSIKLASLAALLAGTTLFTPGFTVTAESTQNISSSSQVHDQKNRNGWKQVMQETVQLGAVGILAKASNNGKTSSFTAGLADLSTKKPVNSDYRFRIGSVTKSFTATTILQLVGEKRLQLDDPIEKWLPGLIQGNGYDGNQITIRQLLNHTSGIAEYLKSKDADIMNSKKTYTAEEIVKIGLSLPPDFSPGKDWLYSNTGYVILGMLIEKITGNSYAEEIEKRIIEPLDLSNTFLPGNSPVIPGKNHARGYVKIEGTGELKDITYYNPSLANAAGDMISNADDLNKFFSSLLGGKLLKERELKEMLTTVPIEGKGVGDAYGLGIYETKLPNGVSVWGHGGGIPGFTTFAGGVIGGKHTLAISLNSIGGVDIVPQFNKMMQIEFNK				NA	NA	NA	NA	NA
AK009_01582	507			hypothetical protein	ATGAAATCGGTATTAAAAAGCATACTTATTTCCTTTGTTTTTTCTGCAGTAGGCATGTGTTGGTTACTGTACGTATTATTCAAAGGGGACGGAGACTGGTTATTGTCTTGGATAGGTGTATTAATGGCATATTTATCTTTATATACTTTAATAGATTTATATTGTAAAAATACATACGATAAAAAAATAAATAAATGGCTTATAAAAACATCGGTAACTAGTTTTAGTTTTGCTGTATTAGGAATCTCATTTTGTATCATACATGAGCTATTAACACCATGGAGTCTTAGTTTAATGGTGTGGTATTGGTTGCTAATGTTAGTATTATTTTTAACGACTATAATATCATTAATCAGTTTAGTATTTGTTAATCGTAAAAATCATAATTTCACTGTTGGATATAGAATGCTCATACTTCTAAATGTATTTCTTACATTGGGACCAGTATTATGGCCGCTATTACTTTCTATTATTGGAAATGGTATGAATGCTAGTGCGGGCTGGTAA	MKSVLKSILISFVFSAVGMCWLLYVLFKGDGDWLLSWIGVLMAYLSLYTLIDLYCKNTYDKKINKWLIKTSVTSFSFAVLGISFCIIHELLTPWSLSLMVWYWLLMLVLFLTTIISLISLVFVNRKNHNFTVGYRMLILLNVFLTLGPVLWPLLLSIIGNGMNASAGW				NA	NA	NA	NA	NA
AK009_01583	498	yokJ		Antitoxin YokJ	ATGGAAAATATTAATCAGTTGATTAAAAAAGTAAAATCATTACCTAATTGTCGAGTTCAGGAGCCTACAGAATTACCGTTAATTGATAAGAATAAGCATATGCTACCAGGTGATTTAAAAGAATTTTATAGTCTTTGTGGTGGTCTAACTTTATTTGAAAATGAGGAATATCCTATTCATATTGTTACCCCAAAGGGGTTTATTTTGGCTAATCCCGTAATTGTAGGAGAGTTATGTGAAGAAGATATTTCATCAACTTGGTATATTATATGCAATGATGGCAAGGATGAATATTTAACAATAGATCTTAGTGAAGAAAGACTAGGTAGATGTTATGATAGTTTCTTTGATCGGCATGGAATAGTTGGGGAGTCGCAAATTATTGCCACTTCATTCACTGACTTACTTGAAAAACTTATTAAGAATAATGGACAATATTGTTATTGGCTAAAGAGTGAATTTGAATCACTGGGTGATGCTTATGATGATCAAGAGTGA	MENINQLIKKVKSLPNCRVQEPTELPLIDKNKHMLPGDLKEFYSLCGGLTLFENEEYPIHIVTPKGFILANPVIVGELCEEDISSTWYIICNDGKDEYLTIDLSEERLGRCYDSFFDRHGIVGESQIIATSFTDLLEKLIKNNGQYCYWLKSEFESLGDAYDDQE	PGPT0027645_3	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
AK009_01584	285	yokI		putative ribonuclease YokI	ATGGATGTATGGGCTGAACATAATGTCCCTGATTATGTTAGTAGAGGGGCGAATACTCCAAATATAGCTTTAACTAAAGAGCAACACAATGATACTAAAGCGGTTTATAGACAATGGCTCTTTGATAAAACAGGGAAAAAGGTTGGAGGTAAAGTAGAGTGGAAATCTGTTTCAACAAAGGAAATACAAGAATTGACGGAAAAAATGTTTGATGCTGCGAATGTACCACGTTTAGCTAAGCAAGAGTATTATAGGGCTTTTAATCAATATAATTTTAGGGAGTAA	MDVWAEHNVPDYVSRGANTPNIALTKEQHNDTKAVYRQWLFDKTGKKVGGKVEWKSVSTKEIQELTEKMFDAANVPRLAKQEYYRAFNQYNFRE	PGPT0027801_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Tox-SHH-Imm30_TOXIN-ANTITOXIN_SYSTEM,PGPT0027801-toxin_Tox_SHH-na	NA	NA
AK009_01585	1209		COG5444	Ribonuclease	ATGAGTTTAAACATGTATTTGGGAGAAGTACAAAGTCAAACTCAAAGTATGAACGCTATATGTAATGCTACGATTCAAAGTATGGAACAAGCTATTCAATCTATTGATGCCTTTGCGATAGACACAGTATTACAAGGACAAACATACAGTAGTGCAAAAGCCTACCTTGTCCAAACATTCCGGCCATTAGCGCAAGGAATCATATGCTTATGTGAAGAATTAATTCGCCAAAACGAAGCATTTCCAAACGATTTTCAAGCAAAAGTTGCTTCAACAGATGTTATCGAACATGAAATAAGACAACAAATACAAGAAATCAATCAATCCATTGCAAGTATAGAAGCAATAGAAGTGCTTACACCAATGCCTGGAGTAGACGCAATTATTGCAGTCTTAATTGCAATGAGAAAAAAACTAGAAGAAAAACTAGAGCGTCTATATGAATTCAATCATTCGTCCAGCAACAACTACAGCACCGCCCTCCAATTAGCCGCTAGCATCACAGCCGGACTCGCTGAAGTGCAAAGCGGGAAAGGATTTAGTCCTGTGAGTGGGACGTTTAGTACACAAGGGTTGAATATGGATTGGGTGAGTTCTATTCAGGGGATTATAGAAGAAACAGCCCGAAAAAATGATCAGTCAATTAAAGATATAGAAACAAATAACATAATTGAGGAGAAATCTCCGGTTAGAAATGCTTGGGACGATGCGGCAGACAGTATAGTTGGTACGTTTGAAACAGCGAAAAAGATGTGGGAAGCTATTCAAAGAGGATCGGGGAAAGCTATTGGTGATGAAATCGAGTCCGCAATAGCTTTAAGTAATATGGACATAGGAACTTTTATTAATGTAACCTATGCACTTTTCCATTTGGATGAAACTGCAAAAAATATGTGGCATGCATTTTCAAATAAAATAAAACGAGATATGATAGAGGGAGATGCAGAGAGTCGTACAGAATTGACTACCTATGGATTAACACAAATAGCTACCACAATATTAGGCGATAGGGCACTAAATAAAGTAGGCCATATCACAAAAGGAGCAAAAGCATCAAGTGGAGTAAGTACATTTGCTAATGCAGTAACACTAGCAAAAGAATTGAAGCCTACGCTTGAAATGTTACAATCATTTAAGAGAGATGCTTCTTATGCATTCTCTAGTGTTGGTGGAACTATTGTAACCAAAATATACCTCAAGGCGAATTAA	MSLNMYLGEVQSQTQSMNAICNATIQSMEQAIQSIDAFAIDTVLQGQTYSSAKAYLVQTFRPLAQGIICLCEELIRQNEAFPNDFQAKVASTDVIEHEIRQQIQEINQSIASIEAIEVLTPMPGVDAIIAVLIAMRKKLEEKLERLYEFNHSSSNNYSTALQLAASITAGLAEVQSGKGFSPVSGTFSTQGLNMDWVSSIQGIIEETARKNDQSIKDIETNNIIEEKSPVRNAWDDAADSIVGTFETAKKMWEAIQRGSGKAIGDEIESAIALSNMDIGTFINVTYALFHLDETAKNMWHAFSNKIKRDMIEGDAESRTELTTYGLTQIATTILGDRALNKVGHITKGAKASSGVSTFANAVTLAKELKPTLEMLQSFKRDASYAFSSVGGTIVTKIYLKAN				NA	NA	NA	NA	NA
AK009_01586	363			hypothetical protein	ATGAGTCAAGAAATTGAAACGAGAATCAGTCAATGTAATCAAAAATTACGAATTATATTTGAAGAACAAAATGAAAACCGAATCGCGCTGCAAAATCAAGAACGAGCTGAGGCTAGTTTTCATGAATGGAAAAATAGAAGCAATCGTTTATTTAACCGAATACTAGAAACTTGGCACGACGACAAAGAAGTGTTTCACCTTTTTACGAATATGCGGCAAGAAATCGGACAGTATGAAAGAAAACTTACATTCGAATTAGAAAATGAAAAAGAGACGTTGCTTAAAGAAAAACGGCATCTCAGTGAGAAAGAAAACGACCTTTCCTATGAACAGCAGCAACTACAAAGGGAGGCCGATACATGA	MSQEIETRISQCNQKLRIIFEEQNENRIALQNQERAEASFHEWKNRSNRLFNRILETWHDDKEVFHLFTNMRQEIGQYERKLTFELENEKETLLKEKRHLSEKENDLSYEQQQLQREADT				NA	NA	NA	NA	NA
AK009_01587	276			hypothetical protein	ATGGGAGAATTTCAAAGTAATTTGCATACGGCAACGCAACTTGCAACGAAAATGAGAAATGCTTCAGATAGGATGCAAAGTGCTACTAGTCGCTCTATAAATAAGGCAACGCGTACGACACTATCTGTGAACTTCAAAGCACAAGAAGCAAATCAACAAAATTTACAAATCACGAAACAATTTTGCGCTACTTTTCAACAAACGATTGATAATATCCATTCCGTAGCAAATGAATTTGAGAAAATGGATACTGGACTTCAAAAGACTTTTCAATAA	MGEFQSNLHTATQLATKMRNASDRMQSATSRSINKATRTTLSVNFKAQEANQQNLQITKQFCATFQQTIDNIHSVANEFEKMDTGLQKTFQ				NA	NA	NA	NA	NA
AK009_01588	294	ycnE	COG1359	Putative monooxygenase YcnE	ATGATTATTATTCACGCAATATTTCAAGTAGATCCAACGAAACAACAAGCATTTTTAGAAGAAATTCGTCCGCTTATTCATGGTTCAAGAGAAGAAAGTGGAAATGTATCTTATGACTTATATAAAGATACAGAAAAAGAAAGTGTTTATACGATGGTAGAAGTATGGAAAGATGAAGCAGCAGTTGCGAGCCATAATACGAGTGCACACTTCACATCTTTCGTTAGTAAAGCAGCACAATTTTTAACTGCTCCGCTTAATATAAAAGCTTATAATGGAGAATTAGTAAAATAA	MIIIHAIFQVDPTKQQAFLEEIRPLIHGSREESGNVSYDLYKDTEKESVYTMVEVWKDEAAVASHNTSAHFTSFVSKAAQFLTAPLNIKAYNGELVK				NA	NA	NA	NA	NA
AK009_01589	639	yodC_1	COG0778	Putative NAD(P)H nitroreductase YodC	ATGACTAACTCAGTAAAAACAAATGATTTTAACGAAATTTTAACAGGACGTCGTTCAATTCGTAAGTACGACCCTTCAGTGAAAATTAGCAAAGAAGAAATGACAGAAATTCTTACAGAAGCAACACTTGCACCATCTTCAGTAAACATGCAACCATGGAGATTCGTAGTGATTGAAAGTGACGAAGCGAAAGCAACACTTGCGCCACTTGCGAAGTTCAATCAATCTCAAGTAGAAACATCTTCAGCAATGATTGCTTTATTTGGTGATTTAAACAACTTTGATAACGCAGAAGAAATTTACGGTACAGCAGTAGAGCGTGGACTTATGCCAGCAGAAGTAAAAGAAGATCAAATGAAAAAACTTTCAGCTTACTTCTCTATGGTTACACCAGAAGTAATGAAAGATACAGTATTAATTGACGGTGGTCTTGTAGCGATGCAGTTTATGCTAGCAGCTCGTGCGCACGGTTATGATACTTGTCCAATTGGTGGATTTGAAAAAGACCAAATTGCAGAAGCATTTGGACTAGATAAAGAACGCTACGTACCAGTTATGTTAATTTCAATCGGGAAAGCTGCAGACAGTGGTTACCAATCAGTACGTCTTCCAATTGAAAAAGTTGCAGAGTGGAAATAA	MTNSVKTNDFNEILTGRRSIRKYDPSVKISKEEMTEILTEATLAPSSVNMQPWRFVVIESDEAKATLAPLAKFNQSQVETSSAMIALFGDLNNFDNAEEIYGTAVERGLMPAEVKEDQMKKLSAYFSMVTPEVMKDTVLIDGGLVAMQFMLAARAHGYDTCPIGGFEKDQIAEAFGLDKERYVPVMLISIGKAADSGYQSVRLPIEKVAEWK	PGPT0028511_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK009_01590	429	slyA_1		Transcriptional regulator SlyA	TTGACAAGTTCATGCTCAAAAGAAGCGATTATTTTATATAAATTACACTTTCTAAATAAAGAAGTAAGTTCGAAATTTGAAGGGTGTACGGGTATGAGCCAGTCTCGATTAGAGCTTATACTTCAATTATTTGAAGTAGGTGAAATTAGTCAAAAAGCACTTCAGCAAGAAGTGAATATTGATAATGCTGCGATAACAAGGCATTTAAAGCAGCTTGAGGCCAATGAAATGATTGTAAGACGTAAAAATCCAGAAGATAACAGAATTACGTTAGTTTCTCTTACTGAAGAGGGACGAAATAAAATTCAAGCGTTTCAAGAGGAAAAAGAACGTTTTGCAGCATCTGCATTTAAAGGATTAAGTGAGGAAGAACGCGATAATCTTTTAAATATGTTAAATCACATTCAAGAAAATATAAAAGAATTATAA	MTSSCSKEAIILYKLHFLNKEVSSKFEGCTGMSQSRLELILQLFEVGEISQKALQQEVNIDNAAITRHLKQLEANEMIVRRKNPEDNRITLVSLTEEGRNKIQAFQEEKERFAASAFKGLSEEERDNLLNMLNHIQENIKEL				NA	NA	NA	NA	NA
AK009_01591	1944	tetO		Tetracycline resistance protein TetO	ATGACAACAATAAATATAGGGATTGTCGCGCACGTAGACGCTGGCAAGACGAGTTTGACTGAGCGTATTCTTTATGAAACAAATGTAATTAAAGAAATTGGCCGAGTTGATAGTGGTAATACACAAACTGACTCAATGGAATTAGAAAGACAGCGCGGAATTACGATTAAAGCATCTGTCGTTTCTTTCTATATAAATGACTTAAAAGTAAATGTAATTGATACACCTGGACACGCTGATTTTATCGCTGAAGTGGAGCGATCCTTCCGCGTTTTAGACGGTGCGATTTTAGTTATTTCTGCCGTTGAAGGTGTGCAAGCACAAACGAAGATTTTAATGCGAACATTACAGAAACTAAACATACCAACAATATTATTCGTAAATAAAATTGATAGTAATGGCGCAAATACTGAAAAAGTTATGAAACAAATAAAAGAGATTCTTTCAAATGAAGCATTCCCCTTCTACTCTGTTCTAAACGTAGGAACGAAAGGAGCCCGGATTATTGCATACAAATCATATGACGATTGTACGGAACTGTTAGCGCCATATAATGAATCGTTACTTGCGTCATATGTAAATGATGAAATCGTACCGGACGTATTATTAAGAGAAGAACTCGAAAAACAAATACAGCAAGCAAGTGTGTACCCAATCTTTTTCGGTTCAGCCATGACAGGTATAGGTGTAACTGAACTGCTCGAAAATATTTCAACCTTATTTCCAGCTAATAAGTCGGCAGAAAACGAAACATTATCCGGTGTTGTGTTTAAAATTGAACGTGAACCTTCTGGAGAAAAGGTTGCTTATGTAAGAGTTTTTTCTGGTCGTTTACACGTAAGAAAATATGTTGATATACAGCGCGGAGACGTTCTGGGGCATAAAGAAAAGGTTAAGAAAATATGTCTATTTCATAACGGGAATGTTGTTCAAGCTTCTATCGTTCCTAGCGGAGAATTTTGCAAAGTGTGGGGACTGAATGATATTAAAATTGGTGATATTATCGGTGAACGGACTCGTTATATAAAAGATATTCACTTTGCCGAACCACAAATGGAAGCGGCCATTGATGCAGTATCAAAAGAAAGAATTCATGATTTATACGCTGCACTTATGGAACTCTGTGAAGAAGATCCACTCATTAAAGTGTGGAAAGATGATGTTCATAAGGAACTATACATTCGCCTTTTCGGTGAAGTGCAAAAAGAAGTAATTGAAACCACACTTTTTGAGAAGTATAATTTGCAGGTTACTTTCTCAAATACACGAGTTGTATGTATTGAGAAACCAATTGGCATAGGGAATAGCGTTGAAGTAATGGGCGAAAAAGCGAATCCATTTTACGCAACAATTGGCTTCGAAGTGGAGCGTGGTGAACTTAATTCTGGCATAACGTATAACTTAGGTGTTGAGCTTGGATCACTTCCATTAGCATTCCATAAAGCGATTGAAGATACGGTATTTCAAACGTTAAAACAAGGTTTATATGGTTGGGAAGTTACAGATATTATCGTCACATTAACACATACCGGTTATGCTAGTCCTGTTACAACAGCAAGTGACTTTAGAAATTTAACACCACTCGTTTTAATGAATGCTTTAAAGCAAGCTGAAACACATGTATATGAGCCAATAAACGAGTTTGAATTAACTGTACCGGAGCACGCAATTAGTACCGCGATGTATAAGCTCGCTGCCGTTCCAGCAACTTTTGCAGAGCCTATATTATATAATGATTCTTACCAATTAACAGGATCATTACCTGTTGCAAAAACAGAGAATTTTAAACGAATGCTACATTCATTTACAGAAGGAGACGGCATATTTACAACGAAGCCAGCTGGTTTCACAAAGCTTATGGCTCCCTTCCCTACTCGAAAACGTGTTGATTATAATCCGCTGAACCGGAAAGATTATTTGCTTCATGTGCTGAAGGCTTATTAA	MTTINIGIVAHVDAGKTSLTERILYETNVIKEIGRVDSGNTQTDSMELERQRGITIKASVVSFYINDLKVNVIDTPGHADFIAEVERSFRVLDGAILVISAVEGVQAQTKILMRTLQKLNIPTILFVNKIDSNGANTEKVMKQIKEILSNEAFPFYSVLNVGTKGARIIAYKSYDDCTELLAPYNESLLASYVNDEIVPDVLLREELEKQIQQASVYPIFFGSAMTGIGVTELLENISTLFPANKSAENETLSGVVFKIEREPSGEKVAYVRVFSGRLHVRKYVDIQRGDVLGHKEKVKKICLFHNGNVVQASIVPSGEFCKVWGLNDIKIGDIIGERTRYIKDIHFAEPQMEAAIDAVSKERIHDLYAALMELCEEDPLIKVWKDDVHKELYIRLFGEVQKEVIETTLFEKYNLQVTFSNTRVVCIEKPIGIGNSVEVMGEKANPFYATIGFEVERGELNSGITYNLGVELGSLPLAFHKAIEDTVFQTLKQGLYGWEVTDIIVTLTHTGYASPVTTASDFRNLTPLVLMNALKQAETHVYEPINEFELTVPEHAISTAMYKLAAVPATFAEPILYNDSYQLTGSLPVAKTENFKRMLHSFTEGDGIFTTKPAGFTKLMAPFPTRKRVDYNPLNRKDYLLHVLKAY	PGPT0010355_389	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
AK009_01592	648			hypothetical protein	ATGGTGAAGGGAACTAAAAAAGAGGTACATATAAATGACAAAGTAATTTATTACACACATATCGAAAAAGGTTCTAGTAGGGTTTGCTTTATGTTTTCAGGTTCAGGATACAATTATGATAAGCCGTTATTTTATTATGCAATGATGTTAATGCTTGAACATAAAATAGATGTTGTACATATTCATTATTCTTATGATGGACAATTAATGAATAAACCAATGGAAGAAGTAACGAAAGTAATGATGGATGATATTAATCCTGTAATGAATGAAGTATTAAAAGATGAGCAATACAACTATATTATGTTTTTAGGGAAATCACTCGGAACAATTCCGATTGCAAATGATTTAATGAAGAGAGACGAATTCGCGCAGTCAAAAATGATACTACTTACACCTTTACTGACGTTTGATACAATTTTTGATTCTATCTTACATAGTCGACACGAAGGGCTTTTAGTTATTGGGGATAAAGATCACCAATACAATGCAGCTCAAATTGATCAGTTACATAAAACGAATTTAATGATCGATGTTGTTAAAAATGCAAATCATTCTGTAAATGTTGGGGAATATGAAACAAAGAATTCAATTGAAGCGATAGCAAATATAATAGAAAAGCTTAAAGAAGTTGTTAGGAAAAACTAA	MVKGTKKEVHINDKVIYYTHIEKGSSRVCFMFSGSGYNYDKPLFYYAMMLMLEHKIDVVHIHYSYDGQLMNKPMEEVTKVMMDDINPVMNEVLKDEQYNYIMFLGKSLGTIPIANDLMKRDEFAQSKMILLTPLLTFDTIFDSILHSRHEGLLVIGDKDHQYNAAQIDQLHKTNLMIDVVKNANHSVNVGEYETKNSIEAIANIIEKLKEVVRKN				NA	NA	NA	NA	NA
AK009_01593	468			hypothetical protein	ATGGATCTTACGTTTAAAGTAGAGGAAACATGTTTTAATTACCGAGTCGGAGCAATTTGTAAACAAGGTAATAAACTACTTATTCAGCAATGTGACGGTGAAGATTTTTGGTACGTACCAGGCGGAAGAGTGAAAATGTTAGAGAATAGTGAGGATGCGTTAAAACGAGAGCTTGCAGAAGAATTAGGTGTTCCTATGAAAGGGAAAAGATTAATATGGTCAGTAGAAAATTTCTTTACACTTTCTGAGCGAAAGTTTCATGAAATTAGTTTTTATTATGAAGTAGAGCTACATGAGTTACCTGCAAATGGAGTGGATCAATATATTTTGGAAGAAGAGGATAGAACGTATTTGTTTAGGTGGGTGCCAGTAGAAGAGTTAGAGGCATATAATTTACAGCCTGCGTTTATAAAAGAAAAAGTAAATGATATAGCAGTTCATATAGAACATATCGTTTTAAAAGATTAA	MDLTFKVEETCFNYRVGAICKQGNKLLIQQCDGEDFWYVPGGRVKMLENSEDALKRELAEELGVPMKGKRLIWSVENFFTLSERKFHEISFYYEVELHELPANGVDQYILEEEDRTYLFRWVPVEELEAYNLQPAFIKEKVNDIAVHIEHIVLKD				NA	NA	NA	NA	NA
AK009_01594	792			hypothetical protein	ATGGAAACGTTATTAATCCAGCAAACTGAGAAATCAAATAAGTTTTGGAAAATCATTGTGAAAGAAAAAGACTATGTTGTGTTTTACGGAAAAATCGGCACAGCTGGCAGTGTGAAAGCGAAAGAGTTTGAAACAGAAGAAGAATGTATGAAAGAAGCTAATAAACTAGTTGCTTCCAAACGTAAAAAAGGATATATAAACCCTATTCAAGGGGAAGATTACATAAAAGAAAAGACAATAACCGAAGAAGAATTTTGGGAACTACTTAATCGTGCAAAAACGAAAGGTGAGGAACAAGTAGAACAAATAGAATGGCTTACTTCCCACCTTGCTAAACGTACAGTACATGAAATTGTTGCTTTCGATACGCATATGCATCGTATTTTGAAAGATTCCTATACCTCCCGTTTATGGGCAGCAGCCTATATTATTATGGGTGGCTGTTCAGATGATACTTTCGATTACTTCCGTGGATGGTTATTATATCAAGGAAAAGAGACATACGAAGCTTGTATTGAAGATCCAGAACGATTAATTCCTGTATTAGAAAATTTGAGTGAGTATGACGTTCCAGAGATTGAAGAACTTACTCTATATTTCGGGCAAGAAGTTTACATGGAGAAGACTGGGGATGAAGATGATACATACTTTACACTATACCATGTCTTAACAAATGAAGAGTTTGAGGAAGTTGATATCGAGTTAGATTGGGATGAAGACGATGAGGAAGGTTTAAAAAAGATGTTTCCTAAGCTATGGGAGATGTATGAGGAAGAACCGATTGAGTGGTAG	METLLIQQTEKSNKFWKIIVKEKDYVVFYGKIGTAGSVKAKEFETEEECMKEANKLVASKRKKGYINPIQGEDYIKEKTITEEEFWELLNRAKTKGEEQVEQIEWLTSHLAKRTVHEIVAFDTHMHRILKDSYTSRLWAAAYIIMGGCSDDTFDYFRGWLLYQGKETYEACIEDPERLIPVLENLSEYDVPEIEELTLYFGQEVYMEKTGDEDDTYFTLYHVLTNEEFEEVDIELDWDEDDEEGLKKMFPKLWEMYEEEPIEW				NA	NA	NA	NA	NA
AK009_01595	1038			hypothetical protein	ATGAAAATTTTAATACTAGGTGGTACACGATTTTTAGGAAGAGCTGTTGTAGAAGAGGCGTTGAAAAGAGGGCATGAAGTTACAATATTCAATCGTGGAACAAACAATGAAATTTTTCCAGAAGTGGAACATTTAATCGGTGACAGAAATGGTGATGTATCAAGTTTAGAAAATCGAAAATGGGATGTTATCGTAGATACGTGTGGGTTTTCTCCGCATCACATTCGGAATATTGGAGATGTCTTAAAAAATAATATAAAACATTATATATTCATCTCAAGCCTTTCCGTATATAAAGATTGGATTCCGCATGACATAAAAGAAGACTATATATTACAACCTGAACCGACGGAAGAGCAAATAAAGGCTGTAGAGAATGGTGAAGTTTCTCCTTATGAGCATTATGGTGCGCTGAAAGTATTATGTGAAAAAGAAGCAGAGAAGTATTGGCCGAGGTGTGTTTTACACGTAAGAGCAGGACTTCTTTCAGGGATGTTTGATTATACAGATCGGCTTCCATACTGGATTCAGCGTGTAGCAAAAGGAGGTAAAGTGTTAGTTCCAGGAAGAAAAGATCGTCCAGTGCAAATAGTTGATATAAAAGATGTCGCGAGCTTTGGACTCAACATGGCAGAAAATAATAAAGCAGGTACATTCAATATAACAGGTCCGAATGATGAATTGACGATGGAAGAACTATTAAATACGTGTAAAAAGGTTACGAATAGCGATGCTGCATTCGTTTGGGTAGATGAATCGTTTATGAATGAACATAAAGTGCAGCCTTGGACAGAGATGCCTTTATGGCTTCCTGAAACTTTTTCATTAGAAGGTGAGACGAAGCCGTGGAAAGGTGGTTTTTCTATTTGTATTGAAAGAGCTATTAAAGAAGGACTTACTTTTAGAAGTTTAGAACATACAGTTACAGATGTGTATGAGTGGATGAAGAGTGTGGACGAATGGGAATTAAAAGCAGGTATTTCAAGGGAAAGAGAAAAGATGTTATTGGATAAGTGGTATGGAATAAAGAGAGTTTAA	MKILILGGTRFLGRAVVEEALKRGHEVTIFNRGTNNEIFPEVEHLIGDRNGDVSSLENRKWDVIVDTCGFSPHHIRNIGDVLKNNIKHYIFISSLSVYKDWIPHDIKEDYILQPEPTEEQIKAVENGEVSPYEHYGALKVLCEKEAEKYWPRCVLHVRAGLLSGMFDYTDRLPYWIQRVAKGGKVLVPGRKDRPVQIVDIKDVASFGLNMAENNKAGTFNITGPNDELTMEELLNTCKKVTNSDAAFVWVDESFMNEHKVQPWTEMPLWLPETFSLEGETKPWKGGFSICIERAIKEGLTFRSLEHTVTDVYEWMKSVDEWELKAGISREREKMLLDKWYGIKRV				NA	NA	NA	NA	NA
AK009_01596	666	yknY_1	COG1136	putative ABC transporter ATP-binding protein YknY	ATGAGTTTAATTGAATTGAAAGACATTAAGAAGATGTATAGTAACAAGAACCATAATACGTTCGCGTTAAATGGTATAAACTTAACGATAAATAAGGGCGAAATTATAGCGATAATGGGTCGATCAGGGTCGGGGAAAAGTACGCTATTAAATGTTATAGGGTTAATTGATATGCCAAATGAGGGTGAATATACGTTAAATGGAAAACCATTAAATGAAATTAGAGCGAATAAAGTTCATAAAACAAGAAATGAAATGATTGGATTTATTTTTCAATATTTTGCATTGTTAAAAGAACATACTGTACTGGATAATGTAGCACTACCACTCACATATAGAAAGTTAAAGCAACGAGAAAGAGAAAATAAGGCGAAGTTCTATTTAGAAAAAGTAGGTTTAAAAGAACATATGCATAAAACACCGGACGAGTTATCAGGTGGACAACAGCAGCGCGTCGCAATTGCTAGAGCGTTAGTAGGCGAACCAGAAATAATTTTGGCTGATGAACCGACAGGGAATTTAGATAGAAAAACAGGAGAAGAAATTATGGATCTACTATTACAACTGAATGAAGAAGGACGAACGATTATTATTGTAACGCATGATATTGAGGTAGCGAATAAGTGTAATAGAATTATTGAGTTAATTGATGGGGAGATTGTGTAA	MSLIELKDIKKMYSNKNHNTFALNGINLTINKGEIIAIMGRSGSGKSTLLNVIGLIDMPNEGEYTLNGKPLNEIRANKVHKTRNEMIGFIFQYFALLKEHTVLDNVALPLTYRKLKQRERENKAKFYLEKVGLKEHMHKTPDELSGGQQQRVAIARALVGEPEIILADEPTGNLDRKTGEEIMDLLLQLNEEGRTIIIVTHDIEVANKCNRIIELIDGEIV	PGPT0013345_16020	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01597	1008			hypothetical protein	ATGCAGCAAAATAAAGATGTGATTTCGTATGGTACATACGAAGAGAGCATAATCGAACTAGAATCAAGCAATCGACTGCTCCAAGAAATTATGTTAGAAGAATTGAAAAATAAAACTTTTCGCGATAAAAACCCTACTATTCTTATAATTACAATAGATGAAAATTATTATAAATTACTGAATATACCTATAAAAGCTGGAACAGGCTTTTCTTATCAAGACTTCCAAAAAAATAGTGAAGAGAAAACGAATGTTTTACTAGGTCCTTACTTTAAGAAATATTTTCAAATAGGGGATACAATCAATAATCAATATACGATTATTGGATTTTTGCCGGAAAATAAATTCATTATAAATGGTAACGGAGCGAATATATACCAGAAATTAGATAAGGCTATGCTATCACCCATGCCAATTGATAGATATGAACATTATGAAATAATGTTTTCAAGATTACATCAAAGTACAATTATGAATTTAAAAAGAGACGCAGATGTAAACAAACTACAAGAAATGATTCAACTGAAGGGAAGCGACGTTACGTTGTACTTGAAAAATTTAGGAGGAGAAATAAATGAAGCCGTTACTAGTAGTATGGATACGGAAAATATCGATCTTATAGTAGGAAGTCTATTTATTTTATTTATAATAGCGGGAATTGTCGTAACGACAATTGTTTCCATCATGATGAGAAAGAGGGAATTTGGTATTAAGATGGTCCTTGGAGAAAGTAAGTTTGGGATGTTCATTCAAATTGTATTAGAAAACATATGTATTGCGATAGTTGGTAAGTTTTTATCGATAGTTTACTTTTTATGGAGATATGAGGATCATCTGCAAGTTTCGAAGGACTTTGATATGGCATCTGTACGCGAAATAAATTTAAATATGCCTATTTTATTATTTGTATTCCTATTCTTATTAGTGATCATCATTATTTCAAATCTCATTGTCTTCTTGTTTATTAGAAAACTTGAACCGAAAACATTAATAGGTGGGATGGAATAA	MQQNKDVISYGTYEESIIELESSNRLLQEIMLEELKNKTFRDKNPTILIITIDENYYKLLNIPIKAGTGFSYQDFQKNSEEKTNVLLGPYFKKYFQIGDTINNQYTIIGFLPENKFIINGNGANIYQKLDKAMLSPMPIDRYEHYEIMFSRLHQSTIMNLKRDADVNKLQEMIQLKGSDVTLYLKNLGGEINEAVTSSMDTENIDLIVGSLFILFIIAGIVVTTIVSIMMRKREFGIKMVLGESKFGMFIQIVLENICIAIVGKFLSIVYFLWRYEDHLQVSKDFDMASVREINLNMPILLFVFLFLLVIIIISNLIVFLFIRKLEPKTLIGGME	PGPT0013350_13998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01598	279			hypothetical protein	ATGAGACTAAAAAGTGCTCTTATGGCTTTGAAAAATAGATTGCTCATTTCCATATTTCTCTTAATACAATTCACGTTTGGATTAGCGGCAATAACCCTTTCCATTAATATGCTTTGTAATTTTCACTATCTTGGAAACAGTTCCAACTCGTTGCTAGATTTAGAAAGTACATATTTTATCACTTATGATGAGATGACTACTGATAGGCTGAAGGCAGATCAATTTAATAAAGGGCAAATCGAAGAAGTTTATAAAAAATGCAGCAAAATAAAGATGTGA	MRLKSALMALKNRLLISIFLLIQFTFGLAAITLSINMLCNFHYLGNSSNSLLDLESTYFITYDEMTTDRLKADQFNKGQIEEVYKKCSKIKM	PGPT0013350_13998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01599	1086			hypothetical protein	ATGAATCTAATATTAAAAGAAATAGCAGTGAACATAAAAATATTCATTATGTTATTTATTGGATTTACTTTAACAATTCTGCCCATACTTATAGCGATGTCGATTCGAGATTATTACGATGAAAAATTTTATGAGTATAAAAATGGTTATTTTAAATATTACTATGCTATTCAGCTTACTAGTTTTGGGGAATTGGATTTTAAAGCAATCCAAGCGATAACAGAAACTAGTTTTAAGAATTCAAGTGTTATTACAAATGATATGAGAACCAAACTGCCAGGCATAGGTGAAGTAACGATGGTTGGTCTTATAAATAAAAATTGGTCTCCGCCTTTAATAAAGGGTTCTCATATGGAAGATGGGGAAGAAAATAGTGTAATTGTCGGAAAGAGAATTTATAAAGAATCTGAAACAATAAAACTGTTTAGTAGAGAATATAGAGTTAAAGGCGTGAGCGCTGCGAATACCGGATACGCATATGACTACAATGTTTTTGTCGGCTTAAGTGACATGCCTGATGAGATAAAGCGACGTATGCAAAATGAAAATACATTTGAAATGATAGTAAGGTCTAACGAAAATCCTAAACAAGAAATAGATACATTTATTCGGTATGTTAAGCAAAATAGAACTGATACAAATGCGAAAGTGATAAATGAAAAAGAGAATTATGAGAACGAAAAAAGCTCGAATAAAGCTATGAGAGCACAACTTACTCTTCCGTACAGTCTACTTTTTATTGCTGTAATGAACTGTATAATTGCGAGTTATTTTTGGATTTACACGAAGAAGAAGAGTATTTCCTTAAGGAAAACGTTGGGAGCAAGCAATTTGAATTTATTTGTATTTATATTTAGCCAATTATTCATATGCGCAATCGTTGCAGTCATTTGTGCGATATGTATGCAGTGGATTTTAAGTACAATGAATAAAAGTATAGTATATGTAATGGGTTTTACTATTCATATAGATGTTTTCAAAGTTGTGATGAGTGTAGTAATTTCCTTGTTTATTTCGTTCATCACCGCTGTAATACCATTTTTCAAAATACTTAAAATTGAACCTGCTAAAGCGTTAAAGGAGTAA	MNLILKEIAVNIKIFIMLFIGFTLTILPILIAMSIRDYYDEKFYEYKNGYFKYYYAIQLTSFGELDFKAIQAITETSFKNSSVITNDMRTKLPGIGEVTMVGLINKNWSPPLIKGSHMEDGEENSVIVGKRIYKESETIKLFSREYRVKGVSAANTGYAYDYNVFVGLSDMPDEIKRRMQNENTFEMIVRSNENPKQEIDTFIRYVKQNRTDTNAKVINEKENYENEKSSNKAMRAQLTLPYSLLFIAVMNCIIASYFWIYTKKKSISLRKTLGASNLNLFVFIFSQLFICAIVAVICAICMQWILSTMNKSIVYVMGFTIHIDVFKVVMSVVISLFISFITAVIPFFKILKIEPAKALKE	PGPT0013350_21504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01600	948	nylB_1		6-aminohexanoate-dimer hydrolase	ATGATGAAAACTGCTGAAAAGTTAGATCAAATTATAAAAGAAGAATATAAAAATATGAATGGTATGTTAGTAGTACAGAAAGAGAATGCTATTTTTGAAAAATATTATAACGGACACGGTCCAGATGATGCATTTCATGTAGCGTCAGTTACAAAAACGATAATCTCTGCGTTAATTGGGATATGTATAGATAAGGGCTATATAAAAAGCGTTGATCAAAAAGTAATAGAGTTTTTCCCTGAATATACACTTAAGGCATCTGACATAACAGTGCGACACCTCCTTACAATGACAGCACCATATCCTTTTACGGATTGGCAGGAACCGTTAGAAGAACTATGTACACAAGAGGATTGGGTACAGTATACACTTAATAGAATGGGGAACGGCGGAGAAATCGGATCTTTTAAATACTCATCTGCAGGAGCTCATTTACTATCAGCAATTATTACGAGCACAACAGGAAAAAGTGCTCGTGAATTTGCAAACAAATACTTATTTCAACCACTCGATATGAGAGAAATTCCAAACTATAATATGAAAGCATTTGGATTTGATGACCTATTCGGAAAAGATGTGAAAGGATGGGTTCACGATCCAAATGGTATTTCAACAGGCGGTTGGGGACTAACGTTAACGGTTAGGGATATGGCGAAGTTTGCACAGATGTATTTGAATGAAGGTATTCATAATGGAAAACAAATACTATCAAAATCATGGATAATAGAATCAATAGCGATGAATTCAAATCAATATGGTTACTTATGGTGGTTACGAGAAGAAGATGGAATCTTTTCATACTGTGCTATGGGTGATGGTGGGAATATGATTTGTTGTATTCCGAAGCAGGATTTGGTTGTAGTAATTGCTTCTGAAATTATACCGAATGCACGGGATAGATGGGAATTGATTGTGAAATATATTCTTCCTTACTTACAAAACAATTAA	MMKTAEKLDQIIKEEYKNMNGMLVVQKENAIFEKYYNGHGPDDAFHVASVTKTIISALIGICIDKGYIKSVDQKVIEFFPEYTLKASDITVRHLLTMTAPYPFTDWQEPLEELCTQEDWVQYTLNRMGNGGEIGSFKYSSAGAHLLSAIITSTTGKSAREFANKYLFQPLDMREIPNYNMKAFGFDDLFGKDVKGWVHDPNGISTGGWGLTLTVRDMAKFAQMYLNEGIHNGKQILSKSWIIESIAMNSNQYGYLWWLREEDGIFSYCAMGDGGNMICCIPKQDLVVVIASEIIPNARDRWELIVKYILPYLQNN				NA	NA	NA	NA	NA
AK009_01601	891	sbmC_2		DNA gyrase inhibitor	ATGGAGAGTAAACAAAGTAGAAATGAATACTTACGACGCATTTATAAAGTGCAAGATTATATAGAATCACACATAAATGATTCACTATCCATTGAAGAGCTAGCGGATATAGCAGGATTTTCAAAGTTTCATTTTCATCGGATTTTCAAGGGGATATTAGACGAGCCATTATCACGGTATGTAAACCGATTGAAGTTCGAAAGGGCAACAAATCTACTTACATATCGCACAGATATGACGATTACACATATTGCGTATCACTTCGGGTTTACAGATTCAGCAGTTTTCTCCCGCACATTTAAAAGTCATTACGGAATAAGTCCATCTCAATATCGAAACGATAATAGCAAGAATTGCAAAGACGTAAGGAGAGCTTCTCAATACAATAAGTGTAAGAAGGTTCGAGGAAATGTTGAAATTGTAACAGCGGACGATATACACGTCGCATACATAAGGCATATCGGTACATATGAAGAGTTAACGATAGCTTTTCCAAAAATGATAGAGAAATTATTTCATTACGCAGCGAAGGAAAACTGTCATGTATTTGAGGATACGAAAGTATTAACCATTTACCACGATCATCATGAATTTACTGAAGAAAATCATTTAAGAACAAGTTTATGTATAAAAATTCCAGAGGGGTCCCCAGTAGAAACGAGCGACATTGGAATAATGGTAATACCTTCTGGAAAGTATGCGGTAGGTCATTTTGAAATATTCCAGGATGAATATAAAGGAGCATGGGATTTCTTATACGGTGAGTGGCTTCCTAATAGCGGATATAAACCGAGAGATTCGTATCCTTTTGAAATGTATAAAAATGACCCAAGACGGCACCCGGAAAATAAACATATAGTTGATATATATGTACCGATCGAACCTTTTTAA	MESKQSRNEYLRRIYKVQDYIESHINDSLSIEELADIAGFSKFHFHRIFKGILDEPLSRYVNRLKFERATNLLTYRTDMTITHIAYHFGFTDSAVFSRTFKSHYGISPSQYRNDNSKNCKDVRRASQYNKCKKVRGNVEIVTADDIHVAYIRHIGTYEELTIAFPKMIEKLFHYAAKENCHVFEDTKVLTIYHDHHEFTEENHLRTSLCIKIPEGSPVETSDIGIMVIPSGKYAVGHFEIFQDEYKGAWDFLYGEWLPNSGYKPRDSYPFEMYKNDPRRHPENKHIVDIYVPIEPF				NA	NA	NA	NA	NA
AK009_01602	471	yqjY		putative protein YqjY	ATGCAAGTAAGAAACATCCAAGGGGAAGATTATGTAAAGATTCATTCTGTTTTAAATGATTGGTGGGGCGGTAGAGATATGGCTGCTATGTTGCCAAAACTATTCTTCGTTCATTTTCAAGAAACGAGTTTTATCATTGAAGAAGATGGCGAAACGTTAGGTTTCTTATGTGGATTCTTTTCACAAACATATAAAGATGAAGCATATGTTCATTTTATCGGTGTCAATCCGAAGTATAGAGGAAGAGGAATCGCATCGACATTGTATTCTTATTTCTTTGATATCGCTCGTGCAAATAATCGTAAAGTTGTAAAAGCAATTACGTCACCAATTAACAAAAAGTCGATACAGTTTCATCAAGAAATCGGTTTTCGAATTGAGGCCGGGGATGATGAGGTAGAGGGTGTATCGGTACATACAAATTATGATGGGAACGGCGGTAGTAGAGTTTTGTTTTTGAAAAATGTGTAA	MQVRNIQGEDYVKIHSVLNDWWGGRDMAAMLPKLFFVHFQETSFIIEEDGETLGFLCGFFSQTYKDEAYVHFIGVNPKYRGRGIASTLYSYFFDIARANNRKVVKAITSPINKKSIQFHQEIGFRIEAGDDEVEGVSVHTNYDGNGGSRVLFLKNV				NA	NA	NA	NA	NA
AK009_01603	402			hypothetical protein	ATGATAAATCGAAAATGTTCAAGGTGTAAAGAGATAACGGGTACAATACATGGGGGTAAAAAAATTAAGGAAGAATTTTTATGTGAGGACTGTTTGCAAAAAGGAATTGCGAGCGGGGAAATCGAATTATCACAAGTGGAGAAAGAACAAACTTCGTATCTTTCTATAAAAATATTAAAAATAATGAGTGTTATTTATTTAATAGTATCAATTATAACCGCTTTTTCTGCTGGAGCATTTATACAGGATCCAGGGCTTGGTGGAATATCTTTTTCAATAACAGGTGCAGTTGGTGTTATGATAATTGGATCGATATTTCAGTCTGTTCTTGTATTTTGTGGAATATGGGTATTCATCCTTTTAGTAGAAACGGTTATTAAAATTTATGAAAAAATGAAGTGA	MINRKCSRCKEITGTIHGGKKIKEEFLCEDCLQKGIASGEIELSQVEKEQTSYLSIKILKIMSVIYLIVSIITAFSAGAFIQDPGLGGISFSITGAVGVMIIGSIFQSVLVFCGIWVFILLVETVIKIYEKMK				NA	NA	NA	NA	NA
AK009_01604	453			hypothetical protein	ATGATTTCAAAACTTACGTTTGGCTCGAAAAAGCGTACCGTTCATTATGTATTAAGACCTAGTTGTTATGCAGTTATTTTCCATTCATCTTCTTCAATGATTGCTGTTATCCAAAAAGGTGACCGTTACTTTTTACCTGGTGGCGGTATGGAAGGTAATGAAACAAAAGAAGAATGCTTGCACCGTGAACTACTAGAGGAATTAGGATGGGCAATTAAAATTGATCAGTATATCGGTAATGCGGTTCGATATTTTTATGCAGAAAAGGAAGATACATATTATTTGAATGATGGATTCTTTTATATTGCGAACATGGTGCAGAAACAAACTGAAAACTGTGGGGAGGATCATGTTTTACGATGGATGTCTCCATTACTTGCTGTTAAGCTTCTCATTCACGCTCATCAAAAATGGGCGGTTGAACAAGCACTTTTATTACGAAAACAAAAATGA	MISKLTFGSKKRTVHYVLRPSCYAVIFHSSSSMIAVIQKGDRYFLPGGGMEGNETKEECLHRELLEELGWAIKIDQYIGNAVRYFYAEKEDTYYLNDGFFYIANMVQKQTENCGEDHVLRWMSPLLAVKLLIHAHQKWAVEQALLLRKQK				NA	NA	NA	NA	NA
AK009_01605	912	eamA_2	COG0697	putative amino-acid metabolite efflux pump	ATGAAAAGATGGCAAATGGAATGGCTCCTAGTATCAGTAGCGTTAGTATGGGGAGCAAATTATACAATAGGAAAGTATGGCGTGGCATATATGTCATCCATTCAATTTAATAGTTTACGATTTTTAGTAGCATCACCGGTCTTATTACTTATTACATTTATGATGGAACGCTCATTACGTATTGAAAGAAAAGATTGGTTACGATTAGTAGTAGTCGGTATAGTTGGAACGGCAATGTATCAAACGATGTTTATGCTATCTGTGAAATACACTTCAGCAACGAACGCCTCATTATTAATTGCGATGTCACCTATATTTACAGGGATATTAGCAGTATTGCACAAACAAGAACGTTTTTCGATGAAAGTACAAATTGGTTCAATAGTAGCGTTTATTGGTGCAGCATTTGTTTTATTAACAGGACATACAGGAGGAGCTACTTACGAATATGCGTGGCTCGGAAATGTAATTGGATTAGTCGCAGCAATTGCGTGGGGATGGTATCCAATATTAGCGCAACCTCTTATTACAAAATACTCCGCAATGAGAGTTACATCATGGTCTACTTTAATTGGAATTGTACCACTTGTTATATACTGTTTATTCAACGTAAACTCTTTAACATGGCCAGTAGATACGCCAAGCTGGGGTTCACTAGCATATTCAATCATCTTTGCGACCATCTTCGGACTATCAATGTGGTATGTCGGTATTAGTCAAATAGGCTCAACGAAAGTAATGGTTTATATGTATCTCGTACCATTGTTCGCAGTTATCTTTGCGGCAGTTACAATTGGAGAGCAAATTAATATGATGCAACTCGTTGGCGGACTTATTATCTTCATCGGCTTATATGTTGTAAAAAAAGGCGGAATCAAAAAGCCTGCTTTCAATTTGAAAAAAGTCAGTTAA	MKRWQMEWLLVSVALVWGANYTIGKYGVAYMSSIQFNSLRFLVASPVLLLITFMMERSLRIERKDWLRLVVVGIVGTAMYQTMFMLSVKYTSATNASLLIAMSPIFTGILAVLHKQERFSMKVQIGSIVAFIGAAFVLLTGHTGGATYEYAWLGNVIGLVAAIAWGWYPILAQPLITKYSAMRVTSWSTLIGIVPLVIYCLFNVNSLTWPVDTPSWGSLAYSIIFATIFGLSMWYVGISQIGSTKVMVYMYLVPLFAVIFAAVTIGEQINMMQLVGGLIIFIGLYVVKKGGIKKPAFNLKKVS				NA	NA	NA	NA	NA
AK009_01606	1452	norG_3	COG1167	HTH-type transcriptional regulator NorG	ATGGAATGGAAGCTAGATAGTGACAGTAAAATCCCTATTTATCAGCAAGTGGTTGACTTTATTGAAAAACGTATTACATATGGAGAACTTCCTCCAGGAAGCTTCCTCCCTTCAGAACGGAAATTAGCTACGCAGTTAAATGTAAACAGAAGTACAGTAACGACTGCTTATAATGAACTTCGTGCTATGGGAATTGTAGAAAGTACGACTGGTAAAGGTACACGTGTGAGTACACATATGTGGGGCGTTTCTCCAACATTAACGCCGAACTGGAGAAATTTCGTAGAAGGTGGTACTTTTTTACCAAACTTACCACTACTTCGCCATATTCGGGCAGAAGTACAACAAAATGAAAATATTATAGATTTCGCTAATGGAGAACTCGGTTGTAATCTTTATCCTCACGATCAACTACAAACGATTTTACGTGAACAACCGTTAACGCATTCATTAAGTTACGATCATCCGCAAGGCTATCTCCCGCTAAGACAAGCGGTCGTAAAATATATGAAAGAATATTTAAAAGTTGAGGCGACTGAACAATCCATTATGATTACATCCGGCGCTCAACAAGCACTGCACCTTATCGTGCAATGTTTATTAAATCCAGGTGATGCTGTTGCTTTCGAAAGTCCTTCACACTGTTATTCCCTGCCGTTATTCCAATCAGCAGGTATTCGTATTTTCCCATTACCTGTCGATGAACACGGCATTAATCCAGACGATGTACAAGAGCTATACAGAAAGCACCGCATTAAAATGATTTTTTTAAATCCAAATTTCCAAAACCCTACGGGGACGATGCTTCATCCAAACCGTAGAAAAAAACTATTATCACTTTGCGCAGATTTACGAATTGCAATCGTTGAAGATGATCCATCTAGTTTGCTGACGCTAGAAAAGAAACAACCTTGTCCTACTTTGAAATCAATAGATGAAAATGGAACTGTCATTTATGTACATTCTTTATCAAAAATGATTGCGCCAGGATTACGAGTCGGTTGGCTTGTCGCCCCGCAGTCTGTCGTAGAGCGATTATCAGATGCACGGCACCAAATGGAATTAGGAATGAGTATTTTCCCGCAGTGGCTTATGCAACAATTTTTTGAAACTGTACCATTTCAGTCTCATATCGTACCGTTACGAAAACAACTAGCAGAAAAAAGAGACGTTATCGTTCGTGCCCTAAACGAGCAACTTCATGATAAAATCTCTTTTTCAAACCCTACTGGTGGTATATACATTTGGGGGAAATTAAAAGAACCTATAAACGAAAAACAAATCATTATGCAAAGTTTAAAACAAGAAATTGCTTTTATGCCAGGTAGTATTTTCGGTGCGAAAGATGGTTATATACGTTTATCTTATGGAAAAGTGGATATTGATCAAATTGAGGAAGGTATTTCTCGTTTACGCGAGGCTATTTTGGTATGTGAAAATAACTTTAAATAA	MEWKLDSDSKIPIYQQVVDFIEKRITYGELPPGSFLPSERKLATQLNVNRSTVTTAYNELRAMGIVESTTGKGTRVSTHMWGVSPTLTPNWRNFVEGGTFLPNLPLLRHIRAEVQQNENIIDFANGELGCNLYPHDQLQTILREQPLTHSLSYDHPQGYLPLRQAVVKYMKEYLKVEATEQSIMITSGAQQALHLIVQCLLNPGDAVAFESPSHCYSLPLFQSAGIRIFPLPVDEHGINPDDVQELYRKHRIKMIFLNPNFQNPTGTMLHPNRRKKLLSLCADLRIAIVEDDPSSLLTLEKKQPCPTLKSIDENGTVIYVHSLSKMIAPGLRVGWLVAPQSVVERLSDARHQMELGMSIFPQWLMQQFFETVPFQSHIVPLRKQLAEKRDVIVRALNEQLHDKISFSNPTGGIYIWGKLKEPINEKQIIMQSLKQEIAFMPGSIFGAKDGYIRLSYGKVDIDQIEEGISRLREAILVCENNFK	PGPT0028960_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_01607	441			hypothetical protein	ATGAAGATTTACGTTGATGCAGATGCTTGTCCTGTAAAAGATGTAATTATTTTTGAGGCTACGAATGTGGAAATTCCTGTTACCCTCGTTACTAGCTTTTCACATTATTCTAATGCAGAGCAGCCAAAAGGTGTCGAAACAATTTATGTTGATTCTGGAGCAGATGCTGCGGATTACCGGATTATGCAGTTAGCAAAAAAAGAAGATTTAATCGTAACGCAAGATTACGGTCTTGCTTCACTCGCTTTAGCAAAAGGCTGTATCGTACTACACCATAAAGGCTATAAGTATACGAATGACAACATTGAACAATTGTTACAAACACGGTATTTAAGTGCAATGGTTCGAAAAAGCGGTAAGCGTACAAAGGGACCGAAACCATTTACAGCAGAAGATAAAGAGAAATTTAGAGCGCTCTTTAAAAGTATGATCGCTCATTAA	MKIYVDADACPVKDVIIFEATNVEIPVTLVTSFSHYSNAEQPKGVETIYVDSGADAADYRIMQLAKKEDLIVTQDYGLASLALAKGCIVLHHKGYKYTNDNIEQLLQTRYLSAMVRKSGKRTKGPKPFTAEDKEKFRALFKSMIAH				NA	NA	NA	NA	NA
AK009_01608	315			hypothetical protein	ATGGACAAAAAAGACTTTGAAAAAGTTTATAATGATTACTTACATCAAGGAGAAGAACAAGCTCAATTTGAAGTAGACCATGAAGTTAATTCAGGAGCAGAACAAATTGTTGCTGTTCGTAAAAATGATGATGGTGATTTAATTGCGTTTAAAACAAGTAGCGGGAGAGAGTTAGATTATATGACTGCCCTTGAAGAAGCAAAATCAGGGAAGTTAGCTCATGTAGACGTATTTCATAAGTATGGCAGAGATATTATACGTAGTGAACCTGATGGAATAAAGGAAAATAACTTAGATAATTTACCTTCATTTTAA	MDKKDFEKVYNDYLHQGEEQAQFEVDHEVNSGAEQIVAVRKNDDGDLIAFKTSSGRELDYMTALEEAKSGKLAHVDVFHKYGRDIIRSEPDGIKENNLDNLPSF				NA	NA	NA	NA	NA
AK009_01609	873			hypothetical protein	ATGAATATAGATTTTAATCGTTTAACTAATATTTGTTTAGAGTTTCAACAATCTAGATTTTATGTTACTAGAATTCCTAAAGATTTCTTATCAATTGCTCAAAAACGTTTTTCTATACCAACGGAAGATCAAATTGTCGCTTTTTTAAGTTGTAATTTATTAGGATCAGGCAAGTATGGTGTTTACTTTACGAGTTCGGGTTTATACTGGAAAAATTGGTTATTAGGTAAAGGAAATTTGAAATGGGAACAATTAAATAAAGTGCAACAAATTGAAATTGATAAAGATGGTTTCTTATCTTTTGATGCACAAAAAAGTTTCAATATTAACGGGAGTGACTATCCCCCACTATTATTTAAAGAATTGCTAATAGCTCTTACGAATTCATTCCAAAATTCAAAACAACAGGATATACATCCAATTATAAAAATGGATGAGATAAAATCTATTTGCTCTTTATTTGAAACGCACAATGAATTATTAGAACCTGATAATGGATTATTTGTAGACACTCATATTTCAGAAAAAAAGTTAAAAGCAATTGAGGCACGATTTATCATTCCAAAAGAAGAACAGATCATCGCTTTTTTAGATACATCTGTTCTTGGGAATATGGGGAAAGGATCGGATGGGGTATTAATTTGTCAATCAGGTATATATTTTAGAGAAGCTTTTGTACACTTATATTTCCCATGGCATGTTTTTAAAAACATCCCTATTACTTTAACTTCGGATGAATTTGAAATTGGGAAAGGAAATATATTTCATCTTCTACATGCTAGAATGCCTAGTCAAGATATTCTATTATTCATCAAGAATTTAAAACAGTACGTGAATAGTTTATATGAAGAACAACCACAATTACATATTTAA	MNIDFNRLTNICLEFQQSRFYVTRIPKDFLSIAQKRFSIPTEDQIVAFLSCNLLGSGKYGVYFTSSGLYWKNWLLGKGNLKWEQLNKVQQIEIDKDGFLSFDAQKSFNINGSDYPPLLFKELLIALTNSFQNSKQQDIHPIIKMDEIKSICSLFETHNELLEPDNGLFVDTHISEKKLKAIEARFIIPKEEQIIAFLDTSVLGNMGKGSDGVLICQSGIYFREAFVHLYFPWHVFKNIPITLTSDEFEIGKGNIFHLLHARMPSQDILLFIKNLKQYVNSLYEEQPQLHI				NA	NA	NA	NA	NA
AK009_01610	825			hypothetical protein	ATGAATGAAGTACTAGAACTAAAAGAAGAACTACTACAAATTAAAAATAATAATTATGCTGTACCAGAAGACGTAGATGCTTATCCATATGCACAGTGGATGTTAGATTATATCGGGTCAACTGATGCTGAATTACGCGATGATTTAATTTATAGTACGCTTCACAAATGGATTACAAATGATGTGTTTAGACAAAAAGAATTACGAGGATTAATGCTGCAAGCAATTAGCCCTGATTATTTATTTTATAAAATTGGTGAAAAGGGAACAGATTCTGTCTTTAAACGTGCATTTTCTGTATTAATTCCACCACTTATTTTATCTGTTCATGAAAGAGAACCATTGTTATCTGAAGAACAACTGTACAGTGTGGCAGAACAAGTGCTGGAATATGTATATTTAGAAGAAGATGTAAGAGGCTACGTAGAAGGAAAAGGCTGGGCACACTCTACTGCACATGCAGCAGATGCGCTCGATGCTTTAGCACGTACAATCCAAAATCGTGAGTTCTCATATGCAATACTAGCTGCTGTTCGCCAGAAGGTACGCTTACATGACTACGTATACATTCACTTTGAGGATGAGAGATTAGTAGCACCAATTATGTCGTTACGTAACCAAAATCTTTTAACTGAAGAAGAGTGGAGCAACTGGTTACATAGTATAGCAATTGTTGAAGACATCCCGCATCCTCAATATGATATTTTAGTACAAAATATTAGAGCTTTCTTAAGAAGTTTATATTTTAGAGTTTTAGAGACAGAGGGTAGTACAGCCTTTACAGAGGATATATTGGAGACTTTGAAAGGGTTGCGTAGGTATTAA	MNEVLELKEELLQIKNNNYAVPEDVDAYPYAQWMLDYIGSTDAELRDDLIYSTLHKWITNDVFRQKELRGLMLQAISPDYLFYKIGEKGTDSVFKRAFSVLIPPLILSVHEREPLLSEEQLYSVAEQVLEYVYLEEDVRGYVEGKGWAHSTAHAADALDALARTIQNREFSYAILAAVRQKVRLHDYVYIHFEDERLVAPIMSLRNQNLLTEEEWSNWLHSIAIVEDIPHPQYDILVQNIRAFLRSLYFRVLETEGSTAFTEDILETLKGLRRY				NA	NA	NA	NA	NA
AK009_01611	666	udk_2		Uridine kinase	ATGAACCGAAAACAATGTATAAAAGAAATTGCTAATCATATTTTAATGTTAAATTTAACGCACCCAACAAGAGTTGGAGTAAGCGGTATTACAGCATCAGGAAAAACAACATTTGCAAACGAATTAGCGGAAGAAATAAAAAAACGAGGGTTACCAGTAACGTGCGCTAGCATTGACGATTTTCATAACTCAAAAGTGATTCGTTATACACAAGGTAAAGAATCTGCAAGAGGGTATTATGAAGATGCACACGATTATACAGCTTTCAAAGAAAGGTTATTAAAACCTTTAGGACCTAATGGGAATTTACAGTATGAAACGATCTCTCATAATTTAAAAACGGATATTCCTGTACATAATGAGCCGTTAATGGCTCAACCCAATATGGTACTCATAGTAGATGGAACATTTCTATTGAAAAAAGACGTTGAGTATTTATTTGATTACAAAATCTTTGTAGATACAGATTTTGAGATTGCGAGAAAACGTGGTGCAAAGCGCGAGACTGAGGCTTTTGGAAGTTATGAAGAAGCTGAGAAAATGTTTTTAAACAGATATCATGCGGCCTGTAAGATGTATATAGATGAGCATAATCCGAAAAGTTGTGCGGATGTTGTATTTCAGAATAGTGATTTAGGAAATCCAGAAGTTATATTTCATGAATGA	MNRKQCIKEIANHILMLNLTHPTRVGVSGITASGKTTFANELAEEIKKRGLPVTCASIDDFHNSKVIRYTQGKESARGYYEDAHDYTAFKERLLKPLGPNGNLQYETISHNLKTDIPVHNEPLMAQPNMVLIVDGTFLLKKDVEYLFDYKIFVDTDFEIARKRGAKRETEAFGSYEEAEKMFLNRYHAACKMYIDEHNPKSCADVVFQNSDLGNPEVIFHE	PGPT0021230_2276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK009_01612	744			hypothetical protein	TTGGATAAAATAGCGGTAATTTCAGATATACATGGTAATATTCCAGCATTAGAATCTGTACTGCAAGATATTAAATTAAGAGGAATCGAGCGCGTCGTGTGTCTTGGAGATTTAGTCGGAAAAGGTCCTCATTCTAGCGAAGTGATTGAAATCATTCGTAAAGAATGTGAAGGAGTTGTAATGGGGAACTGGGATGATTTCATTACAAAACCGACTGAATTTGAAACGTTAAAATGGCATCAAAAACAATTATCGGAAGAACAAAATGACTATTTAAGAAGCTTACCATTTTCAATCGAATTTTTTATGAGCGGCAAACTGATCCGTATGTTCCACGCTTCACCGAGAAGTTTATATGAAAGAATTCAACCACATGCCTCAAGAGAAGAGCGTATTAGTATGTTCGAAAATAGTGAGCTCACAGAGAATATAGAAGGGGAAAGAAAACCAGATGTCGTTTGTTACGGTGACGTTCACCAAGCGTTCGTTCAAAATTTCAGAGGGAAAACGTTATGTAATGCCGGTAGCGTAGGAAACCCACTTGAAATAACACAAGCTTCCTATTTAATATTTGAAGGAACTTACAATGAAAAAGAAGCAGCGAGCTTTTCTATTCAACTCGTACGAGTACCGTATGATATTGAATTAGCTATCAGGCTGGCAGAAGAGCTCGATATGCCAGAAATTGAAGAATACAAACAAGAGTTACGGACTGCTTTATATCGAGGGTTTAAGGGGAAGTAA	MDKIAVISDIHGNIPALESVLQDIKLRGIERVVCLGDLVGKGPHSSEVIEIIRKECEGVVMGNWDDFITKPTEFETLKWHQKQLSEEQNDYLRSLPFSIEFFMSGKLIRMFHASPRSLYERIQPHASREERISMFENSELTENIEGERKPDVVCYGDVHQAFVQNFRGKTLCNAGSVGNPLEITQASYLIFEGTYNEKEAASFSIQLVRVPYDIELAIRLAEELDMPEIEEYKQELRTALYRGFKGK	PGPT0030420_624	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
AK009_01613	939			hypothetical protein	GTGAAGGAAATGCTTAGAGAGATAGAGAGTAAACTAGAATGGCCTCGTATTGTAAAGTGTACAGTTATTTCAAAAGGTTTTTCACATGAAGAGAAATATAAAATAGAATTAGAAAACAGAGTAACATATTTTGTGAAAGTATGTGATGCTGTTCATTTTGAACGTAAACAAGAAGAATATATGTATATGAAACAATTAGAGTCATTACATATTCCAACGCCTAAGTTAATTCATTTTATAAAACTTGAACAAATAAATAAATGTGTTCAAGTATTTGAATGGATCCAAGGTATAAATGGTGAAGAAGGTTTAGGGAAGCTATCCGTGGAAGAACAGTACCATGCAGGAAGAAAAGCAGGAGAAGTACTAAAGAGGATTCACTCAATTGAAAGAGAAAGTGCAAGTAATAAATGGGAAACAGTTCGATGGAATAAATACGAAAGATACGTAGAAGCGTTAGCAAATTATGAAATAGACTTCCTTGATTTGAAGCCAGTATTAAGATTTGTAGGGGAGCATAAACAATTATTGAAAAATCGCCCTATTACCTTTTTACACGATGACTTCCATCCAGCAAATAGTATGATTCATAATAAGGAGTTTATCGTTATCGATTTTGGTGGATATGATTTTGGTGATCCAATACATGATTTTTATAACGTAGCGATTTTTACTACAAGAATAAGTAAACCATTTGCGGTTGGACAAGTTCACGGATATTGCGGAGGCGAACCGTCGCTTCATTTTTGGAAACTGTACTCATTATATGCAGCAATGACATTCCCAGCTGATATCGTATGGACAAACCGAAGCACGCCACATTTAGTAAATGATATGAAGGAAAGATTGAACGGAATTTTAGAAGATCATAATCATTTTTCATCCTATATTCCAAAATGGTATCAATCACAACATGAGGATATAATAAACTATAAGTAA	MKEMLREIESKLEWPRIVKCTVISKGFSHEEKYKIELENRVTYFVKVCDAVHFERKQEEYMYMKQLESLHIPTPKLIHFIKLEQINKCVQVFEWIQGINGEEGLGKLSVEEQYHAGRKAGEVLKRIHSIERESASNKWETVRWNKYERYVEALANYEIDFLDLKPVLRFVGEHKQLLKNRPITFLHDDFHPANSMIHNKEFIVIDFGGYDFGDPIHDFYNVAIFTTRISKPFAVGQVHGYCGGEPSLHFWKLYSLYAAMTFPADIVWTNRSTPHLVNDMKERLNGILEDHNHFSSYIPKWYQSQHEDIINYK				NA	NA	NA	NA	NA
AK009_01614	798			hypothetical protein	ATGTTGCGATTTGATCATCTAGTACACGCCGTACATTGTACACCGGAAGAAGCGGCAAAACAAATGCAGGCGCACGGATTTTATACTGCAATAGGTGGAGAGCATATTACTTGGGGTACTTGGAATAGTTTATGTTATTTTGATTTATCATATATCGAATTTTTAGCAGTGCAGCATGAAGAAAAAGCGAAAGAAGCAGACAATCCATTAGTACAAGAAACAGTAGTGAAATTACAAGACGGAGAAGGAATGCTGCAAATCGCAATTCGAACAGATGCAATTGAAGACCTAGCAGTAAAGTTTAGTAAGCACGGTTTACATACGATAGGACCATTTGAAGGGAAACGTATGAGAAAAGATGGTCGCCTTTTAGAATGGAAAATGTTATTTGTAAAGCAAGAAGAGAACGGACCGAAATTACCTTTCTTTATACAATGGAATGAAACGGACGAAGAAAGAAGAAATGATTTACGTAACATTGGAACAATCACGGAACATAAAAATAAAGTACAACAAATTGAAACGATCCATTATGCAGTGAAAAACGTTCGAGAAACGGTGCGGAAATGGAAAGAAGTAATGGGGCTATCTACAAGCTCAGTTGTGAAAAGTGAAAAATGGAATGCCGAGTGTCAAAGTGTAGTATTTGGAGATATTCATGTGCAGTTTTGTGAGCCGATTGGAGAAGGGCTAGTGCTAGAACATCTGAATAAGAATGGCGAAAATCCTTTTGCAGTGGAGTTTAAAGGTGAAAATAAACGAGAGCATGAAGTGTTACATAGTTTGTACATATATTGA	MLRFDHLVHAVHCTPEEAAKQMQAHGFYTAIGGEHITWGTWNSLCYFDLSYIEFLAVQHEEKAKEADNPLVQETVVKLQDGEGMLQIAIRTDAIEDLAVKFSKHGLHTIGPFEGKRMRKDGRLLEWKMLFVKQEENGPKLPFFIQWNETDEERRNDLRNIGTITEHKNKVQQIETIHYAVKNVRETVRKWKEVMGLSTSSVVKSEKWNAECQSVVFGDIHVQFCEPIGEGLVLEHLNKNGENPFAVEFKGENKREHEVLHSLYIY				NA	NA	NA	NA	NA
AK009_01615	1011			hypothetical protein	ATGTATTATAATGAAACAAATTTAATTATTGCTGATTGGAAAAACCAAAGGCACTTTTCTCATACGGGAAAAGTGCCTTTTTCATTTATTATTACAGGGGGATTATTTATGCAGAAATTAATTGTCTTTGCTATTATCGGATTTTTCGCTCAATTGATTGATGGGGCACTTGGAATGGCGTATGGGGTAACATCTACCTCACTATTATTAATGTTTGGTATCGCACCGGCTGTAGCTTCCGCTTCTGTTCATTTAGCTGAAGTCGTTACAACCGCCGCTTCCGGTGCATCTCATATCAAATTTGGAAACGTTGATAAATATACAGTTTCCAGACTTACATTACCTGGAGCAATTGGTGCATTTGTTGGGGCATGTTTTTTAAGTAATTTACCTGGCGATGTAATTAAACCGTACATTTCCGTTTTTTTATTTACTTTAGGGGTTTATATTTTATTACGATTCGTCCTTCAAAAACAAATTGTTGCTTCAAATAAGCGTATGTCTGCAAAACAACTTGTGCCGCTTGGTTTATTTGCTGGATTCGTTGATTCAACTGGTGGCGGTGGCTGGGGGCCGATTACGACACCCGTTCTTCTAGCAAGAGGAAATGAAGCTAGAAAAGTTATTGGATCTGTAGATACGAGTGAATTTCCTGTTTCACTCGCTGCAACAATTGGTTTCTTCATCTCACTTGGCTGGGAACAAGTAAGCTGGGTTTGGGTATTTGCCTTAATGCTTGGCGGTATTGTCGCAGCTCCAATTGCTGCATGGTTAGTTCGTATCGTTCCAGCACATTTACTTGGGGTATTAGTTGGTGGTCTTATTATCTTTACGAATATACGTACACTGCTGACTACATTTAAAGTGGATCCAACTATTATTTCACTTTCTTACGTGGCAGTTGGTCTTGTCGTTATTATTTCTATTTTCATTGCTGTTCGCAATCATTCCAAGCGTTCTAACGCATCGACAGCCGGATATCCGAATGATCAAAAACAAATGCTACCATAA	MYYNETNLIIADWKNQRHFSHTGKVPFSFIITGGLFMQKLIVFAIIGFFAQLIDGALGMAYGVTSTSLLLMFGIAPAVASASVHLAEVVTTAASGASHIKFGNVDKYTVSRLTLPGAIGAFVGACFLSNLPGDVIKPYISVFLFTLGVYILLRFVLQKQIVASNKRMSAKQLVPLGLFAGFVDSTGGGGWGPITTPVLLARGNEARKVIGSVDTSEFPVSLAATIGFFISLGWEQVSWVWVFALMLGGIVAAPIAAWLVRIVPAHLLGVLVGGLIIFTNIRTLLTTFKVDPTIISLSYVAVGLVVIISIFIAVRNHSKRSNASTAGYPNDQKQMLP				NA	NA	NA	NA	NA
AK009_01616	450			hypothetical protein	ATGAAATTAGAAACAGAAAGGCTCTATATAGTGCCGTGTACAGAAGAGAGGATTCAAATTGCTAACGAGCAAGGATACAATAGCGGTCCGCATATTGTAGGGCATGTAAAGAATGTAAAACAAGATGCAGCTATATTACCATGGGGTGCGTGGTATGTTCTTCGGAAAGAAGATGATAGCTTTTTAGGTGATATTGGGTTTAAAGGGAAACCAAACGAGAAGCAAACAGTAGAAATTGGCTATGGATTTATTGAGAAATATTGGAATCAGGGCTATGCAACAGAAGCTGTAAGAGAACTAATCGATTGGGCTTTCAAAACAGGAGAGGTAGAAACAATAATTGCAGAGACACTCCTAGATAACTATAGTTCGATTCGTGTTTTAGAAAAGTTACATATGAAGAGAGTAAATGCTACAGAAACGATGATTAATTGGAAAATAGAAAAATAA	MKLETERLYIVPCTEERIQIANEQGYNSGPHIVGHVKNVKQDAAILPWGAWYVLRKEDDSFLGDIGFKGKPNEKQTVEIGYGFIEKYWNQGYATEAVRELIDWAFKTGEVETIIAETLLDNYSSIRVLEKLHMKRVNATETMINWKIEK				NA	NA	NA	NA	NA
AK009_01618	1467	lysP	COG0833	Lysine-specific permease	ATGAATAGCGCAACAAATCAATCTACCTCTAAAACGCAAACTACACAAGGACAAGGTGAATTAAAACGCGGATTAAAATCTCGTCACCTTACGATGATTTCTCTCGGTGGTACAATTGGTACCGGACTATTTCTTGCCAGCGGTGGTGTCATCCATACAGCTGGACCTGGTGGCGCATTAATTGCATACGCCGCAATTGGAATTATGGTTTATTTTTTAATGACAAGCTTAGCTGAACTTGCAGCTTACATGCCTGTTACTGGATCTTTTAGTACGTATGCAACAAAATTTGTTGATCCATCACTTGGCTTTGCACTTGGATGGAACTATTGGTATAACTGGGCAATTACGATTGCTGCTGAACTTGCAGCTGTAACATTAATTATGAAATTTTGGTTCCCAGATACTCCTTCTCTTATTTGGAGTGGATTATGTTTAGCTATTATTTTCCTTTTAAACTATTTATCTGTTAAAGGGTTTGGTGAATCTGAATATTGGTTCGCACTTATTAAAGTAGTTACTATTATTATCTTTTTAATTGTTGGTTTCATGATGATTTTCGGAATTATGGGCGGCGAAACTGTTGGATTTAAAAACTTCACAGTTGCAGATGCACCATTTAACGGCGGTATCATGGCAATTATCGGTGTATTTATGGCAGCTGGTTTCTCCTTCCAAGGAACTGAATTATTAGGAGTAGCTGCTGGTGAAACATCTGATCCAGAACGTAATATCCCAAAAGCAATTCGTTCAATCTTTTGGCGTATTCTTTTATTCTATATCCTTGCGATTCTCGTTATCGGTTTACTAATTCCTTATACAACTGAAAGCCTTGCTGCAAGTGATGTAACAGTAAGTCCGTTTACACTTATTTTTGAAAAAGCGGGCGTTGCCTTTGCTGCTTCTGTTATGAACGCTGTTATTTTAACTGCTGTACTATCTGCTGGTAACTCTGGTATGTATGCATCAACTCGTATGCTTTGGGATTTAGCTCGCCAAGGAAAAGCACCAAAGTTTCTTGGTAAATTAGATAGCCGCGGTGTACCTGTTAACGCATTAATCGTAACGTCAATTGTTGGTAGTATTGCTTTCATTGCTTCTTTATTCGGTGACGGTGTTGTATACATTTGGTTATTAAACGCATCTGGAATGTCTGGTTTTATCGCATGGGTCGGAATTGCAATTAGTCATTACCGTTTCCGTAAAGCATATATCGCACAAGGAAAAGATTTAAAAGACTTACCATATAGAGCAAAATGGTTCCCATTCGGTCCAATCTTCGCATTTACACTTTGTATCATCGTAATTTTAGGACAAAACTACGGCGCATTTATGGGTGAAGCAATTGATTGGAACGGTGTACTCGTTTCTTACATCGGTTTACCACTCTTCTTAGTACTATGGTTAGGTTATAAATTTACGAAAAAAACAAAAGTGATTCCACTTGATAAATGTGAACTAAAATAA	MNSATNQSTSKTQTTQGQGELKRGLKSRHLTMISLGGTIGTGLFLASGGVIHTAGPGGALIAYAAIGIMVYFLMTSLAELAAYMPVTGSFSTYATKFVDPSLGFALGWNYWYNWAITIAAELAAVTLIMKFWFPDTPSLIWSGLCLAIIFLLNYLSVKGFGESEYWFALIKVVTIIIFLIVGFMMIFGIMGGETVGFKNFTVADAPFNGGIMAIIGVFMAAGFSFQGTELLGVAAGETSDPERNIPKAIRSIFWRILLFYILAILVIGLLIPYTTESLAASDVTVSPFTLIFEKAGVAFAASVMNAVILTAVLSAGNSGMYASTRMLWDLARQGKAPKFLGKLDSRGVPVNALIVTSIVGSIAFIASLFGDGVVYIWLLNASGMSGFIAWVGIAISHYRFRKAYIAQGKDLKDLPYRAKWFPFGPIFAFTLCIIVILGQNYGAFMGEAIDWNGVLVSYIGLPLFLVLWLGYKFTKKTKVIPLDKCELK	PGPT0020630_745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020630-lysP-K11733	NA	NA
AK009_01619	306			hypothetical protein	ATGAACATTCGTATTACTGATGAAGCAAAAGCAGCTATACGTAGATTAGAACGTGAAGATAAAAAGATCGTTCGCATTAGAGGAACAATGACGAACTCTTGTAGTATTTTCGTTGATGTCGATTTAATTTGGGATACATATAACGCAGATGATGTTGTATATGAAGATGTAGAGCTTATCGTACAAATGGATTCATTCACGAAAGAATACACTGGTGATACAGTGAAACTTGATTATAAGACGACAGGTTTTAGTATTACGACTCCGAGTGAGACTTTAGTTTATGGATTGTCGATTAAAAAATAA	MNIRITDEAKAAIRRLEREDKKIVRIRGTMTNSCSIFVDVDLIWDTYNADDVVYEDVELIVQMDSFTKEYTGDTVKLDYKTTGFSITTPSETLVYGLSIKK				NA	NA	NA	NA	NA
AK009_01620	444	yhaZ	COG4335	putative protein YhaZ	ATGGGTAAATATGTTCCGTTAAAATTTTTATTTAATGAAGAATTAGCAGAGAAAATAGCTGATTCTATTTGTAAACACGATCCTAATTTTTCTAAAAGAATCTTTGTAGATTCTGTAACATATAAAGTTGAAAATTTAGAGTTAAAACAACGTATTGAAGTAATAGCAGATGAATTACACAATGCTTTACAAAAAGATTTTAATGTAGCAATACATATATTACTGAAAACATTAGGACCAGAAAATACAACAGAAGTAGGCACATTCACAAACGGATATATGTACATGCCTATCGCAAAATACGTTGAAAAATATGGTCTGAACGATTTTGAAACCTCATTCAACACCATGTATGAAATAACGAAAAGGAATAACGCTGAATATGCCATTCGGCCTTTTCTTGAAACATACCATGAAGACACACTAGACATATTACAACAGTGA	MGKYVPLKFLFNEELAEKIADSICKHDPNFSKRIFVDSVTYKVENLELKQRIEVIADELHNALQKDFNVAIHILLKTLGPENTTEVGTFTNGYMYMPIAKYVEKYGLNDFETSFNTMYEITKRNNAEYAIRPFLETYHEDTLDILQQ				NA	NA	NA	NA	NA
AK009_01621	171			Cytochrome P450 CYP107DY1	ATGCTTACGGTAGATCCTCCTAATCATACTCGCCTGCGTCGGATGGTCTCTAAACCCTTTATACCACGTATGATTGAGGACCTTCGTTCCCGTATTCAGCAACTTGCCGACGAATTGTTAGTTGCTGTACAAGAACAAGGAAAGATGGAAATTATTGCAGATTTTGCTTAA	MLTVDPPNHTRLRRMVSKPFIPRMIEDLRSRIQQLADELLVAVQEQGKMEIIADFA	PGPT0006735_15	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006735-cpx|cyp109E1-K23138	NA	NA
AK009_01622	951	rihB_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihB	ATGCAAAAAAAGGTTCTCCTGTTTACAGATTTAGGGATTGATGATGCGTTTGCTATACTGTACACCTTTTTTCGTAAAGACATTCAACTTGTAGGAATTGTGGCCGATTATGGAAATGTATCAAGAGAAGATGTAATAAGAAATATTAACTATTTAAAGTACATTGCGGGAAGAGAAGAAATACCTGTATTCCTTGGTGCTTCTGTACCGTTGACAGGTATAGTGATTCAGTATTTCCCTGAGGTACATGGAAAAGTTGGATTAGGACCTATTATTCCACCTGAAATTTCATATCCAGTTTATCCTTTAAATGATATTTATCAAATTATAGAATCAAATTTAGAAGATCTTACAATTATCAATTTAGGAAGACTTTCTTCGCTAGCTACGACTTTTGTATTAAATTTAGAAACAATGCGAAATGTAAGAGAATGCATTTGCATGGGGGGAGCTTTTTTCTATCCAGGTAACGTAACTGCTGTGGCTGAAGCTAATTTTTACGCAGACCCGTATGCAGCAAACTTAATTCTGCAGCATGCAAAGAACTTGACGATTATTCCTTTAAATGTGACTCAACACGCGATTGTTACACCCGAAATGGTCCAGCAAATTGATGCATTTCATCGGAGTACACAGGATCTTGCAGGACTCATCATCAAACCTATGTTAGATTATTATTATAATTTCTACTCCAAGTCTAATCCTGGTATAAGTGGAAGTCCTATGCATGATTTTGTAACAGTTTGGTATTTGCTAAATCAAGACGCTGTTAGTCTTTCAAGAGTACCTATTAAAGTAATCCCTGATCAAGGAGAAGGATTTGGTCAAAGCATTGCAGATTTTCGTTTTGTTACTAATCCAGGCTATAAAACGCATAATGTAGCTTTTCAGTTTGATTATGAAAAATTTAAGAAAGATATTATGGAAACGTTCCTAAAGAAGAGAGTGTAA	MQKKVLLFTDLGIDDAFAILYTFFRKDIQLVGIVADYGNVSREDVIRNINYLKYIAGREEIPVFLGASVPLTGIVIQYFPEVHGKVGLGPIIPPEISYPVYPLNDIYQIIESNLEDLTIINLGRLSSLATTFVLNLETMRNVRECICMGGAFFYPGNVTAVAEANFYADPYAANLILQHAKNLTIIPLNVTQHAIVTPEMVQQIDAFHRSTQDLAGLIIKPMLDYYYNFYSKSNPGISGSPMHDFVTVWYLLNQDAVSLSRVPIKVIPDQGEGFGQSIADFRFVTNPGYKTHNVAFQFDYEKFKKDIMETFLKKRV	PGPT0013465_1501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_01623	117			hypothetical protein	ATGGAAAAATCTGTTGTTATTGAGGAATTTACATCGGATTGGGCACTACAATTAGGGCTCACCATATCAAAAACGAAAATTGTACGTTTAGACACAAAATTAACATATTTTGATTAG	MEKSVVIEEFTSDWALQLGLTISKTKIVRLDTKLTYFD				NA	NA	NA	NA	NA
AK009_01624	276			hypothetical protein	ATGAACTCAAACACAAAACAGTTTATTTATGATATCCAGCAAAGAAAGAACAATTATATAGAAAATGCTCTAATAGCAATACAACACCCTAAAAAAGAGCAATCTGAACAGGTCATTCAAAATATAGTAGAGAAGATGGATATGATGATTAGTCTAGTTACTACGTACATGAGGATTGAATCTGGATCTATGGAAGAATTAAAAGAACTTCAGAAAGAAATTATCCATGCTCAAGCATATATCCAAAAACGAAAATTTGAAGAAACACAGAGATAA	MNSNTKQFIYDIQQRKNNYIENALIAIQHPKKEQSEQVIQNIVEKMDMMISLVTTYMRIESGSMEELKELQKEIIHAQAYIQKRKFEETQR				NA	NA	NA	NA	NA
AK009_01625	234			hypothetical protein	ATGAGTTATTTGGAGGGAAATGACTTTAGTAAACAAAATATGGTAAGTGTGCCTAATCCCTATGTATATCAGACATTACAATCAGTAATTGGTAAACATGTGGTTACTGAAACTGTAAGAGGCAATATAAGAGGTAAATTAAAGGATGTGAAACTAGATCATTTGCTCATTGAAGATACGGTGCCATATATTGTACGCATTCAACAAATTGTATGGATTATGCCAAAACAATAA	MSYLEGNDFSKQNMVSVPNPYVYQTLQSVIGKHVVTETVRGNIRGKLKDVKLDHLLIEDTVPYIVRIQQIVWIMPKQ				NA	NA	NA	NA	NA
AK009_01626	234			hypothetical protein	ATGGATGCAAGGAAAGAACGCATAAAATACGAGAAGATGTCAAAGAATTATGATCGTATTTATTTAGTTTCGTTTATCCTATTAATTGTACTTGTTTGTAGTAGTGTGATTATCATAGGAGCTACAGGCGGAAAATATGGAGTGTTTTTATTGTTAGCAATTTTACTTAACGCACGTATTACGAAAGAATCTCAAAAAAAGTATGAGCACTATTCTAATAAAGGGCGTATTTAA	MDARKERIKYEKMSKNYDRIYLVSFILLIVLVCSSVIIIGATGGKYGVFLLLAILLNARITKESQKKYEHYSNKGRI				NA	NA	NA	NA	NA
AK009_01627	147			hypothetical protein	ATGAAAAAAATGTTAACAAAAGAATTAAGTAATGAATTAAAGAAGCGAGAAGGGATTATTTCTATTACAGTTGAGCCTTATGAAAAAATCGAAGTTGGTGGAATTCGTGTAGATGGACCAGCTATTATTCTAATTAATCAAGAATAG	MKKMLTKELSNELKKREGIISITVEPYEKIEVGGIRVDGPAIILINQE				NA	NA	NA	NA	NA
AK009_01629	462	carD_1	COG1329	RNA polymerase-binding transcription factor CarD	ATGTTTCAAATTGGCGATAACATTGTTTATCCAATGCACGGAGCAGGTATAATTGAAGCCATAGAAGAAAAAGAATTCTCAGGGGAAAAACAACAGTATTATGTCATCAAAATGTCAATCAGTAATATGCAAGTCATGATTCCTACGGGTAAAATATTGAATTCGAATATACGCCCAGTTACTGATATACTTGCATTAAAACACATTATACACATTTTTCAGCATGAAGAATCATGTAAATTACTGCCGTGGAAACAAAGGCATAAAGTGAACACGGACAAAATAAAAACGGGTGAAATACAAGAAGGTGCTGAAGTTGTACGCGATTTAATGCGTATGAAGAAAGAAAAAACACTGAATACAAGTGAAAAAAAATTGTTGGATGATGCATATAAGTTTTTGGTCAGTGAACTAGAATTAATTAAAGGAATCACTGAAAATCAAATAAAAAGTTTCTGTTAA	MFQIGDNIVYPMHGAGIIEAIEEKEFSGEKQQYYVIKMSISNMQVMIPTGKILNSNIRPVTDILALKHIIHIFQHEESCKLLPWKQRHKVNTDKIKTGEIQEGAEVVRDLMRMKKEKTLNTSEKKLLDDAYKFLVSELELIKGITENQIKSFC	PGPT0014830_1469	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
AK009_01630	249			hypothetical protein	ATGCCAGGTGCCGTCATGCCTGATTTTGAAAATAGAATGGCTGTGATTGCAAAAGAAGCAAACTATGGCCCACTACAATATTTTGATCAAGTACTTGATGTAGTGGTTGAGTATTGGGGGTTAAAAGATTTACGACCAATTGCCCCTCTAGCAGAAAAAGCAAGAATTGAGATTTTGGAGTATCATATAAGATTGAAAAAAATACGGGATCGATTTGGCCGTTTTCAAGGGGAAATTGATCTACGTTAA	MPGAVMPDFENRMAVIAKEANYGPLQYFDQVLDVVVEYWGLKDLRPIAPLAEKARIEILEYHIRLKKIRDRFGRFQGEIDLR				NA	NA	NA	NA	NA
AK009_01631	204			hypothetical protein	ATGTTAACAAATGATTTAGATTTTCGATTAGAACCACGTTTAAAAGAACTGTATGAACAACATAAAATAAGAGCGCAGAAGATAGACTGGGCTTATCATGAGTTTTTACCATGGGATAAGGGAATGGACTTTAAAAGAGTTCCTTGGGATGAAAGTCAAGTTACTCTCCCTTCTGGTGTAATTACGCCGTCTTGCAAAAGATGA	MLTNDLDFRLEPRLKELYEQHKIRAQKIDWAYHEFLPWDKGMDFKRVPWDESQVTLPSGVITPSCKR				NA	NA	NA	NA	NA
AK009_01632	228	mprB	COG0642	Signal transduction histidine-protein kinase/phosphatase MprB	TTGTTAAACCTGTTGAAGAATGCAATAGAACATTCTAAACCAGGTGGTAACATAATGATTCAGGTCAAAAATTCTCCAATCTATATCGAACTAGTGATCCAAGGTTTTGGAGAGGGAATTTTAGCTGAAGAATTACCTCATATTTTTGAACGATTCTATAAATCAAGTAGTTCTAAAAAGCTTGGCTCGAATGGAATTGGGTTGGCACTTGTCAAAGCTATTATTTAG	MLNLLKNAIEHSKPGGNIMIQVKNSPIYIELVIQGFGEGILAEELPHIFERFYKSSSSKKLGSNGIGLALVKAII	PGPT0017370_723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017370-tctE-K07649	NA	NA
AK009_01633	762			hypothetical protein	ATGAAACGTGATCCATTATTTTTAACTTTATTAGAAAGTGCAAATACAAACTTTAGTGGCTGGGATTTTTCTTTCATTTCAGAAACGGGTCGAATGAAGAGCGAGCCATTATCGTGGTCGTACGGCAGTACTGCTTTTCAGCTTATGCAACGTGCAGAATCAATGCTCGATATGGGTACTGGTGGCGGAGAGTTTTTATCTATGTTACAACCGTTCCCGTCAACTACATTCGCTACTGAGGGCTACGCTCCAAACGTGCCAATTGCTCAGAAGAAATTAGAACCTTTAGGGGTTACAGTTGTGGCAGTAAGTGATGATACTGCTTTACCATTTCAAAATGAACAGTTTGATTTCATCCTGAATCAACATGAATCCTATTCTGCTTCTGAGGTAAATAGAATACTTTCTCCTAATGGAATATTTCTTACACAACAAGTTGGCGGTCTTGATTGCGTTGAACTTAATGAACAATTGGGTACGCCTCTAAATAGTGAGTTTGCAAATTGGTCTCTCGAAACTGCATGCAGTGAGTTAAACCAAAATGGATTTACTATTTTAGAAGCAAAAGAAGAATTCCCTTTCCAACGTTTTTATGATATTGGCGCTATCATCTATTATTTAAAAGCAATTCCGTGGCAAATTCCTGATTTTACTGTCGAAAAGTACTTTGAGGAGTTATATCGTATACATGAGATTATTTTGCAAAAAGGATATTTAGATGTGAATCAACATCGATTTATAATTAAGGCGATTCGTAGCTAA	MKRDPLFLTLLESANTNFSGWDFSFISETGRMKSEPLSWSYGSTAFQLMQRAESMLDMGTGGGEFLSMLQPFPSTTFATEGYAPNVPIAQKKLEPLGVTVVAVSDDTALPFQNEQFDFILNQHESYSASEVNRILSPNGIFLTQQVGGLDCVELNEQLGTPLNSEFANWSLETACSELNQNGFTILEAKEEFPFQRFYDIGAIIYYLKAIPWQIPDFTVEKYFEELYRIHEIILQKGYLDVNQHRFIIKAIRS				NA	NA	NA	NA	NA
AK009_01634	525			hypothetical protein	ATGTACAAATACACAATTTGTTTTATTAGAAAAAGCGATAAAATACTGCTATTAAATAGAAATAAAAAGCCGAATATGGGGATGTGGAATGGTGTTGGAGGAAAAATAGAAGATAATGAAACGCCATACGAAGGAATAATTAGAGAAACGTTTGAGGAAACGGGTATAGAACTTTCAAGTGTAATGTATAAAGGGACTGTTGGTTTTAAAGGTAAAGATGAGCCCCAGGCTAGTGAAGGAATGTATGTGTTCGTTGCTGATTTGCCAGATGGAATGCAAATGAATACACCATTTCGTACGGCTGAAGGATTATTAGAATGGAAAGAAATTGATTGGATATTAGATGGTGATAATAGAGGTGTTGTTAGCAATTTACCAAAATACTTACCGACAGTATTAACAGAAGAAAATAAGTTAAAACATATATTCACGTATGATAACCGGAATATTATTCATTACACAACTGCATGTTTGACGGAAGATGATGCGAATAAGCGATATGAAAAACAACTCATTTCTCAATAG	MYKYTICFIRKSDKILLLNRNKKPNMGMWNGVGGKIEDNETPYEGIIRETFEETGIELSSVMYKGTVGFKGKDEPQASEGMYVFVADLPDGMQMNTPFRTAEGLLEWKEIDWILDGDNRGVVSNLPKYLPTVLTEENKLKHIFTYDNRNIIHYTTACLTEDDANKRYEKQLISQ				NA	NA	NA	NA	NA
AK009_01635	576		COG3510	Rhamnosyl O-methyltransferase	GTGTGGTTAAACGATACACACTGGTTCGGAGTTCCAATCTGTAAACTTCCCTCTGATCTCTTTTTGTATCAAGAAATTATTTATGAATTAAAGCCCGATTTAATTATTGAATGCGGGACTTTTCACGGTGGTAGTGCACTGTATTTAGCTTCTATGTTAGATTTAATTGGAAAAGGTCACGTACTTACTATCGATATAACTCCGCAGCCAAATCGGCCATCACATAATCGGATTACGTATTTAACAGCCTCTTCTGTTTCTGTGCAGGCCGTCCAAACAATAGTAAGCATGCGCAAACCTGATGATGTGGTTTTAGTTATTTTAGATTCTGATCATAGTAAAGAGCATGTATCCAAAGAACTATTACTATATAAATCTATCGTCACTACTGGCAGTTATATGATTGTAGAAGATACCTCCATTAATGGAAATCCGCTTCTTCCCGATTGGGGTCCTGGTCCGATGGAGGCTGTGGATGAGTTTTTAACTAAAAATAATAACTTCATAATCGACGAGTCTAAACATAAATTTTTCATATCATTTAATCCAAAAGGTTTTTTAAAGAAAATAAAGTGA	MWLNDTHWFGVPICKLPSDLFLYQEIIYELKPDLIIECGTFHGGSALYLASMLDLIGKGHVLTIDITPQPNRPSHNRITYLTASSVSVQAVQTIVSMRKPDDVVLVILDSDHSKEHVSKELLLYKSIVTTGSYMIVEDTSINGNPLLPDWGPGPMEAVDEFLTKNNNFIIDESKHKFFISFNPKGFLKKIK				NA	NA	NA	NA	NA
AK009_01636	522	sipP_1		Signal peptidase I P	ATGAAACAGGAGATTAAAAGAGGCTGGGGGAAATACATACTCTTCGTGTTTGTTTTGGTAGTAGCCTATCATTCTTTTACTTTATGTAAAGTGGAAGGGGAATCGATGCAGCCGACTTTATATGAAGCAGATTACGTATTTGTAAATAAAGCAGTAGTACGTCTTTCTAATTTACAACGCGGAGAAATTGTCATTATAAAGGAAGCGGATGAATCGAAATATTATGTGAAACGTGTAATAGGGCTTCCGGGTGATGTAATTAACATAACGAACGGAAAGGTATATGTGAACGATAAAAAGCAAGAAGAACCATATACGAACAAAGATTTATTTAACAACACACAAGTGTTTTATAACTTTCAAAAGACAAAAATTCCGCCAAATAAGTTATTTGTAATGGGAGATAACCGCGAAGTAAGTAGAGATAGTCGAAATGGCTTAGGATATATTGAAGAAGATAACATAATTGGCAAGGTGGAATTCGTATATTATCCTTTTTCAAAAATGAAAATGATAGAATAA	MKQEIKRGWGKYILFVFVLVVAYHSFTLCKVEGESMQPTLYEADYVFVNKAVVRLSNLQRGEIVIIKEADESKYYVKRVIGLPGDVINITNGKVYVNDKKQEEPYTNKDLFNNTQVFYNFQKTKIPPNKLFVMGDNREVSRDSRNGLGYIEEDNIIGKVEFVYYPFSKMKMIE				NA	NA	NA	NA	NA
AK009_01637	2154	pbpH_1	COG0768	Penicillin-binding protein H	ATGAGACAGAAAAAGGAGCAGAAGAAACAATCGAAAAAGAAAAAGACTCATATTCCTTTTCGGTTAAATGTACTATTTTTTATTGTCTTTCTTTTATTTTCAGCTATTATAATTCAATTAGGTAAAGTACAAATCATTGATGGAGAAACGTATAGAAATGAAGTAAACAAAAAGGAAGATGTAACGGTAAGCACTCCCGTTCCTAGAGGGAAAATGTTTGATCGGCAAGGTCACGTTATTGTAAATAATAAACCATTGCGAACCGTTACATATACGAAAATGAGAGGAGTAGACTCGAAAGAAGTTTTACAAGTAGCAAGAGATTTAGCCAAGCTGATTGAAATGTCGCAAGAGGACATGGATAAGTTAACAGAGACAGATAAGAAAGATTTTTGGATGCAGTTAAATGAAAAGCGGGCAGCAGCGAAAGTAACGAAAGAAGATGAGAGTAAATTTAGAAAGCAAGAAATAGAAGGAAAAGAATTAGATAAAAAAGTAGAAGAACTGCGCCGGGAAAGAATTACACAAGAAGAATTAAATGAGCTTTCAAAGGAAGATATAGAAGTATTAGTAATTAAAAGCAAAATGAATGCGGGATATAAAATGACGCGGCAAATCGTTAAAAAAGATGTAAGTCAAAATGAATATGCTGTCGTTAGTGAAAGATTGGCAAGTTTACCGGGGGTAGATACGACAGTAGATTGGGAACGTGAATACCCAAATGATAAAATACTTCGCTCTATACTAGGTAGCGTTTCTAATGAAAATGAAGGGTTGCCAAGAGAACAATTAGATTATTATTTAGTTCGTGATTATAATCGAAACGATCGTATTGGTAAAAGTTACATTGAAAAACAATACGAAGATGCACTACATGGAACGAAAGAACAGTCTAAAAATATTATGGATAAAGCAGGGAAAATTGTTCGAACAGAAAAAGTGACCGAAGGAAAAAGTGGAAATAACTTAATGTTAACAGTCGATATGGATTTACAGAAAAAAGTAGAGGGAAGCCTTGAAAAGAATTTACGAGCTTTTCATGCTGCAGAGCCGATGATGGATCGTGCGTTCGTAGTAATGATGAATCCGAAAAACGGTCAAATTTTATCAATGGCAGGAAAGAAAATTGTAAATAAAGATGGCGGTATGCAAATAGAAGATTATGCATTAGGAACGATGACAAGTTCTTATGAGTTAGGATCAACTGTAAAAGGTGCTACTTTATTAGCTGGATATCAAACAGAAGCGATTAAGCCATATACACATTTCTTTGATGCACCAATGTATTTTAAAGGAAGTTCTAAGCCGAAGAAATCGTGGAAAGAATTTGGGGATATTGATGATTTAAGAGCTTTACAAGTTTCATCAAACGTTTATATGTTTAATACAGCTTTAAAAATGGCAGGCATTAATTATGTCCCAAATAATCCATTAGATATTAAACAAGAAACATTTAATAAAATGCGCTACTATTTTAGACAATTTGGCCTAGGTGTGTCGACTGGTATTGATCTGCCAAATGAAGCAATCGGTCAAGTAGGTAGAACTGATAACATACCCGGATTTTTACTTGATTACGCGATTGGACAGTATGATACATACACGCCTCTTCAGCTTGCGCAATATATTTCCACAATTGCAAATGGCGGTTACCGAATGAAACCACAAATTGTACAAGAAGTTAGAGAGCAACCGAATAGACCAGAGGATGTAGGAAAAGTCGTTCGGTCGATTGAACCAGTTGTATTAAATCGAGTGGATATGGACACTTCGTACATTAATCATGTAAAAGAAGGGTTTAGAAGAGTTTTTCAAGAAGCTGACGGAACAGGTACCGGAACGTTTAAAGGTTTACCATATAAACCAGCGGGAAAAACAGGAACAGCTGAGACAGTATATGGTGGAGAAAGTGATATTGGAAGAGATGAGAATAACAACCGAAAAAAATGTTATAATTTAACTCTTGCCGGTTATGCACCATATGATGCTGATCCGGAAGTAGCTTTTTCAGTTGTTGTACCATGGGTGAATGATGACAAATCAGGAATTAATTCCGCGATTGGTAAAGAGATTTTGGATGCGTATTTTGAATTGAAAACGAAAAGAGCGGGTGGAAATCCAGTCCCAGTAGAACAGCCGAACAAGGCCCAGTAA	MRQKKEQKKQSKKKKTHIPFRLNVLFFIVFLLFSAIIIQLGKVQIIDGETYRNEVNKKEDVTVSTPVPRGKMFDRQGHVIVNNKPLRTVTYTKMRGVDSKEVLQVARDLAKLIEMSQEDMDKLTETDKKDFWMQLNEKRAAAKVTKEDESKFRKQEIEGKELDKKVEELRRERITQEELNELSKEDIEVLVIKSKMNAGYKMTRQIVKKDVSQNEYAVVSERLASLPGVDTTVDWEREYPNDKILRSILGSVSNENEGLPREQLDYYLVRDYNRNDRIGKSYIEKQYEDALHGTKEQSKNIMDKAGKIVRTEKVTEGKSGNNLMLTVDMDLQKKVEGSLEKNLRAFHAAEPMMDRAFVVMMNPKNGQILSMAGKKIVNKDGGMQIEDYALGTMTSSYELGSTVKGATLLAGYQTEAIKPYTHFFDAPMYFKGSSKPKKSWKEFGDIDDLRALQVSSNVYMFNTALKMAGINYVPNNPLDIKQETFNKMRYYFRQFGLGVSTGIDLPNEAIGQVGRTDNIPGFLLDYAIGQYDTYTPLQLAQYISTIANGGYRMKPQIVQEVREQPNRPEDVGKVVRSIEPVVLNRVDMDTSYINHVKEGFRRVFQEADGTGTGTFKGLPYKPAGKTGTAETVYGGESDIGRDENNNRKKCYNLTLAGYAPYDADPEVAFSVVVPWVNDDKSGINSAIGKEILDAYFELKTKRAGGNPVPVEQPNKAQ	PGPT0023930_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK009_01638	729	cobB_1	COG0846	NAD-dependent protein deacetylase	GTGCAACAATTTGAAGAAGTACGTTCAATTTTAGAAAAAGCGAAGAAAATTACAGTATTAACAGGCGCTGGTGCAAGTACGGAAAGTGGTATTCCAGATTTTCGTTCAGCAAATGGATTGTATGCTGATGCGAATGTGGAGATGTACTTATCAAGAGGGTACTATAACCGAAGTCCGAAAGAATTTTGGAAGCATTATAAAGAAATCTTTCAAATTAATACGTTCCATCAATATAAACCAAATCGTGGCCATCGCTTTTTAGCTGAGCTAGAAGAACAAGGGAAAGATATTACGATTTTAACGCAAAATATTGACGGTTTACATCAATTAGGTGGCAGTAAGCACGTCATTGATTTACATGGAACACTTCAAACAGCACATTGTCCAAAATGTAAATCAGGCTATGATTTACAGTATATGATTGATCATGAAGTACCGCGCTGTCAGAAGTGTAATTTCATTTTAAATCCAGACGTTGTTTTATACGGAGATACACTGCCGCAATATCAAAATGCGATGAAACGTTTATATGAAACAGATGTACTTCTCGTTATGGGAACGTCATTAAAAGTACAACCTGTCGCTTCATTCCCGGAAATCGCAAAGAGGGAAGTAGGAGCAACAACCATCTTAGTAAATGAAGAGTTAACAGGACAGGAATATAACTTTGATTATGTTTTTCAAAATAAAATTGGTGAATTTGTTGAGGGATTATCTTCAATGAAATAA	MQQFEEVRSILEKAKKITVLTGAGASTESGIPDFRSANGLYADANVEMYLSRGYYNRSPKEFWKHYKEIFQINTFHQYKPNRGHRFLAELEEQGKDITILTQNIDGLHQLGGSKHVIDLHGTLQTAHCPKCKSGYDLQYMIDHEVPRCQKCNFILNPDVVLYGDTLPQYQNAMKRLYETDVLLVMGTSLKVQPVASFPEIAKREVGATTILVNEELTGQEYNFDYVFQNKIGEFVEGLSSMK	PGPT0013485_1889	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
AK009_01639	648	pcp	COG2039	Pyrrolidone-carboxylate peptidase	ATGAAAACAGTATTATTAACAGGATTTGATCCGTTTGGCGGAGAAAGCATCAACCCAGCTTGGGAAGTAGCAAAAAGTTTGCATGAAAAAACAATTGGAGAGTACACGATTATTAGCAAACAAGTCCCAACGGTATTTCATAAATCAATAAAAGTATTAAAAGAATATATAGAAGAACTAAACCCTGAAATGATTATATGTATCGGACAAGCTGGGGGCAGACCAGATATTACGATAGAGCGTGTCGCAATTAACGTTGATGATGCAAGAATTGCTGACAATGAAGGGAATCAGCCCATAGATGTGCCAGTTGCAGAAGAAGGACCAGCTGCTTATTGGTCTACACTTCCGATGAAAGCAATCGTAAAAAGACTGCAAGAAGAAGGTATACCAGCTTTCGTTTCACAAACAGCAGGTACATTCGTTTGTAATCATTTATTCTACGGTCTCATGCATGAACTAGAGAAGCGTGATAAGAAAATAAAAGGCGGATTTATTCATATTCCGTTCTTACCAGAACAAGCGAGTAAATATCCAGGGCAACCGAGTATGTCACTTTCTACTATTCGTAAAGGGATCGAATTGGCAGTTGAGGTAACGACAACAGTTGAAGTAGATATTGTAGAGGCTGGGGGTGCGACGCATTAA	MKTVLLTGFDPFGGESINPAWEVAKSLHEKTIGEYTIISKQVPTVFHKSIKVLKEYIEELNPEMIICIGQAGGRPDITIERVAINVDDARIADNEGNQPIDVPVAEEGPAAYWSTLPMKAIVKRLQEEGIPAFVSQTAGTFVCNHLFYGLMHELEKRDKKIKGGFIHIPFLPEQASKYPGQPSMSLSTIRKGIELAVEVTTTVEVDIVEAGGATH				NA	NA	NA	NA	NA
AK009_01640	963			hypothetical protein	ATGAACATCATCACAATGGATACAATCTATTATGTATTAGGGATAATCGTTGCTTTTATCGCTGTTCGTATCGCATTCGATCGTGAACATCCCAACAGATTCGGTTCTAGTTTATTTTGGGCATTGTTTGCAGTTACATTTTTATTCGGAAATGTAATTCCTTCGTTTTACGTTGGCTGTATCGTGCTCGCTATGGTCGTTTTAGCCTCGCTAAATAAAGTAACAAAATCAGAGGAAAAAGAAGTTCCAGTACAAGAGCGTGTAAAACATGCTGAGAAATTAAAAAATAAAATTTTTATGCCTGCACTATTAATTCCTATTTTTACAATTATCGGTACGTTGACCTTAGGGAAAATTAAATGGGGAAATGTCTCTCTTGTTGATCCAGATAAAGTAACATTAGTTGCATTAGCGCTTGGTGCATTACTCGCATTCGTTGCGGCGATGCGTATTACAAAATCAAAAATAACAACGCCTGTACAAGAAGGAAGCAGACTATTACAAGCTGTCGGCTGGGCTGTAATTTTACCACAAATGTTAGCAGCACTTGGCGGTATATTCGCGAAGTCTGGCGTTGGACAAGTTGTTTCAGATTTAGTCGGACAAGTGTTACCGACAGAGTATCCGTTCGTTGCTGTTATGGCGTATTGTTTAGGAATGATGCTTTTCACAGTCGTAATGGGAAATGCATTCGCAGCGTTTGCCGTTATTACTGGCGGAATTGGTTTACCTTTAATTGTTCAAATGCACGGTGGGAATCCAGCAATTATGGCAGCACTCGGTATGTTTGCTGGATATTGCGGAACGCTACTTACGCCAATGGCAGCAAACTTTAATATCGTTCCGGCGATGCTTTTAGAACTAAAGGATAAAAATGCAGTTATTAAAGCACAAGTACCAATTGCTCTTTCAATCTTTATTATCAATATGTTTATTATGTACGGCCTTGTATATCGTTTCTAA	MNIITMDTIYYVLGIIVAFIAVRIAFDREHPNRFGSSLFWALFAVTFLFGNVIPSFYVGCIVLAMVVLASLNKVTKSEEKEVPVQERVKHAEKLKNKIFMPALLIPIFTIIGTLTLGKIKWGNVSLVDPDKVTLVALALGALLAFVAAMRITKSKITTPVQEGSRLLQAVGWAVILPQMLAALGGIFAKSGVGQVVSDLVGQVLPTEYPFVAVMAYCLGMMLFTVVMGNAFAAFAVITGGIGLPLIVQMHGGNPAIMAALGMFAGYCGTLLTPMAANFNIVPAMLLELKDKNAVIKAQVPIALSIFIINMFIMYGLVYRF				NA	NA	NA	NA	NA
AK009_01641	696			hypothetical protein	ATGATTAAATTAATCGGAATACTACTTGTTGCAGTGGGCTTTTTATTTAGATTAAATACACTTTTAGTAGTTATGGTTGCAGGTATTGTTACGGGGATGGTTTCAGGATTAAGTTTTTATGATGTGATCAGCATGTTCGGTAAATTTTTCATAGAAAATAGATATATGTCTATGCCAATTATATTAACTTTACCGGTAATCGGAATTTTAGAGCGTTACGGTTTAAAAGAAAGAGCAGAAGCACTTATAACGAAATCAAAAGGAGCAACAACTGGAAGAGTATTAATGTCATATTTTACGATAAGAGAATCGTCAGCAGCACTAGGGCTTAATATTGGTGGGCATGCACAAACGGTAAGACCGCTCGTTGCACCGATGGCAGAAGGGGCCGCGCAAGGTAAATACGGTAAACTTCCTGAAAAATTAAGAGAAAAGATTAAAGCAAACGCAGCTGCTGCGGAAAATACAGCTTGGTTTTTCGGAGAAGATATTTTCATCGCAACTGGTGCTATTTTATTAATGAAAGGGTTCTTCGATTCAGTAGGTATGCATGTGGGTGTATGGGATATGGCACTTTGGGGCATTCCAACTGCAATATCTGCACTTATTGTAAGCTGGATTAGATTTAGAAGGTTTGATAAATATATAGAGAAAACAATGAAGGCAGAAGGAAAAGAAGAGAAGGAGGCAATCTAA	MIKLIGILLVAVGFLFRLNTLLVVMVAGIVTGMVSGLSFYDVISMFGKFFIENRYMSMPIILTLPVIGILERYGLKERAEALITKSKGATTGRVLMSYFTIRESSAALGLNIGGHAQTVRPLVAPMAEGAAQGKYGKLPEKLREKIKANAAAAENTAWFFGEDIFIATGAILLMKGFFDSVGMHVGVWDMALWGIPTAISALIVSWIRFRRFDKYIEKTMKAEGKEEKEAI				NA	NA	NA	NA	NA
AK009_01642	762	pxpA	COG1540	5-oxoprolinase subunit A	GTGACTACAATCGATTTAAACTGTGATTTAGGAGAAAGTTTTGGAGCTTATAAAATGGGGAATGATGATGAAATTCTTCCGTTCGTTTCCTCTATAAACGTTGCTTGCGGTTTTCATGCGGGTGATCCGTCTGTTATGCGGCAAACTGTTGAAAAAGCTTTGGAGCATAACGTAGCGATAGGGGCGCATCCTGGATTTCCTGATTTAATTGGATTCGGTAGAAGAAACATGAATGTTTCAGCAAGTGAAGTATACGATTATGTTTTATATCAAATCGGCGCATTAGACGCATTTGTAAAAGCGGCAGGCGGGAAAATGCAGCATGTAAAGCCGCATGGTGCCTTATATAATATGGCGGCAACGGATTCGAAAATTGCAGATGCAATCGCTAAGGCAATTTATCATATGAATCCGAGTCTATCGCTTTACGGATTAGCAAATAGCGAGGCGTTTATACAGGCTGCAGAAAAATACAATGTAACTCTCGTACAAGAAGCGTTTGCGGATCGTACATATAAGCAAGATGGAACGTTAACGAGCCGTACAGAAGAAAATGCACTTATAAAAAATGAAGACGAAGCGATAAAGCAAGTGCTTCAAATGGTGAAAGAAGGCTATGTAAATTCGGTCAATGGAGAGGAAGTAGCAGTTCAGGCGCAGACGATTTGTTTACACGGTGATGGAGAAAAAGCAGTACAATTTGCGGGAAAAATATACAGAATATTCGAACGTAATGGTATTTCTATTTGTGCACCGAAATAA	MTTIDLNCDLGESFGAYKMGNDDEILPFVSSINVACGFHAGDPSVMRQTVEKALEHNVAIGAHPGFPDLIGFGRRNMNVSASEVYDYVLYQIGALDAFVKAAGGKMQHVKPHGALYNMAATDSKIADAIAKAIYHMNPSLSLYGLANSEAFIQAAEKYNVTLVQEAFADRTYKQDGTLTSRTEENALIKNEDEAIKQVLQMVKEGYVNSVNGEEVAVQAQTICLHGDGEKAVQFAGKIYRIFERNGISICAPK				NA	NA	NA	NA	NA
AK009_01643	990	pxpC	COG1984	5-oxoprolinase subunit C	ATGGATGTAGAAGTTTTGCATGCAGGAATGTTTACAACAGTCCAAGATTTAGGGCGATCTCATTATCAACAATACGGTGTACCCGTTGGCGGGGCGATGGATCAAAGTGCACTTCGAATGATCAATATGTTAGTTGGCAATGAAGAGAATGAAGCGGGACTCGAAATGACGATTATGGGACCTAAATTGTTAATAAAGAAAACGACTTTACTTGCGATTGGCGGAGCAGATATGGAACCGTTATTGAATGGAGAACGTATCCCGTTATGGCGTCCCATTTTAGCGGAAGAAGGTAGTATGCTTTGTTTTGGAAAAGTGAAAAGTGGTTGCAGAGCGTATGTGACTTTTGCGGGTGGCATCCATATTGATCGTACTATGGGAAGTAAAAGTACGTACATACGTGCTGCGATTGGCGGTATAGAAGGAAGAATGCTCAACAAGGGTGACTACTTCCAAATTGGTGCACAACCAGAAATGGCGAATCGTTTCATTCAAGACTTACAAAAAGATGGGAGAATAAAAACGAAATGGGCAATTAACAACAGCGTACTATCAAAGTATAAGAAACATCCTAAGCTTCGTGTCATAACTGACTTTGAATATGATCAATTTACAGAAGAAAGTAGAAAGGCATTTTTTACGAAAGAGTATAAGGTATCTAATTATGCTGACCGCATGGGCTATAGGATTGAGGGAGAAGTTTTAAATAGGATTGAAGAAAAAGAGGTTTTATCGAGTCCTGTTACATTTGGAACCATTCAAGTTCCAAATGGTGGACAGCCAATTATATTAATGGCAGATAGGCAAACGACAGGTGGCTATCCGAGAATGGGAAATATCATTTCTGTAGATTTACCTCTTCTTGCCCAGCTAAAGCCGGGGGACTATGTTTCTTTTGAGGAAATTACGCTTGAAGAAGCGGAACAATTGTACATAGAACAAGAAGTAAATATAAATCTATTAAAGAAATTTATCGCTTTACGAAGCTGA	MDVEVLHAGMFTTVQDLGRSHYQQYGVPVGGAMDQSALRMINMLVGNEENEAGLEMTIMGPKLLIKKTTLLAIGGADMEPLLNGERIPLWRPILAEEGSMLCFGKVKSGCRAYVTFAGGIHIDRTMGSKSTYIRAAIGGIEGRMLNKGDYFQIGAQPEMANRFIQDLQKDGRIKTKWAINNSVLSKYKKHPKLRVITDFEYDQFTEESRKAFFTKEYKVSNYADRMGYRIEGEVLNRIEEKEVLSSPVTFGTIQVPNGGQPIILMADRQTTGGYPRMGNIISVDLPLLAQLKPGDYVSFEEITLEEAEQLYIEQEVNINLLKKFIALRS				NA	NA	NA	NA	NA
AK009_01644	714	pxpB	COG2049	5-oxoprolinase subunit B	ATGAAATTTTCTGCGTTAGGGGATCAAGCAATTATTGTTACATTTGGTGAAGAAATTAAGATGGATATATATGAGAAAGTACAGCGGTTATTTCAAGCACTGCAGCAACATCCGTTTGCAGGAATGATTGAGTGCGTTCCGTCGTTTACTTCATTAGCTGTTTACTACAATGTATACGAAGTATGGAAGAGAAATGAGAGAAATGAAAGGCCATATGATTACGTTCACCAGTATATAAAGGAGCTGTGTGATTCTTATAAAGAAGAAGTAAAACAGGATGTGAAACATATTTCTATACCAGTGTGCTACGGGGGAGAATATGGACCTGATTTAGAAGAGGTTGCGCATTATAAAGGTTTACAAGTAGAAGATGTGATTCGAATACATAGTGAAACTACATATTTTGTATATATGCTAGGTTTTACACCAGGGTTCCCGTATTTAGGAGGACTATCAAAAGAATTAGAAACACCTAGAAAAGAAACGCCACGGTTACAAATCTCTCCTGGTTCAGTAGGTATTGGCGGAAATCAAACAGGTATTTATCCGCTTGAAACACCAGGAGGATGGAATATTATCGGCCGAACTCCTATTTCATTATTTAATCCAGAAGAAGAAATACCAACATATATTCAAAGTGGTATGTATTTACGATTTATCCCAATAACGAAGGAAGAGTACGTATCATTTGAGGGGGCTAAAGAATGGATGTAG	MKFSALGDQAIIVTFGEEIKMDIYEKVQRLFQALQQHPFAGMIECVPSFTSLAVYYNVYEVWKRNERNERPYDYVHQYIKELCDSYKEEVKQDVKHISIPVCYGGEYGPDLEEVAHYKGLQVEDVIRIHSETTYFVYMLGFTPGFPYLGGLSKELETPRKETPRLQISPGSVGIGGNQTGIYPLETPGGWNIIGRTPISLFNPEEEIPTYIQSGMYLRFIPITKEEYVSFEGAKEWM				NA	NA	NA	NA	NA
AK009_01645	753	kipR_2	COG1414	HTH-type transcriptional regulator KipR	ATGAGTATAAATAAAACGGCAGTTAAGACAATGGATATTTTGGAGTTGTTTTATGAGCATGAAGAGCTAAGTTTAACTGAGATGGTTCAGCTTACAAATATGCCGAAAACATCTGTTTATCGTTTAATTGGCTCGTTAGAAGAGATGGAGTTTTTACAAAAAAACGAAAAGGGGAAATATCGTTTAGGGGTCGTATTTTTACGGTTCGGTCAACTTGTTTCACAACGATTATCAGTAAGAAATATAGCAATTCCTTATATGAAAGAACTTAGAGATAGTTTAGGACAGGCAGTTAATTTAATAATTCAAGATGGTAATGACGCAATTTATGTTGAAAAGATGGAAGGTGTTCAGCCAGTACGCGTGTATACGGCGGTTGGAAGAAGAGCACCGCTTTATGCTGGTGCATGTCCGAGAATTTTACTATCGTATTTTTCTGAGGAAGAGAAACGGAGATACATAGAGGAAGTGGATTTAAAACAGTTTGCAGATGGAACAATTGTGGATAAGGAACAATTGCTAGAAGTGTTGCAAATGGCAAAAAAGGAAGGCTACACAATTAGTTATTCTGAGTTAGAAAATCATACAGCCGCAATAGCAGCGCCCATTTTCGCAAGTGATGGAACGGTTGTAGCAGGCATTAGTATTTCGGGATTAGCAATTGAGTACAGCGAAAGTAACATTTCATATTTTATCGCTAAGGTGAAAGAAACAGCACATCGCATTTCGAAAGAACTCGGCTTTTTGGCATAG	MSINKTAVKTMDILELFYEHEELSLTEMVQLTNMPKTSVYRLIGSLEEMEFLQKNEKGKYRLGVVFLRFGQLVSQRLSVRNIAIPYMKELRDSLGQAVNLIIQDGNDAIYVEKMEGVQPVRVYTAVGRRAPLYAGACPRILLSYFSEEEKRRYIEEVDLKQFADGTIVDKEQLLEVLQMAKKEGYTISYSELENHTAAIAAPIFASDGTVVAGISISGLAIEYSESNISYFIAKVKETAHRISKELGFLA	PGPT0018213_1385	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
AK009_01646	552	spsB_1		Signal peptidase IB	ATGAAGGAAAATACGAAGAAAGAATTATTCTCTTGGGCTAAAACGATAGGGTTTACCCTTGTATTAATTGCTATTATTCGCGGCGTTTTATTTACACCTTCTTTAGTGCAAGGTGAATCAATGATGCCCACTTTAGAAAATAATGAACGAGTTCTCGTAAATAAGATTGGTTATAGTATAAGTGGATTAGAACGCTTTGATATTATCGTCTTCCACGGCAAAGAAGGATACGATTTAGTAAAACGAGTAATTGGTTTACCAGGTGATACAGTTGAGTATAAAAATGATGTTTTATATGTAAACGGAAAAGCGATGGAAGAACCATATTTAAAAGAGTTTAAAGAAAAAGCAACTGACCGTGTATTAACTCCAGACTTTACGTTAGAACAAATTACAGGGAAAACGAAAGTGCCAGAAGGTCAAGTATTTGTTTTAGGGGATAATCGTGAAGTTTCTAAGGATGGTCGCATGTTTGGCTTTATTTCAGAAGATGAGATTGTCGGAAAAGGACAAGCTGTTTTCTGGCCGTTGAAACAAGTAAGAGCGTTATAA	MKENTKKELFSWAKTIGFTLVLIAIIRGVLFTPSLVQGESMMPTLENNERVLVNKIGYSISGLERFDIIVFHGKEGYDLVKRVIGLPGDTVEYKNDVLYVNGKAMEEPYLKEFKEKATDRVLTPDFTLEQITGKTKVPEGQVFVLGDNREVSKDGRMFGFISEDEIVGKGQAVFWPLKQVRAL				NA	NA	NA	NA	NA
AK009_01647	678	cutC	COG3142	Copper homeostasis protein CutC	ATGCTAGAGGTTATTGCAACATGTTTAGAAGATGTAAAAAGAATTGAAAGTGCTGGCGGGAAGCGGATTGAATTAATTTCATCTTATACAGAAGGTGGTTTAACACCAAGTTATGCTTTTATAAAAAAAGCGGTAGAAGCGGTGAGTATACCAATTCATGTTATGATTCGTCCGCATGCGAAGTCTTTTACATATACGGAAGAAGAAATTGAAATGATGAAAGAAGATATTATAGTTGCGCAGAAGTTAGGAGCAGCTGGTGTAGTATTAGGCGTATTAAACGAACAAAATGAAGTAGATGAAGAGAAATTAGCGGATTTACTATCTGTTGTAGATGGAATGAATGTAACGTACCACCGTGCGATAGATGATATAGAAAATCCAGTAGAAGCGATGAGAACTTTAAAGAAGTTTCATAAAGTAACTCACGTTTTAACTTCAGGTGGACAAGGAGATATAGTAGACAATATTCCGGTGCTTACAGAAATGCAAAAAGTAAGTGATGGTCAAATTCAGCTTGTAGCTGGAGCTGGCGTGACGAAAGAAAATATAAAGCGATTGCTAGATGAAACTGGAATTTCGCAAGCACATGTCGGTACAGCGGTAAGAGAAGCAAAATCATGTTTTTCTGAAATAGATCCTAATGTAGTACAAGAACTAGTTGAAATAATAAAATAA	MLEVIATCLEDVKRIESAGGKRIELISSYTEGGLTPSYAFIKKAVEAVSIPIHVMIRPHAKSFTYTEEEIEMMKEDIIVAQKLGAAGVVLGVLNEQNEVDEEKLADLLSVVDGMNVTYHRAIDDIENPVEAMRTLKKFHKVTHVLTSGGQGDIVDNIPVLTEMQKVSDGQIQLVAGAGVTKENIKRLLDETGISQAHVGTAVREAKSCFSEIDPNVVQELVEIIK	PGPT0004085_1694	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
AK009_01648	708			hypothetical protein	ATGAATGTATATCCGAATATCTCATATATAGCTAAACTAATTGCTGAACCTACAAGAGCAATCATCTTAGATTGTCTAATGAATAATCAGGCACTACCTGCTAGCGAATTGGCTTATATGGCAAAAGTGTCACATCCAACAATTAGTTCTCATCTTTCTAAATTAGTAGAGGGGAATCTACTTACAGTTGAACAACATGGTAGACATCGTTACTATCGACTTGCTAATCAAGAAGTTGCAGAAGTGCTTGAAAAGTTAGAGACAATCGCACCAACAGTTCAAGTTCGCTCTTTAAAACAATCAGGTCAACTAAAACAAATTCGTTATGCTCGAACTTGTTATGATCATCTTGCAGGCAAACTCGGTGTAGAGATAACTGAAAAATTACTAGATAGGAAATTTATAATTTTAGGGGATGGAGAATACATTGTAACAGAACAAGGTAAACAATGGTTTCTGAATTTTGGAATAAATGTTGATGAGGCAGATACAAAAAGGAGGGTATTTGCAAAACCTTGCCTTGATTGGAGTGAACGGCGTTACCATATTTCTGGTTGGCTAGGGTCTGCAATTGCAAAACTGCTTTTTGAACAAGGATGGATTACGAAAACGGATAAGAACCGAGCTGTCCATCTTACAAAGAAAGGTGTAAAGTTATTGGAAGATCAATTAGGCATTGATATGAAAACTGAGGAAAGAAAAGCTTGA	MNVYPNISYIAKLIAEPTRAIILDCLMNNQALPASELAYMAKVSHPTISSHLSKLVEGNLLTVEQHGRHRYYRLANQEVAEVLEKLETIAPTVQVRSLKQSGQLKQIRYARTCYDHLAGKLGVEITEKLLDRKFIILGDGEYIVTEQGKQWFLNFGINVDEADTKRRVFAKPCLDWSERRYHISGWLGSAIAKLLFEQGWITKTDKNRAVHLTKKGVKLLEDQLGIDMKTEERKA				NA	NA	NA	NA	NA
AK009_01649	471			hypothetical protein	ATGAATGCAATTGATCTTAGTATATTAAATTTGAAAGAGACGAGAAGGCGCTCAGAAAAATTATGGAATTCTCTTCCCGATAATTTTCTTAATTGGAGGCCTGATAATGAGGCTATTTCTTTTGGTGAGATGATTCGTCACGTATGGAGCTCAACTTTTTACTATCATATGATTTTAAAAAACAACGGCTCAATAAATGATATACATTTCCCGTATGATGAAGAGCCAATTACTTGTGTAAAAAAGGAAATTGAATTGGCACAATCATACTTTACTGACTTCATAGAGTATGTTCAATCCATAAACATAGCAGAGCTAGATTCAACCCTTATCGATCGAAGCGATGTTGGCTATCAAAGATATTTAGGAGACATGCTATTACGAATTGCCTATCATGATGCGGTCCATGCAGGTCAATTTTTACAATATTTACGAATGATAAACTTAGAAAGACCATTAATTTGGGATTAA	MNAIDLSILNLKETRRRSEKLWNSLPDNFLNWRPDNEAISFGEMIRHVWSSTFYYHMILKNNGSINDIHFPYDEEPITCVKKEIELAQSYFTDFIEYVQSINIAELDSTLIDRSDVGYQRYLGDMLLRIAYHDAVHAGQFLQYLRMINLERPLIWD				NA	NA	NA	NA	NA
AK009_01650	1149	ydbM		Putative acyl-CoA dehydrogenase YdbM	ATGGCACTCTCATTTGTTGAAACAGAAGAACAGTCTTTAATTATTGAGAAAATAAATAAATTGATTCCGAAGTTCATGGAAAGGGAGCATCAGCTAAGTGAATTAGGATCATTTCCGTATGAAAATATAAATGATTTGAAAGATATCGGATATACGAAATTAACGTTACCGAAGGAATTTGGTGGTAGTGCCATTTCTTTATATGACTTCGTTTTATTTCAAGAGAAAATCGCGGAAGGCTGTGGAGCTACTGCATTATCGATTGGCTGGCATCTTGGCATTGTGAAGGAGCTAGCGGAAAATCGCTCTTGGAATGATGAGATGTTCAAATGGTTTTGCGAAGAAGTACGTAATGGTGCGCTCTTTAACAGGGCAGCAACAGAACCGAAAACAGGGAGTCCGACGCGTGGCGGCAAACCAGAAACAATAGCGGTTCAACAAGGCGAGAAGTGGGTTATAAATGGAAGAAAAACTTTTACAACGATGGCGCCAGTACTTGATTATTTTATTATTTCAGCAAGTATGGAAGGCCAAGAAGAAGTTGGTGAGTTTGTTATTCCAAGAAATACACTCGGTGTGTCTATTGAAGAAACGTGGGATAGCGTTGCAATGCGAGGGACTGCTAGCCACGACCTTCTCTTACAAAATGTAGAGATAGACAACCGCTTTTTTACGGATGTAAAAGGCGGGAAAGTGAAACAAAAGGGTATTGGCTGGTTGCTACATATACCAGCATGTTATTTAGGAATTGCACAATCAGCAAGAAATTATGCAGTTCAGTTTGCGGGATCATACAGACCAAATAGTTTAAACCATTCTATTAGTTTATTACCGAATGTTAGAAGATTAGTTGGAGAATTAGAACTCGAGCTTATGCAAGCTCGCGTCTTTTTATATCAAATTGCGAAAAAATACGATGAGGCAGAAGATAAACTGTCACTGCAAGCAGAATTAGCGGCAGTGAAATACGCCGTAACAAATGCGGCGATATCCATAGTGGATAAATCAATGCGCATCGTAGGAGCAAAAAGCTTATCAGAAAAAAATCCGCTCCATCGTTACTATTTAAACGTCAGAGCAGGATTACACAATCCACCGATGGATGATGCAACATTGTCTATGCTGGCGGATGCGGCGTTTCGGTCGTAG	MALSFVETEEQSLIIEKINKLIPKFMEREHQLSELGSFPYENINDLKDIGYTKLTLPKEFGGSAISLYDFVLFQEKIAEGCGATALSIGWHLGIVKELAENRSWNDEMFKWFCEEVRNGALFNRAATEPKTGSPTRGGKPETIAVQQGEKWVINGRKTFTTMAPVLDYFIISASMEGQEEVGEFVIPRNTLGVSIEETWDSVAMRGTASHDLLLQNVEIDNRFFTDVKGGKVKQKGIGWLLHIPACYLGIAQSARNYAVQFAGSYRPNSLNHSISLLPNVRRLVGELELELMQARVFLYQIAKKYDEAEDKLSLQAELAAVKYAVTNAAISIVDKSMRIVGAKSLSEKNPLHRYYLNVRAGLHNPPMDDATLSMLADAAFRS				NA	NA	NA	NA	NA
AK009_01651	633			hypothetical protein	ATGAAAGAAAATAAGAAGAGTAAGAAAAGACGAATCTTTCAAGTATTTTTACTAATGATTTGTTCTGCTATTTTATATGTAAGTTATGCAGCTTACGATATTTGGAGTTATCGTTTTAAAGCAAATGATGACGTGAAAACGGATGCTGGTATCGTACTAGGCGCAGCTTCATGGAACGGAAAACCATCTCCTGTATTTAAAGAAAGAATTAATCATGCGATTTCTTTATATAGGAACGGAAATATTAAAAAGATTATTTTTACAGGTGGTACAAAGTTCGAGGCAGAACTTGAGGAAGCACGTACTGCAAGAGTATATGCAATGAAACAAGGTGTAAAAGAGGAAGATATTTTAATTGAAACAAAATCCCTTTTCACTGAAGAAAATTTAAAGAATGCGAAGCAAGTTGGAATAGAGAACGGAATACACACATACACGATTGTAAGTGATCCACTTCATATGAAACGCGCAATGAGAATCGCAAAACATATTAATATTGAAGCATATGCTTCACCAACGCCGACATCAGCATATAAAACGTTAGATACAGAAATACCATTCTTCTTTAAAGAATTATTCTCGTATATTGGATATGTAACCTCTTTGCCGTTAAAAGCATTGAAGGGGGACTAA	MKENKKSKKRRIFQVFLLMICSAILYVSYAAYDIWSYRFKANDDVKTDAGIVLGAASWNGKPSPVFKERINHAISLYRNGNIKKIIFTGGTKFEAELEEARTARVYAMKQGVKEEDILIETKSLFTEENLKNAKQVGIENGIHTYTIVSDPLHMKRAMRIAKHINIEAYASPTPTSAYKTLDTEIPFFFKELFSYIGYVTSLPLKALKGD				NA	NA	NA	NA	NA
AK009_01652	588	ydaF_3	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGGAAATTATTCACGAAAGAGCAAAGTTGCGGTTAATGGATAATACTGATGTCGAAACTTTGTTTTCGATTGTAGAAGGAAATCGGGATATTTGGGCGTATTTAATCTCTAAAATGGATAGTGTGCAAGATATGCAACAATACGTTCAAAAAGCGATAAAGGGTTACGGAAGAGGTACTCAAATACCTTTGGTAGTCGTAGATCAACAGACGAATAAGATTGTAGGAAGTACACGTTTATATAATATTTCAGTAGAAGATAAGACAGTTGAGTTAGGGCAAACGTGGTATCATCCGAGTGTGCAACGTACGAGTATAAATACAGAGTGTAAGTATATGCTTCTCCAGTATGCTTTTGAAAAACTGCATATGCTTAGGGTACAAATTAAGACGGATGCAAGAAATGAAAAAGCACAACGAGCAATTGAAAGGTTAGGCGCAGTAAAAGAGGGTGTGCTTAGAAATGAAAGAAAATTACCGAATGGTTATGTGAGAGATGCGGTGGTGTACAGTATTATCTCGAGTGAATGGCCAGGCGTAAAAGAACAATTGTTAGAAAAATTAGAGTTATATAAAGAAAAGGTATAA	MEIIHERAKLRLMDNTDVETLFSIVEGNRDIWAYLISKMDSVQDMQQYVQKAIKGYGRGTQIPLVVVDQQTNKIVGSTRLYNISVEDKTVELGQTWYHPSVQRTSINTECKYMLLQYAFEKLHMLRVQIKTDARNEKAQRAIERLGAVKEGVLRNERKLPNGYVRDAVVYSIISSEWPGVKEQLLEKLELYKEKV				NA	NA	NA	NA	NA
AK009_01653	1329			hypothetical protein	TTGAGTGAAATTGAATTAAAGAGCAATATAATTAAGGCAGGGCGAGAGAAGGGGATTATTCTCCGGTTTATACTTGCTAGTCTCGTTGGAGTGTTTATGTTTTTCGTTCCTGTTACGATAAACGGTGCATCGTCTATTATGATTGATCATATCGTATCGTGGATTAGGGCTTCGGTTCCTGACGTAGTACCTTATTATGCATTATTTGTTATGGCAATTGGTGCGATTTATCCATTTTATACGAAGAAATGGAATGCATCTATCGTAGACATTTGTTTTTCTATTTTAAAAGTAGTTGGCGTTGTTTTTGGTATATTATATTGTTTAAAAGTAGGACCAGCTTGGTTCTTTGCGCCAGATGTTGGACCGTTTTTGTATGAGAATCTAGTCATATCAGTAAGTTTGCTCGTTCCAATTGGCTCGGCGTTTTTAGCGTTATTAGTCGGATATGGATTGCTTGAATTTATCGGTACATTTTGTCGTCCGATTATGAGGCCATTATGGAATACGCCGGGGAGATCGGCAATCGATGCAGTTGCGTCCTTCGTTGGAAGTTATTCGCTTGCCCTCCTTATTACGAATCGCGTGTATAAAGAAGGAAAGTATACCACAAAAGAAGCGGCGATTATCGCTACAGGATTTTCTACAGTATCCGCTACATTTATGATCATCATCGCAAAAACATTAGATATTATGCATTTATGGAATGTTTATTTTTGGACTACGCTTGTTGTAACATTCATCGTGACTGCTATCACCGTAAGAATCCCGCCCCTCAGTAGAAAACCAGATACATATGTAACAGAAGAAGGGTTCCCAGAGCCTGTTTATAAAGAGAAAATGTTAGAATGTGCTTGGGAAGATGCGTTAGAAGTATCAAAGTCTGCACCGAGCATTATGAAAAATATTGCAGTGAATTTAAAAGACGGATTTATTATGACGATGGGAATTTTACCATCCATTATGTCAGTAGGATTAATTGGTATCGTCTTAGCGAAGTTTACGCCAATATTTGATTGGATCAGTTATATTTTCTATCCGTTTACATGGCTATTACAATTACCAGAAGCAGACTTAGCCGCTAAAGCCGCATCAGTTGGTATTGCAGAAATGTTTTTACCGTCATTATTAGTTGTAAGTGCGCCACTTGTGACAAAGTTTGTCATTGCAGTTGTTTCCGTATCATCTATACTGTTTTTCTCCGCTTCCATTCCTTGTATATTATCAACAGATATTCCGTTAAAAGTATCTGAACTTATTATTCTGTATGTGCAGAGAACGATTTTAACGTTGCTTATCATTACGCCGATTGCTTATTTGTTGCTTTGA	MSEIELKSNIIKAGREKGIILRFILASLVGVFMFFVPVTINGASSIMIDHIVSWIRASVPDVVPYYALFVMAIGAIYPFYTKKWNASIVDICFSILKVVGVVFGILYCLKVGPAWFFAPDVGPFLYENLVISVSLLVPIGSAFLALLVGYGLLEFIGTFCRPIMRPLWNTPGRSAIDAVASFVGSYSLALLITNRVYKEGKYTTKEAAIIATGFSTVSATFMIIIAKTLDIMHLWNVYFWTTLVVTFIVTAITVRIPPLSRKPDTYVTEEGFPEPVYKEKMLECAWEDALEVSKSAPSIMKNIAVNLKDGFIMTMGILPSIMSVGLIGIVLAKFTPIFDWISYIFYPFTWLLQLPEADLAAKAASVGIAEMFLPSLLVVSAPLVTKFVIAVVSVSSILFFSASIPCILSTDIPLKVSELIILYVQRTILTLLIITPIAYLLL				NA	NA	NA	NA	NA
AK009_01654	882			hypothetical protein	ATGCATCTAATTAATGTAAGTTTAGTTGAAAAGTTAATACAGGAACAGTTTCCCGAATGGGCCCATTTAGAAGTGAAACCTGTAAAGTTTAGTGGGCATGATAATAGGACGTTTCACTTAGGGGATGAGATGAGTGTAAGATTGCCAAGTGATGTGGCATATGCACCGCAAGTAGAGAAAGAAAATAAGTGGTTACCACTATTAAGTAAGAGGCTTTCTTTACCGATTTCTACCCCACTTGCGAAAGGAAATCCGTCTGAAGCGTATCCATTGCCTTGGTCTATTAATAAGTGGATAGAGGGGGAAACAGTTACGAAACAAAACGTTCGTGATTTAAATGAATTTGCAGCGGATTTAGGATCTTTTTTAGTAGAATTGCAATCTATTGATGCGAGTAACGGACCTTTAGCTGGAACACATAATTTTTACCGGGGCGGACTTATATCGGTATATGATGAAGAGGCGAGAGTTGCTATTGAAAATAATAAGGATGTTTTTGACGAGGCATTATTAAAGCACCTTTGGAATGTAGCACTTAGTTCAACATGGGACCGTAAGCCAGTTTGGGTTCATGGAGATGTAGCGCCAGGGAATTTACTCGTTAAAGATGGAAAGCTTTGTGCTGTAATTGATTTTGGTATTTTAGGAGTAGGAGATCCTGCATGTGATGCGGCGATGGCTTGGACATTTTTTGATGAAAATAGTAGAAACGTATTTAAAGAAGTGTTACGTATGGACGAAGAAACATGGAATAGAGCGAGAGGATGGGCACTTTGGAAGGCGTTAATTACATATGACGCAAATAAGGATAGTAATGAGAGGGTGGCAGAAGAATCTTATCGTATCATTCAAGTGATTGTGGATGATTATAAAGGGGAATAG	MHLINVSLVEKLIQEQFPEWAHLEVKPVKFSGHDNRTFHLGDEMSVRLPSDVAYAPQVEKENKWLPLLSKRLSLPISTPLAKGNPSEAYPLPWSINKWIEGETVTKQNVRDLNEFAADLGSFLVELQSIDASNGPLAGTHNFYRGGLISVYDEEARVAIENNKDVFDEALLKHLWNVALSSTWDRKPVWVHGDVAPGNLLVKDGKLCAVIDFGILGVGDPACDAAMAWTFFDENSRNVFKEVLRMDEETWNRARGWALWKALITYDANKDSNERVAEESYRIIQVIVDDYKGE				NA	NA	NA	NA	NA
AK009_01655	516			hypothetical protein	ATGGAGAGAAATATAAGTAAAGAACATGAAATTCGAATTGCTACTGAAATTGAAAGTGATAGTATTCTCCTTTTATTAAAAGAAGTAGCGCAATGGCTACAATATAAAGAAGTGGATCAGTGGCAGTATCTTTTAGGAGAGGAAGCTACGGCTGAAATACTAGAATGTATAAGAGAAAAATATACATATGTTGTTCTGAAAGAAGATGAAATAGTTGGTACGGTTACAGTTTCTCCTAAACAAAATGAATGGGATGAACATATTTTTGGTAAAGAGGAAGTTTCTAATTCATTATATATTCATAGATTTGCGGTGAAACGGAAGTATAAGGGAAATGGAATAGGCGAATGGATTTTACAGTGGGTAGAAGAGAATGTGCAATGTGATAAAGAGTATTTGAAGTTAGATTGTGTGGGGCATAATCGTACGTTGAATGATTTTTATAAGAAAAATGGTTTTGAATATGTTGGAAGTACGGATGGGCTTAGTAAGTTTCAAAAGAAAAGGAGAATGTGA	MERNISKEHEIRIATEIESDSILLLLKEVAQWLQYKEVDQWQYLLGEEATAEILECIREKYTYVVLKEDEIVGTVTVSPKQNEWDEHIFGKEEVSNSLYIHRFAVKRKYKGNGIGEWILQWVEENVQCDKEYLKLDCVGHNRTLNDFYKKNGFEYVGSTDGLSKFQKKRRM				NA	NA	NA	NA	NA
AK009_01656	468			hypothetical protein	ATGAAAAGAGGGATTACAGTAGATATTCTAGATGGATATGATAATTTACTTTGGAAAGTATTAAAGCCAATTGATATTACTGTATTTGATTGGCAAGTCATGGGAAGGGAGGAAGCTTATATAATAATAGGGAATGAATTAGGTTCAGAGTTATTTTCAGAAGATAACGAGATTATGGAAGGATCAGAATTAAAAAAGCTAATAAAAGATAACATATATTATCTTTTATTTTTAGATTTAAAAGCATGTCCAAAAGGAGAGGTACTAGGAGAAATTGCAACATTTGAAGAATTTAAGGAGAGTAAGTGTGAAGTAGTCGTATTAGTAGCGGATGGTGAGTATATACAAATTTATGCGAAAAACCAAGAAGAGATTGAAATGATGTATGAAAACGCAGTGAATCAAGGATTTTATGTAGAATATATTACAGATGAAAATGATGGAAGGATGCATTTGTCAGTATGGTAG	MKRGITVDILDGYDNLLWKVLKPIDITVFDWQVMGREEAYIIIGNELGSELFSEDNEIMEGSELKKLIKDNIYYLLFLDLKACPKGEVLGEIATFEEFKESKCEVVVLVADGEYIQIYAKNQEEIEMMYENAVNQGFYVEYITDENDGRMHLSVW				NA	NA	NA	NA	NA
AK009_01657	198			hypothetical protein	ATGTATAATTCGAATTATTATGATTGGTATAGACAAAATGATAAGTTGATTAGTGATATTGAAAAAGCTATAAACGGAGAGTATAGCGCTATAAGCTGCTATGCAAAATTAGCGAATATGGCTCCAAATCAAGTAGAACAAAAACAAATTCTTGAAATTCGTAATGATGAAATAAAGCATTTCCACAACTTTGTATAA	MYNSNYYDWYRQNDKLISDIEKAINGEYSAISCYAKLANMAPNQVEQKQILEIRNDEIKHFHNFV				NA	NA	NA	NA	NA
AK009_01658	507			hypothetical protein	ATGCCATCTTTATTTAAACCTATGGCCTTCCAGCTGAAAACCGAAAGACTTGAGCTTAGTATGTGGGAGGAATCCGCTTCCGTTTGGCTGAGCAAATTAATTGGCGAACGTGGTGTGGACATTCCAGCCGTTGATTCCGTTCGTAACCGGCTCATTGAGATGCGCAAGAAGGCAGAGGAAAATGGCATTTCCCTTCTCACTATTCGAAGGCGCAATGAAGGCGATTTCATCGGATACTGCGGCTTAATTATTGGTCGTTCCACACTTGAAGAGCCGGAGATTGCATACGAGTTGTTCCGCAGCGCCCATGGTAAAGGTTATGCAACTGAGGCGGCATCCGTTGTACTGGACGCTGCGATTGCTACTGGGCGCCATAGACTTTGGTCGACTGTAGGCGCTTGGAATATCGCTTCACTCCGGGTACTAGAAAAGATAGGATTTAAGCGTCATCACAGTACGTGGGATGATGAACGTGGTGAGATTGTTTGGAACGTACGCGATTTTTAG	MPSLFKPMAFQLKTERLELSMWEESASVWLSKLIGERGVDIPAVDSVRNRLIEMRKKAEENGISLLTIRRRNEGDFIGYCGLIIGRSTLEEPEIAYELFRSAHGKGYATEAASVVLDAAIATGRHRLWSTVGAWNIASLRVLEKIGFKRHHSTWDDERGEIVWNVRDF				NA	NA	NA	NA	NA
AK009_01659	1182			hypothetical protein	ATGTTTAAAAATAAACTTTTATTTTTATCACCAGTTATTGCACTGCTTGTTGTTTTTATTTTTTCATTAACGTTATTTCCAACTGTTCAACCGCAGCCGAAAAACTTGCCAATTGCAATTGTAAATGAGGATCAAGGTGTAGAAATTCCAAATCAACCGAAAATGAATATGGGGCAAACAATTGTTGATACGGTGAAAAAATCATCGAAATCAGATGAAGAACCTGCGGTAAAGTGGGTAGAAGTGAAGAATAAGGAAGCAGTTCAAAAAGGGCTAAATAATAAAGAGTATTATGCAGCGTTAGTCATTCCGAAAGAATTTAGTGCAAAACAAGCATCGTTACGAACACCACAGCCATCTTCACCTGAGATAGAAATATATATTAATCAAGGAATGAATACGGCTGCATCAACTATGGCAGGACAAATATTACAGGCGATCGTTGATAATATGAACAATAATGTCCGTACACAAATATTAGAAGGGTTGAAAACAAAAGGAGCTACTGTAACAACAGACCAAGCTGAGAAATTAGTAACACCTATTGTAAAGAACGTGAAAAATGTGAATGAGGTCGGCAAAAATAGTGCGAACGGTAACTCACCAATATCATTATTCCAGCCGTTATGGATTGCAAGTTTAGCTAGTGCAGCGATTATTTTTATTGCGATTAGTAAAATGCCAGTAAGCTCAAGAAAAGAAAACTTTCTGTTAAAAGTAAAACAAATCGTAACAGGGGCTATTGCGACACTTGTAATTGGGTTTGGTCTTACATGGATTGCAGATGGGATGGTAGGGTTAAATATTTCGAACTTTACGGATACAGCTCTATTCTTATCTATTACTTCTTTTAGTTTCTTCTTAATGATATCTGCGGTACTTTCATTAGTTGGACTAAAAGGAATCGGTTTATTCGCTTTATTACTATTCTTCGGAGCGCCGTTATTATCGTTAGCACCTGAGATGTTGTCTCCGTTTTATCAAGACTGGGTTTACTCATGGTTACCAATGAAATTTATGATTGAAGGCCTAAGAGAAATCTTCTTCTTCGGAAAAGGATTAAGCTGGAATACACCTGTTACTGTACTCGTTTGGATTGGTATAGTAAGTATGGTTACTATATTAGCAACTACATTCAAACGTAGTGTAGTAAAAGGGCATAAAACAGAATTGAACGCTTAA	MFKNKLLFLSPVIALLVVFIFSLTLFPTVQPQPKNLPIAIVNEDQGVEIPNQPKMNMGQTIVDTVKKSSKSDEEPAVKWVEVKNKEAVQKGLNNKEYYAALVIPKEFSAKQASLRTPQPSSPEIEIYINQGMNTAASTMAGQILQAIVDNMNNNVRTQILEGLKTKGATVTTDQAEKLVTPIVKNVKNVNEVGKNSANGNSPISLFQPLWIASLASAAIIFIAISKMPVSSRKENFLLKVKQIVTGAIATLVIGFGLTWIADGMVGLNISNFTDTALFLSITSFSFFLMISAVLSLVGLKGIGLFALLLFFGAPLLSLAPEMLSPFYQDWVYSWLPMKFMIEGLREIFFFGKGLSWNTPVTVLVWIGIVSMVTILATTFKRSVVKGHKTELNA				NA	NA	NA	NA	NA
AK009_01660	768			hypothetical protein	TTGATTTATAATAATCAACAACGTGTTGTTTATTTATATTTTGAATTATATGTTCGAGTTGAACCATATACAATAATCAAAAATCGGGAATGTGTCGGTTATAAGACACATTTTCTAAATGTGTTGAGTAAAATTAAGGAGGGACATGCGTTGCGCGATAGCAATTTAGATTTGCGTGTTGTTCGTACGAAAACCGCCATACGAAATGCATTGGTGGAGCTAATTGAAGAAAAAGGTTTTGACGCCATTACAGTGAAAGATATTACAACGAAAGCAAACATTAATCGCGGTACTTTCTATGCGCACTATCAAGATAAATTTGATTTAATGACAAAATGCCAAGAAGACATTATGTACGAGTTTTCTAAAATTGCCAAACAGAAATTCCCGGAAGTTATTGCTGATCTTGGAACAAATCCTTCTCCAACAATGCCATTTATACTTATCACTTCTATTCTTGAATTTCTAAATGAAAATAGTGATTTTATGAGAGCTGTGCTTAGCCCAAATGGAGATTTATCTTTCCAAACAAAACTGAAAGATTTTATGTGGAAAACATTATTTGAAGATACGAATGGTCCTCTCATTAATAAGGAAAATTTACTTGTTCCAAGCGAATACTTAACTTCTTATATGGCATCTGCACATATAGGTGTCATACAGCAATGGTTAAATAATGGACAAAAAGAAACACCTGAGGAGATTGCTCGCTTTTTATCAACTATTGCAGTTCATGGACCTTTTTATGCGGCTGGTTTAAAGAAATAA	MIYNNQQRVVYLYFELYVRVEPYTIIKNRECVGYKTHFLNVLSKIKEGHALRDSNLDLRVVRTKTAIRNALVELIEEKGFDAITVKDITTKANINRGTFYAHYQDKFDLMTKCQEDIMYEFSKIAKQKFPEVIADLGTNPSPTMPFILITSILEFLNENSDFMRAVLSPNGDLSFQTKLKDFMWKTLFEDTNGPLINKENLLVPSEYLTSYMASAHIGVIQQWLNNGQKETPEEIARFLSTIAVHGPFYAAGLKK				NA	NA	NA	NA	NA
AK009_01661	2607	rphC		rifamycin-inactivating phosphotransferase RphC	ATGAGTTCTTTCGTTCTCGATTTTCAGGAAATAGAAAACACGTACCTTTCACTTGTCGGTGGAAAAGGTTTGAATTTAGGGGAGTTATCCAACATTCAAGGGATACAAGTGCCAGAAGGATTTTGTGTTACAACGATAGGGTATGAAAAGGCCATCGAGCAAAATGAAGGGCTTCAAATTTTGTTGCAGCAGCTAACGATGCTAAAAATTGAGGAACGAGATCAAATTTGTGAAATTAGTAAGAAGATTAGAGAAGTCATTATGGCGGTGGAAATTCCAGTTGATGTAGTGGAATCAGTAGCTCATCATCTCTCTCGCTTTGGCGATGAACATGCGTATGCAGTGCGTTCGAGTGCTACTGCTGAAGATTTACCGTATGCCTCGTTTGCTGGTCAACAAGATACGTATTTAAATATTATTGGAAAAGAAAGCATTTTGCAGCATATTAAAAAATGCTGGGCTTCTTTATTTACAGATCGAGCGGTTATATACCGAATGCAAAACGTTTTTGATCATAATCAAGTTTCTATATGTGTTGTCGTTCAAAAAATGGTTTTCCCTGTGGCTTCAGGGATTTTATTTACTGCCGATCCGATTACTTCGAATAGGAAGGTGTTGTCAATCGATGCCAGCTTTGGACTTGGCGAGGCGCTAGTATCTGGATTGGTTTCTGCCGATAATTATAAGGTAAAAGAAGATGAAATCGTCGGAAAGGTCATCGCAACGAAAAAATTAGCCATCTATGGACGAAAAGAAGGCGGAACAGAGACAAAGAAAATTGCTCCTAATCAGCAAAAAGTTCAAACACTTACTGAACAACAAATTTTACAACTAGCACGCATCGGAAGACAAATCGAAGTTTATTTTGGTTGTCCGCAAGATATTGAATGGTGTTTAGTTGATGATACATTTTATATAGTCCAAAGCAGGCCGATTACGACTTTATATCCAATTCCAGGAGTAAATGATGGGGAAAATCATGTGTATATATCGGTTGGTCACCAACAAATGATGACCGATGCGATGAAACCACTTGGGTTATCTTTTTTCTTGTTAACGACTAGTGCCCCTATGCGTAAAGCGGGAGGCAGGTTATTTGTTGATGCTACGCAACAATTAGCTTTACCTGCTAGCAGAGATTACTTAATAAACACTTTAGGAAAATCGGATCCACTCGTAAGAGATGCATTAACGACTATAATCGAGCGAGATGATTTTATTCAATTGTTACCGGATGATGAAAAAGGAAAGAGTGCTAGTAAAAGTAAGCAACCTGCAAGTTCGCAAACAGAAATCGAAAATAATACGGCAATCGTTACGAATTTAATACAGAATAGTCAAGAATCGATCGAAGAGTTAAAACGAAACATGCAAACGAAATCAGGTGTGGATGTATTTGATTTTATTTTGCAAGACATCCAGCAATTAAAGAAAGTATTATTTAACCCGCAAAGTATAGCTGTTATTATGGCTGGTATGAATGCTTCAACATGGATGAATGAAAAGATGGAGCAATGGCTAGGTGAAAAAAATGCAGCAGATACACTTTCTCAATCCGTACAAAATAATATTACTTCAGAAATGGGTTTAGCATTATTAGATGTTGCAGATGTGATTCGGCCGTATCCAGAAGTCATTGCGTATTTACAGCATGTAGAAGATGACAGCTTTTTAGATGAATTAGTTCAGTTTAAAGGCGGGGAAAAAGTTCGGGATGCAATCGAGGCGTTTCTAAGCAAATATGGAATGAGATGCAGCGGAGAAATCGACATTACGAAAACGCGCTGGAGTGAAAAGCCAACAATCATTATCCCGATGATTTTAAATAATATAAGAGACTTTGAAGCTGGCGCTAGTAAGCGAAAGTTTGAAGAAGGACTACAGGAAGCTTTGAAAAAAGAAGAAGAGTTAGTAGATCGATTACAAGACTTGCCGGATGGAAAACAAAAAGTAGAAGAAACGAAGCGAATGATTCGCAACATCCGTAATTGTATCGGTTATCGTGAATATCCAAAATACGGCATGATTAATCGTTATTTTATATATAAGCAGGCGTTATTGAAAGAAGCTAAGCAACTTGTGCAGAGCGGGGGCATTCATGAAGTTGATGATATATACTACTTAACTTTTGAAGAACTTCACGAAGTCGTCCGCACAAATAAACTAGATTACGAGCTTATTCATAAGCAAAAAAATGAGTACAAATTATATGAAAAACTAACGCCGCCGCGAGTTATGACGTCTGATGGAGAAATCATTACAGGTAAATATAAACGAGAAAATCTCCCAGCTGAAGCAATAGTAGGTTTGCCTGTTTCTTCTGGAGTGATTGAGGGGAGAGCACGCGTTATTTTAAATATGGAAGACGCGAATTTGGAAGAGGGAGATATATTAGTTACGGCATTTACCGATCCTGGCTGGACACCTTTGTTTGTTTCTATAAAAGGGTTAGTAACAGAAGTCGGTGGGCTTATGACGCACGGAGCAGTAATTGCACGTGAGTATGGATTACCAGCAGTCGTCGGAGTAGAGAATGCTACGAAACGAATAAAAGACGGTCAACGAATTCGGATACATGGAACAGAAGGGTATATTGAAGTGTTGTAA	MSSFVLDFQEIENTYLSLVGGKGLNLGELSNIQGIQVPEGFCVTTIGYEKAIEQNEGLQILLQQLTMLKIEERDQICEISKKIREVIMAVEIPVDVVESVAHHLSRFGDEHAYAVRSSATAEDLPYASFAGQQDTYLNIIGKESILQHIKKCWASLFTDRAVIYRMQNVFDHNQVSICVVVQKMVFPVASGILFTADPITSNRKVLSIDASFGLGEALVSGLVSADNYKVKEDEIVGKVIATKKLAIYGRKEGGTETKKIAPNQQKVQTLTEQQILQLARIGRQIEVYFGCPQDIEWCLVDDTFYIVQSRPITTLYPIPGVNDGENHVYISVGHQQMMTDAMKPLGLSFFLLTTSAPMRKAGGRLFVDATQQLALPASRDYLINTLGKSDPLVRDALTTIIERDDFIQLLPDDEKGKSASKSKQPASSQTEIENNTAIVTNLIQNSQESIEELKRNMQTKSGVDVFDFILQDIQQLKKVLFNPQSIAVIMAGMNASTWMNEKMEQWLGEKNAADTLSQSVQNNITSEMGLALLDVADVIRPYPEVIAYLQHVEDDSFLDELVQFKGGEKVRDAIEAFLSKYGMRCSGEIDITKTRWSEKPTIIIPMILNNIRDFEAGASKRKFEEGLQEALKKEEELVDRLQDLPDGKQKVEETKRMIRNIRNCIGYREYPKYGMINRYFIYKQALLKEAKQLVQSGGIHEVDDIYYLTFEELHEVVRTNKLDYELIHKQKNEYKLYEKLTPPRVMTSDGEIITGKYKRENLPAEAIVGLPVSSGVIEGRARVILNMEDANLEEGDILVTAFTDPGWTPLFVSIKGLVTEVGGLMTHGAVIAREYGLPAVVGVENATKRIKDGQRIRIHGTEGYIEVL				NA	NA	NA	NA	NA
AK009_01662	846	yflN_3	COG0491	putative metallo-hydrolase YflN	TTGGACAATGAAATGAATTATGGAAGTGATTACAAGTTTATTCCAGCAACTTCAATTGAAAGTGGTCATGGCATTGAAGTATTGCCTGATTTATTTTGTTACACGATTCAAATCGTCAATATATGCTTTGCTGGAAATCCTGAGACCAATGATTTTGTTTTAGTTGATGCTGGAATGCCTAAATGTGCAAATAAAATTATCTCTATCGCTGAGGATCGATTTGGTACCAATAGTCGCCCAAAAGCCATTATTTTAACTCACGGCCATTTTGATCATGTTGGGGGAATAATTGAACTCATCAAGTATTGGGATGTTCCCGTCTATGCACATCAGATGGAGATACCGTTCCTGACCGGACAACAAAGCTATCCAGAACCAGACCCTACAGTTGAAGGTGGTATGGTAGCAAAAATGTCTCCTCTGTTCCCAGACGAACCAATTGACTTAGGAAATAACGTAAAAGCGCTACCTACCGATGGAACTGTTCCCCATATGCCAGAGTTTAGATGGATTCATACACCAGGACATACTCCAGGGCATATTTCATTATTCCGAGAAAAAGAACGAACTTTAATTGCTGGGGACGCTTTTGTTACAGTGAAACAGGAGTATCTGTATAAAGTAATAACTCAAGAACAGGAAATAAGCGGTCCGCCTCGTTATTTAACAACAGACTGGAAAGCCGCTAAAGAGTCAGTTATTAAGCTAGAGAAGTTAAAGCCTCTAACCGCTGTTACTGGACATGGGATACCGATGTCGGGTGAATTGCTATCAACAAGCCTCAAAACACTCGTTCAAGAATTTGATAAAATCGCTTTACCCGATTATGGAAAATATGTAGACTAA	MDNEMNYGSDYKFIPATSIESGHGIEVLPDLFCYTIQIVNICFAGNPETNDFVLVDAGMPKCANKIISIAEDRFGTNSRPKAIILTHGHFDHVGGIIELIKYWDVPVYAHQMEIPFLTGQQSYPEPDPTVEGGMVAKMSPLFPDEPIDLGNNVKALPTDGTVPHMPEFRWIHTPGHTPGHISLFREKERTLIAGDAFVTVKQEYLYKVITQEQEISGPPRYLTTDWKAAKESVIKLEKLKPLTAVTGHGIPMSGELLSTSLKTLVQEFDKIALPDYGKYVD				NA	NA	NA	NA	NA
AK009_01663	477			hypothetical protein	ATGAAACATATTGTTGCTTTATTAATTAAATACACAGCGATAACTGCAGTATTACTTATCGTACTCAGTATCTTTCAAGGCATTTCAATTCCTAGAGTATTACTCATTTCTCTTTTCTTAACAGGGGCTGCCTATTTAATCGGCGATCTCTTCATTTTACCTAAATACGGAAATATGATTGCTACAATTGCAGATTTCGGCTTAACTTTTTTCGGAATTTGGTTACTAACATACTTATTCACTAATTTAGACACTACTCGTAATATTGGACTTTCTTCATTTATAGCCGCTTTAATTATTGGTGGAACAGAAATTTTCTTCCACATTTATATGAAGAGACTAGTGCTGCGTAACGACGATGAATTAAGAAATCACAAGCATATTCATCATGATAAATATGCTATGGAAATGTCAGATGAATATATGGATTCTTCTACAATAAATAAATCCAAAATTGGGGATACATCTAAAAAATAA	MKHIVALLIKYTAITAVLLIVLSIFQGISIPRVLLISLFLTGAAYLIGDLFILPKYGNMIATIADFGLTFFGIWLLTYLFTNLDTTRNIGLSSFIAALIIGGTEIFFHIYMKRLVLRNDDELRNHKHIHHDKYAMEMSDEYMDSSTINKSKIGDTSKK				NA	NA	NA	NA	NA
AK009_01664	516			hypothetical protein	ATGGGTATTTTAAGTGGAAATCCTCAAAATGAACCGTTACATTACGGAGAAGTATTTGATATTTGGAGTTATCTTCTAGCTGCACAAGGTGGAATCGCAAGCCATCAAGTGTTTATGAATCACACAGGTGACGAAGATTTGAAGAAGTTTTTAGAAAGCTTAATTGAAAATGATATGAACTCGGAAATAGAAGAGTTAAAAACTCTTTTAAAGGTTAATGGCGTAGCTTTACCGCCTGCTCCTCCAGAACGACCAGTTGCATCTATCGAAGACATTCCCCCAGGGGCACGTATTAATGATGCTGAAATAGCAGCAGCTGTTTCTACAGGATTAGCAGCTGGACTTGTGACATGTAGTCAAGTGATGGGAAAATGTCTTCGAGAAGATGTAGGGATGTTATTCGGACAATTTCATATGAAAAAAGCGCAAGCAGGTGTAACTTTGCTGCGTTTAAGTAAGAAAAAAGGGTGGGTAGTTCCACCACCGTTACATGTAAGAAACTCTGATCAAGCTTAA	MGILSGNPQNEPLHYGEVFDIWSYLLAAQGGIASHQVFMNHTGDEDLKKFLESLIENDMNSEIEELKTLLKVNGVALPPAPPERPVASIEDIPPGARINDAEIAAAVSTGLAAGLVTCSQVMGKCLREDVGMLFGQFHMKKAQAGVTLLRLSKKKGWVVPPPLHVRNSDQA				NA	NA	NA	NA	NA
AK009_01665	213			Small, acid-soluble spore protein 1	ATGGCAAACAATAATAGTGGAAGTCGTAATGAATTGTTAGTTGGAGGTGCTGAACAGGCCCTTGATCAAATGAAATATGAAATTGCACAAGAGTTTGGTGTACAACTTGGTGCAGATACAACAGCTCGTTCAAACGGATCTGTTGGTGGTGAAATTACAAAACGTTTAGTAGCAATGGCTGAACAACAACTTGGTGGTAGAGCTAACCGCTAA	MANNNSGSRNELLVGGAEQALDQMKYEIAQEFGVQLGADTTARSNGSVGGEITKRLVAMAEQQLGGRANR	PGPT0024860_116	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
AK009_01666	1134		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAAGCTGTAACCTATCAAGGACCAAATCAAGTACAAGTTAAACAAGTTGATGATGCAAAGTTAGAGAAAAAAGATGATATTATTGTAAGAATTACTTCAACCGCTATTTGCGGTTCTGATTTACATTTATATCAAGGTAACATGCCCTTACCTCAAGGATACATTATCGGCCATGAACCAATGGGAATCGTTGAAGAAGTCGGGCCAGATGTCACTAAAGTGAAAAAAGGCGATCGTGTTGTCATCCCCTTCAACGTTTCTTGTGGACATTGTTTCTATTGCCAACATGAAATGGAAAGTCAATGTGATAACTCAAACCCTCATTACGATTCTGGTGGATACTTTGGTTATACGGAGAAATTTGGTAATCATCCAGGCGGACAAGCAGAATATTTAAAAGTTCCTTTTGGAAATTTCACTCCATTTGTTATACCGGAATCATGCGATCTTGAAGATGAATCCCTACTATTTTTATCAGATGTTTTACCAACAGCCTATTGGAGTGTAATAAACGCAGGCGTTAAGCCAGGTGATACCGTTATCGTCCTTGGTTGTGGACCTGTTGGATTAATGACACAAAAATTTGCCTGGATGCAAGGTGCTAAGCGCGTAATAGCAGTGGATTACTTAGATTATCGAATGAATTACGCAAAAAAGATTAACAATGTTGAGGTATTTGAGTTTACAAAATTTCCAGATATGGGAGAACATTTAAAGGAAATTACACATGGCGGTGCCGATGTAGTCATTGATTGCGTGGGAATGGATGGAAAAAAATCGCCTCTAGAATTTCTGGAACAAAAATTGAAACTACAAGGCGGAACTCTCGGCCCTATTCAAATCGCTACGAAAGCCGTAAGGAAATATGGAACGGTTCAAATGACTGGCGTTTATGGTGGCAATTATAATGCATTTCCACTCGGGGCATTTTGGGTTAGAAATATTAATCTTAAAATGGGACAAGCACCTGTCATTCATTTTATGCCGGAACTATTTAAAAAAATAACAAATAAAGAATTTGATCCAAAAGAGATTATTACACACAAAATCCCCCTTGAAGAAGCGAGCTACGGTTATCAAATTTTTAATAATCGTGAAGATGATTGTATAAAAGTCATTCTGAAGCCTTGA	MKAVTYQGPNQVQVKQVDDAKLEKKDDIIVRITSTAICGSDLHLYQGNMPLPQGYIIGHEPMGIVEEVGPDVTKVKKGDRVVIPFNVSCGHCFYCQHEMESQCDNSNPHYDSGGYFGYTEKFGNHPGGQAEYLKVPFGNFTPFVIPESCDLEDESLLFLSDVLPTAYWSVINAGVKPGDTVIVLGCGPVGLMTQKFAWMQGAKRVIAVDYLDYRMNYAKKINNVEVFEFTKFPDMGEHLKEITHGGADVVIDCVGMDGKKSPLEFLEQKLKLQGGTLGPIQIATKAVRKYGTVQMTGVYGGNYNAFPLGAFWVRNINLKMGQAPVIHFMPELFKKITNKEFDPKEIITHKIPLEEASYGYQIFNNREDDCIKVILKP	PGPT0006355_1301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
AK009_01667	885			hypothetical protein	ATGTTAACTAACTTAAAAGAGGTGTACTTCATGTTTTATTATAAAGAGGAAATAATTAATATGATTAAGCCGGATAAACCAGACCCAGCTGCTGCAAAAGTTTTACAAGAAATATTAGGCGGGCATTATGGGGAAATGCGTACAATGATGCAATATTTCTTCCAAAGCTCAAATTTTAGAGGTAAAGAGAAGCAATATCGCGATTTACTTCGAGGTGTTTTTTTAGAGGAAATAAGCCATGTAGAACTTGTACAACATACAATTAATCAGCTACTAACTGGATCTGGTGAACCTACGCCAGGAAATGCTGGTATTGACAAAGCACCGCTTGATGAAGCGGTTAAACATGCAAACCCTCACCACTTTATTGTAGGTGCTCAAAGTTCATTGCCTGTTGATGCAGCTGGAAATCCGTGGAATGGATCTTGGGTATATAGTCATGGAAACTTAATTAGCGATTTACTAGATAATGTCGTACTTGAATCTACAGGCGTACTTCAAAAGACTAGAATTTATGAAATGAGTTCTAATCAAACATTTAGAGAAACTCTTGCATTTTTAATTGTACGTGATAATGCACATCAAAATGCTTTCGCAAAAGCTTTAGAGACATTGGGTGTTGAATGGGGAAAACTCTTCCCTGTGCCGAACTATGATATTAATAAATACCCAGAGTGCAGAAAGTATGTAGACATGGGATTCCATAACGCACAATTTAATTTTAGCTTAGATCCAACAAGAATGGGAGAAATATTCCAAGGTGAATCACCAAGTAGAAACAAAGGAACATTAGCAGTAACTGACCCGCCAAAAGGTTTTCCTGTACCAGAACTTCCTGAAATGCCAAATGAGCATAGTCCTGGATTAAAAGATATGGGTCTTTAA	MLTNLKEVYFMFYYKEEIINMIKPDKPDPAAAKVLQEILGGHYGEMRTMMQYFFQSSNFRGKEKQYRDLLRGVFLEEISHVELVQHTINQLLTGSGEPTPGNAGIDKAPLDEAVKHANPHHFIVGAQSSLPVDAAGNPWNGSWVYSHGNLISDLLDNVVLESTGVLQKTRIYEMSSNQTFRETLAFLIVRDNAHQNAFAKALETLGVEWGKLFPVPNYDINKYPECRKYVDMGFHNAQFNFSLDPTRMGEIFQGESPSRNKGTLAVTDPPKGFPVPELPEMPNEHSPGLKDMGL	PGPT0013240_492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
AK009_01668	1431	aspA_2	COG1027	Aspartate ammonia-lyase	ATGGCAATGACAAACAAGAACGTGCGAGTGGAGAATGATTTTTTGGGAGGAAAGGAATTACCTATTGAGGCATATTACGGAATTCAAACTTTACGCGCTGTTGAAAATTTCCCGATTACAGGGTATAAAATTCATGAAAGTTTAATTAAAGCGTTCGCAGTTGTAAAAAAAGCTGCAGCGCTTGCCAATACAGATGTAGGAAGATTGGAATTAAACAAGGGCGGTGCCATCGCAGAAGCTGCTCAAGAAATTCTTGATGGAAAATGGCATGATCATTTCATCGTAGATCCAATCCAAGGCGGAGCGGGTACTTCAATGAACATGAATGCAAATGAAGTCATGGCCAATCGTGCTCTTGAATTATTAGGGATGGAAAAGGGAGACTATCATTATATTAGTCCAAATAGTCATGTAAACATGGCGCAATCAACAAATGATGCATTCCCAACGGCGATTCATATCGCAACATTAAACGCATTAGAAGGCTTATTACAAACGATGGGTTATATGCACGATATATTTGAATTAAAAGCAGAACAGTTCGACCATGTGATTAAAATGGGTCGTACACATTTACAAGACGCTGTGCCAATTCGTCTTGGACAAGAATTTAAAGCATATTCTCGCGTACTTGAACGTGATATGAAACGTATTCAACAATCGCGTCAACACTTATATGAAGTAAATATGGGGGCAACTGCAGTTGGTACAGGCTTAAATGCAGATCCAGAATATATTGAAGCAGTTGTAAAACATTTAGCTGCAATTAGTGAACTCCCGCTTGTCGGTGCAGAAGATTTAGTAGATGCGACGCAAAATACGGATGCGTATACTGAAGTATCTGCAGCACTGAAAGTATGTATGATGAATATGTCTAAAATTGCGAATGACCTTCGCTTAATGGCATCAGGTCCTCGTGTTGGTTTAGCTGAAATTATGTTACCAGCTCGCCAACCAGGTTCTTCTATTATCCCAGGGAAAGTAAACCCTGTTATGCCAGAAGTAATTAATCAAATTGCGTTCCAAGTAATTGGTAATGACCATACAATTTGCCTTGCTTCAGAAGCAGGACAATTAGAATTAAACGTTATGGAACCAGTACTTGTTTTCAACTTACTGCAATCGATTAGCATTATGAATAACGGTTTCCGTGCCTTTACAGATAATTGCTTAAAAGGAATTGAAGCGAATGAAGATCGCTTAAAAGAGTATGTTGAGAAAAGTGTAGGAATTATTACAGCCGTGAACCCTCATATCGGTTATGAAGCAGCAGCTCGCGTTGCGAAAGAAGCAATCGCGACAGGGCAATCCGTTCGAGAACTTTGTGTGAAAAATGGTGTACTGTCACAAGAAGACTTAGAATTAATTCTAGATCCATTCGAAATGACACACCCAGGGATTGCAGGAGCAACTCTTTTAAAGAAAAATTAA	MAMTNKNVRVENDFLGGKELPIEAYYGIQTLRAVENFPITGYKIHESLIKAFAVVKKAAALANTDVGRLELNKGGAIAEAAQEILDGKWHDHFIVDPIQGGAGTSMNMNANEVMANRALELLGMEKGDYHYISPNSHVNMAQSTNDAFPTAIHIATLNALEGLLQTMGYMHDIFELKAEQFDHVIKMGRTHLQDAVPIRLGQEFKAYSRVLERDMKRIQQSRQHLYEVNMGATAVGTGLNADPEYIEAVVKHLAAISELPLVGAEDLVDATQNTDAYTEVSAALKVCMMNMSKIANDLRLMASGPRVGLAEIMLPARQPGSSIIPGKVNPVMPEVINQIAFQVIGNDHTICLASEAGQLELNVMEPVLVFNLLQSISIMNNGFRAFTDNCLKGIEANEDRLKEYVEKSVGIITAVNPHIGYEAAARVAKEAIATGQSVRELCVKNGVLSQEDLELILDPFEMTHPGIAGATLLKKN	PGPT0020125_892	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
AK009_01669	504	ansA_2	COG0252	L-asparaginase 1	GTGAATTATCCATATGTTGCTGAGGTAAATGAAGATGAACTGAAATATCATTGGAAGCCAAAGTCCTCCCATAATGAACTTTCAATAAATACTAATTTATGTACGGATGTTTTTCTTATGAAATTGTATCCAGGTACAAAACCAGAGATATTTGATTGTTTAAAAGATTTGTATAAAGGGGTTATTATTGAAAGTTTTGGTAACGGTGGATTACCTTTTGAAGGAAGGAACTTGCTTTCGAAAATTCAAGAGTTGACTGAAATGGGGATTGCTGTAGTGATTACTACTCAATGCCTGGAAGAAGGAGAAGACATACTTCTCTATGAAGTAGGACGGAAAGTGGCACAACATCAAGTAATATTATCTGGAGATATGAATACGGAAGCCATCATAGCAAAATTGATGTGGGCGCTTGGGAAAACTAATAAATTAGAAGAGATTAAAAAAATTATTGAAGAGCCTTTAGCCTACGATTTAACAATAAAATCTGATAAGGATTGGTAA	MNYPYVAEVNEDELKYHWKPKSSHNELSINTNLCTDVFLMKLYPGTKPEIFDCLKDLYKGVIIESFGNGGLPFEGRNLLSKIQELTEMGIAVVITTQCLEEGEDILLYEVGRKVAQHQVILSGDMNTEAIIAKLMWALGKTNKLEEIKKIIEEPLAYDLTIKSDKDW	PGPT0020180_2247	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
AK009_01670	474	ansA_3	COG0252	L-asparaginase 1	ATGAAGAAAATTTTATTACTTGCAACTGGTGGGACAATTGCATCTGTGGAGGGGAATGAGGGGCTTGTTCCAGGATTGTCCGCTGAGGAATTATTGAATTATTTTTCGAAGTCTTCTCGAAACTTAGAAATAGATTGCAAAATCTTAATGAATATTGATAGTACCAATATGCAACCTGAGCACTGGAAAGAAATAGCTAATGCTGTTTTTAATCACTATGATGACTATGACGGGTTTGTGATTACACATGGAACGGATACGTTAGCTTATACATCTTCCGCGTTATCTTATATGCTTCAAGGTTTAAGAAAACCAGTTATTTTAACAGGTTCACAAGTACCTATTAGTTTTAAAAAGACAGACGCAAAGAAAAATGTAGCTGATGCTCTTAGATTTGCCTGTGAGGATGTTGGGGGTGTATTTATTGTTTTTGATAGTAGGGTGATTATTGGGACGAGAGCAGTTAAAATGTGA	MKKILLLATGGTIASVEGNEGLVPGLSAEELLNYFSKSSRNLEIDCKILMNIDSTNMQPEHWKEIANAVFNHYDDYDGFVITHGTDTLAYTSSALSYMLQGLRKPVILTGSQVPISFKKTDAKKNVADALRFACEDVGGVFIVFDSRVIIGTRAVKM	PGPT0020180_2210	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
AK009_01671	378			hypothetical protein	ATGCTGGAACGTTTATCTAAATTAAGAAAAAATCAAAAATGGTCCTTACAAGAGACAGCAGATCGACTTGGGATTGCGAAAAGCACCTATGCCGGGTATGAAAATGGTTATAGATTACCTTCATTACAATCTTTATCAAAAATAGCCGATTTATTTGATACATCTGTAGATTATATATTAGGTCGAATTGAACATTCACATCAACACAAAGATGTAATTGATATTACAAGACTCCTAAACGATCCAGATCCAACACTTTTAATAGATGGAGAAGCACTGTCAACAGAAGAGATAATAGATTTTATTGCTTTTGTGAGAAGTAAACGAGAACTAAGTTCCAAGAGAATAGAAAATATTGAACCAACATGTAAAAGTTGA	MLERLSKLRKNQKWSLQETADRLGIAKSTYAGYENGYRLPSLQSLSKIADLFDTSVDYILGRIEHSHQHKDVIDITRLLNDPDPTLLIDGEALSTEEIIDFIAFVRSKRELSSKRIENIEPTCKS				NA	NA	NA	NA	NA
AK009_01672	1080	gerAC		Spore germination protein A3	ATGAAGCGATGGATACTTTTCCTTATAGTAAGTGTCTTCTTAATAGGTTGTGCTAAAACGAAAATTGTGGATGACATTGACTTAGTTCAAGTTGCGGCATATGATACCGAAGCAAAAGGTAAGCTAAAAGGAACCTTTGCGATTTCAGCTTATAAAGGAGGCGGGGAAGGTGAAACGAAAATCTATTCAGCATCAGGCCAGACTGGTAGAGAAGTTCTTGCAAGAGCATCCGAAAAATCTTCTGGACCTCTAGAGTTGGGGCAATTGCGTGTTATTATATTTAATGAAAAAATAATTGAAAAGGGAATGCAGGAAATTTTAGAGACTTTGAATCGAAATCCTAGTGTAGGAAATGCAATTTACTTAGCAATTACAAATGTAAAAGGGGAATCACTATTAAAGGGGAACTATTCTGAAGAAAAAGAAATTGCTTCCTATCTATCCTCTTTACTGGAGCAAAATATGGATAATGGAACGCAGCCAAAAACAAATTTTTTTATGTTTTTAAACCAACTTAATGATGATGCGAGAGATTCATATTTACCGATAATATCTAAAAAAGGTAATGTGTTGGAGTTAGATGGAATAGCACTTTTTAAAAGATGTAAAATGGTTGATAAAGTAAACCCTAAAGATTTATTTGTATTTAAATTGTTGACAGATAATTTTAAACAAGGTACATACCAATTCAAACTACCTGGTTCCCCAAATACTTACGCCACGATAGAGAATATAAAAGCTAGAACAAAATATAAGATGGAGGGGAATAGTAAGCATCCATTCGTAAATGCTCATATTCAAGTTAAAGCTGAAATTCAAGAATTTACAAAAACAAAAAATCTAGATAATCCTAAAGAAATAAAAAAATTAGAAAAAATTATGGAAAAAGAAATAGAGAAAAAAGCAACTACATTGATAAAGAGATTTATTAAAAAAGACACAGATCCTATAGGACTTAGAAAGCTTGGTAGAACTCACGTAAGAAAATGGAACAGTCAAGAATGGGAAGAATCCTATAAACATTTACGTTTTCGTGTAACAGCTGATGTAAAAGTAACCCAATCTGGTGTTACAGAATAA	MKRWILFLIVSVFLIGCAKTKIVDDIDLVQVAAYDTEAKGKLKGTFAISAYKGGGEGETKIYSASGQTGREVLARASEKSSGPLELGQLRVIIFNEKIIEKGMQEILETLNRNPSVGNAIYLAITNVKGESLLKGNYSEEKEIASYLSSLLEQNMDNGTQPKTNFFMFLNQLNDDARDSYLPIISKKGNVLELDGIALFKRCKMVDKVNPKDLFVFKLLTDNFKQGTYQFKLPGSPNTYATIENIKARTKYKMEGNSKHPFVNAHIQVKAEIQEFTKTKNLDNPKEIKKLEKIMEKEIEKKATTLIKRFIKKDTDPIGLRKLGRTHVRKWNSQEWEESYKHLRFRVTADVKVTQSGVTE	PGPT0014785_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014785-yfkR-K06308	NA	NA
AK009_01673	1083	yndE_1		Spore germination protein YndE	ATGAAACAGATCCCAATTGAGTATCAAGTCTCTCCATATATGGTATTTTTTTTAATTATTACTATACAGATGGGGGTTGGTATGCTTGGTTTTGAAAGGATTAGTGCAAAATTAGTTGGAAATGATGCGTGGATTAGCACGCTACTTTTTGGAATATCTGTTAATCTTATGATTTGGATCATATATCAGATTTTAAATCAGGGTAATGGAGACATCATTGCAATCAATCAAAACGTACTTGGAAAATGGATTGGTGGAATATTCAACTTCATTTTTTTATCCTATATTGTATTGTTAGGTGCAACAACACTACATACTTATATCGAAGTAGTACATGTTTGGATGTTTCCTTCTATTTCATCTTGGGTTATAGCTGGGGCTTTTTTGGGTTTATGCTATTACATTGTTACTGGAGGATTTCGTGTAGTTGCCGGAATCTGTTTCTTTGGAATCGTTATCCCAAGCATTCTAATCTTCACATTTTTTTATCCTTTGCAGTATGCAGATTTCCGAAATTTATTTCCAATTGCACAGCATTCATTCCTAGAAATTATGAAAGGAATGAAAGGAAATATGTTTAGTTTTTTTGGATTTGAAATGTTATTGCTGTACTACCCATTTATTAAAAAGGCAAAAACGTCTCAAAAATATGCGCACTATGCAAATTTAGTAACGACTATTGTCTACACATACCTTATGATTTTAACTCTTGCGTTTTTTAGTGAAAAACAACTAGCGAGTGCGATATGGGCATATTTAAGCATGATTAAAATTATACAATTTCCCTTTATAGAGCGGTTTGAATACATTATTGTTTCTGTTTGGGCTTTTTTTATATTACCCAATGTTTCCTTTACATTATGGGGAGTAAGTCGTGGTATAAAAGAGGCACTGGGAATAAAGCAAAAATATGTTTTGCCAGTTATCATCCTATTCATCTTTGTTTTATCATTTTTCTTGAATAACCGTAATAAAATTAACTTATTAAATACTTGGACAGGTCAAATGGGCTTTATATATATATATGTATACCTACCTGTACTATGGCTAATTCAAACCGCCAAAATAAAGTTAAGGAGATAA	MKQIPIEYQVSPYMVFFLIITIQMGVGMLGFERISAKLVGNDAWISTLLFGISVNLMIWIIYQILNQGNGDIIAINQNVLGKWIGGIFNFIFLSYIVLLGATTLHTYIEVVHVWMFPSISSWVIAGAFLGLCYYIVTGGFRVVAGICFFGIVIPSILIFTFFYPLQYADFRNLFPIAQHSFLEIMKGMKGNMFSFFGFEMLLLYYPFIKKAKTSQKYAHYANLVTTIVYTYLMILTLAFFSEKQLASAIWAYLSMIKIIQFPFIERFEYIIVSVWAFFILPNVSFTLWGVSRGIKEALGIKQKYVLPVIILFIFVLSFFLNNRNKINLLNTWTGQMGFIYIYVYLPVLWLIQTAKIKLRR	PGPT0025015_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025015-gerAB-K06289	NA	NA
AK009_01674	1446	gerAA_1		Spore germination protein A1	ATGAAATTACTAAAAAAATCTAAAGATTTTATAACGTTGGAAATTGCTTCTAATAATTCCTCTATAGTCATTTCATATTTTAGAACATTAATCGATGTAAATATATTTCATGAAGAGGTTTTGACTTATATAAAAGAGAAGAGCTTCGATTCGTTACAAGATATTCACTCTGTCTTACCTTTTGAGAATTCAAAAATAACAAATCAAATGGAAGATATTCAGGATAGTATTTTAAATGGCTATATACTGATTCAGTTCGATACAGATAAATTAAATTGTTTGTTAGTAAATGTGTCAAAGAAAGAAAAAAGGGATATTACAAAAGCCGAAATTGAATACAATATTGTGGGTCCGCAAATCGCATTTGTCGAAGATTTAGATGTAAATTTAAATTTAGTACGTAGAAAGCTTCCAACACCTTATTTACAAATGAAAGAATTGAAAGTAGGATCTCTCTCTAACACAACTGTTGCGATTGTATTTATTGAGGGAATTGTAAATGATCAAAATCTACAAGAAATTATAAAAAGGGTAAGTCAAATAAAAACAGACCATGTTTTGGATAGTACTTATTTGATGCAGTTAATTGCAGACAACCCGAATTCTATATTCCCTCAATTTTTGAATACAGAACGTCCGGACCGTGTGGCAGCTGTATTAGCAGAAGGGAAAATTGCACTTTTTGTAGATGGCTCGCCTTATGCTATCACTCTTCCAACGACATTAATTGACTTTTTTTCTACGACAGAAGATTACACCATGCCTTGGATTATTTCCTCCTTTTTTCGACTGCTAAGGCTTTTTGCTTTTATTTTTTCTGTCTTAACAACTCCATTATATGTTGCAATTTTAACATATCATTACGAGCTAATTCCGAGAGAACTTCTTGAAACGTTAATCATATCGAGAAGTAAAGTACCTTTTCCTCCAGTTATTGAAGCACTTTTTTTAGAAATAACGATTGAATTACTGAGAGAAGCGGGGGCACGTTTACCAACTAAAGTGGGTCTAACTGTCGGTATAGTAGGTGGTATTGTAATTGGACAGGCATCGGTAGAGGCAAGTCTTACAAGTAATGTACTTATTATCATTGTTGCACTTTCAGCCCTTAGCTCATTTACAGCACCAATATATCGAATTGGTAATACAATTCGAGTAATTCGTTTTCCTTTTATAATCGCCGCACACCTGTTGGGTTTATTAGGAATTGTTTTAACAAGCTCTTTGCTTTTAGCACGTTTATTACGTACAGAATCATTAAGACGTCCTTATTTGTTTCCTTTTTATCCTACACGCCTTACAGATTGGAAAGACAGTATTGTACGTATGCCGATTTCAGCGATGTTTCGACGTCCTATTTTTTCAAGGTCTAAACAGCGTTTTCGCTTTAATCCAGAAGAGGTAGAGAAAAATAAAATACTATCAAGAAATGATTTTGATGATTGA	MKLLKKSKDFITLEIASNNSSIVISYFRTLIDVNIFHEEVLTYIKEKSFDSLQDIHSVLPFENSKITNQMEDIQDSILNGYILIQFDTDKLNCLLVNVSKKEKRDITKAEIEYNIVGPQIAFVEDLDVNLNLVRRKLPTPYLQMKELKVGSLSNTTVAIVFIEGIVNDQNLQEIIKRVSQIKTDHVLDSTYLMQLIADNPNSIFPQFLNTERPDRVAAVLAEGKIALFVDGSPYAITLPTTLIDFFSTTEDYTMPWIISSFFRLLRLFAFIFSVLTTPLYVAILTYHYELIPRELLETLIISRSKVPFPPVIEALFLEITIELLREAGARLPTKVGLTVGIVGGIVIGQASVEASLTSNVLIIIVALSALSSFTAPIYRIGNTIRVIRFPFIIAAHLLGLLGIVLTSSLLLARLLRTESLRRPYLFPFYPTRLTDWKDSIVRMPISAMFRRPIFSRSKQRFRFNPEEVEKNKILSRNDFDD	PGPT0025050_551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK009_01675	2406	sasA_6		Adaptive-response sensory-kinase SasA	ATGATTATTAAAGATTATTTCATCAACCTTTCTATTTTTTCTTTATTAGTTAGCGCAGCAATATTTATTCAAGTGTTTACAATTAATTCTAGTCGATATTTCGAAAAGCTCTATGGAGGGATTATTGCAGTTACGTTAATGTTCTTTTCTTTTCCATACATGGGATTTTCTTACGATCTTCGAGTTGTTCCTCTTATTCTATCTTTTATTTACTTTGGTCGTATTGCTGGTTGGATTACGTTAATTAGCATAATTGTAATGCGTATCTTTTACACAGGAGGGTACTGGGAACCTCCTGTGATTGCTTATTTAGGTATGGGGATTCTATTTTCTACCTTTAAAACTTATTTTAAAAAACTACATCCTTTTAAAAGTGCATCGTTATATTTTTCTGTTTTTATTGGAATAAAGTGGTTAGTTGGCGTATTATTTAATACTACATTACTTTACACAGGAGGCTTATTATATATAGCGTTAGGACTTTTAATTGGGCTATTTCTTATGGAAGCCTACCAGAGATTGTATTATTTAACACAGGACTTATCTAAAATGAATCGAGAATTAAAAAAATCGAAGCAAGAACTTGCAGATACCGTACATGAGCTTCAAGGAGGAATTTTTAAATTTAAAAAAGTGGGTAAGCACTTTATACACACTTTATGTGATGGACAGTTTTATTATCAAAACGGATTTTATTCTGAACAGGTGGTAGGAAAAAGCTTACGTACTATTGATGCTTCTATTGTTCCTCCACATTTAGTTCCACAATTGATGAAGTACTATCTTCAGGCATGGGAAGGAAAAGAAATTATATTTGAATTACCTTGGCCAAATGATAAAACTATTATTCTTATTGCGCTTAGGCCGATTAAACGAAATGGACAAGTTATTGAAGTTGTTGGTTCTACAGTTGATATAACCGAAAGGAAAAAGGTAGAATCAGAATTAAGCGCTACCAAAGAATTATTGGAATCATTTATAAAGCACAATCTAGATGCTATTACCATTTCTGATCGAGAAGGGCATATTTTACAAGCGAATAAAGCTTATGAAAAGATATTTGGGTGGTCATCACAAGAAATCATAGGTAAGAGATTACCTTGTGTACCAGATTTTTTAATGGAAGAATCGCTTAAAAATATTCAGAAAATTCTAACAGGAGAATCTGTGGTTACTAGATTAGAAACTGTTAGACAAAGGAGCGATGGGAGTCTTCTTGATGTCAGTCTGACAGTTTCTCCTATACTAGATGTAAGAGGAAATGTGATAGCTTTATCAGCAATATGTAGAGACATCTCTGAAAGAAAACAAGCAGAAAGAGAACGACATCGATTACACCAGCAATTAAGAGATAGTGAAATGAAGTACCGTGCACTAATTGAACAAGCAACTGATGCGGTATATGTAGTAGAGCTGAATGAAGATAATGCTCCAAGTCGATTTATTGAGGTAAACCCTGTTGGGTGTAGAAGATTTGGATATAGTAGAGAAGAGTTGCTCTCATTATCATTTTCAAATATAGTACCACAAGATTCTCAAATGATCGTAAGGCTATTAGAAAAAATTAAAAAGGGACAAACTTCCTTCACTTTGCAAGATGAATATGTTTTTCCAACAGGAAAAGTAATAACAGCTGAGTTTAGTGTTCGTGTTTTTAACTTAAATGGTAAAAAGGTTTTCCTAAGTATTTCTCGTGATATCACTGAACGGCTAAAAACAGAAGAATTATTACGAAAATCTGAAAAACTTGCTGTTGTAGGACAATTAGCGACTGCAATGGCTCATGAGATTAATAATCCATTAACTGCAATGAAAGGGTTCATGCAATTACTAAAATCAACAGAAAATGAGAATAATCAGGGTTATATTAATATAGTATCATCAGAGATTGAGCGTATAGAGAGCATAACAACTGAATTTATGGCGGTAGCCAAACCACAGGTGGTAAAAATACAACCTAATGATATTAGTTTGCTAATGGATCAAGTTTTAATGCTACTACAACCTCAAGCAATGATGCATAATATAAAATTTAGAATCGATCTTAACCCTGGTATTCCATTGATTTCATGTGAAGGAAATCAATTAAAACAAGTATTTGTTAATATATTAAAAAATGCAATTGAATCTATGCCGATGGGAGGGGAAATTCTGATTCAAATAAATATACTTGATAATAATCAAGTAAGAATTCGTTTTATCGATCAAGGGTGTGGGATTCCAAAAGAACGTATACCATACCTTGGAGAACCTTTTTATAGTATTAAAGAAGAGGGGATTGGCTTAGGGTTAATGATCTGTTATAAAATCATTGAAACACATCAGGGAAAGGTATTTATTGAGAGTGAAGTGAATAAGGGGACTACAGTTGAAGTCACTCTCCCTATTTGTACACTTCAAAATTAA	MIIKDYFINLSIFSLLVSAAIFIQVFTINSSRYFEKLYGGIIAVTLMFFSFPYMGFSYDLRVVPLILSFIYFGRIAGWITLISIIVMRIFYTGGYWEPPVIAYLGMGILFSTFKTYFKKLHPFKSASLYFSVFIGIKWLVGVLFNTTLLYTGGLLYIALGLLIGLFLMEAYQRLYYLTQDLSKMNRELKKSKQELADTVHELQGGIFKFKKVGKHFIHTLCDGQFYYQNGFYSEQVVGKSLRTIDASIVPPHLVPQLMKYYLQAWEGKEIIFELPWPNDKTIILIALRPIKRNGQVIEVVGSTVDITERKKVESELSATKELLESFIKHNLDAITISDREGHILQANKAYEKIFGWSSQEIIGKRLPCVPDFLMEESLKNIQKILTGESVVTRLETVRQRSDGSLLDVSLTVSPILDVRGNVIALSAICRDISERKQAERERHRLHQQLRDSEMKYRALIEQATDAVYVVELNEDNAPSRFIEVNPVGCRRFGYSREELLSLSFSNIVPQDSQMIVRLLEKIKKGQTSFTLQDEYVFPTGKVITAEFSVRVFNLNGKKVFLSISRDITERLKTEELLRKSEKLAVVGQLATAMAHEINNPLTAMKGFMQLLKSTENENNQGYINIVSSEIERIESITTEFMAVAKPQVVKIQPNDISLLMDQVLMLLQPQAMMHNIKFRIDLNPGIPLISCEGNQLKQVFVNILKNAIESMPMGGEILIQINILDNNQVRIRFIDQGCGIPKERIPYLGEPFYSIKEEGIGLGLMICYKIIETHQGKVFIESEVNKGTTVEVTLPICTLQN	PGPT0025280_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025280-kinA-K02491	NA	NA
AK009_01676	1401			hypothetical protein	ATGATGAAAAAAATCCCTAATAAACTACTCGCTGTATCAGCGTTTTTAACTATAACAACTACTTATGCAGTCATACCACTAGAAACTTTTGCGATTGAAATTGAACAAACGAACAATGAAAATATATCTCTTTCAGCAAATGAAGAACAGATGAAAAAAGCTTTGCAAGATGCTGGTTTATTTGCAAAAGCTATGAATGAATATTCTTATTTGCTAATTAATAATCCAGATGTGAGTTTTGAAGGAATAACTATTAATGGAAATGCAGATTTACCTAGTAAAATTGTACAAGATCAAAAGAATGCAAGAGCACATGCTGTTACATGGAATACACAAGTGAAAAAACAGCTTTTTGATACATTGACAGGCATTATAGAATACGATACAAAATTTGAAAATTATTATGAAACATTAGTAGAGGCGATCAATAATGGAAATGGAGATACTTTAAAAAAAGGGATTACAGATTTACAGGGAGGAATTCAACAAAATCAAAAGTCTGCAAAAGCATTAATAGAAGAATTAATTCAATTAAAAAATGCTATTGGAGAAGATGTTAGAACATTTGGAAGTCATAAAGAGACATTGCAATCGATTTTAAAAAACCAAGGTGCTGATGTGGAGGCTGACCAAAAGCGTCTAGAGGACCTTTTAGGACAAGTAAAATATCAGAAAGACATAGAATCTAAGGGGTTAGACATGGTAAAAATCCCCTTTATTCCAACCTTGATTGCTGGTGGCATAATGATAGGTGATGCAAGAGGTAAGTTAGGTTGGCTAGAACCTGAATTAGCAAAATTGCGTCAGACTGTAGATTATAAAATAACATTGAATCGTGTAGTTGGAGTTGCATTTCATAATATTAGTGATATGCATAGTACGCTTGATAGTGCTATCACTGCTCTTACTTATATGTCTACGCAATGGGAGGATTTAGATTCTCAATATTCGGGTGTACTGGGACATATTGATAAAGCTGATCAAAAAGCTGATCAAAATAAATATAAATTCTTAACCCCTAGCTTGAATGCAGCGAAAAACAGTTGGAAAACATTAAAAACAGATGTTGTCACTTTGCAAGAAGGGATAAAAATTGCAGAGAAAAAAGAACAGGATTTTTTGAATCAGCTTCGTCCATCAAACGTTTTCTACTTTTATAAAAAAATTCATAACGCATACACTTTTGAAATAAAGACTGGAACAAATGCGCCAAATGCGTCTTATAAAGTTATGAATTTAACTAAAAACACTGTTCATAATATGTGGAGTGGAGGGGCTAATACTAACATGTGGGCTGATTGGCTTTCATTCAATCCAAATGATGAATTTGCGGTAGTAGCAGTAGTGGATGGTAAAGAATATGTTGTGTATAAAGACAAAGTACAAAATATAATGAACTGA	MMKKIPNKLLAVSAFLTITTTYAVIPLETFAIEIEQTNNENISLSANEEQMKKALQDAGLFAKAMNEYSYLLINNPDVSFEGITINGNADLPSKIVQDQKNARAHAVTWNTQVKKQLFDTLTGIIEYDTKFENYYETLVEAINNGNGDTLKKGITDLQGGIQQNQKSAKALIEELIQLKNAIGEDVRTFGSHKETLQSILKNQGADVEADQKRLEDLLGQVKYQKDIESKGLDMVKIPFIPTLIAGGIMIGDARGKLGWLEPELAKLRQTVDYKITLNRVVGVAFHNISDMHSTLDSAITALTYMSTQWEDLDSQYSGVLGHIDKADQKADQNKYKFLTPSLNAAKNSWKTLKTDVVTLQEGIKIAEKKEQDFLNQLRPSNVFYFYKKIHNAYTFEIKTGTNAPNASYKVMNLTKNTVHNMWSGGANTNMWADWLSFNPNDEFAVVAVVDGKEYVVYKDKVQNIMN				NA	NA	NA	NA	NA
AK009_01677	1128	hblA_3		Hemolysin BL-binding component	ATGATAAAAAAAATCCCTTATAAATTACTCGCTGTATCGACGCTATTAACTATTACAACTGCTAATGTAGTTTTACCAGTAACAACTTTTGCAAGTGAAATTGAACAAACGAACAATGGAGATACGGCTCTTTCTGCAAATGAAGCGAGAATGAAAGAGACCTTGCAAAAGGCTGGATTATTTGCAAAATCTATGAATGCCTATTCTTATATGTTAATTAAGAATCCTGATGTGAATTTTGAGGGAATTACCATTAATGGATATGTAGATTTACCTGGTAGAATCGTACAAGATCAAAAGAATGCAAGGGCACATGCTGTTACTTGGGATACGAAAGTAAAAAAACAGCTTTTAGATACATTGAATGGTATTGTTGAATACGATACAACATTTGACAATTATTATGAAACAATGGTAGAAGCGATTAATACAGGGGATGGAGAAACTTTAAAAGAAGGGATTACAGATTTGCGAGGTGAAATTCAACAAAATCAAAAGTATGCACAACAACTAATAGAAGAATTAACTAAATTAAGAGACTCTATTGGACATGATGTTAGAGCTTTTGGAAGTAATAAAGAGCTCTTGCAGTCAATTTTAAAAAATCAAGGTGCAGATGTTGATGCCGATCAAAAGCGTCTAGAAGAAGTATTAGGATCAGTAAACTATTATAAACAATTAGAATCTGATGGGTTTAATGTAATGAAGGGTGCTATTTTGGGTCTACCAATAATTGGCGGTATTATAGTGGGAGTAGCAAGGGATAATTTAGGTAAGTTAGAGCCTTTATTAGCAGAATTACGTCAGACTGTGGATTATAAAGTAACCTTAAATCGTGTAGTTGGAGTTGCTTACAGTAATATTAATGAAATGCACAAGGCGCTTGATGATGCTATTAACGCTCTTACTTATATGTCCACGCAGTGGCATGATTTAGATTCTCAATATTCGGGCGTTCTAGGGCATATTGAGAATGCAGCTCAAAAAGCCGATCAAAATAAATTTAAATTCTTAAAACCTAATTTAAATGCAGCGAAAGACAGTTGGAAAACATTACGAACAGATGCTGTTACATTAAAAGAAGGAATAAAGGAATTAAAAGTGGAAACTGTTACTCCACAAAAATAG	MIKKIPYKLLAVSTLLTITTANVVLPVTTFASEIEQTNNGDTALSANEARMKETLQKAGLFAKSMNAYSYMLIKNPDVNFEGITINGYVDLPGRIVQDQKNARAHAVTWDTKVKKQLLDTLNGIVEYDTTFDNYYETMVEAINTGDGETLKEGITDLRGEIQQNQKYAQQLIEELTKLRDSIGHDVRAFGSNKELLQSILKNQGADVDADQKRLEEVLGSVNYYKQLESDGFNVMKGAILGLPIIGGIIVGVARDNLGKLEPLLAELRQTVDYKVTLNRVVGVAYSNINEMHKALDDAINALTYMSTQWHDLDSQYSGVLGHIENAAQKADQNKFKFLKPNLNAAKDSWKTLRTDAVTLKEGIKELKVETVTPQK				NA	NA	NA	NA	NA
AK009_01678	1221	hblA_4		Hemolysin BL-binding component	ATGAAAAAATTTCCATTCAAAGTACTAACTTTAGCTACATTAGCAACTGTTATAACTGCTACTACCGGTAACACTATTCATGCATTTGCACAAGAAACGACCGCTCAAGAACAAAAAGTAGGCAATTATGCATTAGGCCCCGAAGGACTGAAGAAAGCATTAGCTGAAACAGGGTCTCATATTCTAGTAATGGATTTATACGCAAAAACAATGATTAAGCAACCAAATGTAAATTTATCTAATATCGATTTAGGCTCAGAGGGGGGAGAGTTGCTCAAAAATATTCACCTTAATCAAGAGCTGTCACGAATCAATGCGAATTACTGGTTAGATACAGCGAAGCCACAGATTCAAAAAACTGCTCGTAATATTGTAAATTACGATGAACAATTTCAAAATTATTACGACACATTAGTAGAAACTGTACAAAAGAAAGATAAGGCAGGTCTAAAAGAGGGTATAAATGATTTAATTACTACAATCAATACAAATTCAAAAGAAGTTACAGATGTGATTAAGATGCTACAAGACTTCAAAGGGAAACTATATCAAAATTCTACAGATTTTAAAAATAATGTTGGTGGTCCAGATGGGAAAGGTGGATTAACTGCAATATTAGCAGGTCAACAGGCAACGATTCCACAACTTCAAGCTGAAATTGAGCAACTTCGTTCTACTCAGAAAAAACATTTTGATGATGTATTAGCATGGTCAATTGGTGGTGGATTGGGAGCAGCTATTTTAGTTATTGCAGCTATTGGAGGAGCGGTAGTTATTGTTGTAACTGGCGGTACAGCAACACCGGCTGTTGTTGGTGGACTCTCGGCTCTTGGTGCAGCTGGTATCGGTCTAGGAACTGCGGCTGGTGTCACAGCATCTAAGCATATGGACTCCTATAATGAAATTTCTAACAAAATCGGAGAATTAAGTATGAAAGCAGATCGTGCTAATCAAGCAGTTCTTTCGCTTACTAACGCGAAAGAAACATTGGCATATTTATATCAGACTGTAGATCAAGCGATATTGTCTCTAACAAATATTCAAAAGCAATGGAATACAATGGGCGCAAATTATACAGATTTACTGGATAATATCGATTCTATGCAAGACCACAAATTCTCTTTAATACCAGATGATTTAAAAGCCGCTAAAGAAAGTTGGAATGATATTCATAAAGATGCAGAATTCATTTCAAAAGATATTGCTTTTAAACAGGAGTAG	MKKFPFKVLTLATLATVITATTGNTIHAFAQETTAQEQKVGNYALGPEGLKKALAETGSHILVMDLYAKTMIKQPNVNLSNIDLGSEGGELLKNIHLNQELSRINANYWLDTAKPQIQKTARNIVNYDEQFQNYYDTLVETVQKKDKAGLKEGINDLITTINTNSKEVTDVIKMLQDFKGKLYQNSTDFKNNVGGPDGKGGLTAILAGQQATIPQLQAEIEQLRSTQKKHFDDVLAWSIGGGLGAAILVIAAIGGAVVIVVTGGTATPAVVGGLSALGAAGIGLGTAAGVTASKHMDSYNEISNKIGELSMKADRANQAVLSLTNAKETLAYLYQTVDQAILSLTNIQKQWNTMGANYTDLLDNIDSMQDHKFSLIPDDLKAAKESWNDIHKDAEFISKDIAFKQE				NA	NA	NA	NA	NA
AK009_01679	1320			hypothetical protein	ATGAAAACTAAAATAATGACAGGATTATTAGTCACATCCATTGTAACTGGAGCAACTATTCCTATCAATACTCTCGCAACACCAATCGTTCAAGCGGAAACTCAACAGAAAGGCATGGATATTTCCTCTTCATTACGAAAATTAGGTGCGCAATCTAAATTAATCCAAACGTATATTGATCAATCTTTAATGAGTCCTAATGTACAGCTAGAGGAAGTCCCAGCTTTAAATACCAATCAATTCCTAATCAAACAAGATATGAAGGAATGGTCATCGGAACTCTATCCACAGTTAATTCTATTAAATTCAAAAAGTAAAGGATTTGTAACAAAATTTAATAGTTATTACCCGACATTAAAATCGTTTGTAGACAATAAAGAAGATAGAGAAGGGTTTTCGGATAGACTTGAAGTACTTCAAGAAATGGCTATGACGAATCAAGAAAATGCGCAACGACAAATCAATGAATTAACAGATCTTAAATTACAGCTTGATAAAAAATTAAAAGATTTTGATACTAATGTGGCAACTGCGCAAGGCATACTAAGTACAGATGGAACAGGAAAAATAGATCAGTTAAAAAATGAAATATTAAATACCAAAAAAGCAATTCAAAATGATTTACAGCAAATTGCATTAATACCAGGAGCTTTAAATGAGCAGGGATTTGCTATATTCAAAGAAGTTTATAGTCTTTCAAAAGAAATTATTGAACCAGCTGCTCAAGCAGGGGTGGCAGCGTATAACAAAGGAAAAGAAATTAACAACTCTATTCTAGAAGCGGAGAAAAAAGCGGCGCAAGAAGCGACAGAACAAGGTAAAACTGCTCTAGAGATTGAATCAGCAAAAAAAGCAGCTCGTGAAGCAATTGAGAAAAGCAAACAAGGTGAAATAGCAGCCGCAGCCGCAGCAAAAACACAAGAGTATGACCTGATGAAGGTCATTGATACCGAAAAGATTAAGAAAACATTTGGCGTTTTTGCTGAAGTAAATAAATTAACAGCAGAACAGCGAGCATATTTAGATGATTTAGAGAAACAAAATCAAAAAATATATGATTTAACAACGAAACTATCAATAGCTGATTTACAAAAATCAATGCTTCTTCTTACACAAAATGATTTGCATACGTTTGCAAATCAAGTAGATGTAGAACTGGATCTACTAAAGCGCTATAAAGAAGATTTAAATCTAATAAAAAATAGCATTACAAAATTATCTACTAATGTTGATACAACTAACGAGCAGTCTCAAAAAGATACATTAAGACAATTAAAAAATGTAATAAGTTACCTTGAAGAACAAGTATATAAATTTTAA	MKTKIMTGLLVTSIVTGATIPINTLATPIVQAETQQKGMDISSSLRKLGAQSKLIQTYIDQSLMSPNVQLEEVPALNTNQFLIKQDMKEWSSELYPQLILLNSKSKGFVTKFNSYYPTLKSFVDNKEDREGFSDRLEVLQEMAMTNQENAQRQINELTDLKLQLDKKLKDFDTNVATAQGILSTDGTGKIDQLKNEILNTKKAIQNDLQQIALIPGALNEQGFAIFKEVYSLSKEIIEPAAQAGVAAYNKGKEINNSILEAEKKAAQEATEQGKTALEIESAKKAAREAIEKSKQGEIAAAAAAKTQEYDLMKVIDTEKIKKTFGVFAEVNKLTAEQRAYLDDLEKQNQKIYDLTTKLSIADLQKSMLLLTQNDLHTFANQVDVELDLLKRYKEDLNLIKNSITKLSTNVDTTNEQSQKDTLRQLKNVISYLEEQVYKF				NA	NA	NA	NA	NA
AK009_01680	1230	rhaR_1		HTH-type transcriptional activator RhaR	ATGAATACTTCTATCGATATACAACACTTGTGTGATCTTGCACATAAAGCATTTAATGCCCCTGTACATATTTTATCTGCAGACAGAAAAATTTTATATCATTCTACATCTGATAATGTTTGTAGTCCTTTTTATTCTTCAAAAGAAGAACATCTTAGTGATATTTATCAAGAAAACGATCCCTTTAACTTGCCACTTTTCCGAAGTAACAACTATCTTGAAAATTTTGTTCTAATTCATATAGAAAATCATGATGATATTAAAGGGACTATTATAATCGGTCCTACTATACATCCAAAAGATTCAGATGATATGATCATAAAATTTCAGAAAGAATTTAAATCAAATGATAACATTCAAGAAAGACTTGCCTATTATCAGTGTTTATCTGAGATTAAAAAAACTACATTAATTGATATGGGAATTTTATTACATTACATGATTTTCAATGAAAAGTTAGATGTAGATATTGTCTTGGAAAAAAATAAAGTACTAGAGGAAATTCCTAATAAAAATGTGAAACCTGATTTATATATTTTAAAACGTCGACAAAACAAACCTAAAACGCACAATATGTCATTAGTAAATGATTTCTTTTCGACTATTAAAGAAGGGAATAAAAAAAAGTTAATACAGTATATGTATGCGGTTTCGCAAGAAGATGTTGAACTTATGCTAATAGAGGATCCGCTCAGGAATCAAAAAAACCTTGGAATTATTGCGATTACCTTAGCCACTCGATATGCAATAGAAGGAAACCTGCCACCAGATATTGCTTTTGCTCATAGTATTTTATATATACAAACCCTGGAACAATTAGATAATGTAGAATCTGTAAAGCGATTGTCAGGGGATGCTTTACGTACTTTTGCAGATCGTGTGAAAGAATACAATGCAAAAAAGTATTCTTACGCGGTTACTACATGTATAAAACATATTAATAAAAATGTTTACGATGGAATATCTCTGAATGAACTTGCTAATCATTTAGAAATTACGCCTACTTATCTGTCTAAACTATTTAAAAAAGAAATGGGAATTACTTTAAGCGAATATATTCAAAGGGAACGAGTGGAAGAAGCAAAGAAATTATTAACACTCACTACTTATTCGTTATCAGATATCTGTGCTTGGCTTAACTTTAATGACCAAAGTTATTTTATAAGAGTTTTCAAAAAAATCACTAGCATGACCCCTAGGCAGTACCGTGAAAAATATACAATAATATAA	MNTSIDIQHLCDLAHKAFNAPVHILSADRKILYHSTSDNVCSPFYSSKEEHLSDIYQENDPFNLPLFRSNNYLENFVLIHIENHDDIKGTIIIGPTIHPKDSDDMIIKFQKEFKSNDNIQERLAYYQCLSEIKKTTLIDMGILLHYMIFNEKLDVDIVLEKNKVLEEIPNKNVKPDLYILKRRQNKPKTHNMSLVNDFFSTIKEGNKKKLIQYMYAVSQEDVELMLIEDPLRNQKNLGIIAITLATRYAIEGNLPPDIAFAHSILYIQTLEQLDNVESVKRLSGDALRTFADRVKEYNAKKYSYAVTTCIKHINKNVYDGISLNELANHLEITPTYLSKLFKKEMGITLSEYIQRERVEEAKKLLTLTTYSLSDICAWLNFNDQSYFIRVFKKITSMTPRQYREKYTII				NA	NA	NA	NA	NA
AK009_01681	642			hypothetical protein	ATGAGTGAATTGCATTTTATGAGTATAGAAGAATTGGATAATAAATTGAAAAAATCTGACAGTGGTATTTATTTCATTAAAGATTATAATGACAATATTATTTATGTAGGCAAGGCTTTTAGTATAAAAAGTAGAGTATTAGCTCATTTTAATAGTTATTCCAATATTGAGGAATATGTACATTTATTTAATAAAGTAGCGTATCTCATTGAAGATAGTTTGTTAAAACGCTCATTGTTACAAGTTACTTATATGATTAAATATAAACCAGTATTAAACAAAGAAGTACAAAAAGAATTCCCAGAGTTGTATACTCAATACATTAAGCAGACAAATAAAAAATCTATGTTGTTAGAAATTGATGAAGCTAAAGAAAAAGGGGAGGAGTTAAAGAATAAATTAGTAAAATTAGTGGGTGGAAAAACTATGTTTTATGACATAATTTCTCTGTTAAACAATGGATATAACTATCATGTTCTCGCAAAAGTATTGAGCATAGAACTTCAAACTTTAATTATAATAAAAGAACACCGAAATAAATTCCCGATACCACATAATTATAAGAGGACAATAAAACATCAAGATATAATGTATGCTTTATCTGGAAAAAAGAATTTAAGTACTTCAAGGTTAAACACTTAA	MSELHFMSIEELDNKLKKSDSGIYFIKDYNDNIIYVGKAFSIKSRVLAHFNSYSNIEEYVHLFNKVAYLIEDSLLKRSLLQVTYMIKYKPVLNKEVQKEFPELYTQYIKQTNKKSMLLEIDEAKEKGEELKNKLVKLVGGKTMFYDIISLLNNGYNYHVLAKVLSIELQTLIIIKEHRNKFPIPHNYKRTIKHQDIMYALSGKKNLSTSRLNT				NA	NA	NA	NA	NA
AK009_01682	1416	yhdG_1	COG0531	putative amino acid permease YhdG	ATGAGTAATTTACTAAAAAAGAAATCCGTTACACAATTGTTGGAGCATAATCAAAGCAAGACTTTAACGAAAACATTAGGAGCATTTGATTTAATTATGTTAGGGGTAGGCTCGATAGTTGGAACGGGTGTTCTTGTGTTAACTGGATTAGTAGCAGCAAGAAATGCTGGTCCAGCAGTTGTTTTTTCATTTATACTTGCAGCAATTATATGTGGATTTATAGCATTATGTTACGCGGAAATTGCTTCTACACTCCCGGCGTCTGGTAGTGTATATACGTACTCATATGCAACAATTGGTGAGTTTGTTGCTCATCTAGTAGGTTGGTCATTGCTGTTAATATATATCGTGGCAACAGCGGCTGTCGCTGCTGGATGGACAGGCTATTTCCACAATTTAATAAAGGGATTTGGATTAGAGATACCTAAAGCTCTAGTAACGATTCCTTCGCATGGTGGTATTGTGAATCTACCAGCAGTAATCATTACATTGATATTAGCATGGATGTTATCCCGTGGTACGAGGGAAAGTAAACGAATCAATAATACAATGGTATTGATTAAAATTGGAATGATTTTGTTGTTTATTACGGTTGGTATATTCTATGTAAAACCAATGAACTGGATACCAATTGCACCATACGGTTTAAGTGGAGTTTTTACGGGTGGAGCAGCTATTTTATTCGCTTTTACGGGTTTTGATATATTAGCAACTTCAGCAGAAGAAGTAAAAGACCCGAAACGTAATCTTCCGATCGGTATTATTGCATCATTAATCATATGTACAATTATTTATGTTATGGTATGCCTTGTTATGACAGGAATGGTTTCCTATAAAGAATTAAATGTCCCTGAGGCAATGGCTTATGTAATGGAAGTTGTAGGACAAGGAAAAGTCGCTGGTGCAATTGCTGCAGGTGCTGTAATTGGCCTTATGGCTGTTATTTTTTCCAATATGTATGCGGCAACACGAGTATTCTTTGCAATGAGTCGTGATGGATTGTTACCGAAATCATTTGCGAAAGTTAATAAGAAAACTGGAGCACCCACTTTTATAACTGGATTGGCAGGAATAGGGAGCTCTATAATAGCTGGGTTTATTGATTTAAAAGAATTGGTTAATTTAGTTAATATCGGTAGTTTGGTGACGTTTGCGTTAGTTTGTCTATCAGTTATTATTCTACGTAAATCACACCCAAATTTAAAACGTGGATTTATGGTACCTTTTGTACCTGTATTACCAAGCGTTTCAATTGTATGTTGTTTGTTTTTAATGCTAAATTTACCGTTAAGGACATGGATGTACTTTAGTATTTGGATTACTATTGGGGCAGTCATATATTTCTTTTATTCGATAAAACACAGTAATTTAAATGAGGAAACGATCTCGAAATTACATGATAAAATTGCGAGATAA	MSNLLKKKSVTQLLEHNQSKTLTKTLGAFDLIMLGVGSIVGTGVLVLTGLVAARNAGPAVVFSFILAAIICGFIALCYAEIASTLPASGSVYTYSYATIGEFVAHLVGWSLLLIYIVATAAVAAGWTGYFHNLIKGFGLEIPKALVTIPSHGGIVNLPAVIITLILAWMLSRGTRESKRINNTMVLIKIGMILLFITVGIFYVKPMNWIPIAPYGLSGVFTGGAAILFAFTGFDILATSAEEVKDPKRNLPIGIIASLIICTIIYVMVCLVMTGMVSYKELNVPEAMAYVMEVVGQGKVAGAIAAGAVIGLMAVIFSNMYAATRVFFAMSRDGLLPKSFAKVNKKTGAPTFITGLAGIGSSIIAGFIDLKELVNLVNIGSLVTFALVCLSVIILRKSHPNLKRGFMVPFVPVLPSVSIVCCLFLMLNLPLRTWMYFSIWITIGAVIYFFYSIKHSNLNEETISKLHDKIAR	PGPT0020810_3422	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
AK009_01683	819	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGAATAAACAAATAGGTTTTATCGGATGTGGAAACATGGGTATTGCTATGATAGGTGGGATGATTAAAAAAAATATAGTTTCTCCAGATCAAATAATTTGTTCAGATTTAAATGTCATTAATTTAAAAAATGCTAGTAATGAATATGGCATAACTATAACTACTAACAACAATGAAGTCGCTAACAGCGCTGACATTTTAATTTTATCAATCAAACCAGATTTATACTCATCGGTAATTAACCAAATAAAAGATCAAATAAAAAATGATGTAATCGTTGTAACTATTGCTGCAGGAAAAAGTATTAAGAGCACTGAGAATGAATTTGGTAGAAAGTTGAAAGTTGTTAGAGTAATGCCTAATACACCGGCACTTGTTGGAGAAGGAATGTCTGCGTTATGTTTTAATGAAATGGTTACAGAAAAAGATATAAAAGAGGTACTGAACATATTTAATATTTTCGGCCAGACGGAGGTCATAAATGAAAAACTAATGGATGTTGTTACATCTATTAGTGGTTCTTCTCCAGCATATGTGTATATGTTTATAGAAGCCATGGCAGATGCTGCTGTACTTGGCGGTATGCCGAGAAAACAAGCTTATAAATTTGCGGCTCAGGCTGTATTAGGTTCTGCAAAAATGGTATTGGAAACAGGAATACATCCAGGTGAATTGAAGGATATGGTTTGTTCTCCAGGTGGAACGACGATAGAAGCTGTAGTAACGCTAGAAGAAAAAGGTTTAAGAACAGCTATCATTTCAGCTATGAAACGTTGTACGCAAAAATCTATGGAAATGTCTAGTTTAACTAGTAAGTGA	MNKQIGFIGCGNMGIAMIGGMIKKNIVSPDQIICSDLNVINLKNASNEYGITITTNNNEVANSADILILSIKPDLYSSVINQIKDQIKNDVIVVTIAAGKSIKSTENEFGRKLKVVRVMPNTPALVGEGMSALCFNEMVTEKDIKEVLNIFNIFGQTEVINEKLMDVVTSISGSSPAYVYMFIEAMADAAVLGGMPRKQAYKFAAQAVLGSAKMVLETGIHPGELKDMVCSPGGTTIEAVVTLEEKGLRTAIISAMKRCTQKSMEMSSLTSK	PGPT0014225_2718	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK009_01684	1065	gerBC_1		Spore germination protein B3	GTGAAAAATAAATTTAATTATATGCGGTTCTATTTTGCTTTGTTATGGACGCTTTTGCTTCTATTTTTAACAGGATGTTGGAGCAGTAAAGAAGTAGAAGAGTTGAGTTTAACTGCAGGTATAGCACTAGATAAAGGGAAGAATTCAACAATTGAGAAAGAAGATGAGGAAGGAGGTTATCCTAAAAGAAATCTTATAACAGCTACTTATCAAATTGTTAGTTCGCAAGCACAAAGTAAAGGAAATGGACAACAAAAACGTTATATTAATGTTTCTGAGACAGGTGATTCCATTCATCAAATTGTTCGTGAGTTTTCATTGAAAAGAGAGAGCACAATGTTCAGCCCACATTTAAAAAACATTGTTATTAGTGATAGTCTTGTACGTACATACAGTTTAGAACAATTACTTGAACAGTATCTCCGTGACAATGAAGTTCGGCTTAGCTGTATGCTCTTAATTAGCAAGGGGCTAGCGAAGGAGGTACTGGAATCAAACAAAAAAGGAGAAATTCCAGCATTTCGTTTGTCTGGAATTGCAGATAATAGAAATAGAACAACAAGGATTTTACCTCCTGTATCGCTCGCTAAATTGGAAGGAAAGATGCGGTCAGGGTCCAGTTTTCTTTTGCAAAATGTAATCTCGATAAAAGGGGAAACAAAATTTGCAGGAGCTGCTGTAATTAAAGGGAAGACAAAAAAGTTGATGGGCTTTTTAAATGAACAGGAATTGGAAGGAGTAGTATGGATAAACGGAAAAAGGAATGGTGGTGTGGTAAAAACTTTTGATAAAGAATCAAAGAAACTCATTATATACGAAATAAAGTCAATAAAAAGCAAAATCATACCACATGTTAACGGAAATAATATTTCCTTTGATGTAAACATTGAATCAGAAGGGCGTTTGTCTGAAAATTGGATGCAATCAGGAAAAGATTTTGAAAATGAATTTTTAAAAAAGGAAGAAAAAGCTATTGAAAAAGAAGTAAAGCACTTAGTACATCATGTTACAAAAAAATACAAAAAGAATATCAAGTCGATATTGCGGGTTTTGGCAACCAATTAA	MKNKFNYMRFYFALLWTLLLLFLTGCWSSKEVEELSLTAGIALDKGKNSTIEKEDEEGGYPKRNLITATYQIVSSQAQSKGNGQQKRYINVSETGDSIHQIVREFSLKRESTMFSPHLKNIVISDSLVRTYSLEQLLEQYLRDNEVRLSCMLLISKGLAKEVLESNKKGEIPAFRLSGIADNRNRTTRILPPVSLAKLEGKMRSGSSFLLQNVISIKGETKFAGAAVIKGKTKKLMGFLNEQELEGVVWINGKRNGGVVKTFDKESKKLIIYEIKSIKSKIIPHVNGNNISFDVNIESEGRLSENWMQSGKDFENEFLKKEEKAIEKEVKHLVHHVTKKYKKNIKSILRVLATN	PGPT0025125_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312	NA	NA
AK009_01685	1092	yndE_2		Spore germination protein YndE	GTGATTACTAAACTTAAAGACCGAATAACAACTTCACAGGCAGTTGTTATTATTGTAAATTACATACTTGGGACAGGAATTCTCACTCTGCCTAGAGCATCTGTGGAAAAAGTGAAAACACCAGATGTATGGATAAGTGTGATATTAGGTGGAATACTGGCAATGGTTTCAGGAGTAATTATGGTCAAATTAAGTCAGCAGTTTCCAGAAAAAACATTTTACCAATACAGTCAAGATATTGTAGGGAAATGGATAGGCAGGTTGCTTAGTTTTCTTATTATAGGGTATTTTCTTACAACTTCAGCATTTCAAATTCGTTCAATGGCAGAAGTAATAAGCTTTTTTTTGCTCGAAGGAACCCCCACATGGGCTATTGTTATGCCTTTTATGTGGATAGGTCTCTATTTGATTATGAGTGGTATTAATTCAATTGCACGGATGTTTGAAATAATATTTCCTATTACTGTTTTTATTTTTTTAATCATTTCCTTTATGAGCATCGGAATATTCGAGATAGATAATCTCCGTCCCGTATTAGGTTTGGGAATTAAACCAGTATTAGATGGGATAAAAACAACGTCTCTCGCATATACAGGTCCTGAAATTATGTTAATTCTTTTGGTATTTATGGAACAACGAAATAAAGCAGTAAAAGCTATTTTAGTTGGAATTTCTATTCCGTTAATCTTTTATGTAATAACTGTTGTAATGGTCATTGGTGCATTATCAATTGATGGGGTTGTAACAAGAACATGGCCGACAATTGACCTTATGCGCAGTTTTGAAATTTCTGGATTGATATTTGAACGTTTTGAATCTTTACTGCTTGTAATATGGATTATGCAAATATTTGCTACCTATACGATTAGTTATTATGCAGCTGCATTAGGATTAGCGCAACTCTTTAAAAAGAGTATTCATCCGTTTATTTTTGCTTTGATTCCAATCATTTACATCATTGCTATGACTTCGAAAAATATAAATGACTTGCTTAAATTGGGGGATATGCTCGGTAATGCTGCTTTATTTTTATTTGGTTTACTGCCACTGCTTCTTCTTATTATTACGCGATTAAAAGGAGGAGTAGTGTGA	MITKLKDRITTSQAVVIIVNYILGTGILTLPRASVEKVKTPDVWISVILGGILAMVSGVIMVKLSQQFPEKTFYQYSQDIVGKWIGRLLSFLIIGYFLTTSAFQIRSMAEVISFFLLEGTPTWAIVMPFMWIGLYLIMSGINSIARMFEIIFPITVFIFLIISFMSIGIFEIDNLRPVLGLGIKPVLDGIKTTSLAYTGPEIMLILLVFMEQRNKAVKAILVGISIPLIFYVITVVMVIGALSIDGVVTRTWPTIDLMRSFEISGLIFERFESLLLVIWIMQIFATYTISYYAAALGLAQLFKKSIHPFIFALIPIIYIIAMTSKNINDLLKLGDMLGNAALFLFGLLPLLLLIITRLKGGVV	PGPT0025120_315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK009_01686	1566	gerBA_1		Spore germination protein B1	GTGGAAGTCAAGAGACAAACAAGTGAAAAAAATAATATTCAAAGTAAAACGAAACAAGAGCATAAACCTTCTCAAAATGCAATCGTTCATTTCACAAATGATTTTGCCTCTAACTTAGAACTTATAAAGCAACAAATCGGACATAATTCTGATGTTCGCTTTCGGAAGTTTAATATTGGACGCACAGATATTCAGGCTGGGATCGTTTTTGTTGATGGCCTATCAGATAAAGAGATAATTGACAAACATATTATGAAATTACTAATGGATGATTTTTCTGATGAATATAAAAATGAAACTTCTTATGTGGAGGGGACTGTTTCAAAAGAATATATTAAAAATAAAGTTCTTACAATTAGTGAAGTAGCAGAAGTCCATTACATAAAAGATTTAATACCCAAAGTATTGATAGGTTCAACAGCTCTTTTAATTGATGGTTTAGCAGATGTGTTTATTCTTGGTACAACAAAAGCAAATAAACGAAACATTGAAGAACCAGTATCGGAGGCATTAGTCAGAGGGCCACGGGTCGGTTTTACTGAAGTATTAAGTGATAATACCTCACTTTTGCGACGACATTGTGCGGATGAGAGCTTATCATTAGTAAAGCTACCAGTAGGAGAACGTGCAAAGAAAGAGTTAGTTGTCGCATTTATTAGAGATCTTGCTAGTACAGAATTGGTGGATGAAGTAAAAAACAGAATTCAGAAAATTGACATAGACAGTGTACTCGAATCTGGTTATATAGAGCAACTCATTGAAGATAATTATCTAAGTCCTTTTCCACAGATTCAAAATACAGAACGACCTGATCGTGTTATTAGTGCTTTAATGGAAGGTCGAGTAGCTATTTTGTTAGATGGAACACCATTTGTTTTAATTGCTCCAGTTACATTTAGTATGCTGCTGCAATCACCAGAAGATTATTATGAAAGGTGGCTTCCTGGTACGCTTCTCCGCTTATTACGCTTCATGACAGCTTTTGTTTCATTATTTGCTCCAGCACTGTATATTTCTTTTATTTCATTTCATCCAGGATTAATTCCCACTAAGCTCGCTATTTCTATTATCGGATCGCGAGAAGGAGTTCCTTTTCCCGCTTTAATAGAAGCGTTAATTATGGAAGTAGCTATCGAAGTTTTGCGAGAAGCAGGTTTACGTCTGCCTAAACCGATTGGACCTGCAATGGGAATTGTGGGCGGTTTAATAATTGGTCAAGCTGCTGTAGAAGCAGGAATTGTTAGTCCAATAATGGTTATCGTTGTTGCGGTAACAGCTATTTCTTCTTTTACTATTCCACAATATAGTGTAGGAATTACGTTACGCATTCTTCGTTTTGTAGCTATGTTTTGTGCTGCGATATTTGGTTTGTATGGAGTTATTCTCTTCTTTCTTTTACTTTGCAGTCATTTAGTGAAACTGAAAAGTTTTGGCGTTCCTTATACCAGTCCTGCTGTTCCATATCGATTCAGTGACTGGAAAGATTTTATGGTTCGCATGCCATTAAAAATAATGAGACGTCGACCAAAAATAATGCATACCCAAAAAAATATCCGCAAAAGGTAG	MEVKRQTSEKNNIQSKTKQEHKPSQNAIVHFTNDFASNLELIKQQIGHNSDVRFRKFNIGRTDIQAGIVFVDGLSDKEIIDKHIMKLLMDDFSDEYKNETSYVEGTVSKEYIKNKVLTISEVAEVHYIKDLIPKVLIGSTALLIDGLADVFILGTTKANKRNIEEPVSEALVRGPRVGFTEVLSDNTSLLRRHCADESLSLVKLPVGERAKKELVVAFIRDLASTELVDEVKNRIQKIDIDSVLESGYIEQLIEDNYLSPFPQIQNTERPDRVISALMEGRVAILLDGTPFVLIAPVTFSMLLQSPEDYYERWLPGTLLRLLRFMTAFVSLFAPALYISFISFHPGLIPTKLAISIIGSREGVPFPALIEALIMEVAIEVLREAGLRLPKPIGPAMGIVGGLIIGQAAVEAGIVSPIMVIVVAVTAISSFTIPQYSVGITLRILRFVAMFCAAIFGLYGVILFFLLLCSHLVKLKSFGVPYTSPAVPYRFSDWKDFMVRMPLKIMRRRPKIMHTQKNIRKR	PGPT0025115_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK009_01687	945	cheB_2		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTATTTTTATATAGTAGATGATGAAAAAGCGGTTCGCTCAATGTTGGCTCAAATTATCGAGGATGAAGATCTTGGGGAGGTTATAGGAGAAGCTGAGGATGGTTTATCTTTAGAGCAACAAATGGTAATCCTTAAAAATATAGACATTTTATTTATCGATTTGTTAATGCCGAATCAAGATGGAATAAAAACAATTCGTCAAATAAAGCCTTCGTTTAAAGGGAAAATCATCATGGTCTCTCAAGTAGAATCAAAAGAATTAATTGCTGAAGCTTATTCGCTTGGTGTTGAATACTATATTATTAAGCCAATTAACCGGATTGAAGTATTAACAGTTGTTCGGAAAGTCATTGAACGAATTCGTTTGGAAAAATCAATAAAAAACATTCAAGAATCGCTTAATATGGTACTAAAATTGGATAGTAATTCAAGTGTGCAAGAAAAATACCGTAATGAAAAACATTTAAATACTTTCAATCATTTTCAAAATTCCATTCATTTTCTTTTGTCTGAATTAGGAATAGCCAGTGAAAGTGGAAGTAAAGATTTAATGGATATGCTAGATTATTTATATAAATATGAACAAGATAACACGTTGGAACAAGGCTTTCCCTCACTAAAAGAGATTTTTATGAATTTGGCTCAAAAAAAACTTGGGGATTCAGCTGAAGATGCCGAATTAAAAAGGTTCATAGAAGCTTCCAAACAACGGATTCGGAGAGCTATTTATCAATCATTAAACCATTTAGCATCCCTTGGACTTACTGATTTTTTAAACCCGAAGTTCGAAAATTATGCTTCTAGATTTTTTGATTTTACTACCGTAAGGAGAAAGATGACAGAATTGAATAATGAACCAACATTACCTGCTCGTATTGATACGAAAAAATTTATTCAAGTTCTTTATTTTGAAGCAAAACGAATACACCTGGAGTTAAGATGA	MYFYIVDDEKAVRSMLAQIIEDEDLGEVIGEAEDGLSLEQQMVILKNIDILFIDLLMPNQDGIKTIRQIKPSFKGKIIMVSQVESKELIAEAYSLGVEYYIIKPINRIEVLTVVRKVIERIRLEKSIKNIQESLNMVLKLDSNSSVQEKYRNEKHLNTFNHFQNSIHFLLSELGIASESGSKDLMDMLDYLYKYEQDNTLEQGFPSLKEIFMNLAQKKLGDSAEDAELKRFIEASKQRIRRAIYQSLNHLASLGLTDFLNPKFENYASRFFDFTTVRRKMTELNNEPTLPARIDTKKFIQVLYFEAKRIHLELR	PGPT0000740_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000740-ycbB|glnL-K07719	NA	NA
AK009_01688	1317	glnK_2	COG0642	Sensor histidine kinase GlnK	GTGATTATTTTGAATCTTAGTAATTTAGTAAAAAAAGACATCTATATTCTCGTTTTAATGATACTTACAGTACCCTTAGTAGGTGAAATAAAGTCATTTCCCTTAAATGAAACATTTAGAATGAGCTTTGGTGCACCAACATTTTTCTTTTTTTTATTATTGTTTCGACGAGTTCCAGCATTTTTACCGGGTTTTTTAACAGCGATAGTCGTGGTAGTATTTCGTATCTCAATGGATGTCATTATAAAGGAAAATATGGATTGGCTAGCCGCTTTTCATACTCACTATCCTAGTTTTTTCTTTTATTTTACTTATTCGTATCTCTTTCATTTAGCAAAAATCAAACGTTTTTATCATCAACCACTAATGATTGGTTTTATTGGTTGCATGATTGAAATACTGTCAGACTGTGTGGAATTAATGATTCAATATTTCGTATTAAAAACATCGATCACATCCGAGGCAATAAATGAGATCATTGTTATCGCATGTTCCCATAGTTTTATAGTTCTAAGCTTTTTCAATATGATGAAATTGTATGAAGCACAATCAAGGGAGCGACATATAAAGAAACAAAATGAACATATGCTCATGCTCATCTCTAATTTATATGAAGATGCTGTTCATTTAAAAAAAACATTACAAGATGCTGAGAATATAACAAAAAAATCCTATGATTTATATAAAACTTTAGACTCTTTTGAGCATAAACAGATGGATTTTCAGTTTGAGGATTTAAGGCAACAGGCATTACAAATTGCTGGTGAGGTCCATGACGTTAAAAAGGATAACCAACGTATTTTTGCGGGACTTTCAAAACTAATTTCTGATGAAAGTTTTACAGATTATATGTCTGTACATGAACTAGTAAATATCATTATACGGGCAAATACGAAATATGCACAGTTGTTAGAGAAAGATATCCAATTTGTGTATAAAATTGATGGTGTGCATCCTCATTATCATATTTATACAATCTTATCTATTATAAATAATATCGTTACAAACGCTGTAGAAGCTATCCAAGGTATGGGAACCATCACAATTGACATTAATAAAGACCACCATTTTGTTGAATTTCAAATAGGCGATAATGGTCCTGGTATTTCTTCAAAATATAAAGATTCAATTTTTGAGCCTGGGTTTACTTCTAAATATGATGATTTAGGCAATCCATCGACAGGTATCGGATTATCGTATGTTAAAGAAATGGTTGCACAACTTGAAGGTGATGTTACGCTTGAGGACAGAACCGAAGGAAAAGGATCAATTTTTATAATTAGATTAGGGATTGATCATATAATTTCGAAAGGGTGA	MIILNLSNLVKKDIYILVLMILTVPLVGEIKSFPLNETFRMSFGAPTFFFFLLLFRRVPAFLPGFLTAIVVVVFRISMDVIIKENMDWLAAFHTHYPSFFFYFTYSYLFHLAKIKRFYHQPLMIGFIGCMIEILSDCVELMIQYFVLKTSITSEAINEIIVIACSHSFIVLSFFNMMKLYEAQSRERHIKKQNEHMLMLISNLYEDAVHLKKTLQDAENITKKSYDLYKTLDSFEHKQMDFQFEDLRQQALQIAGEVHDVKKDNQRIFAGLSKLISDESFTDYMSVHELVNIIIRANTKYAQLLEKDIQFVYKIDGVHPHYHIYTILSIINNIVTNAVEAIQGMGTITIDINKDHHFVEFQIGDNGPGISSKYKDSIFEPGFTSKYDDLGNPSTGIGLSYVKEMVAQLEGDVTLEDRTEGKGSIFIIRLGIDHIISKG	PGPT0000735_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0000735-ycbA|glnK-K07717	NA	NA
AK009_01689	981	glsA1	COG2066	Glutaminase 1	ATGATAAAGGATTCTAGCGTTCAAGTTGAGGGGCAAGAAAAAGTTTGCTTAGATCAATGGGTAGCTCATTATCGAGCGTATGCAGCTAAGGGACGAAGCGCCAGTTATATTCCCGCTCTGGGGGAAATAAATGTATCGCAGTTAGGTATTTGTATAGTAAAGCCAGATGGAACAATGATAAAATCAGGAGATTGGGAGATACCTTTCACATTACAAAGTATATCAAAAGTAATCGGTTTTATAGCCGCTTGTTTAAGTCGCGGTATTTCTTATGTATTAGAACGAGTTGACGTAGAGCCAACTGGAGATGCCTTTAATTCAATTATTCGTTTAGAGATACATAAACCAGGAAAACCTTTTAATCCTATGATCAATGCTGGAGCGATTACGATAGCTTCACTTTTGCCAGGGACATCGGTGCAAGAAAAATTAGAATCTCTATACGTATTAATTGAAAAAATGATAGAGAAGCGTCCCGCTATTAATGAAATAGTATTTCAATCAGAATGGGAAACGGCTCATCGTAATAGAGCATTAGCATACTATTTAAAGGAGAATGGTTTTCTAGAATCAGATGTGGAGGAGACACTAGAGGTTTACTTAAAACAATGTTCGATTGAAATAAATACAGAAGATATTGCCTTAATAGGGCTTATACTAGCACATGATGGATATCATCCTATTCGCAAAGAACAAGTGCTCCCTAAAGAAGTAGCTAGGTTAACAAAAGCTTTAATGCTTACTTGTGGAATGTACAACGCTTCTGGAAAATTTGCTGCTTTCATTGGATTACCAGCTAAGAGTGGGGTATCCGGCGGAATTATGACACTTGTTCCCTCAAAATCTAGGAAGGATTTATCGTTTCAAGATGGATGTGGTATTGGTATTTACGGACCAGCCATTGATGAGTATGGGAATAGTTTACCAGGAATTATGTTGTTAGAACATATTGCAAAAGAATGGGATTTAAGTATATTTTAA	MIKDSSVQVEGQEKVCLDQWVAHYRAYAAKGRSASYIPALGEINVSQLGICIVKPDGTMIKSGDWEIPFTLQSISKVIGFIAACLSRGISYVLERVDVEPTGDAFNSIIRLEIHKPGKPFNPMINAGAITIASLLPGTSVQEKLESLYVLIEKMIEKRPAINEIVFQSEWETAHRNRALAYYLKENGFLESDVEETLEVYLKQCSIEINTEDIALIGLILAHDGYHPIRKEQVLPKEVARLTKALMLTCGMYNASGKFAAFIGLPAKSGVSGGIMTLVPSKSRKDLSFQDGCGIGIYGPAIDEYGNSLPGIMLLEHIAKEWDLSIF	PGPT0020215_1110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
AK009_01690	156			hypothetical protein	ATGAGAAAACTTCAAAAAAGAAAAGTGTGTAATAAGAAGGATATTCAGACTGCAATATGTCTGAATATTTTTCTTGGTTCTAGTGCAAATATTATTGATTATAGTAAAGAAAAAATCATTCTATATAAAGTTAATAGTACGGGGGAATATTATTAA	MRKLQKRKVCNKKDIQTAICLNIFLGSSANIIDYSKEKIILYKVNSTGEYY				NA	NA	NA	NA	NA
AK009_01691	1425	alsT_2	COG1115	Amino-acid carrier protein AlsT	ATGGAAAGGTTTTTTGTAGAGTTAGTCGGATCAACAAATGATTTTTTATGGTCTAAATTGTTAATTATTATGCTTGTTATTTGCGGAATTTATTTTACATTTAAATTGAATTTTGTACAGTTTCGAATGTTAAAAGAGATGGTCCGTGTATTAATGGAGGGGAAAAGTGGTTCTAAAGATCAAATCTCTCCTTTTCAAGCGTTTTGTATTGGTATGGCAGCCCGCGTTGGGACAGGGAATATTACAGGAATTGCGATTGCAATTGCATTAGGTGGTCCTGGAGCTGTATTTTGGATGTGGATTATTTCTATTATTAGCTCGGCATCTAGTTTTGTCGAAAGCACATTAGCACAGATATATAAAGTAAAAGATAAAACTGGTTTCCGCGGTGGTCCATCCTATTATATGGAAAAAGGGTTGAATAAACGTTGGATGGGAGTATTATTCTCTATTTTAATCACAATTACTTTTGGACTTGTATTCAATTCAGTACAATCAAATACAGTTACAATTGCTTTTCAAAACTCATTTGGTACAGATCGTCTAACAGTTGGGATAATCATGGCCATTGCTTTCGCTGCGATTATTTTTGGTGGTGTACAACGTATTGCAAAAATGGCTGAATACAAGGTGGTATTTTTAGCGGTATTATACATTGGAGTTGCATTATTTGTTGTAGTTACCAACATATCAAAAATGCCGGAAGTTCTTTCTCTTATTGTTCAAAACGCATTTGGTTTTAAACAAATAGCAGGCGGTTCAATTGGTGCAGCACTTATGAATGGAGTTAAACGCGGTTTATTCTCAAATGAAGCTGGTATGGGAAGTGCACCAAACGTTGCTGCAACAGCAACAACAAGTCATCCGGTGAAACAAGGACTGATTCAAGCATTTGGTGTATTAACGGATACACTAATCATTTGTACTAGCACCGCCTTTATTATTTTGCTGTCTGATGCATATAAACAACCGGGGTTAAATGGTATTGCACTTACACAAGCAGCATTAAGTGAACACATAGGCCCTTGGGCATCGGGTTGTCTTGCTATCTTTGTTTTTTTATTTGGATTTGGTGCGTTAATTGGCAACTATTATTATGGTGAAACAAACATTCGCTTCTTACATACAAGTAAAGTGTGGTTAATGATATACAGAATAAGTGTGTTGGCTATGATTGTATTTGGTTCTGTTGCAAAGATTCAAATTGTATGGGATTTAGCGGACTTATTTATGGGCTTTATGGTTATTATTAATTTAATTGCTATTACCTTACTTTCAAAAGTAGCATTTGCGGCGTTACAAGATTATATAAACCAGAAAAAAGCTGGTAAAGATCCTATTTTTTATAAAGAAAACATTAAAGGACTTGAAAATATTGAATGTTGGGATAGTTATGAGAAAACTTCAAAAAAGAAAAGTGTGTAA	MERFFVELVGSTNDFLWSKLLIIMLVICGIYFTFKLNFVQFRMLKEMVRVLMEGKSGSKDQISPFQAFCIGMAARVGTGNITGIAIAIALGGPGAVFWMWIISIISSASSFVESTLAQIYKVKDKTGFRGGPSYYMEKGLNKRWMGVLFSILITITFGLVFNSVQSNTVTIAFQNSFGTDRLTVGIIMAIAFAAIIFGGVQRIAKMAEYKVVFLAVLYIGVALFVVVTNISKMPEVLSLIVQNAFGFKQIAGGSIGAALMNGVKRGLFSNEAGMGSAPNVAATATTSHPVKQGLIQAFGVLTDTLIICTSTAFIILLSDAYKQPGLNGIALTQAALSEHIGPWASGCLAIFVFLFGFGALIGNYYYGETNIRFLHTSKVWLMIYRISVLAMIVFGSVAKIQIVWDLADLFMGFMVIINLIAITLLSKVAFAALQDYINQKKAGKDPIFYKENIKGLENIECWDSYEKTSKKKSV	PGPT0000745_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000745-glnT-K11626	NA	NA
AK009_01692	1152	ybiR	COG0471	Inner membrane protein YbiR	GTGAAAGAAATAGTATTCGTTCAAAATAAAAAAAGACTCCTTATGAAATTCGAATTTTTAAAAAAGGATTTAGTGCTTACCATTTCACTGATACTAGCAATTGTAAGCTGCTTAATACATTCGCCAAAGATCGAATATATTAACTTTGAAGTGTTAATTAGCTTATTTAATCTGATGGTAGCCATTAAGGCCTTGGAACAGCTAAAGATATTAGACAAACTTGCCGTTGCGATTTTAAATAAATGCAATAACAGCAGGTCAATATCTATTATTCTAATTTTGTTATGCTTTATTTGCTCCATGTTTGTAACAAATGATGTTGCTCTCCTCACTTTTGTACCAATAACACTTTTCATTAGTAAAAAAACACAAATGAACATGATGGATACAATCATCCTGCAGACAATTGCAGCAAACATCGGTAGTAGCTTGATGCCTATGGGAAACCCACAAAATTTATACCTATATTCTTACTATGGAATTAAGCTCATCCCATTTTTAGGTTCAATTCTGCTTTTAGCTGTACTTGGAATTAGTTTATTATTTATATTTACTCAAAAACTTCAAAAAACAGATTTGAAAATAGAACTACCTGTTATTACCGTGAAAAATCGAAAAAAAGCTACCGTCTGGATTTTGATACTTATTACTATCATTGCATCTATTTTTGGTGTTATTAATTATTACATCGCGCTAATAGTCACACTGATAGCAGCATTTACGTTAGATAGAAACTTACTATTTAAGATCGATTACTTTCTTCTAATAACCTTTGTCTGTTTTTTTATTTTTATCGGAAACATTTCCCATTCCGATGCACTGGGGACATTTGCTCGCGCTAATTTAAGAGGAGATACTTCAGTCTTCTTTAGTTCCATATTTTTGAGTCAATTGATTAGCAATTTTCCTACTTCAATTCTTCTATCAAACTTTACTTCTGATTGGAAAGCTTTATTACTAGGAGTAAATATTGGAGGGCTTGGAACAATTATCGCATCTTTAGCCAGTGTAATCTCCTATAAACTATTCATTCAGGCCAATGTTAAAGAGAGTAAGGCATATTTAATTAAATTTAGCATTTACAACTTTTCATTTTTAATCATACTTACATGTATACAATACTTTATCTTTAAATTTCTAAAAATTTTTTAA	MKEIVFVQNKKRLLMKFEFLKKDLVLTISLILAIVSCLIHSPKIEYINFEVLISLFNLMVAIKALEQLKILDKLAVAILNKCNNSRSISIILILLCFICSMFVTNDVALLTFVPITLFISKKTQMNMMDTIILQTIAANIGSSLMPMGNPQNLYLYSYYGIKLIPFLGSILLLAVLGISLLFIFTQKLQKTDLKIELPVITVKNRKKATVWILILITIIASIFGVINYYIALIVTLIAAFTLDRNLLFKIDYFLLITFVCFFIFIGNISHSDALGTFARANLRGDTSVFFSSIFLSQLISNFPTSILLSNFTSDWKALLLGVNIGGLGTIIASLASVISYKLFIQANVKESKAYLIKFSIYNFSFLIILTCIQYFIFKFLKIF				NA	NA	NA	NA	NA
AK009_01693	261	cypX_1	COG2124	Pulcherriminic acid synthase	ATGATTGGTGCAACAAATTGTGACTCTAACGCATTTGAAAGGTTTGATAAATTCACCGTTTATCGTCCTGACATTGATATTAAAAAGGCATTTAGTGGTACTGCAAGACATCTTGCTTTTGGATCAAGTATCTATAATTGTGTAGGAGCAGCATTTGCAAAATTAGAAATTGAAATAGATTCAACGATCAAAGATAATATTAGCGGAAAAAAATTGAGGGACATTAAAGATTTTGTGAAGAGGACTTCAAAAATGAAATAA	MIGATNCDSNAFERFDKFTVYRPDIDIKKAFSGTARHLAFGSSIYNCVGAAFAKLEIEIDSTIKDNISGKKLRDIKDFVKRTSKMK				NA	NA	NA	NA	NA
AK009_01694	1158		COG3385	IS4 family transposase MICBce2	ATGAAAACACGCAGTAAAATTACATGTGCAAGTCTAGCACTTTTAATAGCTGGAAGTTCCCTGTTATACATAACACCAACATCAATTGTAAAAGCAGAACCTACGCAAAATGTATCTAGTTCGTTACAAACAAGTACGAAAAGCGATCGTACTTCCGTTAAGAAAGCAATGCGAGATGAACTGCAACTTGGATACCCGGGAATACTCGCTCAAATTTCTAAGGGGGGTAAAACTTGGAGTTATAGTGCTGGGATAGCGGATTTGAGAACTAAGAAACCAATGAAAGCAGATTTTCGCTTTCGCATTGGCAGTGTGACGAAAACGTTCATTGCAACAGTTCTACTTCAATTATCTGGAGAGAACCGTTTGAATCTAGACGACTCAATTGAAAAATGGTTACCTGGTGTGATTCAAGGAAACGGATATGATGGTAACCAGATTACTATCCGGCAAATATTGAATCATACAAGTGGTATTGCTGACTATATAAATTCAAAAGACTTTGATATTACGGATATAAAAAAATCGTATACGGCTGAAGAATTTGTAAAGATGGGGATTTCACTTCCCCCAGACTTTGCCCCAGGAAAGGGTTGGTCTTATTCAAACACAGGATACGTATTACTGGGGATCCTTATTGAAAAAGTAACTGGCAACAGTTATGCCGAAGAGGTTGAAAATCGGATTATTGAACCGCTTGATTTGTCAAATACATTCCTACCTGGCAATTCAAGCGTGATTCCAGGGACTAAGCATGCCCGTGGCTATTTGCAACTAGACGGAGCGAGTGAGCTAAAAGACGTTACTTATATTAACCCAGGTAGCTCGGATGGAGATATGATTTCTACTGCTGACGACTTAAGCAAATTCTTCTCTTACTTACTAGGTGGCAAATTACTGAAGGAACAGCAGTTAAAACAAATGCTTACTACAGTTCCTACAAATAGAGAGGGAACCGGATATGGTCTTGGAATCCTTGAAATTAAGCTTCCGAACGGTGTCTCGGTATGGGGACACAGGGGGGCCGTTCCAGGGTTTTCCACTTTTGTTGGTGGAACACTTGGAGGTAAACATATACTCGCTATCAATTCGAACAGTTTAAACATTAATAACCCGGAATTTTTTAAAAACATTTTACTTGCTGAATTTAGCAAGTAG	MKTRSKITCASLALLIAGSSLLYITPTSIVKAEPTQNVSSSLQTSTKSDRTSVKKAMRDELQLGYPGILAQISKGGKTWSYSAGIADLRTKKPMKADFRFRIGSVTKTFIATVLLQLSGENRLNLDDSIEKWLPGVIQGNGYDGNQITIRQILNHTSGIADYINSKDFDITDIKKSYTAEEFVKMGISLPPDFAPGKGWSYSNTGYVLLGILIEKVTGNSYAEEVENRIIEPLDLSNTFLPGNSSVIPGTKHARGYLQLDGASELKDVTYINPGSSDGDMISTADDLSKFFSYLLGGKLLKEQQLKQMLTTVPTNREGTGYGLGILEIKLPNGVSVWGHRGAVPGFSTFVGGTLGGKHILAINSNSLNINNPEFFKNILLAEFSK				NA	NA	NA	NA	NA
AK009_01695	240			hypothetical protein	TTGGATGATCCAAACAGTTATAACTACATTTTTGGACAGGTCAAAAAAGATCAATTTTTTATTGATTTACGTAAGGCGAACGGCGTGACAAAAACTTGGTTACACGAACAACATCCAATTTTCGCTGGAATAACTACCGAAGGGCCTGATATACCAAAAACTGTTGATATATCATTAGGTAAAGCGTTTGATATACTTGTTCAAATTCAAAAAGTGAGTCCATCTCAAGTACATCAATAA	MDDPNSYNYIFGQVKKDQFFIDLRKANGVTKTWLHEQHPIFAGITTEGPDIPKTVDISLGKAFDILVQIQKVSPSQVHQ	PGPT0027980_189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
AK009_01696	1590	yhcR_1	COG0737	Endonuclease YhcR	ATGTTGAAAAAAATCATTCCAGTTGCTTTAGCATTAAGTACAGTTACTTTTACTAGTGTATTTGCTGCGCCTTCAATCCAAGCGAGTACAGAACCAAACCGCTACATAGATGTGCAAATGCTCGGTATTAACGATTTTCATGGGCAACTAGACACTGTAAAAAAAATTAACAATAAAGATGCAGGGGGAATTGAGTACTTAGGGGCTTATTTACGTGATCGTGAAAAACAAAATCCGAATACATTAAAGGTACATGCTGGCGATGTTGTTGGAGCAAGTACTCCTGTTTCAGCATTATTACAAGACGAACCTACGATTGAATTTCTAAATGATTTGAAATTCGATGTTGGAACTATAGGAAATCATGAATTTGATGAAGGTGTTGCGGAAATGAACCGCCTTATTTATGGTGGATATCATGAGAAAACAGGGAATTTTAAAGGAGCAAAATTCCCATATGTTGCTGCAAATTTCTATAATAAATCCACCGGTCGTTTATTTTTACCACCATTCACTATAAAAAAGGTACAAGGAGTTCCTGTTGGATTTATCGGAGTTGTAACAACGGATGTTCCTAACCTTGTTATGCCTACTATGCTAAAGAATGTGGAAATTACAGATGAAGTTGAAGCTATTAACAAATCCGTAAAGCAATTAAAAAAACTAGGCGTTAAATCTATCGTTGTTCTTGCACATAACGGAGGTACAACAGATGGGAACGGCGTAACGAATGGTGATATCGTCCGATTAGCAAATGAGACTGATCCAGAAGTCGATGTTATTTTTGGTGGGCATAGCCACACGTATGTAAATGGAACTGTTAATAATAAACTTGTCGTACAAGCAAATTCTTATGGTATGGCTTTTGCTGATGTTGATGTAAAGATTGACCGTAAGACACAAGATATTGTTGAGAAAAAAGCAGAAATTGTTACAACTTACCATGAAGGCATGGAGCCTGATAAAAAAATAAAGAAGAAGATGGAGAAATATCAAGCAAAAATCGCACCTCTTGTTAATGAAGTTGTAGGTAAGTCTATTGCTCCACTAGATCGCAAACTCAATACGGCTGGTGAATCTACTCTTGGAAATTTAGTTGCTGATGCCCAGCGTACAACAATGCAATCCCAAATTGCACTTATGAATCCTGGTGGTATTCGTAATGACTTAGATGCTGGTGATATTACATGGGGCGAGATATATGGTATTCAACCATTCGGAAATCAATTAATAAAAGTAAATTTAACAGGCCAAGACATTCGTGATATTTTAAATCAACAATGGCAAAAAGACATAACAAGAATGCTTCAAATTTCAGGGATCCAATATACTTGGGATGCGAACAAGCCTAATGGAGAAAAAGTAACAAGTATTCGCTTAACAAATGGAGAAGAAATTATTCCTTCGAAAACTTACAGCGTCGTTGCGAACGCATTTTTAGCTTCAGGTGGAGATGGATTTGTATCTTTTAAAAACGGTAAAGATGCTGAAAGAGGACCAACTGATTTTGAAGCATTAGTAGATTATATAAAAAAATCAAAAGAACCAATTCAGTCTATTATTGATGGAAGAATTCAAAAAATAAATTAG	MLKKIIPVALALSTVTFTSVFAAPSIQASTEPNRYIDVQMLGINDFHGQLDTVKKINNKDAGGIEYLGAYLRDREKQNPNTLKVHAGDVVGASTPVSALLQDEPTIEFLNDLKFDVGTIGNHEFDEGVAEMNRLIYGGYHEKTGNFKGAKFPYVAANFYNKSTGRLFLPPFTIKKVQGVPVGFIGVVTTDVPNLVMPTMLKNVEITDEVEAINKSVKQLKKLGVKSIVVLAHNGGTTDGNGVTNGDIVRLANETDPEVDVIFGGHSHTYVNGTVNNKLVVQANSYGMAFADVDVKIDRKTQDIVEKKAEIVTTYHEGMEPDKKIKKKMEKYQAKIAPLVNEVVGKSIAPLDRKLNTAGESTLGNLVADAQRTTMQSQIALMNPGGIRNDLDAGDITWGEIYGIQPFGNQLIKVNLTGQDIRDILNQQWQKDITRMLQISGIQYTWDANKPNGEKVTSIRLTNGEEIIPSKTYSVVANAFLASGGDGFVSFKNGKDAERGPTDFEALVDYIKKSKEPIQSIIDGRIQKIN	PGPT0013400_1229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
AK009_01697	381			Arylesterase	GTGAAAAGTGATCGCATAGCATTCCTTGATGAGTTTACGAAAGGTTTTTTTGCTGCTGGAGATCGAACTGACTTAGTTAGTGAACCATTTCGACTTTACAATAGGGATATCGCTGCGGGTGCATCACCTAAAGGAACATTAGATTGTATCGCTGCTTTCAGCAAAACAGACTTCAGAAGCGATTTAGCCAAGATTAATATACCTACCCTTGTCATTCATGGTGATTCAGATGCAACTGTACCATATGAATATAGTGGGAAATTAACACATGAAGCAATTCCTAATTCTAAAGTAGCATTAATAAAGGGTGGTCCACATGGGCTCAATGCAACGCATGCTAAAGAATTTAATGAAGCACTCCTATCATTTTTAAAGGACTGA	MKSDRIAFLDEFTKGFFAAGDRTDLVSEPFRLYNRDIAAGASPKGTLDCIAAFSKTDFRSDLAKINIPTLVIHGDSDATVPYEYSGKLTHEAIPNSKVALIKGGPHGLNATHAKEFNEALLSFLKD	PGPT0013125_1181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
AK009_01698	315	bpoA2		Non-haem bromoperoxidase BPO-A2	ATGGCAAAAATTACTGTAGGAACCGAAAATCAAGCACCAATTGAGATATATTATGAGGATCATGGTATAGGAAAACCAGTTGTACTCATTCATGGTTGGCCGTTAAGTGGTCGATCTTGGGAATATCAAGTTCCCGCTCTTGTTGAGGCTGGATACAGAGTTATAACATATGATCGTCGAGGCTTTGGAAAATCATCTCAGCCGTGGGAAGGGTATGAATATGATACCTTTACTTCTGATTTACATCAACTATTAGAACATTTAGAGCTTCAAAATGTCACACTTGTTGGTTTTTCTATGGGGGAGGCGAAGTAG	MAKITVGTENQAPIEIYYEDHGIGKPVVLIHGWPLSGRSWEYQVPALVEAGYRVITYDRRGFGKSSQPWEGYEYDTFTSDLHQLLEHLELQNVTLVGFSMGEAK	PGPT0013125_1181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
AK009_01699	645	ycaC_1	COG1335	putative hydrolase YcaC	ATGACTGATCTCTATTCTCGTATTAACAAAGATGATGCTGTCGTGCTTTTAGTAGATCATCAAACTGGTCTTATGTCCGGACTAGTACGTGACTATGGTGTTGATGAATTCAAGAACAATGTTTTAGCTCTTGCTCATACTGCTAAGTTTTTTGATTTACCAGTTATTTTAACAACAAGTTTTGAAAACGGACCTAACGGACCTTTAATGCAAGAATTGGTTGATCTCTTTCCTCATGCACCAAAAATAGCTCGACCTGGACAAATTAACGCATGGGATAATGATGATTTTGTAAAAGCAATCGAAGAAACTGGAAAAAAGCAAATTATCATCGCCGGCGTAGTTACGGACGTTTGTGTTGCTTTCCCTGCACTTTCCGCTATAAAAGCTGGATATGAAGTATTTGCTGTTACTGATGCTTCAGGTACTTTCAATAAACAAGTTGCAGATGCTGCAAATACTCGTATGGCACATAGTGGTGTGCAACTTATGAACTGGTTTAGCGTAGCTTGCGAATTACAACGCGATTGGCGCAACGATGTCGAAGGTTTTGGCAATTTGCTTGCTAGCAATCTTCCAGGCTATCAAAATATAATTGGAAGCTATATGGGCGCACAGCGAGATCTTAGTAAACAAAATGCATAA	MTDLYSRINKDDAVVLLVDHQTGLMSGLVRDYGVDEFKNNVLALAHTAKFFDLPVILTTSFENGPNGPLMQELVDLFPHAPKIARPGQINAWDNDDFVKAIEETGKKQIIIAGVVTDVCVAFPALSAIKAGYEVFAVTDASGTFNKQVADAANTRMAHSGVQLMNWFSVACELQRDWRNDVEGFGNLLASNLPGYQNIIGSYMGAQRDLSKQNA				NA	NA	NA	NA	NA
AK009_01700	645	ycaC_2	COG1335	putative hydrolase YcaC	ATGAGTAATTTAGAATTGTTAAATCCGGAGAACAGTGCCTTAATTTTGATTGATTTTCAGCCTCAAATGACTTTTGGAGTTGCAAGTATTGATAGACAAACATTGATTAATAACGTTATGCTGCTTGCTAAATCAGCAAAAACTTTTAACGTACCTACTATTCTTACTACAGTTGAAACACGCAGCTTTTCTGGTTATTTTTGGCCGCAAATTCTTGACATATTCCCAAACCATGAAATTATAGAACGCAGTTCAATGAATTCTTGGGAAGATCCAAAATTTGTTGAAGCAGTTAAAGCAACAGGTAGAAAGAAATTAATATTTGCAGCACTTTGGACTGAAGTTTGCCTTGCATTCCCTGTGCTTGAAGCAATTAAAGCTGGCTATGAGGTGTATGCAGTTGATGATGCTTCAGGTGGTACTAGTTTGACAGCACATAACGCTGCTATGCGTCGTGTAGAACAAGCTGGTGCAATTCCAGTGACAGCAATTCAAGTTTTACTTGAATACCAACGTGATTGGGCACACAAAGACACTTATGATGCTGTAATGGAGATTGTAAAAGAACACACTGGCGCTTATGGTCAAGGTGTAGAATACGCATATACTATGGTTCACGGCGCGCTTCCAAGCAGAAAAATATGA	MSNLELLNPENSALILIDFQPQMTFGVASIDRQTLINNVMLLAKSAKTFNVPTILTTVETRSFSGYFWPQILDIFPNHEIIERSSMNSWEDPKFVEAVKATGRKKLIFAALWTEVCLAFPVLEAIKAGYEVYAVDDASGGTSLTAHNAAMRRVEQAGAIPVTAIQVLLEYQRDWAHKDTYDAVMEIVKEHTGAYGQGVEYAYTMVHGALPSRKI				NA	NA	NA	NA	NA
AK009_01701	594			hypothetical protein	ATGAAACTAGAAGGAGTAGCTGTCGAAGAGACTCATACAGAGAACACAATGGATGCTGCTAATCCAGTAACAACGATTGTTACATGGGAAATTCAACAGGGTAAAGAAAAACAGTTTGAAACATGGAGACATGAAATTGAGGCTGCGGCTACTAAATTCCCAGGACATTTAGGTGTAAATCTAATAGTCCCAAGTAACGAATCCAGAGAGTATACTGTTATTTTTCGCTTTGATACGTATGAGCATCTACGTGCTTGGCAAGAATCAGATGTTCGCCGGGATTTGTTAAAAACGGCCGAGCAATTTCAAGCCACTAATCCAACTTACAAAACTGAAAGCAGTTTGGCTTATTGGTTTGTTACTCCGAAAACGCCAGTTCCACCGCCAAAATGGAAAATGTCTATCGTTACCCTTTTGGGTGTATGGCCTCTTAGCATGTTAGTTCCTAAATTGATAGGACCTATTATAAAACATATGAATCCTATTATGTCAGCTTTTTTTGTTTCTGTATGTATAGTGTCCTTGCTATCATGGGTAGTCATGCCGATTTTCGGTAAATTATTTCATCCATGGTTACAAAATAATAGAAAGTAG	MKLEGVAVEETHTENTMDAANPVTTIVTWEIQQGKEKQFETWRHEIEAAATKFPGHLGVNLIVPSNESREYTVIFRFDTYEHLRAWQESDVRRDLLKTAEQFQATNPTYKTESSLAYWFVTPKTPVPPPKWKMSIVTLLGVWPLSMLVPKLIGPIIKHMNPIMSAFFVSVCIVSLLSWVVMPIFGKLFHPWLQNNRK				NA	NA	NA	NA	NA
AK009_01702	1836	nfdA_1		N-substituted formamide deformylase	ATGACTTTACCGGATATGATCTTATATAACGGAAAAATTACTACCCTTGACCCTTCTCAACCTGAGGTATCTGCTATCGCCATAACTGATGGTTTAGTCACTGCAGTAGGTGGAGATGAGCTTCTTAATAGTGCCACGGAAAAAACAAAGAAAATAGACCTTAAAAGAAAGAGAGCTATTCCAGGCCTGAATGACTCTCATATACACGTTATTCGTGGTGGTCTACATTATAATATGGAATTACGTTGGGAAGGCGTGCCATCACTTTTTATTGCTCTAGAAATGCTCAAAGAACAGGCAAGGCGTACACCTGCTCCTCAGTGGGTAAGAGTAGTTGGAGGTTGGTCTGAATTTCAATTTAAAGAGAGACGGTTGCCAACTTTGGAAGAAATTAATGCCGTTTCTGAACACACTCCTGTCTTTGTGCTACATCTTTACGATAGAGCACTTGTAAATCGTGCAGGGCTGCATGCACTGGGATATACGAAAGATACACCAGACCCTCCAGGCTGCTTAATTGAGCGGGATAAACGAGGTAATCCAACAGGCCTTTTAATTGCGAATCCTAACGCTTCTATTCTTTATTCAAGTTTGGGTAAAGCACCAGTACTTAATTTTGACGACCAGATTAACTCAACTCGCCATTTTATGCGCGAATTAAATAGATTAGGTATTACAAGTGCTATTGACGCAGGTGGTGGATTCCAAAATTATCCGGATGATTACAAAGTTGTTGAACATTTAGCCGAGAAGGAACAATTAACTTTGCGTATTGCTTATAATCTATTTACGCAAAATCCAAATCATGAATATGAAGACTTTGCTTCATGGGCAAAAATTGTTTCTCCAGGTCAAGGAAGTGATAAGTATAAAATGAATGGTGCCGGAGAGATGTTAGTATTCTCAGCAGCCGATTTTGAAAAATTTCAAATGCCACGGCCTGAACTAGCTACGATGATGGAAGCTGACTTAAAGAAAGTAATTTCTCTATTGGTGGAAAACCGTTGGCCCTTCCGTTTACATGCAACTTATGATGAGTCAATCACACGTTTCTTAAATGTATTTGAGGAAGTTAACAGTGAAATTCCTTTTAATGGTCTACGATGGTGGTTTGACCATGCAGAAACAATCTCAGATCGTAGTATGGAACGTGTTAAGGCTTTAAATGGCGGTATTGCCATCCAAGACCGCATGGCTTTTCAAGGTGAATACTTTGTTGATTTATACGGAAAGGAAGCTGCAAAGCGTACTCCTCCGATTTATCGTATGTTAGACCTTGGTATACCTGTTGGCGCCGGTAGTGATGCAACTAGGGTTTCCAGCTATAACCCTTGGGTTGCCCTTTACTGGATGGTTGCCGGAAAAACCATTGGTGGGCTTTCCATATACGATGAAAAAAATAAACTTGATAGAAAAGTAGCCCTGGAATTATATTCAAAAGGAAGTGCGTGGTTCTCTGATGATGAAGGTAAAAAGGGAACCCTGGCAGTAGGTCAGTTTGCTGATCTTGCTGTATTGTCTGCTGACTACTTTACTGTGCCAGAAGAAGAAATCAAAAACCTTGAATCATTACTCACCATTATGGGTGGGCAGGTTGTTTATGGAAATGATGAATTTAAAAATTTATCACCTGAATTGCCGCCAGCATCACCTGATTGGTCACCGACGGGCGTTTATGGTTATGGTGGTGCTAACCTAGCCAACACTATACTTTCCCACGATTCCCATGATAACAAGTTACATAGTTGCAGTAACCCTCTCCATCAACACACTCATACCGTAATAGGAAAAGATGGAACTACATGGGGTATCGGTTGTACTTGCTTTGCTTTCTAA	MTLPDMILYNGKITTLDPSQPEVSAIAITDGLVTAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGGLHYNMELRWEGVPSLFIALEMLKEQARRTPAPQWVRVVGGWSEFQFKERRLPTLEEINAVSEHTPVFVLHLYDRALVNRAGLHALGYTKDTPDPPGCLIERDKRGNPTGLLIANPNASILYSSLGKAPVLNFDDQINSTRHFMRELNRLGITSAIDAGGGFQNYPDDYKVVEHLAEKEQLTLRIAYNLFTQNPNHEYEDFASWAKIVSPGQGSDKYKMNGAGEMLVFSAADFEKFQMPRPELATMMEADLKKVISLLVENRWPFRLHATYDESITRFLNVFEEVNSEIPFNGLRWWFDHAETISDRSMERVKALNGGIAIQDRMAFQGEYFVDLYGKEAAKRTPPIYRMLDLGIPVGAGSDATRVSSYNPWVALYWMVAGKTIGGLSIYDEKNKLDRKVALELYSKGSAWFSDDEGKKGTLAVGQFADLAVLSADYFTVPEEEIKNLESLLTIMGGQVVYGNDEFKNLSPELPPASPDWSPTGVYGYGGANLANTILSHDSHDNKLHSCSNPLHQHTHTVIGKDGTTWGIGCTCFAF				NA	NA	NA	NA	NA
AK009_01703	879	cynR_2		HTH-type transcriptional regulator CynR	ATGGAATTACGTCATTTAGAGTATTTTATTCAAGTTTGTAATAATAATAGTTTCACTAAAGCTGCGGAAGTTCTAGGTATTTCACAGCCGACTTTAAGTCAACAAATCCGTGTTTTAGAAGGGGAACTTGATACACCCTTGTTTCATCGAGTTGGAAGAGGTATCAAAATGACAGAAGCGGGTAAGCTGCTATTTGATAAAGGAAAATTTATCATGCAACAATTTGATGACGTGTATAATGAAATTTTTGAATTAAAGGGTGTAAAAAGAGGTGTGATTACTATAGGAGGTTTATTAGAGGATCTCACTTATTTAACACCTTATATTATGAAGTTTCAACAACATTATCCCAACATTGTAGTAAAGATTATAGAATCCGAAGTTGCTGTAAATCAAATCGTTGACAAAAATATTGATTTCGGGATTACACGTAGTGCTCAAATTCCAGACATATTAACAAGCACCCTTTTGTATAGTGAAGAGCTCGTCCTTGTAATTCCAAAAAATCATCCTTTGAATGAAAAATCATTTGTTTCTTTTCGAGAATTAGTAGGGCTGAGTAGAATAATGGTTTCATGTAGTTGTCGTGAATCTATTAAGATATATTGTGAGAGTTTAGGGTTATCTTTATCTGAAGCAAATATAGAAACAAAATCTTCTATTTCTCTATTGAGCCTTGTATACAATGGACATGGGGTTGCCATAATACCTCTTTCACTGGTTAACTTTGTTAATAATGATACTTTGAGCATAGTTCGTATTACTGATCCAACACCAAGCCAAGATATTAATCTTATTCACTTTGATGATAAATTTTTAAGTTTTGCAGCACGTATCTTTATGCAGAAGTTAAATGATTCGCAAAAAGTATCAGTGTAA	MELRHLEYFIQVCNNNSFTKAAEVLGISQPTLSQQIRVLEGELDTPLFHRVGRGIKMTEAGKLLFDKGKFIMQQFDDVYNEIFELKGVKRGVITIGGLLEDLTYLTPYIMKFQQHYPNIVVKIIESEVAVNQIVDKNIDFGITRSAQIPDILTSTLLYSEELVLVIPKNHPLNEKSFVSFRELVGLSRIMVSCSCRESIKIYCESLGLSLSEANIETKSSISLLSLVYNGHGVAIIPLSLVNFVNNDTLSIVRITDPTPSQDINLIHFDDKFLSFAARIFMQKLNDSQKVSV				NA	NA	NA	NA	NA
AK009_01704	444	mhqR_2	COG1846	HTH-type transcriptional regulator MhqR	ATGAGTGTGATTAATGATGAGAGCTTATCTTTAAAGTTATTTGTTACATTATCAAGGGCAGCACAGGCAATTACTAAGCGTATTGAAGAGGATATAAAAAGTTATGGACTTAATCCAACTGAATTTGCAGTGCTTGAGCTACTATATAGTAAAGGCGATCAGCCTATACAAAAAATTGGAGGGAAAATATTACTTGCAAGTAGTAGTATCACGTATGTAGTGGATAAGTTGGAAAAGAAGAGGTTCTTAATACGAAAACCATGTCCAAAAGACCGCCGTGTCACGTATGCGTCAATTACTTCAGATGGTATTCAGTTAATGGATAGTATTTTTCCTCAGCATAAAGAGGCGATTCGGCATATATTTGGTGGTTTGGACTATATTGAGAAAAAAATGATAATCGAAAAGTTGAAAAAATTAGGGTATTATGCACTCGAACTATAA	MSVINDESLSLKLFVTLSRAAQAITKRIEEDIKSYGLNPTEFAVLELLYSKGDQPIQKIGGKILLASSSITYVVDKLEKKRFLIRKPCPKDRRVTYASITSDGIQLMDSIFPQHKEAIRHIFGGLDYIEKKMIIEKLKKLGYYALEL				NA	NA	NA	NA	NA
AK009_01705	951	corA_1	COG0598	Magnesium transport protein CorA	ATGGAATGCATAAAAATGACGAAATGGAGTTGGTATCATGTGAAAACTAGTGAGCTTGAAAAACTTTCTTCTATAATCCCTCGTGATGTAACATCTTATTTCTCTCAATTTGTAAAGAAAATAAGTTCTCCTTGTGAAAATGGATTATATGTTTATACGTTATCACCAAGTCAAACTTGTGTATATGGTTCGTTTTTATATGATCAAGATAAAAAGGATGCCAAAATTCAAAAATTTATTCATTATTTCGTAGCTCATGGAATACTGATAACAGTCCAGGAAAAAGAGGAAGAGGATTTCCAAAAATTAATACATAATTTTCCTATGGGTATAAAAAATTGTAATAGTTCCGCTGAAGGAGTATGTGCTATCTTATCAATATTTATATCTCACTATTTACGAAAGGTTGACTATTTTGAAAACAATTTCAGAAATGTATTATGGGATTTTTATCATCATAATAACATAGCAGTTTTAGAAAGAATTTATCATATTCGTCATGAATTATTTATGAACACACATGTGTTTCGCTTAATACAGGAAGTGTTACAAGGCTTGGAGGAAGCTTGGTTAGAAAACTTAACAAACACCCTTTGTTATAAACAAACACACGTAAAATTAGAGCGTGGATTACAACTTGTTAAAGAGTACCAAGAAGAATTAGACACGATGATTCATTTACAAGAAGTTGTTTCTTCTCATCGTGGGAATGAAATTATGAAAGCTCTTACTGTATTAACTGCTGTGAGTACGCCTTTGACAGCTTTAGGAGCATTATGGGGGATGAATTTTAAATACATGCCTGAACTAGAATGGAAATATAGCTATTTAATCGCTCTCTTATTTATTATTTTCACAACGGTAGGTATGTATATGTATATGCGATTCAAAGGGTGGACAGGTGATTTATTACGAGTAAAGAAAAAGAAATCTTTTTTTAAATCTAATTAG	MECIKMTKWSWYHVKTSELEKLSSIIPRDVTSYFSQFVKKISSPCENGLYVYTLSPSQTCVYGSFLYDQDKKDAKIQKFIHYFVAHGILITVQEKEEEDFQKLIHNFPMGIKNCNSSAEGVCAILSIFISHYLRKVDYFENNFRNVLWDFYHHNNIAVLERIYHIRHELFMNTHVFRLIQEVLQGLEEAWLENLTNTLCYKQTHVKLERGLQLVKEYQEELDTMIHLQEVVSSHRGNEIMKALTVLTAVSTPLTALGALWGMNFKYMPELEWKYSYLIALLFIIFTTVGMYMYMRFKGWTGDLLRVKKKKSFFKSN	PGPT0014010_4610	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK009_01706	1026			hypothetical protein	ATGAAATCTCTGTATGCAATTGATGTAGGAATTGGCTTTACCAAGCGGGCATATCGACAGGATGTAGATTCTGAGATGACGATTAAGAGTGAAGCTTCCACACTAGCCCCTGTACCTAATCATACTGACAGTGAAGATTTAACAAAGGTGAGTTTTATAGACTTAGACTTTGCATACTACATGGGAAATGAAGCACATCAATCTGACGCTTCATTGCTTCCTCCATTTAATGAAGAAATAGAAAATTATTATGAAAGCGAACGTTTTAAACAACAAATATTTGGTTGCATTGCAAAGGATTATAAAGAAAATGTCGTGTTACCTTTAGTTGTTACCGGGCTTCCAGTCACTTGTTTTGGTAGTCAGCACGAGCAATTACAACATGCACTAAAAAAAGAAACTTCCGTGCAAATTGATGGGAAATTTATTAATATTACGGTGGAAAATGCTTTGATTCTTCAGCAACCAGTCGCTTTACATGCCTATTTCTTAAAAGAGGGAATTATTCAGGAACAAGATCGCATCTTAATTATTGATGGTGGATTTCGTACATTAGAAATGGCAGATATGAAACAGAATCTCATTTTAAATCATTATGAGACGGAACTAGGATGTAGCAAGCCTTTGAAAAATATTAAGAATATCCTGCAGAATCATGCGGGTGAAAGTAATCAATTGCATATTAACGACATGCCAAAAATATTAGAAAAAGGATATGGAGATCGAGACGAAAATTATGAGACAAGTCAGGTGGATATTTTAATTCAAAAAGAGTTGGATGCACACTTCCAAGACGTCATGCGTGTATTACAAGAACAATTTAAGTTAGACCAGTATGATACTATTATTTGGACCGGAGGAATAGTAGATATCCACAAAAAACGAATTGAAAAAATGCAAGGTGAAATTGCTTCTTTCCGTATGGTAGACGCTTCAAAAGAGGCCGCGCTTCATGGATACTATATTATTGGGAGTCAAGTATTTGAGGACATCACCAATCAATCTGCACAAAAATCCCAATTATAA	MKSLYAIDVGIGFTKRAYRQDVDSEMTIKSEASTLAPVPNHTDSEDLTKVSFIDLDFAYYMGNEAHQSDASLLPPFNEEIENYYESERFKQQIFGCIAKDYKENVVLPLVVTGLPVTCFGSQHEQLQHALKKETSVQIDGKFINITVENALILQQPVALHAYFLKEGIIQEQDRILIIDGGFRTLEMADMKQNLILNHYETELGCSKPLKNIKNILQNHAGESNQLHINDMPKILEKGYGDRDENYETSQVDILIQKELDAHFQDVMRVLQEQFKLDQYDTIIWTGGIVDIHKKRIEKMQGEIASFRMVDASKEAALHGYYIIGSQVFEDITNQSAQKSQL				NA	NA	NA	NA	NA
AK009_01707	402			hypothetical protein	ATGAAACATACTATATTTAAATATGCTGTGATTGGGATTACGACCGGAGTCATCGTCTCCCTATTAAAAAAAGAAAATCGGAAAGCTATACAAACAAAAGGAAAAAGCGTAAAAGAAAAACTACAAGAAGGAAACATAAAGGAAACATTGGAGAAGGTAACTGAGACAAGTAAACAATTCTCTGCAACTGCAGCTAATGTTGCAAAACAAACATTACCACAATTGCTTACAGCCACACCAGTTGTCATTTCTACCATTAAAGACTTAACAGAAAACGAAAGTAACAAAAAGAAAAAAGATGAAAAGGATTACGAAATAAATGAAAATAGTAGGAACCTAGACGGAGAAAAAACGAAAAATGAAAAGAAATATGTGAAAGAAGGGAAAGAAGAGAGTGCCTAG	MKHTIFKYAVIGITTGVIVSLLKKENRKAIQTKGKSVKEKLQEGNIKETLEKVTETSKQFSATAANVAKQTLPQLLTATPVVISTIKDLTENESNKKKKDEKDYEINENSRNLDGEKTKNEKKYVKEGKEESA				NA	NA	NA	NA	NA
AK009_01708	387	yflT_1		General stress protein 17M	ATGCACAAGAATGAAAGAAAACCGGTGGTTCATGAATATGAAAATGAACAGGAAGTAGTTATGAAAGTAAAAGAGCTAGAATTGCAAGGGATTCACCAAGATGACATGTATGTCTTAACACATGAAAAACATCTAACAAAAAAGATTGCGGATGATACAAACACAAATACGATTGGAGTAAAAGAACAAGGATTGGGAACAAGTATTATCAACTTTTTCTCCAAAAAAGGGGACGAACTTCGAAATCAAATGGAAGAAATGGGATTGTCGAAGGAGGAAGCTAACTTATATGAAGAAAAACTAGATCAAGGGAGGATTTTACTCCTAGTAACAGCTGAAACACCAATGGCGAGTGATAGGAAGTCGCAAACCTATCATTCTCTCTAA	MHKNERKPVVHEYENEQEVVMKVKELELQGIHQDDMYVLTHEKHLTKKIADDTNTNTIGVKEQGLGTSIINFFSKKGDELRNQMEEMGLSKEEANLYEEKLDQGRILLLVTAETPMASDRKSQTYHSL	PGPT0014649_34	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK009_01709	1539			hypothetical protein	ATGGGTAAGAAAAGAAGAACAAGTAATAAGTTATTACTTGTTAGTGCGATTTTTTCAATAACAATTCCCTCAGTCTCATATGCGGAGGAAGTAATTTTACCTGAAAATTTTACGAGTTCTTCAAGTTTGTATGAGGGACGGAATACGGAAGTATTGAAAACAGGATTATATCCTGATACATATAATTATCCGTTTAACCATCAATTTATTTCGAAATTAAAGGAAGCAAACACAACTATAAAAAAAGTAGACAATAGTGATGATGAAAATCCTATTATATCTACTACTCTTTCATTTATTCGCCATATGAATAGTGAAGATTATAAATCTGCATTTGATTTAACCTCAAGGTCATTACAGAAAATAATATCCGAAGAATGGCTGAAGAGCTATTGGGAGGGACTCCCAGTTCAATTACAAGCAGGTTCTTTTATAGAAATTGGAGAGGTTACACAAAAAGAGACAAATCCTGTTCATACAAATGTGGAGATTCAATTAGTTTTTGAAAAAATGACTGTACCTTTACTAATTAAACTAGATCCATCTGGAAAAATAGACGATTTTCAACTCAGCATGTCGTTTAGTCCTGTTGCTGAGCGTCCGTCATATAGTAAGCCTGAATCATTTGTTGATAAAGAAGTAGTAGTTGGAAGTGGTGCATTTCCATTACCAGGAACATTGTCGGTTCCAAAAGGAAATGGTCCTTTTCCAGCGGTTATTCTTGTTCAAGGATCAGGAGCAACTGATCAGGATGAAACAGCGTTTGCTTTAAAACCGTTTCGCGATTTAGCTGAAGGTCTTGCATCGAAGGGAATTGCTGTCCTTCGCTATAATAAAAGAACTTATGAACATGGGTTGAAAACACAATTTAGTCCCTTTTATACAGTTGATAAAGAGACAACAGATGATGCTCTTCTTGTAACTCAATTTCTTAAAAATGAGCCTCTAATAAATAAAAATCAAATTTATATTTTGGGTCATAGTCAAGGTGGAATGATGCTTCCGAAAATGATTGAAAAAGACCAAAATAAAAATATTGCTGGAGCAATTGTAATGGGAGGGCCAGCTCGTACGATCCAAGACGTTGTTTTAGATCAATTTGAGTACCTTTTCTCTATTGGAGCAATGAACCAGGAGCAATATAAATTCTACAAATCGCAATTTGAATTATTAAATGATCCAAATTTCTCTGGTCAGAATCCTCCAAAAGATTTTTACTTAGGATCAGCAATATTTTGGGATTCTATCCGAAAAATTAAAGCAGCCGAAATGTCAAAAGAACAAAAGACACCGCTTCTTATTATTCAAGGGGAAAGAGACTATCAAGTTCAATCAAAAATCGAAATTCCTCTTTGGAAAGAACAATTAAAAGAACGAGATAACGTCGATTATCGACTATATCCGAAGTTAAATCATTTCTTTACAGAAGGTGATGGAGAAATAAGTAAACCGGATGAATATTATAGTCCTGCTAATATCCCTGAGTATGTTATAAATGACATTGCTGCTTGGGTGCAAGGAAGATCGCAATTAAATTAG	MGKKRRTSNKLLLVSAIFSITIPSVSYAEEVILPENFTSSSSLYEGRNTEVLKTGLYPDTYNYPFNHQFISKLKEANTTIKKVDNSDDENPIISTTLSFIRHMNSEDYKSAFDLTSRSLQKIISEEWLKSYWEGLPVQLQAGSFIEIGEVTQKETNPVHTNVEIQLVFEKMTVPLLIKLDPSGKIDDFQLSMSFSPVAERPSYSKPESFVDKEVVVGSGAFPLPGTLSVPKGNGPFPAVILVQGSGATDQDETAFALKPFRDLAEGLASKGIAVLRYNKRTYEHGLKTQFSPFYTVDKETTDDALLVTQFLKNEPLINKNQIYILGHSQGGMMLPKMIEKDQNKNIAGAIVMGGPARTIQDVVLDQFEYLFSIGAMNQEQYKFYKSQFELLNDPNFSGQNPPKDFYLGSAIFWDSIRKIKAAEMSKEQKTPLLIIQGERDYQVQSKIEIPLWKEQLKERDNVDYRLYPKLNHFFTEGDGEISKPDEYYSPANIPEYVINDIAAWVQGRSQLN				NA	NA	NA	NA	NA
AK009_01710	366			hypothetical protein	ATGAAGAAATTTGTAATTTGCATACTAGGAATAGGCCTCCCTATATACTTACTACCTTTCATATTACGCGGAGATTTAGACAGATTTAATCCGATTGCTGAAGAAAAGAATGTATATGCCGTTGCGAAAGGATATGGTGTTCCAGATTATCATCATAAAGGAAGAGCTATGTACTCACTAAAAGGTGTTGATGAATTAAGCAATGAAAAAGAATATAAAGTTGGAACGAACACGCCTAATGATTTTACAAGAAAAATTTACTTAAAAATTCATGTGAAAGGTAAGTATGTCTATTCCTACGATATTATTTCTGAAAAGGACATTCCAGAGAAAATAAGGGGACAATTGGAGATAGCAAAGAAATAA	MKKFVICILGIGLPIYLLPFILRGDLDRFNPIAEEKNVYAVAKGYGVPDYHHKGRAMYSLKGVDELSNEKEYKVGTNTPNDFTRKIYLKIHVKGKYVYSYDIISEKDIPEKIRGQLEIAKK				NA	NA	NA	NA	NA
AK009_01711	711			hypothetical protein	ATGAAGAAATGGATGAAAATTGTTCTGTACTCTTTACTTGGTATTTTACTTATAGGGAGTATTACTTTTTTTACTTGGTCCCAGTTTACTTACAAACCAACGAAAGAGGCTTTGTCGTTAGTGGATGATAAAAAAGATGAAGATAATATAGTTTTTGGACAGAAAGATGCTAAAATAGGGGTTATTTTTTATCAAGGTGCTAAAGTAGAAGCTGAAGCTTATAGTTACTTAGGAGAAGCTCTTGCAAAAGATGGGCATTTTGTAGTAATGCCTAAGTTACCATTAAACTTAGCGATACTTGGAATCAATGCGGTAGATAGTGTAATTGAACAGTACCCTGAAGTTCAAAAATGGTACGTTGCTGGACATTCAATGGGCGGAGCTATGATTTCTAAGTATGCCTTTCAGAATGAAGACAAGGTAGATGGGATCATTTTCTTAGGCTCTTATCCTGCAGATGATTTCTCTACAAAATCGATTCCAATGTTATCTATTTATGGAGAAGTAGATGCTTTAGCAACTGTAGAAAAAATAGAGAACAATAAAAAGTTAATGTCAAAGAATACAACTATGCACATGATAAAAGGCGGAAACCATGCTCATTTTGGCATGTATGGTGAGCAAAAAGGTGATAATGCAAGCTTAATTACGTCAAAAGCACAACGGGATGAAACAGTTAAAGTAATTGAAGAATGGTTGTTAAAACAATGA	MKKWMKIVLYSLLGILLIGSITFFTWSQFTYKPTKEALSLVDDKKDEDNIVFGQKDAKIGVIFYQGAKVEAEAYSYLGEALAKDGHFVVMPKLPLNLAILGINAVDSVIEQYPEVQKWYVAGHSMGGAMISKYAFQNEDKVDGIIFLGSYPADDFSTKSIPMLSIYGEVDALATVEKIENNKKLMSKNTTMHMIKGGNHAHFGMYGEQKGDNASLITSKAQRDETVKVIEEWLLKQ				NA	NA	NA	NA	NA
AK009_01712	456	tspO_1	COG3476	Tryptophan-rich protein TspO	ATGAAAAAATCTAGTATTATAGTATTTTTACTAACATATGGTTTGTTTTATGTTTCTAGTGTTTTATTCCCTATTAATCGTACTTGGTATGATGCGTTAGAAAAGCCGTCTTGGACACCTCCTGGTATGACAATCGGAATGATATGGGCTGTATTATTTGGACTTATTGCATTATCAGTTGCAATTATTTACAACAACTATGGATTCAAGCCAAAAACATTTTGGTTTGTATTCCTTTTAAATTATATATTCAATCAAGCATTCAGCTATTTTCAATTTAGCCAAAAGAATTTGTTTTTAGCAACAGTAGATTGTTTACTAGTCGCTATTACTACGTTACTTCTCATTATGTTTTCTTCCAATTTATCTAAAGTATCGGCATGGTTGCTAATCCCTTATTTTTTATGGTCTGCATTTGCTACATATTTATCTTGGACAATTTATAGTATAAATTAA	MKKSSIIVFLLTYGLFYVSSVLFPINRTWYDALEKPSWTPPGMTIGMIWAVLFGLIALSVAIIYNNYGFKPKTFWFVFLLNYIFNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSAWLLIPYFLWSAFATYLSWTIYSIN	PGPT0014330_2070	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
AK009_01713	1431	phrA_1	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCAAAATAAAATTATCGCTATGTTTCAAAAAGATTTTCGTTTATATGATAACCCAGCGCTATTTGAGGCTGTTCAGTCCGGTGAGGTTCTTCCGGTATATGTACAAGATGAAGATTTTTTAATGGGGGAGGCGTCAAAGTGGTGGTTGCACCATGCTGTAATAGATGTAAAGAAGCAACTTGAGGCATTGGGCTCTACTTTAATAATTCGTAAAGGACGTACGGAGGAAGAAATACTTTCTCTCATAGAACAATTAGATATAACGGCTGTATATTGGAATATTTGTTATGATCCGGACAGATTACAATCTAATCAAAAAATGAAAATGATGTTAGAGGATAAAGGTATTATTTGTAAGGAATTTAATTCGCATTTATTATTAGAACCGTGGATTATAAAAAAGAAGGATAACACTGAATATAAGGTGTTTACGCCTTTTTACAATGCATTTCAAAAGCAGGTAATACCTAAACCTATTAGCAAAGTGCAGAGTATAAAATGGGGAAGCTCTTTACCAGCAAGCTTATCTGTTTCAGAATTACACTTGCTGCCAACTATACCGTGGACATCTCATATTGAATCAATATGGGAGCCTACAGAGGAAGGGGCATACAAAACATTCAAGAAATTTTTCTCTAGCAAATTAGCCTCTTATAGTGAAGGAAGAGATTTTCCAAATCAAAATGCTCATTCGATGTTGGCGCCATATCTTTCATTTGGCCAAATATCAGTGAAGTTAATGTATCATTACTTAATAAATAAAAGTACCGAAAGACAATGTAGTCTTTTTGAAAAACAAGTGAATAGTTTTATACGCCAATTAATTTGGCGAGAGTTTTCTTATTATTTGCTATATCACTATCCGTTTACAGTATATAAACCTCTTAATAAAAACTTTGAACATTTTCCGTGGAATAAGGAAGAGGAGTTATTAAGAGTATGGCAAAAAGGTGAAACTGGTTATCCGTTTATTGACGCGGGAATGCGGGAGCTTTGGCAAACAGGTTTTATGCATAATCGGACAAGAATGGCTGTAGCCTCTTTTCTTGTAAAGCATTTGTTAATTCCGTGGCAAGAAGGAGCAAAATGGTTTATGGATACACTACTAGATGCTGATATTGCAAATAATACAATGGGATGGCAATGGGTTGCTGGAAGTGGAGCAGATGCATCACCGTACTTTCGTATTTTTAATCCTATCACACAAGGAGAAAAGTTTGATAAAAATGGAGAGTATATAAGAAAATGGGTACCAGAATTAAGAGATATACCGAATAAGTATATACATAAACCTTGGGAAGCACCTGAGCATATTTTACAAAAGGCCAATATAGAGCTTGGTAATACATATCCTTTGCCAGTCGTTGATCATAAGGCAGCAAGAGAGAGAGCACTGTGTGCATATAAAAGTATGAAAGAGTTCGTATAA	MQNKIIAMFQKDFRLYDNPALFEAVQSGEVLPVYVQDEDFLMGEASKWWLHHAVIDVKKQLEALGSTLIIRKGRTEEEILSLIEQLDITAVYWNICYDPDRLQSNQKMKMMLEDKGIICKEFNSHLLLEPWIIKKKDNTEYKVFTPFYNAFQKQVIPKPISKVQSIKWGSSLPASLSVSELHLLPTIPWTSHIESIWEPTEEGAYKTFKKFFSSKLASYSEGRDFPNQNAHSMLAPYLSFGQISVKLMYHYLINKSTERQCSLFEKQVNSFIRQLIWREFSYYLLYHYPFTVYKPLNKNFEHFPWNKEEELLRVWQKGETGYPFIDAGMRELWQTGFMHNRTRMAVASFLVKHLLIPWQEGAKWFMDTLLDADIANNTMGWQWVAGSGADASPYFRIFNPITQGEKFDKNGEYIRKWVPELRDIPNKYIHKPWEAPEHILQKANIELGNTYPLPVVDHKAARERALCAYKSMKEFV				NA	NA	NA	NA	NA
AK009_01714	513			hypothetical protein	ATGAATTCAAAGAATAAAAAAGTTTTATTATTAACAGACATTGAACACGGAATAGAGCCTAGCATCCAACAAGTAACTAACATTCAACAAGAAAACATGTTGACTATACACAGCTATGATTCTGTAATTGTACATCCTTATGGAGATATAATGAGATCTATTATTATTGCTATTTATCAAGAAAATGTTGAAGAAATTTTTGTTGTAGGAATAGAGGATAAAGAAACTTCTCCAGTTAATCTACAAATTCAACGTGATTTCATAAAAAATAACAGGGAACTAGACTATCTCTTTGAAAATTGCATGCCTGAATTTTCAAGTGGTAGCCTCGATGAATGGCTAAGTGGAAAAGAAAATGTTAGTGAAAATATTGAGAAGAGTATAGATATGATTTGTCATCATCCACTAGTACCGTCTGATGTTAAAGTTCATGGTTTCAAGATTGATAGAATAGGGGAAAAAGAAACGGTTGTTAAAATTCCTACTAATAAAATAGTTGAAAAAGTTAACTAA	MNSKNKKVLLLTDIEHGIEPSIQQVTNIQQENMLTIHSYDSVIVHPYGDIMRSIIIAIYQENVEEIFVVGIEDKETSPVNLQIQRDFIKNNRELDYLFENCMPEFSSGSLDEWLSGKENVSENIEKSIDMICHHPLVPSDVKVHGFKIDRIGEKETVVKIPTNKIVEKVN	PGPT0002415_7486	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK009_01715	2607			hypothetical protein	ATGAGCATATTGTCAATATTAAAGAAAGATACAAATATTGATATGCAAGAAAATAATATAAATGATTTAGTTGCATCTGCTAGCCGAGTGATTGCACCACTTTGGCCTATCTCTACGTTTGCAGCTCACCACCCTTGGATGGGACTTGAAAAACAATCATTTGAACAAGTTGCAGATTGGTTAAAAGAAATTCGTAATGTGGATATATATCCGAGTGCTGCTATGATTCATTCGGCAAAGGCAAAAGGGGAGATTGAGGAATCATTTTTACAAAGTGGCTTGTCTCGTTGGCTTGATTCACAATCTTTTCATATCCCGCGAAAGAAAGTGGAGCAGTTTTGCCAAGTAGCTTTAAAATTAGAGGAATTACCTTCTAGTCTATTATCATTGCCAGAAGTAAATAAACTGGCAGAAGAAATGAGTTATATAAATACAGAGAGTATGAAAGACTCTTCTTTGCAACCTGTAAGTTCACTTATAGAGAACCAAAAGGGTGAAAACCTATCTGATATTCTTAATTATCATATCATTAAATGGTGTAAATTATATCTTGATGACTCCGGATCAAGTTGGACGATGCCAAATCGAGAGAAAGGTTTTTATCGTGCATGGCAACACCTTATTAAATTTGATCCAGCGCTCAGTAAAAATGAGCGTAAAGTTTTAAAAGATTGGCCACAAGATGCCCAAGTAGCTTTAGCGAGAGCATTATCTGAACTAGGAATTTCTGAATCTAACATACAAGCTTACCTTGAAGGGCACTTACTTTCTTTGCCTGGGTGGGCAGGAATGATACGATGGCGCTCACAACAATCAATTCAGGAACAGGAACTCCTAATAGAATATTTAGCAGTTCGAATTTCTATGGAGCTGGCTATTACAAAGCCTTATTTACCTTTAAAAAATCAAAAGGTTGAGAAAAAAGTTGCAATCGTCCCGCTTATAGCTTCTTGGATCTATTGGGGGAATATTTCAACACGGGAATGGTTACAAATGCCTGCTGCTGAACAAAGTGAATTATTAGTATTCGCTTATCGTTTTGATGAAAATATTCGTAGGAAACTTTGGCTGGAAGCTTGGGAACAGACGCATGCAGAGCAATTAAGGAAGAAGATTGCTTCTAAACAACGTGCAACTAATGATAAAAAGCGTGTATTAGCTCAATTAGCATTCTGTATTGATGTACGTTCAGAACCGTTTCGTCGCCACCTTGAAAAATTAGGTCCGTTTGAAACATTTGGAATAGCTGGTTTCTTTGGATTACCAATTGCAACTAGTGAACTAGGTAGTAATAACAACCATCCTTCTTTGCCAGTTATACTCAAACCGAAACATCAAATAAAAGAGCTCACAAATGAAAATGAACTTAAATCTTATGAGCAACGTAAGAGGGTAGGCAGTTCGGTACGTTATACATTTAAAACGATGAAACAGAACGTACTGACGAGTATGGCGCTACCTGAGTTAAGTGGTCCTTTATTTGGTCTACAAATGGTGACAAGAAGCTTTGTCCCAAGAGGAGTTGGTGGTTTCATTCGTAACCTTCGTAAAACTATGTTACAAAAACCTGATACAACATTCTCCCTTAATCATGTTCATGACACAAAAGGTGAGATACCTATTGGTTTTACGAAAGAAGAAAAAGTGAATTATGTGCGTCAAGCTTTAAAAATGGTGGGACTGACAGAAAAATTTGCTCCTTTAGTTGTAATGTGCGGACATAGTAGTCAAAGTACGAACAATCCTTATGCGGCAGCACTTGAGTGTGGTGCTTGTGGCGGAGCAGCAGGAGGATTCAATGCAAGAGTTTTTGCGACTTTATGTAATCTTCCAGAAGTGAGAGAGGCGTTGTTTGCTGAAGGTATTAAAATTCCTGAGGATACCATTTTTGCAGCAGCTGAACATAAAACAACAGTGGACGAATTGGAATGGATTTACGTCCCAAAACTTTCGAAAACTGCGCAAGAAGCGTTTGATTGTATTGAGACGATTATGCCAAATGTGAGCCAACATGCAAATAGAGAACGTTTAACGCAATTACCTAATTTTAAAACGAAAATAAAAAATCCGAGTAAAGAGGCACATCGATTTGCAGAAGATTGGAGTGAAATACGTCCAGAATGGGGATTAGCCCGTAATGCATCTTTTATTATCGGACAGCGTGAATTAACTCAAGATTGTGACTTAGAAGGTAGGGCTTTCCTTCATAATTATGATTGGAAACAGGATGAAAGTGGGGATATATTAGCTAACATTATTGCAGGACCAGGAACAGTTGCGCAGTGGATAAATCTACAATATTACGCATCAACTGTAGCTCCTCATTATTATGGTAGTGGAAATAAAACAACCCAAACCGTAACGGCGGGTCTCGGTGTTATGCAAGGGAATGCTAGTGATCTGTTGCCAGGCTTACCTTGGCAATCGGTTATGCAGTCAGATAGTGAGACGTATCATTCACCACTTCGTTTACTAATTGTCATTCAAGCACCTATTGAATATATAGAACGTTTGTTAAATAATGATTTCACATTTCGAGAAAAAGTTCAAAATGGATGGGTTAGACTTGCAAGTGTTGATCCAGAGGGACGCTGGAAAAACTGGTAA	MSILSILKKDTNIDMQENNINDLVASASRVIAPLWPISTFAAHHPWMGLEKQSFEQVADWLKEIRNVDIYPSAAMIHSAKAKGEIEESFLQSGLSRWLDSQSFHIPRKKVEQFCQVALKLEELPSSLLSLPEVNKLAEEMSYINTESMKDSSLQPVSSLIENQKGENLSDILNYHIIKWCKLYLDDSGSSWTMPNREKGFYRAWQHLIKFDPALSKNERKVLKDWPQDAQVALARALSELGISESNIQAYLEGHLLSLPGWAGMIRWRSQQSIQEQELLIEYLAVRISMELAITKPYLPLKNQKVEKKVAIVPLIASWIYWGNISTREWLQMPAAEQSELLVFAYRFDENIRRKLWLEAWEQTHAEQLRKKIASKQRATNDKKRVLAQLAFCIDVRSEPFRRHLEKLGPFETFGIAGFFGLPIATSELGSNNNHPSLPVILKPKHQIKELTNENELKSYEQRKRVGSSVRYTFKTMKQNVLTSMALPELSGPLFGLQMVTRSFVPRGVGGFIRNLRKTMLQKPDTTFSLNHVHDTKGEIPIGFTKEEKVNYVRQALKMVGLTEKFAPLVVMCGHSSQSTNNPYAAALECGACGGAAGGFNARVFATLCNLPEVREALFAEGIKIPEDTIFAAAEHKTTVDELEWIYVPKLSKTAQEAFDCIETIMPNVSQHANRERLTQLPNFKTKIKNPSKEAHRFAEDWSEIRPEWGLARNASFIIGQRELTQDCDLEGRAFLHNYDWKQDESGDILANIIAGPGTVAQWINLQYYASTVAPHYYGSGNKTTQTVTAGLGVMQGNASDLLPGLPWQSVMQSDSETYHSPLRLLIVIQAPIEYIERLLNNDFTFREKVQNGWVRLASVDPEGRWKNW				NA	NA	NA	NA	NA
AK009_01716	1533	ndhB_1		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	ATGTTAATTTCGCTGAGTTCATCAACACTGTTAACATTATTTTTTATGGCGCTTAGCGCTTCTTGGCTAAGTGGATTATTGTTTTTACATGCAAGGATACCTTTACGTTTTGTTCATATCCATATTGGTATCGCTGCATTGCCTTCATTGGTTTCTTTACTCGCACTTGTTAATAACAATGGAGATAGAGTTGTGGGACCTTGGCATCTAGATACTTTAGCTTGGTTAATGGCTTTCTTTGTTCTTACAATTGGCTTAATTATTCAGCGCTTTTCTGTACGTTACTTAATGGGGGATCACTCATATCGAAAATACTTTGCACTTTTTACATTTACTACAGGTGTATCTTCGGTTGCATGGTTAAGTGACGATCTTCGCTTAATGCTCATTTGTTGGGGAGCAACGCTTATAGGATTGGTTCTACTCATAGGGCTAAATAAAGGTTGGAAAGTAGTTAGTGAAGCAACTAAAATCTCTGGTTATTTATTTACAATAAGCTGGATCGCCTTGCTATCAGCTATCATTTGGCTTTTTCAAGGCACTGGACAGTGGCAGTTAACATCAATTTTAACGAATGAAAATGTAGCGCTACATGGAACATTGGAGAGAACAGGAATTAACTTATTAATTATATTAGCGGTGATGATTCCAGCAGCACAATGGCCTTTTCAAAGATGGTTAATTGAGTCAGCTGTAGCTCCAACTCCTGTGTCTGCTATTATGCATGCTGGTTTAGTAAATGCTGGCGGTATCATGTTAACTAGATTTTCACCTCTTTTTCATGATGATATTGCACAAATCATTTTACTAATTTTCTCAAGTATTTCTATCTTAATCGGAACAGGAATTAGCCTAGTTCAAGTTGATTATAAACGTCAGCTAGTGGGATCAACTATTGCACAAATGGGGTTTATGCTTATTCAATGCGCATTAGGAGCCTATTTAGCGGCTGTTATTCATTTGATTTTACATGGTTTGTTTAAAGCTACACTGTTTTTACAAGCTGGTTCTTCCGTGCAACGTTTTGGGGCAGTGAAGCAGTCTAATGAAAAGATATCTGATTTATGGATTATGGTCGGACGTGTTTTCGGATTATTTATAGCGATTGCTTTTTGGTTTACGACTTCTGGAGAAGGGTATGAATTAGTTAGTGCGTTCATCTTAGGGTGGTCATTATACTTTTCATGGAAACAGCTTGTTGTTTTTGGAGAGGGAAGAATGGGACGAATTGTTGGCGTATTTATTTTAGCTGGTTTTTCTCTCATTTATTTTACCGTTCATAATTCTTTTTACAAATGGTTGCATACTGACATGTATCAAAGTGTTCAACCTTCAGCTCCAGCTGTTATCTTTGTTATATGTATTTTACTATTTAGTAGTGCTATTAGTACTTTCGTTACTCGTAATCAATCTTCTACTTTATTCGCTGTACTTTATCTTTGGTTAGTTCGAGTAGGTGAGGCGAGAAGAAAGTCAGTAGAAAGTCACCCAGGCTATCTGAAACATTATGTATCAAAGGGAGGTAATTCGTGA	MLISLSSSTLLTLFFMALSASWLSGLLFLHARIPLRFVHIHIGIAALPSLVSLLALVNNNGDRVVGPWHLDTLAWLMAFFVLTIGLIIQRFSVRYLMGDHSYRKYFALFTFTTGVSSVAWLSDDLRLMLICWGATLIGLVLLIGLNKGWKVVSEATKISGYLFTISWIALLSAIIWLFQGTGQWQLTSILTNENVALHGTLERTGINLLIILAVMIPAAQWPFQRWLIESAVAPTPVSAIMHAGLVNAGGIMLTRFSPLFHDDIAQIILLIFSSISILIGTGISLVQVDYKRQLVGSTIAQMGFMLIQCALGAYLAAVIHLILHGLFKATLFLQAGSSVQRFGAVKQSNEKISDLWIMVGRVFGLFIAIAFWFTTSGEGYELVSAFILGWSLYFSWKQLVVFGEGRMGRIVGVFILAGFSLIYFTVHNSFYKWLHTDMYQSVQPSAPAVIFVICILLFSSAISTFVTRNQSSTLFAVLYLWLVRVGEARRKSVESHPGYLKHYVSKGGNS	PGPT0026735_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026735-ndhF-K05577	NA	NA
AK009_01717	363			hypothetical protein	ATGAAAAACTCAAAAGGCTCTATTGAATCAGAGATAAGCAAAGCAATTACTCACTGGGAAAAGGACTACCTAGGACGCGGGTCTATATCCGTTAAGACAGATATATTACGGGATATGATTATCGTAAATTTACAAGGTGTTTTAACGCCGGCTGAATATACGGTTTGCGAAACAAAAGACGGTATGCTAACGATAAAGAAAAATCGTTCGGAGCTAGTTGAATCTGGAATTGATGATCTGAAAGAGATTATACTAGAATTAACTGGAGAAAAAGTGAAAAGCTTTCATACGGATATAAGCTCCCGTACAGGCGAACGAGTAATGATTTTTAAATTGCTTCATAATCTTGAGGAGAAATTTTAA	MKNSKGSIESEISKAITHWEKDYLGRGSISVKTDILRDMIIVNLQGVLTPAEYTVCETKDGMLTIKKNRSELVESGIDDLKEIILELTGEKVKSFHTDISSRTGERVMIFKLLHNLEEKF				NA	NA	NA	NA	NA
AK009_01718	843		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGAAAGAATCACAAAATAAGAAAAAAACAAATGTAGGAACTAAGGCAATACTATCTCTAGGGGTTGTTTTAGCAACGACCTTTTTCACATTCTTTTTAATTGGGAAATGGAACTCTATCCCAGCGAAGGGAGTAGCTAATGAAAGTAGTAATCAAGTTAATACGCAACAACAAGAAAAGAAAAAGGAGACACCACCAGCAAAACAGAAAAGACCTGATGGAAAACCGGTAGGAAAGGTTGTTTATTTAACATTCGATGACGGTCCTAGCGAATTAACTGGGAAATTTTTAGATGTACTAAAAGAGCAACATGTTGCTTCGACATTTTTTATGCAAGGTAGCAATTTACAGAATACCGCTTTTCAGGAAAACGTAAAGCGAGCAGTAAAAGAAGGACATTATATTGGTGCTCATAGTATGACACATAATAGTGATAAGTTATACAAAAAAGGACAATTTGTACCGGAGATGAAAGAAACGTTAGCTCTTATCCATAATATTACGGGTACAACTCCTAAACTAGTTCGTCCGCCATATGGATCTGCACCAGGATTAAAGGGCGAGGAAATTCGTAACCAAATTGTAGAAGCAGGAATAAAAGTTTGGGATTGGACGATAGATTCAAATGATTGGAAATTAAAAGGTAATCCACAGCAAATTATAGAGAATGTAAAGCGTACAACAACAGAAGATGTGGAAGTAGTTCTAATGCATGAAAAACCACAAACATTACAAGCGCTTCCTGAAATTATTAAATTTTATAAGGAAAAAGGATATGAATTCGGGGTATACAATGAAGCGGATCATTTTCAACTAAACTTCCAGAAAGATCAACGTCTATAG	MKESQNKKKTNVGTKAILSLGVVLATTFFTFFLIGKWNSIPAKGVANESSNQVNTQQQEKKKETPPAKQKRPDGKPVGKVVYLTFDDGPSELTGKFLDVLKEQHVASTFFMQGSNLQNTAFQENVKRAVKEGHYIGAHSMTHNSDKLYKKGQFVPEMKETLALIHNITGTTPKLVRPPYGSAPGLKGEEIRNQIVEAGIKVWDWTIDSNDWKLKGNPQQIIENVKRTTTEDVEVVLMHEKPQTLQALPEIIKFYKEKGYEFGVYNEADHFQLNFQKDQRL	PGPT0018645_3038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_01719	558	satA		Streptothricin acetyltransferase A	ATGAATCTTTTAATTAGAGAGTTAGAAAAAAATGATTTAGACAATTTCCCGAAGATCGATGACAGTTTTATAGTGAATGCTCGGTTAATTCTTTCTCTTTCCAAAGTAAATAGACGCATAGAATATACAGTAGAAGACGTTCCAAGTTATGAAAAAAGTTATTTACAAAATCAAGATGATAATGAAGAACTGGCTTACAATGAATATATAAATAAACCTAATCAAGTCATTTACATAGCACTGTTACATAACCAAATCATTGGATTAATGGTATTGAAAAAGAATTGGAATCACTATGCTTACATAGAAGATATAACGGTGGATAAAAAATATCGTACACTCGGAGTTGGTAAAAGATTGGTTGATCAGGCAAAGCGATGGGCAAAAGAAGGCAACATGCCCGGGATCATGCTTGAAACGCAAAATAATAATGTCGCAGCATGTAAATTTTATGAAAAATGTGGATTTGTAATTGGTGGGTTTGATTTTCTTGTTTATAAAGGTTTAGATATTGAAAATGATGAAGTTGCAATTTATTGGTATTTATATTTCAAATGA	MNLLIRELEKNDLDNFPKIDDSFIVNARLILSLSKVNRRIEYTVEDVPSYEKSYLQNQDDNEELAYNEYINKPNQVIYIALLHNQIIGLMVLKKNWNHYAYIEDITVDKKYRTLGVGKRLVDQAKRWAKEGNMPGIMLETQNNNVAACKFYEKCGFVIGGFDFLVYKGLDIENDEVAIYWYLYFK	PGPT0028670_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028670-sat4-K19273	NA	NA
AK009_01720	912	menA_1	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGGGGACAGAAAAAGAAATTAGTTCCGCTAAATTAATATGGAAGATGACGCGCCCACATACATTAACGGCGACGTTTTCTCCTGTAATTTTAGGGACAGTGGCATCACTTTATGTTGCCAAAATTGATTGGCTGTTATTTATTGCGATGATGGTTGCATGTTTAGCATTGCAAATAGCAACTAACTTATTTAATGAGTACTATGATTTTAAACGTGGATTAGATACCGCTGAATCCGTTGGCATCGGTGGCGGAATTGTCCGTCATGGATTGAAGCCAAAAAATGTGTTAACAGTTGCACTTTTATTATATGTCGTAGCAGCTTTTATTGGCATTTATATTTGTATGAATAGTAGTTGGTGGTTAGTGGTTATTGGTTTAATTGGAATGGCGGTTGGCTATTTATATACAGGTGGTCCATTACCAATTGCGTACACTCCGTTTGGAGAATTAGTTTCTGGATTGTTAATGGGGACATGTTTTGTACTTATTGCTTTCTTTATTCAAACAAATACGATAACGATTGAAAGTGTATTGATTTCCATTCCAATTGGGATTTTAGTCGGTGCAATCAATATGTCAAATAACATCCGAGATATAGAAGAAGATATTAAAGGTGGAAGAAAGACATTAGTAATCCTCCTTGGGAGAGAAAAAGCCATAGTAACACTAGCGGTAGCCTTTTTCATTGCGTATTTATGGATTGCCGTAATTGTATTAATGGGTTATATAAGCCCTTGGGCATTAGTTATGTTCCTAGGTTTGAGAAAGCCAATCTCTGCTATTCAAAGTTTCCAAAAAGGAGCAAAGGACCCTGGGTATATGCGCATCGCAATGAAATCAACAGCAATGACAAATACGATTTTTGGCTTCTTATTATCGGCAGGATTATTAATTAGTTATCTGTTTTAG	MGTEKEISSAKLIWKMTRPHTLTATFSPVILGTVASLYVAKIDWLLFIAMMVACLALQIATNLFNEYYDFKRGLDTAESVGIGGGIVRHGLKPKNVLTVALLLYVVAAFIGIYICMNSSWWLVVIGLIGMAVGYLYTGGPLPIAYTPFGELVSGLLMGTCFVLIAFFIQTNTITIESVLISIPIGILVGAINMSNNIRDIEEDIKGGRKTLVILLGREKAIVTLAVAFFIAYLWIAVIVLMGYISPWALVMFLGLRKPISAIQSFQKGAKDPGYMRIAMKSTAMTNTIFGFLLSAGLLISYLF	PGPT0009395_1444	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
AK009_01721	936	mntA	COG0803	Manganese-binding lipoprotein MntA	ATGAAATTTAAAAATGTTGTATTATCGGTAATTTGTATTTTTGTATTTGCATTAACAGCGTGTTCGAGTAACACAAATGGAAAAGAAGAGGGTAATGGAAAATTAAAAGTTGTAACTACATACTCCATTATATATGATATGGTGAAGCAAATTGGTGGAGATAAAGTTGAGATTCATAGTCTTGTTCCAATCGGAGCTAACCCGCATGAATATGATCCACTACCAAAAGATGTTATGAAAATGACAGATGCAGATATGGTATTTTACAATGGGCTAAACCTAGAAGAAGGTGGAGCGTGGTTTAAAAAGCTATTAAAAACGGCAAATAAATCAGCGAAAGATGCACCGGTTTATAAAGTAAGTGAAGGTGTAGAAGCTATTTACTTAGAAACAAAAGGATTAGAAAAAGAACCAGACCCACATGCTTGGATGAATATTAAAAATGGTATTTTATACGCTGAAAATGTGAAGCAGGCATTAATTAAAGAAGATCCTAAAAATAAAGAGTTCTATACTAAAAATGCTGATGAGTATGTAGCAGAACTTCAAAAGTTACACGATGAGACAGTAAACAGAATTCATCAAATTCCTGAAGAAAAACGTTTCTTAATCTCTAGCGAAGGTGCTTTTAAATACTTTGGAAAAGCATATGACATTAAGACGGGATACATTTGGGAAATTAACTCAGAGAATCAAGGTACGCCAGATCAAATTAGAGATGTTGTAAGTTTAATTCAAACAAACAAAGTGCCAGCTTTATTTGTTGAAACAAGTGTAGATCGACGTAGTATGGAAACTGTTTCAAAAGAAACAAACGTGCCAATTGCAGGGACAATTTTTACAGACTCACTAGGTAAATCAGGTGAGGATGGAGATACTTACTTAAAAATGATGAAATGGAATATAGATACCATTATTAATGGGCTACAAAAGTAG	MKFKNVVLSVICIFVFALTACSSNTNGKEEGNGKLKVVTTYSIIYDMVKQIGGDKVEIHSLVPIGANPHEYDPLPKDVMKMTDADMVFYNGLNLEEGGAWFKKLLKTANKSAKDAPVYKVSEGVEAIYLETKGLEKEPDPHAWMNIKNGILYAENVKQALIKEDPKNKEFYTKNADEYVAELQKLHDETVNRIHQIPEEKRFLISSEGAFKYFGKAYDIKTGYIWEINSENQGTPDQIRDVVSLIQTNKVPALFVETSVDRRSMETVSKETNVPIAGTIFTDSLGKSGEDGDTYLKMMKWNIDTIINGLQK	PGPT0004365_90	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004365-mntC2-K19975	NA	NA
AK009_01722	867	mntB_1		Manganese transport system membrane protein MntB	ATGAAGATTGTAGAATTTATAGATGCATTAACGCAGTATAGTTTTCTGCAGAAGGCGTTATTAACTTCCGTTATGGTAGGAATTATCTGTGGTGTCATTGGATGTTTTATTATTTTACGAGGTATGGCATTAATGGGTGATGCCATTTCACATGCTGTTCTTCCAGGAGTAGCGCTTTCTTATATGATTGGAATGAACTATTTTATAGGAGCGGTTTTAACAGGTGTTATTACTGCAGTAGGAATCGGATTTGTAAGTCAAAATAGTCGTATTAAACATGATATGGCGATAGGAATTATGTTTACATCTGTTTTCGCTGTAGGGATTATTTTAATTACCTTTATGAAGAGTAGTTCTGATTTGTATCATATTTTATTCGGGAATGTCTTATCGGTTCGTTCTTCTGATATGTGGATGACACTGATTATTGGAGTGGTCATTATTGGTCTTGTAATGTTGTTTTACAAAGAATTACTCGTATCCACGTTTGATCCAACGATGGCGCAAAGCTATGGATTACCGAATAAATGGATTCATTATGGCTTAATGATTCTCCTTACAATGGTTACAGTAGCTTCACTTCAAACTGTTGGAATTATTCTAGTCGTTGCGATGCTTATTACACCAGCGGCTACAGCGTATTTATTAACAAACCGTTTATGGGTCATGATTTATTTAGCAGCAGGCATTGGTGCGCTTTCATCTGTAGTAGGGTTATATTTTAGTTTCTCTTATAATCTTGCTTCAGGTGCAACAATTGTTCTTGTCGCAACATTCTTGTTCGGATTGGCATTCTTTTTCTCACCGTCACAAGGTTTGTTTTGGAGAGCTATCAAAATTAGAAAAAATAGAGCAGAGTTGTCATAA	MKIVEFIDALTQYSFLQKALLTSVMVGIICGVIGCFIILRGMALMGDAISHAVLPGVALSYMIGMNYFIGAVLTGVITAVGIGFVSQNSRIKHDMAIGIMFTSVFAVGIILITFMKSSSDLYHILFGNVLSVRSSDMWMTLIIGVVIIGLVMLFYKELLVSTFDPTMAQSYGLPNKWIHYGLMILLTMVTVASLQTVGIILVVAMLITPAATAYLLTNRLWVMIYLAAGIGALSSVVGLYFSFSYNLASGATIVLVATFLFGLAFFFSPSQGLFWRAIKIRKNRAELS	PGPT0004360_50	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004360-mntB2-K19976	NA	NA
AK009_01723	750	mntB_2	COG1121	Manganese transport system ATP-binding protein MntB	ATGGGTGAGGCTATAATTGTTAAAGATTTGTTTGTATCGTATCAAGGGAATCAAGTAGTTCAAAATGTCTCCTTCGATATTGAAAAAGGGAAGCTCGTTGGAATTATTGGTCCAAATGGAGCGGGGAAATCTACTTTAATGAAAGCTGTATTAGATTTAATCCCAAATGATAAGGGATATGTCCAAATTCTTGGAGAGGATATTCGAAGCGTTAGAAAGAGTGTTGCATATGTACCGCAAAGAAGTGATATAGATTGGGACTTTCCGATTACAGTTTTAGATGTCGTGCTAATTGGAACGTATCCATCTTTAGGTATGATGAAAAGACCGAAGAAAGAGCATCGGGATTGGGCGTTTGATTGCTTAAAAAAAGTCGGAATGGAAGAGTTTAAAAATCGCCAAATCGGTGAGTTGTCAGGTGGACAACAACAACGTGTCTTTTTGGCGAGAGCTTTAGCGCAAAAGGCGGAAATATTCTTCTTAGATGAGCCGTTTGTCGGAATTGATGTAACAAGTGAAGAGACAATCATTAAAATTCTTAGGGAACTACGTAAAGAAGGAAAAACGATTGTCGTTGTCCATCATGATTTAAGTAAAGCAGAATCGTATTTTGATAAATTACTATTAATGAATAAAAGCTTAATTCATTACGGAGAAGTACGCCAAGTATTAGAACCAACTGTTATGTCAAAAGCGTATGTGAATCAAGGAATATTGTTTAATAATGCAGCGGAGGTACATTCATCATGA	MGEAIIVKDLFVSYQGNQVVQNVSFDIEKGKLVGIIGPNGAGKSTLMKAVLDLIPNDKGYVQILGEDIRSVRKSVAYVPQRSDIDWDFPITVLDVVLIGTYPSLGMMKRPKKEHRDWAFDCLKKVGMEEFKNRQIGELSGGQQQRVFLARALAQKAEIFFLDEPFVGIDVTSEETIIKILRELRKEGKTIVVVHHDLSKAESYFDKLLLMNKSLIHYGEVRQVLEPTVMSKAYVNQGILFNNAAEVHSS	PGPT0004355_58	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004355-mntA2-K19973	NA	NA
AK009_01724	600	inhA_2		Isonitrile hydratase	ATGAAAATACAAATTGTATTGTTTGATGGCTTCGGAGAACTTGTCTCTTTCGCGCCGTTTGAAGTACTGAAAAGAGCAATAGAAGAAGGGGCTCCGTTTACAGTTGAACTCGTATCAAGTGAACGAAAACAAGAAGTTACTACCTCGTTTGGAGTTACGGTTACACTACATGATTTTTTACGAATGGATAATCGCCCAGATTTGTTAATTGTACCTGGTGGTGGCTGGAATCATAAAGCTGAACATGGGGCACGAAAGCAAGCAGAGCTTGGAACACTGACAGAAACGATTAGAGAGATGCATAATGAAGGAACGATTGTTGCGGGAGTTTGTACAGGAGGTATGCTACTAGCAGCCTCAGGTATATTGAATGGTAAAAAGGCGACGATGCACCATTTGGCACAGGGTGAAATGAGTAAATATGGGGCAGAACTTCTTCATTACCGAATTGTAGATCAAGGCGATATTATTACTGCAAGAGGAGTTACTTCAGGAACTGATTTAGCTCTTTGGATTACGGAAAAGTTCGCAAGTTCTAAAATTGCAGCTGCTGTTGAATATAGAATGGAATATGAGAGGCGAGGTGTTGTTTGGAAGTAA	MKIQIVLFDGFGELVSFAPFEVLKRAIEEGAPFTVELVSSERKQEVTTSFGVTVTLHDFLRMDNRPDLLIVPGGGWNHKAEHGARKQAELGTLTETIREMHNEGTIVAGVCTGGMLLAASGILNGKKATMHHLAQGEMSKYGAELLHYRIVDQGDIITARGVTSGTDLALWITEKFASSKIAAAVEYRMEYERRGVVWK				NA	NA	NA	NA	NA
AK009_01725	180			hypothetical protein	ATGATTTCTGAATTAAACAAGGATGATTTTTATAAATGTAACCGTTTAGTAAATGAAAAAGGGCAATTGGAGGTAAAGGCTGTAATTGCAAGAGTGAATCCTGGTCGTATATTTGTAGATAACATTTATTGTCCTAATTTACGATTCAAAAAAGAAACAATATGGGGTGTCCGAAAATGA	MISELNKDDFYKCNRLVNEKGQLEVKAVIARVNPGRIFVDNIYCPNLRFKKETIWGVRK				NA	NA	NA	NA	NA
AK009_01726	405	arsC	COG0394	Arsenate reductase	ATGGAAAACAAAAAGACAATCTATTTCTTATGTACAGGAAATTCATGCCGAAGCCAAATGGCAGAAGCGTGGGGCAAACAATTTTTAGAAGATAAGTGGAATGTGTATTCTGCAGGAATCGAAGCACATGGAGTAAATCCGAACGCAATTAAAGCAATGAACGAAGTAAATATCGACATAACAAATCAAACATCAGATATAATTGATGCAACCATTTTAAATAGTGCTGATTTAGTCGTTACGCTTTGTAGTCATGCAGATGCTGTCTGTCCATCTACTCCGCCGCATGTGAATCGTGTTCACTGGGGATTTGATGATCCAGCAGGAAAAGAGTGGTCTGAATTTCAACGTGTTCGCGATGAAATTGGTGAACGTATAAAGCGATTTTCTGAAACAGGGGAGTAA	MENKKTIYFLCTGNSCRSQMAEAWGKQFLEDKWNVYSAGIEAHGVNPNAIKAMNEVNIDITNQTSDIIDATILNSADLVVTLCSHADAVCPSTPPHVNRVHWGFDDPAGKEWSEFQRVRDEIGERIKRFSETGE	PGPT0004715_3050	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
AK009_01727	1041	acr3_2	COG0798	Arsenical-resistance protein Acr3	ATGAAACGTTTATCTTTTCTAGATCGATATTTAACACTATGGATTTTTCTAGCTATGGCAGTTGGAATTGGTTTAGGGTTTGTGTTTCCTAGTGTAGTAGATGGACTGAATACATTACAAGTTGGAACGACGTCTATTCCGCTTGCTGCTGGTTTAATTGTCATGATGTATCCACCATTAGCAAAGGTTCGTTACGAGGAAATGGGCCGAGTATTTAAAGACGTAAAAGTATTGGTTTTATCTTTAGTACAAAACTGGATTATCGGACCTGTACTTATGTTTGTTTTAGCAATTATTTTTCTTCCTGATAAGCCAGAATACATGGTCGGGCTCATTATGATTGGTTTAGCACGCTGTATTGCCATGGTAATCGTTTGGAACGATCTTGCAGATGGGGATAAAGAGTATGCAGCAGGTTTAGTGGCTTTTAACTCAGTATTCCAAATGCTATTCTTCTCCGTTTATGCATACGTGTTTGTAACAGTCATTCCAGAATGGTTAGGAATTGAAGGGGCTATTGTCGATATTACAATGGTAGAAGTAGCGAAATCCGTGTTTATCTATTTGGGAATTCCTTTTATAGCAGGTATGTTGACGCGATTTGTACTCGTTAAGTTAAAAGGTAGACAGTGGTATGAAAAGGTATTTATACCGAAGATTAGTCCACTTACATTACTTGCATTACTATTTACAATCATCATCATGTTCTCCTTAAAAGGGGAGATGATTGTTAGTGTGCCACTAGATGTGGTAAGAATAGCGATTCCGTTACTCATTTATTTTATTGTAATGTTTTTTGTATCTTTCTTTATGGGAAGGAAAATTGGTGCCAACTATCCGGTAACTACAACGTTAGCATTTACAGCAGGTAGTAATAACTTTGAGTTAGCAATTGCTGTAGCAGTTGGTGTGTTTGGTATTCATTCGGGCGCAGCATTTGCAGCTGTTATCGGACCGTTAGTTGAAGTGCCTGTAATGATTGCACTTGTAAACGTTGCTTTTTGGTTTAAACGTAAATATTTTAATGACCAACCAGTCTAA	MKRLSFLDRYLTLWIFLAMAVGIGLGFVFPSVVDGLNTLQVGTTSIPLAAGLIVMMYPPLAKVRYEEMGRVFKDVKVLVLSLVQNWIIGPVLMFVLAIIFLPDKPEYMVGLIMIGLARCIAMVIVWNDLADGDKEYAAGLVAFNSVFQMLFFSVYAYVFVTVIPEWLGIEGAIVDITMVEVAKSVFIYLGIPFIAGMLTRFVLVKLKGRQWYEKVFIPKISPLTLLALLFTIIIMFSLKGEMIVSVPLDVVRIAIPLLIYFIVMFFVSFFMGRKIGANYPVTTTLAFTAGSNNFELAIAVAVGVFGIHSGAAFAAVIGPLVEVPVMIALVNVAFWFKRKYFNDQPV	PGPT0004705_2127	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
AK009_01728	438	cadI	COG0346	Cadmium-induced protein CadI	ATGAGATATGTTCACGTCGGTATAAACGTTACGAATTTAGAGAAATCTATTGAATTTTATGAAAAGGTATTTGGTGTATTACCAGTTAAAGTGAAATCAGATTATGCAAAATTTCTATTAGAGACGCCAGGACTTAATTTCACGCTAAACGTACGAGATGAAGTGAATGGAAATCAAGTAAATCACTTTGGTTTCCAAGTGGATACAGCTGAAGAAATTACATTACATAAAGAGCGATTAGAAAAAGAAGGTTTCTTTGCGCGTGATGAGATGGATACGACTTGTTGTTATGCAGTGCAAGATAAGTTTTGGGTAACGGATCCCGATGGTAATGAGTGGGAGTTCTTTTATACAAAAGCTGATAGTGATGTTCACAAAATAGAAGATTCATCTTGTTGCATGACTTCAAATGAGGTAGCTAAAAATTCTTGTTGTTAA	MRYVHVGINVTNLEKSIEFYEKVFGVLPVKVKSDYAKFLLETPGLNFTLNVRDEVNGNQVNHFGFQVDTAEEITLHKERLEKEGFFARDEMDTTCCYAVQDKFWVTDPDGNEWEFFYTKADSDVHKIEDSSCCMTSNEVAKNSCC	PGPT0013300_2144	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
AK009_01729	306	arsR	COG0640	Arsenical resistance operon repressor	GTGGCACAAGATTTTCAGCTCTATGAGAAAAAATTTAAAGCGTTGGCGGATCAGAAACGTCTAGAAATCATGTATGAACTTTGTCAGCGAGGACAGACGTGTGTATGTGATTTAACCGAAGTTTTTGAAATGACGCAATCTAAGTTGTCCTATCATTTAAAGATTTTATTAGATGCAGGTTTAATTGTAAAAGAAACAACAGGTACGTGGAGTTATTATGATTTGAATGATGCGGAAGTGAATAATTTATTATCAGAAGAATTGTGTTGTATCTTTAGAAAAACAGGAAAAGGTAGTTGTTGTTAA	MAQDFQLYEKKFKALADQKRLEIMYELCQRGQTCVCDLTEVFEMTQSKLSYHLKILLDAGLIVKETTGTWSYYDLNDAEVNNLLSEELCCIFRKTGKGSCC	PGPT0004735_4825	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_01730	573	inhA_3		Isonitrile hydratase	ATGAAAATTGGAATAGTCTGTTTTGATAACTTTACTGATATAGATGTTTTTTTACCATGGGATTTATTAAATCGTGTACGTTTAGTTGGCGGTATTTCTGATTGGAACGTCCAACTATTAGGAACGGAAAAAACTCATATATCCGTATCTGGCTTACGTATTCCCATGACAGGAAGCATATCTGATATTCCTTCTGCTGACGCTGTAATATTTGGAAGTGGTAAGGGTGTACAAAATTTATATAAAAATCAAGAATATCTTAATAGTATTCATATAGATCCTCAAAGGCAATTAATAGGCTCTATGTGTTCTGGTTCACTATTACTAGGAGCTAAAAAATTATTAACTGGTAAAAAAGCAACTACATATCCATCAGTTGTAGAACAGCTAAAAGAATTTGAGGTAGACGTTATTGAACAAAGTTTCGTAAACGAAGGAAATATCTCGACTGCTGCAGGGTGTTTTGCTGCTCAAGATCTCTCAGTTTGGATTATAAGAACCCTAATTAATGAAGACATGGTTGACACTGTGTTAGAAACCGTTCAGCCAGTGGGCAAAGGTTTATATTTTTAA	MKIGIVCFDNFTDIDVFLPWDLLNRVRLVGGISDWNVQLLGTEKTHISVSGLRIPMTGSISDIPSADAVIFGSGKGVQNLYKNQEYLNSIHIDPQRQLIGSMCSGSLLLGAKKLLTGKKATTYPSVVEQLKEFEVDVIEQSFVNEGNISTAAGCFAAQDLSVWIIRTLINEDMVDTVLETVQPVGKGLYF				NA	NA	NA	NA	NA
AK009_01731	858	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGGATATTAAAGATTTGACTGTATTTAAAAAGGTAGCCGAAGAAGGAAGTATATCGAAAGCAGCGAAATCACTAAGCTATGTTCAATCAAATGTGACTATGAAAATTAAACAGCTAGAAGATGAGTTAGGTGTTCCCTTATTTTACCGGAACGGAAAGGGAGTTACTTTAAATTCTAATGGTGAGATTTTGTTAACATATACTAGGAAAATTCTAGATCTAACTGAGCAATCAATCAGATTGGTACAAAGTAATCAATCTAAACCCCTTGGTACGTTGAAAATTGGATCTACTAACTCTACAGTAGCAGTCCGTTTACCTCCTCTTCTAAAAAACTATTGTGAAAAGTATCCTGAGGTTGAATTAGTACTAGAAACTCATAAAAGTACTGAACTAACTCAACTTGTGCTTGAACGTAAACTAGAAGGGGCTTTCATTGTTGAAGATGTTCATCATCCAGATTTAACTTCTTTTTTGTTTTGTCAGGAAGAACTAACGATTATTAGTTATCAACCATTACATACTTTACAAGAACTTGATAAAGTCAATATGTTAGCATTTGGGAACGGTTGTCACTATCGAAATAGAGTAGATAAGTGGTTAAAAGAAGCAGGTATTTATCCAAAGCGTGTATTAGAATTTGGGACAATTGAAGCGATTATTGGTTGTGTGAAGGCTGGCATGGGCATTGCTGTCATGGTCAAATCAATTTTGAAAGACCATGAGCAATCTTTAACCATGGCTGATTTACCTGAGCAATATTCTAAAGTACCAACTTATTTTATTATGAGAAAAGATGTACTTTTTTCGGCAGCTTTACAGAGATTTGTTGAGATGATAAAAGAAAAAACTATGTAA	MDIKDLTVFKKVAEEGSISKAAKSLSYVQSNVTMKIKQLEDELGVPLFYRNGKGVTLNSNGEILLTYTRKILDLTEQSIRLVQSNQSKPLGTLKIGSTNSTVAVRLPPLLKNYCEKYPEVELVLETHKSTELTQLVLERKLEGAFIVEDVHHPDLTSFLFCQEELTIISYQPLHTLQELDKVNMLAFGNGCHYRNRVDKWLKEAGIYPKRVLEFGTIEAIIGCVKAGMGIAVMVKSILKDHEQSLTMADLPEQYSKVPTYFIMRKDVLFSAALQRFVEMIKEKTM				NA	NA	NA	NA	NA
AK009_01732	1227			putative MFS-type transporter	ATGCAGAAACAAATAACAAGAAATGAACCCATTAGTTCTTACAAATGGATTGTCTTATTGATTGCAACTATTTCACAAACATGTGCCACGTTTGTTACATACGGGATTGGTCCTTTAGCTTCTTTATGGCAGCAAATACATCACATATCTCAATTTCAAATAGGATTACTTGTATCAGTTGTCAATATTGGACCTATCTTCTCAATGTTATTGTTTGGAAACCTAATGGACCGACATGGCGAGAGATGGATTGTAGGAGGAGGTTCTGTCTTACTTGGAGCGAGTATGTTGTTTGCCTATCCAGTCACCAATTATACATATGTAGTTGCTATTTTACTATTTGTAGGGATTTGGTATGGAACGGCACAACCTGGGGGCAGTAAAGCTATTGTAAAGTGGTTTCCTCCTCAGCGCAGAGGACTTGCAATGGGGATTCGTCAAACTGGAATTCCCATCGGAGGTGCTTTAGCTTCTAGTACACTCCCTTTCTTTTTTTATGAATATGGCCTTCCATCTGTAATACTTGTGCAAGCAATTGTAGCTATTAGTGGGGGGGTATTGTTTATTCTATTTTATCGTGAGGAGCATTCGAGCATTCAAAAAACAGAAGCGGTTTCCTTCTTTACAAAGTTAAAGAAGATACAAAGAAACTATTCTCTCTATCCTATCTTTTTAATTGGAATATCAATGATGTCGTTACAGATGGTGCTCGTTTCCCACCTAATGAGTTATCTTACAAATGAAGTTCATACAAGTCTTCATCATGCTGGAACATTATTAAGTATAGTATTGATAGGTGGAATGTTTGGGAGGATCCTTTTAGCATGGGCTAGTGATAACATATTTAAAGGAAATCGCATCATTCCATTACAAATAACTATTGTTATGACTGTCTTATTGCTCCTTTGTACGAGCTATGTCATGACTTATATGATTTTTGGGATACTTGTAATCTTGTGCTTCTTTTTTGGTTTCTTTGCTATCGGTTGGTTTAGTTTATTTATCGTTTTCGTATCGGAAAGATCAGATCCGCAATTTATTGGTTTAACTGTTAGTTTCGCTTTAACATTGAATCAATTTGCTATTGTACTTGCACCTACGTTGTTTGGTATATTTGTTGACTATTTCCATAGTTATACTGTGCCGTTTAGTATCCTAGCTTTTTTCATTGCTTTGAGTGGAATATGGTTAACCATTATCGAATATCGGAGCAAACCATTACAGTAA	MQKQITRNEPISSYKWIVLLIATISQTCATFVTYGIGPLASLWQQIHHISQFQIGLLVSVVNIGPIFSMLLFGNLMDRHGERWIVGGGSVLLGASMLFAYPVTNYTYVVAILLFVGIWYGTAQPGGSKAIVKWFPPQRRGLAMGIRQTGIPIGGALASSTLPFFFYEYGLPSVILVQAIVAISGGVLFILFYREEHSSIQKTEAVSFFTKLKKIQRNYSLYPIFLIGISMMSLQMVLVSHLMSYLTNEVHTSLHHAGTLLSIVLIGGMFGRILLAWASDNIFKGNRIIPLQITIVMTVLLLLCTSYVMTYMIFGILVILCFFFGFFAIGWFSLFIVFVSERSDPQFIGLTVSFALTLNQFAIVLAPTLFGIFVDYFHSYTVPFSILAFFIALSGIWLTIIEYRSKPLQ				NA	NA	NA	NA	NA
AK009_01733	909	yijE		putative cystine transporter YijE	ATGTCACGTAAATTATACTTTGCACTCATTATGTTAAGCCTTATTTGGGGAGGATCTTTCTATTTTTTTAAGATTTTAGTTACGGATTTCAATCCTTTAGTAGTAGCATTTTTACGGTCAACTTTTGGAGCTATAACACTTATTGCACTTATACCATTTTTTCGCAAATCTTTTAGAGGAAACACCTTTTTTATACCTTTGTTTGCTGTCGGAATACTAAATACTTTAATTCCATGGACACTTATTTGTTTTAGTGAACAAAAAATGACTAGTAATTTAGCTTCTGTTTTAAATGCAACCCAACCATTATGGACAATGGTTTTAGGAATCTTATTATTTGGTATACATTCCAATCGCAACCAAATTATAGGTCTATTTATTGGATTCGTAGGTATTTTAATACTCTCAGATATACATTTATCAAATGTTTTTTCAGTTGATTCATTAAATTTCGTCGCAATGTTGATAGCAACTTTTTGCTATGGTTTAGCAACTCATATAACAAAGCGTTATCTTAAAGAGATGTCCATGTTCCAAATTTCTTTAGGTACATTATTAGTTGGTAGTATATGTAGTGGTGGCATAGTTCTATTTTTAGAAGAACCAATTCAAATTTTAACTAAAATATCCTGGCATCATATAGGCGCATTAATTGGAATAGGTACATTTGGATCAGGTATAGCTTATTTACTTTACTTTTACTTAATTCAAAAAGGGGGCCCTAACTTCGCATCCATATCCACATACTTAGTTCCAGTATCAGCTATTTTTTGGGGATATATTCTTTTAAATGAAAATATCAGTTGGAGATTAATCATTGGATTAGTTTTTATACTTATCGGAGTTTATATAACTAATCGTAAAATCCAGTTAAATATTCCAGTTAAAGGTATACAAAAAGAATCCTAA	MSRKLYFALIMLSLIWGGSFYFFKILVTDFNPLVVAFLRSTFGAITLIALIPFFRKSFRGNTFFIPLFAVGILNTLIPWTLICFSEQKMTSNLASVLNATQPLWTMVLGILLFGIHSNRNQIIGLFIGFVGILILSDIHLSNVFSVDSLNFVAMLIATFCYGLATHITKRYLKEMSMFQISLGTLLVGSICSGGIVLFLEEPIQILTKISWHHIGALIGIGTFGSGIAYLLYFYLIQKGGPNFASISTYLVPVSAIFWGYILLNENISWRLIIGLVFILIGVYITNRKIQLNIPVKGIQKES				NA	NA	NA	NA	NA
AK009_01734	261			hypothetical protein	ATGTCAAAAAATTATGTGCACCATCTATGTATCCAAACTAATACATATTCAGAAACCTTGACATTTTATACAAAAGCGTTGAGTTTTATAATTGTCCAAGAGTCACCAAATTTTCACAGACGTGCATTTAATACCTGGTTGAAGTTAGGTGCGTTTTATATCGAATTACAAACGGGTAAGCAGGGGGAGGAGCTACCCGTAACCAATTCAAATAGTGAAGGGCTTGTCCATTTCTGTTTGTGGGTAGAAAATCTTCAGTAA	MSKNYVHHLCIQTNTYSETLTFYTKALSFIIVQESPNFHRRAFNTWLKLGAFYIELQTGKQGEELPVTNSNSEGLVHFCLWVENLQ				NA	NA	NA	NA	NA
AK009_01735	1431		COG3385	IS4 family transposase ISBce10	ATGAACTTATCAATTTTTGATGAACTAGAATTGTTTTCTCAAGAGTTAAAACGATATATGTCACCTGATGCTCTAGAGAGATTAGCTAAAAATGTAGGATTTGTTAAACGAAAAAGTAAATACCGCGCACAAGATTTAGTGGCCTTATGTATTTGGTTAAGTCAAAACATAGCCCATACTTCATTGACACAACTATGCAGTCGATTAGAAGCTAACACCGGTATTTCTATGAGTCCAGAAGGATTGAATCAACGCTTTAATTTACAAGCTGTGCAGTTTTTACAACAACTCTTAGCACATTTACTTCACCAACAATTTTGCTCTTCTAGTAAGATTCCAACTTTGTATACAAACTATTTTCGTAGTATTCGTGTATTGGATTCTACACATTTTCAGGTTTCAGATAAATTTGCTTCTAGATATCAAGGTTCAGGAGGTAGTGGTCATAGTGCTGGTGTGAAAATTCAATTAGAGTACGATTTGCTTAGTGGTCAATTTTTACATGTTCATGTAGGTTCGGGAAAGCAAAACGATAAAATTTATGGTTCTACTTGCTTAACGTCTCTTCAACCGCACGATGTATGTATACGTGATCTAGGATATTTCGATTTAAGAGATTTACAAACGATAGACGAGTGTGGTGCTTATTTTATTTCACGATTAAAGCTCAATACACGTATATATAGGAAGAATAGAGAACCTGAATACTTTCAAAACGGAACAATAAAAAAGCAATCTGAATACATCCAACTAGATATGGAGCAATTCATTGACCAATTACAGTCCGGTGAAACATATGAAATTCCTGAGATTTATATTGGGATATATCAAAAACTTCCTGCAAGACTAATTCTGTACAAATTAACTGAAACGCAAATGAAACGTAGACAAAAAGATTTAGCATCTAAAGAACATAAAAAACAAATTACCTATAAAGAACGCAGTAAGCGACTTAGTGCAATTAACTTTTACATTACAAATATTCCTTTGGAATATCTGCCAAAAGAACAAGTATACGATTTTTATTCCTTACGATGGCAAGTTGAACTTATCTTTAAAACTTGGAAATCATTTTTTCGTATTCATCATTGTAATTCTATAAAATTAGAACGACTAGAATCTCACTTATACGGACAATTAATTAGCATCCTTCTTTGTTCCTCCACCATGTTTCAAATGCGCCGATTACTCCTCATCAAGAAGAAACGAGAATTAAGCGAATATAGAGCGATTTATATGATAAAAGATTATTTTCCACTTATTTATCAATCTCTACAAAAAGAGACACAAGAATTAACAAAGATATTGTCTCGGCTATTTAATCTCTTACAGAAAAACGGACGAAAATCCCATAGGTATGAGAAGAAAACAGTCTTTGATGTCTTAGGTGTCGTATACAACTTTTCTATGTCACACAATCATGTAGCGTAA	MNLSIFDELELFSQELKRYMSPDALERLAKNVGFVKRKSKYRAQDLVALCIWLSQNIAHTSLTQLCSRLEANTGISMSPEGLNQRFNLQAVQFLQQLLAHLLHQQFCSSSKIPTLYTNYFRSIRVLDSTHFQVSDKFASRYQGSGGSGHSAGVKIQLEYDLLSGQFLHVHVGSGKQNDKIYGSTCLTSLQPHDVCIRDLGYFDLRDLQTIDECGAYFISRLKLNTRIYRKNREPEYFQNGTIKKQSEYIQLDMEQFIDQLQSGETYEIPEIYIGIYQKLPARLILYKLTETQMKRRQKDLASKEHKKQITYKERSKRLSAINFYITNIPLEYLPKEQVYDFYSLRWQVELIFKTWKSFFRIHHCNSIKLERLESHLYGQLISILLCSSTMFQMRRLLLIKKKRELSEYRAIYMIKDYFPLIYQSLQKETQELTKILSRLFNLLQKNGRKSHRYEKKTVFDVLGVVYNFSMSHNHVA				NA	NA	NA	NA	NA
AK009_01736	510			hypothetical protein	ATGAATCAAAGACCGTCAGAAGAAGAATACGCCGGGAACTCCGGTGAATATATCCGTTTGGTGCCGGACGGTAACATCATCAACATTCTGCTCGCCCAGGAAAAGCAAATGACTGAGCTCCTGGCATCGTTGACCGAAAGCCAGGCTGCATATCGGTATGCGGAAGGAAAATGGACGCTGAAAGAAGTCGTGGGCCACATTGCAGACGCGGAACGCGTCATGACCTACCGCCTGCTCCGGTTCGCAAGAGGGGACCAGACGCCTCTGACCGGTTTCGATCAGGAATTGTTCCTACCTCCTTTCGGAAGCTGGACAACCGCGCAATTGGCCGAAGACTACCGGGCCGTAAGGCAATCAACGATCACATTGCTGCGCGGGCTACCGGCTGAGGCATGGAATCGTAAGGGCACAGCCAACAACCTAAGCATTACGGCACGCGCCCTCGCGTACGGCATCGCAGGACACGAACTTCATCACATGGGAATCATCCGAAACCGGTACTTGAGTTAA	MNQRPSEEEYAGNSGEYIRLVPDGNIINILLAQEKQMTELLASLTESQAAYRYAEGKWTLKEVVGHIADAERVMTYRLLRFARGDQTPLTGFDQELFLPPFGSWTTAQLAEDYRAVRQSTITLLRGLPAEAWNRKGTANNLSITARALAYGIAGHELHHMGIIRNRYLS				NA	NA	NA	NA	NA
AK009_01737	477		COG3385	IS4 family transposase MICBce4	ATGGTGGAGTGGGCTCAAAATGCGGGGGCATTATGGCAATATGTAGTGTTATTTCTTTTAGCATTTGCCCCATGGATGGATGTATCAATTGTTGTACCACTTGGTATCGCATGGGGATTACAACCATTTGCAGTAGGAGTAACAGCATTTGCAGGAAATCTTATCTTGGTTCTATTACTCGGTTTTTTCTTTAAACAGTATGCAAAATGGCAAGCAGCAAGAAAACAAAAAAAAGGTATAACAACACCTTCTAAAAAAGAAACCCGATCAAGAAAAATATGGGATCGATATGGTATTCCAGGTTTGGCTCTTCTAGCTCCAATTCTCGTAGGAACTGATATTGCAGCCGTATTAGCTTTAACATTTGGATCTAACCGGACACACGTCATAAGTTGGATGACGGTCAGTCTAGCAGTATGGACAGTCATTTTTACAGTTGCTGCGATGTATGGACTTAGCTTTTTAAATATTATTTAG	MVEWAQNAGALWQYVVLFLLAFAPWMDVSIVVPLGIAWGLQPFAVGVTAFAGNLILVLLLGFFFKQYAKWQAARKQKKGITTPSKKETRSRKIWDRYGIPGLALLAPILVGTDIAAVLALTFGSNRTHVISWMTVSLAVWTVIFTVAAMYGLSFLNII	PGPT0013980_2104	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013980-TMEM165|gdt1-K23541	NA	NA
AK009_01738	435			hypothetical protein	ATGATAAAACAGGTTTTAAGATCTCCACTTATAGGGGCCAGTATATTTGTGTTGATTATTGCATTTTTACTATTTTCTCTTATGAATACACAAGTCATTTTAGCTAAGTTATGTTTCGGGATTTTAGTGACGGTTACTTTTTTATGGCTCATTCTCACAAGGATTTATAACCGAAAGAATCCTCATGATAAGATTAGGCTATTTGGTTTTATACCATCCGAATTTCGTGAAATAGATGAAGGGCAGCAGTGGGTAACCTATAAGGCTTGCCGAAATGTGTATATTTACTATAGCATTGCGCTTCCAGTAACGGCAGGGATTTGCTTTCTCTTTTCTCAACATAATTTTGTTCCATTATTGTGCATTGGTTTACTAGGTGCAGGTCAATATATTGTCTATTGGTTAACCACTATTTTTATTTTAAATCGTATTTAA	MIKQVLRSPLIGASIFVLIIAFLLFSLMNTQVILAKLCFGILVTVTFLWLILTRIYNRKNPHDKIRLFGFIPSEFREIDEGQQWVTYKACRNVYIYYSIALPVTAGICFLFSQHNFVPLLCIGLLGAGQYIVYWLTTIFILNRI				NA	NA	NA	NA	NA
AK009_01739	213			hypothetical protein	ATGATACTAGAAAACAGAGTTAGAGAATTACGAGCACGATTTAGATGGACTCAGCAAGACTTGGCCGATGCAATTGGGGTCACAAGGCAGACAATTGGATTAATAGAAAAAGGTGATTATTCTCCATCTGTCACTATGGCGTTAAAATTAGCTGCTGTATTTCAAGTTACCGTAGAAGAGGTTTTTTATTTAAAGGGAGAGGAACGATTATGA	MILENRVRELRARFRWTQQDLADAIGVTRQTIGLIEKGDYSPSVTMALKLAAVFQVTVEEVFYLKGEERL				NA	NA	NA	NA	NA
AK009_01740	1431		COG3385	IS4 family transposase ISBce5	ATGTCTATTTCTGTATCTGATGAATTACAACTATTTGCTCAAGAAATTCAAAAATTCTTATCTCCAAATATCTTACGAGATCTTGCTAGAGATGTTGGTTTTGTACAAAGAACTAGTAAATACCAAGCAAAAGATTTAGTCGCTTTATGTGTATGGATGAGTCAAAATGTCGCTACAACTTCTTCAACCCAGTTATCTAGCTGTTTAGAAGCATCGACAGAAGTGCTCATCAGTCCTGAGGGAATGAATCAACGATTTAATAAAGCGGCTGTCCAATTTTTACAACACATATTATCTAAACTACTAAACCAAAAATTGGCCTCATCTATACCTATTCCTTCTCCATATATTTCTGTTTTCAAGCGTATTCGTATTTTAGATTCAACTGCATTTCAACTTCCAGATCCCTTTTCATTTGTTTATCCAGGTGCAGGAGGATACAGCCATACAGCGGGGGTGAAGATTCAGCTAGAGTATGATCTATTAAGTGGCCAGTTCCTGCATATCCATACAGGTCCAGGTAAACAACATGATCGAACCTACGGTTCCCTGCGTGTTCCAACTGTGACAGCGAATGATTTATGTATCCGAGATTTAGGGTATTTTCATTTGAAAGATCTTAAACATATACAAGACCAAAAGGCTTACTATATCTCTCGTATCAAGTCGAATACACGTATTTATCAAAAAAATCCCAATCCTGATTATTTTCAAGATGGAAGAATTAAGAAAGGTACAGAGTATATTCAAATAGATATGGAGGGTTTAATGAGCTCTCTTCAACCAGGACAAACATGTGAAATAGCTGACGCTTATGTAGGAATGACTGATAAAGTGCCGACTCGTGTGATTGTTCATCGACTAACAAAAGAACAACAACAAAAACGATTACACGATCAAACTGTAAGAGAAAAAAAGAAAGGAATGAAGTATTCTGCTCGTAGTAAACGACTTAGCGGTATCAATGTATATATGACAAATACCTCTATAGATATTGTCCCGATGGGACAAGTACATGATTGGTATTCTTTACGTTGGCAAATCGAGCTTTTATTTAAAACGTGGAAATCATTCTTTCATATTCATCATTGTAAAAAGATAAAACGAGAACGATTAGAATGCCATTTGTATGGGCAACTGATTGCCATTTTACTTCGTTCTTCTACCATGTTTCAAATGCGACAATTGCTTCTTATGAAAAAGAAACGAGAACTGAGTGAATATAAGGCCATATATATGATTAAAGATTACTTTCTTCTTATTTTCCAAGCTATACAGAAAGACACCCAAGAGCTATCAAAGATTTTAATTCGCCTGTTCAACCTCCTACAGCAAAACGGGAGAAAATCTCATCGATATGAGAAGAAAACAGTCTTTGATATATTAGGTGTCATTTACAATTGTACCATGTTTGATAATCAAGCGGCTTAA	MSISVSDELQLFAQEIQKFLSPNILRDLARDVGFVQRTSKYQAKDLVALCVWMSQNVATTSSTQLSSCLEASTEVLISPEGMNQRFNKAAVQFLQHILSKLLNQKLASSIPIPSPYISVFKRIRILDSTAFQLPDPFSFVYPGAGGYSHTAGVKIQLEYDLLSGQFLHIHTGPGKQHDRTYGSLRVPTVTANDLCIRDLGYFHLKDLKHIQDQKAYYISRIKSNTRIYQKNPNPDYFQDGRIKKGTEYIQIDMEGLMSSLQPGQTCEIADAYVGMTDKVPTRVIVHRLTKEQQQKRLHDQTVREKKKGMKYSARSKRLSGINVYMTNTSIDIVPMGQVHDWYSLRWQIELLFKTWKSFFHIHHCKKIKRERLECHLYGQLIAILLRSSTMFQMRQLLLMKKKRELSEYKAIYMIKDYFLLIFQAIQKDTQELSKILIRLFNLLQQNGRKSHRYEKKTVFDILGVIYNCTMFDNQAA				NA	NA	NA	NA	NA
AK009_01741	945	accA_1	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAGTTTGCATTTTGAACGTCCTATTATTGAATTAAAAGAGAAATTTGATGAATTAAAGAAAATTATGAAAGAAAATAATGTAGATTTATCGTCAGAAATTCATGAATTAGAAAAACGTTTAAATAAAATGCAAGATAAAATTTATTCTAATATTACACCTTTTCAACGAGTTCAAATTGCAAGGCTACGTAACCGACCCACGACATTGGACTATATACCTTTATTGTTTACAAACTTTCTCGAACTTCATGGTGATCGATTATATGGTGATGATAAAGCAATGATAGGTGGTATTGCAAAATTTAAAGGAATGCCCGTTACGGTTATTGGTCATCAAAGAGGTAGAAATACAAAGGAAAGTATAGAAAGAAATTTTGGAATGGCACATCCAGAAGGTTATAGAAAAGCGCTAAGACTTATGAAACAAGCTGATAAATTTAATCGCCCTATTATTACATTTATTGATACAATAGGCGCCTATCCAGGGATAGGGTCTGAAGAACGTGGAATTTCTGAAGCGATAGCTCGAAATCTATTTGAAATGACTACACTTAAAGTGCCAATTGTTTGTATTGTAATTGGAGAGGCATCAAGTGGTGGAGCTCTTGGCATTAGTGTCGGTAACCATATCCATATGTTAGAGTATTCATGGTACTCGGTGATTTCGCCAGAAGGAGCAGCATCTATCCTATGGAAGGACGCTAAGTATGCTCCAGAAGCTGCTGAACATATGAAAATTTCAGCAAAAGATTTAAAACATTTAGGAATTATTGATGAAATCATTCCTGAAATTAAAGGTGGAGCACAAAATGATTTAAAATCACAGGCAAAAATGATTGAATCTGTAATCGAATTATCTCTAAAAAAATTGATACTATTATCCTCAGAAGAGCTTATACAACAGCGGTATGAAAAGTATAGACAAATAAAGAATTATAAATGA	MSLHFERPIIELKEKFDELKKIMKENNVDLSSEIHELEKRLNKMQDKIYSNITPFQRVQIARLRNRPTTLDYIPLLFTNFLELHGDRLYGDDKAMIGGIAKFKGMPVTVIGHQRGRNTKESIERNFGMAHPEGYRKALRLMKQADKFNRPIITFIDTIGAYPGIGSEERGISEAIARNLFEMTTLKVPIVCIVIGEASSGGALGISVGNHIHMLEYSWYSVISPEGAASILWKDAKYAPEAAEHMKISAKDLKHLGIIDEIIPEIKGGAQNDLKSQAKMIESVIELSLKKLILLSSEELIQQRYEKYRQIKNYK	PGPT0001695_2957	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
AK009_01742	447			hypothetical protein	TTGAAAAGAGAAGATGCCTTAAAACTAAGAACGGATATTAAGAAAATGATTATAATAACTGGGGTTTTTGAATCTCAAAATTTGCCCAATGGACCATTTGAAAAACCTTTACCAACTTCTCAAATGATGGCGTTAGAGGAACTAGAGGTGGAAAAATTAACTGTTTGGCAACTATCCAATAAACTTAGATTAGAGACTTCAACTGTAAGTAGATTGGTAGATAAGTTAGTAAAAAAGGGGCTTGTTTATCGTGAAGTAAATGAAAAAAATAGAAGAGAACTTTTTCTGCACCTCACAGAAAAAGGTCACATAACTGTTAATTGCTTAAGAGAGCAATCCATTACATTTTATCAAAGTATTCTCAATAATTTATCAGAATCAGAACAAAAAATAGTTGTGGATGGTTTTGAATTATTTATTGATTCTATTTCTAAGTCTTTTGATTAG	MKREDALKLRTDIKKMIIITGVFESQNLPNGPFEKPLPTSQMMALEELEVEKLTVWQLSNKLRLETSTVSRLVDKLVKKGLVYREVNEKNRRELFLHLTEKGHITVNCLREQSITFYQSILNNLSESEQKIVVDGFELFIDSISKSFD	PGPT0013155_3776	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK009_01743	1857	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAGAACAGTATTTTTAACTGGTGGAACAGGCTTTATTGGAAAGCAATTAGTGAAAGAATTAGCCAAAGAGGATGTTAAAATTCTTCTTTTAGTAAGGTCGAAAAGTAAAGCAATACGCCTTTTTCAAGAAAGAGGAAACTTAAAAAAGGAAGTTATGGACTTTATTGAAGGTGATTTGACGAAAAAAGATTTAGGTCTAAGTGCTGAAGATAAGGAGAGGGTATTGAAAACGGATGTGATTATTCACGCAGGAGGCCCCATGGATATTCAAGCGACAAGTAAAGAGGCAGCTTCCGTATTTTTAAATGGCGCAAAACATATTAGTGAATTAGCTAAAAGTATTCATCAATTGAAGGGCTTGCAACAATTTATTCATGTTGTAGGTTATATGAGTCCCTTTGATGATAAAAATAGCAAGATTGCAATTGATGTGTTTCAAGAAGGAAATAATTATTTGAAAATAAAAAATCCATATGAGAGAACAAAATTTTTAGCAGATCTTTATATCCGTCAGCAGGCATCAGCAGTAGGTTATCCGCTTTCTGTAATTAATCCGCCAACTGTAGTCGGTAGTAGTAAAACAGGGAGTACAGAGCAGATAGCAGGATTAGGTTTGCTTGTGATGAGTATGCGAAGAGGGCTCATGCCAATGATTCCTGGAGGTAAGGGATATAGGTTACCACTTATTTCAAACGATGAGCTTGCGAAGTTTATTGTGCAGGTTTTCAGATTAGAGCAACCGACTATTCAAACATATACACTTGTTGAAGACAAACAGCACGATCAGAACATTGCTGAGTTATTAAGTATTATGTCAGAAAGTATGAATATGAGGGCACCAAAAATCTCTGTCCCAATGCCACTTATGAAAGCAATTATGAATAGTGGAGTAAGTAAAATAACAAAAATTCCTTCTGATGGACTGAATTTTATTACAAAACGAAAATTTTCAAATGTTTCAGCGAAAAAAATTATGGGAGGAGATTGGTTTAAGGAGACGAGTGTAATGAAATTTTTCCCTGCCGTAGTAGCTGATCTGGATTATCGAATGATGTATCAATATGGCCAGCATAATCATGTATTTAAACGAACATTATGCGATAACAATACCCTTTACCAATTACAAGGAGAGGGTAAACCGTTTATTTTATTACATGGTTTATTGAGTGATGGAGAGGATTTATTTCCTTTAGCACAAGAGCTTCATGAAAAAACTGGTCAACCTGTATGGATTTTGGATCTTCCAGGTTTGGGACGTTCTCCTTTTAAACAAGAGAAAAATCTTCTAGCTATCTATTTGAATGTAGTGAAAAAGTTATTGGAGAAAGCTACGAATGGTGCACATCTAATTGGCCATTCATTCGGTGCATTTATTCTTCTGGAAGCATTGGTACAAGAGTACATAGATAAGAAGTATTCAATTACGTTACTTCAGCCACCTGTTGCTAAAAAAAATGCTAAATTGCTAAATGTTCCCCAATTTATAAACAAATGGACATTAAAATTGGCAACTCCTAATTTGATAGGGCGTTATTTATTAAATAATGGTTTGTTTGAAAGTATGGAGAGCATCCCTGAACATTATATCGAAAAAGTAAGTAACAGTTTTACTTCTCCTAGAATTTTAAATACTACGGTTCAGCTTAACAGTTTACTACTGAAAAAAGATCAAGGTGATTTCAAGGAAGTAACAAAGTATAATCTTCACATTATTTTGGGGGATTATGACAGAGGTTATTCTGCTCCATCGTATCTTGGTAAGGTTGATTTTGTTCCATATGGCCATCATTTTCCTCTTAGCCATCCGAGTGAAACGGCAAGATTAGTAATGAAAAATAGTAATACTAGCAGATGA	MRTVFLTGGTGFIGKQLVKELAKEDVKILLLVRSKSKAIRLFQERGNLKKEVMDFIEGDLTKKDLGLSAEDKERVLKTDVIIHAGGPMDIQATSKEAASVFLNGAKHISELAKSIHQLKGLQQFIHVVGYMSPFDDKNSKIAIDVFQEGNNYLKIKNPYERTKFLADLYIRQQASAVGYPLSVINPPTVVGSSKTGSTEQIAGLGLLVMSMRRGLMPMIPGGKGYRLPLISNDELAKFIVQVFRLEQPTIQTYTLVEDKQHDQNIAELLSIMSESMNMRAPKISVPMPLMKAIMNSGVSKITKIPSDGLNFITKRKFSNVSAKKIMGGDWFKETSVMKFFPAVVADLDYRMMYQYGQHNHVFKRTLCDNNTLYQLQGEGKPFILLHGLLSDGEDLFPLAQELHEKTGQPVWILDLPGLGRSPFKQEKNLLAIYLNVVKKLLEKATNGAHLIGHSFGAFILLEALVQEYIDKKYSITLLQPPVAKKNAKLLNVPQFINKWTLKLATPNLIGRYLLNNGLFESMESIPEHYIEKVSNSFTSPRILNTTVQLNSLLLKKDQGDFKEVTKYNLHIILGDYDRGYSAPSYLGKVDFVPYGHHFPLSHPSETARLVMKNSNTSR				NA	NA	NA	NA	NA
AK009_01744	567	yfiR		putative HTH-type transcriptional regulator YfiR	ATGAATCAAAAACGTGTGATTGAAGTAGCTGCAACATTATTTTTAGAAAAAGGGTTTGCTTATACAAGTATGGATGAATTAGTACGTGTAAGCAAAGTTTCAAAGTCTAATGTGTATTATCACTTTTCTAATAAGGAAGTATTATTAGAAGGGGTCGTTGATTATTGGATTGAAATGTATCAATCTGCAATTGATGACGTACTTTCTCAGAACCAATTTTTAGTTGAAGATCGTATCCAACTGTTTTTAAAGCAATTATCACAAGGAGTTCAGTCGAGAGAGTATAAGGGGAGCTGTCCATTTATTACTCTTTATATTCAAAGTCCTAAACAGGCCACGCAAATAAAAGAAAAAATAGGTCTTTTTTTTACAGGATTACAAAAGAAAGTTTCTCTATTACTTAAACAAGGGGTAGAGAATGGAGAATTTAGAAATACGATTCATATTGATGAGGTTGCATCACTTTTTATTACAAATCTTGAAGGAGCGTTATTTATTTCAGAAACATTGAAGGATGCAACTGTAATCACGAAAACAGCAGATCATTTTTTAAAATTGCTTCGATAA	MNQKRVIEVAATLFLEKGFAYTSMDELVRVSKVSKSNVYYHFSNKEVLLEGVVDYWIEMYQSAIDDVLSQNQFLVEDRIQLFLKQLSQGVQSREYKGSCPFITLYIQSPKQATQIKEKIGLFFTGLQKKVSLLLKQGVENGEFRNTIHIDEVASLFITNLEGALFISETLKDATVITKTADHFLKLLR				NA	NA	NA	NA	NA
AK009_01745	765	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGAATCTTGATGGGAAAGTAGCGTTAGTAACAGGGGCGAGTCGCGGTATTGGTCGTGCGATTGCGATGAGATTGGCAAACGACGGTGCATTAGTTGTGATTCACTACGGACGAAATAAGGCAGCTGCAGATGAAACAATTAGTGAGATTGAATCTAATGGAGGAAAAGCATTCTTAATTGAAGCAGAACTCAATTCAATTGATGGTGTCAAGAAGCTAGTAGAACAATTGAAGAATGAATTACAAGTAAGGGTTGGTACATCAGAGATTGATATTTTAGTAAACAATGCAGGGATAGGTACACAAGGAACGATTGAAAATACGACAGAAGAAGTTTTTGATGAAATTATGTCTGTAAATATTAAGGCACCGTTCTTCTTAATTCAGCAAACATTGCCGTTACTACGAGCAGAGGGGCGTATTATTAACATTTCATCAGCTGAAGTACGACTTGGTTTTACAGGCTCAATTGCATACGGCTTAAGTAAAGGTGCATTAAATACGATGACACTTCCTCTAGCTAAACATCTCGGAGAAAGAGGTATAACAGTGAATACAATTATGCCTGGATATACGAAGACAGATATTAATGCAAAATTGCTAGATGATCCGGAAATACGAAGTTTTGCTACGAATTCATCTGTGTTCGAACGAATAGGGCAAGTTGAAGATATTGCAGATGCAGTAGCATTCCTTGCTTCTGCTGATAGCCGCTGGATAACAGGGCAGATTTTAGATGTTTCTGGAGGGTTTTGTTTATAG	MKNLDGKVALVTGASRGIGRAIAMRLANDGALVVIHYGRNKAAADETISEIESNGGKAFLIEAELNSIDGVKKLVEQLKNELQVRVGTSEIDILVNNAGIGTQGTIENTTEEVFDEIMSVNIKAPFFLIQQTLPLLRAEGRIINISSAEVRLGFTGSIAYGLSKGALNTMTLPLAKHLGERGITVNTIMPGYTKTDINAKLLDDPEIRSFATNSSVFERIGQVEDIADAVAFLASADSRWITGQILDVSGGFCL	PGPT0003180_8270	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
AK009_01746	441	decR_1	COG1522	DNA-binding transcriptional activator DecR	ATGCAAAACACAGTAAAACTGGATGAAATCGATCATAAGATTATGAACTTGTTGTATGAAAATGCGAGAATTTCTGTTTCAGAAATAGGACGAATTATATCCATGACGCAACCTGCTGTAAAAGAGCGTATTAATAAACTTGAAGATCAAGGAGTTATAGCGGCTTACCGAACGAAATTTGAGCCTTCCAAAATTAATAAAAACATTCAAGCATTCATCATGTTTAAAACGAGCCAATGCTCTGATTTCATCCAATATTGTAATGCCGCTCCTGAAGTAACTGATTTATATCGAATTAGCGGGGAATTTAATTATATGATGAAGGTCATGAGCGATTCGATGGATTCCCTCGCTGCGTTTTTAGACTCGTTAATGCAATTCGGATTATCATCTCCTTTAATTGTTTTAAAGAGTGAGTTCGAGGAGAAATTGTCATTCTAA	MQNTVKLDEIDHKIMNLLYENARISVSEIGRIISMTQPAVKERINKLEDQGVIAAYRTKFEPSKINKNIQAFIMFKTSQCSDFIQYCNAAPEVTDLYRISGEFNYMMKVMSDSMDSLAAFLDSLMQFGLSSPLIVLKSEFEEKLSF				NA	NA	NA	NA	NA
AK009_01747	1206			N-acetyldiaminopimelate deacetylase	ATGGGAGCGACAGGAGTAACGTCACAAAGAAAAACAATTGAAGAGAGTATCGAAAGAAATAAGGAAAAGTACATAGAAACAAGTCATGATATTCATGCGAATCCGGAGATTGGAAACCAAGAGTTTTACGCATCCAGAACGTTAAGCTTATTACTAGGTAGTGCAGGATTTCAGCTGCAACACAATATAGCTGGACATGAAACAGGTTTTATCGCGCGAAAAAGTTCAGGAAAACAAGGACCAGTCATTGCATTTTTAGCGGAGTATGACGCTTTACCAGGACTAGGTCATGCGTGTGGTCACAATTTAATTGGCACAATTAGCGTTGCAGCAGCAATCGCATTATCAGAAACGCTTGAAGAAATTGGCGGGGAAGTTGTCGTGTTTGGTACACCAGCAGAAGAAGGCGGGCCAAATGGTAGCGCGAAATCAAGTTATGTAAAGGCAGGTTTATTTAAAGACATTGATGCGGCGCTTATGATTCATCCGAGCGCAAAGACAGCGACAACGAGTCCTTCATTAGCAGTCGATCCACTTGATTTTCATTTTTACGGAAAAACAGCTCACGCTGCAGCCTCACCAGAAGAAGGGATTAATGCATTAGATGCGGTTATTCAGCTTTATAACAGTATTAACGCACTTCGCCAACAACTTCCGTCAGACGTGAAAATTCATGGCGTTATTACAGAAGGCGGAAAAGCACCTAACATTATTCCTGACTACGCCGCGGCAAGGTTCTTCATCCGCGCAGCAACGCGAAAAAGATGTGCAGAAGTAACAGAAAAAGTAAGAAACATTGCTGAGGGAGCAGCGTTAGCAACAGGTGCAAAAGTAAAAATTCATCAATTCCAAAATGAAATCGATGAATTACTCGTAACAAAAACATATAACGATATCGTAGCGGAAGAATTAGAACTATTAGGTGAAGAGGTAAATCGTAAAGAAAGAGTAGGGATCGGTTCAACCGACGCAGGAAACGTAAGTCAAGTCGTACCGACAATTCATCCGTACATTAAAATCGGACCAGATGACTTAATTGCACATACGAATGAATTTAGAGAAGCAGCACGTTCAGAACTTGGAGATAAAGCATTAATTACATCGGCAAAAGCATTAGCAAATACGGCGTATCGATTAATTACGGAAGAAGGGTTGTTAGAGAAGGTGAAGGAGGAGTTTAGAGAGGTGCAGAGGAATCAAGGGTAA	MGATGVTSQRKTIEESIERNKEKYIETSHDIHANPEIGNQEFYASRTLSLLLGSAGFQLQHNIAGHETGFIARKSSGKQGPVIAFLAEYDALPGLGHACGHNLIGTISVAAAIALSETLEEIGGEVVVFGTPAEEGGPNGSAKSSYVKAGLFKDIDAALMIHPSAKTATTSPSLAVDPLDFHFYGKTAHAAASPEEGINALDAVIQLYNSINALRQQLPSDVKIHGVITEGGKAPNIIPDYAAARFFIRAATRKRCAEVTEKVRNIAEGAALATGAKVKIHQFQNEIDELLVTKTYNDIVAEELELLGEEVNRKERVGIGSTDAGNVSQVVPTIHPYIKIGPDDLIAHTNEFREAARSELGDKALITSAKALANTAYRLITEEGLLEKVKEEFREVQRNQG				NA	NA	NA	NA	NA
AK009_01749	2280	recD_1		RecBCD enzyme subunit RecD	ATGAATATACCTACTCAAACTCCTTCATTATCGGAAACGATGAAAGAGTGGCATTATGCATTAGCATATGAAATTAAACATTGGAAAACGATAGGTGGTAGTAAAATTTCTATCATGAACGGTCGTTTTTTATATACAGATTATGAGAATACAGTGTATGTATTTCAGCTTATTTCGGAAGTAAGTTTACCTGAAGGTTCACCAATTCGAATTGAGTTCGATGGTGAGGAAGCGACAGGAGAAGTATTATCTGTACATGGATTAGAAATAGAATTGAAATTAAATGATTATATACAAGGTGAAATAAGAGAAGCGGTTTTATACAGTGAACCGTGGCAACTTTTAGAGCAACTGCAAGAGCGATTGAAAGAAGCACGTAAAGATAAGCTAAAACGTAATCGTATAAAGCGTCTCGTTGATGGGACGAGCAGTCCGAAGCATATTGAGAAGATGAAAAATCCGAAAAATGAACTAGCATATCGTTCGTTTTACAATCCGACAACGTACGTATGGGGACCGCCTGGAACAGGGAAGTCGTACAATTTATCACGTATTATTTCGGCTCATTACCAAAAAGGAAAATCGGTACTTGTGTTAGCTCATAGTAATGCGGCAGTGGACGTATTAATGAGCGAAGTAACGAAACAAATTGAGAAGAAAAAGAAATGGACACCTGGCGAAATTGTTCGTTACGGTTATAGTCAACATGAACATATACGAAATCATGAAACATTACTTACGTCGAAGCTAGTTGAAACGACGAACGGATCTTGGGGAGAAGAAAGACTCTATTTAGAAGAAACACGACAAGATCTTCGTGAAAAGATTTTATCATATAAAGCGACTTCTGCTGATAAGAAGCGTATACAAGAGATTGAAAGTGATCTTCGAAAGCAAAAAGCGAAAATTAAAGAAGTAGAAAAAGAATATATTGAAAATGCGAAAGTAATTGGTGCAACTCTATCAAAATGTGCAATTGATGCGCTAATTTATGAGCGTACATTTGATTTAGTTGTCGTAGATGAAGTGAGTATGGCGTTCGTTCCGCAAATCGCATTAGCTGCTTCACTTGGAAAACGTATCGTTGTTTGTGGCGACTTTTTACAATTACCTCCAATTGCGATGGCGAACCATGAACTTGTTCGCAAATGGCTTGGGGAAGATATGTTTTACCATGCTGGGATTGTTGAGTCTGTTAATAAATCAGAAGCACATCCGAACCTATTTATGTTGCAGGAACAAAGACGTATGCATGCGGATATATCGAAGTTTACGAATTCGTTTATTTATAAAAATAGAGTATACGATCATCCGTCTGTTTCAGAGCGTAAAGAACTTGCGCAATTGCAGCCGTTCGCAAATGAAGCGAGTGTTTTATTTGATACGAGCCAAATGGGAGCTTTTTCGTTAAAAGATGCGGCTTCTGGTTCACGTTTTAACATTATGTCTGGTTTAGTAGCGATGCAAATGATGTTAATCGGATTATTAGACGGTGTTCAGTCGATTGGTGTTGTGACACCTTACAGGGCGCAGTCACGCTTTTTATCAACGTGTATTAGAGAAATGTTGCAGAGAACGAAATATCAAAACATACCAGTTTTAGCGGCGACAGTTCATAAGTTCCAAGGTTCTGAAAGAGATATGATGATCTTTGATACGGTTGACAGTTATCCGCAAGAACGACCTGGCGTATTATTCTTTGATCACAAAAACCATCGCCTCGTCAATGTAGCAGTGACAAGAGCGAGAGGGAAGTTCATTCAATTATCAGATTGCCATTATATGCGTAAAAACCTTTCGAGAAAACAAGCGTTATCACAATTAACAGCTCATATAGAACGTCATGGAGATGTGTATGATCGCACGACATCAAGACAATTGTGGGAACGGAAAATTTCGAAACGTTTACGCTGGTTTATGGAAATGAATCTTGAAGAGCCGAAAGGGTTATTAAAAGATATTTTAGCCGCAAAACGAAAAATTATTATTTCACTTCCAAGTACAAAACAAGTGGATAAGCGAGTATGGCAAGCGTTAATGCGTACAAATGCACAGATAACAGTTTATAGTGATGGACCAGTTCCACTGAAAAATGTAAAGTTACAAAGACAAAATAAAGCATTCCCGTTTATCGTAATTGATGATGAAATCTTCTGGGCAGGCGCACCGCTTACATCTCAAATGATGTTTGAAGGTAGTACAGAATTTCCGTACGTATGTGCCAGACTGCAAGCGCCAGAAACAATTGGTGTATTAAAAGGATTTTTAGATATTCGGTAA	MNIPTQTPSLSETMKEWHYALAYEIKHWKTIGGSKISIMNGRFLYTDYENTVYVFQLISEVSLPEGSPIRIEFDGEEATGEVLSVHGLEIELKLNDYIQGEIREAVLYSEPWQLLEQLQERLKEARKDKLKRNRIKRLVDGTSSPKHIEKMKNPKNELAYRSFYNPTTYVWGPPGTGKSYNLSRIISAHYQKGKSVLVLAHSNAAVDVLMSEVTKQIEKKKKWTPGEIVRYGYSQHEHIRNHETLLTSKLVETTNGSWGEERLYLEETRQDLREKILSYKATSADKKRIQEIESDLRKQKAKIKEVEKEYIENAKVIGATLSKCAIDALIYERTFDLVVVDEVSMAFVPQIALAASLGKRIVVCGDFLQLPPIAMANHELVRKWLGEDMFYHAGIVESVNKSEAHPNLFMLQEQRRMHADISKFTNSFIYKNRVYDHPSVSERKELAQLQPFANEASVLFDTSQMGAFSLKDAASGSRFNIMSGLVAMQMMLIGLLDGVQSIGVVTPYRAQSRFLSTCIREMLQRTKYQNIPVLAATVHKFQGSERDMMIFDTVDSYPQERPGVLFFDHKNHRLVNVAVTRARGKFIQLSDCHYMRKNLSRKQALSQLTAHIERHGDVYDRTTSRQLWERKISKRLRWFMEMNLEEPKGLLKDILAAKRKIIISLPSTKQVDKRVWQALMRTNAQITVYSDGPVPLKNVKLQRQNKAFPFIVIDDEIFWAGAPLTSQMMFEGSTEFPYVCARLQAPETIGVLKGFLDIR				NA	NA	NA	NA	NA
AK009_01750	393	gloA	COG0346	Lactoylglutathione lyase	ATGCCAGTTAGAAGAATTGAACACGTAGGACTTATGGTTGCAAACTTAGAAACATCTATTACTTTTTATGAAAAAGTAGTTGGCTTACAGCTCATTAAGCGAATGGGACACCCAAACCCAGACTTAAAACTCGCTTTTTTAGGTGTAGAAGAATCGAAGGAAACGATACTTGAATTAATTGAAGGCTACAATTCTTCTCTTCCGGCAGAAGGAAAAGTACATCACATTTGCTTTAAGGTAGATTCATTAGAAGAAGAAATCACAAGACTAAAGAAACACACAGTAACCTTTTTACTAGGAGAAGAAGTCGAAACATTACCAGATGGAACACGTTACATATTCTTCGCTGGTCCTGATGGAGAGTGGATTGAGTTTTTTGAGACGGAGAGATAA	MPVRRIEHVGLMVANLETSITFYEKVVGLQLIKRMGHPNPDLKLAFLGVEESKETILELIEGYNSSLPAEGKVHHICFKVDSLEEEITRLKKHTVTFLLGEEVETLPDGTRYIFFAGPDGEWIEFFETER	PGPT0013300_4075	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
AK009_01751	324			hypothetical protein	ATGGGAAATACAGTCTTTATTATTGTTTTTTGGATACTGATACTATTTCCAATCCTTTATGTAATCAAGATAAAGGATTGGAATATAAAAACAGCTGCCTTATTTGTTGGAAGGATTCTATTAAGTATTGTCTATTTTATAAATGGAATGGTATTAGGTCTGCAACGAAATTGGGTAGAACCTCCCTATGAAACAGAATGGGATTTCTTTGTAAAGTCTTTACTAAACGGAAAAACTGATGCACTTATACACTTGTTACTTCTAATTATTATCATTACTTTGGATCTATTCATTACATTTTATTATATCAATAAAAAGAAATAG	MGNTVFIIVFWILILFPILYVIKIKDWNIKTAALFVGRILLSIVYFINGMVLGLQRNWVEPPYETEWDFFVKSLLNGKTDALIHLLLLIIIITLDLFITFYYINKKK				NA	NA	NA	NA	NA
AK009_01752	2076	dap_3		D-aminopeptidase	ATGGAAAATAAATTATCTGGAGTGTTAGCCGCTACCTTAGCTCTAACGATGAGTCTACCAACAGGAGCGATAGCGTCTTCTAGCAGTAAGACTCCGGTTGTATCTAGCCAAGAAGTTGCTAGCAAAGATTTGGAGAAGATTGCTGCAGAGAACGCTGCACTGCTCACGAAGTCCTATGAGACGACTAGTGTACAGTATGCGCTGATTGATAATGGTAAACTTATTTTGTCGGGGCAGACAGGTAAGAACGACATAGAAGGGAAAGAGCCACTAACCAAAGATACTCTATACGGAATTGGTTCAACCAGTAAAGTATATACAGCTGCGGCTGTTATGAAACTGGTAGACGAAGGAAAAGTTGATTTGGATGCTCCTGTTGCCCGCTATATTCCTGATTTTAAAATGAAAGATAAACGATATAAGCGTATTACACCGCGTATGCTGTTGAATCACTCCTCGGGTTTGCAAGGTTCGACGTTCAATAATGCATTTTTATTTAAAGATAATGATGCTTACGCCCATGATATATTATTGCAACAATTGTCCAACCAAAACTTGAAGGCAGACCCTGGTGCGTTCTCAGTATACTGTAATGACGGTTTTACACTGGCTGAGATCTTGGTAGAAAGAGTCAGCGGTATGAGTTTTACTGAATTTCTACATCAAAAGTTTACAGAGCCATTAAAACTGAATCATACGATAACATCGCAAGACAAATGGGAAGACGAAAAGCGGGCTGGACTGTATTCTCCGACATACCAGGGACAGCTACCAAGTGAAATGGTGAATCTAATTGGTACGGGAGGAATCTCTTCTACTGCAGAAGATGTGGTGCGATTCTCACAAATATTTATGGGACAGGGAAAAGAAATTCTCTCTAATAAAGCAGTCAAGGCGATGGAACAAGAAGAATATAAAAAAGGAATGTGGCCGGGAGATAGCGGAAATGTGTTCAACTATGGACTTGGCTGGGATAGTGTGAAACTATACCCATTCAGTGAATATGGGATAAAAGCGTTGACTAAGGGTGGGGATACGATACTGCAACATGCTACATTGGTCGTGCTTCCAGAACAGAAGATGGCAGCAGCTGTATTGTCCTCCGGCGGCAGCAGCATGACAAATCAACTGTTGGCAAATAAATTACTGCTAGCTAGGCTTAAAGAGAAAGGGACAATTAAGGATATAAAGCCAGATAAATCCTTCGGAAAGCCCGTCAAGGCTAAAGTGCCTCAAGACGTGGTAAAAAAAGCAGGATTTTATGGAAATAGCTATAGCCATTTCAAAATAGAAATTACGAAGAAGGGAGAACTGGTTTTACCAACTAAACCGGAAGAAAAATATGTATATACGGCGGATGGAAGCTTTATAAATGAGAAGGGTACTTCCAAGCTTAACTTCGTCACAGAGAAGAATGGAAAAGTTTATTTGAGAGAGAGCACATATGAATTATCACCGGGATTGGGGCAAAATGTGCTGACTCACTATTTAGCCCAGAAATTAGAAAACAATGTGTTACCGAAGAAAACAGCTGCTGCATGGGCGAAGCGCGAGGGTGGCAAGTTCTATCTCGTTAACGAAAAATTTAATTCTATGAACTATCTAGGACAACTAATGCCTCTTAACACACAAATTACGATCAAGGATGGATATTGGGACGGCAAAAAAATTACAGGTCCGAATACGGCGACGCATCAAATTCAAATTCCTGTGATGAATGGGCGGGATACAAAGGAAGCCCATTTCTATACAGAGGATGGTACTGAATATATGGAGATGTCCAGCTTTTTATACGTCAGTGAATCTAACGTAAAACCCCTTGATACAGGTCGATTATCAAAAGTTACATTGCAAAAAAATGGGCATGCGAAATGGTTTACGGTCCCGCAAGAGGCAGCAGGGAAAACGATGAATGTGGAGTTGCCATCAGGAAGTTCATTCGCGGTGTATGATGAGAATGGAGTATGCGTCAATTTTACCGTCGTTAGTGATAATAACAAAGTGAAACTACCAGAGAATGGAACGGTTGTATTTGCTGGCGCACCGAACTCCGAATTTACAGTCGCATTGAACTAG	MENKLSGVLAATLALTMSLPTGAIASSSSKTPVVSSQEVASKDLEKIAAENAALLTKSYETTSVQYALIDNGKLILSGQTGKNDIEGKEPLTKDTLYGIGSTSKVYTAAAVMKLVDEGKVDLDAPVARYIPDFKMKDKRYKRITPRMLLNHSSGLQGSTFNNAFLFKDNDAYAHDILLQQLSNQNLKADPGAFSVYCNDGFTLAEILVERVSGMSFTEFLHQKFTEPLKLNHTITSQDKWEDEKRAGLYSPTYQGQLPSEMVNLIGTGGISSTAEDVVRFSQIFMGQGKEILSNKAVKAMEQEEYKKGMWPGDSGNVFNYGLGWDSVKLYPFSEYGIKALTKGGDTILQHATLVVLPEQKMAAAVLSSGGSSMTNQLLANKLLLARLKEKGTIKDIKPDKSFGKPVKAKVPQDVVKKAGFYGNSYSHFKIEITKKGELVLPTKPEEKYVYTADGSFINEKGTSKLNFVTEKNGKVYLRESTYELSPGLGQNVLTHYLAQKLENNVLPKKTAAAWAKREGGKFYLVNEKFNSMNYLGQLMPLNTQITIKDGYWDGKKITGPNTATHQIQIPVMNGRDTKEAHFYTEDGTEYMEMSSFLYVSESNVKPLDTGRLSKVTLQKNGHAKWFTVPQEAAGKTMNVELPSGSSFAVYDENGVCVNFTVVSDNNKVKLPENGTVVFAGAPNSEFTVALN				NA	NA	NA	NA	NA
AK009_01753	324			hypothetical protein	ATGTTAAAGCATAAAAAGAAAATAATTATAAGTGTAATTGCTATTTTAGTAAGTGGTATTGCTATTGTTGGTGGATATTATGGTATGGGTTACAATTATGCAAAAAAGAATGAAAACTACACAGAGAAACAAGTTCGTGAAATTTCTTTAGCTCATACAAATGGAGAAATTATTAATGTGAAAAAAGAATTCGAATTAGAAGATGATAACTTAGCACAATCAAAATTTGAATATGAAGTAGAAATCAAGACACCTGATAATTTGTTAAATATTTTAAAGGTTAGTGCTAGAACGGGTACAATAGAAATCGATAATGAAGATTGA	MLKHKKKIIISVIAILVSGIAIVGGYYGMGYNYAKKNENYTEKQVREISLAHTNGEIINVKKEFELEDDNLAQSKFEYEVEIKTPDNLLNILKVSARTGTIEIDNED				NA	NA	NA	NA	NA
AK009_01754	471			hypothetical protein	ATGCGAAAATGGATGCTGATTGGAGCGATATCTTGTGTATTGTTAACAGCTTGTTCTACTCAAGCTGTTAACAATACAGAAGTGCAACAACTGAAAGTGGAAAATGATAAATTACAAAAAGAAGTTGCTCAACTACAACAAGAACCAAACAAAACAGAGCCTGCTACGAATGATACGAAGCAAACACAAGATTTCAAAAACGAAGTCACATCTATTGTAGAAAAGGCAAATAACACGAAACCAGTTGGAGCAAAAGAAGATAACTTAAATATGTACTTGGCAACAAAAAAAGAAATTGACCAATTGGATGACAAGATAGATCTATCTGATAATCAGCTAGAAGCAGATTATCACGCTGGAACGATAACTGTTGAACAATATCAAACGCAAGAAAAAGAACACGATATACTGGAAGATCAATTAGAGCAAGCAGAAAATGCGCTTGAAGCAAGATTTGGAATAGAGGAGTAA	MRKWMLIGAISCVLLTACSTQAVNNTEVQQLKVENDKLQKEVAQLQQEPNKTEPATNDTKQTQDFKNEVTSIVEKANNTKPVGAKEDNLNMYLATKKEIDQLDDKIDLSDNQLEADYHAGTITVEQYQTQEKEHDILEDQLEQAENALEARFGIEE				NA	NA	NA	NA	NA
AK009_01755	675	tcrA	COG0745	Transcriptional regulatory protein TcrA	ATGCGAGTTCTTATTGTCGAAGATGAACAAGACTTACAAAATATATTGGTAAAACGATTAAATGCAGAACATTATAGTGTCGATGCATGTGGGAATGGAGAAGATGCCTTGGATTATATAAACATGGCTACCTACGATTTGATTGTGCTTGACATTATGATTCCAGGAATAGATGGTTTACAAGTATTACAAAGATTACGCGCGGACAATAATACAACTCCTGTCTTGCTTCTTACAGCTAAAGATACAATTGATGATCGTGTAACAGGACTCGACTTAGGTGCGGATGATTATTTAGTAAAGCCGTTTGCTTTTGACGAACTGTTAGCAAGAATTCGAGTGTTAATGCGAAGAAAAACAGGAAATACATCTAATGTGTTTGAAATCGCTGACCTAGTGGTAGATTGCAATATGCATAAAGTAACACGAGGAGACCAAGTTATCACTCTTTCCAGTAAGGAATTTGCTATTTTAGAATATATGATTCGTAATAAAGAAGTTGTGCTGACACGAGATAAAATTGAGCAACATGTGTGGAATTACGACTATGAAGGTGGCTCGAATATTATTGATGTTTACGTCCGCTATCTTCGCAAAAAAATTGATAGCCAGTTTGAAACGAAGTTAATTCATACAGTACGAGGAACTGGTTACGTATTGCGAGTAGAATCATGA	MRVLIVEDEQDLQNILVKRLNAEHYSVDACGNGEDALDYINMATYDLIVLDIMIPGIDGLQVLQRLRADNNTTPVLLLTAKDTIDDRVTGLDLGADDYLVKPFAFDELLARIRVLMRRKTGNTSNVFEIADLVVDCNMHKVTRGDQVITLSSKEFAILEYMIRNKEVVLTRDKIEQHVWNYDYEGGSNIIDVYVRYLRKKIDSQFETKLIHTVRGTGYVLRVES	PGPT0004105_1303	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
AK009_01756	1374	czcS		Sensor protein CzcS	ATGAAAAGACTATCAATAAAAATGAGAGTAACCCTGTGGTATACGGGGCTAATTGTAATTATTATGGCACTCGTGTTAGCTTTTATTTTAACTTCTTCAGATAAAGTTTTGCTTTTTAATATGAAAGATCAATTAAAGAGCACAGTAAAAGAAAGCATGGAAGATATCAAATATAAGCATGGGCAGTTAAAGATTGACGATGATTTTGAAACCTTAGAAGATGGCGTAAATATTAGTATTTATAGTAAACAAGGTGAGCTGTTAGTAGGACATAGTCCAACAAGCTTTAATAAAAAGATATCGCTTAAATCCGATGAAATACAAACCATTAAAGACGGCAATAAAGAATGGATAGTATATGATTTTCTCCATAATGCAGGCGGCGATGAGCAAGTCTGGGTTCGTGGAATAATGACTATGAACCAATTATCCTCAACGATGAATACGCTTATCGTGGTAACAATCATCTCATTCCCATTACTTATTCTTATTGCGGCATTCGGAGGATATTTTATCACGCAAAGGGCGTTTCGACCTGTGCAACAAATGAGTGATTCAGCTAGTAAAATTGGTGATGGTAAAGACCTTTCGAAGAGAATTAATTTACAAGGTTCACCGAAAGACGAAATGTATCATTTAGCACAAACCTTTGACAAAATGTTTGAGCGATTGGAGACATCATTTGAAAGTGAAAAACAATTTACATCTGACGTATCTCATGAATTAAGAACACCAACATCTGTTATTATTTCACAATGCGAATACGCTTTATCGCAGAAGAATAATCCGAAAGAAATGGAAGAATCGTTAGAAGTAATTTTAAAGCAATCACGTAAAATATCCACTCTAATCTCACAACTTTTATTATTAGCAAGAGCTGACCAAGGAAACCATAATACTTTCCAATTTGAATGTATCAATATGAGTGAATTAACGGAAATCGTCGTAGAAGAGCTCTCATTAATGGTACAAGAGGCTTCGATTGATATAACAATTAATATAGAGAAAGACCTATTTATTAAAGCCGATCAAACATTGATGATGCGTTTATTAATGAATTTACTAACGAATGCGATTGCTTATAGCAAAGCGAGTGGAACTGTGAATATGCAACTATTCCGTGATGAAACCAACATAATAGGTAAAGTCTCTGATAATGGTATAGGCATCAGCGAGCAACATATTACTAAAATATGGGACCGCTTCTATCGAGTTGACGCAGCACGAACATCTTCAAACATCGGAAACACAGGTTTAGGATTGTCTATGGTAAAATGGATTGTCGAACTACACGGAGGAGAAATTACAGTTGAAAGTGAATTAGGAGAAGGCAGTACTTTTACATTTAAACTACCAATTGAAAAACAAGCATAA	MKRLSIKMRVTLWYTGLIVIIMALVLAFILTSSDKVLLFNMKDQLKSTVKESMEDIKYKHGQLKIDDDFETLEDGVNISIYSKQGELLVGHSPTSFNKKISLKSDEIQTIKDGNKEWIVYDFLHNAGGDEQVWVRGIMTMNQLSSTMNTLIVVTIISFPLLILIAAFGGYFITQRAFRPVQQMSDSASKIGDGKDLSKRINLQGSPKDEMYHLAQTFDKMFERLETSFESEKQFTSDVSHELRTPTSVIISQCEYALSQKNNPKEMEESLEVILKQSRKISTLISQLLLLARADQGNHNTFQFECINMSELTEIVVEELSLMVQEASIDITINIEKDLFIKADQTLMMRLLMNLLTNAIAYSKASGTVNMQLFRDETNIIGKVSDNGIGISEQHITKIWDRFYRVDAARTSSNIGNTGLGLSMVKWIVELHGGEITVESELGEGSTFTFKLPIEKQA				NA	NA	NA	NA	NA
AK009_01757	216			hypothetical protein	ATGAACTGGAAAAAAGGCGGGTTATGGGTTATTATTTTTTTCGTTGTAAAAGGCACGATTTCTACACTTTTAATCGTTACAGGTGCTAAATATTTTGATTTATCATTTATGCAACTTATCTTATTAATTCTGACCTTATTAGTGATTTCTCTAATAAGTCGAAAATTGCTGTATAGACATAAACAAAACAAAAAGCAAAAAGAGCTAAATATATAA	MNWKKGGLWVIIFFVVKGTISTLLIVTGAKYFDLSFMQLILLILTLLVISLISRKLLYRHKQNKKQKELNI				NA	NA	NA	NA	NA
AK009_01758	1497			hypothetical protein	ATGATTTTAGTTGAAAATCGTTTGACGTTAATGCATACGGGGGAAAGATTGATGAACAACAATACAACAAATGAATCAGTTGAAGAAATTGATCAAAAACGAGTAAGATCAAAAAAACGTTATACAAATTGGAAGTTTATCGCAGTGGGTATTGGTGTAATTGCACTTCTTATTGGGGGAATGAGTTATTATCAGGCAACTCACTTCAATTCGAATGTTACAATTAATGACACAAAAGTTGGTGGTCTGAGCGCTGATCAGGCAATACAGAAATTAAAGACATCTGGACTAGCAAACAAAGTCTATGTTGATCAACAACAAATTTTAGATGAAAAAGATACAAAAACGGAACTTACGGAAAAAGATTTGCCTCAAGTTAAGAAACTATTAAAAAGTCAGTGGACATTTTTCCCTTCCTCAAAGGGAGAAAATTATTCATTACTACCAGAGAAGGCAGATCAGTATCGTAGTGAAACGATGAAAAAACTTGTAGAAGAAACGCTCATCTCTATGAATGCAAAATTAAAAGCGCCTCAAGATGCTATGGCGAAGCTAGAACAAGGAAAAATAGTTATTTCGAAAAGTGTTGAAGGAAAACAGTATGACGTTACTAGTCTACTAAAAGATTACGATAAGCAAAAATATAAAAGCGAAATTCACCTGAAGTCTGCATACATAAAACCTATTAAAGAAGACGATCCAATTGTCAAAAAAGAGGAGAAAGCACTACAGAATCTTCTTGGGCAGTCTGTTGAGTATAAAGTGCAGAATGAAGTTTATCCTTTAAAAGCGAAAGATTTAATTCAAAATGCCTCTATGTCAAAGGATATGAAAGTTACAATTGACGCGAGCGACATTAAGAAGAAAATTATTGAAATTAATAATGCCAAATCAACATTAAATAAAGATTTCTCATTTAAAACGCATTCCGGTTCAATCATATCAGTAAAAGGGCAAGGCTACGGCTGGGCACTAGATGTTGAAAAAGAAACTAAACAAGTTCAACAAGCCTTTGAGAAAGGCGAAAAATCGCTTTCTGCTTCTAATATTCATGGAAATGGTTGGGAGAAGGAAGGTATCGGTTATAAAACAACATCGAATAATGGCATCGGAGACACATATGCAGAAGTTTCAATTGCAGAGCAACAAATTTGGATTTATAAAGATGGAAAATTAGTTGTTACAACAAATGTAGTAACTGGTAAACATAGCACGGGTGAAGATACATCACCAGGTGTTTGGTACGTCCTATATAAACGAACACCATACACGCTCAGAGGCAGCGCAGTAGGTAAAGCTGATTATGCAGTTAAAGTAGATTACTGGGTCCCATTCACAAATAGCGGTCAAGGGTTCCACGATGCCGGTTGGCGAAAAGACTGGGCAAATAATGCTTATTTAACAGGAGGATCAGGTGGGTGTGTGAACCTTCTTCCTAATGTTGCAAAAACTGTATATGATAGTTTGAACACTTATGATCCAGTTATCGTGTACTAA	MILVENRLTLMHTGERLMNNNTTNESVEEIDQKRVRSKKRYTNWKFIAVGIGVIALLIGGMSYYQATHFNSNVTINDTKVGGLSADQAIQKLKTSGLANKVYVDQQQILDEKDTKTELTEKDLPQVKKLLKSQWTFFPSSKGENYSLLPEKADQYRSETMKKLVEETLISMNAKLKAPQDAMAKLEQGKIVISKSVEGKQYDVTSLLKDYDKQKYKSEIHLKSAYIKPIKEDDPIVKKEEKALQNLLGQSVEYKVQNEVYPLKAKDLIQNASMSKDMKVTIDASDIKKKIIEINNAKSTLNKDFSFKTHSGSIISVKGQGYGWALDVEKETKQVQQAFEKGEKSLSASNIHGNGWEKEGIGYKTTSNNGIGDTYAEVSIAEQQIWIYKDGKLVVTTNVVTGKHSTGEDTSPGVWYVLYKRTPYTLRGSAVGKADYAVKVDYWVPFTNSGQGFHDAGWRKDWANNAYLTGGSGGCVNLLPNVAKTVYDSLNTYDPVIVY				NA	NA	NA	NA	NA
AK009_01759	885			hypothetical protein	ATGATATTACACGCAAAATCGTTCCACAATAAAGATAAAATCCAACGTGCTAAAATAGGACTTCAACTCTTTTTGAGTATCTTAATCATTACTTCTATTATCCTAAATGTAGTAGTAATAATTACGAAAAGTATGCCGCTTATTGTGGTATATATGTTTACCCCAGCATTATCTTCTATTTTGACTCGCATAATACTGAAAGAAGGGTTTAAAGATGTATCTTTTAGTCTCGGTAACTTAAAGATATGGAAGGGGATTGGGTTTGCTCTGCTAATCCCTATGATTATTTGTGGAATTACTTATTCTATCGCCTGGTTGAGCGGAATTGCGGGGTTTCAGTATCCCGAAGTTGGTATGTTTATTTTAGAACCGATCTACAATATGCTTGGGCTTCAGTATGTAACGGCACCATTCAACTTCATTTATCTAGTAGTATTGAGCGGCATTTTCGGAAGTTTGCTTGGCTTAATCCCGGCTTTGGGAGAAGAAATGGGTTGGCGAGGTTATATGCTCACAAGGCTAGTCGATGCAGAGTTTTCACGGCCCATCCTTATTAGTGGATTGATTTGGGCAACGTGGCATGTTCCAATAGTTATTGCTGGTCTATATGTAGCGGGACCATCTGTCGTTCTTTCAGTACTTGGTATCTATCTTTGTATTGTACCATTCGGTTATATTATAGCTTATTTACGACTTATCACAGGTAGCATTTGGCCTTCGGTTATCATCCATGCTACTTGGAATGCCATTATTCAAGGACCTTTCACACGTGCAAGTACAGGGTATCAAACTGAGATTTGGATTGGAGAATCTGGCTTGATAACCGCTATTATTATCTTGATTACTGCAATAATTACGTCTCGAATCGTAAATTTTACTAAATAG	MILHAKSFHNKDKIQRAKIGLQLFLSILIITSIILNVVVIITKSMPLIVVYMFTPALSSILTRIILKEGFKDVSFSLGNLKIWKGIGFALLIPMIICGITYSIAWLSGIAGFQYPEVGMFILEPIYNMLGLQYVTAPFNFIYLVVLSGIFGSLLGLIPALGEEMGWRGYMLTRLVDAEFSRPILISGLIWATWHVPIVIAGLYVAGPSVVLSVLGIYLCIVPFGYIIAYLRLITGSIWPSVIIHATWNAIIQGPFTRASTGYQTEIWIGESGLITAIIILITAIITSRIVNFTK				NA	NA	NA	NA	NA
AK009_01760	1338		COG1926	putative protein	ATGAATAAGAAAAGCATAATTGCAATGGTTAGTACAGCTTTATTAGTCACAGGATGTGTAGAAGTAGGAAAGGCTCAAACAGTAGCAGTCGAAAATTCAGGTCAATCAATACAAAAAAATATAGTTAAATCCATACAATCACAGGCTTACCCATTAAAAACGATAGAGCCGTCAAAATCATTTGAGGATTTAAAACCACTTAAGAAAATGATTGGGAGCGCGCAATATGTGGGATTAGGAGAGAATACTCATGGAAGCTCTGAAATTTTCACTATGAAATTTCGCCTTGTGAAATATTTGGTTACTGAGATGGGTTTTACAAATTTCGCAATGGAAGAAGATTGGGGAAACGGCTTAAAGCTAAATGAATATATCCAAACAGGAAAAGGAAACCCTAGGGAGTTTTTAAACTTGTTATATCCTACTGATGAAATTATAGCCATGATTGAGTGGATGAAAGATTATAATGCCGATCCATCCAATAAAAACAAGATCCAATTTATCGGGCTCGACTTAAAGGAATTGGACCAAGGTTGCTTTAATAAAGTAATTGATTATGTAAAGCTGCATCGACCAAATTTGCTGGCAGAAGTAGAAGAAAATTATAAAGAATTGTCGGCTTTTAATGGAAGTACACAGGAATATATGGACCTTGCTCCTGAAATAAAAGAAAAGTTCAAAGCAAACGCTGAGAGAGTAGCTCGATTACTAAAAGATGAGAATAAACAAGCCAACACAGAAATAGTTTCACCCGAGTACATCTGGGCGAAAGCAACGGCAAGTGCAATAGAGAAATTTACCACAATGCTAATTCCTAACGACTATCCAAGTATGTTAAAGCTACATGAGCAATACTTGGCCGATCATGCAATGTGGGCACAAGAAACATTTGGTGGTAAAACGATGGTATGGGGACACAATATTCATATTGCTAAAGGAATTATCGATGAGAAATTATACCCTTATGTTGCGGGGCAATTTTTGAAGGAACGTTTAGACAATAATTATGTCACAATTGGTAGTACAACTACGAAGGGGAATTTCACCTTATACAGCGAATATGATCCTTCTACTGGAGGTAAGATTACAACGCGTGCGATTCCACAAAATGTAAATAGTTTTAACTATACCCTCGGAAAAGTACCATATAACATGTTTTTATTGGATAACCGTCACCTTAAAGGACAAGCAGAGAAATGGGTTAAAGCCAAAAGACCATTACTAAGTATAGGGGGACAAATATTCCCAAACGAATCGACATACTTTGATAAATCATTGCTTGAGCAATTTGATATTATTTTTCACATTCGAAAAACAAGTCCATCTCATATTAAATAA	MNKKSIIAMVSTALLVTGCVEVGKAQTVAVENSGQSIQKNIVKSIQSQAYPLKTIEPSKSFEDLKPLKKMIGSAQYVGLGENTHGSSEIFTMKFRLVKYLVTEMGFTNFAMEEDWGNGLKLNEYIQTGKGNPREFLNLLYPTDEIIAMIEWMKDYNADPSNKNKIQFIGLDLKELDQGCFNKVIDYVKLHRPNLLAEVEENYKELSAFNGSTQEYMDLAPEIKEKFKANAERVARLLKDENKQANTEIVSPEYIWAKATASAIEKFTTMLIPNDYPSMLKLHEQYLADHAMWAQETFGGKTMVWGHNIHIAKGIIDEKLYPYVAGQFLKERLDNNYVTIGSTTTKGNFTLYSEYDPSTGGKITTRAIPQNVNSFNYTLGKVPYNMFLLDNRHLKGQAEKWVKAKRPLLSIGGQIFPNESTYFDKSLLEQFDIIFHIRKTSPSHIK	PGPT0027980_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
AK009_01761	579			hypothetical protein	ATGAAATCAAAATTCATCCAGAATGGTTATTTTTTATTGCTAACTTTCGTTACAGGATTGTTTTATTTTTGTTTTTATCTAATAGCTCTGCTATTTAGTTTCACCCTTTCATTTACTGTTGTTGGGATTCCATTAATTATGCGCGTACTACAGACTACCACACACTTTATCCAATTCGAGCGCATACAGACGAAAATTTATACAGATATTTCAACAGACTCTTACGATAGAAATATAACAATGGATACATCGAACTGGGCTCAGGTGAAATTAGTGCTTACAGATCGTTGTACTTGGTCTGCTGTCTATTGGTTAATGCAGAAATTTGTGATTGGCATTTTCAGTCTTATTAGTGCAATCATTTTTTATGTAATGCCACTTATGTTCCTGTTGGCACCACTACTGTATCGATACATCGATATGAATATTATATTCATACAGATAGATACGTTTGCCAAGTCACTCTTTGTAATGTTTATGGGTATAGTATTTACCGCCATAAGTATTAGAATAGTAGAAGGTTTGACACAGAAAATTGGGGGCTATACACGTAGTATGATTCAGCAACTAAATCAATAG	MKSKFIQNGYFLLLTFVTGLFYFCFYLIALLFSFTLSFTVVGIPLIMRVLQTTTHFIQFERIQTKIYTDISTDSYDRNITMDTSNWAQVKLVLTDRCTWSAVYWLMQKFVIGIFSLISAIIFYVMPLMFLLAPLLYRYIDMNIIFIQIDTFAKSLFVMFMGIVFTAISIRIVEGLTQKIGGYTRSMIQQLNQ				NA	NA	NA	NA	NA
AK009_01762	1788	cheB_3		Protein-glutamate methylesterase/protein-glutamine glutaminase	TTGTTAGATATGGTTAAGTATTGGTTTTGGTACGATTGGATTATGTTAGGAGTCCGTATACTTGTTAGTGTCTCTATCGCCATAACCACATTAGATTTTCAGGATAGTTTAACATTGCCACTTTGGATTGTTATTTTTTGGGAGGTTGTTGCCTTCTCGATTCCATGGGTAGCCTTACTGTTCAATTACAAATATTACTTGTTCACAGAAATACTGCTATATGGTGGACTGTGTATATATTTAACCTCTTTATTTCCGGAAGCTAACGTTACATTTCTGATATCGGCTTTTCTAATTGCTGCGAATAGTAAGCATTTGTCCTATTATTGGACAGCTCCAACAACAGTTTTTATAACAACTGGAATTCTCTATGCGGTTGCGCCAAGTAATAGCTATTGGATTTTGGTTACCTACTATGGACTTGCTTATGTAATGGGCTTCGCTTTTCATTTATTAATCGTCAATCATAAACAAAATGAATCAATTCGTAAACAAAACGCGGTACTTGAGCAATATATGTCTCAGATTGAACGCATCACACTGGCGGAAGAACGGAACAGACTGTCGAGTGAGCTTCATGATACAGTTGGTCATGCTTATACTTCTATTATTATGGGGATGGAAACGTTGCGTACCGAACTTTCTACTGAAATGGGTATACAGAGGCTAGACTCTCTGCTTGAAATGGGACGGAAAAGTATCGAGGACGTGAGAGGTTACCTACATCAAATGGATTCTTCATGTCAATCGCCTTCCTTAATTCAATCTCTACAAAATCTTGGAGCCGAATTTCAGGAGCACGCTCAGGTAAATGTAAGTTTTAGGACATTCGGAGAGGAATATCGGCTGTCTCGGCAAGCGAAGATCGCATTCATTCGTTGCTTACAAGAGTCCCTTACGAATGCAGTACGTCATGGTCAGGGGACTGAAATTATAGTTTCATTGCAGTTTGACGAACAATATACGAGGTTAGAAGTTCAAGATAATGGAAAAGGAAATGTAGAATGGCAGGAAGGCTTTGGTATGAATGCGATGAAAGAACGGGCAATGAACTTGCAAGGTCAATTGTCTGTATATACAAAGCCAGAGGAAGGAATGCTTGTTACATGTACCATACCGCGACAAACTGAAATAAAAGATGGACTTATTCGTTTGTTAATTGTAGACGATCAACCATTTGTTCGGGAAAGTTTGAGGACACTACTCGATAGATATGAAGATTTAAATGTAGTCGGTTTAGCTGAGGATGGCAATGAAGCCATCGATTTGTGTGGGCGCCTTCAACCCCATGTTATACTTATGGATTTAGATATGCAGCACATGGATGGAGTCGAAGCAACCAAAAAAATCAAGCAACAATGGCCACATATCCGCGTATTGATTTTCACAACTTTTCAGGATACCGAACAGGCGTTGGAATCCCTTCGCAACGGTGCGGATGGTTTTTTACTCAAATCTATTGAAACATTGGAGCTAGCTAATACGATCCGACTTATTCACAAAGGTGGGACACTGATTGATCAGGGAATGTCTCACAAAATATTTGAGAAGTTTGATGAGCAAAAAGAGACACCACAATCAAAAGCAACCGCTTATGAGCTAACAGCTAGGGAGATAGAAATATTGCAGCTAGTGGCAAAGGGACTTCGATACACTACCATAGCATCAAGGTTATATTTATCGAATGGTACGGTCAGAAATTATGCTTCCACAGCTTATACAAAGCTAGGAGTCCGCAACAAAGAAGAAGCTGTTCAAAAGGCTCTAGAAATTGGAATTATTGAATAA	MLDMVKYWFWYDWIMLGVRILVSVSIAITTLDFQDSLTLPLWIVIFWEVVAFSIPWVALLFNYKYYLFTEILLYGGLCIYLTSLFPEANVTFLISAFLIAANSKHLSYYWTAPTTVFITTGILYAVAPSNSYWILVTYYGLAYVMGFAFHLLIVNHKQNESIRKQNAVLEQYMSQIERITLAEERNRLSSELHDTVGHAYTSIIMGMETLRTELSTEMGIQRLDSLLEMGRKSIEDVRGYLHQMDSSCQSPSLIQSLQNLGAEFQEHAQVNVSFRTFGEEYRLSRQAKIAFIRCLQESLTNAVRHGQGTEIIVSLQFDEQYTRLEVQDNGKGNVEWQEGFGMNAMKERAMNLQGQLSVYTKPEEGMLVTCTIPRQTEIKDGLIRLLIVDDQPFVRESLRTLLDRYEDLNVVGLAEDGNEAIDLCGRLQPHVILMDLDMQHMDGVEATKKIKQQWPHIRVLIFTTFQDTEQALESLRNGADGFLLKSIETLELANTIRLIHKGGTLIDQGMSHKIFEKFDEQKETPQSKATAYELTAREIEILQLVAKGLRYTTIASRLYLSNGTVRNYASTAYTKLGVRNKEEAVQKALEIGIIE	PGPT0017900_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-FUCOSE_PERCIPITATION|SIGNALLING,PGPT0017900-fusK-K20263	NA	NA
AK009_01763	1347	yvdP_1	COG0277	putative FAD-linked oxidoreductase YvdP	ATGCTCTATGATGAAAATATAAGTTTAACAGGACGTATTGTATCGCCTGGTGAAGCGCAATATGATTCAGCACGTCAGGCGTTCAACACATTTTTTAATAGATTCCCTTTTGTTATTGTCTTTGCACAAAATACTCAAGACGTTGTGAATGCAGTACGATGGTCGTTACATAATAACGTACCTATCCGAGTACGTTCAGGAGGGCACAATTATGAAGGCTTGTCAGTTTTAGATGGTGGTATTGTAATTGATGTCAGTGAGATAAATCAAATAAAAATAGATCCAACATCAAAAACTGTTACAGTAGGAGCTGGTTGTAAAAATCTCCATCTAGCTGAGCTTCTTGGGAAAGAGGGATTAGCTATTCCTAATGGGGTCTGTCCTAAACCAGCTATCGCAGGAATAGCGCTAGGTGGTGGGCAAGGTATTCTTTCTCGACCATTAGGACTACTACTTGATCATGTCGTAGAAATAGAAATGGTTGATGCTAACGGCTGTGTATTGCAGGTTAATGATCAGGAGCATCCTGATCTATTTTGGGCTTTACGTGGTGGAGGCGGAAGTTTCGGTATTTGTACATCTTTTCGCTTTCGTACTCAGGAAATTAAGACTGTTGGTTTTGTTGAAGTTAGTTGGAGGCATCAAGATTTAAAAGCCGTTATACAGGAATGGCAAAAGTATACTCTACCTACTTCTGATAAACGCTTTACTCCTACATTATTATTGTCTTCAGAAAAGACAGCTCCTGTGTTGATGCATGGGATTTTTCATGGATCAGTTACAGACTTACAGAAATTGATACAACCACTTCTCAAAATTGGATCACCTATAAAGGTAGACATAAAAGAACTCTCTTATTTAGAAGCTATAACGTTAATATCCAATCATCAGCTTACAACTCCTTTTCCATTTAAAAGCGTAGCACCTTTTATGGATTCTTTATTACCTGAAGAAGGTATTGCTACAATTCAACATTTTATGAGTCAATCTCCACCTAATTCTACTGTTTCTATATTTTTTCAGGGCTTAGGGGGGACTGTTTCTGCAGTACCCGAGGAAGCAACTGCTTATTTTTATCGAAAAGCTCTAATGAATATGGTGTTATTTTCCACTTGGGACAAACCTGAGGGAGCTGCACAAGGGATTCGTTGGGTAGAAGCTTTTCGTCACGCGTTAATTCCTTTTACGAAAGGTGTCTATGTTAACACACCTGACCTCTCAATGAAAGATTGGTCGGATTTATATTATGGTGAAAACTTTAAACGATTGACTCAAGTGAAAGCTAAATACGATCCAGAAGATATTTTCAATTTTCCACAAAGCATTCCACCTGTTTATAAAAAATAG	MLYDENISLTGRIVSPGEAQYDSARQAFNTFFNRFPFVIVFAQNTQDVVNAVRWSLHNNVPIRVRSGGHNYEGLSVLDGGIVIDVSEINQIKIDPTSKTVTVGAGCKNLHLAELLGKEGLAIPNGVCPKPAIAGIALGGGQGILSRPLGLLLDHVVEIEMVDANGCVLQVNDQEHPDLFWALRGGGGSFGICTSFRFRTQEIKTVGFVEVSWRHQDLKAVIQEWQKYTLPTSDKRFTPTLLLSSEKTAPVLMHGIFHGSVTDLQKLIQPLLKIGSPIKVDIKELSYLEAITLISNHQLTTPFPFKSVAPFMDSLLPEEGIATIQHFMSQSPPNSTVSIFFQGLGGTVSAVPEEATAYFYRKALMNMVLFSTWDKPEGAAQGIRWVEAFRHALIPFTKGVYVNTPDLSMKDWSDLYYGENFKRLTQVKAKYDPEDIFNFPQSIPPVYKK				NA	NA	NA	NA	NA
AK009_01764	1830			hypothetical protein	ATGTTATTTAAGCTTTCTATGTCAGGCCTAAAAAGTAAGTTGCAAGATTACATTGTTTTACTTGTTGGTCTTATTGTCTCTATTTCAACTTTTTATATGTTTCAAACGCTAGCATCCAATAAAACGTTCCTTGAATCTAACTCTTCTATTAGGGATATTGTGGCTGTCTTTAAAATTGGTTCCGTTTTGTTAGCGATTATCACATTTTTCTATATTTTATATGCAAACTCTTTCTTATCAGCTCTTCGTCAAAAAGAATTTGGTATGTATATGATGTTAGGAGCAAAAAAGCATAAAGTTACCTTACTTATGTTCATTGAAACAATCATATTAGGTGCCACCTCTCTTTTGATTGGAATTACAATTGGTGTAGGACTTGCAGAAGGTATCGGTCAGCTATTAATGAAACAACTCGAGTTTGCTGGTAAAGGTTATAAAGCATTTTATCTGCCATCAATAGCTATTACTTGCGTCTTCTTCTTTGCACTATTTGTATTATCTGCAATTATGAATAGTATTAAATTATCGCGTATTTCTGTACTGCAACTTGTACATGCAGATGCACAAACAGAACGTGTTGCCATAAAAGGAAAAATGACAGTTGTAATTGCATTCCTTGGTATTCTTTTATTAGGTATTGGTTATGCATCACTGATCTATATGTCATATGCAAATCCGCTAATTGCTTTGGGATTAATGGCCGTCGGATTAATCTCAGCAACCGTTGGTACTTACCTTATATTTGGATCCCTTCTTCCAGTTATGATTAACAAGCTAAAGAGTAATAAAAAACGTAGTGAAAAAGGCCTCAATGCTTTTACTTTTGCACAATTAAATTTCCGCATTAATAGTCTAACAAATGTGCTTGCAACAGTAGCAATTTTAGTGGCTCTTGGTGCTGGTGGAATTGCTTGTGGTATGGCATTTAAAAACAACATTATAAACATGACAGATCAAATGCGAATTTACGATTCAGTCATTCATAATCCAACTGCGGAAGAAAAGACAATTTTGGGTGGTATCTTATTTCAAGAAAAATTTGAATACCATTACAAAGTTGATGATAGGTATGTTTATTATCTTAAAGAAGATGTAGAAAAAAATCGTCCTTTCTTGCAAGGTATGAAAATAGAGAAAGTTTCAGAGGAAGTACCAATTGGTGCATTTTCAATAAAATGGGTTAAAGGAGAGATCGACACAAAACAATGGATTCAGGCTTTCAGAACGATCCAGCCAAATTATATGTATCCTGATTATGAAATCAAAATTGTAGAACAAAACATATACGATGGGTTGAAGGGTAAAGAAAGTACTGTATTCATAGGGAAAACAGATGATTTTGGATCATACATAAAAGAATGGAAAAAACTTGATGAATTACAGATAGCAAAATATAAAAATGTGAAAGCGGAAGAATTGGATAGTAAGTATCAAAAATATATTACGAGTCATGATTTTTCCAGCGGACTAATGTTTATGGGCTTTTTCGTTGGAGTTGCATTTTTAGCAATGATGGCAAGTTGCTTAATGTTTAAAGTTCTGTCGGGAGCATCAAAAGATGTAGCACGTTATCAAATGCTTCGTAAAATTGGTGTTCGCCGAGAATTATTAACAAAATCAATCTATAAAGAGTTATTCTTCATATTCTTATTCCCAGCAATTGTGGGGATTACTCACATATTAGTTGGTATGAACATGTTTGGATCGCTTTTAATCGATCCGTACTTTCGTATTTGGTTACCACTTGTTATTTTTGTAGTAATTTACTCGATTTATTACTTGATTACAGTTCAATTATATAAAGGGATTGTACTCCCGAAAAAAGATTAA	MLFKLSMSGLKSKLQDYIVLLVGLIVSISTFYMFQTLASNKTFLESNSSIRDIVAVFKIGSVLLAIITFFYILYANSFLSALRQKEFGMYMMLGAKKHKVTLLMFIETIILGATSLLIGITIGVGLAEGIGQLLMKQLEFAGKGYKAFYLPSIAITCVFFFALFVLSAIMNSIKLSRISVLQLVHADAQTERVAIKGKMTVVIAFLGILLLGIGYASLIYMSYANPLIALGLMAVGLISATVGTYLIFGSLLPVMINKLKSNKKRSEKGLNAFTFAQLNFRINSLTNVLATVAILVALGAGGIACGMAFKNNIINMTDQMRIYDSVIHNPTAEEKTILGGILFQEKFEYHYKVDDRYVYYLKEDVEKNRPFLQGMKIEKVSEEVPIGAFSIKWVKGEIDTKQWIQAFRTIQPNYMYPDYEIKIVEQNIYDGLKGKESTVFIGKTDDFGSYIKEWKKLDELQIAKYKNVKAEELDSKYQKYITSHDFSSGLMFMGFFVGVAFLAMMASCLMFKVLSGASKDVARYQMLRKIGVRRELLTKSIYKELFFIFLFPAIVGITHILVGMNMFGSLLIDPYFRIWLPLVIFVVIYSIYYLITVQLYKGIVLPKKD	PGPT0013350_10941	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01765	762	yxdL_1	COG1136	ABC transporter ATP-binding protein YxdL	ATGATAAAGCCAGTTGTAGATGTAAAAAACATTCAAAAATTGTACGGTAAAAAAGGTGAGAATCAATCACATGCATTAAAAGGTGTATCATTCTCAATTCAAGAGGGGGAGTTTGTCGGTATTATGGGGCCTTCTGGTTCTGGTAAAACAACATTATTAAATGTAATTTCAACGTTAGATAAAGCGACAGGCGGCGTTGTTGAAATTGCAGGAACGGATATTACGAGGATGAAGCAGGGTGAACTTTCTGATTTTCGTTCACAAAAGTTAGGATTCATTTTCCAAGACTTTAACTTATTGGAGAATTTATCTATCTATGAAAATATCGCACTCCCACTTTCACTTCAAGGTGTTTCATCTCGTAATATTGGAAAGAAAGTAGAAAAAGTAGCTGATATGTTAGGCATTACAGCTATACTTCAAAAATATCCTTCTGAAGTATCTGGTGGACAAAAGCAACGTTCCGCAGCAGCACGTGCGTTAGTTCATGAACCAGCAATTATTTTGGGAGACGAGCCGACTGGAGCCCTAGATTCTAAAAATGCAACGAGTTTACTTAATGCCATGACAAGCTTAAATAAAGAGCAAGGTGTATCCATTATGATGGTTACGCATGATCCTTACAGCGCAAGTTACTGTCAACGTATTTTATTCATTCAAGATGGTGAGTTATATAAAGAAATTCATCGCGGTAGTACCCGTGAAGAATTCTATAAAGAAATTTTAGATGTGCTTGCAAACTTAGGCACAGAAAAAGCGTAA	MIKPVVDVKNIQKLYGKKGENQSHALKGVSFSIQEGEFVGIMGPSGSGKTTLLNVISTLDKATGGVVEIAGTDITRMKQGELSDFRSQKLGFIFQDFNLLENLSIYENIALPLSLQGVSSRNIGKKVEKVADMLGITAILQKYPSEVSGGQKQRSAAARALVHEPAIILGDEPTGALDSKNATSLLNAMTSLNKEQGVSIMMVTHDPYSASYCQRILFIQDGELYKEIHRGSTREEFYKEILDVLANLGTEKA	PGPT0013345_3424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01766	1077	sasA_7		Adaptive-response sensory-kinase SasA	ATGAAGAATGTTAGTTTCAGAAATAAGATCATTATAAAACTTCTTGGTGCTGTTGCAATTAGTTTTTTTATTTCATTTGGTTTAACAATCCTCATTTTGGCATACGTCATAGATCCATTATTTATAAAACACGAAGAATTTGGTATGTTTGAATTCAATGTCGCAATGTTGTTCTTATTCGCGTTCGCAATCTTTACCTTTATTATACTTTTTTTGATATTGGTTCGAAAGAAAATAGTATATTTGAAGCTTATTTCTGATAACGTGAATGATATTGCCAATGGAAAACTAGGTCTAACAATTGGGATTAAGGGGAAGGACGAATTGACCCAACTTGCTAAAAATATCAACTATATGTCTAAGGAATTGGAAAATACATTTGAACAAGAAAGACGATTAGAACGTACAAAAAATGAGCTCATAACTAACGTATCTCATGACTTACGCACACCGTTGACATCTATTATTGGTTATTTAGATTTATTAAAAAGAGGGCAATACAACAATAACACACAATTACAGGAATACCTTGAAACCACTTATTCAAAGTCACAGAGACTGAAATATTTAATTGATGAGCTGTTTGAATATACTCGTTTATCAGGCATAGATGCTAAGTTAAATCTTAATGAAGTTGATTTATCAGGTCTGTTGGAGCAAATAGTTGGAGAATACATTCCTATATTTGAAAAGGAAAGTTTAATCGTTCAAAAATCAATTACACAAGAAATAATACCTATCTTCATAGATGCAGAAAAAATGGTACGTGTATATGAAAATCTGTTTATGAATGCGATAAAGTACAGCATGAAACCATCCCAATTATTCATATGTCTTGAATTAATGGATAACAAAGCAATTTTAAAAGTATCAAATAAAGTCGAGAGATCGCCTGTTAGCGATCCAAATAAATTGTTTGAAAGGTTTTTCAGGGGTGATAAGGCAAGAAAAAATAATCAAGGAAATGGACTGGGACTTGCTATCTCAAAAAGAATTGTTGAACTTCATGATGGTAATATACATGCAGAATATAAAGATGGCTGGATGTCCTTTATTGTTGAACATCCAATCAAATAG	MKNVSFRNKIIIKLLGAVAISFFISFGLTILILAYVIDPLFIKHEEFGMFEFNVAMLFLFAFAIFTFIILFLILVRKKIVYLKLISDNVNDIANGKLGLTIGIKGKDELTQLAKNINYMSKELENTFEQERRLERTKNELITNVSHDLRTPLTSIIGYLDLLKRGQYNNNTQLQEYLETTYSKSQRLKYLIDELFEYTRLSGIDAKLNLNEVDLSGLLEQIVGEYIPIFEKESLIVQKSITQEIIPIFIDAEKMVRVYENLFMNAIKYSMKPSQLFICLELMDNKAILKVSNKVERSPVSDPNKLFERFFRGDKARKNNQGNGLGLAISKRIVELHDGNIHAEYKDGWMSFIVEHPIK	PGPT0028480_198	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
AK009_01767	687	phoP_2	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGAGTCAAAAATTCTTATTGTTGATGATGATAAAGAGATTAGAAATCTTATCTCTGTATATCTAGAAAATGAAGGCCTAAAAACTCAAAAGGCAGAAGATGCTATACAAGCTTTACAACTGTTAGAAGAAAAGGAATTTGATTTGGTTATTTTAGATATTATGATGCCGAATATGGATGGCATTGAAGCATGTATGAAAATTAGGGAAGATCGCAATATGCCTATCATTATGCTATCTGCAAAATCTGAGGATATAGACAAAATTCAGGGCCTAGCCTCTGGTGCAGACGATTATTTATCAAAACCGTTTAACCCATTAGAATTAATCGCTAGAGTGAAATCCCAATTAAGAAGATTTAAAAAATACAATACGTCCGTAGAACATAATAAAAGCATTCTAGAAATTGGTGACTTAACCGTAAATACAGATACACGTCAAGTATGGGTAAGAGGAAAAGAAACAAGGTTAACTCCAAAAGAGTTTGCTATTCTCGAACTACTTGCCCGCAATAAAGGGATTGTCCTGAGTGTAGCAAAAATATATGAAGCAGTTTGGAAAGAGGTTTTTTATAAATCAGACAATACCGTCATGGTGCATATTACAAAAATAAGAGACAAAATTGAAGAGGATTCTAAACATCCCATTTACATTAAAACTGTTTGGGGAATTGGGTATAAAATATGA	MESKILIVDDDKEIRNLISVYLENEGLKTQKAEDAIQALQLLEEKEFDLVILDIMMPNMDGIEACMKIREDRNMPIIMLSAKSEDIDKIQGLASGADDYLSKPFNPLELIARVKSQLRRFKKYNTSVEHNKSILEIGDLTVNTDTRQVWVRGKETRLTPKEFAILELLARNKGIVLSVAKIYEAVWKEVFYKSDNTVMVHITKIRDKIEEDSKHPIYIKTVWGIGYKI	PGPT0028485_91	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
AK009_01768	951	blaZ_2		Beta-lactamase 3	ATGATAGTCTTAAACAAGTTTTTTAACATTTTACATTACAAAAAGATGGTACCTGTAGTATTTCTTTCATGTGCAACGCTTATAGGCTGTTCCGATGGTAATACTCAATCTGAATCACTTAAACAAACGAAACAAACAAATCAAATCAAACAAGAAACTACTGGTAATGATTCTTTTGCTAAACTTGAAAAAGAATTTGATGCTAAACTTGGTATTTATGCATTGGACACTGATACGAATCAAACCGTTACGTATCAATCAGATAAACGGTTTGCATACGCATCTACCCACAAAGCTTTAGCTGTGGGAGTACTTTTACAAAAGAAATCAATAGAAGATCTAAATCAAAGAGTTTTGTATACTCGTGAAGATCTTGTTAATTACAATCCAATTACAGAAAAGTATGTTGATAGGGGGATGACTCTGAAAGAGCTTGCAGATGCTTCCCTTCGATATAGTGATAATACTGCACAAAATCTTATTCTTAAACAATTAGGTGGACCTAGCGAATTCAAAAAATCACTGAGAGAAATAGGAGATACCGTTACAAATCCTGAACGTTTTGAACCAGAGTTAAACGAAGTGCATCCAGGAGACGTACATGATACTAGTACCCCAAAGGCATTAGCTACTAGTCTTCAGGCTTTTGCGTTAGGAGATGTACTTTCAACTGAGAAACGGGATTTATTAATAGATTGGATGAAAAGGAATACTACCGGAGACAACTTAATTCGTGCTGGAGTTCCAGGAGGATGGGAAGTAGCTGATAAGACGGGCTCGGGATCTTATGGAACCAGAAATGATATCGCAATTATTTGGCCACCAAATAAAAAGCCAATTGTTCTTGCGATACTTTCTAATCATGATAAAGAGGATGCTAAATACGATGATAAGCTTATTGCAGAAGCAACCAAAATAGCGCTGGGTGTCTTAAAAGCTAAAAATAAATAA	MIVLNKFFNILHYKKMVPVVFLSCATLIGCSDGNTQSESLKQTKQTNQIKQETTGNDSFAKLEKEFDAKLGIYALDTDTNQTVTYQSDKRFAYASTHKALAVGVLLQKKSIEDLNQRVLYTREDLVNYNPITEKYVDRGMTLKELADASLRYSDNTAQNLILKQLGGPSEFKKSLREIGDTVTNPERFEPELNEVHPGDVHDTSTPKALATSLQAFALGDVLSTEKRDLLIDWMKRNTTGDNLIRAGVPGGWEVADKTGSGSYGTRNDIAIIWPPNKKPIVLAILSNHDKEDAKYDDKLIAEATKIALGVLKAKNK	PGPT0028070_788	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
AK009_01769	429			hypothetical protein	ATGAGTATTATAAATACAAAAGGTGAAATTAAAAAAACAAAAAGAAAAGTATTACTAACTATAATTACTATGTTAGTAATTATAATTGGGTTTGGATATTGGAAATTTTTTAGTTTGCAAGGTGTTCCAAAAGGGGAATTAATTCGAACAGTGAAATCTCCAGATGGAAAATATCTCATCAAGACTTATTTTCATAATGCAGGATCATTAAGTGCGGATGCTGTTAGGGGTGAATTAGTTAACCTTGATACAGATTCAGAGAAAAATATATATTGGAATTATCCAGATACCGATCCATATATTGAATGGGTAAATAAGAATATTGTTAGAATTGGAGATCAAACTTTAGATATTTCACAGAAAGAAACCTATGATTGGCGTGATGATGATAAGCACGTTAAAGAAATGCCTAAACAGTTTAGTAGATAA	MSIINTKGEIKKTKRKVLLTIITMLVIIIGFGYWKFFSLQGVPKGELIRTVKSPDGKYLIKTYFHNAGSLSADAVRGELVNLDTDSEKNIYWNYPDTDPYIEWVNKNIVRIGDQTLDISQKETYDWRDDDKHVKEMPKQFSR				NA	NA	NA	NA	NA
AK009_01770	2112			hypothetical protein	ATGAAAAATTCTATTTACATAAGAAGAAGTTTGAAAGTAATTATAAAAAGAGAAGAAAATAAACTACCGAACATTTATTTAGCCACTGTTTTAAAAAACTTGGAAAGTTTAGGATTTACTTTTTCCGAGCCTTTAATAGAAGAGTTGCAAACACTTTCGGTTGATACATTCACATCGTTTTACAAAGAGTTGGTAAAACATTTAAAAGAAATGGTTGGTGCACATATTCAGTTTGCTCCTATGTATCCAAACTTTCCGCAACAAATGATGGATTTAAGTGACGCTGATTTATACATTAATGCTATTATTCATTATGTGACGTTGCGCCTACCTGTATCAAAAGTAGAAGAACGACTTCCTCTTTTAGATAGCGTTGATTTGAAAGTTATTAACTTAGGAAGTGAAGAAGATTTCAATCAAATGATTTCTCAATTGATTAGTGCAAACAGCTCTATTTCCTCAACTGATAAGACAGATGTAGAATGGGCTATTACACACACTGAAGATGTTTCCTGTTTTCTACCTAATGTAATTCCTCATAAGGAAAATATGTCTTTTATAATTGGAGTTTTATTAATAAACAGAAAAATATCAGCCGATGCTGCTGCAAAGTATTTTAAAACAGCAACTGATGTTCTTCGCCTTGCAGTTGCTTTATCTGAAGGCGATGTGAGTTTAGCATCTTCCGTTCGATTCAAGAAGTTTAACCGAGCAGAAAGACGCTTCCTTTTAGGATTGTTAGAGCAATGCGGAAACATTACCGAAGATATGCTTCGATACAAAAAACGTTGGATTCGTCTAGGTGAAATTCTTCATCCAGCAGAATATCATACTCGTTTCCCAAAAACCCACCGAGCATTTGAGATTCTTCGCAACAACATTAAAGTTGAAACATTTAATGGAAAAATAGAAGCAGCTTTGTTGAATCGTGATATCATGACAGCGAAAAATCTTTTAAAAACTCGCCCTGGGGAATTTGCCAGACGCTTGGATCATTTAATCCGTTTATGTAGTGATAAGTCAACAGATGTTTTCCATATTCTCGAAGAGTTTCTAAGTATAATAGGAGACGTTTCTACTCCTGTATTACTTCAACTCACAGCTCATTTTAAGCATCGAAATGATAAAAATGAATTTCGTACCTTTTTTCCAAAGGGAAATGTAGCAAAAGCTATAGGTATTGAAAATACACTTCCATTTATCTCAGAGGATATTTGTTTAATGATTGTAAAAATGTGTGAAGATACTTTAAAAAATCGCTTCGCAAAACTTCCAAGTCTCGGAAAAGTATTTTTGGATGAACAGTTAAAAAATCACTTAGTTCCCTTCTCTCAACGTTCAGCCAGCAAAGCGCTTCGCACATTATCTCGAGGAAGTAAAGTAGATTTGCCAGAAGGAGATACGATTCGTTTTTTCCTATGGTGGAAAGAAGGCTATGTGAATGGACAACATACAGGACGCGTTGACATTGATTTGTCTGCTGCAATGTACGACGAAGATTGGCAATACAAAGAACATGTATCCTTCACGAACTTACGTTCAAAAAATTTCAAAGCCTACCATAGCGGAGACATTACTTCTGCACCAAAGGGGGCATCTGAATTCATTGATTTCGATATTCCGTCTGTGCTGAAATATGGTGGACGCTATGTAGTCATGACTTTGCTTTCTTACACAGACCAACCATATAAAGATTTACCAGAATGCTTTACTGGTTGGATGGTTCGTCAATATCCTGGTTCAGGTGAAATATTTGAACCTTCTACTGTTCAAGATAAAGTGGATATTACTGCCGACACCCAAATCTCTATTCCAGTTATCTTAGACTTAAAGGAACGAAAATTGATTTGGACAGATTTATCTCTTACAAGAGATCTAACTTATGATAATACCATCGAGGCGAATCAAAAAGGTATGATACTAGTTGGAAAGGCTTTAACTAATTTAGTTAAACCGAATTTATATGACTTGTTCCGATTACATATTGAAGCTAGAGGTGAACTCGTTCAAGACATCGAAGAAGCAGAAACTATTTTCTCTTTGGATAAAGGGATTACTCCTTTCGATATTGAAAAAATAATATCTGATTTTATAGCTGACCCACAAGGCTAA	MKNSIYIRRSLKVIIKREENKLPNIYLATVLKNLESLGFTFSEPLIEELQTLSVDTFTSFYKELVKHLKEMVGAHIQFAPMYPNFPQQMMDLSDADLYINAIIHYVTLRLPVSKVEERLPLLDSVDLKVINLGSEEDFNQMISQLISANSSISSTDKTDVEWAITHTEDVSCFLPNVIPHKENMSFIIGVLLINRKISADAAAKYFKTATDVLRLAVALSEGDVSLASSVRFKKFNRAERRFLLGLLEQCGNITEDMLRYKKRWIRLGEILHPAEYHTRFPKTHRAFEILRNNIKVETFNGKIEAALLNRDIMTAKNLLKTRPGEFARRLDHLIRLCSDKSTDVFHILEEFLSIIGDVSTPVLLQLTAHFKHRNDKNEFRTFFPKGNVAKAIGIENTLPFISEDICLMIVKMCEDTLKNRFAKLPSLGKVFLDEQLKNHLVPFSQRSASKALRTLSRGSKVDLPEGDTIRFFLWWKEGYVNGQHTGRVDIDLSAAMYDEDWQYKEHVSFTNLRSKNFKAYHSGDITSAPKGASEFIDFDIPSVLKYGGRYVVMTLLSYTDQPYKDLPECFTGWMVRQYPGSGEIFEPSTVQDKVDITADTQISIPVILDLKERKLIWTDLSLTRDLTYDNTIEANQKGMILVGKALTNLVKPNLYDLFRLHIEARGELVQDIEEAETIFSLDKGITPFDIEKIISDFIADPQG				NA	NA	NA	NA	NA
AK009_01771	3198		COG0369	Bifunctional cytochrome P450/NADPH--P450 reductase	ATGGAAAAAAAAGTATCTGCCATTCCCCAGCCGAAAACATATGGACCGCTGGGTAATCTCCCATTAATCGATAAAGATAAACCGACTCTATCGTTTATTAAGCTGGCGGAAGAGTATGGTCCCATTTTTCGAATTCAAACTTTAAGTGATGCCATAATTGTCGTTTCTGGACATGAACTGGTAGCAGAAGTTTGTGACGAAACGCGGTTCGATAAAAGCATAGAGGGTGCTTTGGCAAAGGTTCGTGCCTTTGCTGGAGACGGATTATTTACTAGCGAGACTCACGAGCCTAACTGGAAAAAAGCTCATAATATTTTGATGCCTACATTTAGCCAACGGGCAATGAAAGATTACCATGCCATGATGGTCGATCTTGCTGTACAACTCGTTCAAAAATGGGCACGGCTTAATCCGAATGAAGACGTAGATGTTCCGGAGGATATGACTCGCCTTACGTTAGATACAATTGGTCTATGTGGTTTTAATTACCGATTTAATAGCTTTTATCGTGAGACCCCTCATCCTTTTATCACTAGCATGAGCCGTGCTCTAGATGAGGCAATGCACCAATTGCAGCGGCTGGATATAGAAGACAAACTCATGTGGAGAACGAAACGTCAATTTCAGCATGATATCCAATCTATGTTTTCTTTAGTAGATAATATTATTGCTGAACGTAAAAGTAGTGGAGATCAGGAAGAAAATGATTTACTTTCCCGTATGTTAAATGTACAGGATCCGGAAACTGGTGAAAAATTAGATGATGAAAACATTCGTTTCCAAATTATCACTTTTTTAATAGCTGGGCATGAGACAACAAGTGGATTGTTATCTTTTGCAATTTACTTTTTATTAAAGAATCCGGATAAGTTAAAAAAAGCCTATGAAGAAGTAGACCGTATTTTGACAGATCCTACTCCAACATACCAACAAGTTATGAAACTGAAGTATATACGGATGATTTTAAATGAATCGCTACGTCTATGGCCTACCGCTCCAGCATTCAGTCTCTATGCAAAAGAAGATACAGTGATTGGCGGGAAATACCCAATTAAGAAAGGAGAAGATCGTATTTCTGTTCTTATTCCACAGCTGCATAGGGATAAAGATGCATGGGGAGACAATGTGGAAGAATTCCAACCTGAACGATTTGAAGAGCTGGATAAGGTTCCTCATCATGCTTATAAGCCATTTGGAAATGGCCAGAGAGCATGTATCGGTATGCAATTTGCACTTCATGAAGCCACTCTTGTAATGGGAATGCTTCTTCAACATTTTGAATTAATCGATTATCAAAACTATCAGCTGGACGTAAAACAAACATTAACGCTAAAGCCCGGTGATTTTAAGATTAGGATTCTACCCCGAAAACAAACTATTAGTCATCCTACTGTTCTTGCACCTACAGAGGACAAGCTGAAAAACCATGAAATTAAGCAGCACGTTCAGAAGACACCTTCTATTATTGGGGCTGATAATCTTTCACTTCTTGTTCTGTACGGCTCGGATACAGGTGTAGCAGAAGGTATTGCAAGAGAATTAGCAGATACAGCTAGTTTAGAAGGGGTTCAAACGGAAGTGGTAGCTCTTAACGATCGAATTGGAAGTCTACCGAAAGAAGGAGCGGTTCTTATTGTAACTTCTTCTTATAATGGAAAACCGCCAAGTAATGCAGGACAGTTTGTGCAATGGTTGGAGGAACTAAAACCAGATGAGCTAAAAGGTGTTCAATACGCAGTTTTTGGTTGTGGAGATCATAATTGGGCTAGTACCTATCAACGGATTCCAAGATACATTGATGAGCAGATGGCTCAAAAAGGAGCAACAAGGTTTTCTAAACGCGGAGAAGCAGATGCAAGTGGTGATTTTGAGGAACAGCTCGAGCAATGGAAACAAGGCATGTGGTCTGATGCGATGAAGGCATTTGGATTGGAATTTAACAAAAATATGGAGAAAGAGCGTAGTACTTTGAGTCTGCAATTTGTCAGTCGTCTTGGAGGATCTCCTCTTGCACGAACATATGAAGCAGTTTATGCAACTATACTAGAAAATCGTGAACTCCAATCATCCAGCAGCGATAGAAGTACACGACATATCGAGGTATCCTTGCCAGAAGGCGCTACATATCAAGAAGGAGACCACCTTGGAGTGCTGCCAATTAATAGCGAGAAGAATGTTAATCGAATTTTAAAACGCTTTGGATTAAACGGAAAGGATCAAGTCATACTGAGTGCAAGTGGACGAAGTATAAATCACATACCTTTAGACAGTCCTGTTAGTTTATTGGACCTTCTTAGTTATAGTGTCGAAGTTCAAGAAGCAGCCACTCGTGCACAAATACGGGAAATGGTAACATTCACAGCATGCCCTCCTCATAAAAAAGAATTGGAAGCATTATTAGAAGAAGGGGTCTATCATGAACAAATACTAAAGAAACGTATTTCAATGTTGGATCTTCTTGAAAAGTATAAGGCTTGTGAAATCCGATTTGAACGCTTTTTAGAACTGCTTCCTGCGCTCAAACCGCGTTACTATTCTATTTCAAGCTCTCCACTTGTTGCACAGAATCGTCTGAGCATTACGGTCGGTGTTGTTAATGCGCCTGCATGGAGTGGAGAAGGGACATATGAAGGAGTCGCTTCTAATTATTTAGCTCAGCGTCATAATAAAGATGAGATTATTTGTTTCATTCGAACGCCACAATCAAACTTTGAATTACCTAAAGATCCAGAAACACCAATTATTATGGTTGGGCCAGGTACTGGAGTTGCACCATTCCGTGGATTCTTGCAAGCGCGTCGTGTTCAAAAGCAAAAAGGTATTAATTTAGGACAAGCGCATCTATATTTTGGTTGTCGTCATCCTGAAAAAGATTATCTCTATCGTACAGAGCTAGAAAATGATGAAAGAGATGGATTAATCTCTTTACACACAGCTTTTTCTCGTCTAGAGGGACATCCCAAAACATATGTACAGCATTTAATAAAACAAGATAGTATCAATTTAATTTCGTTATTAGATAATGGAGCTCATCTTTATATATGTGGTGATGGCAGTAAAATGGCTCCGGATGTAGAAGATACCCTTTGTCAAGCATATCAAGAAATTCATGAAGTCAGTGAACAAGAAGCAAGGAATTGGTTGGATCGTGTGCAAGATGAAGGGCGATATGGAAAAGATGTTTGGGCTGGTATATGA	MEKKVSAIPQPKTYGPLGNLPLIDKDKPTLSFIKLAEEYGPIFRIQTLSDAIIVVSGHELVAEVCDETRFDKSIEGALAKVRAFAGDGLFTSETHEPNWKKAHNILMPTFSQRAMKDYHAMMVDLAVQLVQKWARLNPNEDVDVPEDMTRLTLDTIGLCGFNYRFNSFYRETPHPFITSMSRALDEAMHQLQRLDIEDKLMWRTKRQFQHDIQSMFSLVDNIIAERKSSGDQEENDLLSRMLNVQDPETGEKLDDENIRFQIITFLIAGHETTSGLLSFAIYFLLKNPDKLKKAYEEVDRILTDPTPTYQQVMKLKYIRMILNESLRLWPTAPAFSLYAKEDTVIGGKYPIKKGEDRISVLIPQLHRDKDAWGDNVEEFQPERFEELDKVPHHAYKPFGNGQRACIGMQFALHEATLVMGMLLQHFELIDYQNYQLDVKQTLTLKPGDFKIRILPRKQTISHPTVLAPTEDKLKNHEIKQHVQKTPSIIGADNLSLLVLYGSDTGVAEGIARELADTASLEGVQTEVVALNDRIGSLPKEGAVLIVTSSYNGKPPSNAGQFVQWLEELKPDELKGVQYAVFGCGDHNWASTYQRIPRYIDEQMAQKGATRFSKRGEADASGDFEEQLEQWKQGMWSDAMKAFGLEFNKNMEKERSTLSLQFVSRLGGSPLARTYEAVYATILENRELQSSSSDRSTRHIEVSLPEGATYQEGDHLGVLPINSEKNVNRILKRFGLNGKDQVILSASGRSINHIPLDSPVSLLDLLSYSVEVQEAATRAQIREMVTFTACPPHKKELEALLEEGVYHEQILKKRISMLDLLEKYKACEIRFERFLELLPALKPRYYSISSSPLVAQNRLSITVGVVNAPAWSGEGTYEGVASNYLAQRHNKDEIICFIRTPQSNFELPKDPETPIIMVGPGTGVAPFRGFLQARRVQKQKGINLGQAHLYFGCRHPEKDYLYRTELENDERDGLISLHTAFSRLEGHPKTYVQHLIKQDSINLISLLDNGAHLYICGDGSKMAPDVEDTLCQAYQEIHEVSEQEARNWLDRVQDEGRYGKDVWAGI	PGPT0006740_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
AK009_01772	1542	emrY		putative multidrug resistance protein EmrY	GTGCAAATATGTAAACGATTTAAACGAATCAATGAAATTTATAATGAAGGGGCAATTAAATATATGAGTGAAACATTACATAAAAGAAAACCACCATATTTAATGCTTGTAATCCTTTTTATTGGGGCATTTGTTTCATTTCTAAATAACTCGCTTTTAAATGTAGCCTTGCCATCAATAATGAAAGATTTAGACATTCAAGATTATTCAACGATCCAGTGGCTTTCTACAGGGTATATGCTTGTAAGTGGTATATTAATTCCGGCATCAGCATTTTTAATAACGCGTTTCTCGAATAGAAGCCTATTCATTACATCTATGGTGATTTTTATTCTTGGTACTGCCTTAGCAGCTGTAGCGCCGAATTTTGGTTTATTACTTACTGGTCGGATGGTTCAAGCGGCAGGCTCTTCAGTTATGGGGCCTTTGTTAATGAATATTATGCTAGTAAGCTTTCCAAGAGAAAAAAGGGGAACAGCAATGGGGATTTTTGGACTAGTTATGATTACAGCTCCAGCAATTGGACCGACACTATCAGGTTATATTGTAGAGTATTATGACTGGCGTTTGCTTTTTGAAATGATTTTACCGTTAGCAATCATTAGCTTACTGTTAGGGATTTGGAAATCTGAGAATGTCATGAAACAAAACAAAAATGCAAAACTTGATTATCTCTCATTACTATTATCTTCTGTCGGTTTTGGCGGTTTGTTATATGGATTCAGTTCTGCAAGCTCCGATGGTTGGACAAATAAAGTTGTCTTAACAACCTTAATCATAGGCGCTATTGCCCTAATTGCTTTTATTATCCGCCAATTAAAAATGGATGAGCCATTATTGGATTTACGTGTTTACAAGTACCCAATGTTTGCACTTGCGTCTGTAATTGCAATTGTCAACGCAGTGGCCATGTTTTCGGGGATGATTTTAACACCAGCTTATGTACAAAACGTCCGCGGTATTTCACCGCTGAGCTCTGGGCTGATGATGCTTCCAGGTGCGGTAATAATGGGGGTTATGTCACCAATTACAGGTAAACTATTTGATAAATATGGCCCTCGGATTCTTGGTATAGTAGGACTTTCCATTACAGCCGTTTCAACTTATATGCTGGCAAATCTGCAACTCGATTCTAGTCACACACATATTATTCTTATTTACACATTGCGGATGTTTGGGATGGCGATGGTGATGATGCCACTTATGACAAATGGCCTCAATCAATTGCCAACGCGCTTAAATCCGCACGGTACAGCTGTTAATAATACAGCTCAACAAGTGTCCGGTTCGATTGGTACTGCTATTCTTGTTACGATTATGAATTCTGTAACAAAAACAAAAGCTGAAAGTCTAATGGCTGATGTAGATCCAACAACCTTCACAGAGGCTACGAAGGCAATGTTAACTCAGAAGGCTTTATTATCCGGAATTCAATATTCATTCTATGTAGCGCTTGGCATGAATGTTGTTGCACTACTATTAGTTTTTTTCGTTAAACGTGTAGATACAAGTGCGGAAGCTGTCGAGAAGTTAAATCGGTAG	MQICKRFKRINEIYNEGAIKYMSETLHKRKPPYLMLVILFIGAFVSFLNNSLLNVALPSIMKDLDIQDYSTIQWLSTGYMLVSGILIPASAFLITRFSNRSLFITSMVIFILGTALAAVAPNFGLLLTGRMVQAAGSSVMGPLLMNIMLVSFPREKRGTAMGIFGLVMITAPAIGPTLSGYIVEYYDWRLLFEMILPLAIISLLLGIWKSENVMKQNKNAKLDYLSLLLSSVGFGGLLYGFSSASSDGWTNKVVLTTLIIGAIALIAFIIRQLKMDEPLLDLRVYKYPMFALASVIAIVNAVAMFSGMILTPAYVQNVRGISPLSSGLMMLPGAVIMGVMSPITGKLFDKYGPRILGIVGLSITAVSTYMLANLQLDSSHTHIILIYTLRMFGMAMVMMPLMTNGLNQLPTRLNPHGTAVNNTAQQVSGSIGTAILVTIMNSVTKTKAESLMADVDPTTFTEATKAMLTQKALLSGIQYSFYVALGMNVVALLLVFFVKRVDTSAEAVEKLNR	PGPT0029035_8	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
AK009_01773	597			hypothetical protein	ATGCACCAATATTGGTATTTGAATTCAAAGGGAAACGGGGAACAATATACTAACCAAATTTCATTATATTCACAGCCCGAAATAACTAAATCTGAGGTAATGAATGATTTGAAGATTCCTGAGAATTGGAGTTACCGAGTCTATCCAGTTAGTTGGGATTCATCAGCCAATTATACGGGATTCACTCCCCAACCCCCTCCCTTCTCTTGGGGGCAGCAGCCAATTAATTATACAGGGATAATACCACAAGGTCACCCTGCTAATTGGACTCCATTACCAGGTCATGCAGGTTTTAATTTTCAAAAACCTCCCTTCCCCTGGGCGCAACCATTCAATCATACAGGGATGTTTGCACAAGGTCATCTTGCCGCTTTACTATCGCCGCCAGCCAAGCCTTTTCATTTCAATACCAATAACTCGGGTGTTTTTGGAAATCCTTCAGGATGGGGTGGTCCGTGGGCCCCAATGGGATGGGGAAATAACGGAGGTAACGGTCAGCTAGGAATGCTTGGAAACTTACTTACAGCAGGAAAAGGCACCATGAGTGGAATAGGAATGATTAGTAGTCTAATCGGGATGGGGAAGTTCTTCTTTTAG	MHQYWYLNSKGNGEQYTNQISLYSQPEITKSEVMNDLKIPENWSYRVYPVSWDSSANYTGFTPQPPPFSWGQQPINYTGIIPQGHPANWTPLPGHAGFNFQKPPFPWAQPFNHTGMFAQGHLAALLSPPAKPFHFNTNNSGVFGNPSGWGGPWAPMGWGNNGGNGQLGMLGNLLTAGKGTMSGIGMISSLIGMGKFFF				NA	NA	NA	NA	NA
AK009_01774	996	cuyA	COG2515	L-cysteate sulfo-lyase	ATGAATTTAGCTAAATTCCCGAGAAAAAAATATACAGAGTCATATACACCAATTGAAAAATTAAACAATTTTTCTGAAGTACTTGGTGGGCCGACTATTTATTTTAAACGAGATGATTTACTTGGTTTAACAGCTGGTGGTAATAAGACGAGAAAGTTAGAGTTTCTAGTTGCGGATGCACAGGCAAAAGGTGCAGATACGTTAATTACAGCTGGTGGTATTCAGTCAAACCATTGCCGTCTAACACTGGCAGCTGCGGTAAAAGAAAAAATGAAATGTATCCTTGTATTAGAAGAAGGGCTTGAACCAGAAGAGAAGCCAGACTTTAACGGAAACTATTTCTTATATCACTTATTAGGTGCTGAAAATGTCATTGTTGTACCAAACGGAGCAGACCTGATGGAAGAAATGCATAAAGTAGCAAAAGAAGTAAGTGAAAAAGGGAATACACCATATGTAATTCCAGTTGGTGGATCAAACCCTACGGGCGCTATGGGATACGTTGCTTGTGCGCAAGAAATTATGGCGCAATCATTTGAGCAAGGAATTGATTTCAGTTCAGTTGTTTGTGTAAGTGGTAGCGGCGGTATGCATGCTGGTTTAATTACTGGTTTTGCTGGAACACAAAGCCACATTCCTGTAATTGGAATCAACGTAAGTAGAGGAAAAGCTGAGCAAGAAGAGAAAGTAGCAAAACTTGTAGATGAAACTTCAGCACACGTTGGTATTCCAAACTTTATCTCGCGCGACGCTGTTACGTGCTTTGATCAATATGTAGGACCAGGCTATGCGTTACCAACGCAGGAAATGGTAGAGGCAGTTCAGTTACTTGCGAAAACAGAAGGTATTTTACTTGATCCAGTGTATACAGGTAAAGCGGTAGCGGGATTAATCGACTTAATTAAAAAAGGGACATTTAATAAAGAAGACAACATTTTATTCGTACATTCAGGTGGTTCACCAGCTTTATATGCGAATACGTCTTTATTTGCGTAA	MNLAKFPRKKYTESYTPIEKLNNFSEVLGGPTIYFKRDDLLGLTAGGNKTRKLEFLVADAQAKGADTLITAGGIQSNHCRLTLAAAVKEKMKCILVLEEGLEPEEKPDFNGNYFLYHLLGAENVIVVPNGADLMEEMHKVAKEVSEKGNTPYVIPVGGSNPTGAMGYVACAQEIMAQSFEQGIDFSSVVCVSGSGGMHAGLITGFAGTQSHIPVIGINVSRGKAEQEEKVAKLVDETSAHVGIPNFISRDAVTCFDQYVGPGYALPTQEMVEAVQLLAKTEGILLDPVYTGKAVAGLIDLIKKGTFNKEDNILFVHSGGSPALYANTSLFA	PGPT0002000_140	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950	NA	NA
AK009_01775	1233	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAAAAAGACAGTTGCTTCGTTAGCAGTTATGGCGGCATTATTACCGACGTTTTCAGTGCATGCGGAAGGGAAAGAGCAAGTCCGGAAATCAGCTACAACTTTTAACGTTATTAGTGATATTCAAGGGGATTTAGGGGATTTTGATCATGTGCTAAAAGATATGAACAAAATGACGCCACTTTCTAGAGCGCTTATTATGAATGGGGATATAACGCCAACTGGACAACAGTCACAATATGATGATGTAAAGCGTGTGTTAAATAAAAATAAGCATCCAGAAAATGTATGGTCTACTGTTGGGAATCATGAGTTTTATGCTGGGAAATGGACAGCAGATGGGAAACTCTCTCAAAGTACATGGCCAAATGGTGTAACTGAGGAAACTTTATTTAACCGATATCTGAAATTTAGTGCACAAGAAAAGGTATATCATAAAAAAGAATTAGATGGTTATCCGCTTCTATTTTTAGGAACTGAAAAATATATGAAATACCACGATTCAAAAATGTGGGACGAAGTATATATGAGTGATGAGCAATTAGGTTGGTTAAAACAAAATTTAGAAGAGTATAGTCAAAAAGATAAAAATAAGCCAATCTTTATTTTCTCTCATCACGTTTTACCTGATACGGTATCTGGATCAAGACAATCGCCGTATTTACAAGATTATTTAAACGTGGATAAATTGTACGATATATTAAAAGACTATCCGCAAGTGGTTTTCTTCACGAGTCATACACATTGGGATTTAAACTTACCTGACTGGGCTGGTAAAAAGAAAATTAAAGGCGGAGATGAAAAAGGTTTCACTGTTGTAAATACGGGCGGGATTGAAACAGGCTGGATGTCAGCGGGACCAAATGGAGGAGAGAAAACTGCTCCAGATGGCTATTCATTTAAACAAGGGTTACAAGTGAAAGCATATGGTAACGATGTAATTGTGACAGCTTACGATTACAAACGTGATAAGGATATAAAGAAGTTATTAATTAGTGATTCAAAAATTGCGCAGATGGCACCAAATGTAGCGGCAGATGATAGTAAAAATATAATTGTCGGTGCAACTGAATATATGGAGTATTCTATAGAAGGAACGAATGAGTGGCATACGTATAGTAAAGCAAACCCTCCGAAATTTGATGGGGATAAAGTGGTATACGTACGCCATAAAGGTGAAATGAATTTAGAGCCGGGATTAACACAGTTACTTCTTTTTTCGGTAAATAAGTGA	MKKTVASLAVMAALLPTFSVHAEGKEQVRKSATTFNVISDIQGDLGDFDHVLKDMNKMTPLSRALIMNGDITPTGQQSQYDDVKRVLNKNKHPENVWSTVGNHEFYAGKWTADGKLSQSTWPNGVTEETLFNRYLKFSAQEKVYHKKELDGYPLLFLGTEKYMKYHDSKMWDEVYMSDEQLGWLKQNLEEYSQKDKNKPIFIFSHHVLPDTVSGSRQSPYLQDYLNVDKLYDILKDYPQVVFFTSHTHWDLNLPDWAGKKKIKGGDEKGFTVVNTGGIETGWMSAGPNGGEKTAPDGYSFKQGLQVKAYGNDVIVTAYDYKRDKDIKKLLISDSKIAQMAPNVAADDSKNIIVGATEYMEYSIEGTNEWHTYSKANPPKFDGDKVVYVRHKGEMNLEPGLTQLLLFSVNK				NA	NA	NA	NA	NA
AK009_01776	414			hypothetical protein	ATGAGGAAGAGTAAAATGTTTCAGGATTTTAATTTTAAGTTAGTGGTAATTGAAGCTTTATTAGATAAAGAGCCACTATTTCTAAAAGAATTGAAAGACTTAATAGAAAAGCATACAAATTATTTTGAATGGTATTCAGGAGCTGGGCCAATTGTTGAAATCAAAGCTTTTTTAGAAGCGTTAACTTTGGAAATAAGTGATTTGGAAAAGATTGAGTCCCTTTGCTTTGATGGTGGGAATGAAATTTATCATATTTTAAAGCCTGATTGGGACGGTGAAGACAGTTTATTTGATGTTATATCTGTTGAAGGATTTCAAAATCTAAAAAATTTAAAAACAGTGGAATATATTTCAATGTGTTACCCGAAAGTATTAGAACCATTAAAACAGGCTGGAATAGAAGTTGAGGATTAA	MRKSKMFQDFNFKLVVIEALLDKEPLFLKELKDLIEKHTNYFEWYSGAGPIVEIKAFLEALTLEISDLEKIESLCFDGGNEIYHILKPDWDGEDSLFDVISVEGFQNLKNLKTVEYISMCYPKVLEPLKQAGIEVED				NA	NA	NA	NA	NA
AK009_01777	759			hypothetical protein	TTGATAAGAAATTTAAAGAAAGCAGCACTTAATTCGTTAGATGGGAAATGGGGAGTAAGTATAGGGATATCGGCGTTATACTATTTTGTACCAACTTTAAGTGCATCAGCAATCGCTAGTTTTATATATTTAATATTTGGCTTGTTTATTGGGATAATTGGTTTGGATGTTTTCTTTATTTATTCAATGGGTGGGCAACTACAAGTAGATCTAACAGCACTAGTTTTACTTATTCTAAGTTATTTTTTTATAGGACTGATTTGTTTCTTAATTTACAGTGTCATACAAGGTATCTTTAATTATGGGTATTCTGTTTTCACCTTACGCTTAGGTAAAAATGAAGATGCTAAGGTGGACGATGTATTTGTGGGGTTTAGGAAAAATAATTTGTGTAAATCAATGAAATTAGGAGTGTTGCAGGCTGTTTTTCTATTTTTATGGAGTCTGTTATTAATTGTTCCAGGTATTATTAAATATTTTTCTTATTCAATGGCATATTATATTTTAATAGAGAATCCGGATTATACAGCAAGTGAAGCATTAAGGGAGAGTAAAAGAATAATGAAAGGACATAAGTTCAAGTTATTTGTTCTTTGGTTATCTTTTATTGGTTGGTTTTTATTAACTGCATTTATAGGCATGTTTACATTTAATCTGTCATTCATATTCATTTCCCCTTATTACAACACAACTGTCTCGCATTTTTACTTAGACTTAATTAAGAAACAAGATGCTAGAGAAGCGAAGGTAAGTATATAA	MIRNLKKAALNSLDGKWGVSIGISALYYFVPTLSASAIASFIYLIFGLFIGIIGLDVFFIYSMGGQLQVDLTALVLLILSYFFIGLICFLIYSVIQGIFNYGYSVFTLRLGKNEDAKVDDVFVGFRKNNLCKSMKLGVLQAVFLFLWSLLLIVPGIIKYFSYSMAYYILIENPDYTASEALRESKRIMKGHKFKLFVLWLSFIGWFLLTAFIGMFTFNLSFIFISPYYNTTVSHFYLDLIKKQDAREAKVSI				NA	NA	NA	NA	NA
AK009_01778	921			hypothetical protein	ATGTGCGTGAAACAAGGTGAAGCAAGTGTAACGTCGTTAGTATCAGCATTCGGAAGGGCGTATCATAGTGAATTTGATAATCCTAAAATCTTTGATGATTATGTAGCTAAAGATTTCATTTCACAAAAAGAACGTAACAATATTGAAACGAACATGGTTCAAGGGATTCACTTTTTCAATACAGACATTGCAGAGCAGTTTCAAGACAATCCAAAAGAAATATTAAAATGGATTACGCAAGTTCAGTTATCACCAACACCTTTAGCACGTGCCGCATATTGTGAAAGAGTATTACTACGTGAAATTATATTAGGAGCGAAACAATACGTCATACTCGGTGCAGGCTTAGATACGTTCAGTTTTAGACACCGAGAATTAGAAAATAAAATAGAAATATTTGAAGTGGATCATCCTTCTACGCAGGCGTTTAAGAAGGAAAGAATAAAAGAAGTAGAACTTGAAGTTCCAAATCACCTTCATTTTGTTTCGATGGATTTTACGAAAGGAATTTCCTATGAACAGTTACAGACTGAAGGATTTGAACATAAAAAGACTTTCTTTAGCCTTTTAGGTGTTACGTACTATTTAACGAAAAAGGAGCTTGCTAGTTTAATAGAGTGCTTGTTTGAGATAGTTCCAGTAGGGAGTTCTATCGTTTTCGATTATCCCGATGAAAACTTATTTACGAAAAAAGGACTGTCCAATCGAGTTGAAAATATGGTGAAAATGGCTGCGGTAGGCGGAGAACCGATGAAATCATGTTATTCTTATGCCGAAATGGAAGCACTGTTAGAGAAGGCGGGCTTACTTATTTATGAGCATTTATCACCAGAGGATATAAATACATTGTATTTTGAAGGAAGAAATGATTATTTAGAAGCTTTTGAGACGGTGCATTATGTGCATGCGGTGAAGAGGTAG	MCVKQGEASVTSLVSAFGRAYHSEFDNPKIFDDYVAKDFISQKERNNIETNMVQGIHFFNTDIAEQFQDNPKEILKWITQVQLSPTPLARAAYCERVLLREIILGAKQYVILGAGLDTFSFRHRELENKIEIFEVDHPSTQAFKKERIKEVELEVPNHLHFVSMDFTKGISYEQLQTEGFEHKKTFFSLLGVTYYLTKKELASLIECLFEIVPVGSSIVFDYPDENLFTKKGLSNRVENMVKMAAVGGEPMKSCYSYAEMEALLEKAGLLIYEHLSPEDINTLYFEGRNDYLEAFETVHYVHAVKR				NA	NA	NA	NA	NA
AK009_01779	582			hypothetical protein	ATGAAAAGATTAGTCATCATTACAGTTGGAAAAACACACAGTGGAAAAACTACATTTGCAAAAGCTTTAGAAAAAGAGTTACCCCACTCTTTCGTTATGGATCAAGATAACCAAGCTGAATTTATTAACACGCATTATGAAAAATTACAGCCGGCTGAAGGTGCTAATACATTTAAGCACGGTCTTTCAAAATTCATTGTTGATTATGCGAAAGAACATACAAATTTACACCTTATTATTTGTAATTCCAATCGCAGTAAAAGCGGAAGATTCTATTTACTAAACGAATTATTTCCACAGAATGAATATGTACGCATATTAGTTCATTTTAACATTCCAGATGATGTACTTTACGAAAGAGTGGCTCGAAGCACGCGAAGTACGAATATTTTTAGAGGTGGATATTCTAGTTTCAAAGAAGTACTTGATCGACAACAAACTGAATCACTTCACGATGATGTGGTAGATCCTGTAGAAAACGAGGCTGATTATTTGTTTGTTATTCGCAATAATAAAGATGTAAGCTTTACTATAGAAGAAATTGTTCATCTAGCTAAAGGTTTATCCCCTACCCCCAAATAA	MKRLVIITVGKTHSGKTTFAKALEKELPHSFVMDQDNQAEFINTHYEKLQPAEGANTFKHGLSKFIVDYAKEHTNLHLIICNSNRSKSGRFYLLNELFPQNEYVRILVHFNIPDDVLYERVARSTRSTNIFRGGYSSFKEVLDRQQTESLHDDVVDPVENEADYLFVIRNNKDVSFTIEEIVHLAKGLSPTPK				NA	NA	NA	NA	NA
AK009_01780	1104	smc_3		Chromosome partition protein Smc	ATGAAAACAAAACAAACAATCGCTGCGTCTACACTAGCTTTAGCAATGATTGCTGGCGCGAACCCTGCTCATGCGGAAGTAAATGATGCTACTCCTCAGCAAAGTACGGGAGATCGATTAGCTGAAATTAAGCAACATAAACAAGAGTTAGATGCGAAATTACAGCAACACAAAGAAAACGTGGATCAAACATTGAATGAACTTAACAAGGTTAAGGAAAATGTTGATACGAAGGTGAATGAACTACATGAACGTAAACAAGTTGCTGATGAAAAAATTAACGAGATTAAACAACATAAACAAGAGTTAGATGCAAAACTTCAGCAAGACAAACAAATCGCCGAAGATAAAATCGCTGAAATTAAAGAGCATAAAAAACAAGTAGAAGATAAAGTTGCTGAAGTAAAAGAGCATAAGCAAAATATCGATAACAAAGTGAATGAGATTAAAGAACATAAACAAACTGTCGATGAAAAAGTGAATGAAATGAAGCAATATAAAGAGAACATCGATCAAAAGGTTAATGAACTTAAGGAAGTTAAAAAACAAGTAGATGAAAAATTAGCTGAGTTAAAAAAAGCGAAACAAACTGCTGAGGACAAACTTGCTGAGTTAAAAGAAAACAAGCCGAATACTGGTAACACGTTAGAGGAACTTAAGAAAATTAAAGGCAATTTAGACAGTCTTTCCGCTAACTTAGAACTAGCTAAACAAGATGTGAAAAACAAACTAGCTGCATTACAAGAAGCTAGACAAGATTTAATCAATAAAATTAACGAAATTAAACAATCAAAACAAACTGTTTCAGACGATTTATCAAAGAAAAAACAAGACTTAGATATTAAAATCAACGACTTTAAACACACTGAGAAAAAAATTGATGACAAATTAGCTGAGATACATACAACGAAGCAAAATGTTGATAATAAGATTAATGAAGTATCACAGGCTAAACAAACTAATGGTACTAAAAACAATAACGCTAAAGAACTTCCTAACGCTGGTAGCGAGCAATCAAACAATATGGCTCTAGGAATGCTATCTGTATTAGGCGGTGTTTTATTACTTACTCGTAATAAAATTAAAACGTTATTCTCTAAATAA	MKTKQTIAASTLALAMIAGANPAHAEVNDATPQQSTGDRLAEIKQHKQELDAKLQQHKENVDQTLNELNKVKENVDTKVNELHERKQVADEKINEIKQHKQELDAKLQQDKQIAEDKIAEIKEHKKQVEDKVAEVKEHKQNIDNKVNEIKEHKQTVDEKVNEMKQYKENIDQKVNELKEVKKQVDEKLAELKKAKQTAEDKLAELKENKPNTGNTLEELKKIKGNLDSLSANLELAKQDVKNKLAALQEARQDLINKINEIKQSKQTVSDDLSKKKQDLDIKINDFKHTEKKIDDKLAEIHTTKQNVDNKINEVSQAKQTNGTKNNNAKELPNAGSEQSNNMALGMLSVLGGVLLLTRNKIKTLFSK				NA	NA	NA	NA	NA
AK009_01781	672	hrtA_1		Putative hemin import ATP-binding protein HrtA	ATGACTTCATTATTAAAATTAGACAAAGTAAGTAAAGTGTACGGAGAAGGGAATACGGAAGTAACAGCCCTTCATCCGATATCGCTTGATGTGAAAGCCGGAGAATTTATCGGAATCGTCGGTCCTTCTGGATCAGGGAAAAGTACGTTATTATCAATCGCGGGTGCATTATTATCACCATCAAAAGGGGATATTTACATTCGTGAGCAAAATATTACACAGTTATCAGAAAAGGAAATGACAGACATTCGTTTGAAAAAAATCGGCTTCATTTTCCAGTTTGCAAATCTTGTTCCATATTTAAATGTGAAAGAACAATTGCTTTACATTGCAAAGCTGAAAAAAGAAAGTAAACAAGAATCGGAAAAGCGTGCAGATCATTTATTAGCGGCATTTGGATTAGGAGAAAGAAAGAATCATTATCCAAATCAACTATCTGGCGGGGAAAAACAAAGGGTAGCAATCGCTCGTGCGTTCATGAACAACCCAGATTTAATATTAGCGGATGAGCCAACGGCAAGCTTAGACTCAAAACGTGCACGTGAAGTTGTAGAAATGATGAAACGTGAAGTGAAAGAGAGCCAAAAAGCAGCAATTATGATTACACATGATGAAAGAATGCTTGATGTATGTGATCGTATATTGATGCTTCGAGATGGACAGTTAATATAA	MTSLLKLDKVSKVYGEGNTEVTALHPISLDVKAGEFIGIVGPSGSGKSTLLSIAGALLSPSKGDIYIREQNITQLSEKEMTDIRLKKIGFIFQFANLVPYLNVKEQLLYIAKLKKESKQESEKRADHLLAAFGLGERKNHYPNQLSGGEKQRVAIARAFMNNPDLILADEPTASLDSKRAREVVEMMKREVKESQKAAIMITHDERMLDVCDRILMLRDGQLI	PGPT0013345_15513	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01782	1065		COG0577	putative ABC transporter permease	ATGTTTTTAGCTCTGCGTGAATTGAAACAATCAAAATTAAGATACGGATTAATCGGACTTATCATGGTTTTATTATCATTTTTAGTCCTTGTTATTTCAGGATTAGCAAATGGATTATCATATGATAATGCTTCATCGATTCAAAATATGGAGGCGAATAAGTTCGTTTTAGCAGATGATGCGGAAAATAAATTACTTCGTTCACAAATTAAGAAAGACGATGTAGATAACGTAGTAAATCAAGTGGACGAGAAAGAGGCAGTTCCATTTCGGGTGAAAGTTTCAACGTATGAAAAGAAAGATAGTTCGAAAAAGGTTGATATCGCTATTTTTTCAAGTGAACGTGATTCATTTTTAGAACCGAACATTGTAAAAGGTGAGAAATTAGGTACAGCAAATAATGAAATGGTTGCTGATGAATCAATTAAAGAAAAAGGAATCGATATTGGGGATACAATTATCGATCCTGTTTCAAAGAAAGAATTTACAATCGTCGGATTTACGAAAGATCAAATGTTTAGCCATACACCAGTCGTTTATGTAAATGAAGACGTATGGGGCGCTATTTCACAACCAAACCAAAAAGATTATAGTGCAATCGCACTTAATACAGATAAAGAAGTAAAAAATGCACACGTAATTGACAAAAAAGAAGTGCTGCAAAGTATTCCAGGGTTTAAAGAAGAGCAAGGAACATTAACAATGATCATTGCATTCTTACTTGTTATCGCTGCATTACTAATTGGTGTATTCTTCTACGTCATTACACTGCAAAAAACACAGCAATTAGGTGTATTAAAAGCAATCGGTACAAAGAACTCGTATTTAGCAAATAGCTTAGTCGTGCAGGCGTTATTCTTATCAGTCGTTGCGATGGTAATCAGTATCGTTCTTGTACAAGGGTTAGAACAAATTTTACCAGCAGGTATGCCGTTCTTATTAACAACACCGATGATTGCACAATATGCAGCAATCTTTATCGTAATTAGTATTTTAGGAACACTTATTTCGTTATACCAAGTATTAAAAGTTGATGCGCTAGAGGCAATTGGAGGCGGGATGTAA	MFLALRELKQSKLRYGLIGLIMVLLSFLVLVISGLANGLSYDNASSIQNMEANKFVLADDAENKLLRSQIKKDDVDNVVNQVDEKEAVPFRVKVSTYEKKDSSKKVDIAIFSSERDSFLEPNIVKGEKLGTANNEMVADESIKEKGIDIGDTIIDPVSKKEFTIVGFTKDQMFSHTPVVYVNEDVWGAISQPNQKDYSAIALNTDKEVKNAHVIDKKEVLQSIPGFKEEQGTLTMIIAFLLVIAALLIGVFFYVITLQKTQQLGVLKAIGTKNSYLANSLVVQALFLSVVAMVISIVLVQGLEQILPAGMPFLLTTPMIAQYAAIFIVISILGTLISLYQVLKVDALEAIGGGM				NA	NA	NA	NA	NA
AK009_01783	627			hypothetical protein	ATGTTGAAGCCCGTATTAACACTAACCACTTATAGCCAACTAAAAGCATTAAGCGATCCACTACGTGCCGAAATGATGATACGTCTATGCGAACGTCCTTATACTGGACAATTACTATCTGAGAAATTCGGCATTTCAAGGGCGAAAATTCATTATCATTTAAAAGAATTAGAAAAGAATGGTCTTATAGAGATTGTTTATACAGAAGAAAAGAATGGCATTGTTCAAAAGTTTTATCAATCTGTCGCTAAAGGCTTCACCCCTGCCGCAGATCTATTACCTCATTTAGAAATATTAAGCGAATCAGGTCGCCAAATCTTTTTACAAATGATAGAAAGAACGAAAAGCCAAATTCTTGCTGCACCAGAAGAAGCTTTTACATTACAAAATGCAAGTGAAGATCCAGCTAAGTGGAATTACGTTTCATCCTGCTGGGAATTTGATGCTACGCCAGAACAATTTCAAGTGTGGGTGAAAAAGTTTTATGAATTAATGGCTGAATTAAACGAAATCACAAAAGGTGCAGATAAAGATCCGAATAGCAAACCTTATTATATTTCTACTACTGCACTTCAAATCGCCGAGAGAACAATGCAGCAATTTATTAAAAAAGAAGAAAAATCGTAA	MLKPVLTLTTYSQLKALSDPLRAEMMIRLCERPYTGQLLSEKFGISRAKIHYHLKELEKNGLIEIVYTEEKNGIVQKFYQSVAKGFTPAADLLPHLEILSESGRQIFLQMIERTKSQILAAPEEAFTLQNASEDPAKWNYVSSCWEFDATPEQFQVWVKKFYELMAELNEITKGADKDPNSKPYYISTTALQIAERTMQQFIKKEEKS				NA	NA	NA	NA	NA
AK009_01784	1260			hypothetical protein	GTGGACATATTAAAAAACCGGAATTTCCTCTTATTATTTTTAGGGAGAATTTTTACAAACATAGGAGATAGCTTGTATTATGTAGCAGCAATGTGGCTCGTATACAAATTAAGTGGTAATCCTTTTTATTCTGGATTGGCTGGTTCCCTTACGTTATTACCTTCTGCATTACAATTTCTTACTGGTCCATTCGTCGATAGATGGTCAATAAAAAACACCCTCGTCATCACACAAGTTTTGCAATGCATTCTTATTTTAATCATTCCAATTACACACTACTTCGACCTACTAACAGTCCACCTACTACTCATCATCATGCCCATCGTAGCTTTTATCGAACAATTCGCCTATCCCGCACAATCGAAAGCTTTACCACTTCTACTGCATAAAACACAATTATTAAAAGGAAACTCACTCTTTTCATTTGCATATCAAGGCATTGATTTAATTTGTACGACTCTTTCTGGAATATTAGTAGCACTATTTGGCGCAATTACTTTATATGTGATCGACTCCTTTACATTCGCGATTACTGCCCTTTTGTTCTTTTCATTAAAAATGCCAAAACAAACTGAAGCAGACACAACACTTTCAACAAAGCAATATTTCTCTGATTTAAAAGAAGGCTTTTCAATCGTCTTTCGTTCATTGATGGGCGTCTTCTTAATCGGTTCCGTTGTCGCTAATTTTTCAATCGGTATGACGATGGCAATACTCCCTTCTTTCGCTGATTCTTTAGGCGGTGTGAAATTATATGGTTTCTTTTTAGCCGCTATATCCGCCGGTTGTTTAATTGGAGCACTATTCAGTTCATCGGTTGGTAAATATAATGTTGGCCGTGTCTCCATTATTAGCTTTGCCACTGGTGCTTTCTTTTGGTTTCTCTCTACGGTTGTACCGTTTCAATGGTTATCTATTTTTTTATTCGGCTTAGCTTGGATACCAATTGGTGCGACCAACATATTATTTGCGACTATTGGTCAAATTGTAATTCCAAACCAATATCTTGGGCGTATCAATTCAGTCACACGGAGTATGGGCACAATTGCTATGCCGCTTGGCTCTTTAATTGGCGGATACACTGCGAATGTATATAGTAGCCAAATCATTTTTGCGCTCGCTAGCATCGGGATTTTATTCATCTCCCTCGTATGGCTGCTTCATCCAAAATTACGGGCTTTGCCGAAAGCTGATGAAATTACGGCGGATACTTTTGAGCTTCGGTTTAAGGAAGAACAGGTGAAAGGTACTGCTTTGTAA	MDILKNRNFLLLFLGRIFTNIGDSLYYVAAMWLVYKLSGNPFYSGLAGSLTLLPSALQFLTGPFVDRWSIKNTLVITQVLQCILILIIPITHYFDLLTVHLLLIIMPIVAFIEQFAYPAQSKALPLLLHKTQLLKGNSLFSFAYQGIDLICTTLSGILVALFGAITLYVIDSFTFAITALLFFSLKMPKQTEADTTLSTKQYFSDLKEGFSIVFRSLMGVFLIGSVVANFSIGMTMAILPSFADSLGGVKLYGFFLAAISAGCLIGALFSSSVGKYNVGRVSIISFATGAFFWFLSTVVPFQWLSIFLFGLAWIPIGATNILFATIGQIVIPNQYLGRINSVTRSMGTIAMPLGSLIGGYTANVYSSQIIFALASIGILFISLVWLLHPKLRALPKADEITADTFELRFKEEQVKGTAL				NA	NA	NA	NA	NA
AK009_01785	471			hypothetical protein	TTGAAACGAACTGACTTGTTATTAAACGCACTAGATTCAACATTCGATAAAGAGAGTTGGTATGCACCGTTTAAACATGCTATAGAAGGACTTACAGCCGAACAGGCTATGTGGAAACCATCTGGTGAGGAAACGAATACCATTTGGGAGAACGTTAATCATCTCATTTATTACAAAGAGAGGCTTGCTGCAAACTTGGAAGGTCATGGATGGGCACATAACCTTGACGGTAATGACACTTTTTATCTTACTAAGCAATCTAATGATGACACGGAATGGAAGGAAGTCGTTGAACGTTCTGAAAATGCTCAGCGTAATTTAAGACAGGTATTGAGCGTGATTTCTGAAAAAGAGCTTGAACAAAATTCACTTGAAGAGAAATTACTGGACATCATGCTTCATGATGCTTATCATACAGGCCAAATTATTCAATTAAGGAAAATGCAGGGGGCATGGCCAGCAAAGCGTTAA	MKRTDLLLNALDSTFDKESWYAPFKHAIEGLTAEQAMWKPSGEETNTIWENVNHLIYYKERLAANLEGHGWAHNLDGNDTFYLTKQSNDDTEWKEVVERSENAQRNLRQVLSVISEKELEQNSLEEKLLDIMLHDAYHTGQIIQLRKMQGAWPAKR				NA	NA	NA	NA	NA
AK009_01786	1377	hssS		Heme sensor protein HssS	ATGAAATCACTATATTCTAGATTTGTATTTATGACGGTCGGCATTATGCTACTTAGTAGTATTATAGGCTTTTTATTAACGAACGTATATTATCAAGTGAAGTTAAAACCGTATAATAGTGAAAAGATTTTAAAGTATGCTGAAGAAGTAAAATCGTTATATGAAAAGCAAAGTGAAGAAAATCAAGAGGCATACTTACGGTCTATTGCGAAGCTAGGATATGAAATTTATATTGTCGATGATCAAAAGAATGGAAAGCGTATCGGAAATGCATTTCGTAAGACGACAATAAGTGATGATACCGTTCATAAAGTATTGCAGGGGGAGACATTTAATGGTGTTTCTACTTATCCAACGCGCCTTTTCATTACAGGATTTTTCGATAATGAATTAATTAATAGCGTCGGTGTCCCGGTAAAACACGGTGATAAACAGTACGCTTTATTCATTCGCCCTGACATTCAGCAACAATTTGGCGAGATGCGAATTTTCTTAGCGGTATTACTTGGGTTTATCGTTTTACTAACTATTATTTTTATAGCGATTGCAGCAGGTTATATCGTTCGTCCCATTCGTAAATTTACGAAGGCTACGCAAAAAATTGCGAGTGGGGAATATGAAATTGAATTAGACGTAAAACGAAAAGATGAAATAGGAACGTTATCTACAAGCTTCCAAAAGATGACGAAGAGTATTAAAGAACTAGATGAAATGAGACAAGAATTCGTTTCGAACGTTTCACATGAATTTCAGTCGCCACTTTCTTCCATACAAGGTTTTTCAAAGACGTTGCAAACAGAAAAGATGAGTGAGGAAGAAAGAAATCATTACTTACAAATTATTGAGGGTGAAAGTAAGCGAATGTCTAGTTTATGTAAACAGTTACTTACGCTCGCTTCATTAGATAAAGAGGAAAAGGTTCTACAAATAAGAGAATTCAATCTACAGAAGCAAATTAAAGACGTCATTTTTATGCTTGAGTGGAAATGGCGGGAAAAAGATATCGCCGTTGAATTTGATGTGCCAGATATCACTATAAAAGGTGATGAAAACTTACTTCATCAAGTATGGAGTAACATTTTCACGAATAGCATTAAGTTTTCAAACGATGGTGGGACGATTGAGTTTTTCGTCGAAGAGTTAGAGTCTAGTGTCATTATCTCTATATCTGATAACGGAATTGGTATGGAAAAAGAAGAGATGGACCGTATATTTGATCGTTTTTACAAAGTAGATACGGCAAGAGCGAGAAACGTAGAAGGTAGTGGTTTAGGATTATCGATTGTGCAGAAGATTGTGGAACTGCATAACGGAGACGTTTCAGTGTATAGCACGAAAGGGGAAGGGACTACTGTTCGGGTGGAGCTTCCGAAATAG	MKSLYSRFVFMTVGIMLLSSIIGFLLTNVYYQVKLKPYNSEKILKYAEEVKSLYEKQSEENQEAYLRSIAKLGYEIYIVDDQKNGKRIGNAFRKTTISDDTVHKVLQGETFNGVSTYPTRLFITGFFDNELINSVGVPVKHGDKQYALFIRPDIQQQFGEMRIFLAVLLGFIVLLTIIFIAIAAGYIVRPIRKFTKATQKIASGEYEIELDVKRKDEIGTLSTSFQKMTKSIKELDEMRQEFVSNVSHEFQSPLSSIQGFSKTLQTEKMSEEERNHYLQIIEGESKRMSSLCKQLLTLASLDKEEKVLQIREFNLQKQIKDVIFMLEWKWREKDIAVEFDVPDITIKGDENLLHQVWSNIFTNSIKFSNDGGTIEFFVEELESSVIISISDNGIGMEKEEMDRIFDRFYKVDTARARNVEGSGLGLSIVQKIVELHNGDVSVYSTKGEGTTVRVELPK				NA	NA	NA	NA	NA
AK009_01787	678	hssR_2		Heme response regulator HssR	ATGAAGATGATACATATTTTATTAGCTGATGATGATAAACATATTAGAGAGTTATTGCATTATCATTTACAAAAAGAGGGGTTTAAAGTTTTTGAGGCTGAAGATGGAAAGATAGCGCAAGAAGTATTAGAGAAGGAAAATATTCATCTTGCGATTGTAGACATTATGATGCCGTTTGTTGATGGTTATACGTTATGTGAAGAAATTCGTAAGTATCATGATATTCCTGTTATTTTATTAACTGCGAAAGACCAGTTAGTGGATAAAGAAAAAGGATTCATTTCTGGTACAGACGATTATATCGTAAAACCATTTGAGCCAGCTGAAGTCATTTTCCGTATGAAAGCATTACTTCGTCGTTATCAAATGCTGAGTGCTGATATTATTACGTTGCACGGTACAACAATTGACCGAAAAGGCTTTGAAGTGAAGTGTAACGGACAAACGATTTTGCTTCCACTGAAGGAATTTGAATTGTTATCGCAACTGGCTAGTTATCCTGGAAGAACATTTTCAAGGGAAGAATTAATTGAATTAGTATGGGGAATGGATTTTGAAGGGGATGAACGAACGGTTGACGTTCATGTAAAGCGATTAAGAGATCGTTTTTCAAAACGAACGGATGATTTTCAAATTACAACGGTGCGCGGCCTCGGGTATAAGTTGGAGCTGAAATAA	MKMIHILLADDDKHIRELLHYHLQKEGFKVFEAEDGKIAQEVLEKENIHLAIVDIMMPFVDGYTLCEEIRKYHDIPVILLTAKDQLVDKEKGFISGTDDYIVKPFEPAEVIFRMKALLRRYQMLSADIITLHGTTIDRKGFEVKCNGQTILLPLKEFELLSQLASYPGRTFSREELIELVWGMDFEGDERTVDVHVKRLRDRFSKRTDDFQITTVRGLGYKLELK	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
AK009_01788	666			hypothetical protein	ATGAAGTATGTTTTTTATGTATTAGGAATTTTAATATTAACCCTTGGTATTTCTGTCACAATACAATCAGATTTTGGCACTTCACCTTTTGATGCACTTTTAGTAGGACTTTCTTTAAATGTGGGGCTTACTGTGGGAAGCTGGGAAATAATAATAGCTTTATTATTAATATGTTGTAATTCGAAATTAAAAAGACAAAGACCAGAGGTACTAGGGTTGTTAACAGCATTCATAACGGGTATTGGTATTGATGTGTGGCTATTTTTATTACGCGATTTAATTACACCTGAAATATGGTACAGTAAAATGATTTATTTTGGAATCGGATTAGTTATTACAGGATTAGGAACTGCAATATATTTACAAACAAATTTTGCTCCCATTCCAATTGACCGATTAACTTTAATCATACAAAAATTAACTAGAACGAATATTTTTATAGCACGAACATTTATTTACCTTATATTCTTAATAATGGCAACGATTTTACATGGACCAATTGGTGTTGGAACTATATTAACTGTTTGTTTAGGTGGGTTATTACTGAATTTCTTTATACCACTTACTAAAAAAGTAATAGATCACTTATTCGTACACCAGAGTACGTCATCAAGTTATAAGAAAAATAAAGCAGCTGACCATAATGATAACAAAAGTATCTTCTAA	MKYVFYVLGILILTLGISVTIQSDFGTSPFDALLVGLSLNVGLTVGSWEIIIALLLICCNSKLKRQRPEVLGLLTAFITGIGIDVWLFLLRDLITPEIWYSKMIYFGIGLVITGLGTAIYLQTNFAPIPIDRLTLIIQKLTRTNIFIARTFIYLIFLIMATILHGPIGVGTILTVCLGGLLLNFFIPLTKKVIDHLFVHQSTSSSYKKNKAADHNDNKSIF	PGPT0026395_378	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
AK009_01789	453			hypothetical protein	ATGAAAGAAATTCTTCGTGAAATTGGCATGATTGCAAGAGCATTAGATTCTATTAGTAATATAGAATTTAAAGAATATGAGCTTACAAAAGGTCAGTATTTGTACCTTGTGCGAATATGTGAAAACCCAGGAATCATTCAAGAAAAGCTATCTGAGATGATAAAAGTAGATCGTACAACTGCAGCCCGTGCTATCAAAAAGCTTGAAATCAATGGATTTATCGAAAAGAAAGAAGATGAATCTAACAAGAAAATCAAAAAACTTTTCCCAACAGAAAAAGGGAAAAATGTCTATCCTTTTATTAAAAGAGAAAACGATTATTCAAATACTGTTGCATTAGAGGGATTTTCGGAAACAGAAGCGGAAACTATTTCTAATCTTCTTCAAAGAGTAAGAGAAAATTTAGAAAAAGATTGGGAATTTGTAAAAAAGGGAAATAAGAGAAATTATTGA	MKEILREIGMIARALDSISNIEFKEYELTKGQYLYLVRICENPGIIQEKLSEMIKVDRTTAARAIKKLEINGFIEKKEDESNKKIKKLFPTEKGKNVYPFIKRENDYSNTVALEGFSETEAETISNLLQRVRENLEKDWEFVKKGNKRNY				NA	NA	NA	NA	NA
AK009_01790	519	paiA	COG0454	Spermidine/spermine N(1)-acetyltransferase	ATGACTACACATATAGAAAAGTGCACCCTTGAAGATATACACAGACTTCAAGATATTAGTTATGAAACATTTAATGAGACTTTTAAACATCAGAATTCACCCGAAAGTATGAATCACTATTTGGAAAAGGCATTTAACTTAAAACAATTAGAAAAAGAATTATCCAATATCTCTTCTCAATTCTTTTTTGTCTACTTTAACGATGAAATTGCTGGATATTTAAAGGTCAATATTGATGATGCTCAGTCTGAAGAAATGGGAAATGAATCACTTGAAGTAGAGAGAATTTATATAAAGAGCTCCTTTCAAAAACATGGTCTTGGTAAATATCTACTAAATAATGCTATTGAAATTGCAATAGAACATAATAAAAAGAATATTTGGCTAGGCGTATGGGAGAAAAATGAAAATGCTATTGCTTTTTATAAGAAATTAGGTTTTGTACAAGCTGGCTCTCATTCCTTTTATATGGGCGATGACGAACAAGTTGACCTTATAATGATCAAAACACTCATATAA	MTTHIEKCTLEDIHRLQDISYETFNETFKHQNSPESMNHYLEKAFNLKQLEKELSNISSQFFFVYFNDEIAGYLKVNIDDAQSEEMGNESLEVERIYIKSSFQKHGLGKYLLNNAIEIAIEHNKKNIWLGVWEKNENAIAFYKKLGFVQAGSHSFYMGDDEQVDLIMIKTLI	PGPT0007785_888	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
AK009_01791	624	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTATATTCCAAAGTATTTTAAAGTCACAAATGTTGATGAAATTTGGGATTTTGTTCAAAAAAACTCTTTTGGAACAATCGTCACAACTAAAAAAGAGAAACCAATCGCAACTCATTTGCCCTTTGGATTAACTAAACAAGGTGATGACTATTTTATTACTGGACATATGGCTTATGGGAACCCCCAGTGGAGAACATTTGAAACCTGCGAAGATGTTCTTGTAATGTTTCAGGCACCGCACTCTTACATCTCTTCTTCTTGGTATGAAAATGAAGAAGTTCCAACATGGAATTATCAAGCCGTTCATATATATGGTAAAGCAAGTATTTTAGATAAACAGGAATTAATAGATGAATTAACAACAATGTTGAAAAAATATGAAGAACATCGTGAAAATCCAATATTATGGGATAAACTTTCCCCCACTCTCTTAGAAAATGAACTGAAAGGGATAGTTGGGTTTAAAATTAAAGTAGGAGACATCCAGGCTGCATATAAATTAAGTCAAAATCGGAATGAGAGGGATTATAGTAATATTATTGATAAATTGTACGATGAAGGAAATCCAGATGCGAAACAAATGGCAAAACTCATGGGGAATAGATTAAACAATCACATATAA	MYIPKYFKVTNVDEIWDFVQKNSFGTIVTTKKEKPIATHLPFGLTKQGDDYFITGHMAYGNPQWRTFETCEDVLVMFQAPHSYISSSWYENEEVPTWNYQAVHIYGKASILDKQELIDELTTMLKKYEEHRENPILWDKLSPTLLENELKGIVGFKIKVGDIQAAYKLSQNRNERDYSNIIDKLYDEGNPDAKQMAKLMGNRLNNHI	PGPT0014760_1197	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
AK009_01792	840			hypothetical protein	ATGAAAAAAAGAACGACAGACATTATTTTTATTATTATCGGTGCATTTCTTTTTGCGTTAGGTGTTAATTTGTTTGTTATCCCGAACGAGTTTGGTGAGGGTGGGGTAACAGGTATCACGATTATTACGTACTATTTATTTGAATGGTCACCGGGCTTAGTTAACTTAATTTTAAATGCGATTTTGTTAATAGCCGGTTATAAGTTTTTAAATAAGATTACAACAATTTATACGATTATCGCTGTAGTTACGAACTCGCTATTTCTTCATTTGACAGAAGGCTGGACGATTGCTTCGGATGAAATGCTTGTAAATGCCATTTTCGGAGGAATATTTATTGGGTGCGGGATTGGTCTTATTATTCGCGTTGGTGGAACAACTGCAGGTACTACCATCTTAGCAAGGATGACGCATAAATATTTAGGCTGGAGCATTAGCTACGGTCTACTGTTCTTCGATTTAATTGTTGCGTTTTCATCTTATTTCATCATTGGTGCAGAAAAACTGATGATAACAATTATTATGCTATATGTAGCAACGAAAGTGATGGAGTTTGTAATTGAAGGTTTAAATCCGAAGAAAGCCATTACGATTATTTCTGATAACCCGAATGAAATAGCTGGGAAGGTAACTACCTTAATGGGCAGAGGGGTTACTGTGTACTCAGGTCATGGCTATTACACGAAAACTCCAAAGGAAATTCTTTATGTTGTTATTAATAAGCAAGAAGTAGTGAAGCTAAAGCGGATTGTTCAAACTACGGATCCGGCGGCGTTCATCGCTATACACGATGTTCGTGATGTGTTCGGAGAAGGATTTGTTGATATTTCGAAGGCTTAG	MKKRTTDIIFIIIGAFLFALGVNLFVIPNEFGEGGVTGITIITYYLFEWSPGLVNLILNAILLIAGYKFLNKITTIYTIIAVVTNSLFLHLTEGWTIASDEMLVNAIFGGIFIGCGIGLIIRVGGTTAGTTILARMTHKYLGWSISYGLLFFDLIVAFSSYFIIGAEKLMITIIMLYVATKVMEFVIEGLNPKKAITIISDNPNEIAGKVTTLMGRGVTVYSGHGYYTKTPKEILYVVINKQEVVKLKRIVQTTDPAAFIAIHDVRDVFGEGFVDISKA				NA	NA	NA	NA	NA
AK009_01793	642			hypothetical protein	ATGGGTATGAAAAAATTAATTTTAGCAGGTGCTTTAGGGATCGCAGCATTATCAGGAACAAATTTACCAGGACTAGAAGTAACAAAAGCGAGTGCAGCTTCTATTGAATCGAATTTCTCGACGTTAGAAGGACGAGTAGTAGAAGTAGATAACGGTGTAATTGTTGTAAAATCTAAGCAATATGAGGAACCGGTTAGTGTGTATATTGATTCACTTTCAAATGTGAAAGTAGGAGATGAAGTAAAAGCTACTGGATCTATGATGCGTAATTTTACAGAATATATGGTTGCAACTGCAGTTGAAAATACAACAAACAAGTTAGGTATGCACATGAAAGAAGATGGCTCACCTAATTATGTAATTGGAGAAGTATCAAAAGTAGGAACGATGGAAGATGAGGGAGACGGTGCTACTAAATATGTTGTAGTTGAGTATCCATCGCTAAATGGGAAGAAAGATATTATTGATGTTTTCTTAACAAAGGGACAAGTATTTAATGTGGGTGAGAAAGTGAAAATTGATATGGAGTATGTGGGCTGGGGTGGTATTTCTATTAACTGGAACACAGTTGATCATATTGAAAAAGTTCATGAAGCAAAGACGAACGCTGAAAATAATGATGATGTATGGATTTGGTCTTAA	MGMKKLILAGALGIAALSGTNLPGLEVTKASAASIESNFSTLEGRVVEVDNGVIVVKSKQYEEPVSVYIDSLSNVKVGDEVKATGSMMRNFTEYMVATAVENTTNKLGMHMKEDGSPNYVIGEVSKVGTMEDEGDGATKYVVVEYPSLNGKKDIIDVFLTKGQVFNVGEKVKIDMEYVGWGGISINWNTVDHIEKVHEAKTNAENNDDVWIWS				NA	NA	NA	NA	NA
AK009_01794	99			hypothetical protein	ATGTTAAAAAAACCAAAGAGATTACAGCCAGGAGATACCGTGGCGACAGTAAGTCCTTCGTGGGGAGGAGCAGATAACGATATGACAGGACTCAAATAA	MLKKPKRLQPGDTVATVSPSWGGADNDMTGLK				NA	NA	NA	NA	NA
AK009_01795	396			hypothetical protein	ATGGAAGTAACATTTACAGTAAGTAAATGGGATGAAAAACTAATTGATGATACTAGAAAAGATTTCCCTATTAATATTGCCCATGTTGAATATGATATTGATGGAGAATTAAAAGGAAAAGCTTTTGTTGAATACTTATTATATTATGTAGACTCAAATATAAATGATGGTCACTTGGCTACGGCTAAAATTTCTGGATTTTTACACTTTGAAGGAATTTATAAGGGGCAACAAGGGACATTCACAGCTATAGAGCAAGGAATATTTGATAAAGGAAATTTAGATTCCCCAGGAACAATTATTAAAGCTACCGGTAACTTAGAAAATCTGAGAGGGTCCTATAATTATCAGTTTACAGGTCAAACTAGTAAACTGATTTTAGAGTTTGAATTTTAG	MEVTFTVSKWDEKLIDDTRKDFPINIAHVEYDIDGELKGKAFVEYLLYYVDSNINDGHLATAKISGFLHFEGIYKGQQGTFTAIEQGIFDKGNLDSPGTIIKATGNLENLRGSYNYQFTGQTSKLILEFEF				NA	NA	NA	NA	NA
AK009_01796	510			hypothetical protein	ATGAAAATGCATCTTCAAAAAAGTTTTTATGTTGAATTGAAAAATGCAATTCGTTGTCATTATAACGAACTTTTAACTAGGTGCGGTGTTGACACAATATATGGGTACTCCATATTAACAGACGATTGTGTCAATAGCATTGGACCAGTGGCTAATGAAGAAAGACTAATCAAAGTTAATAAATCGGACCCTTTATACAATTATTATAGATACGGAGCTGTTGAGTGGAGCGAATGGGACGATTTTGGAATGTTTGATGAAGTGAAAAAAATTATTAAGAAATATCATAATATTGTCGAAGATGACTTTAACATACGAGTAAATACACTGTTGAAAGAAACATTAAATGTGTTAATGGAACTTGAATCAGAAGGATTGTTTGGAGATAGAGATGATAATCGATTTATTGTCATTTGTGTAACTGATTCTTCGAACGAAATCATGATTGAATCAGCTCGATTGCTTAATACATTAAAGACATACGAAGAATATGCTTCAGAATTTGCATAA	MKMHLQKSFYVELKNAIRCHYNELLTRCGVDTIYGYSILTDDCVNSIGPVANEERLIKVNKSDPLYNYYRYGAVEWSEWDDFGMFDEVKKIIKKYHNIVEDDFNIRVNTLLKETLNVLMELESEGLFGDRDDNRFIVICVTDSSNEIMIESARLLNTLKTYEEYASEFA				NA	NA	NA	NA	NA
AK009_01797	1248			hypothetical protein	GTGGCAAAAATACGACCGTTTCGGGCCATTCGTCCAGTAGAGGAAAAAGCGGCACAAGTGGCAGCTTTACCGTATGACGTATTAAATAGTGAAGAGGCAAGGGAAGTTGTAAAAGGGAATCCATATTCTTTCTTGCATGTTGATAAAGCAGAAATTGATTTAGACCCGGCACTTTCACCGTACGATGATCGTGTATATGAAAAAGCGGGTGAAAATTTAAATCGATTTATACGAGAAGAAGTGTTCATTCAAGACGAAGAGCCAGCGTTATACATTTATGAACTGACGATGCAGGGAAGAACGCAGTCAGGCCTTGTCGTTTGTACATCTATTGATGAGTATGAAGATGATACAATTAAAAAACATGAGAGAACGCGTCATGAAAAAGAGCTAGATCGTATTCGTCACGTAGATGTGTGTGATGCAAATACGGGTCCTATCTTTTTAACGTATCGTACAAAAGAAGAGATAAAGCATTTCATTGCCAGCTGGAAAGAAGAACATGCGCCAATCTATACATTTACAGCAGAAGACGGCGTTAGGCACGTTGCTTGGAAAATAGCTGATGAAGAAGTAATTGCAAGTTTAGTAAACTTATTTGAAGATATTCCTAACCTGTACATTGCAGATGGACATCACCGCTCTGCATCAGCTGCAAAAGTAGGGATCATGCGAAGAGAACAATATCCGAATTACACAGGAGAAGAAGAGTTTAATTTCTTCCTATCTGTATTATTCCCTCAGGATGAATTATCGATTTGGGACTATAACCGAGTTGTGAAAGATTTAAATGGCTTATCAGAGGAACAGTTTTTAAATCAAATTACGCAGTACTTTTATGTAGAAGAAGCACCTGTTTCTCCGTATAAACCAAATGAGCCAAAAACATTTGGTATGTATGTAAATGAGAAGTGGTATAAGCTTACTGTGAAAGAAGAAACATTTGATGCGAATGATCTTGTTAGAGGTTTAGATGTATCTATCCTGCAAGATCATTTATTAAGTCAAGTACTTGAAATACATGATCCGCGTTCTGATTCACGCATCGATTTTGTCGGAGGAATCCGCGGATTAGAAGAACTAGAACACCTTGTAAAGAGCGGTGAATATAAAGCAGCATTCGCATTATATCCGACATCAATGGAAGCTTTATTAGCAATCGCAGACGCTGGAGAAGTTATGCCGCCAAAATCAACGTGGTTTGAACCGAAACTGCGCAGCGGGTTGTTTGTACATTCATTAAAATAA	MAKIRPFRAIRPVEEKAAQVAALPYDVLNSEEAREVVKGNPYSFLHVDKAEIDLDPALSPYDDRVYEKAGENLNRFIREEVFIQDEEPALYIYELTMQGRTQSGLVVCTSIDEYEDDTIKKHERTRHEKELDRIRHVDVCDANTGPIFLTYRTKEEIKHFIASWKEEHAPIYTFTAEDGVRHVAWKIADEEVIASLVNLFEDIPNLYIADGHHRSASAAKVGIMRREQYPNYTGEEEFNFFLSVLFPQDELSIWDYNRVVKDLNGLSEEQFLNQITQYFYVEEAPVSPYKPNEPKTFGMYVNEKWYKLTVKEETFDANDLVRGLDVSILQDHLLSQVLEIHDPRSDSRIDFVGGIRGLEELEHLVKSGEYKAAFALYPTSMEALLAIADAGEVMPPKSTWFEPKLRSGLFVHSLK	PGPT0000690_1	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
AK009_01798	1173	pdxB		Erythronate-4-phosphate dehydrogenase	ATGTTTCGTGTTCAAACGTTAAATCAAATTGCAGAAAAAGGCTTGCAAGTTTTTACTGAAGAACGTTATGAAGTAGGAGATAGAATCAATCATCCAGATGGAATTTTGCTTCGTAGCTACTCTTTACATCAAGAAGAGTTTTCAAAAGACTTAAAGGCGATTGCAAGAGCTGGCGCTGGTGTAAATAATATTCCTGTCGAGCGATGTACAGAAAAAGGGATTGTAGTATTTAATACACCAGGAGCGAATGCCAATGCAGTAAAGGAACTTATTATCGCCAGCCTTATTATGTCTTCACGTAACATTATTAACGGTGTAAGCTGGACGAAAAATTTAGAGGGTGAAGAAGTACCGCAGCTTGTTGAATCAGGAAAAAAACAATTCGTTGGATCAGAAATTGCAGGAAAACGTCTAGGTGTAATTGGTCTTGGCGCAATCGGTGCTTTAGTTGCGAACGATGCGTTAGCGTTAGGGATGGACGTTATTGGATATGACCCTTATATTTCAGTTGAAACAGCTTGGCGTCTTTCTACACATGTGCAAAGAGCATTTAGCCTTGATGAAATTTTTGCAACGTGTGATTATATTACCCTTCATATTCCTCTTACAAATCAAACGAAGGGAATTATTGGGGAACACGCTATAGAGAAGATGAAAAAAGGTATGCGTTTATTCAATTTCTCAAGAGGAGAACTTGTAGATGAAAATGTTCTTCAAAAAGCGTTAGAAGAAGATGTTATTACGCATTACGTAACAGACTTCCCGAATGAAAATGTGATAAAGATGAAAAATGTAACAGCGACGCCTCACCTTGGTGCATCTACGTCCGAATCAGAAGAAAACTGTGCATTCATGGCAGCGCGCCAATTACGTGAATATTTAGAGACAGGAAATATTCGTAATTCAGTAAACTATCCAAACGTAGAATTGCCGTATATCGGAAAGAAACGAATTACAATTATGCATCAAAACGTCCCGAATATGGTAGGGCAAATTACAGGATGCTTAGCGGAACATCATATTAATATTGCCGATATGATTAATCGTAGTAAACATTCTTGGGCATACACAATGATTGATATCGATAACGGAATTGATGATATAATAAAAGAGAATATTGTAGAAAATATAAGCAAAATTACAGGTGTTGTAGCCGTTCGAATGATTGTGTAA	MFRVQTLNQIAEKGLQVFTEERYEVGDRINHPDGILLRSYSLHQEEFSKDLKAIARAGAGVNNIPVERCTEKGIVVFNTPGANANAVKELIIASLIMSSRNIINGVSWTKNLEGEEVPQLVESGKKQFVGSEIAGKRLGVIGLGAIGALVANDALALGMDVIGYDPYISVETAWRLSTHVQRAFSLDEIFATCDYITLHIPLTNQTKGIIGEHAIEKMKKGMRLFNFSRGELVDENVLQKALEEDVITHYVTDFPNENVIKMKNVTATPHLGASTSESEENCAFMAARQLREYLETGNIRNSVNYPNVELPYIGKKRITIMHQNVPNMVGQITGCLAEHHINIADMINRSKHSWAYTMIDIDNGIDDIIKENIVENISKITGVVAVRMIV	PGPT0009155_4632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
AK009_01799	1083	serC		Phosphoserine aminotransferase	ATGGAGAGAGTCTATAATTTTTCAGCAGGACCATCAATACTCCCTTTGCCAGTTTTAGAGAAAGTGCAAAAGGAGCTTGTAAATTATAACGGGACAGGCATGTCTATTATGGAAATGAGTCATCGATCTTCTTATTTTCAAAGTATTATAGAGGAAGCGAGTAACTTACTTCGTGAATTAATGAGCATCCCTGATGAGTATGATGTTTTATTTTTACAAGGCGGTGCGTCATTACAATTTTCTATGATACCACTGAACTTAATGAATACGTATAAAAAAGCTGGATACGTACTAACTGGCTCATGGTCTAAAAAGGCACTGCAAGAAGCCGAAAAAGTTGGGGAAGTACAAGTGATTGCTTCTTCCGAGCAAGAGAAGTTTACTACGATTCCTAAACTGGACGGTTTACTAAGCGATGAAAAACTAGATTATGTACATATTACAACGAATAATACAATTGAGGGGACAAAATATGTGGATATTCCACATATAGAAAGAGTGCCGCTCGTTGCGGATATGTCCTCAAATATTTTATCAGAACGATATGATGTTTCGAAGTTTGGTCTTATATATGCGGGAGCGCAAAAGAATTTAGGGCCAGCGGGCTTAACGATTGCTATTATAAAAAGAGATTTAATTGGGGGAGCAGATCGCTCTTGTCCGACAATGTTAAATTATGAAACTTACAGTAAAAATAACTCCTTATATAATACACCGCCATCCTTTAGTATTTACGTAACAAAACTTGTACTAGAGTGGTTGAAAGAGCAAGGCGGAGTATCTGCGATTGAAGAACAAAATAAAATGAAATCTTCACTTATTTATCATTTTTTAGATGAATCTAAATTGTTTACTTCACCAGTTGACCCTGCGTATCGATCACTTATGAATATTCCGTTTACAACACCGTCAGAAGAGCTGAACAATGAGTTTTTACAAAAAACGAAAGAACGCGGCCTTGTTACGTTAAAAGGACATCGCTCAGTCGGTGGTATGCGTGCAAGTATTTACAATGCGATGCCAGTACACGGTGTACAGCAATTAGTAGATTATATGAAGGAATTTGAGCTTGAGAATAGATAG	MERVYNFSAGPSILPLPVLEKVQKELVNYNGTGMSIMEMSHRSSYFQSIIEEASNLLRELMSIPDEYDVLFLQGGASLQFSMIPLNLMNTYKKAGYVLTGSWSKKALQEAEKVGEVQVIASSEQEKFTTIPKLDGLLSDEKLDYVHITTNNTIEGTKYVDIPHIERVPLVADMSSNILSERYDVSKFGLIYAGAQKNLGPAGLTIAIIKRDLIGGADRSCPTMLNYETYSKNNSLYNTPPSFSIYVTKLVLEWLKEQGGVSAIEEQNKMKSSLIYHFLDESKLFTSPVDPAYRSLMNIPFTTPSEELNNEFLQKTKERGLVTLKGHRSVGGMRASIYNAMPVHGVQQLVDYMKEFELENR	PGPT0009160_3810	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
AK009_01800	192			hypothetical protein	ATGAAATTTTTGTCTTACCTTACAGTAATTTTGGTGATTCTCGGCGGTTTGAATTGGTTGTTTGTAGCGTTAGATTACAATGTAGTTGAGAAATGGTTTGGTTCTATGCCGGCGCTTGTGGACACTATTTATTGGCTCATTGGTCTTTCTGCTATTTATCAAATTTTTGATCGGTTCTTCACGGACAATTAG	MKFLSYLTVILVILGGLNWLFVALDYNVVEKWFGSMPALVDTIYWLIGLSAIYQIFDRFFTDN				NA	NA	NA	NA	NA
AK009_01801	1068			hypothetical protein	GTGAAGAAAAATAAGAGTTTAATAAGTTTTTTAGGAGTGTTTATTATGTTGTTTTCTTTTTGTTTTCAAGGAAATGTACAGGCAGATGTAAATACTGTTCAATCTGGAAAAATCAAATCAGGAAACGTAACAGTATGGGAAGTTGGAAATGTAGCGAAAGTATTAGCGGATGTGGAGCGCTTAAATTTAAATACAGTAAATGTACCGATTCAAGTGGATATCCCAAATGTGACTTCTACTAACATGGTAATTAATCAAGCGCAAAAGCAACAAGCTATTATTTTAATTCAAGAATTATTAAAGCGTAATATTCAAGTTATAGTGGAACCGTTCCCGTATATTCAGCAGGGGAATGTTGGAGAGACAGAATGGAACCCAAGTAACATTAATGATTTCTTCTGGAATTGGAAGACGGTTATTCTGCAAGATATTTTTAATTCCATTACAAGTAAATACAATGTGTATGGACTAAAGATTGCTTCTAATTTCGTGAATATGGAGTATGCAGAAGGATACTGGAGCGATACAATTGATTTTGTTCGTAATCAGTATAAAGGAAATGTTTTGTATCAAATGAACTGGTGGTTAACAGCAAGCTGGGACCCTTCTTATGAAGCGAAGTTTAAAGAGAAAATCAATCGTCCGTATTTAAAAAAGGTGGATATTGTAAGTATTGATAGTTGGTTTGAAGTTTCAGGAAAAAGAAATCCAACATATGAAGAAGTAAAGAAAAGTTTATTTGCGACGACAGTGTATAATCGTGGACAAAATGTTGTTCAGCAATTGGAACAATTACATAATGCAACAGGAAAACCAGTTTACTTCGGTGGGTTTAACGTTCCGGCGCGTGAACTTGGATTACAAAATCCGTGGAATCCAGATGTTTCAAATGTGTTTTCAAAAGATGTACAATTAAATGGATGGCGTGCTTACCGCGATGTATTAGAACCGAAACCATATTTTAAAGGTTTTTCAATTTGGTTTATTGGCTCTAATGATAGTACACATGCGTATCAAATACATAGTAAAGAAACAGAGGCAGTTATTAACGGGTGGTACCGAAAATAA	MKKNKSLISFLGVFIMLFSFCFQGNVQADVNTVQSGKIKSGNVTVWEVGNVAKVLADVERLNLNTVNVPIQVDIPNVTSTNMVINQAQKQQAIILIQELLKRNIQVIVEPFPYIQQGNVGETEWNPSNINDFFWNWKTVILQDIFNSITSKYNVYGLKIASNFVNMEYAEGYWSDTIDFVRNQYKGNVLYQMNWWLTASWDPSYEAKFKEKINRPYLKKVDIVSIDSWFEVSGKRNPTYEEVKKSLFATTVYNRGQNVVQQLEQLHNATGKPVYFGGFNVPARELGLQNPWNPDVSNVFSKDVQLNGWRAYRDVLEPKPYFKGFSIWFIGSNDSTHAYQIHSKETEAVINGWYRK				NA	NA	NA	NA	NA
AK009_01802	240			hypothetical protein	ATGAATGATGATCAAATTCAGCTTTTTAAAGCTAATGGAGATTTTATATGGCATGAGCATCCTGATACGGATAAGCTATTTATTGTGCTTGAAGGGGAGATGTTCATCGATTTCCGTGATGGACAGGTGAAAATTTCTAAGGGCGAGATGTTTATTGTCCCGAGAGGCGTTGAGCATAAACCTTTCACTGAAAAGGAATCCCACATCATGTTGGTAGAGCCTAAAAGGGAAATGGATTGA	MNDDQIQLFKANGDFIWHEHPDTDKLFIVLEGEMFIDFRDGQVKISKGEMFIVPRGVEHKPFTEKESHIMLVEPKREMD				NA	NA	NA	NA	NA
AK009_01803	828	rhaR_2		HTH-type transcriptional activator RhaR	GTGAAGTTGGACGTGAATGAGTTAGCAGAGTATCTTGCCAATAATCCTTTCCGAGTAGAAGGAGTATATCGTTATGCTAAAAATCCAGGTGTGCCTTGTGCTGAGTCTACAGATTCTTTCCCAGGATTTGTATTTCCACTTACAGGGAAGACGCAATTTCAATTTAATGGTACGCCGTATATCCTTTCCCCAGGAAAAGTTATACATGGGGGTGCAAAAATGACATTAGCCCATAAAATGCTTGGTGAAATAAACTGGGAATATATTCTTGTTTTATATCAGATAAGCAATCCAGAACGAGAAGACTCTGGCTTTACTCATCAGCATTTTGAATTATTAACAGGACAATCTCCTCGTCTTGTCGAATTACTTATGCGTCTTTGGGATGTGTATAATCAGCGTGGAGGCATTTCGATGCTTCAGACCGAAATGCTGTTTCGCGAAGCGTTGAATGAAGCTTTATTAAGTGTTGTCAATAGAGAAAACAACTATGAGTCGCATACTTTATTCGAACGAATATCTAGTTACGTTCGCCAATACTATTATAAAGATATTACAATACATACGCTTACAGAACAAAATAATGTTAATCGAAATCGTCTTTCTTACGTGTTTAGAAAGCATGCAGGTATGGGGCCAGCAGAATATTTATTGAACTATCGTATAAAGATGGCTCAAAAAATGTTATGTACAAGTGGTGTGCCTGTACAACAAATTTCGCAGGCTGTTGGAATTGCAGACCCTTTTTATTTTAGTAGAGTTTTCAAGAAGCGAGTTGGCATTTCGCCTACTAAATATCGCGAGAAGTTCATCAATAATCCATACTAA	MKLDVNELAEYLANNPFRVEGVYRYAKNPGVPCAESTDSFPGFVFPLTGKTQFQFNGTPYILSPGKVIHGGAKMTLAHKMLGEINWEYILVLYQISNPEREDSGFTHQHFELLTGQSPRLVELLMRLWDVYNQRGGISMLQTEMLFREALNEALLSVVNRENNYESHTLFERISSYVRQYYYKDITIHTLTEQNNVNRNRLSYVFRKHAGMGPAEYLLNYRIKMAQKMLCTSGVPVQQISQAVGIADPFYFSRVFKKRVGISPTKYREKFINNPY				NA	NA	NA	NA	NA
AK009_01804	120			hypothetical protein	ATGTTAATAGTTGTAATGGCTTTATTTGTTACAGCACTTGCAGCATGTGGAAATAATCGTAATCCTGAAGAAGTTGCTACAGCGTATTTCGAAGATGGAAACAGCCTACTATCAAATTAA	MLIVVMALFVTALAACGNNRNPEEVATAYFEDGNSLLSN				NA	NA	NA	NA	NA
AK009_01805	2391	acyII		Penicillin acylase 2 proenzyme	ATGGAAGTCGTTATAAAGAAGAAACGAAAAAGAGGAAAAAGAATTTTTATTTGGGCTAGTAGTATCGTTCTTTTTTTAGTTATTTCCGCTGCGATTTTTTTGAATATATATACGCTGAAATCTATGCCAAAGATAGATGGAACGATAAAGCTAGAGGATTTACAACACGCTGTTACGGTGAAGCGGGATAGTAAAGGTGTCCCGCATATTAAATCGGAAAATGCACATGATTTATATTTTTCGCAAGGATATGTACAAGCGCAAGATCGGTTGTTCCAAATGGATTTAAGTAGAAGACAAGCTTCTGGTATGTTAAGTGAAGTTGTTGGGGAAGCAGCTGTTGACCGAGATAAATTGTTTCGAACACTCGGTTTACGGCGAGCGGCAGAAGCTTCAGTTAGTCAATATGATGGAGAAGCAAAATATGCCCTGCAGTCATTTGCTGATGGGGTGAACGCTTTTATACGTGAGGCAAAAGTGGAAAAGAAATTGCCGGTTGAGTTTACTATATTAGGTTATGAGCCTTCTGAATGGTCAATCGTGGATTCTTTAACAATTGGAAAGTATATGGCGTTTGACTTAGGAGGACATTGGCATGGACAGGCGTTTCGATATTGGGCGCTGAAAAACCTTTCGAAAGAGCAAGCAAATGAGCTATTTCCTAAATATCCGAAAGATGCTCCTAGATTGCTAGCTGAACTGAAAAATACAAATGTGGACGTAGCGCAAAGTTTTTCAAAAACGATAATTCCCCCGGAGTTTAACGGTAGTAATAACTGGGTTGTGAGTGGTGAGAAGAGTGCGTCAGGTAAGCCGATTTTAGCAGATGACCCTCATTTATCTCTTGCGACACCTTCTATATGGTATCAAACGAGACTTGAAATGAAAGATTTAAATGTGAGTGGCGTTATTTTCGCTGGAGTACCAGGTGTTATATTAGGACACAATGACAAAATAGCGTGGGGCGTTACGAATACGGGGCCTGATGTGCAAGATTTATATATTGAGAAGAGAAATCCTAATAATGAAATTGAATTTCTGTATAACGATAAATGGGAGAAAGCTACCGTTGTTGACGAGTCTATTAAAGTAAAAGGCAGGAAGACAATTCCTTATAACGTTACGATTACGAGGCATGGGCCAGTAATTTCAGAGTTTGCGGATAAGGGGAAGGAGAAAACGAAAACAGTATTTGCTTTAAAGTGGACTGCTTTAGAACCGTCAGCTGAGTTAAAAGCTGTATTAAATATGAACAAAGCAAAAGACTGGACGGAGTTTGAAACCGCTCTTCAAGATTTCCATACACCAACCCAAAACTTTGTGTTTGCATCAAACGATGGCACGATTGCTTATAAAGCGAATGGAAATATACCAGTGCGTAAAAAAGGCGATGGTAGCTTGCCTGTTCCAGGATGGACAGATGAATATGAATGGGAAGGGTATATCCCGTTTAATCAACTTCCAAAAGTAATCAATCCAAAACAAGGGTTTATTTCAACTGCGAATAATAAAATTGTTGATGATGATTATCCGTATCATATTAGCAATACGTGGGCGCAGCCATATAGGCAAATGCGTATTCAAGAATTTTTACAAGAGAAGGAAAAGTATACGGTGAAAGATTTAGAAGAGTTACAGATGGATCAAAAGAATTTATACGGGAAAGAGTTTACTCCTATATTTTTAAAAGAGTTAAATAAAGCATCTTTAAATGAGGTAGAGAAAGAAGGCGTAAACCAATTAACAAAGTGGAATTTTTACGATAGTAAAGATGAACCGGCACCATTAATATTCTATTTATTAATGAAAGAGATTTCAAATACGTTATTTTCAAAAGAAATACCGAAAGATGTAATGAAGTTATTTGAAGGGAAGTCACAAGTTGTTGATGAATTGATTCGAAAAGAAGTAGCGGGAGAAAATAGCGCGTGGTTTACGAAGTACGGAGGTTTCACAAAAGTTGTGCATACATCGTACGAGAATGTAATGAAGAAATTGCAGAAGGAATATGGACCGGATGTTGGAGAGTGGAAGTGGGGCGATTACCATCAACTCGCTTTTACACATCCAATTTCAAAATCATCTAGTATGTTAGCACTACTCGCTTTTAATCGTGAGAAACCAGTCCCGATTGGCGGAAGTCAAGTTACCGTGCAAGCAGCGAGTTACGGCGATAACGGCATTGTAAATCACGGGGCTTCTTGGCGATTTGTTATTGATACGAAAGATATGTCAAACGGTTATCATATCGTAGGACCAGGACAATCGGGACATTTTAGAAGTGATTGGTATCATGATCAAATAGATGATTGGGTAAGTGGAACGTATCATACGACTACATTGAATACGGAGGGAATAGAGGGGAAGGTGCTAAATTTAGAACCGAAGTGA	MEVVIKKKRKRGKRIFIWASSIVLFLVISAAIFLNIYTLKSMPKIDGTIKLEDLQHAVTVKRDSKGVPHIKSENAHDLYFSQGYVQAQDRLFQMDLSRRQASGMLSEVVGEAAVDRDKLFRTLGLRRAAEASVSQYDGEAKYALQSFADGVNAFIREAKVEKKLPVEFTILGYEPSEWSIVDSLTIGKYMAFDLGGHWHGQAFRYWALKNLSKEQANELFPKYPKDAPRLLAELKNTNVDVAQSFSKTIIPPEFNGSNNWVVSGEKSASGKPILADDPHLSLATPSIWYQTRLEMKDLNVSGVIFAGVPGVILGHNDKIAWGVTNTGPDVQDLYIEKRNPNNEIEFLYNDKWEKATVVDESIKVKGRKTIPYNVTITRHGPVISEFADKGKEKTKTVFALKWTALEPSAELKAVLNMNKAKDWTEFETALQDFHTPTQNFVFASNDGTIAYKANGNIPVRKKGDGSLPVPGWTDEYEWEGYIPFNQLPKVINPKQGFISTANNKIVDDDYPYHISNTWAQPYRQMRIQEFLQEKEKYTVKDLEELQMDQKNLYGKEFTPIFLKELNKASLNEVEKEGVNQLTKWNFYDSKDEPAPLIFYLLMKEISNTLFSKEIPKDVMKLFEGKSQVVDELIRKEVAGENSAWFTKYGGFTKVVHTSYENVMKKLQKEYGPDVGEWKWGDYHQLAFTHPISKSSSMLALLAFNREKPVPIGGSQVTVQAASYGDNGIVNHGASWRFVIDTKDMSNGYHIVGPGQSGHFRSDWYHDQIDDWVSGTYHTTTLNTEGIEGKVLNLEPK	PGPT0028075_1133	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
AK009_01806	843			hypothetical protein	ATGCCAAAACCATTCCCGCATGCCTATCTTTATAATGAAGGATTAAAATTTTCCTATTTACTAGCAAAGAGTGGAGGGAAACATATGGCGGTATACCGTAATGTGCAGGTGAACTTTTGGCAAGATGAATTCATATTAGATTTAACGCCAGAGGAGCGTTATTTTTACATATATTTGTTAACTGGTACGAAAACAAAGCAATGTGGTATTTACATATTACCGAAGCGTGTGGCAGAGCTTGAAACAGGTTATAGTATGGAGACTGTTGAGAAGCTGCTAAACAGGTTTGTTGAGTATGGAAAGATTCTATATGATACGAAAACGAAAGAGGTATTCATAATAAACTGGTTACACTATAACCCTATTTCAAATACGAATGTGGAGAAGTGCGTATTACGTGAGTTAAAGACTGTAAAAAGTAATGAGTTCATACATATATTTTTACGTAAATGCCTTGAAGAAGAATACACGATTCCATTATTATTGCAGTATTTTGGTATGCCAGAAGAAGAGGATAATAGTAGTTCACAAGTAGTTATTGAAGAGAAAGAAGAAGCGGAAGAGATAGAAACCATAGAAGAGGGCGTTCCAAATAGTGAAGTTTATAAGTTTTATGAACAAAATATTAGTAGTTTATCCCCATATATTGTGAAGGAATTGAAGAATTGGATACAAAGACTTTCTGGAGAGAAAGTGTTAGAGGCACTTAAAATTGCGTTTGAAAATAATAAGAAAACGTTAGTTTATGTGAAGGGGATTTTGAGGAATTGGTGTAAGAAAGAACGAATAGATTTTAGTGAAGGAATCCATAGGAGAGAAGTATTCGGTTTGTATGATCCATAG	MPKPFPHAYLYNEGLKFSYLLAKSGGKHMAVYRNVQVNFWQDEFILDLTPEERYFYIYLLTGTKTKQCGIYILPKRVAELETGYSMETVEKLLNRFVEYGKILYDTKTKEVFIINWLHYNPISNTNVEKCVLRELKTVKSNEFIHIFLRKCLEEEYTIPLLLQYFGMPEEEDNSSSQVVIEEKEEAEEIETIEEGVPNSEVYKFYEQNISSLSPYIVKELKNWIQRLSGEKVLEALKIAFENNKKTLVYVKGILRNWCKKERIDFSEGIHRREVFGLYDP				NA	NA	NA	NA	NA
AK009_01807	1800			hypothetical protein	GTGTATGTATCTATTATAATAATGAATAAGACAATCAAACAACAAGTAATCGCACTATCAACAAGTCTAGTGATTTTAGGGAGCGTACCTTTATCAGCATCAGCAAAAGAGTTGAACAAATCTCAAACTGATCAACTTAATATTGCCCAGGGAGAAAATGGAACGAGCGGATTAAATTATTCTAATTTCAAGTTGGAAGTTCCTGATCATGTACAAGTTAACGAAGCAGAAGTATCTGAAAATGAAAAAATTCTTTTAGAAGAATATAAGCATAAACATGATGAAACAGAAGAATTAAACAAAATGCAAGATGCTAAGAAGGGGCAAGTAGCAGAAAAGGAAGCTATTTCAAACATTGAAAAGGCATTTGAATCTGTAGATGGTCGAAATGATGGGTCTGATCGTCAAATGAAACCTGTTGCAAAGCCAAGAGGTATTCAATATAGCGCACAGAGTACGAAGAAATATGGAACACTTGCAGGAGTTCCATTTGTGGAGTGGATTGTTCCAGCAGGAAATCCTGATATTCGTCCTGCAAATCCGATGAAAGCACGTTACATTACAATTCATGAGACCGCAAATACAGCCGCTGGTGCTAATGCTGAAAATCATGCGAAATATTTATACAAGCAAGCAACTGAAGGCACTTTCCGAACAGCTTCATGGCATTTTACTGTAGACGATAAACAAATTTATCAACACTTACCAACAAACGAAAATGGTTGGCATGCAGGAGATGGAGATGGATCAGGAAACAGGGAATCTATCGGTATCGAGATCGCGGTTAACCAAGATGGTGATTACAATAAAGCATTAGAAAATGCAAAACGACTTGCAGGTTATTTAATGAACAAAGAAGGAATTGGTGCAGATCATATTTACAAGCATCAACAATGGAGCGGGAAAAAATGTCCTGACATTTTAATTTCACGTGGTAATTGGGCTGGTTTCGTACAAGGAATTCAGTGGTATGCAAATATAAATGCGCAGATTGATACGCCTTTACAAGATAAAAATGACTCATTTAATCCAAATGAAAATAATCCAGCTGAACCTAGCATGGAACTAGTGGTAAATGGTAGTGGCATCAATGTACGTAGTGATGCGGGTATTGAACATCGTGTTGTACGTAAAGCTTCAAACGGAGATCGTTACAAAGTATTAGCGGTTAAAAATGGTTGGTATAAAGTAGGTAATGGAGAATGGATTTTCTATGACCCAAGTTGGATTAAAATTAACTACAATGTACCAAAGGAAGAAGTACAAAAACCAAAAGATGATATTACAGGTGGCTGGTTTGAAGGGCATATTCGTAAATTAAACAGTCTAGGTATTATGCAAGGCGAAGGTAATGGTGTATTTGCGCCATATCGAAATGTAACGAGAGCGGAGTTTGCGAAATTAATCTCGAATGCTCTTAAACTACCAGAGGGAAATAAGTCATTTGTAGATATTAATGAGGCACATCCATCACTTCATGACGGTATTAAACGTTGTGCAAGTGCAGGAATTATTAATGGTCGTGGTGAAGGGATTTTTGATCCTAACTCACCAATTACTCGTGAAGAAGTATCTATTATGATTGACAAAGCATTACGATATAAAGGAATTACAGGTGAGTTAGTAGCATTACCATTTACAGATAAGCATTTAATAACATACAAAGAATCGGTTCAACGATTATACAGTCTAAAGGTAGTTAATGGTATTGGAAATAATGAGTTTGATCCTAGAGGCACAACAACTCGTGGTCAGGCAGCTGCCTTTATTGTGAAGATGTTAGATTCAATGCAAAAATAA	MYVSIIIMNKTIKQQVIALSTSLVILGSVPLSASAKELNKSQTDQLNIAQGENGTSGLNYSNFKLEVPDHVQVNEAEVSENEKILLEEYKHKHDETEELNKMQDAKKGQVAEKEAISNIEKAFESVDGRNDGSDRQMKPVAKPRGIQYSAQSTKKYGTLAGVPFVEWIVPAGNPDIRPANPMKARYITIHETANTAAGANAENHAKYLYKQATEGTFRTASWHFTVDDKQIYQHLPTNENGWHAGDGDGSGNRESIGIEIAVNQDGDYNKALENAKRLAGYLMNKEGIGADHIYKHQQWSGKKCPDILISRGNWAGFVQGIQWYANINAQIDTPLQDKNDSFNPNENNPAEPSMELVVNGSGINVRSDAGIEHRVVRKASNGDRYKVLAVKNGWYKVGNGEWIFYDPSWIKINYNVPKEEVQKPKDDITGGWFEGHIRKLNSLGIMQGEGNGVFAPYRNVTRAEFAKLISNALKLPEGNKSFVDINEAHPSLHDGIKRCASAGIINGRGEGIFDPNSPITREEVSIMIDKALRYKGITGELVALPFTDKHLITYKESVQRLYSLKVVNGIGNNEFDPRGTTTRGQAAAFIVKMLDSMQK	PGPT0019115_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_01808	276			hypothetical protein	ATGTTTTTAGGCTGGATCATTGAACATAATTTATTTAGTCAAGAATTTGAAGAAGAGTCTCCAGACGAAATTAATCAATTTAAACTTAGACAAATGACTGGCACACAAATTTATATAAACTGGGATGGCGTTTTAGCAGACAACATGTTAAATGATGAGGGCAACCAATTCGCAATGTACTACTTTAACAATAAGGATGAGTGGAAGTATATAGATGATTACTCAGGTATTTTTACAGACGATGGAGAAACTCTCTACCACGTGCAAGTTACTTGA	MFLGWIIEHNLFSQEFEEESPDEINQFKLRQMTGTQIYINWDGVLADNMLNDEGNQFAMYYFNNKDEWKYIDDYSGIFTDDGETLYHVQVT				NA	NA	NA	NA	NA
AK009_01809	582	comR_1		HTH-type transcriptional repressor ComR	ATGGCTCGACTACGCGAATTTGATGAAGAAAAAGCTTTGGATGCTGCTATGCAACTTTTTTGGGAGAAAGGATACGCTGCTACTTCATTAAGTGATCTAACTGCAAGAATGGAAATACAAAAACCGAGTTTATATTCAGCTTTTGGTGATAAAGAGGGCTTATTTGAAGCGGCATTAAGGAGATACACAAATTTACATGCGGCTCGTATACGAACAAAACTTCAAAACGAACAATCTGTAAAAGAAGCAATTCAGATGTTTTTTGAAAATATGGTGGAAGAGGAATATAAAAAAGAGTTCAGTAAAGGCTGTTTTTGTATTAACACAATGGTTGAGCTTGCTCCTCATAATGAAAAGTTTGAAGTACTGACTAGAGAACACCAAATGTATCTTGCAGTTATTTTTCAAGAATTAATCATGAAAGGAATTCGATCAGGAGAACTACAAAGTGATTTGAACGCTAAAGCATTAGCGCAAACATTAGTCACGTCCTTAATTGGATTAACAGTGTTAATGAAATCACGCCCAGAACGTTCCGTTATAGATAATTCGGTATCTATAATAGTATCGTTAGTAAAATAA	MARLREFDEEKALDAAMQLFWEKGYAATSLSDLTARMEIQKPSLYSAFGDKEGLFEAALRRYTNLHAARIRTKLQNEQSVKEAIQMFFENMVEEEYKKEFSKGCFCINTMVELAPHNEKFEVLTREHQMYLAVIFQELIMKGIRSGELQSDLNAKALAQTLVTSLIGLTVLMKSRPERSVIDNSVSIIVSLVK				NA	NA	NA	NA	NA
AK009_01810	1251	ynfM_2		Inner membrane transport protein YnfM	ATGAATAGCAAGGAAAAGATGATGACCACTCTTAAACATAATGATCCCCAGTTACATTCACCTATTAGCACAAACATGTCCCGCTACATGACTCTATTATTCGCAATAGCTTGCGGGATGGCGGTGGCAAATATATATTTCGCTCATCCGCTACTTGATTCTTTATCAAATGAATTTAAGATTAGTCATTCAACTATCGGTATTGTGATTACTATTACTCAAGTTTGTTATGCAATCGGATTACTTTTATTAGTTCCACTTGGTGACTTATTAAACCAAAAAAGACTCATTATTGTTCAAATGGTTTTATCCGTTATCGTTTTAATTGTAATTGGGACCGCTCCCTCGGCCATCGTACTTTTTATAGGTATGGCCTTAGTAGGAATTCTTGCAACAGTTACGCAAACACTCGTCGCATACGCATCAATTTTAGCAAATCCAGCAGAACGTGGACGCATAGTAGGTTTCGTTACAAGCGGCGTTGTAATAGGCATTCTCCTTGCGCGTACATTTGCAGGCGCATTAACAGACTTAGCTGGATGGCGGTCCGTTTATCTCACTTCCGCTACCCTTATACTATTCGTAACTGTTTTGTTATATCGTAATTTACCTACTCTTGGACAGAGCAGAATGACAACTATGCCTTACCGGAAGTTAATACGTTCTGTACTCTTATTATTTATAGAAGAACGACTCTTACGCATTCGCGGAATATTAGCATTGCTCATTTTCACTTCATTCAGTATTTTATGGACTTCTTTAGTATTACCTCTAAGTGCTACACCACATAATCTTTCACATACAGCTATTGGTGCGTTCGGCCTTGCTGGAGTTGCAGGTGCATTAGCTGCTACTAAAGCTGGACAATTAGCTGATAAAGGATTAGGACAAAGAACAACTGGCATAGCTTTATCTTTATTAGTACTTTCATGGCTCCTAATTAAATCTATTAATCACTCTCTATTATTACTAATTTTCGGCATTATCCTCTTAGATTTAGCGGTGCAAGCTGTACATGTCACCAATCAAAGTATGCTGTTCACAGTGCGTCCCGAAGCAAGAAGTCGACTTACTGCCAGTTACATGATTTTTTATTCTATCGGTAGTGCAACAGGTGCAATTCTTTCAACAAATACGTATGCAAAATATGGTTGGGATGGCGTATGCATATTAGGTGTATCTATTAGTGCTTGTGCTCTTTTATTTTGGATAATAACCTTGCGGCGATCATCACAGCTGAACGAAGAATAA	MNSKEKMMTTLKHNDPQLHSPISTNMSRYMTLLFAIACGMAVANIYFAHPLLDSLSNEFKISHSTIGIVITITQVCYAIGLLLLVPLGDLLNQKRLIIVQMVLSVIVLIVIGTAPSAIVLFIGMALVGILATVTQTLVAYASILANPAERGRIVGFVTSGVVIGILLARTFAGALTDLAGWRSVYLTSATLILFVTVLLYRNLPTLGQSRMTTMPYRKLIRSVLLLFIEERLLRIRGILALLIFTSFSILWTSLVLPLSATPHNLSHTAIGAFGLAGVAGALAATKAGQLADKGLGQRTTGIALSLLVLSWLLIKSINHSLLLLIFGIILLDLAVQAVHVTNQSMLFTVRPEARSRLTASYMIFYSIGSATGAILSTNTYAKYGWDGVCILGVSISACALLFWIITLRRSSQLNEE				NA	NA	NA	NA	NA
AK009_01811	459			hypothetical protein	ATGATAAAGAAATTCACTAGGTTAGTATTAATAGTGGTTATGCCAATCAGTCTTATTACAGGTTGTGGGGCTACTGAAAAAACTGAAGCACAAAAGCCGAAAGCGGTACAAACGGAGAAAAAGGACTATATGGATTATTCATATGGTAGCAAAGGTATATTAGTAAGTGGCAAAGCGAAAGAACGGCAACAATACGAGATTGGATATATGGATGATAATAAGTTAATTGGGATTGACGAAAATATTGAAGACTGCATTATTTTAGATAATAAAGATGAAGCAGGCCTCATTTGGAAACAAATAGAGCGTGGATTTATTATTGAAGTGCAATACGGTAAGGATCGCAATGATATCGTAGGCGTGCAATTCGTAGGAGATCGTGAGCCATACGAAATTAGTGATAAGTTTGATCGAAATACGATAAACGAAATTGTTGAAAACGTTAAAGGGAATTTGTAA	MIKKFTRLVLIVVMPISLITGCGATEKTEAQKPKAVQTEKKDYMDYSYGSKGILVSGKAKERQQYEIGYMDDNKLIGIDENIEDCIILDNKDEAGLIWKQIERGFIIEVQYGKDRNDIVGVQFVGDREPYEISDKFDRNTINEIVENVKGNL				NA	NA	NA	NA	NA
AK009_01812	957			hypothetical protein	ATGAATACAAAGAAACTACTAGGGGTAGCAGTTCCGGTCATGTTGTTATTTGGTTGTGGAGTTTCTGAGAAAACGAACACTTCTAAACAGGAGAAAACAGAAGAGTCTAAAGTAAAAGAATCGAAGTCTAATAGTAAGAAAGAAAAAGTTTCAAAGGAAGACTATCCTAATAAAGTGTATAAATTAGGGATAGAGTTTGATAAGTTGTTTGCGGAGCATAACAATATTACAAGAGAGGTTTTTGACGGTAAGAAAAAGAAATCAGATATAGTAGATAGTGTGAAAGAATTAAATAAAACGTTAGATAAATTCGAGTCGATAGATCCCCCTGCAGAGTATGTAAATCAACAAAAGGATTTTGAAAAAGCAATTAGTTATTTTAGAGAGTCTTTTTCTTTAATCAATGAAGTATTCACCCGAAAAGAAAAAAGAGAAAAAGGCGATAAGACTGATAAAGAGTTAATGGAGAAATCCGAAAAGTTAGTGAAAGAAGGAGATATTTACTGGCTTAAGGCATTCAAAGACCTTGAAGGGGATATTAAAATCGGTGACGGTACAGTATCTGTGAAAGATTTGAAAGAGTTAGATAAGAAAGCTGGAATTAATACGGATAACGTTATGAAGAATGTGAAGGATGGTACGGAATTAATTGGTAATTGGGGATTCAAAGGAACAGACGGTTTCATTATGTCACTTATTTTAAAAGGTGATAAGACATTTGAAACGTATGGTAAAGGTGAGTATCCAAATAAAAAGAATTATATTGAAGGCACTTGGGAATATGATAAGGAAGCTTTTACAATCTATTTACATCTCAATAAACGTTTAGTAGACGGTGTAGAAGATACAATTCAAAAAAAGAAAATAGCATATAAAGTTCAAGATTATGATGGGGAAAATTTGCAATTATTTAATGAGACGTCATTTCATACAATTAAGTATGTGAAGCAAAGTTAA	MNTKKLLGVAVPVMLLFGCGVSEKTNTSKQEKTEESKVKESKSNSKKEKVSKEDYPNKVYKLGIEFDKLFAEHNNITREVFDGKKKKSDIVDSVKELNKTLDKFESIDPPAEYVNQQKDFEKAISYFRESFSLINEVFTRKEKREKGDKTDKELMEKSEKLVKEGDIYWLKAFKDLEGDIKIGDGTVSVKDLKELDKKAGINTDNVMKNVKDGTELIGNWGFKGTDGFIMSLILKGDKTFETYGKGEYPNKKNYIEGTWEYDKEAFTIYLHLNKRLVDGVEDTIQKKKIAYKVQDYDGENLQLFNETSFHTIKYVKQS				NA	NA	NA	NA	NA
AK009_01813	330			hypothetical protein	ATGATTATTTGGTCTGGTTGGGGTTTTTTAGTCGCAATTATTGTAATTATTAATACTCTTTTGGGTAAGGCTATCTTTGGATCTATAACGGGGGACGCTACATATTTTCAAGATCATAGTTGGCCAATGGCGGTAATGTTTATTATATCAGGGGTTATGTCTTGGTATTTAGGTAAATATATTAATAAGCCAGATGGGAAAGTTTATATAGATACCGAAACTGGTGAAAAAGTTATGTTTAACAAAAAGCACTCATTATTTTTTATAAAAATGGAATATTGGGGACCGATTCTAGGAGTTATTGCGATTGTAACTTTAATTACAAGATAA	MIIWSGWGFLVAIIVIINTLLGKAIFGSITGDATYFQDHSWPMAVMFIISGVMSWYLGKYINKPDGKVYIDTETGEKVMFNKKHSLFFIKMEYWGPILGVIAIVTLITR				NA	NA	NA	NA	NA
AK009_01814	339			hypothetical protein	TTGAAAAGAACGATTGAATTCGTACTAGGTTTAATTGGTGGCATTATAGGAATTATTATTTCCATACTATTAATAGTTGTAGCGTTTAATATTATGGAAGGTTTTGATTATGAACTTTTAGCTTATTACTCTATTATTTTAACGGTTCAAATAGGATTGCTTATTTTATCATGTTTAGTAAACAAGGTTAATAATAAAGTTTATGGAGTTTGTATGATTGTGATTCCTATAGTTATGTTGTTTATGTCATTATTCTTTTTACTTATTCCGACAATTTTACAAATTATATCTGGTTCATTTGCATTTAGAACATTAAAGTTAGAATCGAATGTAAGCTAA	MKRTIEFVLGLIGGIIGIIISILLIVVAFNIMEGFDYELLAYYSIILTVQIGLLILSCLVNKVNNKVYGVCMIVIPIVMLFMSLFFLLIPTILQIISGSFAFRTLKLESNVS				NA	NA	NA	NA	NA
AK009_01815	375			hypothetical protein	ATGGAAGTACATGGAATAGTTTCAATATGGTTAGGTAATATGAAAACGCAAGATCAGTTGGATACATATATAGATGTTACGTATGATGAAGAAGGAGACGCTATACCAGCGAGTTTTTTTGTTGATTTTAATATAGATATGATTGATGTAGATGAGGATTTTATTGAAAAGGAAGTGTTAGAAGAAGCAAGTGATGACATTTCTATGTTATTAACGGGATGTTCATATGATGACAAAATACTTTCTCGAATTAACGAAGAAGTTAAATTAAAGAAATCCTACAATTCTATCATATTAATTTATAATTTTCAGTATGACAATTCGGTTAGTAATTTTGAAGGTTTTAATTTTGTAACTACTACAAGCTATCTATAA	MEVHGIVSIWLGNMKTQDQLDTYIDVTYDEEGDAIPASFFVDFNIDMIDVDEDFIEKEVLEEASDDISMLLTGCSYDDKILSRINEEVKLKKSYNSIILIYNFQYDNSVSNFEGFNFVTTTSYL				NA	NA	NA	NA	NA
AK009_01816	489	yezG		putative antitoxin YezG	TTGGAAATAAAATTGAATCGATTATATAGAGAGATAGCGGAAACGGTTCATGCCATGATTCCAGAAGAATGGGAGAAATTTTATTTTTATGCACAAATATCAGAAGCTGGAGGGGGAACTTACTTTTTCTATAACAACTTCAGAAATAAAGAAAATTATAAGTATAGTGTAGAAATTCCTTTTAAATACGAAGTTAATGAAGAGGAGTTTGAAAGGAAAGAAGATTCTTTATATAAAGTGAGTAAGGAATTAAGAAATGTTTTCAAAGATAATCAGCAAGAGCTTTGGTACTCTTTTACAATGTCTCTGGAACATAGTGGGGAATTTAACATGCATTTCGATTATACCAATTGGCTCGACACAGAATATAGTTTTAGTGATCAAATGATTATTTGGAAACATAAATACTTAGGTGAAGTACCAATTAATGAAAATGATAAAGCGCTAATTAATAAGTATGATAGTGAATTTCCGAATAACCCCATTTAA	MEIKLNRLYREIAETVHAMIPEEWEKFYFYAQISEAGGGTYFFYNNFRNKENYKYSVEIPFKYEVNEEEFERKEDSLYKVSKELRNVFKDNQQELWYSFTMSLEHSGEFNMHFDYTNWLDTEYSFSDQMIIWKHKYLGEVPINENDKALINKYDSEFPNNPI				NA	NA	NA	NA	NA
AK009_01817	708			hypothetical protein	ATGGATTTTAAAACAGTTATGCAAGAACTTGAAGCTCTAGGTAAGGAACGAATGAAAAAAATATACATATCTAACGGTGCGCATGAGCCAGTATTCGGAGTTGCTACAGGTGCTATGAAACCAATCGCTAAAAAAATAAAATTAAATCAAGAGTTAGCTGAAGAGCTTTATGCCACAGGCAACTACGATGCTATGTACTTTGCAGGTATTATTGCCGATCCAAAAGCTATGAGTGAGTCTGATTTTGATCGCTGGATAGACGGGGCATATTTTTATATGCTATCTGATTATGTAGTGGCAGTAACTTTATCGGAGTCAAATATCGCACAAGATGTTGCTGATAAATGGATTGCAAGTGGGGACGAGCTTAAAATGTCTGCAGGCTGGAGTTGCTACTGTTGGCTTTTAGGAAACCGCAAAGACAATGAATTTTCCGAAAGTAAAATTTCCGATATGCTTGAAATGGTGAAAGATACAATTCATCATTCTCCAGAACGAACAAAATCCGCTATGAATAATTTCCTAAACACAGTAGCAATCTCATATGTACCACTACATGAAAAAGCAGTCGAGATTGCAAAAGAAGTTGGTATAGTTGAAGTCAAACGGGAGAATAAAAAAAGCAGTTTGTTAAATGCTTCTGAAAGTATTCAGAAAGAACTTGATAGAGGAAGACTTGGTTTCAAGCGTAAGTATGTAAGATGTTAA	MDFKTVMQELEALGKERMKKIYISNGAHEPVFGVATGAMKPIAKKIKLNQELAEELYATGNYDAMYFAGIIADPKAMSESDFDRWIDGAYFYMLSDYVVAVTLSESNIAQDVADKWIASGDELKMSAGWSCYCWLLGNRKDNEFSESKISDMLEMVKDTIHHSPERTKSAMNNFLNTVAISYVPLHEKAVEIAKEVGIVEVKRENKKSSLLNASESIQKELDRGRLGFKRKYVRC				NA	NA	NA	NA	NA
AK009_01818	327			hypothetical protein	ATGAATCAAATTTCATTTGAAGATTTATTTGAAGAAGAAAAAGAAAAGGTGGAGGTAGCTGAGGTATGTAAGGTACCAGCCCCTTTATCACCATTACAAAAAGATATTTTAGAATTAATTGATTCTGAAGAAATAAGTGCGCTTGAGCTATGTGAACGATTAATACGATCTGGTAAAATACCCGATGAAAGATTCACTACGAATAAGCCTAAAGCATATGGACAAGTATGTTTACTATTAGAAGGTTTTGTTACAGAAGGAAAACTTATTTTTATCAAAGATGATGAGAAAAGAGATAGGGTATATAAATTGAAAGAAGAAGTTTGA	MNQISFEDLFEEEKEKVEVAEVCKVPAPLSPLQKDILELIDSEEISALELCERLIRSGKIPDERFTTNKPKAYGQVCLLLEGFVTEGKLIFIKDDEKRDRVYKLKEEV				NA	NA	NA	NA	NA
AK009_01819	456			hypothetical protein	ATGGAAAATAAAGATATTAGTTTGCTTGAAGAATTACTTTATAATACAAATAAAGAGGATACAATTAGCCGAATAAAGAATATAGATAATCCAATACTCCTTCATTGTTTTGCAGCAAATTATAATTGGAATAGTGGATTTGATATACCAAATGCAATTCTTGAAAACAAAGATTGTGACTTAGGAACGGGATTACTAATGTTTCATTATGCAGACGGATATCGATTATTAGAAAGTCCAGAGGAAGTTTCGAATTCTCCATTACAAGAATGGAAGGTTTTTATATTAAAACTTCAAAATAAAATTATGAATTTGGAGTTTAAAACACAAAATATATCATTTAGCTCTGAATTAACAAAAATTCAAATATTCAAGTTGAAAAAAAGGAACCCAAGTATTTCAGATATTCTTATTAATGAGTCACCAGGAAATATAATTGATATTCCTAAAATATAA	MENKDISLLEELLYNTNKEDTISRIKNIDNPILLHCFAANYNWNSGFDIPNAILENKDCDLGTGLLMFHYADGYRLLESPEEVSNSPLQEWKVFILKLQNKIMNLEFKTQNISFSSELTKIQIFKLKKRNPSISDILINESPGNIIDIPKI				NA	NA	NA	NA	NA
AK009_01820	399			hypothetical protein	ATGATGACAGAAATGGGGCTTAGACGTTCAACTAAATGGAGTGGATATCAAGCACAGCATATTATTCCTTCTGAAATGGCAGATAATCCTGTCATTAAAAAGATAGGTATGAACTTTGATGACTCATCAAATGGTATTTTTCTAAGAGTACCAGATGATAATATAAGTACAATGGCTAGACACAGAGGATATCATTCTGTTTACAATGAAGTAGTTGCAAGAGCATTAAATAAAATGGATATTAGCCAAAGTATTGATAGTTTACAAAAGCAGGTATATGATTTGCAAAAAAATTTAAGAAAATTACAGGGGAATGGTTTACCATTGTACCCAAGCCAAGGTGCAACAGTAGAACTCTGGGAAAGAAAGCTAAAACAATTGGAAATGCAAAATAAGTAA	MMTEMGLRRSTKWSGYQAQHIIPSEMADNPVIKKIGMNFDDSSNGIFLRVPDDNISTMARHRGYHSVYNEVVARALNKMDISQSIDSLQKQVYDLQKNLRKLQGNGLPLYPSQGATVELWERKLKQLEMQNK	PGPT0027660_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027660-toxin_yxiD-K21493	NA	NA
AK009_01821	477			hypothetical protein	ATGAGGAATTTAGATTTTGAATATACTTTTACCCCTATTGGCATTGAAGATATCGAAGATTTCGAAAATAAGTATGGTATATTGTTACCTGATGATTATAAACAATTTTTGCTGTCTAAAAATGGAGGGAAAACTGAGCAACGAAGATTTAAAACTAATGATACAACTAAGAAAGGCGTAATAACATCGTCTGTTTCAATGTTTTTTCCTCTATCAATAGAAAATGAAATAAATCTAGAAGAGAAATTAAGAAGTTATAATTTGATGCAAGTGGTACCAAGTAATTTTCTTCCAATTGGAATTGACCCCGCGGGGAGTTTGATTTGTTTATCAATTGATGGGAAAGATAGAGGTAGTGTATATCATTGTGATATGGATTACTTTGAAGAAGATAACGAGTTAAGAGAGGAATACATCCGACTAATTTCTAAAAGTTTCTCTGAATTTGTGGATAATTTATATATTCCTGAAAACTAA	MRNLDFEYTFTPIGIEDIEDFENKYGILLPDDYKQFLLSKNGGKTEQRRFKTNDTTKKGVITSSVSMFFPLSIENEINLEEKLRSYNLMQVVPSNFLPIGIDPAGSLICLSIDGKDRGSVYHCDMDYFEEDNELREEYIRLISKSFSEFVDNLYIPEN				NA	NA	NA	NA	NA
AK009_01822	429			hypothetical protein	ATGAGCCGAGTAACTTGGCTATTTACGGATGGAGCGATAGATGAGCAAGTAATTATTGCTGTGGAGAATTCATTTGGTGTCAGATTTCCAGATGACTACCGTGAATGCATTAAAAAAAATAACGGTGGTTATCCTGAGCCTAATATTTATGATATTAATGATGATGAGGGTGGAGCAGTCTTTGATTGTCTATTAAGTTTTACAAGCAAAGATGCAAATATAGAAGTTGTTTATGAATTAACTTCACTTCCGGAAGGTATTATTCCATTTGCAAGAGACCCATTTGGGGGACTTATTTGTTTTAATTACTGTGATACTAAAGATTCTCCGTCAGTAGTTTTCTATGATCAGGAGTCAGTGAATGAGGATAAAATTAAATTAATATGCGACTCTTTTTCTGAATTGATTGAGAGATTATACTCTGATTGA	MSRVTWLFTDGAIDEQVIIAVENSFGVRFPDDYRECIKKNNGGYPEPNIYDINDDEGGAVFDCLLSFTSKDANIEVVYELTSLPEGIIPFARDPFGGLICFNYCDTKDSPSVVFYDQESVNEDKIKLICDSFSELIERLYSD				NA	NA	NA	NA	NA
AK009_01823	237			hypothetical protein	ATGAAAGATCCAAACTTAGCAAAACAATTCAGCCAAACAGATATTGAGTTATTTAAATTAGGTAAGAAGCCAAAATCAGTCACATGGCATCATCATCAAGAGACTGGTAAAATGCAACTTGTTGATTACTATGAACATCAGGTTGCGGGTCATACAGGTGGTAGAGCAATTTGGGGTGGTGGAGATGACGGTAGAACAGGTAAACTGAAGAAAATTATTTTGGAGATGATAAAATGA	MKDPNLAKQFSQTDIELFKLGKKPKSVTWHHHQETGKMQLVDYYEHQVAGHTGGRAIWGGGDDGRTGKLKKIILEMIK	PGPT0027660_174	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
AK009_01824	495			hypothetical protein	GTGGACTCTGTATCCCCAATCTTTAAAGGTGTAGAAATAATGCTCGATGGAAGTGTCGCTAGAACTGGAACGAACTATAGCGGGAAATTCCAAGAAGCCCATGATGCCTCAAAGGCGAGTATTCAGAGTAGGATTTCGAATTTGGAGAGTAGTGGGGTTAAGGGTACAGGCAAAGGTACTCAAACTATAAAAATTAAACCGACTAATGAAAGAACTGCAGAATATGAAGAAGCTATGACAAAAGCAGCTAGAGATTTACCTCCTTATAGTAGAAAACCTAATAAACCAAGAGATTTTGAAGAAAAAGTAGTAGATGATTCTACAGGAATTACTACTTATACATTTACATCTAAGAAAAATGGGGAAACTTATAAAGTTAAATATGATAAAGATGGTTACCCAATTTTTAATTCAAAATATGAAACATCTTTATCAGAGTCATATCATATAGAGCCTGACTCAGTGCAGTTAAAATATCTCTCACAAAAATTATAG	MDSVSPIFKGVEIMLDGSVARTGTNYSGKFQEAHDASKASIQSRISNLESSGVKGTGKGTQTIKIKPTNERTAEYEEAMTKAARDLPPYSRKPNKPRDFEEKVVDDSTGITTYTFTSKKNGETYKVKYDKDGYPIFNSKYETSLSESYHIEPDSVQLKYLSQKL				NA	NA	NA	NA	NA
AK009_01825	714			hypothetical protein	ATGGATGAGAAAAATAATGATAGAATAAAAGTCATGGAAATATTAAATCGATCTCAATACAATGATGAAATTATAGATGGGCTAGATATGAGCAATTTAGACCTTACTTTTTCTGATTTGTCAGAGGTGATGGCAGAGGGTATCATGGCAAAACAAGTCCATTTAAGAGCTTCTTCACTAATGAGAGCATCTTTTTTTGATTGTGATTTTGAGTTTGCTGATTTCAGAAGTTGTAATTTAGAGGAAATACACATTGCAGATTGTAGGTTTGGTGAAGCTAATTTCTCTAAAGCGAATATGAAATATGCAAAATTGAATATAAGTAGTTGTTTTGAAACATGTTTTGACGAAGTTGATTTTTCATATGGAGAATTAGTTGGAACAATTTTAAATCATGCTACTTTTCGACGAGCAAATTTATATAAAATAGATGCAAAACAGGCCGACTGTACGGGAACGGATTTCAGCAACGCGAATCTTACAGAAGGTAACTTTGAAAAAGCATATTTAGAAGATGCTAATTTATCAGAAGTAGATGCTAGAAATACAGATTTTACAAACGCAGATTTAACAGGAGCAATCCTTTTAAATGGGAATTTCACGGATGCGAATTTTACCGGTGCTAAACTTGACAATGTAGTTTGGAAGGGAGCAAATGTGGAAGGCGCTAAGTTTGACGAAGATGTTAAGGAACAAATCTTAAAAATGATTTAA	MDEKNNDRIKVMEILNRSQYNDEIIDGLDMSNLDLTFSDLSEVMAEGIMAKQVHLRASSLMRASFFDCDFEFADFRSCNLEEIHIADCRFGEANFSKANMKYAKLNISSCFETCFDEVDFSYGELVGTILNHATFRRANLYKIDAKQADCTGTDFSNANLTEGNFEKAYLEDANLSEVDARNTDFTNADLTGAILLNGNFTDANFTGAKLDNVVWKGANVEGAKFDEDVKEQILKMI				NA	NA	NA	NA	NA
AK009_01826	780			hypothetical protein	ATGAAACCAGATTTTTTCACAATTACAATGTATCCTACAGTATCTTTTAACGAAGAAGAATTATTAGGTCGTCTTTTGGATGTGTTTGAGTCAAATGAAAAATTTGCTCCTACTCATTGGGGCAACTGTGAAACGGTACGGGTAGAATATAACCGTCAGGAAATGCTGGAAAAAGTAGTTTCAGAGCGTATAGTATCAGAAGTTTACCTGTATCGTGATAAATCTGTGAACTACACAGGACGTTTTCAAGTTAACTGGAGCCATCGTTCATTTTTAGAGTTTGAGTTTCATAAATCAATACCTAAAAAATTATGGGCTGCTTTTTTTGAGTTATCTGACCAAATCGCAGAAATTGCGAAACCAAGTTATGGAGTAACTCAAATTTTTTGGCCTTTATCATATCCGTGGAATACCGAACATGAACGCTTACAAATGTGGATGGAAATATCTTCCCAACCAATACCAGTTAGGTTTCTTCCTAACGGTCCCTTAGGGATAGGGGCTAGAACATACTTTAGTGGTCATATTTTAGAAATGTTTGATAAGGAATTATTACAAAATAGTCCAGCTGTGGTATCTGAGCTAGATTGGGGTGGCCTTTGTATTGATATTTTAAATAATCCATTAGAGAGTGACAGTGATACATTACTTGATAATTGGCTACAAGTAATGAAGTATTTGGAACCAGCACAAGTAATGGCTATACCAAGTTTTGATGAAGATCAGATGGGTATAACTTATTCTCCAAATGTTGCTTGGAAGGAGTATCTGGAAAGTTAA	MKPDFFTITMYPTVSFNEEELLGRLLDVFESNEKFAPTHWGNCETVRVEYNRQEMLEKVVSERIVSEVYLYRDKSVNYTGRFQVNWSHRSFLEFEFHKSIPKKLWAAFFELSDQIAEIAKPSYGVTQIFWPLSYPWNTEHERLQMWMEISSQPIPVRFLPNGPLGIGARTYFSGHILEMFDKELLQNSPAVVSELDWGGLCIDILNNPLESDSDTLLDNWLQVMKYLEPAQVMAIPSFDEDQMGITYSPNVAWKEYLES				NA	NA	NA	NA	NA
AK009_01827	414			hypothetical protein	TTGGGAGAACACCTAAATCGTACATTAGAGGACAATAACTCTGGCAAGGTTGTTACGTATACATCCAGTGAAGGGCATCTTACGCGTCCAGATAGTATAGGTCGTAATGCTAAGGATGAAATCGATTTAGTTCATGATCACAAACACAAAATAAGTGACAAAGAACACGTTATTCATAATGACAGTCAAATGCGAGCTGAAAGGGAAATGCTCGAAGATAAAAATGGAAGTCATATTGTGACAATATCAAGTGATAAACCCGATTTGAATGGGATACCTCCTCATCCAAGACCAAGTGGGCCTTTAGGAGAAAAGAGTGAGATTTACTATACTGACCCAAGTAGTGGAAAAGTGACTCATAAATGGGAGAACAATACACGTTTACCTGGTGGAGGTAGGTGGAAAAAGCTGTGA	MGEHLNRTLEDNNSGKVVTYTSSEGHLTRPDSIGRNAKDEIDLVHDHKHKISDKEHVIHNDSQMRAEREMLEDKNGSHIVTISSDKPDLNGIPPHPRPSGPLGEKSEIYYTDPSSGKVTHKWENNTRLPGGGRWKKL				NA	NA	NA	NA	NA
AK009_01828	174			hypothetical protein	ATGCCACGAAATCCAGTGTTTCATGCGTACTATCAAAAGAAGCTTAAAGAAGGAAAAACAAAAGGACAAGCATTGGTATGTATTATGAGAAGGCTTGTAAACATTGTATATGGCATGATGAAATATAAAACGGCATATGAATTGCCGATAGTAGAAGAAAAAGAAGTAGTTTAA	MPRNPVFHAYYQKKLKEGKTKGQALVCIMRRLVNIVYGMMKYKTAYELPIVEEKEVV	PGPT0030635_6296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK009_01829	297			hypothetical protein	GTGAGAAGTATTATACGGGAGATTGAGTTTAAAAAGAAAGAAATGAAATACATCGAAAGAGAATTAAAACAGCTAGTAAATCTACTAGATTATCAATTAGAGACGATGCCGGGAATAGAACTTGTGACGGCATCAGCATTAATTGCAGAAATTGAAGATGTAAGACGATTTCCAAATGCCAACAAATTAGCACGATTTGCGGGGATTGCGCCTGTTTACTTTGGTTCTGGTGGGAAAGGTAAGACACACAAAAGCAAACAAGGAAACAGGCGCTACACGCTTTATTTTATAATTTAG	MRSIIREIEFKKKEMKYIERELKQLVNLLDYQLETMPGIELVTASALIAEIEDVRRFPNANKLARFAGIAPVYFGSGGKGKTHKSKQGNRRYTLYFII	PGPT0030635_6296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK009_01830	369			hypothetical protein	ATGTATATTAAACTAACGAACTCGTACAAACTCGTAAGTTTTAATATAGTATTTGTCATGATGTACAAAGGGTGTCATACTGTTACTACAAAACTTACAAATTTACGCTACTTAAAAACATATGAACTTAAAGCACTTGATTGTCAATTAAAGGCAACAAGTGCTTTTTTGTGTTTTAGCGTAGAAAATGGAAAAACAGCATTAGCATTTTGGAAGCAATATCCGTCACCCTCTTGTTTAGAGGGGGCAAATATAAAGCAATTAACGGCTTTTTTAGTAGAGGTTAGTCACAATACATGTTCGGTAAAGAAAGCAAGCGACATATTAAAACTTGTAAAAGAAGATGGACATACAATGAAGGAATATTAA	MYIKLTNSYKLVSFNIVFVMMYKGCHTVTTKLTNLRYLKTYELKALDCQLKATSAFLCFSVENGKTALAFWKQYPSPSCLEGANIKQLTAFLVEVSHNTCSVKKASDILKLVKEDGHTMKEY				NA	NA	NA	NA	NA
AK009_01831	438	yxxD_1		Antitoxin YxxD	ATGGCTACATTTGATTTTATAAAAAATAGTCATCATAAGTTTTTTAAATTACAAGAAAATGAACTTATAGTGGCAGAAGAGAGACTTGGATTTACATTTCCTAATGAACTTAGAAATTTTTACTTAGAAGTTGGCTATGGTTTTATAAAAGGAAATAATGTGGATGCAATAAATAGAATAATGGATCCAGATACTATAGCGGATATTACATTGAGAGAAGGTATTTACGAGTTTGATCCAGATTTAGAGGGAATATACGAGGAAGAAGATAAATTAGTTTTTTATGAAGTAAACGAGGGTGTATATTTAACACTTGATTTGAATACACCTCAACAAACTCCTGTATATTTTTTTGAGACTCAAATAGCTGATTCATTGGAGGAATTTATACGAAAAATTAATCAAGATACTGAATACTTTGTGGATATGGTTGATTAA	MATFDFIKNSHHKFFKLQENELIVAEERLGFTFPNELRNFYLEVGYGFIKGNNVDAINRIMDPDTIADITLREGIYEFDPDLEGIYEEEDKLVFYEVNEGVYLTLDLNTPQQTPVYFFETQIADSLEEFIRKINQDTEYFVDMVD	PGPT0027665_45	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
AK009_01832	1626			hypothetical protein	ATGGATGTGAAATATAGACCTGAACCATGGCAAAACATGGGAGATGGTATGAATCGAATTACAAAAGATGCACTCATGAAATTACGGGAAGCAAATGAATCATTAAAAAGAATTGATGGAAGAATACGAGATTTAGACTCGGATGGTAGTATACATTTTAATCCTAAAGATCAATCGCAAAAAATCGGGGAATTACTTGATAGTTATACGACATTACAAAAATATTGCGGAGAAGCAGGGCGATTAGTCTCTGAACATATAGATAAACCTTTTTTAGTAGAAATGGATAAATTCGCTCAAAAAGTGAGAGATACATCTATTCTCAGTTTTGAAACAAATAACCGAATTGGCTCCACAACAACGACAGTATTACCAGGTGCGCATGCGGGCTACGGAAGTGTACCACAAACAATACAGAAGAAGAAAGATAAAATAACAGTAGAAGATATTTTTAAAGATTCACCTGCATTTGATAATGTACTGAGAGAGGAATACAAAGAACTAAAAAAACGAAATCCAGATGCAAAACTAAATTATGAAGAATATAAGAAAGTAGTCCCATCCACACGAGGATTTGAATACAAATCGATAGAAGATGAACAGAAAAAACTAGAAATGGTGCGAGACATAGGAATAGGCGTAGGAATCATCATCACAACAATCCTTTGCCCACCACTCGGGGCCGCTGCCGCAGTAGTATACGGAGGTGTACAAATAAAAAGCGGTATCGACGGAGAAGACTGGGGAACACACCGGAAATTGAGCCAAGAAGAGCGGGTAGGAAACATCATTTTTGGTGGATTAGACGCAATCCCAGTTGTTGGAGCAGTAGGAAAAGGAGTAAAAGCATTCAAAGGGACGAGTGAATTAGCTGATTTAGCCAAATTATTAAAATTCAAAGAAGGAATGCCTGGTTTTAATCCAAATTTGGGTAAAAATGTGGTACAATCGCTTAAGGAAAATAAGACTTTAAAAAATGCACTAGATGCTATGAAAAATACTCCTATTCCAGTAGCAGTTAGGACGGTGGATACTGGAATAGGAATGAAGCTTCCTTATATAGAATCTTCAACTGTTGGAGAAGTAGCTGGAAAGTTTTCAAAGGCAAGTACGGCAGCTAAGGATGATGCTTATCAACTTGCTAAGGGTAGTGGTGGTTCAGGAGTTAGTAAGGAAGGTAGTGTGGCTAAGGGTACGGGTAAAATTGATTATGATTTAGCTAAAGATTATATTAGAGATGTAGAGTCAAAAACAGGATTGAAGCTTCATAAAAACCAAATAGAACAATTAAAGGCTGCTCTAAGGGAACATAAGTATGAAAAAATGACGCCATTGGAAACGTTAAAACACAGAAATAAATTTAACAGTGTGAAAAACAAATTGATAAGTGAATGGGAAGAAAAAACAGGTCAAACATGGCCAAGATATACTGAGGAAGTTTATGATAAAAAAGGTAGAGTAGCAAGGGATATTGGGCAACCCTATGATGCGCATCATATTATAGAGAATAATTTTGGTGGGCCTCATGAATGGTGGAATATACATCCAGCTAAGTTTCCTGATGAACATCAGGCAGGAATTCATGGTAAAGGGTCACCATCAAATAAATTATTTCCAAGGAGGTAG	MDVKYRPEPWQNMGDGMNRITKDALMKLREANESLKRIDGRIRDLDSDGSIHFNPKDQSQKIGELLDSYTTLQKYCGEAGRLVSEHIDKPFLVEMDKFAQKVRDTSILSFETNNRIGSTTTTVLPGAHAGYGSVPQTIQKKKDKITVEDIFKDSPAFDNVLREEYKELKKRNPDAKLNYEEYKKVVPSTRGFEYKSIEDEQKKLEMVRDIGIGVGIIITTILCPPLGAAAAVVYGGVQIKSGIDGEDWGTHRKLSQEERVGNIIFGGLDAIPVVGAVGKGVKAFKGTSELADLAKLLKFKEGMPGFNPNLGKNVVQSLKENKTLKNALDAMKNTPIPVAVRTVDTGIGMKLPYIESSTVGEVAGKFSKASTAAKDDAYQLAKGSGGSGVSKEGSVAKGTGKIDYDLAKDYIRDVESKTGLKLHKNQIEQLKAALREHKYEKMTPLETLKHRNKFNSVKNKLISEWEEKTGQTWPRYTEEVYDKKGRVARDIGQPYDAHHIIENNFGGPHEWWNIHPAKFPDEHQAGIHGKGSPSNKLFPRR	PGPT0027660_79	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
AK009_01833	327			hypothetical protein	ATGCAAGTATCAATGGGAGACGGTGGTTCTGGTGGTGGAGAAGAAGTATTAGTTAATTTTCAAGAACTACTTGATATAGTAATGAAATTAGAAGATATATATAAAATCCATGTAGACGTCATTGGAACGAATATTGAGAGTTTATTAAGCTGTGATTTTTATCAAAAAGGTGAAGCGATGAGAGTAATTGAAAAATATCCTGATATATTACACAAAACACTAGAATTGGCTGAACACTATTCTAGGTCAGCGACAGTTGTAGGGAATGTATGTGTAGAAATGCTTGAAAAGGACGAACAATTACGTGAAATATTAAGTAAGTTGTAG	MQVSMGDGGSGGGEEVLVNFQELLDIVMKLEDIYKIHVDVIGTNIESLLSCDFYQKGEAMRVIEKYPDILHKTLELAEHYSRSATVVGNVCVEMLEKDEQLREILSKL				NA	NA	NA	NA	NA
AK009_01834	720			hypothetical protein	ATGGGGAAAGAAATGAGTTTTGCACCTGCTGAATTATATGTTCTCGCAGGTGCAGCTGGGGTTACCGATATATTTGGATTGCCAAACCGTGACGCAATTATTTTACTTGATGCAGAATGTGTCACGAAAGCAACTACGAGTTTAAAAGAAAAAGGCCTACTTACAAGTGAAAATGGAATTACCCCTGCAGCTTTTCAAATAATTGAACTATTAAAGGAATATGAAAATTGTCATGAATACACGAGAATGAATAATGTATTAATTGGCTTTTTAAAAGAGGATAAAGACCGAGTGGCTGTATTAACAGAAATAGAACCAAATAAAAAATACGAGATCGACTACATACCAAAACCGGACGTATATTTTTCATTATTAACACGCATTCCCTTCTTATTGAGAGAACCGAGGGAAATAGAAGATACATTTTTCTCAAAGAGAATGACAGAGGCAGAACAACAAACATTTGAGGGAAAAGATTTATCAAATAAAGACGTTATAGCGATAGAAACGTATACGAGGCCTCGTAGTAATAGAGGAGGAAAATGGGAATGTTTCTTATATTTCACTGAAGGAGAAGATTTCGTTCAAATTGATGTAGAACGTAATCGATATGACTGGGTGAGTCTCTATGCGGTAAATAAGAAATTGTATGACGTGTTAAAAATGCCGTATAAAAAATTAGTTGATCCGAGACAATTTTCGTTAGGAGGTATTGAATAA	MGKEMSFAPAELYVLAGAAGVTDIFGLPNRDAIILLDAECVTKATTSLKEKGLLTSENGITPAAFQIIELLKEYENCHEYTRMNNVLIGFLKEDKDRVAVLTEIEPNKKYEIDYIPKPDVYFSLLTRIPFLLREPREIEDTFFSKRMTEAEQQTFEGKDLSNKDVIAIETYTRPRSNRGGKWECFLYFTEGEDFVQIDVERNRYDWVSLYAVNKKLYDVLKMPYKKLVDPRQFSLGGIE				NA	NA	NA	NA	NA
AK009_01835	306			hypothetical protein	ATGAGTGGTAAAGAGGTTGAAATTATAGGAAGTAACACTGCAAGTGCCATTTCTTACGCACAAAACATTGAAAATGGTATGAAGGATTCTTTAAACCAAGCGAAAGACTTAAAAGCATATGTCACAGGTGCGAAATGGAATGGAAAAACGAGAGATGCATTTTTAAGTTATCTTGATTTGATCATTCAATATAATTCAGAAATGGTAGAGGCATTTGAAGGACATACGAAAGCTTTGAAAGAGTTAGATAAAAGCATTCAAACGTACGGAGATAAATCGGAAGTAAGGGCGATAAAACAATTGTGA	MSGKEVEIIGSNTASAISYAQNIENGMKDSLNQAKDLKAYVTGAKWNGKTRDAFLSYLDLIIQYNSEMVEAFEGHTKALKELDKSIQTYGDKSEVRAIKQL				NA	NA	NA	NA	NA
AK009_01836	423			hypothetical protein	ATGTTAGATGAATTGTATAATGCTTTTTTAAATGCGTCTGGTTTTACAGAAAGTGCGAGGAAACGAGATCGGTATGATGATTTACATGATTATTTAAAAGATAAAGAAAGAGAGTTAAAGCAATTCATTCAAGAGGCTGAATCAGCGAAGAGAGAGTATGAGAGTAAAAGTAATGGCTTAGAAGCTAATAAAATTCCGGCAGTTGAATTTGAACAAAAACGTCATGAAAAGGATGAAGACTTAAATACAGTATTATCCTATTTTAAAAGTGCATTAAGCGATATTGGATCTGCAAAAAGTACAGCTTATGCAAAGTATTTGGAATATAAAGCGAAAGCAGAATCGGAGAAAGCGTCAGCATACGCCGCAGCGACCAAGGCTTTTGAAGAAAAGAAAAAGGAAATTGAAAAACTTATCCATTAA	MLDELYNAFLNASGFTESARKRDRYDDLHDYLKDKERELKQFIQEAESAKREYESKSNGLEANKIPAVEFEQKRHEKDEDLNTVLSYFKSALSDIGSAKSTAYAKYLEYKAKAESEKASAYAAATKAFEEKKKEIEKLIH				NA	NA	NA	NA	NA
AK009_01837	720	vanYB	COG1876	D-alanyl-D-alanine carboxypeptidase	ATGGGATGGAGTCTTGCTGCTTGTAGTGGAAAGCAAACATCTCAGGAAACTACTAATAATAACGATAAAAATAAAAATGAAATACATGCGAAGAAAAAAGATGTTTTACCTATCTCTGATGTTAATGATTGGAGAATTATCCTTGTAAATAGAGAGCATATGTTATCAAAGGAACTAGGAATTGAATTAACAAGTATTACTCAAAATGCTAAGCCGAATATGAAAATAGATAGTAGAATTGCAACTTCCTATCAGGATATGGTAGCAGCTGCAAAAAAAGAGGGAATCAATCTTTATTTAAGATCAGGTTATCGAGCTATAAAATTACAACAAACTTATTATGATGCGTCAGTTAAAAGCTATAAATCTCAAGGTTTGTCGGATAAAGAGGCTAGTGCTAAGGCGTTGGAATATCTTCAGTATCCTGGTGCAAGTGAACATCATACTGGATTAGCGTTAGACATTATTTCAGTTGAATGGCAGAATACTGTAGAAGATTTAAATGCAAAATTTGAAACTACCGATGCATTCAAATGGTTAGATAAGAACGCTGCAGAATATGGATTTACTCTCCGCTATCCAAAAGATAAAGAGAATATTACTGGCATTAAGTATGAGCCATGGCACTATCGTTATGTAGGGAAAGAAGTTGCTGTTTATCTAAAAGAAAAAGGGTTAACTTTAGAAGAATATAACGAAAAAATTAAGTCTGGTAAGTAA	MGWSLAACSGKQTSQETTNNNDKNKNEIHAKKKDVLPISDVNDWRIILVNREHMLSKELGIELTSITQNAKPNMKIDSRIATSYQDMVAAAKKEGINLYLRSGYRAIKLQQTYYDASVKSYKSQGLSDKEASAKALEYLQYPGASEHHTGLALDIISVEWQNTVEDLNAKFETTDAFKWLDKNAAEYGFTLRYPKDKENITGIKYEPWHYRYVGKEVAVYLKEKGLTLEEYNEKIKSGK	PGPT0024055_1346	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
AK009_01838	1236			hypothetical protein	ATGTTAGATACTTTACAGAGAAGTAAAAAGTTTTTTTTAGTATGTCTTATTTTTTTAGTGCTTTTAACCGCTTGTGGTAATACTGATGTTAAGACATCTAAAGCTTCATTACCACCGGCTGAATCCAATATAGATACATCATTAAAAGCACCAAATTGGGTAGAGAAAAGTCCTATCCAACAGTCTCCTAATTTTACGGAAGATAAAAAAGTACAATCGGTTGTGAATTTAATAGCTACGGGTGATAATTTATATCATGACGCAGTAATTAAAGATGGCAAACAAAAAGACGGTTCATATGATTATAATTATATTTATGAAAATATCAAAAAAGCTGTTAAATCAAGTGATCTTGCTATAGTGAACCAGGAGACTCCGATTGCCGGGAATAATTTAAAAGTACAAGGATATCCGACTTTCAATACACCTGAAGAAGTAGGCCAATCTTTAGTGGGCACTGGATTCAATATAGTGACGCAAGCGACAAATCACGCTATGGATATGGGTATTAAAGGTGTTGCGAATACAAGAGAATACTGGAAAAAATATCCGGATGTTATCCCAGTAGGCATTAATGAGAGTAAAAACGAGCGTAATGAAATAAAAACGATTACAAAAAATGGTATTCGTTTTGCGTTACTAAATTATACATATGGTACGAATGGAATTAAAATTCCAGCTGATAAGTCTTGGGCTTTAAATTTAATTGATAAAAAAGCGATACAAAATGATGTGGAAAAGGCAAAGAGTAGCTCTGATATGGTGATTGTTATGGTGCATTGGGGAGTAGAATATACCTCCACACCTTCAAAGCAACAAAAAGAAGTTGCTCAATATTTAACAGATCTAGGTGTAGATGTAGTAATTGGAAATCATCCACATGTAATTCAACCAATTGAGTGGAAACAAAATAAAGATGGACATGAAACGCTAATCTATTATTCTCTTGGAAATCTTATTTCTGCGCAAGAAAAATTAGAAACATTGGTTGGAGGATTATCTTATGTACAATTTGTTAAGTATGAAGATAAAACTTTTGGTATACGACAAGCGGCAATCGTACCGACAGTAACCGACTACGCTGATGGTAAGAAACAATTTAAAATTCAATTTTTAAAAGATTATTCGAATGAAAATTCTAAAAAACATGGAATTAAAAAATTTGTCGGCCCAGTTTCTTTGAAGGATTTCAAGGAGATTCCTAGAGACGTGTTGGGAAATTGGTATAAAGACTAA	MLDTLQRSKKFFLVCLIFLVLLTACGNTDVKTSKASLPPAESNIDTSLKAPNWVEKSPIQQSPNFTEDKKVQSVVNLIATGDNLYHDAVIKDGKQKDGSYDYNYIYENIKKAVKSSDLAIVNQETPIAGNNLKVQGYPTFNTPEEVGQSLVGTGFNIVTQATNHAMDMGIKGVANTREYWKKYPDVIPVGINESKNERNEIKTITKNGIRFALLNYTYGTNGIKIPADKSWALNLIDKKAIQNDVEKAKSSSDMVIVMVHWGVEYTSTPSKQQKEVAQYLTDLGVDVVIGNHPHVIQPIEWKQNKDGHETLIYYSLGNLISAQEKLETLVGGLSYVQFVKYEDKTFGIRQAAIVPTVTDYADGKKQFKIQFLKDYSNENSKKHGIKKFVGPVSLKDFKEIPRDVLGNWYKD				NA	NA	NA	NA	NA
AK009_01839	201			hypothetical protein	ATGACAAAACAACCTAATAAAAAGAAATTTGAAGTACTTGAAAATGAAACAATTACAGACTGCTTAGCACGTATGGAACAAGAAGGCTACGCTCCGTCTCGTCGTATGGAAGAGCCAATCTTTCATGAAGTAAAGAAAGACGGCAAAACAGTAGTTGAGCCGTGCGGTAGGAAGATTGTTTTTGAAGGGAAATTGAAGTAA	MTKQPNKKKFEVLENETITDCLARMEQEGYAPSRRMEEPIFHEVKKDGKTVVEPCGRKIVFEGKLK				NA	NA	NA	NA	NA
AK009_01840	1197	ycaD		putative MFS-type transporter YcaD	ATGTCAATGCGTTTTACTTTTTGGATTATGGTTGGGATTGTAGCAATCTCGGGTTTGTCACAAGGAATGCTCTTACCTGCCATTGCAATGATTTTTGAACAAGAAGGGGTTAGTTCAAGTATTAATGGTATTCATGCGACGGCATTGTACATTGGGATATTAGTCATTTCGCCGTTTCTTGAAAAACCGATGCAAAGGTTTGGAATGAAGCCGATTATTGTTATAGGTGGGTTTCTCGTTATTATTTCATTATTCTTTTTTACACAAACATTTTCGTTTTGGGTATGGTTTATCCTTAGATTTCTAGTTGGAGTCGGAGATCATATGCTTCATGTCGGAACACAAACATGGATCACGACAACATCGGACCCAAGTAAAATAGGGAGACAAGTATCGATATACGGTGTATTCTTCGGAATTGGTTTTGCCGTTGGTCCGTATTTAGCAAGCACTGTGCAGTACGGTCTTGCGACACCATTTATTATATCTACTGTACTTTGTTTAATAGGTTGGCTTTTACTACTTCCAACAAAAAATACATTCCCAGCGCAAGATGAAAGAGAAGCGAAGAGTGAATCATCATTTTCTCGTTATAAACAAGTTGTTGGATTAGGATGGATTGCACTGCTAGGTCCACTTGCATATGGCGTACTTGAAGCGATGTTAAACAGTAACTTACCAGTATACGCACTTCGTAAAGGGTGGTCTGTTTCAGATGTATCCTTCTTGTTACCAGCATTTGCAGTTGGGGGTATTATTACACAAATTCCGCTCGGTATATTAAGTGACAAATACGGAAGGGACCGTATATTAACGTGGACGTTTAGCATAAGTACGGGCATTTTTCTACTTGCCGCCGTATTTGATCAATATTACTGGATCGTCTTTGCCTGCATGCTTTTAGCGGGTATGGTTATTGGATCGTGCTTCTCTTTAGGGCTTGGATTTATGACTGATTTATTACCGAGACACTTACTACCAGCAGGTAATATATTATCCGGAATCGCTTTTAGTTTAGGAAGTATTATGGGACCTGTATTAGGCGGCGTATTTATAGAAAAAATACAGTATACAAGCTTTTTTATTGCGGTTATGATTATAATGGGAATTCTCGCAATGTTATATATGGTCTACATGAAAAATCAATTCGCATCAAGAAAAATAGAAAGTAGGTTAGGGCATGACAAAACAACCTAA	MSMRFTFWIMVGIVAISGLSQGMLLPAIAMIFEQEGVSSSINGIHATALYIGILVISPFLEKPMQRFGMKPIIVIGGFLVIISLFFFTQTFSFWVWFILRFLVGVGDHMLHVGTQTWITTTSDPSKIGRQVSIYGVFFGIGFAVGPYLASTVQYGLATPFIISTVLCLIGWLLLLPTKNTFPAQDEREAKSESSFSRYKQVVGLGWIALLGPLAYGVLEAMLNSNLPVYALRKGWSVSDVSFLLPAFAVGGIITQIPLGILSDKYGRDRILTWTFSISTGIFLLAAVFDQYYWIVFACMLLAGMVIGSCFSLGLGFMTDLLPRHLLPAGNILSGIAFSLGSIMGPVLGGVFIEKIQYTSFFIAVMIIMGILAMLYMVYMKNQFASRKIESRLGHDKTT				NA	NA	NA	NA	NA
AK009_01841	228			hypothetical protein	ATGCATAAACCATCCTTAATCGCTTATTCGCCATATAATCATCATATCTATACAAAAATAATGATAGATCCGATGTATATGCAAGTTTCACCAGCTGTAGTTCCTTTACAGATGCAGCAGCCACTAACAGCTCATATGCAACATTACTTATATGGACCTTCATTTTATGAAAATCCATATTTTAAACACTTTCATTACAATGTGAAAGCGCAAGTTTGGGAAGGATAG	MHKPSLIAYSPYNHHIYTKIMIDPMYMQVSPAVVPLQMQQPLTAHMQHYLYGPSFYENPYFKHFHYNVKAQVWEG				NA	NA	NA	NA	NA
AK009_01842	903		COG0596	putative protein	ATGATTAAGCCTGCAACAATGGAGTTTGTTTCACTATCGAACGGAGAAACGATTGCATATCAGGAAGTTGGAAGGCGAAATACAGATATTCTTGTACTCATTCACGGGAACATGACATCGTCACAACATTGGGATTTAGTCATTGAAAAGTTGCAAGATCAATACCATATTTACGCTCTTGATTTAAGAGGGTTTGGACAATCAACGTATAATCAGTCCATAGATTCATTACAAGACTTTGCAGAGGATGTAAAATTATTTATCGACGAGTTAAAGCTAGAGAAATTCTCATTAATGGGCTGGTCAATGGGCGGTGGCGTTGCGATGCAATTTACAGCGAACCACCCAACTTTTGTAGAAAAGTTAATTTTAGTAGAATCAGTAGGAATGAAAGGATACCCAATCTTTAAAAAAGATACGAATGGGCAGCCGATTGTATCAAGTTTAGTAAAGACGAAAGAAGAAATTGCGCAAGATCCAGTACAAATCGCTCCAGTATTAGACGCGATAAAAAATATGAACAAACTATATTACCGTACAGTATGGAATCTATTAATATATACGCATAACCAACCTGAACCGGACCGTTATGAAAAGTATTTAGATGATATGTTAACGCAACGTAATTTCGTAGATGTGAATTATGCGCTCATTACATTTAATATTTCAGATGAACATAACGGGGTTGTAGGGGGAAGTAAGCAAATTCATCGTATTAAAGCGCCAACACTCGTCATACAAGGTGATAGAGATTATGTCGTACCGCAAGTAGTCGGTGAGGAATTAGCGAAACATTTGCCAAATGCAGAGTTGAAGGTATTAGAAGATTGCGGACACTCGCCGTTTATTGATTGTTTAGATGTATTTATAAAACATGTAGAGGATTGGTTAGAACAGAAATAA	MIKPATMEFVSLSNGETIAYQEVGRRNTDILVLIHGNMTSSQHWDLVIEKLQDQYHIYALDLRGFGQSTYNQSIDSLQDFAEDVKLFIDELKLEKFSLMGWSMGGGVAMQFTANHPTFVEKLILVESVGMKGYPIFKKDTNGQPIVSSLVKTKEEIAQDPVQIAPVLDAIKNMNKLYYRTVWNLLIYTHNQPEPDRYEKYLDDMLTQRNFVDVNYALITFNISDEHNGVVGGSKQIHRIKAPTLVIQGDRDYVVPQVVGEELAKHLPNAELKVLEDCGHSPFIDCLDVFIKHVEDWLEQK	PGPT0019765_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019765-mhpC-K05714	NA	NA
AK009_01843	417	slyA_2	COG1846	Transcriptional regulator SlyA	ATGGACGAAAAACAACATTTTTTTCACATCGTCAGCCAGACTTCTCGAAAGTTTACGAAGAAATTTAATGAACGTGTATCTCCAACAGGGTTATTTAGTGCGCAATGGGCTGTTATTTTCCGCATTAATCAAACTGGTTCTTGTACGCAAACAGAATTATGCCAGTATTTAAATGTTGAATCACCAACGATGACTCGTACGTTAACACGTATGGAAACGATGGGATGGATTATTCGTACAGAAGGTAAAGATCGCCGCGAGAAGCTTATTTCTTTATCCGAAACAGCGATAAAGATGATTCCAGTATGGCAAGAAGAAGTTGACACTTTCGAAGAAAAAACGCTAGAAGGTATTAACGAAGATGATTTACATCAAGCATTTCAAATGTTACAACAAATTATTAAAAATTTAGATTAA	MDEKQHFFHIVSQTSRKFTKKFNERVSPTGLFSAQWAVIFRINQTGSCTQTELCQYLNVESPTMTRTLTRMETMGWIIRTEGKDRREKLISLSETAIKMIPVWQEEVDTFEEKTLEGINEDDLHQAFQMLQQIIKNLD	PGPT0016255_1964	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
AK009_01844	1200	yhhS		putative MFS-type transporter YhhS	ATGCAAAGTGAGAAACTTTGGACGAAGGATTTCCTCGGAACTTGTTTTAGTAGTCTATTTCTCTTCTTAACATTTTACATGCTTATGACTACTCTGCCTGTCTATGTAATAGACGGCCTAAAAGGAAAACCTGAGGAAATTGGTTTAGTTGCAACTGTGTTTCTTATTTCTTCTGTTTTATGTAGACCATTCACAGGAAAATGGCTCGATGATTTAGGAAGAAAGAAAATATTATTTATTTCACTTTCATTATTTTTAGCCGCTACTGTTATGTATTTCGGTGCGCAAAGTTTATTCTTATTACTTGCCCTTCGCTTCTTACACGGTATTGGGTTCGGGATGGCAACGACAGCTACTGGTACGATTGTAACTGATGTTGCGCCAGCTCATCGACGAGGCGAAGCACTTGCATATTTCGGCGTATTTATGAGTCTGCCAATGGTAATTGGTCCTTTTTTAGGTTTAACAATTATTTCTCATTTTTCGTTTACTGTGTTATTTATCGTTTGTTCCGTATTTTCATTACTTGCATTTTTATTAGGGCTACTTGTCGATATTCCTCACGAAGCACCTGTTAGCAAACAAAAACGTGAAAAAATGAAATGGAAAGACTTAATCGAACCATCTTCTATTCCGATTGCACTTACAGGATTTGTTTTAGCCTTTTCTTATAGTGGTATTTTATCCTTTATTCCTATTTATGCGAAAGAACTCGGTTTAAGTGAAATTGCAAGTTACTTCTTTATTGTATACGCACTTGTTGTTGTCATTTCTCGTCCATTTACAGGAAAGATTTTTGATCGCTTCGGTGAAAATGTACTCGTTTACCCTGCAATCATTATTTTCACAATCGGAATGTTCATATTAAGCCAAGCACAAACTTCATTTTGGTTCCTTGGCGCAGGTATGCTAATCGGTTTAGGTTACGGAACATTAATTCCGAGTTTCCAAACGATTGCAATTTCTGCCGCCCCAAACCATAGACGTGGTTCTGCGACAGCTACGTATTTTTCATTCTTTGATAGTGGTATTGGTTTTGGTTCTTTCATTTTAGGTATTGTCGCAGCGAAATCCAGTTATCATAATATGTATTTTATCGCAGCTATTATCGTTGCGTTCACTTTACTTTTATATTACGGATTACACGGACGAAAACAAAAATTCAAGAAACAACCTACAGACGGAAAAATTTCCGCTTAA	MQSEKLWTKDFLGTCFSSLFLFLTFYMLMTTLPVYVIDGLKGKPEEIGLVATVFLISSVLCRPFTGKWLDDLGRKKILFISLSLFLAATVMYFGAQSLFLLLALRFLHGIGFGMATTATGTIVTDVAPAHRRGEALAYFGVFMSLPMVIGPFLGLTIISHFSFTVLFIVCSVFSLLAFLLGLLVDIPHEAPVSKQKREKMKWKDLIEPSSIPIALTGFVLAFSYSGILSFIPIYAKELGLSEIASYFFIVYALVVVISRPFTGKIFDRFGENVLVYPAIIIFTIGMFILSQAQTSFWFLGAGMLIGLGYGTLIPSFQTIAISAAPNHRRGSATATYFSFFDSGIGFGSFILGIVAAKSSYHNMYFIAAIIVAFTLLLYYGLHGRKQKFKKQPTDGKISA				NA	NA	NA	NA	NA
AK009_01845	1260	nylB_2		6-aminohexanoate-dimer hydrolase	ATGAAACTAAAAAGATCTCCCCTACTCTTACTTATACTAACATTCATATTTGTAATTACAGGGCTTGGGTTTACTTACTTCAAACAAAATAAAACGACCCCATCAAAACATAATGTGACAAAAGAAAACTGGTTAAATGACCCTTACTTACGTTGGTCATATACCCATATGAAAGAATTCACTTTAGTTAATAACGTAAAAAACAATCCTGACCAAATTGCTCACTTCCCTTCCGCATTGCAAAACTTAGATGATTTTGCTGTGGAGCGTAGATTCGGAAATACAACTCCTCTAAAAAAACTTTTAGACGATAACAAAACAGATGCTTTTGTCGTTGTACATAATGGACAACTTGTTTACGAACGATATTTCAATGAGTATAAACAGAATGAACCTCATGGTATGGCATCATTAGCAAAAGTCTTTACCGGGGCAATTATACAATCTCTCGCTGAAGAAAAACGTATTGACTTAGAAAAAACAGCTGACACTTACATAAAAGAATTAAAAAACACACCGTTCGGTAATGCCACACTTCAGCAATTAATGGACATGCAAGTTTCAGCTGAATATCCTACTCATGGATATGAGCAACCTGGGCTAGAAAATCAAGATGCACAATTATATTTAGCTAGCAATATTTTACCCCGCGGCAAAAATTACGACGGTCCGATGAAAATTTATGATATGTTACGGGAAGCCGAAGAAACTGCACCGCCTGGTTCTTCCTTTTCTTACAATAACGGATCAACAGAAACGCTTGCTTGGATTATTAGAACTATTACTGGTAAATCACTAGCTGAAAATGTAAGCGAACGAATTTGGTCTCAAATTGGTATGGAAGAAAACGCGTATTACGTTACAGATGAAATGAAAATAGAACAAGCAAGCGCTGGCTTAAATGCAACTGCTAGAGATATGGCGAGATTCGGGCAATTACTATTAAACAACGGGGAATATAACGGAAAACAAATTCTCCCTTCTTCTATTACAGAAAGTGTAAAAAATGTACAAGAAGGTGAACTTGAAATTAGTATTGGCGCTTCTATTTCTTATCATAATCAATGGTGGATTCCCCACAATGAACAAGGTGCTTTCGAAGTGTTAGGTAGTTACGGACAAACACTTTACATCGATCCGAAAGCAAATATGGTAATCGTTCATTTCTCTTCTAACGCAACGCCAAGTAATGAAATACATTCGGTTTATTCAAATATGTATATTGATATTGCACATCATTTAGAAAAGCTTCCACAGTAG	MKLKRSPLLLLILTFIFVITGLGFTYFKQNKTTPSKHNVTKENWLNDPYLRWSYTHMKEFTLVNNVKNNPDQIAHFPSALQNLDDFAVERRFGNTTPLKKLLDDNKTDAFVVVHNGQLVYERYFNEYKQNEPHGMASLAKVFTGAIIQSLAEEKRIDLEKTADTYIKELKNTPFGNATLQQLMDMQVSAEYPTHGYEQPGLENQDAQLYLASNILPRGKNYDGPMKIYDMLREAEETAPPGSSFSYNNGSTETLAWIIRTITGKSLAENVSERIWSQIGMEENAYYVTDEMKIEQASAGLNATARDMARFGQLLLNNGEYNGKQILPSSITESVKNVQEGELEISIGASISYHNQWWIPHNEQGAFEVLGSYGQTLYIDPKANMVIVHFSSNATPSNEIHSVYSNMYIDIAHHLEKLPQ				NA	NA	NA	NA	NA
AK009_01846	105			hypothetical protein	ATGGGAAAAGGTAGAAGTAATAATGCAGGTAAAAAGCAACCAAATTTCGATGATTCATCTAATTTCGCTAAACAAAGCCAACCGACAGAAAAGAAGAAGAAATAA	MGKGRSNNAGKKQPNFDDSSNFAKQSQPTEKKKK				NA	NA	NA	NA	NA
AK009_01847	1368	atoE	COG2031	Putative short-chain fatty acid transporter	ATGAAACATTCCTTAATGGAGACAAATTCAGAACCAGAAAAGAAAGAATCGTTGCTTACACGATGTGCAAATATATTTTCGAGATGGTCTCAGAAATATGTCCCGGATGCCTTTGTTATTGCAGTGCTGCTCACTTTATTTACTTTCATTATAGCTTTGTTGATGAATCCCTCAAATCCGTACAAAATCGTAAAATCTTGGGGGGATGGGTTTTGGACTTATTTAACGTTTACAATGCAAATGGTATTGCTAATGGTTACAGGGATGACGTTAGCTTCTGTCCCGTTTATTAATAGAGCCTTGCAGTCTGTTGCAAAGTTAGCCGATACACCTCAAAAGGCCTATACGATGACATTTTTGATCAGTGCAATTGCATACTATATCAATTGGGGTCTAGCCGTAGTTGTGGGAGCTATCATTGCAAAGGAAGTAGCAAAAAAGAATGCGAATGCACATTTTCCATTACTTGTAGCAGCTGCTTATGCTCCGACAGCCTTATATAGCGCAGGTCTCTCCAGTTCTATTGGCCTGACAATTGCCACAAAGGATCATTTTCTTGTAGATATGATTGGAATTATTCCTACCTCACAAACAATCTTTAGTTACTCTACTTTAATTATTTTTTTCACTCTATTCATCACGATGCCAATTATTATTGTACTTATGGCTCCTAAAAGTGGGATTATCAGCTATAAAGCAATCGAAACTGATACAAATTCTTTTGTAAAACCTCCTCAAAAAAGTTTAACTCCTGCGGAAAAACTGGAATGGACACCAGTTTTAGGAATAATATTAGGCGCAATCGGCACGTTGTATTGTGTTTATGAATTCATGAACGGTCATAGTTTAGATTTAAATATCATTAATTTGTTTTTCTTGTCACTTGGTTTGCTCCTACATGGTTCTCTTGGTAACTTTGCACAAGGATTCAAAGAATCTGCGCAATCCATTTCTCCAATTATCTTACAGTTTCCATTTTATGCAGGGATTATTGCTGTTTTAGGTAGTTCAGGTTTGGGAAGCTCAATCATTGAATGGATGGCATCCATTGCGTCAAAGGATACATTTGATATATTTACATATTGGTCAGCGGGGCTGGTAAACTTATTGGCGCCATCTGGCGGGGGGCAATGGGCTTTACAAGGACCACTGCAGGTCCCGGCAGGATTGAAGTTAGGTGTAGATCCGGCTACTATCGCTATGGCGGTAGGTTGGGGGGACGCATGGACAAATTTGATTCAGCCGTTCTGGGCATTACCTCTTTTAGGTGTGCTGGGATTGAAAATTAAAGACATTATGGGTTATTGTTTCATTCTTTGCATTTGGGTTGGCATAGTTACAAGTTTATTGATGTTATTTGTATATTAG	MKHSLMETNSEPEKKESLLTRCANIFSRWSQKYVPDAFVIAVLLTLFTFIIALLMNPSNPYKIVKSWGDGFWTYLTFTMQMVLLMVTGMTLASVPFINRALQSVAKLADTPQKAYTMTFLISAIAYYINWGLAVVVGAIIAKEVAKKNANAHFPLLVAAAYAPTALYSAGLSSSIGLTIATKDHFLVDMIGIIPTSQTIFSYSTLIIFFTLFITMPIIIVLMAPKSGIISYKAIETDTNSFVKPPQKSLTPAEKLEWTPVLGIILGAIGTLYCVYEFMNGHSLDLNIINLFFLSLGLLLHGSLGNFAQGFKESAQSISPIILQFPFYAGIIAVLGSSGLGSSIIEWMASIASKDTFDIFTYWSAGLVNLLAPSGGGQWALQGPLQVPAGLKLGVDPATIAMAVGWGDAWTNLIQPFWALPLLGVLGLKIKDIMGYCFILCIWVGIVTSLLMLFVY	PGPT0021760_434	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021760-atoE-K02106	NA	NA
AK009_01848	354			hypothetical protein	ATGAATGAAGTCGACCGTATTATAAACTGTGTTCAGTATGATGGCGAACTTTTTCGGAAGTATGTTACGCGTTTACTTCAATTGAAAAAATGCAGCGATACATTTCAACAAATTCAAATTGAGTTAAGAAATGACTACTTGATAAGAGGAATTTGTGAAAGAGAAGTTGATGAGGTAGTACGGGGAAGTAAAGAATATGAAATGCATTTTCTTCCTAAAGTATTACAGTGGAATTTTTTGAGGGAAAATCCATATCTAATTGAAAAAGTGTGTGAAGATTTTTTTGCGTTTGAGGCATTACATCTTAAGGACGTAGAGTGGAATACAGTTATAAATTGCATGGGAAATAAATGA	MNEVDRIINCVQYDGELFRKYVTRLLQLKKCSDTFQQIQIELRNDYLIRGICEREVDEVVRGSKEYEMHFLPKVLQWNFLRENPYLIEKVCEDFFAFEALHLKDVEWNTVINCMGNK				NA	NA	NA	NA	NA
AK009_01849	576	azoR2_2	COG1182	FMN-dependent NADH-azoreductase 2	GTGAATGTACTAATTGTATACGCTCATCCTAATCCTTCAAGTTTTAACGCGGCGATTTTAAATCATGTGCAAAAAGGACTACAGGAAACAAATCATTCAGTTACCGTACTTGATTTATACAAAGAACAATTTGATCCAGTCCTCGTGTTTCATGAAGAGAAGAAAAGACGTGATTTAGTAAATGAAGAGGAAACAGCTCGGTACAGAACGTTAGTAGAAGAAGCAGATACACTTCTATTCATCTATCCAATATGGTGGTGGGGGATGCCAGCAATTTTAAAAGGATTTATCGATCGTATTTTCGTAGCTGGATTTGCTTATAAATATGAAGGGGCTCTGCCGAAAGGATTATTGCAAGGGAAAAAAGCATGGGTTATTAATACGTTAGACTCGCCTCTATGGTACGTCGCATTGTTATATCGATCAGCAGATTGGATTATGATGAAGCGAGGTGTTTTACGTTTTTGTGGCATTCGCGATATAAAACGGTCAGTGTTTCAATCTGTGAAAACGAGTAAAGTATCAAAGCGTGAAAAATGGTTATTACAAATAGAAGAAAAGGCTCGTACATTATGA	MNVLIVYAHPNPSSFNAAILNHVQKGLQETNHSVTVLDLYKEQFDPVLVFHEEKKRRDLVNEEETARYRTLVEEADTLLFIYPIWWWGMPAILKGFIDRIFVAGFAYKYEGALPKGLLQGKKAWVINTLDSPLWYVALLYRSADWIMMKRGVLRFCGIRDIKRSVFQSVKTSKVSKREKWLLQIEEKARTL	PGPT0009455_2249	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK009_01850	390			hypothetical protein	ATGTATGCTTATTTAATAAAAGAACTATATAGGCATATTCCGAAATATATTATTGATAGAGGATATGAATATTATGAAGATGGACATGTAGAAGATGTTGAAGTACATGATAATAAAGTATTTGCTTTTGTGAATGGTAATGCAGGAAATTATGAAGTCGTTATCGACCTCAAAGATTTTTCAGAAAGTAACTGTGAGTGTCCCTATGAAAATTATTGTAAACATATGGCGGCAGTTGTTTATGATATTCAAGGCACTGGTGAGAGTGCAGTTAAAGAGAAACTGAAAGATTTAGAAAAGGAAGAGTTACTTACTGTATTAAACCGTTTATTACAAAGTTCGAAAAACGTGCAAATTGTAGAGAAGTTGTTAAAGAAGGGGAAACTTTAA	MYAYLIKELYRHIPKYIIDRGYEYYEDGHVEDVEVHDNKVFAFVNGNAGNYEVVIDLKDFSESNCECPYENYCKHMAAVVYDIQGTGESAVKEKLKDLEKEELLTVLNRLLQSSKNVQIVEKLLKKGKL				NA	NA	NA	NA	NA
AK009_01851	315			hypothetical protein	TTGCAAAAAAACCGATTACGAAAATTTATATTAAGAAGAAAGGGGTTGCGCATTACTGTGACACTCGAAAAATACGTAAAACTGCGTAGTACAGTTTATGAATATATGATAGAGCAAGATAAGCCGATATCATTGTTAGATATTCAAGAACATATCGTTTCGCATCATGAAGGAAAATTCACGAAAAAGATGTTGCATCAATTTTATTTATCAAGATTATTAGACGAACTAAAACTGGATGGGAAAATTACATTAGCTGATGAATATCTCTATGCTGAAAAAGGTGTATTGTATAAGGCGAGAAAAGGGAGCTAA	MQKNRLRKFILRRKGLRITVTLEKYVKLRSTVYEYMIEQDKPISLLDIQEHIVSHHEGKFTKKMLHQFYLSRLLDELKLDGKITLADEYLYAEKGVLYKARKGS				NA	NA	NA	NA	NA
AK009_01853	192			hypothetical protein	ATGCATCAAAATGCTCGCGGATATGTACAAGATTCTTTTCAATCATTACAAGAAGCTAAAAATTGTTTAGAAGAAGCGCTCGAAACAGTTGAAAAAGATTTTAATCGCGCTCGTATTGAACAATCACTTTATGCTGTTGAACAAGCTATTCAACGTTGCGAGTACACCGTTCACATTTTAGAAAAAGATTAA	MHQNARGYVQDSFQSLQEAKNCLEEALETVEKDFNRARIEQSLYAVEQAIQRCEYTVHILEKD				NA	NA	NA	NA	NA
AK009_01854	723			hypothetical protein	ATGAAGTTAGTTATTCCGAAGCAACATGGTGCATGGGCCATGCTTGTTATTCCTTTTTTATTAAGTGTCGTACTTGGGAAACCTACTATTTATCATATTCCATTGTTTTTAGCGTGGTTTTTTATCTATTTAGCCACGTATCCATTTCTTACGTACATAAAGCAAAGACGAAAAAAAGAGTTTTTACAAGCTGCCATTGTTTATTTCAGCATTGCGTTCCTATTTGGGATGATTTCTTTATTATATGAGTGGCGAATTCTTTTATTCTTAATAGTAATGATTCCATTATTTATAGTGAATATGTATTACGCCCGTCAAAAAAATGAAAGAGCACTATTAAATGATATTTGTGCAATCATTGTGTTTTGTATCGGTGGGTTAATTAGTTATTACTTTTCAATGAAGCAAATCGATCATACAGCTTTATTCATTGCACTTATTTCATTTTTATACTTTTTAGGTAGTACGTTCTATGTGAAAACGATGATTCGTGAAAAAAATAACCCGAAGTATCGTCTTATATCTTGGGGATATCATATCTTATTAACGATAATTGTATTTGCGATTAATCCGTGGTGTTCTCTTATTTTTATACCAAGTGTCATTCGAGCAATTGTGTTGTATGGCAAAAAAATTTCTATTATAAAAGTAGGAATTTTAGAAATTGCTAATTCTGTATATTTTTTAATCATAACGGCAATAATTATGAAGTATGCCATTTGA	MKLVIPKQHGAWAMLVIPFLLSVVLGKPTIYHIPLFLAWFFIYLATYPFLTYIKQRRKKEFLQAAIVYFSIAFLFGMISLLYEWRILLFLIVMIPLFIVNMYYARQKNERALLNDICAIIVFCIGGLISYYFSMKQIDHTALFIALISFLYFLGSTFYVKTMIREKNNPKYRLISWGYHILLTIIVFAINPWCSLIFIPSVIRAIVLYGKKISIIKVGILEIANSVYFLIITAIIMKYAI				NA	NA	NA	NA	NA
AK009_01855	702			hypothetical protein	GTGTCCAAACGATATGTTGCATTTATAATATGTATCTTTGCAGTAATAATCGGCACATTACTTCTTACGACACTTGTCATGGACGGTTATTACATGTTAAGTAGTTTGTTTATATTAGCAGTTATTATGTTACCTTTCTATATCCGTTTTGAAAGAAAGGCGTTTGTTTCACGTGAAATTGTTCTCGTTGCTGTATTAGCGGCAATTGCAGCAGTAAGCCGGGTGCCATTTTCTATTTTACCAAGTGTACAACCAACTTCTTTTGTCATTATCGTTTCTGCAATTGTATTTGGAAGTGAAACTGGTTTTATGATTGGTGCTACAGCAGCAATCATATCCAATATTTTTTTAGGACAAGGTCCATGGACACCGTGGCAAATGTTTTCATGGGGCATGATTGGTTTTATAGCAGGTCTACTTCGTAATACATTTTTTATGAAAAAGCTATGGGGAAGACTTTTTTACGGAGTAATTGTTGGCTTTTTATTTGGCTGGATTATGAATTTCTGGGGCCTTCTCGGTTTTATACGAGAAGCAACGTGGGAAACTGTCATTTCGTATTATATCGCAAGTTTTTACTTTGATTTGAGCCATGCGATTTCGAATGTTATTTTCTTATTACTATTTAGTACTTCATGGATTACGATTCTTACAAGATTTAAAAAGAAATACGGTATATTAGATGAGCATAACGTGACATAG	MSKRYVAFIICIFAVIIGTLLLTTLVMDGYYMLSSLFILAVIMLPFYIRFERKAFVSREIVLVAVLAAIAAVSRVPFSILPSVQPTSFVIIVSAIVFGSETGFMIGATAAIISNIFLGQGPWTPWQMFSWGMIGFIAGLLRNTFFMKKLWGRLFYGVIVGFLFGWIMNFWGLLGFIREATWETVISYYIASFYFDLSHAISNVIFLLLFSTSWITILTRFKKKYGILDEHNVT				NA	NA	NA	NA	NA
AK009_01856	1656	ykoD_2	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGGTGGCGCATGCAGAAATAAACAATTTATCATTTGTATATGCTGATGAAAATGAAAAAGCGTTACAGCATATTTCTCTTTCTGTTCAAAAAGGTGAGTTTATTGCACTTGCTGGAGGATCGGGATCTGGGAAGACGACGTTATTAAAACATTTTAAAAAGGAGTTACTTCCAATTGGTACGCGTTCTGGAGAGATATTTTATGAGGGTGTTTTAATAGAGGAAGTAGCTAATTTGTTATCTGCCCAAGAAATTGGGATGGTATTTCAAAACCCAGAAAACCAGATTGTTATGGATACAGTGATTCAAGAATTAGCATTTTCTTTAGAAAATATCGGATTACCATCACATATTATTCAAAAAAGAATAGCAGAGCTTATTAGCTTTTTAGGATTTCAAGATTTATTGCATCAATCTGTTCATACGTTATCTGGTGGGCAGAAGCAGCTTGTCAATTTAGCTGCGGTATTAGTTATGCAGCCGAAATTGCTATTATTAGATGAACCGACAGCGCAGTTAGATCCAATCGCTGCAAAAGAGTTTTTAGGATTATTAAAACGGATTAATGAAGAACTTGGAATTACGATTATTTTAAGTGAACATCGTTTAGATGAAGTTATCCCGCTTGCAACACGCGTTGTTTGTATGGATAATGGCTGTATTATGTATGATGGTAGTCCTAAAACTGTTATTACGAATATGTGGGGAGTAGAAACATTCCGTCCATTTATTCCGCAAATTCCAAGGCTATTTTTAGAGTGGAATGTGAGAGATATTCCGTTTACGGTGCGAGAGGCGCAAATGAAAATGAATAATTTTTCAGCGATATCATATGTAAATGAGCCAATAGCACAAAGTGAAAAGCAAGAGGTAATTTTAAGCGCAGAGCATATTTCGTTCCAATATGAAAAAAATAGTCCGCTTATTTTACGTGATTTATCAGTTTCGATTGAAAAAGGAAAATGGGTAGCGCTCGTTGGGAAGAACGGTACAGGTAAGTCTACACTGTTAACGATTTTAGCGGGATTGCAAAAAGCGAGAAGAGGGAAAGTAAAGTGGAATGGGAAAGTGATACATAAAATTGATTCGAAAGAACGATTTAAAAGTATTGGGTATGTATCGCAGCATCCATATTATCATTTTACATTTGATACAGTGTGGGAAGAAGTGTATGAACGTGCACGTGAATTATACGGAGAACAAGGAAAAGAAATAGCAGAAGATACGCTAAAACAGTTTTGGTTGTATTCGCTTAAAGAACGCCATCCGCACGATTGTAGCGGAGGAGAGCAACAACTTCTTGCATTATGTACGACGTTATTATCAAAGCCGACTTTATTATTACTTGATGAACCGACAAAGGGGTTGGATCCATGGAAGAAAGAAAGAGTAGGAGAACTATTTAGGAAGCTACAAAAAGAAGGTACAACAATTGTAATGGCAACGCATGATATTGAGTTTGCAGCGAAATACGTGGATCAATGTATGATGTTATTTGATGGAACAGTCATTATGAATGATGCACCGAAAGAATTTTTTAGCGGCAACTTCTTTTATACAACATCTATTAATCGATTCATTCGAAAAGAATTGCCATATGCATTAACGTGGGAGGATGTGTACGAAGCGTGTCCAAACGATATGTTGCATTTATAA	MVAHAEINNLSFVYADENEKALQHISLSVQKGEFIALAGGSGSGKTTLLKHFKKELLPIGTRSGEIFYEGVLIEEVANLLSAQEIGMVFQNPENQIVMDTVIQELAFSLENIGLPSHIIQKRIAELISFLGFQDLLHQSVHTLSGGQKQLVNLAAVLVMQPKLLLLDEPTAQLDPIAAKEFLGLLKRINEELGITIILSEHRLDEVIPLATRVVCMDNGCIMYDGSPKTVITNMWGVETFRPFIPQIPRLFLEWNVRDIPFTVREAQMKMNNFSAISYVNEPIAQSEKQEVILSAEHISFQYEKNSPLILRDLSVSIEKGKWVALVGKNGTGKSTLLTILAGLQKARRGKVKWNGKVIHKIDSKERFKSIGYVSQHPYYHFTFDTVWEEVYERARELYGEQGKEIAEDTLKQFWLYSLKERHPHDCSGGEQQLLALCTTLLSKPTLLLLDEPTKGLDPWKKERVGELFRKLQKEGTTIVMATHDIEFAAKYVDQCMMLFDGTVIMNDAPKEFFSGNFFYTTSINRFIRKELPYALTWEDVYEACPNDMLHL				NA	NA	NA	NA	NA
AK009_01857	879	ecfT_2		Energy-coupling factor transporter transmembrane protein EcfT	ATGAAAATAAGTTTTTCTTCTTTACATCCTTTTGTGAATTTTTTCTATTATATCGGGGTGATGATACTATGTATGATGTGTCTTCATCCTCTTTTTTTAATTGGAGCAATAGTATTAATTGTTATTTTAAATGTGATGCAAGGAAATAGCGAAAAGATAAGAAAGATGCTACCGAGCACAATTGTTTTCTTCTTTGTGGTAATTTTATTTAATTCGTTATTAACGCATAGAGGTCGAACTACGTTATTTTGGTTAGGTGATAGCCGTATTAAGCTTGAGGCGATTATGTTTGGAATAGTAATGGGGTTATTACTAGTTGCAGTTATGTTTACCTTTGCGTCATACAATGATATTATTTCCAGTCATAAATTTTTATATTTGTTTTCAAGAATTTCACCGAAAGTTGCATTGTTAACGATGATTACAGTGAGATTTGTTCCTTTGTTTATAAGGCGATTAAAGAAAATCACACTCGTTCAAAAGACGAAAGGTGTGCAGGTAGATTCAGGTTCGATAATTGAACGCGTCAAAAATGGTATGCAATTGCTGCAAGTATTATTAATTTGTTCATTAGAAGATGCACTGCAAACGGCAGATTCTATGCAAGCTCGTGGATTTGGTGTAACGAAGCGTACGACGTATATTCGCTATAGAATGGAAAGGCGCGATTGGTATACGCTCAATTATTTAATCATTCTATTTATAGCTGCTATTGTATGTAGTAATTATAGCGGGGGGAAATTGATTATTTATCCGAAAGTTGAATCGATTCTATTTCAGCAATACGATGGGATGATGTTTGTCGTATTTACGATGTTTATTAGTTTACCAATCATAATGGAAGGGAGAGAATGGATATGGTGGCGCATGCAGAAATAA	MKISFSSLHPFVNFFYYIGVMILCMMCLHPLFLIGAIVLIVILNVMQGNSEKIRKMLPSTIVFFFVVILFNSLLTHRGRTTLFWLGDSRIKLEAIMFGIVMGLLLVAVMFTFASYNDIISSHKFLYLFSRISPKVALLTMITVRFVPLFIRRLKKITLVQKTKGVQVDSGSIIERVKNGMQLLQVLLICSLEDALQTADSMQARGFGVTKRTTYIRYRMERRDWYTLNYLIILFIAAIVCSNYSGGKLIIYPKVESILFQQYDGMMFVVFTMFISLPIIMEGREWIWWRMQK	PGPT0004015_698	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
AK009_01858	810			hypothetical protein	GTGAAATGGTTCATTTCTTTACTGCTTTCGCTCGGGCTACTTGCCGGATGTGAAGAGGCAGCTGTAAAGCCTGAGAAGAAGGTAGAACCGAAGCAAGAAGAGGTAGCGAAACAAGAAGAACAAAAAGATGAAGCGAAGCCGGAAGAAAAAACAGAAGAAAAGCAAGCTGAATCAGAGCAAAAAGAGAAACAAGAACAAAAAGTAGAAGAGAAGCCGAAAGAGGAAAAGCCGCAGGCACAACCAGAGGTAAAGAAAGAAGAGAAACAACAGGAACAACCGAAAGAACAGCCGGCTGTAAATAAGCAACCAGAGCAGCAACAAGCGCAAGAAGAGAAACAACAACCGAAAGCACCAGAAGTAAAAGAAGAAGCAAAGGTTGTGAATCAGCCGAAAGAAACACCGAAGCAGGAGCAAAAGAAAAAGTCAGAAGAGAACAATAGTGTACCAGCTCCACCAACACCGGTACCACCACCAAACCCAGTGCCACCACCAGTACCACCAGTACCTAAAGCAAAACAAGTAACAATCTCGGTAAAAGGAAATAACGGATATATAATGGGTGCGAAAAAGATGGATGTACAAGAAGGCGATACAGTGTATAAAGTATTGCAACGTACAGGATTAGATGTTGATGCAAGCGGATCTAGAGATAGTATTTATGTAAAAGGTATTAATGATTTATATGAAAAAGATATTGCGGATACTAGTGGATGGAAATATCGTGTGAACGGTGCTTTTCCAAACCATAGTGCTGGTGTAGCTACGGTAAAACCAGGAGATACAATTGAGTGGGTATACGTATTACAATAA	MKWFISLLLSLGLLAGCEEAAVKPEKKVEPKQEEVAKQEEQKDEAKPEEKTEEKQAESEQKEKQEQKVEEKPKEEKPQAQPEVKKEEKQQEQPKEQPAVNKQPEQQQAQEEKQQPKAPEVKEEAKVVNQPKETPKQEQKKKSEENNSVPAPPTPVPPPNPVPPPVPPVPKAKQVTISVKGNNGYIMGAKKMDVQEGDTVYKVLQRTGLDVDASGSRDSIYVKGINDLYEKDIADTSGWKYRVNGAFPNHSAGVATVKPGDTIEWVYVLQ				NA	NA	NA	NA	NA
AK009_01859	1887			hypothetical protein	ATGGCAATGTTGAAAAAGTGGCTGCTTACGTCGTTAATGGCAGTGACACTTGTATTTGTTTCTTTTGCGAATACAGTACATATTACGTTTGCTGAAGAAAATACAGCAAAACTTGCAATTATTGGGGAATCACAAAAAGGCATTATGTTATGTCCGAAAGAAGAGCAAATTAAAGATGGGGAAACAGCTTTAAGTTTGCTGCAAAAGGTCATGGGGGACAAGGTAGAATCTGAAACGATGTCGTTTGGAACATATGTAAAAGGCATCGATGGTTTAATGGCCGGGGCTACAAGTGCTTGGCTGTATGATGTAAATGATAAGTCTGCAGAAGTCGGAGCAGATAGTTATAAATTAAAATCTGGAGACGTTGTTGTCTTTCGTTTTGTTTCAGACTGGAGCAATATAAGCCAGGAAACATTGAAAGAAACGTTAGATAAGTTCGGAACGTGTAAAACAGAAGAACCTAACGGTGGCAAAACAGAAGAACCAAAACCAGAAGGTCAAGATGATAAAATGCCAGATGAGAAAAACCAAGGTGACCAAGACGGTAAAACGCCAGATGAGAAAAACCAAGGTGATCAAGATGGTAAAACGCCAGATGGGAAAAACCAAGGTGACCAAGACGATAAAACGCTAGATGGGAAAAACCAAGGTGACCAAGACGATAAAACGCTAGATGGGAAAAATCAAGGTGAACAAGATGGTAAAAAACCAGAACAACCACAGCAAGAGAACATTCAAGTTCCAAGTGCACAATTAAACGAAGCCATTTCTAAAACATCAGATAAGATGTTACAAGATGGAATTGAAAGTGATTGGGTAGCTGTAGCGCTTTCTCGTTCTGGAAAGAATGTGCCAATTGAGGCAAAATTAAATTATGTTAAGTCAGTAACTGAAAAAGTAGAAAAGCGTATTAACCGTTTTTCAGCGACAGATTTAGCTAGAACAATTATTATGATGAATGCAATGAGTGCAGACCCTAAAAATGTAGGTGGACATAATTTAGTTCAAAAATTGTATGAGTCAGATAAAGTGAATTCTGTTACAGGTTATGTATTTGCTTTACTTGCATTTGATACGAAGAAGTATGAGATTCCAGTTGAATCAAAATGGAACAGAGTTGCTCTAGTGGAAGCACTGTTAAATAATCAGCATACAGACGGTGGATGGACTTATAATAGTTCAGGTAGTAAAGATAGTGCTAGTAGCGTTGATGTAACAGGTATGGTTTTATCAGCATTAGCTCCTTATCAAGAGCGATCAGATGTGAAACCAGCTATACAAAAAGCTGTTGCGTATTTATATAACGAACAGCTGCAAAATGGCGGTTTTTCAGCTGATGGACAAGAAAATTCAAATAGTACTGCGCAAGCAATTATTGGATTATCGCTTGTTAAAGATGTAGATCAAAACCGTCTTCATAAGGCAATGCAAAACCTATTATCATATCAACTTTCAAATGGTGAATTTAAATGGTTACCAAGTGATCAAAATGGTAACGGAATGGCTACAGAACAGGCTCTTTTAGCATTACTTCAATTTAAGGAAATGGGAAAATCTATTTATGATTGGTCTAATGTAGACGCTGGTGATGTAATTAAGCCAAAACCGGTTGAAGAGCCAGAAAAGGTCGTTGAACCAGAAAATAATGTAGTAGAAAAAGAAGTTATTGAAGAACCGAAAGAACAAAAACAAGTACAACAAGAAACAAAAGCTGAAAATCTAAAAGTAGTTGTAGATAACGAACCGGTTAAGGATAAAAAAATCGGAAACGGTAACAGTCTACCAAAAACAGGAGCATCTTCTCATAGTGCAGCAACAGAAGTAGGTATGGGTGTATTATGTATTGCTTCTGCATATGTATTATGGAGACGTAAAGCAGCTTAA	MAMLKKWLLTSLMAVTLVFVSFANTVHITFAEENTAKLAIIGESQKGIMLCPKEEQIKDGETALSLLQKVMGDKVESETMSFGTYVKGIDGLMAGATSAWLYDVNDKSAEVGADSYKLKSGDVVVFRFVSDWSNISQETLKETLDKFGTCKTEEPNGGKTEEPKPEGQDDKMPDEKNQGDQDGKTPDEKNQGDQDGKTPDGKNQGDQDDKTLDGKNQGDQDDKTLDGKNQGEQDGKKPEQPQQENIQVPSAQLNEAISKTSDKMLQDGIESDWVAVALSRSGKNVPIEAKLNYVKSVTEKVEKRINRFSATDLARTIIMMNAMSADPKNVGGHNLVQKLYESDKVNSVTGYVFALLAFDTKKYEIPVESKWNRVALVEALLNNQHTDGGWTYNSSGSKDSASSVDVTGMVLSALAPYQERSDVKPAIQKAVAYLYNEQLQNGGFSADGQENSNSTAQAIIGLSLVKDVDQNRLHKAMQNLLSYQLSNGEFKWLPSDQNGNGMATEQALLALLQFKEMGKSIYDWSNVDAGDVIKPKPVEEPEKVVEPENNVVEKEVIEEPKEQKQVQQETKAENLKVVVDNEPVKDKKIGNGNSLPKTGASSHSAATEVGMGVLCIASAYVLWRRKAA				NA	NA	NA	NA	NA
AK009_01860	480	rraA	COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGTGGAAAACTACAGATCTATGTGATGAATTTGAAAAGGAATTACAAATATGTCGCCAGCCTTTTCGGTCTTTTGGGAAGAAAGAACAATTCCACGGGAAAATTGCAACTGTAAAAGTGAAAGATGATAATGTACTAGTGAAGGAAGGATTGCAAACATTACCAGAAGGAACAGTATTAGTTGTTGATGGCGGAGCGTCTAGGAATTGTGCGTTACTTGGTGATAATTTGGCAGCTATTGCGGAAGAAAGAAAGCTAGCAGGAATTATTGTGAATGGATATGTTCGTGATTCTAGTGAACTAAAGAATATTAATATTGGTATTTTAGCGTTAGGGACAATGCCAAATAGAAGTGTGAAAGAAGGAAAAGGAGAACGAAATATTTCATTGCACTTTGGACAAGTGGATTGGAATCCAAATGAATATGTCTATGCGGATGAAGATGGCGTCATTATTAGTGAAAAGAGTTTACATAGTTAA	MWKTTDLCDEFEKELQICRQPFRSFGKKEQFHGKIATVKVKDDNVLVKEGLQTLPEGTVLVVDGGASRNCALLGDNLAAIAEERKLAGIIVNGYVRDSSELKNINIGILALGTMPNRSVKEGKGERNISLHFGQVDWNPNEYVYADEDGVIISEKSLHS				NA	NA	NA	NA	NA
AK009_01861	1431			hypothetical protein	ATGCAAATACAAACTGAGGCAAAAAAACAACCTAGTAAACAAAAGTTTAAAATGCCTGATGCTTACGTACTACTATTTTTTATTGCCTTACTTTGCGCCATTGCTACGTATTTCGTTCCTGCTGGAGAATTTAAAAGGGTTACAAACGGGACCGTTACAACAACAATACCAGGTAGCTACCATTCTGTTCCGCAATCACCCGTAGGATTTGTTTCTTTTTTTACCGCTATTGAAAAAGGAATGACACTTGCTGCTCCTATTATCTTTCTAATTTTATTTACAGGTGGAGCCATTGCAATTCTTGAAAAAACAGGTGCCCTTGACGGTTTAATCTATCATGTTATTAACAAATTTCGTAATCAGCAATTACTTTTCATTTGTATCGTTGCTGCACTTTTTTCTATTCTTGGAACGACTGGCATTATCGTTAATTCAGTTATCGGTTTTATCCCCATCGGCATCATCGTTGCACGCACATTGAAATGGGACGCTATCGTCGGTGTAGCAATTATTTATTTAGGTACTTATGCTGGCTTTAATGCTACTATTTTATCTCCCTCACCTTTAGGCATTTCACAAAAGATTGCAGAACTTCCGATGTTTTCCGGAATTGGTTTACGCACCGCAATCTATATATCTTTTTTACTTGCCACTATCCTTTATATAAATTGGTATGTAAAGCGCTTGAAAAAATCGAATAAAGGAAGCATTCTTGGCGATAACTGGTTTCCAAGTAACGCTCTTTCAAGCGAAAAAGAAACAGAGAAAAAAGAAGTTCCTTGGACTATACGTCATAAATTAATTTTACTCGTTTCAGCTTTATCATTAATTGCATTTTTAATAGGCGCTTTTCGTCTACATTGGACGGACGCAGAAATGACCGCTACTTTTATTTTCATAGCAATTACAGCCGGAATAATAGGTGGCATGAAAGCAAACGATATCGCTTCTACTTTTCTAGCGGGCTGCCAAAATCTCATATATGGTGCTTTAATCGTTGGAATGGCTCGTTGTATTTCAGTCATTTTAGAACAAGGAAAATTGCTTGATACAATTGTTAACCAACTCGCACAAGCTCTCGAAGGACAAAGCCCTGTATTTGGTGTTATCGGTATGTACGTAAGTAGTGCCGCATTACATTTCCTTATTTCATCCGGGACAGGAGAATCGGTTATTTTTATTCCGATATTAGCTCCATTAGCTGATTTCATGCACATTACACGCCAAGTTACAGTACAGGCTGTTATGCTTGGAGAAGGTGTAGTCAACTGCTTAAATCCAACTTCCGGTGTTTTAATGGGCGTTCTCGCAGCAAGCGGCATTTCTTACGGCAAATGGATTCGATTCATGGCTCCACTTGCATTCATTTGGTTTATCATTGGACTTGTTTTTCTTATTATTGGGGTGAATATTGAGTGGGGACCGTACTAA	MQIQTEAKKQPSKQKFKMPDAYVLLFFIALLCAIATYFVPAGEFKRVTNGTVTTTIPGSYHSVPQSPVGFVSFFTAIEKGMTLAAPIIFLILFTGGAIAILEKTGALDGLIYHVINKFRNQQLLFICIVAALFSILGTTGIIVNSVIGFIPIGIIVARTLKWDAIVGVAIIYLGTYAGFNATILSPSPLGISQKIAELPMFSGIGLRTAIYISFLLATILYINWYVKRLKKSNKGSILGDNWFPSNALSSEKETEKKEVPWTIRHKLILLVSALSLIAFLIGAFRLHWTDAEMTATFIFIAITAGIIGGMKANDIASTFLAGCQNLIYGALIVGMARCISVILEQGKLLDTIVNQLAQALEGQSPVFGVIGMYVSSAALHFLISSGTGESVIFIPILAPLADFMHITRQVTVQAVMLGEGVVNCLNPTSGVLMGVLAASGISYGKWIRFMAPLAFIWFIIGLVFLIIGVNIEWGPY				NA	NA	NA	NA	NA
AK009_01862	828	bsn	COG2356	Extracellular ribonuclease	ATGAAGTTTCGAAATACAAAGATTGCTATGATTACACTATCTTCATTTTTTATTTTAGGTTCTGCATCGCTATCATTCACAGATACTATACACGGTGAAGTAGCTCCTGCATCAGCACAAGAGATTATTGTAAAAAGTTATGACGATACATATTATAATAACGCAATAGGAAAAACGGGGTTAGAATTAAAGAAGGAACTGCATAATATTATTGATAATCATACAAAGTTATCATACAGTGCGGTTTGGGAAGCACTAAGAGATACTGATGAAGATCCAAATAATAAAAATAATGTGTTACTCTTATATACTGGTCGTTCGCAAGGGAAGCTTACGAATGGATCAGGAGTAAATAACTGGAACCGAGAGCATGTTTGGGCAAAATCTCACGGTGACTTTGGAACGACTGCAGGACCTGGAACAGATCTACATCATTTAAGAGCGACGGATGTATCTGTAAATAGTTCACGTGGAAATCTGGATTTTGATAACGGTGGTGTAAATCATTCTGAAGCGACAGAATGTAAATATGATAGTGATTCTTGGGAACCTCGTGATAGTGTAAAAGGAGATATTGCTAGAATGCTGTTTTATATGGCTGTTCGTTACGAGGGGGACAACGGCGAAATAGATTTAGAACTAAATGAAAAAGTGAATAACAATAAAGATGCATACATGGGGAAACTATCTGTTTTATTAAAATGGAATGAACAAGACCCGGTCGATGATTTAGAGCGAAAGCGTAATGAAGTGATTTTTACAAAATATCAACATAACCGCAATCCTTTTATTGATCATCCTGAATGGGTAAATAAAATTTGGAACTAA	MKFRNTKIAMITLSSFFILGSASLSFTDTIHGEVAPASAQEIIVKSYDDTYYNNAIGKTGLELKKELHNIIDNHTKLSYSAVWEALRDTDEDPNNKNNVLLLYTGRSQGKLTNGSGVNNWNREHVWAKSHGDFGTTAGPGTDLHHLRATDVSVNSSRGNLDFDNGGVNHSEATECKYDSDSWEPRDSVKGDIARMLFYMAVRYEGDNGEIDLELNEKVNNNKDAYMGKLSVLLKWNEQDPVDDLERKRNEVIFTKYQHNRNPFIDHPEWVNKIWN				NA	NA	NA	NA	NA
AK009_01863	357			hypothetical protein	ATGGCACTTACTACAGGACCAATTGAAAACGTAGGAAATCAACCTGCTAATGCAAATAGAGTTAGGGTAAAGATCCTTAACCGTACTGCGGGCCCACTTACTGGAGTAGCTAGAGTTTTTAGACTTGACGGTTCATTAGTATTAATTGAACAGGTAAACTTCAATGTGAATTCTAGTGCTTCTACTTTTGCAACTCTAAGTTTAGTTCATCCTGCTTTTGGACAAGCATTTGAATATGAAGTTCAAATTGTTCCTAATCAACCTGGTGGACTATATAGTGTTTATGGACTAACAGCTGACAGTGTTATCATTACTGCACAACGTGTTGTGAACTCAGAATTGACACAGTTTCTTTAA	MALTTGPIENVGNQPANANRVRVKILNRTAGPLTGVARVFRLDGSLVLIEQVNFNVNSSASTFATLSLVHPAFGQAFEYEVQIVPNQPGGLYSVYGLTADSVIITAQRVVNSELTQFL				NA	NA	NA	NA	NA
AK009_01864	879	mtnN_2		5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGAAGAAGAATACGTTGAAAAAATGTGCTGCCCTAGTAACTACTGTTGCATTGTCATTCTCGATACTTGTGGGATGTAATGCGAGTCCGAAACAAGTTGAGGAAAAAAGCAATCAAAAACCTATCTTAATTCAAGGGCCAATGCCGATAGAAGCAGAAAAGTTTGCGAAAAGGCTAAAAAATGTGAAAGAAGAAAAGTCTGGAACTTTTGTATTTTATAAAGGAACTGTCGACAATTATCCTGTAATCGTTGCGAAAACAGGTAAAGGAATGGAGAATACAGCAGCTGCTACAGCGGTGGCTATTGAAAAATATAAACCTACAGCAATTATTAACCAAGGAACATCAGGTGGACATGATCCAAATTTAAATGTATTTGATATTGTATTAGGAAAACAAGTTGCAAATATAGGTTCATTAAAAACAACAAATATGGATGAGAATCAAGGAATTGAGCCGACAAAATGGATATCTATGGACTTAATGGCTTCTGAAGGAAGTGCAGGAGAAGATCCAAATGCTGAGAAAATCCGATACTACGAAGGAGATAAGGATTTACTTGCAGCAGCTAATGCGGTAAAAGATAAATATACAAAAGGTAAAGTGGTTGAAGGTACTATAGGCTCAGCAGACCTTTGGAATAATGAAGTAGATAGAATTAAGTGGTTCCATACAAAATACGGTACATCTGTAGAAGAAATGGAAGGAGCTGCTGCAGCTCAAATCGCGAAAGCTTATGATGTCCCATTTTTAGGGATTCGAGTATTATCTAATAATAAAACAAACGGCGGGAAATATAACCCAAATACAGCAGCCGCAAATCAAGAATATGTATATGAAGTAGTTAAAAAATATATAGATTCAATGCAAAGTAAATAG	MKKNTLKKCAALVTTVALSFSILVGCNASPKQVEEKSNQKPILIQGPMPIEAEKFAKRLKNVKEEKSGTFVFYKGTVDNYPVIVAKTGKGMENTAAATAVAIEKYKPTAIINQGTSGGHDPNLNVFDIVLGKQVANIGSLKTTNMDENQGIEPTKWISMDLMASEGSAGEDPNAEKIRYYEGDKDLLAAANAVKDKYTKGKVVEGTIGSADLWNNEVDRIKWFHTKYGTSVEEMEGAAAAQIAKAYDVPFLGIRVLSNNKTNGGKYNPNTAAANQEYVYEVVKKYIDSMQSK	PGPT0014320_205	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
AK009_01866	477	ybaK	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGAAAAAAGATAAAACAAATGCGATGCGAATATTAGATAAAGAAAAGATCGAATATTCGATGATGTCATATGATCCAGACGATGGGAAAATTGATGGCGTATCAGTAGCCGAGAAAATTGGACGAGAAGTGAGAGAAGTATATAAAACGTTAATCGCTCAAGGGAATAGTAAAAATTATCATGTGTTTATCATCCCAGTAGATGAGGAATTAAATTTAAAAGCTGCCGCAAAAGCAGTAAGTGAAAAGAAGATTGAAATGATTCCTGTAAAAGATATTACGAAAGTGTCAGGATACATTCGCGGTGGTTGTTCACCAGTCGGAATGAAGAAGTTATTTTCTACATGTATCGATGAAAGCGCCCAATCACTTGAAACGATGATCGTAAGTGGCGGGAAGATTGGTATACAAATTGAGCTGAAAGTGGATGACTTGGCGAAAGTGGCGAGAGCGCAGTTTGGAGAGGTAACGAAGTAA	MKKDKTNAMRILDKEKIEYSMMSYDPDDGKIDGVSVAEKIGREVREVYKTLIAQGNSKNYHVFIIPVDEELNLKAAAKAVSEKKIEMIPVKDITKVSGYIRGGCSPVGMKKLFSTCIDESAQSLETMIVSGGKIGIQIELKVDDLAKVARAQFGEVTK				NA	NA	NA	NA	NA
AK009_01867	1278	hisS_1	COG0124	Histidine--tRNA ligase	ATGGAAATGAAAAATGTAAAAGGAACGAAAGACTATTTACCAGAGGAGCAAGTGCTGCGAAATAAAATTAAAAGAACTTGCGAAGATACATTTGAACGATACGGATGCAAACCGTTAGAGACACCAATGTTAAATATGTATGAGCTTATGTCTTACAAGTACGGTGGTGGCGATGAAATATTAAAAGAAATATATACACTTCAGGATCAAGGAAAACGTGACCTTGCCTTACGATACGATTTAACTATTCCATTCGCAAAAGTCGTGGCAATGAATCCGAACATCCGCCTTCCGTTTAAACGTTATGAAATTGGGAAAGTATTTCGAGATGGGCCAATTAAACAAGGAAGATTTCGTGAATTTATACAATGCGACGTTGATATAGTCGGTGTAGAATCAGTCATGGCTGAAGCGGAACTCATGAGCATGGCGTTTGAGCTGTTCCGAACATTAAACTTAGAGATAACGATCCAATATAATAACCGAAAACTGTTAAATGGTATTCTTCAGGCCATTAACATCCCTACTGAATTAACAAGTGACGTCATTTTATCATTAGACAAAATCGAAAAGATTGGGATTGATGGTGTACGAAAAGATGTATTAGAGCGCGGAATTTCTAAAGAAATGGCTGATACAATATGTAATACTGTATTATCTTGTCTAAAGCTTTCAATTGATGACTTTAAAGACGCTTTCAATACTCCAATCGTTGCCGATGGAGTAAACGAATTGCAACAATTACAGCAATATTTAATCGCTCTTGGAATAAATGAAAATGCTATATTCAATCCGTTTTTAGCGCGAGGACTTACAATGTACACAGGCACCGTATATGAAATCTTTTTAAAAGATGGATCGATTACATCTAGCATCGGTAGCGGCGGTCGATACGATAATATTATTGGGGCATTCCGTGGCGATAATATTATCTATCCAACAGTCGGTATTTCATTCGGTTTAGACGTTATTTATACAGCACTCTCACAGAAAGAAACGATATCATCTACAGCGGATGTATTTATCATCCCACTCGGGACAGAATTACAATGCTTACAAATTGCCCAGCAATTACGTTCTACCACTTCCTTAAAAGTCGAACTCGAACTAGCAGGACGCAAATTAAAACGTGCTCTTAATTATGCCAATAAAGAGAATATCCCTTACGTGCTTATTATTGGTGAAGAAGAACTTAGTACAGAAACCGTTATGCTGCGGAATATGAAGGAAGGTAGTGAGGTGAAGGTTCCCCTTTCTTCTTTAAGTAGTTATTTATAA	MEMKNVKGTKDYLPEEQVLRNKIKRTCEDTFERYGCKPLETPMLNMYELMSYKYGGGDEILKEIYTLQDQGKRDLALRYDLTIPFAKVVAMNPNIRLPFKRYEIGKVFRDGPIKQGRFREFIQCDVDIVGVESVMAEAELMSMAFELFRTLNLEITIQYNNRKLLNGILQAINIPTELTSDVILSLDKIEKIGIDGVRKDVLERGISKEMADTICNTVLSCLKLSIDDFKDAFNTPIVADGVNELQQLQQYLIALGINENAIFNPFLARGLTMYTGTVYEIFLKDGSITSSIGSGGRYDNIIGAFRGDNIIYPTVGISFGLDVIYTALSQKETISSTADVFIIPLGTELQCLQIAQQLRSTTSLKVELELAGRKLKRALNYANKENIPYVLIIGEEELSTETVMLRNMKEGSEVKVPLSSLSSYL				NA	NA	NA	NA	NA
AK009_01868	312			hypothetical protein	TTGAAAACTTACATACAAGCACTAAAGTGGCCTACAGGGATCTATCATCTTTTATTACTTCCTTGCTATTATATATTTCCAAGTCTTGTTAACCTAGATGGGATACCTTTACTACTATTGATTGCTTTACATATCACTACTATTTTATTAGCTAAAAAAGCAGGCATGAATACGTACGCTCATTATATAGGTATTATCGTTACTCTAGTTGCCTTCTTTCCTTATATAGAAATCCTTCTACATATGATAGCAGCCATTTTTCTTTTATTAGATGCTGTTTCTATGAATGCAAAAGAAGTGTATGATTCATAG	MKTYIQALKWPTGIYHLLLLPCYYIFPSLVNLDGIPLLLLIALHITTILLAKKAGMNTYAHYIGIIVTLVAFFPYIEILLHMIAAIFLLLDAVSMNAKEVYDS				NA	NA	NA	NA	NA
AK009_01869	600			hypothetical protein	ATGCTGAAAAAGTTGGTAGCAGGTGCATTATTAACTGTTTCGTCGTTAACTGGAGGACTGGGGTCAGTATCAGCTAGTACCGAAAAGGATTATTCGATTAGCTCTTTTGAATATGTAACTGTAGATGAAAAGACTGTAGATTCGTTTAACAAATTGGGTGCTCCATCTAAGGAAGACGTAAAAATAACTGTAGTTCTACCGAAACAAAATCAAAATGGAGACTGGTTATCTTATGGATTTTCGAACAAAGAAAGTTTAGATTCTTTTATTGAAAAAGACAAACAAAGGTTGAATAATACAATCAATCCCCTTGGTGTTGGAGGGAGCGGACCTAATAGTACAGATTTCTATGAACATGCAAATAAAGGTGGCGAGTATTTTTCTCTTAGTAGCGGTTTTAAAAATTTGCCTCCTAATTGGCAAAATAGAATTTCTTCTGTAAGTACAGCATCCCCTACTGCTAGCTATTCGACAACACTATGGGATCGTACTTCAACTGAAGGATATGGTAAAGGTATCGTCTTCAAACACTCTGATTGGTATGGTAAAACTGTAAACTTGAATGACTTTGCAATTTCAGCAGTTGAAGTTAAAAAGTAA	MLKKLVAGALLTVSSLTGGLGSVSASTEKDYSISSFEYVTVDEKTVDSFNKLGAPSKEDVKITVVLPKQNQNGDWLSYGFSNKESLDSFIEKDKQRLNNTINPLGVGGSGPNSTDFYEHANKGGEYFSLSSGFKNLPPNWQNRISSVSTASPTASYSTTLWDRTSTEGYGKGIVFKHSDWYGKTVNLNDFAISAVEVKK				NA	NA	NA	NA	NA
AK009_01870	381	yybR_1	COG1733	putative HTH-type transcriptional regulator YybR	ATGGATTGTTCGAATGAAAATAATATAAATTACCCATTTCTAAATAAATATTCTTGTCCAGTTGAAGCTATGGTTGAGGTTATTGGTGGAAAATGGAAAGGGGTTATTTTGTATCATTTATTAGATGGTACAAAGCGGTTTAATGAATTAAAAAGATTAAAACCTAATATCACACAAAGAATGTTAACACTGCAGCTGAGAGAACTTGAAGCAGACGGCATCATCCATCGTGAAGTATACCGTGAAGTTCCACCTAAAGTAGAATATTCGTTAACTGAGCTTGGTGAATCACTACGTCCAATGATTCTATTAATGATGGAATGGGCGACTCATAATATGGAGAAAGTTTTGGAAAGTAGGAATACGAAAAATAATAGTTAA	MDCSNENNINYPFLNKYSCPVEAMVEVIGGKWKGVILYHLLDGTKRFNELKRLKPNITQRMLTLQLRELEADGIIHREVYREVPPKVEYSLTELGESLRPMILLMMEWATHNMEKVLESRNTKNNS				NA	NA	NA	NA	NA
AK009_01871	684	yfkO	COG0778	Putative NAD(P)H nitroreductase YfkO	ATGACAAATACAAAAGAAATTACAAAAGAGAAAATTATGGAGGCTTTTCATTTCAGACATGCATGTAAAGAGTTCGATCCTATACACAAAATTTCAGAAGAGGATTTTAAATTCATTTTAGAAACAGGCAGATTATCTCCTTCTTCTTTTGGATATGAGCCTTGGAAATTTATTGTCGTACAAAATAAAGAATTAAGAGAAAAACTACAACCGTATTCATGGGGCGCTGGTGGGCAACTTGCAACAGCAAGCCACTTCGTCATTGTTCTTTCAAGAAACATTAAAGATATGCACTATGATGCAGAGTATATTAAATATATGATGAACGATATTATTGGATTGCCTGAAGACACTCAAAAAATTAGATATGAATTCTTCAAAAAGTTCCAGGAAACAGATTTTAACTTATTACAATCCGATCGTGCTGTATTTGATTGGGCATCTAAACAAACTTATATTGCTTTAGGTAATATGATGACGAGCGCAGCTCAAATCGGTATTGATTCTTGTCCAATAGAAGGATTTGATAAAGAGGAAGTAGATTCTTTACTTCGTCAAGAAGGCATTATACAAGGCGATAACTTTGAAGCATCAGTTATGGTTGCCTTTGGTTACCGTAAAGAAGAGCCAAAGCGTGATAAAACAAGACAGACTATGGATACAATTGTTGAATGGATTAAGTAA	MTNTKEITKEKIMEAFHFRHACKEFDPIHKISEEDFKFILETGRLSPSSFGYEPWKFIVVQNKELREKLQPYSWGAGGQLATASHFVIVLSRNIKDMHYDAEYIKYMMNDIIGLPEDTQKIRYEFFKKFQETDFNLLQSDRAVFDWASKQTYIALGNMMTSAAQIGIDSCPIEGFDKEEVDSLLRQEGIIQGDNFEASVMVAFGYRKEEPKRDKTRQTMDTIVEWIK				NA	NA	NA	NA	NA
AK009_01872	276			hypothetical protein	ATGTCTGATATTGAAGTTGGCGAAGTGTTTACTCTTAGTGATGAGAATAACGAAGAGCAAGAAGTAGAAGTACTTGGAGCGATGGATGTCGAAGGCGCAGAATATATTGCAGTTGCCTTTGTTGAAGATATCCAAACAGAAACTGAGGAAGACATTGATATTTTCTTTTTAAAAGTAGAAGAAGATAATGAGTTTTCATACATTGAAAATGATGAAGAGTTTGATAAAGTATCTGCTGCGTTTGAAAAGATTTTGGATGAGCAAGAGCAAGAATAG	MSDIEVGEVFTLSDENNEEQEVEVLGAMDVEGAEYIAVAFVEDIQTETEEDIDIFFLKVEEDNEFSYIENDEEFDKVSAAFEKILDEQEQE				NA	NA	NA	NA	NA
AK009_01873	1059	pyk_1		Pyruvate kinase	ATGACAATCGATCGAATTTGTACAATTGGACCCGCAAGTAATAATAAAGAAACGTTAGCACAGTTAATAAAGAATGGTATGAAAATTGTTCGACTGAATTTATCGCATGGCACGCATGAAAGTCATAAAGACATCATTCGTTTAGTGAAATCATTAGATGACTCTATTAAATTTTTGGGTGATGTACAAGGTCCTAAAATAAGATTAGGTGAAGTGAAGGGAGAGCAAATTACACTTCAGGCAGGAGATTCTTTTATTTTACATACAAAACCAGTTACAGGGAGTAATACAGAAGCAAGTGTTGATTATGAAGGAATTGCGAATGATGTGAAAGTAGACAGTAGAATTTTGATTAATGATGGAGAAGTTGAATTAATTGTTGAAAAGATAAGTACGGACAAAATAGAAACAAAGGTTAAAACAGGTGGCAATATCTCATCTCATAAAGGAGTTAATTTACCAGGTGCGACTGTTCGTTTACCAGCTATTACAGAGAAAGATAAAAAAGATATTCAGTTTCTTTTAGAAGAGGATGTTGATTTTATTGCGTGTTCTTTCGTACGAAAACCTAGTCATATAAAAGAAATACGAGATTTTATACAACAGTATAAAGAAACTTCTCCAAGTTTAATCGCTAAAATAGAAACGATGGAAGCAATCGAGAATTTTCAAGATATATGTAAAGAAGTAGATGGAATTATGATTGCAAGGGGCGATTTAGGAGTAGAGTTACCATATCAATGTATTCCCCTTTTACAGAAAATGATGATTCGTGAATGTAATCGAACGAATACATATGTTATTACAGCAACACAAATGCTTCAATCTATGGTAGATCATTCTATTCCAACAAGGGCTGAGGTGACTGATGTGTTTCAAGCTGTACTGGACGGGACGAATGCAGTTATGCTTTCAGCTGAAAGTGCATCAGGAGAACATCCAATCGAAAGTGTGAGAACATTACGTCTCGTTTCAGAATTTGCGGAGCATATTAAAAAAGATGGACCTTTTGCGATGAAAGATGTACTGCAATTACTGCGTGAGTCTCTGGATGAGTAA	MTIDRICTIGPASNNKETLAQLIKNGMKIVRLNLSHGTHESHKDIIRLVKSLDDSIKFLGDVQGPKIRLGEVKGEQITLQAGDSFILHTKPVTGSNTEASVDYEGIANDVKVDSRILINDGEVELIVEKISTDKIETKVKTGGNISSHKGVNLPGATVRLPAITEKDKKDIQFLLEEDVDFIACSFVRKPSHIKEIRDFIQQYKETSPSLIAKIETMEAIENFQDICKEVDGIMIARGDLGVELPYQCIPLLQKMMIRECNRTNTYVITATQMLQSMVDHSIPTRAEVTDVFQAVLDGTNAVMLSAESASGEHPIESVRTLRLVSEFAEHIKKDGPFAMKDVLQLLRESLDE	PGPT0002020_7888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
AK009_01874	477			hypothetical protein	GTGAATATGAAAAAATCTTTATCGGTGACAACTTTAGGGTTAGCGGTTTTAGGTTTTGGTTTTACTAATAACGCAAGTGCTTCAGAGGTCGATACTGTAGACAAGCAGCCCGTTTTAGTTGACTTTGATACAATTCAATCAACAAAAACATCTAGTGTTCCTAGTTTGACTGTTGCAGCTGCACCTAAGAATGACTCTAACATTAGCGTATATACTCCCTTTTTTGGTAACCCATATGCAGTTGCGAAATCGAAATCAACTACGACCGAAGACTATGTTTATGCAAAAGCAAGAACTTTCAATGGCGATGGCTCATTAGTAAATACGAAAAGTAATAGTGCAAAAAAATCATCCTTTGTAAATGCTACAGCGACCAACACAAGCGTTTATTATGGAGATGATTACGCTATCGGTAATCATACCTATAAATTAAGTGGTTATAATGATGTAAATCACGAAACAAAAGCCTTCTGGTAA	MNMKKSLSVTTLGLAVLGFGFTNNASASEVDTVDKQPVLVDFDTIQSTKTSSVPSLTVAAAPKNDSNISVYTPFFGNPYAVAKSKSTTTEDYVYAKARTFNGDGSLVNTKSNSAKKSSFVNATATNTSVYYGDDYAIGNHTYKLSGYNDVNHETKAFW				NA	NA	NA	NA	NA
AK009_01875	939			hypothetical protein	ATGAAACAAATATATATTATTAGCGGTGTTTTACTTATTTCATTACTTACAATTTATATTTTGTTCAATACTTCAATCATACAACCTCATCCTCTTTCCATAGAAAATAAACGAGAGCAACAAACCAATACTATTTCTTACGGATTGAAGGATAATCAAGGCCAACATATCAACAATGGCAGTACAATTACTAGTGAGGATAATAAAATTAATGTAACATTATCATTCGTACATACTATTAATGAAAACCGAAAATATGGATTAATTGTTCTAGAAGATTACGAACAAAAACCTTTTAGAATAGAAGATACTACTAATGAAATATCACACTATTTTTTTGATATGAAACCAAACAGTTCAATTACTACGAAAATCTCTTTACACACCTCTCCTAATGGAAATGAATTAACCTTTTTAATAATTAAAAAACCTGAATACAAATTAAAAGATAATAACTTAAATAAAGCAGCAATTTTAGAAGATATTCTAAGTATGCGATATTCAATGCATCCTTTTCAGAAAGAAAACGAAAAAATAAAACTCTCCCTTATAGATCCAGATGCTATTTTAAAAGATGGTCTTTACGAACCATTATTTGTTACGAACCGTGAAGAGAACTTACAAACTGTCTTCTTTGAAAAGGAAGGCAAGCAATTAACCCTATCAAACGGTAATGAAACGAATGATGAAATGACTTACGCAATCGTAGCTTTTAAAGATTGGAAACAAGTTGAAATATTTAACAATAGAAAAGTCGTTTATACTAAGGTTGCACCTGAAACAAGACAAATCTTTAATTTCACATTGCCTTCAGTGGATCAGGAAAGTAATTTTCAACTCGTTGCTTTTCCATTTCCTTTTAAAGTTAGCGAAGAAGATTATATCAGTCAACAAGCATTCAGTTCCTTTCGCATCGTAATTGAAAATGATAATAAATAA	MKQIYIISGVLLISLLTIYILFNTSIIQPHPLSIENKREQQTNTISYGLKDNQGQHINNGSTITSEDNKINVTLSFVHTINENRKYGLIVLEDYEQKPFRIEDTTNEISHYFFDMKPNSSITTKISLHTSPNGNELTFLIIKKPEYKLKDNNLNKAAILEDILSMRYSMHPFQKENEKIKLSLIDPDAILKDGLYEPLFVTNREENLQTVFFEKEGKQLTLSNGNETNDEMTYAIVAFKDWKQVEIFNNRKVVYTKVAPETRQIFNFTLPSVDQESNFQLVAFPFPFKVSEEDYISQQAFSSFRIVIENDNK				NA	NA	NA	NA	NA
AK009_01876	723			hypothetical protein	ATGAAAATGAAAAAGGTCGCTATCGCATCGATAACAATTGGTACAATGCTTACTATGGCAGCTTGTAGTCCATCAGCAGATAAAGAGGCAGAAAAGAAAGAGCAAGTAACAGCGCAAAATGAAGGAGAAGCAAAAACGACAAGTGCAGATGAAGCGTCCAAAACAACGAAAGATACTGAAAAAGAAACAAATACTTCTTCAAATGAAAAAACAGATAAAGATGCAAAAAATACGAAAGAATCATCAGGAACAGAAAGTAACGGCAAAACGTCAACTCAAAATGAGAATGTGAAAACAAAAGAAAAAGAAACGACAGGAAAAACGAATGACCAAACGACTAGCGGGAAAACAGCAGATCAAAGCACAAGTACAAGCTCAAACACAAACAATAACGAAAAGACAACGAAAGATCCGAAGAAAAGTGTTGCTGTGAAAACGAACGTTAAAGAAGTTGTGGCATTAATTGATAGCTTGGACAAGCAGTTAGCTGCTAATCCAAAATTGGAAACAGTGAATAAGCTTGGCAAACAAATTAATGAAAAGTGGGACGTGATTGAAAAAGAGCTAGAAGCATCACATCCGACGGATTCTAAAACAATCGGTCAAAGTATGTATCCGTTAATTGTAGGAGCGGAGAAAGAAAAAATCGATATTAATAAAATGAAATCATTAACGACGAAAACGAAAAAAGATTTAAATCAGTTATTGACGAAACTTTCATAG	MKMKKVAIASITIGTMLTMAACSPSADKEAEKKEQVTAQNEGEAKTTSADEASKTTKDTEKETNTSSNEKTDKDAKNTKESSGTESNGKTSTQNENVKTKEKETTGKTNDQTTSGKTADQSTSTSSNTNNNEKTTKDPKKSVAVKTNVKEVVALIDSLDKQLAANPKLETVNKLGKQINEKWDVIEKELEASHPTDSKTIGQSMYPLIVGAEKEKIDINKMKSLTTKTKKDLNQLLTKLS				NA	NA	NA	NA	NA
AK009_01877	759	ydaD_1		General stress protein 39	GTGAAGAAAATAGCAATTGTAACAGGGGCAACTCGTCTGAATGGAATTGGTGCAGCTGTATGCAAGGTGCTTGCTCAAAAGGGGATAGACATTTTTTTCACGTACTGGCCAAAGTATGATAAAGCGATGCCATGGGGAATGAGTGATCAAGAACCCTTTTTGCTGAAAAAGGAAATTGAAAGTTACGATGTTCGATGTGAAATGGCAGAAATCAATTTATCGCAGTCTTATTCGCCAAATCGTTTGTTTTATATGGTATCAGAACGGTTAGGTGATCCATCTATTCTAGTTAATAATGCAGTATATTCTACTCATACGAGAATTGAGGAATTAGATGTAGAGCAGTTGGATAAACATTATACAGTTAATATTCGGGCTACTATGCTATTAAGTTCATTGTTTATAAAACATTATTCACTTAAAACGGGCGGGAGTATTATTAATCTTACTTCAGGACAGTCAGTAGGTCCAATGCCAGATGAACTAGCATATGCAGCAACGAAAGGGGCAATTGAAGCATTTACAAAGTCAGTAGCACCAGTAGCGATGGAGAAGGGGATTACTGTTAATGCCGTTGATCCAGGACCAACAAATACAGGGTGGATTACAGAGGAATTAAAACATTATTTAGTATGGAAATTCCCGCAAGGTAGAGTTGGAGAAACAATGGATGCTGCGCGCTTAATTTCTTTTTTAGTAAGTGAAGAAGCGAAATGGGTTACTGGGCAAGTTATTCACTCGAATGGTGGTTATTCATAA	MKKIAIVTGATRLNGIGAAVCKVLAQKGIDIFFTYWPKYDKAMPWGMSDQEPFLLKKEIESYDVRCEMAEINLSQSYSPNRLFYMVSERLGDPSILVNNAVYSTHTRIEELDVEQLDKHYTVNIRATMLLSSLFIKHYSLKTGGSIINLTSGQSVGPMPDELAYAATKGAIEAFTKSVAPVAMEKGITVNAVDPGPTNTGWITEELKHYLVWKFPQGRVGETMDAARLISFLVSEEAKWVTGQVIHSNGGYS	PGPT0003180_9804	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
AK009_01878	1659			hypothetical protein	ATGAGTAAAATTTGGACGTTAACGAAGGTACTATTAAAGTTAAATTACGCAGATTTTATAGCAGATAAGAAGAAGCGATGGGCGTATTTATTTTCATTTGCAGCTATTTTATTTGTTGGATTTTTAATATTTGGTTCGATGACGCACGGAATGTATGAAGGTCTGAAACAATTAGGGCAAGGGCCGGGAATGATTATTGCAATGGGACTTGCGATTGCGAGTATATGGGTATTTTTAATGAGTATAACGAACATTTTAACTGTATTTTACTACAGCAATGATATTGAAATGTTACTGCCGTTACCATTAAAACCAGCGCAAATTATTTCGGCAAAATTTTTAACGGTATTAATTACACAATACGTAATGAGTTCATTCATTTTATTACCAATCTTCATTACGTACGGTTTAAAAAGTGGCGCATTTATTACATATTACATATATATGATTTTTATTTACTTACTCTTCCCAATCGTGCCGTTAGTATTAGCTTCGTTACTGATGACAATTATTATGAGGTATACAAATATAGCGAAAAATAAAGATCGAGGAAATATATTTATTGGAATCGTAAGTATATTATTTATTGTAGGAATTAACGTATTTATGCAGTGGAGAAATAAAAGTGCGTTTTCTGGAGATGGGGCTGCGGAATACCTTGTAAATAATCAATCTTCTCTTTTAGTACAAATGACAAATTATTTTCCAACTACATATTTTGGAGCAGTGGCATTAGTAGAAAATGCAAATTGGAAGGGACCTTTATATGTAATAATCTTTGCAGTTATTTCATTTGTCTTCTTTGTGTTGTTTTATTACATAGCAGAGCGTACATATTTAAAAGGGGTTATTGGACTTTCAACGAGTACAGCAAAGAAACAAGTTATTTCGGCGGAAGGTTTACAGAAATCAACAGTACAAAGTTCGCATTTAAAAGCGTATGTGAAAAAAGAATTTAAAACGTTATTCCGTACACCACAATTTTTCTTAAATTGCATTGTACAAACTTTCGTTATGCCAATTATGTTGTTCTTTATTTTATTTGTGCAAGATGGAAATTTAAAGTTTATTACAGAGTATATTAACAATCCAAAGACAACAGGATTTGCAATTGGTGTTGGTCTTTGTGCATCGTTATTTTTAATGGGTAGTAACGTCATTGCAACAACGTCATTTTCGCGAGATGGAAGCTCTTGGTTTGTGAATCGTTATTTACCAGTAAAGGCTTCGGATATCTTTTTTGCGAAAGCAATCACTGCTTGGTTAATTAATGTGATCATTTTAGCAGTATTCGGTATTACGATGGCAGTTGTAGCTGGGATTTCTCCAGTCTTTATGATACTGTGGTTTTTACTAAGTGCGAACGGGTTGTTATTAATTAATTTAATCGGAACACGCTGGGACGCGCAAACTGCAGATATTCATTGGGATACAGAGCAGAAATTATTTAAGAGCCGATATACCACTTTGTGGAATTTTTTAGCTAATATTTTAATAGCTTTAATTATTGTGGGGGGAGTAAGTGTATTATACTTCTTCCTTCATGTCGGACTGTGGGTTATGTTTATCGTTTTATTTGTAATGTTTACGATTGTAAATTATATCTTTATTAAAATGTTAAAATTAGGTGCTGAACGTATACTGTCAAATATTCAATAA	MSKIWTLTKVLLKLNYADFIADKKKRWAYLFSFAAILFVGFLIFGSMTHGMYEGLKQLGQGPGMIIAMGLAIASIWVFLMSITNILTVFYYSNDIEMLLPLPLKPAQIISAKFLTVLITQYVMSSFILLPIFITYGLKSGAFITYYIYMIFIYLLFPIVPLVLASLLMTIIMRYTNIAKNKDRGNIFIGIVSILFIVGINVFMQWRNKSAFSGDGAAEYLVNNQSSLLVQMTNYFPTTYFGAVALVENANWKGPLYVIIFAVISFVFFVLFYYIAERTYLKGVIGLSTSTAKKQVISAEGLQKSTVQSSHLKAYVKKEFKTLFRTPQFFLNCIVQTFVMPIMLFFILFVQDGNLKFITEYINNPKTTGFAIGVGLCASLFLMGSNVIATTSFSRDGSSWFVNRYLPVKASDIFFAKAITAWLINVIILAVFGITMAVVAGISPVFMILWFLLSANGLLLINLIGTRWDAQTADIHWDTEQKLFKSRYTTLWNFLANILIALIIVGGVSVLYFFLHVGLWVMFIVLFVMFTIVNYIFIKMLKLGAERILSNIQ	PGPT0006730_827	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_01879	726	ecsA_2	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGATTGAAATTACGAATGTGTCAAAAAGTTATAATGGGTCTACCTATGCAGTAAAAGATTTAAGTTTATCTGTACCTAGCGGCGAAATCTTTGGATTTTTAGGACCGAATGGTGCGGGTAAATCCACGACAATTAAGATGATTACTGGCATTCACGGGGTGGACAAAGGGACGATTACGATTAACGGAAAAAATATTATGGAAGAGCCGATGGAAGCGAAGAAGACGTTTGGTTATGTGCCGGATAGCCCAGATATGTTTTTACGTTTAAAAGGAATTGAATATTTAAACTTTATGGCTGATATGTATGAAGTGCCGAAAGAAGTAAGACAAGAACGAATAGAGTCTTTAGCGAAGAAGTTTGATCTTTATAATGCATTATCTGATCAAATTCAAAGTTATTCGCACGGTATGAGACAAAAAATCGTTATTATTGGTGTGCTCGTGCATGAACCAGATGTATGGATTTTAGATGAACCGTTAACAGGGCTTGATCCGAAATCTGCATATATTTTAAAAGAAATGATGAGAGAACATGCGGATAAAGGAAAGATTGTATTTTTCTCTACACACGTATTAGAAGTAGCGGAAAAAATATGTGACCGGGTTGCTATTATTAATAAGGGGAATTTGCAGTTTAAAGGAAATTTAGATGAAATGAGAGATCATTTTAAATCCAATGAATCACTTGAAAAAATGTTCTTGGAGATGACGGGCAATGAGTAA	MIEITNVSKSYNGSTYAVKDLSLSVPSGEIFGFLGPNGAGKSTTIKMITGIHGVDKGTITINGKNIMEEPMEAKKTFGYVPDSPDMFLRLKGIEYLNFMADMYEVPKEVRQERIESLAKKFDLYNALSDQIQSYSHGMRQKIVIIGVLVHEPDVWILDEPLTGLDPKSAYILKEMMREHADKGKIVFFSTHVLEVAEKICDRVAIINKGNLQFKGNLDEMRDHFKSNESLEKMFLEMTGNE	PGPT0006725_25102	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_01880	195			hypothetical protein	ATGCTAACTTGGATCATGATCGTTGTATTACTTGTAGTGATTACTGTCATTGCGACGGTGTTAATTGGGCGGAATGGTGATGCAAATTATAGCAAAGCGACAAAGGGGAATATTAAACGATTAACAATGATTTATATTATACTAGCTGTCGTTTTAGTTGTTGGATTAGGGGTGTATATTTATTTTAAAGGTTAA	MLTWIMIVVLLVVITVIATVLIGRNGDANYSKATKGNIKRLTMIYIILAVVLVVGLGVYIYFKG				NA	NA	NA	NA	NA
AK009_01881	360			hypothetical protein	ATGAAAACAACTTGGATAAAATATTTAGGATTTCTCGGTTTCTTCGGTTTCCTCGGATTTTTTTATGAAAAAGGATTGTTTACTATGTTCTGTTTCTTCTCCTTTTTCACATCGTATAGAACAGTTCAACACGATGAACTGTTTGAACAAATTGTCAATAAATCGTGTCGCAATGCATTTATCGTTACATTACTAACTACCGCTATCATTATATTTATTGAAATGTTATTTCCAAACCCGGCGCTACAAGAAATTGATATCGCTCTTATTTTCGGCACACTCATTATTACGTTCGGTTTTTCTATGTTCTTTTATGATAAACCTGTTGATGAAATGGAAGATGCACCATGGCGTTCGTAA	MKTTWIKYLGFLGFFGFLGFFYEKGLFTMFCFFSFFTSYRTVQHDELFEQIVNKSCRNAFIVTLLTTAIIIFIEMLFPNPALQEIDIALIFGTLIITFGFSMFFYDKPVDEMEDAPWRS				NA	NA	NA	NA	NA
AK009_01882	204			hypothetical protein	ATGGCGTTCGTAACGAAGATAAAAGAATACCGCGCAAAATTGAACATGACACAAGAAGATTTAGCGAAGCAAGTTGGTGTACGCCGTGAAACAATTAGCCACCTTGAAAAAGGTAAGTATAATCCTTCATTGCAACTCGCTCACGATATAGCGAAGGCACTTCATAGTACGATTGATGAGATTTTTATTTTTGAGGATAAATAA	MAFVTKIKEYRAKLNMTQEDLAKQVGVRRETISHLEKGKYNPSLQLAHDIAKALHSTIDEIFIFEDK				NA	NA	NA	NA	NA
AK009_01883	966			hypothetical protein	ATGTTAACGTTTTTATTTGAGTTAGACAAGAATCTCCCGCAGAAGGATGAGCCACGGTATGTTGCTTATACAAATGGTTTTATCGAAGGGGATTTAACAATTTGTATGGGTGACAGAGTATTTTTTCAAAAATCATGTATGAAGGTTGCAGAGCTGGGCATTTATTTAGGTCAGTGGATGGAACAAGTTCAACACGGGCAAAACGTGCCTATGAAATATGAAACGGCTGACCGTGAAGAGGTCATTCTTGGCTTATTCTATGAAGAGGATCATAACCAATGGAATGTTTCTTCCAGCTGGCAAGAATTTGAACTTCAAGAGCGTATCTCTACTGAAACATTAGTAGAGAGCGTTCAATGCTATTTATATGAGCTAAATAAGGAACTGCGTGCGATAGAATATCCTGTGACGTTTGATCAGTACTTAAGAGGAGAGCGAATGATGCAGCTTTCTTACAAACGACCGTGTGATAGCAAAGCAGATACGACGCCGATAGAGGTTTATAATGGAAGCGAGCAAGTAGGCGTAGTAAGGGGCTATTATAAAAATACGCTGATGAGAGTGCTGGATTTTATTCCGAAAATTGGTAGTAATATCATTTATGAAATAAAGGATATTAAGAACAATATTCGCGTCATTGCAAAGGATGTAAGTAGGCAGCGCCAAAGAAAGATTTTAGTAACGTACATCGATAATAATGATGCAGAGCATAAAATACTTGTATGTGACGGAAAGTTATTGGATGCAAATTTTATATTTACCTTTACATATAAGGCAGAAGAATATGTTGTTCATAAAACTTCATTTGGAATGGGAAAATTATTACGAAAAGGCTATTTAATCGCAGATTGGAATATTCGTCTTGAGGAAGATATGTATTACATCGAGATGAATGCATATGATGGAGATTACATGGAGGATCAATACTTACTATTAGGCGTATTTCATGCGGTTTTATATGGATAA	MLTFLFELDKNLPQKDEPRYVAYTNGFIEGDLTICMGDRVFFQKSCMKVAELGIYLGQWMEQVQHGQNVPMKYETADREEVILGLFYEEDHNQWNVSSSWQEFELQERISTETLVESVQCYLYELNKELRAIEYPVTFDQYLRGERMMQLSYKRPCDSKADTTPIEVYNGSEQVGVVRGYYKNTLMRVLDFIPKIGSNIIYEIKDIKNNIRVIAKDVSRQRQRKILVTYIDNNDAEHKILVCDGKLLDANFIFTFTYKAEEYVVHKTSFGMGKLLRKGYLIADWNIRLEEDMYYIEMNAYDGDYMEDQYLLLGVFHAVLYG				NA	NA	NA	NA	NA
AK009_01884	711	yfnB_1	COG1011	Putative HAD-hydrolase YfnB	ATGAAATACAAAGTTATATTATTCGACGTAGATGATACATTATTAGATTTCCCTGAAACGGAAAGACACGCATTACATAATGCGTTTGTACAGTTTGGTATGCCTACAGGGTATAATGATTATCTTGCAAGTTATAAAGAGATTAGTAATGGATTATGGAGAGATTTAGAAAATAAAATGATTACGCTAAGTGAATTAGCAGTAGATCGATTTAGACAATTATTTGCACTTCATAATATAAACGTAGATGCGCAGCAATTTAGTGATGTATATCTTGAAAACTTAGGGAAAGAAGTACACCTTATAGAAGGCGCAGTACAATTATGTGAAAATCTACAAGATTGCAAGTTAGGTATTATTACGAATGGATATACGAAGGTGCAACAATCAAGAATCGGAAATTCGCCTTTATGTAATTTCTTTGATCACATTATTATTTCTGAAGAAGTTGGTCATCAAAAACCAGCGCGTGAGATTTTTGATTATGCATTTGAGAAATTTGGAATTACGGATAAATCAAGTGTACTAATGGTCGGAGATTCGCTAACTTCTGATATGAAAGGCGGAGAAGACTTCGGCATTGATACGTGTTGGTATAATCCAAGTTTGAAAGAAAATAGGGCAGAAGTTAAGCCGACTTATGAAGTGGAGAGTCTGCTACAAATTTTAGAAATTTTGGGAGTGGCGGAAGAAAAGGTAGCTTCATTTTAA	MKYKVILFDVDDTLLDFPETERHALHNAFVQFGMPTGYNDYLASYKEISNGLWRDLENKMITLSELAVDRFRQLFALHNINVDAQQFSDVYLENLGKEVHLIEGAVQLCENLQDCKLGIITNGYTKVQQSRIGNSPLCNFFDHIIISEEVGHQKPAREIFDYAFEKFGITDKSSVLMVGDSLTSDMKGGEDFGIDTCWYNPSLKENRAEVKPTYEVESLLQILEILGVAEEKVASF	PGPT0006885_853	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK009_01885	1023			hypothetical protein	ATGGAGCAGCAAAGAAATTGGCTACAAGCAACTGTAGAAAGAATTGAAGATAATACGTTACAAATAAAGTGGGAAAATAATATAGAAGAAGTTCGTATTTATTGGAGTACTTCACCAGATCATATTGAAGAAAATGGAGAACTACTTGCAACGGTAAATGGAGAATTATCATATACAATTGAAAACCCGAGTGAAAATGAACGTCCATATTTTAGATTAGTAGGAAGTAATGGACAAGCAGTAACAGTAGCCGAGCGTAGATTGCCATTACAAGGTGCGTTTAACTTCCGTGATATGGGAGGATATGAAACGACTGAAGGCCGTAAAGTAAAATGGGGCAAATTATACCGCTCTGAAGAATTAGCAGGGCTAACTGAATGGGATATTGCCTATTTACAAAAGTCTGGCTTAAAGTTAATTTGCGATTACCGTACAGACTTTGAAGTGAAGCATAAGCCGAATCCAGAGATTACGGGTGCTCGTCAAGTGTGCTTACCAGTTATGCAAGACTTAGCGAAAGACTTAAATATAAATGAGTTTTTCCAAGTTGGTGACCTTTCTATGTTAGGAAAACCAGGTGAATATCTTGTGAAAATGAATCAAGGTTTCGTAAGTGGTAACGAGGCATTCGTGAGCTTCTTAAACTTAGCGCAAAACCCGGAAAACTTACCGTTAGTAAACCACTGTACAGCTGGAAAAGATCGTACTGGATTTGGTTCAGCATTATTACTACTTTTACTAGGTGTACCAGAAAAAACAGTAATGGAAGACTACTTACTAAGTAACGGATTTCGTGAAAAGCTAAATGAAAAAATGGTGGCCTTTTTAGGTGCGAAATTACAAAACGATGAGAGCAGAGCGATATTAGGTGCAATGTTTGAAGCACGTGCTGAATACTTGCAAGCTGCGATTGGTGAAATTCAAAAGCAATACGGATCAGTTGAAGCATACGCTGAAAGGGCTCTTGGCTTTACGAAAGAGTCGTTAGAGGAAATGAAAGAGTTATTGCTGGAAGATAAGTAA	MEQQRNWLQATVERIEDNTLQIKWENNIEEVRIYWSTSPDHIEENGELLATVNGELSYTIENPSENERPYFRLVGSNGQAVTVAERRLPLQGAFNFRDMGGYETTEGRKVKWGKLYRSEELAGLTEWDIAYLQKSGLKLICDYRTDFEVKHKPNPEITGARQVCLPVMQDLAKDLNINEFFQVGDLSMLGKPGEYLVKMNQGFVSGNEAFVSFLNLAQNPENLPLVNHCTAGKDRTGFGSALLLLLLGVPEKTVMEDYLLSNGFREKLNEKMVAFLGAKLQNDESRAILGAMFEARAEYLQAAIGEIQKQYGSVEAYAERALGFTKESLEEMKELLLEDK	PGPT0014530_419	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
AK009_01886	723			hypothetical protein	ATGACGACGATAGAACAGTTAGAAAAACATTTTAAAATAAGAAGAAGTGCTTCTTCTATTATGATAAAAGAAAATAATGCAGAGATTTTTACAGAAGAGCAATTAGAGGGAATGATGCAGTATTGCGTTACTGAGGCTGAAAAAGAGGGAATAGAAAACTTACATTTTGAAACTTCTTCAAAAAGCCCAAATTATGATGTGTATAAAAAATGTTTCGACACGTATTCATTTGAATATATTACTGAAAACATGATTGTATTTAAAGATATATATGAAGTAGAAGATGTAGAAAGTGAAATTGATTTTAAGCTTATTGAAGAAGTTGGAGAAGAGGCTTTTTATTCACTGTGGAATGAAGCGACGGGAGAACCAGTCGCTCATGATCAATTTGTGCATATGATGCTACAAGAAATTGGTGAGCAATGGAAAGAACATTGTTTAACAGCAAGTGTCGATGAAGAGCCGATAGGAATTGTAATTCCGCATATTGAAAGAGGTACGTTAGAAGAAGGGAAACTTATGTACTTCGCAGTTACTCCAAATATGCGTAATAAGGGATATGAAGCTGCACTATTTGCAGGTGCGATGTTTGTCTTAAAGGAAATAGGTGCATCTTATTATATTGGTGAGACAAATGTACAAAATGAGTGGATGAAGGATGTTTTTGAAAAGAACGGATGTCAGCTGCTGAGTTGTACTGAGCGGTATGTGAGGGTGTTTTAG	MTTIEQLEKHFKIRRSASSIMIKENNAEIFTEEQLEGMMQYCVTEAEKEGIENLHFETSSKSPNYDVYKKCFDTYSFEYITENMIVFKDIYEVEDVESEIDFKLIEEVGEEAFYSLWNEATGEPVAHDQFVHMMLQEIGEQWKEHCLTASVDEEPIGIVIPHIERGTLEEGKLMYFAVTPNMRNKGYEAALFAGAMFVLKEIGASYYIGETNVQNEWMKDVFEKNGCQLLSCTERYVRVF				NA	NA	NA	NA	NA
AK009_01887	840			hypothetical protein	TTGGATATTACAGCATTGCAACAACAGTTAGAGCTTATACAACAAAATGACTATACGCAACTGCAACATATAGATGTAAATGAGTTAACTTTGAACATGCTTCAGTATATCGGAACGACTGATAGCTACGTTCGTTACCAACTTATATATAAATGTTTTGCGCATTTCATTCATCATGAATTCCTTATGGACGATCAGCTGAAATTACTTCTGCAAACTTGTTTAAGTGATGAGTATTTATATTGTGACATTTACTCCCCACATACAGATGGGGTTTTCACACGTTCTTACACTGTTTCGTTAATTGCGTTAATACTCCAATTCGCTAATTCGCACTACTTTTGTACAGAGGAGGATATCGAAGAAATAAAAAATAAACTCATTACATATACAAACTTAGAAACGGATTTTCGAGGCTATATTGAAAACAAAGGATGGGCTCATTGTCTTGCTCACGTATCTGATGCTTTCACCGAAATTGTTCATAATACGTATACGACCTTTGAATGGTACGAAGAATTAATTCATTGTTTATTAAATAAAATTTTTATTCCATCTGACCTTTTTCATAATAATGAAGATGAACGCATTGTTACTCCATTACTAGCAATGCTGTATCATGATTTTCCTCAAAACGAGTTAATTTCTATTATTCATAAAAAAATAAAAAGGCTTCCTCAAATTAGAAAACGCCTTTCACTTAATGAGTATTGTATTTTATGCGCCAACATTAAAACCTTTTTACGCACATTATTTTTCAGAACGAAAGATGACCATAACTTAGCTTTTACAGCGCGTAAAACAGAAAGAATGTTAAAAGAACTCCCTAACTATTATTAA	MDITALQQQLELIQQNDYTQLQHIDVNELTLNMLQYIGTTDSYVRYQLIYKCFAHFIHHEFLMDDQLKLLLQTCLSDEYLYCDIYSPHTDGVFTRSYTVSLIALILQFANSHYFCTEEDIEEIKNKLITYTNLETDFRGYIENKGWAHCLAHVSDAFTEIVHNTYTTFEWYEELIHCLLNKIFIPSDLFHNNEDERIVTPLLAMLYHDFPQNELISIIHKKIKRLPQIRKRLSLNEYCILCANIKTFLRTLFFRTKDDHNLAFTARKTERMLKELPNYY				NA	NA	NA	NA	NA
AK009_01888	450			hypothetical protein	ATGGGCTACATTGAAGACATGAGAAATCTAGTAGGAAATCATCCACTTATTTTAATAGGATCACATGCCATTATATTAAATGAAAAAGATGAAGTATTACTGCAGCTTCGGACAGATTTTAACCGATGGGGCATTATTGGGGGTGCCTTAGAATATAACGAAACGTTAGAAGGTGCTTTAAAACGAGAAGTATTTGAAGAAACTGGACTTATTATTAAAAATCCAGAACTATTCCGTACATACTCAGGGCCAGATTTCTTTGAAATCTATCCAAACGGCGATCAAGTACATGGTGTACTCGTTGTTTATATTTGCCGCGAATTTCACGGGGAGCTTATATGTGATAAAACTGAGTCAAAAGAATTACGTTTCTTTCCGTTTGATGAGTTACCTAGTACTCTTCATCCAGTCATTGAGGGGATTCTTCGCGATTTTCATCACTCTAATTAA	MGYIEDMRNLVGNHPLILIGSHAIILNEKDEVLLQLRTDFNRWGIIGGALEYNETLEGALKREVFEETGLIIKNPELFRTYSGPDFFEIYPNGDQVHGVLVVYICREFHGELICDKTESKELRFFPFDELPSTLHPVIEGILRDFHHSN				NA	NA	NA	NA	NA
AK009_01889	255			hypothetical protein	TTGAGTGAAATCATTTTTATTTTCTGTATATATCCATTGCTTATTTGTATTTTTTCAATAGCTGTGACATATAAAGTAGGTACATTTTACGCGATGCCAATTGTAACATTTCTTATTTTTCTTATGTTAAGTGTTACAGTGCACGATCCAGCATTTTTCTTTTGGGTTGGCATGTATACTATTCTTTCATTTATTGTTTCTTATATAACTATCCTTTTTATAAAGGGATATAAAGTTGTAGAAAGAGAGCGTTAA	MSEIIFIFCIYPLLICIFSIAVTYKVGTFYAMPIVTFLIFLMLSVTVHDPAFFFWVGMYTILSFIVSYITILFIKGYKVVERER				NA	NA	NA	NA	NA
AK009_01890	381			hypothetical protein	ATGAAAATTGAACATGTAGCAATTTGGGTGAATGATTTAGAAGGAATGTGTGATTTCTATAAACAGTACTTCGGTGGTGAAGAAAATAGCTTATATCACAATCCGAAAAAGCAGTTTGAATCTTATTTCATAACTTTTGAAGGTGGTGCGCGTCTAGAACTTATGAGACAAGTAGGGATAGACGATAAAATAAAAACACAAACAGTAGGATATGCGCATATTGCTTTTTCTGTAGGTAATAAAGAAAAGGTGAACGAATTAACTCATACATTAAGAGAAGCAGGGTACCCTGTGTTAAACGGCCCACGAACTACAGGGGATGGTTACTATGAAAGTGTAGTAAGTGATCCTGAAGGGAATCAGATTGAGATAACAATCTAA	MKIEHVAIWVNDLEGMCDFYKQYFGGEENSLYHNPKKQFESYFITFEGGARLELMRQVGIDDKIKTQTVGYAHIAFSVGNKEKVNELTHTLREAGYPVLNGPRTTGDGYYESVVSDPEGNQIEITI	PGPT0013300_5101	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
AK009_01891	1029			hypothetical protein	TTGAGTGAACAATTTGTTACTCAAAAATCAATTAAAGAGACGATCCTTCGCGGCATTCGTACGGCTCTTCTAGAGCAAGGAAGTGCGACGAAAGTTGAACTTAGTAATACATTAGAAATTAGTTTTCCAACGATAAGTAAATTTATAGAAAATATGAAACAAGATGGTGAAGTCACTTTAGTCGGTTTAGATGATTCAAGTGGCGGAAGAAGAGCGAAACGATATGCGTATAATCCAGAATATATGTTAGGATTAGCGATATTTTTAGAAAAAAATGAGACGAATTATACAATTTTTAACTGTTTAGGGGAAGTAAAAGAACAAGGGAGTACTTCAAGTGCATTAATTGATGCGGGACTAAGCGTATTAACAGAACATATAGAAAGTCTTATAGCTATGTTTCCAAAAATAAGTTCTATATCAATTGGTGTCCCTGGTGCGGTCGATAATGGGCGTATTTTCTATATTCCTGGATATGAAAAGTTTCAAAATTTTAATTTGAAAAGTCACTTTGAGGAACTGTTTTCTATACCAGTAGTAATAGAAAACGATATGAATGCTGCAGTGCTCGGGTATCATAAAAACACGAGGAATAATGACAATTCCTCTCTTGTATATTTGTATTCAGGTCAAAATGGCCCAGGTGCGGGGATTATGGTAAATGGAGATGTCGTACGCGGAAGTACATTTTTCTCAGGAGAGATATCTTTCGTTCCGCAGTATGATAATAAAAATTTCTTACAAGCTTTGAGAAGTGGGGATTCGCATAATTCAGAGGAATATAATATAGATGCTATTACTCGTTTAATAGCTACATGTATAGCTATTATTAACCCTCATACGTTTATCTTCTGTGATGATGAAGTGAATCAATTTGTAATAGATCAAATTGTAAAAAGTTGTCCGCAGTACATTCCGGCGGAACATATTCCGAAAATAACAGTGAGTAATTGGAAAGAAGATTATTTATATGGATTAAAAAGTCTTGGACTTGATCTTATGATTACTAGAACGAATAAAGAAAATTAA	MSEQFVTQKSIKETILRGIRTALLEQGSATKVELSNTLEISFPTISKFIENMKQDGEVTLVGLDDSSGGRRAKRYAYNPEYMLGLAIFLEKNETNYTIFNCLGEVKEQGSTSSALIDAGLSVLTEHIESLIAMFPKISSISIGVPGAVDNGRIFYIPGYEKFQNFNLKSHFEELFSIPVVIENDMNAAVLGYHKNTRNNDNSSLVYLYSGQNGPGAGIMVNGDVVRGSTFFSGEISFVPQYDNKNFLQALRSGDSHNSEEYNIDAITRLIATCIAIINPHTFIFCDDEVNQFVIDQIVKSCPQYIPAEHIPKITVSNWKEDYLYGLKSLGLDLMITRTNKEN				NA	NA	NA	NA	NA
AK009_01892	1194	ybjJ		Inner membrane protein YbjJ	ATGGAGAAATATAGTGCGGACAATCATAAAAAGAGATTACTTGCCTCTCGAAATGCTCTTTTTCTCTTATTTGCTTTGCCAGGTGTGGCATTTGCTACATGGATTTCAAGAACAGCAACTACTCGAGATATGTTAGCAGTGTCAAATGCAGAAATGGGCTGGATTTTGTTCGGACTATCTGTTGGTTCAATAATTGGTTTACTGAGTGCAAGCCGCTTCATTGACTGTAAGGGAGCTAGAGACGTTATTATAGGCAGCATGTTTTTTATGATTGTTGGATTGATTTGTTTAGGTATAAATATTTATTTTGTTTCTAGTATGGGGGCTTTTAGTAGCTTACTAGTATTTGGAGTAGGCTACGGATTGGCGGAAGTCGCATTGAATGTAGAAGGTTCTTCCATTGAGCAGAAATTAGGAACAACTCTTCTTCCAAAATTTCATGGCTTTTTTAGTGTAGGAACTTTAGTAGGCGCGCTCAGTGGTTCTGTCGCAGCGTCGCTTCACATCCCGATTCTGTATCAGTTTCTTGTGATTTCGGTCATGTTTCTATTACTTGTATGTATGGTGTATCGTTTTCTTCCGCATGGAACAGGAAAGAAGGAGAAATCGCGGAACAAAAGGAGAGAGAAGCGTACTTCCTTACGTATGGAAAAAAAGGTGCTTTTAATTGGTCTTTTTGTGCTTGGAATGGCATTTGCAGAAGGTAGTGCAAATGATTGGCTACCTATCGTGATGGTAGATGGACATGAGCAAAGTATAGTGGCAGGTTCTATTATGTACGCAATTTTTGTATTAGCAATGACGTTAACTCGTATGTGTAGCAGCTATTTCCTTGATCGATTCGGTCGTGTCGCTGTCGTACGTGCCACTATTATGATGGCGATTCTAGGAATTTCAATCGTAATATTTGGGAGTAATTCGTATTTTCTAGCATTTGGCGTAGTACTGTGGGGGATTGGTGCAGCGCTAGGGTTCCCAATTGGTCTGTCAGCTGCTGGAGATGACCGTGAAAATGCGACTTCTAATGTTGCTGCAGTTTCTATCATTGGTTATACAGCCTTTTTAGTCGGACCACCATTTTTAGGGATACTTGGGGAAGCATTCGGAATACGTAATGCCTTGCTAGCTGTTTTATTATTTGTTCTTTTGTCTGGAATTGTATCGTCTATTACAAGAGAGAATACATCGAGCTAA	MEKYSADNHKKRLLASRNALFLLFALPGVAFATWISRTATTRDMLAVSNAEMGWILFGLSVGSIIGLLSASRFIDCKGARDVIIGSMFFMIVGLICLGINIYFVSSMGAFSSLLVFGVGYGLAEVALNVEGSSIEQKLGTTLLPKFHGFFSVGTLVGALSGSVAASLHIPILYQFLVISVMFLLLVCMVYRFLPHGTGKKEKSRNKRREKRTSLRMEKKVLLIGLFVLGMAFAEGSANDWLPIVMVDGHEQSIVAGSIMYAIFVLAMTLTRMCSSYFLDRFGRVAVVRATIMMAILGISIVIFGSNSYFLAFGVVLWGIGAALGFPIGLSAAGDDRENATSNVAAVSIIGYTAFLVGPPFLGILGEAFGIRNALLAVLLFVLLSGIVSSITRENTSS				NA	NA	NA	NA	NA
AK009_01893	564	maa_1	COG0110	Maltose O-acetyltransferase	ATGAAAACGGAGAAAGAAAAGATGGTGGCAGGAGAAATGTATATGCCAGATGATGAAGAGTTAGTAGCTGATAGAACTGAAGCAAAACGTTTAACACGCCTTTATAATGAGGCGATGGAGATAGGAGATGAAAAACGTTTTACGTTATTAAATCAGCTTTTAGGTTCTTCAGCTGATGGGAAAGCCCAAATTAATCCTGATTTTCGTTGTGATTATGGCTACAATATCCATGTTGGAAAGAGCTTTTTCGCAAATTTTAATTGTGTGATTTTGGACGTTTGTGAAGTGCGAATCGGTGATAATTGTATGTTTGCACCAGGTGTTCACATTTATACTGCTACGCATCCGTTGCATCCGGTAGAGCGGAACTCTGGTAAAGAATATGGAAAGCCAGTAAAGGTAGGTAACAATGTTTGGGTTGGCGGGGGAGCTATTATTAACCCTGGTATTTCAATTGGAGACAACGCTGTAATTGCTTCAGGGGCAGTTGTGACAAAAGATGTACCTCATAATGTAGTAGTTGGTGGTAATCCAGCTAAAGTTATTAAAACGATAGAAGAATAA	MKTEKEKMVAGEMYMPDDEELVADRTEAKRLTRLYNEAMEIGDEKRFTLLNQLLGSSADGKAQINPDFRCDYGYNIHVGKSFFANFNCVILDVCEVRIGDNCMFAPGVHIYTATHPLHPVERNSGKEYGKPVKVGNNVWVGGGAIINPGISIGDNAVIASGAVVTKDVPHNVVVGGNPAKVIKTIEE	PGPT0018611_1194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
AK009_01894	159			hypothetical protein	ATGGTTTTAATGAAAAACAATGGATCAATCATTATATTAGTTAAATGCCACCAAGTAATATCATTAGGTGAAGTAAGAATTCACATTTCCTTTCAAAACTTATTAGTTGCACATATTAAAAAATATGCTAATATAGGGATACTTATTAAACTTGTTTAA	MVLMKNNGSIIILVKCHQVISLGEVRIHISFQNLLVAHIKKYANIGILIKLV				NA	NA	NA	NA	NA
AK009_01895	2490			hypothetical protein	ATGATAAAATCAGTACGAGGATTAAGTTTACGCTTTTTTAAGACGAATAAATTCACTGCTATTTCCTCTATAGTTAGCGTTATGTTGGCTGTTTCTCTAATTATTACGATGGTTGTATTTTCGAGTCATGCGAAACAGTCTGTTATAAATGAAGTGAAAAATGTATATGGAGATATGGATTTATCAGTTGGATATAACCCTGATCAAAATAAGTTGATGGATAAATCTTTACTACAAAATATTAAAGAACAAAAAAATATTGAATACATATCAAAAGTATTAGTAAATCATTTGCAAGTGAATAAATTGAATACCGCTATTTATACAGTAGGTGTTCAAAATGATTCGTTATCGAAAAGTCGATATCACTTTTCTAAAAATCTATCAAATGAAGAAGTAACATTAAATCATGGATTAGCAGAAACTCTACAAGTAAACGTTGGGGAAAAGATTGAAATAGAAAATAAATCCTATGTAGTAAAAGAAGTGTTATCTGATATAGAAGCTGGAGGTTCAGCTCCAGATATACTCGTTTTATCGAAAGGTGCGGTGAAACAGCACGTATATGAAAAAACGGGTAAACACAATGAAGCTACTTATGTGTTGATAAAAGTAAAAGCGAATGCGGATGTACTAGCTTTGTCTAATCAAATTCATAAAATAGACAAAGAATTAAGAATCGATATTGCGGAGGAAGACGAGTTTTTAAAAAGTAACTTAGCTTCATTACATATTTTTATAGTTATTTTATCTGTATTAATACTTATTATTACTTCATTATTATTAATGTCTAATTTTGAAGTGTTTTTATATAAATATAAAAGTCAATTTGCGATTATGCGATCAATGGGAGCAACAACGAAACAAATGTTTACAGTTATATTCATTCAATGTAGTGTAATTAATTTCTTTGGTGGAATATTTGGTTTGTTACTAGCTGTAATAAGTAACCGTTTTTTACAAAGTTGGCTAGAGCATTTATTTGCTTTTCAAATTAATTCGATGAGTTTCGACTATAAACTAGCAATTGTAACTGTGATTTGTAGTATCTTTTTTATTGAACTGTTTATGTTATATCCGTCATATAGAAGTTCGAAAATATTGCCAGTAAAGCTTATGCGCGAAAATGAAGAATCTGATTTTTCTAATAATAAAACACGCAGTATTATGGGGAAATTCCTTTTAATTAGTAGCATAGTTTTAACTGCTTTAGGTGGATTTGTAGCAAATACTGGAGATACGCAGGCGATAGTGATATTAATAGGATCTATATTTCTTGTTTTAGGAGTGTATGTTTTATTTCCTATTTATCTTTCTTGGATATTAAAATTATGTCTACCTATGATGAAAAAAATATTTGGAAGGAATACATTTGTTGCTATTAAAAATTTAATTCCACAAGTGAGAAAAAATACATTTGTTATCTTAATGATAAGTACAATGATGGTGATAGTTGTCTTCGGCTCCACTATATTTAAAACGATGCAAAAAAATAATGAAAGATATTTAAAACGAGAATTTCCAACACATATTGTTGTGGAAAATCGTTTGACTAATGATTCAACCATTACCTTACCTCATATACAAAACATATTTAAAGAAATAAGTAGTGTAAAAGGAGCTAGTACAATTAGTACGAACTCACTGACAGAATTAAAACAAGGTGAAAATTATATTACTTTTGACTATAATTTAGGTGATTTAAAGGAAATGGAAAAGCAAGGATTACTGTCAGAAGTACCTGCAAATTTGGAGAATAGTATAATTGTTACAAAAGAGTTAGCGGAGCGGTATAAACTTCATGTAGGTGATATCGTTCAATTGGGTCTATTTTCAGAACAGGAACAAAAAGTTAGACCGACTAGTAAGGTAGAAATCGGATTAATTGTTAACGAGCTACCGAACTCTCCTTCAGTACTTATGGATTGGAGTAATGTAACATATAAACAAGATTATACAGTTTTTGAGCGGGCATTTATTAGTTCAAATAACGAGAGAGAGACGTTGGAGCAATTAAAGAAAGTGAAAGGTCAATATCCACAATTAAAAATAAATAGTTATACTCAATCGTTAAAACAATCTAATTTAATGTTTCAGCAAAGGTGGTCCATTTTCATCGTTGTTATTGTAGTAATTTTGTTTAGTGTAACATTAGGGGTATGTAATACACTTATAAATAATATTCAATCTAAAAGAAAAGAGTATGCTATTTTACGAGCAATAACAGTTAAGAAAAAAGGGATTGTACAAATTATTTTGACGCAAGTTAATTTATATGTACTTATTGGAATCGTACTAGGGGCTGTTATAGGAGCATTATTAACCTATATGGTAAGTATAATAGATCGTACACCTGTATTTTTTGATTTCAAACTTATCGTAACGGTAATAGCGGGGATGTTCGGAATAGTCCTTATTATTTTTATACCTTTTGCTAATAGAATAGGGAAAAGGGACATTGTAGAAGAGTTAAATAAGGATAATAAATAA	MIKSVRGLSLRFFKTNKFTAISSIVSVMLAVSLIITMVVFSSHAKQSVINEVKNVYGDMDLSVGYNPDQNKLMDKSLLQNIKEQKNIEYISKVLVNHLQVNKLNTAIYTVGVQNDSLSKSRYHFSKNLSNEEVTLNHGLAETLQVNVGEKIEIENKSYVVKEVLSDIEAGGSAPDILVLSKGAVKQHVYEKTGKHNEATYVLIKVKANADVLALSNQIHKIDKELRIDIAEEDEFLKSNLASLHIFIVILSVLILIITSLLLMSNFEVFLYKYKSQFAIMRSMGATTKQMFTVIFIQCSVINFFGGIFGLLLAVISNRFLQSWLEHLFAFQINSMSFDYKLAIVTVICSIFFIELFMLYPSYRSSKILPVKLMRENEESDFSNNKTRSIMGKFLLISSIVLTALGGFVANTGDTQAIVILIGSIFLVLGVYVLFPIYLSWILKLCLPMMKKIFGRNTFVAIKNLIPQVRKNTFVILMISTMMVIVVFGSTIFKTMQKNNERYLKREFPTHIVVENRLTNDSTITLPHIQNIFKEISSVKGASTISTNSLTELKQGENYITFDYNLGDLKEMEKQGLLSEVPANLENSIIVTKELAERYKLHVGDIVQLGLFSEQEQKVRPTSKVEIGLIVNELPNSPSVLMDWSNVTYKQDYTVFERAFISSNNERETLEQLKKVKGQYPQLKINSYTQSLKQSNLMFQQRWSIFIVVIVVILFSVTLGVCNTLINNIQSKRKEYAILRAITVKKKGIVQIILTQVNLYVLIGIVLGAVIGALLTYMVSIIDRTPVFFDFKLIVTVIAGMFGIVLIIFIPFANRIGKRDIVEELNKDNK	PGPT0013350_10032	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_01896	762	yxdL_2	COG1136	ABC transporter ATP-binding protein YxdL	ATGATGAGTGAAGTTGTGTTAGCAGTTCAAGATTTAAGTAAAACATATGAGAGTGTAGATACAAATGTTAGGGCGTTACAAAATGTATCTTTGGAGTTAAATAAAGGAGAACTCCTTGCCATAATGGGGACGAGTGGATCTGGGAAGAGTACATTACTTAACATACTTGGTGCTTTAGACAAGCCTGATGAGGGAGTTGTATATGTAAATGGTGAAGTGCCTAACAATATGTTTGTTGAACCATATGCGACGGAATACAGGCGGGATAACATAGGATTTATTTTTCAGTCATTCCATTTATTAAAGGATTTATCTGTAGAAGAAAATATTGCATTACCCCTCATATTATCAGCTGATTCAGAAGCGGAGATACGAGAAAAAACAAATAAAATATTAGATGTTCTTGGTTTAGTAAATTGGAGAAATCATCGACCAGTTCAGCTTTCTGGGGGACAACAACAACGTGTTGCAATTGGTAGGGCGTTAATAACATCTCCTCCAATTGTTCTTGCAGATGAACCTACTGGAAATTTAGATTTCAATACGTCTAATGATATTTTACGAGTACTAGTCGATATGAAACAAAGATTCAATCAAAGTATGATTCTTGTTACTCATGATCCTCACATTGCTACGTATGCAGATCGGGTTCTCTTCTTTCATGATGGAGAAAATGTTGATGATTATACGTGTACTCATGGAGTAAATGATATGAATATCATTTTAGATAAATTTAAAAAATTACTGGAGAAATCAAAATGA	MMSEVVLAVQDLSKTYESVDTNVRALQNVSLELNKGELLAIMGTSGSGKSTLLNILGALDKPDEGVVYVNGEVPNNMFVEPYATEYRRDNIGFIFQSFHLLKDLSVEENIALPLILSADSEAEIREKTNKILDVLGLVNWRNHRPVQLSGGQQQRVAIGRALITSPPIVLADEPTGNLDFNTSNDILRVLVDMKQRFNQSMILVTHDPHIATYADRVLFFHDGENVDDYTCTHGVNDMNIILDKFKKLLEKSK	PGPT0013345_3482	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_01897	150			hypothetical protein	ATGGTTACAATTCTCGAATTAAAAATGTTACTAGTTCAAATAGGAACAGAAATTGTACCACCTAGTAATTTGAAAGAAAAAATTTTAATTCAGGTTAATTTGGTGAAGGGAATAAAACTTAATAATGTTGAGGTGTATAATGATGAGTGA	MVTILELKMLLVQIGTEIVPPSNLKEKILIQVNLVKGIKLNNVEVYNDE				NA	NA	NA	NA	NA
AK009_01898	1008	trpS_1	COG0180	Tryptophan--tRNA ligase	GTGAGTGAAAAAATAATGTTAACAGGAATTAAGCCGACAGGTTATCCGCATTTAGGGAATTATATTGGGGCGATAAAACCTGCATTGCAAATGTCAAAGAAGAATGAAGGAAAAGCATTGTATTTCATAGCTGATTATCATGCGTTAAATGCTGTACATAATCCAAGTCAGTTTAGTAATTATACGAAAGAGGTATCCGCTACTTGGTTATCACTCGGACTTGGTGAAGATGTTATTTTTTATCGGCAAACAGAAGTGCCGGAGATTCTAGAATTAGCTTGGATATTAGCTTGCCTAACTCCGAAAGGGCTTATGAATCGTGCCCATGCGTATAAAGCGAAGGTGGAGCAAAATAAAGAAGCAGGTTTAGAGATAGATGCGGGAGTGAATATGGGATTATATACGTACCCGATTTTAATGGCTGCTGATATATTACTATTTCAAGCGACGCATGTACCAGTAGGAAAAGACCAAATTCAGCATATTGAAATTGCTCGTGATATTGCGACGTATTTTAATCATACATTTGGTATGACATTTACGCTTCCGGAGTATGTCATACAAGAAGAAGGTGCCATTTTACCTGGTCTTGATGGAAGGAAGATGAGTAAAAGTTACGGAAATGTAATCCCATTATTTGCAGATCAAGAAAAACTACGAAAATTAATATTTAAAATCAAAACAGATTCTTCACTTCCGAATGAACCGAAAGAACTAGAAACATTATTTATGACATATAAAGAATTTGCGATGGAAGATGAAATACAGTCGATGCGCGAAAAGTATGAAACTGGAATCGGATGGGGCGATGTGAAAAAAGAGTTGTTTCGCGTTGTAGACCGCGAATTAGCCGGACCTCGTGAGAAATACGCTATGTATATGAATGAGCCAAATTTATTATACGAAGCGTTAGAAAAAGGGGCCGAGCGGGCAAGAGGAATTGCGAAGGTAAATTTAGCGGAAATTAAAAAACGGATTGGATTTGAGCGTTCCCTTGTTTTTTTATAA	MSEKIMLTGIKPTGYPHLGNYIGAIKPALQMSKKNEGKALYFIADYHALNAVHNPSQFSNYTKEVSATWLSLGLGEDVIFYRQTEVPEILELAWILACLTPKGLMNRAHAYKAKVEQNKEAGLEIDAGVNMGLYTYPILMAADILLFQATHVPVGKDQIQHIEIARDIATYFNHTFGMTFTLPEYVIQEEGAILPGLDGRKMSKSYGNVIPLFADQEKLRKLIFKIKTDSSLPNEPKELETLFMTYKEFAMEDEIQSMREKYETGIGWGDVKKELFRVVDRELAGPREKYAMYMNEPNLLYEALEKGAERARGIAKVNLAEIKKRIGFERSLVFL	PGPT0007120_4572	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
AK009_01900	1158	dxr_1	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGGTAAAATATATATCCATTTTAGGTTCCACAGGATCCATCGGCACATCTGCATTAGATGTTGTTTCAGCTCATCCTGAACATTTCAAAATCGTCGGTTTAACCGCAAATTATAACATTGATCTTCTTGAGCAACAAATCAAAACGTTTCAACCTCGTATTGTAAGCGTTGCGACAAAAGACTTAGCAGACACGCTTCGTACGCGTATTTCAGCAAATACAAAAATCACACACGGGACTGATGGCTTAATTGCAGTAGCTACTCACCCTGATTCAAATCTTGTATTAAGTTCTGTTGTCGGTGTTTCAGGATTACTCCCAACAATTGAAGCATTAAAAGCGAAGAAAGATATCGCTATTGCTAATAAAGAAACTTTAGTTGCAGCTGGACATATTGTAACTGAACTTGCGAAACAAAACGGATGTCGTTTAATTCCAGTTGATAGTGAACATTCAGCTATTTTCCAATGTTTAAACGGAGAAAATAATAAAGAAATTGACAAGTTAATTGTTACAGCTTCTGGCGGTGCTTTTCGTGATAAAACACGTGAAGAAATGAAAACATTACAAGCGAAGGATGCTTTAAAACACCCCAACTGGCTAATGGGTGCAAAACTAACGATTGATTCTGCCACGTTAATGAATAAAGGTTTTGAAGTAATGGAAGCGAAATGGCTATTCGATATTCCTTATAAAAAAATTGATGTTATGATTCATAAAGAAAGTATCATTCACTCTTTAGTGGAGTTTATTGACGGATCAGTTATGGCGCAGCTCGGTGCCCCTGATATGAGAATGCCGATTCAATATGCGTTTCACTATCCTACTCGGCTACCTTCTTCCTATGAAAAATTAAATTTATTAGAACTAGGTAGTTTACATTTTGAAAAACCAGATTTAGAGAAGTTCCCTTGTCTACAATACGCATATGAATGTGGCAAAATCGGTGGTACTACCCCTGCTGTATTAAATGCAGCAAATGAAATTGCAAATGCACTGTTTCTTAAAAACGAAATTGCCTTTTTCGATATTGAAAAAACAATTTACACAACAATTGAAGCTCATCATAACGTAAAAGATCCTTCATTAGATGCTATATTGGAAGCGGATCAATGGGCGCGCCAATATGCAAATGAATTGTTAATAAAAAAGAGCTAA	MVKYISILGSTGSIGTSALDVVSAHPEHFKIVGLTANYNIDLLEQQIKTFQPRIVSVATKDLADTLRTRISANTKITHGTDGLIAVATHPDSNLVLSSVVGVSGLLPTIEALKAKKDIAIANKETLVAAGHIVTELAKQNGCRLIPVDSEHSAIFQCLNGENNKEIDKLIVTASGGAFRDKTREEMKTLQAKDALKHPNWLMGAKLTIDSATLMNKGFEVMEAKWLFDIPYKKIDVMIHKESIIHSLVEFIDGSVMAQLGAPDMRMPIQYAFHYPTRLPSSYEKLNLLELGSLHFEKPDLEKFPCLQYAYECGKIGGTTPAVLNAANEIANALFLKNEIAFFDIEKTIYTTIEAHHNVKDPSLDAILEADQWARQYANELLIKKS	PGPT0007585_3095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
AK009_01901	1122			hypothetical protein	TTGGAGAAAATAAATATAAGAAAAAGAGATAAGTTAAGAAAGTTTTTTAGAGAACAAAATTATTTGGCGGTATTGCTTGGATTTGCGTTATTGTTTATTAATATTTTATTACTAACAAAAATATCATTTGTTTTTACACCGTTTATCGTATTTTTAAAAACAATTTTCTTCCCAGTACTATTGGCAGGCGTGCTATTCTATATTTTGCATCCATTCGTTTCACTTTTAGAAAAGAAAGGTGTTTCAAGAATCGTATCGATAGCCTCAATATACTTAATAGTAATCGGATTATTTGTGTTTTTAGTTGTAACTGTTATCCCTATTATTAAAGATCAAATTGATGCATTAATTGATAACTTACCGTACTTTGGCCATGAGATTGAACAAGCAGCGCGTAGATTCGGGGAAAGTAATTTACTTGGTAAAATTCAGGAGAATTTAAATATTAATGTTGCGAATATGGTAAAAGACTATACAGTTGATTTTACAAAGTCATTATCATCAGTAACTGGGAATGTAACTGGATTCTTGAGTACTGTTACAGAGGTTGTTTTAACATTTGTAATGGTTCCATTTATATTGTTCTATCTTTTAAAAGATGGCGAACAATTGCCGAATCACTTCTTAAAATTCATTTCAGAACAAAGACAACCAGCAGCAATGAGAATACTAGATGATATGCACTATGCGATTAGCTCGTATATTAGAGGGCAAATTATCGTGAGCTTGTTTATCGGTATTATGCTATTAATCGGTTACCTTATTATCGGTATTAAATATGCGGTACTACTTGCGATTTTAGCGATGATTGTAAATATCGTTCCGTACGTAGGACCAATTATTGCTATTACACCAGCGTTAATTATCGCATTTATTGACTCGCCAGCAATGGTGTTAAAAGTAATCATTGTTATGATGGTTGTACAATTAGCAGAAGGTAAATTTATTTCTCCTCAAGTAATGGGGAAAAAGCTAGATATTCACCCAATTACAATCATATTTATCATTTTAACTGCCGGAAACTTATTCGGGATTATGGGCATTATTTTAGCCATTCCAGGATACGCGATATTAAAAGTGTTAGTTACGCACGGTTATAGATTTGTTAAGTTGAATACGTGA	MEKINIRKRDKLRKFFREQNYLAVLLGFALLFINILLLTKISFVFTPFIVFLKTIFFPVLLAGVLFYILHPFVSLLEKKGVSRIVSIASIYLIVIGLFVFLVVTVIPIIKDQIDALIDNLPYFGHEIEQAARRFGESNLLGKIQENLNINVANMVKDYTVDFTKSLSSVTGNVTGFLSTVTEVVLTFVMVPFILFYLLKDGEQLPNHFLKFISEQRQPAAMRILDDMHYAISSYIRGQIIVSLFIGIMLLIGYLIIGIKYAVLLAILAMIVNIVPYVGPIIAITPALIIAFIDSPAMVLKVIIVMMVVQLAEGKFISPQVMGKKLDIHPITIIFIILTAGNLFGIMGIILAIPGYAILKVLVTHGYRFVKLNT				NA	NA	NA	NA	NA
AK009_01902	249			hypothetical protein	ATGGGATGGATTATCACATTAATAGTTGGTGCTATTATAGGTGCAATTGCTAGTTCTATAACGGGTAAAAATTTCCCAGGTGGTATGTTCGGAAATATTATCGCAGGTTTATTAGGTGCTTCGTTAGGTGGTAGATTATTTGGATCCTTTGGGCCATCATTTGGTGGGATTCATGTCGTGCCGGCATTATTAGGTGCAATCGTGTTAATTCTTATTGTATCATTTGTAGTGAAAGCTGCAAGGAAATAG	MGWIITLIVGAIIGAIASSITGKNFPGGMFGNIIAGLLGASLGGRLFGSFGPSFGGIHVVPALLGAIVLILIVSFVVKAARK				NA	NA	NA	NA	NA
AK009_01903	462			hypothetical protein	ATGATTCTTAAGTTAAATTCCACTTCTTTTGAAGTAGCAACATCCATTTTACAAGTTCAAATTCCAGCCTATAAAGTTGAAGGGGACTACTTAAATAGTACTGCCATACCCCGTTTATATGATACTGTAAACGATATTCAAAGTTGCGTTGAAACATTCTATGGATATTTTTCTGAAAATAAACTTGTCGGCTTTATTTCTTTTGTACAAGAAGAAAAACTAATTGATATCCACAGGTTAGTTGTATCGCCCGATTTTTTTCAAAAAGGAATTGCGACGAAACTCCTAATTTATATATTTAACATGTTCCCTTCTTCTATGACATACATTGTACAAACAGGTAAAGCAAATACCCCTGCTATCGCATTATATAAAAAACACGGCTTCCTTGAAGTAACATACACCGAACTACCTGATGGAATAGTACTTACACAACTGAAAAAAACAGAAAAAATAAAATAA	MILKLNSTSFEVATSILQVQIPAYKVEGDYLNSTAIPRLYDTVNDIQSCVETFYGYFSENKLVGFISFVQEEKLIDIHRLVVSPDFFQKGIATKLLIYIFNMFPSSMTYIVQTGKANTPAIALYKKHGFLEVTYTELPDGIVLTQLKKTEKIK				NA	NA	NA	NA	NA
AK009_01905	144			hypothetical protein	ATGTTACGTTTATCTGATCACGCAATAAAAATGATGGAGCAAAGACTTCGACTCGAACAACATCGCACATATCAAGCAAATAAAATTGTAGATAACTTACATCACAAATACTTCTTTCAACATATTTTTCAGCCAAAAAGATAA	MLRLSDHAIKMMEQRLRLEQHRTYQANKIVDNLHHKYFFQHIFQPKR				NA	NA	NA	NA	NA
AK009_01906	1752			hypothetical protein	GTGCGTCATCATAAAAATTGCAAAAAATTCGGAGTGGCACTGCCTCTTCCGCTTATAGGTGCAACTGGTCCAACAGGTAATAGTGGCCCTGTAGGTCCAACTGGAGGGCATGAAGGTCCTGTTGGTCCAACAGGGATGACTGGACCGACGGGAGCAACTGGTCCCCAAGGACCTCAAGGTATCAGGGGAATACAAGGTTCGCGAGGGACAACAGGAGCGCAGGGAATACAAGGAGCTGTTGGTGATACCGGAGAGCAAGGTATAACTGGTCCAACTGGCCTCCAAGGTGCTCAAGGATTAATCGGAAACCAAGGTCCAATTGGTGATATTGGGGTACAAGGATTAGAAGGAACACAGGGAGCTACGGGTCCTGCTGGTAGTCAAGGAATACAGGGCATACAAGGAATACAAGGGGAAGTAGGTGAGCGAGGACAAACAGGGGCACAAGGAATACAAGGAGAGAGAGGGGTAACTGGAGTTCCAGGGGTAACTGGTTCCCAAGGTCCTCAAGGTGTTCAAGGGATACAAGGAGAGCAAGGGGCTACTGGTATACAAGGAGAAGACGGCGCTCAAGGAATACAAGGAATTACTGGAGAACAAGGACACCAAGGTGATCAAGGGGCACAAGGTGTAGTAGGACCAACTGGTTCTACTGGAATACAAGGTCCTCAAGGTATAAGCGGAATAAAGGGAATAACCGGTGTAACAGGCCCTCAAGGTCCACAAGGAGTTCAAGGAATACAAGGAGTAAGTGGATCCACAGGTTTTCAAGGAGCAAAAGGAGTACGAGGGATAACAGGAGCAACTGGTCCCCAAGGAATTCAGGGGATACAAGGAGTGCAAGGTCCAATCGGCCCAACTGGTCCAACCGGCCCTCAAGGTCTACAAGGAATAACCGGCCAGGCGGGCCCAACCGGTCCAATAGGAGCAACCGGTCCGACTGGAGAAACGGGTCCCCAAGGTCCTCAAGGAATTCAAGGATCACAAGGAGAAATGGGTCCAACGGGAGCAACCGGCCCGACTGGAGAAACGGGTCCCCAAGGTCTTCAAGGAATCCAAGGTCCCCAAGGGATAACGGGTCCAACGGGAGCAACCGGCCCGACTGGAGAAACGGGTCCCCAAGGTCTTCAAGGAATCCAAGGTCTCCAAGGGATAACAGGTTCGACGGGAGCAACCGGCCAGACGGGAGTGACTGGTGCCACTGGCCCGACTGGAATACAAGGCATACAAGGAATAACTGGAGCAACAGGGGGAACGGGAGTAACAGGCCCAACCGGCGCCACTGGTCCAACCGGCTTAACTGGAGCAACAGGATCATCTGCTATATCGACAGGTGGTGGCTATTTCTTTTCTACATCAACAAGCACAATTGCAGCAAGTGCCAATATTCCAATTAACTCGGGATCCACTGTATATGGAACTGGTGTATCTTTAACTAGTGCTACAACTGTCACAGTATCGACGCCAGGAATATATTTAGTAAGCTACTATTTCCAAGGGGACGCGACTGGTGGGAATGAAGTAGTATCTGTAAGATTACTATTAAATAGAACACAAGTAACAGGGAGTTTTATACAAAATGTAACGACATCAACTGTAGTATTGGAACCATCTATTTCAAATACGCTTCTTGTAAATGTAGCTAGTGCAAATTCAACGTTTATATTACAAAATGGCCCGCTCGGTGTTGGGCATGTGACTACAATAGCAGGTACGATTACGGCAAGTTTAAATGTAGTGAGAATATTATAA	MRHHKNCKKFGVALPLPLIGATGPTGNSGPVGPTGGHEGPVGPTGMTGPTGATGPQGPQGIRGIQGSRGTTGAQGIQGAVGDTGEQGITGPTGLQGAQGLIGNQGPIGDIGVQGLEGTQGATGPAGSQGIQGIQGIQGEVGERGQTGAQGIQGERGVTGVPGVTGSQGPQGVQGIQGEQGATGIQGEDGAQGIQGITGEQGHQGDQGAQGVVGPTGSTGIQGPQGISGIKGITGVTGPQGPQGVQGIQGVSGSTGFQGAKGVRGITGATGPQGIQGIQGVQGPIGPTGPTGPQGLQGITGQAGPTGPIGATGPTGETGPQGPQGIQGSQGEMGPTGATGPTGETGPQGLQGIQGPQGITGPTGATGPTGETGPQGLQGIQGLQGITGSTGATGQTGVTGATGPTGIQGIQGITGATGGTGVTGPTGATGPTGLTGATGSSAISTGGGYFFSTSTSTIAASANIPINSGSTVYGTGVSLTSATTVTVSTPGIYLVSYYFQGDATGGNEVVSVRLLLNRTQVTGSFIQNVTTSTVVLEPSISNTLLVNVASANSTFILQNGPLGVGHVTTIAGTITASLNVVRIL				NA	NA	NA	NA	NA
AK009_01907	462			hypothetical protein	ATGGAAGAAGAAGATATTCAGAAAGGGTATTTTGATATTATATATTCCATTTATGCATTAGGTTGGACTTCAAATTTAGGAAAAACAGTAGAGTTTATATATTCCTATTTAAAGCCAGGAGAAAGTTTTATTTTTAGTTGGGAGCACCCAGTATATTCAAACTTACAATATGGTACAGAAGAAGTTGCTATAAAGTCTTCTTATCATGAGGAAACGTCCATTACGTTTGAAACATTTAAAGGAGAAAATGTACAAGCGATATTATATAAGAGAAAAATAAGTACATATATAAATGAGTTAAATAGAGCAGGCTTTATAATTGAGAGAATAGAAGAGCCTGAACCATCGAGCTCGTTTGATGGAGAACTAGCTGAGCCGTCTACGAAATATTATTCTTTATATAAAGCTAGGATGGTACCAACTACTTTTATTATTAAGGCGAGGAAACAAATTGTTTTATAA	MEEEDIQKGYFDIIYSIYALGWTSNLGKTVEFIYSYLKPGESFIFSWEHPVYSNLQYGTEEVAIKSSYHEETSITFETFKGENVQAILYKRKISTYINELNRAGFIIERIEEPEPSSSFDGELAEPSTKYYSLYKARMVPTTFIIKARKQIVL				NA	NA	NA	NA	NA
AK009_01908	288			hypothetical protein	ATGGATGGGGGGAATGATATGGAAGGCACACAAATGTTAGCTTTAAACAAAAAGTGTTGGGATACAGTTGCACCATATTTCTTTCAAGTGGATTGTTTACCGAAATATGGTCCGTATACGGCGTCTGAAGATGAGATTCATTTGTTCGATTCAATTAGAAATAAAAAAGTTCTTGATATTGGGTGTGGAAGTGGACATTCGTTGCAATATATGGCAGAGCATAGGGCAGAGGAAGTATGGGGTCTTGATCTTTCAAGTGAACAAATTAAAACAGCGAATAAAACGTAA	MDGGNDMEGTQMLALNKKCWDTVAPYFFQVDCLPKYGPYTASEDEIHLFDSIRNKKVLDIGCGSGHSLQYMAEHRAEEVWGLDLSSEQIKTANKT				NA	NA	NA	NA	NA
AK009_01909	543			hypothetical protein	TTGAATCAAAACGCTCCAAATGAACTAGAATATATTCGGGAATTTTTAAATACATGGAGAATACCAAACGATACGAGAGAGCCAATTGATTTGCTGCAAACAAAAGAAGATATAAAGCTCTTTATGAAAGAATATTTTGATGAAGAGTTTCCATTTCATACGATAGAGGAATTAAGAAATTTTCGAGAAGATATTCGGATGACAATTGAAGGCGAAGAATCATTGCAAAAATGGTTAGAGAAATACCCATTTCATGTACATATAAAGGAAGATATGAAAGGTATTACATATGAACCAGTATATGAAGAGAATGTGTATACAAAAGTGCTAAGCATTGTGTTAATGTCAATTCAAGAAAATGTGTGGGGAAGGTTAAAAGCATGTCCAGATTGTCGCTGGGTATTTTATGATCATTCGCGAAATGGAAGTAAAAGATGGTGCGGTATGTATGCTGGAGAAGAAGGAGGAAGAGCATGCGGGACGATTGCAAAAGTGAAAAACTACCGGGCGAAGAGAAAAGGGCGATCTGGTTATGATATGTAA	MNQNAPNELEYIREFLNTWRIPNDTREPIDLLQTKEDIKLFMKEYFDEEFPFHTIEELRNFREDIRMTIEGEESLQKWLEKYPFHVHIKEDMKGITYEPVYEENVYTKVLSIVLMSIQENVWGRLKACPDCRWVFYDHSRNGSKRWCGMYAGEEGGRACGTIAKVKNYRAKRKGRSGYDM				NA	NA	NA	NA	NA
AK009_01910	1197	mdtH		Multidrug resistance protein MdtH	ATGAAAAGTTTCTCAACACCGATACGTTTCATGCTTATTTCTTCATTTTTTATGTCTTTTGGGTATTTTGCAGTATACGCATTTTTAGCTATTTATCTATTAACCTTTCTTCATTTTTCTGCTGTCCAAGTAGGAACAGTGTTGACGGTTATGACAATTACATCACGAGTTATCCCATTATTCTCAGGGTTAATTGCTGACAAAATAGGCTATATCATTATGATGATAGCTGGTTTATTTTTGAGAGGAATCGGATTTATCGCTTTAGGAATATGCTCTGATTTCTATACAATTTCTATTTCTTCTGCACTTATTGGCTTCGGAACTGCATTTTACGAACCTGCCGCTCGCGCTATATTTGGCTCACAGCCAGCTCATTTGAGAAAAAATTTATTTACATATTTAAACCTTAGCTTTAATTGCGGTGCAATAATCGGACCAATTGCAGGAGGGTTCTTACTCTTACTCGATCCACTCTACGCTTTCTCTCTAACAGGATCTCTTATGCTGTTATTTGCTTTTATCTTTTACTTACTTAAAAATCACTTCCATGTCACTACTGAAAACACGTCTATTACATTAGGAATACAGGCCATCTTACAAAACAAGTCTTTCCTTCTGTTTTCCTTTATCATGATTTTCTTCTATATTATGTTTACTCAGCTTACTGTCGCACTTCCACTTCATATGAAAAACATTAGTAATAGCAATCAACTTGCTACACTCGTTATTACGATAAATGCGATAACAGGCGTCATATTTATGGTATTATTCCGAAAATTATTCCACAAATACAACACACTTTCGATTATTAAATACGGTGTTTTATTAATGAGTATTTCCTTTTTACTCATTCCTTTATTTCAACACCCATATTGGCTCTTTATTTGTGTAATTTTATTTACAATCGGTGAAACACTCGTATTACCTAACGCTGATATCGCTATTGCAAATTACAGTAATGAATCATATACAGCCACTTTCTTCGGATTTTATCAACTATCACTCGCATTTGGTTTTATCATCGGTAACTATACCGGGACATCGTTTACATCCAATTTAAACGGAATGTATACACCATGGCTTATTTTCGGCGGAATAGGAGTTATTGGTTTTATTTCACTCCATATTTTAAATATTAAAAAAGGGAGCTCTAAAGAGGATATATACCTATGTAATGAGACGAAACCTCTTTAA	MKSFSTPIRFMLISSFFMSFGYFAVYAFLAIYLLTFLHFSAVQVGTVLTVMTITSRVIPLFSGLIADKIGYIIMMIAGLFLRGIGFIALGICSDFYTISISSALIGFGTAFYEPAARAIFGSQPAHLRKNLFTYLNLSFNCGAIIGPIAGGFLLLLDPLYAFSLTGSLMLLFAFIFYLLKNHFHVTTENTSITLGIQAILQNKSFLLFSFIMIFFYIMFTQLTVALPLHMKNISNSNQLATLVITINAITGVIFMVLFRKLFHKYNTLSIIKYGVLLMSISFLLIPLFQHPYWLFICVILFTIGETLVLPNADIAIANYSNESYTATFFGFYQLSLAFGFIIGNYTGTSFTSNLNGMYTPWLIFGGIGVIGFISLHILNIKKGSSKEDIYLCNETKPL	PGPT0029190_326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029190-mdtH-K08162	NA	NA
AK009_01911	915	bepA_3		Beta-barrel assembly-enhancing protease	TTGAACATTAATGAGAAGGCAATTGAAATGTTTGAACAAAATAAATATGAGGAAGCAATGGAACTGTTTCAACAAGCAGTACATGAATCTAGAGACGTACAATCTCTCAATAATCTGGCTTGGATGTACTTTTATGAGGAAGAGAATGATGATAAAGCTCTTGAATTAATAAGAGAAGTTGTTAAGTTGAATCCTTCTTCATACTTTCCTTATAACATCTTAGGGGAAATTTACACGAAACAAGAAAAATGGGAAGAAGCGAAAGAAGTATTGCAAAAATCTATTTCGATGCAACCATCGGATGAAGCATTTCACAATGTAGCTGTAGCGCATTATAACCTTGGAGAGTTAGAAAAAGCTTCGGAATTTTTTTTGCGAGTTGCAGGGGATTCGGACTATATAATGTATAGCTATGTAAAATGCTTAATAGATTTAGGGCGAACGACAGAAGCGAAAGAGAAGTTAGATGCTTTTAACAGGAAATCTGATAATTTTTTAGGAGAAATTCATGTAGCAGATTTATATGTTGAGTTGAATTGCTATAACGAAGCAATTGAATGGTTCGAAAAGGGATACAAAGAAGTTTGGAAAAGTCCTAACTGGATTGGTAGGTTTGTATATGCTCTATATAAAGCTAATAATTTCTCCCGTATAAATGAAGTTATACAGGAATCTATCGAAGCGAAAACATCAGAAATAGAAGATGTTCAGAATGAAGAAGTAGAAGAAAACTGGACAGAAAAAGATAAGAAAGAGTTAATTGAGGAATATACAGAAGAGAATAATTGTTATAAAACAATGATAGAACGTATCAAATCTGGATATGTTCCAGGGTTAGAATTTGAAACTTATCATTTAGGGGGGTGCTATTTATTTGGTTGTAAAAGACATAATCATCTTGAATATGAAAAATAA	MNINEKAIEMFEQNKYEEAMELFQQAVHESRDVQSLNNLAWMYFYEEENDDKALELIREVVKLNPSSYFPYNILGEIYTKQEKWEEAKEVLQKSISMQPSDEAFHNVAVAHYNLGELEKASEFFLRVAGDSDYIMYSYVKCLIDLGRTTEAKEKLDAFNRKSDNFLGEIHVADLYVELNCYNEAIEWFEKGYKEVWKSPNWIGRFVYALYKANNFSRINEVIQESIEAKTSEIEDVQNEEVEENWTEKDKKELIEEYTEENNCYKTMIERIKSGYVPGLEFETYHLGGCYLFGCKRHNHLEYEK				NA	NA	NA	NA	NA
AK009_01912	381			hypothetical protein	ATGAAACAGAAATTAGCTGTTCTTCTATTCACCGGAATCATATTATCCGGATGTTCAGCTATTGCAGGAAATTCTTTAGAAACTGGAAACGGCAGTATGGAATTATTAACACCAACCATTACAACAAAAGATAATGAATTAGAAATTAAGACCGAGGGCATTGATGAAAATAAAGTGACCTTTATTTATGTTGCTAATAAAAAAGTATTGGAACAAAAAATTAATAATGGTGAATCCTACAAGCTTAACATTAAAGATATCGAACACGCTCATAGGACGGACTACAAGCCAAAAGTTCAACTTTTGCAAACAAAAGATGATGATAAAGATGGAGAAATGGTAACCTTTAAACAAGTTAGGTATACAGTTAAAAAAAATTAA	MKQKLAVLLFTGIILSGCSAIAGNSLETGNGSMELLTPTITTKDNELEIKTEGIDENKVTFIYVANKKVLEQKINNGESYKLNIKDIEHAHRTDYKPKVQLLQTKDDDKDGEMVTFKQVRYTVKKN				NA	NA	NA	NA	NA
AK009_01913	228			hypothetical protein	ATGAAAAGAAGATGGATTTATTGGTGGATTGGTAACATATTTTGGATTATAGCTTTCGGGATATTGACAGCTATCATTTTGCTAAGAGAGGTTGATGGGACCGGTGTTACTCAAACACCTGAGCTGAAATTAATAGCCTTTATCGTTTTATTAATTGCATTTATATTACCAATAATTATTCAAGTTGTATGGTTACTTGTTAATTTAAGAAAGAGTAGAAAAAAATAA	MKRRWIYWWIGNIFWIIAFGILTAIILLREVDGTGVTQTPELKLIAFIVLLIAFILPIIIQVVWLLVNLRKSRKK				NA	NA	NA	NA	NA
AK009_01914	549			hypothetical protein	ATGTTACAAGCGTTACTTATTTTTGTGCTTCAAATTATTTATGTTCCAATTTTAACAATCCGTACGATTTTGCTTGTAAAGAATCAAACAAGATCCGCTGCTGGTGTTGGATTGTTAGAAGGAGCTATTTACATTGTCAGTTTAGGTATTGTGTTTCAAGATTTATCAAATTGGATGAACATCGTTGCCTATGTCATTGGCTTTAGTACAGGACTTTTATTAGGCGGTTATATAGAGAATAAATTAGCAATTGGTTATATTACGTATCAAGTTAGTTTACTAGACCGTTGTAATGAATTAGTAGATGAACTACGTCACTCTGGATTTGGTGTTACGGTATTTGAAGGCGAAGGAATTAATTCTATACGTTATCGCTTAGATATCGTTGCAAAGCGCTCTAGAGAGAAAGAACTGTTAGAAATCATTAATAAAATTGCACCGAAAGCGTTTATGTCTTCTTATGAAATCCGTTCATTTAAAGGCGGATATTTAACGAAGGCGATGAAGAAGAGAGCGTTAATGAAGAAGAAAGATGAACATGCATCGTAA	MLQALLIFVLQIIYVPILTIRTILLVKNQTRSAAGVGLLEGAIYIVSLGIVFQDLSNWMNIVAYVIGFSTGLLLGGYIENKLAIGYITYQVSLLDRCNELVDELRHSGFGVTVFEGEGINSIRYRLDIVAKRSREKELLEIINKIAPKAFMSSYEIRSFKGGYLTKAMKKRALMKKKDEHAS				NA	NA	NA	NA	NA
AK009_01915	420			hypothetical protein	TTGATTCAAGAAGCCTTACGTGTATATCGATTACAATTGTATGTGATCTTTAGTGGTTTACTACTTATGTGGACGATTACTCCGTTTGGAAAACAAGTGACAGGGTTTGGTATTGGATTAGCAGTAAGCGCCTATTGTCTTTGGTTATTAGCTCGCAGGGTGGAGAAACTCGGAAAAAGTATCGTAATGAAGGAAAAGGCTCCTGGGTTAGGAGTTCTAAACCGATTTGCAGCTGCCATTTTAGGAGCAATCATCATGTATGAAATTGAGCATGAAATGGAAATGTGGGCATTTGGTACAGGCATTTTAGGTGGTCACTTTTTAATGATTGCAAATTTAGCTTATGCGAATATGCAGTTAGTGAAAGAGGAAGAGGAAGAGAAGCAAAGGGAACATGCTTCGAAAAACATAGAGCTATGA	MIQEALRVYRLQLYVIFSGLLLMWTITPFGKQVTGFGIGLAVSAYCLWLLARRVEKLGKSIVMKEKAPGLGVLNRFAAAILGAIIMYEIEHEMEMWAFGTGILGGHFLMIANLAYANMQLVKEEEEEKQREHASKNIEL	PGPT0030480_628	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK009_01916	1308			hypothetical protein	ATGGTTGCGATTTTAATCGCATTTACTGGATTTTTCGTAGCAGCAGAGTTTGCGATTGTAAAGATACGTTCAAGCCGTATCGATCAGCTTGTTGCGGAAGGAAAACGCGGTGCTTTAGCAGCGAAAAAGGTAACAACAAATTTAGATGAATATTTATCTGCTTGTCAATTAGGTATTACAGTTACAGCTATGGGATTAGGTTGGTTAGGTGAACCGACAATCGAAAAGTTATTACACCCGTTATTTGAGAAATGGAACTTAAATCCTTCTATTTCATCAGTATTAACATTTGGTCTTGCTTTTATGATTATGACGTATTTACACGTTGTAGTAGGGGAATTAGCTCCGAAAACGATGGCAATTCAAAAGGCTGAAAGGGTAACGTTATTATTGGCAGGTCCATTAATGATGTTCTATAAAGTAATGTATCCATTTATTTGGGTATTGAACGGTTCAGCTCGTGTGATAACTGGTTTATTCGGTTTAAAGCCAGCTTCAGAACATGAAGTAGCTCATACAGAAGAAGAATTACGTCTTATCCTTTCAGATAGCTATGAAAGCGGCGAAATTAATCAAGCTGAATACAAGTATGTAAATAACATTTTTGAATTTGATAATCGTATTGCGAAAGAGATTATGGTACCGCGAACAGAAATCATTGGTTTCTACCTGGAAGATTCAGTAGAAGAACACATGAAAGTAATCCAAAATGAGCGATACACACGTTATCCGATTTTTGGGGAAGATAAAGATGATATTATCGGTATGGTCAACGTAAAAGATTTCTTTATTCGATATATGACCGAGGATCAAAAAGATTTATCATTTATTCGCTCGTATATGCGTCCGATTATTGAAGTGATGGAAACGACTCCAATTCACGATTTATTACTTCAAATGCAGAAAAAGCGAATTCCGATGGCTGTTTTATATGATGAGTACGGAGGAACAGCCGGAATTGTAACGCTTGAAGATATCTTGGAGGAAATCGTCGGCGAAATTCGTGACGAATATGATGAAGATGAAGCACCACCAATTCAACATGTGAACGAGCAACATATCATTGTTGATGGAAAAGTGCTTATCTCAGAAGTGAAAGATTTATTTGGATTACACATCGAAGAAGATGATGTGGATACAATCGGTGGATGGATTATGATGCAAAATCATGAAATCGAAGAAGGACAACACGTTGAGGCGGAAGGTTATGAATTTAAAGTGTTAGAAAAAGACGCTTACCAAATTAAACGTGTTGAAATTCGTAAGATGGAACAAGAACAAGAAGAAGAGAAAGCAGCAACTGTGTAA	MVAILIAFTGFFVAAEFAIVKIRSSRIDQLVAEGKRGALAAKKVTTNLDEYLSACQLGITVTAMGLGWLGEPTIEKLLHPLFEKWNLNPSISSVLTFGLAFMIMTYLHVVVGELAPKTMAIQKAERVTLLLAGPLMMFYKVMYPFIWVLNGSARVITGLFGLKPASEHEVAHTEEELRLILSDSYESGEINQAEYKYVNNIFEFDNRIAKEIMVPRTEIIGFYLEDSVEEHMKVIQNERYTRYPIFGEDKDDIIGMVNVKDFFIRYMTEDQKDLSFIRSYMRPIIEVMETTPIHDLLLQMQKKRIPMAVLYDEYGGTAGIVTLEDILEEIVGEIRDEYDEDEAPPIQHVNEQHIIVDGKVLISEVKDLFGLHIEEDDVDTIGGWIMMQNHEIEEGQHVEAEGYEFKVLEKDAYQIKRVEIRKMEQEQEEEKAATV	PGPT0014013_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014013-yrkA-NA	NA	NA
AK009_01917	381			hypothetical protein	ATGGCTCACGTGTCGAAACGAACGATTGATTATTATACGAATCTAGGTATCTTAAAAGCGGAGCGATCTCAATCTAATTATCGCTATTACGACGAAACAGCATTTGAGACATTACAATTTATTGAGAAGTGCAAAGAAATGCATATGCCGCTTTGTGAGATTAAAGAGAAAATCGAGGAGAAGAAGAAGCTGCTCGGTATCAATGAACACGTTTCGAAACAAGTGAATGAAGTGACAGACCATATTCACCGATTAGAAGTGGAGCTTACTGAGTTAAAACCGCTTTTAGATGAATTGACTGATTCACAACGTGAAAAAATATCGAAATCTTTATCAGGTCAAACGACAGCTTTAATACAGACACTTGCTCTATTATTATAG	MAHVSKRTIDYYTNLGILKAERSQSNYRYYDETAFETLQFIEKCKEMHMPLCEIKEKIEEKKKLLGINEHVSKQVNEVTDHIHRLEVELTELKPLLDELTDSQREKISKSLSGQTTALIQTLALLL	PGPT0004165_119	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004165-cueR-K11923	NA	NA
AK009_01918	885	eamA_3	COG0697	putative amino-acid metabolite efflux pump	ATGAAACAAACAATTTTAGGAGCTATATATTTATCACTAACAGCAAGTATATGGGGTGGTATGTATGTTGTTAGCAAATACATACTCGATTTTATCCCACCACTGACACTCGTTTGGTTACGCTTTATTATCGCTTTTGTTGTTTTGTATTTCATTTTGAAAATAGCTGAGAAAAAGCAAAAGAAAAAAGCAACCATTCGCAAAAAAGATTGGCTATTATTCGCTTGGATTGGATTTATCGGCTATTTCATTTCAATCACATGCCAATTTATCGGAACAAAATTATCCGACGCTCATACAGGCTCGTTAGTTACATCAGCTACACCTGCATTTATGGTTATATTTGCAGCGCTCATTTTGAAAGAAAAACTAACTGCTCGTAGACTTTTATCTACTATAATAGCGACAATCGGTGTCATTATCGTAATCGGATGGGATATTGAAATCGGCTCCTATTTTATCGGAACAATCATTTTAGTTGGAGCCGCTATTACGTGGGCTTTACTATCTATTTATGTAAAAATCGCTTCAATCCAATTTTCATCCTTAGTTATTACAACGTACGCAATTTTCTTTTCACTCTTTTTTATTACACCTTTTATGATATGGGAGCTACAAGCGGCCTCTATCGGAACAGTAAATACGTACGTAATATTAGGCGTATTATACTTAGGAATCGTCTCAACAGCAGGTGCCTTTTTCCTTTGGAATAAAGGATTAGAATTACTGGATGCAAGCATCGGTTCCTTATTTTTCTTCTTCCAACCTATCGTTGGATCGTTACTTGGTTGGTTGCTCTTAAATGAAACATTAAATAGTAACTTTTTCATTGGTGGTATTCTCATTATATGTAGCGTTTTAATTACTACTTTTGAAAAGAAATAA	MKQTILGAIYLSLTASIWGGMYVVSKYILDFIPPLTLVWLRFIIAFVVLYFILKIAEKKQKKKATIRKKDWLLFAWIGFIGYFISITCQFIGTKLSDAHTGSLVTSATPAFMVIFAALILKEKLTARRLLSTIIATIGVIIVIGWDIEIGSYFIGTIILVGAAITWALLSIYVKIASIQFSSLVITTYAIFFSLFFITPFMIWELQAASIGTVNTYVILGVLYLGIVSTAGAFFLWNKGLELLDASIGSLFFFFQPIVGSLLGWLLLNETLNSNFFIGGILIICSVLITTFEKK				NA	NA	NA	NA	NA
AK009_01919	252			hypothetical protein	ATGGAAGAAGAGGACGATAATTGGGCTTCAGAATGGACATATAATATTGAGGGGCCGGGGTCTGTAGAATTAGCGGATATGTATACTGAAAATGGCTTTGACACAAGTGAAAAAGCAATCGGTATAACTTTATATTTAATTGCTAAAACGCTGTGTAGTTTTATAAGTGTACGTAGTGAAGTGCAAAGTAATATACCGATTTGTATTGGTTTTCACGACCAAGATCCAATTATACGAACAGGCAGAGACTAA	MEEEDDNWASEWTYNIEGPGSVELADMYTENGFDTSEKAIGITLYLIAKTLCSFISVRSEVQSNIPICIGFHDQDPIIRTGRD				NA	NA	NA	NA	NA
AK009_01920	345			hypothetical protein	GTGGATATATTTCAGTATTTAGAAGAGGTGCAAGAGGATGCCTTTTCGTTAGCAGTAGAGCAAATAGAAGCGAAGTATTATGATATTTGTTGCATGTTGGCGTCTACAGAATATGCAGAACGAATTAAAGCAATTGATTTAGAGTCATATAAGGAAAGTATTAGAGTAGGTTTGGATGCAGCTGTAGAAATGGCTACTAATGAAGAAGCAAAGGCGATTTATTTTGAGTATGATCTTGATAACGAGTGGAATAGTCAGTTTTATCCCGCATTAACGGGCAGTAAGACCCCCACCTCAAAATTCAGCGAAAGCAAAGAAGTTACGTGGGAAGTCAACTGCCCGTAA	MDIFQYLEEVQEDAFSLAVEQIEAKYYDICCMLASTEYAERIKAIDLESYKESIRVGLDAAVEMATNEEAKAIYFEYDLDNEWNSQFYPALTGSKTPTSKFSESKEVTWEVNCP				NA	NA	NA	NA	NA
AK009_01921	822			hypothetical protein	TTGACTAATCATAATGATCATTTAAAAGCAAACTGCGAAAAATGCTTCGGTCTATGTTGCGTTGCATTACCGTTCGCAGCATCGGTAGATTTTGCAGTGAATAAAGATGGTGGTAAACCATGTTCCAACTTACAATCAGATTTTAAATGTAGTATACATAAAAATCTTAGAGGAAAAGGTTATAAAGGTTGTACAGTATTTGAATGTTTCGGCGCTGGGCAGAAGATTTCTCAAGTTACATTTAACGGGGTTGATTGGCGGAAAGATGCTAAGCATGCGAGAAAAATGTATGATGCTTTTCCAGTTATGCATCAACTTCATGAAATGCTTTGGTATTTGAATGAAGCGATTCTTTTAAAGGCAACACAGCCAATTCATAAAGAGCTGAAGACCGCAATTGAGGAGACAGAGCGACTTTCGAATTTAAATCCAGATGAGTTAATGAAAATAAATGTTCCAGTGCATAGGGCAGAGGTAAACATTCTTCTTTTAGAAACGAGCGAATTAGTATGGAAGGAAATGAATACTGCGCGTAAGAAACGAATCATACACCGCGGTGCAGACCTTATGGGAGCAAATCTGAAAAAGAAAGATTTACAAGGTGCAAATTTAAGAGGAGCATATTTAATTGCGGCAAACTTAAATGGAGCAGACTTACGAGGGGCAGATCTCATCGGAGCAGATTTACGAGATGCAGATATTCGCGGGACTGATTTTACAAATAGTATTTTCCTGACGCAAGTTCAAGTTAATGCGGCTAGAGGGGACAAACATACGAAATTACCGAAATTATTGTCTCGTCCATCGCATTGGAGTGCGTAA	MTNHNDHLKANCEKCFGLCCVALPFAASVDFAVNKDGGKPCSNLQSDFKCSIHKNLRGKGYKGCTVFECFGAGQKISQVTFNGVDWRKDAKHARKMYDAFPVMHQLHEMLWYLNEAILLKATQPIHKELKTAIEETERLSNLNPDELMKINVPVHRAEVNILLLETSELVWKEMNTARKKRIIHRGADLMGANLKKKDLQGANLRGAYLIAANLNGADLRGADLIGADLRDADIRGTDFTNSIFLTQVQVNAARGDKHTKLPKLLSRPSHWSA				NA	NA	NA	NA	NA
AK009_01922	177			hypothetical protein	ATGGCACTACAAATGAAAACAAACTGTCAAATTTGCGATCAATCGCTCGAACAAGATTCTGAAGCATACATTTGTGTATATGAATGTACATTTTGCGCACCATGTACAGAAGAAAGACACAACGTTTGTCCAAACTGCGGCGGCGAATTAGTACGTAGACCGAAAAAGAAACAATAA	MALQMKTNCQICDQSLEQDSEAYICVYECTFCAPCTEERHNVCPNCGGELVRRPKKKQ	PGPT0019420_539	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019420-putative_alginate_lyase-K09984	NA	NA
AK009_01923	1062	pgl	COG2706	6-phosphogluconolactonase	ATGAAGGATAACAAAGAGTTTATTGGATATGTTGGAACTTACACAAAAGAAAATAGTGAAGGAATATATAAGATTACTTTAGACACAGAAGCAAAAAAAATTAGTAATGTAACACTTGCCGCTAAGCTGGATAACCCTACATATGTAACGATTAACCGAAATAATGAGTATCTCTATTCCGTTGTTAAGGAAGGAGAATCTGGTGGTGTAGCTGCCTATTCAATTGATAGTAAAACTGGAGAGTTAAAGGCAGAAAACAGACAAGTAGTAGAAGGGGCTTCTCCTTGTCATGTGAGCGTTGATAGTGGGAATCATACGGTAGTTACAGCAAATTACCATAAAGGAACGATTGAGTCTTTTGAAATAAATGAAGAAAATGGAACTGTAAATCCTGCTTCATCTATTATGGCGCATGAAGGTTCAGGTCCAAATAAAGAAAGACAAGAAAAACCACATGCACATTACGCGGGATATACTCCTGATGAAAAATATGTGATAGGTGTTGATTTAGGAATTGATAAGTTAATTACGTATGAAATAAAAGATAGTACATTAACAGAAGTGAATAGTTTATCTGTAAATCCAGGGAGTGGTCCAAGACACATTACTTTTCATCCAAATGGAAAATACGCTTATGTAATGACGGAGCTTAGTTCAGAGGTTATTGCGCTAACATATAACTCGGAAGAAGGATCCTTTACAGAAGTACAGTATATTTCTACTCTTCCAGAACACTTTGATGAAAATAGTCAAGGAAGTGCTATCCATATTTCTTCTGACGGCCGTTTTGTATATGCAGGTAATCGTGGTCATAATAGTATCGCTATTTATAGCGTAGATCAAAATTCAGGTCAGCTTACATTTGTTGAACATACATCTACAGAAGGAAATTGGCCGAGGGACTTTGTATTAGATCCCACTGAAAAGTTTCTTGTTGCTACAAATGAAAAGTCACATAATCTTGTGCTATTTTCAAGAGATGAATCTAGAGGAAAGTTAACACTTTTACAATCTGATGTTGCTGTGCCAGAGCCTGTTTGTGTGAAGTTTTTAAATGTTTAA	MKDNKEFIGYVGTYTKENSEGIYKITLDTEAKKISNVTLAAKLDNPTYVTINRNNEYLYSVVKEGESGGVAAYSIDSKTGELKAENRQVVEGASPCHVSVDSGNHTVVTANYHKGTIESFEINEENGTVNPASSIMAHEGSGPNKERQEKPHAHYAGYTPDEKYVIGVDLGIDKLITYEIKDSTLTEVNSLSVNPGSGPRHITFHPNGKYAYVMTELSSEVIALTYNSEEGSFTEVQYISTLPEHFDENSQGSAIHISSDGRFVYAGNRGHNSIAIYSVDQNSGQLTFVEHTSTEGNWPRDFVLDPTEKFLVATNEKSHNLVLFSRDESRGKLTLLQSDVAVPEPVCVKFLNV	PGPT0014975_1398	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
AK009_01924	1566	xylB_2	COG1070	Xylulose kinase	ATGGGATATTCTGAAAGGGGTTACATAGTGAGATCGAAATATATGATCGGTGTAGATATTGGGACAACTAGTACAAAATCGGTTTTGTTTTCAATTGATGGATCTGTTATTGCAAGTCATGGAATTGAATATCCTTTATATTCTCCTACGCCTGAAATAGCAGAACAAGATCCAGAAGAAATCTTTCAAGCGGTGATACATACGATTAAAGAAGTTGTGCAATCAAGTAATATACAAGCGGTTGATATTCTCTGTGTTTCTTTCAGTTCGGCAATGCATAGCGTTATCGCTGTAGACGAAGATGGAAATCCGTTAACGAAATGTATCACGTGGGCAGATAATAGAAGTGCAAGCTGGGCGGAGAAAATAAAGAATGATATGAATGGTCATGAAATTTATTTACGTACTGGGACACCTATTCATCCGATGTCACCACTTTCGAAATTAGTTTGGTTACAGAATGAGCGGGTAGAATTGTTCGCAAGAAGTTATAAATTCATTTCTATTAAAGAATATGTTTTCTACAAGTTATATAAAGAATATGTAATTGATTATTCTATAGCATCAGCGACAGGGATGTTTAATTTGAAATCTTTAAAATGGGATGAAGAGGCTTTACATGTTGCGGGAATTACAGATGACAAGCTTTCTAAACTTGTTCCAACAACGCACAGTTTAACAGGATTAGATGAAGAGCTTGCCAAAGAGATGAATGTACTTGTTTCTACGCCTTTTGTAGTAGGAGCGAGTGATGGAGTACTATCTAATTTAGGTGTAAATGCAATAGACCCTGGCGTTGTGGCTGTTACAATTGGTACAAGCGGTGCGATACGTGCTGTAACAAATCGTCCTGTAACAGATCCAAAAGGTAGAATTTTTTGTTATGCGTTAACTGAAGACCATTGGGTAATCGGTGGTCCAGTTAATAACGGTGGTATGATTTTCAGATGGGCTCGTGACCAATTGGGCACTTCAGAGATTGAACTTGCGAAGCGTTTAGGAAAAGATCCATATGAAGTACTTACTGAAATAGCAGCAAATGTGAATCCTGGATCTGACGGTTTATTGTTTCATCCGTATTTAGCAGGGGAAAGAGCTCCTTTATGGAATGCAAATGCACGGGGATCTTTCTTTGGACTCGGATTGCATCATAAGAAAGAACATCTTATCCGTGCTGTTTTAGAAGGAGTAATTTATAATTTATATACCGTTCTTCTCGCTTTAAAAGAGCTAATTGGCGAACCAAAAAAAATTCAAGCGACAGGCGGTTTTGCAAGATCGGAACTTTGGAGACAGATGATGGCAGATATTTTCCATCAAGACGTATATGTTCCTGAAAGTTTCGAAAGCTCTTGCTTAGGTGCTGCAATCCTCGGTTTATATAGTTTAGGTGAAATAGATACATTATGCGTAGTTTCTGAAATGGTAGGGGCAGATTTTCATCATGGGCCAAACATGGAAAGTGTGGAAAAATATAAAGATTTAACACCAATCTATATTCGTCTGTCTCGTCAATTGGAAGAAGAATATGAAAGTATAGCAGCGTACCAAAAAAAGTGGGTTTAA	MGYSERGYIVRSKYMIGVDIGTTSTKSVLFSIDGSVIASHGIEYPLYSPTPEIAEQDPEEIFQAVIHTIKEVVQSSNIQAVDILCVSFSSAMHSVIAVDEDGNPLTKCITWADNRSASWAEKIKNDMNGHEIYLRTGTPIHPMSPLSKLVWLQNERVELFARSYKFISIKEYVFYKLYKEYVIDYSIASATGMFNLKSLKWDEEALHVAGITDDKLSKLVPTTHSLTGLDEELAKEMNVLVSTPFVVGASDGVLSNLGVNAIDPGVVAVTIGTSGAIRAVTNRPVTDPKGRIFCYALTEDHWVIGGPVNNGGMIFRWARDQLGTSEIELAKRLGKDPYEVLTEIAANVNPGSDGLLFHPYLAGERAPLWNANARGSFFGLGLHHKKEHLIRAVLEGVIYNLYTVLLALKELIGEPKKIQATGGFARSELWRQMMADIFHQDVYVPESFESSCLGAAILGLYSLGEIDTLCVVSEMVGADFHHGPNMESVEKYKDLTPIYIRLSRQLEEEYESIAAYQKKWV				NA	NA	NA	NA	NA
AK009_01925	669	tal_1	COG0176	Transaldolase	ATGAAATTTTTTATTGATACTGCAAATCTTGAGGATATAAAAAAAGCATATAAACTTGGAGTTTTAGCTGGTGTTACAACGAATCCTTCTTTAGTAGCAAAAGAGGGCATTAAATTTGAAGACCGTATTGCAGAAATTTGTCAGGCAGTTCCTAAAGTTGAATCTGTTTCGGCAGAAGTAACGCCAGATGCTGTTACAGCTGAAGAGATGATCGCCCAAGCAGAAGAACTGATTAAAATTAACGGTGGCGATGAAAAAGTTACAATTAAACTTCCGATGACGTTAGCTGGATTAGAAGCTTGTCGCTACCTTACTGAAAAAGGTGTGAAAACGAATGTTACACTTATTTTCACGGTGAACCAAGCACTTTTAGCTGCTCGAGCAGGTGCAACGTACGTTTCTCCATTTTTAGGACGCTTAGATGATATTTCTGAAGATGGCGTATTATTAGTTGCTAAAATTGCTGAATTATTCGATGTTCATCAACTAGATACACAAATTATTGCGGCTTCTGTTAGACATCCAGATCATGTAACTCGTGTAGCGATGGCAGGTGCTCACATTGCAACAATTCCTTATAAAGTAATTGAACAACTTGCTATGCACCCATTAACAGACCAAGGTATTGAGAAATTTGCTGCTGATTGGGCGAAAGCGCCTAAATTATAA	MKFFIDTANLEDIKKAYKLGVLAGVTTNPSLVAKEGIKFEDRIAEICQAVPKVESVSAEVTPDAVTAEEMIAQAEELIKINGGDEKVTIKLPMTLAGLEACRYLTEKGVKTNVTLIFTVNQALLAARAGATYVSPFLGRLDDISEDGVLLVAKIAELFDVHQLDTQIIAASVRHPDHVTRVAMAGAHIATIPYKVIEQLAMHPLTDQGIEKFAADWAKAPKL	PGPT0017375_4032	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
AK009_01926	894		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	ATGCAAGTAGGATTAATTGGGTTAGGTAAAATGGGATTAAATTTAGGGAAAAATTTAATGGATCATAAACATGAAGTAGTAGCATTTGATTTAAATACGAGCGCAGTAGAAGAAATGAAAGAGTACGGGGCAACGGGTACATCTAGTTTAAGTGAACTTGTTCAGTCATTACAATCACCAAGAATTCTTTGGGTAATGGTACCACACGCTGTTGTTGATTCTGTTATTGATGAGGTTACACCACTTTTATCAAAAGGAGATATTTTAATTGATGCTGGTAATTCACATTATAAAGAGTCTATCCGCCGATATGAGCAATTAAAGAAAGATGGCATTCACTTTATGGATGCAGGAACTTCTGGCGGAATGGAAGGCGCTCGTAATGGTGCTTGTTACATGATCGGAGGAGATCAAGAAGCTTGGGACATCGTTGAACCTATCTTCCGCGATACTGCTGTAGAAAATGGATTCTTATATGCTGGAAAAGCTGGTAGTGGTCACTTCTTAAAAATGGTTCATAACGGAATTGAATACGGTATGATGGCTGCTATTGGTGAAGGATTTGAGATTCTAGAGAAAAGTGAATTTGACTACGATTATGAAAAAGTATCAAGAGTATGGAACAACGGTTCAGTCATTCGTTCTTGGTTAATGGAATTAACAGAAAATGCATTTTCTAAAGATGCAAAATTGGATGAGATTAAGGGTGTTATGCATTCTTCTGGTGAAGGAAAATGGACAGTAGAAACAGCATTAGACCTTCAAACAGCAACTCCTGTTATCGCAATGTCTCTATTAATGCGCTACCGCTCATTAGACAATGATACATTTACAGGAAAAGTTGTAGCAGCTCTGCGCAATGAATTTGGCGGACATGCAGTAGAAAAGAAATAA	MQVGLIGLGKMGLNLGKNLMDHKHEVVAFDLNTSAVEEMKEYGATGTSSLSELVQSLQSPRILWVMVPHAVVDSVIDEVTPLLSKGDILIDAGNSHYKESIRRYEQLKKDGIHFMDAGTSGGMEGARNGACYMIGGDQEAWDIVEPIFRDTAVENGFLYAGKAGSGHFLKMVHNGIEYGMMAAIGEGFEILEKSEFDYDYEKVSRVWNNGSVIRSWLMELTENAFSKDAKLDEIKGVMHSSGEGKWTVETALDLQTATPVIAMSLLMRYRSLDNDTFTGKVVAALRNEFGGHAVEKK	PGPT0017385_4675	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
AK009_01927	1995	tkt_1		Transketolase	ATGGCACAAAACATAAATCAATTAGCAGTGAATACACTTCGTACGTTATCGATTGATGCTATTAATGCGGCAAACTCAGGTCATCCAGGTCTTCCGATGGGAGCAGCACCAATGGCTTATGCATTATGGGCGAATCATTTAAATTACAATCCTAATCACCCAGAATGGTTTAACCGTGATCGTTTCGTTTTATCGGCAGGACATGGATCTAGTCTGTTATATAGCCTACTTCATTTAGCTGGATATGACGTTTCAATTGATGACTTGAAAAACTTCAGAAAGTTAAATAGTAAAACACCAGGACATCCTGAGTTTGGTCATACTCCTGGAGTTGAAGCGACTACAGGCCCGTTAGGACAAGGGATTGCTAATGCTGTCGGAATGGCAATGGCAGAAGCTCATTTAGCAGCGAAGTTTAATAAGGATGGTCACTCTATTATAGATCACAATACGTATGCTTTAGTCGGAGATGGTGACTTAATGGAGGGTGTCGCTTATGAAGCGATGTCAATGGCAGGACATATGAAACTTGGCAAGTTAATTGTACTGTATGATTCAAATGAAATTTCACTTGATGGTGAATTAGGCATTGCTTTCTCTGAAGATATTCAGAAAAGGGCAGAATCTGTACATTGGCAATATGTAAGAGTTGAAGATGGAACCGATGTCGATGCTATTACAAAAGCCATTACATTAGCGAAAGAAAATACGGATCAACCTACTCTTATAGAAATTAGAACCATTATAGGTTATGGAAGTCCAAAAGTTGCTGGAACGAATAAAGCACATGGTAATCCGCTTGGAGTAGAAGAAGCGACAGCGACAAAACAAGTGTATGGTTGGCACTATGAGGAAGACTTCTTTGTGCCTGAAGAAGTAACAGCTCATTTTAATGAACTGAAACAAAAAGGTATTGAAAAAGAGAACGAATGGAATGAGCAATTTAACGTATACAGAGAGTCAAACCCTGCACTAGCAGATGAATTAGAAAAAGCGATTACAGGTGAGGTTTTAATTGAAGCGAAAGACATTCTATCTTTTGATACTGAAAAAACAATTTCCACTCGTGTTGCAAGTGGGGAAGCTATTAATCATTATGTGAAATCGATTCCTTCTATTTTCGGTGGAAGTGCGGATCTTTCTCATTCTACGATGACAGATATAAAAGGTGAAGCAGTATATGCAGTAGAATCATATGCTGGACGAAATATATACTTCGGTGTACGTGAACATGCAATGGGCGCGGCAGCGAATGGACTGGCTCTCCATGGAGGAGTAAAACCTTTCGTAAGTACATTCTTTGTATTTAATGATTACCTTCGTCCATCGATTCGACTGGCTGCACTGCAAAAGTTACCTGTTACTTACGTATTTACACATGATTCGATTGCTGTAGGAGAAGATGGTCCAACGCATGAACCAATTGAACAATTGGCAGCGCTTCGAGCAATTCCTGGTCTAACAGTTATCCGTCCGTCAGATGCAAATGAAACAGCAAGTGCTTGGGCGTATGCTTTACAGCAAACGGATGGTCCAGTCGTTTTAGTACTGAGCCGTCAAAATTTACCGGTGTTTAATGAAACGAAAGCGAACATAGAGAATCTCTCTAAAGGAGCTTACGTATTAACACAAACAAATGAAAATCCGGATGTAATTTTAATTGCGACAGGTTCTGAAGTATCCTTAGCTGCTAGTGCGAAAGCAAAATTAGAAGAAGAACAAGTTTCTGTTCGCATCGTTGCAATGCCGAGCTGGGAGTTATTCGATCGCCAATCGAACGAATATAAAGAATCCGTTCTTCCGTCTTCTGTAACGAAACGAGTATCTCTTGAGATGGGTGTATCTCTAGGTTGGGAACGTTATGTAGGACAAGAAGGAAAAGTACTATCAATTGAAACATTTGGAGCTTCAGGAACTGGAGCTGAAGTCATGAATCTATTTGGATTTACGACAGAAAATGTTGTTCAAATTACAAAAAATGTGTTGAATTATTAA	MAQNINQLAVNTLRTLSIDAINAANSGHPGLPMGAAPMAYALWANHLNYNPNHPEWFNRDRFVLSAGHGSSLLYSLLHLAGYDVSIDDLKNFRKLNSKTPGHPEFGHTPGVEATTGPLGQGIANAVGMAMAEAHLAAKFNKDGHSIIDHNTYALVGDGDLMEGVAYEAMSMAGHMKLGKLIVLYDSNEISLDGELGIAFSEDIQKRAESVHWQYVRVEDGTDVDAITKAITLAKENTDQPTLIEIRTIIGYGSPKVAGTNKAHGNPLGVEEATATKQVYGWHYEEDFFVPEEVTAHFNELKQKGIEKENEWNEQFNVYRESNPALADELEKAITGEVLIEAKDILSFDTEKTISTRVASGEAINHYVKSIPSIFGGSADLSHSTMTDIKGEAVYAVESYAGRNIYFGVREHAMGAAANGLALHGGVKPFVSTFFVFNDYLRPSIRLAALQKLPVTYVFTHDSIAVGEDGPTHEPIEQLAALRAIPGLTVIRPSDANETASAWAYALQQTDGPVVLVLSRQNLPVFNETKANIENLSKGAYVLTQTNENPDVILIATGSEVSLAASAKAKLEEEQVSVRIVAMPSWELFDRQSNEYKESVLPSSVTKRVSLEMGVSLGWERYVGQEGKVLSIETFGASGTGAEVMNLFGFTTENVVQITKNVLNY	PGPT0011200_4002	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
AK009_01928	1485	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	TTGGAATCAATGACCTTTGTTTTATTTGGAGCGACAGGGGACTTAGCAAAACGCAAAATTTACCCCGCGCTATATAACTTATATAGAGATCAAAAGCTTCCAAAGCAAATATCTGTTATCGGGCTTGGAAGACGTGAAGTGTCTCATATAGATTTTCAAAAAAGAATAAAAGAATCAATAGAGACGTTTTCTCGTCAGAGGGAAGAAGGTACTCCGGAACTCGAAGGTTTTTTAGATAATTTTCGCTATTGTCCATTAGATGTGAGTAAACCGGAAGACTATGAGAGGTTATTACAAGTCGTTCGTGAAAGGGAAGAGGAACTACATATAAAAGGTAATAGAATGTTCTATCTTTCAGTTGCTCCTGAATTTTTCGAGACCATTGCTTTAAATATTAAGGAAAGCGGACTTGATAAAACAGATGGATGGAAACGCCTGATGATTGAGAAACCGTTTGGGCACGACCTTACATCTGCTCGTGAGCTTAATGATAAGCTTAGTCGCACGTTTGAAGAAGACGAGATATACCGTATTGATCACTATTTAGGTAAACCGATGATTCAAAACCTTGAAGCACTAGAATTTGCAAATCCTGTTCTCCAATCGATTTGGAACAAAGAACATATAGCAAATGTACAAATTACAGCTAGTGAAACAGTTGGGGTTGAAGAAAGAGCCGGATATTATGATCATGCAGGAGCCATTCGAGATATGGTTCAAAATCATATGTTACAAATATTAATGATGACTGCTATGAATCTGCCGGAAAAGGTTAATGCGTGTGAAATTCGAGAGGAAAAACGAAAAGTAATGGAGACGCTTCGTAAAGTGAAAAAAGAAGACGTTCAAAGCCATATCATTCGCGGTCAATACTCTTCAGGAGAGATAAAAGGCGGGCAAGTTGTAGCGTATAAAGAGGAGCCAGGAGTAAATCCTTCTTCTAACATAGACACATTTGTTGCTGCTCGTTTGTGGATCGATAATCCATTTTGGACTGGCGTTCCCTTCTATATACGAACAGGAAAACGAATGAAAGAAAAGTCTACTCGTATTGTAATTGAATTTAAAAATACGTTAAAACAGCAATATCAAGATAATAATCCAAATGCAGCACCTAACTTATTAATAATTGAAATTAGCCCAGGTGAGAATGTTTCATTACAGTTAAATAGTAAAAATCCATTGAAAAATGGAGAGATTGAACCGATGCGTATTAACTTTACTTGCGAGCAAGTGGATGTGGGAGTACCTGAAGCGTATGAAAGACTCATTCATGATGCGGTGAGTGGAGACGCTACATTCTTTGCACATTGGAGAGAAGTTGAATTGTCATGGGAATGGGTACAACCAATTCTTGAAGCGTTCGAGGAAAACTTATTACCGCTTCATGAATATGAGTCTGGTTCATATGGTCCAGAAGCGTCTAATGAACTGTTGCAAGAAAGTGGATTTAAATGGTGGTTAGATCAAGAGACGGAAAAATAA	MESMTFVLFGATGDLAKRKIYPALYNLYRDQKLPKQISVIGLGRREVSHIDFQKRIKESIETFSRQREEGTPELEGFLDNFRYCPLDVSKPEDYERLLQVVREREEELHIKGNRMFYLSVAPEFFETIALNIKESGLDKTDGWKRLMIEKPFGHDLTSARELNDKLSRTFEEDEIYRIDHYLGKPMIQNLEALEFANPVLQSIWNKEHIANVQITASETVGVEERAGYYDHAGAIRDMVQNHMLQILMMTAMNLPEKVNACEIREEKRKVMETLRKVKKEDVQSHIIRGQYSSGEIKGGQVVAYKEEPGVNPSSNIDTFVAARLWIDNPFWTGVPFYIRTGKRMKEKSTRIVIEFKNTLKQQYQDNNPNAAPNLLIIEISPGENVSLQLNSKNPLKNGEIEPMRINFTCEQVDVGVPEAYERLIHDAVSGDATFFAHWREVELSWEWVQPILEAFEENLLPLHEYESGSYGPEASNELLQESGFKWWLDQETEK	PGPT0017380_3111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
AK009_01929	477			hypothetical protein	ATGAGTACTTCAAATTTGAATGAAATAAGTAAACGAATTTTAATAGAGGAGGAAACACTTCAATTTTCCTCTTTTACAAATGAAGATGCACTGCAACTAGGTTTATTTATCGTTGAAACAGCGAAGAAAGAGGGGAAATTGATTGCTGTTGATATAACGAAAAACGGTGTGCAATTGTTTCATTTCAAAATGACAGGGACAAATGAGGAAAATACGAAATGGATTGAGCGTAAAAAACGAGTCGTTTCTCTGCATGATCATAGCTCGTATTATATGCAGATACAAAGTGAAATAACTGGAATCTCATATAATGAAAAATATCTTTTAGATACTTCGGAATATGCTGCGTTTGGTGGCTGCTTTCCTATCAGAATAAAAGACGTAGGGGTTATTGGAATGATAACAGTTTCGGGATTACCACCAGAAGAAGATCACGAATTGGTTATAAGAGCAGTTAAGAATCATCTGAAGCAATAA	MSTSNLNEISKRILIEEETLQFSSFTNEDALQLGLFIVETAKKEGKLIAVDITKNGVQLFHFKMTGTNEENTKWIERKKRVVSLHDHSSYYMQIQSEITGISYNEKYLLDTSEYAAFGGCFPIRIKDVGVIGMITVSGLPPEEDHELVIRAVKNHLKQ				NA	NA	NA	NA	NA
AK009_01930	372			hypothetical protein	GTGGAAATAATCGCAGCTATTTTAGTCGGGATCGTAGCATTAGAACATTTGTTTATCATGATCCTTGAAATGTTTTTTATTGATTCAAAAGTAGCGAAACGTGCTTTCAAATTACCGAAGCATTTAGAAGGAGATCGAAACGTAGCCATTATGTTTGCAAACCAAGGTTTATATAATGGATTTTTAGCGGCTGGTCTCATTTGGGGACTTGTACTTGGGCTCAATCCAATTGGTTATATGGTCCAATTATTTTTCGTGATTTGTGTGGTGATAGCAGCTATTTTCGGAGGTTTCACATCTAATAAATCAATTATTGTGAAACAAGGACTTCCAGCTGTTTTAGCACTAGTTGCTCTTTTATGTATGATATAG	MEIIAAILVGIVALEHLFIMILEMFFIDSKVAKRAFKLPKHLEGDRNVAIMFANQGLYNGFLAAGLIWGLVLGLNPIGYMVQLFFVICVVIAAIFGGFTSNKSIIVKQGLPAVLALVALLCMI	PGPT0024160_4646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_01931	99			hypothetical protein	ATGAAGGAAATGTTCGTAAATATCAGTGGAGAAGAACGCAAAATACTTATTCATGTTCTATTACAGATACAAAAAAATGTAGAGAATATTAAAGAATAG	MKEMFVNISGEERKILIHVLLQIQKNVENIKE				NA	NA	NA	NA	NA
AK009_01932	1320	sdaC	COG0814	Serine transporter	ATGAACGGGAATACTGCAAAGAAAATAGAAGTTCAAGCTGAAAATACCGCACGAAAAAATGAGCAATATGCAGATCCGAAAAAGTGGCATAAGCAGGATACTACATGGGCACTCAGTCTATTTGGAACTGCAATTGGAGCAGGGGTGCTCTTTTTACCGATTAATGCAGGTTCAGGTGGTTTATTATCTTTACTACTAATTACATTACTTGCATATCCAGTTATGTACTACTCACATAGGGCGCTTGCTAAAATGATATACGCTTCTAATTCTGCTGATGAGGGGATCACAGGTACAATTAGAGAGTATTTCGGAAATAAAGCGAGTATCATTTTTAACATCGTATATTTCAGTTCAATTTATACAATCGTACTAATGTATTCGGTTGCGCTTACAAATACTGCAAGTAGTTTTATCGTGCATCAATTGCACATGCCAGAACCTCCAAGGGCTATTTTATCACTTGTATTAGTTCTTGGTCTTATCGCTATACTAAATTTTGGTCAAGATATTACTGTAAAGGTAATGAGTATGTTAGTGTATCCTTTCATAGTTTCTCTACTTTTTATCGCAATATCTTTAATTCCACAGTGGAATACGTCAATGCTTAGTTTTTCAGCTGTTTCAACTGCTTCAACAGGAACAGGCTATTTTGGGACGATATTGATGATTCTACCAATCATCGTATTCTCATTTAATCATTCACCTATGATTTCATCATTTGTTGTGAAACAGAGAGCTACGTATGGAATCGAAGCCACTGATGCTAAATGTGCGCAAATACAAAAGGTTTGTTATATCATGACATTCGCTGTTGTTATGTTCTTCGTTTGGAGTAGCGCATTGAGCTTGACTCCAGATGATATAAAAATGGCAAAAGAACAAAACTTATCAATTCTTTCATATCTTGCTAATGAGCTTAATTCGCCTGTAATCACGATTGCAGCTCCAATTATTGCTTTTGTGGCTATTACAAAGTCTTTCCTTGGCCATTATATAGGAGCATTTGAAGTAATGCGTGACATGATTATTAAGTTCGGTAAATCACGTGGAAAAGATATTGAAGAAAAAACAATTAAGACAGTAATCCTTACTTTTGTTGTATTATCATGCTGGTTTGTTGCTTATACAAATCCAAGTATTCTTGGACTTATTGATTCTCTAAGCGGTCCATTAGTTGCTGCTATCTTATGTCTATTACCGATGTATGCGATTCAAAAAGTGCCAGTACTAGCTAAATACAAAGGGAAAATGAGCAACGTATTTGTTATTATTGTAGGTGTACTTACTGTCTTAGCAAGTATTAAGTCATTATTCTAA	MNGNTAKKIEVQAENTARKNEQYADPKKWHKQDTTWALSLFGTAIGAGVLFLPINAGSGGLLSLLLITLLAYPVMYYSHRALAKMIYASNSADEGITGTIREYFGNKASIIFNIVYFSSIYTIVLMYSVALTNTASSFIVHQLHMPEPPRAILSLVLVLGLIAILNFGQDITVKVMSMLVYPFIVSLLFIAISLIPQWNTSMLSFSAVSTASTGTGYFGTILMILPIIVFSFNHSPMISSFVVKQRATYGIEATDAKCAQIQKVCYIMTFAVVMFFVWSSALSLTPDDIKMAKEQNLSILSYLANELNSPVITIAAPIIAFVAITKSFLGHYIGAFEVMRDMIIKFGKSRGKDIEEKTIKTVILTFVVLSCWFVAYTNPSILGLIDSLSGPLVAAILCLLPMYAIQKVPVLAKYKGKMSNVFVIIVGVLTVLASIKSLF	PGPT0011650_111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
AK009_01933	585			hypothetical protein	ATGAAAATAAGATTAACAATGGTTAGCATCATATGTCTGTTTATTTTTTTATTACCCTGCATTTCTGCTCAAGCAATTGTAAAAAAGGAAAATGATATAAACAGAAATTTTGGCATAGATTTAACTGGTTATAAACTTTATTCGTTTGGTGAATTTAACCAATTAGATTATAAGATAACACCACTTACTCAGTTGTTTTTAGGAATAGTGCAAACAGAAGGTGAGTGGATTAATGAACCACGATTATATATTAAGGGAAATAAAGGTTATTTTCATCTTTTGAAAGCGGACGGTACGAATGTTCTTTATACCGTTGAAAAGAGCGGGGATTTTTGGAGAATTATAGATGTAAAAAGAAAGAAAATCAGCAGAATAACTGTATCAAAACAGCTTTTAAAAGAAGTAGTAATTGAGCTCTTATTGGAGCCAATAAGTAAAGAGGTTGAAAACTATTATAAGGAACCAAAACTTTGGTATCGAGGTTCTGAAAAAATACTTGAAATAAAAAAAGATACAACAAACTATACTTTTTATGTAACTGTTCAAATTCAAACTTTTGAGGGTGCACACAACCCGCCTTATTGA	MKIRLTMVSIICLFIFLLPCISAQAIVKKENDINRNFGIDLTGYKLYSFGEFNQLDYKITPLTQLFLGIVQTEGEWINEPRLYIKGNKGYFHLLKADGTNVLYTVEKSGDFWRIIDVKRKKISRITVSKQLLKEVVIELLLEPISKEVENYYKEPKLWYRGSEKILEIKKDTTNYTFYVTVQIQTFEGAHNPPY				NA	NA	NA	NA	NA
AK009_01934	336			hypothetical protein	ATGATGTCAAAGCATAATCCTGTTTTAAAAGTAGGCGATTGGGTTCGAGGAATATCAGTAGAGGGTGAATTAATACTTGGTTATATTGAATCATTTGATAATGTAGGGGAAGTAGTTAAGGTTAATGTTGTGAAATGTGACAACAGAGATACAATAAATAAAACAATGTCCTTTTTAAGTAAACATGTAAAAAAACTCCCTGAATCAAAGGCAATAAATAAGGAACAAATTCTTTACCTTATAGACCTTGCATTATTAACAGGGGACGAAGAATGGTTTATCGGACTTTCTTCAAAATTAAACTCGATAAACGAGCTAGTTAATGGGGGAGTTTAA	MMSKHNPVLKVGDWVRGISVEGELILGYIESFDNVGEVVKVNVVKCDNRDTINKTMSFLSKHVKKLPESKAINKEQILYLIDLALLTGDEEWFIGLSSKLNSINELVNGGV				NA	NA	NA	NA	NA
AK009_01935	414	ywnA_2	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGAACAGCGACTTTACCTTGGCCATTCACAGTTTAACTTATTTAGCTTTACAGCCAGACCGGATGTCAACAAGTAATGCTATTTCAGAAAGTGCAGGTGTACATCCAGTACGTATTCGTAAAGTACTAAGTTTGTTAAAAAAACATAAGTTTATACAATCAAAAGAGGGAACTGGTGGAGGCTTTATTTTCGCTCGCGATTTAGGTGAAGTTAATCTTTGGCATATTTATCAGATAACCTCTGAAGGTGCTTTGCAGCCGAAGTGTCCGGAATCAAACGATCAGTGTGTTGTAGGTTCGAACATGCGAAAAGTTCTTTTTGCTATTTTCTTAGGTGCTGAAGAACATCTAGGTGAATACTTAAAGAATTATACAATGAAAGAAGTTGTTGACCTTATTAATCAAGAGCGTTAA	MNSDFTLAIHSLTYLALQPDRMSTSNAISESAGVHPVRIRKVLSLLKKHKFIQSKEGTGGGFIFARDLGEVNLWHIYQITSEGALQPKCPESNDQCVVGSNMRKVLFAIFLGAEEHLGEYLKNYTMKEVVDLINQER				NA	NA	NA	NA	NA
AK009_01936	135			hypothetical protein	ATGATTGAAGTATGTGTTACAGTTAATTATAATGATAGAAATTATCAAACAAATGTTATTGTGAGTAAAGATACGATTTGGACAAAAATTAAACAACTGGCAGAAGAACAAGTGAAGAAACAGTGGAGTGTTTAA	MIEVCVTVNYNDRNYQTNVIVSKDTIWTKIKQLAEEQVKKQWSV				NA	NA	NA	NA	NA
AK009_01937	396	spxA_1	COG1393	Regulatory protein Spx	ATGGTAATTCTATATACAACAGCAAGCTGTGCTTCATGCCGAAAAGCGAAAGCATGGCTTGAAGAGCATCAAATTGATTATATTGAAAAAAACATCGTATCAAATTCTATGACAGTTGATGAGCTTAAAGCAATTCTTCGTTTAACTGAAGAGGGGGCTAATGAAATTATTTCAACTAGATCCAAAACTTTTCAGGACTTAAATATAAATATTGAGGAGCTTTCGCTTAATGAATTTTATAAATTAATAATCGAGTATCCACTAATGTTGCGTCGCCCAATTATGCTGGATGAGAAAAGATTACAGATTGGTTTTAATGATGAAGAAATTCGCAAGTTTTTACCACGTAGCGTTCGAACATTTTTAAACATTGAACTGCAAAAATTGGCCAATTAA	MVILYTTASCASCRKAKAWLEEHQIDYIEKNIVSNSMTVDELKAILRLTEEGANEIISTRSKTFQDLNINIEELSLNEFYKLIIEYPLMLRRPIMLDEKRLQIGFNDEEIRKFLPRSVRTFLNIELQKLAN	PGPT0012940_560	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
AK009_01938	345	ytcD_1	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAACATACAATATTCCTGTAGAGGCGACTTTAGAAGTTATTGGCGGAAAGTGGAAAGTTGTTATCCTTTGTCATTTAAAAAAAGGGACAAAAAGAACGAGTGAATTAAAACGATTAATGCCTGGTATTACGCAAAAAATGTTAACGCAACAATTACGGGAACTAGAAGAAGATGGTGTAATCCAAAGGAAAATATATGACCAAGTACCACCGAAAGTAGAGTACTCTTTAACCGATTACGGTTCGTCTTTAGGAGCTATACTCGATTCCCTCTGTTCCTGGGGAGAAGTTCATCTTGAAAAAACCGGGAACACATCCATGCTGATTACAGCCGATGAATAA	MKTYNIPVEATLEVIGGKWKVVILCHLKKGTKRTSELKRLMPGITQKMLTQQLRELEEDGVIQRKIYDQVPPKVEYSLTDYGSSLGAILDSLCSWGEVHLEKTGNTSMLITADE				NA	NA	NA	NA	NA
AK009_01939	738	gmuR	COG2188	HTH-type transcriptional regulator GmuR	ATGGCAAGCGGATCAACACAAGTAAAATACCTCGGCATTTATCAAAAGATTAAACAGCAAATTTTAGACGGTGAATATAAAATCAACGAAAAAATTCCGAGTAGCCCCGTCCTTGCTGAAGAATTTGGTGTTTCAGCCCTTACTATTAAGAAAGCGCTGGATCTATTAGTTAGAGATGGCTACATCATCCGCCGGCGCGGAAGCGGAACAGTGGTGCAAGATTGGCGTCAACAGGAAAAGGCACGAATGATTCAAACTTTAACGGGTACGAAAGCTGTATACGGCAGTGAGGTAGAAAGTAAAATTATCGAGTTTGCGATTGTTGGGGCTGATGAAGTAGTTGCTGAGAAATTGGGAGTTTCAATCGGTGATTTCGTCTATAAAATCATTCGCCTCCGCATCATTCACAGCATTCCGACGATTATGGAGCATACATGGATGCCAATTTCGGTTATCCCAGGTGTTGAGGCTTCTGTTTTAGAGGAGTCGATATACTCACATATTCAAAATAAACTTGGCCTTGAAGTAGGGACATCTGTTGTCAGGGTTAAAGGAATTCGCCCAGATGATAGGGAAAAGCAGTTTATGAACTTAACAAATCAGGATTTCCTAATGCGAGTTGAACAAGTAGCTTACTTAACGGATGGACGAACTTTTGAATATTCTTATGCAGATCATCTACCAGAAACCTTTGAGTTTGAAACAGTCATTACGGCAAAAAATTATAAAGAGACATAA	MASGSTQVKYLGIYQKIKQQILDGEYKINEKIPSSPVLAEEFGVSALTIKKALDLLVRDGYIIRRRGSGTVVQDWRQQEKARMIQTLTGTKAVYGSEVESKIIEFAIVGADEVVAEKLGVSIGDFVYKIIRLRIIHSIPTIMEHTWMPISVIPGVEASVLEESIYSHIQNKLGLEVGTSVVRVKGIRPDDREKQFMNLTNQDFLMRVEQVAYLTDGRTFEYSYADHLPETFEFETVITAKNYKET				NA	NA	NA	NA	NA
AK009_01940	1062	yhhX	COG0673	putative oxidoreductase YhhX	ATGACATTAACAATGGGCTTTATTGGATTTGGAAAGTCAGCTAATCGCTATCACTTACCTTATGTAAACACACGTAATAATATAAAAATAAAAACGATTTTTGTACGTCAAATAAATGAAAAATTAGCGGCTCCATATAAGGAAAAAGGTGTTTACTTCACTACTGATTTGGATGAATTGTTGAATGACAAAGAAATTCAAGTGGTGACGGTCTGTACGCCAGCACATACGCATTACGAATTAGCGAAAAAAGTTATACTTGCTGGAAAGTCAGTTATCGTTGAAAAACCATTTTGCGATACAGTGGAACATGCGAAAGAATTATTAGCTTTAGGACGAGAAAAAGGTGTAGTAGTTATGCCTTATCAAAACCGCCGTTTTGATGGTGATTTTTTAGCTGTGAAGCAAGTAGTTGAACAAGGATTCCTTGGTGATATTATTGAGATTGAATCACATATTGATTATTTCCGTCCTGGTTCAATCACTCATGAAGCTCCAAAAGAAGAAGGTTCATTTTATAGTTTAGGTATTCATACGATGGACCGCATGATTTCACTATTCGGCCGTCCAGATACGGTGACATACGATATTCGTAATAATGAAATGGAAGGTGCGGTTGATAATTATTTCGATGTTGGTTTACATTACGGAAATCAGTTGAAGATTAAGCTGAAAACGAACCATGTCGTAGCAAAAGATTATCCACGCTTTATCGTCCATGGAACAAATGGATCATTTATTAAATATGGTGAAGATCAGCAGGAAAATGATTTGAAAGCGGGGATTATGCCTGAGAGTGCAGGGTTTGGTGAAGATTCACCGATGTACTATGGAGTTGCTAAATATCGTAATGCAAATGGTGACTGGATTGAAAAACAAATTAAAACGCCGCTTGGTGATTACGGTCGTTTCTATGATTCCGCGTATGAAACAATTATAAATGGTGCACCAAAACTTGTGAAAGACGAAGAAGCGGTAACGAATATTGAAATCTTAGAAAATGGATTTGCTGCCCCATCACCTTCAGTTTACAAACTTGAGGCTTTACATTTGAATGAATAG	MTLTMGFIGFGKSANRYHLPYVNTRNNIKIKTIFVRQINEKLAAPYKEKGVYFTTDLDELLNDKEIQVVTVCTPAHTHYELAKKVILAGKSVIVEKPFCDTVEHAKELLALGREKGVVVMPYQNRRFDGDFLAVKQVVEQGFLGDIIEIESHIDYFRPGSITHEAPKEEGSFYSLGIHTMDRMISLFGRPDTVTYDIRNNEMEGAVDNYFDVGLHYGNQLKIKLKTNHVVAKDYPRFIVHGTNGSFIKYGEDQQENDLKAGIMPESAGFGEDSPMYYGVAKYRNANGDWIEKQIKTPLGDYGRFYDSAYETIINGAPKLVKDEEAVTNIEILENGFAAPSPSVYKLEALHLNE				NA	NA	NA	NA	NA
AK009_01941	417			hypothetical protein	ATGGCATATACTACTATATCTATGGAAATTTTCGGATCACCTGAACAAGTATGGCAATTAATCGGAGGTTTCAACTCCCTTCCAGACTGGTTACCTTATATACCTAGTAGTAAATTAACTGAAGGCGGTCGTGTACGTCATCTAGCTAATCCAGATGGTGATACAATTATAGAACGCTTAGAAGTATTCAATGATAAGGAACGCTACTACACGTATTCAATCATGAATGCACCGTTCCCGGTCACTAATTATTTATCTACAATCCGGGTGAAAAAAGGTACTGAAAGTAACACATCATTAGTAGAGTGGTCTGGTACGTTCACTCCTGTTGAAGTTAGTGATGAAGAGGCAATTAATCTGTTCCATGGTATATACAGCGATGGGCTCAAAGCATTGCAGCAAGCATTTCTAGATTAA	MAYTTISMEIFGSPEQVWQLIGGFNSLPDWLPYIPSSKLTEGGRVRHLANPDGDTIIERLEVFNDKERYYTYSIMNAPFPVTNYLSTIRVKKGTESNTSLVEWSGTFTPVEVSDEEAINLFHGIYSDGLKALQQAFLD	PGPT0017915_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
AK009_01942	1377			hypothetical protein	ATGAAAAATTTTAAGGGTATGTTGATATCATCACTTGCAATTACAACTTTTGCTGGGGTAGGTACGACATTTGTAACAAATACAGTACATGCTGCTAATAACGATTCTAGTAAAATACAAGTTCGTTCTAATAAGAGTATAAACACAACAACTGGCTCGAGAGGGCCTGTATTATCAGTCAATCCTTATGATGAACCTAGATTTTCGAGACAGGGATATCTTGAAGAGGCACCTTTAGGAATTAATGCTCCTTATGCTTGGGGAATTAAAGGAGGAAATGGTCAGGGAGCAACTTTTGTAGATTTGGAAGAAGGCTGGTTATTAAATCATGAAGATTTAGTCGGTCAAAATATTGAATTTATGTCTGGAAAAATGAGTAATGATCTTTCTCACGGTACTTCAGTTCTAGGTGTTGTTTCTGCAGCTGACAATGGAATTGGGAACATTGGGATTGCACCAAAAGCAAAGGCAAAAGTAATTTCAGTGATCCGAGATAATGGGAGAATCGATGTAAGAGATGCTATTTTAAGTGCCGTAGATTCTTTACAGGCTGGAGATGTTTTATTAATTGAAGAATCCTTTAAATATGATGGATATGGAGATGACCCTTTACCAGTCGAAGTGTATCCTAGTATATTTAACGCAATTCGCAAAGGGACAGATAAAGGCATTATTATTGTAGAAGCAGCTGGTAATGGTGGGATTGATTTAGATGAATTTAAAGACCGTAATGGTAAACAGATTTTAAATCGAAATAGTCCAGACTTTAAAGATTCAGGATCTATTATAGTTGGAGCATCTACTGCAAGAGTTCCTCATAAACGTTTAGCTTTCTCTAACTATGGTAGTAGAATTGATGTATATGGTTGGGGAGAATATGTTGATACATTAGATACATATCAAAATCAAAATAGTAAAGGACAAAAAATTACAGATCAGAACATAATTAATCGTTATACTCCTAATTTCCGTGGTACTTCTAGCGCTTCGCCTATAATTGCTGGGGCTGCTGTATCGATTCAAGGGATTGCTAAAGAACATTTAGGTAAGGCATATTCACCAAAAGAATTGAGAGCAATTTTAAGTAATCCAAATACAGGCACAAAGTCTAATAACCCATCATCTGATAAAATAGGGGTTTTACCAGATTTAAGGGCGATTTTGTCTAACCTTGGATATAATAGTGATTTGACTACCAATGATCCTATGGTATTTCCAGATAACATAGAAAAAAATGAAGGAAAAGAAAATTCAACTTTCGTATTTCCAGGTGAAGAAACAAAAAGAACAGGTGATAAAAATTCAACTGTAACCTTCCCAGAAGAAGATTTAAAACAGGAGGAAAAAGAAGAGGGATTAATTGTTTTTCCTGATTAA	MKNFKGMLISSLAITTFAGVGTTFVTNTVHAANNDSSKIQVRSNKSINTTTGSRGPVLSVNPYDEPRFSRQGYLEEAPLGINAPYAWGIKGGNGQGATFVDLEEGWLLNHEDLVGQNIEFMSGKMSNDLSHGTSVLGVVSAADNGIGNIGIAPKAKAKVISVIRDNGRIDVRDAILSAVDSLQAGDVLLIEESFKYDGYGDDPLPVEVYPSIFNAIRKGTDKGIIIVEAAGNGGIDLDEFKDRNGKQILNRNSPDFKDSGSIIVGASTARVPHKRLAFSNYGSRIDVYGWGEYVDTLDTYQNQNSKGQKITDQNIINRYTPNFRGTSSASPIIAGAAVSIQGIAKEHLGKAYSPKELRAILSNPNTGTKSNNPSSDKIGVLPDLRAILSNLGYNSDLTTNDPMVFPDNIEKNEGKENSTFVFPGEETKRTGDKNSTVTFPEEDLKQEEKEEGLIVFPD				NA	NA	NA	NA	NA
AK009_01943	567			hypothetical protein	ATGAAAACGTTAGTATGCTTTGGAGATAGTATTACAGCTGATGAAACATTTTTTAATGGAATGCCGAGATTAACACCACGTTTGCAAGAGGTGTTTCCGAACTGGAAAATAGTGAATGCAGGTATTCCAGGTGATAATACATTTGATGCGTTAAATAGAATTGAAGAAGATGTAATATCATATAAACCAGATTTCGTAACAGTTTTTCTTGGTACGAATGATGCAGTCCCTTTTTCTCAAGTGTCATTACAAGCATATAAAGAAAACTTAGAGAAGATTGTGAACCAAATTTCATCAAATAAAGTACTACTGATTAGTCCTGCACCAGTTGATGAAGAAAGACAGCATAACAGAACAAATAGAGTACTTGGTCAGTATGCAGACGTGGTGGAGGAAGTGGCGAGGGAAACAGGAAGTTATTTTCTAAACGTATTCGCTGAAATGATTCAAGAACGGGATTATAAAAGATTTGTAGAAAATGATGAAAAAGATGGATTACACTTTGGACCAGAAGGTTATGAGTATGTAGCGAAGTTAATTGGTGAAAAGTTAAAAGGGATTTTATAA	MKTLVCFGDSITADETFFNGMPRLTPRLQEVFPNWKIVNAGIPGDNTFDALNRIEEDVISYKPDFVTVFLGTNDAVPFSQVSLQAYKENLEKIVNQISSNKVLLISPAPVDEERQHNRTNRVLGQYADVVEEVARETGSYFLNVFAEMIQERDYKRFVENDEKDGLHFGPEGYEYVAKLIGEKLKGIL	PGPT0001840_2717	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK009_01944	825			hypothetical protein	ATGGAAAATTTCGTTTGTACAACGTGTGGTGTGCAGTATGCAGCGAGTGTAGAAGAACCGGTGAGTTGTCATATTTGTGATGAAGAAAGGCAATATGTTAACCAAAAAGGACAATCTTGGACGACACTAGAAAGCTTACAAACAGGTGATACATATAAAAATGAAATAATCGAAGAGGAAAATGGACTTTATAGTATTACGACAAAACCAGGATTTGCGATCGGTCAAACTGCATTTCTAGTGAAAACAGAGTCATATCGTTTACTATGGGACTGTATTACGTATTTAGATGAAACGACAATTGAGAAGATAAAAGAGCTTGGTGGATTAGATGCAATTGCATTGTCTCATCCGCATTATTATTCAACGCAGGTAGAATGGGCGGAGACATTTGATGTACCAATTTATATACATGAAGATGATAAAGAGTGGGTAATGCGCCCGAGTAGTCGTATTATTTACTGGTCTGGAGAGTCATTACAATTAGCTGATGGATTAGTCATTCATCGTTTAGGGGGACATTTTAAAGGTGGATCTGTCTTACATTGGGAAGAAGGTAATGATGGAAAAGGGATTTTGTTAACAGGTGATATTATTCAAGTTGTAGCGGATGAAAGGTGGGTAAGCTTCATGTACAGCTATCCAAACTTAATTCCACTACCAGCGAGAAAAGTGGAAGAAATGGTGAATCGAGTGAAGCCGTTACAGTTTAATCGTTTATACAACGCTTTTCATCGAGTAGTAAAAGAAAATGCAAATGAGGCAGTTGAACGTTCTGCTGAAAGATATATAAAAGCAATAGAAGGAAAGTTGTTTCATACGTAA	MENFVCTTCGVQYAASVEEPVSCHICDEERQYVNQKGQSWTTLESLQTGDTYKNEIIEEENGLYSITTKPGFAIGQTAFLVKTESYRLLWDCITYLDETTIEKIKELGGLDAIALSHPHYYSTQVEWAETFDVPIYIHEDDKEWVMRPSSRIIYWSGESLQLADGLVIHRLGGHFKGGSVLHWEEGNDGKGILLTGDIIQVVADERWVSFMYSYPNLIPLPARKVEEMVNRVKPLQFNRLYNAFHRVVKENANEAVERSAERYIKAIEGKLFHT				NA	NA	NA	NA	NA
AK009_01945	558			hypothetical protein	ATGAATGTTGCAGAAGCGAAAAAGGATTTAGCAATAAAAACGAAGAGAGGCTTACCGATTATATTAGCCGGCGTTTTATTTTGGATAGTTATGAGTATAACGGGATTTGTTCTTTCTGAAAAACAAGTGGTGTGGGTATATTTAATCGGTATGGGCTGTGTGTTTCCTTTTGGCTTAATGATAGCTGCTATATTGAAAATTGATATGTTTGCGAAAGGAAATCCGTTAGGGGTTTTGGCAGGCTTAATTGGTGGGATAAATGTATTGAATATTCCACTTGTATTACTTGCCTATTTTCAATTTCCAGAATGGTTACCTTTTGTAGTAGCGATGTTAATAGGTGTTCATTTTATTCCGTACGTATGGATTTATGAAAGTAAAAGTTATGGTTTATTGTCAGTAGGGACTGTATTTGTAACGTCAGTTTGTGGGATTCTTTTTGCAGAAAAAGGATTTATTGTAATTCCATTATCGGTTACAGTTGTCTATTTACTTACTTTTATAAGTTTGTTAATTGAAAATAAAAAAGCAGATCATTATCAACAAAAGTCAGCTTAA	MNVAEAKKDLAIKTKRGLPIILAGVLFWIVMSITGFVLSEKQVVWVYLIGMGCVFPFGLMIAAILKIDMFAKGNPLGVLAGLIGGINVLNIPLVLLAYFQFPEWLPFVVAMLIGVHFIPYVWIYESKSYGLLSVGTVFVTSVCGILFAEKGFIVIPLSVTVVYLLTFISLLIENKKADHYQQKSA				NA	NA	NA	NA	NA
AK009_01946	840			hypothetical protein	ATGGAAATTTCAATAATCACTGCACAACTAATTAAGGAAAAAGTTATTTCACATTATCCAAATAGCGTAAAAGCATTAAACGGGGGAACGACAAGTACTGTATATTTGTTGGATGAACAATACGTTGTAAAGTTGAATGAATCGGATGTCATACGTGAAGAAGCTTATTTTCTTCAGTTTTATAAAAAGGACGAATTATTTCCAAAGCTTTTATATAAGGAACCTTTAAATCGCTATATTGTTTACTCATTCCTTGAGGGCACAACGTCTTGCAAACTAGGCCATAAACGGAGTGTTCTTTGTAAACTTGTAAAGGAAGTTATCAATAAGTATGAAGTGGCTACAGAGGTTGATGGCTGGGGATGGAAAGAAAATCTGCTTCAATCTTGGAGTGAATTTTTAACAACAAATGTGATAGAAGCTCATGAAAATGTAAGACGTTACATAAGTGAAGAAGAGTATAGAACGGTTCTTAATTTAGCAAATAGGGATGCTGGAATAAATCAGCCATTTTTATTGCATGGTGATCTTGGATTTCATAACTTTATATTTAAAGAGAATAAACTGCACGGTGTAATTGATCCTTTACCAGTGTTAGGAGATCCTATATACGATTTAATTTACGCGTTTTGTTCAACTCCGGAAAATTTAACAAAAGAAACAATTAATTATGCGATGAAACAGTGTGTATTTCATAAAAAAGACTGTGATTTATATGAAGAAATAGTCATAGGATTATATTTACGTATAGACACATGTTTAAGACACCACCCGAAAGATTTAGAAGATTATTTAATAGCTTGGCGTTATTGGATGGGTGAAATTAAGCCGGCTTTATAG	MEISIITAQLIKEKVISHYPNSVKALNGGTTSTVYLLDEQYVVKLNESDVIREEAYFLQFYKKDELFPKLLYKEPLNRYIVYSFLEGTTSCKLGHKRSVLCKLVKEVINKYEVATEVDGWGWKENLLQSWSEFLTTNVIEAHENVRRYISEEEYRTVLNLANRDAGINQPFLLHGDLGFHNFIFKENKLHGVIDPLPVLGDPIYDLIYAFCSTPENLTKETINYAMKQCVFHKKDCDLYEEIVIGLYLRIDTCLRHHPKDLEDYLIAWRYWMGEIKPAL				NA	NA	NA	NA	NA
AK009_01947	750	ybgI	COG0327	GTP cyclohydrolase 1 type 2	ATGAATATAACGCAGTTTAACGAACAGATAACATCATTATTTGAAGAGCATCTTCACAAATATGGCGATGATGAATATGGTTTTACTCATATAAGTAAAGATGAATTTCACAAAATCGGTTACACAACAAATCTGACATTAGAGACGATTGAAGAAGCGTATAAAAATGGAGTCGATATGATAGTTACACATCATGCGCCGTGGAGTTTTTTATTTGGTATGGAAAAGGCTTGTATTGAGAAATTGAAGCAATATGAAATGAATCATTTTTGGATTCATTTGCCGTTAGATTTTGTAAAGTTTGGCACGTGTACGTCGTTATTTAACGGAATTGGGATAGATACAATACTAGAATATTCCACGTATGAGGAAGAAGAACTACCGGGAATAGGAGAATATAAAGAAGCGATTCCTTTTTCAAACTTAGTTGGAAAACTGGAAGAAAAAATGGAAGAGAAAGTGAAGAGCTGGAGAAATCATGATAAACCAGTAAAACGGATTGCGATTTTAACCGGTGCAGGAAACAATACAAATTTAATTGAACGTGCATTAGAAAAAGGATGTGACACGTACATAACAGGTGAAAAAACATTATATACAGTGCAACATGCGAAATTTAAAGGGATTAATTTAATTGTAGGCAGTCATACTTTTACAGAAGTGTTTGGTGTAGAAAGTTTGGCTCATAAATTACAAGACAGAGACCCGGCAATAGAAATTATTAGAGTATATGAAGAGCATTTAGAGTGA	MNITQFNEQITSLFEEHLHKYGDDEYGFTHISKDEFHKIGYTTNLTLETIEEAYKNGVDMIVTHHAPWSFLFGMEKACIEKLKQYEMNHFWIHLPLDFVKFGTCTSLFNGIGIDTILEYSTYEEEELPGIGEYKEAIPFSNLVGKLEEKMEEKVKSWRNHDKPVKRIAILTGAGNNTNLIERALEKGCDTYITGEKTLYTVQHAKFKGINLIVGSHTFTEVFGVESLAHKLQDRDPAIEIIRVYEEHLE				NA	NA	NA	NA	NA
AK009_01948	210			hypothetical protein	ATGAAACCTGAATTTTTAAAAGCTGTACATGATGCTATCGGAAATGTCGAACACATTCATATAGAAGAAAGCGGTGCTGACAGCTTACTTATCCATCATGATGATGCACAGCAGTTACAACAAGTTGCTGTGGCGTTAGAAAATAATAATTTCCGCTCCGCTTTAAGAACAACCGGAAATGCTTCGTACATTGAAGTATTGAACAGATAA	MKPEFLKAVHDAIGNVEHIHIEESGADSLLIHHDDAQQLQQVAVALENNNFRSALRTTGNASYIEVLNR				NA	NA	NA	NA	NA
AK009_01949	900	yddE_2	COG0384	putative isomerase YddE	ATGAAGACTATAAACGTATTTCATTACGACGCATTTACGAATAAACCAAATAAGGGAAATCCAGCAGGTATTGTATTAGAAGCAGATGGATTAACGGAAGAGAAAATGCAAATTATTGCTGAAAAAGTTGGATATAACGAAACAACTTTTGTTCTTTCTTCAGAAGTAGGAGATATAAGAATGCGTTATTTTACACCTGGTTTTGAAATGGATTTATGTGGTCATGGGACAGTAGGGACGATATATGCTTTGCGCGAAAAAGGTTTATTAGAAGAGAAAAGTAACCTTACGATTGAAACGAAGGCTGGGATTTTACCGATACAAATAGGTGTAAATAAAAATGGAGAAACCTTTATTAAAATGAGACAGGCAGCACCTCAGTTTAAAGAATTTACAGGTTCAAAAGAAAAATTAGCTCATAGTATTGGTTTAGAAATAAATGATTTAGATGTAAGTTTACCGATTGTATATGGAAGTACTGGTAATTGGACTGTAATTGTACCGATTAAAAATCTTAATGCATGCGAGAGAATGAAACCTAATAATGCTGCATTTCCATCAGTATTAAAAGAAATACCTAATGCTTCTATTCACCCAATTTGTCTAGAAACTTATGATGAACTAGCACAAATGCACGGCCGTCATTTTTCATCAGCTTACGCTGGGACGATTGAAGATCCAGTGACAGGAACAGCTTCAGGTGTAATGGGAGCGTATTATGCGGAGTATTTAGAGAAAGATTTTGAACATGAATTGGATTTAATCGTTGAGCAAGGACAGGAAATAAATAAAGATGGTCGTGTAACTGTTTATGTAACGAAAGAGATAGAAAACGAGAAGTTACAAATAGATATTGCTGGAACAGCGGTGTATGTGAAAGAGTTTGAAGTTTCAATATAA	MKTINVFHYDAFTNKPNKGNPAGIVLEADGLTEEKMQIIAEKVGYNETTFVLSSEVGDIRMRYFTPGFEMDLCGHGTVGTIYALREKGLLEEKSNLTIETKAGILPIQIGVNKNGETFIKMRQAAPQFKEFTGSKEKLAHSIGLEINDLDVSLPIVYGSTGNWTVIVPIKNLNACERMKPNNAAFPSVLKEIPNASIHPICLETYDELAQMHGRHFSSAYAGTIEDPVTGTASGVMGAYYAEYLEKDFEHELDLIVEQGQEINKDGRVTVYVTKEIENEKLQIDIAGTAVYVKEFEVSI	PGPT0012805_385	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
AK009_01950	564			hypothetical protein	ATGAAGCTACCGTTATTAGAAGTAGAGACGGATAGACTCATTATCCGTCCATTTCAAAAAGATGATTACGAAAGTTGGTTAGATGGATTTAATAAGAGACTGCCATCGCAGTATAAATATGACGATGGCTATCAAGTTCTGGTATCATCAACAAAAGCATGGTTCACGGAATGGATAAGAGGTTTTGATGAAGCAGCACATAGAGATGAGATGTATGTATTAGGCATTTTTCGTAAAGAAGACGGAGCTAATATTGGAAAGCTAGAGCTGATAAAAATTTTACGAATGGATTACCAATGGGCGATGATGGGGTATTCCATACATAATCAATACTGGAAAAATGGATATGGCATAGAAAGCGTGAAAGCTGCGTTATCGTTATTTTATAATAGTCTTCATTTTCATAGAATTGAATTACATATACATGTTGATAATGAGCCATCTGTTCGTCTTGCGGAACGATCAGGTTTTTCTTTTGAATGCGAGAGAGAGGCGTTTTCTTTAGAGAATGGTAAGTGGATGGATTTTCTTATTTATTATAAAAATAAAGAAATGAACAAATAA	MKLPLLEVETDRLIIRPFQKDDYESWLDGFNKRLPSQYKYDDGYQVLVSSTKAWFTEWIRGFDEAAHRDEMYVLGIFRKEDGANIGKLELIKILRMDYQWAMMGYSIHNQYWKNGYGIESVKAALSLFYNSLHFHRIELHIHVDNEPSVRLAERSGFSFECEREAFSLENGKWMDFLIYYKNKEMNK				NA	NA	NA	NA	NA
AK009_01951	1503		COG0318	Long-chain-fatty-acid--CoA ligase FadD13	TTGAGAACGATGCAAAAATTATTACAAAAAAGAGCAATGCAATCACCAAATTTGGAAGCGCTTGTAGGCGGAGAGAAAAGGTATTCGTTTCAGCAGTATAATGAACGAGTAAATCAGCTTGCACATTATTTGTTACATAATGGTGTGCAAAGAGGAGACCGTATAGGAATACTATGCAAAAATAATCACCCGTTTCCAAGCGTTATGATGGCAAGTTTAAAAATTGGAGCGGTATGTATTCCGCTAAATCATCAGCTTACTGCTTATGAATTAGAAACGATTGTAAAAGAAGCGAAATTAAAAGTATTAGTTATTGATGAAGAATTTAGTGAAGTATTATTAAAGATTGATGCTGTTAAAGAAATCCCTTATGTAATTCAAACGACAAAAGAAGGCTTTGGTTCATTTGAATTAGAGTTGCAAAAACAGCCAACGTCAGAACCGAACGTAGAAGTTCATGAAGAAGACGATGCCATTTACTTATTTACTTCAGGAACGACTGGACAGGCGAAAGCATGTGTAATTGGACATAAAAACTTGCATCATTATTTTGCTGAAATTGCGGGCCAAAGAGAAATCCCAGCAGGTGAACGTTTTTTATCCGTGCATCCATTGTTCCATATGAGTGGCGTGCTTTCTATTTTAAATTGTATTTATCATGGCGTTACGATGATTTTCTTAGCTGATTCGAATCCTGCTATTATTTGGGATAAGATTGAAGAAGAGAAAATTACTACGATGCTTGCGTTCCCAGCTGTTTATAGTTACATGCTTGATGAGCTAAATAAAAAAGAACGTAACATTTCAACCTTTAAAGTAGCACAAAGCGGTGGTACAAAAGTGCCAGAAACACTCATTCAAAAATATATGGAAAAAGGAATATATATGGTGCAAGGCTATGGCAGTACAGAAGGTTGGGTTGTAACCTCATGGCATCCAATGATGGGAAAAGAAAAGATGTCTTCTGTAGGAAAAACACTGAAACATGTAGAGGTGAAAATTGTTCATCCAGAAACAGGTGATGAACTAATAACAAATGAAGTCGGAGAGATTCATGTAAGAAGTCCATACATGTTTAAAGGATATTGGAATAATGAAAAGGCGACAAAGAAGGTAGTGAAAGATAATTGGTTTAACATGGGTGATGCTGGCATGATAGATGACGACGGATTCCTGCATATTATGGGAAGATATAAAGACGTTATTATACGCGGTGGTGACAATGTATATCCAGATCAAGTAGAAGATGTTATTCATGAAATACATGGTGTTTTAGAAGTTGCAGTAGTTGGAGTTCCAGATGACTTTTGGGGAGAAGTTCCAAGAGCTTACATTGTGAAGGATGGCGAAACAACATTAACAGAAGAAAGTATTACTCAGTATTGTAAGGAGAAATTAGCCAGTTACAAAATACCAGAAGTGGTATTCATAGAAGAATTACCGAAAAATGCTTTAGGAAAAGTGTTGAAGAGGGAATTACGAGATGTAGTTCTTATGAAATAG	MRTMQKLLQKRAMQSPNLEALVGGEKRYSFQQYNERVNQLAHYLLHNGVQRGDRIGILCKNNHPFPSVMMASLKIGAVCIPLNHQLTAYELETIVKEAKLKVLVIDEEFSEVLLKIDAVKEIPYVIQTTKEGFGSFELELQKQPTSEPNVEVHEEDDAIYLFTSGTTGQAKACVIGHKNLHHYFAEIAGQREIPAGERFLSVHPLFHMSGVLSILNCIYHGVTMIFLADSNPAIIWDKIEEEKITTMLAFPAVYSYMLDELNKKERNISTFKVAQSGGTKVPETLIQKYMEKGIYMVQGYGSTEGWVVTSWHPMMGKEKMSSVGKTLKHVEVKIVHPETGDELITNEVGEIHVRSPYMFKGYWNNEKATKKVVKDNWFNMGDAGMIDDDGFLHIMGRYKDVIIRGGDNVYPDQVEDVIHEIHGVLEVAVVGVPDDFWGEVPRAYIVKDGETTLTEESITQYCKEKLASYKIPEVVFIEELPKNALGKVLKRELRDVVLMK	PGPT0008380_14901	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_01952	534	ywrO	COG2249	General stress protein 14	ATGAAAACACTTGTAATTGTAGCACATCCTGATATTGAAAAATCAAAAATTAATAAAAGATGGATTGAAGAACTTGAGAAATATTCGGATGAAATTACGGTGCATGAATTGTATAAAGTGGCACCGAATTGGGAGTTTAATGTGGAAGAGGAACAAAAGCTGTTAGTAGAACATGACCGATATATATTTCAATTTCCTCTCTACTGGTACAGCTCACCACCTTTATTGAAAAAATGGTTCGATGATGTATTAACATATGGGTTTGCATACGGATCACAAGGAGATAAAGTGAAGGGAAAAGAATTTGGTGTAGCTATTTCTATAGGTGGATTAGAAAAAGACTATGAAAATAGTGGGATTACAATGGATGAGTTGACGAAACCATTCCAAGCTACATGCTTATATACAGGTATGGAATTTATACCTTCCTTTTATTTATATGGTGCAGAATATAAACTAAGTGATGAAGAGATTGATAAAAGTGCACCTGAATATGTGCAATATGTGATAAACAAGAAGTATTCTAATATATAA	MKTLVIVAHPDIEKSKINKRWIEELEKYSDEITVHELYKVAPNWEFNVEEEQKLLVEHDRYIFQFPLYWYSSPPLLKKWFDDVLTYGFAYGSQGDKVKGKEFGVAISIGGLEKDYENSGITMDELTKPFQATCLYTGMEFIPSFYLYGAEYKLSDEEIDKSAPEYVQYVINKKYSNI	PGPT0009455_2411	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK009_01953	324	ytcD_2	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAATCAAAATGATGACTGCCCAATTGCAACGACACTCGATGTAATCGGCGGAAAATGGAAAGTTCATATTTTATGTGTCTTAATAGATGGAAAAATGCGAACAAATGAAATCCGACGAGAAATTCCAAACATTACGCAAAAAGTTCTGACTCAACAACTTCGGCAACTTGAAGCTGATGGAATTATCCATCGTACTGTATATCAAGAAGTTCCACCAAAGGTTGAGTACACAATAAGCGAATATGGGAAATCTTTAATGCAAATTATGGATGAACTATGTGAATGGGGAAAAGATCATCAATTGAAAAGATTACATGACTAA	MNQNDDCPIATTLDVIGGKWKVHILCVLIDGKMRTNEIRREIPNITQKVLTQQLRQLEADGIIHRTVYQEVPPKVEYTISEYGKSLMQIMDELCEWGKDHQLKRLHD	PGPT0012970_179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
AK009_01954	1452	rox_1		Rifampicin monooxygenase	ATGGACAATTATTATGATGTAGCGGTAGTTGGTGGTGGTCCAGTTGGACTTATGGCAGCATGTGAATTAGCTATCCAAGGCGTAAAAGTTGTTGTTTTAGAGAGAAGATTAGACCGGGTACGAAATTCTAGAGCACTCACACTACACCCTCGTTCCTTAGAATTGATGGCTATGAGAGGTATTGCAGATAGATTTTTAGCTAGAGGACAGAAATTAAATACAAGTCATTTTGCTGCCTTAGATACAAGATTAAACTTTAAAAATTTAAATACTGATTTTCCGTATACACTTTTTATTCCCCAATCTATTACAGAAGAAATATTAGAAGAACATGCATTAGAATTAGGCGTAGTCATTAAACGCGGGCATACTCTGAAAGACTTAAAACAATATGAAACATTCGTACAACTAGAAATAGAACAAAGAGAAACAATATATAAAATAGAAGTTCCATATGTAATAGGAGCTGATGGAGCAAGAAGTGTAGTTCGTGAATTATCAAATATACCGTTTAATGGAACAAACACAACAACTACCGCTATATTAGGTGATGTTATTTTAGAAGGTATACCAGATAATCCATTTTTATCTACTTCTAATATAAATGGGATATTAATGATGGTACCTATTACACCTGATGTATTTCGTTTTGCAATTATTGACCCTAAGAATCAGACAATACCTGTTCATGTTGCTGTTACAGAAAAAGAGTTTATAGATAGTATTTATAGTATTACAGGTAAACATCTTCAAATTAAGAGCACAATATGGCTTTCTCGTTTTGGCAATGCAACCAAACTAGCAAATACTTATCAACATAAGCGTGTATTCTTAGCTGGGGATGCAGCACATATTCATTTCCCTGCTGGAGGACAAGGTTTGAATGTAGGTCTACAAGATGCTTTTAATATAGGATGGAAATTAGGACTCGCAATAAAACAAAAAAAATATGAAAGCCTATTAGAAAGTTATCATATTGAAAGACATGCTGTGGGAAAACAATTTTTCAAGGAAGTACAAGCGCAAGAACAATTAATGATACACTTTTCAAACGCAGGAATGGAATTGAGGGATTTATTTTCGTACCTACTTACATACCCCGAGATAAATCAAGATTTATCTGAAAGAGTAAGTGGCTTAGGGATAATGTATTCGTCGATGCACGATATAGAAAGGCATCCATTGATAGGAAAAAGATGTACAAACCTCACTATTTCTTCTCTAAATAAGAAAAGTTATAAACTCTTTGAATTAATGCAGGATGGTAAATTTATTTTATTAATACACCCTACTTATATAGATAAGATAAATAAAATAAATATTGATTCACACATAAAGGTGATAATAGGAGAAATACAAGATTCCAAGTTAAAAAATATAGATACCGTTTTGATTCGACCGGATGGTCACATAGCCACCATTGAGTATACCAAGATAGATAACTGCGAATAG	MDNYYDVAVVGGGPVGLMAACELAIQGVKVVVLERRLDRVRNSRALTLHPRSLELMAMRGIADRFLARGQKLNTSHFAALDTRLNFKNLNTDFPYTLFIPQSITEEILEEHALELGVVIKRGHTLKDLKQYETFVQLEIEQRETIYKIEVPYVIGADGARSVVRELSNIPFNGTNTTTTAILGDVILEGIPDNPFLSTSNINGILMMVPITPDVFRFAIIDPKNQTIPVHVAVTEKEFIDSIYSITGKHLQIKSTIWLSRFGNATKLANTYQHKRVFLAGDAAHIHFPAGGQGLNVGLQDAFNIGWKLGLAIKQKKYESLLESYHIERHAVGKQFFKEVQAQEQLMIHFSNAGMELRDLFSYLLTYPEINQDLSERVSGLGIMYSSMHDIERHPLIGKRCTNLTISSLNKKSYKLFELMQDGKFILLIHPTYIDKINKINIDSHIKVIIGEIQDSKLKNIDTVLIRPDGHIATIEYTKIDNCE				NA	NA	NA	NA	NA
AK009_01955	381			hypothetical protein	ATGGAGGTAAGCCTTTTTTTAGGATTTTTTTGGGGGTGGATAACGGTTATCATCTCAGGAATACTTTTTGTACGACCATCTATACTACGTGAACTGAAAAAATTAGTGGTAGAAGACAGAGGATTTGGAATTATGTATGGCTTTCTATCAATTTTCCTCGGGTTAGGTACTGTTATCTTACATAATGTTTGGACACTTAATTGGCAGGGACTCATTACACTTATTGCATGGCTCGCACTATTAAAAGGGATTTATGTAATTGCATATCCTGAACCATCCAAGAAAACCGATTTTGAAGTAAGAGTACTATCTACTCGTATAGTGCTTGCTATCCTTGGTGCTTTATCTTTATGGATGCTTTTCATACTTTATATGAAATAG	MEVSLFLGFFWGWITVIISGILFVRPSILRELKKLVVEDRGFGIMYGFLSIFLGLGTVILHNVWTLNWQGLITLIAWLALLKGIYVIAYPEPSKKTDFEVRVLSTRIVLAILGALSLWMLFILYMK				NA	NA	NA	NA	NA
AK009_01956	276	pagR_2		Transcriptional repressor PagR	ATGAGAGAAAAAAAAGAAATGTTTCAAGAAATTGCTGAGGTGTTAAAGGTATTGGCGCATCCCGTTCGTCTATCTTTAGTAAAAATAATGCTTGCAAAAGGCCCTACTAATGTAACAACAATGTATGGGGATTTACAAATGCCTCAAAGTACAATTAGTCAACATTTATCTAAACTAAAAGCTGCTAAAATGGTTACAGGTACTCGGAAAGGATTAGAAATTTATTATGAGGTAACGGACAATCGCACAAAATCAATATTAGCATGTTTAGTTTAA	MREKKEMFQEIAEVLKVLAHPVRLSLVKIMLAKGPTNVTTMYGDLQMPQSTISQHLSKLKAAKMVTGTRKGLEIYYEVTDNRTKSILACLV	PGPT0004300_357	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_01957	3360	arnC_1		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	GTGAAAAATATAATGGAGAAAAACATTCAACAAGAGAAAGATAAAGAAAAACCTGTTTTTTATGATCCGAAAGGAAGGAGAAACATAGCCTTTATTTGGTTTCTATGTATCTCAATAGTTAGTGTAGGTGTTGTATTTTATTTTTTCTTTCAAAGTATTTTTTCAACACCAGAAATTCCAAACATGAATCCTACTGTAAAACAAGATACGAAACTTGTACCAATTAATCAAAAACTTAGTGAGGAGCAGTTAAAGAACGAAGAATTCAAGCCAAATACCGAAATGAAGGATAATAAAAATTTGGTGAATTCGACAAACGATAGTAAACAACCTAAAGAAGTGTATGGTTTTTATGTAAACTGGGATGAAAATAGTACCGCTTCTTTAAAAGAAAATATCGATTCATTAACCACGTTAGTACCAGAATGGTATCATTTAAAAGAAGATTTAACGATTAGAAGTGAGATAAAACCTGAGATTGTAAAACTAGCAAAAAAAAATCATGTGAAAATTATGCCGTTACTTACTAACTATACAGAAAAAGCTTCTGGCCCTGATAGTGAGCTTATCCATAAGTTACTGAATTCGCCGAATGATGTGAAGACGAAATTTATTAATGATTTAGTAAGCCAAGTTAAAAAGAATCAGTTTTCAGGTATTAATATTGACTTTGAGGCCGTACCTGAAAGTGATAGAGAAAACTTAACAAATTTTATGAAAGAACTTACTACGGAATTTCATGAACATGATTTGCTCGTTACACAAGATGTTCCAGCTAATGATAAGGCTTTTGATTATAGTGCGTTAGCAAAAATAATAGATCGAATGATTGTAATGATGTACGATGAGCACTATGGAGCCGGGGAACCAGGACCAATTGCTTCAAATAAATGGTTCCAACATACATTAAAAGAACTGAATATTCCGTCTAATAAGCTTATAGTTGCTTTCGGTAACTATGGATATGATTGGGAAGTGAATAGTAAAGAAGCTGCGAAGTCTTTAACTTTCTCAGAAGTTATGGCAATGGCTCATGATTCAAATATGAAAATTCAATGGGATAACATGAGTGGAAATCCTTATTTTAGATATAAAACAGGAGAGAAAGAACATACTGCATGGTTCTTAGACGGTGTTACTCTCTATAATCAAGTGAAAATCGCAATGGACAACAATGCAAAGGGGGTTGCGTTATGGAGATTGGGAGCAGAAGATCCTACAATATGGAAAGTTTTAAAAAATCCTATTGAGGCACAAAAAAATCCTAATGTATTACATAAAATCAATAGTTTAGATGAAGTAAATTATTCTGGACAAGGTGAAATTTTACAGATTGAGAATGAAAGAAAAAATGGATTGAGAGATTTTAAAGTAGGCAAAGATGGTTATCTTACAGATGAAGTATATCAATCCTTACCATCTGCATACGAAGTGCAACGATATGGAAAACCGAAAGGGAAACAAGTAGTATTAACATTTGATGATGGACCAGACCCGAAATATACGCCAGAAATTTTAAATATATTAAAAGAGAATAAAATAAAAGCTGCTTTTTTTGTCCTTGGTGAAAACGCACAACTAAATCCTAGTATTGTAAAAAGAATATACGATGAAGGGCATGAAATTGGCAATCATACTTTCAAGCATCCTAACGTAGCTGATACGTCTTTACTACGAACAAAAGTAGAACTTAATACGACGCAACGTCTGATCCAGGAAATAACTGGGCATTCTACAGTTTTGTTTAGGCCACCATACGAAGCGGATGCTAACCCGGATTCCTCAAATGAAATAGTGCCTATTTTACGGGCACAAAATATGAACTATACAATGGTAGCAGAAAAAGTGGATCCCGAAGACTGGGCAACACCATCAACAAATGAATTAGTAAAGCGTGCTCTTAATCCCGTTTATAAGGGAGAGGGAAATATTATTCTTCTTCATGATGCGGGAGGGAATCGTACCCATACAGTAGAGGCGCTCCCAATCATTATTAAAGACCTAAGAAAGCATGGATATAGTTTTGTAACAATCTCGGATTTAATGAATAAAGAACGAGAGGAAATTATGCCTCCTGTTTCTTCAGAGGGGAAGCAATATTTACTTTACAATAAAGCTGTCTTTTCAGGGGCAGGATACTTTAAACATATATTAACAACTATTTTTTATGTTGCTATTGGATTAGGGATTTTTCGATTCTTATTCTTAATTTATTTTGCATGGAAGCAGAAAAGAAAAACGCTATCTCGCTATATTAATTCGTCATATCAACCTTTTGTTAGTGTTGTCATAGCGGCATATAATGAAGAAAAGGTGATAGCTAAGACGATTCGCTCAATTTTGGATAGTAATTATAGAGAATTTGAAGTTATTGTTGTGGATGACGGATCGACAGATGATACGTCAAAAGTAATGAAAGAAACATTTTATAAACACTCTAAAGTTCGTTTCATTCAGAAAGAAAACGGCGGGAAATCATCGGCAATGAACCTAGCGTTTCAACAATCGCGAGGAGAAATCATTGTTACTTTAGATGCGGACACTATTATTGCGCAAGACGCCATTTCTCTAATGATTAGACACTTTGAAGATCAGAATGTAGCAGCAGTTTCAGGTAATGTTAAAGTGGGGAATAGACGAAATTTGTTAACTACTTGGCAACATGTTGAGTATATTACAGGGTTTAATTTAGAACGTAGAGCTTTTGATGAGTTAAATTGTATTACAGTTGTTCCAGGAGCTATTGGGGCGTGGCGCAAGAAGAATGTAGTTGAATCTGGATATTTAAGCGAAGATACATTAGCAGAAGATACGGATCTTACTATTACATTTTTACGTCAAGGGCATAGAATTGTATATGAAGAAAAAGCGTATGCTTTTACGGAATCACCTGAAGATGTGAAAAGTCTTATTAAACAGCGGTATCGTTGGTCATATGGTACGCTCCAATGTCTTTGGAAACATCGAAAAGCTTTGTGTAATTCAAAACATAAAACATTAGGGTTTATTGCATTGCCTAACATGTGGTTATTCCAATATGTTCTGCAATTCATTGCTCCTTTAGCGGATATATTAATGATCATGGGGCTATTTGGTAGCGATCCGCTAAAAGTTTTAGGATTTTATTTTGTATTCTTTTTATTAGATCTGCTCGCATCTCTGTTTGCATTTAAATTAGAGGAAGAGAACCCTAAACCGTTAGTGTGGTTAATTTTACAACGCTTTATTTATCGTCAATTTATGACTTATGTTGTCATTAAATCTATATGTTCATCGCTTCGAGGAGTAGCGGTAGGATGGAATAAACTAAAGAGAATGGGGAGTGTTAAACATTCCACGGAACATAAGGAGGCATCATAA	MKNIMEKNIQQEKDKEKPVFYDPKGRRNIAFIWFLCISIVSVGVVFYFFFQSIFSTPEIPNMNPTVKQDTKLVPINQKLSEEQLKNEEFKPNTEMKDNKNLVNSTNDSKQPKEVYGFYVNWDENSTASLKENIDSLTTLVPEWYHLKEDLTIRSEIKPEIVKLAKKNHVKIMPLLTNYTEKASGPDSELIHKLLNSPNDVKTKFINDLVSQVKKNQFSGINIDFEAVPESDRENLTNFMKELTTEFHEHDLLVTQDVPANDKAFDYSALAKIIDRMIVMMYDEHYGAGEPGPIASNKWFQHTLKELNIPSNKLIVAFGNYGYDWEVNSKEAAKSLTFSEVMAMAHDSNMKIQWDNMSGNPYFRYKTGEKEHTAWFLDGVTLYNQVKIAMDNNAKGVALWRLGAEDPTIWKVLKNPIEAQKNPNVLHKINSLDEVNYSGQGEILQIENERKNGLRDFKVGKDGYLTDEVYQSLPSAYEVQRYGKPKGKQVVLTFDDGPDPKYTPEILNILKENKIKAAFFVLGENAQLNPSIVKRIYDEGHEIGNHTFKHPNVADTSLLRTKVELNTTQRLIQEITGHSTVLFRPPYEADANPDSSNEIVPILRAQNMNYTMVAEKVDPEDWATPSTNELVKRALNPVYKGEGNIILLHDAGGNRTHTVEALPIIIKDLRKHGYSFVTISDLMNKEREEIMPPVSSEGKQYLLYNKAVFSGAGYFKHILTTIFYVAIGLGIFRFLFLIYFAWKQKRKTLSRYINSSYQPFVSVVIAAYNEEKVIAKTIRSILDSNYREFEVIVVDDGSTDDTSKVMKETFYKHSKVRFIQKENGGKSSAMNLAFQQSRGEIIVTLDADTIIAQDAISLMIRHFEDQNVAAVSGNVKVGNRRNLLTTWQHVEYITGFNLERRAFDELNCITVVPGAIGAWRKKNVVESGYLSEDTLAEDTDLTITFLRQGHRIVYEEKAYAFTESPEDVKSLIKQRYRWSYGTLQCLWKHRKALCNSKHKTLGFIALPNMWLFQYVLQFIAPLADILMIMGLFGSDPLKVLGFYFVFFLLDLLASLFAFKLEEENPKPLVWLILQRFIYRQFMTYVVIKSICSSLRGVAVGWNKLKRMGSVKHSTEHKEAS	PGPT0018645_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_01958	1290	rsgI		Anti-sigma-I factor RsgI	ATGATGAATAAAGGAATTGTGATGGATATAAAAAAGCATAGCGTAGTTGTTTTAACACCAAATGGAGAGTTTATTACGTGTAAAAGAAAAGGGGATTCTTGCATAATCGGGGAGGAAATCTTATTTGATGAGCAAGAACAAAAAGCATCGCATTTTTCGATCCCTTCCTTTTTAAAACCTGCATCAATACTTGTTGCTTGTTTTCTATTTGCAGTGCTGTTTTTCTACAATCAACCAGAAGAAAAAGTATTTGCTTACGTCTCAGTTGATATAAATCCAAGTTTAGAGGTGAGCGTAACAAAGGATTTTCGTGTTATAGATTTGCAGGCTTGTAATGATGATGGAAGGCGTATTTTAAAAGAATTGAAGCAATGGGAAAATAAACAATTGCAAGAAGTAATACGTAGGATTATAAAGCAAAGTCAAGAGGATAAGTATTTAACGAATGATAAGCAAGTTATGCTAACAGCTGTTGCAAAGGACAAGGCACTAGAACCACAGTTGGAAAAGGCGATGAAAGAATTAAAGAAAGAATATGAGCTAAAACATATTACAGTTGAATATCAAAGTAGCACAATGCAAGTACGAGAGAATGCTAGAAAAGCTGGAATTGGCACAGGTGTCTATATAAAGCAAGAGAGTGAGAAGAACAAATCGCTTACGCCTCCTGCCACGCCGTCTAATCCGGTGGAAAACGAAGAAGAGATACAATTGCAGCCGGAGTCATCTCCTGATGCATCACCGGATTTGTCTCCCGTACAAGAAAAAAAATATGAGAAGCCAGAGCATAAAGAACAAAAGAAAACAGAAGAACAGCCATCGAAGCAAATAAAAGAAAACAATGGAAGAGGATCCCAGCAAGAAAATAGAGGGAATCAACAGGAGAATAACAGTAGAGAATCTCAACAGGGAAATAATGGGGACCGACAAGGGAACAATGGAAGAGGATCTCAACAAGGAAATAATGGGAATCAGCAAGGGAACAACGGAAGAGGATCTCAACAAGGAAATAATGGGAATCAGCAAGGGAACAATGGAAGAGGATCTCAACAAGGAAATAATGGGAATCAGCAAGGGAACAACGGAAGAGGATCTCAACAAGGAAATAATGGGAATCAGCAAGGGAACAACGGAAGAGGATCTCAACAAGGAAATAATGGGAATCAGCAAGGAAACAATGGAAGAGGACCCCAGAAAGAAAATGATGGAAACGAGCAAGGGAACAATGGTAGGGGGTCTCAACAAGAAAATAGAGGCCACCAGCAAGGGAATGAAAAGAAGAATCAATAG	MMNKGIVMDIKKHSVVVLTPNGEFITCKRKGDSCIIGEEILFDEQEQKASHFSIPSFLKPASILVACFLFAVLFFYNQPEEKVFAYVSVDINPSLEVSVTKDFRVIDLQACNDDGRRILKELKQWENKQLQEVIRRIIKQSQEDKYLTNDKQVMLTAVAKDKALEPQLEKAMKELKKEYELKHITVEYQSSTMQVRENARKAGIGTGVYIKQESEKNKSLTPPATPSNPVENEEEIQLQPESSPDASPDLSPVQEKKYEKPEHKEQKKTEEQPSKQIKENNGRGSQQENRGNQQENNSRESQQGNNGDRQGNNGRGSQQGNNGNQQGNNGRGSQQGNNGNQQGNNGRGSQQGNNGNQQGNNGRGSQQGNNGNQQGNNGRGSQQGNNGNQQGNNGRGPQKENDGNEQGNNGRGSQQENRGHQQGNEKKNQ				NA	NA	NA	NA	NA
AK009_01959	723	sigI		RNA polymerase sigma factor SigI	GTGTTGAGTTTAGTAATGAAGATCTTAAGAAAACCGAAAATAGAAGATATCGTATGTAACATACAAAACAACGAAGAAGACAAAGAAGCGTTTATCGTACAGTATCAGCCTTTTATTAGAAAATCAATCTCATCTGTCTGCCGCCGATATATAACAGAACAGGATGATGAATATAGCATTGGATTGTTTGCGTTTAACGAAGCAATTGAACAGTATTCATATACAAAAGGAAAATCCTTTTTAGCGTTTGCTGATCTTCTTATAAAAAGAGATGTAATTGACTATATACGTAAGGAGTCTAAACATAACTTTGTCTTTTTAAAAGAAGATGAGCAAGAGGAAATGTTAGAAATGCAAGTATCGCTTACGGAGTATATGAAAGAGATGGAAAATAGTAACCGTAAGGAGGAAATTCTTCATTTTCAAAGTGTGCTAGCTGAGTTTAAAATCACATTCTCAGAGCTTGCTAAAGAATCTCCTAAGCATCGTGATACACGTGAGCACTTAATAGAAATTGTAAAAATTATTATAAAAGAAGAGGAAATGATGGAAGAGCTGTTCCGAAAGAAAAAGTTACCGCTTAAACATATAGAACCACGTGTTAGGGTAAGTCGTAAAACGTTGGAACGACATAGAAAATACATTATTGCAATGTGTATTATTTTTGCAAACAACTATACATATATTCTGGATTACATAAGAGGGGAAAAGCATGATGAATAA	MLSLVMKILRKPKIEDIVCNIQNNEEDKEAFIVQYQPFIRKSISSVCRRYITEQDDEYSIGLFAFNEAIEQYSYTKGKSFLAFADLLIKRDVIDYIRKESKHNFVFLKEDEQEEMLEMQVSLTEYMKEMENSNRKEEILHFQSVLAEFKITFSELAKESPKHRDTREHLIEIVKIIIKEEEMMEELFRKKKLPLKHIEPRVRVSRKTLERHRKYIIAMCIIFANNYTYILDYIRGEKHDE				NA	NA	NA	NA	NA
AK009_01960	162			hypothetical protein	ATGGGGGTCAAAAAATATTTTTTAAAAAAATACATATTTATTTCAAAAATAAAAACCATCAATTTGAAAAAGGATAATCAAATTGATGGTTTTCTTATAATATCTATTAAATTGGATTCTCATTTTGTACATTTTATCATGATTGAGGAGAGAAAAGATTAA	MGVKKYFLKKYIFISKIKTINLKKDNQIDGFLIISIKLDSHFVHFIMIEERKD				NA	NA	NA	NA	NA
AK009_01961	129			hypothetical protein	ATGCTTTCTATTTACACTGCATTTATAGAAAAGTATTTTGATGATATACAAAAGTGGATTCAAAATATTACATGTTGCTTTGCTTTATTCGTAGTGGTTTTAGTAGCTCTATGGATAGGTTATTTTTAG	MLSIYTAFIEKYFDDIQKWIQNITCCFALFVVVLVALWIGYF				NA	NA	NA	NA	NA
AK009_01962	480			hypothetical protein	ATGAAAAATTATACTATAGAAGAAAAAGATAGCTTTATTGTATTAGGTATTGGAACTGAAATTAAGAGTGAATACACAGACTTTGCTGGAATAAATAAAGAAAAGGAAGACTTTTGGTCGGCTGTTAAAGAAGATGGAAGGCTGGACACTTTAAAAGCTTTAGCTACAAATGAATACATTTTTTCCGTGAGCGAAGCGGTGAATAACAAAATGATGTATTATGCGGGTGTCATGACAGAAGCACAAATAGAAGAAGAATCTAGAGTGATTCAGTTTCCGAGGGGAGAATACTTAGTAGTGAAAGGGGAAGACAAAACGGCTGAAGAGCTAAGTAATAAGCTTACTGGCATCGCCTTCGGTCAAGCTTTACCAGAAGCAAAGGATTTTGCCTATGTTGGTGGACCGAATACAACGGTTGAGATGGGGCAGAGAAATGGCTTAGTATTTGGTGAAATGTGGATTCCGGTTGTTAGGAAGTAA	MKNYTIEEKDSFIVLGIGTEIKSEYTDFAGINKEKEDFWSAVKEDGRLDTLKALATNEYIFSVSEAVNNKMMYYAGVMTEAQIEEESRVIQFPRGEYLVVKGEDKTAEELSNKLTGIAFGQALPEAKDFAYVGGPNTTVEMGQRNGLVFGEMWIPVVRK				NA	NA	NA	NA	NA
AK009_01963	963			hypothetical protein	ATGAAAAAAATTGAACGGATTAATACAATTATGCGGTATATCAACAACCGCTCCCACTTTACAATATCTGAAATTATACAAGAATTTAACATATCACGGTCGACAGCTATTAGAGACATTAGAGAAATTGAAGCTATGGGAATGCCACTTGTCGCTGAAGTTGGGAGGACCGGGGGATATTTTGTTATGCACAACTCTATCCTGCCCGTTGTTCGCTTTACTGATAATGAAGTGAAAGCTCTTTTTATTGCCTTTATGGCTACGAGGAATCAACAACTTCCCTACCTAAAGAGTCGTCAATCTTTAGCCGAAAAACTACTAGGACTCATCTCAGAAACCCAGCAAGATGATCTCGTTCTTTTAAATCAACTCTTGCTTTTCCAAGGGACTAATCCTTATAATCCCGATCTACTTGAGCTTTCTGATCTCCCCCATCCTATGTTAGAAAAACTCATTCAAATCCTTCTTTTAGATAACCATTTATTGATTACTATGAAAGAAGATGAAGAAATCAAGTCTTATCCAATTTATCTATTGCACCTTTATCAAGAAAAAAGCCATTGGATCATTGAAGGTTTTGACTTAAAAGAAGAAAAGAAGATGATGTTTCCTGTCGATGATCTCATTAATATCGAACCATACACGACGAACAAAAGGCTAAATAAGAAAAAGATTTTAGAAAAACTAAGTAAGAAGGACGAAGCAATTAACCTTGTATTTGAACTTGGTCCGACAGCAATTGCCCAGTTCAAAAAATACCATCCTTTAAAAATTTCAATATCTTATACTAATCCTTACCAATCCACAGCCATTTTAAAAACTTTTATCAATGTTAACAATCCCGATGAAGTGATGGAAATAATAAATTGGCTGCTTTTTCTAGGGAAGGATATTAAAATCAAAGAAATACCCGATGAAGTATTAGCAGATTTACAAAAACGAGTGTGCTTATACATTCCATAA	MKKIERINTIMRYINNRSHFTISEIIQEFNISRSTAIRDIREIEAMGMPLVAEVGRTGGYFVMHNSILPVVRFTDNEVKALFIAFMATRNQQLPYLKSRQSLAEKLLGLISETQQDDLVLLNQLLLFQGTNPYNPDLLELSDLPHPMLEKLIQILLLDNHLLITMKEDEEIKSYPIYLLHLYQEKSHWIIEGFDLKEEKKMMFPVDDLINIEPYTTNKRLNKKKILEKLSKKDEAINLVFELGPTAIAQFKKYHPLKISISYTNPYQSTAILKTFINVNNPDEVMEIINWLLFLGKDIKIKEIPDEVLADLQKRVCLYIP				NA	NA	NA	NA	NA
AK009_01964	750	drrB		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGAAAAGCAAAACAGGGGTATTACTAGGGCGCTTAATGCGCAATATTATGCGTAGTCCGGATACAATTATTACGGTAGCAATTACACCGATTATGATGATGCTATTATTTGTTTACGTATTTGGCGGGGCTATAAAGACAGGAACGGATAACTACGTTAATTATTTATTGCCGGGAATTTTGCTAATGGCTATCGCATCCGGTGTAGCTTACACTTCCGTGCGACTATTTACGGATGTAAAGAGTGGGCTGATGGCACGTTTCATTACGATGCCTATTAAGCGCTCATCGATATTGTGGGCTCACGTTTTAACCTCTTTTGTTGCTAATGTACTTACTATCGTGGTGGTTATTCTTGTTGCATTATTAATGGGTTTCCGTTCCAGTGCTAATATTCTAGAGTGGCTCGCGGTAGCTGGAATACTTGGGATGTTTACGCTGGCGCTAACATGGCTAGCTATCATTCCAGGATTGAAAGCGAAGTCTATGGAAGGGGCGACTGCTTACTCGTACCCGCTAGTTTTTCTTCCATTTATTAGTTCGGCCTTTGTGCCTACCGAAACGATGCCAAAAATTGTTCGTGCGTTTGCAGAGAATCAGCCTGTAACTTCAATCGTGAATGCGATTCGTGCTCTTTTATATGAAGGAACTGTGGGTAACGATATTTGGATTGCACTCGCTTGGTGCGTAGGTATAATGGTCATCTCTTACTTTTTCGCCAGTAAAGCATTTAAACGTCAGTTAGGGTAA	MKSKTGVLLGRLMRNIMRSPDTIITVAITPIMMMLLFVYVFGGAIKTGTDNYVNYLLPGILLMAIASGVAYTSVRLFTDVKSGLMARFITMPIKRSSILWAHVLTSFVANVLTIVVVILVALLMGFRSSANILEWLAVAGILGMFTLALTWLAIIPGLKAKSMEGATAYSYPLVFLPFISSAFVPTETMPKIVRAFAENQPVTSIVNAIRALLYEGTVGNDIWIALAWCVGIMVISYFFASKAFKRQLG	PGPT0006730_21953	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_01965	762	drrA		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGAGCAATGCAGCAATTTCTATAAAAGGGTTAAAAAAATCTTTTAAAGATAAAGAAGTCTTAGAGGGAGTGGATTTTGAGGTGCAGCGTGGCGAAATTTTTGCGCTGCTAGGCTCAAATGGAGCGGGAAAGACGACAACGGTCAATATCCTTTCGACGTTAATGAAACAAGATGATGGTGAAGTGAGTATTTGCGGTTTTGACGTCCAGCGACAACCAGATCATGTTCGTCAAAGCATCAGTTTGACAGGACAGTTCGCAGCTTTAGACGGCATGCTTACTGGAAGGGAAAACTTGATAATGATCGCTAAGTTACGTGGTGTTTCCAATCCCGCACAAGTTGCTGATAATCTACTTGCAAGATTTAGCCTGACTGATGCGGTCAACCAGAGGGCAGACCAGTATTCAGGCGGGATGAAGCGCCGACTTGATATCGCGATGAGTTTGATTGGGGCGCCAGCAGTTATTTTTCTTGACGAACCAACGACTGGACTTGATCCGGAAGCGCGGATCGAAGTGTGGGATACCGTCAAGGAACTTGCCGGCAGCGGCACAACGATCTTGCTCACTACTCAGTACTTGGAGGAAGCGGAACAACTGGCGGACCGTATCGCTATTTTGCATGGCGGAAAAATTATTACGACAGGTACTCTTACTGAACTGAAAGAGATGTTCCCGCCAGCAAAAGTAGAGTATATCGAGAAGCAGCCGACGTTGGAAGAAATTTTCCTTGCGATTATCGGTAAAAAGGAGGAGATGTAA	MSNAAISIKGLKKSFKDKEVLEGVDFEVQRGEIFALLGSNGAGKTTTVNILSTLMKQDDGEVSICGFDVQRQPDHVRQSISLTGQFAALDGMLTGRENLIMIAKLRGVSNPAQVADNLLARFSLTDAVNQRADQYSGGMKRRLDIAMSLIGAPAVIFLDEPTTGLDPEARIEVWDTVKELAGSGTTILLTTQYLEEAEQLADRIAILHGGKIITTGTLTELKEMFPPAKVEYIEKQPTLEEIFLAIIGKKEEM	PGPT0006725_22779	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_01966	342			hypothetical protein	ATGTTAGAAATGTTCAAAAAGTTAATTGGTGATAAAAAAGAGTACAAAATGATGATGGCACGAGTTGAGACTCTGCCAGAGGACTACCAATTTGTATTTAAGAAAATTCAAAACTACATGTGGAATTTCTCAGCGGGTAACGGGATGGATATGTTACACATACAGTATGAATTAATCGATTTGTTCGAAGCGGGTGCAGCGGAAGGAAGACAAGTGCTTGACATTACTGGGGATGACGTGGCTTCCTTTGCTGACGAACTAGTGGCAAACGCTAAAACGTATGTCTCCAAGTATCGTGAAGATTTGAATGAAAGTATTATGAAGAAATTGAGAAAAAAATAA	MLEMFKKLIGDKKEYKMMMARVETLPEDYQFVFKKIQNYMWNFSAGNGMDMLHIQYELIDLFEAGAAEGRQVLDITGDDVASFADELVANAKTYVSKYREDLNESIMKKLRKK				NA	NA	NA	NA	NA
AK009_01967	321			hypothetical protein	ATGGAAAATTTAACTGAAATGCTGAAAGGTTCACTGGAAGGGTGTGTACTGGAAATCATTAGTCGCCGTGAAACGTATGGCTATGAGATTACCCGCCACCTGAATGATCTTGGGTTTACCGAAGTTGTAGAAGGTACGGTGTATACTATCCTCGTACGATTAGAGAAGAAAAAGCTTGTGAATATTGAAAAGAAACCATCAGATATGGGGCCTCCTCGTAAGTTTTATTCATTAAATGAAGAAGGCCGCCAGGAGCTTGAATTGTTTTGGGAAAAATGGGATTTTGTATCGTCAAAAATTAACGTCTTGAAGTCAAAATAG	MENLTEMLKGSLEGCVLEIISRRETYGYEITRHLNDLGFTEVVEGTVYTILVRLEKKKLVNIEKKPSDMGPPRKFYSLNEEGRQELELFWEKWDFVSSKINVLKSK				NA	NA	NA	NA	NA
AK009_01968	1317			hypothetical protein	ATGGAGAAAAGAAAGTATTCAGTAACACCACAAGATCGAATGAATTATGTATTAGGTCTTTATTCTGCAGATCAACAAATTAATGCAGTTCTTTATTTTCCTGTAGGTATATCCAAGGAAATACTTGAAGAATCAGTAAGGATAACGTTGCAATTGCAACCAGTTTTGAACAGCCGGTTTGTAGAAAATGATATTCCTTACTGGGAGGAACATTCATCTGACACTAACTCATCTATTTGCTTTTTTGCAGAAGGAAATAATCAAGAACTTGAAATAATGGCAATAGATTTTATTAAAGAACCTGGTGATCGTATACAGGGGCCTATGGTTCAAACGAAATTATTACGGGGCACTACAACAGATATGTTAGTTGTGAAATTATCTCATCTATGTTCAGATGGTGCAGGAGTCAAGGAATATATTAAATTGCTTGGAACAATATATACGCACCTTTCATTGGGACGGTCTAAGAAGCAAATTATAAAGGAATTTGATGAGGGAAATGAGAGTTGTCGAGATCAATCACATGTATTCAAATACGCTGGAATATCGGACATAAAAAGTGCGTATCGTCCTAACCAAGAACAACAGGCATCGTTATGGTCTTTTCCATCTCAACCTAACAAAAATAAATTTCCCCAAATGTCCGTACGGCGATTGAGCCATGAGCAAACTCTACGTTTAACCCAATGGACAAAAGCACAACAGGCTACCTTGAATGATGTAATCATGACTGCATACTTCCGAGCTTTATCACATTTCACTGTGTATGCAGAACCTCGCACTGCAGAAAAAATGATTGGCTTGACAATTGATTTACGTCGATATCTGCCTAATAATACAACTGGTGCTATTTGCAACTTATCCGGTATGGAAATGCCAGTGATTAAAATGGAAGACGATGAAACATTTAAGCAGACTCTTGTTCGAGTTAAACAATCAATGGATAAAATAAAGTCTCAAAATCCAGGTCTTTCTTCAGCAGCAGGAATGGAGCTACTGGCAGAAATGAAGCTATCTACAGTGAAGGAAATGTATAATCAGCAATATGAAGAGGCTGTACAGATGGGGATGGCGTTGCCATTACTGACAAATTTGGGAGTGATCGCTGAGGAACCTATTCAGTTTGGTCAAATTCAAGCTGAGGACGGGTATATGGCATCGCCTATTATGTATGCACCATTCTTTTCAATGGGAGTAAGCTCTTATAATGGAAGACTTACATTTACGATTGGTTATCATGCGCCGGATACATCAAAAGAAAAGGTAGAAAAATTTTTAGATAGTGTTGTGAATCAACTATCAGAAATAAAATAA	MEKRKYSVTPQDRMNYVLGLYSADQQINAVLYFPVGISKEILEESVRITLQLQPVLNSRFVENDIPYWEEHSSDTNSSICFFAEGNNQELEIMAIDFIKEPGDRIQGPMVQTKLLRGTTTDMLVVKLSHLCSDGAGVKEYIKLLGTIYTHLSLGRSKKQIIKEFDEGNESCRDQSHVFKYAGISDIKSAYRPNQEQQASLWSFPSQPNKNKFPQMSVRRLSHEQTLRLTQWTKAQQATLNDVIMTAYFRALSHFTVYAEPRTAEKMIGLTIDLRRYLPNNTTGAICNLSGMEMPVIKMEDDETFKQTLVRVKQSMDKIKSQNPGLSSAAGMELLAEMKLSTVKEMYNQQYEEAVQMGMALPLLTNLGVIAEEPIQFGQIQAEDGYMASPIMYAPFFSMGVSSYNGRLTFTIGYHAPDTSKEKVEKFLDSVVNQLSEIK				NA	NA	NA	NA	NA
AK009_01969	1287	hcp		Hydroxylamine reductase	ATGTTTTGTTATCAATGTGAACAAACGCCAACAGGCGGATGTAAAGTGATGGGTGTTTGTGGTAAGAATGAAACGATTGCGAGTTTACAAGATACGATTGTGTTTGGGCTAAAAGGAATTGCAGCTTATCGCACACATGCTGCTCAGCTAGGGTATACGGATGCATTTGTAGATGCTACAACACAAGAAGCTTTATATATGACATTAACAAATTCTAATTTTAACGAACAAGAGCATATTGATATGGCTATGAAAGTTGGGAAATCAGCTTTACGGGTGATGGAGTTATTGGATGAGGCACATACGAATCATTTTGGTGTGCCAGAACCTGTACAAATTACACAAAATCGTGTAGAAGGTAAAGCAATTGTAGTTACGGGCCATAATTTATTTGCATTAGAAGAACTATTAAAGCAAACAGAAGGAAAAGACATTAATATTTATACGCATTCTGAAATGCTACCAGCACACGGATACCCGCAGCTGAAAAAATATAAACATTTAAAAGGAAACATCGGTAAGGCATGGTATGATCAAAGACGCCTTTTTGAAAAATTTACTGGTGCCATATTAGCTACAACGAACTGTGTTATGCCAATTAAAGGCTCGTACTCTGATCGATTCTTTTCATATGACATTGCAGGTTTAGAAGGTGTACAAAAAATTGAAAATGATGATTTTACAACGTTAATTCAAAAAACGCTAGAACTTCCAGAAGTACATATGGAGTCGGATGAACAGTTAGTGACAGGGTTTCATCATAATACAGTATTATCATTAGCTCCAGAAATTATTGACGCAGTAAAAAAAGGGAAAATAAAGCGTTTCTTTGTTATCGCCGGTTGTGATGCACCGGGAAAAGGCGGAGAATATTATCGTGAATTAGCAACGTCACTTCCGCCAGAAACGGTTATTTTAACAACTTCTTGCGGGAAATTCCGCTTTAATGATGTGGATTACGGTGTTGTACCTGGTACGGAAATTCCGCGTTACATTGATTTAGGACAGTGCAATAATTCAATTTCTACAGTGAAAATAGCGGCTGCTTTAGCTGATGCTTTTCAATGTGAAGTGAATGAATTGCCAGTAAGTATTGTCCTATCATGGTTTGAACAAAAAGCGGTTGCCATTTTACTAGGGCTATTTAGTCTTGGGATTCAAGATATTCGCATCGGTCCAAAGGCTCCTGAATTTATTTCAGCTGGCGTGCTTGATGTATTACAAGAAACATTTGGTTTAAAACTAATTACAAATGCAGCAGAAGATATGGCTATGATGTTATCGTAA	MFCYQCEQTPTGGCKVMGVCGKNETIASLQDTIVFGLKGIAAYRTHAAQLGYTDAFVDATTQEALYMTLTNSNFNEQEHIDMAMKVGKSALRVMELLDEAHTNHFGVPEPVQITQNRVEGKAIVVTGHNLFALEELLKQTEGKDINIYTHSEMLPAHGYPQLKKYKHLKGNIGKAWYDQRRLFEKFTGAILATTNCVMPIKGSYSDRFFSYDIAGLEGVQKIENDDFTTLIQKTLELPEVHMESDEQLVTGFHHNTVLSLAPEIIDAVKKGKIKRFFVIAGCDAPGKGGEYYRELATSLPPETVILTTSCGKFRFNDVDYGVVPGTEIPRYIDLGQCNNSISTVKIAAALADAFQCEVNELPVSIVLSWFEQKAVAILLGLFSLGIQDIRIGPKAPEFISAGVLDVLQETFGLKLITNAAEDMAMMLS	PGPT0000630_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-HYDROXYLAMINE_REDUCTION,PGPT0000630-hcp-K05601	NA	NA
AK009_01970	105			hypothetical protein	ATGACTGAAACTTTAAAAACACTTATAATGCTTGATGCTACTTACGTTGTTATAGCAATTATGACAGTTCTAGTATTTGTATACTTGGAATTAAAATCTCAGTAA	MTETLKTLIMLDATYVVIAIMTVLVFVYLELKSQ				NA	NA	NA	NA	NA
AK009_01971	477			Metallo-beta-lactamase type 2	ATGGTAGAAAAGAAATTTCAGAAGCGCGTAACGGATTTCATTATTACACATGCGCACGCTGATCGAATTGGCGGAATAAAAACGTTGAAAGAAAGAGGTATTAAAGCGCATAGTACAGCATTAACTGCAGAATTAGCAAAGAAAAATGGATATGAAGAGCCGCTTGGAGATTTACAAACAATTACGAGTTTGAAGTTTGGCAATACAAAAGTAGAAACGTTCCATCCAGGGAAAGGACGTACAGAAGATAATATTGTTGTTTGGTTGCCACAATATAAAATTTTAGCTGGAGGCTGTTTAGTGAAATCTGCGGAAGCAAAAGATTTAGGAAATGTTGCAGATGCATACGTAAATGAATGGTCTACATCGATTGAGAATGTGCTGAAGCGATATGGAAATATAGATTCGGTAGTACCTGGTCATGGAGAAGTAGGAGACAGAGGATTACTTTTACATACATTGGATTTATTAAAATAA	MVEKKFQKRVTDFIITHAHADRIGGIKTLKERGIKAHSTALTAELAKKNGYEEPLGDLQTITSLKFGNTKVETFHPGKGRTEDNIVVWLPQYKILAGGCLVKSAEAKDLGNVADAYVNEWSTSIENVLKRYGNIDSVVPGHGEVGDRGLLLHTLDLLK				NA	NA	NA	NA	NA
AK009_01972	291			hypothetical protein	ATGACTCTCTTCGCTTCACCATCATTATTCATAGTAGCAATCATTTCATTTGCACTAGCTTATTTCATCGGAGTAAAACAATACACTTGCCTCTTATCAGGATTCAACGAACGCCGCGTGCTTGATAAAGTGACACTATCAAAAATAGTAGGTCTTTATAATTTAATTGCTGGTGTCATTGCGACAATCGGTAGTGTCTTCACTACTCCTAATGCCAAAATCTTATTTCCTATCATTATAATTGGACACGTTATAATCGCGGCTTATGTAAATACACGCATGGTGCAGTGA	MTLFASPSLFIVAIISFALAYFIGVKQYTCLLSGFNERRVLDKVTLSKIVGLYNLIAGVIATIGSVFTTPNAKILFPIIIIGHVIIAAYVNTRMVQ				NA	NA	NA	NA	NA
AK009_01973	282			hypothetical protein	ATGGAATTCTGGATGGTTATACCGATAGTAGCCTTTGGATTCATTTATATCGCTGAAAAATTAACTACAATTGAAAAGAAAAATGATGCGCGTTTAAAGAGAATTGAAGATAGATTACAATTAATTACGAAAGAATTGGGAATTGTAGAAAGAGAACCTGAAATTAATAAAGAACTACGCCAGCTTGTAGAAGAAGGCAAAAAAATTACAGCAGTTAAGAGAGTAAGAGAAGCTTTTGGTTTTTCCTTACTAGAAGCGAAGCAATATGTTGATAAATTATAA	MEFWMVIPIVAFGFIYIAEKLTTIEKKNDARLKRIEDRLQLITKELGIVEREPEINKELRQLVEEGKKITAVKRVREAFGFSLLEAKQYVDKL				NA	NA	NA	NA	NA
AK009_01974	195			hypothetical protein	ATGAAAAGATTTTTAAATACGTTACTTCAATTTGTAGTTCTTTCAATCATGCTACATTTATTATTTGATATAGTGGGTTGGCTTGTTTTCAATGCACCAATTAAAAACAAACAAATCATCATTTCTTTAATAACAACCTCATGGGTTATGTACATGTACCGAGACAAATTTTTTCAAAAGTTCACTTCAAACTAA	MKRFLNTLLQFVVLSIMLHLLFDIVGWLVFNAPIKNKQIIISLITTSWVMYMYRDKFFQKFTSN				NA	NA	NA	NA	NA
AK009_01975	1038	dap_4		D-aminopeptidase	ATGAACTTAAAAAGTAGCAATATATACGAAAAAATGAATCAATATTCCGTTGCAGGTTTAAGCCTCGCTGTTATACGTAATGGCAAACTAGATGAAGCGACTGCCTTTGGAACACTTGAAGATGGAACAACTAGAGCTGTTACTACAAATTCTCTCTTTAATTCTTGCTCTATCAGCAAATTCATCACTACAATGCTCGTACTAACATTATCAGAGCAAGGTATCGTATATTTAGATGAAGACGTAAATGATAGACTTACATCTTGGAACATACCTACCAATCTATTTACCTCACAGAAAAAAGTCACCCTGCGAAATTTATTAAGTCACCAATCTGGAATTATTGATCCTCCTAATAGTTTTGAACATTTTACATTTGCACAAGGGCGACCAAACTTATCTGAACTCCTTGCTGGTAAAACATCATATTGTTCAGTACCAATAGAAATAACTTATAAACCAGAAAGTGAATTTCACTACTCTGATGCAAACTTTTGTATTATCGAACTACTACTTGAAGATATAACTGGAAAACCATTTAACCTTTTACTTGAAGAATATATCTTTCAGCCACTACAAATGAAAAATAGTACACTCTTCTCTCCAAAAGACATAGATAAAACCGATGTTTTTGCTTGCGGCCATAATAAAGATAGAACTGTAACAAATGAGAGATTTCCATTTTATCCATTCGCAGCTGCTTCAGGCATTTGGACAACACCAACTGACTTATCAGCTTTAGTCATTGAAATCATTCATTCCTTACAAGGAAAGGGCAAACTAAAACTTTCTCAAAAATTAGTACTAGACATGATTTCTCCTCAAGGTTGCTCAAAATGGACTGGATTAGGTGTTTTTCTAGATGATTCTAATGAAGAATTACAGATTTATTCACTCGGATGGGGCGTCGGATTTCAATGTATGATGGTTTGTTATCCATACTGCGGGAATGGCGCTGTTATTATGACCAATTCCGATTTAGGTGTTCATCAAATGGAAGGGATCATTGGTGAGGTTGTAAAAACGTTATCCTTATAA	MNLKSSNIYEKMNQYSVAGLSLAVIRNGKLDEATAFGTLEDGTTRAVTTNSLFNSCSISKFITTMLVLTLSEQGIVYLDEDVNDRLTSWNIPTNLFTSQKKVTLRNLLSHQSGIIDPPNSFEHFTFAQGRPNLSELLAGKTSYCSVPIEITYKPESEFHYSDANFCIIELLLEDITGKPFNLLLEEYIFQPLQMKNSTLFSPKDIDKTDVFACGHNKDRTVTNERFPFYPFAAASGIWTTPTDLSALVIEIIHSLQGKGKLKLSQKLVLDMISPQGCSKWTGLGVFLDDSNEELQIYSLGWGVGFQCMMVCYPYCGNGAVIMTNSDLGVHQMEGIIGEVVKTLSL				NA	NA	NA	NA	NA
AK009_01976	249			hypothetical protein	ATGAAGTTTGATGATCAACGCTTACTAGGAGTCCGATTAGGTTCTGTACTTGTGACAGAGGAAAATCAATATTTAGTAATTAAGAAAAAAGATCATTATGCACTATTAAATATACATAATTTAGAATGCACTCATGTTGAAGTGCAGTTAGAACATTTGGAAGAAATGTTACATGAAGATTTCCAGGAAAGTATAACGGAGATTATCGCACCAGAACATATAAAAATTGTTGCGAAAAATGTTATATAG	MKFDDQRLLGVRLGSVLVTEENQYLVIKKKDHYALLNIHNLECTHVEVQLEHLEEMLHEDFQESITEIIAPEHIKIVAKNVI				NA	NA	NA	NA	NA
AK009_01977	1044	czcO	COG2072	putative oxidoreductase CzcO	ATGTTAGATGCAATCATTGTTGGAGCTGGTCAAGCGGGATTGACAATAGGATACTACTTGAAGCAGGCAGGATATAATTTTTTATTACTCGAGGCAGGAAACCGAATTGGTGATTCATGGAGAAATAGATATGATTCTTTGCGGCTCTTTACACCGAGTGAATATAGTAGTTTACCAGGTAGGATATTAAAAGGAGCAAGGAATGAATTTCCACATAAAGATGAAATTGCAACTTATTTAGAAGAATATGCAAGACATTTTCAATTACCGGTACAATTACAAACGGAAGTTCTAAAAATAAAGAAAGAAAAAGAAATATTTGAATTACATACTCCTACAGAAATTTTACAAACGAAAAAAGTTATTATCGCATCAGGTGGTTTTCAGCATCCATTTATTCCCTCAGTTTCAGCAAATCTTTCACCACATATTTTTCAAATACATTCATCACAATATAGATCATCATCGCAAATTCCACAGGGGAAGGTACTTGTAGTAGGTGGCGGAAATTCAGGAATGCAAATCGCAGTAGAACTTGCAAAAACGCATGAAGTTACGGTGTCTATTAGTCATCCCTTAACGTTTTTACCGTTACAACTTTTTGGAAAAAGTATTTTTAATCTGCTAGAAAAAGTGGGTTTATTGTACGCTGAAATAAATACAAAGAGGGGAAGATGGTTTCAGAAGAGAAAGGACCCTATTTTCGGTTTTGAAGGTAAGAAACTTATTCGTAATGGAGCAATCAAACTACAAGAAAAAGTAGTAAGTGCATCAGGAAATAACATTATGTTTCAGAATGGTGATATTTATAGTGCAGAAAGCGTTATATGGTCAACTGGTTTTGTTCAAAATTATAATTGGATTGAAATTGAACAGGCAGTGAATGAGAAAGGGTTTCCTAATCATATAAAGGGAGTTAGTCCAGTAAGAGGATTGTATTATATCGGATTGCCGTGGCAATCTCAAAGAGGCTCTGCGCTTATTTGTGGTGTAGGAAAGGATGCAGTATATTTGCTTTCTGAAATCAAAAAAATAGATCAGTAG	MLDAIIVGAGQAGLTIGYYLKQAGYNFLLLEAGNRIGDSWRNRYDSLRLFTPSEYSSLPGRILKGARNEFPHKDEIATYLEEYARHFQLPVQLQTEVLKIKKEKEIFELHTPTEILQTKKVIIASGGFQHPFIPSVSANLSPHIFQIHSSQYRSSSQIPQGKVLVVGGGNSGMQIAVELAKTHEVTVSISHPLTFLPLQLFGKSIFNLLEKVGLLYAEINTKRGRWFQKRKDPIFGFEGKKLIRNGAIKLQEKVVSASGNNIMFQNGDIYSAESVIWSTGFVQNYNWIEIEQAVNEKGFPNHIKGVSPVRGLYYIGLPWQSQRGSALICGVGKDAVYLLSEIKKIDQ	PGPT0013865_1626	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
AK009_01978	360			hypothetical protein	ATGATTACACCTATATTTAGAATTTTTGATATTGAAAAAGCAAAACTATTTTACATAGGTTTTTTAGGATTTAAACTGGATTGGGAACATCGGTATGAGGAAAATATGCCATTATATATACAAATTTCGTTAGATGATACTGTGATACATTTATCAGAACATCATGGTGATGCCTCACCAGGTGGTACGATTCGGATCAAAATAGATGATGTAAAGGATTATCATTCTGTATTATTAAGTAAAGAATATGCTTATTCGAAGCCGAATATAGAAAAAACACCTTGGGGTACAATTGAATTAACTGTGATTGATCCGTTTTTAAATAGAATTATATTTTATGAGGAAAAATTGTCGGAGTAG	MITPIFRIFDIEKAKLFYIGFLGFKLDWEHRYEENMPLYIQISLDDTVIHLSEHHGDASPGGTIRIKIDDVKDYHSVLLSKEYAYSKPNIEKTPWGTIELTVIDPFLNRIIFYEEKLSE				NA	NA	NA	NA	NA
AK009_01979	693	yeiL_2	COG0664	Regulatory protein YeiL	ATGAAGAAAGTATGTAATTCTATTAAACTAGCAGAGTATATGAAGAAAAATAATATTGATTCATTTTTTAGTCATGATATGAAGCCATATATGGAACTTATATTTTTTAAAAAGAATGAGTTTATTTGTAGAGAAAATGAAGAAATAGAGTATTTATTTTTCTTCGTTGAAGGAAAAGCGAAAGCGTTTAATACATTAAGTAACGGGAAATCTGTATTGCTATGTTTCTATGATAGTTTGCAGCTGTTAGGAGATGTTGAGTTAATTCATTCTCAAAAGACTGCTTCAAACGTACAAGTAATGGCAGATTCATATTGTGTTGCTTTACCTTTAGGAAAAGTGAGAAATCAGCTATTTCATGATGCGAAATTTTTAAGATGTATTTGTGGATCGTTAGCACATAAGTTAAATCGACTTTCAAAAAATAGTACAATTAATTTACTATATCCACTTGAAAATAGACTTGCAAGTTACATGTTAGCAGCAGGGGAACGAGCGGTGCAGCACGGAAATCGAATTGTGTTTAGTGGGAATTTAACGGAAACAGCTGAATTGTTAGGAACGAGTTATCGGCACCTATTACGTACATTAAATATTTTTTGTGATAAAGAGATTATAAAGAAAAACAATGGTTGCTTTGAAGTAGTGAATGTGGATGTTTTGAGGGAATTGGCTGCGGATGTTTATAAATAG	MKKVCNSIKLAEYMKKNNIDSFFSHDMKPYMELIFFKKNEFICRENEEIEYLFFFVEGKAKAFNTLSNGKSVLLCFYDSLQLLGDVELIHSQKTASNVQVMADSYCVALPLGKVRNQLFHDAKFLRCICGSLAHKLNRLSKNSTINLLYPLENRLASYMLAAGERAVQHGNRIVFSGNLTETAELLGTSYRHLLRTLNIFCDKEIIKKNNGCFEVVNVDVLRELAADVYK				NA	NA	NA	NA	NA
AK009_01980	447			hypothetical protein	ATGAAATATAAAGGGGATATTACATTGTATAACTTTCTTTCTGTCTTTATTGGTGTGCTCATCGCCGTTATGCTCCCATTGAATGGAATTTTATCCGAGTTAATTGGGAAGTATACAGCAAGCGTTGTCATTCACCTCGTCGGTTTAATTGCAGTTATCTTCATTTTAATCTTAAACAAACATAGAATTCATTTCGATAAAGGTATTCCGATTTTTTTATATAGCGCTGGAGCGATTGGAGTATTCACTGTTCTTTTTAATAATATAAGTTTCTCCGTCCTCGGTGCCTCTATTACGATCGCATTAAGTTTACTCGGTCAATCTATTGCTTCCATCGTTATTGATCATTTCGGCTTATTAGGAATGAAAGTTGCAAAGTTTGAAAAGAAAAAACTAGTTGGATTAGCATTCATCTCTTCTGGGATTATTATCATGACAATTTATTAA	MKYKGDITLYNFLSVFIGVLIAVMLPLNGILSELIGKYTASVVIHLVGLIAVIFILILNKHRIHFDKGIPIFLYSAGAIGVFTVLFNNISFSVLGASITIALSLLGQSIASIVIDHFGLLGMKVAKFEKKKLVGLAFISSGIIIMTIY	PGPT0009795_1699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK009_01981	465			hypothetical protein	ATGTTATATATTACGATCGCTATTTTAGCTGGTGTTTCTATCGTCGTTGCTAGAATTATTAACGCGAATTTAGCAAAGGAAATTGGAAACTGGGAAGGCACGTTTTTCAATTATATTACTGGATTATTTTTCTCTATGTTATTTTTAATTTTCAGTTCAGATTCATTGTATATCCCTATTCATACGTTGCAATCTATTCCTATCGCCGTGTACTTAGGCGGATTAGTAGGCGTTATCGTTATTTCATTATCCAACTATATTACTCCTAAAATATCAGCCTTTTATTTAACATTACTCATCTTTATCGGACAATTATTTGCGGGGACTATTATTGATTTCTTCCTGACAAATGAACTCTCTATCGGTAAAGTTATCGGTGGCATTTTCGTATTAATTGGGCTCACTTACAATTTACTCATAGATCGCCCGATAAAAACTGTGAAGCATAACCAAGTTCAACTATAA	MLYITIAILAGVSIVVARIINANLAKEIGNWEGTFFNYITGLFFSMLFLIFSSDSLYIPIHTLQSIPIAVYLGGLVGVIVISLSNYITPKISAFYLTLLIFIGQLFAGTIIDFFLTNELSIGKVIGGIFVLIGLTYNLLIDRPIKTVKHNQVQL	PGPT0009795_1997	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK009_01982	495			hypothetical protein	TTGTTAGGTAGCGTATTAATTATTTCTGGAATTGTATGGTTTGTAAACTCGGGAAAATCTATTCAAGATCTGTATACTGCAAATAAGCCGAAAAAGAAAGCTACTATTATTTCAAGCTCCCGAGATCCAAATGAGCCTCCTGTTTTTTTAGGAAAACAGGAAATAAAAGATATACATGTCGAATCAATTAAAACAAAAAAGGATATCTTTCTCACAAAAACAGATGAGTTAAAAACGTTTATTAACAGTATGAATACCGCAAAAAAAGGCAAATTAACATTGGATGAGGAAGGATCAGATTTAATAGATTGTGATATGTGGATTACTTTCGAAGATGGAACTTATAAAAAATATTTCATATGGGTAGTTGATCATCACAACAGCGAAGTGATGATTGCTCAGCAAGATACTCCTGATGATGTAAACCTTACGTACTATCAGTTAAACGAAGATAGTTCAAAAAAAGTTTATAATTTATTTAAAAAAATTATTTAA	MLGSVLIISGIVWFVNSGKSIQDLYTANKPKKKATIISSSRDPNEPPVFLGKQEIKDIHVESIKTKKDIFLTKTDELKTFINSMNTAKKGKLTLDEEGSDLIDCDMWITFEDGTYKKYFIWVVDHHNSEVMIAQQDTPDDVNLTYYQLNEDSSKKVYNLFKKII				NA	NA	NA	NA	NA
AK009_01983	753	Y2-aiiA		N-acyl homoserine lactonase	ATGACAGTAAAAAAGCTTTATTTCATCCCAGCAGGTCGTTGTATGTTAGACCATTCTTCTGTTAATAGTACGCTCACACCGGGAAATTTATTGAATTTACCTGTATGGTGTTATCTTTTGGAGACGGAAGAAGGGCCTATTTTAGTAGATACAGGTATGCCAGAAATTGCGGTTAATAATGAAGGTCTTTTTAACGGTACATTTGTTGAAGGACAGATTTTACCGAAAATGACTGAAGAAGATAGAATCATAACTATTTTAAAGCGTGCAGGGTATGAGCCAGATGATCTCCTATATATTATTAGTTCACATTTGCATTTTGATCATGCGGGAGGAAATGGTGCTTTTTCGAATACGCCAATCATTATACAGCGTGCTGAATATGAGGCGGCGCAATATAGAGAAGAATATTTGAAAGAGTGTATATTGCCGCATTTGAACTACAAAATTATTGAAGGGGATTATGAAGTGGTACCTGGTGTTCGGTTATTGTATACACCAGGACATTCGCCAGGGCATCAGTCACTGTTAATTGAGACAGAAAAATCCGGTCCGATATTATTAACGATTGATGCATCTTATACGAAAGAGAATTTTGAAGATGAAGTGCCGTTTGCAGGATTTGATTCAGAATTAGCTTTATCTTCAATTAAACGTTTAAAAGAAGTTGTGGCGAAAGAGAAACCAATTATTTTCTTTGGTCATGATATAGAGCAGGAAAAGGGATGTAAAGTGTTCCCGGAGTATATATAG	MTVKKLYFIPAGRCMLDHSSVNSTLTPGNLLNLPVWCYLLETEEGPILVDTGMPEIAVNNEGLFNGTFVEGQILPKMTEEDRIITILKRAGYEPDDLLYIISSHLHFDHAGGNGAFSNTPIIIQRAEYEAAQYREEYLKECILPHLNYKIIEGDYEVVPGVRLLYTPGHSPGHQSLLIETEKSGPILLTIDASYTKENFEDEVPFAGFDSELALSSIKRLKEVVAKEKPIIFFGHDIEQEKGCKVFPEYI	PGPT0025590_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0025590-ahlD|aiiA|attM|blcC-K13075	NA	NA
AK009_01984	1020			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCAATTGGTTTACATGAATACTTACCTATTGAAGAAGAAAACAGTTTAATTAATATTGAAGTTGAAAGACCTGTTGCTACAGGAAGAGATATACTCGTTAAAATTAACGCAATTTCCGTTAATCCAGTTGATACAAAAGTTCGCTCTCCGAAAGATAAAAAAGAAGATATAGCAAAAATACTCGGCTGGGATGCGAGTGGTATTGTCGTACAAACGGGCGAAGGTTGTACGTTATTTAAAGAAGGCGACGAAGTGTTTTACGCTGGAAGCATTACGAGACAAGGTACATATAGTGAATATCATTTAGTTGATGAAAGAATCGTTGGTAAGAAACCAAAAACGTTAAATGATTCTGAATCTGCCGCAATTCCTTTAACAGCGATTACAGCTTGGGAAGGTTTATTTGAACGTTTAGGCATTGATCATACTAAAAAAGATACGAACTCATTTAAAAACATTTTAATTATCGGCGGAGCTGGTGGTGTCGGTTCAATTGCAATTCAACTGGCGAAATGGGCTGGACTAAATGTAATTGCAACTGCTTCCCGCGGCGAAACGATAGACTGGGTTAAAAAGCTTGGAGCTGACCATACAATTGACCATCATGCCCCTTTAAAAAAGCAATTACAAAGCCTTGGATTCAGCGATGTAGATTATATTTTCTGCTTAAACAATACAGATCAACATTGGCAAGCAATATGTGACCTTATTAAACCACAAGGCAAAATTTGCTCTATCGTAGAAAATGAACACCCTCTTGAAATGGGTATTTTAAAAAGTAAAAGTGCTACACTCGTTTGGGAGTTTATGTTTACAAAAGCAATGTATGAAACTGGCGATATGATTACGCAGCACGAACTATTAAATAAAGTAAGCGAACTACTAGATGAAGGCATTTTAAAGACTACCTTAAATGAAACATTAACACCGATTAACGCTGAAAACTTAAAGAAGGCACATGCACTACTTGAAAGTGGACGTACCATCGGGAAAATCGTATTAGAGAAATTTTAA	MKAIGLHEYLPIEEENSLINIEVERPVATGRDILVKINAISVNPVDTKVRSPKDKKEDIAKILGWDASGIVVQTGEGCTLFKEGDEVFYAGSITRQGTYSEYHLVDERIVGKKPKTLNDSESAAIPLTAITAWEGLFERLGIDHTKKDTNSFKNILIIGGAGGVGSIAIQLAKWAGLNVIATASRGETIDWVKKLGADHTIDHHAPLKKQLQSLGFSDVDYIFCLNNTDQHWQAICDLIKPQGKICSIVENEHPLEMGILKSKSATLVWEFMFTKAMYETGDMITQHELLNKVSELLDEGILKTTLNETLTPINAENLKKAHALLESGRTIGKIVLEKF	PGPT0013255_1344	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK009_01985	1392	yifK_1	COG1113	putative transport protein YifK	GTGGCAAACAAAGAATTGAAAAGAGGTTTAGAAGCACGTCATATTCAAATGATTGCTTTAGGCGGAACAATTGGTGTTGGTTTATTTATGGGGTCAGCCAGCACAATTAAATGGACAGGTCCGTCAGTAATGCTTGCTTATGCAATTGCAGGTATTTTTATCTTCTTCATTATGCGTGCCATGGGAGAAATGTTGTATATGGAGCCAAGTACAGGCTCATTTGCGACATTCGGTCATAAGTATATTCATCCGCTAGCTGGTTATATGACAGCGTGGAGTAACTGGTTCCAGTGGGTTATCGTTGGGATGTCAGAAATTATCGCGGTTGGAGCGTATATGCAATATTGGTTCCCGGATTTACCAGCTTGGATACCAGGTATAATTGCCATGGTCATTCTTGGTGCAGCTAACTTAATTTCTGTTAAGTCATTTGGTGAATTTGAATTTTGGTTCGCGATGATTAAAATTGTTACGATTCTATTAATGATTATTGCGGGATTTGGTCTTATTTTCTTCGGAATTGGTAACGGTGGAGAAGCGATTGGTATATCTAATCTTTGGTCAAATGGCGGTTTCTTTACAGGTGGTTTTTCAGGATTCTTCTTTGCATTATCACTTGTAGTTGGAGCATATCAAGGTGTGGAATTAATCGGGATTACTGCTGGTGAAGCGAAAAATCCGAAGAAGACACTTACAAGAGCAATTCAAAGTACAATTTGGCGTATTTTAATATTCTATATTGGTGCTATTTTCGTTATTGTAACTGTGTATCCGTGGGATCAATTAAGTACAATTGGTAGCCCGTTCGTAGCGACTTTTGCGAAAGTTGGTATTACGGCAGCAGCTGGACTTATTAACTTCGTTGTAATTACAGCGGCAATGTCTGGTTGTAATAGTGGTATTTATAGTGCTGGACGTATGCTTTATACGTTAGGGATAAATGGACAAGCACCAAAATATTTCACAAAACTTTCTGGAAATGGTGTACCTTTATTTGGTACAGTTGGCGTAATTATCGGTTTAGCGGTTGGTGTTGTATTAAGCTATATTGCACCGAAAAACTTATTCGTATATGTATATAGTGCGAGCGTACTTCCTGGTATGGTACCATGGTTCGTCATTTTAATTAGTCAAATTCGTTTTAGAAAAGAAAAGGGAGCAGAGATGAAAGATCATCCGTTCAAAATGCCATTTGCTCCTGTAACAAACTATTTAACGATTGCCTTTTTAATTATGGTATTAATCGGAATGTGGTTTAACGATGATACTCGTATTTCACTAGTTGTAGGTATTATTTTCTTAGCTATCGTTACAATTAGTTTCTATGCTTTTGGAATAGGGAAGCGAGCTCCGTTAGACGTTCAAAACAATAAAGAGATTTCAAGTAAATAA	MANKELKRGLEARHIQMIALGGTIGVGLFMGSASTIKWTGPSVMLAYAIAGIFIFFIMRAMGEMLYMEPSTGSFATFGHKYIHPLAGYMTAWSNWFQWVIVGMSEIIAVGAYMQYWFPDLPAWIPGIIAMVILGAANLISVKSFGEFEFWFAMIKIVTILLMIIAGFGLIFFGIGNGGEAIGISNLWSNGGFFTGGFSGFFFALSLVVGAYQGVELIGITAGEAKNPKKTLTRAIQSTIWRILIFYIGAIFVIVTVYPWDQLSTIGSPFVATFAKVGITAAAGLINFVVITAAMSGCNSGIYSAGRMLYTLGINGQAPKYFTKLSGNGVPLFGTVGVIIGLAVGVVLSYIAPKNLFVYVYSASVLPGMVPWFVILISQIRFRKEKGAEMKDHPFKMPFAPVTNYLTIAFLIMVLIGMWFNDDTRISLVVGIIFLAIVTISFYAFGIGKRAPLDVQNNKEISSK	PGPT0000815_1137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_01986	1200	ydhC		Inner membrane transport protein YdhC	ATGAAAAAAGTCTCAGTACCATCACTTTTGTTAATGATTGTTCTTGTCGCATTTCCGCAAATTAGTGAAACGATTTACACACCGTCTTTACCTGATATTTCAAAGGCGTTACATGTAAGTAATAATGAGGTGCAGTTAACGCTTAGTGTGTATTTTGCTGGATTTGCTTTAGGTGTATTTTTTATTGGATGGCTATCAGATATAATTGGCCGTCGCCCAGCAATGTTATTTGGAATTGTAATATATGGCGCTGGGAGTTTCTTATGCTATATTGCAAATTCCATTGAATTTTTATTGGTAAGTCGTTTTATTCAAGCGTTTGGAGCAAGTGCAGGATCAGTTGTGACGCAAACGATTCTTCGTGAAAGTGTAGAAGGGCATAAGAGGCATGTTATGTTTGCTCAAATCTCGGCAGTCATTGCTTTTACACCAGCGATAGGACCGTTAATTGGTGGCTTTCTTGATCAAATGTTTGGATTTAAAATAGTATTTTTAAGTTTAGTAGTTATGAGTATCGGTATTTTTCTGTATACGTTTGTTTCTCTTCCTGAAACAAAAACGGGCTCAGTAACGAATAAAATAAATGTATTTTCAGTCTTGAAGAGGCTAATTACAAATCCGAAAGTAGTAACATATGGGCTATTAATTGGAGGAGCAAATGGTGTTTTATTTAGCTATTATGCAGAAGCGCCGTTTATCTTTATTGAATACTTTCAATTATCGCCTAGTATGTATGGATTTCTAGGAATTGTTGTAGCGTCTGCTTCTATTGTTGGAGCGAAAGTTTCGAAACGTTTACTTGCTACTTATAAACCAGAGAAAATTATATATATCGGTTGTCTCGTAATGACAGGAGGAGCTATCCTTTTATCTGTTATTACGTTTGTTGGATCAAATCCAAACATAATATATATGATTGGATTTTTAGTAGCGATGTTTATATTGCTATTAGGAATTGGAGTAGCATTACCTAATTGTTTAAGTTTAGCGTTAGTAGATTTTCAAGATGTCATTGGTACAGCAGGTGCATTGTTTAGCTTAGGGTACTATGTAATTGTAACGATGACAATTTGGGGAATGAGTCAACTGCATACAGGATCGTTAATGGTGATGCCACTTTATTTTCTGGTTATTGTAGTTATAATGGTAGTGTTTACTAGGGTGTTTATCTTTGGTAAGCAAACTTCGAAATCGATTTAA	MKKVSVPSLLLMIVLVAFPQISETIYTPSLPDISKALHVSNNEVQLTLSVYFAGFALGVFFIGWLSDIIGRRPAMLFGIVIYGAGSFLCYIANSIEFLLVSRFIQAFGASAGSVVTQTILRESVEGHKRHVMFAQISAVIAFTPAIGPLIGGFLDQMFGFKIVFLSLVVMSIGIFLYTFVSLPETKTGSVTNKINVFSVLKRLITNPKVVTYGLLIGGANGVLFSYYAEAPFIFIEYFQLSPSMYGFLGIVVASASIVGAKVSKRLLATYKPEKIIYIGCLVMTGGAILLSVITFVGSNPNIIYMIGFLVAMFILLLGIGVALPNCLSLALVDFQDVIGTAGALFSLGYYVIVTMTIWGMSQLHTGSLMVMPLYFLVIVVIMVVFTRVFIFGKQTSKSI	PGPT0020800_415	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
AK009_01987	573			hypothetical protein	ATGATTGAAATTTTAAGGACAGTAGTAAACTTTCTAATTTCTCTATTCTCAGGAGAATTACCATTTGTATATTATGTATGGATTATTACCCTATTCCTAATTCAAATAACCCAATCTACTCTAAACTATAAACTCTTTAACAAGAAAGACAATTTCAGCACTTATATATTGGAAGGATTACTTGCTTTTATTATTTTATTGTTTGGAGGAATATTAGTATCTAAGTTACTTGCTTACATAATAGAAGACCCTACTATTAGTATGACGAATTTAACACATTATTTTGTTTCTCTTATCATATTAACTATATTTGTCGTAATAACCTGTGTTAAAGACTTTATAGAGACATCTATAAAGAATAAAAATATATCTCTTTTTAGCTTTTTAGTAATTTCCTTAATAACAAGTATACTTTCATTCAAGTTTTTATCACCTTTCATTGAAGGTTCTTTTTCTCTTTCTAAATCTTTTATAACTACTTTAATCATTCTAGTAACTGTATCCATTCCTCTATTAATTTCTTTAGAGGAAAAATATGCAGATGAAAAGGAAAAGGAAACGGAAAATTTATAG	MIEILRTVVNFLISLFSGELPFVYYVWIITLFLIQITQSTLNYKLFNKKDNFSTYILEGLLAFIILLFGGILVSKLLAYIIEDPTISMTNLTHYFVSLIILTIFVVITCVKDFIETSIKNKNISLFSFLVISLITSILSFKFLSPFIEGSFSLSKSFITTLIILVTVSIPLLISLEEKYADEKEKETENL				NA	NA	NA	NA	NA
AK009_01988	225			hypothetical protein	ATGGAAGATGTTTACGCTAAAATTGACAGTCTCAAGGCGGAGCAAAAAGAAATTATGCGAGACATTCGAAATTTAGAAACGCGTACCACTATTAATGAGAAAGACATAGCAACAATCAATAAGCAATTAGAAAAAATAAGTACAAACACAACTTGGATTTTGCGAATTATTATTAGTACGATAATAATGTCAGTTTTAGGATTGATATTAAAAGGAATGATTTAG	MEDVYAKIDSLKAEQKEIMRDIRNLETRTTINEKDIATINKQLEKISTNTTWILRIIISTIIMSVLGLILKGMI				NA	NA	NA	NA	NA
AK009_01989	279			hypothetical protein	ATGAAGGTTAAATTTGCCGTAATAAAAGATGAGAACTTTGATTGTAGTTTATTGGAAACAAAATTATTGAAAACTTTTAAAGAAGTAGATTGTGAAGCAGATATTGTAAAGGTTGAGGATGAAATTTTTGAAAACAATGATATACAAATGCATTTGTCAGAAATAACCATTAATGTTACTGGGAAAAATATCGGATTTAGATCCGTTTCAGCCAGTATATTTATTGTTCTAGAGAGTTTATCAATACAGCTATTTCGTATTCATATTAGTATACTTTAA	MKVKFAVIKDENFDCSLLETKLLKTFKEVDCEADIVKVEDEIFENNDIQMHLSEITINVTGKNIGFRSVSASIFIVLESLSIQLFRIHISIL				NA	NA	NA	NA	NA
AK009_01990	744	gdhIV	COG1028	Glucose 1-dehydrogenase 4	ATGAAATTGAAAGACAAAGTAGCAATCATAACTGGTGGAGCAAGTGGAATTGGCGAATCTACTGTTCGTCTTTTTATCGAAGAAGGTGCAAAAGTAGTTATTGCTGACTTTTCTGAACGTGGAAAAGAACTATCAGATGAATTGAATGCACATGGATATAATACGTTATTTATTAAAACTGATGTAACAAAAGAGGCAGATATTAAACAGCTAATTCATGAGACAGTAAGTACATACGGTAAATTAGATATTATGTATGCCAATGCCGGCGTTGCTGATGATGCACCGGCAAATGAATTATCCTATGAAAAATGGAAAAGAACTATTGATATTAATTTGTCTGGGGTATTCCTTTCTAATAAATATTCGATTGAACAATTCCTTAAACAAGGTACAGGTGGTGTCATCGTTAACGCTGGTTCGATTCATAGTTTTGTTTCATTACCTACCCCAACAGCATACTCCTCTGCAAAAGGTGGTGTGAAACTATTAACTCAAAATTTATGTACTGCCTACGCTAAATACGGAATACGTATTAATGCGGTGTGCCCCGGTTATATTGACACCCCTTTACTTGGTAGTGTTAATCCTGAACAGAAAGAATATTTAGCTTCACTTCATCCACAAGGCAGACTTGGAACACCAGAAGAAGTCGCTAAAGCTGTCTTATTTTTAGCAAGTGATGATGCTAGTTTTGTTAACGGTACAACACTTCTTGTTGATGGAGGCTATACTGCATGTTAA	MKLKDKVAIITGGASGIGESTVRLFIEEGAKVVIADFSERGKELSDELNAHGYNTLFIKTDVTKEADIKQLIHETVSTYGKLDIMYANAGVADDAPANELSYEKWKRTIDINLSGVFLSNKYSIEQFLKQGTGGVIVNAGSIHSFVSLPTPTAYSSAKGGVKLLTQNLCTAYAKYGIRINAVCPGYIDTPLLGSVNPEQKEYLASLHPQGRLGTPEEVAKAVLFLASDDASFVNGTTLLVDGGYTAC	PGPT0014705_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK009_01991	663	bshB2	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	ATGGAGAGACATGTACTTGTTGTATTTCCGCATCCAGATGATGAAGCATATGCTGCGGGAGGAACAATTCGCTTATTAACAGATCAAGGAGTACCTGTAACATATGCATGTGGTACTCTAGGACAAATGGGACGTAACATGGGTAAGAACGTATTCGCTAACCGTGAAACGATTCCACATATCCGTAAGAAAGAATTGAAAGATGCTTGTGAAGCAATGGGTATTAAAGATTTAAGAATGCTTGGCTTCCATGATAAAACGTTAGAATTTGAAGATGTTGATTTCGTTGCTGACAAAATTGAAGCAATCATTCAAGAAGTAAATCCATCTCGAATTATTACATTTTATCCAGAGCACGGTGTACATCCAGATCATAATGCATTTGGCCGCGCTGTCGTTCGCGCTGTATCACGTATGCCAAAAGAAGAGCGCCCAGTTATTCATGCTGTTGCGATTACGAAAAATCGTGAAGCAGTATTAGGAGAACCGGATGTTGTAAATAACATTAGTGAAGTATTTGATCATAAATTAACTGCATTAGGTGCGCACCGTTCACAAACAGAAGCAATGCTTGAAGACACGCATGCAAAAATAAAAAACAAAGATGCAGCAACATTAAAATGGCTGCAACTTGAACAGTTTTGGACTTATAAATGGGAGTAG	MERHVLVVFPHPDDEAYAAGGTIRLLTDQGVPVTYACGTLGQMGRNMGKNVFANRETIPHIRKKELKDACEAMGIKDLRMLGFHDKTLEFEDVDFVADKIEAIIQEVNPSRIITFYPEHGVHPDHNAFGRAVVRAVSRMPKEERPVIHAVAITKNREAVLGEPDVVNNISEVFDHKLTALGAHRSQTEAMLEDTHAKIKNKDAATLKWLQLEQFWTYKWE	PGPT0019575_385	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK009_01992	351	yojF		putative protein YojF	ATGGAAATAGTAAAAGATAGTTCTCTTATTCAAAATGAAATTGAACGTTTTGTAAATAAAGATGTATATATTCATTTAGAAACGACAAACGGAGCGTATGCATCACACATAAATGAAAAGATGATGACAGTTGGTGCTTTCATTCGAAATGCGATTATCCGTTTTGAACGCGGGAAGATAACTGGAACAAATCCATACCGAGTTGGTCTGAAAATGGATCACGGTTGGGTATATGCTGAAGGTATTACGCACTGGGAAGTAGACGATCAAGAGCGTTTATTATTAGCTGGACATGATAATTTAGGTCGTCTAGCAGTTGCACTTGAGTTAAGCTTAACACCATTTAAGTAA	MEIVKDSSLIQNEIERFVNKDVYIHLETTNGAYASHINEKMMTVGAFIRNAIIRFERGKITGTNPYRVGLKMDHGWVYAEGITHWEVDDQERLLLAGHDNLGRLAVALELSLTPFK	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
AK009_01993	1326		COG1055	putative transporter	TTGGAACAGTCAGCACATGAAGTAGCAAATTGGCAATATTATTTTGCAATTGCCGTATTTTTAATCACGTACGGATTTATTATTTCTGAGAAATTGAATCGTGCTGTAATCGCACTATTCGGTGCTGCTATTATGATTATTTTTGGAGTTGTAGATTTACATACTGCTTTCACATCACATATTCAATGGGAAACGATTACCCTTTTAATTGGGATGATGATTCTCGTACATATTACGAGTCAATCAGGCGTCTTTGAATTTGTGGCCATTAAAGCGGCAAAAGCAGCTGGCGGAAAACCGATTCGCATTTTATTATTACTATCCCTATTAACTGCTGTCGGATCAGCATTTTTGGACAATGTAACGACTGTTTTATTAATCGTTCCTGTTACATTATCCATTACACGTATTTTAAAAGTAAATCCTGTGCCTTATTTGATTTCAGAAGTGCTGTTTTCAAATATAGGCGGAACAGCAACATTAATCGGTGATCCACCTAATATTATGATTGGATCAGCAAACAAGCATTTAGACTTTAACGCCTTTTTACTTAACTTAGCTCCAATCGTAATTATTATTTCTATCGTGACACTTGGCATTATTTACTTCATGTATCGTAACAAACTAAAAACAACACCTGAACAAATCGAAAAACTAATGGCATTAAACGAAAAAGATTACATTAAAGATCAAAGCCTCCTTTTAAAATCTATTTCGATTTTAGGACTAACAATTTTAGGCTTCGTACTTCATTCGATTATTCATGTAGACGCTGCTGTTATCGCGATGACAGGCGCTACACTTCTTATGTTAATCGGCGTGAAAGAACATGATATTGAAGATGTATTTGCCCACGTTGAATGGGTTACCATTTTCTTCTTCGCCGGATTATTTGTTCTCGTTGGCGGGTTAATTGATATCGGACTTATCTCTTCACTTGCAAGAGAAGTAATCGATGTAACAAACGGTGACATCGGATTCGCAGCTATACTTATTTTATGGGTATCTGGCATCGCATCTGCGACAATCGACAACATCCCATTTGTCGCAACGATGATTCCTCTTATTCAAGACTTAGCTACAGGACTCGGACTATCTGTCGATTCTCCGCAAATCGAAGTACTATGGTGGGCGTTATCTCTTGGAGCTTGCTTAGGAGGAAATGGAACACTAATCGGAGCATCTGCAAACGTAGTCGCTGCTGGTATTGCAAAACGTGAAGGACATGGCTTCTCTTATATGGACTTCTTAAAAATTGGTTTACCATTAACTATTGTTGCACTCTTGTTATCACATGCTTATATATATTTACGTTATTTAATGTAA	MEQSAHEVANWQYYFAIAVFLITYGFIISEKLNRAVIALFGAAIMIIFGVVDLHTAFTSHIQWETITLLIGMMILVHITSQSGVFEFVAIKAAKAAGGKPIRILLLLSLLTAVGSAFLDNVTTVLLIVPVTLSITRILKVNPVPYLISEVLFSNIGGTATLIGDPPNIMIGSANKHLDFNAFLLNLAPIVIIISIVTLGIIYFMYRNKLKTTPEQIEKLMALNEKDYIKDQSLLLKSISILGLTILGFVLHSIIHVDAAVIAMTGATLLMLIGVKEHDIEDVFAHVEWVTIFFFAGLFVLVGGLIDIGLISSLAREVIDVTNGDIGFAAILILWVSGIASATIDNIPFVATMIPLIQDLATGLGLSVDSPQIEVLWWALSLGACLGGNGTLIGASANVVAAGIAKREGHGFSYMDFLKIGLPLTIVALLLSHAYIYLRYLM				NA	NA	NA	NA	NA
AK009_01994	228			hypothetical protein	ATGAATTTAGAAAAGGCAAAACCAGTAAATGAAGAGGTCGCCGAATTAAAAGAACTTATTAAAGAGTTACACGGAAGTGTGCACCAACTTCAAAGTGAAGTGCAGCAACTAAGGCACGAAAGACCAGTTGTTGAAGTGAGAAAAGGTGTTCAATTATCACCAACAATTGTCGGACAAATTGGTGGTATGATTTTAGGTGGTTTAGCAATTATCGGTATATTTTGGTGA	MNLEKAKPVNEEVAELKELIKELHGSVHQLQSEVQQLRHERPVVEVRKGVQLSPTIVGQIGGMILGGLAIIGIFW				NA	NA	NA	NA	NA
AK009_01995	552		COG1670	Acetyltransferase	ATGACAATGAATCTTTTTCGAAATAAAACGATTAAATTATCAGTTATGAGAGAAAAAGATGTTGAATTGATGGCTATGTGGCAAGAGGATAGTGAGTATTTAAGAAATGTAGATACAGATGTAGCATTCCCGCAATCTTTAAATGAAATAGCAAGTGATGAGTTATTAAAAGGACGGAGATCGAATAGTGTTTCTTTCATGGTAAGGACAGTTCAAGAAGATCGCTTAATTGGTTTTGTGGCGATTCATGGTATAGAGTGGAATAACAGAACAGGTTTATTAGCCATTGGTATAGGAGATGCGAATGATAGAGGAAAAGGATATGGGAAAGAAGCAATACATCTTATTCTAAAGTATGCTTTCTATGAATTGAATTTACACCGCATCGGTCTCGATGTTATTTCGTATAATAAACCTGCCATTGCATTGTATAAAAAGATGGGTTTTCAAATGGAAGGCTGTATGAGAGAAGCGGTTCAAAGAGATGGGAAGTGTTTTGACCGTCTGATTATGGGGATATTGCGGGATGAATGGATAGAGCTGCAAGGTTAG	MTMNLFRNKTIKLSVMREKDVELMAMWQEDSEYLRNVDTDVAFPQSLNEIASDELLKGRRSNSVSFMVRTVQEDRLIGFVAIHGIEWNNRTGLLAIGIGDANDRGKGYGKEAIHLILKYAFYELNLHRIGLDVISYNKPAIALYKKMGFQMEGCMREAVQRDGKCFDRLIMGILRDEWIELQG				NA	NA	NA	NA	NA
AK009_01996	90			hypothetical protein	ATGTCAGCGCTTATTGTAAGTATCCCGTTTATAAAGCAGTTTATGGAACTAGGGGATAAATGGGCTGAAACAATTATCCCCATTATGTAA	MSALIVSIPFIKQFMELGDKWAETIIPIM				NA	NA	NA	NA	NA
AK009_01997	765			hypothetical protein	ATGTTTTATATAAAACAGCTACTCAATTTCACTTATGAACAAGCATTATCCTGTTTGTTCCCGGTTGTTATTTTCTTAACACTAGCCCTTTCAAAAATTGTTTCAATCCCAGGGTTATACCGCTATGATTTCATACTCATCGTATGCCTTCTTATGCAGTGGATTATGTACAAGACGGGTCTTGAAACAAAAGACGAACTAAAAGTAATTACCATCTTCCACCTCATCGGCCTTTTACTAGAAATATATAAAGTACATTTCGGTTCATGGAGTTATCCCGAAGAGGCATATTCGAAGGTTTTTGGAGTTCCGCTATACAGCGGTTTTATGTATGCGAGTGTCGCGAGTTACATATGTCAAGCGTGGAGAAGGTTGCATTTAAAAATGCATCATTGGCCGAAAGCTATTTTTGCCGTGCCGTTAGGAGCTATGATTTACTTCAATTTTTTCACACACCACTTTACATACGATTTTAGATGGATATTAACTTTACTACTATTCATTGTTTTCTCTCGCACATTTGTACAATTTTCATTACAAGGCGTTACATATAAAATGCCACTCGTTCTCTCCTTTTTCCTTATCGGATTTTTCATTTGGATTGCAGAGAACATCGCAACATTTTTCGGAGCATGGCAATATCCAAATCAACGGGAAGCGTGGAATCTCGTTCACTTAAGCAAAATTAGTTCATGGTTTTTACTCGTTGTTATTAGCATTATGATTGTTACACAACTCAAACATTTGAAAGAGTCGAAAAAATAA	MFYIKQLLNFTYEQALSCLFPVVIFLTLALSKIVSIPGLYRYDFILIVCLLMQWIMYKTGLETKDELKVITIFHLIGLLLEIYKVHFGSWSYPEEAYSKVFGVPLYSGFMYASVASYICQAWRRLHLKMHHWPKAIFAVPLGAMIYFNFFTHHFTYDFRWILTLLLFIVFSRTFVQFSLQGVTYKMPLVLSFFLIGFFIWIAENIATFFGAWQYPNQREAWNLVHLSKISSWFLLVVISIMIVTQLKHLKESKK				NA	NA	NA	NA	NA
AK009_01998	1038			hypothetical protein	ATGGAATATAAGTATAATGATAGAGAAGAACTAGAAATAGGGGTGAATACTATGATTACATTAGAGCAAAAGTTAGAGCAATATAAACATACATATGTACAGTTAAAGGGAGAACTAAAATGGAAAACGAGTGATTCTCGAACAGGAATGATGATTGCTGCTATGTATGCAGGTAGTGATAAATTGTTTAATCTCGAACGTTTTTTAGAAATTAGTAGTTATATTAAGAATCAGGTAGGGATGTTTTCATACTTAAAGTCTTATCATCGTTTTGTAGTGGCCGCAACATTAGATATTCACTTTACAGATTACAAGAAAGCTTTTCGGACGTTTTTAGATTTATATGAACAATTGGTCACTAGTGGCTTTAGCCGGAGTATATTTACTTATCTCGCAGCAGCTGTGCTTTTAACAGAAGAAAATGAACAGCATGGCGCGCACATTCAGCGTTCGATGCAAGTATATAAACGCATGAAAAAGGATCACCTCTTTCTTACAAGTACAAATGATTATCCGCTCGCGGTTTTATTAGCAGGACAATCAGAGAATGTAGAAACACTTATGGATCGTGTAGAACGTCTGTATCAGAAACTAGCGAAAGCTGGTTTGCGTAAAGGGAATGATCTTCAGTTTTTAAGTCATATTCTTTCACTAAAGAAGGATGTCCGTGAAGAAATGTTAGTTGCAACATGTACAAACATATGGAATTTGTTAAAACAAGAAAAGGTAAAAGTGAAACAGATGCATTATCCAGCAATCGGGCTACTAGCGTTACTTGAAGATGGAGAAAAAGAGATTTATGCTATTAAAGCGTTGATTGAAAAACTGCAGGGGGAGAAATTATTCCGTTGGCATGCAGATGCGAATATTCTTATTGCTATTCAACTGTTCGTAAGTCAGAAAGGTGAGGAAAGTAAAGCTACCAACACAGGTTTACAAACTATGATAGAAGTCCTCATACAAGCACAACAAGCAGCTATGATGGCAACGATTGCCGCTTCATCTGCAGCAACATCTTCTGCTAGTAGTAGCTCATAA	MEYKYNDREELEIGVNTMITLEQKLEQYKHTYVQLKGELKWKTSDSRTGMMIAAMYAGSDKLFNLERFLEISSYIKNQVGMFSYLKSYHRFVVAATLDIHFTDYKKAFRTFLDLYEQLVTSGFSRSIFTYLAAAVLLTEENEQHGAHIQRSMQVYKRMKKDHLFLTSTNDYPLAVLLAGQSENVETLMDRVERLYQKLAKAGLRKGNDLQFLSHILSLKKDVREEMLVATCTNIWNLLKQEKVKVKQMHYPAIGLLALLEDGEKEIYAIKALIEKLQGEKLFRWHADANILIAIQLFVSQKGEESKATNTGLQTMIEVLIQAQQAAMMATIAASSAATSSASSSS				NA	NA	NA	NA	NA
AK009_01999	456			hypothetical protein	ATGAATAGACTAGTGGGTTTAAAACAATTTGAAATAACGCGCGGGGCGTTACTTAAATTTATGGAAACGTTAGATGATAAAACTGCGGATACGCAGCCAGAGGGTTTTAACAATACAATTCGTTGGCATATCGGTCATGTGTTAACGGCAGCAGAGGTTTTCATGTTTGGAAAAGAATTCAAACAATTACCAACTGAATATCCAGGTATGTTTGGGTATGGATCACGACCATCTAAATGGAAAACAGAAGGACCATCGTTAGAAGTATTAACGGCTCAATTAAAAGAACAAGCAAAACGTATTAACGAAATTCCAGCAGAAGCATTTGAAAATAAACTGCCAGAGCCATTCCTAGGATTGGAAACAGTAGGGGAGCTTTACGGTATGATGCTTTATCATGAAGCTGATCATATTGGGCAAATGAAAGCGATGGATCGTATTATTAAAGCTCTTTAG	MNRLVGLKQFEITRGALLKFMETLDDKTADTQPEGFNNTIRWHIGHVLTAAEVFMFGKEFKQLPTEYPGMFGYGSRPSKWKTEGPSLEVLTAQLKEQAKRINEIPAEAFENKLPEPFLGLETVGELYGMMLYHEADHIGQMKAMDRIIKAL				NA	NA	NA	NA	NA
AK009_02000	489			hypothetical protein	ATGTTACATGTTTTAAAACAACAATATGATCTTATTAGCTCTACAAGAGAAACTCTATTTTCGTTTTTGGAAGAAATCCCACTAGAAAAATTACATAGCACTGTTCCTAATTTCGGGAGCGGTAGCATTATAAAGACGCATATTCATGTAGCCGATTGCTACCGATACTGGCTTGGATCATTCGCATTCAAGCAAAAAAGAGCAGATTTTTCATTTGCTAGCGATTACGAAATTGAGCATGCAGATGTGGAAAAAGTCCGTGCTAGATTTAAGTTAGTAGATGAGACTGTACAACGTTTTTTAGATGAATACAATGACCGTTGGCTCGAAAATATAGCAAATGAAGTAAAGTGGCAAAAAGAACCTTGGAGCACAACTCCGCTATGGCTTTTAACTCATACGGAGACTCATGAGTTTCATCATAAAGGACAAATTGTATCGATGGCTAGGTACCTTGGATATACTCCTCCTGATACTGACCTTAGTTAA	MLHVLKQQYDLISSTRETLFSFLEEIPLEKLHSTVPNFGSGSIIKTHIHVADCYRYWLGSFAFKQKRADFSFASDYEIEHADVEKVRARFKLVDETVQRFLDEYNDRWLENIANEVKWQKEPWSTTPLWLLTHTETHEFHHKGQIVSMARYLGYTPPDTDLS				NA	NA	NA	NA	NA
AK009_02001	477			hypothetical protein	ATGAAACTTTTAAAAAAGACGAGTGCATGTTTATTGCTATCTTTACTCGTTGTAACTAGTATGTTTAGCACGATTAATAGCGATAAAGCATATGCAGAAGATCATTCATATGATGGGAAAAGTCCTTATTATAATAGTTGTGATCAATCCGCAGTAACGAAAGAGAAGAAATGGATAGATTCAAATTCTTATGTAGAATTAAAATTTAGCACGACGTGTAAGACGGCTTGGGCGAAAGTTACTGTAACTCGTCCAGCAGTTTATAATAACGAAGCTGATGCAAGGGTTGTTAGAAAAACAGATGGAAAGGCATATACTTGCGGAAGTGCTGGAGGAAATGGTGTTGTAAATAAAGGACAAACATCATGCTATACGCCAATGGTATATGACTTGGATCCAAGAAAAGCGCAAGCACAGGGGAAACATGCCATTCCGAATAGCGATGCTTATAATTATGCGGAGACTATTTGGTATTGA	MKLLKKTSACLLLSLLVVTSMFSTINSDKAYAEDHSYDGKSPYYNSCDQSAVTKEKKWIDSNSYVELKFSTTCKTAWAKVTVTRPAVYNNEADARVVRKTDGKAYTCGSAGGNGVVNKGQTSCYTPMVYDLDPRKAQAQGKHAIPNSDAYNYAETIWY				NA	NA	NA	NA	NA
AK009_02002	513			hypothetical protein	ATGTTTAAAAAGTTAATGAAAGTATGTGTGTTAAGTGCGGCAAGTATAGGTGTATTATTTAGTTTTCAAGGAAGTACATTTGCAGCTACTGATTTAAGTAGTTATTATGACGGGAAAAATCCAGCAACAACGAAAGTATACGGGGGAAGTACAACATGTGATGCAGATGGATTTAATGCAAAGTCTACAGTAGTTTATGAAGGTAGTAAAAAAGTGGGGACAGTGTATTTACGTTACAGTAATAAATGTCATGCAGCATGGGCTAAGTTTGTGTTAGATCAACCAGCACCAGCTGTTTCGGGAGGAGTGTACGCGTACGCTGTTGTAAATAAATACAAAAATGATGTATTCCAAAAATCAGTTACTTCTAATCAGGGGAACGGCACAATAAAAACAGGTCAAACGAGCACTTATACAGGAATGGTATTTGATTTAACTGCTGATTTCGGATACACAGCAGATGCTGAAGCAGTTACGTTTAATAACGGTTACGGGAAAACAGCACGTTACTAA	MFKKLMKVCVLSAASIGVLFSFQGSTFAATDLSSYYDGKNPATTKVYGGSTTCDADGFNAKSTVVYEGSKKVGTVYLRYSNKCHAAWAKFVLDQPAPAVSGGVYAYAVVNKYKNDVFQKSVTSNQGNGTIKTGQTSTYTGMVFDLTADFGYTADAEAVTFNNGYGKTARY				NA	NA	NA	NA	NA
AK009_02003	894	gltR_3	COG0583	HTH-type transcriptional regulator GltR	ATGGAGATAAAACAATTAATTACATTTAAAGTAGCAGCAGACACTTTGAATTTTACACAAACTGCAAAGAAATTAAATTTTGCCCAATCAAGCGTAACGGCACAAATTAAAACGTTAGAAGCTGAGCTTGGTACACCGTTATTTGAAAGATTAGGAAAACGCCTTTTCTTAACTGAAGCAGGAAGAAAGTTTCAACTATATGCGGACAAGATAATCGCACTTAGTAAAGAAGCAAAGACGGCCGTGAAAGATGATGAGGAAATAGCAGGTACGTTAATAATTGGTGCACAAGAAAGTCAATGTACATACAGACTGCCTTCTATATTAAAGAGGTTTAAAGCACAATTTCCTCAAATAAAACTTATATTTAAACCAGCACATTCCAATAAAGATGCAAAGGAACAATTGATGGAGGGGAAAGTAGATCTTGCATTTATTTTGGACGAATGTAAAACAGAAGATGTTTTACATGTGGAACCACTTATGAAAGAAGAATTAAAAGTAGTAGCTGCTCCTACGCATCGTTTACTTGAACAACCTTCAGTTTCTATAAAAGATTTAGAGAGTGAAACACTTCTACTAACAGAATTAGGCTGCTCGTATCGGACTTTATTTGAAGAACTATTTCGTACAGAAGATGTGTATCCAGCAAATAAAATTGAGTTCGTTAGTGTCGAGGCAATTAAACAATGTGTTATTGCAGATTTAGGTATAGCTGTTCTACCAGCGATAGTAGTAGAAAAAGATATAAGAGAAGGGACAATAAAAGAGTTACATTTAGAAAATGCAATTTCATCGATTTATACACAAATTGCTTGGCATAAAGATAAATGGATGACAGCACCACTGCAGCAATTTATTGATGTAACAAGGGAGTTTTTTACAACGGATTAA	MEIKQLITFKVAADTLNFTQTAKKLNFAQSSVTAQIKTLEAELGTPLFERLGKRLFLTEAGRKFQLYADKIIALSKEAKTAVKDDEEIAGTLIIGAQESQCTYRLPSILKRFKAQFPQIKLIFKPAHSNKDAKEQLMEGKVDLAFILDECKTEDVLHVEPLMKEELKVVAAPTHRLLEQPSVSIKDLESETLLLTELGCSYRTLFEELFRTEDVYPANKIEFVSVEAIKQCVIADLGIAVLPAIVVEKDIREGTIKELHLENAISSIYTQIAWHKDKWMTAPLQQFIDVTREFFTTD				NA	NA	NA	NA	NA
AK009_02004	966			2-haloacrylate reductase	ATGAAAGCACTTTGTTTCGAACAGTTTGGAAATCCAGATGTACTACAATATAAAGAAATACATGATCCAATCATAAATCCAAATGAAATTCTAGTCCGCACGAAAGCAATCGGATTAAACTTCGCTGATATTTATAGACGCCGCGGCGATTATCATCTTGCTGGCAATCCGCCTTATGTATTAGGTTATGAAGGAGCTGGAATTGTTGAAAAAGTAGGAGCTGACGTTACTACTATCAACCTAGGAGACCGTATTGCATTTGCGGACGTCCCATTTGCAAATGCAGAACTAGTTGCCGTTCCATCTGAAAAAGTAATCCCACTACCAGATTCTATTTCTTTTGAAACAGCTGCTTCTGTCTTATTACAAGGATTAACTGCACATTATTTAACGCAAGATAGCTATCAACTAAAACAAAGTGATATAGCTTTAGTACACGCTGCAGCTGGTGGCGTCGGTCAACTTCTTGTTCAAATGATTAAACTATATGGTGGAAAAGTAATTGGTTTAACGTCATCAAAAGAGAAAGCAAAGATAGCTACATTAGCTGGTGCCGATCACGTATTTTTATATAACGAAGAATGGCATACGAAAGTACTTGAAATGACTAATGGAACTGGAGTAAATGTTGTATATGAATCAGTAGGTTCTACATTAGAGGACAGTTTTAACGCTACTAAAATTGGCGGTACTGTCGTATTTTACGGAATGGCTGGTGGTAATCCTGCGCCAGTTGATCCACGTATGCTTATGGATACTTCAAAAACTTTAACTGGCGGAGACCTTTGGAACGTTCTTACCACTTATGAAGAACGTAAAAAACGATCTACTCAATTATTCGATTGGATCGCAACTGGCAAATTAAACATTGAGTGCCCTACTACATTCTCCTTACAAGATGGTGCTCTTGCACATAAATTATTAGAGAGCAGAAAAAGTACAGGGAAGATTTTATTAATTCCATAA	MKALCFEQFGNPDVLQYKEIHDPIINPNEILVRTKAIGLNFADIYRRRGDYHLAGNPPYVLGYEGAGIVEKVGADVTTINLGDRIAFADVPFANAELVAVPSEKVIPLPDSISFETAASVLLQGLTAHYLTQDSYQLKQSDIALVHAAAGGVGQLLVQMIKLYGGKVIGLTSSKEKAKIATLAGADHVFLYNEEWHTKVLEMTNGTGVNVVYESVGSTLEDSFNATKIGGTVVFYGMAGGNPAPVDPRMLMDTSKTLTGGDLWNVLTTYEERKKRSTQLFDWIATGKLNIECPTTFSLQDGALAHKLLESRKSTGKILLIP	PGPT0013255_8626	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK009_02005	711	gpmA_3		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGAATAAGCGAGAAACAGATAGCAATGAGAATGCAGTTACGTTATATGTTACAAGACACGGTAAAACAATATTAAATACGAATCATCGCGCGCAAGGTTGGGCTGATTCTCCATTAGTAGAAAAAGGTGTTGAAGTTGCCACAAATTTAGGAACAGGATTAAAAGATATTCATTTTATGAATGCGTATAGTAGTGATAGTGGCCGAGCGATTGAAACTGCTAATTTAGTATTAAAATATAGTGAGCAATCAAAATTAAAACTTGAGCAAAGAAAAGATTTGCGAGAATTAAATTTCGGTATTTTTGAAGGTGAAAAACTTGAGAATATGTGGGATGTGGTTGGAAAAGCTGCAGGCGTTCCATCACCAGAAGAACTTATGAAGTTTTCTATTCAAGAAGTGATTAATCTTATTAGAGTAGCAGATCCTACAAAACAGGCGGAAGATTGGGAATTATTTTCTACTCGTATAAAAGCTGAGATAGATAAAATTAGTGAAGAAGCTGCTGGAAATGGTGGCGGTAACGTTTTAGTTGTCGTTCATGGGCTTTTGATTACTACCTTAATAGAAATGTTAGACAGTAGCAAAACAAAACTTGGGGTGGAAAATGCTAGTGTGACGAAGATTGTATACCAAGATGGAACATATACAGTCGAGTCGGTTGGAGATATGAGTTATGTTGCAAAAGGGAAAGAAAGTGTGGAAATATAA	MNKRETDSNENAVTLYVTRHGKTILNTNHRAQGWADSPLVEKGVEVATNLGTGLKDIHFMNAYSSDSGRAIETANLVLKYSEQSKLKLEQRKDLRELNFGIFEGEKLENMWDVVGKAAGVPSPEELMKFSIQEVINLIRVADPTKQAEDWELFSTRIKAEIDKISEEAAGNGGGNVLVVVHGLLITTLIEMLDSSKTKLGVENASVTKIVYQDGTYTVESVGDMSYVAKGKESVEI				NA	NA	NA	NA	NA
AK009_02006	525			hypothetical protein	ATGGTAACGATTAGACAAGAACAAAAAAATGATTATAGAAAAACAGAAGAAGTCGTAAAAGAAGCATTTTTACTTGAAGAATTTAGTGATAAAACAGAACATGAACTTGTAAAACGTATTAGAGAATGTGACGCGTTTGTTCCGGAGTTATCAATTGTTGCGGTAGATGAAGATATAGTTGGTCACATTATGTTATCGAAAATTACAATAGAACAAGATGGAACTTCTGTAGAATCGTTAGCACTTGCGCCAGTTTCAGTTGCTAGGGGCCATCAGAAGAAAGGAATTGGCGGAAAACTGATTACGGCTGCTTTAGAAAAAGCGAAAGAACTTGGATACGGATCAGTTGTAGTATTAGGACATCCAGAGTACTACCCGAAATTTGGTTTTAAGAAAGCAAGTGAGTGGAATGTAAAAGCACCGTTTGAAGTGCCTGAAGAAGTGTTTATGGCGATGGAGCTAAGAGAGAACGCTCTCCAAGGTGTAGAAGGAGTTGTTCAGTATTCGAGTGCTTTTGCTGAGTAG	MVTIRQEQKNDYRKTEEVVKEAFLLEEFSDKTEHELVKRIRECDAFVPELSIVAVDEDIVGHIMLSKITIEQDGTSVESLALAPVSVARGHQKKGIGGKLITAALEKAKELGYGSVVVLGHPEYYPKFGFKKASEWNVKAPFEVPEEVFMAMELRENALQGVEGVVQYSSAFAE				NA	NA	NA	NA	NA
AK009_02007	1902	mutS2_1		Endonuclease MutS2	ATGAATACGATGACTTTTGAAAAGTTACAATATAACGAATTAAAGGATATAGTGAAATCTTATTGTGTAAGTGGATTAGGTAAGGAATTATTAAACAAATTAGAGCCGAGTACGAGTCTAAAAGTAGTGAGAAATCGCTTGAATGAAACGACAGAAGCACGAGCTATATTAGATGCAGAGGGGCATGTTCCTTTCTTCGGCATTTCTAATATTGCTAGTACAATTCAAAAATTAGAAAAAGGGATGATTTTAGATCCAGAAGAATTAGTAAGTGTTTCAGACTTTTTACGTGGATGTAGAAAGATTAAAAAGTTTATGTTAGATAAAGAATTTTTTGCACCAGTATTAGCTTCTTATGCAAATTCAATGACTGAATATAAAAGTATTGAAGAGGAAATTAACTTTTCAATTAAAGGAAATAGTATTGATGTAGCTGCAAGTAAAGAGTTAAAGCGAATTCGAAATAATATTGATTCTGTAGATGGGAAAATAAAAGAACGTTTAATGAAATTTTTAAATAGTAGTGCAAATAAGAAATTCATTCAGGAATTCTTTATTAGTAAAAAGGATGACCGTTATACGATTCCAATTAAATCTTCCTATAAAAATCAAGTTGCTGGAAGTATTATTGAAGCCTCGGCAAAAGGCTCTACTGTATTTATAGAACCGCATACGGTTACGAAATTGAATGCAGAATTAGCAGGTTTGAAAGCAGAAGAAGCGGTTGAAGAGTATCAGATTTTAGCGACTTTATCAGGAATGGTGTTAGAAAACATTTATAGTATAAAGATTAACATGGAGCTAATTAGTCAGTATGATATGGTATTTGCGAAGGCAAAGTTTAGTAAATCGATTGATGGAATAGAGCCGAAGTTAAATGATCATGGCTACATTCATTTAGTGAATTGTAAGCATCCGCTTTTAACAGGGCAAGTTGTACCGTTACATTTTAAAATTGGTCAAGAGTATCGTAGTTTAATTATTACAGGGCCGAATGCGGGCGGAAAGACAATTGTGTTAAAAACGATTGGATTGTTAACATTAGCTACAATGTCAGGCCTTCATATTGCAGGAGATAGAGGTACAGAAATCGCTATTTTCGAAAATGTATTCGTAGATATTGGTGATAATCAAAGTATTGAAAATGCATTAAGTACATTTTCGTCTCATATGAAAAATCTTTCTGAGATTATGAGGATGTCAAATAATAATACGTTGCTATTATTTGATGAAATAGGGAGCGGTACAGAACCGAATGAAGGTGCAGCACTTGCAATTTCTATTTTAGAAGAATTGTACCTTGCGGGATGTATTACCGTTGCGAGTACGCATTACGGAGAAATTAAACGCTTCTCAGAAATGCACGATGACTTTATGAATGCAGCGATGCAATTTAATAGTGAAACGTTAGAGCCGCTTTATAAATTAGTTATCGGAAAATCAGGGGAAAGTAATGCACTTTGGATTGCGAATAAAATGAGCGTAAAAGAACATGTACTGAAAAGAGCGAAAGAGTACATGGGAAATAAAGAGTACGCTTTAGAAAAAGTGAATGAAAGTAAAATTAGAAAACCGAAATTTGTACAAGAAAAAAGAGAATCTCATTATGAGTACAAAATCGGCGATCGTGTGAATTTATTGGATTATGATGATTTTGGTATCATCTATAAGGAAAAAGATAATTTTTATAACGTTGTTGTATATTATAACGGTGAATTCGTTGAAGTAAATGTAAAACGTATTACTTTAGAAGTAGCAGCGAAGGAGTTATATCCAGAAGGATACGATTTAAATACACTATTTGTTGATTATAAAGAAAGAAAAATGCAACACGATATTGAGCGCGGATCGAAAAAAGCACTGCGTAAAATTCAAAAAGAAATAAGAAAGAATAGAGGATAA	MNTMTFEKLQYNELKDIVKSYCVSGLGKELLNKLEPSTSLKVVRNRLNETTEARAILDAEGHVPFFGISNIASTIQKLEKGMILDPEELVSVSDFLRGCRKIKKFMLDKEFFAPVLASYANSMTEYKSIEEEINFSIKGNSIDVAASKELKRIRNNIDSVDGKIKERLMKFLNSSANKKFIQEFFISKKDDRYTIPIKSSYKNQVAGSIIEASAKGSTVFIEPHTVTKLNAELAGLKAEEAVEEYQILATLSGMVLENIYSIKINMELISQYDMVFAKAKFSKSIDGIEPKLNDHGYIHLVNCKHPLLTGQVVPLHFKIGQEYRSLIITGPNAGGKTIVLKTIGLLTLATMSGLHIAGDRGTEIAIFENVFVDIGDNQSIENALSTFSSHMKNLSEIMRMSNNNTLLLFDEIGSGTEPNEGAALAISILEELYLAGCITVASTHYGEIKRFSEMHDDFMNAAMQFNSETLEPLYKLVIGKSGESNALWIANKMSVKEHVLKRAKEYMGNKEYALEKVNESKIRKPKFVQEKRESHYEYKIGDRVNLLDYDDFGIIYKEKDNFYNVVVYYNGEFVEVNVKRITLEVAAKELYPEGYDLNTLFVDYKERKMQHDIERGSKKALRKIQKEIRKNRG				NA	NA	NA	NA	NA
AK009_02008	714			hypothetical protein	ATGAATGAAGAATATAATACTTTACATGGACCTGCTCTGGAACCAAATTTAATCGGTCCCACACTACCATCAATTCCACCATTTACTTTCCCTACTGGACCTACTGGAATCACAGGCCCTACCGGTGCGACAGGTTTTACTGGAATCGGAATAACTGGTCCCACCGGGGTTACAGGTCCTACCGGAATCGGAATAACTGGCCCCACTGGGGTTACAGGTCCTGCCGGTATCGGAATAACTGGTCCCACTGGGGTTACAGGCCCTACCGGAATTGGAATAACTGGTCCCACTGGCGCAACTGGTTTAGGGATTCTTCCCGTATTTGGAACAATAACTTCTGAAGTAGGAATCGGTTTTTCAGCAGTAGTTAATACAAATGTCAACTTTACCATTCCAGGACCTGTTAGTGGAACTACTCTAAATCCAGTAGACAACTCCATTACAATTGATACCACTGGTGTATACTCTGTATCCTTTTCAATCGTATTTGTAATACAAGCTATTTCGTCTAGCATATTAAATCTTACAATAAACGATTCCATTCAATTCGCAATTGAAACACGAGTTGGTGGTGCTTCTGGGGTAAGAGCCACATCCGCCAGAACTGATCTATTACCTTTAAACCAAGGAGATGTTCTTCGATTACGAATAAGAGAAGCCACGGGTGACATTATTTATTCCAATGCATCTCTTGTTGTTATAAAGGTCGACTAG	MNEEYNTLHGPALEPNLIGPTLPSIPPFTFPTGPTGITGPTGATGFTGIGITGPTGVTGPTGIGITGPTGVTGPAGIGITGPTGVTGPTGIGITGPTGATGLGILPVFGTITSEVGIGFSAVVNTNVNFTIPGPVSGTTLNPVDNSITIDTTGVYSVSFSIVFVIQAISSSILNLTINDSIQFAIETRVGGASGVRATSARTDLLPLNQGDVLRLRIREATGDIIYSNASLVVIKVD				NA	NA	NA	NA	NA
AK009_02009	1635	amyS	COG0366	Alpha-amylase	GTGAGAGATTGCTACTTTACTAACGGTGGAACGAATATTATAATAATTCTGATAAACTATGCAAACGCTTTCTTAGAAGGGGATGGTGTACAGATGTTTAAAAGAGTAACAATAGTCGGATTGTCAGTTGTTATGTTTTTACCTAGTATATATGAGGGGAGTAAAGCATATGCAGATACAGTTAACAATGGAACGTTAATGCAGTATTTTGAGTGGTATGCTCCGAATGATGGGGATCATTGGAAGCGTTTGCGTACTGATGCTGAAAATTTAGCGCAAAAAGGAATTACATCTGTTTGGATACCACCTGCATATAAAGGAACTACGCAAAATGACGTAGGATATGGAGCATATGATTTATATGATTTGGGGGAATTCAATCAAAAGGGAACAGTGCGGACGAAATATGGGACGAAAGCACAATTGAAGTCTGCAATTGACGCTTTACATAAGAAAAACATCGATGTATACGGTGATGTAGTTATGAATCATAAAGGTGGGGCTGATTATACAGAAACTGTCACAGCAGTTGAGGTAGACCCAAGCAATCGAAATGTTGAAGTATCAGGTGATTATGAAATTAGTGCTTGGACAGGATTTAACTTTCCAGGGCGTGGAGATTCTTATTCTAATTTCAAATGGAAATGGTATCATTTTGACGGAACAGATTGGGATGAAGGAAAGAAATTAAACCGAATTTATAAATTTAGGGGCATAGGTAAAGCGTGGGACTGGGAAGTGTCTAGCGAGAATGGGAATTATGATTATTTGATGTACGCGGATCTTGATTTTGATCATCCAGATGTTGCGAATGAAATGAAAAAATGGGGAACGTGGTATGCGAAGGAATTAAATTTAGATGGCTTTCGTTTAGATGCTGTTAAACATATTGATCATGAATATTTGCGCGATTGGGTAAATCATGTTAGACAGCAAACGGGGAAAGAAATGTTTACAGTAGCTGAATATTGGCAAAATGATATCCAGACTTTAAATAATTATTTAGCGAAGGTCAATTATAATCAATCTGTGTTCGATGCACCACTGCATTATAATTTTCATTATGCTTCAACAGGAAATGGGAATTATGATATGAGAAATATTTTAAAAGGAACGGTAGTTGCGAATCATCCTACACTTGCGGTTACTCTAGTTGAAAATCATGATTCACAGCCTGGTCAGTCATTGGAATCTGTAGTGAGCCCTTGGTTCAAACCGTTGGCATATGCATTTATTTTAACGCGTGCAGAGGGATATCCTTCTGTTTTCTATGGTGATTACTATGGTACAAAAGGAAATAGTAACTATGAAATTCCAGCGTTAAAGGACAAAATTGATCCGATTTTGACGGCACGAAAAAACTTTGCATATGGTACGCAGCGGGATTATTTTGATCATCCAGATGTAATTGGCTGGACAAGAGAAGGTGATAGTGTACATGCTAATTCTGGTTTAGCAACGTTAATCTCTGATGGACCAGGAGGGTCAAAGTGGATGGATGTTGGGAAGAATAACGCAGGGGAAGTATGGTACGATATTACGGGTAATCAAACAAATACTGTAACAATTAATAAGGACGGGTGGGGGCAGTTCCAAGTAAGTGGAGGATCAGTTTCCATATATGTTCAGCAGTAA	MRDCYFTNGGTNIIIILINYANAFLEGDGVQMFKRVTIVGLSVVMFLPSIYEGSKAYADTVNNGTLMQYFEWYAPNDGDHWKRLRTDAENLAQKGITSVWIPPAYKGTTQNDVGYGAYDLYDLGEFNQKGTVRTKYGTKAQLKSAIDALHKKNIDVYGDVVMNHKGGADYTETVTAVEVDPSNRNVEVSGDYEISAWTGFNFPGRGDSYSNFKWKWYHFDGTDWDEGKKLNRIYKFRGIGKAWDWEVSSENGNYDYLMYADLDFDHPDVANEMKKWGTWYAKELNLDGFRLDAVKHIDHEYLRDWVNHVRQQTGKEMFTVAEYWQNDIQTLNNYLAKVNYNQSVFDAPLHYNFHYASTGNGNYDMRNILKGTVVANHPTLAVTLVENHDSQPGQSLESVVSPWFKPLAYAFILTRAEGYPSVFYGDYYGTKGNSNYEIPALKDKIDPILTARKNFAYGTQRDYFDHPDVIGWTREGDSVHANSGLATLISDGPGGSKWMDVGKNNAGEVWYDITGNQTNTVTINKDGWGQFQVSGGSVSIYVQQ	PGPT0018575_1669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
AK009_02010	792	nhoA_3	COG2162	Arylamine N-acetyltransferase / N-hydroxyarylamine O-acetyltransferase	ATGACAGACTTTCAAAAACAATTTTTCGTACGATTATATATAGAAGAAAAAGACACAGTTTCATTTGAAGATTTATCTAACATTATGTACGCAATGGCACAAACTGTTCCTTTTGAAAACTTAAATATTCTCGAAAAGAATTTTAAAGAAATATCAAAAGAAAATTTGAAAGAGAAAATTTTAGTAAATAACCGTGGCGGTCTTTGTTATGAACTCAATCCTACTATGTATTACTTCTTGAAAGATTCTGGATTCGATGTTCATCTCGTTTCAGGAACAGTTTATAACGCTACAAACTCCATATGGGCTGTTGATTCTGGCCATATTGCAACCGTTTTAACACATCATAATGAACTTTATTTAATTGAAGTAGGATTCGGATCATACTTACCTCTTGCCCCTGTCCCTTTCTCAGGTGAAGTCATTCACTCTGTTACAGGAGATTATCGTATTCGTAAAGAAATGACCGAAAAGGGAAACTACATTTTAGAGATGCGGAAAAACAATGAGTTCTTGGATCAATCTTCTGCTGATGATTGGACGTTAGGCTATGCATTTTATATAGAAGAAGTGGATGAAGAAAAAGCAAATACAGCACAAAAAATTATCGTTGAACATGAAGGATCACCCTTTAATAAACTACCTCTTATTGTAAAACTAACTGAAGATGGGCATGCCTCTTTAACGAAAGATAGCCTTACAGTAGCGAAAAATGGTAAAAAAACGAAAGAAACCGTTACAGACATGCAATTTACAAACCTTTTACATTCAAAATTTGGAATTACACTATAA	MTDFQKQFFVRLYIEEKDTVSFEDLSNIMYAMAQTVPFENLNILEKNFKEISKENLKEKILVNNRGGLCYELNPTMYYFLKDSGFDVHLVSGTVYNATNSIWAVDSGHIATVLTHHNELYLIEVGFGSYLPLAPVPFSGEVIHSVTGDYRIRKEMTEKGNYILEMRKNNEFLDQSSADDWTLGYAFYIEEVDEEKANTAQKIIVEHEGSPFNKLPLIVKLTEDGHASLTKDSLTVAKNGKKTKETVTDMQFTNLLHSKFGITL	PGPT0019890_998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK009_02011	1788	pepF1_1		Oligoendopeptidase F, plasmid	ATGACAGAACTTAAAGATCGATTACAAGTAGCTGATATAGAAAAATGGGATTTAACAGACATTTACCATACAATTGAAGATTGGGAAAGTGATTTTCATAAAATTGAAGTATTAACGAAGGAATTACACGAGTTTAATGGCAATATTCACGATGGCAATAGTTTATTAGCTTATTTAACGAAGAGTGAAGAAATTTCTAGCATAATATCTTTAATGTTCGCTTATGCACGATTACAATCTGACCTTGATACACGCGATACTGACGCGCAATCTCTTGTCGATAAAGTATCACAATTACACGTGAAAGTAAGTGCAGCTAAATCTTTCTTTTCCCCCTTCTTACTTAGCATAGACGAAAGCACATTACATTCTTACATAGAAGAAACAGAAGGCTTACAATATTATAAAGAAGACTTATTTGAATTATATCGTTATAAAAAACACGTATTGAATAAGGACCAAGAAGCAATTTTATCACAGATGGGTGAAGCTCTTTCTTCTCCACAGCACACATTTGGTATGTTAAACAATGCAGATATATTATTTGGTGAAGTGACGACTGACGATGGAGAAAAAGTGAACTTAACACGCGGAATGTATGCAAAGTTAATAGAAGATACGAATCGTGAAAAGCGTAAAGAAGCTTATAAAGCATATTACAAACCATATGTTCAGTTAAAGAATTCCATCGCATCTACTTTATCCGCTGCTATTAAAAATAATGTTACCGTTTCGAAGCTAAGAAACTATCCATCAGCGCTAGAGAAATCATTATTTGGCGATATGGTTCCGAAAGAAGTATATGAAAACCTTATTGATACAACGAAAAAAAACATTCAAACATTACATACATACAATGAAATTCGAAAAGAAAAATTAAACGTAGATGAACTAAGACAATACGACTTAGGCATCGATTTAGTAGAAGGTGCAAAACAAGACATCCCATATAGTGAAGCATTTGACATTATGATTGCATCACTAGCTCCTTTAGGAGAAGAATATATTGAGACATTAAAAAGTTTTAAAGATAAACGATATATAGACGTAAGAGAAACACCAGGAAAACGTTCTGGTGCTTATAACTTTGGTGTATACGGTGTTCATCCTTTCATTCTTTTAAATCATCACGATGATTTAAATAGCCTGTTCACTCTTACTCATGAATGCGGGCACGGTATGCATACGCACTATTCACATGGATACCAACCAAGAATTTCTGCACATTATTCTATCTTTGTGGCAGAAGTCGCTTCTACAGTAAATGAAGTGTTATTAATTCACTATTTATTAAAAGAAGCAAAAGAAACGAACGTGCGTAACCATTTAGTTAACCATTTTATTGAGAAATTTAAAGGTACTTTCTTTACACAAATCATGTTTGCAGAATTTGAAAAAATCACACATGAAATGGCTGAGCAAGGTAAACCATTAAATGCCCAAGTCTTCAGTGAAATTTATGAAAAGCTATTTAAAGAATATAACGGTGATTCACTTGTATTTGATGAAGAAGTAAAATACGGATGGGCTAGAATCCCTCATTTCTATCGCCCGTTTTACGTATACAAATATGCAACTGGATTCGCATCTGCCATTCAAATCGCTGATAAACTATTAAGCGGCGATCCAAATGCTCAAAAACATTATATTGAATTCCTTAAAGGCGGAAGTTCTGACTATCCACTAAACTTATTGAAAAAAGCTGGTGTTGATTTAACTACGCCAGAACCGATTGAAAGTGCATTGAAACAATTCACTCAACTTGTTGAGGAGTTTTCAGCATTATAA	MTELKDRLQVADIEKWDLTDIYHTIEDWESDFHKIEVLTKELHEFNGNIHDGNSLLAYLTKSEEISSIISLMFAYARLQSDLDTRDTDAQSLVDKVSQLHVKVSAAKSFFSPFLLSIDESTLHSYIEETEGLQYYKEDLFELYRYKKHVLNKDQEAILSQMGEALSSPQHTFGMLNNADILFGEVTTDDGEKVNLTRGMYAKLIEDTNREKRKEAYKAYYKPYVQLKNSIASTLSAAIKNNVTVSKLRNYPSALEKSLFGDMVPKEVYENLIDTTKKNIQTLHTYNEIRKEKLNVDELRQYDLGIDLVEGAKQDIPYSEAFDIMIASLAPLGEEYIETLKSFKDKRYIDVRETPGKRSGAYNFGVYGVHPFILLNHHDDLNSLFTLTHECGHGMHTHYSHGYQPRISAHYSIFVAEVASTVNEVLLIHYLLKEAKETNVRNHLVNHFIEKFKGTFFTQIMFAEFEKITHEMAEQGKPLNAQVFSEIYEKLFKEYNGDSLVFDEEVKYGWARIPHFYRPFYVYKYATGFASAIQIADKLLSGDPNAQKHYIEFLKGGSSDYPLNLLKKAGVDLTTPEPIESALKQFTQLVEEFSAL	PGPT0020965_2088	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
AK009_02012	1047	aguA_1	COG2957	Putative agmatine deiminase	ATGAGAAATATAGAAAATAGTTTGTTTTATATGCCTGCGGAATGGGAGAAACATGAAGGTACATGGCTGCAATGGCCTCATGATAAAGCTAATAGAGGTGAAGGTTACAGAGCTAAGCTAGATGATATTTGGGTAACGATGGCAAAGGAGCTTCATTACGGAGAAATTGTGCATATTGTTGTATATGATGAGGAAGAAAAAGTACATGTCCAATCGAAGTTAATGGAAGCGAAAGTGGATATGGATAAAATTGATTTCTTAGTTCAAGAGACGGATGATGTGTGGATAAGAGATAATGGACCGATCTTTGTAAAAGATAAGGAAGGCAATCTCTGCTTAACACACTGGGTTTTTAATGGTTGGGGAGATAAATATCCGTATGAAAATGATGCTGTTATTCCGGCAAAAATAAGTGAGATGTATAGTATTCCAAAAGTTAAATCTAGTGTCTGTCTAGAAGGTGGAGGAATAGAGATAAACGGAAATGGAACCTTAATGGCGGCAAAAACTTCTATTATAAATGAAAATCGAAACCCTACACTAAGTCAGGAAGAGATTGAAATGGAGTTAACGAAGTATTTGGGGGTAACGAATTTTATATGGATAACTGGTATTCGTGGTGAGGATAATTATGATGAAGATACGGATTACCATATTGATGGCGCAGCACGTTTTGTAAATGAAAATACAATTCTTTATGAATATGATCCTTTCGGGGAGAGTGAATCCTACCTTTTGGAGGCGTACGAAAAGCATTATCAAGAATTGAGACAAGCAAGAAATATAGATGGAAAACCATTTCAGCTTATACCAGTACCGGTGACAAGAAAAGCTGTAAAAGAAGCAGATTGTAAGGGCTCATATTTAAACTTTTATATTGGAAATGAGGTTGTATTGGTTCCTATATATGGCGATGAGCATGACAAGTTAGCGCTTCAAATTATTGAAGGGCAGTTTCCGGGAAGAAGAATTGTCGGCATTTATGTAAATGAGCTGTTTGCGTATGGTGGCATGATTCACTGTGTGACGCAGCAACATTTAGCATAA	MRNIENSLFYMPAEWEKHEGTWLQWPHDKANRGEGYRAKLDDIWVTMAKELHYGEIVHIVVYDEEEKVHVQSKLMEAKVDMDKIDFLVQETDDVWIRDNGPIFVKDKEGNLCLTHWVFNGWGDKYPYENDAVIPAKISEMYSIPKVKSSVCLEGGGIEINGNGTLMAAKTSIINENRNPTLSQEEIEMELTKYLGVTNFIWITGIRGEDNYDEDTDYHIDGAARFVNENTILYEYDPFGESESYLLEAYEKHYQELRQARNIDGKPFQLIPVPVTRKAVKEADCKGSYLNFYIGNEVVLVPIYGDEHDKLALQIIEGQFPGRRIVGIYVNELFAYGGMIHCVTQQHLA				NA	NA	NA	NA	NA
AK009_02013	831			hypothetical protein	ATGTATACCATCGCTGAGTTTTCTCGGATTTGTAAAATGAGTACGCGGATGTTAAGACATTATGAAAAAGAGGAGATATTAAAACCGGCATATGTGAATCCGGTTAATGGGTATAGGTATTATGAACAAGGACAGCTGGAAGTAGCGTTGAAAATCAAAAAGCTAAGGGAGTATAAATTTCCTCTTCCAAAAATTAAAATTGTTTTGCAGTCATCGGATCAAGATTCGTTTGTTCAACATATACAATCACAAATTATCGAGTTGTCTCAGGAAGTGAAGCAAAATTTACAGGTTATTTCAGAAATGAATGAAATGGTAAAGGTGAATAGTAGTCTAAATACTGCTCGTCATAGAAATTACGATATATTAATGGGAATGAGGAATGAAGTAACGATAATTATTCAAAGAGTAAAAATAGATATGGATGATATGGATGATATGGATGATTATTTTTATGACTTATATGAAGAGGTACAAAAAAATAATTTTCAAATAGTCGGTTCACCATCTGCAGTCTTTTATGATGAAGAATATATTCCAAGTAACAGTGATATTGAATTAAGAATCCCGGTTATGCAGGGGAATGATGAAGACGTAGCACAAGAGTATGAAATGAAAAAACTAAGTCCACATCAAATCGTTACTACTATGCATTATGGAAGTTACGACTATATTGGTTACGCTTATATAGCGTTAGAAGAATGGGTTGAAAAAAATGGGTGTGTAATAGTTAATTCGCCATATGAGGTTTATATAAAGGGGCCTGAATGTGATTGTTTAGCAGAAGAGTATGTGACACAAATTTGTTTTTTAGTTACGAAAATAGAATGA	MYTIAEFSRICKMSTRMLRHYEKEEILKPAYVNPVNGYRYYEQGQLEVALKIKKLREYKFPLPKIKIVLQSSDQDSFVQHIQSQIIELSQEVKQNLQVISEMNEMVKVNSSLNTARHRNYDILMGMRNEVTIIIQRVKIDMDDMDDMDDYFYDLYEEVQKNNFQIVGSPSAVFYDEEYIPSNSDIELRIPVMQGNDEDVAQEYEMKKLSPHQIVTTMHYGSYDYIGYAYIALEEWVEKNGCVIVNSPYEVYIKGPECDCLAEEYVTQICFLVTKIE				NA	NA	NA	NA	NA
AK009_02014	978	aguA_2		Agmatine deiminase	ATGGAACAAAAACATAATGGGATTATTTTTACTGCAATACCAGACGAATCGAATGAATATTATCAACCATTTTATGAAGACTTGATTTACTTTAATGAATGTTTAAATGAAAAGAAATCAATGGCAGATCAACTTATATCTTTATCTGTTGAAGAACAAGACTTTCATACGAGCTGTTTTGAGTATGATGATATTTGGCTAAGAGATGTTGCACCGGTTGCCACAAATCATCTAGTTAAATTTAAATATCGACCAAATTATTTGCCAGATGATCAAGGGCGATATTTAGATCAACAATTTAATAAATGGTTGAAAAAGAATGACTTTGAATATGTAAAATCTCCATTAATATTAGATGGTGGTAATCTTATTTGGAATAAAAAAGATACTGTAATATTAACAGAACGCATATTTGATGATAACGATGATTGGACAGAAGAGGAAATTATTGAGCAGTTAGAATGGGATTTAGATGTGAGCCGAGTTATTATTATTCCTGCTGAAGAAGGGGATGTACTAGCACACGCAGACGGAATGGTTAAATTTATTGATGAACATACAATGTTTATTAGTGATTTTTTAGGGGATCATGAATTTAGATATAGTGTTCAAGAGATTATTCAAGAACAAATGCCAGAAGCTGCATTTATAGTTGTTCCTTCATCGTATACAGAGAAAGGACAATATGATCAAGAGATAGCATCGGCAAAAGGATTGTATATAAATATGTTAGAATCATGTGATGCTCTGTATGTTCCTAAGTTTGGACTAGCTAAAGACGAGGAAGTTTTACGATATATTCAACAGTATACGGAGAAACAAGTTATTCAAATTCATGTAGGAGAAATATCAACAATGGGAGGCGCGATGAATTGTTTAACGTGGTATTGTCCAAGTCATTTGTTACCTTCGAAAATAAGAAGATTGAAAAATCAGAATGAAGATTTTTCAATGAAGAAGATTTTTGATTGGTTTTAA	MEQKHNGIIFTAIPDESNEYYQPFYEDLIYFNECLNEKKSMADQLISLSVEEQDFHTSCFEYDDIWLRDVAPVATNHLVKFKYRPNYLPDDQGRYLDQQFNKWLKKNDFEYVKSPLILDGGNLIWNKKDTVILTERIFDDNDDWTEEEIIEQLEWDLDVSRVIIIPAEEGDVLAHADGMVKFIDEHTMFISDFLGDHEFRYSVQEIIQEQMPEAAFIVVPSSYTEKGQYDQEIASAKGLYINMLESCDALYVPKFGLAKDEEVLRYIQQYTEKQVIQIHVGEISTMGGAMNCLTWYCPSHLLPSKIRRLKNQNEDFSMKKIFDWF				NA	NA	NA	NA	NA
AK009_02015	417	psiE_1		Protein PsiE	GTGTTAAAGAATTTTAAAATAGTGTTTTCGTATTTCCCTATCGTTTTACAGTACATTTTAAATGTAGCTTTAATTTGCTTAGGGGTTGTTCTAAGTGTATTTCTTATGAAAGAAGTCATTCAGTTTATACAAGAACTGAAATTGGATGGTAATGAATCTAGTTATCATTTAATTGATAGTATCGTCGTATTCTTTTTGTACTTTGAATTCATCGTAATGATTATAAAGTATTTTCAAATGAATTTTCATTTTCCATTACGATATTTTATATATATAGGTATAACAGCTATTGTGCGTCTCATCATTATAGATCACGATAGTCCGTTAGATTTATTGTTATATGCCTGTGCAATCTTTGTATTAATTAGTGCGTTGTTCATTGCGAATTCTAAAATGATGCGTCGGGATTTAGAATAG	MLKNFKIVFSYFPIVLQYILNVALICLGVVLSVFLMKEVIQFIQELKLDGNESSYHLIDSIVVFFLYFEFIVMIIKYFQMNFHFPLRYFIYIGITAIVRLIIIDHDSPLDLLLYACAIFVLISALFIANSKMMRRDLE	PGPT0015090_327	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
AK009_02016	1158	aguA_3	COG2957	Putative agmatine deiminase	ATGAAAAAAGTAATAAAGTTTTGTTTAATAGCTACATTATCTACAACGATTATTAGTGGATGCTCTTTTGAGGGTAACAATGAAAATGTTAAAGGGGAAGAAGGAGAAAAAGTAGAGGTACAGAAAAATGCTGGGAAATATACGATGCCAGATGAAAAAGATAAACATGAAGGTACATGGCTGCAATGGTCACATGAATACACATATGGTGAAGAGTATAAGCAGGAAGTTGAACCTATTTGGGTTAAGATGGCAAGTGCTTTAACTGAGGGAGAGAAAGTCCACATTGTTGCATATGACCAGGAAGAAAAGAAGAGAATCAATAAGCTTTTAACAGATGAAGGGTTAAATATGGAGAAGATTGATTTCTTTATCGCGCCTACTGATGATGTATGGGCAAGAGATAGTGGACCGATTTTTGTTTATGACAATAATAAAAATTTAAAAATATTAGACCCGGCATTTAATGGATGGGGAAAGAAAACGCCTTACAAAAATGATGCTCGAATACGAGAGAATGTCAGTAAACAATCAGGAATTGAAAGAATTGATTGGGGGAAATTTGTCCTTGAAGGTGGTGCAATTGAGTTAGACAGCAATGGAACTGCTTTATTAACTCGAAGTGCAGTAACGAATAAAAATAGAAATCCTAATTTATCAGAAAAGGAAATTGAAAAATATATAAGTGACCTTGGGGTATCAAACTTTATTTTGTTAGACGGAGTACCTAATTTAGATATTACGGACTTTCATATTGATGGATTTGCTAAATTCCATAATAACTCTACCATTGTAACGATGAAAGAAGATGACCTAGCCGAATGGGGTTTATCTAATAAAGATATGAATACATTGTTAGATGCCAAAAATGCTTCAGGACAGAAATATAAGTATGAATACTTGCCGCTTAGTAAAGAAAAAGTTGCTTTAGAAAATGGAAAAACTCTCGATTATAAGGGATCGTATATCAATTATTATATTGGGAATACAGTTGTATTAGTGCCTAATTATAATGATCCGAATGATAAAATCGCAAACGATACGATTCAGAAGTTATACCCGGATCGTAAAGTAGTTGGCATTGATGTGAGAGAGCTTTATAAAAATGGTGGCATGATTCATTGTGTGACACAACAACAACCAATTGCATTGAAGTAA	MKKVIKFCLIATLSTTIISGCSFEGNNENVKGEEGEKVEVQKNAGKYTMPDEKDKHEGTWLQWSHEYTYGEEYKQEVEPIWVKMASALTEGEKVHIVAYDQEEKKRINKLLTDEGLNMEKIDFFIAPTDDVWARDSGPIFVYDNNKNLKILDPAFNGWGKKTPYKNDARIRENVSKQSGIERIDWGKFVLEGGAIELDSNGTALLTRSAVTNKNRNPNLSEKEIEKYISDLGVSNFILLDGVPNLDITDFHIDGFAKFHNNSTIVTMKEDDLAEWGLSNKDMNTLLDAKNASGQKYKYEYLPLSKEKVALENGKTLDYKGSYINYYIGNTVVLVPNYNDPNDKIANDTIQKLYPDRKVVGIDVRELYKNGGMIHCVTQQQPIALK				NA	NA	NA	NA	NA
AK009_02017	1128	dap_5		D-aminopeptidase	ATGTTAAAGAAATGGTTAATCGTTTTCTTTATTTTTGCTGTTTTTTGTGGAAGTGTTGTTACACTAATACATGAAAATAAAGGAAAAAAATATGATGTAAAGGCATTTTTAAATGTAAATAGTAAGCAAAAAGATGTTAAGCAGGAAGTTGATGCGAATGCGAAAAAGCGTTATGAAATTGCAGCTGGAAAACTAGATCAGTACTTAAAAGATAAAGGATTTAATGGGAGTGTTCTTGTAGCAAGTAAAGATCATGTCATTTTACGAAAAGGGTACGGTTATGCGAATGTGAAAGATCAAGTATTAACAACTCCAAGAACGAAATATCGCATTGGGTCTATTACGAAAACAGTTGTTGCAATATCTATTATGCAACTAAAAGAAAAAGGGAAGTTGAACATTGAAGACAATGTAAATAAATATATCCCATCGTTTCCGGCAGATAAAAACATTACGTTACGAAATTTGTTAACACATACGTCTGGATTACCAGAACAGGGACAAGGTAGTGTTGACGCAGCATCACGGTTAAAATTAGTAACGTGGATTGGGGCACAAACGTTACAATTTCCAGCAGGGACAGGATGGAAATATACAGATTATAATTATATGGTGCTTGCATATATTGTAGAAAAAATATCGAATAAACCACTTGCTGAATATGTGAAAGAAAATATTTTGACTCCTGTTGAAATGCATGAATCTGGAATGGGCGCAACACTTCCAGAGGATATTTTCTTAGCAGAAGGGTATACGAAAAAAGATAATAAGTTAATAGCCACGCCTCGCTTAAAAATGAACTGGCTGTATGGTTGTGGTGAAATGTATACGACTGTTGAAGATATGAAAAAGTTAGATGAAGCTATTATGGATGGTAAACTACTTTCTAAACAAAGTGTATCAGATATGTTTTCTGCATCACCTGCAAGAAAATATGGATTTAGTTTCTATATTTACCCAGATTATTATCATAACCACGGTGTATTAGCTGGCTGGAACACTTTTAATAATTTTAACTGGGATAAACGAACGTTTGTCATATTATTTTCTAACGTCCAAAATGGTATGAATGATGCATTTAATCAAGAATTTAGGAAAATGGCGAATGATTTAATAGAAGGAAAATAA	MLKKWLIVFFIFAVFCGSVVTLIHENKGKKYDVKAFLNVNSKQKDVKQEVDANAKKRYEIAAGKLDQYLKDKGFNGSVLVASKDHVILRKGYGYANVKDQVLTTPRTKYRIGSITKTVVAISIMQLKEKGKLNIEDNVNKYIPSFPADKNITLRNLLTHTSGLPEQGQGSVDAASRLKLVTWIGAQTLQFPAGTGWKYTDYNYMVLAYIVEKISNKPLAEYVKENILTPVEMHESGMGATLPEDIFLAEGYTKKDNKLIATPRLKMNWLYGCGEMYTTVEDMKKLDEAIMDGKLLSKQSVSDMFSASPARKYGFSFYIYPDYYHNHGVLAGWNTFNNFNWDKRTFVILFSNVQNGMNDAFNQEFRKMANDLIEGK	PGPT0023445_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023445-fmtA-K22580	NA	NA
AK009_02018	231			hypothetical protein	ATGAAAAACACCGATAAACGCAACCGTTTAGATGATAAGATGTTTCATTATCGGATAACAAAAAACAACATGGTATTAATTGAATATTACGGAAAACAAATTATGATATTAAAAGGAAATGATGCTGAAAAATTTTTAAATAAAATAAATCATGCAAATAACGATAAAGAAAAACAGCTAATTATGGCTAAAATTACAGGTAATTTCAAAAGAGGTAATGAACGAAATTGA	MKNTDKRNRLDDKMFHYRITKNNMVLIEYYGKQIMILKGNDAEKFLNKINHANNDKEKQLIMAKITGNFKRGNERN				NA	NA	NA	NA	NA
AK009_02019	582			hypothetical protein	ATGCAGTTAAAAGAAGTGATGTGTAAAAAAGAGTTGTATGCAATTTATATAACTGGCATTTGTATGATTTCATTGCAAATGGTGTTAGTTGCACACTTTATAAAATTTTTAGTATTGGAACAATCAATCACGCCAATTTTAGCTGGAAAAGTATTTTCCGTTATGTTCTTTTCTGGAATGGTTGGTAGGGTTATATTAGCAGCTACTAGTGATTTGTTTTATAAGGGAAATCGGCGCACCCCTTTATTTATAACTGTTTGTATTTCTATTCTCTTCATTCTAATATTAGTAATGAGCATACATACAATAACGAATGTATTGTATGGTGTAAGTGCATTGTTAGGGTTCTTTTCGATTGGATGGTTTAGTCTTTTTATAACTGAAGTTGCAGAATCAGCAAGTGAAGAATCGGTAGGGATGACAGTGAGTTTTGCACTTACATTAAATCAAATTTCCATTATTGTTGCACCTGCTTTATTTGGTTATATTGTAGATAAGAAGGGATATACGTATGCGTGGTTATGCATAGTTGTATTACTAACTATTTCAGCGGTTAGCTTATATAGGAATTATAGAAAATAA	MQLKEVMCKKELYAIYITGICMISLQMVLVAHFIKFLVLEQSITPILAGKVFSVMFFSGMVGRVILAATSDLFYKGNRRTPLFITVCISILFILILVMSIHTITNVLYGVSALLGFFSIGWFSLFITEVAESASEESVGMTVSFALTLNQISIIVAPALFGYIVDKKGYTYAWLCIVVLLTISAVSLYRNYRK				NA	NA	NA	NA	NA
AK009_02020	627			hypothetical protein	GTGTTAATGGAAGAAAGGGTGAATAGTACTTATAAGTGGGTTATGTTAATTTTTGCGACAGTTGCTCAAACAACAGCGACACTTATAACGTATGGTGTTGGAGCGTTTGCATTATTTTGGAAAGAAGAATATGCACTTACGAATACGGAGAGTGGATTGCTAGTAAGTGTTGTAAATATAGGACCGCTATTTTGTATGCTTTTTGTCGGGCGGCTACTTGATCAATACAATGAAAAGTTGTTAATTTCGATAAGCTCATTTTTACTAGGAGGTTCATTTTTACTGACTAATATGGTCAATGAATTTAATGGGTTACTCTTTGTACTTTTATTAGTAGGAACGTTTTATAGTGTTTCGCAGCCAGGAGGAAGTAAGGTGATAATAAAGTGGTTCCCAAAAGAAAATCGCGGGTTAGCAATGGGGATTAGACAAGCTGGTATACCGATTGGTGGCACGTTAGCGGGAGTATTGATCCCGTTTCTTACAATAAAATATAATATGGCTTATGCGGTAAATAGTATTGCATGCATTTGTATAATTGGAGGGTTTTTATATTTTATAAGGAACCATATATTCAAGAGAAAGTTAAACAAGAACGTATTAAACTTTCTTTTTGGATGCAGTTAA	MLMEERVNSTYKWVMLIFATVAQTTATLITYGVGAFALFWKEEYALTNTESGLLVSVVNIGPLFCMLFVGRLLDQYNEKLLISISSFLLGGSFLLTNMVNEFNGLLFVLLLVGTFYSVSQPGGSKVIIKWFPKENRGLAMGIRQAGIPIGGTLAGVLIPFLTIKYNMAYAVNSIACICIIGGFLYFIRNHIFKRKLNKNVLNFLFGCS				NA	NA	NA	NA	NA
AK009_02021	852	gltR_4	COG0583	HTH-type transcriptional regulator GltR	TTGGATATAAAAGATTTAACTGTATTTTACGAAGTTGCGAAAGAAAAAAACATATCTCACGCAGCGAAAAATTTAAACTATGTACAGTCTGGCGTAACAATGCGTATGAAACAACTAGAAAACGAATTAGGTGTGCCTTTATTTTACCGAAACGGAAAAGGTGTAACTTTAACTTCTAACGGTGAGATTTTATTAACATACGCCAAACAAATTATCCACTTAATAGATCAATCTGTTAAAGCAGTTCAAAGTAATGGGATCGAACCAAGAGGCACTTTAAAAATTGGATGTACAGAATCTACAACCGCTGTAAGACTTCCATCTATATTAACAGCCTATTATGAGAAATACCCAAAAGTCGAATTGATTTTAGAATCAAATACGACGGAACAATTGATTAGGCTTGTATTAGAACGAAAACTGGACGGAGCGTTTATAGCTGGCTCTACTCAGCATACTGAACTTCATACAAATATATTTCGTGAAGAAGAATTAGTTCTCATTAGCAAAAATCCTTTATCTTCCTTTAAAGACATCGGAGACATGAATTTACTTGCATTTAGTCGCGGGTGCTATTATAGAAATTTATTAGAAGATTGGCTTCAAGAAGAAGGAATTTCACCTAAGCGAGTATTAGAGTTCGGAACAATTGAGGCGATACTCGCATGTGTAAAATCAGGTATGGGCATAGCAATTATGATGAAGTCTATTTTAAATGATCATAAACATGACATATCATTCAACCCTTTACCAAATAGCTTCAAAAAAGTTCCTACTACTTTTATTACTAGAAAAGATATATATCACTCTGCTGCATTACAAAAATTTATGGAGATGACTCACAATGCGTGA	MDIKDLTVFYEVAKEKNISHAAKNLNYVQSGVTMRMKQLENELGVPLFYRNGKGVTLTSNGEILLTYAKQIIHLIDQSVKAVQSNGIEPRGTLKIGCTESTTAVRLPSILTAYYEKYPKVELILESNTTEQLIRLVLERKLDGAFIAGSTQHTELHTNIFREEELVLISKNPLSSFKDIGDMNLLAFSRGCYYRNLLEDWLQEEGISPKRVLEFGTIEAILACVKSGMGIAIMMKSILNDHKHDISFNPLPNSFKKVPTTFITRKDIYHSAALQKFMEMTHNA				NA	NA	NA	NA	NA
AK009_02022	510			hypothetical protein	ATGCGTGAAAAGAAAATACGTGGTATGAAACGAAAAACAAACACTTTAATAAAGCGAATTGAGGAACATACAAAAACGTTCCCTTCTATTTTCTATAACGATGAATATTGGAATATGCTATTGCCAGTTTCGCAAACTTTTATCGACTCTCGTAAAACACCTAGAAAAGTAAAGCGATTATGTATTCAAACCTTATTAAATCAAGCAAATCATTTAATAAATATGAAACCGAGCGATACACATACATATCGAGTTGTTGTTTTAATTTCTATAAATAATTTGTGGGGTTCGCAAATCATTATATTTAAAAATGAGGACTACTTTCATAATTTTTTTAATAGAAATAGTGAATTTCAAAAATGGATTCTTCTTTCAAATGAAATTGATTTTTGGGAGAAATTAGAAATTCCAGTTTGTCATTCCTTCGAAACGCTTCGCTTTCAAGAAATTATTTATGATGAAGATGAATGCTACGAAAAAGAGATTCTGTTTATCGGGGAGTTAAATTAA	MREKKIRGMKRKTNTLIKRIEEHTKTFPSIFYNDEYWNMLLPVSQTFIDSRKTPRKVKRLCIQTLLNQANHLINMKPSDTHTYRVVVLISINNLWGSQIIIFKNEDYFHNFFNRNSEFQKWILLSNEIDFWEKLEIPVCHSFETLRFQEIIYDEDECYEKEILFIGELN				NA	NA	NA	NA	NA
AK009_02023	945	glpQ_2	COG0584	Glycerophosphodiester phosphodiesterase	ATGAGAAAGATTATTAGCGTTTTAGTTATTTTCTTTATGACGGGAAGTATCTTTGTTGGGGGAGCTGTTCATGCGAAAGCAGAAGGGAAGCATGAATGGAATACGAATAAGTTTTTAAATATTGCACATCGCGGAGCAAGTGGACATGCACCTGAGCATACTTTTGCTTCTTATGATTTAGTGAAAAAAATGAAAGCGGATTATTTAGAGTTAGATATTCAATTAACAAAGGATGGCCAATTAATTGCAATGCATGATACAGCAGTTGATCGCACTACAAATGGAACAGGCGAAGTACGTGATAAAACGTTAAGCGAAATAAAGAGTTTAGATGCAGGAACGTGGTTTAATAAAGCGTATCCAGAAAAGGCTAAGCAAGAGTATGTTGGGCAAAAAGTTCCGACTCTTGAAGAAATCTTCCAAAAGTATGGAAGAAGCATGAAGTATTACATTGAAACAAAATCACCAGATGTGTATCCAGGAATGGAAGAGAAATTGTTAGCATTGTTAAATAAATATAATTTAGTAGGTCAAAACATGTCATCTAGCCGTGTTATGATTCAATCATTTAGTAAAGATAGTTTGAAAAAGATTCATAGTATGAATGAAAATATTCCGTTAGTTCAATTGCTTTGGTATTATTCAAATGAAAACAATGAAATTGTTGAATGGTCTGGCATTACACATGAACCGAAAAGTGTAACGAATGATGATTTTCAAGAAATTAAAAAGTATGCAGCTGGTATTGGACCAAACTTACGTAATGATAACGGAGAACTAATTATTGATGAATCATATATGAAAATAGCTAGGAAAAATGGACTGTTAATTCATCCTTATACAATTAATGAGAAACCAGATATGAGACTGTTAATCAAATGGGGTGCTACAGGAATGTTTACAAATTATCCGGATCGATTACATAGTGTATTGAAGGGGAAATAA	MRKIISVLVIFFMTGSIFVGGAVHAKAEGKHEWNTNKFLNIAHRGASGHAPEHTFASYDLVKKMKADYLELDIQLTKDGQLIAMHDTAVDRTTNGTGEVRDKTLSEIKSLDAGTWFNKAYPEKAKQEYVGQKVPTLEEIFQKYGRSMKYYIETKSPDVYPGMEEKLLALLNKYNLVGQNMSSSRVMIQSFSKDSLKKIHSMNENIPLVQLLWYYSNENNEIVEWSGITHEPKSVTNDDFQEIKKYAAGIGPNLRNDNGELIIDESYMKIARKNGLLIHPYTINEKPDMRLLIKWGATGMFTNYPDRLHSVLKGK	PGPT0018470_3201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_02024	1620	dntB		4-methyl-5-nitrocatechol 5-monooxygenase	ATGAAATCGAATTATGTACCAGTTTTAATTGTTGGAGGGGGATTATCTGGGTTAGCGTCTGCGTTATTTCTTGCAAAACATAACATTGAGTACTTACTTATTGAAAGGCATCCGTCTACTGCCATTCATCCGAAAGCAGGCGGTCTTACTTTACGTACAATGGAGTTATTTCGAGAATTAGGCTTGGAACAAAGAATTAAATTGGCAGGTAAAGCATTAGAGAACTGCCGAGGAAGAATAGCGGTTCATACAATAGCTGAGGCGAATAAAGAAGAATTGGAACAAATGAGAGCGACGCAATACAGAAACGATGAAGAGTTACTTCAAAAAATAGAAAAGATTAGTCCATCAAAACAAACTGCATGTTATCAAATTATTTTAGAAGAGATGATGTTACAAGAAGCAAAAACGCTAGGCGGGCAACTATCTTTTTATCATGAATTAGTTTCATTTGAACAAAATGAAAACGGGGCAAAAGCAAAGATTCGAAATCGTGAAACAGAAAAAGAAAGTGTCATACATTGTGACTATGTAATTGCAGCGGATGGAGCGAAAAGTAAAATACGTGAGCAGTTAGGGATTAAAACTGAGGGGCGTGGAACCATTGGTGGCTATTATATGAATATTTATTTTGAAGCTGATTTAAGAGAGTTTATACAAGGAGACGCATTCGGTTTTTCGATGGTACTTCATCCGGAGGTTCTTGGTGCACTTATCCCAGTTGATAACGTAAAAAAATGGATTTATCATGTAGCCTACGATCCATTAAAAGGAGAGGGGCTAGAGGACTTCACTATAGAACGTTGTAAACAAATTATTCAAATAGCAATTGGAAGTACAAATGTTGAATCAAAAATATTAAGTGTTTTACCGTGGGAAGCGGCCGAAAGTACAGCGGTGAAATTTCAAGGAAATCGAACCTTTTTAGTTGGAGATTCAGCACATATTATGCCGCCAACAGGAGGATTTGGTTCAAATACAGGAATACAAGATGCGCATAACTTAGCTTGGAAATTAGCGGCTGTTATAAAAGGGAAGGCAAAACCAAAATTGTTAGAAACATATCATGAAGAGAGACACTCTGTTGCAAAATTAACGACAGCTTATGCAAGTAGTTTACTGTTTCGTGCTGCGAATAGAGAGGAAGGCAGTTTGAATAATATGGATGTTTTAGCTGTTACAGTTGGATATCAGTATTGTTCAGAGGCAATTATAGATAATTCAGTCACTCCACATAGAATGGATAGCATAGAGTTGAACGGGAGACCTGGAACACGAGCACCGCATTTATGGGGAACGTATGAAGGAAAGAAAGTTTCTACATTAGACTTATTCGGTAACAGTTTTGTATTACTTACAGGAGTAGAAAATAGTTCTTGGGCTGAGGCAGCACATGCTGTTTCAGCTAAATTAGGAATAAATATAAAAGGGTATCGTGTTGGCTTAAGTGGAGACTTTGTTGTTCCAGAAGATATTTTTAGCAAATTATATGGTATAGAGAATGGAGGTGCTGTATTAATTAGACCAGATGGCTTTATCGGATGGCGTTCGGAAAAAACGGTAGTAAATCCAGATATAGTATTGGAAGAGGTAATGAGAAATTTATTATGTGATTTTTAA	MKSNYVPVLIVGGGLSGLASALFLAKHNIEYLLIERHPSTAIHPKAGGLTLRTMELFRELGLEQRIKLAGKALENCRGRIAVHTIAEANKEELEQMRATQYRNDEELLQKIEKISPSKQTACYQIILEEMMLQEAKTLGGQLSFYHELVSFEQNENGAKAKIRNRETEKESVIHCDYVIAADGAKSKIREQLGIKTEGRGTIGGYYMNIYFEADLREFIQGDAFGFSMVLHPEVLGALIPVDNVKKWIYHVAYDPLKGEGLEDFTIERCKQIIQIAIGSTNVESKILSVLPWEAAESTAVKFQGNRTFLVGDSAHIMPPTGGFGSNTGIQDAHNLAWKLAAVIKGKAKPKLLETYHEERHSVAKLTTAYASSLLFRAANREEGSLNNMDVLAVTVGYQYCSEAIIDNSVTPHRMDSIELNGRPGTRAPHLWGTYEGKKVSTLDLFGNSFVLLTGVENSSWAEAAHAVSAKLGINIKGYRVGLSGDFVVPEDIFSKLYGIENGGAVLIRPDGFIGWRSEKTVVNPDIVLEEVMRNLLCDF				NA	NA	NA	NA	NA
AK009_02025	345			hypothetical protein	GTGATTGAAATGAATAAACAAGAACAATTAAATATTATAAAAAAAGATTTTATTGATTCTCAAAAAGTATTATTGGCAATTGGTGATGAAACACGTCAAGCTATTTTATTAGTGCTAATGGAAACGGAATGTCAAACAGGATTACGTGTAGGAGAAATCACGAAGCAAACACACCTTTCCCGTCCAGCAGTATCACATCACCTTAAGATTTTACGAGAAGCTGGCATTATTTTAATGAGAAAAGAAGGTACAAAGAATTTTTATTATATTGATATACGTACAAAATTAGGTTTATTAAAAAATCTTGTATTAGATATTGAGAAGCTATTGCAAAACTTTTATTAA	MIEMNKQEQLNIIKKDFIDSQKVLLAIGDETRQAILLVLMETECQTGLRVGEITKQTHLSRPAVSHHLKILREAGIILMRKEGTKNFYYIDIRTKLGLLKNLVLDIEKLLQNFY	PGPT0004735_1911	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_02026	999			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCAATGATAATTGATAGATATGGAAAAGTCCCAATGCGTATGGCAGAGGTACCTACTCCTGAAATAAAAGAGTATGAGGTGCTCGCAGAAATTCATGCAGCTAGTATTAACCCAATTGATTTTAAAATACGCGACGGAAAAGTAAAAATGTTACTGAAATATGAAATGCCCCTAATCCTTGGTAATGACTTTGCCGGTGTCATCACGAAGGTTGGATCAAAAGTAACTCGTTTTAAAGTTGGTGATGCAATATATGCTCGTCCAAGAAAAAATAAGATTGGTACTTTCGCGGAGTATATAGCCATTCATGAAGATGATATAGCTTTAAAGCCGAAAAATTTAAGTTTTGAGGAAGCTGCTTCGATTCCACTTGTTGGCTTAACATCATATCAAGCATTACATGACATCATGCAATTACAAAAAGGACAAAAGATTTTAATTCACGCTGGATCCGGTGGTGTTGGTACTTTCGCAATTCAGTTAGCAAAAATAATGGGTGCTACTGTTACAACGACTGCTAGTGAAGCTGGTGCAAATTTAGTAACGTCTCTTGGCGCAGATGAAATTATTAATTACAAAACAGAAAAATTTGAAGATATACTAAAAAATTATGATGCGGTATTTGATACAATCGGCGGTGCAACGCTTGAAAAATCATTCAATATTATAAAAAGCAGAGGAAACATTGTTTCCGTTTCAGGTATGCCGAATGCACGCTTCGGTAAAGAATTTGGTTCAGGATTCTTTAAAACTCTCTTATTTTCATTAGCCAGCAAAAAACTTACTGCACTTGAAAAAAAGCATAATGCTCAATATTCATTTTTATTTATGAAGCCAAGCGGGGATCAATTACGTACTATTGCAAACTATATTGAAGCCGGAAAAATCAAACCGGTAATCGATCAAGTCTTCCCTTTTGAAGATGCGCAAAAAGCAATGGAATATTCAGAGTCTGGAAGAGCAAAAGGAAAAATAATTGTAAAAATTAAATAA	MKAMIIDRYGKVPMRMAEVPTPEIKEYEVLAEIHAASINPIDFKIRDGKVKMLLKYEMPLILGNDFAGVITKVGSKVTRFKVGDAIYARPRKNKIGTFAEYIAIHEDDIALKPKNLSFEEAASIPLVGLTSYQALHDIMQLQKGQKILIHAGSGGVGTFAIQLAKIMGATVTTTASEAGANLVTSLGADEIINYKTEKFEDILKNYDAVFDTIGGATLEKSFNIIKSRGNIVSVSGMPNARFGKEFGSGFFKTLLFSLASKKLTALEKKHNAQYSFLFMKPSGDQLRTIANYIEAGKIKPVIDQVFPFEDAQKAMEYSESGRAKGKIIVKIK	PGPT0006375_1261	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
AK009_02027	1467	selO_1	COG0397	Protein adenylyltransferase SelO	ATGACTAAAAATAATGAAACAGGTTGGAATTTAGATAATAGTTATACGACTTTACCACAATCATTTTATACAGAAATCCCCCCTACTCCCGTAAGTTCACCGGAGTTAGTTAAACTAAACCATTCATTAGCGATATCTCTTGGCTTGACCCCTGAAGAACTGAAAAAGGAAGCTGAAATTGCTATTTTCGCTGGTAATGCACTCCCAGAAGGAGCTCATCCATTAGCTCAAGCATATGCTGGCCATCAATTCGGACATTTTAATATGTTAGGCGACGGTCGTGCTCTTTTAATTGGCGAACAAATTACTCCTTCAGGTGAGCGTTTCGATATTCAACTGAAAGGTTCTGGCCCTACTCCCTATTCACGCCGAGGAGATGGCCGTGCTGCACTCGGTCCGATGCTACGTGAATATATCATTAGTGAGGCAATGTATGCACTTGATATTCCGACTACTCGCAGTTTAGCAGTTGTCACAACTGGTGAAGCAACATATCGTGAAACAAAGTTACCTGGAGCAATTTTAACTAGAGTAGCTAGTAGCCATATACGCGTCGGTACATTTCAATATGCTGCAGCTCGTGGTTCAATAGAGGACCTGAAATCACTAGCTGACTATACGATAAAAAGGCATTACCCAGAAATTGAAGCTCATGAAAACCGATATACTGCATTACTACAAGAAGTCATTAAAAGACAAGCCAGTCTTATCGCAAAATGGCAACTTGTTGGATTTATCCACGGTGTAATGAACACTGACAATATAACGATTAGTGGCGAAACAATTGATTACGGTCCTTGTGCATTTATGGACAATTACAATCAAGGAACCGTATTTAGCTCTATTGACACACAAGGTCGTTATGCATATGGAAATCAACCATATATGGCCGCATGGGACCTCGCTCGATTAGCAGAATCTTTAATACCAATTCTGCACGAAGATGAAGAAGAAGCATTAAAGATCGCCCAAGACGAAATTTCGAAATTTAGCGTACAGTATGAAAACCATTGGTTCCTTGGAATGAAAAAGAAATTAGGACTATTTAGTACCGAAGAACAAGATCAACCACTTATTGAGCAACTTTTAAAAATGATGGAGAAATATAAAGCAGATTATACAAATACATTCCGTTCATTAACTCTTGATGCTATTGAAAATACAGCTCTATTTGAAAGTCCTGAATATAAAGATTGGTACAAACTGTGGCAATCTCGATTAAAAAGACAAGAACAATCGAAAGAAAACGCCTACGAAATGATGAAAAATAATAACCCATCAATCATCCCAAGGAACCACCGTGTAGAAGAAGCACTAGAAGCAGCTGTTACAAATGACGACTATAGCGTAATGGAGAAACTTCTTGAAGCTTTATCAAACCCTTATGCGTATTCTACAGATCAAGAAGAATACTGCATTCCGCCTGCACCGACGAATCGCCCTTATCGTACTTTTTGTGGGACTTGA	MTKNNETGWNLDNSYTTLPQSFYTEIPPTPVSSPELVKLNHSLAISLGLTPEELKKEAEIAIFAGNALPEGAHPLAQAYAGHQFGHFNMLGDGRALLIGEQITPSGERFDIQLKGSGPTPYSRRGDGRAALGPMLREYIISEAMYALDIPTTRSLAVVTTGEATYRETKLPGAILTRVASSHIRVGTFQYAAARGSIEDLKSLADYTIKRHYPEIEAHENRYTALLQEVIKRQASLIAKWQLVGFIHGVMNTDNITISGETIDYGPCAFMDNYNQGTVFSSIDTQGRYAYGNQPYMAAWDLARLAESLIPILHEDEEEALKIAQDEISKFSVQYENHWFLGMKKKLGLFSTEEQDQPLIEQLLKMMEKYKADYTNTFRSLTLDAIENTALFESPEYKDWYKLWQSRLKRQEQSKENAYEMMKNNNPSIIPRNHRVEEALEAAVTNDDYSVMEKLLEALSNPYAYSTDQEEYCIPPAPTNRPYRTFCGT				NA	NA	NA	NA	NA
AK009_02028	132			hypothetical protein	ATGGTAGAAGGTCTTTGCAATAAATTAGCTCACAGTGGATATGGTAGAATGTTTATAATTATAAAACCTAATGAAAATCCATATGCTGTCTCTGAAGATACAACGATGCCTGCAAAACAAATCTTCTATTGA	MVEGLCNKLAHSGYGRMFIIIKPNENPYAVSEDTTMPAKQIFY				NA	NA	NA	NA	NA
AK009_02029	1098	rapF_3	COG0457	Response regulator aspartate phosphatase F	ATGAATATACAAATCACTGGCAATGAATTAATTAATAAGATGCTGAATGATTGGTATCGAGATATTAGAGCTCAACGTATAAGTGAAGCAAAAAAATTAAAAGAAGAGATCGATAAAAAGCTTTATATTATCGAATCAGATGTAAAGGTTTCATTTCACTATTATTTGTTAGAATTTCGATATAAAGTGCTAATAGATGGTTTAGGTAATTTGAAAAAAGCTTTTGATAAAATAGATGCATTGCCTAAACCGAATGATGAATATTCTAATTATTATTATTATTATTTATTCAAAGCCATTCATTATACAATTCTTACTAATTATAGTGAAGCTAGCAACTATTTTGAAAAAGCTGAAGGGTTATTAGAGCATATTTCAGATGAAATTGAATATGCAGAGTTTAATTATAGAGTTGCTATATTAAAATACCACTTGCATTACGCATATTCAGCTATTGAATACGCTTCAAAGGCAAGAGATATCTTTGTTAAACAAGCAGGGTATGAAGTGAACATAGCGCTGTGCGAAAATATATTAGGATTATCTTTTTCGGAATTAAAGCAGCATGATAAAGGTGAGGAATATATTGCTTCAACAATAAACATTTTACAAAAAAATGATGCTGAAATGTTAGTATTAAGAATCAGACATAATTTAGGTTTATTGTATGCGAGTCAAAATCTTTCAGTTTTAGCAATTAGACACTTATCTGAGGTTTCTAAAAAAATGCCTACTCATTATAAGGCAATCTTTTTAGAGGCAAGAGAATATTATAAATTAGGTGAAATAGAAAAAGCGAAGGAATTAATTGAAAGTGGATTGAAGGTTTGTGAGGAATTAAAAAATGATGAATATAGATATCACTTTTTAATTCTAAAGGGATTTTGTCAGCATTTAGAGGTAGAAAAAATAGAAAAAATTATTCTTGAAGGTTTTTCTTACTTTGAAAGAAAAAATTTATCGGAGTATATTCACGAATATACCGAAAGTCTGGCATTAGAGTTTCATAAGGTAGGTAATATAGAAAAAGCAGAAAAGTATTTTTTTATGAGTTATGAAATAAAAAAGAGAATATTTGAAAAAGAAGCATTAAAATAA	MNIQITGNELINKMLNDWYRDIRAQRISEAKKLKEEIDKKLYIIESDVKVSFHYYLLEFRYKVLIDGLGNLKKAFDKIDALPKPNDEYSNYYYYYLFKAIHYTILTNYSEASNYFEKAEGLLEHISDEIEYAEFNYRVAILKYHLHYAYSAIEYASKARDIFVKQAGYEVNIALCENILGLSFSELKQHDKGEEYIASTINILQKNDAEMLVLRIRHNLGLLYASQNLSVLAIRHLSEVSKKMPTHYKAIFLEAREYYKLGEIEKAKELIESGLKVCEELKNDEYRYHFLILKGFCQHLEVEKIEKIILEGFSYFERKNLSEYIHEYTESLALEFHKVGNIEKAEKYFFMSYEIKKRIFEKEALK	PGPT0025770_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025770-rapF-K06364	NA	NA
AK009_02030	348			hypothetical protein	ATGCAAAAACGTATTGTACATTTTGAAGGAATGGTTGTATTTTTAGCCGCGATTTATATGTATTCGATATATGAGTTTAGTTGGATTATATTTTTTGTATTCCTTTTAGCGCCGGATCTATCAATGTTAGCATATGGGATTAATAATCACGTTGGTGCGAAAATATATAATGTATGTCACACATATATCATATCCATATTAATTGTTCTAATAGGTGTCTATTTTAAGATAGATACCGTTATAATGATTGGCTTAATATGGACAGCACATATTGGAATGGATCGAATGTTTGGATATGGATTGAAATATGAGACGGATTTTAAGGATACTCATATTCAGAGGTTATAA	MQKRIVHFEGMVVFLAAIYMYSIYEFSWIIFFVFLLAPDLSMLAYGINNHVGAKIYNVCHTYIISILIVLIGVYFKIDTVIMIGLIWTAHIGMDRMFGYGLKYETDFKDTHIQRL				NA	NA	NA	NA	NA
AK009_02031	978	panS	COG0385	Pantothenate precursors transporter PanS	GTGAAAGTACTAGAAGCGATAAGTAATATAGCTGGAAAGTATTTTGCATTTTGGGTTATTTGTATTGCAGCTATTGCATATTTCATTCCCGCGCCATTTCTCGGGTTAACTAGTTACATAACGATTTTACTTGGGGTTGTCATGTTTGGGATGGGATTAACATTGAAGGCTGTTGATTTCAAAATCATAGCTACAAAACCATTAGCAGTTATTATCGGTGTATGTGCTCAGTTTATTATTATGCCACTTGTCGCATACGTACTAGCCTACGTTATGAATCTGCCAGCGGAATTAGCAGCTGGGTTAGTGTTGCTCGGTTCAGTACCGGGTGGCACTGCATCAAATGTTATGGTTTATTTAGCAAAAGGGAACTTAGCGTTGTCTATTGCAATGACTTCAGTATCAACGTTACTAGCACCAATTGCTACACCGCTCATTCTACTATTACTTGCAGGGCAATGGATGCCAGTAAATGCTATGTCCATGTTTCTTTCTATCGTACAAGTCATTATTGTGCCTATTATTTTAGGACTAGTAGTGAAAAAGTTTTTCCCTCATATCGTTAATAAAGGAATGACTGTTATTCCTTTAATATCAGTTGTAGCAATTATCATAATTGTTTCTGCAGTTGTTTCAGCAAATGTAAGTAGCGTTACTTCTTCAGGACTTCTTATCTTTATTGCGGTGATGCTCCATAATGCTTTCGGTTTTTTGCTCGGATATATAACTGCGTTCGTACTTGGACTAGACGAAGGGACAAGAAGGGCTATTTCAATAGAAGTAGGAATGCAAAATTCAGGTTTAGGTGTTGCACTGGCGACAGCGCATTTTGGACCGGCGGCTGCACTCCCAAGTGTATTAGCAGCAGTATGGCATAACATTGCAGGGCCAATATTAGCAACCATCTGGTCAAAAAATGCAAAAAATGAAAAGAATACTTTTAGCGATGAAAATGTATTAATAAATATAGAAAAATAG	MKVLEAISNIAGKYFAFWVICIAAIAYFIPAPFLGLTSYITILLGVVMFGMGLTLKAVDFKIIATKPLAVIIGVCAQFIIMPLVAYVLAYVMNLPAELAAGLVLLGSVPGGTASNVMVYLAKGNLALSIAMTSVSTLLAPIATPLILLLLAGQWMPVNAMSMFLSIVQVIIVPIILGLVVKKFFPHIVNKGMTVIPLISVVAIIIIVSAVVSANVSSVTSSGLLIFIAVMLHNAFGFLLGYITAFVLGLDEGTRRAISIEVGMQNSGLGVALATAHFGPAAALPSVLAAVWHNIAGPILATIWSKNAKNEKNTFSDENVLINIEK	PGPT0013890_982	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
AK009_02032	1392		COG0277	putative FAD-linked oxidoreductase	ATGGAAATAACAATTGAACATGTAGTAAATGAATTAAAAGGCATACTTCCTGAAGATCGAGTAGTAATAAATATGACAGTACGAGAGTTACATAGTAAAGATGAATCTTATCATACTAGTAGTTTACCTGATGTAGTTGTTTTTCCAAAAACGACCGAAGAAGTTAGCGCGATAATGAAAATAGCGATTCAGCACGGAACAGCTGTCGTTCCATTTGGAGTAGGGTCCAGTTTAGAGGGACATGTAATTCCTTACGAAAAAGGAATTACAATGGACTTTTCTCTTATGAACAAAATACTTGAAATAAGAGAAAAGGATTTTCTTGTGAGAGTACAGCCAGGGGTGACGCGCTCTCAGCTTAATAAAGAATTGAAAAAGTATGGATTATTTTTTAGTGTAGACCCAGGAGCTGATGCAACGTTAGGAGGAATGGCTGCTACAAACGCGAGCGGAACGACAGCAGTAAAGTATGGTGTAATGCGTGATCAAGTTCGAGATTTAGAAGTCGTTCTTGCGGATGGAGGGGTAATACATACCGGGAATTTAGCGGCGAAGTCATCATCAGGTTATCATTTAAATGGTATTTTCGTAGGATCAGAAGGAACACTTGGATGTTTCACGGAGTTAACTTTAAAAGTATACGGTATACCAGAACATGTTATGGCTGCGAGGGCATCGTTTCCAACTATAAATGATGCAGTAGAAGCTGTAATTAACATATTACAAGCAGGTATTCCAATCGCGAGAATTGAACTCGTTGATGAATTATCTATGAAACAAGTAAATCATTACAATGAAACAAGTTACAGAGAAGAACCGACACTATTTTTAGAGTTTCACGGCAATGAAGCAGGGTTAAAGCAAGATATTGAATTTACGAAAGAAATCGTTCTTGATCATAAATGTAAAGAAATTGCGTTTGAGACGGAAACAGCAGCAAGAAATAAACTGTGGGATGCAAGGCATAACTTAGCGTACTCTTACGTGCATAGTTATCCTGGTAAAAAGCTAATGAGTACAGACGTATGTGTGCCAATTTCGGAATTAGCTGGCGCGATTCAACATGCGAAAGAGGTATTAGATAAAGTAGGGCTTATTGGCGGTATTCTAGGTCATGTTGGAGATGGGAATTTCCATGTACTCTTAATGATTGACACAAATGATAAAGAGGAAGTAAAGAAGGCAGACGAAATAAACGAAAGTATCGTTCTGTATGCTCTTAAACGAGGAGGAACATGTACAGGAGAACATGGCGTTGGAATCGGAAAACGAAAGTATCAAGAAGAAGAACATGGTGCGGCATTATGTGTAATGGAGAAAATAAAGAAAGCTCTTGATCTGCAAAATATTTTGAATCCGAATAAGGTGTTTCAATTAAAAGATAGGGGCTGA	MEITIEHVVNELKGILPEDRVVINMTVRELHSKDESYHTSSLPDVVVFPKTTEEVSAIMKIAIQHGTAVVPFGVGSSLEGHVIPYEKGITMDFSLMNKILEIREKDFLVRVQPGVTRSQLNKELKKYGLFFSVDPGADATLGGMAATNASGTTAVKYGVMRDQVRDLEVVLADGGVIHTGNLAAKSSSGYHLNGIFVGSEGTLGCFTELTLKVYGIPEHVMAARASFPTINDAVEAVINILQAGIPIARIELVDELSMKQVNHYNETSYREEPTLFLEFHGNEAGLKQDIEFTKEIVLDHKCKEIAFETETAARNKLWDARHNLAYSYVHSYPGKKLMSTDVCVPISELAGAIQHAKEVLDKVGLIGGILGHVGDGNFHVLLMIDTNDKEEVKKADEINESIVLYALKRGGTCTGEHGVGIGKRKYQEEEHGAALCVMEKIKKALDLQNILNPNKVFQLKDRG	PGPT0001890_1369	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
AK009_02033	399			hypothetical protein	ATGAAGAAATTATATAATGCATCGTTTACGTATTTGATTATCGGTTTATTATCAGGGATTTTCGCTAGGGAGTATGGTAAGTATAAAGGGATTTTAGGATCTACTTTGTTAAATCTTTTGCATACACATACACTTGTACTTGGCTTTTTCTTCTTTTTAATTGCTTTAGGATTAGCAAAAGTATTCGCGTTTCATGAAGTGCAAGGGTTTAATAAGTGGTTTGTTTTACATAACATTGCATTAACATTAATGTTAGGTTCGCTAGCAGCGAGAGGGCTTCTTCAGTTAAATGGAGCTGACTTTAAAGGGTTAACTTATATTGTAGGATTTTCTCATTCGTTGATGGCAGTTACTTTAATTTGGTTTATGTTGTTAATAAAGAAATCGTTTAAAATGTAG	MKKLYNASFTYLIIGLLSGIFAREYGKYKGILGSTLLNLLHTHTLVLGFFFFLIALGLAKVFAFHEVQGFNKWFVLHNIALTLMLGSLAARGLLQLNGADFKGLTYIVGFSHSLMAVTLIWFMLLIKKSFKM				NA	NA	NA	NA	NA
AK009_02034	504			hypothetical protein	TTGATAGTTCTTAAAACAGAACGTCTTAACCTTCGTTGGTTTGATATAAAAGACGCTCCTTTTATTCTTGAGTTAGTAAACGATCCTGCATGGATTCAGTTTATCGGTGACAAAGGAGTTAGAAACTTAGAAGATGCAAAAAATTATATTGTAAACGGTCCCATCGATATGTATAACAAACTCGGATTTGGCCTTTACTTAGTAGAACGAAAAGAAGATCTCACTCCACTTGGTATGTGTGGCCTTATTAAAAGAGATTCATTAGAAGACGTTGATATCGGATTTGCCTTTTTAGAAACATTCCGTTCAAAAGGATATGGCTACGAGTCAGCTTCTGCAATAATCGAATACGGTGTACAAAAGCTCGGCATGAATCGAATTGTAGCAATTACTTCTATAGATAACATCGCCTCAGGAAAGCTTTTAGAAAAAGTAGGATTACGATTTGAGAAGATTATTTCAGGGTCTGGAGAAGATTTAAAATTATTTGGGTATAACGCATAG	MIVLKTERLNLRWFDIKDAPFILELVNDPAWIQFIGDKGVRNLEDAKNYIVNGPIDMYNKLGFGLYLVERKEDLTPLGMCGLIKRDSLEDVDIGFAFLETFRSKGYGYESASAIIEYGVQKLGMNRIVAITSIDNIASGKLLEKVGLRFEKIISGSGEDLKLFGYNA				NA	NA	NA	NA	NA
AK009_02035	1437	glpE_1		Thiosulfate sulfurtransferase GlpE	ATGCTTTTAAAATATTTTTATGATGAAAAATTAGCACATGCTTCCTATTTAGTCGGTTGTCAGAAGGAAGGCGTAGCAATTGTAATTGATCCAGGTCGCTATATAGAACAATATATAGAATTTGCTAAGAAAGAGGGAATGGAAGTAATTGCTGCGGCTGAGACTCATATTCATGCTGATTTTCTTTCTGGGTCTAGAGAACTTTCCAATCTTTATCATGCAAATTTATATGTATCTGATGAAGGAGATTGTGATTGGAAATATCAATATCTTAATGAAGGTCGATACAAATTGGTTAGAGAGGGCACAGAGTTTAAAGTAGGTCATATAAAATTTAATGTAATTCACACCCCAGGGCATACGCCTGAAAGTATTTCTTTTTTAGTGACTGATACAAGTCAAAATAATTATACGAATGATAAACCGATAGGGATATTCACAGGTGATTTTATATTTGTAGGAGATATAGGAAGACCGGATTTATTAGAAACTGCAGTCGGTATGAAAGATACTGCAAAAATAGGAGCGAAACAATTATTTGATTCTATACAAAAAATAAAAATACTTCCTGATTATTTGCAAATATGGCCATCACATGGTGCGGGAAGCGCATGTGGAAAAGCATTAGGAGCAATTCCAACTTCTACATTAGGTTATGAAAAGATGTTCAATTGGGCATTTCAGTGTAATGAAGAAAGTGATTTTATATCAACTTTATTGACGGGACAGCCAGAGCCTCCAAAGTATTTTTCATTAATGAAGAATTTAAATAAGTATGGTCCGCCAATTCGTAAGAAGAGAAAAAGTAATGCTATTAATACAGTAGAAGAACTTCAAGAAATTTTGAAGAGCGTTCATCAAATAGTTGATATAAGGGATGTAGAGAGTTTTGCTGCAGGTCATATCGAGAAGTCAATTAACATACCTTATAACAATTCTTTCACAACTTGGTGTGGATGGTTATTAGATTATAAAACAGAAACGTTAATAATTCTAGATGAGGAAAAGGTTAAAGTGGAGGCAATTATTAGAGAATTTGAATCTATTGGGTTAGATAATATTATTGCTTTTGCACCCTTAAAAGTAATACAAAGACTTGATAGATTTGAAAGTTACAAAGAAAAAACATCGATTGAATTATATCCGCATATAAAAGGTGGAAGCGTTAAGGTTATCGATGTGCGTAGTAAAAAAGAGTGGGAGGAAGGACACCTTCATGATGCAATACATATCACTTTAGGTAATCTATTTGAACAACTAGATTATATACCGAAAGATTGTCCAATAGTTTTGCAATGTCGAACCGGATTACGTTCCGCTATAGCAGCTAGTATTTTACAAAGAGCTGGTATAAAGGAAGTAGTGAATTTAAAGGGAGGATTTCTTGCATGGAAAAAAGAAAGGCTTCCTTATACAACAAGCAATCTCAATGTGTAG	MLLKYFYDEKLAHASYLVGCQKEGVAIVIDPGRYIEQYIEFAKKEGMEVIAAAETHIHADFLSGSRELSNLYHANLYVSDEGDCDWKYQYLNEGRYKLVREGTEFKVGHIKFNVIHTPGHTPESISFLVTDTSQNNYTNDKPIGIFTGDFIFVGDIGRPDLLETAVGMKDTAKIGAKQLFDSIQKIKILPDYLQIWPSHGAGSACGKALGAIPTSTLGYEKMFNWAFQCNEESDFISTLLTGQPEPPKYFSLMKNLNKYGPPIRKKRKSNAINTVEELQEILKSVHQIVDIRDVESFAAGHIEKSINIPYNNSFTTWCGWLLDYKTETLIILDEEKVKVEAIIREFESIGLDNIIAFAPLKVIQRLDRFESYKEKTSIELYPHIKGGSVKVIDVRSKKEWEEGHLHDAIHITLGNLFEQLDYIPKDCPIVLQCRTGLRSAIAASILQRAGIKEVVNLKGGFLAWKKERLPYTTSNLNV	PGPT0001770_132	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK009_02036	1200			hypothetical protein	ATGAAGACCAGAGATAGTTATAAAATTATTGTCGTTGGTGCTGGGACTGCAGGACTATCTTCTACTGCACATTTATTAAGAAATATCCCCCTATTGAAAGAAAATATAGCGATTATTGATCCGTCAAAAAAACATTATTTTCAGCCACTATGGAGTTTAGTGGGGGGAGGAATTGTTTCAAAGGAAAGTACAATGCGTGATCAAGAATCGCTTATTCCAAAAGGGGCAACGTGGATCCCTAAAAGTGTTGTTAAGTTATTTCCGGATGAAAATAAGATACTGTTAGATGACGGACTGCTGCTTGAGTATGAAATTCTTATTGTAGCAGCTGGTATACAAATAAATTGGGAAGGTATTAAGGGCTTAAAAGAATCTATTGGGACTAATGGGGTATGTAGCAATTATTCTTATACATATGTTGATTCTACTTGGAGAGAAATCGAAAAATTTAAAGGAGGAAATGCGCTTTTTACCCACCCTAATACTCCTATTAAATGCGGTGGTGCTCCACAAAAAATTATGTATTTAGCAGAGGAGTATTTTTGTAATAGTGGTGTAAGAAACAGAAGTGAAGTAATGTTTTATTCTGCAAACACTGACATATTTCAGGTTCCACGATATGCAAATACTTTAGAACAAGTACTAGAAAGAAAGCAAATTATAACGAATTATAATAAAAACTTAGTAGAAATTATCGCCGAAAAGAGAGAAGCAATTTTTGAAGATACGCAAACGCTGAAAAGAGAAACCATACCATATAGTATGATACATGTTGTTCCACCAATGGGGCCACCAAATTTTATTAAAGAGAGTGAAATAAGTGATTATCAGGGATGGATAGATATACACCCTTATACTTTGCAGCATGTAAAGTATAAAAATATTTTCGGACTTGGAGATTGTACTAATTTACCTACTTCTAAAACTGGAGCGGCAATTCGAAAACAAATACCTGTCTTAAAACAAAATATTATGGACGTACTTAGTGGAAGAGATTTGCAGGCTAAATATGATGGGTATACATCTTGTCCAATTATTACAGGATATAAAAGTCTTATACTCGCTGAATTTAACTATAAACATGAGCCTCAAGAAACGTTTCCGTTTAATCAAGCGAAAGAAAGGTATAGTATGTTTTTACTTAAAAGATTTATGTTGCCATATATGTATTGGAATTTTATGTTGAAAGGGATCCTATAG	MKTRDSYKIIVVGAGTAGLSSTAHLLRNIPLLKENIAIIDPSKKHYFQPLWSLVGGGIVSKESTMRDQESLIPKGATWIPKSVVKLFPDENKILLDDGLLLEYEILIVAAGIQINWEGIKGLKESIGTNGVCSNYSYTYVDSTWREIEKFKGGNALFTHPNTPIKCGGAPQKIMYLAEEYFCNSGVRNRSEVMFYSANTDIFQVPRYANTLEQVLERKQIITNYNKNLVEIIAEKREAIFEDTQTLKRETIPYSMIHVVPPMGPPNFIKESEISDYQGWIDIHPYTLQHVKYKNIFGLGDCTNLPTSKTGAAIRKQIPVLKQNIMDVLSGRDLQAKYDGYTSCPIITGYKSLILAEFNYKHEPQETFPFNQAKERYSMFLLKRFMLPYMYWNFMLKGIL				NA	NA	NA	NA	NA
AK009_02037	234			hypothetical protein	ATGGCAGATTGTACAGGTTTAGCTTGTTTTCTATTCTCTTCGTGGCCAACGGGAACAGTTGTTACAATTACTACTAGATCAGGTCAAATTATTGGACCTGCTACTTTTTCACTGTTCTTTCCGAATATATGTGCAGTAGTATTGGAAGAAGAAGATGTGATAACCCCTTCATCTACCAATACTACATTCATAAGTTGTGAAGATATAGAAAGTGTTACTTTAACCACTCTTTGA	MADCTGLACFLFSSWPTGTVVTITTRSGQIIGPATFSLFFPNICAVVLEEEDVITPSSTNTTFISCEDIESVTLTTL	PGPT0024856_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024856-cgeA-K06319	NA	NA
AK009_02038	246			hypothetical protein	TTGTTCTTATGCAATTTATTTGGTTGTTCAGGTGGAGTATGTAGTATTTTTAAAAATTTACAGCCAGGCGAAGTCGTTACTGTGACTGGTAAATCTGGGAATATTATTGGACCTGCTATTTTTACAAATTTTAACCCTAATACTTGTATCGTCACATTAGAAGAGGAAAATTCAGTTACTCCTCCTACTACAAGTATTACTAAAATTAGTTGTAAAGAAATAGAAAGTGTTACGTTTATCTCATAA	MFLCNLFGCSGGVCSIFKNLQPGEVVTVTGKSGNIIGPAIFTNFNPNTCIVTLEEENSVTPPTTSITKISCKEIESVTFIS	PGPT0024856_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024856-cgeA-K06319	NA	NA
AK009_02039	978			hypothetical protein	ATGAAACTCTTATACATTACTTCTGGTTACTCAAAAATTTATCAATATCTAGATCAAAGCATACAAGGAACACTTATAGATCAAAATTTCGAATGGTTAGCGATACAACCGAGTGAATTAATACAACAATTGGATTTCATTACAACAACTTTTCATCCCGATATTGTATTCACCTTATTAGGTAATCATCTACCACAAAAAGCAATTCAATATTTTAAAAAATGGAACATTAAATTAGCTGTCTGGTTAACTGAGGATCCATTTTATATAGATACTTCTCTTCTTCTATTAAATAACTTTGATTTTATATTTACTATTGATAGCGAAGCACTTAAATATTACACAGCTTTAGGATATACCAATGTATATCACTTACCATTAGCAACTAATATAGACGTATTTAAACCTAGTCTAAAAAATATAAAATATAAAAGTGAAGTATTATTCATTGGCTATCCTTATCCAAACCGAGTAAAATTAATACATTTCCTTTTAGAAAATACCCCCTATCACTATACTATTATTGGCCGACATTGGAGAAATAAGTTATTAAAAAAATGGAAAAATCACCGAAGAATTAAAATTATAGAAGAATGGATTCCACCTCAAGAAGTTGCGCTCTATTATAACAACGCTAGTCTTATTTTAAATCCTCATCGTAGTCATCTATTTCCACAAAATAAAAATAAAAATAAAGTAAAAAATAATACTATTAATAATCGTACGTTTGATATTGCCGCTTGCCAAGGCTTTCAAATTATTGAAGAAAAGTCTGATCTTTTATCGTTCTTCAATAAAGATGAAATTATATCCTATAACAGCTTTGAAGACTGTTTAAATAAAGTATCTCTTTATTTGGATGACACGATTTCAAAAAGATTAATGGTTGAAAAAATTCATACAAAAGTGATAACACAGCATACTTTTCATAAGAGAATCCACTTTATAACAACTATTTTACAGTCACAGCTTTATTAA	MKLLYITSGYSKIYQYLDQSIQGTLIDQNFEWLAIQPSELIQQLDFITTTFHPDIVFTLLGNHLPQKAIQYFKKWNIKLAVWLTEDPFYIDTSLLLLNNFDFIFTIDSEALKYYTALGYTNVYHLPLATNIDVFKPSLKNIKYKSEVLFIGYPYPNRVKLIHFLLENTPYHYTIIGRHWRNKLLKKWKNHRRIKIIEEWIPPQEVALYYNNASLILNPHRSHLFPQNKNKNKVKNNTINNRTFDIAACQGFQIIEEKSDLLSFFNKDEIISYNSFEDCLNKVSLYLDDTISKRLMVEKIHTKVITQHTFHKRIHFITTILQSQLY	PGPT0024857_447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024857-cgeB-K06320	NA	NA
AK009_02040	456	rodA_1	COG0772	Peptidoglycan glycosyltransferase RodA	TTGTATTTATTCATATCAGGGATTCAAAAGAAATTAATTGCATTTTGTACATTCATTCCGGTAACTCTACTATCTACATTAATATTTACATACGTAAGATATCCAGATTTTTTCTTTAAAGAATTAGTTACTAGGTTAAAACCTCACCAACAATCACGCATTATAGGTTGGCTGAATCCAGCTGAAAATACAGATCAAGGGTATCAAACGCAACAATCTCTTTTAGCTGTTGGAAGTGGCGAATTACATGGAAAAGGATTTGGTCAAGGAAGTGTATATATTCCTGAAAAGCATACTGATTTTATTTTTGCTACCATCGCTGAAGAAGGTGGATTTATAATAGCGGCTCTCGTTGTATTGGTCTTGTTACTTCTTATATATCGAGTAACTATAATTGCATATTCAGCAGAGAATCTGTTTGGTACATTACTATGTGGGGGGCAATTAGTGTTCTAA	MYLFISGIQKKLIAFCTFIPVTLLSTLIFTYVRYPDFFFKELVTRLKPHQQSRIIGWLNPAENTDQGYQTQQSLLAVGSGELHGKGFGQGSVYIPEKHTDFIFATIAEEGGFIIAALVVLVLLLLIYRVTIIAYSAENLFGTLLCGGQLVF				NA	NA	NA	NA	NA
AK009_02041	1050	pseI	COG2089	Pseudaminic acid synthase	ATGAGTAATGTATATATCGGAGGTAGAGAGATTGGCAATAGTTTGCCACCATTTATTATTGCAGAAATGTCAGGAAATCATAATCAATCATTAGATAGAGCGTTGAAAATTGTAGAGGCAGCTGCGGAGGCCGGGGCACAAGGATTTAAAATTCAAACATATACACCAGATACAATGACTTTAAATATAGAAAATGGTGATTTTTCAATTCACGATACGAAAAGTTTATGGAAAGGCAAATCACTTTATCATTTATACAAAGAAGCATATACACCATGGGAGTGGCATAAACCAATTTTTGATCGCTGTATAGAGTTAGGGATGATACCATTTAGTACGCCTTTTGATGAAACAGCTGTAGACTTTCTAGAGACATTAAATGTTTCATGTTATAAAATTGCATCTTTTGAAAATACTGATATCCCCCTCATACGTAAAGTAGCCGCAACAGGAAAACCAATAATTATTTCGACAGGTATGGCTTCAATTGCCGAACTAGATGAAACAGTAAGGGCTGCGAGAGAAGAAGGGTGTAAAGAACTAATTCTATTAAAATGTACGAGTACGTATCCTGCGTCTCCAAAATCTACAAATATAGTTACCATACCTCATATGAAAGAGTTATTTAAATGTCAGGTGGGTTTATCTGATCATACACTGGGTGTAGGAGTATCTGTAGCGAGTGTTGCCTTTGGGGCCACAGTAATTGAGAAACATTTAACGCTCTCGAGGTTGGATGGAGGAGTTGACGCTAAATTTTCAATGGAACCAGCTGAATTTAAATTATTAGTAAGCGAAACTGAAAAAGCATGGGAATCTTTGGGGAATGTATATTATGGACCGACTGATATAGAAAAAGATTCTTTAAAATTTAGAAGATCATTATATGTAGTAGAAAACATAAAAGCGGGAGAATTCTTTACAAATGAAAATGTTAAAGCTATTAGACCAGGGAATGGCTTATTACCAAAACACATATCCAAAATTATTGGGAAAAAAGCGAATAAGGATATCGAAAAAGGGACGCCTGTTTCATGGGATTTAATTTGA	MSNVYIGGREIGNSLPPFIIAEMSGNHNQSLDRALKIVEAAAEAGAQGFKIQTYTPDTMTLNIENGDFSIHDTKSLWKGKSLYHLYKEAYTPWEWHKPIFDRCIELGMIPFSTPFDETAVDFLETLNVSCYKIASFENTDIPLIRKVAATGKPIIISTGMASIAELDETVRAAREEGCKELILLKCTSTYPASPKSTNIVTIPHMKELFKCQVGLSDHTLGVGVSVASVAFGATVIEKHLTLSRLDGGVDAKFSMEPAEFKLLVSETEKAWESLGNVYYGPTDIEKDSLKFRRSLYVVENIKAGEFFTNENVKAIRPGNGLLPKHISKIIGKKANKDIEKGTPVSWDLI	PGPT0022740_88	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022740-pseI|neuB3-K15898	NA	NA
AK009_02042	561	speG_1		Spermidine N(1)-acetyltransferase	ATGTTAGATATTGAGGATTTTCAATTGGAAAGGTTAGAAAAGAAAGATTTAGAACTTATTTTAAATTGGCGGAATGCAAAAGAAATACGTTCAGTTATGTATGAAGATCATCAAATAACAATAGACGAACATTTAAAGTGGTATGAAAAACTCGTAATGGATGAAACAAAGGTTGCAAGAATATTAATATATAAAGAAAAACCAATTGGATTTGTTAATTTTACAAAAATAGATGAAATGAATCGAACTTGTTATTGGGGATTTTATATAGGTGAAAAACAAAGTGTAAGACGTGCCGGAACTGTATTAGGTTTATTAGCATTAAATTTTATTTTTGAAATTAAAGACATACACAAAGTATATGCAGAAATAATAGAATCAAACTGTATTAGTTTAAATTTTCATCAGAAACTTGGTTTCCAAGAAGATGGAAGATATGAAGATTATATTTATAGGGACAATGATTATATAGATGTCATTACAATGACCTTGTCCCGTGAACAATGGGAGGAAAGAAAAGAAGCTATAAAAATAGAACTTGAAGGTGAAAAAAATGAGTAA	MLDIEDFQLERLEKKDLELILNWRNAKEIRSVMYEDHQITIDEHLKWYEKLVMDETKVARILIYKEKPIGFVNFTKIDEMNRTCYWGFYIGEKQSVRRAGTVLGLLALNFIFEIKDIHKVYAEIIESNCISLNFHQKLGFQEDGRYEDYIYRDNDYIDVITMTLSREQWEERKEAIKIELEGEKNE	PGPT0022730_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022730-pseH-K15896	NA	NA
AK009_02043	1101	pseG	COG3980	UDP-2,4-diacetamido-2,4,6-trideoxy-beta-L-altropyranose hydrolase	TTGCTTGAGAAAAAAATTGCCTTTCGCGCCGACGCATCTATTGAAATAGGTACCGGTCATATTATGCGTTGTTTAACACTGGCCCACGAGTTACGGAATAAAGGTGCTCAAGTATATTTCATTTGTCGTAAGCTAGAAGGTGATTTACATCAATATATTTTAAATAAGGGATTTTGTGTGTTTGTATTAGATGAAGATGGTGAAAATACAAATTTCTTAAGTTCAGAACACGGGAGTTATTTTAATTGGCTCAAATATCATTGGTTTGTTGATGCACAGCAGACCAATGATATTTTGTCGCAACTTCCCAAGTGTGATTGGTTAATCGTTGATCATTATGGATTAGATAATAGGTGGGAGTCTGCTTTAAGAAAAACTGTAAGGAAAATCATGGTAATCGATGATCTTGCAAATCGAATGCACGACTGTGATTTGTTACTAGACCAAAATTTATACGATAACCCTAATGATCGCTATAAAGATTTAATACCAGAGCACTCATTAGTAAAATTGGGGCCTAAATATGCTATATTACGGCCAGAGTTTCATGCTGCTAAGAAATTTTCACGAAAAAGAACAGGAGAAATTGAGAGGATTTTTATTTTTTTTGGTGGGCATGATGTAACAAATGAAACATTAAAAACATTAAGAGCTTTACAAAATATAAATCAAGATAACTTAAAAATAGACGTTGTGGTAGGAAGCCAAAATCCGCATAAAGAGGAGATTCAAACTTATTGTAAGAGTGTTTCTAACGCTTCATATTATTGTCAAATAGAAAATATGGAAGAGCTTCTCGTACGAGCGGATTTAGGGATAGGAGCTGGAGGAACAACCACATGGGAACGCTGCTTTCTTGGATTACCTTCTATTACAATTATAACTGCCCAAAATCAAATTGAAGTAACCAAGGCTGTAGCAAAGGTTGGAGCTACATGGAATATTGGTACAGCTGAAAGTGTTTCGGATAAAGCAATTATGGAATGTCTAAACAAACTTTTATCAAATTCTAAAATAGTGAAAGAAATGTCTAATAAAGCTCTTTCTATACAGTGTGCCAGTAATTCAAATGAAATAGCAAAAAATATTTTAGGAGGATAG	MLEKKIAFRADASIEIGTGHIMRCLTLAHELRNKGAQVYFICRKLEGDLHQYILNKGFCVFVLDEDGENTNFLSSEHGSYFNWLKYHWFVDAQQTNDILSQLPKCDWLIVDHYGLDNRWESALRKTVRKIMVIDDLANRMHDCDLLLDQNLYDNPNDRYKDLIPEHSLVKLGPKYAILRPEFHAAKKFSRKRTGEIERIFIFFGGHDVTNETLKTLRALQNINQDNLKIDVVVGSQNPHKEEIQTYCKSVSNASYYCQIENMEELLVRADLGIGAGGTTTWERCFLGLPSITIITAQNQIEVTKAVAKVGATWNIGTAESVSDKAIMECLNKLLSNSKIVKEMSNKALSIQCASNSNEIAKNILGG	PGPT0022735_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022735-pseG-K15897	NA	NA
AK009_02044	996	kdsB		8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase	ATGAAAGGGGTGTTATTAAAATTGCAAAACCAAAAATTGTTAAGAGCAGTTACAAAAGGTGACATTAAAAAAGGAGAGATTATTACAGCTAATAAAGTAACAATGGAATTAAATGTTGTAGAAAATGCGCTGACCGAGCTTGAAGCAGAGGAATTATTACCTCAGGTAGCTGTATATAATTTGTCTGCAGGTACCCCAATAACAAAAGAGGTTATTGAACCTCCAAAGGTAGTAATAATTGTACTTTGCCGCTTAAAATCTACTAGGTTACCTTTAAAGGCAATATTGCCAATACACGGAGTTCCTTCCATTGAACGATGTCTTATAAATACATTAGCTATTCCAGGAAAACACCAGGTCATACTTGCTACTTCAGATATTGCACAAGATGACCCTTTGGAAAAATTTAATTTAGACGGGAAAGTTAAGATTTTTAGAGGTGATCCAGAAAATACCGCTGATCGCATGTTCCAAGCTGCAAAACAAGAAAATGCAAATATTGTCATACGGATTACAGGGGATTGCCCAGCTGTGTCACCTGAAATAAATACTTTTTTACTAGATGAACATTTGAAAAGTGGTGCAGACTATACACAGGCAGAGTTAAGTACGTTACCTGTTGGAACAGCAGGTGATATTTTTACATTAGAGGCAATCGAACGATTACTACAAACCCCAAAACCTTTAACTTATGCAGAATACCTTCCGTTTTATTTTATTAATAATCCACATTTATTTCGTATCAATGTAGTGAAACTTCCTCCAGCAGTTTGTTATCCTACTTGGAGGTTAACATTAGATGAACAACCAGATTTAGATATGTTCAATGAACTTTATAGAGGTCTGAATGTAAAATCTAAACCTTTATTCTTTCATCAAATAAAAGATTACATCCTTCGAAACCCTGAACTTATTGAAATTAATAGTCATGTAAAATTGAAATGGGCAAATCAACAATCATTAGTAGATGAGTTAAATAGAGAAACGATATTATAA	MKGVLLKLQNQKLLRAVTKGDIKKGEIITANKVTMELNVVENALTELEAEELLPQVAVYNLSAGTPITKEVIEPPKVVIIVLCRLKSTRLPLKAILPIHGVPSIERCLINTLAIPGKHQVILATSDIAQDDPLEKFNLDGKVKIFRGDPENTADRMFQAAKQENANIVIRITGDCPAVSPEINTFLLDEHLKSGADYTQAELSTLPVGTAGDIFTLEAIERLLQTPKPLTYAEYLPFYFINNPHLFRINVVKLPPAVCYPTWRLTLDEQPDLDMFNELYRGLNVKSKPLFFHQIKDYILRNPELIEINSHVKLKWANQQSLVDELNRETIL	PGPT0025255_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025255-spsF-K07257	NA	NA
AK009_02045	1206	arnB_2	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGGTAAGGGGAATCCTCGGTATGCATGGAGGAAAGCCTGTTAGAGAAACTTATTTACCATATGGCCAGCAACAAATTGATGAATATGATATTCAGGCTGTTGTAGATGTATTAAAAGGGGATTTTTTAACAACAGGACCAATGGTTCAACAGTTTGAAGAGGCTATAGCGAAATATGTGGGAGCAAAATACGCTGTTTCCTTTTCAAATGGTACAGCTGCATTGCATGCTGCCTGCTATGCAGCAGGCATAACTGAGGGAGATGAAGTAATTACAACTCCGATGACATTTGTAGCAAGTGCAAATTGTATTTTATACCAAGGGGGAAAGCCGGTATTCGCTGATATTGACAATGGAACATATAACATTAGTCCTAAATCTATAGAGGAAAAGATTACAAACAAAACAAAGGCTATTATTCCCGTACACTTTACTGGGCAGCCTGTAGAGTTAGAAGAAATACAAAAAATAGCAAAAGAAAACAATTTGATTATCATTGAAGATGCAGCCCACGCATTAGGAGCCACATATAAAAATAAAAAGATTGGTTCAATTGGTGATATGACAATGTTTAGCTTTCATCCGGTGAAACATATTACTACCGGAGAGGGGGGGGTAATTACCACAAATAATCCTCTGTTTTACGAAAAACTTTTTCAATTCCGTACGCACGGAATTGAAAAGAATCCTCGAAATCTTCTTGAAAATCATGGGCCTTGGTATTATGAAATGCAATTCTTAGGTTACAACTATAGAATAACGGATATACAAGCTGCTCTTGGCTTATCACAGTTAAATAAATTAGACTCTTTTATTAAAATTCGAAAGAAATATGTAGACATTTATAATAAAGAATTTAGTTGTTTATCTGAAATCATCATACCAAAGCAATTGCCTCAAACCGATTCAAGCTGGCACCTTTATATTATTCGTTTAAATACTAAATTATTAAAATGTAATCGAAAAGAAGTTTACGAGGCATTACAAAGAGAAAATATCGGTGTGAATGTGCACTATATACCCGTACATTTGCAACCGTTTTATCAAAAATTAGGTTATGGAAAAGGTATTTGTCCGCAAGCAGAAAATGTATATGAGGAAATTATTACGCTGCCTCTATTTCCTAAAATGACAGAAGCTGATGTGTGGGATGTAATACAAGCTGTGAGAAAAGTTCTTTCGTTTTATAGAGTTGCTAAAAATTAA	MVRGILGMHGGKPVRETYLPYGQQQIDEYDIQAVVDVLKGDFLTTGPMVQQFEEAIAKYVGAKYAVSFSNGTAALHAACYAAGITEGDEVITTPMTFVASANCILYQGGKPVFADIDNGTYNISPKSIEEKITNKTKAIIPVHFTGQPVELEEIQKIAKENNLIIIEDAAHALGATYKNKKIGSIGDMTMFSFHPVKHITTGEGGVITTNNPLFYEKLFQFRTHGIEKNPRNLLENHGPWYYEMQFLGYNYRITDIQAALGLSQLNKLDSFIKIRKKYVDIYNKEFSCLSEIIIPKQLPQTDSSWHLYIIRLNTKLLKCNRKEVYEALQRENIGVNVHYIPVHLQPFYQKLGYGKGICPQAENVYEEIITLPLFPKMTEADVWDVIQAVRKVLSFYRVAKN	PGPT0022785_374	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
AK009_02046	963		COG1088	UDP-glucose 4-epimerase	ATGAAAATATTAGTAACTGGTGGTGCAGGTTTTATTGGTAGGTGGGTTGTAAAGAGATTATTGCAGGATAAGCATGAAGTATGGATATTAGACAACTTAGCAAATTCAACTACTGCAAATATTACCGAGTTTGCACACGATCTAAATTTAAAACAATGCATTCAAGGAGATATTAAAGATAAAAAATTAGTTGCTCAATTATTTGAAAATAATTCATTTGACCTTTGTTATCATTTAGCAGCGAGTATCAATGTTCAAGATAGTATAGATGATGCTAGAGCAACTTTTGAAAATGATACAATAGGTACTTTTAATTTGCTAGAACAATGTCTTAATTATGATGTCAAAATGGTCTTTATGAGTACTTGTATGGTATATGATAAAGCTACTAATATACAAGGGATATCAGAATTAGACCCAATTAAACCAGCCTCTCCATATGCGGGATCAAAAATTGCTGCTGAAAACATGGTTTTATCTTACTATTATGCTTATAAGCTACCAGTAGTGGTTATTCGCCCATTTAATACGTATGGTCCATTCCAGAAAACAGGTGGGGAAGGTGGGGTTGTTGCCATTTTTATAAATAATAAATTAGATAATGTACCACTGAATATATATGGGGATGGAAAACAAACGAGAGACCTTTTATACGTTGAAGATTGTGCAGATTTTGTTGTGGCAGCAGGATACTCTGCAAAAGCAAATGGTCATATTATCAACGCTGGAACAGGGCAAGATATATCCATTAATAAATTAGCAGAATTGATTTCGGGAAATAAAGTAAGCATTCAACATGTAACTCATATCCATCCGCAAAGTGAAATTCAAAAATTATTATGTAACTATGAAAAAGCAAAAACAATATTAAACTGGGAACCAAAAGTTTCTTTAGAAGATGGAGTTATTAAAACAGAAGAGTGGATTAAATCTTTAAAAATTAATCCTAAGGAGAAAGAGTAA	MKILVTGGAGFIGRWVVKRLLQDKHEVWILDNLANSTTANITEFAHDLNLKQCIQGDIKDKKLVAQLFENNSFDLCYHLAASINVQDSIDDARATFENDTIGTFNLLEQCLNYDVKMVFMSTCMVYDKATNIQGISELDPIKPASPYAGSKIAAENMVLSYYYAYKLPVVVIRPFNTYGPFQKTGGEGGVVAIFINNKLDNVPLNIYGDGKQTRDLLYVEDCADFVVAAGYSAKANGHIINAGTGQDISINKLAELISGNKVSIQHVTHIHPQSEIQKLLCNYEKAKTILNWEPKVSLEDGVIKTEEWIKSLKINPKEKE				NA	NA	NA	NA	NA
AK009_02047	1026	pseB_1	COG1086	UDP-N-acetylglucosamine 4,6-dehydratase (inverting)	ATGTTTTTTAAAGATAAAAATGTTTTAATTATTGGTGGAACAGGAACAATTGGAAAAAGCATTCTTTCTAATGTTCTACAGGAAAAGCCAAAAGTGGTAAGAGTTTTTAGTAGAAGTGAATACAATCAATTTTTATTACAAGAAGAATTTAGGGATAAAAATCGAAATATTCGTTATTTAATTGGGGATATTCGTAATTATGATCGAGTATTTAGTGCGATGGAAAATATTGATTATGTATTTCATGTGGCCGCGATGAAGCATGTTTCGTTTTGTGAATATAATCCGTTTGAAGCAGTTTTGACCAATATTTTTGGAACACAAAATGTAATAAAAGCGGCAATTGCTCAGAAAGTAAAAAAGGTAGTTTTTACAAGTTCTGATAAAGCGATTTCACCAACAAATAATTACGGTGCAACAAAATTGACTGCTGAAAGATTGATTACGTCAGCGGAATATTCAAAAGGTTCAAGTGAAACGACATTTACAAGTGTTCGCTTCGGAAATGTGATGGGATCAAGAGGCTCTGTCATTCCTTTATTTGAAAATCAAATTAAAGAAAACCAAAAAATAACTGTAACGGATCTTAGTATGAGTAGATTTATGATGACACTGAACCAAGCAACTATGTTAACAATTGAAGCAATGAAAATAGCAAAGGGTGGTGAAACTTTTATATTAAAAATGCCAGTTATTTCATTAAACGATTTAAGTGAAGTGATGATAGAAGAAGTTACAAAGTTATATGGATTGTCCAAGGAGAATATTAAAATTGAAGAAATTGGTTTAAAACCGGGTGAAAAAATGTATGAAGAACTTATGACACATGATGAATCTTTACAGGCTTTTGAATTACCAGATATGTTTATCATTCCTAGCCCATTAAAAAAGGGTACTCAATATGAAAATGCAAAAAGGGCGAAGGCAGGCTTTTACCGTTCTGATAATCAAAATGCTATTTCAAAAGAAGAGCTTAGAAATTTAATATTAAACCAGCAGCTATTAACAGGAGGGGAGAAAATATGA	MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSDKAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKLYGLSKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLKKGTQYENAKRAKAGFYRSDNQNAISKEELRNLILNQQLLTGGEKI	PGPT0018935_713	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0018935-pseB|wbjB-K15894	NA	NA
AK009_02048	1404			hypothetical protein	TTGAGTGACATTTATTTGAAAAATTACTGGCTATTAAATTTAGAGTATATAAATATTTTTTCAAGGTTAAAGCAGTATAATATTCCTTTACCATTACTGAGTAATTTTTATCAATATTTAGATGAAGATATAAAAAATAAAATGAAAGATAATAATTTTTACAAGCAATTGTCAATTGAGCCAATAGCAGAAACACAGTTACAGTTAGAGTTTGAAAAAATAATGTCTGTATTTCAATCAAAAATAAAAAGAAAAAACCAAAATGGAGCAATCCTCCTAAATTCAGATTATCTCCGTTTTTCAGTAAGTAACTTTACTCACTTTAATCCAAATCAAACAAAGATATTAACTAGATCAAAAAAGACCGAACTCTATGGTCTTCCTACAGTTTGTGCACCAGATTATATAAATAAATCTGCTAATACCGCACATGTTTTTATAGAAAAAGCTAAAGAAATCTTTTTAAAGTTTAATAAGCACCCACTATTTTCAAACCTCTTTTTTCAAAAAAAATTACTAAGCGACCTTCCTATCATGATTGAGAAACTTAATATGGCTCATTTTATTTTTAAAGAACAAGATATTTCTGGTGTGATTGTCGGTACTACGGAAGATATAACAAGTAGAGCTCTTACTTTTCTTTCTAGTAGTGAGGGTATACCGAGTTATTGTCTGCAGCATGGTGCAGTAATGGGGGAAGAAGCATACTTTCCGGTTTTCGCAACAAAACAGGTCGTATATGGGAAATATGAAGAAGATTGGTACCTTCAAAAAGGGGTCAGTGAATCTCAAATCGAAATACTAGGGCACCCCAGATATGATGAGATCTTTGATAGAGTATATATGGATAAAAAGAATCTTTTTAATAAATTAAAAATAGACCCCTCTACAAAAGTGGTTTTTATTGCAACCCAGCCATTTAAAACTTCATTTTATACTGAATTGACAGAAAAGTTAGTGGAAGACAAAAATATTACGGTTATTATAAAACCACATCCTTGGGAAAAAGGGCGTAATTTAGTGGGAGAATATATTAAGTTAAGTAACTTATATCCTAATGTTAAATATATAACAAATGAAGTAAACATATATGATGTTATTTTACATGCAAATCTTGTGGTTATCTCAAATTCAACAGTGGGATTAGAGGCAATGTTATTAGATATACCTGTAGTTGTTTATAAATCTTTATTAGAGGAAAGGGATTATAAATATTACGATACATTAGATTGGCTTGTAAATCATTCTATGGAGGATATGACTAGCACGATTAAAAAGGTTCTAAATAATCCTTTACAATCAAATTTAGCAAAAGAATTAAGAAGAAAATTTATTAATGAAAACTATCCGCAAGAAGCATGCACAAAAAGATTAATAAATTTAATTCAAATTGAAAAAGATTAA	MSDIYLKNYWLLNLEYINIFSRLKQYNIPLPLLSNFYQYLDEDIKNKMKDNNFYKQLSIEPIAETQLQLEFEKIMSVFQSKIKRKNQNGAILLNSDYLRFSVSNFTHFNPNQTKILTRSKKTELYGLPTVCAPDYINKSANTAHVFIEKAKEIFLKFNKHPLFSNLFFQKKLLSDLPIMIEKLNMAHFIFKEQDISGVIVGTTEDITSRALTFLSSSEGIPSYCLQHGAVMGEEAYFPVFATKQVVYGKYEEDWYLQKGVSESQIEILGHPRYDEIFDRVYMDKKNLFNKLKIDPSTKVVFIATQPFKTSFYTELTEKLVEDKNITVIIKPHPWEKGRNLVGEYIKLSNLYPNVKYITNEVNIYDVILHANLVVISNSTVGLEAMLLDIPVVVYKSLLEERDYKYYDTLDWLVNHSMEDMTSTIKKVLNNPLQSNLAKELRRKFINENYPQEACTKRLINLIQIEKD	PGPT0025262_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025262-spsB-NA	NA	NA
AK009_02049	768	spsA	COG0463	Spore coat polysaccharide biosynthesis protein SpsA	TTGCCTAAAATTTCAGTTATAATGACAAGTTACAATAAGCCTGCGTTTGTTGAAAAATCTATATTAAGTGTATTAAACCAAACCTTTCAAGATTTCGAGCTTTTTATAATGGATGATGATTCAGATGAAATGACCCAGAAGGTGATTCAACCATTCATAAATAATGAAAATGTACATTTTTATAAAAGTAATGTAGCTCATATTTCTGAAAGGACAAAAAAAGTAAGATATGCCGCTTTAATTAATGAGGCACTTAAGCATGCTAAAGGAGAATATATAACTTATATTACAGATGATAATCAATATGAAGAAGAACGTCTTAAAAAGATGTCTAGTTATCTTGATGAGAATAAAGATGTTCAAATTATTTATTCTGCATCAAAAACGATTCATATAGATGAAACAGAGATGCCTATTAAAACGGTTGAGAGACCTGCAAAAAAAATTACGAATAATGCTCCATGTACAATTGATCATTGTTCTATTATGCATAGAGCATCTGTTTTACCAATTCTTGAAAAAAGGTGGAATTCTTATTGGGATGAAGATCCTCAGTTTTACCGGATAGGAGATGCACGCTTCTTTTGGAGATTAAATCACTATTGGGATTTTTATCCCTTAGATGAAATTTTAGATATCAATTATATTACTCCCCATTCAATACATGCGCAGTTATTTGCAGAAGAAAAAAATGAATTTGTGCAATTATTACCACCACAAAGAACATGCAAAGAATTAAGGGAAGACTTAAGAAGAAAAAGAGGGTGA	MPKISVIMTSYNKPAFVEKSILSVLNQTFQDFELFIMDDDSDEMTQKVIQPFINNENVHFYKSNVAHISERTKKVRYAALINEALKHAKGEYITYITDDNQYEEERLKKMSSYLDENKDVQIIYSASKTIHIDETEMPIKTVERPAKKITNNAPCTIDHCSIMHRASVLPILEKRWNSYWDEDPQFYRIGDARFFWRLNHYWDFYPLDEILDINYITPHSIHAQLFAEEKNEFVQLLPPQRTCKELREDLRRKRG	PGPT0025261_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025261-spsA-NA	NA	NA
AK009_02050	1287			hypothetical protein	TTGCAACCCCAAATATCAATTATCCTTACTAGTTATAATAAGCCATCATTAATTAATCAAGTTATTGAAAGTGTTCTAATGCAAACTTATAAAGAATGGGAACTTTTTATTATGGATGATAACTCCTGTCCAGAAACTATAAATGTCATAAAAAATTATCTAGAGGATCCTCGAATTACTTATACGAATAGTTTTATACAAGATGATGAACGATATAAAACTACAAGATATGCAACACTTATCAATGAGGCACTACCATTAACTTGTGGGGATTATATTTGCTATTTAACAGATGATACTATATACCTTCCAAACAGATTAGCTGAAATGTTGTCTTTCTTAGAAAAACATCCTGAAATTGATGTAGTCTACTCTTCCCAATACGTAAAATATGTTGATTATAACCTACAACCTACAAATGAATTTGTGAGAGAAGCTTCGGAAATTTTATATACAGCTGCTAATGTTGTAGATCATTGTTCAATTATGCATACTAGAAGAATATTATTAAAAGTCTATGAAAAGTACTGTGGATATTGGGATACAAATCCTTTATATTGGTTTGCTGGAGATGCAATGTTTTGGAAACGCCTAAATACATTTCAACCTTTTTATCCCATTAACAAAGTGCTCGATATTACTTTTAAAACACCATTCTCTTTCCAAAACCTATATGCTAACCTCCCTTCAAAAGATTTAAATGGTATTTTATTTAGTAATTCACAAGGTAAAGTATTTTTAATTGATAACTTTAAACGCAGGCTTATTTCGAAAGATATGCTTTCTTACTTCAAATATAATCAAAATGAAATTGTCTTAATTCCCGATCCATTTATCTACAAATATACAGAAGGGCCCCCCATAACCCTTACAGAGTCAATTCCAAATCTACGGGTTGTGCAAAGTGAAAAAGGAGAGTTATTTTATATAGAAAATAATCAAAAACGTCCATTTATTGACACCATTGCATTTCGCAAATTTAAATTTTCAGTTCAAGAAATTATTAAAGTTTCACAACGTAGTTTAAATCAATTTTCAGATGGACCACCTATTTATCCAAATTTATCTCGTCACGCGGTTTTACCAGAAGGAAAAGTATTTATCTACCATCACAATTATTTCATCATGACAGATTATATGCTTCATCCCATAGATAAAGATATATTGCAAAAACTATATTTATTAAAGAACTGTATACCGATTTCAAAGACCAATTTATCCTACTTTAAGATGGGCCCTCCTATTTCAACATACCCCTCTTACCTAGCTGAAAAATACTTAGAATAG	MQPQISIILTSYNKPSLINQVIESVLMQTYKEWELFIMDDNSCPETINVIKNYLEDPRITYTNSFIQDDERYKTTRYATLINEALPLTCGDYICYLTDDTIYLPNRLAEMLSFLEKHPEIDVVYSSQYVKYVDYNLQPTNEFVREASEILYTAANVVDHCSIMHTRRILLKVYEKYCGYWDTNPLYWFAGDAMFWKRLNTFQPFYPINKVLDITFKTPFSFQNLYANLPSKDLNGILFSNSQGKVFLIDNFKRRLISKDMLSYFKYNQNEIVLIPDPFIYKYTEGPPITLTESIPNLRVVQSEKGELFYIENNQKRPFIDTIAFRKFKFSVQEIIKVSQRSLNQFSDGPPIYPNLSRHAVLPEGKVFIYHHNYFIMTDYMLHPIDKDILQKLYLLKNCIPISKTNLSYFKMGPPISTYPSYLAEKYLE	PGPT0024859_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024859-cgeD-K06322	NA	NA
AK009_02051	570			hypothetical protein	ATGAAGATGAAAAGAAAAATCATTATGACAACAGCACTTGCCGCTACGTTAGCTACAGGTGCACTACCTACTACCTCGGTGTTTGCTGCAGAAAAAGAGGCTCCTATTCAACACAAAGAGGCACAATCGAGTATTCAACCTTTGGCACAAAATAATTTGGAAACAGCCGTTCAAGCTGCCTTAAATGGTCCAGAAGTCAAAAAAATTAAAGTATTTGAACATGAATTTAATGTAAAAGAAATAGAAGTAGTAAACCTAGGTGCAGGAAAAAAATATGTTAAGGGGCAAATTTCTCATCATTTAAGTTTTCGTCCAGATGATCAATTTTATTATGAGTTTACAGTACAAGATGGAAAGGTACTAGATAAACCTGTATTTAATATTGATAGAGGTGGTTGGACACCATTTGCCGCTCCACTTTTATCAATTCTTGCTGCGTATAATGGAATTCCAGTTAATCCAAATGATTTAAATACACTTGGTCAGCAAATTGGTAAAGTTATAGATGGAAGCTGGGAACATGCAGCCCAATCAATTGCAACTGTAGTTAGTCTAAGTTTTAATGAGTAG	MKMKRKIIMTTALAATLATGALPTTSVFAAEKEAPIQHKEAQSSIQPLAQNNLETAVQAALNGPEVKKIKVFEHEFNVKEIEVVNLGAGKKYVKGQISHHLSFRPDDQFYYEFTVQDGKVLDKPVFNIDRGGWTPFAAPLLSILAAYNGIPVNPNDLNTLGQQIGKVIDGSWEHAAQSIATVVSLSFNE				NA	NA	NA	NA	NA
AK009_02052	1416			hypothetical protein	ATGAACAAAATAAAAATGAGAAATTTCTTTAAAATTAGTATCCTTACTTGTATTACACTAGCAAGTTTAAGTACACCATCTACTATTTTAGCTAATAGTCATCCAGGTTACTCCTATGAATCCAATATAGGGTATCAAAATCCATCGTGGATGGCGAAAATAGAAGATTCAACAAAAATAAGTGAAATATCTATTCCAGGGACTCACGGTACAATGGCTTTACATGGAGCAAGTTTTATTGATGAAAATTTGACAAGAAATCAAACTATGAGTTTATCCCAACAATTAAATTCCGGAATTCGATATGTAGATATGCGTGTTAAACGTGTAAAAGATTCTTTTGCAATGTATCATGGTGTTGTAAATCAAAAAGCTGTGTTTGAAGATGTATTGAAAGAGACCATTCAATTTTTAAAAGCTCATCCAACAGAAACAATATTAATGCGCTTAAAAGAAGAAACTACTCCTGAAAATGGATCTCTATCATTTGAGGAGATATTTTTAAAATACAAAAACGTTAATGCTTCATATTTTTGGGATCCTAATTCCGTACAAACTTCAGATAGAAATAATCCTACTTTAGGAGATACCCGCGGGAAAATTGTAATCTTACAAAACTTTACATCCACTCAATTGTACGGAATTGATTACGAAGGTTTGAATATACAAGATAAATTTGAAATTGGAAGCGGACCAAACGAAATATACACAAAATGGATTGCGATAAAAAACCATCTACGAAATACAAATACTAACTTTAATAATGGAAAAATTTACCTCAACCATCTTAGTGGTACGGGGGGCGCAGCCGCATTTTTAAATAATGTATATCCTTGGTTTGTTGCAAGCGGAAAAGAAGGCAGAAATACTGACAGTAGTCCTAAATTGATTCAAACGAATTCCACTAATGCGTGGAGTGATTTCCCTCGCGATAGAAACGGACAAGTATACTATGGGGGGATGAATATACTTGGGACCGAACTCTTACAACAAGGCGCAATTAAACATTCTGGTATCATCGCAGCTGATTTTCCTGGTCCAGGTTTAATTGATAGTATCATTAAATTAAATGGTATACATTCAAATGAAAAAGAAATATTAATTTCGCAAATAGCATCTGAATCTAGTCCTTTATCAGGGCAACAAAATCGATCCAGCCAAAACTTTAAAATTGATAGTTTACCTGTAGGTACAAAAGAATTAAAATGGGTTATTGAGCCTTCAGAAAAAGATTATCCTTCTACTATTTCTTTCAATGTAATGATTGATGTTTCCCTGGGAATAGATTCCACTCGTTGGAAGAATATTTCACATGAATCTAAGACTGAAGCTTACACAAATACTAAATATTATATTGCAAGTCCAATTGGTGCCACTAGCAAATTCACAGTGAAAATTTACGCTATTACAAATTAG	MNKIKMRNFFKISILTCITLASLSTPSTILANSHPGYSYESNIGYQNPSWMAKIEDSTKISEISIPGTHGTMALHGASFIDENLTRNQTMSLSQQLNSGIRYVDMRVKRVKDSFAMYHGVVNQKAVFEDVLKETIQFLKAHPTETILMRLKEETTPENGSLSFEEIFLKYKNVNASYFWDPNSVQTSDRNNPTLGDTRGKIVILQNFTSTQLYGIDYEGLNIQDKFEIGSGPNEIYTKWIAIKNHLRNTNTNFNNGKIYLNHLSGTGGAAAFLNNVYPWFVASGKEGRNTDSSPKLIQTNSTNAWSDFPRDRNGQVYYGGMNILGTELLQQGAIKHSGIIAADFPGPGLIDSIIKLNGIHSNEKEILISQIASESSPLSGQQNRSSQNFKIDSLPVGTKELKWVIEPSEKDYPSTISFNVMIDVSLGIDSTRWKNISHESKTEAYTNTKYYIASPIGATSKFTVKIYAITN				NA	NA	NA	NA	NA
AK009_02053	1377	gbpA_3		GlcNAc-binding protein A	ATGAAATTGAAATTAACATCTAAATTGGAAAGATTAAGAACAAGTAAAAAGGGGATTGGTGCTTGTGTTTTGGCTGCAGGCATGACGGCAATCACAATGGCTCCTCAAAGTGCGTATGCACATGGGTTTGTTGAAAAGCCGAGTAGTCGTGCTGCTTTATGTAGTCAGAATTATGGGGTATTAAATTTAAATTGTGGAAATGTAATGTACGAACCTCAAAGTCTAGAAGCACCTAAAGGATTTCCAGATAGTGGACCGATTGATGGGAAAATCGCTTCGGCAGGAGGGTTGTTTGGAGGTATTCTTGACCAACAAACATCAAATCGTTGGTTCAAAAACACAATTAAAGGTGGAGTAAATACGTTTACATGGAAATATACAGCAGCACATTCTACAAGTAAATGGCATTATTACATTACAAAAAAGGGATGGGATCCTAACAAACCATTAACACGTGCTGAATTAGAACCAATCGGAACTGTGAAACATGACGGTTCGGCTGCATCAAATAATTTAACACATACAATTAATGTACCAACTGATCGTAATGGTTATCATGTTATTTTAGCTGTATGGGATGTAGCAGATACGTCAAATGCTTTTTATAATGTAGTTGATGTAAATTTAGTAAATAATGAAACTCCTGATACAGTAGCTCCAAGTCAACCAACTGAATTAAATGCCTCTAAAGTTTCTGCCAATAGTGTTGAAATAACATGGAAGGCTTCCACTGATAATATAGGTGTAAAAGAATATCAAGTGTTACGTAATGGAGAAGTAATTGATACGGTACCAGGTACAACTTTTATTGATAAAAAATTAAAAGCAGATACGGAATATACTTATACAATAAAGGCATTAGACTCTGCTGGAAACATATCAAAAGAAAGTGAAAAACTGAAGGTTAAGACAACACATACAATCCCCGATATAGAGGCTCCAACTCAACCAAAAGGATTACATAGTATGGGTACAACATCGACAACTGTTGATTTAATGTGGAGTCCGTCAGAAGATAATGTAGGTGTTGACCATTATATTGTATATAGAGAAAGCGCTGGGGTTATGAATAAAATTGGAACAGCGGCTAATACATCCTTTATGGATAAAGATTTGAAGGCTAATACATCGTATAATTATGTAGTGACGGCGGTTGATTTAGCTGGAAATGAATCTAGTAGAAGTGATGTTTTGAATGTAACAACAAAGTCAGAGAATTCCGCATATGAAAAATGGGATGCAAGAAAAGCATATACTAAAGGTGATAGAGTAGTACATGAGGGGAAAGTGTACGAAGCGGTTCAAAATCATCAAGGAAATGGCGACTCAAATTGGATTTTTGCTTTATCGCTTTGGAAGCCAGTTTTGAATAAATGA	MKLKLTSKLERLRTSKKGIGACVLAAGMTAITMAPQSAYAHGFVEKPSSRAALCSQNYGVLNLNCGNVMYEPQSLEAPKGFPDSGPIDGKIASAGGLFGGILDQQTSNRWFKNTIKGGVNTFTWKYTAAHSTSKWHYYITKKGWDPNKPLTRAELEPIGTVKHDGSAASNNLTHTINVPTDRNGYHVILAVWDVADTSNAFYNVVDVNLVNNETPDTVAPSQPTELNASKVSANSVEITWKASTDNIGVKEYQVLRNGEVIDTVPGTTFIDKKLKADTEYTYTIKALDSAGNISKESEKLKVKTTHTIPDIEAPTQPKGLHSMGTTSTTVDLMWSPSEDNVGVDHYIVYRESAGVMNKIGTAANTSFMDKDLKANTSYNYVVTAVDLAGNESSRSDVLNVTTKSENSAYEKWDARKAYTKGDRVVHEGKVYEAVQNHQGNGDSNWIFALSLWKPVLNK				NA	NA	NA	NA	NA
AK009_02054	1044			hypothetical protein	ATGAGAGACTTTTTTGATGATAAGTATAAAAATATTGAATTGAAAAGGAGGTTAATAAATTTAATAAGTGAAATTAGCGAATTCAAAGGAAAATTAGCTGCTTATCAGGAACAAAACAAGGACATATTTAATAGCTTAGAAAAAACTATACCACTACATTACATAAAAAATTTCACAACTATTTACGAGGATATAAAAGTTCCTAATAAAAGATTAAAAGAACTTATTTTAGATGATATCGTACCTCAAAATATTTCGGAAGATGCTATTTTTTGCTATTATCAAACACTTTCTTTTGTACATAAAAACTCCTGTACTTTATTAATCAATCCAGCAACTATACAGGAATTACATTTTCAACTAATACATTACATTACCTCTGACAGTGCCAAATGGCGTGAAAAACCTTTTATTATTCCAGGAATTCCAGAACATGGAATGCACTTGAATAGTTACCGCATTCTTCCACATGAACTTATTCCACAGTTTATGGAGCAATTATGTGATCAATACAACTCATTAAATACTAGTAAGGGGCTTCATTCACTTTTATTAATAGCTCGTTTTATATTAAATTTTTATTGCATAGTCCCTTTCAATCAAGGTAATAACAGGTTGGCATTTATGTTAATGCAATTGCTGTTAATTAAGAGTGGACATACATTTGTAAAATATGTATGTTTGGATAAATATATTAAGAAACATGAATCTGATTATTACAATTCGATTTATAAATCTTCGGTGAATTGGTACTGCGAGGAACATAATAATAGCTTTTGGTTAAAAACGTTTTTAACCATTATATTAGAGGCTTACAAAGATCTTCATAACACAGTTCTAGATTCTATATGTAAACATACTAAAGTTGAGAGAATTCAGGATTTTATACTTAAACAAAAACAACCCTTTACTAAAGAAAGTATTCGTAACACTTATCCAGACATTGCAGAGAGTACAATCAGTAAGGCTTTAAATTCCTTGCAACTGTTTGGCCATATTAAGCTAGTTACAAAAGGAAGAAATGCAAAGTGGATTAAAATTTGA	MRDFFDDKYKNIELKRRLINLISEISEFKGKLAAYQEQNKDIFNSLEKTIPLHYIKNFTTIYEDIKVPNKRLKELILDDIVPQNISEDAIFCYYQTLSFVHKNSCTLLINPATIQELHFQLIHYITSDSAKWREKPFIIPGIPEHGMHLNSYRILPHELIPQFMEQLCDQYNSLNTSKGLHSLLLIARFILNFYCIVPFNQGNNRLAFMLMQLLLIKSGHTFVKYVCLDKYIKKHESDYYNSIYKSSVNWYCEEHNNSFWLKTFLTIILEAYKDLHNTVLDSICKHTKVERIQDFILKQKQPFTKESIRNTYPDIAESTISKALNSLQLFGHIKLVTKGRNAKWIKI				NA	NA	NA	NA	NA
AK009_02055	1494	gerBA_2		Spore germination protein B1	TTGTCCTTAAATGAAGAGACCTTAGAAACTAAGACAGATAAAACCATTGAAAAGATTCAAACAAGTAACTTAAAACAACTTAAAAATACACTAGATAATATCTTTGATATTAGTGCAGATTTAATTGAACATCCTTTGCAATTAAAAACAAACACGAATATTTTACTATATTATTTTGAAGGCCTTACAGATGGTGTTGCATTAAAAACCAATGTTGTTACACCATTATTACAAGAAGTAAATGAAGACAGTCAAATATTTAATTCTAATATTATTGCTACTCATACCAAAATAGTATATACATGGAATGAAATTAAAGAAGGGTTACTTGAGGGGCAATGTGTACTGTTTATGGAGGGAGAAAAGCGGTCACTTCTAATAAACACAAAAGGCTGGGCAGAAAGGGCGATTCAAGAGCCAATTTCAGAAGTTACTATTAAAGGATCCCATGATGGATTTATTGAAAATGCCACAAAAAATATAGGTCTTATTCGTCGATATATTCCTTCTACAGAGTTAAAAATCAAAAAGCTGACGATTGGAGAACGAGCCACTTCTATAGTCTATTTAATTTACTTAGGTGATGTAGCAAACGCAGATGTAGTCCAAGAAATAGAAACTAGAATCTGTAAAATCAAAACAGATGCGGTATTAAGTATTGGAGAGCTATCTAATTATACAAAAGATCAAAATTGGACTCCTTTTCCACAGGCTTATTTAAGCGAACGCCCAGACGCCATTTCAAATCATATACTTGATGGGAAAGTAGCAGTGTTAATGGATAGATCACCTGGTGCAATGGTTGTTCCTATGAATTTGATTGGATTTTTTCAAACCCCAGATGACTATAATATTCATTGGCTCATCGCATCATTTTTTCGCTTATTACGATTTGCAGGATTTATTATAGCTATTTTTTTACCCGCATTTTATATTGCTATAGTCTCTTTTCACTTTGAAATTATTCCTATAGACTTATACACTTCTATTGCAACATCAAGAGTCAAAGTCCCTTTCTCCCCCTTATTGGAAGCTTTTATAATGGAAATTACACTAGAAATGCTACGTGAAGCTGGCATTCGCTTACCACAACCAATTGGACAAACTATTGGAATCGTTGGAGGGATTGTAATTGGACAGGCGGCTGTTCAAGCTGGTCTTGTTAGTAACGTTATGGTTATTATCGTATCTATTACAGCCATTGCTTCATTTATTGTTTCTAATTATGATTTATCAAGTTCTATACGCCTTATCCGTTTTCCAATGATGTTATTGGCTTACTTTTATGGGATTGTAGGTATTGTTAGTGGATTAATGCTTTTATTTGCTCATTTTGTTTCACTAACTTCCTATGGTTCACCATATGGAATGCCAATCGCACCATTTCGTCTCCAAGAGTTAAAAGATTCTTTTGTAAGATTTCCTATTTCGATGATTACCACCCGCTCGAGTACAGGACAGCCGAAACAAAGAAAGAAAAAAGAAGGTGGTTAA	MSLNEETLETKTDKTIEKIQTSNLKQLKNTLDNIFDISADLIEHPLQLKTNTNILLYYFEGLTDGVALKTNVVTPLLQEVNEDSQIFNSNIIATHTKIVYTWNEIKEGLLEGQCVLFMEGEKRSLLINTKGWAERAIQEPISEVTIKGSHDGFIENATKNIGLIRRYIPSTELKIKKLTIGERATSIVYLIYLGDVANADVVQEIETRICKIKTDAVLSIGELSNYTKDQNWTPFPQAYLSERPDAISNHILDGKVAVLMDRSPGAMVVPMNLIGFFQTPDDYNIHWLIASFFRLLRFAGFIIAIFLPAFYIAIVSFHFEIIPIDLYTSIATSRVKVPFSPLLEAFIMEITLEMLREAGIRLPQPIGQTIGIVGGIVIGQAAVQAGLVSNVMVIIVSITAIASFIVSNYDLSSSIRLIRFPMMLLAYFYGIVGIVSGLMLLFAHFVSLTSYGSPYGMPIAPFRLQELKDSFVRFPISMITTRSSTGQPKQRKKKEGG	PGPT0014780_190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_02056	1104			hypothetical protein	ATGGGAAATCTTAAGTTCCAAAAAGTAACTTTATTCGAATTTATTATTTTCATTCATTCGCTTCAACTTGCATCTGGTATGTTAATTATGCCAAGCCCCCTTGCTACTAATGCTGGCACAGATGGCTGGATTTCGATCATTCTCGGATGGATAGTGACTTCTATAATCGGGGTATTTATTATATTAATGTTACAAAAAAATCCTAACAAAAATTTCTCACAAATCTTAAAAACATACTTTGGTAAATGGATAGGGACAATTCTTTTTCTTGCATATGCCTTTTATCTATTTTTTGCTGGATTTAATACTTTATTAAAGGCAACCGATATTGTAAAAGTGTGGATATTCCCTTCCACTCCTGCTTATCAAATCACCATATTATTACTATTACCTTTTATTATTTTAACCCTGAGTGGGTTAAGGGCTCTTACTAGTTATTCTATGCTTGTTTTCTTCTTCACTACTTGGATGCCACTATTTCTTCTTTTTTCACTAAAGACTAACTACAATCCTTTACACCTACTACCTATATTTAAAGAAGGATTATACCCTATTGTAAAGGCAACAAAAGAAACCATTACTCCTTATGCTGGCCTAGAAATTGCATATTATATATATCCATTCTTACAAAAAAAGCAAAAAGCCATAAAAGGACTACTAATAGCGAATACTGGAACCATGTTTTTCTATCTATATGTTACTATTCTTTCTTATATATACTTTAGTCCAGAGGGGATAAAAGACGTAATCTGGCCAGTATTTCATCTGTTAAAAGGGGTTCGTTTTTCTTTCATGGAACGATTAGAAATTATATATATCGCTTACTATTTAATTGTATTTTCCACTACGATATATCCGTATTTATTTTTCAGTTTTGAATCTGTAGCCATTTCACTTCAAAAAAACGCCCGCAATTGGGCGCTGCTTGCTTTTATGTTATTTATAGTTGGCCTATTTATTTTCCTAAATCCCGATGTGGATCAATATTTGTTTATATATTCTCTTATGGATATCTTAAATGTCGTTTTCTTTATTCTATTACCAATCTTATTTTTCGCTTACAGTATTCTTTTTACTTGGATTACTAGGAGGAAACAACTTTGA	MGNLKFQKVTLFEFIIFIHSLQLASGMLIMPSPLATNAGTDGWISIILGWIVTSIIGVFIILMLQKNPNKNFSQILKTYFGKWIGTILFLAYAFYLFFAGFNTLLKATDIVKVWIFPSTPAYQITILLLLPFIILTLSGLRALTSYSMLVFFFTTWMPLFLLFSLKTNYNPLHLLPIFKEGLYPIVKATKETITPYAGLEIAYYIYPFLQKKQKAIKGLLIANTGTMFFYLYVTILSYIYFSPEGIKDVIWPVFHLLKGVRFSFMERLEIIYIAYYLIVFSTTIYPYLFFSFESVAISLQKNARNWALLAFMLFIVGLFIFLNPDVDQYLFIYSLMDILNVVFFILLPILFFAYSILFTWITRRKQL				NA	NA	NA	NA	NA
AK009_02057	1128			hypothetical protein	TTGATTCGAAAATGGATATGGATTGTAATTTGTTGTGTATATATAATTGGTTGTAGTCAGAGAATTCCTCTTGAGAAGGTTTCATTAATCCTGTTAATTGGCTTGGATAGAACCCCTAATGGAGACATAAAAGTTGGAACAAGCATACCACTCTTTCATCATAAACAGCAAAAAAGTACTATAGAACATTGGACACAAGCATCAACTGTATATACTGGATTCAGTAAGATAGATACGAAGTTAACGGGCTTTATGACAGCTTCCAAAGCTGAAATCATTTTAATTGGAAAAAAATTAGCGCAAGAAGCAAATTGGTTGCAGGAGCTTGATTCTTCTTACCGTGACCCTTACGCTACCATTAATGCTAAAGTAGTACTTGTAGATGGACCTGCAGAACAAATTTTTACAATTCATAAGCCTAGTAAACCATCACTTTCATCTTATATAAATGGTGTAATCGAATCGTCAATTCAAAATAACCAATCCGTCTCTTCTACAATTCAACAATTAATGAGAGAACAAAATGAAGAAGGAATGACGCAAACTGTTCCAATTATCAAAAAAACAAAGAATGAAATCGATACAGTAGGAATTGCATTTTTAAATCGAAAAGGGAAATATTTAACTCATATCCCTAAAAAAGATGTTAAATTTTTCAATCTTATAAATAAGCAAAAAAGTAGCGGGCGAATGATACTACACCTTGCGCTTCCTCCTAAAAAGTCCAACAAAAAAACAAACACTTCCATATTCGTACAGAACGCGACAAGGAAGGTAGTTGTTAATTTTCAAAACGGAAAGTTTGTATTTAATCTCGATATTTACGCTAATGTAGCTTTAATAGAAAAAACCAATCCGAATTCAATTAAAGGGCACTATGATAATAAAAAAAATATAAATAATTTAAAAAATGCTATTCAAAAAGAAATTAATAATAATTTACAAAATATGTTATATGAAATACAGCAGAATAAAATTGATCCAATCGGATTATCCCAATATGCTAGAGCATTTCAATATAAAGAGTGGAAAAAAGTAAAAGGAAATTGGTTGCAAGCGTTAGCAGAGGCTAAAATAAATGTAAAGACACACGTCAAAATAAAAGATACTGGAACCATTAGAAATTAG	MIRKWIWIVICCVYIIGCSQRIPLEKVSLILLIGLDRTPNGDIKVGTSIPLFHHKQQKSTIEHWTQASTVYTGFSKIDTKLTGFMTASKAEIILIGKKLAQEANWLQELDSSYRDPYATINAKVVLVDGPAEQIFTIHKPSKPSLSSYINGVIESSIQNNQSVSSTIQQLMREQNEEGMTQTVPIIKKTKNEIDTVGIAFLNRKGKYLTHIPKKDVKFFNLINKQKSSGRMILHLALPPKKSNKKTNTSIFVQNATRKVVVNFQNGKFVFNLDIYANVALIEKTNPNSIKGHYDNKKNINNLKNAIQKEINNNLQNMLYEIQQNKIDPIGLSQYARAFQYKEWKKVKGNWLQALAEAKINVKTHVKIKDTGTIRN	PGPT0025020_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025020-gerAC-K06290	NA	NA
AK009_02058	675			hypothetical protein	ATGAACCTAGATGATATACAAAAATCCTATGGCGTAATTGTAAGTTTAGGAGGCTTGTGTCAAGTCACTAACCAAATCAAAAGGCACCATTTAAGAACATTTTCTGGACCTTTAGATTGGTTTTATTATCCATCACTTTCAGATGTAAACAGATTACTTCAAAATCGATTTGAAAAATTTATGAAGTTGGAAAATATGGTCATAGAAGGTTCAGAAAGTTACGGTCTTATTGAATCAGAATTTGATAATCAAACTAAATGGGCAGAACGAATTACCTATTGTATAAAGGACACTTATTATAATTGTTTTTCAATGCATGACTTTCCTATTGACTCAGAAAAGGATTGGAAATCAACCTATCCTTCTTTTAAAGCTAAATTAGACACTAGAATTAATCGATTCCTTGAAAAAATAAATAGTAGTGAATCAATTTTATTCATTAGGATTTGGGGAAATCGAGATGAAGCGGTTGAATTAAAAAACGTATTATCCGAAATTACAAATAAAGATTTTAATATTCTTATTGTCAATTTTAAGGAGGATATATCTAATATCGTTGAACAAAATTGGGGAATATCGAGGGTTTGTTCAATTGAACTCCCACGTTATCAGGATAGATGGGAAGGTGATGATTCCGATTGGAATTATATTTTAAATAAAATAACATTAACTTAA	MNLDDIQKSYGVIVSLGGLCQVTNQIKRHHLRTFSGPLDWFYYPSLSDVNRLLQNRFEKFMKLENMVIEGSESYGLIESEFDNQTKWAERITYCIKDTYYNCFSMHDFPIDSEKDWKSTYPSFKAKLDTRINRFLEKINSSESILFIRIWGNRDEAVELKNVLSEITNKDFNILIVNFKEDISNIVEQNWGISRVCSIELPRYQDRWEGDDSDWNYILNKITLT				NA	NA	NA	NA	NA
AK009_02059	750	rfbF	COG1208	Glucose-1-phosphate cytidylyltransferase	ATGAAAGTCATAATTTTGTGTGGCGGAAAAGGGCTTCGGATGCAAGGAATTTTAGAGGACATTCCCAAACCATTAGTTCGAGTTCAAGGAAAGCCTCTCCTCTTGCATATAATGAATTGGTATAGAAAATATGGACATTCTGATTTCATTTTGCCCCTAGGATATAAAGGTGAGAAAATTAAAGAATATTTTATGGACTTTAGCTGGAAAGAGAATGACTTTAGTTTGAATTTTAAAACCAATCAATATACGCTACTTCAGGAATTAGAAAATTGGAATATACACTTTATAAATACAGGAATTGATACAATGACCGGGGCAAGGCTAAAAAAACTTGAACCCTTTGTACAGGATGAAACCTTTTTATTAACTTATGGCGATGGATTAGCAAATATAGATATTGATCAACTAATAGCATTCCATAAAGAAAAAGGAAAAATTGCTACATTAACTGGAATTAAAAAAAATAGTCAATATGGCCTATTGACGGTCGAAAATGGAATTGCTATTGATTTTAAAGAAAAACCATTACTTGATGAAGTAATTAATGGCGGTTTTTTTGTATTTAACAAAGAAATATTCGATTATTTAGGTGATAGTGATGATTGTGTTCTAGAAGAAGATCCTCTTCGCAATTTAATAAAAGACAATGAGCTCGCAGTCTATGAACACAATGACTTTTGGGCTAGTGTCGATACACCTAAAGATTTAAAAACTGTAGATGAAAGTTGGAATCCTAATAAATTTTAG	MKVIILCGGKGLRMQGILEDIPKPLVRVQGKPLLLHIMNWYRKYGHSDFILPLGYKGEKIKEYFMDFSWKENDFSLNFKTNQYTLLQELENWNIHFINTGIDTMTGARLKKLEPFVQDETFLLTYGDGLANIDIDQLIAFHKEKGKIATLTGIKKNSQYGLLTVENGIAIDFKEKPLLDEVINGGFFVFNKEIFDYLGDSDDCVLEEDPLRNLIKDNELAVYEHNDFWASVDTPKDLKTVDESWNPNKF	PGPT0022605_1090	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022605-rfbF-K00978	NA	NA
AK009_02060	2070			hypothetical protein	TTGAACTCTAATGATAAAAAAATAAGTTTACCTCGATTGTATATCCCCTCTAATGAGAAAATAGTTAACCCGCTTTCAACAGGAATTAAAGCTTCAAATCTCTCCAAAAAAAATACTCAAAAAAGAATGAATCCCCAATTCTATAATCAACAACATGATCTAAATAATCATTTCTGTGTCATTGTAGGTAATGAATATGTCTTGAAAATCATTGCTTTACAGCAATCATTAATGCAGTACTCAGAAAAATTCACATTGTGGATTTGTTGTATAGACCCTTTTGCATATTCACTATTAAAAGAAATGAATTTAATTAATGTAAACCTTTTACAAGTTGAAGAATTAGAAGATAGTGAACTAAAAGCAATTAAAAGAAAAAGAAAAGTAAATGAATATTGTTGGACTTTAAAATCTGTCTTGATAGAATATTTATTGCTCAATTATGATTTACCATCTATTCTATATTGTGATGGTGATTTATGCTTTTTCTCTGATCCTAATATTATTTTTGAGGAATGGGGTGAATACTCTATTTTCCTTACCCCCCAAAGAGATCGTGATTGGGTAGAAAAAATGTATGGAAAATATCAGGCTGGGCTAATTGGATTTAAGAATGATCTCTATGGACTAAAAAGTGTAAGATGGTGGAAAAATAAATGTCTAGATTGGTGCAGTGCCGAGGCTGAGGAGGGGAAATTTGGAGACCAAAAGTATTTAGATTATATCCCTATATATTTTCCAAAAGTAAAAATTTCAAATAACTTAGGTATAAATGCTGCGCCTTGGAACTGTATATATAATAACGATTATAAAATTGACAAGACTAAAAACGATGTATTTATTGAAAACGACAAACTAGTTGTTTACCATTTTGCATGTATTACTATCTTTAATGAAAATGATTTTGATCTTTGGTCTTTAGGAGCAATTTCAATACCCAATAATATATTAAACCATATTTACACTCCGTATTTAGAGAGAATTCAATTTGTTTTAAATCAATTAAAAAATAAATTCAATAAAGATACTAAACAATTTTTAAGTAAAAAAGATATAAATAAAGCTCAAACCTTATATAAAGATTCACAATTAAGAAGAAAAATGAATCAATCCAATCATTTTATGAACTTTTCCATGATTATAAGTAAAGAACGATTAATTCAAGGATTGACCTCTTATTATTCCTTAGAAAATTTCAACGCTAAATTTACTGTATGGATTTGTTGTATGGATGATTTAACTTATCAAATATTAGAGACATTAAAATTAAAGCACGCCATACTAATTCCAGTAAAAGATATTGAAAATCATGAACTCCTCAGTATAAAAAATGATAGAAGTTTACAAGAATATTGTTGGACATTAAAAGCGCCCCTATGTCTACATGTCCTTAGTCTTTATCCGGAAGTTGATCACATTATATATTGTGATGCTGATATGTATTTCTTTACAGCACCTAATATCATTCTTGATGAATGGTGGAAATACTCTGTATTCCTTTGCCCTCAAAGAAGCTCTACTGAAATTGAAAACATACACGGTATATATCAAGCTGGTTTAGTAGGCTTCAAAAACGATCAAAATAGCAAAGAAATTTTAACATGGTGGAAAGATAAATGCCTAGAATATTGCAATAATCATTATGATGTTGAAATGAATAGATGGGGTGACCAAAAATATTTAAATCACATTCCTAACATCTTTTCTAATATAAAAATCATGACTCATAAAGGTATTGATGCAGCACCTTGGAATGTCATTTTAAATAGCAGTTCTATATCAAAAACAGATAAAAAAGTTTTTATTGATCAAGATGAATTAATAGCTTTTCATTTTGGAAGTATGCAAATTATTAATCCAAATGAGTTCGATTTATGGAAACAAGAAACTTTAGAATTACCTCCAGAAGTTTTAGATTATATATACATTCCTTATATTGAACAATTGAACAAGACATGTCATACCCTTCATAATACTTTTCAAAAATCCCCCTCCTCTTTATTTGCTGACCAAATTGATACAACGACAATAAAAAATTATTTTAAATACTCCTCCCCTCATTACAATTAA	MNSNDKKISLPRLYIPSNEKIVNPLSTGIKASNLSKKNTQKRMNPQFYNQQHDLNNHFCVIVGNEYVLKIIALQQSLMQYSEKFTLWICCIDPFAYSLLKEMNLINVNLLQVEELEDSELKAIKRKRKVNEYCWTLKSVLIEYLLLNYDLPSILYCDGDLCFFSDPNIIFEEWGEYSIFLTPQRDRDWVEKMYGKYQAGLIGFKNDLYGLKSVRWWKNKCLDWCSAEAEEGKFGDQKYLDYIPIYFPKVKISNNLGINAAPWNCIYNNDYKIDKTKNDVFIENDKLVVYHFACITIFNENDFDLWSLGAISIPNNILNHIYTPYLERIQFVLNQLKNKFNKDTKQFLSKKDINKAQTLYKDSQLRRKMNQSNHFMNFSMIISKERLIQGLTSYYSLENFNAKFTVWICCMDDLTYQILETLKLKHAILIPVKDIENHELLSIKNDRSLQEYCWTLKAPLCLHVLSLYPEVDHIIYCDADMYFFTAPNIILDEWWKYSVFLCPQRSSTEIENIHGIYQAGLVGFKNDQNSKEILTWWKDKCLEYCNNHYDVEMNRWGDQKYLNHIPNIFSNIKIMTHKGIDAAPWNVILNSSSISKTDKKVFIDQDELIAFHFGSMQIINPNEFDLWKQETLELPPEVLDYIYIPYIEQLNKTCHTLHNTFQKSPSSLFADQIDTTTIKNYFKYSSPHYN				NA	NA	NA	NA	NA
AK009_02061	960	rmd_1		GDP-6-deoxy-D-mannose reductase	ATGATTACTTCATTTAAAAATAAAACTTTCCTTATTACTGGTGGATACGGTTTTATTGGTTCTCACTTGGCACGAAGACTTTTAAATTTACAAGCACGAATTGTTCTTTTCATAAGAACACCATCAAATTTTTGGAGACTAAAGGATATTATAAAAAATATTGAAACCTATGAAATAGATATACGAGATAGAAAACAAGTACAGGATGCAATAAAGAAAGTTAATCCGGATTATATCTTTCACCTGGCAGCCTATGGTGTAAATTCTGCCCATACAGATTACATGCATGCTATAGAAACAAATATTATAGGGACATGTAACATTATTCAAGCAGCAAAATTGGTGAATTGTAAAAAAATTATCAATTTTGGGAGTAGTTCTGAATACGGTAACAAGATGGAACCTATTCATGAAAATATGTTACTAACTCCTGTGGATATCTACGGAAGTACCAAAGCTGCTGCTACTATACTCGCCCATCAAATTGCTAGCGAAAACAGCATTAATCTTATAACATTAAGACCTTTTGGCATATTCGGAGAAAGCGAGGAGCCACATAAAATTTTTAGCTATATAATCTTGCAAGTATTACAAAACAAAGATGTAAATTTAACTTTCTGTAATCAATTAAGAGATTATTGTTATATAGAAAATATAATAGATGCCTGTATCCTAGCAGTAGAGAATACTACTGTACAAAATGAAATCTTTAATATTGGGAGTGGCACTATTTACCCCTTGAAACATTATGTAGAATTATTATTCAAACATTTGAAAACCAATTCCAGACCAAATTACGGTGCAATTCCATCTAGAACGAATGAAAGATGGGTTCCTGAAGCAGATGTGCAAAAAATAAAAAACTCTCTTTCCTGGGAACCTAGAATTAATATTGAAGAAGGAATTATAAAAACTGTTAATTGGTATAAAAATAATAAACATTTATACCTAATCCCCTAA	MITSFKNKTFLITGGYGFIGSHLARRLLNLQARIVLFIRTPSNFWRLKDIIKNIETYEIDIRDRKQVQDAIKKVNPDYIFHLAAYGVNSAHTDYMHAIETNIIGTCNIIQAAKLVNCKKIINFGSSSEYGNKMEPIHENMLLTPVDIYGSTKAAATILAHQIASENSINLITLRPFGIFGESEEPHKIFSYIILQVLQNKDVNLTFCNQLRDYCYIENIIDACILAVENTTVQNEIFNIGSGTIYPLKHYVELLFKHLKTNSRPNYGAIPSRTNERWVPEADVQKIKNSLSWEPRINIEEGIIKTVNWYKNNKHLYLIP				NA	NA	NA	NA	NA
AK009_02062	1089	rfbG	COG0451	CDP-glucose 4,6-dehydratase	TTGTTAAATCAAAACTTTAATAATGCTTTTTACGGAAAGACAATTTTAATTACTGGACATACTGGTTTTAAAGGTTCTTGGTTATCCCTATGGTTGAATGAATTAGGTGCTACTGTAATCGGATATTCATTGGATCCTAAAAATAAAAATGATAACTTTAACATTACTAACCTTCAAAACAATATAATTGATATTCGTGGAGACATTAGGGATTTTAATAAATTAAATAAGGTTTTTACAGATTATAAACCTGAAATTGTATTCCATTTAGCTGCCCAACCTCTAGTTAAGTATTCATATGAATATCCTAGAGAAACATACGAGGTAAACGTTGTAGGAACTATGAATGTACTAGAGGCAATTCGATTACATGAATCAGCTAAAATAGGAATTATGGTGACAAGTGACAAGTGCTATGAAAATAAAGAATGGCCTTGGGGTTATCGTGAAATTGATCCTATGGGTGGCCATGACATATATAGCTCAAGCAAAGGATGCTGCGAACTTTTAATTTCTTCCTATCGAAATTCTTACTTTTCAGAAGAAAACTTTTCTCACCACAAGAAAATAATTGCAAGCGTTCGAGCTGGTAATGTAATTGGTGGTGGTGATTGGTCAATAGATAGAATTATTCCTGATTGTATACGAGCATTAGAATCAAACAAAAAGATTATTATTAGAAACCCTACTGCTATTAGACCCTGGCAACATGTACTAGAACCCTTAAGCGGGTATTTACTCCTTACAGAAAAAATTATAAATAATGGTATCCTTTATTCAGGAGCATGGAACTTCGGGCCATCCTTAAGCAATATTGTTCCAGTAGAAAAATTAGTGACAAGTTTACTAGATATTTGGGGCTGTGGGGATTGGACAGCAGAAAATATAGGCGCAATAAATTTTCATGAAGCAAATTTACTAAATCTTGACATTAGCAAAGCAAAATTCAATCTTGATTGGCAACCAAAATGGTCCCTACAACAGACTTTAGAAAATACAATAGAATGGTATAAACATTATAATTCTTACACCAGTTCTGAGATGATAAATCTATGTATTAGCCAAATCAAACAATATTGCATGCTTTGA	MLNQNFNNAFYGKTILITGHTGFKGSWLSLWLNELGATVIGYSLDPKNKNDNFNITNLQNNIIDIRGDIRDFNKLNKVFTDYKPEIVFHLAAQPLVKYSYEYPRETYEVNVVGTMNVLEAIRLHESAKIGIMVTSDKCYENKEWPWGYREIDPMGGHDIYSSSKGCCELLISSYRNSYFSEENFSHHKKIIASVRAGNVIGGGDWSIDRIIPDCIRALESNKKIIIRNPTAIRPWQHVLEPLSGYLLLTEKIINNGILYSGAWNFGPSLSNIVPVEKLVTSLLDIWGCGDWTAENIGAINFHEANLLNLDISKAKFNLDWQPKWSLQQTLENTIEWYKHYNSYTSSEMINLCISQIKQYCML	PGPT0019060_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0019060-yfnG|rfbG-K01709	NA	NA
AK009_02063	1116	rapF_4	COG0457	Response regulator aspartate phosphatase F	ATGAGTGTTTCAGTAAAGGGAAATGAGCAATTAACCTCTCTATTGAACGACTGGTATCGAGCAATGCTATCTCAACAAGTTATAAAAGCTACTAATCTAAAAAAGAAAATTGATGAAAAAATTAATAAGTTAAGCATTGAACCGGATCAAGAACATCAGGATCAAAATTTGTTACTATACTATTCACTACTCGAATTTCGTTACAAGGTCTTAACAGATAGCCTTGGTATTCAACAAAATAGTTTTGATACTATTAGCGATTATGATATGCCTACAGATCAATTTCTACGATTCTATTATCACTTTTTCAAATCCATTCATTCCACTTTTATATCAAATTATACTGAGGCAGAAGAACATTATAAACTAGCAGAAAAAATATTGGTAGCTATACCAGATGAAATTGAACATGCTGAATTTTACTATAGAATTGCTACTTTCTATCACCATACCTATAACAATCTCGCTTCTATCGAATACGCAAATAAATCGAGAGCAATCTTTTCAAAGTATGAAGGTTATGAAGTAAAAACAGCCTTTTGTAATAGTTTGCTAGGTGGTTGCTGCATCTATTTAAAACAGTACGAACAAGCAGAAGAATATCTACATTGTGCAATTGATTTACTACAAAAAAATAGGGAAGAAGATTCCTTGTTATATGTAAAAAATACTATGGGGTGGCTGTATTCTGATCAAAGTATGTCTACTTTAGCTATTCGTCACCTTTCAGAAGTAACAGAGAAAATCCCTACACACTTCAAGGCCATCTTCCTACAAGCTAAGGAACATTATAAATTAGGAGAACAATCAACGGCCAGCCAACTCATTGATAAGGGATTACAGATTTGCAGAAAAATTCATAACGAAGAATACACACACCACTTCTCTATTTTAAAAAGATTAAACGAAAATATTCCATTGGAAGAATTAGAAAAAATCATTCAAGAAGGAATCTTATACTTTAAGGAAGAAGAATTATGGGAATATGTTGTCGAATACGCTGAATTATTTGCCACAAAATGTAGACAATTAGAGAACCACCAAAAAGTAAGTGACTATTTCCATATTTGTTATCAAGCAAGACAAAAATCAATTGCAAAAGGAGTGTTAAAATAA	MSVSVKGNEQLTSLLNDWYRAMLSQQVIKATNLKKKIDEKINKLSIEPDQEHQDQNLLLYYSLLEFRYKVLTDSLGIQQNSFDTISDYDMPTDQFLRFYYHFFKSIHSTFISNYTEAEEHYKLAEKILVAIPDEIEHAEFYYRIATFYHHTYNNLASIEYANKSRAIFSKYEGYEVKTAFCNSLLGGCCIYLKQYEQAEEYLHCAIDLLQKNREEDSLLYVKNTMGWLYSDQSMSTLAIRHLSEVTEKIPTHFKAIFLQAKEHYKLGEQSTASQLIDKGLQICRKIHNEEYTHHFSILKRLNENIPLEELEKIIQEGILYFKEEELWEYVVEYAELFATKCRQLENHQKVSDYFHICYQARQKSIAKGVLK	PGPT0025770_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025770-rapF-K06364	NA	NA
AK009_02064	162			hypothetical protein	ATGAAAAAAATTAGCTTATTATTATCAGGCATTGCTTTTATTGGGGTATTAACGGTGGGAATTTTTCAGTTTTCTAAAACAGATCAGCTTGCTACTCATGGGCATTATCCTGCTCCTTCATATAGTGTTGGCGATTATGGTGGTGCACCACCACAAATTTAA	MKKISLLLSGIAFIGVLTVGIFQFSKTDQLATHGHYPAPSYSVGDYGGAPPQI				NA	NA	NA	NA	NA
AK009_02065	1983	mcpB	COG0840	Methyl-accepting chemotaxis protein McpB	GTGTTTAATATAAAAGAAAGATTGGGACAAATAAAGCTTAAAACGAAGTTGTCTATGGCATTTATAGCAATATTAATTATACCAAGCCTTATCGTAGGAGTATCATCTTATAATAAAGCAAAAACAGATCTTAATGAAACAATTCTACAATCAGCAAAAGATAATATAAGTATTTTAGACAAGATTGTTGATGATGAATTAGAAAATAAGCATACAGATGTCACTCATTTTGCAAAGGTACTCACACAAGGGGATTATAATCCTGAACAATCGCAAAATGTACAGAGTAAATTTGATCAATATATACAGTTACATCCAGAGATAGAAACGATTTATACGGCATCCAGTAACAATCAATTTATTCATGCACCTGTTGGCAAAATACCAGAAGGGTTTAATCCGTTAGAAAGTAGTTGGTATAAGGATGCAGTAAAAGCAAATGGAGAGATTATTGTTTCATCTCCCTATAAATCAAAGTCTACAGGAAATATGGTAATTGCAATTGCAAAGCAAAATGCAGATAAAAGTGGTGTCATTGGCGTAGATTTGAATATTACAGATATCGTAAAAACATCCAAAATGATAAAAATTGGAAAGCAAGGATTTGTATCTATAGTTAGTCAAGATAAAACTATAGTTGTTCATCCATCACTAAAGCCTGGAGAGAAATTAGAGAAAACTTTAGCGGATGAATTGTACAAGACAGAAGATGGAGTAATTACTTATAGCCTCAATGGCGAAGATCGAAACATAAGCTTTAAGACAAATAAAAAAACAGGTTGGAAAATAGCTGGCGTAATGCCTACGAAAGAAATTGAAGAAGCTACTAATCCTATTTTTTATAAAACGTTCACTATAATAGGGGCTTCATTATTGTTAGGTGGAATTGTAATTCTATTCATACTCAGATCTATAATTACTCCACTAAGACAATTAGTCATTTCAGCTCAAAGAATTAGTCAAGGAGATTTAACCGAGAAAATAGATATTCGTTCAAAGGATGAACTTGGTCAATTAGGTGGTAGTTTCAATACAATGGCAGAGTCGTTACGTAATATTATTTCTCAAATTAACACATCTGCAGGACATGTAGCTGCGTCTTCTGAGGAACTAACTGCTAGTGTAGAGCAAGCAAGTGTTGCGACAGAACAAATTACAAAAGAGATGGAAGAAATCTCGAACAGTGCAGAAGTTCAAAATAATGAAGTTGAGTCTGGAGCTGAATTAATTGGTGAGGTAACACGAAATATTCAATATGTAGCTGAGAATGCATCTGAAGTATCGGCTTCATCCATATACACAAAACAAAAAGCCAATGAAGGTGAACAATTAGTAGAACAAACTGTAGCACAAATGCAGTCTATCCATCACTCTGTTTCTCAATCCGATAATGTAATAAAATTATTAGATAAGAAATCGCAACAAATTGGAAGTATATTAGAAGCGATTCAAAATATTGCGGAACAAACAAATTTATTAGCATTGAATGCAGCAATTGAAGCAGCTAGAGCAGGAGAACAGGGTCGAGGGTTTGCAATTGTTGCGGATGAAGTTAGGAAGCTAGCAGAGCAATCATCCGAATCTTCGATGGAAATTGGAAGCTTAATTAAGGAAATACAAGCAGACGTACATGAGACTGTAAAAGCTATGAATGAAGTGGGAGTAGAGGTACAGTCGGGAATTAAAGTTGCGAACGATACAAAGCAAAGTTTTTATGAGATTTCAAAATCTGCAAATGATATTGTGTCAAAAGTGCATGGTATGGTGGAACTATCTAATACAATGACTACTGATGCAATGAAAGTCGATACATCGATTGATCAAATAGCTATGGCTGTAAAAGAGAATTCTTCAAGTATGCAAACGATTGCTGGTTCATCTGAGGAACAACATGCTTCTATGGAAGAGATAAATTCTTCAGCAATACAATTAGCACAGATGGCAGAAGAACTTCAAGAGTTAATTGGTGGATTTAAGATTTAA	MFNIKERLGQIKLKTKLSMAFIAILIIPSLIVGVSSYNKAKTDLNETILQSAKDNISILDKIVDDELENKHTDVTHFAKVLTQGDYNPEQSQNVQSKFDQYIQLHPEIETIYTASSNNQFIHAPVGKIPEGFNPLESSWYKDAVKANGEIIVSSPYKSKSTGNMVIAIAKQNADKSGVIGVDLNITDIVKTSKMIKIGKQGFVSIVSQDKTIVVHPSLKPGEKLEKTLADELYKTEDGVITYSLNGEDRNISFKTNKKTGWKIAGVMPTKEIEEATNPIFYKTFTIIGASLLLGGIVILFILRSIITPLRQLVISAQRISQGDLTEKIDIRSKDELGQLGGSFNTMAESLRNIISQINTSAGHVAASSEELTASVEQASVATEQITKEMEEISNSAEVQNNEVESGAELIGEVTRNIQYVAENASEVSASSIYTKQKANEGEQLVEQTVAQMQSIHHSVSQSDNVIKLLDKKSQQIGSILEAIQNIAEQTNLLALNAAIEAARAGEQGRGFAIVADEVRKLAEQSSESSMEIGSLIKEIQADVHETVKAMNEVGVEVQSGIKVANDTKQSFYEISKSANDIVSKVHGMVELSNTMTTDAMKVDTSIDQIAMAVKENSSSMQTIAGSSEEQHASMEEINSSAIQLAQMAEELQELIGGFKI	PGPT0015710_7763	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
AK009_02066	375			hypothetical protein	ATGAGTAGATTAACAAAATTCTCAAAGTTAGTATTTGCAACTTTAATCGCGGGAAGTAGTTTAAGCACAATTGTTTCGTCACACAGTGTACAAGCTGACACCTTAGATCCTAATTACCAAGACACTGTAAAATTTATATCACCTTCTAGTGCTAGGCCAACATTGGAACAAAAAAACACTATTGTTCCAGATGCAAAAGTTGTTAAAAACCATTATGTAAAGTACTCTAAAGCACATTTCCAAACTAAAGAAAGTATACCAAAAGAGATTTATTATTCTTCAGAAGGCTTTAAGGGCTATATACAGGCAAGTACCGTTTGGGATATGGGAGATCATTTCGCAACACTATATTCCGGAACCGTTATTCGATGTTAG	MSRLTKFSKLVFATLIAGSSLSTIVSSHSVQADTLDPNYQDTVKFISPSSARPTLEQKNTIVPDAKVVKNHYVKYSKAHFQTKESIPKEIYYSSEGFKGYIQASTVWDMGDHFATLYSGTVIRC				NA	NA	NA	NA	NA
AK009_02067	336			hypothetical protein	ATGGGACTTTCGGACAGGGTTTGGGGGGCGATGATTGCCTTTGGCATTGCGACTAATATCGTTGCTTGTATGATGGCAGTATACATTCAAAAATATGAGCTAATGATAAATCATCTTACAAATATTTTATTTTTAATAATTATCTCTTTAACGTTTATTAAGATGAAAATTAACAGATGGGTGGCTTTAGGATTTACATTTGTTGTAATAGAGAAAGGTATTAAGGCGGGATATGACTTCTACACACATGATTATTATGGTGTCAGCTGGAGTTTAGCTATCATTGTCTATTGCATATACGAGATGAAAAAGTATCATATTGAAATAAATGAATAG	MGLSDRVWGAMIAFGIATNIVACMMAVYIQKYELMINHLTNILFLIIISLTFIKMKINRWVALGFTFVVIEKGIKAGYDFYTHDYYGVSWSLAIIVYCIYEMKKYHIEINE				NA	NA	NA	NA	NA
AK009_02068	549			hypothetical protein	ATGAAAAGGTTCATAACACGTGCAAGTGGTAATACAATCTCAAAAAGGTTAGTTTTAATGGTGTTGTCGATGGTTTTAATGATAGTGATGATTACACCATCGAATGATGTATCGGCAGCCAATCTATCAAAAGCAGGTTCACTAAAAGGCGTGAATTTATTTAATGGAAGTTGGACAGTTGCTATACAGGCAGCAAATTTACAATATGTTTCGGCTGAGCCTTCGGGAAATATAATAGCAAATCGTAATGCAGTTAATGAATGGGAGAAATTTGAATTAATTTCGACTGGGGAATTATATACGTACGCTTTAAAAGCTAAAAGTAATGGGAAGTATGTTTCGTTTGAGCCAAATGGTAGAGTAGTAGCAGATCGTACATCAATTGGTGCATGGGAAAAGTTTATCTTATATAATGGTGGAGACAATAGGATATATGTATTACAAGCACTAAGTAATGGTAGATATATATCAGCAAATGGTGGTAGAGAATTAACAGCTACTAGTTATGTAGCTGGAAGCTGGGAAAGATTTGTTATTGTATACTTCTAA	MKRFITRASGNTISKRLVLMVLSMVLMIVMITPSNDVSAANLSKAGSLKGVNLFNGSWTVAIQAANLQYVSAEPSGNIIANRNAVNEWEKFELISTGELYTYALKAKSNGKYVSFEPNGRVVADRTSIGAWEKFILYNGGDNRIYVLQALSNGRYISANGGRELTATSYVAGSWERFVIVYF				NA	NA	NA	NA	NA
AK009_02069	2208			hypothetical protein	ATGGGGAATAATTCAAAATATAAAACTAGAAAAATACTTGCAGCTACTGCTACAGTAACTATGCTTGCGACTGGAATGATTTCTTCATCAGATGTCTTTGCGGAGCAAAAGGAGCAGCAAAAAAATTTATCGACATCACTGCAAAGTGAAAAATCAGTTAAATCAGAAAATAGAACATTTACAGTCCCAGGAAAAGGGGATGTTGAGCTAATAAAACAACAGGAAAGAAAAAGTATGGCATTTAGTCCATATGAACCAACTGGTTTATATGCAAAACCAAATGAACAAATAACGATTAATGTAGAAGGTAATCAAGATATTCAGGTATATATTGGAACGTATTCATATGATGCTTCTTGGAGAGAAGATTCTAAGATAAAATCATTTACATTAAAACCAGGTATAAACACAATCCAATCTCCAAATGGGGGGATGATTTATTTTTATAATAAACAACAAGGTGGTACCATTCGAACAACAATTACAACAGGCGGAACGACTACGCCTTTCTTTGAACTAGGAAAGCATACGAAACAAGATTTAATTAACATGCTGGACCAATATCCAAATGCACATGCAGTGGAGTTAAAAGGAGAACGTGTATTAATTACGGCCAGTCCTGCACGTATTAAGAAATATTTGTTGGGTTCTAATACAGATCCTGTACAACTCTTAAAAAAGATGGATGAAGCTACTCGAATTCAAGACAAAGTAGCTGGATTATCTGAAGAACAAGTAGATAAACATTATGTTCATTACGTAGAAGAAAATCATTCTCCCGATTATTATATGTATGCGACTTCTTATCGAACTGCATATGTAGGAGATGCAATTCAATATGTATTAGATATTAATAAATTTATAAAAGATGGTTGGGGTCCATGGCATGAGGCAGGGCATTTGAGACAGCAATCACCTTGGAAATTTTATAATATGACAGAAGTACAAAATAATATATACAGCCTTTCTGTAGAAAAAGCATTTACATCTAATCAACCTTTTAGATTGCAACAAGAGGGTGCTTATACTAAGGCATTTCAATACTTAGAACAACCTAATAAAAATTATGACGAAGTTAGTGATGTTTTTGTTAAGCTTGTTATGCTTTGGCAACTACAGCTAGCATATGGAGAGGATTTCTATCCTAAATTGCATCAATTGTATAGAGACATGCCTTCAAGTGAACTTCCACAAACTGATGAAAATAAAAAACAATTATTTATCATTTCAGCATCAAAAGTAGCCAAACAAAATTTGATTCCTTTCTTTGAGAAGTGGGGATTACGTCCAAATAACGATACTATTCAAAAAGTAGCTGCATTAGGATATCCAATTTTAACAGCAGAGATTTGGAAGAGTACGGATTCTAATCCAATTAAACCAGATATGCCTAATGAAAATAATATTTTAGAAGGAAACCAGTTTGCATGGTCACTAAAAGGAATTAGTGATTTCGAGTTTGCAAAAGTCAATTTTAATAAGTCGACAGAAGAGATGCAAATTGATTTAAAAGCAGGCGTACCACATCATTATTTTAATGAAACATATGCGAGTATTAAAGTACAAAATGCATCAGGAAAAGTAGTATACAATAAAGATATTTATGGGAACAAACAACAAAATGCTGAATCGCAAAAAGTTCCAGTTAAAATAGGGGATTATGTTGAGCTGACACATCTAGAAGGTGTGCATAGAGCTACTTTAATAAATGTAGGTAACAGTAAACAAGAAAGTTTTGGAAAAAAAGGCATGTACGAAGTTACAAAAGAAGGCTTGAAGAAAGTAGAAAAAATGCCAGAAACAACGGTTTTAGATGGAAATCATTTTGGGTGGTCTTTAAAAGGATATAGTGATAGAGAAATCGCAAAAGTAGATTATAATAGGACAACAGAGAAAATGCAGGTGAATTTAGAAGCAGGCGTACCACATTCTTACTTTAATAATACGTATGCAAGTATTACAGTAAAGAATTCAAATGGTGGTGTTGTGTACAATAAGGAAATAGTAGGGAATAGACAACAAACTGCTGAAAGCCAAACCGTGCCCGTAAAAGTGGGAGATTACATTGAGTTTACCCATATAGAAGGGGAAGCAGTAAAGGAAAAAACACGCGCTACACTTATTAATCTTGAGAATAATAAACAAGAATATATGGGCAAAAAAAGAACCTATCAAGTTACTTCAACGGGATTAAACAAAATAGATTAA	MGNNSKYKTRKILAATATVTMLATGMISSSDVFAEQKEQQKNLSTSLQSEKSVKSENRTFTVPGKGDVELIKQQERKSMAFSPYEPTGLYAKPNEQITINVEGNQDIQVYIGTYSYDASWREDSKIKSFTLKPGINTIQSPNGGMIYFYNKQQGGTIRTTITTGGTTTPFFELGKHTKQDLINMLDQYPNAHAVELKGERVLITASPARIKKYLLGSNTDPVQLLKKMDEATRIQDKVAGLSEEQVDKHYVHYVEENHSPDYYMYATSYRTAYVGDAIQYVLDINKFIKDGWGPWHEAGHLRQQSPWKFYNMTEVQNNIYSLSVEKAFTSNQPFRLQQEGAYTKAFQYLEQPNKNYDEVSDVFVKLVMLWQLQLAYGEDFYPKLHQLYRDMPSSELPQTDENKKQLFIISASKVAKQNLIPFFEKWGLRPNNDTIQKVAALGYPILTAEIWKSTDSNPIKPDMPNENNILEGNQFAWSLKGISDFEFAKVNFNKSTEEMQIDLKAGVPHHYFNETYASIKVQNASGKVVYNKDIYGNKQQNAESQKVPVKIGDYVELTHLEGVHRATLINVGNSKQESFGKKGMYEVTKEGLKKVEKMPETTVLDGNHFGWSLKGYSDREIAKVDYNRTTEKMQVNLEAGVPHSYFNNTYASITVKNSNGGVVYNKEIVGNRQQTAESQTVPVKVGDYIEFTHIEGEAVKEKTRATLINLENNKQEYMGKKRTYQVTSTGLNKID				NA	NA	NA	NA	NA
AK009_02070	1311			hypothetical protein	ATGGAAATTTGCCATATTCCTGTAACAAAACAAAGGTATGTTATGTGTGTTAAATATAAAGAGAAAGAAGGAAAAGTTGTGAAAAAAATTTTGCCAATTGTTGCGTTATTAGGCATGATGAGTTTTGGAGTACAGGAAATGAATGTAAGAGCTGATACATACCACAAGGGCGATTCGAAAATTAGTTTTTGGGATTCGAAAAGAAAGGGTACTAATTTCATGAATAGTACGTCATTACCTGAAAACTATAAAAGTGCAAAAGAAGCTAATATTGAATATGTACGTTTAGCACCTGATAAATGGGCAAAAGATAAAGATTTTCTATTTGAGGATAAACCAGATACTTCTGGAAAGGATTTTCTGATAGGTAATGCAGATAACTATCAGGGATTAGTAAAGGAGGATTTAGAAAAATTAAAGGCGGATTTAGATGCCGCACAATCACAAGGAATGAAAGTTGTTCTTACAATGTTATCGTTACCTGGTGATCGATGGCGCCAATTTAATAATAACAAGAATGACGACAGAATATGGGAAGAAGAGAGGTATCAAGAACAAGCAAGTCAATTTTGGAAGGACCTTGCTCTGGAATTAAAAGATTATCCTGCGGTGGTGGGTTATAATATTATAAATGAACCACATCCAGAAACAGCTAAAAATAATAGATATAATGATTTTTGGACAGAAGATTACGAGAAATGGTATGCAAAAGTGAAGGGAACGACAGCGGATTTAAACAGATTGTATCAAAAAGTAATCAATTCCATTCGTGAAGTAGACCAAGAAATACCAATTATTTTAGATTCAGGTTTATATGCTACTCCATGGGCTTTTAAATATTTAAAACCAGTAAAGGATAAAAAAACGCTTTACGCATTTCATATGTATGAACCATATGAATTAACGAGTCAAGGTGAAAAGAAAAATAAAGAATATCAATATCCAGGATTAGTAAAAGTAGGAGACTTAGAGAAACCTGTAATGTGGAATAAGCAGGGATTAGAGAAATTTTTGAAGCCAATCCAACAATGGTCTAAGAAAAATCATGTATCATCTAATCGAATTATTGCAGAGGAGTTTGGAATTAACCGTACTGTTCCGGGAGCTACCCAATACATGCAAGATCTTATTTCTATCTTCAACCAAAAAGGTTGGCATAAATCATTCTATGCATTCCGTGAAGACACATGGACAGGGATGAATTATGAATTGGGAACAGGAAAAATAAAATGGGATGAAGAGGGTAAACCGGTGCCTCAAGATAATTCACTCTGGGAAGTAATAAAAAAAGATTTACAACCACATAAATAG	MEICHIPVTKQRYVMCVKYKEKEGKVVKKILPIVALLGMMSFGVQEMNVRADTYHKGDSKISFWDSKRKGTNFMNSTSLPENYKSAKEANIEYVRLAPDKWAKDKDFLFEDKPDTSGKDFLIGNADNYQGLVKEDLEKLKADLDAAQSQGMKVVLTMLSLPGDRWRQFNNNKNDDRIWEEERYQEQASQFWKDLALELKDYPAVVGYNIINEPHPETAKNNRYNDFWTEDYEKWYAKVKGTTADLNRLYQKVINSIREVDQEIPIILDSGLYATPWAFKYLKPVKDKKTLYAFHMYEPYELTSQGEKKNKEYQYPGLVKVGDLEKPVMWNKQGLEKFLKPIQQWSKKNHVSSNRIIAEEFGINRTVPGATQYMQDLISIFNQKGWHKSFYAFREDTWTGMNYELGTGKIKWDEEGKPVPQDNSLWEVIKKDLQPHK	PGPT0018620_4294	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK009_02071	231			hypothetical protein	ATGGGATATGAGGTGAAAGTTGCTTCTTGTGAAAAAGAATTAGAGCCAGCTTGTATATTCTTAAAGCAATTTGAAAAAGGATTAGCAGTTTGTATGGAATTAGGAAATGAAGAGTATGTATATCATTTCAATATTTTACGTTCTCTTAATGAAGATGAAGCAATTAAACTCTTAGAAGAAGTGAAAAAAGTATTTCTTACTTCGAAAAGCAAGGTTTATGGGATTTCGTAG	MGYEVKVASCEKELEPACIFLKQFEKGLAVCMELGNEEYVYHFNILRSLNEDEAIKLLEEVKKVFLTSKSKVYGIS				NA	NA	NA	NA	NA
AK009_02072	2730			hypothetical protein	TTGCGTAAACATGCATATGTGCAATTTTATGTATTGATATTGGCTTTAATAGCTTATATAAGCTTTTGCTTTATATTTATATTTGTTTTTCCAAGTCTTTATTTCGTATCAGATTTTAATATCCGACTATCATCTTTAGTTGTTGAAACTACTGTATTTATCTCACTACTGTATTCTATATTATCCAGAAAAATTAAGTTAGGAGTATTCTGGGTGTGCATTATTATTGCGATAGGTTGTTTCTTGATAGGGAATTTTATATCTGCTTTTCAAGTACTTAATGTAGAATTACCAATAAAAAATTTTAATATCTCTGATGTATTTTTGTTGCTTTTCTTATTCTTCTTTCTCTTTGCGTTCTTTTATAAAATCATGATGGAATGTAATAAATGGGAGAAAGCATATTTGCTTTGTGATTTATGCATTGTTGTTACTGCTATTTTTACATTAGAGTGGTATTTATTTAATAAACCTTCTGCAAATATCTTATTCTTATCAATTGGAGATGTTTTTCTCTCATTTATTTTTCCGATTATAGATTTATTACTTCTATTACTTGGAGTTACACTAATCTTTCGACCTGCTATTTTCAATGCAAAAAGCAAATTGTATATTTTTATCCTAGTATTAACTGGATTAGCTATTACGGACTATTTGTATTTTTACTTACAAGGTGATTTGTCAGAGCGTTCAGTTATATTTTTAAGGTGTTTGTATAGAGTTTTCCTATTATTTATTGCTATTGCTGCTACAATTCCAAAGGATGCTTCTTCTAAAAGAAATTATTTTATTATTAATCCGACATTTGGAGAGAAACTTCTTGGCATATTCCCTTATCTTGCAGTTGCAGTCTTAATTGGCTTTACTTTGAAAGAGCAAACGTCTTCAGCTACATTGATTACGGGAAATTGTATTGCTTTTGTATTTGTACTGATTCGTCATACAATCGTACGAATGCAAAACAAAGATTTAACTGAAACATTAAAAGTGTTTAATAATCAATTAGAACAAACAGTATCTCAAAGAACAAGGGATTTAATAAACAAATCTAATGATTTGGTAAAAAATCAAGAAAGATTTAAGTCATTATATGAGTATCATCCGGATCCTATTTTAACGATTGATTCAACTGGTATCGTATTAAACATAAACCAGGCTGGAAGTATGTTATTAGGAAAAGACAGTGCTGTATTAATAGGGAAAGAGTGCTTCTCTATTTTTTTAGATGAAGATAAATCTGAATTGGAAGCGGCTATAAAGAAAGGGAGACGATGTAGTTCATCTTCACTACAGTTGCGTGTGAAAAATAACAATGAGAAGGACATGCTGTTTTGGTATGTCACTATAGTTCCTATTATGATAGAAGGTCAAACTTTTGGGAGTTATGTAATGGTAAAAGACATAACGAGGATGAAACAACAACAGGATGAGATAAACTACCTTGCATTCCATGATACGGTGACGGAGATTGGAAATCGTATATTCTTCCAACAAGAATTAGATAGATCCATTAAGCGTGTGCAAAAAACACAGGATAAATTTGGGCTCCTGTATATTGATTTAAACCGCTTTAAGACTATTAATGATACACTGGGCCATTCCATTGGTGACAGGGTTTTAAAAGAAGTTGCCAAACGTTTTAGGACATGTCTTTCACCGACAATTCCTCTAGCAAGAATAGGTGGTGATGAGTTTGCAATCATTGTCCATAACCAAACAGAGCAACAGCTATTGAATTTGTGTAAAACTCTATTTCTTATAACTGAAGAACCATTCGTAGTAAATCAGCATAGTTTTTACTTATCTCTTAGTATAGGAATAGCAGTGTATCCATTTGGAGGAATAAATACTACTACACTTTTACAACACGCTGATATCGCTATGTATAGCGCAAAGGAAAAAGGTAACAATGCTGTTTGTATGTATGACGAGAAATTATCTCAAAAAGTAACCCGTCGATTACGATTAGAACAGGATTTACCAAATGCAATTGAAAATAATGAGTTGTTTTTATTGTATCAACCACAAATTGACAGTAAGGAAGGTAAGGTTATTGGTGCAGAGGCTTTAATACGTTGGCAACATCCAGAACTTGGGCTGATTTCTCCGTTTGAGTTTATACCTATCGCAGAAGAAACGGCGCAGATTATTTCAATTGGAAAGTGGACGTTACAGAAAGCGTGTCGACAACTGAAAGAATGGCATTCTGCGGGCTTTTCAAATCTAAAGATGGGGATAAATTTATCAGCTATAGAGTTTGAACAGAAAGATTTTGTTCAAACCATTATATATACCATAGAAGAGATAGGAGTACCTGCTAATTCGATTAATTTGGAATTAACAGAGCGAATCGCCATGGTAGATGAAAAAGAAACTTTATCAAAGTTAAAAGCATTAAAATCATTTGGTGTACATTTATCAATTGATGATTTTGGTACAGGTTATTCCTCATTAGCGTATTTACCTCTTTATCCAATTGATACTTTGAAAATTCCAAGAGAATTTGTTAATAGGATTGGAACTTCTACTGATGGAGGTGAAATTATACAGACCATTATTTCACTTGCTCATACTTTAAACATGAAAGTCATAGCAGAAGGGGTAGAAACGAAAGAACAATTAACAGTGTTACAACGTAATGCATGTTATCTAATTCAGGGCTATTACTACAGTAAACCTGTAAATGATGATGAATTTATTGTTTTTTTAAGTACAATACAAAATGAATAA	MRKHAYVQFYVLILALIAYISFCFIFIFVFPSLYFVSDFNIRLSSLVVETTVFISLLYSILSRKIKLGVFWVCIIIAIGCFLIGNFISAFQVLNVELPIKNFNISDVFLLLFLFFFLFAFFYKIMMECNKWEKAYLLCDLCIVVTAIFTLEWYLFNKPSANILFLSIGDVFLSFIFPIIDLLLLLLGVTLIFRPAIFNAKSKLYIFILVLTGLAITDYLYFYLQGDLSERSVIFLRCLYRVFLLFIAIAATIPKDASSKRNYFIINPTFGEKLLGIFPYLAVAVLIGFTLKEQTSSATLITGNCIAFVFVLIRHTIVRMQNKDLTETLKVFNNQLEQTVSQRTRDLINKSNDLVKNQERFKSLYEYHPDPILTIDSTGIVLNINQAGSMLLGKDSAVLIGKECFSIFLDEDKSELEAAIKKGRRCSSSSLQLRVKNNNEKDMLFWYVTIVPIMIEGQTFGSYVMVKDITRMKQQQDEINYLAFHDTVTEIGNRIFFQQELDRSIKRVQKTQDKFGLLYIDLNRFKTINDTLGHSIGDRVLKEVAKRFRTCLSPTIPLARIGGDEFAIIVHNQTEQQLLNLCKTLFLITEEPFVVNQHSFYLSLSIGIAVYPFGGINTTTLLQHADIAMYSAKEKGNNAVCMYDEKLSQKVTRRLRLEQDLPNAIENNELFLLYQPQIDSKEGKVIGAEALIRWQHPELGLISPFEFIPIAEETAQIISIGKWTLQKACRQLKEWHSAGFSNLKMGINLSAIEFEQKDFVQTIIYTIEEIGVPANSINLELTERIAMVDEKETLSKLKALKSFGVHLSIDDFGTGYSSLAYLPLYPIDTLKIPREFVNRIGTSTDGGEIIQTIISLAHTLNMKVIAEGVETKEQLTVLQRNACYLIQGYYYSKPVNDDEFIVFLSTIQNE	PGPT0023624_820	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
AK009_02074	1347	expZ_1	COG0488	Nucleotide-binding protein ExpZ	ATGTCAATGATAAAGGTCCAAGACTTAACTTTTTCATACCCAGGTAGCTTTGATAATATTTTTGAAAGTGTAAACTTCCAAATAGATACGGATTGGAAGCTAGGATTTATTGGTAGAAACGGACGAGGTAAAACGACATTCTTTAATTTATTGTTAGGGAATTATGAGTATAGCGGGAAAATCCTTGCTTCGGTAGAATTCAATTACTTCCCCTACTCTGTTTCAGATAGGAACAAATTCACTCATGAAATCCTTGAAGAAATTTGTCCCCAAGCCGCAGATTGGGAATTTCTACGTGAGATATCCTATTTAAATGTTGATGCTGAGGTCATGTACAGACCATTTAAAACATTATCAAATGGGGAACAAACAAAGGTGTTGCTTGCTGCACTGTTTTTAAATGCGGGTCAATTCCTATTAATTGATGAACCAACAAATCACTTAGATACAGATGCACGAAAGATAGTCTCTAATTATCTAAGGAAGAAAAAAGGATTTATTTTAATTTCACATGACAGAATCTTTTTAGATGGGTGCGTTGACCATATCCTATCTATTAATAGAGCAAATATTGAAATTCAAAGTGGTAACTATTCTTCTTGGAAGTTAAATTTTGATAGACAGCAAGAGCACGAGAAGGCTACAAATGAGCGTCTACAAAAAGACATAGGGAGATTAAAACAGTCTTCCAAACGATCAGCAAGTTGGTCTCATGACGTGGAAGCTTCAAAAAATGGAACGAGGAATTCAGGCTCTAAGTTGGATAAGGGGTTTGTAGGACATAAAGCAGCCAAGATGATGAAAAGAGCAAAAAACCTTGAATCAAGGCAACAAAAAGCTATTGAGGAAAAGTCAAAATTACTAAAAAATGTGGAAAAAACTGAGTCATTAAAATTGGAACAATTGCAATTTAAATCAAATGAATTGGTTACTTTGGTTGACGTGTCCGTTAAGTACAATGACCAAATTGTGAATGAGCCGATTAGCTTCATAGTTGAACAAGGTGACCGAATTGTACTTGATGGAACGAATGGGAGCGGAAAAAGTAGTATCCTAAAACTACTTCTAGGACATCCGATACAGCATACAGGCTTAGTTACTTTAGGTACAGGACTCATCATTTCCTATGTCCAACAAGATACTTCTCATTTGAAGGGGGCGCTATCAGACTTCATTGAAGAGCACAAGATTGATGAAACCTTATTTAAATCCATCCTAAGTAAGATGGACTTTGATCGAATTCAATTCGAGAAAGATATATCTCATTATTCTGGTGGACAAAAGAAAAAACTGCTTATCGCTAAAAGTTTATGTGAAAAAGCCCATATATATAGGACGAACCACTAA	MSMIKVQDLTFSYPGSFDNIFESVNFQIDTDWKLGFIGRNGRGKTTFFNLLLGNYEYSGKILASVEFNYFPYSVSDRNKFTHEILEEICPQAADWEFLREISYLNVDAEVMYRPFKTLSNGEQTKVLLAALFLNAGQFLLIDEPTNHLDTDARKIVSNYLRKKKGFILISHDRIFLDGCVDHILSINRANIEIQSGNYSSWKLNFDRQQEHEKATNERLQKDIGRLKQSSKRSASWSHDVEASKNGTRNSGSKLDKGFVGHKAAKMMKRAKNLESRQQKAIEEKSKLLKNVEKTESLKLEQLQFKSNELVTLVDVSVKYNDQIVNEPISFIVEQGDRIVLDGTNGSGKSSILKLLLGHPIQHTGLVTLGTGLIISYVQQDTSHLKGALSDFIEEHKIDETLFKSILSKMDFDRIQFEKDISHYSGGQKKKLLIAKSLCEKAHIYRTNH	PGPT0027950_328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027950-lsa-K19350	NA	NA
AK009_02075	606	nicS		HTH-type transcriptional repressor NicS	ATGGGGAAATCTCGAGAGCAGACGATGGAAAATATCTTAAAGGCTGCTAAGAAAAAATTTGGAGAGCGTGGCTACGAAGGTACGAGCATACAAGAAATCGCAAAAGAAGCGAAAGTGAATGTTGCTATGGCCTCTTACTATTTTAATGGGAAAGAAAACCTATATTATGAGGTGTTTAAGAAATATGGTCTTGCTAATGAGCTACCCAATTTTCTTGAGAAGAATCAATTTAAACCTATCGATGCCCTTAGAGAATATTTAACGGTTTTTACTAAACATATAAAAGAGAACCCTGAAATTGGATCATTGGCATATGAGGAGATTATTAAGGAAAGTGCACGATTAGAAAAGATTAAACCGTATTTCATAGGTAATTTTGAACAGTTAAAAGAAATATTACAGGAGGGTGAAAAGCAAGGAGTTTTTCATTTCTTCTCCATAAATCATACGATACATTGGATCACTTCTATTGTTTTATTTCCAAAGTTTAAAAAGTTTATTGATTCTTTAGGGCCAAATGAAACGAACGATACAAATCATGAATGGATGCCAGAAGACTTAGTGGACAGGATTGTTACTGCATTAACAGATAAACCTAACGTGTAA	MGKSREQTMENILKAAKKKFGERGYEGTSIQEIAKEAKVNVAMASYYFNGKENLYYEVFKKYGLANELPNFLEKNQFKPIDALREYLTVFTKHIKENPEIGSLAYEEIIKESARLEKIKPYFIGNFEQLKEILQEGEKQGVFHFFSINHTIHWITSIVLFPKFKKFIDSLGPNETNDTNHEWMPEDLVDRIVTALTDKPNV				NA	NA	NA	NA	NA
AK009_02076	567			hypothetical protein	ATGAAATCACGTAGTTATAATGAAGGGACGAATAATTTTGTTTCAAAAGATACAGTACCAGCTTTAACAGGATATGGTTTTTCTCCAAACGTAGTAGCGGTTATTACTGCTGATAAAACAGAAACTACATCAGATTTAAAAATAACAAATCGTAGAATTTCAGATCAGTACAATATTGAGTGGGTAAGTTCAAAATGGTGGGGAACAAATAATAAAGATACATATAATGAATTCTTTACGAACCACTATAAATTAGACTGGAAAAACCATCAAGTTACTCTTGATAACCAAAAATTCCTTGAAGAACAAATGAATAGTATCAACAGCGTGAATGATAAACTTAACAAAGGAAAAGGGAAGTTATCTCTTTCAATGAATGGAAATCAACTCAAAGCTACGTCTAGCAATGCTGGTTATGGTATCAGTTATGAAGATAAGAATTGGGGTATCTTTGTAAATGGTGAAAAGGTCTATACTTTTAATGAAAAATCAACTGTAGGCAATATATCTAATGATATTAACAAATTAAACATTAAAGGACCTTATATCGAGATTAAACAGATCTAG	MKSRSYNEGTNNFVSKDTVPALTGYGFSPNVVAVITADKTETTSDLKITNRRISDQYNIEWVSSKWWGTNNKDTYNEFFTNHYKLDWKNHQVTLDNQKFLEEQMNSINSVNDKLNKGKGKLSLSMNGNQLKATSSNAGYGISYEDKNWGIFVNGEKVYTFNEKSTVGNISNDINKLNIKGPYIEIKQI				NA	NA	NA	NA	NA
AK009_02077	831			hypothetical protein	ATGAAAAAACGTATTGATGTATTAGCTCAACCAGAGTCCTATCATAATTTATCAACATTTTCAAATGTACAGGAATTAAATCAAACGGTTAGAGTATACAGAGATGTAATTAAAACGTCTATTAAACGTGCGGATGTACAATCTAAACTAATTGCATTACTTGAAATTTTAAAGCGTCATAGCTGCAAATACATAGGTGTTAGTTTCCTATGTAAAAATAGAATAGCTGAGATAATGAGCGTATCATATAAAACTGTACAACGTTTAATGATGAAACTTGTGACTTTAAGAATAATTAAGCAAATAGCTATGAAGCGAAAAAAAGATATGCGTCAAACTTCTAATGCAATTATTATCCAACCAATTGTATATGAAGTGTCCCACAAGCAACCTACTGAAATGACTAAGAAGTGTCCTACCGTTAAAACAAATACTAAAATCTTAAAACAAAAGAGTAAAGATATAAATAAACGTAAAGGTAATGATGATAATAATACTGTACCTAAAGAAAACATTAAATGCGCTGAATTTGTGGCTGATTGGGTTCCAGAACGTTTTGCTTCCCTAACTTCTGCTTTTTACTCAAAAGCTACAACAATCCAAGAGTTTTGGAAGGTTGTAAAACAATGCAATCGTGTGATAAATCATACAACAGGGCAAACGGCGTTTGACAAAGATCAAGAACTACAAATTGGTGTACAAGCTATGAAAGAATTTGCGATGAAGGTAAAAAATGGAGTCAAGATGAAAAAGGGGAAGTTCGCTTATTTCAACGGTATCGTGAACAACTTGATGAACAAATATTATTTTGACCCCGAATTTGGTATGTGA	MKKRIDVLAQPESYHNLSTFSNVQELNQTVRVYRDVIKTSIKRADVQSKLIALLEILKRHSCKYIGVSFLCKNRIAEIMSVSYKTVQRLMMKLVTLRIIKQIAMKRKKDMRQTSNAIIIQPIVYEVSHKQPTEMTKKCPTVKTNTKILKQKSKDINKRKGNDDNNTVPKENIKCAEFVADWVPERFASLTSAFYSKATTIQEFWKVVKQCNRVINHTTGQTAFDKDQELQIGVQAMKEFAMKVKNGVKMKKGKFAYFNGIVNNLMNKYYFDPEFGM				NA	NA	NA	NA	NA
AK009_02078	621			hypothetical protein	ATGCATATACAGACACATATCAAAATGAATCGTCAGATGATGATTTTTACCTCGATTAGAAAATTAAAATTCGCTACCAGAAGACATTTGATGGCCATTCATGATATGGGAGGAATTCGGAATGCAAACCGGATTTTAAAAGACTTAACCCCATATGTAAACAGTACCGTTTATAAAAAAGAGCATGTATATTACCTCAATAAACAGGGACGTGCGCTATTCGATGATACAGAAAAGGTTGTGCCTACCATTCGATTAGCACACAGCCTCATGAGAAACGAAGCGTGGCTATATCTGTTTTGTCCTGAAGATTGGCAGATAGAAGCCCCTATACGTTATAAAGTACATGACAATAAGAGAACGATTATTCCAGACGTAAAGTACCGTGATAGCGATGGGATTCTAAATGCAGTCGAAATAGATCGCACACAAATGATGAATGTGAACAGTGAAAAAATGAATAAATATGGTGAATTCACTTTGTATTATAAAAACAAATATAACGGGAAAGTCCCTATTGTTCATTTTTTTACAATTACACCATATAGGCAAAATACACTAGAACAATTTGCTATGCAGCAAGGTGTATATGCAAAGGTATATGTGGTACCCGAAGTGTAA	MHIQTHIKMNRQMMIFTSIRKLKFATRRHLMAIHDMGGIRNANRILKDLTPYVNSTVYKKEHVYYLNKQGRALFDDTEKVVPTIRLAHSLMRNEAWLYLFCPEDWQIEAPIRYKVHDNKRTIIPDVKYRDSDGILNAVEIDRTQMMNVNSEKMNKYGEFTLYYKNKYNGKVPIVHFFTITPYRQNTLEQFAMQQGVYAKVYVVPEV				NA	NA	NA	NA	NA
AK009_02079	1182			hypothetical protein	ATGCTGGAATTACTATTGGTTCCGACGACAGCTGTAACTATTGCATTCGTAAGTGATCGGTTTAAAAGTAAAATAGATGATAAAAAGAAGATACAAGTATTTTTTGAAGTGTCAGGAATTGCAATTAAAAAAGATGATAGGATTCATTATCCAACATTTAAGAAGCGAACTCATGATGATCGAAGTACAACATATGTGTATGAGTTGCCTGTTGGTATGCCGAGTAAAATCATTCGAAAGGTTGAAGATGTTGTAAGTGAAGGGTTAAATAAACCTGTTCGAATTCAGTATGACAATTATAAATTGAACATTCGTGTATTCGATCAAGAAATACCGAGGAAGTGGGAATGGTCAAAAAATTTAATTCAAGTTGGAAAATGGATTGTGCCAATCGGGCAAAGTTTAGAACAATTGATTTATCATGATTTTGATAAAACACCACATATGACATTAGGTGGTTTAACACGTATGGGAAAGACTGTATTCCTAAAGAATGTAATGACATCTCTTATTACTGCACAAGCAGAATATACGCACTTGTTTATTATTGATTTAAAAGGAGGATTAGAATTCGGACCATACCAAAATGTGAAGCAGGTTGAGTCGATTGCAGAAAACCCAATCGAAGCTTTTCAGTTATTGAACGTGGTTTTGAAAAAGATGGAAGAGAAAATACTTTTTATGAAAGAACATCATTATACCAACGTGGTAGAAACAAATATAAGAGAACGCTATTTTATTATCGTGGATGAAGGTGCAGAACTTTGTCCAGATAAGAGCATGAATAAAGAACAACAAAAGTTACTAGGAGCTTGTCAACAAATGCTTTCTCACATAGCGCGAATTGGTGGAGCATTAGGATTTCGATTGATATTTTGTACACAGTACCCTACTGGCGATACTTTACCACGTCAAGTGAAGCAAAACAGTGATGCAAAATTAGGATTTCGATTACCAACTCAAACAGCTTCTCAAGTTGTCATTGATGAAACTGGTCTGGAATCGATTGAAAGTATACCAGGGCGTGCGCTTTTTAAAACAGATCGATTAACAGAGATTCAAGTCCCTTATATCTCAAATGAGCAGATGTGGGACGTATTAAAACAATACGAGGTGAAAAAGGATGCATATACAGACACATATCAAAATGAATCGTCAGATGATGATTTTTACCTCGATTAG	MLELLLVPTTAVTIAFVSDRFKSKIDDKKKIQVFFEVSGIAIKKDDRIHYPTFKKRTHDDRSTTYVYELPVGMPSKIIRKVEDVVSEGLNKPVRIQYDNYKLNIRVFDQEIPRKWEWSKNLIQVGKWIVPIGQSLEQLIYHDFDKTPHMTLGGLTRMGKTVFLKNVMTSLITAQAEYTHLFIIDLKGGLEFGPYQNVKQVESIAENPIEAFQLLNVVLKKMEEKILFMKEHHYTNVVETNIRERYFIIVDEGAELCPDKSMNKEQQKLLGACQQMLSHIARIGGALGFRLIFCTQYPTGDTLPRQVKQNSDAKLGFRLPTQTASQVVIDETGLESIESIPGRALFKTDRLTEIQVPYISNEQMWDVLKQYEVKKDAYTDTYQNESSDDDFYLD	PGPT0030468_8248	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
AK009_02080	183			hypothetical protein	ATGACACTTGCAGGAGAAGCAGTCATTATTTGGACGTCAACAGGTTTGTCTGTAATTGCGATGAGTGTGGCTGAAAAAATGGGGAAGAGTGTTCCACATTGGCTTCCACGTATAACCTTGTATACGACGCTTACAGGCTCGTTCTTATATCTTCTACGTTATGTTCTCGTTATGTTTCTATGA	MTLAGEAVIIWTSTGLSVIAMSVAEKMGKSVPHWLPRITLYTTLTGSFLYLLRYVLVMFL				NA	NA	NA	NA	NA
AK009_02081	318			hypothetical protein	ATGCGTTCTCAGTATAGTTACCTCAATGCAACGCCATATTTATATTCATCAAAAGAATTACGCCACATGTATAACGAGTCAAGATCCAGAAAAGAGACGGAATCTATTCTTACTCACATGAGGAACCATGAAGTATTTGATAACAAAGAGTACAAAGGGTATTTTAGTTTATCACAAGTTATTGAAGAAGATTTATATGGAGAAGAGGAAGATATATTGAATTGGCAAGATTTAATGGAGCGGTATCAAATTGTAGCTACTAAATCAGGGATTAAATTTCGTGAGAAAGAGGAACTGGTTGAGGAGGAATGGCTATGA	MRSQYSYLNATPYLYSSKELRHMYNESRSRKETESILTHMRNHEVFDNKEYKGYFSLSQVIEEDLYGEEEDILNWQDLMERYQIVATKSGIKFREKEELVEEEWL				NA	NA	NA	NA	NA
AK009_02082	201			hypothetical protein	ATGAAGAGTGAATTGAAACAAATATTAGATAAAAGGGGAATTAAATACTCTCACGTTGCAAAACAAGCGAAAATTAGCAATTCTGCAATGACAAATTTATTAAAAGGTGGACTCCCTACCTTACCTGTGGCATATCGAATAGCTAGGGTGTTAGAGATGAAATTAGAGGATATTTGGGTTGAAGAAGGTGAGGGTTTTTGA	MKSELKQILDKRGIKYSHVAKQAKISNSAMTNLLKGGLPTLPVAYRIARVLEMKLEDIWVEEGEGF				NA	NA	NA	NA	NA
AK009_02083	219			hypothetical protein	TTGAATAAAATAATTAAATATAAAGGCTTCACTATCAAAGAAACTTTTGGGGAACGAAAAATAGAAGAAGTTTTTGAAGAAGTTTACGAAAAAATTTATGGGATAGAAATTAAGGTTAGAAGGAGAACACCTGAAAAATTAGCCACTGAAAAACATCAAGAGAAAAAATATAACCAGGAGTACTTACAATGTCAAAACAACCACCATTCAAAACATTAA	MNKIIKYKGFTIKETFGERKIEEVFEEVYEKIYGIEIKVRRRTPEKLATEKHQEKKYNQEYLQCQNNHHSKH				NA	NA	NA	NA	NA
AK009_02084	579			hypothetical protein	ATGTCAAAACAACCACCATTCAAAACATTAAATCGAATTATTGAAAATTATTACGATCCTAAAAATGGATTAATTGAAGTAGAACAATTTATCATAGGATGTGATGAGGAATCAATATCTGTATTAGATTACAAGGGAATCATGTATCAAAAAACATCTTCCCAAAAATATGACCAGGGTTATGAAATCTTATTGCTTCCTTATACAGAACTACATTCAAATTCTAAACAAGATTTACTACAACTATTAAAGCGTAAAATAATTGTTTATTTCACGTATACAGAAAATGATCAACAACAAGAAGATTTCGTCCCAGATATGGGAAAACAACTCTTTTCATTTATGAGTCATATATTAAAAGGTGCACAGCAAAATAAAAGAGCAATTCCAGTACGTTTTATTTTAATGGATATTGAAGCAGTTGGTTTTATCCCTAAACTTTCAAAATTTATGGCTGGGTGTCGAGGTTTTAATGTAGGCACTTGTTTGTTTGTAGATGACAGATTGACACTGACATATGGATATAATAACGAACAGGTAGACAAAATGTACAAAAACAGTGTAGTTATATCAAAATAA	MSKQPPFKTLNRIIENYYDPKNGLIEVEQFIIGCDEESISVLDYKGIMYQKTSSQKYDQGYEILLLPYTELHSNSKQDLLQLLKRKIIVYFTYTENDQQQEDFVPDMGKQLFSFMSHILKGAQQNKRAIPVRFILMDIEAVGFIPKLSKFMAGCRGFNVGTCLFVDDRLTLTYGYNNEQVDKMYKNSVVISK				NA	NA	NA	NA	NA
AK009_02085	183			hypothetical protein	ATGAGTTATGATACCGTCGCATCGCTACAACGCATGCAACAATTACAACAAGCGCAAGCTGCTTCTGGAAAACGCATAGTGTTAAAAAGAGTTTATAAATCAGATAAAATTTCTGCACTCATTATCGTTCTTTGTATTTTAGCTATCCCAGCAACAATGTGTATATCCCTTTTAGTTGGATAA	MSYDTVASLQRMQQLQQAQAASGKRIVLKRVYKSDKISALIIVLCILAIPATMCISLLVG				NA	NA	NA	NA	NA
AK009_02086	582			hypothetical protein	TTGCTACTGGGGAGAAATTTAGAGCCTATAAACAAGACTTCAAACAGTATAAGAGGGATTTTAAGAAGAAAGAAAAACAAGTTAGAAGAATTTCAAATTTATAAAAATATAAATTTAGCGGTGATCATATTGCATAGAAAAGGTATATTCAAAAAAAATACTTATCAAGTAATAATGTTAGAAGCTGATTCAGAACAAAAATCAATTCAAATTACTCAAGAATATTTTAAAAATCAAGAAATTAATGAAATTAATATGACTTATGATGAATGTACCAAAATGGAAGAGTTAGTAAAAAAATGTGTGCATGATTCATTAAAAAAGCAGAGTCGATTACAGAATGATAATACTTTATTTTACACATATGAGCCCATGCTAGAAGATGATGAAAACAGAATTGTCACTGTGGTTAATAATGCTAATCGAAACTTATCTGTACAGATAATTAATAAGTATGTTATAAATGTCAGCGAGACTTTAAATAAAGAATATAAAACTTACACTTTAAAAATCAATCTAAAAGAGCTTCAATACATATTTACTAAATTATATTTCTTTTTCAACAGAAGAATTTCAAAATAA	MLLGRNLEPINKTSNSIRGILRRKKNKLEEFQIYKNINLAVIILHRKGIFKKNTYQVIMLEADSEQKSIQITQEYFKNQEINEINMTYDECTKMEELVKKCVHDSLKKQSRLQNDNTLFYTYEPMLEDDENRIVTVVNNANRNLSVQIINKYVINVSETLNKEYKTYTLKINLKELQYIFTKLYFFFNRRISK				NA	NA	NA	NA	NA
AK009_02087	642			hypothetical protein	ATGAATCCAAAATTTATCACAGTTCACAATACGTATAATGATGCGCCAGCTGAGAATGAAATTGCTTATATGATACGAAATAATAATGAGGTGTCATTCCACATTGCAGTAGACGATAAAGAAGCTGTACAAGGCTTACCTTTAGAAAGGAATGCATGGGCTTGTGGAGATGGGAATGGTTCAGGAAACAGAAAGTCGATTAGTGTGGAGATTTGTTATTCTTTAAGCGGCGGGGATAGGTATTATAAAGCAGAAAATAATGCAGCTATTGTTGTAGCGCAAATCATGAAACAATACAACATTCCAATAAGTAAAGTTCGCACACACCAATCGTGGAGTGGAAAATACTGCCCGCATCGTATGTTAGCGGAAGGGCGTTGGAATTCTTTTATAGAAAGGGTGCAAAACGCATATAACGGTGGTGGGGATACAGGTTCTACAAAACCATCTAACAATGGTGTAGGTGTTATTACAATTACAGCGGATGTCTTACGCGTTCGTACAGGACCAGGAACAAATTATGGCATTGTAAAGAATGTGTATCGAGGGGAACGCTATCAATCTTGGGGCATTCAAAATGGCTGGTACAACGTTGGTGGAAATCAATGGGTTTCTGGGGAGTATGTGAGGTTTGAGGGATAG	MNPKFITVHNTYNDAPAENEIAYMIRNNNEVSFHIAVDDKEAVQGLPLERNAWACGDGNGSGNRKSISVEICYSLSGGDRYYKAENNAAIVVAQIMKQYNIPISKVRTHQSWSGKYCPHRMLAEGRWNSFIERVQNAYNGGGDTGSTKPSNNGVGVITITADVLRVRTGPGTNYGIVKNVYRGERYQSWGIQNGWYNVGGNQWVSGEYVRFEG	PGPT0019115_2213	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_02088	426			hypothetical protein	GTGGATCGTATCGATGTAGTAGCAAAAGTTTTTATTGCCACTTTTGGTGGATTTTGTGGGTATTTCTTGGGAGGATGGGATGCAACATTGAAAATCTTAGTGACAATGGCGGTTATTGATTATGTAACTGGCATGATAGCAGCAGGATATAACGGAGAATTAAAAAGTAAAGTTGGTTTCAAAGGCATCGCCAAAAAGGTGGTGCTTTTTCTTTTAGTTGGGGCAGCAGCGCAATTAGATGCAGCGTTAGGAAGTAATAGTGCAATCCGTGAAGCAACAATTTTTTTCTTCATGGGTAATGAGTTACTTTCACTTTTAGAGAATGCCGGAAGAATGGGCATTCCACTTCCGCAAGCTTTAACAAATGCAGTCGAGATTTTAGGTGGAAAACAAAAACAAGAAGAGAAAAAGGGAGATGTTCAATAA	MDRIDVVAKVFIATFGGFCGYFLGGWDATLKILVTMAVIDYVTGMIAAGYNGELKSKVGFKGIAKKVVLFLLVGAAAQLDAALGSNSAIREATIFFFMGNELLSLLENAGRMGIPLPQALTNAVEILGGKQKQEEKKGDVQ				NA	NA	NA	NA	NA
AK009_02089	225			hypothetical protein	ATGGAAGACATATATGTAAAAATCGAAAGCTTAAAAGCAGAGCAAAAAGAAATCATGCGAGATATTCGTAATTTAGAAACTCGTACAACGATAAACGAAAAAGATATTTCTACCATCAATCAGCAATTAGAAAAAATCAGTCTAAATACCACATGGATTTTACGAATTGTTATCAGTGCAATAGTCATGGCAATTCTAAGTTTGGTATTCAAAGGTGGGATTTAG	MEDIYVKIESLKAEQKEIMRDIRNLETRTTINEKDISTINQQLEKISLNTTWILRIVISAIVMAILSLVFKGGI				NA	NA	NA	NA	NA
AK009_02090	4026			hypothetical protein	ATGAGAACACCAAGCGGCATTTTGCATGTTGTGGATTTTAAAACAGATCAAATCGTTGCAGCTATTCAGCCGCAGGACTATTGGGATGATAAAAGGCAGTGGGAAATCAAAAACAATGTTGATATCTTGGATTTTACTGTTTTTGATGGAACACCTCATTCGGCTACTTTACAACAACAAAATCTTGTTTTAAAAGAAGTTCGTGACGGAAGAATTGTACCATATGTTATTAGAGAAACAGAAAAGAATTCAGACAACCGATCCATTACCACATATGCTTCAGGAGCTTGGGTTCAAATTGCTAAGTCAGGTATTATAAAACCGCAAAGAATAGAAGGGGAAACGGTAAACAAATATATTGATATGGCCCTAGTAGGCATGAAATGGAAACGTGGGAAAACGGATTATGCAGGATTCCATACGATGACCATTGATGAATTTATTGATCCACTAACATTTTTAAAGAAAATAGCTTCTTTATTCAAATTAGAAATTCAGTACCGTGTTGAGGTTCAAGGATCACAAATCATTGGATGGTATGTTGATATGATTCAAAGACGTGGTCGAGACACAGGCAAAGAAATAGAGCTCGGGAAAGATTTGATAGGCGTTACACGTATTGAACATTCAAGAGATATTTGTACAGCACTAGTTGGATTTGTGAAAGGTGAAGGCGACAATGTAATTACCATCGAAAGTATCAACAGGGGACTTCCGTATATTGTTGATAATGATGCATTTCAACGATGGAACGAACGTGGTAAGCATAAGTTTGGTTTTTATACGCCAGAAACAGAAGAGTTAAATATGACGCCAGAACGTTTAATGACGTTAATGGAAATAGAATTAAAAAAACGTGTTAATTCTTCCGTTTCGTATGAAGTAGAAGCACAATCGATTGGACGTATTTTCGGACTAGCACATGAACTAATTAACGAGGGTGATACTATCCGAATCAAAGATACAGGGTTCACACCTAAGTTATACCTTGAAGCGCGTGTAATTGCCGGTGATGAATCTTTTACGGATCCTACACAAGATAAATATGTGTTTGGTGATTATCGTGAAATTACGGATCCGAACGAGGAATTACGAAAGATTTACAATCGAATTCTTAGTAAATTCGGTGAAAAACAAGAAATGCTGGATCAGCTAGATAAATTGGTGAAAGAAGCGAATGAAACAGCAAGTAACGCTAAGAAAGAATCAGAAGCCGCGAAAACACTTGCCGAAAAGGTACAAGAGAATATTAAAAATAATACTGTTGAAATTATAGAAGCTAAGAATTCGCCAACAACAGGGCTTAAACCTAATAAAACGCTTTGGCGTGATATTAGTAACGGAAAGCCCGGCATTTTAAAAATATGGACAGGTACAGTTTGGGAATCGGTTGTACCAGATGTTGAATCAGTTAAGAAAGAAACACTTGAACAGGCTAATAAAAATATCGAGTCCACAAAAGCAGAATTAAACAAAAAGGTACAAGAAGCACAGAATCAAGCTACAGGACAATTCAATGAAGTACAGGAAGGTTTACAAGGTGTCAGTCGTACAATTTCTAATATCGAAAATAAACAAGGTGAAATCGATAAAAAAGTAACTAAGTTTGAACAGGATTCTAATGGATTTAAAACTTCTATTGAATCGTTAACAAAAAAAGATAATGATATCAGCAATAAATTAAATACAGTCGAACAAACTGTAGAAGGTACAAATAAGAATATTTCTGATGTGCAGCAAACAACAAGTGAGCTCAAGAAAACAACAACTGACATTAAAGAAGAAGCTGGGAAAATCAGTGAGAAGTTAACGAGTGTAGAAAAAAAGGTTAATAGTGATAAAGCTGGTGGACGTAACCTTTTATTAAAATCAAATGTTAAATATGAAAAAACAGACTATCTAATCAATCAATATTCTCTAACTGAAAATTTCTTTGCGAGTGAGGAATATACCTTTGTAATGAAAGGGAGTGTCCCGCAAGGTCAGAAATTTGGAATTTGGCAGAATGGTGGGTCTAGCAATGTTGGATATGCAACAAGTGTTTACGCGAATGGAATAACGTATGTAACCTTCAAAGCTGTTGCGGCTACAAGTGGAAATGAACGAAAGTTAAGCTTATATAATTATCCGAGTAGTAATACGAAATCTATTGTGGAATGGGTTGCCTTGTATAAAGGGAATAAACCGCAGGATTGGACAGCACCGCCTGAAGAGCAGGTAACAACGGATGAGTTCACCCAGAAAACAACTGAAATTACAAAAAGTGTGGATGGAATTAAAGAAACAATTACAAAAGTGGAAAATAATCAAAATGGGTTTGATAAACGTGTTGCTACTGTAGAAAAAGATGCAACTACTATTAAACAAAATGTCTCTTTCATACAAAATACGCAGACAGAACAAGGAAGACAATTACAAGAGGCGAAAGCTGGATGGGAAAATACTGCGAAAGCACTTCAAGGTAAAGTTGAGCTTAAACAAGTAGAGGATTATGTTGCGGGATTTAAGATTCCAGAGTTGAAGCAAACAGTTGATAAAAATAAACAAGATTTGTTGGGCGAATTAGCTAACAAACTTGCAACGGAACAATTTAATCAGAAAATGACTATGATCGACAACCGTTTCACTATAAATGAAGAGGGTATCAATGCCGCAGCAAAAAAGAAAGAAGTATACACAATAGAGCAAGCAAATGGGCAATTTGCCACATCATCTTATGTAAGAGATATGGAAACCCGTCTTCAGTTAACTGAAAAGGGCGTTAGTCTATCTGTAAAAGAAAATGATGTAATCGCAGCATTCAATATGAGTAAAGAAAACATTACCTTGAATGCGAACAGGATTAACTTAGTAGGTTTTATAACAGCAAATCATATTAAAGGAAAAGTTTTAGAAGGAGTAACACTTAAAACGAGTGGAAACAGATTTGTTGAAATAAATAAACAAGACATGAAGATTTTCGATTTAGATAAGCCACGTGGTTATATAGGATTTATGGAGACAAATGATGGAAGTATTCAACCTTCATTAGTCCTTGGTTCTGATAATAGAAAATACGCTGGTACAGGATCATTTTATATTTATCAAGTCATGCCGCGAATTAATGGAGTCGATCAACCTTCTAAAGCGTATGCAAAATTTGGGGTTTCTAAAGGAGAAAATGCAGAAGGAACTAATATTTGGTCAAATTATATTCAAATGCAGAATGACGGTGGACATCTGAGTGTATATTCAGATGGACAATTTCGTTTTCAAAACTTGAATGATATTATCTTTGAATCTGAAGGATGGGCTCCAGGATATGGTTACTTCTCTGTAACTACAACTGAACCACATATTTTTACAAATAACGCGGGGCAGTTTACTTTCAAAAGAAAAGGCAGTGACTATAAAATACATTTCGTAAACGGCGCCACCGATCATGATTTAATTATGGGTAATGCAATGATAAGGTCAAGTTTTGTACAAGGTTATAACAATGGCTTGCAGATTAAAGATATGATGGGTAAGGGATGGAAAGATATAGAATTAAGAACATTACGAGCGCAAGAGAATATTAGCGCTACAGGGCGTATGTGGGCGCAAGAATTTATCCCTAATTCTTCTCGTAAGCTTAAAACGGACATAGAAGACCTTCCATTCTCTGCTTTAGATAAAATCAACTCTGTAAACATCAAACAGTATCACTTTATAAGAGATGTTGAACGCTTCGAGTCAGGGGAGTCTATTACACTTCCAATTAATTACGGTATGATTGCGGAGGACTCTGACGATGTATTCACCACACCACAGAAAGACGCTGTAACACTTTATAGCTCGGTTGCAATTTCTATTCAATCAATACAAGAAGTTGACTTTAAAGTTAAAAATCTTCAATTTGACCACGGTATGTTGAAGCAGGAAGTTGACACTCTTAAAGAACAACTTGAAGCAGAAAAACTTGAGAAAGTTTCAATGAAAGCTGAAATTTATGAATTAAAGTTATTAGTACAACAATTAATAAATGAGGAACCAAAGCAGCCATAA	MRTPSGILHVVDFKTDQIVAAIQPQDYWDDKRQWEIKNNVDILDFTVFDGTPHSATLQQQNLVLKEVRDGRIVPYVIRETEKNSDNRSITTYASGAWVQIAKSGIIKPQRIEGETVNKYIDMALVGMKWKRGKTDYAGFHTMTIDEFIDPLTFLKKIASLFKLEIQYRVEVQGSQIIGWYVDMIQRRGRDTGKEIELGKDLIGVTRIEHSRDICTALVGFVKGEGDNVITIESINRGLPYIVDNDAFQRWNERGKHKFGFYTPETEELNMTPERLMTLMEIELKKRVNSSVSYEVEAQSIGRIFGLAHELINEGDTIRIKDTGFTPKLYLEARVIAGDESFTDPTQDKYVFGDYREITDPNEELRKIYNRILSKFGEKQEMLDQLDKLVKEANETASNAKKESEAAKTLAEKVQENIKNNTVEIIEAKNSPTTGLKPNKTLWRDISNGKPGILKIWTGTVWESVVPDVESVKKETLEQANKNIESTKAELNKKVQEAQNQATGQFNEVQEGLQGVSRTISNIENKQGEIDKKVTKFEQDSNGFKTSIESLTKKDNDISNKLNTVEQTVEGTNKNISDVQQTTSELKKTTTDIKEEAGKISEKLTSVEKKVNSDKAGGRNLLLKSNVKYEKTDYLINQYSLTENFFASEEYTFVMKGSVPQGQKFGIWQNGGSSNVGYATSVYANGITYVTFKAVAATSGNERKLSLYNYPSSNTKSIVEWVALYKGNKPQDWTAPPEEQVTTDEFTQKTTEITKSVDGIKETITKVENNQNGFDKRVATVEKDATTIKQNVSFIQNTQTEQGRQLQEAKAGWENTAKALQGKVELKQVEDYVAGFKIPELKQTVDKNKQDLLGELANKLATEQFNQKMTMIDNRFTINEEGINAAAKKKEVYTIEQANGQFATSSYVRDMETRLQLTEKGVSLSVKENDVIAAFNMSKENITLNANRINLVGFITANHIKGKVLEGVTLKTSGNRFVEINKQDMKIFDLDKPRGYIGFMETNDGSIQPSLVLGSDNRKYAGTGSFYIYQVMPRINGVDQPSKAYAKFGVSKGENAEGTNIWSNYIQMQNDGGHLSVYSDGQFRFQNLNDIIFESEGWAPGYGYFSVTTTEPHIFTNNAGQFTFKRKGSDYKIHFVNGATDHDLIMGNAMIRSSFVQGYNNGLQIKDMMGKGWKDIELRTLRAQENISATGRMWAQEFIPNSSRKLKTDIEDLPFSALDKINSVNIKQYHFIRDVERFESGESITLPINYGMIAEDSDDVFTTPQKDAVTLYSSVAISIQSIQEVDFKVKNLQFDHGMLKQEVDTLKEQLEAEKLEKVSMKAEIYELKLLVQQLINEEPKQP				NA	NA	NA	NA	NA
AK009_02091	1485			hypothetical protein	ATGTTGGGGAAACTCAGTTTTACTTTTAATAAGATTAGAAAAGATTATGTTCAAATGCTAGTTGGAAGAAAGCGCCCTTCATGGGCTCCGATAAAAAGAAGATTGGTAAGAGTCCCTCATCGTGCAGGGGCTCTTTTTCTTAATACCGAAACGGGTGAACGACGTATTGATGTTCCTCTTGTGATTAAAGCGAAAAAAGATATGGCTGATTTACAAAAGGTAAAAGAAGATTTGGCGGATTGGCTATATACAGAGCAACCAGCTGAACTTATTTTTGATGATGAGTTAGACAGGACTTATTTAGCATTAATTGATGGTTCTGTAGATTTGGACGAATTAGTGAATAGAGGTAAAGGGGTTATTACTTTTGTTTGTCCAATGCCATATAAATTAGGAAAACAAAATACTCATTCGTTCTCTCAAAATGGTTCTACTGAAGTCACTGCTTCTTTTGTCAATCAAGGGAATATAGAAGCACCTGCAATTATTGAAATCGAAGCACAGAAACCAAGTACATTTTTAGATGTGTGGTTTGGTGAGTATCCGTATAATCGAGATTACTTCAGAATTGGTTATCCTTTGAAAACAGAGCAATTACCCGTAGAAAGAAATCAAAGACTTATATGGGACGAAATGGCTACCACTGTAGGGTGGAGTAAAGTCAGTTCAATGGAAGATGGCAATCCGATTGGTGAAATGAAGTCAGATAAATATCAATTTTATTGTTCTGATTTTGGTACTAGTACGGGGAAAGGGTGGCACGGTGCGGCTGTTAAAAAGAATATCCCTGGGGGTCCAGTAGAAGATTTTATTATGCAAGCCTATGTTACATGTAAGAGTAAAAAAATTAATGAAATGGGCCGTGTTGAGATAGCGATACTTGATGAAAATAGCAAGGTTCTTTCCAAAATCGCTATGAATGATCTTTTTTGGCAAGCAGAGCAAAATTTCGGAACAATGGTAATTGGATATGATAATAAGCCAGGTAAAATAGGTTTGATTTATGAGAGTGGTGATTATCCGAATACATGGAATCAGTATTTTGGACGATTGTGGATAGCTAGAACGGGAAATGTGTGGGAGGCTTATATTTCGAAATTCCTTCCCGGGACGGAAAGAGATGATTCAGAACGATTTGCAAGGTGGACGGATGAAAAAAACGATCATATGGAAAAAGCAGCACAAATTCAGATTAGTATTATGCAATGGCAAGATGTACCACCAGTAGAAGCAATGACCGTTTCAGATTTAAAATTCTGGAAAGTGAATTTAAATACTCAAAATAATCCGCCTTACATTTTTGACACGGGAGACAAGATTATTATTGATACAGAAAAAAGTCTTGTAACCATTAACGGTAAAAATGCAATTAATTTAAAAGACATTTTTAGTAATTTTCCAGCTGTAATACGTGGGGAGAATCGTATTGATATCATGCCACCAGATGTGAAAGCAACTGTTCGTTATAGGGAGAGATACAGATGA	MLGKLSFTFNKIRKDYVQMLVGRKRPSWAPIKRRLVRVPHRAGALFLNTETGERRIDVPLVIKAKKDMADLQKVKEDLADWLYTEQPAELIFDDELDRTYLALIDGSVDLDELVNRGKGVITFVCPMPYKLGKQNTHSFSQNGSTEVTASFVNQGNIEAPAIIEIEAQKPSTFLDVWFGEYPYNRDYFRIGYPLKTEQLPVERNQRLIWDEMATTVGWSKVSSMEDGNPIGEMKSDKYQFYCSDFGTSTGKGWHGAAVKKNIPGGPVEDFIMQAYVTCKSKKINEMGRVEIAILDENSKVLSKIAMNDLFWQAEQNFGTMVIGYDNKPGKIGLIYESGDYPNTWNQYFGRLWIARTGNVWEAYISKFLPGTERDDSERFARWTDEKNDHMEKAAQIQISIMQWQDVPPVEAMTVSDLKFWKVNLNTQNNPPYIFDTGDKIIIDTEKSLVTINGKNAINLKDIFSNFPAVIRGENRIDIMPPDVKATVRYRERYR				NA	NA	NA	NA	NA
AK009_02092	4032	smc_4		Chromosome partition protein Smc	ATGGCGAATGAAATGAATAATTTAGTCGTTAGGCTGTCCCTTGATAATGTGAATTTTCGTCAAGGTATAGCCAATTCAGGTCGTGCGGTTAGGACATTACAGAATGAGCTGAAATCTGTAAGTACAGGAATGGGTGGCTTCGCAAATGCTAGTCAACAAACGCAAGCAAAAATGAATACACTCAGCAGGCTTATTGAGGCGCAAAAAGAAAAAGTTAGAGCTTTGCGACAAGCCTACGATCAAAATAAGGCTAAGTTAGGTGAAAATGATGCAGCAACCCAGCGATATGCTTCGCAAGTGAATAAAGCAGTTGCTGATTTAAATAGATTTGAAAATGAATTAAAGCAAGTAAACCGTCAAGCTGAACAAAAAGGGATGGATAAGTTAAACAACTCTTTAAAATCTCTACAGGCTGAATTTCAGTCTATTACAACAGGCATGGGCGGTTTTTCTAATGCGACAGAACAAACACGAGCTAAAGTAGATGTTTTATCTCGTATGGTAGATAAACAAAAAGAGAAGATCAGGGAACTTCAACAAGCCTATAATCGTGCCAAAACTGAAGAAGGTGAAGCAAGTCAGTCAGCACAGCGGTACGCCGAACAAATTCACCGGGCAACAGGTGAACTAAATCGATTTGAAAACGAATTACGTCAGTCGAACCATGAATTAGAACAACAAGGAAACCGTTTATTAAACTTTGGTAATCGTATGGAGACATTAGGTAATCATTTGCAAAATGCTGGTATGCAAATCGGTATGGTGTTTGGTGGAATGACTTACGCAATAGGTCGGGGGTTAAAATCAGCTGTAGAAGAATCCATGAATTTTGAGCAACAAATGGCCAATGTGAAAGCTGTGTCTGGCTCTACTGGAGAAGAAATGAAGAAATTAAGCGAATTAGCTGTCAACATGGGAGAAACAACAAAATACTCTAGTGTTCAAGCAGGACAAGGTATAGAGGAATTAATAAAAGCTGGAGTTAGTTTAACAGATATTATAAATGGCGGGTTAGAAGGTGCTCTTAACTTGGCGACAGCAGGAGAACTAGAATTAGGTGAAGCGGCGGAGATTGCATCCACAGCCTTAAATGCATTTAAAGCAGATCATCTTTCTGTTGCGGATGCAGCAAACATTTTATCTGGAGCGGCTAATGCTTCAGCAACAGATGTACGGGAGTTAAAATACGGTCTTTCAGCTTCATCAGCAGTAGCAGCAGGAGCTGGCATGACTTTTAAGGATACAGCTACTACGCTCGCGGTATTTGCTCAAAATGGTTTAAAAGGTTCTGATGCAGGTACGTCTTTAAAAACAATGCTTATGCGCTTAAATCCAACGACGAAAGAAGCGTATAACCAAATGAGGGATTTAGGATTAATTACTTATAATGCACAAGCTGGTTATGATTTTCTTGTTAAAAACGGTATACAACCAGCTTCAAGGAGCGTTGGTGATATTGAGCAAGCTTTAGAAGGCTATGTCATGAAAATAGAAGGTGCGAAAAAGTGGAATGACAAATGCGATACGACATTCCGTGAATTAGCTACAAGTTCAGCTTTCTTATCTTCAAAATTCTATGATCAACAGGGGCATATTCAAAGTCTAGAAAATATTTCAGGAACCCTTCATGAATCGATGAAAGATTTAACAGACCAGCAACGAAGTATGGCTTTGGAAACGTTATTCGGATCGGATGCTGTACGTGGTGCAACGATTCTTTTCAAAGAAGGTGCGAATGGGGTAAACAGCATGTGGGATGCGATGTCAAAAGTGACAGCAGCTGAGGTTGCAGCCACTAAGATTGATACATTAAAGGGACGTCTTACATTACTAGATTCAGCGTTTTCGACAATGAAAAAGACAATTGGTGATGCGCTTGCCCCTGTGGTTAGTGTTTTTGTAGCTGGTTTGCAAAAACTTGTAGATGGATTCAATGCTTTACCTGGTCCGGTACAAAAGGCCATTGCAATTACAGGTGGTATTGTTCTTGCGCTAACAGCGGTTGCTACTGTTATTGGAGTAATAATGGGGGCAATCGGTATGGTTGTTTCAGGTATTGGTTCTTTAGCAATAGCAATGGGTGTAGCTACAGCAGCTACTAGTGTAACGGGTGCAGTTTTAGGAATATTAACCGCAGTTTTAGGACCAGTAGCAATTGCTTTAGGTGTGGTAGCGGCCGCTGTTGGTGTTGGGGTATTAGCATATAAAGGGTATCAAAAAGCAACTGAAGAAAGTATTGCTTCTGTAGATCGCTTTGCTACAAATACAGAAGGGAAAGTAAGTTCTTCTACAAAGAAAGTTCTTGGTGAGTATTTCAAGCTGTCTGATGGCATTAGACAAAAGTTGACTGAAATTAGATTGAACCATGAAGTGATAACAGAAGAACAGTCGCAGAAGTTAATTGGCCAATATGACAAGTTAGGTAACACGATTATAGAAAAAACAAATGCAAGACAACAAAAAGAAGTTGAGGGACTTAAAAAGTTCTTTGCGGATTCTTATGTGTTAACCGCGGAAGAAGAAAATAAACGGATCGAACAAATGAATCAACACTATGAACAAGAAAAGTTAAAAACGCAAGAAAAAGAAAATAAAATCAAAGAAATTATACAAACGGCAGCAAATGAAAAGCGTGAATTCACTACATCTGAAAGGATTTCTTTACAAGCTTTACAGGACGAAATGGATATGACAGCTATCCAGCATATGTCTAAAAATCAAATGGAACAAAAAGTTATTTATGAGAATATGCGAGTACAAGCTAGTGAAATTACAGCTAGACAAGCAGCAGAAGTCGTTGAAAATAGTGCCAAAGCAAGAGATAAAGTTATTGAAGATGCGAAAAAGACTCGTGATGATAAAATAGCATATGCGATACGTCTACGGGATGAGTCAGGAACGCTTAATAAAGAAGAAGCGGATGCAGCTATTGCAGAAGCGAATCGTCAATATAATAGCACAGTCTCTACAGCAAAAGACAAGCATAGGGAAATCGTGGATGAAGCTAAAGCACAAGCTGGTGAACACGCAAATCAAGTAGATTGGGAAACTGGTCAAGTAAAGTCAAAATATCAGGTTATGAAAGATGACGTTGTTCGAAAAATGAAAGAAATGTGGTCAGATGTTACCAACAAATATGAGGATATGAAAACATCCGCAAACAGTAAGGTGGATGAAATAAAAAATACAGTTTCAAAGAAATTTGAAGAAAAGAAAAAAATTGTTACAGATAAAATGGAAGAAATAAAACGCGGCATTGAAGATAAGTGGAATACAGTTGAAAAATTTTTCAAATCTATAAATTTACGTTCCATTGGTAAGTCAATTATAGAAGGCCTTGAAAAAGGGTTAGATGATGCGACAGGTGGTTTATATAGTAAGGCGAAAAGCATAGCTGGAGAGATTAAAAATACAATTGCGGGAGCATTAGATATAAACAGTCCATCAAAAGTTATGATTCCTTTAGGAAGTGCCGTTCCAGAAGGTCTTGGTGTTGGTATAGATAAAGGACAAGTATTTGTAGTAGACGCTGCGAAACGAGTTGTAGGTGCCTTGAATTATCAAATGAGCAACATTGGATCAGCATTTTCAGGTATGGCATCCGATGGCTTACGTAAAATTTCGGAAAGTGATATATTCCAATTTAATGGGGATGATCCGCTATCGAAATATTTTAATGCTATCTTTGTAGACGGAGATTATCTAAATGATTGGCTTACACATATACCAGAAAGTATGCATGACGTTGTGAAAGAAATTGGCCTTCAAATGGAACGATTTGAAGGTCTTTCAATCAATGAGGTTAGAAGCTTCCCTAGATGGAGAGAAGTTTTATCAGATAATCCAGGAGAAGTTTGGTATAGACCACTAGAATCATCTGAGCAACGTAGTTATGCGAATCAAATTGAAAAAGAACTAAATCTCACTTTGAATATGACCAATGTTTTAGATGGAAAAGAGTTGGCAAATGGAAGTTACACTTATACTACAAAGCTTCAAGATCGTGAACAAAAAAGAAGAGCGGAATTTTAA	MANEMNNLVVRLSLDNVNFRQGIANSGRAVRTLQNELKSVSTGMGGFANASQQTQAKMNTLSRLIEAQKEKVRALRQAYDQNKAKLGENDAATQRYASQVNKAVADLNRFENELKQVNRQAEQKGMDKLNNSLKSLQAEFQSITTGMGGFSNATEQTRAKVDVLSRMVDKQKEKIRELQQAYNRAKTEEGEASQSAQRYAEQIHRATGELNRFENELRQSNHELEQQGNRLLNFGNRMETLGNHLQNAGMQIGMVFGGMTYAIGRGLKSAVEESMNFEQQMANVKAVSGSTGEEMKKLSELAVNMGETTKYSSVQAGQGIEELIKAGVSLTDIINGGLEGALNLATAGELELGEAAEIASTALNAFKADHLSVADAANILSGAANASATDVRELKYGLSASSAVAAGAGMTFKDTATTLAVFAQNGLKGSDAGTSLKTMLMRLNPTTKEAYNQMRDLGLITYNAQAGYDFLVKNGIQPASRSVGDIEQALEGYVMKIEGAKKWNDKCDTTFRELATSSAFLSSKFYDQQGHIQSLENISGTLHESMKDLTDQQRSMALETLFGSDAVRGATILFKEGANGVNSMWDAMSKVTAAEVAATKIDTLKGRLTLLDSAFSTMKKTIGDALAPVVSVFVAGLQKLVDGFNALPGPVQKAIAITGGIVLALTAVATVIGVIMGAIGMVVSGIGSLAIAMGVATAATSVTGAVLGILTAVLGPVAIALGVVAAAVGVGVLAYKGYQKATEESIASVDRFATNTEGKVSSSTKKVLGEYFKLSDGIRQKLTEIRLNHEVITEEQSQKLIGQYDKLGNTIIEKTNARQQKEVEGLKKFFADSYVLTAEEENKRIEQMNQHYEQEKLKTQEKENKIKEIIQTAANEKREFTTSERISLQALQDEMDMTAIQHMSKNQMEQKVIYENMRVQASEITARQAAEVVENSAKARDKVIEDAKKTRDDKIAYAIRLRDESGTLNKEEADAAIAEANRQYNSTVSTAKDKHREIVDEAKAQAGEHANQVDWETGQVKSKYQVMKDDVVRKMKEMWSDVTNKYEDMKTSANSKVDEIKNTVSKKFEEKKKIVTDKMEEIKRGIEDKWNTVEKFFKSINLRSIGKSIIEGLEKGLDDATGGLYSKAKSIAGEIKNTIAGALDINSPSKVMIPLGSAVPEGLGVGIDKGQVFVVDAAKRVVGALNYQMSNIGSAFSGMASDGLRKISESDIFQFNGDDPLSKYFNAIFVDGDYLNDWLTHIPESMHDVVKEIGLQMERFEGLSINEVRSFPRWREVLSDNPGEVWYRPLESSEQRSYANQIEKELNLTLNMTNVLDGKELANGSYTYTTKLQDREQKRRAEF				NA	NA	NA	NA	NA
AK009_02093	177			hypothetical protein	ATGGACGAACTCTACCTCTCTTTATTACGTCAGGGGTATAAACACCATCATATCGATAACGAAATGGATATCTGGCATTATTTAAGGCTAAACCAAAAATATCGTGAACAAGATCATTCAAATAGTGGAAATCAGAATTCAAATGAAATGGAAGTTCCAGCAGAAAACATTATCTAA	MDELYLSLLRQGYKHHHIDNEMDIWHYLRLNQKYREQDHSNSGNQNSNEMEVPAENII				NA	NA	NA	NA	NA
AK009_02094	318			hypothetical protein	ATGAAACTAACTTTACAAATTGATGGGGAAAAGAAAACTTTTCATTTACCGGAATTCATTCCAGCTCGTTTAATCCGTCAGGCGCCTGAGCTTGCTGATATTCCAAACAATCCAGGTCCTGAGGATATGGATAAAATGGTCCAATATGTAGTAAAAGTTTACGGTGAACAATTTACATTAGATCAATATTGGGACGGCGTGGATGCTCGTAAATTTTTATCTACAACTTCAGACGTAATTAATGCAATTATCAATGCAACTGTGGATGCGGCTGGTGGTACACCAGCAACTGGAGAAGAAACAAACCCAAACGTGTAG	MKLTLQIDGEKKTFHLPEFIPARLIRQAPELADIPNNPGPEDMDKMVQYVVKVYGEQFTLDQYWDGVDARKFLSTTSDVINAIINATVDAAGGTPATGEETNPNV				NA	NA	NA	NA	NA
AK009_02095	609			hypothetical protein	ATGGCCGGAGAAGTGATTAAAATTAGTTCAACTGTCGGTGTAGATAGCCTTGTTTATGCCAAGTTATTGAAAGATGATGCAACAGGTGTTGACTATAGTGCAGTGAAAGAAATGGAAGGCGCTGTAAAGATTAAAACTTCTAAAAAGGTAGCTTCGGAGATTATGTGGAGCGATAATAAAAAATCAGAAATTGCTGAGTCTGATGGGGAAGTAGAAGTAGAGATTGAACTTCGTAGTATTTCATTATCAACCAAAGCAGATATTGAAGGGTATCCAGAAGTGAAAGACGGTGTGTTAGATGAGAGACGCGAAGGTGAAAAGCCTTATTTAGCAATCGGATGGCGTTTCTTAAAGGCTAATGGAAAATATCGATATGTTTGGTTATTAAAAGGGAAGCTTTCACAAGAGGAAGAAGAAGGCGAAACGAAGAAGGATAAGCCTAACTTCCAAACAACCAAACTCAAAGGTTCATTTATTGAGCGTGATTTTGACGATAGGCCCAAATTTACGGCAGATGCTGATGAACCTACATTTACAAAAGCTGTGGGAGATAATTGGTTTAAAAAGGTGTATGAGAAGCCTGTAGTACAACCACCAGCAGGAAAGTAG	MAGEVIKISSTVGVDSLVYAKLLKDDATGVDYSAVKEMEGAVKIKTSKKVASEIMWSDNKKSEIAESDGEVEVEIELRSISLSTKADIEGYPEVKDGVLDERREGEKPYLAIGWRFLKANGKYRYVWLLKGKLSQEEEEGETKKDKPNFQTTKLKGSFIERDFDDRPKFTADADEPTFTKAVGDNWFKKVYEKPVVQPPAGK				NA	NA	NA	NA	NA
AK009_02096	360			hypothetical protein	ATGATAAATTTACGACCTGAAATCGTGCAAGCTCTTGAAAATAATCAGGAGCTTGTTTTTTTATTGGGTGGAAAACGTGTTTATTATCGTAAAGCTAAAAATGCTGAAGAGTTTCCGCGTATTACGTTTTTTGAACTAGACAATAGACCAGATGGATTTTCGGATAATGAAGAAAGTGAAAGTGAAATCACATTTCAAATCGATATTTGGTCAAAAGGTAGTACAACAGCAATCCATCAAAAAGTAAATGAAATCATGAAAAGTATTGGTTTCTCACGTTATGCGGTTGCTGATTTATATGAAGATGATACACAAATTTTTCATTACGCGATGCGATTCGCAAAAGGAGTGGAGTTATAG	MINLRPEIVQALENNQELVFLLGGKRVYYRKAKNAEEFPRITFFELDNRPDGFSDNEESESEITFQIDIWSKGSTTAIHQKVNEIMKSIGFSRYAVADLYEDDTQIFHYAMRFAKGVEL				NA	NA	NA	NA	NA
AK009_02097	435			hypothetical protein	ATGGCTGATGGTGTTGATTTTTTAGGTTTTGATCGCCTGATATCTGAATTAGAGCAAATGGGTTTACGTGGAGAAAAGATTGAGGATAAAGCCCTTGCAGCAGGTGGTGAGCCTATTCGAAAAGCTATTTCTGAAATAGCCCCAAGGAGTGATAGCCCTAAAAAAGCAACAAAAAGCGAACCGTGGCGAACAGGACAACATTTGGCTGATAATATACGGGTTACAAAAGCAAAAATGGAGGGCGGCATAAAAACAATCAAAATTGGTATAGATAAAGCGGATCGTTCCCCCTATTTCTATGGAAAGTTCTTAGAATGGGGAACTTCTAAAATGCCAGCAGAGCCATTTATAGAACCTGGATTTAATTCTTCAAAAGAAGCGGCAATTCGTGCTATGACAGACATCTTGAAGAATGAAATGAGGTTGAATGTATGA	MADGVDFLGFDRLISELEQMGLRGEKIEDKALAAGGEPIRKAISEIAPRSDSPKKATKSEPWRTGQHLADNIRVTKAKMEGGIKTIKIGIDKADRSPYFYGKFLEWGTSKMPAEPFIEPGFNSSKEAAIRAMTDILKNEMRLNV				NA	NA	NA	NA	NA
AK009_02098	324			hypothetical protein	GTGAATCCAGGTAAATTAGATAAACGTCTTACATTTCAAGTGAAAGACGAGGAAGCAAAGAGCCCGGACGGTGATCCAATAGAAGGTTACAAGGATTCCTTTACTGTATGGGGCTCTTTTATTTTTTTAAAGGGAAGAAAATATTTTGAAGCAGCGGCAGCTAATAGCGAAATTCAAGGTGAAACAGAAATCCGATATCGTGCTGATGTGAATGCTGATATGAAGATTAAATATAAGAACGTAATTTATGACATTGTTTCAGTTATTCCAACTGAAAAACACACTTTATCAATCATGTGGAAGCGTGGTGGAATGAATGGCTGA	MNPGKLDKRLTFQVKDEEAKSPDGDPIEGYKDSFTVWGSFIFLKGRKYFEAAAANSEIQGETEIRYRADVNADMKIKYKNVIYDIVSVIPTEKHTLSIMWKRGGMNG				NA	NA	NA	NA	NA
AK009_02099	288			hypothetical protein	TTGGTACTAACATTAGAAGAAGCAAAAAAGTATCTTCGTGTGGATGGTGATGAAGAGGACAATCTCATTACATCTTTCGTAATAGCAGCTGAAATATATATTAAAAATGCTACAAGTAAAAATGTAGATTTGAAGAGCGAGCTTGCTAAATTAGCAGCTCGTATTTTAATTGCTCATTGGCATGAAAATCGTGAAGCAGTTGGAAAGGCTGAACAATTAGCATTTAGTTTGCAGTCGATATTAGTTCAGTTGCAATATTGTGGTGGTGATTCAAGTGAATCCAGGTAA	MVLTLEEAKKYLRVDGDEEDNLITSFVIAAEIYIKNATSKNVDLKSELAKLAARILIAHWHENREAVGKAEQLAFSLQSILVQLQYCGGDSSESR				NA	NA	NA	NA	NA
AK009_02100	1167			hypothetical protein	ATGGATAAACGTGAACAAGAGTTACGCCAAAAAGTTGCAGATTTGAAAGCGAAAGCGGAAGAGTTTAATAACAGCGGTAAATATGAAGATGCAAAAGCGAAAATTGAAGAAGCGAAAAACGCGAAAAATGAATTAGATAACTATCTAGCAATGATGCAAATTCAAGTTTCTGACCCTGTAAATTCACAAGCAAGGGTTTTGCCTCCATCATCAGTTAAAAATGAAGATTCATCGTATAAAGAAGTGTTTATGAAAGCTATACGTGGTCAAAATTTAAGTCATGAAGAAGCAAGCGTTATGCAGGAATACAAAGCAGCATTATCTGAGAATACAGGTAAAGACGGCGGTTATATTGTTCCAGAAGATATTACGACAACGATTAATCAATTAAAACAAACGGTTGATAACTTAGAGCAATATGTAAATGTGCAACCTGTTTCAACGAATAAGGGCGCTCGCACATTAGAAAAACGTGCAGCATCTACACCTTTCGCTCCATTATCTGAGTATGGAAACCCAAATGCAATGCAAGAAATTGCTTCGCCACAATTTGATCGTTTACCGTATGTTATTGAGGATTATGCAGGATTTCTACCTGTACCAAATGATTTATTAAATGATACGGATCAAGCGCTAGAAGCTTATTTACGTCAGTGGATTGCGAAGAAATCTATTGCAACTCGTAATTATTTAATTTTACAAGAAATCAACAAATTAACAAAAGTTGATTTAAAGGATTATAAAGGCATTAAAACAGCGTTAAATGTCACATTAGACCCAGCTTTCTCGGCTGTAGCAAACATTATTACAAACCAAGATGGATTCAATTATTTAGATCAATTAGAAGATAAAGATGGCCGTCCACTTCTTCAACCAGATCCAACAAATCCAACACGTAAGCTATTATCAGGAAAGCCCGTTATTGTTTTATCCAATAAGACAATTGCTACAGATAAAGATGGTAAAGCACCATTTATTGTTGGGGACCTAAAAGAAGCAGTTGTGTTATGGGATAGACAGCAGTTATCGCTTGATATGACAAAAGAGGGTGGAAGTGCTTGGAGAGGTAATACAACAGAATTCCGAGCAATTGAACGTGAAGACGTTACGTTATGGGATACAGAAGCGGTTGTATATGGCCAAATTACAGTTACAGCTAAAGCTTAA	MDKREQELRQKVADLKAKAEEFNNSGKYEDAKAKIEEAKNAKNELDNYLAMMQIQVSDPVNSQARVLPPSSVKNEDSSYKEVFMKAIRGQNLSHEEASVMQEYKAALSENTGKDGGYIVPEDITTTINQLKQTVDNLEQYVNVQPVSTNKGARTLEKRAASTPFAPLSEYGNPNAMQEIASPQFDRLPYVIEDYAGFLPVPNDLLNDTDQALEAYLRQWIAKKSIATRNYLILQEINKLTKVDLKDYKGIKTALNVTLDPAFSAVANIITNQDGFNYLDQLEDKDGRPLLQPDPTNPTRKLLSGKPVIVLSNKTIATDKDGKAPFIVGDLKEAVVLWDRQQLSLDMTKEGGSAWRGNTTEFRAIEREDVTLWDTEAVVYGQITVTAKA				NA	NA	NA	NA	NA
AK009_02101	711	clpP_2		ATP-dependent Clp protease proteolytic subunit	ATGAGGACGATTAAAGACGTATTTACAATTAAAAATCAAACAGATTCTTCAGCTGATCTATTCATTTATGGTGACATCATAAACAATACCGGATGGAAATGGGACGATTCCGATGTGATGCCGGATGATGTGAAAAATATTTTAGGGCAGTTGGATGATAAAAGTAATTTAAATATCTATGTAAATAGTGGTGGTGGTTCTGTATTCGCTGGTTTAGCTATTTATAACATGTTGAAACGTAATAAAGCGCAAAAAACTGTTTATGTGGACGGTGTTGCAGCTTCTATCGCTTCCGTAATCGCCTTGGCTGGTGATCGTGTTGTTGTCCCTTCTAATGCTTTTTTAATGGTCCATAAACCATGGACTGTAAGTAGAGGGAATGCAAATGTACTTCGTAAAATGGCAGAGGACTTGGATAATCTTGAGGCTGGAATTATGAATGTATACAAAGAAAACTTGAAAGAAGGCATCGAAATGGAAGTAATTCAGCAATTAGTAGATGCTGAGACCTGGTTAAGTGGTGAAGAAGCTGAAAAATACTTCAATATTGAAGTTGTGGAAGCAAAAGAAGTCGCAGCTTGTAGTAGTGATTACTTTGATAAATATCAGAAAACACCTAGTAAAGTAGTAGCAAAAGCTCCTTCTATTCCAAAGAAAGACAATAATGAACAATTAAAAATTCAAAACGCACTAGACCTGTTAGAGCTATAG	MRTIKDVFTIKNQTDSSADLFIYGDIINNTGWKWDDSDVMPDDVKNILGQLDDKSNLNIYVNSGGGSVFAGLAIYNMLKRNKAQKTVYVDGVAASIASVIALAGDRVVVPSNAFLMVHKPWTVSRGNANVLRKMAEDLDNLEAGIMNVYKENLKEGIEMEVIQQLVDAETWLSGEEAEKYFNIEVVEAKEVAACSSDYFDKYQKTPSKVVAKAPSIPKKDNNEQLKIQNALDLLEL	PGPT0014595_1866	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK009_02102	1254			hypothetical protein	TTGATTTTTCGGCAGTTATTTAGAAATCAGGATACGACAGATTTAAAAAATCCTTCTCCTTGGTTTAAAAGTTTATTTGGATATCAAGCCGCAAGCGGTGAAAAGGTAACGGTTGAATCCTCTTTAGGTGTTCCGACGGTTTATCGATGTATTAATATCCTTGCAAATAGTGTTGCGATGCTTCCTTTTCAAACGTTTAAAAAGACAGCGAAGGGAAGGGAACGGGATAAGGCACATCAAGTATCGTTTGTTTTGGAAAGACGCCCGAATCCTTACCAAAGCCCATTTAAATTTAAACATTTAATCGAAACACATCGAAATACATGGGGAAATGCCTACATCAATATTCATTGGGGTGTAGATGGAAGGCCAAAAGAGTTGTGGGTATTAAATCCAGCTGTTACAACGCCCACGGTGGACTTAAAGACCAATAAACTATGGTATTTTACGAGCTTGCCAGACGGTACACCTATAAAAATACCTGATGAAGACATAATCCATCTTACTACACTATCTACTGATGGTTTAAGGGGGAAACCTCCTATTCAAATTGCAAGAGAGTCTATAGGTAGCTCACAGGCGGCCCAAAAGTTTAAAGGTAAATTCTTTACAAACGGTGCAGCGCATAGCGGGATATTAAAAACAGAACAACCTTTAAATAAAGAGGCTAAAAATAAACTTCGTGATGCCTGGGAAGAAGCAAATACAGGGTTAAATAATGCGCAAAGAATAGCTATTTTAGATGCTGGACTAGAGTTTGAAAAGGTTGGAATGCCTTTGAAAGATGCTCAATTTATCGAAGGTATGAAGTTTGATAAAGGTGAGATTGCAAATATTTTTAATATTCCTTTGCACATGATTAATGAGTTAGATCGTGCTACTTTCTCCAATATTGAGCAACAAGCGTTGGATTTTATTCAAAATACATTGAGTCCAATTCTTATTCAATATGAAGAAGAGTTTTCTTATAAATCATTTTCGTTTCATGAACAAAAACGATATTACTTAAAGTTTAATTTAACAAGCTTATTACGTGCTGATTCTAAATCACGAGCAGAATTCTACAAAATTATGTTAGATGCTGGTGCATTTTCAATTAATCAGGTGCTGGAACTGGAGGATATGGACGGGATTGGGGAATACGGTGATAAACACCGTGTTGACTTAAACCATGTATCTATTGAAATCGCAGACGAATATCAATTGACAAAAGCAAATGGAGGAGTTTTACAGAAGGGAGATGAGGACGATTAA	MIFRQLFRNQDTTDLKNPSPWFKSLFGYQAASGEKVTVESSLGVPTVYRCINILANSVAMLPFQTFKKTAKGRERDKAHQVSFVLERRPNPYQSPFKFKHLIETHRNTWGNAYINIHWGVDGRPKELWVLNPAVTTPTVDLKTNKLWYFTSLPDGTPIKIPDEDIIHLTTLSTDGLRGKPPIQIARESIGSSQAAQKFKGKFFTNGAAHSGILKTEQPLNKEAKNKLRDAWEEANTGLNNAQRIAILDAGLEFEKVGMPLKDAQFIEGMKFDKGEIANIFNIPLHMINELDRATFSNIEQQALDFIQNTLSPILIQYEEEFSYKSFSFHEQKRYYLKFNLTSLLRADSKSRAEFYKIMLDAGAFSINQVLELEDMDGIGEYGDKHRVDLNHVSIEIADEYQLTKANGGVLQKGDEDD				NA	NA	NA	NA	NA
AK009_02103	162			hypothetical protein	ATGCGATTCTTGTTGTTTTTTATAAGTATTTTAGAAGATATTCTATTGATTTCGGGGTTGTCCATTATTGTAGGGACGACTTTTTTTGTTAACCCGATTTATGGATGGTATCTGTTAGGGATTATTCTCACAATGTTGGGGGTGGTGATGATAAGAAGATAG	MRFLLFFISILEDILLISGLSIIVGTTFFVNPIYGWYLLGIILTMLGVVMIRR				NA	NA	NA	NA	NA
AK009_02104	1695			hypothetical protein	ATGATCAGACAATGGATGTTGGACTACTGTGATGATGTATTACATGGTGAAGTTGTTGCTTGTCAGAAGCATAAACAAGCTTGTAAACGATTTTTAAGAGATATTGAGCGTGAAGGTTCTGAAGACTTTCCATATGTTTTTAAAGAAGAAAAAGCGCTTCGTTTCTTAAAGTGGATGTCTCTTTTTAAACATACAAAAGGAAAGTTAGCAGGTCAGAGAATTGAACCACATTCGATACAAATTTTTGTGTTTAGCAATATTTATGGGTGGGTTCATCGTAATACGGGATTACGTCGATTTAAAAAGGCGTATTGGCAAGTCGGACGTAAAAATGCTAAATCCCAATCGTTAGCGTGCGTGGGTTCATATGAAGCGATGGCCTTTGGTGAAAATATGTCGGAAGTATATGTTGGTGCCACAAAAACAGAGCAAAGTAAAATTGTTTGGAACGAAATTAAAGCGCAAATGAATGGGTGCGAAGACCTAAAAGAAAAATTCAATATTGCGTATGGGAAAATCGAACATCTCAAAACAGATTCTTTTATTTCCGCGCTCTCAAAAGATGCGGGGAAATCTGGTGATGGACTGAATGTTCAGTGCGGGATTATCGATGAGTATCATGCCCACCCTACTTCTGAAATTTATGATGTTCTGGTTTCAGGTTCGGGCGCTCGTCCGAATCCACTCATGATGATTATAACGACAGCTGGTTTCAATTTGAGTCATCCTTGCTATCGTGTGGAGTATCAATATGTTTCTAAGATTTTGGACCCTAATATTGATATTGAAAACGAAGAATACTTTGTCATGATTAATGAGTTAGATAAAGATGATGAGATTACGAATCCAGAAGTGTGGGAGAAAGCAAACCCAATCCTATGTAGTTATGAAGAAGGACGTACTTTCTTAAAGGGAGAACTTCAATCAGCCCTTGATGTACCTGAGAAAATGCGTAATTATCTCACGAAAAACATGAATAGATGGGTAGATATGAAAGAAAATGGCTACATGGATATGCAAAAATGGAAAGATTGCAAAGAAACGGTGGAATTATCAGAATTAAAAGGGTTGGAATGCACAGTAGGTGTCGATTTATCAGCAAAAATTGACTTAACAAGTATTTCATTTGAATTTAAAAAGGATGATAAGTATATCGTAATTAGTCATAGCTTTATGCCCGAAGATACGTTAGCTGAAAAGAGAAAAACGGATAAAGTTCCTTATGATCTGTGGGTACAACAAAAATGGATCACAACAACACCTGGTGCAGTAGTTGATTACGAATATATTAAAACGCATATTAGAAATATGGAAAAAGACCATAAATTTAAGATTAAAGAAATATGTGCTGATCCTTGGAACGCAACACAATTTATGCAAGACATGGAGACAGAAGGGTATACCATGATAGAAATACGCCAAGGGATGGCAACTTTATCAGGCCCTACAAAGGATTTTCGTGAACAAGTGTATCAAAAGAATGTCATCCATAATAACAACCCTGTGCTGAACTGGGCAACTAGTAATGCTATAACAAAACAGGATGCTAACGAAAATATCATGTTGGACAAGTCGAAAACTACAGAAAGAATTGATCCGATAGCGGCTGTTATTAACTCGCATGTTCGATGCATGCTCAATTCTGGTGAGATGGACTTAAATTCCTATATATTAAGTCAAGATTTCTCATTTTAG	MIRQWMLDYCDDVLHGEVVACQKHKQACKRFLRDIEREGSEDFPYVFKEEKALRFLKWMSLFKHTKGKLAGQRIEPHSIQIFVFSNIYGWVHRNTGLRRFKKAYWQVGRKNAKSQSLACVGSYEAMAFGENMSEVYVGATKTEQSKIVWNEIKAQMNGCEDLKEKFNIAYGKIEHLKTDSFISALSKDAGKSGDGLNVQCGIIDEYHAHPTSEIYDVLVSGSGARPNPLMMIITTAGFNLSHPCYRVEYQYVSKILDPNIDIENEEYFVMINELDKDDEITNPEVWEKANPILCSYEEGRTFLKGELQSALDVPEKMRNYLTKNMNRWVDMKENGYMDMQKWKDCKETVELSELKGLECTVGVDLSAKIDLTSISFEFKKDDKYIVISHSFMPEDTLAEKRKTDKVPYDLWVQQKWITTTPGAVVDYEYIKTHIRNMEKDHKFKIKEICADPWNATQFMQDMETEGYTMIEIRQGMATLSGPTKDFREQVYQKNVIHNNNPVLNWATSNAITKQDANENIMLDKSKTTERIDPIAAVINSHVRCMLNSGEMDLNSYILSQDFSF				NA	NA	NA	NA	NA
AK009_02105	504			hypothetical protein	GTGGCTCACATAGGAAGGAAAGCGAAGCCGATTCATTTGCATTTATTAGAAGGTAATACAAATCGATTGACAAAGGATGAAATCGAACAGCGATTAAAAGCTGAAAAACAGTTACAAGCAAAAAAAGACAAGGTAAAGCCACCAACGTGGTTAGATTCAGTTGCAAAGAAAGAGTTTAGGAGAATTGCTGGTGAATTATTGGAGCTAGACGTAATCACGAACATAGATGTGAATGCATTGGCAACGTATTGTGATGCTTATTCTGACTATGTTGAATGCACCAAAATTATCCGACAAGAAGGACTTCTTGTTGAATATACCAATAAGGCAGCTGAAACAAATAAAGTTCCACATCCACTACTTACAAAGAAAAAACAATTGCATGAACAAATGAAGGCTTTGGCTGTTGAGTTTGGTCTTACACCAAGTGCAAGAGCGAAAATTGTCATTCCAAATAGTAAACAAGGTCCGAAAACAAACGTAGAGAAGGAGTTTGACGTATAA	MAHIGRKAKPIHLHLLEGNTNRLTKDEIEQRLKAEKQLQAKKDKVKPPTWLDSVAKKEFRRIAGELLELDVITNIDVNALATYCDAYSDYVECTKIIRQEGLLVEYTNKAAETNKVPHPLLTKKKQLHEQMKALAVEFGLTPSARAKIVIPNSKQGPKTNVEKEFDV				NA	NA	NA	NA	NA
AK009_02106	378			hypothetical protein	GTGCCAAGTAAACCATTCAAGCCGTGCAAGTCATTAGGTTGCAATGAACTAACACGGGATAAGTATTGTGCTAAACATACCGAAAAAGAAAAAGAAACTGTAAGATATTACGACAAACATATTCGAAACAAAAGCTCACGTTCATTCTACAACTCAAGACTGTGGAAGGATATGCGTGAGCTTATTTATCGTAGAGATCATGGCCTATGTGTTCAATGTAGAAGCAAGGACATCATTAAGATAGGTGATGTAGTCGATCATATCATTCCTATTCGTGTTGATTGGTCGCAACGATTAGAACCGACTAATTTACAGACGCTTTGCCATGCTTGTCATAACAAGAAAACAAAAGAAGATGAGAAGAAAAACAAAAAATAA	MPSKPFKPCKSLGCNELTRDKYCAKHTEKEKETVRYYDKHIRNKSSRSFYNSRLWKDMRELIYRRDHGLCVQCRSKDIIKIGDVVDHIIPIRVDWSQRLEPTNLQTLCHACHNKKTKEDEKKNKK	PGPT0027235_1125	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
AK009_02107	255			hypothetical protein	ATGCAAGTCTACTGTTCTAACTGTAATAAAGATTATGATATGCAACCACAAGTAGCACAGCTTTCTAATCGCATTGAGAAGTGTTACTTCACATGTCCTCATTGCGAACATGAGCATGTCGCTGCATATGTGAACGATAAGATTCGTAAGCATCAAGCGGATATAACTAAGTGTCATGAACGGATTAATAAAAAGAATCTAGCCATCGAGGATGAAATGAAACGATTGAGGAAGAGGATGGAAGGTGCCAAGTAA	MQVYCSNCNKDYDMQPQVAQLSNRIEKCYFTCPHCEHEHVAAYVNDKIRKHQADITKCHERINKKNLAIEDEMKRLRKRMEGAK				NA	NA	NA	NA	NA
AK009_02108	213			hypothetical protein	ATGAAACTAACTAAACAAGAACAAGCGGTTGCAATTGGTACATTCATTTCAATGCTAGGACAAGACCTTGTAAATGAACGCATTGATAAACAGAAATTAGAAAATGTACTTCCTATCTTTAATGAAATGCAAGATAATACAACACCAAAGCAAAAGAGAGAAGCAATGATTAGTTTGCTTGGTAAAGCGGTGGATGAATTCTTAGAAAAATAG	MKLTKQEQAVAIGTFISMLGQDLVNERIDKQKLENVLPIFNEMQDNTTPKQKREAMISLLGKAVDEFLEK				NA	NA	NA	NA	NA
AK009_02109	279			hypothetical protein	ATGGCTAATAACAAATTAATTATTGAAGTAACTGCGGATACAACTGAAGCATTAGAAGGGATTAAGGAAGTAACAGAAGCTGCTAATGAATGTGCATCTGCATTAGAGGATTTGGATAAGGTTATGGGTAGGTTTACAAATAAGAATGAACAAGAAGATATAAAGTTTGTCATGACTTTAGGTGAGAAAGTATTGGTTAAATCTATGATTGAACATACAGCTGATTCAATCCGAGTTCGGGTAATTAAAGGAGAAGAACTTAGGAGTGAGAAAAAATGA	MANNKLIIEVTADTTEALEGIKEVTEAANECASALEDLDKVMGRFTNKNEQEDIKFVMTLGEKVLVKSMIEHTADSIRVRVIKGEELRSEKK				NA	NA	NA	NA	NA
AK009_02110	222			hypothetical protein	ATGGAATCTATAACAAAAATAATTGCTAATTTAGAAAGAAGTGTTAACGGTTTACAAAGAGATAATGATGGTATGAAACAAGCATTACTTAATGTTTCAACGAGTGTAGAAGCATTGAATAGAAAAGTCAATATGTTAGAAGAAACGTTAGCAACGAAAGCAGATATAATTCATGTTCAACGATTAATCAAACAATCTGGGGAGGATTCACAAAATGGCTAA	MESITKIIANLERSVNGLQRDNDGMKQALLNVSTSVEALNRKVNMLEETLATKADIIHVQRLIKQSGEDSQNG				NA	NA	NA	NA	NA
AK009_02111	300			hypothetical protein	GTGGTAATTAGGATGAGTGGCTATTCTAAACTTATTTTATCCAATGGGAATGAATATATTGTGCCAATTCACCCGAGTATTTTAATTGAGAAGGAACTTACAAATAAGAATGGGGAGATTTATAATAAGTTTATTCTTGTTCCACAAATAGATACAGAAACAGGGAGTAAGATGCAATTTAATTTAAATCCTCAGCATATAGTAACAATTGAAGAATTTAGCATAAGAAGACAAAAGACCGTTCCTTCCGTATTTAGAGTGGAAACAAATAATGAAAGATTGAAGGGAAAGCATCCATAG	MVIRMSGYSKLILSNGNEYIVPIHPSILIEKELTNKNGEIYNKFILVPQIDTETGSKMQFNLNPQHIVTIEEFSIRRQKTVPSVFRVETNNERLKGKHP				NA	NA	NA	NA	NA
AK009_02112	225			hypothetical protein	ATGTTAAATGAAGAATTATTAGAAGCGCTAATTAAATATCGAAAGTTTAACGGGAAAAATCCTGATATCTTACAAGTAAATCCAAGGTATTTTAGAAGCCTTCTAGAAGAATTGAATTATCCAGAGTGGCTTATTAAAAAGAAAGAAGCAGAAACAGGAACGAAAAAAAGTTTATTAGGAGTGGCAGTTGAGCTAACAGATACAGTAGAAAAATTTAAACTATGA	MLNEELLEALIKYRKFNGKNPDILQVNPRYFRSLLEELNYPEWLIKKKEAETGTKKSLLGVAVELTDTVEKFKL				NA	NA	NA	NA	NA
AK009_02113	543	xerC_3		Tyrosine recombinase XerC	ATGAATTTTGTCCAGCCCATACGTGATCCAGAGCAAATACAACAAATCAAAGAATACTTAAAAGAAAAGAATGCACGTAACTATATTTTGTTTGTAATGGGAATCAATACAGGGTTACGCATAAGCGACATTCTAAAACTGAAGGTAGGAGATGTACAAGGAAGTCACATCTCAATGCGTGAAATCAAGACAGGGAAGCAAAAACGTATTCAAATTACACCATCTTTAAAAAGAGAGCTGAAATGGTTCAACGAAGGAAGAGAAGTCGAAGAATATTTATTAAAGAGTAGGAAAGGGAAAAATCGTCCTATTGGCCGTAGTATGGCATATAAAATATTAAAAAGTACAGCTGCGGAGTTTGGATTGGATGAAATCGGTACACATACACTCAGAAAGACCTATGGGTATCATATGTATATGCAGACGAAGAATATAGCTTTGTTAATGGAGATATTTAACCATTCAAGCGAAAAAGTAACATTACGGTATATAGGAGTAAACCAAGATGCAATGGATAAAGCAATGAGCAGATTTAAAATCTAA	MNFVQPIRDPEQIQQIKEYLKEKNARNYILFVMGINTGLRISDILKLKVGDVQGSHISMREIKTGKQKRIQITPSLKRELKWFNEGREVEEYLLKSRKGKNRPIGRSMAYKILKSTAAEFGLDEIGTHTLRKTYGYHMYMQTKNIALLMEIFNHSSEKVTLRYIGVNQDAMDKAMSRFKI				NA	NA	NA	NA	NA
AK009_02114	486			hypothetical protein	ATGACTAAGCAATTATCTTTCTTACCAAAAATTGATAGAGCAGCAACACAAGAGAAATTAGAGGGCATTCTTGAAAGTGTACGTATATATAAGCAATTTGGAATGATGCGTAAGGAAATGAAAGTCACTCCTTCTTATGAAAAGAGAGAGCATGGTCCTACACATGCAGTTGGCAAACCGTTAGAAGATGTAGCAATCTCTAATATCCAACAAAGCAAACGTGAGGAATGGTTAGAGAAAACGGCATTTCGAGTTGAACAAGCATTAAGTCGATTCGGAAACAGTACAGCTGGAAAAAATCAGAGGGACATTATAGTGAAACGATATTTAGAAGACGAAGATGTATGCGATTATATGGTGTATAACGAAATTGGCATGAGTGAACGTACGTATCGACGTGTGAAAGCTAGAGCGTTTTATAAATTGGCCTTTGCTCTTAGATTAGAAGTATATGAAACTGAAGAAACTGGAGGGAATGAATCATGA	MTKQLSFLPKIDRAATQEKLEGILESVRIYKQFGMMRKEMKVTPSYEKREHGPTHAVGKPLEDVAISNIQQSKREEWLEKTAFRVEQALSRFGNSTAGKNQRDIIVKRYLEDEDVCDYMVYNEIGMSERTYRRVKARAFYKLAFALRLEVYETEETGGNES				NA	NA	NA	NA	NA
AK009_02115	282			hypothetical protein	ATGCTATATCATTTGATAAAATTAGGGGAAGCATTAGAATCTGAAGTAAAGCAATCTGAGGGTAGATTATATTTTGATTCAGTTAATTTTGGAGTTTGGGTGTCAAAAAGTATTTTGTATATCGAAAAGTATCATAAAGATTCTTTTATAGTAAATCAAATGAAGCAAAGTTATAAAGAAATAGATTATACAAATAATTATACATTTTACAAATTGATGTTAAGTACATTGAAAGTAATACAAGAAGAGGAAAATGAAGAAAAAGAGGAGGCTAAAGCATAA	MLYHLIKLGEALESEVKQSEGRLYFDSVNFGVWVSKSILYIEKYHKDSFIVNQMKQSYKEIDYTNNYTFYKLMLSTLKVIQEEENEEKEEAKA				NA	NA	NA	NA	NA
AK009_02116	165			hypothetical protein	ATGGAATTAGTTTTTTGGATGGTTATCTTCATTGTACTGGGCCAAATTGTTTGTACAAAGATGGATTTAAAAGACTTAAAAAAACGTTTAGATACTTATAAGGAAATGCTGGATATGCAAAACGAAAAGATTGATGACTTATGGAGATATATTAATAAGCGTTAA	MELVFWMVIFIVLGQIVCTKMDLKDLKKRLDTYKEMLDMQNEKIDDLWRYINKR				NA	NA	NA	NA	NA
AK009_02117	195			hypothetical protein	GTGAGCCCAAAAGTGTACGCCGTTTATAAAGGTGAATCACTAATATGTATTGGAACTGTACAGGAGTGCGCTCAACATTTGGGAGTGCTTCCTAAGACAGTATATTATTACAAGTCATCATCTTATAAAAAAAGAGTGGCTATTAGAAAGAACGCTCGTAATTATTTAACTGTTATAGCCTTAGAAGAAGATTAA	MSPKVYAVYKGESLICIGTVQECAQHLGVLPKTVYYYKSSSYKKRVAIRKNARNYLTVIALEED				NA	NA	NA	NA	NA
AK009_02118	264			hypothetical protein	ATGAGTTTACTACAAACATTATTAGAAACAATTAATCAAGAATGGTCTAGTCAAAGTACGGATGTATTTGGAGAAGTTGATAACGTTCTATCGATAGCATATATTGCTCCTGTTTTAGCAAAATACATTGAAAGTGAAGGTGATAAGGTCCCAACGGAATTTGAGCCTAATAAATTTAACTCTGATAAAGAGGGTAATTATTACACGGTAGAAATCAAAGTTTGTACAGATCAAGATACATTGATTGAATTTTATTATGAGTAA	MSLLQTLLETINQEWSSQSTDVFGEVDNVLSIAYIAPVLAKYIESEGDKVPTEFEPNKFNSDKEGNYYTVEIKVCTDQDTLIEFYYE				NA	NA	NA	NA	NA
AK009_02119	204			hypothetical protein	TTGGATAAGTACCGAAAATTACATTTGATACTTAAAGATACAAATCAAAAGTTATTGGTGTATAGCCAAGAAAGTTTTAATTCCATTATGGATTATTTGAATGAAGATAAATTTATTATGTTATTCGAGCTAGAAAATAATTTGTATCTTCCTTGTGCAATAAATACAGCAGATATTATTGCTATTTCAAGAGTTGAAGATTAA	MDKYRKLHLILKDTNQKLLVYSQESFNSIMDYLNEDKFIMLFELENNLYLPCAINTADIIAISRVED				NA	NA	NA	NA	NA
AK009_02120	393			hypothetical protein	ATGAGATATCAATTTAGAGTTTGGAATGTAATGAGTAAAAAAATGATGGGATGGGGAGAGATTTTTGATTTACCTGCATGGGAGATCTTCCCCGGAACTCCGGAACAACGAGCGTTTAATGTAATGCAATACACAGGCTTAAAAGATAAGAACGGAAAGGAAATTTACGAAGGTGATAGTGATGGGTTTTACATTGTGAAAAACGGAGAATTTCCAGTTAGATGTCACGAAACAGGTGAGATTATCGATAGAGCGCACGGTTGGTATTTAGATCCGATAGATAAATCAACGGAGCCTTCTAGTTGGGAAATACCTTTGAATGATTTCTATATAAACAGACTGGATGCATTTGATAAAAACATTTATGACAATCCAGAGCTACTAGAAAACTAA	MRYQFRVWNVMSKKMMGWGEIFDLPAWEIFPGTPEQRAFNVMQYTGLKDKNGKEIYEGDSDGFYIVKNGEFPVRCHETGEIIDRAHGWYLDPIDKSTEPSSWEIPLNDFYINRLDAFDKNIYDNPELLEN				NA	NA	NA	NA	NA
AK009_02121	309			hypothetical protein	ATGAATACAATCACTATTAAATTTGGCCAAGGTACAGAAGCTTGGAAGGATATGCAAGAAGTTGTTAAGGTACTACATGGTAAAGGATATATCGCTCAGCCTTATGAGGACATTGGAACAGTTAAATTAACTAAGGAAATCAATGACGAGTTAGTAGATAAGAAAAGGCAATTCAATTGTGATCTTTGTTTTCAAAACAAGATTATTGAGGAGAAATCAATTTATCAATTCGATGAAGATGGTGACATTGTAGCATGTGTAGAATGTGAGAAAAAGGCATTTGAACAATTAGGAAATCAAACAAAATAG	MNTITIKFGQGTEAWKDMQEVVKVLHGKGYIAQPYEDIGTVKLTKEINDELVDKKRQFNCDLCFQNKIIEEKSIYQFDEDGDIVACVECEKKAFEQLGNQTK				NA	NA	NA	NA	NA
AK009_02122	192			hypothetical protein	ATGGACAGAAAAATTACATTTAAAGCTAAGAAGGATATTTTTTGGGAGGACTGGGGGCATTTAAGATTGGTCTTTTCAAGAGGGAATGTATATCCAGGTATTCTTCATAAAGATGGAAGTGTTACAGCAGAGACACCTTATTTTGAAGGCATTTCTGATTACGTAGATATAGACTCTATAGAAATAATTTAA	MDRKITFKAKKDIFWEDWGHLRLVFSRGNVYPGILHKDGSVTAETPYFEGISDYVDIDSIEII				NA	NA	NA	NA	NA
AK009_02123	300			hypothetical protein	ATGAAAATAACTAAGCTTTCAGAAAAACTACTAAAATACATGGTAACTGAGTATAAAAACCATGGGACAGATATGTTCTCTTTTGAAACATTTAAAGAGTTGTACCAAAATGAGACTGATGATTTTATTTCGAAAGCACTCTATCGTTTGCGAGATGAAGATTTAGTCTCTGTGTATGCAGCAGACAATGTCGCCTATAACACTGTCTTACTTCCACAAGGGATTGCATATTGTGAAGAGAATAATTTTCTTAAAACCGGATACAAATTTGCAAAAGAAGCAAGATCATGGTTATCCTAA	MKITKLSEKLLKYMVTEYKNHGTDMFSFETFKELYQNETDDFISKALYRLRDEDLVSVYAADNVAYNTVLLPQGIAYCEENNFLKTGYKFAKEARSWLS				NA	NA	NA	NA	NA
AK009_02124	216			hypothetical protein	ATGAATATACAAGAAGCTACTAAGTTAGCGATGGAACAAAATAAATTTATTTCACGATTACACTTTATGAAGACCTTTAAGGTCAAGATTAAGCCAACAAATACGTATGAGTTGTGTGGAAATTATCCAATTTATCCTAACGAATTTAAACCGCGCAGGGCGTGGAATCCCTGCGCAGATGATTTAATTGCTGATGATTGGATAATTGTTGATTAG	MNIQEATKLAMEQNKFISRLHFMKTFKVKIKPTNTYELCGNYPIYPNEFKPRRAWNPCADDLIADDWIIVD				NA	NA	NA	NA	NA
AK009_02125	165			hypothetical protein	ATGAAAAGAGAAATAGACATGAAAACAAACGGCATCTACATTGTGGTGGATGGGAAAATCAACTTTGAAGAACCCCCAAAGAGCGGCTACGGACAGCAAGTCTTATATTGGGTAAAGGGAAAAGTGTCTCATACACAAACAACGATTACGAAGAAGTTTAAATAA	MKREIDMKTNGIYIVVDGKINFEEPPKSGYGQQVLYWVKGKVSHTQTTITKKFK				NA	NA	NA	NA	NA
AK009_02126	267			hypothetical protein	ATGGAACAATTAACTTTTGAAGACATCGTAGGAAACATGGACTATACAGCACATAGTACGGCTGCGAAGTTCCTCTCTAATCATTCAGTAACACCAACTTATGCAGTAGAATTTTTTGATCGGGATAAAAAGCAGAAGTTACGTTGGTTTGAAGTTAATACAGAGGGTGAAGCAAAAGAAATGGCCGAAGAAACATACGGGAGAATTCAAATTATAAAAGTATATGTGTCCAATCGAACGTTGAAAGAAATTATGGAGCTGGACTAA	MEQLTFEDIVGNMDYTAHSTAAKFLSNHSVTPTYAVEFFDRDKKQKLRWFEVNTEGEAKEMAEETYGRIQIIKVYVSNRTLKEIMELD				NA	NA	NA	NA	NA
AK009_02127	813			hypothetical protein	ATGAAAATAACATTGAATGGCTCGGAGAAGACGCTTAATGATACCTGTCCGTTATGCAGTGGAACGGGAATAATCTTAAATGGATGGACAGGTAAAATGTGTGATTGTCAAAAGAAACAATCTGAAATAGCAAGGTTGAAAAATGCAATGATACCAGAAGAATTTGAAGAAGCACGTTTTAAAAATTATATTCGTCATACCGATATGCAAAAGAAAATGTTTAACAGCATGATGGAATACTTAAAAAAGTTTAATGAAATCAGGGATACGAAGCGCAATAGCTTTGGATATATCGCTACATATGGCGAGGCAAGATTAAAAGCTTTATCCATCGATGAACGAGTTGAAAAAATGAAACTTCACAACAATTACGGATTAGGTAAAACACATCTACAAATAGCAGCTGCTAGATGGATCATACAAAATGTTCAAACTGTAAATAAAGACATTGTAAATGCACAACCGAGAGGGTGCAGAGTAGTTTGTATAAGTGATGTCACTTTTATGACAGAGATTATGTCGGCAAAGCGTGATGATAAAAAGGAGTACTTTGAAAAGCTTCATACCGTCGTAGATTATGCGGATGTGCTGGTTTGGGATGATTTGGGTAAGAGCAAACATACAGAATCCCGTGAAGAAATGTATTACGAAATCATTAATGAGCGATATAAGCGTAAAGCGCCCATCATTTTTAGTTCAAATGAAGATGAATATACCTTACCTGAAAAAATTGGGTTTGCAGCTGCTGATAGATTGCTAGGGATGGCAAACGATTATTTGATTGAAGTCGAGGGAGAAAGCTATAGACGGTAA	MKITLNGSEKTLNDTCPLCSGTGIILNGWTGKMCDCQKKQSEIARLKNAMIPEEFEEARFKNYIRHTDMQKKMFNSMMEYLKKFNEIRDTKRNSFGYIATYGEARLKALSIDERVEKMKLHNNYGLGKTHLQIAAARWIIQNVQTVNKDIVNAQPRGCRVVCISDVTFMTEIMSAKRDDKKEYFEKLHTVVDYADVLVWDDLGKSKHTESREEMYYEIINERYKRKAPIIFSSNEDEYTLPEKIGFAAADRLLGMANDYLIEVEGESYRR				NA	NA	NA	NA	NA
AK009_02128	1005			hypothetical protein	ATGAATACCAATGTAATAAAAGTCGCAAGAATAAACCTGCAAGGTAACACTTTAGACCAAGGTTGGTTTAAGTATCTTACTTTAGAAAATGGCAAGCCCTATATGGTTGCGATTACAATACTTAGCGAAATTTTTTATTGGTATAAACCAACTGAGATAAAGGATGAAAGAACAAATGAAATCCAATATAAACAAAAATTTAAAGCAGACAAACTGCAAAAAAGTTATCAACAATTGGCTGATTCATTTGGTTTTACCAAAAGACAAGTACAAGAAGCATGCAAAGACTTAGTAAAAAGAGAATTAATTGCAATTGAATTTCGTACGATCATAGTTAACGGAACGAGGCATAACAACGTTATGTATGTGGAACCAATTGTGAAGAACATCGAAAAAATTTCTATTTTATATCAAGACCCTATCACATCAGAAAGTGACACCCTCCCACATTCTAATGAGAGAGACTCCCACATTAAAACGAAGGAGGCTCTCACATTGAAACGTGGGACAAATACAAAGATTACTACAGAGATTACTACAAATAAAAAGACTTCTTGTCACAAGTTTGAAACTTGCGACATGGAGCATGCCAAATTGTTATTTCAGTTAATTTTAGAAACCAATTCAGAACATAAAGAACCGAACTTCGAGAAGTGGGCCAATGAATTTCGCTTAATTCGTGAAAGAGACAAGAAAACAAATCAACAAATTGTGTATCTCTTGGAATGGTCCCAGAATCATTCCTTCTGGAAAAAGAATATATTGTCACCTAGTAAGTTGAGAAAGCAATGGGACAGGCTGGTGATTGAAGCCAAAGAAGAACACGAGGTGAAGAAAAATGAGCAGATTCGCAAGCATAGCGGAAGTCATGGCAGATTTGCAAAAGAGGGCTATGAAAAACTGCCAGAGCCGACAAGAACGTGGAGAGAGCTTACAGAAAAAGAACGAGAGGAATCACAACAAGAATATGAAAATAACATTGAATGGCTCGGAGAAGACGCTTAA	MNTNVIKVARINLQGNTLDQGWFKYLTLENGKPYMVAITILSEIFYWYKPTEIKDERTNEIQYKQKFKADKLQKSYQQLADSFGFTKRQVQEACKDLVKRELIAIEFRTIIVNGTRHNNVMYVEPIVKNIEKISILYQDPITSESDTLPHSNERDSHIKTKEALTLKRGTNTKITTEITTNKKTSCHKFETCDMEHAKLLFQLILETNSEHKEPNFEKWANEFRLIRERDKKTNQQIVYLLEWSQNHSFWKKNILSPSKLRKQWDRLVIEAKEEHEVKKNEQIRKHSGSHGRFAKEGYEKLPEPTRTWRELTEKEREESQQEYENNIEWLGEDA				NA	NA	NA	NA	NA
AK009_02129	648			hypothetical protein	ATGACAGCAGAAGAATTATTTAAAGAAAAACAATATTTAGTAATTGCGGCAATCAAGCAACAATTTGGAAGTATCGCAAGAGCTGGACAGATTGCAGAAATAAACAATATGGATTTGGAGGATTTAATTCAAGTTGGCCATCTGTATTTATGGGAGCATTGTGTGAATTATGATCCAGAGAGAGTAGATACATTCAATGCATACGTGATGAAAGGTATGAAATGGGCAATGAGTGATGAGCTTCACTTGAAAGGAACGCCTTTTAAGATAAGCAGACGAGTTGGTCATGAGGAACGAAATAAAATGAATATTCATTCGATTGATTTACATCGAGATGAGGAAACAGTAAACGAATTCTACGCAGTTTCTCCAATTGATGTGGAAGAAGAAGTAATGTTATCTATTGAATTTGAAGAAGTAACAAGTGTACTTGAAGAAAAAGAAAAGTCAATTATACTGCACGTTGGTGAGGGGTATACCACAGAAGAAATTGCTATCAAATTAGAGATGAAAAAATCTACTGTTCATACAAGAAAGACACGGGCATTTTTAAAGATGAATCCAGATTATAAGCCACTAAAACAAAAATCCTTTTTCTTAGGGAAAAGAATGATAAAGAGAAACCACCAGTTGGGGCTGGTGATTTAA	MTAEELFKEKQYLVIAAIKQQFGSIARAGQIAEINNMDLEDLIQVGHLYLWEHCVNYDPERVDTFNAYVMKGMKWAMSDELHLKGTPFKISRRVGHEERNKMNIHSIDLHRDEETVNEFYAVSPIDVEEEVMLSIEFEEVTSVLEEKEKSIILHVGEGYTTEEIAIKLEMKKSTVHTRKTRAFLKMNPDYKPLKQKSFFLGKRMIKRNHQLGLVI				NA	NA	NA	NA	NA
AK009_02130	315			hypothetical protein	ATGACGTTATCAGTTTTAAAGAAAGATGTAAAGAAAAAACAAATACTAGATGAATTCTTGCAGCATTGTGAAAAGAAGCAAATAGAGGCAATTCAAAAGAATGATCCATTGTTACTTTGTACTTGGATTAAAGAAGCAAGATTGGCTCGAAGGGAGCTTATAGCGCTATATCGTGAGAAAGAAAAACATGATACCCAACTTGAACGGGATCGTAAAAGCATTCTAGGGATTGTGGAACATTTAAAAAGTAGAGGTATTAATGCTTCAACTGTAGGGAGGGCACATCATAGTACGCTTTCTGAGGAGTGCTATTAA	MTLSVLKKDVKKKQILDEFLQHCEKKQIEAIQKNDPLLLCTWIKEARLARRELIALYREKEKHDTQLERDRKSILGIVEHLKSRGINASTVGRAHHSTLSEECY				NA	NA	NA	NA	NA
AK009_02131	117			hypothetical protein	ATGATGGAAGAAAGTATTGTATCACTATGTATTGTTGGGTTTGGCATCTGTGGGCTTTTATTTGCTGTTTATGCTCTAGATAAACCAATCAAAGAATTTACAAAAGATGTGGAATGA	MMEESIVSLCIVGFGICGLLFAVYALDKPIKEFTKDVE				NA	NA	NA	NA	NA
AK009_02132	780			hypothetical protein	ATGGATGGATTAACAGTAGCAAACGAACTGGTATTTGCAAGTAATGGTGAGGTAGTAACAGATAGTTTGACAATTGCTGAGATGTTTGGAAAGGAGCACAAAAATATAAAACGAGATATCTTAGAAACAATTTCGAAATTAGCAAGTCTACAACATAATGCTGAAGTGGATGAACTAGGTATTAATTTTAATACGCTCAAATTTGAGCCCATTGAATATCGAGATAACCGCAATCGAATACAAGAAAAATACATTTTAAACTTCGATGCGTTTATGCTCGTAACTATGAGTTATACAACGCAAAAAGCAATGTTGCTAAAGGTAAAATACATCAATGAGTTTAACCGTATGAAAAACTATATTCAGAGCCAGCAACAAGTTCCTACAGATCCAATGAGTATCTTAAAGCTTACTTTTGAAGCGCTAGAAGGGCAAAAGCAAGAACTCCAGCACATCAAATCAGATGTCAAAGATTTAAGAGAAAATGCTCCGTTATTCGCTGTAGAATGCGATGAAATATCAAATGCAGTCAAGCGTCATGGCGTTGCGCTATTAGGTGGTAAACAGTCTAATGCGTACCAGCATGCGGGGATTAGAGGTAAAGTCTACCGTGATATCTATAAGCAGCTGTATCGTGAATTTGGAGTAACAAGCCATAAAGCAATTAAACGTGGTCATTTAGCACTCGCAACAAAGATTGTTGGAGAGTATACGTTACCTATTGTGCTGAGTGAGAAAATTAATATAGTAAACTCTCAAATTAAGTTTTCTGAGATGTAG	MDGLTVANELVFASNGEVVTDSLTIAEMFGKEHKNIKRDILETISKLASLQHNAEVDELGINFNTLKFEPIEYRDNRNRIQEKYILNFDAFMLVTMSYTTQKAMLLKVKYINEFNRMKNYIQSQQQVPTDPMSILKLTFEALEGQKQELQHIKSDVKDLRENAPLFAVECDEISNAVKRHGVALLGGKQSNAYQHAGIRGKVYRDIYKQLYREFGVTSHKAIKRGHLALATKIVGEYTLPIVLSEKINIVNSQIKFSEM				NA	NA	NA	NA	NA
AK009_02133	156			hypothetical protein	ATGAAAAACGGTAAAAAATTGACAAAGCGTGAAAAAATGCACCTTAAATCATACAAATTGAATCCTGAAAGCTGGTTAATCTTTAAGAAGGTAGATGGCGAATTACATTTAGTTCATCGTCACACAAACTCAATACGAGTCATTCCAAGTGCATAG	MKNGKKLTKREKMHLKSYKLNPESWLIFKKVDGELHLVHRHTNSIRVIPSA				NA	NA	NA	NA	NA
AK009_02134	189			hypothetical protein	ATGTATAAAAACCTATTTATTGTTCGAAGAGAACATCGTATGACGCAAGAGGATGCTGGGAAGTTAGTAAACATATGCCAGCAAACGTATTACCTAAAGGAAAAAGGAAAACGTGATTTTACTCTTACAGAAGCAAAATTACTCGCACAACATTTTAAGACAACAGTAGACGACCTATTTGCGAAGTAA	MYKNLFIVRREHRMTQEDAGKLVNICQQTYYLKEKGKRDFTLTEAKLLAQHFKTTVDDLFAK				NA	NA	NA	NA	NA
AK009_02135	126			hypothetical protein	ATGATAGAGGAAAGCAAGTTTTCATTAATGATAGTTGCAATCTTGATTTGTATAGTCTCTTTAGCAGTTTGTTTTTTGGATGAGCCAATTGAAAAGTTTATAAAGGATGATGATAGAGATGTATAA	MIEESKFSLMIVAILICIVSLAVCFLDEPIEKFIKDDDRDV				NA	NA	NA	NA	NA
AK009_02136	246			hypothetical protein	GTGGATAATAAAAAAGACTTATCTGCTCGAGAAGCAAAAAAGGCTTACATGCGAGCCTGGAGAGCAGCTAATAAAGAAAAGGTTAAAGCAACTCAGGAACGATATTGGAAGAAAGTGGCGCAGAAAATGAATATGAAAGAAAGTGAAATTAAGAATGATTACAATCGCAATTGGTATCAGAAAAATAAAGATAAAAGAAATGATTACATGCGAGATTATTACCAAAAGAAAAAACAAAATTCTTAA	MDNKKDLSAREAKKAYMRAWRAANKEKVKATQERYWKKVAQKMNMKESEIKNDYNRNWYQKNKDKRNDYMRDYYQKKKQNS				NA	NA	NA	NA	NA
AK009_02137	330			hypothetical protein	ATGTCTGAAACTATGGGTAGTCGTATAAAAGAGGTTCGTAAATCTTTAAAAATGAAACAAAATGAACTTGCAGATGCTGTCGGTGTAAACTACACAATGATTTCGCTATATGAATCAAATAAACGCGAACCTAGTAGGGAGACCGTAGAAAATATCGCTCGTGTTACAAACGTTTCTGCTGATTATATTATGGGGCTTTCAAAGCATAAAACTTTTGATAAAGAAACATCAAAAAAAATAATAGATGATGTTGAAGATATTATGAAACGTATCAATCAGCTCCCTGCGGATAAACGAGAAAAAATTATAAACATGATTAATGATTTATAA	MSETMGSRIKEVRKSLKMKQNELADAVGVNYTMISLYESNKREPSRETVENIARVTNVSADYIMGLSKHKTFDKETSKKIIDDVEDIMKRINQLPADKREKIINMINDL				NA	NA	NA	NA	NA
AK009_02138	126			hypothetical protein	ATGCTAAAAACAGTAGGAGTAGATGTTAAAGAAAAAATAAGTGAGTTAGTTGAACTTGCATATAAAGGAAATCAAGAAGCGATTGAGAAATTAATCAAAATAAAAAAAGAACTTGGTGGAAATTAA	MLKTVGVDVKEKISELVELAYKGNQEAIEKLIKIKKELGGN				NA	NA	NA	NA	NA
AK009_02139	150			hypothetical protein	ATGAGAAAAGTTGGTATACTATTGTTAAGTGTTGTCGGTGCGTTCGCACTAGTATTAAACACAGGGGTATTGGAGAAAGACCAAGCTGTTAGTAAGCAAACAAATAACGAATATGTACAATATATGAGTTCAGAACCCGGAGGGTCTTGA	MRKVGILLLSVVGAFALVLNTGVLEKDQAVSKQTNNEYVQYMSSEPGGS				NA	NA	NA	NA	NA
AK009_02140	1254			hypothetical protein	ATGTTCGGAGAAGGGGGAAGTAAGTTTGTGAAGGAGTTAAAAGAAAGGACGATAAAAAATTCTAAAAAACATCTACAAAAAGAATTTAAGTACAATTTGATGAAAGAACTAATGAAGAAGATAAAGCAAGATATGGATGATAAAGGATTTAAGATTCGTCCATTAGCAAAGAAAGTAGGTGTGGATCGTTCTGTTATTACTGACGGAATTGTAACTGGTAAAACAGCTGAAATGAAATTAGACACATTTATGAAAATTATGGATGTTGTCTATGAAAATTTAGAAGAACGGCAAGAAGTGATACGGAAATTTATTAAACTTTCTCGAAATGATCTTAATATTCGTAAATCTTTGGTTTATTGTCAAGGTACTGGTGAGTATGATGTAATAGCAGATTTGGTGAAAATACATCAAGGAGATCGTTTATTAAATAAATATATTCGAGTGTATGAGTTATTCAACAAACGTAATCAAAACATAAAAAAAGGACAACCATTAATCGAAGAGATGGATGAACAGTTATTCTCAAGTGATGCAGAACTCCAAGTAGTAATCAATATATTATACGCTTTGTCTATGCATGACACCTTCAATATAAGAGCGATGAATCCGTATATGGATAAGGTGGAAAAAAATCTAATTGAGGTTCATGATAAATTTATAAACAATTGGTTAACAATGTTTTTCGATGAAAGGATGGCATATGTTAATTTGTTTGATGATAATTTAGAATTATGTCGTCAAAAATGTGAAAAGTTACTAAAAGAGGCTAATAATGTCCCACTAATTTATACGACTAGTATGTGTTGCATTGGCGAAAGTTATATGTTTGATGACAAATTCCTTGCTGAGAAGTGGATTTCGGATAGTATTGCTTACCTAGATAAACATGGAGTATCTCGCGAAAGCAGAAAGTATAAAGCTTTTAATACTACGCTAAATTACTTATATATCGAATTTGGTTTTAATTTAGACAAAATTAATTTCGATTACATTGATACTTCAGAATTAGGTTACTATATAGGATTGTATGAAGATAAGGAAAAAGGGTTAGAAATGATATATAATTTAGTTAAAGAACGTGGTAGTTCACCGTTTACTGATTACTACATCGCTAGGATAAATGAAGATTTAGAGGGCTTGGAAAAGGCTCTTATACGCTTTGAGCGGGTTGCAAACTACCATTATGCTAAAGCGGTACGACGTACAATTCAATTGTTAAAAAATAAGCAGGAAGAGGTCGAGAGAGTATGA	MFGEGGSKFVKELKERTIKNSKKHLQKEFKYNLMKELMKKIKQDMDDKGFKIRPLAKKVGVDRSVITDGIVTGKTAEMKLDTFMKIMDVVYENLEERQEVIRKFIKLSRNDLNIRKSLVYCQGTGEYDVIADLVKIHQGDRLLNKYIRVYELFNKRNQNIKKGQPLIEEMDEQLFSSDAELQVVINILYALSMHDTFNIRAMNPYMDKVEKNLIEVHDKFINNWLTMFFDERMAYVNLFDDNLELCRQKCEKLLKEANNVPLIYTTSMCCIGESYMFDDKFLAEKWISDSIAYLDKHGVSRESRKYKAFNTTLNYLYIEFGFNLDKINFDYIDTSELGYYIGLYEDKEKGLEMIYNLVKERGSSPFTDYYIARINEDLEGLEKALIRFERVANYHYAKAVRRTIQLLKNKQEEVERV				NA	NA	NA	NA	NA
AK009_02141	255			hypothetical protein	TTGGCTGGTTGTGAATTTTTCGTAATGGCTGGTTTTTCACCTTTAAAATTAAAATATAATAACAAAACAATGGGGGAATGGGAAACAATTGTCATTTTAGAGGAACAATTGTTGAAAAAATCAAAAAAGACAATTATTTTAAAGGGAATTGTGTTATATTGGGTGCGTATATCCAATTATGGAAGAGAATTTGCAGTTTTGAAAGTTTATGAAATTAACAAAATAATATTATTGAACATAAATAAAGACCCATAG	MAGCEFFVMAGFSPLKLKYNNKTMGEWETIVILEEQLLKKSKKTIILKGIVLYWVRISNYGREFAVLKVYEINKIILLNINKDP				NA	NA	NA	NA	NA
AK009_02143	1062	intQ_1	COG0582	Putative defective protein IntQ	TTGGTAATCTATAAAGATGAACAACGTGGAACATACTACTTCGTCACTAGAATCCGACAATTCGATGGAACACTAAAACAAGTAAAACGTCGTGGGTTCAAAACAAAGAAAGAGGCACGGGAAGCTGAAGCAAAAATGTTAGTGGAAAAGGAGACAACTTCAAGTTTAACTTTTTCTCAAGCTGCTGATAGCTATTTTAATTGGTATTCGCAAAGAAGAAAGCAATCATCAATAGAAACAATAAAAAATGTAATCTACAATCATTTAGTAATAGAGTTTGGAAATTTAAAGGTGGAGCAGATTATTCCTAAACATGTCATGAATTATCAAAATAAGATTATTAATAAGTATTCAGCTAAGCATCTAAAAAAGATTCATGCAGTCCTTTCTGCTATATTTAATTTCTCAATTAAATTTCATGGTTTAACAAATAACCCCGCAAAAATTACAGGGAATTTTGAAAAAGAATCGAATAAACGAATGAATTTTTGGGAATTTGAAGAGTTTAAACAATTTATTTTAGCTGTGGACGATCCATTATATAAAACATTTTTTTCAGTACTTTATTATAGTGGAGCTAGAAAAGGAGAGCTTATGGCATTAACATGGTCAGACATTAATTTTGATGAGAAAACAATTAACATTAACAAAACTGAATATAATCGGCAAGTTACGGAACCTAAAACAAAAGCATCTAATCGAATAATAATGTTACCTAGCTTTATAATGGATATGTTACACGACATAAAAAAAACTGCCGCCCTAAACGCACCAGTTAAAAGTGATTATGTAGTTTTTGGTGAGTTTTACAATAGTATATCTTCGAGTACCTTACGACAAAAATTTATAAAATATATAAAAATCGCCCAAGTAAAAAAGATCGTGCTACACGAATTCCGACATTCTCATGCATCATATCTAATAAATAAAGGTGTTAGTCCACTTATAGTAGCACAACGTTTAGGTCATTCAGATGTTGCAACAACTTTAAATACTTATAGTCATTTATATCCATCAAAACAAGCGGAAGTAGTTGCTTTTATGGAGAACGATTTGGTATAA	MVIYKDEQRGTYYFVTRIRQFDGTLKQVKRRGFKTKKEAREAEAKMLVEKETTSSLTFSQAADSYFNWYSQRRKQSSIETIKNVIYNHLVIEFGNLKVEQIIPKHVMNYQNKIINKYSAKHLKKIHAVLSAIFNFSIKFHGLTNNPAKITGNFEKESNKRMNFWEFEEFKQFILAVDDPLYKTFFSVLYYSGARKGELMALTWSDINFDEKTININKTEYNRQVTEPKTKASNRIIMLPSFIMDMLHDIKKTAALNAPVKSDYVVFGEFYNSISSSTLRQKFIKYIKIAQVKKIVLHEFRHSHASYLINKGVSPLIVAQRLGHSDVATTLNTYSHLYPSKQAEVVAFMENDLV				NA	NA	NA	NA	NA
AK009_02144	609	hly		Alpha-hemolysin	ATGAAAAAAGCAAAAGAAATAGCTAAATGTGTTGCGGTAGCGTCCGTTATTATGTCTGGATCATTTAGTTTACAAGCAACATCTGCATTTGCAGATTCTAAAGGAACTGTAGAAAATCTTCAAAATGGTGGGAAGGTCTATAATAGTTTTAAAACTACTTATGACATGAAGCAGAATATCAAAAATTCGATAAAGGTTTCTTTTATTGAGGATCCTTACGCAGATAAAAAGATTGCAATTGTGACCACTGATGGTAGTAATATTGATGCTAAATATACAGTTAATAGTGGATACTATAACGCAGGCTTAAAATGGCCATCAGCTTATCATACTGAAGCAGAAATAACAAGTGGTGATAGTGCTCAGTTCCATAAAGCTGCCCCAGTTAATACAATGACTTCAGCAAAGGTCACTTCTGAGGTAGGGTATACACTTGGTGGAAGTGTTAAAGTAGGAGTAAATGATAAAGGGCCAAATGCCGATGCAAGTATCACAGGTAGCTTTGCTTGGAAAGAAAGTGTATCTTATGATCAAGTAGATTATAAAACGGTATTAGAGACTCACACAGATAAGAAATTAAATTGGAAAGTAGGATTCTTTGTGAATTAA	MKKAKEIAKCVAVASVIMSGSFSLQATSAFADSKGTVENLQNGGKVYNSFKTTYDMKQNIKNSIKVSFIEDPYADKKIAIVTTDGSNIDAKYTVNSGYYNAGLKWPSAYHTEAEITSGDSAQFHKAAPVNTMTSAKVTSEVGYTLGGSVKVGVNDKGPNADASITGSFAWKESVSYDQVDYKTVLETHTDKKLNWKVGFFVN				NA	NA	NA	NA	NA
AK009_02145	1233			hypothetical protein	TTGAAATACAAATTAATTGCTACAGGAATTCTTGCTGGAAGTCTATTAACCTACTCATCTAATACATTTGCAAATACTCATAAGTTCCCAGATGTTCCTGCATGGGCGGACAAATCCGTTAATTATTTAGTTGATAAACAGGTATTGAATGGCTATCCAGACGGAACGTTCGGTTCAAATGACTCATTAGACAGAGCTTCGGCTACAAAAATTATGACAAAAGTTTTAGGTATACAAATTGACTCTAATGCAAAACCATCATTTACAGATTCACAAAACCACTGGGCTACTCCGTATATTGCTGCTGCTGAAAAAGCTGGTATTGTTAAAGGTGAGGGAAATGGAATCTTCAATCCATCCGGAAAAGTAACTCGTGCTGCTATGGCTACGATGCTAGTAAATGCATATAAACTACAAAGCGCAGCAAATCATAATGAGCAGGTTAAATTTGAAGATTTAAAAGGGCATTGGGGAGAAAAATATGCCAATATTTTAATCGGTTTGAAAATTTCCAATGGTACTGAGAACGGTTGGCAACCAAATAGATTTATAACACGTGCTGAAGCTGCTCAACTTACTGCAAAAACAGATATGATGCAACATCGTCCCCAAAACCCATTAGAAAGCAAAACAATCATTATTGATCCTGGACATGGTGGCGAAGATCCTGGGAAATCCACAAAGGGATTACCTGAAAGTAAGATTGTACTAGACACTTCTTTACGTCTACAACAATTACTTGAAAAGCATACACCATTTACAGTTTTATTAACTCGTCAATCTGATAATAGACCGGGGCATGATCAAAAAAGTTCTTTACAGGAACGTGTTAAATTTGCTAAGAAAAATCAGGGTGATATCTTTATAAGCGTACATGCAAATGCTTTTAATGGTAATGCAAAAGGGACAGAAACATATTACTATAAATCTTCTAAATCCGAAAAAACAAATCCTCATGTGGAAGAAAGTCGTGTTTTAGCAGAAAAAATTCAAACACGTTTAGTAGAGGCACTTCAAACACGAGACAGAGGAGTTAAACATGGAGACCTTCATGTAATAAGGGAAAATGACATGCCAGCTGTGTTGACGGAACTGGCGTTTATAGATAATGGTATTGATTACAGTAAATTATCTACGGAAGATGGCAGACAAATTGCAGCAGAAGCCATTTATGAAGGAATTTTAGATTATTATGAATGGAAAGGAAATAATGTATCTGAATATAGGCTGTAA	MKYKLIATGILAGSLLTYSSNTFANTHKFPDVPAWADKSVNYLVDKQVLNGYPDGTFGSNDSLDRASATKIMTKVLGIQIDSNAKPSFTDSQNHWATPYIAAAEKAGIVKGEGNGIFNPSGKVTRAAMATMLVNAYKLQSAANHNEQVKFEDLKGHWGEKYANILIGLKISNGTENGWQPNRFITRAEAAQLTAKTDMMQHRPQNPLESKTIIIDPGHGGEDPGKSTKGLPESKIVLDTSLRLQQLLEKHTPFTVLLTRQSDNRPGHDQKSSLQERVKFAKKNQGDIFISVHANAFNGNAKGTETYYYKSSKSEKTNPHVEESRVLAEKIQTRLVEALQTRDRGVKHGDLHVIRENDMPAVLTELAFIDNGIDYSKLSTEDGRQIAAEAIYEGILDYYEWKGNNVSEYRL	PGPT0024160_3491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_02146	744			hypothetical protein	ATGAGACTTAAATTAGTAGGGATTTTCAGTTGTGTAATTATGATGTTAGGTATTTTTATAATTTACACCAATCAATCTATTGGTAAAGAACCAGATAAGACGAACTATGAATCTCGTGAAAACTCCATAAATAAAGAGAAAGATAGTAGAGGAAAAGGGCAATCAAAATACAATGAAAGTTCTTTTGCTAGTATACAGGCTGTAGTTAATAAGGAATATGGATTACCCGAAGACTATAAACCAGAGGATTTAGTTGTACCAAATGTACCATTCTCATTTAGTGGAACGGTAGAAAAGAGCCACCTCCGTAAAGAGGCGGCAGAAGCACTGGAAAAGTTATTTGATTTAGCAAAGCAGGAGGGGATTCAGTTAAATGCTGTTTCGGGATTTCGTTCCTATGACTATCAACAACGACTGTATGCGAACAATGTGAAAAGAAAAGGACAAGAGCATACGGATCGCTTCTCGGCAAAACCAGGACATAGCGAACATCAAACAGGGTTAACAATGGATGTTTCTTCTAAAAGTGCGAACAATGAATTAGAGCTATCTTTTGCTAATACGAAGGAAGGAAAATGGCTGAAAGAAAACGCGCATCGTGCAGGGTTTATCATTCGTTATCCTAAGGGGAAGGAAAGTATTACAGGTTATGCATATGAACCTTGGCATATTCGCTATGTAGGAGATATTGCTGAAAATATATATGAACAAAAGCAGACTTTAGAAGAATACATGAATCTATGA	MRLKLVGIFSCVIMMLGIFIIYTNQSIGKEPDKTNYESRENSINKEKDSRGKGQSKYNESSFASIQAVVNKEYGLPEDYKPEDLVVPNVPFSFSGTVEKSHLRKEAAEALEKLFDLAKQEGIQLNAVSGFRSYDYQQRLYANNVKRKGQEHTDRFSAKPGHSEHQTGLTMDVSSKSANNELELSFANTKEGKWLKENAHRAGFIIRYPKGKESITGYAYEPWHIRYVGDIAENIYEQKQTLEEYMNL	PGPT0024055_1226	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
AK009_02147	255			hypothetical protein	ATGCTAGGCATTAATGTAAAAAAAACAAATGAAGAGTTAATTATTTCATGGCAATTGGCGGAGATTACAATTCCATTACGTGATGTGATTGAGGTTACCGAAGATGCTACCTATGCTGGTGTTGAAGACGTAGATGTAATACGTATTGGAGCAGCTTATGGGACAACAGACCGTATTTTAATTAAAACAGTAAAACAAAATTATGTATTATTTACTACAAATAAAGTTGCTATTTTAAATGCCATTCAGACTTAA	MLGINVKKTNEELIISWQLAEITIPLRDVIEVTEDATYAGVEDVDVIRIGAAYGTTDRILIKTVKQNYVLFTTNKVAILNAIQT				NA	NA	NA	NA	NA
AK009_02148	3282			hypothetical protein	TTGGGTAAGAGAGTCATTATAAGAGTTTTTACATTATTATCAGTACTGGCATTATTCCTTAATGTATTTTTACCTAGGGCTAGTGCAGAGGTTATGACGCACGAGAAATATTCAATGAACTGGAGTTATAGTAATAGTTTAGGAAAGCACATTCGAACTGAAATGATTAAAAATTCAAGTGGTCAAATTGCTTATTGCTTAACTCTTGGACTAAAATCACCAAATGGTGAAGATCTTCCTGAAATGGGGAAAACAGATAATGTAGTATATAGGGTCCTATTAAACGGTTTCCCGCAAAAAAGTGTTCAGCAGTTGGGAGTAGCTAATCAGAATGAGGCACACTACGCAACTCAGCTTGCAGTTTGGAATGCATTAGGTCAACTTGATGTAAATGAATTAAAACATGAGAATAAAAATGTTGAAAAAGCAGCTAAGGCTATTATTAGTAATGCTAATAATAGTGAGGAGACTCAAGATGTTTTTATGAATGTGATTCCTGCTGAAAAGCAAAAAGCAGAATTAAAGGGTGAATTCTTCGAAACAAATCTATATTCAGTACAAACAAATGCTAAGGGTGGTTCTTATAAAGTAGTAGCAAAAAATGCACCTAATGGAGTAAAAATTGTTAGTGAAAATGGTGAAGTGAAAGATCAACTTTCAGTTGGAGAGAAATTCCGTATCCAAATTCCTAAAAATACTAAAACAGGTGAATTTAATCTAAGTGTTGCTGCAAACTTAACAAAAGTTCAAGCAATTGCTTACCGTGGTACGGATACTGTTCAGAATGCTACAGTACTATTAGAAAGAAATGAAGAAAAGCTTAGTAGTGATCTTGCAGTAAATTGGGAAGCAGCTGGTTCTTTAAAAATTAAAAAGGTTGGAGAAAATGGAGAAGTTTTAGCTGATGCAGTATTTGAGGTCTTTAATGCAAATAATGAATCAGTTGGAAAAATCACGACTGGTGCTGATGGTATAGCAGAATTAAACAACTTACCAATTGGTACTTACACATTAAAAGAAATTAAAGCACCAACAGGCTATGTTTCAGATGATAAACCACAAACTATTGAAGTTAAGACAGGAGAAACAGGAGCTGTCCAAATAGTAAATAACAAAGTAAAAGGTAACATCGAAATTAAAAAGCTTAGTGATTCAGGAAAGGTTTTACCAAATGTTGAATTCACAGTCTTCACTGAAGATGGTAAAGAAGTGAAAAAAGTAGTAACAAAAGAAAATGGAATTGCAAACGTTGAAGGTCTTACGTATGGTAAATATTATTTCTTAGAGACACAAACACCTAATGGATATATTGGAAATAAAACAAAGTATCCTTTTGAAATTAAAGAGCACAATAAAACACTTACTTTTACAGTGGAAAATACAGAAGTAAAAGGTAGTGTAAAATTACTTAAAGTGGATAATGAAGATGTTAGTAAAAAATTAGAAGGTGCAGAATTCGAGCTAAAAGATGCAAGTGGAAAAGTAATTGGTGAATATAAAACAGATAAAAATGGTGAGATTAACGTCAAAGATTTAGCGTATGGTAAATATTCATTTGTAGAAAAGGCTTCTCCAAATGGTTATGTTCTTGTTAAAGAACCAATTATGTTCGAAATAAAGGAACATGGAAAGATTATTGAGTTATTGGCAGTTAATCATCTTATCAAAGGTGATCTAGAAATTACAAAGGTAGATGTAGCTGATGGAAATAACAAGCTTCCAAATGCAGAATTTACGATTTATAACGAAGCAGGAAAAGAAGTAGTAAAAGGAAAAACAGACGATAAAGGAATCGCTAAATTTGAAAAGTTACCATTTGGAAAATACACATATAAAGAAACTGTTGCACCAAAAGGTTATGTATTAAATGAAGAAACGTTCTCTTTTGAAATTAAAGAGAATGGTCAAATCATTAAACACATTGTCAAAGATGAAAAGATTCCTTCAATAAAAACAACAGCTACTGATAAAACAGATGGTACAAAAGAAATGCACACGTCTAAGTCTGTAACAATCCAAGATAAAGTGGAATACAAAGATCTACAAGTAGGTAAAGAGTACACTGTAAAAGGTAAATTAATGAATAAAGAGACTAATAAACCATTAGTTGTAAATGGTAAAGAAGTAACTGCTGAAACGAAGTTTACACCAACAGAAGCAAATGGTTTTATTACACTAGATTTTACTTTTGATGCAACTGGTTTAGAAGAAAAAGAAGTAGTAGTATTCGAAGAGTTACTGAAAGACGGAAAAGTTGTTACGACACATGCTGATATCAATGATAAAGGTCAAACAGTTAAGTTCGTTAAGCCATCAGTAAAAACGACAGCTACAAACAAAGCTGATGGTGGAAAAGAGATTCATTCAAAGGATTCTATCACTATTCAAGACAAAGTGGAGTATACTAACTTAGTTGTAGGTAAAGAGTACACTGTAAAAGGTAAACTTATGAACAAAGCTATTAACAAACCATTATTAATTGATGGAAAAGAAGTAACAGCTGAAACGAAGTTTACTGCAAAAGAAAAGAACGGTTTTGTAACATTAGACTTTACTTTTGTTGGTGCTGAACAGCAAGGAAGAGAAGTAGTCGTGTTTGAAGACTTATTACATGAAGGTCAAGTAATTGCAACTCATGCTGACATTAATGATGTAGGTCAAACAGTTCGGTTTGTAGAACCTTCTATTAAAACGACAGCTACAAATAAAGCTGATGGTTCTAAAGAGTTAGACGCTTCTAAATCTGTAACAATCCAAGATAAAGTGGAATACAAAGACTTAATCGTGGGTAAAGAGTACGTTGTAAAAGGTAAACTAATGGATAAAGCAACAAACAAGCCATTATTAGTTGATGGTAAAGAGGTAACAGTAGAATCTAAGTTTACTGCTAAAGAGAAGAATGGTTCTATCATACTAGATTTCACATGTAATGCTTCTGCATTACAAGGTAAAGAAGTAGTAGTATTTGAAGAACTGTATCAAGATAATATATTAATAGCTATTCACGCTGAAATTGAAGATAAGGGACAAACAGTGAAATTTAAAGAGGTAAAGCCGGAACAACCTAAACCAGAACAGCCGAATTCGGATGAAAATACTCCAACACCAGAGCAACCTAACGAGCAAGTAAAAGAACAACCACAACCTAAGAAAGAAATCCAATCTAAAATTGGATGGTTACCACAAACAGGTACTAATCTTACAAGTTGGATCTCTATGGCTGCAGGAGCATTACTGTTAATTGTTGGTGGAGTGATTTTCTTAAAACGTAAAAATGCATAG	MGKRVIIRVFTLLSVLALFLNVFLPRASAEVMTHEKYSMNWSYSNSLGKHIRTEMIKNSSGQIAYCLTLGLKSPNGEDLPEMGKTDNVVYRVLLNGFPQKSVQQLGVANQNEAHYATQLAVWNALGQLDVNELKHENKNVEKAAKAIISNANNSEETQDVFMNVIPAEKQKAELKGEFFETNLYSVQTNAKGGSYKVVAKNAPNGVKIVSENGEVKDQLSVGEKFRIQIPKNTKTGEFNLSVAANLTKVQAIAYRGTDTVQNATVLLERNEEKLSSDLAVNWEAAGSLKIKKVGENGEVLADAVFEVFNANNESVGKITTGADGIAELNNLPIGTYTLKEIKAPTGYVSDDKPQTIEVKTGETGAVQIVNNKVKGNIEIKKLSDSGKVLPNVEFTVFTEDGKEVKKVVTKENGIANVEGLTYGKYYFLETQTPNGYIGNKTKYPFEIKEHNKTLTFTVENTEVKGSVKLLKVDNEDVSKKLEGAEFELKDASGKVIGEYKTDKNGEINVKDLAYGKYSFVEKASPNGYVLVKEPIMFEIKEHGKIIELLAVNHLIKGDLEITKVDVADGNNKLPNAEFTIYNEAGKEVVKGKTDDKGIAKFEKLPFGKYTYKETVAPKGYVLNEETFSFEIKENGQIIKHIVKDEKIPSIKTTATDKTDGTKEMHTSKSVTIQDKVEYKDLQVGKEYTVKGKLMNKETNKPLVVNGKEVTAETKFTPTEANGFITLDFTFDATGLEEKEVVVFEELLKDGKVVTTHADINDKGQTVKFVKPSVKTTATNKADGGKEIHSKDSITIQDKVEYTNLVVGKEYTVKGKLMNKAINKPLLIDGKEVTAETKFTAKEKNGFVTLDFTFVGAEQQGREVVVFEDLLHEGQVIATHADINDVGQTVRFVEPSIKTTATNKADGSKELDASKSVTIQDKVEYKDLIVGKEYVVKGKLMDKATNKPLLVDGKEVTVESKFTAKEKNGSIILDFTCNASALQGKEVVVFEELYQDNILIAIHAEIEDKGQTVKFKEVKPEQPKPEQPNSDENTPTPEQPNEQVKEQPQPKKEIQSKIGWLPQTGTNLTSWISMAAGALLLIVGGVIFLKRKNA				NA	NA	NA	NA	NA
AK009_02149	354			hypothetical protein	ATGTTTAAAAAAATTATTGTATCTTCTATGGCGCTTACTATGTTCGGTGGAGCTGCAACTATGCTAGAGGCACCTACTGCTCAAGCAGCTTCTTATAACTCAACATCATCCTCTTACTTTGATGTCACTCCTGAAGAGGCCGTGGCTTTCTATCAATCTCAAGACTATAAAAAATTAAAAGTATTTTTGGATGACTTTGAAGCTAGAAACCCTTATGCCCCAGGTGGAGGCTACGCTCAAGGTAGTGTACGTATGCAAAAATTCAACGATGCTCTTAGAGATGCCAAATTAACAAATGTCTACCAAGAATTTATTAGAATCTCTTACTACAATCATTATCCAGAACCAAAATAA	MFKKIIVSSMALTMFGGAATMLEAPTAQAASYNSTSSSYFDVTPEEAVAFYQSQDYKKLKVFLDDFEARNPYAPGGGYAQGSVRMQKFNDALRDAKLTNVYQEFIRISYYNHYPEPK				NA	NA	NA	NA	NA
AK009_02150	441			hypothetical protein	ATGAAGTTAAATAAACTAGTGCTTAGTTGTGGAGTAGTTTCAGCATTAACACTTGGTGTGTTAGGGAATAATACTTATGCTGAAGAAGTACACAAAACGAATGATCCAATTCATGTAGTTGAACATGTTTCTGCAGACTTATTATTAACCCAAACAATGGATTATAGTGGCGAGGCTGAAACTTCTTTCGTATATGATGGGAGTACTGACTTAAGCTTCTCTATGAAAAATAATGGTCAAAATACAATGGGATATAGTGTAAAAGGTCCAAATACAGAGCTAATTGTTGGTGGTTATATAAAACCTGGAGAACAACAAATTAATGTTACAAATGTACGGAATGCTTTATCTCCATTACCGAATGGAACATATAAAATTTACGTTTCAAATGATGATGGTTCTAAGGGGCAATTCCAAGTTTCAGTAAGATCTATGAATTAA	MKLNKLVLSCGVVSALTLGVLGNNTYAEEVHKTNDPIHVVEHVSADLLLTQTMDYSGEAETSFVYDGSTDLSFSMKNNGQNTMGYSVKGPNTELIVGGYIKPGEQQINVTNVRNALSPLPNGTYKIYVSNDDGSKGQFQVSVRSMN				NA	NA	NA	NA	NA
AK009_02151	1281	rcsC_6		Sensor histidine kinase RcsC	ATGGGAATTTCTACTCTTTTATTAAATACCTTTATTATAATAATTTGTATCCTTAGCTATCACGTATTTTGGCTAGAGTTTAAAGAAAAAACAACATGTAATAATATGTTATTTTCTATCCTTTCCTCCATTGCTATTATTTTTTGTATGACTTTTCCTTTTCATTTACATGTGGGATTTATTTATGATTTACGTTTTATTCCTATTATATTAGTTTTTCTATATGGAAATACAAAAAACATTATTTTTATAGGAATTTTATATCTTTCTTATCGGTTTTACTTAGGCGGAAATGGCGTTCTTCCATCATTTATTATCTTCACTATTATTTTTGGTATAACAATGCTCTTTCGTTACCTATTACCTATGTATATTAAAGAAAAAAAAGTATTATTAAGCTTACTCCTTATTTTAGTATGTACAACTTCACTTTCTATTTGCGGTATTGTAACTCAAATAAATACAGGAGGGAAAATAGACTCTACTCTCATAGAATTTTTATTAAATTATATAGTCATTAATATTTTCACAGTATTATTATCAGTTTATTTAATAGAGGGAATGATTGAGAAATATAAAATGGAAGAAAAACTGCAACGGGCTGAAAAATTTTATATAGCTAGCGAACTAGCGGCGTCAATTGCACACGAAATCCACAATCCACTAACCACGGTACATGGATTCACTCAATTATTAAATGAAAAACATGCCTCTAAGCTATCTCAGGATCAATACTTAGAAATCATGTTAATTGAAATGCAGCAAATACAATCTACTATTAATAACTATTTATCTTTAACCAAACCACAGAACACCCTAAAAGAGAAAATAGATATTAATCACATTTTAAATCAGGTGAAAGATACTATTTCACCACTCGCTCTATCATACAAAGTTGAAATCAAACAAAATAGTACAGATTCCTTTTATATAAATGGGGACCCCGAAAAATTCAAACTCTGTCTAAACAACATCATCCAAAACGGAATTGAGGCTATGAAAAATGGTGGATTATTACAAATAAATATACAAAAAGTAAAAGGAAATATCATAATTGATATTATTGATTCAGGAATTGGGATGTCATCTCAACAAATAAAACGAATTGCTTTGCCATTCTATTCAACAACAGAAAAAGGAACTGGGCTTGGTACTATGATTGCTTATAGTATTATTAGAGAATTAAACGGAGATATAGAGATAGAGAGTGAATTAGGTAAAGGGACACGCTTTTCTATTAGTATCCCTTGCCAATGTGATAAAAATTTTCTGTTTAGTTAA	MGISTLLLNTFIIIICILSYHVFWLEFKEKTTCNNMLFSILSSIAIIFCMTFPFHLHVGFIYDLRFIPIILVFLYGNTKNIIFIGILYLSYRFYLGGNGVLPSFIIFTIIFGITMLFRYLLPMYIKEKKVLLSLLLILVCTTSLSICGIVTQINTGGKIDSTLIEFLLNYIVINIFTVLLSVYLIEGMIEKYKMEEKLQRAEKFYIASELAASIAHEIHNPLTTVHGFTQLLNEKHASKLSQDQYLEIMLIEMQQIQSTINNYLSLTKPQNTLKEKIDINHILNQVKDTISPLALSYKVEIKQNSTDSFYINGDPEKFKLCLNNIIQNGIEAMKNGGLLQINIQKVKGNIIIDIIDSGIGMSSQQIKRIALPFYSTTEKGTGLGTMIAYSIIRELNGDIEIESELGKGTRFSISIPCQCDKNFLFS	PGPT0025285_198	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK009_02152	2916	colA		Collagenase ColA	ATGAAAGGCTATTCAAAAAAAATGTTAGTAGGGGTAAGTTTTGCTAGTTTAATGTTAGGGAGTTTTCAAGGGGTAAGTTTGGCAGAAGATACTAAGGGAGAGCAAGTTTCTTATCGAAATGTACTCAAAATGGAGCCAGTCGGTGTACAACTACCAGTACAAGAATTAGCTCATTCATCGAAATTGCTCGAAAGCAAGTCTTTTGAGCAAAGGATACAATTTGCTGATTTATCACAAAGACCGCCTGAGGTAAAAAAGGAAAGTAAGCAATTAGCTGTAGCGAAAACTTATACAATTGCTGAATTAAATCAATTAAGCAATCAGCAGTTAGTAGATTTACTTATAACCATTGATTGGGAGCAAATTACGGGGCTATTTCAGTTTAATACAGACAGTCTAGCATTCTATCAAAATGATAGTAGAATGCAGGCGATTATTAATAAATTGAAGCAGCAAGGACAAGCCTATACGAAGGATGATTCAAAAGGGATTGAGACATTAGTAGAGGTATTACGTTCAGGATTTTATTTAGGATTTTATAATTCGGAACTTAGTAAATTAAATGAACGGAGTTATCATGATAAATGCTTACCTGCATTAAAAGCGATAGCTAACAATTCAAATTTCAAGCTGGGTACATTAGAGCAAAATAGAGTGGTATCATCATACGGAAAGTTAATAGGAAACGCTTCGAGTGATGTGGAAACGATAACATCGGCTGCAAAGATTTTTAAACAATATAATGATAATTTCTCTACATTAGTATATAATCTTTCAGCTGGAAATGCTATTTACGATATTATGCAAGGTGTTGATTACGACATTCAATCGTATTTGTACGATACGAGGAAAGCACCGAAAGATACAGTATGGTATCAGAAAATAGATAGTTATATTAATGAACTAAGTCGTTTTGCATTAATGGGAACGATTACCGCAAAAAACGGTTGGCTTATTAATAATGGCATTTATTATACAGGTAGGCTCGGTTCGTTCCATAGTACAGGAACGAAAGGATTACAAGTTGTAACAGATGCGATGAAAATTTATCCGTATTTAGGGGAGCAATATTTCGTAGCTGCTGAGCAAATCGCGACGAATTATGGCGGAAAAGATGCAAATGGTAAAGTGGTGAATTTAGATCAAATAAGAGAAGATGGAAAGAAAAAATATTTGCCAAAAACGTATATGTTTGATGATGGGGCAATTGTTTTAAAAGCTGGAGATAAAGTGACAGAAGAAAAAGTAAAACGTTTATATTGGGCGGCAAAAGAAGTGAAGGCACAATTCCATCGTACGGTTGAAAGTGATCAACCTTTAGAAAAAGGAAATCCTGATGATGTATTAACGATGGTTATTTATAATAGCCCAGCAGAATATCAGTTTAATCGTCAATTGTACGGATATGAAACGAATAATGGTGGTCTTTATATAGAAGGAACAGGTACGTTCTTTACTTATGAGCGTACGCCAGAAGAAAGTATTTATAGTTTAGAAGAATTATTCCGACACGAGTTCACGCATTATTTACAAGGTAGATATGAAGTACCAGGGTTATGGGGTCAAGGGAAAATATATGAAAATGAAAGATTATCTTGGTTTGAAGAAGGGAATGCTGAATTTTTTGCAGGGGCAACGAGAACGGATAATGTTGTACCGAGAAAGAGTATTATAGGAGGATTATCTTCAAACCCAGCAGAGCGTTATACGGCAGAGCGAACGTTAAATGCAAAGTATGGAACATGGGATTTCTATAATTATTCCTTTGCTTTACAATCGTATATGTACAATAAGAGATATGATATGTTTGATAAAATACATGATCTTATTAGGAAAAATGATGTAACAGCATATGATGCATATCGCTCTACATTAAGTAAAGATGCGAATTTAAATAAAGAATATCAAGATTATATGCAAATGCTATTTGATAATCGTGAGAAATATAACGTACCATTAGTATCAGACGATTATTTAGCAAATCATGCACCGAAACCAGTTTCAGATATTGCGGCAGAAATAACGGCGGAAGCAAAATTGAAAAATGTATCAGTGAAGAAAAATAAATCAAAGTTCTTTAATACATTCACACTACAAGGAACATATACAGGAACTGCAGCAAAAGGAGAATATGAAGATTGGAAAATAATTACACAAAACGTTAATGATACGTTAAAACGTTTAAGCGCAAAAGAATGGACAGGCTATAAAACGGTAACAGCATACTTCGTAAATTATCGCGTGAATGCATCAGGACAATTTGAATATGATGTTGTGTTCCACGGTATTAATACAGAAGAAGGTGCAGAGAATAAAGCGCCAGTTGCGGTTATAAACGGTCCGTATAGTGGAAATGTGAATGAAGCAATTTCATTTAAAAGCGACGCATCAAAAGATGAAGACGGGAAAATTACTTCATATAAATGGGAGTTTGGAGACGGTACTGTAAGTAATGAGAAAAATCCAACTCACGTATATACAAAAGAAGGAGCGTATACAGCGAAATTAACAGTAACAGACGATAAAGGAGCAACTAATACTGCTACAGCGACTGTAACTGTTCAAAAGAAAGAAGATAACAGTTTAGAAAAAGAACCGAATAACTCATTCCAAACAGCAAACAAACTGCAGTTAAATCAAGTTTTACGTGCTAGTTTAGGAAATGGAGATACAAGTGATTTCTTTGAAATTAATGTGGAGACTGCTAAAAATCTTCAAATTAACGTAACGAATGAAAATAATATCGGAATGAACTGGGTACTTTATTCTGAAGCAGATTTAAATAATTATGTTACGTATGCTCAGCAACAAGGGAATAAACTAGTAGGTAGTTACTACACGTATCCAGGGAAGTATTATTTACATGTGTATCAGTATGGTGGTGGAACAGGGAATTATACGGTGGAAGTAAAGTAG	MKGYSKKMLVGVSFASLMLGSFQGVSLAEDTKGEQVSYRNVLKMEPVGVQLPVQELAHSSKLLESKSFEQRIQFADLSQRPPEVKKESKQLAVAKTYTIAELNQLSNQQLVDLLITIDWEQITGLFQFNTDSLAFYQNDSRMQAIINKLKQQGQAYTKDDSKGIETLVEVLRSGFYLGFYNSELSKLNERSYHDKCLPALKAIANNSNFKLGTLEQNRVVSSYGKLIGNASSDVETITSAAKIFKQYNDNFSTLVYNLSAGNAIYDIMQGVDYDIQSYLYDTRKAPKDTVWYQKIDSYINELSRFALMGTITAKNGWLINNGIYYTGRLGSFHSTGTKGLQVVTDAMKIYPYLGEQYFVAAEQIATNYGGKDANGKVVNLDQIREDGKKKYLPKTYMFDDGAIVLKAGDKVTEEKVKRLYWAAKEVKAQFHRTVESDQPLEKGNPDDVLTMVIYNSPAEYQFNRQLYGYETNNGGLYIEGTGTFFTYERTPEESIYSLEELFRHEFTHYLQGRYEVPGLWGQGKIYENERLSWFEEGNAEFFAGATRTDNVVPRKSIIGGLSSNPAERYTAERTLNAKYGTWDFYNYSFALQSYMYNKRYDMFDKIHDLIRKNDVTAYDAYRSTLSKDANLNKEYQDYMQMLFDNREKYNVPLVSDDYLANHAPKPVSDIAAEITAEAKLKNVSVKKNKSKFFNTFTLQGTYTGTAAKGEYEDWKIITQNVNDTLKRLSAKEWTGYKTVTAYFVNYRVNASGQFEYDVVFHGINTEEGAENKAPVAVINGPYSGNVNEAISFKSDASKDEDGKITSYKWEFGDGTVSNEKNPTHVYTKEGAYTAKLTVTDDKGATNTATATVTVQKKEDNSLEKEPNNSFQTANKLQLNQVLRASLGNGDTSDFFEINVETAKNLQINVTNENNIGMNWVLYSEADLNNYVTYAQQQGNKLVGSYYTYPGKYYLHVYQYGGGTGNYTVEVK				NA	NA	NA	NA	NA
AK009_02153	678	sapB_2	COG1285	Protein SapB	GTGAGTGTAGATTTTGATTTTATTATACGAATCGGTGTTGCTGGCTTGTTAGGAGCAATGATTGGTATTGAAAGAGAAATTCGATCGAAAGAAGCTGGATTAAAGACTCATTTCCTCGTAGCGGTAGGAAGTGCGTTAATAATGGTTGTTTCGAAATATGCCTTTTCAGATATTGTGTATGAAGAGCATACGTCTCTAGACCCAAGTCGGATTGCAGCACAAGTCGTTAGTGGAGTTGGTTTTTTAGGTGCAGGCACAATTATTATTCAAAAGCAGGCGGTGAAAGGATTAACGACCGCGGCTGGTTTATGGGCTACTGCCGGCATAGGATTAGCAATTGGAGCGGGAATGTATGTAGTAGGGATTGGAGCGACGATTCTCGTTTTAATTGGTTTAGAAATTGTGAGTCGTATTTTTAAGGTGCAATTTTTATTTCCACAAAATATAACGGTGCAAATGTGTATAAATAAACATGAAGCGGTACAACAAATAGTAGAAACGCTACAAGTGAAAGGCATTCCAATAGTTTCATATGAGGTGGAGGCTTCACAGCAAGGTACAGAAACTGTTTATAAGGTAGGGATGCAACTGAAAAATATATCGTCAGAAGAAAAGAATGAGTTTATTCAGTATATGCAAACATTACCGGAAGTTACGTTTATAAAGTTAAAATCATAG	MSVDFDFIIRIGVAGLLGAMIGIEREIRSKEAGLKTHFLVAVGSALIMVVSKYAFSDIVYEEHTSLDPSRIAAQVVSGVGFLGAGTIIIQKQAVKGLTTAAGLWATAGIGLAIGAGMYVVGIGATILVLIGLEIVSRIFKVQFLFPQNITVQMCINKHEAVQQIVETLQVKGIPIVSYEVEASQQGTETVYKVGMQLKNISSEEKNEFIQYMQTLPEVTFIKLKS	PGPT0014005_1804	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK009_02154	519			hypothetical protein	ATGAACGTCTCGTTACTTACACCTACTACTGATTTACAAGAAGAATACTTAGATTTCTATATCGAATGGAAAGATAGCGGTGAAACAATGATCCCGTGGGTTATCTCAAAAAATCCTGCTAACTTCCCAGCTATGGTTCAAGAACTTCTCGATGCGCATAACGGAATAAATATCCCTGAAACTTGGGTACCAGATTCTACATATTGGCTCGTTACAAATAATAATAGAATTGTCGGAGCTGTTAATATACGTCATAGTTTAACTGAACATCTATTTAACGCTGGCGGTCATATCGGTTATGGCATTCGCCCTTCTGAAAGAAGAAAAGGTTATGCTACGAAATTACTAGCATTATCATTAGAAAAAACGAAGGAATTAGACATCACGAAAGTACTTGTCGTTTGCGACGCAGTGAATACCGCTTCTGAAAAAACGATTTTACATAACGGCGGGCTTCGTGATGATGATTTCACTGAGGAAGATGGGAATGTAGTAAGAAGATATTGGATTGAGCTATGA	MNVSLLTPTTDLQEEYLDFYIEWKDSGETMIPWVISKNPANFPAMVQELLDAHNGINIPETWVPDSTYWLVTNNNRIVGAVNIRHSLTEHLFNAGGHIGYGIRPSERRKGYATKLLALSLEKTKELDITKVLVVCDAVNTASEKTILHNGGLRDDDFTEEDGNVVRRYWIEL				NA	NA	NA	NA	NA
AK009_02155	909	catE_1	COG2514	Catechol-2,3-dioxygenase	ATGGTACGAATTCATCCGAAAACACGTATTGGTCATGTTGAATTTAAAGTGAAAGATTTAGAGCGTCAAATTGCTTTTTATGAGAATGTTGTAGGATTAGAGGTAATTAAGCAAGAGGGGAATAAAGCATATTTAGCAGGAAAAGGTAGTAAGAATACATTACTTGTTCTTGAAAAGATAGAGGACGGGGTACTGCAAGAACCGCGTACGACTGGTATATATCATGTAGCCTTTTTAGTTCCGACTCGTGAAGCTTTTGCTTCTGCGCTATTTGGGGTTCTTCGTAATAAGAATGTAATTGACAGCCCAGCTGAGCAAGAAGGGCGTTATACATATTCAAATGAAATTTTACCAATCTCAAGGTTTAACAGTGCAAGTGATCATACATATAGCGAAGCGTTTTATTTGCAAGATCTAGAGGGGAATGGTATTGAAATTTATGCAGACCGTCCGCGTGATCAATGGGGAGAAGGACCAGGAGGAAGTACGCCACTAGATTTAAAAGAGCTGGCAACACTCGTTGATTATGAGGCTGATGGATTACCTGCTAATACTGTCGTTGGGCACGTACATTTACGAATAGCTGATGTAGAGAAATCACAAGAGTTTTATGTAGAGACAGTAGGGTTTGAAGTGCAACAACGTGAAGATGACTGCTTATTCATTTCTGCAGGAGGATATCATCACCATATCGGTGCAAATACGTGGAACGGAGTAAATAATCCACACCCACCAGTACATGCAACTGGACTAAAGGTATATACAATTGTACTACCGCATAAAGAAGCGTTAGATGCAGTGAAAGAAAGATTAATAGAAAAACAACATGAAATAAATGAAACTACAAATGGGTTTACGGTAGTAGATCCAAGTGGTATTACAGTGCAGTTTGAAATAGAAGCAGTGTAA	MVRIHPKTRIGHVEFKVKDLERQIAFYENVVGLEVIKQEGNKAYLAGKGSKNTLLVLEKIEDGVLQEPRTTGIYHVAFLVPTREAFASALFGVLRNKNVIDSPAEQEGRYTYSNEILPISRFNSASDHTYSEAFYLQDLEGNGIEIYADRPRDQWGEGPGGSTPLDLKELATLVDYEADGLPANTVVGHVHLRIADVEKSQEFYVETVGFEVQQREDDCLFISAGGYHHHIGANTWNGVNNPHPPVHATGLKVYTIVLPHKEALDAVKERLIEKQHEINETTNGFTVVDPSGITVQFEIEAV	PGPT0005050_168	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
AK009_02156	102			hypothetical protein	ATGAAAATAAAAATGTATGTAAATTCTGACTTTTCTTATTTACATAGGATGATTTTAGTTGTATCCTTCATAGTAACGGTTATATGTAATGGTAAAATATAG	MKIKMYVNSDFSYLHRMILVVSFIVTVICNGKI				NA	NA	NA	NA	NA
AK009_02157	912			hypothetical protein	TTGTTCCGTAAAGTAAAGGGTATATTAGTTGGGGTGTTATGTGTAGCTGTAGTGAGTGGCTGTGGTACAAAAGTAAGTGATGTTGCATTGGTAAGTGATATTGGTGGGCACACTGTAGAGGCTAAAGCAGAAGTGCAGGATACTATTAGTTTAGTTGATGGTCGAACTGGTACTGAAGTGAAAAAATTAGATTTATCTGGTTTAGGCTATTTTGAAGATGAAGCGAAATTTAAAAAGTCTGTAACAAAGGTTGTTGGTGAGGTTGGAAAAAGCGTCGACAAAAAAATGGTTCCTTCACGTATAGCACCTGATGGAAGTTGGCAAGAAGGAAAACCTTCTTATGAATTAATGGAAAAAGAATTAGTAGATAAATTGTTAAATGTGGGTATGTGGGATGCTACGTATCAGTTGCCGATCGTGGAGAAAAAACCAGTCGCAACATTAAGTGATGCGCAAGGAAATGGTACGGTAATTGGTAGATATGAAACGAACTTAGGCGGTTCAACAGGTGGCCGTATTGAGAATATTCGTTTGTCAGCAGCGAGTATAAATGGAGTTGTGTTAGCAAAAGGAGACCGTTTCTCTTTTAATTCATTAATCGGTGATACAACACCAGACAAAGGATATCAATTAGGGAAAGAAATAGTTGATGGTAAATTAGTAGATGGATACGGTGGTGGTGTTTGCCAAACATCTTCAACTTTATACAATGCAGCAGATCAAGCTGGCCTGAAAATGGTGGAGAGAACTACACATTCTAAAACGGTAGGTTATGTTCCTCAAGGAAGAGATGCTACAATTGCATATCCATATTTAGATTTAGTATTTGAAAATACGAATGATGCACCTGTGAAGCTTTATATGGGCATTCAGGGTGGAAAGCTAGTTGCTGAAGTACATAAAATGAGATAA	MFRKVKGILVGVLCVAVVSGCGTKVSDVALVSDIGGHTVEAKAEVQDTISLVDGRTGTEVKKLDLSGLGYFEDEAKFKKSVTKVVGEVGKSVDKKMVPSRIAPDGSWQEGKPSYELMEKELVDKLLNVGMWDATYQLPIVEKKPVATLSDAQGNGTVIGRYETNLGGSTGGRIENIRLSAASINGVVLAKGDRFSFNSLIGDTTPDKGYQLGKEIVDGKLVDGYGGGVCQTSSTLYNAADQAGLKMVERTTHSKTVGYVPQGRDATIAYPYLDLVFENTNDAPVKLYMGIQGGKLVAEVHKMR				NA	NA	NA	NA	NA
AK009_02158	330	yxeE		putative protein YxeE	ATGTATCCCTACAATCCATATGATCCATATAATCAATATGCGTACCAACAACCACAGTATGACTTACAAGCACAATACCAATCTTATATAGATCACGCAGAGCAAACGAATCCATATGACCAAAATAGACAATTCCAACTTCCAATCTCTTTTCCTGGCACTGGAAATCGTCAATTAGAAAGACGCGTAAATGAGCTTGAACAAAGAGTACGTCAACTAGAAAATACAGTTGAGCGCCATACACGTAGACTAAACCGCTTAAACCAACGTTTACGCACAGTAGAAAACAGACTAAACATTCCATTCGCAGCATTAGAAGACGGATTTTAA	MYPYNPYDPYNQYAYQQPQYDLQAQYQSYIDHAEQTNPYDQNRQFQLPISFPGTGNRQLERRVNELEQRVRQLENTVERHTRRLNRLNQRLRTVENRLNIPFAALEDGF				NA	NA	NA	NA	NA
AK009_02159	1092			hypothetical protein	ATGGATTTTGAAATAAATTATCTTTCCTTTTATGTTGTACAAGTAGAAGGAAAAGGTGAAGCAGTTGATAAACGCTACAAACATTTTCAAACTTTAGACGCTGAAGAATATGAAGATAGCTCCTTAAAAGAATTTTTGAATGGTGAGTTATTAAAAATATCGAAGCGAAAAGTAGAACGTCATGCAAAAACAGAACAAGCCCCAACAAAAATTGGTCGCTTTATTGTAGAGGAAGGGCACGAACTTGATTCAAACCCTCATTACAACCTTTTTAATCGTATTCGCTTTGCAGAAACAAAGGAAAACTTTAAAGATATGAGCGAACCTCTCGTTTATACATATCTTGACACAAGCGCTGTACGCGGTGGTGTATTTTTAATTGCTCAGGCAAAACTACGCAAATACTTTGATGATCCATTCGTATTTGTAATGAAATGCGACTTCGAACCAAAGGTGGCTTCTATTTCTGATGAATCAACACTGATTCGTAACGTTGAAATGGCCATCACAACAAAGAATATGAAATCTATCCAATATCCGTACATGCCTGAAGAAGGTATGGTCGAAGTGGGCGAATTAAAAATTCACCAAGCATCACACGCCCGCTACTTTGAAGACTTCTTAAAATTCGTCGAATATGAACGCTCTATGCCTGAAATTATGAAAACACAAGTAATGGACATGGTATACGACCAAATTGAAGATGTATTTGAAGAAGGTACAGAAGAACGCGAACAATTCGACCAAGCGATGGAAGTATGGGCTGCCAGTCCGAAACGCGAAATTATGGAACAATTTTCAACCGAAGAAGTAATGGAAGCTACCGCTCAAATCGTTGAGCATGCTCCTGAAGTGGAATTAAAGCTAAAAGCAGACCATATTTCTGTGAAGGCGTTACTTGCTGATTTCGGGGATCAAATACATATTGCGAAGGTAAATGACCGATATGTACTTATGATTGAAGCAGACACACTTACATTTGAAAAGGGCTTCTCTCCTATTGAGTTTCTGAAGCCAGATGAGCTGCAAGATGTGATTGAGCGGATTGAGAATAAGCAACAGTATTCGTATGATCCGAACGGGATTGAATAA	MDFEINYLSFYVVQVEGKGEAVDKRYKHFQTLDAEEYEDSSLKEFLNGELLKISKRKVERHAKTEQAPTKIGRFIVEEGHELDSNPHYNLFNRIRFAETKENFKDMSEPLVYTYLDTSAVRGGVFLIAQAKLRKYFDDPFVFVMKCDFEPKVASISDESTLIRNVEMAITTKNMKSIQYPYMPEEGMVEVGELKIHQASHARYFEDFLKFVEYERSMPEIMKTQVMDMVYDQIEDVFEEGTEEREQFDQAMEVWAASPKREIMEQFSTEEVMEATAQIVEHAPEVELKLKADHISVKALLADFGDQIHIAKVNDRYVLMIEADTLTFEKGFSPIEFLKPDELQDVIERIENKQQYSYDPNGIE				NA	NA	NA	NA	NA
AK009_02160	348			hypothetical protein	GTGATAGACTTGGATATTAAAGACGTCACCGTACAGATGGAATTAAACGGTGTCTTTTGGAATGAGGATGGGGTTGCTGAAATGACGGTGACTACAAAAGCTGAGCATTCTCTTCTTCTTCGTTTAGTAGTTGACTTGAAAAGTAAAACTATTAGGGCGACAAGTGCCGACATAGTAAATGGATTCTGCCCTCTGTGCAAACAGAAAAAGGACAAATGTAGTGAACTTAATGACTTGCAAAACAAAATGGAAATTTTAGAAGAAGCCTACGATTGGGTGAGAGAGCATCCGGAATATCGTTTTCAATTATCTTTTTACGAGTATAATAAATTTGAGGTAGTGAAGTGA	MIDLDIKDVTVQMELNGVFWNEDGVAEMTVTTKAEHSLLLRLVVDLKSKTIRATSADIVNGFCPLCKQKKDKCSELNDLQNKMEILEEAYDWVREHPEYRFQLSFYEYNKFEVVK				NA	NA	NA	NA	NA
AK009_02161	162			hypothetical protein	ATGGAAGCAATCTTCAACATTGTAACAGTTGTAGTTTTGGGGATAATATTTACCACGCTATCAGCAGTAATTATACTTCCTTTCATAGCAAAGAAGAAGAATTGGAAAAAGCTTAATATATCTTTAAAGCGTGGTGTATTAAAGATTAAAATCGAAGAGTAA	MEAIFNIVTVVVLGIIFTTLSAVIILPFIAKKKNWKKLNISLKRGVLKIKIEE				NA	NA	NA	NA	NA
AK009_02162	846	polC_1		DNA polymerase III PolC-type	TTGAAAAACGCTACACATTTCATTGTGTTTGATATTGAGAGGAATTTCAGACCGTATAAATCAGAAGATCCGTCAGAAATAGTTGATATCGGAGCTGTAAAAATAAAAATAGGTACAATGAAGATAATTGAAGAGTTTTCGGAGTTAGTAAAACCAAGTGCACGATTAACTCGTCATACGACAAAATTGACTGGAATTACAAAGGAAGATTTAATTGGTGTAGAAAAATTCCCTCAAATTGTAGAGAAATTTATTCAGTTCATCGGCGAAGATTGTATATTTGTTTCATGGGGAAAAGAAGATTATCGCTTTCTATTTCATGATTGTGCATTACATGGTGTTGAATGCCCAAGTATAGAAAAAGAAAATAGAATTGATTTGCAAAAATTTGTTTTCCAAGCGTATGAAGAATTATTTGAACATACGCCAAGTTTACAATTTGCAGTAGAACAGCTCGGTTTAACATGGGAAGGGAAACAGCACCGAGCTCTAGCAGATGCTGAGAATACAGCAAATATACTTCTTAAAGTATATAGCGAGAGAGATATTCATAAACGGTACAAAAGACATGGCGAACTGGAACTTGTAAAGGACGGGAAACTAACGGAAAAAGCGAAAAAAAAGATGCGAAAATGGGTGTTTAAAGAACTAAAGAAAAATACAGAACGCTCTTTTGAATGGAGTACATTTGAAAGTAGTGACACGTGGGAAAGTATTACGGAAAGATATTATATAAGTGAAAATACAGTAGAACTGCTGAAAAAACATTTTCGTACGGCAGTGCGAAAAGCAGAACGGCAGATTAGGTATTTGGCTGAGATGGAGGAGAATGTAGAGGTTAAATGA	MKNATHFIVFDIERNFRPYKSEDPSEIVDIGAVKIKIGTMKIIEEFSELVKPSARLTRHTTKLTGITKEDLIGVEKFPQIVEKFIQFIGEDCIFVSWGKEDYRFLFHDCALHGVECPSIEKENRIDLQKFVFQAYEELFEHTPSLQFAVEQLGLTWEGKQHRALADAENTANILLKVYSERDIHKRYKRHGELELVKDGKLTEKAKKKMRKWVFKELKKNTERSFEWSTFESSDTWESITERYYISENTVELLKKHFRTAVRKAERQIRYLAEMEENVEVK				NA	NA	NA	NA	NA
AK009_02163	201	cspD_2	COG1278	Cold shock-like protein CspD	ATGCAAAACGGTAAAGTAAAATGGTTTAACTCAGAAAAAGGTTTCGGTTTCATCGAAGTTGAAGGCGGAGAAGACGTATTCGTTCATTTCTCAGCTATCCAAGGCGAAGGCTTCAAAACTTTAGAAGAAGGTCAAGAAGTTACTTTCGAAGTAGAACAAGGTAACCGTGGACCTCAAGCTACTAACGTAAACAAGAAGTAA	MQNGKVKWFNSEKGFGFIEVEGGEDVFVHFSAIQGEGFKTLEEGQEVTFEVEQGNRGPQATNVNKK	PGPT0014675_8820	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_02164	900			hypothetical protein	GTGGAGACAATGTTAAGTGCAACTGCTATTGCAAAGTTAAGAGATGGAAAACTGTTGTTAGCTACTACATATAATGGCTTATTTATTGAACAAGACGGAGAATGGAAACGAATTTTAAATGGTTTTCAAAAACGAATTAGGGATTTACATAGCGAAGATAATGTAGTTTATGGTGTAGGTGACGAAGGGATTTTTATTCGTAGTATGAATGGTGGGGAGAACTGGACAATTCAGCGTTTTCCAACAAAAGCAACGAGTTGGAATGTATGTAGCAATGTACAAGGAACTGTCATTGCTCATGGAGAAAAAACGCTGTATCTTTCTAATAATTTCGGTTCGACATGGGAGACTATTCATCCGTTTCTTGAGTATGGCAGTGCGGCACCGTCTATTCGATCGTTATTTTTATATAAGCATTACTTATTTATTGGTACGAAAATACATGCTAAATATGGTGGTGTTTGGCTCTTTGATTTGAAGACACGTAAATTAAAGAGGATTAAAATTGCGATGAATCAAATGATCTCCGCGTTGACTTTACACAATTCTTATTTAGTAGCGGCAAGTGGATCGTGCAAGGGAGTTAGCGGGAATATTTCTTATTGTAAAATAGATGAAAGTATTGCGAGTGAAAAAATATATTGGCATACATGTCAAAGTGAGCAGAAAGCAAGTAGTTATTTAGACTTAAGTGTAGATCAACATGTTTTATATACAACTTCAACACAAAATAAGGCGGGTATTAGTAGTGTGTGCCGTGTGCTTCTTGACGAAGGTATTGTTACAGTATGTGATTCAGTTAAAGGGCACGGATGGCGCATTGTTAATCAAAAAGATGGTTATGTAGTAGCCGGATCAGGCGAATTAAAAGCAATGCAGTGGGAACAAAAAATAATTTAA	METMLSATAIAKLRDGKLLLATTYNGLFIEQDGEWKRILNGFQKRIRDLHSEDNVVYGVGDEGIFIRSMNGGENWTIQRFPTKATSWNVCSNVQGTVIAHGEKTLYLSNNFGSTWETIHPFLEYGSAAPSIRSLFLYKHYLFIGTKIHAKYGGVWLFDLKTRKLKRIKIAMNQMISALTLHNSYLVAASGSCKGVSGNISYCKIDESIASEKIYWHTCQSEQKASSYLDLSVDQHVLYTTSTQNKAGISSVCRVLLDEGIVTVCDSVKGHGWRIVNQKDGYVVAGSGELKAMQWEQKII				NA	NA	NA	NA	NA
AK009_02165	444			Flavodoxin	GTGGCAAAAATTTTAATAGCTTATGCAAGTATGTCAGGAAATACAGAGAGTATTGCTGATTTAATTAAAGTTAGTTTAGATGCTTTTGATCATGAAGTAGTATTGCAAGAAATGGAAGGCATGGATGCTGAAGAATTATTAGCTTATGATGGAATTATTTTAGGATCTTATACGTGGGGCGATGGTGAATTACCATTTGAAGCGGAAGATTTTCATGAGGACTTAGAAAATATAGATTTAGCTGGGAAAAAGGTAGCGGTATTCGGATCAGGTGATACGGCGTATGAACTATTTTGTGAAGCGGTAACGATATTTGAAGAACGTCTTGTAGAACGCGGTGCAGAGCTTGTACAAGAAGGGCTGAAAATTGAATTAGCTCCAGAAGATGAAGAGGATGTTGAAAAATGCAGTAATTTTGCAATTGCATTTGCTGAGAAGTTCTAA	MAKILIAYASMSGNTESIADLIKVSLDAFDHEVVLQEMEGMDAEELLAYDGIILGSYTWGDGELPFEAEDFHEDLENIDLAGKKVAVFGSGDTAYELFCEAVTIFEERLVERGAELVQEGLKIELAPEDEEDVEKCSNFAIAFAEKF	PGPT0000020_1320	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
AK009_02166	621	satP	COG1584	Succinate-acetate/proton symporter SatP	ATGAGCAATCAAACTACTACACATCATGTGAAAATGACAACAGCGGATCCATCTGGAATTGGTCTATTTGGATTAGCAATGGTAACACTTGTAGCATCATCTCAAAAGTTAGGCTTAACAGATGGCGTTTCACTTGTATTACCATGGGCAATCTTTTTAGGAGGATTTGCACAAATCTTTGCTTGCATTCACGATGCAAAGCATAACAATACATTCGGTACGACAGCATTTGGTGCGTACGGCCTATTTTGGTTAGGTGTTGGAATGACTTGGTTAATTCAACTTGGAGTATTTGGCGAAAAATTAGCACAAGCTGCAGATTCAAAACAGCTTGGTGTAGCCTTTATCGGATATTTGATTTTCACAATCTTTATGACGATTGGTGCAATGGAAACACATAAAGTATTATTTATGATCTTTGTCCTTATTGATTTCTTATTTATTGGTCTTTCATTAAGTACTTTAGGTGTTATGCCGCACGCAATGCATAATTTAGCAGCATATTCTGAACTTCTTATTTCATTATTATCTTTCTACGGTTCAGCAGCAGCAGTGTTAAATACACACTTTGGAAAAGTTGTTTTACCAGTAGGAAAGCCTTTTGGTATTTTTAAAAAGTAA	MSNQTTTHHVKMTTADPSGIGLFGLAMVTLVASSQKLGLTDGVSLVLPWAIFLGGFAQIFACIHDAKHNNTFGTTAFGAYGLFWLGVGMTWLIQLGVFGEKLAQAADSKQLGVAFIGYLIFTIFMTIGAMETHKVLFMIFVLIDFLFIGLSLSTLGVMPHAMHNLAAYSELLISLLSFYGSAAAVLNTHFGKVVLPVGKPFGIFKK				NA	NA	NA	NA	NA
AK009_02167	396	rppH_3		RNA pyrophosphohydrolase	ATGATAAGAAATCGCGGGGCGGCTATCATTGTACAGGAAGGGAAAATTGCTCTTATAAAACGTATTCGAGAAGAGGAAACATATTATGTTTTTCCTGGCGGAGGGGGTGAGGAAGGTGAAACGCCTGAAGAGGCAACGAAAAGAGAGGTATATGAAGAATTAGGGCTACATATAAAAGTGGAGCACCTTATTGCAAAGGTAAAATATAAAGGAAATGAATATTATTATGGTGCCTATATTACAGGCGGAGTGTTCGGAAGTGGAACAGCTGAGGAATTTCAGCGGGAAGGTAGAGGAAGTTATATTCCGTTATGGCTACCGATAAACGAGTTGGAAAAAGTGAATATAAAACCTTATGAAGTGGTCGGAAATATATTTAATCATTATAAAATATAA	MIRNRGAAIIVQEGKIALIKRIREEETYYVFPGGGGEEGETPEEATKREVYEELGLHIKVEHLIAKVKYKGNEYYYGAYITGGVFGSGTAEEFQREGRGSYIPLWLPINELEKVNIKPYEVVGNIFNHYKI				NA	NA	NA	NA	NA
AK009_02168	342			hypothetical protein	ATGCGATACGAAATGGGTTTATATAATAAACCGTTTCAGTCAATTCAATCAGGAAAAAAAGTATATGAAGTACGCCTATACGATAAAAAACGTCAACTAATAAACAAAGGCGATGAAATCGTATTTACGAATCTTACGACGACAGAAATGATGACGGTAAAAGTAACGGAAATAAAGCGATACGAGAGCTTTAAATCTATGTATGAACAAATTGATAAAAAATTATTGGATTGTGAGAATGATAGTTTAGAGGAAATGTTAGAAAGTACATACAAAATATATACGAAAGAACAAGAAAAAGAGTGGGGAACAGTCGCGATTCGTATTGAGGAAATAAAATGA	MRYEMGLYNKPFQSIQSGKKVYEVRLYDKKRQLINKGDEIVFTNLTTTEMMTVKVTEIKRYESFKSMYEQIDKKLLDCENDSLEEMLESTYKIYTKEQEKEWGTVAIRIEEIK				NA	NA	NA	NA	NA
AK009_02169	558	dapH_1		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGTTATATTTAAATCAAAAACCTGAATATAATAAATATGATATTGGTGATTATACTTATAGTAAAGTAGGGCCAACCATTTTTTCTTGGAACGATGAAACAAAATTAAAAATAGGTAAGTTTTGTTCATTAGCAGAAGAAGTCGTTTTCATACTCGGCGGTGAACATCGCGCAGACTGGATAACAACTTATCCATTTAATGCACTTTTTGATGAAGGAGCACATATTACTGGTCACCCTTCTTCAAAAGGTGATATCGTAGTCGGCAATGATGTATGGATCGGTTATCAATCCTGCATTTTATCTGGTGTTACAATTGGTAACGGGGCCATTATCGGCGCCAGAAGCGTTGTTACAAAAGACGTACCCCCGTATGCAATTGTAGCTGGTAATCCTGCAAAATTTGTTCGATATCGTTTCCCACAAGAAACGATTGACAAACTAGAGAATCTCGCATGGTGGGACTGGGACATTTCTGTTATAAAAGGAGCCATTCCATTACTACTCTCCGACAAAACCGACGAATTTTTCACCTCACCCGAAAATGAATCTATATGA	MLYLNQKPEYNKYDIGDYTYSKVGPTIFSWNDETKLKIGKFCSLAEEVVFILGGEHRADWITTYPFNALFDEGAHITGHPSSKGDIVVGNDVWIGYQSCILSGVTIGNGAIIGARSVVTKDVPPYAIVAGNPAKFVRYRFPQETIDKLENLAWWDWDISVIKGAIPLLLSDKTDEFFTSPENESI	PGPT0028000_841	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
AK009_02170	7473			hypothetical protein	GTGCCTTTTATAAATCGTTTTACGACAACAGTACCTGGTGCCGTCACGTTCACTGGGAATACACTGGGACTTAGTCCTACATCACCTGCACCAGGTAATATTTTTGGTACACTTGCTGTGTTTACGACAGTAAATACAGCATTGCAAGTACCAGGATTCCCAGCAGGGACAACAGATGAATGGGAATTGAATTCTTCAAGTGCAATTTTAAATCTTCCAGCGGGAAGCAGTGTGTTATATGCAGAATTAGTTTGGGCTGGTACGTTCCGGACTGATACGGAAGATGTGTTACCATTTTTAAATGATAACATTACATTTACAACGCCAGCAGGGACGTTTTCTGTTACGCCAGATCCTGTTACCGCGCAGCAAGGTTCAGTAGGAAACCAGTTTTATTATGCTCGCTCTGCCAATGTAACGAATCTTGTTAGTGCAGGTGGAGCAGGAACATATACAACGGGTGCTGTGCCAGCTGCAAGAACTTCAGCCGACCCAACAATCAGTCGTTCAGCTGGATGGACGCTTGAGGTTGTGTATCAAAATGCCAATTTACCACTTCGAAATTTGTCAGTATATGCAGGTCAAGAAATTATTGATGCTTCATCACCACCAGTTGATGCCACTATTTCAGGATTTACTACTCCAGCTACAGGAGCTGTAACAGGACGAGTGCTCGTAACTGCTCAAGAAGGTGATTCTAACATTGTTGGAGATCAACTTCGCTTTGGACCGAATGCAAATGCTACAGTTGCATTATTCGGACCGAGAAATCCTGCGAATAATTTTTTTCAGTCACAAATTTGTAATGACAGTGGAAATTTAGATACGAGTGGCACGTTTGGAGATTTGAATCAGCCGTTAGGGATAGCTTTGGCCGTCCGAAGACAGGGGTGGGATATTACAAATGTAGATGCCTCCTCATCTTTAGTAAACAATCAAACATCAGCAACGGTTCGATTCGTTACTAATGGAGATGGATACGCTGCAGCTGGTTTTGGGGTTCAAATTGATGCAACGGGGCCAATTATTAATCCTGTTAAATCGGTCAATAGAACAGTTGCAGGAGTTGGAGATATTCTTACCTACACAATTACAGTTCCTAATACAGGTACAGGAAGTGCAGAAAATGTTATATTACAAGACAGTATTCCGAACGGAACGACGTTTGTTACAGGTAGTGTAACAGTAGGTGGAGTAACACAGCCGAATGCGAACCCTGCTAATGGAATTAATTTAGGCACAATCCCAAATAACACGCAAAGAATTGTTACATTTCAAGTACGAATAACATCGTTTCCGAACCCAAATCCTATTCCAAATCGTGCAATGGTGTCATATCAATTCCGTCCTTTCGTTAGTAGTCCTCCTATTACAAGTACGTCTTCTTCAAACACAGTACAAACGACAGTGAATCAAGCGACTATAAGTATGCAAAAATCTGTAGATTTACAGACGGCAACGCTTAATGATGTATTAACGTACACAGTTAATGTCACAAATAATGGGAACGTTACTGCAAACAATGTTATTTTTGTTGATAGTATACCTGCTGGAACAACATTTGTTCCAAATAGCGTTACAGTGAATGGAGTAGCACGCCCAGGAGCGAATCCAGCAAGTAGTATAAATCTTGGAAGTATTAATGCTTCGCAAACGACTATAGTGCGCTTTCAAGTTCGAGTAACATCTAATCCTCTTGTCAATCCAATTCCCAATCGTGCAAGTGCTACATTTACCTTTACTCCAGTGCCTGGTCAACAACCAGTTTCAGGGCAAGCGACAAGTAACACTGTAGTTACGACCGTTAACATAGCTGATATAAGAACGAGAAAAACAGTGGATAGAGCTTTTGCGACGGTAAATGATGTTCTTACGTACACTGTTACAATTGAAAATACAGGAAATGTACTTGCGACGAACGTTATTTTTCAAGATCCGATCCCAATTGGAACGACATTTATCGCAAATAGTGTGACTGTGGACGGGGTTTCACAACCTGGGGCAAATCCAGCAACTGGGTTTACAGTAGCTAATATATCTCCTGGCGGAAGTAGGACTGTTACATTTCGAGTACGAGTTACATCTACACCATCGGGAGGTACGATTGCGAATCGCGGAAATGTGTCTGCTAATTTCGTCGTTATTCCGAATCAGCCACCGATAACAATTAATAGACAAACGAATACAGTTGTGACACAAGTTAATACAGGCGGTTTAAATGTAATAAAAGAAGTGAATACAACGCAAGCGGCGGTAGGGGATACTTTAACATACACAATTGCCGTCCAAAATACAGGAAACGTTCCGTTAACAAATGTATTTTTCCAAGACCCTATTTCTTCTGCTGTTTCATTTGTTGCAAATTCTGTAACAATTAATGGAGTATCGCAAAGTGGATTGAATCCGAATACAGGATTTTCTCTTCCGAATATTCCTGCGGCTCAAACAGTTGTAGTCACATTTGACGTATTAATTGTACAGGATCCAGAAAATGAAGATATTTTAAATCAAGCAAATGTAACAGCAAGTTTTCAAGTGAATCCGAGTGAACCACCAGTAACCATCAATGTTCCGAGTAATGTTGTGAATACGACAGTACAAACAGGGAACTTTGAAGTTGTGAAATCAGTGAATACGGCTGTTGCAACTGTAGGGGATATTTTAGTATATACAATCGAAGTTATAAATGCAGGTAGTGTACCAGCTACAAATGTATTTTTCCAAGATTCAATTCCACAAGGGACATTATTTATTGAAAATAGTGTAGTTGTGAATGGTGTTTTACAAGAAGGGGCAGATCCAGAACTTGGATTCCAATTAAATGATTTGCCTACTGGCGCGAGTGTTATTGTTACGTTTGAAGTATTAATTGATGAAATTCCCCAAGGGAATAATGTCGTAAATAATGCGAATGTAACTGGAGATTTCCTTGTAAATCCAACAGAGCCACCGATTACTGTAACAGTACCAAGTAATACTGTTATGACGATTGTGAATTCTTCAGGGTTAAATGTAATGAAAAGTGTAAGTGCTACTGAAGCCGGTGTAGGAGATACGTTAACGTATACAGTTCGTATACAAAATAGTGGAACGGTGACAGCGACAAATGTATCATTCCTTGATCCGATTCCAGTTGGAACCACTTTTGTAGCGAATAGTGTAACAATAAACGGGACACCTCAACCAGGTTTAAACCCGACAATTGGATTTCCACTTGCTAATATTCCAGTAGGAGGTATGGTGACGGTCACTTTTCAAGTGGCAATCACGAGTGTACCACCAAATAGAGTTCTTCCGAATAATGCGAATGTAACTGCTGATTTCCAAGTAAGTCCTCTCCAGCCACCAATTACAATTGTAACGATTAGTAATATTGTTGTGACGCGAGTGAATGTAGGATCACTTAATGTAATGAAGAGTGTAAATACACCACAAGCCGGTGTAGGAGATACGTTAACGTATACGATTCTTATTCAAAATACAGGAACTGTTCCTGCAACAAATATTGTTTTTCAAGATCCAATTCCGTCTGGTACTGCGTTTGTAACAAATAGTGTGACGATAAATGGAGTTGTTCAGCAAGGTGCGGATCCTATGCTAGGTTTCCCGGTACCAAATATTCCGGTCGGGCAAACGGCTACGATTACGTTTCAAGTTACAGTGACGAGTGTTCCGAGCGGTGGAAATATAAGAAACCAATCGAACGTTACTGCAAGTTTTCTTATAAATCCAGCAAACCCTCCAATAACGACTGTTACAAATAGTAATTTTGTTGTGACGCAAGTAAACACAGCACAGTTAAATATACAAAAATCTTCATCTGTACAACAAGCAGCACTTGGAGAAACTTACACGTATTCTGTTGTCATTCGGAATAACGGTACAGTAACAGCAACGAATGTCTCTTTCCTTGATCCAATTGCTTTAGAAACAACATTTGTAGCAAACAGTGTAACGATAAATGGAACGCTACAACCTGGATTTGACCCAAATGTTGGTTTCCTGCTTCCTAATATTGCTGCTGGAACATCATTGACAGTAACGTTCCAAGTTACGGTAGTTGCACCGTCTACACGTGGAGCAGTATTAAATACAGCATCTGCTACAGCCACTTTCTTATTAAATCCTTTACAACCACCTGTAACAACCACGAATTCAAGTAATACAACGGTAGTTACAATACCGTTACCTCCTCCTGGTGAAGTAACAGCAACAAAAACAGTTGATGTTGCAACTGGGGCCGTTGGGGATGTATTAACGTATACTGTGCTCATTTCAAACGTAGGAATTATCCCTGTTACAGATGTGTTCTTCCAAGATGTCATACCAGAAGGAACGACGTTTGTTGACAATAGTGTAACGATAGGTGGAGTGCAGCAACTTGGTTTAAATCCAGAAATAGGATTTACAGTTACTCCATTATTAATCGCTGGTGGAAGTATTGAGGTCACATTCCAAGTGACGATTACAGAAATTCCAGATAATGAAGTCATATTAAATGATGCAGATGTTACATTTACTTCACAACCAAATCCGCAGGAACCACCGATTACGGAAACGATATTAACAAATTTAGTCGTTACGACAATTAATATAGCGTTTATTTTTCCATTGAAACTAGTAGATAAAGAAGTAGCGACGGTAGGAGAAATATTAACGTATGATGTATTGATTTTTAATTTCGGAACAGTGCCAGCGACGAATGTTCAATTTATCGATACTACTTCCGCGGGTGTAGCATTTGTACCAGGAAGTGTGAGCATAAACGGGGTACCAGCACCAGGATTAGATCCTTTCATTGGTTTTACAGTTCCAGATATACCTGTCGATGATTTTGTACTTGTCACATATCAGGAAGTGGTTACAAGCATACCAGAAGGTGGAACGATTGTTAATTTTGTAGACGTTACAGCTACATTTGCTGTAAGTGAAACAGAACCGCCTATTACGGAAACAACGACAAGTAATACGACATTAACAGAAATCAATGAGCCTGGTTTGAATGTTTTAAAATCAGTGAGTCAGCCGGTTGTTGCAGTAGGCGATACAATCACATATACAACAGTAGTTCAAAATACAGGAACAGTGCCAGCAACGAATGTTCAATATAGTGATGTATTACCTTCCTCTATAGCATTCGTGCCGAACAGTGTAACGATAGATGGTGTGTTACAACCTGGATTCAATCCGAATAACGGATTCCCGCTTCCAGATATAAATCCAGGTGAAAGTGTAGAAGTCACCTTCCAAGTAACCGTTGTTAGTGCGCCATCAAACGGAACAATTGCCAATACGGCAAATGTAACTGGAAGTTTTGTATTAGTACCAGGAGAACCACCAGTTATAGTAACAGAGCCGAGCAATACAACACTTACAACTGTAAATAGAGGGCAATTTAATGTTATTAAACAAGTAAATAGGGTTGCTACTCTCGTTGGAGATATATTAACGTATACGGTTCAAATAACGAATACAGGAACAGTAACAGCTAATGCTGTTCAGTTTGTTGATACCATTTCAGCAGGGGCGTCATTTGTACCAAATAGTGTAACGATAAATGGAGCCTCGCAACCAAACTTAAATCCAATTACTGGATTTGGAGTTGGAGATATACCGGTAGGTGAAACAGTTATAGTGACGTTTCAAGCGACAGTTACAAACATCCCGTCATCAGGAACAATTACGAACGTTGCAAATATAACAGGAAGCTTTACTTTAGTGCCAGGAGAACTACCAGTTGTAGTAACAGAGCCGAGTAATACGACGATAACTAGAGTGAATAGAGGACGATTCAGCGTTATAAAATCTATAAATAAAGAAGCGACACGATTAGGAGATACGTTAACGTATAGTGTGCAAGTTACAAATACGGGAACGGTAACAGCAACGAATGTTCAGTTTATCGATGTTCCATCACCTAGTTTAGAATTCGTTCCTGGAAGTGTACAAATAAATGGGGTTCCGCAAGTAGGTTTAGATCCATTTGTAGGCTTTGCATTGCCTGATCTTGCAGTAGGGGATAGTGTATTAATTACATTTGAAGTAAATGTAATCGCAGTTCCGCCTTCTAGTAGCATTATGAATACAGCAAGAGTAACGGGAGATTTCGAATTGATTCCAGGAGAACCTCCGTCTACAATTACAAATTCAAGTAATACGACGGTTACGCCGGTAAATAGAGGCAGCTTAGATATGTTAAAAGAAGTAGACCATTCAGTTGTTGGTGTAGGAGAAACGGTAACGTATACTGTTCGTATATTAAATACTGGTACTGCTGATGCAATGAATGTTCAATTTATCGATGTGCTATCTCAGGAAGCTGATTTCATTCCAAATAGTGTAACGATAAATGGGGTTCCGCAACCGGGGTTAAATCCGCAGATTGGATTTACGATACCTGATATACCAGTTGGTGAGACGGCACTTGTAACATATGAAGCTACGATTACAAGTTTTCCGGATGGTGGAACAGTAGTAAACGTTGCTGGAGCGTTAGCAGAATATATTTTAGTACCAGGAGAGCCGCCAGTTACAGTGATGGACACGAGCAATACAGTTATTGTAACGGTAAATACTGCAATCTTATTTGTTGCAAAAGGAGCAAACTTTGAAGTAGCAATGATAGGGGATGTTGTCACTTACGGAATCGCTGTTATAAATGATAGTACAGTTCCTGTGACCAATATTGTGTTAACAGATATCATTGATCCGAATACGCTATTTATAAATGGTACGGTAACGGTAAATGATGTACCTCTTCCATTTGCTAATCCGAATACTGGTATTCCGTTAGGTGATTTTCAGCCAAATGATGCAGCAATTATTAATTTCCAAGTTGTAATAACAGGAGGGCAAGTAAATAATTTAGTTACAAATACCGCTACAGCGAATGGGCTCGCAACTGTAAATCCGAATGAGCCGCCAGTAGTAGTTGAAGGTGATAGTAATACAGTTGTTATCCCGTTTATTCCTCAAAATGTCTCAACGACAGTCGTAAAAACGGCAGATTTACAGGCAGCAACAATTGGAGATGTCATTACGTTTACGACAGTCATCACAAATACGGGTGATACTGTAATGCAAAATATTCGTTTTCAAGATATGTTAGATAGTAGTGTTCGATTTGTTCCTGGAAGTGTAACGGTTGATAATAGGCCAGTGCCGAATGTAAGCCCGGCAGTAGGGTTTCTTATCGGAATTTTAAATCCTGGTGAAGCAAGGACAGTTTCGTTCCAAGTAGCAGTACAGAGCGCGCCAAATGGCTCAGGAAATTATATAAATCAAGCGAGTATTCGTTTTGAACATCAAGTAGGCACAGTATTGCCACCTGTTACACAAATAGTAGAAAGTAACATAGTTGTCATTCCATTTGTTCCAACGATTGAACAAATTTGTGAAACAAACTTTAATTGCTTAGATAAAATTCCATTTCAATGTTCTCCGTGTAATCATTTGCATGGACATAAAAAATAA	MPFINRFTTTVPGAVTFTGNTLGLSPTSPAPGNIFGTLAVFTTVNTALQVPGFPAGTTDEWELNSSSAILNLPAGSSVLYAELVWAGTFRTDTEDVLPFLNDNITFTTPAGTFSVTPDPVTAQQGSVGNQFYYARSANVTNLVSAGGAGTYTTGAVPAARTSADPTISRSAGWTLEVVYQNANLPLRNLSVYAGQEIIDASSPPVDATISGFTTPATGAVTGRVLVTAQEGDSNIVGDQLRFGPNANATVALFGPRNPANNFFQSQICNDSGNLDTSGTFGDLNQPLGIALAVRRQGWDITNVDASSSLVNNQTSATVRFVTNGDGYAAAGFGVQIDATGPIINPVKSVNRTVAGVGDILTYTITVPNTGTGSAENVILQDSIPNGTTFVTGSVTVGGVTQPNANPANGINLGTIPNNTQRIVTFQVRITSFPNPNPIPNRAMVSYQFRPFVSSPPITSTSSSNTVQTTVNQATISMQKSVDLQTATLNDVLTYTVNVTNNGNVTANNVIFVDSIPAGTTFVPNSVTVNGVARPGANPASSINLGSINASQTTIVRFQVRVTSNPLVNPIPNRASATFTFTPVPGQQPVSGQATSNTVVTTVNIADIRTRKTVDRAFATVNDVLTYTVTIENTGNVLATNVIFQDPIPIGTTFIANSVTVDGVSQPGANPATGFTVANISPGGSRTVTFRVRVTSTPSGGTIANRGNVSANFVVIPNQPPITINRQTNTVVTQVNTGGLNVIKEVNTTQAAVGDTLTYTIAVQNTGNVPLTNVFFQDPISSAVSFVANSVTINGVSQSGLNPNTGFSLPNIPAAQTVVVTFDVLIVQDPENEDILNQANVTASFQVNPSEPPVTINVPSNVVNTTVQTGNFEVVKSVNTAVATVGDILVYTIEVINAGSVPATNVFFQDSIPQGTLFIENSVVVNGVLQEGADPELGFQLNDLPTGASVIVTFEVLIDEIPQGNNVVNNANVTGDFLVNPTEPPITVTVPSNTVMTIVNSSGLNVMKSVSATEAGVGDTLTYTVRIQNSGTVTATNVSFLDPIPVGTTFVANSVTINGTPQPGLNPTIGFPLANIPVGGMVTVTFQVAITSVPPNRVLPNNANVTADFQVSPLQPPITIVTISNIVVTRVNVGSLNVMKSVNTPQAGVGDTLTYTILIQNTGTVPATNIVFQDPIPSGTAFVTNSVTINGVVQQGADPMLGFPVPNIPVGQTATITFQVTVTSVPSGGNIRNQSNVTASFLINPANPPITTVTNSNFVVTQVNTAQLNIQKSSSVQQAALGETYTYSVVIRNNGTVTATNVSFLDPIALETTFVANSVTINGTLQPGFDPNVGFLLPNIAAGTSLTVTFQVTVVAPSTRGAVLNTASATATFLLNPLQPPVTTTNSSNTTVVTIPLPPPGEVTATKTVDVATGAVGDVLTYTVLISNVGIIPVTDVFFQDVIPEGTTFVDNSVTIGGVQQLGLNPEIGFTVTPLLIAGGSIEVTFQVTITEIPDNEVILNDADVTFTSQPNPQEPPITETILTNLVVTTINIAFIFPLKLVDKEVATVGEILTYDVLIFNFGTVPATNVQFIDTTSAGVAFVPGSVSINGVPAPGLDPFIGFTVPDIPVDDFVLVTYQEVVTSIPEGGTIVNFVDVTATFAVSETEPPITETTTSNTTLTEINEPGLNVLKSVSQPVVAVGDTITYTTVVQNTGTVPATNVQYSDVLPSSIAFVPNSVTIDGVLQPGFNPNNGFPLPDINPGESVEVTFQVTVVSAPSNGTIANTANVTGSFVLVPGEPPVIVTEPSNTTLTTVNRGQFNVIKQVNRVATLVGDILTYTVQITNTGTVTANAVQFVDTISAGASFVPNSVTINGASQPNLNPITGFGVGDIPVGETVIVTFQATVTNIPSSGTITNVANITGSFTLVPGELPVVVTEPSNTTITRVNRGRFSVIKSINKEATRLGDTLTYSVQVTNTGTVTATNVQFIDVPSPSLEFVPGSVQINGVPQVGLDPFVGFALPDLAVGDSVLITFEVNVIAVPPSSSIMNTARVTGDFELIPGEPPSTITNSSNTTVTPVNRGSLDMLKEVDHSVVGVGETVTYTVRILNTGTADAMNVQFIDVLSQEADFIPNSVTINGVPQPGLNPQIGFTIPDIPVGETALVTYEATITSFPDGGTVVNVAGALAEYILVPGEPPVTVMDTSNTVIVTVNTAILFVAKGANFEVAMIGDVVTYGIAVINDSTVPVTNIVLTDIIDPNTLFINGTVTVNDVPLPFANPNTGIPLGDFQPNDAAIINFQVVITGGQVNNLVTNTATANGLATVNPNEPPVVVEGDSNTVVIPFIPQNVSTTVVKTADLQAATIGDVITFTTVITNTGDTVMQNIRFQDMLDSSVRFVPGSVTVDNRPVPNVSPAVGFLIGILNPGEARTVSFQVAVQSAPNGSGNYINQASIRFEHQVGTVLPPVTQIVESNIVVIPFVPTIEQICETNFNCLDKIPFQCSPCNHLHGHKK				NA	NA	NA	NA	NA
AK009_02171	750	yueD		Benzil reductase ((S)-benzoin forming)	ATGCGCTATGTTATTATAACAGGAACTTCACAAGGTTTAGGGGAAGCTATTGCCACGCAATTATTAGAAAAAAATACAACTGTCATCTCTATTTCTAGAAGAGAAAATAAAGAGCTTACTAAACTTGCAGAACAATATAACAGCAATTGCATTTTTCATTCCCTAGATCTTCAAGATGTACATAACTTAGAAACTAACTTTAAAGAGATCATTTCATCTATTAGAAAAGAAAATGTATCCTCTATTCATTTAATTAATAATGCGGGTACAGTTGCACCTATGAAGCCAATTGAAAAAGCTGAAAGCGAACAATTCATTACGAACGTTCACATTAATTTACTTGCACCTATGATTCTTACATCTACGTTTATGAAGCATACGAAAGGCTGGAAAGTAGATAAACGCGTTATTAACATTTCATCTGGCGCAGGAAAAAATCCTTACTTTGGCTGGGGCGCTTATTGCACAACGAAAGCTGGTGTAAATATGTTTACACAGTGCGTAGCAACTGAAGAAGTAGAAAAAGAATATCCATTAAAAATCGTCGCTTTTGCACCTGGTGTTGTTGATACAAATATGCAATCAAAAATTCGTGAAACAAATAAAGAAGATTTTATAAATTTGGACCGCTTCATTGCATTAAAAGAAGAAGGAAAACTATTATCACCTGAATATGTTGCGAAAGCTATTCGTAACTTACTAGAAACTGAGGACTTCCCTCAAGGCGAGGTTATTAGGATTGATGAATAA	MRYVIITGTSQGLGEAIATQLLEKNTTVISISRRENKELTKLAEQYNSNCIFHSLDLQDVHNLETNFKEIISSIRKENVSSIHLINNAGTVAPMKPIEKAESEQFITNVHINLLAPMILTSTFMKHTKGWKVDKRVINISSGAGKNPYFGWGAYCTTKAGVNMFTQCVATEEVEKEYPLKIVAFAPGVVDTNMQSKIRETNKEDFINLDRFIALKEEGKLLSPEYVAKAIRNLLETEDFPQGEVIRIDE				NA	NA	NA	NA	NA
AK009_02172	834			hypothetical protein	ATGATTCAATTATATGTATATGAAGAGATTTTTCATTTTAAAGAAGATGTTACAACATTTCTAGAAAAGAATGAGCAGGAAAACAATCTCATATTAGGTGTATTACAAATGGTCCAAGAACCGATATTTATGGGGATAGCGAAACAAGGAGAAGAAATTGCCGTTGTATTTCTGCAAACAGAAGAGAAGAAACAAATCATTGTTGCAACTTCTGAAATTGCAGGAGTAGCTATTGAGGAACTTGCAAAAGAGTTAACGAAAGTATACCCGGATATTCCTGGATTGATCGGTAATAAGAAAATTGTACAGAAATTAGCGGAAGAGATTGCGGTATTAGAAAATAAGAAAACGAATGTTGCAATGGAGCAAGGTGTGTATGAGCTGAACAAAGTAAAGAAGAGGTGTAATGCGAACGGACTTTTCCGGGCAGTAAATAATGATGAATTACCATTAATAGAACAGTGGATATATCAATTTTGTGAAGATGTAAAGCTTCCTACTACGAAAGAAGAAGCAAAACAAACTGCGCATACATTAATAACTACAAATCGACTGTTTGGTTTGGAAGTGGATAGGAAACTCGTTTCTGTAGCTGCAAAAACGAGACCAACTAAAAATAATATAACAGTTAATTTTGTATATACGCCGAAAGAAGCAAGGAAAAAGGGATACGCATCTAATTGTGTAGCGGCACTTAGTCAATGTATGTTAGATGAAGGGTACAAGACGACTACGTTATATACTGATCTAGCGAATCCGACATCTAATAAAATTTATCAAGAAATCGGTTATGAGCAAATTGCGGAGTCTGTGCTTATATTTTTAGAGAAGTAG	MIQLYVYEEIFHFKEDVTTFLEKNEQENNLILGVLQMVQEPIFMGIAKQGEEIAVVFLQTEEKKQIIVATSEIAGVAIEELAKELTKVYPDIPGLIGNKKIVQKLAEEIAVLENKKTNVAMEQGVYELNKVKKRCNANGLFRAVNNDELPLIEQWIYQFCEDVKLPTTKEEAKQTAHTLITTNRLFGLEVDRKLVSVAAKTRPTKNNITVNFVYTPKEARKKGYASNCVAALSQCMLDEGYKTTTLYTDLANPTSNKIYQEIGYEQIAESVLIFLEK				NA	NA	NA	NA	NA
AK009_02173	1509	argH_1	COG0165	Argininosuccinate lyase	ATGAAACAGAGTAAGGAAGAGTTTATAAAGAGTGAAGGCGCTGATTTCCCTGGAAAAACATATGTGGATTGTGTATTACAACATGTATTTGATTTTCAACGAAATTACTTATTGAAAGATATGTTTCAAGTGCATAAAGCACATATTACGATGTTGACTGAAGAAAGTTTAATGAAAATAGAAGAAGCTAAAGTTATATTAAACGCACTTAGAAAAGTAGAGCGAATACCAAAAGATAAATTGGTATATACAGAGCAGCATGAAGACCTCTTTTTTTTAGTCGAACATTTAATTTCTCAAGAAGCGAAATGCGATTTTGTAAGTAATATGCATATTGGTAGGAGTAGAAATGATATGGGTGTAACGATGTATCGCATGAGTTTAAGGCGATATGTACTACGGTTAATGGAGCATCATTTGTTATTGCAAGAAAGTATATTACAACTTGCCGATAATCACAAGGAAACGATTATGCCAGCTTATACACATACACAACCAGCACAGCCAACAACATTTGGTCATTATACTTTAGCAATTTATGATACGATGCAAAGAGATTTAGAACGAATGAAAAAAACGTACCAACTTTTAAATCAGTCTCCAATGGGGGCGGCTGCACTCTCTACAACAAGTTTCCCGATTAAACGAGAACGAGTTGCTCATCTACTTGGATTTACAAATGTAATTGAGAACTCATATGATGCTGTTGCCGGGGCGGATTATTTATTGGAAGTTAGCTCGCTACTTATGGTAATGATGACGAACACGAGTAGATGGATTCATGACTTTTTGTTGTTAGCAACGAAAGAATATGACGGTATTACTGTTGCAAAGCCATATGTACAAATCAGTAGTATAATGCCGCAAAAACGAAATCCAGTTTCAATTGAACACGCTCGTGCAATTACGAGTGGTGCTTTAGGAGAAGCATTTACAGTATTTCAAATGATCCATAATACGCCATTTGGTGATATTGTCGATACGGAAGATGACTTGCAGCCGTATTTATATAAAGGAATTGAAAAGACCATTCGTGTTTTTTGTATGATGAATGCAGTTGTTCGAACGATGAAAGTAGAAGAAGAAACGTTGAAAAGTCGTTCCTATAAACATGCAATTACGATAACTGATTTCGCAGATGTTTTAACAAAAAATTATGACATTCCATTTCGGCATGCTCATCATGCAGCAAGTGCTATTGCAAATATGTCATTGGAGCAGAAAAAAGAACTACATGAATTACACTTCAAAGATGTAAATATGTATTTGCAAGAACATTTTAAAATAAATTTATTAGAAAAAGAGTGGAAAGAAATTATATCGCCAGAAGCTTTTATTCAAAAAAGAAATGTATACGGTGGACCGAGTAAAAAAGAAATGGAGCGCATGATTAAAAATCGAAAAGAGTCATTTCAAAATGAAGAAGAGGTATTTGAAAGGGAAAAACAAAGAATTTTACAAGCTGAAACGAATTTGAATTCATTAACTTTGAATATTGTTGAATCGTAA	MKQSKEEFIKSEGADFPGKTYVDCVLQHVFDFQRNYLLKDMFQVHKAHITMLTEESLMKIEEAKVILNALRKVERIPKDKLVYTEQHEDLFFLVEHLISQEAKCDFVSNMHIGRSRNDMGVTMYRMSLRRYVLRLMEHHLLLQESILQLADNHKETIMPAYTHTQPAQPTTFGHYTLAIYDTMQRDLERMKKTYQLLNQSPMGAAALSTTSFPIKRERVAHLLGFTNVIENSYDAVAGADYLLEVSSLLMVMMTNTSRWIHDFLLLATKEYDGITVAKPYVQISSIMPQKRNPVSIEHARAITSGALGEAFTVFQMIHNTPFGDIVDTEDDLQPYLYKGIEKTIRVFCMMNAVVRTMKVEEETLKSRSYKHAITITDFADVLTKNYDIPFRHAHHAASAIANMSLEQKKELHELHFKDVNMYLQEHFKINLLEKEWKEIISPEAFIQKRNVYGGPSKKEMERMIKNRKESFQNEEEVFEREKQRILQAETNLNSLTLNIVES				NA	NA	NA	NA	NA
AK009_02174	1110			hypothetical protein	TTGAAAAAAACTATAGTATGCGCAGTAATTGTGGGTATTTTCGTTTTGCTAATATCGGGTAACTTTTTAGTGAAAAAAGTATGGAGTTCAAATAATGATGATGCACAGTATATTGCATCTTTTATTGAAGAACATAAAGATGAAAAAAATAGTGCACTTCTAGTAAAGAGAAATGATAAAGTTGTTTATTCTGTAAATCCCAATGTTGTATTGCCAGTCGCTAGTACGATGAAATTAATTGTGGCGCTTGAATATACGAAACAAGTTACTGAAGGGAAAATTGATTCGTCTAGTTTCGTTTCGATTAATGATGTGAATCGTTATTATGTTCCGAATACAGATGGAGGTGCACAAGATAGATGGCAAAAGTATTTGGAGAAGACAGGCAAGATAACTGAAGGAGCGGTTTCTTTAGAAGAAGTGGCAAAAGGAATGGTTAAGTTTAGTTCGAATGCGAATGCTGAATACTTAATGGAATTGTTAGGATTAGATAACATTAATCGGAATTTACAAAGTTTATCACTTCCTGCACATCAACCACTATTTCCAATCGTTTCATCTTTATATATCCCGGGATATTTGCATAAAGAATTGCATGTTCCAAAATATAAAATAGAAAAAAAGTTAAAAGAAATGTCTCAAGAGCAATATCGTGAATATGCGATGAATATTCATGAACGCTTAAAGAAGAAGGGACCATTATTACAGAAGGAAATTCCGCTTTATTTAGAGGAACGTTACGACAAAATTTGGTCAGATAGATTACCAGCAGCTTCCGCAAATGATTATATGGTATTACTTCAAAAAGCAAACCATAAAGGCGGCTTGACAGAGGCTGAAGAAAAAGTATGGGCAAATATCGTTGAAACAGACATGAGTGCCAAGAAATACCGTAAAACATTTAGACATGCTGGGCAAAAGAATGGTTACACACCATGGACGGTGACAAAAGCAGTTTACGCTATGGATAAACGTGGAAACTGTACAGAAATTGTGTTTTTAGCGAATAATTTAAATGAAGACGATAGTGCAGAAATACGGAAACATTTAGCAAACTTACATTTCCAAGTGTTGCAAAGTGATAAGTATGATGCGACTTTTATTAAATAA	MKKTIVCAVIVGIFVLLISGNFLVKKVWSSNNDDAQYIASFIEEHKDEKNSALLVKRNDKVVYSVNPNVVLPVASTMKLIVALEYTKQVTEGKIDSSSFVSINDVNRYYVPNTDGGAQDRWQKYLEKTGKITEGAVSLEEVAKGMVKFSSNANAEYLMELLGLDNINRNLQSLSLPAHQPLFPIVSSLYIPGYLHKELHVPKYKIEKKLKEMSQEQYREYAMNIHERLKKKGPLLQKEIPLYLEERYDKIWSDRLPAASANDYMVLLQKANHKGGLTEAEEKVWANIVETDMSAKKYRKTFRHAGQKNGYTPWTVTKAVYAMDKRGNCTEIVFLANNLNEDDSAEIRKHLANLHFQVLQSDKYDATFIK				NA	NA	NA	NA	NA
AK009_02175	933	rihA_3	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGAAAAAAGTGTTATTTTTAGGAGACCCAGGCATTGATGACTCTTTAGCAATTATGTATGGATTGTTGCATCCTGATATTGATATTGTTGGGGTAGTAACGGGATATGGAAATGTAACACAAGAAAAGGCGACAAGTAATGCCGCATATTTATTGCAAATGGCAGGACGGGAAGATATACCTGTTATTAATGGTGCGAAAATTCCTTTATCCGGAGATGTTACAACGTATTATCCAGAAATTCATGGGGCAGACGGTTTAGGGCCAATTAAACCTCCAAAAACTTTTTTGCCAAATATAAAGCCTTTTTGTGCATTTTTTGATCTTCTTGAAAAATATAAAGGGGAATTAATAATAGTCGATGCTGGTAGATCAACAACACTAGCGACGGCATTTATTTTAGAAAAGCCGATGATGAAGTATGTGAAAGAATATTATATAATGGGCGGTGCTTTCTTAATGCCTGGCAATGTAACACCAGTCGCAGAGGCGAATTTTCATGGTGATCCGATTGCGTCGCAATTAGTTATGCAAAATGCTAAAAATGTGACATTAGTACCACTTAACGTTACATCGGAAGCAATTATTACGCCGGAAATGGTAAAATATATTACGAAACACTCTAAAACGAGTTTTAATAAGTTAATCGAGCCGATATTTACGTATTATTATAAAGCTTATAGAAAGTTAAATCCGAAAATAAAAGGAAGCCCAGTACATGACGTCGTTACAATGATGGTTGCGGCAAATCCACCCCTTTTAGACTATGTATATCGTCGTGTCGATGTAGATACAGTTGGAATTGCAAAAGGAGAGAGTATTGCTGATTTTCGGCCGCAACCTGATGCAAAAGCATTAAAAAATTGGGTGCGAATTGGTTGGTCGTTACATTATAAAAAGTTTCTTGAGGATTTTGTGAAATTTATGACGTAG	MKKVLFLGDPGIDDSLAIMYGLLHPDIDIVGVVTGYGNVTQEKATSNAAYLLQMAGREDIPVINGAKIPLSGDVTTYYPEIHGADGLGPIKPPKTFLPNIKPFCAFFDLLEKYKGELIIVDAGRSTTLATAFILEKPMMKYVKEYYIMGGAFLMPGNVTPVAEANFHGDPIASQLVMQNAKNVTLVPLNVTSEAIITPEMVKYITKHSKTSFNKLIEPIFTYYYKAYRKLNPKIKGSPVHDVVTMMVAANPPLLDYVYRRVDVDTVGIAKGESIADFRPQPDAKALKNWVRIGWSLHYKKFLEDFVKFMT	PGPT0013465_2386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_02176	1434	panF	COG4145	Sodium/pantothenate symporter	ATGAATTGGTATGTAATCATTCCAATGATAATTTCGTTTATCGTTGTATTTTTAATTGGTGTATATGCTTCAAGACGCGTGCAAGCAACTGCTCATAATAAATTTTTACAAGAATATTTTCTAGGTGGGCGTGAGCTAGGCGGTTTATTATTAGCGATGACAATGATTGCTACGTACGGTAGTGCAAGTAGCTTTATTGGTGGCCCTGGTATTGCTTACAATATGGGGCTTGGATGGGTACTGTTATCTGCGATTCAAGTTGTAACAGGGTATATCGTTTTAACGGTTATCGGTAAAAAGTTTGCAATTATCGCTAGGAAGATGGAAGCAATTACTCTTATCGATTATTTAAAAGGGAGATACAATAATAAAGCAGTTGTTATACTCTCTGCGTTATGTATTATTATCTTTTTATTTTCGGCGACAGTAGCCCAGTGGGTCGGCGGTGGACGATTAATTGAGTCACTAACGGGTCTATCGTATACAACAGCACTATTTTTATTTACTTTTTCTGTACTTGTGTACGTATTAATTGGTGGATTTCGTGCAGTCGCGCTATCAGATACATTATTAGGAATCATTATGTTAGTTGGAACGACAATCATTTTAATTGCTACTGTCATTGCTGGTGGTGGAATTGAAAAGATTATGCAGGAACTTGTTCAAATTAATCCAAATTTAATTACACCATTCGGAGCAGATGGCAGTTTAACGAAATCATATGTTACATCATTTTGGATTTTAATTGGAATTGGCGTTGTAGGTTTACCGCAAATTAGCGTGCGTGCCATGTCTTATAAAAATTCAAAAGCTATGCACCAAGCTTTAATAATTGGAACAGTTGTCGTTGGTACAATTATGATCGGTATGCATTTAACAGGTGTATTTGCAAGAGTAGTACTTCCAGGTATAACGGTACCAGATAAAGTAATGCCGCTACTTGCGATGGAAGTGTTGCCACCGTGGTTAGCTGGAGTTTTCTTAGCCGCACCAATGGCAGCGATTATGTCTACAGTAAACTCTTTATTATTACTTGTAAGCTCGTCAATTATTAAAGATATATACGTAAATTACATAAAGAAAGATGCAGCAGACAGTACGATAAAAAAAGGAAGTTTGTGGATTACTGGTATTGTAGGACTACTCGTTTATGCAGCGGCGATTAAACCACCAGATTTTTTAATATGGCTAAATTTATTTTCTTTCGGTGGATTAGAAGCAGCATTCATTTGGCCAATCGTATTAGGGTTATATTGGAGGAAAGGAAATGCTACAGGAGCGCTTGCTTCCATTTTCGTTGGAGTAGGTTCATATATGTGTATTCATCTTTTCTATCCAAATCCGTTCGGTATACATACAGTTGTCTTCCCAATTTGTTTTGCGTTTATCGCTTATGTTATTGGAAGTATGAGTGCTGTAAAAAAAACAGTATAG	MNWYVIIPMIISFIVVFLIGVYASRRVQATAHNKFLQEYFLGGRELGGLLLAMTMIATYGSASSFIGGPGIAYNMGLGWVLLSAIQVVTGYIVLTVIGKKFAIIARKMEAITLIDYLKGRYNNKAVVILSALCIIIFLFSATVAQWVGGGRLIESLTGLSYTTALFLFTFSVLVYVLIGGFRAVALSDTLLGIIMLVGTTIILIATVIAGGGIEKIMQELVQINPNLITPFGADGSLTKSYVTSFWILIGIGVVGLPQISVRAMSYKNSKAMHQALIIGTVVVGTIMIGMHLTGVFARVVLPGITVPDKVMPLLAMEVLPPWLAGVFLAAPMAAIMSTVNSLLLLVSSSIIKDIYVNYIKKDAADSTIKKGSLWITGIVGLLVYAAAIKPPDFLIWLNLFSFGGLEAAFIWPIVLGLYWRKGNATGALASIFVGVGSYMCIHLFYPNPFGIHTVVFPICFAFIAYVIGSMSAVKKTV				NA	NA	NA	NA	NA
AK009_02177	279	yhdT	COG3924	putative membrane protein YhdT	ATGAAAGATTATCATGATGATCCACGCTTTCGAATAGCCCATAGAGAAGCGTTAATTGGTCTTGGACTTGCTATTATTAATTTTATAATATGGTACGGATTCGCTTATGGGCTTGGTAGTAAAAATCCGAGTGAATATACATATGTATTCGGTTTTCCCACATGGTTTTTTTATAGCTGTATCGTTGGATTTATCGTTATGGTTATTTTACTTAGTTTAGTTGTTCGTTTTGTATTTCAAGATATTTCACTCGATGAGGAAGAAAAAAGTGAGGAATAA	MKDYHDDPRFRIAHREALIGLGLAIINFIIWYGFAYGLGSKNPSEYTYVFGFPTWFFYSCIVGFIVMVILLSLVVRFVFQDISLDEEEKSEE				NA	NA	NA	NA	NA
AK009_02178	1485	styD_2		Phenylacetaldehyde dehydrogenase	ATGAGTCAACTAGCTGTAAATCTTCATGAAAAGGTAGAAAATTTTCTTCAAGGTACAAAAAAGTTATATGTGAATGGATCTTTCATTGAAAGCGCTTCCGGAAAAACATTTAAAACACCTAACCCAGCAACTGGTGAAACACTTGCCGTCGTTTCTGAAGCTGGTCGTGAAGATATTCATAAAGCTGTAGTCGCAGCTCGTATGGCTTTTGACGAAGGTCCTTGGTCTCGTATGAGCACTGCTGAGCGAAGCCGTCTCATGTACAAGTTAGCTGATTTAATGGAAGAACATAAAGAAGAGCTTGCACAGCTCGAAACATTAGATAACGGAAAGCCAATCCGTGAAACAATGGCAGCAGACATACCACTTGCAATTGAGCATATGCGCTATTACGCTGGCTGGGCTACGAAAATCGTTGGTCAAACAATTCCTGTTTCCGGTGATTACTTTAACTATACACGCCATGAAGCTGTTGGTGTCGTTGGTCAAATTATCCCTTGGAACTTCCCGCTTCTTATGGCAATGTGGAAAATGGGAGCAGCGCTTGCTACAGGATGTACAATCGTTTTAAAACCTGCAGAACAAACTCCACTATCTGCTCTATACTTAGCTGAATTAATTGAAGAAGCTGGATTCCCGAAAGGTGTTATTAATATCGTACCTGGATTCGGTGAATCAGCTGGACAAGCTCTCGTTAATCATCCACTCGTTGATAAAATTGCATTTACCGGTTCTACTCCTGTCGGTAAACAAATTATGCGACAAGCATCCGAATCATTAAAACGCGTTACACTTGAGTTAGGCGGTAAATCACCAAATATCATCTTGCCAGATGCTGATTTATCTCGCGCGATTCCTGGTGCACTTTCTGGTGTTATGTTTAACCAAGGACAAGTATGCTCTGCTGGATCACGCTTATTTGTTCCGAAGAAAATGTATGATAATGTCATGGCTGATCTCGTCCTTTATTCTAAAAAATTAAATCAAGGCGCTGGTCTAAGTCCAGAAACTACAATCGGTCCTCTCGTTTCCGAAGAACAACAAAAACGTGTAATGGGCTTCATTGAAAAAGGGATTGAAGAAGGCGCTGAAGTACTTTGCGGAGGAAATAATCCATTCGATCAAGGCTACTTCGTTTCTCCTACAGTATTCGCTGACGTAAATGACGAAATGACGATCGCAAAAGAAGAAATTTTCGGTCCAGTTATTTCTGCAATACCGTTTAACGATATTGATGAAGTAATTGAACGTGCGAATAAATCTCAATTTGGCTTAGCTGCTGGTGTATGGACAGAAAATGTTAAAACTGCACACTATGTTGCAAGTAAAGTACGTGCAGGTACAGTATGGGTAAACTGTTATAACGTCTTTGATGCAGCATCTCCATTTGGAGGATTTAAACAATCTGGTCTCGGCCGTGAAATGGGATCTTACGCATTAAATAACTATACAGAAGTGAAGAGCGTTTGGCTTAACTTAAATTAA	MSQLAVNLHEKVENFLQGTKKLYVNGSFIESASGKTFKTPNPATGETLAVVSEAGREDIHKAVVAARMAFDEGPWSRMSTAERSRLMYKLADLMEEHKEELAQLETLDNGKPIRETMAADIPLAIEHMRYYAGWATKIVGQTIPVSGDYFNYTRHEAVGVVGQIIPWNFPLLMAMWKMGAALATGCTIVLKPAEQTPLSALYLAELIEEAGFPKGVINIVPGFGESAGQALVNHPLVDKIAFTGSTPVGKQIMRQASESLKRVTLELGGKSPNIILPDADLSRAIPGALSGVMFNQGQVCSAGSRLFVPKKMYDNVMADLVLYSKKLNQGAGLSPETTIGPLVSEEQQKRVMGFIEKGIEEGAEVLCGGNNPFDQGYFVSPTVFADVNDEMTIAKEEIFGPVISAIPFNDIDEVIERANKSQFGLAAGVWTENVKTAHYVASKVRAGTVWVNCYNVFDAASPFGGFKQSGLGREMGSYALNNYTEVKSVWLNLN	PGPT0006875_4271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK009_02179	741	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGAGTTTTTAAATGGGAAAACAGCTGTTGTAACAGGAGCTGCACAGGGAATTGGAAAAGAGATTGCAAGGGTTTATGCAAAACTAGGGGCGAAAGTATTAATTAGCGATGTAAATGAAGAGAATCTACAAAAGACGACACGTGAGTTATCAGATGAAGGATATGAAGTGTGCTCATATCGATGTGATGTGAGTAATCAAAATGAAGCAAAGTCGTTAATTGAATATGCGGTTCAAAAATTTGGTACATTACATATTTTGGTGAATAATGCTGGAATTACAAGAGACGCAATGTTACATAAAATGGAGAAGTCTGCTTGGGAACAAGTATTACAAGTGAACTTAACTGGAGTTTTTTATTGTATGCAACCAGCGCTTCTTTACATGAGACAACAAGGGTATGGACGCATTATTAACATATCTTCAATTAGTAGAGAAGGAAACATAGGTCAAGCAAATTATGCGGCTACAAAGGCAGGAGTTGTAGGATTAACAAAAACAGCAGCGAAAGAAGTTGGAAGTTTCGGTATTACTTGTAATGCGATTTGTCCGGGGTTTATGGATACAGATATGACAAAAACGATACCAGATAAAGTGAAAGAAAAGATGGTGGGCGCTATTCCAGTTGGTAGAATTGGAACGCCAGAAGATATTGCGAACGCAGCAGCCTTTTTAGCATCAGAATACGCATCTTATATTACAGGTGAAGTATTAAATGTGAGCGGAGGACTGCAAGTTTAA	MEFLNGKTAVVTGAAQGIGKEIARVYAKLGAKVLISDVNEENLQKTTRELSDEGYEVCSYRCDVSNQNEAKSLIEYAVQKFGTLHILVNNAGITRDAMLHKMEKSAWEQVLQVNLTGVFYCMQPALLYMRQQGYGRIINISSISREGNIGQANYAATKAGVVGLTKTAAKEVGSFGITCNAICPGFMDTDMTKTIPDKVKEKMVGAIPVGRIGTPEDIANAAAFLASEYASYITGEVLNVSGGLQV	PGPT0003180_16287	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
AK009_02180	150			hypothetical protein	ATGAACAAAAAGAATTTCAAACAAAGCAAAGCAACTGATGGCATTGATGTTGAGTTCTCTCGCGAACTCGCTGACCACAATGACTTAGAAGCAAACGCACGTGCAAATGCCGCTGATGCACGTCAAAAACGCCAGTCAACCGAAAAATAA	MNKKNFKQSKATDGIDVEFSRELADHNDLEANARANAADARQKRQSTEK				NA	NA	NA	NA	NA
AK009_02181	1854	sqhC	COG1657	Sporulenol synthase	TTGTTATTATATGAAAAAGTGTATGAAGAAATAGCGAGAAGAACAACTGCACTTCAAACGATGCAACGGCAAGATGGTACGTGGCGGTTTTGTTTTGAAGGAGCGCCACTAACAGATTGTCATATGATTTTTTTATTAAAATTATTAGGTAGAGATAAAGAGATAGAACCGTTTGTAAAAAGATTAGCATCACTCCAAACAAATGAAGGAACATGGAAATTGTATGAAGATGAAGTGGGTGGTAATTTATCTGCTACAATTCAATCTTATGCTGCCTTACTTGCATCGGAAAAATATACAAAAGAAGATGCGAATATGAAGCGAGCGGAAATGTTTATAAATGAGCGCGGGGGGGTGGCGCGTGCTCATTTTATGACGAAGTTTTTATTAGCGATTCATGGAGAATATGAATATCCTTCTCTCTTTCATTTGCCAACACCAATAATGTTTCTGCAGAACGATTCCCCCCTCAGTATATTTGAATTGAGTAGCTCAGCACGTATCCATTTAATTCCGATGATGTTGTGTTTAAATAAACGATTTCGAGTAGGGAAAAAGTTATTGCCAAATTTAAATCACATTGCAGGCGGGGGCGGAGAATGGTTTCGGGAGGATCGGTCTCCAGTTTTTCAAACGTTATTAAGTGAGGTGAAGAAAATTATAACGTATCCACTTTCTTTGCATCATAAAGGATATGAGGAAGTAGAACGTTTTATGAAAGAGCGTATTGATGAAAATGGAACATTATATAGTTACGCAACTGCCTCGTTTTATATGATTTATGCTTTACTTGCATTAGGGCATTCTATTCAATCGCCAATTATTCAGAAGGCTATAACGGGAATCGCATCTTATATATGGAAGATGGAGAGAGGGAGCCATTTGCAAAACTCTCCGTCAACTGTATGGGATACAGCTTTACTCAGTTATGCTTTGCAAGAAGCTCAAGTTCCGAAAGCAAGTAAAGTGATTCAAAATGCATCAGCGTATTTACTAAGAAAACAGCAAACGAAGAAAGTAGATTGGAGTGTACATGCACCGAATCTATTCCCAGGTGGTTGGGGCTTTTCGGATGTGAATACGATGATTCCAGATATTGATGATACAACTGCTGTGTTAAGAGCACTGGCGCGAAGTAGAGGGGACGAAAATGTAGATAATGCTTGGAAGAGAGCGGTTAATTGGGTTAAAGGATTGCAAAATAATGATGGTGGTTGGGGAGCTTTTGAAAAAGGGGTAACGAGCCGTATATTAGCAAATTTACCAATCGAAAATGCAAGTGATATGATTACAGATCCTTCTACACCAGATATTACAGGAAGAGTGCTAGAGTTTTTTGGGACATATGCGCAAAATGAATTGCCCGAGAAACAAAAACAAAGTGCGATAAATTGGTTAATGAATGTACAAGAGGAAAATGGATCATGGTATGGGAAATGGGGAATTTGTTATATATATGGTACATGGGCAGTGTTGACTGGTTTACGGTCACTAGGAATACCATCTAGCGATCCATCATTAAAACGAGCAGCTTTATGGCTTGAACATATACAGCATGAAGATGGTGGCTGGGGAGAATCTTGCCAAAGTAGTGTGGAAAAAAGATTTGTTACTTTGCCGTTTAGTACACCATCACAAACGGCATGGGCGTTAGATGCTCTCATTTCTTACTATGAAAAAGAAACACCAATCATTCGAAAAGGTATTTCATATTTGCTCTCCAACCCTTATGTAAATGAAAAATATCCTACTGGAACAGGTTTACCAGGTGGGTTTTATATTCGTTATCATAGTTATGCTCATATATATCCGTTGCTTACTTTGGCTCATTATACAAAAAAATATAGAAAATAA	MLLYEKVYEEIARRTTALQTMQRQDGTWRFCFEGAPLTDCHMIFLLKLLGRDKEIEPFVKRLASLQTNEGTWKLYEDEVGGNLSATIQSYAALLASEKYTKEDANMKRAEMFINERGGVARAHFMTKFLLAIHGEYEYPSLFHLPTPIMFLQNDSPLSIFELSSSARIHLIPMMLCLNKRFRVGKKLLPNLNHIAGGGGEWFREDRSPVFQTLLSEVKKIITYPLSLHHKGYEEVERFMKERIDENGTLYSYATASFYMIYALLALGHSIQSPIIQKAITGIASYIWKMERGSHLQNSPSTVWDTALLSYALQEAQVPKASKVIQNASAYLLRKQQTKKVDWSVHAPNLFPGGWGFSDVNTMIPDIDDTTAVLRALARSRGDENVDNAWKRAVNWVKGLQNNDGGWGAFEKGVTSRILANLPIENASDMITDPSTPDITGRVLEFFGTYAQNELPEKQKQSAINWLMNVQEENGSWYGKWGICYIYGTWAVLTGLRSLGIPSSDPSLKRAALWLEHIQHEDGGWGESCQSSVEKRFVTLPFSTPSQTAWALDALISYYEKETPIIRKGISYLLSNPYVNEKYPTGTGLPGGFYIRYHSYAHIYPLLTLAHYTKKYRK	PGPT0007620_148	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007620-sphC-K18115	NA	NA
AK009_02182	426			hypothetical protein	ATGGAAACAATTTTACATAATGATCCGCTTATGGCAGCTGTAATTTCATGGTTTTTAGCACAATTAACGAAAGTAGTCTTTAAATTAGTTAAAACGGGTGAATTTGATTTTGCAAAGTTTTTTGCTTCAGGTGGGATGCCAAGTTCTCATGCTTCAACAGTTACAGCGCTTGCTACAGGAGTTGGAGTTGTGGAAGGTGTGGAAAGCTCGATGTTTGCGGTTGCTGCTATTTTTGCCATTATTGTTATGTATGATGCTTCAGGAGTAAGGCTTGCAGTAAGTAAACAAGCAAAAATATTGAATGACTTTTTTCACGGTAGAGAAACAGAATATAAGAAGTTAAATGAACTTGTTGGGCATACACCGTATGAAGTAGTAGTCGGTGCTTTATTAGGGATTATTGTCGGAGTAGGATATTGTTTATGA	METILHNDPLMAAVISWFLAQLTKVVFKLVKTGEFDFAKFFASGGMPSSHASTVTALATGVGVVEGVESSMFAVAAIFAIIVMYDASGVRLAVSKQAKILNDFFHGRETEYKKLNELVGHTPYEVVVGALLGIIVGVGYCL	PGPT0024535_917	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
AK009_02183	942	rarD	COG2962	Protein RarD	ATGGGGAGTCAATCAGCAGAGCAAAAAAAAGGAATACTATATGCGGCTGGTGCTTACACGATGTGGGGAATTCTACCGATTTATTGGAAATGGGTTGAGGAAGTTCCAGCAGATGAAATATTAGAGCACCGCATCGTTTGGGCATTTGTTTTTATGTTACTTGTATTAGGTGTTACGAAGAGGTTTCGCCAGTTTATTGGGGAATTTGTGAATCTTTTTAAACGACCTAAATTATTAATGTCATTAACAATAGCTTCAGTCTTGATTAGCGGAAACTGGTTTGTTTACATATGGGCCGTTAATCATAATCATGTTATTGAAGCGAGTCTTGGCTATTATATTAATCCGCTTATTAGTATTTTACTTGGTACAGTCGTTTTAAAGGAAAAGTTAAACTTTTGGCAATATGTTGCAGTTGGTTTAGCAGGAGTAGGGGTTGTCATTTTAACAGTACGTTTCGGATCTATTCCGTGGGTTTCTCTTTCACTTGCCTTTTCATTTGGATTATACGGATTAACGAAAAAACTATTAAACTATGATGCTACAATTGGACTTACGATGGAAACCATGTTAGTGACGCCGTTTGCGATCATTTATCTTGTTATGACAGGAGCACATGGTTTCGGCTCATTTGGATCTATTTCAATGTTATCAACGTTACTTTTAATAGGAGCAGGTATTGTAACAGCATTACCACTATTTTATTTTGCAAAAGGAGCACAACTTATTCCGCTTTATATGGTGGGATTTTTACAATATATTGCGCCAACAATTAGCTTAATTTTAGGTGTATTTGTATTTGGTGAACATTTCACATCTACACATATGATTGCATTTTTCTGTATATGGGTTGCTTTATTTGTATTCTCGGTAGCGAAAACAAAGTTTTTAGTGCAGAAACAACCGAAATTTATAAAAAATAAATCAGCAAAAGTATCATAA	MGSQSAEQKKGILYAAGAYTMWGILPIYWKWVEEVPADEILEHRIVWAFVFMLLVLGVTKRFRQFIGEFVNLFKRPKLLMSLTIASVLISGNWFVYIWAVNHNHVIEASLGYYINPLISILLGTVVLKEKLNFWQYVAVGLAGVGVVILTVRFGSIPWVSLSLAFSFGLYGLTKKLLNYDATIGLTMETMLVTPFAIIYLVMTGAHGFGSFGSISMLSTLLLIGAGIVTALPLFYFAKGAQLIPLYMVGFLQYIAPTISLILGVFVFGEHFTSTHMIAFFCIWVALFVFSVAKTKFLVQKQPKFIKNKSAKVS	PGPT0003906_445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
AK009_02184	249			hypothetical protein	ATGAAATGGATTTATTTTCTTATTATTAACGTTATAGCTTTTAGCCTTATGGGGCTTGATAAACGAAAAGCAAAGAAGAAACAGTGGAGAACGCCAGAAAGTACGTTGTTTTTATCGGCGGCAGCTGGAGGAGCAGTTGGAGCTTGGATCGGCATGTATATGTTTCATCATAAAACTCATAAAAAGAAATTTGTTTTCGGCATACCGTTACTTGTTGTAATAACGGTATGTTTATTATTCGTTGTATGA	MKWIYFLIINVIAFSLMGLDKRKAKKKQWRTPESTLFLSAAAGGAVGAWIGMYMFHHKTHKKKFVFGIPLLVVITVCLLFVV				NA	NA	NA	NA	NA
AK009_02185	399			hypothetical protein	ATGAATATGAAAAAGATGATTGAAATGGTAGAAGCAACTAAAGTGACTGACGAAGAATTATCGATTTCTACTTTACATCAAAAGCTTGTGAAGTTGTATAGTCAAAAAGATTGTGCAGAGTATACGGAGTTATTAAAATATATTTTATCATTATCCGTGCAGCTGAAGCTGAATCTCGTATTGAAATATTTTGGTGTGCGTCCGGTTGTTGCTGCAGACGAGCGTATGCAATTTCAAGAGATATTTAAATGCTTAGCTAAGAAAGATGAGAATGGGGAATGGTTTCTAAATTTTGTTTCTTTATATGTAGGGCTAATTGTAGTTCTTCATTTTGATGAGAAAGTGATTGAGAGCAATTTTTTTGATGATATGGTAGTGGGTAAATGTAATGAAATATAA	MNMKKMIEMVEATKVTDEELSISTLHQKLVKLYSQKDCAEYTELLKYILSLSVQLKLNLVLKYFGVRPVVAADERMQFQEIFKCLAKKDENGEWFLNFVSLYVGLIVVLHFDEKVIESNFFDDMVVGKCNEI				NA	NA	NA	NA	NA
AK009_02186	225			hypothetical protein	ATGGCATGTAACATTGATCATTCTATTGAAGATGTGATGAATAAGCTTGAAAGTCAAAAGAGTTTTTTACCTGAAGGGATCTTTAAAGAGTTAAAGAGTTTTTTGCAAGGTATTCATTCACAGAAATTATTAAATGATGTTTTTCACCTCCTAAAAAAGTATGATTTAGTCAGTGAGGAAGAACGAGAGACGAGAAACGCACAATTATTGTACATTTTGAATTAA	MACNIDHSIEDVMNKLESQKSFLPEGIFKELKSFLQGIHSQKLLNDVFHLLKKYDLVSEEERETRNAQLLYILN				NA	NA	NA	NA	NA
AK009_02187	1050	salA_1	COG0489	Iron-sulfur cluster carrier protein	ATGCTTACTCAAGAACAAATAATAAATGCATTAAAACATGTAGAGGATCCAGAGTTACACAAAAGTGTTGTAGAATTAAATATGGTTAGAAATATACAAATGAACGGAACAGAGGTTAAACTTGAAGTAGTACTAACAATACAAGGTTGTCCGTTAAAAGCAAAAATTCAACAAGATATTGAAGAATCACTTCACGCAATTGGTGCCTCTAAAGTGGATGTAACATTTGGTTCTATGACACAAGAAGAACGTGCAGCTTTAACAGAGAAGTTAAAGAAAAATAGTAGAACAGAAACTGGTATGCCGAGCATGCTTCGCCTTGATTCAGGAGTACGGTTTATTACTGTAACGAGTGGAAAAGGTGGAGTTGGAAAATCAACGGTGACAATTAATCTTGCAACTGCACTAGCTCGTATGGGCAAAAAAGTGGGGATATTAGATGCAGACATATATGGTTTTAGTATTCCAGCTATGATGGAAACGAATAAGAAACCAACGATGATTGATCAAACAGCAATTCCGGTCGTTAGTCACGGTGTTAAAATTATGTCGATGGGATTTTTTACGGAAGGAAATAACCCGGTTATGTGGCGCGGACCGATGTTAAATAAATGGATTCAAAATTTCCTTGCGAATACGCACTGGGGAGAATTAGATTATTTACTTCTTGATTTACCACCTGGTACAGGAGATGTTGCTATTGATGTTGCAGCAATGATCCCGCAGGCGCAAGAAATTATCGTTACAACACCACACAATGTAGCTTCGTTCGTAGCGTCTAGAGTAGGAGTTATGGCAAAGCATACGAAACACGAGATTTTAGGGATTGTAGAAAATATGGCTTATTATGAAGAGCAAGATGGATCGAAAAACTATCTCTTCGGAAAAGGTGGCGGCGAAATGCTTGCAGAACAATTGCAAACAGAAGTGATCGCGCAAATACCTTTTGCAAAACGAGAAGAAAATAACGGTTCATCTGTATATGATGAAGACTCTCTTGTAGGAGAAGTGTTTACATCGTTAGCTGAGGATATTATTTATAGAGGATAG	MLTQEQIINALKHVEDPELHKSVVELNMVRNIQMNGTEVKLEVVLTIQGCPLKAKIQQDIEESLHAIGASKVDVTFGSMTQEERAALTEKLKKNSRTETGMPSMLRLDSGVRFITVTSGKGGVGKSTVTINLATALARMGKKVGILDADIYGFSIPAMMETNKKPTMIDQTAIPVVSHGVKIMSMGFFTEGNNPVMWRGPMLNKWIQNFLANTHWGELDYLLLDLPPGTGDVAIDVAAMIPQAQEIIVTTPHNVASFVASRVGVMAKHTKHEILGIVENMAYYEEQDGSKNYLFGKGGGEMLAEQLQTEVIAQIPFAKREENNGSSVYDEDSLVGEVFTSLAEDIIYRG	PGPT0013215_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
AK009_02188	237	moaD_2		Molybdopterin synthase sulfur carrier subunit	ATGATTACAATTTTATTGTTTGCAAATTTGCGTGAGGAAGTCGGATTGGATCAATTAATAATTTCAGAAAAACAAGAAATGACTGTTGGGCAATTAAAAGAATGGTTGAAAGATAGTTATCATTTGCAATCCTTGGATACAGTAATGGTTGCAATTAATGAAGAGTTTGTAACGAATGAAGAGATGATAAAAGTAGGAGATATAGTCGCATTAATCCCGCCCGTTAGCGGAGGGTAA	MITILLFANLREEVGLDQLIISEKQEMTVGQLKEWLKDSYHLQSLDTVMVAINEEFVTNEEMIKVGDIVALIPPVSGG	PGPT0008415_25	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK009_02189	465	moaE_2		Molybdopterin synthase catalytic subunit	ATGGGACAAGTGTTATTTGAGATTGTAGATAATCCGATTTTAGTTGAAGAAGTAACGAATAAAGTCGCAAGAAGGGAAGTGGGTGCGATTACAACATTTATTGGTACCGTGAGAGAACTTACAAAAGGAAAACGAACGCTACATTTAGAGTATGAAGCATATAAACCGATGGCAGTAAAACAACTTATGAGAATTGGTGAAGAAATTAGTGAAAGATGGCCGGATGCAAAAGTAGCAATTACGCACCGTGTAGGGCGGCTAGAAATCATGGATATTGCGGTAGTCATTGCAGTTTCATCACCGCATCGTAAAGTAGCTTATGAAGCGAATGAGTACGCGATTGAACGTATAAAACGAATCGTTCCAATTTGGAAAAAAGAATTTCGGGAAGATGGAACGATGTGGGTTGGAGATCAACTTGAAAACACACCATATCCAGAAGGAAAACCAAAGAAGGAAGAATGA	MGQVLFEIVDNPILVEEVTNKVARREVGAITTFIGTVRELTKGKRTLHLEYEAYKPMAVKQLMRIGEEISERWPDAKVAITHRVGRLEIMDIAVVIAVSSPHRKVAYEANEYAIERIKRIVPIWKKEFREDGTMWVGDQLENTPYPEGKPKKEE	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
AK009_02190	1308	moeA_2		Molybdopterin molybdenumtransferase	ATGGAAAGAAGAGTGCCAATTACGGTTGAAGAAGCTGTTCGTAAAGTGATGGGATTTGCTGATAAAGGCTTAAAGGAGCTATTACCAATTGAATTAGCTTATGGACGTATATTAGCAGAGGATTTAATAGCTGACCATGATGTACCGTCATTTAATCGTTCGCCGTATGACGGATTTGCTATTCGAGCAGAAGATACTAATTTAGCAAGTTATGAAACGCCAATTGTATTTGAAGTAGTGGGTGAAATTGGTGCAGGATCGCTATTCCATGAGAAAGTAGGTCCGTTTCAAGCAGTTCGAATTATGACGGGAGCACAAATTCCGAATGGGTGTGATGCGGTTGTTATGTTAGAGCTGACTCGTCAATATGAGAAGAATGGCAACAATTATATGGAAGTGAAGCGATCATTCAAAAAGGGCGACAATATTTCTTTTCAAGGTGAAGATGCTCGTAAAGGAACGGTTCTTGCAAAGAAAGGATCGTACATTAATCCAGGTATTTCAGCTCTTCTTGCTACATTCGGTTATAGTGAAGTGCCAGTTGCGAGAAAGCCTGTAATTGGACTGTTAGCGACTGGGAGTGAATTGCTTGATGTCGATGATTCATTACAGCCAGGGAAAATCCGAAATAGTAATACGTATATGATATTGTCTCAAATTCGAAGAGCAGGCGGCAGAGTAAAATATTTTGGGAAGTTTAGTGATGATTTTAATACATGTTTTACAGCTGTGAAAGAAGCGCTTGGGCAAGTGGATATGTTAATTACAACGGGCGGTGTATCAGTAGGAGATTACGATTATTTACCAGCTATTTACGAAAAGTTAGGTGCCTCTGTTCTTTTCAATAAAGTTGCAATGCGGCCAGGGAGTGTTACGACTGTAGCACAATTAAATGGCAAGTTATTATTTGGTTTATCAGGAAATCCATCAGCTTGTTATGTAGGGTTTGAATTATTCGTAAGACCGTGTATTCGGGCGTATATGTTTAGTGAAAAAGTACATTTAAAAAGAGAAAAAGCATTATTAGGAGAAGATTTTCTAAAACCGAATCCATTTACAAGATTTGTACGAGCGAAATTGCAATATGATGAGGGGAAATTAATAGCTTATCCATCAGGTTTTGATAAATCTAGCTCAGTTTCCTCATTGGCAGAATCAAACGTGTTTATCGTATTGCCGGGCGGGACAAGAGGATATAAAAAAGATATGTTTGTCGATGTTCTTTTATTAGAAGATAACGAAGGTAGTGAATGGCCTTGGACATTTCATAAAGTGAGAGGTGGTTCTAATGGGACAAGTGTTATTTGA	MERRVPITVEEAVRKVMGFADKGLKELLPIELAYGRILAEDLIADHDVPSFNRSPYDGFAIRAEDTNLASYETPIVFEVVGEIGAGSLFHEKVGPFQAVRIMTGAQIPNGCDAVVMLELTRQYEKNGNNYMEVKRSFKKGDNISFQGEDARKGTVLAKKGSYINPGISALLATFGYSEVPVARKPVIGLLATGSELLDVDDSLQPGKIRNSNTYMILSQIRRAGGRVKYFGKFSDDFNTCFTAVKEALGQVDMLITTGGVSVGDYDYLPAIYEKLGASVLFNKVAMRPGSVTTVAQLNGKLLFGLSGNPSACYVGFELFVRPCIRAYMFSEKVHLKREKALLGEDFLKPNPFTRFVRAKLQYDEGKLIAYPSGFDKSSSVSSLAESNVFIVLPGGTRGYKKDMFVDVLLLEDNEGSEWPWTFHKVRGGSNGTSVI	PGPT0008430_1128	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_02191	1017			hypothetical protein	ATGGCTGATCGGTATTCACGACAACAGTTGTTCAAACCAATTGGGAGTAAAGGACAAGAAAAAATTCGAAATAAACATGTGTTAATTGTAGGGGCAGGCGCATTAGGAAGTGCAAGTGCCGAAAGTTTCGTACGTGCAGGTGTTGGCAAGTTGACGATTATTGATCGTGACTACGTTGAATGGAGTAATTTACAAAGGCAACAATTGTACTCTGAACAAGATGCGAGAGAGAAAATGCCGAAAGCAATTGCTGCAAAAAATCGGTTAGAACAAATTAATTCGGAAGTACAAATACATGCTTTCGTAATGGATGCAACTTCAGAAAATATGGAAGGTCTATTAAAAAATGTAGATGTAATCATTGATGCAACAGATAATTTTGATATTCGATTTGTAATAAATGATTTATCACAAAAACATAATATTCCTTGGGTATATGGTTCTTGCGTTGGATCGTATGGTATGAGTTATACAATTATTCCGCAAGAGACACCGTGTTTACATTGTATGCTGAAAAATATTCCTGTTACAGGTGTGACATGTGATACCGCTGGAATTATTAGCCCGACTGTTCAAATCGTCGCAGCATATCAATTGGCAGAAGCACTCAAAATTTTAGTGGAAGATTTCTCAGCAATTAGAAAAACATTTTTCATGTTTGATATATGGAGTAATCAAAATCATTTTATAAAATTAGGGAAAATAAAAACAGACGCTTGTCTCTCATGCGGTTTGAATCGAACTTATCCTTATTTATCATACGAAAATCAAACGAAAGCAGCTGTTTTATGCGGAAGAAATACAGTTCAAATTAGAACAGTAGACAATAGGAAATACAATTTTGATGATATAGAAAAAGTATTACAAAAACTGGGGAAAGTAGATCGGAATCCGTATTTACTATCTTGCCAATTCGATGATTACCGCGTGGTTGTTTTTCGAGATGGTCGTGTTTTTATTCATGGTACAAATGATATTTCGAAAGCGAAACAACTATATTATCGCGTATTCGGTTAA	MADRYSRQQLFKPIGSKGQEKIRNKHVLIVGAGALGSASAESFVRAGVGKLTIIDRDYVEWSNLQRQQLYSEQDAREKMPKAIAAKNRLEQINSEVQIHAFVMDATSENMEGLLKNVDVIIDATDNFDIRFVINDLSQKHNIPWVYGSCVGSYGMSYTIIPQETPCLHCMLKNIPVTGVTCDTAGIISPTVQIVAAYQLAEALKILVEDFSAIRKTFFMFDIWSNQNHFIKLGKIKTDACLSCGLNRTYPYLSYENQTKAAVLCGRNTVQIRTVDNRKYNFDDIEKVLQKLGKVDRNPYLLSCQFDDYRVVVFRDGRVFIHGTNDISKAKQLYYRVFG	PGPT0008935_102	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
AK009_02192	780	focB_1	COG2116	putative formate transporter 2	ATGGCATTTCATAAGCCGGAACAAATTGCTGAGCTTGTCATTGAGGCCGGTGTTCAAAAAGTAAGACAGACATTGCCAGCGATGCTTATTCTCGGTTTTTTAGGAGGAGCGTTTATTGCGATAGGTTTTTTACTTAACATTCGAGTTTTAGGGAATTTACCTGAGCGCTGGGGGAGTCTAGTGAATGTTTTAGGAGGAGCGGTATTTCCTGTTGGACTTATGCTCGTAGTATTAGCAGGAGGAGAATTAATTACGGGAAATATGATGTCACTGTCTATGGCGCTTTATGCAAAGAAAATTACATTGATAAGTGTACTGAATAACTGGGTTTGGATTACTCTCATGAATTTTATTGGGGCAATTTTCGTTGCGTATTGCTTTGGACATCTTGGCGGATTAACAGAGGGAGAGTATTTAAATAAAACAGTAGCGATAGCGGAAGGGAAGTTACATGAATCATTTGGAAGAACTTTAATTTTAGCAATTGGTTGTAATTGGCTCGTTTGTCTTGCTCTTTGGCTCGCTTACGGGACGAGTGATTTTGTCGGAAAAATCATCGGAATTTGGATTCCAATTATGGCATTTGTAGTGATTGGATTTCAGCAAGTAGTAGCAAATATGTTTGTCATTTCCGCTGTTATTTTTGCTGGTCATCTAACGTGGATGGATTTGGCTAAAAATTTTGTTCCTGTTTTTATCGGAAATGTAATTGGAGGAGCTGGGTTTGTTGGTTTTGCTTACTTTGCTTGTTATCAGAAACAACATTCTAATATGAAATAG	MAFHKPEQIAELVIEAGVQKVRQTLPAMLILGFLGGAFIAIGFLLNIRVLGNLPERWGSLVNVLGGAVFPVGLMLVVLAGGELITGNMMSLSMALYAKKITLISVLNNWVWITLMNFIGAIFVAYCFGHLGGLTEGEYLNKTVAIAEGKLHESFGRTLILAIGCNWLVCLALWLAYGTSDFVGKIIGIWIPIMAFVVIGFQQVVANMFVISAVIFAGHLTWMDLAKNFVPVFIGNVIGGAGFVGFAYFACYQKQHSNMK	PGPT0017240_712	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
AK009_02193	1017	moaA_2	COG2896	GTP 3',8-cyclase	ATGAAATCAGTTACATTAGACAAGTTGCAACGTCCGTTAAAGGATTTACGTATTTCAGTTACTGATCGCTGTAATTTTCGCTGTCGATATTGTATGCCAGAAGAAATATTTGGTCCTGATTACTCGTTTTTGTCTAATGACAAAATTTTATCTTTTGATGAAATTGAAAGGATAACACGTATTTTCGTTTCTTTAGGTGTGAGAAAATTACGGATTACAGGCGGAGAACCGTTACTTAGAAGAGGGCTTCCAAAGCTTATTGAGCGGCTTCATAAAATAGATGGTGTAGAAGATATCGGTTTAACAACCAATGGATCGTTACTTAAAAAATTTGCTCCTGATTTATATAAGGCGGGACTATCACGTGTAACAGTTAGCTTAGATTCCTTAGAAGAAGAGCGGTTTTTCTATTTAAATGGTAATAGGAGCAAAGTGCAAAGGGTTCTGGAAGGAATACAGGCTGCAGCTGAAGTTGGAATGAAAATTAAAATAAACATGGTCGTTCAAAAGGGAAAAAACGAACAGGACATTTTGCAGATGGCGCAATACTTTAAGGAAAACAAGCATATTCTTCGTTTTATTGAGTATATGGACGTTGGAAATTATAATGGTTGGGATTTAAAAGAGGTCGTCTCTAAACAAGAAATAGTAGATACGATTCATCAAGTTATGCCGTTAGAACGGATAGAAGCAAATTATTCTGGTGAAGTGGCTACTAGGTATCGTTATATAGGAAGCGACGAGGAAATAGGTATTATTTCATCGGTAACAGATTCTTTTTGCTTATCATGTACGAGAGCTCGTATTTCTGCAGAAGGAAAATTATATACTTGCTTATTTGCTTCTAAAGGAAATGATTTAAGAGAATTGCTTCGTTCTGAACATACAGATGAGGACATTACAGATGTAGTACGCGATATATGGAATAATAGGGAAGATCGTTATTCAGATGAACGCTTAAATCATAAAAATAAGAATACAATACCTAAAATTGAAATGTCACATATCGGTGGTTAA	MKSVTLDKLQRPLKDLRISVTDRCNFRCRYCMPEEIFGPDYSFLSNDKILSFDEIERITRIFVSLGVRKLRITGGEPLLRRGLPKLIERLHKIDGVEDIGLTTNGSLLKKFAPDLYKAGLSRVTVSLDSLEEERFFYLNGNRSKVQRVLEGIQAAAEVGMKIKINMVVQKGKNEQDILQMAQYFKENKHILRFIEYMDVGNYNGWDLKEVVSKQEIVDTIHQVMPLERIEANYSGEVATRYRYIGSDEEIGIISSVTDSFCLSCTRARISAEGKLYTCLFASKGNDLRELLRSEHTDEDITDVVRDIWNNREDRYSDERLNHKNKNTIPKIEMSHIGG	PGPT0008410_1926	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
AK009_02194	798	fdhD_1	COG1526	Sulfur carrier protein FdhD	GTGAAACCGATACAGGTAGAAAGAGAAATCTTTCGTTATGAACAAGAGGTATTTAAGCATATAGAGGACAGCATTGTAACAGAGTTTCCTGTCACCATTAAAATGAACGGACAGGAGTTTGTTACAATGGTTAGTACTCCAGAATATATAGAAGATATGGTAATAGGCTTCTTAGCATCTGAAGGAATCATTCGAAAGTATGAAGATATTGATAGTGTATGGGTGCAGGAGAAAGAAGGATTTGTACATGTAACAACGACAAAAGTAAATCCGTATTATGAACAAATGCAAAATAAACGATATATTACGTCTTGTTGTGGTATGAGTAGGCAAGGATTTGTTTTTGCAAATGATGCACTAAGTGCAAAAAAGATGAAGGGTGTCCATGTACAGGTTGCTGCCGATGATTGTTTTCGGTTAATGAAAGAAATGCAGCAATCTGCGGATACGTTTCATCATACTGGCGGGGTTCATAATGCAGCTTTATGTGATGTGAATGGTATTATTTTAAGCCGAATGGATATTGGTAGGCATAATGCACTAGACAAAATTTACGGTTATTGTTTAAAAAACGATATTTCTATAAAAGATAAAATCATTGTTTTTAGTGGTCGTATTTCTTCGGAAATATTATTGAAAGTTGCAAAAATCGGTTGTGAAATTATACTATCAAAATCAGCTCCAACTGAGTTAGCTTTGCAACTAGCGGAAGATTTAGGTATTACGACAATAGGATTTATTCGTAATCACTCCTTAAATGTGTATACCCATCCAGAGCGTGTTTTAAATATAAAATAA	MKPIQVEREIFRYEQEVFKHIEDSIVTEFPVTIKMNGQEFVTMVSTPEYIEDMVIGFLASEGIIRKYEDIDSVWVQEKEGFVHVTTTKVNPYYEQMQNKRYITSCCGMSRQGFVFANDALSAKKMKGVHVQVAADDCFRLMKEMQQSADTFHHTGGVHNAALCDVNGIILSRMDIGRHNALDKIYGYCLKNDISIKDKIIVFSGRISSEILLKVAKIGCEIILSKSAPTELALQLAEDLGITTIGFIRNHSLNVYTHPERVLNIK				NA	NA	NA	NA	NA
AK009_02195	345			hypothetical protein	ATGTCAAAAAAAGTACATGAATTTAATGATATGATCCGAAAACTTCGAAAGGAACTTTTCGGAAAAGGACCGGAACGAATTCATACTGTTTTTGCAGAAAATATGGCTATAGCGACTCTTTATGGAAACTTAACACCTACTGAAAAATTTATTTCAAGTACGATGGACGGTGCGGAAATGGTTCATCTGGCTAGAACAAAAATGATTCAAGAAGTGTATGCTGCGAATTCCCGTGAACATTTGGAGGAACTTGTTGGCGCGAAATTAGTGAATTTGTTTTCAGATATGAAAGTAGAAGAAGATATTGCAGTTTCGGTATTTGTTTTTGATAAAAATATAACGTGA	MSKKVHEFNDMIRKLRKELFGKGPERIHTVFAENMAIATLYGNLTPTEKFISSTMDGAEMVHLARTKMIQEVYAANSREHLEELVGAKLVNLFSDMKVEEDIAVSVFVFDKNIT				NA	NA	NA	NA	NA
AK009_02196	483			hypothetical protein	ATGGCTGCACCTATAAAAATGATTCAAAAACAAGAATTAACTGAGGAAGAAATAAAACAGCAAAAGTTAGATGATTTAAAAGAGCTTCTAACTAATAATGAAGAAGCTCTAAATCAGATGTTTAATATAGTAGGGGAATTAAATGACATTGGAATGCTAGAAGCTGCAAATTCTATGCTAAAAGCGAAAGAACCAATTGCGAAGATTGTTCTAGGTCAAGTAACTCGTGAGCCTGTTACAAATTTAATTAATAATATGATGGGCGCTGCAGGTGCGTTAACTGAACTTGACCCAGAACTTACGAAAAAGCTTATAGGTAGTTTATTAGTCGGGCTAGAAGAAGGTAATGAACATCTAGAAAGTAATAAAAAAGTAGGGGTATTCGATCTTATGAAAGTATTGAAAGACCCAGATATTAACCGTGCGATCGGGTTTGGGCTTCATTTCTTAAAAGGAATGGGGAAAGGGTTAAAAGACGAATAA	MAAPIKMIQKQELTEEEIKQQKLDDLKELLTNNEEALNQMFNIVGELNDIGMLEAANSMLKAKEPIAKIVLGQVTREPVTNLINNMMGAAGALTELDPELTKKLIGSLLVGLEEGNEHLESNKKVGVFDLMKVLKDPDINRAIGFGLHFLKGMGKGLKDE				NA	NA	NA	NA	NA
AK009_02197	2280			Putative formate dehydrogenase	ATGACGGGATTAAAACCAGATATTCTTGAACCGATGGTAGATTTAATTAAAGAAGTTGAGCCTGGATATAGCGGTATTTTTGCGGTATCAGAAGTGGAAGCGGCCATGCGTGATACTCGTACGAAGAAAACGAAAACAGTATGTACATTTTGTGGTGTAGGTTGTTCGTTTGAAGTGTGGACGAAGGGGCGTAAAATCCTTAAAGTACAGCCATCTTCAGATGCACCAGTTAACGCAATTTCCACTTGTGTAAAAGGGAAATTTGGTTGGGATTTCGTAAATTCTAAAGAACGAATTACAAAACCTTTAATTCGTAAAAATGGAACGTTTGTTGAATCTACATGGGAAGAAGCATTGAATGTAGTTGCAAGTAAATTAGGATCGATTAAAGAAGAGTACGGTAAAGATGCTATCGGTTTTATTTCTTCATCTAAAATTACGAATGAAGACAATTACGTTATTCAAAAACTAGCCCGACAAGTATTTGAAACGAATAATATTGATAACTGCTCACGTTATTGCCAATCACCAGCAACGGATGGTTTGTTCCGTACAATTGGTATGGGCGGTGATGCAGGAACGATTAAAGATATTGCGCAATCTGGTCTTGTTATTATTGTAGGATGTAATCCGACAGAAGGTCATCCTGTTTTAGCTACACGTATTAAACGTGCACATAAATTACACGGACAAAAGTTAATTGTAGCTGATCTTCGTAAAACAGAAATGGCAGAGCGATCAGATGTCTTTATTAGTCCAAAACAAGGAACAGATCAAGTATGGTTAATGGCTGTTACGAAATATATGATTGATCAAGGTTGGCATAATCAAGAATTTATTAATGAGAATGTAAACTTCTTTGAAGATTTCAAAGAGAGCCTGAAAGAATATACACTTGAATATGGAGAAGAAATGACTGGTATTTCAAAAGAAACACTTATTCAAATGGCTGAAATGATTCGTGATGCAGATGGTACATGTATCCTTTGGGGGATGGGAGTAACGCAAAATACAGGTGGCTCTGATACTTCCGCTGCGATTTCAAACTTACTTCTTGCAACAGGGAACTATCGTCGTCCAGGAGCAGGTGCATACCCACTTCGAGGTCACAATAACGTACAAGGTGCTTGTGATATGGGTACTTTACCAGGATGGCTTCCAGGATATCAGCACGTTACTAACGAAATGGAACGTGCGAAATTTGAAACTGCTTACGGAGTGAAAATTGATAGTGAACCAGGTCTTAATAATATTGAAATGCTTCACGCAATTGACGAAGGAAAAATGAAAGCAATGTATCTTGTCGGAGAAGATATGGCTCTTGTAGATTCTAATGCAAATCATGTACATGAAGTGTTAACGAGCCTTGATTTCTTCGTTGTGCAAGATGTTTTCCTTTCTAAAACTGCTCAATATGCAGATGTTGTATTACCAGCAGCGCCATCTCTTGAGAAAGAAGGTACTTTCACAAATACAGAGCGCCGTGTCCAAAGATTATATCAAGTTCTTCCTACGCTAGGAGATGCGAAACCAGACTGGTGGATCGTCCAGGAAGTTGCGAATAAACTAGGTGCAAACTGGAATTATAGCCACCCAAGTGAAATCTTTGCTGAAATGGCAAGTTTATCACCATTGTTCTCGCAAGCGAACTATGAAGTGCTTGAAGGATGGAACAGTTTCCATTGGGGAAGTTTTGATGGAACGAATACACCACTTCTGTTCCAAGATGGATTTAACTTCCCAGATAAAAAAGCTCGTTTTGCGATTGCTGACTGGGTACGTCCAGCTGAATTTCCAGCCGAGTTTGACCTTCACATTAACAACGGTCGTATGCTTGAGCATTTCCATGAAGGGAATATGACAAATAAATCAACAGGTATTCAAACGAAAGTACCTGGTGTTTTCGTTGAAATCTCTCCAGACCTTGCAAAAGAACGTGGCGTAAAAACAGGTTCGTTAGTTCGTCTTGTCTCTCCTTTTGGAGCATTAAAATTACGTGCACTCGTTACAGATCGTGTAAAAGCGAATGAGTTATATTTACCGATGAACTCTACAGATAACGAAACGGCAATTAATTTCTTAACAGGTCCTGCTGTGGATGTACGTACGAATACACCTGCGTATAAACAAACGAAAGTACGTATGGAAGTGTTAGAAGTTGATGGCGAAAATCCGATGCCAAAAGCGAACCCACGCAATAAAAAACGTCACCCTCAAGCTGGAATTGAGGTACATCGTAAGTGGGCACGTACAGGGTATGTGCATTTAACGGATAAGTAG	MTGLKPDILEPMVDLIKEVEPGYSGIFAVSEVEAAMRDTRTKKTKTVCTFCGVGCSFEVWTKGRKILKVQPSSDAPVNAISTCVKGKFGWDFVNSKERITKPLIRKNGTFVESTWEEALNVVASKLGSIKEEYGKDAIGFISSSKITNEDNYVIQKLARQVFETNNIDNCSRYCQSPATDGLFRTIGMGGDAGTIKDIAQSGLVIIVGCNPTEGHPVLATRIKRAHKLHGQKLIVADLRKTEMAERSDVFISPKQGTDQVWLMAVTKYMIDQGWHNQEFINENVNFFEDFKESLKEYTLEYGEEMTGISKETLIQMAEMIRDADGTCILWGMGVTQNTGGSDTSAAISNLLLATGNYRRPGAGAYPLRGHNNVQGACDMGTLPGWLPGYQHVTNEMERAKFETAYGVKIDSEPGLNNIEMLHAIDEGKMKAMYLVGEDMALVDSNANHVHEVLTSLDFFVVQDVFLSKTAQYADVVLPAAPSLEKEGTFTNTERRVQRLYQVLPTLGDAKPDWWIVQEVANKLGANWNYSHPSEIFAEMASLSPLFSQANYEVLEGWNSFHWGSFDGTNTPLLFQDGFNFPDKKARFAIADWVRPAEFPAEFDLHINNGRMLEHFHEGNMTNKSTGIQTKVPGVFVEISPDLAKERGVKTGSLVRLVSPFGALKLRALVTDRVKANELYLPMNSTDNETAINFLTGPAVDVRTNTPAYKQTKVRMEVLEVDGENPMPKANPRNKKRHPQAGIEVHRKWARTGYVHLTDK	PGPT0019635_3107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
AK009_02198	984			hypothetical protein	ATGAAAAAGAAACAAGCAATTACCATTCTTGCTAGCATAGAGACATATGAAAACTTAGCATCCTTTCAAACTCTTACAGAATTGAATGATACCGTTCGAACGTATAAAAAACAATTTGCTAATCAGTTAAATAAAAACCAATTGGCTGTACTTAATCACTTACACAGCCATTCTTCTAAATACTTTGGCGTTTCTTTTAAATCCAAAAAGAAGATTGCTGAAGTACTTCATATTAGTCGTAGAACAGTTATTCGTGCATGCCAACACTTAGAATTACTTGGTATCATCAAACAACTAGAAATGAAACGTAAAAGTGATATGAGACAAACAAGTAACATTATTGTAATCCAGCCAATCATCACAAAAGAAGAGTTTGTCACAGAAGACCCTACTAAAAATGCTGAAATTTGTCACACCAAGAAAACAACTACTAAAATCTTAAAACAAAGGATTAAAGATATAAATAAACGTAAAGAGGAAGTTTCGCAATCTTTTCGACATGATTTAGACTTCATTGATTATCGTGTGCCACAATCTATGCGTATGGAATTACAAACTTCTTTTTCATCAAATGTTATTAATGAATCCTTCAAAAATGCCAAAAATATTGCGAAGAAGGCTGCAAAACAATTTAATTTACTAGGGGATACAGATATATTTCACAACCTTCTTGCGAATGCTTCTTCGGTTTTGTACTCTAAAACACATAAGTACGAGCATAACGGAAATTTGATGAAAAATCCTATTGGATACTTTACTCGAACATTCAAAAGGATGGTCTATAACTACATTGATAACTTTAGAGAGATACATAATCTTGCAAATCGTAAGACAAGTGCATGCACTAGTGATGGGATATTTTATAATTGGCTAGAGGTTGATGGCTCAAAAATACCTTCCACAAAGACAATAGACAGCTCTTTTGCTCCAGGTGTATATTATAAAATCTCTAAAGAAGAAGCTGATGGAATGGGGCTATATTGA	MKKKQAITILASIETYENLASFQTLTELNDTVRTYKKQFANQLNKNQLAVLNHLHSHSSKYFGVSFKSKKKIAEVLHISRRTVIRACQHLELLGIIKQLEMKRKSDMRQTSNIIVIQPIITKEEFVTEDPTKNAEICHTKKTTTKILKQRIKDINKRKEEVSQSFRHDLDFIDYRVPQSMRMELQTSFSSNVINESFKNAKNIAKKAAKQFNLLGDTDIFHNLLANASSVLYSKTHKYEHNGNLMKNPIGYFTRTFKRMVYNYIDNFREIHNLANRKTSACTSDGIFYNWLEVDGSKIPSTKTIDSSFAPGVYYKISKEEADGMGLY				NA	NA	NA	NA	NA
AK009_02199	621			hypothetical protein	ATGCATATGCAGACACATATCAAAATGAATCGTCAGATGATGATTTTGACCTCGATTAGAAAGTTGAAATTCGCCACTAGAAGACATTTGATGGCCATTCACGATATGGGAGGAATACGGAATGCGAATCGGATTCTAAAAGATTTAAGCCCATATGTGAATAGTACCGTTTATAAAAAAGAGCATGTATACTACCTCAATAAACAAGGACGTGCGTTATTCGATGATGCAGAAAAGGTTGTGCCCACCATTCGATTAGCACACAGCCTCATGAGAAACGAAGCGTGGTTGCATCTATTTTGTCCCGAAGACTGGCAGATAGAAGCCCCTATACGTTATAAAGTGCATGAAAATAAGAGAACGATTATTCCAGATGTAAAGTACCGGGATAGTGACGGGATTTTAAACGCAGTCGAAATAGATCGTACACAAATGATGAATGTGAACAGTGAAAAAATGAATAAGTATGGTGAATTCACCTTGTATTATAAAAATAAATATAACGGGAAAGTTCCTATTGTTCACTTCTTTACAATCACACCATATAGGCAAAAGACGCTAGAACAATTTGCTATGCAGCATGGTGTATATGCAAAGGTATATGTGGCACCTGAAGTGTAA	MHMQTHIKMNRQMMILTSIRKLKFATRRHLMAIHDMGGIRNANRILKDLSPYVNSTVYKKEHVYYLNKQGRALFDDAEKVVPTIRLAHSLMRNEAWLHLFCPEDWQIEAPIRYKVHENKRTIIPDVKYRDSDGILNAVEIDRTQMMNVNSEKMNKYGEFTLYYKNKYNGKVPIVHFFTITPYRQKTLEQFAMQHGVYAKVYVAPEV				NA	NA	NA	NA	NA
AK009_02200	1182			hypothetical protein	ATGCTGGAATTACTATTGGTCCCGACGACAGCTTTAACTATTGCATTCGTAAGTGATCGTTTTAAAAATAAAATAGATGATAAAAAGAAGATACAAGTATTTTTTGAAGTGTCAGGAATTGCAATTAAAAAAGATGATAAGATTCATTATCCAAAATTTAAAAAGCGAACTCATGATGATAGAAGTACAACATACGTGTATGAGTTGCCTGTTGGTATGCCAAGTAAAATTATTCGAAAGGTTGAAGATGTTGTAAGTGAAGGGTTAAATAAACCTGTTCGAATTCAGTATGACAATTATAAATTGAACATTCGTGTATTCGACCAAGAAATACCGAAGAAGTGGGAATGGTCAAACAATTTAATTCAAGGTGGAAAATGGCTTGTGCCAATAGGGCAAAGTTTAGAACAATTGATTTATCACGATTTTGATAAAACACCACATATGACATTAGGTGGTTTAACACGTATGGGAAAGACTGTATTCCTAAAGAATGTGATGACATCTCTTATTACTGCACAAGCAGAATATACGCACTTGTTTATTATTGATTTAAAAGGAGGATTAGAGTTCGGACCATACAAAAATGTAAAACAGATTGAGTCGATTGCAGAAAACCCAATCGAAGCTTTTCAGTTATTGAACATGGTTTTGAAAAAGATGGAAGAGAAAATGCTTTTTATGAAAGAACACCATTATACCAATGTGGTAGAAACAAATATAAAAGAACGCTATTTTATTATCGTGGATGAAGGCGCAGAACTTTGTCCTGATAAAAGTATGAATAGAAAACAACAAAAGTTATTAGGAGCTTGCCAACAAATGCTGTCTCATATAGCGCGTATAGGTGGAGCATTAGGATTTCGATTGATATTTTGTACACAGTACCCTACTGGTGATACTTTACCACGTCAAGTGAAGCAAAACAGTGATGCAAAATTAGGATTTCGATTACCAACTCAAACAGCTTCTCAAGTTGTCATTGATGAAACGGGTCTGGAATCGATTGAAAGTATACCAGGGCGCGCGCTTTTTAAAACAGATCGATTAACAGAGATTCAAGTCCCTTATATCTCAAATGAGCAGATGTGGGACGTATTAAAACAATACGAGGTGAAAAAAGATGCATATGCAGACACATATCAAAATGAATCGTCAGATGATGATTTTGACCTCGATTAG	MLELLLVPTTALTIAFVSDRFKNKIDDKKKIQVFFEVSGIAIKKDDKIHYPKFKKRTHDDRSTTYVYELPVGMPSKIIRKVEDVVSEGLNKPVRIQYDNYKLNIRVFDQEIPKKWEWSNNLIQGGKWLVPIGQSLEQLIYHDFDKTPHMTLGGLTRMGKTVFLKNVMTSLITAQAEYTHLFIIDLKGGLEFGPYKNVKQIESIAENPIEAFQLLNMVLKKMEEKMLFMKEHHYTNVVETNIKERYFIIVDEGAELCPDKSMNRKQQKLLGACQQMLSHIARIGGALGFRLIFCTQYPTGDTLPRQVKQNSDAKLGFRLPTQTASQVVIDETGLESIESIPGRALFKTDRLTEIQVPYISNEQMWDVLKQYEVKKDAYADTYQNESSDDDFDLD	PGPT0030468_8229	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
AK009_02201	183			hypothetical protein	ATGACACTTGCAGGAGAAGCAGTCATTATTTGGACAGCAACAGGTTTGTCTGTAATCGCGATGAATGTAGCTGAAAAAATGGGGAAGAGTGTTCCACATTGGCTTCCACGTATAACCTTGTATACGACGCTTACGGGCTCGTTCTTATATCTTCTACGTTATGTTCTCGTTATGTTTCTATGA	MTLAGEAVIIWTATGLSVIAMNVAEKMGKSVPHWLPRITLYTTLTGSFLYLLRYVLVMFL				NA	NA	NA	NA	NA
AK009_02202	318			hypothetical protein	ATGCGTTCTCATTATAGTTATCTCAATGTAACGCCGTATTTATATTCATCAAAAGAATTACGCCACATGTATAACGAGTCAAGATCTAGAAAAGAGACGGAATCAATTCTTACTCACATGAGGAACCATGAAGTATTTGATAACAAAGAGTACAAAGGGTATTTCAGTTTATCACAAGTCATTGAAGAAGATTTATATGGAGAAGAGGAGGATATATTGAATTGGCAAGATTTAATGGAGCGGTATCAGATTGTAGCTACTAAATCGGGGATTAAATTTCGTGAAAAAGAAGAACTGACCGAGGAGGAATGGTTATGA	MRSHYSYLNVTPYLYSSKELRHMYNESRSRKETESILTHMRNHEVFDNKEYKGYFSLSQVIEEDLYGEEEDILNWQDLMERYQIVATKSGIKFREKEELTEEEWL				NA	NA	NA	NA	NA
AK009_02203	204			hypothetical protein	ATGAATTTTAAATGTAGATTGAAAATCATATTTGCAGAAATGGATATTAAACAAAGTGACTTTGCTAAAAAAATCGGCATCGACGGCTCGACTCTTAGTGCCATTGTTCGGAATAGAACTCAGCCAAGATTTGATACTGCATATATGATTTGTAAAGAACTAAAAAAACCTATTGAAGAAATATGGATACTTGAAGAGGAGTAA	MNFKCRLKIIFAEMDIKQSDFAKKIGIDGSTLSAIVRNRTQPRFDTAYMICKELKKPIEEIWILEEE				NA	NA	NA	NA	NA
AK009_02204	585			hypothetical protein	ATGCAAAAACCACCATTCAAAACACTAAATCAAATCGTTGAAGGATACTATCATCCAGGAAAGGGATTATCTGAGGTTGCAAAGTTTATTGTAGAACATGAGGAAGAATCTTTATTTGTACTGGATTACAAAGGAATTTTGTATCAAAAAACATCCGGTCAAAAATATGATCAAGGTTACGAAACACTACTGCTTCCTTATACAGAAATTCATTCAAATTCAAAGCAAGATTTATTACAACTGTTAAAGCGAAAAATAATTGTTTATTTTACATATAACGAACGAGATCAACAGAAAGAAGAGTTTATACCTCATATGGGGAAGCAACTGTTTTCGTTTATGAGTCATCTACTGAAAAATATCCAGCAGAATAAAAAAACAAACTCAATTAAATTTATTCTCATGGATATTGAAGCTATAGGTTACATTCCTAAGCTTCCTAAAATTTTGGCTGGTTGCCGAGGGTTTAACATGGGGACCTGCTTATTTGTAGATGATAAAGAAACGCTACTATACGGATATAGCAAAGAACAAGTAGATAAGATGTATAAAAGCAGTATCGTTATTTCTAAAGTACACAAATAA	MQKPPFKTLNQIVEGYYHPGKGLSEVAKFIVEHEEESLFVLDYKGILYQKTSGQKYDQGYETLLLPYTEIHSNSKQDLLQLLKRKIIVYFTYNERDQQKEEFIPHMGKQLFSFMSHLLKNIQQNKKTNSIKFILMDIEAIGYIPKLPKILAGCRGFNMGTCLFVDDKETLLYGYSKEQVDKMYKSSIVISKVHK				NA	NA	NA	NA	NA
AK009_02205	705			hypothetical protein	ATGGAAATCCGAAAAAAATTAGTTGACCCAAGTAAATATGGTATAAAGTGTCCGTATACAATGAATCCTGAATTCATAACGGTTCATAACACTTACAACGATGCTTCAGCGGAAAATGAAATCGCGTATATGATTCGAAATAATAATGAAGTGTCCTTCCACATCGCAGTAGATGATAAAGAAGCGGTACAAGGAATTCCTTTAGAGCGTAACGCTTGGCATTGCGGTGATGGTGGAGGTAACGGAAATCGTAAATCTATCGGGGTTGAAATTTGCTACTCTTTAAGTGGTGGAGATAGATATTATAAGGCGGAAAATAATGCGGCTATTATTATGGCTCAATTGATGAGACAATATAACATTCCAATCAGTAAAGTTCGTACACATCAATCATGGAGTGGGAAGCACTGTCCACACCGTATGTTGGCAGAAGGACGTTGGGGGTCTTTCATTGAAAGGGTGCAAAACGCATATGACGGTGGCGGCAATACAGCACCATCCACACAACCGTCTAACAATGGTGTAGGTGTCGTTACCATTACAGCGGATGTATTACGCGTTCGTACGGGACCAGGAACGAATTACGACATTGTGAAAAAGGTGTACCGCGGAGAACGCTATCAATCTTGGGGCATTCAAAATGGCTGGTACAACGTTGGTGGAGACCAATGGGTATCAGGGGAGTATGTGCGGTTTGAGGGGTAG	MEIRKKLVDPSKYGIKCPYTMNPEFITVHNTYNDASAENEIAYMIRNNNEVSFHIAVDDKEAVQGIPLERNAWHCGDGGGNGNRKSIGVEICYSLSGGDRYYKAENNAAIIMAQLMRQYNIPISKVRTHQSWSGKHCPHRMLAEGRWGSFIERVQNAYDGGGNTAPSTQPSNNGVGVVTITADVLRVRTGPGTNYDIVKKVYRGERYQSWGIQNGWYNVGGDQWVSGEYVRFEG	PGPT0019115_1871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_02206	231	uviB_1		Bacteriocin UviB	ATGGAAGAACAAATCTTCAATTCCATGATTCAACAGGGAGCATTCGCAGCGTTATTCGTGTGGATGCTTTTTACGACGCAAAAAAAGAATGAACAGCGTGAAGAACAATATCAAAAGGTCATTGAAAAGAATCAGGACGTTATCACAAAACAAGCAGAAGCTTTTGGGGATTTATCAAAAGATGTTTCTGAAATTAAACAAAAAATCTTAGGAAGTGGAGATGTTCAATAA	MEEQIFNSMIQQGAFAALFVWMLFTTQKKNEQREEQYQKVIEKNQDVITKQAEAFGDLSKDVSEIKQKILGSGDVQ				NA	NA	NA	NA	NA
AK009_02207	225			hypothetical protein	ATGGAAGACATCAAGAAAAAAATAGAGGAGTTGACTTTGGAGCAAAAAGAAATCATGCGAGAAATAAGAAATTTAGAGATGCGTACTACGATAAATGAAAAAGATATTTCTACAGTTAATAAGCAATTAGAAAAAATCAGTTTAAATACAACTTGGATTTTACGAATTGTTATCGGGGGGGTTGTAACAGGGGTTTTAGGTCTAGTAGTTAAAGGAATAATGTGA	MEDIKKKIEELTLEQKEIMREIRNLEMRTTINEKDISTVNKQLEKISLNTTWILRIVIGGVVTGVLGLVVKGIM				NA	NA	NA	NA	NA
AK009_02208	4272			hypothetical protein	ATGCCTCGTAAAAAGAAAAGCGATATAGAAAGAGAACAAGCGTCTTCTATGGTGAAGGATTGGGAAAAAGACAATGGTGGTCTAGATGATAATCAGCGTGCTACGCTTCAACGCATGATTGAACTCAATTCCAATACGGCCCAGCAAGATATTCGACGTGTGGATTATTATAGTGGGAATCAAGATAAATATGAAAAAAATACGCAATCCATTCAAGTTCGGAATGAAAATACAGGTAATCTTGTAAAAAATAAAAAAGAAATCTTTGCTTTGAAAGAAGGACAAGAGGAAGAACCTTTAGAGAATGTCTATCAAAGCCTTGCATTTGACAAAAATAATGAGGACCATAGAAAGCCACCAGAGAGAAATCCGTTTTTAGATCAAATAAAAGCAGCGAACAGTATTTCACAATCCACATCCACAGACTGGATGAAACAACAGGAAGAAGCTAGTCGTACCAATCGTATGATGAGTACGATTGATCGTATCGCGAAACAGCCACCTCAGGAAGGTGGTTTTTTTGATGATTTGAAATTCGGTGCTAAAAAGTTTGGTGAAATGATTAAGCCACCTGAAGGTAAGACCAGACAAGAAGTTTGGGATGAGTATATGAAAGATGGTGGGAAAAGCAGAGGAACGAAAGAAGTCAATCGCTTTGCGAATCGTACTATGGATTCTACGTTACTCAATGCGCCAAGTGCGGCCATGAAAAAAGTAAGAGCACAAGATTCGGTAGATTGGCAAGATCACCGTGAAGGTGTAGGAGAAAACATTGCTGACTTTGTATCGACGGGGATTGGCTATGTACTTCCTGGTGCAGGGGCTGCGAATGTAGCGGGGAAACTGGGAATGGCTGCGAAGGTTGGTGAGAATACTTCTAAACTCGGAAAAATCGGACAATACGCAAAAGAGGGCGCAGTAACAGGTGCCCTTATTGCAGGTGCAGAAACACCAGCCAAAGCATATGTGAATCCGGAACAGACGGTAGGAGACCATTTAAAACGGATTGGCGTAGAGACAGCAGCAGGGGCAGCTATTACGCCGCTTGCCCACGGTTTGATGAATGCGGTGCAAAATTTGCGTAAGACGAAGGGGAATACTTCTACTTCTAACGTATCGGATGATGTCATTCAGCAGGAAAGACAACAAAGGGAATTCACCAATCAAGCTGCGGAAGAACAAGCATTACAAGATACACGTATCAAAAACGAACCGGAATCTTTACCAATTCAAGCTGCATCAGAATCCGCACCATCGTTAGAACAAGCAATCGAAAGTGTGGCCAAACAGAAAAAGAAAGCTTCTTCAAATGGAGAACTTCCTGATGACGTACAAGCGATGCGCCATGCACCTCCGGTCATTCAATCCGCTATGGCGCCAGATGGGCGGACCATTACGCAGAAAAAGTTAATGGATAGTTTCCGTGATAATGTGGGTATCACACTTCGTACGGGACGCATGGGATTGGGAGACGATGCTGTTTCGGGTATTTATAAGAATAGTCCCGAAGTCATTCGTACGCGTGATTATGGGGACTTAGAAACGTTAGCGCATGAAACAGGTCATCATTTGGATAAGAAATTTGGATTGAATGACCCAAAATTTGATGACGAATTAATGAAACTTGGTTCCCACACCTCCGGTCAAAATTATACGCCTGAACAAATTCGTCAAGAAGGTATGGCGGAATTCATGCGTCGTTATTTACTCAACCCAGCCATGGCAGAACAAGAAGCACCTGCATTTATGAAGCATTTTCAAAATACCATTCCGGAAGATGTACAAAAGGGATTGAAAACAGTACAAGAAGATGCGCAAATATGGGCGAATCAAGGGGATGAAGCGCGTTTCCGCGGAAAAATTAATGTGAATGAAAAAACTAAGGGTCTTGAGCGTGTGAAGCAAGTGCTGCAAAAACTACCAAATTCGAAAGAAGAGTTATATACAGATGTAATGGATAGACTTTATCCGATTTCTAAAGCAGAGAAAGAAATACTTGGTGGAGAATTGGCGGATGCGTCTGTTTCTCCTTATAAGAAGGCAAGGCTTGCAGCGGGAACGCCTAAAAAGGCGCAAATGAAGGTAGAAGAGTTCCGTAATATCTTTGGAGATTCAAAGGTTGATATGGCAGATATACGGGATTATGTGACCGCTACACATGCAAGAGACTTAGAAAAACAAGGCATTAAAACTGGGTTTACTCCGGACGAGATAGAGAAAACAATTGCGAAGTTTGATAATCCTGAAATACAAGCGGCACACAAAAAGATTAAAGCCTACAATGACTCTTTGCTAGATATGTTGGTTGAAGGGCAAATGTTATCTAAAGACGCTGTTACTGCCATGCGTGAAAAACACCCAAACTACATGCCATTCAATCGTTATTTTGATGAAGAAGGCATGGGTGAAGGTTTCGGCGGAGGAAAAGGATTTGTAGATTTAACCAATCCTGTTAAGCGTATAGAGGGTTCGAGCCGAAATGTCATTGATCCGTTTGAAAGCATTGTGAAAAATACCTTCAAGTCTATGCAAGCAATTGAAAGAAATAAAGTTGGCCTAGCTCTAGCAGATTTAGCGGAAAACGAAGGCGCAGGGAAATGGATTGAAAAGCTTGCTGGTGATGGAAAAGAATCGGTAGCGAAAGAGAACATTGTAACTGTTTTTCGAAATGGGGAAAAACAACAATATCAATTAGCGCCTGAATTATATCGTGCCGTGAAAGCAATGGACAAGGAGGTTACAAATAAATTTATATTGGCCGCATCAAAACCGAGTGATTGGCTACGCGCCGGGGCAACCTTAACTCCTGAATTTGCCTTGAGAAATCCGATTCGTGACCAGTTTGCAGCTTATGTGGTAAGTGATACAGGGTACAATCCTTTCGACTTTGTAAAGGGACTTAAAGAAGTTGGGAAGAAAAAGTTCGGGAAAGGTTCAGAGGTGTATGATGACTGGGTAAATCAGGGTGGTGCATATGGTGGATATTTATCTGCCGATCGTGATTTGTTGAAAGAACAGTTATCAGGATTAGAAAAACAAGAATCTGGACTTCCAAAAGCGATAAAGGCTATTACCGCTCCTGTCAATCCTAAAAATTGGCTGAAAGTATTACAAAATATATCTGAAGTATCGGAAGAAGCAACAAAAGTCGGGGCTTATCATAAAGGATTGAAAAAGGGATTAACGCCAGAAGAATCAGCTTATCAGGCGCGTGATTTAATGGATTTCAACCGTATGGGGAATTCCATGCAATCTGCGAATCGAATTTTTACGTTCTTAAATGCAAACGTACAAGGAAAAGACAAATTAATTCGTGCCATGAAGGAACATCCAGTTCGAACAAGTGCCCGTATTGCAGGTTCAACCTTACCACCAAGTGCACTAGCCATCGCAAGTTATGCAAATGCAAATGATAAACAAAAAGAAATGATGGACAATATGCCGCAACAAGAGAAAGACACGTATTGGTCATATGCCATTCCTGGTACTGATAAAGTGGGACGGATTCCCAAGCCTTTCGATATCTCATTACTAGCTAATACAGTAGAAAGAGCAAATAAATATAGAGAGGGAAATCAGTATGCGTTTGATGGATTTGATAAAACTGTAAATGATGCGGTGAAAGTACCATGGATACCGACTACGTTACAACCAATTGTCGAGAATATGGCAAACTATAGCTTTTTTAGGGATGGTCCAATTGTTCCAAAGCGTGATGAGAAAAATTCACCGAAAGAGCAATATGGTCCAAATACAAGCTTAACAGCTCGTGAAATGGCGAGTGCATTAGATAAGGTTGGAATCGAAGCTTCTCCATACAAAATTGATAATCTATATAAAGGATATACGGCTGGATTAGGTCAGTTTCCATTGAAAGGATTGGATAGTGCGATTTCATTAATATCTAATAAAGGTGTACCTACACCTATTGCACAGGAATGGAATGAATCGACACCAGGTGCAAAAGCATTCTTTGTAAATGGCCAAGGTGGTGGTAAGGTCATGGAGGATTACTACAACATCATGGATGAACAACAAGCGATTCAAGCGGATAGTAAAAAGAATGAAGAAGATGCATCAAATGCCGAAGAAATGAAAGTATTTAATAGAATTGATAGAGATATGGCTAAGTTACGTAAAGAATATTATGTTGTAAAATCGGATACTGAGATGAACCCAGAAGTAAAACGAAGTGAATTAGATCGTCTGGATGAAGAGATGCGTGCACTTGCACGAAAAGGAATTACAGTCTTTAGACCTGATTATAAATAA	MPRKKKSDIEREQASSMVKDWEKDNGGLDDNQRATLQRMIELNSNTAQQDIRRVDYYSGNQDKYEKNTQSIQVRNENTGNLVKNKKEIFALKEGQEEEPLENVYQSLAFDKNNEDHRKPPERNPFLDQIKAANSISQSTSTDWMKQQEEASRTNRMMSTIDRIAKQPPQEGGFFDDLKFGAKKFGEMIKPPEGKTRQEVWDEYMKDGGKSRGTKEVNRFANRTMDSTLLNAPSAAMKKVRAQDSVDWQDHREGVGENIADFVSTGIGYVLPGAGAANVAGKLGMAAKVGENTSKLGKIGQYAKEGAVTGALIAGAETPAKAYVNPEQTVGDHLKRIGVETAAGAAITPLAHGLMNAVQNLRKTKGNTSTSNVSDDVIQQERQQREFTNQAAEEQALQDTRIKNEPESLPIQAASESAPSLEQAIESVAKQKKKASSNGELPDDVQAMRHAPPVIQSAMAPDGRTITQKKLMDSFRDNVGITLRTGRMGLGDDAVSGIYKNSPEVIRTRDYGDLETLAHETGHHLDKKFGLNDPKFDDELMKLGSHTSGQNYTPEQIRQEGMAEFMRRYLLNPAMAEQEAPAFMKHFQNTIPEDVQKGLKTVQEDAQIWANQGDEARFRGKINVNEKTKGLERVKQVLQKLPNSKEELYTDVMDRLYPISKAEKEILGGELADASVSPYKKARLAAGTPKKAQMKVEEFRNIFGDSKVDMADIRDYVTATHARDLEKQGIKTGFTPDEIEKTIAKFDNPEIQAAHKKIKAYNDSLLDMLVEGQMLSKDAVTAMREKHPNYMPFNRYFDEEGMGEGFGGGKGFVDLTNPVKRIEGSSRNVIDPFESIVKNTFKSMQAIERNKVGLALADLAENEGAGKWIEKLAGDGKESVAKENIVTVFRNGEKQQYQLAPELYRAVKAMDKEVTNKFILAASKPSDWLRAGATLTPEFALRNPIRDQFAAYVVSDTGYNPFDFVKGLKEVGKKKFGKGSEVYDDWVNQGGAYGGYLSADRDLLKEQLSGLEKQESGLPKAIKAITAPVNPKNWLKVLQNISEVSEEATKVGAYHKGLKKGLTPEESAYQARDLMDFNRMGNSMQSANRIFTFLNANVQGKDKLIRAMKEHPVRTSARIAGSTLPPSALAIASYANANDKQKEMMDNMPQQEKDTYWSYAIPGTDKVGRIPKPFDISLLANTVERANKYREGNQYAFDGFDKTVNDAVKVPWIPTTLQPIVENMANYSFFRDGPIVPKRDEKNSPKEQYGPNTSLTAREMASALDKVGIEASPYKIDNLYKGYTAGLGQFPLKGLDSAISLISNKGVPTPIAQEWNESTPGAKAFFVNGQGGGKVMEDYYNIMDEQQAIQADSKKNEEDASNAEEMKVFNRIDRDMAKLRKEYYVVKSDTEMNPEVKRSELDRLDEEMRALARKGITVFRPDYK				NA	NA	NA	NA	NA
AK009_02209	678			hypothetical protein	ATGAAAAATGATGATCGGAATTATAATTTAGACCTGAGTCGTTTTAATTATGGAAAGGAAAAAGACTTGCGTGATTATAACTTAGATGTGAGCCGATTTAATCACTCCGTAAATAATGACAATCGAAATTACAATCTCGATTTGAGTCGTTTTAATTATGGGAAACAAAAAGATACACGTGATTATAATTATCAAGTAAGTCGGGACAATGTATCGGATAACCGTTGGCAGCAAGATTATAATTACAGGGCCGGTCGCGACAGTGTAGCCGATAATCATTGGCAACAAGATTATAATTATCGCTCTGGAAGGGATAGCGTATCGGACAATCGCTGGCAACAAGAATTCAATTATCGTTCCGGAAGGGACGGTGTATCTGATAGCCATTGGCAACAGGAGTATAACTTAAAAAAGCAAGCAGCCGCCTCTAGAAATAGTGGTGGAGGTGGCGGTAGTTCTTCTAGCAGTTCACCAAGTATAAGCTCAAAATCTTCATTGAATGATTATACACGCGATCAAATCAATTGGTACAGTAACCCAAATAATGCCCCGTATGCATATGGACAAAAGAAGGAAGAAGTAAAGAAAGCACCATCTTATGTGGAGTCGCTGTTATTGAGGAAACCATGGGAGTCTTCTTCTTTGTTGAAACAGTTTGGGCCGAAAGGATTTTGGTAA	MKNDDRNYNLDLSRFNYGKEKDLRDYNLDVSRFNHSVNNDNRNYNLDLSRFNYGKQKDTRDYNYQVSRDNVSDNRWQQDYNYRAGRDSVADNHWQQDYNYRSGRDSVSDNRWQQEFNYRSGRDGVSDSHWQQEYNLKKQAAASRNSGGGGGSSSSSSPSISSKSSLNDYTRDQINWYSNPNNAPYAYGQKKEEVKKAPSYVESLLLRKPWESSSLLKQFGPKGFW				NA	NA	NA	NA	NA
AK009_02233	1260			hypothetical protein	ATGTATATGTACACGTCAAATATTGTGGTGATTATCATGTTTAATTCCTACCGTGAGATTTTCAGTGCTCCTGGTACAAAAGGATTCTCATTAGCAGGATTTATAGCTCGTATGCCCATATCAATGATGGGTATTGGTATTGTTACCATGTTATCTCAAGTAAGTGGTGACTATTGGCTTGCTGGAGCTGTTGCAGCTACCTTTACATTATCATCAGCTTTACTAGCTCCTCATATTTCTCGGATGGCTGATCAATTAGGGCAATCTCGCATACTTCTTCCGACTACAGGTATTAGCGTTTTCTTTACAATCCTCTTACTTCTATGTACGAAATATGAAGCTCCTTATTGGACGCTATTTCTATCCGCTTTATGTGCAGGTTGTATGCCAAATATGTCAGCTATGGTACGTGCACGTTGGACTAAACTATACCGCGGATCCCATAAATTGCATACAGCATTTTCCTTCGAATCGGTCGTCGACGAAATTTGCTTCATAATTGGTCCTGTATTATCTGTCAGTTTAAGTGTTATGTTCTTCCCAGAAGCAGCGCCACTTTTATCATCTGTTTTTCTTACAATCGGGGTATGCCTATTTACTATGCAAAAAAGCACAGAACCGCCTGTACACCCTCGCGACATTACAAACAACGGAACAGTATTTAAAATTGGTTCTTTGCGAGTACTAGTATTCACACTCATTGCTATAGGTACTATCTTCGGCACAATAGATGTCGTTAGTGTAGCTTTTGCTGAGCAGCAAGGAAACACAGTAGCTGCTAGCTTTGTACTTTCTGTCTATGCAATCGGTTCATGCCTGGCAGGCCTTATTTTCGGTACTCTTAAACTCAATACCCCACCCTATAATCAGTTTTTAATAGCGGTCACACTTTCCATGATAACAATGCTGCCACTAGTTTTTGTAAACAGTATTACTTGGCTAGTAGTTATTGTTTTCTTTGCAGGGCTATCTGTCGCTCCTACTATGATTATTACTATGGGGCTTGTGGAAAAAATCGTACCTGAATCAAAGATAACCGAAGGAATGACTTGGGCAATTACAGGACTTGGAATTGGAGTCTCCCTAGGATCAGCGATAGCTGGTTTAGTTATTGATAACTTTGGAGCCCATGTAGGATTTAATGTGGCTATTATAGCAGGAGGCCTTGCCTTAACTATTGCACTTTTAGGCTACAAAACTCTTCACTCCGCATATAGTCATGTTGTTATTAAACAAGATGAACATTCAATAGAAAGTTAA	MYMYTSNIVVIIMFNSYREIFSAPGTKGFSLAGFIARMPISMMGIGIVTMLSQVSGDYWLAGAVAATFTLSSALLAPHISRMADQLGQSRILLPTTGISVFFTILLLLCTKYEAPYWTLFLSALCAGCMPNMSAMVRARWTKLYRGSHKLHTAFSFESVVDEICFIIGPVLSVSLSVMFFPEAAPLLSSVFLTIGVCLFTMQKSTEPPVHPRDITNNGTVFKIGSLRVLVFTLIAIGTIFGTIDVVSVAFAEQQGNTVAASFVLSVYAIGSCLAGLIFGTLKLNTPPYNQFLIAVTLSMITMLPLVFVNSITWLVVIVFFAGLSVAPTMIITMGLVEKIVPESKITEGMTWAITGLGIGVSLGSAIAGLVIDNFGAHVGFNVAIIAGGLALTIALLGYKTLHSAYSHVVIKQDEHSIES				NA	NA	NA	NA	NA
AK009_02234	600			hypothetical protein	ATGATTAAAAAAACGAGAGCAGAAATGATTACTGAAACACGTGCTAAATTGCTGTGGGCAGCAAGAGAGGCTTTTGGTACAGTTGGATATGTAAATACGTCTATGGATGATTTTACAGCATCTGTCGGTTTAACACGTGGTGCAATTTATCATCATTTTGGTGATAAAAAAGGATTGTTAGAAGCAGTTGTAAAAGAAATTGATATGGAAATGGATAATAAATTAGGGAAAGTATCAGATGAAGCGGAAGGAAAATGGGAAGGGTTTGTTGGGCGTTGTCGTGCATATTTAACGATGGCACTTAATCCAGAAATTCAGCGAATCGTACTTCGAGATGCACCAGCAGTATTAGGAACTAGTTATTATCAATCATCACAGTCACAATGTTTAGTGACGATGGCCGAGATGCTTCAGCAATTAATGAAGGACTGTATTATTGAAAAGACGGACTGTGAAGCTTTAGCAAGATATATAAATGGCGGACTAGTGGACCTTGCTTGTTGGATTGCAAATTCTGAAGATGCAGAGGCACGGTTGTCTAAAGCTTTGCATAGCCTATCACTTATATTGAATGGTTTATTATTAGAAAAGAATGCATAA	MIKKTRAEMITETRAKLLWAAREAFGTVGYVNTSMDDFTASVGLTRGAIYHHFGDKKGLLEAVVKEIDMEMDNKLGKVSDEAEGKWEGFVGRCRAYLTMALNPEIQRIVLRDAPAVLGTSYYQSSQSQCLVTMAEMLQQLMKDCIIEKTDCEALARYINGGLVDLACWIANSEDAEARLSKALHSLSLILNGLLLEKNA				NA	NA	NA	NA	NA
AK009_02235	945	ldh1_2	COG0039	L-lactate dehydrogenase 1	ATGAAAAAAGGTATCAATCGTGTAGTATTAGTAGGAACAGGAGCTGTAGGTTGTAGTTACGCTTACTCAATGATCAACCAAGGTGTAGCTGAAGAATTCGTATTAGTAGATGTTAATGAAGCAAAAGCAGAAGGGGAAGCAATGGACTTAAGCCATGCGGTACCATTCTCTCCATCACCAACAAAAGTTTGGAGCGGTAGCTATGCAGATTGTAAAGATGCAGATCTAGTTGTTATCACTGCTGGGTTACCACAAAAGCCAGGTGAAACTCGTTTAGACTTAGTTGAGAAAAATACAAAGATCTTTAAACAAATCGTTCGCGGCATTATGGATAGCGGATTCGATGGAATCTTCTTAATCGCAACTAACCCGGTTGATATTTTAACTTACGTAACTTGGAAAGAATCTGGTTTACCGAAAGAGCGCGTAATCGGTTCTGGTACTACTTTAGACTCTGCTCGTTTCCGTTACATGTTAGGTGACTACTTAGATGTAGATCCACGTAACGTTCATGCTTACATCGTTGGTGAGCACGGTGACACTGAACTTCCAGTATGGAGCCACGCTACTATCGGTGTACAAAAACTAGAAACAATCTTAGCTAACAACGAACAGTACAAACAAGAAGACTTAGATAAAATCTTCGAAAATGTACGTGATGCAGCTTACCATATCATCGAACGTAAAGGTGCAACTTACTACGGAATCGGTATGTCACTACTTCGTGTAACTAAAGCGATCTTAAACAACGAGAACAGCGTATTAACTGTATCTGCATACCTTGAAGGTCAATACGGTGAGAAAGATGCTTACGTAGGTGTTCCAGCTGTTATTAACCGCGAAGGTGTACGTGAAATCGTAGAACTTGAGCTAAATGAAGAAGAAAAAGCGAAATTCGCTCATTCTGTAAAAGTATTAAAAGAAACTATGGCACCAGTACTATAA	MKKGINRVVLVGTGAVGCSYAYSMINQGVAEEFVLVDVNEAKAEGEAMDLSHAVPFSPSPTKVWSGSYADCKDADLVVITAGLPQKPGETRLDLVEKNTKIFKQIVRGIMDSGFDGIFLIATNPVDILTYVTWKESGLPKERVIGSGTTLDSARFRYMLGDYLDVDPRNVHAYIVGEHGDTELPVWSHATIGVQKLETILANNEQYKQEDLDKIFENVRDAAYHIIERKGATYYGIGMSLLRVTKAILNNENSVLTVSAYLEGQYGEKDAYVGVPAVINREGVREIVELELNEEEKAKFAHSVKVLKETMAPVL	PGPT0001760_2248	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK009_02236	129			hypothetical protein	ATGTCATTAAAACAAAAAGTAGGAATGGGAGTTGTCACCGCTTCACTTGGTTTATCCCTTACATTCGGAGGTGTATTCGCCTATTTCAGTGATTCAGAAACATCGAGTAACTCATTTCAAGCCGCCTAA	MSLKQKVGMGVVTASLGLSLTFGGVFAYFSDSETSSNSFQAA	PGPT0025195_113	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
AK009_02237	1938	glgB		1,4-alpha-glucan branching enzyme GlgB	TTGAGTGTAATAAATTGTGAAGAAGTGAAACGAGATGAGTTTCATACAGAAAAGTACTATGAAAGTTATAACATCTTTGGCGCACATGTTGTGACGGAAGATGAGATTCAAGGGGTACGATTTACAGTGTGGGCTCCTCATGCGAAAGCAATGAGTGTTGTTGGAGATTTTAATGAGTGGGATTATGAGCAACATAAGATGCTACAAGTGACAGAAGAAGGCATTTGGTCCTTATTTATACCGCATATTGAAGAAGGAGAAATATATAAATATGCGATTGAAACGTTGGCTGGTGACGTCATTTTAAAGGCAGATCCGTATGCTATATATGCAGAAGTAAGACCGAATACGGCATCTGTAGTTTTTGATATAAAAGGATATGAATGGAATGATAAAAACTGGACTCGTAAGAAAAAGAAAAAACCGATTTATAAAGAAGCGATGACAGTTTATGAATTACATTTTGGTTCTTGGAAAAAGAAAGAAGATGGAACGCTGTATTCTTACAGGGAAATGGTAGAAGAGCTCATCCCGTATGTGGTGGAACATCAATTTACACATATTGAAATTATGCCGCTTGTTGAGCATCCATATGATCGTTCTTGGGGATATCAAGGAACGGGATATTATGCAGCGACGAGTAGATTTGGTACGCCGCATGATTTAATGTATTTTGTCGACGAATGTCATAAATATGGAATCGGTGTCATTTTAGATTGGGTGCCGGGGCACTTTTGTAAAGATGCTCACGGTTTATATTTGTTTGATGGCACACCGACCTATGAATATAAAGATAAAGATGTACAAGAAAATCCAGTATGGGGAACTGTCAATTTTGATTTAGGGAAGAGAGAGGTACGTAATTTCTTAATTTCAAATGCGTTATTTTGGATGAGATATTTCCATATTGATGGTTTCAGAGTAGATGCAGTTGCGAACATGTTGTACTGGAATAAAGAAGGACAAGAGCAAAGTAATGAGCATGCTGTTTCATTTTTAAGAGAGTTAAATGAAGCAGTGTTTGCAGAGGATGAAGATTTTCTTATGACGGCAGAAGATTCAACAGCTTGGCCACTTGTAACAACTCCAACGTATGAAGGTGGGCTTGGATTCAATTACAAATGGAACATGGGCTGGATGAATGATGTACTGAAATATATGGAGTGTGCGCCTGAATATAGGAAACACATTCATGAGAAAATGACGTTTTCTTTACTATATGCGTACTCTGAAAACTTCATATTACCACTTTCTCATGATGAAGTCGTTCATGGGAAAAAGTCGTTATTAAATAAAATGCCAGGTGATTACTGGGATAAGTTTGCTCAGCTTCGTTTATTATATGGATATTTCTTTACTCACCCAGGAAAGAAGTTACTTTTCATGGGAGGAGAATTCGGACAGTTTGATGAGTGGAAAGACCTTGAAGATTTAGATTGGAATTTACATGATTTTGAAATGCATCGTTATATGCATGATTACTTTAAAGAGCTCATAGCATTGTATAAGCGCTCAAAACCACTTTGGCAGCTTGACCATTCACCTGAAGGCTTTCAGTGGATTGATGCTAATAATAATGAGCAAAGTATTTTCTCTTTTATCCGCCAAGGGGATAAACAAGAAGATGCGTTAGTTGTCGTATGTAATTTTACGAAAGCTACATATGAAAACTATAAAGTAGGTGTACCAGATTTCGAGTATTATAACGAGATTTTAAACAGTGATGCTGAGCAATATGGCGGTTCGGGGCAAGTGAATAAGAAACGTCTTAAGACGATTCTAGAACCGTACCATAATCAAGCAGCACATGTAGAGATTACAATTCCACCATTTGGCGTATCCATATTACGACCAGTGAAGACGAGAAAGGGGAGCAAAAAACAAGATGGCTCAAAAACAAAAGTGCGTAGCAATGTTACTAGCAGGGGGAAAAGGTAG	MSVINCEEVKRDEFHTEKYYESYNIFGAHVVTEDEIQGVRFTVWAPHAKAMSVVGDFNEWDYEQHKMLQVTEEGIWSLFIPHIEEGEIYKYAIETLAGDVILKADPYAIYAEVRPNTASVVFDIKGYEWNDKNWTRKKKKKPIYKEAMTVYELHFGSWKKKEDGTLYSYREMVEELIPYVVEHQFTHIEIMPLVEHPYDRSWGYQGTGYYAATSRFGTPHDLMYFVDECHKYGIGVILDWVPGHFCKDAHGLYLFDGTPTYEYKDKDVQENPVWGTVNFDLGKREVRNFLISNALFWMRYFHIDGFRVDAVANMLYWNKEGQEQSNEHAVSFLRELNEAVFAEDEDFLMTAEDSTAWPLVTTPTYEGGLGFNYKWNMGWMNDVLKYMECAPEYRKHIHEKMTFSLLYAYSENFILPLSHDEVVHGKKSLLNKMPGDYWDKFAQLRLLYGYFFTHPGKKLLFMGGEFGQFDEWKDLEDLDWNLHDFEMHRYMHDYFKELIALYKRSKPLWQLDHSPEGFQWIDANNNEQSIFSFIRQGDKQEDALVVVCNFTKATYENYKVGVPDFEYYNEILNSDAEQYGGSGQVNKKRLKTILEPYHNQAAHVEITIPPFGVSILRPVKTRKGSKKQDGSKTKVRSNVTSRGKR				NA	NA	NA	NA	NA
AK009_02238	1131	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGGCTCAAAAACAAAAGTGCGTAGCAATGTTACTAGCAGGGGGAAAAGGTAGTCGTTTAAGTGCATTAACAAAAAATTTAGCCAAGCCAGCTGTTCCATTTGGTGGTAAATATCGCATTATTGATTTTACGCTAAGTAACTGTGCGAATTCTGGTATTGAAACGGTTGGGATTTTAACACAATATCAACCACTTGAACTTCATAATTATATCGGAATTGGAAATGCGTGGGATTTAGACCGAGTAAACGGTGGAGTCACAGTATTACCTCCTTATGCGGAGTCTTCAGGGGTGAAGTGGTATACAGGTACGGCAAGTGCCATTTATCAAAACTTAAACTATTTAAGTCAGTATGAACCGGAGTATGTTCTCATTTTATCAGGCGACCATATTTATAAAATGGATTACAGTAAGATGCTAGATTACCATATTGAGAAAGAATCGGACGTATCCATTTCTGTTATTGAAGTACCTTGGGATGAAGCGAGTCGCTTTGGCATTATGAATACAAATGAAGAGATGGAGATTGTTGAGTTTGAAGAGAAACCACAATTTCCAAGAAGTAATCTTGCATCAATGGGAATTTATATTTTTAACTGGGCAATTTTGAAAGAGTATTTAGAGATGGATGCAAGAAATCCTGAATCTAGTAATGATTTCGGAAAAGATGTACTTCCACTTTTATTAGATGAAGGGAAGAAGCTAATGGCGTATCCATTTGAAGGATATTGGAAAGATGTTGGAACGGTGAAAAGCTTATGGGAAGCGAATATGGATTTACTTCGCGATGAAACATCGCTGAATTTAAACGATCGTAATTGGCGTATTTATTCTGTGAATCCAAATGAGCCACCTCAATATATTGCAGAAAAGGCAAAAGTAGAAGAATCACTTATTAACGAAGGATGCGTCATTGAAGGGGACGTGAAGCATTCTGTGTTATTCCAAGGGGTGACGGTGGAAGAAGGTAGTATGGTTATTGATTCTGTCGTTATGCCAGGAGCAAAGATTGGTAAAAATGTTGTGATTGAAAGAGCGATCGTTGGTTCGGAAATGGTTATTGAAGATGGAACAATTATTCGTCCAGAAAAAAATGTCGACGATGTAGTACTCATTGCTGAAGGGAAATAG	MAQKQKCVAMLLAGGKGSRLSALTKNLAKPAVPFGGKYRIIDFTLSNCANSGIETVGILTQYQPLELHNYIGIGNAWDLDRVNGGVTVLPPYAESSGVKWYTGTASAIYQNLNYLSQYEPEYVLILSGDHIYKMDYSKMLDYHIEKESDVSISVIEVPWDEASRFGIMNTNEEMEIVEFEEKPQFPRSNLASMGIYIFNWAILKEYLEMDARNPESSNDFGKDVLPLLLDEGKKLMAYPFEGYWKDVGTVKSLWEANMDLLRDETSLNLNDRNWRIYSVNPNEPPQYIAEKAKVEESLINEGCVIEGDVKHSVLFQGVTVEEGSMVIDSVVMPGAKIGKNVVIERAIVGSEMVIEDGTIIRPEKNVDDVVLIAEGK	PGPT0025885_3728	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025885-glgC-K00975	NA	NA
AK009_02239	1035	glgD	COG0448	Glycogen biosynthesis protein GlgD	ATGGGAGAAAAAATGTTAGGAATTATTAATGCAACGGGAAGTTTTCCTTCCTTAAAGAAAGTAACAGGGCATCGTTCATTAGCGGCGTTACCGTTTGGGGGCCGTTACCGACTCATTGATTTCATGCTTTCAAATATGGTGAATTCTAATATTCATAGTGTAGCGGTTTTTACAAGTCATAAAAATCGCTCACTAATGGACCATGTTGGTTCAGGAAAACAGTGGGATTTAGATAGAAAACGAGACGGACTATTTTTATTCCCGCCAAATTGCCAATGTGACCAAGATGAGTTTGGGTCTTTTGCACACTTTAGAAGACATATTGATTATTTTCTAAGAAGCAGAGAAGAGTACGTTGTTATTACGAATAGCCATCTCGTAACAGCATTAAATTTCCAGGCGGTGTTAGAGCGACATATACATACGGCAGCTGATATTACGGAAGTTTGCCATGAAGGGGTTTCGCTTCAAACATACATGTTAAAGAAACAATTATTGTTAGATTTATTTGAGACATATAAAGATGTGGAGCAATACAGTTTATTTGATGTAGTGAGAGAAAAGCGCGGAAAATCACTGCATATTGCTACGTATGAGCATACAGGATATGTAGCTATTATTGATTCGATTGAAAGTTACTATAAACATAGCTTAGAAATTTTGCAGCCTGCTATTTGGAAGCAATTATTTAAGAAAGAAGCGCCGATCTTTACGAAAGTAAAAGATGAGCCGCCAACTCGTTATCTAAAGGGTGCAGTCGTGAAAAATACAATGATTGCAAATGGCAGTATTATTGAAGGGGAAGTCGAAAACAGTGTTGTTTCCCGTTCGGTTAAAATTGGAAAAGGTTCAATTATTCGTAACAGTATTATTATGCAAAAGAGCCAAATTGGAGATAACTGTATAATAGACGGTGTTATTATTGATAAAGACGTGAAAATTGGCGACGGTGTCGTATTAAAAGGAAACATCGATGAGCCATATGTTGTAGAAAAAGGAAGCGTACAAAACAGTACGATTAATAGTTATTCCTAA	MGEKMLGIINATGSFPSLKKVTGHRSLAALPFGGRYRLIDFMLSNMVNSNIHSVAVFTSHKNRSLMDHVGSGKQWDLDRKRDGLFLFPPNCQCDQDEFGSFAHFRRHIDYFLRSREEYVVITNSHLVTALNFQAVLERHIHTAADITEVCHEGVSLQTYMLKKQLLLDLFETYKDVEQYSLFDVVREKRGKSLHIATYEHTGYVAIIDSIESYYKHSLEILQPAIWKQLFKKEAPIFTKVKDEPPTRYLKGAVVKNTMIANGSIIEGEVENSVVSRSVKIGKGSIIRNSIIMQKSQIGDNCIIDGVIIDKDVKIGDGVVLKGNIDEPYVVEKGSVQNSTINSYS	PGPT0025885_4089	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025885-glgC-K00975	NA	NA
AK009_02240	1431	glgA	COG0297	Glycogen synthase	GTGAATATTTTATTTGCAGTATCAGAATGTGTACCGTTTGTGAAATCGGGAGGATTAGCTGATGTAGCGGGTGCGCTCCCAAAAGAGCTGAAAAAATTAGGAGTGGACGTTCGTATTATACTTCCGAATTATAGTCTCATTCCGCAAAAGTTAAGAGATGGATGTACGTTACATAAAGTAATTAACGTCCCGCTTGGGTGGAGAAATCAATATTGCGGAATTTTAAAAGGTGAGCAAGACGGAATTACGTATTACTTAATAGATAATGAATATTATTTTAAGAGAGATTCTCTGTATGGTCATTATGATGACGGGGAGCGTTTTTCTTATTTCTCAAAAGCAGTGTTAGAGTGTATTCCGCATCTTGATTTTGAAGTGGATGTTCTTCATAGCCACGATTGGCATACGGCTATGGTTAATTTCTTACTTCGTGAAAAGTATCAAGATAACCCGTTATATGAGCGTATTAAAACGGTATATACGATTCACAACTTGCAGTTCCAAGGAGTATTTCCTTCTGAAGTGATGTACGACTTGTTAGAGCTTGGTGATGAATATTTTCATAGTGAGCAGCTAGAGTTTTATGGAAACATAAACTTTATGAAAGGCGGTATTATCGCTTCGGATCAAATTACAGCGGTGAGCCCGACGTATAAAGAAGAAATTCAATATGAATTTTTCGGTGAGAAGTTAGATGGATTACTGAGAAAATATAATGATAAGCTTAGTGGCATTGTAAATGGTATTGATACGAGCGTATATAATCCAGAAACGGATTCATATATTAAGGCTCAGTATGATGCAGAGTCATTATATGAAAAGAGTGAAAATAAACGCGCTTTGCAGCGTTATTTTGGTTTGCCAGAAAAAGAGGATACACCAATTATTTCAATGGTAACGAGATTAACGAAGCAAAAAGGTCTTGATTTAGTACGCACTGTATTCCGCGAAATAATGGAAGAAGATGTACAATGTATTATTTTAGGTTCAGGTGATTCGGAATATGAGCAATTCTTTGAGTGGATGGCATATGAGTATCCGGAGAAGGTAAAAGTTTATATCGGATTTAATGAAGAATTAGCGCACCAAGTGTATGCGGGAAGCGATTTATTTTTAATGCCATCGCTGTTTGAACCGTGTGGACTTGGACAACTTATCGCATTGGCGTACGGTACGATTCCAATTGTAAGAGAAACAGGTGGATTAAACGATACGGTACATTCTTATGATGAAGAAACAGGCGAAGGAAATGGTTTCAGTTTCACGAACTTTAATGCACATGACATGCTGCATACGGTTCACCGTGCAATTGAATTTTATCACGATAAACCAGTGTGGGAGCAGCTTGTAAAACAAGCGATGACTGAAGATTATAGCTGGAGGCAATCGGCTCTTGCTTATAAGGAATTGTATAAAAGTCTCATGGAATAA	MNILFAVSECVPFVKSGGLADVAGALPKELKKLGVDVRIILPNYSLIPQKLRDGCTLHKVINVPLGWRNQYCGILKGEQDGITYYLIDNEYYFKRDSLYGHYDDGERFSYFSKAVLECIPHLDFEVDVLHSHDWHTAMVNFLLREKYQDNPLYERIKTVYTIHNLQFQGVFPSEVMYDLLELGDEYFHSEQLEFYGNINFMKGGIIASDQITAVSPTYKEEIQYEFFGEKLDGLLRKYNDKLSGIVNGIDTSVYNPETDSYIKAQYDAESLYEKSENKRALQRYFGLPEKEDTPIISMVTRLTKQKGLDLVRTVFREIMEEDVQCIILGSGDSEYEQFFEWMAYEYPEKVKVYIGFNEELAHQVYAGSDLFLMPSLFEPCGLGQLIALAYGTIPIVRETGGLNDTVHSYDEETGEGNGFSFTNFNAHDMLHTVHRAIEFYHDKPVWEQLVKQAMTEDYSWRQSALAYKELYKSLME	PGPT0025880_2898	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025880-glgA-K00703	NA	NA
AK009_02241	2409	glgP	COG0058	Glycogen phosphorylase	ATGTTTACTCATGTTGAAAGTTTTAAATCAACTTTTCTAGAAAAGTTAGAGACGATGTATGGGAAAAGTTTCAAAGATTCTACAAATCGTGATCAATATAATACGCTCGGCCATATGGTACGTGAGTATATGAATAGTCAATGGATTGCAACGAACGAGAGTTATCGATCAGGAGAGCAAAAGCAAATGTATTACTTGTCTATTGAGTTTTTGCTTGGACGTTTGCTTGGAAGTAACATCTTGAATTTAGGTATTAGAGATGTATGCGAGCAGGGGTTATCTGAACTAGGGATTTCGTTACAAGAGTTAGAAGAAGTGGAAGCAGATGCAGGCCTTGGTAACGGTGGACTTGGACGCTTAGCAGCCTGTTTTCTTGATTCACTTGCATCTTTAAACTTACCAGGACACGGCTGTGGAATTCGTTATAAACATGGTTTGTTTGATCAGAAAATTGTTGATGGTTATCAAGTTGAATTTCCAGAACAGTGGCTTCTTCATGAAAACGTATGGGAAGTAAGAAGACATGATCAAGCTGTAGAAGTAAGTTATTTTGGCAGTGTTGAACCGCTAGAAATTGACGGGCGTTTAGAGTTTAGGCATACAAATGCAGAAGTCATTATGGCGGTGCCATATGATGTGCCGGTAGTAGGCTATGAGACGAGTACTGTAAATACACTTAGACTTTGGAATGCTGAACCAGTTCCTTTCCCGCAAAACTGCAAAGATATTTTGAAATATAAGCGCGAAACAGAGGCTGTATCGGAGTTTTTATATCCAGATGATACGCATGATGAGGGAAAAATACTTCGTTTAAAACAACAGTATTTCCTCGTATCAGCAAGCTTGCAAAATATCGTTCGAATGCATAGAGAAAGATATGGTGACCTTCGTCAACTACATGAAAAAATTGCGATTCACATTAACGATACACATCCGGTTTTAGCAATTCCAGAACTGCTGCGTATTTTACTAGACGAAGAAAAGTTAACATGGGAAGAAGCTTGGCACATAACGACGCAGACGATTTCTTATACGAATCATACGACGTTATCAGAAGCGCTCGAAAAGTGGCCAATTCACATTTTTAAACCATTATTACCGAGAATTTATATGATTATTGAAGAGATTAATGAACGTTTCTGTCATGAACTTTGGGAACGTTATCCTTATGAATGGCATCGCATTGAAGACATGGCAATTATTGCGCATGATCTTGTGAAAATGGCTCATTTAGCAATTGTCGGTAGCCATAGCGTAAACGGTGTAGCAAAAATTCATACGGAAATATTAAAGCAGCGGGAAATGCGATTGTTTTATGAATTTTATCCAGATAAGTTTAATAATAAGACGAATGGAATTGCTCATAGGCGCTGGCTTATGAAAGCAAATCCACAGTTAACAAATCTCATTTCAGAGGCGATTGGACCAGAGTGGAAGAAAGAACCGATTAAGCTTCAATCGTTGCAAACAGTTCAATATGATGCTAGTTTCCAAGAGAAGTTTGCAGAGGTAAAACAAGAGCGTAAAGAGATTTTAGCGGAGCGCATTCATAATACAATGGGGATTACGATTGATCCAAATTCTATTTTTGATGTGCAAGTGAAAAGATTACATGCTTACAAACGACAATTATTAAATGTTCTTCATATTTTATATTTGTATAACCGTTTGAAAGAGGATGCTAGTTTTACATTTTATCCGCGTACTTTTATTTTTGGAGCGAAAGCATCACCTGGTTATTATTACGCGAAAAAAATTATTAAATTAATAAATGAACTCGCAAGAAAAGTAAATAATGATCCGTATGTTAGTCAATATATGAAAGTTATCTTTCTAGAAAACTATCGAGTTTCTTTAGCTGAAGATATATTCCCGGCGGCGGATGTAAGTGAGCAAATTTCAACGGCGAGTAAAGAAGCATCGGGAACAGGCAATATGAAATTTATGATGAATGGTGCGATTACACTTGGAACGCTAGACGGAGCTAACGTTGAAATAAAAGACCGGGTCGGTGATGATAACTGTTTCATTTTCGGTTTAACAGCAGAAGAGGTTCTTCATTACCATCAAAATGGTGGATATCGTGCAAGTGACTATTATCACCACAATAGGCACATTAAAAAAATAGTAGATCAATTAACAAATGGTTTCTTTGCACAATCGGGTGCTGAATTTGAAGCGATCTATGATTCTCTCGTTATTCAAAATGATGAATATTTCGTTCTGCGAGATTTTGGTCCATATGCTGAAAGACAAGAAGCTGTTGGTAGAGCTTATGAGAACCGAACAAAGTGGCTAGAAATGTCGATTTTAAATATTGCACAGTCTGGTCATTTTGCGAGTGATCGAACGATTTTGCAGTACAGCAATGAAATTTGGGGTATTGGTAATGCAGTTAAACAGTTTTAA	MFTHVESFKSTFLEKLETMYGKSFKDSTNRDQYNTLGHMVREYMNSQWIATNESYRSGEQKQMYYLSIEFLLGRLLGSNILNLGIRDVCEQGLSELGISLQELEEVEADAGLGNGGLGRLAACFLDSLASLNLPGHGCGIRYKHGLFDQKIVDGYQVEFPEQWLLHENVWEVRRHDQAVEVSYFGSVEPLEIDGRLEFRHTNAEVIMAVPYDVPVVGYETSTVNTLRLWNAEPVPFPQNCKDILKYKRETEAVSEFLYPDDTHDEGKILRLKQQYFLVSASLQNIVRMHRERYGDLRQLHEKIAIHINDTHPVLAIPELLRILLDEEKLTWEEAWHITTQTISYTNHTTLSEALEKWPIHIFKPLLPRIYMIIEEINERFCHELWERYPYEWHRIEDMAIIAHDLVKMAHLAIVGSHSVNGVAKIHTEILKQREMRLFYEFYPDKFNNKTNGIAHRRWLMKANPQLTNLISEAIGPEWKKEPIKLQSLQTVQYDASFQEKFAEVKQERKEILAERIHNTMGITIDPNSIFDVQVKRLHAYKRQLLNVLHILYLYNRLKEDASFTFYPRTFIFGAKASPGYYYAKKIIKLINELARKVNNDPYVSQYMKVIFLENYRVSLAEDIFPAADVSEQISTASKEASGTGNMKFMMNGAITLGTLDGANVEIKDRVGDDNCFIFGLTAEEVLHYHQNGGYRASDYYHHNRHIKKIVDQLTNGFFAQSGAEFEAIYDSLVIQNDEYFVLRDFGPYAERQEAVGRAYENRTKWLEMSILNIAQSGHFASDRTILQYSNEIWGIGNAVKQF	PGPT0018545_3785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018545-glgP-K00688	NA	NA
AK009_02242	135			hypothetical protein	ATGTTAAAATTTATCTTCACACTTTTTCTTATTGTAATTTTTACGGTCACAGGTTTCTTTACATTTTCATACTTTGCGACAGGAGAGTATGATGGGGCAGGTATAATATATACCACTATTCCATTTCTTTCTTAA	MLKFIFTLFLIVIFTVTGFFTFSYFATGEYDGAGIIYTTIPFLS				NA	NA	NA	NA	NA
AK009_02243	723			hypothetical protein	ATGCGTACTCCTTTATCCTTTGATAAAGACACTGCCATACTGTTAGCTTCTTGTTGTGAGTTAACGTATGAACAATATAAACAAAATGGTATTTTCGAAATACCAGATGGTTTTCAATATGTACAAGGGTTTCAAGGAAAGGCCATTCAAACAACAGAATGGTTCGGATTTATATTAGAATCTGAGGATACAATTATCGTTGCCTTTAGGGGCACTCAAACAGACCCAGATTGGATTATTGACTCTCTCGTCAATCAAAAACCTTATCCTTATGCTTTAAATGGTGGAAATGTCCATAACGGCTTTCTCTCTATTTATGAGTCTTGCCGTGATTCTATTATGGATATGCTCGTATCATTGCCAGCACATAAAAAACTGCTAGCTACTGGGCATAGTCTAGGTGGCGCGCTTGCCACATTACACATATTAGATGCACGTATAAATACTGCCTTCGCACAGTATGGACTTTATTCATTCGCTTCCCCAAAAGTAGGAGATATCGCTTTTCGAAATTATTATAAACTACAAGTAGCTAGTAGCTTTCGTTTCGTCAACTTGTTCGATGTCGTTCCACTTCTCCCTCCCCGAAACATAAATTTTAATGATCATGATTGGGAGTATGCACACGTCCATCACAATATGACATTTACAAAAAACACAAAATCCATTACAAATAATCATTCCATTACAACATACAAAACATGTCTGACTTCTCATTTTTAA	MRTPLSFDKDTAILLASCCELTYEQYKQNGIFEIPDGFQYVQGFQGKAIQTTEWFGFILESEDTIIVAFRGTQTDPDWIIDSLVNQKPYPYALNGGNVHNGFLSIYESCRDSIMDMLVSLPAHKKLLATGHSLGGALATLHILDARINTAFAQYGLYSFASPKVGDIAFRNYYKLQVASSFRFVNLFDVVPLLPPRNINFNDHDWEYAHVHHNMTFTKNTKSITNNHSITTYKTCLTSHF	PGPT0024445_2040	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
AK009_02244	771	mta_1	COG0789	HTH-type transcriptional activator mta	ATGAGTAAAAAGGAAGGCTGTTCAATTGGTGAGTTTTCAAAGAGAACAGGCACATCAATACGGACACTACAATATTACGATGAAATTGGACTACTTAAACCTGAAAAGAACGTTAGCTCTGGTCACCGTGTGTACAAAGGAAAAGATATATTAGAGCTACAGAAAATAGTCAGTCTTAAAGTATTAGGATATAGTTTAGAAGAAATACGCGTCATGCTTACAATTCCAAGTTTGAATGTAAGTTTAAAAGAAACGTTGGAACAACAAAGAAAAGCCTTTGAAGAAAAGAAAAAACACATTGAAGTTTCGATAAAGGCGCTTGAACGAACAAGGGTATGTCTTGAGGAAGATGAAGAGTTGGATAGTGACATATTAATGAGTCTAATTAACAGCATTCAAAAAGAAAACGAACAAAGTTTATGGCTTGAAGGATATGTATCAAAAGAATTGGCTAATGGATTATATAATAAGCCGGAAGAAGAAGGCATAGCACTTGATAAAGAGTTTGTGCGTTTAGCAAAAGAAGTGAAAAGGTTATTTGGAAGAGAAATTGAGGATTCAGAAGTGCAAAAATTGGTTGATGAACATATGAAGGCGACTCTTAAGTATGTTGGTGAAGAGACAATGTATTCTTTAGGTAAATTAGAGAATGTAGAAGAACAATATAATAATATGATGCCATCTCCTTACACGGAAGAAGAAGAGGCATGGCTTAATGACGCGATGGAGTATTATATGATTCGAAATGGTATGTATAGCCCTCCGCAGTAA	MSKKEGCSIGEFSKRTGTSIRTLQYYDEIGLLKPEKNVSSGHRVYKGKDILELQKIVSLKVLGYSLEEIRVMLTIPSLNVSLKETLEQQRKAFEEKKKHIEVSIKALERTRVCLEEDEELDSDILMSLINSIQKENEQSLWLEGYVSKELANGLYNKPEEEGIALDKEFVRLAKEVKRLFGREIEDSEVQKLVDEHMKATLKYVGEETMYSLGKLENVEEQYNNMMPSPYTEEEEAWLNDAMEYYMIRNGMYSPPQ				NA	NA	NA	NA	NA
AK009_02245	138			hypothetical protein	GTGGGAAAATATCAATTAGATTCCAAAAGTCAGGTAGCTGTGGCAAAGTTTCATGAAAAACAGAAGCCTGCCAAATTTGATAAAAAGCAGCAACTTGAACAATTGCGTGCGGAGTATTTGAAAAAGAAGCAAAAATAA	MGKYQLDSKSQVAVAKFHEKQKPAKFDKKQQLEQLRAEYLKKKQK				NA	NA	NA	NA	NA
AK009_02246	783			putative protein	ATGCAAGCACATGAAATCGAATATAAGTTATATGGCGATGATATGCAATTTGTTGAAATTGAATTAGACCCAAAGGAAAGCGTTGTCGCAGAAGCGGGCGCAATGATGATGATGGAAGACTACATCGAAATGGAGACAATCTTCGGTGATGGTTCTGGCCCATCTAACGGTCTATTCGGAAAATTAATGGGAGCAGGTAAACGTCTCGTTACAGGTGAAAGCATGTTTATGACTGTATTTACAAATACAGGGCACGGCAAACGCCACGTCTCATTTGCTGCTCCTTATCCTGGTAAAATTATTCCTGTAGATTTAACAGAATACCAAGGGAAAATCGTTTGTCAAAAAGATGCCTTTCTTTGTGCCGCAAAAGGTGTTTCTATTGGAATTGAATTTACAAAAAAAATAGGAACTGGTTTCTTCGGTGGTGAAGGTTTCATCATGCAGAAACTTGAAGGTGACGGCCTCGCTTTCATGCACGCAGGCGGAACTGTATATAAACGTGAATTAAAACCTGGTGAGAAACTTCGCATTGATACAGGTTGTCTCGTTGCCATGACAAAGGATATTAACTATGATATCGAATTCGTTGGAAAAGTAAAAACAGCTCTATTTGGCGGTGAGGGTTTATTCTTCGCAACATTAGAAGGTCCTGGAACAGTTTGGATTCAGTCCTTAACACTTAGCCGATTAGCAGCACGCCTTACAAGCCCAGCAGCGCAAAGTACTGGTGAAGGTAGTGTATTAGGTGGACTTGGTCGTTTATTGGATGGGAAAGAGTAA	MQAHEIEYKLYGDDMQFVEIELDPKESVVAEAGAMMMMEDYIEMETIFGDGSGPSNGLFGKLMGAGKRLVTGESMFMTVFTNTGHGKRHVSFAAPYPGKIIPVDLTEYQGKIVCQKDAFLCAAKGVSIGIEFTKKIGTGFFGGEGFIMQKLEGDGLAFMHAGGTVYKRELKPGEKLRIDTGCLVAMTKDINYDIEFVGKVKTALFGGEGLFFATLEGPGTVWIQSLTLSRLAARLTSPAAQSTGEGSVLGGLGRLLDGKE				NA	NA	NA	NA	NA
AK009_02248	201	cspD_3	COG1278	Cold shock-like protein CspD	ATGCAAACAGGTAAAGTTAAATGGTTTAACGGCGAAAAAGGTTTTGGCTTCATCGAAGTTGAAGGCGGAGAAGACGTATTCGTACATTTCTCAGCTATCCAAGGCGACGGCTTCAAAACTTTAGAAGAAGGTCAAGAAGTTTCTTTCGAAATCGTTGAAGGAAACCGCGGACCACAAGCAGCTAACGTTACAAAAAACTAA	MQTGKVKWFNGEKGFGFIEVEGGEDVFVHFSAIQGDGFKTLEEGQEVSFEIVEGNRGPQAANVTKN	PGPT0014675_9098	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_02249	732	dksA		RNA polymerase-binding transcription factor DksA	ATGTTAACTCCACAACAAATAGGTCAATTTAAATCCATTTTAGAAAAACAAAAACAAGAACTAGAGCAAACGATACAAACTCATGAAAATACAGATCGTGCTTCTGAACGCGATTCAGTAGGAGAACTGTCTAGCTATGACAACCATCCAGGTGATATGGCTACAGAATTATACGAACGAGAAAAAGATTTCGGACTCATCGAATTTTGGCATAAACAACTAGATGATACAAAACATGCTCTGCAAAAAATTGAAGCGGGTACGTACGGCATTTGTGAAGTATCTGGTGAGGAAATCCCGTTTGAAAGATTAGAAGCAATGCCAACCGCGACAACATGTGTTCAACACGCGACAAATAAATTAAATATGGAGACGCGTCCAGTTGAAGAGGAAGTATTATCCCCTTCTTTCCACAAGCACGATGAAGACGACTCTGTTGAGTACGATGCGGAGGATGCATGGCAAGATGTCGCAAATTACGGAACGTCTGAAACGCCGTCCGATTTAGAAAGACAAGATTCAAAAAACTATAATGGCATGTACGTAAATAGTGAAGAAAACGTAGGCTACGTGGAGGATTTCGAAAACTTCATCGGTACGGATATGTATGGGAAAAACCCACAAGTTTTCGCTACAGAGGAACATGAAGAATATGAACAAATGCTTGATGACTTTGAAGAGCGTACCTTTAAGGGCGAATTATCTTCAAATGAATCTAGTTCCAAAGAATAA	MLTPQQIGQFKSILEKQKQELEQTIQTHENTDRASERDSVGELSSYDNHPGDMATELYEREKDFGLIEFWHKQLDDTKHALQKIEAGTYGICEVSGEEIPFERLEAMPTATTCVQHATNKLNMETRPVEEEVLSPSFHKHDEDDSVEYDAEDAWQDVANYGTSETPSDLERQDSKNYNGMYVNSEENVGYVEDFENFIGTDMYGKNPQVFATEEHEEYEQMLDDFEERTFKGELSSNESSSKE	PGPT0014560_202	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
AK009_02250	954	menA_2	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGGAAATGAACGTCAAAACGAATTCCTCTCCTACGGCGCCAAAGCCAAGTAAGCAAACAGGCTGGCGCATCTGGTGGAGTTTACTACGTCCCCATACATTAACAGCCGCTTTCGTACCTGTTTTCATCGGAACAGCATATTCGATGCAGGTCGGAGGTATAAATCAAATACATCTTCCTCTTTTCCTTATGATGCTTCTTGCTTGTCTTCTCATTCAAGCAGCAACAAACATGTTTAATGAATACTTTGATTATAAAAGAGGACTTGATCACGAAGGTTCAGTTGGTATCGGCGGCGCTATCGTTCGCGATGGCATTCAGCCAAAAACAGTGCTTAACTTAGCATTTGGATTTTTCGGCATCGCAATACTATTAGGTGTTTATATTTGTATGAATTCTAGCTGGTGGCTTGCTGCAATCGGTCTTGTTTGTATGGCCGTTGCTTACCTTTATACAGGTGGCCCACTTCCAATTGCATATACACCATTTGGAGAGTTGACAGCCGGATTATTTATGGGTGTCATTATTATTGGGATTTCATTCTTTATTCAAACTGGCACTGTAACATCAGAAGTCATTTTACTATCTATTCCAAGCTCCATTTTAATTGGTGCCATTTTACTAGCTAATAATATTCGTGACTTGGATGGCGATAAAGAAAACGGTCGTAAAACATTAGCAATTCTCGTTGGACGTGAAAGAGCTGTCGGTGTACTTGCTTCAATGTTCATCGTTTCCTACATTTGGACAATTGCTTTAATTATCGTGGGCATCGTATCACCATGGATGCTTATCGTATTTTTAAGTGCACCGAAAGCATTTAAAGCGACGAAAGGCTTTATCGGCAAAAGCATTCCAATGGAAATGGTACCTGCGATGATTGCAACAGCAAAAACAAATACAATCTTCGGTTTCCTAATGGGAATCGGATTATTACTTGGATATTTCCTATAA	MEMNVKTNSSPTAPKPSKQTGWRIWWSLLRPHTLTAAFVPVFIGTAYSMQVGGINQIHLPLFLMMLLACLLIQAATNMFNEYFDYKRGLDHEGSVGIGGAIVRDGIQPKTVLNLAFGFFGIAILLGVYICMNSSWWLAAIGLVCMAVAYLYTGGPLPIAYTPFGELTAGLFMGVIIIGISFFIQTGTVTSEVILLSIPSSILIGAILLANNIRDLDGDKENGRKTLAILVGRERAVGVLASMFIVSYIWTIALIIVGIVSPWMLIVFLSAPKAFKATKGFIGKSIPMEMVPAMIATAKTNTIFGFLMGIGLLLGYFL	PGPT0009395_344	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
AK009_02251	1395	pchA	COG1169	Salicylate biosynthesis isochorismate synthase	GTGATTCAAACGAAACAAATAGGCTTGCAAGAAGCTCTTAGTGCAGCCATTAAGCGTGCAACTGATGAAAAAATATTGGTTAGCTTCGTAAAACAAATAGACTGGATGGATCCGCTTCTGTTTTATGCAGCAGGAAAAAGGATTGCATTCGAAAATAGATGTTATTTTGCAGACCCGGCTCAGCATGTAATATTTGCTGGAATTGGCTCTGTTTTCACTATAGCAACTGCTTCTCACAAACGCTTTCAAACTGCTCGTGACGAGTGGGATAAAGTAAAAGAGAAAGCATTTGTACAAAGAGAAAAATACGAATTTGGAACAGGTCCTCTTTTATTTGGTGGATTTTCATTTGACCAAGAAAAAGAGAAAACGGACTTATGGAAAGAATTTGATGATACGACATTTTCACTACCAGCATTTTTATTAACTGTAAAAAATGAAAAAGCATGGTTAACGATGAATACATTTGTCTCAGCAACAGATTGTGCAGAGACTCTTTCTAACGAAATGATTTCTTTAGAAGAGAAAATTTTTTGGGAGAGTAAATGTGCATTAGAAGGATCGAAATTAACAGTTACTTCTAAAGTAGAAGTGGATCCGAAAGGCTGGATGGAGGCCATTGAGAAAGTACAAGATGAAATGAAGCTGGGGAACGTGCAGAAGGTTGTATTAGCGAGGGAGTTAAAAGTAGAGATGGATCATCATATTGATTCTGCTCTTGTCTTAGAAGCACTTCGCATTGGGCAACCGGATTGTTACGTATTTTCTTTTGATTATAAAGGAGCATGCTTCTTAGGAGCGACGCCAGAGAGGTTAATTCGCAAAGAAGATGAGAAGTTTACTTCGATGTGTCTTGCTGGTTCAACTGGTCATGGTCAATCTATAGAAGAAAGTAAGCGAAATAGTAATGCGCTTCTTCATGATGAAAAGAATTTAGCTGAACACGGTTATGTTGTGAATATGATTAGGTCGGTATTAAATGAGCACTGCGAATCCGTTAATATTCCGGAAAGTCCGGGCTTATTAACAACGAAAAACTTAATTCATTTATATACGCCTGTAGAGGCAAAAGGCGATGCGAGTCTTTTAACAATGGTAGAAGAATTACATCCAACACCAGCTCTTGGCGGGACACCTCGTTTGGAAGCGATGAAACTGATTCGTGATGTTGAATTGTTAGACAGAGGATTATATGGCGCACCGATTGGCTGGATAGATGATGAAGGAAATGGTGAGTTTGCGGTTGCACTCCGCTGCGGGTTATTAAATGGCGAGAAAGCATCCTTATTTGCCGGTTGCGGGATTGTAATTGATTCTGTACCGCAACTTGAATATGAAGAAACAAGTTTGAAGTTTAGACCGATGCTTGGTGCTTTGGAGGAATTAATGAAATGA	MIQTKQIGLQEALSAAIKRATDEKILVSFVKQIDWMDPLLFYAAGKRIAFENRCYFADPAQHVIFAGIGSVFTIATASHKRFQTARDEWDKVKEKAFVQREKYEFGTGPLLFGGFSFDQEKEKTDLWKEFDDTTFSLPAFLLTVKNEKAWLTMNTFVSATDCAETLSNEMISLEEKIFWESKCALEGSKLTVTSKVEVDPKGWMEAIEKVQDEMKLGNVQKVVLARELKVEMDHHIDSALVLEALRIGQPDCYVFSFDYKGACFLGATPERLIRKEDEKFTSMCLAGSTGHGQSIEESKRNSNALLHDEKNLAEHGYVVNMIRSVLNEHCESVNIPESPGLLTTKNLIHLYTPVEAKGDASLLTMVEELHPTPALGGTPRLEAMKLIRDVELLDRGLYGAPIGWIDDEGNGEFAVALRCGLLNGEKASLFAGCGIVIDSVPQLEYEETSLKFRPMLGALEELMK	PGPT0009360_386	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
AK009_02252	1755	menD_1	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGAACAATCATATAGAAGCATTATCATATTATTTAGGCGCGTTCGTGGATGAACTGACGCGTCTAAATGTATGTGATGTTGTCATTAGTCCAGGCTCACGGTCAACGCCGATAGCTCTACTAATGGAACAACACGAAGGAATGAACACATATTTACATGTAGATGAAAGATCTGCAGGATTTTTTGCGCTCGGTATCGCAAAAGCGAAAAAACGTCCTGTTGCATTATTGTGTACATCAGGAACGGCAGCAGCTAATTACTATCCAGCTGTATGTGAAGCTTTTCATTCACGAGTGCCGCTTATCGTCTTAACGGCAGATAGACCGCATGAATTAAGAGATGTCGGTGCACCACAAGCGATGAATCAATTCAATTTATACGGTACATTTGTGAAGCAATTTACAGAGATGGCTCTTCCAGAAGCGAGTGAAGCGATGTATCATTACGCTCGCATGACAACGCAGCGTATGATAGCGAATGCTTGTTTAGCGCCGCAAGGACCTGTTCATCTTAATTTTCCAGTACGCGAACCGCTTATCCCGGATTTCTCATTAGAAGGTTTATGGGATAAAGGACGCGGGGAATATACAGGAGTAGTTCAGCAAGGGAACGTGACGATGCCGAGTGAATATGTAGATTCGCTTGTAGGGCGCCTTTCACATATGGAGAAGGGGCTTATTATTTGTGGAGACGATAGTCATTCAGAACTCGCAGCATTTGCGGCAGAATTAGCTGAAAAAACTGGATATCCAATATTGGCAGATCCGCTTTCTAATATTCGTAGCGGACATCACGATAAAACGATGGTAATCGACTGTTATGATACATTTTTACGAAATGAACTGTTAAAAGAAACGTGGAAGCCAGAAGTTATGATTCGCTTTGGTGGTATGCCTGTTTCCAAATCATTAACGCAGTTCATAAAAAAACAAACGAAAGCAGTTCATATCGTTGTTGATGAATCTGGACAATGGAGAGATCCAGCTCTCGTTGCGACAGAAGTTGTCCAAGCAAATGATATTGTATTTTGCAGTGCATTAATAGAAAAAATGCCAGTTATGAAAAAGAATGATTGGTTCGGAATGTGGCAACATATAAACGAAAAAACGAAGGAAACGCTTCGTGAAATGGAAACATATGATACTGCATTTGAAGGGAAAGTTATTACGGATATTGTCCGCGTACTACCAGACGGGGCAACATTCTTTGCGAGTAATAGTATGCCAATTCGTGATACGGATTCATTCTTCTTCACATTGGATAAAAATATTCAAGTTATGGCAAACCGCGGTGTGAATGGGATTGATGGCATCATTTCGACAGCTTTAGGAGCGAGCATTATTTGCGATCCGCTCGTATTAGTGATCGGTGATTTATCCTTTTATCACGACTTAAATGGACTGTTAGCCGCGAAATTACATGAATTAAATATAACAATTGTCGTTGTAAATAATGACGGTGGCGGTATTTTCTCATTCTTACCACAGTATGAGAAAAAGGAACATTTCGAATCATTATTTGGAACACCAATTGGTCTTGATTATGAACACGTTGTTAAAATGTACGGTGGTTCATTTAGCCGTGTAAATGGTTGGGAAAGCTTCCGAGAAGAGGTACAAAAAGGAACGACTACAGAAGGTTTACACGTTGTGGAAATTTGTACGAACCGTGATGAAAACTTAATACTGCACCGGACATTATGGGCAAAAACGATGGACGTGATTACTACATCTTTACAAGGTGAATCGAAATGA	MNNHIEALSYYLGAFVDELTRLNVCDVVISPGSRSTPIALLMEQHEGMNTYLHVDERSAGFFALGIAKAKKRPVALLCTSGTAAANYYPAVCEAFHSRVPLIVLTADRPHELRDVGAPQAMNQFNLYGTFVKQFTEMALPEASEAMYHYARMTTQRMIANACLAPQGPVHLNFPVREPLIPDFSLEGLWDKGRGEYTGVVQQGNVTMPSEYVDSLVGRLSHMEKGLIICGDDSHSELAAFAAELAEKTGYPILADPLSNIRSGHHDKTMVIDCYDTFLRNELLKETWKPEVMIRFGGMPVSKSLTQFIKKQTKAVHIVVDESGQWRDPALVATEVVQANDIVFCSALIEKMPVMKKNDWFGMWQHINEKTKETLREMETYDTAFEGKVITDIVRVLPDGATFFASNSMPIRDTDSFFFTLDKNIQVMANRGVNGIDGIISTALGASIICDPLVLVIGDLSFYHDLNGLLAAKLHELNITIVVVNNDGGGIFSFLPQYEKKEHFESLFGTPIGLDYEHVVKMYGGSFSRVNGWESFREEVQKGTTTEGLHVVEICTNRDENLILHRTLWAKTMDVITTSLQGESK	PGPT0009365_414	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
AK009_02253	813			Tropinesterase	ATGAACGTAACGCTGCAAGGTGTATCGTATGAATATGAAGTAGTCGGAAGCGGGGAACCACTTCTACTTCTTCATGGTTTTACGGGAAGCATGGAAACGTGGCGTTCTTTTATCCCTTCATGGAGCGAGCAGTTTCAAGTTATTGTAGTAGATCTTGTTGGGCATGGAAAAACAGAAAGTCCCGAAGATGTGAATCATTATGATATTCGAAATGCGGCATTGCAAATGAAAGAACTACTAGATTACCTTCATATTGAAAAAGCGCACGTACTTGGCTATTCAATGGGCGGTAGACTGGCGATTACTCTGGCATGTCTATATCCAGAGTATGTACATTCTCTTTTATTAGAAAATTGTACAGCTGGGCTTGAAAGTGAAGAGGACCAAAAAGAACGTTGTGAAAAGGATGAGCGACTTGCTGATAAAATTGAGCGAGAAGGCATCCGAAGTTTTGTATTAATGTGGGAAAATATTCCGCTATTTGAAACGCAAAAAAGTTTAGCAAAAAACGTACAAGAAGCAGTGCGAAAAGAACGACTTGCTAACAATCCAAAAGGACTTGCCAATAGCTTACGCGGCATGGGAACAGGGGCTCAGCCTTCATGGTGGGATGAGCTACACAACTTGAAAATGCCTGTTCTTTTAATGAACGGGGAGCATGATGAAAAGTTCTTTCGCATATTAAAAAATATCGAAAAATGCGTCTCTGACGCGAAATTTGTCAAAATTGATGGTGCTGGCCATGCAATTCATGTGGAACAACCGGAAAAGTTTGATACAATAGTAAAGGGATTTCTAAAAACTATGCAGTGA	MNVTLQGVSYEYEVVGSGEPLLLLHGFTGSMETWRSFIPSWSEQFQVIVVDLVGHGKTESPEDVNHYDIRNAALQMKELLDYLHIEKAHVLGYSMGGRLAITLACLYPEYVHSLLLENCTAGLESEEDQKERCEKDERLADKIEREGIRSFVLMWENIPLFETQKSLAKNVQEAVRKERLANNPKGLANSLRGMGTGAQPSWWDELHNLKMPVLLMNGEHDEKFFRILKNIEKCVSDAKFVKIDGAGHAIHVEQPEKFDTIVKGFLKTMQ	PGPT0009370_357	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680	NA	NA
AK009_02254	819	menB_2	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGGCTATTGAATGGGTAAAAGAAGGCAATTACGAAGATATTATTTATTCAACATACAATGGTATCGCAAAGATTTCGATTAACCGTCCTGAAGTACATAACGCATTCCGTCCAAAAACGGTAATGGAGTTAATCAACGCTTTTGCACACGCTCGTGATGATGCAAATGTTGGCGTTATCATTTTAACAGGTGAAGGTGGACGTGCATTCTGTTCTGGCGGCGACCAAAAAGTTCGCGGTCATGGTGGATATGTAGGTGACGACCAAATCCCTCGTTTAAACGTATTAGATTTACAACGTCTAATTCGTGCAATTCCTAAACCAGTTATCGCAATGGTAGCAGGTTATGCAATCGGTGGTGGACACGTACTTCATATCGTATGTGACTTAACAATCGCTGCAGACAACGCTGTATTCGGACAAACAGGTCCTAAAGTAGGAAGCTTTGACGGTGGATACGGAGCTGGTTACCTAGCTCGTATGGTAGGCCACAAGAAAGCTCGCGAAATTTGGTACCTATGCCGTCAATATAGTGCACAAGAAGCGCTTGATATGGGCTTAGTAAACACAGTAGTACCATTAGAAGAACTTGAAGCAGAAACAGTACAATGGGCACAAGAAATCTTAGCAAACAGCCCAATGGCACTTCGTTTCCTAAAAGCTGCATTCAACGCAGACACAGACGGTCTAGCTGGTATTCAACAACTAGCTGGAGATGCAACATTATTGTATTACACAACTGACGAAGCAAAAGAAGGTCGCGACGCGTTCAAAGAAAAACGCAGTCCGGACTTCGGTCAATTCCCTCGTTTCCCGTGA	MAIEWVKEGNYEDIIYSTYNGIAKISINRPEVHNAFRPKTVMELINAFAHARDDANVGVIILTGEGGRAFCSGGDQKVRGHGGYVGDDQIPRLNVLDLQRLIRAIPKPVIAMVAGYAIGGGHVLHIVCDLTIAADNAVFGQTGPKVGSFDGGYGAGYLARMVGHKKAREIWYLCRQYSAQEALDMGLVNTVVPLEELEAETVQWAQEILANSPMALRFLKAAFNADTDGLAGIQQLAGDATLLYYTTDEAKEGRDAFKEKRSPDFGQFPRFP	PGPT0009385_1744	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
AK009_02255	1446	menE_2	COG0318	2-succinylbenzoate--CoA ligase	ATGGAGACGATGCCAAATTGGTTAAAGCAACGTGCATTTTTAACACCAGATCGCACTGCAATTGAAATAGAGGAAGAGAAAGTTACTTTCGTGCAGCTGCATGAAAAAGTAGTATCTGTTTGTGAACACCTCACGTATGTAGGAGTGAAGCGTGGGCAAAAGGTGGCTGTTCTGATGAAAAATGGTATGGAGATGATTACAGTTATTCACGCCCTATCTTATGTAGGGGCAGTAGCTGTACTTTTAAATACGCGTCTTTCAAGAGAAGAGCTACTTTGGCAAATGGAGGATGCTGAGGTTGTATGTTTAGTAACGGATCAAGATTTTGAAGCTAAAGATGTTCCTGTATATCCATTCGCCGAAGTGATGAATGGACCGAAGGCGGAAGCCTCTATACAAGAAGAATTCACTTTAGAAGAAGCGATGACAATTATTTATACGTCTGGGACGACTGGGAAACCGAAAGGCGTTATTTTAACGTACGGTAATCACTGGGCAAGCGCGGTAGGCTCTTCGCTTAATTTAGGGCTTCGTGATGATGATTGTTGGTTAGCCTGTATGCCGATGTTCCACGTTGGCGGGTTATCTCTTTTAATGAAAAATATTATGTACGGAATGCTCATTTTACTCGTTCCGAAATATGATGCTGACTTTATTCATAAAGCACTTCAAACGAGAGGCGTAACAATTATTTCTGTCGTTTCTAAAATGTTAACTGACTTATTAGAGAGACTTGGAGAAGAGACATATCCATCTTCTTTACGATGTATGTTACTTGGCGGAGGACCAGCGCCGAAACCGTTACTCGAAACATGTGTAGATAAAGGAATTCCTGTATATCAAACGTACGGTATGACAGAAACGTCGTCGCAAATTTGTACGTTATCCGCGGATTACATGTTAACGAAAGTAGGGTCTGCCGGGAAACCACTATTTCAGTGCCAACTTCGTATTGAAAAAGATGGTGTAGTAGTGCCGCCGTTAGTGGAAGGCGAGATCGTAGTAAAAGGACCGAACGTAACAGGCGGTTATTTTAACCGTGAAGATGCGACGCGCGAAACCATTCAAAATGGATGGCTTCATACTGGTGACCTCGGTTATTTAGACGAAGAAGGATTTTTATACGTATTAGATCGACGCAGTGATTTAATCATTTCTGGCGGAGAGAATATATATCCGGCCCAAATTGAAGAAGTGTTGCTTTCTCATCCGATGGTAGCAGAAGCAGGTGTCGTCGGTATGACTGACGATAAATGGGGACAAGTACCAGCTGCTTTTGTTGTAAAAAATGGGGAGGTAACAGAAGAAGAAATTATTCATTTTTGCGAGGAGAAATTAGCGAAATATAAAGTGCCGAAAAAAGCGTGTTTCTTAGAGGAATTACCACGAAATGCTTCGAAAAAATTGTTAAGACGAGAGCTAAGACAATTAGTGGAGGAGATGTAG	METMPNWLKQRAFLTPDRTAIEIEEEKVTFVQLHEKVVSVCEHLTYVGVKRGQKVAVLMKNGMEMITVIHALSYVGAVAVLLNTRLSREELLWQMEDAEVVCLVTDQDFEAKDVPVYPFAEVMNGPKAEASIQEEFTLEEAMTIIYTSGTTGKPKGVILTYGNHWASAVGSSLNLGLRDDDCWLACMPMFHVGGLSLLMKNIMYGMLILLVPKYDADFIHKALQTRGVTIISVVSKMLTDLLERLGEETYPSSLRCMLLGGGPAPKPLLETCVDKGIPVYQTYGMTETSSQICTLSADYMLTKVGSAGKPLFQCQLRIEKDGVVVPPLVEGEIVVKGPNVTGGYFNREDATRETIQNGWLHTGDLGYLDEEGFLYVLDRRSDLIISGGENIYPAQIEEVLLSHPMVAEAGVVGMTDDKWGQVPAAFVVKNGEVTEEEIIHFCEEKLAKYKVPKKACFLEELPRNASKKLLRRELRQLVEEM	PGPT0009380_385	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
AK009_02256	1107	menC_1	COG4948	o-succinylbenzoate synthase	GTGGAAATAAAAAAAGCGACACTGTATATAACGGAAATGCCACTCGTAATCCCGTTTGCTGCGAGCTACGGGACTTACGAAAAGCGTGAGAGTATTGTTATTGAATTAGAGGATACAGACGGGTACATCGGATTTGGGGAAGTCGTTGCATTTTCTGAACCGTGGTATACGGAAGAAACGGTGAAGACAGCACTACATGTACTGCAAGACTTTTTGTTACCTGATTTATTAAAGGCTGAAATTTCTCATCCGAATGAGGTACCGGGTCTATTTCAACATATAAAAAGAAACCGAATGGCAAAAGCCGGAATAGAGGGGGCTATTTGGGATTTATATGCGAAGCGTCAAAAGAAATCGCTAGCGACAGTTCTTGGAGGAGCTAGCCCTGAAATTGAAGTCGGCGTTGTAATTGGGATCAATACGATTCCGGTTATGTTAAAACAAATCGAGAAGTACGCAGAAGAAGGGTACGAGCGTTTTAAAGTGAAAATAAAGCCAGAGCATGATTACGAATTATTGAAAGAGATTCGTAAAGAGTTCCCGCACATCCCGTTAATGGCTGATGCAAATTCAGCGTATACATTAGCGGATACAGAGAAACTGAAACGACTAGATGAATTTCAATTGATGATGATTGAGCAACCGCTAGCAGATTACGATTTTCTCGATCATGCACAGCTGCAGAAGAAGATTGAAACGCCGATTTGTTTAGATGAAAGTATCCATAGTTTAGAAGACGCACGCGTTGCGATTACACTTGGTAGTTGCCGCATCGTTAACATTAAACCAGGGCGAGTGGGCGGATTAACAGAATCGGTTCAAATTCATAATTATTGCATGGAGCATAACATACCAGTTTGGTGCGGTGGTATGGTGGAGATGGGGATTTCACGAGCGCAAAATGTTGCTCTTGCTTCATTACCTAACTTTACGATTCCAGGCGACATATCTGCTTCTAGTAGACATTGGCAGAGGGATATTATTTCACCGGAAGTGACGCTTGAGGGCGGGAAAGTGATGGTGCCGCAAAGCGTTGATGCTGAGTATGAAGTAGATCGCGGAAGGCTGGCGGAAATCACGAAGCAGCGGATTGTGTTTGAACGGTAA	MEIKKATLYITEMPLVIPFAASYGTYEKRESIVIELEDTDGYIGFGEVVAFSEPWYTEETVKTALHVLQDFLLPDLLKAEISHPNEVPGLFQHIKRNRMAKAGIEGAIWDLYAKRQKKSLATVLGGASPEIEVGVVIGINTIPVMLKQIEKYAEEGYERFKVKIKPEHDYELLKEIRKEFPHIPLMADANSAYTLADTEKLKRLDEFQLMMIEQPLADYDFLDHAQLQKKIETPICLDESIHSLEDARVAITLGSCRIVNIKPGRVGGLTESVQIHNYCMEHNIPVWCGGMVEMGISRAQNVALASLPNFTIPGDISASSRHWQRDIISPEVTLEGGKVMVPQSVDAEYEVDRGRLAEITKQRIVFER	PGPT0009375_574	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
AK009_02257	699	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGAAGCGCATTTCAATTTTAATAGCTGATGATGAGGCGGAAATTGCTGACTTAATTGAGATACATTTAGAAAAAGAAGGGTACCATGTTGTGAAAGCAGCGGATGGGGAAGAGGCGGTTCATATTATTGAAGCGCAGCCAATCGACTTGGTAGTTTTAGATATTATGATGCCGAAAATGGATGGTTATGAGGTGACGCGTCAAATTCGCGCGAAACATCATATGCCAATTATTTTTTTAAGCGCGAAAACTTCGGACTTTGATAAGGTGACAGGTCTTGTACTAGGTGCGGATGATTATATGACGAAGCCTTTCACACCGATAGAATTAGTTGCACGTGTAAATGCACAACTGCGTAGGTTTTTTACGTTAAATCAACCGAAAGTAGCGGAGAGTAAATCTGCTTTAGAAATAGGCGGAGTCGTAATTAATCCTGAGCGCAGGACGGTTGATGTGTATGGTGAGCAAATTGAATTAACGCCGAAAGAGTTCGATATTTTATATTTATTAGCGAGTCATCCGAAGAAAGTATACAATGTGGAAAATATTTTTCAGCACGTATGGGCGGATGATTATTATGAAGGTGGAAATACAGTAATGGTACATATTCGTACTTTGCGGAAGAAACTTGGAGAAGATAAAAGAAAGGATAAATTAATAAAAACAGTGTGGGGAGTAGGTTATACTTTCAATGGCTAA	MKRISILIADDEAEIADLIEIHLEKEGYHVVKAADGEEAVHIIEAQPIDLVVLDIMMPKMDGYEVTRQIRAKHHMPIIFLSAKTSDFDKVTGLVLGADDYMTKPFTPIELVARVNAQLRRFFTLNQPKVAESKSALEIGGVVINPERRTVDVYGEQIELTPKEFDILYLLASHPKKVYNVENIFQHVWADDYYEGGNTVMVHIRTLRKKLGEDKRKDKLIKTVWGVGYTFNG	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
AK009_02258	1107	rcsC_7		Sensor histidine kinase RcsC	ATGGCTAATATGATGAAAAGTTTTCGATTTAAAATGATTGCCTTATTTGCGTTAAGTATGGTGCTTGCAGCAACTGTAACTTATATAATTTATAAAGGATTGCAGCTGTATTATAAAACAATGGTTCGCTACGAAGAGCCTTTAGCACAATTTAGGTCAATGGTAAGGGAATTTGGAGACATTAACTTCTTTTTAATTTTCTTTATTCCGTTGTCTATTATCTTTTTCTTCTTTTTGACAAAACCGTATTTAAAATACTTTGATGAAATTTCTAATGGGATTCATCATCTTGCGAACGGTAACTTTACGAATAAAGTTCAAGTTTCATCAAATGATGAGTTTGGAAATATCGCGCGTGAAATAAATGTTGCAAGTGAAAAGTTAAAAGAAGCTGTTGAAAGAGGAGATTTTGCTGAAAGTAGTAAAGATCAGCTTGTTGTAAATTTAGCTCATGATTTAAGAACGCCATTAACATCCGTGTTAGGATATTTAGATTTAATTCTTAAAGATGAAAATTTAACAAAAGAACAAATTAAACATTTCTCCACAATTGCATATACAAAATCGCAAAGACTGGAAAGTTTAATTGATGAGCTATTTGAAATTACACGTATGAATTATGGCATGCTAAAGCTGGATAAAAAGCCGATTGATATAAGTGAGTTACTTATACAGTTAGAGGAGGAATTGTATCCGTTATTAGAAAAACATCATTTAGAAGCTAGATTGAATGTGGACCCTCATTTACCGATGCACGGTGATGGAAAATTGTTAGCTAGAGTATTTGAAAACTTGTTAACAAATGCCGTTCGTTACGGATATGATGGGCAATTTGTTGATATGAATGGGTATGTTGATAATAGAGAAGTTGTCGTACAAATTATGAATTATGGAGATAGCATTCCAGAAGAAGATTTACCGTATCTTTTTGATATGTTTTACACAGGTGATAAAGCGAGAACTGAGAACCGTGGCGGGACAGGCCTTGGACTATTCATTGCGAAAAATATTGTCGAGCAGCATAATGGTACGATTTCTGCTGAAAGCAATGTAGTTAGAACGATATTTGAAGTACGATTGCCAAAAGACGAGAATGTAACAATTTAA	MANMMKSFRFKMIALFALSMVLAATVTYIIYKGLQLYYKTMVRYEEPLAQFRSMVREFGDINFFLIFFIPLSIIFFFFLTKPYLKYFDEISNGIHHLANGNFTNKVQVSSNDEFGNIAREINVASEKLKEAVERGDFAESSKDQLVVNLAHDLRTPLTSVLGYLDLILKDENLTKEQIKHFSTIAYTKSQRLESLIDELFEITRMNYGMLKLDKKPIDISELLIQLEEELYPLLEKHHLEARLNVDPHLPMHGDGKLLARVFENLLTNAVRYGYDGQFVDMNGYVDNREVVVQIMNYGDSIPEEDLPYLFDMFYTGDKARTENRGGTGLGLFIAKNIVEQHNGTISAESNVVRTIFEVRLPKDENVTI	PGPT0028480_138	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
AK009_02259	861	vanY		D-alanyl-D-alanine carboxypeptidase	ATGAAAAAGTGGGTATTTATTTCTTTTTTTATAGCATGCACAGTATGTGTAGGCGTTTATATATCACCTTTATTTCAAAAGGAAATCGATGTTAAAATTGTCGGGAAAGATGAGCTAGTAAAGGCGGCAAACACTGAGAGGAAAGAGATTACGAAGGAACAAATTTATAAGGGTGATTTATTATTAGTTAACAGGGATTATCCAGTAAAAAAAGATAGTATTAGGTCTGATATTATAAATATAAATCATAATAGTGAATTAGTAAGAGGCTATGTAATATTTGATAGAAATCTTCGTTTATCAAAGGATGTTGTGAAAAAGTTTTTGAACGTTGTCGATGCGGCTGGAAAAGAAAGTGTTAACCATTTTTTGATTAGTAGTGGTTATAGAGATTTCCAAGAGCAAAAACAGCTATATGAAAAAATGGGATCTGATTATGCACTTCCAGCAGGATACAGTGAACATAATTTAGGATTATCACTGGACATTGGGTCTACTCAAAAAAAAATGGAGAAAGCGCCTGAAGGAAAATGGATTGAAGAGAACGTATGGAAGCATGGCTTTGTATTACGTTATCCGAAAAATAAAAGTAACATTACTGGAATTCAATATGAGCCATGGCATATCCGTTATGTCGGCCTACCTCATAGCGCAATTATGCAAAAAAAGAATTTTACACTAGAGGAATATTTAGAGTTTTTAAAAGAGGAAAAAGAGGTTTCAACTGAAGTAGAAGGTAAGAAATATACTGTTTCTTATTATAAAGTTTCTGAGAATACGAAAGTGAACGTTCCAGCAAACAAGCAGTATGAAATTTCCGGTAACAATATGGATGGGGTTATTGTGACGGTTCAGGAATAG	MKKWVFISFFIACTVCVGVYISPLFQKEIDVKIVGKDELVKAANTERKEITKEQIYKGDLLLVNRDYPVKKDSIRSDIININHNSELVRGYVIFDRNLRLSKDVVKKFLNVVDAAGKESVNHFLISSGYRDFQEQKQLYEKMGSDYALPAGYSEHNLGLSLDIGSTQKKMEKAPEGKWIEENVWKHGFVLRYPKNKSNITGIQYEPWHIRYVGLPHSAIMQKKNFTLEEYLEFLKEEKEVSTEVEGKKYTVSYYKVSENTKVNVPANKQYEISGNNMDGVIVTVQE	PGPT0024055_471	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
AK009_02260	1101		COG3964	Deacetylase	ATGACAGAACGATTCGTACTACGTAATGTGAAACGTGTGAACGGGGAAGAGATTGACATTGTAATTGAAAATAACAAAATCGCACAGGTGACGAAAGCTGGTGCTGGCGAGGGTGGAAAGGTTCTTGATTACTCTGGTACTTACGTATCGAGTGGTTGGATTGATTTGCACGTTCATGCTTTTCCAGAGTTTGATCCGTATGGCGATGAGGTGGATGAAATTGGCGTTAAGCAAGGGGTAACGACAATTGTTGATGCGGGTAGTTGCGGTGCTGATCGCATTGCAGATTTAGTAAAAAGTAGAGAGCAGGCAAAGACAAATTTATTTGCCTTTTTAAATATTTCTCGCATCGGTTTGAAACGAATTGATGAATTATCCAATATGGAATGGATAGATAAAGAGAAAGCGATAGAAGCAGTAGAAAAGTATAAAGATGTAATCGTTGGGTTAAAGGCGAGAATGAGTAAAAGTGTCGTTTGTGATAGTGGAATTGAACCGCTGCATGTAGCGCGCGCTTTATCTCGAGAAACATCATTACCGATTATGGTACATATCGGTTCAGCGCCTCCTCGCATTGAGGAAGTTGTACCTCTTTTAGAAAAAGATGATGTCATTACACATTATTTAAACGGGAAAGAAAATAATTTATTTGATGAAGAAGGTAAACCACTACCTGTGTTACTAGATGCAGTGAATCGCGGTGTGCATTTAGATGTTGGTCACGGTAACGCTAGTTTTTCTTTTAAAGTAGCAGAAGCAGCGAAGCGTTACGGTATTGCCTTTCGTACAATTAGTACAGATATTTACCGGAAGAACCGTATACACGGTCCAGTTTACAGTATGGCTCACGTTCTTTCGAAATTCCTTTACTTAGGTTATCCGCTAGAAGAAGTGATTGATGCGGTTACGAAAAATGCAGCAGAATGGCTTAAGAAACCAGAGCTTGGCCGCATTCAAGAAGGAGATATTGCAAACTTAACTTTATTTACGGTGAAAGATGAGAAGGTTACGTTAATTGATTCAGAAGGGGATCAGCGCATTGCTGAAAGAAGAATTGATACAAAAGGGGTTGTAATTAATGGGTCATTCATTGAATGCTAA	MTERFVLRNVKRVNGEEIDIVIENNKIAQVTKAGAGEGGKVLDYSGTYVSSGWIDLHVHAFPEFDPYGDEVDEIGVKQGVTTIVDAGSCGADRIADLVKSREQAKTNLFAFLNISRIGLKRIDELSNMEWIDKEKAIEAVEKYKDVIVGLKARMSKSVVCDSGIEPLHVARALSRETSLPIMVHIGSAPPRIEEVVPLLEKDDVITHYLNGKENNLFDEEGKPLPVLLDAVNRGVHLDVGHGNASFSFKVAEAAKRYGIAFRTISTDIYRKNRIHGPVYSMAHVLSKFLYLGYPLEEVIDAVTKNAAEWLKKPELGRIQEGDIANLTLFTVKDEKVTLIDSEGDQRIAERRIDTKGVVINGSFIEC	PGPT0021145_5952	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
AK009_02261	1104	dgaE		D-glucosaminate-6-phosphate ammonia lyase	ATGGGTCATTCATTGAATGCTAAGTACGGATTAAAAAGAGTGATTAATGCGAGCGGTAGAATGAGTATTTTAGGTGTATCCGCTCCGGCAAATACAGTGATGGATGCGATGAAACATGGTGGACAAAATTATGTAGAAATTGCTGATTTAGTAGATAAAGCAGGAGACCATATTGCGAGAATTCTAGATTCAGAGGCAGCAGTTGTTGTAAATTCAGCATCAAGCGGAATTGCGCTTTCTATCGCTGGTATCGTTACGGAAGGAAATCGCCGTAAAAGTGAAAGACTTCATCAAGAAGTAATCGCGAAAAACGAAGTGATTATGTTAAAAGGTCATAACGTTCAATACGGTGCACCTGTTGAAACGATGATTTACTTAGGCGGCGGTAAACTCGTTGAAGTTGGCTATGCAAATGAAGGGAAAGCAGAGCATATTGAAGATGCAATTGGTGAAAATACAGCAGCGATTCTGTATGTGAAATCACATCATGCAGTGCAAAAAAATATGATTTCTGTTGAAGAAGCATGGGAAGTTGCGCAGCGAAATAACGTACCGCTTATCGTGGATGCAGCAGCTGAAGGAGATATTCAAAAATATGTGAAGTATTCAGATCTTGCCATTTATAGCGGTTCAAAGGCGATTGAAGGGCCTACTTCTGGTATTGTTGGCGGGAAACGAAAATACATCGAGTGGCTGAAAGTACAATTACATTGCATCGGAAGAAGTATGAAAGTTGGGAAAGAGACGACTTTCGGTTTACTTCAAGCGCTTGATGAGTACGGAGTAAAAGAAGATAAGAGCGAGCAAGAAAAAGAGCTATTACAAGTACTTATGCCGCTAAAAGAATTAAATGGTGTAAATGTAACGATCGTTCAAGATGAAGCAGGAAGAGCAATCTTTAGAGCTCGTATTCATATTAACGAGAAAGAGTTAAACAAATCAGCAAAAGAAGTTGTGACTGCATTACGCGAAGGGGAAATCGCCATTTATACACGTGATTACGGAGTAAGACAAGGATTCTTTGATATTGATCCACGTCCACTTCAAGGTGATGACATACATGTGATTGAAGAAAAATTGAGAGAAATCGTAGGGGGAAACTAA	MGHSLNAKYGLKRVINASGRMSILGVSAPANTVMDAMKHGGQNYVEIADLVDKAGDHIARILDSEAAVVVNSASSGIALSIAGIVTEGNRRKSERLHQEVIAKNEVIMLKGHNVQYGAPVETMIYLGGGKLVEVGYANEGKAEHIEDAIGENTAAILYVKSHHAVQKNMISVEEAWEVAQRNNVPLIVDAAAEGDIQKYVKYSDLAIYSGSKAIEGPTSGIVGGKRKYIEWLKVQLHCIGRSMKVGKETTFGLLQALDEYGVKEDKSEQEKELLQVLMPLKELNGVNVTIVQDEAGRAIFRARIHINEKELNKSAKEVVTALREGEIAIYTRDYGVRQGFFDIDPRPLQGDDIHVIEEKLREIVGGN	PGPT0004815_1713	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042	NA	NA
AK009_02262	756	dgaF		2-dehydro-3-deoxy-phosphogluconate aldolase	ATGACAAACATTCAAAAACGTTTTTATAAAGGCCACGTAGCATTAAATGTATTAGCAAACAATATAGAAAATGCAAAAGATATTTTTGAAGCAGCAGAAGGTTATGTAGTAGTGGGAGTGTTATCAAAAGACTACCCAACAGTAGAAGAAGCTGTTACAGCTATGAAAGCATACGGAAAAGAAATTGATGACGCTGTATCAATCGGACTAGGCGCAGGAGATAATCGCCAAGCAGCAGTTGTAGCTGAAATTGCGAAGCATTATCCTGGTAGCCATATTAACCAAGTGTTCCCTTCAGTTGGAGCAACGCGAGCAAATCTCGGCGAAAAGGATAGCTGGATTAATAGTTTAGTATCACCAACAGGAAAAGTAGGTTACGTAAATATTTCTACTGGCCCAATTAGTGCGGCTGGAGAAGAAAAAGCAATCGTTCCAATTAAAACAGCGATCGCACTTGTACGTGATATGGGCGGAAATTCACTGAAATACTTCCCGATGAAAGGGCTAGCTCACGAAGAAGAATATCGCGCAGTTGCGAAAGCTTGTGCAGAAGAAGGATTCGCATTAGAGCCAACAGGTGGAATTGATAAAGAAAACTTTGAAACAATTGTACGTATTGCGCTTGAGGCAAATGTAGAGCAAGTTATCCCGCACGTATACTCTTCTATTATTGATAAAGAAACTGGTAATACGAAAGTAGAAGATGTTCGTGAATTATTAGCAGTCGTGAAAAAGCTAGTTGATCAATATGCGTAA	MTNIQKRFYKGHVALNVLANNIENAKDIFEAAEGYVVVGVLSKDYPTVEEAVTAMKAYGKEIDDAVSIGLGAGDNRQAAVVAEIAKHYPGSHINQVFPSVGATRANLGEKDSWINSLVSPTGKVGYVNISTGPISAAGEEKAIVPIKTAIALVRDMGGNSLKYFPMKGLAHEEEYRAVAKACAEEGFALEPTGGIDKENFETIVRIALEANVEQVIPHVYSSIIDKETGNTKVEDVRELLAVVKKLVDQYA	PGPT0002065_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0002065-dgaF-K17463	NA	NA
AK009_02263	1017	iolC		5-dehydro-2-deoxygluconokinase	ATGCGTAAGAAAATTGCAGCGTTCGGTGAAGTAATGATGCGCCTGCAAGTACCTGGATATGAATTGTTGTCGCAAGCTAGCACGTTAAATTACTCATTTTCAGGTACAGGTGTGAACGTTGTAGCGGCACTTTCTCACTTAGGGCATGAAGGGCTTCTTATTTCAACTTTACCGGAAAATTCGGTTGGAGATGCAGCTGTATCTTACATTCAAAAGTTAGGGATTCAAACTTCTCTTGTTTCAAGAGGTGGTAAATATGTAGGTATGTATTTTTTAGAAAATGGATTCGGTGCACGTGCAAGCCGCGTTACATATTCGAATCGATTAGAAAGTAGCTTCAATACGGCATGTGAAGAAATGTATCAATTTGAAGAAATCGCAAAGGAAATTGATATCGTTCATTTTTGCGGTATTACACTTGCAATGAATGATACTGTGCGTCATCATATGAAATCTTTAGCGAGAGCAGTTAAAGAAAACGGAGGAACCGTCGTTTTTGATTGTAATTATCGTCCCTCACTTTGGGGAGAAGACGGATATGAACAGGCAAAACCGCATTATGAAGAAATGCTAGGGCTTGCTAATATCGTTATGATGAATGAAAAAGATGCGATGTTCGTTCTTGGGATGAAAACAGAAGAGATGGAGCGTGAGGCGCAGCTGCTGGATCTCATTCCAAAGGTAGCTGAAACGTATCATATTGCTACAATCGCTGGTACTCATCGCTCTATTAACAGTGATAATACACATTCGCTTCGCGGGTTTATATGTAAAGATGGATCGTTCACTTTTGCAAAAACACTTACGTTTTCTGTATATGATAGAATAGGTGCTGGAGATGCTTATACGAGCGGAATTATTCATGGCGAGATAAAAGAGTTCGCACCAGAGAAAGCTGTTTCATTTGCGTCAGCAGCTGGAATGCTAGCACATACAATCGTCGGTGATACGCCAATGTCATCAGAGAAAGATATACTTCGGGCAATGACGGCATCAGTAGGTGATGTAGAAAGGTAG	MRKKIAAFGEVMMRLQVPGYELLSQASTLNYSFSGTGVNVVAALSHLGHEGLLISTLPENSVGDAAVSYIQKLGIQTSLVSRGGKYVGMYFLENGFGARASRVTYSNRLESSFNTACEEMYQFEEIAKEIDIVHFCGITLAMNDTVRHHMKSLARAVKENGGTVVFDCNYRPSLWGEDGYEQAKPHYEEMLGLANIVMMNEKDAMFVLGMKTEEMEREAQLLDLIPKVAETYHIATIAGTHRSINSDNTHSLRGFICKDGSFTFAKTLTFSVYDRIGAGDAYTSGIIHGEIKEFAPEKAVSFASAAGMLAHTIVGDTPMSSEKDILRAMTASVGDVER	PGPT0018060_982	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
AK009_02264	726	dasR	COG2188	HTH-type transcriptional repressor DasR	GTGGGTGTAACAGTGAACGTAACGAGGAAAAAAGGACCATTATATTTACAAATAAAAAATATTATTCGTGATCGCATATTACATGGTGTATATGCGATTCATACGAATATTCCTTCAGAACCGCAATTAGAGGAAGAGTTCAAAGTTAGCAAGATTACAGTACGAAATGCCATTAAAGAACTCGCTCAAGAAGGATACTTGGAAAAAAAAAGCGGTAAAGGAACGAAAGTAATTCGTAATACTTCGGCGACAAAGTTGTCAAAGGGTAAGAAATTTACAGAAGTGTTAGTGGAAGAAGGATATAAAGTACAGAAGAAATTGCTAAAAGCAGAAGTCGTACATAATGAGGAAGGAACAGTGCCATTTCGATTATTCGGGAAAGAGAGTTTCCGTATCGAACGTTTATATACGTTAAATGATACACCGTACATTCATTATACGCACTATTTCTCAGCACACATGGCAAGTACAGATTTATCGGACTTTGATTTACAATCGCTTTATGATTTAGTTGAAGACCGAGGTATACATTTAGAAAACTTCAGAGATGAATTCGCTGTTGGGCTTGCGCCTAGCTTCGTTGCAGAAGCGCTAGGTGAAAAAGAGGGGACAGCGTTATTAAAACGTATGCGCTATTCTTATGATGAAGTTGGCGAAGTAATTGAATATAGCGAAGGCTACTACAATACAGAAATGCAGCATTATGTAGTGAATTATGACGTATAA	MGVTVNVTRKKGPLYLQIKNIIRDRILHGVYAIHTNIPSEPQLEEEFKVSKITVRNAIKELAQEGYLEKKSGKGTKVIRNTSATKLSKGKKFTEVLVEEGYKVQKKLLKAEVVHNEEGTVPFRLFGKESFRIERLYTLNDTPYIHYTHYFSAHMASTDLSDFDLQSLYDLVEDRGIHLENFRDEFAVGLAPSFVAEALGEKEGTALLKRMRYSYDEVGEVIEYSEGYYNTEMQHYVVNYDV				NA	NA	NA	NA	NA
AK009_02265	1326	gntT_2	COG2610	High-affinity gluconate transporter	ATGGATATATACTTATTAATCGTCACGTTACTTGCGATCACAATTGTTATTTTAGGGGTATCATGGTGGAAATGGCATGCATTTATTAGTTTAACAGTTGCGAGTTTGTTTTTAGCTATTATGTCTGGACTGAACTTAACGAAAATAGTGGCTGCCTATGAAACTGGTGTTGGTAGTGTACTAGGACATTTAGTTGGTATTTTGGCACTTGGAACTATATTAGGGAAAATGATGTCTGATTCAGGGGCAGGCATGCAAGTTGCAGATTTCTTTATTCGATTTTTCGGCGTAAAAAAATTACCTTGGGCTATGTTATTTGCAGGGTTTGTTATAGGGATTCCTGTCTTTTTTGAAGTAGGGATCGTCATTTTATTACCACTTGTTATTTCCATTCGAAAAACGACGAAGCAAAATATATTATTAATTGCGTTACCTGTTATTGCGGGATTATCTATCGTACATGGGCTAGTACCACCACATCCAGGTGCCATGACAGCAATCGGTATTTATAACGCGAACTTAGGAAAGGTACTTTTATATTCATTACTTATCGCGTTACCAACGGCTATTATAGCAGGGCCAATATTTGCAAAGTGGGTACATAAGAGGGTTATACCGGAAAATGAACCGGAGCTTGTTCGAGTTACGACAGTATCAACTGATTTGCCAAGTCGTAAAGTATCATTCTTTATTATTTTATTACCAGTTGTATTGATGATTTTATCAGTAGTTGCACCATATATTTCATTACCGGAAAAGTTAACTGAATTTTTTGTTTTTATAGGGAGTCCAGTAATCGCTTTACTTATTTCATGTTTCGCAGCATTTTATTTACTTGGAATAAGACAAGGAATTAATAAAAAGATAATTAAAAAATTAACGGATGAAAGTTTATTACCGGTCGGCTCCATTATCTTAATTATTGGTGCAGGCGGTGGATTTAAACAAATATTAATTGAAAGCGGCGTTGGAACGGCTATTGCACAAATGGCAGAACATATTTCGTTATCACCAATTGTATTAGCTTTCATGGTAGCTGGATTAATTCGAATTGCAACAGGTTCAGCGACAGTCGCACTAACGACAGCAGCAGGAATTGTTTCACCGGTTATTCAGCACATGTCTGGTGTGAATTTAGAGCTTCTCGTTATTGCAACCGGTGCAGGTTCATTAATGTTTTCTCACGTAAATGATGCAGGCTTCTGGCTTGTAAAAGAGTATTTAGGATTAACGGTGAAGGAAACATTTAAAACGTGGACGGTGCTGGAAACATTGTTGTCATTTATTGCATTCGGTTTTGCCCTTTTGTTGAATATGTTTCTTTAA	MDIYLLIVTLLAITIVILGVSWWKWHAFISLTVASLFLAIMSGLNLTKIVAAYETGVGSVLGHLVGILALGTILGKMMSDSGAGMQVADFFIRFFGVKKLPWAMLFAGFVIGIPVFFEVGIVILLPLVISIRKTTKQNILLIALPVIAGLSIVHGLVPPHPGAMTAIGIYNANLGKVLLYSLLIALPTAIIAGPIFAKWVHKRVIPENEPELVRVTTVSTDLPSRKVSFFIILLPVVLMILSVVAPYISLPEKLTEFFVFIGSPVIALLISCFAAFYLLGIRQGINKKIIKKLTDESLLPVGSIILIIGAGGGFKQILIESGVGTAIAQMAEHISLSPIVLAFMVAGLIRIATGSATVALTTAAGIVSPVIQHMSGVNLELLVIATGAGSLMFSHVNDAGFWLVKEYLGLTVKETFKTWTVLETLLSFIAFGFALLLNMFL	PGPT0001340_2475	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
AK009_02266	192			hypothetical protein	ATGAGCGAAAAGTGTGAACACAGACATGATGATTGTAACCGCAGAAATGGTTGCGGAGGCGGTTTTGCGCTTCTAATCGTATTGTTTATTTTATTAATTATCATCGGTGCTAGCTGCTTCGGCGGAGGCGGCTCTTGTGGATACGGTGGTTACGGCGGTTATGCTGGCGGCTATGGTGGATATTGCTGCTAA	MSEKCEHRHDDCNRRNGCGGGFALLIVLFILLIIIGASCFGGGGSCGYGGYGGYAGGYGGYCC	PGPT0024985_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_02267	1974	yxdM_3		ABC transporter permease protein YxdM	ATGACATTTTGGCAATTCGCATTTAAAAATGTCTCGCGTAATTCGAAAGCATATTTCGCCTACTTTGTCAGTAGTGCCTTTTCTATCATGGTTTTCTTTTCATTTACTGTATACGCGTATCACCCGCGGTTACAGAGTGTACAAAACTTTCAAGAACGTGATCCTCTAATGAACTTAGCTAGTACAGCACAGCTTGTGATTGTTATGTTCTCGTTCTTCTTTCTCTTATATTCAATTGGAACATTTTTAAATGTACGGAAGCAGCAATTCGGGATACTCACAATTCTCGGTATCTCACAGCGACAATTAAAAAGACTGTTATTTACTGAAAATATGATAATCGGGATATTGTCTATCTTTATCGGCATTCAAGGTGGCCTTGTATTTTCTAACTTTTTCTTATTAGTCACTTCGAAATTAACAAGTGCTAAAGGTCTCTATTTATATTGGCCAACAGAAGCGATTATCGTGACAACCGTAACGTTTATCATTTTATTTTTAATCGTTTCTACGTTTACACCAATGTTTATTCGTACTCGAAAAACAGCCCACCTTATTAAAGGGAACAAGAAAATACCAGCTGAAAAAAGACCATCTATACTCATCTCTTTATTTGCTTTAATTTGTTTAGGGCTATGCTATTATATCGCTGGTTATCCGCGAGGCTACGTAACGGAAAAAAATGTGCAAAATGGATCTGTCTTTTTTATTATGTTATCTATTTTACCGCTCGTAGTAGTCGGGACATATTTATTCTTTTCACAAACATTTCTTCTTTTTATCTATATTTTAAAGAAGCGTAGAAAGTTTTATTTGAAACAAATAAATATGTTATGGATTTCGGACTTAGTTGCTCGTACCCGTAGTAATATTAACGTACTCTTTATCGTTTCTATGCTATCTGCACTTGCATTTACAATTATTATTGGGTTATTCGCCGCTAATAACAATACGAAGGCATCAGTACTAGAGCGATATCCCGTCCCCTTCACTTATACATCAGAAGGTGACAATTCCCTTGAACAAAAGCATATTTCTACAATTGAAACGGAGCTTACAACTAGTAATTTTCAGTACAAAAAATATAAGTTTACAGTATTAAAAGATACAGCTTCCAAAGAAGATATTATGCTTATGAAGATGAGTGATTATAACGCAATTGCTAAACAATTGAAAAGACCGGAAATAACAATCGATTCTACAGAAGTTTATATTATTTCTCGGCACTCACCAGAACTTCTCGATCTCGTATCTAATCCATTTGCAAAGCAAAATACGATTACACTCGGGTCTAATAAAAAAGAATTTCATATTAAAGGGTTTATTAATAAGGGAATCGAACCATCCTTTGCATTCCCACATTTAGCTGTCGTACAAGATTATGTATTTGATAATATGATTCCTCATATTGAGACAACCGTAATCTATAACTACTTCGTAGAAAACTGGGAAAATGCAATAGTTCCAACCAGAAATATGTTACGTGTTATTAGTGGTGATGCACGTGAGTTCTACAAAAAGCATACAGAAGAGAACGCTCAAGTTCCTTTCTTCATACATACGGCTACGGATGAACTCATTTACGGTAAAGGAAATGCAGTTGCTCAATTCTTTATTTGGGCATTTCTTGGTTTTATCTTCTTTATCGGTGCGGCTAGTGTCTTATATTTCCGTATGTATAATGACTTAACAACTGAAAGACAAAAGTATATTACGATTACAAAACTTGGCTTAACTGAATTAGAAATGTTTCGCTCTGCAACCATTCAATTAGGAATTTTATTTTTTGTTCCTTACATCGTTGCTGGTGTTCACACGTTATTTGCGGTTAAGTTTTTACAAAGCATGTTTTCTTTCTCCTTACTAAAAGAGACATGTATCGTACTCACCTTTTTCGGGATTATCGAGATCATTTTCTTCTTCTTAATCCGTTCTCTGTACATTAATAAATTATCACAGCATATAAAAATATGA	MTFWQFAFKNVSRNSKAYFAYFVSSAFSIMVFFSFTVYAYHPRLQSVQNFQERDPLMNLASTAQLVIVMFSFFFLLYSIGTFLNVRKQQFGILTILGISQRQLKRLLFTENMIIGILSIFIGIQGGLVFSNFFLLVTSKLTSAKGLYLYWPTEAIIVTTVTFIILFLIVSTFTPMFIRTRKTAHLIKGNKKIPAEKRPSILISLFALICLGLCYYIAGYPRGYVTEKNVQNGSVFFIMLSILPLVVVGTYLFFSQTFLLFIYILKKRRKFYLKQINMLWISDLVARTRSNINVLFIVSMLSALAFTIIIGLFAANNNTKASVLERYPVPFTYTSEGDNSLEQKHISTIETELTTSNFQYKKYKFTVLKDTASKEDIMLMKMSDYNAIAKQLKRPEITIDSTEVYIISRHSPELLDLVSNPFAKQNTITLGSNKKEFHIKGFINKGIEPSFAFPHLAVVQDYVFDNMIPHIETTVIYNYFVENWENAIVPTRNMLRVISGDAREFYKKHTEENAQVPFFIHTATDELIYGKGNAVAQFFIWAFLGFIFFIGAASVLYFRMYNDLTTERQKYITITKLGLTELEMFRSATIQLGILFFVPYIVAGVHTLFAVKFLQSMFSFSLLKETCIVLTFFGIIEIIFFFLIRSLYINKLSQHIKI	PGPT0027860_65	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
AK009_02268	753	yxdL_3	COG1136	ABC transporter ATP-binding protein YxdL	ATGGAAGAAGTATTACACATAAAAAACGTCTCAAAAGTGTATGAGGGAAAAGTACCTCATACCGCTTTAAAAAATATAAATTTACACGTAGATAAAGGTGAATTTGTTGCTATCATGGGGCCATCTGGTAGCGGTAAATCTACGTTTTTAAACGTTATTTCTACAATTGATTCCCCTACTTCTGGTGATGTCGTTATTAATGGAAAAAAACCGCACACATTTCGTAGAGAGAAGTTAGCCATTTTCCGCCGCCAAGAGTTAGGATTTGTTTTCCAAAATTTTAATCTACTAGATACACTAACAATCGGTGAAAATATCGTACTACCTTTAACATTAGATAATGTTCCATTAAAAGAAATGGATGAAAAGCTTGATAACATTTCAAAAAAGCTTGGAATTGATCATATTTTGGACAAACGTATTTTTGAAGTTTCTGGAGGACAAGCACAGCGTACCGCAGTAGCACGTGCTGTTATCCATCATCCCTCACTTCTACTTGCTGATGAACCAACAGGGAACTTAGATTCAAAAGCAGCAATTGACGTAATGGAGCTATTTACGAAATTAAATAAAGAAGAAGATGCAACGATTTTAATGGTTACGCACGATCCGTTTGCAGCAAGTTATTGTAACCGCGTCATTTTCATTAAAGATGGCGAGCTTTACAACGAACTACACCGCGGATTATATCGCGAGAAATTTTATCAAGAAATATTAGATGTTCTAGCGTTATTAGGAGGAAGACGTGGATGA	MEEVLHIKNVSKVYEGKVPHTALKNINLHVDKGEFVAIMGPSGSGKSTFLNVISTIDSPTSGDVVINGKKPHTFRREKLAIFRRQELGFVFQNFNLLDTLTIGENIVLPLTLDNVPLKEMDEKLDNISKKLGIDHILDKRIFEVSGGQAQRTAVARAVIHHPSLLLADEPTGNLDSKAAIDVMELFTKLNKEEDATILMVTHDPFAASYCNRVIFIKDGELYNELHRGLYREKFYQEILDVLALLGGRRG	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
AK009_02269	1956	yxdM_4		ABC transporter permease protein YxdM	ATGACATTTTGGCAGTTTGCATTTAAAAACGTGACGCGGAACGCCAGAGCTTATTTCGCCTATTTTGTAAGCAGTGCGTTCTCCATCGCAATCTTTTTCTCATTTGCAGTTTATTTATTTCATCCTAAATTGCATATGACAGACGTGAATTATTCTCTGAACATATTAATGACAATTTCAGAAGTTGTCATTGTGTTCTTTTCATTTTTCTTTTTACTGTATTCAATCGGTACGTTTTTAAAAGTACGAAAAAAACAGTTCGGGATTTTAACAGTACTTGGCATATCTCAAAAACAATTAAAACGACTCATATTTATAGAAAATATGTTAATTGGTGCTCTTTCTATATTTTTTGGCATTCAACTTGGAGTCGTCTTTTCACAGTTCTTTTTATTAGTTACCGCCAAAATTACACACGTACCTGGTTTATATTTATATCCGCCTACAAGTGCTATCGTTTTAACTATCATCATCTTTCTTGGGCTCTTCATTCTCGTATCATCTTTTACACCCATGCTCATTCGTACGAGAAAAGCCGTACGTCTTTTAAAAGAAGGAACAAAACAAAAAGAAAGAAAAGCATCCGTTCTCATCTCTCTATTTGGTGCGATGTGTTTAATATGTGGATATGCGTTAGCCGCAAATCCGCTGTATTTTATGTCGCTAGGTGACATCATTGGGCTTTTATATGCCATCTCTAGTATATTTGTCATCCCATCGCTTATTGCAGCTGGAACATACTTTTTCTTTTCACAAATTAGTTTTTTACTTATTCGTATTTTAAAAATGCGAAGAACGTTTTATATGAAACGAATTAATATGCTTTGGATTTCTGATTTAGCATCACGCATTCGTACGAATATTAATATGCTCTTTATTGTGGCGATGCTATCGACGCTCGCTTTTACAATGATTACATTCTTATATGGATTCGGGAAATTTACAAAGTTTGATGCGATTAGACAAAACCCTTTCCCGTTTACTTATTTATCACATACTGAAAATACATTAGCTGATGAACATTTAAACTGGTTAGAGCAGAAATTTAATGAAGAGCACTTTACTTATACAAAATTTAAAACAGATATATATGAAGTATCTTCAGCTGAAGATAACACACAGCTCTATTACGCAATTAAACAAAGTGACTATAATGTACTCGCTAAGGCGTTAAATTGGGAAAAACTCACGGTGAATAAGAATGAATCTTATATCCTTATGAAAGACTTAGATGATCAAGTTATTGGAACACTTCACAATAAAGACAAGAAAAATACTCTTACACTTACTCAAAACAATTTACAACTACAAGTGAAAGAATATAAAAGTTATAACCCATTCCCAAACAGCTTAATATACCAAGTACTCATACTATCTGATGAAAATGTAGAAGCCTTATCCACCGTTTCCAAACAAATGAGTGTATATAACTTCAAGGTTACAGATTGGGAGAAAGCACATAATATCGGTTCAGCGTTTATAACAAAAATCGATAACGACAATGCAGCGATTCAAGCAGAGCATCCACCGTTCCATGCAAGTGAAGCGAGCGATTCTCTATATAAAACAAAACTAAATGTCGCTTCGTTCTTCTTAATTGGTACTTTCCTAGGGGTTATTTTCTTTATCGGTGCTGGCAGTGTTCTTTACTTCCGAATGTATACAGATTTAACAAATGAGCAAGAAAAATATATAACGATTACGAAAATTGGCTTAACTGAGACTGAAATGAAACGTTCAGCGACAATTCAGCTTGCGATTCTTTTCTTCGTGCCTTACATTATGTCATCGATCCATACGATGTTTGCGACAAAGATGCTACAAGAAATATTACATCTCTCGTTTTTCGCTGAGATTACAGTCGTACTTATGATTTTTGGAACGGTTGAAATTCTATTTTTCCTTTTAATTCGTTCCTTCTATATGCAAAAATTATCACAACACATTAAGTTTTAG	MTFWQFAFKNVTRNARAYFAYFVSSAFSIAIFFSFAVYLFHPKLHMTDVNYSLNILMTISEVVIVFFSFFFLLYSIGTFLKVRKKQFGILTVLGISQKQLKRLIFIENMLIGALSIFFGIQLGVVFSQFFLLVTAKITHVPGLYLYPPTSAIVLTIIIFLGLFILVSSFTPMLIRTRKAVRLLKEGTKQKERKASVLISLFGAMCLICGYALAANPLYFMSLGDIIGLLYAISSIFVIPSLIAAGTYFFFSQISFLLIRILKMRRTFYMKRINMLWISDLASRIRTNINMLFIVAMLSTLAFTMITFLYGFGKFTKFDAIRQNPFPFTYLSHTENTLADEHLNWLEQKFNEEHFTYTKFKTDIYEVSSAEDNTQLYYAIKQSDYNVLAKALNWEKLTVNKNESYILMKDLDDQVIGTLHNKDKKNTLTLTQNNLQLQVKEYKSYNPFPNSLIYQVLILSDENVEALSTVSKQMSVYNFKVTDWEKAHNIGSAFITKIDNDNAAIQAEHPPFHASEASDSLYKTKLNVASFFLIGTFLGVIFFIGAGSVLYFRMYTDLTNEQEKYITITKIGLTETEMKRSATIQLAILFFVPYIMSSIHTMFATKMLQEILHLSFFAEITVVLMIFGTVEILFFLLIRSFYMQKLSQHIKF	PGPT0027860_113	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
AK009_02270	1980	yxdM_5		ABC transporter permease protein YxdM	ATGACATTTTGGCAATTTGCATTTAAAAATGTAACGCGTAATTCAAGAGCTTATTTTGCTTACTTTGTAAGTAGTTCCTTTTCCATTGCTGTGTTCTTTTCATTTGCTGTTTATTTGTTTCATCCGAAATTACAAAATTTTAGCATGACCTCTGAAATTTCAGGATTAATGATATTTTCAGAAGTAGTAATTGTATTTTTCTCTTTCTTCTTTTTACTATATTCCATTGGTACTTTTTTAAAAGTTAGAAAAAAACAATTTGGTGTTTTGACCATTTTAGGGATATCGAGAAAACAATTACATCGTCTTGTTTTTATGGAGAATATGTTAATCGGGATTTTATCTATATTTTTCGGCATGCAGTTTGGAGTTGTTTTTTCTCAATTTTTTTTATTAGTAACATCCAAACTTACGCATGTTCCAGGAATATATTTATACGGTCCTACTAACGCGTTTATTCTAACAACCATTGTTTTCCTTAGTCTTTTTATCATTGTATCTGCATTCACACCAATGCTTATTCGTACAAAAAAAGCGGTACACCTTTTAAAAACAAATGGTGGAAAACAAAAAGAAAGAAAACCATCCATACTTGTTTCATTATTTGGTGCGATTTGTTTATTTGGTGGTTATGCGTTAGCTGGAAATCCTAAATATTTCGTATCAGTAAGCCCGCAAATCGGTGTTATATATATGGTTTCAAGTATTTTCGTTATCCCAATGCTTGTTACAATCGGAACATATTTCTTCTTTTCACAAATTAGTTTCTTACTGATTTATATTTTAAAGAAAAGAAGGAAGTTTTATATGAAACGGATTAATATGCTTTGGATTTCGGATTTAGCGAGCCGTATTCGAACGAATATTAATATGCTTTTTATTGTAGCGATGCTATCTACGATCGCTTTCACAATGATTACGTTTCTATATGGATTCGGGAAATTTATTAAGCTAGAAGTTAATAGAACTTCTCCTTTTCCAATTTCTTATTTTTCTTATGATGCGAACCCTTTTGTTACAGAGCATTTAAATTGGCTTGAGCAACAATTACAAAAAGAGCATTTCCCTTATCAAAAAATAGAAGCTGATATATATGAAACACCACTAAAAGAAGATAAAGATATAGCCATTTATAATGACGTATACGCAATTAAGCAAAGTGACTATAACAAACTTGCAGATTCTTTACGAATGAAACAACTATTTATGGATGATAACGAAGCATATGTGCTAACAGGGACATCTTATATCACCATATTCAACGAATTTGAGCAAAGCTACAAAAGAGATTACATTACACTCTCTAGTACAAATACGAAATTACGAGTGAAAGGCTATGAGCATGTAAACGCAATCCCATCTGACTTTTCATATCAAACGATAGTGTTGCCTGATATTATCGTAAATAACTTACCTAACACCGTAAAACATATATCAGCATACAATTACAAAATTCAAAACTGGGAACAGACATATGAAATTGCTGATAATTTTATAGAAAAGGTGCAAAAAGATCGAAATAAATCCCAGTATGAAGGACCTCTTATTCGATCCTTTGAATCAGCAGGATCGTTATACAAAATAACATCTGGTAGTGCCGCATTCTTCTTAATCGGGACATTTTTAGGAGTTATCTTCTTCATTGGAGCTGGTAGCGTTCTTTACTTTAGAATGTATACGGATTTGACGAACGAACAAGAGAAATATATAACGATTTCTAAAATCGGTGTAACAGATACAGAGATGAAACGATCTGCAACCATTCAACTTAGTATTTTATTTTTCATTCCGTACATTATGGCATCCATTCATACAATGTTCGCAACAAAAATGCTACAAGATGTAATTGGTTTATCTCTGTTCAAAGAAGTTTCAGCCGTTCTTATTATTTTTGGATTCGTTGAAATCGTATTTTTCTTATTTATTCGTTCACTTTATATGCAAAAATTATCACAGTACACGAGTGGACAAAATATTTAA	MTFWQFAFKNVTRNSRAYFAYFVSSSFSIAVFFSFAVYLFHPKLQNFSMTSEISGLMIFSEVVIVFFSFFFLLYSIGTFLKVRKKQFGVLTILGISRKQLHRLVFMENMLIGILSIFFGMQFGVVFSQFFLLVTSKLTHVPGIYLYGPTNAFILTTIVFLSLFIIVSAFTPMLIRTKKAVHLLKTNGGKQKERKPSILVSLFGAICLFGGYALAGNPKYFVSVSPQIGVIYMVSSIFVIPMLVTIGTYFFFSQISFLLIYILKKRRKFYMKRINMLWISDLASRIRTNINMLFIVAMLSTIAFTMITFLYGFGKFIKLEVNRTSPFPISYFSYDANPFVTEHLNWLEQQLQKEHFPYQKIEADIYETPLKEDKDIAIYNDVYAIKQSDYNKLADSLRMKQLFMDDNEAYVLTGTSYITIFNEFEQSYKRDYITLSSTNTKLRVKGYEHVNAIPSDFSYQTIVLPDIIVNNLPNTVKHISAYNYKIQNWEQTYEIADNFIEKVQKDRNKSQYEGPLIRSFESAGSLYKITSGSAAFFLIGTFLGVIFFIGAGSVLYFRMYTDLTNEQEKYITISKIGVTDTEMKRSATIQLSILFFIPYIMASIHTMFATKMLQDVIGLSLFKEVSAVLIIFGFVEIVFFLFIRSLYMQKLSQYTSGQNI	PGPT0027860_18	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
AK009_02271	1023	graS_1		Sensor histidine kinase GraS	ATGAAGCTATTTTTACGTGATCATTTTGCATTTTTCCTACTGTACGTATTAAACTTCGGTATCATCTTCGTTCTTTATGATGCAGTAGATGGATTTCAAAACAATAAATTTTACTTCGTTGTTTTAAGTTTATACTTATTTATTTGTTTCCTCGCTTATCGTTACGTTCGCAATCGTAGAATGTACCATAGATTAAGTGAGCAACCAGAAAAAATGGAAGATGCGTTTATTGAAAGAGCGACTGCTCCGATGCCTCACGGTGTCAATGAACTCGTGCGTACGCAGTACCGCCTCTTCCAAAAAGAACTACAATCGTATGAAGTAAAACAACAAGAACATCAATTATTTATTAACCATTGGGTACATCAAATGAAGACACCTGTTTCTGTTATGCAGCTTATGGTGCTAGAAATGGAAGACGAGCATTTAATTCCAAAGTTTAAAAAAGAATTAGAGCGTCTAAACCAAGGGCTTGATATGGCTTTATACATGGCTAGGTTAAATAACTTCCATGAAGATTTCCATGTCGAGACGATTTCATTAAAAGATACGGTAACAAAAAATATTAACGGATTAAAAGAACTATTCATTCGTAATGGTGTCTTCCCTGTTTTAGAAGTCCATTCTGATTTAAAAGTTGCTTCTGATGCGAAATGGCTAAAATTTATCATCTATCAGTTAATGACAAATGCTGTTCGTTACTCTGGTGAACGCGGAAAGAAAGTTTTCTTATCTGCTTATCGAAACGGAAAAGATATTATTTTAGAAGTTCGTGATGAAGGTGTTGGTATTCCGCAAGAAGATATTCGAAGAGTATTTGAACCGTTTTACACTGGGAAAAACGGTCGCGCATTCGGAGAATCTACTGGTATGGGACTTTATATTGTAAGTAAAATTTGTGATTATTTAGGTCACTCTGTCAAACTAGATTCTGAAGTTGGTAAAGGAACGACGATTAAAATCATCTTCCACAACGCTGCAAATAATCAAGCAGAACATACGGAGAAGGTGACCGAAGCATGA	MKLFLRDHFAFFLLYVLNFGIIFVLYDAVDGFQNNKFYFVVLSLYLFICFLAYRYVRNRRMYHRLSEQPEKMEDAFIERATAPMPHGVNELVRTQYRLFQKELQSYEVKQQEHQLFINHWVHQMKTPVSVMQLMVLEMEDEHLIPKFKKELERLNQGLDMALYMARLNNFHEDFHVETISLKDTVTKNINGLKELFIRNGVFPVLEVHSDLKVASDAKWLKFIIYQLMTNAVRYSGERGKKVFLSAYRNGKDIILEVRDEGVGIPQEDIRRVFEPFYTGKNGRAFGESTGMGLYIVSKICDYLGHSVKLDSEVGKGTTIKIIFHNAANNQAEHTEKVTEA	PGPT0027855_26	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
AK009_02272	696	graR_1	COG0745	Response regulator protein GraR	ATGTATAAAATTTTAATCGTTGAAGACGATCCAAATATTTCATCATTACTGCAATCTCACATTCAGAAGTACGGTTATGAGGCTGTTGTAGCGGAGAATTTCGATGATATTATGGAATCGTTTAACGCTGTGAAACCACATCTTGTTTTACTTGATGTAAACTTACCGAAATTCGATGGTTTCTACTGGTGCCGTCAAATTCGTCATGAATCTACTTGTCCAATTATTTTCATTTCAGCGCGTGCTGGTGAGATGGAACAAATTATGGCGATTGAAAGCGGTGCGGATGATTACATTACAAAGCCGTTCCACTACGACGTTGTAATGGCGAAAATCAAAGGACAATTACGCCGTATTTACGGTGATTATGCACCAAATATTTCTGAACGTATCGTTGAAGTAGAAGGGTTAAAACTATTTCCAGAACGTCCAGAAATTCATTTTGGATCTGAACAAGTTCTTTTAACGAAGAAAGAAGCTATTTTAGCAGAAATGTTATTATCAAAATTCCCTCGTACAGCGAGCCGTGAAGATTTATTAGCTGCGCTTTGGGATGATGAAAGTTTCGTTGAGGAAAATACATTGAACGTAAACATTACGCGTCTTCGTAAAAAGTTTAATGAGCTTGGTATTGAGAACTCTATTGAAACAGTACGTGGACTTGGATATCGCTTTAACGCAACTTGGAGTGAATAA	MYKILIVEDDPNISSLLQSHIQKYGYEAVVAENFDDIMESFNAVKPHLVLLDVNLPKFDGFYWCRQIRHESTCPIIFISARAGEMEQIMAIESGADDYITKPFHYDVVMAKIKGQLRRIYGDYAPNISERIVEVEGLKLFPERPEIHFGSEQVLLTKKEAILAEMLLSKFPRTASREDLLAALWDDESFVEENTLNVNITRLRKKFNELGIENSIETVRGLGYRFNATWSE	PGPT0027850_21	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
AK009_02273	414			hypothetical protein	TTGGCAAGTAATGAAGATATACATATTTGGATAGAGCGTTTACTAAAAGGTGACGAGGAGGCTTTTGAATTTATATTTAACTTAACGAGTCAGAGAGTCTATGAAACCGTCTTTGCTATAGTTAAAAATCGGCATGATACAAATGAAATCGTAAATGAAATCTACTTTCAACTTTGGAAATCTATTTCAACATATGATCAATCTAGACCGTTTCTATTTTGGTTGAATGGAATTGTTTACAAACAGATTAGTCAATGGAGAAAACACATATGGAAGAGGCTGCGCTTATTTGAAAAACAACAACTAAGTGATGAGACAGTTGTAGAAGTTCCAGAAAAAGTATTATTAAGAAAAGAAACAGAAGAGCTGCTTTCCTTTTTAACCTGCGTAATCTTTAGATTTTATTCAATATAG	MASNEDIHIWIERLLKGDEEAFEFIFNLTSQRVYETVFAIVKNRHDTNEIVNEIYFQLWKSISTYDQSRPFLFWLNGIVYKQISQWRKHIWKRLRLFEKQQLSDETVVEVPEKVLLRKETEELLSFLTCVIFRFYSI	PGPT0014960_12251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_02274	273	sdpR	COG0640	Transcriptional repressor SdpR	TTGAATCAAGCATTCAAAGCATTAGCAGATCCAACAAGGCGAAAAATTTTAGATTTATTAAAAGAAGGCGATCTAACCGCTGGTGAGATCGCTGAACATTTCAATATGACAAAACCAAGTATTTCACACCACTTAAACGCACTTAAAAATGCTGAACTTATTCAAGATGAAAAGAAAGGGCAATTCGTTGTGTACTCTTTAAACACAACGGTCTTTCAAGATTTGTTGACTTGGGTGTTTACATTTACGAATAAGGGGGAAGAGGGGAAATGA	MNQAFKALADPTRRKILDLLKEGDLTAGEIAEHFNMTKPSISHHLNALKNAELIQDEKKGQFVVYSLNTTVFQDLLTWVFTFTNKGEEGK	PGPT0004735_5287	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_02275	636	sdpI	COG5658	Immunity protein SdpI	ATGAAAAAACATCTTTTTGCAATCTTATTAATCGTTATAACTTGTTTAGCTTGGGCGTTTGCTTGGCCGCATTTGCCGGATACAATTGCGACACATTGGAGCGGCGGTAAGGTAGATGGCTATTCGTCTAAATTTTACGGAATGGTTTCTATGGTCGGAATTATGATTGCATTATATATATTTCTAAATGTGATACCAAAGATTGATCCAAGGAAAGCAAATTACGAGAAATTTTCTAAAGCCTTTATGATGATGAATAATGGGGTACTATTGCTACTATTTGTAGGAAATATAGATATTATTACAAGTGGATTAGGATATAACTTATTCATTAATCGGGTGCCTGAATTATTAGTTGGTGTTTTATTTTTAGTAATGGGTAATTATTTACCACAGTGTAAGCCAAACTTTTTTGTCGGGATGCGTAATCCATGGACGTTAAGTAATGAAGAAGTATGGCGGAAAACACATCGGTTTAGCGGAAAAGTATTTGTGGCGTTAGGAGTTATTATGATTATAAGTGTTTTCGCTCCGGCTGATTGGAGAACTTATATAATGCTTGGGATTATAGTAGTTGCTGTCATTATAACGAATTTATATTCTTACGTTTTGTATAAAAAAGAAATACAAATGTGA	MKKHLFAILLIVITCLAWAFAWPHLPDTIATHWSGGKVDGYSSKFYGMVSMVGIMIALYIFLNVIPKIDPRKANYEKFSKAFMMMNNGVLLLLFVGNIDIITSGLGYNLFINRVPELLVGVLFLVMGNYLPQCKPNFFVGMRNPWTLSNEEVWRKTHRFSGKVFVALGVIMIISVFAPADWRTYIMLGIIVVAVIITNLYSYVLYKKEIQM				NA	NA	NA	NA	NA
AK009_02276	717	ecsA_3	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGTTAGAAATTATAAATTTTAGCAAGGCATATAAAGAGGGTAAGAAAGCAGTTGATCATTTGAATATTGCTGTTAAAGCAGGGGATATCTTTGGATTTATTGGACATAACGGTGCGGGGAAAAGTACAACAATTAAGTCGTTAGTAGGAGTTATAGATTTTGAAGAGGGTGAAATTTTTATTGATGGACATTCAGTAAAAAAGGATCCGATTGCATGTAAGAGAGTAATGGCGTATATTCCTGATAATCCAGATTTATATGAGCAATTAACAGGAATTCAATATTTGAACTTTGTTGCGGATGTGTTTAAAGTGCCTGCGAGGGATCGGGAAGAACAGATACAGAAGTATGGGGATGCTTTTGAGATTACACCGTACTTAGGGGACTTAATATCTTCTTATTCACACGGTATGAAACAAAAAGTAGCGATTATATCGGCGGTTTTACATAAACCAAAATTATTAGTTTTAGATGAACCTTTCGTTGGTCTTGATCCAAAGGCAGCCGTAGTATTGAAAGGTATTATGAAAGAGCTTTGTGAAAAAGGAAGTGCGATTTTCTTTTCTACGCACGTTTTAGATGTAGCTGAGAAGTTATGTAATAAAGTAGCGATGATTAATAGAGGGAAATTAGCACTTTCAGGAGAAGTAAATTCTTTAATTAAGGAAGGCTCATTGGAAGAGCTCTTTATGAAGGAGCTTGCTAATGAATACTAA	MLEIINFSKAYKEGKKAVDHLNIAVKAGDIFGFIGHNGAGKSTTIKSLVGVIDFEEGEIFIDGHSVKKDPIACKRVMAYIPDNPDLYEQLTGIQYLNFVADVFKVPARDREEQIQKYGDAFEITPYLGDLISSYSHGMKQKVAIISAVLHKPKLLVLDEPFVGLDPKAAVVLKGIMKELCEKGSAIFFSTHVLDVAEKLCNKVAMINRGKLALSGEVNSLIKEGSLEELFMKELANEY	PGPT0006725_26081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_02277	1575			hypothetical protein	ATGAATACTAATAGTTTAGGTCTTTTGAAAATTCGGTTGATAACGCAGCTCGGTTTAAACACCTTTAAATACGAAAAAGATAAGAAAAAGAAGCAGAATAAGATTTTGCTGACAGCATCTATTGCTCTAGTTGGTGTCATGTTAATGTTATATTGCGGAGCTTCGGCATATGGGTTGGTAAAACTAGGAATGAGTGAAATTATTCCCGTCTATGCACTAGTTATTAGCAGTGTATTAACGTTGTTTTTCACTATATTTAAGGCAAATGGAGAAATTTTTGCTTTTAAGGATTACGACTTTTTAATGTCATTGCCGATTCGCGTAAGTACTGTTATTGCAAGTAGATTTTTGTATTTATACCTGCTGAATACAATCTTTTCAATCATAATCATGCTACCAATGGGAGTTGTGTATTGTATACATGAAAATCCATCAGTTTCTTTTTACTTTATGTGGTTCATCAGTATGTTTATCGCATCTTTAATCCCAACAACAATCGCAGCAATCTTTGGAGCTTCGATTACGGCAATCGCTTCTAAATTTAAAAATACGAATAAAATAACTACGATTTTAAGTTTTATAGTAATTATTACATTCGGTTCCTTTATGCTAAAAAACGGAAATGCTCAATATAGCCTTAATGATATGAACGGAATTGGTGCAATTGTTTCGGAGCAATTAACTAAAGTGTATCCATTAGCTAACATGTTTCAAAAAGCAATTGTTAATGCTGATATGGTAGCTTTCATCTTATTTGTGGGGATATCAGTGATTTGGTATTATCTTTTTATAAAAATACTTTCGTTAAAATATAAGCAAATAAACACAGGGATCACCACTTATCATATGCTTTCAAATTATGAGATTAATAGCATGAAAAAAGAGAGTGTATTGGTCGCATTGTATAAAAAAGAGCTGACACGTTTCTTCTCTTCTACAGTGTATGTTATAAATAGTGGAATGGGAGTCGTGATGGCGCTAGCTTTCTCGCTAGCTATAGTTGTAGTAGGACCAAGCCAATTAATAGCGTATCCTGGAATTGAGCCCCTGTTGCAAAAGATTGCCCCATTTGCTATTGCAGCAGCGATTTCGATGACATGTACAACATGTGTGTCATTGTCTTTAGAAGGAAAAAATGTATGGATTATTAAATCATTGCCTATAGCGCCAAAGGTGATTTATGATAGTAAAATTCTTATGAATCTTTCATTGAGTATACCTGCATCACTTATTAGTGCTGTATTACTAATAATCGGGTTAAAGCTAGATGTTTGGAGTTCTCTTTTCATCGTCATAACACCGATAATATATTCATTATTTTCAGCAGTATGGGGGATTTTCATTAATAATCGATTTGGTTATTATGATTGGATATCAGAAACTCAAGTAGTAAAACAAAGTATAGGATCGTTTGTTGGTATGTTTGGCGGCTTAATTGTGGCGGTTATACCTGCCTTGTTAATTGGTACTGCTACTATCTCGAACTACAGAGTATTTACTTTTGCAGTTATTATAGTGCTTACGATTATTACTATTTTCTTGTATAAGAACGAGTCGAGAAGAAGTATAAAATAA	MNTNSLGLLKIRLITQLGLNTFKYEKDKKKKQNKILLTASIALVGVMLMLYCGASAYGLVKLGMSEIIPVYALVISSVLTLFFTIFKANGEIFAFKDYDFLMSLPIRVSTVIASRFLYLYLLNTIFSIIIMLPMGVVYCIHENPSVSFYFMWFISMFIASLIPTTIAAIFGASITAIASKFKNTNKITTILSFIVIITFGSFMLKNGNAQYSLNDMNGIGAIVSEQLTKVYPLANMFQKAIVNADMVAFILFVGISVIWYYLFIKILSLKYKQINTGITTYHMLSNYEINSMKKESVLVALYKKELTRFFSSTVYVINSGMGVVMALAFSLAIVVVGPSQLIAYPGIEPLLQKIAPFAIAAAISMTCTTCVSLSLEGKNVWIIKSLPIAPKVIYDSKILMNLSLSIPASLISAVLLIIGLKLDVWSSLFIVITPIIYSLFSAVWGIFINNRFGYYDWISETQVVKQSIGSFVGMFGGLIVAVIPALLIGTATISNYRVFTFAVIIVLTIITIFLYKNESRRSIK	PGPT0006730_1478	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_02278	873	rhaR_3		HTH-type transcriptional activator RhaR	ATGGATTCACTTAAAAATATGAATAATGCAATGCACTATATTGAAGGTAACCTTACGAATGAAATTGATTTTAAAGAAGTTGCGAGGCTAGCTCTCTGTTCTGAGTATCACTTTAAAAGAATGTTTTCGTTTTTAGCAGGCATATCACTATCTGATTATATTCGCTGTAGACGTCTTACTCTCGCTGCCTTTGAACTAAAAAACAGCAATGTAAAAGTCATTGATGTCGCTATAAAATATGGCTACAACTCACCAGATTCATTCGCTCGTGCATTTCAAAACTTGCACGGTATAACACCTTCAGAGGCCCGAAATAGTAGCCATTCTTTGAAGGCTTATTCACCAATGACCTTCCAGTTATCCATTCAAGGAGGAAATGAAATGAATTATCGAATTGAAGAAAAAGAGCCATTTCGAATTATAGGTATTACAAAACGAGTATCAATCGTTTTCAATGGTGTAAATGAAGAAATCGCTTCTATGTGGAAAAGTTTAAACCCAGACTCCATTCAAACATTAAAGTCCCTTTCAAACATTGAACCTACTGGAATTATTAGTGCCTCTACTAATTTTTCTGAAGGGAGAATGGAGGAAAAAGGAGAACTTGATCACTATATTGGAGTAGCCACAACGAAAGATTGTCCAGAGCAATTCGCGCAACTTGAAGTCGCAGCTTCAACATGGGCTATATTTGAAGCTGTCGGTCCATTTCCTGATGCATTACAAAATGTGTGGGGACGTATTTATTCTGAATGGTTCCCTTCTTCGAACTATGAACTAGCGGAAGGACCAGAGATATTGTGGAATGAAAGTAAAGACGTATCCTCTCCGAATTTCAGAAGTGAAATATGGGTACCTGTTTTAAAAAAGTAA	MDSLKNMNNAMHYIEGNLTNEIDFKEVARLALCSEYHFKRMFSFLAGISLSDYIRCRRLTLAAFELKNSNVKVIDVAIKYGYNSPDSFARAFQNLHGITPSEARNSSHSLKAYSPMTFQLSIQGGNEMNYRIEEKEPFRIIGITKRVSIVFNGVNEEIASMWKSLNPDSIQTLKSLSNIEPTGIISASTNFSEGRMEEKGELDHYIGVATTKDCPEQFAQLEVAASTWAIFEAVGPFPDALQNVWGRIYSEWFPSSNYELAEGPEILWNESKDVSSPNFRSEIWVPVLKK				NA	NA	NA	NA	NA
AK009_02279	771	bceA_2	COG1136	Bacitracin export ATP-binding protein BceA	ATGAAAACAGTGTTAGAAGCAAAAAATATCGAAAAAGTGTATGACACGGGTGGTAATAAATTTGCAGCGTTAAAAGGTATTAACTTACAAGTAAAAGAAGGTGAATTCGTTGGAATTATGGGACCTTCTGGTTCTGGTAAGACGACTTTACTAAATGTTCTTTCTACAATTGATAATGCGACGAACGGTGAAATTTTAATTGATGGAAAAGATATTGTGAAGATGAATGATGATAAGTTAGCGTTATTCCGCCGCGATCATTTAGGTTTCATTTTCCAAGATTATAATTTATTAGATACGTTAACAGTGAAAGAGAATATCGCTTTACCACTTGCGTTATCAAAGGTGAAAGCGAGTGAGATTGATCGCCGCGTTCTTGAAATCTCAAAGAAATTCGGTATTGATCATATTTTAAGTCAGTTCCCATATCAAGTGTCGGGTGGACAGAAGCAGCGCTGCGCAGCATCACGTGCAATTGTTACGAATCCAAGTATGATTTTCGGAGACGAGCCAACTGGAGCGCTTGATTCTAAATCTGCAACAGATTTACTTGAAAGTATGAAGTCATTAAATGAATATGATAACTCAACAATTTTAATGGTAACGCATGATGCATTTGCAGCAAGTTATTGTAAACGAGTTATTTTCATTAAAGATGGTGAACTATATAAAGAATTGCACCGCGGTGAATCAACGCGTAAACAGTTCTTCCAAAAAGTCGTGGACGTAATGTCTTCTATTTCTGGAGGTATGGCTGATGACCTTATCTAG	MKTVLEAKNIEKVYDTGGNKFAALKGINLQVKEGEFVGIMGPSGSGKTTLLNVLSTIDNATNGEILIDGKDIVKMNDDKLALFRRDHLGFIFQDYNLLDTLTVKENIALPLALSKVKASEIDRRVLEISKKFGIDHILSQFPYQVSGGQKQRCAASRAIVTNPSMIFGDEPTGALDSKSATDLLESMKSLNEYDNSTILMVTHDAFAASYCKRVIFIKDGELYKELHRGESTRKQFFQKVVDVMSSISGGMADDLI	PGPT0010200_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
AK009_02280	1950	bceB_2	COG0577	Bacitracin export permease protein BceB	ATGACCTTATCTAGCATTGCCCTCCGCAACATACAGCGGAACTTTAAAGACTACTTTGTATATTTCGCATCTATGATTTTTAGTATTGTTATTTATTTTACATTTAAAGCACTGCAATATAATTCACAAATGGAAAAAGCAGCAGAAGCTTCTAAAAAGATTAGTGGTGCATTTCAAGTTTCCAGTGTGATGCTTATCATTTTCGTAGCAGTGTTTATTATATATTCGAACGGATTCTTTACACGTAAACGTAAAAAAGAAGTTGGCTTATATTCGTTATTAGGTATCCGTAAAAGACAAATTGGTAAAATGCTCTTTTATGAAAATATGTTAATGGGATTAATGTCATTAGTAATTGGGATTGCGATCGGTAGTGTCCTTTCGAAATTATTCCTTGAGTTATTAGTAAATATGATGGGATTAAATTTAAACGTTCATTTTGAAGTACCAATGGCAGCAATTATTGATACAGCAATTATTTTCTTTGTGATTATTTTATATACATCACTCCAAGGATATCGTTTAATTTATCGCTTTAAGTTAATTGAACTTTTCCGCGCAGAACGTGAAGGAGAAGCAATGCCAAAAGGATCTGTCATTATGGCGTTAATTTCAGTTTTCTTAATCGGCTCAGGTTATTTCTTAGCGTTAATGTTTATGAAAGCAGTTATGTATGCAAACTTTATGGCAGTCGCACTTTATATATTACTTGCGACAGTATTAGGTACGTATTTACTATTTATGTTCTTTACAGTATTCGTATTGAAACGTGCAAGAAATAATAAATCATCGTTTTATAACGGTATGAATATGGTAACGACGTCACAGTTACTATATCGTATTAAAGGAAATGCAAAGTCACTTGCGACGATTTCTATTTTAAGTGCGGTAACATTAACAGCGGTTGGTACGTCAGTTACGATGTATTACAACACATTTACACAATCAAAAGCAGCTATGCCATACAGTTATTCTTACGAGAAAAAAGATGCAGAGCTTGATAAGAAAGTAAATGCGATTTTTGCAGAAGAGAAGAAAGATCATCCGATCAAAGATCAAGTTGAAATTGAGACAGTTCCTGTAAAAGGGAAGTTTGAAGGAGATAAAGTTAATTTCATTCTTAATATGAATTACACGATTTCAGAGAAATATCAATTTATGTCTCAATCTGAATTTAACAAGCTTGCTAAAAAAATTGATGCGGAAACAGTGAATGTAGCTACTGGCGAAGCATTTATATATGATAGTTCTTATATGGAAGGGTATGAGTTTAGCCCCGAATATAAAGGAAATAAAGCGGTATTCCAAATTGAAAATGAAACGAAGACGTTGAAAATCCAAGGTGCAAATAATAATGCAATTACAAACTTAGGTGAACTAGTTGTTGTCGTTTCAGATGAAATGTATGAACAAGCGAAACAAGCATTTGGAACACGTATTGTAAAAAATATTGATGTAAAAGATGAAAGAAACAGTAAAGTGTTAACGGAAAAATTAGCAAAAGTGATGCCAACTGGTGTATCAGAAATGGCACCACCATTTAGAGACTTCTATACTGGTTTCCATATGGGACTGGAAGCAACTGGACTAATGATGTTCATCGGACTATTCTTAGGTTTAGTCTTCCTATTAGCGACAGGCTCAATCATTTACTTTAAGCAGCTTACAGAAGCAAGTGCTGACCGTGATCGTTACATTGTCCTTCATAAAGTCGGGGTAACGAAACAAGAAATGAAAAAAGCTATTGCAAAACAAGTGAGCTTTATCTTTGCAATTCCACTAGTAATCGGAATTCTGCACAGCTTGTTTGCATTAAAAGGTTTAGGGAACATACTGCCATTTGAAATTATGATTCCGCTTTTAATTAGTATTGGAGTATATAGTGTTATTTATATTGGATATTACTTCATCACAGTTCGTTCTTATTATAAAATCGTGAGTGCGAAGTAA	MTLSSIALRNIQRNFKDYFVYFASMIFSIVIYFTFKALQYNSQMEKAAEASKKISGAFQVSSVMLIIFVAVFIIYSNGFFTRKRKKEVGLYSLLGIRKRQIGKMLFYENMLMGLMSLVIGIAIGSVLSKLFLELLVNMMGLNLNVHFEVPMAAIIDTAIIFFVIILYTSLQGYRLIYRFKLIELFRAEREGEAMPKGSVIMALISVFLIGSGYFLALMFMKAVMYANFMAVALYILLATVLGTYLLFMFFTVFVLKRARNNKSSFYNGMNMVTTSQLLYRIKGNAKSLATISILSAVTLTAVGTSVTMYYNTFTQSKAAMPYSYSYEKKDAELDKKVNAIFAEEKKDHPIKDQVEIETVPVKGKFEGDKVNFILNMNYTISEKYQFMSQSEFNKLAKKIDAETVNVATGEAFIYDSSYMEGYEFSPEYKGNKAVFQIENETKTLKIQGANNNAITNLGELVVVVSDEMYEQAKQAFGTRIVKNIDVKDERNSKVLTEKLAKVMPTGVSEMAPPFRDFYTGFHMGLEATGLMMFIGLFLGLVFLLATGSIIYFKQLTEASADRDRYIVLHKVGVTKQEMKKAIAKQVSFIFAIPLVIGILHSLFALKGLGNILPFEIMIPLLISIGVYSVIYIGYYFITVRSYYKIVSAK	PGPT0010195_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
AK009_02281	579	olsG		Ornithine lipid N-methyltransferase	ATGCAACTCATAACATTCTTACATGAATTTATTAAACATCCGAAACATACTGGTGCAATTGCGCCAAGTTCAAAAATATTAGCAAAGAAGATGGTAGATGTAATTGATTTTAATAGAGCGAAATGCATTGTAGAGCTAGGGCCGGGTACAGGAGCTTTTACGAAAGAAATTATGAAGAGAAAGAAGAAGGAGACATTATTTCTTCTTATTGAAATTAATGAAGTATTTTTCAAAGAGTTAAAGAGAAAATTTAAAGATGAGCAGAATGTGATTGTTATACATGGCTCAGCGGAAAATATAAAGAAGTATAGGGAACAATTGAATATAGAATGTATTGATTATATCTTATCAGGATTGCCTTTCACTTCTTTACCAGAAGAGGTTTCAAAGCGCATTTTAAACAGCGTAATGGAAACGATACATGAGAATGGAGAATTTATTACATTTCAATATTCACTTGTGAAAAAAGGATTTATACAGCATTTCTTCCCTGAAATTACACTAGAAAAAGTGTGGTTCAATTTCCCGCCAGCTTACGTCTTTAGCTGTAAAAAAGAGCTAAGGAGAGCATATGCATAA	MQLITFLHEFIKHPKHTGAIAPSSKILAKKMVDVIDFNRAKCIVELGPGTGAFTKEIMKRKKKETLFLLIEINEVFFKELKRKFKDEQNVIVIHGSAENIKKYREQLNIECIDYILSGLPFTSLPEEVSKRILNSVMETIHENGEFITFQYSLVKKGFIQHFFPEITLEKVWFNFPPAYVFSCKKELRRAYA	PGPT0007740_967	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_METHYLTRANSFERASE_ACTIVITY,PGPT0007740-pmtA-K00570	NA	NA
AK009_02282	615			hypothetical protein	ATGGAGCTAAATGAATTAATGTCATACATTGAGCAGTATGGTTATTGGGCTTTATTTTTCTGTTTATGGTTAGGTATTATCGGTATGCCGATTCCAGATGAAATGATTGTAATGAGCGGTGGATTAGTATCATCGATGGGTATATTGGATTTGATTCCCGCCTTTTTACTAACGTATTTAGGCGTTGTATCCGGCCTTTCTTTAGGGTATATACTCGGGAAAATTTTTGGCATAAAAATACTTAATAAATTGATGAAAAAGAAAAAGACGAAGTATCTTTTAAAATCGCAAGAGATGATAGCAAAATATGGTCATTATACATTAGTTATAAGTTATTTTATACCTGTTGTGAGGCATATCGTACCGTATTTAGTAGGAATGAATAACATGTCTTTTAAAACGTATGCGATTTATTCATATGTAACAGGATTTGTATGGACGTTAGTTTATTTCTTACTAGGTTCTATATTTGGAAAGCATATAGAAGTAATAGTAACACTTGCGACCGAGTACGGTATATATTTTGGTGGCATTGTTATTGTAGTTTGTAGTATTTCTTATATGTATATGCATAAGAAGAATGCCGTAGTGAGTGAAATAAAGCAACATTCATAG	MELNELMSYIEQYGYWALFFCLWLGIIGMPIPDEMIVMSGGLVSSMGILDLIPAFLLTYLGVVSGLSLGYILGKIFGIKILNKLMKKKKTKYLLKSQEMIAKYGHYTLVISYFIPVVRHIVPYLVGMNNMSFKTYAIYSYVTGFVWTLVYFLLGSIFGKHIEVIVTLATEYGIYFGGIVIVVCSISYMYMHKKNAVVSEIKQHS	PGPT0004890_2873	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
AK009_02283	702	walR_3	COG0745	Transcriptional regulatory protein WalR	GTGAGTAAAGGAACGATACTTATCGTGGACGATGAGAAGGAAATTAGAAAACTTATCACTATCTATTTAAAGAATGAAGGTTATGAAGTATTACAAGCTGGAGATGGTGAAGAAGGTTTAGAAATAGTAAAGAAAAGAGACGTGCATCTAATCGTCCTTGATATTATGATGCCGAAAATAGATGGTATTCATATGTGTATGAAAGTGAGAGAAATAGCGGAAATGCCTATTATTATGCTGTCGGCAAAAACGCAAGATATGGATAAGATTTTAGGATTAACAACTGGGGCAGATGATTACGTAGCTAAACCATTTAATCCACTGGAACTCATTGCTCGTATTAAATCACAACTTCGGAGATATATGAAAATGAGTGGGACAAGTGTACAAGATGAAAATGAAATAGAGATTGGAGATATGAAAGTTAATATAGTAACACGGCAGGTCATTATTGCAAATGAAGAGGTGAAATTGACACCGAGAGAGTTTGAGGTATTAGAATTGCTTGTACGAAATCAAGGAATGGTATTAAATGCAGCACAAATTTATGAAAGAGTATGGAAAGAGCAAGCTTTCCAATCTGATAATACTGTGATGGTACATATTCGGAAAATACGTGAAAAGATAGAGGCGATTCCAAGGAAGCCTCGGTACATTAAAACAGTATGGGGAGTTGGCTACAAGATTGAGAAAGATATTTGA	MSKGTILIVDDEKEIRKLITIYLKNEGYEVLQAGDGEEGLEIVKKRDVHLIVLDIMMPKIDGIHMCMKVREIAEMPIIMLSAKTQDMDKILGLTTGADDYVAKPFNPLELIARIKSQLRRYMKMSGTSVQDENEIEIGDMKVNIVTRQVIIANEEVKLTPREFEVLELLVRNQGMVLNAAQIYERVWKEQAFQSDNTVMVHIRKIREKIEAIPRKPRYIKTVWGVGYKIEKDI	PGPT0028485_202	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
AK009_02284	1407	sasA_8		Adaptive-response sensory-kinase SasA	ATGGCTACATTTACTTTTTGTACGTTACTCGGTGTATTAGTAGGATGGTCTTCATCTTCTTTTTTTGAGGATGCGAATAAAATTTCTATCATTGATTATGCATCAGGTATGGAAGCCATTGATGGACAGACACAAAGGCTTGTTGAAAGTATGACCGAGGAAGGTAAGGAAATTAATATACAAGAACTGCTTGATCAATTGAATGAACAAAATCAACTAAAGATTTTAATAATAGACGAGGATGGGAAAGTCGTTTATAAAACAAAGGGAGCGCCGGAAGAACAAATCAATCTTCATGAGACGATGCGTAATGTGATGGATTTTAAAATGGATCAAGTACGATATGTAGAGGCGCAAAATTTAATTCAAGATGGAACTGAACAAAAGCGTAAGGAGTTTACAACTTTTTATCCGGTTACTGTTAATACGAAAAATATGTATATTATTGCAAGTGGTATACCACAAGGAAATGTGAAGTATATAGTGAATGATAGCAGTCCATTTCCATCTTTACTAGGTTTTATCACTTTTATACTATCTTTCTTTTATATAACGAAAAGGAAAATGAATCAGATTGAAGCGATGGCAGAAGGAGTAAGGGAATTTTCGAAAGGTAATTTACAATATAAAATCAAACAGGCAGGTCAAGACGAAATAGGTTTATTAACTTCTAATATTAATCAAATGGCAGAAAAGCTCTTGGCTAATATAGAAAAGGAAAAACAAATAGAGAAGCAAAAAAGTGAATTGATTACAAATGTATCACATGATTTAAGAACACCACTTACTTCTATTATGGGGTATTTACGTTTACTAGGTGATGCGAAATATGAAAATAAAGAACAGCATGATGAGTATATAAAAATTGCCTTTTCAAAATCAGAGCAGTTGAAGATGTTAATAGAAGATTTGTTTGAGTATACAAAACTAACAGATGAAAATATGGCGTTAGATTCGCAAGAAGTGTGTATAAATGAACTACTTGATCAATTAATAGAAGAGCTAGTACCACAAGCGGAGGAGCATAATCTTTTTTTTGTAAAAGAATTTCAGGAAGATCGTATATATGCTGTGGTGGACTCAGAAAAAATGGTGCGTGTGTTTGAAAATCTTTTAATAAATGCAATTAAATACAGTATAGATAAAGCAGAAATTCGGGTTTTACTTCAAAGAGAAGAGCAGCATATCAAAATTTCTATAGCTAATCATAGTGAAGAATTTACAAAAAAAGAATTAGAGAATTTGTTTGAGCGTTTTTATAAAAAAGATCAATCGAGAAGTAGAGCTGTAGAAGGTTCAGGTTTGGGGCTTGCAATTGCAAAAAGCATTGTTGAATTGCACAAAGGAGAAATTCGAGCAAAACATGAAAATGGGGTTATTCAATTTATTATATTATTGCCAATTTAA	MATFTFCTLLGVLVGWSSSSFFEDANKISIIDYASGMEAIDGQTQRLVESMTEEGKEINIQELLDQLNEQNQLKILIIDEDGKVVYKTKGAPEEQINLHETMRNVMDFKMDQVRYVEAQNLIQDGTEQKRKEFTTFYPVTVNTKNMYIIASGIPQGNVKYIVNDSSPFPSLLGFITFILSFFYITKRKMNQIEAMAEGVREFSKGNLQYKIKQAGQDEIGLLTSNINQMAEKLLANIEKEKQIEKQKSELITNVSHDLRTPLTSIMGYLRLLGDAKYENKEQHDEYIKIAFSKSEQLKMLIEDLFEYTKLTDENMALDSQEVCINELLDQLIEELVPQAEEHNLFFVKEFQEDRIYAVVDSEKMVRVFENLLINAIKYSIDKAEIRVLLQREEQHIKISIANHSEEFTKKELENLFERFYKKDQSRSRAVEGSGLGLAIAKSIVELHKGEIRAKHENGVIQFIILLPI				NA	NA	NA	NA	NA
AK009_02285	402			hypothetical protein	GTGGAAGTATCTGAGAAGAGGAGAATAGAAAGTTTCATGAAAAAAATAAGCGCGTTTATCGCATTGATTATAGTTGGAGTTACATTACTTATAGTGAAGGGTGGATCTATTGTAGATCAACTCAATCCATTTATTAAAGAAGGTATTTATTATGCTGTTGTTGATAATGATGGTAAATATGGAGCCGAAAACAAAGGTTTTGCTAGATGGGAATATAAATTCAAAGGATATAATGAATCTGGTCAAGAGCAAAAGATTGCGATGACTGCTTCAAAACATTTAAGAATAGGAGCATATTTAAAGATTAGATCTAAAGGAAGTTATGGTATGGAATGGGAAGAAGTGCAAGGTGATGAAATACCAGCTAAAGTGAAAGAAAAAGTAACAATAAAACATATTTAG	MEVSEKRRIESFMKKISAFIALIIVGVTLLIVKGGSIVDQLNPFIKEGIYYAVVDNDGKYGAENKGFARWEYKFKGYNESGQEQKIAMTASKHLRIGAYLKIRSKGSYGMEWEEVQGDEIPAKVKEKVTIKHI				NA	NA	NA	NA	NA
AK009_02286	762	mreC_1	COG1792	Cell shape-determining protein MreC	ATGCAGGTTTCTAAGAAGAAAATATTATTATTTCTTTCAATTATTCTTTTGGCTTTATTGGCGGTGTATGTATGTACAAATAATAAGCATGTCCAAAATATTGTTCATAATATAGAAGACATTTATAAAGTATATAAAGAGAATCAAGCATTGAAAGGGAAAATTGAACATCAAGAATCATTAAAGGGTAAAGTGCAAATGTTAAGTGAGGAGAAAGAAAATCTTACTAAACTTATCAATAAAACGAAAGAATTAAAGGAACAAGGAAAATACAATCTAATTCAAGCTACAGTAGTAAGGCGTGAAGCAGAAGATTGGTATGGAAAAATCTCTCTTGAGAGAGGGGCACAACATGGTGTAAAGGTTGGTATGGCTGCTATTACAGTGAACGGTTTTATTGGAAAGGTAGATAGTGTAGATCAATATACATCTGTTGTGAAATTAATTACGAGTGATGAACGAACGAATCGTTTAGCAATCACCCTTCAAAATAATTCATCCATTTTAGGATTTGTTACAGGGTATGATAAGAAAAAACAGGCCCTTCGAATTGATAATATCCCATCAGATAAAGTGAAAGAAATAAAAATAGGTGATAGCATTATTACCTCTGAATTGAGTCAGAAAATACCACCAGGTCTTGAAGTAGCAGAGGTACTAGAACAAGAACAAGATCAATATGGTCTTACTTATACTATTTATGCAAAACCAAAGGCAAATTTATATGATTTAGAATATGTTATTTTAATACAACCTAAATAA	MQVSKKKILLFLSIILLALLAVYVCTNNKHVQNIVHNIEDIYKVYKENQALKGKIEHQESLKGKVQMLSEEKENLTKLINKTKELKEQGKYNLIQATVVRREAEDWYGKISLERGAQHGVKVGMAAITVNGFIGKVDSVDQYTSVVKLITSDERTNRLAITLQNNSSILGFVTGYDKKKQALRIDNIPSDKVKEIKIGDSIITSELSQKIPPGLEVAEVLEQEQDQYGLTYTIYAKPKANLYDLEYVILIQPK				NA	NA	NA	NA	NA
AK009_02287	102			hypothetical protein	ATGATAAGTGCAAAGTTATTAAGTATTACAGAGGGGCTTTTTTTGTCCATTTCTAATGTTAATGATTTATATAACTTTTTAAATAGACTAGAAAACCTATAA	MISAKLLSITEGLFLSISNVNDLYNFLNRLENL				NA	NA	NA	NA	NA
AK009_02288	108			hypothetical protein	ATGAAAACTTTAATATTTGAAGAGAACGTTGTACAAAGAGGGGATAGTAAAAAGGTGAATGTAGTATACCACGCTGTAGAGAATCGTGGGTGTAAAGTGTGTTATTAA	MKTLIFEENVVQRGDSKKVNVVYHAVENRGCKVCY				NA	NA	NA	NA	NA
AK009_02289	1836	bceB_3	COG0577	Bacitracin export permease protein BceB	ATGAAAAAAATGATAAAGGATTACATCGTTTTACTAATAGGTCTTGTAATCTCAATTTCTATTTTTTATATGTTTCAAACGCTTGCGTTAAATAAAGAGTTTACAATGAATAACAGTATTATTGGTTCAATTGTATTTGTATTTCAAATAGGCTCTGTTTTGGTAGCGTTTATTACATTCTTTTATATTTTTTATGCAAACTCTTTTCTACTTTCACTCCGGCAGAAAGAGCTTGGTATGTACCTTGTATTAGGGGCGAAAAAGAGTAAAATTAGTCAACTTTTATTTTTTGAGACGTTCATTATGGGAATGATTTCACTAGTGCTAGGTAGTGTATTCGGAGCCATTCTTTCTAATTTCGTTAGCAAATTTCTAACGAAACAATTGGAAATTTCAGCGGAAGGTTATCAAGCATTTTATGGTCCTGCATTCAAAATAACATTTATATTCTTTAGTGTGTTATTTCTACTTACATCCGTTGTGAATGTGATTCGTATAGCACTTAAAACAGAACTAGATTTAATTCGTACAGAGGAGCAAACGGAGCGCATACGAATGAAAGGACCAGCCACAATATTGTTACTTTTATGTAGTTTGCTAGGACTAGGTGTAGGGTATTATTTCGTACTCTTCGTAGGAATAAAGGGCGCTGGAGCCATTATGCTTCCACTATTCACGATTACAATCGGGACATATCTTATATTTATTTCGTTCTTACCTATGATTGTTAACAGGTTAAAGAAAACGCGCTATTTAAATGAGAAGAAATTAAATGCATTTACATTTGCACAATTGCAGTTTCGTGTAAGTAGTTTGGCGAAAATATTAGGCACGGTAACGATGCTAATTGGACTGGGTGTGGGGGCAATGGCTGGTGGCATGTCTTTACAGAAAAACGTAATCCTTACAGCAGAAAGAATGTCAGGTTATGATATTACAATTCATGATCCAGAAGCAGAGGATTATAAAGCTATGGAAAAAATGAAAATTGTAGATAAAAAACAATATAAATATAAAGTTAATAATGAGGCTGTTTACTATTTAAAAGAAGAATTATTGGAGAATCCTCCACTGTTGTTTGGAAAGAAAGAGACAACACATATTACTGAACAACTTCCATCTTCGAGCTATAGGATGTTTAAGGGGGAGGAAGTTGATCCATCTAGTTCTACGTTACCACTGAATTGGGATAAGAGTATGGATAGTGATTTTAGATCGAATATTTCTGTATATGATCGTAAACCTGTCTATATCGTCGATGAAAAACGTTATGAAGCAATTCAAGGGAATGAGCATACATTTTTTATTGCTAAAGTAGATAATATTTTAAGGTATAAAACAGAGTTAAAAGAGATGGATGATCGTCAAATCGAAAAAATAGCCGCTACTATTAATAAGCCTAAGGAAGATGTATATTTACCGACAAACTATAGTGATTATGAATCTATGCGTGCCTTTTCAAAAGGAACTTCCTTTATGGGATTCTTTTTAGGCCTTGCTTTTTTAGCTATGATGGCAAGTTGTTTAATGTTTAAGATCCTTTCTGGAGCTACGAAAGATATAGGGCGTTATGAGATGCTTCGGAAAATGGGGGTACGTAAAGAATTACTTATAAAATCTATGTATAAAGAATTAGGCATTGTATTTCTATTTCCAGCTATATTGGGTCTTATACACGTTTTGGTAGGAATGAATGTATTTACATTTGTTAAATTTTTTGTGAATCCATATGTGAATATTGGACTTCCGATTTGTATATTTTTAATTATTTACGTTGTTTACTATTTGATCACTATTCAATTATATAAGGGGATTGTCCTCCCAAAGAAAAAATAG	MKKMIKDYIVLLIGLVISISIFYMFQTLALNKEFTMNNSIIGSIVFVFQIGSVLVAFITFFYIFYANSFLLSLRQKELGMYLVLGAKKSKISQLLFFETFIMGMISLVLGSVFGAILSNFVSKFLTKQLEISAEGYQAFYGPAFKITFIFFSVLFLLTSVVNVIRIALKTELDLIRTEEQTERIRMKGPATILLLLCSLLGLGVGYYFVLFVGIKGAGAIMLPLFTITIGTYLIFISFLPMIVNRLKKTRYLNEKKLNAFTFAQLQFRVSSLAKILGTVTMLIGLGVGAMAGGMSLQKNVILTAERMSGYDITIHDPEAEDYKAMEKMKIVDKKQYKYKVNNEAVYYLKEELLENPPLLFGKKETTHITEQLPSSSYRMFKGEEVDPSSSTLPLNWDKSMDSDFRSNISVYDRKPVYIVDEKRYEAIQGNEHTFFIAKVDNILRYKTELKEMDDRQIEKIAATINKPKEDVYLPTNYSDYESMRAFSKGTSFMGFFLGLAFLAMMASCLMFKILSGATKDIGRYEMLRKMGVRKELLIKSMYKELGIVFLFPAILGLIHVLVGMNVFTFVKFFVNPYVNIGLPICIFLIIYVVYYLITIQLYKGIVLPKKK	PGPT0013350_10852	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_02290	192			hypothetical protein	ATGAGAAAGAAAATTTTACCAATTTGTGCGATGGCACTTTTATCAATAGGATATTCATCGTTAGCTAGCGCATCTACTGGAACAACGTCAAAGGGAGAGGTATCAGCACAAGCATTAGAAAAAAAGGAAGCAGAATTTCATGCTTGGCAAAAAGAGGCGTTAGAGAAGAAGAAAGCAGCAATGCAGGAGTAA	MRKKILPICAMALLSIGYSSLASASTGTTSKGEVSAQALEKKEAEFHAWQKEALEKKKAAMQE				NA	NA	NA	NA	NA
AK009_02291	180			hypothetical protein	ATGTATTGGAGAAAAAATGATAAACCTGTAGAAGAACCAGAAGCAATTGCTGTATGGGAATGCCAAGAAGAAAACTGCCGTGGGTGGATGCGTAAAAACTTTTCGTTAGAAGAAGAGCCGCAATGTCCTTTATGTAAAGGAGATATGGAAAGCAGCGAACGCTTATTACAAAAGTTATAA	MYWRKNDKPVEEPEAIAVWECQEENCRGWMRKNFSLEEEPQCPLCKGDMESSERLLQKL				NA	NA	NA	NA	NA
AK009_02292	279			hypothetical protein	ATGAAGTTTAATAAATTTATCCAGCATAAACGGGTAGTAGGGATCCCAGCTCAAAATTTGGTTGGAGCGAGGAAGTTAGGTGGAAATAAAGGTTTTGAATATACAGTTAAAGCTTATGATGAGAAGGGAGAAGAGAAAGAAGTAACATTTGATGGCGTAGATAAATTACAAAAAGGCTCGTACTGGCATGTCATTACAAGAGGGAAGTTTTTACATGATAAAGTAGAAATAGAGGTAGATAAAATTCCTGATGGTGCGAAGGCGAAGTTAGGATTATAA	MKFNKFIQHKRVVGIPAQNLVGARKLGGNKGFEYTVKAYDEKGEEKEVTFDGVDKLQKGSYWHVITRGKFLHDKVEIEVDKIPDGAKAKLGL				NA	NA	NA	NA	NA
AK009_02293	132			hypothetical protein	ATGCTACTCGTTGTTAGCCTTATATTAATTGGGGTTATGTGCAGTATGAGAATAGTATCCTTACATATGATAGAACGAGAAAAGATAGAAGAGAGAGATGTATATTGTCCAAAACGTAATGCGAAAATTTGA	MLLVVSLILIGVMCSMRIVSLHMIEREKIEERDVYCPKRNAKI				NA	NA	NA	NA	NA
AK009_02294	219			hypothetical protein	ATGCTGAAAATAGAAGAAATAAAGAGCGGAAAAAAGTTTGAACAAGGGATTGAGTATATGAATATTATTGAAGGATATCCCATTATTATGAAGTATTTCGTAGAGATGAATCGAGAAGTTTTGAGGGTTTTATTACCTGATGAAAGAGGGATTCTTCCTACGAGGCCAGAGTGTGATGAATGTTATAAGACTCAATTGGATGGTATTGAGGAGAGTTGA	MLKIEEIKSGKKFEQGIEYMNIIEGYPIIMKYFVEMNREVLRVLLPDERGILPTRPECDECYKTQLDGIEES				NA	NA	NA	NA	NA
AK009_02295	984			hypothetical protein	TTGTTCAACCAACAGTTAGTTAATTTACGCATTGATTTTGCATTTAAACAATTGTTTGGTACGAATGGTAGTGAAGATATTCTAATTGCATTTTTAAACGCTATGTTACAAGATTCTTTAGAGTCGCCCATTGCTTCTCTACAACTAGAAGATCCACATTTACACAGGGAATATGAAGAGGATAAGTTATCTATTTTAGACATTTCAGTGACATTAAACACAGGAACAAAAGTCAATGTAGAAATACAACTCAATAATAATCACGATATGGTTAAACGCAGTTTATATTATTGGGGAAGACTATACACATCTCAACTACAAAAAGGGATGCCCTACAGTGCACTTCACAAAACCATCACCATAAACTTACTAAACTTCGTAATGTTTTCGGAACACCCAGCCTTCCATACAACGAGCATATTATGGAATACACAACAAAAAAAACTCCTAAGTGACGACATAGAAATCCACACTATAGAAATTCCAAAGTTAACTGAACAATGGTATGAAGAAAAAGTAAATCCGTGGAAAGATCCATTTGTTCGTTGGCTTTTATTGCTTTCAGCAAATGAGGATGAGCACTTAACTAAACTATTGGAGGATATTGCTATGAACCAAGACCCTATTTTACAAAAAGCGATAAATAAATGGGAACGTATGAGTCAAGATTCTTCTTTCCGACAAGCCTATGACGCAAGGGAGAAAGTTTTAATGGATGAAGCAGCAAAATTCGCCCACGCAGAGACAGAAGGAATAAAAAGAGGGATGGAACAAGGGATAAAAAAAGGGCTTGAAAAAGGCATTGAAAAAGGCATTGAAAAAGGCATTCAACAGGGCATTGAAAAAGGTCGAAAAGAAGGAGTCCAACAGGGAAAAATTCAAATGATTAAAAATATGTATGATCTTGGTATACCACTTGAAACGATTGCTAAGGCAAGTAAATTAAGTTTGCATGAGATTGAGCATATTTTAGGACATAAATAG	MFNQQLVNLRIDFAFKQLFGTNGSEDILIAFLNAMLQDSLESPIASLQLEDPHLHREYEEDKLSILDISVTLNTGTKVNVEIQLNNNHDMVKRSLYYWGRLYTSQLQKGMPYSALHKTITINLLNFVMFSEHPAFHTTSILWNTQQKKLLSDDIEIHTIEIPKLTEQWYEEKVNPWKDPFVRWLLLLSANEDEHLTKLLEDIAMNQDPILQKAINKWERMSQDSSFRQAYDAREKVLMDEAAKFAHAETEGIKRGMEQGIKKGLEKGIEKGIEKGIQQGIEKGRKEGVQQGKIQMIKNMYDLGIPLETIAKASKLSLHEIEHILGHK				NA	NA	NA	NA	NA
AK009_02296	510			hypothetical protein	ATGAAAAGAAGAAGAAAATCTGGAGAAAAAGTACAAATGAGTCATTTTACACTTCCTTTATGCTACGGAAGTGAAGCACCATATTATTATTACGAGGTAGCGCCCCATGAAAGAGAGGGACGCTTCCATTTAACATCAGAACTTTGCGTAATGGACGATGAACATTACTTTATTAGAGGTTGTTTAGAGATTCCTATCATTGATTACCACGAAAATTTCATATGGACTGTGTGGGTATCGCTTAGTAAAGAAAGTTATGATGAAGTATTAGAAAAGTGGGATGAGAGAGGCCGAGAAAATAGTGATCCTTATTTTGGGTGGTTATCTGTAGAAATACCAGTTTATCCAGAAACATTAAATTTAAAAACAAATGTACATATAAGAGAAGTTGGAATGGCACCGTATGTTGAATTAGAGCCAACCGACCATCCTTTAGCAATTGAACAAAGAAATGGAATTACTTTAGACAGAGTTAAAGAAATAGAGGAAATTATTCAACGACATAACTAG	MKRRRKSGEKVQMSHFTLPLCYGSEAPYYYYEVAPHEREGRFHLTSELCVMDDEHYFIRGCLEIPIIDYHENFIWTVWVSLSKESYDEVLEKWDERGRENSDPYFGWLSVEIPVYPETLNLKTNVHIREVGMAPYVELEPTDHPLAIEQRNGITLDRVKEIEEIIQRHN				NA	NA	NA	NA	NA
AK009_02297	903	bmrU	COG1597	Putative lipid kinase BmrU	ATGACAAAGACAAAATTTGAAAAAGTACTCCTCATCGTAAATCCGAAAGCTGGTCAAGGTGACTTACATACAAATTTAACAAAAATCGTACCACCTCTTGCCGCAGCTTTTCCTGATCTACATATCCTTCATACGAAAAAACAAGGTGATGCAACAAAATATTGCCAAGAGTTTGCTAGTAAAGTAGATTTAATTATCGTCTTTGGTGGTGATGGAACAGTATTTGAATGCACAAATGGCTTAGCACCTCTCGAAACTAGACCTACACTTGCAATTATTCCAGGTGGAACTTGCAATGACTTCTCTCGCACACTTGGTGTTCCGCAAAACATTGCAGAAGCGGCAAAACTTATTACAAAAGAACATATAAAACCAGTTGACGTTGCAAAAGCAAATGGACAACATTTCTTAAACTTCTGGGGGATTGGTCTCGTATCTGAAGTATCAAACAATATCGATGCAGAAGAAAAAGCAAAGCTTGGTAAAATCGGTTACTATTTAAGTACAATTCGAACTGTAAAAAATGCTGAAACATTCCCGGTAAAAATCACTTATGACGGACAAGTATATGAAGACGAAGCTGTCCTTGTCATGGTTGGAAATGGTGAATATCTTGGCGGTATCCCGTCCTTTATTCCGAACGTAAAATGTGATGACGGAACACTTGATATTTTCGTAGTCAAATCAACAGGTATTCAAGCGTTTAAAGATTATATCGGAAAGAAACTATTTGAAGACTCAAATGAAAATGACATCTTCCACGTAAAAGCGAAATCCATTCATATCGAAACAGAGGAAGAAAAAGAAGTAGATACAGATGGAGAAAGTTCGCTTCATACACCTTGTCACATTGAATTATTACCAGGACACTTTACGATGATTTATAATCCTGCGGTTGTGTAA	MTKTKFEKVLLIVNPKAGQGDLHTNLTKIVPPLAAAFPDLHILHTKKQGDATKYCQEFASKVDLIIVFGGDGTVFECTNGLAPLETRPTLAIIPGGTCNDFSRTLGVPQNIAEAAKLITKEHIKPVDVAKANGQHFLNFWGIGLVSEVSNNIDAEEKAKLGKIGYYLSTIRTVKNAETFPVKITYDGQVYEDEAVLVMVGNGEYLGGIPSFIPNVKCDDGTLDIFVVKSTGIQAFKDYIGKKLFEDSNENDIFHVKAKSIHIETEEEKEVDTDGESSLHTPCHIELLPGHFTMIYNPAVV	PGPT0024345_1721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK009_02298	528	hpt_1	COG0634	Hypoxanthine phosphoribosyltransferase	ATGAATATTGAAATAAAAGACACTTTAATTTCTGAAGAACAATTACAAGCAAAAGTGAAAGAATTAGCACTTCAAATCGAACGTGACTTTGAAGGAGAAGAAATCGTAGTTATCGCAGTATTAAAAGGTTCATTCGTATTTGCTGCTGATTTAATTCGTCACATTAAAAATGATGTAACAATTGACTTTATTTCTGCATCTAGCTACGGAAATCAAACAGAAACAACAGGAAAAGTGAAACTACTAAAAGATATTGACGTAAACATTACTGGAAAAAACGTAATTGTTGTAGAAGATATTATCGATTCTGGTTTAACACTTCATTTCCTAAAAGACCACTTCTTTATGCATAAACCAAAGGCACTCAAGTTCTGTACATTACTTGATAAGCCAGAACGCCGTAAAGTAGACTTAACAGCTGAATATGTTGGCTTCCAAATTCCAGATGAATTCATCGTTGGATACGGTATCGACTGTGCGGAAAAATATCGTAACTTACCATTTATTGCTTCAGTTGTAACGGAATAA	MNIEIKDTLISEEQLQAKVKELALQIERDFEGEEIVVIAVLKGSFVFAADLIRHIKNDVTIDFISASSYGNQTETTGKVKLLKDIDVNITGKNVIVVEDIIDSGLTLHFLKDHFFMHKPKALKFCTLLDKPERRKVDLTAEYVGFQIPDEFIVGYGIDCAEKYRNLPFIASVVTE	PGPT0007295_3772	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
AK009_02299	213			hypothetical protein	ATGAAGAAGAAACAGTACACAAGTGTAACATTTATAAAAGCATTACTTTTAACAATTGTTCTTGGCCTGTTGGCTTACGTAATTGATGTACCTGCGATTCGTATTTCATTAATTGGAATGACTTTAGTGTTAGGAGCAATTTCGCACGGTATGATGTCGCAGCTAAAAGAAGCTGGACTTGATGATATGAGAAATCATATAGATAAAAAGTAA	MKKKQYTSVTFIKALLLTIVLGLLAYVIDVPAIRISLIGMTLVLGAISHGMMSQLKEAGLDDMRNHIDKK				NA	NA	NA	NA	NA
AK009_02300	333			hypothetical protein	ATGGAGAAACGTTGGACGACCTTTTCTTTTTTAGCGACTAGTAATACCGTAATGCTAGATGGAAAAATGGATTTTTTGCACTTGTTTGATCGTGAAGATGATCATTCTTCTTCTAAATTTACAATGAAATGGAATAAATGGAGCGAAAGTTGTAGGTTTGAAGAAGAGGCCCCTAACGAAGAGCAAAAGATTATTTTGACAAACCCTATTAAAGCGTGGGTTGTTCAACGTCGTAAGTGTAACGTCAAAAATCACTTCAAGAAAACTGAGCCGAGACAATTAGTTATCGCTCCGGCCCGTTCTACTTCCAAATCGCGCGAAAGTAACATGTAA	MEKRWTTFSFLATSNTVMLDGKMDFLHLFDREDDHSSSKFTMKWNKWSESCRFEEEAPNEEQKIILTNPIKAWVVQRRKCNVKNHFKKTEPRQLVIAPARSTSKSRESNM				NA	NA	NA	NA	NA
AK009_02301	492			hypothetical protein	ATGAAAAAGAGACTATTACCAATTTGTGCAATGGCACTTTTAACAGTAGGATATTCTTCAGTAGCGAGTGCTTCAACAGGAACATTGACAAAGGAAGAAGCAGCGCAAATGCAGCAAGATAAAGCTAAAAAAGAAGAAGCAATTAAGGAACAGCAAAAAAGTGAAATAGAGAAAAAGGAAGCGGCACAAGTACAAGAAAAAAATGATATGGCTAAAGAAGAGGAAGCAATAAAAGCTGAGAAAAAAAGTGAAGAAGAGAAAAAGAGAATAGCGCAAGAACAGTTAAAAAACGATATGGCCAAAAAAGAAGCAGCTATAGAAGCTGGGCAAAAGAATGAAGTAGCTAAAAAAGAAGTAGCCAAGCCAGTTGTACAAGGTGAAAAATTGCCAAACACGGCATCAAATAACGTGGTAATGATGGGATTAAGTGCAGCCCTTGTAGCACTAGGTACATTATTTGGTTTGAATCGTCGCAGTAAGTTTAAAGTGTAA	MKKRLLPICAMALLTVGYSSVASASTGTLTKEEAAQMQQDKAKKEEAIKEQQKSEIEKKEAAQVQEKNDMAKEEEAIKAEKKSEEEKKRIAQEQLKNDMAKKEAAIEAGQKNEVAKKEVAKPVVQGEKLPNTASNNVVMMGLSAALVALGTLFGLNRRSKFKV				NA	NA	NA	NA	NA
AK009_02302	621	srtD_1	COG3764	Sortase D	ATGAAGTTACTCAATTATATCGGTATCATATTGATGGCTATAGGGCTATTCATGGGATCCTATTACGCTGTGGAATGGTATAAAGGAAAGAGCTCTGCCGGGCAATTAACAGCAGAAGAAATAAAGAGCCTTAAAAATATACAAGATACTCAACTTTCTCATGAAACACCTGTAACCACTCAAGTGCCTTCTTCTCAAACAGAACATAAAGAAGGAGAAAAGGTAGCGATGTTAAACATACCGAAAATAAAGAAGAAGTTTTCTATATATTGGGGAGCGGATGATACGACTCTGAAAAAAGGAGTTGGTATGTTTGTTAGTGATTTAACGACAACTCCATCTGGAGGGGGACATACTGTACTGAGTGGACATCGAGATACTGTATTTACAGATTTAGGAGAGTTGAAAGAAAAGGATACCCTTGTTTTAGAGTATGATAATAAAACGTACACATATGAAATTCAAAAGACATGGATTACTCATGCGGATGATCGTAATGTTATTATAAAAAAAGAAGAACCGATATTAACACTGACAACTTGTTATCCATTTGATTATATAGGGGATGCACCAGATAGATATATTATCGAGGCGAAGTTAACTGGCAGTTATTCAAAATGA	MKLLNYIGIILMAIGLFMGSYYAVEWYKGKSSAGQLTAEEIKSLKNIQDTQLSHETPVTTQVPSSQTEHKEGEKVAMLNIPKIKKKFSIYWGADDTTLKKGVGMFVSDLTTTPSGGGHTVLSGHRDTVFTDLGELKEKDTLVLEYDNKTYTYEIQKTWITHADDRNVIIKKEEPILTLTTCYPFDYIGDAPDRYIIEAKLTGSYSK	PGPT0024075_2466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK009_02303	693	srrA_3	COG0745	Transcriptional regulatory protein SrrA	ATGTCAAAAAACATTTTAATTGTTGAAGATGAAGATATATTACGTGAAATATTAAAAGATTATTTTTTAAGTGAACAATATGTAGTGTTTGAAGCGAGGGACGGGAAAGAGGCTTTAGTTGTATTTGAAGAAGAAGAAGAAGTTGATTTAGTTATTTTAGATATTATGTTGCCAGAACTCGATGGATGGTCTGTTTGCCGAAGAATTAGGAAGACGTCCGAGGTGCCTATTATTATGCTGACGGCGCGCGTAGATGAAGATGATACGTTACTTGGTTTTGAACTTGGGGCAGATGACTATGTGACGAAGCCGTATAGTCCACCCATTCTATTAGCAAGAGCGAAACGATTATTAGAAAGTAGAAAGGCATCGAAGAAACCTTTAGAGAATGAAGATGATACGTTATCGATTCATGGCATCCAAGTTCATTTTCCGTCACGTACTGTTACTGTTGATGAGGCAGATGTTAGTTTAACGCATACGGAGTTTGAAATATTAGTGTATTTCATGAAAAACCAAGGAATTGTACTAACAAGGGAACAATTAATTTCAAGAATTTGGGGATATGAATTTGCTGGTGATGATCGAACGGTTAATAGTCATATTCGTAATTTAAGAAATAAATTAGGAGAGAAGGCAAAGTACATTACAACTGTAGTACGAACAGGTTATAAATTTGAGGGAAATGTATGA	MSKNILIVEDEDILREILKDYFLSEQYVVFEARDGKEALVVFEEEEEVDLVILDIMLPELDGWSVCRRIRKTSEVPIIMLTARVDEDDTLLGFELGADDYVTKPYSPPILLARAKRLLESRKASKKPLENEDDTLSIHGIQVHFPSRTVTVDEADVSLTHTEFEILVYFMKNQGIVLTREQLISRIWGYEFAGDDRTVNSHIRNLRNKLGEKAKYITTVVRTGYKFEGNV	PGPT0014763_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
AK009_02304	1851	sasA_9		Adaptive-response sensory-kinase SasA	ATGAAGAAAGGAATTGTACTAAAATTATTTACTCTTACAACAGCATTATGTATGTTGATTTTAGCGACGATATTTATTGGACAAACGATATTTTTTAAACAATATTATGCGAATCGAAAAGTGGAAGATATTAAAGTGAATTTAAATTCCTTTGAGAAGAATTATCTAAACTACACAGGAAATGCAGAAGGAATTCAGAAACTTGAGCAAGACTTTTTTAGGGAAAATAATACGTGGATTACGACACTAGATCAGAATGGGAATTTAAAACATGTGGATGATTTTTATTTTGAGGTAACGATAGATCGTAGGCAACAAAAGAGCTTTGGACAACAACTATTCAAGATACCCTTATACAATCTCGTCAATATAGAGGAGATTGATAATAAATCATTAGAGCAGTTTTTAGGACAAGAGATTTATTTTTCTGGAGTGAGAAAAGAAGATAGTTTTATTCCATTCTCTTTTTCTTTATCTAAGCAGAATTTAAGTGGATCTAATAAACCGTTAGAAAAAGCATTTCAGGAGAAAATAAAATTAGATGAGGAGAAAAAGAGAGCGGCTGGGGAGCAACTTGCTAAGGAAAAGAAACCAGCCGTACAGGAAGAAGCTGCTCAGGAATTAGGCGTTTACATAGGAGGACGTGTTACAAAAGTACAGTTACCAGATGTAAACGGTCCTGTGAATCCAATTTATAAAAATAGCATATTTTTAGATAATATTAAGGGTTTTCAAACCGATTTATTATTAAAAGAAAGCAATAAAATACGATATACAACACAAACAATAGATTATGAAAAGAATGATATAAAATATAAATTATTAGTTAAGCCAATAAAAGAAAAAGACGGATCAGTAGCATATATATATGCAATGGCTTCTTTACAGCCTGTAGATGAAGCTGTACAAATGGTGCAAGATTATTACATATACATCATTGCATTTGTAGTCGTTCTTATTTTTTTAGCTTCGTTTTATTATTCAAAGCAAATTGCCAAACCGTTATTAAAAATAAATGATACGACGAAGAAAATAGCGCATTTAGATTTTACAGAAAAAATACCGATTACTTCAAAAGATGAAATTGGTGATTTATCGAAAAATATTAATATACTTTCTAACAAATTAAATTCTCATATCGGACAGCTTGAACAAGATATTGAAAAGGAAAGAAAGTTAGAAAATACACGGAAAGAATTCATTTCTGGTGTTTCGCATGAATTGAAAACACCGCTGAGTATTATGAAAAGTTGTATTTCCATTTTAAAAGACGGGGTAGCTGAGCATAAAAAAGAGTATTATTTTCAGGCGATGGAGAGAGAAGTAGACAAAATGGATACTTTAATTTTGGATATGCTTGAGTTAGCTAAATTTGAATCTGGTACATATAAAATGAAAAAGTCTTCGTTTTATATTGATACAGTAATTGAAGATATATGTGAACATCTATCTGTGGAAATAGAGAAAAAAGAACTTCATGTTCATAAAAATATACGTTCATTTGAAGTGATTGCAAATCAAGGCCGAATTGAACAAGTCATTGTGAACTTCATTACGAATGCAATACGTTATACACCAAATAAAGAGGATATTATTATTTCGACAATAGATGATAAAGATCGTATAAAAGTGTGCATTGAAAATAAAGGTACTCACATTGAAGAAGAACAATTAGATAAAATTTGGGATCGCTTTTATCGCGTGGATGCAGCTCGGCAGCGTTCACAAGGTGGGACGGGACTTGGGCTTGCTATTTCTAAAAATATTTTAGAATTACACGATGCTGAATATGGAGTAAAGAATACAGGAGACGGTGTATTATTTTACTTTTACTTACCGAAAAAAGCGTAG	MKKGIVLKLFTLTTALCMLILATIFIGQTIFFKQYYANRKVEDIKVNLNSFEKNYLNYTGNAEGIQKLEQDFFRENNTWITTLDQNGNLKHVDDFYFEVTIDRRQQKSFGQQLFKIPLYNLVNIEEIDNKSLEQFLGQEIYFSGVRKEDSFIPFSFSLSKQNLSGSNKPLEKAFQEKIKLDEEKKRAAGEQLAKEKKPAVQEEAAQELGVYIGGRVTKVQLPDVNGPVNPIYKNSIFLDNIKGFQTDLLLKESNKIRYTTQTIDYEKNDIKYKLLVKPIKEKDGSVAYIYAMASLQPVDEAVQMVQDYYIYIIAFVVVLIFLASFYYSKQIAKPLLKINDTTKKIAHLDFTEKIPITSKDEIGDLSKNINILSNKLNSHIGQLEQDIEKERKLENTRKEFISGVSHELKTPLSIMKSCISILKDGVAEHKKEYYFQAMEREVDKMDTLILDMLELAKFESGTYKMKKSSFYIDTVIEDICEHLSVEIEKKELHVHKNIRSFEVIANQGRIEQVIVNFITNAIRYTPNKEDIIISTIDDKDRIKVCIENKGTHIEEEQLDKIWDRFYRVDAARQRSQGGTGLGLAISKNILELHDAEYGVKNTGDGVLFYFYLPKKA	PGPT0028450_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028450-vanSB|vanS|vanSD-K18345	NA	NA
AK009_02305	672	thiT	COG3859	Thiamine transporter ThiT	ATGCGTAACACCAATTTACAAGCGATGATTGAATCTGCTATTCTTGCAGCCTTCGCCATGGTCATCGACATTTTACCACTTTCAATAAAAATATCAGCTACAGGCGGTTCTATATCTTTTGCAATGATTCCTATTTTTATTATCGCTTATCGCTGGGGTTTCAAAATGGCTTTCTTAGGAGGCTTAATTTGGGGATTATTACAAATTGTCGTAGGCGATGCCATTATCGTAACACCAATTCAAGTATTAATTGAATACTTCATTGCTTTCGCATTCATTGGGTTTGCTGGTTTATTCTATCGTCCAATTCAAAAGGCGCTTTTAACATCCAATGAAAATAACGAAGAACAATCAAACTTAGGTAGCCGTAAAGACAAACCTTCATCAAAACCAAACCAAGGGAAGAAAGTAATTGGATATATTATCGTCGCTACTTTTATCGGTAGTCTAGCTCGTTACTTCTGTCACTTTATCGCTGGTATCATTTTCTGGGGACAATATGCACCAAAAGGACAATCAGCAGTTCTATATTCTTTAATATTTAACGGTAGTACAATGATTGGTTCCTATATTCTATGTACCGTTTTACTTATATTTTTATTTATCACTTCACCACGTTTATTCAAAAGCATCAGTGCTTATCAAATGAATACACAAAAAAAGGGCGCTTAA	MRNTNLQAMIESAILAAFAMVIDILPLSIKISATGGSISFAMIPIFIIAYRWGFKMAFLGGLIWGLLQIVVGDAIIVTPIQVLIEYFIAFAFIGFAGLFYRPIQKALLTSNENNEEQSNLGSRKDKPSSKPNQGKKVIGYIIVATFIGSLARYFCHFIAGIIFWGQYAPKGQSAVLYSLIFNGSTMIGSYILCTVLLIFLFITSPRLFKSISAYQMNTQKKGA	PGPT0009100_61	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
AK009_02307	228			hypothetical protein	ATGAGCTTAGTAGATATTAAAATCGGTGAGAAAGTGCTAGTGAAAAGTGTTCAGTCTTTAGATTATTTACTAAAGAGAAGATTGGCTGCTTTCGGTCTTTCTGAAGGAAGCGAACTTCGTATGAAGCAAAAGGCGATGTTCAAAGGTCCTTGTACATTGGAGTGTCGTGGACAGTTAATTAGTATTCGTCATTGTGACGCGAAAATGATAAAGGTGGAATTAGCGTGA	MSLVDIKIGEKVLVKSVQSLDYLLKRRLAAFGLSEGSELRMKQKAMFKGPCTLECRGQLISIRHCDAKMIKVELA	PGPT0003695_2263	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
AK009_02308	1989	feoB_1	COG0370	Fe(2+) transporter FeoB	GTGAATAAGGTTGCTTTGCTAGGGAATCCAAATACAGGAAAGACATCATTATTTAATGCACTTACTGGTTCTTATGAATACGTAGGAAACTGGAGCGGTGTAACAGTAGAAAAAAAGGTTGGTAAATTAAAAGATAGACAAGGAACATTAATTGATTTACCAGGTGTTTATGATTTAAATCCAGTTTCACGTGATGAAGGTGTTGTAACAAACTTTCTATTAACAGAAGAATTTCAGCATATGTTAAATATTGTGGATTCTTCGCAGTTTGAACGAAATATGCATTTAACGTTGCAGTTGCTCGAATTTGGCAAGCCAGTTTCAATTGGTCTAAATATGGTTGATGTGGCGAAGCAAAGAGGAATTGTGATCGATGTAAAACGTTTATCCGAATTATTAGGCGTAACAGTCGTTCCTGTCGTTGCAAGAAGTGGAAAAGGTTGTGAAGAACTACTTGCGACCCTTAAAGAAAATGACAAAAACGAGAAAAAACCATTCATTATTTCATATGGTGTACAAATGGATGAAGGAATTGAAGAGGTAATTTCTCTTTTAGAGAAAGCGAATTACGAGCATCCGAGATGGTTAGCACTTCAATTTTTAAGCAATAACGAAGTAGTAGAAAAAGAAATAAAAGCATTACCAATTTATAAGGAACTTGTAGCCATTCGATCTCGCCTAGAGGGAAAACTTGATTGTACGTTGGAAGAGCACATTTACAAAACTCGTGAAGCGTATATTGAAAAGTTAAAAACAAATGTTATGAAGCATGAGAAAGAAGGGGAAATTCCTTTTTCGGAAAAAATTGATAGACTAATTACGCATAAAATTTTAGGACTTCCAATCTTTTTAGCAGTTATGTTTTTTATTTTTCAGGTTACGTTTACGTGGATTGGGACACCTTTATCGGATATGTTAGATGAGTTTTTTGGTGGCCAGCTTACGGATTGGGTGACGGTTGGACTTACAAGTATTGGAGCTTCTCATTTTATTCAAGCGCTCGTTACAGAAGGTATTATTGCCGGTGTTGGTGCTGTATTAGTATTCGTACCACAAATCTTTGCACTATTCTTTTTCATTTCATTATTAGAAGACTCAGGATATATGGCGCGAATTGCAGTTGTTATGGATCGAATTATGGAGTTCTTCGGTTTAAACGGAAAAGCGTTTATTCCGATGATTATCGGTTTTGGATGTAACGTTCCAGGTATTATGGCAGCGAGAACGATTGAACAAGAAAAAGAACGTTTACTTACAGTTCTTGTAACACCATTTATGTCTTGTTCGGCACGTTTGCCTGTATACGCATTATTTGCGGGCGTATTCTTCCCTCATAGTCAGGCAACTGTTGTATTTTCTTTATATGTTGCAGGTATTGTTCTTGCATTACTAGTTACAAAAATTATGTCTCTTACAATTTTAAAAGCGGAAAAGTCTATTTTCGTAATTGAACTACCTCCTTACCGCGTGCCACAAGCGAAAACGTTATGGCTAAGCACGTGGGAGAAAGGGAAAGGATTTGTTCGTAAAGCAGGTACATTCATCTTTGGTGGTTCTGTTGTCATTTGGTTATTAAACTATGCAGGTCCATCAGGATTTGGTGTTGATATGGGAGACAGTTACTTAGCGATGATTGGTGGGTTTATCGCACCGTTATTTGCACCGCTCGGCTTCGGAACGTGGCAAGCTGCAGCATCCCTTTTAACAGGATTTTTAGCAAAAGAAGTTGTCGTTTCTACAATGGCAATTATTTATGCAGTTAAAGAAGATGTGCTTGGAAACGTAATGGGAGCACATTATACAGCATTATCAGCTTATGCATTTATGTTCTTTATTTTATTATATGTTCCATGTTTAGCGACGGTGGCTGTTATTAAACGTGAAACAGGATCAGCCAAATGGACGATTTTCTCAGTCGTTTATCCACTCGTTGTTGCTTATGTATTAACGCTTATTATATACCAAGTTGGATCTTTACTAGGATTCTAA	MNKVALLGNPNTGKTSLFNALTGSYEYVGNWSGVTVEKKVGKLKDRQGTLIDLPGVYDLNPVSRDEGVVTNFLLTEEFQHMLNIVDSSQFERNMHLTLQLLEFGKPVSIGLNMVDVAKQRGIVIDVKRLSELLGVTVVPVVARSGKGCEELLATLKENDKNEKKPFIISYGVQMDEGIEEVISLLEKANYEHPRWLALQFLSNNEVVEKEIKALPIYKELVAIRSRLEGKLDCTLEEHIYKTREAYIEKLKTNVMKHEKEGEIPFSEKIDRLITHKILGLPIFLAVMFFIFQVTFTWIGTPLSDMLDEFFGGQLTDWVTVGLTSIGASHFIQALVTEGIIAGVGAVLVFVPQIFALFFFISLLEDSGYMARIAVVMDRIMEFFGLNGKAFIPMIIGFGCNVPGIMAARTIEQEKERLLTVLVTPFMSCSARLPVYALFAGVFFPHSQATVVFSLYVAGIVLALLVTKIMSLTILKAEKSIFVIELPPYRVPQAKTLWLSTWEKGKGFVRKAGTFIFGGSVVIWLLNYAGPSGFGVDMGDSYLAMIGGFIAPLFAPLGFGTWQAAASLLTGFLAKEVVVSTMAIIYAVKEDVLGNVMGAHYTALSAYAFMFFILLYVPCLATVAVIKRETGSAKWTIFSVVYPLVVAYVLTLIIYQVGSLLGF	PGPT0003700_2344	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK009_02309	171			hypothetical protein	ATGATGGTCAATATTATAATTGGAGCTATCATTTTTGGTTATGCAGCATACACGTTAGTTAATTTTGTAAAGAGAAGTAAAAAAGGAAAATGCGCAGCATGTTCTTTAAATAAGTCATGTCAGTCGAAAACTTGTAGTCCGGATATGGAACAAATTGCTCATAATAAATAG	MMVNIIIGAIIFGYAAYTLVNFVKRSKKGKCAACSLNKSCQSKTCSPDMEQIAHNK				NA	NA	NA	NA	NA
AK009_02310	579			hypothetical protein	ATGAAAAAATTAGTAGGAATCGGATTAGCAGCAGCAATTTCATTTGGTGCATTATCAGGTTGTTCTTTATTAGGAGAGAAAGCGAACGGTTTTGTACTGTACGGCTCAGAAGAACAAGTTCAGCAAATTACAGATAAAAACAAAAAAGAAGTGAAAGAAAAAGACTTCTATAAAATGAAAATGACAACATTAGATGGTAAAAAAGTTCTTGTAATGGATAAGAAAACTGGTGAAGAACTAGTGAAAAAAGAGTTACTTAGCAAAGTTGATGAAAAAGACAACACGAAACCACTTGATAAATTACCAGCTGTAACAACAGAACAAGGTTTATTATTTGCAAAAGAAAAAGTAGAAAATGCTACACTTGATGGGGCAAAATTAAAATATGAAGGCAACACAATTATCGGAAGTGGCCGTGCATATACAGATATGTATGCGATTGTCGATGACGCAACTTACAACAATGTAAAAGGTGATGAAAAATCTGTAGGTGTATTAAAATTTGATAAAGACCCAAGTAAAGAGTTCCCTGGTTACAAAGGCGTCGAAGCTTCTCAACTTGTAAAAATTAAAAAGTAA	MKKLVGIGLAAAISFGALSGCSLLGEKANGFVLYGSEEQVQQITDKNKKEVKEKDFYKMKMTTLDGKKVLVMDKKTGEELVKKELLSKVDEKDNTKPLDKLPAVTTEQGLLFAKEKVENATLDGAKLKYEGNTIIGSGRAYTDMYAIVDDATYNNVKGDEKSVGVLKFDKDPSKEFPGYKGVEASQLVKIKK				NA	NA	NA	NA	NA
AK009_02311	666	liaH_2	COG1842	Protein LiaH	ATGTCTGTATTTAAACGATTAAGAGATTTAACAATGTCAAATGTGTATTCATTAATTGAAAAAGCGGAAGATCCAGTTAAGATGACTGATCAATATTTACGCGATATGCAAGCCGATGTACAAGAAGCTGAGAAAAGTGTAGCAGCTCAAATCGCACTTGAGAAGAAATTCAAAATATTATTTGAAGAGCAAGAAGCACTTGTGAAAAAACGTGAAGAGCAAGCTCATATGGCTGTTCAAGCTAATAACTTAGATCTTGCGCGCCGTGCATTAGAAGAAAAACAAAATGCAGAGCAAAAAATGAATGAATATAAAGCAAGCTATGAGCAAAATAAAGCTGCTGCTGATAACCTGCGCCTTAAGCTAGAAGAAATGCGCAAGCAATTAACAGAGCTGAAAAATAAACGTGAAACACTTGTAGCACGTGTAAATGCAGCGAAAGCACAGAAAAATATTAATCAGGCAATGTCTGGATTTGATTCAAATTCAGCAAAAGCTGGTTTAAGCCGTATGGAAGAGAAAGCTCTTCAATTAGAGGCTGAAGCGGAAGCAAGCGGTGAAGTTTATAAGAAAGAAAAGTCATTAGATGATGAATTCGCAAGCTTAAACAAAAATTCTGCTGTTGACGATGAATTGGCTCGTATTATGAAGCAGTATGAGAAATAA	MSVFKRLRDLTMSNVYSLIEKAEDPVKMTDQYLRDMQADVQEAEKSVAAQIALEKKFKILFEEQEALVKKREEQAHMAVQANNLDLARRALEEKQNAEQKMNEYKASYEQNKAAADNLRLKLEEMRKQLTELKNKRETLVARVNAAKAQKNINQAMSGFDSNSAKAGLSRMEEKALQLEAEAEASGEVYKKEKSLDDEFASLNKNSAVDDELARIMKQYEK	PGPT0014646_1896	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
AK009_02312	405			hypothetical protein	ATGACATGGATGAATGTAGTTGCCATGCTTGTATGGACTGGAGCGAGTGCAGTACTTTTATTTGCAATTATGTGGGTTGATTCAATTTTTACAAAATACAATGATTTAAAAGAAATCAAAAATGGAAATACAGCTGTAACAACTCGTTTTATTATGAAATTATTTGCACAAGGGTACATTTTATCTCAATCAATCACGAAAGCAAATGACTTATGGCAGGCGCTTCTTGCTTCAGCAGTTTCTTTCGTTATTTTATTAGTTGTAGAAATGTTTATCGAATTTGTGTTAAAGAAAATGTCTGGCTTAGATTTAGAAGAAGGTACGAAAGAAGGTAGCGTTGCACATGCGATGTTAGCTGGATCATTACATATTGTTGGTGCACTAATTTTAGGTGCTTGTTTATAA	MTWMNVVAMLVWTGASAVLLFAIMWVDSIFTKYNDLKEIKNGNTAVTTRFIMKLFAQGYILSQSITKANDLWQALLASAVSFVILLVVEMFIEFVLKKMSGLDLEEGTKEGSVAHAMLAGSLHIVGALILGACL				NA	NA	NA	NA	NA
AK009_02313	507			hypothetical protein	ATGAGTTTATTTAAACGAATTAAAAATATAATGAAAAGCCCAGAGCCACCGAAGCCGGAAAAGAGTCTTTTAACGTTAGCTCCTGGCGATATGATTGAAGTTTCATTAGTTATGTACGAATTGACTGGGAAAACGAGTATGCATTCTCGTAAAGAAATTGTTTTAACACTGCAAGATGGAAAAGATATTCGTTATTTAAAAATTGAAGATCGTGAAAATACGTATTACAAATTATATACTCCAATTGATGGTCGCTTAGATTCAATTGATGAAATTCCGACGACAATTGAAATGGATGATACTGAGTACCATATGGAAGAACAATATAACGGACGTGTTGTTGTGATGGGGAAAACACCATTCTCAGCTTCAGAGGAACAGTACGTATGGGAATTCCAATCAGATAATCGAAAATTATTGCGTATTGAATGGCAAAATGGTCGCACAATGATGTATGAGGGAGAAGCAATCATTCCTGCTGATGTACAAATTATAAGAGCAACGTAA	MSLFKRIKNIMKSPEPPKPEKSLLTLAPGDMIEVSLVMYELTGKTSMHSRKEIVLTLQDGKDIRYLKIEDRENTYYKLYTPIDGRLDSIDEIPTTIEMDDTEYHMEEQYNGRVVVMGKTPFSASEEQYVWEFQSDNRKLLRIEWQNGRTMMYEGEAIIPADVQIIRAT				NA	NA	NA	NA	NA
AK009_02314	819			hypothetical protein	ATGTCAAACCGATTGTTTACCATGATTAAATCGTTTGTGATCCCTATACTTGCTATCGTTATATTACTTGTTGTTGCTGGTTATGCCTTATCAGGTTGTCAAGGCGGGCAGACAAAGTCGATTCAAGACCGTTATCCACTTGAGTCTGTCGCAAAGGAAGGTAAACAAGAATCTTACGTGTATAGGGCCGCCAATCGGTCAGTTCCTGAAGTAGCGAAGGAACTCATTAACGAAAGAGAACCGAAGCAAGCATCTAAAGAAGACGAAAATCAAATGTTCCTCGTTTATTCTGACAAGATTTATAACTTGCAAAAGGATAAAGAGAAACCATCGGATACGTTAATTGAAATAAGTAATAAAGAATTTGTCCGTCAAAATTATCAACCGTCCTTCTTGCAAGGATATATTATGGGTAGCATATTAAACGATATATTTGGTTCACGAAAATCATCATACGGTGATTATCGAGGATATAACGACAGACAAAATCATAAACCAGTCATTCCAGAGAGACCACCTACGAAAGAAGAAAAGAAAACCCCACCTCCAATTACGAAGGAAGGGAAAGGGTCTATTATTAAGCGAGGCGATAATGTAGATTCGAAACCATCAGTAGGTGATAAGGGAAGTATTACTGAAAAAGGAAGTAATACGACGCCCCCACCCTCTACTGGAAGCAAGGGTAAAATTACAAAAACACCAGGCGGTTCAAGCGGATCAGATGTGAAGCCGAAATCATCTATTAAAACTCCGCCAAGGAATACATCTCCCCCGAAAACGAGGGTCGGTGGTTCAGGAAAGATTACGAAGAGAAGATAG	MSNRLFTMIKSFVIPILAIVILLVVAGYALSGCQGGQTKSIQDRYPLESVAKEGKQESYVYRAANRSVPEVAKELINEREPKQASKEDENQMFLVYSDKIYNLQKDKEKPSDTLIEISNKEFVRQNYQPSFLQGYIMGSILNDIFGSRKSSYGDYRGYNDRQNHKPVIPERPPTKEEKKTPPPITKEGKGSIIKRGDNVDSKPSVGDKGSITEKGSNTTPPPSTGSKGKITKTPGGSSGSDVKPKSSIKTPPRNTSPPKTRVGGSGKITKRR				NA	NA	NA	NA	NA
AK009_02315	219			hypothetical protein	ATGACTACGTATAAAAGATTTAGTGTAATTATGTTCCTTGTATTATTCCTCAGCTTGTTTATTAGCACGACAATGAAATTTCATTTTGTAGTAGGTATTCTATGGATACTGTGTACATGCACTTTATTTTTGTATATCCCGCTGCGTTTTCAACATGAAGTGACGGCTTTTCAAAAGTATGTAGCGTGGATTAAACGTGGGAGTCGGTGGGGCGAGTAA	MTTYKRFSVIMFLVLFLSLFISTTMKFHFVVGILWILCTCTLFLYIPLRFQHEVTAFQKYVAWIKRGSRWGE				NA	NA	NA	NA	NA
AK009_02316	873			hypothetical protein	ATGGAGAAAATTATCAAAAACAAGCCCAATAAGCTAAAAATTGCTTCGAAAGCTTTGATGATTATTATTGGGGCATTTATCACAGCGTACGGATTAGAAGCAGTATTAATTCCAAATAACGTATCAGACGGTGGTGTGACTGGTTTAAGTATCGTTAGTTCAAGATTATTTGGATTGCCATTAGGAGCTCTAATCGCAGTTATTAACATTCCTTTCGTTTGGTTAGGATATAAGCAAATCGGTAAAAGCTTTGCAATTTATTCTATTATTGGAATCGCTTCATTAGCAATAGGTACCGTTGTCATGCACGGAATACCAGCTATTATCGAAGGCGATACATTATTAGTTACAGTTGTTGGTGGTATTATTATCGGTTTTGGTATGGGACTAGCATTACGTAACGGTGGGGCATTAGATGGAATCGATATGCTAGCTGTATTGCTTTCTCGTAAGTTACCATTTGGAACGAGTGACCTTATTTTATTCTTAAACATGTTCGTATTTATTTTCGTATCAACGGTATTCGGCCTTCAAGGAGCTATCCTTTCGGCAATTGCTTACTTTATCGCTTCGAAAGTGATTCATATCGTTGAAGTTGGTTTAAGTGGTTCAAAAGCATTTAAAATTATCACAAAAGAGCCTGAATTAATGGTAGAAACAATTCGCGATCGTTTAGGCCGAAGTGCAACATATAACGAAGTATACGGTGGTTATTCAAGAGAGAAATTCAAAGAAATTTCTTGTGTAATTAACCGTTTAGAAGAAAGTAAAATGAAAGAACTTATTAATGAAATCGATCCACACGCCTTTATTACAGTTTATGACGTAGCAGAAGTAAAAGGCGGTAATTTCAAGAAACGTGATATTCATTAA	MEKIIKNKPNKLKIASKALMIIIGAFITAYGLEAVLIPNNVSDGGVTGLSIVSSRLFGLPLGALIAVINIPFVWLGYKQIGKSFAIYSIIGIASLAIGTVVMHGIPAIIEGDTLLVTVVGGIIIGFGMGLALRNGGALDGIDMLAVLLSRKLPFGTSDLILFLNMFVFIFVSTVFGLQGAILSAIAYFIASKVIHIVEVGLSGSKAFKIITKEPELMVETIRDRLGRSATYNEVYGGYSREKFKEISCVINRLEESKMKELINEIDPHAFITVYDVAEVKGGNFKKRDIH				NA	NA	NA	NA	NA
AK009_02317	330			hypothetical protein	GTGGGATACTGTACGAAATGTGGAAATGAAACGAACGAGGGCAACAAGTTTTGCGGGCAGTGCGGGGAGAGTCTTAGCTATAAAACGGTAGGGGGAAGTTTTCCGAATAGCAGTTCTAATAGTAGTATAGAAATTTTTTCTTTAGTCGGTTTCATCACTGGATTAATATCTTGGTTTATAAACTTATGGGGGCTTATTGGTAGTGTAGCTATCGTATTTTCTATATTGGGTTTAAACAAAAAAGTGACGGGTACGAGTAAAACATTTGCTATTGTTGGAGTGATTTCTGGAATAATTAATGTGTTGTATGCTGTTACGTTATTTATTTAA	MGYCTKCGNETNEGNKFCGQCGESLSYKTVGGSFPNSSSNSSIEIFSLVGFITGLISWFINLWGLIGSVAIVFSILGLNKKVTGTSKTFAIVGVISGIINVLYAVTLFI				NA	NA	NA	NA	NA
AK009_02318	1038			hypothetical protein	ATGCTGTATTTTGGAATTATTCCTCTTATATTGTTTATTATTTTTCTTATCTCGTATTTAAAAGATCCGCGGAAAATAATAAACGGCTTTTTATTTAATGCCTTTATCTGTTCATTTCTATTATTTTGCGCTATAGCCTCATTTGAGTCTGGTAATAACGATTTACATTTTATCGTTATCATCCCCATGTTAGCACTACTTGTAATGATTCCTTTTGCTATAGTCGCTTTAATGTTCGGACTCTTTCTTAATGCAAAAATTTTAATGCAACGTGAAGGAAGACGCTTCACAAACTCTTTAACTTTAATTGCTGCTTTAGGGATTTTATTCTTTATAATGCTCCCTATCATAAATCCAGCAAATTTATTCTCAGAGCATTTTCAATTTATCTTTGCTGCTATCTCTCTTATAACTATGTATTTCTTTGTGCATTTATCTAACTTCTTAAGTGCATATTTTTTATATCAATTCAACAGACCAAGACGTAATCAAGATTTCATCATCGTTCTCGGTAGCGGCTTAATTAATGATAAAGTACCACCTTTACTTGCAAGTCGTATTAATAAAGCTATCGACTTTTATTGGAAACAAGCAGCTGTGAATACACCACCAACAATTATTTTCTCTGGTGGTCAAGGTCCAGATGAAGGCCTTCCAGAAGCGGAAGCGATGCAAAATTATGCTGTTGAAAAAGGAATTCCTCTTGAACATACAGTGCAAGAAAATCGCTCTGTAAACACATATCAAAATATGTTGTTCTCTAAAGAAATTATGGATTCTTTAAAAACAGAAGGTAAGTATAGAAGTATTTTTACAACGAATAATTTCCATCTTTTCCGCGCTGGTATATATGCAAGACAAGCTGGCCTTAATAGCCAAGGAATCGGATCAAAAACTGCATTTTATTACTGGCCTAACGCAATGATTCGTGAATATGTCGCAATTGTTGTTATGGGACGTAAGCGCCATATGAAAATATGTGGAACTATTTTAGGCTTCGCTTTATTCCTAACAGTAATTAGTTTTATTGTTTCTTAA	MLYFGIIPLILFIIFLISYLKDPRKIINGFLFNAFICSFLLFCAIASFESGNNDLHFIVIIPMLALLVMIPFAIVALMFGLFLNAKILMQREGRRFTNSLTLIAALGILFFIMLPIINPANLFSEHFQFIFAAISLITMYFFVHLSNFLSAYFLYQFNRPRRNQDFIIVLGSGLINDKVPPLLASRINKAIDFYWKQAAVNTPPTIIFSGGQGPDEGLPEAEAMQNYAVEKGIPLEHTVQENRSVNTYQNMLFSKEIMDSLKTEGKYRSIFTTNNFHLFRAGIYARQAGLNSQGIGSKTAFYYWPNAMIREYVAIVVMGRKRHMKICGTILGFALFLTVISFIVS				NA	NA	NA	NA	NA
AK009_02319	234	gerPF_2		putative spore germination protein GerPF	ATGAAAGTGGGTGACAAAATGCCAGCAGTTGTGGAAGGTGTTATTATTGAAAACTGCAATGGAACAATTAATGTAGGTGATAAATATAACGTACAGCCGATTGAAAAGACGAAAGCTTACAATGGATCGGGATCATCAAATACAGGAATGAAAGTACAAACGTTTAGCGGAATTAGTACAGCTGATGTATGGGATAATGATGTGAATGATCAGGGGATACAGTTTACTTTATAG	MKVGDKMPAVVEGVIIENCNGTINVGDKYNVQPIEKTKAYNGSGSSNTGMKVQTFSGISTADVWDNDVNDQGIQFTL	PGPT0025090_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
AK009_02320	1029	cydB_2	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGTCTCATGATATGCTTGCAATCATCTGGTTTGGTTTATGGGGCGTGATTTGGACAGTTTACTTCATTCTTGATGGGTATGCACTTGGTAACGGAATGATTTTCCCTTTCGTTACGAAAGATCGACAAGAACGAAATCAATTACAAGAAGCAATTGGCCCATTCTGGGGCGGTAATGAAGTATGGTTAATTACAGCTGGTGGCGCAACATTTGCTGCCTTCCCAGTCACATATGCAAATATGTTTAGTTATCTCTATACACCGTTATTCTTAGTATTACTTGCACTATTTGCTCGTGCCGCTGGGCTGGAATTCATGCATAAAGATGATTCACCGATTTGGAAAAAAACTTGTAAATGGGCATTTGCAATTGGGAGTTTTTTAATTGCTTTCCTATTCGGTGTTACGTTCGCTAATCTTTATTACGGACTACAAATCGGAAAAAATGGTTATGAAGGAAATTTACTTAGCTTATTAAACCATTACGGTATTTTAGGAGGATTGTTCTTCACTGCTATATTTGTCGTATCCGGTGCCCTTTGGGTCATGATTAAAACGACTGGTGAAGTATCCGACCGTGCTTATAAAATCGCGAGACCGTTTTCAATGGCAGCAGCTATTATTTTAGCTATCTTCTATGTAGCAACTGCTAATCGGACAAACTTGTTCCAAAACTTTACGGAATATCCGGTACTATTCATTCTTCCAGTACTTGCAATGTTAATGAGTGTACTCGCACTTATTATGGTGTACAAACATAAAATTGGCCTTGCATTCACATTCGTTTGCCTAACAATCGCAATGTTTATGACAACTGGCTTTGCAGGTATGTTCCCAAGAATGTTACCATCTCGTATTAACGATGCATACAGTACAACGTTATACAACGCAGCTGGTAGTCAATTAAACTTAAAGATTATGTTCTTCGTTGCAATGGTCATGGTACCAATCGTTATTGGATATCAGCTTTGGAGCTACAGTATCTTTAAAAATAAAATTCATAAAGACTCTGCTAAAGGGTATCACTAA	MSHDMLAIIWFGLWGVIWTVYFILDGYALGNGMIFPFVTKDRQERNQLQEAIGPFWGGNEVWLITAGGATFAAFPVTYANMFSYLYTPLFLVLLALFARAAGLEFMHKDDSPIWKKTCKWAFAIGSFLIAFLFGVTFANLYYGLQIGKNGYEGNLLSLLNHYGILGGLFFTAIFVVSGALWVMIKTTGEVSDRAYKIARPFSMAAAIILAIFYVATANRTNLFQNFTEYPVLFILPVLAMLMSVLALIMVYKHKIGLAFTFVCLTIAMFMTTGFAGMFPRMLPSRINDAYSTTLYNAAGSQLNLKIMFFVAMVMVPIVIGYQLWSYSIFKNKIHKDSAKGYH	PGPT0026705_2232	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
AK009_02321	1350	cydA_2	COG1271	Cytochrome bd-I ubiquinol oxidase subunit 1	ATGTCCGACGTTCTGTTACTGAGTCGTTTTCAATTTGCAATTACTATTTTTTATCACTTTTTATTTGTACCTTTGACAATCGGACTTGTCATTTTAGTAGCATGTATGGAAACTCAATACGCCCGCACATTGAATCCAACATACCGTAAAATGGCAAATTTCTGGGGTAAATTATTTACAATTAACTTCGTAATGGGGATTATAACCGGGATTACGATGGAATTCCAATTTGGAACAAACTGGTCTGAGTACTCCAAATATATGGGAGATATTTTCGGATCACCTCTCGCAATTGAAGCACTTGTTGCCTTCTTCTTAGAATCTACTTTCATGGGAATATGGTTATTCGGTAAAGACAAAATTTCACCAAAGTTCCGTGCCTTCTGTATGTGGATGGTTGCACTTGGAACAAATATTTCCGCACTTTGGATTATTACAGCAAACGGCTTTATGCAAAACCCTGTTGGCTACGTAGTACGTAACGGCCGCGCTGAATTAAATGACTTCTGGGCACTCGTTACAAATCCATATGCTTGGAATATGTTCTTCCATACTGTCATTGGTTGTTATATCGTAGGTGCTTTCTTCGTTATGGCAATTAGTTCCTATCACTTATTACGTAAAAACGAAGTGGAATTCTTCAAAAAATCATTTAAGTTTGGTTTAATGCTAGGTTTATTCGCCGCAACAATTACACCGTTTATGGGACATCAATCTGGTGTATCAGCAGCTAAATATCAACCAGCAAAAGGAGCTGCGATGGAAGCAGTTTGGGAAACTGGAAAAGGACAAGGCTTCTCAATTGTTCAAATTCCTGATGTAAAAAATGAGAAGAACTTTGAATTCCTTACGATTCCAAAACTCGGAAGCTTCTTCTATACAAACTCATTTGATGGCGAAATTGTTGGTTTAAAAGATATTCCGAAAGATGAACGTCCAAATGTTAACCTCGTGTATTATAGCTTCCGCTTAATGGTTGCACTTGGTATGTTCTTTATGGCATTAACTTGGTACGGCTTCTATTTAAACCGAAAAGGAAAACTAGAAAACTCAAAACGTTATTTAAAAATTACAATATGGTCTGTCTTACTTCCTTATATCGCGATTAACGCAGGATGGATTGTCGCTGAAGTAGGTCGTCAACCATGGACAGTATATAAACTAATGCGTACAGCAGAATCTGTATCGCCTATATCAGTTCCACAAATTTGGTTCTCATTAATTAGTTTAATTTTGTTCTACACTTTACTTTTAATTGCAGACGTATACTTAATGCTGAAGTTCGCGAAAAAAGGACCTGCAGCATTAGAAGAACCTGCTACTGAGGGAGGTGTGGCTCATGTCTCATGA	MSDVLLLSRFQFAITIFYHFLFVPLTIGLVILVACMETQYARTLNPTYRKMANFWGKLFTINFVMGIITGITMEFQFGTNWSEYSKYMGDIFGSPLAIEALVAFFLESTFMGIWLFGKDKISPKFRAFCMWMVALGTNISALWIITANGFMQNPVGYVVRNGRAELNDFWALVTNPYAWNMFFHTVIGCYIVGAFFVMAISSYHLLRKNEVEFFKKSFKFGLMLGLFAATITPFMGHQSGVSAAKYQPAKGAAMEAVWETGKGQGFSIVQIPDVKNEKNFEFLTIPKLGSFFYTNSFDGEIVGLKDIPKDERPNVNLVYYSFRLMVALGMFFMALTWYGFYLNRKGKLENSKRYLKITIWSVLLPYIAINAGWIVAEVGRQPWTVYKLMRTAESVSPISVPQIWFSLISLILFYTLLLIADVYLMLKFAKKGPAALEEPATEGGVAHVS	PGPT0026700_4390	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
AK009_02322	564	csh_1		Carbon disulfide hydrolase	ATGAAGTCATTAGAAGAGATTTTACAATACAATGAAAAATTTGTTGAAGAGAAAAGATACGAAGAGTATGAAACGGGAAAATTCCCGAATAAAAAAATGGTAATTATCTCTTGTATGGATACTCGTCTTGTTGAATTATTACCAAAAGCAATGAATATGCGTAACGGTGATGTGAAAATTATTAAAGTAGCAGGAGCTGTTATCTCACATCCATTCGGAAGTATTATGCGTAGTATTTTAGTTGCTGTATATGAACTTGGTGCTGATGAAGTTTGTGTAGTTGGTCACCACGATTGCGGTATGGCAAAAATTCAGGCAAGCAGTACAATTGAGAAGATGAAAGAGCGCGGTATAACAAATGAGAAATTAGATACACTCCGTTATTCTGGAATCGATTTAGAAAGATTCCTACAAGGGTTCTCTAGTGTAGAAGAAAGTGTAGAACATAGTGTATCAATACTTCGCAACCATCCATTACTTCCAGAAGAAGTACCTGTTCACGGTCTTGTTATAGATCCTGATACAGGAAAATTAGATTTAGTTGTGAATGGTTACGACAATTAA	MKSLEEILQYNEKFVEEKRYEEYETGKFPNKKMVIISCMDTRLVELLPKAMNMRNGDVKIIKVAGAVISHPFGSIMRSILVAVYELGADEVCVVGHHDCGMAKIQASSTIEKMKERGITNEKLDTLRYSGIDLERFLQGFSSVEESVEHSVSILRNHPLLPEEVPVHGLVIDPDTGKLDLVVNGYDN	PGPT0002415_6605	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK009_02323	237	yidD	COG0759	Putative membrane protein insertion efficiency factor	ATGAAACAGATTTTTATTGGGATTATACGCTTTTATCAAAAGTTCATTTCTCCGATGACACCACCAACATGCCGCTTTTATCCAACTTGTTCTCATTACGGATTAGAGGCGTTTCAAAAACATGGTGCACTCAAAGGTTTTTGGCTTACTTGTAAGCGTATATTAAAATGTCACCCTTTCCACCCGGGAGGATTTGATCCTGTCCCAGATAAAAAGGATGACAAAGTAAATTCTTAA	MKQIFIGIIRFYQKFISPMTPPTCRFYPTCSHYGLEAFQKHGALKGFWLTCKRILKCHPFHPGGFDPVPDKKDDKVNS	PGPT0024530_191	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
AK009_02324	474	luxS	COG1854	S-ribosylhomocysteine lyase	ATGCCATCAGTAGAAAGCTTTGAATTAGATCATACGATTGTAAAGGCACCTTATGTAAGACATTGCGGAGTTCACAATGTAGGTAGTGACGGTATTGTAAATAAATTTGATATTCGTTTCTGCCAACCGAATAAACAAGCAATGAAACCAGATGTTATTCATACGTTAGAGCATTTATTAGCATTTAATTTACGTAAATATATTGATCGTTATCCGCATTTTGATATTATCGATATTTCACCGATGGGCTGCCAAACAGGATATTATCTTGTAGTGAGCGGAACACCGACAGTTCGAGAAATCATTGATTTATTAGAACTAACATTAAAAGATGCGGTTCAAATTACAGAAATTCCGGCTGCAAATGAAACGCAATGTGGTCAAGCGAAGCTTCATGACTTAGAAGGAGCACAACGCTTAATGAACTTCTGGCTAAGCCAAGATAAAGATGAACTTGAGAAAGTGTTTGGATAA	MPSVESFELDHTIVKAPYVRHCGVHNVGSDGIVNKFDIRFCQPNKQAMKPDVIHTLEHLLAFNLRKYIDRYPHFDIIDISPMGCQTGYYLVVSGTPTVREIIDLLELTLKDAVQITEIPAANETQCGQAKLHDLEGAQRLMNFWLSQDKDELEKVFG	PGPT0016265_939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016265-luxS-K07173	NA	NA
AK009_02325	762	mta_2	COG0789	HTH-type transcriptional activator mta	ATGGATAAGTATAGCATTGGTGAAATTTCAAAAGAAACGAATGTAACGACGAGAACACTTAGATATTATGAGGAAATTGGATTATTAAAACCGTCGTACGTTGCTGAGTCAGGATATCGTTACTATTCAAAAGATGATGTAATTACATTGCAACAAATAACAACGTTTAAAAAGCTTGGTTTTAAGCTTTCGGAAATAAAAAAAGTGTTAAAAGAGGAAAAGGGGAATTCAGAAGAAAGATGGAAAAGTGCAATTCAAAATGAAATTCAAACAATACAAGCGGAAGTAAAAAGATTAAAGGACTTAGAAAAACTATTATATACAGCATTTCATTCCATTGAATTAACAGGAGAGCTTAAAACAGAAGATTTAATGTTATTCATAAAATCAGTACAGGGAATTGAGCAGAGAGAAAATTTCCGACAAAAATATTTTACGGAGGAAGAACAGAAGGTTATAGAGGATTTACCAACACTTGAAGAAAACGATGAAAGAACAAAAGAATGGTTACAAGTATTAAGAGAAATTCGTCAGCGTATAAATGAACCAGTAGATTCACCGGAAATTCAAATGTTAGCGGAAAGGGTAGTGGCTTTTTCAATGCACGTATTTCATGAAGATGAACAATTAATAAATAAGTATTGGGATTTAATTAAACCTGAAGAGGGAGAGATTGCAAGAGTATACGGACTTGATTTAGAAACGATGAATTATATAGAAAAGATGATAGATTGTTATTTAAAAAAGGAGGAGGGTAAATGA	MDKYSIGEISKETNVTTRTLRYYEEIGLLKPSYVAESGYRYYSKDDVITLQQITTFKKLGFKLSEIKKVLKEEKGNSEERWKSAIQNEIQTIQAEVKRLKDLEKLLYTAFHSIELTGELKTEDLMLFIKSVQGIEQRENFRQKYFTEEEQKVIEDLPTLEENDERTKEWLQVLREIRQRINEPVDSPEIQMLAERVVAFSMHVFHEDEQLINKYWDLIKPEEGEIARVYGLDLETMNYIEKMIDCYLKKEEGK				NA	NA	NA	NA	NA
AK009_02326	696	mdtJ		Spermidine export protein MdtJ	ATGACTGGCGCGGGAAAAGAGAAGCTATATGGAATTAAGCATGCGCGGATGGAGAGGCAATATTTTTATAAGCATCTGGGGATTTTCATTTTTGCACAGATTCTATTTATTTTTATAGTAGGGCTTGTACCAGCTCAAGAGTTGCCAAGCGGTTCCTATTTCCTTCATATGAAAGAGTGGATTTTAAATAAACAAATTGGATTTTATAAAAATGAAACGATTAATACGATTACAAGTGTCTGGACATCAGTGCTTATTATTCATTTTATATGGGCGATGTCTTACATTCTTTTTCCGAAAAAGAAGCGTAATTCTTCGAAACAAGAAACAAGAGAAGAGATAAAAGAAGAAGTGAAAAAGAAAAAGGAGATTAGCATAAATAGGGCGTGGATGTATTTAGTATTTGGGGGCTTAATTGAAATATATTGGGCGACAGGATTAAAAACAAATTCAATGAGTATTTTGACACTCATTGCAATTTTAGTGAGCTTTCAACTACTAATTGAAGCAACTAAAAAAATTCCAATTGGTACGGCATATGCAGTATTTACTGGAATTGGTACAGTTGGAACGATATTGGTAGATATTTTATATTTCAAAGAACCATTTTCGCTCATCAAAATTTTCCTCGTTTGCTTATTGGCACTATTTATTATCGGATTGAAATTTAGTGGGAATAAGGAAGAGGTGAAATAA	MTGAGKEKLYGIKHARMERQYFYKHLGIFIFAQILFIFIVGLVPAQELPSGSYFLHMKEWILNKQIGFYKNETINTITSVWTSVLIIHFIWAMSYILFPKKKRNSSKQETREEIKEEVKKKKEISINRAWMYLVFGGLIEIYWATGLKTNSMSILTLIAILVSFQLLIEATKKIPIGTAYAVFTGIGTVGTILVDILYFKEPFSLIKIFLVCLLALFIIGLKFSGNKEEVK	PGPT0029165_5	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
AK009_02327	315	gdnD_1	COG2076	putative guanidinium efflux system subunit GdnD	GTGGCATGGATCTATTTAATTATAGCTGGGCTCTTTGAAATTGTCGGTGTAATTGGGATAAAGAAAGTAGCAAAAAATAATAGTTGGACGAATAATATTATTTTAATAGGTGGTTTTATTATTAGTTTTCAATTTTTAACGATGGCGCTTCAAGAAATTCAGTTATCGATCGCATATGCAGTTTGGACTGGAATCGGAACGCTCGGGGCAGCAGTTGTCGGTATTTTATTTTTTCAAGAACCTAAAAACGCTTTTCGAATTATTTGTATTGTTGGGATTATGGGGACGATTATTGGATTGAAAGTAGTGAGTTAA	MAWIYLIIAGLFEIVGVIGIKKVAKNNSWTNNIILIGGFIISFQFLTMALQEIQLSIAYAVWTGIGTLGAAVVGILFFQEPKNAFRIICIVGIMGTIIGLKVVS	PGPT0029170_319	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
AK009_02328	231			hypothetical protein	ATGCTAACAAACCTTCGAATCTTACTATCTGCTATTGCTTTTATTCTTGCTTTTTTTAGTCTTTTTACACGAATTTCTATTCTTTTCTCTTATGTATTTATCCTTTTAAGCATCACATTTATTCTTTCGGGAGTTGCTGAAATACAACAAAAGCAAAAATCGAAAGCTATCTTTTGTTTTATAGTTGGGATAATCACTTTCTTCGTTGGGATTTCTGACATACTTCCATAA	MLTNLRILLSAIAFILAFFSLFTRISILFSYVFILLSITFILSGVAEIQQKQKSKAIFCFIVGIITFFVGISDILP				NA	NA	NA	NA	NA
AK009_02329	231			hypothetical protein	ATGCTAAAAGGAGTACGGATTACTTTATCACTTATTGCTTTATGTATAGCAATCTATAGTTTCTTTACTAGTAATAGAGAAATTATGCCTTATATGTTCATCTTTTTAGGGATGATGGCTTTCGTTATTAGTATAGAGGAAATCTTAAAGCAGCAAAAAGGTGGTAGTATACTTGCTCTGTTAGCAGGAGCTGGTGCTTTATTTCTTGGCTTCTCAGAAATATTTCGATAA	MLKGVRITLSLIALCIAIYSFFTSNREIMPYMFIFLGMMAFVISIEEILKQQKGGSILALLAGAGALFLGFSEIFR				NA	NA	NA	NA	NA
AK009_02330	231			hypothetical protein	ATGCTTCGTATACTCCGCATCACAATCGCACTCACTGTGTTCGTTATGTCGGCAATTGGATTATATACAGGTCAAAATAATTTTCTACCTCTTTCACAATTTCTATTAGGGGCTTTAATGTTTCTCATCGCATTTGAACAAATAAAGAAAAAGGAGGCAGCAACTGGGCTTATTTGTATTATTTCCGGTGCTTTCATTTGGATTGTTCTCATCATTAGCTATATAAAATAA	MLRILRITIALTVFVMSAIGLYTGQNNFLPLSQFLLGALMFLIAFEQIKKKEAATGLICIISGAFIWIVLIISYIK				NA	NA	NA	NA	NA
AK009_02331	150			hypothetical protein	ATGTTCAAAATATTAATTATCGGTATTATCATCGTCCTAATCATCCTCGTACTCTCCATCATGACAATTAATAAAGGCTATGCTTATAAACATTACGTCGATAAACTAGAAGATAATCCTTATACAAAAAAGAATAAGGAGAATTCCTAA	MFKILIIGIIIVLIILVLSIMTINKGYAYKHYVDKLEDNPYTKKNKENS				NA	NA	NA	NA	NA
AK009_02332	318			hypothetical protein	ATGGAAACGAAAAAAACATATTATATATCAATAGGAAATGGTCAAATTTCACAAGTGAAGACGGCGGATACGTATAATTTTGAAATTTATGCAAATGATGAGGAAATTACGGAATTAAGAGAGCACTTCGATCAAGCATATGTAGAAGATTTAGGTTCATTTGTACGCTCCCACGTTCCATTTGTTGAGTATCATCACGATTCAAATAATGACCGATATGATGAACAACTACAAAAAGCATATAAAATGATTTACGATTTAGGAAATCATGAGACGAAAGAATTAGTCGCGCAAATGGGAATAATCAATGGATTGTAA	METKKTYYISIGNGQISQVKTADTYNFEIYANDEEITELREHFDQAYVEDLGSFVRSHVPFVEYHHDSNNDRYDEQLQKAYKMIYDLGNHETKELVAQMGIINGL				NA	NA	NA	NA	NA
AK009_02333	480	ytkD	COG0494	Putative 8-oxo-dGTP diphosphatase YtkD	ATGTACAAATTTAAAGATTATTACCACAACACTGTACAATTATCGTTTGAACGTTATCCATTTTCTCCTGAGCCAAAGCATGTTTGGGTTGTATGCCGGTACGGGGATCAATGGTTATTAACACATCATTTACGTCGTGGTCTTGAATTTCCAGGTGGTAAAGTAGAACTAGGGGAAACACCGGAAGAAGCGGCAGTTCGAGAGGTTCATGAAGAAACTGGCGGCATAGTTTCTGATTTAACTTACTTAGGACAATATAAAGTATCTGGAAAAGACAAAATAATCATTAAAAACATTTATTTTGCAACAATTAGTGCGGTAGAAGAACATACGCATTACGAAGAAACGAAAGGGTCTGTTTTATTAAAAGACATTCCTGACAACATTAAAACGAACAGAAAATTTAGCTTTATAATGCGCGATGACGTATTAGCGCGTACGATGAAACATATAGAAGAAATCGGCTGTTTTACGAAGTAA	MYKFKDYYHNTVQLSFERYPFSPEPKHVWVVCRYGDQWLLTHHLRRGLEFPGGKVELGETPEEAAVREVHEETGGIVSDLTYLGQYKVSGKDKIIIKNIYFATISAVEEHTHYEETKGSVLLKDIPDNIKTNRKFSFIMRDDVLARTMKHIEEIGCFTK				NA	NA	NA	NA	NA
AK009_02334	537			hypothetical protein	ATGGATAAAAGAAAAGAAACGACTGTTACTGTTTCGATGGTTAAATTAAACTTTTCTTTATTTTTTATAATAATTGCTTTGTCGTTTGGAATAGGTTATTTGCATATATTTCTTTCAGGTGGGGTCCAAGTTGAAGTTACATTATTAACGATGTTTCTGTTTATTATTGCAATGATTGTTCTCGTCTGTATTCATGAAGCGATACATTTAATAGGATTTCGCTATATCGGAGGTATTCCGTGGAGTGAACTAAAATGGGGCGTTAATTGGAAATTAGGTGTTGCATATGCTCATTCTAAACAGGCGGTTACAGTAAAGCAAATGAAGAAAGTGTTAATGCTTCCGTTTTTACCAACTGGAATTTTGCCAATTGTATTGGGATTAGCTATGAATCTGGAGCCACTCTCATTTTTAGGAATTCTACTAACAGCAGGTTGTATCGGTGACATTGCCTTATATCAAAAAGTTTCAAAGTTTCCAGATGATGCGCTAGTAAAAGATCATCCGAGTAAACCACAGTTTACAGTATATGAATAA	MDKRKETTVTVSMVKLNFSLFFIIIALSFGIGYLHIFLSGGVQVEVTLLTMFLFIIAMIVLVCIHEAIHLIGFRYIGGIPWSELKWGVNWKLGVAYAHSKQAVTVKQMKKVLMLPFLPTGILPIVLGLAMNLEPLSFLGILLTAGCIGDIALYQKVSKFPDDALVKDHPSKPQFTVYE				NA	NA	NA	NA	NA
AK009_02335	672	gph_3		Phosphoglycolate phosphatase	ATGATTCGTGCAATCTTATTCGACTTAGATGGCACACTATTAGATCGGCGCCAATCTTTAGAACAATTTATTTGTGACCAATATAATCGCTTCGCCTCACATTTGATGGGCATAGAAAAATCCGAGTATTGTTCTCGATTTCTTGAACTTGATAATAATGGCTATACGTGGAAGGATAAAGTGTATGCTACTCTCCTTTCCGAATACAACATTACTACTTTAACGCAAGAGCAACTGCTACACGACTATATTACAAACTTCCAACATCATTGTATTTCTTTCAAAAACACGCATGAACTACTTCAACAGTTAAAACAGCGAAACATTAAAATTGGTATTATCACAAATGGTTTTACTGAATTTCAGATGAGCAACCTTCGAGCACTACATATACATACGTATACAAACACCATTCTCGTTTCAGAAACTGAAGGAATTAAAAAACCTCACCCTGAAATTTTCGAACGTGCTTTGCAAAGACTAGATGTTAAGGCAGAAGAATGTCTTTATGTTGGAGATCATCCAGAAAACGATGTGCTTGGTTCTGAACAAGTAGGGATTCTTGGTGTTTGGAAAAAAGATTCATTTTGGGGTGATTTTAAGCATTCACGTATCGTAGATGATTTATTAGAGGTTCTTTCATTTTTAGAGGTAGAGATAAAAATACAATAA	MIRAILFDLDGTLLDRRQSLEQFICDQYNRFASHLMGIEKSEYCSRFLELDNNGYTWKDKVYATLLSEYNITTLTQEQLLHDYITNFQHHCISFKNTHELLQQLKQRNIKIGIITNGFTEFQMSNLRALHIHTYTNTILVSETEGIKKPHPEIFERALQRLDVKAEECLYVGDHPENDVLGSEQVGILGVWKKDSFWGDFKHSRIVDDLLEVLSFLEVEIKIQ				NA	NA	NA	NA	NA
AK009_02336	1113			hypothetical protein	ATGAAGAAACTGTATGGCAAGTTAATGTGTTGTATGATAGCAAGCAGTTTAGTTGCAGGATGCGATAGTGCTATTGAGGTTACGAAAGAAAAAGAAATTTGTAAAACAGAAGAAGAGTGCACGCAAATAGGAGATAAAACATTACAAAAAGTATATAAAAAGATAGAGGGACTTTCAGAACTTGAAAAAGTAGAGGATTATGACATAGAAGAGTATGAAAGTATGAATATGAAAGAGGCGGAACAGAAAAAAGAAGAGGATGACAATTATTTCTTTTTAGCTTCTTATTATATCGATGATGATGAAATTGTAGATCCTTATTTTGAGAAATTGGATCGTAAGAGATTGAATAAAGCTTTTGCAGATGACGAAGTAGCAAAAGATGATTTGTTAAGCCAGCGGCAAGATAGAGAGTATCATGAAACTTTATGGGACATGTATCGCACTCTCATTCCAGTGAAATATCGTGAGAATATAACAGGGTTTGATCTAATAACGGATGGTTATGATGGCGTTGTTGCTCATGTCATGCCAAGTATGGATGACCCGAGAGATTGGTTGCTTAGTTTAGACGTGCTCGATTCTGGGGTGAATATAGATGAAGTGATGAAAACATTAATTCATGAAACGGCTCACGTATTAACGATTGGGCATAAACAAGTACCAGTGGATAGGAAATATTTAGAGGCGTTTGATGAAGAGAAAGACATTTCATCATATCGAAATAAATGTAAAACGGTGTTCTTGAAAAATGGATGTGCGAGAAAAACTTCGTATATTAACCAATTTTATAATGAATTTTGGAAACCAATTGAACAAGAGTGGACAGAAAAGAAAGTAGAAGAAAGTGAAGAGGCACAAATTAAATTTTATAAAGAAAAGCATGATGAGTTTGTATCGCTGTATGGAACAACAAATGTAACGGAAGATATCGCAGATACATTTACAGCGTTCATTTTACAAGATTCAAAAAAAGTGAAAGAAGGAACAGAGTTAAAATATAAGAAAATTGCTTTCTTCCATCAGTTCCCTGAGCTTGTAAAAATGAGAGCGGAAGTGCTGTCAGGATTATATGATGTTTCGAAAACGATAGAACAACAAGGTGGAGACTAA	MKKLYGKLMCCMIASSLVAGCDSAIEVTKEKEICKTEEECTQIGDKTLQKVYKKIEGLSELEKVEDYDIEEYESMNMKEAEQKKEEDDNYFFLASYYIDDDEIVDPYFEKLDRKRLNKAFADDEVAKDDLLSQRQDREYHETLWDMYRTLIPVKYRENITGFDLITDGYDGVVAHVMPSMDDPRDWLLSLDVLDSGVNIDEVMKTLIHETAHVLTIGHKQVPVDRKYLEAFDEEKDISSYRNKCKTVFLKNGCARKTSYINQFYNEFWKPIEQEWTEKKVEESEEAQIKFYKEKHDEFVSLYGTTNVTEDIADTFTAFILQDSKKVKEGTELKYKKIAFFHQFPELVKMRAEVLSGLYDVSKTIEQQGGD				NA	NA	NA	NA	NA
AK009_02337	228			hypothetical protein	ATGAAAACGATTCTTGCTGTTGCTGGTCTCATTTGGGTAATGTCTCACGGTTTTCCGATTTTTGAAGGGGAGCAAATTCGTAGTGCTTTGAATGAAAAGTTTAATGATTATCATGTGATAGATCGAAAAGATAATGTCGTTACAGTACGTGTGAAAGAATGTTTCCATACAGTTACGGTTGCGGATGGAAACATTACAAATGAAACGAAAATGTGTGATAAAAGGTAA	MKTILAVAGLIWVMSHGFPIFEGEQIRSALNEKFNDYHVIDRKDNVVTVRVKECFHTVTVADGNITNETKMCDKR				NA	NA	NA	NA	NA
AK009_02338	807	ribX_1		Riboflavin transport system permease protein RibX	TTGGATAATATAAAACAACTACATGAACAATTTCGAAAGAAAGAACGTAGGCGTGCTTGGATTGCTCGCTCTCTACAACTTTTACTACTTATTCTTTTCTTTGCACTATGGGAAATATCTAGCAAAAGAGAATGGATTGATCCTTTACTCTTTAGCTCTCCTTCAAGTATTTGGGATCTCTTCTTAACGAAATGGATCGACGGTTCACTTTGGGTCCACATATGGACGACATTGCTGGAAACGGGAGTAGGCTTCATTCTCGGAACAGTACTTGGTGCTATTATTGCAACGTTTCTTTGGTGGATGCCACTTCTAGCCCGCGTACTTGATCCTTATCTCGTCGTCCTAAATGCAATGCCAAAAGTTGCACTCGGTCCAATCATCATCGTTATTTTCGGTCCAAACATTTCATCTTCTATCGCAATGGGAGTAATCATTTCCATCATCATTACCATTCTCGTTATTTACAGTGCGTTTCAAGAAGTCGATTCTAACTATATAAAAGTGATGGACACATTTGGCGCAAATAAATGGCAATGTTATAAGCAAGTCGTTCTCCCTGCATCCTTTCCAGCAATTATCTCAACGTTAAAAGTAAACGTTGGTTTATCCTGGGTCGGTGTTATTTTCGGAGAACTTCTCGTTTCCAAACAAGGACTTGGCTACTTAATTAGCTACGGATTCCAAGTCTTTAACTTCACACTCGTCTTACTTAGCGTACTACTCACATGTGTTCTCGCAACTCTTATGTATGTATTTGTCGAGGCATTTGAAAAAATTCTAATTGGAAAAAGAAAAAGAAGCTGA	MDNIKQLHEQFRKKERRRAWIARSLQLLLLILFFALWEISSKREWIDPLLFSSPSSIWDLFLTKWIDGSLWVHIWTTLLETGVGFILGTVLGAIIATFLWWMPLLARVLDPYLVVLNAMPKVALGPIIIVIFGPNISSSIAMGVIISIIITILVIYSAFQEVDSNYIKVMDTFGANKWQCYKQVVLPASFPAIISTLKVNVGLSWVGVIFGELLVSKQGLGYLISYGFQVFNFTLVLLSVLLTCVLATLMYVFVEAFEKILIGKRKRS	PGPT0001145_5513	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK009_02339	765	ssuB_2	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGAGTTTTTTACAAATACGTAACGTTTCTCACTGCTTTTTTGCAAAAGAGAATGCCAAACTTATTCTCGAAGATATGAGCTTACAAGTGGAAGAAGGCGAATTTATTTCTATACTCGGTCCAAGTGGTTGTGGTAAAACAACACTCCTCTCAATCATTGCTGGGCTACTTGATCCAATTGACGGTATCGTCTTTTTAGATGGTGAACCGATTACAACGAAAACTTCATCTATGGGATATATGTTGCAACAAGATTACTTATTCCCTTGGAAAACGATTGAAGAAAATATTATGCTTGGACTTCATATTCGAAAGATTTATGATGAACAGATGAAAGAACATACTTTAAATCTTTTAAAACAAGTCGGTCTATATGGGGTAGAAGGACAATATCCTCGTGAACTATCCGGCGGTATGCGTCAACGTGCCGCTCTCGTTCGAACATTAGCGACTGATCCAAAAATTTTATTACTAGATGAACCATTCTCCGCACTCGATTATCAAACGAAATTAAAACTAGAAGAACTCGTTTTCAACTTGCTAAATAAATATAAGAAAACATCACTACTTGTTACTCACGATATTGAAGAAGCGATCGCGATGAGTGATCGTATTTATTTACTGCAAGCGAATCCTGGAAAAATCGCAAAAACCTTTATCGTCCCGGAAAGTATCCGTTCTTTATCACCGTTAGAAGCACGCCATCACTACGATTTCCCAGCCCTCTTTCAAGATATATGGAAGGAGCTGGAACGACTTGGATAA	MSFLQIRNVSHCFFAKENAKLILEDMSLQVEEGEFISILGPSGCGKTTLLSIIAGLLDPIDGIVFLDGEPITTKTSSMGYMLQQDYLFPWKTIEENIMLGLHIRKIYDEQMKEHTLNLLKQVGLYGVEGQYPRELSGGMRQRAALVRTLATDPKILLLDEPFSALDYQTKLKLEELVFNLLNKYKKTSLLVTHDIEEAIAMSDRIYLLQANPGKIAKTFIVPESIRSLSPLEARHHYDFPALFQDIWKELERLG	PGPT0001140_7327	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK009_02340	1008			hypothetical protein	GTGAAAAAATTAATCGCGATTTTTTGCATCATGTTACTAGCTGTTTTTACTTTTGCTGCTTGTAGTAATAAAAAAGAAGGTACGAAAGAACAAACTCAAAACATTCGTGTCGGCGAAGTTACCCATTCTCTCTTCTACGCCCCGTTATATGTCGGGATTGAAAAAGGATTTTTTAAAGATGAAGGACTAGATATTGACCTACAAACAACAGCCGGTGGCGATAAAACGATGACCGCCCTATTATCTGGCGGAATTGATATTGCTCTCGTCGGTTCTGAAACGTCTATTTACGTTCATCAACAAGGAGCGAAAGACCCTATCATTAACTTTGCACAGCTTACACAAACAGATGGGACATTTTTAGTTTCACGTAAAAAACTAGACTCTTTTAATTGGAATGACGTAAAAGGTGTTACATTTTTAGGACAGCGTAAAGGCGGCATGCCGCAAATGGTTGGGGAATACGTTTTAAAGAAAAATGGCATTGATCCTCATAAAGATACAAACTTAATTCAAAATATTGAGTTTGCTAATATTGCAAATGCCTTCGCATCTGGTACTGGAGAGTTTGTGCAGCTCTTTGAACCGACTGCAAGTATACTTGAGAAAGAAGGTAAAGGTTATATCGTCGCTTCATTCGGAAATGAATCTGGTACTGTTCCTTATACAACGTTCATGGCAAAAGAAAGTTTCTTAAAGAAAGATAAAGCTGCTGCTGAAAAGTTCACACGTGCGCTCTATAAAGCACAGCAATGGGTTGATACACATAGCCCAGAAGAGATTGCTGATGCTGTTTCTCCGCTATTTAAAGACACTTCAAAAGACATAACAATACAAGTAATTGAACGGTATAAAAAACAGCATTCTTATGCGACAAATCCACTACTAGATGCGGAAGAATGGAAACAGCTCCAAACTATTATGAAAGACGCTGGCGAATTACAAAAAGAAGTTCCACATGAAGCGCTCGTCAATACAAAAATTGCCGAAAGCGTTATTAAGAAATAG	MKKLIAIFCIMLLAVFTFAACSNKKEGTKEQTQNIRVGEVTHSLFYAPLYVGIEKGFFKDEGLDIDLQTTAGGDKTMTALLSGGIDIALVGSETSIYVHQQGAKDPIINFAQLTQTDGTFLVSRKKLDSFNWNDVKGVTFLGQRKGGMPQMVGEYVLKKNGIDPHKDTNLIQNIEFANIANAFASGTGEFVQLFEPTASILEKEGKGYIVASFGNESGTVPYTTFMAKESFLKKDKAAAEKFTRALYKAQQWVDTHSPEEIADAVSPLFKDTSKDITIQVIERYKKQHSYATNPLLDAEEWKQLQTIMKDAGELQKEVPHEALVNTKIAESVIKK	PGPT0001135_5113	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK009_02341	297			hypothetical protein	ATGGAGTACGAATACGATGATAGCGTACATTTACATCTTGATTATTTTGGGACAGAATGTGACATGGGATCGATTGCTTATAAGAGGAAGAATGAAGACGTATGGGATGTGTATTTTAATTTTGGAGTATACGGTATTCAGAAAGACGATGTAGAGTTAGGGAGGTTTATGGACGAATATGCTGGTCATTACGTTTTTTCTGTACATGCTCGCGATCTTAGTTGGGAATTTGGAAGTGCCCAGTTTGAAGAGTGGGTTTTGAAAAATCGGATAGTAGAAAAAACGCTACAAAAATAG	MEYEYDDSVHLHLDYFGTECDMGSIAYKRKNEDVWDVYFNFGVYGIQKDDVELGRFMDEYAGHYVFSVHARDLSWEFGSAQFEEWVLKNRIVEKTLQK				NA	NA	NA	NA	NA
AK009_02342	231			hypothetical protein	GTGATTGGATTTCTCATCTTATTATTTATTTTTGTGGCCGGATTTTTTATCATGCAAATGCTTATTTACCGATTTGCCAAGAAAAACATTCATAAATATACGAAAATAAAATGGTTTCATATGTGGCTACATATGAATATGAAAAAAGGTCCGAGATTAGATTTTTTTGATTTTGTAGTTATAGTACTCGTATGTATCGTATGGAAAATATGGCTGCTTCCTTTTATATAA	MIGFLILLFIFVAGFFIMQMLIYRFAKKNIHKYTKIKWFHMWLHMNMKKGPRLDFFDFVVIVLVCIVWKIWLLPFI				NA	NA	NA	NA	NA
AK009_02343	417			hypothetical protein	GTGCTTGTAAAAGGTGAGGAAGAAAAAGTAAAAGCAACAACAGATGAGCAAAAAATAGAAGAAGATAAAAAAGTGGCAGAGGAAGAAAAACGTAAGCAAGAAGAACAGCAAAAAGCAGAGGAAGAAAAGCGTAAGCAAGAAGAGCGACGAAAACAAGAGCAACAGAAAGCTCAGCAACAACCTGTACAACAAGAGAGAACACAAAAGCAAGAAAATACAAAACAAACAACGGGCGGGAAACCAACACGATCACAAATTTCAGTTGGTTCACATGTAGTTATCCAATTAGATAATGATTATAGTAAAACAGTGAGTGGTGTTGTGAAAGATATTTTGATAAATACAGAAACACATACATATGGAATTAAAGTGCGATTACAGAATGGACAAATGGGCCGTGTGCAAAGTGTTGGGTAA	MLVKGEEEKVKATTDEQKIEEDKKVAEEEKRKQEEQQKAEEEKRKQEERRKQEQQKAQQQPVQQERTQKQENTKQTTGGKPTRSQISVGSHVVIQLDNDYSKTVSGVVKDILINTETHTYGIKVRLQNGQMGRVQSVG				NA	NA	NA	NA	NA
AK009_02344	1254			hypothetical protein	TTGCTTACTAAGTTTAAGAGTTTGCCTAAAGCGGTATATGCAATTTTGGCGCTTTCTTTCCTGTTGCACGTTTTTTGTTTAGTAAAACAGCCAGGATTAGATGGAGAGTTAGTCAAAGTAACATATGGTGCAAATGATGCCTTTAACTATTCGTTAACAGCTGAACAACTATTAAAACATGGTGTATTTGGTTATGTGTATTTAGAACCTAGTGAAGTTCCAGGGAAAAATGCATATATCACACCAGGTCAGCCATTACTATTAGCTGGCGCTATGATTATTTCTGATATTACATCAATTCCTTACTATTACGTAGCAACTGTTATTAACATGATCATGAACCTTTGCACAGTGCTATTAGTATTCTTAATAGGAAAAGAATTGTTCGAAAAAAACATTTATGGAATTGTTGCAAGTATTTTATATGCTATTTATCCAAGTAACTATACATACTTCCGTACATTGCTAACAGAAGTTCCATCCATATTCTTATTGGCATTATGTGTATATGTATTTGTTCTCGCATGGAAATACAATAAAACGAAATTCCATATATGGTTTGGAATTGTCGTTTCAATTTTACTTATGTTCCGTCCAAATCCAGCTCCAATGATGCTCATTCCTGTTCTTGTTGTGTTATTTACATATGGATTTAAAGACTCCATTCGAATCGGATTGTTATGGTTTATCGGACCGTTCTTGATTATTGGCGCATGGGTTGTTCGTAACTATTTAGCGCTCAACCAATTTATTTTATTCTCAACCCAAGGTGCAGATCCACTGATTGCCGGTGCAGATCCATTCAATAAAATTGGCTATGAAAATATAGTAAATGAAATGAGAGCTAAAGGCTTAGATGACAAAGGTGCATACGCAAAGGAATTAATCAAGAATGGATTTAAGACGGACTTCACTTATTGGTTCTCTTGGTTCACTGTCGGTAAAACAATTGAGTTATTCAAAACAGCTCCTGCTGTAGACCAATACCGTATTCATAATTTTATGCAACTATGTCATAGAGTGTTTATCATTGGTACATTCTTGAGCAGCTTCTGCCTCATGCTAAATTCATTTAAACATAAACGCGTTATGATGCTAGTAGCAAGTTCTATTATTTACATTATCTTCTCAAACTTATTCTTAGCAATTAACCGCTACGGATTTTTCATTAATCCTCTTATGTGCTTAATTCTTGCATACGGATTAATTCACATTGCGCATAAGCTTCCATTCTTCCGCACTAACCAAGCATAA	MLTKFKSLPKAVYAILALSFLLHVFCLVKQPGLDGELVKVTYGANDAFNYSLTAEQLLKHGVFGYVYLEPSEVPGKNAYITPGQPLLLAGAMIISDITSIPYYYVATVINMIMNLCTVLLVFLIGKELFEKNIYGIVASILYAIYPSNYTYFRTLLTEVPSIFLLALCVYVFVLAWKYNKTKFHIWFGIVVSILLMFRPNPAPMMLIPVLVVLFTYGFKDSIRIGLLWFIGPFLIIGAWVVRNYLALNQFILFSTQGADPLIAGADPFNKIGYENIVNEMRAKGLDDKGAYAKELIKNGFKTDFTYWFSWFTVGKTIELFKTAPAVDQYRIHNFMQLCHRVFIIGTFLSSFCLMLNSFKHKRVMMLVASSIIYIIFSNLFLAINRYGFFINPLMCLILAYGLIHIAHKLPFFRTNQA				NA	NA	NA	NA	NA
AK009_02345	2067			hypothetical protein	TTGAAGTATGGTTCTACACTTTTTCATCTTCCGAAAAGAAGTATATTAATTTCTAGCATTATAAGTAGTATGGTGACTTTATTAGTAATAACTATGCTGTTTATGATTTTAAAGGTTTTTAATTTAGACATGATGAAAGATCATTTAAATCAAAAGCTTGTTTTAAGTGTTATGATGATTTTCATATGGGGCATAACATTTTATATTACGCATTTCAATAAAAAAGAGATGTCTATACCTAGGGTATCCCTGCGAGTGCATTTTATATTATTTTTGCTAGCTCATGCAGTAGCATTATTTTATATTGTAATGCAAGTTAATATGAGTTTCATAGAGACAATGAATTGGATTTACATTTATAATATGCAGTTTATATTAAGTTTTGTAGTAATTTATGCAATATATATTCTTGTATATAATTTAATAGGTAAGGTTTTTCTAAGTATGGTTTTATCTAGCTGTACGTTAGTCATTTTAGGTATTGTGAATTATTTGAAGCTTATTTTCAGAGGGGATCCGTTATATCCTTCTGATTTCACACAAATTACGCATATGCAATCTGTTATACCGATGGTGATGGACTATTTTAGCTGGAGTTATATTTTAATCATTATCGTAAGTATCGTGGCTTGTATTGTAGCAGGGATATATATGAGAAGGTATATTCAAAATGTAAAGATTCATCTAGGAATAAGAGCCTTATTAGTAGTAGGATCTATTTTTGTTCTATATGCGTACGGTAATTTTGCGAATACATTTATGAATAAAGTATTTCAAAAATCAGGTGTAGATTTTGTTTTGTGGAATCAAAATGAGAACTATGCTTCAAATGGTTTTGTACTGGGGTTTATTAGCAATTTAGATACAACAGTTATGGAAAAACCAAAAAATTATTCTAAAGAAAATATGCTTGAAATAGCAAACGATATAAAAAAACAATATAGTGGAAATATAGGGAACGAAAAGAAAAAAGAGAAACCGAATATTATTTTTGTAATGAGTGAATCGTTTTGGGATCCGACGAAAGTAACCAACCTTTCTTTTAGTGAAGATCCTGTACCAAATTTACATCATTATATAGAAAACTTTCCTGGTGGACAAACTATTTCTCCTACATTTGGGGGAAATACGGCGAACGTTGAATTTGAGGCATTAACGAGTTATTCAATGAGTTTGTTAAAGCCAGGTTCTATACCATATCAGCAGGTTATTACAAATAAGAAAGAAATTCCATCAATCCCGACGGCTTTGAAAAAAGAAGGCTATTACACAAGTGCAATTCATTCATTTGGACGCACATTCTTTAAACGTGATGATGTATATAAGGTGTTAGGATTTGATAAGTTTAATGCAGAGGACACGATGGAAAATGTGGATATTGATGGAGATTATATTAGTGATTTAGCGATGAGTGAAGAGATAATTGCTGAGTTAGAGAAACAAAAACAACCTACATTTATTCATGCAGTTACGATGCAAAATCATTTTCCATTTACAGAGGGCCGATTTGGTGAAAATCTAATAGAAATTAGCGGGCTAGAAAATGAAGAATCAAAGGGAGAATTAGAGACGTATACAGAAGGGTTAAGACGTTCAGATGAGGCTCTTCAATATTTAATAGAGCAACTAGATAATTTAGATAGACCTACATTATTAGTATTCTTTGGAGATCACCTTCCATCATTAGGAACAAATAAATCTTTTTATAAAGAAAATGGGTATATAACGAATGAAAAAACACCGAGTGAACGTTTAGCAATGGCGCAAACGCCGCTATTAATGTATGCAAACTTTGATATGCCAAATGATAATTTAGGTTTAGTAAGCCCAATTCATTTTTCTAATCTTATTTTTGATTATGCAGGGTTAAATAAATCCTCATTTTATCAATTTTTATCGGGACTTTACAAGGAAATACCAGTGCTTAGAGATGAATTAAAAGTTGATAAAAATGGGGAAGTAATCAATGATTTAACAAAGAAACAAAAAGAAATGTTAGAGCAATATAAAATGCTTCAATATGATTTACTCGTTGGAAATCAATATAGCAAAGAAATCCTCTTTTAA	MKYGSTLFHLPKRSILISSIISSMVTLLVITMLFMILKVFNLDMMKDHLNQKLVLSVMMIFIWGITFYITHFNKKEMSIPRVSLRVHFILFLLAHAVALFYIVMQVNMSFIETMNWIYIYNMQFILSFVVIYAIYILVYNLIGKVFLSMVLSSCTLVILGIVNYLKLIFRGDPLYPSDFTQITHMQSVIPMVMDYFSWSYILIIIVSIVACIVAGIYMRRYIQNVKIHLGIRALLVVGSIFVLYAYGNFANTFMNKVFQKSGVDFVLWNQNENYASNGFVLGFISNLDTTVMEKPKNYSKENMLEIANDIKKQYSGNIGNEKKKEKPNIIFVMSESFWDPTKVTNLSFSEDPVPNLHHYIENFPGGQTISPTFGGNTANVEFEALTSYSMSLLKPGSIPYQQVITNKKEIPSIPTALKKEGYYTSAIHSFGRTFFKRDDVYKVLGFDKFNAEDTMENVDIDGDYISDLAMSEEIIAELEKQKQPTFIHAVTMQNHFPFTEGRFGENLIEISGLENEESKGELETYTEGLRRSDEALQYLIEQLDNLDRPTLLVFFGDHLPSLGTNKSFYKENGYITNEKTPSERLAMAQTPLLMYANFDMPNDNLGLVSPIHFSNLIFDYAGLNKSSFYQFLSGLYKEIPVLRDELKVDKNGEVINDLTKKQKEMLEQYKMLQYDLLVGNQYSKEILF				NA	NA	NA	NA	NA
AK009_02346	810			Arylesterase	ATGTTTGTTACTGTCGAGAAAGATGTGCATATTTTTGTGCAAGACGTTAATCCTGGTCCAGGTAGTAAGACTGTTTTCTTCGTTCACGGATGGCCTTTAAATCATCAAATGTATCAATATCAACTCAATGTTTTACCAGAGCATGGCTTTCGCTGTATCGCCATGGATATACGAGGGAATGGGCAATCTGATAAGCCATGGACTGGTTACACGTATGATCGATTAGCCGATGATATCGCAATTGTTCTAGAAGCACTCCAAGTAGAGAACGCTACATTAGTCGGTTTCTCAGTTGGTGGTGCTCTTTCTATTCGCTATATGTCTCGCTATAATGGGCGCCGCATTTCTAAGCTCGCATTAATTGACGCTGTCTCCCCCTCTTTCGTTAAAAATCAAGAGTCCCCTTACGGTGTACCGAAAGAACAAGCAGATGCTCTCATTAATCAAATGTATGCTAATTTACCAAAATTTTTAAATGATGTATCTTTATCCTTTTTCAATAGAAACTTAGGAGCTGCAACCCTTGAATGGTTTTCTTATCTCGGTATGCAGTCCGCTTCTTATGCCCTTATCAAAATTTTACAAGCAGCTGCAAATGAAGATGTAACGAAAGATTTAAATAAAATTAACGTCCCAACAAAAATCTTCCACGGCGTTCACGACCAACTAATTCCTTACAAAAGTGCTGAGCTTACGCAACAACGAATTAAAAATTCTCAGTTACATGCTCTTACAAATAGTGGCCATGGTTCACCAATCGATCAAGCGGATGAATTAAATAAAGAACTGATAAAATTTTTACATGCATAA	MFVTVEKDVHIFVQDVNPGPGSKTVFFVHGWPLNHQMYQYQLNVLPEHGFRCIAMDIRGNGQSDKPWTGYTYDRLADDIAIVLEALQVENATLVGFSVGGALSIRYMSRYNGRRISKLALIDAVSPSFVKNQESPYGVPKEQADALINQMYANLPKFLNDVSLSFFNRNLGAATLEWFSYLGMQSASYALIKILQAAANEDVTKDLNKINVPTKIFHGVHDQLIPYKSAELTQQRIKNSQLHALTNSGHGSPIDQADELNKELIKFLHA	PGPT0013125_2616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
AK009_02347	2031	katE_1	COG0753	Catalase HPII	ATGGACGGCAAAAAAAATAAAAAGATAGAACAACTCCAATCTTTCACGCGTGAAAATGAAGGAAAGGAGATGACAACAAATACAGGTGTTAAAATTTCAAATGATGAAAACTCTTTAACAGCTGGAGATCGTGGCCCTACCCTTCTAGAAGATTTCCTTATGCGAGAAAAACTTTCTCACTTTGACCGTGAACGAATTCCAGAACGAGTCGTTCACGCACGAGGATACGGAGCACATGGCATTTTTGAGTTATATGAATCTTTAGAAGAGCTAACAATGGCCCATTTTCTACAAGACCCTTCAAAAAAAACACCGCTTTTCATTCGTTTCTCTGAAGTAGCTGGATCAAAAGGAGCAAATGAAACGAATCGAGATGTAAGAGGATTCGCCGTTAAATTTTATACAGAAGAAGGAAATTTTGATTTAGTAGGAAACAATATTCCCATTTTCTTTATTCAAGATGGCATTAAATTCCCTGATCTTATTCACGCCCTTAAACCAGAGCCGCATAATGAAATTCCACAGGGACAAACAGCACATGATACTTTTTGGGACTTCATCGCCAATAATCAAGAATCAGCTGCAATGATGATGTGGATTATGTCCGATCGTACAATTCCAAGAAGCTTTCGAATGATGCAAGGATTTGGCGTTCATACATTTCGTTTCGTTAATAAAAATGGAAAGTCACGATTCGTGAAATTCCACTGGAAGCCAAAGCTCGGCGTTCATTCGTTAATTTGGGATGAAGCACAAAAACTAGGTGGTGCTGATCCAGATTACCATCGCCGTGATTTGTGGGAAAATATTAATGCTGGAAACTATCCTGAGTACGAACTTGGCATTCAAATTTTAGAAGAAGAGGACGAATTTAAATACGGCTTCGATATATTAGATGCAACGAAAATTTGGCCTGAAGAAGATTTTCCCGTTAAAATCATTGGGAAAATGACCTTAAATCGCAATGTAGATAATGTATTCGCTGAAACTGAACAAGTGGCACTACACCCTGGAAGTATCATTCGTGGTATTGACTTTACCAATGACCCTCTCTTACAAGGTAGACTCTTTTCTTATACAGACACACAATTAGCACGCGTTGGTACAAATTATCAAGAACTACCGATTAACCGTCCAATATGCCCATTTCATAACAATCAAAGAGATGGTGCATCTAAATATATAATCGACAAAGGAAACGTTGCCTACCATAACAATTCCTTAGCAAATAATTCTCCTTATACTGTACCTGGGACAAAGGGGGGGTTCGTTACATATCCTTCTACTGTATCTGGTCATAAAACAAGGGAAACTGCTGCTAGCTTCAAAGACCACTTCTCTCAAGCTCGTTTATTTTGGAATAGTATGAGTCACGTCGAAAAAATCCATATTATACAAGCTTTCTCCTTTGAATTAGGAAAAGTCAAAAGTAAATCTGTCCGCCAACAAGTCGTTGATATGATTGGACATATTAGTACAGAATTGGCTACTTTAGTTGCAGAAGCTCTCGGAGCAAAAGTCCCAAATGTGCAAGAATCCAACGTTACAAAATCATCTCCAGCACTCAGTATGGCAAATACGACCTTTAGTCCTAATACATTACGAGTAGGTGTCATTGTTGCAAATGGATATGATGGGCCAAGCGCACAATATATAATAAATCAGTTCAAACAAGTAGGTCTTCAACCAGTGATCGTTTCCGAACGATTAGGCATAGTGCAGGGAACGTCAAATGGACATTGGGAAGTAAATGATACTTTCTTAACAGGCTCACCACTCCTTTATGATGGATTACTTCTTATCGGCGGAAAGATGGATGATCATTTTCTTAACAAAGCAAGTTCCTTTGTCGTAGAATCATATAATCACTTTAAGCCGATTGGCTCCTTCCAAAACGGCTCTTCTATTATTCAATCTTTAAATATAGAAGGAAAGCCTGGTGTTTTAATAGAACAAGACCCTACGCGACTAGCAAATGAATTTATTAAAGCTATGACAAAACAACGCTTTTGGGATAGAGCATATTCATAA	MDGKKNKKIEQLQSFTRENEGKEMTTNTGVKISNDENSLTAGDRGPTLLEDFLMREKLSHFDRERIPERVVHARGYGAHGIFELYESLEELTMAHFLQDPSKKTPLFIRFSEVAGSKGANETNRDVRGFAVKFYTEEGNFDLVGNNIPIFFIQDGIKFPDLIHALKPEPHNEIPQGQTAHDTFWDFIANNQESAAMMMWIMSDRTIPRSFRMMQGFGVHTFRFVNKNGKSRFVKFHWKPKLGVHSLIWDEAQKLGGADPDYHRRDLWENINAGNYPEYELGIQILEEEDEFKYGFDILDATKIWPEEDFPVKIIGKMTLNRNVDNVFAETEQVALHPGSIIRGIDFTNDPLLQGRLFSYTDTQLARVGTNYQELPINRPICPFHNNQRDGASKYIIDKGNVAYHNNSLANNSPYTVPGTKGGFVTYPSTVSGHKTRETAASFKDHFSQARLFWNSMSHVEKIHIIQAFSFELGKVKSKSVRQQVVDMIGHISTELATLVAEALGAKVPNVQESNVTKSSPALSMANTTFSPNTLRVGVIVANGYDGPSAQYIINQFKQVGLQPVIVSERLGIVQGTSNGHWEVNDTFLTGSPLLYDGLLLIGGKMDDHFLNKASSFVVESYNHFKPIGSFQNGSSIIQSLNIEGKPGVLIEQDPTRLANEFIKAMTKQRFWDRAYS	PGPT0014380_1565	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK009_02348	1254	sasA_10		Adaptive-response sensory-kinase SasA	GTGAAAGAAAGTTTTCTATCATATAAAGAAGAAGAAAGGAATGCAAAAATCCTTTTATGGGTGTTATATGTTATTGTTATTGTATATCAAATTTTCTATGCAATTGTATTAGACAATAAATCAATAATGGATAAGGGATACAACATAGTATGGCAAGTTATTTGCGGAGTAGCAATACTGTGCGTGAATATATATTTAATGAAAAAAGAGAAGGCAAACCTTGTTAAATATGCATGGATATTTGCATACATAGGGATAGAAATCGCTAATATATTTTCGTATATTTTTTATAATAAGGCGGCGTTTGATGCGACAAATATAATAGAAATTATTCTCATTTTCTTTGTACCCATATTTTTAAATAAAAAATTTTATGTAATCTTACTTTCTTCTATTGTAGGAAAATATTTAATTTATTTATTTGTATTAGAGGAAATAAAAGCATTTATGTTCCTTATTATGTGTACACTTATGTTAATAGCTGCATATATCATTTTAAACCGATTTTTACAATATCTTTCAGCTGTAAAGGAAAGTATTGCGATTGCTAGTGAATCACAAAAATTAGCAGTAATCGGAAAAATGGCAGCGACGGTTGGACATGAAATTAAAAATCCACTCGCTTCATTAAAAGGATTTACGCAATTACAAAGAGAGAAGCATGAAGAGGATCCTGTTTATAAACGTATGATCTTTGAAATAGAAAATATGAATAATATGATAAGTGAGTTGATGGAAGTTGCTACATGCAAGCCTTCTATTTATAAGAAACATGATCTAGGAAAAATTGTATTACAAGCAACAACAACTCTTCGCGAAAAAATGAATGAATTAAATGTGCAGCTTATTTCTAATGTGGGAGAACAAACAATAGAAGTTGAATGTGATGAACGAAGAATAAGAGGAGTCTTTCTATATACGATAAAAAATGCTTTAGAAGCAATGGAGCAAGGTGGCATATTACATTTACGGTTAGAAAATAAAGGGAAAGAGTATGTGATGATCAGCTTAATTGATAATGGTCATGGTATTAAGCAAGAAAACTTAACCCGTGTTACAGAGGCCTTTTATACAACGAAACAAGATAAAATTGGTCTGGGTCTTACAGTAGCGAATCGAATTGTCGCCGAGCACCTTGGTGAGTTACATATTTCAAGTGAAAGAAATACTGGAACGAGAATAGACATTATTCTGCCAAGGAAGTGTGGAAATACTGAAATTCAAGTGGAAGAAAAGCTAGGAGTTACCATATGA	MKESFLSYKEEERNAKILLWVLYVIVIVYQIFYAIVLDNKSIMDKGYNIVWQVICGVAILCVNIYLMKKEKANLVKYAWIFAYIGIEIANIFSYIFYNKAAFDATNIIEIILIFFVPIFLNKKFYVILLSSIVGKYLIYLFVLEEIKAFMFLIMCTLMLIAAYIILNRFLQYLSAVKESIAIASESQKLAVIGKMAATVGHEIKNPLASLKGFTQLQREKHEEDPVYKRMIFEIENMNNMISELMEVATCKPSIYKKHDLGKIVLQATTTLREKMNELNVQLISNVGEQTIEVECDERRIRGVFLYTIKNALEAMEQGGILHLRLENKGKEYVMISLIDNGHGIKQENLTRVTEAFYTTKQDKIGLGLTVANRIVAEHLGELHISSERNTGTRIDIILPRKCGNTEIQVEEKLGVTI				NA	NA	NA	NA	NA
AK009_02349	1221	sasA_11		Adaptive-response sensory-kinase SasA	ATGAATAAAGGCTATATATTTAAAAATGAAGAAATAAAGGCGTTGAAAGTATTTTTAAGTTTATTTTTTATTATATTTTTTGTGTATGATCTTGCCTATGAATTTATCGTACCTTTAATCGCGGGAGAGCAAGAAGGCGTAGGAAAGTTTGAAGATGGTTTAGGTTTATGGCTTTACTTTTTGATGGTAGTATTGTTTTGCATTGGAATATACTTTATGAAATGGAAGAATGTTTTTGCGGTAAAGTATATTATTCTAATTGGCTATAATGTATTAGATTGTATCCACAACATTATGATTTATTATGGTAGCGATGCGGAATTTGACGGTGGAAATATAGTAGAAGTATTTTTTATTTTGTTTGCACCAATCTTTGTGAATAAAAGATATTTCTGGTTAGTTCCAGCGATACTTGTCGGGAAGTACGCTTTTACAGGAATCATTATTCAATCTTCTCTCGTTTTAATCCCAATGGCATTATATAGTGTATTTACTATTATATGTTGGATTATATTTTTGAGGGTTCAGTCTTACGTTCGTACGCTTGAGATGATGGACAAAGAAATAAAACAAACAGAAAAACTAGCAGCTGTTGGAAAGATGGCAACGGTTATTGGTTATAAGATTAGAAGACCTTTAGCAAACTTAAAAAAACTTGTGAATAAACAAGCAGACAAGCATCCAGAGGATAAAATTTATAGTGATATTATGAAACAAGAAGTAGATCGGATTCATATAATTGCTACAGAACTTAGTGGATTTGAGAAATCTAAATCACTAGAATCAGAAACTCATAACATACAAGAAATTATCTCTTATGTTATTCGAGTTATGGAAAAGCCTGCTTTAAAACAAGGAGTCCACATACAAGGTATTTACAGTAAAGACTTACCATCAATTACATGTGATGAAAAACGATTAAAACAGGTCTTTTTTAATTTAATTAAAAATGCAATTGAAGCAATGTCAGTTGGCGGAACAATTACGATTAAAGTTACTGTAAAAGAAGGAATCATCGTTCAAGTGAAAGATGAGGGATGCGGCATTCCGAAAGATAAAATTCCAAAGTTAAACGAAGCCTTTTATACAACGAAAGAAACAGGAACTGGTCTAGGTTTAGTAGTTACAGAAAAAATTATTAAAGATCACAACGGTAAAATGAGTTTTGAAAGTGAAGTTGGGGTTGGAACGACGGTTGAGGTTATGTTACCACTGCATTAA	MNKGYIFKNEEIKALKVFLSLFFIIFFVYDLAYEFIVPLIAGEQEGVGKFEDGLGLWLYFLMVVLFCIGIYFMKWKNVFAVKYIILIGYNVLDCIHNIMIYYGSDAEFDGGNIVEVFFILFAPIFVNKRYFWLVPAILVGKYAFTGIIIQSSLVLIPMALYSVFTIICWIIFLRVQSYVRTLEMMDKEIKQTEKLAAVGKMATVIGYKIRRPLANLKKLVNKQADKHPEDKIYSDIMKQEVDRIHIIATELSGFEKSKSLESETHNIQEIISYVIRVMEKPALKQGVHIQGIYSKDLPSITCDEKRLKQVFFNLIKNAIEAMSVGGTITIKVTVKEGIIVQVKDEGCGIPKDKIPKLNEAFYTTKETGTGLGLVVTEKIIKDHNGKMSFESEVGVGTTVEVMLPLH				NA	NA	NA	NA	NA
AK009_02353	2586			hypothetical protein	TTGCAAAATCAAATAGGGAAATTTGGGCGTATACTTCTCGCTGGAGGAATATTATTTACACAAGTTGGTGTGCTAGACTACTCTGCAACGAAAGTTTATGCGGTTACAAATGACGAGCAAGGACGTTTTATCGTTCATATGGATAAACAAGAAATAAAAGTTGATGAAAATGTAGTATTAAAGATTACAAATACAAATAAACAAGATGCTAATATCGAGCTGAAATTATCTAATGAGCAGCTCTTTAATGAAGAAGAAACGAAAAAAATGAATGAAAATAATAAAGCGATTCAAAACATTTCAGTAACAGAAGATCACATTGTAAAAATTGAAAAGAATGAACAAAGTAATTTTATCGGTGACGTATATGTAGTCATTCAAATGAAAAAAGCTGGAGAGTACAAATTTGAACCGATAGTGAAGTTTGAAGGGAATGAAAAGAAAATTGAATCTCCTTCTCTACATGTTGTAGAGAAAAAAGAGGCTTTAAATGTAGCTATTTCTGATGAAAATCCAAAGGCTTCAGAGGAAGTTGTGAAAAAAGAAAAAAATGAAAAAGTAAAAGTATCGGAAGAAAATAAAAAACAAGAAATAAAGCCTACTAATGCTGAAGTTCCAAAAGAAACGAATACTTTAGAGAAAGAAAAGGTTAATGAAGAACTCGTATCAAAGGAAAATGAATTAAAAGAGAGCAATAAGGTAAACGAAAATAATCAGGAATTACCTGCTATTCAAGCTGAGAAGGTATTAAAGAGCCAATCTCTACTAGCTGCTAGTCCTGTTACAAGTATTCTTAGATATCCAAATGTAAAGGTAATAAATAATAGAACAGGTGAAGGGCCTTCTATCCCGGGTAAATATGCTTTTAGATTTGTTTGGAGCCCACAAGTAACATATGAGGTAAAGGGTAGTAGCAATGACAGAACTGGTCAAAGTCAATATACATTTAGAAATTCAAATAGAGAACAGTACGTATTAGTAAAAAAAGCTGGTGAATATCAAGGGAAATGGATTGATGTCCGTATTAATATTCACTCTATGACAGCTTCATCTGTAGATGTTAAAACACCAATAACTAAAGGTGATGCAAAAAACTTTTTACAATTATATGGGAACGGAAGGTCAGGACAAACTTATAATGCTTCCTTTGAATTTTATGAACACGGAACAAGTAAAAAAGTACCATTAACGGCAATGTGGAATTTCAAAAGGATAAATAGTTATAAAAATGTAACGTTACGTAATGATGGTAGTCATTTAACGAATTTATACGTGTATGATACGAGTTCAATTAGGTATCAAGACAAAGGGAATAATAAAATAGAGTTTTCTGGAACAGCAGGCCCAGTAGCTACTCCAGAAGCAGATATGACAATTACATTTGATAATTTAACAGAATTACCGCTAGAAGTTAGATTAAATGCTTCAGGTGTTAATGTATCATACGACCAATTAGCGATTGCACAAATTGAAATTCCAGCTCCAAGTGTAATAGGAGATATCGTGGAAGATAATTCCCGTCAACTTTCTTATAAGGTATATCAAAATATGCCTGCTCAATCGAAAGATATTCACTATGCGAAATCTTTTGTATTAGAAAGTGAAGTGAATAAGGATTTTACTGTGAATGATGTTTCCATTCAAGATGTGGAAAGTGGAGATGATGTAAGTAGCTTCTTTGATATTAGCAGGAAAAACAATAAGGTCACTGCGGTTGCGAAAGCAAATGCGCTAAAAACAGAAGAATTCAACGGGAAAATTTACGAGATGACAATTACAGGTTCTCCTGTAAAAGGTGCTGATGTAATGAAATATTATAAAGATGGTTATCTTGAAATACCGGTGTCAGCTAAAAACTATTTAGATGACGATAAGAATGGGCAAGATAGTAATCGAGATGGAATCGCAAAAATAAGGTATAAAGGTATTCCGACTGGGAAACCAGTCCCACAAAAAGTAGTGCAAGGAACAGATTTAACAAAAATGGATATTTCTAAATTTGTGACAGATTTATCTGTAGATACGAATTTGGATGTAGATAAACCAATATCAGTAATGAAGTTAATCAATATTCCGGATACAAAAACAATAGGGAATCATACTGTAACGGTTGTAATTGAAACGAAGCAAGGTGTACAAGCGGAGATTCAAGTACCGGTTACTGTCGTTGATGGGACTTTAAAGTTAGTAGACGTACCAAAAGAAATTACCTTTGGAGATGTAACAATTCCATCGAAAACAACGACATACACACCGAAGGCGATTTCAAATTCTTTAAAGGTAACCGATAATCGTGTTAAAAAGCAAAAATGGAGTGTATATGTAAAGGAAATTACACCATTAACTTCAGCGCAAAATGACACATTGACGGGAGCATTGATTTACAAACGAAATGGAAAGGATACACCTTTAAGTAATTCTAGTATAGAAGCATTCTCGTATACTTCTAAAAACGACGAGGAGGTTTCATTAAATTGGAAGGAAAACGAGGGAATTCATTTACAAGTAAAACCAGGGCCGAATGTCAAAGCAAATACAAAATATGCTGGACAGCTAGAATGGACATTAACCGATGCTCCTCTCTAA	MQNQIGKFGRILLAGGILFTQVGVLDYSATKVYAVTNDEQGRFIVHMDKQEIKVDENVVLKITNTNKQDANIELKLSNEQLFNEEETKKMNENNKAIQNISVTEDHIVKIEKNEQSNFIGDVYVVIQMKKAGEYKFEPIVKFEGNEKKIESPSLHVVEKKEALNVAISDENPKASEEVVKKEKNEKVKVSEENKKQEIKPTNAEVPKETNTLEKEKVNEELVSKENELKESNKVNENNQELPAIQAEKVLKSQSLLAASPVTSILRYPNVKVINNRTGEGPSIPGKYAFRFVWSPQVTYEVKGSSNDRTGQSQYTFRNSNREQYVLVKKAGEYQGKWIDVRINIHSMTASSVDVKTPITKGDAKNFLQLYGNGRSGQTYNASFEFYEHGTSKKVPLTAMWNFKRINSYKNVTLRNDGSHLTNLYVYDTSSIRYQDKGNNKIEFSGTAGPVATPEADMTITFDNLTELPLEVRLNASGVNVSYDQLAIAQIEIPAPSVIGDIVEDNSRQLSYKVYQNMPAQSKDIHYAKSFVLESEVNKDFTVNDVSIQDVESGDDVSSFFDISRKNNKVTAVAKANALKTEEFNGKIYEMTITGSPVKGADVMKYYKDGYLEIPVSAKNYLDDDKNGQDSNRDGIAKIRYKGIPTGKPVPQKVVQGTDLTKMDISKFVTDLSVDTNLDVDKPISVMKLINIPDTKTIGNHTVTVVIETKQGVQAEIQVPVTVVDGTLKLVDVPKEITFGDVTIPSKTTTYTPKAISNSLKVTDNRVKKQKWSVYVKEITPLTSAQNDTLTGALIYKRNGKDTPLSNSSIEAFSYTSKNDEEVSLNWKENEGIHLQVKPGPNVKANTKYAGQLEWTLTDAPL				NA	NA	NA	NA	NA
AK009_02354	318			hypothetical protein	ATGAAAAAAATAGTTGGTATTATCGTTTCCACAGTTATATGTGTGCCGTTTCTTATGGCAAATGTAGTAACGGCTACAAGTACGAATTCAAAAGCGGGTATTACATTTTCGAATAGCTATACACCAAATACATCAACTGATCCGACAAAGATAAATACAAAAAAAGAGACAGTTGATAAAAATAAAAATGGAGATAAATATTTACCGAAAACAGGAGGCCAGACACGGGACTTCAAACAATATATAGGATTGTTTTCGATTGTTTTATCTCTATATGTATTCAAAAGAATTAGGGGAAAGCAAGTGTATTCAAAATAA	MKKIVGIIVSTVICVPFLMANVVTATSTNSKAGITFSNSYTPNTSTDPTKINTKKETVDKNKNGDKYLPKTGGQTRDFKQYIGLFSIVLSLYVFKRIRGKQVYSK				NA	NA	NA	NA	NA
AK009_02355	729			hypothetical protein	ATGAAACTAGCAAAATTAGCATTAATCGGTGCAGTATCATTAACATCAGTTGCAGCAGTAGGAACTTCAGCATTTGCGGAAGAGAAAGCAAATATGAAATCAAAAACCGATGTAACGTTTATTGAAGATACAAGCACAACAGATCCAAACAATCCAGAAAATCCAAATGAAAAAGTTACACCAGAGAACCCTGGTGACCATGAAATAGGAACAAAAGGCCCATTAAGTATTAACTACGTTTCTAACTTACACTTCGGCGAGCAAGTTATCTCTGGTAATGATCAAACGTACTTTGCAAAATTGGATAAAGTGAAACAAGGGAGCAAAACAGTTGAAGTACCTAACTTCGTATCTGTAACAGATAACCGTGGTACAAATGCAGGATGGAAATTGAAAGTAAAGCAAAATGCACAATTTAAAAGTGGTAATAGTGAGTTAACAAATGCAGCTTTAAGCTTAAGTAACCCAGCTGTAAATTCTGTAACTGATGCACAATATGCACCTACAACATTTAAAAATAAAGTAACGCTAGCTCCAGGTGGAGATGCGGTGGAAATTACTACTGCCGCAAAGAATAAAGGTATGGGTGATTGGACGACTGCATTTGGTAAAGGAACAGAACAAGGTAAACAGAGTGTGAGCTTATTCGTACCAGGTACGACGGCGAAAGAAAAAGGTGCGAAATATTCAGCTGAGTTAACTTGGACTTTAGAAGATACACCAAACTAA	MKLAKLALIGAVSLTSVAAVGTSAFAEEKANMKSKTDVTFIEDTSTTDPNNPENPNEKVTPENPGDHEIGTKGPLSINYVSNLHFGEQVISGNDQTYFAKLDKVKQGSKTVEVPNFVSVTDNRGTNAGWKLKVKQNAQFKSGNSELTNAALSLSNPAVNSVTDAQYAPTTFKNKVTLAPGGDAVEITTAAKNKGMGDWTTAFGKGTEQGKQSVSLFVPGTTAKEKGAKYSAELTWTLEDTPN				NA	NA	NA	NA	NA
AK009_02356	726			hypothetical protein	ATGAAACTAGCAAAAATAGCATTAATTGGAGCGGTAACATTATCATCAGTATCAGTAGGGACGTCTGCATTTGCAGCTGAGAAAGATGGCGGGAAAGTAGACTCAAAAGCATTCATTAAATTCGAGAAAAATACAGATAAAATTGATGTTGTTAATCCAGAGAATCCAGATGAAACTGTAGATCCAGTTGATCCAGATAAAAAAGGTACAGATGGTCCACTAAGTATTGATTATGTATCTAACTTCAACTTTAAAACACAAAAAGCATCAGGGAATAACGAAATCTACTTTGCAGAATTAGATAAAGTAAAGAAAAAAGTAGACGGTTCTGTAATTGACGTGCCGAACTACGTTCAAGTAACAGATAATCGTGGTACAAATGCTGGATGGCATTTAACAGTAAAACAAAATGGTCAATTCAAAACTGCAGATGATAAAGCGTTGGATGGTGCGGCATTAACATTAAAAACTTCAGCTTTGAAATCAAATGCAGGTAGCGACGCACCAACAGCAGAACAATCTATCACATTAAATCCAAGTGGTGCAGCATCTGATTTAATCGATGCAAAAGAAAACCAAGGTATGGGTACATGGGTAAATACGTTTGGTAAAGATGCAACAGAAGCGAAACAAAGCGTAGAGTTATCTGTACCAGGTAAAACGAAAAAAGAACAAACACAATACACAACTTCACTAACTTGGGAACTAACAGACGCTCCTATGTAA	MKLAKIALIGAVTLSSVSVGTSAFAAEKDGGKVDSKAFIKFEKNTDKIDVVNPENPDETVDPVDPDKKGTDGPLSIDYVSNFNFKTQKASGNNEIYFAELDKVKKKVDGSVIDVPNYVQVTDNRGTNAGWHLTVKQNGQFKTADDKALDGAALTLKTSALKSNAGSDAPTAEQSITLNPSGAASDLIDAKENQGMGTWVNTFGKDATEAKQSVELSVPGKTKKEQTQYTTSLTWELTDAPM				NA	NA	NA	NA	NA
AK009_02357	1017			hypothetical protein	ATGGTAAAAAAACTATTTACTAGCTTACTATTAATTACATTCTTCATGGTAAACGCTTTTTCAGTATATGCGGCTGAAATGAAATTCGCTGTGACAGCAGTTATACCAGAAAATCAAATTGATAAAAATCAAACGTATTTTGATTTGAAAATGCAACCTGGACAAAAGCAAACAATTCAAGTCCAAATGAAAAATGATACGAATAAAGAAGTTGTGGTAGAATCGTTTGCTAATACAGCAATTACGAATAGCAATGGTATTACAGATTATAGTACAGTAGAACCAAAAACGGATTCTACTTTGAAATATCCGTTTTCTAAAATTGCTAAAATGCCAAAAGAAACGAAAGTCCCAGCTAACAGCATAGTGACAGTTGATATAAACTTGGAAATGCCAAGTGAGTCGTTTGATGGTGTTATTTTAGGTGGTTTATACTTTAAAGAAAAAGAAGATGAGAATGCAAAGAAAAAAGATGAAGGTGTGCAAATTGAAAATAAATATGCATACGCAATTGGCGTTGTTTTAAAAGAGACGGATGCTGAAGTAAAACCAGACATGAAATTAAACGAAGTAAAGCCAACACAAATTAACGGGCGTAACGTTGTTACTGCAAATTTACAAAACGTAAAGCCAGCAATGTTAAAAAATTTAAGTGTTGATGCAAAGGTATATAAAGAAAAAGGTACAGACGTTTTATTTGAAGCGAAAAAAGAAAATTTAAGAATGGCGCCAAACTCAAACTTTGATTACGCTATTAGCTGGGAAAACAAAGCGTTTGATCCAGGAATGTACCGAGTAGAAGTGAAAGCCACTGATGGCGATCAAAAGTGGGAATGGACGAAGAAATTTACAATTGAAGGAAAGACAGCCGATAAGTTAAATGATACAGCGGTAGAAGCGAAAAAAGACTACACGCTATATTACATTATCGGCGGAGTACTACTGGTAATTATATTATTAGTTCTTGTGTTCTTCTTAGGTAGACGTTCTAAAAAAGAGGACGATAACGAAAAATAA	MVKKLFTSLLLITFFMVNAFSVYAAEMKFAVTAVIPENQIDKNQTYFDLKMQPGQKQTIQVQMKNDTNKEVVVESFANTAITNSNGITDYSTVEPKTDSTLKYPFSKIAKMPKETKVPANSIVTVDINLEMPSESFDGVILGGLYFKEKEDENAKKKDEGVQIENKYAYAIGVVLKETDAEVKPDMKLNEVKPTQINGRNVVTANLQNVKPAMLKNLSVDAKVYKEKGTDVLFEAKKENLRMAPNSNFDYAISWENKAFDPGMYRVEVKATDGDQKWEWTKKFTIEGKTADKLNDTAVEAKKDYTLYYIIGGVLLVIILLVLVFFLGRRSKKEDDNEK				NA	NA	NA	NA	NA
AK009_02358	921			hypothetical protein	ATGCCAGCCTTAAAAAAAATAGAGCAATCACTCGATCACTTATTCCAAATTGAAAAATACGGAAAAGATAGCGCCTTTAGTCGATTTATCCCAGCCGTATATGATCCTATCAAATTTCCTTGGCAACAATTTTTCGAAGCAAATTTTGTAGATTTATTTAACGGCCTTATGATGCACGGATCTGAAAATGTAAACAAAGTATTTTTAGCTGTATTCCCTACAGATGACGTTCTTGAAACATTCATTTCACAATCCACACCTGGTGATTTACTCTTTATGCACCATCCCCTTGTAATGGAGTGCGGTGATCCAATTGGAAGATCAGGCCGCGGTTTCATACCAATTCCTGAAAAATATTTGCAAGGAATAAAAGAAAAACAACTTTCTATATATACATGTCACGTACCAATGGATTTTCATCAAACGCATGGAACGAGTATTTCAATTGCAAAAGCATTAAACGCTACTGTAGTGGACGACTTTGCATATGGAGGTCCAGAACAAGAACCAGTTGGCCTTATTTGTGAAATAGATGAAACATCAACAGAAGCACTCCAAAAACATCTAAAACAACTCTTCCAGATTCCTTACACAGACTTCGAAGGTAAACGACATGATTCCATCAAAAAAATCGCAATTATCGCTGGATGTGGCGATGTTGTATCTTTAATGAAGGAAGCAGAAGAAAAAGGTGCTGAAGCATATATTACAGGAGAAATCCATTGCCATATCGACAATGATTACGGCCGACATAAATACTCTCTCATTATGGATTATGTAAAAGAAACGAATATGTCTCTAATTGGGGTGTCACACTCTGCCTCTGAATATTTAGTGAAAGAGACATTGATGCATGATTGGTTTAAAGAGAATTTTGATGTGGATGTTATTTTGCTTCCGCAGGAGAAATGGTGGCTCTAA	MPALKKIEQSLDHLFQIEKYGKDSAFSRFIPAVYDPIKFPWQQFFEANFVDLFNGLMMHGSENVNKVFLAVFPTDDVLETFISQSTPGDLLFMHHPLVMECGDPIGRSGRGFIPIPEKYLQGIKEKQLSIYTCHVPMDFHQTHGTSISIAKALNATVVDDFAYGGPEQEPVGLICEIDETSTEALQKHLKQLFQIPYTDFEGKRHDSIKKIAIIAGCGDVVSLMKEAEEKGAEAYITGEIHCHIDNDYGRHKYSLIMDYVKETNMSLIGVSHSASEYLVKETLMHDWFKENFDVDVILLPQEKWWL				NA	NA	NA	NA	NA
AK009_02359	177			hypothetical protein	GTGTTCAAACTACAACGATATCCTATTTTATTAAGTCTATTTGGTAGTTTCTTCATTTCTAGCGAAATGCTATTACAGCATGTACTTCCCTATTCTCCTTCTATCGGCTGGATTCTAGGTTTTATTTGTTTCCTATCCGCTTCTTATTTCGCTACGAAGAATACAAACAACTCATAA	MFKLQRYPILLSLFGSFFISSEMLLQHVLPYSPSIGWILGFICFLSASYFATKNTNNS				NA	NA	NA	NA	NA
AK009_02360	324			hypothetical protein	ATGTACGTTACTGTAACAGAAGCAGCATATAAAAAGATTATGGATACGATTCCAAGTGAAGCGAAATATATAAAGTTATTTTACGATAATGAGGGTTGCGGTTGTGTCATGAGCGGAATCATCGATTTAGTAGCTGTAGCAGAGAAAGATGAGCGCGATGTGGATATTGAATCAAGCACAATGAATTTTATCGCTGATCGTACAAAGCTTGTATTTATGGACGATAAGTTAACGGTTGATTGGCATGAAAGTGGAGGAACTTTTCAGTTGAAGAGCCCAAGCCAGTTTTATAATCCAAATATGAAATTACACGTTCGAGTATAG	MYVTVTEAAYKKIMDTIPSEAKYIKLFYDNEGCGCVMSGIIDLVAVAEKDERDVDIESSTMNFIADRTKLVFMDDKLTVDWHESGGTFQLKSPSQFYNPNMKLHVRV				NA	NA	NA	NA	NA
AK009_02361	906			hypothetical protein	ATGAGAAGATGGGGAATTGAGTTATTAATTTTAAGTGTTGTTATTATTTGGGGGATTAACTATACGATTGCAAAGTATGGATTTTTAGAATTTACAGCAATTGAATTTACTGCACTTCGTATGATGGCGGCGGCACCGCTCCTGTTACTTCTTACTTTTTTTATTGAAAAGTCAGTTTATATGGAGCGAAAGGATATACCTAGATTAATCATCGTTAGCGTTGTAGGTATTGTACTGTATCAAACGTTATTTATGGAAACTGTCAAATATACATCCGCTACAAATGCCTCTTTACTCATTTCTATTTCACCTATTTTTACAACTGTATTTGCGATTTTTCTGAAACAAGAAAAGTTTTCTTCTCGAAAGCTCATAGGTTCTATCATTGCCTTTAGTGGTGCAGCATTAGTTTTAGTAGCAGGACATTCACTTGCTAGTTCTTTTTATGGCAATGGAATTGGACTTATTACATCAATATGCTGGGGGCTTTATCCTGTTTTAGCAGGACCATTAATTAAAAAATATTCAGCACTACGTGTTACCGCATGGTCAGCCTTAGTTGGCGCGATTCCGCTTTTATTGTTAAGTGGACCATATGTATTTATAATGCCATTTCACATTACACACGGAATGACACTATTCGCCTTACTATATTCCATTTTCTTTGTAACAGTATTCGGCTTAGTCATGTGGTATGTTGGTGTTCAAAAAATTGGGGCGTCACATACGATGGAATATATGTATATAACGCCGCTTGTAGCTGTTTTATTTGCAGCTATCTGGGCAAATGAATATGTATCGTTTCAACAAATCATCGGTGGAATTATTATTTTTTTCGGTCTATGGTTTGTGAAATCAGAGAAAGTAAAAGTTCATTCTACTGCGGGGGAACCTATATCAAAATAG	MRRWGIELLILSVVIIWGINYTIAKYGFLEFTAIEFTALRMMAAAPLLLLLTFFIEKSVYMERKDIPRLIIVSVVGIVLYQTLFMETVKYTSATNASLLISISPIFTTVFAIFLKQEKFSSRKLIGSIIAFSGAALVLVAGHSLASSFYGNGIGLITSICWGLYPVLAGPLIKKYSALRVTAWSALVGAIPLLLLSGPYVFIMPFHITHGMTLFALLYSIFFVTVFGLVMWYVGVQKIGASHTMEYMYITPLVAVLFAAIWANEYVSFQQIIGGIIIFFGLWFVKSEKVKVHSTAGEPISK				NA	NA	NA	NA	NA
AK009_02362	222			hypothetical protein	ATGATTTATTTTTTAATGGCTCTCATTCACCTCATTATCCCTGCACTTATCGGACTTTCATTGTATTGGTACACGAAAAATCATAGCATTTTTTACGCTGTCCTCGGTGTTCTTCTTCCAGGTATTATTCTTATTACACTCTTCCGTATTCCATTTTTAAACTTAATTCCACTTATTACTGCTATCTTATTTCTCATCTTCTTACCAAAAATAAAAAAATAG	MIYFLMALIHLIIPALIGLSLYWYTKNHSIFYAVLGVLLPGIILITLFRIPFLNLIPLITAILFLIFLPKIKK				NA	NA	NA	NA	NA
AK009_02363	384			hypothetical protein	ATGATTAGTATGTCACTAAGATCATTTAAAATCCAATCGTATTATATACTAGGTATTTTGTTACTAGGTTGGATGTTAACACCGTTTTCAGCACACTTTTTAGGCGCTGGAATTGGGCTTATTGTAAGTATGTATTGCGTTTGGCTTTTAGGGAGAAGAATTGAGAAGCTTGGAGATAGTATTGTAAAGAAGACGAAAGCACCGACACTCGGTATGTTTAACCGTTTTGCAGCTGCCATTTTGGGTGCTATTATTATGTACGAAATTGAGCACCACATGGTTATGTGGGCATTTGCAGTAGGGATTATGGGTGGTTATTTCTTAATTGTTGTTAATTTAGGATACTATAGCATGAAAGATGAGAAAGAATTAACGAAGAGCTAA	MISMSLRSFKIQSYYILGILLLGWMLTPFSAHFLGAGIGLIVSMYCVWLLGRRIEKLGDSIVKKTKAPTLGMFNRFAAAILGAIIMYEIEHHMVMWAFAVGIMGGYFLIVVNLGYYSMKDEKELTKS	PGPT0030480_1181	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK009_02364	198			hypothetical protein	ATGAAAAATTTTTCTCGTGCAGGAAAAATTTTATTCATTTACGGAGCGTTCCAAATATTTTGGGGACTTGTAATGCTTAACGTTAATTTATTTGAGCATACAAGTGAAACGATAAAATATATTATTCTAATTACCGGAATAATTTGTTGTATTATATCCAAATTTTTTAAAGAACATAAAAGTCCTACTAATACGTGA	MKNFSRAGKILFIYGAFQIFWGLVMLNVNLFEHTSETIKYIILITGIICCIISKFFKEHKSPTNT				NA	NA	NA	NA	NA
AK009_02365	1587	pckA		Phosphoenolpyruvate carboxykinase (ATP)	ATGAGTACTGTGAATGTCCAAATTGGTTTACACGAATTATTGAACGGAAGCAATGCACAGATTCAACTAAGTGTTCCGCAATTAGTGGAAAAAGTATTAATGCGAAATGAAGGGAAATTAACTTCTACTGGTGCCGTTTCTACTTCAACAGGAAAATATACAGGACGTTCTCCTAAAGATAAATTTATTGTGAAAGAAGCATCGGTTGCTGACAAAATTGCTTGGGGAGCTGTGAACCAACCGATTTCTGAAGAACATTTTAATAAATTATATACTAAAGTTTTAGAATACTTAAAAGAAAAAGAAGAGTTATTCGTCTTCAAAGGATTTGCAGGCGCTGACCGCAATTACCGCCTACCAATTCAAGTTATTAATGAATATGCATGGCACAATTTATTTGTACATCAATTATTCATTCGTCCAACTGAAGAAGAATTAACAACTCATGAGTCAGGGTTCACAATTGTTTCTGCACCGAATTTCAAAGCTGATCCAGCTGTTGACGGTACAAACTCTGAAGCATTCATTATGGTTTCATTCGAAAAACGTATTGTACTAATTGGTGGTACAGAATACGCTGGAGAAATGAAAAAATCAATCTTCTCTATTATGAACTTCTTACTACCTGAACAAGATATTCTTTCTATGCATTGCTCTGCAAACGTAGGTGAAGAAGGTGACGTAGCACTATTCTTCGGTTTATCTGGAACAGGTAAAACAACTTTATCTGCTGATCCAAACCGTAAATTAATCGGTGATGATGAGCACGGTTGGTCTGATAACGGTGTATTCAATATTGAAGGCGGTTGCTATGCAAAATGTGTAAACCTTTCTCACGAGAAAGAACCACAAATTTTCGATGCAATCAAATTCGGATCCGTTTTAGAAAACGTTATCATTAATAACCAAACGCGTATCGCAGACTACAACGATACTACTTTAACAGAAAATACTCGTGCTGCATACCCTATGCATGCGATCGACAATATCGTACTGCCAAGTGTTGCTGGACACCCAAATACTATTATTTTCTTAACTGCTGATGCATCTGGCGTATTGCCTCCAATCAGTAAGTTATCAAAAGAGCAAGCTATGTATCATTTCTTAAGTGGTTACACTAGTAAACTAGCAGGAACAGAGCGCGGCGTTACATCTCCGCAAGCTACATTCTCAACTTGCTTCGGTTCACCATTCTTACCACTTGATGCATCTCGCTACGCTGAAATGCTTGGTGAAAAAATCGAGAAACACGATGCGAAAGTATTCCTAGTAAACACTGGCTGGACTGGCGGCGAATACGGCGTTGGTAAACGTATGAACTTAGGTTATACTCGTGCAATGATTCAAGCAGCATTAAGCGGTGAACTTGCAAAAACTGAAACAGCTAAACATGACATCTTCGGTCTTGAAGTTCCACTTCACGTACCAGGTGTACCTGACGAAGTGTTAATGCCTGAACAAACTTGGGCTGATAAAGCTGCTTACAAAGCAAAAGCAATCGAGCTTGCAAATGAATTCAAAGAGAACTTCAAAAAGTTCGAAAGCGTTTCTGAAGATATTATTAACTTAGGCGGCCCAATCGCTTAA	MSTVNVQIGLHELLNGSNAQIQLSVPQLVEKVLMRNEGKLTSTGAVSTSTGKYTGRSPKDKFIVKEASVADKIAWGAVNQPISEEHFNKLYTKVLEYLKEKEELFVFKGFAGADRNYRLPIQVINEYAWHNLFVHQLFIRPTEEELTTHESGFTIVSAPNFKADPAVDGTNSEAFIMVSFEKRIVLIGGTEYAGEMKKSIFSIMNFLLPEQDILSMHCSANVGEEGDVALFFGLSGTGKTTLSADPNRKLIGDDEHGWSDNGVFNIEGGCYAKCVNLSHEKEPQIFDAIKFGSVLENVIINNQTRIADYNDTTLTENTRAAYPMHAIDNIVLPSVAGHPNTIIFLTADASGVLPPISKLSKEQAMYHFLSGYTSKLAGTERGVTSPQATFSTCFGSPFLPLDASRYAEMLGEKIEKHDAKVFLVNTGWTGGEYGVGKRMNLGYTRAMIQAALSGELAKTETAKHDIFGLEVPLHVPGVPDEVLMPEQTWADKAAYKAKAIELANEFKENFKKFESVSEDIINLGGPIA	PGPT0001405_2145	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
AK009_02367	1200	metK		S-adenosylmethionine synthase	ATGACAAAAAAACGTCATCTGTTCACATCTGAGTCTGTAACTGAAGGACATCCAGATAAAATTTGTGACCAAATTTCTGATTCAATTTTAGATGCGATCTTATCAAAAGACGCAAATGCACGTGTAGCTTGTGAAACAACTGTAACAACTGGTTTAGTATTGGTAGCGGGGGAAATTACGACTTCTACTTACGTAGATATTCCGAAAATCGTTCGTGAAACAATTCAAGGCATTGGTTACACACGCGCAAAATACGGATTCGATGCAGAAACTTGTGCTGTTTTAACATCTATCGATGAGCAGTCTGCTGACATCGCTATGGGTGTTGACCAAGCGCTAGAAGCACGCGAAGGTCAAATGACTGACGCTGAGATTGAGGCAATTGGTGCAGGAGACCAAGGTTTAATGTTTGGTTTTGCATGTAATGAAACACAAGAATTAATGCCACTTCCAATCTCGCTTGCTCACAAATTAGCTCGCCGTTTAACTGAAGTACGTAAAGATGATACATTATCATACTTACGTCCAGATGGAAAAACGCAAGTTACAGTTGAGTATGATGAAAATGGTAAACCAGTACGTGTTGATACTATCGTAATTTCTACACAACATCACCCAGATGTTACATGGGAAGAAATCGATCGCGACTTAAAAGAGCACGTAATTAAAGCTGTAGTACCAGCAGAATTAATGGATGGAGAAACGAAATTCTTCATTAATCCAACTGGCCGCTTCGTAATTGGTGGACCACAAGGTGATGCTGGCTTAACAGGACGTAAAATCATCGTTGATACTTACGGTGGATACGCTCGCCACGGTGGCGGTGCATTCTCTGGTAAAGATGCAACAAAAGTTGACCGTTCTGCAGCATATGCAGCTCGTTATGTTGCGAAAAACATCGTAGCAGCTGGTCTTGCTGACAAAGCAGAAGTACAACTTGCATACGCAATCGGTGTAGCACAACCAGTATCAATTTCAGTTGATACATTCGGCACAGGTAAAGTATCTGAAGACGTACTAGTAGAACTAGTTCGTAACAACTTCGATCTTCGCCCAGCTGGTATTATTAAAATGCTAGACTTACGTCGCCCAATTTACAAACAAACAGCAGCTTACGGCCACTTCGGACGTACTGATGTAGATCTTTCATGGGAACGTACAGACAAAGCTGCAGCTTTAAAAGAGCAAGCTGGTCTATAA	MTKKRHLFTSESVTEGHPDKICDQISDSILDAILSKDANARVACETTVTTGLVLVAGEITTSTYVDIPKIVRETIQGIGYTRAKYGFDAETCAVLTSIDEQSADIAMGVDQALEAREGQMTDAEIEAIGAGDQGLMFGFACNETQELMPLPISLAHKLARRLTEVRKDDTLSYLRPDGKTQVTVEYDENGKPVRVDTIVISTQHHPDVTWEEIDRDLKEHVIKAVVPAELMDGETKFFINPTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDATKVDRSAAYAARYVAKNIVAAGLADKAEVQLAYAIGVAQPVSISVDTFGTGKVSEDVLVELVRNNFDLRPAGIIKMLDLRRPIYKQTAAYGHFGRTDVDLSWERTDKAAALKEQAGL	PGPT0020000_2316	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
AK009_02368	105			hypothetical protein	ATGCCATTTCCAGCAAGTGGCATGACTAATATGAAAAAGTATATTGAGCTAGATGGAGAAGTATATTGTAGTTCATGTATTCAAATTGTAAGTAAAACGAAATAA	MPFPASGMTNMKKYIELDGEVYCSSCIQIVSKTK				NA	NA	NA	NA	NA
AK009_02369	180			hypothetical protein	ATGGAACTATATAAAAAATTAACAACAACATTTATCCTCTTATTCATCGCTTCAATCACTGTCGGCTTTTCCTTAAAAGGCGCAATTCCATACGCTACATTAGTAAGCATTATATTCGCGACACTATTTTTACTAAGCAGTGCCTTTTGCGCAGGTAAAGCACGTCAAATGAACGGTTGA	MELYKKLTTTFILLFIASITVGFSLKGAIPYATLVSIIFATLFLLSSAFCAGKARQMNG				NA	NA	NA	NA	NA
AK009_02370	510	moaB	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAGTGTAACTGAACATAAAAAACAAGCCCCAAAAGAAGTGCGTTGCAAGATTGTTACGATTTCCGATACACGTACGGAGGAAACGGATAAGAGCGGACAACTATTACATGAATTGTTAAAAGAAGCGGGCCATACAGTAACCTCTTATGAAATTGTAAAAGATGATAAAGAAAGTATTCAGCAAGCAGTGTTAGCTGGTTATCATAAGGAAGATGTAGATGTTGTATTAACAAATGGCGGTACTGGTATTACGAAGCGTGATGTAACAATTGAAGCAGTGTCAGCTCTATTAGATAAAGAGATTGTCGGGTTTGGTGAGTTGTTCCGCATGATTAGTTATTTAGAAGATATCGGAAGCAGCGCAATGTTAAGTAGAGCGATTGGGGGTACAATTGGGCGCAAAGTAGTTTTCTCGATGCCAGGATCGAGCGGGGCGGTTCGCCTTGCGATGAATAAATTAATTTTACCGGAATTAGGCCATATTACATTTGAGCTACATCGCCAATGA	MSVTEHKKQAPKEVRCKIVTISDTRTEETDKSGQLLHELLKEAGHTVTSYEIVKDDKESIQQAVLAGYHKEDVDVVLTNGGTGITKRDVTIEAVSALLDKEIVGFGELFRMISYLEDIGSSAMLSRAIGGTIGRKVVFSMPGSSGAVRLAMNKLILPELGHITFELHRQ	PGPT0008420_1612	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
AK009_02371	603	mobA		putative molybdenum cofactor guanylyltransferase	ATGAGTAGGTGGGCTGGAATTGTATTAGCGGGCGGTATGTCGAGTAGATTTGGTGAGCCGAAAGCGTTAGCGAGCTGGCAAGGTAGTACTTTTATTGAGCATATTTTGAAAGAGATGACAAGTGCGCTCCAAGAAGTTGTAGTCATTAGTCATTCTGATATAAAAGAGCGAGTAGAGCAATTCGTACAAGTTCCTGTTATAGAAGATATCCCGCACTATAAAGGGAATGGACCGCTGGCCGGTATTGTATCAGGAATGGAATACATAGAAGCAGATTGGTATGCTATTATGCCTTGCGATGCGCCAAATGTTTCGCATGAATGGTTTACCATTTTACTGGAGCAAACGAGCAATGAATATGATGCAGTTGTACCTATTATTAATGGAAGAAAACAGCCGCTACTTGCAGCGTATCATAACCGCGTGAAAGAAAAGATTTATGCTTTACTTCAGGAAGAGAAAAGAAGTATGGGGCAGCTTTTATCACAATGTAATGTGAAGTATGTTGCTGGAGAAGATGTACAAGCGAATACAGATTGGTTTATAAATGTAAATACAAAAGAAGAATATGTGCAGGCTCAAAAAGACCTTTCAAATGAATGA	MSRWAGIVLAGGMSSRFGEPKALASWQGSTFIEHILKEMTSALQEVVVISHSDIKERVEQFVQVPVIEDIPHYKGNGPLAGIVSGMEYIEADWYAIMPCDAPNVSHEWFTILLEQTSNEYDAVVPIINGRKQPLLAAYHNRVKEKIYALLQEEKRSMGQLLSQCNVKYVAGEDVQANTDWFINVNTKEEYVQAQKDLSNE				NA	NA	NA	NA	NA
AK009_02372	1143	mgtA	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGAGAGTCGCCATTTTTACCGATACTTTTACGCCACAAGTTAACGGGGTTGCGAAAACGTTAGAACGATTAACAAGTTACTTTCAGAAAGAACAGATCGCCTATTCTGTTTTCGCCCCTCAGCATACAGCTGAAGATAATTTCGTAGCTAATGTGAACAAGATGAGAAGTATCCCGTTAACAATATTATATCCAGAATGTCGCTTTTCTTTTCCTACTCCGCGTATTAAACGGGAACTTCATTCCTTTAAACCTGACATTATTCACATTGCCACACCTTTCAACATGGGACTTTGTGGACTGTATTACGCCAAAAAGTTAAACATCCCAGTTGTCGGTTCTTATCATACTGATTTCGATGCGTATTTACGCTATTACAAAATTGAATTTCTCTCCAATATGCTTTGGAACTATTTAAAATGGTTTCATAGTCATATGCAAAAAAATTTTGTTCCCTCCTCTGAAACATTACATCAATTAAAAAATAAAGGCTTTCAGGCCCTCTCCATTTGGGGACGTGGTGTAGATTGCACACTCTTTCATCCAGCTTACAATACAGACCTATTCCGAAAAAAATATAATATTACAGCTAAGTACGTTCTTTCCTATGTAGGACGAATTGCTCCTGAAAAAGATATTGATACGTTGCAAAACCTTATCGTTAAAACATCGCATACTCGAAACGACATTCATTGGCTCATCGCAGGAGACGGACCTCTAGCAACAAATTTGCGTGAAGCTGTTCCACAAACAAATGTCACTTTTACTGGCTATTTACAAAGTGCAGATTTAGCTGAAGCATATGCTTGTTCTAACATAATGGTATTTCCATCAGCTACTGAAACATTCGGAAATGTCGTACTTGAATCACTCGCATGTGGCACACCTGTCATTGGTGCAAATAGTGGCGGGGTTAAAAATATTATTACAGATGGAAAAACGGGAATTCTTTGTCCCCCTAAAAATGAGGATGCATTTCTATCATCCATTTATTCTTTATTGCAAAATGAAGAAAAACTTGAGCAGATGGGAATAGCAGCTTCATCTTTTGCAAAATCAAAAAGCTGGGATGAGATCTTTCGCGGCTTACTTAACCAGTATGAAGAAGTCCTTCAGCATACCGCATCAGAGTTACTTGCTTGA	MRVAIFTDTFTPQVNGVAKTLERLTSYFQKEQIAYSVFAPQHTAEDNFVANVNKMRSIPLTILYPECRFSFPTPRIKRELHSFKPDIIHIATPFNMGLCGLYYAKKLNIPVVGSYHTDFDAYLRYYKIEFLSNMLWNYLKWFHSHMQKNFVPSSETLHQLKNKGFQALSIWGRGVDCTLFHPAYNTDLFRKKYNITAKYVLSYVGRIAPEKDIDTLQNLIVKTSHTRNDIHWLIAGDGPLATNLREAVPQTNVTFTGYLQSADLAEAYACSNIMVFPSATETFGNVVLESLACGTPVIGANSGGVKNIITDGKTGILCPPKNEDAFLSSIYSLLQNEEKLEQMGIAASSFAKSKSWDEIFRGLLNQYEEVLQHTASELLA	PGPT0017895_257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_MANNOSE_METABOLISM|DEGRADATION,PGPT0017895-mgtA-K12583	NA	NA
AK009_02373	534			hypothetical protein	ATGAAGGTCAGTGGATTATATAAAATAGAATGTTACATTTTTAAAGGAATTAATCGCTACTTTGATCAAAAAACATTAAACATCTTTTTCAGCAATATTACCCATATCGGTGGTGCTACTTTCTCCATTGCACTTACACTTTTCTTTTTAATTTTTGCAAAAGGGACTTTACACCAAGCAGCAATCGCTACTGCTATTTCTTTAGCAATTAGCCATATTCCTGTACAAATATTAAAAAGGTGGTATCCACGAAAACGTCCTTATTTAACAATTCAGGATGCGAAATATCCAGTCCATCCATTAAAAGACCACTCTTTCCCGTCTGGTCATACAACAGCCGTTTTCTCTGTCTTCATTCCATTTATTTGCTATAATCCAAGCTTACTTGCTTTCCTATTACCGTTAGCATTATGCGTCGGTATTTCACGTATTTATTTAGGACTTCACTATCCGTCAGATGTGTTCGTCGGCATGTGCCTTGGCACTTGCTCTGGCATCATCTCTTTTTATCAATTCATCCCACTTTTCACATAA	MKVSGLYKIECYIFKGINRYFDQKTLNIFFSNITHIGGATFSIALTLFFLIFAKGTLHQAAIATAISLAISHIPVQILKRWYPRKRPYLTIQDAKYPVHPLKDHSFPSGHTTAVFSVFIPFICYNPSLLAFLLPLALCVGISRIYLGLHYPSDVFVGMCLGTCSGIISFYQFIPLFT	PGPT0024170_2216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
AK009_02374	513	yrdA_1	COG0663	Protein YrdA	ATGATATATCCTTACAAAGAAAAAAATCCGAAAATTGCGAGTAGTGCTTTTATCGCTGACTATGTTACGATTACAGGCGATGTTTCCGTTGGCGAGGAATCAAGTATTTGGTTTAATACAGTCATCCGTGGTGATGTGTCAGCAACAATCATTGGAGACCGAGTAAATGTACAAGACCAATGTACACTCCACCAAAGCCCTCAGTATCCTCTTATTTTAGAAGATGATGTTACAGTTGGGCATCAAGTTATTTTACATAGCTGTCATATTAAAAAGGATGCTTTAATTGGAATGGGATCCATTATATTAGATGGTGCTGAAATTGGCGAAGGAGCTTTTATCGGTGCCGGAAGCCTCGTTTCACAAGGAAAGAAAATTCCACCAAACACGTTAGCTTTCGGTCGTCCCGCGAAAGTCATTCGTGAATTAACAGAAGAAGACCGTAAAGATATGGAGCGTATTCGTACGCAATACGTTGAAAAAGGTCAATATTATAAATCATTACAGAAGTAA	MIYPYKEKNPKIASSAFIADYVTITGDVSVGEESSIWFNTVIRGDVSATIIGDRVNVQDQCTLHQSPQYPLILEDDVTVGHQVILHSCHIKKDALIGMGSIILDGAEIGEGAFIGAGSLVSQGKKIPPNTLAFGRPAKVIRELTEEDRKDMERIRTQYVEKGQYYKSLQK	PGPT0002425_594	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
AK009_02375	804	ytpA	COG2267	Phospholipase YtpA	ATGTGGAATTATGAAGCAGAGGAAGCGAAAGCTGTCATTGTTATCGTGCACGGCGCAATGGAATATCACGGACGTTACGAAGCCGTTGCGGAAATGTGGAATCATCTCGGCTACCACGTCGTGATGGGGGACCTTCCGTCACATGGAACGACTTCAAGAAATAGAGGACATATTGATTCGTTTGATGAATACATAGAGGAAGTTAAATTATGGGTGAAAGAAGCAAGAAAGTATAGGTTACCTATTTTTCTATTCGGTCATAGTATGGGTGGTCTTATTGTCATTCGTATGATGCAAGAAACGAAGAGAGAAGATGTAGATGGTATTATTTTGAGTTCGCCTTGTTTAGGGGTAGTGACTGGGCCCTCTGCTCCGCTTCAATTTGCTGCAAAAATATTAAATGTTGTGGCTCCAAAATTGCAATTTGCAACGAATCTTACGGTGGAAATGTCAACAAGGAATCATGAAGTGAGAGATGCAATGGAGAATGATTCATTGTTCTTGCGCAAAGTATCAGTACGTTGGTATAGTGAATTGATTAAGTCTATCGAAATTGCTCATAAAAAAATAGACGATTTTCCAGACGTTCCGCTCTTGCTAATGCAAGCATGTGAGGATAAACTTGTAGATAAAACACGTGTCCGCATGTGGTTTGATAATGTTAAAATAGGTGATAAGGCATATAAAGAATGGCCGAATTGTTATCATGAGTTATTAAATGAGTATGAGCGTGATGAAATTTTGAATTATATTCAGTCATTTACTGAAATGCATGTCAATAATATAGTAAAAACAAACAAATAA	MWNYEAEEAKAVIVIVHGAMEYHGRYEAVAEMWNHLGYHVVMGDLPSHGTTSRNRGHIDSFDEYIEEVKLWVKEARKYRLPIFLFGHSMGGLIVIRMMQETKREDVDGIILSSPCLGVVTGPSAPLQFAAKILNVVAPKLQFATNLTVEMSTRNHEVRDAMENDSLFLRKVSVRWYSELIKSIEIAHKKIDDFPDVPLLLMQACEDKLVDKTRVRMWFDNVKIGDKAYKEWPNCYHELLNEYERDEILNYIQSFTEMHVNNIVKTNK	PGPT0023520_1216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
AK009_02376	1065	ytpB		Tetraprenyl-beta-curcumene synthase	GTGAACGTACCGAGTAATCCCATAACGCTCATGGCGAAAGTATACCGTGATGTGTTTCCGGTTGTACACCATGAGCTAGCGATGTGGAAAGAGCGTGCCTACCATATTCCGAATGATGAGCTTCATAGTCAGGCAATCGCAAGTATTGAGCATAAAACGTTTCATTGTGAGGGTGGTGGCATTTTATCGCTGCTAGCAAATGAACACCGAGAGGAATGTATTCGTTTTATCGTAGCGTATCAAACAATCAGTGACTATTTAGATAATTTATGTGATCGCAGTACATCACTTGATCCGAATGATTTTGCCGCTCTACATGAATCAATGTTAATGGCACTATCACCTGAAGTGGAAGGTGGCGGTAATTATTATCGTTATCGTGATGATCAAGATGATGGTGGTTATTTAGATGAACTTGTTGAAACGTGCCAAGATGTTTTAAAGAAAACGAAGCACTATGAAAAAATTGCTCCTGTTCTGCATGAACTTGCTTGTTATTATTGTGATTTGCAAATTCATAAACACGTGAAGTTAGAAGAAAGAGAGCCGCGCCTGAAAACTTGGTTTGAAGCACATAAAGAAAACTTACCTGAGATGAGTTGGTTTGAGTTTTCAGCATGTGCCGGTTCTACACTTGGAATTTTCTGTCTTGTAGCATATGCATTTCATGATGAATTACATGATGAAGATATTGCGAAAATTAGACAAGGGTACTTCCCTTACGTACAAGGACTTCATATCTTACTTGATTATTTCATCGATCAAGAAGAAGACCGTATAGGCGGGGATTTGAATTTCTGTAGTTATTATGAAAACGAGCAAGCTATATTAGATCGTATGAAACACTTTGTAGAAGAAGCAGAGAAGAGCATTGGTGATTTACCTCATGCGAAGTTTCATCGTCTCATAAGCCGAGGATTACTTGGTATTTATTTATCAGATCAAAAAGTATCAGCACAAAAGAATATGCACAAAATGGCACGGCGCATTGTAAAATACGGAGGCCTCACTTCACGATTCTTCTATTGGAACGGGAAGATGTACCGAAAGAAAATGGCGCAGTGA	MNVPSNPITLMAKVYRDVFPVVHHELAMWKERAYHIPNDELHSQAIASIEHKTFHCEGGGILSLLANEHREECIRFIVAYQTISDYLDNLCDRSTSLDPNDFAALHESMLMALSPEVEGGGNYYRYRDDQDDGGYLDELVETCQDVLKKTKHYEKIAPVLHELACYYCDLQIHKHVKLEEREPRLKTWFEAHKENLPEMSWFEFSACAGSTLGIFCLVAYAFHDELHDEDIAKIRQGYFPYVQGLHILLDYFIDQEEDRIGGDLNFCSYYENEQAILDRMKHFVEEAEKSIGDLPHAKFHRLISRGLLGIYLSDQKVSAQKNMHKMARRIVKYGGLTSRFFYWNGKMYRKKMAQ				NA	NA	NA	NA	NA
AK009_02377	1302			hypothetical protein	ATGAAAGTAAATCGTTCGCTTCATTACATTTTTTGGCGTTGGCATTTTTATGCAGGGCTTTTTATTACACCGCTTCTTATTACTTTGTCACTGAGCGGAATTGGGTATTTATTTCGGGAGGAAGTTGAAGATTTCATCTATAAAGATTTATATTTTGGAAAGAGCGCTCAAACAGAATCTATTTCGATGGCTGATTCTATTTCCTTAACAGAGAAAAAATATCCACATTATAGCGTGGCGAAAATTAGTGAGTTTAATGGGGATTATAATGCGAGACTTACGATTGCAAATGAGTATACTGGGCAACAAAAATATGTGTATTTAGATAGTAATAATCAAATTGTTGGGGATCAAAACGCAAGTGAAACGTTTGCCAATATCATGCGGGAATTACATAGTTCTCTTTTAGTTGGTGGCACTGTCGTCAACTATACTGTAGAACTTGCGGCATGCTGGACAATCTTTTTAATTGTAACCGGATTGTACATGAGTATACGCCAATTCAAAAACACACCATCATCCAATAAGCGAGAAAAGGCAAAAAGACGTCATTCTATTATCGGTATTATATTTACAATTCCTCTCTTTCTGCTAATCGCATCTGGATTGCCATGGTCAGAATTTATGGGGAACCAAATTTATAAAATTGCATCTTCTAATGAATCACTCGGATATCCAAAATTGTACATGGCACCGCCTGAATCAAAGGTAAAAGAATTGCCGTGGGCAACAAGAAAAGAAGCTCCTCCTGAATCGAATTCAAATGAACCGAAAGCAATTTCTGTCGATGAATTACAAAAAGGAATTGAAATAAAGAAGCCATATGTTATTTCACTACCAGCTGATCCGAAAGGTGTATTCACTGTTTCGAAATCGAGCGGTTCTGGTATTACAGGTATGCATGTTGCACCAAGTGAAGAGATAACAGCTTACTTTGATCAATATAGCGGGGAACTCATTTCAAAAACGGACTATCGTGATTATGGATTACTTGCACAATGGTTCACTTACGGCATCCCACTTCACGAAGGACATTTATTCGGATGGCCAAATAAAATATTATGCTTACTAACGACATTATCTCTATTACTTCTTATTTATTACGGAGTAAAAATGTGGTTAGCAAGAAAGCCAAAAGGAAAATTAGCAGCACCTCCAAAGCAAAGAGATAAGAAAAGCGTACTCGTTTTCTTTATCATGATGATTATACTAGGCGCTGTCATGCCTTTATTCGGACTATCTGTTTTAGTTATTTTTGCGATTGAACTTCTCATATATGTATTTTCAAAAATACGATCATAA	MKVNRSLHYIFWRWHFYAGLFITPLLITLSLSGIGYLFREEVEDFIYKDLYFGKSAQTESISMADSISLTEKKYPHYSVAKISEFNGDYNARLTIANEYTGQQKYVYLDSNNQIVGDQNASETFANIMRELHSSLLVGGTVVNYTVELAACWTIFLIVTGLYMSIRQFKNTPSSNKREKAKRRHSIIGIIFTIPLFLLIASGLPWSEFMGNQIYKIASSNESLGYPKLYMAPPESKVKELPWATRKEAPPESNSNEPKAISVDELQKGIEIKKPYVISLPADPKGVFTVSKSSGSGITGMHVAPSEEITAYFDQYSGELISKTDYRDYGLLAQWFTYGIPLHEGHLFGWPNKILCLLTTLSLLLLIYYGVKMWLARKPKGKLAAPPKQRDKKSVLVFFIMMIILGAVMPLFGLSVLVIFAIELLIYVFSKIRS	PGPT0002795_2585	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
AK009_02378	675	racX	COG1794	Broad specificity amino-acid racemase RacX	ATGATCGGAATACTAGCAGGAATGGGTCCAAAATCAACTGGACCATTCGTCGATACAGTTGTAGCAAGGTGCCAAACAATATACGGAGCAAAGCATGATATGGACTTTCCTCATATGATGATCTACTCGTGTCCAACACCGTTTTACATGGATCGCCCTATTGATCACGGAGCGATGAAAAAAGCGATTATTGACGGAGCACAAAAACTTGAAAGTACTGGCGTAAGCTTTATTGCCATGCCGTGTAATACGGCGCATCTTTATTTTGAAGAATTACAGCGTTCGCTTTCTATCCCGATTTTAAATATAGTCGATGAAACGTTACAAGCAATTCCTGAAAATACAAAAAGAGTCGCTCTTCTCGCAACAGAAGCAACTGTTCAAGCTAGGATTTACCAAGATGGGATTGCAAAGCGTAATATAGAATACATTCATCATGAAAAATGGCAGGAAAGCATTAATCAAATTATTACTTGCATTAAATCTGGAGAGATTGAAGAAGCTCGCGAATTGTGGAATACGCTCGTTTTACAACTGAGAGATGAAATAGATACTGCAATTATCGCATGCACTGATTTGAATGTAGTGGCTAGTGAGGATTTTATTGATTCCTCTCAATGTCTTGCTGATGCTGTTGTTGAAATGTATTTATCAAATAAGAAGAAACATTTATAA	MIGILAGMGPKSTGPFVDTVVARCQTIYGAKHDMDFPHMMIYSCPTPFYMDRPIDHGAMKKAIIDGAQKLESTGVSFIAMPCNTAHLYFEELQRSLSIPILNIVDETLQAIPENTKRVALLATEATVQARIYQDGIAKRNIEYIHHEKWQESINQIITCIKSGEIEEARELWNTLVLQLRDEIDTAIIACTDLNVVASEDFIDSSQCLADAVVEMYLSNKKKHL				NA	NA	NA	NA	NA
AK009_02379	573			hypothetical protein	ATGAAATTAGAACGTGTATTACCGTTTGCTCGCTCGCTTCTGCAAACGGCAGTAAAAGAAGGCGATTACGCTGTAGATGCAACTTTAGGAAACGGCCATGACACTTGCTTCCTAGCTGAAATCGTTGGAGATAGCGGAAAAGTATTTGGATTTGATATTCAAAAAGAGGCAATCGAAAGCTCAACAACTCATCTAAAAGAAAAAGAACTTTTTGAACGTACTGTTTTAGTTCACGATAGTCACGATACTCTTCTATCCGTATTACCAGAAGATGCAAAAGGAAAAGTAACAGGCGCAATTTTCAACTTAGGTTACCTTCCAGGCGGAGACAAGCATATCGTTACAAAACCGAACTCAACAATCTCAGCGATCGAACAACTATTAGAAGTAATGGCACCTGAAGGTATCATCGTTCTTGTCATTTACCACGGACATCCAGAAGGACAAGTAGAACGCGACGCTGTACTTACATTTGCTGAAAAACTAGACCAAAAACAAGCTCACGTACTACGATATGGCTTCATTAACCAGCAAAATAACCCGCCATTTATTGTGGCGATTGAAAAGCGATAA	MKLERVLPFARSLLQTAVKEGDYAVDATLGNGHDTCFLAEIVGDSGKVFGFDIQKEAIESSTTHLKEKELFERTVLVHDSHDTLLSVLPEDAKGKVTGAIFNLGYLPGGDKHIVTKPNSTISAIEQLLEVMAPEGIIVLVIYHGHPEGQVERDAVLTFAEKLDQKQAHVLRYGFINQQNNPPFIVAIEKR	PGPT0008955_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
AK009_02380	960			hypothetical protein	ATGAAGGTTCAAAACCCTTTTCCATATACAAACGACAATAAACGTTATCATACATGGAATTACCATTTACGAAATGAATTTGGTGAAAAAATCTTTAAAGTTTCATTAGATGCTGGCTTCGATTGCCCGAACCGGGACGGTACAGTTGCTTACGGCGGTTGTACATTTTGCAGTGCTGCCGGATCTGGTGACTTCGCTGGTGATCGCCGCGATGATGTTATAACGCAATATCATGAAATGAAAGAAAAAATGCGCTCAAAGTGGAAAGACGGAAAATGTATCGCTTATTTCCAAGCGTACACAAATACACATGCACCACTTGAAGTTTTAAAAGAAAAATTCGAACCGCTTCTAGCAGAAAAAGACGTTGTCGGTCTTTCTATCGCGACTCGTCCAGATTGCTTACCAGACGATGTCGTTGAATATTTAGCGGACTTAAATAAACGCACATACCTTTGGGTTGAACTCGGTTTACAAACTGTTCACGAACGAACTGCAAACCTTATTAATCGCGCTCATGATTACCCATCTTACGTGGAAGGTGTAAATAAATTACGTAAGCATGGCATTAGAGTTTGCTCTCATATTATTAATGGTCTTCCACTTGAAGATTACGACATGATGATGGAAACAGCTCGTGAAGTAGCAAAGCTTGACGTACAAGGAATTAAAATTCATTTACTTCACTTATTAAAAGGAACGCCAATGGTGAAGCAATATGAAAAAGGACAACTCGAGTTCCTTTCTCTTGAAGATTACGTAAGTCTCGTTGTTGACCAACTTGAAATGATTCCAGAAGACGTAATTGTGCACCGCATCACAGGTGACGGTCCGCCTGATTTAATGATTGGCCCAATGTGGAGCTTAAATAAATGGGAAGTATTAAATTCCATCGATGCAGAATTTGTACGCCGCGGAAGCTGGCAAGGAAAATATGCAAATGAGGAGAAACAAAAATGA	MKVQNPFPYTNDNKRYHTWNYHLRNEFGEKIFKVSLDAGFDCPNRDGTVAYGGCTFCSAAGSGDFAGDRRDDVITQYHEMKEKMRSKWKDGKCIAYFQAYTNTHAPLEVLKEKFEPLLAEKDVVGLSIATRPDCLPDDVVEYLADLNKRTYLWVELGLQTVHERTANLINRAHDYPSYVEGVNKLRKHGIRVCSHIINGLPLEDYDMMMETAREVAKLDVQGIKIHLLHLLKGTPMVKQYEKGQLEFLSLEDYVSLVVDQLEMIPEDVIVHRITGDGPPDLMIGPMWSLNKWEVLNSIDAEFVRRGSWQGKYANEEKQK				NA	NA	NA	NA	NA
AK009_02381	264			hypothetical protein	ATGGCAGAGCGTCAATCACTTGAATCGTATATTACACAAGCGGAACAAGCGGTGGAATATGCGAAAGAACAATTAGACCAAGGTATGAGACAAGAGCATTACAATACGATGGAGTATTTGGATGCGCAGTTACAATTAGAACAAGCATATAACGATTTACAAACGATGCAACAACATGCGAATGATGAGCAACGTGAGCAGTTAAATAGAGCACGTATGGCAATTCGCCAATTGCAACATCAAATGATTATTACACCGCACTAA	MAERQSLESYITQAEQAVEYAKEQLDQGMRQEHYNTMEYLDAQLQLEQAYNDLQTMQQHANDEQREQLNRARMAIRQLQHQMIITPH				NA	NA	NA	NA	NA
AK009_02382	150			hypothetical protein	ATGGCGAAACGTTCAGATCAAAATAATCCAGAGCAAAAAACGCAAAATGGACATAACGCTGAATTTTCGAATGAGCTTGATCCGATTGTTCAAGTAAAACAGCGTAATAGTAAAAAAGGACAACCGCAAAAATCGAAACAATCAGAGTAA	MAKRSDQNNPEQKTQNGHNAEFSNELDPIVQVKQRNSKKGQPQKSKQSE				NA	NA	NA	NA	NA
AK009_02383	1023			hypothetical protein	ATGGGGAACAATATTACAAACAAGCGAATTGATGAGTTAGATTACATTCGTGGCTTTGCACTACTAGGGATTATTTTAGTAAATATTCTCGCACTACTTAACATTAAAATTCCAGATCCTAATACAGTGGATGCTAGCTATCAAAGATTTTTATATTTATTTGTAGAAGGTCGTTTCTTCTCAATCTTCTCATTCTTATTTGGAGTGGGATTCTATATCTTTATTTCAAGAGCGATTGCGAAAGGGAAAAATGGCTATGTTTTATTTTTACGTCGCTTAGTAGCATTATTTATTTTTGGTTTAATTCATCACATGTTTCAGCCTGGAGAAGCATTAGCGTTATACGCAATTTGCGGGTTAATCGTTTTACCGTTTTATAAAGCGAAAAAAGAAGTGAACTTAGTACTAGGACTTATTTTGACAATTGCCTTCAGTGTAATGGGAGTTAAAGAGTTATTACCACTTGGCTTAATTTTATTAGGGCTTGCTGCAGGACAATATCGTGTATTTGAAAATCTCACGCAAAATATAAAGAAAGTCGCTATTTTTACAGGTGTTATGTTTGTTTTAAGTGTCGTAGCTGTATGGTATCAATACGGGCACGTTCCTGCTGAACCATTTATAAATATGATACTTGAGAATGATGATGGAACAATGAATGCTGCAGGCCAATTTTTAAAAATTGGTGTTACAGTAGGACCTATTATTTCAGCTTTCTATGTTGGAGCTTTAATTTTATTACTTCAATTAAAACCGGTTCAAACATTGTTAGCACCACTGAAATATTATGGACGAATGGCTTTAACAAATTATATTGGACAAACTGCAATGATTTTAATTGCGGGCAGTGTATTTAACTTTGCAGAAAACTTAACGTACATGCAGACGTTATATGTGTGTATTGCAATTTATGCAATTCAAATTTTGTTTAGCGTAATTTGGATGAAGGTCTTTAAAATGGGTCCACTAGAATGGATTTGGCGAGTTGTTACTTACTGGACGGTAACACCTTTAAAGAAATAA	MGNNITNKRIDELDYIRGFALLGIILVNILALLNIKIPDPNTVDASYQRFLYLFVEGRFFSIFSFLFGVGFYIFISRAIAKGKNGYVLFLRRLVALFIFGLIHHMFQPGEALALYAICGLIVLPFYKAKKEVNLVLGLILTIAFSVMGVKELLPLGLILLGLAAGQYRVFENLTQNIKKVAIFTGVMFVLSVVAVWYQYGHVPAEPFINMILENDDGTMNAAGQFLKIGVTVGPIISAFYVGALILLLQLKPVQTLLAPLKYYGRMALTNYIGQTAMILIAGSVFNFAENLTYMQTLYVCIAIYAIQILFSVIWMKVFKMGPLEWIWRVVTYWTVTPLKK				NA	NA	NA	NA	NA
AK009_02384	762	bceA_3	COG1136	Bacitracin export ATP-binding protein BceA	ATGACGAAACCAGTTGTAGACGTGAAAAACGTCCAAAAAGTGTACGGTAAAAAAGGTGAGAACCAATCACATGCGTTAAAAGGTGTTTCATTCTCAATTCAAGAGGGTGAGTTTGTTGGAATTATGGGGCCATCTGGTTCTGGTAAAACGACATTGTTAAATGTAATTTCAACGCTTGATAAAGCAACGGGCGGCGTTGTTGAAATTGCGGGTACGGACATTACGAAAATGAAGCAAGGTGAACTTTCTGATTTTCGTTCACAAAAGTTAGGATTCATTTTCCAAGACTTCAACTTATTAGAGAACTTATCTATTTATGAAAACATTGCACTTCCACTTTCTCTTCAAGGTGTTTCATCACGTAACATTGGACCAAAAGTAGAAAAAGTAGCGGGTATGCTAGGGATTACAGAAATTCTTCAAAAGTATCCATCTGAAGTATCTGGTGGGCAGAAACAACGTTCAGCAGCAGCGCGCGCACTTGTGCATGAGCCAGCAATTATTTTAGGGGACGAGCCAACAGGAGCACTTGATTCTAAAAATGCAGCGAGTTTACTTGATGCGATGACAAACTTAAATGAAGAACAAGGCGTATCTATTATGATGGTTACACATGATCCGTATAGTGCAAGTTATTGTCAGCGAATTTTATTCATTCAAGATGGTGAGCTGTATAAAGAAATTCATCGCGGTGGTACGCGTGAAGAGTTCTACAAAGAAATTTTAGATGTACTTGCAGATTTAGGTACACAAAAAGCGTAA	MTKPVVDVKNVQKVYGKKGENQSHALKGVSFSIQEGEFVGIMGPSGSGKTTLLNVISTLDKATGGVVEIAGTDITKMKQGELSDFRSQKLGFIFQDFNLLENLSIYENIALPLSLQGVSSRNIGPKVEKVAGMLGITEILQKYPSEVSGGQKQRSAAARALVHEPAIILGDEPTGALDSKNAASLLDAMTNLNEEQGVSIMMVTHDPYSASYCQRILFIQDGELYKEIHRGGTREEFYKEILDVLADLGTQKA	PGPT0013345_3423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_02385	1851	bceB_4	COG0577	Bacitracin export permease protein BceB	ATGTTATTTAAACTTTCCATGTCGGGGCTGAAAAGTAAGCTGAAAGATTATATCGTCTTACTTGTCGGTCTTGTCATGTCGATTTCAATTTTTTACATGTTCCAAACGTTAGCGCTGAATAAAGCGTTTATCGAATCTAACTCAGTTATTCAATCAATTGGATTCGTATTCCAAGCAGGTTCATTTTTACTAGCTATTATAACGTTCTTCTATATTTTATATGCGAACTCTTTCTTATTATCTCTTCGTCAAAAAGAGTTCGGTATGTATATGATGCTAGGAGCAAAAAAGCATAAAGTTACATTACTTATGTTTATTGAAACGATCGTATTAGGCGCTGCGTCTCTTGCCATTGGTATTACAGTTGGTGTAGGACTTGCAGAGGGTATCGGACAATTATTAATGAAACAATTAGAATTTGCTGGTGAAGGCTATAAAGCATTTTACCTGCCATCTATGACTGTTACTTGCATCTTCTTCTTTGCGCTATTTGTATTATCAGCAATTATGAACAGTATTAAATTATCACGTATTTCTGTACTGCAACTTGTACATGCAGATGCACAAACAGAACGTGTTGTGGTAAAAGGAAAAATGACAGGTTTAGTTGCATTCCTAGCGGTTATTTTATTAGGTATTGGTTATGCAGCTATGATTAATATGGAAACATTAAGAGAAATGGGAATCCTTATTGCATTAGTTACAACAACAGCAGGTACTTATATGCTATTTGGATCACTCCTTCCAGTTATTATTAAAAAGTTAAAGAGTAATAAAAAGCGTAGTGAAAAAGGACTTAATGCTTTTACATTTGCACAATTAAATTTCCGTATTAATAGCTTAACAAAGGTACTTGCAACAGTAGCGATGTTAGTTGCTCTTGGAGCTGGTGCAATTTCAGGTGGTATGGCATTTAAAAATAACGTTATAAAAACGGTTGATGGATTTGAAATTTATGATTCAATTGTTCATAATCCTACAGCTGAAGAGAAGAAAATTTTAGATGGTATATCATTTAAAAATAAAGCTGAGTACCGTTATAAAGTAGACGACAAATATATTTATTATGTAAAAGAAGATTTAGAGAAACATAAGCCATTTATTCGAGATGGTGTAGGTAAAGAAAGTTTCGGTAAATATAAAGAAGTTTCAGGAGAAGCTCCAGTAGGTACAGTAGCAGGAGTGAGGTCAGAACAAGATAAAAATGAAAAAACAATGCCGGAAGAATGGGATGAGGCATTTAGAACAATCCAACCATATTATATATACCAAGATCGTGCCATTAAAGTTGTAGATCAAAAAATGTACGATACTGTAAATGGTAAAGAAGGAATCGTATTTACTGGAAAAACAGACGATTTCGTAGCATACACAAAAGAATGGAAAAAAATTGACGAGTTGCAGCTAGCTAAATATAAAAATGTAAAAGCTGAGCAAATGAGTAGTAAATATCAAGTGTATGACATGTTCTACGGTGTTGCGAGCGGAACAGTGTTTATGGGCTTCTTCCTTGGAATTGCTTTCTTAGCAATGATGGCAAGCTGTCTTATGTTCAAAATTCTTTCTGGTGCATCAAAAGATATTACGCGTTATCAAATGCTTCGTAAAATCGGTGTACGCCGTGAATTATTAACGAAATCAATTTATAAAGAGTTATTCTTAGTATTCTTATTCCCAGCAATTGTGGGTATCGCTCACGTATTAGTTGGTATGAATATTTTCGGATTTATTTTAGTCGATCCGTACTTCCGTATTTGGATACCAATCGTAATTTTCGTAGTTATTTACACGATTTATTACCTTATTACAGTTCAATTGTATAAAGGAATTGTTCTTCCGAAAGAAGATTAA	MLFKLSMSGLKSKLKDYIVLLVGLVMSISIFYMFQTLALNKAFIESNSVIQSIGFVFQAGSFLLAIITFFYILYANSFLLSLRQKEFGMYMMLGAKKHKVTLLMFIETIVLGAASLAIGITVGVGLAEGIGQLLMKQLEFAGEGYKAFYLPSMTVTCIFFFALFVLSAIMNSIKLSRISVLQLVHADAQTERVVVKGKMTGLVAFLAVILLGIGYAAMINMETLREMGILIALVTTTAGTYMLFGSLLPVIIKKLKSNKKRSEKGLNAFTFAQLNFRINSLTKVLATVAMLVALGAGAISGGMAFKNNVIKTVDGFEIYDSIVHNPTAEEKKILDGISFKNKAEYRYKVDDKYIYYVKEDLEKHKPFIRDGVGKESFGKYKEVSGEAPVGTVAGVRSEQDKNEKTMPEEWDEAFRTIQPYYIYQDRAIKVVDQKMYDTVNGKEGIVFTGKTDDFVAYTKEWKKIDELQLAKYKNVKAEQMSSKYQVYDMFYGVASGTVFMGFFLGIAFLAMMASCLMFKILSGASKDITRYQMLRKIGVRRELLTKSIYKELFLVFLFPAIVGIAHVLVGMNIFGFILVDPYFRIWIPIVIFVVIYTIYYLITVQLYKGIVLPKED	PGPT0013350_10902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_02386	567	xerC_4		Tyrosine recombinase XerC	ATGGAAGTTGTAGAGGCATTAAAAGATATAAGCCAAATTGAGGCTATGAAAAAATATTTAAAAGAGCACTCCCAGCGAGACTATCTTTTATTTGTTATTGGAATTAACACAGGATTAAAAATTACAGAACTACTTGGCATGAAATTTGAAGATGTATTAAATGAAGACGGGACTGTTAAAGAGTTTTATTCTCTTCCTGTGAAAGATGAAAAATTTAAACAAGATATTTATTTAAATACAAAAGTAAAAGAAGCGCTTTTAGATTACGTACAATCTATTGGCGTTAAAAGAGAAAATTACGTATTTCAATCTAATAAAACGCCAAATTCAATTACGCGCCAACAAGCGTATCGTGTAATTCATAATGCTGCAGAAGCAGTTGGAGTTGTTGGTAAGATCGGAACGAATTCAATGCGAAAAACGTTTGGATTTCATGCATACAAAAGAGGGATAGCGATTGCGCTATTGCAAAAACATTTTCATCACGCGACTCCATCAGAGACGCTAAAGTATTTAGGTATCTCAAAGGATGAGACCTTTAAAACGGAGATTGATGTCGATTTATAA	MEVVEALKDISQIEAMKKYLKEHSQRDYLLFVIGINTGLKITELLGMKFEDVLNEDGTVKEFYSLPVKDEKFKQDIYLNTKVKEALLDYVQSIGVKRENYVFQSNKTPNSITRQQAYRVIHNAAEAVGVVGKIGTNSMRKTFGFHAYKRGIAIALLQKHFHHATPSETLKYLGISKDETFKTEIDVDL				NA	NA	NA	NA	NA
AK009_02387	498	khtT_1	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAATATTAGAGAGAGTGAACTGCCGGGTATTGGATGTAAGTTTGAAGTGATTACAAAAGGTAATGAAAAGATGGTTATCGTTATTCATGATGATGGCCGAAGAGAAATGTACCATTTTGATGCTGATCATGAGGAGAGTATTTCAAGCGTCTCTCTTCGTGATTCTGAAGCGAGACAAATTGCAGCTATATTGGGTGGAATGGTGTATAGGCCACAAGCTTTAGATACGATTGAAATGGCCTTTGAAGGATTATCAATTGAGTGGTTTAAGGTGGAAAATAATGCACCAGTCGTACAAAAAACAATTGGTAGTTTACATGTCCGAAACACATATAATGTAACGATTATTGCCATTTTGAAAAAGAATATGAAGAAGTTCTTTAATCCAGGCCCAGATTCTATCATTGAAGCTGGCGATATGCTTGTATTATCAGGTGAAAGACATGAAGTAAAAAGAATTATTAATGAGTTGCTTTCAGTAGGAGGGGATTCATAA	MNIRESELPGIGCKFEVITKGNEKMVIVIHDDGRREMYHFDADHEESISSVSLRDSEARQIAAILGGMVYRPQALDTIEMAFEGLSIEWFKVENNAPVVQKTIGSLHVRNTYNVTIIAILKKNMKKFFNPGPDSIIEAGDMLVLSGERHEVKRIINELLSVGGDS				NA	NA	NA	NA	NA
AK009_02388	1224	khtU_1	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGATACTTTAATCTTTGAAGTTGGGACTGCGTTAGTATTAGTCGCTTTTGCAGCTATTCTCGCTGCAAAGTTAAAGTTCTCGATTATTCCGTTTCTCATTATACTCGGTATGCTAGTGGGGCCTCATGCCCCAGATTTAGGGCTTATCGATTTAAGATTTATTGAAAGCGGAGAAGTTATTTCCTTCCTTGGCCGTGTTGGCGTTATATTCCTCTTATTCTATTTAGGCTTAGAATTCTCAATTAAAAAATTAATTAAATCAGGAAAATCAATTGCTTTTGGGGGAACTGTTCATATATCGCTTAATTTTATATTAGGTTTACTTTACGGATATATAATGGGTTTCCCCTTATTAGAAACATTAATTATTGCTGGGATCATAACAATTTCATCGAGTGCAATTGTTGCGAAAGTAATTGTTGATTTAAGAAGATCTGGTAATAAAGAGACGGAACTAATTTTAGGAATCATTATGTTTGACGATATCTTTTTAGCGGTATATTTATCAGTCGTTTCAGGATTAGTACTCGGAGGGGCAACGTCATTTGTAGGTGCTCTCACATCCATTTTAATCGCAGTAGGGTATATGTTACTATTCTTTGTAGTTGCTAGAAAAGCTACAAGGTTTTTAAATAAAATGTTAGATATTTCGTCCAATGAAATTTTTATTATTGTAATATTCGCTATTTTGTTCTTTGTAGCAGGATTTTCAGAAACGATTCATGTTGCAGAGGCGATTGGAGCATTATTACTAGGACTCGTCTTTTCAGAAACGGAGCATAGTGATCGAATTGAACAGCTCGTTGTTCCGTTTCGTGATTTCTTTGGAGCTATATTCTTTTTCAGCTTCGGTTTAAGTATAGATCCATTTTCACTTGGAGGAGCAGTGTGGTTGGCATTAGGAGCAGTTTTTATTACTCTTATCGGTAATTTTACCGCTGGAATGGTTGCGGGGCGTAAAGCGGGATTATCGCATAAGGCTTCTACGAATATTGGTTTAACACTTGTATCACGCGGAGAGTTTTCCATTATCGTCGCGAATATTGGAATTGCGGGCGGCTTAATGGCAACGATTAAACCATTCTCAGCCCTGTATGTTTTAATATTGGCATCGTTAGGACCTTTGTTAACGAAAGAATCTGGGAGAATATATTCCGTATTAGATAAAATATTTAAATGGAGCGCTAAAGAACGTGCGAAGCGAGAAAAAGAAGTTGGATAA	MDTLIFEVGTALVLVAFAAILAAKLKFSIIPFLIILGMLVGPHAPDLGLIDLRFIESGEVISFLGRVGVIFLLFYLGLEFSIKKLIKSGKSIAFGGTVHISLNFILGLLYGYIMGFPLLETLIIAGIITISSSAIVAKVIVDLRRSGNKETELILGIIMFDDIFLAVYLSVVSGLVLGGATSFVGALTSILIAVGYMLLFFVVARKATRFLNKMLDISSNEIFIIVIFAILFFVAGFSETIHVAEAIGALLLGLVFSETEHSDRIEQLVVPFRDFFGAIFFFSFGLSIDPFSLGGAVWLALGAVFITLIGNFTAGMVAGRKAGLSHKASTNIGLTLVSRGEFSIIVANIGIAGGLMATIKPFSALYVLILASLGPLLTKESGRIYSVLDKIFKWSAKERAKREKEVG	PGPT0014395_3656	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK009_02389	207			hypothetical protein	GTGCGAAGCGAGAAAAAGAAGTTGGATAATATAAATAAGGGGAGACTGTATGAAGTTCATACAGTCTCCCCTTATTTATATATTGTTACTGATGTCGTTTTTGTCGGTAAGTCAATATATTTTCAAACAGGGATCAGTATAATTTCATTTACCGATGAACCATTATCTGAATTTCATCAACTATTAATCAGTTGCCTTCCTATTTAA	MRSEKKKLDNINKGRLYEVHTVSPYLYIVTDVVFVGKSIYFQTGISIISFTDEPLSEFHQLLISCLPI				NA	NA	NA	NA	NA
AK009_02390	1194	mdrP_3		Na(+), Li(+), K(+)/H(+) antiporter	ATGCCAAGGAAAGTATGCCTATTAGTAGCTGGGATGATTATTAATGTCACGGGTGCTTCTTTTTTATGGCCTTTTAATACAATTTATTTGCATGATCACCTAGGAAAATCTTTATCTGTGGCCGGAATGGTATTAATGATCAACTCGCTTACTGGTGTAATCGGAAACTTGCTCGGCGGTGTTTTATTTGATAAATGGGGCGGTTATAAATCAACTTTAGTAGGAATTGTTATTACACTTGTATCAATTTTAGGTCTTGTGTTCTTCCACGGTTGGCCGTTATATGTTGTGTGGCTAGCGTTAATCGGCTTCGGTTCTGGAATGGTCTTCCCATCGATGTATGCGATGGTTGGTACGGTTTGGCCAGAGGGCGGAAGACGGGCATTTAATGCGATGTACGTTGGACAAAATGTTGGTATTGCGATTGGAACAGCGTGTGGTGGATTAGTTGCATCATATCGTTTTGATTATATTTTCTTAGCGAATTTTATTTTATATTTTGTTTTCTTCTTAATTGCTTTTATTGGATTCCGTGGTATGGAAGACAAGAAAGAGCCAGGAGTGCAAAAGGAAATCGAAACGAAAAAAGGTTGGTCACTTACACCTGGATTTAAAGCACTTCTGATCGTGTGTGTAGCATATGCTTTATGCTGGGTTACATACGTACAGTGGCAAGGAGCGATTGCAACACATATGCAAGAATTGAATATTAGCCTTCGTCATTATAGTTTATTATGGACGATAAATGGAGCTATGATTGTTTGTGCGCAGCCACTTGTTAGTATGCTAATTCGCTGGATGAAGCGTTCTTTAAAACAGCAAATTATGATTGGAATCTTCATTTTTGCGGCGTCATTCATTGTGTTAAGTCAAGCGCAGCAATTTACGATGTTCCTCGTTGCGATGGTAACATTAACAATCGGTGAATTATTTGTGTGGCCAGCAGTTCCGACGATTGCAAATATACTTGCACCAAAAGATAAACTAGGTTTTTATCAAGGTGTTGTAAATAGCGCGGCGACTGTAGGGAAAATGTTCGGGCCGGTCGTTGGCGGAGCGATTGTTGATTTATACAATATGGAAGTATTGTTTATAGCAATCATGGTAATGCTTGTAGTAGCGCTTATAGCAACGAGCATGTATGATAAACGAGTAAAAGTAGAAGAAACAGTTGAAGAAAAAATTGCAGTTTAG	MPRKVCLLVAGMIINVTGASFLWPFNTIYLHDHLGKSLSVAGMVLMINSLTGVIGNLLGGVLFDKWGGYKSTLVGIVITLVSILGLVFFHGWPLYVVWLALIGFGSGMVFPSMYAMVGTVWPEGGRRAFNAMYVGQNVGIAIGTACGGLVASYRFDYIFLANFILYFVFFLIAFIGFRGMEDKKEPGVQKEIETKKGWSLTPGFKALLIVCVAYALCWVTYVQWQGAIATHMQELNISLRHYSLLWTINGAMIVCAQPLVSMLIRWMKRSLKQQIMIGIFIFAASFIVLSQAQQFTMFLVAMVTLTIGELFVWPAVPTIANILAPKDKLGFYQGVVNSAATVGKMFGPVVGGAIVDLYNMEVLFIAIMVMLVVALIATSMYDKRVKVEETVEEKIAV				NA	NA	NA	NA	NA
AK009_02392	2409	leuS		Leucine--tRNA ligase	ATGAGCTTTAATCATCAAGATATTGAGAAGAAGTGGCAAGGGTACTGGGAAGAGAATAAAACATTCCGTACGCCAGATGAGACAGAAAAACCAAAATTTTATGCACTAGATATGTTCCCATATCCATCAGGTGCAGGCCTACACGTAGGACATCCAGAAGGTTATACAGCGACAGATATTTTATCTCGTATGAAGCGTATGCAAGGGTATAACGTTCTTCATCCAATGGGATGGGATGCATTTGGTCTTCCAGCAGAGCAATATGCACTTGATACTGGAAATAGCCCAGCTGAATTTACAGAGCATAATATTAATACGTTCCGTAACCAAATTAAATCACTAGGTTTCTCTTATGATTGGGACCGTGAAGTAAATACAACAGATCCAAACTACTATAAGTGGACACAATGGATCTTCTTAAAACTATTTGAAAAAGGCTTAGCTTACGTTGATGAAGTACCTGTAAACTGGTGTCCAGCACTTGGTACAGTACTTGCAAATGAAGAAATCATTGACGGTAAGAGTGAGCGTGGTGGACATCCAGTTGAGCGTCGTCCGATGAGACAGTGGATGTTAAAAATTACAGCTTACGGAGATCGTCTATTAGAAGATCTAGATGAGCTTGATTGGCCAGAAAGCTTAAAAGATATGCAACGTAACTGGATCGGTCGTTCTGAAGGTGCAGAAGTACACTTCAATATCGATGGTACAGACGAGAAGTTCACAGTATTCACAACGCGCCCTGATACACTATTTGGTGCAACATACTGTGTACTAGCTCCGGAACATGCACTTGTTGCAGAAATTACAACAGCAGAACAAAAAGAAGCGGTAGAAGCTTACATTAACGCTGTAAAAATGAAGAGTGACCTAGAGCGTACAGAACTTGCGAAAGAGAAAACTGGTGTATTCACTGGTGCTTACGCAGTTAACCCAGTAAACGGTGAGAAATTACCAATCTGGATTGCTGACTATGTTCTTGCAACTTACGGAACAGGTGCCGTAATGGCAGTTCCAGCTCATGATGAGCGTGACTATGAATTCGCATCAGTATTCAATCTTCCGATGAAGGAAGTTGTAAAAGGCGGAGATATTACGAAAGAAGTGTACACAGGTGATGGTGCACACGTAAACTCAGCATTCCTTGATGGATTAAATAAAGAAGAAGCAATCGCAAAAATGATTGAATGGCTTGAAGTAACGAGCGCAGGAAATCAAAAAGTAACGTACCGTCTGCGTGACTGGTTATTCAGCCGTCAACGTTACTGGGGTGAGCCAATTCCGGTAATTCACTGGGAAGATGGGACAATGACAGCTGTGAAGGAAGAAGAATTACCATTAGTTCTTCCGAAAACAGAAAACATCCGTCCTTCAGGTACAGGTGAATCACCACTTGCTAACATTGACGAGTGGGTAAATGTTGTTGATCCTGAGACTGGTAAAAAAGGTCGTCGTGAAACAAATACAATGCCACAATGGGCTGGTAGCTGCTGGTATTACCTACGTTACATCGATCCAAACAATAGCGAAGCACTTGTAGATCCTGAAAAAGTAAAACAATGGCTTCCAGTTGATATTTATATCGGCGGAGCAGAGCATGCTGTACTTCACCTACTATATGCTCGTTTCTGGCATAAAGTATTATACGATATCGGGGTAGTTCCAACGAAAGAGCCGTTCCAACAATTATTCAACCAAGGTATGATTTTAGGTGAAAACAACGAGAAAATGAGTAAATCAAAAGGTAACGTTGTAAACCCTGATGATATCGTAGCAAGCCACGGTGCAGATACACTTCGTCTATACGAAATGTTCATGGGACCATTAGATGCTTCAATCGCTTGGTCTGAAAATGGTCTTGACGGAGCTCGTCGTTTCCTAGACCGCGTATGGCGTCTATTCGTTCAAGATAACGGTGAATTAAGTGAGAAAATTACTGACGCACCAAATAAAGAGCTTGAAAAAGCTTACCACCAAACAGTGAAGAAAGTAACAGAAGACTATGCAGAGCTTCGCTTCAACACAGCGATTTCTCAAATGATGGTATTCATCAATGATGCATACAAAGCTGAAACACTTCCGAAAGAATATGTAGAAGGTTTCGTAAAAATGATCGCACCAGTTGCACCTCACATCGGGGAAGAGCTATGGAGCAAACTTGGATATAATGAAACAATCACATATGCAAGCTGGCCAATATTTGATGAGTCTAAACTTGTAGAAGATGAAGTTGAAATCGTTGTTCAAGTTATGGGTAAAGTTCGCGCAAAACTAACAATGAGTAAAGACGCATCAAAAGAAGAAATGGAACAACTTGCACTTGAAGCAATTCAAGACCAAATTGAAGGGAAAACAGTTCGTAAAGTAATTGTTGTTCCTGGAAAACTTGTTAACGTTGTTGCAAACTAA	MSFNHQDIEKKWQGYWEENKTFRTPDETEKPKFYALDMFPYPSGAGLHVGHPEGYTATDILSRMKRMQGYNVLHPMGWDAFGLPAEQYALDTGNSPAEFTEHNINTFRNQIKSLGFSYDWDREVNTTDPNYYKWTQWIFLKLFEKGLAYVDEVPVNWCPALGTVLANEEIIDGKSERGGHPVERRPMRQWMLKITAYGDRLLEDLDELDWPESLKDMQRNWIGRSEGAEVHFNIDGTDEKFTVFTTRPDTLFGATYCVLAPEHALVAEITTAEQKEAVEAYINAVKMKSDLERTELAKEKTGVFTGAYAVNPVNGEKLPIWIADYVLATYGTGAVMAVPAHDERDYEFASVFNLPMKEVVKGGDITKEVYTGDGAHVNSAFLDGLNKEEAIAKMIEWLEVTSAGNQKVTYRLRDWLFSRQRYWGEPIPVIHWEDGTMTAVKEEELPLVLPKTENIRPSGTGESPLANIDEWVNVVDPETGKKGRRETNTMPQWAGSCWYYLRYIDPNNSEALVDPEKVKQWLPVDIYIGGAEHAVLHLLYARFWHKVLYDIGVVPTKEPFQQLFNQGMILGENNEKMSKSKGNVVNPDDIVASHGADTLRLYEMFMGPLDASIAWSENGLDGARRFLDRVWRLFVQDNGELSEKITDAPNKELEKAYHQTVKKVTEDYAELRFNTAISQMMVFINDAYKAETLPKEYVEGFVKMIAPVAPHIGEELWSKLGYNETITYASWPIFDESKLVEDEVEIVVQVMGKVRAKLTMSKDASKEEMEQLALEAIQDQIEGKTVRKVIVVPGKLVNVVAN				NA	NA	NA	NA	NA
AK009_02393	1080			hypothetical protein	ATGAAAGGGATGGACAATAATGCACCACATGGCTTCTTCGGAGGTGAATCGGATAGTTATGAACAAATGATGTTAATGGGAGGGGCTGGCCAACAAGGATACGGTGGAATTCCGAGCTGGATGGGTGGAGCAGCAGGAGGGTTCCAAACATCGGTAGCTGGCATGCAAACTGGAATGCCTACATCAATGGGGGGCTTTTCGACATCAGGGGGTGGAATGCCTACAGTAACAGGAGGATTTCCGACATCAGTAGCTGGCGTACAGACAGGATTTCCAGTAGGAGCACCAACTACATTTCCTTCTTTCGTTGGAGGAGTGCAGACAGGATTCCCGGTACCGGGAGTGGGTGTTGTAGCTGGAGGAATAGGTGGGTATCCGCAAGTTGTTCACGGTCATCATGGACATCACCATCATCAAGGCCAACATGGTCATCATGGACACCATCATCACCAAGGTCACCACGGTCATCATGGACATCATCATCACCAAGGTCACCACGGTCATCATGGACATCATCATCACCAAGGTCACCACGGTCATCATGGACACCATCATGACCAAGGTCACCACGGTCACCACGGTCATCAACAACAAGTACATCACCACGGTCACCACCACATTCATCCGCAAGCTGTTCTTTATCAAACTCACCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCATCAAGGCCACCAAGGCCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCAAGGTCACCACGGTCAACACGGTCAACACGGTCATCAAGGCCAACATGGTCAACAGCACCAACAGCACCAACAGCACCAACAGCACCAACAGCACCAACAGCACCAACAATACCAACAATATCAACAGCAACAATCTTCTCCTTGGGCAGGTGGAATTGGAGCAGGAGCAGCAGGGGCAGCGGCAGGAGCAGCTAGCATTAGTGGAGCAGCAGGACACGCGGGACACGTGGGTCATTAA	MKGMDNNAPHGFFGGESDSYEQMMLMGGAGQQGYGGIPSWMGGAAGGFQTSVAGMQTGMPTSMGGFSTSGGGMPTVTGGFPTSVAGVQTGFPVGAPTTFPSFVGGVQTGFPVPGVGVVAGGIGGYPQVVHGHHGHHHHQGQHGHHGHHHHQGHHGHHGHHHHQGHHGHHGHHHHQGHHGHHGHHHDQGHHGHHGHQQQVHHHGHHHIHPQAVLYQTHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHQGHHGQHGQHGHQGQHGQQHQQHQQHQQHQQHQQHQQYQQYQQQQSSPWAGGIGAGAAGAAAGAASISGAAGHAGHVGH				NA	NA	NA	NA	NA
AK009_02394	423			hypothetical protein	ATGGCAAACGAAAAAGGTTTAGATAAAGGATTCGAACTTGTTGCAAAAATGCATGAAGAGTTCGGACATCCTGTGAAAAATACTCCAACAAAACTAACAGAAGAGCGTGCAAAAATTCGTGCAAGTTTTATGCAAGAAGAGCTAGAAGAATTTCTAGAAGCAACGACTGTTGAAGATCAATACGATGCACTGATTGACCTTATTTACTTTGCATTCGGAACGTTTGCCGAAATGGGCGTACGTCCTGATAAAGGATTTGAAATTGTAAATAACGCAAACATGGCAAAACTATTCCCTGATGGAAAACCCCGATTCCGTGAAGGCGATGGCAAAATTCTAAAACCAGAAGGCTGGCAAGCACCAGAACCACAACTTCGTGCTGAAATCGAACGTCAGCGCAAAGAAGCTGAAAAAAACTGCTAG	MANEKGLDKGFELVAKMHEEFGHPVKNTPTKLTEERAKIRASFMQEELEEFLEATTVEDQYDALIDLIYFAFGTFAEMGVRPDKGFEIVNNANMAKLFPDGKPRFREGDGKILKPEGWQAPEPQLRAEIERQRKEAEKNC				NA	NA	NA	NA	NA
AK009_02395	186			hypothetical protein	ATGTCTAAAAAATTAGTAAAGCCTATTTTAAATGGTATTTTATTTCTCGGTGTCTTTTTATTTGCTCATACATACTTAAAAAATGTTTCCTTCACACGTTATTTACTTGTCGTTATACCAATGTTACTCGTCGGTATTTTTGGCATCGATCTTATTTTATCCCTTTTAATAAAAAAAGAAGAATAA	MSKKLVKPILNGILFLGVFLFAHTYLKNVSFTRYLLVVIPMLLVGIFGIDLILSLLIKKEE				NA	NA	NA	NA	NA
AK009_02396	1080			hypothetical protein	ATGGAAAAAACCAAAAGAAAATTAATACTTCTTATTTGCATCAGTGTCTTCAGTCTAACTGGTTGTTTACAAAAAAATATTATTGATGATGTTCAGCTCATTCAAGGAGCTGCCTTCGATACAGCAAAAGATAATAAAGTAAAAGTTACATTTGTTTGTCCCATACAAAAAAAGGGAAATAAAGTTCAAGTTTATGAAGGAACAGGAAACGCAGTAAAACAAGTAAAGGCAGATACATCTTTGGAATCTTCGCAACCGTTCGCAAGCGGGCAAATGCGTGTTGCCTTATTCACAACAAAGATTGCTAAAAAAGGATTATCAACTTCCTTTGACACATTAATTCGTGATGTGAATATTGGTAACTCACTGTATGTTGGACTATTAGAAGGCAGTGGTACTGAACTATTTAAAGGAAAATATAGTACCTCTTACAATGTTGCGATTTATATAAAAAAAATGTTAGAACATAATATGGACACTGGGCCATTGCCAACTGACAATTTATATTTAGGTGCCTTCAGGTACTACCGTGAAGGACAAGATTCTTATATGCCTATCCTAAAAAAACATGGAGATAAAATAAAAATTACTGGTATTGGTCTTTTGAAAAAGGATAAGTTGGTCGGAACAATTAAGTATCACGATATGTTTGTTTTCAAAGGACTGCTAGAAAAGCACCGCTTGGACTCACATGAATTTAAAACAAATCCTGGCTATGCAATGATTAATAACATTCGTTCCGTTCCTACCTACGAAGTAAACATAAAAGATGGGAAACCTTCTTTCTATATTCACGTTAAGATGGATGCTCGTATTCAGGAGCTTTCTAGAAAATTTAATTTAGAAAACAAAAAAAATACAACAAAAATAGCCAAATCAATCGAAAAACAATTAGATGCAAAAGCTACAAAACTAATTAAACAGTTTAAATCTCTAAATGTTGATCCTCTTGCACTAGGAGCAAAATATAGACAACATTATCGCCCATTCAAATTAGAAGAATGGAGACAAATGTATAAAGATGTTCCGGTTCATATAAAATACACCGTAAATATTACAAATTCTGGTGTCATTGAATGA	MEKTKRKLILLICISVFSLTGCLQKNIIDDVQLIQGAAFDTAKDNKVKVTFVCPIQKKGNKVQVYEGTGNAVKQVKADTSLESSQPFASGQMRVALFTTKIAKKGLSTSFDTLIRDVNIGNSLYVGLLEGSGTELFKGKYSTSYNVAIYIKKMLEHNMDTGPLPTDNLYLGAFRYYREGQDSYMPILKKHGDKIKITGIGLLKKDKLVGTIKYHDMFVFKGLLEKHRLDSHEFKTNPGYAMINNIRSVPTYEVNIKDGKPSFYIHVKMDARIQELSRKFNLENKKNTTKIAKSIEKQLDAKATKLIKQFKSLNVDPLALGAKYRQHYRPFKLEEWRQMYKDVPVHIKYTVNITNSGVIE	PGPT0014785_225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014785-yfkR-K06308	NA	NA
AK009_02397	1095	yndE_3		Spore germination protein YndE	ATGAGTAAAGTTCAAGAAAAATATCAAATATCTCCTATCTTTGTTTTCTTCTTAATTCACGGTGCACAATTTGGAGCTGGCGTTCTCGGCTTCGCTCGAATTATAGCAAAAGCCGCCGGATACGACGGCTGGATAGGAGTTCTCCTCACAGGAATTATCATTCATATTCTCATCTGGATGATGTATTATTCATTAAAAAATACAGAAGGAAACTTAATTGATTTACACAAACAGATTTTTGGAAAATGGATTGGAAATGGTATTAGTCTCATCTTTATGGCTTATTTTTTTATTGTAAGTATTTCTGTCGTTCGAACCTATGTCGAAATTATTCAAGTGTGGATGTTTCCTAGCGCATCCACCTGGATGCTCACTTTCTTTTTATGTTTAATAAGTTATTACATTATTTCATCAGGATTCCGCGTCATTACAGGAATTTGTGTTATTTCCGTTGGTGGAACATTAGGTTATCTTTTTCTAAGTCTTTTCATTTTGAAATTCTCACATTGGGATAATTTACTTCCAATGTTTTCACATTCTTTTACAGATATTTTGAAAGCAGCTCAACTATCCATTTATAGTATGACAGGATTTGAAATTTTCCTTATGGTTTATCCGTTTGTTAAAGAACCAGAAAAATCCCATAAATTTGCACAATATGGTGCATTATTCTCTAACTTCTTATATTTATTTAGTACCATTCTCGCTTTTACATTCTTTAGCGAAAAACAACTACTCAAAACAATTTGGTCTCAACTGTCCATGACACAAGTTATTAAGCTTCCTTTTATCGAGCGACTTGAGTATATTGCTATTTCCGGTTATGCTCTCGTTATTATTACAAGCTTTATTCTACCTTTATGGGCCGCTACTCGAGGAACACATGAAATCTTTCGTGTAAAACAACGAGGTATTTTAATTGCATTTATGCTTATCACCTTAGTTGTTTCACAACTTTTAACAAATAGGCATGATATTAATGATTTTATTAGCAATACATCTAAAGTTAGTTTTTGGCTTATATATGTATACATCCCAATTCTATTTATTATTGTGTGGGTGAAAAAAAAATGGAAAAAACCAAAAGAAAATTAA	MSKVQEKYQISPIFVFFLIHGAQFGAGVLGFARIIAKAAGYDGWIGVLLTGIIIHILIWMMYYSLKNTEGNLIDLHKQIFGKWIGNGISLIFMAYFFIVSISVVRTYVEIIQVWMFPSASTWMLTFFLCLISYYIISSGFRVITGICVISVGGTLGYLFLSLFILKFSHWDNLLPMFSHSFTDILKAAQLSIYSMTGFEIFLMVYPFVKEPEKSHKFAQYGALFSNFLYLFSTILAFTFFSEKQLLKTIWSQLSMTQVIKLPFIERLEYIAISGYALVIITSFILPLWAATRGTHEIFRVKQRGILIAFMLITLVVSQLLTNRHDINDFISNTSKVSFWLIYVYIPILFIIVWVKKKWKKPKEN	PGPT0025015_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025015-gerAB-K06289	NA	NA
AK009_02398	2187			hypothetical protein	ATGATTTGGAATTGGTTTCGTAAGAAAAAAAAATCAAATACAACAGAGGCAAAAGAAGCCGATAACTGGGAGCAGCAGTCTAACAATCCAGATGACGATAACAAAGAACAGACTAGAAGTATGAAACATACTAAAGGTAAAAATAACGAGCAAGATGACTCTTCTCAAGAGAAACAGCAAAACTCTAAGCAAGATGACTCTTCTCAAGAGAAACAGCAAAACTCTAAGCAAGATGACTCTTCTCAGGAGAAACAACTAAACTCTAAGCAAGATGACTCTTCTCAGGAGAAACAACTAAACTCTAAGCAAGATGACTCTTCTCAGGAGAAACAACTAAACTCTAAGCAAGATGACTCTTCTCAAGAGAAACAGCAAAACTCTAAGCAAGATGACTCTTCTCAAGAGAAACAGCAAAACTCTAAGCAAGATGACCCTTCTCAGGAGAAACAACTAAACTCTAAGCAAGATGATTCTTCTCAAGATAAACAGCAAAACTCTAAGCAAGATGATTCTTCTCAAGATAAACAGCAAAACTCTAAGCAAGATGATTCTTCTCAAAGTAAGCAACAAAACTCTAAGCAAGATGACTCTTCTCAAGAGAAACAACAAAACTCTAAGCAAGATGATTCTTCTCGGGATAAGCAACAAAGTGCTAAACAAGGTGATTCTTCTCAAAGTAAGCAACAAAGCTCTGGAGGTAATAGTATTTATGACTTTACCAAACCAGAAAAAGACCGTATTCATTCTCTACAAGATTTAATAGAGAAACTTAAAAAGTCTAGTGATTTTATTAATTACCATACATCTGACGATGAAACGATGCCTTATTGGATTTCTTACTATCGCCCTTCACTTGATGGAGAGAAATTACAGAAATATTTAATGCCCACTCTTTTAGAGAAACCCTGTGCTTCTCTAGAACAACTAAAAGAACATATTCCGATGAGCGGCATTACAATTACGAACGATTTACAAAAAATTGAGGATATGGTTTTAAAGGGGCATGCGATTATTCAATTGAATCAGCAAGATCAAAAGTGTATGCTTGCAAACATTGCAATTGATAATTATCGTGCACCAACCCCTCCTTTAAACGAATCAACTGTTATTGGTCCGCAAGAAGGTTTTGTAGAGGATATTGATACAAACATTAATTTAGTTCGAAAACGTCTTCCTGTTTTAGATTTACAAACAAAAGAAATGATTATCGGCGAGTTTTCCAAAACAAAAGTTGTCATGATGTATTTAGACAACCTCGCTGAAAAAGATAATGTAGATTTTCTAGAAGAGTCATTACGCGCTCTTGAATATGATCAAATTAATGATAGTGCTTATTTACAAGAATTAATGGGTGAAAAATCGATTTTTCCTCTCTATATCAATACAGAGCGCACTGATAGAGTTACAAAAGCACTAATTGATGGGAAAATTGCAATTTTTGTTGATGGTTCACCAAATGTTCTATTAACGCCCGTATCATATTTCGATTTCTTTATTTCACCAGAAGATTATAATGTCTCTTGGCTATATGCAACATTTTCAAGAGTTTTACGACTTATCGCTGTCCTTTTCTCGATTTGTGCAGCTCCATTATATGTTGCCGTTTTAAATTATCATTATGAACTAATTCCAAGCGATTTGCTGGAAACATTGATTTTATCTCGAGCGCAAGTTCCATTCCCACCTTTAATTGAAGCACTGTTTTTGGAATTAGTTATTGATTTATTAAGAGAAGCCGGCGCAAGGTTACCGATGAAAGTGGGGCAAACACTCGGTATTGTGGGCGGTATCGTAATCGGGCAAGCATCTGTACAAGCTGGGTTAACGAGTAACATTTTATTAATTATCGTTGCACTATCAGCACTCGCTTCTTTTATTACACCTATTTATAAAATGGGTAACGCTGTTCGATTACTACGCTTTCCTTTTCTTATGTTTGCAGAAATAGGCGGATTGTTCGGGATTTCTCTTGGATTTATCTTCTTATTTACTCATCTATTCAGGCTTACTTCCTTACGTAAGCCGTACGCTTTGTTTTATCCGACAAGACAACAATCCGTTAAGGACTCTTGGATTCGTTTTCCTTTAACAATGATTGATACAAGAGATGTACAAGCAAGACCACAACATGTAAAAAAATCAGCAAAAGGGATTTCAACAAAACATAGATCGGACTTTGATGATTAA	MIWNWFRKKKKSNTTEAKEADNWEQQSNNPDDDNKEQTRSMKHTKGKNNEQDDSSQEKQQNSKQDDSSQEKQQNSKQDDSSQEKQLNSKQDDSSQEKQLNSKQDDSSQEKQLNSKQDDSSQEKQQNSKQDDSSQEKQQNSKQDDPSQEKQLNSKQDDSSQDKQQNSKQDDSSQDKQQNSKQDDSSQSKQQNSKQDDSSQEKQQNSKQDDSSRDKQQSAKQGDSSQSKQQSSGGNSIYDFTKPEKDRIHSLQDLIEKLKKSSDFINYHTSDDETMPYWISYYRPSLDGEKLQKYLMPTLLEKPCASLEQLKEHIPMSGITITNDLQKIEDMVLKGHAIIQLNQQDQKCMLANIAIDNYRAPTPPLNESTVIGPQEGFVEDIDTNINLVRKRLPVLDLQTKEMIIGEFSKTKVVMMYLDNLAEKDNVDFLEESLRALEYDQINDSAYLQELMGEKSIFPLYINTERTDRVTKALIDGKIAIFVDGSPNVLLTPVSYFDFFISPEDYNVSWLYATFSRVLRLIAVLFSICAAPLYVAVLNYHYELIPSDLLETLILSRAQVPFPPLIEALFLELVIDLLREAGARLPMKVGQTLGIVGGIVIGQASVQAGLTSNILLIIVALSALASFITPIYKMGNAVRLLRFPFLMFAEIGGLFGISLGFIFLFTHLFRLTSLRKPYALFYPTRQQSVKDSWIRFPLTMIDTRDVQARPQHVKKSAKGISTKHRSDFDD				NA	NA	NA	NA	NA
AK009_02399	1125	metXA	COG2021	Homoserine O-acetyltransferase	GTGCAAATTGTAAAAAAGGAGAAGTTTGTTTTAAAAGAATTTACGTTTGAAAATGGTAGGGAAATTCCTGTTCAAATGGGATACGAGACATATGGTACGTTGAATAGAGAAAGGTCAAATGTGATTTTGGTTTGTCATTATTTTAGTGCAACAAGTCATGCGGCAGGAAAATATACAGTGCATGATGAGGAGTCTGGTTGGTGGGATGGGCTCATTGGACCTGGAAAAGCAATTGATACAAATAAGTATTTTGTTATATGTACGGATAATCTTTGTAATGTGCAGGTGAAGAATCCATATGTGATTACAACAGGACCGAAATCGATTAACCCAGAAACTGGAGAAGAATATGCTATGGATTTTCCGGTTTTTACATTTCTTGATGTAGCTCGTATGCAATATGAGTTAATAAAAGGTATGGGAATTTCAAGGTTACACGCTGTAATCGGACCGTCGGCGGGGGGAATGATTGCACAACAATGGGCGGTTCACTATCCACATATGGTAGAGCGGATGATTGGCGTTATTACGAACCCACAAAATCCAATTATTACGTCTGTAAACGTAGCACAAAATGCGATTGAGGCAATTCAACTGGATCCAAGTTGGAAAGATGGAAAATACGGAGAAGAGCAGCCGATAAAGGGGCTTCATTTAGCAAATAGAATGATGTTTATGAATGCGTTTGATGAGCATTTTTATGAAATGGCATTTCCTCGTAATAGTATAGAGATAGAACCTTATGAAAAGTTTTCTACATTAACATCATTTGAAAAAGAGATAAATAAAGCGACATATAGAAGTATAGAGTTAGTAGATGCAAATTCATGGATGTATACTGCGAAGGCAGTTTTATTGCATGATATTGCACATGGGTTTTCTTCACTAGAAGAATCTCTTTCTAACATAGAAGCGAATGTACTTATGATTCCGTGCAAACAAGATTTGCTTCAGCCGCCACGTTATAATTATAAAATGGTAGACATTTTGCAAAAACAAGGAAAATATGCGGAAGTGTATGAGATAGAAAGTATAAATGGGCATATGGCAGGAGCATTTGATATTCATTTATTTGAAAAGAAAGTTTATGAATTTTTAAATCGGAAAGTATCTAGTTTTGTGTAG	MQIVKKEKFVLKEFTFENGREIPVQMGYETYGTLNRERSNVILVCHYFSATSHAAGKYTVHDEESGWWDGLIGPGKAIDTNKYFVICTDNLCNVQVKNPYVITTGPKSINPETGEEYAMDFPVFTFLDVARMQYELIKGMGISRLHAVIGPSAGGMIAQQWAVHYPHMVERMIGVITNPQNPIITSVNVAQNAIEAIQLDPSWKDGKYGEEQPIKGLHLANRMMFMNAFDEHFYEMAFPRNSIEIEPYEKFSTLTSFEKEINKATYRSIELVDANSWMYTAKAVLLHDIAHGFSSLEESLSNIEANVLMIPCKQDLLQPPRYNYKMVDILQKQGKYAEVYEIESINGHMAGAFDIHLFEKKVYEFLNRKVSSFV				NA	NA	NA	NA	NA
AK009_02400	183			hypothetical protein	ATGTCGCTTTTTCTTTTCATTATGGGCATTGTGTTCTTAATCGCTGCAATTATTGCACTTAGTATGCAAAATAATAAAAAGATAAAATCTCCCCAAGAAATGTCATTCTTATTTCTATTACTTAGTATAGCGTTCTTCGGCATAGCAATCGCTACATATATATTCCGTCTACAAATCATGTAA	MSLFLFIMGIVFLIAAIIALSMQNNKKIKSPQEMSFLFLLLSIAFFGIAIATYIFRLQIM				NA	NA	NA	NA	NA
AK009_02401	306		COG0607	Sulfurtransferase	ATGACAGAAGTTAAAACAATTACTACAGAAGAGGTACAAGTGCGTTTAGAAAATGGAGAAACGTTATTTCTAGTAGACGTAAGAGAAGATGAAGAAGTAGCGGCAGGAAAGATTCCAGAAGCTGTACATATTAAAATGGGCGATATCCCACATAAAGTAGACTTCTTTAATAAAGAGAATGAATATATCTTTATTTGTCGTTCAGGAATGCGCAGTGAAAATGTATGTCATTATTTAAATGAGCAAGGATTTAAAACAGTGAACATGGTTGGCGGTATGCTTCAATATGAAGGTGAAACGAAATAG	MTEVKTITTEEVQVRLENGETLFLVDVREDEEVAAGKIPEAVHIKMGDIPHKVDFFNKENEYIFICRSGMRSENVCHYLNEQGFKTVNMVGGMLQYEGETK	PGPT0013055_84	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK009_02402	225			hypothetical protein	ATGGGGGTTAATTTGCGTAAAGTAAAAATTATTAATAATACAGGAGCTGTTAATGTTGGTGACTGTTATGATATCTCGCCTTTAGCTGTGGCGAAAGTATATGCAGGAGCTGGAGGATCGAGTGCGGCTATTTTTTTAAATGGAAAAAGACAGCCAGAAGCGGTGATTAGAACATCGGTATTTCTTCCGCCTTTGGCAACGAGTACACGTACGTTAGGTTCATAA	MGVNLRKVKIINNTGAVNVGDCYDISPLAVAKVYAGAGGSSAAIFLNGKRQPEAVIRTSVFLPPLATSTRTLGS				NA	NA	NA	NA	NA
AK009_02403	324			hypothetical protein	ATGCCTGCGCATATAAAAGAGTTTGTTATTGTTAATAATACTGGGAATATATTTACAGGTGATAATTTGAGTGATACTTCATTTACTGCTACGAAATCGTATAGTGGTTCAATGGGGTGTACTTGGATTGATGTTGTTACAGTAATAGGGACAGAAACGAAGCTTTGTTTACAGCCGGGAGATTCGGTGACGACGACATATACAAGGGGCACCCCTGCTGGTACTGTAACAGGAACAAATATGGGGCAAAGTGTAAATACATCGGGTATAGCGCAAGCTGTCCCTAATACAGATAATATGGATTCAATTGCAGGACTCCCTTAA	MPAHIKEFVIVNNTGNIFTGDNLSDTSFTATKSYSGSMGCTWIDVVTVIGTETKLCLQPGDSVTTTYTRGTPAGTVTGTNMGQSVNTSGIAQAVPNTDNMDSIAGLP				NA	NA	NA	NA	NA
AK009_02404	1413			hypothetical protein	GTGAAGAATCGTGATAATAAAGGGAAACAACAATCTAATTTTAGAATTCCACCAGAACTTATTGGTCCTACTTTTCCTCCTGTTCCAACCGGATTTACGGGTATAGGGATTACTGGTCCAACAGGTCCACAAGGTCCGACTGGACCGCAAGGACCGAGAGGATTTCAAGGTCCAATGGGAGAGATGGGTCCGACTGGACCTCAAGGTGTGCAAGGGATTCAAGGTCCAGTTGGACCAATAGGTGCAACTGGACCAGAAGGGCAGCAGGGAGCACAAGGATTGAGAGGACCACAAGGAGAAACTGGAGCGACAGGACCTCAAGGTGTGCAAGGGTTACAAGGTCCGATTGGTCCAACGGGAGCGACTGGGGCACAAGGTATACAAGGGATACAGGGATTGCAAGGGCCAATTGGAGCGACAGGACCTGAGGGACCTCAAGGAATTCAAGGCGTCCAAGGGTTACCGGGTGCAACTGGTCCACAAGGAATACAAGGAGCACAAGGGATACAAGGAACACAAGGACCGAGTGGAAATACAGGTGCAACCGGAGCAACGGGTCAGGGGCTAACAGGTCCGACTGGAATAACAGGCCCAACTGGGATAACTGGACCATCTGGAGGACCTCCTGGCCCGACGGGGCCAACTGGTGCGACAGGTCCGGGTGGCGGACCGAGTGGGAGTACAGGTGCGACTGGAGCAACGGGGGATACTGGGGCTACAGGAAGTACAGGTGTAACAGGAGCAACGGGAGCGCAAGGTCCCCAAGGAGTTCAAGGGATACAAGGCCCAACGGGAGCTACAGGAGCAACAGGAGCGACAGGTCCACAAGGAATTCAAGGCCCGCAAGGAATCCAAGGCCCAACAGGGGCTACAGGAGCAACAGGTTCCCAAGGACCAACTGGAAATACAGGTCCAACAGGTTCACAAGGAATACAAGGTCCAACTGGTCCAACAGGAGCTGGAGCAACCGGAGCAACAGGAGCGACCGGGGCGACTGGAGTCAGTACAACTGCAACATATGCATTTGCGAATAATACATCAGGAAGTATTATTTCTGTTTTGTTAGGTGGCACGAATATTCCGTTACCAAACAATCAAAATATTGGACCAGGAATAACCGTTAGTGGTGGAAATACTGTATTTACAGTTGCGAATGCAGGAAACTATTATATAGCCTATACAATTAATTTAACGGCAGGATTACTTGTAAGTTCCCGTATAACTGTAAATGGCAGTCCGCTTGCGGGAACGATAAACTCTCCGGCAGTGGCTGCAGGTTCATTTAGTGCAACAATAATCGCTAACTTGCCTGCTGGAGCTGCAGTTAGTTTACAATTATTTGGAGTAATTGCGTTGGCTACATTATCTACGGCAACGCCAGGGGCTACTCTAACGATTATTAGATTAAGTTAA	MKNRDNKGKQQSNFRIPPELIGPTFPPVPTGFTGIGITGPTGPQGPTGPQGPRGFQGPMGEMGPTGPQGVQGIQGPVGPIGATGPEGQQGAQGLRGPQGETGATGPQGVQGLQGPIGPTGATGAQGIQGIQGLQGPIGATGPEGPQGIQGVQGLPGATGPQGIQGAQGIQGTQGPSGNTGATGATGQGLTGPTGITGPTGITGPSGGPPGPTGPTGATGPGGGPSGSTGATGATGDTGATGSTGVTGATGAQGPQGVQGIQGPTGATGATGATGPQGIQGPQGIQGPTGATGATGSQGPTGNTGPTGSQGIQGPTGPTGAGATGATGATGATGVSTTATYAFANNTSGSIISVLLGGTNIPLPNNQNIGPGITVSGGNTVFTVANAGNYYIAYTINLTAGLLVSSRITVNGSPLAGTINSPAVAAGSFSATIIANLPAGAAVSLQLFGVIALATLSTATPGATLTIIRLS				NA	NA	NA	NA	NA
AK009_02405	1014	moaA_3	COG2896	GTP 3',8-cyclase	ATGCAGGAGATGGTTAAAGATTTTTTTGGACGCCCACTTCAAGATTTACGTATATCTGTCATTGATCGTTGCAATTTTAGATGTACATATTGTATGCCGGCGGAAATATTTGGGCCAGATTATGCTTTTTTGAAAGATGAGTTTTTACTAACTTTTGATGAAATTGAGCGTTTGGCAAAATTATTTGTTAACATCGGTGTACGAAAAATTAGAATTACTGGCGGTGAGCCACTGCTTCGTAAAGATTTAACAAAACTGATTGCACGTCTCGTGAAAATTGATGGGCTAATAGATATAGGGTTAACGACAAATGCTATCCATTTAACGAAACAAGCGAAGGCATTAAAAGAAGCTGGATTACATAGAGTGAATGTTAGTTTAGATGCGATAGATGACGACATATTTAGGAATATTAATGGTCGAAATATTAATACGAAACCGGTGATTAAGGGAATTATAGCAGCTAAAGAGGCGGGGCTGGAAGTAAAGGTAAATATGGTTGTGAAAAAAGGGATGAACGATCATCAAGTACTTCCGATGGCTGCGTATTTTAAAGAGCAAGGAATCACGCTTAGGTTTATTGAGTTTATGGATGTTGGTAGTACAAATGGGTGGAATTTTGATCAAGTGGTTACAAAACGAGAATTGATTGAGATGATTCATAAGGTGTATCCGCTTGAGCCAGCTGAAGTCCATTACTTTGGTGAAGTTGCGAAGCGATATCGGTACGTTGGAACAAATGTTGAAGTTGGTTTTATTACATCTGTTTCTGAGTCATTTTGTGCCTCTTGTACGAGGGCAAGAATTTCGGCAGATGGAAAGTTTTATACGTGCTTATTTGCGACAGAGGGTTTGAATGTAAGAGAACTTCTTAGAGGAAATCTTTCGGATGAGGAGTTATTAAGTGTTATACAAGATGTATGGATGAATAGAAAAGATAGGTATTCGGATGAACGGACAGAAGAAAGTGCAAAAAATCGTCCGAAAATCGAAATGTCTTATATAGGAGGATAA	MQEMVKDFFGRPLQDLRISVIDRCNFRCTYCMPAEIFGPDYAFLKDEFLLTFDEIERLAKLFVNIGVRKIRITGGEPLLRKDLTKLIARLVKIDGLIDIGLTTNAIHLTKQAKALKEAGLHRVNVSLDAIDDDIFRNINGRNINTKPVIKGIIAAKEAGLEVKVNMVVKKGMNDHQVLPMAAYFKEQGITLRFIEFMDVGSTNGWNFDQVVTKRELIEMIHKVYPLEPAEVHYFGEVAKRYRYVGTNVEVGFITSVSESFCASCTRARISADGKFYTCLFATEGLNVRELLRGNLSDEELLSVIQDVWMNRKDRYSDERTEESAKNRPKIEMSYIGG	PGPT0008410_1991	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
AK009_02406	1014			hypothetical protein	ATGCAGGAGCGATATTCAAGACAAATATTATTTTCTGGTGTTAGAGAAGAAGGACAGAGAAAAATAAGAGAGAAGCATGTGCTTATTATTGGTGCTGGTGCTCTCGGTGCGGCAAATGCAGAAGCGATTGTTAGAGCAGGTGTTGGAAAAGTAACGATTGCTGATCGTGATTATGTAGAATGGAGTAATTTACAAAGACAACAACTATATACGGAAGAAGATGCAAAGCAGTATAAACCGAAGGCGATAGCGGCTGCAGAACATTTACAAGCGATTAATTCTGAGGTGGAAATAAATCCAGTTGTGACGGATGTAACGGTGCAAGAAATGGAAGAGCTAGTGCGTGATGTAGATTTAATATTAGATGCGACAGATAATTTTGAAACGCGTCTTCTTATTAATGATATTTCACAAAAGTATAATATTCCGTGGATATATGGTGGGTGTGTCGGAAGTTACGGAGTAACGTATACAATTTTACCAGGGAAAACACCGTGTTTTCGCTGTTTAATGGAGCATCCGGCGAGCGGAGCAACATGTGACACAGCTGGTATTATACAACCGGCAGTACAATTAGTAGTTGCGCATCAAATTACGGAAGCGCTGAAAATATTAGTAGAAGACTTTGGGGCGCTTCGTGAAACGATGTTATCATTTGATCTTTGGAATAATCAACAGATGGCATTTAAAGTGAATAGGCAGAAAAAAGATACTTGTTTATCTTGCGGAAGGTTACGTACATATCCGAGTTTAACATTTGAAGCACAAACAAAAACAGAAGTGTTATGTGGGCGAAATACAGTACAAATTCGCCCGGGTGTGCGGAAGAATTTTAATTTAGAAGAAATTAAAAAGCGCTTACAAAGAAGTGTAGAGATAAAGGCGACACCTTATCTATTATCATTTCCGGTAGAAGAATATCGTTTTGTTTTATTTACAGATGGCAGGGCGTTCATTCATGGGACGAATGATATGAATGTAGCGAAAAGTTTATATGCAAGATATATAGGTTGA	MQERYSRQILFSGVREEGQRKIREKHVLIIGAGALGAANAEAIVRAGVGKVTIADRDYVEWSNLQRQQLYTEEDAKQYKPKAIAAAEHLQAINSEVEINPVVTDVTVQEMEELVRDVDLILDATDNFETRLLINDISQKYNIPWIYGGCVGSYGVTYTILPGKTPCFRCLMEHPASGATCDTAGIIQPAVQLVVAHQITEALKILVEDFGALRETMLSFDLWNNQQMAFKVNRQKKDTCLSCGRLRTYPSLTFEAQTKTEVLCGRNTVQIRPGVRKNFNLEEIKKRLQRSVEIKATPYLLSFPVEEYRFVLFTDGRAFIHGTNDMNVAKSLYARYIG	PGPT0008935_104	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008935-thiF-K03148	NA	NA
AK009_02407	486	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	ATGTCTTCATTTACACATTTTAATGACCAAGGACGCGCAAAAATGGTTGATATAAGTGACAAAAAAGCAACCGTTCGAACAGCAATTGCGTGCTCTAGCATTGTCGTTACGAAAGAAATTTACGATAAAATCTCTCACAATGAAATTGGGAAAGGTGACGTATTAGCAGTTGCGCAAATCGCAGGCATTATGGCTGCGAAACGAACTTCTGATATTATCCCAATGTGCCATCCTTTATTATTAAAAGGTGTTGACGTTTCTTTTGATTGGAAACAATCAGAAGAACAATATCGTTTACTCATTGAAGTAAAAGTTAAAACAGAAGGTAGCACCGGTGTTGAAATGGAAGCTTTAACAGCTGCTTCCGCTACCGCTCTTACTGTGTATGATATGTGTAAAGCTGTCGATAAAGGTATGATTATCGGCGAAACATACTTACTTGAAAAAACAGGTGGAAAAAGTGGAGATTATACGAGAAATTCATAA	MSSFTHFNDQGRAKMVDISDKKATVRTAIACSSIVVTKEIYDKISHNEIGKGDVLAVAQIAGIMAAKRTSDIIPMCHPLLLKGVDVSFDWKQSEEQYRLLIEVKVKTEGSTGVEMEALTAASATALTVYDMCKAVDKGMIIGETYLLEKTGGKSGDYTRNS	PGPT0008405_1875	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
AK009_02408	1290	moeA_3		Molybdopterin molybdenumtransferase	ATGGTAGAAAAACGAATTCCAATTCAAGTTGCTGAAGCAGTAGAACGGGTAATGAAATATGCGAAGCATGGTGAAGTAGAAGAAATTTCTATTACGGAAAGTTACGGGAGAATTCTCGGGGAAGATGTTGTCTCAGATCATGACGTTCCTCATTTTGATCGTTCCCCTTACGACGGTTTCGCCATTCGAGCAGAAGATACGAAAGGAGCAACCCAAGAGAATCCAGTTGAATTTGAAGTAATAGGAGAGATCGGGGCGGGTTCTGTTTTTTTAGAAGAAGTAGGAGCTTTTGAAGCGATTCGAATTATGACAGGAGCAGCTATTCCAGAAGATTGCAATGCAGTTGTAATGCTAGAGCTGACAGAAGGATTTGAGAAGAACGGAAAAACATATATGAAGTTAAAACGCCCTTTTAATAACGGTGACAATGTGTCGTTTAAAGGAGAAGATATAAAACAAAATCAAGTTCTCGTTAAGAAAGGTGTGGCAATTAATCCAGGAGTTGCGGCCTTACTAGCAACGTTTGGATATAGCACTGTGAAAGTTATAAAACAGCCTGTTGTCGGTATTGTAACGACAGGGAGTGAATTATTAGAAGTACATGAGCCGTTAGAACCGGGGAAAATTAGAAATAGTAACTCGTATATGATCGCAGCTCAAATTATGAAAGCTGGCGGGAAAGTTCGTTATTATGGTCAACTCGCGGATGAGTTAGATGCATGTTTTACAGCTATTCAATTAGCGATGGATGAGGTCGACATTTTAATTACAACTGGCGGTGTATCGGTAGGAGATTATGACTACTTACCAGCTATTTATGAAAGGTTACAGGCGAATGTACTCTTTAATAAAATAGCCATGAGACCTGGAAGTGTAACGACAGTAGCTGAATTTGATGGGAAGTTACTTTTCGGTTTATCAGGAAATCCGTCTGCTTGTTATGTAGGCTTTGAATTATTTGTCCAACCAATTATAAAAACGTATTTGTATGCGAAGGAACCTCACGTATATAGAGCGGATGCTATTTTACAAAAAGATTTTCCAAAGCCAAATCCATTTACTCGTTTCGTAAGAGCAAACGTAACGATTGTGGACGGGGCGTTACAAGCGATGCCGGTCGGTTTAGATAAATCGAGTGCAGTATCTTCACTTGCAGATGCGAATGCTTTTATTGTGTTACCTGGAGGAACGAGAGGATTTGAGACCGGGATGAAAGTATCTGTATTATTGTTAGAGCACTCTGAGGGATGTGATTGGCCATGGGCAAAGCCACTTCAATCTTACAAATAG	MVEKRIPIQVAEAVERVMKYAKHGEVEEISITESYGRILGEDVVSDHDVPHFDRSPYDGFAIRAEDTKGATQENPVEFEVIGEIGAGSVFLEEVGAFEAIRIMTGAAIPEDCNAVVMLELTEGFEKNGKTYMKLKRPFNNGDNVSFKGEDIKQNQVLVKKGVAINPGVAALLATFGYSTVKVIKQPVVGIVTTGSELLEVHEPLEPGKIRNSNSYMIAAQIMKAGGKVRYYGQLADELDACFTAIQLAMDEVDILITTGGVSVGDYDYLPAIYERLQANVLFNKIAMRPGSVTTVAEFDGKLLFGLSGNPSACYVGFELFVQPIIKTYLYAKEPHVYRADAILQKDFPKPNPFTRFVRANVTIVDGALQAMPVGLDKSSAVSSLADANAFIVLPGGTRGFETGMKVSVLLLEHSEGCDWPWAKPLQSYK	PGPT0008430_1465	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_02409	516	mobB	COG1763	Molybdopterin-guanine dinucleotide biosynthesis adapter protein	ATGGGCAAAGCCACTTCAATCTTACAAATAGTAGGATATCAAAATAGCGGAAAAACAACGCTTGTGGAGAAAATAGTGCATGCATTAGCTGAACGGGAAATGAAGGTTGCTACCATTAAACATCACGGGCACGGAGGTTTTCCAGAAGTAGCGCAAAAAGATAGCGAAAGACACCGTAAAGCTGGTGCTGTCGTAAGTAGTGTAGAAGGTGCTGGATTGCTTTCACTTTCTTCACTAAGAAAGAAATGGTCCTTGCAAGAAATTATTCGCTTATATGAGTTTTTTGAAGTGGATACAATTTTAATAGAGGGCTATAAAAAAGAGAACTACCCGAAAGTAGTGTTACTTCGTTCTGCGGAAGACGTTGAGCTTTTACATAAAGTAGAAAATATAGTAGCGATTATTACGTGGTATGATGCCCCGGCAAATATACGAGAAGAATATAAAGTATTTCATATAACAGAAGAAGAGTTGTACATAGACTGGTTTTTACAAACGGTTAGGAGTGCGAAATGA	MGKATSILQIVGYQNSGKTTLVEKIVHALAEREMKVATIKHHGHGGFPEVAQKDSERHRKAGAVVSSVEGAGLLSLSSLRKKWSLQEIIRLYEFFEVDTILIEGYKKENYPKVVLLRSAEDVELLHKVENIVAIITWYDAPANIREEYKVFHITEEELYIDWFLQTVRSAK				NA	NA	NA	NA	NA
AK009_02410	465	moaE_3		Molybdopterin synthase catalytic subunit	ATGACAAATACATATTATGAAGTAATTAATACAGAAATCTTGATTGAAGAGGTAACGAAGAAAGTGATTCGACGTGAATGCGGTGCTGTTACAACATTTATTGGAACCGTTAGAGAGTTTACGAAAGGGCGTCGTACATTATACTTAGAGTATGTTGCTTATAAGACGATGGCAGAAAAGATGCTAGAGAAAATTGGCCTGGAAGTGAAAGAGAAATGGCCGGATACATATGTTGCGATTACACATCGCATCGGTACGTTGCAAATTTCTGATATAGCGGTTGTTGTTGCTGTTTCAACACCACACCGTAAAGCGGCTTATGAAGCGAACGAATATATTATGGAACGCATAAAACAAATTGTTCCGATTTGGAAAAAGGAGTTTTGGGAAGATGGTGACTCATGGATTGGTGATCAATTAGAAAAAACACCATATCCGGCGGGAGAGCCTGGGAAGGAGCTATAA	MTNTYYEVINTEILIEEVTKKVIRRECGAVTTFIGTVREFTKGRRTLYLEYVAYKTMAEKMLEKIGLEVKEKWPDTYVAITHRIGTLQISDIAVVVAVSTPHRKAAYEANEYIMERIKQIVPIWKKEFWEDGDSWIGDQLEKTPYPAGEPGKEL	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
AK009_02411	234	moaD_3		Molybdopterin synthase sulfur carrier subunit	ATGATTCGAGTATTGTTATTTGCGCACTTGCAAGAAGAAGCAGGGACAAGTGAATTACAAATAGAGAAAGAAAATATTACGGTTGCAGAGTTAAAAGATGTTGTTGCGAAAGAATATAATGTACCAGTTTCAGAGCCAATTATGGTTGCGATTAATGAAGAATACGCAAATGAAGATGACAGGGTCCAATCTGGTGATGTTGTTGCACTAATTCCACCAGTGAGTGGTGGTTAA	MIRVLLFAHLQEEAGTSELQIEKENITVAELKDVVAKEYNVPVSEPIMVAINEEYANEDDRVQSGDVVALIPPVSGG	PGPT0008415_30	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK009_02412	414			hypothetical protein	ATGAAAAAAATATGTGTAATTATTACAGTGATATGTTCTATCTTTTTCTCTTCTCCAAGTGATTCTTTCGCGAAAGAATCAAGGGAACAGCTTTTAGAGAGTGCTTTATTGAATAGGTACTATTCGGTTATTAGACAAGTGACAAAAGATCAATATGAATGTGATTCAGTTATAAATATAAAGCGTCTCGGCAGGAAAGATGAATTTGTTCCTAGATTTGAAGTGACGCTACAATTTCTTACTTTTCAAGGGGCGCATAATCCCCCAAATGACAAAGTTACACTTACTTTGGAGGATTATTTAGATCATATAAAGGTAAAAAATGTGGAGCGAGAAAAGAATGTTTCTAATGATGTTGTAGAAAAGATTTGTGCTCGCAAAAAAGAAAAAATGAAAGCTCATTCTAATGATTGA	MKKICVIITVICSIFFSSPSDSFAKESREQLLESALLNRYYSVIRQVTKDQYECDSVINIKRLGRKDEFVPRFEVTLQFLTFQGAHNPPNDKVTLTLEDYLDHIKVKNVEREKNVSNDVVEKICARKKEKMKAHSND				NA	NA	NA	NA	NA
AK009_02413	858	glcU_1	COG4975	putative glucose uptake protein GlcU	ATGGATATATTTTTAGCAATTTTACCAGCTATATTTTGGGGAAGTATTGTGCTATTTAATGTAAAACTGGGTGGGGGACCGTATAGTCAAACGCTCGGAACAACGTTTGGAGCACTTATTTTCTCAATTGTTGTTTATATTTTTATGAAGCCAGTATTAACACCTACCGTTATTGGAGTTGGAGTTGTTTCAGGTTTATTTTGGGCACTTGGTCAGGCGAATCAATTAAAAAGTATTGATTTAATGGGTGTTTCGAGGACGATGCCAATTTCAACAGGACTTCAATTAGTCGCGACGACTTTATTTGGCGTTATCGTATTTCATGAATGGTCCACGACAATATCGGTCGTCCTTGGGATTTTAGCGCTCGTTTGTATTATTATCGGTGTTATTTTAACATCGCTTCAAAGTGAAGAAGAAAAAAATGCAGAGCAAGCAGCAAACTTTAAAAGAGGTATCGTAATTTTATTAATTTCAACAGTCGGTTATTTAGTTTACGTAGTAGTGATTAGACTATTTAACGTAGATGGTTGGTCAGCTTTGTTGCCACAAGCAGTTGGTATGGTGTTAGGTGGGATTTTGCTTACCTTTAAACATCAGCCATTTAATAAATATGCAATCCGAAATATTATTCCAGGATTAATTTGGGCAGCTGGAAATATGTTTTTATTCATTTCGCAGCCGCGTGTTGGAGTCGCAACAAGTTTCTCGCTATCGCAAATGGGAATTATTATTTCCACGCTTGGTGGGATTCTTATATTAGGTGAAAAGAAAACGAAACGCCAATTAACGGGTATCGTTGTCGGTATCGTTTTTATTATTGCAGCCGGAATTATGTTAGGTATAGCCAAAAGTTAA	MDIFLAILPAIFWGSIVLFNVKLGGGPYSQTLGTTFGALIFSIVVYIFMKPVLTPTVIGVGVVSGLFWALGQANQLKSIDLMGVSRTMPISTGLQLVATTLFGVIVFHEWSTTISVVLGILALVCIIIGVILTSLQSEEEKNAEQAANFKRGIVILLISTVGYLVYVVVIRLFNVDGWSALLPQAVGMVLGGILLTFKHQPFNKYAIRNIIPGLIWAAGNMFLFISQPRVGVATSFSLSQMGIIISTLGGILILGEKKTKRQLTGIVVGIVFIIAAGIMLGIAKS				NA	NA	NA	NA	NA
AK009_02414	786		COG1028	Glucose 1-dehydrogenase	ATGTATAGTGATTTAGCAGGGAAAGTTGTCGTTATTACAGGATCAGCAACTGGTCTCGGAAGAGCGATGGGAGTGAGGTTTGCTAAGGAAAAAGCGAAAGTGGTTATTAATTATCGCTCACGAGAATCAGAAGCAAATGGTGTGTTAGAAGAAATTAAAAAGGTAGGCGGCGAAGCGATTGCTGTAAAAGGTGATGTAACGGTCGAATCAGATGTTGTGAATCTCATTCAATCTGCTGTGAAAGAGTTTGGTACGCTTGACGTTATGATTAATAATGCAGGGATAGAAAACGCGGTACCGTCGCATGAAATGCCGCTTGAAGATTGGAATAGGGTAATTAATACAAATTTAACAGGTGCTTTTTTAGGAAGTCGTGAAGCGATTAAATATTTTGTAGAACATGATATTAAAGGGTCTGTCATTAATATGTCTAGTGTTCATGAGAAAATTCCGTGGCCACTATTTGTGCACTATGCAGCAAGTAAGGGTGGTATTAAACTGATGACAGAAACGTTAGCGCTAGAATATGCGTCAAAAGGTATTCGAGTAAATAATATTGGGCCAGGTGCAATTAATACGCCGATAAATGCAGAAAAATTTGCTGATCCAAAGCAGCGTGCTGACGTAGAAAGTATGATACCGATGGGCTATATTGGAAAACCTGAAGAAATTGCAGCAGTAGCAACTTGGCTTGCTTCTTCAGAGGCGAGTTATGTAACGGGAATTACGCTATTTGCAGATGGTGGAATGACGTTATATCCATCGTTTCAAGCTGGGCGTGGGTAA	MYSDLAGKVVVITGSATGLGRAMGVRFAKEKAKVVINYRSRESEANGVLEEIKKVGGEAIAVKGDVTVESDVVNLIQSAVKEFGTLDVMINNAGIENAVPSHEMPLEDWNRVINTNLTGAFLGSREAIKYFVEHDIKGSVINMSSVHEKIPWPLFVHYAASKGGIKLMTETLALEYASKGIRVNNIGPGAINTPINAEKFADPKQRADVESMIPMGYIGKPEEIAAVATWLASSEASYVTGITLFADGGMTLYPSFQAGRG	PGPT0014705_637	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK009_02415	480	carD_2	COG1329	RNA polymerase-binding transcription factor CarD	TTGTTTCAAATTGGTGATAAAATCGTTTATCCAATGCACGGTGCAGGAATTATCGAAGCAATTGAAGAGAAAGAAATATTAGGTACTTCACGTCAATATTGTGTGATACGCATCATTAGTAAAGATATGCAAGTAATGCTTCCGATGGAACAATTAAAAAAATCAGGTATTCGTTATATCGTTGATCGAGGTACGTTAGATGATATACTTCTTGAATTTCAAAACGGGGAGTCAGACCCATCACTCTCATGGAAACAAAGATATACAATGAATATGGAAAAAATGAAAAATGGCAATTTACAAGATAGCGCAGAAGTGGTTCGGGATTTACTTCGCCGTAATAAAGAGAGAACATTAAATGCGAGCGAAAAACAAATGCTAGATAATGCCCGAAAAATGATGATTAGCGAAGTCGCGCTCGTACAAAATGTTACTGAACATCAAGCAACAGAATTTCTTCAAGATACAATTAATCATTAA	MFQIGDKIVYPMHGAGIIEAIEEKEILGTSRQYCVIRIISKDMQVMLPMEQLKKSGIRYIVDRGTLDDILLEFQNGESDPSLSWKQRYTMNMEKMKNGNLQDSAEVVRDLLRRNKERTLNASEKQMLDNARKMMISEVALVQNVTEHQATEFLQDTINH	PGPT0014830_1399	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
AK009_02416	237			hypothetical protein	GTGGGGCGCACAATAAAAATTGATATTACAAATAAAGTTGTAGCTAAATTTAGACCAAATTATTTGGAATTATATACGAGTAAATTTATGATAGGTAAGTTTTATGTCTATACTGAAGATAAAAAATATGTGTTAGAAGACGGATATATATATGAGAATGGAAAGTTTTATCGCATCATAGATACGCACCGTGGCAATAATCAAGCGGCGGAGGGCTGCGATCTAGGATGGTGTTAA	MGRTIKIDITNKVVAKFRPNYLELYTSKFMIGKFYVYTEDKKYVLEDGYIYENGKFYRIIDTHRGNNQAAEGCDLGWC				NA	NA	NA	NA	NA
AK009_02417	183			Sporulation protein cse60	ATGATTCGTGTGAAAGTGTTTGATGAAAGTCACGAAAAAGACTTAGAAGACGCTGTGAATGTTTTTTTGAAAAAGATTGATGATAGCAACTTTGTAGATATTAAGTACCAAGTTGGTGTTTCCATTAACGACGATGAAAACCAAATTTATTGTTTTTCAGCAATGATCGTTTATAAAGCATAA	MIRVKVFDESHEKDLEDAVNVFLKKIDDSNFVDIKYQVGVSINDDENQIYCFSAMIVYKA				NA	NA	NA	NA	NA
AK009_02418	228			hypothetical protein	ATGTTCTATTGCATTAACTGCTCTGATATTCATCATGAAAAACATCCGAATGATAAAGTATTCAAAAACGGTTTTTATATTGATCCATTTTTAGGTGATCGTTATCACCTTGGTATGTGTAAAGATGCCCAAAACCATGAAACAGGGGAGCCTCTTTTAACGACAAAGAAATCAGGCACAACCCAATCTATTATGAACGTATTACCGACACATGTTGTCCCAACATAA	MFYCINCSDIHHEKHPNDKVFKNGFYIDPFLGDRYHLGMCKDAQNHETGEPLLTTKKSGTTQSIMNVLPTHVVPT				NA	NA	NA	NA	NA
AK009_02419	432	yndB	COG3832	putative protein YndB	ATGGAACAACAAAATACATTAAATGATATTAAACAAACAATCGTTTTTAACGCGTCTATTCAAAAGGTATGGAGTGTAGTATCAACTGCAGAAGGGATTGCGTCATGGTTTATGCCAAATGATTTTGTATTAGAGGTAGGACATGAATTTCATGTGCAATCACCATTTGGGCCATCACCATGTAAAGTGTTAGAAATTGATGAGCCAAACCATTTATCTTTCTCATGGGATACAGATGGCTGGATTGTTTCATTTAATTTGAAAGACTTAGGAGATAACAAAACAGAATTTACGTTAATTCACGGCGGCTGGAAACATCCTGATGAAATTCTTCCGAAAGCAAATGCGAAGAGCTCTATTATTCGCGATAGAATGAGCGGTGGTTGGGTAGCGATTGTAAATGAAAAACTGAAAAAGGTTGTCGAAGGCTAA	MEQQNTLNDIKQTIVFNASIQKVWSVVSTAEGIASWFMPNDFVLEVGHEFHVQSPFGPSPCKVLEIDEPNHLSFSWDTDGWIVSFNLKDLGDNKTEFTLIHGGWKHPDEILPKANAKSSIIRDRMSGGWVAIVNEKLKKVVEG				NA	NA	NA	NA	NA
AK009_02420	324		COG0640	HTH-type transcriptional regulator	GTGTCCTCGTCAGCAGCGAAATATGATGTATTTCAAGCAATTGCTGATCCAACCCGCCGAGAAGTAATACGGTTATTAAGTGACAAAGAGTTACCGATTTCCAAAATAACGGATCATTTCCCGATGAGTCGTACTGCGGTTGTAAAGCACCTTCATATTCTTTCGGAAGCGAATTTAGTAAGTGGAAGAAAAAGCGGAAGAGAGAAGATATATCGTTTGCATCCAGAACCATTAGAAGAATTACAACAGTGGCTCTCGTATTATGAGCGTTTTTGGGATAATAAATTATCCATGCTGAAACATATTGTGGAGAATGAAGAGTAG	MSSSAAKYDVFQAIADPTRREVIRLLSDKELPISKITDHFPMSRTAVVKHLHILSEANLVSGRKSGREKIYRLHPEPLEELQQWLSYYERFWDNKLSMLKHIVENEE	PGPT0004735_3488	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_02421	1440	bmr3_2		Multidrug resistance protein 3	ATGAGAAAAAAAGTCATGATGTCTTTAATGTTAATGACGTTTCTTTCTGCGGTAGAAGGAACGATTGTTAGTACAGCAATCCCTCGTATAACGAGTGATTTGTCAGGCGTCGAACTTGTTAGTTGGGTATATGCAATTTATATGCTTGCAACAGCTGTTTCGACTCCAATATACGGAAAGCTCGCTGATTTATTCGGCCGTAAAAAAGTTTTACTGATCGGAGCTACAATCTTTTTAGTCGGTTCTGCACTTTGCGGAGTCGTTACATCGATGGAACAATTAATTTTCTTCCGCGCTCTTCAAGGTATCGGTGCTGGTGCTGTTATGCCAATCACAATGACGATAATTGGAGACTTATATAGCGAAGCGAAAGACCGCGCGAAAGCACAAGGTTGGATGAGTGCCGTTTGGGGTGTATCCGGTGTTATCGGACCGTTAGTAGGTGGATTTTTAGTTGATTCCCTTTCTTGGCGCTATATTTTCTTCTTAAACGTTCCATTTGGAATTATCGCTTGCTTAATGATTGCAATTTACTACAAAGAATCTATTAAGCCCGCTAAACACCATATCGATTATCTTGGTGCAACAGTTTTTTCATTAAGTACAATCGCTCTACTATATGCATTATTAACAGGTAGCAGTAAGCAAAACTGGGGAGACATGACAATTATCGGCCTATTAATCTTTGCCGCTATTTCATTCATTATTTTCTTGTTCATCGAGAAAAAATCTCCGGAACCATTAATTCCTTTAACACTTTTCTCTAACCGTACATTATCTACGATAAATATATTAACTCTTATTGCTGGCGCAATGATTATTAGTATTACAATGTACCTACCAATCTGGAGCCAAGGTGTATTAGGAAAAAACGCTACAGAAGCTGGACTTATTTTAATGCCAATCCCTGTTATGTGGACATTTGGCGCTATTTTCTCTGGTAACTTAGTAGGCAAATTAAAAACGAAACAAATCATTTTACTTGGGGCTAGCATTTTATCAGTCGCTACGTTCTTATTATTTACACTATCAACCAATTCACCATCGTTCCTTATTTATGTAGCAGTTGGATTATTCGGCTTAGGAATGGGGCTTGTGACACCGATTTACATGGTAACAATTCAAGCAGCAGTCCCAGCTCATACACGCGGAACAGCTGTTGGTTTAAACACATTTATTAATACATTTAGTCAAACGTTAGGTGCTGCAATATTCGGTACAATCTTCAATACGATGATTCACGCACGTGGTATTAAAAATCTTGATCTTGTATCTGGTGGACATGGCGGTACTACAGCAAACGTAGTAACCGAATCACAATCCGCATTAGCATCAAGCGTACACGTCATTTATATGAGCACTTTCGTATTAGCAGTATGTACATTAATTATCGCTTGGATTTTATTAAAGCCAGCTACACAAACAAGTGAGCAACAATAA	MRKKVMMSLMLMTFLSAVEGTIVSTAIPRITSDLSGVELVSWVYAIYMLATAVSTPIYGKLADLFGRKKVLLIGATIFLVGSALCGVVTSMEQLIFFRALQGIGAGAVMPITMTIIGDLYSEAKDRAKAQGWMSAVWGVSGVIGPLVGGFLVDSLSWRYIFFLNVPFGIIACLMIAIYYKESIKPAKHHIDYLGATVFSLSTIALLYALLTGSSKQNWGDMTIIGLLIFAAISFIIFLFIEKKSPEPLIPLTLFSNRTLSTINILTLIAGAMIISITMYLPIWSQGVLGKNATEAGLILMPIPVMWTFGAIFSGNLVGKLKTKQIILLGASILSVATFLLFTLSTNSPSFLIYVAVGLFGLGMGLVTPIYMVTIQAAVPAHTRGTAVGLNTFINTFSQTLGAAIFGTIFNTMIHARGIKNLDLVSGGHGGTTANVVTESQSALASSVHVIYMSTFVLAVCTLIIAWILLKPATQTSEQQ				NA	NA	NA	NA	NA
AK009_02422	1272		COG2081	putative protein	ATGCATTATGATGTTATTGTCATCGGCGGCGGTCCTTCTGGGCTAATGGCTGCAATTGGTGCTGCAGAAGAAGGCGCAAATGTCCTGCTTCTTGATAAAGGAAATAAACTTGGGCGTAAACTTGCGATTTCTGGTGGCGGACGCTGTAACGTAACGAACCGTCTACCACTTGATGAAATTGTTAAACATATACCAGGAAACGGTCGCTTCTTATACAGCGCTTTTTCTCTTTTTAATAATGAAGATATTATTACATTCTTCGAAAATCTTGGTGTTAAATTGAAAGAAGAAGACCACGGTCGCATGTTCCCCGTGTCAAACAAAGCGCAATCTGTTGTAGATGCACTTTTAACACGATTAAAAGACTTAGGTGTAAAAATCCGTACAAATACGCCTGTTGAAACGATTGAATATGAAAATGGTCAAACGAAGGCAGTTGTACTGCAAACAGGCGAAGTGTTAGAAACAAATCATGTCGTTATCGCTGTTGGCGGAAAATCCGTTCCTCAAACTGGTTCCACTGGAGACGGATACGCTTGGGCTGAAAAAGCAGGTCATACAATTACAGAATTATTCCCAACAGAAGTACCTATCCTGTCAAACGAGCCGTTTATACGTGATCGCTCATTACAAGGTCTTGCTTTACGTGATATAAACTTAAGCGTATTAAACCCGAAAGGAAAAGCTATCATTTCTCACAAAATGGACATGCTCTTCACTCATTTCGGCCTATCTGGTCCTGCTGCTCTTCGCTGTAGTCAATTCGTCGTGAAAGCACTGAAAAAGTTTAAAACGAACACAATACAAATGAGTATTGATGCATTGCCAGAGGAAAATAGTGAGCAACTATTTCAGCGCATGCTGAAACAAATGAAAGAAGATCCGAAAAAAGGAATTAAAAACGTTTTAAAAGGTTATGTCCCTGAACGTTACTTCCTATTCTTATTAGAAAAAAATGAAATTGACGGTAGTGAACAAGCTGGACAAGTTTCTCACGAAAAGATTCGTGCACTTGTGAAAGACTTTAAAGAGTTTACTGTGAATGTAAATGGTACGCAGTCAATTGAAAAAGCATTCGTTACTGGCGGAGGTGTATCCGTGAAAGAAATTAATCCGAAAGAAATGTCTTCTAAATTCACGAACGGCTTATATTTCTGCGGAGAAGTTCTTGATATCCACGGTTATACTGGTGGCTATAATATTACATCAGCCCTCGTTACTGGTAGAATTGCTGGAACGACAGCTGGAGAAAACGCGAAAATGCAATATTAA	MHYDVIVIGGGPSGLMAAIGAAEEGANVLLLDKGNKLGRKLAISGGGRCNVTNRLPLDEIVKHIPGNGRFLYSAFSLFNNEDIITFFENLGVKLKEEDHGRMFPVSNKAQSVVDALLTRLKDLGVKIRTNTPVETIEYENGQTKAVVLQTGEVLETNHVVIAVGGKSVPQTGSTGDGYAWAEKAGHTITELFPTEVPILSNEPFIRDRSLQGLALRDINLSVLNPKGKAIISHKMDMLFTHFGLSGPAALRCSQFVVKALKKFKTNTIQMSIDALPEENSEQLFQRMLKQMKEDPKKGIKNVLKGYVPERYFLFLLEKNEIDGSEQAGQVSHEKIRALVKDFKEFTVNVNGTQSIEKAFVTGGGVSVKEINPKEMSSKFTNGLYFCGEVLDIHGYTGGYNITSALVTGRIAGTTAGENAKMQY				NA	NA	NA	NA	NA
AK009_02423	1653	murJ_2	COG2244	Lipid II flippase MurJ	ATGTCCGATTCGAAATTTCTGCGCGGAACGCTTATTGTTACGCTAGGGACATTTTTAGTAAAGTTCTTAGGCATGATTTACGTCTTCCCGTTTCATGCATTAGTAGGTACAGAAGGCGGAACGCTCTATACATATGGATACATTCCATATACGATCTTTTTAAGTATCGCAACGGCAGGTGTGCCGCTTGCTGTTTCAAAATTTGTTTCCAAATATAATGCGCTTGGCGATTATAAAACGAGCCGGAGAATGTTCCGCTCGGGAATGGTTATGATGATAGTAACAGGAGTTCTTTCGTTCCTAGTACTGTACATGACGGCACCGTTGTTTGCAGAAGCGATGCTTGGTAAACAAAGTATACACAATAATGTAGGAGAAGTTACGACGATCATTCGTCTTGTAAGTTTCGCACTTATTGTTGTACCAGCAGCGAGTTTAATTCGTGGTTATTTCCAAGGTCACCAGTCTATGGGACCAACTACCGTTTCACAAATTATTGAACAAATTATTCGTATCGTCTTTTTATTAGCAGGTAGTTTTATCGTTATTAAAGTACTTGGCGGTACAGTTGCAACAGCAGTTGGAGTAGCGACATTTGCTGCGTTCGTTTCAGCGGTTGGAGCACTCGGTGTGTTAATTTGGTACTGGTTAAAACGTAAAAAATATTTGGATCAATATTTAATTGAACAAACTGTACCAGAATCAACAGTAAGTACTGTTCAATTGTTTAAAGAGTTATTCGCATATGCGATTCCTTACGTTGTAATTGGGTTAACAATTCCTTTATATCAACAAATTGATACATTGACATTTAACTCAATTATGCAGGCGATTGGTCAAGGTGATATCGCAGAGCGAGCGCTGGGTATTTTCACAATGTGGACGCATAAGTTAATTATGATTCCTGTATCACTTGCAACAGCGTTTAGTTTAACGCTTGTACCAGCAATTACAAAATCATTTACTGAAAAACAATACCGCTATTTGAAATTACAAATTACACAAACATTCCAGGCAAATATGTTTTTAACATTGCCAGCAGTTATCGGTATTTCAACACTTGCATATCCAATTTACACTGCTTTCTATGACTCAGATCCATTAGGTGGACAAGTATTAATGTGGTATGCACCAGTTGCATTGTTATTTGCTTTATTTACAGTAACAGCGGCAATTCTTCAAGGGATTAATCAGCAAAAGCATGCAATTGTCGCGCTTATTATGGGTGTTATTTTGAAATTTGTATGTAACGTAATCTTTATTCGTTATTTCGGTACAGTAGGAGCAATTCTAGCGACCGCAGTTGGTTTCTTAGCTTCTGTTTGGTATACAAATCGACAAATTAAAAAATACGCACACTATTCATTCGGTGTTGTATATAAAAGAACATTCCAAATTGCAGTACTGACACTTATAATGGTCGTTGCTGTAAAACTATCACAATGGCTTCTATCCTTCATGATTTCGCCTGATGGCCGTATTGGTGCTCTTATAACAGTTGCGATTTGTGCAGGTATTGGTGGTCTTGTTTACGGATTGTTAGCAATTCGCACAGGAGTACTTGAAAGAGTATTTGGCGGAGAAGCATTGGATAAAATTCAACGTAAACTTGGTAGTAGATTTAAAATAAAGTTGAAATCAAGAGGGGCGTAA	MSDSKFLRGTLIVTLGTFLVKFLGMIYVFPFHALVGTEGGTLYTYGYIPYTIFLSIATAGVPLAVSKFVSKYNALGDYKTSRRMFRSGMVMMIVTGVLSFLVLYMTAPLFAEAMLGKQSIHNNVGEVTTIIRLVSFALIVVPAASLIRGYFQGHQSMGPTTVSQIIEQIIRIVFLLAGSFIVIKVLGGTVATAVGVATFAAFVSAVGALGVLIWYWLKRKKYLDQYLIEQTVPESTVSTVQLFKELFAYAIPYVVIGLTIPLYQQIDTLTFNSIMQAIGQGDIAERALGIFTMWTHKLIMIPVSLATAFSLTLVPAITKSFTEKQYRYLKLQITQTFQANMFLTLPAVIGISTLAYPIYTAFYDSDPLGGQVLMWYAPVALLFALFTVTAAILQGINQQKHAIVALIMGVILKFVCNVIFIRYFGTVGAILATAVGFLASVWYTNRQIKKYAHYSFGVVYKRTFQIAVLTLIMVVAVKLSQWLLSFMISPDGRIGALITVAICAGIGGLVYGLLAIRTGVLERVFGGEALDKIQRKLGSRFKIKLKSRGA	PGPT0017190_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328	NA	NA
AK009_02424	729	rsuA	COG1187	Ribosomal small subunit pseudouridine synthase A	GTGAGATTAGATAAATTATTAGCGAATATGGGATATGGAAGTAGAAAAGAAGTAAAGAAATTATTGAAAGATGGCGTTGTGAAAATTGATGGAACGCCAGTAAAAGATGCGAAAGTTCATGTAAATGTAGAAGAGCAAGAAGTTATGATTCACGGTGAAGTTGTGGAATACAAAGAGTTTGTTTACTTAATGATGCATAAACCACAAGGTGTTATTTCAGCGACGGAAGATGATAATCATGAAACAGTAATAGATTTATTAGAATTAGAAGATGCAATCTTTGATCCGTTCCCAGTTGGACGACTTGATATCGATACGGAAGGTTTCTTATTGATAACAAATGATGGGAAGTTATCACATCAATTATTATCTCCGAAAAAGCATGTGCCGAAAAAATATTATGCACACGTTGCAGGAGTAGTAACAGAAGAGGATGTAAAAGAGTTTGCTAAAGGTGTTATCTTAGACGATGGCTATGAAACAAAACCAGGTACGCTTACAATATTGAAAAGCGATGATATTTCCGAAATTGAGCTTGTGATTACAGAAGGGAAATTCCATCAAGTGAAGCGTATGTTTGAAGCGGTAGGGAAAAAAGTAGTCTACCTAAAGAGAACGGAGATGGGTCCGTTAGTATTAGATGAAGAACTAGAACTTGGACAATACCGAGAGCTAACAGATGAAGAAGTAGAAATGTTAAAAACATATCAAGTAGATACTGAAAAGTAG	MRLDKLLANMGYGSRKEVKKLLKDGVVKIDGTPVKDAKVHVNVEEQEVMIHGEVVEYKEFVYLMMHKPQGVISATEDDNHETVIDLLELEDAIFDPFPVGRLDIDTEGFLLITNDGKLSHQLLSPKKHVPKKYYAHVAGVVTEEDVKEFAKGVILDDGYETKPGTLTILKSDDISEIELVITEGKFHQVKRMFEAVGKKVVYLKRTEMGPLVLDEELELGQYRELTDEEVEMLKTYQVDTEK				NA	NA	NA	NA	NA
AK009_02425	222	ytzE	COG1349	putative HTH-type transcriptional regulator YtzE	TTGAAACCTACAACTACTCGTATGCTAACACGCATTAAATCAATTTATATGTACATCAATGAAAACGGAACGGTAACGACGAAAGACCTTGTAGATGAGTTCGGGATCACACCGCGAACGATACAACGTGATCTAAATGTGTTGCAGTTTAATGAACTCGTGTATAGCCCTTGCCGCGGTAAGTGGACAACAACAGGAAAGAAAGTGAGAATGACCTCATAA	MKPTTTRMLTRIKSIYMYINENGTVTTKDLVDEFGITPRTIQRDLNVLQFNELVYSPCRGKWTTTGKKVRMTS				NA	NA	NA	NA	NA
AK009_02426	1407			Putative dipeptidase	ATGTCAGCGATTAATTGGACAGAAGAAGTTGCAAAACGAAAAGATGATTTAATTCGTGATACACAACAATTTTTACAAATTAAAAGTGTATGGGAAGAAGAATCGGCGAAAGAGGGCGCACCATTCGGTGAAGGGGTAGAAAAAGCGCTATCTTTCATGTTACATAAAGGAGAAGCTGAAGGTTTTGCTTCTAAAAATTTAGAAGGATATGCAGGTCATCTTGAAATGGGACAAGGAGAAGAATTAGTAGGTATTCTTTGTCACGTTGATGTTGTACCAGAAGGAGATGGCTGGACGACTCCCGCATATAGTGCGGATATTCGCGATGGAAAGATTTTTGCACGTGGTGCAATTGACGATAAAGGCCCAACGATGGCAGCATATTATGCGATGAAAATTGTGAAAGAATTAGGCTTACCTCTTTCAAAACGTGTTCGTATGATTATAGGAACAGATGAAGAAAGCAATTGGAAATGTGTAGATCACTACTTTAAAAACGAAGAAATGCCAACAATCGGTTTTGCACCAGATGCAGATTTTCCAATTATTAATGCAGAAAAAGGAATTTCTGATATACAAGTTGTGCAAAATGGTAGTGAAGAGAAAAAAGGTACATATGAACTTGTTTCATTTGATTCAGGGCGACGTTTAAATATGGTTCCTGATTTTGCAGAAGCGGTTATTACAGGAGAAGATGTAAATGCACTTACAGTAGCATATGAAGAGTATTTACAAACTGCTAAAAAAATAGGGGAATCGACTATAGAAGGTAATACAGTGACGTTGCAAATAAAAGGAATTTCAGCGCACGGATCTACTCCTGAAAAAGGAGAAAATGCAGGTTTATTATTAGCAAACTTCTTGACTACAGTTTCACTTGATGGAAAAGCAACTGCATTTGCGACATTTGCAACAGAAACATTTACTGGTGATATTTTGGGTGAAAAAGCTACTATTGCTTATAAAGATGAAATTAGCGGTCCGTTAACAGTGAATGTTGGTCGCCTTTCTTATACGAAAGAAAACGGTGGTAACTTAGGGCTAAACGTACGTTACCCAGTTACAACTAACTTTGAAGAAACAATTGCGAAGTTGAAAGAGTATGTTGGTACGCATGGATTTGAAGTAGCTGACTATTCTAATTCACGCCCGCATCACGTTGATAAAGACCACGTATTAATTCGTACGTTACAACGTGTATATGAAGAACAAACAGGTGAAAAAGCAGAACTATTAGCAATTGGCGGAGGTACTTATGCTCGTTCATTAAAAGCTGGTGTGGCATTTGGACCGCTATTCCCTGGAAAGGAAGAACTTGCGCATCAAAAAGATGAGTACATTGAAATTGAAGACTTATTAAAAGCAACAGCAATTTATGCGCAAGCAATTCATGAATTAGCGAAGTAA	MSAINWTEEVAKRKDDLIRDTQQFLQIKSVWEEESAKEGAPFGEGVEKALSFMLHKGEAEGFASKNLEGYAGHLEMGQGEELVGILCHVDVVPEGDGWTTPAYSADIRDGKIFARGAIDDKGPTMAAYYAMKIVKELGLPLSKRVRMIIGTDEESNWKCVDHYFKNEEMPTIGFAPDADFPIINAEKGISDIQVVQNGSEEKKGTYELVSFDSGRRLNMVPDFAEAVITGEDVNALTVAYEEYLQTAKKIGESTIEGNTVTLQIKGISAHGSTPEKGENAGLLLANFLTTVSLDGKATAFATFATETFTGDILGEKATIAYKDEISGPLTVNVGRLSYTKENGGNLGLNVRYPVTTNFEETIAKLKEYVGTHGFEVADYSNSRPHHVDKDHVLIRTLQRVYEEQTGEKAELLAIGGGTYARSLKAGVAFGPLFPGKEELAHQKDEYIEIEDLLKATAIYAQAIHELAK				NA	NA	NA	NA	NA
AK009_02427	546	ytlP		RNA 2',3'-cyclic phosphodiesterase	ATGGATAGGCATTATTTTGTCGCAATTACGTTACCAAATCATATAAAAGAAGTGCTGTCTAACTATAAAGAGGATACGAATGAGAAATTACCATTTCGCTCGTGGGTACATAAGGAAGATTATCATATTACCCTTTCCTTTTTAGGAGGTGCGACAGAAGAACAGTTAAAAGGGATAAAGAATGGATTACAAACACTTATAAAAACAAAAGAACTATCGTTCACGTTACAAGGTTTTTCAACGTTTGGTAGGGAAGATCAGCCCCGTATTCTTTGGGCGAAGGTAAGTGAGAATCATGATTTGTTTCAGTTACAAAAGCAAGTACATGCCATTTGTGAAGAAAATGGTTTTTCTCTAGAAACACGCCCGTATCATCCACATATTACTGTTGCTCGTAAATGGATAGGAGAAGAAAAGTTTCATTTAGAAAGTATAAAAGAAGTGCCTGAAATATCATTTCAAGCAGATACAATTACTTTATACGAATCCCACGTGAAAGAAACCCCGAAGTATAAATCGATTGCTGAAATAAAATTACAAAAATAG	MDRHYFVAITLPNHIKEVLSNYKEDTNEKLPFRSWVHKEDYHITLSFLGGATEEQLKGIKNGLQTLIKTKELSFTLQGFSTFGREDQPRILWAKVSENHDLFQLQKQVHAICEENGFSLETRPYHPHITVARKWIGEEKFHLESIKEVPEISFQADTITLYESHVKETPKYKSIAEIKLQK				NA	NA	NA	NA	NA
AK009_02428	2142	amyX	COG1523	Pullulanase	ATGTTGAAAGTAAAACGTCCATTTGATGCCTATTTAGATGAAATGAATAAAATTACAATTTTGCTCCCACATGCGTATGGAACAAGTCGGACATTTCGTTTGCAAGAAGGAAGTAATGTGAAAGATTTACCGATTGCTCATACTATTGCACTTCCAGATGCAACGAAGTATGAGTGCTTTATAGAAGAGCCGCTAGATGTGGGGAAGTATTATACAGTACGAGATGAACGGAATGAAGAAACGGATTTACAAATAGGTGCTGTTATTCGAACAACAATTTTCGATGAAAAGTATTATTACGAAGGTACAGATTTAGGTGCTGTGTATCAAAAAGAAGAAACGACATTTAAAGTATGGGCTCCAACCGCAAGGCTTGCGAAAGTAAGAATTTATAAGAGTGATAAAGAATATACCGATCATGAAATGTACAGAGAAGAAAACGGAGTTTGGATTCAAACATTACAAGGGGATTTAGACGGAGCATGCTATACATTTCTTGTTTGTATTAATTTAATATGGAACGAAGCTGTGGATCCTTATGCAAAGTCGGTGACGGTAAACGGCAAACACGGTGTTGTTATCGATTTAGAAAAAACGAGTGTAACAAGACGAGAGGGATTACCACCATTACAATCAATGACAGATGCCATATTGTATGAACTGCATATTCGTGATGCGACTATACATCAAAATAGTGGAGTGAGTCAAAAGGGAACATATAAAGGATTGATGGAAGAGGGAACAACGGGACGGAACGGGACGTTAACAGGGTTGTCTCATATAAAAGATTTAGGTGTTACACATGTTGAACTATTACCTTTATATTGTTTCGGTGGTGTAGATGAGGCGAATCCTTCGTCCGCCTATAATTGGGGGTATAATCCATTATATTACAATGCACCAACAGGATTTTATGCTACAAATCCCTCTGATCCGTATAACAGGATAGTTGAGTGCAAACAACTAATTGAAACATTTCATGAACAAGGTATTAGGGTGATCATAGATGTTGTATATAATCATGTTTATGAAAGAGAGCTATCATCATTTGAAAAGCTTGTTCCAGGCTATTATTTTCGTCATGGTGAAGATGGTATGCCTTCTAATGGGACGGGAGTCGGAAATGATATAGCGTCTGAACGGAAAATGATGAGGAAATTCATTGTAGAGTCTATTTTATATTGGCTTACTGAATACAATGTCGATGGATTCCGATTCGACTTAATGGGAATTTTAGATGTTGATACAATGAATGTGATAGAAAAAGAAGTACGAAACATAAAACGAGATGCTTTATTATTAGGAGAAGGATGGGATTTACAAACACCACTTCCTGCCAAAGAAAAAGCAACGTTAAATAATGCGAAGAACATGCCGCATATTGCGCAGTTTAATGATCAATTTCGTGATGGGATAAAAGGGAGTACATTTCATATAAACAAGCGTGGTTTTGCATTTGGTGGGTCTGTAGACTGTAATCATTTGCAGTATATTGCAGCAGGAAGTCTTTTAAGTATGAAAGAAACAGGGCTGTTTCTAGAGCCGGCGCAAAGCATTAATTATGTAGAATGTCATGATAATATGACGATGTGGGATAAACTAGTGCGCAGTAATGAAGAATCAGAAGCGATTTTGAAAAAACGTCACCTGCTAGCGAGCGCAATGGTTATTCTTTCACAAGGCATTCCTTTCTTACATGCAGGACAAGAGTTTTATCGTACGAAGAAAGGAAATGAAAATAGTTATAATGCAAATGATGAGATCAATCAATTAGATTGGGATCAAAAAGAGAAAGAGATAGAGACTGTTAACTATATAAAAGGTTTAATTGCGATTCGTAAAGAGCATGGGGCATTCCGATTACAAAACGCAGACCTTATAAAAAAACATATGACTTTTTTACAAACATCTACAGAAGTACTTGCATACCACCTGCAAAATGTAAAATCGTTTGGACCGTGGAAAGAGATTGTCGTTTTATTTAATAGCGGTTTAGAAGCTAAAACGGTGCAACTTCCGAAAGAAGAAACGTGGCATGTGTTAGTAAACGAAAACGAAGCGAAAATAGATCCAATTTCTTTATTTAGAGGAAAGGAACTTAGGCTCGCTCCAATTAGCACGTATATATTGACGATAATGTGA	MLKVKRPFDAYLDEMNKITILLPHAYGTSRTFRLQEGSNVKDLPIAHTIALPDATKYECFIEEPLDVGKYYTVRDERNEETDLQIGAVIRTTIFDEKYYYEGTDLGAVYQKEETTFKVWAPTARLAKVRIYKSDKEYTDHEMYREENGVWIQTLQGDLDGACYTFLVCINLIWNEAVDPYAKSVTVNGKHGVVIDLEKTSVTRREGLPPLQSMTDAILYELHIRDATIHQNSGVSQKGTYKGLMEEGTTGRNGTLTGLSHIKDLGVTHVELLPLYCFGGVDEANPSSAYNWGYNPLYYNAPTGFYATNPSDPYNRIVECKQLIETFHEQGIRVIIDVVYNHVYERELSSFEKLVPGYYFRHGEDGMPSNGTGVGNDIASERKMMRKFIVESILYWLTEYNVDGFRFDLMGILDVDTMNVIEKEVRNIKRDALLLGEGWDLQTPLPAKEKATLNNAKNMPHIAQFNDQFRDGIKGSTFHINKRGFAFGGSVDCNHLQYIAAGSLLSMKETGLFLEPAQSINYVECHDNMTMWDKLVRSNEESEAILKKRHLLASAMVILSQGIPFLHAGQEFYRTKKGNENSYNANDEINQLDWDQKEKEIETVNYIKGLIAIRKEHGAFRLQNADLIKKHMTFLQTSTEVLAYHLQNVKSFGPWKEIVVLFNSGLEAKTVQLPKEETWHVLVNENEAKIDPISLFRGKELRLAPISTYILTIM	PGPT0012195_708	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
AK009_02429	798			hypothetical protein	ATGAATATGGAATGGTTGGAACAATTATTAGGAAAAGAGTGGAGTCTTGTACCGGCTGGTGGAGTAACGGGCGATGCATATATTGCGCAAAACGGACAACAGAAGTTATTTTTAAAGCGGAATACATCGCCCTTTTTAGCGGTATTGTCAGCAGAAGGAATTGTTCCAAAATTACTTTGGACAAGAAGGGTAACGAATGGTGATGTAATTTCTGCTCAAAAATGGCTTCCGGGACAGAAGCTAGAGCCAGAGGATATGAAACTAGAACGTGTTGCGAAACTTTTGAAGAAAATACACTCCTCTAAAGCGCTTGTACAGATGATTCAAAGACTTGGGAAGCAGCCGCTTCACGCACAAGAGTTATTACAACAACTGCAACTCGTTTTAAGAGGAGATATAAGGGATGATGAAACAATTCAGCAAGGCCTTCAATATTTAATGGGTTCATTAAAAGCTATTGAATACAATGAATTTGTTGTATGCCATTGTGATGTAAACCATAACAATTGGATATTGTCGGATGAAGATGAGTTGTTTTTAATTGATTGGGATGGAGCTGTAATTGCTGACCCGGCTCTAGACCTTGGTATGTTATTATATTGGTACATTCCGCGCCAGGAGTGGAGTGAGTGGCTCGGTTTTTATGATATTGAAATGGATGAATCGCTGCTTAGGCGTATGAGATGGTATGTGATAGCACAAACGATTTTGTCTATTCAATGGCATACAACAAAAAAACAGCAAGCAGAAGCTGAATATTGGCATCAATATTTACAGCAACTACTTGCTTCAGAATAA	MNMEWLEQLLGKEWSLVPAGGVTGDAYIAQNGQQKLFLKRNTSPFLAVLSAEGIVPKLLWTRRVTNGDVISAQKWLPGQKLEPEDMKLERVAKLLKKIHSSKALVQMIQRLGKQPLHAQELLQQLQLVLRGDIRDDETIQQGLQYLMGSLKAIEYNEFVVCHCDVNHNNWILSDEDELFLIDWDGAVIADPALDLGMLLYWYIPRQEWSEWLGFYDIEMDESLLRRMRWYVIAQTILSIQWHTTKKQQAEAEYWHQYLQQLLASE				NA	NA	NA	NA	NA
AK009_02430	279			hypothetical protein	ATGCCAATTAATCAACAACATCAATTAGAAGTGCTGAAAGATATTTTAGTCAACCACCAAAGTGATTGCTGCGGGACAGTTTCAGAATGCGAGCAATTAGAGCGCCTCATTCAATCGTTACTCGCAAACGATAATATAAGTAGTGACGCTAAAACAATGCTAAACGATGTATATTCTTATAGTCAATCGGGTAAATCTTCCTCTAATTTGGACAACCATATTTCCAATAATCAAGAACAACTTACTCAGTGGATTGCTGGAATGGACAATTTTTCTTAA	MPINQQHQLEVLKDILVNHQSDCCGTVSECEQLERLIQSLLANDNISSDAKTMLNDVYSYSQSGKSSSNLDNHISNNQEQLTQWIAGMDNFS				NA	NA	NA	NA	NA
AK009_02431	654	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGCGTTTAAGACATAAACCATATGCAATGGATCGAATTAACGAGTATTCACATATCGTAATCGGAAACCCAGAGGAGCGCGCTGGTAACTGGAAAGAAGTATTTGGAAATGAACAACCAATTCATATTGAAGTAGGTACAGGTCGTGGCCGCTTTATGTATGATATGGCAAAAGCGAATCCACATATTAATTATATTGGAATTGAAAAATTCACAAGTGTTGTTGTAGATGCACTTGATAAATTAATTGAAGAAGAAGTGCCGAACTTAAAGTTAATTAATAAAGATGCTGAAGATTTAACAGTTTTCTTTGCAAAAGGTGAGATTGATCGCGTTTATTTAAACTTCTCAGATCCATGGCCAAAGAAGCGTCATACGAAGCGTCGTTTAACGTATAAAACGTTTTTACGTAATTATGAAGAAGTGTTAGTAGAAGGCGGAGAAATTCATTTTAAAACAGATAACCAAGGTTTATTTGAATATTCTCTTATGAGTATGGCTGAGTATGGTATGTTACTAACGTACTTAAGCTTAGATCTTCATAACAGCGACTTTGAAGGTAACATCATGACTGAATACGAAGAGAAATTCTCTAGTAAGGGTCATCGTATTTACCGAGTTGAAGCAAAATATCGTACAGAGCCTATGCAGTAA	MRLRHKPYAMDRINEYSHIVIGNPEERAGNWKEVFGNEQPIHIEVGTGRGRFMYDMAKANPHINYIGIEKFTSVVVDALDKLIEEEVPNLKLINKDAEDLTVFFAKGEIDRVYLNFSDPWPKKRHTKRRLTYKTFLRNYEEVLVEGGEIHFKTDNQGLFEYSLMSMAEYGMLLTYLSLDLHNSDFEGNIMTEYEEKFSSKGHRIYRVEAKYRTEPMQ				NA	NA	NA	NA	NA
AK009_02432	855	ytnP	COG0491	putative quorum-quenching lactonase YtnP	ATGGAACAGTTACAAATTGGAGATATAAAAGTAACGTGGTTAAAAGGCGGGAATACACATTTAGATGGAGGGGCAATGTTTGGTGTTGTGCCGAAAGTACTTTGGTCACGTAAATATACACATAATGACACAAATCATATTTACTTACGAACAGATCCGTTACTATTACAAACGAAAGATGGAAATATGCTCATTGATTCAGGAATAGGAAACGGTAAGTTGAATGAGAAGATGAAACGAAATCAAGGTGTAACAGAAGAGTCATCGGTGTATGAATCATTAAAAAAATTAGGATTAAAGTCTGAAGATATCAACTACGTCTTAATGACACATCTTCATTTTGATCATGCATCTGGTCTAACAAAATGGGAAGATGATTACCTTGTACCGGCATTTCCAAATGCGAAAGTTTACGTAAGTGAAACAGAATGGAATGAAATGAGGAATCCAAACATTAGATCACGTAATACATATTGGAAGGAAAATTGGGAGCCAATTGTAGATCAAGTTGTTACGTTCCAGCAAGAAATAGAAATTACAGATGAAATCAAGATGACGCATACGGGTGGTCATAGCGATGGACATGCAGTTATCGCTTTGGAGAGTCAAGGAGAAACGATGCTACATTTAGCAGACCTATTGCCGACACACGCGCATCAAAATGTATTATGGGTAATGGCATACGATGATTATCCGATGACTTCGATTGAAAATAAGCAAAAGTGGATGAAGTATGGTGCTGAAAAAGAGGCGTGGTTTACGTTTTATCATGACGCATATTATCGTGCTGTGAAGTGGAATGAGGAAGGACATATTGTAGAAAAAATAGAACGGAAAACGAGTATAGAAGCTTAA	MEQLQIGDIKVTWLKGGNTHLDGGAMFGVVPKVLWSRKYTHNDTNHIYLRTDPLLLQTKDGNMLIDSGIGNGKLNEKMKRNQGVTEESSVYESLKKLGLKSEDINYVLMTHLHFDHASGLTKWEDDYLVPAFPNAKVYVSETEWNEMRNPNIRSRNTYWKENWEPIVDQVVTFQQEIEITDEIKMTHTGGHSDGHAVIALESQGETMLHLADLLPTHAHQNVLWVMAYDDYPMTSIENKQKWMKYGAEKEAWFTFYHDAYYRAVKWNEEGHIVEKIERKTSIEA				NA	NA	NA	NA	NA
AK009_02433	312			hypothetical protein	ATGAGTTGGAAAGGTTTAGTAGCAGGTCTTGGCGTTGGGTTCGCAGCTGGTTATCTCGTTGCAAACAAAGTACAAGAACAATCCCATATTTCTTCAGAAAAAGCATTGAAAATGGTGAAACAAGCATTAAGTCATAAAGGTGAAATTACTGGCTCTTGGGTACATATGGTTCCAGAGACATTTGAAAAATATGATGTCGCATATGAAGTTTATCGCGGCGGTCTTACAACAATGTTAGATGATATACAAGAACGATTTGAATTTTTAGTTGATGCTAAAACAGGTACTGTTTTAGAAGTTATAGCAGCATAA	MSWKGLVAGLGVGFAAGYLVANKVQEQSHISSEKALKMVKQALSHKGEITGSWVHMVPETFEKYDVAYEVYRGGLTTMLDDIQERFEFLVDAKTGTVLEVIAA				NA	NA	NA	NA	NA
AK009_02434	1074	ysdC_1	COG1363	Putative aminopeptidase YsdC	GTGAATAAAGAGACATTACAATTATTTCGTACGTTAACAGAATTACAGGGGGCATCAGGTTTTGAACATGATGTACGCCGTTTTATGAAACAAGAATTAAGCAAATATGCGGATGAAATTGTACAAGACGGTTTAGGTAGCGTATTTGGTCTGAAAAAAGGGGACGAAACTGGCCCGCGTGTTCTTGTAGCAGGTCATATGGATGAAGTAGGTTTCATGGTTACACAAATTACGAAAAATGGAATGCTTCGTTTTCAAACGTTAGGCGGCTGGTGGAGCCAAGTTTTATTAGCACAGCGTGTACAAGTTATGACGAAGAATGGTCCTGTTATTGGGGTTGTTGGTTCTATTCCTCCTCATTTATTAAGTGACGCGCAACGTGCAAAACCGATGGATATAAAAAATATGTTAATTGATATAGGTGCAGATAGTTATGAAGATGCGATTGAAATTGGTGTAAAACCAGGACAACAAATCGTGCCGATTTGCCCATTCACACTGATGGCAAATGAGAAGAAAATTATGGCGAAAGCTTGGGACAACCGTTACGGATGTGGTCTTGCAATCGAATTGTTAAAAGAATTAAAAGATGAAACATTACCAAATACATTATATTCTGGTGCTACTGTACAAGAAGAAGTAGGCCTTCGCGGAGCGCAAACAGCTGCAAATATGATTCAACCAGACATTTTTTATGCGCTTGATGCAAGTCCAGCAAACGATGCATCTGGTGACAAAACGCAGTTCGGTCAATTAGGAAAAGGTGCTCTTCTTCGTATTTACGATCGCACGATGGTAACACATAGAGGAATGCGCGAATTCATTTTAGATACAGCAGAAACAAACAACATTCCGTACCAATACTTTATTTCACAAGGTGGTACAGATGCGGGCCGTGTACATACAAGTAACTCTGGTATCCCATCAGCAGTAATTGGTGTTTGTGCACGCTACATTCATACACATGCTTCAATTTTACATGTTGATGATTATGCAGCGGCGAAAGAATTAATTACGAAGCTTGTAAGAGCAACGGATAAAACGACGTTAGAGACAATTAAGAATAACGCGTAG	MNKETLQLFRTLTELQGASGFEHDVRRFMKQELSKYADEIVQDGLGSVFGLKKGDETGPRVLVAGHMDEVGFMVTQITKNGMLRFQTLGGWWSQVLLAQRVQVMTKNGPVIGVVGSIPPHLLSDAQRAKPMDIKNMLIDIGADSYEDAIEIGVKPGQQIVPICPFTLMANEKKIMAKAWDNRYGCGLAIELLKELKDETLPNTLYSGATVQEEVGLRGAQTAANMIQPDIFYALDASPANDASGDKTQFGQLGKGALLRIYDRTMVTHRGMREFILDTAETNNIPYQYFISQGGTDAGRVHTSNSGIPSAVIGVCARYIHTHASILHVDDYAAAKELITKLVRATDKTTLETIKNNA				NA	NA	NA	NA	NA
AK009_02435	531		COG1986	Inosine/xanthosine triphosphatase	ATGTATATAGAGGTGAATGAAATGAAAGTAGTAGTTGGATCGAAGAATAAAACGAAAGTTGGTGCTGTGGAGAAGGTTTGGAAAGATGCTACAATTACATCTCTCTCTGTTCCTTCAGGAGTAGCAAATCAGCCGTTTTCAGATGAAGAGACGATGCAAGGAGCGATTAATAGAGCGAAGCGAGCGCTAGAGGAAGGAGAAGCTCCAATTGGTATTGGGCTAGAAGGCGGTGTGATGAAAACGGAGCACGGTTTATTTATGTGTAACTGGGGCGCGCTAGCAACAAGTGATGGGAAAGTATTCGTGGCTGGAGGAGCGCGTATTACGTTACCAGACGATTTTTTAGCACCTCTTGAAGATGGCAAGGAGTTAAGTGAAGTGATGGAAGAGTTTGTACATAGAAAAGATATTCGTAGTCACGAAGGAGCGATTGGTATTTTTACAGATGATTATGTCGACCGCACGGAATTATTTGTACACGTTGTTAAGTTACTTGTTGGGCAATATAAGTATGACAAAAAGCAAGCATAA	MYIEVNEMKVVVGSKNKTKVGAVEKVWKDATITSLSVPSGVANQPFSDEETMQGAINRAKRALEEGEAPIGIGLEGGVMKTEHGLFMCNWGALATSDGKVFVAGGARITLPDDFLAPLEDGKELSEVMEEFVHRKDIRSHEGAIGIFTDDYVDRTELFVHVVKLLVGQYKYDKKQA	PGPT0021540_760	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
AK009_02436	315	ytpP		Thioredoxin-like protein YtpP	ATGAAGTCATTAGAAAGCATGGAGCAATTCCAACAATTAAAAAATGAAGAGAATGTAGTCTTTATGTTCTCAGCAGAATGGTGCCCAGACTGCCGTTTTGTAGACCCATTTATGCCAGAAGTAGAAGAGAAATATAGTGATTTCTCATTTTACTATGTAGATCGTGATGAGTTTATTGATCTATGTGTAAAATTAGACGTATTTGGCATTCCGAGCTTTGTAGCGTACAATAAAGGTGAAGAAACTGGTCGCTATGTAAACAAAGATCGTAAAACACAAGAACAAATCGAAGAGTTCATTGAAGGTTTAAAATAA	MKSLESMEQFQQLKNEENVVFMFSAEWCPDCRFVDPFMPEVEEKYSDFSFYYVDRDEFIDLCVKLDVFGIPSFVAYNKGEETGRYVNKDRKTQEQIEEFIEGLK				NA	NA	NA	NA	NA
AK009_02437	813			hypothetical protein	ATGAAGATGACAAGTAAAAAGATGAAAGACGAGTTAATGAAGAAATTATCTCGTCCAGAGTGGGACTTTCAGTATGATAGCGAGAAAGAGGTTCTACGTATAGAACAGAAAGACTCGAAAAAAGGTATTAACGTATCACTTCCAGGAGTTGTAGCAAAATGGGAAGTGAACAAAGAAAAGGCAATTGAAGAAGTTGCTTATTACGTACAAGAAGCGCTAATTGCGATGCATAAAGAAGAAAATAGCGGAGCAAAAATTTTACCTGTTATTCGTTCTACTTCTTTCCCGAAACAAGCAGAAGAAGGAAATCCGTTTATTATGACGGATCATACGGCGGAAACACGTATTTACTATGCGTTAGATTCGAATAAAACGTATCGACTAATTGATGAACGTCTGTTACAAAAATTAGAACTTACAGAACAGCAAGTGCGTGAAATGGCATTATTCAACGCACGCTCATTAGGTTATGAATTTAAACAAGACACAGTAGCGGGTAATACATTCTACTTTTTAAACACAAATGATGGGTATGACGCGACTCGTATTTTAAACGAATCGTTACTACAATCGATGCGTGAAAAGATTTCTGGTGACATGGTTGTTGCTGTTCCTCACCAAGATGTATTAATTATTGCTGATATCGTCAACGAAATCGGTTATGATATTATTGCACAAATGACAATGAAATTTTTTGCCGAAGGGCATGTTCCGATTACATCACTTTCATTCGTATATGAAGATGGAGAATTTGAACCAATCTTTATTTTAGCGAAAAATCGGAAGAAGACAGATGGAAAAGAGAAAGGATGA	MKMTSKKMKDELMKKLSRPEWDFQYDSEKEVLRIEQKDSKKGINVSLPGVVAKWEVNKEKAIEEVAYYVQEALIAMHKEENSGAKILPVIRSTSFPKQAEEGNPFIMTDHTAETRIYYALDSNKTYRLIDERLLQKLELTEQQVREMALFNARSLGYEFKQDTVAGNTFYFLNTNDGYDATRILNESLLQSMREKISGDMVVAVPHQDVLIIADIVNEIGYDIIAQMTMKFFAEGHVPITSLSFVYEDGEFEPIFILAKNRKKTDGKEKG				NA	NA	NA	NA	NA
AK009_02438	606			hypothetical protein	GTGAACGTTTTTTACAACCTTGAAGGAATTGGTGACACTTTAATTGTTGCCTTACAAGATATTACTTTAGAGAACCGTACTTTTGATCGCAAAGGAGATGTTGCACGCGTTTATGATCGTGAAAGCAACGTAACGGGAGGATTCAACATCTTTAATGCATCTTCTTATTTAGAAGTAACAGAAACAGGTAACCTTACATTAACGAAAGAGCTTGTTGAGAAAATCAACGAAATTTTAGCGAAGAACGGCTTTGAAGAAACAGTAGAAGCAGATCTTTCTCCGAAATTTGTTGTAGGTTATGTAGCTGAAAAAGAAAAGCATCCAAATGCTGATAAGTTAAACATCTGTAAAGTAGAAATCGGTACAGAAACATTACAAATCGTATGTGGCGCACCAAATGTTGATGCAGGACAAAAAGTTGTCGTTGCAAAAATCGGTGCTGTAATGCCAAGCGGTATGTTAATTAAGCCAGCTGAGCTTCGCGGTGTTCCTTCTTCTGGAATGATCTGCTCTGCACGTGAATTAGAGCTTCCAGACGCTCCACAAGAAAAAGGTATTCTTGTATTAGAAGATAGTTTTGAAGTTGGACAAGAATTTAAATTTTAA	MNVFYNLEGIGDTLIVALQDITLENRTFDRKGDVARVYDRESNVTGGFNIFNASSYLEVTETGNLTLTKELVEKINEILAKNGFEETVEADLSPKFVVGYVAEKEKHPNADKLNICKVEIGTETLQIVCGAPNVDAGQKVVVAKIGAVMPSGMLIKPAELRGVPSSGMICSARELELPDAPQEKGILVLEDSFEVGQEFKF				NA	NA	NA	NA	NA
AK009_02439	345			hypothetical protein	ATGAAACAACAACCAAAAATCGCAGAACTTCTAAAACGAATTGAAACTTCAAAACAGCAAGATGTTGAGCTAGGTACTTATGAAATATATGTGTTTAGTGAAAGTGAATTAGAAAAAGGACAAATCGGTTACCGATATGATAAACATAAAAATTCATTAATAAGTGAAGAAAACGGAAAGTGGCAAGAAGGATGGATTGCAATTGGATATGAAACGGATATGGGTGATCCAGTTTTCGTAAATATAGATGATAACGCTTATCCGGTTTATACTGCAGAGCGTGGTACAGAAACGTGGCATCCTGTTTATATTGGAAATATGGATGAGATTATAGGGCAATTATAA	MKQQPKIAELLKRIETSKQQDVELGTYEIYVFSESELEKGQIGYRYDKHKNSLISEENGKWQEGWIAIGYETDMGDPVFVNIDDNAYPVYTAERGTETWHPVYIGNMDEIIGQL				NA	NA	NA	NA	NA
AK009_02440	954			hypothetical protein	ATGAAGTATATAAAAATAATGAGCATGATTGCATTCATTGGAATATATATGGCTGGTTGTTCACAAGAGCAGCCGAAAAAAGAAACTACATCTTCTATACAAGAGAAAAGAAAAGATACCAAAGAAGATGCACCGGTAGAAAAGCAGCAAGAACAAGAAAAGAACGAAGAATCGCAAGCAATTAAAACGAATGAGCAAGTGGAGCATAAGCAGGAGGAAATGCCGACTGAAGAAAAGATAGAGGAAACTACACCGGTGCTGCCAACTGAGCAACCAGTGCAAAATAATGAACAAAAAGTAGAGAGTAATGAAAAACAAGAGAAGTTTCTCGTCGTTATTGATCCAGGGCATCAACAAAAAGCGAATTTAAATTTAGAGCCGATTGGGCCAGGGGCAACAACACAAAAATATAAAGTCACAGATGGTACAACTGGTGTTGTGACGAAAAAAAGAGAGGCCGTACTTGTATTAGAAATGGCTTTCGTATTAAAAGAAAAGTTAGAAGCGAAGGGAATGCAAGTATTAATGACGAGAACGTCACAAGACGTTGATATAAGTAATAAAGAACGGGCGACATTCGCAAACAATCATAAGGCAAATTTATTTTTACGTCTTCATGCAGATGGTTCTGAAAATCCAAACCAAAGTGGATTTGCTGTATTGACGCCAGCAGAAGACAGTCCGCATACGAAAGAGATTTATGCGGAAAGCCTTCAAATCTCTCAAATGATTTTAAATAAAATGAGGGAGAACCAGCAAGTGAAAGTAAATGGAATTAAATTCAGGGATGATCTTTCTGGATTTAATTGGTCCAAAGTACCTGGTGTACTATTAGAACTTGGGTTTATGTCAAATCTTGAAGAAGATAAAAAATTATCTGACCCGCAGTATGTAAATTCTTTATTGCAAAGTGTAACGGATAGTATAGATGCATATCGGAAGCGTAAAGCTTAA	MKYIKIMSMIAFIGIYMAGCSQEQPKKETTSSIQEKRKDTKEDAPVEKQQEQEKNEESQAIKTNEQVEHKQEEMPTEEKIEETTPVLPTEQPVQNNEQKVESNEKQEKFLVVIDPGHQQKANLNLEPIGPGATTQKYKVTDGTTGVVTKKREAVLVLEMAFVLKEKLEAKGMQVLMTRTSQDVDISNKERATFANNHKANLFLRLHADGSENPNQSGFAVLTPAEDSPHTKEIYAESLQISQMILNKMRENQQVKVNGIKFRDDLSGFNWSKVPGVLLELGFMSNLEEDKKLSDPQYVNSLLQSVTDSIDAYRKRKA	PGPT0024160_4999	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_02441	3858			hypothetical protein	ATGTTAGATTGGATGAAAAAGTTGTTTAACAAAGAGGAAGAACAAACAGCGTTGAATAAAGAAGTACAAAAGCAAATTGAAAGTCAGCCGAAAATTCCTCGTGTAAACCACTACACTGAAGCAAGAGAAGCACAAATGGCAAGTAGGAATGCAGGTAAATGCCGTTTTCCTTTAGTACCGGATAATGGGTTCGATGAAGAGGATGAAAGAGAAGTAGATCACTTCGAAGAACAACCTGTTCAAGGAGTAACATATGAAGAACCGACTGCTCAAAGAGGAATACAGGTGGAAAGAAGCAGACGACCGTATGTGGAAAAGGTAGTTTCTACATATGAAGAACCGGAAGTACAATATGAACCGGTGCGAGAGGCTGTCGTTAAAAAGGCATCTGCACCTTCGCAAGAGAGTAACCGTAGACCATTTCGTCCAACAGAAATGATTTCGCCAATTTATGGATATAATCGTCCTTCAGTAGAGAAAAAGGTTGAAAAGCAGGAGGAAGTAAAAGAAAGAGAAGATCTTGAAATATCTGTAGAGGGCAAAGCAGTTGTTGATGCATGGTTAGAGAAAAAAGGATATACATTATCAGATTTCTCAGAAGGGCAAGCAACGTCTTCTTCGCCTAGTCATGAATCGGTTGGTCAACAGGATAAAAAGCAAGAAAAATCAGTTGTTGATCAATGGCTAGAGAAAAACGGTTATGAAATCGAACGCCAAGAGCCTTTAGTAGAAGAAAAAGAAGTGATTCAAGGAATGAGTACACCGCAGGAAGTTTCAGCGGATGAATTACTTCATAAAACAGTAGCTGAGCAGATGGAAAGTGCTAAGCTAGAAAAAGATGTAGTGGTGTTAAACGAAAACAATCTACAAGAAGAATTAGTGGCTTCTAAAGTAGAGTACGAGGATACAATATTATCAGAAGAAATTAAACGTAATACAGAAATAAAACAACCTACTATTGAAGTGGAAAAGCAAGCTCCAGAAGAATCAGTGATTGTCAAAGCAGAAGAAAAACTTGCAGAAACAATCATTGTGGAAATACCAGAAGAGCCAGAAGAAGTGGAAGTAATTACAGAAACAGAAGAGCCAGAAGAAGTGGAAGTAATTATAGAAACAGAAGAGCTAGAAGAAGTAGAAGTAATTACAGAAACAGAAGAGCTAGAAGAAGTAGAAGTGATTGCAGAATCAGAAGAAGTGGAAGTAATTGCAGAAGCAGAAGAGTCAGAAGAAGTAGAAGTAATCGCAGAAGCAGAAGAGTCAGAAGAAGTGGAAGTAATTACAGAAACAGAAGAGCCAGAAGAAGTGGAAGTAATTGCAGAAGCGGAAGAGTCAGAAGAAGTAGAAGTAATTGCGGAAACAGAAGAGCTAGAAGAAGTGGAAGTAATTGCAGAAACGGAAGAGTCAGAAGAAGTAGAAGTGATTGCAGAAGCAGAAGAGCTAGAAGAAGTGGAAGTAATTGCGGAAACAGAAGAGCTAGAAGAAGTGGAAGTAATTGCAGAAATAAAAGCGCCTGTAGTAGAGACATTTGTAGCACTTGAGGAAATTCAGCAAGAAGATGAAGCGATTGAACAAAAGAGTGAATTCATACATGTAGCTGAGGCTGATGAACAGACAAAGAACGACGTTCAAAGCTTTGCGAATGTTTTACTTGCAGAAACAGAAGAAAATAAACGAGTTGTAGAAGAAGAGCCAGTCGCAGAAGAACAACGAGTTGTAGAAGAAACACCAGTCGCAGAAGAACAACGAGTTGTAGAAGAAGCGCCGGTCGCAGAAGAACAACCAGTTGTAAAAAAAGAAGAACCAAAACGTGAGAAAAAGCGTCATGTACCATTTAATGTTGTTATGTTGAAACAAGATAGAACACGATTAATGGAAAGACATGCAGCTAGGGCGAATGCAATGCAGCATTCTGTTAATGTACGAGTAGAGAATAGACCAGTGCAACAAGTAGTAGCAGAACCACAAGTGGAAGAACAACCAGTGCAACAAGTAGTAGCAGAACCACAAGTGGAAGAACAACTAGTGCAACAAGTAGTAGCAGAACCACAAGTGGAAGAACAACTAGTGCAACAAGTAGTAGCAGAACCACAAGTGGAAGAACAACCAATGCAGCAGGTGGTAGCAGAACCACAAGTGGAAGAACAACCAATGCAGCAGGTGGTAGTAGAATCACAAGTGGAAGAACAACCAATGCAGCAGGTGGTAGTAGAATCACAAGTGGAAGAACAACCAATGCAGCAGGTGGTAGTAGAATCACAAGTAGAAGAGCAATCAGTGCAGCAAGTAGTAGCAGAGCCACAAATGGAAGAACGCCCAGTGCAGCAAGTAGTGGAAGAGCAAGTACAAAAGCCAATTTCAAGTACGGAAGTACAAGAGAAAGCATATGTTGTAAATCAAAGAGAGAACGATATGCGAAATGTATTGCACACACCACCGACATACACTGTTCCGCCATTAGCGCTGTTGTCGATTCCGCAGCAATCAGCGCTAGATAATACAGAATGGTTAGATGAGCAAAAAGAATTATTAGATACAACGTTTAATAATTTTCATGTTGGAGCACATGTTATTAATGTATCGCAAGGGCCAGCAGTAACTCGTTTTGAAGTGCAACCAGACCCAGGCGTGAAAGTAAATAAAATTACCAATTTAAGTGATGATATTAAGTTAAGTTTAGCTGCGAAAGATATTCGTATTGAAGCGCCGATTCCAGGGAAGAGTGCGATTGGAATTGAGGTTCCAAATAAAGAAAGTAAGCCAGTATTTCTTCGTGAAATTTTAAGAAGTCCTGTATTCACAAAGAGTGAATCACCGCTTACTGTTGCGCTTGGACTTGATATTTCAGGTGATCCAATTGTAACAGATATTCGAAAAATGCCGCACGGACTTATTGCGGGTGCAACGGGTTCAGGTAAAAGTGTGTGTATTAACGCGATTTTAACGAGTATTTTATATAAAGCGAAACCGCATGAAGTGAAGTTAATGTTAATTGATCCGAAGATGGTTGAGCTTGCACCATACAATTCTGTTCCACATCTTGTAGCACCTGTTATTACGGATGTAAAAGCAGCGACAGCGGCTTTAAAGTGGGCAGTCGAAGAGATGGAACGCCGTTATGAATTGTTTGCGCACGCTGGTGCTCGTGATTTAACTCGTTACAATACGATTGTAAGTGAGCGAGAAATTCCAGGAGAAACATTACCTTATATCGTTATTGTCATTGACGAGTTAGCCGACTTAATGATGGTAGCACCTGGTGATGTTGAGGAAGCGATTTGTCGTATTGCGCAAAAAGCACGTGCTTGTGGTATTCATTTATTAGTAGCGACGCAGCGTCCATCTGTAGATGTTATTACAGGTTTAATTAAGTCAAACATTCCAACGCGTATTGCGTTTACTGTATCATCTCAAGTTGATTCGCGTACGATTATTGATATTGGAGGCGCGGAGAAATTACTTGGCCGTGGTGATATGTTATTTTTAGGGAACGGTACATCTAAGCCAGTTCGTGTACAAGGTGTATATGTATCGGATGATGAGATTGAAAAGACAGTTGATCATGTGAGAAAGCAAATGAAGCCGAATTACTTATTTAAGCAAGAGGATTTATTAGCGAAAACAGAACAGGCTGAGTCGGAAGACGAATTGTTCTTTGAAGCATGTCAATTTGTTGTAGAACAAGGGGGAGCGTCCACATCTTCTGTACAGCGAAAATTCCGCATCGGTTATAATCGCGCGGCACGTCTCATTGAGGAGATGCAATCGCAAGGAATTATTTCTGAAGCAAGAGGGACGAAGCCAAGAGATGTCCTTATTTCTGAGGATGAATTCGCTGCTATGCAGGAAACGAATGTATAG	MLDWMKKLFNKEEEQTALNKEVQKQIESQPKIPRVNHYTEAREAQMASRNAGKCRFPLVPDNGFDEEDEREVDHFEEQPVQGVTYEEPTAQRGIQVERSRRPYVEKVVSTYEEPEVQYEPVREAVVKKASAPSQESNRRPFRPTEMISPIYGYNRPSVEKKVEKQEEVKEREDLEISVEGKAVVDAWLEKKGYTLSDFSEGQATSSSPSHESVGQQDKKQEKSVVDQWLEKNGYEIERQEPLVEEKEVIQGMSTPQEVSADELLHKTVAEQMESAKLEKDVVVLNENNLQEELVASKVEYEDTILSEEIKRNTEIKQPTIEVEKQAPEESVIVKAEEKLAETIIVEIPEEPEEVEVITETEEPEEVEVIIETEELEEVEVITETEELEEVEVIAESEEVEVIAEAEESEEVEVIAEAEESEEVEVITETEEPEEVEVIAEAEESEEVEVIAETEELEEVEVIAETEESEEVEVIAEAEELEEVEVIAETEELEEVEVIAEIKAPVVETFVALEEIQQEDEAIEQKSEFIHVAEADEQTKNDVQSFANVLLAETEENKRVVEEEPVAEEQRVVEETPVAEEQRVVEEAPVAEEQPVVKKEEPKREKKRHVPFNVVMLKQDRTRLMERHAARANAMQHSVNVRVENRPVQQVVAEPQVEEQPVQQVVAEPQVEEQLVQQVVAEPQVEEQLVQQVVAEPQVEEQPMQQVVAEPQVEEQPMQQVVVESQVEEQPMQQVVVESQVEEQPMQQVVVESQVEEQSVQQVVAEPQMEERPVQQVVEEQVQKPISSTEVQEKAYVVNQRENDMRNVLHTPPTYTVPPLALLSIPQQSALDNTEWLDEQKELLDTTFNNFHVGAHVINVSQGPAVTRFEVQPDPGVKVNKITNLSDDIKLSLAAKDIRIEAPIPGKSAIGIEVPNKESKPVFLREILRSPVFTKSESPLTVALGLDISGDPIVTDIRKMPHGLIAGATGSGKSVCINAILTSILYKAKPHEVKLMLIDPKMVELAPYNSVPHLVAPVITDVKAATAALKWAVEEMERRYELFAHAGARDLTRYNTIVSEREIPGETLPYIVIVIDELADLMMVAPGDVEEAICRIAQKARACGIHLLVATQRPSVDVITGLIKSNIPTRIAFTVSSQVDSRTIIDIGGAEKLLGRGDMLFLGNGTSKPVRVQGVYVSDDEIEKTVDHVRKQMKPNYLFKQEDLLAKTEQAESEDELFFEACQFVVEQGGASTSSVQRKFRIGYNRAARLIEEMQSQGIISEARGTKPRDVLISEDEFAAMQETNV	PGPT0030468_1531	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
AK009_02442	1119			hypothetical protein	ATGAAAGAAATTGAATTAAAATTAAAAGGTGAAATAAATCGACTAACAAATAAAACATTTAAATTTGACGAACGAGTTGGAGAAGGTTGGTTCTCCGCGGTTTACTTTTTAAAAACTAGAGAAATTATTGAAGAATTTCGCCCGAAAAGTGTTGTAACGATGCAATTTTTCCAAAAAGAAAATGCAGTTCTTTGCGGAACAGATGAAGTAATTGCATTGCTACAAACATTCGCTAAAAATCCTGAGGAACTTGAAATTAACTCTTTAAAAGATGGCGATAAAATTAGTCCATTTGAAACAGTGTTAACAATTCATGGTCCTTATGAGAATTTCGGATTTTTAGAAGGTGTTATTGATGGGATTTTAGCTCGTCGTACATCGGTTGCAACAAACGTATATAATGTTGTCCAAGCTGCGCGTAGTGTAGATAAAGAAAAACCAGTTATTTTCATGGGAGATCGTGACGATCATTATACACAACAAGCAGGTGACGGTTATGCAGCATACATCGGAGGTATGAGCGCACAAGCGACGCATGCAATGAATGAATGGTGGGGCAGAAGTGGTATGGGAACAATGCCTCACGCATTAATTCAAATGTTTAATGGTGATGTTGTAGAAGCGGCAAAAGCATATCATAAGAAATTTCCAGAAGATGAATTAGTTGTACTAATTGATTACAATAATGATGTTATTACAGATGCACTTCGTGTAGCGCGTGAATTTGGATCAACATTAAAAGGTGTGCGTGTAGATACGTCTCGCACAATGATTGATCAATACTTTATTCGCCACCCAGAAGTACTTGGAACATTTGATCCACGTGGTGTAAATCCATCTCTTGTATTTGCACTTCGCAAGGCGCTTGATGAAGAAGGATTCCAGCATGTAGACATCGTTGTAACTGGTGGATTTGATGAAAAGCGTATTCGTGAATTTGAAGCTCAAAAGGTACCTGTTGACATATATGGGGTAGGGAGTAGCTTGTTAAAAATGAATATTGGCTTTACTGGTGATAATGTAGAATTAAATGGGAAACCAGAAGCAAAAGCTGGTCGTAAATATCGTCCAAACCCACGTTTAGAGCGTGTTCAATTAGAAAAAAGAGAAGATATGTAA	MKEIELKLKGEINRLTNKTFKFDERVGEGWFSAVYFLKTREIIEEFRPKSVVTMQFFQKENAVLCGTDEVIALLQTFAKNPEELEINSLKDGDKISPFETVLTIHGPYENFGFLEGVIDGILARRTSVATNVYNVVQAARSVDKEKPVIFMGDRDDHYTQQAGDGYAAYIGGMSAQATHAMNEWWGRSGMGTMPHALIQMFNGDVVEAAKAYHKKFPEDELVVLIDYNNDVITDALRVAREFGSTLKGVRVDTSRTMIDQYFIRHPEVLGTFDPRGVNPSLVFALRKALDEEGFQHVDIVVTGGFDEKRIREFEAQKVPVDIYGVGSSLLKMNIGFTGDNVELNGKPEAKAGRKYRPNPRLERVQLEKREDM	PGPT0013375_4660	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
AK009_02443	1311	murC		UDP-N-acetylmuramate--L-alanine ligase	ATGACAGTTTACCATTTTGTAGGAATTAAAGGAACAGGAATGAGTTCATTAGCGCAAATTCTTCATGATATGAAGCATACTGTTCAAGGGTCTGATTATGAAAAGCGTTTCTTTACACAAACAGCGTTAGAAAAGCGTAGTATCTCGATCCTTCCTTTTGATAAGAATAATGTAGAAGAAGGACAAGTGATTATTGCAGGAAATGCATTTCCTGATACGCATGAAGAAATCGTAGCAGCAAAAGAATTAAACATCCCAGTACATCGTTACCATCACTTCTTAGGTGACCTTATGAGCCAATACACAAGTGTTGCTGTAACTGGTGCACACGGAAAGACATCAACAACAGGTTTGTTAGCCCATGTAATGCAAGGTGCACATCCTACATCTTACCTTATTGGAGATGGAACAGGGCATGGGGTAGAAAATAGTAAGTATTTTGTATTTGAAGCTTGTGAGTATCGTCGTCATTTCTTGTCTTACAATCCAGACTATGCAATTATGACGAATATTGATTTTGATCATCCAGATTATTTTGCAGACATCAATGATGTATTCAGTGCATTCCAAGAGATGGCATTGCAAGTGAAAAAAGGCATTATTGCATGTGGAGATGATGAAGAACTTCAAAAAATTCAAGCGAAAGTACCTGTTATTTTCTATGGATTTGGAGAAGATAATGATTTCCAAGCACGTAACATCCAAAAGAGAACAGATGGCACGATATTCGATGTATTCGTTCGTAATACGTACTATGACACGTTCAAAATTACAGGATACGGCAATCACAGCGTATTAAATGCGTTAGCAGTAATCGCACTTTGCCATTATGAAAACGTTGATGTAGAAGCAGTAAAACATCAATTAACAACTTTTGAAGGCGTAAAACGTCGCTTTAATGAAAAGCCGATGGGAGAGCAAGTTATTATCGATGACTACGCACACCATCCGACAGAAATTAATGCAACGATTGAAGCAGCTCGTCAAAAACATCCAGAGCGTGAAGTTGTCGCTGTATTCCAGCCGCATACATTCTCACGTACAGAAAAGTTCTTAGATGAGTTCGCTGAAAGCTTAAGCAAAGCTGATCAAGTATACTTATGTGATATTTTCGGATCAGCACGCGAAAACAAAGGTGAATTAACAATTGAAGATCTGCAAAAGCGTATTGATGGTGCAGAACTAATTACAGATACAACAACGGATGTATTAAAGAAACATAAAAACGGCGTTCTAATTTTCATGGGCGCAGGTGACATCCAAAAATTCGAAGCAGCTTACGTAAAAGAAGTTCAAGTTGCAGAGAAATAA	MTVYHFVGIKGTGMSSLAQILHDMKHTVQGSDYEKRFFTQTALEKRSISILPFDKNNVEEGQVIIAGNAFPDTHEEIVAAKELNIPVHRYHHFLGDLMSQYTSVAVTGAHGKTSTTGLLAHVMQGAHPTSYLIGDGTGHGVENSKYFVFEACEYRRHFLSYNPDYAIMTNIDFDHPDYFADINDVFSAFQEMALQVKKGIIACGDDEELQKIQAKVPVIFYGFGEDNDFQARNIQKRTDGTIFDVFVRNTYYDTFKITGYGNHSVLNALAVIALCHYENVDVEAVKHQLTTFEGVKRRFNEKPMGEQVIIDDYAHHPTEINATIEAARQKHPEREVVAVFQPHTFSRTEKFLDEFAESLSKADQVYLCDIFGSARENKGELTIEDLQKRIDGAELITDTTTDVLKKHKNGVLIFMGAGDIQKFEAAYVKEVQVAEK	PGPT0024120_4661	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
AK009_02444	414	adhR_1	COG0789	HTH-type transcriptional regulator AdhR	ATGTATAAAATCGGCGAAGTAGCAGAATTAACAGGGATGAGCATTCACACTTTGCGCTACTATGAGAAATTAGGTTTATTACCACCACCAACGCGAAATAGCGGTATTCGTCAATATACAGAAGGCGATGTACGTTTATTAAAATTTTTATATTCATTAAAACAAACTGGGATGTCATTAGAAGAGATAGCTGAGTTTGCAAGTGATGGGTGCATTATAGAGGAAATTAGGCAGAAGAAAGAGGAAGTACCAGCGAAAGTAAAAAAGAGAATTTCCATTTTAACAACTCACTTGGAGCGATTAAAAGAACAGCAGGAACAATTGCAAAAAGTTGTTCAGCTAACGGAGGAGAAGTTAGAAATTTATTACGGTTTTCTAGAAGAAAAAGACTTGGAGGCCGGCAATGAAAAATAA	MYKIGEVAELTGMSIHTLRYYEKLGLLPPPTRNSGIRQYTEGDVRLLKFLYSLKQTGMSLEEIAEFASDGCIIEEIRQKKEEVPAKVKKRISILTTHLERLKEQQEQLQKVVQLTEEKLEIYYGFLEEKDLEAGNEK				NA	NA	NA	NA	NA
AK009_02445	906			hypothetical protein	ATGAAAAATAAAGTATATACGCAGTTATTAGGTTTTGCGATATTTACTGGTGGGACATTTAATGCTTCGAAATATGCGGTGCAGTATTTCGAAGCAATTCATATAGCAGCATGGCGTTTTGGGATTGCTGCATTTGTGATGTTATGTTTGTTAAAAATACGAAAAGATTTTGATTTGGAAGTATGGATGCAGAATAGGACCTATTATCTTTTGCTAGGTATTGTTGGTGTATTCGGCTTTAACTTCTTTTTCTTTTTAGGAATGAAATATACAGAAGCTGTTAATGGTGCACTTATTATGGCGACAAATCCTCTCGTTACGACGCTGTTAGCAAGTGTCATTTTACGAGAGAAAATTGTGAAGCGTCAAGCAATTGGAATGTTACTTGCACTAATTGGCGTTGTTTTTGTACTTACACAAGGTTCGTTTACAATACTACAACATTTATCATTTTCAAAAGGGGATTTTTATATTTTATTAGGGAATATTTGCTGGGCGTTATACGGCGTGCTAGGCAGAAGGTTTATTAAAACTGGTAATCCAATACAAACGACGACATATACGATGACTATTGGTGCACTTGCCTTTATTATCATATCTTCTACACAAAAAAGTATAGTACCAGTTTTAGAAATTCCTTGGTTGGCATGGGGAGCGATTCTCTTTATGGCAATTGGAATGAGTGTGCTTGGTTACTTATGGTGGAATAATGGAATTGCTCAAATTGGGGCAGCAAGGACATCTTTATTTTTTAATCTAGTGCCTGTTGTTACAATACTTATTTCTTTTATTGAAGGAGTCAATATAACATCTGCACAATCTGTAGGAATGATATTAGTTATTACGGGAATATTGTATTCTTCTGGTTTTATACAAAGAAAATCAAAAGAAAGTGTTAATATTTAA	MKNKVYTQLLGFAIFTGGTFNASKYAVQYFEAIHIAAWRFGIAAFVMLCLLKIRKDFDLEVWMQNRTYYLLLGIVGVFGFNFFFFLGMKYTEAVNGALIMATNPLVTTLLASVILREKIVKRQAIGMLLALIGVVFVLTQGSFTILQHLSFSKGDFYILLGNICWALYGVLGRRFIKTGNPIQTTTYTMTIGALAFIIISSTQKSIVPVLEIPWLAWGAILFMAIGMSVLGYLWWNNGIAQIGAARTSLFFNLVPVVTILISFIEGVNITSAQSVGMILVITGILYSSGFIQRKSKESVNI				NA	NA	NA	NA	NA
AK009_02446	549	ydaF_4	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGTTCACACTTCGAGTAGATGACGAAATCGAACTACAATTACTAGAAAAACATCATAAAGAAGAATTATATCAATTAATAGACCAAAACCGTAATCATTTACGAAAATGGCTTCCTTGGGTAGATGGGACAAAATCTGCTGATGCTTATGATGAGATTTTTCCGATGTGGTTAAAGAAATTTGCAGAGGGAGACGGTTTTGAAAGTGGTATACGTTACAAAGGAAAGCTTGTTGGGATGGTAGGTATTCATCCAGTGAGCTGGGGGAAGAGAGCGGCGAGTCTTGGGTATTACCTTGCAGAAGATGCTGGAGGAAAAGGCGTTATGACACGTAGCGTAAAGGCTGTGCTTCACTATGCATTTGAGAATTTAAAATTAAATAAAATGGAAATTAGATGCGGTGTTGAAAATGTGAAAAGCCGCGCTATTCCAGAGCGTTTAGGGTTTAAATTAGATGGTATTTTAAGAGATGAAGAATGGTTATATGATCATTTTCATGATATCGCTGTATATAGTTTATTAGCTTCAGAATGGAAAGATATTCGATGA	MFTLRVDDEIELQLLEKHHKEELYQLIDQNRNHLRKWLPWVDGTKSADAYDEIFPMWLKKFAEGDGFESGIRYKGKLVGMVGIHPVSWGKRAASLGYYLAEDAGGKGVMTRSVKAVLHYAFENLKLNKMEIRCGVENVKSRAIPERLGFKLDGILRDEEWLYDHFHDIAVYSLLASEWKDIR				NA	NA	NA	NA	NA
AK009_02447	504			hypothetical protein	ATGAACGAGAAGATTCGTATTATTCCGTATGAAAGTACGTTTCAAGAGGAAGTAGTAGATCTTATCGTTCATATTCAGCAAAAAGAGTATAATGTTCCCATTACGAAAGAAGAGCAACCTGATTTACTTGAAATAGAAACATTCTATCAAAAGGATCACGGAAACTTTTGGGTAGCACTTTATGATGGGAAAGTAGTTGGAACAGTAGCTTTATTAGATATTGAGAATAATCAAGTAGCACTAAGAAAAATGTTCGTACAAAAAGAGTTTCGTGGAAAAGAATGTGGCGCGTCATATATGTTGCTTCAAACAGCAATTTCATGGGCTGAGGATAAAAAGTTGAAAGATATTTATTTAGGAACAACAGTAAAATTTTTAGCGGCACATCGCTTTTATGAAAAGAATGGTTTTCAAAGTGTGAGTATAGATGAGTTGCCGAAAAACTTTCCAGTGTTACAGGTAGATAAGAAATTTTATAGGTACATTGTGAAAAAGGTCATCTAG	MNEKIRIIPYESTFQEEVVDLIVHIQQKEYNVPITKEEQPDLLEIETFYQKDHGNFWVALYDGKVVGTVALLDIENNQVALRKMFVQKEFRGKECGASYMLLQTAISWAEDKKLKDIYLGTTVKFLAAHRFYEKNGFQSVSIDELPKNFPVLQVDKKFYRYIVKKVI	PGPT0007215_3	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
AK009_02448	405			hypothetical protein	ATGAACTTTCCAATTCAAAGAAGTAAGTCAGTAGTCATTTTCGTTTGTCTTACGTTAGCTTTTATGTGTATATATCCAATTGTCATGCTTTTCACTAATAAAGCGCATTGGATGTCAGCGTTGATTGGGATGGGTTTATGCTTCATTGTAAATGTACCACTCGTTTGGGAAGTATTTATTAAAAAACATAAAGTAGAAAATGGCGTATTAAAGTACGGTATTCTAAATGATGATGTTGTATTAAAAGATATAAGAGTTGTTCGTCAAGTTGGAAAGTATCTTGAAATTACGACGAATGCATATAAAGTACATATGGTTGCGATGCCGCAAGATATGAATGAATTTTTGGCGCTTATCGAGAAAGAAAATCCACATGTGAAAATAGAAATGGTAGGGAAGAAATAA	MNFPIQRSKSVVIFVCLTLAFMCIYPIVMLFTNKAHWMSALIGMGLCFIVNVPLVWEVFIKKHKVENGVLKYGILNDDVVLKDIRVVRQVGKYLEITTNAYKVHMVAMPQDMNEFLALIEKENPHVKIEMVGKK				NA	NA	NA	NA	NA
AK009_02449	1116	pepS	COG2309	Aminopeptidase PepS	ATGAAAGATCCACGTATTGAAAAGTTAGCATACAATTTAATTAACTACTCTATTTGCTTACAAAAAGGCGAAAAAGTATTAATTGAAAACTTTGGCTTACAAAAAGAACTTGTAACTGCACTTGTAAAAGAAGCATATGCAGCTGGTGGTTTCCCATTCGTCTCTTTAAAAGATCATCAAGTAGATCGCTCTTTATTAATGGGTGCTACTGAAGAACATTTCGAACAAATCGCTGCATATGAAGCAAGCGTAATGAAAGACATGGACGCTTATATCGGTCTTCGCTCTGGCGATAATATTAATGAACAGGCTGACGTTCCAAGTGAGCGCATGAAAGTTCATGGCCAAACAGTTGGGAAAAAAGTTCATAGAGATATTCGCGTTCCAAAAACACGTTGGGTTGTTCTTCGCTACCCAAATGCTTCTATGGCACAGCTTGCTAAAATGAGCACAGAAGCTTTCGAAGACTTCTACTTCGAAGTTTGTAACTTAGACTACGGTAAAATGGATAAGGCGATGGATAGCCTTGTTACATTAATGAATAAAACAGATAAAGTTCGTTTAACTGGTCCTGGAACTGACTTAACATTCTCTATTAAAGACATTCCAGCTATTAAATGCTCAGGTCATTTAAACATTCCAGACGGTGAAGTATACTCTGCACCAGTTCGTGATTCTGTTAACGGTACAGTTTCTTACAACACACCATCTCCTTACAACGGTTATACATTTGAAAATGTACAACTTAAGTTCGAGAACGGTCAAATCGTTGAAGCAACTGCAAACGATTCAGAACGCATTAACAAAATCTTCGATACAGACGAAGGCGCACGCTACGTTGGTGAGTTCGCAATCGGCGTAAACCCATACATCTTACATCCAATGGGAGACATCCTATTCGATGAAAAAATCGATGGCAGCTTCCACTTCACTCCTGGACAAGCTTACGACGATGCATGGAACGGTAACAACTCGAACATCCATTGGGACTTAGTATGCATCCAACGCCCTGAATACGGCGGCGGCGAAATTTACTTCGACGACGTACTAATCCGTAAAGATGGACGCTTCATTGTACCTGAACTAGAAGCTCTAAATCCAGAGAACTTAAAATAA	MKDPRIEKLAYNLINYSICLQKGEKVLIENFGLQKELVTALVKEAYAAGGFPFVSLKDHQVDRSLLMGATEEHFEQIAAYEASVMKDMDAYIGLRSGDNINEQADVPSERMKVHGQTVGKKVHRDIRVPKTRWVVLRYPNASMAQLAKMSTEAFEDFYFEVCNLDYGKMDKAMDSLVTLMNKTDKVRLTGPGTDLTFSIKDIPAIKCSGHLNIPDGEVYSAPVRDSVNGTVSYNTPSPYNGYTFENVQLKFENGQIVEATANDSERINKIFDTDEGARYVGEFAIGVNPYILHPMGDILFDEKIDGSFHFTPGQAYDDAWNGNNSNIHWDLVCIQRPEYGGGEIYFDDVLIRKDGRFIVPELEALNPENLK	PGPT0020940_1554	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
AK009_02450	558			hypothetical protein	TTGTATAATAGGGGAAAGTATGAAAAAGATAAAGGAAGTGATGAAATGCAAGTTCTTTTATATGTAAGTGCGGCTATTATCGCGGTTGCTTTCGCAGTATTAGTTGTGTATGTATGCAGAACGTTGTTATCGGTTCAGAAGACGTTAGAAAACGTTGCAAGCACGTTAGAAGGTTTAGAAAAACAAATGCAAGGAATTAGCGTAGAGACAGAGCAATTATTACATAAAACGAATGCGTTAGCTGATGATATTCAACAGAAGTCACAGTCATTAAATAAAGTGGTAGCGGGTGTAGATGGGATTGGAACGACAATCCAATCTTTAAATACGAAGCTTCGTAATGTATCAGACTCTGTAACGGACGAAATTGAAAATAACGCTGATAAAGTAGCGCAAGTTGTACAGTGGAGCAGTGCGGCGATTGAAGTATACAATCATTACCGTGCGTCGAGACAAGAGAAGAAGGTTGAAAAAGAAGAGCGTAAATTAGAAAGAATTGAGAAAAACGCTGAAAAGAAAGAGAAGCGCTCTAGATTTCGTATGAGAGGTGAATCGTGA	MYNRGKYEKDKGSDEMQVLLYVSAAIIAVAFAVLVVYVCRTLLSVQKTLENVASTLEGLEKQMQGISVETEQLLHKTNALADDIQQKSQSLNKVVAGVDGIGTTIQSLNTKLRNVSDSVTDEIENNADKVAQVVQWSSAAIEVYNHYRASRQEKKVEKEERKLERIEKNAEKKEKRSRFRMRGES				NA	NA	NA	NA	NA
AK009_02451	327			hypothetical protein	ATGAATATGACAAAGCTTGAAACAATTGAAGAGCTTGAAGTCTTAGTAGAAAAGAATGAGCCGTATGTTCTTTTTAAACATAGTACGACATGCCCGATTAGTCACGGTGCATACACAGAATTTCAAGCGTATTGCAGTGAAGAAAGAGAAGTGCCAGCGTATTACTTATACGTACAAGATGCGAGAGATGTGTCAAATCGTGTTGCAGAACAATACAGTATTAGACATGAATCACCGCAAGTGTTATACATAAAAGATGGGATGGTAGTATGGAATACATCTCATTGGAATATTAAAAAAGATGCTTTAGAAGAGAATATAAAGTAA	MNMTKLETIEELEVLVEKNEPYVLFKHSTTCPISHGAYTEFQAYCSEEREVPAYYLYVQDARDVSNRVAEQYSIRHESPQVLYIKDGMVVWNTSHWNIKKDALEENIK	PGPT0015028_166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
AK009_02452	1023			hypothetical protein	ATGAAGAAAATGGCATTATCCTTCGCAGTCGTAAGTTTATTACTGGGAGCTTGTAGTAACAATAGTAATACGATTAGTAAGAAGGATGAAGTTATACAAAAAGATACAAAAGAAAAAAGTATGATTCCGAGAACTGCTGTTTCTAAAGATTATTATAGAACTGTTATTCCTTTAAAAGAACAAAAGGTTATTAATACAGCTAATATAAAAACAAATTCTAAATTAGATTTAGCAGAGTATGAAAATGGTTTAATAAATATTGCAACGCAGCAATTTGATACAGAGAGTCACGTACTGCAATTAAATCAGTATATTCCAGAGAAACTAGTTGATGAACTAGTTGCGAAAGTAGAAGCGCCAGTTTTGACGAATATTATAGAACAAGACTATTTCGGAAAACAGAATTCAAATGAATTAAGTTTATCTGGTGTTATGATTGGCTTAGCTATGTCTTCAAGTGTATCGAATGAAGAAGCTATGTCTAAAGGGTCTGAAGTTGCTAAACAACTTATTGAAGCTATTAATAAAAATGATAAATATAACAAATCTCCAATTACGTTTGCTATCTTTAAGCAAGAAAGTACAAGTTCTTTAAAAAATGGTACGTATATTGCTAGTGCTACTGTTCAAAAGAATGATACGAACCTTGGAAATTGGAGTACAATTGATGAAAAGTCGTATTCATATCCTTCTGATGAATTTACACAAGCACATGGAGAAGATAATACAAAAATAACTAACTTTGCTAAGGAAATAAAAGGTTTTTCTACTGGAGATTTTATTCCAGTCAACGCAAAAGTTTCTTATAAGAAAGATCAAATGGATACATTAAATATGAATATTGTTATTAAATATAACGGTAAAACAGAATTAATGGCTCTTACCCAATTGGCTGCGCAAGGTATGTTGGACAAATTGCCTAAAGATGCGAAAGTACAATTACAGATCAAGTCCGAGAGTAAAATTGAGGCCGTTATTATAAAAGAGAAAAACAGTGATAAACCGTTTGTTTCCTTCTTGTAA	MKKMALSFAVVSLLLGACSNNSNTISKKDEVIQKDTKEKSMIPRTAVSKDYYRTVIPLKEQKVINTANIKTNSKLDLAEYENGLINIATQQFDTESHVLQLNQYIPEKLVDELVAKVEAPVLTNIIEQDYFGKQNSNELSLSGVMIGLAMSSSVSNEEAMSKGSEVAKQLIEAINKNDKYNKSPITFAIFKQESTSSLKNGTYIASATVQKNDTNLGNWSTIDEKSYSYPSDEFTQAHGEDNTKITNFAKEIKGFSTGDFIPVNAKVSYKKDQMDTLNMNIVIKYNGKTELMALTQLAAQGMLDKLPKDAKVQLQIKSESKIEAVIIKEKNSDKPFVSFL				NA	NA	NA	NA	NA
AK009_02453	123			hypothetical protein	ATGGCATCACAACAATTAGGTCGTTTACGTTCTGAAATTGATCAACTTAATTTACAAATATTAGAGTTATTAAACGAAAGAGGTCGTCTCGTACAAGAAGTTGGTACTTTAAAAGAAGTATAA	MASQQLGRLRSEIDQLNLQILELLNERGRLVQEVGTLKEV	PGPT0012915_288	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
AK009_02454	180	aroA_2	COG1605	Protein AroA(G)	GTGAAACGTTTTGATCCTGTACGTGAAAGAAATATGCTGGATTTAATTGTAGAGAATAATAATGGTCCATTTGAAACTTCGACTTTACAACATATTTTCAAACAAATTTTTCAAGTTGGCTTAGAGTTACAAGAAGAGGATCATCGTAAAGCACTACTTGTGTCTTGTAAGAAAAAATAG	MKRFDPVRERNMLDLIVENNNGPFETSTLQHIFKQIFQVGLELQEEDHRKALLVSCKKK	PGPT0012915_288	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
AK009_02455	141	aroA_3	COG1605	Protein AroA(G)	ATGGCAATTGGTGCAAACGCAATTATGGCTGAAGTACATCCAAATCCAGCTGTAGCTTTATCAGATGCGGCGCAGCAAATGAATATCCCGCAGTTCAATGATTTTATGAATGAATTAAAATCATTTGGAAGTAAATTATAA	MAIGANAIMAEVHPNPAVALSDAAQQMNIPQFNDFMNELKSFGSKL	PGPT0012910_1377	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012910-aroF-K03856	NA	NA
AK009_02456	999	ccpA_1	COG1609	Catabolite control protein A	ATGAACGTAACAATCTATGATGTAGCGCGCGAAGCGAACGTTTCAATGGCTACCGTATCACGCGTTGTGAACGGTAACCCAAATGTAAAGCCTACAACAAGAAAGAAAGTATTAGAAGCAATTGATCGTTTAGGATACCGTCCAAATGCGGTAGCACGTGGACTAGCAAGTAAGAAGACAACTACGGTAGGTGTTATTATTCCTGATATCTCAAATACGTTTTATGCAGAACTTGCACGTGGAATTGAAGATATCGCAACAATGTACAAATATAACATCATTTTAAGTAACTCTGATCAAAACAAAGAGAAAGAGTTCCATCTATTAAATACGATGCTTGGAAAACAAGTGGACGGAATTGTTTTCATGGGTGAAGATATTACAGACATTCACATTGAAGAATTTAAAAAATCTCCAGTACCAATTGTATTAGCAGCGTCATTTGATGAGCAAAATGAAACGCCATCAGTAAATATTGATTATACACAAGCAGCTTACGATGCAATGAAGCACTTTATCGAACAAGGACATAAGCGTATCGGTTTCGTCTCTGGTCCATTCATTGATAAAGCGGGAAGCGCGAAGAAGTTACAAGGTTATAAAAAAGCTTTAGAAGAAGAAGGTATTTCATATGATGAAAATCTTGTAATCGATGGAGATTACACATATGACTCAGGTATCGAAGCATTCGAAAAGCTTTGGAGCAATGATGAAAAGCCAACAGCAATCTTCGTGTCTTCTGATGAAATGGCACTAGGTGTAATCCATGCAGCACAAGATGCTGGATTAAACGTACCAACTGACGTAGAAGTACTTGGTTTCGATAATACACGCCTTGCATTAATGGTTCGTCCGCAGCTTTCAACAGTTGTACAACCGATGTATGATTTCGGTGCAGTAGCAATGCGTCTATTAACAAAGTATATGAACAAAGAAAAAGTGGAAGATCACACTGTTATCTTACCTCACCGTATCCAATTTAGAGATTCAACGAAATAA	MNVTIYDVAREANVSMATVSRVVNGNPNVKPTTRKKVLEAIDRLGYRPNAVARGLASKKTTTVGVIIPDISNTFYAELARGIEDIATMYKYNIILSNSDQNKEKEFHLLNTMLGKQVDGIVFMGEDITDIHIEEFKKSPVPIVLAASFDEQNETPSVNIDYTQAAYDAMKHFIEQGHKRIGFVSGPFIDKAGSAKKLQGYKKALEEEGISYDENLVIDGDYTYDSGIEAFEKLWSNDEKPTAIFVSSDEMALGVIHAAQDAGLNVPTDVEVLGFDNTRLALMVRPQLSTVVQPMYDFGAVAMRLLTKYMNKEKVEDHTVILPHRIQFRDSTK	PGPT0017992_13656	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
AK009_02457	375			hypothetical protein	ATGCAGCATAATATGTACGCTGTAAAATTATTGTTTGAGTCTGTTCATTCTGGTGAGCCTCATCCTATGAAAATGGATGAGCATTATGAAGAGAATCACGATACACTTTTTGAAGAAAGTATTATTCTTGTTAAAGCAAACAGTTTAGAAGAAGCTCATGAACTAGGTGAAAAGATAGCTATACAATCGGAGCACACATACGATAATATGTATGATGAGCAAATCACATGGACGTTCCGAAAAGTGTTACATGTATTTGAATTAGACGATACGCCATTTGAAACTGGAAAAGAATTGTACGCAAAATTTTTACACGTTAAGAAAAATGAAACTGTAGATACAGTAATTGAAAAATATTATCCTGAATATGAATAA	MQHNMYAVKLLFESVHSGEPHPMKMDEHYEENHDTLFEESIILVKANSLEEAHELGEKIAIQSEHTYDNMYDEQITWTFRKVLHVFELDDTPFETGKELYAKFLHVKKNETVDTVIEKYYPEYE				NA	NA	NA	NA	NA
AK009_02458	237			hypothetical protein	ATGATTTGGATTTCACTAATCGTATTAGCTTATTTCATCATTCTCGTCCCAATACAGTACAACTACATTAAAATACTCAAAGAAAAACAGAAAAAAATGAGTGTCTCACAAAACGAACTATATGACAACATGTCTTATGAAGAATCCCAAGTGCATTACCATTATCAAAGTAACGTATTTACAATACCTGCTTCGCTTGTCGCAAGTATTATTTATAAGGTGAAACATGCAGCATAA	MIWISLIVLAYFIILVPIQYNYIKILKEKQKKMSVSQNELYDNMSYEESQVHYHYQSNVFTIPASLVASIIYKVKHAA				NA	NA	NA	NA	NA
AK009_02459	213			hypothetical protein	ATGGAAGTTGTACAAATAGAAACAAATGTAACTTTGCTAAAAATATCACTTAACTTAAAAAAAGATAAAACGATTGTAGATGGAAAAGCAAAGCACTATGATTCTTCTAGGCTAGAGCATTTAATACAAAATTTTAAACGCACTGCACAAACATGCCTTGAACATAATTTACGAAGCGCTGAAGAACTTTTTGCATTTTGGAAAAGAAATTGA	MEVVQIETNVTLLKISLNLKKDKTIVDGKAKHYDSSRLEHLIQNFKRTAQTCLEHNLRSAEELFAFWKRN				NA	NA	NA	NA	NA
AK009_02460	273			hypothetical protein	ATGATCGTTCTTTGGATAATTACGCTTTGTATGACTGCTATTTTTGCATATATGACGTTAAAACAAAATGGTTTAAAGCGATTTGTTCCAGGAAGTATTCTTGCAGGAATTGCCCTTATCACGTATGTAATTTCTATTTTTATTGAAAGTGTATCAGTAGATATGAGCAAAAGTTTAATGTTTATTGGTATTACACTATTTGCAGGTAGCATTATGGTACTTATGGTTGCTGGTATTATTTTGTTTATTCATATGAATTCGGAAACGTTATAG	MIVLWIITLCMTAIFAYMTLKQNGLKRFVPGSILAGIALITYVISIFIESVSVDMSKSLMFIGITLFAGSIMVLMVAGIILFIHMNSETL				NA	NA	NA	NA	NA
AK009_02461	399	mscL_1	COG1970	Large-conductance mechanosensitive channel	ATGTGGAACGAGTTTAAAAAGTTCGCTTTCAAAGGGAATGTCGTTGATTTAGCTGTCGGGGTTGTAATCGGTGCTGCATTCGGTAAAATCGTTAGTTCTTTAGTAAAAGACATTATTACACCATTACTTGGTATGGTATTAGGTGGCGTTAACTTTACAGATTTGCACTTTGGATACGGTAAATCAGCTGTTATGTATGGTAACTTCATCCAAACAATTTTTGATTTCTTAATTATCGCAGCTTCTATCTTTATGTTTATTAAAGTTTTCAACAAACTAACATCTAAAAAAGAAGACGAAAAAGAGGAAGAAATTCCAGAACCAACAAAAGAAGAAGTTCTTCTTGGCGAAATTCGCGACTTATTAAAACAACAAAATTCTTCTAAAGATAGAGCATAA	MWNEFKKFAFKGNVVDLAVGVVIGAAFGKIVSSLVKDIITPLLGMVLGGVNFTDLHFGYGKSAVMYGNFIQTIFDFLIIAASIFMFIKVFNKLTSKKEDEKEEEIPEPTKEEVLLGEIRDLLKQQNSSKDRA	PGPT0013771_2328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
AK009_02462	927	yceM	COG0673	Putative oxidoreductase YceM	ATGAATAAACCTAAAATTGGGATGATTGGACTTGGTAGCATTGCGCAAAAGGCCTATCTTCCAACACTTACAAAAGAAACAGATTGGAACTTTGTCGGGGCGTTTACACCTAACGCAGAGAAAAGAAAACAAGTTTGCCAGCAATACCGAATTCAAGACTTTCATTCTATTGAAACGTTAGCTTCGGAATGTGATGCAATCTTCGTTCATAGTTCAACTGCATCGCATTATGAAATCGTTTCTGAGCTTTTGAAAAAAGGAATCGACGTTTATGTTGATAAGCCGTTAGCAGCTACTGTGGAACAAGCTGAGCAACTAGTCGAGTTGAGCGAGAAGTATAACCGAAAGTTAATGGTCGGATTTAATCGCAGATTCGTTCCTATGTATGTTGCTGCCAAAGAACAGGCTCATGATATTTCATGGATTCGAATTGAAAAGCATCGCACAAATAAAGTCGGGCCATATACGTACGACTTCACTATGTTAGATGATTATTTACACATTGTAGATACTGCTCGCTGGTTCGCTAATGATGACCTTAACGTCGTTCACAATATGATGCAAATCAATGAAAAGAATGAACTTCTTTACGGACATCATACATATACAACTCCAAGTGGACTGTTACTTTCTACTGCAATGCATCGCCATGCCGGTACAAATTTAGAACAAATTGAACTTGTAACGCCAGGGAAAATCATTCGCGTAAAAAATATGAATACATTTGAAATTGAACAGGAAAACTCAGTTTCACAAAGCGGTTCTCCATCATGGGATACGACGTTAAAACAACGTGGTTTTGAAGATGCTGTTCATCATTTTATTGAATGTGTACACGGAGATACAAAGCCTGTTGTAGATGGATTAGAAGGATTAAAAACGCAGCAAATGCTACAATCTTTACTAGATGATGTAAACAAAAATTAA	MNKPKIGMIGLGSIAQKAYLPTLTKETDWNFVGAFTPNAEKRKQVCQQYRIQDFHSIETLASECDAIFVHSSTASHYEIVSELLKKGIDVYVDKPLAATVEQAEQLVELSEKYNRKLMVGFNRRFVPMYVAAKEQAHDISWIRIEKHRTNKVGPYTYDFTMLDDYLHIVDTARWFANDDLNVVHNMMQINEKNELLYGHHTYTTPSGLLLSTAMHRHAGTNLEQIELVTPGKIIRVKNMNTFEIEQENSVSQSGSPSWDTTLKQRGFEDAVHHFIECVHGDTKPVVDGLEGLKTQQMLQSLLDDVNKN	PGPT0024195_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
AK009_02463	681			hypothetical protein	ATGTTCAAAAAAACATTCAGTATGATATGTTGCGTAATTTTTTTACAAGGATGCTCGCAAGAACAAGAAGTCAAAAAGGAGATGACAAACATGGAGACTGCACTACTAGCAGCTACTGAAAAAAATGAAACGAATACTGTTATATCTTTACTAAAACAAGGTGCAAATATAAATGCGACGGATAATCAAGGACGTACCCCTCTTATGATTGCTACATACAAAAATGATGTAAAAACCGCAAAAGCACTTATCAAAGCTGGTGCTGACGTAAATATCCAAGATGACATGAAAAACAATCCCTTTCTATACGCCGGTGCGGAAGGTTACTTAGACATTTTAAAGCTAACAATTAATGCTGGTGCAGATCCTACGATTACAAATCGTTACGGCGGAACAGCTCTTATCCCAGCCTCAGAACATGGCTATATTGACGTTATAAAAGAACTCCTCACTCGAACAAATATTGATGTAAATCATGTAAATAACCTAGGATGGACAGCTTTAATGGAAACTATCGTACTAAGTAACGGAAACGAAACACAGCAACAAGTCATTCGCCTTCTTATTGAGCACGGTGCAGATGTAAATATTCCAGATAATGATGGTGTTACCCCGTTAGAGCATGCTCGCGCTCATAATTTTGCAGAGATAGAGAAAATTTTGTTAGAAGGAAATAAGTAA	MFKKTFSMICCVIFLQGCSQEQEVKKEMTNMETALLAATEKNETNTVISLLKQGANINATDNQGRTPLMIATYKNDVKTAKALIKAGADVNIQDDMKNNPFLYAGAEGYLDILKLTINAGADPTITNRYGGTALIPASEHGYIDVIKELLTRTNIDVNHVNNLGWTALMETIVLSNGNETQQQVIRLLIEHGADVNIPDNDGVTPLEHARAHNFAEIEKILLEGNK				NA	NA	NA	NA	NA
AK009_02464	1455	sasA_12		Adaptive-response sensory-kinase SasA	ATGTCTATTAAAACAAGGTTTTTATTTTCTTATATTGCTGTAATTCTCGTTTCTATTACGCTCATATTAGTCGCGGGATTTTTAATTGTTTTTTCAATAACAGGTGATTTGGAAGCAGTGAAAAATTTCTATAAAAGTTCTTACATTCAAAAGCCGCTTACACCAGAAGAAGAAAATGCCTATCTTGAATTAAAATTAGCGGCAAAGCAACATCAATCTCAATTATTAGATAAATCGTTCGTTTCATCAATTGAAAAAGAAGGTGTGAAAATAATTGTAAGAAAGGGAGAAAACATTTCTTATGCTAATAAGGGATTTGAAAGTTCGACTTTAACAGAAGCCCTTCCGAAATTTGAAGCGGCAAATATTAATAGTCGTGGTACAACGGAACTAGGCGAGACATTTTATCGATATGTAAAGTTTGATTTTTATTTTCCAGAGAAAGAAGAAGGGAGTATATTTGTACTAAAAAAGCAAAGTTCATTTGTAGATCTTACACAAAAATTATTTCCAATCTTATTCGTATCGCTTTTACTATTAGCCATTTTACTCATTGGTTTATTAAGTTATCTTGTTTCAAGAAGTGTAATAAAACCAATTTTTGTATTGAAAGGTGCAACGGAGAAAATTAAAGAAGGAAATTTAGATTTTCAAATGCCAGTTACATCGCACGATGAAATAGGTCAATTAAATCAAGGATTTGAGGAAATGAGGAAGAAGTTAAAGGAATCGATTGAAGTACAAACGCAGTATGAAGAAAATCGAAAAGAACTTATTTCAAACATATCGCATGATTTAAAAACACCGATTACATCTATTATCGGATATGTAGAAGGAATAAAGGACGGGGTAGCAAATACGCCAGAAAAAATGGATAAGTATTTAACGACAATTCATACGAAGGCAAAACATATGGACACACTCATTGATGAACTCTTTTTGTTTTCGAAGCTCGATTTAAATCGAGTTCCATTCCAATTTGAGACAGTTGAATTAAATACGTTTATGCAAGAATTAATAGAAGAGATGCAGATGGATTTAAGTGAAGAAGGTATAGAAATTAACTTACAATTACATTCATCGCCATTATATGTAACGGCTGATTGCGAAAAGATAAATAGAGTTATATCAAATTTAATTCATAATAGTGTGAAGTACATGGATAAAGAAGAGAAGAAAATTACCGTAACAGTATCGAGTGATAACAATAAAGTTATTGTGAAGGTGATAGACAATGGATCAGGTATAGAATCTGATACGCTACCGTATATCTTTGAACGTTTTTATCGTGCAGAACAATCGCGAAATTCTAGCACAGGTGGAAGTGGACTTGGTTTAGCAATAGCGAAGCAAATTGTTGAAGAACATGGCGGGGAAATTTGGGCGGAAAGCGAGCTTGGTAAAGGCACAAGCATTTTCTTCTCATTGGAAAAAGTAGAGGAATGTGGTGAGTAA	MSIKTRFLFSYIAVILVSITLILVAGFLIVFSITGDLEAVKNFYKSSYIQKPLTPEEENAYLELKLAAKQHQSQLLDKSFVSSIEKEGVKIIVRKGENISYANKGFESSTLTEALPKFEAANINSRGTTELGETFYRYVKFDFYFPEKEEGSIFVLKKQSSFVDLTQKLFPILFVSLLLLAILLIGLLSYLVSRSVIKPIFVLKGATEKIKEGNLDFQMPVTSHDEIGQLNQGFEEMRKKLKESIEVQTQYEENRKELISNISHDLKTPITSIIGYVEGIKDGVANTPEKMDKYLTTIHTKAKHMDTLIDELFLFSKLDLNRVPFQFETVELNTFMQELIEEMQMDLSEEGIEINLQLHSSPLYVTADCEKINRVISNLIHNSVKYMDKEEKKITVTVSSDNNKVIVKVIDNGSGIESDTLPYIFERFYRAEQSRNSSTGGSGLGLAIAKQIVEEHGGEIWAESELGKGTSIFFSLEKVEECGE				NA	NA	NA	NA	NA
AK009_02465	699	srrA_4	COG0745	Transcriptional regulatory protein SrrA	GTGAGTAAATTGAAAAGAATTTTACTAATAGAAGATGAAGTAAGTATTGCAGAATTACAGCGAGATTATTTAGAAATTAATGATTTCCAAGTTGATGTAGAGCATTCAGGAGAAACAGGTTTACAAATAGCCCTGCAAGAAGACTATGATTTAATTATTTTAGATATTATGCTTCCGAAAATGAACGGATTCGAAATTTGTAAACAAATACGTGCTGTAAAAGATATTCCGATTCTACTTGTTTCAGCAAAAAAAGAAGATATAGATAAAATTCGCGGGCTCGGATTAGGAGCGGATGATTATATAACGAAACCGTTTAGCCCAAGCGAATTAGTCGCAAGAGTAAAAGCGCATATTGCTCGTTATGAAAGATTATCAGGAAATGTAAGTAAGCAACGTGATACGCTATACATTCACGGAATTTCTATCGATCAACGAGCGAGGAAAGTTTTTATAAACAATGAAGAAGTGGCATTTACAACGAAGGAATTTGATTTATTAACATTCTTTGTCACACATCCAAACCAAGTATTAAATAAAGAACAGTTATTTGAACGCATTTGGGGATTAGATTCCGCTGGTGATTTAGCCACTGTTGTCGTCCACATTAGAAAGCTACGTGAAAAAATTGAAAGAGATCCTGCCCACCCGCAATATATTGAAACAGTATGGGGAGCTGGTTATCGTTTTAATGTGTAG	MSKLKRILLIEDEVSIAELQRDYLEINDFQVDVEHSGETGLQIALQEDYDLIILDIMLPKMNGFEICKQIRAVKDIPILLVSAKKEDIDKIRGLGLGADDYITKPFSPSELVARVKAHIARYERLSGNVSKQRDTLYIHGISIDQRARKVFINNEEVAFTTKEFDLLTFFVTHPNQVLNKEQLFERIWGLDSAGDLATVVVHIRKLREKIERDPAHPQYIETVWGAGYRFNV	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
AK009_02466	288			hypothetical protein	TTGGGGGATACATTAAAAGATAATAAATCAAACAAGGTTTTAAAGATTGGAACTAATATTGTACTTATCTTATTAATTATTGGTGCAATACAAATGTTTTATGATGAAGATTCTACGAATGATCATTTGGGTTGGTTATTTATGATGGTCTTTTTTGCAATTAAAATAATTTCTAGTTTTATGATAAGTTTAAAAGAAGGAGATAAAAAGTCAGTATTTATTGATTTAGGTTTAATAATTTTTTCTGTTCTTCTTTTGGTTGTTACTAGTGTGAAATATTTCTTTTGA	MGDTLKDNKSNKVLKIGTNIVLILLIIGAIQMFYDEDSTNDHLGWLFMMVFFAIKIISSFMISLKEGDKKSVFIDLGLIIFSVLLLVVTSVKYFF				NA	NA	NA	NA	NA
AK009_02467	855	rutD_2		Putative aminoacrylate hydrolase RutD	ATGTGGACACAACAAATGATCCCCACAAAACGCGGCACATTTGAACTCTTTACAAAAGGAAATGGCGAACCGCTTTGTATTACACATCACTATTCACAATTTAATGAAACTGGTGATTACTTTGCAGATGTTTTCACTGCTACGCATCGTGTATTTCTCATTAATTTACGAGATGCTGGTAGCTCTGTAACCGCCCAGTCAGAAAACGAATTAAGTATGATTGAAACGGTTAACGATTTAGAAGCAATACGGGAAGCTTTACAACTCCCAACATGGCATTTCACTGGTCATTCAACAGGTGGTATGCTTGGACTTTTATATGCGATTACATATCCAAATTCCTTACAATCATTAGTCGTAGCAGGCGCTGCAGCAAGTAACTATACCGAAACACCATTTTGTATTTATCATCCAGAACATTCACAGTTTCATTATATGCAAGAGCTCATCGAAAACTTAAAAAGCCCTCACCTTACAAGTGAAGAACGGAAAGAACTATCTACTAAGAGAACAAAATTATCATTGTATAAACCAGAAAACTACAACTCTTATTTTTGTAAACCAATCAAAAAAACAATGTCCGTTAGCCGGATGAATGCTTTCGCCAATGAATATCCTTCATTTGATTTAAGGGAGTATTTACCTTCTATAAAAACAAAAACACTAATTATGTGTGGAAGACACGATGTGCAGTGTCCTATTCAATATTCCATCGAGATACATGAGGGTATATGCGATTCTACTTTTGTGACATTTGAGGAGAGCAACCATTATCCTTTTTTAGAAGAAGCTGCTCAGTTTACTTCTACTACTCAAATATTTTATAAATCATTGCAACAAGGAACTCTAAAATAG	MWTQQMIPTKRGTFELFTKGNGEPLCITHHYSQFNETGDYFADVFTATHRVFLINLRDAGSSVTAQSENELSMIETVNDLEAIREALQLPTWHFTGHSTGGMLGLLYAITYPNSLQSLVVAGAAASNYTETPFCIYHPEHSQFHYMQELIENLKSPHLTSEERKELSTKRTKLSLYKPENYNSYFCKPIKKTMSVSRMNAFANEYPSFDLREYLPSIKTKTLIMCGRHDVQCPIQYSIEIHEGICDSTFVTFEESNHYPFLEEAAQFTSTTQIFYKSLQQGTLK				NA	NA	NA	NA	NA
AK009_02468	1194	acuC		Acetoin utilization protein AcuC	ATGGCCGAACATCATGGGGATGCAAGCATGAGTAGCGCGTTTATTTATTCGGATGACTTTCGGGGCTATTCATTTAGCCCTGATCATCCTTTTAACCAACTGCGCGTCACACTTACGTATGATTTATTACAAAAGGGTGGTTTCATCTCTCCCTCTCAAATCATCTCACCACGGATGGCTACAGATGAAGAGATTGCCTACGTTCATACAGAGGAGTACATAAATGCGGTAAAACGTGCTGGAGAAGGAAAGTTAGAAAAATCAATTGCGATGACATATGGACTAGGAACAGAAGATACACCGATGTTCCCAAATATGCACGAAGCAAGCGCATTGCTCGTTGGCGGTACGTTAACAGCTGTCGATGCTGTTCTTTCCGGAAAAGTAAAACACGCACTTAACTTAGGTGGAGGCTTACATCACGGCTTCCGTGGCAAGGCATCTGGTTTTTGTATTTATAACGATAGCTCCATCGCAATGAAGTATATTCAGAAGAAATACGGTTTACGCGTCTTATATATTGATACAGACGCTCATCACGGTGATGGCGTGCAGTGGTCGTTTTATGATGATCCTAACGTATGCACCATTTCATTACATGAAACTGGTCGCTATTTATTCCCTGGAACTGGCGCTGTAAACGAACGTGGACAAGGTAATGGTTATAGTTATTCTTTTAACGTTCCACTGGATGCTTTTACAGAAGATGAATCCTTTCTAAAATCATATCGAACAGTTGTAAAAGAAGTTGCAGCGTACTTTAAACCGGATATTATTTTAACGCAAAATGGTGCCGACGCACATTACTACGACCCACTTACACACCTTTGTGCAACCATGAATATTTACCGCGAAATACCGAAGCTCGCTCGTGAAATTGCTAATGAATATTGCGACGGTCGCTGGATCGCTGTCGGCGGCGGTGGCTATGACCATTGGCGCGTCGTACCAAGAGCTTGGGCACTTATTTGGCTCGAAATGAACAACATCCAAAACATCTCGGGTTATCTCCCTCCAGAATGGATTGACGCTTGGAAAGGACAAGCCGAAACAGAACTTCCCCTCACATGGGAAGATCCAGACAACATGTATAAACCTATCCCCCGTAAACCAGAAATTGAAGAAAAGAATGCATTAACTGTAGCGAAATCCCTTGAAATTATTCGGAATAATATGACAAAATCTTTGTACTAA	MAEHHGDASMSSAFIYSDDFRGYSFSPDHPFNQLRVTLTYDLLQKGGFISPSQIISPRMATDEEIAYVHTEEYINAVKRAGEGKLEKSIAMTYGLGTEDTPMFPNMHEASALLVGGTLTAVDAVLSGKVKHALNLGGGLHHGFRGKASGFCIYNDSSIAMKYIQKKYGLRVLYIDTDAHHGDGVQWSFYDDPNVCTISLHETGRYLFPGTGAVNERGQGNGYSYSFNVPLDAFTEDESFLKSYRTVVKEVAAYFKPDIILTQNGADAHYYDPLTHLCATMNIYREIPKLAREIANEYCDGRWIAVGGGGYDHWRVVPRAWALIWLEMNNIQNISGYLPPEWIDAWKGQAETELPLTWEDPDNMYKPIPRKPEIEEKNALTVAKSLEIIRNNMTKSLY	PGPT0008225_162	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
AK009_02469	645	IMPDH_1		Inosine-5'-monophosphate dehydrogenase	ATGATTGTAGAAGAAATTATGAATCAAAATGTAGTTACACTACATCCAAACGATACAATCGAAACAGCAATCCGAACGATTCGCACGAAAGGAATTCGGCACATTCCAATTGTCGATCAAAATAATCACGTCGTAGGCATTATTTCTGATCGGGATGTAAGAGATGCAAGTCCGTCTATTCTAGATGAACAAGTTTCACTCGATATGCTACAGCAACCGCTTGAACTTATTATGAAACATCCTGTAATGACTTGCCACCCTCTCGATTTCGTTGAGGAAATTGCTACTTTATTTTTTGAAAATAAAATTGGCTGTCTTCCTGTTACAAAAGCTGGGAAGTTAGTTGGAATAATCTCAGAATCTACAGTACTGCACACGTTAGTAAAATTAACAGGAGCACATCAACCGAGTTCACAAATTGAAATTCAAGTAAAAAATGAACCTGGTATTCTTGGAAAAGTCGTTGCTATTTTTAGTGATTTACAAATAAATATCGTGAGCGTTCTCGTCTATCCAGCAAAAGATGAGAATGATAAAGTACTTGTTTTCCGCATTCAAACGATGAATCCTCTAAAAGTGATTGATGCACTTGAAGCAGAAGGCTATCGCGTATTATGGCCGAACATCATGGGGATGCAAGCATGA	MIVEEIMNQNVVTLHPNDTIETAIRTIRTKGIRHIPIVDQNNHVVGIISDRDVRDASPSILDEQVSLDMLQQPLELIMKHPVMTCHPLDFVEEIATLFFENKIGCLPVTKAGKLVGIISESTVLHTLVKLTGAHQPSSQIEIQVKNEPGILGKVVAIFSDLQINIVSVLVYPAKDENDKVLVFRIQTMNPLKVIDALEAEGYRVLWPNIMGMQA	PGPT0008220_437	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
AK009_02470	633	acuA		Acetoin utilization protein AcuA	TTGATTCATAAAAAAATATACAATGCTAGAAACTTAAAAACAGCGAAAGGCACTTTAATTATTGAAGGTCCTGTCTCTACACATAATCTTGAAATGTATGAATTTCATCCAGATTTAGTTGCATTTCGTCCTGCTGAACAGCAATATAAAGCAATTGTCGAAATTTCTAAATTACCAGAAGCTCGACTCATTATTGCTAGACATGACCAGATGATTGTTGGATATGTTACATATTTATATCCTGATCCACTTGAACGATGGTCAGAAGGAAAAATAGAAAACTTAATTGAGCTTGGGGCAATTGAAGTAGTTCCAGCCTTCCGCGGGAGTTCTGTCGGAAAGAACTTACTAGAGGTTTCTATGATGGACGATTATATGGAAGATTACATTATATTGACGACTGAATATTATTGGCACTGGGATTTGAAACAAACAGGATTAAATGTTTGGGAATACCGAAAAGTAATGGAAAAGATGATGAATGCCGGCGGGTTACAATGGATGGCTACAGACGATCCTGAAATTTGTTCACATCCCGCCAACTGTTTAATGGTCCGCATCGGTAAACGCGTTGATACGGATTCTATTCAAGCTTTTGATCGTCTACGTTTTCACAATCGTTTTATGTATTAA	MIHKKIYNARNLKTAKGTLIIEGPVSTHNLEMYEFHPDLVAFRPAEQQYKAIVEISKLPEARLIIARHDQMIVGYVTYLYPDPLERWSEGKIENLIELGAIEVVPAFRGSSVGKNLLEVSMMDDYMEDYIILTTEYYWHWDLKQTGLNVWEYRKVMEKMMNAGGLQWMATDDPEICSHPANCLMVRIGKRVDTDSIQAFDRLRFHNRFMY	PGPT0008215_224	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
AK009_02471	1719	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGAAAGTAGAAACGCTTCCTGTCATTAAAGGAGAAAATAATTTGCCGAATTATGATGAGGCATACGCGAATTTTAACTGGGAAGAGGTTAATAAAAACTTTACTTGGAATGAAACAGGCCGAGTAAATATGGCGTATGAGGCAATTGATAAGCATGCGAAATCCGATCGAAAGAATAAAGTAGCTCTTTATTATCAAGATGGATCGCGAAAAGAGAAATATACATTTAAGGAAATGAAGGATTTTTCTAATAAAGCAGGAAATGTCCTGAAAAATTATGGCGATGTAGAAAAAGGCGATCGCGTTTTTATTTTTATGCCACGTTCTCCAGAATTATATTTCGCACTTTTAGGTGCAGTGAAATTAGGAGCAATTGTTGGACCGTTATTTGAAGCATTTATGGAAGGTGCGGTTCGCGATCGTTTAGAAGATAGTGAAGCGAAGGTGTTAATTACAACGCCTGAGTTATTAGAGCGTGTACCATTAAATGATTTACCTGCTTTAAAAACAGTTTTTCTTGTTGGAGATAATGTAGAAGAAGGCGGTAAAACGGTAGCGTTCAATCCTTTATTTGAACAAGCTTCAAAAGAATTACATATTGAATGGTTAGGCCGTGAAGATGGTTTAATTCTTCACTATACGTCTGGTTCTACTGGTAAGCCAAAAGGTGTGCTTCATGCGCAAAATGCAATGGTTCAGCACTATCAAACGGCGAAATGGGTATTAGATTTAAAAGAAGACGATGTATATTGGTGCACAGCTGATCCAGGCTGGGTAACGGGAACTGCTTACGGTATTTTCGCACCGTGGTTAGTTGGAGCGTCAAATGTTATTTTAGGTGGGCGATTTAGTCCGGAAGCTTGGTATGAAGCACTGCAAGATTACGGTGTAACAGTTTGGTATAGTGCACCGACAGCGTTCCGTATGTTAATGGGAGCTGGACAAGACGCAATTAAAAAATATGACTTATCACAAGTTCGTCACGTATTAAGCGTTGGTGAGCCGTTAAATCCAGAAGTAATTCGCTGGGGTATGAATGCATTTGGACTTCGTATTCATGATACGTGGTGGATGACAGAAACAGGTGGACAAGTTATTTGTAACTACCCTTGTATGGAAATCCGTCCAGGTTCAATGGGTAAACCCATTCCAGGTGTAAAAGCAGCGATTGTTGATAATGAAGGAAATGAAGTTCCTCCATACACAATGGGTAACTTAGCAATTGCGAAAGGTTGGCCATCTATGATGCGTGCAATCTGGAATAACCAGCAAAAGTATGAATCTTATTTCATGCCGGGAGATTGGTACGTATCAGGTGACTCTGCCTATATGGATGAAGATGGATACTTCTGGTTCCAAGGACGTATTGACGATGTAATTATGACGTCAGGTGAGCGCGTTGGTCCGTTTGAAGTAGAAAGTAAATTAATCGAGCATGCTGCTGTTGCAGAAGCAGGTGTAATTGGTATTCCTGATCCAGTGCGTGGCGAAATTATTAAAGCATTTATCGCACTTCGAGCAGGATACGAACCATCTGATGAATTAAAAGAAGAAATTCGTCAATTTGTAAAGAAAGGCCTAGCAGCTCATGCAGCGCCACGACAAATTGAATTTAGAGATAAATTACCGAAAACGAGAAGTGGTAAAATTATGCGCCGCGTATTAAAAGCGTGGGAGCTGAATTTACCAACAGGTGACTTATCAACGATGGAAGATTAA	MKVETLPVIKGENNLPNYDEAYANFNWEEVNKNFTWNETGRVNMAYEAIDKHAKSDRKNKVALYYQDGSRKEKYTFKEMKDFSNKAGNVLKNYGDVEKGDRVFIFMPRSPELYFALLGAVKLGAIVGPLFEAFMEGAVRDRLEDSEAKVLITTPELLERVPLNDLPALKTVFLVGDNVEEGGKTVAFNPLFEQASKELHIEWLGREDGLILHYTSGSTGKPKGVLHAQNAMVQHYQTAKWVLDLKEDDVYWCTADPGWVTGTAYGIFAPWLVGASNVILGGRFSPEAWYEALQDYGVTVWYSAPTAFRMLMGAGQDAIKKYDLSQVRHVLSVGEPLNPEVIRWGMNAFGLRIHDTWWMTETGGQVICNYPCMEIRPGSMGKPIPGVKAAIVDNEGNEVPPYTMGNLAIAKGWPSMMRAIWNNQQKYESYFMPGDWYVSGDSAYMDEDGYFWFQGRIDDVIMTSGERVGPFEVESKLIEHAAVAEAGVIGIPDPVRGEIIKAFIALRAGYEPSDELKEEIRQFVKKGLAAHAAPRQIEFRDKLPKTRSGKIMRRVLKAWELNLPTGDLSTMED	PGPT0002265_5926	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK009_02472	558	maa_2	COG0110	Maltose O-acetyltransferase	ATGAAAACAGAAAAAGAAAAGATGATACTAGGAGAAATGTATATACCGGCTGATCCAGTTTTAGTACAAGAAAGAGAGCAAGCACGTATATTAACGAGAAAATTAAATGATACGCCAGAAGAGCAATTGAAAGAGCGTAGCGAAATCATAAAAGAATTATTCGGAACGACAGGAGATAATATTCATCTTGAATCTTCTTTTAGATGTGATTACGGCTATAACATTCATGTCGGTGAAAATTTTTACGCGAACTTTGACTGTACGATTTTAGACGTATGCCCGGTAACAATCGGAGTGAACTGTATGTTAGCTCCAGGTGTTCACATTTATACAGCAACGCACCCGCTTGATCCGGTAGAGCGTATAAGCGGATCAGAATACGGAAAACCAGTTACAATTGGCGATAACGTATGGATTGGCGGAAGAGCAATTATTAATCCAGGTGTAACAATTGGAGACAATGCGGTGATCGCATCTGGTGCTGTCGTAACGAAAGATGTGCCTAATAATGTAGTAGTTGGCGGGAATCCTGCAAAGATTATAAAAAAACTAAAATAA	MKTEKEKMILGEMYIPADPVLVQEREQARILTRKLNDTPEEQLKERSEIIKELFGTTGDNIHLESSFRCDYGYNIHVGENFYANFDCTILDVCPVTIGVNCMLAPGVHIYTATHPLDPVERISGSEYGKPVTIGDNVWIGGRAIINPGVTIGDNAVIASGAVVTKDVPNNVVVGGNPAKIIKKLK	PGPT0018611_1541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
AK009_02474	1257	tyrS1	COG0162	Tyrosine--tRNA ligase 1	ATGGGTATTTTACAAGATCTTGAATTTCGCGGTCTAATTAATCAGCAAACAGATGCTGAGGGCCTTGAGCAATTATTAGAAAAAGAAAGCGTTAAATTATACTGTGGTTTCGACCCGACAGCGGATAGTTTACATATTGGTCATATGTTACCAGTATTAATGTTACGTCGTTTCCAATTAGCTGGCCACCAACCAATCGCACTTGTTGGCGGTGGTACTGGTATGATCGGTGACCCGAGTGGTAAAAAAGCAGAACGTACATTAAATACGAAAGATACAGTTGCTTACTACACAGAAAGCATTAAAAACCAACTTTCAAACTTCTTAGAGTTTGAAAACGTGGACAACCCAGCAACGATGGCTAACAACTATGACTGGCTTGGTAGCTTAGATGTAATTTCATTCTTACGCGATATCGGTAAAAACTTCGGTTTAAACTATATGTTAGCAAAAGATACAGTAGCATCTCGTTTAGAAACTGGTATTTCATTCACTGAGTTCAGTTACATGATTTTACAATCATACGACTTCTTAAACTTATACCAACAACATAATTGCCGTTTGCAAATCGGTGGTAGTGACCAATGGGGTAACATTACAGCTGGTCTTGAATTAATTCGTAAATCAGAGGAAGATGCGAAAGCATTCGGTTTAACAATTCCACTTGTTACAAAATCTGACGGTACGAAGTTTGGTAAAACAGAAGGCGGCGCAATTTGGTTAGACCCAGAGAAAACAACTCCTTACGAGTTCTACCAATTCTGGATTAACACAGATGACCGCGACGTTGTTAAATACTTAAAATACTTCACATTCTTATCTCATGAAGAAATTCTTGAGCTTGAAAAGCAAGTAGCTGAAGCACCAGAAAAACGTGCAGCACAAAAAGCATTAGGTTCTGAAATGACAAAACTTGTTCACGGCGAAGAAGCATTAGAGCAAGCGATTAAAATTTCAGCTGCGCTATTCAGCGGTTCTGTAGCAGAACTAACTGCAAGCGAAATTGAACAAGGATTCAAAGACGTACCATCTGTAGAACGTACTGCAGAAGATACAGTATTAATCGACTTACTTGTAGAAAGCAAAATCTCTCCATCAAAACGTCAAGCACGTGAAGATGTAACGAACGGCGCAATCTACGTAAACGGTGAGCGTACACAAGCGTTAGACTACGTTGTAACAGAAAACGACCGCATCGAAGGTAAATTTACAATCATTCGCCGCGGTAAAAAGAAATATTTCTTAATTCGTTACTAA	MGILQDLEFRGLINQQTDAEGLEQLLEKESVKLYCGFDPTADSLHIGHMLPVLMLRRFQLAGHQPIALVGGGTGMIGDPSGKKAERTLNTKDTVAYYTESIKNQLSNFLEFENVDNPATMANNYDWLGSLDVISFLRDIGKNFGLNYMLAKDTVASRLETGISFTEFSYMILQSYDFLNLYQQHNCRLQIGGSDQWGNITAGLELIRKSEEDAKAFGLTIPLVTKSDGTKFGKTEGGAIWLDPEKTTPYEFYQFWINTDDRDVVKYLKYFTFLSHEEILELEKQVAEAPEKRAAQKALGSEMTKLVHGEEALEQAIKISAALFSGSVAELTASEIEQGFKDVPSVERTAEDTVLIDLLVESKISPSKRQAREDVTNGAIYVNGERTQALDYVVTENDRIEGKFTIIRRGKKKYFLIRY				NA	NA	NA	NA	NA
AK009_02475	129			hypothetical protein	ATGTCACTAGAAGCGTTGATTATTTTTTCTTTGCTAAACGCGGGTCAACTTGCAGAGAATTCGAAGGTTGATATACATAAAGAGCAGAAAGATGCTTATGTATATGTTCAAAAAGAGGAAAATAAATAA	MSLEALIIFSLLNAGQLAENSKVDIHKEQKDAYVYVQKEENK				NA	NA	NA	NA	NA
AK009_02476	1149			hypothetical protein	ATGGAATTCAGAAATGACATAAACAAAATAGCTAACCAAATTTTAGAACGAACAGAGTACATAACTAATGAAGAAATGACCAAGCAATCATTAATTATTCCTTTTCTTCAAAAACTAGGTTATGACGTTTTTAATCCTTTAGAAGTTAGACCTGAGTATGTTGCAGACTTCGGAACTAAGAAGGGAGAAAAAGTCGATTATGCGGTTTTTAAAAATGGGGTTCCAATTATTTTAATCGAGGCAAAATCTGTAACAGAAAATCTCCTTAAACACGATGCGCAACTATCTAGATATTTCAATGCCTTACCTGATGTCAAAGTAGGGGTACTAACTAATGGTGTAGAATACAAGTTTTATACTGATTTAACAAATGACAATGTGATGGATGAAAAACCTTTCTTCACATTCAGCATGGATAATTTAACTAATTTAGATATTGAAACGATTGAAACTTTTACAAAAGAAAATTTTGAAGCTGAAGAAATCGTAAAATATGCTGAAGAGCTTATTTATATGACCAATTTAAACTCTACAATTAAAGAACTATTTAAAAATCCTTCAGATGACTTCCTTCGTTTTCTAATTAGAGACTTTAGCTCAACTAGAATTACAAATAACGTTTTAGAGCGATTCCGACCAATCGTTAAAAAAGCAATTAATCGAACACTATTAGAAATAATCAGTGATGGTTTAACACCAAAAGAAACAAAAACATCGGAGAAAATAGAAACAAGCCTAGTTGCAGCTGCTTCTACCGAAATAATTGAAGACATTAACAAAGAAGACAAAACAGATAGAGTTTTCACTACAGAAAATGAACTAACCGCATTTAACATTGTTAAAGAGATTTTAACTGAGCATCAAAGAGATATCAGTAACCTCAAATATAAAGATACCATTAGTTATTTTTGTATCATGAATCGTGTAATCACAAAATGGTTTATACGTCTCTTCCTTGATGGCGATGCAAAATCCTTAGTTGTAAGACTCGATTTAGAAGCTACGAAACAGCTATGCCCTAATTTTGTGGTTGAACAAGCCCCAAAATCACAGGGAGTGAGTAGAATTTTTATTGATAACGTTAATGACTTAAAAGATCTGGAAGCACTTATTACTTCGTGCTATGATCAAATTTTAGCTAATGTTTAA	MEFRNDINKIANQILERTEYITNEEMTKQSLIIPFLQKLGYDVFNPLEVRPEYVADFGTKKGEKVDYAVFKNGVPIILIEAKSVTENLLKHDAQLSRYFNALPDVKVGVLTNGVEYKFYTDLTNDNVMDEKPFFTFSMDNLTNLDIETIETFTKENFEAEEIVKYAEELIYMTNLNSTIKELFKNPSDDFLRFLIRDFSSTRITNNVLERFRPIVKKAINRTLLEIISDGLTPKETKTSEKIETSLVAAASTEIIEDINKEDKTDRVFTTENELTAFNIVKEILTEHQRDISNLKYKDTISYFCIMNRVITKWFIRLFLDGDAKSLVVRLDLEATKQLCPNFVVEQAPKSQGVSRIFIDNVNDLKDLEALITSCYDQILANV				NA	NA	NA	NA	NA
AK009_02477	603	rpsD	COG0522	30S ribosomal protein S4	ATGGCTCGTTATACAGGTCCAGCTTGGAAACTGTCTCGTCGTCTTGGAATCTCTCTAAGCGGCACAGGAAAAGAATTAGAAAAACGCCCTTACGCACCAGGTCCTCACGGTCCTAACCAACGTAAGAAACTTTCAGAATACGGTTTACAATTACAAGAGAAACAAAAACTTCGTCACATGTACGGCATGACTGAGCGTCAATTCCGTCGCACATTTGACCAAGCAGGTAAAATGCCTGGTAAGCACGGCGAAAACTTCATGATCCTTCTTGAAGCTCGTCTTGACAACTTAGTTTACCGTATGGGCTTAGCTCGCACTCGTCGTGCAGCTCGCCAATTAGTAAACCACGGTCACATCATGGTTGATGGCGCTCGCGTAGATATCCCATCTTACCGTGTAAAACCTAACCAAACTATCAGCGTTCGCGAAAAATCTAACAGCCTTGTTGTTGTTAAAGAAGCGATCGAAGTTAACAACTTCGTACCAGAATACTTAACTTTCGATGCTGACAAATTAGAAGCTACTTACACTCGTCACGCTGAGCGTGCTGAGTTACCAGCTGAAATCAACGAAGCATTAATCGTAGAGTTCTACTCTCGTTAA	MARYTGPAWKLSRRLGISLSGTGKELEKRPYAPGPHGPNQRKKLSEYGLQLQEKQKLRHMYGMTERQFRRTFDQAGKMPGKHGENFMILLEARLDNLVYRMGLARTRRAARQLVNHGHIMVDGARVDIPSYRVKPNQTISVREKSNSLVVVKEAIEVNNFVPEYLTFDADKLEATYTRHAERAELPAEINEALIVEFYSR				NA	NA	NA	NA	NA
AK009_02478	1176		COG0626	L-methionine gamma-lyase	ATGAAAAAGAAGCATATGGAGACAGCGTTAATTCATCACGGTTATACACCTGAGGAACATAAAGGAAGTTTAACACCACCTTTATTTCAAACTTCTACATTTACATTTGAGACTGCGCAGCAAGGAGAGGCGAGTTTTGCGGGAGTGGATCCATCTTATATTTACTCACGGCTTGGAAATCCAACTGTGAAATTATTTGAAGAACGTATGGCGGTGTTAGAAGGAGGAGAAGAGGCACTTGCCTTCGGATCTGGTATGGCAGCTATTTCAGCAACTTTAATTGGTTTTTTAAAGGCTGGAGATCATATTATTTGTTCAAACGGATTATATGGGTGTACGTACGGTTTTTTAGAAGTGTTAGAAGAAAAATTTATGATTACGCATTCGTTTTGTGAGATGGAGACAGAGGCTAATATTGAAAATAAAATTCGTTCGAATACAAAGCTTATTTTCGTTGAAACACCGATTAATCCAACAATGAAATTAATCGATTTAAAACAAGTGATTCAGGTTGCGAAGCAAAATGGCTTACTTGTCATTGTTGATAATACGTTTTGTTCGCCTTATTTACAAAGACCGCTTGAGCTTGGCTGTGACGCTGTTGTGCATAGTGCGACAAAATATATTGGTGGCCATGGTGACGTTGTAGCGGGTGTAACGATTTGTAAAACGAAAGCGTTAGCTGAAAAGATTCGCCCGATGCGAAAAGATATCGGCGGTATTATGGCGCCGTTTGATGCGTGGTTATTATTACGCGGGTTAAAGACGTTAGCAGTAAGAATGGATCGTCATTGTGATAATGCAGAAAAAATTGTATCGTTCTTAAGAAAACATGATGTGGTAGAAGATGTTTGGTATCCAGAAGGGGAGTTAGCATCTCGTCAAATGAAACGCGGGGGCGGTGTTATTTCTTTTTCAGTAAAAGGCGGAAAAGAAGAGACTCAAGCGTTTATTAATGATCTTCACTTTATTACAATTGCGGTAAGTTTAGGCGATACAGAAACATTAATTCAGCATCCAGCAACGATGACGCACGCTGCAATTCCGGCTGAACTAAGAAAAGAAATGGGCATTTTCGATAATTTAATACGCTTATCGGTCGGTTTAGAATCGTGGGAGGATATCGTTTCTGATTTAGAGCAGGCATTAAAGAAAATATCTACTGTTAATCAATAA	MKKKHMETALIHHGYTPEEHKGSLTPPLFQTSTFTFETAQQGEASFAGVDPSYIYSRLGNPTVKLFEERMAVLEGGEEALAFGSGMAAISATLIGFLKAGDHIICSNGLYGCTYGFLEVLEEKFMITHSFCEMETEANIENKIRSNTKLIFVETPINPTMKLIDLKQVIQVAKQNGLLVIVDNTFCSPYLQRPLELGCDAVVHSATKYIGGHGDVVAGVTICKTKALAEKIRPMRKDIGGIMAPFDAWLLLRGLKTLAVRMDRHCDNAEKIVSFLRKHDVVEDVWYPEGELASRQMKRGGGVISFSVKGGKEETQAFINDLHFITIAVSLGDTETLIQHPATMTHAAIPAELRKEMGIFDNLIRLSVGLESWEDIVSDLEQALKKISTVNQ	PGPT0020020_1319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
AK009_02479	480	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGTTTACTAAAGAAAGTTATGCAGGATCTCGCGTGCAGCAATATGAGACAGTAATTAAACAACTGGATGCGTTATTAACTGGCGAATCAAACGTAGTCGCAAACTTATCAAATGCGTCCGCATTATTAAACCAATTTTTAGATCGCGTTAATTGGGTTGGCTTTTATGTAACAGAAGGAAATCAGCTTGTCCTTGGACCGTTCCAAGGAATGCCTGCTTGCGTACGCATTCCATTTGGACGAGGCGTTTGCGGCGTAGCAGCTGAAACGAAAACAACTCAGCTTGTAGCGGACGTTCACCAATTCCCAGGTCACATCGCTTGCGATAGTGCTTCTAATTCGGAAATCGTTGTACCGATTGTGAAAGAAGGAGCTGTCATTGGTGTACTTGACATTGATAGTCCTGAAAAAAATCGTTTTGATGAAGTAGATCAGCGCTATTTAGAAAAGTTTGTGGAGACACTCCTAAAACATATGTAA	MFTKESYAGSRVQQYETVIKQLDALLTGESNVVANLSNASALLNQFLDRVNWVGFYVTEGNQLVLGPFQGMPACVRIPFGRGVCGVAAETKTTQLVADVHQFPGHIACDSASNSEIVVPIVKEGAVIGVLDIDSPEKNRFDEVDQRYLEKFVETLLKHM				NA	NA	NA	NA	NA
AK009_02480	639	yttP		putative HTH-type transcriptional regulator YttP	ATGAAGCAGACGAAACAAAAAGTAATTGATGCGGCAATATCGTTGTTTAATACGAAAGGTTATGATGGAACGTCGGTGCGAGACATTGCAAAGCGAGCGGATGTGAATGTAGCGAATATTTCATATTATTTTGCTGGGAAGCAAGGTTTATTAGAACAGCTTATTACTGATTTTTTAGAAGGGTATATTCATGTGATTGAAATTTCGTTTGAACAGAGAGAGTATTTGTCGACTAAAGATGTGATGGTGCAAATGGTGCGTGGGATGTTACGATATCAATTTGAAAATAGAGAACTAACACGTTTCTTCTACCGAGAGCTTTCGCTTGATACGACATTAATTCGTGAAGTGATGACCGTTTATTTTTCTAAAGAAAGATATTATATAGAGCAAATTATTAGGCAAGGACAAATAAAACAAGAATTTCAGAAAGTATCATTTACAATGTTTATGACGCAATTAAAAGGCATGATAAATATGCCGTTTTTATATCCACAATATATATCAGAAGTACTGCATTCTTTCCCGTCTGAGACATTTTTCATAGAAATGTACACGAAAGAGATTGAGCAATGGATGGAACAAGCATTATGTAAAGCGAATATGTACCATGAATGGCCAAGAGCTGTTCATATGTGA	MKQTKQKVIDAAISLFNTKGYDGTSVRDIAKRADVNVANISYYFAGKQGLLEQLITDFLEGYIHVIEISFEQREYLSTKDVMVQMVRGMLRYQFENRELTRFFYRELSLDTTLIREVMTVYFSKERYYIEQIIRQGQIKQEFQKVSFTMFMTQLKGMINMPFLYPQYISEVLHSFPSETFFIEMYTKEIEQWMEQALCKANMYHEWPRAVHM	PGPT0026330_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026330-icaR-K21453	NA	NA
AK009_02481	930			hypothetical protein	ATGCTACTCGGATCCTTTCTATGCTTACTCGCCGTCACTGCCTGGGGATTTATGTTTCCTGTAATGGCAAATGCTCTGCAATTTATCGATCCGTTCTTCTTCACAACGATTCGCTATGGATCAGCAGCTATTATTTTTCTTATTTTGCTATTAATTACTGAAGGGAAGACTTCACTCCGCTTAGAAAAAAGAACACTTTCTCTGTTCTTTTACGGGACAGTCGGTTTCGCAGGATATGGTTTTCTCGTTTTCTACGGACAACAACTTGCTGGACCTTCCGGAGCAATTCATGCAGCTATGATTCAGTCTCTTATGCCACTGATCGCCTTATCACTGCAATGGGTAACGAAAAATCGTCGCCCACAAAACTACACATTTCTTTGTATGTTCGTTGCATTACTTGGTGTGATGCTTGTCATTTCAAAAGGAAATATTCACTTATTATTTGGAGCTGCAAGCCACTTATCGACAAACATATTAATGCTATGCGGCGTTACTTGCTGGGTCATTTATACAAACGGAGGTGCTCGTTTTCAATCCTGGTCACCACTTAGGTACACGACATTAACTTGTTTATTTGGCTCCATTTCACTCATCGTTATTGTTACTTTCTTAACGTACACAAATATAGTTACTATGCCGTCACTGCGTAAAGTTGTGAGCGTTCGTTTTGAGCTCTTTTATATGTCGATTATCGCAGGAGTTATCGCTGTATTTTGCTGGAATATGGGAAATCGCTATATTTCATCTATTAACGGCATATTATTTATGAATTTAGTTCCTATTCTTGCACTGATCGGTTCTATCTTTCGAGGTTATACAGTCGATAAAATTGAAATCGCTGGAGCAACGTTAACAATTATCGCGCTATTATGTAACAATTTATGGCAAAGAAAAATAAACATAAAACTCCCCACCTCAGTTCGTTAG	MLLGSFLCLLAVTAWGFMFPVMANALQFIDPFFFTTIRYGSAAIIFLILLLITEGKTSLRLEKRTLSLFFYGTVGFAGYGFLVFYGQQLAGPSGAIHAAMIQSLMPLIALSLQWVTKNRRPQNYTFLCMFVALLGVMLVISKGNIHLLFGAASHLSTNILMLCGVTCWVIYTNGGARFQSWSPLRYTTLTCLFGSISLIVIVTFLTYTNIVTMPSLRKVVSVRFELFYMSIIAGVIAVFCWNMGNRYISSINGILFMNLVPILALIGSIFRGYTVDKIEIAGATLTIIALLCNNLWQRKINIKLPTSVR				NA	NA	NA	NA	NA
AK009_02482	840	gltC_2		HTH-type transcriptional regulator GltC	ATGGATTTGGAGGCAGTACGATCGTTTATCAAAGTGAAGCATACGCGAAGTTTATCAAAGGCAAGTAAAATTTTACATATATCTCAACCAGCGCTTAGTAAGCAAATTCGAAAGTTAGAAGCGGATTTAGAGGTTACTTTACTTAAGCGTTCTGCGCAAGGAGTGGAGTTAACGGAGGCAGGAGAGTTATTTATAAAAAGAATGCTACCGATTTTGGAACAAATAAATGAAGTGAAAACAGAAATGAGGGGGTATCAAGAGAACCGAAAGTTTTCAATTGGTATACTACCGAGTTTAGCAGAGCATTACATATTAGAGTGTAAAGATGTATTAGGTGATGAGCTCGAAGTAGAGTGGCAAATCGGACATACGGAAGTATTAAGAGATTTATTTAAAGCGCGGGAGATCGACGCGATGTTCATCGATTCAGTAGTAGAAGGTGCTACGTATATAAAAGAAGTGCAACAAGAGAAAATTGTTTGTGTCATTTCAAATAATCATCCGTATAAAGAGAAGAAAGTCATTCAAATAGAAGAGCTGCAAAATGAAAAATTAATTGTATATCCAGAAATATGCGATGTAAGGAAAATGATTATGAACATGTTTCATGAGATAGGTGTAAAACCAACTATAGCTGTGGAAACATCTTACGCAGAACCGATGCTTGCAATGGTAAAAGCTGGCCTTGGCATTACTTTACTTCCAGAAAGGGCAGTAGAGCAGTCTGTAAGGCAGGGAAATGTACATGGAATTTCTGTTGAACCACCACTCATTCGGAAAATTTATTTCGTATCTCATACGAAAGATTGTTTGTTATTACAATCATTTGAGGATAGGTAG	MDLEAVRSFIKVKHTRSLSKASKILHISQPALSKQIRKLEADLEVTLLKRSAQGVELTEAGELFIKRMLPILEQINEVKTEMRGYQENRKFSIGILPSLAEHYILECKDVLGDELEVEWQIGHTEVLRDLFKAREIDAMFIDSVVEGATYIKEVQQEKIVCVISNNHPYKEKKVIQIEELQNEKLIVYPEICDVRKMIMNMFHEIGVKPTIAVETSYAEPMLAMVKAGLGITLLPERAVEQSVRQGNVHGISVEPPLIRKIYFVSHTKDCLLLQSFEDR				NA	NA	NA	NA	NA
AK009_02483	1713	ezrA	COG4477	Septation ring formation regulator EzrA	ATGGATTCTATCCTGACGATCGTTATCATTGTAGTAAGCTCTATTCTAGTGCTGCTCATGATAGAGCTTGTGATAAGAAATCGTTCATATAAAGATATTGAAGCACTGGAGCAGTGGAAACAAGAGATAAAAGATAAACCTGTGGCAGATGAACTAAAACGGGTAAAAGATTTAAACATGACGGGTCAAACAGAAGAACTGTTTGGTAAATGGCGTGAAGAATGGGATGAAATTGTATCAACAACCCTTCCGAAAGCTGACAAAGATTTAGCGCAAGCGCGAAAATTCGCCTCGCAATTCTCCTTCCGAAAAGCAAAGCATGCGATGAACGAATCCATAAGTGGTTTAGATGACGCTGATAATCGTATTACAGGTGTTTTAAATGAATTACAGCAATTGTTAGAAAGCCATGAGAAAAATAGCTCGGAAATTGAAGGGTTACGTGATACATATCGTAGTATGAAAAAGAGTGTTCTTGCTCATAGACATATGTATGGGGCAGCAGAGCAGAAAATCGAAGAGATGCTAGACGCTGAATCTAATAAATTTAAAAGTTTTGAAGAAGCAACAGATAATGGTGACTACTTAAAAGCGAGAGAAATTGTTATTAGTTTAGAAGAAGGTTTAGCTGGTTTAGAAATCATTATTCACCAAATTCCAGATTTATTAGTAGAGTGTCAAGCGACGCTACCAGTTCAACTGGAAGATTTATTACAGGGTCATAATGATATGGTAAGACAAGGTTATGTATTAGAGTATTTGGAAGTCCCTAAAGAAGTTCGTGATATGACGACACAACTAAACACATGTTTAATGGATATACAGGAGCTTCATATAACCGAAGCGGCTGAAAAAGTGGAAGACTTAAAAACTCGTTTAGATGGTTTCTATGATCAACTTGAGCAAGAGGTGCATGCGAGACATTATGTGGAGCAAAAAACACTTTCTGTTTATGAAGACTTAGAAGAAATACGTATCGAAACGATTGAAACGAAAACAGAAACACAACTTGTGAAACAAAGCTATCAATTGCAAGATAAGGATATTGAATCTCAAAAAGTAATTGAAAAGCAAATGCACATTTTAACGAAACGTTTTGAAATGCTACAATTACGCGTTGCTGAACAAGATATTGCCTTCTCTATTATTCGTGAGGAACTAGAAGAGGTTTATGAGCAATGTGAAACGTTAAAAATACTTCATGCAGAATATAAAGAGATGCTGCAAACGATGCGTAAAGAAGAGTTTGAAGCGCGTGAGAAGTTACAAGAAATGCGAAATACTATTTTCGAAACGAAACGCTTTATGCAAAAGTCGAATTTGCCAGGTCTTCCAGAGAGTATTATGGAAGATTTAAAAAGAGGGCAAATGGCAATGCAAGCTGTATATGAACAATTAGAAGTGAAGCCGTTAAATATGAACGCTGTAAATAGCAGTTTAGAAGAAGCATACACAACTGTGAACGGTGTAGCTGAAATGACAGAAGAGTTAATTGGACAAGCGTATTTAGTTGAAAAATTAATTCAATACGGTAACCGTTACCGCAGTCATGATGAAAGCCTTGCAGAAAGCTTAAATTATGCGGAGAAATTATTCCGTGAATATCAATACGATGCAGCTTTAGAACAAGCAGCTTCTGTACTAGAGCAACTTGAACCTGGTGTTGTTCAAAAAATAGCTGAATATGTAGACAATGAACAAACCCTTTCATAA	MDSILTIVIIVVSSILVLLMIELVIRNRSYKDIEALEQWKQEIKDKPVADELKRVKDLNMTGQTEELFGKWREEWDEIVSTTLPKADKDLAQARKFASQFSFRKAKHAMNESISGLDDADNRITGVLNELQQLLESHEKNSSEIEGLRDTYRSMKKSVLAHRHMYGAAEQKIEEMLDAESNKFKSFEEATDNGDYLKAREIVISLEEGLAGLEIIIHQIPDLLVECQATLPVQLEDLLQGHNDMVRQGYVLEYLEVPKEVRDMTTQLNTCLMDIQELHITEAAEKVEDLKTRLDGFYDQLEQEVHARHYVEQKTLSVYEDLEEIRIETIETKTETQLVKQSYQLQDKDIESQKVIEKQMHILTKRFEMLQLRVAEQDIAFSIIREELEEVYEQCETLKILHAEYKEMLQTMRKEEFEAREKLQEMRNTIFETKRFMQKSNLPGLPESIMEDLKRGQMAMQAVYEQLEVKPLNMNAVNSSLEEAYTTVNGVAEMTEELIGQAYLVEKLIQYGNRYRSHDESLAESLNYAEKLFREYQYDAALEQAASVLEQLEPGVVQKIAEYVDNEQTLS				NA	NA	NA	NA	NA
AK009_02484	1143	iscS_1	COG1104	Cysteine desulfurase IscS	ATGATCTATTTTGATAATAGTGCGACGACGAAGCCATATCCAGAAGCCCTTCAATCGTACGTGACGGTTGCTGGGAAATATTTTGGTAATCCTTCTTCTATTCATTCGCTTGGAGGAGAGGCAGAGCGTCTATTAACACAATCAAGAACGATTGCAGCGCAGCTTCTTCACGTTAAACCTTCTGAAATTATTTTCACATCAGGTGGAACGGAAGGAAACAACCTTGCGATTAAAGGGATAGCAATGAGGAATCGTTCGCGCGGCAAACATATCATTACAACAAATATTGAACACGCGTCTGTGTTTGAGGCATATAAGCAATTAGAAGAACTCGGATTTGATGTAACATATTTACCGGTTAACGAGCACGGTGTTGTATCGGTAGAGGATGTAAAACGAGCAATTCGTGAAGACACGATTCTTGTATCAATTATTCATGTGAACAACGAAACTGGAGCAATTCAGCCCGTTGCTGAAATTGGAACTTTATTATCGAATCATCCGAAAATAAGATTCCATGTAGATCATGTACAAGGGATAGGAAAAGTACCGCTTGATTTATATGCTTCTCATATTGATCTTTGCTCAATATCTGGACATAAATTCCACAGTGTAAAAGGAACGGGTCTTCTTTATATACGTGATGGCGTAAGATTAGATCCGATTTTATCAGGTGGTCAACAAGAGCTTAAGTATCGCTCTGGTACAGAGAATTTACCTGGCATTGTGGCGATGGTGAAAGCACTTCGCATGACAATGGAACAAGTGAAAGAAAAGGTAGCTCATTTGCAAGGTTTACAAGCGGAGCTTGTCAGCTTCTTTAAAGAGATGGAAGATGTGACGATTAATACATCGCTTGCATATGCAGCACCGCACATTTTAAATGTATCATTTGTTGGTTTAAAACCAGAAGTAGTCGTTCATGCTTTAGAAGAACACGGTGTATATGTGTCAACGAAATCAGCTTGTTCTTCAAAAGCAAATGAAGTAAGCAGAGTGTTAGTGTCGATGGGAGTGCCGCATGCAGCAGCTGCAAGCGCTATTCGTATTAGTTTGGCACCAGATAACACGATGGAAGAAGTAAAACAATTTGAAGGTATTGTAAAAGAGACAATGCCAAAATTATATGAAGTGATGAGGTAA	MIYFDNSATTKPYPEALQSYVTVAGKYFGNPSSIHSLGGEAERLLTQSRTIAAQLLHVKPSEIIFTSGGTEGNNLAIKGIAMRNRSRGKHIITTNIEHASVFEAYKQLEELGFDVTYLPVNEHGVVSVEDVKRAIREDTILVSIIHVNNETGAIQPVAEIGTLLSNHPKIRFHVDHVQGIGKVPLDLYASHIDLCSISGHKFHSVKGTGLLYIRDGVRLDPILSGGQQELKYRSGTENLPGIVAMVKALRMTMEQVKEKVAHLQGLQAELVSFFKEMEDVTINTSLAYAAPHILNVSFVGLKPEVVVHALEEHGVYVSTKSACSSKANEVSRVLVSMGVPHAAAASAIRISLAPDNTMEEVKQFEGIVKETMPKLYEVMR	PGPT0000065_6330	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
AK009_02485	1215	thiI	COG0301	putative tRNA sulfurtransferase	ATGATGACATATGAATATATTTTAGTGCGTTACGGAGAAATGACGACAAAAGGTAAGAACCGTTCTAAATTTGTAAGCACATTAAAAGATAACGTGAAGTTCAAACTGAAAAAGTTCCCAAACATTAAAATTGATGCAACGCATGACCGTATGTACATCCAGTTAAACGGTGAAGATCATGAGGCAATCTCTGAAAGATTGAAAGACGTATTTGGTATTCATAAGTTTAACTTAGCGATGAAAGTACCATCAGAATTAGAAGACATTAAAAAAGGTGCATTAGCAGCTTTCTTACAAGTAAAAGATGATGTGAAAACATTTAAAATTACAGTGCATCGTTCTGATAAGCGCTTCCCAATGAAGACGATGGAGTTACTTCCAGAAATCGGTGGGCACATTTTAGAAAATACAGAGGATATAACAGTAGATGTTCATAATCCAGATGTGAATGTACGTATAGAAATTCGCAGTGGTTATAGTTATATTATGTGTGGTGAGCACATGGGAGCTGGCGGTTTACCAGTTGGCGTTGGTGGAAAAGTAATGGTACTTCTTTCTGGTGGTATTGATAGCCCGGTAGCAGCGTACTTAACGATGAAACGCGGCGTATCTGTGGAAGCAGTTCACTTCCATAGCCCACCTTTCACAAGTGAGCGTGCAAAACAAAAAGTAATCGATTTAGCACAAGGGTTAACGAAATACTGTAAACGTGTAACGCTGCACCTTGTTCCGTTTACAGAAGTGCAAAAAACGATTAATAAAGAAATCCCATCTAGCTATTCAATGACGGTTATGCGCCGTATGATGATGCGTATTACAGAGCAGATTGCTGAGGAGCGTAACGCACTTGCAATTACGACTGGTGAAAGTCTTGGACAAGTAGCAAGCCAAACATTAGATAGCATGCATACGATTAACGAAGTAACAAACTACCCAGTTATTCGTCCGCTTATTACGATGGATAAATTAGAAATTATTAAAATTGCTGAAGAAATCGGCACGTATGATATTTCAATTCGTCCATACGAAGATTGCTGTACAGTATTCACACCAGCTAGCCCGGCGACGAAGCCGAAGCGTGAAAAAGCAAATCGATTTGAAGCGAAATACGATTTCACACCGTTAATCGAAGAAGCTGTAGCGAACAAAGAAACAATGGTATTACAAACGGTTGAAGTAGTGGCGGAAGAAGAAAAATTTGAAGAACTTTTCTAA	MMTYEYILVRYGEMTTKGKNRSKFVSTLKDNVKFKLKKFPNIKIDATHDRMYIQLNGEDHEAISERLKDVFGIHKFNLAMKVPSELEDIKKGALAAFLQVKDDVKTFKITVHRSDKRFPMKTMELLPEIGGHILENTEDITVDVHNPDVNVRIEIRSGYSYIMCGEHMGAGGLPVGVGGKVMVLLSGGIDSPVAAYLTMKRGVSVEAVHFHSPPFTSERAKQKVIDLAQGLTKYCKRVTLHLVPFTEVQKTINKEIPSSYSMTVMRRMMMRITEQIAEERNALAITTGESLGQVASQTLDSMHTINEVTNYPVIRPLITMDKLEIIKIAEEIGTYDISIRPYEDCCTVFTPASPATKPKREKANRFEAKYDFTPLIEEAVANKETMVLQTVEVVAEEEKFEELF	PGPT0008940_1177	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
AK009_02486	198	sasP-C_2		Small, acid-soluble spore protein C	ATGTCACGTAGCACAAATAAATTAGCGGTTCCTGGTGCTGAATCAGCATTAGACCAAATGAAATACGAAATCGCTCAAGAGTTTGGTGTTCAACTTGGAGCTGATGCAACAGCTCGCGCTAACGGTTCTGTTGGTGGTGAAATCACTAAACGTCTAGTTTCACTAGCTGAGCAACAATTAGGCGGTTACCAAAAATAA	MSRSTNKLAVPGAESALDQMKYEIAQEFGVQLGADATARANGSVGGEITKRLVSLAEQQLGGYQK	PGPT0024865_309	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
AK009_02487	1587	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGAAGAGAGAGGAATTGTTGGCACCACCATCTTATAATTTAGTTTCAGAAATAGAGAAATATACAGACGATAAAGAGAAGCTTGCTTTAATTTGGCAAGATGATAAAGGGAATAGACGAGAAGTTACATATTTTGAATTAATGCAAGGTGCAAATAAAATTGGAAACGCTTTTATAAAAAGTGGCTTACAAAAAGGGGACAAGCTCCTTATTATGATGCCGCGTTTAATTGAAGCGTACATGACGTATATCGCTGCGATTAAAGCAGGATTTGTCGTAATTCCAAGTTCGGAAATGTTGCGTAAAAAAGATATCGAATATCGAATTGGACATGGCGAAGTAAAAGCGATAGTAAGCTATGAGCCGTACATTGGACAGTTTGATGATATAGAAGCAATGGAATCTCTTCAAAAATTCGTCCTGAGCGAGCAGTCAGTAGACGGATGGATCAATTTAAAAACAGCATTAGAAACAGAAAGTGACATGTTAGAAATGGCGAAAACAGATAAAGAAGATATGGTCTTTTTATCTTACACGTCAGGGACGACAGGAAACCCGAAAGGTGTCGTTCATACTCACGCGTGGGCATACGCTCATTTACGTACAAGCGCCCCGAATTGGCTCGGAATTGAAGAGAATGATGTTGTATGGGCAACGGCTAGTCCAGGGTGGCAAAAGTGGATTTGGAGCCCGTTTTTAGCAACTCTCGGTTCAGGGGCAACAGGATTTGTGTACAACGGCAAGTTTGAACCGAAAACGTATTTAAATTTATTAGACGATAATAAGGTGAATGTGCTTTGTTGTACACCGACTGAGTATAGATTAATGGCAAAGGTAGAAGATTTAAGCCAGTACAATTTAGAGGCGTTACATAGCGCTGTATCCGCAGGTGAGCCGTTAAATAGAGAAGTTATTGGAACGTTCCAAAAGCACTTTGATATTACAGTAAGAGACGGCTATGGGCAAACGGAAAATACACTACTTGTTGGTGTAATGAAAGGGATGGATATTAGACCAGGATCAATGGGGAAACCAACGCCAGGTAACCACGTCGATATCGTAAATGAGGAAGGTATTCCAGTTAAAGTAGGCGAAGTTGGTGATATTGCAGTTCACATTGAAACGCCGGCACTCTTTAAACAATATTATAAAGACGATGAGCGTACAGCGATGCAATTCCGCGGTGATTATTATATTACAGGTGATAAAGCGAAGAAAGATGAAGATGGCTACTTCTGGTTTGAAGGGCGTGGTGATGATATCATTATTAGCTCTGGTTATACAATCGGGCCGTTTGAAGTAGAGGATGCGCTTGTAAAACATCCTTACGTAAGAGAATGTGCGGTTGTCGCAAGTCCTGATGAAATTCGCGGAAGTGTCGTGAAGGCATTTATCGTATTAAGAGAGAATATAGAAAAGAACGAAGAAACATTAATTCCAACACTCCAACAACACGTCAAAGAACTCACTGCACCATATAAATACCCTCGCAAAATTGAATTTGTAGATGAACTACCAAAAACGATTTCTGGAAAAATTCGCCGTATTGAACTTAGAAAACAAGAGATGGAGATTCCGTCAAAATAA	MKREELLAPPSYNLVSEIEKYTDDKEKLALIWQDDKGNRREVTYFELMQGANKIGNAFIKSGLQKGDKLLIMMPRLIEAYMTYIAAIKAGFVVIPSSEMLRKKDIEYRIGHGEVKAIVSYEPYIGQFDDIEAMESLQKFVLSEQSVDGWINLKTALETESDMLEMAKTDKEDMVFLSYTSGTTGNPKGVVHTHAWAYAHLRTSAPNWLGIEENDVVWATASPGWQKWIWSPFLATLGSGATGFVYNGKFEPKTYLNLLDDNKVNVLCCTPTEYRLMAKVEDLSQYNLEALHSAVSAGEPLNREVIGTFQKHFDITVRDGYGQTENTLLVGVMKGMDIRPGSMGKPTPGNHVDIVNEEGIPVKVGEVGDIAVHIETPALFKQYYKDDERTAMQFRGDYYITGDKAKKDEDGYFWFEGRGDDIIISSGYTIGPFEVEDALVKHPYVRECAVVASPDEIRGSVVKAFIVLRENIEKNEETLIPTLQQHVKELTAPYKYPRKIEFVDELPKTISGKIRRIELRKQEMEIPSK	PGPT0002265_7826	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK009_02488	432			hypothetical protein	ATGATTTTAGGTATTAATCCGTACTTAGTTTTAGATGGTAGTGGGCAAGAAGCTGTACAGTTTTATAAAGAGGTTTTAGATGCAAAAGTAGAAGTCATGCAAACTTTTGGTGACATGCCTGAAAATCCAGAATACCCGATTCCAGCTGAAGCGAAAGAGCGCGTTTTACACGCTACTTTAAAAGTTGGTAATACGGATCTTATGATTTCTGATACATTCCCAGGTCAAGGGCATGCAATCGGATCTCAAGTAACAATCGCAATTCAAATTAGTAATGCAGAAAAAGCAAAAGAAGTATTCGATAAGTTACAAGAAGGTGGAGAGGTTATCATGCCACTTCAAGAAACATTCTGGAGCCCAGCATACGGACAAGTAAAAGATAAATTTAATATTGAATGGCAAGTTACAACGTCTACTACTGAACAAAAGTAA	MILGINPYLVLDGSGQEAVQFYKEVLDAKVEVMQTFGDMPENPEYPIPAEAKERVLHATLKVGNTDLMISDTFPGQGHAIGSQVTIAIQISNAEKAKEVFDKLQEGGEVIMPLQETFWSPAYGQVKDKFNIEWQVTTSTTEQK	PGPT0030505_1670	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK009_02489	1569	nfdA_2		N-substituted formamide deformylase	ATGAGAGAAATTTGGTATGGCGGCACCATTTACACAATGCGAGAAAAGAATGAAAAAGTAGAAGCTATTTATGTTGAAAATGGCATAATCGTTGATGCTGGGAGTAAGGAAGAATTAGAAAGTAGATATTCAAACGTTAAGTTGCAGGACCTAAAAGGAAAAACAATGATTCCGGGTCTCGTTGATAGCCATATGCATCTTATTGGGCATGGGGAGAGATTACTCCGTCTAGATTTATCAAATTGTACATCTTATGGTGAAGTGCTTACTCTTGTTCAGAAGCGAGTGGAAGAAGCACCAAAGGGATCTTGGGTTATTGGAGAAGGATGGAATGAAAATAACTTTACAGATACGAAAGATGTTCATGCGCGTGATTTAGATGAAATTTCGAAAGAACATCCCATTTTATTAAAGCGAGTTTGTCGTCACGTTACATGGGTGAATTCATACATATTGCAAGAAGCGAACATAACAGAAGCGACGCAAAATCCAAAAGGCGGGAAAATTGGCAGGGATTCATCAAATAAGTTAACAGGACTTTTATATGAACAAGGGCAAGAATTAATTAAACACGTTCAGCCAGAAATTGATGAAGCTTATTTACAAAGAGCTCTGCAAACAGCGATTAAAGATTGTTGGCAATATGGACTTGTTGGCGGGCATACGGAAGATTTAAATTACTATGGTGGCTTTAGAAAAACGCATAATGCGTTTTCTCACGTTATAAAAGAAATGCCATTTAAAGCACATTTGCTCGTTCATCATGAAGTAGCACAAGAACGAAAAGAATATGAAAATGAACATTATATTGAATTTGGGGCAATGAAAATTTTTTCTGACGGTTCTTTTGGCGGAAGAACAGCATTATTAAGTGAACCGTATGAAGATGCGAAGGAAACGAATGGGGTTGCAATTTTCTCACGTGAAGAACTTGCAGAATTAGTGAAGAAAGCACGAGACTTACATATGCCAGTTGCGATTCATACTATCGGTGACTTATCGCTTGAATATGTCATTAATGCACTCGAATTATATCCACCAGCAAAAGGGTTACGTGACCGTATTATTCATTGTCAGCTTGCTCGTGAAGAGTTGATTGAAAGAATGAAAAACTTGTCGGCTATTATCGATATACAGCCGGTCTTTCTTTCCTCAGATTTCCCGTCAGTCATTGAAAAACTAGGCGAGCGTCGTCTTCGTTATGCATACGCTTGGAAGACGTTACTGGAAGCAGGATTACGCTGCAACGGTGGGTCTGACGCACCAATTGAACAAGTGAATCCATTTTTAGGCATATATAGCGCTGTTACACGTAGAAGTTTTATTGACGATGTATGCTATATGCCTGAGGAAAGATTAACGGTATATGAGGCTGTTTCTCTATTTACAACAGGAAGTGCCTATGCAATCGGAAAAGAAGCGAAGCGAGGGCAAATTATAAAAGGATATGAAGCAGACTTTACGATATTAGACCGTAATATTTTTGAAATTGAGGCAGAAGAAATGAAAGAAGTACAAGCAGAAATGACCGTAATAGATGGCCAAGTTGTCTATAGAAAAGGTATGTAA	MREIWYGGTIYTMREKNEKVEAIYVENGIIVDAGSKEELESRYSNVKLQDLKGKTMIPGLVDSHMHLIGHGERLLRLDLSNCTSYGEVLTLVQKRVEEAPKGSWVIGEGWNENNFTDTKDVHARDLDEISKEHPILLKRVCRHVTWVNSYILQEANITEATQNPKGGKIGRDSSNKLTGLLYEQGQELIKHVQPEIDEAYLQRALQTAIKDCWQYGLVGGHTEDLNYYGGFRKTHNAFSHVIKEMPFKAHLLVHHEVAQERKEYENEHYIEFGAMKIFSDGSFGGRTALLSEPYEDAKETNGVAIFSREELAELVKKARDLHMPVAIHTIGDLSLEYVINALELYPPAKGLRDRIIHCQLAREELIERMKNLSAIIDIQPVFLSSDFPSVIEKLGERRLRYAYAWKTLLEAGLRCNGGSDAPIEQVNPFLGIYSAVTRRSFIDDVCYMPEERLTVYEAVSLFTTGSAYAIGKEAKRGQIIKGYEADFTILDRNIFEIEAEEMKEVQAEMTVIDGQVVYRKGM				NA	NA	NA	NA	NA
AK009_02490	804	nadK		NAD kinase	ATGGCAGATCGTCGCAATTTATTTTTCTTTTATGGTGATGACAAAGCAACGCTCGTTGAAAAAATGAAACCAATCTATCGTATTTTAGAAGAGAATGGATTTACCATATTAGATCATCCAAAAAATGCAAACGCTATCGTCAGTGTTGGAGATGATGCAACCTTCTTACAAGCCGTTCGTAAAACTGGTTTTAGAGAAGATTGCTTATACGCAGGGATTTCTACGAAAGATGAAACTTCGTTCTACTGCGATTTTCACATTGATCACATTGATACAGCCCTTCAAGAAATTACAAAAAATGAAATTGAAGTGCGCAAATATCCAACAATTCAGGTAGATGTAGATCATGGTACATCTTTCTATTGTTTAAATGAGTTCTCATTACGTTCTAGCATTATTAAAACATTCGTTGTAGATGTTCACGTTGATGATTTATACTTCGAAACATTTAGAGGGGACGGTTTAGTAGTTTCTACCCCAACAGGAAGTACAGCTTACAATAAATCATTGCATGGTGCAGTTGTTGACCCACTTATTCCATGTTTCCAAGTAAGCGAACTAGCATCTTTAAACAACAACACTTACCGTACGCTCGGTTCACCGTTCATTTTAAATCACGAACGTACATTAACTTTAAAACTAAGACCAGACGGTAACGATTATCCTGTTATCGGCATGGATAACGAAGCGCTTAGCATTAAACAAGTGGAAAAAGCTGTTGTACGCTTAAGCGATAAACAAATTAAAACAGTTAAATTAAAAAACAACTCTTTCTGGGAAAAAGTACAAAGAACGTTTTTATAG	MADRRNLFFFYGDDKATLVEKMKPIYRILEENGFTILDHPKNANAIVSVGDDATFLQAVRKTGFREDCLYAGISTKDETSFYCDFHIDHIDTALQEITKNEIEVRKYPTIQVDVDHGTSFYCLNEFSLRSSIIKTFVVDVHVDDLYFETFRGDGLVVSTPTGSTAYNKSLHGAVVDPLIPCFQVSELASLNNNTYRTLGSPFILNHERTLTLKLRPDGNDYPVIGMDNEALSIKQVEKAVVRLSDKQIKTVKLKNNSFWEKVQRTFL	PGPT0013490_5370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
AK009_02491	639			hypothetical protein	ATGATACGTATGAAGTGGCTCGTAATTGGAATAATAATTCTTCTCCTTTTTATTTTGCTTATACTATTGTCGAAAATATCGCTTAAGGTGACATTTTTATATTCAGAAATGGAAAAGCAATGTTTATTTCAAGTGAAAATATGGATGATTCGATATACATTTGATGTGTTGGAAAGAATTGAAAAACAGCAGAAAAAGACAGGACAGAAAATCGAAAAAGCTGAAGAGGACGGCGGACTAGATAATAAAATTATGGCGCAACTTGACAGTATTGGGGAACTGATAAAAAGGCTTCAAAAAGTTCATACTATCGTTAAAGATTTTCTCAAACGAGTGAAAATCAATGGTTGGAAATGGCATACGCAAATTGGAGCAGGCGACGCAGCTAGTACTGGAATTGTCACTGGATATGCATGGGGGACAAAAGGTATGGCTGCTGGAGTTGTCGGACAATATATGCATATTGTCGATGTACCAGAATTTGAAATTACTCCTGTTTTTCAAGGGAAGGGATTTGCATCAAGATGCGAGTTAACAGCATCTTTTCGTATATTCCGCACTATAAAAACAGCGATGAAATTGCTCATATTTATGAGGCAGCAAAAATCTGGTATGACAGAAAAATCTGTTCAAGCATAG	MIRMKWLVIGIIILLLFILLILLSKISLKVTFLYSEMEKQCLFQVKIWMIRYTFDVLERIEKQQKKTGQKIEKAEEDGGLDNKIMAQLDSIGELIKRLQKVHTIVKDFLKRVKINGWKWHTQIGAGDAASTGIVTGYAWGTKGMAAGVVGQYMHIVDVPEFEITPVFQGKGFASRCELTASFRIFRTIKTAMKLLIFMRQQKSGMTEKSVQA				NA	NA	NA	NA	NA
AK009_02492	396	ytfJ_3	COG3874	putative spore protein YtfJ	ATGGACCATCCAATTCAAGGTTTAATGACAACAGCAATGCAGCATTTAAAACAAATGATTGATGTAAATACAATTGTTGGTGACCCAATTAAAGCGGCAGATGGAAGTGTAATTCTTACTGTTTCGAAAGTAAGTTTCGGATTTGCTGCTGGTGGAAGTGAATTTGGTAGAGTAGAACATTCAGGCCGTCATCCATTTGGCGGGGGAAGTGGTGGAGGAGTTTCTATTAATCCTGTTGCCTTTCTTGTTATAAATGGAGATGGTGTGAAAGTATTGCACTTAGATAAACAAACACACGTCATCGATAAAATAATTGAATTAGCGCCACAAGCTGTTGATAAAGTGAAAGAAATGATGGATAAACGAAAAGAAGATGATCCTGAATTTCAAATTTAA	MDHPIQGLMTTAMQHLKQMIDVNTIVGDPIKAADGSVILTVSKVSFGFAAGGSEFGRVEHSGRHPFGGGSGGGVSINPVAFLVINGDGVKVLHLDKQTHVIDKIIELAPQAVDKVKEMMDKRKEDDPEFQI	PGPT0024995_271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA	NA	NA
AK009_02493	501	tpx	COG2077	Thiol peroxidase	GTGGCAAACGTAACTTTTAAAGGTAATCCAATGACTTTAGTTGGAACAGAAGTTAAAGTTGGCGATCAAGCGCCAAACTTCCAAGTATTAGCAAACGACTTATCTCCAGTAAGTTTAGAAACATACAAAGGCGAAGTAAAATTAATTAGTGTTGTACCTTCAATCGACACAGGTGTGTGTGATGCACAAACACGTCGTTTTAACCAAGATGCAGCAGGTATTGAAAACGCAAAAGTATTAACAATTAGCGCTGATTTACCATTCGCTCAAAAACGCTGGTGTGCAGCAAACGGTTTAGAAAATGTTGTAACACTTTCTGACCACCGTGACCTTTCATTCGGTGAAGCTTACGGCTTAGTAATGAAAGAACTTCGTTTACTTGCTCGTGCAGTATTCGTAGTAGATAGCAATGACAAAGTAGTTTACGTAGAATACGTAGGCGAAGGTACAAGCCATCCAAACTATGAAGCAGCATTAGAAGCAGCTAAATCTGCAAAGTAA	MANVTFKGNPMTLVGTEVKVGDQAPNFQVLANDLSPVSLETYKGEVKLISVVPSIDTGVCDAQTRRFNQDAAGIENAKVLTISADLPFAQKRWCAANGLENVVTLSDHRDLSFGEAYGLVMKELRLLARAVFVVDSNDKVVYVEYVGEGTSHPNYEAALEAAKSAK	PGPT0013105_1286	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
AK009_02494	987			hypothetical protein	GTGAGTCAGACAGTGGAAACATTATTTTCTATTTTTGATTCTTCTGCGGTAGTTTTACGTAAAGAATTAGATGTGACATATTTAGAGGCGCTTGTAGAAACAGGTGATAACTTGTTTGAGGGAGCGATTTTACAAGAGGAATTATCCGAATCAGCAATTGAAAGGCTGAATCGTGAATATAGTACGTTTAATGAAGAAACATATAAAGGTGAAGAAATTCGTAAAGCATTTCAGTTAGCCATCTTAAAAGGAATGAAAGAAGGCGTACAAGCGAATCATGAAATGACGCCTGATGCAGTTGGGATGTTCATGAGTTACTTATTCCATAAATTTATGCAAGGTCAAAACGAAATTACAGTTTTAGATCCTGCAATTGGAACAGGAAATTTAATGACTACAGTGTTTAATAGCGCCAAAGAAGGACTAACAATGAGTGGATTTGGTGTAGAAGTGGATGAAGTGCTAATTAAACTTGCTTTAGTAAATGCAAATTTACAGAAGCATGCAATCGAATTCTTCCATCAAGATGGACTAGCACCACTTTATATCGATCCAGTTGATGCAGTCGTTTCAGACTTACCGATTGGTTACTATCCAAACGAAATCGGTGCCAGTGAATATAAATTAAAAGCAGATGAAGGAATGTCGTATGCTCATCACTTATTTATTGAACAAAGTGTGAAACATACGAAAGAGGGCGGGTACTTATTCTTCTTAGTACCAAACTTCATTTTTGAAAGTGATCAGGCACCAAAATTACATGCATTTATTAAAGAAACATGCTTTATTCAAGGGTTATTACAGCTTCCTGTTTCCATGTTTAAAAACGAGAAAAATGCAAAAAGTATATTTGTTCTCCAAAAGAAAGGCTCTAATGTAACAATGCCAAAACAGGCGTTATTAGTGGAGTTGCCTAAATTCTCTAACATGAAGGCGATGGAGAACATTATGGATCAATTAAATACTTGGTTTGCAACACATAAATAA	MSQTVETLFSIFDSSAVVLRKELDVTYLEALVETGDNLFEGAILQEELSESAIERLNREYSTFNEETYKGEEIRKAFQLAILKGMKEGVQANHEMTPDAVGMFMSYLFHKFMQGQNEITVLDPAIGTGNLMTTVFNSAKEGLTMSGFGVEVDEVLIKLALVNANLQKHAIEFFHQDGLAPLYIDPVDAVVSDLPIGYYPNEIGASEYKLKADEGMSYAHHLFIEQSVKHTKEGGYLFFLVPNFIFESDQAPKLHAFIKETCFIQGLLQLPVSMFKNEKNAKSIFVLQKKGSNVTMPKQALLVELPKFSNMKAMENIMDQLNTWFATHK	PGPT0027215_451	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
AK009_02495	1194	ackA	COG0282	Acetate kinase	ATGTCAAAAATCATCGCGATTAACGCAGGAAGCTCTTCCTTAAAATTCCAATTATTTGAAATGCCAAGTGAAACAGTATTAACAAAAGGTTTAGTAGAACGTATCGGTTTAGAAGATAGTATCTTCACTATTACTGTAGATGGCGAAAAACAAAAAGAAATTACAAACATCCCAGATCACGCAGTAGCAGTTAATATGCTTCTTAAAAAATTAACTGAAAACGGAATCGTTAAATCTCTAGATGAGATTGGCGGTATCGGTCACCGTGTTGTTCACGGCGGCGAAAAATTTGCTGACTCTGTTTTAATTACTGATGAAGTATTAGCTGATATCGAAGAATTAAGCGATTTAGCACCACTTCATAACCCAGCAAACGTTGTTGGTATTAAAGCATTCCGAGAAGTATTACCAAACGTACCAGCAGTAGCAGTATTCGATACAGCATTCCACCAAACAATGCCGGAATCTGCATTCCTATACAGCTTACCATATGAGTACTATGAAAAATTCGGCATCCGTAAATACGGTTTCCACGGAACTTCTCATAAATATGTAACTGAGCGTGCGGCTGAATTATTAGGTCGTCCAATTGAAAGCTTAAGCTTACTTTCTTGTCACTTAGGTAACGGTGCAAGTATCGCAGCAGTAGAAGGCGGTAAATCTATCGATACTTCTATGGGCTTCACTCCACTTGCTGGTGTAACAATGGGTACACGTTCTGGTAACCTTGACCCTGCGTTAATTCCATACATCATGGAAAAAACAGGCCAAACAGTAGAAGAAGTAGTTAACGTATTAAACAAGAAGAGTGGTATGTTAGGTCTTACTGGTTACTCTAGTGACCTACGTGACATCATTGCGAAAGAAGAAGAAGGCGACCACCGTGCGAAAGTAGCACTTGATGTATTCGTAAGTCGTATCCACAAATACATCGGTTCTTACACAGCTCGTATGAAAGGTGTAGACGCAATCATCTTTACAGCTGGTGTAGGTGAAAACAGTGCGATTATTCGTGAGCGCGTATTAGAAGGCCTTGAGTACATGGGCGTATACTTCGATGTAAAACGTAATAACGTATTCGGTGAAGAAGCATTCATCAGCTTCCCACACTCTCCAGTAAAAATTATCGTAATTCCAACTGACGAAGAAGTTATGATTGCTCGTGACGTACTACGTCTTGGAGATATTGGTTAA	MSKIIAINAGSSSLKFQLFEMPSETVLTKGLVERIGLEDSIFTITVDGEKQKEITNIPDHAVAVNMLLKKLTENGIVKSLDEIGGIGHRVVHGGEKFADSVLITDEVLADIEELSDLAPLHNPANVVGIKAFREVLPNVPAVAVFDTAFHQTMPESAFLYSLPYEYYEKFGIRKYGFHGTSHKYVTERAAELLGRPIESLSLLSCHLGNGASIAAVEGGKSIDTSMGFTPLAGVTMGTRSGNLDPALIPYIMEKTGQTVEEVVNVLNKKSGMLGLTGYSSDLRDIIAKEEEGDHRAKVALDVFVSRIHKYIGSYTARMKGVDAIIFTAGVGENSAIIRERVLEGLEYMGVYFDVKRNNVFGEEAFISFPHSPVKIIVIPTDEEVMIARDVLRLGDIG	PGPT0001360_2673	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
AK009_02496	435			hypothetical protein	ATGTATCCACGTGCAAAAGCTTTCGGTCTTGCTGTACATCAAGATCGCCTTCTCGTACAAGAATATTATACAGAAGGCGAAACATATTATCGTCCTCTTGGCGGTTCCATTGAACTTGGTGAAAAATCAGCACATACTGTTATTCGGGAGTTTAAAGAAGAGCTTCATACGGAGATAGAAATCACCAATTATTTAGGTTGCTTAGAAAATGTCTTTCATCTAGATGGGGGCATTGGTCATGAAATCATTCAACTATATTCTTTGCGTTTATTAGACACCTCACTATATGAAATGGAAATATTAAATATACAAGATGAGCAAGCAGTAACGTATGCGAAATGGATTCCTATTAAGGCATTCATTCAGAAAGAAAAAATATTATATCCGGATGGAATTTTAAAATACATCCAAAAGAAAAAAGACGAAATCCTATAG	MYPRAKAFGLAVHQDRLLVQEYYTEGETYYRPLGGSIELGEKSAHTVIREFKEELHTEIEITNYLGCLENVFHLDGGIGHEIIQLYSLRLLDTSLYEMEILNIQDEQAVTYAKWIPIKAFIQKEKILYPDGILKYIQKKKDEIL				NA	NA	NA	NA	NA
AK009_02497	198			hypothetical protein	ATGCTTCACATGAATCTATCCAATCTAAAACAAAATTATAACGCAGAATTCAGCTTAGGAAAAAACTGCTGGCCTACTTGGGCATTATATCAATTAGAATTATCACCATTTTTTGGCGTTATTGATTTTATGCTAAGTCCTTCATTAGCGAAAGTAAATTTATTATTCCAAAATCGATTTGACCGCTTTTTAAATTAA	MLHMNLSNLKQNYNAEFSLGKNCWPTWALYQLELSPFFGVIDFMLSPSLAKVNLLFQNRFDRFLN				NA	NA	NA	NA	NA
AK009_02498	834			hypothetical protein	ATGCGATCGAAGCGAGAACAAGCCATTTTAGACAATATAAAAGAATGGGAAGCGCAATTAGTTGAGCAAGAAGCGACCGATTTTCAAAAAGTGTTTGATAAATGGTTACATACTACAGTTGCGAAATTACCTGAGAAAAAGCGAAAAGAATTCTTCACGAAAGCAGATGGATGGCTCTTTCATTTGCATGCATTTATTCAAAGTTCACAAGCACAGTTAGATGCACGTAATCGGATTTTAGGAACATCGAGATTATTTGATGAATCGATTGAACAGCTTGAAGATTTGAAAGCATTATCTATTGATCAGTTAACATACATAGCAGAGCAGCAAACAGCACGTCATCGTCTATATTCGTTTGTGCAAGGCGGGGCGACAGGTGCTGGAGGTTTATTATTATTAACGGCAGATTTTCCGGTTATGATCGCGTTAAATGTGAAGGCAGTCCAACTTATTGCAACATCATTTGGGCATGATGTGAACAAGCCTTATGAAATGATGCTTGCGTTAAAGGTGTTTCATGCGTCATTACTACCAGGAAGACTTCAGCAATACGCATGGTACAATTTATTGCAAGAGCTGGAGCAAGAAGATTCGTTCTTTTATGAAGGAGACGAAGCAGTGTTGCAAACAGCTTCTACTGAAGTTGTGTTAAAACAAATTTTGAAGACATTTTCGATTTATGCTCTTCGTCGTAAATTATTCCAAGGTATTCCGGTAATTGGAATGGCAATTGGATCTACAGTGAACTATCGTTTAACAAGAAACGTTACTGAATTTGCAAATAGATTTTATCAAGTGCGCCATATAGTCGAGAAAGAAAAAAGAGCATAA	MRSKREQAILDNIKEWEAQLVEQEATDFQKVFDKWLHTTVAKLPEKKRKEFFTKADGWLFHLHAFIQSSQAQLDARNRILGTSRLFDESIEQLEDLKALSIDQLTYIAEQQTARHRLYSFVQGGATGAGGLLLLTADFPVMIALNVKAVQLIATSFGHDVNKPYEMMLALKVFHASLLPGRLQQYAWYNLLQELEQEDSFFYEGDEAVLQTASTEVVLKQILKTFSIYALRRKLFQGIPVIGMAIGSTVNYRLTRNVTEFANRFYQVRHIVEKEKRA				NA	NA	NA	NA	NA
AK009_02499	663			hypothetical protein	ATGAGGAACATCCAAAGTCGGCAAATTATTAAAGAAATTTTTATGGTTTTAATCGGTTCATTTATTTTAGCAGCAGCGCTATATCACATTCACTTCCAAAACCACTTAACAGAAGGTGGCTTTGTAGGAATTGCACTATTCATTCAAAACTTTTATGATATTTCACCATCTATTTCAACTGTATTAATGGATATCCCAATTATTTTACTGTGTGCTTCATTTTTGGGTAGAAAAATGGTTGGCTATTCATTCTTAGGTTCTATTTCATTCGGATTATTTTATTCCTTAATGGAAAATTATTCTCCATTTACGGTAGATTTATCAAATAATTTATTTATAGCTGCAATAGTTGGCGGTGCGTTAGCTGGTATTGGACTCGGTTTTATATTGCGATTTGGCGGTGCAACCGGTGGAGACGATATTTTAACAATTGTATTAAGTAAACGAACTCGTTTTACAATTGGGCAAATTTTCTTCGTCTTTGACGCGATTGTTCTTGCGCTTTCATTAAATTATTTAAATTGGACAGAAATTGCTTTTACTATTCTTTCGATTGCCGTACAGGCAAAAACATTGGATTTAATTTATTATCCAAAAACAGAAAAAACAGCAGAAAAGCAGCCAGTATCTGTTCCAATGTCCAAAAAACATGCAACAAATTAA	MRNIQSRQIIKEIFMVLIGSFILAAALYHIHFQNHLTEGGFVGIALFIQNFYDISPSISTVLMDIPIILLCASFLGRKMVGYSFLGSISFGLFYSLMENYSPFTVDLSNNLFIAAIVGGALAGIGLGFILRFGGATGGDDILTIVLSKRTRFTIGQIFFVFDAIVLALSLNYLNWTEIAFTILSIAVQAKTLDLIYYPKTEKTAEKQPVSVPMSKKHATN				NA	NA	NA	NA	NA
AK009_02500	99			hypothetical protein	ATGCGTGCTTTCGTTATTATCGCTTTAACTTTTTTAAGTGTAATTAGTTGGGATGCGTTTTTTAAAGATAAAAGTGATGAAAAGAACACAACGGAATAA	MRAFVIIALTFLSVISWDAFFKDKSDEKNTTE				NA	NA	NA	NA	NA
AK009_02501	195			hypothetical protein	ATGCTAAAAGACATGTTCAAAAGAAAAGAATTAATATGCGTTTCATGTCAGAAAAAAATTCAATATGAAGAAGAACTTGTTGCTTTTGTAAAGTTGCCGAAAGAAAGAAGTATATTAGTTGGTCCATTTGATGTGTGTTTGGCGAAAACAGCACAAGAGATATATTGTAAATCATGTTACGACAAAAAAGCATGA	MLKDMFKRKELICVSCQKKIQYEEELVAFVKLPKERSILVGPFDVCLAKTAQEIYCKSCYDKKA				NA	NA	NA	NA	NA
AK009_02502	318			hypothetical protein	ATGGAAAAGTATTTCTTATACGATAATCATCTAGGAATTGAAATTCCGCATTTACAAGAAGATTGGGAAGATATCCCCGAAAAAATGCAGCATGCTATTTTACTAAAATGGGAACAAATTCGCGGGAAAATTCCTGATCGTATAAAAGAACTTGAGCACTATATTAATACAAAACAACATCATTTAAATAACGAAGAAGACTTCGAAGTTTCTTGTAAACTAAATTCAGAAATTGCCGATCTTGCTTCCATCATTAATGACCTTTGGCTTTGGTATCGACTCACTCAAAATGTATCTGAGGGGAAAGCACACCAATGA	MEKYFLYDNHLGIEIPHLQEDWEDIPEKMQHAILLKWEQIRGKIPDRIKELEHYINTKQHHLNNEEDFEVSCKLNSEIADLASIINDLWLWYRLTQNVSEGKAHQ				NA	NA	NA	NA	NA
AK009_02503	1206	argG		Argininosuccinate synthase	ATGGAGAAGAAAAAAGTTGTATTAGCATATTCCGGAGGTCTTGATACTTCCGTTGCAATTAAATGGTTACAAGAGAAGAATTATGATGTTATAGCACTTTGTTTAGATTTAGGGGAAGGAAAAGACTTAGGGTTTGTGAAAGAAAAGGCACTTTCAGTTGGTGCAATTAAATCATATATGGTGGATGTCCAAGAAGAATTTGCGAATGAATATGCATTGATGGCGATGCAAGCACACACATTATACGAAGGGAAATACCCTCTTGTCTCTGCATTATCTCGTCCGCTTATTGCGAAGAAATTAGTAGAAATCGCAGAACAAGAAGGTGCAACTGCAGTTGCACATGGATGTACAGGAAAGGGAAATGACCAAGTTCGTTTTGAAGTTTCTATCCAAGCATTAAATCCTTACTTAGAAGTGATTGCGCCTGTACGTGAATGGAAGTGGTCACGTGAAGAAGAAATTGCATATGCAAAAGAAAACGATGTACCAATTCCGATTCATTTAGATAGCCCGTTTTCAATCGATCAAAACTTATGGGGACGCAGCAACGAATGTGGAATTTTAGAAGATCCATGGGCAGCACCACCAGAAGAGGCATATGAGATGACAGTAGCATTAGAAGATACACCGAATAAATCAGAGTTTGTAGAAATCGGATTTGAAGCAGGTGTACCGACGACTTTGAATGGTACTGCATATTCACTTGCAGAATTAATTAAAACGTTAAATGCACTTGCTGGAAAACATGGCGTTGGACGTATCGATCACGTAGAAAATCGTCTTGTCGGTATTAAATCTCGTGAAGTATACGAATGCCCAGCAGCAATGACGTTAATCACTGCACATAAAGAGTTGGAAGATTTAACACACGTAAAAGAAGTAGCACATTTTAAACCAGTGATTGAACAGAAAATAACAGAACTTATTTATAACGGTTTATGGTTCTCTCCTTTAAAACAAGCGCTTCATGCATTTTTACAAGAAACGCAAAAGAATGTAACAGGTACAGTGCGTGTAAAATTATTTAAAGGTCATGCGATTGTAGAAGGACGTAAATCTGAATACTCTTTATACGATGAAAAATTAGCAACATATACTGCTCAAGATGAATTTAATCATGATGCAGCAGTTGGATTTATTTCATTATTTGGTTTACCGACGAAAGTATACAGCCAAGTGAATCAAAAGAAGGTGGAAGCGTGA	MEKKKVVLAYSGGLDTSVAIKWLQEKNYDVIALCLDLGEGKDLGFVKEKALSVGAIKSYMVDVQEEFANEYALMAMQAHTLYEGKYPLVSALSRPLIAKKLVEIAEQEGATAVAHGCTGKGNDQVRFEVSIQALNPYLEVIAPVREWKWSREEEIAYAKENDVPIPIHLDSPFSIDQNLWGRSNECGILEDPWAAPPEEAYEMTVALEDTPNKSEFVEIGFEAGVPTTLNGTAYSLAELIKTLNALAGKHGVGRIDHVENRLVGIKSREVYECPAAMTLITAHKELEDLTHVKEVAHFKPVIEQKITELIYNGLWFSPLKQALHAFLQETQKNVTGTVRVKLFKGHAIVEGRKSEYSLYDEKLATYTAQDEFNHDAAVGFISLFGLPTKVYSQVNQKKVEA	PGPT0020130_3989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
AK009_02504	1389	argH_2	COG0165	Argininosuccinate lyase	GTGAGCAAACTTTGGGGCGGACGTTTTACGGAAGAAGCGGAAGCGTGGGTTGAAGAGTTTGGAGCATCCATCTCCTTCGATCAACAATTAGTAAATCAAGATATAAAAGGGAGTATTGCACACGTAACGATGCTAGCAAAGCAAGGTATCGTTACGAAAGAAGAGGCAGAGAAAATAAAGATAGGTCTTCAATATTTATTAGAAGAGGCGAAACAAAATAAATTACATTTTTCGATTGAAGCTGAAGATATTCATTTAAATATTGAAAAGATGTTAATTGAAAAAATCGGTGAAGTAGGAGGGAAACTTCATACAGGCCGAAGTCGTAACGATCAAGTGGCGACAGATATGCATTTGTATTTAAAAGAAAAGGTAGAACATATTATAAAGGCTACAAAACAATTGCAAACTGTTCTTGTTCACCAAGCAGAAAATAATATTGAAACTATTATGCCGGGCTATACGCACTTGCAGCGTGCCCAGCCGATTTCATTTGCTCATCATATTCTTGCTTACTTTTGGATGTTAGAGCGTGATGTGAATCGTTATGAAGATTCATTAAAGCGTATTAATATCTCCCCATTAGGAGCAGGAGCGCTAGCTGGGACGACATTCCCGATCGACCGAGAATATAGTGCGGGACTTCTTGGATTTAATGGGATATATGAAAATAGTTTAGATGCGGTAAGTGATCGTGATTTCATACTGGAGTTTTTAAGTAATTCATCTATGCTCATGATGCACTTATCACGTTTTTGTGAAGAACTTATTTTATGGAGTAGCCAAGAGTTTCAATTTATTGAAATGAGCGATCAATATGCGACGGGAAGCAGCATTATGCCGCAAAAGAAAAATCCGGATATGGCGGAACTAATCCGTGGTAAAACAGGCAGAGTATACGGTAATTTATTCAGTTTACTTACAGTAATGAAAGGATTACCACTCGCTTACAATAAAGACTTACAAGAAGATAAAGAAGGAATGTTTGATACAGTTAAAACAGTAGAAGGTTGCCTTCATATTATGGCGGGCATGCTTGAAACGATGACTGTAAACAAAGAAAAAATGGGGCAAGCTGTGACGCAAGATTTCTCCAACGCAACAGAAATTGCCGACTACTTAGCAAACAAAGGACTACCATTCCGTCAAGCTCATGAAATTGTAGGGAAGTTAGTGCTACACTGCACACAAAAAGGAATTTATTTATTAGATGTCCCGCTTGAAACATATAAAGAAATGAGCTCTTTATTTGAAGAAGATTTGTATGAAGTTCTTTCACCATATGAGGCTGTAAAGCGTCGTAATAGTGCTGGTGGGACAGGGTATGAACAAATCAAAAACGCTTTGGAAAAGGCGAAGGGGTTAACGAAAGAAGTTATTAAGAATTGA	MSKLWGGRFTEEAEAWVEEFGASISFDQQLVNQDIKGSIAHVTMLAKQGIVTKEEAEKIKIGLQYLLEEAKQNKLHFSIEAEDIHLNIEKMLIEKIGEVGGKLHTGRSRNDQVATDMHLYLKEKVEHIIKATKQLQTVLVHQAENNIETIMPGYTHLQRAQPISFAHHILAYFWMLERDVNRYEDSLKRINISPLGAGALAGTTFPIDREYSAGLLGFNGIYENSLDAVSDRDFILEFLSNSSMLMMHLSRFCEELILWSSQEFQFIEMSDQYATGSSIMPQKKNPDMAELIRGKTGRVYGNLFSLLTVMKGLPLAYNKDLQEDKEGMFDTVKTVEGCLHIMAGMLETMTVNKEKMGQAVTQDFSNATEIADYLANKGLPFRQAHEIVGKLVLHCTQKGIYLLDVPLETYKEMSSLFEEDLYEVLSPYEAVKRRNSAGGTGYEQIKNALEKAKGLTKEVIKN	PGPT0014242_85	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
AK009_02505	354			hypothetical protein	ATGAAAAAAATAGTGTTTATCATTGTACTGGTAATTAGTTTAATTGCAAATGCTAAAGTGTTTCTTTTGGACAAATATATGTATGTTGGTGAAAAAGAAAAGCGAGAAGAATCGATTATCGCAACGATGTGGCATTTGCAAGATAAAGGATATAAAGAAAGTGATATTGCATACATAAAACCGGCCTTTTATAGCAAAATGGATTCGTATGGAATGAATGTGCAGTTTAAAGATGAACCAAATGAATCATATACATATAGAGTTTTAAAAGATGCGAAAACAAATAAACTAACTGTACACCAAGATAGCAATGAGCAAGGTGGTATGGGCGGGAAGCATCAAGAGCTTAAATAA	MKKIVFIIVLVISLIANAKVFLLDKYMYVGEKEKREESIIATMWHLQDKGYKESDIAYIKPAFYSKMDSYGMNVQFKDEPNESYTYRVLKDAKTNKLTVHQDSNEQGGMGGKHQELK				NA	NA	NA	NA	NA
AK009_02506	180			hypothetical protein	ATGGATGATTCTGAACGCATTATTTTAGACGTGAACGGCAAAGAAATTGAAATGCTAGATAAGATTCGCACTCATTTTAAAGAAAAACATGGCGTTGAACTAAGTAATGGTGCATTGCTTCGTGATTTGATGGATATTGAGTATATTCGAATTACAGAAGATCGACATAAGTATGATTAA	MDDSERIILDVNGKEIEMLDKIRTHFKEKHGVELSNGALLRDLMDIEYIRITEDRHKYD				NA	NA	NA	NA	NA
AK009_02507	726			hypothetical protein	GTGGGGGATGAACAAAACCCCCCACTGATTAAAGTTTCACTTTATTTTATAGGGCTAATTTTGTACACGCTAATTGTATTGTATGTTGCATTCCCAAACGTATTTTCATTTGGAAATGTAGAAACAGTACACGTTGCGATATTTATTTTTTCTCTATTTCTAGTAGATTGCTGTATTTCAATATGGCTTTCGAAAAGAAAACATGTACAAGATAAAAAAGAAATGGAACGGAAAAAGAGAAAACGTTCATTTTGGATGATGACGTACTGTTTGTCTTTAGTGCTTACTGCAGCTTTTTTTAGTGAGCATATTCCATTAGAAAGATTAAATATTGGATTTGGAGCGTTCGTATTCGCATACTATTTTTTTATGCACTTTCTTCCTTATATGAAAGAAAAGCGAGGAGAAGAGGAAAATCCGCTTGTAGAAGAAGCGAGAGAACAAGATCATAAGAGAATAGAAGGGGATATAAAGAAACTTGGAGAACAAAAATGGTATTTAAAATCAAAAATCATATATGTTCTTTGCTTCATTACGCCGCCAATTGGCTATTTGTACGTCTTCTTACTTCGTAAAAAAATGACAGAAGATGCAAAGCAAACGTATTTAACAGTTGCGACGATTATGATGGCATTATGGTCTTTGAAGTTTCTTCCTCCCTATGTATTAGCAATTACTGTTGTTATTGTGGCTTGTCTTGTATTTATAGTGAAATATGTGAAATGA	MGDEQNPPLIKVSLYFIGLILYTLIVLYVAFPNVFSFGNVETVHVAIFIFSLFLVDCCISIWLSKRKHVQDKKEMERKKRKRSFWMMTYCLSLVLTAAFFSEHIPLERLNIGFGAFVFAYYFFMHFLPYMKEKRGEEENPLVEEAREQDHKRIEGDIKKLGEQKWYLKSKIIYVLCFITPPIGYLYVFLLRKKMTEDAKQTYLTVATIMMALWSLKFLPPYVLAITVVIVACLVFIVKYVK				NA	NA	NA	NA	NA
AK009_02508	459			Putative universal stress protein	ATGAATAATACATATACAAATATTTTAATCGCGGTGGATGGTTCTAAAGAAGCAGAAAAAGCCTTTAAAAAAGCAATTCAAGTCGCAAAGCGCAACAATGCAACATTAACAATCGCTCATATCGTTGATGTAAAAGCGTACTCAGCAGTAGAGGCTTATAGCCGTGCAATTGCTGAACGTGCAAATCTATTTGCAGAAGACTTATTAGAAGACTACAAAAAAACTGCGCTTGAAGCTGGTCTTGAAAAAATTGAAACTGTATTAGAATTTGGTAACCCTAAATCTAAAATTTCAAAAGAAATCGCTCCAAACCATAAAGTAGATTTAATTATGTGTGGTGCGACTGGTTTAAATGCTGTTGAACGCTTCCTAATCGGTAGCGTCTCTGAACATATTATTCGCTATGCGAAATGCGATGTCCTTGTTGTTCGTGGTGATGAGGAGCAAGGTGATCTTTAA	MNNTYTNILIAVDGSKEAEKAFKKAIQVAKRNNATLTIAHIVDVKAYSAVEAYSRAIAERANLFAEDLLEDYKKTALEAGLEKIETVLEFGNPKSKISKEIAPNHKVDLIMCGATGLNAVERFLIGSVSEHIIRYAKCDVLVVRGDEEQGDL	PGPT0002681_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
AK009_02509	759	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	GTGAGACACGCGCTCATTACAGCCGGTACGAAAGGTTTAGGAAAGCAAGTAACAGAAAAGTTATTGGCTAAAGGATATTCAGTAACAGTAACGTATCATAGCGATATCACGGCTATGGAAAAGTTGAAAGAAACATATAAAAATATGGAAGAGCGTCTACAATTCGTGCAAGCGGATGTCACGAAAAAGGAAGATTTACATAAAATGGTAGAAGAAGCGATAAGCCGTTTTGGCAAAATTGATTTCTTAATTAATAATGCTGGTCCATATGTATTTGAACGAAAAAAGTTAGTTGATTATGAAGAAGATGAATGGAATGAAATGATTCAGGGAAATTTAACAGCGGTATTTCATTTATTAAAACTTGTCGTTCCGGTCATGAGAAAACAGAGCTTTGGCCGTATTATTAATTACGGATTTCAAGGGGCGGATAGTGCACCGGGATGGATTTATCGTTCAGCTTTTGCAGCGGCCAAAGTAGGACTTGTTTCATTAACGAAAACAGTTGCTTATGAAGAAGCGGAGTATGGTATTACTGCGAACATGGTATGTCCTGGTGATATTATAGGCGATATGAAAGAGGCAACTATTCAAGAAGCACGTCAGCTGAAAGAGCATAACACACCGATTGGTAGATCTGGAACAGGTGAAGATATTGCAAGAACCATTTCGTTTTTATGTGAGGACGATTCCGATATGATTACCGGTACAATTATTGAAGTGACTGGTGCAGTGGATGTTATTCATAGACATCGATAG	MRHALITAGTKGLGKQVTEKLLAKGYSVTVTYHSDITAMEKLKETYKNMEERLQFVQADVTKKEDLHKMVEEAISRFGKIDFLINNAGPYVFERKKLVDYEEDEWNEMIQGNLTAVFHLLKLVVPVMRKQSFGRIINYGFQGADSAPGWIYRSAFAAAKVGLVSLTKTVAYEEAEYGITANMVCPGDIIGDMKEATIQEARQLKEHNTPIGRSGTGEDIARTISFLCEDDSDMITGTIIEVTGAVDVIHRHR	PGPT0003180_9884	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
AK009_02510	1134	ald_1		Alanine dehydrogenase	ATGCGTATCGGTATTCCAACAGAAATTAAAAACAATGAAAACCGTGTGGCAATGACGCCAGCGGGAGCAGTACATTTAGTACAAAATGGTCATGAAGTTTTTGTTCAAAAAGGAGCAGGTTTAGGATCTGGTTTTACGGATGAAGAATACGTACAAGCTGGTGCGAAACTTGTAGAAACTGCTGAAGAAGCATGGAAACAAGATATGGTTATGAAGGTAAAAGAGCCAGTAGCAAGTGAATACGGCTATTTCCGTGAAGGTTTAATTTTATTCACATACTTACACTTAGCTCCAGAACCAGAATTAACGAAAGCATTAATCGATAACAAAGTTGCATCAATTGCATACGAAACAGTACAATTAGACAATCGTTCTTTACCATTACTTGCACCTATGAGTGAAGTAGCTGGTCGTATGTCTGCACAAATCGGTGCACAATTCCTTGAGAAAAACAAAGGCGGTAAAGGTATTTTACTTGCAGGCGTTCCAGGGGTAAAACGCGGCAAAGTAACAATCATCGGCGGTGGTCAAGCTGGTACAAATGCAGCTAAGATTGCAGTAGGTTTAGGTGCGGATGTAACAATCATTGACTTAAGTGCAGAACGTCTTCGTCAATTAGATGATATTTTCGGTAACCAAGTAAAAACATTAATGTCTAATCCATACAACATTGCAGAAGCTGTTAAAGAATCTGACCTTGTTATTGGAGCAGTATTAATTCCAGGTGCAAAAGCGCCAAAACTTGTAACTGAAGAAATGATTCAATCAATGGAACCAGGTTCTGTCGTTGTAGATATTGCGATTGACCAAGGTGGTATTTTCGAAACAACTGATCGTATTACAACTCATGACAACCCAACTTACGAAAAACATGGCGTTGTTCATTATGCAGTTGCTAATATGCCAGGTGCGGTTCCACGTACGTCAACTCTTGCATTAACAAACGTTACAGTACCATATGCAGTACAAATTGCTAACAAAGGCTATAAAGATGCTTGCCTAGGCAACTCTGCATTATTAAAAGGTATTAACACATTAGATGGATATGTAACATTCGAAGCAGTTGCAGAAGCTCATGGCTTACAATACGCTGGTGCGAAAGAGCTACTTGAAAAAGCTCCTGCTTTATCATAA	MRIGIPTEIKNNENRVAMTPAGAVHLVQNGHEVFVQKGAGLGSGFTDEEYVQAGAKLVETAEEAWKQDMVMKVKEPVASEYGYFREGLILFTYLHLAPEPELTKALIDNKVASIAYETVQLDNRSLPLLAPMSEVAGRMSAQIGAQFLEKNKGGKGILLAGVPGVKRGKVTIIGGGQAGTNAAKIAVGLGADVTIIDLSAERLRQLDDIFGNQVKTLMSNPYNIAEAVKESDLVIGAVLIPGAKAPKLVTEEMIQSMEPGSVVVDIAIDQGGIFETTDRITTHDNPTYEKHGVVHYAVANMPGAVPRTSTLALTNVTVPYAVQIANKGYKDACLGNSALLKGINTLDGYVTFEAVAEAHGLQYAGAKELLEKAPALS	PGPT0020070_667	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK009_02511	423			hypothetical protein	ATGGGGAGCAAAAAGAGAAAGCGAAAGCAAGCTAAAAGACAAAAGTACATAAAGAAAAAACAGGAGCAGAACATACCTTTTTCACAGAAAGTAGTCATTACGATAGAGAAATCATTTCGGTATATTTGTATGGCTCTGTATGTAATTTTGTGTATGTATTCATTTGGAGTGTTTTACAGTTTTGAGATAACTCCTAATATTATTGAGAGTATTTTAGTATTTATCCTTGTTGCAATAGAATTAGTCTTATTCGTTATATTTTTTGATACAGTATGGCCTAGTCATGAAAGTAAAAAAGATAGAAAAAGAAGTAAAAAATCTTCATACGCTTCAAGCTCATCAAGTGGATTCGGTGACTACAGTAGCAGTGATTGTAGTAGCTCAAGTGATGGTGGAGGAGATTGCGGAGGTGGTGGAGATTAA	MGSKKRKRKQAKRQKYIKKKQEQNIPFSQKVVITIEKSFRYICMALYVILCMYSFGVFYSFEITPNIIESILVFILVAIELVLFVIFFDTVWPSHESKKDRKRSKKSSYASSSSSGFGDYSSSDCSSSSDGGGDCGGGGD				NA	NA	NA	NA	NA
AK009_02512	333			hypothetical protein	ATGGAAACTGTGAACTTAATAGAATTAACAAAGGACATTCAAGATCAACATAAAAACTTCGTCGTTTCAAATATAAACAGTCATTGCTTACGAATCGCTGTATTTATTGGTGAATATGATTGGCACTATCATTCTAATTCGGATGAATTATTTATTGTGCTAGAGGGAGAATTACTTATTGATTTTGAAAATGGAGAAACAGCGGTTTTAAAGCCAAATGATTCTATTTTAATTCCAGCATGTACGATTCATAGAACGAGAGCATTAAAGAGAACGGTAAATCTTTGTTTTGAACATATAGAGGCTGATACGATTAAGGTGGAGCAATTATGA	METVNLIELTKDIQDQHKNFVVSNINSHCLRIAVFIGEYDWHYHSNSDELFIVLEGELLIDFENGETAVLKPNDSILIPACTIHRTRALKRTVNLCFEHIEADTIKVEQL				NA	NA	NA	NA	NA
AK009_02513	789			hypothetical protein	ATGAAAAAATTATCTGTAGCTGAGTATGGAAAAGTTCTTCCGGTTTTAGAAGGTAATACAAGAACGACGACGTTTGCTTATGCCGTATGTGATCGAATGATAGATGGTGAGGTTTTTGTAAACGGGCAATTAACAGCAGGATTAATTATTACAGCTAACGGTATCTATTATTTATTTGGTGATACGGATGATCACAAGTATAACGAAGATTTATTTTCGTATATCAAAAAGGCTATTGAAAAAACAGAGAAGAGATTTACACTGTTCACTTCGAGCGAAGAATGGGAAATGATGATAGAAGGGCGTTTTAGTAATGTACTTCGGAACATCCCGCGAATGAAATTTCAAAGCGTAACCTTTGAAGAGAAACAACGAGATTTTAACAAAAATACATATGAAGTGAAGCGTATTGATATAAGAGATATAGAGCGAAGCAGTGAATTTAAAGAGGAGTACTACAAAGAATATTGGGGATCAAAAGAAACGTTTTTGAACAGTGGTTTTGGATTTTGTATAGAGCAAGATGGGATAATTGTAGCTGAATGCGTCTCAATATTTAGCGGGCATGGTTTTGCTGAAATAGATATTGCAACACATGGAGCGCATCAAGGGAAAGGATTAGCTCAAGCTGTTGCAACACGGTTCATTGAACATTGCATGCAAAATGATATTATACCGAGTTGGGATTGTTATGTAGACAATATTCCTTCGGGAAAATTAGCTAGTAAATTAAATTTTTATCATCCAATAGAATATAGTTTGTTTGTACGTAAGAAAACGGGGGAATAA	MKKLSVAEYGKVLPVLEGNTRTTTFAYAVCDRMIDGEVFVNGQLTAGLIITANGIYYLFGDTDDHKYNEDLFSYIKKAIEKTEKRFTLFTSSEEWEMMIEGRFSNVLRNIPRMKFQSVTFEEKQRDFNKNTYEVKRIDIRDIERSSEFKEEYYKEYWGSKETFLNSGFGFCIEQDGIIVAECVSIFSGHGFAEIDIATHGAHQGKGLAQAVATRFIEHCMQNDIIPSWDCYVDNIPSGKLASKLNFYHPIEYSLFVRKKTGE				NA	NA	NA	NA	NA
AK009_02514	345			hypothetical protein	ATGAATGTAGAATTAACGAGATTTAAAGTTAAGCCTGGTAAGAGTCATCGAGTAGATGAATGGATGCAGCTTCTTAATGATAATATGAAAGAAGTACTTTTGACATTAAATGACGAAAAGATGTACGTTGAGACAATTTTCCGGGAAATAAGAGATGGAAAAGAGTACTTATATTGGTATTCTGTGCAAGGAAAAGGTGGGACTCATGTCGAAAATTCTCATCATGAAATTGATAAAAAGCACTTAGCATTTTGGTATGAATGTATCGATGAAGAAGCACCGTCTATTGATATGAAAACAGAAGTTGTTATGATTCAAGATGTTGTGAAGGAAGCGATGAAATAA	MNVELTRFKVKPGKSHRVDEWMQLLNDNMKEVLLTLNDEKMYVETIFREIRDGKEYLYWYSVQGKGGTHVENSHHEIDKKHLAFWYECIDEEAPSIDMKTEVVMIQDVVKEAMK				NA	NA	NA	NA	NA
AK009_02515	240			hypothetical protein	TTGAACCAATCGGGCATTAACGGGCAGTCCGACCCCAACCTAACTTCTTTGCTTCCGCTGAATTTTGATGTGGGGTCTTACTGCCCGTTAATGCGGGATAAAGAAATAAAAAACACCAAACGAAAAGACCTACCAATATACGGTGTAGTCGTAACAGGAAAAACAGGGGATTTACAAAGTTTACAAGAATCAACGTATATTAAGGCTGCTGTAAGAGGTGTAACAGTTGAGAAATATTGA	MNQSGINGQSDPNLTSLLPLNFDVGSYCPLMRDKEIKNTKRKDLPIYGVVVTGKTGDLQSLQESTYIKAAVRGVTVEKY				NA	NA	NA	NA	NA
AK009_02516	207			hypothetical protein	ATGAGGCAAATACATGGAGCAATTTATATTTACATAACAATGTTTTTCGTGGCGATATCCTATGGATTGGGGCACGTGTATTCGCATCCTATACTAACTTTTTTAAGTGGAGCATGTATGGCGTTTGCGCTTCTTGTCCACCTTTTCTCAGTTTGGATCGTGAAATTTCAATTAAATATTAGTGAAATAGAAGAAGGCACTTTTTGA	MRQIHGAIYIYITMFFVAISYGLGHVYSHPILTFLSGACMAFALLVHLFSVWIVKFQLNISEIEEGTF				NA	NA	NA	NA	NA
AK009_02517	828			hypothetical protein	ATGTTACAACAACAATTAGAAGAAATTCGTAATAATAATTACATACTGGATAACACACTTAACATTGATTCTTTAAGTTCTAATATGCTTGAACATATTGGCGATACTGATAACTATTTAAGGGACAAACTCATCTACTCTACTTTTTATCATCTCATCAAGAAGGACTACCTTTCACACACACAATTACAGAAACTATTATTAGAAAGCATCGGTGAAAAATATTTATTGTATAAAATTCATTCAGATGACGAAGATGCTGTATTTACTCGCGCATTTACCACCTTATTAATTGCGCTCATTATAGATGCAGATACAAATCATAATTTCTTATCACAAACTGATATTTCAAATGTAAAAGATCAATTAATTCTATATATGAACAATGAACATGATTTCCGCGGATATGTTCCAGACCACGGCTGGGCACATAGTATCGCTCATGCTTCCGATACATTTGAGGCGCTTGTTCATAATCCTAAACTAGAAACTTTACATTACGAAGAGATATTAAAAACTTTGTTAAACAAAGTTTTTGTCCATTCTATCTACTACAAATATGAAGAAGACGAGCGTCTCGTTTATCCGATTGTCGCAATGCTGCAAAATGACCTAAAAGAAGAAATACTCATATTAGCCCTTCGTGACTTAGCAGCTCAATTACCGGTCCAAAAACAATTACTACCTATTGAATCGTACGAGTTTCTATATGGAAATACAAAATCTTTCTTACGTAGCTTATTTTTCAGATTACGTACAATGTCTATATGTAAAGAAACTGAATACGAAATTGAAAAATTGCTACAAGAGCTTCCAAAATATTATTAA	MLQQQLEEIRNNNYILDNTLNIDSLSSNMLEHIGDTDNYLRDKLIYSTFYHLIKKDYLSHTQLQKLLLESIGEKYLLYKIHSDDEDAVFTRAFTTLLIALIIDADTNHNFLSQTDISNVKDQLILYMNNEHDFRGYVPDHGWAHSIAHASDTFEALVHNPKLETLHYEEILKTLLNKVFVHSIYYKYEEDERLVYPIVAMLQNDLKEEILILALRDLAAQLPVQKQLLPIESYEFLYGNTKSFLRSLFFRLRTMSICKETEYEIEKLLQELPKYY				NA	NA	NA	NA	NA
AK009_02518	375			hypothetical protein	ATGAAGAGAGCATTATTCTTTTTCATTAGTATTTTCTTTTTAGGAAGCTGTTCCATTTCGTATGTTACTTTTTCTAGCGAGAGCAAAAGTTGGATGGGACAATATAAGGGCCATATTAAGGACGACAGTGAAGATGGAGTGTTTACGTTTCAGTATAAGGGCGGAGATGGGAATACAGAATTTAAGAATTTAGAGATTGCTATTAATGGAGCCTTTAGCACAATGACACAAACGTCAGAAAATCATAAAGGAGCAAAGGTTGAAATGAAATCATCTTGTGTAAGTTGTGCGCCTTTATCTAAAGATGAACCGATAGAGGTTTTGATTAAATGGGATGATAAGTATGAGGAGAAGATGGTGTTAAATTTGAAATAG	MKRALFFFISIFFLGSCSISYVTFSSESKSWMGQYKGHIKDDSEDGVFTFQYKGGDGNTEFKNLEIAINGAFSTMTQTSENHKGAKVEMKSSCVSCAPLSKDEPIEVLIKWDDKYEEKMVLNLK				NA	NA	NA	NA	NA
AK009_02519	357			hypothetical protein	ATGAATAGGCATATGAAAAAATTAATGTTTATAAGTGTATTTCTAATCATATTATCAGCGTGCACTACAAAACAAGTAGAGGTAAAAAAAGTACCTAAAGAAGGGTATATCATATTAAGAAATGACACGGTGTTTTTTGCCGATGATAAAACGTTTGAAACAAAAGTAGAGTTGCAACATTATATAGAACAACAAATGAATAAAGAGCATCCATCACATATAGTCTTGAGCTTTAAGGACAAAGACGCATATAAACAGTTAAAAACAGGGGATAAAATAAAAGTATGGTTTTCTCAAATACTTGAAAGTTATCCAGCAAAAATGATTGTAGAGAAATTTGAAATAGTAGAGAAATAG	MNRHMKKLMFISVFLIILSACTTKQVEVKKVPKEGYIILRNDTVFFADDKTFETKVELQHYIEQQMNKEHPSHIVLSFKDKDAYKQLKTGDKIKVWFSQILESYPAKMIVEKFEIVEK				NA	NA	NA	NA	NA
AK009_02520	1098			putative peptidase	ATGAATGCTAGATTAGAAAATTTAATGCAATGGCTAAAAGAAAAAAACGTAGAAGCTGCGTTCTTAACTTCTACACCGAACGTCTTCTACATGACGAACTTCCACTGTGAACCGCATGAAAGATTACTTGGTATGTTTGTATTCCAAGAAAAAGAACCTATTTTAATTTGTCCTAAAATGGAAGAAGGTCAAGCACGTAACGCTGGCTGGGCACATGAAATTATCGGATTTACTGATACTGACAGACCATGGGATATGATTGCAAAAGCAATTAAAGACCGCGGCATCAATGCAAATGCAGTTGCAATTGAAAAAGAACATTTAAACGTAGAGCGCTACGAAGAATTAACGAAATTATTCCCAAATGCAGCTTTCAAATCAGCTGAGGAAAAAGTTCGCGAACTTCGTTTAATTAAAGATGAAAAAGAACTTTCTATTTTACGCGAAGCAGCTAAAATGGCGGACTACGCTGTTGAAGTTGGTGTAAATGCAATTAAAGAAAACCGTAGCGAGCTAGAAGTATTAGCAATTATTGAACACGAATTAAAAACAAAAGGCATACATAAAATGTCATTTGATACGATGGTATTAGCGGGTGCAAACTCTGCTCTTCCACACGGTATTCCTGGTGCAAACAAAATGAAGCGCGGTGATTTCGTACTATTTGATTTAGGTGTAATCATTGAAGGTTATTGCTCTGATATTACACGTACAGTAGCATTCGGTGAGATTTCTGAAGAGCAAACTCGCATTTACAACACTGTACTTGCTGGACAACTACAAGCAGTTGAAGCATGTAAACCAGGTGTTACACTTGGCGCAATCGACAACGCTGCTCGTTCTGTTATCGCAGATGCAGGTTACGGTGACTTCTTCCCGCACCGCCTTGGTCACGGACTTGGAATTAGCGTACACGAATATCCAGATGTAAAAGCTGGCAACGAGTCTCCATTAAAAGAAGGTATGGTCTTCACAATCGAGCCAGGTATTTACGTACCAAACGTAGGTGGCGTTCGTATTGAAGATGATATTTACATCACAAAAGACGGATCAGAAATTTTAACGAAGTTCCCGAAAGAATTACAATTTGTAAAATAA	MNARLENLMQWLKEKNVEAAFLTSTPNVFYMTNFHCEPHERLLGMFVFQEKEPILICPKMEEGQARNAGWAHEIIGFTDTDRPWDMIAKAIKDRGINANAVAIEKEHLNVERYEELTKLFPNAAFKSAEEKVRELRLIKDEKELSILREAAKMADYAVEVGVNAIKENRSELEVLAIIEHELKTKGIHKMSFDTMVLAGANSALPHGIPGANKMKRGDFVLFDLGVIIEGYCSDITRTVAFGEISEEQTRIYNTVLAGQLQAVEACKPGVTLGAIDNAARSVIADAGYGDFFPHRLGHGLGISVHEYPDVKAGNESPLKEGMVFTIEPGIYVPNVGGVRIEDDIYITKDGSEILTKFPKELQFVK	PGPT0006760_2434	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
AK009_02521	684			hypothetical protein	ATGAAAGTATCTTATCATGGACATTCAGTTGTGAAAATTGAGGCGAATGGAAAAGTTATTTTAATTGACCCGTTTTTAACAGGTAATCCGAAAACAGATTTAAAAGCTGAAGATGTAAAAGTGGATGCAATCCTTTTATCGCATGGACACGGTGATCATGTTGGAGATACAGTAGAACTTGCGAAGAAAAATAATGCAGTTGTTGTAGCGCCATTTGAACTAGCAACATTTTTAAGTTGGCAAGGTGTAAATACACATCCGATGCATATTGGTGGTTCACATGAATTTGACTTTGGAAAAGTGAAGTTTACACAAGCATTCCACGGCTCTAGTTATATTGATGAAGCAAATAAGACGATTACATATACAGGTATGCCAGCAGGTATTTTATTTACAGCAGAAGAGAAAACAGTGTACCACGCAGGAGATACTGCACTATTCTCTGATATGAAGTTAATTGGGGAATTAAATAAAGTTGATCTAGCATTTTTACCAATTGGTGATAATTTCACAATGGGACCAGAAGATGCTGTACTAGCGGCAAAATGGATTAATTCGAAAACTGTTGTACCGATGCATTACAATACGTTCCCAGTTATTGAACAAGATCCATATCAATTTGTAGAAAAGCTACAAAATTGTACAGGGAAAGTATTAGAAGCTGGAGAAAGTATTACACTATAG	MKVSYHGHSVVKIEANGKVILIDPFLTGNPKTDLKAEDVKVDAILLSHGHGDHVGDTVELAKKNNAVVVAPFELATFLSWQGVNTHPMHIGGSHEFDFGKVKFTQAFHGSSYIDEANKTITYTGMPAGILFTAEEKTVYHAGDTALFSDMKLIGELNKVDLAFLPIGDNFTMGPEDAVLAAKWINSKTVVPMHYNTFPVIEQDPYQFVEKLQNCTGKVLEAGESITL				NA	NA	NA	NA	NA
AK009_02522	162			hypothetical protein	ATGATGAAAAAATTTTTAGAGGTTGTAGGTGCTATATTTTTAGCTTTCGTAGATGGGAAAAAAGTTGCAATGGAATTGAATGAAACACCTGAACAACCACGTACAAAAAGAAAAGAATCACCAAAACAAATACAAGCATTAAAAGCTGTCCTACACACGTAA	MMKKFLEVVGAIFLAFVDGKKVAMELNETPEQPRTKRKESPKQIQALKAVLHT				NA	NA	NA	NA	NA
AK009_02523	1314	IMPDH_2		Inosine-5'-monophosphate dehydrogenase	TTGGCTACCAAGCATAACCAAATTTTAGAACATATTAATAGCCTGCCAGTAGGCCATAAAATTTCTGTAAGACAAATTGCGAAAGATTTGAGTGTAAGTGAAGGGACAGCTTACCGTGCAATTAAAGATGCAGAAAATAAAGGATATGTTAGTACAATTGAACGTGTCGGAACAATTCGAATTGAACAAAAGAAGAAAGAGAATATCGAAAAACTGACATATGCAGAAGTCGTTAACATTGTCGACGGTCAAGTACTTGGAGGCAGAGAAGGACTACATAAAACATTAAATAAATTTGTAATCGGAGCTATGAAATTAGAAGCGATGATGCGCTATACAGAAGCTGGGAATTTACTCATTATTGGTAACCGTACGAATGCACATCAATTAGCGCTAGAAACTGGAGCCGCTGTATTAATTACGGGTGGATTTGATACGGAAGATCATGTGAAGAAATTAGCAGACGAATTAAAGCTGCCGATTATTTCAAGTAGCTACGATACATTTACGGTCGCAACGTTAATTAACCGTGCAATTTATGATCAACTGATTAAGAAAGAAATTGTACTTGTTGAGGATATTTTAACACCAATTGAAGAAACGTTATATTTAAAGCCACATGATACAGTACAGCAATGGCATGCATATAACGAAGAGACAATGCACGGAAGATATCCAATTGTCGATGAAAATAAAAAAGTGCTAGGAATCGTAACTTCAAAAGACATGATCGGTGTAGCGAAAGAAACACCAATTGATAAAGTAATGACAAAGCACCCAATTACAGTGAATGGTAAAATGTCTGTCGCAGCTGCGGCACGTATGATGGTGTGGGAAGGAATTGAATTACTTCCTGTCGTTGAGGAAGGAAATAAACTGCAAGGTATCATTAGCCGTCAAGATGTACTTCAGGCACTGCAAATGATTCAACGTCAGCCACAAGTTGGAGAAACAATTGATGATATCGTAACGAATCAATTTATGACGCCAAAAGAAGCGAAAAATGAGCATCTATATCAATTTTCGGTGACGCCGCAAATGACGAATTCAATCGGAACGTTATCGTACGGTGTATTTGCAACAATTGTGACAGAAGCGACAAATCGCGTCATTCGTGCGCAAAAGAAAAGCGATTTAATTGTTGAAAACTTAACAATTTATTTCGTGAAGCCGGTTCAAATTGATAATGTTGTATCCGTTCATCCGAAAGTATTAGAAATCGGGCGTAAATTTGGTAAGGTCGATGTAGAGGTGCATCATGAAGGTAATGTCGTTGGAAAAGCATTACTTATGGTTCAGTTAATTGATAAATAA	MATKHNQILEHINSLPVGHKISVRQIAKDLSVSEGTAYRAIKDAENKGYVSTIERVGTIRIEQKKKENIEKLTYAEVVNIVDGQVLGGREGLHKTLNKFVIGAMKLEAMMRYTEAGNLLIIGNRTNAHQLALETGAAVLITGGFDTEDHVKKLADELKLPIISSSYDTFTVATLINRAIYDQLIKKEIVLVEDILTPIEETLYLKPHDTVQQWHAYNEETMHGRYPIVDENKKVLGIVTSKDMIGVAKETPIDKVMTKHPITVNGKMSVAAAARMMVWEGIELLPVVEEGNKLQGIISRQDVLQALQMIQRQPQVGETIDDIVTNQFMTPKEAKNEHLYQFSVTPQMTNSIGTLSYGVFATIVTEATNRVIRAQKKSDLIVENLTIYFVKPVQIDNVVSVHPKVLEIGRKFGKVDVEVHHEGNVVGKALLMVQLIDK				NA	NA	NA	NA	NA
AK009_02524	264			hypothetical protein	ATGTCGTCAGCCGTACTCTTTTTTGGTAGTATCGCACTATTTTACTTTCTTGTAATGATACCGATCCAATATTTATATTTACAAGGTTTACATGAAAAAAAGGAAAAGACAGGATTATCTCAGCGAGAGCTATATGAAAAAATGTCTTTTGGAGAAGAACAATTACATTTTCACGTACAAGGTAACCCATTTAATATACCATCTGCATTTGTTGCATATATGATTTTGAAAGTTAAGGGTCGTAAAAAAGCATCACAATATTGA	MSSAVLFFGSIALFYFLVMIPIQYLYLQGLHEKKEKTGLSQRELYEKMSFGEEQLHFHVQGNPFNIPSAFVAYMILKVKGRKKASQY				NA	NA	NA	NA	NA
AK009_02525	306			hypothetical protein	ATGCCAGTATTAGTCTTCTGTATTATCGTCTCATTTATGTTGTACCTCTTTTACAAAACAAAATACTTTCGTACAAACCGCCCAATGGAAAAAGGTTGGCTCTCAGGAAAATCCGCAATGGCACTCGGTTCATTCGTTTTATTTTTCGGGGTAAACCAATTCTTTTTAGAACTTTCAACCGCTCGTATTATCGTTGGTATTTTATTCGTTCTATTTGGTAGTGCAAGTGTATTTAATGGGTTTCGCCAATACAAACACTTCTTACCATTAGCAGTTAAAGAAGCCGAAGTCTATGAAGCAACATAA	MPVLVFCIIVSFMLYLFYKTKYFRTNRPMEKGWLSGKSAMALGSFVLFFGVNQFFLELSTARIIVGILFVLFGSASVFNGFRQYKHFLPLAVKEAEVYEAT				NA	NA	NA	NA	NA
AK009_02526	933	nrnA	COG0618	Bifunctional oligoribonuclease and PAP phosphatase NrnA	ATGCATGAGCAAATTTTAGGAGCAATTAAAGAGTTTGATACAATTATTATTCATCGCCACGTGCGTCCGGACCCAGATGCATTAGGTTCACAGGGTGGCCTTGGTACAATTCTACAAGAATCGTTTCCAGAGAAAAATATTTATACGGTTGGGTACAATGAACCGTCGTTAGCGTACTTAAGAGTAATGGATGATATTGAAGATAGTGTATACGAAAATGCGCTTGTTATCGTTTGTGATACTGCGAATCAAGAACGTGTTGACGATCAACGCTATAAAAAAGGGAAGATGTTAATTAAAATTGATCATCATCCAAATGAAGATCCATATGGAGATATTACGTGGGTAGATACGGCAGCGAGTTCTACAAGTGAAATGATTTATGAGTTTTACACGTATGGAAAAGATAAAGGATTAAAAATAACAAAAGAAGCAGCTCGCCTTATTTTAGCTGGAATTGTTGGGGACACAGGTCGTTTCTTATTCCCGAATACAACAGCAAAAACACTTCGTTACGTAAGTGAGCTTGTTGATATGGGTGTGAAATTCACAGATTTATACAATGAAATGTATAAGACAAAAGAAAAAATTGCTCGTTTAAACGGTTATATTTTACAAAACTTTACGATGGTAGAAGAAGGAGCAGCTTACATTAAATTAACGAAAGAAGTATTAGAAGAGTTTGATGTACTTTCTTCTGAAGCATCTGGTGTTGTTGGAGCACTTGGCAATATTGATGGATTAAAGGCGTGGGTTCTATTTTTAGAGGAAGACGACGTAATTCGTGTTCGTCTTCGTTCAAAAGGACCAGTTATAAACAAATTAGCAATGCAATATAACGGCGGAGGACACCCGATGGCTTCTGGTGCGAAGGCATCTTCTTGGGAAGAAGCGGATCGTCTTTTTGCTGATTTACGTGAGATTTGTAAATAA	MHEQILGAIKEFDTIIIHRHVRPDPDALGSQGGLGTILQESFPEKNIYTVGYNEPSLAYLRVMDDIEDSVYENALVIVCDTANQERVDDQRYKKGKMLIKIDHHPNEDPYGDITWVDTAASSTSEMIYEFYTYGKDKGLKITKEAARLILAGIVGDTGRFLFPNTTAKTLRYVSELVDMGVKFTDLYNEMYKTKEKIARLNGYILQNFTMVEEGAAYIKLTKEVLEEFDVLSSEASGVVGALGNIDGLKAWVLFLEEDDVIRVRLRSKGPVINKLAMQYNGGGHPMASGAKASSWEEADRLFADLREICK				NA	NA	NA	NA	NA
AK009_02527	504	ytrI		Sporulation membrane protein YtrI	ATGAGAGTACCAAGTGCCAATACAGCAAAAAGATGGTACTTAGTATTAGCTGGTGCTGCTGTTGGAGGCGTGTTGAGCTGGTTTATTTTTTTGTACATATACGGTGTTTTTCAAGAAGAACAAGCTAGTAAAATAGCAGAACAAAGAGAAATTATAGAAAAACAAGAAGCAAAACTCCACGTCCTTCTCGAAGATCAAGAAAAATTGAACACTGAAAATAAACGGCTCTTAACCATTCAAGAGATTAAAATAAAACTTATCAATCGAGAAAAATACGATTTAGACAATCTTACACTCGAAAATATGACTACATCTATCCATAATGATCTCCAGCATCTTTTAACGAAAAACATTCAAAGTATCGCAAAAAATAAAGACCTACTCAAAAAGGTAATCGAAAACAAGACGTACAAACATTACGATCGGCTATACCGTTTTAAAGTCGATACAATATCTTTTGATACAGTGCTTGAAATTAGCATTACTATAGAGAAAGAAAAATAA	MRVPSANTAKRWYLVLAGAAVGGVLSWFIFLYIYGVFQEEQASKIAEQREIIEKQEAKLHVLLEDQEKLNTENKRLLTIQEIKIKLINREKYDLDNLTLENMTTSIHNDLQHLLTKNIQSIAKNKDLLKKVIENKTYKHYDRLYRFKVDTISFDTVLEISITIEKEK				NA	NA	NA	NA	NA
AK009_02528	339	ytrH		Sporulation membrane protein YtrH	ATGGATGTAAGAGAACATACTTTTTTCTCTCTGCTTATTATTAGTTATTTTATTGCCTTTGGGGTTATACTTGGCGGTTCATTAATTGGTGGATTTGGTGCATTTCTTATCGGAAAACCAGCTCTAACTTACATTAATCAATTCGCCCAAAATTTAAGAATTTGGGCACTCGTTGCAGCAATCGGCGGAACATTCGATACCTTTTATAGCTTTGAAAGAAGTTTCTTTGGCGGAGATATGAAAGATATCGTAAAACAAATTCTCCTTATTTTTTTCGCAACTGGTGGTATGCAAACAGGTCTCATTATTATTAAATGGCTAACGCAGGAACATGTATGA	MDVREHTFFSLLIISYFIAFGVILGGSLIGGFGAFLIGKPALTYINQFAQNLRIWALVAAIGGTFDTFYSFERSFFGGDMKDIVKQILLIFFATGGMQTGLIIIKWLTQEHV				NA	NA	NA	NA	NA
AK009_02529	3327	dnaE_1	COG0587	DNA polymerase III subunit alpha	GTGAAGTTTGTGCATTTACAATGTCAAACCGTTTTTAGTTTATTAAAAAGTGCTTGTAAAATTGATGAGCTTGTAGTCAGGGCGAAAGAACTTGGTTTCTCATCGCTGGCTATTACGGATGAAAATGTTATGTATGGCGTTATTCCGTTTTATAAAGCATGTAAGAAACATGGTATACAGCCTGTTATTGGATTAACCGCTTCTATTTTTAGTGAAGAAGAAGAAAGGTCTTATCCGCTTGTATTACTTGCTGAGAATGAAATAGGCTACCAAAATTTATTAAAGATTTCTAGCAGTATTATGACAAAGTCCAAAGAAGGTATCCCTAAGAAGTGGCTTGCGCATTATGCGAAAGGATTAATTGCTATTTCACCAGGTAAAGATGGCGAAATTGAGCAATTATTACTAGAAGACAATGAGAGTCAGGCTGAAGAAGTAGCTCGAACATATCAAAATATGTTCGGCCATTTTTATATGAGTTTGCAGCATCATGCAATTCAAGATGAGTTGCTTTTACAAGAGAAGCTACCTGAATTTATTAGTAGGGTTAATATTCCAGTCGTTGCAACAAACGATGTGCGTTATATCAATCAAAGTGACGCACTTGTTCACGAATGTTTACTATCTGTTGAAAGTGGAACGAAAATGACTGATCCAGATAGGCCGAGGCTGAAAACAGATCAATATTATTTAAAATCATCGGATGAAATGGAAGCACTATTTTCCCATGCGCCGGAAGCAATCCAAAATACAATAAAAATTGCAGAGCGTTGCCAAGTAGAAATACCGTTCCATGTAAATCAACTTCCGAAGTTTCCTGTTCCGTCTAACGAAACGAGTGATATATACTTGCGTCGTGTTTGTGAAGAAGGTTTGCGGAAACGATATGGTGCGCCGAAAGAAGTGCATATAAAGCGTTTAAATCATGAATTAAATGTTATTTCTCGTATGGGATTTAGTGATTATTTCCTCATCGTATGGGATTTTATGAAGTATGCACATGAAAATCATATTTTAACAGGACCAGGTCGTGGATCGGCAGCTGGTTCACTCGTCTCATACGTATTAGAAATTACAGATATTGATCCGATTGAATACGATCTATTATTTGAAAGGTTTTTAAATCCTGAACGTGTGACGCTTCCCGATATTGATATTGATTTTCCAGACATAAGACGTGATGAGATGATTCGCTATGTGAAAGATAAATACGGTCAGCTTCGTGTTGCGCAAATTGTAACGTTTGGTACGCTTGCAGCAAAAGCAGCAATTAGAGACATTGCCCGCGTAATGGGGCTTCCGCCACGAGATATTGATATATTTTCAAAACTTATCCCATCAAAGCTCGGTATAACGTTAAAAGATGCATATGAAGAATCACAATCACTTCGTGAGTTTATACAAGGGAATCTTCTGCATGAGCGTGTGTTTGAAATCGCAGAACGTGTAGAAGGTTTACCACGTCATACGTCTATTCATGCGGCTGGCGTTATTATGAGTCAAGAACCGTTAACAGGCAGTGTAGCAATTCAAGAAGGACATAACGATGTTTATGTTACGCAATATCCAGCTGATGCGCTAGAAGAACTTGGGTTGCTTAAGATGGACTTTTTAGGGTTACGTAATTTAACGTTACTTGAAAATATTATAAAATTTATCGCGAACAAAACAGGGAAAGAAATCGATATAAGAAACTTACCTCTTCAAGATGAAAAGACGTTCCAATTATTAGGGAGAGGGGATACAACAGGTGTATTCCAGCTTGAGTCAGGTGGTATGCGAAATGTACTTCGCGGGTTAAAACCGAATGAGTTTGAAGATATCGTAGCTGTTAACTCGTTATACAGACCGGGGCCGATGGAACAGATACCAACCTTTATTGAATCGAAACATGGAAAAAGAAAAATTGAATATTTACATCCGGATTTAAAGCCAATTTTAGAAAGAACATACGGCGTCATTGTATACCAAGAACAAATTATGCAAATTGCATCGAAGTTAGCAGGGTTTTCGCTCGGAGAAGCAGATTTACTGCGCCGTGCAGTGAGTAAAAAAAATCGTGATATTTTAGATCAGGAACGTAAGCATTTTGTTCAAGGGTGTTTGCAAAATGGTTATGATGAGACGTCTGCTGAGAAAATTTATGATTTAATTGTAAGATTTGCGAATTACGGTTTTAACCGAAGTCACGCTGTAGCTTACAGTATGATCGGATATCAGCTTGCCTATTTGAAAGCGAACTATACGCTGGAATTTATGACGGCATTATTATCAAGTGCAATTGGAAATGAAGATAAAATTGTACAGTATATACGAGAAACGAAGCGGAAAGGCTTTCACGTTTTGCCGCCGTCTCTTCAGAGAAGTGGTTACAACTTCCAAATAGAAGGGAATGCGATACGTTACAGTTTACTTTCGATCCGAAATATTGGAATGGCTACAGTGACGGCATTATTAGAAGAACGAAAGAAAAAAATGTTCGAAGATTTGTTTGAATTTTGTCTCCGTATGCCGTCAAAGTTTGTGACGGAGCGCAATTTAGAAGCTTTCGTCTGGTCCGGATGTTTTGATGATTTTGGTGTTTCGAGAACGAATTTATGGAAAAGTATTAAAGGGGCATTAGAGTACGCGAATCTCGCACGTGATTTAGGAGATGCTGTTCCAAAATCAAAATACGTACAAGGAGAAGAGCTATCTTTTATTGAACAACTAAATAAAGAGAAGGAAGCACTTGGCTTTTATTTATCAAGTTATCCGACAGCGCAGTATGTAAAGTTAGCAAAAGAATTAGAAATTCCATCTCTCGCTCAGGCGATGCGACACAAGAAAAAAGTACAAAGAGCTATTGTGTATATAACAAGTGTGAGAGTGATTCGTACGAAAAAGTTTCAAAAGATGGCATTTATTACATTCTGTGATCAAAATGATGAAATGGAAGCAGTCCTCTTCCCGGAAACGTATATACATTTCTCGGACAAGTTACAAGAAGGAGCAATTGTTTTAGTTGACGGTACGATTGAGCTAAGAAATCATAAGCTGCAATGGATTGTAAATGGTCTATATCCGCTAGAGGAAATGGATGTTTATGAAGAAAAGAAAGACGCATCTGTTTACGTGAAATTGCCGTCTCAGTATGAGAAAAAGCTTTTAAATCAGGTTACGAAAATATTGTTCGACTATTCAGGTTTTGCGAAAGTACTAATTTATTATGAAAAGGAACATAAAATGGTACAATTATCTCGGAGTTTATCGATTCATCCAAGTGAAGAATGTTTAGGAGCACTTCGTGAAATTGTCGGGGAAGAAAATGTAGTTGTGAAAATATAA	MKFVHLQCQTVFSLLKSACKIDELVVRAKELGFSSLAITDENVMYGVIPFYKACKKHGIQPVIGLTASIFSEEEERSYPLVLLAENEIGYQNLLKISSSIMTKSKEGIPKKWLAHYAKGLIAISPGKDGEIEQLLLEDNESQAEEVARTYQNMFGHFYMSLQHHAIQDELLLQEKLPEFISRVNIPVVATNDVRYINQSDALVHECLLSVESGTKMTDPDRPRLKTDQYYLKSSDEMEALFSHAPEAIQNTIKIAERCQVEIPFHVNQLPKFPVPSNETSDIYLRRVCEEGLRKRYGAPKEVHIKRLNHELNVISRMGFSDYFLIVWDFMKYAHENHILTGPGRGSAAGSLVSYVLEITDIDPIEYDLLFERFLNPERVTLPDIDIDFPDIRRDEMIRYVKDKYGQLRVAQIVTFGTLAAKAAIRDIARVMGLPPRDIDIFSKLIPSKLGITLKDAYEESQSLREFIQGNLLHERVFEIAERVEGLPRHTSIHAAGVIMSQEPLTGSVAIQEGHNDVYVTQYPADALEELGLLKMDFLGLRNLTLLENIIKFIANKTGKEIDIRNLPLQDEKTFQLLGRGDTTGVFQLESGGMRNVLRGLKPNEFEDIVAVNSLYRPGPMEQIPTFIESKHGKRKIEYLHPDLKPILERTYGVIVYQEQIMQIASKLAGFSLGEADLLRRAVSKKNRDILDQERKHFVQGCLQNGYDETSAEKIYDLIVRFANYGFNRSHAVAYSMIGYQLAYLKANYTLEFMTALLSSAIGNEDKIVQYIRETKRKGFHVLPPSLQRSGYNFQIEGNAIRYSLLSIRNIGMATVTALLEERKKKMFEDLFEFCLRMPSKFVTERNLEAFVWSGCFDDFGVSRTNLWKSIKGALEYANLARDLGDAVPKSKYVQGEELSFIEQLNKEKEALGFYLSSYPTAQYVKLAKELEIPSLAQAMRHKKKVQRAIVYITSVRVIRTKKFQKMAFITFCDQNDEMEAVLFPETYIHFSDKLQEGAIVLVDGTIELRNHKLQWIVNGLYPLEEMDVYEEKKDASVYVKLPSQYEKKLLNQVTKILFDYSGFAKVLIYYEKEHKMVQLSRSLSIHPSEECLGALREIVGEENVVVKI				NA	NA	NA	NA	NA
AK009_02530	1239			NAD-dependent malic enzyme	TTGTCAACACTTCGTGAAGAAGCACTTCACATGCATAAAGTGCATCAAGGAAAATTAGAAACTGTATCAAAAGTAAAAGTAGAAAATGCAAAAGATTTAAGTCTTGCATATTCTCCAGGGGTTGCAGAACCTTGTAAAGAAATTTATGACGATAAAAGTAAGGTATATGAATATACGATGAAGGGAAATATGGTAGCAGTTGTGACAGACGGAACAGCTGTACTTGGTCTTGGTAACATTGGACCTGAAGCATCTCTTCCAGTAATGGAAGGTAAAGCTGTATTATTCAAGAGCTTTGCTGGTGTAGATGCATTCCCGATTGCCTTAAATACAAACGATGTAGATAAAATTGTTGAAACTGTAAAATTAATGGAGCCAACTTTTGGCGGCGTTAACTTAGAAGATATCGCAGCACCAAACTGCTTCATTATTGAAGAGCGTTTGAAAAAAGAAACAAATATTCCTATCTTCCATGATGATCAACACGGAACAGCTATCGTAACAGTAGCAGGTCTTGTAAATGCACTGAAATTAGTTGGAAAGAAAATGTCTGACATTAAAGTTGTCGCAAATGGCGCAGGTGCAGCAGGTATTGCAATTATTAAACTTTTATATCGCTATGGTGTACGCGACATTATTATGTGTGACCGTAAAGGGGCAATCTATGATGGTCGTCCTACAGGTATGAATCCGGTGAAGGATGAAGTTGCAAAATATACAAATAAGAATCGTATAGAAGGTTCTTTAGCTGATGTTGTACATGGTGCGGACGTATTCATTGGTGTATCCGCAGAAGGTGCATTAACAGAAGAGATGGTTCGTACAATGAATGACGATGCGATTATTTTTGCAATGGCGAATCCGGTTCCAGAAATTATGCCAGAATTGGCAAAAGCAGCGGGCGCAGCTGTTGTTGGAACAGGTCGTTCTGACTTCCCGAACCAAGTAAATAATGTACTGGCGTTCCCTGGTATTTTCCGCGGTGCACTTGACGTACATGCGACACAAATTAACGAAGAAATGAAGATGGCAGCTGTACAGGCTATTGCTGAGCTTGTAGCAGAAGATGAGTTGAATGCAGACTATATCATTCCGGCACCATTTGACGCGCGTGTAGCGCCTCAAGTAGCGGCTTACGTTGCAAAAGCAGCAATGGAAACAGGAGTAGCTCGCCGTCAAGTAGATCCAAATGAGATCGCTGAAAAAACAAAACAATTAGCGCTGATTGGTAAAGAATAA	MSTLREEALHMHKVHQGKLETVSKVKVENAKDLSLAYSPGVAEPCKEIYDDKSKVYEYTMKGNMVAVVTDGTAVLGLGNIGPEASLPVMEGKAVLFKSFAGVDAFPIALNTNDVDKIVETVKLMEPTFGGVNLEDIAAPNCFIIEERLKKETNIPIFHDDQHGTAIVTVAGLVNALKLVGKKMSDIKVVANGAGAAGIAIIKLLYRYGVRDIIMCDRKGAIYDGRPTGMNPVKDEVAKYTNKNRIEGSLADVVHGADVFIGVSAEGALTEEMVRTMNDDAIIFAMANPVPEIMPELAKAAGAAVVGTGRSDFPNQVNNVLAFPGIFRGALDVHATQINEEMKMAAVQAIAELVAEDELNADYIIPAPFDARVAPQVAAYVAKAAMETGVARRQVDPNEIAEKTKQLALIGKE	PGPT0001350_2313	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
AK009_02531	645	nanR		HTH-type transcriptional repressor NanR	TTGACATCATCAAATACAAAAGTATATCTCGAAATTGTAAAAAAAATCCGTTCCATTATGGAAGAGGATGGATTGGTAGCGGGGGATCGTTTGCCGTCTGAGCGTGAGTTAAGTTCACGCTTAAACGTAGGACGTTCCTCTGTAAGAGAAGCATTGCGTGCTTTAGAACTGGTAGGATTGATTGAAACGAGACGTGGTGAAGGGACATTTATTCGAAACTTTTATGATAACGGCCTTGTACAATTAATTGCTCCGTTCTTACTGCAAGATGAGAAAACAATTCGTGATTTATTACAAACGAAACGATTGCTTGAGAAAGATATGATTCGAATTGTATGTAATTTACCGAAAGAAACGTTTTCTAAAGTACTAAGTAGATTACACCAAGTACTTGAAGGAAATGAAAACTCAATCCCAACGCTTCATCAAACGTTCTTTAAAACACTTATTGAACAAGTCGATAATTATTTACTATATCGCATTTGGATGATCGTAAATGATTACGTAGCAACTCTTTCTTGTAAAGTTTCAAGAAATTCTATCGATATGTATAGAAAGCTTTATGCTACTTTGGAAGAAAAACAAGAAAATGATGCACTAAAAATTTACGATGAATTAGTAGAGAATATACAGTTTCACTCGTAA	MTSSNTKVYLEIVKKIRSIMEEDGLVAGDRLPSERELSSRLNVGRSSVREALRALELVGLIETRRGEGTFIRNFYDNGLVQLIAPFLLQDEKTIRDLLQTKRLLEKDMIRIVCNLPKETFSKVLSRLHQVLEGNENSIPTLHQTFFKTLIEQVDNYLLYRIWMIVNDYVATLSCKVSRNSIDMYRKLYATLEEKQENDALKIYDELVENIQFHS				NA	NA	NA	NA	NA
AK009_02532	870	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	GTGCTAAGAGATTTATTCGTGAAAAAGAAAAAGTACGCTGCAATACCTTCAGAACAAGTACGAAAAGATGTACCAGATGGCGTTATGACAAAATGTCCGGAATGTAAAAAAATCATGTATACGAAAGAACTTCTAAAAAATTTAAAAGTATGTGTGAATTGTGGATATCATCATCCTATGAATGCATGGGAACGTCTTGATAGTATATTGGACGAAGGGTCATTCCGTGAGTATGACAAAGAAATGGTTTCATTAAATCCACTCGAGTTTCCAGGTTATGAAGAGAAACTAGAGAGCGATCGTAAGAAGACTGAATTAAACGAAGCGGTTGTAACTGGTGAAGGAACAATTGATGACATGCTTGTTGTTGTTGCAGTAATGGATTCTCGTTTTCGAATGGGGAGCATGGGCTCTGTGGTAGGAGAAAAAATCGCCCGTGCGGTTGAAAAGGCGTACGACTTACAAGTTCCATTTATTATCTTTACTGCTTCGGGTGGTGCCCGTATGCAAGAAGGGATATTAAGTTTAATGCAAATGGCAAAAACAAGCGTAGCTTTGAAAAAGCATAGTAATGCAGGAGGATTATTTATTTCTGTTATGACTCACCCAACGACGGGCGGGGTTTCAGCGAGTTTCGCTTCACTTGGTGATTATAATCTTGCAGAACCAGGTGCACTTATCGGATTTGCTGGTAGACGTGTAATTGAACAAACGGTGCGTGAGAAACTACCGGAAGATTTCCAAACGGCAGAATTCTTACTAGATCATGGTCAATTAGATGCGGTGGTGCATCGTGATGATATGAGAGAATCGCTTCGCAAGATTTTAGAAGTTCATCAAGGAGGGGGAATGGCTGTATGGCAGAGCTAG	MLRDLFVKKKKYAAIPSEQVRKDVPDGVMTKCPECKKIMYTKELLKNLKVCVNCGYHHPMNAWERLDSILDEGSFREYDKEMVSLNPLEFPGYEEKLESDRKKTELNEAVVTGEGTIDDMLVVVAVMDSRFRMGSMGSVVGEKIARAVEKAYDLQVPFIIFTASGGARMQEGILSLMQMAKTSVALKKHSNAGGLFISVMTHPTTGGVSASFASLGDYNLAEPGALIGFAGRRVIEQTVREKLPEDFQTAEFLLDHGQLDAVVHRDDMRESLRKILEVHQGGGMAVWQS	PGPT0001710_2167	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
AK009_02533	975	accA_2	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGGCAGAGCTAGAATTTGAAAAACCAGTTGTTGAGCTAAGAAATAAGATTCGTGAACTGAAAGACTATACGAAAAACAGCCAGATGGACTTCAGTGAGGAGATTCGTATTTTGGAAGACAAGCTAGAAAATTTAGAGGAAGATATATACGGTAATCTGAAAGTATGGGACCGTGTTCAAATTGCTCGTCATGCAGAACGACCGACAACGCTCGATTATATTGAGCACTTATTTACTGATTTTTTCGAATGTCATGGAGATCGTCTATTTGGCGATGATGCAGCGATTGTCGGCGGCATTGCGAAATATAAAGGGATGCCTGTAACTGTAATTGGGCATCAGCGCGGAAAAGATACGAAAGAAAATATTCGCCGTAACTTTGGAATGCCTCATCCAGAAGGATATCGAAAAGCATTACGCTTAATGAAGCAGGCGGAAAAGTTCAATCGTCCTATTATTTGTTTCATTGATACGAAAGGGGCTTATCCTGGTAAAGCTGCTGAAGAACGTGGTCAAAGTGAAGCTATCGCCCGCAATTTATTTGAAATGGCAGGTTTAACTGTACCTGTTATTTGTATCGTTATCGGTGAAGGTGGTAGTGGCGGTGCGCTAGGCCTTGGAGTGGGAGATTACATTCATATGCTAGAAAATTCCACTTATTCTGTTATTACACCAGAGGGTGCAGCGGCAATTCTTTGGAAAGATGCAGGAAAAGCAAAGGAAGCTGCAGAGGCAATGAAAATTACAGCAGCAGATTTGAAAGAATTAGGTGTAATTGATGAAATTATTCCAGAGGCAAAAGGTGGAGCTCACCGTAATCTTTCAAAACAGTCAGAAAATATAGATTTAATGATTAGAAAAACTTTTGAACAATTAAACGGAATTTCGAAAGATGAATTAATCGAAAAACGTTATGAAAAATATATGAAAATTGGGCAAGTTTCGTTTTCAAACGCTTCCATTGGGATAAAATAA	MAELEFEKPVVELRNKIRELKDYTKNSQMDFSEEIRILEDKLENLEEDIYGNLKVWDRVQIARHAERPTTLDYIEHLFTDFFECHGDRLFGDDAAIVGGIAKYKGMPVTVIGHQRGKDTKENIRRNFGMPHPEGYRKALRLMKQAEKFNRPIICFIDTKGAYPGKAAEERGQSEAIARNLFEMAGLTVPVICIVIGEGGSGGALGLGVGDYIHMLENSTYSVITPEGAAAILWKDAGKAKEAAEAMKITAADLKELGVIDEIIPEAKGGAHRNLSKQSENIDLMIRKTFEQLNGISKDELIEKRYEKYMKIGQVSFSNASIGIK	PGPT0001695_781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
AK009_02534	960	pfkA	COG0205	ATP-dependent 6-phosphofructokinase	ATGAAACGTATTGGTGTATTAACAAGTGGTGGAGATTCACCTGGTATGAATGCTGCCATTCGTGCAGTTGTTCGTAAAGCGATTTTCCATGATATTGAAGTATATGGTATTTACCATGGATACGCTGGATTAATTTCTGGTCACATTGAAAAATTAGAACTTGGTTCTGTTGGCGATATTATCCACCGCGGTGGTACGAAATTATATACAGCAAGATGTCCTGAGTTTAAAGACCCAGAAGTACGACTAAAAGGTATCGAGCAATTAAAGAAACATGGTATCGAAGGACTTGTTGTTATTGGTGGAGATGGTTCTTACCAAGGCGCTAAAAAATTAACTGAACAAGGATTCCCGTGTGTTGGTGTACCAGGTACAATCGACAATGATATCCCTGGAACAGACTTCACAATTGGTTTCGATACAGCTTTAAACACTGTTATTGATGCAATTGATAAAATCCGTGACACAGCTACATCTCATGAACGTACATATGTTATCGAAGTAATGGGACGTCACGCTGGTGATATCGCATTATGGGCTGGTTTAGCTGATGGTGCAGAAACAATCTTAATTCCAGAAGAAGAGTATGACATGGATGATGTTATCGCTCGTCTGAAGCGTGGTAGTGAACGTGGTAAAAAACACAGTATTATCGTTGTAGCTGAAGGTGTTGGAAGTGCAATTGACATCGGTAAGCACATTGAAGAAGCAACAAACTTTGATACTCGTGTAACTGTATTAGGTCACGTACAACGTGGTGGATCACCAAGTGCACAAGACCGTGTATTAGCAAGTCGTCTTGGCGCAAGAGCAGTTGAATTATTAATTGCTGGTAAAGGTGGACGTTGTGTAGGTATTCAAGATAACAAACTTGTTGATCATGATATTATCGAAGCGTTAGCTCAAAAGCATACAATCGATAAAGATATGTATCAATTATCTAAAGAATTATCCATCTAA	MKRIGVLTSGGDSPGMNAAIRAVVRKAIFHDIEVYGIYHGYAGLISGHIEKLELGSVGDIIHRGGTKLYTARCPEFKDPEVRLKGIEQLKKHGIEGLVVIGGDGSYQGAKKLTEQGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLADGAETILIPEEEYDMDDVIARLKRGSERGKKHSIIVVAEGVGSAIDIGKHIEEATNFDTRVTVLGHVQRGGSPSAQDRVLASRLGARAVELLIAGKGGRCVGIQDNKLVDHDIIEALAQKHTIDKDMYQLSKELSI	PGPT0017595_3495	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
AK009_02535	1758	pyk_2	COG0469	Pyruvate kinase	ATGCGTAAAACTAAAATTGTATGTACTATAGGTCCTGCTAGTGAAAGTATTGAAAAATTAGAGCAATTAATCGAAGCAGGTATGAACGTTGCTCGTTTAAACTTCTCTCATGGTAGCCATGAAGAGCACGGAGCTCGTATTAAAAACATTCGTGAAGCTTCAAAGAAAACTGGTAAAACAGTTGGTATCTTACTTGATACAAAAGGTCCAGAAATCCGTACTCACGACTTCGTAGACGGACAAGCTGAGCTTGTAACAGGTGCAGAAGTAGTTCTTTCTACTGAGCAAGTATTAGGTACTGCAGAGAAGTTCTCTGTATCTTATGCTGGTCTTTATGACGATGTAGACCCAGGTTCTCGCATTCTAATCGATGACGGTCTTATCGAACTAGAAGTAATCGAAAAAGCTGATGGAAACATCCGTACAAAAGTTCTTAACAGCGGAACTGTAAAAAATAAAAAAGGTGTTAACGTACCAAACGTAAGCATTAAGCTTCCTGGTATCACTGAAAAAGACGTAAAAGATATCATCTTCGGTATCGAGCAAAAAGTTGATTTCATCGCAGCTTCATTCGTACGTAAAGCGTCTGACGTATTAGAAATCCGTGAATTATTAGAAGAGCATGGTGCTCAATACATCCAAATCGTACCGAAAATCGAAAACCAAGAAGGTATCGACAACATCGATTCAATCTTAGAAGTTTCTGACGGTTTAATGGTAGCTCGTGGTGATATGGGTGTAGAAATTCCACCAGAAGAAGTACCATTAGTACAAAAACGTCTAATCAAAAAATGTAACGTGTTAGGTAAACCAGTTATTACTGCGACACAAATGTTAGACTCTATGCAACGTAACCCACGTCCAACTCGTGCGGAAGCAAGTGACGTAGCTAACGCAATCTTCGATGGTACAGATGCAATCATGCTTTCAGGTGAAACAGCTGCTGGTCAATATCCGGTAGAAGCAGTAACAATGATGGCTAACATTGCAGTACGTGTTGAAAAATCATTACAATACGAAGATATGTTCAAAAAACGTATTAAAGAGTTCACTCCAACAATTACAGATGCAATTAGCCAATCTGTTGCGCATACAGCACTTGCTCTTGATGTAGCTGCAATCGTAGCTCCAACAGAAAGTGGACATACTGCGAAAATGATCTCTAAATACCGTCCAAAATCTCCAATTGTAGCTGTAACATCTGACGAGCAAGTAGGGCGTCGTCTTGCGCTTGTTTGGGGTGTACAAGCGTTTATGGCTGAGAAGCGCGCAGCTTCAACTGACGAAATGTTAGATACAGCAATTCAAACAGGTATGGATGCAGGTCTAATCGGACTTGGAGATACTGTAGTAATTACTGCTGGTGTTCCAGTTGCTGAAACTGGAACAACAAACTTAATGAAAATCCACGTTGTTGGTGAAGAAGTTGCTAAAGGACAAGGAATCGGTCGTAAAGCTGCAAAAGGTAAAGTAGTTGTAGCAAAAACAGCTGCTGAAGCTGTAGCGAACGTAAATGAAGGTGATATCCTTGTTACAACAAGTACTGATAAAGATATGATTCCTGCAATCGAAAAAGCTGCTGCTTTAGTTGTAGAAGAAGGTGGCTTAACAAGCCATGCGGCTGTTGTAGGCGTATCAATCGGTATTCCTGTTATCGTTGGTGTAAACGGCGTAACAGCAACTTTAAAAAATGGCCAAGAAGTAACAGTTGATGCAGCACGCGGAATTGTTTATAATGGACATGCGGAAGTGCTATAA	MRKTKIVCTIGPASESIEKLEQLIEAGMNVARLNFSHGSHEEHGARIKNIREASKKTGKTVGILLDTKGPEIRTHDFVDGQAELVTGAEVVLSTEQVLGTAEKFSVSYAGLYDDVDPGSRILIDDGLIELEVIEKADGNIRTKVLNSGTVKNKKGVNVPNVSIKLPGITEKDVKDIIFGIEQKVDFIAASFVRKASDVLEIRELLEEHGAQYIQIVPKIENQEGIDNIDSILEVSDGLMVARGDMGVEIPPEEVPLVQKRLIKKCNVLGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAIMLSGETAAGQYPVEAVTMMANIAVRVEKSLQYEDMFKKRIKEFTPTITDAISQSVAHTALALDVAAIVAPTESGHTAKMISKYRPKSPIVAVTSDEQVGRRLALVWGVQAFMAEKRAASTDEMLDTAIQTGMDAGLIGLGDTVVITAGVPVAETGTTNLMKIHVVGEEVAKGQGIGRKAAKGKVVVAKTAAEAVANVNEGDILVTTSTDKDMIPAIEKAAALVVEEGGLTSHAAVVGVSIGIPVIVGVNGVTATLKNGQEVTVDAARGIVYNGHAEVL	PGPT0002020_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
AK009_02536	390			hypothetical protein	ATGAAGTGGTTACTATTCTTGTTTATTTTAATACCGGCGATTGAGATTACGGTCTTAATTGGATCAAGTCATGTAATAGGTTTATGGTCTACGTTCGCTATGATTGTATTTACAGGTGTTGTAGGTGTGTATTTGGCGAAAAGACAAGGATTTAAAGTGCTTGGAGAGATTCAATCTAAGTTGAATAGAGGGGAAATGCCAGGTGAGGCAGTACTAGATGGTATTTTTGTATTTGTAGGAGGTATTCTCTTGGTGCTTCCTGGGTATGTGACAGATGTGCTAGGGTTTATCTGCGTGATCCCTATTACGAGAGCTTTATTGAAGCCGCTTGTTATGAAGTGGATGGAATGGAAATTTAGAAAGAACTCTACTATTATCATTCAGAAGTAG	MKWLLFLFILIPAIEITVLIGSSHVIGLWSTFAMIVFTGVVGVYLAKRQGFKVLGEIQSKLNRGEMPGEAVLDGIFVFVGGILLVLPGYVTDVLGFICVIPITRALLKPLVMKWMEWKFRKNSTIIIQK				NA	NA	NA	NA	NA
AK009_02537	1119			Sodium-lithium/proton antiporter	TTGAACCGAAACTTACTATATATGATATTGCGACTCATATTTGTCATTGTAGCAACGATAGCTGGGTTCTATGTATTACTATACATGTCAGGGCTTATCTATCCTTTTATTATCGCTTTTGCATTTGCTTATTTGATTAATCCTGTCGTCAATTTCCTTAATCAAAAACTACAATTTCCTCGCGCACTAGCAGTACTCGTTAGCTTAATTCTCGTATTTGGAGCTATCGTTGGACTTGTTACATATCTTGTGACTGAAGCAATATCTGCCACAACATACTTACTCCAACTTGTTACAGTAAAGTTTCCGGATATCGTTACATTCGCTCAGCAATTTGCACTTAATCATATTATGCCTCTCTACGATGATTTAATCTCTAAATTTAATCATCTTGGAGAACCACAGCGCTATACAATTACACAAAACATTCAAAACTTAGGAACAGAAGCAACAACACAAATGAAAGAACTTTTAACCGCCATTATAAGCGGATTAACAAATTTCATTAGTGCACTGCCAACAACGTTAACTGTCCTTGTATTCATTTTATTAGCCACTTTCTTCATTAGTTACGATTGGCACCGTCTTGCTCAAAAAACAAGAAAATTACTACCAAATCGTGTACATGGCTACGGAAAAACTATTTTTGTCGACTTAAAAAAAGCTTTATTTGGTTTTGTGAAAGCACAACTTACACTCGTATCTATGACAACCGTCATTGTACTGATCGGACTTTTAATATTACGCGTACCATACGCCATTACTATTGCGATTATTACAGGAGTTGTAGATTTACTACCATATTTAGGAACAGGCGCAGTCTTCGTTCCATGGGTTATATACGTATTTTTCACTGGCGATACCGCATTCGCCATTGGTCTTCTCATTTTATACATCGTCGTGATTGTCCAAAGACAAATTATGGAACCGAAAGTACTTTCATCTAACATCGGTCTCGATCCATTAGCAACACTCGTCGCTCTATTTGTCGGCTTTAAGCTTTTTGGCTTTTTAGGATTAATCATCGGTCCAGTCACCTTAGTACTACTTAATACATTACACAAAGCTAATGTCTTCCATGACTTGTGGAAATATATTAAAGGTTCACCTTCAAAATAA	MNRNLLYMILRLIFVIVATIAGFYVLLYMSGLIYPFIIAFAFAYLINPVVNFLNQKLQFPRALAVLVSLILVFGAIVGLVTYLVTEAISATTYLLQLVTVKFPDIVTFAQQFALNHIMPLYDDLISKFNHLGEPQRYTITQNIQNLGTEATTQMKELLTAIISGLTNFISALPTTLTVLVFILLATFFISYDWHRLAQKTRKLLPNRVHGYGKTIFVDLKKALFGFVKAQLTLVSMTTVIVLIGLLILRVPYAITIAIITGVVDLLPYLGTGAVFVPWVIYVFFTGDTAFAIGLLILYIVVIVQRQIMEPKVLSSNIGLDPLATLVALFVGFKLFGFLGLIIGPVTLVLLNTLHKANVFHDLWKYIKGSPSK				NA	NA	NA	NA	NA
AK009_02538	462			hypothetical protein	ATGATTAGTCAGTCAACGTTATTTTTATTCATACTACTTATTATAGGACTTATTGCTAAAAACCAATCGCTTACTGTAGCTATTGGGGTGTTATTTCTATTAAAATTTACGTTTTTAGGAGATAAGGTCTTTCCTTATTTACAAACGAAAGGAATTAACCTAGGTGTAACGGTCATTACAATAGCGGTGCTAGTACCGATTGCGACGGGGGAAATAGGTTTTAAACAACTTGGAGAAGCGGCGAAATCGTATTATGCGTGGATTGCTTTAGCTTCAGGTGTAGCAGTCGCTTTGTTAGCGAAAGGCGGCGTGCAATTGTTGACAACGGATCCTCATATTACAACTGCGCTTGTTTTTGGGACAATTATAGCGGTTGCGTTATTTAATGGGGTTGCTGTTGGTCCGTTAATTGGGGCTGGAATTGCCTATGCGGTTATGAGTATTATACAAATGTTTAAATAA	MISQSTLFLFILLIIGLIAKNQSLTVAIGVLFLLKFTFLGDKVFPYLQTKGINLGVTVITIAVLVPIATGEIGFKQLGEAAKSYYAWIALASGVAVALLAKGGVQLLTTDPHITTALVFGTIIAVALFNGVAVGPLIGAGIAYAVMSIIQMFK				NA	NA	NA	NA	NA
AK009_02539	1149	citZ	COG0372	Citrate synthase 2	TTGGGAGAATTTTCAGGAAAAGGAGAGAATGTCATGACTGTTATTCGAGGTTTAGAAGGGGTAGTAGCAACAACATCATCTGTGAGCTCTATTATTGATGATACATTAACTTATGTTGGGTATAATATTGATGATTTAGCTGAGAATGCTACGTTTGAAGAAGTAGTGTACTTATTATGGCACCGCAAGCTTCCTAATGAAAAAGAACTAGCGGAATTTAATGAAATTGTATCTGAATACTATAAAGTTCCAGGTGAGATTTTAACATATTTGAAACAAGTAGATTTAAAAATTGCACATCCGATGTCTGTTTTACGAACCGCAATTTCCATGCTATCATTATACGATGAGAGCGCTGAAATTATGGATGAAAAGTCTAATTATTTGAAAGCGGTTAAATTACAGGCTCAAGTGGGAACTTTAGTTGCTGCTTACGCGAGAATCCGTAAAGGTTTAGATATTGTTGAGCCAAGAAAAGATTTATCATTAGCTGCAAACTTCTTGTACATGTTAAATGATCGCGAGCCAAATGAAGTTGAAATTGAAGCTTTTGATAAGGCACTTGTACTTCATGCAGATCATGAGTTAAACGCTTCTACATTTACTGCACGTGTTTGCGTAGCTACACTGTCAGATGTATATTCTGGTATTACAGCAGCAATCGGTGCATTAAAAGGTCCTCTTCACGGTGGGGCAAATGAAAATGTAATGAAGATGTTAACTGAAATTGGCGAAGAAGAAAATGTAGAGTCATATATTCATAATGCTCTTCAAAATAAAGTGAAAATCATGGGCTTTGGCCACCGTGTGTATGAGCAAGGTGATCCACGTGCAAAACACTTACGTGAAATGTCTAAGAGATTATGCGTGCTTTTAGGAGAAGACAAATGGTATAATATGTCTATCAAAATTGAAGACATTGTAACAAAAGAAAAAGGTCTTCCACCAAATGTCGATTTCTATTCAGCTTCTGTATACCATTGTTTAGGAATTGACCATGACTTATTTACACCTATTTTTGCAATTAGCCGTATGTCAGGCTGGTTAGCTCATATTCTAGAACAATATGAAAACAACCGTTTAATCCGTCCGCGTGCTGATTATAATGGACCAACGCATCAAGTGTATGTTCCAATCGCACAAAGATAA	MGEFSGKGENVMTVIRGLEGVVATTSSVSSIIDDTLTYVGYNIDDLAENATFEEVVYLLWHRKLPNEKELAEFNEIVSEYYKVPGEILTYLKQVDLKIAHPMSVLRTAISMLSLYDESAEIMDEKSNYLKAVKLQAQVGTLVAAYARIRKGLDIVEPRKDLSLAANFLYMLNDREPNEVEIEAFDKALVLHADHELNASTFTARVCVATLSDVYSGITAAIGALKGPLHGGANENVMKMLTEIGEEENVESYIHNALQNKVKIMGFGHRVYEQGDPRAKHLREMSKRLCVLLGEDKWYNMSIKIEDIVTKEKGLPPNVDFYSASVYHCLGIDHDLFTPIFAISRMSGWLAHILEQYENNRLIRPRADYNGPTHQVYVPIAQR	PGPT0001455_5144	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
AK009_02540	1293	icd	COG0538	Isocitrate dehydrogenase [NADP]	TTGACGACAGGTGAAAAAATTACTGTAACTAATGGTGTTATGAATGTACCAAACAATCCGATTATTCCATTTATTGAAGGAGATGGAATTGGTCCTGATATTTGGGCAGCTGCATCTCGCGTAATAGAAGCAGCAGTTGAAAAAGCTTATGATGGTGAGAAGAAAATCGTTTGGAAAGAAGTGCTTGCAGGGGAAAAAGCATTCAACCAAACAGGCGAGTGGTTACCAGAAGAAACTTTAAATTTAATTCGCGAATATTTAATCGCAATTAAAGGTCCACTTACAACTCCAGTTGGCGGTGGTATTCGTTCTCTAAACGTAGCACTTCGTCAAGAATTAGATCTATATGTATGTCTACGTCCAGTTCGTTATTTTGAAGGTGTTCCTTCACCTGTAAAACGTCCGGAAGATACTGATATGGTTATTTTCCGTGAAAATACAGAAGACATTTATGCTGGAATTGAATATGCACAAGGATCTCCAGAAGCAGAAAAAGTTCTTGCTTTCTTAAAAGAAGCAATGGGTGTTAATAAAATCCGCTTCCCAGAAACATCTGGTATTGGTATTAAACCAATCTCAGAAGAAGGGACAAAGCGTCTTGTTCGTGCTGCAATTCAATATGCAATTAACGAAAAACGCTCTTCTGTTACATTAGTTCATAAAGGAAACATTATGAAATTTACAGAAGGTGCTTTCAAAAACTGGGGTTACGAAGTAGCGGAACAAGAATTCGGCGACAAAGTATTTACTTGGGCTGAATATGATCGCATTGTTGAAAAAGATGGTAAAGATGCAGCGAATAAAGCGATGGCAGACGCTGAAGTGGCTGGAAAAATCATCGTAAAAGATTCTATTGCAGACATCTTCTTACAACAAATTTTAACTCGTCCACGTGAGTTCGATGTTGTTGCAACAATGAACTTAAATGGTGACTATATCTCTGATGCACTTGCTGCACAAGTAGGTGGAATTGGTATTGCACCTGGTGCAAACATTAACTATGTGACTGGACATGCTATCTTTGAAGCTACACATGGTACAGCTCCAAAATATGCAGGTTTAGATAAAGTAAACCCATCTTCAGTTCTTCTTTCAGGTGTATTATTATTAGAACACTTAGGATGGAACGAAGCTGCGAAATTAGTAACAGATTCAGTTGAGAAAACAATTGCATCAAAAGTAGTAACATATGACTTCGCTCGCCTAATGGAAGGCGCAACAGAAGTGAAATGTTCTGAGTTTGCTAATGAGCTTATTAAAAACATGGATGTAGCGATAATCAAAAACGCATAA	MTTGEKITVTNGVMNVPNNPIIPFIEGDGIGPDIWAAASRVIEAAVEKAYDGEKKIVWKEVLAGEKAFNQTGEWLPEETLNLIREYLIAIKGPLTTPVGGGIRSLNVALRQELDLYVCLRPVRYFEGVPSPVKRPEDTDMVIFRENTEDIYAGIEYAQGSPEAEKVLAFLKEAMGVNKIRFPETSGIGIKPISEEGTKRLVRAAIQYAINEKRSSVTLVHKGNIMKFTEGAFKNWGYEVAEQEFGDKVFTWAEYDRIVEKDGKDAANKAMADAEVAGKIIVKDSIADIFLQQILTRPREFDVVATMNLNGDYISDALAAQVGGIGIAPGANINYVTGHAIFEATHGTAPKYAGLDKVNPSSVLLSGVLLLEHLGWNEAAKLVTDSVEKTIASKVVTYDFARLMEGATEVKCSEFANELIKNMDVAIIKNA	PGPT0001170_2717	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
AK009_02541	939	mdh	COG0039	Malate dehydrogenase	ATGACAATCAAACGCAAGAAGGTTTCAGTCATCGGTGCAGGATTTACAGGAGCAACAACGGCATTCTTATTAGCACAAAAAGAACTTGCAGATGTTGTATTAGTGGACATTCCACAACTGGAAAATCCAACAAAAGGGAAAGCGTTAGATATGTTAGAAGCGAGCCCAGTACAAGGTTTTGATGCTAACATTATTGGAACATCTGATTACGCAGATACTGCTGATTCTGACGTTGTCGTTATTACAGCAGGTATTGCACGTAAGCCTGGTATGAGCCGTGATGACTTAGTAGCAACGAACTCTAAAATTATGAAAAGTATTACGCGCGACATTGCAAAACATTCACCAAATGCAATTATTGTTGTGTTAACAAATCCAGTTGATGCAATGACATATTCTGTATTTAAGGAAGCAGGATTCCCGAAAGAGCGTGTAATCGGCCAATCGGGCGTATTAGATACAGCTCGTTTCCGTACATTCATCGCACAAGAATTAAATCTTTCTGTAAAAGACATTACAGGATTTGTTCTTGGTGGACATGGTGACGACATGGTACCTCTTGTGCGTTATTCTTATGCAGGCGGTATTCCGTTAGAAACGTTAATTCCGAAAGAGCGTTTAGAAGCAATCGTAGAACGTACACGTAAAGGTGGCGGTGAGATTGTAGGCTTATTAGGAAACGGTAGTGCATATTACGCACCAGCAGCTTCTTTAGTTGAAATGACAGAAGCAATCTTAAAAGATCAACGCCGTGTATTACCAGCTATTGCGTACCTTGAAGGTGAGTATGGTTATAGTGACCTTTACTTAGGGGTACCAGTAATTCTAGGTGGTAACGGAATTGAAAAAATTATTGAATTAGAACTTCTTGCAGATGAAAAAGAAGCGTTAGATCGCTCTGTAGAATCTGTACGTAACGTAATGAAAGTTCTTGTTTAA	MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV	PGPT0001435_2520	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
AK009_02542	474	phaJ_2	COG2030	(R)-specific enoyl-CoA hydratase	ATGTTAAAGAAAAAAGTTCAAATTGGTCGTAAAATGGATGAAATTACAGTAGGAGAGAAATTATCTATCACTGAAAAAATTGAGGATAAAGATTTGTTATTGTACTTAGGGTTAACGAATGATGCCAATCCATTATATATTCAGCATGATTACGCATCCCAAACTCCGTATGAAAAGCCGATTGTACCAAGCATTATGCTAACGGGAATGATTACAACGGCAGTTACGAAATATTTACCGGGTCCAGGAAGTCATATTACTAGGAAGGACCTTACGTTCGTGAAGCATGTTCACCATTATGAAACGTTACAAATCCACTTTGAAGTTGTGGCTGTTTCTGAGGAGGAACATACAATTGATATGCTTGTATCTGCTCATGATGAAAAAGGAGAAACTGTTGTAAAGGGTTCATTAACAGTAACGCCACCTTATAAATCTGTTTCCATTATGGAAAAAGCATTAGATAATTTTTAA	MLKKKVQIGRKMDEITVGEKLSITEKIEDKDLLLYLGLTNDANPLYIQHDYASQTPYEKPIVPSIMLTGMITTAVTKYLPGPGSHITRKDLTFVKHVHHYETLQIHFEVVAVSEEEHTIDMLVSAHDEKGETVVKGSLTVTPPYKSVSIMEKALDNF	PGPT0014741_196	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
AK009_02543	132			hypothetical protein	ATGCGACTAATACTACCCATTCTATCTTTAGCAGTCACATGTATCCTTGCTTTCAACGCTCCGAGCTGGAATACGATTAAAATGGGTTGCTCAGAATTTGCTGAAGGGTTCAAAGAAGGATTCTTCAACTAA	MRLILPILSLAVTCILAFNAPSWNTIKMGCSEFAEGFKEGFFN				NA	NA	NA	NA	NA
AK009_02544	180			hypothetical protein	GTGAGGTGGAAAAAAGAAGATGTTATCTTTGAAACGATACGAAAAACTGAAGTGTGGGCCGATTCGATCGCGAATGAAATGTACGGGAGATTATTTGATGGATATGAAACGCTAGATTATAAAATAGCGTATGCTCTTTCGTTTTTCCTAGCACAAAATCAAGATTTTATCCCGCATTAA	MRWKKEDVIFETIRKTEVWADSIANEMYGRLFDGYETLDYKIAYALSFFLAQNQDFIPH				NA	NA	NA	NA	NA
AK009_02545	720	phoP_3	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAACAATCGTATTTTAGTAGTTGATGATGAGGAATTTATCTTAACTTTAATTGAATTTAATTTACAACAAGCTGGGTTTGAAGTTATAACAGCGATGGATGGAGAAATGGCGCTTCAAAAAGCGACAACAGAACGCCCAGATTTAATTATATTAGATTTAATGCTTCCGAAAATGGATGGTATGGAAGTGTGTAAAGAATTACGATTGCAGCGCGTTATGACGCCGATTTTAATGTTAACGGCAAAAGATGATGAGTTTGATAAGGTGCTAGGTCTTGAACTTGGGGCAGATGATTATATGACGAAGCCATTTAGTCCAAGAGAAGTTGTTGCTCGTGTGAAGGCAATTTTGCGCCGCACGAAATTACAACAAGAAGAACAAGTTGCAGAAGCGCCAGATGAAGATAGCATTACAATTGCAGAACTTAAAATTTTACCGGAGTTTTATGAGGCTTATTTCCAAGGAAGAAAGCTTGAATTAACACCAAAAGAATTTGAACTACTTGTGTATCTCGCGAAAAATAAAAGTCGCGTGTTGACGCGTGATCAATTATTAAGTGCTGTATGGAATTACGATTTTGCTGGTGATACACGAATTGTTGATGTTCATATTAGCCATTTGCGCGATAAAATTGAACAAAATACGAAAAAACCGACGTACATTAAAACGATACGTGGTTTAGGATATAAATTAGAGGAGCCAAAAGGGAATGAATAA	MNNRILVVDDEEFILTLIEFNLQQAGFEVITAMDGEMALQKATTERPDLIILDLMLPKMDGMEVCKELRLQRVMTPILMLTAKDDEFDKVLGLELGADDYMTKPFSPREVVARVKAILRRTKLQQEEQVAEAPDEDSITIAELKILPEFYEAYFQGRKLELTPKEFELLVYLAKNKSRVLTRDQLLSAVWNYDFAGDTRIVDVHISHLRDKIEQNTKKPTYIKTIRGLGYKLEEPKGNE	PGPT0002665_315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK009_02546	1764	phoR_1	COG0642	Alkaline phosphatase synthesis sensor protein PhoR	ATGAATAAATTTCGTTCCAGGCTTCTTTTTACATTTGTTTCTCTTATTGTATTTATTTTAGTTGGACTAGGCTTATTGCTAGAAACTGTGTTTGAAAACTACTATATAGATCATGCTAAAGAGAGAATGGTAAAAGAGACGGAGTATGTTGCGGCGTTAGCAGAAGAGCAAGGTTTTGATAAGGTCCTAAAAAATCCATACGTATTTGAAAAGTTAGAAGAAAAAATACCAGCTTCTATCGTATTTGTGAATGAAAAAAAGAAAGTTCAATATAGAAAAGGACAAGAATTGGCATTTAGTCCAGAGACGATTCAAGAACTTTCTTCGGAAGTGGCAAAACAACGAAGTAAAGTGATTACGAAAGAGACAGATCGAAAGAATCAATTTTATCATACGGTGTTCGTTCAAGATGTAGAAGGAAAACAAGGATACATTTTGGTGAAAAGTACAATCGATCCTTTAAGAGACGTACATCAAAAAACGTGGGGATTATTAATTATCGGATTTGTCATTGCTTGTCTCGTAGTTGTATTTTTAGGTATGAAAATTACAGGGCAATATATTAGGCCGATTGAATCAGTTACGAAAGTTGCAATTGAATTGGCGAAGGGTAATTATAAAGCACGTGCATACGAAAGTCATTCGGACGAAACAGGAATGCTGAGTAAAGCAATTAATATTTTAGCTCGTAACTTACAAGAGATGACACTGGAACAAGAAATGCAGCAAGATCGTCTGCATACGTTAATTGAAAATATGGGAAGCGGAATGATTTTAATTGATAGCCGCGGATATATAAACCTTGTAAACCGCTCTTATAAGGAAACTTTTCACGTAACAGATGAAGAATATTTAGATCGCTTATATTATGAATCGTTTCATCATACAGAAATTATTGAGCTTGTAGAAGAAATCTTTATGACAGAAGTGAAAGTGCGTAAACAAATGTTATTGCCACTTGGAATTGAGCGGAAGCACTTTGAAGTATATGGAGCACCGATTATCGGGACAAACCATGAATGGAAAGGGATTGTTCTCGTATTCCATGACATAACAGAGTTAAAGAAATTAGAACAAATGAGAAAAGACTTTTTAGCGAATGTTTCTCATGAATTAAAGACACCGATTACTTCTATTAAAGGTTTTTCAGAAACACTCTTAGACGGAGCGATGGATAATAAAAAATTCTGCGAACATTTCTTGCACATTATTTTAAAAGAAAGTGAGCGCATGCAAGGGTTAATTGAAGATTTATTAGATTTGTCGAAGATCGAACAACAAGGATTTAAATTAAATATGGGAACCGTTGATATGAAGGGGCTGCTTGAAGATATTCATATGGTGCTTGATAATAAAGCAGGAGAAAAAGAAATCTCTTTACAAGTGAATGTATTAAAACGTGCCTCTGTTATTGGAGATCCAAGTCGTCTGAAACAAATCTTTATTAATTTAATTAATAACGCGATCGTATATACACCGGCTGGAGGCGTTGTTTCAGTAGAGTTAGCGGAAGATAAATATAATGCTTATATAAAAGTATCGGATACTGGAATTGGTATTAGTAAAGAGGAAATTCCGCGTATTTTTGAACGCTTTTACCGAGTGGATAAAGCAAGAAGTAGAAATACTGGTGGTACAGGCCTTGGATTATCAATTGTAAAGCATTTAGTAGAGGCGCATCAAGGTACGATTACAGTAGATAGTGAAGTTGGAGAAGGGACAACGTTTACAGTTGTTTTACCGAAATCAGCAACTGAAAAATAG	MNKFRSRLLFTFVSLIVFILVGLGLLLETVFENYYIDHAKERMVKETEYVAALAEEQGFDKVLKNPYVFEKLEEKIPASIVFVNEKKKVQYRKGQELAFSPETIQELSSEVAKQRSKVITKETDRKNQFYHTVFVQDVEGKQGYILVKSTIDPLRDVHQKTWGLLIIGFVIACLVVVFLGMKITGQYIRPIESVTKVAIELAKGNYKARAYESHSDETGMLSKAINILARNLQEMTLEQEMQQDRLHTLIENMGSGMILIDSRGYINLVNRSYKETFHVTDEEYLDRLYYESFHHTEIIELVEEIFMTEVKVRKQMLLPLGIERKHFEVYGAPIIGTNHEWKGIVLVFHDITELKKLEQMRKDFLANVSHELKTPITSIKGFSETLLDGAMDNKKFCEHFLHIILKESERMQGLIEDLLDLSKIEQQGFKLNMGTVDMKGLLEDIHMVLDNKAGEKEISLQVNVLKRASVIGDPSRLKQIFINLINNAIVYTPAGGVVSVELAEDKYNAYIKVSDTGIGISKEEIPRIFERFYRVDKARSRNTGGTGLGLSIVKHLVEAHQGTITVDSEVGEGTTFTVVLPKSATEK	PGPT0002705_472	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK009_02547	2676	polA		DNA polymerase I	GTGAAAAAAATCATTTCAAATTTGCATGGGGAGGTTTCTGAGTTGGAAAAAAAGGTCGTATTAGTAGATGGTAATAATATCGCGTATCGTGCTTTCTTTGCACTACCGCTTTTAAATAACGACAAAGGTATACATACGAACGCAATTTACGGTTTTACAATGATGTTAATGAGAATATTAGAGGAAGAAAAACCGACGCATATGTTAGTAGCATTTGATGCGGGTAAAACGACATTCCGTCATAAAACATATAGTGAGTATAAAGGCGGACGTCAAAAGACCCCACCTGAATTATCAGAACAATTCCCGTTTATTCGTGAGATGCTTGATGCATTCAACGTACCGCGTTATGAATTGGAAAATTATGAAGCGGATGATATTATGGGAACGCTAGCAAAAGAAGCAAGCGAACAAGGAGCAAGTGTAAAAGTTATTTCAGGAGATAAAGATTTACTTCAACTTGTTTCTGATAACACGCTTGTATGTATTCCGCGAAAAGGGATTACGGAAGTAGATGAATATACGAAAGAAGCTTTATTTGAAAAATATAGCTTATCACCAAAGCAAATTATCGATATGAAAGGTTTAATGGGAGACCAATCAGATAATATTCCGGGTGTACCAGGAGTTGGTGAAAAAACTGCGATTAAATTGTTAACACAGTTTGGAACGGTTGAAGAAGTGTATGACAATCTAGATCAAGTAAGCGGGAAGAAATTAAAAGAAAAACTGGAAGCAAATAAAGACCAAGCTCTTATGAGTAAAGATCTTGCAACTATCATTACAGATGCGCCGATTACAGTGCATGTGGATGATATGGAATATAAAGGATATGAAGCAAGTGATGTCGTTCCAATGTTCGAGAGTTTAGGATTTACATCTCTTTTAAATAAATTAGGTGTTACGCCAGAAGAAACGGCTCCAGCTGAATTAGATGATATTACATTTGATATTGTGGAAGAAGTTACCGAAGAAATGCTTCAGCAAGATAGTGCGCTTATTGTTGAAGTACAAGAAGATAACTATCATAAAGCAGATATTCAAGGTTTTGGTATTCAAAATGAAAATGGTTGCTACTTTATTCAAAAGGACATTGCTCTTAAGTCAGATGCATTTAAAGACTGGCTTGCAGATGGAGAGATGAGAAAGCATACATTTGATGCGAAGCGTGCAATCGTTGCACTGAAATGGAACGGTATAGATATACAAGGGGTTGACTTTGATCTATTAATCGCTGCTTATTTACTTGATCCGGCTGATACAGATAAAGATTTCCGTACTGTAGCGAAAATGAAAGAAACGCATGCTGTGAAATCTGACGAAGAAGTTTATGGAAAAGGCGCGAAGCGTGCTGTTCCAGAGTTAAAAGTAGTAGCGGAGCATGTAGCTCGTAAAGTGCATGTATTATATGATGTAAAGCAAACATTCGTTGAAGAGTTAGAGAAGAATGAGCAATATGAACTGTTTACAGAGTTAGAATTACCACTTGCGCGTGTATTAGCTGATATGGAAGTAAAAGGTGTAAAAGTTGATACAGAGCGTCTTCGTAATATGGGAGAAGAACTTGCAGGCAGATTAAAGGAAATGGAACAGGAAATTTATAAGCTTGCGGGAACAGAATTTAATATTAATTCACCGAAGCAGCTTGGTGTTATTCTGTTTGAGAATTTAAACTTACCGGTTATTAAAAAGACGAAAACAGGTTATTCTACGTCAGCTGATGTACTAGATAAGCTTATGGATCACCATGAAATTATTCCAAACATTTTACATTATCGTCAATTAGGGAAACTAAATTCAACTTACATTGAAGGTTTACTGAAAGTTGTACATGAAGATTCATCTAAAATTCATACTCGTTTTAATCAAGTGTTAACACAAACAGGTCGATTAAGTTCGACGGATCCGAACTTGCAAAATATCCCGATTCGATTAGAAGAAGGAAGAAAGATTCGTCAGGCATTTGTTCCATCAGAAGAAGGTTGGATTATGTATGCGGCTGATTATTCACAAATCGAGCTGCGTGTATTAGCTCATATTGCAAATGATAAAGGGCTAGTTGAAGCATTCCAACATGACATGGATATTCATACGAAAACAGCTATGGATGTATTTGGCGTTGAAAAAGATGAAGTAACTTCAAATATGAGACGACAAGCGAAAGCTGTTAACTTCGGAATTGTGTATGGTATTAGTGATTATGGTCTTTCGCAAAACTTAGGGATTACAAGAAAAGCAGCAGCGGAATTTATTGAAAAGTATTTAGAAAGTTTCCCTGGTGTACAAGAATACATGGAGGACATCGTAAAAGATGCGAAACAAAAAGGATATGTGGCCACATTATTAAATCGTCGCCGTTATATTCCAGAAATTACGAGTCGTAATTTCAATTTACGTAGCTTTGCTGAGCGTACAGCGATGAATACACCAATTCAAGGTACTGCAGCAGATATTATTAAAAAAGCGATGATTATTATGGCAGATCGTTTAGAAGAAGAAGGCTTACAAGCGCGTCTTCTTCTACAAGTACACGATGAATTAATATTTGAAGCACCAAAAGAAGAAATTGAAAAATTAGAGCAGCTTGTACCTGAAGTAATGGAGCATGCAATTGAACTCGCAGTTCCGCTGAAAGTTGATTATTCTTACGGTCCAACTTGGTACGACGCAAAATAA	MKKIISNLHGEVSELEKKVVLVDGNNIAYRAFFALPLLNNDKGIHTNAIYGFTMMLMRILEEEKPTHMLVAFDAGKTTFRHKTYSEYKGGRQKTPPELSEQFPFIREMLDAFNVPRYELENYEADDIMGTLAKEASEQGASVKVISGDKDLLQLVSDNTLVCIPRKGITEVDEYTKEALFEKYSLSPKQIIDMKGLMGDQSDNIPGVPGVGEKTAIKLLTQFGTVEEVYDNLDQVSGKKLKEKLEANKDQALMSKDLATIITDAPITVHVDDMEYKGYEASDVVPMFESLGFTSLLNKLGVTPEETAPAELDDITFDIVEEVTEEMLQQDSALIVEVQEDNYHKADIQGFGIQNENGCYFIQKDIALKSDAFKDWLADGEMRKHTFDAKRAIVALKWNGIDIQGVDFDLLIAAYLLDPADTDKDFRTVAKMKETHAVKSDEEVYGKGAKRAVPELKVVAEHVARKVHVLYDVKQTFVEELEKNEQYELFTELELPLARVLADMEVKGVKVDTERLRNMGEELAGRLKEMEQEIYKLAGTEFNINSPKQLGVILFENLNLPVIKKTKTGYSTSADVLDKLMDHHEIIPNILHYRQLGKLNSTYIEGLLKVVHEDSSKIHTRFNQVLTQTGRLSSTDPNLQNIPIRLEEGRKIRQAFVPSEEGWIMYAADYSQIELRVLAHIANDKGLVEAFQHDMDIHTKTAMDVFGVEKDEVTSNMRRQAKAVNFGIVYGISDYGLSQNLGITRKAAAEFIEKYLESFPGVQEYMEDIVKDAKQKGYVATLLNRRRYIPEITSRNFNLRSFAERTAMNTPIQGTAADIIKKAMIIMADRLEEEGLQARLLLQVHDELIFEAPKEEIEKLEQLVPEVMEHAIELAVPLKVDYSYGPTWYDAK				NA	NA	NA	NA	NA
AK009_02548	831	mutM	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCTGAATTACCAGAGGTTGAAAACGTCAGACGGACACTTGAAAATCTTGTAACAGGAAAAACGATTGAAGATGTTATTGTTACTTATCCAAAAATAGTGAAACGACCGGATGATGCAGAAATCTTTAAAGAAATGCTAAAAGGCGAGAAGATTGAAAATATAAAGCGAAGAGGAAAGTTTTTGCTTCTATATGTAACAAATTATGTTATTGTTTCACATTTGCGTATGGAAGGAAAGTTTTTACTACATCAAGAGGATGAGCCGATTGATAAACATACGCACGTCCGTTTCTTATTTACAGATGGAACTGAATTACATTATAAAGATGTGAGAAAGTTTGGTACGATGCATCTCTTTAAGAAAGGTGAAGAGATGAATCAAATGCCTCTTGCTGACTTAGGTCCGGAGCCGTTTGATGCTGAATTGACACCGCAGTATTTACAAGAAAGATTGCAAAAGACAAATCGTAAAATAAAAGTTGTGCTATTGGACCAGCGTCTTTTAGTAGGGCTTGGAAATATATATGTTGATGAAGTTTTATTCCGTTCTCAAATTCATCCGGAACGGGAAGCTTCTTCTTTAACAGTAGAAGAAATTGAGCGGATTTATGAGGCTACCGTTACAACGTTAGGTGAAGCGGTAAAACGTGGCGGAAGTACAATTCGGACGTATATCAACTCACAAGGGCAAATTGGTTCATTCCAAGAACTCCTAAATGTATATGGAAAAAAAGGAGAGCCGTGTGTAACTTGTGGTACGATATTAGAAAAAACAGTAGTTGGCGGGCGAGGAACGCATTACTGCCCAATTTGTCAGCCTAGAATATAG	MPELPEVENVRRTLENLVTGKTIEDVIVTYPKIVKRPDDAEIFKEMLKGEKIENIKRRGKFLLLYVTNYVIVSHLRMEGKFLLHQEDEPIDKHTHVRFLFTDGTELHYKDVRKFGTMHLFKKGEEMNQMPLADLGPEPFDAELTPQYLQERLQKTNRKIKVVLLDQRLLVGLGNIYVDEVLFRSQIHPEREASSLTVEEIERIYEATVTTLGEAVKRGGSTIRTYINSQGQIGSFQELLNVYGKKGEPCVTCGTILEKTVVGGRGTHYCPICQPRI				NA	NA	NA	NA	NA
AK009_02549	633	ytaF_1		putative sporulation protein YtaF	ATGTACCTTTATTTATCTCTTATTTTATTAGCTTTTACATTAAGCTTAGATAGCTGTAGTGTAGGGCTAACATATGGGTTAAGAAGCGTAAGAATTCCACTAAAATCAATTATAATTATCGGAATCTGTTCAGCGGCTGTTATGCTTGTTTCAATGGGAATTGGACATATGATCGCGAAAATATTTTCACCTGTTATCGCAACGCGTATCGGTGGGCTTGTTCTTATTGGAATAGGGATTTGGGTGTTATATCAATTTTTTCGAAGTGAGAAAAAAGAAGAACCGAAGCAAGAGGAGAAGGTCTGGAAATTAGAGATTGCCTCGCTAGGGCTAGTAATTCAAATTTTACGGAAACCGACTGTAGCAGATTTTGATAAATCAGGCACCATTTCTGCAGGAGAAGCATTACTTCTTGGTATCGCTCTTTCTGTAGATTCATTTGGTGCCGGAATTGGTGCATCTTTATTAGGGTATGCACCCGCTATGATGGCGATATTAGTTGCAGTTATGAGTTCTTTGTTTTTGTTTATTGGAATGAAACTTGGGACGGTTTTATCGAATATGAAGTGGTTACAAAAATTTACATTCCTGCCTGGAGTATTACTCATTATTATTGGAATTTGGAAAATGTAA	MYLYLSLILLAFTLSLDSCSVGLTYGLRSVRIPLKSIIIIGICSAAVMLVSMGIGHMIAKIFSPVIATRIGGLVLIGIGIWVLYQFFRSEKKEEPKQEEKVWKLEIASLGLVIQILRKPTVADFDKSGTISAGEALLLGIALSVDSFGAGIGASLLGYAPAMMAILVAVMSSLFLFIGMKLGTVLSNMKWLQKFTFLPGVLLIIIGIWKM				NA	NA	NA	NA	NA
AK009_02550	603	coaE_1		Dephospho-CoA kinase	ATGACGGTAGTAATTGGATTAACAGGAGGCATTGCAAGTGGAAAAAGTACAGTGTCTCAAATGTTTCGTGAATTGAGCATACCAGTTATTGATGCAGATATTATTGCGCGAGAAGTTGTAGAGCGAGGAAAACCAGCATATAACAAAATAGTAGAAGTATTTGGAACGGAAGTGTTGCAAAAAGACGGAGAACTGGATCGGCCGAAATTAGGGAGTGTCGTTTTCTATAATGAAGAAAAACGATTGCAGTTAAACAAAATTGTTCATCCTGCAGTACGTGAGGAAATGAATAGACAAAAGGAAATGTACATAAAAGAAAGTATGCAAGCGATTGTGTTAGATATCCCTCTTTTATTTGAAAGTAAATTAACAAGTCTCGTTGACCGTGTTTTAGTTGTAGCAGTTACTCCTGATACACAATTAGAACGTTTGATGAAACGAAATGGTTTTTCCGAAGAAGAAGCAACGGCGCGTATTCAATCTCAAATGCCGTTAGCGGAAAAAGTGAAAAATGCAGATGAAGTGATAAATAATGATGGCACAATTATGGGAACGAAAACACAATTGCAGGTGATTTTAAAGAAATGGAACATTATTGACTAA	MTVVIGLTGGIASGKSTVSQMFRELSIPVIDADIIAREVVERGKPAYNKIVEVFGTEVLQKDGELDRPKLGSVVFYNEEKRLQLNKIVHPAVREEMNRQKEMYIKESMQAIVLDIPLLFESKLTSLVDRVLVVAVTPDTQLERLMKRNGFSEEEATARIQSQMPLAEKVKNADEVINNDGTIMGTKTQLQVILKKWNIID	PGPT0008835_3477	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
AK009_02551	1029	gapB	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 2	ATGACTCGTGTGGCAATTAATGGATTTGGACGTATTGGGAGAATGGTATTTCGTCAAGCAATAAAAGAAAGCGCATTCGAAATTGTAGCAATCAATGCAAGCTATCCATCTGAAACGTTAGCACACTTAATTAAATATGATACAGTTCATGGTAAGTTTGACGGAACAGTAGAAGCATTTGAAGATCACTTATTAGTTGATGGAAAAATGATTCGCCTTTTAAACAACCGCGATCCAAAGGAATTGCCTTGGACAGATTTAGGTGTTGAAGTTGTAATTGAAGCAACTGGTAAATTTAATTCAAAAGAAAAAGCAATTCTTCACGTTGAAGCTGGAGCGAAAAAGGTTATTTTAACAGCGCCTGGTAAAAATGAAGATGTAACAATTGTAGTTGGTGTGAATGAAGACCAATTAGATATTACAAAACATACTGTTATTTCAAATGCATCTTGTACAACAAACTGTTTAGCGCCTGTTGTAAAGGTGTTAGATGAGCAGTTCGGAATTGAAAACGGTTTAATGACGACTGTTCACGCTTATACAAATGACCAAAAAAATATTGATAACCCACATAAAGATTTAAGAAGAGCGCGTGCTTGCGGACAATCAATCATTCCGACAACGACAGGTGCCGCGAAAGCGCTAGCAAAAGTTCTTCCGCACTTGAACGGAAAACTTCATGGTATGGCACTTCGTGTACCAACGCCAAACGTGTCTCTTGTTGACTTAGTAGTAGACGTAAAACGTGATGTGACAGTTGAAGCTATTAATGAAGCTTTCAAAACGGTTGCAAACGGTGCGTTAAAAGGTATTGTAGAATTCAGCGAAGAGCCTTTAGTATCTATCGACTTTAATACAAATACACACTCAGCTATCATTGATGGTTTATCTACAATGGTAATGGGTGATCGTAAAGTGAAAGTACTTGCTTGGTATGATAACGAGTGGGGCTACTCTCGTCGTGTTGTAGATCTTGTAACGTTAGTTGTTGAAGAGTTAGCGAAACAAGAAAATGTGCAACACATTTAA	MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHAYTNDQKNIDNPHKDLRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINEAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVEELAKQENVQHI	PGPT0018000_1802	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
AK009_02552	393	speH_1	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGATACTATGGATACGATGGGTCGTCACGTGATCGCTGAACTTTGGGATTGCGATTTCGACAAGCTTAATGACATGCCGTATATTGAACAATTATTTGTGGATGCAGCACTAAGAGCTGGTGCTGAAGTGCGTGAGGTTGCTTTCCATAAATTTGCACCACAAGGTGTAAGTGGAGTAGTAATTATCTCGGAATCACATTTAACAATTCATAGCTTTCCGGAGCACGGTTACGCGAGTATTGATGTTTATACTTGTGGGGATCGTATTGATCCAAATGTTGCTGCAGAATATATTGCAGAAGGTTTAAACGCGAAAACGCGTGAGAGCATCGAGCTTCCTCGAGGCACTGGTAGCTTCGAAATTAAGCAGAGAGAAACAAAAGCTCTTTAA	MDTMDTMGRHVIAELWDCDFDKLNDMPYIEQLFVDAALRAGAEVREVAFHKFAPQGVSGVVIISESHLTIHSFPEHGYASIDVYTCGDRIDPNVAAEYIAEGLNAKTRESIELPRGTGSFEIKQRETKAL	PGPT0007760_2115	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
AK009_02553	462	nrdR	COG1327	Transcriptional repressor NrdR	TTGCGTTGTCCATCCTGTTCTCATAATGGTACAAGAGTGTTAGATTCGCGTCCGGTAGACGAGGGGCGCTCTATTCGAAGAAGGAGAGAGTGTGAAAGTTGCTTAAGTCGCTTTACGACCTTTGAAAGGGTAGAAGAGTCACCTCTTATCGTTGTAAAAAAAGAAGGCACACGAGAAGAGTTTAATAAAGAAAAGATTTTACGTGGTTTAATTAAAGCGTGTGAAAAAAGACCAGTATCTTTAAGACAATTAGAAGAAGTAACACAAAGCGTGGAACGTGAACTGCGTAATTTAGGTATATCAGAAGTGAAAAGTGATATGATTGGTGAAATTGTTATGGAAGAACTTCGCGATATTGATGATGTTGCTTACGTACGCTTTGCTTCTGTATATCGTCAATTTAAAGATTTAAATGTATTTATTGAAGAATTAAAAGATATACTGCAAAAAGAAAGAGAGTAG	MRCPSCSHNGTRVLDSRPVDEGRSIRRRRECESCLSRFTTFERVEESPLIVVKKEGTREEFNKEKILRGLIKACEKRPVSLRQLEEVTQSVERELRNLGISEVKSDMIGEIVMEELRDIDDVAYVRFASVYRQFKDLNVFIEELKDILQKERE				NA	NA	NA	NA	NA
AK009_02554	1410	dnaB	COG3611	Replication initiation and membrane attachment protein	ATGGAAAAACAGTCATGGATGGAGCTATTGCCGATTGATCGTTATAAAGTAAGTGCGAAAGGGCTACTGCATAATTACGACCGAAAAGTATTAACGATGTTGTATCAGCCGTTAATAGGTAGTAGAGCTTTTAGCTTATACATGACACTATGGGGGGAGCTAGAGCAAGATCGTGTATTTGGAAAAGAGAATACACATCATTCCCTTATGGTGACTATGCAAATGCAACTTCCTGAAATATATGAGGAACGAGTAAAGTTAGAGGCAATTGGGCTTTTGAAGGTATATATTAAGAAAGAAAAAGATATTCGAATGTTCATATATGAGTTGCAACCACCTTTATCTCCAAAGCAGTTTTTTGATGATATTGTTTTAAGTATCTTTTTATACAATCGATTGAGTCGGACAAAATATAATCAAGTAAAGCAATATTTCTTAGAAGAAGAATTTGATTTTGCTTCTTATGAAAATGTTACGCGCTCTTTCAATGATGTGTTTGGTTCGTTTAATCCAGGACAGCTTGAGCATGCGCAAGAAGATCTTCGTATCCCAAAAACGACAACTATGCCAAGTAACGAGAAGGGAGACGCTCCGAAAGTTTGGAATGATTTCTTTGATTTCTCTTTATTTGTAGATGGATTGTCCGCTCTTGTTCCTAAAAAGTCGATTACAGGTCAAGTAAGAGACTGCGTTATAACACTTGCTTACGTGTATGGTGTAGATGTGTTATCGATGCAAAATATCGTTCTTGGTGCGGTGACAGAGATGCAAACAATTGATATGGAAAGGCTTAGAAAAGGAGCTCGCGATTGGTATCAATTTGAAAATGGTCAAGCATTACCGGTATTAAGTGAAAGAGTACAGCCTCATGCTGCACGTACGATGAAAGAGAAAGAGCCTTCATCGCAAGAGGAGATGCTAATAAAGCAGCTAGAGGAAATCTCGCCAAAACAATTATTGAAAGAGATTTCTGGTGGTGCAGAGGCAACGAAAGCGGACTTGCAAATCGTTGAAGATGTCATGATTAATCAAAAATTGACACCAGGAGTTGTGAATGTACTTATTTATTACGTTATGCTACGCTCAGATATGAAACTTGCGAAAACGTATGTCGAGAAGATTGCTGGGCATTGGGCACGTAAAAAGGTTGGTACAGTAGCGGACGCGATGGCGTTAGCGAAAGAAGAGAACCGTCAATATCAAGAGTGGGCTGAGACGAAGAAAAAAGGCCGTACGGCGAAGAAAACGGTACGGAAAGAAATGGTACCAGATTGGCTTAAGGAAGAAGAGCCGAAGGAACAAGAGAAAGAAACGGCGAAGAAAGATGTAAGTGTAGAAAAAGATGCAAGTACGTTAGAAGATGAACGAAAACGATTAGAAGAAGTGTTAAAAAAATATAAGCGTGATTAA	MEKQSWMELLPIDRYKVSAKGLLHNYDRKVLTMLYQPLIGSRAFSLYMTLWGELEQDRVFGKENTHHSLMVTMQMQLPEIYEERVKLEAIGLLKVYIKKEKDIRMFIYELQPPLSPKQFFDDIVLSIFLYNRLSRTKYNQVKQYFLEEEFDFASYENVTRSFNDVFGSFNPGQLEHAQEDLRIPKTTTMPSNEKGDAPKVWNDFFDFSLFVDGLSALVPKKSITGQVRDCVITLAYVYGVDVLSMQNIVLGAVTEMQTIDMERLRKGARDWYQFENGQALPVLSERVQPHAARTMKEKEPSSQEEMLIKQLEEISPKQLLKEISGGAEATKADLQIVEDVMINQKLTPGVVNVLIYYVMLRSDMKLAKTYVEKIAGHWARKKVGTVADAMALAKEENRQYQEWAETKKKGRTAKKTVRKEMVPDWLKEEEPKEQEKETAKKDVSVEKDASTLEDERKRLEEVLKKYKRD				NA	NA	NA	NA	NA
AK009_02555	939	dnaI	COG1484	Primosomal protein DnaI	ATGGAGCATATTCAAAATTCATTTGCAAAATTAATGGGAAATGAAAAATTTAAAAATAGATATGAAGTATTAAAGGCAGAAGTAATGGCGCATCCGCGTGTGAAAGAATTTATAGACGAACATAAAGGTGAAGTAACGACTTCTATGATTGAGCGCAGTCTTGTGAAGCTATATGAATATATTGGACAAAGTGTAGGTTGCGTGGATTGTCCGGATTTAGGTTCATGTAAAAATATGCTGCAAGGGTACGAGCCAAAGCTTGTTATTCAAGGGAAAATGATTGATATTCAATATGATCGCTGCGTTAGAAAAGTAGCACATGACGAGAGAAAGAAATATGAAAAACTCGTTCAAAGTGTATATATGCCAACGGATATTTTACAGGCAACTATGGAAAACTTAGACCCTTCTGATTTAAATGCACGTATCGATGCAATTGGTGCAGCGAATGAATTTTTAAGTACATATGAACCAGGTAAAAAAGCACAAGGTTTATATTTGTACGGTAAATTTGGTGTAGGAAAAACGTACCTTTTAGGAGCAATTGCGAACGAGCTTGCTCGAAAGAAAATAAGTTCGATGCTCGTATACTTCCCAGAATTTTTACGTGAAATCAAAAGTTCGATTCAAGATAATTCGATTGGTGAAAAGATTGATGCGGTTAAACGCGTACAAGTTTTAATGTTAGATGATATCGGGGCAGAAGCAATGTCAAGCTTTGTGCGTGACGATGTGCTTGGTGCAATCTTGCAATTCCGTATGTTAGAAAACTTACCGACGTTCTTTACGTCTAATTTTGATTTTAAACAACTGGAACACCATTTAACGTATACACAGCGTGGTGAGGCTGAAGAAATGAAGGCAGCACGTATTATGGAACGAATTAAATATTTAGCGAAACCAATTCCGATTGGTGGGAAAAATCGTCGTCATAAGTAA	MEHIQNSFAKLMGNEKFKNRYEVLKAEVMAHPRVKEFIDEHKGEVTTSMIERSLVKLYEYIGQSVGCVDCPDLGSCKNMLQGYEPKLVIQGKMIDIQYDRCVRKVAHDERKKYEKLVQSVYMPTDILQATMENLDPSDLNARIDAIGAANEFLSTYEPGKKAQGLYLYGKFGVGKTYLLGAIANELARKKISSMLVYFPEFLREIKSSIQDNSIGEKIDAVKRVQVLMLDDIGAEAMSSFVRDDVLGAILQFRMLENLPTFFTSNFDFKQLEHHLTYTQRGEAEEMKAARIMERIKYLAKPIPIGGKNRRHK				NA	NA	NA	NA	NA
AK009_02556	198			hypothetical protein	ATGTTCGAATATAAATTCGTAAAAGTCGAATTCCATTGGGGGCTCACTCGCTCAAAACTAGCTGAAGACTACCAAGAAATTATTCAAGAACATGCTAGAGATGACTGGAGGTTCGTACAGATTGTCGCCCCTACGATTGGCAGTTCTGGACAACCTGAATATTTCGACCTCATATTTGAAAAGAAAATATCACTATAA	MFEYKFVKVEFHWGLTRSKLAEDYQEIIQEHARDDWRFVQIVAPTIGSSGQPEYFDLIFEKKISL				NA	NA	NA	NA	NA
AK009_02557	882			hypothetical protein	GTGATTGAAATTTGCTTCGAAGAAAAAAATGATGCTATGCACGTATATAGACAATTGCTGAAAAGAGCGGAAGTGTTATATAAGGAAACGAGTGTGTATTTACAGGAGCAAAAAGTGGTGATTCACATACCAGTACATGAATCGAATTATATTGAAAAGATCTTATTGCCAGTAATGGTGTATTTCATTGTGAATGTGAAACAAAATGAGTGGATTTATACGATCTTAAAAGAAAAGTTTTTTTATGAAGAACAAGAAGAGTGTCATCAAATATTGCACATGGCACATGAGATTTTAAAGGGAAGAAGAAAAGGTGTAGCTCAGGATTTAACTCGTAACGCATTTGAGTCATATATTAAGTCTTCTTTAAATAATTGGCTTTGTGATCCGCTCTCATTCTCGTTTTCATCATATATCCGTTTTCGTCTTCGTACATATAGGGAAATGGTGGCTAAACTTGCGGAAGTGGCAATTGATGAATATAAGATGGAGCAAGAATACCAAATGTTCATTGAAACGCTTCGGCAACAAGTGAGTAGCCGTAAATCACGCTTGTCCTGTGTGCATCTTATTTTTGATGAAAGCTTTATCTTTTATGATGATAAAGGTAGACGTTTAAAACAGGAGAAGTTGGTCCAATATATAGATGAAGAATTATTAAAGCAAAATGATGTATATATTGATACAAAAGTAATTGCGCCGCTTCTTTCTATTTCGCCAAAAAAGATTTATTTATATACGAAGGAACAAGACCATAATATGATTATTACTTTGCGAAATGTGTTTCAAGAACGGGTCCAATTACATGGATTACATGATTTTGAGCGCAATGTGAAAAATTTAAAAAATAAAGGTAACGCCCTTGATTTTCTAAGTTTTTGA	MIEICFEEKNDAMHVYRQLLKRAEVLYKETSVYLQEQKVVIHIPVHESNYIEKILLPVMVYFIVNVKQNEWIYTILKEKFFYEEQEECHQILHMAHEILKGRRKGVAQDLTRNAFESYIKSSLNNWLCDPLSFSFSSYIRFRLRTYREMVAKLAEVAIDEYKMEQEYQMFIETLRQQVSSRKSRLSCVHLIFDESFIFYDDKGRRLKQEKLVQYIDEELLKQNDVYIDTKVIAPLLSISPKKIYLYTKEQDHNMIITLRNVFQERVQLHGLHDFERNVKNLKNKGNALDFLSF				NA	NA	NA	NA	NA
AK009_02559	1938	thrS	COG0441	Threonine--tRNA ligase 1	ATGGCAGATGTAGTTAAAATTACTTTCCCTGATGGAGCTGTGAAGGAGTTTCCAAAAGGCGTAACAACTGAAGAAATCGCAGCTTCTATTAGCCCAGGCTTAAAGAAAAAAGCTGTAGCTGGAAAATTAAACGATGAGATGATCGATCTTGTTACACCAATCGAAGAAGATGGTGCAGTTTCTATTATTACATTAGATTCTGAAGATGGCTTATATATTTTACGCCATTCAACAGCCCACCTTTTAGCACAAGCGTTAAAACGTTTATATAAAGATGTTAAGCTTGAGCTTGGCATTGGCCCAGTAATTGAAAATGGCTTCTATTACGATATCGATATGGAAGAAGCAATTACAGTTGAAGACTTCAAGAAAATCGAAAAAGAAATGCAAAAAATCGTGAACGAGAACTTAGAAATCGTTCGTCATGAAGTACCACGTGCAGAAGCACTTCGTCGCTTTGAAGAAATTGGCGATGAGTTAAAATTAGATTTAATTAACGACCTTCCAGAAGATGCAGTTATTTCAATCTATGAGCAAGGCGAATTCTTCGACCTTTGCCGTGGTGTTCACCTTCCATCTACAGGGAAAATTAAAGTGTTTAAATTATTAAGCGTTGCAGGTGCTTACTGGCGCGGCGATAGCAATAATAAAATGTTACAACGTATTTACGGTACTGCATTCGTTAAGAAAGCAGAACTAGATGAGCACTTACGTATGCTTGAAGAAGCGAAAGAGCGCGATCACCGTAAATTAGGTAAAGAATTAAAACTATTTACTAATAGCCAAAAAGTAGGACAAGGTTTACCACTTTGGTTACCAAAAGGTGCAACAATTCGTCGTATTATCGAGCGTTACATCGTTGATAAAGAAGCAAGCTTAGGTTATGATCACGTATACACTCCAGTATTAGGAAGCAGAGAGTTATATGAAACTTCTGGTCACTGGAACCACTACCGTGATGGCATGTTCCCATCAATGGAAATGGATAATGAAGAATTAGTTCTTCGTCCAATGAACTGTCCTCACCATATGATGGTTTATAAAAATGATATTCACAGCTACCGTGAATTACCAATCCGTATTGCGGAACTTGGAACAATGCATCGTTATGAAATGTCAGGTGCGTTATCTGGATTACAACGTGTACGCGGAATGACTTTAAACGATGCGCACATTTTCGTTCGTCCAGATCAAATTAAAGAAGAGTTAAAACGTGTTGTAAACTTAACTCTAGAAGTGTACAAAGATTTCGGTTTAGAGAACTACTCATTCCGTCTATCTTATCGCGACCCAGCAGATACTAAAAAGTATTATGCGGATGATGAGATGTGGGAAAAAGCACAAGGTATGTTAAAAGAAGCTATGGATGAAATGGGTCTTGATTACTATGAAGCTGAAGGTGAAGCGGCATTCTACGGTCCAAAACTGGATGTTCAAGTTCGTACTGCTCTTGGAAAAGACGAAACACTTTCAACTGTACAATTAGACTTCTTACTTCCAGAACGCTTTGAATTAACTTATGTTGGTGAAGACGGTAAGCAACATCGTCCAGTTGTAATTCACCGTGGTGTTGTATCAACTATGGAACGCTTCGTAGCCTTCTTAATTGAAGAATACAAAGGTGCATTCCCAACTTGGTTAGCTCCAGTTCAAGTACAAGTAATTCCAGTTTCTCCGCAAGTACATTTAGACTATGCGAAGAAAGTACAAGACGAATTGCGTCGTGCTGGTATCCGTGTTGAATTAGACACTCGTGAAGAGAAGATTGGTTACAAAATCCGTGAAGCACAAATGCAAAAAATTCCGTACATGCTTGTAGTAGGTGACAATGAAGTAACTGAAAACGGCGTAAACGTACGTAAATATGGTGAACAAAAATCAGAAACAATCGCATTAGATGCTTTTGTTGACATGATTAAAGTAGAAGGAAAACGATAA	MADVVKITFPDGAVKEFPKGVTTEEIAASISPGLKKKAVAGKLNDEMIDLVTPIEEDGAVSIITLDSEDGLYILRHSTAHLLAQALKRLYKDVKLELGIGPVIENGFYYDIDMEEAITVEDFKKIEKEMQKIVNENLEIVRHEVPRAEALRRFEEIGDELKLDLINDLPEDAVISIYEQGEFFDLCRGVHLPSTGKIKVFKLLSVAGAYWRGDSNNKMLQRIYGTAFVKKAELDEHLRMLEEAKERDHRKLGKELKLFTNSQKVGQGLPLWLPKGATIRRIIERYIVDKEASLGYDHVYTPVLGSRELYETSGHWNHYRDGMFPSMEMDNEELVLRPMNCPHHMMVYKNDIHSYRELPIRIAELGTMHRYEMSGALSGLQRVRGMTLNDAHIFVRPDQIKEELKRVVNLTLEVYKDFGLENYSFRLSYRDPADTKKYYADDEMWEKAQGMLKEAMDEMGLDYYEAEGEAAFYGPKLDVQVRTALGKDETLSTVQLDFLLPERFELTYVGEDGKQHRPVVIHRGVVSTMERFVAFLIEEYKGAFPTWLAPVQVQVIPVSPQVHLDYAKKVQDELRRAGIRVELDTREEKIGYKIREAQMQKIPYMLVVGDNEVTENGVNVRKYGEQKSETIALDAFVDMIKVEGKR				NA	NA	NA	NA	NA
AK009_02561	501	infC_1		Translation initiation factor IF-3	ATGATTAACGAGCAAATTCGTGCACGTGAAGTACGTTTAGTTGGCGCAAATGGCGATCAACTTGGAATCAAGTCTCGTAATGACGCTTTAGACTTAGCTGCAAATCTTAATCTTGATTTAGTATTAGTTGCTCCAAATGCGAAACCGCCAGTATGCCGCATTATGGACTACGGTAAATTCCGCTTTGAGCAACAGAAGAAAGAAAAAGAGCAGCGCAAAAATCAAAAAGTAATTAGCATGAAAGAAGTTCGTTTAAGTCCAACAATTGATGAACACGACTTTAACACAAAACTTCGTAATGCTATCAAGTTTTTAGAGAAAGGCGACAAGGTTAAAGCGTCAATTCGCTTTAAAGGACGTGCCATTACTCATAAAGAAATCGGTCAACGTGTTTTAGATCGCTTCTCAGAAGCTTGTGCTGAAGTTAGTACAGTTGAATCTAAGCCTAAAATGGAAGGACGCAGTATGTTCTTAGTTTTAGCACCGAAAAACGATAAGTAA	MINEQIRAREVRLVGANGDQLGIKSRNDALDLAANLNLDLVLVAPNAKPPVCRIMDYGKFRFEQQKKEKEQRKNQKVISMKEVRLSPTIDEHDFNTKLRNAIKFLEKGDKVKASIRFKGRAITHKEIGQRVLDRFSEACAEVSTVESKPKMEGRSMFLVLAPKNDK				NA	NA	NA	NA	NA
AK009_02562	201	rpmI	COG0291	50S ribosomal protein L35	ATGCCTAAACAAAAAACTCATCGCGGCGCTGCAAAGCGTTTCAAAAAGACTGGATCAGGTAAACTGAAACGTTCTCACGCTTACACAAGCCATTTATTCGCTAACAAATCTACAAAAGCTAAACGTAAACTACGTAAAGCTGGTGTAGTAAGCGCTGGTGACTTCAAACGCATTCGTCAAATGCTTGACAACTTAAAATAA	MPKQKTHRGAAKRFKKTGSGKLKRSHAYTSHLFANKSTKAKRKLRKAGVVSAGDFKRIRQMLDNLK				NA	NA	NA	NA	NA
AK009_02563	357	rplT	COG0292	50S ribosomal protein L20	ATGCCAAGAGTAAAAGGTGGTACAGTTACTCGTCAACGTCGTAAAAAAGTTATAAAATTAGCAAAAGGTTACTACGGTTCAAAAAATACATTATTCAAGGTTGCTAACCAACAGGTTATGAAATCTCTAATGTATGCATTCCGTGACCGCCGTCAAAAGAAACGTGACTTCCGTAAATTATGGATTACACGTATCAACGCAGCAGCTCGTATGAATGGTCTTTCTTACAGCCGCTTAATGCACGGTCTTAAAAATGCTGGCATCGAAGTTAACCGCAAGATGCTTGCTGACTTAGCTGTTCATGACGAAAAAGCTTTCGCTGAATTAGCAACAGTTGCAAAAAACAACATTAACTAA	MPRVKGGTVTRQRRKKVIKLAKGYYGSKNTLFKVANQQVMKSLMYAFRDRRQKKRDFRKLWITRINAAARMNGLSYSRLMHGLKNAGIEVNRKMLADLAVHDEKAFAELATVAKNNIN				NA	NA	NA	NA	NA
AK009_02564	492			hypothetical protein	ATGGACTTACTACAACTATTTAAATTACAAAAAGAATTAGATGACCGTATTGCAAAAGAACATGACTTACAACCGAAAAAATTGTTAAAAGAAAAAATGTTAGCTCTTCTTGTAGAAATTGGAGAACTTGCAAATGAAACACGTTGTTTTAAATATTGGAGCAACAAACCAGCTTCGGAACGTGGAGTAATATTAGAAGAATACGTAGATGGTTTGCATTTTATTTTATCAATCGGAATTGATTTAGGGATTGATAAAAACTTCCTATTCTATAAATGTGCACAAACGAATAAAACACAAGTGGAAATTTTCTTAGACACATACGCGAAAGTAATTCGTTTTACAGATCAACCATCTATTACAAACTATATTGAATTATTTACGAGCTATCTTCGACTTGGACAAGCACTTGAATTTGAGCAAGAAGAGATTGAAAAAGCGTATTTAGATAAAAATGAAGTAAATCATCAGCGTCAAACACAAGGATACTAA	MDLLQLFKLQKELDDRIAKEHDLQPKKLLKEKMLALLVEIGELANETRCFKYWSNKPASERGVILEEYVDGLHFILSIGIDLGIDKNFLFYKCAQTNKTQVEIFLDTYAKVIRFTDQPSITNYIELFTSYLRLGQALEFEQEEIEKAYLDKNEVNHQRQTQGY				NA	NA	NA	NA	NA
AK009_02565	1089	ysdC_2	COG1363	Putative aminopeptidase YsdC	ATGACAAAATTAGACGCGACATTGACAATGCTAAAAGAATTAACAGATGCACGTGGTATTGCCGGTAACGAGCGTGAACCACGCGAAGTAATGAAGAAATATATCGAGCCATTTGCAGACGAGCTTTCTACTGATAATTTAGGAAGTTTAGTTGCGAAAAAAGTAGGGGAAGAAAACGGCCCGAAAATTATGGTTGCAGGTCATTTAGATGAAGTTGGCTTTATGATTACGCAAATTGATGACAAAGGTTTCCTACGCTTCCAAACGGTGGGTGGCTGGTGGTCACAAGTTATGCTTGCACAGCGCGTGACGATTGTAACGCGTAAAGGAGATGTAACAGGTGTAATTGGTTCAAAACCACCGCACATCTTACCTCCAGAAGCACGTAAAAAGCCAGTTGAAATTAAAGACATGTTCATCGATATCGGTGCTTCTAGCCAAGAAGAAGCAATGGAGTGGGGCGTACGACCAGGAGATCAAGTTGTACCTTACTTTGAATTCCAAGTGATGAAGAATGAAAAAATGTTACTTGCAAAAGCATGGGATAACCGAATCGGTTGTGCGATTGCAATTGACGTATTAAAACAATTAAAAGATGAAAAGCATCCAAACGTTGTATACGGCGTTGGAACTGTACAAGAAGAAGTTGGTCTTCGTGGTGCAAAAACATCTGCGAATTATATTAAACCAGATATCGCGTTCGCAGTAGATGTTGGTATCGCTGGAGATACACCGGGTGTAACGTCAAAAGAAGCGCAAAGTAAAATGGGCGATGGACCACAAATCATTTTATATGATGCTTCTGTTATTGGACATACAGGTTTACGTGATTTCGTAGTTGATGTTGCTGACGAATTACAAATCCCGTATCAATATGATTCAGTAGCGGGCGGGGGAACTGATGCGGGTGCGATTCATATTGCTGTAAACGGTATTCCTTCTATGGCAATTACAATTGCAACGCGCTATATTCATTCTCATGCAGCAATGTTACACCGTGATGATTATGAAAATGCAGTAAAGTTAATTGTAGAAGTTATTAAACGTCTTGATAAGGATGCTGTACATAACATTACATTTAAAACATAA	MTKLDATLTMLKELTDARGIAGNEREPREVMKKYIEPFADELSTDNLGSLVAKKVGEENGPKIMVAGHLDEVGFMITQIDDKGFLRFQTVGGWWSQVMLAQRVTIVTRKGDVTGVIGSKPPHILPPEARKKPVEIKDMFIDIGASSQEEAMEWGVRPGDQVVPYFEFQVMKNEKMLLAKAWDNRIGCAIAIDVLKQLKDEKHPNVVYGVGTVQEEVGLRGAKTSANYIKPDIAFAVDVGIAGDTPGVTSKEAQSKMGDGPQIILYDASVIGHTGLRDFVVDVADELQIPYQYDSVAGGGTDAGAIHIAVNGIPSMAITIATRYIHSHAAMLHRDDYENAVKLIVEVIKRLDKDAVHNITFKT				NA	NA	NA	NA	NA
AK009_02566	618			hypothetical protein	ATGTCTATTAAAAATACAAATGATCCACGTGTAAAGCGAACGAGACAACTCATTCAGGATGCTTTTGTCGCTTTAGTAGGCGAAAAAGGCTTTGAAAATGTAACTGTGCAACATATCGCAGAACGTGCTCCTGTAAATCGCGCTACATTTTATAGCCATTACCATGATAAATATGACCTATTAGACAAAAGTATTGAAGAAATGTTAGAGAAGCTAGCAGAAGTAATTAAACCGAAAAATAGAAATAAAGAAGATTTTCAACTTACATTCGATTCACCTCATCCTACATTTTTGGCTTTATTCGAACATATCGCAGAAAATGTAAACTTTTATAACGTTATGCTTGGGGATAAAGCTGCCGGAAACTACTCTTATAAAATGATGAAAACGATACAAGTGCATTTAACATTAAGCTTGTCTATTTCACAACCAGATGACGAAGATCTTATGGTTCCTCGTGATATTTTGATTAGTTATGTGACAGGGGCTCACATCGGAATGATTATGTCATGGTTAAAAAGAGGAATGATATATACCCCGCATTTTATGGCGATGCAATTAACTCGTTTAATTATTTTAGGCGCTCATACTGCAGCAGGATTAGAACGACCTTTTTAA	MSIKNTNDPRVKRTRQLIQDAFVALVGEKGFENVTVQHIAERAPVNRATFYSHYHDKYDLLDKSIEEMLEKLAEVIKPKNRNKEDFQLTFDSPHPTFLALFEHIAENVNFYNVMLGDKAAGNYSYKMMKTIQVHLTLSLSISQPDDEDLMVPRDILISYVTGAHIGMIMSWLKRGMIYTPHFMAMQLTRLIILGAHTAAGLERPF				NA	NA	NA	NA	NA
AK009_02567	654			hypothetical protein	ATGAATCAGTTTCGAAGAATGGTAATTATCAACATTATCACATTAATTGTACTAGTTGGCGGCGGTATTGTCGGTTATTACTATTACAACCAAACGGAAAATTACTTAAAAACAGACAATGCAAAGATCGATGGAAAGGTAATTCCGGTTGCTTCACCAGTAGCAGGGAAACTAACTGACTGGAAAGCTGAAGTTGGAAAAAATTACAATGAGAACGATAAATTAGGAGTTGTTACTGTAGCAGCAGCTAATGGAGAACAAACAGTAGATGTAACAATTCCACAAAATGCAACGGTTGTACAATCAAACGCAACAACAAATGCTTTCGTTGGAGCAGGTAGCCCGATTGCTTACGCATTTGATATGAACAATTTATGGGTAACAGCAAACATTGAAGAAACAGATGTTGATGATGTTCAGAAAGGTCAAGACGTAGACGTGTATGTAGATGCATACCCAGATACAACGTTAACTGGGAAAGTAGAACAAGTTGGTTTAACAACAGCAAATACATTCTCGATGTTACCATCAAGTAATTCAACAGCGAACTATACGAAAGTAACACAAGTAGTGCCAGTTAAAATTTCATTAGATCATAGCAAATCAGTAAATATTGTTCCTGGAATGAATGTGTCAGTTCGTATTCATAAGTAA	MNQFRRMVIINIITLIVLVGGGIVGYYYYNQTENYLKTDNAKIDGKVIPVASPVAGKLTDWKAEVGKNYNENDKLGVVTVAAANGEQTVDVTIPQNATVVQSNATTNAFVGAGSPIAYAFDMNNLWVTANIEETDVDDVQKGQDVDVYVDAYPDTTLTGKVEQVGLTTANTFSMLPSSNSTANYTKVTQVVPVKISLDHSKSVNIVPGMNVSVRIHK				NA	NA	NA	NA	NA
AK009_02568	1800	emrB_1		Multidrug export protein EmrB	ATGTCCTCAATTGCAATTGTAGGATATGCACTATTTTGTATAATCGTCTTCTTCCTTGTAAATCGTCTTTTACGAAAGAAAAAAACGAACGTGGGAGAAGAACAAGTCCCAGCCGTAAGTAAAATAGAAGTAAGTAAGCTAGAAGCAGTAGAGAAAGAAAGTGAACAAAAGCAAGAAGCCGAAATTTCTAATGTAGTTGAATTAGAAACAGGCAAGCAAGAAGAAGTAAAACAAGAAAAAGAAATGCCGAAAAAACAAACGTCTATGCCTATAGAGGATGTAAATGTAAAAGCAGTTGTAACAGTATTAATTCTCGGCATGTTCGTTTCTATTTTGAACCAAACAATCATTAACGTTGCATTGCCTCCGTTAATGAATGAATTTAACGTATCAACTTCAACGGCGCAATGGTTAATTACAGGGTTTATGCTTGTAAATGGTATTTTAGTGCCGATTAGTGCCTTTTTAGTTTCACGATTTACGTATCGTAAATTATTTGTAGCGGCAATGTTATTCTTCACAGTAGGATCTATCATTTGCGCTACTTCAGGAAACTTTACAATGATGATGACAGGCCGCGTAATTCAAGCAGTTGGTGCGGGTATTTTAATGCCGGTTGGTATGAATATCTTTATGACATTGTTCCCGCCTCATAAGCGCGGAGCGGCGATGGGATTACTAGGTGTTGCAATGATTTTAGCACCAGCTATCGGACCAACTGTAACAGGTTGGGTGATTGAAAACTATAGCTGGAACTTAATGTTCTATGCGATGTTTATTATCGGTTTAATTATTACGTTCCTATCTTTAAAATTCTTTACACTAGCTCAGCCAGTGTCTAAAACGAAATTAGATATATTCGGTGTTGTTAGTTCAAGTATTGGACTAGGAAGCTTATTGTACGGATTTAGTGAAGCTGGAAATAATAGTTGGACTAGTGCAGAAGTCATTATTTCACTTGTTATCGGTGTAATTGGTTTAGCGTTATTTATTTGGAGAGAGTTAACAACGGACAATAAAATGCTTGATTTACAAGTATTTAAATATCCAGTATTTACTTTTACTTTAGTAATTAACGCAATCGTTACGATGGCATTATTCGGGGGTATGTTATTGCTTCCAGTATATCTGCAAAACATTCGTGGCTTTACGCCAATTGAATCTGGTTTACTACTTCTTCCAGGATCATTAATTATGGGGATCATGGGACCAGTAGCGGGTAAATTATTCGATAAATATGGCATTCGTCCATTAGCGATAATTGGATTGGCAATTACGACGTATGCGACATATGAATTTACAAAATTATCGATGGATACACCGTATAGCGTTATTATGACGGATTATATTATACGTTCAATTGGTATGTCATTCATTATGATGCCAATTATGACAGCTGGTATGAACGCACTGCCGATGAAATTAATTTCTCACGGTACAGCAACGCAAAATACGTCAAGACAAGTAGCTGGTTCAATCGGAACAGCGATTTTAATCACACTTATGACGCAACAAACAACTGCTCACGTAGCAGATTACGGCAACATGTTAACAACATCAAACCCAATTTTAGTTGATAAAGTACACGGTATGGGGCAAAGTTTAGCAGCGATTGCCGGATCAGCTCAAGCAGGAGATGCGATGAGCACACAACTATTATATGGACAAATTTCAAAGCTATCTGCAATTAACGGTATTAACGATGCCTTCTTAATTGCAACGATACTAGCAGGTATTGCTTGGGTGTTATCGTTCTTCTTACAATCAGGCAATAAACCAAATAGAAAAGCAGGGAATTAA	MSSIAIVGYALFCIIVFFLVNRLLRKKKTNVGEEQVPAVSKIEVSKLEAVEKESEQKQEAEISNVVELETGKQEEVKQEKEMPKKQTSMPIEDVNVKAVVTVLILGMFVSILNQTIINVALPPLMNEFNVSTSTAQWLITGFMLVNGILVPISAFLVSRFTYRKLFVAAMLFFTVGSIICATSGNFTMMMTGRVIQAVGAGILMPVGMNIFMTLFPPHKRGAAMGLLGVAMILAPAIGPTVTGWVIENYSWNLMFYAMFIIGLIITFLSLKFFTLAQPVSKTKLDIFGVVSSSIGLGSLLYGFSEAGNNSWTSAEVIISLVIGVIGLALFIWRELTTDNKMLDLQVFKYPVFTFTLVINAIVTMALFGGMLLLPVYLQNIRGFTPIESGLLLLPGSLIMGIMGPVAGKLFDKYGIRPLAIIGLAITTYATYEFTKLSMDTPYSVIMTDYIIRSIGMSFIMMPIMTAGMNALPMKLISHGTATQNTSRQVAGSIGTAILITLMTQQTTAHVADYGNMLTTSNPILVDKVHGMGQSLAAIAGSAQAGDAMSTQLLYGQISKLSAINGINDAFLIATILAGIAWVLSFFLQSGNKPNRKAGN	PGPT0029220_341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
AK009_02569	372			hypothetical protein	ATGTTTAGCTTCCTTTGGATTGTTTATATGCCACTTCTTGTCTTATGCGGATTTTTCGGTGGTATTTTTTTAATTATTACTAGTATTAAACATCGGAAATTATTTGTTGGTTTAATGGGGGTACTTAGCTTTTCCTTTGTAACGCTACCTTTTGTTTTTTGGAGCATGGGGGTGAATAGCGAGACAATCCTCCCTATTTCAACTACTTTATACTGGATATTGTTTTCTTTAACTGGATTATTAGCAGGGGTAAGGGGATTACAAATGAAAATTAAAAGTATACGCAACATGGGATTCATTATTTTTATTGCGGGACTATTAGGAGTTATTTTCTGGGAACTCATGTCTGCAGGTGATTCATTCTATATCTAA	MFSFLWIVYMPLLVLCGFFGGIFLIITSIKHRKLFVGLMGVLSFSFVTLPFVFWSMGVNSETILPISTTLYWILFSLTGLLAGVRGLQMKIKSIRNMGFIIFIAGLLGVIFWELMSAGDSFYI				NA	NA	NA	NA	NA
AK009_02570	717			hypothetical protein	ATGCAATCCGCTACACAACTTTCTGATGAACAGAAACACTCTATGTCATGGGGACAATTTATTAGCTCCGTTTTATTTGCTTTTTTCGGAACTGGACTCATTACCTTGTTCCTAGCAATACTGCCCTTAACAATTTATACGGCTAGTCTTACAAATAAAAAGCAAATTGCCCTGTATGAATCTATTGCAAACACCGCAAGTATAGGGTTACAACTAGCCATGTTGTTATTCTTTATTTTTAAATTCAAACCTGCGAAAAGATTATTACTGAACTCTTTTAACTTTAAAGCACTGAAAGAATGGCGCACATACGTATATTTACTTCTTTTCTTCGCTATAAACATCATAATCAACTACTTCTTATTAAATTATGTGTTCCAAGACGCAACAAAGCAACAATCTTCCGCACTAAACTTAGACGTTTTTAAGCAATATCAAATACTATTACTTCTCGGATTTGCAATACTCACACCAATTTTTGAAGAACTTATTTTCCGTGGTTTTATACTTCATTTCTTCTCTGAGCGCTTTCCATTTTGGATTGCAGCAGTCTTAACAAGTTTCTTCTTTGGTATCGCTCATACATACTCACTTGGAGTAATGGTAATTACTTTCTTCATGGGATTATTAATGGCTATTTTATGTAAGAAAACAAAATCCATTCTTCCAGCTATGTTATTTCATATTATAAATAATACGTTGGCATTCTTCAGTTAA	MQSATQLSDEQKHSMSWGQFISSVLFAFFGTGLITLFLAILPLTIYTASLTNKKQIALYESIANTASIGLQLAMLLFFIFKFKPAKRLLLNSFNFKALKEWRTYVYLLLFFAINIIINYFLLNYVFQDATKQQSSALNLDVFKQYQILLLLGFAILTPIFEELIFRGFILHFFSERFPFWIAAVLTSFFFGIAHTYSLGVMVITFFMGLLMAILCKKTKSILPAMLFHIINNTLAFFS				NA	NA	NA	NA	NA
AK009_02571	558			hypothetical protein	ATGCACCGTATTACGCTTGAACAAGTTTTTAAACATCACATTACACAAAAATACGTAAACCGTTCCGGAATGGTCCACGCGATCGCTGTCGCTTACCATGCGTTTCACTTAGCTAAAAAGCACCACGCCTCAGTCGATGCTGCGACAAAAGCCGGTTTCCTTCATGATATCGGACATCATACGTGGTACACAGGCGGCGAATGGGACTATGACTTATATAAAAAGAATGATATCCATGCAATTAAAGGCGCAGAAAGAGCACATAAATTACTTATTAGATTGGGAGAACATCCAAAACTAGCAAAAGAAATTTCTATCGCAATCCTTCTGCATACAGATTCTTTCTTAGTGGAACAAGAAATTGAAAGAACATCTCTTCAAAGCATTATTAAATGGGCAGACGAAACAGATGAAGAACCAGGCGGAGCTCATCATTATAGAACGATTTCTTATGAAAAAGCACTTAAAGCTATTCAGCAATTAGATCGATTGGTAGAGCGTGAATTGCAAATAGAGCAAGCCAAATTGAATAACAAGGCAGAACATAGTTATCAATGA	MHRITLEQVFKHHITQKYVNRSGMVHAIAVAYHAFHLAKKHHASVDAATKAGFLHDIGHHTWYTGGEWDYDLYKKNDIHAIKGAERAHKLLIRLGEHPKLAKEISIAILLHTDSFLVEQEIERTSLQSIIKWADETDEEPGGAHHYRTISYEKALKAIQQLDRLVERELQIEQAKLNNKAEHSYQ				NA	NA	NA	NA	NA
AK009_02572	210	sspI		Small, acid-soluble spore protein I	ATGAGTTTTAATTTACGCGGTGCCGTATTAGCGAATGTATCTGGTAATTCACAAGATCAATTACAAGAAACAATTGTCGATGCAATTCAAAGCGGTGAAGAAAAAATGCTTCCAGGTCTTGGCGTCTTATTTGAAGTCATTTGGAAAAACGCTGATGAAAATGAAAAGCACGAAATGTTAGAAACACTAGAGCAAGGATTAAAAAAATAA	MSFNLRGAVLANVSGNSQDQLQETIVDAIQSGEEKMLPGLGVLFEVIWKNADENEKHEMLETLEQGLKK	PGPT0024900_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024900-sspI-K06426	NA	NA
AK009_02573	798	rlmB		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGATAAGACAAGAAGAGAGGGAACTACATATTATGAAAAACATTGATTCAGTACAAAATCCGCGTGTAAAGCAGTGGAAAAAGCTGCAAACGAAAAAAGAACGCGATAAAAAAGGTTTATTTTTTGTAGAAGGATTCCACTTAGTCGAAGAAGCTTTGAAGGCAGGAATTGTAACAGAACTTATCGTTTCAGATCAGACAGACCTTCCGAAAGATTGGACAGTTAATGATGTAGAAATGTATATCGTGCCTGAGGCTATTGTAAAAATACTTCGTGAAACAGAAACGACGCAAGGTGTATTTGCTGTTTGTGAGAAGCATGAGAAAGAAGTAGCTCTTACTGATGGGAAATTCCTTTTATTGGATGGCCTGCAAGACCCAGGTAATTTAGGAACAATTATTCGTACAGCTGATGCAGCTGGTATTCACGCCGTTGTGCTTGGAGAAGGTTGTGTTGATGTTTACAATAGTAAAGTACTCCGCTCTACACAAGGTTCTATTTTCCGCTTGCCAATTGTAAAAGGGAACTTAGAAGAATGGGTAGACAAGTTAAAAGAAAATAACGTTCCTGTATATGGAACAGCTCTTGAAAATGGAGTTCCGTATGGTGAGGTAACTCCGGCCGGAAGTTTTGCATTAATTGTTGGAAATGAAGGAAATGGCGTACGCCAAGAAATTCTTACAAAAACGGATCAAAACTTGTATATTCCGATTTACGGCGGGGCAGAATCATTAAATGTTGCGGTTGCAGCAGGGATTTTAACGTATTATTTACAAAGCCCAGTTGCGAACAAATAA	MIRQEERELHIMKNIDSVQNPRVKQWKKLQTKKERDKKGLFFVEGFHLVEEALKAGIVTELIVSDQTDLPKDWTVNDVEMYIVPEAIVKILRETETTQGVFAVCEKHEKEVALTDGKFLLLDGLQDPGNLGTIIRTADAAGIHAVVLGEGCVDVYNSKVLRSTQGSIFRLPIVKGNLEEWVDKLKENNVPVYGTALENGVPYGEVTPAGSFALIVGNEGNGVRQEILTKTDQNLYIPIYGGAESLNVAVAAGILTYYLQSPVANK				NA	NA	NA	NA	NA
AK009_02575	1035	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGGAAGCACGTTTAAAAGAGCTAAAGCAAAAAGCGTTAGAGCTTATTGAAGAAGCGAAAGAGCTAAAGGGCTTAAACGACGTACGCGTAGCGTATTTAGGAAAAAAAGGTCCAATTACAGAAGTATTACGCGGCATGGGAAAATTATCAGCAGAAGAGCGTCCACGTATGGGAGCATTAGTGAATGAAGTACGTGAAGCGATTCAAACGCGTCTAGAAGACAAAATTAGCAACTTAGAAAAAGCAGTAATTGAAGCGAAATTAGCTACGGAAACAATTGATGTTACATTACCAGGTCGTCCTGTTGAAACAGGTTGTCACCATCCGTTAACAGCTGTTGTTGAACAAATTGAAGATGTATTCATCGGTATGGGTTATGAAGTAGCTGAAGGAACAGAAGTAGAAAAAGACTACTACAACTTCGAAGCACTAAACTTACCGAAAGATCACCCAGCACGTGACATGCAAGATACATTCTACATTACAGAAGAAACGTTACTACGTACACATACATCTTCTGTGCAAGCACGTACGATGGAAAATAATAAAGAAAAAGGCCCAATCAAAATTATTTGTCCTGGTAAAGTGTATCGCCGCGATGATGATGATGCGACGCATTCACATCAGTTCATGCAAATTGAAGGCCTTGTAATTGATAAAAACATTCGTATGAGTGACTTAAAAGGTACACTGCAAGTATTCGTGAAAAAGATGTTCGGTGAAGATCGTGAAATCCGTCTTCGTCCAAGTTTCTTCCCATTCACAGAGCCATCTGTAGAGATGGATATTTCTTGTATGATGTGTCATGGCAAAGGTTGCGGCACTTGTAAAGGAACTGGCTGGATTGAAATTCTAGGCGCAGGTATGGTTCACCCGAACGTACTTGAAATGGCTGGTTATGATTCAAAAGAATATCAAGGTTTCGCATTCGGTATGGGCGCAGAGCGTATCGCAATGTTGAAATACGGCGTAGATGACATTCGTCATTTCTATACAAATGATGTACGTTTCTTACAACAATTCAAACGAGCGTAA	MEARLKELKQKALELIEEAKELKGLNDVRVAYLGKKGPITEVLRGMGKLSAEERPRMGALVNEVREAIQTRLEDKISNLEKAVIEAKLATETIDVTLPGRPVETGCHHPLTAVVEQIEDVFIGMGYEVAEGTEVEKDYYNFEALNLPKDHPARDMQDTFYITEETLLRTHTSSVQARTMENNKEKGPIKIICPGKVYRRDDDDATHSHQFMQIEGLVIDKNIRMSDLKGTLQVFVKKMFGEDREIRLRPSFFPFTEPSVEMDISCMMCHGKGCGTCKGTGWIEILGAGMVHPNVLEMAGYDSKEYQGFAFGMGAERIAMLKYGVDDIRHFYTNDVRFLQQFKRA				NA	NA	NA	NA	NA
AK009_02576	2421	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGTTCGTATCATATCGTTGGTTACAAGAGTATGTAGATATTAAAGATGTAACAGCACAAGAACTAGCAGACAAAATCACGAAAAGTGGTATTGAAGTAGAAGGCGTTGAAGTATTAAATAAAGGTGTAAAAGGTGTTGTAGTTGGTCACGTATTAGAATGTGAAAAACACCCAGAAGCTGATAAATTAAGCAAATGCTTAATCGATATCGGTGAAGAAGAGCCAGTTCAAATTATTTGTGGAGCTGCTAACATTGCAAAAGGTTTAAAAGTGCCAGTTGCAAAAGTTGGTGCTGTACTTCCTGGTAACTTCAAAATCAAAAAAGCAAAACTACGTGGTGAAGCTTCTCACGGTATGGTTTGTGCTCTTCAAGAGCTTGGCATTGATGGAAAGTTAGTTTCAAAAGAATATGCAGATGGTATCTTTATCTTCCCAAGTGACGCTGAAGTTGGTGCAGATGCACTTGAAATTTTAAACTTACACGATGAAGTACTTGAGCTTGGTTTAACACCAAACCGTGCAGATTGCTTAAACATGTTAGGTGTTGCATATGAAGTAGCTGCTATTTACGGCCGTGAAGTAAAACTTCCAGCTATCGACTTACAAGAAACAGCAGAAAAAACTTCTGATTACATTTCTGTAAGTGTAGAAGCGAAAGAAGAAAATCCATTATACATTGCAAAAATGGTGAAGAACGTAAAAATTGGTCCATCACCAATGTGGATGCAAACTCGTCTTATGGCAGCTGGCATTCGTCCAATTAGCAACGTAGTTGATATTACAAACTACATTTTAATGGAATACGGTCAACCGTTACATGCATTCGATTACGATAAATTAGGTTCAAAAGAAATCGTTGTTCGTCTTGCAAAAGAAGGCGAAAAAATTGAAACATTAGATGATCAAGAGCGTACATTACAAAGCCACCATCTTGTAATTACAAACGGAACAAAAGCTTTAGCTGTTGCTGGTGTAATGGGTGGGGCGGATTCTGAAGTTACAAATGAGACAGTAAACGTTCTAATTGAGTCTGCATACTTTGCAGGTCAAACAGTGCGCCGCACATCAAAAGACTTAGGTCTTCGTAGTGAATCAAGTGCACGTTTTGAAAAAGGAATCGACCCAACACGTACATTTGAAGCAATTCAACACGCAGCTGCCTTAATGGCGAAATATGCTGGCGGTGAAGCACTTGAAGGTGTAGTAGAAGCTGATAACTTACAAATACAAGAGCGTACAGTATCTGTTACTGCTGAAAAAGTAAACCGTGTATTAGGTACAAATATTTCTGCGAGTGAAATGGGTACAATGTTCGCGAACTTGAAATTTCCATTCACAGAAGTAGAAGGAACATTCCATGTAAATGTACCAGCACGTCGTCCTGATATTACAATTTCAGAAGACTTAGTAGAAGAAGTGGGCCGTCTATACGGTTATGACCACATTCCAGTTACATTACCTTCTGGAACGATGACTCGTGGTAAATTAACATCAGCACAAACGAAACGTCGTAAAGTACGTCGCTTCTTAGAGGGTGCTGGTTTATATGAAGCAATCACGTATTCATTAACGAGCGCTGACAAAGCGAAACAATACATGATTGAGCCAAACGAAAAGGCACCTGTAAACCTTGCACTTCCAATGAGTGAAGAGCGTAGCCAACTTCGTTTAAGCTTAGTGCCACAATTGCTAGAAGCAGTTTCATACAATATTGCTCGTAAAAACGACAGCGTTGCTTTATACGAAGTAGGTTCTATCTTCTTACCAACAGAAGCAGGAGAACTTCCGAAAGAAGAACAACACCTTGCAGGTGTTATGACAGGTCTTGCTCTTCACCATGCATGGCAAGGTGAGAAGAAAGTAGTAGACTTCTTCGTTGTGAAAGGTGTACTAGAAGGACTATTCGACGTACTTGGCGTTTCAAACCAAATCACATATGCACCAGCGAAACGTGAAGGTATGCACCCAGGTCGTACAGCTGACATCGTATTAGATGGCGAAGTAATTGGTTTCATCGGTCAATTGCACCCAGAAGCAGAAAAACAATTAGATGTGAAAAATACATTCGTATTTGAACTATCTCTTGTAAAAATATTCGGTGCAGACGCTGAAGAAACTTACTACTCAGCAATTCCGCGTTTCCCATCTATGACACGTGACATGGCTGTTGTAGTAACAAAAGAAACAAAAGCTGGTGAAATGAAGCAAGTCATTGCTGAAGCTGGCGGAGAACTTTTGAAAGACGTAACACTATTCGACTTATACGAAGGTGAAAAAATGGAAGAAGGCAAGAAATCACTTGCATTCTCTATGACTTACTTCGATGCAGAACGTACGTTAACAGATGAAGAAGTAACAGAAGCGCATAACCGTGTATTAACAACGGTAGAAGAGAAATTTGGTGCGGAGTTACGTAAGTAA	MFVSYRWLQEYVDIKDVTAQELADKITKSGIEVEGVEVLNKGVKGVVVGHVLECEKHPEADKLSKCLIDIGEEEPVQIICGAANIAKGLKVPVAKVGAVLPGNFKIKKAKLRGEASHGMVCALQELGIDGKLVSKEYADGIFIFPSDAEVGADALEILNLHDEVLELGLTPNRADCLNMLGVAYEVAAIYGREVKLPAIDLQETAEKTSDYISVSVEAKEENPLYIAKMVKNVKIGPSPMWMQTRLMAAGIRPISNVVDITNYILMEYGQPLHAFDYDKLGSKEIVVRLAKEGEKIETLDDQERTLQSHHLVITNGTKALAVAGVMGGADSEVTNETVNVLIESAYFAGQTVRRTSKDLGLRSESSARFEKGIDPTRTFEAIQHAAALMAKYAGGEALEGVVEADNLQIQERTVSVTAEKVNRVLGTNISASEMGTMFANLKFPFTEVEGTFHVNVPARRPDITISEDLVEEVGRLYGYDHIPVTLPSGTMTRGKLTSAQTKRRKVRRFLEGAGLYEAITYSLTSADKAKQYMIEPNEKAPVNLALPMSEERSQLRLSLVPQLLEAVSYNIARKNDSVALYEVGSIFLPTEAGELPKEEQHLAGVMTGLALHHAWQGEKKVVDFFVVKGVLEGLFDVLGVSNQITYAPAKREGMHPGRTADIVLDGEVIGFIGQLHPEAEKQLDVKNTFVFELSLVKIFGADAEETYYSAIPRFPSMTRDMAVVVTKETKAGEMKQVIAEAGGELLKDVTLFDLYEGEKMEEGKKSLAFSMTYFDAERTLTDEEVTEAHNRVLTTVEEKFGAELRK				NA	NA	NA	NA	NA
AK009_02578	1392	asnS	COG0017	Asparagine--tRNA ligase	ATGGAAAACACATTAGTAAAAAGTCTGTATAGAGATACAGAAAAGTATGCAGGTCAAACAGTACAAGTATCAGGGTGGATTCGTAATTTACGTGATTCAAAAGCATTTGGTTTCATCGAATTAAACGACGGTAGCTTTTTCAAAAGCGTTCAAATCGTTTTCGATACAGAATTAGAGAACTTTAAAGAAATTGCAAAGCTTCCACTTAGCTCTTCAGTGAAAGTAGAAGGTAAAGTAATTGCAACGCCTGGAGCGAAGCAACCATTTGAAATTAAAGCAGAAAAAATTGATATCGAGGGCTTATCAGATTCTGATTACCCACTTCAAAAGAAGCGTCATACGTTTGAATACTTACGTACAATCGCTCACTTACGTCCAAGAACAAATGCATTCTCTGCAACGTTCCGCGTACGTTCTATCGCAGCATTTGCGATTCACCAGTTCTTCCAAGAGCGTGGATTCGTACATGTTCACACACCAATCATCACTGGTAGTGATACAGAAGGTGCTGGCGAAATGTTCCGCGTAACAACACAAGATTTAAACAACGTACCAAAAGGTGAAGACGGACAAGTTGATGAGTCAAAAGACTTCTTCGGTAAAGAAACAAACTTAACAGTAAGTGGACAGCTGAACGCTGAAGCGTATGCATTAGCATTCCGTGATGTATATACATTCGGACCTACATTCCGTGCAGAAAACTCAAACACAACTCGCCACGCTGCTGAGTTCTGGATGGTTGAGCCTGAGATTGCATTCGCTGAGTTAGGCGATGTAATGGATCTTACAGAAGATATGCTGAAATATGCAATGAAATATGTATTAGAGCATGCACCAGAAGAAATGGACTTCTTCAACAGCTTCGTTGATAAAACAGTTCTAGAGCGTATGAACAACGTGATTAACTCTGACTTCGGTCGCATCACATATACAGAAGCAATTAAAGTACTTCAAGAATCAGGTGCTGACTTCAAGTACCCAGTAGAATGGGGTATTGACTTACAAACAGAGCATGAAAGATACTTATCAGAAGAAATCTTCAAACGCCCTGTATTCGTAACTGACTACCCGAAAGACATTAAAGCGTTCTACATGCGTATGAATGAAGATGGAAAAACAGTAGCTGCTACTGACCTTCTAGTTCCTGGCATCGGCGAATTAATCGGCGGAAGTCAACGTGAAGAAAGAATGGACGTTTTAGTAGACAGAATTAAAGAATTAGGTATGAACGAAGAGGACTACTGGTGGTACTTAGAACTTAGAAAATACGGCGGTACAAAACACGCTGGATTCGGTCTAGGTTTCGAGCGCTTCCTAATGTACATCACTGGTATGGCTAACATCCGTGACGTAATTCCATTCCCAAGAACTCCAGGTTCTTCTGAGTTCTAA	MENTLVKSLYRDTEKYAGQTVQVSGWIRNLRDSKAFGFIELNDGSFFKSVQIVFDTELENFKEIAKLPLSSSVKVEGKVIATPGAKQPFEIKAEKIDIEGLSDSDYPLQKKRHTFEYLRTIAHLRPRTNAFSATFRVRSIAAFAIHQFFQERGFVHVHTPIITGSDTEGAGEMFRVTTQDLNNVPKGEDGQVDESKDFFGKETNLTVSGQLNAEAYALAFRDVYTFGPTFRAENSNTTRHAAEFWMVEPEIAFAELGDVMDLTEDMLKYAMKYVLEHAPEEMDFFNSFVDKTVLERMNNVINSDFGRITYTEAIKVLQESGADFKYPVEWGIDLQTEHERYLSEEIFKRPVFVTDYPKDIKAFYMRMNEDGKTVAATDLLVPGIGELIGGSQREERMDVLVDRIKELGMNEEDYWWYLELRKYGGTKHAGFGLGFERFLMYITGMANIRDVIPFPRTPGSSEF				NA	NA	NA	NA	NA
AK009_02579	135			hypothetical protein	ATGAGTAAAAAAGTGAAAAAAGATCATTCAAGATCGAGCCTAGGTTCTCCGGAAGTAGAAGGACAAGGAACGACGACACATGAAACAGGTTCTCATAAGGTATCTTCATCTAATAAGAAGCAGAAACAAAGCTAA	MSKKVKKDHSRSSLGSPEVEGQGTTTHETGSHKVSSSNKKQKQS				NA	NA	NA	NA	NA
AK009_02580	366			hypothetical protein	ATGATTCTAAATATTTTACTAGGCGATCCACACGAAAGACAGTTCAAAATTAGAGAAAACATTCAGATACTAAGTGAAAAGCCTGCATTCAATAATTTAAAGGAGGGAATTTATATAAACGCTGTAAAAGTGAAAAAGTTATTATATGTTTTCGTACATCTCGTAGGTCCACTTTCTTACTTCATTATTTCTACTGTTTGGGGCACTTTCTTCACTACTAAATCCACATTCGAAAACATATCTGATAGCCTTAGCGTTATGGCCATCTATCACGTGTTCATGAGTTTACTATGGTTTTTCTATTTAGATCGATTAGACAAAGACATAGATCAAATTACAAAAGAGATTAACGATAACAAGATGTAA	MILNILLGDPHERQFKIRENIQILSEKPAFNNLKEGIYINAVKVKKLLYVFVHLVGPLSYFIISTVWGTFFTTKSTFENISDSLSVMAIYHVFMSLLWFFYLDRLDKDIDQITKEINDNKM				NA	NA	NA	NA	NA
AK009_02581	999	rnhC	COG1039	Ribonuclease HIII	ATGGAAACAGAAAGAACAATCCGATATGATAAAAATAACAATATAAAAAAAGGGGCGACCATTATGTCAAATTCTATCGTAATTCAAACAAATTCTACAGTAATTGAAGACATGAAACAACAATATAAACATTCGCTTAGCCCGAAAACTCCGCAAGGCGGGATCTTCATGGCAAAGGTACCATCTTGCACGATTACAGCGTATAAATCTGGAAAAGTAATGTTCCAAGGAGGCCGCGCTGAAGCAGAAGCTTCTCGTTGGCAAACTGTCTCTCAAACACCCAAAACAGCTGTAAAAAAAACTGTCGATTCACATCGTTATGCACCGCCTTCTTCCATCAGTACAATGTCTATTGTAGGGTCTGATGAAGTTGGTACGGGAGATTTCTTTGGACCGATGACAGTCGTTGCTGTATATGTAGATGCAAAGCAAATTCCACTACTAAAAGAACTTGGTGTAAAAGACTCTAAAAGCTTAAATGACGATCAAATTACTGCCATTGCGAAACAACTTCTACATGTTGTTCCTTACAGCTCTCTTGTCCTTCATAATGAAAAATATAACGAGCTATTTGATAAAGGAAACAACCAAGGTAAGCTAAAAGCCTTGCTACATAATAAAGCTATTACAAACTTATTAGGTAAAATGGCACCTACAAAACCTGAAGGCGTCTTAATTGATCAATTCACACAACCTGATACATACTATAAATATTTAACAAAACAAAAACAGGTACAGCGTGAAAATGTTTATTTCGCGACGAAAGGTGAAAGCGTCCATTTAGCAGTAGCCGCTGCTTCTATTTTAGCTCGCTACTCATTCGTAAAACAGTTTGACGAACTAAGCAAAAAAGCTGGTATGCCACTTCCAAAAGGTGCTGGTAAACAAGTTGATATTGCTGCAGCTAAATTAATTCAAAAGCTTGGTAAAGAACGATTACCCGAGTTTGTGAAACTGCATTTCGCTAATACGGAGAAGGCGTTTCGCTTATTAAAATAG	METERTIRYDKNNNIKKGATIMSNSIVIQTNSTVIEDMKQQYKHSLSPKTPQGGIFMAKVPSCTITAYKSGKVMFQGGRAEAEASRWQTVSQTPKTAVKKTVDSHRYAPPSSISTMSIVGSDEVGTGDFFGPMTVVAVYVDAKQIPLLKELGVKDSKSLNDDQITAIAKQLLHVVPYSSLVLHNEKYNELFDKGNNQGKLKALLHNKAITNLLGKMAPTKPEGVLIDQFTQPDTYYKYLTKQKQVQRENVYFATKGESVHLAVAAASILARYSFVKQFDELSKKAGMPLPKGAGKQVDIAAAKLIQKLGKERLPEFVKLHFANTEKAFRLLK				NA	NA	NA	NA	NA
AK009_02582	270	zapA	COG3027	Cell division protein ZapA	TTGTCACAACAAAAGGGAAAGAAAAGTCGAATTAATGTAGAAATCTATGGTCAACAATATTCAGTTGTTGGCGATGAAAGTACAAGTCATATCCGCATGGTAGCAGCGATTGTGGATGATAAAATGCGCGAACTCAATGCCAAGAATCCTTCGCTTGACACGAGTAGACTAGCGGTATTGACGGCGGTAAACGTCATACACGATTACATAAAATTAAAAGAAGAACATGAGAAATTGAAAGAAAGTATGACAAAAAAAGGAATGGAATAA	MSQQKGKKSRINVEIYGQQYSVVGDESTSHIRMVAAIVDDKMRELNAKNPSLDTSRLAVLTAVNVIHDYIKLKEEHEKLKESMTKKGME				NA	NA	NA	NA	NA
AK009_02583	540			hypothetical protein	ATGATTGATATTATTATCATTTTACTGCTTGTTATGGGATTTTTCCTCGGCTTACGCAGAGGGTTTATTCTGCAACTTGTAAAGTTAACAAGCTTTATTATCGCATACCTTGTTGCATACTGGTACTGTAAAGATTTAGCGCCAGCACTTGCGAAATTTATTCCGTATCCATTTGATAAAAACGTATCTGTTCCAGAATGGATTGATGCAAATAATATTGAGACAGTATTTTATCAAGCGCTTGCGTTTATCATATTGTTTATTATCACTAAAATTGCACTTTCATTACTTGGTAATTTGTTAAATATGTTTGCAGAAATACCGGTTTTAAAGCAAGTAAATGCGTTTGCGGGGGCAATCCTCGGATTTTTAGAAGTATATATTATTTTGTTTGTCTTAATTATCATTGGAAACATACTTCCGATTGAACAAGTACAAACACCATTACAAAAATCATCAATTAGCAAAATAATTGTAGACGATACACCGATTCTATCTGAAAAGGTGAAGGAACTATGGCAGACAGGTAGCAGAGTATAA	MIDIIIILLLVMGFFLGLRRGFILQLVKLTSFIIAYLVAYWYCKDLAPALAKFIPYPFDKNVSVPEWIDANNIETVFYQALAFIILFIITKIALSLLGNLLNMFAEIPVLKQVNAFAGAILGFLEVYIILFVLIIIGNILPIEQVQTPLQKSSISKIIVDDTPILSEKVKELWQTGSRV				NA	NA	NA	NA	NA
AK009_02584	1719	polX	COG1387	DNA polymerase/3'-5' exonuclease PolX	ATGAAAGTAAATAAAAAACAAGTTATCAAATTATTAGAGACAATCGGGCTTTTTATGGAACTAAAGGGTGCGAATCCATTTAAAATATCTGCATTTCGTAAAGCGGCAGCAGCATTAGAAAGTGACGATCGTAGTCTTTCTGAAATTGAAGATTTCACAAAGATTCCAGGCATCGGAAAAGGAACAGCAGCCGTTATTCAAGAATATATAGAATCGGGAACATCTGAAGTATTACAAGAACTTGAGAAAGAAGTACCAAGTAGCTTATTGCCGTTATTAAAACTACCAGGTCTTGGTGGTAAGAAGGTAGCTAAGTTATATAAAGAACTTGGTGTTGTTGATATGGAATCGCTAAAAGCTGTTTGTGAGGAAAATAAAGTACAGGCTTTAGCAGGTTTCGGTAAGAAGACAGAAGAGAAAATATTAGAAGCAATCGATCAAGTAGGCTCTCGTCCAGAGCGTTTACCAATTGCGATGGTATTGCCTATTGCCGGGGAAATAGAGGAGAAATTGTCGAATATTGCTGAAGTAATTCGTTTCTCTCGCGCTGGTAGCTTACGCCGCGCGAGAGAAACAGTGAAAGATTTAGATTTTATCATTGCAACGACAGAACCAGCAGCGGTACGTGAGCATTTACTACAATTCGATAATATGATTGAAGTAATCGCAAGTGGAGATACAAAAGTTTCTGTCCGTCTTCAATATGAATATGATATTTCAATTGATTTTCGTTTAGTAAAACCAGAAGAGTTTATTACAACTCTTCACCATTTCACAGGATCAAAAGACCATAACGTAAAAATGCGTCAAATCGCAAAAGATAAAGGCGAGAAAATTAGTGAGTACGGTGTAGAAAACTTGGAAACAGGTGAAGTGAAAACATTTGAGAATGAAGAAGACTTCTTCGCTCATTTCGGTCTGCCATTTATTCCGCCAGAAGTGCGTGAAGATGGAAAAGAAATTGAATTAATTAAAGAGTATCCGAACTTAATTCAGTTTTCCGATATACAAGGTGATTTACATATGCATACAACTTGGAGTGACGGTGCTTTTTCTATTGAAGAAATGGTACAAGCGTGCCGTGCTCGTGGATATAAGTTTATGGCGATTACTGATCACTCGCAATATTTGAAAGTAGCGAATGGTTTAACGAAAGAGCGTCTTCGTGAGCAAGCGAAAGAAATTGAACGTATGAATGAAAAGTATCCAGACATTACAATTTTACGCGGAATTGAAATGGACATTTTACCAGATGCCTCGCTTGATTTTGATGATGAAGTATTAGAAGAATTAGACTATGTCATTGGAGCGATCCACTCTAGCTTCTCACAAGACCGTGAAACGATTATGAAACGTCTGCGTACTGCACTTGAGAATAAACATGTCACAATGATTGCTCATCCGACAGGACGTCTTCTCGGGCGCCGTGAGGGTTATGATGTAGATACAGATTTATTAATTGAACTCGCAAAAGAGACAAATACAGTTTTAGAATTAAATGCGAATCCGAACCGTCTAGATTTAAGCGCGAAATTATTAAAACAAGCACAAGATGCTGGTGTAAAAGTAGCGATTAATACGGATGCTCATACACTTGAAATGTTAGAAGATATGGAAACAGGTGTAGCTGCAGCACGTAAAGGTTGGATTCAAAAAGATAACGTGATTAACACGTGGGATATTGAACGTTTATTAGACTATATTAAACGTAATAAGTAA	MKVNKKQVIKLLETIGLFMELKGANPFKISAFRKAAAALESDDRSLSEIEDFTKIPGIGKGTAAVIQEYIESGTSEVLQELEKEVPSSLLPLLKLPGLGGKKVAKLYKELGVVDMESLKAVCEENKVQALAGFGKKTEEKILEAIDQVGSRPERLPIAMVLPIAGEIEEKLSNIAEVIRFSRAGSLRRARETVKDLDFIIATTEPAAVREHLLQFDNMIEVIASGDTKVSVRLQYEYDISIDFRLVKPEEFITTLHHFTGSKDHNVKMRQIAKDKGEKISEYGVENLETGEVKTFENEEDFFAHFGLPFIPPEVREDGKEIELIKEYPNLIQFSDIQGDLHMHTTWSDGAFSIEEMVQACRARGYKFMAITDHSQYLKVANGLTKERLREQAKEIERMNEKYPDITILRGIEMDILPDASLDFDDEVLEELDYVIGAIHSSFSQDRETIMKRLRTALENKHVTMIAHPTGRLLGRREGYDVDTDLLIELAKETNTVLELNANPNRLDLSAKLLKQAQDAGVKVAINTDAHTLEMLEDMETGVAAARKGWIQKDNVINTWDIERLLDYIKRNK				NA	NA	NA	NA	NA
AK009_02585	2361	mutS2_2		Endonuclease MutS2	ATGTTAGAAAGAACGTTGCGTGTATTAGAATACAATAAAGTAAAAGAACAATTACTTGAACATACAGCCTCTTCACTTGGCCGTGATAAAGTGAAGCATTTAGTGCCGAGCACTGATTTTGAAGAAATTGTAGAAATGCAAGATACAACGGATGAAGCAGCGAAAGTCATTCGTTTAAAAGGTAGTGCACCATTAGGTGGCATTACGGATATTCGTTCAAATGTGAAGCGTGCAAAGATTGGAAGCATGTTAAGCCCGAATGAACTACTTGATATTGCGAATACGATGTATGGTAGTCGCAATATGAAACGTTTCATTGAAGATATGGTTGATAATGGTGTCGAGCTTCCGATTTTAGAAACTCATGTCGCTCAAATTGTATCTTTATATGATTTAGAAAAGAAAATTACAAATTGCATCGGTGATGGCGGTGAAGTAGTCGATAGCGCGAGTGATAAACTGCGTGGTATTCGTACTCAAATTCGTACTGCGGAAAGTCGTATTCGTGAAAAGTTAGAAAATATGACGCGTTCTTCAAACGCGCAAAAGATGCTGTCTGACTCGATTGTAACGATTCGTAACGAACGTTACGTAATCCCAGTAAAACAAGAATACCGCGGCGTATATGGTGGTATTGTTCACGATCAATCTGCTTCTGGACAAACGTTATTTATTGAACCGCAAGTCATTGTAGAATTAAATAATGCACTACAAGAAGCACGAGTGAAAGAAAAACAAGAAATTGAACGTATATTATTAATGTTAACAGAAGAAGTGGCAGTAGAAGCCGATATCGTTTTATCAAACGTAGAAGTAGTTGCAAATCTTGATTTCATCTTTGCGAAAGCTTTTTATGCGAAGCGAATTAAAGCAACGAAACCAATCGTAAATAACGAGCGTTATATGGATTTAAGACAAGCTCGTCATCCGCTAATCGATCCAGAAATTATTGTGCCAAATAACATTATGCTAGGTAAAGATTTCACGACAATTGTTATTACAGGACCGAATACAGGTGGTAAAACAGTTACGCTGAAAACAGTTGGTATTTGTGTATTAATGGCGCAATCTGGTCTTCACATTCCAGTAATGGATGAGTCAGAGATTTGTGTATTTAAAAACATCTTTGCTGATATTGGTGATGAGCAGTCGATTGAACAAAGCTTAAGTACGTTCTCCTCACATATGGTGAACATTGTAGATATTTTAGAAAAAGCTGATTTTGAAAGCTTAGTTTTATTTGATGAATTAGGTGCTGGAACAGACCCGCAAGAAGGTGCTGCACTAGCAATTTCGATTTTAGATGAAGTATGTAACCGCGGTGCTCGTGTTGTTGCTACGACGCATTACCCAGAATTAAAAGCATACGGATACAACCGTGAGCAAGTTATTAATGCGAGTGTTGAGTTTGATGTAAATACATTAAGTCCAACTTATAAATTATTAATCGGTGTACCAGGTCGCAGTAACGCCTTTGAAATTTCAAAGCGCCTTGGATTATCTGATCGCGTTATTGATCAAGCACGTAACCACATTAGTACAGATACAAATAAAATTGAAAATATGATTGCGAAGTTAGAAGAAAGCCAGAAGAACGCAGAGCGTGACTGGAACGAAGCAGAGGCACTGCGCAAACAATCTGAGAAACTTCATCGTGAGTTGCAACGTCAAATTATTGAGTTTAACGATGAGCGTGATGAAAAATTATTAAAAGCGCAAAAAGAAGGGGAAGAAAAAGTCGAAGCTGCGAAGAAAGAAGCAGAAGGTATTATTCAAGAACTTCGTCAATTGCGTAAAGCACAGCTTGTAAATGTGAAAGATCATGAGCTTATTGAAGCGAAGAGCCGTCTAGAAGGCACAGCGCCAGAGCTTGTGAAGAAACAAAAAGTAAACGTAAAAAACACTGCGCCGAAACAACAGTTACGGGCAGGTGATGAAGTAAAAGTATTAACGTTCGGTCAAAAGGGTCAATTACTTGAAAAAGTAAGTGATACAGAGTGGAGCGTACAAATCGGTATTCTGAAGATGAAAGTAAAAGAATCTAACATGGAATACATTAACACACCGAAGCAAACAGAGAAAAAAGCAGTCGCAAGTGTGAAGGGTAGAGATTACCACGTTTCATTGGAACTTGATCTTCGCGGTGAACGTTATGAAGATGCAATGATGCGCGTTGAAAAATATTTAGACGATGCCCAGCTTGCAAGTTATCCTCGTGTATCAATCATTCACGGTAAAGGAACAGGAGCGCTTCGCCAAGGTGTACAAGATTACTTGAAGAAGCACCGCGGCGTGAAGAATTACCGTTACGGTGACATGGGCGAGGGAGGCCTAGGCGTAACAGTTGTCGAATTAAAATAG	MLERTLRVLEYNKVKEQLLEHTASSLGRDKVKHLVPSTDFEEIVEMQDTTDEAAKVIRLKGSAPLGGITDIRSNVKRAKIGSMLSPNELLDIANTMYGSRNMKRFIEDMVDNGVELPILETHVAQIVSLYDLEKKITNCIGDGGEVVDSASDKLRGIRTQIRTAESRIREKLENMTRSSNAQKMLSDSIVTIRNERYVIPVKQEYRGVYGGIVHDQSASGQTLFIEPQVIVELNNALQEARVKEKQEIERILLMLTEEVAVEADIVLSNVEVVANLDFIFAKAFYAKRIKATKPIVNNERYMDLRQARHPLIDPEIIVPNNIMLGKDFTTIVITGPNTGGKTVTLKTVGICVLMAQSGLHIPVMDESEICVFKNIFADIGDEQSIEQSLSTFSSHMVNIVDILEKADFESLVLFDELGAGTDPQEGAALAISILDEVCNRGARVVATTHYPELKAYGYNREQVINASVEFDVNTLSPTYKLLIGVPGRSNAFEISKRLGLSDRVIDQARNHISTDTNKIENMIAKLEESQKNAERDWNEAEALRKQSEKLHRELQRQIIEFNDERDEKLLKAQKEGEEKVEAAKKEAEGIIQELRQLRKAQLVNVKDHELIEAKSRLEGTAPELVKKQKVNVKNTAPKQQLRAGDEVKVLTFGQKGQLLEKVSDTEWSVQIGILKMKVKESNMEYINTPKQTEKKAVASVKGRDYHVSLELDLRGERYEDAMMRVEKYLDDAQLASYPRVSIIHGKGTGALRQGVQDYLKKHRGVKNYRYGDMGEGGLGVTVVELK				NA	NA	NA	NA	NA
AK009_02586	93			hypothetical protein	ATGTTTATGGACAAACTTGCAAAAGTATTGTTAGCTTGTTGTGGAATATTTTTGGTGATTGGGGTTATTTATTTAGTTGTTTTTGCGAATTGA	MFMDKLAKVLLACCGIFLVIGVIYLVVFAN				NA	NA	NA	NA	NA
AK009_02587	690	rluF_2	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGAAAATCAACCAATACATAAGCGAAGCAAAATCCTGCTCAAGACGTGAAACAGATCGCCTCATTAAAGCTGGACGCGTGGCTATTAACGGCGAAATATGTACGCACGGTGCACTCGTGAGCGATGGTGATGTAGTAACGATTGATGGGCAGGTTATTGCAAAAGAAGAGAAAGAGAAGGTGTATATAGCCTTTCATAAGCCGGTCGGAATTACTTGTACAGCAGCCGATCATATTGAAGATAATATTATTGATTATATCCATTATCCAGAGCGAATCTTTCCAGTTGGGCGATTAGATAAAGCATCAGAAGGACTTATCTTATTAACGAATGACGGTACGATTGCGAATCAAATTTTACATGGTGATCATGAGCACGAGAAAGAATATGTTGTCACAGTCGATAAACCTTTTACGGACTGGTTTATTAATGAGATGTCCAGCGGTGTAAAGATTAAAGATGGTATGACGAAGCCGTGTAAAGTGACGAGAGTCGATCAATCAACATTTCGTATCATTTTAACGCAAGGGATGAACAGGCAAATTCGTAGAATGAGCCGTGCTTTCGGGTTTACTGTAATAAAGCTAAAGCGAGTACGCATTATGAATATAGAGCTAAATGAGCTTGAAGTAGGAAAGTGGAGGAGCGTTACATCGGAGGAATTAGACATTCTAATAGATCAGTTATAG	MKINQYISEAKSCSRRETDRLIKAGRVAINGEICTHGALVSDGDVVTIDGQVIAKEEKEKVYIAFHKPVGITCTAADHIEDNIIDYIHYPERIFPVGRLDKASEGLILLTNDGTIANQILHGDHEHEKEYVVTVDKPFTDWFINEMSSGVKIKDGMTKPCKVTRVDQSTFRIILTQGMNRQIRRMSRAFGFTVIKLKRVRIMNIELNELEVGKWRSVTSEELDILIDQL				NA	NA	NA	NA	NA
AK009_02589	1326	brnQ_4	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAAATCATCTTTAAAGTTTTCAGAGATGTTTGCAATAAGTTTAATGTTATTTGCACTGTTTTTTGGTGCAGGTAATATGATTTTTCCACCAGCGTTAGGGCAAGGTGCTGGAACGGACGTATGGATCGCGCTGTTTGGTTTTATTGTAACAGGCGTTGGACTACCTTTATTAGGCGTAATTGTTATAGCTTTAAAGGGAGATATTAATGAGCTAGCAGGACGTGTACATCCTATATTCGCACTTGTTTTTATCACTGCCATTTATTTATGTTTAGGTGTATTCGTAAGTGTGCCGCGTACAGGAACAGTAGCTTATGAGATGAGTGTTGCACCGTTTTTACCAAGTGAGATAGCAGGTCAGTCATATCCACTTGTTATCTTTACACTTATTTTCTTTGCAGTAACTTTCTATTTAGCTTTAAATCCTTCGAAATTAGTGGGGCGTATTGGTAAAGTGCTAACTCCAATATTATTAGCTGTTATTGCAATTATCGTAGGTAAAGCACTTATTACACCAATTGGAGAATTTGGTGCACCGACAGAAGTGTATAGTGCTCCCCTCTTCAAAGGATTTATTGATGGATATTTAACTTTAGATGGACTTGCAGCACTTGTATTCGGAAATGTTGTAATTCATGCGTTAAAAGAAAAAGGCATTACAAATAAAAATAGTATTGCAAAAGTAACAATCTTTGCAGGATTTATTGCAGCGCTTGGTCTACTACTTGTGTATTTAGCGCTTGCTTATCTTGGAGCTTCTAGTGTGTCACTTGGAATGGGCGCAAACGGAGGAATTATTTTAACAAATGTGGTGAATCATTTATTTGGCAGTTACGGAACTTTATTACTAGGGATCGCAATTACAGCAGCATGTTTAACAACTTCTGTAGGTATTGTTGCAGCTTGTGGTGATTACTTCTCTTCCTTATTACCAAAGCTTTCTTATCAAAAAGTCGTTTTCATTTTCTGTGTATTAGCATTTATGGTAGCAAATCTTGGGTTAACTCAGTTAAATGCATTAGCATTACCAATCTTAATCGCTATCTATCCAATTGGAATCGTACTTATCGTATTATCACTTGTTGAAAACTACGTTCGTCTTCCATTAGCGATGTATGTGGGGGGGATTGTAGGAGCATTTGCAATCAGTTTCTTTGATGGATTACACAATGCAAACCTTCAAATTGCAGCGCTAGCACCTATTTTAGATAAGATTCCATTATATAGTGTAGGAATTGGTTGGTTAGTTCCAGGCATAATCGGTATAGGATTTGGTTATATAGTTTCTAAGTTTCAAAAGCAGGAAATTGCTGTAGAAAAATAG	MKSSLKFSEMFAISLMLFALFFGAGNMIFPPALGQGAGTDVWIALFGFIVTGVGLPLLGVIVIALKGDINELAGRVHPIFALVFITAIYLCLGVFVSVPRTGTVAYEMSVAPFLPSEIAGQSYPLVIFTLIFFAVTFYLALNPSKLVGRIGKVLTPILLAVIAIIVGKALITPIGEFGAPTEVYSAPLFKGFIDGYLTLDGLAALVFGNVVIHALKEKGITNKNSIAKVTIFAGFIAALGLLLVYLALAYLGASSVSLGMGANGGIILTNVVNHLFGSYGTLLLGIAITAACLTTSVGIVAACGDYFSSLLPKLSYQKVVFIFCVLAFMVANLGLTQLNALALPILIAIYPIGIVLIVLSLVENYVRLPLAMYVGGIVGAFAISFFDGLHNANLQIAALAPILDKIPLYSVGIGWLVPGIIGIGFGYIVSKFQKQEIAVEK	PGPT0014385_1193	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
AK009_02590	714	hbp1_1	COG5386	Hemin/hemoglobin-binding protein 1	ATGAAAAAGGTTTCTGTATTACCCGCTTTTATTATAACGTTCGTATGTATGCTAGCTTTTCTTGTAATGCCATACGGAAATGCTTCAGCAAAACTAGCTGATGGTACTTACGATATTAATTACGTAATTCAAAAAGCGGAAAATGATTCAGCTTCAATGGCAAATGACTATTTTGAAAAGCCAGCAAAATTAGTAGTGAAAAACGGTGAGATGAGAGTACAAGTTCCGATGAATCATAGTGCTTGGATTACAGAATTTAAAGCACCAGAGAACGGGGATTTTGTTGATGCGAAAGTTGTTAGTAAAGATGAATCGGCAGATAAAAGAACAGTAGAGTTTAAAGTAGATGATTTATCCAAACCGGCAGCTGTAAAAATTCATGTTGTTGTACCAAATGCAAACTATGACCACCACTACACAATTCGTTTTGCTTTTGATGCAAATGTAAAAGCTGTAGGTGGCGATAACGGCGTAGCTGCTACTACAAAAAATAATGATCAAGCGAAAACAGATACACAAGTAAAAGAAGAGAAAACAAAAGTAGAGAGTAAGGAAACAGCTAAAGAAGTGAACAAAGAAACAAAAAATGAAAATGGAAAAGCTGAAAAAACAGATAATCCAAAAACAGGCGATGAAGCACGTATTGGATTGTTTGCAGCGTTAATTCTTATTTCAGGTGCTTTCTTAATTCGTAAAGTGAAGTTGAGTAAATAA	MKKVSVLPAFIITFVCMLAFLVMPYGNASAKLADGTYDINYVIQKAENDSASMANDYFEKPAKLVVKNGEMRVQVPMNHSAWITEFKAPENGDFVDAKVVSKDESADKRTVEFKVDDLSKPAAVKIHVVVPNANYDHHYTIRFAFDANVKAVGGDNGVAATTKNNDQAKTDTQVKEEKTKVESKETAKEVNKETKNENGKAEKTDNPKTGDEARIGLFAALILISGAFLIRKVKLSK				NA	NA	NA	NA	NA
AK009_02591	459	hbp1_2	COG5386	Hemin/hemoglobin-binding protein 1	ATGTTTAAACAATTTAAAATGATTATTGCCGTATTTGGTGTTTTATTTACGTTTATCGCAACACTAGGTTTACAAGATGCAAAGGCTGCTACAAAACTAGCTGATGGAAAATATAATATTGCTTTTACTGTATGGAAAGGCGATAAAGATGAATCGTCTAGAATGAATAGTTATTTTGAAAGCCCAGCAACATTAACAGTTAAAAATGGAAAACAATATGTTTCATTTAAAGTGAAAGATAGTGCTTCTATTAAAAGTTTCCAAGTAGAAAAAGATGGTCAATTTGTAGAAACAACCGTGTTAAGTGAAAACAAAAAAGATAATACTAGAGTTGTAGAATTTGAAGTTGCTGACTTGTCAAAAAAACTAAATGGCAAAGTGAAAATTAATATTCCAATTATTAATTATAATGCTTCGTATGATATTCGCTTTGTATTTGATGGGAATAGTATTAAATAA	MFKQFKMIIAVFGVLFTFIATLGLQDAKAATKLADGKYNIAFTVWKGDKDESSRMNSYFESPATLTVKNGKQYVSFKVKDSASIKSFQVEKDGQFVETTVLSENKKDNTRVVEFEVADLSKKLNGKVKINIPIINYNASYDIRFVFDGNSIK				NA	NA	NA	NA	NA
AK009_02592	3069			hypothetical protein	TTGAACAGGTATACAAAAATTATTGTTGCTATGTTTTTAATAATATTTACATTCGTATCAACATTACAACCACTTGCAGTTCAAGCAGCTACCAAGTTGGCTGACGGTGAATATTCAATTAGCTTCAAAGTTTTAAAAGATACATCAGATGAAGAATCAATGATGAATCAATATTCAGTAAGCCCGGGAACTTTAAAAGTGAAGGATGGGAAAAAGAAAGTATCCTTTACATTAACAAATAGTTCATGGATTACGAAGTTTGAAACAGAAAAAGCAGGTAAGCTAGTTGCGACAAATGCAATTAGTGAAGATAAAGAAAAAGATACAAGAGTAGTAGAATTTGATGTAGAAGATGTAGAGAAGGTATTAAATGCAAAAGTAAAAGTAGATATTGATTTTTTAAATTATCATCATGAGTACGACGTTCGTATTGCATTTGATCAAAATAGCATTACACCAATTCATGTAGAAAAACCAAATGAAAAAGAGGACCCAGCTAATAAGCCAGATCCAAATGAAACTACCGATCCAGGTCAGAAGCCCGACCAAAAGCCTGACCCAGATCAACAACCAAATTCTAACACAATTACAGATGGTGCGTACAGCATTCCATTTAAAGTATTAAAAGATCAAACAGATGAAGAATCTAAGATGAATACTTACATGGTAAATCCAGGAGTATTAAAAGTAGAAAACGGTAAGAAAAAAGCAATTGTAACACTAAAAAGTAGCTCATTAATTAAAAATTTCCAAACGGAAAAAGATGGCGCATTTGTTGATGCAAAAGTAGTGAGTGAGGATAAGGAAAAAGATACAAGAGTAGTAGAGTTTGAAGTAAACGATTTATCTAAAAAACTAAATACAAAAGTATTTATCGAAATGGCATCAAGAAATTATAAGCAAACGCATGATGTACAACTTTTATTTGAACAAGATAAACTTGAACAAATTAAAAATGAAGAGAAAAAACCAGAAGTAGAAAAACCGGAAGCAGAAAAACCAGAAGTAGAAAAACCGGAAGCAGAAAAACCAGAAGCAGAAAAACCAGAAGTAGAAAAACCGGAAGCAGAAAAACCAGAAGCAGAAAAACCAGAAGTAGAAAAACCAGAAGCAGAAAAACCGGAAGCAGAAAAACCAGATGAAAATAAAAAACCAGATGCTGAAACAATTAAAGATGGTGAATACAGCATCAATTTTAAAGCGTTAAAAGATCAAACAGACGAAATTTCAATGATGAACACATATACAAAAAGTCCAGGTGTGCTAAAAGTAAAAGATGGTAAGAAGTATGTATCATTTACGTTAACGAACAGTTCTTGGATTACAAAATTTGAATTTGAGAAAAATGGTTCGTTTGTTGATGCAAATGTAATAAGTGAAGATAAAAAAGCTGATACACGCGTAGTGGAAGTAGAAGTGCCAGATTTATCGAAAAAGTTAAATGCAAAAGTAAAAGTAGATATCGATTCAATGAATTATCACCATTTTTACGATATTCAATTTGCATTTGATAAAGGTAGCATTAAGCCGTTAGATAACCAAGGCGGAAACAACAACCAAGGTGGAAACGACAACCAAGGCGGAAATAACAACCAAGGCGGAAACAACAACCAAGGTGGAAACGACAATCAAGGCGGAAATAACAACCAAGGCGGAAACAACAACCAAGGTGGAAACGACAATCAAGGCGGAAATAACAACCAAGGTGGAAACGACAATCAAGGCGGAAATAACAACCAAGGCGGAAACAACAACCAAGGTGGAAACGACAATCAAGGCGGAAACGACAATCAAGGCGGAAATAACAACCAAGGCGGAAATAACAACCAAGGTGGAAACGACAATCAAGGTGGAAAAAATAACCAAGATAATAACACAACAATTGATCCAAAAGCTCTTAAAGATGGTGAATACAGCATTGGCTTTAAAGTGTTAAAAGATCAAACAGATGAAATCTCAATGATGAACACATACACAAAAAGCCCAGGTGTATTAAAAGTAAAAGATGGTAAGAAATACGTATCGTTTACATTAACAAATAGTACATGGATTACGAAATTTGAATTTGAGAAGAATGGTTCTTTCGTTAATGCAAAAGTGTTAAGTGAAAATAAAGAACAAAATACAAGAGTAGTAGAAGTAGAAGTAGAAGTAAACGATTTGTCTAAAAAATTAAATGCAAAAGTAAAAGTAGATATTGATTCAATGAATTATCACCATTTCTACGATGTTCAATTTGTATTTGATCAAGACAGTATTAAAGCTTTAGGGAACCAAGGTGGAAACGACAACCAAGGCGGAAACGACAACCAAGGTGGAAACGACAACCAAGGCGGAAACGACAACCAAGGTGGAAACGACAACCAAGGTGGAAACAACAACCAAGGTGGAAACAACAACCAAGGTGGAAATAATAACCCGAGAGTAATAGTTGATCCGAAAAATTTAGTAGATGGCCAATATGATATTACATTTAAAGTATTAAAAGATAAAACAGATGAAATTTCAAAGATGCATGACTATGTTGTAAATCCAGCGAAATTAATCGTAAAAGATGGTAAAAAATACATTGAGATGACGCTGAAAAATAGTGCGTGGATTACGAAATTCCAAACGGAAAACAAGGAACTATTCGCTGATGCGAAAGTAGTAAGCGAAGATAAAAATGCAAATACGCGAGTAGTACAGTTTGAAGTAGAAGATCTATTTGAAAAATTAAACGCAAAAGTAAAGGTAGACATCGATGAGATGAACTATCATCATTTCTACGATGTACAAATTCAATTTGATACAAATAATATCGGCGCGCTAGGAACTATTAAAGAGGAACCGAAGAATGAACCGGAAAATCCAGTGACTACACCGAAAGTAGATAATGTAAAAACAGTAGGTACTCCTGATTTTAACCGAAATGCAGATGGTCAGAAGAAAAAAGAAGATACAAAAAATGATTCAAAAAAAGAGAAAAACTCAAAAACTGCAGATACAGCACAACTTGGTTTATATATGGTGTTACTGCTAGGTTCACTTGCTTTACTAGTTCGTAAATATAGAGCAGGTAGATTGTAA	MNRYTKIIVAMFLIIFTFVSTLQPLAVQAATKLADGEYSISFKVLKDTSDEESMMNQYSVSPGTLKVKDGKKKVSFTLTNSSWITKFETEKAGKLVATNAISEDKEKDTRVVEFDVEDVEKVLNAKVKVDIDFLNYHHEYDVRIAFDQNSITPIHVEKPNEKEDPANKPDPNETTDPGQKPDQKPDPDQQPNSNTITDGAYSIPFKVLKDQTDEESKMNTYMVNPGVLKVENGKKKAIVTLKSSSLIKNFQTEKDGAFVDAKVVSEDKEKDTRVVEFEVNDLSKKLNTKVFIEMASRNYKQTHDVQLLFEQDKLEQIKNEEKKPEVEKPEAEKPEVEKPEAEKPEAEKPEVEKPEAEKPEAEKPEVEKPEAEKPEAEKPDENKKPDAETIKDGEYSINFKALKDQTDEISMMNTYTKSPGVLKVKDGKKYVSFTLTNSSWITKFEFEKNGSFVDANVISEDKKADTRVVEVEVPDLSKKLNAKVKVDIDSMNYHHFYDIQFAFDKGSIKPLDNQGGNNNQGGNDNQGGNNNQGGNNNQGGNDNQGGNNNQGGNNNQGGNDNQGGNNNQGGNDNQGGNNNQGGNNNQGGNDNQGGNDNQGGNNNQGGNNNQGGNDNQGGKNNQDNNTTIDPKALKDGEYSIGFKVLKDQTDEISMMNTYTKSPGVLKVKDGKKYVSFTLTNSTWITKFEFEKNGSFVNAKVLSENKEQNTRVVEVEVEVNDLSKKLNAKVKVDIDSMNYHHFYDVQFVFDQDSIKALGNQGGNDNQGGNDNQGGNDNQGGNDNQGGNDNQGGNNNQGGNNNQGGNNNPRVIVDPKNLVDGQYDITFKVLKDKTDEISKMHDYVVNPAKLIVKDGKKYIEMTLKNSAWITKFQTENKELFADAKVVSEDKNANTRVVQFEVEDLFEKLNAKVKVDIDEMNYHHFYDVQIQFDTNNIGALGTIKEEPKNEPENPVTTPKVDNVKTVGTPDFNRNADGQKKKEDTKNDSKKEKNSKTADTAQLGLYMVLLLGSLALLVRKYRAGRL				NA	NA	NA	NA	NA
AK009_02593	882	isdE_1		High-affinity heme uptake system protein IsdE	TTGAGAGTGAAGAAAATCGTAAGTGTACTAATGGCTATCATTTTGTTAATGAGTATAGCCGGGTGCTCGTCACCAAAAAAAGAAACAGCAAAGCAGGTAAAGAGTGAGAGTAAAGAGCGCGTTGTTGCAACAACAGTGGCTGTTACTGAAATTATGGATGCGTTAGAAGTAGATTTAGTCGGTGTTCCAACAAGTTCTAAAACTTTACCGAAGCGATATAAAGGTTTACCTGAAGTTGGGAATCCAATGAGTCCAGATATGGAAAAGGTAAAGTCATTAAAGCCTTCAGAAGTGTTATCTGTGACAACACTTGAATACGAATTAAAGCCAGTTTTTGATGGTGTGGGTATGAAAGCAAACTTTTTAGATTTAACGAGTTTAAAAAATATGCAAAGTTCTATTAGCGATTTAGGTAAGAAATATGGACGTGAAAAACAGGCTGAAGCAGTAGTAACTAAGTTAGATAAAAAGGTTGCTAGCATTCAAAAGGAAGTAAAAGGAAAGAAAGAACCGACAGTGCTTATTTTATTAGGTGTGCCGGGAAGTTATTTAGTAGCAACAGAGCATTCTTATATTGGAGATTTAGTAAAACAATTAGGTGGTAAAAATATTGTGCAAGGTGAACAAGTAGAATATTTAGCTTCTAATACAGAGTATTTAAAGAAAGCTGATCCAGATATTATTTTACGAGCAGCTCATGGTATGCCTGATGAGGTTGTAAAAATGTTTGATAAAGAATTTAAAACAAATGATATTTGGAAACACTTTGCTGCGGTTAAAAATAACCGTGTTTATGATTTAGAAGAGCGTTTATTTGGAACGACAGGCAATTTAGCAGCAATTGAAGCTTTAGATGAATTGAAAAAAATGATGTATCCGTGA	MRVKKIVSVLMAIILLMSIAGCSSPKKETAKQVKSESKERVVATTVAVTEIMDALEVDLVGVPTSSKTLPKRYKGLPEVGNPMSPDMEKVKSLKPSEVLSVTTLEYELKPVFDGVGMKANFLDLTSLKNMQSSISDLGKKYGREKQAEAVVTKLDKKVASIQKEVKGKKEPTVLILLGVPGSYLVATEHSYIGDLVKQLGGKNIVQGEQVEYLASNTEYLKKADPDIILRAAHGMPDEVVKMFDKEFKTNDIWKHFAAVKNNRVYDLEERLFGTTGNLAAIEALDELKKMMYP				NA	NA	NA	NA	NA
AK009_02594	984	isdF		putative heme-iron transport system permease protein IsdF	ATGAATAAAAAAACTTGGAGTTTCCTCATTGTTACTGCATTGCTCATTGTTATGACATCATTGTCAGCGATGAAAGGGAGTTTAGAAGTAGGTATTGTTGAACTTGTACAAGGGATATTTATAGGTGGAAATGAAGATGTTGAAGTCATTAAAGATTTACGTTTCCCTCGTATTATTATTGCGCTGTTCACTGGAGCGGCTCTTGCTGTTTCAGGGGTGCTTTTTCAAGCTGTTATGAAGAATCCACTCGCTGATGCTGGGGTAATCGGTATATCTTCAGGAGCAAGTTTTATGACACTCGTTATTATTACTTTGTTCCCGCAATTCTTTTTCTGGACCCCCGTATTCGCCTTTTTAGGTGGTGCGCTTGCGTGTTATCTCGTTTATTCGTTTTCATGGAAGTCAGGGTTAAGCCCACTTCGCATTATTTTAATTGGTATTGCCATTAATGCGATGTTTACTGGATTAAATGAATCATTCGTTACGATTTGTGGGTATTTTATTAAAAGTATTAAGCAAACGACGACTTCTAACATAACAATGAAGACGTGGGGCGATGTAGAAATAATGGTGACTTATGGAACGATTGGTCTTATTCTTGCTCTGTTCGTAGGAGCTTGGTGTAACTTATTATCGCTACAAGATAAGACTGCGAAAAACTTAGGCTTGCACGTGACGAGAGTTCGTCTTATTATTTCTGCCATTGCAGTACTCTTAGCGGCAGTATCAACAGCGATTGCAGGTGTTATTGTTTTTGTAGGATTGCTAGTTCCGCATATTTCAAGACAATTGGTCGGTTCAGACCATAAAGTATTAATTCCATTTTCTGCTCTTGCAGGGGCGTTATTAATTTTGACGGCGGATACGATTGGAAGGTTAATTGTGCCACCTAATGAAATTCCAGCAGCAACAATTATGGCGGTTATTGGTGGTCCATTCTTAATATTCTTGCTTAGAAAGAGTGATAAAGTTCATGGAAATTAA	MNKKTWSFLIVTALLIVMTSLSAMKGSLEVGIVELVQGIFIGGNEDVEVIKDLRFPRIIIALFTGAALAVSGVLFQAVMKNPLADAGVIGISSGASFMTLVIITLFPQFFFWTPVFAFLGGALACYLVYSFSWKSGLSPLRIILIGIAINAMFTGLNESFVTICGYFIKSIKQTTTSNITMKTWGDVEIMVTYGTIGLILALFVGAWCNLLSLQDKTAKNLGLHVTRVRLIISAIAVLLAAVSTAIAGVIVFVGLLVPHISRQLVGSDHKVLIPFSALAGALLILTADTIGRLIVPPNEIPAATIMAVIGGPFLIFLLRKSDKVHGN	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
AK009_02595	771	fepC_1	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGGAAATTAAAAATGTAACCTTTTCATATGATAACGTAACAAATCGTTTAAAGTCTGTTAGTAGTGAAATAGAAATTGGGAAAATTACAACAATCATTGGCCCGAATGGATGCGGGAAATCAACATTACTTAGTGTCATGTCTAGAAATCACGTTCCTAGCAGTGGAGAAGTAATACTTGATGGGAAAGCGATTAGTGAATATAAACCGAAAGAGTTTGCTAGAAAGCTAGCAGTTGTCCACCAACAAAATGAGGCTCCAGCAGATATTACAGTGGAAAAGCTAATAAGCTTTGGGCGTATGCCATATAAAAATATTTTCTCTCCGCAAACAGATGAAGATAGAGAAGCGATAGAGCGTGCACTAGTATGTACGAATTTACAAAGTAAGCGTGATAAGCCAATCTATGCTTTATCCGGTGGAGAGAGGCAGCGAGTTTGGATCGCAATGACATTAGCTCAAAATACACCAATGCTTTTCTTAGATGAACCGACAACCTATTTAGATATTTACTATCAGCTAGAAATATTAGAATTAGTGAAAGAGTTAAATGAAGTGTATGGATTAACGATTGTAATGGTATTACATGATATTAATCAAGCCATTCGTTATAGCGACCATATTATCGTTATGAAAGATGGAGAGATCATTACGAAAGGTAATCCTAATGATGTAATAACAGAAGAGATGGTTAAAGCAATATATGGTGTAGATGTCATTGTAAAACAGGATGAAGATACTGGATTGTATATGGTACCTATGGGAATCTAA	MEIKNVTFSYDNVTNRLKSVSSEIEIGKITTIIGPNGCGKSTLLSVMSRNHVPSSGEVILDGKAISEYKPKEFARKLAVVHQQNEAPADITVEKLISFGRMPYKNIFSPQTDEDREAIERALVCTNLQSKRDKPIYALSGGERQRVWIAMTLAQNTPMLFLDEPTTYLDIYYQLEILELVKELNEVYGLTIVMVLHDINQAIRYSDHIIVMKDGEIITKGNPNDVITEEMVKAIYGVDVIVKQDEDTGLYMVPMGI	PGPT0003295_55	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|CHRYSEOBACTIN_TRANSPORT,PGPT0003295-fepC|yusV|cbuC-K23188	NA	NA
AK009_02596	765	srtB	COG4509	Sortase B	TTGAATAGCAAGAACGGACGGAAAAAGAATTCTTTTTTTCAACGCATACTTACAATTGCGTTTTTAGGAATCTTTTTCTATTCAATGTATGAGTTGGGTGGGATTTTCATGGATTATTATGAAAATCGTAAAGTAATGGCTGAGGCACAACATATTTATAAAAGAAGTCCAATGGAAGAAAAATCGGAAGACGGAGAGGTACGTAAACAGTTTCAGGATCTCCAGAAAATTAATCCAGAGATAGTCGGATGGATTACGATGGATGATACACAAATTAATTATCCAATCGTTCAAGCAAAAGATAATGATTACTATTTATTTCGTAATTATAAAGGTGAAGATATGAGAGCGGGAAGCATTTTTATGGACCATCGTAATGATGTGAAATCTCAAAATCGAAATACGATTTTATATGGCCATCGTATGAAAGACGGTTCTATGTTTGGTAGTTTAAAAAAAATGTTGGATGAAGACTTTTTCATGTCCCATCGTAAATTATATTACGATACATTATTTGAAGGATACGACGTTGAAGTTTTTTCAGTATATACGACAACAACGGACTTTTATTACATTGAAACGGATTTTGAAAATGATGCAGTATATACATCGTTCTTAAAGGAAGTTCAAGAAAAATCACTGTACAAAACGGATACGGAATTGACGGCTAATGATGAAATCGTAACACTTTCTACTTGTGACTATGCGCTTGATCCAGAGGCTGGAAGGCTAGTTATACACGCAAAGTTAGTAAAAAGAAATTAA	MNSKNGRKKNSFFQRILTIAFLGIFFYSMYELGGIFMDYYENRKVMAEAQHIYKRSPMEEKSEDGEVRKQFQDLQKINPEIVGWITMDDTQINYPIVQAKDNDYYLFRNYKGEDMRAGSIFMDHRNDVKSQNRNTILYGHRMKDGSMFGSLKKMLDEDFFMSHRKLYYDTLFEGYDVEVFSVYTTTTDFYYIETDFENDAVYTSFLKEVQEKSLYKTDTELTANDEIVTLSTCDYALDPEAGRLVIHAKLVKRN	PGPT0024080_237	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024080-srtB-K08600	NA	NA
AK009_02597	324	isdG	COG2329	Heme-degrading monooxygenase	ATGATTATTGTTACAAATACAGCTAAAATTACAAAGGGAAATGGACATAAATTAATTGAGCGTTTTAATAAAGTAGGTAAAGTTGAAACGATGCCAGGCTTTTTAGGTCTAGAAGTTCTTTTAACGCAAAATACAGTTGATTATGATGAGGTAACAATTAGCACTCGATGGAATGCAAAAGAAGATTTCCAAGGTTGGACAAAGAGCGCCGCATTTAAAGATGCTCACTCACATCAAGGTGGAATGCCAGAATATATTCTTGATAATAAAATTGCTTACTATGATGTAAAAGTTGTACGTATGCCAATGGCTGCAGCACAGTAA	MIIVTNTAKITKGNGHKLIERFNKVGKVETMPGFLGLEVLLTQNTVDYDEVTISTRWNAKEDFQGWTKSAAFKDAHSHQGGMPEYILDNKIAYYDVKVVRMPMAAAQ	PGPT0003630_204	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145	NA	NA
AK009_02598	1200	rlmI	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGCGATCAGAAGTAACTATAAAAATAAAACCGAAATTTATAAAAGAAATTAAAAGTGGATATCCACTTATTTTAAAAGATGCAATTCAAAATTTAAACGATGTTCGTGAAGAAGGGACAATCATCAAAGTAGTAGATGAGAAGAACAACTTTGTCGGAAAAGGTTATTATGGAAAACAAAATAAAGGATACGGCTGGATTTTAACGAGAAAAGAGAGTGAACAAATTAATCAATCTTTCTTTGAAAGTAAAATCAAATCTGCCTTACATAAACGAAAACAATTTTATAAATCAAGTGATACGACAGCATTCCGCGCCCTAAACGGTGAAGGTGATGGTCTTGGCGGACTAATTATCGATTATTATGACGGCTACTACGTAGTAAGTTGGTATAGTGAAGGGATTTATACTTTCAGAGATGAGATTATAGCAGCTCTGCAAAAAGTAGCAAACTTTAAAGGCATTTATGAGAAGAAGCGTTTTGATACGAAAGGGAAATATATTGAGGGTGATGATTTCGTAGCAGGAGAGCGCGGTGAGTTCCCGCTTATCGTAAAAGAGAACGGTGTGAACTTCGCTGTTTATTTAAATGACGGGGCAATGGTTGGTGTATTTTTAGATCAACGTAACGTTCGAAAACAAATTCGTGATAAATATGCAAAGGGAAGAACAGTGTTAAATATGTTCTCTTATACAGGTGCTTTCTCTGTATTTGCAGCGCTTGGCGGAGCGAGTAAAACGACGAGTGTTGACCTTGCAAATCGTAGTTTAAGTAAAACGATTGAGCAGTTTAGTGTCAATGAAGTTGATTATGAAGCACAAGATATTATTGTAGAAGATGTATTTCTTTACTTCAAATATGCAGCTAAGAAAAAGATGAAATTTGATATGGTCGTACTTGATCCTCCAAGCTTCGCCCGATCAAAAAAATATACATTTAGTGCAGCAAAAGATTATAAAAATTTATTGAAAGAAACAATTGCTATTACAGAAAATAACGGTATTATCGTTGCTTCTACAAATTGTAGTGCATTCGATATGAAAAAGTTTAAAGGCTTTATCGATACAGCCTTTAAAGAAATGAATGGCAAATATAAAATATTAGAAGAACATTCTTTACCAGAAGATTTCCGTACCATTGATCAATTTAAAGAAGGAGACTATTTAAAAGTAGTTTTCATCGAGAAAATTAAAGGTTAA	MRSEVTIKIKPKFIKEIKSGYPLILKDAIQNLNDVREEGTIIKVVDEKNNFVGKGYYGKQNKGYGWILTRKESEQINQSFFESKIKSALHKRKQFYKSSDTTAFRALNGEGDGLGGLIIDYYDGYYVVSWYSEGIYTFRDEIIAALQKVANFKGIYEKKRFDTKGKYIEGDDFVAGERGEFPLIVKENGVNFAVYLNDGAMVGVFLDQRNVRKQIRDKYAKGRTVLNMFSYTGAFSVFAALGGASKTTSVDLANRSLSKTIEQFSVNEVDYEAQDIIVEDVFLYFKYAAKKKMKFDMVVLDPPSFARSKKYTFSAAKDYKNLLKETIAITENNGIIVASTNCSAFDMKKFKGFIDTAFKEMNGKYKILEEHSLPEDFRTIDQFKEGDYLKVVFIEKIKG				NA	NA	NA	NA	NA
AK009_02599	195			hypothetical protein	ATGAACGGACAAAAACGTTCTAATATCGCACCCGGTCTTGAAGTTGATATTGTATTAAAACAAGATCAACGAACAGGCAAATTAACACGTGGCATTGTAAAAGATATTTTAACAAACTCCCCTTCCCATCCACATGGCATTAAAGTGCGATTGCAGGACGGGCAAGTCGGTAGAGTACAAAATATCGTTCAATAA	MNGQKRSNIAPGLEVDIVLKQDQRTGKLTRGIVKDILTNSPSHPHGIKVRLQDGQVGRVQNIVQ				NA	NA	NA	NA	NA
AK009_02600	174			hypothetical protein	ATGTCAGAAAACAAAAAAGTAAGCTTAGCTGATTTAATGCGTGAACAACTTGCTAAGAAAAAGCAAGGAAATGGAAATGGTCAAAATGCAAAAAATCAAAACCAAGAAACGAAAAAATTACAAAACCAACAAACAAAGAAGACAAACAACCAACGTAGACGTACAGGTGTGTAA	MSENKKVSLADLMREQLAKKKQGNGNGQNAKNQNQETKKLQNQQTKKTNNQRRRTGV				NA	NA	NA	NA	NA
AK009_02601	693	regX3_2	COG0745	Sensory transduction protein regX3	ATGTCACATCATATTTTATTAGTTGAAGATGATATTTCAATTCAAGAGATGGTGGAAAAATATTTATTAAAGGAAGGCTTTCAAGTTACGATGGCGTCTGACGGGGAAGCAGGGGTGCAAACCTTTTTTAAATCATCTTTTGATTTAGTGATCCTTGATATAATGATGCCGAAGTTAGACGGATTAGAGGTTGTACGTATTATTCGTGAAAAAAGTGCTGTTCCGATTTTAATGATGTCGGCAAAAGATACAGATGTTGATAAAGCTGTTGGCTTAGGACTTGGAGCAGATGATTACATTTGTAAGCCATTTTCTATGATTGAATTGGCTGCACGTGTAAAAGCAGGGATTCGGCGGTCTACGAAATACTCGGCTACAGAAACAACAGAAAAGATGATTCAGATTGGCGATTTAACAATCGATCCAATTAATTTTACTGTAGAAAAAAACGGGAACCCTCTCAAGCTCACTTTAAAAGAATTTGAGATTTTAAAACTGTTCGTAAAAAATCAAAATCGTGTATTTACAAAAGCGCAAATATATACGTTAGTTTGGAATGAAGAGTATTACGGTGATGATAACGTTATTAATGTTCATATGAGAAGATTGCGTGAGAAAATTGAAAGTGATCCATCTAATCCAGAATATATTAAAACGTTATGGGGCATCGGCTATAAGTTGGAAGTGATGTAA	MSHHILLVEDDISIQEMVEKYLLKEGFQVTMASDGEAGVQTFFKSSFDLVILDIMMPKLDGLEVVRIIREKSAVPILMMSAKDTDVDKAVGLGLGADDYICKPFSMIELAARVKAGIRRSTKYSATETTEKMIQIGDLTIDPINFTVEKNGNPLKLTLKEFEILKLFVKNQNRVFTKAQIYTLVWNEEYYGDDNVINVHMRRLREKIESDPSNPEYIKTLWGIGYKLEVM	PGPT0013765_169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK009_02602	936	phoR_2	COG0642	Alkaline phosphatase synthesis sensor protein PhoR	ATGGTCAATTTGTTAATAGGTATTATTTTTATATTGTTATGTGTCATTTATATGCAATATAAAATGAGAAAAAATAGTAGTAAAAATTTACGATACACATATGAAAAGTTAGAAAGTATTGTAAATGACAAAACAGGCGAGACGTTACTCGTTATGACAGATGATCTAGAATTGCAAAAATTATTAGTGGCAATTAATCAATTATTAGATGCAAAACAGAAAACGAATGCAGATCATGCCAAAGTAGAGATTTCGATGAGAAAAATGCTTTCAAATATTTCGCATGACTTGAAAACACCACTAACAGTTATTCTTGGATATACAGAAATGTTAAATAAGGATAAAACGATAAGTGAAGAAGAACAACAAATATTACTTGAAAAAGTGCATACGAAAACATTAGAAGTGATGGAGCTAATTCATAAGTTTTTTGATTTGGCAAAATTAGAATCTGGTGACAAAGCAATTGAAATGACAAAAGTAAATATGAATGAAGTTTGCCGCGAGAAGATTTTATCTTTTTATGATTTAGTGACGACGAAAGGTTTTCAGGTTCATATTGATATACCAGAAAGAAATATATACGCACTTGGAAATGTAGAAGTATTAGGCAGAGTATTGAATAATTTAATATCAAATGCAATTACATATGGAGATGATGGAAAGACACTCGGTATGACTTTAAGAGATGATGAAACGAGTGTGTATATAGACGTATGGGATAAAGGAAAAGGAATTGATGAATCTCATATTGATAAAGTGTTTGAGCGAATGTACACACTTGAAGATTCAAGAAATAGATCGTACCAAGGAAGCGGTCTAGGATTAACGATTACGAAACGGCTTGTGGAAGCGATGGACGGAGAAATACATCTTTCTAGTAAGCCCTATGAAAAAACAATTTTTACAGTTGTATTAAAAAAGATGCTGTTTTAG	MVNLLIGIIFILLCVIYMQYKMRKNSSKNLRYTYEKLESIVNDKTGETLLVMTDDLELQKLLVAINQLLDAKQKTNADHAKVEISMRKMLSNISHDLKTPLTVILGYTEMLNKDKTISEEEQQILLEKVHTKTLEVMELIHKFFDLAKLESGDKAIEMTKVNMNEVCREKILSFYDLVTTKGFQVHIDIPERNIYALGNVEVLGRVLNNLISNAITYGDDGKTLGMTLRDDETSVYIDVWDKGKGIDESHIDKVFERMYTLEDSRNRSYQGSGLGLTITKRLVEAMDGEIHLSSKPYEKTIFTVVLKKMLF				NA	NA	NA	NA	NA
AK009_02603	924	bcrA_2		Bacitracin transport ATP-binding protein BcrA	ATGACATATATAGTAAAAACAAACCAGTTAACGAAAGTGTTTAAAGGGAAAGAAGTTATTTCCGGTGTTAACATGCATGTGAAAAAAGGAGAAATTTATGGTTTTTTAGGACCAAACGGTGCTGGTAAAACAACGATTATGAAAATGATTACAAATTTAATAAAACCGACGAGTGGTGATATAGAAATTTTCGGTGAGAAATTAACAGATACATCGTATGAAGTATTAAAAAGAATGGGGACAATTATTGAATACCCAATCTTTTATGATAAATTAACGGCGAAAGAAAACTTAGACCTGCATTGTGAATATATGGGCTACTACGATAAAAATGCAATTGACCATGCTTTACATTTAGTGAAACTACAAGGGGTAGATAATAAAAAAGTAAAAGATTTTTCATTAGGAATGAAACAACGACTCGGTATTGCAAGGGCAATCGTGACAAAGCCAGAATTGCTCATTTTAGATGAACCAATTAACGGTTTAGATCCAATTGGCATTAAAGAGTTACGAGACTTATTTAAAATGCTCTGCAAAGAATACGGTATTACATTATTAGTTTCTAGTCATATTTTAGGTGAGATGGAATTAATGGCCGATACAATTGGTGTGATTCAAAATGGAAAACTAATAAAAGAAGTTTCAATGAAGAGTATTAACGGAAAGCAAACAGAGTACATTGAAATCACTGTTCCTGATGTGAAACGTGCAGCTTATATTTTAGAAGATAAACTTGGTATAAAAAACTACAAAATAATGAGTGGAACCATGATTCGTGTGTATGATACGTCAGTGTCTCAGCAGGCCATTTCAAAAGCACTTATTATGAACGATGTGGAAATTGAAAGTATTAATAAGAAACATAGTTCCTTAGAAGAATATTTCTTAAATGTAATGGATGGAGAAGGTATTCATGCTTAA	MTYIVKTNQLTKVFKGKEVISGVNMHVKKGEIYGFLGPNGAGKTTIMKMITNLIKPTSGDIEIFGEKLTDTSYEVLKRMGTIIEYPIFYDKLTAKENLDLHCEYMGYYDKNAIDHALHLVKLQGVDNKKVKDFSLGMKQRLGIARAIVTKPELLILDEPINGLDPIGIKELRDLFKMLCKEYGITLLVSSHILGEMELMADTIGVIQNGKLIKEVSMKSINGKQTEYIEITVPDVKRAAYILEDKLGIKNYKIMSGTMIRVYDTSVSQQAISKALIMNDVEIESINKKHSSLEEYFLNVMDGEGIHA	PGPT0006725_11085	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_02604	162			hypothetical protein	ATGCTTAATGGACTGTGGCTGAACCTGGTAAGTGGATTTATCGTAATGCTAATAAGTGGAATTTTATATTATAGAAAACCAGAGCGGAAATGGTTGTTAATTCTACTAGTGATAGGAATGTTAAGCTTCGTTACTGCTGGAATTAGAATGTTAGCAGCATAA	MLNGLWLNLVSGFIVMLISGILYYRKPERKWLLILLVIGMLSFVTAGIRMLAA				NA	NA	NA	NA	NA
AK009_02605	705			hypothetical protein	ATGCTTAGATTAATGAAGCTCGAATGGAAGAAACATAAATTATCTAGTTACTTTAAAGGGGTAGCAATTTGTATTATAGCAATTTTCGCTGCAGTAAGCCTTATGGCGTTGGGAATTAAAGCCGAGGGAGACGTGCTCTTCTTTGACTTCACGCAACAAATGGTTTTAATAAACACTTTTATTAGGATAACATTCATTATTTTTAGTTCGGTCATTTTATCACGGTTAGTAATAGACGAGTATAAGAACAAAACAATGCAACTATCGTTTATGTACCCGCTGCAAAGGAAAATGCTAATGAGGGCGAAATTAACAATTGTTTTTTGTTTTTGTTTTGTGAGCACGATTATCGCTACTTTCATTATTAGTTTGCTCGTTTATTTTGTGAGTCCAATGATGGGACTGATTGAAACACCTGCTACGATAGGCGAAATAATAGCTATCGTTCCAGCTACTATTATAAGTGCATTTATGATATCTGGTATAAGTTTAATTCCTTTATTTTTTGGAATGAGAAAGAAATCGACACCTACAACGATTACTTCCGCAGTAATAATTGGTATGCTGATTAGTGGTAACGTTGGGGCTGGAAACGGTCAAGTAAGTATGTTTGATTTTATAGCTATCCCAATTGTGCTCTGTTTATTAGGGATTTTCATTAGTTATCTATCTTATCGTAAAATCGACAAGGTTGATGTGGCATGA	MLRLMKLEWKKHKLSSYFKGVAICIIAIFAAVSLMALGIKAEGDVLFFDFTQQMVLINTFIRITFIIFSSVILSRLVIDEYKNKTMQLSFMYPLQRKMLMRAKLTIVFCFCFVSTIIATFIISLLVYFVSPMMGLIETPATIGEIIAIVPATIISAFMISGISLIPLFFGMRKKSTPTTITSAVIIGMLISGNVGAGNGQVSMFDFIAIPIVLCLLGIFISYLSYRKIDKVDVA				NA	NA	NA	NA	NA
AK009_02606	693			hypothetical protein	ATGTTACGTCTTATGAAGCTAGAATTGAAAAAGTTTAAGCTTGGCTGGTACGTAAAAGGGGCAGTTATTGCAAATATTACTATACTGGCATTAATGATCTTTACGAGCATCGTTGCTCAAGTAGAAGGTGATCCGGAAATAAGAGATCCGCAGATGATGTTGTTAACGGCTAGTACATTAGTAAGAGCAACATTTATTGTTTTTGGTAGTGTGTTAATCGCAAGGTTAATAATTGGTGAATATAAAAATAAAACAATAATACTTATGTTTTCTTATCCTATTAATCGGAGAAAAATGATGATTAGTAAGTTGGTCATTACAGCGACATTAACATTTATAACAGTTATTGTATCTAACATTTTAATAGTAGGAGTTTTCTTTGGGATAGATAGCTATTTTTCAATTCTTCCTAATCCATTTACAGTAGATCAATTAGTGCAAGAAGGAATAAATCTTGTTCCTTTAGCCATTGCAACTGCGGGAATAAGTTTAATCCCGCTATATTTCGGAATGCGTAAACGTTCAGTGCCAACTACAATTGTTTCATCTATTATTGTTGTGTCAATCGCAATTAATAACCAGCCAATATTTCCGATAGCGACTTTTCTACCTCTTCAATTCACATTTGCAGCGATCGGTATGGTGATTGCTTATTTTGGGATTAAAAATATTGAGAGTGAAGATGCATTATAA	MLRLMKLELKKFKLGWYVKGAVIANITILALMIFTSIVAQVEGDPEIRDPQMMLLTASTLVRATFIVFGSVLIARLIIGEYKNKTIILMFSYPINRRKMMISKLVITATLTFITVIVSNILIVGVFFGIDSYFSILPNPFTVDQLVQEGINLVPLAIATAGISLIPLYFGMRKRSVPTTIVSSIIVVSIAINNQPIFPIATFLPLQFTFAAIGMVIAYFGIKNIESEDAL				NA	NA	NA	NA	NA
AK009_02607	504			hypothetical protein	ATGTACCAAACAATTGAAGGCTTTTTACAATCATGGACATACGAAGCAGAGTCTACTCAGAAAATGCTTGATTCATTAACCGATGCATCTTTATCACAGGAAATTGCACCTGAACATTGGACTTTAGGAAGAGTTGCTTGGCATATCGTGACGGCAATTCCTGTGATACTATCTGGCACAGGGCTAAAGTTTGAAGGAGAAACGAAAGATTATCCTGTTCCAACTTCTGCAAAAACAATTGCAGATGAATACCGTAAAGTAAACGCGGCTTTTGTTGAAACACTTCAAAGTAAATGGACTGATAAAGACTTAGCTACTATTAATGACTTCTTTGGTCGCCCTATGCCGAATTCTATATTTTTAATGACACTCATTAATCATCAAAATCACCACCGCGGGCAAATGACGGTTTTAATGCGACAAGCCGGCTTAACAGTTCCTGGCGTATATGGTCCCGCAAAAGAAGAATGGGCTGCGGCTGGAATGGAAGCTCCTAAAATGTAA	MYQTIEGFLQSWTYEAESTQKMLDSLTDASLSQEIAPEHWTLGRVAWHIVTAIPVILSGTGLKFEGETKDYPVPTSAKTIADEYRKVNAAFVETLQSKWTDKDLATINDFFGRPMPNSIFLMTLINHQNHHRGQMTVLMRQAGLTVPGVYGPAKEEWAAAGMEAPKM				NA	NA	NA	NA	NA
AK009_02608	900			hypothetical protein	ATGAAAAGATTGATTTTAGGAATCATAATTTTATTTTTAATGGTAGGATGTAGCAATGAAACCTATAAAAAAGCAATGGATCAAGGGAAATTGGCGTTAGCGAGTAAAGAATATGACACGGCAGTAGCATCATTTGAGCTAGCATTAGAAGAGAAAAAGGATGATAAAGAAGCAAAGGTATTAAAAGACCAAACTACTAAGATGATAAGTTCGATAAAAGAGAAATCGAGTGGAAATATAGAACAAGCAATAGGTTTGTTTCAAGAAGTAGAAAAGATGAAAGATGGTTCCGCAATCCTTCAAAGTCAAGCGAAAGAACAAAAAGATTCGCTCATAGAGCATAAAGAGTTAAAAGGTCAATATATAGGTCAATTGGAAAAGGCAGAGAAGTTAAAGAGTGATAAAAAGTATGAAGAGGCTAAAGGGATAGTAAATAAAATTGTTAACGATACTGGCCAAAATCAACAATTTATTTCGGAAAATCAACGGGCCGAAGAGCTGAATAAGCAAATCGATGGCTTACTAACTCAACAAGCAGAAGTTAAGAAAAAAGAGGAAGAGTTAAAAAATGAAAAGAAAAAAGAGGCTGATATTGGAAAGTTAAAGGGGTCTTGGATGTCATCAGAAAGTACAGACAGGCCAGTTGGGTTGGAAATAGAATCTATTAATAGTGAGAAAACAGGCGGAGAATTTATGGAACATAATATTTTTGGGAAAGGGACTACTATAGGAGACTTTCGAATATTAAGTGTGGACCAAGGGATTATTTCTGTAGAGCTTGTATTTTTAGTGGGGGAAATAAAGCATAAGGCTGATTTGAAAATTGAGGAGAACACATTAACTGTACATCATGAGTTTATGGGGAGTACTAAATCTGTGAAATTAGTGAGATCAGAGTAA	MKRLILGIIILFLMVGCSNETYKKAMDQGKLALASKEYDTAVASFELALEEKKDDKEAKVLKDQTTKMISSIKEKSSGNIEQAIGLFQEVEKMKDGSAILQSQAKEQKDSLIEHKELKGQYIGQLEKAEKLKSDKKYEEAKGIVNKIVNDTGQNQQFISENQRAEELNKQIDGLLTQQAEVKKKEEELKNEKKKEADIGKLKGSWMSSESTDRPVGLEIESINSEKTGGEFMEHNIFGKGTTIGDFRILSVDQGIISVELVFLVGEIKHKADLKIEENTLTVHHEFMGSTKSVKLVRSE				NA	NA	NA	NA	NA
AK009_02609	2037	fpuB_1	COG0609	Petrobactin import system permease protein FpuB	ATGAATAGCCTACAACATACACTTCGAGCAAGTCTTGTATTCGGAGGAGGAGCAGCTCTCTTGCTCCTCCTTTTCTTTATTCATATCGGACAAGGTCAAGCAAACATTTCCTATAGTATGATTATTGATGCTCTTATCTCACCGAACCAATCACTAGAGCATCAAACTTTAATTATGCTTCGATTACCTAGGGCCGTAATTGCCATTTTAGCTGGAGGTGCTCTTGCTGCATCTGGGGTCATTTTACAAACATTAACGAAAAATCCACTTGCTGAATCCAGTACAATGGGTATTCACTCTGGCGCATATTTCTTTCTAGTAGCGGCTACAATTTTTTTACCAAAAGGTCTGCAAATTAATTCACTTCTTTTCACATTTATCGGCGGTGCTATTACCGCTTTATTTGTATACCGTATTTCTGGTGGAAAAAAGGGAACCCCACTTAGAATGGCACTAGCTGGTATGGTCGTTACATTAATGCTTTCTGCCTTTACTGGAACGATGCAGCTTTTCTATGAAAATGAAACAGCTGGTTTATTTTTATGGGGAGCTGGATCTCTTATTCAAAATAACTGGGATGGCGTTCAATTTGCTTTTCCATTTATCATTATTTCTTTCCTAGTTTTACTATTTATGTCTCGTAAACTCAACATTCTCTTACTTGGTGATGATGTCGCTGTTTCTCTTGGTGAAAAAACAGCAGTAACACGTCTTATCGCCTTCATTGCTGCGATCTTTTTAACAGCAGTAATTGTAACTGTTGTTGGACCAATTGGATTTGTTGGCTTAGTTGCACCACATTTAATGCGTCTTATTGGCTACCGTCAACACTTTACTCTCCTTCTCTCTTCTTTCTTATGGGGAGCTGTACTATTACTTGGAGCTGATGTCGTTGGTAGACTAATAGATCCAACTGGGGCTGAACTTCCTGTCGGAGCAGTCACGGCAATGATTGGATCACCTTGGCTTATTTACTTAGTCTATCGAATGATGAAATCGAAACAATATATGAATGATAACGGAGCGAATGCAGCTGGAGCTAGTTCTCGCTATTACTCTTATAAAAAGGTAATCATTATCTCTATCACACTTTGCATTGTGACAATTACTCTTGGTGTTACAATCGGTAGTAACGCTTATATCGAAAGTATTACAAATGTTATATCAGGACAATTAACACAATTTGATAAAAATATGATGATGAACCTTCGTTTACCAAGAATGCTCGTTGCTGCTATTGCTGGCGCATGCCTTGCAATAAGTGGGCTTGTTTTCCAAGGTATATTACGAAACCCACTCGCCGATCCTTCTATTATTGGTATTTCATCGGGAGCTGGTGTTGGTGCTTTAACTATTATGTATGTCTTTCCCGCACTTCCTGGTTTCTTCCTACCAATTGGTGCATTTATCGGCGGACTACTTGCAGTTGGAATTGTTCTCTTCTTCTCATGGAAATCAGGATTTAGCCCAACAGCCCTTGCTTTAATAGGAATTGGTATTTCAGCTCTCGGTTCAGCGATTATTCAAATCTTTATCGTTAGAGCAAATTTGAACGTTGCTGCTGCTTTAACATGGCTATCAGGTAGCACGTATGCAAGAGGATGGAATCACTTAGAAAATATCATTCTATATCCATCGCTAATTCTTGTATTCATTATCTTTTTCTTAATAAAACAACTTGATGTTCTCGTACTTGGAGACGATTTAGCAACGGGACTCGGGCAACCAGTAAATAAAACGCGCCTTGCCCTCATTGTGTTAGCAACACTACTTGCATCTGTAAATATCGCAGCTGTCGGTACAATTGCCTTTCTAGGTCTTGTTGCGCCACACTTAGCACGAATCGTCGTTGGTATGAATCATCAAAGATTATTCGTTTGCTCCGCACTATTTGGAGCAATCCTTCTTTCCATTGCTGATTTACTCGGACGAACAATTGCATATCCGAAAGAAATTCCTTCTGGACTTGTCGTTGCTGTACTTGGAGCACCTTATTTCTTATGGTTGATGAGGAAGAGTGGGAAGAAGGTTAATTAA	MNSLQHTLRASLVFGGGAALLLLLFFIHIGQGQANISYSMIIDALISPNQSLEHQTLIMLRLPRAVIAILAGGALAASGVILQTLTKNPLAESSTMGIHSGAYFFLVAATIFLPKGLQINSLLFTFIGGAITALFVYRISGGKKGTPLRMALAGMVVTLMLSAFTGTMQLFYENETAGLFLWGAGSLIQNNWDGVQFAFPFIIISFLVLLFMSRKLNILLLGDDVAVSLGEKTAVTRLIAFIAAIFLTAVIVTVVGPIGFVGLVAPHLMRLIGYRQHFTLLLSSFLWGAVLLLGADVVGRLIDPTGAELPVGAVTAMIGSPWLIYLVYRMMKSKQYMNDNGANAAGASSRYYSYKKVIIISITLCIVTITLGVTIGSNAYIESITNVISGQLTQFDKNMMMNLRLPRMLVAAIAGACLAISGLVFQGILRNPLADPSIIGISSGAGVGALTIMYVFPALPGFFLPIGAFIGGLLAVGIVLFFSWKSGFSPTALALIGIGISALGSAIIQIFIVRANLNVAAALTWLSGSTYARGWNHLENIILYPSLILVFIIFFLIKQLDVLVLGDDLATGLGQPVNKTRLALIVLATLLASVNIAAVGTIAFLGLVAPHLARIVVGMNHQRLFVCSALFGAILLSIADLLGRTIAYPKEIPSGLVVAVLGAPYFLWLMRKSGKKVN	PGPT0003320_282	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003320-fhuB-K23228	NA	NA
AK009_02610	975	fpuA	COG0614	Petrobactin-binding protein FpuA	ATGAAGAAAATTCTCAGTATTTTCATAGTAGTTCTTCTATTCGCTGTTGGATGCGGACAGCAAAAAGAGGAGAAAAAGGAAACAAAAGCGGACAATAAAAATCAAGCTATAACAATTAAACACGCTGAAGGGGAAACAAAGTTAGATAAACCAGCGAAAAAAGTAGTTGTACTTGAGTGGGTATATTCAGAAGACTTATTAGCACTTGGTGTTCAGCCAGTAGGGATGGCAGACATTAAGAATTATAATAAATGGGTAAATACAAAAACAAAACCAAGTAAAGATGTTGTAGATGTAGGGACACGTCAACAACCAAACTTAGAAGAAATTAGCCGTTTAAAACCAGATTTAATTATCACAGCTTCATTCCGTAGTAAAGCAATTAAAAATGAATTAGAGCAAATTGCACCAACAGTTATGTTTGATCCATCAACAAGCAATAACGATCACTTTGCTGAAATGACAGAAACATTTAAACAAATTGCAAAAGCAGTTGGAAAAGAAGAAGAAGGTAAAAAAGTATTAGCTGATATGGATAAAGCCTTCGCTGATGCAAAAGCAAAAATTGAGAAAGCAGACTTAAAAGATAAAAACATCGCAATGGCACAAGCATTTACTGCTAAAAACGTACCAACATTCCGTATCTTAACTGACAATTCTTTAGCTTTACAAGTTACAAAAAAATTAGGTTTAACAAATACTTTTGAAGCAGGAAAATCTGAGCCAGATGGTTTCAAACAAACAACTGTAGAATCATTACAAAGTGTACAAGATTCAAACTTCATTTACATTGTAGCGGATGAAGATAACATTTTTGACACTCAACTAAAAGGCAACCCTGCTTGGGAAGAATTAAAGTTCAAAAAAGAAAACAAAATGTATAAATTAAAAGGCGACACTTGGATTTTCGGTGGTCCTGAGTCTGCAACATCTTTAGCAACACAAGTAGCAGATGTAATGACAGCGAAGAAGTGA	MKKILSIFIVVLLFAVGCGQQKEEKKETKADNKNQAITIKHAEGETKLDKPAKKVVVLEWVYSEDLLALGVQPVGMADIKNYNKWVNTKTKPSKDVVDVGTRQQPNLEEISRLKPDLIITASFRSKAIKNELEQIAPTVMFDPSTSNNDHFAEMTETFKQIAKAVGKEEEGKKVLADMDKAFADAKAKIEKADLKDKNIAMAQAFTAKNVPTFRILTDNSLALQVTKKLGLTNTFEAGKSEPDGFKQTTVESLQSVQDSNFIYIVADEDNIFDTQLKGNPAWEELKFKKENKMYKLKGDTWIFGGPESATSLATQVADVMTAKK	PGPT0003330_278	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003330-fhuD-K23227	NA	NA
AK009_02611	750			hypothetical protein	ATGTCTTCATGGAGCAATAACATAAATGGATATTGTGGGTGTAATAATCAAAATGGTGTACATGTTGATTCATGCTGTTTTAGTTGCGATGGGACAGTTCCTAAGGTTGGTCCAACCGGTCCGACGGGAGCGACAGGAATAACAGGAGCAACAGGCTCAACGGGAGCGACAGGAGTAACAGGCGACACAGGGGCAACGGGAGCGACAGGAGTAACAGGCGATACAGGGGCAACGGGAGCGACAGGGATAACAGGAGCAACAGGCCCAACGGGAGCGACAGGAGTAACAGGCGATACAGGGGCAACGGGAGCGACAGGCCCAACAGGAGCAACAGGCACAAGTATAACGGCAACATACGCATTTGCAAATAATACGTCGGGAACAGCAATATCGGTACTACTAGGTGGAACAAATGTCCCGCTTCCAAACAATCAGAATATCGGTCCAGGTATTACAGTGTCTGGGGGGAACACAGTATTTACGGTTGCAAATGCAGGGAACTATTATATTTCATATACAATTAATATAACCGCTTCATTATTAGTTAGTTCACGAATTACAATTAATGGGGCACCGCTTGCTGGGACTATTAATTCTCCTGCATTAGCAACGACATCATTTAGTGCGACAATTATTACGACCCTTGCGGCGGGGAGTGCAATTAGTTTGCAATTATTTGGTTTGTTAGCTGTTGCGACATTATCAACAACTACCCCAGGAGCGGTATTAACGATTATAAGATTAAGTTAA	MSSWSNNINGYCGCNNQNGVHVDSCCFSCDGTVPKVGPTGPTGATGITGATGSTGATGVTGDTGATGATGVTGDTGATGATGITGATGPTGATGVTGDTGATGATGPTGATGTSITATYAFANNTSGTAISVLLGGTNVPLPNNQNIGPGITVSGGNTVFTVANAGNYYISYTINITASLLVSSRITINGAPLAGTINSPALATTSFSATIITTLAAGSAISLQLFGLLAVATLSTTTPGAVLTIIRLS				NA	NA	NA	NA	NA
AK009_02612	1686	fadD	COG0318	Long-chain-fatty-acid--CoA ligase	GTGGAAAAAACATGGTTGAAAAGTTATCCAGAGGAAATTCCTAGTACGATTTCTTATGATATTCAGCCACTTCATGGATATGTAGAACAGATGGCTTCTCGCTACCCAGAAAAGAAAGCGCTTCACTTTTTAGGGAAGGATATTACGTTTTCGGACTTCCATGATAAGGTGAAGAGGTTTGCAAATTATCTTCAAAAGCTCGGTGTGGAAAAGGGTGATCGAGTTGCTATTATGTTGCCGAATTGTCCGCAAGCTGTAATTGGTTATTACGGTACATTACTTGCGGGAGGTATCGTAGTACAAACCAATCCACTGTATACAGAAAGGGAATTAGAATATCAGCTTCATGACTCGGGAGCAAAAGTAATTCTTTGTCTCGATTTAGTGTTTCCAAGAGTAACGAATGTTCAATCTGCTACAAAAATTGAGCATATTATCGTAACTCGTATTGCAGACTTTTTATCATTCCCTAAAAATCTATTGTATCCATTTGTGCAGAAAAAACAGTCGAATTTAGTTGTGAAAGTATCAGAGAGTGAAACGATTCATCTTTGGAATTCAGTAGAAAAAGAAGTGAATACGAATGTTGAGGTGCCTTGTGATCCTGAAAATGATCTAGCTCTTTTACAGTACACAGGAGGAACAACCGGATTTCCAAAAGGAGTTATGTTAACGCATAAAAACCTCGTTTCTAACACTTTGATGGGAGTGCATTGGTTATATAATTGTAACGAAGGTGAAGAAGTCGTCCTTGGGGTTCTTCCATTTTTCCATGTTTATGGTATGACAGCTGTTATGAATTTAAGTATTATGCAAGGATACAAAATGGTCCTTATTCCAAAGTTTGATATGAAAATGGTTTTTGAAGCGATTAAGAAGCATAAAGTGACATTGTTTCCAGGGGCTCCAACTATTTATATCGCTCTTTTAAATAGCCCGCTTTTAAAAGAATACGATATTTCTTCTATTCGTGCTTGTATTAGTGGATCGGCACCACTGCCAGTAGAAGTACAGGAAAAGTTCGAAAAAGTTACAGGTGGTAAACTAGTAGAGGGATATGGTTTAACAGAATCATCTCCGGTTACACATAGTAATTTTTTATGGGAAAAGCGAGTGCCGGGTAGCATTGGAGTTCCGTGGCCAGATACAGAGGCAATCATTATGTCACTTGAAACTGGTGAGGCATTACCACCAGGAGAAATAGGGGAAATTGTAGTGAAAGGTCCTCAAATTATGAAAGGATACTGGAATAAGCCAGAGGAAACAGCGGCTGTATTGCAAGATGGCTGGCTCCATACAGGTGACGTTGGATACATGGATGAAGATGGATTCTTCTATGTAAAAGATCGCAAGAAAGATATGATTGTCGCGAGTGGATTTAATGTGTATCCTCGTGAAGTTGAAGAAGTATTATATGAGCATGAAAAAGTGCAAGAAGTAGTGACAATTGGAGTTCCAGATCCGTACAGAGGAGAGACAGTTAAAGCATTTGTTGTGTTAAAAGAAGGTACGGAGTGCTCTGAGGAAGAATTAAATCAGTTTGCACGTAAATATTTAGCGGCTTATAAAGTGCCGAAAGTATATGAGTTTAGAGATGAATTGCCGAAAACGACAGTAGGGAAAATTTTACGCCGTGTTTTAATGGATGAAGAGAAGAGAAAGAATGAGGATGAGCAAACGGGCTAA	MEKTWLKSYPEEIPSTISYDIQPLHGYVEQMASRYPEKKALHFLGKDITFSDFHDKVKRFANYLQKLGVEKGDRVAIMLPNCPQAVIGYYGTLLAGGIVVQTNPLYTERELEYQLHDSGAKVILCLDLVFPRVTNVQSATKIEHIIVTRIADFLSFPKNLLYPFVQKKQSNLVVKVSESETIHLWNSVEKEVNTNVEVPCDPENDLALLQYTGGTTGFPKGVMLTHKNLVSNTLMGVHWLYNCNEGEEVVLGVLPFFHVYGMTAVMNLSIMQGYKMVLIPKFDMKMVFEAIKKHKVTLFPGAPTIYIALLNSPLLKEYDISSIRACISGSAPLPVEVQEKFEKVTGGKLVEGYGLTESSPVTHSNFLWEKRVPGSIGVPWPDTEAIIMSLETGEALPPGEIGEIVVKGPQIMKGYWNKPEETAAVLQDGWLHTGDVGYMDEDGFFYVKDRKKDMIVASGFNVYPREVEEVLYEHEKVQEVVTIGVPDPYRGETVKAFVVLKEGTECSEEELNQFARKYLAAYKVPKVYEFRDELPKTTVGKILRRVLMDEEKRKNEDEQTG	PGPT0008380_9884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_02613	633	fadR_2		Fatty acid metabolism regulator protein	ATGAATGAATATTCATTCAGTCATCTTCTTGAAGGGGACAGTAAAGTGAAGAAAAATAGACCGAAATACAATCAAATTATTGATGCGGCAGTCATTGTGATTGCGGAGAATGGGTACCACCAAGCGCAAGTTTCTAAAATCGCAAAGCAAGCTGGGGTAGCTGATGGCACGATTTATTTATATTTTAAAAATAAAGAAGATATATTAATATCCTTATTCCAAGAGAAGATGGGAGATTTTGTCGAAACAATTCGTCAAAAAACAGCAGGAATTGAAAGCGCTGTATCGAAGTTATTCATGTTGGTAGAAACGCACTTCTTGCTGTTGTCACAAAATGATCCCCTTGCTATCGTTACGCAATTAGAGCTCAGGCAGTCCAATCAAGACTTGCGCCTTAAAATAAATGAAGTATTAAAAGGCTACTTACAAGTTATGGATGAGATTTTAGAGACTGGTATAAAACAAGGTGAATTTCAAGCAGATTTAAATGTTCGCGTGGCAAGACAAATGATCTTTGGAACAGTAGATGAAGTTGTGACCAATTGGGTAATGAGCGATCATAAGTATGATCTGGTCGCACTTTCAAAAACGGTACATGGGCTACTCATTGCAGCTTGTGGTTATCGTCAATAA	MNEYSFSHLLEGDSKVKKNRPKYNQIIDAAVIVIAENGYHQAQVSKIAKQAGVADGTIYLYFKNKEDILISLFQEKMGDFVETIRQKTAGIESAVSKLFMLVETHFLLLSQNDPLAIVTQLELRQSNQDLRLKINEVLKGYLQVMDEILETGIKQGEFQADLNVRVARQMIFGTVDEVVTNWVMSDHKYDLVALSKTVHGLLIAACGYRQ	PGPT0023505_78	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
AK009_02614	777	fadB	COG1024	putative enoyl-CoA hydratase	ATGTTGAAATTCCTATCTGTAAGAGTTGAAGATCATATCGCGGTGGCGACGTTAAATCATGCACCAGCAAATGCGATGTCTTCACAAGTTATGCATGACGTTACTGAATTAATTGATCAAGTGGAAAAGGATGATAACATTCGTGTTGTTGTTATTCACGGTGAAGGACGTTTCTTCTCAGCAGGAGCAGATATTAAAGAATTTACATCTGTTACTGAAGCGAAGCAAGCAACAGAATTAGCACAGCTTGGACAAGTTACGTTTGAGCGTGTTGAAAAATGTTCAAAACCAGTTATTGCGGCAATTCATGGAGCGGCACTGGGCGGCGGCCTTGAGTTTGCTATGTCTTGCCACATGCGCTTTGCAACTGAAAGTGCAAAACTTGGTTTACCTGAATTAACACTTGGATTAATTCCTGGCTTTGCAGGTACACAGCGCTTACCACGTTATGTTGGGAAAGCAAAAGCTTGTGAAATGATGTTAACAAGTACACCAATTACTGGTGCAGAAGCATTGAAATGGGGACTTGTTAACGGATTGTTCTCTGAAGAATCACTTTTAGATGATACGCTTAAAGTCGCAAAACAAATTGCTGGAAAAAGTCCAGCAACAACTCGTGCTGTACTAGAGTTATTGCAAACGACCAAATCGTCTCATTACTATGAAGGTGTACAACGTGAATCACAAATTTTTGGTGAAGTATTTACGAGTGAAGATGGAAGAGAAGGTGTAGCTGCATTTTTAGAAAAGCGTAAACCTTCATTTAGTGGCAGGTAG	MLKFLSVRVEDHIAVATLNHAPANAMSSQVMHDVTELIDQVEKDDNIRVVVIHGEGRFFSAGADIKEFTSVTEAKQATELAQLGQVTFERVEKCSKPVIAAIHGAALGGGLEFAMSCHMRFATESAKLGLPELTLGLIPGFAGTQRLPRYVGKAKACEMMLTSTPITGAEALKWGLVNGLFSEESLLDDTLKVAKQIAGKSPATTRAVLELLQTTKSSHYYEGVQRESQIFGEVFTSEDGREGVAAFLEKRKPSFSGR	PGPT0008390_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
AK009_02615	774	etfB	COG2086	Electron transfer flavoprotein subunit beta	ATGAACATCTACGTACTCATGAAACGAACATTTGATACAGAAGAAAAAATCGTAATTAAAAACGGTGCAATTTACGATGGCGAAGCGGAATTCATCATCAACCCTTACGATGAATATGCAATTGAAGAAGCAATTCAAGTAAGAGACGCACAAGGTGGAGAAGTTACAGTTGTAACAGTCGGTGGCGAAGATAGTGAGAAAGAACTTCGTACTGCATTAGCGATGGGCTGTGATAAAGCGGTATTAATTAATATTGAAGATGATGTAGAAAATGGTGACCAGTTCACGACAGCAAAAGTGCTTGCTGAATATTTAAAAGATAAAGATGCAGATCTAATTTTAGGTGGAAACGTTGCAATTGATGGTGCATCTGGACAAGTAGGTCCACGCGTAGCTGAAGCGTTAAATATTCCGTATGTAACGACAATTACAAAACTTGAAATTGACGGTACAAATGTGAAGATTGAGCGTGATGTTGAAGGTGATACAGAAGTGATTGCAACTTCATTACCAGTGTTAGTAACAGCACAGCAAGGTTTAAATGAACCTCGTTATCCATCGCTTCCAGGTATTATGAAAGCGAAGAAAAAGCCACTAGAAGAATTAGAATTAGATGATTTAGATTTAGAAGAAGATGATGTGGAAGCAAAGACAAAAACAATTGAAATCTATTTGCCTCCTAAGAAAGATGCAGGAAAAGTGTTACAAGGCGAGCTGCAAGATCAAGTAAAAGAACTTGTATCGTTGCTCCATACAGAAGCGAAAGTAATCTAA	MNIYVLMKRTFDTEEKIVIKNGAIYDGEAEFIINPYDEYAIEEAIQVRDAQGGEVTVVTVGGEDSEKELRTALAMGCDKAVLINIEDDVENGDQFTTAKVLAEYLKDKDADLILGGNVAIDGASGQVGPRVAEALNIPYVTTITKLEIDGTNVKIERDVEGDTEVIATSLPVLVTAQQGLNEPRYPSLPGIMKAKKKPLEELELDDLDLEEDDVEAKTKTIEIYLPPKKDAGKVLQGELQDQVKELVSLLHTEAKVI	PGPT0001035_2034	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
AK009_02616	978	etfA_1	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCTCGTAAAGTATTAGTAATGGGTGAAGTTCGTGATGGATCGCTACGTAACGTTTCGTTTGAAGCGGTAGCAGCAGCAAAAACAATTGCAGAAGGCGGTGAAGTAGTAGGTCTTCTAGTTGGAGACAGCGTTGCCTCTTTTGCAAATGAATTGATTCATTACGGTGCAGATCGCGTTGTGACAGTTGAAAATGATAAATTAAAATCATATACATCTGATGGTTATGCACAAGCGTTTTTAGCTGTACATGCTGAAGAAAATCCAGAAGGTATTGTCTTTGGACATACAGCACTTGGTAAAGATTTATCACCAAAATTAGCAGCGAAGCTTGAAGCTGGTTTAGTTTCTGACGTAACTGATTTAGAGGTTGAAGGTGGAAATGTTATCTTCACTCGTCCGATTTACTCTGGTAAAGCATTCGAGAAGAAGATTGTAACAGACGGCATCTTATTTGCGACAGTGCGTCCAAATAACATTGCAACTCTGGAAAAAGATGAGTCTCGCAGCGGTGACGTATCTTCTATTACAGTTGATGTGAAAGATTTACGTACAATCATTCAGGATGTTGTCCGTAAAACAGCAGAAGGTGTTGATCTTTCTGAAGCGAAAGTTATTATCGCTGGCGGACGCGGTGTGAAGAGTGAAGAAGGATTTAAACCATTAAAAGAGTTAGCTGACGTACTAGGCGGCGCTGTTGGGGCATCTCGTGGTGCTTGTGACGCTGAATACTGTGAGTACTCATTACAAATTGGTCAAACTGGTAAAGTTGTTACGCCAGACTTATACATTGCATGTGGTATTTCTGGTGCGATTCAGCATTTAGCAGGTATGTCTAACTCAAAAATAATCGTTGCGATTAATAAAGATCCAGAAGCAAGTATCTTCAAAGTAGCTGACTACGGTATTGTCGGTGACTTGTTCGAAGTTGTACCTCTTTTAACAGAAGAGTTTAAAAAGTTAAAAGTACATTCATGA	MARKVLVMGEVRDGSLRNVSFEAVAAAKTIAEGGEVVGLLVGDSVASFANELIHYGADRVVTVENDKLKSYTSDGYAQAFLAVHAEENPEGIVFGHTALGKDLSPKLAAKLEAGLVSDVTDLEVEGGNVIFTRPIYSGKAFEKKIVTDGILFATVRPNNIATLEKDESRSGDVSSITVDVKDLRTIIQDVVRKTAEGVDLSEAKVIIAGGRGVKSEEGFKPLKELADVLGGAVGASRGACDAEYCEYSLQIGQTGKVVTPDLYIACGISGAIQHLAGMSNSKIIVAINKDPEASIFKVADYGIVGDLFEVVPLLTEEFKKLKVHS	PGPT0001040_1901	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
AK009_02617	315	trxA	COG0526	Thioredoxin	ATGGCAATTGTAAACGCAAATGACCAAAGCTTCGCAGCTGAAACTAGCGAAGGTGTTGTATTATTAGATTTCTGGGCACCTTGGTGTGGACCTTGTAAAATGATCGCTCCTGTATTAGAGGAAATCGATGCAGAATTAGGCGAAAAAGTAAAAGTAGTAAAAGTAGATGTTGATGAAAACCAAGAAACTGCTCGTCAATTCGAAGTAATGAGTATTCCAGCTCTTTTCGTATTAAAAGACGGTAAAGTAGTTGATCAAGCGTTAGGTTACAAACCGAAAGAAGCGTTAGTAGAATTAGTTTCTAAACACTTCTAA	MAIVNANDQSFAAETSEGVVLLDFWAPWCGPCKMIAPVLEEIDAELGEKVKVVKVDVDENQETARQFEVMSIPALFVLKDGKVVDQALGYKPKEALVELVSKHF	PGPT0013055_9987	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK009_02618	1785	uvrC_2	COG0322	UvrABC system protein C	GTGCACGAACATTTGAAAGAAAAGTTGGCTATTTTACCAGATCAACCTGGTTGTTATTTAATGAAAGATAAGCAAGGAACGGTTATATATGTCGGAAAGGCAAAAGTGCTTAAAAATCGTGTGCGCTCGTACTTTACTGGTTCACATGATGGGAAAACACTGCGGCTTGTAGGAGAAATTGTTGATTTTGAATATATTGTAACCTCTTCGAATTTAGAAGCACTTATTTTAGAGTTAAATCTAATTAAAAAATATGATCCGAAATATAATATTCAATTAAAAGATGATAAAACATATCCTTTTATTAAAATTACAGCGGAGAAACAACCGCGCTTACTCATTACTCGAAATGTAAAAAAGGATAAAGGAAAGTATTTTGGTCCTTATCCAAATGCACAATCTGCTCATGAAACGAAAAAACTGCTAGATCGTATGTATCCACTTCGGAAATGCACGAATATGCCAGATAAAGTTTGTTTGTATTATCATATGGGTCAATGTCTAGCGCCTTGTGTGAAAGAAGTGACGGAAGAACAAAATAAAGAAATTGTAGATGAAATTATTAAGTTTTTAAATGGTGGGCATAAAGAAGTTCGTTCAGAATTAGAAATAAAAATGTATGAGGCCTCAGAGAAACTAGAGTTTGAACGTGCAAAAGAGTTGCGTGATCAAATTGCTCATATTGATGCGATTATGGAAAAACAAAAGATGATTATGAGTGACTTAGTGGATCGCGATGTGTTTGGATATGCAGTGGATAAAGGATGGATGTGTGTTCAAGTTTTCTTCGTTCGAAAAGGCAAGCTAATTGAACGTGATGTTTCTATGTTTCCGATTTACGATGAACCAGAAGAGGGCTTTTTAACGTTTATCGGCCAATTTTATGAAAACAGTAGTCATTTTAAGCCGAAGGAAATTGTCGTTCCAGGAAGTATAGACTCGGAATTAGTAGAGCGCTTTTTAGAAGTGGAAGCGACACAGCCGAAACGTGGTAAGAAAAAAGACCTTGTAGAATTAGCAAATAAAAACGCAAAAATTGCTCTTGAAGAGAAGTTTTACTTAATCGAACGTGATGAAGAACGAACGATTAAAGCGGTAGATCATTTAGGGAAGCAGCTTGGAATTGAAACACCGTATCGTATTGAAGCGTTTGATAACTCAAATATTCAAGGAACAAATCCCGTTTCTGCAATGATTGCTTTTATCGATGGGAAACCAGCGAAGAAAGAATATAGGAAATATAAAATTAAAACGGTTCAAGGGCCAGATGATTATGAGTCTATGAGGGAAGTTGTGAGACGCCGTTATACAAGGGCGCTTAAAGAAAATTTACCTTTACCGGATTTGATTATTATTGATGGCGGAAAAGGCCACTTGGCGGCTGCAAGTGATATTTTAGAGGATGAGCTCGGATTATATATTCCGATGGCAGGTCTTGTAAAAGATGACAAACATAAAACCTCCCATTTAATTATTGGAGATCCCCCGGAACCTGTGGTGCTTGAGAGAAATAGCCAAGAATTTTATTTATTGCAGCGTATTCAAGACGAGGTGCATCGATTTGCGATTACATTCCATCGTCAATTACACGGGAAATCTGTCATTCAATCAGCATTGGATGACATTCCAGGAATCGGTGATAAACGGAAAAAGGTATTGTTAAAACATTTTGGTTCATTAAAGAAGATGAAAGAAGCTTCTGTAGCAGAATTTGTCGAAGCAGGTATGCCAAAAAATGTTGCAGAGACGATTTATACGTATTTAACAGATAAGAAGACGTTGTAG	MHEHLKEKLAILPDQPGCYLMKDKQGTVIYVGKAKVLKNRVRSYFTGSHDGKTLRLVGEIVDFEYIVTSSNLEALILELNLIKKYDPKYNIQLKDDKTYPFIKITAEKQPRLLITRNVKKDKGKYFGPYPNAQSAHETKKLLDRMYPLRKCTNMPDKVCLYYHMGQCLAPCVKEVTEEQNKEIVDEIIKFLNGGHKEVRSELEIKMYEASEKLEFERAKELRDQIAHIDAIMEKQKMIMSDLVDRDVFGYAVDKGWMCVQVFFVRKGKLIERDVSMFPIYDEPEEGFLTFIGQFYENSSHFKPKEIVVPGSIDSELVERFLEVEATQPKRGKKKDLVELANKNAKIALEEKFYLIERDEERTIKAVDHLGKQLGIETPYRIEAFDNSNIQGTNPVSAMIAFIDGKPAKKEYRKYKIKTVQGPDDYESMREVVRRRYTRALKENLPLPDLIIIDGGKGHLAAASDILEDELGLYIPMAGLVKDDKHKTSHLIIGDPPEPVVLERNSQEFYLLQRIQDEVHRFAITFHRQLHGKSVIQSALDDIPGIGDKRKKVLLKHFGSLKKMKEASVAEFVEAGMPKNVAETIYTYLTDKKTL	PGPT0014925_4356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
AK009_02619	450	yslB		putative protein YslB	GTGAGTAAAAATACAATCGATATAACATCTTTAGAAGATGTTTCATTGAACGCCTTCGCTTATGAATTGCTACGTGAAGAATTACTACCTGATTTAATCGGCAACGATTTAGATGGTATTTTATACTGGTCTGGTAGAAACCTTGCAAGAAAATATCCGCTAGAAACAATTGAAGAAGTCATTCAGTTCTTTGAAAAGGCTGGCTGGGGCACTTTAAGCATTATTGAACATAAGCGTCGTGAAATGCAGTTCCAACTTAAAGGCACACTCATTGCAGAACGTCAAAAACAAAAAAGGCATTCTTCTTATCAACTAGAAGCTGGATTCATCGCTGAACAAATTCAAAAGCAACGGAACGTCGTTGCAGAGTCATATGAAGAAAAGAAAAAACGTTCTGACTCTATTACATTTCTTGTGAAATGGGATATAAAAGATCTCATTGAAGTGTAA	MSKNTIDITSLEDVSLNAFAYELLREELLPDLIGNDLDGILYWSGRNLARKYPLETIEEVIQFFEKAGWGTLSIIEHKRREMQFQLKGTLIAERQKQKRHSSYQLEAGFIAEQIQKQRNVVAESYEEKKKRSDSITFLVKWDIKDLIEV				NA	NA	NA	NA	NA
AK009_02620	627	sdhC	COG2009	Succinate dehydrogenase cytochrome b558 subunit	ATGAAAGGCCGCGAGTATACGTTTCGTAAGTGGCACTCATTAATGGGGGTCATCCCGGTTGGTGTCTTTTTGACGCAACATCTAATTGTAAACAACTTTGCAACAAGAGGAGCAGAGGCTTTTAACAAAGCTGCAGGCTTTATGGAGCTCCTTCCATTCCGGTATGCGCTAGAAATTTTCATCATCTTTTTACCGATACTGTACCATGCTATATATGGCTTATATATTGCATTTACAGCTAAGAACAATGCGGTTTCTTACGGTTATTTCCGTAACTGGATGTTCGTCTTCCAAAGAATTTCAGGTATCGTTACGCTGATTTTCATTTCTTGGCACGTCTGGGAAACTCGTATTCAAGCAATGTTAGGTAAAGAGGTAAACTATGATATGATGGCAGATATTTTAAACAATCCAGCTATGTTTGCATTCTACTTAGTTGGTGTTGTTTCAACAATTTTCCACTTTGCAAATGGACTATGGACATTCTGCATCAGCTGGGGAATTACAGTATCTCCACGTTCACAAAGAATCTCTACTTATGTAACATTAGCTATTTTCTTAGGTCTATCTTATGTAGGTGTGAGTGCATTATTAGCGTTCATCGATCCACAGCTAGCAAATCAGTAA	MKGREYTFRKWHSLMGVIPVGVFLTQHLIVNNFATRGAEAFNKAAGFMELLPFRYALEIFIIFLPILYHAIYGLYIAFTAKNNAVSYGYFRNWMFVFQRISGIVTLIFISWHVWETRIQAMLGKEVNYDMMADILNNPAMFAFYLVGVVSTIFHFANGLWTFCISWGITVSPRSQRISTYVTLAIFLGLSYVGVSALLAFIDPQLANQ	PGPT0001595_1282	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
AK009_02621	1794	frdA		Fumarate reductase flavoprotein subunit	ATGAAAGGGAAACTTATAGTAGTCGGCGGTGGCTTGGCTGGCTTAATGGCAACGATTAAAGCGGCAGAAGCAGGAGTGAATGTTGAACTGTTTTCTTTAGTACCAGTAAAACGTTCACATTCTGTATGTGCTCAGGGCGGAATTAACGGTGCCGTAAATACGAAAGGTGAAGGGGATTCTCCATGGATCCACTTTGACGATACAATCTATGGTGGGGACTTCTTAGCGAACCAACCACCAGTTAAAGCAATGTGTGAAGCAGCACCTGGTATCATTCATTTAATGGACCGTATGGGTGTTATGTTCAACCGTACGGAAGAAGGACTTCTTGATTTCCGTCGATTTGGTGGAACACAACATCACCGTACAGCATTCGCTGGTGCAACAACTGGACAGCAATTACTTTACGCATTAGATGAGCAAGTACGTCGTCATGAAGTAGCAGGACTTGTAACGAAATATGAAGGTTGGGATTTCTTACGAGCTGTTGTTGATGATGAAGGTGTGTGCCGAGGAATCGTTGCACAAGACTTACAAACTATGGAGATTAAAAGTTTCGGAGCTGATGCCGTGATTATGGCAACAGGGGGCCCTGGTATCATTTTCGGAAAATCAACAAACTCCATTATTAATACAGGTACAGCAGCGTCTGCTGTATATCAGCAAGGCGCATATTATGCAAATGGTGAGTTCATTCAAATTCACCCAACGGCAATTCCAGGAGACGATAAATTACGTCTTATGAGTGAATCTGCACGTGGTGAAGGTGGACGTGTTTGGACATATAAAGATGGTAAGCCATGGTACTTCTTAGAAGAAAAATATCCGGCTTACGGAAACCTTGTACCTCGTGATATCGCAACGCGTGAAATCTTTGATGTTTGCGTAGAGCAAAAACTAGGTATTAACGGTGAAAACATGGTGTACTTAGATCTTTCTCATAAAGATCCGAAAGAACTAGATATTAAACTTGGTGGAATCATTGAAATCTATGAGAAATTTACAGGTGATGATCCTCGTAAACTACCAATGAAAATCTTCCCAGCTGTTCACTATTCAATGGGCGGACTATGGGTTGACTATAAGCAAATGACGAGTATTCCAGGTTTATTTGCAGCAGGTGAGTGTGATTATTCTATGCACGGTGGTAACCGCCTTGGTGCAAACTCACTATTATCAGCAATTTATGGTGGTATGGTAGCAGGACCAAACGCAATTGAATATATGAAAGGTCTTTCTAAATCATCAGATGCTGTTTCGTCTACTGTATATGAGCAAAATGAATTAATCGAAACAGAGAAATTTAACAATATTTTAACGATGGATGGTAATGAAAATGCATATGTTCTTCATAAAGAGCTTGGAGAATGGATGACAGATAACGTTACAGTAGTTCGTGAAAATAAAAAGTTATTAGAAACAGATGCGAAAATTGAAGAGTTAATGGCTCGTTACAAACGTATTAACATTAACGATACAGCGAGATGGAGTAACCAAGGTGCTTCATTTACACGTCAACTTGCAAATATGTTTGAGTTAGCACGTGTTATTACAATTGGCGCATATAACCGTAATGAGAGCCGCGGGGCGCATTACAAACCTGAATTCCCAAATCGTGATGATGCAAACTTCTTAAAAACTACGATGGCAAAATTTGAAGGAGAAGGAAATGCACCAGCATTCCATTACGAAGACGTTGATGTTTCATTAATTAAACCACGTAAACGTGATTATTCTTCAAAACATGATGTAGCTGCTAAGGGTGAAGAGAAGGGGGATAAACAACATGTCTGA	MKGKLIVVGGGLAGLMATIKAAEAGVNVELFSLVPVKRSHSVCAQGGINGAVNTKGEGDSPWIHFDDTIYGGDFLANQPPVKAMCEAAPGIIHLMDRMGVMFNRTEEGLLDFRRFGGTQHHRTAFAGATTGQQLLYALDEQVRRHEVAGLVTKYEGWDFLRAVVDDEGVCRGIVAQDLQTMEIKSFGADAVIMATGGPGIIFGKSTNSIINTGTAASAVYQQGAYYANGEFIQIHPTAIPGDDKLRLMSESARGEGGRVWTYKDGKPWYFLEEKYPAYGNLVPRDIATREIFDVCVEQKLGINGENMVYLDLSHKDPKELDIKLGGIIEIYEKFTGDDPRKLPMKIFPAVHYSMGGLWVDYKQMTSIPGLFAAGECDYSMHGGNRLGANSLLSAIYGGMVAGPNAIEYMKGLSKSSDAVSSTVYEQNELIETEKFNNILTMDGNENAYVLHKELGEWMTDNVTVVRENKKLLETDAKIEELMARYKRININDTARWSNQGASFTRQLANMFELARVITIGAYNRNESRGAHYKPEFPNRDDANFLKTTMAKFEGEGNAPAFHYEDVDVSLIKPRKRDYSSKHDVAAKGEEKGDKQHV	PGPT0001605_2275	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
AK009_02622	762	frdB	COG0479	Fumarate reductase iron-sulfur subunit	ATGTCTGAGAAAACAATCCGCCTCATCATTACGAGACAAGATGGACCAGATGCACAAGCGTTTGACCAAGAGTTTGAAATTCCATATCGTCCGAATATGAATATTATTTCGGCGCTTATGGAAATTCGTCGTAATCCTGTTGATTCAAAAGGGAATCAAACAACTCCGATTGCATGGGATATGAACTGCTTAGAGGAAGTATGCGGAGCATGTTCAATGGTTATTAACGGAAAGCCACGTCAATCATGTACGGCTCTTATTGATCAATTAGAACAGCCAATTCGCTTAAAGCCGATGAAGACATTCCCAGTTGTACGTGATTTACAAGTTGACCGCAGTCGCATGTTTAATGCTCTAAAACGCGTTAAAGCTTGGATTCCAATTGATGGTACGTATGACCTAGGTCCAGGACCAAGAATGCCTGAGAAAAAGCGTCAATGGGCTTATGAGCTTTCAAAATGTATGACATGTGGTGTTTGCTTAGAATCATGTCCAAACGTAAACAGTAAGTCTGACTTTATTGGACCAGCGCCGTTATCACAAGCTCGCTTATTCAACTCACATCCAACGGGTGAAATGCATAAAGCAGATCGCTTACGTGCAATTATGGGAGATGGAGGACTAGCGAACTGTGGTAACTCTCAAAACTGTGTGCAATCATGTCCGAAGGGTATTCCTTTAACAACTTCAATTGCGGCATTAAACCGTGATACAACAATTCAATCGTTCAAAGATTTCTTTGGTAGCGATAATAACTATTAA	MSEKTIRLIITRQDGPDAQAFDQEFEIPYRPNMNIISALMEIRRNPVDSKGNQTTPIAWDMNCLEEVCGACSMVINGKPRQSCTALIDQLEQPIRLKPMKTFPVVRDLQVDRSRMFNALKRVKAWIPIDGTYDLGPGPRMPEKKRQWAYELSKCMTCGVCLESCPNVNSKSDFIGPAPLSQARLFNSHPTGEMHKADRLRAIMGDGGLANCGNSQNCVQSCPKGIPLTTSIAALNRDTTIQSFKDFFGSDNNY	PGPT0001600_711	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
AK009_02623	447			hypothetical protein	TTGAAGAGAATTTCTTATATTGAAGACTTCGAGAAATGGGAAAGTGGTTTTTTATTTTACAATCCTGTAAAGGTTCGTTTTGGTGAAGTAGATATGTTTGGACATGTAAATAATGTCGTTGCTTTTACTTATTTTGAAGAAGCTCGTATCGCGTTGTTTAAAGAACTTGGATTTATGCAAGAGTGGACACATACATCATCAGACACGATGATCGTTGTTGCGGATTTACAATGTAATTTTATTAAGCAAATATATTATGATGAACAGTTGAAGGTGTATGTAAAGGCAGGATCGGTTGGGAATTCTTCTTTGGATTTACATTATATGGTGAAGAATGCAGAAGGAGAGGTTTGTTTAGTAGGTCGTGGAATGATGGTTCAAGCGTCGAAAAAAACAGGAAGAGGCGAACCATGGCCTGAAGAATGGAAGAAGAAATTACTACAATGA	MKRISYIEDFEKWESGFLFYNPVKVRFGEVDMFGHVNNVVAFTYFEEARIALFKELGFMQEWTHTSSDTMIVVADLQCNFIKQIYYDEQLKVYVKAGSVGNSSLDLHYMVKNAEGEVCLVGRGMMVQASKKTGRGEPWPEEWKKKLLQ	PGPT0001850_3157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK009_02624	780	yodJ_2	COG1876	Putative carboxypeptidase YodJ	ATGAAAAAGATAATAATTATTTCTGCCACTACTATTGTAATCGGTATCACATCTTTCGCTTACTTTGGTTCTAAATCACCACTACATAATGAAGCGAAAGCTGTCGAAAGTCAAAAACATAATAACCACCCAAAAGAAGAGATTCCTGCTTTTCCAAAAGCTGATCATAATGCAAAGAAAATAGACAATGACTTTTCAGTTGTAACAAATCCAAAATCTAATCTTGTCTTAATTAATAAACATCGAAAACTACCAGATGGATACACTCCTGAAGACTTAACAAGACCAAACGTACCATTCACTAGTCCAAAAGATAAAGAAAAAACGCTACTACGCAAAGATGCTGCAGAAGCACTTGAAAACATGTTCAAAGCTGCAAAAAAAGAAGGGATTGATCTTACAGCTGTATCTGGTTATCGTTCATACAAACGTCAAAAATCGTTGCATGATACATACGTTAGACGTCAAGGAAAAGCTGAAGCTAATTCAGTAAGCGCAATTCCTGGTACAAGTGAACACCAAACGGGTTTAGCAATGGATATTAGTTCAAAAACAGCTAAATTTCAATTAGAGCCTATCTTCGGAGAGACAGCAGAAGGAAACTGGGTCGCGGAACACGCTCATAAATTCGGCTTTGTCATTCGTTACTTAGAAGATAAAACAGATACAACAGAATATGCATATGAACCATGGCACTTACGCTACGTTGGTAATCCATACGCTACATACCTATATAAACATCACTTAACATTAGAAGAAGCAATGGAAGACAAAAAATAA	MKKIIIISATTIVIGITSFAYFGSKSPLHNEAKAVESQKHNNHPKEEIPAFPKADHNAKKIDNDFSVVTNPKSNLVLINKHRKLPDGYTPEDLTRPNVPFTSPKDKEKTLLRKDAAEALENMFKAAKKEGIDLTAVSGYRSYKRQKSLHDTYVRRQGKAEANSVSAIPGTSEHQTGLAMDISSKTAKFQLEPIFGETAEGNWVAEHAHKFGFVIRYLEDKTDTTEYAYEPWHLRYVGNPYATYLYKHHLTLEEAMEDKK	PGPT0024055_1003	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
AK009_02625	795	pomA_2	COG1291	Chemotaxis protein PomA	ATGGATTTTGCAACAATTATTGGACTTATTTTAGGATTTTTAGCAGTGGTAGTAGGGATGGTCGTCAAGGGCGCTGACGTAACAGCCTTATTAAATCCTGCCGCAGCATTAATTATTTTTATCGGTACATTTGCTGCAGTATGTATTGCATTTCCGATGAATCAACTAAAAAGGGTTCCAAAACTATTTAAAGTTCTTTTTGGTTCAAATAAAAAGGATTTAAGTTATGAACAGTTGCTAGAATTATTTGTTCATTGGACATCTGAAAGTAGAAAATACGGTATTTTGTCTTTAGAGCAACAATTAGACAAAATTCAAGATGAATTTCTTTTGCGCGGTATGAAATTTGTGATTGATGGCGTATCCGCAGAAGATTTAGAGCAAATTTTGGAATCTGAATTAGAGGCAATTGAAGAAAGACATGCAAAGGGAGCTGCTATTTTTTCACAAGCTGGTACGTATGCACCGACATTAGGAGTTTTAGGTGCTGTTATCGGTCTTGTAGCTGCGCTTGGTAACTTAACTGATATTGAAAAGTTAGGTCATGCTATTTCGGGTGCATTTATTGCAACGATTTTTGGTATTTTTTCAGGGTATGTATTATGGCATCCATTTGCAAATAAGTTAAAGCAAAAATCTTCAGCTGAAATTGAGAAAAAACGTTTAATCATTGATTGTTTATTAATGTTACAAGAAGGTACATATCCGTTTATTATGAAGAACCGCATTTTAGGTGCACTTTCTGCAACTGAGCGTAAAAAGCTAGAAAAAGGAGCAGAAAAAAATGCGGAGTAA	MDFATIIGLILGFLAVVVGMVVKGADVTALLNPAAALIIFIGTFAAVCIAFPMNQLKRVPKLFKVLFGSNKKDLSYEQLLELFVHWTSESRKYGILSLEQQLDKIQDEFLLRGMKFVIDGVSAEDLEQILESELEAIEERHAKGAAIFSQAGTYAPTLGVLGAVIGLVAALGNLTDIEKLGHAISGAFIATIFGIFSGYVLWHPFANKLKQKSSAEIEKKRLIIDCLLMLQEGTYPFIMKNRILGALSATERKKLEKGAEKNAE	PGPT0015370_2013	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
AK009_02626	789	motB_2	COG1360	Motility protein B	ATGCGGAGTAAGAAAAATAGAAGAGGCAAAAAGAAAAAACATGATGAGCATATCGATGAAACGTGGTTAATCCCATATTCTGATATGTTAACGTTGTTATTTGCATTGTTTATCGTTTTATTCGCAATGAGTAGTATAGATGCTGCGAAGTTTAAACAGATGGCAGTTGCTTTTCGAAGTGAATTAGCCGGGGGAACAGGTAACAAAGAATTTTTAAGTGATCAAAAGCCAAATGATGAAAAAGAATTATCGGCAAGTAGCCTTGAGGCAGAACAAGCAAAAAAACAAGAAGAAGCTAGAGCTAAAGAAAAAAAAGAGATGGATGAATTGAAAGCATTACAAAAAAAGATTGATCAATATATTAATGAAAAACAATTATCCTCTTCTTTTCAAACTAAATTAACTGAAAAGGGATTAATGGTGACAATATTAGAAAATATACTGTTTGATTCGGGGAAAGCAGATGTGAAATTAGAATCTTTAGGGATTGCAAAAGAAATGTCTAGCTTACTTGTTTCAGCGTCACCTCGTGAAATTACAGTATCCGGTCATACGGATAATGTCCCTATTGCCAATGCACAGTTTGCGTCGAATTGGGAATTAAGTACGCAGCGGGCAGTTAATTTTATGCAAGTATTACTGCAAAATAAAGAATTACAACCAGAAAAATTTAGTGCGATTGGTTACGGAGAATACCGTTCGATTGCTCCAAACGATACACAAGAAGGAAAGGCAAAGAATAGACGTGTGGAAGTATTTATCTTGCCTTTAACAGAGAAAGCAAAATAA	MRSKKNRRGKKKKHDEHIDETWLIPYSDMLTLLFALFIVLFAMSSIDAAKFKQMAVAFRSELAGGTGNKEFLSDQKPNDEKELSASSLEAEQAKKQEEARAKEKKEMDELKALQKKIDQYINEKQLSSSFQTKLTEKGLMVTILENILFDSGKADVKLESLGIAKEMSSLLVSASPREITVSGHTDNVPIANAQFASNWELSTQRAVNFMQVLLQNKELQPEKFSAIGYGEYRSIAPNDTQEGKAKNRRVEVFILPLTEKAK	PGPT0015375_3774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
AK009_02627	828	hel	COG2503	Lipoprotein E	ATGAAGATGAAGAGGGGCATTACCACTTTATTATCTGTAGCGGTTCTATCTACATCACTTGTAGCATGTTCAGGAACACCAGAGAAAACAGTGGCGAAAGAAGAGAAAGTAAAATTAACAGAACAACAATTAATGGCTGATTTATGGTATCAAACAGCCGGTGAAACGAAAGCACTTTACTACCAAGGGTACAACATTGGTCAATTAAAACTTGATGCAGTTCTTGCAAAAGGGACAGAGAAAAAACCTGCTATCGTACTTGATTTAGACGAAACTGTTTTAGATAACAGTCCTCATCAAGCAATGAGCGTAAAAACAGGCAAAGGTTATCCTTACAAATGGGATGATTGGATTAACAAAGCTGAGGCTGAAGCCCTTCCAGGCGCAATTGATTTCTTAAAATATACAGAGTCTAAAGGTGTAGATATTTACTATATCTCAAATCGTAAAACGAACCAACTAGATGCAACAATTAAAAATCTTGAGCGTGTAGGTGCTCCTCAAGCAACGAAAGAACATATATTACTACAAGATCCGAAAGAAAAAGGAAAAGAAAAACGCCGTGAACTCGTTTCTCAAACTCATGATATTGTCTTATTCTTCGGTGATAACTTATCTGATTTCACAGGTTTTGATGGAAAATCTGTAAAAGATCGTAACCAAACAGTAGAAGATTCAAAAGTACAATTTGGTGAGAAATTCATTATTTTCCCGAATCCAATGTATGGCGATTGGGAAGGCGCTTTATATGATTATGATTTCAAAAAATCAGATGCAGAAAAAGATAAAATCCGTCGCGACAACTTAAAATCATTTGAAGTAAAATAA	MKMKRGITTLLSVAVLSTSLVACSGTPEKTVAKEEKVKLTEQQLMADLWYQTAGETKALYYQGYNIGQLKLDAVLAKGTEKKPAIVLDLDETVLDNSPHQAMSVKTGKGYPYKWDDWINKAEAEALPGAIDFLKYTESKGVDIYYISNRKTNQLDATIKNLERVGAPQATKEHILLQDPKEKGKEKRRELVSQTHDIVLFFGDNLSDFTGFDGKSVKDRNQTVEDSKVQFGEKFIIFPNPMYGDWEGALYDYDFKKSDAEKDKIRRDNLKSFEVK				NA	NA	NA	NA	NA
AK009_02628	885	btuD_2		Vitamin B12 import ATP-binding protein BtuD	TTGAGTTTACAAATTCAAAACTTAACGAAACAATTTGGGGAATCAAAAGCTGTTAACGGTTTACAAATTTCGTTACCAAAAGGTGAAGTACTAGGGTTACTTGGACGAAATGGTGCAGGGAAAACAACAACAATCAAAATGCTTCTCGGATTATTAACGCCTAATGAAGGTTCGATTACGTGGGATGGAAAAGCATTTGGGAATAGTGGCGTAACAATTGGGTATTTACCAGAAGAAAGAGGTTTATATACAAAAAGTAGAGTAATAGACCAGCTGCGATATTTTGGTAGATTAGAAGGGATGTCGAAGAAAGAAGTAGATCACGCTATTGATCACTGGTTAGAGCGTTTAGCGATACCAGAATATAAATTTAAAACGGCTGGAGAGCTTTCAAAAGGGAATCAGCAAAAAATCCAATTAATTGCTGCTCTTCTTCATAATCCGGAACTTCTCATTTTAGATGAACCATTCAGTGGCCTTGATCCAGTTAATGCCGGGATGTTAGCTAGTATTATTGAAGAACAAGTACAGAGCGGAAAGACGATTATTTTATCAAGTCATCGTATGGAACAAGTAGAGGCTTTTTGCCAACATGTATGTATTTTGAAAAAAGGTGAAGCAGTCGTAAAAGGACAGCTAAGTGATATTAAGAAAGAATACGGTTTCCGTAATTTAACGATTGAAGATACAGTAGAGAATGAAAAGGGATTAGAAGCTATACATGTATCGTATGAAAAACAACAAGGCCTTCTTTATGTGAAAGTACAAGGCGATGCGGAAGCTCTCGAGATTTTGCAACAGTTGCAAGAGCAAGGTGTTAGCTTACGACAATTTAAAATGTTAGAGCCGACGTTAAACGAAATCTTTGTAGAGAGGGCGAAATAA	MSLQIQNLTKQFGESKAVNGLQISLPKGEVLGLLGRNGAGKTTTIKMLLGLLTPNEGSITWDGKAFGNSGVTIGYLPEERGLYTKSRVIDQLRYFGRLEGMSKKEVDHAIDHWLERLAIPEYKFKTAGELSKGNQQKIQLIAALLHNPELLILDEPFSGLDPVNAGMLASIIEEQVQSGKTIILSSHRMEQVEAFCQHVCILKKGEAVVKGQLSDIKKEYGFRNLTIEDTVENEKGLEAIHVSYEKQQGLLYVKVQGDAEALEILQQLQEQGVSLRQFKMLEPTLNEIFVERAK	PGPT0006725_17085	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_02629	1227	yhaP_1	COG1668	putative protein YhaP	ATGCGTAAATTTTCTCACGTATTTTCATTTTATTTTAGGGAAGCGTTTTTATCTAAAAAATCATTAATTACGAGTGCGATTTTATTTTTAGTTGTGTTTGGGATTTTTGCATTTAATCATTTTACTTCAGGCGATGATAAAAATAAGGATAAAGATAAAATTGCAGTTGTAGTAGAGAGTTCCACATATAAAGTACAAAAAGATGAGCTAAATAAGCTATTGCCATCAGCAAAAATAACACTGGGTTCAAAGGATGATTTTGATAAACTGCATAAGCAAGTAGAAGATGGCGATTTAGATGGTCTATTCCATGTGACGGAAAAGGGTGGGGCTCCATCGATTACATATATGTATAATGGATTTCCAAGCCAAGCAACTTCCGCAATTATGGCAGGATATTTAAAGCAACAATATACGATGGTGACGATTGCCAAAAATAATGTTTCACCAGAAATTGCACAGCAATTACAAACAGAAATTCAAGTAAAGCAAGAAGCGATAAAAGATCGTACATCTTCTTTCGGAATTGCCTATTTCTTTACATTTGCTTTATATATGTTTATTGTAGCGTTCGGAAATACAATCGCAATGAATATTGCATCTGAAAAGGCGTCACGTGTAATGGAAGTAATGCTTCCGAAAGTGAAGCCTCTTACAATGATGTATGCGAAAATTTTAGCGGTTGTTTCAACGGCGTTATTGCAACTTGTCATATTGGCGTGTGGTTATCTTATTCCATATTTGTTGGGTTGGGTTGATTTAGAAAGTGCCTCACTATTTGGTATTCCAATTGACTTTACGAAATTAGATGCAAAGGTTATCAGCATGTTTCTTGTTTATTTCATTACGGGATATTTACTATATGCGATGATGTATGCTGCTGCTGGAGCTGTCGTGTCTAAGACGGAGGATTTACAAGCTGTATCTTTCCCGGTAATGATTTTAATTATGGCTGCATTCTTCATTAGTATTAAATCATTAAGTGATCCGAATAGTACTATCGTTGTTGTAAGTTCTTACGTTCCATTTTTTACACCGATGGTTACCTTCTCACGTATTGTAGCTGGTGAAGCAGGTATGCTAGAAATTACGATAACATTAGCGGTCTTATTGGCGACAATTGCGGTATTAAATGCTGTTACAAGCCGCATTTACGTAAACGGCGTAATGAATTACTCAGATAAAGTTAAATTTAAAGATTTAGCGAAATTTATAAAGCGTCAATAA	MRKFSHVFSFYFREAFLSKKSLITSAILFLVVFGIFAFNHFTSGDDKNKDKDKIAVVVESSTYKVQKDELNKLLPSAKITLGSKDDFDKLHKQVEDGDLDGLFHVTEKGGAPSITYMYNGFPSQATSAIMAGYLKQQYTMVTIAKNNVSPEIAQQLQTEIQVKQEAIKDRTSSFGIAYFFTFALYMFIVAFGNTIAMNIASEKASRVMEVMLPKVKPLTMMYAKILAVVSTALLQLVILACGYLIPYLLGWVDLESASLFGIPIDFTKLDAKVISMFLVYFITGYLLYAMMYAAAGAVVSKTEDLQAVSFPVMILIMAAFFISIKSLSDPNSTIVVVSSYVPFFTPMVTFSRIVAGEAGMLEITITLAVLLATIAVLNAVTSRIYVNGVMNYSDKVKFKDLAKFIKRQ	PGPT0006730_3732	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_02630	432	ywnA_3	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGGGGATTAGTAGTCGTTTTACAGTAGGTGTTCATATGCTGACATTACTTGCGATAGATCGAAACTCTCGCTGTACCTCTGAATGGATTGCCGGTAGTGTGAATACAAATCCAGTTGTGATTCGTCGCATTACAGGAATGTTGAAGAGAGCAGGACTTGTTGATGTACAAGCTGGTAAAGGTGGTACGACACTTGCTCGAGATTTAGAAGAAATTACATTACTTGATGTATATAAAGCAGTGGAAGTTGTAGAAGAAGGACAGCTATTTTCCTTCCATGAAAATCCCAACATTGAATGTCCAGTAGGAGCTAATATTCAATCAGTATTAGAAATTATTTTAATGCAAGCGCAAGAAGCGATGGAAAACGTACTTGCAAATGTAACGGTAGATCAATTAGTTACAAATTTAAAGTCTAAAATGAAAGAATAA	MGISSRFTVGVHMLTLLAIDRNSRCTSEWIAGSVNTNPVVIRRITGMLKRAGLVDVQAGKGGTTLARDLEEITLLDVYKAVEVVEEGQLFSFHENPNIECPVGANIQSVLEIILMQAQEAMENVLANVTVDQLVTNLKSKMKE				NA	NA	NA	NA	NA
AK009_02631	666	aqpZ	COG0580	Aquaporin Z	ATGTTAAAAAAAGCAATCGCTGAATTTATTGGTACATTTGTACTTGTATTATTCGGAACTGGAGTAGCTGTCACTGGCGGCGGAATTGAAGGAATTGGAACATTAGGAATCGCTATGGCTTTCGGTCTATCTATTGTAGCTATGGCATATAGCATCGGAACAATTTCTGGATGTCACATTAACCCAGCAGTATCAATAGCTATGTTCATCAACAAACGAATGAACGCTATGGAACTTTGTTATTATGTATTAGCTCAAATTTTAGGTGGTTTATTAGGAACTGCAACGTTAGTAACAATTTTAAAATCTGCTAAAACACCTTTAGATAATTTAGGACAAAATGGTTTCGGAACTCTTGGTTTATCTGGAGCATTTTTAGTTGAGTTCATTTTAACTTTCGTATTCATTTTAGTTATCGTCGCTGTAACAGGTAAAAAAGGCAGTTCTTCTTTAGCGGGACTAGTAATTGGTTTCACATTAGTTTTAATTCACTTATTAGGAATTCCGTTAACTGGAACATCTGTTAACCCAGCTCGTAGTATCGCACCAGCTTTATTTGTTGGTGGAGAAGCACTTTCTCAACTATGGGTATTCATCGTAGCACCAATTCTTGGTGGTATCTTCGCAGCTATCGTAGGTAAATTCATTTTAAATACTGAAAAATAG	MLKKAIAEFIGTFVLVLFGTGVAVTGGGIEGIGTLGIAMAFGLSIVAMAYSIGTISGCHINPAVSIAMFINKRMNAMELCYYVLAQILGGLLGTATLVTILKSAKTPLDNLGQNGFGTLGLSGAFLVEFILTFVFILVIVAVTGKKGSSSLAGLVIGFTLVLIHLLGIPLTGTSVNPARSIAPALFVGGEALSQLWVFIVAPILGGIFAAIVGKFILNTEK	PGPT0004755_1587	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
AK009_02632	966			hypothetical protein	ATGCGCGCAATTTTATTAGGTCTTTTATCATCTGCCTTTTTTTCTGCAACCTTTATTATTAATAGAGCAATGAATGTATCTGGAACGAGCTGGGCTTGGACAGCTTCCTTCCGTTTTTTATTTGCTCTTCCTATTTTATTCCTTATCGTTTTATTTCGCAAAAACTTTAGGGGATTATGGGAAGAATTAAAAAAACATCCATTAGCATGGATCGGATGGGGTTCCGTTGCAGGTATTGGTTTTTATTCTTTATTAAGTTTCGCAGCTGTCTTTTCTCCAGCTTGGCTCGTTGCTGGAACTTGGCAAGTTACGATTTTAGCTGGTTTACTACTATCACCACTATTTTTCGTGAAAATAGAAACAAAATCAGGTACGAAACTTGTACGTGGAAAAATTCCACTTCGTAGCTTATATGTTGCATTATTTATTTTACTTGGTGTAATTTGTATGCAAGCAACTGCAGCAGGCCATATTACAATGACTCAGTTCATTTCAGGTTTTTTACCTGTCGTATTAGCCGCTTTCTTATATCCGTTCGGTAACCGAAAAATGATGGAACTTGTTGGCGGACGCCTTGATACGTTCCAACGTGTATTAGGAATGGCTATTGGAAGTCTTCCTATAACAATTTTGCTTGGTGTATATGGATTTTCTACTACTGGCATTCCAACATCCAGCCAAATGCTTCAAGGGCTTTTATTAGCATTATGTTCCGGCGTTATTGCAACGATGACATTTTTCTTTGCTACTGACTTAGCAAAAGATAACCTCGCCTTACTCGGGGCAGTTGAAGCAACACAAGCTGGAACGATGGTATTTACCGTGCTTGGCGAAATCATTTTCTTAAATGGTTCATTCCCTGGAGGACTTTCCCTCATTGGAATGATTATTATTATGTTAGGAATGGTTGCAAATAGTATTTTAAACCGTTCTGTTCCAGTCGTTAAACAGAAAAAATCAGCATAA	MRAILLGLLSSAFFSATFIINRAMNVSGTSWAWTASFRFLFALPILFLIVLFRKNFRGLWEELKKHPLAWIGWGSVAGIGFYSLLSFAAVFSPAWLVAGTWQVTILAGLLLSPLFFVKIETKSGTKLVRGKIPLRSLYVALFILLGVICMQATAAGHITMTQFISGFLPVVLAAFLYPFGNRKMMELVGGRLDTFQRVLGMAIGSLPITILLGVYGFSTTGIPTSSQMLQGLLLALCSGVIATMTFFFATDLAKDNLALLGAVEATQAGTMVFTVLGEIIFLNGSFPGGLSLIGMIIIMLGMVANSILNRSVPVVKQKKSA				NA	NA	NA	NA	NA
AK009_02633	573	sutR_2	COG1396	HTH-type transcriptional regulator SutR	ATGAAAGAAAATGAAGATATACAAACGAAAGAAGTCATTCAACAAGTTGGACAGTTATTGAGACAAATTCGAAATGAACAGAAATTAAGTTTAGAAGAATTAGCTCATAAAACAGGAGTAAGTAAATTAACATTAGGAAAAATTGAAAGAGGGGAAACAAATCCGACGCTAGCTGTCATTTGGAAAATAACGAAAGGGTTATCAATTCCTTTATCCAGATTGATGGTTGTTGGAGAACCTGTAGCTGTTGCGCGCTGTGGAGAAGGATTTGCAGTAGATGAAGGACAAGCGTGGCATTTAGAAACGATGTTCCGTTATACGAAAGAAACAGGGATGGAAATGCACCGTGCTTGTTTACGATCAAATAGTATATATGAACCAGAAGCTCATCATGAAGGTGCGATTGAGCTTGTAACGATAATGAAAGGGAAAGTGTCTATTCAAGTGGAGAATGATGTATACGAATTAAATGAGTTTGATTCCATCCAATTTGAAGCGAATAAGAAGCATGTTTATAAAAATGAAGAAGAAGAAGTGGCGGTATTACATTTAACGATGAAATATTCTTCATGA	MKENEDIQTKEVIQQVGQLLRQIRNEQKLSLEELAHKTGVSKLTLGKIERGETNPTLAVIWKITKGLSIPLSRLMVVGEPVAVARCGEGFAVDEGQAWHLETMFRYTKETGMEMHRACLRSNSIYEPEAHHEGAIELVTIMKGKVSIQVENDVYELNEFDSIQFEANKKHVYKNEEEEVAVLHLTMKYSS				NA	NA	NA	NA	NA
AK009_02634	186			hypothetical protein	ATGTCAAAAAAGTTATGTAAATCCGAAACTGATAAAATGCTATTTGGTATATGTGGTGGTTTAGGAGAATATTTTGATATTAGCTCTACTCTTATTCGTATCATTTGGGTTATTGCTGTTTTATGTTTTGGGACAGGATTTTTAGTTTATTTCATTTGTTTATTACTTATGCCACGTTCGTACTAA	MSKKLCKSETDKMLFGICGGLGEYFDISSTLIRIIWVIAVLCFGTGFLVYFICLLLMPRSY	PGPT0027520_1902	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
AK009_02635	1242	atzC		N-isopropylammelide isopropyl amidohydrolase	ATGACAGTATATTGGTTGACTAATGTAATGCTTGAATCAAGGTATACATATGAAGAAGAGAGAATTTCGCGAACAGAAACAGAATTATGTAGTTTACTCATTGAAGATGGACGAATTAAAAAAATTATAGAAGGGGTTGTTCAAGAAGAAGATATAGTAATGCTTGATGCTAAGCACTTATTGATGTTGCCAGCTTTCGAAGAGATGCACATTCACATTGATAAAACATATTATAGTGGCCCCTGGAAAGCTTGTAAGCCAGCAGAAAGTATTTTTACACGTTTTAATGAAGAAGAAAAAATTTTACTAAAGCAATTAGCAACTGCTCAAGATAGAGCGGAAAATATGCTAGAGTTACTACTGCGAAATGGTGCAACGAATATTAGAACGCATTGTAATGTTGATCCGATTATTGGACTTGGTAATTTGGAGGCGACGTTAGCGGCATTAGAAACATATAAAAATCGAGTGTCTAGTAGAATTGTTGCGTTTCCGCAACATGGATTATTGCGCAGTAATTCTGTGCAACTCGTGAAAGATGCGATGCGTATGGGTGCTCATCTAGTCGGAGGAGTAGATCCAGCTACAGTGGATAATGATATTGAAAAATCATTACATACAATTATGGATATCGCAGTAGAATTTAATGCGGATGTTGATATTCATTTACACGATGAGAATAATCTTGGAACGTTTACGATGAAGAGATTGGCAAGTTTAACAGAAGAAGCAGGGTGGCGAGGGCGTGTAACAATTAGTCATGCACTTGGACTTGGTGGTGTTACTGATAAAGAGGCTGAAGAAGTGGCAGAAAGACTCGCAGCTGTAAATATTGATATTACTTCAACAGTACCAATTGGTAAACAAGTAATTCCAATTCCGTTATTAGATAAAAAAGGTGTTAAAGTTTCATTAGGAAATGATAGTATTACAGATCATTGGTCACCGTTTGGAACAGGTGATATGCTTCAAAAGGCAAATCGATTAGCAGAGCGTTTTGGATGGAGTGACGAAAGGTCTTTAGGAAAAGCAATTCGCTTTATTACGGGAGGAAAAGAAACGTTAAATAATGAAGGGAAGCGGGTATGGCCGAATGTAGGGGATGAAGCGAGCTTTGTTTTGACAAATGCGACATGCACTGCTGAAGCGGTAGCACGCCAAACAGAAAAAAGTTTAGTCGTGTATAAAGGAAATATTGTTGTTGGAAGCTTAAATGAGCTGGAATTCAATAATCTTGTGTAG	MTVYWLTNVMLESRYTYEEERISRTETELCSLLIEDGRIKKIIEGVVQEEDIVMLDAKHLLMLPAFEEMHIHIDKTYYSGPWKACKPAESIFTRFNEEEKILLKQLATAQDRAENMLELLLRNGATNIRTHCNVDPIIGLGNLEATLAALETYKNRVSSRIVAFPQHGLLRSNSVQLVKDAMRMGAHLVGGVDPATVDNDIEKSLHTIMDIAVEFNADVDIHLHDENNLGTFTMKRLASLTEEAGWRGRVTISHALGLGGVTDKEAEEVAERLAAVNIDITSTVPIGKQVIPIPLLDKKGVKVSLGNDSITDHWSPFGTGDMLQKANRLAERFGWSDERSLGKAIRFITGGKETLNNEGKRVWPNVGDEASFVLTNATCTAEAVARQTEKSLVVYKGNIVVGSLNELEFNNLV				NA	NA	NA	NA	NA
AK009_02636	1296	ywdJ_1	COG2233	Putative purine permease YwdJ	ATGGACATTTTGGACAATCAACATAACCAAAATCATATTATGGGAACTTTGCAATGGTTTATATTTCTATTAGCAAATTCAATCGCACTACCAATTGTCGTTGGTGGATTATTTCATCTTACGACGGAAGAAATATTTTATTTAATGCAGCGTACGTTTTTTGTAGTTGGTATATCTTCTTTCTTACAAGGATGGATTGGGCATAGACTTCCAATTGCGGATGGACCAGCTGGATCTTGGGTTGGTGTATTTACAGTACTTGCTTATGCAACTGCCGGACAAGATCAATTGCATAGTACACTGCAAATTTTAGAGTTAGGAATGATAATCTCCGGTGTTATTTTAATAGGATTAGGAGTAACTGGTTTTATAGGACGTATTTTATTTTTATTTACGCCAGTTGTGACAGGGACGTTTTTACTTTTATTATGTTTACAATTAAGTGGTGTATTTTTAAAAGGAATGCTAGGAATTACAGCTACTATTTCTCAAATCGATGGATTTACAGCGATAATTGCGTTTAGTATATTTTTGTTCGTTATTATACTGTCTAATTTTGGAAGAGGTTTTATCAAAAGTTATGCAGTTTTAATAGGATTAATTAGCGGGTGGATTATTTTTCTCATTGCAGGAAAAGTGACGGTTCCATCTCAAGTAACTCATTTTGTACAACTTCCACAAATGTTTGCTTGGGGACTTCCAAAATGGAATACTGGTATGGCAGTATCCAGTTTCGTTATGGTATGTATTTTAGTTTCAAATACAGTGGCAGCTATTATAGCGATTAATCAAGCTACCATTCATAAAGCAACTATTGAACAAAAACAGTTGAAGGATGGTACGTGGGTTGGAGGGATTTCGCATATCATTTCCTCCGTATTTTCAACTGTAGGTATCGTTCCGTTACCAGCAACGGCAGGATTTATACGCTTAACAAAACAAAAATATATACGATCGTTCTTAATGGCATGTGCGTTACTAGTCGTAATGTCTCTTTTTCCAAGTATTATTCGTTACTTAGCATCTTTACCATCGGCTGTCGCATCGGCTGTTTTAATGGCTTCGTTCGTACAATTAATTGGAATTGGATTTAATAATATAAAACAAGTGCCGATGAGTGAAAGGAATGTAACGATTTTAGGAGTGGCAGTATTATTTGGAAGTGGCGTTATGTTTTTACCGTCTGGAGCACTCCAATCCTTGCCGTCTGTTATGCAATATATATTCGGTAATGGTTTATTTGTAGGTACGGTTGTAAGTATATTGCTAGAACAAATATGGCGCGCTGGAAAGTAA	MDILDNQHNQNHIMGTLQWFIFLLANSIALPIVVGGLFHLTTEEIFYLMQRTFFVVGISSFLQGWIGHRLPIADGPAGSWVGVFTVLAYATAGQDQLHSTLQILELGMIISGVILIGLGVTGFIGRILFLFTPVVTGTFLLLLCLQLSGVFLKGMLGITATISQIDGFTAIIAFSIFLFVIILSNFGRGFIKSYAVLIGLISGWIIFLIAGKVTVPSQVTHFVQLPQMFAWGLPKWNTGMAVSSFVMVCILVSNTVAAIIAINQATIHKATIEQKQLKDGTWVGGISHIISSVFSTVGIVPLPATAGFIRLTKQKYIRSFLMACALLVVMSLFPSIIRYLASLPSAVASAVLMASFVQLIGIGFNNIKQVPMSERNVTILGVAVLFGSGVMFLPSGALQSLPSVMQYIFGNGLFVGTVVSILLEQIWRAGK				NA	NA	NA	NA	NA
AK009_02637	225	gerE	COG2771	Spore germination protein GerE	TTGAAGGAAAAAGCGTATCAATCTAAACCTTTACTCACAAAGAGAGAAAGAGAAGTATTTGAATTACTGGTTCAAGATAAAACAACGAAGGAAATTGCAGGTGAACTTTTTATAAGTGAAAAGACAGTTCGCAACCACATCTCAAACGCAATGCAAAAGCTAGGGGTTAAAGGACGTTCACAAGCAGTTGTGGAGCTTCTTCGTATGGGAGAGCTCGAACTATAA	MKEKAYQSKPLLTKREREVFELLVQDKTTKEIAGELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL	PGPT0025270_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994	NA	NA
AK009_02638	654	hchA_1	COG0693	Protein/nucleic acid deglycase 1	TTGAAAAGGATACTGTTAGTTTCAACAAGTGCTCATGATATGAATGGACACCCGACTGGTTTGTGGCTTGAAGAGCTCGCAGCTCCTTATCATTTATTTAAAAAGGCTAAGTTTGATGTTGTGTCAATAAAAGGCGGGAGAGTACCTATAGATAGAGTGTCTATTCCGAATGGTATACCTCGTGAATTCAAGCATGTAGCTTCTTTATTGCAAAATACGAGGCCGATTTCAAATGTTCATTTCTCGGATTATGATGCGGTTTTATTTGGTGGTGGCCACGGGGCGATTGTAGATTTTCCAGGTAATCCATATGTAGCAAATTTAATTGAGAATATGTATAACGATAACCGGATTGTAGCGGCTGTTTGTCACGGAGTAAGTTCCTTTGTCGGTGTGAAAAATAAGGATAGCTCGTTTTTTGTTGCCGGTAAGCGTATAACAGGTTATACAAACGATGAAGAAAAAGCTGTACATTTAGAAAAGCGCGTTCCGTTTTTGTTAGAAAGTAAGTTGAAAGAAGAAGGAGCTTTATTTTATATAGCCCCCAATTTTACGTCACATGTGGTAGTAGATGGACATTTAATTACAGGACAAAACCCGCAGTCTAGTGTGGAAATGGGTAAGGCTATAAAAAGGGCTGTAAATAAATTATAG	MKRILLVSTSAHDMNGHPTGLWLEELAAPYHLFKKAKFDVVSIKGGRVPIDRVSIPNGIPREFKHVASLLQNTRPISNVHFSDYDAVLFGGGHGAIVDFPGNPYVANLIENMYNDNRIVAAVCHGVSSFVGVKNKDSSFFVAGKRITGYTNDEEKAVHLEKRVPFLLESKLKEEGALFYIAPNFTSHVVVDGHLITGQNPQSSVEMGKAIKRAVNKL	PGPT0027880_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
AK009_02639	639			hypothetical protein	ATGAGAAAAGTCGCATGTGCAAATACTTATATTAATAAAATCAAGCCCGTTATTAGAAAGGCGAGTTTTAGCCAATTGAAAATAGATGAAATTGCGAAATATATGGATATTAGTAAAGCTACTTTATATAAACGTTTTTCTTCGAAAGATGAAATTATTGAGGCGGTAGTAGAGGATTTCATGAACTATCTACTCGAAGGTGATGCGGATAATCAAGATGAAAGTATGTCATTTACAGAACGGTTCCAAAAGACATTTATCCATTCTTTAAAATGTGTGACATATATTTCGGATGTTTTTTTGCAAGATTTGAAAGAAGCATATCCGCATTTGTCGGATCAATTAGTCGCTGCACAACAAAATCGTAATCATAATTTGCAAATGTTTTTTGAAGCGGGTATGGAACAAGGCTACTTTAATAAGATGAACGCACAATTATTTATGGTGCAAGATGATGTGATGTTAAGACGTATTATAGATCATTCTTTTTGTATTCAGTACGATATTACGTTAAAGAAAGCGATACTTGATTTTTATCAATTGAAGAAGTATCAACTTTTTAAACCAGAGTATATAGATGCAATTGATGATTCGGAAATTGAAAAAGAAGTTATTGCTATTTTGCAAATGATTTCGTAA	MRKVACANTYINKIKPVIRKASFSQLKIDEIAKYMDISKATLYKRFSSKDEIIEAVVEDFMNYLLEGDADNQDESMSFTERFQKTFIHSLKCVTYISDVFLQDLKEAYPHLSDQLVAAQQNRNHNLQMFFEAGMEQGYFNKMNAQLFMVQDDVMLRRIIDHSFCIQYDITLKKAILDFYQLKKYQLFKPEYIDAIDDSEIEKEVIAILQMIS				NA	NA	NA	NA	NA
AK009_02640	684	hchA_2		Protein/nucleic acid deglycase HchA	ATGAAGAAAAAAATGTTAGTTGTATTAACAAGTGTAGAAAAATATCCAAATTTAAATAGGGCTACCGGACTTTGGCTTGGTGAAGCTGTACATTTCGTAAAAAAAGTAGAAGAAGCGGGTTACGAAGTCGATTATGTCAGCCCACAAGGCGGTTATACACCAATTGATCCACATAGTTTAGCAATGGCGGAGAGCGTCGATTGGGAATGGTATCAAAAGAAAGAGTTTATGAATCGCCTCGGTTCTACAATGAAACCGAGTGAAGTGAATCCAGAAGACTACGCTGTTATTTATTACGCAGGTGGTCACGGGGTTATTTGGGACTTCCCAGAAAATAAACAACTTCAAAATATTTGCCGCAACATTTATGAAAACGGCGGAATTGTTTCTTCCGTTTGTCATGGAGCTGCTGGTTTATTTCATATTACATTAAGTAATGGGGATCGTTTAATTAGTGGTAAGAAGGTAACAGGCTTTTCAAATGAAGAAGAAAAATTAGCTGAATTAGATCAATTCGTTCCATTTTTAACAGAAGATGAACTCATTAAAAATGGAGGACTTTACGAAAAAGCCGCGCAACCGTGGGAAGCTTATGCTTTAGAAGATAATCGTGTTATCACTGGTCAAAACCCAGCTTCAGGTGGTCCAGTAGCCGAATTAGTATTAAAACAGTTGCAAAAATAA	MKKKMLVVLTSVEKYPNLNRATGLWLGEAVHFVKKVEEAGYEVDYVSPQGGYTPIDPHSLAMAESVDWEWYQKKEFMNRLGSTMKPSEVNPEDYAVIYYAGGHGVIWDFPENKQLQNICRNIYENGGIVSSVCHGAAGLFHITLSNGDRLISGKKVTGFSNEEEKLAELDQFVPFLTEDELIKNGGLYEKAAQPWEAYALEDNRVITGQNPASGGPVAELVLKQLQK				NA	NA	NA	NA	NA
AK009_02641	1326	ribZ		Riboflavin transporter RibZ	ATGGGGAAAGATATAAGTAACCATTCGAAATGGTTTGTTTTTACATTATGTTTTATTGTTTTGTTAGGACCGATGAACGCTGTGTTATTTAATGTAGCGCTAGAGGATATTGCCAATGATTTATCAATTAGTCAATCGAAAGTAAGTTGGGTTGTAGTGGGGTATTCTTTAGTTGTCGGTATTGGTTCGATGATATATGGAAAACTGGCTGATCGTTACAGTGTAAAAAGGCTATTAATTATTTCTATTATCATATTTGTAGCTGGTTCTATTGTTGGGTTTGTGAATCAATCTTATGAGATTATCATTTTCGCAAGGTTAGTGCAGGCGAGCGGGGGAGCAGCGTTTATTGCGCTCAGTATGATTGCGGTGGCAAAATTAGTTGCTCCAGCTAAAAAACCGGGTGCGTTAGCAATGATTAGTTCTTCTATTGCATTAGCGGTTGGTATTGGACCTTTAGTTGGTGGGGCAATTACAAATACGTTAGGGTGGCCGTATTTATTTTTATTTATGGTTATTTCAATGATTGGTATTTTCTTGCTCGTAAAATTTATGCCAGAAGAGGCGCAACATACCGATGAAGTGTTTCGCTTTGATTTCATTGGAGCAGTTTTATTATTTGTATTGATTACGACCATTTTATTAGGAGTGAATATTAATAGTTGGCTTTTTGTGTTATCTGTTGCTTTCCTATTTTTATTCAGGGCTCATATGAAGAGAACAGAGTCGCCGTTTATTGATATTGAGTTGTTTACAAATAAACCATTACTTCGTTTAATAGCGGTCGGATTTATCATTAATGTGGCGTTATGTGCTAGTTTATTATTATTACCATTACTGTTAGGAAGAGGACACGGATTGTCTCCATTCGTTATTGGAATTGTATTGTTTGTTGCATCTCTCTTTGGTATTGTATCTAGTGTTATTACCGGAAAGATTATTCCTTCGTTTGGGAATGTGAGGATGATGTATGTAGCGTCTGTAGTTATGATCATGGGCTTTTTAATTTTAGGGATTATTCCGAATGGGAACTTACTCTTTATTTTATTTGCGGTTATTTTAACATTTATGAGTTATTCGGCAATTCAAGTATCATTAAACACATTTATACCCAAAACATTAAATCCAGCTAAAGTTGGAGTTGGTCTTGGTTTATATAATTTAATTAACTTTTTCGGTATGGCATTTGGACCAGCTGTAGCGAGCAAAATTATGGAATCTACAAATAGTTATCGATTGAATTTTATTTTGCTCGTCATTTTAATTTCTGCTCATTTCTTCTTATTAATGGGAATGTCTTCTTTTCAAAAAAAGATGGAGCAATGA	MGKDISNHSKWFVFTLCFIVLLGPMNAVLFNVALEDIANDLSISQSKVSWVVVGYSLVVGIGSMIYGKLADRYSVKRLLIISIIIFVAGSIVGFVNQSYEIIIFARLVQASGGAAFIALSMIAVAKLVAPAKKPGALAMISSSIALAVGIGPLVGGAITNTLGWPYLFLFMVISMIGIFLLVKFMPEEAQHTDEVFRFDFIGAVLLFVLITTILLGVNINSWLFVLSVAFLFLFRAHMKRTESPFIDIELFTNKPLLRLIAVGFIINVALCASLLLLPLLLGRGHGLSPFVIGIVLFVASLFGIVSSVITGKIIPSFGNVRMMYVASVVMIMGFLILGIIPNGNLLFILFAVILTFMSYSAIQVSLNTFIPKTLNPAKVGVGLGLYNLINFFGMAFGPAVASKIMESTNSYRLNFILLVILISAHFFLLMGMSSFQKKMEQ	PGPT0027880_337	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
AK009_02642	810	murI		Glutamate racemase	ATGAAGTTGAATAGAGCAATCGGTGTTATCGATTCAGGAGTTGGCGGTTTAACAGTAGCGAAGGAATTAATTCGTCAGTTGCCGAAAGAGCGTATCATATATTTAGGAGATACAGCACGTTGTCCTTATGGTCCACGTTCTCGAGAAGAAGTGCGTCAATTTACGTGGGAAATGACGGAGCATTTACTAGATTTAAATATTAAAATGTTAGTTATTGCGTGTAATACAGCAACTGCAGTTGTATTAGAAGAGATGCAAAAACAATTACCAATTCCAGTAGTAGGAGTTATTCACCCAGGATCACGTACAGCTTTAAAAGTGACAAACACGTATCAGGTTGGGATTATTGGAACGATTGGAACCGTGAAAAGTGGTGCATACGAAGAGGCGTTAAAGTCTATTAATAACCGTGTTATGGTAGAAAGTTTAGCTTGTCCACCTTTCGTTGAACTTGTAGAGAGTGGGAATTTCGAAAGTGAAATGGCGTACGAAGTTGTAAGAGAAACGCTGCAACCACTGAAAAGTACCGATATTGATACCCTTATATTAGGGTGTACACATTATCCGATTTTAGGACCTGTTATTAAAAAAGTAATGGGAGATAAAGTACAACTAATTAGTTCTGGTGATGAAACAGCACGTGAAGTAAGTACAATCTTATATCATAGTAAAATGTTGAATGAAGGAGAAGAACAAAGCGATCATCTCTTCTTAACAACAGGAAAAATAGGCTTGTTTAAAGAAATTGCATCAAAATGGTTCGGTCAACCGATTGAAAATGTGAAGCATATTCATTTAGAAAAAGAATAA	MKLNRAIGVIDSGVGGLTVAKELIRQLPKERIIYLGDTARCPYGPRSREEVRQFTWEMTEHLLDLNIKMLVIACNTATAVVLEEMQKQLPIPVVGVIHPGSRTALKVTNTYQVGIIGTIGTVKSGAYEEALKSINNRVMVESLACPPFVELVESGNFESEMAYEVVRETLQPLKSTDIDTLILGCTHYPILGPVIKKVMGDKVQLISSGDETAREVSTILYHSKMLNEGEEQSDHLFLTTGKIGLFKEIASKWFGQPIENVKHIHLEKE	PGPT0020200_2462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
AK009_02643	1050	gerM	COG5401	Spore germination protein GerM	ATGCCTAAATCCACTTTTAAATGGGTTGTTGGTGCTACTGTGAGCGCTGTTTTACTAACAGGGTGTGGCTTTATAAATCAGGAGAAAGCAACTGAACAAATTGATCCGCCAAAACAAGTTACGTATACAGAGGGTGGGAAGAAAGAAGTAGCTAAAAAAGATAAGCAAGGGCAAATGGTAAATAGAGAACTATACCTTGTTGATAAAAATGGTTATGTTGTACCACAAACATTAGCTATACCTACTCCGAAAGCAAATGAGACTGTGAAGCAAACGTTAGAATACCTTGTGAAAGATGGACCAGTAACAAATTTATTACCGAATGGGTTTCGTGCAGTCATTCCGGCGAATACAACGATGACCTTAGATTTGAAAAAGGACGGGACGGCAGTTATTGATTTCTCTAAAGAAATGAAAAACTATGCGAAAGAAGAAGAGCGGCAAATCGTTGAATCTATAGCGTGGACGTTGACTCAATTTACAGAGATAAAACAAGTGCAGTTCCAAATAAATGGTGAGAAATTGGCAAAGATGCCTGTTGGTGGTACACCGCTTGGTGAAGGAGTGAGCCGTGCAAATGGTATTAACTTCGATGATGAACAAGTAGCAGATGTAACAAATACAAAACCAGTCACACTGTATTTTATGGCGCAAAATAATAATAAACAGCAATATTACGTACCAGTAACGCGCCGCGTTGCTGAAGGAAAAGAAAATGATTATGCAGCAATTATAGATGAGCTTGTAAAAGGTCCGATTCATCAATCGCTCCTGAATGATTTTAATCCAGGCGTTAAGCTTATTACGAATCCGAAATTACAAGACGGAAATCTTACATTAAACTTTAATGAAAATATATTTGTAAACCCAGATAAAAATATGATTTCAAATTACGTATTGAAGTCGTTAGTTTTATCTTTAACAGAAAAGAAAGGTGTGAAAAATGTTTCTATTGAAGTGAATGGAAAAGCAAATCTTATAGATGAAAAGGGCGGAAAGTTAATAAAACCTGTAGATCGTCCAGAAAACGTGAATACAGGTAGTTTTTAA	MPKSTFKWVVGATVSAVLLTGCGFINQEKATEQIDPPKQVTYTEGGKKEVAKKDKQGQMVNRELYLVDKNGYVVPQTLAIPTPKANETVKQTLEYLVKDGPVTNLLPNGFRAVIPANTTMTLDLKKDGTAVIDFSKEMKNYAKEEERQIVESIAWTLTQFTEIKQVQFQINGEKLAKMPVGGTPLGEGVSRANGINFDDEQVADVTNTKPVTLYFMAQNNNKQQYYVPVTRRVAEGKENDYAAIIDELVKGPIHQSLLNDFNPGVKLITNPKLQDGNLTLNFNENIFVNPDKNMISNYVLKSLVLSLTEKKGVKNVSIEVNGKANLIDEKGGKLIKPVDRPENVNTGSF				NA	NA	NA	NA	NA
AK009_02644	738	rph_1	COG0689	Ribonuclease PH	ATGCGAGTAGATGGTAGAGAGAAAACAGAATTACGCCATATACATATTCATACGAATTATTTAAAACATCCAGAGGGATCTGTATTAATTGAAGTTGGGGATACAAAGGTGATTTGCTCAGCGACAATTGAAGAGCGTGTACCACCGTTTATGCGTGGAGAAGGAAAGGGCTGGGTAACAGCTGAATACGCGATGATTCCGCGTGCAACAGAACAACGTACAATTAGAGAGTCAAGCAAAGGGAAAGTAACAGGACGTACAATGGAAATTCAGCGTCTAATTGGACGAGCATTACGTGCGGTAGTTGATTTAGAAGCGCTTGGCGAGAGAACAGTTTGGATTGACTGTGATGTTATCCAAGCAGATGGTGGAACGAGAACAGCGTCTATTACAGGTGCATATGTAGCGATGGTACTAGCTTTTGAGAAGTTATTACAAGCAGAAAAAGTATCTAAAATTCCAGTAAAAGATTATTTAGCAGCAACGTCAGTAGGGATTGTTGAAGAGCAAGGTGTTGTTTTAGATTTAAACTATGCAGAAGATTCTAAAGCAGACGTTGATATGAACGTGATTATGACTGGAAAAGGCCAATTTGTTGAAGTGCAAGGAACTGGAGAAGAAGCGACGTTTAGTAGAGCGCAGTTAAATGAACTACTTGATGCTGCGGAAAAAGGCATTTTCCAACTGATTGATATGCAAAAAGAAGCTTTAGGCGACATCGTATCTCATATAGAGTAG	MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVPPFMRGEGKGWVTAEYAMIPRATEQRTIRESSKGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVIQADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYAEDSKADVDMNVIMTGKGQFVEVQGTGEEATFSRAQLNELLDAAEKGIFQLIDMQKEALGDIVSHIE	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
AK009_02645	609	rdgB	COG0127	dITP/XTP pyrophosphatase	ATGAAACAAGTTGTTGTAGCGACAAAAAATATGGGTAAAGTACGTGAGTTTGCTGAGTTATTTGAGCGATTTAATTTAGAAGTAAAATCATTACACGATTTTCCTCATATTGAAGAAGTTGAAGAAACAGGTGAAACATTTGAAGAAAATGCGATCTTAAAAGCGGATAGTTTGAGTAGACAGCTGAATTCGATCGTAATTGCGGATGATTCGGGTCTTATTGTAGATGCTTTAAACGGAAAACCAGGAGTGTATTCAGCGCGTTTTGCTGGTGAACCGAAAAATGATCAAGCAAATATCGATAAAGTGTTACAAGAATTAAATGGCATTGACTTTGAAAAGCGTAAAGCACGTTTCTATTGTGCATTAGCAGTTGCTTTCCCTGAAGGTGATAAAAAGCCTGTCATTGTAAATGGGACATGTGAAGGATTTATTTTAGAACAACGCCGCGGAGAAAATGGTTTTGGATACGATCCGATCTTTTATGTGGAAGAATACAAAAAAGCAATGGCGGAATTAAGTTCAGATGAGAAAAATGCTATTAGCCACCGTGGTCGTGCTCTTCGTAAGTTAGAAGAAAAAATCCCGGAATGGTTTTTAGGAGAATAA	MKQVVVATKNMGKVREFAELFERFNLEVKSLHDFPHIEEVEETGETFEENAILKADSLSRQLNSIVIADDSGLIVDALNGKPGVYSARFAGEPKNDQANIDKVLQELNGIDFEKRKARFYCALAVAFPEGDKKPVIVNGTCEGFILEQRRGENGFGYDPIFYVEEYKKAMAELSSDEKNAISHRGRALRKLEEKIPEWFLGE	PGPT0021590_2887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK009_02646	507			Putative metallophosphoesterase MG207	ATGATGAAAGCTTTAATCGTAAGCGATAGTCATAGCTCTGTGAAGGAATTACAGCAGTTGAAAGAGAAATATGAAGGGAAAGTAGATATCATGATTCATTGCGGTGATTCAGAGCTAACGCCTGCTCATGAAGAAATGCAAGGTTTCCGTGTTGTAAAAGGAAACTGTGATTATGCTAACTTTCAAGATGAAATTGTAACTGATGTAAATGGAATTCGCTTCTTAGTTGTGCATGGACATCGCCATAATGTGAAAATGACATTACAAACGCTAGCGTACCATGCGGAAGAAGTAGGAGCGCAAGTTGCATGCTTCGGACATTCTCACGTATTAGGTGCGGAATTAATCGACGGCGTTTTATTTATTAATCCAGGCAGTATTTTATTACCACGTCAGCGTGTAGAAAAGACATTTGCTGTATTAGAAATGGATGAAAATCAAATGGAAGTTCGTTTTGAAACATTAGACGGACAACTAGTTGAACAAGCAGTTTTTAAAAGAGGATAA	MMKALIVSDSHSSVKELQQLKEKYEGKVDIMIHCGDSELTPAHEEMQGFRVVKGNCDYANFQDEIVTDVNGIRFLVVHGHRHNVKMTLQTLAYHAEEVGAQVACFGHSHVLGAELIDGVLFINPGSILLPRQRVEKTFAVLEMDENQMEVRFETLDGQLVEQAVFKRG	PGPT0021590_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK009_02649	201			hypothetical protein	ATGGCGAGAACAAAAGAGAATGATTTAACGGAGAAATTGGCAGAAGGTCAACGGAAATATGGTGACGGCAACTTTACAGTACAGAACATCGGTGATGAAACTAACCCGAATTGGACTGTCGTAAAAAATGTGAGGAAGGGATCGGCAGGCATTCGCGAAGGAGAAGATATATTAAGACTGCGATCAAAATATATAAAATAG	MARTKENDLTEKLAEGQRKYGDGNFTVQNIGDETNPNWTVVKNVRKGSAGIREGEDILRLRSKYIK				NA	NA	NA	NA	NA
AK009_02650	318			hypothetical protein	ATGTTTTTTGTTGCCATTAGGCGCATGAGATTTACCCCATTTAATCCTAATGCATCATTCGTCGAAACCGCCAATACGACAGGCTTGCCATTTCTTAACGTCGCTTTTGCTGCCATTAGTACTGGAGAGTCTGTCATTGCATTTGCAAATTTACTCATAGAATTTCCTGTTAAAGGAGCGATTACCATGCAGTCTAATGGAATTTTAGGTCCAAGTGGCTCTGCTCCAACAATTGAATTAATTGCTTTAAAACCTGTTATTTCTTCAATTTTCTTAATCCACTCTGCTCCTTCTCCAAATCTAGTATTTGTTGATTGA	MFFVAIRRMRFTPFNPNASFVETANTTGLPFLNVAFAAISTGESVIAFANLLIEFPVKGAITMQSNGILGPSGSAPTIELIALKPVISSIFLIHSAPSPNLVFVD				NA	NA	NA	NA	NA
AK009_02651	903	dpaA		Dipicolinate synthase subunit A	ATGTTGACTGAGATGCATATTGCTGTCATAGGAGGAGATGCAAGGCAGCTAGAAGTAATTCGTAAGCTAGTTGAATTGGATGCGAAACTTTCTTTGATAGGGTTTGATCAGTTAGATCATGGTTTCACAGGGGCAGCAAAAGAAAGTATACAAAATTTAGATTTCACTTCTGTAGACGCAATTATTTTGCCGGTTGCAGGTACAAATGCTAAAGGAGAAGTAGATACTATTTTTTCAAATGAAAAAGTTTCAATAACGAAAGAACAAATTGAAAATACACCAGAACACTTTACTATATATTCGGGTATTGGTACACCTTACTTGGAAAATCTCGTATCTACTACGAACCGAAAACTTGTTAAATTATTTGATCGTGATGATGTGGCAATATACAATTCTATTCCAACTGTAGAAGGTACATTAATGATGGTAATTCAACATACCGACTATACAATTCATGGGTCCAATGTAATGGTTCTAGGATTTGGTAGAACAGGAATGAGTGTTGCGAGAGCATTTCAATCATTAGGAGCCCATGTCAAAGTTGGAGCAAGACGATCTGAACATATTGCACGTATTACAGAAATGATGTTTTCTCCTTTTCATATGCAAGACATAGAGAAAGAAGTAGGAAATATCGATATTGTAATCAATACAATTCCGCACCTCGTTGTAACAGCGAATGTTATTGCAAAAATGCCAGCTCATACGTTAGTGATTGATTTAGCTTCTAAACCAGGCGGTACTGACTTTAGATATGCGGAAAAAAGAGGAGTCAAAGCGTTGCTAGCACCTGGATTACCAGGTATTGTTGCTCCCAAAACGGCTGGGCAAATTTTAGCAAATGTTCTTTCTCAGTTATTAGCAGCAGATGCAATTGCAAAGGAGGAGGAAAAGAAATGA	MLTEMHIAVIGGDARQLEVIRKLVELDAKLSLIGFDQLDHGFTGAAKESIQNLDFTSVDAIILPVAGTNAKGEVDTIFSNEKVSITKEQIENTPEHFTIYSGIGTPYLENLVSTTNRKLVKLFDRDDVAIYNSIPTVEGTLMMVIQHTDYTIHGSNVMVLGFGRTGMSVARAFQSLGAHVKVGARRSEHIARITEMMFSPFHMQDIEKEVGNIDIVINTIPHLVVTANVIAKMPAHTLVIDLASKPGGTDFRYAEKRGVKALLAPGLPGIVAPKTAGQILANVLSQLLAADAIAKEEEKK				NA	NA	NA	NA	NA
AK009_02652	252			hypothetical protein	ATGCGATTAAGTGAATTAAGTGGTAAAGAGGTTGTAGATATAGAAAAAGCGGAAAAAATGGGAGTCTTAGGTTATATGGATTTAGAGATTAATGAGAAAGACGGACAAATACAAACACTTATAATACCTGTAGGGAAGTGGGGAGGTTTTAAAAAGGAACCACAAGAAGTAAGGGTGGCATGGAGTCAAATAAAGAAAGTCGGACATGATATGCTTCTTTGTGATAGTATAGATCGTTCAAATTCGGAGTGA	MRLSELSGKEVVDIEKAEKMGVLGYMDLEINEKDGQIQTLIIPVGKWGGFKKEPQEVRVAWSQIKKVGHDMLLCDSIDRSNSE				NA	NA	NA	NA	NA
AK009_02653	1242		COG0612	putative zinc protease	TTGATTAAAAAATATACTTGTAAAAATGGTGTAAGAATAGTTATGGAGAATATACCAACTGTAAGATCGGTTGCAATTGGTATTTGGATCCATGCGGGATCAAGAAATGAAAATGAAAAAAATAATGGGATTTCTCACTTTTTAGAGCATATGTTCTTTAAAGGGACAGAGACACGTAGTGCACGAGAGATTGCAGAATCATTTGATAGCATTGGTGGTCAAGTGAATGCATTTACTTCAAAAGAATATACTTGTTACTATGCAAAAGTATTAGATGAGCATGCTAAATATGCTTTAGATGTTTTAGCAGATATGTTCTTTAATTCAACATTTGATGAGGAAGAACTGAAAAAAGAGAAGAATGTCGTATGTGAAGAAATTAAAATGTACGAAGATGCGCCAGATGATATTGTGCATGATATGTTAACGAAAGCAACATATGAAACGCATCCACTTGGATATCCTATTTTAGGAACAGAAGAAACGCTTAATACGTTTACAGGTGATACGTTACGTCAATATATAAAAGATCATTACACACCTGAAAATGTAGTTGTATCAGTTGCAGGAAATATTGATGAAGCATTTTTACAAACAGTGGAGCAATATTTCGGTAGTTATGAAGGAACAACAAACCGTGAACAAGTACATAGCCCAATTTTCCATTTTAATAAGGTAGCCCGTAAAAAGGAAACGGAACAAGCTCATTTATGTCTAGGATATAAAGGTTTACAAATGGGACACGAAGATATTTATAACTTAATTGTATTAAATAATGTTTTAGGCGGTAGCATGAGTAGCCGTTTATTCCAAGAAGTACGTGAGCAACGTGGATTAGCTTACTCGGTATTTTCTTACCACTCTTCTTATGAAGATACAGGTATGTTAACACTTTACGGTGGAACAGGTAGCCAACAATTAGATACACTGTATGAAACAATGCAAGAAACATTAGAGACATTGAAAAATACAGGTATTACAGAAAAAGAGCTTATGAATAGTAAAGAGCAATTAAAAGGAAACTTAATGTTAAGTTTAGAAAGTACAAATAGCCGTATGAGCCGTAACGGTAAAAATGAATTGCTTCTTCGTAAACATCGTTCACTTGATGAGATTATTGAAAGTGTAAACACTGTAACAAAAGAAAATGTGGACGGATTAATTCGCAACATGTTTACTGATGAATTCTCTGCGGCACTTATTAGTCCAGATGGAAAACTTCCAAAAGGAATAAAACTATAA	MIKKYTCKNGVRIVMENIPTVRSVAIGIWIHAGSRNENEKNNGISHFLEHMFFKGTETRSAREIAESFDSIGGQVNAFTSKEYTCYYAKVLDEHAKYALDVLADMFFNSTFDEEELKKEKNVVCEEIKMYEDAPDDIVHDMLTKATYETHPLGYPILGTEETLNTFTGDTLRQYIKDHYTPENVVVSVAGNIDEAFLQTVEQYFGSYEGTTNREQVHSPIFHFNKVARKKETEQAHLCLGYKGLQMGHEDIYNLIVLNNVLGGSMSSRLFQEVREQRGLAYSVFSYHSSYEDTGMLTLYGGTGSQQLDTLYETMQETLETLKNTGITEKELMNSKEQLKGNLMLSLESTNSRMSRNGKNELLLRKHRSLDEIIESVNTVTKENVDGLIRNMFTDEFSAALISPDGKLPKGIKL				NA	NA	NA	NA	NA
AK009_02654	900			hypothetical protein	ATGAAAGTTCGTATATTGGCATACATATGTATATTTTCTTTATATGTCAGTTTAGGCTCTTATTCTGTTTTTGCACAAGATAACTTGCATGAAGAAATTCAAAAGCATGCAAAACAGTATGAGATTGCACCTCAAAATGCGATGATTGATAAAATATGGAAGGCAACACCTGGATATAATGGAAGACAAGTGGATATTGAAGCATCGTATAATAATATGAAGAAGCTAAAGGAATTTGATCAAAAATATCTTGAATTCAAAGAAGTCTCACCGAGTGTTCATTTGGAAGATTTATCACCAGCTCCAATTTATAGAGGGCATCCAAATAAAAAGATGGTAGGATTAACAATAAATGTGGCATGGGGAAATGAGTATTTGCCTCGCATATTAGAAATCTTGAAAAAGCATGATGTGAAGGCCACTTTCTTTTTAGAAGGACGTTGGGTGAAAGAAAATTTGCGGTTTGCAAAAATGATTGTCGATGCAAAACAAGAAGTTGGAAATCACTCATACACACACCCTAATATGAAAACGTTATCCTCAGATGAAATACGAGATCAGTTACAAAAAACAAATCGAATGATAGAAGTAGCAACGAATCAAAAAGTAAGATGGTTTGCCCCGCCGAGTGGAAGCTTTCGAGATGAAGTCGTAAAGATTGCAGATGATTTTCAAATGGGAACGATTATGTGGACTGTAGATACGATTGATTGGCAGCGACCTGAGCCAGATGTACTATTGCAGAGAGTAATGAGAAAAATACATCCAGGTGCTATCATATTAATGCATCCTACTTCGTCTACAGCAGAGGCTTTAGATATAATGATTACAAAATTGAAGGAACAAGGATATAAAGTGGGGAATATAACTGAATTACTGGATGAAAAACGTGTGGATTAA	MKVRILAYICIFSLYVSLGSYSVFAQDNLHEEIQKHAKQYEIAPQNAMIDKIWKATPGYNGRQVDIEASYNNMKKLKEFDQKYLEFKEVSPSVHLEDLSPAPIYRGHPNKKMVGLTINVAWGNEYLPRILEILKKHDVKATFFLEGRWVKENLRFAKMIVDAKQEVGNHSYTHPNMKTLSSDEIRDQLQKTNRMIEVATNQKVRWFAPPSGSFRDEVVKIADDFQMGTIMWTVDTIDWQRPEPDVLLQRVMRKIHPGAIILMHPTSSTAEALDIMITKLKEQGYKVGNITELLDEKRVD	PGPT0018645_1423	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_02655	2139	pnp_1	COG1185	Polyribonucleotide nucleotidyltransferase	ATGAGTCAAGAAAAGCAAGTCTTCTCGATAGATTTAGCTGGTCGCCAGCTAACAGTTGAAACTGGTCAGCTTGCCAAACAAGCGAACGGAGCAGTATTAGTAAGATATGGCGATACAGCGGTTCTATCTACAGCAACTGCATCAAAAGAAGCTAAAAATGTAGATTTTTTCCCACTTACAGTAAACTATGAAGAGCGTTTATATGCAGTCGGAAAAATTCCTGGCGGTTTTATTAAGCGTGAAGGTCGTCCAAGTGAAAAAGCAATTTTGGCAAGTCGTTTAATCGACCGTCCAATTCGTCCGCTATTCGCAGATGGTTTCCGTAACGAAGTGCAAGTTGTCAGCATTGTAATGAGTGTTGATCAAGATTGTTCTTCTGAAATGGCAGCTATGCTTGGTTCTTCATTAGCGTTATCGATTTCAGATATTCCATTTGAAGGTCCAATCGCTGGTGCGACAGTTGGTCGTATTAATGGCGAATTCGTTATTAATCCAACAGTAGAACAGCAAGAACAAAGTGATATCCACTTAGTTGTAGCTGGTACGAAAGATGCGATTAACATGGTTGAAGCAGGAGCAGATCAAGTGCCTGAAGAAACAATGTTAGAAGCAATTATGTTTGGTCATGACGAAATTAAACGTTTAATTGCATTCCAAGAAGAGATTGTACAAGCTGTAGGTAAAGAGAAATCAGAAGTGAAACTTTATGAAGTTGACGCTGATCTTAATCAAGCTGTACGTGAAATGGCTGAGAAGGATATGCATTCTGCAATTCAAGTACATGAGAAACATGCACGTGAAGATGCAATTAACGAAGTGAAAAAGCGTGTAATTGAGCATTACGAAGCTGAAGAAGCTGACGCTGATACATTAGGACAAGTAAATGAGATTTTATATAAAATTGTAAAAGAAGAAGTACGTCGTCTTATTACAGTTGAAAAAATTCGCCCAGATGGCCGTAAAGGTGACGAAATCCGTCCTTTAGCATCAGAGGTTGGTATTTTATCTCGTACACACGGTTCTGGTTTATTCACACGTGGACAAACACAAGCATTAAGTATTTGTACATTAGGTGCATTAGGCGATGTGCAAATTTTAGATGGTCTTGGTGTAGAAGAATCAAAACGCTTTATGCACCATTACAATTTCCCATCATTTAGTGTTGGTGAAACAAGACCGATGCGTGGACCAGGTCGTCGTGAAATTGGTCACGGGGCACTAGGAGAGCGCGCACTTGAGCCTGTAATTCCATCTGAAAAAGATTTCCCATACACAGTACGCCTTGTATCTGAAGTATTAGAATCAAATGGTTCTACTTCACAAGCAAGTATTTGTGGTAGTACTTTAGCAATGATGGATGCGGGTGTTCCACTTAAAGCTCCAGTTGCAGGTATTGCAATGGGTCTGGTTAAATCTGGTGAGCATTACACAATTTTATCTGATATTCAAGGTATGGAAGATCATTTAGGTGATATGGACTTTAAAGTAGCAGGTACAGCACAAGGTGTAACTGCACTGCAAATGGACATTAAAATCGATGGTTTATCACGTGAGATTTTAGAAGAGGCATTACAACAAGCGAAAATTGGTCGTGTGCACATTCTAAATCATATGTTATCTGTTATTGCAGAGCCACGTACTGAATTATCAGCTTACGCTCCAAAGATTATTATAATGACAATTAACCCAGATAAAATCCGTGACGTTATTGGACCAAGCGGTAAACAAATCAATAAAATTATTGAAGAAACTGGTGTTAAAATTGACATCGAGCAAGATGGTACAGTATTCATTTCATCAATAAATCAAGAAATGAACGACAAAGCTAAGAAGATTATCGAAGATATCGTTCGCGAAGTACAAGTAGGTGAGATCTACGAAGGAAAAGTGAAACGTGTTGAGAAATTCGGTGCTTTCGTTGAATTATTCAGCGGTAAAGATGGATTAGTTCATATTTCTGAACTTGCACTTGAGCGTGTAGGTAAAGTAGAAGACGTTGTGAAAATCGGTGATGTAATTACAGTTAAAGTTATCGAGATTGACAAGCAAGGTCGCGTAAATCTATCTAGAAAAGTATTGCTAAAAGAAGAGCAAGAAAAAGAAGCTGCTAAAGAAGAAGACAAACAAGAGCAGCAATAA	MSQEKQVFSIDLAGRQLTVETGQLAKQANGAVLVRYGDTAVLSTATASKEAKNVDFFPLTVNYEERLYAVGKIPGGFIKREGRPSEKAILASRLIDRPIRPLFADGFRNEVQVVSIVMSVDQDCSSEMAAMLGSSLALSISDIPFEGPIAGATVGRINGEFVINPTVEQQEQSDIHLVVAGTKDAINMVEAGADQVPEETMLEAIMFGHDEIKRLIAFQEEIVQAVGKEKSEVKLYEVDADLNQAVREMAEKDMHSAIQVHEKHAREDAINEVKKRVIEHYEAEEADADTLGQVNEILYKIVKEEVRRLITVEKIRPDGRKGDEIRPLASEVGILSRTHGSGLFTRGQTQALSICTLGALGDVQILDGLGVEESKRFMHHYNFPSFSVGETRPMRGPGRREIGHGALGERALEPVIPSEKDFPYTVRLVSEVLESNGSTSQASICGSTLAMMDAGVPLKAPVAGIAMGLVKSGEHYTILSDIQGMEDHLGDMDFKVAGTAQGVTALQMDIKIDGLSREILEEALQQAKIGRVHILNHMLSVIAEPRTELSAYAPKIIIMTINPDKIRDVIGPSGKQINKIIEETGVKIDIEQDGTVFISSINQEMNDKAKKIIEDIVREVQVGEIYEGKVKRVEKFGAFVELFSGKDGLVHISELALERVGKVEDVVKIGDVITVKVIEIDKQGRVNLSRKVLLKEEQEKEAAKEEDKQEQQ				NA	NA	NA	NA	NA
AK009_02656	270	rpsO_1	COG0184	30S ribosomal protein S15	ATGGCTTTAACACAAGAGCGTAAAAACGAAATCATTGCACAATTTAGAACTCATGAGACTGATACTGGTTCTCCAGAGGTTCAAATTGCTGTCCTAACGGAGCAAATTAACACTCTAAACGAGCACTTACGTACTCACAAGAAAGATCATCATTCACGTCGTGGTCTATTAAAGATGGTTGGTAAACGTCGTAACTTACTAACTTACCTTCGTAATAGCGATATCACACGTTACCGTGAATTAATCACAAAGCTTGGCTTACGTCGATAG	MALTQERKNEIIAQFRTHETDTGSPEVQIAVLTEQINTLNEHLRTHKKDHHSRRGLLKMVGKRRNLLTYLRNSDITRYRELITKLGLRR				NA	NA	NA	NA	NA
AK009_02657	972	ribF	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	GTGAAACTTATTCATTTAACTCATCCACATGAACAAAATAAATTAGAATTACCACCTACTGTAATGGCATTAGGATTTTTTGATGGCATTCATTTAGGACATCAATGTGTAATTCGAACTGCGAAAAAAATAGCGGACGACAGAGGATATAAAAGTGCAGTTATGACATTTCATCCCCACCCATCTGTTGTTTTAGGGAAAAAGGATGCGCATGTGGAGTATATTACACCAATGCGTGATAAAGAAAAAATAGTCGAAAGCTTAGGAATCGATATATTATATGTGATTAAATTTGATGAATCATTTGCAGGGTTATTACCGCAACAATTTGTAGATGATTATATTATTGGTTTAAATGTAAAGCATGTAGTAGCAGGGTTTGATTATTCATATGGACGTTTAGGAAAAGGAAAGATGGAGACTTTACCATTTCATGCAAGAGGGGAGTTTACACAGACTGTGATTGAAAAAGTTGAATTTCAAGAAGAGAAAGTAAGTTCTACAGCATTACGAAAGTTAATTCGAAATGGCGAAATGGAACAAATTCCATCTATTTTAGGTAGAGCCTATACTGTAGCGGGAACAGTTATACACGGCGACAAACGTGGACGCCAAATTGGTTTTCCAACAGCTAATGTAGGTTTAAGTGATGAGTATTTATTGCCACCTGTAGGTGTTTATGCAGTGAGATTAAAAGTTCACGATGAATGGTACGATGGTGTATGTAATATTGGATATAAACCGACTTTTAAAGAAGATGAGCGTCAATTATCAATTGAAGTGCACTTATTTGAATTTAACAAAGATATATACGACCAAAATGTTACAGTAGAGTGGCATATGCGTATAAGAGAAGAGAAGAAATTCAATGGCATTGATGAGTTAGTTGAACAAATCGCAAAAGATAAGAAAACAGCACAAGAATATTTTGCGAGCGAAAAGAATATACTTGCTTTTTCAAATGAAAAGTAG	MKLIHLTHPHEQNKLELPPTVMALGFFDGIHLGHQCVIRTAKKIADDRGYKSAVMTFHPHPSVVLGKKDAHVEYITPMRDKEKIVESLGIDILYVIKFDESFAGLLPQQFVDDYIIGLNVKHVVAGFDYSYGRLGKGKMETLPFHARGEFTQTVIEKVEFQEEKVSSTALRKLIRNGEMEQIPSILGRAYTVAGTVIHGDKRGRQIGFPTANVGLSDEYLLPPVGVYAVRLKVHDEWYDGVCNIGYKPTFKEDERQLSIEVHLFEFNKDIYDQNVTVEWHMRIREEKKFNGIDELVEQIAKDKKTAQEYFASEKNILAFSNEK	PGPT0008625_1141	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
AK009_02658	924	truB_1	COG0130	tRNA pseudouridine synthase B	ATGGAAGGTGTAGTATTATTACATAAGCCAAAAGGCATGACATCACATGATTGTGTATTTAAATTAAGAAAGGTATTGAGAGAAAAGAGAATTGGTCATACGGGAACATTAGACCCAGATGTAACAGGAGTATTACCAATTTGCGTCGGAAGAGCAACAAAAATTGCACAATTTTTAACAAGTGAAACGAAAACATATGAAGGTGAAGTAACATTAGGATTTTCAACGACAACTGAAGATGCTTCTGGTGAGGTTGTTGAAACGAAAAATATAGATCGTGCTATTACTCGTAAGGAAATAGAAAAAGTTCTTGCTGAATTAACAGGCACGATTGAACAAAAGCCACCAATGTTCTCGGCTGTAAAAGTAAACGGGAAAAAATTATACGAATATGCAAGAGCAGGACAAGAGGTGGAACGTCCAGTTCGTACAATTACGATTCATGAGTTCGTATTACTTGATGATCGTGAAGTTTTTGAAGGAGAAAATATTTCATTCCGTTTCCGTGTAACGTGTAGTAAAGGAACATATGTAAGAACGTTAGCGGTAATGATTGGGGAGAAACTTGGTTTCCCATCACATATGTCTCACCTTGTAAGAACGGCATCTGGTGAATTTTTATTAGAAGATTGCATATCATTTGAAGAAATTGAAGAAAACGTGCAAAATGGAACAGTAGAGTCTATCTTCATTTCAATTGATGAAGCATTAAGTAAGTTTCCAAAAATGGTTGTAGATGAAAAGCAAGCAGAGAAAATTAAGAATGGTATGTTCTTAAAGAATGAATTAGAAATAACGGCACCATTTATTACAGTGTTTGATAAAAATGATCGTTGCTTAGCAATTTATGAACATCATCCGAAACATCCTGGCATGTTAAAGCCGATGAAAGTACTTGTGAATAATCAAGAACTAAAGCTATAA	MEGVVLLHKPKGMTSHDCVFKLRKVLREKRIGHTGTLDPDVTGVLPICVGRATKIAQFLTSETKTYEGEVTLGFSTTTEDASGEVVETKNIDRAITRKEIEKVLAELTGTIEQKPPMFSAVKVNGKKLYEYARAGQEVERPVRTITIHEFVLLDDREVFEGENISFRFRVTCSKGTYVRTLAVMIGEKLGFPSHMSHLVRTASGEFLLEDCISFEEIEENVQNGTVESIFISIDEALSKFPKMVVDEKQAEKIKNGMFLKNELEITAPFITVFDKNDRCLAIYEHHPKHPGMLKPMKVLVNNQELKL				NA	NA	NA	NA	NA
AK009_02659	357	rbfA_1		Ribosome-binding factor A	ATGAAATTACGTGCAAACCGTGTAGGCGAGCAAATGAAAAAAGAATTAGGCGACATCATTAGTCGTAAAATTAAAGACCCACGTATCGGATTTGTTACAGTAACAGATGTACAAGTGAGTGGTGATTTACAAATTGCCAAAGTATATATTTCTGTTTTAGGTGACGAAGAACAGAAAGAAAATACGTTAAAAGGTTTAGCGAAGGCAAAAGGCTTTATTCGTTCAGAAATTGGCCAACGTATTCGTCTTCGTAAAACACCGGAAATTACCTTTGAGTTTGATGAGTCTATCGGATATGGTCATCGAATTGATACACTTTTACATGAAATTAATAAAGACGGTAAACGTGAAGAATAA	MKLRANRVGEQMKKELGDIISRKIKDPRIGFVTVTDVQVSGDLQIAKVYISVLGDEEQKENTLKGLAKAKGFIRSEIGQRIRLRKTPEITFEFDESIGYGHRIDTLLHEINKDGKREE				NA	NA	NA	NA	NA
AK009_02660	282			hypothetical protein	ATGATTGTCGCTTCACTCTCATTCGAGTGTATGATTTACGATGTACATTCTTTAAAAGAGAAACGGGCAATTTTGCAACGAGTGCTAACTCGTGTGAAACAGCGCTATAATGTAGCTGTTTCTGAAGTTGGGCATCAAGATGTATGGCAACGTACAGAAATTGCGATTGTTTCCGTATCCTCAAATCGTGTTATCTGTGAAAAAGAAATGAATCGTGTACTGGAGTACATCGATTCATTTCCTGAAATTGAACGTACGATAACACAATTGGAATGGTATTGA	MIVASLSFECMIYDVHSLKEKRAILQRVLTRVKQRYNVAVSEVGHQDVWQRTEIAIVSVSSNRVICEKEMNRVLEYIDSFPEIERTITQLEWY	PGPT0014535_629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764	NA	NA
AK009_02661	2067	infB		Translation initiation factor IF-2	ATGAGTAAAATTCGAGTACATGAATATGCAAAAAAAAATAATATCTCAAGTAAAGATCTTATGACAAAACTTAAAGAGATGAATATCGAGGTTTCGAATCATATGACAATGTTAGAAGACGAAGTAGTAAATAAATTAGATAATGAATATAACACTGGAGCGGAAAAACCTTCTGTTGCAGATGAGTTTGAAGTAGAAGAGAAAGTTGTTCGCAGTAAAAAGAACAGCAATAAGAAAAAGAAAAAAGGCAAAGGAAATGAAGACAAACGTCAAGATAACTTTGCTGGAAGACAACAAACACAAATAGTAGAAACACCAGATAAAATTACTTTCTCTGGAAGCCTTACAGTAGGTGAACTTGCTAAAAAGTTAAGCAAAGAGCCATCTGAAATTATTAAAAAGCTCTTCATGCTAGGAATTATGGCGACAATTAACCAAGATTTAGATAAAGATACAATTGAGTTAATCGCTACTGATTACGGTATTGAAGTAGAAGAAGAAATAGTGGTAAGTGAAACTGAGTTTGAAACATTCATGGATGAGCAAGATGATGAAGAAAACTTAAAAGAGCGTCCAGCTGTTGTTACGATTATGGGACACGTTGACCATGGTAAAACAACATTACTTGACTCTATTCGTAATTCAAAAGTAACTGCTGGCGAAGCTGGTGGAATTACTCAGCATATTGGTGCATACCAAGTTGAAGTAAATGATAAGAAAATTACATTCTTAGATACGCCTGGTCACGCGGCATTTACAACAATGCGTGCTCGTGGTGCGCAAGTAACTGATATTACAATCCTTGTTGTTGCAGCTGATGACGGTGTTATGCCACAAACAGTTGAAGCGATTAGCCATGCAAAAGCAGCTGGAGTACCAATTATTGTTGCTGTGAATAAAATGGATAAACCAGCGGCGAATCCTGATCGTGTAATGCAAGAATTAACAGAATATGAATTAGTTCCAGAAGCTTGGGGCGGAGACACAATTTTCGTACCAATTTCTGCAATTCAAGGCGAAGGCATTGACAACTTGCTAGAGATGATTCTTCTTGTAAGTGAAGTAGAAGAATATAAAGCAAACCCAAATCGTTATGCAACGGGTACTGTAATTGAAGCACAGCTTGATAAAGGTAAAGGAACTATCGCGACATTATTAGTTCAAAACGGTACGCTTCGAGTTGGAGATCCAATTGTTGTTGGAACTTCATTCGGACGTGTTCGTGCAATGGTAAGTGATATTGGTCGTCGTGTAAAAGTTGCTGGTCCATCAACTCCTGTTGAAATTACAGGTTTAAATGAAGTACCACAGGCTGGAGATCGTTTCATGGCATTCGCTGATGAGAAGAAAGCTCGTCAAATCGGTGAATCACGTGCACAAGAAGCGTTAGTTGCACAACGTGGTGAGAAATCTAAATTAAGCCTTGAAGATTTATTCCAACAAATCCAAGAGAGCGATGTAAAAGAAATCAACTTAATCGTAAAAGCAGACGTACAAGGTTCTGTTGAAGCGATGGCAGCATCACTTCGTAAAATTGATGTTGAAGGCGTAAAAGTTAAAATCATTCACACTGGTGTAGGTGCGATTACAGAATCTGATATTATTTTAGCTTCTGCATCTAATGCAATTGTAATTGGATTTAACGTACGTCCGGATGTGAACGCGAAGCGTACAGCTGAATTAGAGAACGTTGATGTTCGCTTACACCGCATTATCTACAAAGTAATCGAAGAAATTGAATTAGCAATGCAAGGTATGCTTGATCCAGAATTCGAAGAAAAAGTAATCGGTCAAGCGGAAGTTCGTCAAACATTCAAGGTAACAAAAGTTGGAACAATTGCAGGTTGTTACGTAATTGACGGTAAAATTACACGCGATAGTGGCGTTCGTATTATCCGCGATGGTATAGTAATTTTCGAAGGACAACTTGATACGTTAAAACGTTTCAAAGACGACGTAAAAGAAGTTGCACAAAACTATGAGTGTGGTATTACAATTGAGAGATATAATGACCTTAAAGAAGGGGACATCATTGAAGCATACGTTATGGAAGAAGTGAAGCGATGA	MSKIRVHEYAKKNNISSKDLMTKLKEMNIEVSNHMTMLEDEVVNKLDNEYNTGAEKPSVADEFEVEEKVVRSKKNSNKKKKKGKGNEDKRQDNFAGRQQTQIVETPDKITFSGSLTVGELAKKLSKEPSEIIKKLFMLGIMATINQDLDKDTIELIATDYGIEVEEEIVVSETEFETFMDEQDDEENLKERPAVVTIMGHVDHGKTTLLDSIRNSKVTAGEAGGITQHIGAYQVEVNDKKITFLDTPGHAAFTTMRARGAQVTDITILVVAADDGVMPQTVEAISHAKAAGVPIIVAVNKMDKPAANPDRVMQELTEYELVPEAWGGDTIFVPISAIQGEGIDNLLEMILLVSEVEEYKANPNRYATGTVIEAQLDKGKGTIATLLVQNGTLRVGDPIVVGTSFGRVRAMVSDIGRRVKVAGPSTPVEITGLNEVPQAGDRFMAFADEKKARQIGESRAQEALVAQRGEKSKLSLEDLFQQIQESDVKEINLIVKADVQGSVEAMAASLRKIDVEGVKVKIIHTGVGAITESDIILASASNAIVIGFNVRPDVNAKRTAELENVDVRLHRIIYKVIEEIELAMQGMLDPEFEEKVIGQAEVRQTFKVTKVGTIAGCYVIDGKITRDSGVRIIRDGIVIFEGQLDTLKRFKDDVKEVAQNYECGITIERYNDLKEGDIIEAYVMEEVKR				NA	NA	NA	NA	NA
AK009_02662	312	rplGA	COG1358	putative ribosomal protein YlxQ	GTGTCCGATTGGAAATCGTTTTTAGGACTAGCAAATCGCGCTCGAAAAATCATTTCGGGTGAAGAACTCGTTTTAAAAGAAGTACGAAGTGGTAAAGCAAAGCTCGTATTGCTTTCTGAAGATGCGTCAGCGAACACTACTAAACGTATCACTGATAAAACGACGTACTACAACGTACCAATGAAAAAAGTCGAAAATCGACAACAATTAGGGCATGCGATTGGGAGAGACGAGCGAGTCGTTGTAGCTGTGTTAGATGAAGGCTTTGCGAAAAAGCTACGTAGCATGCTCGATACAAATTACCGGGGGTGA	MSDWKSFLGLANRARKIISGEELVLKEVRSGKAKLVLLSEDASANTTKRITDKTTYYNVPMKKVENRQQLGHAIGRDERVVVAVLDEGFAKKLRSMLDTNYRG				NA	NA	NA	NA	NA
AK009_02663	273			hypothetical protein	ATGAGCAATCGAAAAGTTCCGTTACGAAAATGTATTGCGACGCAAGAGATGAAATCAAAACGAGAGCTGGTTCGCATTGTTCGTTCCAAAGAGGGCGAAGTGTCTATTGATTTATCTGGAAAAAAATCAGGACGAGGTGCATATTTGTCAAAAGATAAAGAATGCATTATACAAGCCCAAAAGAAAAACATTTTGGAACATCATCTAAAAGCGAAAATCGACAGTTCTCTGTACGAAGAGCTTCTTGAGCTTGTTGAGAAGGAGTCGAAATAA	MSNRKVPLRKCIATQEMKSKRELVRIVRSKEGEVSIDLSGKKSGRGAYLSKDKECIIQAQKKNILEHHLKAKIDSSLYEELLELVEKESK				NA	NA	NA	NA	NA
AK009_02664	1107	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGAGCACTGAGTTGTTAGATGCTTTGCTCGTATTAGAGTCAGAAAAAGGTATTAGTAAAGATATTATTATTGATGCGATTGAAGCAGCATTAATCTCTGCTTATAAACGCAATTTTAACCAAGCACAAAACGTTCGTGTGAGCTTTAACACAGAAGTGGGAACAATTCAAGTTTTAGCACGTAAGGACGTTGTTGATAATGTGTTTGATCCACGTCTTGAAATCTCTGTAGAAGAGGCAAGACAAATTAATCCAAACTACCAAGATGGCGACGTACTAGAAATTGAAGTAACGCCAAAAGATTTTGGTCGTATTGCAGCGCAAACTGCAAAACAAGTTGTAACACAACGAGTTCGTGAAGCAGAACGTGGTGTTATTTACTCAGAATTTAGTGATCGTGAAGAAGACATTATGGTTGGTATTGTACAACGCCAAGATGCTCGTTTCATCTACGTAAGCTTAGGCAAAGTAGAAGCTTTATTACCTGTAAGTGAGCAAATGCCAAATGAGCAATATAAGCCACATGATCGTATTCGCGTATTTATTACAAAAGTAGAAAAGACAACAAAAGGACCACAAATTTACGTATCACGTACACATCCTGGTCTTTTAAAACGTTTATTCGAAATGGAAGTTCCAGAAATTTATGATGGAACTGTAGAAATTCGCTCTGTAGCGCGCGAAGCAGGAGATCGTTCTAAAATCTCTGTGCATGCAGAAAACATTGATGTTGATCCAGTTGGTTCTTGCGTAGGACCGAAAGGACAACGTGTACAACGTGTTGTAGATGAACTAAAAGGTGAAAAGATTGACATCGTTCGCTGGTCAAATGACCCAGTTGAATATGTTGCAAATGCTTTAAGCCCATCACAAGTTGTTAAAGTACTTGTAGATGAAGATGAAAAAGCAACAACTGTTGTTGTTCCAGACCACCAGCTATCGTTAGCTATCGGTAAGCGTGGACAAAATGCACGTCTTGCAGCTAAATTAACAGGCTGGAAAATTGATATTAAAAGTGAGTCTGATGCGAAACAACTTGGAATTGTTACAGAAGAAGATAGCGTAATCGCATTCGGATTCGATTCAGTTGAAGACGAAATCGAATAG	MSTELLDALLVLESEKGISKDIIIDAIEAALISAYKRNFNQAQNVRVSFNTEVGTIQVLARKDVVDNVFDPRLEISVEEARQINPNYQDGDVLEIEVTPKDFGRIAAQTAKQVVTQRVREAERGVIYSEFSDREEDIMVGIVQRQDARFIYVSLGKVEALLPVSEQMPNEQYKPHDRIRVFITKVEKTTKGPQIYVSRTHPGLLKRLFEMEVPEIYDGTVEIRSVAREAGDRSKISVHAENIDVDPVGSCVGPKGQRVQRVVDELKGEKIDIVRWSNDPVEYVANALSPSQVVKVLVDEDEKATTVVVPDHQLSLAIGKRGQNARLAAKLTGWKIDIKSESDAKQLGIVTEEDSVIAFGFDSVEDEIE				NA	NA	NA	NA	NA
AK009_02665	471	rimP_1	COG0779	Ribosome maturation factor RimP	ATGGATAAGAAAGTCACAGAAGTTGTAGAAGCATTTGCGCAGCCAATCGTTGAAGAGTTAAATCTTGAACTTGTAGATGTAGAGTATGTGAAAGAAGGACAAGACTGGTTCTTACGCGTATTCATCGATTCTGAAAAGGGAGTCGACATTGAAGAATGCGGTGCGGTAAGTGAACGTTTAAGCGAAGCTTTAGATAAAGAGGATCCAATTCCTCACCTTTACTTTTTGGATGTATCATCTCCTGGAGCAGAACGCCCATTAAAGAAAGAGAAAGACTTCCAGCAAGCGGTAGGAAAACAAGTGGCAATTAAAACATATGAGCCAATTGATGGCGAAAAGATGTTTGAAGGAAAGTTACTTTCCTACGACGGTACTACAATTACACTACTATTAACAATTAAAACACGTAAAAAAGAAATCCAAATTCCAATGGATAAAGTTGCAAATGCGCGACTTGCTGTTACGTTTTAG	MDKKVTEVVEAFAQPIVEELNLELVDVEYVKEGQDWFLRVFIDSEKGVDIEECGAVSERLSEALDKEDPIPHLYFLDVSSPGAERPLKKEKDFQQAVGKQVAIKTYEPIDGEKMFEGKLLSYDGTTITLLLTIKTRKKEIQIPMDKVANARLAVTF				NA	NA	NA	NA	NA
AK009_02666	4302	polC_2	COG2176	DNA polymerase III PolC-type	ATGTCTTTAACAAATGAACAACAAGAGCGATTTCAAATTTTGCTCCAGCAGTTGCAAATACCAGACGACCTTATAAATCAATATTTACAAGGCGGTGGTATTGAAAGGCTCGTTATTGATAAAGCGAATAAAAGTTGGCATTTTGATTTACAAGTGCCACGTATTTTGCCTACAGAATTATATGAATTGCTAGAAACAAAGCTTAAGCAATCATTTTCTCATATTGCAAGAACAACATTTGCATTAGAAACAGAGAATAAACAATTTACAGAAGAAGAAGTGAGGGCGTATTGGCCGCTTTGTACGGAACGAATTACATTTTCACCTATGTTTGCTTACTTAAAGAAACAGCTTCCGCAGGTGAATGGAGTGAAGTTGCTAATAAATGTGAATAATGAGCTGGAGTCTACTGCTTTAAAGAAAAACGTTGCGAAACCAGTAGGGGATCAATACGAAGCTTTTGGATTTCCACGTTTCCAGTTAGACACACATATACAGCAAAATGCAGAAGAAATGCAAAAGTTTCGTGAGCAAACGCAGCAAGAAGACCGCGAGCGTGTTATACAAGCTATGGAAGAAATGGCGAAGAAGCAAGCTGAAGAAAGTAGCGTTGTGTATGAAGGACCGATTACACTCGGGTATCTTATTAAGCCAGATGAAGAGATTACACCGATGCGAGAAATTCAAGATGAAGAAAGAAGAAAAACGGTTCAAGGATATGTCTTCCATGTAGAGACAAAAGAGCTTCGTAGTGGACGTACGTTATTAACTTTAAAAATAACGGATTATACGGATTCTATTATGATCAAAATGTTCTCGCGTGACAAAGAAGATATTCCAATGCTGCAATCCTTGAAAAAAGGAATGTGGGTGAAAGCCCGTGGTTCAGTTCAAAACGATACATTTGTTCGAGATTTAGTAATGATTGCGAATGATATTAATGAAATAACAGGTCCGTCTCGTAAAGATAAAGCGCCAGAAGGCGAAAAGCGTGTAGAACTTCATCTTCACACTCCCATGAGCCAAATGGATGCTGTTACTCCTGTTTCTAGGCTTGTTGCCCAAGCTGGTAAATGGGGACATGAAGCTATTGCGGTTACAGACCATGCTGTGGCTCAGTCGTTCCCGGAGGCATATTCTGCGGGGAAAAAGGCTGGAGTTAAAGTTATATACGGTGTAGAAGCGAATTTAGTTAATGATGGTGTACCGATAGCGTATAACGAAGCGCATCGTTTACTTGCGGAGGAAACGTATGTTGTTTTCGACGTTGAGACGACAGGTTTATCAGCTGTATACGATACAGTCATTGAGTTGGCTGCCGTAAAAGTAAAGGGTGGCGAAATCATTGATCGTTTTGAATCTTTTGCAAACCCACATCAACCATTATCAGCGACGATTATTGAATTAACAGGTATTACAGATGATATGTTAACTGATGCACCAGAAGTGGACGAAGTGTTTAAAAAGTTTGAGGAATGGATGGGTGACCATACCCTTGTTGCCCATAACGCAAGCTTCGATATGGGATTTATTAACGTAGGTTTTAAAAAGGCTGGGTTAGAAAAAACGAATAACCCTGTTATTGATACGTTAGAACTTGCACGATTCTTATTCCCAGAAATGAAAAATCACCGATTAAATACGATGTGTAAAAAACTTGATATTGAATTAACGCAACATCACCGTGCGATTTATGATACAGAAGCGACGGGATATTTACTTGTGAAAATGTTGAAAGACGTAATTGAAAAGGGATTTGAATATCACGATCAATTAAATGATAGTATGGGGCAAGGGGATGCGTATAAGCGTGGCCGTCCAAGCCATCTGACGTTACTTGCCACATCAGATGTTGGATTGAAAAATTTATATAAACTTGTTTCATATTCTCACCTTAATTACTTTTACCGTGTACCACGAGTACCGAGGTCACTATTAAAAAAATATCGTGAAGGAATTTTAGTAGGAACGGCTTGTGATAAAGGTGAAGTGTTTGAGGCAATGATGCAAAAAGCTCCTGAAGAGGTAGAAGAAATTGCACAGTTTTATGATTACATTGAAGTAATGCCTCCAGAGGTGTTGCGTCATTTAGTAGAGCGTGAACTCGTTCGAGATGAGGGACAATTAAAAACAATTATCTCTAACTTAGTAAAACTAGGCGAGACGTTAGATAAACCAGTTGTTGCTACAGGGAACGTGCATTACTTAGATCCAGAAGATGCAATGTATCGTAAAATTTTAGTCAGTTCGCAGGGTGGAGCCAATCCGTTAAATCGACATTCATTACCGCCAGTACATTTCCGTACAACTGATGAAATGCTAGAGTGTTTTTCATTTTTAGGTGAAGACAAAGCGAAAGAAGTTGTTGTGACGAATACACAAAAGGTTGCGTCATTAATTGGTGATGTTCGTCCAGTAAAAGATGATCTATATACACCGAAAATTGAGGGTGCCGATGATGAAACACGTGATATGAGTTATAAAATGGCACGCAGTATATATGGTGAAGAACTACCAGAAATTGTAGAGGCTCGTTTAGAAAAAGAATTGAAAAGTATTATTGGACATGGATTTGCCGTTATCTATTTAATCTCACATAAGCTTGTGAAAAAATCGTTAGTCGACGGATATCTAGTAGGTTCGCGTGGTTCGGTAGGTTCATCGTTCGTTGCAACGATGATGGAAATTACAGAAGTAAACCCATTACCACCACACTATGTCTGTCCAAAGTGCAAGCAATCTGAATTCTTTAATGATGGTTCCGTAGGCTCTGGTTTCGACTTACCAGATAAAGATTGTCCGACATGTAATGTGGCATATGTGAAAGATGGACATGATATTCCATTCGAAACGTTCCTTGGATTTAAAGGAGATAAGGTACCCGATATCGATTTGAACTTCTCCGGGGAATACCAACCACGTGCCCATAACTATACGAAAGTACTGTTCGGTGAAGACTATGTATACCGTGCTGGAACGATTGGTACAGTTGCGGAAAAAACCGCTTATGGATATGTAAAAGGTTATGCAAATGATCACAATTTAACAATTCGAAATGCAGAGATTGATCGCTTAGTAGCGGGATGTACAGGGGTAAAACGTACAACTGGACAGCATCCAGGTGGTATTATCGTTGTGCCAGATTACATGGATATCTTTGATTTCTCACCAATACAGTTTCCTGCTGATTCAATTGGTGCTGAGTGGAGAACAACGCATTTTGACTTCCACTCGATTCATGATAATTTATTGAAACTTGATATACTAGGACACGATGATCCGACCGTTATTCGTATGTTACAAGATCTAAGTGGTATTGATCCGAAAACAATCCCAACGGATGATCCAGAAGTAATGAAAATTTTCTCTGGTCCAGAAACGTTAGGGGTAACGGAAGAACAAATTAACTGTAAAACAGGTACACTTGGTATCCCGGAATTCGGTACGAAGTTCGTAAGACAGATGTTAGAAGAGACAAAACCAACGACATTTTCAGAATTGGTCCAAATTTCTGGGCTGTCACATGGTACTGACGTATGGCTTGGTAATGCAAATGAGTTAATTTATAACGGTACATGTACGCTGAGTGAAGTTATCGGTTGTCGTGATGACATCATGGTATATTTAATCTATCAAGGTTTAGATCCATCATTAGCCTTCAAAATCATGGAGTCGGTTCGTAAAGGTAAAGGTGTACCAGAAGAATGGGAAGATGACATGAAAGGTAATAATGTGCCAGGTTGGTATATTGATTCATGTAAGAAGATTAAATACATGTTCCCTAAAGCCCATGCGGCTGCTTACGTACTTATGGCTGTGCGTATCGCATACTTTAAAGTACATTTTGCACTTTTATTCTATGCGGCATATTTTACAGTCCGTGCAGATGATTTTGATGTAGAGGCGATGGCGAAAGGTTCAGCATCCATACGTGTAAAAATTGATGAAATTGCTCAAAAAGGATTGGATGCAGCGCCGAAAGAGAAGAGTTTATTAACAGTACTAGAAATGACACTGGAAATGTGTGAGCGTGGATATTCATTCCAAAAGGTCGATTTATACCGCTCGCATGCAACTGAGTTTATTATTGATGGGGATACTTTAATTCCTCCATTTAATGCAGTGCCTGGTCTTGGTACGAACGCAGCCTTAAGTATTGTGGAAGCGCGCAAAAATGGAGACTTCTTATCAAAAGAAGACTTACAGCAGCGAAGTAAGGTTTCGAAAACAATTATTGAGTATTTAGATAGCCAAGGTTGTTTAGGAGATTTGCCAGATCAAAACCAATTATCACTGTTCTAA	MSLTNEQQERFQILLQQLQIPDDLINQYLQGGGIERLVIDKANKSWHFDLQVPRILPTELYELLETKLKQSFSHIARTTFALETENKQFTEEEVRAYWPLCTERITFSPMFAYLKKQLPQVNGVKLLINVNNELESTALKKNVAKPVGDQYEAFGFPRFQLDTHIQQNAEEMQKFREQTQQEDRERVIQAMEEMAKKQAEESSVVYEGPITLGYLIKPDEEITPMREIQDEERRKTVQGYVFHVETKELRSGRTLLTLKITDYTDSIMIKMFSRDKEDIPMLQSLKKGMWVKARGSVQNDTFVRDLVMIANDINEITGPSRKDKAPEGEKRVELHLHTPMSQMDAVTPVSRLVAQAGKWGHEAIAVTDHAVAQSFPEAYSAGKKAGVKVIYGVEANLVNDGVPIAYNEAHRLLAEETYVVFDVETTGLSAVYDTVIELAAVKVKGGEIIDRFESFANPHQPLSATIIELTGITDDMLTDAPEVDEVFKKFEEWMGDHTLVAHNASFDMGFINVGFKKAGLEKTNNPVIDTLELARFLFPEMKNHRLNTMCKKLDIELTQHHRAIYDTEATGYLLVKMLKDVIEKGFEYHDQLNDSMGQGDAYKRGRPSHLTLLATSDVGLKNLYKLVSYSHLNYFYRVPRVPRSLLKKYREGILVGTACDKGEVFEAMMQKAPEEVEEIAQFYDYIEVMPPEVLRHLVERELVRDEGQLKTIISNLVKLGETLDKPVVATGNVHYLDPEDAMYRKILVSSQGGANPLNRHSLPPVHFRTTDEMLECFSFLGEDKAKEVVVTNTQKVASLIGDVRPVKDDLYTPKIEGADDETRDMSYKMARSIYGEELPEIVEARLEKELKSIIGHGFAVIYLISHKLVKKSLVDGYLVGSRGSVGSSFVATMMEITEVNPLPPHYVCPKCKQSEFFNDGSVGSGFDLPDKDCPTCNVAYVKDGHDIPFETFLGFKGDKVPDIDLNFSGEYQPRAHNYTKVLFGEDYVYRAGTIGTVAEKTAYGYVKGYANDHNLTIRNAEIDRLVAGCTGVKRTTGQHPGGIIVVPDYMDIFDFSPIQFPADSIGAEWRTTHFDFHSIHDNLLKLDILGHDDPTVIRMLQDLSGIDPKTIPTDDPEVMKIFSGPETLGVTEEQINCKTGTLGIPEFGTKFVRQMLEETKPTTFSELVQISGLSHGTDVWLGNANELIYNGTCTLSEVIGCRDDIMVYLIYQGLDPSLAFKIMESVRKGKGVPEEWEDDMKGNNVPGWYIDSCKKIKYMFPKAHAAAYVLMAVRIAYFKVHFALLFYAAYFTVRADDFDVEAMAKGSASIRVKIDEIAQKGLDAAPKEKSLLTVLEMTLEMCERGYSFQKVDLYRSHATEFIIDGDTLIPPFNAVPGLGTNAALSIVEARKNGDFLSKEDLQQRSKVSKTIIEYLDSQGCLGDLPDQNQLSLF				NA	NA	NA	NA	NA
AK009_02667	1701	proS_1	COG0442	Proline--tRNA ligase	ATGAAACAAAGTATGGTATTCAGTCCTACATTACGTGAAGTTCCAGCTGATGCTGAAATTAAGAGTCATCAATTATTACTTCGCGCAGGTTTTATGCGTCAAAATGCTTCTGGTATTTATAGTTTTCTACCATTTGGGTTAAAAGTATTACACAAAGTAGAACGTATCGTTCGAGAAGAAATGGAGCGCGCAGGAGCTGTGGAATTATTGATGCCAGCTATGCAAGCTGCAGAATTATGGCAAGAATCAGGTCGTTGGTATTCTTACGGATCTGAATTAATGCGTATGAAAGATCGTAACGCTCGTGAGTTTGCTTTAGGAGCGACGCATGAAGAAGTAATTACTGATCTTGTACGTGATGAAATAAAATCATATAAAAAATTACCGTTAACATTATATCAAATTCAAACGAAATTCCGCGATGAACAAAGACCTCGTTTCGGTTTATTACGTGGAAGAGAGTTTCTAATGAAAGATGCATACTCTTTCCATGCTACACAAGAGAGCTTAGATGAAGTATACGATCGCTTATACAAAGCATATTCTAACATTTTTGCTCGTTGTGGTTTGAACTTCCGTGCAGTTATTGCTGATTCTGGAGCAATGGGCGGAAAAGATACACATGAATTCATGGTATTATCTGATGTTGGTGAAGATACAATTGCATACTCTGATACATCTGATTATGCAGCGAACATTGAAATGGCTCCTGTTGTAGCTACGTATACGAAGAGTGACGAAGCGGAAATGGCACTTGAAAAGGTTGCAACGCCAGATCAAAAAGCGATTGAAGAAGTATCTGCATTCTTAAACATTGAAGCTGACAAGTGTATTAAGTCTATGGTATTTAAAGTAGATGAGAAATTAGTAGTTGTACTTGTTCGTGGTGATCACGAAGTAAACGATGTAAAAGTGAAAAATGTATACGGCGCTTCAGTTGTTGAGCTTGCTTCTCATGAGGAAGTAAAAGAATTATTAAATTGTGAAGTTGGTTCATTAGGACCGATTGGTGTAACAGGTGATATCGAAATTATCGCTGACCATGCTGTAGCATCAATTGTCAACGGATGTTCAGGAGCGAACGAAGAAGGATTCCATTATGTAAATGTAAATCCAGAACGTGACTTTAAAGTAAGTCAGTATACAGATTTACGCTTTATTCAAGAAGGAGACCAATCTCCAGACGGAAACGGAACAATTCTTTTTGCACGTGGAATTGAAGTTGGTCATGTATTCAAATTAGGAACTCGTTATAGTGAAGCAATGAACGCAACATTCCTAGATGAAAATGGGAAAACACAACCACTTATTATGGGTTGTTACGGTATCGGTGTATCTCGTACAGTGGCAGCAATTGCAGAGCAGTTTAATGATGAGAACGGCTTAGTTTGGCCGAAAGCTGTAGCACCGTTCCATGTGCATGTAATTCCAGTAAATATGAAATCTGATGCACAACGTGAAATGGGTGAAAACATCTACAACTCATTACAAGAAAAAGGCTATGAAGTGTTATTAGACGATCGTGCAGAACGTGCAGGTGTTAAATTTGCAGATGCAGATTTATTCGGCCTTCCAGTTCGTGTTACAGTTGGTAAAAAAGCAGACGAAGGTATTGTAGAAGTGAAAGTACGTGCTACAGGTGAGTCTGAAGAAGTAAAAGTAGAAGAACTTCAAACATATATTGCAAATATTTTAAAATAA	MKQSMVFSPTLREVPADAEIKSHQLLLRAGFMRQNASGIYSFLPFGLKVLHKVERIVREEMERAGAVELLMPAMQAAELWQESGRWYSYGSELMRMKDRNAREFALGATHEEVITDLVRDEIKSYKKLPLTLYQIQTKFRDEQRPRFGLLRGREFLMKDAYSFHATQESLDEVYDRLYKAYSNIFARCGLNFRAVIADSGAMGGKDTHEFMVLSDVGEDTIAYSDTSDYAANIEMAPVVATYTKSDEAEMALEKVATPDQKAIEEVSAFLNIEADKCIKSMVFKVDEKLVVVLVRGDHEVNDVKVKNVYGASVVELASHEEVKELLNCEVGSLGPIGVTGDIEIIADHAVASIVNGCSGANEEGFHYVNVNPERDFKVSQYTDLRFIQEGDQSPDGNGTILFARGIEVGHVFKLGTRYSEAMNATFLDENGKTQPLIMGCYGIGVSRTVAAIAEQFNDENGLVWPKAVAPFHVHVIPVNMKSDAQREMGENIYNSLQEKGYEVLLDDRAERAGVKFADADLFGLPVRVTVGKKADEGIVEVKVRATGESEEVKVEELQTYIANILK				NA	NA	NA	NA	NA
AK009_02668	1257	rasP	COG0750	Regulator of sigma-W protease RasP	TTGAATACAGCGATTGCCTTTATATTAATTTTCGGTGCACTCGTATTTTTCCATGAGCTAGGACATCTATATTTCGCAAAAAGAGCAGGTATTTTATGCCGCGAGTTTGCGATTGGTTTTGGTCCGAAAATATTCTCATTTGAAAAGAATGAAACGGTGTATACGATTCGATTACTGCCCCTTGGTGGCTATGTAAGAATGGCTGGCGAGGATGCGGACACAGTTGAGTTAAAGCCTGGGAAAAAGGTTGGCCTTGTATTAAATGAAAAAGACGAAGTTGTGAAATTAGTTTTTGATGGATATGAAAAGTATCCCAATGTTCGTGTCATTGAAGTCGAACAAGCTGATTTGGAGCACAATCTAACAATTTCGGGCTATGAGGAGTACGAGGAAGAGCTTCAAACGTTCCGAGTGAATGAAAAAGCTCGTATTATTACTGCGGGGGAAGAAATTCAAATTGCTCCGTATAATAGACAATTTGGTTCAAAAAAATTAGGGCAACGCGCTTTAACAATCTTTGCGGGTCCTGCAATGAACTTCATTTTAGCATTTGTTATTTTTGTGATTCTTGGATTTGTACAAGGGGTTCCTATTGACAAACCAATGGTCGGAAAAGTGATGGATAATAGTGCAGCACAGCAAGCTGGATTGAAAGAGAATGATACAATTCAAGCGATTGATGGAAAAAACACAAGTACATGGAAAGATGTTGTTGACATTGTACGTGAAAATCCGGATAAAGAAATTACGTTACAAGTAAAGCGTGATAATGAACAGTTTAATGTGAAAGTAACGCCAACACTCGATAAAGAAGGAAAAGACGAAGTTGGTAGAATTGGTGTTTATTCCCCTGTAGAGAAAACAGTAATGGGTTCTATTAAATCAGGATTTGAACAAACATACCAATGGACGAAACTAATTTTTGAATCTCTTGTGAAATTAGTAACTGGTCAATTTTCTATTAATGAGTTGTCAGGTCCAGTAGGAATTTATAATCTAACAGATCAAGTTGTAGATTATGGATTTACGCGTGTACTAAGTTTAGCGGCAGTTTTAAGTATTAATCTTGGTTTATTCAATTTATTACCAGTTCCTGCTTTAGACGGTGGCCGTTTATTCTTCTTCTTAATTGAGGCGTTACGAGGAAAACCAATTGACCGTCAAAAAGAAGGAATGGTTCACTTTATTGGTTTTGCATTATTAATGTTATTAATGTTAGTTGTAACATGGAATGACATTCGTAAGTTTTTCTTGTAA	MNTAIAFILIFGALVFFHELGHLYFAKRAGILCREFAIGFGPKIFSFEKNETVYTIRLLPLGGYVRMAGEDADTVELKPGKKVGLVLNEKDEVVKLVFDGYEKYPNVRVIEVEQADLEHNLTISGYEEYEEELQTFRVNEKARIITAGEEIQIAPYNRQFGSKKLGQRALTIFAGPAMNFILAFVIFVILGFVQGVPIDKPMVGKVMDNSAAQQAGLKENDTIQAIDGKNTSTWKDVVDIVRENPDKEITLQVKRDNEQFNVKVTPTLDKEGKDEVGRIGVYSPVEKTVMGSIKSGFEQTYQWTKLIFESLVKLVTGQFSINELSGPVGIYNLTDQVVDYGFTRVLSLAAVLSINLGLFNLLPVPALDGGRLFFFLIEALRGKPIDRQKEGMVHFIGFALLMLLMLVVTWNDIRKFFL	PGPT0011685_2776	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
AK009_02669	1143	dxr_2	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGAAAAACATTAGTTTATTAGGTGCGAGCGGATCAATTGGTACACAAACTTTAGATGTATTACGCTCGCACCCAGACCAATTCCGTCTCGTTGCTTTTTCTGTAGGGAAAAATATTGACTACGCAGTAAAGGTAATTCAAGAATTTTCTCCGCAAATCGTCTCTGTGCAAAGAGAGGAAGATGTTTTAAAATTACAAGCTGTTTCTGGTAATACAAAAATTGTATATGGTAGTGAAGGGCTTTTAGAAGTAGCATTACATCCAGATGCGGAGATTGTAGTAAATGCTGTTGTAGGTAGCGTAGGGTTGTTACCAACACTTCGTGCAATTGAGGCGAAAAAAACAATTGGAATTGCAAATAAAGAAACGTTAGTAACTGCAGGACATCTTGTAATGGAAGCAGCACGAAAACATAATGTTTCGTTACTTCCAGTAGATAGTGAACATTCAGCTATTTTTCAATGCTTGAATGGTGAAAATGAGAAAAGAATTTCTCGTCTTATTATAACGGCTTCTGGTGGAAGTTTCCGTGATAAAACGAGGGATGAATTGCATCATGTGACCGTAGAAGATGCGCTTCGACATCCAAACTGGTCAATGGGTTCGAAAATTACAATTGATTCTGCTACAATGATGAATAAGGGACTAGAAGTAATTGAAGCACATTGGCTTTTTGGTATCCCTTACGAGCAAATCGATGTTGTTTTACATAAAGAAAGTATTATCCATTCTATGGTTGAATTTGAAGATCGTAGTGTAATGGCGCAGCTTGGTTCACCTGATATGCGAGTACCAATTCAATACGCACTTACATATCCTGATAGATTGCCTCTTTCAGACACAAAACAGTTAAACTTATGGGAAATAGGGACGTTGCATTTTGAGAAAATGGACCAAGAAAGATTCCGTTGTCTACGTTTTGCGTATGAAGCTGGAAAAGCAGGTGGAAGTATGCCAGCTGTAATGAACGCAGCGAATGAAGTAGCTGTTGAAGCCTTTTTACAAAAGAGAATTGGTTTCTTAACAGTAGAAGACCTCATTGAAAAAGCAATGAACCATCACAATGTCATTGCACGTCCGAGCTTAGAGGAAATTCTGGAAATTGATGCAGCCACAAGACGGTTTGTGATGGAACAAATTTAG	MKNISLLGASGSIGTQTLDVLRSHPDQFRLVAFSVGKNIDYAVKVIQEFSPQIVSVQREEDVLKLQAVSGNTKIVYGSEGLLEVALHPDAEIVVNAVVGSVGLLPTLRAIEAKKTIGIANKETLVTAGHLVMEAARKHNVSLLPVDSEHSAIFQCLNGENEKRISRLIITASGGSFRDKTRDELHHVTVEDALRHPNWSMGSKITIDSATMMNKGLEVIEAHWLFGIPYEQIDVVLHKESIIHSMVEFEDRSVMAQLGSPDMRVPIQYALTYPDRLPLSDTKQLNLWEIGTLHFEKMDQERFRCLRFAYEAGKAGGSMPAVMNAANEVAVEAFLQKRIGFLTVEDLIEKAMNHHNVIARPSLEEILEIDAATRRFVMEQI	PGPT0007585_3738	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
AK009_02670	792			hypothetical protein	GTGAAACAGAGAATTATTACTGGAGTGGTTGCTGCCGCGCTATTCATTCCCATCGTAATATACGGTGGCGTGCCTTTTACGGTTTTAGTGTATGCACTTGCTTCTATAGGTTTATATGAATTAATTCGTATGAATAAGCTTACGCTTATTTCAGTACCGACAGTTTTAGCTGCAGTATTATTGTGGATTCTTTTAATTCCAAGTAGTGCATCAGAACTGTTTACATGGATTGGATTAGGTAAATTGGAAATCACATTTGTGATTGTTTTATTACTTTTATCATATACAGTCCTTTCTAAGAATACATTTACTTTTGATAATGCTTCATTTTTACTGATGGCAACGACATATGTGGCAATGGGATTCTTATATTTAAATGAAACGAGAATATTAGGAATTAAATATGTGTTTTGCGCATTATTTATTATATGGGCTACTGATTCAGGCGCATATTTCGTAGGAAAAGCATTAGGCAAGAGAAAATTGTGGCCAGAAATTAGTCCAAATAAAACGATTGAAGGTTCATTAGGCGGCATCGTTTGCGGAATTATCGTGGCACTTGTTTACAACGCGTTCTTCCCAGTTGAATCGAATGTAGTAATTTTAATTGTGCTGACAATTATCATTTCTATTTTTGGACAAATTGGTGATTTAGTACAATCTGCTTTTAAACGTCATTATGGCGTAAAGGATTCAGGTACAATTTTACCTGGACATGGTGGTATATTAGATCGAACAGATAGTTGGTTATTCGTTTTACCAATTCTCTACTTCTTATTACAATACAATTAA	MKQRIITGVVAAALFIPIVIYGGVPFTVLVYALASIGLYELIRMNKLTLISVPTVLAAVLLWILLIPSSASELFTWIGLGKLEITFVIVLLLLSYTVLSKNTFTFDNASFLLMATTYVAMGFLYLNETRILGIKYVFCALFIIWATDSGAYFVGKALGKRKLWPEISPNKTIEGSLGGIVCGIIVALVYNAFFPVESNVVILIVLTIIISIFGQIGDLVQSAFKRHYGVKDSGTILPGHGGILDRTDSWLFVLPILYFLLQYN	PGPT0007685_5684	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
AK009_02671	777	uppS		Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGATGTTTAAAAACTTTCCTTTTTTTAAAGGTAAAAAGGACACATCGTTTGATCATCTCGTTGAAGAAGTGAAAAAAGGATATATCCCAGAACATATTGCCATCATTATGGATGGGAATGGAAGATGGGCAAAGAGGAGAGCAATGCCTCGTATTGCGGGACATCATGAAGGTATGCAAGTTGTAAAGAAAATTACAAAATTTGCAAGTAAACTTAATGTGAAAGTGTTAACTCTCTATGCTTTTTCAACTGAGAACTGGAAAAGACCGAAAAAGGAAGTTGATTATTTAATGAAGCTTCCAGAAGAATTTCTAGGTACATTTTTACCAGAATTGATTGAAGAAAACGTACAAGTCCGAGTAATAGGGCAAAAAGATCGTCTTCCTACGCATACACGCAGAGCGATGGAGAAAGCCATGGAAGATACGAAAGAGAATACGGGATTAATTCTTAATTTCGCGTTAAACTATGGAAGTCGAGATGAAATCGTTTCTGCTGTGCAACATATGATGAAAGATAACGAGGAAGGAAAAATTCGTTCTGAAGAGGTAAGTGAAGAAATGCTTTCTTCCTACTTAATGACGAGTTCTTTACCTGATCCAGAGTTGTTAATCCGAACAAGCGGAGAGCTACGTATTAGTAATTTCATGTTATGGCAAATTGCGTATTCGGAGTTTTGGTTTACAGACGTGTATTGGCCAGACTTCAAAGAAGAACATTTGCTAAATGCAATTACTGACTTTCAACATAGAGGGCGCAGATTCGGAGGCGTGTAG	MMFKNFPFFKGKKDTSFDHLVEEVKKGYIPEHIAIIMDGNGRWAKRRAMPRIAGHHEGMQVVKKITKFASKLNVKVLTLYAFSTENWKRPKKEVDYLMKLPEEFLGTFLPELIEENVQVRVIGQKDRLPTHTRRAMEKAMEDTKENTGLILNFALNYGSRDEIVSAVQHMMKDNEEGKIRSEEVSEEMLSSYLMTSSLPDPELLIRTSGELRISNFMLWQIAYSEFWFTDVYWPDFKEEHLLNAITDFQHRGRRFGGV	PGPT0024180_1013	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
AK009_02672	558	frr	COG0233	Ribosome-recycling factor	ATGGGACAACAAGTATTGAAGTCTTCAAATGAAAAAATGGAAAAAGCAGTTGCTGCTTATTCTCGTGAATTAGCAACAGTTCGCGCTGGTCGTGCAAGCTCGTCTGTATTAGATAAGGTACAAGTTGATTACTATGGTGCACCAACACCAGTTGTGCAATTAGCGAACATTACAGTTCCAGAAGCACGTTTACTTGTAATTCAACCTTATGATAAAACTTCTATCGGTGATATCGAAAAAGCAATTTTAAAAGCAGATTTAGGCTTAAACCCTTCTAATGATGGAACTGTAATTCGTATTGCATTCCCTGCATTAACAGAAGAGCGTCGTCGTGATCTTGTTAAAGTTGTGAAAAAATATGCTGAAGAAGCAAAAGTTGCTGTTCGTAACGTACGTCGTGACGGAAATGATGATCTTAAGAAGCTTGAAAAAGCTGGCGAGATTACAGAAGATGATTTAAGAGGATATACTGAAGATATCCAAAAAGAAACAGATAAATATATTGCAAAAGTTGACGAAATCGCAAAAAACAAAGAAAAAGAAATCATGGAAGTGTAA	MGQQVLKSSNEKMEKAVAAYSRELATVRAGRASSSVLDKVQVDYYGAPTPVVQLANITVPEARLLVIQPYDKTSIGDIEKAILKADLGLNPSNDGTVIRIAFPALTEERRRDLVKVVKKYAEEAKVAVRNVRRDGNDDLKKLEKAGEITEDDLRGYTEDIQKETDKYIAKVDEIAKNKEKEIMEV				NA	NA	NA	NA	NA
AK009_02673	723	pyrH_2	COG0528	Uridylate kinase	ATGAGTAAACCGAAATATAATCGTGTCGTTTTAAAGTTAAGTGGAGAAGCTTTAGCTGGAGAGCAAGGATTTGGAATTAATCCAACTGTTATTAAGTCAGTTGCAGAACAAGTAAAAGAAATTGCAGAACTTGATGTAGAGGTTGCTGTTGTTGTTGGTGGCGGTAACATTTGGCGTGGGAAAATTGGAAGTGAAATGGGCATGGATCGTGCAGGAGCAGATTACATGGGCATGTTAGCTACAGTTATGAATTCATTAGCTCTTCAAGATAGCTTGGAGAATATTGGAATCCAAACTCGTGTACAAACTTCAATTGAGATGCGTCAAGTGGCAGAGCCTTACATTCGCCGTAAAGCAGTTCGTCACTTAGAGAAAAAACGTGTTGTTATCTTTGCAGCAGGTACAGGTAATCCATACTTCTCTACAGATACAACAGCAGCATTACGTGCAGCGGAAATCGAAGCAGACGTTATTTTAATGGCGAAAAATAATGTGGATGGCGTATATAGCGCAGATCCATCTATTGACCCAACGGCTACGAAATACGAAACGCTTACTTACTTAGATGTATTAAAAGAAGGTTTAGGTGTAATGGATTCTACAGCTTCTTCTCTATGTATGGATAATGATATTCCATTAATTGTATTCTCGGTTATGGAAAAAGGTAATATTAAACGTGCCGTTTTAGGCGAAAATATTGGAACAGTTGTAAGGGGGAAATAA	MSKPKYNRVVLKLSGEALAGEQGFGINPTVIKSVAEQVKEIAELDVEVAVVVGGGNIWRGKIGSEMGMDRAGADYMGMLATVMNSLALQDSLENIGIQTRVQTSIEMRQVAEPYIRRKAVRHLEKKRVVIFAAGTGNPYFSTDTTAALRAAEIEADVILMAKNNVDGVYSADPSIDPTATKYETLTYLDVLKEGLGVMDSTASSLCMDNDIPLIVFSVMEKGNIKRAVLGENIGTVVRGK	PGPT0021205_2488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
AK009_02674	888	tsf_1	COG0264	Elongation factor Ts	ATGGCAATCACTGCTCAAATGGTAAAAGAATTACGTGAAAAAACTGGCGCAGGTATGATGGACTGCAAAAAAGCTTTAACAGAAACTAACGGCGACATGGAGAAGGCAATTGACTTCTTACGTGAAAAAGGTATTGCGAAAGCTGCTAAAAAAGCAGACCGCATTGCTGCTGAAGGTTTAACTTTCATCGAAACAAACGGTAACGACGCTTTAATCTTAGAATTAAACTCTGAAACTGATTTCGTTGCGAAAAACGAAGGTTTCCAAGCATTAATTAAAGAACTAGCTGCTCACTTATTAGCTAACAAACCTGCTAACGTTGAAGAAGCTATGACTCAAACAATTGAAGGCGGCAAAACAGTAGAAGAGCACATCAACGAAGCAATCGCTAAAATTGGTGAAAAACTTACACTTCGTCGTTTCGAAATCGTATCAAAAACTGATGCAGATGCATTCGGCGCTTACCTACACATGGGTGGACGTATTGGTGTATTAACAGTTCTTGAAGGTTCTACTGATGAAGCAGCTGCTAAAGATGTAGCAATGCACATTGCAGCAGTTAACCCTAAATACATCGACCGCGATGCTGTAACAGCTGAAGAAGTTGAGCATGAGCGTCAAGTATTAACACAACAAGCATTAAACGAAGGCAAGCCTGAAAAAATCGTTGCAAAAATGGTTGAAGGCCGTCTAGGCAAATTCTTCGAAGAGATTTGCTTACTTGACCAAGCATTCGTTAAAAACCCTGATATGAAAGTTCGTCAGTTCGTTGAGTCTAAAGGCGGAACATTAAAAGGATTCGTTCGCTACGCTGTTGGCGAAGGTATCGAAAAACGTGAAGACAACTTTGCTGAAGAAGTAATGAACCAAGTAAAAGGTAGTAACTAA	MAITAQMVKELREKTGAGMMDCKKALTETNGDMEKAIDFLREKGIAKAAKKADRIAAEGLTFIETNGNDALILELNSETDFVAKNEGFQALIKELAAHLLANKPANVEEAMTQTIEGGKTVEEHINEAIAKIGEKLTLRRFEIVSKTDADAFGAYLHMGGRIGVLTVLEGSTDEAAAKDVAMHIAAVNPKYIDRDAVTAEEVEHERQVLTQQALNEGKPEKIVAKMVEGRLGKFFEEICLLDQAFVKNPDMKVRQFVESKGGTLKGFVRYAVGEGIEKREDNFAEEVMNQVKGSN				NA	NA	NA	NA	NA
AK009_02675	702	rpsB	COG0052	30S ribosomal protein S2	ATGTCAGTAATTTCTATGAAGCAATTGCTTGAAGCTGGTGTTCATTTCGGACATCAAACTCGTCGTTGGAACCCAAAAATGAAGCGTTACATTTTCACAGAGCGTAACGGTATCTACATCATCGACTTACAAAAAACTGTGAAAAAAGTTGAGGAAGCTTACAGAACGATGCGTGACATCGCTGCTGAAGGTGGAGACATTTTATTCGTAGGTACTAAAAAACAAGCACAAGAAGCTATTAAAGAAGAAGCAACTCGTGCGGGTATGTACTTCGTTAACCAACGTTGGTTAGGTGGAACTTTAACAAACTTCCAAACAATCCAAAAGCGTATCAAGCGTCTTAAAGACATCGAAAGAATGCAAGAAGATGGTACTTTCGAAGTACTACCTAAGAAAGAAGTTGTTCAACTTAAAAAAGAGTTAGAGCGTCTTGAGAAATTCTTAGGCGGTATTAAAGATATGAAAGGTCTTCCAAGTGCATTATTCGTAGTAGACCCTCGTAAAGAGCGTATTGCAGTTGCTGAAGCACGCAAATTACACATTCCAATCATCGGTATCGTTGATACAAACTGTGATCCAGACGAAATCGATCACGTTATCCCAGCAAACGATGATGCAATTCGTGCTGTAAAACTTCTTACATCTAAAATGGCAGACGCGATCCTTGAAGCAAAACAAGGTGAAGAAACTGTTACTGCGTAA	MSVISMKQLLEAGVHFGHQTRRWNPKMKRYIFTERNGIYIIDLQKTVKKVEEAYRTMRDIAAEGGDILFVGTKKQAQEAIKEEATRAGMYFVNQRWLGGTLTNFQTIQKRIKRLKDIERMQEDGTFEVLPKKEVVQLKKELERLEKFLGGIKDMKGLPSALFVVDPRKERIAVAEARKLHIPIIGIVDTNCDPDEIDHVIPANDDAIRAVKLLTSKMADAILEAKQGEETVTA				NA	NA	NA	NA	NA
AK009_02676	780	codY	COG4465	GTP-sensing transcriptional pleiotropic repressor CodY	ATGGAATTATTAGCAAAAACAAGAAAATTAAATGCGTTATTACAGAGCGCAGCAGGGAAGCCTGTAAACTTTAGAGAAATGTCTGACACAATGTGTGAAGTAATCGAAGCAAACGTATTCGTAGTTAGCCGTCGTGGTAAATTACTAGGTTATGCAATTCACCAACAAATCGAAAACGAACGCATGAAGCAAATGCTTGCAGAACGTCAATTCCCAGAAGAATATACACAAAGCTTATTCAACATTACAGAAACATCTTCAAACTTGGATGTGAACAGTGCTTACACAGCATTCCCAGTAGAAAACAGAGAATTATTTGGTCAAGGTTTAACTACAATCGTACCAATCGTTGGTGGTGGTGAGCGTCTAGGTACATTAGTATTAGCTCGTCTAGGTCAAGAGTTCTTAGATGACGATTTAATCCTTGCTGAGTACAGCTCAACTGTTGTAGGTATGGAAATCTTACGTGAAAAAGCAGAAGAAATCGAAGAGGAAGCACGTAGTAAAGCTGTTGTTCAAATGGCGATCAGCTCATTATCTTACAGTGAGTTAGAAGCAATTGAGCACATCTTCGAAGAATTAAATGGAACAGAAGGTTTACTTGTTGCAAGTAAAATTGCTGATCGCGTAGGAATTACTCGCTCTGTAATCGTAAATGCACTACGTAAATTAGAAAGTGCTGGTGTTATTGAGTCTCGCTCTTTAGGTATGAAAGGAACATACATTAAAGTGCTAAACGACAAGTTTCTACAGGAACTTGCTAAATTAAAAACAAACTAA	MELLAKTRKLNALLQSAAGKPVNFREMSDTMCEVIEANVFVVSRRGKLLGYAIHQQIENERMKQMLAERQFPEEYTQSLFNITETSSNLDVNSAYTAFPVENRELFGQGLTTIVPIVGGGERLGTLVLARLGQEFLDDDLILAEYSSTVVGMEILREKAEEIEEEARSKAVVQMAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGMKGTYIKVLNDKFLQELAKLKTN	PGPT0016270_284	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0016270-codY-K03706	NA	NA
AK009_02677	1392	clpY	COG1220	ATP-dependent protease ATPase subunit ClpY	ATGCATTTACATTTTACTCCGCGCCAAATTGTGGAAAAATTAGATCAATACATCATCGGTCAAAAAGACGCAAAGAAAGCGGTTGCTGTAGCGTTGAGAAATCGATACCGTCGCAGTAAATTAGCTGAAAATTTACGTGATGAAATAGCACCTAAAAACATTTTGATGATTGGACCGACAGGTGTTGGGAAAACAGAGGTAGCACGACGAATGGCGAAACTCGTTGGAGCACCTTTTATTAAGGTTGAGGCTACAAAATTTACAGAAGTTGGATATGTGGGTAGAGATGTAGAGTCGATGGTACGTGACCTTGTGGAAACATCCGTTCGTATTGTAAAAGAAGAAATGGTAGTGAAAGTTCAAGATAAAGCAGAAGAGCAAGCGAATCAACGTCTTGTTGAAATTTTAGTGCCGAGTCCGGAGAAGCAATCTGGATTTAAAAATCCATTAGAGATGCTGTTTGGGGGCGCTCAAAATTCGAGTCAAACGTCTGATACACAAGAAGATGGTGAAATTGAAAAGAAACGTCAAGATGTGGAGAGAAAGCTTGCTGCAGGGCTTCTTGAAGACGAAATTGTATCGATTGAAGTGACTGAGCAACAGTCGTCAATGTTTGATATGTTACAAGGAACTGGCATGGAGCAAATGGGAATGAATTTCCAAGATGCGTTAGGGAGTTTTATGCCGAAAAAAACAAAAAAACGTAAACTTTCTGTAAAAGAAGCAAGAAAACTCTTGACAAATGAAGAGGCACAGCGCTTAATTGATATGGATGAAGTTACACAAGAGGCTGTTTATCGTGCTGAACAGCTCGGGATTATTTTTATCGATGAAATTGACAAAATTGCTGGTAAGCAGTCGAATAGCGTAGATGTATCACGTGAAGGTGTGCAACGTGACATTTTGCCAATTGTAGAAGGGTCGAATGTTGCGACAAAATACGGATCAGTAAAAACGGATTATATTTTATTCGTTGCAGCTGGAGCGTTCCATATGTCTAAACCGTCGGATTTAATTCCGGAATTGCAAGGGAGATTTCCGATTCGAGTAGAATTAACGAAATTATCGACAGACGATTTTGTTAAAATATTAATCGAGCCTGACAATGCGTTAATTAAACAATATATGGCATTATTAGCGACTGAAGGTATAGAAATTGAATTTTCAGACGAAGCTATTCGTAAGATTGCTGAGATTGCTTATCAAGTTAATCAGGATACAGATAATATTGGAGCAAGAAGACTTCATACGATTATGGAGAAGCTCCTTGAAGATTTATCGTTTGAAGCATCTGAAATTACGTTAGAGAAAATAACGATAACCCCTCAATACGTTGAGGAGAAATTAGCAACAATTGCTAAAAATAAAGATGTGAGCCAGTTTATTTTGTAA	MHLHFTPRQIVEKLDQYIIGQKDAKKAVAVALRNRYRRSKLAENLRDEIAPKNILMIGPTGVGKTEVARRMAKLVGAPFIKVEATKFTEVGYVGRDVESMVRDLVETSVRIVKEEMVVKVQDKAEEQANQRLVEILVPSPEKQSGFKNPLEMLFGGAQNSSQTSDTQEDGEIEKKRQDVERKLAAGLLEDEIVSIEVTEQQSSMFDMLQGTGMEQMGMNFQDALGSFMPKKTKKRKLSVKEARKLLTNEEAQRLIDMDEVTQEAVYRAEQLGIIFIDEIDKIAGKQSNSVDVSREGVQRDILPIVEGSNVATKYGSVKTDYILFVAAGAFHMSKPSDLIPELQGRFPIRVELTKLSTDDFVKILIEPDNALIKQYMALLATEGIEIEFSDEAIRKIAEIAYQVNQDTDNIGARRLHTIMEKLLEDLSFEASEITLEKITITPQYVEEKLATIAKNKDVSQFIL				NA	NA	NA	NA	NA
AK009_02678	543	hslV	COG5405	ATP-dependent protease subunit HslV	ATGGGGAATTTCCACGCTACAACGATATTTGCAGTTCATCATAATGGAGAATGTGCAATGGCTGGAGATGGTCAGGTGACAATGGGAAATGCTGTTGTAATGAAACATACAGCTCGTAAAGTTCGCAGACTTTTCCAAGGTAAAGTTTTAGCTGGTTTTGCAGGTTCAGTTGCTGATGCATTTACTCTTTTTGAAATGTTTGAAGGAAAATTAGAAGAGTATAATGGCAACTTGCAGCGTGCAGCTGTTGAAATGGCAAAACAATGGCGTGGCGATAAAATGTTACGTCAACTAGAAGCGATGCTCATTGTCATGGATAAAACAACTATGCTCCTTGTTTCAGGTACAGGAGAAGTGATTGAACCGGATGATGGTATTTTAGCAATTGGATCTGGTGGGAATTATGCACTTTCTGCAGGTCGTGCTTTAAAGCAATATGCAAGTGAACACTTAACAGCGAAACAAATTGCGAAAGCGAGTTTAGAGATTGCTGGCGATATTTGTGTTTATACGAATCACAACATAATTGTTGAAGAATTGTAG	MGNFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRRLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL				NA	NA	NA	NA	NA
AK009_02679	900	xerC_5	COG4974	Tyrosine recombinase XerC	GTGAATGTGAAGAAATTGTTACAATTATTCGTTGGATATTTACAAATTGAAAGAAATTATTCAAAATATACAATTGCAAGTTATCAAAATGATTTAGAACATTTTGTGCAATTTATGGAGCGAGAAGGCATATCCTCTTTTTTAGACGTTACATACGCGGATGTTCGTTTGTACTTAACGACGTTGCACGATGAAAAGTTAGCCCGTAAATCTGTCGCAAGAAAAGTATCAAGCTTACGAAGTTTATATCGTTTTTTGATGCGTGAAGGTTATCGGAAAGATAATCCGTTTGCACTTGCGTCACTCCCCAAAAAAGAATTGTCAATCCCAAAGTTTTTATATGCTGAAGAGTTAGAGGAATTATTTGAAGTTTCTGACACGGAAACGCCATTAGGTCAAAGGAATCAAGCTTTATTAGAGTTGATGTATGCGACTGGAATCCGTGTGAGTGAATGTGTCAATTTACAACTTACCGATATTGACTTTGCGGTGGGAACAATTTTAGTAATGGGAAAAGGAAAAAAACAAAGGTATATTCCGTTCGGAAGCTATGCGCAAGATTCTTTAATTACTTATATAGAGAATGGGAGAAAACAGTTAGTTAATAAGACTGACGAAGACTCTCGTATGGTGTTTTTAAATGCGAAAGGTACACCGCTAACAAGTCGTGGAGTGCGTTATGTTTTAAATGAACTCATTAAAAAGGCTTCATTGACAATGCGAATAAGTCCCCATATGTTAAGGCATACATTTGCTACACATATGTTAGATGAAGGGGCGGATTTACGTACTGTACAGGAGCTATTAGGTCATGAGAATTTGTCGACCACACAAATTTATACGCATGTCTCTAAAGAAAGATTGCGTTCTGTTTACATGAAGCATCACCCGCGGGCATAA	MNVKKLLQLFVGYLQIERNYSKYTIASYQNDLEHFVQFMEREGISSFLDVTYADVRLYLTTLHDEKLARKSVARKVSSLRSLYRFLMREGYRKDNPFALASLPKKELSIPKFLYAEELEELFEVSDTETPLGQRNQALLELMYATGIRVSECVNLQLTDIDFAVGTILVMGKGKKQRYIPFGSYAQDSLITYIENGRKQLVNKTDEDSRMVFLNAKGTPLTSRGVRYVLNELIKKASLTMRISPHMLRHTFATHMLDEGADLRTVQELLGHENLSTTQIYTHVSKERLRSVYMKHHPRA	PGPT0021995_3500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
AK009_02680	1305	trmFO	COG1206	Methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO	ATGACAACACAAGTAGTAAACGTCATTGGCGCAGGTCTTGCAGGAAGTGAAGCGGCTTACCAAATTGCAAAACGTGGTGTCCAAGTTAGATTATATGAAATGAGGCCGGTAAGGCAAACGCCAGCTCATCACACAGATAAATTTGCTGAATTAGTATGTAGTAACTCACTTCGTGCAAACACTTTAACAAATGCAGTTGGAGTTATTAAAGAGGAAATGCGTTTAATGGATTCTGTAATTATTCGTGCGGCAGATGAGTGCTCTGTACCAGCTGGAGGTGCGTTAGCTGTAGACCGTCATGAGTTCGCAGCTAAAGTAACAGAATACGTAAAAAACCATCCGAATGTAACGGTAGTGAACGAAGAGCTTACTGAAATTCCAGAAGGACCAACAATTATTGCAACAGGTCCACTTACATCTCCTGATCTTGCTGCACAATTAAAAGAACTAACAGGTGAAGATTATTTCTATTTCTACGATGCGGCAGCACCAATCGTAGAAAAAGACAGTATTGACATGAATAAAGTATATTTAAAATCGCGTTATGACAAAGGCGAAGCTGCATATTTAAATTGCCCAATGACAGAAGAAGAGTTTGACCGTTTTTATGAGGCTTTAATTGCTGCTGAGACAGTGCCTTTAAAAGAGTTTGAAAAAGAAATTTTCTTTGAAGGTTGTATGCCAGTAGAAGTTATGGCAAGTAGAGGGAGACAGACGCTAGTATTTGGACCTATGAAACCTGTTGGATTGGAAGATCCAAAAACAGGGAAAACGCCATATGCTGTTGTTCAGTTACGTCAAGATGATGCAGCAGGAACTTTATACAATATCGTAGGTTTCCAAACGCATTTAAAGTGGGGACCACAAAAAGAAGTGCTACAGTTAATACCGGGACTGGAAAATGCAGAGATTGTACGTTATGGTGTAATGCATCGTAATACGTTTATTAATTCACCTAATTTGCTTCGTCCAACATATCAATATAAACAACGTGATGATTTATTCTTCGCTGGTCAAATGACTGGAGTAGAGGGATATGTTGAATCAGCAGCATCAGGATTATTAGCAGGAATTAATGCTGCACGTCTTGTGCAAGGTGAAGAGCCAGTTGTATTACCGTCAGTAACTGCGATGGGCAGCATGGCAAATTACATTACGGCAACGAACGCTAAAAACTTCCAACCGATGAATGCGAACTTCGGTCTATTTGCACCGTTAGAGAAGAAGATCAAAAAGAAAGCGGAACGAAATGAAGCATACGCAACACGCGCTTTAGAAACAATTCGAAATTTTGTAAATATTTAG	MTTQVVNVIGAGLAGSEAAYQIAKRGVQVRLYEMRPVRQTPAHHTDKFAELVCSNSLRANTLTNAVGVIKEEMRLMDSVIIRAADECSVPAGGALAVDRHEFAAKVTEYVKNHPNVTVVNEELTEIPEGPTIIATGPLTSPDLAAQLKELTGEDYFYFYDAAAPIVEKDSIDMNKVYLKSRYDKGEAAYLNCPMTEEEFDRFYEALIAAETVPLKEFEKEIFFEGCMPVEVMASRGRQTLVFGPMKPVGLEDPKTGKTPYAVVQLRQDDAAGTLYNIVGFQTHLKWGPQKEVLQLIPGLENAEIVRYGVMHRNTFINSPNLLRPTYQYKQRDDLFFAGQMTGVEGYVESAASGLLAGINAARLVQGEEPVVLPSVTAMGSMANYITATNAKNFQPMNANFGLFAPLEKKIKKKAERNEAYATRALETIRNFVNI				NA	NA	NA	NA	NA
AK009_02681	2079	topA		DNA topoisomerase 1	ATGTCAGATTACCTCGTGATCGTGGAGTCGCCTTCTAAGGCGAAGACCATTGAGAAATATTTAGGGAAAAAATACAAAGTTGTCGCGTCTATGGGACATGTTCGCGATTTGCCAAAAAGTCAAATGGGGATAGAAGTAAAGAACAACTTCACCCCGAAGTATATTACCATTCGTGGTAAAGGTCCCGTCTTAAAAGATTTAAAATCAGCGGCGAAAAAAGCAAAGAAAGTCTATCTCGCGGCCGATCCAGACCGCGAAGGGGAAGCAATTGCTTGGCATTTAGCGAATACGTTAAATGTGGACGTTGAATCAGATTGTCGGGTTGTGTTTAATGAGATTACGAAAGATGCAATCAAAGAATCATTTAAACATCCTCGTGCAATTAATATGGATTTAGTAGATGCACAACAAGCAAGACGTATACTTGATCGTCTTGTTGGTTACAATATTAGTCCTTTATTATGGAAGAAAGTAAAAAAAGGATTAAGTGCAGGGCGTGTACAATCTGTAGCAGTTCGTTTAATCATCGAACGTGAAAAGGAAATTCAAAGCTTTGAACCTGAAGAATTCTGGACAATTAAAACAGAATTTGTAAAAGGAAAAGACACATTTGAAGCAAGCTTTTACGGTGTAGATGGGGAAAAGGTTCAATTAACGAATGAAACGCAAGTGAATGAAATAATTGAACAGATGAAAGACAATGCGTTTTCAGTTGAAAATGTAACGCGCAAAGAGCGAAAACGTAATCCTGCATTACCGTTTACAACATCTTCCTTGCAACAAGAAGCAGCACGTAAGTTAAACATGCGAGCAAAGAAAACGATGATGCTTGCACAGCAATTGTATGAAGGGATAGATCTTGGAAAACAAGGAACTGTAGGTCTTATTACGTATATGAGAACTGATTCAACACGTATCTCAGAAACAGCTCAAACAGAGGCTCGTACTTACATCACTGAAGCGTATGGTACGGAATACATAGGAACAGAAAAGAAGAAAGAAACGAAAAAGTCAAATGCACAAGATGCACATGAGGCAATTCGTCCTACTTCGGTAATGAGAAAGCCAGAGGAACTAAAAAGTTTCTTAAGTCGTGATCAACTTCGATTATATAAATTGATTTGGGAGCGATTTGTTGCAAGTCAAATGGCGTCTGCTATAATGGATACTGTGACAGCGAGACTCATTAATAACAATGTTCAGTTCCGTGCAAGTGGATCGGTTGTAAAGTTCCCAGGATTTATGAAAGTGTATGTAGAGTCGAAAGATGATGGTGCTGAAGAAAAGGATAAGATGTTGCCGCCTTTAGAAGTAGGGGAAACTGTATTTTCGAAGGATTTAGAACCGAAGCAACATTTTACACAACCTCCTCCGCGCTATACAGAGGCTCGTCTAGTAAGAACACTTGAAGAACTTGGAATTGGAAGACCGTCGACTTATGTACCTACACTTGAAACGATTCAAAAACGTGGATATGTAGGCTTGGATAATAAACGCTTCGTTCCGACTGAACTTGGTGAAATAGTAATTGAACTTATTTTAGAATTTTTCCCGGAAATTATTAACATTGAATTTACTGCCAATATGGAGCAAAGCCTTGATGAAGTGGAAGAAGGAAATGCCAATTGGGTGAAAATTGTTGATGATTTCTACGTAGGATTTGAACCGCGCTTAGAAAAAGCGGAAAAAGAAATGCGTGAAGTGGAAATTAAAGATGAGCCAGCTGGGGAAGACTGTGAATTATGCGGACATCCAATGGTCTTTAAAATGGGTAAATACGGGAAGTTTATGGCTTGTTCGAATTTCCCTGATTGTCGTAATACAAAACCGATTGTGAAAGAAATCGGTGTAACTTGTCCGAAATGTGAAGAAGGACAAATTATTGAGCGTCGTAGTAACAAAAAGAAACGCCTTTTCTATGGATGCGGTACGTATCCAGAATGTGACTTTGTATCTTGGGATAAGCCGATTGGTCGTAAATGTCCGAAGTGTGAAGGCATGCTTGTAGAGAAGAAGTTGAAAAAAGGCGTGCAAGTACAATGTATTTCGTGCGATTATGAAGAAGAACAACAAATGTGA	MSDYLVIVESPSKAKTIEKYLGKKYKVVASMGHVRDLPKSQMGIEVKNNFTPKYITIRGKGPVLKDLKSAAKKAKKVYLAADPDREGEAIAWHLANTLNVDVESDCRVVFNEITKDAIKESFKHPRAINMDLVDAQQARRILDRLVGYNISPLLWKKVKKGLSAGRVQSVAVRLIIEREKEIQSFEPEEFWTIKTEFVKGKDTFEASFYGVDGEKVQLTNETQVNEIIEQMKDNAFSVENVTRKERKRNPALPFTTSSLQQEAARKLNMRAKKTMMLAQQLYEGIDLGKQGTVGLITYMRTDSTRISETAQTEARTYITEAYGTEYIGTEKKKETKKSNAQDAHEAIRPTSVMRKPEELKSFLSRDQLRLYKLIWERFVASQMASAIMDTVTARLINNNVQFRASGSVVKFPGFMKVYVESKDDGAEEKDKMLPPLEVGETVFSKDLEPKQHFTQPPPRYTEARLVRTLEELGIGRPSTYVPTLETIQKRGYVGLDNKRFVPTELGEIVIELILEFFPEIINIEFTANMEQSLDEVEEGNANWVKIVDDFYVGFEPRLEKAEKEMREVEIKDEPAGEDCELCGHPMVFKMGKYGKFMACSNFPDCRNTKPIVKEIGVTCPKCEEGQIIERRSNKKKRLFYGCGTYPECDFVSWDKPIGRKCPKCEGMLVEKKLKKGVQVQCISCDYEEEQQM				NA	NA	NA	NA	NA
AK009_02682	870	dprA	COG0758	DNA processing protein DprA	ATGAAAAGAGAGCGGTTATTACATCTTCATTACTTGCTAGCAGATTATTGGAAAGCGATGGAGAGGCTACTATATGTCGATCCAGAATTAAAGAACATATATAATTTTAACGAAAAACAAATGGAGCACTACACTGGAATATCCTCGAAAAAATCTTCAGAACTAGTGAAATTTCTTCAAAGTTCAAATCTTCCGCAATATATATCTTATTTAGAGAAAAATCGTATCTTTTATATAACGATATGGGATGAAAATTATCCACAATTATTACGTGAAATACAAGACCCTCCCTTCGTTTTATATGGAAAAGGAGAGAAAGATTTTCTAAATAAAGTAAATAAATTAGCAGTTGTTGGAACGAGAGAACCATCATTATATGGTCATGAGAGCTTGAAATTTATTTTACACCCTTTATTAGAAAGAGAGTGGCTTATTGTCAGTGGGTTTGCAAAAGGGATAGATACAATGTCTCATGAGATTACAGTAAGGCATCATTGTCCCACTATTGGGATATTAGGGCATGGATTGTCGTTTATGTATCCGAAAGAAAATAGACATTTATATGAAATGTGGAAGGAATATATATTGTTATTGACAGAGTATCCTCCGCACTATGCACCGAAAAAATGGTATTTTCCAAAAAGGAACCGGATTATTAGTGGTATAAGTAAAGGTGTTTTAGTTGTAGAAGCGAAATCGAGAAGTGGGACACTTATTACTGCAGACCTTGCGTTAGAGCAAAATAGAGAGGTGTTTGCGCTTCCTGGACCTATATTTATAGAGGGGGCATCGGGAACAAATCATCTTATTCAACAAGGCGCAAAATTAGTAAGAAATGCAGAAGATATCTTGGAAGAGATTTTAAATTAA	MKRERLLHLHYLLADYWKAMERLLYVDPELKNIYNFNEKQMEHYTGISSKKSSELVKFLQSSNLPQYISYLEKNRIFYITIWDENYPQLLREIQDPPFVLYGKGEKDFLNKVNKLAVVGTREPSLYGHESLKFILHPLLEREWLIVSGFAKGIDTMSHEITVRHHCPTIGILGHGLSFMYPKENRHLYEMWKEYILLLTEYPPHYAPKKWYFPKRNRIISGISKGVLVVEAKSRSGTLITADLALEQNREVFALPGPIFIEGASGTNHLIQQGAKLVRNAEDILEEILN				NA	NA	NA	NA	NA
AK009_02683	903	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGCGTATTAGTTAATAAAGATACAAAAGTTATTGTTCAAGGTATTACAGGTTCTCAAGGTTTATTCCATACAAAACAAATGATTGAATACGGTACGAAAATTGTCGGTGGTGTAACACCAGGTAAAGGCGGCACTGATATTGAAGGTGTACCAGTATTTGATACAGTAGAAGATGCAGTGAAAGCAACAGGCGCAAACGCTTCAGTTGTATACGTTCCACCCGCTTTTGCGGCAGATGCAATTATGGAAGCAGTTGATGCAGAAATTGATTTAGTAGTATGTATTACTGAAGGAATTCCTGTATTAGATATGGTAAACGTAAAGAGATATATGGCTGGTAAACATACACGTTTACTTGGACCAAACTGCCCAGGTGTAATCACACCAGATGAATGTAAGATTGGTATTATGCCAGGATATATTCATAAAAAAGGTCATGTTGGTATCGTATCTCGCTCTGGTACATTAACGTATGAAGCTGTACATCAATTAACACAAGAAGGTATTGGCCAATCTACTGCTGTAGGTATCGGTGGAGACCCTGTTAACGGTACAGACTTTATTGATGCGTTAAAAGCATTTAATGAAGATGAAGAAACACATGCTGTAATTATGATTGGTGAAATCGGCGGTACAGCAGAAGAAGAGGCAGCTGAATGGGTAAAAGCTAATATGACAAAACCTGTTGTAGGCTTCATTGGTGGTCAAACAGCGCCTGCTGGCAAACGTATGGGCCATGCTGGTGCAATCATTTCTGGTGGTAAAGGAACTGCTGCTGAAAAGATTAAAACAATGGAAGCTTGTGGCATTAAAGTAGCTGAAACTCCAGCAGTTATGGGAGAAACGCTAATCTCTGTTTTAAAAGAAAAAGGTCTATTTGAGACTTGCAAAAACTATTAA	MSVLVNKDTKVIVQGITGSQGLFHTKQMIEYGTKIVGGVTPGKGGTDIEGVPVFDTVEDAVKATGANASVVYVPPAFAADAIMEAVDAEIDLVVCITEGIPVLDMVNVKRYMAGKHTRLLGPNCPGVITPDECKIGIMPGYIHKKGHVGIVSRSGTLTYEAVHQLTQEGIGQSTAVGIGGDPVNGTDFIDALKAFNEDEETHAVIMIGEIGGTAEEEAAEWVKANMTKPVVGFIGGQTAPAGKRMGHAGAIISGGKGTAAEKIKTMEACGIKVAETPAVMGETLISVLKEKGLFETCKNY	PGPT0001540_502	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
AK009_02684	1161	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATATCCATGAGTACCAAGGTAAGGCAGTCCTTAGAAGCTATGGGGTTAGCGTTCCGAACGGGAAGGTTGCATTTACAGTAGAAGAAGCTGTAGAAGCAGCGAAAGAACTAGGAACAGATGTATGTGTAGTGAAAGCACAAATTCACGCTGGTGGACGCGGCAAAGCTGGCGGAGTAAAAGTTGCAAAAAATTTAGATGAAGTTCGTACATATGCAGAAAGCATTTTAGGAACTACACTTGTGACACATCAAACAGGTCCTGAAGGTAAGGAAGTAAAACGCTTACTTATCGAAGAAGGTTGCGATATTAAAAAAGAATATTATGTAGGTCTAGTTTTAGATCGTGCAACTTCTCAAGTTGTTTTAATGGCGTCTGAAGAAGGCGGAACAGAAATTGAAGAAGTAGCAGAAAAAACACCTGAAAAAATCTTTAAAGAATATATTGATCCAGCAGTAGGCTTACAAGGTTTCCAAGCACGCCGAATTGCATTTAACATCAATATTCCAAAAGAGCTTGTAGGACAAGCTGTGAAGTTTATGATGGGCTTATACCGTGCGTTTATCGAAAAAGATTGCTCTATCGCTGAGATTAACCCACTTGTTACAACAGGTGAAGGTAAAGTTATGGCATTAGATGCAAAATTAAACTTTGATTCTAATGCGTTATATCGCCATAAAGACATTTTAGAGCTTCGTGATCTTGATGAAGAGGATTCAAAAGAAATTGAAGCTTCAAAATACGATTTAAACTACATTCCTTTAGATGGAAATATCGGTTGTATGGTTAATGGTGCAGGTTTAGCGATGGCTACAATGGATATCATTAAACATTACCACGGTGACCCAGCTAACTTCTTAGATGTTGGTGGCGGTGCAACTGCTGAAAAAGTTACAGAAGCATTCAAAATTATCCTTTCTGACAAAAATGTAAAAGGTATCTTCGTTAACATTTTTGGTGGTATTATGAAGTGTGATGTTATTGCAGAAGGTGTTATTGAAGCAACGAAACAAGTAGGTCTTGAGTTACCTTTAGTTGTACGTCTTGAAGGTACAAACGTAGAACTAGGTAAGAAAATTTTAAATGAGTCTGGCTTAAATATTGTTGCAGCAGAATCTATGGCAGACGGTGCACAAAAAATTGTTTCACTAGTGGGCTAA	MNIHEYQGKAVLRSYGVSVPNGKVAFTVEEAVEAAKELGTDVCVVKAQIHAGGRGKAGGVKVAKNLDEVRTYAESILGTTLVTHQTGPEGKEVKRLLIEEGCDIKKEYYVGLVLDRATSQVVLMASEEGGTEIEEVAEKTPEKIFKEYIDPAVGLQGFQARRIAFNINIPKELVGQAVKFMMGLYRAFIEKDCSIAEINPLVTTGEGKVMALDAKLNFDSNALYRHKDILELRDLDEEDSKEIEASKYDLNYIPLDGNIGCMVNGAGLAMATMDIIKHYHGDPANFLDVGGGATAEKVTEAFKIILSDKNVKGIFVNIFGGIMKCDVIAEGVIEATKQVGLELPLVVRLEGTNVELGKKILNESGLNIVAAESMADGAQKIVSLVG	PGPT0019515_3099	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
AK009_02685	774	rnhB_1	COG0164	Ribonuclease HII	ATGCAAAAAATGACGATAAAAGAAGCGGAAAATGTATTGAAAGAAATTATGAATGAAGAAGATGATCGCTTTCAACTGTTAATGAAAGATGAGCGAAAAGGCGTTCAAAAGCTCGTTTTGAAGTGGTATAAACAAAAAGAGTTAGAACAGAAAGAAAAAGAGAATTTTTTTGAAATGTCCAAGTATGAAAATGCTTTGCGTGAAAAAGGGGTCACATATATCGCGGGTATTGATGAAGTAGGGCGTGGCCCGTTGGCTGGGCCTGTTGTGACGGCAGCTGTCGTCCTTCCAGAGGATTTTTATATTCCAGGGTTAAATGACTCAAAAAAGCTGAGTGAAGCGAAACGTGAGCGTTTTTATGATGAAATAAAAGTACAAGCAATTGCAATTGGAGTAGGAATTGTATCACCGCAAGTTATTGATGACATTAATATTTACCAAGCAACGAAACAAGCAATGTTAGATGCAGTTGCAAATTTATCTTGTACACCCCAACATTTATTAATTGATGCGATGAAGCTTCCTACACCAATTCCGCAAACCTCAATTATTAAAGGTGATGCGAAAAGTATTTCTATTTCAGCTGCATCTATTATTGCGAAAGTAACGAGAGATCGTATGATGAAAGAACTGGGAGAAAAGTATCCTGAATACGGATTTGAGCAACATATGGGATATGGCACAAAGCAACATTTAGAGGCAATTGAAGTGCATGGAGTATTAGATGAACACCGAAAGTCATTCGCGCCAATTAAAGATATGATTCAAAAATAA	MQKMTIKEAENVLKEIMNEEDDRFQLLMKDERKGVQKLVLKWYKQKELEQKEKENFFEMSKYENALREKGVTYIAGIDEVGRGPLAGPVVTAAVVLPEDFYIPGLNDSKKLSEAKRERFYDEIKVQAIAIGVGIVSPQVIDDINIYQATKQAMLDAVANLSCTPQHLLIDAMKLPTPIPQTSIIKGDAKSISISAASIIAKVTRDRMMKELGEKYPEYGFEQHMGYGTKQHLEAIEVHGVLDEHRKSFAPIKDMIQK	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
AK009_02686	891	rbgA	COG1161	Ribosome biogenesis GTPase A	ATGGTAATTCAATGGTTTCCAGGGCATATGGCGAAGGCTAGACGCCAAGTAACGGAGAAATTAAAATTAATTGATGTTGTAATTGAACTTGTAGATGCTCGATTACCATTATCATCTCGAAACCCAATGATTGATGAAATCATTACACATAAGCCAAGGCTTGTTGTTTTAAATAAAGCGGATATGGCAGATGACCGTTTAACAAAACAATGGATCGCATATTTTAAAGAAAAAGGTCATATGGCAATTTCGATTAACGCGCAAGCTGGACAAGGTATGAAAGAAATTGCAGCAGCTTGTAAAGTGCTTGTTAAAGAAAAATTTGATAAAATGGTTGCAAAAGGTATTAGACCGAGAGCGATTCGTGCATTAATTGTAGGTATACCAAATGTTGGTAAATCTACATTAATTAATAAATTGGCAAAGAAAAATATTGCTAAAACAGGAGATCGTCCAGGTGTGACAACAGCTCAACAATGGATTAAAGTTGGGAAGGAAATGGAATTGTTAGATACGCCAGGTATTCTGTGGCCTAAATTTGAAGATCAATTAGTGGGTCTTCGCTTAGCGACGACGGGTGCAATTAAAGATTCAATTTTAAATTTACAAGATGTAGCTGTTTACGCATTACGTTTTATGGAGAAACAATATCCAGAACGCTTGAAAGAACGCTATAATTTAAATGAGATTCCAGAAGATATTGTGGAATTATTCGATGCAATTGGAAAAAATAGAGGCTGCTTAATGGGCGGCGGAATGATTGATTATGATAAGACATCTGAGCTTGTACTTCGTGAGCTTCGTGGTGGCAAACTTGGAAAAATGACGTTTGAAACACCGGAAGAGTTTGCAGAGCAAGTAGAAGATGTGGAAAAAATAGAAGAAGTATAA	MVIQWFPGHMAKARRQVTEKLKLIDVVIELVDARLPLSSRNPMIDEIITHKPRLVVLNKADMADDRLTKQWIAYFKEKGHMAISINAQAGQGMKEIAAACKVLVKEKFDKMVAKGIRPRAIRALIVGIPNVGKSTLINKLAKKNIAKTGDRPGVTTAQQWIKVGKEMELLDTPGILWPKFEDQLVGLRLATTGAIKDSILNLQDVAVYALRFMEKQYPERLKERYNLNEIPEDIVELFDAIGKNRGCLMGGGMIDYDKTSELVLRELRGGKLGKMTFETPEEFAEQVEDVEKIEEV				NA	NA	NA	NA	NA
AK009_02687	552	sipS_1	COG0681	Signal peptidase I S	ATGAAAAAAGAGAAGAGTTCACTTTGGGAATGGATTAAAGCAATTTTGATTGCTGTTGTATTAGCTGGTGTTATTAGACAGTTTTTCTTTGCGCCAATTCTCGTAGACGGGGTATCGATGGCACCTACTTTACATGATCGTGATCGAATGATTGTAAATAAAATTGGTTATCACATTGGAGATCCAAAACGCTTTGATATTATCGTATTTCGAGCAACAGAAGATAAAGATTACATTAAGCGCATTATAGGCCTACCGGGCGATGAAATAGAGTATCGTAATGATAAGCTGTATGTTAACGGAAAGGCTTATGAGGAGCCGTATTTAGACAAGCAGAAAAAGCAAATTGCTGACGGACCGCTTACATATGATTTTAATCTTGAAGAAATGACAGGCAAGAAAACCGTTCCAAAAGATCAATTATTTGTTTTAGGTGATAATCGTCGTTTTAGTAAAGATAGCCGTTCAATCGGTACGATTTCAATGGATCAAGTAATTGGTAAAGCTAATATGTTATATTGGCCGTTAGAAGACGCACGTATTGTGAAATAA	MKKEKSSLWEWIKAILIAVVLAGVIRQFFFAPILVDGVSMAPTLHDRDRMIVNKIGYHIGDPKRFDIIVFRATEDKDYIKRIIGLPGDEIEYRNDKLYVNGKAYEEPYLDKQKKQIADGPLTYDFNLEEMTGKKTVPKDQLFVLGDNRRFSKDSRSIGTISMDQVIGKANMLYWPLEDARIVK				NA	NA	NA	NA	NA
AK009_02688	345	rplS_1	COG0335	50S ribosomal protein L19	ATGCAACAATTAATCGCAGAAATTACAAAAGGCCAATTAAAAACTGACCTTCCTTCATTCCGTCCTGGTGACACTTTACGTGTACACGTAAAAGTTGTTGAGGGAACTCGTGAAAGAATTCAGCTTTTCGAAGGTGTTGTAATTAAACGTCGTGGTGGCGGAATTAGTGAAACATTCACAGTTCGTAAGATTTCTTACGGTGTAGGTGTTGAGCGTACATTCCCAGTTCACACGCCAAGAATCGCGAAAATCGAAGTACTTCGCCGTGGTAAAGTACGTCGTGCTAAGTTATACTACTTACGTAACCTTCGCGGTAAAAAAGCACGTATTAAAGAAATTCGATAA	MQQLIAEITKGQLKTDLPSFRPGDTLRVHVKVVEGTRERIQLFEGVVIKRRGGGISETFTVRKISYGVGVERTFPVHTPRIAKIEVLRRGKVRRAKLYYLRNLRGKKARIKEIR				NA	NA	NA	NA	NA
AK009_02690	735	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGAAAATTGATATTTTAACGTTGTTCCCAGACATGTTTACCGGTGTATTTGGATCTTCTATATTAAAGAAGGCACAAGAAAAGGAAGCGGTAAACCTTCGTGTTGTTAACTTTCGTGATTATACAACAAGTAAGCATAATAGCGTAGACGATTATCCTTACGGCGGAGGAGCTGGTATGGTGCTTACTCCTCAGCCTATTTTTGACGCTGTAGAAGATTTGACGAAAGAGACAGAGCGTAAGCCGAGAGTTGTCTTAATGTGTCCGCAGGGCGAAAGATTTACGCAGAACAAAGCGGAAGAGCTTGCAGGGGAAGAACATTTGATCTTTGTATGTGGGCATTATGAAGGGTATGACGAACGAATTCGTGAGCATCTCGTAACGGATGAGATTTCTATTGGTGACTATGTATTAACGGGCGGAGAATTAGCTTCTATGGTTATTACTGATAGTGTTGTACGTCTCTTGCCAGGCGTGCTAGGAAATCATGCTTCACAAGTAGAGGATTCGTTTAGTACAGGTTTATTAGAGCATCCTCATTATACACGTCCGGCTGATTTTCGTGGTATGAAGGTACCGGATGTATTAATGTCAGGGAATCATAAAAATATTGACGAATGGCGACATAAGGAATCTTTGCGCCGTACGTATACGCGTAGACCTGATTTGTTAGATGATAGAGATCTATCTAAACAAGAGAAAAAATGGCTTGAGGAAATAAAGCGAGAGCAGTAA	MKIDILTLFPDMFTGVFGSSILKKAQEKEAVNLRVVNFRDYTTSKHNSVDDYPYGGGAGMVLTPQPIFDAVEDLTKETERKPRVVLMCPQGERFTQNKAEELAGEEHLIFVCGHYEGYDERIREHLVTDEISIGDYVLTGGELASMVITDSVVRLLPGVLGNHASQVEDSFSTGLLEHPHYTRPADFRGMKVPDVLMSGNHKNIDEWRHKESLRRTYTRRPDLLDDRDLSKQEKKWLEEIKREQ	PGPT0007595_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK009_02691	516	rimM		Ribosome maturation factor RimM	ATGACAAAGTGGTTTAACGTAGGGAAAATTGTAAATACTCATGGAGTAAGAGGAGAAATCCGTGTGATTTCTCGTACTGATTTTCCAGAAGAGCGATATAAAGTAGGAAACACGCTATACATATCGAATGAGAAAGACACAGACTATCTTCCAGTGAAGGTAACTTCTCATCGCCAACATAAGACATTCGATTTATTAACATTTGAAGGATATAACAATGTAGATGAAGTAGAGAAGTTTAAAGGTTCTTTAATAAAAGTACCGGAAGAGCAGTTAGGTGAACTTGCTGAAGGTGAATACTACTATCACGAAATTATTGGTTGCAGCGTTGTAACGGAAGAAGGAGAAGCGCTAGGGACAATCAAAGAGATTCTCTCTCCTGGTGCAAATGATGTTTGGGTGATTAAACGTCCGAAGGGTCAAGATCTCTTAATTCCTTATATTGATGACGTTGTACTTCAAGTTAATATTGAAAATAAATTAGTAACCATTCATGTAATGGAAGGATTGCTATAA	MTKWFNVGKIVNTHGVRGEIRVISRTDFPEERYKVGNTLYISNEKDTDYLPVKVTSHRQHKTFDLLTFEGYNNVDEVEKFKGSLIKVPEEQLGELAEGEYYYHEIIGCSVVTEEGEALGTIKEILSPGANDVWVIKRPKGQDLLIPYIDDVVLQVNIENKLVTIHVMEGLL				NA	NA	NA	NA	NA
AK009_02692	228			hypothetical protein	ATGAAGAAGTTAGTCGAGACGATTGTCAAGCCTCTTGTCGATCATCCTGAAGATGTAAAAGTTACACAGGAACTTTGCAACGGAGAGATAAAGTATCGATTAACTGTACATCCTGAGGATGTTGGAAAAGTCATTGGAAAGCAAGGGAGAGTTGCGAAAGCGATTCGAATGCTCTTGTATTCAGTGGGACATCATAATGATGAAAAAGTAACACTGGAAATTCAATAA	MKKLVETIVKPLVDHPEDVKVTQELCNGEIKYRLTVHPEDVGKVIGKQGRVAKAIRMLLYSVGHHNDEKVTLEIQ				NA	NA	NA	NA	NA
AK009_02693	273	rpsP	COG0228	30S ribosomal protein S16	ATGGCAGTTAAAATTCGTTTAAAACGTATGGGAGCTAAAAAAACTCCTTTCTATCGTGTAGTTGTTGCAGATTCTCGTTCTCCTCGTGACGGACGTTTCATTGAGGAAATCGGAACTTACAATCCAGTTGCTCAACCAGCTGAAGTTAAGATCGACGAAGAAGCAGCATTAAAATGGTTAGGAAATGGTGCTAAACCATCTGATACAGTTCGTAACTTATTCTCTAACCAAGGTATCATGGAGAAATTCCACTTATCTAAACAAGGTAAGTAA	MAVKIRLKRMGAKKTPFYRVVVADSRSPRDGRFIEEIGTYNPVAQPAEVKIDEEAALKWLGNGAKPSDTVRNLFSNQGIMEKFHLSKQGK				NA	NA	NA	NA	NA
AK009_02694	1350	ffh	COG0541	Signal recognition particle protein	ATGGCATTTGAAGGATTAGCCGACCGACTTCAACAGACAATGCAAAAAATCCGCGGCAAAGGAAAAGTTTCTGAAGCCGATGTGAAAGAAATGATGAGAGAAGTTCGTCTAGCTCTTTTAGAAGCAGATGTTAACTTTAAAGTAGTAAAAGATTTTGTGAAGCGTGTGTCTGAACGTGCTGTCGGACAAGATGTAATGAAAAGTTTGACACCTGGACAACAAGTAATTAAAGTTGTACAGGAAGAACTTACAGAACTTATGGGCGGAGAGCAAAGCAAAATTGCTGTTGCTAATAAGCCACCGACTGTTATTATGATGGTTGGTCTGCAAGGTGCGGGTAAAACAACGACGACAGGTAAGCTTGCGAATTTGCTTCGTAAAAAGCATAATCGTAAACCGATGCTTGTTGCAGCGGATATTTACCGTCCAGCAGCGATTAAACAGCTTGAAACATTAGGGAAGCAATTGGACATGCCTGTATTTTCTTTAGGAGATCAAGTAAGTCCTGTTGAAATTGCGAAACAAGCGATTGCAAAAGCAAAAGAAGATCATCATGATTATGTTTTAATCGATACAGCGGGTCGCCTGCATATTGATGAAGAACTAATGGATGAATTAGCGAAAGTTAAAGAAGTTGCGAAACCGGATGAAATTTTCCTTGTTGTCGATGCGATGACGGGACAAGACGCGGTAAATGTTGCACAAAGTTTCCATGAACAGTTAGGTTTAACAGGTGTTGTATTAACGAAATTAGATGGTGATACCCGCGGTGGTGCTGCATTATCTATTAAGGCTGTAACAAACACACCGATTAAATTTGCTGGTATGGGTGAAAAACTAGATGCAATTGAAGCGTTCCATCCAGAGCGTATGGCATCCCGTATTTTAGGGATGGGCGATGTCTTAACATTGATTGAAAAAGCGCAAGCTACAGTTGATGAAGAGAAAGCAAAAGAACTTGAGCAAAAAATGCGTACGCTTTCGTTTACGCTTGACGATTTCCTAGAACAACTTGGACAAGTGCGTCAACTTGGACCGCTTGATGAATTGTTAGGAATGCTTCCTGGTGCAAATAAAATTAAAGGGCTGAAAAATGCGCAAGTTGATGAAAAACAAATTGGGCATATTGAGGCAATTATTCGTTCTATGACTAAATTAGAACGAGAACAACCGGAAATAATCAATGCTAGTCGCAAAAAGCGCATTGCCAAAGGTAGCGGTACAACTGTACAAGAAATCAATCGTCTAATTAAGCAATTCGATGACATGAAAAAAATGATGAAGACGATGACGGGAATGCAAAAAGGCAAGAAAAAAGGACTAGGTGGATTGAAGTTTCCATTCATGTAA	MAFEGLADRLQQTMQKIRGKGKVSEADVKEMMREVRLALLEADVNFKVVKDFVKRVSERAVGQDVMKSLTPGQQVIKVVQEELTELMGGEQSKIAVANKPPTVIMMVGLQGAGKTTTTGKLANLLRKKHNRKPMLVAADIYRPAAIKQLETLGKQLDMPVFSLGDQVSPVEIAKQAIAKAKEDHHDYVLIDTAGRLHIDEELMDELAKVKEVAKPDEIFLVVDAMTGQDAVNVAQSFHEQLGLTGVVLTKLDGDTRGGAALSIKAVTNTPIKFAGMGEKLDAIEAFHPERMASRILGMGDVLTLIEKAQATVDEEKAKELEQKMRTLSFTLDDFLEQLGQVRQLGPLDELLGMLPGANKIKGLKNAQVDEKQIGHIEAIIRSMTKLEREQPEIINASRKKRIAKGSGTTVQEINRLIKQFDDMKKMMKTMTGMQKGKKKGLGGLKFPFM	PGPT0025750_4450	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
AK009_02695	333			hypothetical protein	ATGCTCGAAAAAACAACGAGAATGAACTATTTATTTGATTTTTATCAATCGTTGTTAACGCAAAAACAAAGAAGTTATATGTCGCTTTATTATCTAGATGATTTATCTCTTGGTGAAATTGCGGAAGAATTTGATGTAAGTCGCCAAGCCGTGTATGATAACATTAAACGGACTGAAGCGATGCTTGAAGAATATGAAGAAAAATTAGTATTACTTCAAAAGTTTCAAGAGCGACAGCGACTTGTTGCAAAGCTAAAACAGCTAATCAGCGAAGAAGAGCATGTGAATGAAGAAATGAAACAAGTTGTTGAAGCTATCGAAAAATTAGATTAG	MLEKTTRMNYLFDFYQSLLTQKQRSYMSLYYLDDLSLGEIAEEFDVSRQAVYDNIKRTEAMLEEYEEKLVLLQKFQERQRLVAKLKQLISEEEHVNEEMKQVVEAIEKLD				NA	NA	NA	NA	NA
AK009_02696	990	ftsY_1	COG0552	Signal recognition particle receptor FtsY	ATGAGTTTTTTTAAAAAACTAAAAGAAAAAATTTCAAAACAAACGGATACAGTTACAGAGAAATTTAAACACGGATTAGAAAAAACTAGAAATTCATTTGCGGATAAAGTGAATGATTTAGTGTATCGTTACCGTAAAGTGGACGAAGATTTCTTCGAAGAGTTAGAAGAAATCTTAATCGGTGCAGACGTTGGCGTCGCAACGGTAATGGAATTAATTGATCAATTGAAAGAAGAAGTACAACGTCGTAACATTCAAGATCCAAAAGAAGTACAAGCTGTTATTTCAGAAAAACTAGTAGGAATTTACAAAGGTGACAGCGATTTTAGTAACGAAATTAATATGCAAGAAGACCAATTAACGGTTGTTTTATTTGTTGGTGTTAACGGTGTAGGAAAAACGACGACAATTGGTAAACTGGCGCATAAGTTTAAATCAGAAGGTAAGTCAGTCTTATTGGCGGCAGGAGACACATTCCGTGCTGGGGCGATTGAACAATTAGAAGTATGGGGCGATCGCGTTGGTGTAGAAGTGATTAAACAAGGATCTGGATCTGATCCAGCGGCGGTTATGTATGACGCTGTACAAGCTGCAAAAGCACGTAAGGTAGATGTATTACTATGTGACACAGCAGGACGCTTGCAAAATAAAGTAAACTTAATGAAAGAGTTAGAGAAGGTGAAGCGTGTAATTGAGCGTGAAGTACCAGGTGCTCCTCATGAAGTATTGCTTGTTATTGATGCAACAACAGGACAAAACGGTTTAAGCCAAGCGAAAACATTCCGTGAAGCAACGAATGTAACAGGTATTGTTTTAACGAAGTTAGATGGAACTGCTAAAGGTGGTATTGTATTAGCGATTCGTAACGAAATTGATGTACCGGTGAAGTTTGTTGGATTAGGAGAGCAAATGGATGACTTGCAGCAGTTTGATCCAGAACAATATGTGTATGGTTTATTTGCGAACTTAGTAGAAACAGAAGAAGCGTAA	MSFFKKLKEKISKQTDTVTEKFKHGLEKTRNSFADKVNDLVYRYRKVDEDFFEELEEILIGADVGVATVMELIDQLKEEVQRRNIQDPKEVQAVISEKLVGIYKGDSDFSNEINMQEDQLTVVLFVGVNGVGKTTTIGKLAHKFKSEGKSVLLAAGDTFRAGAIEQLEVWGDRVGVEVIKQGSGSDPAAVMYDAVQAAKARKVDVLLCDTAGRLQNKVNLMKELEKVKRVIEREVPGAPHEVLLVIDATTGQNGLSQAKTFREATNVTGIVLTKLDGTAKGGIVLAIRNEIDVPVKFVGLGEQMDDLQQFDPEQYVYGLFANLVETEEA	PGPT0025740_3759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
AK009_02697	3570	smc_5	COG1196	Chromosome partition protein Smc	GTGTTTTTAAAAAGATTAGAAATAGCAGGATTTAAGTCTTTTGCTGAGCGTGTATCTGTTGATTTTGTCCCAGGTGTAACTTCTGTAGTAGGCCCTAATGGAAGCGGGAAAAGTAATATTACTGATGCGATTCGCTGGGTACTTGGTGAACAATCTGCAAAATCATTACGTGGTGCAAAGATGGAGGATATTATTTTTGCAGGCAGTGATACGAGGAGAGCGGTTAATGTTGCTGAAGTAACAATAACTTTAAATAATGAAGATCAACGTTTACCAATTGAATACAATGAGGTGTGTGTAACACGTCGTGTATCTCGTTCAGGTGATAGTGATTTTTATATTAATAAACAATCATGTAGATTGAAAGATATTATCGATTTATTTATGGACTCTGGTATGGGAAGAGAAGCTTTTTCAATTATTAGCCAGGGGAAAGTGGAAGAGATTTTAAGTAGTAAGTCAGAAGAGCGTCGAGGTGTATTTGAAGAAGCGGCAGGCGTACTGAAATACAAACTTCGCAAAAAGAAAGCTGAAGGGAAGTTAGCAGAAACACAAGAAAACTTAAATCGTGTACAAGATATAATTCATGAATTAAGTAGTCAAGTAGAACCTTTAGAAAGACAAGCTTCTATTGCGAAAGATTATCTTGAGAATAAAGAAGAATTAGAGAAAGTAGAAGCTGCGCTTATTGTACATGAAATTGAAGAATTGCATGAGAAATGGGAAGCGCTTCGAAATCAGTTTGGGCATAATAAAGACGAAGAAGCTAAAATGTCAACGGATTTACAAAAAAGTGAAGAAGAGCTTGAGGAATTACGAGGACAATTACAAGCGGTAGATGAGTCTGTAGATTCGTTGCAAGAAGTACTTCTTCTTTCTAGTAAAGAGCTAGAAAAACTAGAAGGACAGCGCGAGTTGTTAAAAGAGAGAAAGCAAAATGCTACGACGCATTGTGCGCAACTTGAGCAGTTAATTGTTGAATTAACAGAGAAAGCTAAAAGTTACGATGGTGAAATTGCGTCAAGTACAGAAGCTTTAATGCAATTTGTGAATGAAGTAAAAGAGTTAGAGCAAAAATTGCATGATAATGAGCAACTACTTGCTACTTTTGCTGACAATTTAGAGGAACAGATTGAGAATTTAAAAGGTGACTATATTGAACTTTTAAATCAACAAGCTAGTCATCGCAATGAATTATCTATGATTGAAGAACAATCTAAACAGCAAACGTCTAAAAACGAGCGGCTGGATGAAGAGAATGCGAAATATGTAGAAATGCGTATGGAAATTACAGCGAAAAAGACGAAACTTGTAGAAAATTACGAACAAGTGAAAGAAAAAGTAGCTGGCATCCTCTCAAACATACAGAAGACAGAGGCGGCGCTCGGGAAATGTAAGACGCAGTATAGTGAAAATGAAACAAAACTGTATCAAGCATATCAATTTGTGCAACAGGCACGTTCTCGAAAAGAAATGCTTGAAGAGATGCAAGAAGATTATTCTGGCTTCTATCAAGGTGTACGTGAAGTATTGAAAGCTAGAGAAAATAGGTTGCAAGGTATCGAGGGTGCTGTTGCGGAACTGTTAACGGTACCTAAAGAATACGAAGTTGCAATGGAAATCGCTCTAGGTGCAGCGATGCAGCACATTGTTGTACAAACAGAGGAACATGCTCGTAATGCAATTGCATTTTTAAAGCAAAATAAACATGGGCGTGCAACGTTTTTACCGCAAGCTGTTATTAAAAGTAGGTCGTTATCATTTGAGCAATTACGCATTGTAAATCAACACCCATCGTTTGTAGGTGTGGCGGCAGAACTTGTGCAGTACAATAATAAATATGAAAATGTAGTTTCAAATTTATTAGGTACTGTTATTGTTGCGAAAGATTTACGCGGAGCAAATGAGTTGGCGAAACAACTGCAATACCGTTATCGCATTGTAACAATCGAAGGGGACGTAGTGAATCCTGGCGGTTCTATGACTGGTGGAGCGGTAAAACAAGCGAAATCTTCTTTATTAGGACGCCAACGTGAACTGGAAGAGTGGACTCGCAAGTTAACTGATATGGAAGAAAAAACAACGAAGTTAGAAAACTTTGTTAAAGCAGTAAAACAAGAGATTCAAGAAAAAGAAGTGAAAATACGCGAACTAAGGAAAACTGTAGAAGCAGAGCGTGTAGATGAGCAGAAATTAAGAGAAGAGATTAATCGTTTAGAATTAGAAGAACATCGTATTAATGACCGCTTGTCTATTTATGATTTAGAGATTGAAGGTTTTTTACAAGATCGAGTAAAAACACAAGGGCGTAAAGAGGCGTTAGAAGGGATTTTAACGAATCTTCAAGCTGATATCACAGAGTTAGATAGTAAAATTGTAGCTTTAACAAAACAAAAAAGTGAGCAACATTCTTCAAAAGAAAAAGTTCAAAAAGAAATGACTGAGTTAAAAGTGCTGGTAGCTGAAAAGCAACAACGCTTATCTAATCAAAAAGAAAAAGTTGAACGATTTACGAAGGAAAAAGAAGAAACGGATGCGACACTTGTAAAAACGAAAGAGGATTTAGCTTTCTTAAAACAAGAAATGACATCTAATTCAAGTGGTGAAGAGCAAATTACGAATATGATTGAGAAGAAAGCGTATGATCGTAATCAAACTTCAGAATTAATTCGCTCTCGTCGCGAACAACGTGTCTCGTTGCAAGAGAGAGTAGAACATTTAGAGCGTAATTTGAAAGAAACGACAGGTAAACATAAATATATTATTGAAATGTTGAAAGATCAAGAAGTGAAAATAAACCGACTTGATGTAGAGTTGGAAAATAGATTACAACATTTACGTGAAACATATACGATTTCATTTGAAGCGGCAAAACTAAAATATACAATGACAATGCCTGCAGAAGATGCGCGTAAGAAAGTGAAATTAATCAAATTATCCATAGAAGAGTTAGGTACAGTGAACCTAGGGGCAATTGATGAATATGAACGCGTAGCGGAGCGTCATACATTTTTACTAGAGCAGAGAGACGACCTAGAAGAAGCGAAAACGACATTGCACCAGCTTATTACCGAAATGGATGAAGAAATGAAAAAACGCTTTTTTACTACGTTTGAAGGCATTAGAATGGAGTTTCAATCGGTATTCTCTGAGTTATTTGGAGGCGGAAGAGCGGATTTAGTAATGACTAATCCAGAGGATTTACTAAATACGGGTATTGATATTGTAGCACAACCGCCAGGGAAGAAATTGCAGAACTTAGGTTTACTTTCAGGTGGAGAGCGTGCTTTAACGGCAATTGCGCTTTTATTTGGTATTTTAAAAGTGCGCCCAGTACCGTTCTGTGTACTAGATGAGGTAGAGGCCGCCCTTGATGAAGCGAATGTAGCTCGTTTTGCACAGTATTTAAAGAAATTTAGTGATGAGACGCAGTTTATTGTAATTACACATAGAAAAGGTACAATGGAAGAGTCTGATGTGTTGTACGGTGTAACAATGCAAGAATCAGGGGTATCTAAACTTGTTTCGGTTCGTTTAGATGCCGGAGAAGAACTTATTGCAAGTGAATAG	MFLKRLEIAGFKSFAERVSVDFVPGVTSVVGPNGSGKSNITDAIRWVLGEQSAKSLRGAKMEDIIFAGSDTRRAVNVAEVTITLNNEDQRLPIEYNEVCVTRRVSRSGDSDFYINKQSCRLKDIIDLFMDSGMGREAFSIISQGKVEEILSSKSEERRGVFEEAAGVLKYKLRKKKAEGKLAETQENLNRVQDIIHELSSQVEPLERQASIAKDYLENKEELEKVEAALIVHEIEELHEKWEALRNQFGHNKDEEAKMSTDLQKSEEELEELRGQLQAVDESVDSLQEVLLLSSKELEKLEGQRELLKERKQNATTHCAQLEQLIVELTEKAKSYDGEIASSTEALMQFVNEVKELEQKLHDNEQLLATFADNLEEQIENLKGDYIELLNQQASHRNELSMIEEQSKQQTSKNERLDEENAKYVEMRMEITAKKTKLVENYEQVKEKVAGILSNIQKTEAALGKCKTQYSENETKLYQAYQFVQQARSRKEMLEEMQEDYSGFYQGVREVLKARENRLQGIEGAVAELLTVPKEYEVAMEIALGAAMQHIVVQTEEHARNAIAFLKQNKHGRATFLPQAVIKSRSLSFEQLRIVNQHPSFVGVAAELVQYNNKYENVVSNLLGTVIVAKDLRGANELAKQLQYRYRIVTIEGDVVNPGGSMTGGAVKQAKSSLLGRQRELEEWTRKLTDMEEKTTKLENFVKAVKQEIQEKEVKIRELRKTVEAERVDEQKLREEINRLELEEHRINDRLSIYDLEIEGFLQDRVKTQGRKEALEGILTNLQADITELDSKIVALTKQKSEQHSSKEKVQKEMTELKVLVAEKQQRLSNQKEKVERFTKEKEETDATLVKTKEDLAFLKQEMTSNSSGEEQITNMIEKKAYDRNQTSELIRSRREQRVSLQERVEHLERNLKETTGKHKYIIEMLKDQEVKINRLDVELENRLQHLRETYTISFEAAKLKYTMTMPAEDARKKVKLIKLSIEELGTVNLGAIDEYERVAERHTFLLEQRDDLEEAKTTLHQLITEMDEEMKKRFFTTFEGIRMEFQSVFSELFGGGRADLVMTNPEDLLNTGIDIVAQPPGKKLQNLGLLSGGERALTAIALLFGILKVRPVPFCVLDEVEAALDEANVARFAQYLKKFSDETQFIVITHRKGTMEESDVLYGVTMQESGVSKLVSVRLDAGEELIASE				NA	NA	NA	NA	NA
AK009_02698	738	rnc_1	COG0571	Ribonuclease 3	ATGCCGTACCGAAAATATAGAGAAAAAAAATACGAAACAAAATATCGTGAAGCATTTAAAGTGTTTCAAGAAAAGATAGGTATTACGTTTACAGATGAAAAATTATTGATTCAAGCATTTACGCATTCATCGTATGTGAATGAGCATCGAAAAAAACCGCATGAAGATAACGAGCGTCTTGAATTTCTTGGAGATGCAGTATTGGAACTTACTGTATCGCAGTATCTGTTTCAAAAATATCCGACAATGAGCGAAGGAGAGTTAACAAAACTACGTGCAGCTATTGTATGTGAGCCATCTCTTGTTCGTTTTGCGAACGAATTGTCATTTGGTAGCCTTGTTTTATTAGGAAAAGGTGAAGAAATGACAGGTGGACGTGAACGACCAGCTTTATTAGCGGATGTCTTTGAAGCGTTTATTGGTGCCCTTTATCTTGATCAAGGGTTAGAAACAGTTTGGGAATTCTTAAAAGAAATTGTATATCCGAAAATTAATGAGGGTGCTTTTTCTCATGTGATGGATTATAAGAGTCAGTTACAAGAATTGATTCAGCGTGATGGTAGTGGCAATGTTGAGTATCAAATTTTGCAAGAAAAAGGACCAGCTCACAATCGAGAATTTGTGTCACGTGTTACGTTAAATAACGTAGCTTTAGGTCTTGGTAGTGGTAAGTCGAAAAAAGAAGCAGAGCAACAAGCTGCTGCAGAAGCATTGAAAAAATTAAAAGAACAACTATAA	MPYRKYREKKYETKYREAFKVFQEKIGITFTDEKLLIQAFTHSSYVNEHRKKPHEDNERLEFLGDAVLELTVSQYLFQKYPTMSEGELTKLRAAIVCEPSLVRFANELSFGSLVLLGKGEEMTGGRERPALLADVFEAFIGALYLDQGLETVWEFLKEIVYPKINEGAFSHVMDYKSQLQELIQRDGSGNVEYQILQEKGPAHNREFVSRVTLNNVALGLGSGKSKKEAEQQAAAEALKKLKEQL				NA	NA	NA	NA	NA
AK009_02699	234	acpA	COG0236	Acyl carrier protein	ATGGCAGATGTTTTAGAGCGCGTAACAAAAATCATCGTTGATCGTTTAGGAGTAGAAGAGACTGAGGTAGTACCAGCTGCAAGCTTCAAGGAAGATTTAGGAGCAGACTCCCTAGATGTAGTAGAACTTGTAATGCAATTAGAAGATGAATTCGAAATGGAAATTTCTGATGAAGATGCTGAAAAGATTGCTACTGTTGGCGATGCTGTGACTTACATAGAGAGTCATCTATAA	MADVLERVTKIIVDRLGVEETEVVPAASFKEDLGADSLDVVELVMQLEDEFEMEISDEDAEKIATVGDAVTYIESHL	PGPT0011375_4926	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK009_02700	741	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTAAAAGGGAAGGTAGCATTAGTAACTGGCGCTTCACGTGGAATTGGTCGCGCGATTGCGATCGATTTAGCGAAACAAGGGGCAAATGTAGTAGTGAATTATGCAGGTAATGAACAAAAAGCAAATGAAGTAGTAGATGAAATTAAGAAATTAGGTTCTGATGCAATTGCGGTAAGAGCAGATGTTGCAAATGCTGATGATGTTACAAATATGGTGAAACAAACAGTAGATACATTTGGACAAGTTGATATTCTTGTAAATAATGCTGGTGTAACAAAAGATAATTTATTAATGCGTATGAAAGAAGAAGAATGGGATACAGTTATTAATACAAACTTAAAAGGTGTATTCTTATGTACAAAAGCAGTATCTCGCTATATGATGCGTCAACGTCACGGTAGAATTATAAATATCGCTTCGGTTGTTGGTGTTATAGGAAACCCAGGGCAAGCTAATTATGTTGCTGCTAAAGCGGGTGTTATTGGATTAACAAAAACATCTGCAAAAGAGTTAGCAAGTCGAAATATTACAGTGAATGCAATTGCGCCGGGCTTTATTGCGACTGATATGACAGATGTACTAGATGAGAATATTAAAGCAGAAATGTTAAAAGTTATTCCAGCTGCTCAATTTGGTGAAGCGCAAGATATCGCGAATGCTGTAACGTTTTTTGCTTCTGATCAAAGCAAATATGTTACAGGTCAAACGTTAAATGTTGATGGCGGTATGGTAATGTAA	MLKGKVALVTGASRGIGRAIAIDLAKQGANVVVNYAGNEQKANEVVDEIKKLGSDAIAVRADVANADDVTNMVKQTVDTFGQVDILVNNAGVTKDNLLMRMKEEEWDTVINTNLKGVFLCTKAVSRYMMRQRHGRIINIASVVGVIGNPGQANYVAAKAGVIGLTKTSAKELASRNITVNAIAPGFIATDMTDVLDENIKAEMLKVIPAAQFGEAQDIANAVTFFASDQSKYVTGQTLNVDGGMVM	PGPT0003180_16288	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
AK009_02701	945	fabD		Malonyl CoA-acyl carrier protein transacylase	ATGGGAAAAATAGCATTTCTTTTTCCGGGCCAAGGTTCACAGGCAGTTGGAATGGGTAAACAATTAGCAGAGAATAATAAAGAGGTTGCAAAAGTGTTTGCAAAAGCAGATGAGGTGTTACAAGATTCACTTTCAGAAGTGATTTTTGAAGGACCGCAGGAAAAGCTTACATTAACAACAAATGCTCAGCCTGCATTATTAACAACGAGTTTTGCTATTTTGACAGCTTTGAAAGAGTATGACATTACACCTAACTTTGTCGCTGGTCATAGTTTAGGTGAATATAGCGCTCTTGTAGCAGCTGGTGCATTAACTTTTGAAGATGCTGTATATGCTGTAAGGAAACGTGGCGAATATATGGAAGAAGCTGTTCCAGACGGGGAAGGTGCGATGGCAGCTATATTAGGTGCTGACCTAGATATGCTGAAACAAGTTACAGAAGAAGTAACAAGTGAAGGATATGCAGTGCAAATCGCTAATATGAATAGTACGAAGCAAATTGTGATTTCTGGAACGAAGCAAGGTGTAGAGGTTGCTTCTCAAAGAGCGAAAGAAAATGGTGCAAAGAGAGCAATTCCACTAAAAGTAAGTGGGCCTTTCCATTCTTCACTTATGAAGCCGGCAGCTGAGAAGTTCCAAAGTGTTTTAAATGAAATTACAATTCATGACACGAATATTCCTGTTATTGCAAATGTTACAGCGGATGTTATTACACGTGGTGCAGACATTCAAGAAAAGTTAATCGAACAGCTTTATTCGCCTGTATTATGGTACCCGTCTATTGAATGTATGGTGCAGCAGGGAGTAGATACATTTATTGAAATTGGACCTGGAAAAGTACTTGCTGGACTTATGAAGTCGATTGATTCATCAGTGAAAGCATATGCGATATATGATGAAGAGACATTAAAAGATACCATTTCAAATTTGAGAGGAGAAAACTGA	MGKIAFLFPGQGSQAVGMGKQLAENNKEVAKVFAKADEVLQDSLSEVIFEGPQEKLTLTTNAQPALLTTSFAILTALKEYDITPNFVAGHSLGEYSALVAAGALTFEDAVYAVRKRGEYMEEAVPDGEGAMAAILGADLDMLKQVTEEVTSEGYAVQIANMNSTKQIVISGTKQGVEVASQRAKENGAKRAIPLKVSGPFHSSLMKPAAEKFQSVLNEITIHDTNIPVIANVTADVITRGADIQEKLIEQLYSPVLWYPSIECMVQQGVDTFIEIGPGKVLAGLMKSIDSSVKAYAIYDEETLKDTISNLRGEN	PGPT0008350_1682	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
AK009_02702	993	plsX	COG0416	Phosphate acyltransferase	ATGAAAATCGCAATAGATGCAATGGGCGGAGATCACGCTCCAAAGGCTGTAGTATTAGGGGCAATGAAAGCTATTAAGGAATATTCTGATCTACATATTACGTTAGTAGGGAAAGAAGAGGAAATTCGTCAATACTTAACGAGTGATGAACGAATTACTATTCTTCATACAGACGAAAAAATAGAATCGACGGAAGAACCAGTAAGAGCGGTTCGTCGAAAAAAACAAGCTTCAATGGTACTTGCGGCACAGCAAGTAAAGGATGGAGAAGCAGACGCTTGTATATCCGCAGGTAGCACAGGAGCTTTAATGGCAGCTGGATTATTTGTTGTCGGTCGTATGGAAGGAATTGAGCGACCAGCTTTATCGCCTACAATGCCAACTGTAGATGGAAAAGGTTTTGTTATGTTAGATGTTGGAGCAAATGTTGATGCAAAATCAATTCATTTATATCAATATGCAGTAATGGGATCTGTTTATGCTGAGAAGGTAAGAGGAATTGAAAATCCTCGTGTTGGACTATTAAACGTTGGAACAGAGGATGGAAAAGGAAACGAGCTTTCAAAGCAAGTATTTGCAATGCTTAAGGATGCGCCAATTAATTTCGTTGGGAACGTTGAATCGAGAGATTTATTGCAAGGTGTAGCAGATGTTGTTGTATGTGATGGTTTTACAGGGAATGTAGCGTTGAAATCATTAGAAGGAACAGCACTTGCGCTATTCTCTATGTTGAAAGAACAACTAATGAGTTCGTTTACGAGCAAATTAGCAGCGGCGGTATTAAAGCCAAAACTTATGGTATTAAAAGATAAAATGGATTATTCGGAGTATGGGGGAGCTGCATTATTTGGATTGAAAGCACCTGTCATTAAGGCTCACGGTTCTTCTAATGACCAGTCGATATTTAGTGCGATTCGTCAAACGAGAGAAATGGTAGCGAAAGAAGTAATTCCTACAATTTCAAGCGTAATGGAGAAAGAGTCACTCCAATAA	MKIAIDAMGGDHAPKAVVLGAMKAIKEYSDLHITLVGKEEEIRQYLTSDERITILHTDEKIESTEEPVRAVRRKKQASMVLAAQQVKDGEADACISAGSTGALMAAGLFVVGRMEGIERPALSPTMPTVDGKGFVMLDVGANVDAKSIHLYQYAVMGSVYAEKVRGIENPRVGLLNVGTEDGKGNELSKQVFAMLKDAPINFVGNVESRDLLQGVADVVVCDGFTGNVALKSLEGTALALFSMLKEQLMSSFTSKLAAAVLKPKLMVLKDKMDYSEYGGAALFGLKAPVIKAHGSSNDQSIFSAIRQTREMVAKEVIPTISSVMEKESLQ	PGPT0024410_2994	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
AK009_02703	663	fapR	COG2050	Transcription factor FapR	TTGTTGCATTCTACTTTCAATGATTATATACTACTGTTAGTACCTAGTCATAAAAATGGATGGTGCGGTATGAAGAAAAGAAGAAGTAAAAAAGAAAGACAAGAATTATTACAACAAACAATCGAATCAAATCCTTTTATTACGGATGAAGATTTAGCGGAAAAATTTCAAGTGAGTATACAAACAGTACGACTGGATCGTATGGAATTGTCTATTCCTGAATTAAGAGAGAGAATTAAACATGTAGCTACAAAGCAACATGAAGAAGATGTGAAATCTTTACCGTTAGAAGAGGTTGTCGGAGAAATTATTGATATTGAATTAGATAGACATGCAATCTCTATCTTTGAAGTAAAGGTAGAACATGTATTTAAAAGAAATCAAATTGCCCGTGGGCATCATCTGTTTGCGCAAGCAAACTCACTAGCTGTTGCGGTTATTGATGAAGAATTAGCTTTAACTGCAAAGTCTACCATTCGATATATTCGCCCTGTAAAATTAGGAGAGCGTGTTGTTGCAAAAGCGCGTGTTGAAGACGTAGAGAATGATAAGGGACGGACGGTTGTCAAAGTGCGTAGCTTCGTTGGAGAAGAACTTGTTTTTACAGGCACTTTTGAAATGTATCGATCTAGTAATTATAGTGAGGAAGGTAACAACTTATGA	MLHSTFNDYILLLVPSHKNGWCGMKKRRSKKERQELLQQTIESNPFITDEDLAEKFQVSIQTVRLDRMELSIPELRERIKHVATKQHEEDVKSLPLEEVVGEIIDIELDRHAISIFEVKVEHVFKRNQIARGHHLFAQANSLAVAVIDEELALTAKSTIRYIRPVKLGERVVAKARVEDVENDKGRTVVKVRSFVGEELVFTGTFEMYRSSNYSEEGNNL				NA	NA	NA	NA	NA
AK009_02704	2058	recG		ATP-dependent DNA helicase RecG	GTGAGAATCTTGAATGATGTTGTACAAGTTCCTGTTACGGATGTAAAGGGGATCGGAGGAGAAACATCTGAGTTACTACATGAGATGGGGATTTATACAGTTTCTCATCTATTAGAACATTTTCCGTACCGTTATGAAGATTATGCGATGAAAGATCTTGCTGAAGTAAAGCATGATGAACGTGTAACGGTTGAAGGGAAGGTTCATAGTGCTCCTTTGCTGCAATATTATGGTAAGAAGAAATCGCGTCTAACAGTTCGTGTTCTCGTCGGTCGTTATTTAATTACGGCGGTATGTTTTAATAGGCCTTACTATAAGCAAAAATTAACGTTAGATGAAACGGTAACGATTACTGGTAAATGGGATCAACATCGTCAAACAATTGCTGTATCAGAACTTCATTTTGGGCCAGTTGTACGTCAACAAGAAGTGGAGCCAGTTTACTCAGTAAAGGGGAAACTTACAGTAAAACAGATGCGTCGTTTTATTGCTCAAGCGTTAAAGGAATATGGAGATTCTATAGTCGAAGTGTTACCGGATGGTTTGTTAGGCCGGTATAAATTATTACCAAGATATGAAGCACTTAAGGCTTTGCATTTTCCGGTAGGACAGGAGGATTTAAAGCAAGCGCGTCGCCGTTTTGTATATGAGGAATTTTTCTTATTTCAGCTGAAAATGCAAACGCTGAGGAAAATGGAGAGGGAAAATTCAAAAGGGACGAAGAAAGAGATTCCGTCAGTAGAATTACAAGAATTTATCGATGCACTGCCGTTTCCGTTAACGGGTGCGCAGCGCCGAGTTGTAGATGAAATTTTAAAAGATATGACATCTCTTTATCGGATGAACCGACTATTACAAGGTGACGTTGGTTCTGGGAAAACAGTTGTTGCTGCGATTGGCCTTTATGCATCGAAATTAGCTCATTATCAAGGTGCTTTAATGGTTCCTACAGAAATTTTAGCTGAGCAACATTATCAGTCGCTTGCTGAAACGTTTTCGCATTTTGGTATGAAGGTGGAACTGCTAACAAGTTCTGTTAAAGGTGCGAGACGACGAGACATTTTAGCGAAGTTAGAACAAGGAGAAATAGATATTCTTGTTGGAACGCACGCTTTAATTCAAGATGAAGTTATATTTCATAGGTTGGGTCTCGTTATTACGGATGAACAGCATCGATTTGGTGTAGCGCAGCGCCGAGTTTTACGGGAGAAAGGTGAAAGTCCAGATGTATTATTTATGACAGCGACACCAATTCCGCGTACGCTTGCAATTACTGCATTTGGAGAGATGGATGTTTCAATAATCGATGAGATGCCAGCAGGGAGAAAGGTGATTGAAACATACTGGGCAAAACATGATATGTTAGATCGCGTCCTCGGTTTTGTTGAGAAGGAGATAAAAAAAGGAAGACAGGCATACGTTATTTGTCCTCTAATTGAAGAATCTGAGAAACTTGATGTGCAAAATGCTATCGACTTACATAGTATGCTGACGCATCATTACCAAGGGAAATGCCAAGTTGGATTGATGCATGGGAGATTATCGTCTCAGGAAAAAGAAGAGATAATGGGACAGTTTAGTGAAAATAAAGTGCAAATTCTTGTATCGACAACAGTTGTTGAGGTTGGTGTGAACGTACCGAATGCGACTGTGATGGTTATTTATGATGCAGAACGTTTCGGTTTATCGCAGCTTCATCAGCTTAGAGGGCGTGTCGGGCGTGGTAGTGAACAATCATATTGTTTATTAATAGCAGACCCTAAATCAGAAACAGGAAAAGAAAGAATGCGCATAATGACTGAAACAAATGATGGATTTGTATTGTCAGAAAAAGATTTAGAATTACGAGGTCCTGGAGATTTCTTTGGGAGTAAGCAAAGTGGCTTACCGGAATTTAAGGTTGCTGACATGGTACACGATTATCGAGCGTTAGAAACAGCAAGGCAAGATGCGGCGATACTAGTAGAGTCAGAAGCATTTTGGCACAATGATCAATACGCTGCCTTGCGTACGTATCTTGATGGGACAGGTGTGTTCCAAGGAGAGAAGCTCGATTAA	MRILNDVVQVPVTDVKGIGGETSELLHEMGIYTVSHLLEHFPYRYEDYAMKDLAEVKHDERVTVEGKVHSAPLLQYYGKKKSRLTVRVLVGRYLITAVCFNRPYYKQKLTLDETVTITGKWDQHRQTIAVSELHFGPVVRQQEVEPVYSVKGKLTVKQMRRFIAQALKEYGDSIVEVLPDGLLGRYKLLPRYEALKALHFPVGQEDLKQARRRFVYEEFFLFQLKMQTLRKMERENSKGTKKEIPSVELQEFIDALPFPLTGAQRRVVDEILKDMTSLYRMNRLLQGDVGSGKTVVAAIGLYASKLAHYQGALMVPTEILAEQHYQSLAETFSHFGMKVELLTSSVKGARRRDILAKLEQGEIDILVGTHALIQDEVIFHRLGLVITDEQHRFGVAQRRVLREKGESPDVLFMTATPIPRTLAITAFGEMDVSIIDEMPAGRKVIETYWAKHDMLDRVLGFVEKEIKKGRQAYVICPLIEESEKLDVQNAIDLHSMLTHHYQGKCQVGLMHGRLSSQEKEEIMGQFSENKVQILVSTTVVEVGVNVPNATVMVIYDAERFGLSQLHQLRGRVGRGSEQSYCLLIADPKSETGKERMRIMTETNDGFVLSEKDLELRGPGDFFGSKQSGLPEFKVADMVHDYRALETARQDAAILVESEAFWHNDQYAALRTYLDGTGVFQGEKLD				NA	NA	NA	NA	NA
AK009_02705	1677			putative protein	GTGTCAATTCAAAAAATTGATGGAAAACGTTTATCACAAATGATCATGCAAGGAGCGAATAATTTAACAAATAATGTTCAGCTTGTTGATGCATTAAACGTATTTCCAGTTCCAGATGGCGATACCGGTACAAACATGAACTTATCTATGACTTCAGGTGCGCGTGAAGTGAAAGCAAATCCTTCACAGCATGCTGGTAAAGTCGGCGTAAGTTTAGCCAAAGGATTATTAATGGGAGCTCGTGGTAACTCTGGAGTTATTCTATCTCAGTTGTTCCGTGGTTTCTCTAAATCCATTGAACAAAAAGAAGAATTAACAACAGTTGATTTTGCTGCAGCACTAGAAGCTGGAGTAGAGGCGGCTTATAAAGCGGTTATGAAACCGATTGAAGGAACGATTTTAACGGTTGCAAGAGAAACGGGTAAATATGCAGTAACAGTTGCGAAAAAACAGCGCGACTTTGTTTTGTTTATGGAAGACGTTGTGAAAGAAGCAAACGCATCGTTAAATCGTACGCCAGATTTATTACCTGTATTAAAACAAGTTGGCGTTGTAGATAGCGGTGGTAAAGGTCTTGTAGTGGTATACGAAGGATTTTTAGCTGACTTAAAAGGAGAAACGATTTCTTCTGATGCACCGACGCAAACATCTATGAATGAGATGGTACGCGCAGAACATCACCGTAGTGTACAAAGCCAATTGAGTACAGAAGATATTAAGTATGGATATTGTACGGAGTTCATGGTGAAATTAGAGGCTGAAAAGGTGAAAGAGCATAATTTCTCTGAACAAAAATTCCGTGAAGATATTAGTGTATATGGTGATTCTCTACTAGTTGTGTCTGATGATGAAATTGTAAAAGTTCATATCCACGCAGAACATCCTGGAGACGCTATGAACTACGGGCAAAAATACGGTAGTTTAATTAAGATTAAAGTAGAAAATATGCGTGAACAGCATACTGCTTTATTAGATGAACCTGCTATGGTTCCTGAACAACCAGCTCAATCGAAAGAAAAACAACCATATGGTATCGTAACTGTGGCAATGGGGTCTGGTATTAAAACTTTATTTGAGAGCATCGGCGCAACGAAAGTTATCGAAGGTGGTCAAACGATGAATCCAAGTACGGAGGATATCGTGAAGGCAATTGAAGAAGCAAATGCTGAAAAAATCATTATTTTACCGAATAACGGAAATATTGTAATGGCAGCAGAACAAGCGGCATCAGTTGTAGATCAAGAAGTTATTGTTGTTCGTTCGAAAACAGTTCCTCAAGGTATGGCAGCAATGTTAGCATTTAACCCAGTTGGAACGTTAGAAGAGAATGAAGAAAACATGCAAGAAGCTTTATCTCATGTGAAAACAGGTCAAATTACGTATGCTGTACGTGATACGGAAATTGATGGTGTAGCAATTCAAAAAGATGACTTCATGTGTATTGCAGATGGAAAAATTGTATCTACAAATGCTGAAAAAGTAGGAGCTGCGAAGCAATTACTAGAAGCGCTTATTGATGAAGATTCTGAAATCGTAACGATTCTACAAGGTGAAGATGCAACTGACGAAGAAGTAGCGGAGTTAGTTGAATTTGTAGAAGAGAAATTTGAAGATGCAGAAGTAGAAGTGCATGCTGGAAACCAACCAGTGTATTCTTTCATCTTCTCTGTAGAATAA	MSIQKIDGKRLSQMIMQGANNLTNNVQLVDALNVFPVPDGDTGTNMNLSMTSGAREVKANPSQHAGKVGVSLAKGLLMGARGNSGVILSQLFRGFSKSIEQKEELTTVDFAAALEAGVEAAYKAVMKPIEGTILTVARETGKYAVTVAKKQRDFVLFMEDVVKEANASLNRTPDLLPVLKQVGVVDSGGKGLVVVYEGFLADLKGETISSDAPTQTSMNEMVRAEHHRSVQSQLSTEDIKYGYCTEFMVKLEAEKVKEHNFSEQKFREDISVYGDSLLVVSDDEIVKVHIHAEHPGDAMNYGQKYGSLIKIKVENMREQHTALLDEPAMVPEQPAQSKEKQPYGIVTVAMGSGIKTLFESIGATKVIEGGQTMNPSTEDIVKAIEEANAEKIIILPNNGNIVMAAEQAASVVDQEVIVVRSKTVPQGMAAMLAFNPVGTLEENEENMQEALSHVKTGQITYAVRDTEIDGVAIQKDDFMCIADGKIVSTNAEKVGAAKQLLEALIDEDSEIVTILQGEDATDEEVAELVEFVEEKFEDAEVEVHAGNQPVYSFIFSVE				NA	NA	NA	NA	NA
AK009_02706	363			putative protein	ATGTCAATTGAAATTAAAACGAAGTACGGTCAAATTGATATTAGTACAGATGTAATTGCAACAATTGCTGGAGGTGCCGCGGTAGATTGCTACGGTATCGTAGGTATGGCATCAAAAAATCAGTTAAAAGATGGATTAACAGACATTTTACGAAAAGAAAACTTCACTAGAGGTGTTATTGTTCGTAAAGATGAAGATGAAGTACATATTGATATGTATATTATTGTGAGCTATGGTACGAAAATTTCAGAAGTGGCACATAATGTGCAGACGAAAGTGAAATATACACTAGATCAAACTGTAGGACTAGCAGTAGATTCTGTAAACATCTACGTACAAGGAGTTAAAGTAATAAACTTGTAA	MSIEIKTKYGQIDISTDVIATIAGGAAVDCYGIVGMASKNQLKDGLTDILRKENFTRGVIVRKDEDEVHIDMYIIVSYGTKISEVAHNVQTKVKYTLDQTVGLAVDSVNIYVQGVKVINL				NA	NA	NA	NA	NA
AK009_02707	189	rpmB	COG0227	50S ribosomal protein L28	ATGGCTCGTGTTTGTGCTATTACTGGAAGAAAAGCTCGTTCTGGTAACTCTCGTTCTCACGCAATGAACGCTACAAAACGTAAGTGGGGCGCTAACCTTCAAAAAGTTCGCGTACGCATCGACGGAAAAGTTCAACGTGTTTACGTTTCTGCTAGAGCATTAAAATCTGGCAAAATCGAACGTGTTTAA	MARVCAITGRKARSGNSRSHAMNATKRKWGANLQKVRVRIDGKVQRVYVSARALKSGKIERV				NA	NA	NA	NA	NA
AK009_02708	681	thiN	COG1564	Thiamine pyrophosphokinase	ATGGCAGATTGCCTTTTTACAATGGAAGGGGAAGAAAAAATGATTATTCATATTTTGGCAGGAGGACCTTCGGAATATTGCGCAGATTTTGCTCGATATGAGAATGAGGAAGTAGTGTGGGCTGCGGTTGATAGGGGAGTATACCGTCTATTAAAGAAAGGGATTACCCCGGCTGTTGCGTTTGGAGATTACGATTCAGTTACTGAAGAAGAATTAGTATGGATGGGACAGCAAACGAACGAATTACATATTGTTCCGCGGGAAAAAGATCAAACGGATTTAGAAATTGCAATCAACTGGGCATTAGGACAGAAGCCGGCACTAATTCGTATTTTTGGTGCTACCGGTGGAAGACTTGATCACGGTTTGGCAAATATACAAATGCTTTTAAAAGGGTTAGAAGTAGAGATAGAAATGTGTATTGTGGACAATAAAAATGAAATAACAGTTAAAAAAGTGGGTACACATATAATTGAAGAAAATAAAAATTTTCCTTATGTATCTTTTGTACCAGTTACTGAAATAGTGGAAGGGATTACATTGTTTGGTTTTAAGTACCCTCTTACTAATAAAACAATAGAGTGGGGATCAACACTTTGTATTAGTAACGAACTCGTTGAGGAAAAAGGTACTTTTTCATTTACTTCTGGCATATTAATGTTGATAAGAAGCACTGATTGA	MADCLFTMEGEEKMIIHILAGGPSEYCADFARYENEEVVWAAVDRGVYRLLKKGITPAVAFGDYDSVTEEELVWMGQQTNELHIVPREKDQTDLEIAINWALGQKPALIRIFGATGGRLDHGLANIQMLLKGLEVEIEMCIVDNKNEITVKKVGTHIIEENKNFPYVSFVPVTEIVEGITLFGFKYPLTNKTIEWGSTLCISNELVEEKGTFSFTSGILMLIRSTD	PGPT0009035_725	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
AK009_02709	645	rpe		Ribulose-phosphate 3-epimerase	ATGATTAAAATTGCACCATCGATTTTATCAGCAGATTTTTCAAAATTAGGGGAAGAGATTAAAGATGTAGAAAAGGGCGGAGCGGATTACATTCACGTTGACGTAATGGATGGACATTTCGTACCAAATATTACGATTGGACCATTAATTGTAGAAGCTATCCGTCCAATTACATCATTACCATTAGATGTACATTTAATGATTGAAAATCCTGATAACTATATCCCGACTTTCGCACAAGCGGGAGCGGATATTATTACTGTTCACGCAGAGGCGTGTCCACATCTGCATCGTACAATTCAGTTAATTAAATCTCACGGTATTAAAGCGGGCGTTGTATTAAATCCACATACGCCAGTTTCAGTGATTGAGCATGTATTAGAAGATATAGATATGGTATTACTTATGACAGTAAACCCTGGATTTGGTGGACAGAAGTTTATCCATTCTGTATTACCGAAAATTAAACAAGTTGCAGACATGGTGAAAGAGCGCAATCTAGAAGTAGAAATTGAAGTTGATGGTGGTGTAAATGCTGAAACAGCAAGACTTTGTGTGGAAGCAGGAGCAAATGTACTTGTAGCTGGATCAGCAGTATACAATCAAAAAGACCGCGGTGAAGCAATTCGCGTAATTCGTGGGTAG	MIKIAPSILSADFSKLGEEIKDVEKGGADYIHVDVMDGHFVPNITIGPLIVEAIRPITSLPLDVHLMIENPDNYIPTFAQAGADIITVHAEACPHLHRTIQLIKSHGIKAGVVLNPHTPVSVIEHVLEDIDMVLLMTVNPGFGGQKFIHSVLPKIKQVADMVKERNLEVEIEVDGGVNAETARLCVEAGANVLVAGSAVYNQKDRGEAIRVIRG	PGPT0017425_5617	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
AK009_02710	882	rsgA_2	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGCCAGAAGGAAAAATTATAAAAGCTTTAAGTGGGTTTTATTACGTGCAGCATGAAGAAGGGGTTACGCAATGTCGTGGGCGAGGTGTATTTAGAAAAAATAAAATTACACCACTTGTAGGAGACCAAGTTGTTTTTCAGGCAGATAATCCAACTGAAGGTTATGTGCTTGAAGTGTTTGATCGAAAAAATGAACTTGTTAGACCTCCTATTGCTAATGTCGATCAAGCGATCCTTGTGTTCTCTGCAGTAGAACCAGATTTTAATCCTGGACTGTTAGATCGATTTTTAGTGCTGATTGAATATCATAACATTAAGCCAATTATTTGTATTAGCAAGATGGATTTAGTAGATGAAAAGATGAAAGCAACTGTTGAAGCTTATGCGAATGATTATCGTGAGATGGGTTATGATGTTTTATTTACTTCTATTAATACGTCAGAAAGTATTGATATATTAAAACCATACTTAGAAAATTGTGTTTCTGTTGTTGCGGGTCAATCTGGTGTTGGGAAATCTTCAATGCTTAATGTGCTACGTCCAGAATTAGAGCTGAAAACAAATGATATTTCCTCCCATTTAGGACGCGGGAAGCATACGACAAGACACGTAGAATTAATTGCAATTGGGAGTGGACTAGTAGCAGATACACCGGGTTTTAGTTCACTAGATTTCATTGATATAGAAGTAGAAGATCTTACATATTGTTTTCCAGAGTTGAAAGAAGCGAGCCAATACTGTAAATTTAGAGGGTGTACACATCTTTCTGAACCGAAATGTGCTGTGAAAGCTGCGGTTGAAGAAGGGAAGATTACAGAATATCGCTATAAGAACTATAAACAATTCGTAGAAGAAATTAGAGAGAGAAAGCCGAGGTATTAG	MPEGKIIKALSGFYYVQHEEGVTQCRGRGVFRKNKITPLVGDQVVFQADNPTEGYVLEVFDRKNELVRPPIANVDQAILVFSAVEPDFNPGLLDRFLVLIEYHNIKPIICISKMDLVDEKMKATVEAYANDYREMGYDVLFTSINTSESIDILKPYLENCVSVVAGQSGVGKSSMLNVLRPELELKTNDISSHLGRGKHTTRHVELIAIGSGLVADTPGFSSLDFIDIEVEDLTYCFPELKEASQYCKFRGCTHLSEPKCAVKAAVEEGKITEYRYKNYKQFVEEIRERKPRY	PGPT0009020_4225	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
AK009_02711	1974	prkC	COG0515	Serine/threonine-protein kinase PrkC	GTGCTGATTGGAAAACGCTTAAATGACCGTTATAAGCTACTGAAAATGATTGGTGGTGGCGGAATGGCCAATGTATATTTAGCTCATGATGATATACTTGGCCGAGATGTAGCGGTAAAAATATTAAGACTCGACTACTCAAATAACGAAGAGTTTATTAAACGTTTCCATCGAGAAGCGCAGTCTGTTACAACGTTGTCGCATCCAAATATTGTGAATATGTATGATGTCGGAGAAGAAGATGGTATATATTATCTTGTCATGGAATATGTACCCGGGCAAACATTGAAGCAATACATAATTGAGCGAGGTATGTTACCTATAGGAGAAGCTCTTGATATTATGGAGCAGTTAACATCCGCCATGGCACACGCCCATCATTTTGAAATTGTGCATCGTGATATAAAGCCGCACAATATTTTAATTCGAGCTGATGGAATAATAAAAGTAACAGATTTTGGAATTGCGACAGCTACAAGTGCAACAACAATTACACATACAAATTCAGTACTGGGTTCAGTCCATTATTTATCACCAGAACAGGCACGTGGCGGGATAGCAAATAAACAATCGGATATTTATTCTCTTGGAATAGTTATGTTTGAATTGTTAACAGGAAGACAACCGTTTTCTGGCGAATCTGCTGTTGCTATAGCTTTAAAACATTTACAAAGTGAAATCCCATCACCAAAAAGATGGAATGAAAATATTCCGCAAAGTGTTGAAAATATTATATTAAAGGCAACTGCAAAAGATCCTTTCCATCGATATCAATCTGCCAATGCGATGAAGCGAGATATTGAAACTGCGCTATATCCAGAGAGGATAAATGAGCAACCATTTTACATACCAGAAGATATGGAAGCGACGAAAGCGATTCCGATTATTCAACAAGAACAATTATTTGAAAATGTAAGTGATGAAACGATTGTTTTAAAAGGGAGTAAGGTGGAAGAACCGATAAGAGCAGAAGCAGCTGAGTTAGATAAGAAGAAAAAACGGAGTAACAAGTGGCTTAAAGTTTTAATTTCAACATTTTTATTTTTAGCAATAGGAATAACATTAGCGCTTACGGTTATTCCAGGATTATTTATTCCGAAAGATGTGAAAGTGCCTGATGTGGCTGGTATGAAATACACGACAGCTGTAAATACGCTAGTAGAAAAGGGCTTTGAGGTGACGGAGCCTAATATTGTATATACAGATGATGTTGAAGTTGGGGATGTAATAAAAACGGAACCTGTAGCAGGAAGAGTCGTAAAAGAAAACGCTAAAATTACTATCTATCAATCAGGTGGAAAAAAGAAAAGTAAGATGGCGAATTTCACAGGGCAAAACTTTGAGAGTGTAAAAGCTGAGTTAGAAGAAAAATATAAACAAGTTACAGTAAATTATATTGAAAATGATAAGCCGAAAGGTGAAATTGTAGAGCAAATTCCGACGCCTGATCAAATGGTTATAGAAGCGGAGCAAGAACTGAAAATCTGGGTAAGTAAAGGTCCTTATCAAATTAGACCAGGTGACTTTTCGGGGTGGACTGAAAATAGTGTAACTGGTTATTTGAATGAGAGAAAACTAACGTCAGATATAAAACGAGAGTACTCAGATTCAGTCGAAAAAGGACTTGTAATTTCGCAATTTCCAAAACCAGGTACACCATTAAAAGAGGGAGATAAAGTAACTATTATTATCTCTGATGGTCAAAAGCCTAAAGTGACTAAAACGGTAAAAGTGGACAATATCTCTATCCCATATGAGCCTGCTGTAACAGGTGAAAAAAAGCCGCAAACAATAGAAATTTATAAAGAAGACATGCAGCAAAAAATGGATAGACCGGTTGAAACGAGAACAATTACTGAATCAGCGACTATTTCTTTAGAATTTGTAATTCAAGAAGGTTCAAAGGGACACTATAAAATTGTACGAGATGGAGTAACGATTATTGATAAAGAAGTACCATATCCAACTCAATAA	MLIGKRLNDRYKLLKMIGGGGMANVYLAHDDILGRDVAVKILRLDYSNNEEFIKRFHREAQSVTTLSHPNIVNMYDVGEEDGIYYLVMEYVPGQTLKQYIIERGMLPIGEALDIMEQLTSAMAHAHHFEIVHRDIKPHNILIRADGIIKVTDFGIATATSATTITHTNSVLGSVHYLSPEQARGGIANKQSDIYSLGIVMFELLTGRQPFSGESAVAIALKHLQSEIPSPKRWNENIPQSVENIILKATAKDPFHRYQSANAMKRDIETALYPERINEQPFYIPEDMEATKAIPIIQQEQLFENVSDETIVLKGSKVEEPIRAEAAELDKKKKRSNKWLKVLISTFLFLAIGITLALTVIPGLFIPKDVKVPDVAGMKYTTAVNTLVEKGFEVTEPNIVYTDDVEVGDVIKTEPVAGRVVKENAKITIYQSGGKKKSKMANFTGQNFESVKAELEEKYKQVTVNYIENDKPKGEIVEQIPTPDQMVIEAEQELKIWVSKGPYQIRPGDFSGWTENSVTGYLNERKLTSDIKREYSDSVEKGLVISQFPKPGTPLKEGDKVTIIISDGQKPKVTKTVKVDNISIPYEPAVTGEKKPQTIEIYKEDMQQKMDRPVETRTITESATISLEFVIQEGSKGHYKIVRDGVTIIDKEVPYPTQ				NA	NA	NA	NA	NA
AK009_02712	753	prpC_1	COG0631	Protein phosphatase PrpC	ATGAAAGCCGTATTTCTATCGGATAAAGGAAAAGTTCGTCAACATAATGAAGATAGTGCAGGAGTTTTTCACAATTTAGATGGAAATGTTTTAGCGGTAGTAGCAGATGGAATGGGAGGTCATCGAGCTGGTGATGTAGCTAGCTCGATGACCATTCAATTATTCCATGATTATTGGAAGCAAACGCATAATATGAATGAACCGAAAAAAGTAGAACAATGGTTACATACTAGTGTTGGGATTATTAATGAGCGTATATATGAATACGCTCAGCAAAATGTAGAATGTAATGGTATGGGAACAACGCTTATAATAGCTGTTTGTACAACAAGTTTTGTGACGATAGGGCATATAGGAGATAGTCGTTGCTATATGGTATCAGAAGGAGAAATGACGCTTGTAACGGAAGATCATTCGCTTGTAAATGAGCTTGTGAGACATGGTGAAATTTCAAAGGAAGATGCAGAGTATCATCCGAAAAAGAATGTGTTATTAAGAGCGCTAGGAACAGAAGAAAAAGTTGGATTAGATGTTAAAACGTTGGTGCTTGAGGAAGATGATCAATTACTTCTTTGCTCTGATGGGTTATCAAACAAAGTTTCTATTGATGATATGCAACAAATTTTACAGTTAAATGAACAGCTTGAAGGTAAAGGGCAGCGTCTCATTCAATTGGCGAATGATCGCGGTGGAGAAGATAATATCACACTTGTTCTTATTGATTATGCGGGTTCGACAAACGAAAGTAGGTGA	MKAVFLSDKGKVRQHNEDSAGVFHNLDGNVLAVVADGMGGHRAGDVASSMTIQLFHDYWKQTHNMNEPKKVEQWLHTSVGIINERIYEYAQQNVECNGMGTTLIIAVCTTSFVTIGHIGDSRCYMVSEGEMTLVTEDHSLVNELVRHGEISKEDAEYHPKKNVLLRALGTEEKVGLDVKTLVLEEDDQLLLCSDGLSNKVSIDDMQQILQLNEQLEGKGQRLIQLANDRGGEDNITLVLIDYAGSTNESR				NA	NA	NA	NA	NA
AK009_02713	1089	rlmN		putative dual-specificity RNA methyltransferase RlmN	ATGGAAACGACTGTAAGAAAACAAAAGAAAAATGTAGAAACGAAGAAACCATCAATTTACTCTTTACAAATTCATGAAATGCAAGATTGGTTAAAGGAACAAGGAGAACCGAAGTTCCGCGCTGGACAAATTTTTGACTGGCTATATAAAAAACGTGTAAAAAATTATGAGGATATGTCAAACCTTTCTAAAGGATTGCGTGATAAATTGTCGAATTCCTTTGATATTACTACTTTAAACACGTTAGTAAAACAAACGTCTTCGGATGGAACGATTAAATTCTTATTCCAATTATATGACGGGTATTCTATTGAAACGGTATTAATGCGACATGAATATGGAAATTCCATTTGTGTAACAACGCAAGTTGGTTGTCGTATTGGATGTACGTTCTGTGCTTCGACGCTTGGTGGACTAAAACGAAACCTAGAAGCTGGAGAAATCGTAGCGCAAGTAGTAGAAGTTCAGCGTGCGCTTGATGAAACAGAAGAACGTGTAAGTTCTCTTGTTGTTATGGGAATTGGAGAACCATTTGATAATTACGATAATTTAATGGGATTCTTACGCATCACTAACCATGAAAAAGGACTTCATATTGGTGCTAGACATATGACTGTTTCGACGAGTGGAATTATCCCGAAAATTTATAAGTTTGCTGAAGAAGAACTACAAATTAATTTTGCGATTTCATTGCATGCTCCAAACTCAGAATTACGTTCAAAATTAATGCCGATTAACCGTGCTTATAAATTACCGGATTTAATGGAAGCTATTAAATACTATGTAAATAGAACAGGGCGCCGTATTACTTTTGAATATGGATTATTTGGAGGAGAAAATGACCAAGTTGAGCACGCTGAAGAGCTTGCTGCGCTCTTAAAAGGTGTAAAATGTCATGTAAACTTAATCCCGGTAAACTACGTACCTGAACGTGATTATGTACGTACACCACGTGAGCAAATTTTCTTGTTCGAGAAAACGTTAAAAGATCGTGGAGTGAATGTAACGATTCGCCGTGAACAAGGTCATGATATTGACGCAGCCTGCGGTCAGTTGCGTGCGAAGGAGCGCAAAGAAGAGACGAGGTGA	METTVRKQKKNVETKKPSIYSLQIHEMQDWLKEQGEPKFRAGQIFDWLYKKRVKNYEDMSNLSKGLRDKLSNSFDITTLNTLVKQTSSDGTIKFLFQLYDGYSIETVLMRHEYGNSICVTTQVGCRIGCTFCASTLGGLKRNLEAGEIVAQVVEVQRALDETEERVSSLVVMGIGEPFDNYDNLMGFLRITNHEKGLHIGARHMTVSTSGIIPKIYKFAEEELQINFAISLHAPNSELRSKLMPINRAYKLPDLMEAIKYYVNRTGRRITFEYGLFGGENDQVEHAEELAALLKGVKCHVNLIPVNYVPERDYVRTPREQIFLFEKTLKDRGVNVTIRREQGHDIDAACGQLRAKERKEETR				NA	NA	NA	NA	NA
AK009_02714	1335	rsmB	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGAGACAAAATGTTCGTGAATTAGCTCTTGATGGTTTAATTCAAGTGGAAAAAAGTGGTGCATATAGCAACTTACTTTTAAATAATTTAATTGAAAAAAGTGCAATTGATAGAAAAGATATTGGTTTATTAACTGAAATTGTATATGGAACGATTCAACGTCGTGACACATTAGATTATTATTTACAGCCTTTTTTAAAAAAGAAGGTTGAGGCGTGGGTAAGAGTATTGCTTCGCTTATCTTTATATCAAATGATTTATTTAGACCGAGTGCCAGAAAGAGCGGCTATTCATGAAGCGGTTGAGATTGCAAAGCGTCGCGGGCATAAAGGAATTGCTGGTATGGTGAACGGTGTATTACGTTCGATTCAGAGAGAAGGTGTACCTTCTGTAGATGAAATCAAGGATCCAGTAGAACGGCTTGCAATTGCGATGAGTCATCCAGTTTGGCTTGTACAAGAGTGGACTTCTGCATATGGCTTAGAAACTGCAGAGAAAATGTGCGAAGTAAATATGTTACCTCCTGTACCTACAGCGCGTGTGAATGTTGATAAGGTAACGGTAGAAGAAGCGATTGAGTTGTTGGCAAGTGAAGGTATAGAAGCAAAACGTGGTGACTTGTCAGATGATGCAATTCAGATTGAAAGAGGAAATGTAGCGCATACAGAAGCGTTTAAAAAAGGATTTCTTTCTATTCAAGATGAAAGTTCTATGCTTGTAGCACGCGCTTTAGAACCAAATGAGGGAGAGACAGTTCTTGATAGTTGTGCGGCTCCTGGTGGTAAAACTACGCATATAGCTGAGCGTTTAAAGGGAACTGGTAAAGTAATGTCTCTTGATTTACATGCACACAAAGTACGTTTAATTAAACAGCAAGCAGAGCGACTTGGGTTAGAAAATGTCGAAACAAAAGCGCTAGATGCTAGAAAAGTGCAAGAGCACTTTTCAAATGAAACGTTTGATAAAATATTGGTAGATGCACCGTGTTCTGGATTTGGTGTAATTAGACGTAAGCCTGATATTAAGTTAGGAAAAGATAAAGGCGATAGTGAAAGATTATCGACGATTCAACTTGCGATACTAGAAAAAATAGCACCGTTATTAAAACAAGGCGGTCGTCTTGTTTATAGTACGTGCACAATTGAGAAAATAGAAAATGAACAAGTAATAGATAAATTTTTAAAAGAACATCCTGAATTTGAATGGGATACTACGATAAAAGAACGTATGCCAGAAAAATTAAGTAAGTATATTAATGAAGGTCAAGTACAAATTTTACCGCATTATTTTGCAACGGATGGCTTTTATATTGCTTGTTTAAGGAAGAAGGTGTAG	MRQNVRELALDGLIQVEKSGAYSNLLLNNLIEKSAIDRKDIGLLTEIVYGTIQRRDTLDYYLQPFLKKKVEAWVRVLLRLSLYQMIYLDRVPERAAIHEAVEIAKRRGHKGIAGMVNGVLRSIQREGVPSVDEIKDPVERLAIAMSHPVWLVQEWTSAYGLETAEKMCEVNMLPPVPTARVNVDKVTVEEAIELLASEGIEAKRGDLSDDAIQIERGNVAHTEAFKKGFLSIQDESSMLVARALEPNEGETVLDSCAAPGGKTTHIAERLKGTGKVMSLDLHAHKVRLIKQQAERLGLENVETKALDARKVQEHFSNETFDKILVDAPCSGFGVIRRKPDIKLGKDKGDSERLSTIQLAILEKIAPLLKQGGRLVYSTCTIEKIENEQVIDKFLKEHPEFEWDTTIKERMPEKLSKYINEGQVQILPHYFATDGFYIACLRKKV				NA	NA	NA	NA	NA
AK009_02715	945	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGATAAAAGTAGTGTTTATGGGAACACCGGACTTTTCAGTGCCGGTGCTTCGTCGTCTTATTGAAGATGGCTATGAGGTAGTAGGTGTTGTGACGCAACCTGATCGTCCAGTAGGTAGAAAAAAAGTATTAACACCTACACCTGTTAAAGTTGAAGCGGAAAAACATGGTATCCCTGTGTTACAGCCGTTAAAAATTCGTGAAAAAGATGAATATGAAAAAGTATTGGCATTAGAGCCAGATTTAATTGTAACAGCTGCATTTGGTCAGATTGTACCAAATGAAATTTTAGAAGCACCGAAGTATGGATGTATTAATGTCCACGCTTCTTTACTTCCTGAACTTCGTGGTGGTGCACCAATTCATTATGCAATTATGGAAGGTAAAGAAAAAACAGGTATTACAATTATGTATATGGTAGAAAAATTGGATGCTGGTGATATCTTAACGCAAGTGGAAGTGGAAATTGAAGAGCGTGAAACGACAGGCTCATTATTTGATAAATTAAGTGAAGCAGGAGCACATCTTCTATCTAAAACAGTACCTTTATTAATTCAAGGTAAGTTAGAACCGATTAAACAAAACGAAGAAGAAGTAACGTTTGCGTACAATATAAAACGTGAGCAAGAGAAAATTGATTGGACAAAAACAGGTGAAGAAGTATACAATCACATTCGCGGATTGAATCCATGGCCAGTTGCTTATACAACTTTAGCAGGACAAGTTGTTAAAGTATGGTGGGGAGAAAAAGTGCCTGTAACTGAACCGGCTGAAGCAGGTACGATTGTTGCGATCGAAGAAGATGGTTTTGTAGTAGCAACTAGTAATGAAACAGGTGTTAAAATTACTGAATTGCAACCTTCTGGTAAAAAGCGTATGAGTTGTTCACAATTTTTACGTGGAACAAAACCTGAAATTGGAACGAAGTTAGGAGAAAATGCATGA	MIKVVFMGTPDFSVPVLRRLIEDGYEVVGVVTQPDRPVGRKKVLTPTPVKVEAEKHGIPVLQPLKIREKDEYEKVLALEPDLIVTAAFGQIVPNEILEAPKYGCINVHASLLPELRGGAPIHYAIMEGKEKTGITIMYMVEKLDAGDILTQVEVEIEERETTGSLFDKLSEAGAHLLSKTVPLLIQGKLEPIKQNEEEVTFAYNIKREQEKIDWTKTGEEVYNHIRGLNPWPVAYTTLAGQVVKVWWGEKVPVTEPAEAGTIVAIEEDGFVVATSNETGVKITELQPSGKKRMSCSQFLRGTKPEIGTKLGENA	PGPT0008125_3001	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK009_02716	471	def1	COG0242	Peptide deformylase 1	ATGGCAGTTTTAGAAATAGTAAAGCATCCAAATGAAGTGTTAGAAACACCATGCGAAAGAGTAATTAACTTTGATAAAAAGTTAGTGAAATTGTTGAAAGATATGCATGAAACAATGTTAATTGCGGACGGAGTCGGTTTAGCTGCGCCTCAAGTAGGTGTAAGCTTGCAAGTAGCGGTTGTTGATGTCGATGATGATACTGGGAAAATCGAGTTAATCAATCCATCAATATTAGAAAAACGTGGTGAACAAGTAGGTCCCGAAGGATGTTTAAGCTTCCCGGGACTTTATGGTGAAGTAGAACGTGCGGATTATATTAAAGTAAGAGCACAAAATCGCCGTGGGAAAGTATTTTTATTAGAAGCGGAAGGATTTTTAGCGCGTGCAATTCAACATGAAATCGATCATTTACACGGTGTTTTATTTACATCGAAAGTGACAAGATATTATGAAGAAAACGAACTAGAATAG	MAVLEIVKHPNEVLETPCERVINFDKKLVKLLKDMHETMLIADGVGLAAPQVGVSLQVAVVDVDDDTGKIELINPSILEKRGEQVGPEGCLSFPGLYGEVERADYIKVRAQNRRGKVFLLEAEGFLARAIQHEIDHLHGVLFTSKVTRYYEENELE	PGPT0008125_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK009_02717	2406	priA		primosomal protein N'	ATGAAATTTGCAAGTGTAATTGTTGATGTACCTGCCCGTCAGACAGATCGACCATTTGATTACATTATACCTAAAAAATGGGAAGATATTGTACAGACAGGAATGCGGGTAGTAGTTCCGTTTGGGCCAAGAAAATTGCAAGGTTTTATTATTGGGATTAAAGATTCGGTGGATGTAGAAAGTAAGAAGTTAAAGACGATCCATGAAATATTAGATGTAACACCGGTTTTAAATGATGAATTATTAAAACTTGGATATTGGCTTACAAGTGAAACGTTATGCTACATGATTTCAGCTTTTCAAGTGATGCTTCCAACTGCGATAAAAGCAACGTATAAAAAACGTCTACAACTTTGTAAACAGGAAGAAATAGCACCTGAAATACTATATTTATTTCAGGATAAAGAAGCAATTGATTTTGAAGTAATCGAGCAACAGCCACATTTATACCGGACTATTCAACAAGAAATTAAAAATGGTACGGTTGAAGTCGTTTATCAAGTGAAAGATAAAGTACAAAAGAAGAAGCAAAGAGTTGTTCAGCCGGAGTTGCCAGAAGATAAATTAGAATTAGCGGCATTTGAACTGAAAAGTAAAAAACAACAAGATGTACTCTATTATTTTGTGGAAAATTATAAAAGTGTACCGTTGAAAGTAATTACAGAAGAGTTACAAATAACAGATGCTCCAATAAAAGCACTTGTTAAAAAGGGATTCATTTCAGAAAAGTATGTGGAAGTATACCGAAATCCGTATGACGATGATGGTTTTGAACAAACGAAACCATTGCCACTTACGGAGGAACAAAAACAAGTTATTACACCGATTTTATCATCAATTACAAATGAAACTTATAATCCATTTTTACTATATGGTGTTACAGGAAGTGGAAAGACAGAAGTATATTTACAATCTATAGCAGCAGTGCTCGAGAAAGGAAAAGAAGCTATCGTTCTTGTTCCTGAAATTGCACTAACACCCCAAATGGTGGATCGTTTTAAAGGTAGGTTTGGCTCGCAAGTTGCAGTTCTTCATAGTGCGTTGTCTGTTGGAGAAAAGTATGACGAGTGGCGTAAGATTTTAAGAAAAGAAGTGAAAGTTGTAGTTGGTGCGCGTTCAGCCGTTTTTGCGCCTTTTGAGAATTTAGGGATTATTATTATTGATGAAGAGCATGAATCAAGTTACAAACAAGAAGATAATCCAAGGTATCATGCAAGAGATGTGGCTGTCTGGAGAGGGCAATACCATAAATGTCCTATCGTTCTTGGTAGTGCGACACCAACACTTGAATCGTTTGCAAGGGCGAAAAAAGGTGTTTATGAACTACTAACAATGGAAAAACGTATGAATGAACAAGCTTTACCAACGGTAGAGATTGTTGACATGCGAGAAGAACTTCGTGACGGGAATCGATCAATGTTTTCTAAGGCGCTGCATGAAAAAATAGCAGATCGATTAGAAAAGAAAGAACAGATGGTACTCTTCTTAAATAGAAGAGGTCATTCTACATTTGTTATGTGCCGTGATTGTGGGTATGTTGTACAATGTCCGCATTGTGATATTTCATTGACATATCATAAAATGAATCATCGTTTAAAATGTCATTATTGTAGTTACGAAGAAAATATGCCAACTGAGTGTCCAGCTTGTCAAAGTATATACATTCGTTTCTTTGGTACAGGTACACAAAAGGTAGAAGAAGAAATTACAAAACTATTTCCAGAGGCGCGAGTCATTCGAATGGATGTAGATACGACAAGTCGAAAAGGAATGCATGAAAAATTATTAAAGGCGTTTGGGGAAGAAAAAGCAGATATATTACTTGGAACACAAATGATTGCTAAAGGATTAGATTTTCCGAAAGTAACGCTTGTTGGGGTTTTAACTGCAGATACGATGCTTCACTTACCTGATTTTCGTGCAAGTGAAAAGACATATCAGTTATTGACGCAAGTAAGTGGACGAGCGGGTAGACATGAATTGCCAGGGGAAGTTGTGATTCAAACGTATACGCCAGAACATTACAGTATAGAGTTAGCGAAGAACCAACAATATGATGTGTTTTTTGACCAAGAAATGCAAATGAGACGAACAAGACAATATCCTCCATATTACTATGTTGTACTCGTAACCGTATCTCATCCTGAATTATTAAAAGCGGTACAAGTGACGGAAAAAATTGCCTCGTATTTACGAACGCATTGCTCGCAGCAAACAATGGTGTTAGGACCAGTTGCTTCAGCAATTCCAAGGATAAAAGATAGATATCGTTATCAATGCATGATAAAATACAAACGGGAACCAAACTTAAAGAACGTGCTCAAAATGGTAAATGAACATTATCAAGCAGAAATGCAAAAAGAGCTACAAATCTCAATTGATTTTAATCCAACAATGTTAATGTAG	MKFASVIVDVPARQTDRPFDYIIPKKWEDIVQTGMRVVVPFGPRKLQGFIIGIKDSVDVESKKLKTIHEILDVTPVLNDELLKLGYWLTSETLCYMISAFQVMLPTAIKATYKKRLQLCKQEEIAPEILYLFQDKEAIDFEVIEQQPHLYRTIQQEIKNGTVEVVYQVKDKVQKKKQRVVQPELPEDKLELAAFELKSKKQQDVLYYFVENYKSVPLKVITEELQITDAPIKALVKKGFISEKYVEVYRNPYDDDGFEQTKPLPLTEEQKQVITPILSSITNETYNPFLLYGVTGSGKTEVYLQSIAAVLEKGKEAIVLVPEIALTPQMVDRFKGRFGSQVAVLHSALSVGEKYDEWRKILRKEVKVVVGARSAVFAPFENLGIIIIDEEHESSYKQEDNPRYHARDVAVWRGQYHKCPIVLGSATPTLESFARAKKGVYELLTMEKRMNEQALPTVEIVDMREELRDGNRSMFSKALHEKIADRLEKKEQMVLFLNRRGHSTFVMCRDCGYVVQCPHCDISLTYHKMNHRLKCHYCSYEENMPTECPACQSIYIRFFGTGTQKVEEEITKLFPEARVIRMDVDTTSRKGMHEKLLKAFGEEKADILLGTQMIAKGLDFPKVTLVGVLTADTMLHLPDFRASEKTYQLLTQVSGRAGRHELPGEVVIQTYTPEHYSIELAKNQQYDVFFDQEMQMRRTRQYPPYYYVVLVTVSHPELLKAVQVTEKIASYLRTHCSQQTMVLGPVASAIPRIKDRYRYQCMIKYKREPNLKNVLKMVNEHYQAEMQKELQISIDFNPTMLM				NA	NA	NA	NA	NA
AK009_02718	1206	undec1A		Cysteine/Cysteine sulfinic acid decarboxylase	ATGCTAAAAGGGAAAAAGATACTTCTATGTGTAACAGGAGGCATTGCGGTTTTTAAAGCAGCTGCGTTAACGAGTAAATTGACACAATCTGGCGCGATTGTAAAAGTAATGATGAGTGAGTCGGCAATGAAGTTTGTTACGCCTCTTACATTCCAAGCACTTTCTCGCCATGATGTATATACGGATACATTTGATGAGAAAGACTCGGCTGTTATTGCTCATATTGATTTAGCAGATTGGGCGGATGTTGTACTTGTCGCACCTGCTACTGCCAATTGTATTGGAAAGTTAGCTGGTGGTATTGCAGATGATATGATTACAACTACTTTGTTAGCTACTGCAGCTCCGGTATGGATTGCGCCTGCTATGAATGTGCATATGTATGAAAATAAAATTGTTCAAAAAAATATGATGACATTGAAAACGCTAGGATATACGTTTATTGAGCCTGGGGAAGGCTTTTTAGCATGTGGATATGTAGCAAAGGGACGACTAGAAGAACCTGAAGCGATTATCGCACGGTTAGAGGAAGCTTTCTCAGAACACAAACCATTGCAGGGAAAAAGAATATTAATAACTGCTGGCCCAACACGTGAAAAGGTTGATCCAGTTCGTTTTATGACGAATTTTTCTTCTGGAAAAATGGGGTATGCGATTGCAGAAGTGGCGGCGAATTTAGGCGCTGATGTTATACTCGTTTCAGGACCGACAGCATTAAATCCACCGTTACATGTAACGACAGTGCAAGTGGAATCTGCACAAGATATGTTAGAAGCAGTTCTTCAACATTATCAAAACGTAGACGTTGTCATTAAAACAGCAGCAGTTGCAGATTATCGTCCGAAATATGTTCATGATAATAAAATGAAAAAGCAAAATGGTGATGCTGTCATTGAACTCGAAAGAACGGTGGATATTTTAAAAACGTTAGGTCAGAAAAAGGATAAACAGTTACTTATCGGTTTTGCTGCTGAAACGACAAATGTAGAGGAATATGCAACGAAAAAACTACGTGAGAAAAATGCAGATATGATTGTCGCGAATGATGTAAAAGCGCAAGGAGCTGGATTTGGCACGGATACGAATATTGTAACGATGTATAGAAAAGATGGAAAAGTTATTGAGTTGCCACTTTTAATGAAAAAAGAGGTAGCTCGTGAAATATTAAAGCAAATTGAAATGATGTTAGAAGATGATCGTTTATGA	MLKGKKILLCVTGGIAVFKAAALTSKLTQSGAIVKVMMSESAMKFVTPLTFQALSRHDVYTDTFDEKDSAVIAHIDLADWADVVLVAPATANCIGKLAGGIADDMITTTLLATAAPVWIAPAMNVHMYENKIVQKNMMTLKTLGYTFIEPGEGFLACGYVAKGRLEEPEAIIARLEEAFSEHKPLQGKRILITAGPTREKVDPVRFMTNFSSGKMGYAIAEVAANLGADVILVSGPTALNPPLHVTTVQVESAQDMLEAVLQHYQNVDVVIKTAAVADYRPKYVHDNKMKKQNGDAVIELERTVDILKTLGQKKDKQLLIGFAAETTNVEEYATKKLREKNADMIVANDVKAQGAGFGTDTNIVTMYRKDGKVIELPLLMKKEVAREILKQIEMMLEDDRL	PGPT0008815_3077	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
AK009_02719	213	rpoZ		DNA-directed RNA polymerase subunit omega	ATGTTAAATCCATCAATTGACTCATTACTACAAAAAATCGATTCTAAATACACACTAGTAACAGTGGCTGCAAAGCGTGCACGTGAAATGCAACTTGCTAATAACTGTGTTGTAGAGCAACCGGTTTCTCATAAGTGTGTAGGTAAAGCATTAGAAGAAATCGATGCGGAAGTATTAAGCTACGTACCAAGTGAAGATAAAGTTGCTGAATAA	MLNPSIDSLLQKIDSKYTLVTVAAKRAREMQLANNCVVEQPVSHKCVGKALEEIDAEVLSYVPSEDKVAE				NA	NA	NA	NA	NA
AK009_02720	618	gmk_1	COG0194	Guanylate kinase	ATGAGAAGTAGAAGAGGATTGCTCATCGTTCTTTCAGGGCCTTCTGGGGTTGGAAAAGGAACGGTTCGTAAAGAGCTGTTTAGCCATGAGGATACACGTTTTCAGTACTCTATTTCAGTAACGACACGTAAGCCGCGTGAAGGTGAAGTAGATGGTGTGGATTATTTCTTTAAAGAAAGAGAAGAATTCGAGGAAATGATTCGTAATGAAAGATTACTTGAGTGGGCTGAGTTCGTAGGTAATTATTACGGAACACCGATTGACTATGTTGAAAAAACATTACAAGAAGGAAAAGATGTATTCTTAGAAATTGAAGTGCAAGGAGCAATTCAAGTTAAGAAAGCTTTCCCAGAAGGTGTATTTATTTTCTTAGCACCTCCAAGTTTATCTGAACTAAAGAGCCGTATTGTCGGCCGTGGTACAGAGACTGAAGATGTTATTGAAAATCGTTTAACTGTAGCGAAAGAAGAAATCGAGATGATGGACGCTTACGACTATGTAGTAGAAAACGATCAAGTTGAATTAGCTTGTGATAGAATTAAAGCAATTGTGGTTGGCGAACATTGCCGCCGCGAAAGGGTAGCAAAATATTATAAAGAAATGACGGAGGGTCTATAA	MRSRRGLLIVLSGPSGVGKGTVRKELFSHEDTRFQYSISVTTRKPREGEVDGVDYFFKEREEFEEMIRNERLLEWAEFVGNYYGTPIDYVEKTLQEGKDVFLEIEVQGAIQVKKAFPEGVFIFLAPPSLSELKSRIVGRGTETEDVIENRLTVAKEEIEMMDAYDYVVENDQVELACDRIKAIVVGEHCRRERVAKYYKEMTEGL	PGPT0021475_3210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
AK009_02721	264	remA	COG2052	Extracellular matrix regulatory protein A	ATGGCCATGCGGTTTTTAAATATTGGATACGGAAATATTGTATCTGCTCATCGAATTATTGCTATTGTAAGTCCGGAGTCAGCTCCTATTAAACGAACAGTACAGGAAGCACGCGAACATAATGCTTTGCTTGATGCTACGTATGGGAGAAAAACAAGGGCGGTTATTGTTATGGATGATGGGCATGTTGTATTAAGTCCAATTCAACCAGAGACGATTGCACATCGTTTGAATAATAAAGAAGATTTAAGTGAGGAAGGGTAG	MAMRFLNIGYGNIVSAHRIIAIVSPESAPIKRTVQEAREHNALLDATYGRKTRAVIVMDDGHVVLSPIQPETIAHRLNNKEDLSEEG				NA	NA	NA	NA	NA
AK009_02722	876			hypothetical protein	ATGATTTCTAGTATGACAGGGTTTGGAAGATCGAAAGTAGAAAGTGATACTTTTCAAATTACAGTAGAAATGAAATCGGTGAACCACCGTTTTTTAGAGATGAGTATTCGACTTCCTAAGCAAATGATGGTATTTGAGGACAAAATTCGTAAAAAAATTGCACAGCAAGTTCGACGTGGACGCATTGAGGTGTCTATTAGTATAGCAGGTGAAGGACTTGTTGAAAGAAAATTAAGTGTGAATTGGTCACTTCTTGAGCAGTACCAATCGATGATGGAAGATATAAAAGGAAAGTTTCAATTACAAGATTCTATTACACTCGAGCAATTAATGGCAATGCCAGAAGTAACAGCAATTGAAGAAATAGAAAATGTAAATGAACATTTTGAGAACAGTTTATATGAGGCTGTTCGTCAAGCTGCTCATATGTTGAAAACGATGAGAGATGGCGAAGGAGAACGATTACATAAAGATATAGCGTATCGTTTACAAGAGATTAGCAATTGTGTAAATGCAATTATTCCACATGCACCAATTGTTACACAAAAATATCGTGAACGATTAGAAAATCGCTTAAAAGAATTACATAATCAAGAGTTAGATGAACAAAGATTGCTAACAGAAGTCGCAATCTTTGCAGAGCGTTGTGATATTCATGAAGAGTTAGTTCGTTTGCAAAGTCATTTAGAGCAATTTCATGAAACATTGCAGATTGAAGAGCCTGTTGGAAGAAAAATGGATTTCATCGTGCAAGAGATGCATAGAGAAATTAATACGATTGGTTCTAAGGCAAATGACTTAACAATTTCAAAATATGTTGTAGAAATGAAAAATAACCTTGAAAAAATTCGTGAACAAGTACAAAATATTGAGTAG	MISSMTGFGRSKVESDTFQITVEMKSVNHRFLEMSIRLPKQMMVFEDKIRKKIAQQVRRGRIEVSISIAGEGLVERKLSVNWSLLEQYQSMMEDIKGKFQLQDSITLEQLMAMPEVTAIEEIENVNEHFENSLYEAVRQAAHMLKTMRDGEGERLHKDIAYRLQEISNCVNAIIPHAPIVTQKYRERLENRLKELHNQELDEQRLLTEVAIFAERCDIHEELVRLQSHLEQFHETLQIEEPVGRKMDFIVQEMHREINTIGSKANDLTISKYVVEMKNNLEKIREQVQNIE				NA	NA	NA	NA	NA
AK009_02723	2724	yloB	COG0474	Calcium-transporting ATPase	ATGAACTGGTATGGAATGCGAGCACATGAAGTGGAGGAAAGAACGAATACGAATGTAAAGGTTGGACTTACGGAGAAAGAAGCAGAAGGGCGAATTAAGAAATTTGGTACAAATGAATTAGAAGAAGCAAAAAGGCCTTCTGCACTAATGGTATTTTTAGCGCAATTTAAAGATTTCATGGTACTCGTTTTGTTTGGAGCAACAATTGTTTCTGCGTTTTTAGGTGAATACATTGATTCTATTGCTATTGTTGCCATTGTTATTATCAATGGTATTCTCGGCTTTTTTCAAGAAAGAAAAGCTGAAAAATCATTGGAAGCTTTAAAGGAACTAGCTGCTCCACAAGTTACTGTAATGCGGAATGGAAAGTGGGTAAAAGCACCATCTAAAGCACTTGTTTTAGGTGATATTATTAAGTTTTCCAGTGGTGATCGTATTGGGGCTGATGTGCGTCTTGTTGAGGCATCAAGTTTATATATTGAAGAGTCTGCTTTGACAGGGGAGTCCGTACCTGTGCAAAAGAAGGTAGAAGCATTGCAAGGGCAAGAGGTTGCAATTGGTGATCAAAAAAATATGGCTTTTATGGGGACAATGATTACGCGAGGATCTGGAACAGGTGTCGTTGTAGCAACTGGTATGAATACAGCGATGGGTCAAATTGCAAATATGTTACAAAATGCAGAGCAAATGGAAACACCACTGCAAAGAAGGTTAGAACAGCTCGGAAAAATATTAATTATTGTAGCTCTTATTTTGACAGCGCTCGTTGTATTGGCTGGTGTGTATCAAGGGAATGAAGTATATCATATGTTTTTAGCTGGCGTATCGCTAGCTGTTGCGGCTATTCCAGAAGGGTTGCCAGCAATTGTTACAGTAGCTTTATCACTTGGTGTACAGCGTATGATAAAAAAGAGAGCAATTGTACGAAAGTTACCAGCCGTAGAAACGTTAGGTTGTGCTTCCGTTATATGTTCTGATAAAACGGGGACAATGACGCAAAACAAAATGATGGTAACACATATGTGGTCAGGCGGAGAATTGTGGAAAGTGACAGGGCAAGGATATGAACCTAATGGCTCTTTTATGAAAGGTGAAATAGAAGTGAATCCAGCTAAGACAAAAGCACTTTATCAGCTACTTACATTTGGTTCACTATGTAACAATGCAAATATTATTCAAAAGAAAAAGGCGTACGTATTAGATGGAGATCCAACAGAGGGAGCGCTTGTAGCTGCAGCAATGAAAGCTGGGATTACACGTGAGGCATTGAAAGGGAAATTTGAAATTATTCGTGAATTTCCATTTGATTCAACTCGAAAAATGATGAGTGTTATTGTACGAGATCGAGAGGGGAAGAAGTTTATTGTTACGAAGGGAGCACCGGACGTTCTTTTGCAAATGAGTCAAACGATTTTATGGGGGGATAAGCAGCAGCCGTTAAGTGAGTTATATAGAAGAGAAGTACAGGCGGCTATTCATAGCTTAGGTAGTCAAGCGCTTCGAACAATTGCAGTTGCGTTTAAACCTTTAAAAGTCACGGATTCTATTGAACATGAAAGAGACGTTGAAAAAGATTTTATGTTGGTTGGGATACAAGGTATGATTGACCCGCCAAGGCCAGAAGTGGCGCAGGCGGTAAAAGAGTGTAAAGAAGCTGGTATTCGAACGGTAATGATTACAGGTGATCATAAAGTGACAGCAATGGCGATTGCTGAACAATTAGGAGTTTTGCCACCAGATGGACGCGTTGTTGAAGGCGTAGAACTCGCGAATATGGATGTGGAGGAATTAGAAAATGTTGTAGAAGATACGTATGTATTCGCTCGTGTATCACCTGAGCATAAATTAAAAATTGTTAAGGCACTGCAAAATCAAGGACATATAGTAGCCATGACAGGCGATGGAGTGAACGATGCTCCAGCTATAAAAACAGCGGATATTGGGATAGCGATGGGAATTACAGGGACAGATGTTGCGAAAGAGGCCTCTTCACTTGTTTTACTAGACGATAATTTTGCTACAATTAAATCAGCAATTAAAGAAGGAAGAAATATATACGAGAACATACGTAAGTTTATTCGCTACTTATTGGCGTCAAACGTTGGAGAAATTTTAGTCATGTTATTTGCGATGTTACTTGCATTACCACTGCCGATGGTTCCTATTCAAATTTTATGGGTGAACTTAGTTACTGATGGTTTACCAGCGATGGCATTAGGTTTGGATAAGGCTGAAGGAGATGTGATGAAGAGAACGCCGCGCCACCCGAAAGAAGGGGTATTCGCTAGAGGGCTTGCATGGAAAATAATAAGTCGAGGGTTTTTAATTGGGGCAGTGACGTTAGTAGCGTTTATTATTGCGTATAACCAACATCCAAATGAACTGAAATATGCACAAACTGTAGCGTTCGCGACGTTGGTACTTGCTCAGCTTATTCATGTATTTGATTGTCGTAGTGAGCATTCTGTCTTTCACCGCAATCCATTTGGGAACGTGTATTTAGTAGGGGCGGTTATCATTTCGTTACTACTCATGCTAGTGGTTATATATTATCCACCGTTACAACCGATCTTTAGCACAATGCCGATACAAGCAAGAGATTGGTTATTAATTGGAGGTTTGTCATCAATTCCGACTTTCTTACTAGTAGGTTCTTTATTAACAGGGAAAAAGGCGAAAAAGAAAAAGCCAATGTTATATAAGAAGGGATTAAACTTGAAATAG	MNWYGMRAHEVEERTNTNVKVGLTEKEAEGRIKKFGTNELEEAKRPSALMVFLAQFKDFMVLVLFGATIVSAFLGEYIDSIAIVAIVIINGILGFFQERKAEKSLEALKELAAPQVTVMRNGKWVKAPSKALVLGDIIKFSSGDRIGADVRLVEASSLYIEESALTGESVPVQKKVEALQGQEVAIGDQKNMAFMGTMITRGSGTGVVVATGMNTAMGQIANMLQNAEQMETPLQRRLEQLGKILIIVALILTALVVLAGVYQGNEVYHMFLAGVSLAVAAIPEGLPAIVTVALSLGVQRMIKKRAIVRKLPAVETLGCASVICSDKTGTMTQNKMMVTHMWSGGELWKVTGQGYEPNGSFMKGEIEVNPAKTKALYQLLTFGSLCNNANIIQKKKAYVLDGDPTEGALVAAAMKAGITREALKGKFEIIREFPFDSTRKMMSVIVRDREGKKFIVTKGAPDVLLQMSQTILWGDKQQPLSELYRREVQAAIHSLGSQALRTIAVAFKPLKVTDSIEHERDVEKDFMLVGIQGMIDPPRPEVAQAVKECKEAGIRTVMITGDHKVTAMAIAEQLGVLPPDGRVVEGVELANMDVEELENVVEDTYVFARVSPEHKLKIVKALQNQGHIVAMTGDGVNDAPAIKTADIGIAMGITGTDVAKEASSLVLLDDNFATIKSAIKEGRNIYENIRKFIRYLLASNVGEILVMLFAMLLALPLPMVPIQILWVNLVTDGLPAMALGLDKAEGDVMKRTPRHPKEGVFARGLAWKIISRGFLIGAVTLVAFIIAYNQHPNELKYAQTVAFATLVLAQLIHVFDCRSEHSVFHRNPFGNVYLVGAVIISLLLMLVVIYYPPLQPIFSTMPIQARDWLLIGGLSSIPTFLLVGSLLTGKKAKKKKPMLYKKGLNLK	PGPT0013990_3356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
AK009_02724	1710	rqcH		Rqc2 RqcH	ATGGCATTCGATGGATTATTTACAAGAGCGATTACACATGAAATTGAAAATTCTCTTTACACGGGAAGGATTTCCAAAATATACCAACCTTCAAAATACGAGATTTTATTACATATTCGAGCGAATGGAAAGAACCAAAAACTAATTCTTTCATCTCATCCTACATATGCGCGTATGCACTTAACGAATCAAAACTACGATTCGCCAGCAATACCGCCGATGTTTTGTATGCTTCTTCGTAAACATTTAGAAGGTGGATTTATTGAAAAAATTGAACAAATCGACTTAGAACGGATTATCCAAATTACAGTTCGCAGTCGTAATGAAATCGGAGACGAATCATTAAAAACATTAGTAATTGAAATAATGGGAAGACATAGCAACATTATCTTATTAGATACGAAAACAAACGTGATTTTAGATAGCTTAAAACACGTTTCATTAGCCGTAAACCGTCACCGAACTGTATATGCTGGTGCTGAGTACGTCGCGCCACCAGCCCAACATAAAATCAATCCTCTGCAAATTGAAACCGCAGATGATTTTATTAGACCGCTAGACTTTCTATCTGGAAATATGGATAAACAACTCGTCGGGGCTTTCATGGGAATATCCCCATTATTTGCAAAAGAAGTAGTAAAGAAAGCCGGTATGGTAAACGAGAAAGCATTATCAGAAGCATTTTTCTCTATACAAACACCATTACTATCTCATGCATATACACCAGCAATGATTACTGCAAATGGAAAAGAATTCTTTTATCTTTTCCCTCTTACACACTTGCAAGGAGAAGAAAAAACATTCTCATCAGTGAGCGAATTGTTAGATCGTTTCTTCTTTGGCAAAGCAGAACGTGATCGTGTAAAACAACAAGCTCATGATTTAGAACGCTTTATGCAAAACGAAAAAAATAAAAACGAGAAAAAACTCATTAAACTCGAAAAAACACTGCAAGATGCCGGAAAGGCAGATAAATATCAACTATTTGGAGAACTACTTACAGCCAATATGTACGCTTTGAAAAAAGGGGATAAAGATATTGAAGTCGTTAACTATTACGACGAAAATAGCGGAACTGTAAAAATTACATTAGATCCTTTAAAAACACCATCTGACAATGCGCAACGCTATTTCCAAAAGTACCAAAAAGCGAAAAATTCAGTTGTTATTGTAGAAGAACAAATCGAAAAAACAAATGAAGAAATTCTTTATTTTGATAGCTTACTTCAACAAATGGAAGCTGCTTCTTCAAAAGATATTGAAGAAATTCGTGAAGAATTAGCTGAAGAAGGTTATGTGCGCAATCGCAAAAAGAAAAACACAAAGAAAAAACCTACTAAACCAGTATTAGATAAATATTTAGCAAGTGATGGTACAGAGATTTTCGTTGGTAAAAACAATAAACAAAATGATTATTTAACAACGAAGTTTGCCCGCCGTGATGAAATTTGGTTACATACGAAAGACATACCTGGCTCTCACGTTGTCATTCGTTCTTTAGAGCCTGCTGAAGAAACTTTACTAGAAGCTGCCAAAATTGCTGCGTATTACAGTAAAGCGAAAGAGTCTAGCTCTGTACCTGTTGATTTCACCAAAATACGCCATGTCAAAAAACCGAGTGGTGCAAAACTTGGTTTTGTTACGTACGACAATCAGCAAACCGTATATGTAACACCAGATGCTGATATTGTAATGAAATTAAAAGCGTAA	MAFDGLFTRAITHEIENSLYTGRISKIYQPSKYEILLHIRANGKNQKLILSSHPTYARMHLTNQNYDSPAIPPMFCMLLRKHLEGGFIEKIEQIDLERIIQITVRSRNEIGDESLKTLVIEIMGRHSNIILLDTKTNVILDSLKHVSLAVNRHRTVYAGAEYVAPPAQHKINPLQIETADDFIRPLDFLSGNMDKQLVGAFMGISPLFAKEVVKKAGMVNEKALSEAFFSIQTPLLSHAYTPAMITANGKEFFYLFPLTHLQGEEKTFSSVSELLDRFFFGKAERDRVKQQAHDLERFMQNEKNKNEKKLIKLEKTLQDAGKADKYQLFGELLTANMYALKKGDKDIEVVNYYDENSGTVKITLDPLKTPSDNAQRYFQKYQKAKNSVVIVEEQIEKTNEEILYFDSLLQQMEAASSKDIEEIREELAEEGYVRNRKKKNTKKKPTKPVLDKYLASDGTEIFVGKNNKQNDYLTTKFARRDEIWLHTKDIPGSHVVIRSLEPAEETLLEAAKIAAYYSKAKESSSVPVDFTKIRHVKKPSGAKLGFVTYDNQQTVYVTPDADIVMKLKA				NA	NA	NA	NA	NA
AK009_02725	1071	ypdF_1	COG0006	Aminopeptidase YpdF	ATGACTTTAAAAATTAATAAAATCCAAAATCAACTACAAAACTATGAAATTGACGGGTTACTCATTACCAAAAAAGAAAATCGCCAATATGCAACAGGCTTTACAGGTAGTGCTGGCGTCGTCTTAATCTCTGCGGATAAAGCTGTTTTTATAACTGATTTTCGCTATGTAGATCAAGCGAAATCACAAATAAAAGATGCTGAAATTATTATGCATACAGGAAATTTAGAAAAAGAAATTGCAAATCAAGTATCAAAATTAAACATTCAAAAACTCGGAATTGAAGAGAACAACATGACATTGCAACAATATAAAAACTTACAAAAATGCGTACATGTGGAAATGGTTCAAGTGTGCGAAATCATCGAAAATATTCGTATTATTAAAGACATGCCGGAAATAGAAACAATGAAAATCGCAGCTAATATTGCTGACGAAGCATTTCACCACATCATTACGTTTCTAAAACCAGGAATAAGTGAAAATGATGTACGAGATGAGTTGGAATTTTTCATGCGAAAAAAAGGGGCTACATCCTCTTCATTCCAAATCATTGTAGCTTCTGGCGTTCGTTCTTCACTTCCTCATGGAGTTGCATCAAATAAAATAATCGAGCGAGGCGACATCGTTACATTAGATTTCGGTGCACTTTACGATGGATATTGTTCCGATATAACTCGTACTGTAGCAATCGGAGAATCATCAGAAGAATTCAAAAAGATATACAATGTTGTACGAGAAGCGTTAAAACGTGGAACTAAAGCAATTAAGCCTGGAGAAACTGCGAAAAGTATCGATGATATAACGAGAGATTACATTACAGAACATGGATACGGTCAATACTTTGGACACTCTACTGGTCATGGTCTTGGGTTAGAAATACATGAACCTCTTCGCCTATCCCAAGAAAGTCAGGCTACTTTAGAAGAAGGTATGGTTGTTACAGTTGAACCTGGTATTTACATACCAAACTGGGGCGGTTGTAGAATTGAAGATGATATTGTCATCACAAAAGACGGATATGAAGTTATTACAAAATCAAATCGGGAACTAATTGTGATTCCTTGTTAA	MTLKINKIQNQLQNYEIDGLLITKKENRQYATGFTGSAGVVLISADKAVFITDFRYVDQAKSQIKDAEIIMHTGNLEKEIANQVSKLNIQKLGIEENNMTLQQYKNLQKCVHVEMVQVCEIIENIRIIKDMPEIETMKIAANIADEAFHHIITFLKPGISENDVRDELEFFMRKKGATSSSFQIIVASGVRSSLPHGVASNKIIERGDIVTLDFGALYDGYCSDITRTVAIGESSEEFKKIYNVVREALKRGTKAIKPGETAKSIDDITRDYITEHGYGQYFGHSTGHGLGLEIHEPLRLSQESQATLEEGMVVTVEPGIYIPNWGGCRIEDDIVITKDGYEVITKSNRELIVIPC	PGPT0006760_3049	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
AK009_02726	525			hypothetical protein	TTGAATTTTGTAATTGATAAATTGGAGGGTTTACATGTAGAATTTTCAAAGCTTGTTTCCATGATGAATTACGCTCGCTATACAACAATGCAAGCAGTGGAAAGTTTAACAATTGAAGAACTTGATTATTTATATGATAAGGAAGCAAATTCAATTGGCATGTTATTGTATCATATGGCTGCTATTGAATTTTACTACCAGATTCATACTTTTGAAGACCGTGAACCAACGGAGGCTGAATTAGAACGCTGGTTACCTGGCATTGAATTAGGCGATCTTGGACGTGAGAAAATAAAAGGAAACGCTATAGAATTTTACATAAATACATTACAAGAAGTACGTTCCAAAACAATCGAGACTTTTCAATCGTTACCTGATGAATGGTTATTTAAAACGACAGACTTTTGGTATGACAAACCAGCAAATAACTATTTTAAGTGGTTTCACGTTTTTGAAGATGAAATCAATCATCGTGGACAAATTCGTTTAATTAAAAAGATGCAAAAAGCTCATGCAGTAAAATGA	MNFVIDKLEGLHVEFSKLVSMMNYARYTTMQAVESLTIEELDYLYDKEANSIGMLLYHMAAIEFYYQIHTFEDREPTEAELERWLPGIELGDLGREKIKGNAIEFYINTLQEVRSKTIETFQSLPDEWLFKTTDFWYDKPANNYFKWFHVFEDEINHRGQIRLIKKMQKAHAVK				NA	NA	NA	NA	NA
AK009_02727	369			hypothetical protein	ATGAGAGAAAAAATAGGATATTATGGTGTGCTCGTTTGTTTACTATTATCAGTTATTTCAGGGCAATTTTTAAAAAGTGAATGGGTACCAGTTATATTATGTATAGGAGTATTGATTTTTGCACCTATGTATCGCTGGAATAAATGGAAAGCATATAGTCGAAAAAAGAAAATGGTTTTCAGCATCGAATTTGTCATTATAATCAGCACAATTCCGTTTTTGTTATGGAAAGGAAATGAGATAATAGATGGAATTGTAATGTTTCAAGGGTGGTTGTTTATTTCGAAAATGCTATATTTAATATGCATTTTAATGTTGGTAGTGGTAGTCACTAAAATAATAAACGAAAAGCTATTCGTTAATGAATAA	MREKIGYYGVLVCLLLSVISGQFLKSEWVPVILCIGVLIFAPMYRWNKWKAYSRKKKMVFSIEFVIIISTIPFLLWKGNEIIDGIVMFQGWLFISKMLYLICILMLVVVVTKIINEKLFVNE				NA	NA	NA	NA	NA
AK009_02728	270			hypothetical protein	ATGTGCAAAAAAATTGGTTTTTGGGGATTTATTATTTCTTGTAGTCCATTAATCATTTTAAATCTATTTACAAACAATGAATGGATAAGTATCACCCCTCTTTTTGGGTTTGTTTTTATACTGTTATACCGATGGGATGACATGAAACAACATAGTAAGAAAAGCATTGGAATTATGATAGGTATCATTGTTGTTTGCTCATTTTTCATAGGGTTTATTTTAATAGAAGGACAGAAACAGATGGAGAAAATGTCTATTTTTCAAGAATAG	MCKKIGFWGFIISCSPLIILNLFTNNEWISITPLFGFVFILLYRWDDMKQHSKKSIGIMIGIIVVCSFFIGFILIEGQKQMEKMSIFQE				NA	NA	NA	NA	NA
AK009_02729	1386			hypothetical protein	ATGGGAGTTGAATTAACGCTATTACACGCTCTCTATGTTATTTGCTTACTCACTATTATTACCTTTTTTATTCTCCGGAAAGATACGACGATTATTTGTATCGTTTTTATCTTTTTATTAGCATTAACTGCTACAAGTTCTATCCCTCTTGCCGTTAGCGGTATTTTTCAAAGTTTCATTTACGCTATTACTGAGCTATTACCAACTATATTAATTATCTCTATTATCGTATCAATGAGCAATCTACTCGTTCATACTGGCATAAATGATACGATGATTTCACCATTTACAAAGATGATTCGTACCCCTGCACTTGCCTACTGGATCATCGGCCTTTTAATGATGACAATTTCTTTCTTTTTTTGGCCTTCTCCAGCTGTCGCCTTAATGGGAGCTATTTTATTCCCCGTCGCTGTACGCGTCGGTCTTCCTCCAATTGGGGTTGCCATTGCTATGAACTTATTCGGACACGGCATCGCCTTATCTGGCGACTTCGTTATTCAAGGTGCACCGAAATTAACTGCAGACGCGGCTGGTCTTCCTGTTTCCAGCGTCGTTTCTGCCAGTGTTCCCCTCGTTATCGTGATGGGCGTTGTTACAACTTCTGTCGCTTTTTTCTTCTTACGAAAAGAATTTGATACAGGATTATCGTTGCAAGACTCCCCTGCATCAACGGAACCATCTAAAACTACTATTTTATTATCTCCTCGCATAAAGAAATGGCTCGCTATATGTATCCCTATTGTATATATCATCGATATCCTTTGCATGATTCAATTTAAACTACAAGGAAGCGATGCAACAGCACTTATCGGCGGAACGACTGTTATTATGATTATCATCATTTCCCTCATCGCCTACAAAGGTAATGGACTAAATAAAACAACCGATTATTTTATAGAAGGGCTCCAATTTGGATTTAAAATCTTTGGTCCAGTTATTCCAATTGCTGCACTCTTTTATTTAGGAGATAGCGGTTTTGTGAAAATTATCGGAGACTATTTACCGAAAGGTTCACATGGAATCATTAACGACTTAGGGATTGCCTTATCTCAAACTGTTCCTTTAAATCAATACGTATCGGCGGGAACATTAACTATCGTTGGTGTCATAACAGGATTAGATGGATCTGGCTTTTCTGGTATATCACTTGCTGGTTCAATTGCCAATCTTTTCGGAACAGCACTTGGGCATGGAACAGCTACATTAACAGCACTCGGGCAAATTGCTGCCATATGGACCGGAGGCGGGACTTTAATTCCTTGGGCGCTTATTCCTGCCGCTGCCATTTGTAAAGTGGATCCATTTGAACTCGCACGCCGAAACTTTTTACCAGTTGTGATTGGCTTAATTGTCACCACGATCGTTGCGATGTTTATTCTATAG	MGVELTLLHALYVICLLTIITFFILRKDTTIICIVFIFLLALTATSSIPLAVSGIFQSFIYAITELLPTILIISIIVSMSNLLVHTGINDTMISPFTKMIRTPALAYWIIGLLMMTISFFFWPSPAVALMGAILFPVAVRVGLPPIGVAIAMNLFGHGIALSGDFVIQGAPKLTADAAGLPVSSVVSASVPLVIVMGVVTTSVAFFFLRKEFDTGLSLQDSPASTEPSKTTILLSPRIKKWLAICIPIVYIIDILCMIQFKLQGSDATALIGGTTVIMIIIISLIAYKGNGLNKTTDYFIEGLQFGFKIFGPVIPIAALFYLGDSGFVKIIGDYLPKGSHGIINDLGIALSQTVPLNQYVSAGTLTIVGVITGLDGSGFSGISLAGSIANLFGTALGHGTATLTALGQIAAIWTGGGTLIPWALIPAAAICKVDPFELARRNFLPVVIGLIVTTIVAMFIL				NA	NA	NA	NA	NA
AK009_02730	255			hypothetical protein	ATGAATGAATTGATTTTCGTCTTATTAATTTGTCCATTACTTATCTTTATCGTTTCTGTTATTGGAACACGCAAGACGAAAACGTATTACGTAATGCCGATTGTAACGTTTGCTAGTTTTTTAATAATAGGTGTTATCGCCTTCACTCCAAAATTCTTCTTTTGGGTTGGCATGTACAGCATCTTCTCATTTATTGTTTCTTATATGACTCTATTGTTTGTAAGAGGATATGAGCTTGCAGAAAGCGCTAAGTAG	MNELIFVLLICPLLIFIVSVIGTRKTKTYYVMPIVTFASFLIIGVIAFTPKFFFWVGMYSIFSFIVSYMTLLFVRGYELAESAK				NA	NA	NA	NA	NA
AK009_02731	633	pyrE	COG0461	Orotate phosphoribosyltransferase	ATGAAAAAAGAAATCGCATCGCATTTATTAGAAATTGGAGCAGTATTTTTACAACCGAATGATCCATTCACTTGGTCTTCAGGTATGAAATCACCAATTTATTGTGATAACCGTTTAACTTTATCTTATCCAAAAGTACGTCAAGCGATTGCAGCTGGATTAGAAGAGTTAATTAAAGAGCACTTCCCAACTGTAGAAGTTATTGCAGGAACAGCAACTGCTGGTATTGCGCACGCTGCATGGGTAAGCGGTCGTATGGATTTACCAATGTGCTACGTACGTAGTAAAGCAAAAGGTCACGGTAAAGGGAACCAAATTGAAGGAAAAGCTGAAAAAGGTCAAAAAGTAGTAGTAGTAGAAGACTTAATTTCAACTGGTGGTAGTGCAATTACGTGTGTAGAAGCACTTCGCGAAGCTGGCTGTGAAGTATTAGGAATCGTATCAATCTTCACATACGAGCTAGAGTCAGGAAAAGAAAAATTAGAAGCAGCTAACGTAGCATCATATTCTTTAAGTGATTACAGTGCATTAACTGAAGTTGCAGCAGAAAAAGGTATGATCGGACAAGCTGAAACGAAAAAATTACAAGAGTGGCGTAAAAATCCAGCTGACGAAGCTTGGATCACAGCGTAA	MKKEIASHLLEIGAVFLQPNDPFTWSSGMKSPIYCDNRLTLSYPKVRQAIAAGLEELIKEHFPTVEVIAGTATAGIAHAAWVSGRMDLPMCYVRSKAKGHGKGNQIEGKAEKGQKVVVVEDLISTGGSAITCVEALREAGCEVLGIVSIFTYELESGKEKLEAANVASYSLSDYSALTEVAAEKGMIGQAETKKLQEWRKNPADEAWITA	PGPT0021200_2641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
AK009_02732	717	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGTCACAGTCGTTAATCGTTGCACTAGATTTTCCAGGGAAACAAGAAGTAGAACAATTCTTACACCACTTTGAAGGGGAAGAGTTATTTGTCAAAGTAGGTATGGAGTTATTTTACAAAGAAGGCCCTGCAATTATTACGTACTTAAAAGAAAAAGGACATAAGATTTTCCTAGATTTAAAACTTCATGATATTCCGAATACAGTAAAAAGCGCTATGCGTAGCCTAGCTAGTCTAGATGTTGATATGGTAAATGTTCATGCTGCTGGGGGAAGTAGCATGATGAAAGCTGCGATTGAGGGATTAGAGGAAGGTAAGCAAGAAGGAAAAGAGAGACCGATTTGTATTGCAGTTACACAACTAACAAGCACTTCGGAAGCTATGATGAAAAAAGAGATTGGCATTGAGAAAACGTTAGAAGAAGCGGTTGCTCATTATGCAAAATTAACGAAAGACAGTGGACTTGATGGCGTTGTTTGTTCAACACTTGAAGTTCCAAAATTACGTGAAGTATGCGGAAATGAATTTGTAACAGTAACACCGGGGATTCGTCTTGCAAGTGATGATGTTAATGACCAAGTGCGCGTAGCAACACCGAAACGTGCGAGGGAACTTGGCTCAAGCTACATCGTAGTTGGACGCAGTATTACGAAAGCAGAAAATCCGCTTGAAGCGTATAAAACAGTAAAACAACAGTGGGAAGGTGTAACAGTATGA	MSQSLIVALDFPGKQEVEQFLHHFEGEELFVKVGMELFYKEGPAIITYLKEKGHKIFLDLKLHDIPNTVKSAMRSLASLDVDMVNVHAAGGSSMMKAAIEGLEEGKQEGKERPICIAVTQLTSTSEAMMKKEIGIEKTLEEAVAHYAKLTKDSGLDGVVCSTLEVPKLREVCGNEFVTVTPGIRLASDDVNDQVRVATPKRARELGSSYIVVGRSITKAENPLEAYKTVKQQWEGVTV	PGPT0014965_2934	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
AK009_02733	930	pyrD_1	COG0167	Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit	ATGAACAGATTGCAAGTTGAATTACCAGGATTATCATTAAAAAATCCAATTATACCGGCATCTGGATGCTTTGGATTTGGTCGTGAATATGCACAGTTTTACGATTTAAGTGTACTAGGATCAATCATGATTAAAGCGACGACAGAACAACCACGTTATGGAAATCCAACGCCTCGTGTTGCTGAAACACCAGGCGGCATGTTAAATGCAATCGGACTTCAAAACCCGGGATTAGACAAAGTAATGAATTCGGAATTACCATGGTTAGAACAATTTGACCTTCCAATTATTGCGAACGTTGCAGGCTCACAGGCTGAGGATTACGTAGCGGTTGCGAAGGAAATTTCTAAAGCGCCTAATGTCCATGCACTAGAATTAAATATTTCTTGTCCAAACGTAAAAACAGGTGGTATCGCCTTTGGTACAAATCCTGAAATTGCTGCTGATTTAACGAAGCGAGTAAAAGAGGTTTCTGAAGTACCTGTATACGTGAAATTGTCACCGAACGTGGCAAACATAGTGGAAATTGCAAAAGCGATTGAAAATGCAGGTGCAGATGGTTTAACGATGATTAATACATTGCTTGGTATGCGTCTAGATTTAAAAACAGCTAAACCAATTTTAGCAAACCGTACAGGCGGATTATCAGGTCCTGCGATTAAGCCAGTAGCAATTCGCATGGTACATGAAGTAAGCCAAGCGGTTAACATTCCAATTATCGGAATGGGCGGTATTGAAACAGCGGAAGATGTAATTGAATTCTTCTACGCTGGCGCAAGCGCAGTTGCAGTAGGTACAGCGAACTTTATCGATCCGTTCGTATGTCCGACAATTATTGAAGAGTTACCAGCATTACTAGATGAATTAGGATTTGATCATATTTCGGAATGTCAAGGAAGGAGCTGGAAGCAAACATGTCACAGTCGTTAA	MNRLQVELPGLSLKNPIIPASGCFGFGREYAQFYDLSVLGSIMIKATTEQPRYGNPTPRVAETPGGMLNAIGLQNPGLDKVMNSELPWLEQFDLPIIANVAGSQAEDYVAVAKEISKAPNVHALELNISCPNVKTGGIAFGTNPEIAADLTKRVKEVSEVPVYVKLSPNVANIVEIAKAIENAGADGLTMINTLLGMRLDLKTAKPILANRTGGLSGPAIKPVAIRMVHEVSQAVNIPIIGMGGIETAEDVIEFFYAGASAVAVGTANFIDPFVCPTIIEELPALLDELGFDHISECQGRSWKQTCHSR	PGPT0021175_659	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828	NA	NA
AK009_02734	780	pyrK	COG0543	Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit	ATGATGCAAAAGCAAAATATGATTGTCGTTAACCAAAAAGAAATCGCAAAAAACATTTACGAATTAGTGCTTCAAGGAACGTTAGTACAGCAAATGAACGAACCAGGGCAGTTTGTACACATTAAGGTAGCAGAGGGCATTGCGCCCCTTCTGCGCCGCCCAATTAGTATTTGTAATGTAGATCAAGAGAAGAACGAATTTACAATGCTATATCGTGCCGAAGGACAAGGGACAAAAACATTAGCAACTAGAAAACAAGGTGAAATGATAGATGTACTAGGACCATTAGGACACGGTTTTCCTGTAGAAGAAGCAGAAGCTGGTCAAACAGCTTTACTAGTAGGCGGGGGAATTGGTGTACCACCACTTTATGAATTATCACAGCGCCTCGTTGCAAAGGGTGTACGTGTGATTCACATCTTAGGTTTTCAAACGAAAGATGTTGTTTTCTATGAAGAAAAATTTGCAGAACTTGGTGATACGTACGTTGCGACAGTAGACGGTACACACGGTACAAAAGGATTTGTCACAGATGTAATTGATAATTACGGAATCGAATTTGACATTCTTTATTCATGTGGCCCGTTAGCGATGCTTCGTGCATTAGAAGGACGTTACAAAGAGAAAAAAGCATATATTTCATTAGAAGAGCGTATGGGCTGTGGTATTGGAGCTTGTTTCGCATGTGTATGCCACTTACAAGAAGATCCAAGTGGACATTCTTACAAGAAGGTGTGTAGCGACGGACCAGTATTTCCAATCGGGGAGGTTGTACTATGA	MMQKQNMIVVNQKEIAKNIYELVLQGTLVQQMNEPGQFVHIKVAEGIAPLLRRPISICNVDQEKNEFTMLYRAEGQGTKTLATRKQGEMIDVLGPLGHGFPVEEAEAGQTALLVGGGIGVPPLYELSQRLVAKGVRVIHILGFQTKDVVFYEEKFAELGDTYVATVDGTHGTKGFVTDVIDNYGIEFDILYSCGPLAMLRALEGRYKEKKAYISLEERMGCGIGACFACVCHLQEDPSGHSYKKVCSDGPVFPIGEVVL	PGPT0021180_706	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823	NA	NA
AK009_02735	3219	carB		Carbamoyl-phosphate synthase large chain	ATGCCAAAACGCCTAGACATTAACACAATTTTAGTAATCGGATCAGGACCAATTGTAATTGGGCAAGCAGCAGAGTTTGACTACTCTGGTACACAAGCTTGTCAATCTCTTAGAGAAGAAGGTTACAAAGTAATCCTTGTTAACTCTAACCCAGCAACAATTATGACAGATACTGCAACAGCAGATAAAGTATATATAGAACCATTAACACTAGAATTCGTAAGCCGTATCATTCGTAAAGAACGTCCAGATGCAATCTTACCAACATTAGGTGGTCAAACAGGTTTAAACATGGCTGTTGAACTTGCGAAATCAGGCATACTTGAAGAGTGTGGAGTTGAAATTTTAGGAACGAAATTATCAGCAATTGAGCAAGCGGAGGATCGTGATTTATTCCGTACATTAATGCAGGAATTAAATGAACCAATTCCATCTAGTACCATCATTCATACGCTAGGAGAAGCACATGAATTTGTAAAAGAAATTGGATATCCAGTTATTGTTCGCCCAGCATTTACAATGGGGGGAACAGGTGGCGGAATCTGTAGTAATGAAGAAGAACTAATTGAAATCGTATCAGGTGGATTAAAACATAGTCCAGTAACACAATGTTTATTAGAAAAGAGCATTGCTGGTTGTAAGGAAATTGAATATGAAGTAATGCGTGATTCAAATGATAACGCGATTGTAGTATGTAATATGGAAAATATCGATCCAGTTGGAGTTCACACAGGTGATTCTATCGTAGTAGCACCGAGCCAAACATTAAGTGACCGTGAATATCAAATGTTACGAAACACTTCATTACGAATTATTCGTGCATTAGGAATTGAAGGTGGATGTAACGTTCAGCTTGCACTTGATCCACATAGCTTCCAATACTATGTAATCGAAGTAAACCCGCGTGTAAGTCGTTCATCTGCACTAGCATCTAAAGCAACTGGATATCCAATTGCGAAGCTAGCGGCAAAAATTGCAGTCGGTCTAACATTAGATGAAATTATAAATCCAGTAACACAAAAAACATACGCTTGCTTCGAGCCAGCATTAGACTATGTCGTTTCAAAAATTCCGCGCTGGCCATTTGATAAGTTTGAATCAGCAAACAGAACACTGGGTACACAAATGAAGGCAACTGGTGAAGTTATGTCAATCGGACGTAACTTAGAGCAATCATTATTAAAAGCGGTTCGTTCTTTAGAACTTGGCGTTTATCACTTAGAGTTAGAGCATTTAAAAGAACTTGATAAAGAAACAATGAAAAAACGCATTATAAAAGCTGATGATGAGCGACTGTTTATTGTAGCAGAAGCAATTCGTCAAGGTGTAACGAAAGAAGAAATCAACGAATGGTGTGAAATGGACTTCTTCTTCTTACAAAAAGTTGAAAACATCGTAAATATGGAACGTGAAGTAAAAGCGAATGTAGGAAATATGGAAGTACTACAAACTGCGAAAGAAATGGGCTTCAGCGATCACTACGTTGCAGCAGCTTGGAATAAAACAGAGCGTGAAATTTACGATATGCGTAAAGAAAGCAATATAACTCCTGTTTATAAAATGGTAGATACTTGTGCGGCAGAGTTTGAATCTGCAACACCATACTACTACAGCACATATGGTGACGAGAATGAATCGGTTAGAACAGATCGTAAGAGTGTAGTAGTTCTAGGATCTGGTCCAATCCGTATCGGTCAAGGTGTTGAGTTTGACTACGCAACTGTTCACTCTGTATGGGCAATTAAAGAAGCTGGATATGAGGCAATCATTGTTAATAACAATCCAGAAACAGTTTCAACAGACTTCAGTATTTCTGACAAATTATACTTTGAACCATTAACAATTGAAGATGTAATGCACATTATCGATTTAGAAAAGCCAGAAGGTGTTATCGTTCAGTTCGGTGGACAAACGGCAATTAACTTAGCGGCGAAATTAGAAGAACACGGTGTGAAAATTTTAGGAACATCACTTGAAGATTTAGACCGCGCAGAAGATCGTGATAAGTTTGAAGCAGCTCTAACACAGCTTGGTATCCCGCAACCAGTTGGTAAAACAGCAACAACTGTAGAACAAGCGGTAGCAATCGCTGAAGAAATTGGTTATCCAGTATTAGTAAGACCGTCTTACGTACTAGGTGGACGTGCGATGGAAATCGTATATCGTCAAGAAGAATTACTGCACTACATGAAAAATGCAGTTAAAGTTCATGCAGAGCATCCGGTATTAATTGACCGTTACATGGTTGGTAAAGAAATTGAAGTAGATGCAATTTCAGACGGTGAGAATGTATTCATTCCAGGTATTATGGAACATATTGAACGTGCTGGAGTTCACTCTGGTGACTCAATTGGAGTATACCCACCACAAAGCTTATCTGAAAAACTAAAAGAACAAATCATTGAACATACAATTGCACTTGGAAAAGGTTTAAACATTGTTGGATTACTAAATATCCAGTTCGTAGTATTCAAAGATCAAGTGTACGTAATTGAAGTAAACCCACGTGCGAGTCGTACAGTACCGTTCTTAAGTAAAATTACGGGCGTACCGATGGCGAATGTTGCAACGAAAGTTATTTTAGGTCAAGACTTAGTAGAGCAAGGATACGGAACTGGTTATCACCCAGAAGAGAAAGAAGTATATGTAAAAGCGCCGGTATTCTCGTTTGCGAAACTACGCTCAGTTGATACAACATTAGGACCTGAAATGAAGTCAACAGGGGAAGTAATGGGTAAAGACTTAACGCTTGAAAAAGCATTATACAAAGGATTAGTTGCTTCTGGAATTAACATCCCAACGCACGGATCAGTAATCATCACAGTAGCGGATAAAGATAAAGAAGAGGCAATGGAAATTGCAAAACGTTTCCACGAAATCGGTTATAACTTATTAGCAACAGCTGGAACAGCACAATCGTTAGCAGAGCAAAATATTCCAGTGCAAGTGGTAAACAAAATTGATTCTGAAGACTATAACTTACTTGATATTATCCGTCAAGGAAAAGCACAGTTTGTAATCAATACATTAACAAAAGGCAAACAACCAGCGCGTGATGGTTTCCGCATTCGCCGTGAATCAGTAGAAAATGGTGTGGCTTGCTTAACATCACTTGATACAACGAGAGCAATCTTACGAGTATTGGAATCTATGACATTCTCAGCTCATTCAATGAAAGAAATTACGCAAACAAAGCGTCACGAGGTGGTACATGCATGA	MPKRLDINTILVIGSGPIVIGQAAEFDYSGTQACQSLREEGYKVILVNSNPATIMTDTATADKVYIEPLTLEFVSRIIRKERPDAILPTLGGQTGLNMAVELAKSGILEECGVEILGTKLSAIEQAEDRDLFRTLMQELNEPIPSSTIIHTLGEAHEFVKEIGYPVIVRPAFTMGGTGGGICSNEEELIEIVSGGLKHSPVTQCLLEKSIAGCKEIEYEVMRDSNDNAIVVCNMENIDPVGVHTGDSIVVAPSQTLSDREYQMLRNTSLRIIRALGIEGGCNVQLALDPHSFQYYVIEVNPRVSRSSALASKATGYPIAKLAAKIAVGLTLDEIINPVTQKTYACFEPALDYVVSKIPRWPFDKFESANRTLGTQMKATGEVMSIGRNLEQSLLKAVRSLELGVYHLELEHLKELDKETMKKRIIKADDERLFIVAEAIRQGVTKEEINEWCEMDFFFLQKVENIVNMEREVKANVGNMEVLQTAKEMGFSDHYVAAAWNKTEREIYDMRKESNITPVYKMVDTCAAEFESATPYYYSTYGDENESVRTDRKSVVVLGSGPIRIGQGVEFDYATVHSVWAIKEAGYEAIIVNNNPETVSTDFSISDKLYFEPLTIEDVMHIIDLEKPEGVIVQFGGQTAINLAAKLEEHGVKILGTSLEDLDRAEDRDKFEAALTQLGIPQPVGKTATTVEQAVAIAEEIGYPVLVRPSYVLGGRAMEIVYRQEELLHYMKNAVKVHAEHPVLIDRYMVGKEIEVDAISDGENVFIPGIMEHIERAGVHSGDSIGVYPPQSLSEKLKEQIIEHTIALGKGLNIVGLLNIQFVVFKDQVYVIEVNPRASRTVPFLSKITGVPMANVATKVILGQDLVEQGYGTGYHPEEKEVYVKAPVFSFAKLRSVDTTLGPEMKSTGEVMGKDLTLEKALYKGLVASGINIPTHGSVIITVADKDKEEAMEIAKRFHEIGYNLLATAGTAQSLAEQNIPVQVVNKIDSEDYNLLDIIRQGKAQFVINTLTKGKQPARDGFRIRRESVENGVACLTSLDTTRAILRVLESMTFSAHSMKEITQTKRHEVVHA	PGPT0021150_3813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
AK009_02736	1098	carA		Carbamoyl-phosphate synthase small chain	ATGAAAAGACAACTTATCTTAGAAGATGGAACAGTATTAATTGGAAAAGGTTTCGGAGGCGAAATTGAAAAGTCAGGTGAGGTTGTATTTACAACAGGAATGACTGGATATCAAGAAACATTATCTGATCCATCATATTGCGGTCAAATCGTAACATTCACGTACCCATTAATCGGAAACTACGGCATTAACCGTGACGATTTTGAATCGATTCACCCATCTGTAAATGGCTTAATCGTAAACGAAATTTGTGATCACCCATCAAACTTCCGTAATGAAATTTCGTTAAATGATTACTTAAAAGAAAGAAATATCCCAGGGTTAGCAGGAATTGATACAAGAAAATTAACGAGAAAAATTCGTCAATACGGTACATTACGTGGACGTCTATGTAACATGGATGCAGATGTAGAATACATCGTGAGCCAATTAAAAGCGACAGTATTTACAGATCACGTGAAACGCGTATCAACGAAAGATCCATACCCAAGCCCAGGCCGTGGACACCGAGTTGTACTTGTAGACTTCGGAATGAAACATGGTATTTTACGAGAATTAAACAAACGTGACTGTGATGTAATTGTAGTACCTTACAATACAACAGCAGAAGAAATTTTACGCCTTAGCCCAGATGGAATTATGTTAAGTAACGGACCTGGAGATCCGAAAGATGTACCAGAAGCAATTGAAATGTTAAAAGACATTATCGGTAAAGTTCCTTTATTCGGAATTTGCTTAGGACATCAACTATTCGCTCTAGCATCTGGTGCGAATACAAGTAAGTTAAAATTCGGTCACCGTGGTTTAAACCATCCAGTAAAACATCTTGCAACTGGAAAAGTAGCAATTACATCTCAAAATCATGGTTACGCAGTAGAAGAAGAATCAGTTAAAAATACAGAACTTGAAATTACACATGTCGCTTTAAATGATGGAACAGTAGAAGGTCTTCGTCATACGAAGTTCCCAGCATTTACAGTGCAATACCATCCAGAAGCTTCAGCAGGACCAGAAGATGCAAATGATTTATTCGAAGATTTCTTAGAAATGATTGAAAACTTCAAGAAAGAAGGGGAAGAGTTATGCCAAAACGCCTAG	MKRQLILEDGTVLIGKGFGGEIEKSGEVVFTTGMTGYQETLSDPSYCGQIVTFTYPLIGNYGINRDDFESIHPSVNGLIVNEICDHPSNFRNEISLNDYLKERNIPGLAGIDTRKLTRKIRQYGTLRGRLCNMDADVEYIVSQLKATVFTDHVKRVSTKDPYPSPGRGHRVVLVDFGMKHGILRELNKRDCDVIVVPYNTTAEEILRLSPDGIMLSNGPGDPKDVPEAIEMLKDIIGKVPLFGICLGHQLFALASGANTSKLKFGHRGLNHPVKHLATGKVAITSQNHGYAVEEESVKNTELEITHVALNDGTVEGLRHTKFPAFTVQYHPEASAGPEDANDLFEDFLEMIENFKKEGEELCQNA	PGPT0021155_4108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
AK009_02737	1287	pyrC	COG0044	Dihydroorotase	ATGAATTACTTGTTTAAAAATGGTCGTTATATGAATGAAGAAGGAAAAATCGTAGCAACAGATCTTCTCGTACAAGACGGTAAAATCGCTAAGGTAGCAGAAAATATTACGGCAGATAATGCTGAAGTAATCGAAGTGAACGGAAATTTAATCGCACCTGGATTAGTAGATGTACACGTACATCTTCGTGAACCAGGTGGTGAACATAAAGAAACAATTGAAACAGGTACACTAGCAGCGGCAAAAGGTGGATTCACTACAATTTGCTCAATGCCAAATACACGCCCAGTACCAGATTGCAGAGAACATATGGAAGACCTGCAAAAACGTATTAAAGAAAAAGCGCATGTCAACGTACTACCATACGGAGCAATTACAGTACGTCAAGCTGGTTCTGAAATGACAGATTTCGAAACATTAAAAGAACTTGGAGCATTTGCTTTCACAGATGACGGCGTAGGCGTACAAGATGCTAGCATGATGTTAGCGGCTATGAAACGTGCAGCGAAATTAAATATGGCAGTAGTTGCGCACTGTGAAGAGAATACGCTTATTAATAAAGGTTGTGTACATGAAGGGAAGTTTTCTGAGAAACACGGATTAAACGGTATCCCATCAGTATGTGAATCTGTACATATTGCAAGGGATATACTGCTTGCTGAAGCAGCAGATTGTCACTATCACGTATGTCACGTAAGTACAAAAGGTTCTGTACGTGTAATCCGTGATGCGAAACGAGCTGGAATTAAAGTAACAGCAGAAGTAACACCACATCACCTAGTGTTATGTGAAGATGATATCCCATCAGTTGATCCTAACTTTAAAATGAACCCACCGCTTCGTGGAAAAGAAGACCATGCAGCATTAATTGAAGGATTACTAGATGGAACGATCGATATGATCGCAACTGACCATGCACCGCATACAGCGGAAGAGAAAGCACAAGGAATTGAAAGAGCGCCATTCGGAATTACTGGTTTTGAAACAGCATTCCCACTTCTATACACAAACCTTGTGAAAAAAGGAATTATTACATTAGAGCAGTTAATTCAATTCTTAACAGAAAAGCCAGCTGATACATTCGGCTTAGAAGCAGGTCGCCTGAAAGAAGGTAGAACAGCTGATATTACAATCATTGATTTAGAACAAGAAGAAGAGATTGACCCAACAACATTCTTATCAAAAGGAAAAAATACACCATTCGCAGGTTGGAAATGCCAAGGATGGCCGGTAATGACAATCGTTGGTGGTAAGATCGCATGGCAAAAGGAGAGTGCATTAGTATGA	MNYLFKNGRYMNEEGKIVATDLLVQDGKIAKVAENITADNAEVIEVNGNLIAPGLVDVHVHLREPGGEHKETIETGTLAAAKGGFTTICSMPNTRPVPDCREHMEDLQKRIKEKAHVNVLPYGAITVRQAGSEMTDFETLKELGAFAFTDDGVGVQDASMMLAAMKRAAKLNMAVVAHCEENTLINKGCVHEGKFSEKHGLNGIPSVCESVHIARDILLAEAADCHYHVCHVSTKGSVRVIRDAKRAGIKVTAEVTPHHLVLCEDDIPSVDPNFKMNPPLRGKEDHAALIEGLLDGTIDMIATDHAPHTAEEKAQGIERAPFGITGFETAFPLLYTNLVKKGIITLEQLIQFLTEKPADTFGLEAGRLKEGRTADITIIDLEQEEEIDPTTFLSKGKNTPFAGWKCQGWPVMTIVGGKIAWQKESALV	PGPT0021145_2913	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
AK009_02738	915	pyrB_1	COG0540	Aspartate carbamoyltransferase	ATGAGCCATTTGTTAACGATGAGTGAATTATCGGAAGTAGAAATTTCAGAAATCCTAAAAGACGCAGAAGATTTCGCGAATGGAAAAGAGAGCAAAACGACAGAGCAAACTTTTGTTGCGAACTTGTTCTTTGAGAATAGTACGAGAACGAGATTTAGCTTTGAAGTTGCTGAGAAGAGATTAGGACTAGATGTTTTAAACTTTTCAGCGGATGCATCTAGCGTACAAAAAGGAGAAACTCTATACGATACGATAAGAACACTAGAATCAATCGGAACAAAAGCGGTGATCGTCCGCCATGAGCAAGATCGCTACTTCGATGAACTAAAAGATCAGGTAAATATCCCAATCTTAAACGCTGGAGATGGATGTGGAAACCACCCAACGCAGTGCCTACTCGATCTTCTTACAATTAAACAAGAGTTTGGAAGATTTGAAGGATTAAAGATTGCGATAGTAGGAGATGTTCGTCATAGCCGAGTAGCACGTTCTAATGCAGAAGCATTAACGAAACTGGGTGCAACAATTTACTTTGCAAGTCCAGAAGAGTGGAAAGATGAAGACAGCACATTTGGAACATACAAACCATTGGATGAACTTGTTCCAGAAGTGGATGTAATGATGTTACTTCGTGTACAACATGAGCGTCATGATCATTATGAAACAGACATTATGAAAGAGTATCATGAGAGACACGGATTAACAGTGGAAAGAGAAAAGCGTATGAAAGAAGGAAGCATTATTATGCATCCAGCTCCTGTAAACCGTGATGTTGAAGTTGCAAGTGAACTTGTTGAGTGTGAGCGTTCACGCATATTTAAACAAATGGAAAATGGAGTTTACGTAAGAATGGCTGTACTAAAACGCGCCTTACCAAATGTATTAGGAGGAATGAAACATGAATTACTTGTTTAA	MSHLLTMSELSEVEISEILKDAEDFANGKESKTTEQTFVANLFFENSTRTRFSFEVAEKRLGLDVLNFSADASSVQKGETLYDTIRTLESIGTKAVIVRHEQDRYFDELKDQVNIPILNAGDGCGNHPTQCLLDLLTIKQEFGRFEGLKIAIVGDVRHSRVARSNAEALTKLGATIYFASPEEWKDEDSTFGTYKPLDELVPEVDVMMLLRVQHERHDHYETDIMKEYHERHGLTVEREKRMKEGSIIMHPAPVNRDVEVASELVECERSRIFKQMENGVYVRMAVLKRALPNVLGGMKHELLV	PGPT0021160_4304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
AK009_02739	1284	pyrP		Uracil permease	ATGGAACAAAAGCCAGTGTTAGACGTTAATGAAGTACCGAAACCGGGAAAATGGTTATTTTTGAGTATACAACATTTGTTCGCGATGTTTGGATCAACAGTGCTTGTTCCGTTTTTAACAGGATTGAATCCATCAGTAGCATTAATATCAAGTGGATTAGGAACGTTAGCGTTTCTTCTTATAACGAAAGGTCAAGTACCTGCCTATCTAGGATCATCATTCGCCTTTATCGCACCGATTATAACAGCGAAAACGGCAGGTGGACCGGGAGCAGCAATGCTTGGTGGTTTGCTAGCAGGGCTTGTGTACATCTTAATCTCACTCGGAATTAAGAAATCAGGATCAGAGTGGATTATGAAATTACTTCCGCCAATCGTAGTTGGACCGGTAGTAATGGTAATCGGTTTAGCGTTAGCACATACAGCAGTTAATATGGCGATGAACGGTGCGGATGGCAAATATAGCTTTATACACTTTTCAGTAGCATTAGTAACATTAGCAATTACAATTATATGCTCGATATTCGGAAGAGGATTTTTCAGTATCATACCAGTGTTACTTGGCATTATCGGCGGATATATCTTCGCTTACTTCCAAGGGCTAGTAGACTTAAAGCCGGTAGCTGAGGCAAAATGGTTTGTTGTACCAGATTTCACAGTACCATTTGTCACATACACACCAGAGTTTTCATGGAAGATTGTACTCTTGATGGTACCAGTTGCACTAGTAACAATATCAGAACATATCGGACATCAAATTGTACTTGGAAATGTTATTAAAAGAGATTTAATTGAAAAACCAGGTTTACACCGTTCGATCTTCGGTGACGGAGTAGCAACATTAATCGCATCACTAATCGGCGGGCCACCGAATACAACGTATGGTGAAAACATCGGTGTGCTAGCAATTACGAGAGCATACAGTGTATACTTATTCATCGGTTCAGCAGTATTCGCAATCATGTTCGGATTTATCGGTAAGATTTCTGCGCTGATTCATTCGATCCCAACACCAGTTATGGGTGGGGTATCAATCTTACTATTCGGTGTAATTGCATCAAGCGGATTACGCATGATGGTAGATGATAAAACAGATTTAAGTGACAAACGAAACTTAATGATTGCATCAGTAATACTAGTAATCGGTATTGGTGGAGCGGTACTTCACGTAGGAGAATCGTTCCAAGTAGAAGGAATGGCACTAGCAGCAATTGTAGGTGTACTGTTAAATCTACTACTACCGGAAACGAAACAAATAAAACAACCTAAGCAGATTGCTTCATAA	MEQKPVLDVNEVPKPGKWLFLSIQHLFAMFGSTVLVPFLTGLNPSVALISSGLGTLAFLLITKGQVPAYLGSSFAFIAPIITAKTAGGPGAAMLGGLLAGLVYILISLGIKKSGSEWIMKLLPPIVVGPVVMVIGLALAHTAVNMAMNGADGKYSFIHFSVALVTLAITIICSIFGRGFFSIIPVLLGIIGGYIFAYFQGLVDLKPVAEAKWFVVPDFTVPFVTYTPEFSWKIVLLMVPVALVTISEHIGHQIVLGNVIKRDLIEKPGLHRSIFGDGVATLIASLIGGPPNTTYGENIGVLAITRAYSVYLFIGSAVFAIMFGFIGKISALIHSIPTPVMGGVSILLFGVIASSGLRMMVDDKTDLSDKRNLMIASVILVIGIGGAVLHVGESFQVEGMALAAIVGVLLNLLLPETKQIKQPKQIAS				NA	NA	NA	NA	NA
AK009_02741	543	pyrR_1	COG2065	Bifunctional protein PyrR	ATGCAAGAGAAAGCTGTCGTTTTAGATGACCAAATGATTCGCCGTGCTTTAACACGAATTAGTCATGAAATCGTGGAACGAAATAAAGGTGTCGATAATTGTGTTCTTGTCGGAATTAAAACTCGTGGAATTTTTATTGCACAACGTTTGGCAGAACGAATTGGTCAAATTGAAGGAAAAGAAATGGAAGTTGGAGAGTTAGACATTACGTTATATCGTGATGATTTAACACTGCAATCCAAAAATAAAGAACCACTTGTAAAAGGTTCTGATATCCCTGTAGATATTACGAAGAAAAAAGTTATCCTTGTGGATGACGTGTTATATACCGGAAGAACAGTTCGAGCAGCAATGGATGCTCTTATGGATTTAGGTAGACCATCTCAAATTCAACTGGCGGTTCTTGTTGATAGAGGTCATCGTGAACTACCAATTCGCGCTGATTATGTAGGAAAGAACATCCCAACATCAAGTGAAGAGCGTATCGAAGTTGATTTGCAAGAGACAGATCAACAAGATCGAGTAAGCATATACGATAAGTAA	MQEKAVVLDDQMIRRALTRISHEIVERNKGVDNCVLVGIKTRGIFIAQRLAERIGQIEGKEMEVGELDITLYRDDLTLQSKNKEPLVKGSDIPVDITKKKVILVDDVLYTGRTVRAAMDALMDLGRPSQIQLAVLVDRGHRELPIRADYVGKNIPTSSEERIEVDLQETDQQDRVSIYDK	PGPT0021245_1149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
AK009_02743	909	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAGTGAAGTAGTACAAGTAACAGTTGTAGAAGAGCAAAAAAATGAGCGAATTGATAAATTCGTTGCAGGAATAAATAACGAATGGTCACGTTCACAAGTACAGCAATGGATTAAAGATGATGTTGTGACAGTAAACGGGAAAGCAGTAAAAGTGAATTATAAAGTAAAAGAAGAAGATGAAATTACAGTAACGATTCCTGATCCAGAAGCGTTAGATATTCAACCAGAAGATATGAATTTAGAAATTTATTATGAAGATGCAGATGTGCTTGTTGTAAATAAACCACGTGGTATGGTTGTACATCCAGCGCCAGGACATACAAGTGGTACGCTTGTAAACGGCCTTATGCACCATTGTACAGATTTATCAGGTATCAACGGTGTAATGCGTCCAGGTATTGTGCATCGTATTGATAAAGATACATCTGGATTATTAATGGTTGCTAAGAATGATATGGCGCATGAATCACTTGTAAATCAACTTGTAGCAAAAACAGTAACAAGACGTTACAAAGCAATTGTGCACGGTGTTATCCCGCATGATAAGGGGACTATCGATGCACCAATTGGTCGTGATAAGAAAGAGCGTCAAAGTATGACAGTTGATGAAAATGGTAAAAACGCTGTTACTCACTTCCAAGTGTTAGAACGCTTTAAAGACTTTACACTTGTAGAATGTCGCTTAGAAACGGGACGTACGCACCAAATTCGTGTTCATATGAAATATATTGGCTATCCACTTGCAGGAGATCCGAAGTATGGTCCCAAGAAAACGTTAGATATGAATGGACAAGCACTTCATGCAGGTATTTTAGGCTTTGATCATCCTCGTACTGGTGAATATATTCAGTTTGAGGCACCGATTCCAGAAGTATTTGAAGAAGCATTAAATATTTTACGGAAATAG	MSEVVQVTVVEEQKNERIDKFVAGINNEWSRSQVQQWIKDDVVTVNGKAVKVNYKVKEEDEITVTIPDPEALDIQPEDMNLEIYYEDADVLVVNKPRGMVVHPAPGHTSGTLVNGLMHHCTDLSGINGVMRPGIVHRIDKDTSGLLMVAKNDMAHESLVNQLVAKTVTRRYKAIVHGVIPHDKGTIDAPIGRDKKERQSMTVDENGKNAVTHFQVLERFKDFTLVECRLETGRTHQIRVHMKYIGYPLAGDPKYGPKKTLDMNGQALHAGILGFDHPRTGEYIQFEAPIPEVFEEALNILRK				NA	NA	NA	NA	NA
AK009_02744	459	lspA	COG0597	Lipoprotein signal peptidase	ATGATATATTATGTAATAGCGTTATTTGTCATTGCTATCGATCAAATATCGAAGTGGTTAATTGTAAAGAACATGGAATTGGGTACGAGTATTCCGATTATCGACAATGTATTATACATAACATCACATCGAAATAGAGGCGCTGCCTGGGGTATTTTAGAAAATAAAATGTGGTTCTTCTACATTATTACAGTTGTTTTTGTAGTGTTTATCGTATTTTATATGAAAAAGTATGCGAAAACAGATAAGCTTCTAGGTATTTCGTTAGGCCTAATTTTAGGCGGGGCAATTGGTAACTTTATTGATCGTGTATTTAGACAAGAAGTAGTGGATTTCATTCACGTGTATATTTTCTCGTACAACTATCCAGTATTCAATATAGCTGATTCAGCGTTATGTATTGGTGTTGTATTAATTATTATTCAAACATTATTAGAAGGCAAGAAAGCGAAGGAGTAA	MIYYVIALFVIAIDQISKWLIVKNMELGTSIPIIDNVLYITSHRNRGAAWGILENKMWFFYIITVVFVVFIVFYMKKYAKTDKLLGISLGLILGGAIGNFIDRVFRQEVVDFIHVYIFSYNYPVFNIADSALCIGVVLIIIQTLLEGKKAKE	PGPT0004770_4839	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
AK009_02745	330			hypothetical protein	GTGAATGAAATCTACATGGAAATAAAAGAAGAATTGCAATTGATGAGAAAAGAGTTGCAAGAGAGACTAGCTAAAGAAGTAATGCACAAATATGATGTCGAGTTCAGCCAAGAGCTTGGATATGAAATTAAGGAAGAGATAAAGAAAAAATTGCTATTACATGATATAAAAGAGGATTTAAAGGATGTAGAACGTGCATTATTTAAAATGGAAATAGACATGTACGGTATTTGTGAAGAGACCGGGAGATTAATTTCGACAAAGCAAATGAAAACAATGCCGACTGCCCGAACAATTCATGAATTTTTCTATGAAAAGGTAAATGTATGA	MNEIYMEIKEELQLMRKELQERLAKEVMHKYDVEFSQELGYEIKEEIKKKLLLHDIKEDLKDVERALFKMEIDMYGICEETGRLISTKQMKTMPTARTIHEFFYEKVNV				NA	NA	NA	NA	NA
AK009_02746	2766	ileS	COG0060	Isoleucine--tRNA ligase	ATGGAGTACAAAAATACATTACTGATGCCGAAAACAGAGTTCCCAATGCGTGGGAACTTACCAAAACGTGAGCCTGCAATGCAAGAAAAATGGGCTGAAATGAATATTTACGAAAAAGTACAAGAACATACAAAAGGTCGTCCTTTATTTGTATTGCATGATGGACCTCCATATGCGAATGGTGACATTCATATGGGACATGCATTAAATAAAGTATTAAAAGACTTTATTGTTCGTTATAAATCAATGACTGGTTTTAGTGCGCCATATGTTCCAGGATGGGATACGCACGGTTTACCAATTGAACAAGCTTTAACAAATAAAGGTGTAAAGCGTAAAGAAATGACAGTTGCTGAGTTCCGTAAGTTATGTGCAGAGTATGCATATGAACAAGTAGAACGTCAACGTGAACAATTTAAGCGTCTAGGTGTACGTGCAGATTGGGATAATCCATATATTACTTTAGAGCCCGCTTATGAAGCACAACAAATTAAAGTGTTTGGTGACATGGCGAAAAAAGGTTATATCTATAAAGGTCAAAAACCAGTTTACTGGTCTCCAACGAGTGAATCTGCTTTAGCAGAAGCTGAAATTGAATATCAAGATAAAAAATCAGCATCTATTTACGTAGCATTCCCTGTAAAAGATGGAAAGAACGTATTAGAAGGTGATGAAAAGTACATCATTTGGACAACAACACCTTGGACATTACCTGCAAACTTAGGTATTTCTGTTCACCCAGAGCTTGAATATAGCATTGTAAAAGTAAATGATGAGAAATATATCATTGCTTCTGAGCTGTTTGAGACAGTTGCAAAAACGTTAGAGTGGGAAAATGCTGAAGTTGTGAAAACAGTAAAAGGTAGCGAACTGGAGTACACAGTTGCAAAACATCCATTCTACGATCGTAATTCATTAGTAATGCTAGGAGATCACGTAACAACAGATGCAGGTACAGGTTGTGTTCATACAGCACCAGGACACGGGGAAGATGACTTCGTTGTTGGTAAAAAGTATGGATTAGAAGTACTTTGCCCAGTTGATGATAAAGGTGTATTAACAAATGAAGCACCTGGATTTGAAGGCTTATTCTATGATAAAGCTAACAAGCCAATTACAGAAAAATTAGAAGAAGTAGGCGCGTTACTGAAACTAACATTCATTACGCATTCATACCCACATGATTGGAGAACGAAAAAACCAATTATTTTCCGTGCGACAGCACAGTGGTTTGCATCTATTGAAGCATTCCGTAAAGAATTAATAGAAGCTGTAGCGGAAACAAAATGGGTACCAGCATGGGGAGAAACTCGTCTTCATAATATGGTTCGTGACCGTGGTGACTGGTGTATTTCTCGTCAGCGTGCATGGGGTGTGCCAATTCCGGTATTCTATGCTGAGAATGGCGATCCAATTATTACAGATGAAACAATTAACCATGTAGCAGATTTATTCCGTGAACACGGTTCTAACGTATGGTTTGAGCGTGAAGCGAAAGATCTATTACCAGAAGGATTTACACATCCAGGTAGCCCAAATGGCGAATTCCGTAAAGAAACAGACATCATGGATGTATGGTTCGATTCAGGTTCTTCTCACCAAGCTGTATTAGAAGAGCGCGAAGATTTACAGCGTCCAGCTGATTTATATTTAGAAGGATCTGACCAGTATCGTGGTTGGTTTAACTCTTCATTATCAACAGCAGTTGCTGTAACAGGTAAAGCTCCATATAAAGGCGTACTAAGCCACGGTTTCGTACTAGATGGTGAAGGACGTAAAATGAGTAAGTCGATTGGAAACATCGTCGTACCGAAGAAAATCATGGATCAATTAGGCGGAGACATCTTACGCTTATGGGTATCTTCTGTTGACTATCAATCTGACGTACGTATTTCAGATGATATTTTAAAACAAGTAGCAGAAGTGTATCGTAAAATCCGTAACACATTCCGTTTCTTATTAGGAAACTTAGACGACTTTAAGCCAAGTGAAAATGCAGTAGCTGTAGCTGAGCTTCGTGAAGTAGATCGTTACATGTTAGTGAAATTAAATGACTTAATTACAAAAGTTAAAGAAGCATATGAGACATACGATTTCGCTGCTGTGTATCATGCAATTCATAACTTCTGTACAATTGATTTAAGTTCATTCTACTTAGATTTTGCAAAAGATATTTTATACATTGAAGGTGCAAACCACGAAGATCGTCGTGCAATTCAAACTGTATTATATGATGTTCTTGTTGCGTTAACGAAACTTGTAACACCAATCTTACCGCATACAGCTGATGAAGTATGGCCATACATTCCAGGCGTAACAGAAGAAAGTGTACAATTAACTGATATGCCAGAAGCTGTACAATTAGATGACGCGGAAGCATTAAAAACAAAATGGGATGCATTTATGACATTACGTGATGACGTGTTAAAAGCACTAGAAGTAGCTCGTAATGAAAAAGTAATCGGTAAGTCATTAAATGCAAGCATTACGCTATATCCAACTGCAGAAATGAAAGCTATGTTAGAGTCTATTAGCGAAGACTTAAAGCAATTATTCATCGTTTCTGAGTATAAACTTGGTGGTATGATGGAAGAAGCGCCAGCAGATGCACCGAAGTATGAACATACAGCGGTTGTTGTTGCTCAAGCAACTGGTGAAACATGTGAACGTTGTTGGGTAGTTTCAGAAACAATTGGTAAAGATGCTGAACATGAAACATTATGTGAGCGTTGTGCAACAGTTGTGAAAGAAAACTATGTAAAATAA	MEYKNTLLMPKTEFPMRGNLPKREPAMQEKWAEMNIYEKVQEHTKGRPLFVLHDGPPYANGDIHMGHALNKVLKDFIVRYKSMTGFSAPYVPGWDTHGLPIEQALTNKGVKRKEMTVAEFRKLCAEYAYEQVERQREQFKRLGVRADWDNPYITLEPAYEAQQIKVFGDMAKKGYIYKGQKPVYWSPTSESALAEAEIEYQDKKSASIYVAFPVKDGKNVLEGDEKYIIWTTTPWTLPANLGISVHPELEYSIVKVNDEKYIIASELFETVAKTLEWENAEVVKTVKGSELEYTVAKHPFYDRNSLVMLGDHVTTDAGTGCVHTAPGHGEDDFVVGKKYGLEVLCPVDDKGVLTNEAPGFEGLFYDKANKPITEKLEEVGALLKLTFITHSYPHDWRTKKPIIFRATAQWFASIEAFRKELIEAVAETKWVPAWGETRLHNMVRDRGDWCISRQRAWGVPIPVFYAENGDPIITDETINHVADLFREHGSNVWFEREAKDLLPEGFTHPGSPNGEFRKETDIMDVWFDSGSSHQAVLEEREDLQRPADLYLEGSDQYRGWFNSSLSTAVAVTGKAPYKGVLSHGFVLDGEGRKMSKSIGNIVVPKKIMDQLGGDILRLWVSSVDYQSDVRISDDILKQVAEVYRKIRNTFRFLLGNLDDFKPSENAVAVAELREVDRYMLVKLNDLITKVKEAYETYDFAAVYHAIHNFCTIDLSSFYLDFAKDILYIEGANHEDRRAIQTVLYDVLVALTKLVTPILPHTADEVWPYIPGVTEESVQLTDMPEAVQLDDAEALKTKWDAFMTLRDDVLKALEVARNEKVIGKSLNASITLYPTAEMKAMLESISEDLKQLFIVSEYKLGGMMEEAPADAPKYEHTAVVVAQATGETCERCWVVSETIGKDAEHETLCERCATVVKENYVK				NA	NA	NA	NA	NA
AK009_02748	507	divIVA	COG3599	Septum site-determining protein DivIVA	GTGCCGTTAACACCATTAGATATTCATAACAAAGAATTTGGTCGCGGATTCCGTGGCTATGATGAAGATCAAGTAAATGAGTTTCTTGATCAAATTATCAAAGATTATGAATTGGTCATTCGTGAGAAAAAAGCTTTAGAAGAAAAAGTTGCGCAGTTAGAAGGGAAGTTAGATCATTTCTCTAATATTGAAGATACGTTAAACAAATCTATCGTTGTTGCGCAAGAAGCAGCGGAAGAAGTAAAACGTAATGCGCAAAAAGAAGCGAAATTAATTGTGCGTGAAGCTGAAAAGAATGCTGATCGTATTATTAACGAAGCATTAGTAAAATCAAGAAAAGTTGCTTTTGATATTGAAGAGTTAAAGAAACAAGCGAAAGTATTCCGAACTCGTTTCCGTATGTTATTAGAAACACAGCTTGAAATGTTAAACAACGATGATTGGGATAAACTAATTGAGTTAGAAGACGAAGTAGATGAACTGTTGAAAAAAGAAGAAACAGTGTAA	MPLTPLDIHNKEFGRGFRGYDEDQVNEFLDQIIKDYELVIREKKALEEKVAQLEGKLDHFSNIEDTLNKSIVVAQEAAEEVKRNAQKEAKLIVREAEKNADRIINEALVKSRKVAFDIEELKKQAKVFRTRFRMLLETQLEMLNNDDWDKLIELEDEVDELLKKEETV	PGPT0014805_692	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014805-divIVA-K04074	NA	NA
AK009_02749	768			hypothetical protein	ATGAGCATTTACGAACATTTTAGGCCTGATGAAGAGGTCTTTGTAGATAAAGTGCTAGAGTGGAAGCGAACGGCGGAGTACCATCAAGTGAAATTAACAGATTTCCTTGATCCAAGACAGCAACAAATTGTTTCTATGGTAATTGGACAAGGAGATGTTGCTGTGCAATTTGGTGGTGCAACGCCTAATGCAGAGCGTAAAAGAGCACTCATTTATCCAGACTATCTAGAATTAAATGAAGAAGAATTTCAAGTAGAAGTATTAGAAATTGACTATCCTTCCAAGTTTTATACGCTAGAACATAGGCAAATATTAGGTACATTTATGTCTCTTGGTTTAACGAGAGAAAAATGTGGTGATATTTTGCTGCAAGAAAATCGTGCCCAAATTGTAGTTGCGAAAGAAATCGTATCGTACATTGAGATGAACTTACAAGCAATAGGAAAAGTAAAAGTCTCCTTATCAGCAGTACAAGGAGAACAAATTCTACAGATACATGAAACGTGGGGGGAGAAATCTGGAACGGTTTCTTCACTTCGTTTAGATGTTATGTTAGCTGAAATGTTACATTTATCTAGACAGAAAGTACAACCTTTCATTAAAAATGGTTTAGTAAAAGTTAATTGGAAAATAGTGGAACAAACTTCTTATGAATGTTATCCAGGAGACGTTTTCTCTGTTAGAGGATATGGCCGAAGTAAATTATTTTCTGTAGAAGGTAGAACAAAACGCGACAAATGGAGAATTTTGTATGGTATACTAAAATGA	MSIYEHFRPDEEVFVDKVLEWKRTAEYHQVKLTDFLDPRQQQIVSMVIGQGDVAVQFGGATPNAERKRALIYPDYLELNEEEFQVEVLEIDYPSKFYTLEHRQILGTFMSLGLTREKCGDILLQENRAQIVVAKEIVSYIEMNLQAIGKVKVSLSAVQGEQILQIHETWGEKSGTVSSLRLDVMLAEMLHLSRQKVQPFIKNGLVKVNWKIVEQTSYECYPGDVFSVRGYGRSKLFSVEGRTKRDKWRILYGILK				NA	NA	NA	NA	NA
AK009_02750	264			hypothetical protein	ATGACAACAGTTTTAATGGTGTTAAGTTCTGCTATCGAGATTTACTCGTGGGCACTGATTATTTACATTCTCCTATCATGGTTTCCTGGTGCAAAGGAATCATCTTTTGGAGAGTTCTTGGCGCGAATTTGTGAACCGTATTTAGAACCATTCCGCAGATTTATTCCGCCGCTGGGTATGATTGATATTTCTCCACTCGTTGCGATTTTTGCGTTAAAACTTGCTAAAAGTGGTTTGTTCAGCTTGTTCGGCTATTTCTTATAG	MTTVLMVLSSAIEIYSWALIIYILLSWFPGAKESSFGEFLARICEPYLEPFRRFIPPLGMIDISPLVAIFALKLAKSGLFSLFGYFL	PGPT0013730_3448	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
AK009_02751	471	sepF		Cell division protein SepF	ATGAGTTGGTCAAAAGTAAAATACTTCTTTTTTGATACACCGGAAGAAAAAGAAGCAGCTCAATATGGTTATGAAAAGGAGCAAACAGACATGAAAAAGCAGCAAGATCCACCAGAACAACAAGATGTTACGTTTCCGAAAGCGCAACCGAAGCAAAATGTTGTGAGTATTGAAACAGCAAAACAATCTTCAAAAGTTGTTTTATTAGAACCACGCACATATTCGGAAGCGCAAGGGATTGCGGACCACCTAAAAGGTAGACGAGCTGTTGTAATTAATTTGCAGAGAATGTCTACTGATCAAGCGGTACGTATCGTTGACTTTTTAAGTGGTACTGTATACGCTATAGGCGGGGACATTCAAAAAATAGGACCGAAAACATTTATGTGTACACCTGAAAATGTTGATATTGTTGGTGCAATTTCAGAGTTATTCGGTGAAGAAGAAGAAACAAATATAAAGAGGTGGTAA	MSWSKVKYFFFDTPEEKEAAQYGYEKEQTDMKKQQDPPEQQDVTFPKAQPKQNVVSIETAKQSSKVVLLEPRTYSEAQGIADHLKGRRAVVINLQRMSTDQAVRIVDFLSGTVYAIGGDIQKIGPKTFMCTPENVDIVGAISELFGEEEETNIKRW				NA	NA	NA	NA	NA
AK009_02752	675	yggS	COG0325	Pyridoxal phosphate homeostasis protein	GTGACAGTACAAGAAAATTTAGTGATTGTAAACGAAGCTATTAAAGAATCTTGCGCTCGAGCTGGACGTTCGTTGCAAGATATTAAACTTGTTGCAGTGACAAAAACTGTAGGGATTGAAAAAACAAACGAAGTAATTGAAGCTGGAATTATCGATTTAGGTGAAAATAGAAATGAAGGTTTCTTACAGAAATACGAGCATTTCGGTTCAAAAGTTAATTGGCACTTTATTGGCTCATTACAAACGAGAAAAGTAAAAGAAATCATTAATGAAATTGATTATTTACATTCGTTAGATCGTCTTTCCCTGGCGAAAGAAATTCAGAAACGTGCTGATAAGAAAGTGAAATGCTTTATTCAAGTGAAAACCTCATCTGAAGAATCGAAGCAAGGATTGGCAATAGAAGAGGTTGTTTCTTTTATTCAAAGTTTGCAAGAATTCGATAAAATTGAAGTGGTCGGACTAATGACGATGGCTCCATTTACAGAAGAAGAGGAAGAAATCAGACGCTGTTTTAAGGAATTACGTATGCTACAAACAGAGGTGCAGGAGCTAGAATTATTACATGCGCCATGTAAAGAATTATCAATGGGAATGTCCAACGATTACACGATTGCAATTGAAGAAGGGGCTACATATATTCGTTTGGGAACGATTTTAGTAGGAAAAGCGTAA	MTVQENLVIVNEAIKESCARAGRSLQDIKLVAVTKTVGIEKTNEVIEAGIIDLGENRNEGFLQKYEHFGSKVNWHFIGSLQTRKVKEIINEIDYLHSLDRLSLAKEIQKRADKKVKCFIQVKTSSEESKQGLAIEEVVSFIQSLQEFDKIEVVGLMTMAPFTEEEEEIRRCFKELRMLQTEVQELELLHAPCKELSMGMSNDYTIAIEEGATYIRLGTILVGKA				NA	NA	NA	NA	NA
AK009_02753	819	rl5		Polyphenol oxidase	ATGAGAGAACCATTTAAATATGTGGACGGTATACTGTATTTACAAGCGTGGAAAGAACTTGGAAACATTACTGCTGGATTTACGACAAAAGATGGTGGGATAAGTACGGGCTCCTTTCATGCGATGAATTTAGGATTACATGTGAATGATATCGTGGAGAACGTTCATGAAAACAGACGCATTTTAGCAAATAAGTTACAAAAACCATTAGAAAACTGGATTTGCTCTGAACAAGTTCATGCTCATCATGTTGAAAAAGTAGGGCAACAGGAAAAAGGAAGTGGCGTCTATTCATATGAGGACGGCATTTCAAAAACAGATGGCATTTATACGAGTAATGAAGATGTTCTGTTAACGTCTTGTTACGCGGATTGTGTTCCGCTCTATTTTTATGCACCATCACATGGTATGATAGGACTTGCGCATGCTGGATGGAAAGGCACTGTACAAGAGATTGCAAAGGAAATGATTCAAAAGTGGAATGCAGAAGGTATTTCAAGTGATGAAATTCATGTTGCAATTGGGCCGTCGATCGGATCTTGTTGTTATGTTGTGGATGATCGTGTATTAACAGCAGCACAGGAAGTAGTTAGCGGTGCTGTTCCTCATCAAAAAATTTCTGACGGGCAGTACGCAATTAATTTAAAAGAAATTAATCGTATATTATGTGTACAAGCAGGCATAAAAGAAGAGCATATTGTAATGTCATCTCTTTGTACAAGCTGTGAAGAGCAACTATTTTTCTCTCATCGTCGTGATCAAGGTAAGACAGGAAGAATGTTGAGTTTCATAGGTTTTAAGGAGGAAGGAAGCAAGTGA	MREPFKYVDGILYLQAWKELGNITAGFTTKDGGISTGSFHAMNLGLHVNDIVENVHENRRILANKLQKPLENWICSEQVHAHHVEKVGQQEKGSGVYSYEDGISKTDGIYTSNEDVLLTSCYADCVPLYFYAPSHGMIGLAHAGWKGTVQEIAKEMIQKWNAEGISSDEIHVAIGPSIGSCCYVVDDRVLTAAQEVVSGAVPHQKISDGQYAINLKEINRILCVQAGIKEEHIVMSSLCTSCEEQLFFSHRRDQGKTGRMLSFIGFKEEGSK	PGPT0019965_718	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
AK009_02754	282	ylmC	COG1873	putative sporulation protein YlmC	ATGGTGATACGAATTTCAGAGTTACAGATGAAGGATGTTATAAATATTTCAGATGGAAAAAGGATTGGGAATATTGGAGATATTGAAATTGATATGAACACAGGGAAAATTTGTTCTGTTATTATTTCCAAACAGACACGTATGCTAGGTATTTTTGGAAAAGATGTTGAGATTGTAATTCCTTGGAAGGAAATTGTGAAAATTGGGGAAGATGTCATACTTGTAAGAGTAAATCCTGTTAATTCTGTAACAGAATCAATACAAACACCGACAATTTCATAA	MVIRISELQMKDVINISDGKRIGNIGDIEIDMNTGKICSVIISKQTRMLGIFGKDVEIVIPWKEIVKIGEDVILVRVNPVNSVTESIQTPTIS				NA	NA	NA	NA	NA
AK009_02755	780	sigG	COG1191	RNA polymerase sigma-G factor	TTGACGAGAAACAAAGTAGAAATTTGCGGTGTTGATACAGCTAAACTTCCAGTATTAAAAAATGAAGAGATGCGTAAATTATTTCGTGAAATGCAAAGTGGAGAGATAAGCGCAAGAGAAAAATTAGTGAATGGAAACTTACGTCTTGTACTGAGCGTCATCCAAAGATTTAATAACAGAGGAGAATATGTTGACGATTTATTTCAAGTTGGTTGCATTGGACTTATGAAATCAATTGATAATTTTGATTTAGGCCAAAATGTAAAATTTTCAACGTATGCTGTGCCGATGATTATTGGGGAAATACGCAGATATTTGCGTGATAATAATCCAATTCGCGTATCGCGCTCATTGCGAGATATTGCGTATAAAGCTTTGCAAGTAAGAGAAAAGTTGATTGCAGAAAATTCAAAAGAACCAACAGCAATGGATATTGCAAAAGTGCTAGAAGTAACTCATGAAGAGATAGTATTTGCTTTAGATGCGATTCAAGACCCAGTTTCATTATTTGAACCGATTTATAATGATGGAGGAGATCCTATCTTTGTTATGGATCAGTTAAGTGATGAAAAACAAAAGGACGAGCAGTGGGTTGAAGAATTAGCATTAAAAGAAGGAATGAAGCGTTTAAATGATCGAGAGAAAATGATTATTAGAAAACGTTTCTTCCAAGGAAAGACACAGATGGAAGTTGCAGAAGAAATTGGGATTTCCCAAGCGCAAGTATCACGTTTAGAGAAGTCAGCCATTAAACAAATGAATAAAACGATTCAAGGATAA	MTRNKVEICGVDTAKLPVLKNEEMRKLFREMQSGEISAREKLVNGNLRLVLSVIQRFNNRGEYVDDLFQVGCIGLMKSIDNFDLGQNVKFSTYAVPMIIGEIRRYLRDNNPIRVSRSLRDIAYKALQVREKLIAENSKEPTAMDIAKVLEVTHEEIVFALDAIQDPVSLFEPIYNDGGDPIFVMDQLSDEKQKDEQWVEELALKEGMKRLNDREKMIIRKRFFQGKTQMEVAEEIGISQAQVSRLEKSAIKQMNKTIQG	PGPT0014795_192	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
AK009_02756	720	sigE		RNA polymerase sigma-35 factor	ATGATGAAATTAAAATTTTATTTAGTATACCTTTGGTATAAAGTATTGCTGAAATTAGGAATTAAGACCGATGAAATTTATTATATTGGTGGAAGTGAAGCGTTGCCACCACCGTTAACGAAAGAAGAAGAGGAAGTTCTTTTGAATAAATTGCCAAAGGGAGATCAGGCAGCAAGGTCATTACTTATTGAACGTAACTTAAGGCTCGTTGTATATATAGCAAGAAAGTTTGAAAATACAGGGATAAATATTGAAGATTTGATTAGTATAGGAACAATCGGCCTTATTAAAGCGGTAAATACATTTAATCCAGAAAAGAAAATAAAATTAGCAACATATGCATCGCGTTGTATAGAAAATGAAATTTTAATGCATTTACGTCGAAATAACAAAAATCGTTCAGAAGTTTCTTTTGATGAACCGCTAAACATTGATTGGGATGGGAATGAACTGTTGTTGTCTGACGTGTTAGGTACAGATGATGATATTATTACAAAAGATTTAGAAGCTACTGTAGATCGTCACCTTTTAATGAAAGCATTACACCAATTAAATGATCGTGAAAAACAAATTATGGAACTTCGGTTTGGTCTTGCTGGAGGAGAGGAAAAGACGCAAAAAGATGTGGCGGATATGCTTGGGATTTCACAGTCATACATTTCGCGTTTAGAAAAAAGAATTATAAAAAGATTACGAAAAGAATTTAATAAAATGGTGTGA	MMKLKFYLVYLWYKVLLKLGIKTDEIYYIGGSEALPPPLTKEEEEVLLNKLPKGDQAARSLLIERNLRLVVYIARKFENTGINIEDLISIGTIGLIKAVNTFNPEKKIKLATYASRCIENEILMHLRRNNKNRSEVSFDEPLNIDWDGNELLLSDVLGTDDDIITKDLEATVDRHLLMKALHQLNDREKQIMELRFGLAGGEEKTQKDVADMLGISQSYISRLEKRIIKRLRKEFNKMV	PGPT0014795_751	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
AK009_02757	918	spoIIGA		Sporulation sigma-E factor-processing peptidase	TTGGTTGTTTACGCCGACGTTGTTTGGTTGTTAAACGCCTGCATTGATTTTCTTTTGCTTTTATTAACAGCTACCGTGTTAAAAAAGAAAATCAAAAGATGGAGGCTTGTGTTAGGGGCATTTATAGGTTCAACTATTGTTATTTTTGCCTTTACTCCTTTTGCTTCTATGATGACACATCCAATTATGAAACTACTGTACTCGTTACTTATTGTGTATACAGCATTTGGGTTTACAACATTTAGAAATTATGCACAGACTGTTTTTACTTTTTACTTTGTAACCTTTATGGTTGGCGGAGGATTAATTGGAACTCATTTCTTTTTGCAAACGAATGAAATGGTAAATGGATTGGTTCAATCTCAGTCAATTTCTTACGGCGATCCAATTAGTTGGTTATTTGTTATTTTTGGCTTTCCGGTAATTTATTATTTTTCTAAAAAGCGTATTGAAAGCGTAGAGGTCACGAAAATACACTATGACCAAATTGTGAAAGTAAAAATTCAATTGGCCGAAGAAGAACTAGAACTGGCAGGTCTTATTGACAGTGGGAACCAACTTTACGATCCATTAACAAAAACACCCGTTATGATTATGCATGTTTCATCATTAGAACATTGCTTACCATCTTGGTTAACAGAACAAATTTATTCCAAAACAGAAATTCCTCAAATACCAGAAAATGATTCTGGTTGGGCGACAAAATTACGTTTAATTCCTTTCCGTGCAGTAGGAGTAGAAAGTCAATTTTTGTGGGCAATTAAGCCTGACAGTGTGCAAGTTGATCATGAAGGTAGTTCTATTGTTGTAAACAAAGTATTAATTGGATTAAATACACAACAACTGTCTACAAATGGGGAGTATCAATGTATTGTGCATCCAAAAATGTTGATTTCACAAAAAATGGTGATCGCTTAA	MVVYADVVWLLNACIDFLLLLLTATVLKKKIKRWRLVLGAFIGSTIVIFAFTPFASMMTHPIMKLLYSLLIVYTAFGFTTFRNYAQTVFTFYFVTFMVGGGLIGTHFFLQTNEMVNGLVQSQSISYGDPISWLFVIFGFPVIYYFSKKRIESVEVTKIHYDQIVKVKIQLAEEELELAGLIDSGNQLYDPLTKTPVMIMHVSSLEHCLPSWLTEQIYSKTEIPQIPENDSGWATKLRLIPFRAVGVESQFLWAIKPDSVQVDHEGSSIVVNKVLIGLNTQQLSTNGEYQCIVHPKMLISQKMVIA	PGPT0024680_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024680-spoIIGA-K06383	NA	NA
AK009_02758	1155	ftsZ	COG0206	Cell division protein FtsZ	ATGTTAGAGTTTGATACTACTCAAGATCAATTAGCGAATATAAAAGTTATCGGTGTCGGCGGTGGCGGAAACAATGCTGTAAACCGTATGATTGAACACGGTGTACAAGGTGTAGACTTTATCGCTGTGAACACTGATGCACAAGCATTAAATCTATCAAAAGCTGAAACAAAAATGCAAATTGGTGGAAAATTAACGCGTGGACTTGGTGCAGGCGCAAACCCTGAAGTAGGGAAAAAAGCTGCAGAAGAAAGTAAAGAACAGATCCAAGAAGCACTTCGTGGTGCGGATATGGTCTTCGTAACTGCTGGTATGGGCGGTGGAACTGGAACTGGTGCAGCTCCAGTTGTTGCTCAAGTTGCAAAAGAATTAGGTGCTTTAACAGTTGGTGTTGTAACACGTCCATTTACTTTTGAAGGACGTAAACGTGCAACGCAAGCAGCATCTGGTATTGCAGCATTTAAAGAAAATGTAGATACTCTTATTGTAATTCCAAACGATCGCTTATTAGAGATCGTTGATAAAAATACGCCAATGTTAGAAGCATTCCGTGAAGCTGATAACGTATTACGTCAAGGTGTTCAAGGTATTTCGGATTTAATTGCAACGCCAGGTTTAATTAATTTAGACTTTGCAGACGTAAAGACAATTATGTCTAATAGAGGTTCTGCTTTAATGGGTATTGGTTCTGGTAACGGGGAAAATCGTGCTGCAGAAGCTGCGAAAAAAGCGATTTCTAGTCCATTACTAGAAACATCTATTGATGGAGCTCAAGGTGTTATCATGAATATTACGGGTGGCGCTAACTTAAGCTTATATGAAGTACAAGAAGCGGCAGATATCGTAGCCTCAGCTTCAGATCCAGAAGTAAATATGATCTTCGGTTCTGTTATTAACGAAGGATTAAAAGATGATATCGTTGTAACTGTAATTGCAACTGGTTTTGATGATAGCATTGCAACTCAACCACCAAAACCAATTATTCGTCCGAATGCGAACCACACGCAACAACAGCAACAACCAGTAGCTCAACCTTCAAAACAACGTGAAGTAAAACGTGAAATGAAGCGTGAAGAGCCAGTTGTACATGAACGTCATTCAGATTCAGATGATATCGATATTCCAGCATTTTTACGTAACCGTCGTAGACGATAA	MLEFDTTQDQLANIKVIGVGGGGNNAVNRMIEHGVQGVDFIAVNTDAQALNLSKAETKMQIGGKLTRGLGAGANPEVGKKAAEESKEQIQEALRGADMVFVTAGMGGGTGTGAAPVVAQVAKELGALTVGVVTRPFTFEGRKRATQAASGIAAFKENVDTLIVIPNDRLLEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNRGSALMGIGSGNGENRAAEAAKKAISSPLLETSIDGAQGVIMNITGGANLSLYEVQEAADIVASASDPEVNMIFGSVINEGLKDDIVVTVIATGFDDSIATQPPKPIIRPNANHTQQQQQPVAQPSKQREVKREMKREEPVVHERHSDSDDIDIPAFLRNRRRR	PGPT0027695_4001	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
AK009_02759	1308	ftsA	COG0849	Cell division protein FtsA	ATGAACAGCAATGAAATATATGTTAGTCTTGACATCGGTACATCCAATGTTAAAGTCATCATTGGTGAAATGGTTAATGACAGCTTAAACATTATTGGTGTTGGAAATGTAAAATCAAATGGTTTAAAGAAGGGATCGATAGTTGATATAGACGAGACTGTTCGATCAATTAAAAAAGCAATTGAACAAGCTGAGCGTATGGTGGGAATCCATATTGAGCAAGTTGTAGTAGGTGTCAATGCAAACCAGGTACAGCTACTTCCTTGTCACGGAGTAGTCGCTGTTTCAAATGAAGATCGTGAAATCGGGAATGAAGATGTCTTACGCGTTCTAGATGCAGCACAAGTTGTGTCAATTGCTCCAGAACGTGAGTTTATTGATGTGGTACCTCGACAGTTCATCGTAGACGGTCTTGACGAGATTAACGATCCACGCGGGATGATCGGTGTAAGATTAGAAATGGAAGGTACACTTATTACAGGCTCGAGAACTTTACTACATAACCTACTTCGTTGTGTAGAAAAAGCAGGTCTTGAAATTGTTGATATTTGTCTTCAACCTTTAGCGGCTGCAACAGTTGCTATATCTTCAGATGAAAAAAATAGAGGAGTAGCCCTTGTTGATATGGGGGGAGGATCTACAACTTTATCTATTTTTAAAGACGGAGAGTTACAAGCGACGAGCGTATTACCATTAGGTGGAGACCATATAACGAAGGATATTGCAATTGGGTTGAAAACTTCAACAGAAAATGCAGATCAAATTAAGTTGAAATATGGACATGCTTTTTATGATACAGCATCTGAAGAAGAGATGTTTACGGTTCCTATTATGGGAAGTGATCAAACAGAACAATATTCTCAGTTGGAATTATCGGATATAATAGAGGCTCGTGTAGAGGAAATTTTAATGTTTGTTCAAGATGAAGTGCGTAAGTTAGGAGTAAAGCAAGTGGCTTCTGGTTATGTACTAACTGGCGGAATTGCTTCTATGCCAGGTGTTCTTGATCTTGCATATGATATTTTACATGAAAATGTTCGTGTAGCAACTCCTGATTATATTGGTGTGCGTGAGCCCCAATATACAAGCGGAGTTGGATTAATTAAACATTCTTATCAAAAAGCTAAATTACGTGGGAAAAATGTGCAGGAAAAGCAAGAGCATTTTGAAACAGTACCAGCACCAGCACCAACGCCGGTACAACAGCAACCTGCGAAACAAAAAACTCGTAATCAAAACAATAATAATCAAAATGATGACCGTATGATGTCAAAAGTAAAACGTGTATTCCGTTATTTATGGGATTAA	MNSNEIYVSLDIGTSNVKVIIGEMVNDSLNIIGVGNVKSNGLKKGSIVDIDETVRSIKKAIEQAERMVGIHIEQVVVGVNANQVQLLPCHGVVAVSNEDREIGNEDVLRVLDAAQVVSIAPEREFIDVVPRQFIVDGLDEINDPRGMIGVRLEMEGTLITGSRTLLHNLLRCVEKAGLEIVDICLQPLAAATVAISSDEKNRGVALVDMGGGSTTLSIFKDGELQATSVLPLGGDHITKDIAIGLKTSTENADQIKLKYGHAFYDTASEEEMFTVPIMGSDQTEQYSQLELSDIIEARVEEILMFVQDEVRKLGVKQVASGYVLTGGIASMPGVLDLAYDILHENVRVATPDYIGVREPQYTSGVGLIKHSYQKAKLRGKNVQEKQEHFETVPAPAPTPVQQQPAKQKTRNQNNNNQNDDRMMSKVKRVFRYLWD				NA	NA	NA	NA	NA
AK009_02760	771	divIB	COG1589	Cell division protein DivIB	ATGAATAATAGTAAAGTGATTAAACTACAAGATCGTGTACCAAAATTGAAAAATCAAAAGAAAAAAAACAAAAAAAATGTTAATCATCGATTGATTTTATACATATCAATTTTATTTTTATTAGTGCTCTTTTTAATTTATTTTCGGTCTCCGCTTAGTAATATAAAAAAGATTAGTGTGTTTGGAAATCATTATATGACGGATGAGCAAGTAATGAAGGATTCAGGCGTGACATATGATACAAGCTATTTCCGAGTGACAGCACATAAAGCTGAAGAAAACTTAACGAAGCGAAAAGAAATTAAAGCAGTAAATGTAAAAAAACGTTTTCCAAACAAGATTGATGTTCATATTGAAGAATATTTAACGATTGGTTATATAAATAAAGAGGGAAAATTACAACCGTTATTAGAGAATGGAAAAACACTTGATGTACTACCTAATGGAAAACTTCCTGTTGCAGCACCGATTTTCGAACCTTTTAAAGAAGAGAAAATGAAGGAGTTAATCGCTGAACTAGAAAAATTAACACCAGCTATTTTAAAATCTATTTCGGAGATTCGCTATTCTCCAACGAATGCGAATGAAGATCATCTTACTTTATATATGAATGAAGGTTATGAAGTGAGCACTACGATTCAAAATTTCGCAAAACGTATGGAAGCCTATCCGCTTATTTTAAAAACAATTGAGCCAGGTAAGAAGGTATTAATTGATTTAGAAGTAGGTGCATATACGAAAGAATTAGGTGCGGAAGAAAAAAAAGAATAG	MNNSKVIKLQDRVPKLKNQKKKNKKNVNHRLILYISILFLLVLFLIYFRSPLSNIKKISVFGNHYMTDEQVMKDSGVTYDTSYFRVTAHKAEENLTKRKEIKAVNVKKRFPNKIDVHIEEYLTIGYINKEGKLQPLLENGKTLDVLPNGKLPVAAPIFEPFKEEKMKELIAELEKLTPAILKSISEIRYSPTNANEDHLTLYMNEGYEVSTTIQNFAKRMEAYPLILKTIEPGKKVLIDLEVGAYTKELGAEEKKE				NA	NA	NA	NA	NA
AK009_02761	906	murB_1	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGGAACAATTAGTAAATGAGCTTATAGAAGCAGACGTTGGTCGTGTTTTAGTTAACGAGTCGTTAGCGCGTTATACAACTATGAAAATAGGTGGACCAGCGGATATTTTAATTGTGCCTAAGCATGTAGCCGGTATTGAAAAAACATTACAGTTAGTAAAGCAATACAAAACGAAGTGGACTGTAATTGGGCGCGGTTCAAACCTTCTTGTATCTGATCGAGGCATAGAAGGTGTTGTTATTCGTTTAGGAGAAGGATTAGATCACTTAGAGGTCGAAAAACATAAGGTAAGAGTTGGTAGTGGATATTCTCTTATTAAATTGTCAACTTTACTTAGTCGTCAAGGGTTAGCTGGATTGGAGTTTGCAAGCGGCATTCCAGGAAGTGTCGGTGGTGCAGTATATATGAATGCAGGTGCACATAAATCGGATATATCGAGTGTATTATCGAAGGCTCTCATTCTGTTTGAAGACGGTACAATTGACTGGTTAACGAATAAAGAACTGGAGTTTTCTTATCGGGCATCTGTATTGCAAACGAAACGGCCTGGTATTGTTTTAGAGGCGGAGTTTCAATTACAGGCGGGAAAACGTGAAGAAATTGTACGTAGCATGCAAAATAATAAAGATTACCGCCGTGAAACGCAACCATGGAATCACCCGTGTGCAGGAAGTATATTTCGGAATCCAATCCCACATTTTGCAGGCGATTTAGTAGAAAAAGCAGGGCTTCGTGGTTATAGGATTGGTGGAGCTCAAATTTCTCAAATGCATGGCAATTTTATTGTTAATACCGGGGGAGCTTCAGCGCAAGATGTATTGTCCTTAATTGAATTAATAAAACATACAATTAAGGATAAATTTGATGTAGATATGCACACAGAAGTAGAAATCATTGGAAGATAA	MEQLVNELIEADVGRVLVNESLARYTTMKIGGPADILIVPKHVAGIEKTLQLVKQYKTKWTVIGRGSNLLVSDRGIEGVVIRLGEGLDHLEVEKHKVRVGSGYSLIKLSTLLSRQGLAGLEFASGIPGSVGGAVYMNAGAHKSDISSVLSKALILFEDGTIDWLTNKELEFSYRASVLQTKRPGIVLEAEFQLQAGKREEIVRSMQNNKDYRRETQPWNHPCAGSIFRNPIPHFAGDLVEKAGLRGYRIGGAQISQMHGNFIVNTGGASAQDVLSLIELIKHTIKDKFDVDMHTEVEIIGR	PGPT0024115_4068	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
AK009_02762	1170	murG_1	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGTGTGTAAAAATGCAATATGTATATAGAAATAAATATAATGGAAATAAGAAAAGAGAAGCGGAGGAGTTAGTAGTGCGTGTATTAGTGAGTGGTGGGGGTACTGGTGGTCATATTTATCCAGCTCTTGCTTTAATTAGAGAAATAAAAAAGTTAAATCCAGAAGCAAGATTTTTATATATTGGTACGGAAAATGGACTAGAGAGTACAATCGTTCCAAAAGCAGGTATACCATTTCAATCTATTGTTATAAGCGGATTTAAACGAAAAATATCATTAGATAATGTGAAAACAGTAATGCGTTTTCTAAAAGGTGTACAGGATAGTAAACGATATATTCGTCGTTTTAATCCGGATATCGTAATTGGAACGGGTGGATATGTATGTGGACCAGTTGTATACGCTGCAGCCAAATTAGGTATTCCGACTATTGTACATGAACAAAATAGTGTACCAGGTGTAACGAACAAATTTTTAAGTCGTTATGTTGATAAAGTTGCTGTTTGTTTTGAAGCAGCTACAGAGCATTTTCCAGAGTCAAAAGTGGTAATGACAGGTAATCCGCGAGCATCAGAGGTAATGGATCAAAATGGAATGAAAGGGAAACGTTCAGTTGGGCTTTCTCTTCCTAAAAAGTCTGTACTTATATTTGGTGGAAGTCGTGGGGCTAGACCGATTAACGATGCCTTCGTTGAAGCAATTGAACAGTTTGGGAACAAAAGCTACGAAATACTATATGTAACAGGTGAAGTACATTATGACAAAGTGATGGAAGCCGTGAAGCAAAAAGGGAACCCGAACAATGTTATTATTAAGCCGTTCATTCATAATATGCCAGAGGTACTAACTGGTGTAGACCTTGTTGTTTCAAGGGCTGGGGCAACAACACTTGCAGAATTAACAGCGTTAGGAAAACCAAGTGTGTTAATACCGAGTCCGTACGTAACAAATAATCATCAGGAAAAGAATGCACGTTCAGTTGTTGATAAAGGAGCGGCAAAAATGTTACTTGAAAAAGATTTAACAGCTGAAACACTTATTCGTGATATTAATGAGATTTTATTGGATGCACAAACATTACAAAATATGAAGCTAGCTGCTAAGAAACTAGGTATTCCAGATGCAGCAAATAAGCTGTATGAAGTAATGAATAAGCTTGTAAAAAAATAA	MCVKMQYVYRNKYNGNKKREAEELVVRVLVSGGGTGGHIYPALALIREIKKLNPEARFLYIGTENGLESTIVPKAGIPFQSIVISGFKRKISLDNVKTVMRFLKGVQDSKRYIRRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAVCFEAATEHFPESKVVMTGNPRASEVMDQNGMKGKRSVGLSLPKKSVLIFGGSRGARPINDAFVEAIEQFGNKSYEILYVTGEVHYDKVMEAVKQKGNPNNVIIKPFIHNMPEVLTGVDLVVSRAGATTLAELTALGKPSVLIPSPYVTNNHQEKNARSVVDKGAAKMLLEKDLTAETLIRDINEILLDAQTLQNMKLAAKKLGIPDAANKLYEVMNKLVKK	PGPT0024150_417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
AK009_02763	1092	ftsW_1	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAAGAAAACGCCTGATTTTATTCTCATCATCGTAACACTTTCATTGTTGACAATCGGAATGATTATGGTTTATAGTGCGAGTGCAGTTTGGGCCTCTTATAAAATGGGGGACTCATTCTTTTTTGCCAAAAGACAATTACTGTTTGCGGGTCTTGGTGTAGTAGCTATGTTTTTTATTATGAAAATTGATTATTGGGTGTGGCGTACGTATTCAAAAGTAATTTTGCTAGTTTGCTTCATTCTTCTTATTCTCGTTCTTATTCCTGGAGTAGGTCTTGTTCGAGGAGGAGCACGAAGTTGGATTGGGATCGGAGCATTTTCGATTCAACCGTCAGAATTTATGAAGTTTGCGATGATTATTTTCTTGGCAAAGTTTTTAGCGGAACGGCAAAAATTGATTACATCTTTTAAACGTGGTTTATTACCGGCTCTTAGTTTTGTGTTTCTTGCTTTTGGGATGATTATGTTACAGCCAGACCTTGGGACAGGAACGGTAATGGTTGGGACATGTATCATTATGATATTTATTTCGGGAGCGAGGGTCTTTCACTTTGCGATGTTTGGTTTGCTTGGTGTAGCAGGGTTTGTAGGGTTAATCGCATCAGCACCGTATCGAATGAAGCGCATTACATCATATTTAGACCCGTGGGCAGATCCGCTTGGAAGTGGATTTCAAATTATCCAATCATTACTCGCAATTGGACCCGGTGGATTATTTGGACTTGGGCTTGGACAAAGTAGACAAAAATTTCTTTATTTACCTGAACCACAAACTGACTTTATATTTGCAATCTTATCCGAGGAATTAGGTTTTATTGGTGGTTCATTTGTGTTATTATTATTTAGTCTATTATTATGGCGCGGGATTCGTATCGCATTAGGAGCGCCAGATTTATATGGTACGTTTTTAGCAGTAGGTATTGTGGCGATGATTGCGATTCAAGTAATGATTAATGTTGGTGTTGTAACAGGACTGATGCCCGTTACGGGTATTACCTTGCCGTTTTTAAGTTATGGTGGATCAAGTTTGACATTAATGTTAATGGCAGTAGGTGTATTATTAAATATAAGTCGCCATTCTCGCTACTAA	MKKTPDFILIIVTLSLLTIGMIMVYSASAVWASYKMGDSFFFAKRQLLFAGLGVVAMFFIMKIDYWVWRTYSKVILLVCFILLILVLIPGVGLVRGGARSWIGIGAFSIQPSEFMKFAMIIFLAKFLAERQKLITSFKRGLLPALSFVFLAFGMIMLQPDLGTGTVMVGTCIIMIFISGARVFHFAMFGLLGVAGFVGLIASAPYRMKRITSYLDPWADPLGSGFQIIQSLLAIGPGGLFGLGLGQSRQKFLYLPEPQTDFIFAILSEELGFIGGSFVLLLFSLLLWRGIRIALGAPDLYGTFLAVGIVAMIAIQVMINVGVVTGLMPVTGITLPFLSYGGSSLTLMLMAVGVLLNISRHSRY	PGPT0014810_4817	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK009_02764	1353	murD		UDP-N-acetylmuramoylalanine--D-glutamate ligase	TTGAAAACTGTAACTGAATTTCAAAATAAAAATATTCTTGTATTAGGCATTGCAAAGAGTGGTTATGCAGCAGCTACTTTGTTGCAAAAATTAGGGGCGAATGTCATTGTAAATGACGGAAAGCCTTTAGCAGACAATGTACTTGCTGCAGAATTACAAGCAAAAGGAATGGACGTTGTATGCGGTGGCCATCCTTTAGAATTATTAGAGAGAAATATTTCTCTTGTCGTTAAAAATCCAGGAATCCCGTATTCTAATCCAATATTAGTTGCTGCGAAAGAAAAAGAAATTCCAATTGTTACGGAAGTTGAATTAGCATATCGTATTTCAAAAGCACCATTTGTTGGAATTACAGGGTCTAATGGTAAAACGACGACAACAATGCTGACATTTGAAATGTTAAAAGAAGGGCAAAAGCATCCTGTTATTGCAGGGAATATAGGAACTGTAGCTTGTGAAGTAGCACAGGATGCAAAAGAAAATGAAGTTGTAGTTACAGAGCTTTCATCGTTCCAATTGATGGGAGTAGAATCGTTCCAACCTAAAATTGCAGCGTTCTTAAACTTATTTGAAGCCCACTTAGATTACCATGGGACGAAGAAGGAATATGGTTTAGCAAAAGCAAATGTTTTTAAAAACCAAACAGAAAACGATTATAGTGTAATAAATGCGGATGATGCAGATGTGATGGAGTTATCTGCGGATACTAAAGGTCAAAAAATCCTGTTTTCGACAACGAAAGAAATTGAAGATGGTGCGTGTATAAAAGATAACGCTCTTTATTTCAAAGGTGAAAAAGTTGTTGAAGTAAGTGATATCGTTTTACCTGGTCAACATAATCTAGAAAATATTTTAGCTGCGATGAGTATTGCGAAATTATTAGGTACTTCTAATGAAGCAATTACGGTCGTGTTAAAACGTTTTACTGGTGTAAAACATCGTTTAGAATATGTAACAACGATTAACAACCGTAAGTTTTATAATGATTCAAAAGCAACGAATATGTTAGCGACTGAGAAAGCACTATCTGCGTTTACACAACCGATTGTGTTACTAGCAGGTGGGCTTGATCGCGGAAATGAATTCGATGATTTAATTCCGTATTTCAAAAATGTAAAAGCGATTGTAACATTTGGACAAACAGCTCCCAAACTAGTAAGAGCGGCAGAAAAAGCGGGATTAGATATAATTGAAAGTGTCGATACTTTAGATGAAGCAGTGGTGAAAGCTTATGCTCATTCTAAAGAAGATGATGTTGTTCTTCTTTCTCCAGCGTGTGCAAGCTGGGATCAATTTAAAACATTTGAAGAAAGAGGAGACATTTTTATACAAGCTGTGCATAAACTTATATAA	MKTVTEFQNKNILVLGIAKSGYAAATLLQKLGANVIVNDGKPLADNVLAAELQAKGMDVVCGGHPLELLERNISLVVKNPGIPYSNPILVAAKEKEIPIVTEVELAYRISKAPFVGITGSNGKTTTTMLTFEMLKEGQKHPVIAGNIGTVACEVAQDAKENEVVVTELSSFQLMGVESFQPKIAAFLNLFEAHLDYHGTKKEYGLAKANVFKNQTENDYSVINADDADVMELSADTKGQKILFSTTKEIEDGACIKDNALYFKGEKVVEVSDIVLPGQHNLENILAAMSIAKLLGTSNEAITVVLKRFTGVKHRLEYVTTINNRKFYNDSKATNMLATEKALSAFTQPIVLLAGGLDRGNEFDDLIPYFKNVKAIVTFGQTAPKLVRAAEKAGLDIIESVDTLDEAVVKAYAHSKEDDVVLLSPACASWDQFKTFEERGDIFIQAVHKLI	PGPT0024125_2876	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
AK009_02765	975	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	GTGCTTGAGCAAGGTTTATTAGTAACGGCTGGGGTAGCATTCTTAATTTCTGTTGCCCTTTCGCCATTGTTTATTCCATTTTTAAGAAAATTAAAGTTCGGACAGAGTATTCGTGATGAGGGACCAAAGTCACATCAAAAAAAATCAGGGACACCGACAATGGGCGGTATTGTCATATATGTATCTATGATGGTCACTTCACTTATTATGGCGATTAAGTTTAATCATTTAGGTGCAGAGGTTTCGTTATTATTATTAGTGACATTTGGTTATGGATTGATTGGATTTTTAGATGACTACATAAAGGTAGTTAAGAAGAGAAATCTTGGTTTAACATCAAAACAAAAATTAGTAGGTCAGCTTGTTATTGCTATTGCGTTCTTTTTAATTGGAAAAGGGCAAGCATTTCACACATATATCATGATTCCAGGTACGGATGTTAAGTTTGAATTAGGTTGGGCGTATTTTGTACTTGTGCTATTTATGCTAATCGGTGGCTCGAATGCGGTTAACTTAACTGATGGTTTAGATGGTTTATTATCAGGAACAGCGGCTATTGCATTTGGAGCATTTAGTATTATTGCAGTAGCGCAAGAACAATTTGGAGTTGCGATATTCTGTATGGCAGTTGTCGGAGCAGTACTGGGATTTTTAGTATTCAACGCGAATCCAGCAAAAGTATTTATGGGGGATACAGGTTCCTTAGCTTTAGGTGGAGCTATCGCAGCTGTAGCAATTTTATTAAAACAAGAATTACTACTTGTAATTATTGGTGGAGTATTCGTAATGGAAACTTTATCTGTTATTATTCAAGTTATTTCGTTTAAAACAACAGGAAAACGTGTCTTTAAAATGAGTCCATTACACCACCATTATGAATTATGTGGTTGGTCAGAATGGCGCGTTGTTGTAACGTTTTGGTCTGTAGGATTTTTATTAGCTGTGTTAGGAATTTATATCGGGGTGTGGATGTAA	MLEQGLLVTAGVAFLISVALSPLFIPFLRKLKFGQSIRDEGPKSHQKKSGTPTMGGIVIYVSMMVTSLIMAIKFNHLGAEVSLLLLVTFGYGLIGFLDDYIKVVKKRNLGLTSKQKLVGQLVIAIAFFLIGKGQAFHTYIMIPGTDVKFELGWAYFVLVLFMLIGGSNAVNLTDGLDGLLSGTAAIAFGAFSIIAVAQEQFGVAIFCMAVVGAVLGFLVFNANPAKVFMGDTGSLALGGAIAAVAILLKQELLLVIIGGVFVMETLSVIIQVISFKTTGKRVFKMSPLHHHYELCGWSEWRVVVTFWSVGFLLAVLGIYIGVWM	PGPT0024105_3990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
AK009_02766	1476	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGAAGTTGCATACACTTTTATCATGTTTGCATGATTTTCCAGTTGTTCCAAAAGAAAATCCAGAAATCACATCTATAGAAGCTGATTCACGTAAAGTGAAAGAAGGAAGCTTATTTGTATGTATGAAAGGATATACGGTTGATAGCCATGATTTTGCTAAGCAAGCAGCGGCACAAGGAGCGGCTGCTATTGTTGCGGAAAGACCAATTGATGTTGACGTTCCAGTTGTACTTGTGAAAAATACTTTTCGTTCGTTAGCGGTTTTAGCTGATTATTTTTATGGTCAACCGACACACAAGTTACATTTAATCGGAATTACAGGTACAAATGGAAAGACAACAACATCGCATATTATGGATGAGATTATGCGAGCACATGGTCATAAAACAGGGCTAATTGGGACGATTAATATGAAAATCGGTGATGAAACATTTGAGGTGAAAAATACAACACCAGATGCACTAACACTTCAACAGACGTTTTCAAAAATGGTTGAACAAGGTGTGGACAGCACGGTAATGGAAGTTTCGTCACATGCGTTAGATCTTGGTCGTGTACACGGATGTGATTACGATGTAGCGGTGTTTACGAATTTAACACAAGATCATTTAGATTATCATAAAACGATGGAAGAATATAAACATGCAAAAGGGTTACTATTTGCACAGCTTGGCAATAGTTATAATCATAATCGTGAAAAGTACGCTGTGCTGAATAGCGATGATAATGTAACAGAAGAGTATATGAGAAGTACTGCAGCAACAGTTGTAACATATGGTATTGATACAACAAGTGACATTATGGCAAAAAATATCGTTATGACGAGTGGCGGGACTACATTTACGCTTGTCACACCGTATGAAAGTGTAAATGTTACGATGAAATTAATAGGTAAATTCAATGTATATAACGTACTTGCAGCAACAGCAGCAGGACTTGTTTCGGGTGTGAAATTACAAACAATCATTGCTGTTATAAAAGAACTAGCTGGGGTTCCAGGACGTTTTGAAGTTGTTGATGGCGGACAAAATTATACAGTTATTGTTGATTACGCGCATACGCCGGATAGTTTAGAAAATGTATTAAAAACTGCAAAACAATTTGCAAAAGGTGATGTGTATTGTATCGTTGGTTGTGGCGGCGATAGGGATCGAACAAAGAGACCGATAATGGCAAGTGTTGCAACAAAATATGCAACTCATGCAATTTATACATCAGATAATCCAAGAAGTGAAGATCCAGCGGCTATTTTAGATGATATGGTACAGGGTGCAAGTGGGAATAATTATGAAGTGATTATTGATAGAAAAGAAGCGATACACCATGCGATCGCTAATGTGAAAGCAGATGATATCATTATTATTGCTGGTAAGGGTCATGAAACGTATCAAATTATTGGTAAAGAAGTTCATCATTTTGATGATCGTGAAGTTGCGAAAGAAGCAATTACAGGGCGTTTAAACAACCAAGAGTAA	MKLHTLLSCLHDFPVVPKENPEITSIEADSRKVKEGSLFVCMKGYTVDSHDFAKQAAAQGAAAIVAERPIDVDVPVVLVKNTFRSLAVLADYFYGQPTHKLHLIGITGTNGKTTTSHIMDEIMRAHGHKTGLIGTINMKIGDETFEVKNTTPDALTLQQTFSKMVEQGVDSTVMEVSSHALDLGRVHGCDYDVAVFTNLTQDHLDYHKTMEEYKHAKGLLFAQLGNSYNHNREKYAVLNSDDNVTEEYMRSTAATVVTYGIDTTSDIMAKNIVMTSGGTTFTLVTPYESVNVTMKLIGKFNVYNVLAATAAGLVSGVKLQTIIAVIKELAGVPGRFEVVDGGQNYTVIVDYAHTPDSLENVLKTAKQFAKGDVYCIVGCGGDRDRTKRPIMASVATKYATHAIYTSDNPRSEDPAAILDDMVQGASGNNYEVIIDRKEAIHHAIANVKADDIIIIAGKGHETYQIIGKEVHHFDDREVAKEAITGRLNNQE	PGPT0024130_2944	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK009_02767	1917	spoVD	COG0768	Stage V sporulation protein D	ATGCGTGTATCAAATGTAACAGTTAGAAAACGACTTATTTTTATACTTATATCAGGTATACTTATCTTCACTATTATCGATATTCGTCTTGGATATGTGCAATTTTTTCTTGGGAATATGTTAACGGATCGTGCGAAAGATTCATGGAGTCGTAATATTACTTTTGAACCCGAACGTGGGAAAATTTTAGACCGAAATGGTGTGGAACTTGCCACGAATAAAAGTGCTCCAACTGTCTTTGTTGTACCGAGGCAAATTGAAAAACCAGCAGAGACTGCAGAGAAGTTAGCTGCAGTATTAGGTGTGGAAAAAGATGAGATTTATAAGAGGATTACAAAAAAAGAATCGATTGTAAGGTTAGATAAAGGCGGAAGGAAAATATCACATGACAAAGCGAAAGAGGTACGAGGCTTAAGTTTGAAGGGCGTGTATATCGCAGAGGATTCTATCCGGTACTACCCATTTGGAAATTTTTTATCACATGTATTAGGTTTTGCAGGTAGCGATAACCAAGGTCTTATGGGACTAGAAAAATATTATGATAAGGAGCTAAATGGGGACAAAGGTCATGTGCGTTTTTTTGCAGATGCGAAAGGACAAAGGATGCCTAATGTTGGTGATGATTTCAAAAAACCAGAAGCTGGTTTAAATTTAGGATTAACAATCGATGCGCGTATTACAAGGATTATGGAAAGAGAAATGAATATTGCGGAGTCAACTTATAATCCAGACGGTATGATTGCGATTGCAATGAATCCTAAAAATGGTGAAATTTTAGGTATGTCTAGTCGGCCGAGTTTTGATCCAGCGGATTTTCAAAGTGTCTCTCCAGAAGTGTATAACAGAAATCTACCTGTGTGGAGTACGTATGAGCCTGGTTCAACATTTAAGATCATTACATTAGCTGCAGCATTGAATGAAAATTTAGTAGACTTAGAGAAGGATACGTTTTATGATGATGGAGCAGCTGAAGTCGGTGGAGCTAGATTGAAATGCTGGAAAGCAGGAGGTCATGGCAGTCAAACGTTTTTAGAAGTCGTTCAAAACTCATGTAACCCGGGATTTATTGAACTTGGTGATCGCCTTGGTAAAGACCGATTATTTAAATACATTCGTAATTTTGGTTTTGGGCAGAAGACTGGAATTGACTTGCAAGGTGAAGGCAGTGGGATTTTATTTAATTTAGATAAAGTTGGTCCAGTAGAGCAAGCAACAACTTCATTCGGCCAAGGGGTTTCTGTTACACCAATTCAACAAGTAGCAGCTGTAGCGGCGGCTGTAAATGGTGGAACATTGTATCAGCCGTATATAGCTAAGGAGTTTATTGATCCAAAAAATAATCAAGTTGTTAGTAAAAAGACACCTGTTGAGAAAAGAAAAGTTATTTCCAAGGAAACTTCAGAAAAAGTTCGTTATGCATTAGAGAATGTTGTAGCGAAAGGTTCTGGTAAAGGAGCTTATATTGATGGATATCGTGTAGGTGGAAAAACGGGTACTGCTCAAAAGGTGAAAGATGGTAAATATTTAGAGAATAATTATATTGTATCTTTTATCGGATTTGCTCCAGCGGATGATCCAGAGATTGTTGTGTATGTTGCTGTGGATAATCCAAAAGGGGTTACACAGTTTGGTGGAGTGGTAGCAGCTCCAATTGTCGGGAATATCCTTCGAGATGCTCTTCCTGTTATGGGAGTGAAACCGAGAAAAGAACAAGTTGAGAAAGAATATAAATGGGGCGATACACCAACTGTGGAAGTTCCGAATTTAATTGGAATGAAAAAGAAAGACTTACAAACACAACTCGTCGATTTGCAGCTTGATATAAGTGGAGATGGAGAGAAAGTAATTAAGCAATCACCAGAAGCGGGAGCTAAAGTAAAAGAAGGCTCAAAAATTAGAATTTACTTCGGGAATTAA	MRVSNVTVRKRLIFILISGILIFTIIDIRLGYVQFFLGNMLTDRAKDSWSRNITFEPERGKILDRNGVELATNKSAPTVFVVPRQIEKPAETAEKLAAVLGVEKDEIYKRITKKESIVRLDKGGRKISHDKAKEVRGLSLKGVYIAEDSIRYYPFGNFLSHVLGFAGSDNQGLMGLEKYYDKELNGDKGHVRFFADAKGQRMPNVGDDFKKPEAGLNLGLTIDARITRIMEREMNIAESTYNPDGMIAIAMNPKNGEILGMSSRPSFDPADFQSVSPEVYNRNLPVWSTYEPGSTFKIITLAAALNENLVDLEKDTFYDDGAAEVGGARLKCWKAGGHGSQTFLEVVQNSCNPGFIELGDRLGKDRLFKYIRNFGFGQKTGIDLQGEGSGILFNLDKVGPVEQATTSFGQGVSVTPIQQVAAVAAAVNGGTLYQPYIAKEFIDPKNNQVVSKKTPVEKRKVISKETSEKVRYALENVVAKGSGKGAYIDGYRVGGKTGTAQKVKDGKYLENNYIVSFIGFAPADDPEIVVYVAVDNPKGVTQFGGVVAAPIVGNILRDALPVMGVKPRKEQVEKEYKWGDTPTVEVPNLIGMKKKDLQTQLVDLQLDISGDGEKVIKQSPEAGAKVKEGSKIRIYFGN	PGPT0024085_481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024085-spoVD-K08384	NA	NA
AK009_02768	2100	pbpB_2	COG0768	Penicillin-binding protein 2B	ATGATATTTTTCCTCCTGCTCTTTTTGCTGTTATTAGCCCGATTTTTTTACATACAATCAACAGGAACAGTTCATAATCAAGATTTAGATGCACTTGCTAAACAAAAGCATAGTAAAACAGGAGTTCTTGAAGCGAACAGAGGAACCATTTATGATCAAAACGGTCATGTGTTAGCGCAAGACGCAAACTCTTATAAAATAGTAGCCGCCCTAAAAGGTGCTAACTCTGTTGAGAATAAAGAAGATACTGCAAAGAAAATTGCAGGAGTACTTGGAAAAGGCGAAGAGGATATTTTAGCTTCTTTAAATAAGGAAGGTAGAAGTCAAGTCGAATTTGGAACGTTAGGTAAGGATTTGACGAAAGAAAAGAAGGAACAAATAGAAGCGTTGAAGTTGCCGGGAATATCTTTTATTACAGAAAATGCAAGGGTGTATCCAAACGGTGATTTCGCATCTTACGTTATAGGTCATGCAAAACCAAATGAGAATGGAACCTCGGTAGGTCAATTTGGCATAGAGAAAAGCTTGGATAAATATTTAAGTGCTTCTAACGGAGAAGTAGCATATACAGGTGACCGTAAAGGTGTGTCTCTTGATGGTGGAAAAGTTAATGTAAAGGCACCTAAAAATGGAGATAACGCGTATTTAACAATTGATCACCGTGTCCAAAGTTATTTAGAAGACGCGATGAAAGCAGCAAGTAAGCAATATGAACCAGAAAGTTTAATAGGGATTGTTGCAGATCCGAAAACTGGAAAAATATTAGCGACGTCTACTAAACCTAGTTATGACCCTAATGATCGTCAAATTAAATATTTCTTCAATGACGCAATTGCCAATGCATTTGAACCTGGATCAACAATGAAAATTTTCACGTTAGCGGCAGCTATTAATGAAGGTGTGTACAAAGGGCAAGATTATTATCAGTCCGGGACATATCAAGTCGGAAATAGGAAAATAAAAGATCATAACGGCGGTGCTGGTTGGGGCTCTATCACGTTTGATGAAGGGGTAGAACGTTCTTCAAACGTAGCGTTTGCAATTTTAGGAGATCAAAAACTTGGTCCAGAACGTTTCCGAAAATATATTCATAGTTTTGGATTAGATGAAAAAACGAACATTGATTTATCAGGTGAAGGATCGAATACAATTTTATTTGATCAGCAAATACAACAAGTGACAACAGCTTTTGGACAAGGTTCCACTGTAACACCAATTCAGCTTGTACAAGCTGCAACAGCTATTGCAAATGATGGGAAAATGATGAAACCTTATGCAATTGATAAAATTGTAGATCCGATAACAGGGAAAGTAAAATTAGAACATAAGCCAGAAGAAGTAGGAAAACCTGTTACAAAGGAAACAGCAGCGCAAGTAAGACAGTTATTAGAACGTGTTGTTACATCTCCGAAAGGTACAGGGACAGCTTATAAAATTGATGGATATTCAGTTGGTGGTAAAACAGGTACAGCGCAAATTCCGGATGGAAAAGGCGGCTATATGACAGGGAGACAGAATTATATATTCTCATTCTTAGGTATGGCACCAATGGACGACCCACAACTTGTTGTTTATGTAGCTGTAAAACAGCCGAAATTAAAAGATGATGAGAACGGTGCACAGCCTTTAGCTGATATTTTTAAATATGTAACAAAAAATAGTTTAGAGTATTTAAAGATTAAGCCAAATGAAGTGAAAGATCCGAAAAAACATCTGAAAGAGCAACAAACTACTGTTCCAGATGTAACTGGTAAAACGATGGCTGAAGCGGGGAAAGCAATTGATAAAGCAAAACTTCGTCCAATCGTATTAGGTGAAGGGAAAGTACAGCAACAAGTACCAAAAGCGACTGAACAAACATTGAAAGGCGACCGAGTCTTCTTGGTAGGAGATAAGCCTACAATGCCAAATATACAAGGATGGGCACTGCGTGATGTTATGAATTTAGCGAAGACATTACAGCTTAACTTGAAGCCTTCTGGTACAGGATACGTAACAGAACAAAGTGTGGCGGAAGGAACATTATTACAACCTGGTACAGAATTAGGTGTCACACTCGTACCGCCACTCGAACCACAACAAGAAGCAGAAAAGCCGTAA	MIFFLLLFLLLLARFFYIQSTGTVHNQDLDALAKQKHSKTGVLEANRGTIYDQNGHVLAQDANSYKIVAALKGANSVENKEDTAKKIAGVLGKGEEDILASLNKEGRSQVEFGTLGKDLTKEKKEQIEALKLPGISFITENARVYPNGDFASYVIGHAKPNENGTSVGQFGIEKSLDKYLSASNGEVAYTGDRKGVSLDGGKVNVKAPKNGDNAYLTIDHRVQSYLEDAMKAASKQYEPESLIGIVADPKTGKILATSTKPSYDPNDRQIKYFFNDAIANAFEPGSTMKIFTLAAAINEGVYKGQDYYQSGTYQVGNRKIKDHNGGAGWGSITFDEGVERSSNVAFAILGDQKLGPERFRKYIHSFGLDEKTNIDLSGEGSNTILFDQQIQQVTTAFGQGSTVTPIQLVQAATAIANDGKMMKPYAIDKIVDPITGKVKLEHKPEEVGKPVTKETAAQVRQLLERVVTSPKGTGTAYKIDGYSVGGKTGTAQIPDGKGGYMTGRQNYIFSFLGMAPMDDPQLVVYVAVKQPKLKDDENGAQPLADIFKYVTKNSLEYLKIKPNEVKDPKKHLKEQQTTVPDVTGKTMAEAGKAIDKAKLRPIVLGEGKVQQQVPKATEQTLKGDRVFLVGDKPTMPNIQGWALRDVMNLAKTLQLNLKPSGTGYVTEQSVAEGTLLQPGTELGVTLVPPLEPQQEAEKP	PGPT0023935_439	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724	NA	NA
AK009_02769	363	ftsL_1	COG4839	Cell division protein FtsL	ATGACTAATTTAGCTGTAAAGTACAAACAACAAGCGCAAGAAGAGGTGCAAATTCAAACGCCCCCACAGCAGATGGTTAAGCCGAAAGTTAAAGCGAAAATTACAAGAATCGAAAAACTGTTGTATGTAGCGTTTATTGGCTTTTTATTGTATGCCTGTGTCGCGTTTATTGGAAATAAAGCAGGCCTTTATCAAGTTAATGTAGAAGCAGCGACGATAGAAGAAAAAATTGTACAGCAGCAAAAAGAAAATCAAGAATTACAAGCTGAAGTAGAGAAGTTAAGTCGCTATGAACGAATCGCTGAAGTTGCAAAAAAACACGGGCTAGAAATTAATGCGAATAATGTGAAAGGCCTCAAATAA	MTNLAVKYKQQAQEEVQIQTPPQQMVKPKVKAKITRIEKLLYVAFIGFLLYACVAFIGNKAGLYQVNVEAATIEEKIVQQQKENQELQAEVEKLSRYERIAEVAKKHGLEINANNVKGLK				NA	NA	NA	NA	NA
AK009_02770	933	rsmH		Ribosomal RNA small subunit methyltransferase H	ATGTTTAAACACGTAACAGTGCTTTTAAAGGAAACAGTAGACGGCTTAGATATAAAGCCAGATGGTACATATGTAGATTGTACACTGGGGGGAGGAGGACATAGTTCTTATTTATTATCCCAATTAACTGAAGGTGGAAAATTAATAGCGTTTGATCAAGATGAGATAGCGATTCAAAACGCGAAAGAAAAGTTCTCTTCATACGGTGAACAGTTTATAACAGTAAAGAGTAACTTCCGCTATTTAGCTGAAAAACTGCAGGAAATAGGTATAACAGAAGTAGACGGTATTTTATTTGATTTAGGTGTTTCATCCCCACAATTAGATACACCAGAGCGAGGCTTTAGTTATCATCATGATGCACCGTTAGATATGCGGATGGATCAAGATGCCCCATTAACAGCATATGATGTTGTAAATAGTTGGTCATATGAACAACTTGTAAGGATTTTCTTCCAATACGGTGAAGAGAAATTTTCAAAACAAATTGCAAGAAAAATTGAAGCTTATCGTGAGAATAAAGCTATTGAAACGACAGGAGAATTAGTAGAGCTAATTAAAGAAGGTATTCCGGCTCCTGCTCGTAGAACTGGTGGGCATCCTGCTAAGCGAGTGTTTCAGGCAATTCGTATAGCTGTAAATGATGAATTAAAAGTATTTGAAGAAGCATTGGAATCTGCTATTGAGATGGTTAAGCCAGGTGGAAGAGTTAGTGTTATAACATTCCATTCATTAGAAGATCGTATTTGTAAAACAACGTTTAAGCGAAATAGTACAACGCCACAATTGCCGCCAGGATTACCGATTATTCCTGATGAATTTAAGCCAAAATTAAAGCTTATTACAAGAAAACCGATTTTACCTTCTGATATAGAGCTAGAAGAAAATAATCGTGCGCGTTCTGCGAAGTTGAGAATCGCTGAAAAACGATAA	MFKHVTVLLKETVDGLDIKPDGTYVDCTLGGGGHSSYLLSQLTEGGKLIAFDQDEIAIQNAKEKFSSYGEQFITVKSNFRYLAEKLQEIGITEVDGILFDLGVSSPQLDTPERGFSYHHDAPLDMRMDQDAPLTAYDVVNSWSYEQLVRIFFQYGEEKFSKQIARKIEAYRENKAIETTGELVELIKEGIPAPARRTGGHPAKRVFQAIRIAVNDELKVFEEALESAIEMVKPGGRVSVITFHSLEDRICKTTFKRNSTTPQLPPGLPIIPDEFKPKLKLITRKPILPSDIELEENNRARSAKLRIAEKR				NA	NA	NA	NA	NA
AK009_02771	1617	bshC	COG4365	Putative cysteine ligase BshC	ATGGAGATAAAAGAAATCTCTGTTCCGCAACAAGGTGTTGTAGCGGACTATATGAACGGTAAAAAAGAGATACAGTCATGTTTTGATTATATGTTAACAGAAGATGCTTTTAAACAGCGTTTACATGATTTGCGTGAAAGGGAGTTTTTCCGCCAAGATGTAGTAGCGCATTTATTAGAATATAATACAAAATTACAAGCGGGAGAATCTACACTTCAAAATGTAAAAGCGCTTGGAGATGAAAATACATATGTTGTAATAGCTGGACAACAAGCGGGGTTATTAACTGGACCGCTTTATACAATTCATAAAGTTATTTCAATTTTAAAGCTTGCAAAGGAAAAAGAAGAAAGTTTAGGGGTGAAAGTTGTCCCTGTCTTCTGGATTGCGGGTGAAGACCATGATATGGATGAGATTAACCATACTTTTTTAGCGAAAAATAAAAAGATGAAAAAAACTATTTTTTATGATCGTAATCCGAAAAAGGCGAGTGCTTCTGAGTCTGAACTTTCTGTTGAAGATTGTAGAAATTGGATTGAAGAGATTTTTAAAACATATCCAGAAACAAATTTTACAAAGGATGTATTAAAATTTGTTGATGATGCTTTGGAAAAATCGAATACGTATGTAGATTTCTTTGCTCATCTTATTACGAAAATCTTTGCTAATTCTGGTTTAATCCTTGTTGATTCACATCATCCTGAATTAAGAAAGTTAGAAATTCCATTTTTTAAGCGAATTATAAGTAAGTATAAAGAGGTACAAGAGGGCCTTCGTAATCAGCAGGAAGTAATTAAAGAACTAGGATACAAACCGATTATTGAAACGAAGTCTCATGCAGTGCATATATTTATGGAAATAGATAATGAACGAGTATTGCTTGAAGAGCATCAAGGTAAGTTTGTTGGAAAGGATGGGGCGCATTCATTTTCATACGAAGAGTTGATTGAAGAGATGGAGAGAAATCCGGCACGTTTTAGTAATAATGTTGTAACACGTCCTCTTATGCAAGAGTATGTATTTCCTACGCTCGCATTTATTGGAGGTCCAGGGGAATTAGCTTATTGGAGTGAATTACAACAAGTATTCCATACTGTCGGTTTTCAAATGCCACCTGTCGTTCCTCGTCTTACAATTACTTATGTGGAGAGATGTATAGCGACAGATTTATTCGATCTGCAATTGAGAGAAAGTGATCCGTTTTTAAATGATGTCGATAAACTGCGTGAAAACTGGTTGTCTAATCAAATAGAGGAACCGATTGATAATCATTTTGAAAAGGCGAAAAAAGAAATTGCCGATATTCATACATCTTTACAGCAATTTGTAAAGAAAATAGAGCCGGGGTTAAGTGCGTTTGCAGGGAAAAACGAATTGAAAATTAATGAACAAATTGAACTGCTGGAAAGAATGTTGAAAAGAAATGTTGAGAAAAAGTATGAGGTTCAGCTAAATAAATTTCGCCGTATACAATTCGCACTTCGTCCATTAGGTGCGCCGCAAGAACGTGTGTGGAATGTATGTTATTATTTAAATCAGTTTGGTTTGGATTTCGTTGATCGTGTAATGGAAAACCCTTTTTCTTGGGACGGAAAACATCATGTTATAAAATTATAA	MEIKEISVPQQGVVADYMNGKKEIQSCFDYMLTEDAFKQRLHDLREREFFRQDVVAHLLEYNTKLQAGESTLQNVKALGDENTYVVIAGQQAGLLTGPLYTIHKVISILKLAKEKEESLGVKVVPVFWIAGEDHDMDEINHTFLAKNKKMKKTIFYDRNPKKASASESELSVEDCRNWIEEIFKTYPETNFTKDVLKFVDDALEKSNTYVDFFAHLITKIFANSGLILVDSHHPELRKLEIPFFKRIISKYKEVQEGLRNQQEVIKELGYKPIIETKSHAVHIFMEIDNERVLLEEHQGKFVGKDGAHSFSYEELIEEMERNPARFSNNVVTRPLMQEYVFPTLAFIGGPGELAYWSELQQVFHTVGFQMPPVVPRLTITYVERCIATDLFDLQLRESDPFLNDVDKLRENWLSNQIEEPIDNHFEKAKKEIADIHTSLQQFVKKIEPGLSAFAGKNELKINEQIELLERMLKRNVEKKYEVQLNKFRRIQFALRPLGAPQERVWNVCYYLNQFGLDFVDRVMENPFSWDGKHHVIKL				NA	NA	NA	NA	NA
AK009_02772	885	panE_2	COG1893	2-dehydropantoate 2-reductase	ATGAAAATTGGAATTGTCGGACCAGGTGCTATTGGTCTATTGTATACATTTTATTTACAAAAAAGTAACCAAAATGTTACGTTGTTTACAAGAACAGCTAAGCAGGCTGAAGAGTTAAATGAAACAGGTGTAACTTGTATTAGAGATAGAACATGTGAAACAGTATATCCATCTGTTTTACCGATAGAAAGTATGGTAGCGCAAAATTTAGATTATATATTTATTGCTGTGAAGCAATATCATATAGATGACATACTACCGTTTGTGGAAGGGGCAGCATCATTAATCTTTTTGCAAAACGGAATGTCACATCTTCAAAAGATGCTGAACATAGGGTGTGAAAATATAGCTGTTGGTATTGTAGAACATGGTGCGAAAAAAGAGGGAGGGCATATCGTTCATCATACTGGAGTTGGGGTAACGAAATTTGGAGTGGTTTGTGGTCAATCTATACATTTCGAAAGTGTATTCCATTCTTTTCCCGTGTCTTATTTTCCAGTTCAAATAGAAACGGATTGGAAAGAGATTATGCATAAAAAATTAGTGGTAAATGTATGTATCAATCCGTTGACGGCGTTATTGGGAGTTAAGAATGGTGAATTAACCAAGAATCGTTTTTTTTATCAAATGATGGAGCAAGTGTTTCAGGAGGTCGCCTTTCTTATTAGAGGAGAAAAAGAGATGGTATGGCAAATGGTACGCAATGTGTGTGAAGGAACGTCTCGTAATACATCCTCTATGCTAGCCGATGTAAGAGCGAATAGACAGACGGAAATTAATGCGATTGTTGGATATGTATTAGAAGAGGCTAAGAAACAGCAACGACCAGTTCCGACACTTCAATTTTTGTTCGATGCAATAAAAGGGTTAGAAACAAGAGTATAA	MKIGIVGPGAIGLLYTFYLQKSNQNVTLFTRTAKQAEELNETGVTCIRDRTCETVYPSVLPIESMVAQNLDYIFIAVKQYHIDDILPFVEGAASLIFLQNGMSHLQKMLNIGCENIAVGIVEHGAKKEGGHIVHHTGVGVTKFGVVCGQSIHFESVFHSFPVSYFPVQIETDWKEIMHKKLVVNVCINPLTALLGVKNGELTKNRFFYQMMEQVFQEVAFLIRGEKEMVWQMVRNVCEGTSRNTSSMLADVRANRQTEINAIVGYVLEEAKKQQRPVPTLQFLFDAIKGLETRV	PGPT0008745_4785	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
AK009_02773	474	ylbP		putative N-acetyltransferase YlbP	ATGGGATTCCCAAAAGTTGAGCGCTTGCTCATCAATTATAAAACGTTAGATGAATTTAAAAAATTTAAAGGGTGCGGAGCCCAAGAACTATCTATGCTGGAAGAATTGCAAGCAAACATTATTGAAAACGACAGTGAATCTCCATTTTACGGTATTTATTATGGCGGATCACTAATTGCACGTATGAGTCTATATATGAAAAGAAACGGCGGAGAACCATTCGAAATTACAGGTCCTTACCTAGAACTTTATAAACTTGAAGTATTACCAACTTTTCAAAAACAAGGATTCGGGCAAATGCTTGTAAATCATGCGAAACAAATGCAATTTCCTATTAAAACGATAGCGCGTATTCATTCATCTGGTTTTTGGGATAAATTAAGTTTCAACCCCGTATCAGTAACTGATGGAGATTTTTATATTTGGCATCCAGAAACAAATTTGAATACGGTTACAAACGAAGAATCGGCTTAA	MGFPKVERLLINYKTLDEFKKFKGCGAQELSMLEELQANIIENDSESPFYGIYYGGSLIARMSLYMKRNGGEPFEITGPYLELYKLEVLPTFQKQGFGQMLVNHAKQMQFPIKTIARIHSSGFWDKLSFNPVSVTDGDFYIWHPETNLNTVTNEESA				NA	NA	NA	NA	NA
AK009_02774	507			hypothetical protein	ATGGCGACAACAAGACAAGATGCTTGGACTGATGATGAAGATTTGCTTCTGGCAGAAGTAGTACTCCGGCATATTCGAGAAGGTGGAACACAACTTTCTGCCTTTAAGGAAGTGGGAAAAAATTTATCACGTACACCAGCAGCATGTGGATTTAGATGGAATTCTTACGTAAGAAAGCAATATAAAGAACGTATTGAGGAAGCAAAGCAACTTCGTAAAGTAGAAAATTATGAAGTGAAAGAGACGAAGGTGTTAGAACCTACGTCAATTACGTTGAATGATGTTATTGACTTCTTGCAAAATTATAAAGATGAAAACTCTTTAACGGTGTTGCAACAACAAGTTGAATCATTACAAACAGAAAGAGAGCGTCTTCTGGAGCGATTATCAGTATATGAGGAAGAGTATAGAACATTACTTGATTATATCGATCAAAAAAGAAGTGTAATGGTAGTGGAAAGAAACAACGCTCGCTCGAATGAAAAGTTAGAGAAGCTTAAGAAATAA	MATTRQDAWTDDEDLLLAEVVLRHIREGGTQLSAFKEVGKNLSRTPAACGFRWNSYVRKQYKERIEEAKQLRKVENYEVKETKVLEPTSITLNDVIDFLQNYKDENSLTVLQQQVESLQTERERLLERLSVYEEEYRTLLDYIDQKRSVMVVERNNARSNEKLEKLKK				NA	NA	NA	NA	NA
AK009_02775	174	rpmF		50S ribosomal protein L32	ATGGCTGTACCTTTTAGAAGAACTTCTAAAACAGTAAAAAGAAAGCGTCGTACGCATTTCAAATTATCAGTACCTGGTATGGTAGAGTGCCCAAGCTGTGGTGAAGCGAAATTAGCTCACCGTGTATGTAAAGCATGCGGTACTTACAAAGGTAAAGAAGTAATCAGCAAGTAA	MAVPFRRTSKTVKRKRRTHFKLSVPGMVECPSCGEAKLAHRVCKACGTYKGKEVISK				NA	NA	NA	NA	NA
AK009_02776	501			hypothetical protein	ATGAAATGGTCCATCCATCAATTGAATAAATTGAGAAATAAAGGATTGACATTGGATGAGATGGTAGATGTAAGTGAGCTAAAAGAGGTCGAGAAAGATATTCGTGAAATTAATCCTGTGCATGTAATGGGAAGAGTTGATTTTGGCTCCGGTAAGTTTACGTTTCATCTACATATAACTGGAAGCATGGTTTTACCATGTTCTCGCTCTTTAGTAGATGTGACATTACCATTTGACATTAAAACAACTGAGGTGTTCCAAACTTCACAAGAAGAATTTGAAACTGAAGCTGAAATTCATTCTTTAGAAGGAGAAGTACTTGACTTACTGCCCGTAATCAAGGAAAATATACTTTTGGAGATTCCAATGCAAATTTTCAGTGATGATGTTTCTGGTGGAGCACCGACGCAAGGTCAAGACTGGCAAGTGATTTCGGAAGAAGACAAAGAAAAGACTGTTGATCCAAGATTGGCAGGACTTGCAAAGTTTTTTGACAAATAA	MKWSIHQLNKLRNKGLTLDEMVDVSELKEVEKDIREINPVHVMGRVDFGSGKFTFHLHITGSMVLPCSRSLVDVTLPFDIKTTEVFQTSQEEFETEAEIHSLEGEVLDLLPVIKENILLEIPMQIFSDDVSGGAPTQGQDWQVISEEDKEKTVDPRLAGLAKFFDK				NA	NA	NA	NA	NA
AK009_02777	1182	tmcAL	COG1323	tRNA(Met) cytidine acetate ligase	GTGCAACAGACAAAAAAGTTAACACAATCCGATATAATAATTGCCGTTATGAGTGGTCCTTTTTTACAGCGTGGTGAGCCCGCACTCATTTCCAAATGGTATCGCACTAAAATGGCCTTAGCAAACGGCGTAGACCTTGTTGTAGAGCTTCCATACGTCTTTGCAACACAAAAGGCTGAAACCTTCGCAAATGGTGCTATTTCCATTTTAAATGCCCTACGTGTTTCTGAAATTTGTTTCGGTAGTGAGGATGGACAAATCAAAAACTTTTATAATACCATCTCCGTACAAAAAAACGAAGAAGAGACTTTTAACTGCCTTGTAAAACAATTCATGGACGCTGGTAATAGTTATGCAAAAGCAACATCAGATGCTTTCTCACACATTTTAACATCCGAAAACAACATTGATATGTCACAACCAAATAATATTTTAGGCTTCCAATATATGAAAGCAATTCTGTCACAGAATAGTTCTATACAAGCTCAAACTATACAAAGATTTGCCTCTCATTATCATGATGAAACATTTAATGACCAATATATTGCAAGCGCGACAAGCATCCGAAAACAACTCTTTAGCGAAGAAGGATCATTTACAACAATTGAACCTTTTCTCCCACAGGCAACCACTTCGCTTTTAGCAAATTACAAACAAAACTACGGGATATTACATAATTGGGAACAATACTTTTCATTTTTTAAATATAAACTCATGACGATGTCTCCAGGGGACTTACGACATATATATGAAATAGAAGAAGGTTTAGAGCATCGTATTTTATCAAAAATACAAAACAGTTCCTCCTTCTATTCATTCATGGAAGCATTAAAAACAAAACGTTATACATGGACTAGATTACAAAGAGCTTGTACACACATTTTAACAAACACAACAAAAGAGGAAATACGTAGCGCAAATATAGAACAACACGCACCATATATCCGCCTGTTAGGCATGTCACAAAAAGGACAAACTTATCTTTCAAAAAACAAGAAAAAAATCGAACTTCCAATCCTTACTCATACAAAAACATTTGACCATGCCGCTTTAGATATAGAGAAAAAAGCAAACTCTGTATATTTCTCCATCATGCACGAACCGTTACGCACGCAACTATTAAAACAGGATATAACACACCATCCTATTCGCTATGATGAAACAACTACAAAATTCCTATAA	MQQTKKLTQSDIIIAVMSGPFLQRGEPALISKWYRTKMALANGVDLVVELPYVFATQKAETFANGAISILNALRVSEICFGSEDGQIKNFYNTISVQKNEEETFNCLVKQFMDAGNSYAKATSDAFSHILTSENNIDMSQPNNILGFQYMKAILSQNSSIQAQTIQRFASHYHDETFNDQYIASATSIRKQLFSEEGSFTTIEPFLPQATTSLLANYKQNYGILHNWEQYFSFFKYKLMTMSPGDLRHIYEIEEGLEHRILSKIQNSSSFYSFMEALKTKRYTWTRLQRACTHILTNTTKEEIRSANIEQHAPYIRLLGMSQKGQTYLSKNKKKIELPILTHTKTFDHAALDIEKKANSVYFSIMHEPLRTQLLKQDITHHPIRYDETTTKFL				NA	NA	NA	NA	NA
AK009_02778	1038	ylbL	COG3480	putative protein YlbL	ATGTTTAAGCGTTTTCGGTTTATATATGCAATCTTAATAGGGGTTATATTGGCGATGTTACTTGTTTACGTACGTTTACCGTATTATGTAACAAAACCAGGAATGGCTGCCAAATTAGAGCCTTACGTTCAAGTTGAGGGTGGAACGAAAGAATCTGGTGATTTTATGCTTGTTACGGTTTCAATGGGGCCAGCAAATGTGGTGAATTTAATAGCGGCACAGTTTAATAAATATACACATATTTCGAAAGCGGAAGAAATATTGCAAAAAGGTGAGAGTGATGAAGAATATCAATTTCGCCAAAATTATGCGATGAAAGATTCACAAAATGCCGCAATTTATAATGCATATAAACGTGCAAATCGCTCTGTTTCTTTTGAAAATAAAGGTGTATTAGTTGCTGGTGTGGCAAAAGGAATGCCGTCAGAAGGAAAGCTTAAGCTTGGTGATGTTATTATAGCTGTTGACGGAAAAACATTTGAAAAGACGGAGCAATTTATTGAATATATGACTGGGAAAAAAGAAAGCGATGCTGTAAGTATTGAGTACATGAGAAATGGAAAACAATTGAAAGAAAATTTAAATGTAAAGACGATTCCTAATGGAAATGGACGTGTCGGTATAGGTGTTTCTATCGTTACGGAAAGAGAATTAGTGGTCGATCCGAAAGTGAAAATTAATTCTCATGAAATTGGTGGACCATCCGCAGGTTTAATGTTTACATTAGAAATATATAATCAACTTGTGGAAGAAGACTTAACAAAAGGACATGAGATAGCTGGAACAGGTACAATTAATGAAAAAGGAGAAGTGGGCCCAATTGGTGGTATAAATCAAAAAGTGGTGGCTGCTAGCGATGCCGGGGCTGAAGTGTTCTTTGCGCCAAATGAAAAAGGTGCGGAGAAATCGAACTATAAAGATGCACTTGAGACTGCAAAGGATATTAAAACAAAAATGAAAATTATACCAGTGGATACGCTGGATGATGCGTTAACATATTTAGAAAAGATGGATAAGGAAAAAACCTCTCTGAAATAG	MFKRFRFIYAILIGVILAMLLVYVRLPYYVTKPGMAAKLEPYVQVEGGTKESGDFMLVTVSMGPANVVNLIAAQFNKYTHISKAEEILQKGESDEEYQFRQNYAMKDSQNAAIYNAYKRANRSVSFENKGVLVAGVAKGMPSEGKLKLGDVIIAVDGKTFEKTEQFIEYMTGKKESDAVSIEYMRNGKQLKENLNVKTIPNGNGRVGIGVSIVTERELVVDPKVKINSHEIGGPSAGLMFTLEIYNQLVEEDLTKGHEIAGTGTINEKGEVGPIGGINQKVVAASDAGAEVFFAPNEKGAEKSNYKDALETAKDIKTKMKIIPVDTLDDALTYLEKMDKEKTSLK				NA	NA	NA	NA	NA
AK009_02779	792			hypothetical protein	ATGAAAGAACCAAAGATTGGTTTAGCGCTTGGGTCTGGAGGAGCGAAAGGGTTTGCTCATATTGGTGTAATAAAGGTTTTAAGGGAAGCGGATATCCCTATTCATATGATTGCAGGAAGTAGTATGGGGGCGCTAATAGGTACGTTTTATGCGGCAAGTAGTAACGTTGAAAGATTGTATAAATTGGCATCTGTTTTTAAGCGGAAGTATTATTTAGATTTCACGGTACCAAAAATGGGATTTATTGCTGGAAAACGTGTCAAAGATATGATTAAAATGTTTACATATAATAAAAATTTAGAAGAGTTAGATATCCCGACGGCTGTTGTGGCTACTGACATACTGAAGGGGGAAAAAGTGGTTTTTACAAGTGGGCCAGTTGCAGATGCGGTTAGGGCTAGCATATCTGTTCCTGGAGTGTTTGTACCAGAAAAAATAGATGGACGATTATTAGTGGATGGTGGAGTTATTGATCGCATCCCAGTATCGGTTGTGAAAGAGTTAGGGGCCGATATTGTTATCGCTGTTGATGTATCTCCAATTAAGGTGAATGGAGATGTTACGTCCATTTATGACGTAATCATGCAAAGTATTGAAATTATGCAGCATGAGCTTGTAATGAATCGGCAAATTGCATCGGATTTAATGATGCGACCAGCTGTAGAGCAATTTAGTTCACGTGCTTTTACGAACATTGAAGACATTATTCGAGTTGGAGAAGTAGAAGCGGAAAAACATGTTTCAAATATTTATTTATTAATTGAGCAGTGGAAGGAGAAACATAATGTTTAA	MKEPKIGLALGSGGAKGFAHIGVIKVLREADIPIHMIAGSSMGALIGTFYAASSNVERLYKLASVFKRKYYLDFTVPKMGFIAGKRVKDMIKMFTYNKNLEELDIPTAVVATDILKGEKVVFTSGPVADAVRASISVPGVFVPEKIDGRLLVDGGVIDRIPVSVVKELGADIVIAVDVSPIKVNGDVTSIYDVIMQSIEIMQHELVMNRQIASDLMMRPAVEQFSSRAFTNIEDIIRVGEVEAEKHVSNIYLLIEQWKEKHNV				NA	NA	NA	NA	NA
AK009_02780	1230	ylbJ	COG3314	Sporulation integral membrane protein YlbJ	ATGTATGAAAAATGGAAAACCGCTTTCCTTACCATATCAACGCTATTTTTAACCTTTTCTCTTGTACTCCACCCCCAAGCCGCTTTGCAAGCTTCTATTCGCGGGTTAAATATATGGTGGGAAGTTGTATTCCCTTCACTACTACCGTTTTTCATCATTGCAGAACTTCTAATTAGTATCGGTGTTGTAAAATTTATTGGCGTTATATTAGAACCACTCATGCGCCCACTTTTTCGCGTTCCAGGGATAGGTGGATTTGTTTGGGCCATGGGAATGGCTTCTGGTTTCCCTGCAGGCGCCAAATTAAGCGCTAGACTACGAAAAAGCAATCTTTTAACTCAGATTGAAGCGGAGCGCCTCGTTTCTTTCACAAATTCTTCTAATCCACTTTTTATTTTCGGTGCTGTGTCTATCGGTTTTTTTAATAATCCGAAATTAGGAATTATATTAGCGGCTGCCCATTATTTCAGTAACTTTGCCGTCGGATTAATTATGCGTTTTTACGGACATAATACCGCTTACAAAAATAATACACACACTACAAAAAAACGCCGCTTTCAAAACCCTTTTTTAATTCTTCACGAGACGCGCTTACAAGAAAAAAGGCCAATCGGTAAATTACTTGGGGATGCTATCGTTTCTTCTATTCAAACATTACTTATGATTGGCGGATTTATTATTTTATTCTCTGTGTTAAATAAAATGATTACTGTATTCCACATTACAGCAGCTCTTTCTTTTATTATGCAACATATTTTATCATTCTTCCAACTAAGTACGGATTTTAGTATACCTATATTATCAGGTATTTTCGAAATGACACTCGGAAGCCAAATGATTAGTCAAATAAATGAAACACCGCTCTTACAACAAGCTATGGTAACAAGCTTCATTTTAGCATTTAGCGGTCTTTCTATTCAGGCACAAGTTGCTAGCATATTAGCTGAAACAGATATCCGATTTAAACCCTATTTTTTCGCACGAATTATTCAAAGTATTCTTGCCCCTATTTTTACATTTGTATTTTGGACACCATTTTATGAGAAAGTGAGTTCTTTCTCACCTATACCAAAAGATATTCCTGTATTTTTATCCAAGCATCCTTCTATACTACATGAAATTTGGACATCTTTTATACATTACGGACCAATTTTTACATTATTTTGTCTATACTTATATATTATTTTATTATTTTTGCGCACGTATAAAGAAAAACCCCGTTCACTTTAA	MYEKWKTAFLTISTLFLTFSLVLHPQAALQASIRGLNIWWEVVFPSLLPFFIIAELLISIGVVKFIGVILEPLMRPLFRVPGIGGFVWAMGMASGFPAGAKLSARLRKSNLLTQIEAERLVSFTNSSNPLFIFGAVSIGFFNNPKLGIILAAAHYFSNFAVGLIMRFYGHNTAYKNNTHTTKKRRFQNPFLILHETRLQEKRPIGKLLGDAIVSSIQTLLMIGGFIILFSVLNKMITVFHITAALSFIMQHILSFFQLSTDFSIPILSGIFEMTLGSQMISQINETPLLQQAMVTSFILAFSGLSIQAQVASILAETDIRFKPYFFARIIQSILAPIFTFVFWTPFYEKVSSFSPIPKDIPVFLSKHPSILHEIWTSFIHYGPIFTLFCLYLYIILLFLRTYKEKPRSL				NA	NA	NA	NA	NA
AK009_02781	492	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGACAAGTATAGCTATTTCTTCAGGAAGTTTTGATCCAATTACCCTTGGGCATCTGGATATTATTAAAAGGGGAGCAAAAGTATTTGATGAGGTGTACGTAGTCGTTTTAAACAATTCATCAAAAAAACCATTCTTTTCAGTTGAAGAGCGATTAGAACTAATTCGAGAAGCGACAAAGGATATCCCGAATGTAAAAGTAGATTCGCATAGTGGGCTGTTAGTAGAGTATGCAAAAATGCGTAATGCAAATGCAATATTACGTGGTTTACGAGCAGTTTCTGATTTTGAATATGAGATGCAAATTACTTCTATGAATCGAAAATTAGATGAAAATATTGAAACATTTTTTATTATGACAAACAACCAATATTCATTTTTAAGCTCGAGTATTGTGAAAGAAGTTGCGAGGTATGGAGGAAGTGTAGTAGATCTTGTACCTCCTATTGTGGAGCGTGCTTTAAAAGAAAAGTTTCAAACCCCGTTAAAGTGA	MTSIAISSGSFDPITLGHLDIIKRGAKVFDEVYVVVLNNSSKKPFFSVEERLELIREATKDIPNVKVDSHSGLLVEYAKMRNANAILRGLRAVSDFEYEMQITSMNRKLDENIETFFIMTNNQYSFLSSSIVKEVARYGGSVVDLVPPIVERALKEKFQTPLK	PGPT0008825_1880	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
AK009_02782	567	rsmD_1	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGAGAGTAGTTTCAGGAAAATGTAAAGGACACCCACTTAAAGCGGTTCCTGGTAATACAACACGTCCAACGACAGATAAAGTAAAAGAATCTATTTTTAATATGATAGGTCCTTATTTTGATGGTGGTATTGCCCTTGATTTATTTGGTGGTAGTGGTGGTCTTGGAATTGAGGCTTTGAGCAGAGGGATCGATAAAGCGATTTTTGTTGATAGGGATAGTAAAGCGATAAAAGTAATTCATCAAAATTTAGAAAGTTGTAGAATACAGGAACAAGCTGAAGTATATCGAAATGATGCGGAACGTGCAGTAAAGGCGCTAATAAAACGTGAAATGTCATTCGATCTTATATTAATAGATCCTCCATATAAAGAGCAAAAAATTGTATCTTTAATTAGTGTAATGGATCAACATGGATTGCTGCATAGTGATGGATTAATTATGGCAGAGCATGGTAATGATGTGGTTTTACCTAATTCAATAGGCAGGCTTGTGAAAGTAAGAGCTGAGAATTATGGGATTACTGCAATATCGATTTATAAGTATGAAGGTGAGGGGACAGAATGA	MRVVSGKCKGHPLKAVPGNTTRPTTDKVKESIFNMIGPYFDGGIALDLFGGSGGLGIEALSRGIDKAIFVDRDSKAIKVIHQNLESCRIQEQAEVYRNDAERAVKALIKREMSFDLILIDPPYKEQKIVSLISVMDQHGLLHSDGLIMAEHGNDVVLPNSIGRLVKVRAENYGITAISIYKYEGEGTE				NA	NA	NA	NA	NA
AK009_02784	390			hypothetical protein	ATGATTCAACGCTTTATAGAACTCGGAGAAGGCTACTCTGATTTATATGAATTACTTGAAATTGCCAAAACAAATCAAGAACGTATAGCACATATGTTACAATTTGAAACGATAAAAAACGATAAAAAAGTGTGTTCGCTTGTTGTAATATTAAAACCAACTACTACTGGTGATTTCCAACCATTATACATATGTCGTGAAGGCATTCCTGTATTTGAAAATAAAAAAAGTAAACGTGTCATTTTATTTGAAGAAACGGCAGAGCAACTCGGAAAAAAAGTGGCTACTTTTACTGTAAAGCCATCTACAACTTTCCCAGAAAAAGAACTATTTTTTAATCATTTAATTGGCATTTTACGAATGAACAATTTCATTCCTCCGATGAAATAA	MIQRFIELGEGYSDLYELLEIAKTNQERIAHMLQFETIKNDKKVCSLVVILKPTTTGDFQPLYICREGIPVFENKKSKRVILFEETAEQLGKKVATFTVKPSTTFPEKELFFNHLIGILRMNNFIPPMK				NA	NA	NA	NA	NA
AK009_02785	267			hypothetical protein	ATGTTCGGGCAACGACAAAGTATGATTGTTTATTTACATTCATTGAAACATGCCAAGATTTTAAGGAAATATGGTAACATACATTACATATCAAAACGATTAAAATATGCTGTAGTATATTGTGACATGGAACAAATTGAGCATATGATGCATAAGTTGAACAAACTTCCTTTTGTGAAAAAGATAGAACAGTCGTATCGCCCGTATTTAAAAACGGAATTTGAAAATTCCCGTCCTGATCGAGCAAAAGAATACGATTATAGCTAA	MFGQRQSMIVYLHSLKHAKILRKYGNIHYISKRLKYAVVYCDMEQIEHMMHKLNKLPFVKKIEQSYRPYLKTEFENSRPDRAKEYDYS				NA	NA	NA	NA	NA
AK009_02786	453			hypothetical protein	ATGATTGTAGCGACGCTAGAAAGCGTATTAATATTAGATAAGGCAGAGCAGCTTGCAAAAGCGATTATCTGTTCAGATATAGCAGAAGATTATCGTAAGTATTATAGAGAATTACATGAAGATATAGAACTTCAGACGTTAATTCAGCAATTTACAGCGATGAAAGAACGGTATGAGGAAGTACAGCGTTTTGGAAAATACCATCCTGACTACACTACCGTATCAATGAAAATGAGAGAATTAAAGCGTTCTGTGGACTTACATGATAAGGTTGCAGCTTTTAAAAGAGCAGAAACTGCTTTGCAGAAGTTATTAGATGAAGTTAGTGTAGCAATCGGTTCGGAAGTGTCTTCTTCCATTAAAGTACCAACAGGAAATCCATTCTTTGATGCTGGTGGCTGTGGTGGAGGTTGTGGTACTGGCGGAGGTTGTGGTTGTAAAAAAACGGGGTGA	MIVATLESVLILDKAEQLAKAIICSDIAEDYRKYYRELHEDIELQTLIQQFTAMKERYEEVQRFGKYHPDYTTVSMKMRELKRSVDLHDKVAAFKRAETALQKLLDEVSVAIGSEVSSSIKVPTGNPFFDAGGCGGGCGTGGGCGCKKTG				NA	NA	NA	NA	NA
AK009_02787	573	pspA_3	COG0406	Phosphoserine phosphatase 1	ATGACGGAAATTTGTTTAGTACGACATGGACAAACTGATTGGAATTTTCAAGAAATTATTCAGGGGCGAGAAGATATTCCGCTTAATGAAGTTGGTAAGAAGCAAGCGAGTCAAAGTGCAGCTGCTTTACAAGAAGAAACGTGGGATATCATTATAAGTAGCCCGTTAATTAGAGCGCAAGAAACGGCTAATGAAATCGCAAAGGCGGCTGGATTACAATCGATTTTATTAGATGATCGATTTGTTGAACGGAATTTTGGAGAAGCTTCAGGGAAGCCAGTTGCGACTGTTAGAGAGTTGATTGCTGAGGGTAAAGTAGAAGGTATGGAGCAAGATGAAGAGATTGTAGCTCGTTGCTTTGCTGCTTTAGAAGATGTTGCAACAACTCATTTTGGCAAACGTATTATTATTGTTGCTCACTCACACGCGATAAAAGCAATTTTACATGCCATTGAACCAGATGAAATTACATTTAAGACACCATTAAAAAATGCGTGTATTAGTTATGTGAAACAAAATAGTGGGAAATGGGATGTTCTTAAATATAATATAGCGGAACATATTAATGTATAA	MTEICLVRHGQTDWNFQEIIQGREDIPLNEVGKKQASQSAAALQEETWDIIISSPLIRAQETANEIAKAAGLQSILLDDRFVERNFGEASGKPVATVRELIAEGKVEGMEQDEEIVARCFAALEDVATTHFGKRIIIVAHSHAIKAILHAIEPDEITFKTPLKNACISYVKQNSGKWDVLKYNIAEHINV	PGPT0002590_220	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-UNCHARACTERIZED_PHOSPHATASE,PGPT0002590-phoE-K15640	NA	NA
AK009_02788	249			hypothetical protein	ATGATGAGAGCAGAAATTATGGAGTTTATAAAGGCTGATGAGGATTTATCTCGCTATATTAGAGAGCAACCGTACTGGTATAGAAAATTAACACGAAATCCTGAAGAAAAAGAGGCTTTTGAGTTAGCGGCGATGCAACATTTCAAAAAAACAATACCAGATAAAGTGGAAAAATTTCAAAATCAATTGGCTGTTGCTTCGATCATGATTGATATGTTTCAGTATATGAAGCAACAAAATGCAACCTAA	MMRAEIMEFIKADEDLSRYIREQPYWYRKLTRNPEEKEAFELAAMQHFKKTIPDKVEKFQNQLAVASIMIDMFQYMKQQNAT				NA	NA	NA	NA	NA
AK009_02789	438			hypothetical protein	ATGCCAACAACAAAAGGGCCGTTACATCCATCGGTTCAACAGTTTAAAGAATTTGTAAACCATCACCCTAAAATGGTTCATGAGGTTAGAAATGGTCACAAAACTTGGCAACAATTTTATGAAGAATGGTACTTACTTGGTGAAGAAGATCCAATATGGGCAACTTATAGACCGGATGGAGCGCCTGCGTTTTCTTCGGTAAAAGAAAATAAAAAAGAAAAAGATAATCGAACTGAAGAGGAAAAAACTGCTGATGTGATGGGGCAAATGCTTTCTTTTTTTAAAAAGTTGGACGTGGAACAAATGCAGAACCATTTAGCCAATGTGACGAGTGCTATTGGGAGCGTGCAACAAGTTATTCAGCAATTTCAAGGTAACCGTACGCAGCAAGAACAAAGTACTTCAGAAAATAACCCGTTTTTCTTTCAAAAGGATTAG	MPTTKGPLHPSVQQFKEFVNHHPKMVHEVRNGHKTWQQFYEEWYLLGEEDPIWATYRPDGAPAFSSVKENKKEKDNRTEEEKTADVMGQMLSFFKKLDVEQMQNHLANVTSAIGSVQQVIQQFQGNRTQQEQSTSENNPFFFQKD				NA	NA	NA	NA	NA
AK009_02790	1035			hypothetical protein	TTGAAGAAATTATTGCGTATCGTAATGATTACATTTTTAATTTTAGCTGTTGATTTATACGGAAAATTACTCGTTTCACAATATATATTAACCCCATCTCAATCAAAGCAAGAAAATAAAATTGTGAAAAAGAAAAAGCAAATTAAGGAAGACTCCTCAGACACTGTTTTAAATATGATTGGTGAAGACTCTGAAAATTTATTGGCGAAGTGGGGAGAACCCTCTCGAATAGAGCCGTCTGCATACGGATATGAATGGTGGGTATACAATCAGGATTTAACTCAGTATGCTCAATTTGGAGTTTCTGAACGTAAAGTTGTAACGGCGTATGCTGCTGGTGAACAAGTTAAGGTTCCACCTTATTATATAAATGAAAAATATGAAGAAGTATATAAAAAAAGTCCGCCTTCGCATGAAATTGCGTTAAAAAGAGGGAAAAATAGTTATCAATTTGAACTATCTGATACCGAAGTCATGGAACAACCGTTAATACCTGTAGAAGATGGATGGGCGCAATTGTATTTTGATCAATTTACACATGAGCTTGTGGGTGTTCGTTATATGGATGATGAAACATTATTACGCCAAAGACCGTATCAGCTCGTTTATTCAGGTGAATTAATAGCAGAACAACCATTGACTCCAGAAAAAATAAAACAAGTAGAAAATGGGAATATGCAACAAATTTTTGATTTAACAAATATCATTCGAAGTCGTCATAAATTATCATTATTAACATGGGATCAGGAAACAGCAGATGTTGCTGTTGGTCACAGTAAAGATATGAAAGACAATAATTATTTTTCTCATGACTCACCTACATTAGGTACGCTAGGAGATCGATTGCAGCGCGGGAAAGTAGGATTTCAACTTGCTGGTGAGAACATAGCGGCGCAACATAGTGATGGAATTGCGGCAGTGCAAGGTTGGTTAAATAGTGAGGGGCATAGAAAGAATTTATTAAATGAACAATTTACAGGATTAGGTGTTGGTGTATACGATAAATTTTATACACAAAACTTTATTCGAAAATAA	MKKLLRIVMITFLILAVDLYGKLLVSQYILTPSQSKQENKIVKKKKQIKEDSSDTVLNMIGEDSENLLAKWGEPSRIEPSAYGYEWWVYNQDLTQYAQFGVSERKVVTAYAAGEQVKVPPYYINEKYEEVYKKSPPSHEIALKRGKNSYQFELSDTEVMEQPLIPVEDGWAQLYFDQFTHELVGVRYMDDETLLRQRPYQLVYSGELIAEQPLTPEKIKQVENGNMQQIFDLTNIIRSRHKLSLLTWDQETADVAVGHSKDMKDNNYFSHDSPTLGTLGDRLQRGKVGFQLAGENIAAQHSDGIAAVQGWLNSEGHRKNLLNEQFTGLGVGVYDKFYTQNFIRK				NA	NA	NA	NA	NA
AK009_02791	366			hypothetical protein	ATGCAATTTACAAATACGAAATTTAATGGAGCCGTCGTTGAATTAACTCTTTTAACTGAAATCATGGAAAACAACCACTTCGTACTTGCTGGACAGTGGGATTATGAACGGGTTACATACGATTATAAATTTGAAATATTAAAGGATATTTATTATTTACGAGTGCAAGGAGTTGCTGTTGAAGGTGACATCGGCAGTAGACACGCTGAAGTAAAACTACTCCCCCCCTTATTAGGAAAACATTATTATCCTCACGGCGTTGAATATGGCGATGATGAGACTTTCCCAACGAATGTACTTCAAAAAAGTGAACAACTCCTACAAAATGTCGAAAAAGAGTTAAAAGAACTTCAAATTATTGATTAA	MQFTNTKFNGAVVELTLLTEIMENNHFVLAGQWDYERVTYDYKFEILKDIYYLRVQGVAVEGDIGSRHAEVKLLPPLLGKHYYPHGVEYGDDETFPTNVLQKSEQLLQNVEKELKELQIID				NA	NA	NA	NA	NA
AK009_02792	999	amiF	COG0388	Formamidase	ATGGGTAGTAGTGGAAGTATGGTAAAGCCGATTAGTGGTTTTTTGACAGCGCTAATTCAATATCCAGTACCAGTAGTAGAGTCACGTGCGGACATTGATAAACAAATTCAACAAATCATAAAAACAATTCATTCGACCAAATCAGGTTATCCTGGATTAGAATTAATAGTATTTCCTGAATATAGTACACAAGGGCTCAATACAAAAAAATGGACCACAGAAGAATTTTTATGTACAGTGCCTGGGCCAGAAACCGACTTATTTGCTGAGGCATGTAAAGAATCTAAAGTATATGGTGTTTTTTCGATAATGGAAAAAAATCCTGGTGGTGGAGAGCCATATAATACAGCAGTTATTATTGATCCACAAGGTGAAATGATTTTGAAGTATCGTAAGCTAAATCCTTGGGTACCAGTCGAGCCTTGGAAAGCTGGAGATTTAGGCTTACCTGTTTGTGTTGGACCTGGAGGAAGTAAATTAGCTGTTTGTATTTGTCATGATGGCATGTTCCCTGAAGTAGCTCGTGAAGCGGCCTATAAAGGTGCAAATGTCTTGATTCGTATTTCTGGATATAGCACACAAGTTAGTGAACAATGGATGCTAACCAATCGTTCAAATGCATGGCAGAATTTAATGTATACATTGTCGGTAAACTTAGCGGGTTATGATGGTGTATTTTATTACTTTGGTGAAGGACAAGTATGTAATTTTGATGGGACTACTTTAGTACAGGGGCATCGAAATCCTTGGGAGATTGTTACTGCTGAAGTATATCCAGAACTAGCAGATCAGGCTAGATTAGGATGGGGATTAGAAAATAATATATATAATCTAGGTTCAAGAGGATATGTAGCAACTCCTGGTGGGGTGAAAGAAAACCCATATACGTTTATAAAAGATTTAGCTGAAGGTAAATATAAGGTTCCTTGGGAAGATGAGATTAAAGTAAAAGATGGATCTATTTATGGATATCCAGTAAAAAAAACGATTCATTCTTAG	MGSSGSMVKPISGFLTALIQYPVPVVESRADIDKQIQQIIKTIHSTKSGYPGLELIVFPEYSTQGLNTKKWTTEEFLCTVPGPETDLFAEACKESKVYGVFSIMEKNPGGGEPYNTAVIIDPQGEMILKYRKLNPWVPVEPWKAGDLGLPVCVGPGGSKLAVCICHDGMFPEVAREAAYKGANVLIRISGYSTQVSEQWMLTNRSNAWQNLMYTLSVNLAGYDGVFYYFGEGQVCNFDGTTLVQGHRNPWEIVTAEVYPELADQARLGWGLENNIYNLGSRGYVATPGGVKENPYTFIKDLAEGKYKVPWEDEIKVKDGSIYGYPVKKTIHS	PGPT0000620_937	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455	NA	NA
AK009_02793	906			hypothetical protein	ATGAGTAACTTGTGGATATTTGGTTTTCAGGCTTTATGGAGTCCAATTTTTTTATTATTTATGCTTTCGATTCTTATTGGGTACTTCTTAATTATTGGACCTTATAGAATGCGATTTGAAAATGCGACGAAGGTAAGTAAGAAGCAAATTTTTTATTTTACGACTGGTATTGTTCTTTTGTATTTTGTAAAGGGAGGGCCTATTGATTTAATTGGCCATATTATATTTAGTGCTCATATGTTTGAAATGGCAGTCATGTATATTGCAGTTCCACCGTTACTGTTGCTTGGTATACCAACTTGGTTATATCGTTACATTACTTCTTTTAAGTTCGTTCAAATTATATTAAAGGTATTTGCTAAACCACTTATTGCGTTGTTTGTATTTAACGGCCTGTTTTCTTTTTATCATTTACCAGTTGTTTTTGATACGGTAAAACAAAGTCAAATTGCTCATCCTATTTGTCTCGCTATATTGTTTTTTACAGCAATCATGATGTGGTGGCCGATGTTAAATCCATTACCAGAATATCAAACGTTAAGTGATATAAAGAAACTTGGTTACATGTTTGCTAATGGTATATTATTAACGCCAGCTTGTGCGTTAATAATTTTTGCGACAGCCCCGTTATTTGCAACGTATACGGATCCGGCTGCTTGGATGAAAGCGATGGAACTATGTGTACCAGCGGGCACTTTATCAGATTTAAATATAACGGGACCGGAATTTTTGCACTGGATGCCAGTAGTACAAGACCAGCAAACTGGTGGTATCATAATGAAAATTGTCCAGGAAATAGTGTACGGTACAATTATAGGCTATGTATTCTTTAGATGGGCACGTAGAGAACGTGAAAAGGATAAGGAGCAGTTGCAACAATTGCCGCCGTATTTACAAACTAAGTAA	MSNLWIFGFQALWSPIFLLFMLSILIGYFLIIGPYRMRFENATKVSKKQIFYFTTGIVLLYFVKGGPIDLIGHIIFSAHMFEMAVMYIAVPPLLLLGIPTWLYRYITSFKFVQIILKVFAKPLIALFVFNGLFSFYHLPVVFDTVKQSQIAHPICLAILFFTAIMMWWPMLNPLPEYQTLSDIKKLGYMFANGILLTPACALIIFATAPLFATYTDPAAWMKAMELCVPAGTLSDLNITGPEFLHWMPVVQDQQTGGIIMKIVQEIVYGTIIGYVFFRWARREREKDKEQLQQLPPYLQTK				NA	NA	NA	NA	NA
AK009_02794	333	caaD		Cytochrome c oxidase subunit 4B	ATGGCGATAAAGCAAACAAATAATCCTAAAGTTGATCTTGTTTATCGGAAGAGAAAAAGTGCGGAGGAAATGAAGCATCAAGTTATTACGTTTGCATTAATGATTTTTTTAACATTAGTTGCATTTGTAGCAGTGGCGTATCCAAAAACTTTTAGTCCGACTTTCTCTGTGCCATTTATTTTACTATTAGCAGTGGTACAAGTAATTTTTCAATTGTATTATTTTATGCATATGAGCCATAAAGGACATGAAGCAGCAAGTTTCTTTCTTTACTCTGGTCTGCTAATAGGGTTAATTACAATTTTAGCTTTTATGACAATTGTGTGGATTTGA	MAIKQTNNPKVDLVYRKRKSAEEMKHQVITFALMIFLTLVAFVAVAYPKTFSPTFSVPFILLLAVVQVIFQLYYFMHMSHKGHEAASFFLYSGLLIGLITILAFMTIVWI	PGPT0004040_535	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
AK009_02795	624	ctaE		Cytochrome c oxidase subunit 3	ATGCATGTAGATGAAAAATTAACGAATGAAACATTTCCAGCAGAGCCTGAAAAAGCAACCCTTGAAGGGAAAAATAAGTTTGTTGGTTTTTGGTTATTTCTTGGAGGCGAAACAGTGTTGTTCGCTTCCTTATTCGGAACATATTTAGCATTAAAGAATTCTACAAATGGTGGACCAACATCTCAAGAAATGTTCCAAATGCCACTCGTTTTCATTATGACGATGCTTTTATTAACGAGTAGCTTAACAAGTGTATATGCGATGTATCACATGAAAAACTTTAACTTTAAGAAAATGCAACTTTGGTTACTAGTAACTGTATTGCTAGGTTTAGGATTTTTAGGGTTTGAGATATATGAGTTTTATCATTATACACATGAATTTAAGCATACTATGAGAAGTAGTGCGTTTGGCTCTGCATTTTATGCTCTTGTTGGTACACATGGACTCCACGTATTGTTTGGGTTGTGTTGGATTTTAACATTAATCTTTAGAAATGCGAAGAGAGGTCTAAATTTATACAATGCACCGAAGTTTTATGTTGCATCAATTTATTGGCACTTTATTGACGTAGTTTGGGTGTTTATTTTCACTGTAGTATATTTAATGGGAATGGTGGGATAA	MHVDEKLTNETFPAEPEKATLEGKNKFVGFWLFLGGETVLFASLFGTYLALKNSTNGGPTSQEMFQMPLVFIMTMLLLTSSLTSVYAMYHMKNFNFKKMQLWLLVTVLLGLGFLGFEIYEFYHYTHEFKHTMRSSAFGSAFYALVGTHGLHVLFGLCWILTLIFRNAKRGLNLYNAPKFYVASIYWHFIDVVWVFIFTVVYLMGMVG	PGPT0004035_2529	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK009_02796	1863	ctaD		Cytochrome c oxidase subunit 1	GTGAGTTCTGTAGCAAAAAAACAGGGGATGGGTGCTGTCATATGGGATTATTTAACGACAGTAGACCATAAAAAGATTGCCATTCTCTATTTAATTGCAGGTGGATTGTTTTTTGTAATAGGCGGAATAGAAGCTCTATTTATTCGCCTTCAATTAGCGATTCCTAACAACGCTTTTCTTGTTGGGGATGCTTATAATCAAGTATTGACGATGCACGGTACAACAATGATTTTCCTCGCAGCTATGCCACTCGTGTTTGCATTTATGAACGCCGCTGTACCACTTCAAATTGGTGCACGTGATGTAGCGTTCCCGTTTTTGAATTCACTCGGATTTTGGTTATTTTTCTTTGGTGGAGTATTTTTAAATTTAAGTTGGTTTTTAGGTGGAGCACCTGATGCAGGATGGACATCTTATGCATCTTTAGCTTTAGCTTCTAAAGGTCATGGTGTTGATTTCTATGTACTCGGTTTGCAAATCTCAGGTATTGGTACATTAATTGGAGGGATTAACTTCCTTGTCACCATTATTAATATGCGTGCGCCAGGAATGACGTATATGCGTATGCCGATGTTTACATGGACGACATTTGTAACATCTTCGCTTATATTATTCGCTTTTCCACCGTTAACTGTAGGATTAGGACTTTTAATGTTAGATCGTTTATTTGGAACAAGTTTCTTTAATCCAGCATTGGGTGGGAATACAATTATATGGGAGCATTTATTCTGGATTTTCGGTCATCCAGAAGTATACATTCTTATACTCCCAGCTTTCGGAATATTCTCAGAAATCTTCGCGACATTTTCGAAAAAACGATTGTTTGGTTATTCATCGATGGTGTTTGCGACTGTATTAATTGGATTTTTAGGATTTATGGTATGGGCGCATCATATGTTTACTGTTGGACTTGGTCCAGTTGCTAATGCTATTTTCTCAGTTGCAACAATGGCGATTGCGGTTCCGACTGGTATCAAAATATTCAACTGGCTCTTTACAATGTGGGGCGGAAGTATTCGTTTTACGACACCAATGATGTGGGCAGTAGCTTTCATTCCATCATTCGTAATGGGTGGAGTTACAGGGGTTATGCTAGCATCTGCACCAGCTGATTATCAATTTCATGATAATTATTTCGTAGTAGCACATTTTCATTATGTAATCGTTGGCGGTGTTGTATTTGGTTTACTTGCAGGAGCTCATTATTATTGGCCACTGATGTTTAATAAAGTATTAAATGAAACATTAGGAAAGATAACGTTTTGGCTATTCTTTATCGGTTTCCATTTAACGTTCTTTATTCAGCATTTCCTTGGCTTGATTGGTATGCCACGCCGTTACTACACATATCTTGAAGGGCAAGGGTTGGAAATGGGGAATATGATTAGTTCTATCGGAGCGGTGTTTATGGCTCTTGGGACGATTGTTCTTCTATTCAATGTAATTAAAACGACAGTATCAAAAGAAAAAGCTGGTCGTGATCCGTGGGATGCACGTACATTAGAATGGACGATGCCAGCACCGACACCAGAATATAACTTTAAACAACTACCATTTGTTCGCGGATTAGATCCGTTTTGGATTGAAAAACGTGAAGGTAATAAAGAGATGACAGCAGCGGAACCAATTGGTGATATTCATATGCCAAATCCTTCGTTTTCACCATTTGTCATTTCTTTCGGATTGTTTATAGCGGCATTTGGTGCAATGTATATGCAGGGCGGAAAAGATAAGTTCTGGTTATTAGTAGCAATTATTGGTTTAATCATTACATTTGGCGCAATGTTCCTACGTTCAGTAATCGATGATCATGGATACCATATTCATAAGGAAGATTTAGATGATAAGGGGGGCAAGGCATAA	MSSVAKKQGMGAVIWDYLTTVDHKKIAILYLIAGGLFFVIGGIEALFIRLQLAIPNNAFLVGDAYNQVLTMHGTTMIFLAAMPLVFAFMNAAVPLQIGARDVAFPFLNSLGFWLFFFGGVFLNLSWFLGGAPDAGWTSYASLALASKGHGVDFYVLGLQISGIGTLIGGINFLVTIINMRAPGMTYMRMPMFTWTTFVTSSLILFAFPPLTVGLGLLMLDRLFGTSFFNPALGGNTIIWEHLFWIFGHPEVYILILPAFGIFSEIFATFSKKRLFGYSSMVFATVLIGFLGFMVWAHHMFTVGLGPVANAIFSVATMAIAVPTGIKIFNWLFTMWGGSIRFTTPMMWAVAFIPSFVMGGVTGVMLASAPADYQFHDNYFVVAHFHYVIVGGVVFGLLAGAHYYWPLMFNKVLNETLGKITFWLFFIGFHLTFFIQHFLGLIGMPRRYYTYLEGQGLEMGNMISSIGAVFMALGTIVLLFNVIKTTVSKEKAGRDPWDARTLEWTMPAPTPEYNFKQLPFVRGLDPFWIEKREGNKEMTAAEPIGDIHMPNPSFSPFVISFGLFIAAFGAMYMQGGKDKFWLLVAIIGLIITFGAMFLRSVIDDHGYHIHKEDLDDKGGKA	PGPT0004025_353	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK009_02797	1050	ctaC		Cytochrome c oxidase subunit 2	ATGAAGAAACAGTGGCGACTGCTTTCGTTCGTTTCACTGCTGGCTTTACTGTTAGGGGGATGCGGTAAAGCCTTTCAATCTACTTTAATTCCGCAAGGAGAAGTAGCAAAAATGCAATATGATTTACTTCTACTGGCGAGTGCAATCATGGTAGGAGTAGTACTAGTAGTTACTATTATTTTCTTGTATGTAATTGTGCGTTTCCGACAAAAGAAAGGTCAGGAAGATTATATTCCAGAGCAAGTTGAAGGAAATCACAAGCTAGAAATTATATGGACAGTTATTCCGATTATTCTTTTACTAATCTTAGCTGTTCCAACGGTTACATATACATTCAAACTTGCTGATGTAAGTGCGATGGAGAAAAAGAATATTGATAAAGATACTATCGTTGTTGATGTAACAGCGAATCTTTATTGGTGGGAATTTTCTTATAAATCAGAAAAGATAGTAACTTCGCAAGATTTAGTCATCCCCACAGGTAAGAAAGTGTATTTAAATTTGAAGGGTGCCGATATTAAACACTCATTTTGGGTTCCATCTTTAGCTGGGAAAATGGATACAAATACAGACAATGTGAACAAAATGTGGTTAAAGGCAGATAAATCGGGCACTTATAATGGTTTTTGTACAGAATTTTGCGGCCCATCACATTCTTTAATGCAATTTAAAGTGAAAGCTTTAGATGAAAGCGAGTACAAAAATTGGCTTGCTGATATGAAGAAGATTGATGGGAAGAAAGAAGTAGCTTCAACAAAGGCGCAAGAGGGCCAAGAAATATTTAATAAAAGCTGTATTGGTTGTCACGCAGTTGGATCTAATGATAGTAGACCACCTTCCGCTCGTATCGCACCAAACTTAGCAAACTTTGCGGATCGCGATATGGTTGCCGGTATTGCCGAAAACAATGAAGAAAACTTAAAAAAATGGCTGAAAGATCCTGAAAATATGAAGCCAGGAAACAAAATGACTGGCAAATATGGCAACTTAACGGATGATCAAATTGATGCATTAAATGCATACTTACAAACGTTAAAAGTTGAAAAGTAA	MKKQWRLLSFVSLLALLLGGCGKAFQSTLIPQGEVAKMQYDLLLLASAIMVGVVLVVTIIFLYVIVRFRQKKGQEDYIPEQVEGNHKLEIIWTVIPIILLLILAVPTVTYTFKLADVSAMEKKNIDKDTIVVDVTANLYWWEFSYKSEKIVTSQDLVIPTGKKVYLNLKGADIKHSFWVPSLAGKMDTNTDNVNKMWLKADKSGTYNGFCTEFCGPSHSLMQFKVKALDESEYKNWLADMKKIDGKKEVASTKAQEGQEIFNKSCIGCHAVGSNDSRPPSARIAPNLANFADRDMVAGIAENNEENLKKWLKDPENMKPGNKMTGKYGNLTDDQIDALNAYLQTLKVEK	PGPT0004030_1545	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
AK009_02798	924	ctaB2	COG0109	Protoheme IX farnesyltransferase 2	ATGAACCATGCAACAAGTGAGCTGCATGATGAGTCCGCTGTTACAAGTGTACCGGAAACAACTCGGATACAAGATTTAAAAGCACTCGTTAAAATGGGGATTGTAAACTCAAATACACTTACTGTATTTACAGGATTTTGGTTGGCATTACACTTTAATGGATTAAGTGTAATGGACAATCTGGATAAGTTATTCTTTACAATCGTTGGTTCTGGATTAGTTATGGCAGGGGTATGTTGTTTAAACAACTACATTGATCGAGACATCGATCCATTAATGGAAAGAACAAAGACCCGTCCAACGGTTACTGGAAAGTATAAACCAGGATTTGCACTTACATTTGGACTAGTCATATTACTTCTTGGTTTTGTATTTTTATTATTAACAACACCAATGGCAGTCTTAATGGGATTTATTGGTGCTTTCACATATGTTGTTCTATATAGTTTATGGACAAAGAGAAAGTATACACTAAATACTGTTGTAGGTAGTATATCTGGTGCAGTTCCACCTTTAATTGGATGGGCAGCAATCGATCCATCTTTAGGTCATCCAATTGCTTGGATGTTATTTTTAATTATGTTTATTTGGCAAATCCCACATTTCCTTGCATTAGCGATGAAACGTGTTGATGAATATCGAAATGCAGGAATTCCAATGCTTCCTGTAGTTCATGGATTTGAAATTACGAAACGCCAAATTATGATTTGGACAGTATGTTTATTACCACTACCATTTTATATGAGTGGACTAGGGATAACATTTATGGTAATTGCAACACTGCTTAACATCGGATGGATCGTTTTAGGATTTTATGGATTCCGTAAGAAAGATGACATAAAATGGTCCGTGCAAATGTTTGTTTATTCCCTAAATTATTTAACAATCTTATTTGTATCAATGATTGTAGTTACATTCTTCTAA	MNHATSELHDESAVTSVPETTRIQDLKALVKMGIVNSNTLTVFTGFWLALHFNGLSVMDNLDKLFFTIVGSGLVMAGVCCLNNYIDRDIDPLMERTKTRPTVTGKYKPGFALTFGLVILLLGFVFLLLTTPMAVLMGFIGAFTYVVLYSLWTKRKYTLNTVVGSISGAVPPLIGWAAIDPSLGHPIAWMLFLIMFIWQIPHFLALAMKRVDEYRNAGIPMLPVVHGFEITKRQIMIWTVCLLPLPFYMSGLGITFMVIATLLNIGWIVLGFYGFRKKDDIKWSVQMFVYSLNYLTILFVSMIVVTFF	PGPT0008520_2080	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
AK009_02799	936	ctaA		Heme A synthase	TTGCAACGCTTTATTAAATGGTTAGCAGTCATTACAAGCCTTGATTTATTAATAGTTTTATTAGGAGGCGCTTTAGTTACAAAAACAGGTTCTGGTCAAGGTTGTGGTAAATCATGGCCACTTTGTAACGGTGAATTTGTTCCATCTAATTTATCAATGGAAACTATTATTGAACTTAGCCACCGATTAACATCAGGATCAGCTGGAATTCTTGTCACTCTCCTTTGTATTTTGTCCTGGAAATATTATAAACATGTGCGTGAAACAAAAACGTTAGCAATTTTATCCTTCGTATTTTTAGTTGCACAAGCATTAATGGGAGCAGCAGCAGTTGTTTGGGGACAAATGCCAGCTGTACTTGCTATCCATTTCGGTATTTCCTTAATTTCATTTGCTTCTGTCATTTTATTAACGTGTCTTATCTTTGAAATTGACCAAAAATTTGATGCACGTTCTCTTATTATGGACAAAAAAATGAAATTTCATATTTATGGTGTAACAATTTACAGTTATATCGTCGTCTACACAGGTGCTTTAGTACGTCACGAACGAGCTAGCTTAGCCTGTCCAGACTTTCCTTTATGTAGCAAAAACAGACCTATGCCAACTCAACTACATGAATGGGTTCAAATGGGCCATAGAGTTGCAGCAATGTTAATTTTCGCTTGGATACTTTACGCGATGATTCTCGCTATTCGTCATTACAAACAGCAACCTGTAGTATATTGGGGATGGATCATTTCATTTATCCTTGTTACACTTCAAGCTGTAGTAGGAATTTTAGTTGTATTTACAAACGCTAGTTTAGCAATGGCATTGTTACATTCTCTATTCATTTCTTGCTTGTTTGCCGTACTATGCTATTTAGTTATGTTAGGAACAAGAAGTAAAATGAATGCAAAAGAAGCCGGATCAACTTCTAAACAAACAAAATAA	MQRFIKWLAVITSLDLLIVLLGGALVTKTGSGQGCGKSWPLCNGEFVPSNLSMETIIELSHRLTSGSAGILVTLLCILSWKYYKHVRETKTLAILSFVFLVAQALMGAAAVVWGQMPAVLAIHFGISLISFASVILLTCLIFEIDQKFDARSLIMDKKMKFHIYGVTIYSYIVVYTGALVRHERASLACPDFPLCSKNRPMPTQLHEWVQMGHRVAAMLIFAWILYAMILAIRHYKQQPVVYWGWIISFILVTLQAVVGILVVFTNASLAMALLHSLFISCLFAVLCYLVMLGTRSKMNAKEAGSTSKQTK	PGPT0008525_2973	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
AK009_02800	3447	pycA		Pyruvate carboxylase	ATGACAAAGCTGCAACGTATTCAAAAAGTATTGGTAGCTAACCGTGGAGAGATTGCAATTCGTGTGTTTCGAGCTTGTTCGGAACTTGGATTAAAAACAGTTGCAATCTATTCGAAAGAGGATAGTGGTTCTTATCATCGCTATAAAGCCGATGAGTCCTATTTAGTTGGGGAAGGAAAAAAACCAATTGATGCTTATCTAGATATTGAAGGCATTATTGAGATTGCAAAAAGTAATCATGTAGATGCAATCCACCCTGGATATGGTTTCTTGTCAGAAAATATTCAATTCGCGAAACGTTGCGAAGAAGAAGGAATTATCTTTATCGGTCCGAAAAGTAAGCATTTAGATATGTTTGGAGATAAAGTGAAAGCAAGAACACAAGCGCAGCTAGCACAAATTCCAGTTATACCTGGTAGTGATGGTCCAGTAGATTCATTAGAAGAAGTCGAAAAATTTGCTGAAAAGTATGATTACCCGATTATTATTAAAGCGTCCCTTGGTGGTGGCGGTCGTGGTATGCGTATTGTGCGTACTAGTGAGGAATTAGGAGAATCATATAATCGAGCAAAATCAGAAGCGAAAGCAGCCTTTGGTAATGATGAAGTTTACGTCGAAAAATTCGTTGAAAAACCTAAACATATAGAAGTACAAATTTTAGCAGATGAAGAAGGCAATGTTGCTCATTTATACGAGCGTGACTGTTCTGTACAACGTCGTCATCAAAAAGTTGTAGAAATAGCACCGAGTGTATCACTTTCAGATGATCTGCGTCAGCGTATTTGTGATGCTGCTGTGAAGTTAACGAAAAATGTAAACTATTTAAATGCAGGAACAGTAGAATTCCTTGTAAAAGATGATGAGTTTTACTTTATTGAAGTAAATCCACGTGTTCAAGTAGAACATACGATTACAGAGATGATCACAGGAGTCGATATCGTTCAATCGCAAATTTTAATAGCTGATGGACATGCATTACATAGTAAAATAGTAGGTGTTCCGAAGCAAGAGGAAGTGGTTGTACACGGATTTGCAATCCAATCTCGTGTAACAACTGAAGACCCACTAAATAATTTTATGCCGGATACAGGAAAAATTATGGCGTATCGATCAGGCGGTGGTTTTGGTGTGCGTCTTGATACAGGAAATAGCTTCCAAGGTGCAGTTATTACACCATACTACGATTCTTTACTTGTAAAAGTTACAACTTGGGCACTTACTTTTGAGCAAGCTGCTGCAAAAATGGAACGTAACTTAAAAGAATTCCGTATTCGTGGTATTAAAACAAATATTCCATTCCTAGAGAATGTAGTAAAACATAAAAACTTCTTATCAGGAGAATATGATACTTCGTTTATTGATGTGTCACCTGAACTATTCTTATTCCCGAAACGTAAAGACCGCGGAACGAAAATGTTAAATTATATTGGTTCAGTAACAGTAAATGGCTTCCCAGGAGTAGGGAAAAAAGAAAAGCCAATATTCCCAGATGCTCGTATTCCATGTTTAAAACATTCAGAGCCAATCCAAAATGGAACGAAACAAATTTTGGACGAGCGTGGAGCAGATGGATTAGTAAAATGGGTACAGGATCAAAACCGTGTACTTTTAACGGATACAACATTCCGTGATGCACATCAGTCATTACTTGCAACTCGTATTCGTACAAAAGATTTACATCAAATTGCAGAGCCAACAGCGAGAATGTTACCAAACCTATTCTCAGCTGAAATGTGGGGCGGTGCAACGTTTGATGTCGCGTATCGTTTCTTAAAAGAAGATCCATGGGAACGATTACTAGATCTTCGTGAAAAAATGCCGAACGTTTTATTTCAAATGTTACTACGTTCGTCAAACGCAGTTGGCTACAAAAACTATCCAGATAATTTAATTCAAAAATTTGTGGAGTGTTCTGCTCAAGCAGGCATTGATGTGTTCCGTATTTTTGATAGTTTAAACTGGGTAGAAGGTATGAGAGTTGCAATTGATGCTGTACGAGATACTGGTAAAATTGCAGAAGCAACAATGTGCTACACAGGAGATATTCATGATCCATTACGTAGTAAATATGATTTGAATTATTATAAAAACTTAGCAAAAGAGTTGGAAGCATCGGGAGCTCACATTTTAGGTATTAAAGATATGGCTGGCTTACTAAAACCAAACGCAGCATATGATTTAGTTTCAGCATTAAAAGAGACGGTATCGATTCCGATTCACCTGCATACGCACGATACGAGTGGAAATGGTATATTAACGTATACGAAGGCAATTGAAGCAGGTGTTGATATTGTCGATGTAGCAGTGAGTTCTATGGCTGGTCAAACGTCACAACCGAGTGCGAACACATTATTCTATGCACTAGGTGGAAATGAAAGACAACCAGATGTTAATATCGATTCTTTAGAAAAGCTATCTCATTATTGGGAAGATGTACGCAAATACTATGCACCGTTTGAAAGTGGTATGAATGCACCTCACACAGAGGTATATATGCATGAAATGCCAGGTGGACAGTATAGTAATCTTCAGCAACAAGCGAAGGCGGTTGGTTTAGGAGATCGCTTTGATGAAGTGAAAGTAATGTACCGTCGTGTGAATGACATGTTTGGAGATATTGTAAAAGTAACACCATCATCAAAAGTTGTTGGCGATATGGCGTTATTTATGGTTCAAAACCACCTGACAGAACAAGATGTTTTAGAGCGTGGACATGCTTTGGACTTCCCTGGATCTGTTGTTGAAATGTTCTCTGGTGATTTAGGTCAACCGTACGGTGGTTTCCCGAAAGAATTGCAAAAGATTATTTTAAAAGGGAAAGAGCCGTTAACAGTAAGACCAGGTGAACTACTAGAGCCAGTAGATTTCGACGCGTTAAAAGAAGAATTATTCCATAAACTTGGACGCGAAGTAACAATTTTTGATGTAGTTGCATATGCATTATATCCAAAAGTATTTATGGACTATGAAAAAGTTGCTGAGCTTTATGGAAATGTATCTGTACTTGATACACCGACATTCTTCTATGGTATGAGACTAGGTGAAGAAATTGATGTGGAAATTGAACAAGGTAAGACATTGATGGTTAAACTTGTATCAATTGGAGAACCACAGCCGGATGGAAATCGTGTCCTTTACTTGGAATTTAATGGTCAACCACGTGAAATTGTCGTGAAAGACGAGAGTGTGAAAGCAACAGTTGCACAACGTGTGAAAGGAAACCGTGAAAATCCAAATCACATTAGTGCAACAATGCCAGGAACGGTAATTAAAGTAGTTGTAAAAGAAGGCGATGAAGTGAAAAAAGGCGATTCTATGGCAATTACAGAAGCGATGAAAATGGAAACGACAGTTCAAGCGCCGTTCAATGGTAAAGTGAAAAAAGTATATGTTAACGATGGTGATGCAATTCAAACGGGTGATTTACTTATTGAATTAGATCACTAA	MTKLQRIQKVLVANRGEIAIRVFRACSELGLKTVAIYSKEDSGSYHRYKADESYLVGEGKKPIDAYLDIEGIIEIAKSNHVDAIHPGYGFLSENIQFAKRCEEEGIIFIGPKSKHLDMFGDKVKARTQAQLAQIPVIPGSDGPVDSLEEVEKFAEKYDYPIIIKASLGGGGRGMRIVRTSEELGESYNRAKSEAKAAFGNDEVYVEKFVEKPKHIEVQILADEEGNVAHLYERDCSVQRRHQKVVEIAPSVSLSDDLRQRICDAAVKLTKNVNYLNAGTVEFLVKDDEFYFIEVNPRVQVEHTITEMITGVDIVQSQILIADGHALHSKIVGVPKQEEVVVHGFAIQSRVTTEDPLNNFMPDTGKIMAYRSGGGFGVRLDTGNSFQGAVITPYYDSLLVKVTTWALTFEQAAAKMERNLKEFRIRGIKTNIPFLENVVKHKNFLSGEYDTSFIDVSPELFLFPKRKDRGTKMLNYIGSVTVNGFPGVGKKEKPIFPDARIPCLKHSEPIQNGTKQILDERGADGLVKWVQDQNRVLLTDTTFRDAHQSLLATRIRTKDLHQIAEPTARMLPNLFSAEMWGGATFDVAYRFLKEDPWERLLDLREKMPNVLFQMLLRSSNAVGYKNYPDNLIQKFVECSAQAGIDVFRIFDSLNWVEGMRVAIDAVRDTGKIAEATMCYTGDIHDPLRSKYDLNYYKNLAKELEASGAHILGIKDMAGLLKPNAAYDLVSALKETVSIPIHLHTHDTSGNGILTYTKAIEAGVDIVDVAVSSMAGQTSQPSANTLFYALGGNERQPDVNIDSLEKLSHYWEDVRKYYAPFESGMNAPHTEVYMHEMPGGQYSNLQQQAKAVGLGDRFDEVKVMYRRVNDMFGDIVKVTPSSKVVGDMALFMVQNHLTEQDVLERGHALDFPGSVVEMFSGDLGQPYGGFPKELQKIILKGKEPLTVRPGELLEPVDFDALKEELFHKLGREVTIFDVVAYALYPKVFMDYEKVAELYGNVSVLDTPTFFYGMRLGEEIDVEIEQGKTLMVKLVSIGEPQPDGNRVLYLEFNGQPREIVVKDESVKATVAQRVKGNRENPNHISATMPGTVIKVVVKEGDEVKKGDSMAITEAMKMETTVQAPFNGKVKKVYVNDGDAIQTGDLLIELDH	PGPT0001420_846	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
AK009_02801	1179	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAAAAAAGTATGGAAATCAATGGATTATTCATTGTTACTTCCTCTTGTTATCTTATGTGTGCTGGGAGTTATAATGGTATATAGTTCGAGTTCCATTGTTGCGATTTCGAGGCATAACTGGCCAGCAAATTACTTTTTTAAAAAACAATTAATAACTTTAGCTATTGGAACGGTATTGTTAGCAATTGTGGCTTCATTACCTTATAAGTTTTGGAGGAAACGAATAATTTTATCGGCAATGGGGCTAGGAAGTATTGCTTTACTAGCAGCAGCCTTGATTTTTGGTAAGGAAATAAATGGTGCAAAAGGTTGGATATTAGGTATACAGCCGGCTGAATTTGTTAAATTATCAATTATTATTATATTAGCTCGCTTTTTTGCAAGAAGACAAGAGACAAATACACCTGTTTTTAAAGGATCGGGACTTACACTTGGTTTTGTTGGAATGGCAATGTTTTTAATTTTAAAGCAAAATGATTTAGGTACCGATTTGTTAATTGCAGGAACAGTCGGGATTATGTTTCTTTGTTCAGGGGTACGGATTAACTTATGGATTAAACGAATTGTTTTAACTTCTATAGTATGGATTCCGGCGCTATATTTTCTGGCTAATTATAAATTAAGTGGTTACCAAAAGGCACGTTTTTCAGTTTTCCTTGATCCATTCAATGATCCTCAGAATGATGGATTCCAATTGGTAAATTCTTTTATTGGAATTGCTTCAGGAGGGCTAAATGGTCGGGGATTAGGAAATAGTGTGCAAAAATATGGATATTTACCAGAACCGCAAACAGATTTTATTATGGCTATTATATCTGAAGAGTTAGGTTTTATTGGTGTAGCTATTATTTTAATTTGCTTGCTACTTATTATTATTCGTTCATTCAGGATTGCTCAAAAATGTAAAGATCCGTTTGGAAGTTTAATTGCAATCGGAATTGCAAGTTTAATGGGAGTGCAAACTTTTGTTAATGTTGGTGGTATGTCTGGATTAATACCGCTTACGGGAGTACCTTTACCGTTTATTAGTTATGGCGGGAGTTCCTTAATAGCTAATCTACTTGCGATGGGAATACTACTTAATATTGCTAGTCATGTAAAACGAGAAGAAAAACAACAGAATAGTGTAATAAAAGAAAGAGAACAAAATGGACCACATCTTGTAGTTGTAAAATAA	MKKVWKSMDYSLLLPLVILCVLGVIMVYSSSSIVAISRHNWPANYFFKKQLITLAIGTVLLAIVASLPYKFWRKRIILSAMGLGSIALLAAALIFGKEINGAKGWILGIQPAEFVKLSIIIILARFFARRQETNTPVFKGSGLTLGFVGMAMFLILKQNDLGTDLLIAGTVGIMFLCSGVRINLWIKRIVLTSIVWIPALYFLANYKLSGYQKARFSVFLDPFNDPQNDGFQLVNSFIGIASGGLNGRGLGNSVQKYGYLPEPQTDFIMAIISEELGFIGVAIILICLLLIIIRSFRIAQKCKDPFGSLIAIGIASLMGVQTFVNVGGMSGLIPLTGVPLPFISYGGSSLIANLLAMGILLNIASHVKREEKQQNSVIKEREQNGPHLVVVK	PGPT0014810_3051	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK009_02802	288			hypothetical protein	TTGGCGTCTGAGACAGTAGCAAATCATCAGGAAAAGGCACTAGCCCTTCTACAAGCGGATGCAGAGAAGATTTTAAGACTTATTAAGGTGCAAATGGACCATCTTACAATGCCGCAATGTCCATTATATGAAGAAGTGTTAGACACACAAATGTTTGGACTATCCCGCGAGGTCGATTTTGCAGTTCGCCTTGGTCTTATTGCAGAAGAACAAGGGAAAGCAATGTTAGGTGAGCTCGAACGTGAGTTATCTGCACTTCATGAAGCGTTTACAAACAAACAACAATAA	MASETVANHQEKALALLQADAEKILRLIKVQMDHLTMPQCPLYEEVLDTQMFGLSREVDFAVRLGLIAEEQGKAMLGELERELSALHEAFTNKQQ				NA	NA	NA	NA	NA
AK009_02803	498			hypothetical protein	ATGAGCGAAATTTTATTTATTAACGGAAAAGTACGTTTTCCAATCACTATTGATCCAACTGTTTGGATCTTTGATGATCGAAAAGTAGATTTGACAACTTACTTTGATGAAACTAGAGAAAACACGTCTGAACTAGAAACTTATTTAAAAAACACTTCAGAACATTGGGATCGTGAAATTCGTGATGGTGCTGCCTTCCCGCCGATACAACAAAGTGTAAAGAAATATAAAAAAGAACAGCTAATTACTGGAACATTTGGTATACCATTTCATCCATTCCTTGCTAACGCTGAAATTTTAGAGGACGCTACGCAAGTTGAAATTGAAACTGTAGATCATACAATGACACTTCCATTAGAAACTGTCAAAAATGCTATACTAGGTTTTTCAAAAGAAGGAAAGCCATTAAAAGAAGACGGACCTGTTCATCTCTATTTCAATGATGGATCTAATCGACAAAATCCAATCCGGAACATCCGTAAATTTACAATTATTTAA	MSEILFINGKVRFPITIDPTVWIFDDRKVDLTTYFDETRENTSELETYLKNTSEHWDREIRDGAAFPPIQQSVKKYKKEQLITGTFGIPFHPFLANAEILEDATQVEIETVDHTMTLPLETVKNAILGFSKEGKPLKEDGPVHLYFNDGSNRQNPIRNIRKFTII				NA	NA	NA	NA	NA
AK009_02804	1329			hypothetical protein	TTGGATAAAATTTATGTGTTAGATACGAATGTACTTTTGCAGGATCCTTTATCTATTTTTTCATTTGAAACCAATGAAGTAGTGATTCCAGCAGTTGTATTAGAAGAGGTTGATTCGAAAAAACGTTATATGGATGAAGTAGGACGAAACGCTCGTTATGTATCTAAGTTAATAGATAAATTTCGTGAAATAGGAAAGCTGCATGAAAGTATCCCGCTAGAAAACGGCGGAACATTTCGTATTGAATTGAACCATCGTTCATTTGTGCAACTACAAGATATTTTTGTAGAAAAAACAAATGATAATCGAATTTTAGCTGTAGCAAAAAATTTATCTTTAGAAGAACAGGAAAAAGAGGACGGGAAGTCTGTTATTTTAGTAAGTAAAGATGTACTCGTAAGGGTAAAAGCTGATGCAATTGGTTTGAAGGCTGAAGATTATTTAAGTGATCGCGTAATTGAAGTAGAAAATATATATTCTGGCTTTTTAGAAGGATATATATCAAAAGAACAATTGGATTATTTTTATGAGAAAGGTGAATTGCCTCTATCTGAAATTGCGAATCACCCTTTTTACCCAAATCAATTTGTAGTAATGAAAGATGCATTGGGGGGCTCTAGTTCTGCGCTTGGCATCGTGGATCACTTAGGTAAGAAGGTAAAGAAACTTATTTTTCACAATGAACAAGTGTGGGGGATACGACCACGAAACGTGCAGCAAATCATGGGATTAGAATTGTTGCTTCGTGAAGATATTCCGCTTGTAACGTTAACAGGGAAAGCCGGCACAGGAAAAACGTTACTTGCATTAGCTTCGGGACTTATGCAAACAGAAGACTTAGGGTTATATAAAAAATTACTCGTTGCAAGACCAATTGTCCCAGTCGGAAAAGATATCGGTTATTTACCAGGAGAAAAAGAAGAAAAGTTAAGACCATGGATGCAGCCAATTTTTGATAACCTAGAGTATTTATTTAATACGAAAAAGCCAGGAGAGTTAGATGCTATTTTAGCTGGAATGGGTTCAATTGAAGTAGAAGCCCTTACTTATATACGCGGGAGAAGTATTCCAGATCAGTTCATTATCATTGACGAAGCACAAAATTTAACAAAGCATGAAGTGAAAACGATACTAACTAGGGTAGGGGAAAAGAGTAAGATTGTATTGATGGGAGATCCTCAGCAAATTGATCACCCATATTTAGATGAATATAATAATGGCTTAACGTATGTTGTAGAGAAGTTTAAAGAACAGCGCATTAGTGGTCATGTGAAGTTTGTTAAAGGGGAGCGATCTAATTTAGCTCAACTAGCAGCAGATTTATTGTAA	MDKIYVLDTNVLLQDPLSIFSFETNEVVIPAVVLEEVDSKKRYMDEVGRNARYVSKLIDKFREIGKLHESIPLENGGTFRIELNHRSFVQLQDIFVEKTNDNRILAVAKNLSLEEQEKEDGKSVILVSKDVLVRVKADAIGLKAEDYLSDRVIEVENIYSGFLEGYISKEQLDYFYEKGELPLSEIANHPFYPNQFVVMKDALGGSSSALGIVDHLGKKVKKLIFHNEQVWGIRPRNVQQIMGLELLLREDIPLVTLTGKAGTGKTLLALASGLMQTEDLGLYKKLLVARPIVPVGKDIGYLPGEKEEKLRPWMQPIFDNLEYLFNTKKPGELDAILAGMGSIEVEALTYIRGRSIPDQFIIIDEAQNLTKHEVKTILTRVGEKSKIVLMGDPQQIDHPYLDEYNNGLTYVVEKFKEQRISGHVKFVKGERSNLAQLAADLL				NA	NA	NA	NA	NA
AK009_02805	474			hypothetical protein	ATGTTTGGAGGTGAAAATATGGCGAATGTAGTAGAGCCTACCTTAACAGAGGGTTTAGTACAAACGTTGCGTAAAGAGTGTATTGTTATGATAGCAACGACAGATTTCGAAAAACAAGTTCCTAACGTAAGTGCTATTTCTTGGGTGTATGCAGTGAGTAAAACTAGTATTCGATTTGCAGTAGATCAACGTTCACGTATTGTGGAAAATATACGGCATAATACAGGTGTGGTATTGACTATAATGGCGAATGAATCCGTATTTTCCATAAGTGGTGCAGGTGAAATTTTGACAGATAGAATGGAAGGCATTTCTTTAAAATTAACTGTAATAGAAGTAAATGTGCAAGAAGTGCGTGATGTTATGTTTTATGGAGCGAAACTTGCAATTGAACCAACATATGAAAAAACATATGATCTTCGGGCAGCGAAAAAGCTGGATAACGAAGTGCTAGTAGGGATAAGAGAATTATAA	MFGGENMANVVEPTLTEGLVQTLRKECIVMIATTDFEKQVPNVSAISWVYAVSKTSIRFAVDQRSRIVENIRHNTGVVLTIMANESVFSISGAGEILTDRMEGISLKLTVIEVNVQEVRDVMFYGAKLAIEPTYEKTYDLRAAKKLDNEVLVGIREL				NA	NA	NA	NA	NA
AK009_02806	201			hypothetical protein	ATGAGAGTCAAATGTATGATTTGTGATAAAAAAGATATGTTAGATGATGAAAATCCTATGGCAAAAAAACTGCGTAATCGCCCTATTCATACATATATGTGCATGGAATGTTCGGAACGAATTGCAGAGCGTACAATGGAACGTCATGCAAGTGGTAATTTCCGATTATATCGTGATAAAAAAATCGAAGATGATTGGTAA	MRVKCMICDKKDMLDDENPMAKKLRNRPIHTYMCMECSERIAERTMERHASGNFRLYRDKKIEDDW				NA	NA	NA	NA	NA
AK009_02807	276			hypothetical protein	ATGCGTTCAGTACAAGATGCACTATATAATTGGTTAACAATTAAAACAGTTGCTGAAGCACGTCCAGATGATAGTGCTGCAAAAGAAACGTATTTGTTATTTCAAAATATGATATATGAAGAACATAAATTAAAAAATGTGGAAGTCGAAAAGAACGAGGAGATGTATTTAATTACATACGAAATAAATGGAGAACGGAAATCTGCAAGGTTTCCGTTAGAAGCCATTGATTGTTTTTTGGATCAGATGAATCGTGAACCAGAAAAATATAAATAA	MRSVQDALYNWLTIKTVAEARPDDSAAKETYLLFQNMIYEEHKLKNVEVEKNEEMYLITYEINGERKSARFPLEAIDCFLDQMNREPEKYK				NA	NA	NA	NA	NA
AK009_02808	303			hypothetical protein	GTGTTAGAAAGGATGTCTTTTTTTGCAAAATTGTGTAAGGTAGATGAAAATCCAGAGTTAGGAATGTGGTTACTTTATGGGACGATTATTATATTAAGTGCTCTCGTCTATAATTTAGGGTTTGCTAGAAAGTTGTCTGTACTTAAAAATATTGTGATATACATATCATTAGCAATTGGATGTACAGTATTAACCTTTTTTGCTGTATTTTTACCCGTTGGAGAAGGACTTGTTGTAGCAGCAATTGTACTTGGGATTTATAGATTACGTTTGCGTCAAGCGAAACAACAAAAAGCAGGATGA	MLERMSFFAKLCKVDENPELGMWLLYGTIIILSALVYNLGFARKLSVLKNIVIYISLAIGCTVLTFFAVFLPVGEGLVVAAIVLGIYRLRLRQAKQQKAG				NA	NA	NA	NA	NA
AK009_02809	1845	typA	COG1217	GTP-binding protein TypA/BipA	ATGTTGAAAAAACGACAAGATTTACGTAATATAGCAATTATTGCCCACGTTGACCATGGTAAAACAACACTTGTTGACCAGTTATTACGTCAAGCGGGGACTTTCCGTGCGAACGAACACGTTGAAGAACGCGCAATGGATTCAAATGATCTAGAAAGAGAACGCGGTATTACAATTTTAGCGAAAAATACAGCGATTCACTATGAAGATAAAAGAATTAACATTTTAGATACACCAGGTCACGCTGACTTCGGTGGAGAAGTAGAACGTATCATGAAAATGGTTGATGGTGTTTTACTTGTTGTTGATGCATATGAAGGTTGTATGCCACAAACACGATTTGTTTTAAAGAAAGCTCTTGAGCAAAACTTAACTCCAATCGTAGTTGTAAACAAAATTGACCGTGACTTCGCTCGTCCTGATGAAGTAGTTGATGAAGTAATCGACTTATTCATTGAGCTTGGTGCAAACGAAGATCAATTAGAGTTCCCAGTTGTATTTGCATCAGCAATGAACGGAACAGCAAGCTTAGATTCAAACCCAGCAAATCAAGAAGAGAATATGAAATCATTATTTGATACAATTATCGAACATATTCCAGCACCGATTGATAACAGTGAAGAGCCACTTCAATTCCAAGTAGCACTTCTTGATTACAACGACTATGTTGGACGTATTGGAGTTGGACGCGTATTCCGCGGTACAATGAAGGTTGGACAACAAGTTGCTTTAATGAAAGTTGACGGAAGTGTAAAACAATTCCGCGTAACGAAATTATTCGGTTACATTGGATTAAAACGTCAAGAAATCGAAGAAGCAAAAGCTGGGGACTTAGTAGCCGTTTCTGGTATGGAAGACATTAACGTTGGTGAAACGGTATGTCCGGTTGAGCATGAAGATGCGTTACCATTACTACGTATTGATGAGCCAACACTACAAATGACGTTCCTTGTAAATAACAGCCCATTTGCAGGTCGTGAAGGTAAATACATTACATCTCGTAAAATTGAAGAGCGTCTTCGTTCACAATTAGAAACAGATGTAAGTTTACGTGTAGATAATACAGAGTCTCCTGATGCGTGGATCGTATCTGGACGTGGGGAACTACATTTATCTATCTTAATCGAAAACATGCGTCGTGAAGGTTATGAATTACAAGTATCTAAGCCAGAGGTAATCATTAAAGAAGTTGATGGCGTAAGATGTGAACCTGTAGAGCGCGTACAAATCGATGTACCTGAAGAATACACTGGTTCTATTATGGAATCTATGGGTGCACGTAAAGGTGAAATGTTAGATATGGTGAATAACGGAAACGGTCAAGTGCGCCTTACTTTCATGGTTCCAGCACGTGGTTTAATTGGTTACACAACAGAATTCTTAACATTAACTCGTGGTTACGGTATTTTAAACCATACATTCGATTGCTACCAACCAGTACACGCTGGACAAGTTGGTGGACGTCGCCAAGGTGTTCTAGTTTCACTTGAAACAGGAAAAGCATCACAATACGGTATTATGCAAGTTGAAGACCGTGGTGTAATCTTCGTTGAACCAGGTACAGAAGTATATGCTGGTATGATTGTTGGAGAACACACTCGTGAGAACGACTTAACAGTTAACGTTGTGAAAATGAAACAACAAACTAACATTCGTTCTGCGACGAAAGATCAAACTTCAACAATGAAGAAACCACGCCTAATGACTTTAGAAGAATCATTAGAGTACTTAAACGATGATGAGTTCTGTGAAGTAACTCCAGAATCAATTCGTCTGCGTAAAAAGATTCTTGATAAGAGTGAGCGCGAAAGAGCTGCTAAGAAAAAGAAATCGGTTGAAGCGTAA	MLKKRQDLRNIAIIAHVDHGKTTLVDQLLRQAGTFRANEHVEERAMDSNDLERERGITILAKNTAIHYEDKRINILDTPGHADFGGEVERIMKMVDGVLLVVDAYEGCMPQTRFVLKKALEQNLTPIVVVNKIDRDFARPDEVVDEVIDLFIELGANEDQLEFPVVFASAMNGTASLDSNPANQEENMKSLFDTIIEHIPAPIDNSEEPLQFQVALLDYNDYVGRIGVGRVFRGTMKVGQQVALMKVDGSVKQFRVTKLFGYIGLKRQEIEEAKAGDLVAVSGMEDINVGETVCPVEHEDALPLLRIDEPTLQMTFLVNNSPFAGREGKYITSRKIEERLRSQLETDVSLRVDNTESPDAWIVSGRGELHLSILIENMRREGYELQVSKPEVIIKEVDGVRCEPVERVQIDVPEEYTGSIMESMGARKGEMLDMVNNGNGQVRLTFMVPARGLIGYTTEFLTLTRGYGILNHTFDCYQPVHAGQVGGRRQGVLVSLETGKASQYGIMQVEDRGVIFVEPGTEVYAGMIVGEHTRENDLTVNVVKMKQQTNIRSATKDQTSTMKKPRLMTLEESLEYLNDDEFCEVTPESIRLRKKILDKSERERAAKKKKSVEA	PGPT0023720_1425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
AK009_02810	180			hypothetical protein	ATGGAACACATTCAATATCGCTTTTTATTAACCGCAATTATCGGTGTTATTTTCTTAATCGGTATCGGCATTATGATTGCTGAAAATAGTCCAATCGGTATTATTATTTGCATTATCGGCACATTTGTTGCAGTTGGGTACGGTTTTGTAACAAAAAGAAAAATGCGCAAATCACAATAA	MEHIQYRFLLTAIIGVIFLIGIGIMIAENSPIGIIICIIGTFVAVGYGFVTKRKMRKSQ				NA	NA	NA	NA	NA
AK009_02811	804	suhB_1	COG0483	Fructose-1,6-bisphosphatase/inositol-1-monophosphatase	ATGCAAGAAGTATGGAAAGACATCGATGCACACGCCAAACGGTGGATTCGGGATGCAGGAGAGCATTTGATGGCATCAATGAAAAAAGCACTTATTATAGAAACAAAATCAAATGCAGCTGACTTAGTTACAAATATGGACCGAGAGATAGAACGGTTTTTAATTGGGAAAATTAAAGAAACATTCCCGAATCATAATATTTTAGGAGAAGAGGGTTATGGAGACGAGATAACGTCTTCTGGCGGGGTTGTTTGGTTAATTGATCCAATTGACGGTACGATGAACTTTGTTCATCAAAAAAGAAATTTTGCGATTTCAATTGGTATTTATGAGAACGGTATCGGAAAGATTGGACTTATTTATGATCCAGTGCACGATGAACTATATCATGCAGTCAAGGGATCCGGAGCTTTTTGTAATGATATATCAATTCCTCCATTGGAAAAAGGAACTGTAGAGCAAGGTATTGTAGCTTTAAATGCGATATGGCTTACAGATAATCCATTGCTTAATATGGAAAGTATGATGGCACTTGTTAAGAAAGCAAGGGGCACGAGATCATATGGCTGTGCAGCACTAGAGATGATATACGTTGCAACAGGAAGAATAGATGCATATGTAACGCCGAGATTATCACCATGGGATTTTGGCGGAGGACAGATAATTGTAGAAGAAGTTGGAGGTAAGGTGACGACATTCTCTGGAGCGCCACTTTCTATCATAGAGAAGAGCAGTGTGTTAGTTGCAAAACCAGGAGTGTATGAAGAAGTGTTATCGTTTATATTAGAGCAACAAAAAAAGTAA	MQEVWKDIDAHAKRWIRDAGEHLMASMKKALIIETKSNAADLVTNMDREIERFLIGKIKETFPNHNILGEEGYGDEITSSGGVVWLIDPIDGTMNFVHQKRNFAISIGIYENGIGKIGLIYDPVHDELYHAVKGSGAFCNDISIPPLEKGTVEQGIVALNAIWLTDNPLLNMESMMALVKKARGTRSYGCAALEMIYVATGRIDAYVTPRLSPWDFGGGQIIVEEVGGKVTTFSGAPLSIIEKSSVLVAKPGVYEEVLSFILEQQKK	PGPT0018535_4251	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
AK009_02812	189			hypothetical protein	ATGAGACAGGTGATTAATGCGTTAAAGAGAACAGATGCCGAAAAGAGAATACCGGTGCTACGTTTGGAGCTAGATTATGAATTAGCAACTTTATATGATGCGATGATGGAAGATGATAAACAGAAAAAAGAAGAGTGTGTACAAAAGTTAGAAGTGTTAAGACTTGAAATGATTCGTTTAGAAGCGTAA	MRQVINALKRTDAEKRIPVLRLELDYELATLYDAMMEDDKQKKEECVQKLEVLRLEMIRLEA				NA	NA	NA	NA	NA
AK009_02813	627			hypothetical protein	ATGACAATACAAACATTCAAGTCAACTGATTTTGATGTCTTTACAGTTGATGGTCTCGAAGAACGAATGAGTGCAATTAAAACGAACATTCATCCTAAGCTAGAAGCTTTAGGGGAACAATTTGCAGAATACTTATCCAAACACACTGATGAGAACTTTTTTTATCATGTTGCAAAACACGCACGACGGAAAGTCAATCCACCAAACGATACTTGGGTTGCTTTTTCAACAAATAAACGAGGATATAAAATGCTACCGCATTTCCAAATCGGCTTATGGGGTACTCATGCCTTCATATACTTTGGTTTAATCTATGAGTGTCCACAAAAAGTTGAGACGGCTCATGCCTTCTTAGAACATTTAAATGATTTAAAAACAAATATTCCAAATGACTTCGTTTGGTCCATTGACCATACTAAACCAAGTGTGAAATTACATAAAACACTTGAAACCGAAGACTTACAAAAGATGATTGAACGACTAGCTACTGTAAAAAAAGCAGAATTATTAGTTGGTATTCATATATCACCAGAGGAGTTTTCAGCAATGACCAACGAACAATTCCTTGCTAAGATTGAATCTACGATGCAACCACTCCTTCCTTTATATGCACTTTGTAATCGATAG	MTIQTFKSTDFDVFTVDGLEERMSAIKTNIHPKLEALGEQFAEYLSKHTDENFFYHVAKHARRKVNPPNDTWVAFSTNKRGYKMLPHFQIGLWGTHAFIYFGLIYECPQKVETAHAFLEHLNDLKTNIPNDFVWSIDHTKPSVKLHKTLETEDLQKMIERLATVKKAELLVGIHISPEEFSAMTNEQFLAKIESTMQPLLPLYALCNR				NA	NA	NA	NA	NA
AK009_02814	270			hypothetical protein	ATGGAATATCAATATCCGTTAGATTATGATTGGTCAAATGAGGAAATGGTTACAATTGTGAAGTTTTATGAAGCGATTGAGAAAGCTTATGAAAAAGGAATTATAAGAGAAGAATTAATGGGTTTATATCGTCGTTTTAAAGAGATTGTTCCATCGAAAGCAGAAGAAAAGAAAATTGATAAAGAGTTTCAAGAAGTAAGTGGATACTCTATATATCGTGCTATTCAAAGGGCAAAGGAAGTTGAAGAACAAAAGGTTGTAAAAATATAA	MEYQYPLDYDWSNEEMVTIVKFYEAIEKAYEKGIIREELMGLYRRFKEIVPSKAEEKKIDKEFQEVSGYSIYRAIQRAKEVEEQKVVKI				NA	NA	NA	NA	NA
AK009_02815	1473	speA_1	COG1982	Arginine decarboxylase	TTGTCCCAATACGAAACACCATTGTTTACCGCTTTAGTTGAGCACAGTAAGCGAAATCCAATTCAATTCCATATTCCTGGTCATAAAAAAGGACAGGGCATGGATCCTACATTTCGCGAATTTATTGGGCATAATGCATTAGCAATTGACTTAATTAATATTGCGCCACTCGATGATTTACATCATCCAAAAGGTATGATTAAAGAAGCACAGGATTTAGCAGCCGCTGCATTCGGTGCAGATCATACTTTCTTTTCTATTCAAGGTACAAGTGGCGCTATTATGACAATGGTGATGAGCGTTTGCGGTCCTGGTGACAAAATCCTAGTACCACGAAACGTGCATAAATCAGTAATGTCAGCTATTATTTTCTCAGGTGCAAAACCGATTTTCATGCATCCTGAAATCGATCCGAAGCTCGGTATTTCTCATGGAATCACAATTCAATCTGTCAAAAAAGCACTTGAAGAGCACTCAGATGCAAAGGGCTTACTTGTTATTAATCCAACGTACTTTGGGTTTGCTGCAGACTTAGAACAGATTGTACAATTAGCACATTCTTATGACATCCCTGTACTAGTCGACGAGGCTCATGGTGTTCATATTCATTTTCACGATAAATTGCCGATGTCGGCGATGCAAGCTGGTGCAGACATGGCAGCAACAAGTGTCCACAAATTAGGAGGCTCTTTAACTCAAAGTTCTATTCTTAATGTGAAAGAAGGCTTGGTGAATGTAAAGCATGTCCAATCTATTATTAGCATGCTTACGACTACATCAACTTCTTACATCTTGTTAGCATCACTTGATGTTGCCAGAAAACGTCTTGCCACAGAAGGAACAGCACTCATAGAACAAACAATACAATTAGCTGAACATGTTCGTGATGCTATAAATTCTATTGAGCATCTTTACTGTCCTGGAAAAGAAATGTTAGGTACAGATGCTACCTTTAACTATGATCCTACAAAGATAATTGTATCTGTAAAAGATTTAGGTATTACCGGCCACCAAGCTGAAGTATGGCTTAGAGAGAAATATAACATTGAAGTAGAACTCTCAGATTTATACAACATACTATGTCTTATCACTTTGGGAGATACAGAAAGTGATACAAATACACTTATTGCAGCATTACAAGATTTAGCAGCAACATTTAGAAATAGGGCAGATAAAGGTGTTCAAGTACAAGTAGAGATTCCAGAAATTCCAGTGCTAGCACTTTCTCCTCGAGATGCTTTTTATTCGGAAACAGAAGTCATTCCATTTGAAAATGCAGCGGGTCGTATTATAGCTGATTTTGTTATGGTTTATCCGCCAGGGATTCCAATCTTTACTCCGGGGGAAATTATTACACAAGAAAACTTAGAGTATATTCGTAAAAACTTAGAAGCAGGTTTACCTGTACAAGGTCCTGAAGATATGACATTACAAACATTACGTGTTATTAAAGAGTACAAGCCTATCAGTTGA	MSQYETPLFTALVEHSKRNPIQFHIPGHKKGQGMDPTFREFIGHNALAIDLINIAPLDDLHHPKGMIKEAQDLAAAAFGADHTFFSIQGTSGAIMTMVMSVCGPGDKILVPRNVHKSVMSAIIFSGAKPIFMHPEIDPKLGISHGITIQSVKKALEEHSDAKGLLVINPTYFGFAADLEQIVQLAHSYDIPVLVDEAHGVHIHFHDKLPMSAMQAGADMAATSVHKLGGSLTQSSILNVKEGLVNVKHVQSIISMLTTTSTSYILLASLDVARKRLATEGTALIEQTIQLAEHVRDAINSIEHLYCPGKEMLGTDATFNYDPTKIIVSVKDLGITGHQAEVWLREKYNIEVELSDLYNILCLITLGDTESDTNTLIAALQDLAATFRNRADKGVQVQVEIPEIPVLALSPRDAFYSETEVIPFENAAGRIIADFVMVYPPGIPIFTPGEIITQENLEYIRKNLEAGLPVQGPEDMTLQTLRVIKEYKPIS	PGPT0007770_1758	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
AK009_02816	831	tgl		Protein-glutamine gamma-glutamyltransferase	ATGATTGTAATAGGCCGTTCTATTGTACATCCTTATATTACAAATGAATATGAGCCATTTGCAGCAGAGAAACAACAAATTTTATCAATAATGGCAGGAAATCAAGAAGTTTATTCCTTCCGAACAGCTGATGAACTCAGCTTTGATCTCAATTTACGAGTTAATATTATTATCTCTGCACTAGAACTTTTTCAAAGTGGATTTCAGTTTCGCACATTTCAACAATCCTTTTGCAACCCCCAGTATTGGAAAAGAACATCCCTTGGAGGATTCGAGCTTCTTCCAAACATACCACCTTCTATTGCCATACAAGATATTTTCAAAAACGGAAAACTATATGGAACTGAATGTGCAACCGCTATGATCATTATTTTTTATAAAGCTTTATTATCATTGTATGAGGAAGAAACTTTCAATCGTCTATTTGCAAACCTTTTACTTTATACATGGGACTACGATCAAGATCTAAGGCTCATAACAAAAACCGGTGGCGATCTTGTTCCAGGTGACCTCGTTTACTTTAAAAACCCACAAGTGAATCCAGCTACGATTGAGTGGCAAGGAGAAAACACAATCTATTTAGGAAATTTCTTTTTTTACGGACATGGCGTAGGTGTAAAAACAAAAGAAGAAATTATTTATTCATTAAATGAACGACGAGTCCCTTACGCTTTTATTTCAGCTTTCTTGACCGATACTATTACCCGTATCGATAGCCGTATAATGAGCCAATACGCTTCTTCTAGTACACCACAGACATCCATAAGCTTTATTCCAATTAGAGATGATGCAATCGTTGCAACAGTTGGCCATACAACTACAATTTATTAA	MIVIGRSIVHPYITNEYEPFAAEKQQILSIMAGNQEVYSFRTADELSFDLNLRVNIIISALELFQSGFQFRTFQQSFCNPQYWKRTSLGGFELLPNIPPSIAIQDIFKNGKLYGTECATAMIIIFYKALLSLYEEETFNRLFANLLLYTWDYDQDLRLITKTGGDLVPGDLVYFKNPQVNPATIEWQGENTIYLGNFFFYGHGVGVKTKEEIIYSLNERRVPYAFISAFLTDTITRIDSRIMSQYASSSTPQTSISFIPIRDDAIVATVGHTTTIY	PGPT0024948_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024948-tgl-K00686	NA	NA
AK009_02818	129			hypothetical protein	ATGGGAACAATCGTATGCCAAGTATGTGAAGGAACAATTGGACATTTTGAAGATGAAAAATCAACAGTACTATACGGGAAATGTGGATCTCATTGCGAATGTGACCATAAAGAACATACAAAAGCTTAA	MGTIVCQVCEGTIGHFEDEKSTVLYGKCGSHCECDHKEHTKA				NA	NA	NA	NA	NA
AK009_02819	129			hypothetical protein	ATGGGAACAATCGTATGCCAAGTATGTGAAGGAACAATCGGACATTTTGAAGATGAGAAAACGACGGTACTTTACGGAAAATGTGGAACAAATTGTGACTGTGCTAGAAAAGATAATGCGAAAGCTTAA	MGTIVCQVCEGTIGHFEDEKTTVLYGKCGTNCDCARKDNAKA				NA	NA	NA	NA	NA
AK009_02820	129			hypothetical protein	ATGGGAACAATCGTATGTCAAGATTGTGAAGGTACAATTGCACACTTCGAAGATGAGAAAGTAACGGTACTTTACGGGAAATGTGGATCTTGCGGATGTGATCACACAGAGCATACAAAAGCCCAATAA	MGTIVCQDCEGTIAHFEDEKVTVLYGKCGSCGCDHTEHTKAQ				NA	NA	NA	NA	NA
AK009_02822	297			hypothetical protein	ATGTTTGAAAAATTGTATGATGAGCATGAAAGTGTGAAGGTACGATTTTTAGGGTTTATGACACATGATACACGTTATGATTTTGGTGTTATTTATACAAATATGTTTTTTGGAAAACCGCTCATTGTTTGTATGCAAACAGGAAGGTCTACTTTACTCGGAAGAGATGATGTAGAGAATGTTCAATATATACAGGAGATTTTTAAATTAGGGTCAGAAGAGGAAGCGAAGGAGTTAGCTCAGTTTTTCAAATTTCTAGTTCCGTCAACTTCTTTACATGCGGAATATGAAGAATAA	MFEKLYDEHESVKVRFLGFMTHDTRYDFGVIYTNMFFGKPLIVCMQTGRSTLLGRDDVENVQYIQEIFKLGSEEEAKELAQFFKFLVPSTSLHAEYEE				NA	NA	NA	NA	NA
AK009_02823	393			hypothetical protein	ATGCAACATGCCTTTATTACGCTTGTACCTAAATCCAATCAACAATCTGTTTCAATAGATGATATAAAACAACTTTTTCATTATTATAAAACAGTTACTTCTAAAACTGGTGCCCAAATTAATTACCCGTATACAAATACCGCTTTTCCTTATGAAATTTTAGATACATCAGCAACAACATTAAAACTTCAATCCAATCACGACCGGTATGACTTAATTTATATTGGTGTTGGTATAGAAAATGAACAATCTTTCATCCAAGTTTCTTTACCACCTAATGCAACATATGGTGACAAAGGGAAAGCGAATGAATTTTGCCGTTTTTTAGCGAAGAAATTAGAAGGAGAGTTACAATTATTTAATGGAAGAACAATGTATTTTTATAAACGTTAA	MQHAFITLVPKSNQQSVSIDDIKQLFHYYKTVTSKTGAQINYPYTNTAFPYEILDTSATTLKLQSNHDRYDLIYIGVGIENEQSFIQVSLPPNATYGDKGKANEFCRFLAKKLEGELQLFNGRTMYFYKR				NA	NA	NA	NA	NA
AK009_02824	228			hypothetical protein	ATGAAAATATTACATGTTATATTTTATCATTTACTACTATGGAGTGGCTTTTCCACTGTATTAACATTATCGAATGGTGATAAGTTTCATTATAAAGTTATTCTTTTTTTCGTATTCCTGTATTTAGCCTATGTAATAGCATATTTTGTATTACACGTAAGAAAGCAAGCTTTATTTCTTACATGTTCGAATTGTATACTATTTTTAATCATATTATCTATTTTTTAA	MKILHVIFYHLLLWSGFSTVLTLSNGDKFHYKVILFFVFLYLAYVIAYFVLHVRKQALFLTCSNCILFLIILSIF				NA	NA	NA	NA	NA
AK009_02825	1413	pdhD_2		Dihydrolipoyl dehydrogenase	ATGGTAGTAGGAGATTTCCCAATTGAATTAGATACAGTCGTTGTTGGTGCAGGTCCTGGTGGATACGTTGCGGCAATTCGTGCAGCACAATTAGGTCAAAAGGTAGCAATTATTGAAAAAGCTAACCTTGGTGGCGTATGCTTAAACGTTGGATGTATTCCTTCAAAAGCGTTAATCAATGCAGGTCATCGTTATGAGAATGCAATGCATTCTGATGACATGGGTATCACTGCAGAGAACGTAAAAGTTGACTTTACAAAAGTTCAAGAATGGAAAAACGGCGTAGTTAAGAAATTAACTGGCGGTGTTGAAGGCCTTCTTAAAGGTAACAAAGTTGAAATCATTCGCGGTGAAGCTTACTTCGTAGATGCTAACACATTACGCGTTATGACTGAAGATGCAGCTCAAACTTATACGTTTAAAAATGCTGTTCTTGCAACTGGTTCTACACCAATCGAAATTCCAGGATTCAAATACTCTAAACGTGTTATCAACTCTACAGGTGCTTTAAGCTTACCTGAAATTCCTAAAAAACTTGTTGTAATCGGCGGCGGTTACATCGGTATGGAATTAGGTACTGCATATGCTAACTTCGGTACAGAAGTTACTGTAGTAGAAGCTGGCGACGAAATCTTAGCTGGTTTCGAAAAAGCTATGAGCTCTGTTGTTAAACGTGCTCTACAGAAAAAAGGTAACGTAAATATCCATACAAAAGCTATGGCTAAAGGCGTTGAAGAAACAGAAACTGGCGTAAAAGTTAGCTTTGAAGTTAAAGGTGAAATCCAAACTGTAGAAGCAGATTACGTATTAGTAACTGTAGGTCGTCGTCCAAACACTCAAGAAATCGGTCTTGAGCAAGTTGGAGTTAAAATGACTGACCGCGGCATCATCGAAATCGATGAGCAATGTCGTACAAATGTACCAAACATCTATGCAATCGGTGATATCGTTCCTGGACCACCATTAGCTCACAAAGCTTCTTACGAAGGTAAAGTAGCTGTAGAAGCAATTAGTGGCCATGCATCAGCTATCGATTACATCGGAATTCCTGCAGTATGCTTCACTGATCCAGAATTAGCATCTGTTGGTTACACTAAAAAACAAGCTGAAGAAGCTGGAATGACTGTAACTGTATCTAAGTTCCCATTCGCTGCTAACGGTCGTGCATTATCATTAAACAGCACTGACGGTTTCCTACAACTTGTAACACGTAAAGAAGATGGTCTTCTTGTAGGTGCTCAAGTTGCAGGTGCAGGTGCTTCTGATATTATCTCTGAGATTGGTTTAGCTATCGAAGCTGGAATGACAGCTGAAGATATCGCTCAAACAATCCATGCTCACCCAACATTAGGTGAAATCACAATGGAAGCAGCTGAAGTTGCTCTTGGAATGCCAATTCACATTGTAAAATAA	MVVGDFPIELDTVVVGAGPGGYVAAIRAAQLGQKVAIIEKANLGGVCLNVGCIPSKALINAGHRYENAMHSDDMGITAENVKVDFTKVQEWKNGVVKKLTGGVEGLLKGNKVEIIRGEAYFVDANTLRVMTEDAAQTYTFKNAVLATGSTPIEIPGFKYSKRVINSTGALSLPEIPKKLVVIGGGYIGMELGTAYANFGTEVTVVEAGDEILAGFEKAMSSVVKRALQKKGNVNIHTKAMAKGVEETETGVKVSFEVKGEIQTVEADYVLVTVGRRPNTQEIGLEQVGVKMTDRGIIEIDEQCRTNVPNIYAIGDIVPGPPLAHKASYEGKVAVEAISGHASAIDYIGIPAVCFTDPELASVGYTKKQAEEAGMTVTVSKFPFAANGRALSLNSTDGFLQLVTRKEDGLLVGAQVAGAGASDIISEIGLAIEAGMTAEDIAQTIHAHPTLGEITMEAAEVALGMPIHIVK	PGPT0001380_4678	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
AK009_02826	1287	pdhC_2	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGGCATTTGAATTTAAACTACCAGATATCGGTGAAGGTATCCACGAAGGTGAAATCGTAAAATGGTTTATTAAACCAGGCGATGAAGTAAATGAAGACGATGTACTTCTTGAAGTACAAAATGATAAAGCAGTAGTAGAAATCCCTTCTCCTGTTAAAGGTAAAGTACTTGAAGTACTTGTAGAAGAAGGAACAGTTGCAATCGTAGGAGATACATTAATTAAATTTGATGCTCCTGGATACGAAAACCTTAAATTTAAAGGTGACGATCATGATGAAGCTCCAAAAGCTGAAGAAGCAGCAGTAGAAGCTCCAGCAGCGGAAGCTACTCCAGCAGCAACTGCAGAAGTAGTAAATGAGCGCGTAATCGCTATGCCATCTGTTCGTAAATACGCTCGTGAAAAAGGTGTAGACATTCATAAAGTAGCTGGTACTGGTAAGAATGGCCGTATCGTAAAAGCTGACATCGATGCATTTGCAAATGGTGGACAAACTGTAGCAGCAACTGAGGCTCCAGCAGCAGTAGAAGCTACTCCAGCAGCGAAAGAAGAAGCACCAAAAGCACAACCAATTCCAGCTGGAGAATATCCAGAAACTCGTGAGAAAATGAGTGGTATCCGTAAAGCGATTGCGAAAGCAATGGTTAACTCTAAGCATACAGCTCCTCACGTAACATTAATGGATGAAGTTGATGTAACTGAGCTTGTTGCTCACCGTAAGAAGTTCAAAGCAGTAGCAGCTGACAAAGGTATTAAATTAACTTACCTTCCGTACGTTGTTAAAGCTTTAACATCTGCATTACGTGAATACCCAATGTTAAACACTTCTTTAGACGATGCATCTCAAGAAGTAGTTCATAAACATTACTTCAACATCGGTATCGCAGCTGATACAGACAAAGGTCTATTAGTACCAGTTGTTAAAGATACAGATCGTAAGTCTATCTTCACTATTTCTAACGAGATCAACGATCTTGCTGGTAAAGCACGTGAAGGTCGTCTAGCTCCAACTGAAATGAAAGGTGCTTCTTGCACAATTACAAACATTGGTTCTGCAGGTGGACAATGGTTCACTCCAGTTATCAATCACCCAGAAGTAGCAATCCTTGGTATCGGCCGTATCGCTGAAAAACCAGTTGTGAAAAATGGCGAGATCGTTGCAGCTCCAGTATTAGCATTATCTCTAAGCTTTGACCATCGTTTAATTGACGGCGCAACAGCTCAAAAAGCGTTAAACCAAATTAAACGTCTATTGAATGACCCACAATTATTAGTAATGGAGGCGTAA	MAFEFKLPDIGEGIHEGEIVKWFIKPGDEVNEDDVLLEVQNDKAVVEIPSPVKGKVLEVLVEEGTVAIVGDTLIKFDAPGYENLKFKGDDHDEAPKAEEAAVEAPAAEATPAATAEVVNERVIAMPSVRKYAREKGVDIHKVAGTGKNGRIVKADIDAFANGGQTVAATEAPAAVEATPAAKEEAPKAQPIPAGEYPETREKMSGIRKAIAKAMVNSKHTAPHVTLMDEVDVTELVAHRKKFKAVAADKGIKLTYLPYVVKALTSALREYPMLNTSLDDASQEVVHKHYFNIGIAADTDKGLLVPVVKDTDRKSIFTISNEINDLAGKAREGRLAPTEMKGASCTITNIGSAGGQWFTPVINHPEVAILGIGRIAEKPVVKNGEIVAAPVLALSLSFDHRLIDGATAQKALNQIKRLLNDPQLLVMEA	PGPT0001390_5218	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
AK009_02827	978	pdhB		Pyruvate dehydrogenase E1 component subunit beta	ATGGCTCAAATGACAATGATTCAAGCAATCACTGATGCTTTACGCGTTGAAATGAAAAATGATCCTAACGTACTTGTATTTGGTGAAGACGTTGGTGTAAACGGCGGTGTATTCCGTGCTACTGAAGGTTTACAAGCTGAATTTGGTGAAGATCGTGTAATGGATACTCCACTTGCAGAGTCTGGTATTGGTGGACTTGCAGTTGGTCTTGCACTTGAAGGATTCCGTCCAGTTCCAGAAATCCAATTCTTCGGTTTCGTTTTTGAAGTAATGGATTCAATTTCTGGTCAATTGGCTCGTATGCGTTACCGTTCTGGTGGACGTTGGACTGCTCCAGTAACAGTTCGTTCTCCATTTGGTGGTGGTGTTCATACTCCTGAACTACATGCTGATAGCTTAGAAGGATTAGTGGCTCAACAACCTGGTCTAAAAGTTGTTATTCCATCTACTCCATACGATGCTAAAGGTCTTTTAATCTCTGCGATTCGTGACAACGATCCAGTTATCTACTTAGAGCATATGAAATTGTATCGTTCATTCCGCCAAGATGTACCAGAAGGCGAATACACAATTGATTTAGGCAAAGCTGATATCAAACGTGAAGGTACAGATGTATCTGTTATCGCTTACGGTGCTATGGTTCACGCTGCATTAAAAGCTGCTGAAGAACTTGAAAAAGAAGGTATCTCTTTAGAGGTTGTTGACTTACGTACAGTTCAACCATTAGATATCGAAACAATCATCGCTTCTGTTGAAAAAACAGGTCGCGTAGTTGTAGTTCAAGAAGCTCAAAAACAAGCTGGTATTGCAGCTAACGTTGTAGCGGAAATTAACGACCGTGCAATCTTAAACTTAGAAGCTCCAGTTGTACGTGTTGCAGCTGCTGATACAGTATTCCCATTCTCTCAAGCAGAGAGCGTATGGTTACCAAACCACAAGGATATTGTTGAAGCTGTAAACAAAGTAATGAACTTCTAA	MAQMTMIQAITDALRVEMKNDPNVLVFGEDVGVNGGVFRATEGLQAEFGEDRVMDTPLAESGIGGLAVGLALEGFRPVPEIQFFGFVFEVMDSISGQLARMRYRSGGRWTAPVTVRSPFGGGVHTPELHADSLEGLVAQQPGLKVVIPSTPYDAKGLLISAIRDNDPVIYLEHMKLYRSFRQDVPEGEYTIDLGKADIKREGTDVSVIAYGAMVHAALKAAEELEKEGISLEVVDLRTVQPLDIETIIASVEKTGRVVVVQEAQKQAGIAANVVAEINDRAILNLEAPVVRVAAADTVFPFSQAESVWLPNHKDIVEAVNKVMNF	PGPT0019590_2599	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
AK009_02828	1116	pdhA	COG1071	Pyruvate dehydrogenase E1 component subunit alpha	ATGGGTACTAAAACAAAAAAGACCCTATTTAATGTTGATGAGCAAATGAAAGCTATCGCAGCTCAATTTGAAACATTACAAATTTTAAATGAAAACGGTGAAGTTGTGAATGAAGCAGCTATGCCTGAATTATCTGATGATCAATTAAAAGAATTAATGCGTCGTATGGTGTATACTCGCGTATTAGATCAACGTTCTATTTCTTTAAACCGTCAAGGACGTTTAGGTTTCTACGCACCTACAGCTGGACAAGAAGCTTCTCAATTAGCGAGTCATTTCGCACTTGAAGCAGAAGACTTCATCTTACCAGGATACCGTGATGTACCACAATTAGTATGGCACGGACTTCCATTATATCAAGCATTCTTATTCTCTCGTGGACACTTCATGGGTAACCAAATGCCTGAGAATGTAAATGCATTAGCTCCACAAATCATTATCGGTGCGCAAATCATCCAAACTGCTGGTGTTGCGTTAGGTATGAAACTACGTGGTAAAAAATCTGTTGCAATTACTTACACTGGTGACGGTGGTGCTTCACAAGGTGACTTCTACGAAGGTATGAACTTTGCAGGTGCATTCAAAGCTCCAGCAATCTTCGTTGTTCAAAACAACCGTTATGCAATCTCTACTCCAGTAGAAAAGCAATCTGCAGCTAAAACTGTAGCACAAAAAGCAGTAGCAGCAGGTATTTACGGAATTCAAGTAGACGGTATGGATCCATTAGCTGTATACGCAGCAACTGCTTTCGCTCGTGAGCGCGCAGTAAATGGCGAAGGTCCTACTTTAATCGAGACTTTAACATTCCGTTACGGTCCACATACAATGGCTGGTGATGACCCAACTCGTTACCGTACAAAAGATATCGAAAACGAATGGGAACAAAAAGACCCAATCGTACGCTTCCGTAAGTTCTTAGAAGCTAAAGGCCTATGGTCTCAAGAAGTTGAAGAGACAGTAATCGAAGAAGCAAAAGAAGATATCAAACAAGCAATTGCTAAGGCTGACCAAGCTCCAAAACAAAAAGTAACTGATTTAATGGAAATCATGTACGAAAAAATGCCTTACAACTTAGCTGAACAATATGAAATCTACAAAGAAAAGGAGTCGAAGTAA	MGTKTKKTLFNVDEQMKAIAAQFETLQILNENGEVVNEAAMPELSDDQLKELMRRMVYTRVLDQRSISLNRQGRLGFYAPTAGQEASQLASHFALEAEDFILPGYRDVPQLVWHGLPLYQAFLFSRGHFMGNQMPENVNALAPQIIIGAQIIQTAGVALGMKLRGKKSVAITYTGDGGASQGDFYEGMNFAGAFKAPAIFVVQNNRYAISTPVEKQSAAKTVAQKAVAAGIYGIQVDGMDPLAVYAATAFARERAVNGEGPTLIETLTFRYGPHTMAGDDPTRYRTKDIENEWEQKDPIVRFRKFLEAKGLWSQEVEETVIEEAKEDIKQAIAKADQAPKQKVTDLMEIMYEKMPYNLAEQYEIYKEKESK	PGPT0018025_1149	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
AK009_02829	147			hypothetical protein	ATGTACGGATACTCATATTGCTATCCAACTTGTTCATATCCTTCCTACGGTTATGGCGGTTCTTGTGGCGGGTCTGGACGCGGCTTCGCCTTAATCGTTGTGTTGTTTATTCTTTTAATTATCGTTGGTGCTGCTTGCATTCGCTAA	MYGYSYCYPTCSYPSYGYGGSCGGSGRGFALIVVLFILLIIVGAACIR	PGPT0024985_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_02830	555	def2	COG0242	Peptide deformylase 2	ATGCTTACAATGAAAGATGTTATTCGCGAAGGAGATCCTATTTTGCGCAACGTTGCAGAAGATGTTTCATTACCGGCAAGCGAAAAAGATACAACTACCCTAAAAGAAATGATTGAATTTGTAATAAATAGCCAAGATCCTGAAATGGCTGAAAAATATAGTTTACGCCCTGGAATCGGATTAGCGGCTCCGCAAATCGGTGTTTCAAAAAAAATGATTGCAGTTCATGTAACCGATGCGGACGGTACATTATATAGCCATGCATTATTCAATCCAAAAATCATTAGCCATTCTGTTGAACGTACATATTTACAGGGCGGTGAAGGCTGTCTATCTGTAGACCGCGAAGTACCTGGTTATGTTCCTCGTTATACAAGAATTACAGTAAAAGCAACTTCTATTAACGGGGAAGAAGTAAAATTACGTTTAAAAGGTTTACCAGCAATCGTATTCCAACACGAGATTGACCATTTAAATGGCGTTATGTTCTATGACCATATCAATAAAGAAAATCCTTTTGCCGCTCCTGATGATTCCAAACCTCTAGAGCGATAA	MLTMKDVIREGDPILRNVAEDVSLPASEKDTTTLKEMIEFVINSQDPEMAEKYSLRPGIGLAAPQIGVSKKMIAVHVTDADGTLYSHALFNPKIISHSVERTYLQGGEGCLSVDREVPGYVPRYTRITVKATSINGEEVKLRLKGLPAIVFQHEIDHLNGVMFYDHINKENPFAAPDDSKPLER				NA	NA	NA	NA	NA
AK009_02831	774			Putative bifunctional phosphatase/peptidyl-prolyl cis-trans isomerase	ATGAATGATAAAATTGTCTTTTTTGATATTGATGGAACATTATTAGATCATGATAAAAAAATTCCACAATCTACACGAGATGCAGTAAAACAGTTACAAGAAAAAGGTGTACATGTAGCAATTGCGACAGGGCGCGCGCCATTTATGTTCGAAGATATTCGTAAGGAACTTGATATACATAATTATGTTAGTTTTAATGGACAATACGTTGTCTTTGAAGATGAGGTAATATTTAATAATCCGTTACATCCAGATTCTTTACATAAGTTTACTCAGTTTGCAAAACAAGAAGGATATCCACTTGTATATCTTGACCATCAAGATATGAGAGCATCAGTGGAATATCATGATTATGTGAAAGAAGGCTTTGGAAGCTTAAACTTTGAGCATCCACCATATGAGCCTAATTTTTATGAGGAACGTAATATTTATCAAACACTACTTTTTTGTGAAGAAAATGAAGAGGAAAAGTTTATTAATCATTATCCAGATTTTCATTTTATTCGTTGGCATGCGTATTCAATGGATATCATTCCGAATGGTGGTTCTAAGGCAAAAGGAATTGAGAAATACATTGAAAAGTTAGGTTTTAATCGTGATCAAGTGTATGCATTTGGAGATGGTTTAAATGATTTAGAAATGATCGAAGCCGTTGGCACAGGTATTGTGATGGGAAATGGCCATGAAGACTTGAAAAAACTTGCAAATCATGTGACAAAGGATGTTAGTGAAGACGGTATATATCATGGACTAAAGTGGGCTGGATTGCTATAA	MNDKIVFFDIDGTLLDHDKKIPQSTRDAVKQLQEKGVHVAIATGRAPFMFEDIRKELDIHNYVSFNGQYVVFEDEVIFNNPLHPDSLHKFTQFAKQEGYPLVYLDHQDMRASVEYHDYVKEGFGSLNFEHPPYEPNFYEERNIYQTLLFCEENEEEKFINHYPDFHFIRWHAYSMDIIPNGGSKAKGIEKYIEKLGFNRDQVYAFGDGLNDLEMIEAVGTGIVMGNGHEDLKKLANHVTKDVSEDGIYHGLKWAGLL				NA	NA	NA	NA	NA
AK009_02832	213			hypothetical protein	ATGATTTTTAAAGTATTTTATCAAGAAAAATTAACTGAGGTTCCAGTACGTGAAAATACAAAAGTTTTATATTTAGAGGCTACGTCTGAAAAGGATGTTCGTACAAAATTAAATAAGTTCGCATATAATATCGAGTTTGTTCAGTCTGTTACTGGCGCTCATCTTGAATATGAAAAAGAAAACGCTGATTTAACATTAGCGGAAATCGTATAG	MIFKVFYQEKLTEVPVRENTKVLYLEATSEKDVRTKLNKFAYNIEFVQSVTGAHLEYEKENADLTLAEIV				NA	NA	NA	NA	NA
AK009_02833	1668	rnjA_3	COG0595	Ribonuclease J1	ATGAAATTTCTAAAAAACGACCAAGTTGCTGTATTTGCTCTCGGTGGGCTTGGTGAAATCGGTAAAAATACATACGCTGTTCAATTTCAAGATGAAATTATTATAATTGATGCTGGAATTAAATTTCCAGAGGACGAACTTCTCGGAATCGATTATGTAATACCAGACTACACTTATTTTGTGCGAAACGAAGATAAAATTAAAGGGTTATTCATTACACATGGTCACGAAGATCATATCGGCGGAATCCCTTACCTATTACGTCAAGTGAACATCCCGATTTACGGCGGAAAATTAGCAATTGCACTCATCAAAAACAAATTAGAAGAACACGGCTTACTTCGTAAAGCAAAACTTTACGAAATTCAAGAAGATGACGTTATTAAATTCAAAAAAACGTCTGTATCCTTCTTCCGTACAACTCACAGTATTCCAGATTCGTACGGCGTTGTTGTGAAAACACCTCAAGGTCAAGTTGTTCATACAGGTGATTTCAAATTTGATTTCACACCAGTTGGTGAACCAGCTGATTTAACAAAAATGGCTGAAATCGGTAAAGATGGCGTGCTATGTCTATTATCTGATAGTACGAACAGTGAAGTTCCAAACTTTACTATGTCTGAGCGTCGCGTTGGTGATAGCATTCAAGACATTTTCCGTAAAGTAGACGGACGGATTATATTCGCAACCTTTGCATCAAATATTCACCGCTTACAACAAGTTATTGAAGCTGCTGTTGAAAACAACCGTAAAGTAGCTGTGTTTGGTCGAAGTATGGAAGCAGCGATTGAAATCGGACAAAACCTTGGTTATATTCGTTGCCCGAAAGATACATTCATAGATGCATCTCAACTAAACCGCTTACCAGCTAATAAAGTTGTTATTTTATGTACAGGTAGTCAAGGTGAACCGATGGCAGCACTTTCACGTATTGCAAACGGTACACACCGCCAAATTCAAATTATTCCTGGAGATACAGTTGTTTTCTCTTCTTCACCAATTCCAGGAAATACAATTAGCGTAAGTCGTACAATTAACATGTTGTACCGCGCTGGCGCTGATGTAATTCACGGGAAACTTTCAAATATCCATACAAGTGGACACGGTGGGCAAGAAGAACAAAAGTTAATGTTACGTCTAATTAAACCGAAGTACTTCATGCCAATTCATGGTGAATATCGTATGCAGCGTATGCACATGAACATAGCAAATGATTGTGGTATCCCTGAAGAAAATTGCTTCATTATGGATAATGGCGATGTTCTTGCTTTACGTTCTGATGAAGCTAGCGTAGCTGGAAAAATCCCATCTGGTTCGGTCTACATTGATGGAAACGGTATTGGGGATATCGGCAATATCGTATTACGAGATCGTCGTATCCTTTCTGAAGAAGGACTTGTAATTGTAGTTGTAAGCATTGATATGAAAGAATTTAAAGTTGCAGCAGGACCTGATATCATCTCACGCGGTTTCGTTTACATGCGTGAAAGCAGCGATTTAATCAATGATGCACAAACATTAATTACAACTCATTTAGAAAAAGTAATGGAGCGTAAAACAACACAATGGTCTGAAATTAAAAATGAAATTACAGACACATTAGCTCCATTCCTATATGAGAAAACGAAACGCCGTCCAATGATTTTACCAATCATTATGGAAATATAA	MKFLKNDQVAVFALGGLGEIGKNTYAVQFQDEIIIIDAGIKFPEDELLGIDYVIPDYTYFVRNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPIYGGKLAIALIKNKLEEHGLLRKAKLYEIQEDDVIKFKKTSVSFFRTTHSIPDSYGVVVKTPQGQVVHTGDFKFDFTPVGEPADLTKMAEIGKDGVLCLLSDSTNSEVPNFTMSERRVGDSIQDIFRKVDGRIIFATFASNIHRLQQVIEAAVENNRKVAVFGRSMEAAIEIGQNLGYIRCPKDTFIDASQLNRLPANKVVILCTGSQGEPMAALSRIANGTHRQIQIIPGDTVVFSSSPIPGNTISVSRTINMLYRAGADVIHGKLSNIHTSGHGGQEEQKLMLRLIKPKYFMPIHGEYRMQRMHMNIANDCGIPEENCFIMDNGDVLALRSDEASVAGKIPSGSVYIDGNGIGDIGNIVLRDRRILSEEGLVIVVVSIDMKEFKVAAGPDIISRGFVYMRESSDLINDAQTLITTHLEKVMERKTTQWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEI				NA	NA	NA	NA	NA
AK009_02834	666	ktrA	COG0569	Ktr system potassium uptake protein A	GTGGGTGAGAAAGAAAAAGAGTTTGCTGTCATTGGACTTGGTCGCTTTGGTGGAAGTATTTGCCGAGAACTAGCTCAATTAGGTATGGAAGTAATGGCAATCGATTCAGATGAGGATAAAATTAATGAATTTGCAAATATAGCTTCGCATGCTGTAATTGCAGATTCAACAGATGAGATGGTATTAAAAAGCCTTGGTATTCGAAATTTTGATCACGTAGTCGTTGCTATTGGAGATAATTTAAATTCAAGTATTTTAACTACTTTGATTTTGAAAGAATTGGGTGTAAAAAATATTACTGTAAAAGCTCAAAATGATTATCATGAAAAAGTGTTAAGTAAAATAGGTGCAGATCATATTGTGCATCCAGAACGTGATATGGGAAAAAGGATTGCTAATAATATTGCATCAAGCAATGTGTTAGACTACCTTGAGCTTTCAGATGAGCATAGTATTGTAGAGATTATTGCGAATAAAAAAATTGATGGGCACTCTTTAATTGAATTAGATATTCGTGCGAAGTTTGGATTGAATATTGTAGCAATTAAACGAGGTAAAGAAGTTATCGTATCCCCTCGGGCTACGGAGAATATTCAAGCAGGAGATATATTAATTGTCATTGGTCATGACGATGAAGTGGATCGATTTAAACACTTTTTAAGATAA	MGEKEKEFAVIGLGRFGGSICRELAQLGMEVMAIDSDEDKINEFANIASHAVIADSTDEMVLKSLGIRNFDHVVVAIGDNLNSSILTTLILKELGVKNITVKAQNDYHEKVLSKIGADHIVHPERDMGKRIANNIASSNVLDYLELSDEHSIVEIIANKKIDGHSLIELDIRAKFGLNIVAIKRGKEVIVSPRATENIQAGDILIVIGHDDEVDRFKHFLR	PGPT0002710_3846	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
AK009_02835	867			hypothetical protein	GTGCAAATTAGCAGTGCGATTTTATGTTTCGTCTTATATGCGTATGTTATTATTGCGGCGGTTTATTTTGGGATAAGTTTTTATGCCTATCGTCTAGTAGATAATAATGAATATGACGAAACATACAAATGGGTGAAGAGATATTTATCACCTGTACTAGAAATTATGAATGGGTTTGTGCTCTTTTTATTTATTGGATTAATTGCTTTCTCAACGAGTTTAGTAGGGAATAAAACTACGTTATTTGTATTGGGTATCATTATTTTTATGCTGTTAGGAATAAGGATTGGTAATACGGTCTTTTGGAATGAAAGAAAAGTAGATGGTTGGACGGGAATGTTAATTCCGTGTATGTTAGCTGCAATCGTGACAAATATAGAACATGAATATTATCAATTACATTTTTGGCTCATTATCGTTTTAACAATTCTTTCTGTTTTGTATATAAGCACAGTAGTACTAACATATATTGCACATGAAAAAGGAGATGTTAAAGGCACTCGTTTCTTTAGAGGACGGGCATTATTTTGGAGTGTGCCGACGATGGCAGTTATCGCGCTTATTGCGATATTAGTAAATGGATATCAATTTTCTAATTGGCAACTATTTTTAGAAAATTGGTGGATCTTTATCTTTTCGTTTATTGCTTTTTTAGGTGCAACGCATTATTTATTTCATCAACATCATTACATATGGGCGTTGTTATTTGCATTCATACAGCTGCTATTTGCCTTTTTTGGTCAAGAAACATTATTATTCGTTTTTGAAACATTTAGTTCGTTTGGAAATATATTTGTATTTGCTATGTTACTTGTTGGTATCGCTTTTTACTTGCAACAATATTTTTATATACAAAAACAAAAATAA	MQISSAILCFVLYAYVIIAAVYFGISFYAYRLVDNNEYDETYKWVKRYLSPVLEIMNGFVLFLFIGLIAFSTSLVGNKTTLFVLGIIIFMLLGIRIGNTVFWNERKVDGWTGMLIPCMLAAIVTNIEHEYYQLHFWLIIVLTILSVLYISTVVLTYIAHEKGDVKGTRFFRGRALFWSVPTMAVIALIAILVNGYQFSNWQLFLENWWIFIFSFIAFLGATHYLFHQHHYIWALLFAFIQLLFAFFGQETLLFVFETFSSFGNIFVFAMLLVGIAFYLQQYFYIQKQK	PGPT0026705_5012	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
AK009_02836	1131		COG1473	N-acetyldiaminopimelate deacetylase	ATGACAGTAAGCAAATTTGTCCAAATTCGTAGAGATCTACATAGAATTCCAGAAATTGGATTTAAGGAATGGGAAACACAACAGTATATTTTAGATTATATAGGAACACTTTCTCTTGAATTTGTGGAAGTGAAGACATGGAAAACGGGTGTAATCGTTAAAGTAAATGGAAAAAATCCAGAAAAAATAATAGGTTATCGTGCAGATATAGATGGTCTGCCAATTACAGAGGAAACTGGATATGAGTTTGCTTCTATTCATGAAGGAATGATGCATGCATGTGGCCACGATGTACATACAACAATCGGTTTAGGCCTTCTAACGAAAGCTGTGAGCGAAAGAATAGATGATGACCTTGTATTTCTATTCCAGCCAGCAGAAGAAGGACCAGGCGGTGCTCTTCCTATGTTAGAAAGTGAAGAGTTAAAAGAATGGAAACCAAATATAATTCTTGGTCTTCATATTGCACCAGAATACGCTGTAGGGACAATTGCAACGAAAGAAGGACTGTTATTTGCTAATACTTCAGAATTATATATTGATTTAAAAGGGAAAGGTGGCCATGCTGCCTATCCGCATACTGCAAATGATATGATTGTTGCAGCGAGTCATCTTGTTACACAGCTTCAATCCGTTATTAGTCGCAATGTAAATCCTCTTGATAGTGCAGTAATTACAATCGGGAAAATTACAGGTGGTACGGTTCAAAATATTATTGCAGAAAAATCTCGTTTAGAAGGAACGATTCGAACATTATCAGTGGAATCAATGAAGCGTGTGAAAAGCAGAATTGAGGCAATTGTTGCAGGTATCGAAGCTTCTTTCCAGTGTGAGGCGATTATAGATTACGGAGCAATGTATCATCAAGTATATAACCATGAAGAGTTAACAAGAGAGTTTATGCAATTTGTACATAAACAAACAGATATGAATGTTATTACATGTACTGAGGCAATGACAGGTGAAGATTTTGGTTATATGCTTCGAGAAATCCCTGGATTTATGTTTTGGCTTGGAGTAAATTCAGAATATGGTTTACATCATGCAAAATTAAAACCAGACGAAGAAGTGATTGAAAAGGCAATTACATTTTTAAGCCAATACGTAAAGTGGAAAGGGAATAGAAAATAA	MTVSKFVQIRRDLHRIPEIGFKEWETQQYILDYIGTLSLEFVEVKTWKTGVIVKVNGKNPEKIIGYRADIDGLPITEETGYEFASIHEGMMHACGHDVHTTIGLGLLTKAVSERIDDDLVFLFQPAEEGPGGALPMLESEELKEWKPNIILGLHIAPEYAVGTIATKEGLLFANTSELYIDLKGKGGHAAYPHTANDMIVAASHLVTQLQSVISRNVNPLDSAVITIGKITGGTVQNIIAEKSRLEGTIRTLSVESMKRVKSRIEAIVAGIEASFQCEAIIDYGAMYHQVYNHEELTREFMQFVHKQTDMNVITCTEAMTGEDFGYMLREIPGFMFWLGVNSEYGLHHAKLKPDEEVIEKAITFLSQYVKWKGNRK				NA	NA	NA	NA	NA
AK009_02837	723	dapH_2	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAAAATGATGGACGCTAACGAAATTATTTCGTTTATTCAAAAAAGTGAAAAGAAAACTCCTGTAAAGGTATACATAAAAGGGGATTTAAAAGAAGTAACATTCCCTGAAACAGTACAAGCATTTGTGAATAAAAAATCAGGTGTATTATTCGGAGAATGGTCTGAAATTAAGACAATTCTTGATGAGAATAATAAGCACATCGTTGACTACGTTGTAGAAAACGATCGTCGTAATTCTGCAATCTCAATGCTTGATTTAAAAGGTATTAAAGCTCGCATCGAGCCCGGTGCTATTATTCGTGACCATGTTGAAATTGGTGACAACGCTGTAATTATGATGAATGCAACAATTAACATTGGTGCTGTAATTGGTGAAGGTTCTATGATCGACATGAACGCAGTACTTGGTGGACGTGCAACAGTCGGTAAAAACTGTCACGTAGGTGCAGGTGCTGTACTTGCAGGTGTTATTGAGCCACCTTCTGCAAAACCAGTTATCGTTGAAGATGATGTAGTAATCGGTGCAAACGTAGTTGTTTTAGAGGGTGTTACAGTAGGTAAAGGTGCAGTTGTAGCAGCGGGAGCTGTTGTAACAGAAGATGTGCCTCCATACACAGTTGTTGCAGGTACTCCAGCACGTGTAATTAAAGAAATTGATGAGAAGACAAAAGCAAAAACAGAAATTAAACAAGAGCTTCGTCAATTAAACCCAGAGAAATAA	MKMMDANEIISFIQKSEKKTPVKVYIKGDLKEVTFPETVQAFVNKKSGVLFGEWSEIKTILDENNKHIVDYVVENDRRNSAISMLDLKGIKARIEPGAIIRDHVEIGDNAVIMMNATINIGAVIGEGSMIDMNAVLGGRATVGKNCHVGAGAVLAGVIEPPSAKPVIVEDDVVIGANVVVLEGVTVGKGAVVAAGAVVTEDVPPYTVVAGTPARVIKEIDEKTKAKTEIKQELRQLNPEK				NA	NA	NA	NA	NA
AK009_02838	858	cysL_1	COG0583	HTH-type transcriptional regulator CysL	TTGCAAATTGATGATTTTCAAATGATGGTTGTGTTAGCTCAGGAATCAAATATGAGAAAAGCGGCGGAACGTTTATTTGTTTCCCAACCTGCGCTGAGTCAACGATTACAATCTATGGAGAAACAATGGGGAATGAAGTTTTTTATTCGCTCACAAAAAGGATTGACAATTACACCTGAAGGGGAAAAAGTTGCAAATTATGCCAAAGAAATGTTGCAAAAGGAAGAGGATATAAAAAGTGAGCTAGCTGTTTTTAGAACGGAAACTCATGGAACGTTAAAAATAGCTGTTGCATCAGTTATTGGTCAATATTGGCTTCCTCCTGTTTTGAAAAAGTTTGTGCATAAATATCCTTCTGTAAAGATATCGCTGTTTACTGGATGGAGTAGTGAAGTGCAAAAGCAGTTTTATGAAGGAGACGTTCATGTTGCTATACTGAGGGGAACACAAGAATATAAAGGTCAAAAGCAAAAATTATTTGAAGATGAACTGTATTTAGTTGATAAAGAAATAAAAGATATTTCGATGCTAAAAGAAACAAATAGGCCGTTCATTCAATTTAAAAGTGACTCGACTTATTATGGACAAATACAAAATTGGTGGTATGGTTTATTTTCTAATCCGCCTAAGCGAACGATTGTAGTTGACCAAATTGAAACATGCAAACAACTTGTTTTAAATGGTATAGGTTATGCCCTTTTACCTTCTACTGTTTTAAAGGAAGTACAGGAAAATATGTATAAAACACCTGTTCAATTGACGAGAGAAACATGGTTGTTAACAAGTGACTCAGCAAGGCAGTTGAAGCAAGTACAAGCATTTTTAGAAATTATAGAAGAAATTCAAAGGGAAAAATAA	MQIDDFQMMVVLAQESNMRKAAERLFVSQPALSQRLQSMEKQWGMKFFIRSQKGLTITPEGEKVANYAKEMLQKEEDIKSELAVFRTETHGTLKIAVASVIGQYWLPPVLKKFVHKYPSVKISLFTGWSSEVQKQFYEGDVHVAILRGTQEYKGQKQKLFEDELYLVDKEIKDISMLKETNRPFIQFKSDSTYYGQIQNWWYGLFSNPPKRTIVVDQIETCKQLVLNGIGYALLPSTVLKEVQENMYKTPVQLTRETWLLTSDSARQLKQVQAFLEIIEEIQREK				NA	NA	NA	NA	NA
AK009_02839	444	ykuL	COG0517	CBS domain-containing protein YkuL	ATGATTAGTATTCCGAAAGACGAATTTCAACAAATTCTTGTGAAGGATTTAATGATTTCATCGGAAAAAGTAGCTCATGTCCAAATTGGAAATGGTTTAGAACATGCTTTACTCGTTCTTGTGAAATCTGGATATTCGGCGATACCTGTCTTAGATCCAATGTATAAATTACATGGTTTGATTAGTACTGCCATGATATTAGATGGTATGTTAGGATTAGAGCGTATTGAGTTTGAAAGACTTGATGATATGAAAGTAGAGCAGGTGATGAAGGAAGATATACCTTTTCTTAAATTAGAAGATTCATTTGCAAAAGCTTTAGAAATGACAATTGATCATCCTTTTATTTGTGCTGTTAATGAAGAAGGCTATTTTGAGGGGATTTTAACACGTCGTGCTATTTTAAAATTGTTGAATAAGAAAGTAAGGCAACATAATCGATAA	MISIPKDEFQQILVKDLMISSEKVAHVQIGNGLEHALLVLVKSGYSAIPVLDPMYKLHGLISTAMILDGMLGLERIEFERLDDMKVEQVMKEDIPFLKLEDSFAKALEMTIDHPFICAVNEEGYFEGILTRRAILKLLNKKVRQHNR				NA	NA	NA	NA	NA
AK009_02840	192	ykzF		putative protein YkzF	ATGCAAAGGGAAGTTGTTTTAACGAAGGAAGAAGAAAGTTTACTACTAGATATTTTATTTCAGCAAAATTATGCAAGTGAAATTTTAGCTGTGGAACTTACAGATATTGAGAATGGTTTGAAACAGACGGATGTGATGCAATATAAAAAAATCACAAGGTTATTTTACAGATTAAAAAATAAAGGGTATTAA	MQREVVLTKEEESLLLDILFQQNYASEILAVELTDIENGLKQTDVMQYKKITRLFYRLKNKGY				NA	NA	NA	NA	NA
AK009_02841	519			hypothetical protein	GTGGACGGTGCACATAAATTTTACAATGTTTCAGAGAGACATTTAAATTTTGATATGGTCTTTAGCCGTATTTGTAGTTTCATTGAAAAGGATCCACGAAATTTATATCGATTATCCATTGGGACAGACTCGCAAGCACATCAAAAGGATACGAGGTTTATTACAGCAATCCATATTCATCGTGTTGGAAAAGGTGCCTGGGGTTGTTTACACCATAGATCAGTAAAAGATAAGCCAGCAACCTTACGTGAGAAAATATATTTAGAAACGCAGTTTAGTCAAGAAATCGCATGTCTATTTACACCTACTCATATACAAACAATATGGGAGTTATTGCATCCTTATGCTCAAGATGGGGCTGGATTCATAATGGAAATTCATTTAGACATTGGGAATGATGGTTTAACAAAGGAATTTATTTTAGATATGACAGAAAAAATTCGAGCGATGGGATTAACTGCAAAAATTAAGCCGGATGCTTATGCGGCGTTTAGCTATGCAAATCGATATACGAAATGA	MDGAHKFYNVSERHLNFDMVFSRICSFIEKDPRNLYRLSIGTDSQAHQKDTRFITAIHIHRVGKGAWGCLHHRSVKDKPATLREKIYLETQFSQEIACLFTPTHIQTIWELLHPYAQDGAGFIMEIHLDIGNDGLTKEFILDMTEKIRAMGLTAKIKPDAYAAFSYANRYTK				NA	NA	NA	NA	NA
AK009_02842	150			hypothetical protein	ATGGAACATTTACCAGTTGTGATTTGTCCTAATTGTCAAAGCTCTGCTGAGATTACTCATGTATTAACGGCTCAATCTAATCAAAATGTAATTTATACGTGCCAAGTTTGTCACTTTGTAATTCGAAATATTGAAACGAATAAAGGATAG	MEHLPVVICPNCQSSAEITHVLTAQSNQNVIYTCQVCHFVIRNIETNKG				NA	NA	NA	NA	NA
AK009_02843	237	ykuJ	COG4703	putative protein YkuJ	ATGTCTCTACTCCAAGGAATTTTAACTCGACTTGTTAGTCTACAAGAACAAGCTGAAAGCGGTGAAGTAGCACAACGCTATTTTGAAGTGAACGGTGAGCGCAAATGTAGCGTGAAATTTTTCGATAAAAGTGAAATGTATGAGTTAGAAGTGTATCAACAAGGTGAAAAACCTCAAGTGTACCAATTCGATAATATCGACATGGTTGCAATTGAGATTTACGATATCATTTCTTGA	MSLLQGILTRLVSLQEQAESGEVAQRYFEVNGERKCSVKFFDKSEMYELEVYQQGEKPQVYQFDNIDMVAIEIYDIIS				NA	NA	NA	NA	NA
AK009_02844	237			hypothetical protein	ATGAAAAAAATTGAGGTTTATACACAACCTGATTGTCCGCCATGTGTTATTGTTAAAGAATTTTTGAAGCATAATAACGTTGCATATGAAGAATTTGACGTAAAAAAAGACGCTGCTGCTCGCAATCGTCTTTTAAACGACTATGATTCTTATTCAACTCCAACAGTCGTAATTGATGGCGAAGTAGTTGCAGGTTTTCAAATTGAAAAGTTACAAAAACTACTCAATATAGAATAG	MKKIEVYTQPDCPPCVIVKEFLKHNNVAYEEFDVKKDAAARNRLLNDYDSYSTPTVVIDGEVVAGFQIEKLQKLLNIE	PGPT0013201_4754	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
AK009_02845	489			hypothetical protein	ATGAGGAAATATGGAATATGGCTTGTTCTATTTGTATGTGTTGCCTTTCTAGTTGGTTATAGTGTTACGACTGTTTTAGGGAAAGAGGAAGTGAAAGTTGATCGGAAAGAAGTATTTACAACGATACAAAAAGGCTATGAAACCCAGTTTTCAATTCGTGGGAAGCATTTGCCGATGAATAAGATGATAGAGACGTTATCACCGTATTTTACAGATAATTTCCTTCAAGTGTTTACAGATGAAAATAGCAGAAGTGATAAACAAAGTGGTGAATATTTACTTCCGGCAAAAGAAGCACCGTTTTCTTTTAATTCAGAAACGAAAATATCGTATGATGAAGAACATAAAAATTTATATGTATATGAGCGGACAAAAAGTGGACAATATCAAATTGTAACATTGAAAAGGGATCAAGATAAATGGAAGTTAGCAGGATATCATGAAAGTCAGGAACTCTTAACTGAAATAAAAAGGTTGCAACAATTATAA	MRKYGIWLVLFVCVAFLVGYSVTTVLGKEEVKVDRKEVFTTIQKGYETQFSIRGKHLPMNKMIETLSPYFTDNFLQVFTDENSRSDKQSGEYLLPAKEAPFSFNSETKISYDEEHKNLYVYERTKSGQYQIVTLKRDQDKWKLAGYHESQELLTEIKRLQQL				NA	NA	NA	NA	NA
AK009_02846	1218	ykuI	COG2200	putative EAL-domain containing protein YkuI	TTGATAGATGCATTAGATGTAATGAGTAACTTGGATAAAGTCCTTCCTTATTATCAAGCTATTTTTAGTGCTGATGAGCATACTGTAATTGGATATGAAGTAGTAGGACGTATTCAAACAGAAGAGGGCATACAAAGTTTAGCTTCTTTCTTTCACGATGATTCGATTCCAAGTGAATTTCAACTGGAAGCGGATAATATTATAGTAGAAAAAGCTTTAAATCGTTATTTAGAAAGCGATCAAAAATTATTATTATTTATACATCGGAATGCTAATGTATTAATGAATGATGATGATGAAAGCTTGCTTCAACTTTTATTGAGGTATGAAGAACAAGGTTTAAATTTAAAACAAATTGTTTTAGAGATTACAGAACATGAATGTAAAGAAGATATAGAGCAATTTAATCATTTGCTTATGTATTATCGTACATATGGTATTCAAATTTCGATTAATAAAGTCGGAACGGGCACAAGTAATTTAGAGCGTATTAGCGTGTTAGCACCTGATATTTTAAAAGTAGATTTAACGAATTTAAGGCAAACAGCACTTTTACAATCTTATCAAGATATTTTATATTCTTTATCATTACTTGCTAGAAGAATTGGTGCAACTTTGTTATATGAAGAAATAGATGCTTTTTATCAACTGCAATATGCTTGGAAGAACGGCGGAAGATATTATCAAGGTAATTATTTGAAAGAATGTTTACCTGATTTTATTGAAACGAATGTTTTGAAAGAGCGACTTGGTAATGAATGTCATCAGTTTATTCAGCATGAAAAGAAGAAGTTACAAAAAATTTATAATTTGACAGAGATGTTACGCGATCGCATTGGCGATGTTTTATCAAAACAAAAAAAGAATGAAGATATAAATGATTGGTTATTACAATTTAGTCAAAGTGTATCACAGTGTAGTTTTCGTATATTTATTTGTAATGAAGATGGTTTCCAACAATCAGGAAATGTTATGAAAAAAGATGGAGAATGGATTGTGATGCCGGATTATTATATGAAGAACTGGAGTTGGCGCCCGTATTTTCTCGAGAATATCATGAAAATGCGTTTTGAGAATAAGGCAAGGCTTTCAGATTTATATGCAGATATCGAAACGGGCGAAATGGTACGAACATTTTCTTTCCCAATAGATGATGACAACTTTTTATTTATAGATTTATCTTATGAATATTTATATGAAGAAGATGTTTTATTTTAA	MIDALDVMSNLDKVLPYYQAIFSADEHTVIGYEVVGRIQTEEGIQSLASFFHDDSIPSEFQLEADNIIVEKALNRYLESDQKLLLFIHRNANVLMNDDDESLLQLLLRYEEQGLNLKQIVLEITEHECKEDIEQFNHLLMYYRTYGIQISINKVGTGTSNLERISVLAPDILKVDLTNLRQTALLQSYQDILYSLSLLARRIGATLLYEEIDAFYQLQYAWKNGGRYYQGNYLKECLPDFIETNVLKERLGNECHQFIQHEKKKLQKIYNLTEMLRDRIGDVLSKQKKNEDINDWLLQFSQSVSQCSFRIFICNEDGFQQSGNVMKKDGEWIVMPDYYMKNWSWRPYFLENIMKMRFENKARLSDLYADIETGEMVRTFSFPIDDDNFLFIDLSYEYLYEEDVLF				NA	NA	NA	NA	NA
AK009_02847	765	fadH	COG1028	putative 2,4-dienoyl-CoA reductase	GTGAAAGAGAAGGTAGTTATTATAACAGGTGGATCGAGTGGAATGGGAAAAGGAATGGCGACTCGTTTTGCAAAAGAAGGGGCACGAGTTGTTATTACAGGACGTACAAAGGAAAAACTAGAGGAAACAAAGTTGGAAATTGAACAATTTCCGGGGCAAGTATTACCTGTACAAATGGATGTAAGAAATACGGATGACATTCAGAAAATGATTGAACAGATTGATGAGAAGTTTGGTCGAATTGATGTTTTAATAAATAATGCAGCTGGAAACTTTATTTGTCCAGCAGAAGATTTATCTGTGAATGGTTGGAATTCAGTCATTAATATTGTGTTAAACGGTACATTTTACTGTAGCCATGCTGTCGGAAAATATTGGATTGAAAAAGGTATAAAAGGGAATATCATTAACATGGTAGCAACATATGCATGGGATGCAGGTCCAGGAGTTATTCATTCGGCTGCAGCGAAGGCAGGGGTATTAGCGATGACGAAGACGCTCGCTGTTGAGTGGGGACGTAAATATGGAATACGAGTTAACGCTATCGCGCCAGGACCAATTGAACGTACGGGCGGTGCTGATAAATTATGGATTTCAGAAGAAATGGCTAAGCGTACGATACAAAGTGTTCCGCTTGGAAGGCTGGGTACGCCAGAAGAAATCGCTGGTCTAGCTTATTATTTATGCTCAGATGAAGCTGCGTACATAAATGGAACTTGCATGACAATGGATGGAGGACAACATTTACATCAATATCCATTTTAA	MKEKVVIITGGSSGMGKGMATRFAKEGARVVITGRTKEKLEETKLEIEQFPGQVLPVQMDVRNTDDIQKMIEQIDEKFGRIDVLINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSHAVGKYWIEKGIKGNIINMVATYAWDAGPGVIHSAAAKAGVLAMTKTLAVEWGRKYGIRVNAIAPGPIERTGGADKLWISEEMAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCMTMDGGQHLHQYPF	PGPT0019825_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019825-atuB|atuG-K13774	NA	NA
AK009_02848	858	lpxG_1	COG1408	UDP-2,3-diacylglucosamine pyrophosphatase LpxG	ATGAAGCACATTACAAGAAGAAATTTTTTAAAAATTGGTATGCGCACTTGTCTCTATTCATTTATAACCAGTGGCATTGGATACTACTATGCTAAATATATAGAACCCCATTTCATTTCTTTTACACAGCACACATTAAAATCACAACTCATCCCAAAAAGTTTTCATGGTATGAAAATTCTTCAATTCAGCGATTTACATCTTGGATACTATTTCTCGCTTCAACATTTATCTCAAGTTGTTTCTAAAATTAATGCTGTAAATCCAGATATTGTCCTTTTTACTGGAGATCTCATTGATAATTACCAAACGTATACTGACACTCCTTTCGTTGCATCCATTTTAAAAAATATACAAGCCCCCTTCGGTAAATTCGCTATTTATGGTAACCATGATCACGGTGGATATGGAACTGAATACTATGAGCACATCATGCGTGAATCTGGATTTGAACTATTGCTAAATAATGAAAAAAGAATTCGTCTAATGGATAATAGTGAGATTTCTATTTTCGGTCTCGATGATATACTACTAGGCAAACCCAAAATAGAGAAAACATTAGAGCATGCACGACAAAATACTTATAACATTGTTCTTGTTCACGAACCAGATATCGCGCCCCAAGTTTCCAGATATCCAATCAACTTGCAACTTTCTGGTCATAGCCACGGCGGACAAGTACAAATTCCTTTTTTAGGAGCTATTATTACACCATCACTCGCCAAAGACTATATTGAAGGCTTCTATACAATTCAAGATTTAACTCTCTATGTTAATCGAGGCCTAGGAAGAACGCGTGTTCCATTCCGTTTTATGTCAAAACCTGAAATTACACTTTTTACACTCCAACATTCGTAA	MKHITRRNFLKIGMRTCLYSFITSGIGYYYAKYIEPHFISFTQHTLKSQLIPKSFHGMKILQFSDLHLGYYFSLQHLSQVVSKINAVNPDIVLFTGDLIDNYQTYTDTPFVASILKNIQAPFGKFAIYGNHDHGGYGTEYYEHIMRESGFELLLNNEKRIRLMDNSEISIFGLDDILLGKPKIEKTLEHARQNTYNIVLVHEPDIAPQVSRYPINLQLSGHSHGGQVQIPFLGAIITPSLAKDYIEGFYTIQDLTLYVNRGLGRTRVPFRFMSKPEITLFTLQHS	PGPT0022365_3345	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_02849	237			hypothetical protein	ATGTATCCATATTATCAACCAATCCCAGTCCGTTCAGCACCTATTGGTCCAGTAGGCGACTCACGCTTCTTCCCGTTTTTTGGCGTTCCCTTTCTAGCTGGAATTGCTGGTGGATTACTCGGCGGAGCATTAGCTTTCGGCCCTCGACCATTTTACCCACCTTATCCACCACCTTTCCCGCCGCCAGCACCTTATCCTTGTTACGGTGGACCATGTCAACAACCATACTATTACTAA	MYPYYQPIPVRSAPIGPVGDSRFFPFFGVPFLAGIAGGLLGGALAFGPRPFYPPYPPPFPPPAPYPCYGGPCQQPYYY				NA	NA	NA	NA	NA
AK009_02850	2109	ppk		Polyphosphate kinase	ATGGAATTATCGAAGGGGAATGCAGTAAATTTAAATGATACAGCTTATTACAATAATCGAGAGTTAAGCTGGCTAGCATTTAATGAACGTGTACTACAAGAAGCGCAAGATGGAAAAAATCCACTTTTGGAAAGATTGAAATTTATTAGTATTTTTAGTTCGAATTTAGATGAATTCTTTATGGTACGTGTAGCGGGATTAAAGGATCAAGTGAGTGCTGGATTTAATCAGCCAGAAAATAAAGCTGGCTTAACACCAAAAAAGCAACTAAATAAAATTGCGATAAAAGCCCATGAACTAATGACAGTACAATATGATACATTTAAAAATTATGTATTGCCAGCGCTTGAGTTAGAGGGAATTGAACGTTTAACATTCCATGATTTGACGAAAGAGCAGCGAGAATTTATAGAAGAGTATTTTGATGAGCAAATTTTTCCGGTGTTAACCCCTGTAGCTATTGATGCATATCGCCCATTTCCAATGTTATTAAATAAAAGTTTGAATTTAGCTACTCTTTTATATGATGAGAAGCAAGCGGAGGAAGAGAATCGGACGAAGCTAGGAATTGTACAAGTTCCTTCATTACTTGAGCGCTTCATATTTTTACCGAGCGAAGGGCAAAAGCATAAATTTATTTTATTAGAAGACGTAATTAGTAGCTTTACTCATAAATTATTTACGGGATATACAGTATCATCTGTTACTCGTTTCCGTATTACACGCAATGCAGATTTAACGATTCATGAAGAAGGTGCGAGAGATTTATTAAAGGTAATTGAAAAAGAATTAAAAAAACGTAAGTGGGGGGGGGCTGTACGTTTAGAAGTTGGGAAAGAACACATTGATGAAAGAGTATTAGCGTTATTATATGAGGTTCTGGAAGTAAAAGATGAAGATGTATATATAATGGATGGGCCATTAGATTTAACATGTTTGTTTTCTTTATATAAAAAACTAGCTCCTTTATATGAACATCTTGTATATCCGGCTCTTATTCCGCAACCGCCTCAAGATTTAGGTGATGAAGAAGATGTATTTGAAAAAGCAATTGAGCATGATATTTTATTACATCATCCTTTTGAATCATTTCAGCCGGTAGTTGATTTTGTCCGTGATGCGGCAGACGATCCAAATGTACTTGCGATTAAACAAACGTTATATCGAGTAAGTGGTGATTCACCAATTATTCAGGCGTTAAAGATAGCGGCTGAAAAGGGAAAACAAGTGACGGTATTAGTTGAATTAAAGGCAAGATTTGATGAAGAAAACAATGTTCATTGGGCTAAAGAATTGGAACAGGCAGGCTGTCATGTTATTTACGGTGTAAGTCACTTGAAAACACATAGTAAAATTACGTTAGTTGTAAGAAGAAAAAACGGAAAAATCGAAAGGTTCGTACATCTTGGAACTGGAAACTATAATGATGCAACAGCGAAGTTATATACTGATTTTGGATATATTACATCAAGAAAAGACTTTGGGGTTGATGCAACCAATTTCTTTAATTATTTAAGTGGTTATACAACAAAGCCACATTTTCATCATTTATCTGTTGCTCCATTTGATATAAGAGAACAATTTATGGATTTAATAGATGAAGAAATCCGTTATCATAGGCAATATGGAAATGGATATATTATCGCTAAGATGAATTCATTAACAGATAAACCATTAATTAAAAAAATGTACGAAGCATCACAAGCTGGAGTAAAGGTAGAGCTCATTGTTCGAGGAACATGTTGCCTACGACCTGGTATTCCAAATGTAAGTGAAAATATTCGTGTAGTTAGTGTTGTTGGAAGATATTTAGAACATAGCCGTATTTATTATTTCCATCATAATGGGGAGGAGAAAATATATTTATCTTCAGCTGATTGGATGACGCGAAATATGGAGAAGCGAGTGGAAATATCTTTCCCGATATTAGATATTGAAATGAAGGCACGAATTAAGGCGATTTTACAGCTTACATTAGCTGATAATGTGAAAACACGTGAACAAAATAAAGATGGTGATTACTATTATGTTATTAATGGTAGTACAGAAGAAATTGATAGCCAAGTGAAGTTGTTTAAGATGGCGTATCAAAATACAGATGCTGAATAA	MELSKGNAVNLNDTAYYNNRELSWLAFNERVLQEAQDGKNPLLERLKFISIFSSNLDEFFMVRVAGLKDQVSAGFNQPENKAGLTPKKQLNKIAIKAHELMTVQYDTFKNYVLPALELEGIERLTFHDLTKEQREFIEEYFDEQIFPVLTPVAIDAYRPFPMLLNKSLNLATLLYDEKQAEEENRTKLGIVQVPSLLERFIFLPSEGQKHKFILLEDVISSFTHKLFTGYTVSSVTRFRITRNADLTIHEEGARDLLKVIEKELKKRKWGGAVRLEVGKEHIDERVLALLYEVLEVKDEDVYIMDGPLDLTCLFSLYKKLAPLYEHLVYPALIPQPPQDLGDEEDVFEKAIEHDILLHHPFESFQPVVDFVRDAADDPNVLAIKQTLYRVSGDSPIIQALKIAAEKGKQVTVLVELKARFDEENNVHWAKELEQAGCHVIYGVSHLKTHSKITLVVRRKNGKIERFVHLGTGNYNDATAKLYTDFGYITSRKDFGVDATNFFNYLSGYTTKPHFHHLSVAPFDIREQFMDLIDEEIRYHRQYGNGYIIAKMNSLTDKPLIKKMYEASQAGVKVELIVRGTCCLRPGIPNVSENIRVVSVVGRYLEHSRIYYFHHNGEEKIYLSSADWMTRNMEKRVEISFPILDIEMKARIKAILQLTLADNVKTREQNKDGDYYYVINGSTEEIDSQVKLFKMAYQNTDAE	PGPT0002685_2211	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
AK009_02851	1575	ppx	COG0248	Exopolyphosphatase	ATGTTTTTGAAATTTGATAATGAAAGAGTGAGAAGTTTGAAAGAAATATTAAAACAACAGTATGCCATTATAGATATTGGATCTAATACAATGCGTTTAGTTATTTATGAAAAGCAAAATGGAGGTTTTTATAAAGAGATTGAAAATACGAAAGTGGTTGCTAGGTTAAGGAATTACTTAATTGATGGTGTGTTGAATGAAGAGGGAATAGAAGTATTATTACAGACATTATTTCAATTTCAAGAAAGTACAAGGTTCCATCAGTTGCATCATGTACTTTGTGTTGCAACAGCAACAATTAGACAGTCTGAGAATCAAGAGGAAATTAAAAAGCTTATTGAAGGACAAACGGACTTTACTCTTAGAGTATTATCAGAATATGAGGAAGCGCGTTACGGATACTTGGCGGTTATGAATTCTACATCGTTTTCAGAAGGAATAACGGTAGATATTGGTGGGGGAAGTACGGAAGTTACATACTTTAGAAATAGAGAGATTTTAGAGTACCATAGTTTTCCTTTTGGGGCACTTTCTTTAAAGCAACAATTTATTAAAGGTGATATTCCTACTAAAGATGAGTTAGAGGGAATGCAACAGTATTTAGAATTTCAATTTCAAACGTTACCATGGTTCATCAATAAGAAATTGCCTCTTATTGCAATTGGTGGTAGTGCGAGGAACTTAGTAAAAATCCATCAAAATTTAATATGTTATCCTATAGCAGGATTACATTTATACAAGATGAAAGAAGAAGATATTGAAAATGTAAAAGATGAGTTGGAAAAATTGTCGTTCATAGAACTTCAGAAATTGGAAGGATTGGTAAAAGATCGAGCGGATACGATTATTCCAGCGGTTGAAGTATTTCATACACTTGTTAATGTTATAGAGGCACCGGCATTTGTATTAAGTAGAAAAGGATTAAGAGAAGGTGTTTTCTATGAAGAGTTGACAAAAGATTTGGGGATTTCATATTATCCGAACGTAGTTGAAGAAAGTTTGCATTTACTATCACATGAATACGAAATGGACATGGAATTTGTTATTCAACTTATTAAACATGGAAGACTAATTTGCAAACAACTTGAGGAAATAGGGCTTATTTCTATGTCAGTAAAAGACTGGGAAGTATTCCATCAAGCAGCGAAAGTATTTAATATAGGCAAATATATAGACGAAGAAGCGAGCCGTTTACATACGTTTTATTTATTGGCGAATAAGACAATTGATGGCATGATGCATAAAGATAGAGTGAGGTTAGCGCTTATTGCATCTTATAAATCAAAAATGCTATTTAAACAACATTTATCTCCATTTGAAGGTTGGTTTGATAAAAGTGAACAAAAAAAAATCCGTCTATTAGGAGCTGTTTTACAATTTTCAGCTGCTTTAAATGCAAGGCAACGATCGCTTGTTGAAACCATATCTATAACAGAAAGCAAAGAGGCATTAACGTTTAAAGTTTTATGTGAACAGTCTGCATTAGCAGAAAAAGTGCAAGCTGAAAAACAAAAAAAACAGTTAGAAAGAGTATTAAAAACGAATATTAACTTGTTATTTGAACTAAAACATTAG	MFLKFDNERVRSLKEILKQQYAIIDIGSNTMRLVIYEKQNGGFYKEIENTKVVARLRNYLIDGVLNEEGIEVLLQTLFQFQESTRFHQLHHVLCVATATIRQSENQEEIKKLIEGQTDFTLRVLSEYEEARYGYLAVMNSTSFSEGITVDIGGGSTEVTYFRNREILEYHSFPFGALSLKQQFIKGDIPTKDELEGMQQYLEFQFQTLPWFINKKLPLIAIGGSARNLVKIHQNLICYPIAGLHLYKMKEEDIENVKDELEKLSFIELQKLEGLVKDRADTIIPAVEVFHTLVNVIEAPAFVLSRKGLREGVFYEELTKDLGISYYPNVVEESLHLLSHEYEMDMEFVIQLIKHGRLICKQLEEIGLISMSVKDWEVFHQAAKVFNIGKYIDEEASRLHTFYLLANKTIDGMMHKDRVRLALIASYKSKMLFKQHLSPFEGWFDKSEQKKIRLLGAVLQFSAALNARQRSLVETISITESKEALTFKVLCEQSALAEKVQAEKQKKQLERVLKTNINLLFELKH	PGPT0002595_323	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
AK009_02852	459			hypothetical protein	ATGAAACCTTCACAACCACAATCTCAATTACAAAACCAACATTCTATTAATCGACTAGCTCAATCTATTTTCGTTGTGAATCGTCATGCTAAAGCAGCTACTAATCCTAAATATTTATACTGGTTAAAAAAGACAGCTTTAGAGCGTTTGATTGCTGAAAAAAAAGCAATTAAAGAAGGATTACATTTTTCTAGAAACCCACGTTTTAGCCAACAACAATCTGATGTCCTTATACGTTTAGGCGATTATTTTTTCCACATCCCTCCTACGAAAGAAGATTTTCGAATTCTACCGCATCTTGGTCATCTTGAATCCTCCTATCGAAATCCGAAAACAACCTTATCTTTAACAGTAGCAAAAAAAACACTTCAAGATTATATTGGGCCTGAAGCATTGAAACAAGAAAAAAAATTAAGTGAACCGGTTCCATGGTATAGTCGTACTTATACAAAAAAATAA	MKPSQPQSQLQNQHSINRLAQSIFVVNRHAKAATNPKYLYWLKKTALERLIAEKKAIKEGLHFSRNPRFSQQQSDVLIRLGDYFFHIPPTKEDFRILPHLGHLESSYRNPKTTLSLTVAKKTLQDYIGPEALKQEKKLSEPVPWYSRTYTKK				NA	NA	NA	NA	NA
AK009_02853	663			hypothetical protein	ATGTTGAAATATAGTAAATTAGCAATTATAACTGCATTATCAATGACTTTATTAGCCGGTTGTTTTGGACCGAAACCAGAAGAAGAATTATATGTAGCGTTTGAAAACGCTGCTAAACAAGAAAAAACAATGTTTGAAGATGCAAAAAAACTTGAGACTTTAGAGAAAGAAGGACAAGAATTATATAACCAGATTGTGCAAGAAGGAAAAGATAATAATCAAACTGTTAAAGAAAAACTGAATCAAGCAGCAAAGAATACAACTGAACGAGAAAAAGTACTTACAAAAGAAAAAGAGGCCTTAAATAAAGCGCAAGAAGAAGTGAAGTCAGCTGATAAGTATGTGAAGAAAATTGAAGATAATAAGTTGAAAGATCAAGCTGATAAAGTGAAAAGCATGTATGAGAAACGACACGATTCATTTAATAAAATGTATGACAGCTATAATAAATCTTTAAAACAAGAAAAAGAGTTATATACAATGTTACAAGATAAAGGTACTAAATTAAAAGATATTAGTGAAAAAGTAAAAGTAGTAAATCAATCTTATAAGGATATTGAGTCAGAAAAAGATCAATTTAATGAATTCACAAAGTCTTATAATACAGAAAAAGTAGCTTTTTATAAACAAGCAAATATTAAAATTAAAGAAGAGAAAAAATAA	MLKYSKLAIITALSMTLLAGCFGPKPEEELYVAFENAAKQEKTMFEDAKKLETLEKEGQELYNQIVQEGKDNNQTVKEKLNQAAKNTTEREKVLTKEKEALNKAQEEVKSADKYVKKIEDNKLKDQADKVKSMYEKRHDSFNKMYDSYNKSLKQEKELYTMLQDKGTKLKDISEKVKVVNQSYKDIESEKDQFNEFTKSYNTEKVAFYKQANIKIKEEKK				NA	NA	NA	NA	NA
AK009_02854	654			hypothetical protein	ATGAAACATAAAGGGAAAATTAGTGGATTATTACTTGGAAATACAGTGGCAGTTACAGAATGGATTGCACTTCAGGATGTAATTGCAAAACTGGATTCACGATCATTTTATACCGTCTTTATTATTTATATATTGCAAATGATACTAAGTTATTATTTTGGACATTGGTACGATAAAAGAGCGAACAAGCGTATGAATGAAGAAGTAGGAGGAATGGCAAGCAACGATTTTGTTGTTGATTTTTTTGGGAAAGTAGCCGCTTTATCTGAAAGAGCTTCCCGTAATATTACAGTTTACATTCTTTCTGTAAAAGAATGGGAAGGATTAAAAGACACGTTGCAAGAAAAAAAATTGGGAGTGTTAGTACAAAAATTAGAGAGTACCATTGTAAAGTCAATTCGGAAGGGAGATGTTGTTACAAAGTGGGATGAAAATAAGTATGTTATTGTAGCAATTGATAATGGTCATGAAACATCAACAATAACAAACAGATTAATGAAAAATATTGAAAGTGAAATAGAAGGTGATTTACTCAGTGTCACTCTTTTATTTGGAGCAGCTAGCTATCCAGTAGAAGGAAAAACGTTTGAAGAACTGTTGAGAAAGTCGCAAAATCAATTGTACCAGTATAGAAATTTGCAAGAAAATGAGTGA	MKHKGKISGLLLGNTVAVTEWIALQDVIAKLDSRSFYTVFIIYILQMILSYYFGHWYDKRANKRMNEEVGGMASNDFVVDFFGKVAALSERASRNITVYILSVKEWEGLKDTLQEKKLGVLVQKLESTIVKSIRKGDVVTKWDENKYVIVAIDNGHETSTITNRLMKNIESEIEGDLLSVTLLFGAASYPVEGKTFEELLRKSQNQLYQYRNLQENE				NA	NA	NA	NA	NA
AK009_02855	234			hypothetical protein	ATGCTACAAAAAGAGAATCTATCAGATGCTATGCGGTTACTAGCTGGTTTTCTATTATCATTAAAATTATTATTTACCTCTTTCGGCATACACTTTATTACAAACGATCAAATTGACGCTATTGTTAATGTTGTTTCATTTTTATTTATTCTATACTTTGGCTACAAAAATAACTATGTAGGAAAAAAAGGAATGGAGCAAAAGAAAATACTCAAAAAACACAACCTTCACTAA	MLQKENLSDAMRLLAGFLLSLKLLFTSFGIHFITNDQIDAIVNVVSFLFILYFGYKNNYVGKKGMEQKKILKKHNLH				NA	NA	NA	NA	NA
AK009_02856	501			hypothetical protein	ATGAAAATATGGGGACGAATTTCGGATACAGGAAAGTATTCAATACCGCTACAACCAGTATTGTGGATTGACGGATCGAAAAAGGAAAATGAATTTCCTCAAGTAGCCGTTACATTAAAAATTGGTAGTATGTATACAGAACAATTTTCGTATGAATTGACCTACGATGTAAACGACATACTTATTATGAGAATTGAAGTGGAAAATAAAGGGGTAGAAATGATTTCGAGAGTTGTTGTAAGTCATATGATTCGAGATTACTTTGCTTATATTCCTAATTCTTTAAAAGTTGATAAGGGGATAAGTGAGTTTTTATTCCAGCTTGTAAGGTGGCGAATTGATGATTTGTTACCGAATGAAAAGGTGGAACTACGTTGTAAAATAAAAGCTAATAAAGATAAAGCTCTTAAACAAGCATTCTTTCAGGCTACATATACATTTCAAGATAAAGAGATATCATATGGTCCACTGCAAACAAATGAAGTTGTTGTGCGTCAATAA	MKIWGRISDTGKYSIPLQPVLWIDGSKKENEFPQVAVTLKIGSMYTEQFSYELTYDVNDILIMRIEVENKGVEMISRVVVSHMIRDYFAYIPNSLKVDKGISEFLFQLVRWRIDDLLPNEKVELRCKIKANKDKALKQAFFQATYTFQDKEISYGPLQTNEVVVRQ				NA	NA	NA	NA	NA
AK009_02857	1542	bmr3_3		Multidrug resistance protein 3	TTGGAAACTCAACCATTAAAAAAAGACGCCAACAAGACAAAATTTGTTGTTGCTGGTTTACTGCTTGGTATATTAATGGCCGCAATGGACAATACAATCGTTGCAACCGCAATGGCAACAATTGTTGGAGACTTAGGAGGATTTGATAAGTTTGTTTGGGTCACATCAGCTTATATGGTAGCAACAATGGCAGGGATGCCTATCTTCGGGAAACTTTCTGATATGTACGGGCGGAAACGTTTTTATATTGGTGGCCTCATTCTTTTCTTATTCGGTTCTGCGCTCTGCGGAACAGCTTCAAGTATTGAGCAATTAAGTATTTATAGAGCTATTCAAGGTATCGGTGGTGGTGCCCTTATGCCTATCGCCTTCACAATTATGTACGATATCTTCCCACCAGAAAAACGTGGGAAGATGACAGGACTATTCGGTGCTGTTTTCGGGACCTCTAGTGTATTCGGTCCTTTATTAGGCGCTTATATTACAGACTATATAAGTTGGCATTGGGTCTTCTATATCAATATTCCATTAGGACTTATCTCCTTTTTCTTCATTACTAAATACTACAGTGAGTCTCTAGAATTTAGAAAACAAAAAATTGATTGGGCTGGTGCTATTACACTTGTCATAAGTATCGTTTGCTTAATGTTCGCATTAGAACTTGGTGGTAAGGAATATGCCTGGAATTCCACTGTAATTATTGGCTTATTTACAACAGTAGTTATTACGCTTATTATTTTCTTCTTTGTAGAACGAAAAGCAACCGAGCCTATTATTTCGTTCCATCTATTTAAAAAACCTTTATTCGCAGCTAGTCAAGGAGTTGCCTTTTTCTATGGTGCCGCTTTTATTATCTGTACAGTTTATATTCCAATCTTCATTCAAGGCGTTCTTGGAGGTTCCGCCTCTAATGCCGGATTAATTTTAACACCAATGATGGTTGGTTCTGTAATTGGAAGTCAAACAGGAGGACAATTAGCTTCTCGAACAAGCTATCGTAACATTATGATGGTATCTGGCGTCTTCTTCGTTCTTGGTATTTATTTATTAAGTACTTTAACAATGGATACACCTCGTTTACTCGTAACACTATTTATGATTCTCGCTGGGCTTGGTGTTGGCTTCTCATTCTCAGTATTAAGTATGTCTTCTATTCACAAATTAGAAATGCGAGACCGTGGTTCGGCAACATCAACAAACTCATTCTTCCGATCACTCGGTATGACTCTTGGTGTAACGATTTTCGGTACAATTCAAAATCATATTTTTACAGATAAACTAAACTCTGTGTTCCCCCCTGAACTAGCAAAATTAGCTCCAAAAGGTGGAGACACAAGTTTCTTATTATCGCCAGGCGCTACCGCAAAAATTCCTGCTGAAATATTAGCGGGTATTAAAGAAGCTCTCGCTACATCTATTGCGAACACATTCTTCTGGGCACTTATTCCGGCTGTACTAAGTATTATTTGTATTTTACTTATGGGAAATGAACGCCTCTTTACAGGCCCTAAAAAGAAAGAAAAACAAAAGCAAGTCAGTTAA	METQPLKKDANKTKFVVAGLLLGILMAAMDNTIVATAMATIVGDLGGFDKFVWVTSAYMVATMAGMPIFGKLSDMYGRKRFYIGGLILFLFGSALCGTASSIEQLSIYRAIQGIGGGALMPIAFTIMYDIFPPEKRGKMTGLFGAVFGTSSVFGPLLGAYITDYISWHWVFYINIPLGLISFFFITKYYSESLEFRKQKIDWAGAITLVISIVCLMFALELGGKEYAWNSTVIIGLFTTVVITLIIFFFVERKATEPIISFHLFKKPLFAASQGVAFFYGAAFIICTVYIPIFIQGVLGGSASNAGLILTPMMVGSVIGSQTGGQLASRTSYRNIMMVSGVFFVLGIYLLSTLTMDTPRLLVTLFMILAGLGVGFSFSVLSMSSIHKLEMRDRGSATSTNSFFRSLGMTLGVTIFGTIQNHIFTDKLNSVFPPELAKLAPKGGDTSFLLSPGATAKIPAEILAGIKEALATSIANTFFWALIPAVLSIICILLMGNERLFTGPKKKEKQKQVS				NA	NA	NA	NA	NA
AK009_02858	558			hypothetical protein	ATGAGCATGAAATTAGTCATTCTCGGCTTGCTACTCGAAGGAGATAAACATCCATATGAAGTGCAGCATATTATGAAAGAACGACAAATGGATTGTTACATTAAATATGCTAAAGGATCACTTTATTACGCCTTCGAGCAATTAGAAAAGCAAGGCGCAATTCATATTACAAATGTAATTAGAGACACAAATCGACCTGACAAAACGATTTTTCATATAACAGAAGAAGGCAAAAAACTATTCCACACTTTACTATTAAAACAATTCGAAGCAAAAAACCAAATATATAAACCTATTTATTCAGCCTTATCTTTCGCTCACTTTAGCAATGATCACGAATTAGTTCCTATTTTAGAAAAAAAGAAAAACGATACTCTTCAATATTTATATACTATGCAAACGATATATGATTGTAATAAAGGAAAAGTTCCACGTGCACAACTATATATTTTACAAAGTGTAATTGAGCATATTACAGTTGAACTACAATGGCTAAACACCCTCCTTAAAGATGCTATAGCAGGCCGGCTTTCAGAAGTTGCTATAGATGAAAATTGA	MSMKLVILGLLLEGDKHPYEVQHIMKERQMDCYIKYAKGSLYYAFEQLEKQGAIHITNVIRDTNRPDKTIFHITEEGKKLFHTLLLKQFEAKNQIYKPIYSALSFAHFSNDHELVPILEKKKNDTLQYLYTMQTIYDCNKGKVPRAQLYILQSVIEHITVELQWLNTLLKDAIAGRLSEVAIDEN				NA	NA	NA	NA	NA
AK009_02860	2289	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGGCAATTCAAACAAGTAACTTAGGTTATCCACGTATCGGACTACAACGAGAGTGGAAAAAAACATTGGAAGCTTTTTGGTCCAATAAAATCGATGAAGAACAATTTTTAACAACAATGAAAGAAATTCGCCTTCAACACGTAAAAGTACAGCAAGAAAAAGGGATTGAACTCATTCCAATTGGCGACTTTACATATTATGATCACGTTTTGGATACTGCTTATATGCTAGGATTTATCCCATCACGTTTTTCTGAGTTTACATCTTACCTTGATGTATATTTCGCAATGGCGCGTGGCTCTAAAGATCACGTAGCTTCTGAAATGACAAAATGGTTTAACACAAACTATCATTATATCGTTCCTGAATATGAAGAGGGATTACAAATCTCTTTAAAAGATAATCGTCCACTTCGCTTATACGAAGAGGCAAAACAAGAATTAGGAGTAGATGGAAAACCTGTTATTTTAGGACCATATACTTTCTTAAAATTAGCTAAAGGTTATACACAAGAACAATTCGCTACGATTTTAAAACAATTAGTTGCACCATACGTACAACTGCTTTCAGAACTACATGCAGCTGGTGCACAAGTCATTCAAGTTGATGAACCGATTTTCGCTTCTTTAACGAAAGAAGAAGTTCAACAAGCAAAAGAAATTTATGAAGCTATTCGTAAAGAAGTTCCAAATGCGAACCTTCTTTTACAAACATATTTTGATAGTGTAGAAGAAAACTATGAAGAAATTATTACATTCCCTGTATCCGGTATTGGATTAGATTTCGTTCATGGTAAAGAAGGTAATCTACATGCTATTTCAAAATATGGATTCCCAGCTGATAAAACTTTAGCTGTCGGTTGTATAGATGGCCGTAACATTTGGAGAGCTGACCTTGATGAAGTTCTTACGTTATTTACAACGCTACAAAAACAAGTCCAAACGAAAGACTTCATTGTTCAGCCTTCTTGTAGCTTATTGCATACACCAATCGATAAAACAGAAGAAACTCACTTATCGACTGAGCTATTTGATGCGTTAGCATTTGCAAATCAAAAATTAGAAGAGTTAGTTCTTATTCATTCTGCTCTCACTAAAGGTACAGAAAGTATTAGTAATGAGCTGGAAACATATCGAAATGTACATCATACAATTCGTTCATCTGCTGTACGTAACCGTGAAGATGTCAAAGCAGCACGAACAGCACTAAAAGAAGAAGATTTTTCACGTCCTCTTCCATTTGAAAAGCGATACGAATTACAACAAGTTGCCCTAGAGTTACCATTGTTACCAACAACAACTATCGGTAGCTTCCCGCAAACAACTGAAGTTCGTCAAACGCGAAAAGAATGGCGTAACGGTGTTATTTCAAATGAACAATATGAAAAATTTATTGAAAAAGAGACAGAAAAATGGATTCGTTACCAAGAAGAAATTGGTCTTGATGTCCTTGTACATGGTGAGTTTGAAAGAACTGACATGGTCGAATATTTCGGTGAGCGTCTTGCTGGTTTCTCATTCACTAAAAACGGTTGGGTACAATCATACGGTTCCCGCTGCGTAAAACCACCTGTTATTTATGGTGATGTAGCCTTTATTAACGGAATGACTATTAAGGAAACTGTTTATGCACAAAGCTTAACAGAGAAAGTTGTAAAAGGAATGTTAACTGGACCTGTTACAATTTTAAATTGGTCCTTCGTTCGAAATGACATTCCAAGAAAAGAAGTTTCGTATCAAATTGCATTAGCTCTTCGTCACGAAATTGAACTACTTGAATCTTCCGGAATTCGAGTAATCCAAGTCGATGAGCCAGCACTTCGTGAAGGAATGCCACTAAAAGAAAAAGATTGGGACGCTTATATTACATGGGCAGTTCAATCCTTCCTTTTAGCAACTTCTTCTGTAGCAAATGAAACACAAATTCATACTCATATGTGTTACAGTAACTTCGAAGATATTGTTGATGCGATTCGCGCATTAGATGCAGATGTGATTTCTATCGAAACATCAAGAAGTCACGGTGAATTTATTGATACATTAAAACATACAACATATGAAAAAGGCATCGGTCTAGGTGTATATGATATTCATAGCCCACGTGTACCGAGTAAAGATGAAATGTATAAAATCGTAGAACAATCTTTAGAAGTATGCGATCCTAAATATTTCTGGATTAATCCTGATTGTGGTTTAAAAACGAGAAGAACAGAAGAAGTTATTCCAGCTTTAGAGCACATGGTGCAAGCAGCAAAAGATGCTCGCTCCCTGCTAAAAACAAACGCATAA	MAIQTSNLGYPRIGLQREWKKTLEAFWSNKIDEEQFLTTMKEIRLQHVKVQQEKGIELIPIGDFTYYDHVLDTAYMLGFIPSRFSEFTSYLDVYFAMARGSKDHVASEMTKWFNTNYHYIVPEYEEGLQISLKDNRPLRLYEEAKQELGVDGKPVILGPYTFLKLAKGYTQEQFATILKQLVAPYVQLLSELHAAGAQVIQVDEPIFASLTKEEVQQAKEIYEAIRKEVPNANLLLQTYFDSVEENYEEIITFPVSGIGLDFVHGKEGNLHAISKYGFPADKTLAVGCIDGRNIWRADLDEVLTLFTTLQKQVQTKDFIVQPSCSLLHTPIDKTEETHLSTELFDALAFANQKLEELVLIHSALTKGTESISNELETYRNVHHTIRSSAVRNREDVKAARTALKEEDFSRPLPFEKRYELQQVALELPLLPTTTIGSFPQTTEVRQTRKEWRNGVISNEQYEKFIEKETEKWIRYQEEIGLDVLVHGEFERTDMVEYFGERLAGFSFTKNGWVQSYGSRCVKPPVIYGDVAFINGMTIKETVYAQSLTEKVVKGMLTGPVTILNWSFVRNDIPRKEVSYQIALALRHEIELLESSGIRVIQVDEPALREGMPLKEKDWDAYITWAVQSFLLATSSVANETQIHTHMCYSNFEDIVDAIRALDADVISIETSRSHGEFIDTLKHTTYEKGIGLGVYDIHSPRVPSKDEMYKIVEQSLEVCDPKYFWINPDCGLKTRRTEEVIPALEHMVQAAKDARSLLKTNA				NA	NA	NA	NA	NA
AK009_02861	390	nin		DNA-entry nuclease inhibitor	ATGGAGTTAACAATTTCTTATTCGCAATTAATGTTGATGAACTATGACGGTGAGCAGCCTTATGTAGACTGGACGGATGAAGATTTTGAAAGAGGTTATGCTGAGGCAGAGGGAACTGTTATTTTTGAAGCACTTTCTGATTATACTTGTGAAGTGAAAGTGACCCCAGGGAAACATATTGAAAAAGAAGAAGTGATTAGAACGATTACGGTTCCTTTTACAGTTGAAAATGAAAGTATCGTTATAACGAGTATTCTTTCAAATAAATTTCAAATACCTATTCCAAATGGTGAGTATACAGTGGTCTTACAAGCAATTCCTCTTGAAGAGCCAACGGATGATGAATTATATAAAATACAATACGAATTCTTTTTTGAAAGTAAAGAATAA	MELTISYSQLMLMNYDGEQPYVDWTDEDFERGYAEAEGTVIFEALSDYTCEVKVTPGKHIEKEEVIRTITVPFTVENESIVITSILSNKFQIPIPNGEYTVVLQAIPLEEPTDDELYKIQYEFFFESKE				NA	NA	NA	NA	NA
AK009_02862	435	nucB		Sporulation-specific extracellular nuclease	ATGAAGCAATTAAAAGGTATTATCATTTCAATTATCGCAATTCTGTCTATTTTAGTAGCAGTTTATGAAGTACTTGTGCCAGAGGAAACAAGTGTAAAGAAAACGAATACGTATGATCAAGTGTTAGAATTTCCGAAAGAACGTTATCCAGAGACAGGAAAACATATTACGGATGCTATAAAAGAAGGGCATTCAGAAGTTTGTACAATCGATCGTGGTGGTGCTGCAGATAGAAGGAAATTGTCGTTAGCACCATATCCTTCAAAAAAAGGGTATGATCGTGATGAATGGCCAATGGCGATGTGCAAGGAAGGCGGAAAAGGAGCACATATTGAATATATAAGTCCGGCGGATAACCGCGGAGCAGGCTCTTGGGTAGGGAATAAGTTAGATAAATATCCAGATGGTACGCGTGTGAAATTTGAAGTGAAGTAG	MKQLKGIIISIIAILSILVAVYEVLVPEETSVKKTNTYDQVLEFPKERYPETGKHITDAIKEGHSEVCTIDRGGAADRRKLSLAPYPSKKGYDRDEWPMAMCKEGGKGAHIEYISPADNRGAGSWVGNKLDKYPDGTRVKFEVK				NA	NA	NA	NA	NA
AK009_02863	750			hypothetical protein	ATGGAAGCTACCTATAAAACGAAAGATGTCACGAATAAAACAGGCATCCCAAAACATATAGTCCGCAAATATAGTCAACTGTTAGAGGAACATGGCTATATGATTTCTAAAACAGCTGATGCTCGTATTTATAAACTTGATGATTTAAAACTATTGAAATCTATACATGAAAGAGCTGCTACATTACAAGAAGATATTTCAGAAACGATACCGATTATTTTAAAAGAAAAAGAGGCCCCACCTGTACCAGTTATACAAGATAAGCAAGAGATACAACCGAAAGAAAAGGAAGATGGACGTAACTTTGAGGAATTCATGTTGAAACTTGAAATGCTAGCTCAATTAAATGAAGCAATTATTCATCAAAATTCTACTCTAATTACACAAAATCGTTTAAAGGATGAGAAACTAGATGAATTGATGCAACAAGTTTATGTAAAAGAAGGCTCTCAAGAAAAAATGCTTCAAGAGTTAGTCGAGCACGCCGCTCAAACAGATGCATTACAAAAAGAAAAGATGGACTTATTAATGAATCATATGTATAAACGAGAATCCAAACAGGAAGAAAAAATGAATAAACTTGTTAGTCAAATTTATAACAAGGACAGTAATCGTGATGCACAGCTTATGCAAGTTATTCGAGAAATTCAAGAAACAAAAAGAATGGTTGCTGCCTCAAAAGAGCAAAGTTTCTTTCAAACATTTAAAAGTTTATTTAGCCGAGCAAAACAAGAAAAAACAAATGAATAA	MEATYKTKDVTNKTGIPKHIVRKYSQLLEEHGYMISKTADARIYKLDDLKLLKSIHERAATLQEDISETIPIILKEKEAPPVPVIQDKQEIQPKEKEDGRNFEEFMLKLEMLAQLNEAIIHQNSTLITQNRLKDEKLDELMQQVYVKEGSQEKMLQELVEHAAQTDALQKEKMDLLMNHMYKRESKQEEKMNKLVSQIYNKDSNRDAQLMQVIREIQETKRMVAASKEQSFFQTFKSLFSRAKQEKTNE				NA	NA	NA	NA	NA
AK009_02864	1275	rcsC_8		Sensor histidine kinase RcsC	ATGGAGCTTATCCGTGATTTATTGATTCAAATTGCCATCATAATTTTGCCGCTATTTTTATATGAAGCGATTCGTTTAAATCGCTATCAAGAAATGCCTCCGAAGCCAAATCGTTACTTTATTATGTTTTTATCTAGCGTTACGCTCGTTCTCTCCATGACATACTCTATTTGTTTTGGCAATGTGTGTGGGTATAACTTTCACCCCATTCCAATTGTCAGTGGTTTTTTATATGGTGGGATTGTTGGTTTAATCCCAGCGGTTATTTTTGTTGCATATGAATGGTTACTAAAGGGAATGAGCTTTCTTCCAGTTTTAGAAGTAATATTTCTATTGATAGTTCCGCTGTTTTTATCAAAGAAATGGTCTCTTTTTTCAAGGGATAAGAAATTAATTTTAGCATTTATGATTTCATCATTTTATGTGTTTGTTTCTTTAGTATTAGGCATGATTAATGTTCTTTTGGAAACAGGATTTACACCGTATATTTCGCAAATATATAGCGGATTTATATTTGCCTCGCTTATCATGGTCATGACAATGGTATTTCAGGTGTATTTAACTGAATATTTAAACGAAAATGCATTGCTACGTACAGAGATGCAAAAATCAGAAAAGCTTAATATTGTAAGTGAGTTAGCAGCAAGTGTGGCACATGAAGTTCGAAATCCACTTACTGTTGTTCGTGGATTTATCCAATTGTTAGAAAGTACGGAAGATGTGAAGAATAAGGATTATATGCGCCTCGTATTAGCTGAATTGGATCGGGCGGAACAAATTATTTCAGATTACTTGAATTTAGCAAGGCCGCAAATTGAGAAAAAAGAACACATTTGTTTATCAGCCCAATTAATAGAAATGACCACTCTCATGTCGTCATTTGCAGCGATGCAAGGTGTATATTTACAAGTTGAAATTTCAGAAAGTCTTTATACGATTGGTGATAAGACAAAGTTGAAGCAAGCTATTATGAATGTTGTTAAAAATGGTATTGAAGCAATTCAAGGAAATAAAGGATATTTAAAAGTAACAGCCATTCAAAAAGACGAAACAATCATAATAAGAGTTAAAGATAGTGGTGTTGGTATGACGAAAGAACAGTTAGCAAGGCTGGGGCAACCATATTATTCTTTAAAAGAAAAAGGGACAGGATTAGGGCTTATGGTAACATTTAGTATTTTACAAGCGCATAATGGTACATTGGAATATAAGAGTGAAAGTGGAAAAGGCACTGAAGCAATTATTATATTACCAGCTGTACAAAATAAGGAATAA	MELIRDLLIQIAIIILPLFLYEAIRLNRYQEMPPKPNRYFIMFLSSVTLVLSMTYSICFGNVCGYNFHPIPIVSGFLYGGIVGLIPAVIFVAYEWLLKGMSFLPVLEVIFLLIVPLFLSKKWSLFSRDKKLILAFMISSFYVFVSLVLGMINVLLETGFTPYISQIYSGFIFASLIMVMTMVFQVYLTEYLNENALLRTEMQKSEKLNIVSELAASVAHEVRNPLTVVRGFIQLLESTEDVKNKDYMRLVLAELDRAEQIISDYLNLARPQIEKKEHICLSAQLIEMTTLMSSFAAMQGVYLQVEISESLYTIGDKTKLKQAIMNVVKNGIEAIQGNKGYLKVTAIQKDETIIIRVKDSGVGMTKEQLARLGQPYYSLKEKGTGLGLMVTFSILQAHNGTLEYKSESGKGTEAIIILPAVQNKE	PGPT0025285_234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK009_02865	201			hypothetical protein	ATGGCGGGTACTACGCTTGTTTTAAAAGAAGAAAATTTGGTTGTTCTAGAAAATGTTGAAAAATCAGTATATGAAGAATTACAGCATAAAGCAGGAGATGAAAATTGCACATGTGCTGTGAACGAATCAGTTGTTCACCTTGGCAAGGTATCCTCTGTACTCTGGAATGAAGATGAAATAGATTGGGAATACGGATATTAA	MAGTTLVLKEENLVVLENVEKSVYEELQHKAGDENCTCAVNESVVHLGKVSSVLWNEDEIDWEYGY				NA	NA	NA	NA	NA
AK009_02866	1164	dapX_1	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGGAACAATTCATTAACCCTAGAGTGAAGGACATCCAAATTTCTGGAATCCGTCAATTCTCTAACATGATTCAAAACTATGATAATTTGATTTCTTTAACAATCGGACAACCCGATTTCCCTACACCTTCTCTCGTAAAAGAAGCTGCAAAACGGGCTATTACAGAAAACTATACAAGCTATACACATAACGCTGGTTTACTAGAATTACGCAAGGCAGCTTGTAACTTCGTAAAAGATAACTACGATTTACATTACTCACCTGAAAACGAAACCATCGTTACAATCGGTGCTAGCGAAGCAATTGATGTTACATTTCGAACGATTTTAGAGCCAGGAACAGAAGTAATTTTACCTGCTCCTATTTATCCAGGTTACGAACCTATTATTCGATTATGCGGTGCAACACCTATTTTTGTAGATGTTCGTAAAACTGGATTCCGTTTAACAGCTGAAGCGCTTAAAAATGCTATTACAGAAAAAACAAGATGTATCGTACTACCGTATCCTTCTAACCCGACCGGTGTAACTTTATCAACAGAAGAACTAAAAGATATTGTAGATGTTTTAAAAGACAAAAATATTTTCGTCCTTTCAGATGAAATTTATAGCGAGCTGGTATATGAACAAAAGCACACATCTATCGCTCATTTCCCAGAAATGCGTGAAAAGACAATTGTCATTAACGGTTTATCTAAATCACATTCTATGACTGGCTGGCGTGTTGGACTTTTATTTGCACCAAGCTATTTAGCTGGACACATATTAAAAGTTCATCAATACAATGTAACGTGTGCTACTTCAATCGCTCAATACGCTGCAATTGAAGCATTAACAGCAGCTAAAGACGCACCCAAAATGATGCGCCACCAATATAAAAAACGCCGTGATTACGTATATAATAGACTCACTCAAATGGGATTAACAGTTGAAAAGCCAATAGGTGCATTTTACTTATTCCCATATGTTGGTCATTTGACATCTTCATCATTTGATTTTGCACTTGATCTTGTCAAAGAAGCTGGACTAGCTGTAGTTCCTGGAACAGCATTCTCTGAATACGGTGAAGGCTACCTTCGCTTGTCCTATGCGTATAGTATTGAAACTTTAAAAGAAGGCTGCGACCGATTAGAAGCCTTTCTAAAGAAAAAAGCTAAGAGTTAA	MEQFINPRVKDIQISGIRQFSNMIQNYDNLISLTIGQPDFPTPSLVKEAAKRAITENYTSYTHNAGLLELRKAACNFVKDNYDLHYSPENETIVTIGASEAIDVTFRTILEPGTEVILPAPIYPGYEPIIRLCGATPIFVDVRKTGFRLTAEALKNAITEKTRCIVLPYPSNPTGVTLSTEELKDIVDVLKDKNIFVLSDEIYSELVYEQKHTSIAHFPEMREKTIVINGLSKSHSMTGWRVGLLFAPSYLAGHILKVHQYNVTCATSIAQYAAIEALTAAKDAPKMMRHQYKKRRDYVYNRLTQMGLTVEKPIGAFYLFPYVGHLTSSSFDFALDLVKEAGLAVVPGTAFSEYGEGYLRLSYAYSIETLKEGCDRLEAFLKKKAKS	PGPT0007150_560	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
AK009_02867	1023	malR	COG1609	HTH-type transcriptional regulator MalR	ATGACAGTTACAATTAAAGATGTGGCGAAGCAAGCGAATGTTGCACCATCAACAGTTTCTCGTGTAATTGCTGATAATCCAAGTATAAGTGAAAAGACAAAGCGCCGTGTTAGGAAAGTAATGAGTGAATTAGGGTATCATCCTAATTTAAATGCGAGAAATCTTGCGAACCAAACGACGAAAACACTTGGTCTTGTTATGCCAAGTTCTGCAAGTAAAGCTTTTCAAAATCCATTTTTCCCAGAAGTTATAAGAGGGATTAGTTCATTTGCACACGTAGAAGGTTATGCGCTTTACATGTCGACAGGTGAAACGGAAGAAGAAATTTTTAATGGTGTCGTAAAGATGGTACAGGGACGCCAAATTGGTGGCATTATTCTTTTATATTCAAGAGAGAATGATCGGATTATTCAATATTTACATGAACAAAATTTCCCGTTTGTTTTAATAGGAAAACCATATGATCGAAAAGATGAAATTACATATGTAGATAATGACAATTATACAGCTGCAAGAGAAGTGGCAGAATATTTAATTTCATTAGGGCATAAGCAAATCGCGTTCATTGGTGGTGGTTCAGATTTACTTGTAACGAGAGATCGTTTAGCTGGTATGAGTGATGCCTTGAAATTAGCAGACATTGTATTACCAAAAGAATATATTTTACATTTTGATTTTTCGAGGGAAAGTGGTCAACAAGCGGTTGAGGAATTAATGGGACTGCAGCAACCGCCGACGGCAATTATGGCAACGGATGACTTAATTGGACTTGGTGTGTTAAGTGCTCTTTCTAAAAAAGGATTCGTTGTACCGAAGGATGTTTCTATTGTAAGCTTTAATAATGCTTTATTATCAGAAATTGCGAGCCCTCCACTTTCGACAGTTGATGTGAATATTTATCAGCTGGGATATGAGGGAGCAAAAGCTTTAGTTGATAAAGTAGAGAATGCAGAATCCACTGCAAAGTGTATCATTATTCCTCATAAATTACTAAAACGTCAAACTTGTGATCATTATGCATAA	MTVTIKDVAKQANVAPSTVSRVIADNPSISEKTKRRVRKVMSELGYHPNLNARNLANQTTKTLGLVMPSSASKAFQNPFFPEVIRGISSFAHVEGYALYMSTGETEEEIFNGVVKMVQGRQIGGIILLYSRENDRIIQYLHEQNFPFVLIGKPYDRKDEITYVDNDNYTAAREVAEYLISLGHKQIAFIGGGSDLLVTRDRLAGMSDALKLADIVLPKEYILHFDFSRESGQQAVEELMGLQQPPTAIMATDDLIGLGVLSALSKKGFVVPKDVSIVSFNNALLSEIASPPLSTVDVNIYQLGYEGAKALVDKVENAESTAKCIIIPHKLLKRQTCDHYA	PGPT0014791_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK009_02868	843	malG	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGAATATTAAACGACAAAAGATGCTACGTCTTTCATTAAGTTATTTAGTTATCTTCATAATGTGTGCGATTATTTTCTATCCATTACTATGGATAATTGGCTCATCGTTTAATCCAGGGGATAGTTTATCTGGGTCAAGTATTATTCCGAAAAATGCCACATTAGATCATTATCGCAAGCTACTTGATCTCGATTCAAGTAATTACTTACTTTGGTATAAAAATACTTTGAAAGTTAGCGTAATGACGATGATTTTCTCTGTACTAGCCATTAGTTTTACTGCTTATGCATTTTCGAGATATCGTTTTGTTGGAAGAAAGAATGGTTTATTAACATTTTTAATTTTGCAAATGATCCCGAATTTTGCAGCGTTAATCGCACTATATATATTAGCTCAGTTAACAGGATTACTTGATACACATCTTGCATTAATTTTAATTTATGTGGGCGGAGCAATTCCGATGAATACATGGCTTATGAAAGGGTATTTTGATACGATTCCGAAAGAGTTGGATGAATCAGCTCGAATGGATGGAGCAGGGCATTTCCGTATTTTCTGGCAAATCATTATGCCACTTGCAAAGCCAATCGTAGCGGTTGTAGCGTTATTTACTTTCATTGGTCCATTTACAGATTTCATTTTAGCGAGTATTATTTTGCGAACACCAGAAAATTATACTTTGGCAGTTGGATTATATGAAATGGTTGCGAAGAAATTCGGTAATGAATTTACAACGTTTGCAGCGGGTTCTGTGTTAATTGCGATCCCGATTTCAATTTTATTCCTATCACTACAAAAATATTTTGTTTCCGGTTTAACAGCTGGAGGTACGAAAGGATGA	MNIKRQKMLRLSLSYLVIFIMCAIIFYPLLWIIGSSFNPGDSLSGSSIIPKNATLDHYRKLLDLDSSNYLLWYKNTLKVSVMTMIFSVLAISFTAYAFSRYRFVGRKNGLLTFLILQMIPNFAALIALYILAQLTGLLDTHLALILIYVGGAIPMNTWLMKGYFDTIPKELDESARMDGAGHFRIFWQIIMPLAKPIVAVVALFTFIGPFTDFILASIILRTPENYTLAVGLYEMVAKKFGNEFTTFAAGSVLIAIPISILFLSLQKYFVSGLTAGGTKG	PGPT0016325_857	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
AK009_02869	1302			hypothetical protein	ATGCAAACATCTATGGAACCTGCAAAGGGGTTAAACCATTCAAAGCATAGGAAAATGGCAACCGTGTTATCAATCATTCCGGGCATGGGCCAAATATATAATAAACAATTTGTAAAAGGTCTTATTTTTCTAGTATTAACAGGTTCATTTATTGTAGCCTTTGCTGATTTATTAAATATGGGATTATGGGGCATTGTAACGCTCGGTACAGAAGTTCCACGTGACCATTCTGTCTTTCTATTAGTAGAAGGGATCTTGGCACTTATCGTTATCGCGTTTGGGCTCGGCATATATGCATTTAACTTATATGATGCATATCAAAATGGAAAGAAACGTGATATAGGAACACCGTTAAATTCTGTAAAAGAGCAATACCGTAATTTGTTAGATCAAGGCTTTCCTTATTTAATGGTTTCACCAGGTTTTCTACTACTTATCTTTGTTGTCGTATTTCCAATCATCTTCGTAATTTTAATTGGATTTACAAACTATGATTTATATCATTCTCCTCCAGCTAAATTAGTAGATTGGGTGGGTTTTAAAAACTTTATTGATATTTTCACATTACCGATGTGGAGAGATACATTTTTAAGTGTATTTTCTTGGACTGTCATTTGGACATTCGTTGCAACAACATTACAAGTTGCACTTGGTATTTTTTTAGCGATTATCGTAAATCAGCCTGGTATTAAAGGTAAGGCAATTATTCGAACAATCTTTATTTTACCGTGGGCTGTTCCAGCATTCGTATCTATTCTTGTATTTGCTGGTATGTTTAATGAAACATTTGGAGCAATTAATAACCAAGTATTAGCTTTATTCGGGATTGAAAAGATTGCTTGGATGACAGACCCGTTTTGGTCAAAGATTGCTTTAATTATGATTCAAACATGGCTTGGTTTCCCGTTCGTCTTTGCAATGACAACAGGTATATTGCAATCGATTCCAGGAGAATTATATGAAGCGGCTACAGTAGATGGAGCAACTGCTTGGCAACAGTTCCGCAAAATTACATTGCCACTTGTGTTATATGCAACAGCGCCAATATTAATTACGCAATATACGTTTAACTTTAATAATTTTAGTATTATTTATCTATTTAATAACGGAGGACCTGCTGTGTCTGGACAAAATGCAGGTGGAACGGATATTTTAATTTCATGGATCTATAAGTTAACGATGACTTCGGCTCAGTACGGAAAAGCAGCAGCTCTTACAATGATTTTATCGTTAATTGTTATTACAGTTGCGTTATGGCAATTTAAGAGAACAAAATCATTCCAAGAAGAGGATATGATGTAA	MQTSMEPAKGLNHSKHRKMATVLSIIPGMGQIYNKQFVKGLIFLVLTGSFIVAFADLLNMGLWGIVTLGTEVPRDHSVFLLVEGILALIVIAFGLGIYAFNLYDAYQNGKKRDIGTPLNSVKEQYRNLLDQGFPYLMVSPGFLLLIFVVVFPIIFVILIGFTNYDLYHSPPAKLVDWVGFKNFIDIFTLPMWRDTFLSVFSWTVIWTFVATTLQVALGIFLAIIVNQPGIKGKAIIRTIFILPWAVPAFVSILVFAGMFNETFGAINNQVLALFGIEKIAWMTDPFWSKIALIMIQTWLGFPFVFAMTTGILQSIPGELYEAATVDGATAWQQFRKITLPLVLYATAPILITQYTFNFNNFSIIYLFNNGGPAVSGQNAGGTDILISWIYKLTMTSAQYGKAAALTMILSLIVITVALWQFKRTKSFQEEDMM	PGPT0016320_775	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
AK009_02870	1260	cycB	COG2182	Cyclodextrin-binding protein	ATGAAGAAAGCATTATCATTATTAACGGTTTCAGCATTATCTATTGGTATGTTATCTGCATGTGGACCGAAAGATTCAGGGAAAAAGGAGGAAAGTAAAGCGAAAAAAGACTATGACCTTCTTGTTTGGGAAGATGAGAAAAAAGGTGTGGGTCTAGAGCCAGCGGTGAAAAGTTTTGAAAAGAAATATAATGTGAAAGTAAAAGTTGAAGAGGTTCAGATGACGAAACAAATAGAAAAACTTCGTCTCGACGGTCCAGCTGGCACAGGGCCAGATGTTGTAACATTGCCACATGATCATATTGGTAATGCGGTAACAGAAGGGCTACTTTCAGAAGTGAAAGTAGATGATACAGTAAAAAGTAAATTTACAGATTTATCAATAGAAGCACAAACATATAACGGAAAAATATACGGTTTACCAAAAGCGATTGAAACACCAATCTTTATTTATAATAAAAAAATGATGCAAAAAGCACCCGAAACGATGGATGAACTGTTTAACTTCTCAAAAGACTTTACGAAAGATGGAAAATACGGATTTTTAGCATTAGGAGATAACTTCTACTTTGCTAATGCATTTATGGCAGGTATGGGTGGTTATGTATTTGGTGAAAAAGATGGAAAGCCAAATGCAAATGATATTGGATTAAATAATAGCGGTGCGGTACAAGGTGCTGAATATATTCAAAAATGGTACAAAGAAAAGTTATTCCCGAAAGGTATTATCGGTGAATCTGGTGGTTCAGCTGCAGATGGATTGTTTAATGAAGGAAAAGCAGCATCTATTATGAATGGTCCATGGGCATTCCAAGCGATGGAAAAGGCTGGAATAGATTATGGTGTTGCTCCAATGCCGAAATTACCAAATGGTCAACCGATGAAAACGTTCGTTGGTGTAAAAGGATGGCATGTAACAAGCTTCTCTAAACAAAATGATTTAGCTACAAAATTTACTGAGTGGGTTACAAATGAAGAAAATGCTAAAATTCGCTTTGAGAAAACGAAAGAAATTCCACCAGTAAAATCAGTAATGGAAGATCCAATCATTAAAGAAAATGAGGCTGCAAAAGCGGTTGCGACGCAATCGGAAAATGGAATTCCAATGCCGAATATTCCAGAAATGCAGGAAGTTTGGAAACCAGCTGGGGATGCGCTTCAATTAGTTGTATCAGATAAAGAAGCACCAAAATCCGCACTTGATAGTGCAGTGAAACAAATTAAAGGTAATATTGAGGCAAATCATAGTAAGAAAAAATAA	MKKALSLLTVSALSIGMLSACGPKDSGKKEESKAKKDYDLLVWEDEKKGVGLEPAVKSFEKKYNVKVKVEEVQMTKQIEKLRLDGPAGTGPDVVTLPHDHIGNAVTEGLLSEVKVDDTVKSKFTDLSIEAQTYNGKIYGLPKAIETPIFIYNKKMMQKAPETMDELFNFSKDFTKDGKYGFLALGDNFYFANAFMAGMGGYVFGEKDGKPNANDIGLNNSGAVQGAEYIQKWYKEKLFPKGIIGESGGSAADGLFNEGKAASIMNGPWAFQAMEKAGIDYGVAPMPKLPNGQPMKTFVGVKGWHVTSFSKQNDLATKFTEWVTNEENAKIRFEKTKEIPPVKSVMEDPIIKENEAAKAVATQSENGIPMPNIPEMQEVWKPAGDALQLVVSDKEAPKSALDSAVKQIKGNIEANHSKKK	PGPT0016315_696	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
AK009_02871	1761	nplT		Neopullulanase	ATGTTTAAAGAAGCCATTTATCATAGGCCGAAAGATAATTATGCATACGCTTATGATGAACAAACAATTCACATCCGAGTACGTACTAAGAGAGATGATATTCAAAGCGCCGATCTTATTTACGGTGATCCTTACGAATGGAAAGACGGGAAATGGATATCATCAAGTACACCCATGAAAAAGACGGGTTCTACTGCATTATTTGATTATTGGTCCATTTCAATCGAACCCAAATTTAAGCGCTTACGTTATGGGTTTGAATTAAAATCTGAAACAGACACTCTTATTTATACAGAGCGAGGATTCTTTTCTAACATTCCAAATGATGATGTTGGTAACTTTTTCTGTTTTCCATTTATTCATGCAGATGATGTATTCAAAGCACCATCTTGGATTAAAGACACCATTTGGTATCAGATTTTCCCTGAGCGATTCGCTAATGGCGATAGTACGCTGAATCCAGAAAACACCCTTCCTTGGGGAAGTGCGAATCCAACTCCAACTAATTTTTTCGGCGGAGATTTTGCTGGTGTTATTCAAAACCTTGATTACCTTGTTAAGCTTGGCATTTCCGGAATATATTTCACACCTATTTTCAAAGCTCATTCAAACCATAAATATGACACAATTGACTATATGGAAATTGATCCACAATTTGGGACGAAAGAAACTTTCAAAGAGCTCGTTGAAGAATGTCATAAGCACGGTATAAAAGTAATGCTCGATGCTGTGTTTAATCATAGTGGATACTTTTTCGAGAAATTTCAAGACGTACTAGAGAACGGTGAGAAGTCCGCATATAAAGAGTGGTTCCACATTCATGAATTCCCAATTATAACCGAGCCACTTCCAAATTATGATACTTTCGCCTTTACACCGTATATGCCTAAATTAAATACAGCTCATCCAGATGTAAAAGAATACTTACTTGAAGTAGGACGTTATTGGGTACGAGAATTTAATATAGATGGCTGGCGCCTTGATGTCGCAAATGAAGTCGATCACAATTTTTGGAGAGAATTCCGAACTGAAATAAAGACATTAAATCCTGAAGTATATATTTTGGGAGAAATTTGGCACGATGCCCTTCCATGGCTACAAGGCGATCAATTTGATGCTGTCATGAGCTACCCTGTTACAAACGCTCTACTTTCTTACTTTGCTAACGATTCCATTAAAGCAAGTGAGTTCATGAAGCAAATTACAGAATCTCTACATTCCTACTCTATGAATGTAAATGAAGCAGCCTTTCATTTATTAGATAGCCATGATACTCCAAGAATTTTAACAACATGCAACGGAGATAAAAATAAGTTGAAATTGCTCTATGTATTCCATCTTTCTTTCATCGGTTCTCCATGCATTTATTACGGAGATGAAATCGGCATGGATGGTGGTATGGACCCCGATTGCCGTAAATGTATGATTTGGGATACTAAAGAACAAGATCATGCATTATTTACACATATACAAACATTGATTTCATTACGAAAACAACATGAAGCTTTTGGAGGACATGGTACTTTTCAATTCATCGAAGCAAATGATGAACATAATTATATTTCTTATACGAAAACATATGAGGATGAAACTATCTTTTTCGTTTTAAACCCTACTAATAGTGAAGTTACAGTTTCACTCCCTCTTCATGTTACTGGTAAGAAAATAATTAACATTTATACAAATGAAGAATTTTCAGCGGAAGCAAGTGTATTACAAGTTACACTTCCTCCATATGGATTCTCCATATTAAAATGGTAA	MFKEAIYHRPKDNYAYAYDEQTIHIRVRTKRDDIQSADLIYGDPYEWKDGKWISSSTPMKKTGSTALFDYWSISIEPKFKRLRYGFELKSETDTLIYTERGFFSNIPNDDVGNFFCFPFIHADDVFKAPSWIKDTIWYQIFPERFANGDSTLNPENTLPWGSANPTPTNFFGGDFAGVIQNLDYLVKLGISGIYFTPIFKAHSNHKYDTIDYMEIDPQFGTKETFKELVEECHKHGIKVMLDAVFNHSGYFFEKFQDVLENGEKSAYKEWFHIHEFPIITEPLPNYDTFAFTPYMPKLNTAHPDVKEYLLEVGRYWVREFNIDGWRLDVANEVDHNFWREFRTEIKTLNPEVYILGEIWHDALPWLQGDQFDAVMSYPVTNALLSYFANDSIKASEFMKQITESLHSYSMNVNEAAFHLLDSHDTPRILTTCNGDKNKLKLLYVFHLSFIGSPCIYYGDEIGMDGGMDPDCRKCMIWDTKEQDHALFTHIQTLISLRKQHEAFGGHGTFQFIEANDEHNYISYTKTYEDETIFFVLNPTNSEVTVSLPLHVTGKKIINIYTNEEFSAEASVLQVTLPPYGFSILKW	PGPT0012200_545	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
AK009_02872	1695	malL_1	COG0366	Oligo-1,6-glucosidase	ATGAAATGGGGTAGCATAATGGAAAAACAATGGTGGAAAGAAAGCGTAGTATATCAAATTTATCCTCGTAGCTTTATGGATAGTAACGGTGATGGTATAGGAGATCTTCAAGGGATTATTTCAAAGCTAGATTATTTAAAAGAGTTAGGGATTGATGTGATTTGGTTATCACCAGTCTATGAATCTCCAAATGATGATAATGGTTATGATATAAGCGATTATTGTAAGATTATGAACGAGTTCGGAACAATGGAAGATTGGGATGAGCTATTACATGAAATGCATGAACGTAATATGAAATTGATGATGGATTTAGTTGTTAATCATACATCTGATGAACATAAGTGGTTTATTGAATCACGTAAATCAAAAGATAATAAATATAGAGATTACTATATATGGCGTCCTGGAAAAGAAGGGAAAGAACCGAACAACTGGGGAGCTGCTTTTAGTGGGTCTGCATGGAAGTACGATGAAATGACGGATGAATATTATTTACATCTGTTTTCTAAAAAACAGCCGGATTTAAACTGGGATAATGAAAAGGTAAGACAAGATGTTTATGAGATGATGAAGTTTTGGTTAGAAAAAGGAATTGATGGATTCCGCATGGATGTGATCAATTTTATTTCTAAAGAAGAAGGATTACCAACTGTTGAAACAGATGAAGATGGCTATGTTTCAGGTCATAAACATTTTATGAACGGTCCAAACATTCATAAATATTTGCATGAAATGAATGAGGAAGTATTATCGCATTATGATATTATGACGGTTGGTGAGATGCCAGGTGTAACGACAGAAGAAGCCAAATTGTATACTGGAGAAGAACGAAAAGAGTTGCAAATGGTATTCCAATTTGAACATATGGATTTAGATTCAGGAGAAGGTGGAAAGTGGGATGTAAAACCATGCTCACTTCTTACTTTAAAAGAGAATTTGACAAAGTGGCAAAAAGCATTAGAGCATACCGGATGGAATAGCCTTTATTGGAATAACCATGATCAGCCTCGCGTTGTATCTCGTTTTGGTAACGATGGAATGTATCGCATTGAATCAGCAAAAATGTTAGCGACAGTTCTTCATATGATGAAGGGAACGCCATATATTTATCAAGGTGAAGAAATCGGAATGACGAACGTTCGATTCCAATCAATTGATGAATATCGAGATATTGAAACGTTAAATATGTATAAAGAAAAAGTGATAGACCATGGTGAAGATATAGAAAAAGTAATGGAGTCTATTTATATAAAGGGTCGTGATAATGCTAGAACTCCGATGCAGTGGGATGATCAGAATCACGCTGGATTTACAACAGGTGAACCTTGGATTACTGTAAATCCTAACTATAAAGAGATTAATGTGAAACAAGCAATCCAAGATGAAGGTTCAATTTTTTATTACTATAAGAAATTAATTGAGCTACGCAAAAATAATGAAATAGTTGTATATGGATCATATGATTTAATATTAGAGAATAATCCTTCTGTTTTTGCTTATGTAAGAACATATGGAGACGAAAAACTACTTGTTATTGCAAACTTTACTGCGGATGAAAGTGTATTTGAAATGCCTGAGGATATTAGTTATAGTGAATCAGAATTATTTATACACAATTACGATGTAGAAATCGGATCGATAGATAACATTACATTACGTCCGTATGAAGCGATAGTATTCAAATTGAAATAA	MKWGSIMEKQWWKESVVYQIYPRSFMDSNGDGIGDLQGIISKLDYLKELGIDVIWLSPVYESPNDDNGYDISDYCKIMNEFGTMEDWDELLHEMHERNMKLMMDLVVNHTSDEHKWFIESRKSKDNKYRDYYIWRPGKEGKEPNNWGAAFSGSAWKYDEMTDEYYLHLFSKKQPDLNWDNEKVRQDVYEMMKFWLEKGIDGFRMDVINFISKEEGLPTVETDEDGYVSGHKHFMNGPNIHKYLHEMNEEVLSHYDIMTVGEMPGVTTEEAKLYTGEERKELQMVFQFEHMDLDSGEGGKWDVKPCSLLTLKENLTKWQKALEHTGWNSLYWNNHDQPRVVSRFGNDGMYRIESAKMLATVLHMMKGTPYIYQGEEIGMTNVRFQSIDEYRDIETLNMYKEKVIDHGEDIEKVMESIYIKGRDNARTPMQWDDQNHAGFTTGEPWITVNPNYKEINVKQAIQDEGSIFYYYKKLIELRKNNEIVVYGSYDLILENNPSVFAYVRTYGDEKLLVIANFTADESVFEMPEDISYSESELFIHNYDVEIGSIDNITLRPYEAIVFKLK	PGPT0019145_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
AK009_02873	1101	msmX_1	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCAGAACTTAAATTAGAAAATATTTATAAGATATATGATAATAACGTAACAGCTGTAACCGATTTTAATTTACACATTCAAGATAAAGAATTTATCGTATTTGTCGGTCCTTCTGGATGCGGAAAATCTACAACATTACGAATGGTAGCTGGACTCGAAGATATTTCAAAAGGCGAGTTTTCAATTGATGGTAAACTAATGAATGATGTTCCTCCAAAAGATCGAGATATCGCAATGGTCTTCCAAAACTACGCTCTTTATCCACATATGAGTGTATATGATAATATGGCATTTGGATTAAAACTTCGAAAAATACCAAAAGATGAAATCGATCGTCGTGTGAAAGATGCAGCAAAAATTTTAGGGCTTGAACAATATTTAGATAGAAAACCGAAAGCATTATCAGGTGGACAACGCCAACGTGTTGCGTTAGGTAGAGCAATCGTTCGAGATGCAAAAGTTTTCTTAATGGATGAACCATTATCAAACTTAGATGCTAAACTCCGTGTTGCAATGCGCTCAGAAATTTCTAAGCTACATCATCGCCTTGGAACAACAACAATTTATGTAACACATGACCAAACAGAAGCAATGACTATGGCTTCGCGTCTTGTCGTTATGAAGGATGGAAAGATTCAACAAATTGGAACTCCAAAAGAAGTATATGAAACACCAGAAAACATTTTCGTGGGTGGATTTATCGGGTCACCAGCGATGAACTTCTTTCGTGGTAAATTGACTGAAACCGATTTCGTTATAGACAATACCATAAAAATCAAAGTATCTGAAGGAAAAATGAAGATGCTACGTGAACAAGGCTATGTAAATAAGGAAATTGTTTTAGGTATTCGCCCGGAGGACATTCATGATGAACTACTATTTTTAGAAGCTTCACAATCTACTACTTTCACAACAAAAATTGAAGTTGCTGAATTGTTAGGTGCTGAATCTATTTTATATATGAAACTTGGAAATCAAGATTTTGCAGCACGTGTTGATGCACGACATATATTCTCACCTGAAGATCAAATTAAATTGGCATTTGATTTAAATAAAGCGCATTTCTTTGACAGCCAAACAGAACAACGTATTCGCTAA	MAELKLENIYKIYDNNVTAVTDFNLHIQDKEFIVFVGPSGCGKSTTLRMVAGLEDISKGEFSIDGKLMNDVPPKDRDIAMVFQNYALYPHMSVYDNMAFGLKLRKIPKDEIDRRVKDAAKILGLEQYLDRKPKALSGGQRQRVALGRAIVRDAKVFLMDEPLSNLDAKLRVAMRSEISKLHHRLGTTTIYVTHDQTEAMTMASRLVVMKDGKIQQIGTPKEVYETPENIFVGGFIGSPAMNFFRGKLTETDFVIDNTIKIKVSEGKMKMLREQGYVNKEIVLGIRPEDIHDELLFLEASQSTTFTTKIEVAELLGAESILYMKLGNQDFAARVDARHIFSPEDQIKLAFDLNKAHFFDSQTEQRIR	PGPT0016310_3351	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
AK009_02874	510	linX		2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase LinX	ATGACGGTAAGACTTATAGAAGGGGTAATGAAAATGAAGCTTGCAGGAAAAGTTGCTATCGTAACTGGCGGTGGCATCGGTATTGGACGTAATACAGCTCTTTTGTTGGCTAAACAAGGCGCAAAAGTTATTGTGACGGACATTGATCAAGAGAGTGGACAAGCAACAGTGGAGGAAATTATGAATCTAGGCGGAGAGGCACTTTTTGTATCCTATGATATGGGAAAGCAAGGAGATTGGCAACGCGTTATTAGCATTACTTTGAATGCATTCAGTCGCATTGATATGCTTTTTCAAAATGGTGGTTTATATAAAATAGATTCTATTTTTTCTCGCCAACAAGAGAACGATTCCAATGTACTTTGTATTAATGACGTTTGGATAGAGATAAAACAATTAACGTCATCTTTTATGAAACAGCAAGAAGAAGTGGTGCTTAGTGATTTACCGATTTTCGGTATTATTAGCACGAAAGGACAATCATTTCATACAGTAGAAGCCCTAGTATAA	MTVRLIEGVMKMKLAGKVAIVTGGGIGIGRNTALLLAKQGAKVIVTDIDQESGQATVEEIMNLGGEALFVSYDMGKQGDWQRVISITLNAFSRIDMLFQNGGLYKIDSIFSRQQENDSNVLCINDVWIEIKQLTSSFMKQQEEVVLSDLPIFGIISTKGQSFHTVEALV				NA	NA	NA	NA	NA
AK009_02875	99			hypothetical protein	ATGACTGGAGGTAGTGTAATCTTTTGGGGGATTTTAATTTTCATCGGTTTAGTTTTCGATCAGCGTAATAGTAGGAAAAAAGAAGGAGTAAAAAAGTAA	MTGGSVIFWGILIFIGLVFDQRNSRKKEGVKK				NA	NA	NA	NA	NA
AK009_02876	456			hypothetical protein	ATGAAGTTAAAGATGCATCGTCCAGCGCTTGTAATGAATCGCATAGGTGCTTCCCTAATTGACATGTTTTTAATCTCGGTTATGTATGGTGCAGTAGTAGCTATTATGACCGGAAACTATAGTGCTATGTTTAAGCGCTTTAATATAAGTTTAGGTGATTTTAGATATGATTTCGCAGTAGTTTTCATATTAATGGCGATATATTTTATTGTGTTACCCTTTATTTGGAACGGTGTTACACTTGGAAAAAAGGTAACGAGAATAAAATTAATTTCATTGAAGAGTGAAAAGCTAACGTTGCAAACATTAATTATAAGATTTTTTGTATTGTTATTGCCGAACGTATTGCTATTAGGAATTCCATTAATATGTAACGTATATATGATGTTGTTCCGCAAAGACAATTGCGGTTTTCAGGACTTAATTACAAAGACGAAAGTAATAAGTCTTGTATAA	MKLKMHRPALVMNRIGASLIDMFLISVMYGAVVAIMTGNYSAMFKRFNISLGDFRYDFAVVFILMAIYFIVLPFIWNGVTLGKKVTRIKLISLKSEKLTLQTLIIRFFVLLLPNVLLLGIPLICNVYMMLFRKDNCGFQDLITKTKVISLV				NA	NA	NA	NA	NA
AK009_02877	432			hypothetical protein	TTGAAAAAATGGATAATCCTATTCGTCGCCTTCCTATTAACTGGTTGTACAGGAAACACAAGTCACTTAACTTATACGGTTAACGATGAATACGAGCTCATACGTACTTCTGGAAATGCATTTGAACTTTTCCCCTCGCAAGATGCTGTATATGCCACACAATACATCCCTGCAAAAATTACAGACATTGCTTGGGATGATAAATACATTATTGCAAAACAAACTGAGGAAAAATCAGATCCAAATAACCCTGACGCAGCAATTGCAAATAAAAAAAGTGAACATTATTGGATTATTGACGTAAAGCACAATAAACGTTTCGGTCCCTATAATGAAAAGCAATTTAATAAACAAAAAGATGCGTTTAAAATTAAGGTACCTTTTCAAAATGTAGATTCATACATAAAAGAAATAAAAAAACAGTCAGCATAA	MKKWIILFVAFLLTGCTGNTSHLTYTVNDEYELIRTSGNAFELFPSQDAVYATQYIPAKITDIAWDDKYIIAKQTEEKSDPNNPDAAIANKKSEHYWIIDVKHNKRFGPYNEKQFNKQKDAFKIKVPFQNVDSYIKEIKKQSA				NA	NA	NA	NA	NA
AK009_02878	765			hypothetical protein	ATGATGAAAGCATGGAAAAGTATTTTTGTTTTATGTAGTTTTCTTCTTATGTTAAGTGGTTGCTTCCATCAAGAAGAAAAGAAAGCTGAACCGAAGAAGAAAGAATCTATTCCTGAAACAAAAGAATATGGTGGGCGTGAGCTGAAAAAAGTAGGACAAAAAGTGAAAGAAACAGGCTGGGGTACTTTCATGTTAGAGCAGATGCATTCTGTGAATCAAACATTTGAAGTAGCGCCAATGAAAATTCACGTACAAGATGTGAAAGTAATCTCTTTATCACAGATGAGTGAAAAGGCAAAAAATACATTGAAAGTATACACGGCACTAACTCCTGAAGAAGTAAAACGTAGATTAGGGGATAAAGTAAGCCAAGAAGATGCAGAATTATATGCATCGCTAAGTGGAACAGAGATTAGTAATACAATTCGTTACGTTGAGATTACATATAAAGTGGAGAATAGCGGAAATAAAAATATGCAATTTTTCTCTATGAATGATGTTATAATTAATGGTAAGCAACATTTTAAAGTAGCGACTCAAAACTTTTTATATGACGAAGATACGTTAGTTGGTACAAAAAATGTATCAAGAGAAGACTATAAGCCTGGTGAAACAAGAGATGGGATTATTGGTTTAATACTTGACGATGGAAAAGACAAGGTAAAGGATATTCAGTTTATAACTGATGATTTACTTGCAGGAGATTCAGAAACACAAGATGTTGTAAAAGAGCCACAAACGTTTAATATCTCACTTTCGGAGTAA	MMKAWKSIFVLCSFLLMLSGCFHQEEKKAEPKKKESIPETKEYGGRELKKVGQKVKETGWGTFMLEQMHSVNQTFEVAPMKIHVQDVKVISLSQMSEKAKNTLKVYTALTPEEVKRRLGDKVSQEDAELYASLSGTEISNTIRYVEITYKVENSGNKNMQFFSMNDVIINGKQHFKVATQNFLYDEDTLVGTKNVSREDYKPGETRDGIIGLILDDGKDKVKDIQFITDDLLAGDSETQDVVKEPQTFNISLSE				NA	NA	NA	NA	NA
AK009_02879	729			hypothetical protein	ATGCCGTTTACATTTGCACATCCAGTAGCAGTTCTCCCTTTTACGAAAAAGCATTCTAAACATATTTCAGTAACGGCTCTTATATTAGGTAGTATGTCGCCTGACTTTGAATATTTCTTACACTTTAGACCGTATGGTGTAATTGGGCATACGTGGCTGGGGTTCTTATATTTAAATTTACCACTTGTCTTCTTATTAGCATACATATATCATTACATTTTAAAAAAGTCTTTTATAACACATTTACCTAAGCCATTTGCTGGCTACTATACATATGCAGTAGACAAGGGGTGGGGTCTTCATACATGGAAGGATCTTTTTGTATTTTGTTATTCAGCATTATTCGGTATGTTAACGCATGTTGTTTGGGATGCATTCACTCATAAGACAGGCTATTTTGTTATGAAAATACCATTATTGCAAAGAGAATGGTACGGTATCTCTGTTTATAAATATATGCAACATGGAAGTACATGTATTGGTTTTCTATTATTAGCATACGTTTTATGGAAGCATAGAAATGAAATGGGTAAAGACTTTATTTTAGCTTCGGAAAAAAGAAAGTATTGGATTTCAGTAATTGTTGTGGCAACTATTATATTTATCGTGTATGTGTTCCTAGATCCCTATTTTCATATTTTCCAAATTGGAGGTATAATAGTATCTGGACTGACAAGTTCATTTTGTGGACTTTTCATTGTTTCTATAGTTTACAAAGCAAGGGACTAA	MPFTFAHPVAVLPFTKKHSKHISVTALILGSMSPDFEYFLHFRPYGVIGHTWLGFLYLNLPLVFLLAYIYHYILKKSFITHLPKPFAGYYTYAVDKGWGLHTWKDLFVFCYSALFGMLTHVVWDAFTHKTGYFVMKIPLLQREWYGISVYKYMQHGSTCIGFLLLAYVLWKHRNEMGKDFILASEKRKYWISVIVVATIIFIVYVFLDPYFHIFQIGGIIVSGLTSSFCGLFIVSIVYKARD				NA	NA	NA	NA	NA
AK009_02880	726			hypothetical protein	TTGATTGACGTACCCTTTTTACAAAATGTCACATTAAAAAAAGAAAATATCCCTAGTTTTTCCGCATATCCTTACTGCTTACCCGCTATCCGAACATTACAATCACTAGCTTTCCATCCAAATGTAACATTCATTATTGGAGAAAACGGAACGGGTAAATCAACATTACTTGAAGGAATTGCAATTGCGTTAGGTTTTAATGCAGAAGGTGGAACGAAGAATTTCCGCTTTAGCACAAACGATTCACATTCATCTTTACATGAATACCTTCGAATTTCAAAAAGTTTCAATACACCAAACGACGGTTTCTTTCTTCGCGCTGAATCATTTTATAACGTTGCTTCTTATATTGATGAAATAGATGCTATAAAATCTTACGGCGGCGTTTCACTACACGAACAATCACACGGTGAATCATTCTTTTCCTTATTTATGAATCGTTTTTCAGGACAAGGTTTATACATTTTAGATGAGCCTGAGGCAGCTCTATCACCGATGAGACAACTTTCCATGCTCATTCGAATGCACGAACTAGCTGAACAAGGTTCACAATTTGTTATTGCGACGCATTCTCCTATTTTAATGGCTTACCCTGAATCTACTATATACTCTTTAACACAAGAGGGGATTCACGAATCCACATTAGAAGAAACCGAGCATTATCAAACGACGAAACTTTTCTTTGAAAATCGCGATCGATTATTCCATCATCTATTTGAGTCATAA	MIDVPFLQNVTLKKENIPSFSAYPYCLPAIRTLQSLAFHPNVTFIIGENGTGKSTLLEGIAIALGFNAEGGTKNFRFSTNDSHSSLHEYLRISKSFNTPNDGFFLRAESFYNVASYIDEIDAIKSYGGVSLHEQSHGESFFSLFMNRFSGQGLYILDEPEAALSPMRQLSMLIRMHELAEQGSQFVIATHSPILMAYPESTIYSLTQEGIHESTLEETEHYQTTKLFFENRDRLFHHLFES				NA	NA	NA	NA	NA
AK009_02881	1176	thlA	COG0183	Acetyl-CoA acetyltransferase	ATGCATAATGTTGTTATTACAGCTGCAGTTCGTTCGCCAATTGGAACTTTTGGAGGAGCGCTAAAAAATGTAACGCCAGTAGAATTAGCTGTTCCTGTACTTCAGGAAGCTGTAAAACGAGGCGGGGTAGAACCACATGAAGTTGATGAAGTAATTTTAGGTCATTGTATTCAAAGAACTGATGAAGCAAATACGGCGAGAACAGCTGCATTAGCGGCAGGATTTCCTGACACAGTTACGGGATATACAATCCAACGTCAATGTTCTTCAGGTATGCAAGCAATTATGTCAGCTGCAATGCAAATCCAATTAGGTGTAAGTGATGTTGTTGTTGCAGGTGGAGTAGAAGCGATGAGTTCGAGCCCTTATGCATTGAAACAGCACCGCTGGGGACAACGTCTACAGCACGGAGAAATTCGTGATACGGTGTGGGAAGTGTTAGAAGATCCGATTCACCATATTATGATGGGTGAAACAGCGGAAAATTTAGTTGAACAATATGAAATTACAAGAGAGGAACAAGATGAAGTTGCTCTTCGCAGTCATACATTGGCACTGAAGGCAATCGAGTCTGGACACTTTGACGATCAAATTGTTCCTATTACAATAAAAGAACGTAGAAAAGAAGTAGTATTTTCGAAGGATGAGCATCCACGTGCAGATATTACAGCGGAAAAATTAGCAGGGTTAAAACCAGCATTCCGTAAAGATGGGTCTGTAACTGCAGGTAATGCATCTGGCCTGAATGACGGAAGTGCAGTTCTAGTATTAATGAGCGAAGAAAAAGCAAAAGAAAAAGGCTTACAACCGTTAGCTAGAATTGTTGGATATTCAGTAGCTGGAGTAGACCCGAAAATTATGGGTATTGGACCAGCACCAGCAATCCGAAAAGGATTAGAGAAAGTAGATTGGTCATTAGAAGATGCAGATTTACTGGAAATTAATGAAGCTTTCGCGGCTCAATATTTAGCTGTAGAGAAAGAGTTAGGATTAGACCGTGAAAAAGTGAACGTAAACGGTAGTGGTGTAGGACTTGGGCATCCAATTGGTTGTACAGGGGCTCGTATTACAGTAAGTTTAATTCACGAATTAAAAAGACGTGGTTTAGAAAAAGGAATTGCCTCTTTATGCGTTGGTGGCGGTATCGGGGTTGCCTTATTTATAGAAGCACTATAA	MHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQCSSGMQAIMSAAMQIQLGVSDVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGHFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELGLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL	PGPT0008320_11062	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK009_02882	450	rppH_4		RNA pyrophosphohydrolase	ATGGGGTATATTGAAGAGTTACGAAAAGTCGTTGGTACAAGACCGCTTATTCTCGTAGGATCAGCAATCATTATATTAAATGATAAACAAGAAGTATTGCTTCAATATCGTTCAGATACATATGATTGGGGTGTACCTGGCGGGGCGATGGAACTGGGTGAAACGACAGAAGAAACGGCACGTAGAGAGTTATTTGAGGAAACGGGGTTAACTGCAAAAATAATGCAATTTCTTGGTGTTCTATCAGGAAAAGAAGTATATTTCCGTTATCCGAATGGCGATGAAATTTTCAATGTCATTCATCTGTATCAGGCACATCATGTGAGCGGGGAATTAAAGCTCGATCATGAAGGGTTGAAACTTCAATATTTTCCAGTAGATAAGTTGCCAAAATTGAATGAAACGACAGAGAAAATTTTGCAAAAGTTTTTATATGCACTGACAGAATAG	MGYIEELRKVVGTRPLILVGSAIIILNDKQEVLLQYRSDTYDWGVPGGAMELGETTEETARRELFEETGLTAKIMQFLGVLSGKEVYFRYPNGDEIFNVIHLYQAHHVSGELKLDHEGLKLQYFPVDKLPKLNETTEKILQKFLYALTE				NA	NA	NA	NA	NA
AK009_02883	294			hypothetical protein	ATGTATACATTAAAAATCGTTTCAGACAGAGAAGCACTTTATCAATTTGCGAGTTATGTAAGAGTTGTACAAGGGGTTGAAGATGTATATGTAGAGGTGGGAGAACCTTTATATGAACATCCTTTAATGAAGTTTTATGTACATATTAAGCTGAAAGAAACATATGAGCAGCATAAAGCGTTACAGGAAATAGCAAGATTAGTAGAATTGGGTCGTTTTACATATGTCCATTATCGTAATGATGAAATTGAGGAAGCTTTTGAAGCTGTAAAATATGAAAGTTTTAAGAAATAA	MYTLKIVSDREALYQFASYVRVVQGVEDVYVEVGEPLYEHPLMKFYVHIKLKETYEQHKALQEIARLVELGRFTYVHYRNDEIEEAFEAVKYESFKK				NA	NA	NA	NA	NA
AK009_02884	618			hypothetical protein	ATGGATCCATACGTCAATATATGTATTTGTATTACTCCCGGCGCCGATATTTCTGATGACCGCATCGCAAAAGATTTAGCTGTTGCAGAATCAATTTGGCACCCCATTACATTTCAAATTCAAGAAGTAATTGTATTAAATGAACTTTTCCGTTTTTTTGACCGTGAAATCAGTTATAAAAATTCCATTCAAAGTCAAGAAAAGTTGGCATCCTTTTTCCAAACATGTGTAAATGAAGCTCCTGAATGCGACCTTTATATTTGTTATATTGGCAGTGATTATTTCAAAGAAACAGCAGTAATTGCCTGCGCTTATTCTTTAGCAAAACAACAGCAACTTACTGGCTATATCGTTTTAACAAATTCGGCTGCCCCTATGAAAAATATATATACGCTCGCTCACGAAATCGGTCATATTTTATTTACAAGACGTATTCATGGAAAACTTACTCATGCAGATCCTCATTCTCCAACCGGCTCGGAGCACCACCCTTCTCCAACAAATCTTATGTATCCGATAGTCCCTCGTCCAGAAAACGTTCATATTCATTCCTTATTAACAACAGAACAAAAAGCGCTCTCTTTACAAAGCTCTTTACTACAAAGAAAAAAACAGTAA	MDPYVNICICITPGADISDDRIAKDLAVAESIWHPITFQIQEVIVLNELFRFFDREISYKNSIQSQEKLASFFQTCVNEAPECDLYICYIGSDYFKETAVIACAYSLAKQQQLTGYIVLTNSAAPMKNIYTLAHEIGHILFTRRIHGKLTHADPHSPTGSEHHPSPTNLMYPIVPRPENVHIHSLLTTEQKALSLQSSLLQRKKQ				NA	NA	NA	NA	NA
AK009_02885	294			hypothetical protein	ATGCAAAGTATATTTCTAGGTATATTGTCTATTGTATTTTTAGGTTTAACGATTTTCGGGCTATATACTACCTTTTCGAAAAAGGTACATGATGACTATTTCGATACTTTACTAGATGACACATCAGGTTATATTTTGTTCTTCGGTTTAATTGGAAAAGGGCTGCTCTGGATATGCAAAAAATTATTTCCAAAGAAATATTATATAGGGATTTTTAGAGGGATTACATTTAGTTGTCTATTTTTATTTCTAGCAGCCGGGATTTGGTTTGTTGATTGGAACAAGTTGTTTTAA	MQSIFLGILSIVFLGLTIFGLYTTFSKKVHDDYFDTLLDDTSGYILFFGLIGKGLLWICKKLFPKKYYIGIFRGITFSCLFLFLAAGIWFVDWNKLF				NA	NA	NA	NA	NA
AK009_02886	762			hypothetical protein	ATGAAGGTTTCTAAAGAAGGTGAAAAGTTTTTAATCGATACGAAAGTATATTTAATAACAAATGGGATTAAAGAAGAAGATGTGGACGCTTTTCTTGCAGATGCAGAACTTCATTTAATAGAAGGCGAGAAAGAGGGAAAGACAGTAAGTGACATATTTGGTGACTCACCAAAAGAGTATGCGGAAGAATTAGCGAAAGAGATGGAGAAGGATAAAAGCGGGAGTATAAAAAGTATTTTAGGGATGATTATTGGTATTGGTGGATATTGGTTACTTACTAATATATTATTTGAAAATCCTAATCATAAATTTACGTTAACGAATGTACAATTGATTGGATACCCAATTGTTTTAATGATTACTATTGTAAGTATAATATTTGCTTTTAAAATGTCATCATTTAAGAGTAAAATAAAAGAATTTAGCATTATTTATGTAGCAGCTTTGTTACCAATTTTATTACTAGTATTATTAATGTTTATGAATAAGTGGTATGGGACACCTGTATTGCAATTAACTACTATACAAAGTTATATACTAGTTGGAATTGTCTTATTAGTATTGTTAATTGGGGAAGCGTACATACTTGGATGGATTGGAATGTTAGTTGTTATCATACCACTATTAATTATGTTTGTATTTAAAGAATTAGGAAAGCAAAACCCATATTGGGGAATACTAGAGCCTTTACTTCTGTACGGAAGTTTATATGTATTAATGAGATGGTCTTTAAAAAATGAAGAGCAAAAAACTGTAAACTAG	MKVSKEGEKFLIDTKVYLITNGIKEEDVDAFLADAELHLIEGEKEGKTVSDIFGDSPKEYAEELAKEMEKDKSGSIKSILGMIIGIGGYWLLTNILFENPNHKFTLTNVQLIGYPIVLMITIVSIIFAFKMSSFKSKIKEFSIIYVAALLPILLLVLLMFMNKWYGTPVLQLTTIQSYILVGIVLLVLLIGEAYILGWIGMLVVIIPLLIMFVFKELGKQNPYWGILEPLLLYGSLYVLMRWSLKNEEQKTVN				NA	NA	NA	NA	NA
AK009_02887	636			hypothetical protein	ATGTTATCAAGTGAAGCACAAAAGTTTTTGTTAGATATGAGATTATTTTTGACGGCAAAGAGTGTGAAAGAAAGTGATATTGAAAACTTTTTAGAAGACGCAGAACTTCATTTAATAGAAGGTGAGAGTGAGGGGAAGAGTGTAGAAGATATTTTCGGAAGCTCACCGAAAGAATATGCAAATGAACTTGTAAAAGTGATGGAAAGAGATAGACAGGAAACGTGGAAGCAAATTGGTTTTACAGTAATGAATATCGTATCTTTTTGGATTATTGCTTCTATCTTAATAGTGAGTAATGGAATGTTACAGATTTCACTTATTCAGTGTATCGGTTACAGTTTTTCATTGATTTTAGTTGTTATGGGTCCTAATTTTCTACTTCGCAAAATGACCTTCGTCACAAGCTTTACAAAAACATGGTTTTCTATGTGGTCTTTAGTTATGATTGCTCCATTGTTTTTATTAGGAGCTGTTACGATATTAGATGTGATATATCCTACAAAAATGCTCACATTCACCGAAGTCCAAAGTTATATATTAGCTGGTGGGATTTTTATCATCACAGTAGCTATAAATATATATTTTGAAGGATGGTTTAAAAACTTATATTTAATCATTCCGCTTTCTATTATGTAA	MLSSEAQKFLLDMRLFLTAKSVKESDIENFLEDAELHLIEGESEGKSVEDIFGSSPKEYANELVKVMERDRQETWKQIGFTVMNIVSFWIIASILIVSNGMLQISLIQCIGYSFSLILVVMGPNFLLRKMTFVTSFTKTWFSMWSLVMIAPLFLLGAVTILDVIYPTKMLTFTEVQSYILAGGIFIITVAINIYFEGWFKNLYLIIPLSIM				NA	NA	NA	NA	NA
AK009_02888	333			hypothetical protein	ATGTCGACAAGTCAAATGCTGAAAGGGATCTTAGAAGGATGCTTACTTGCTATTATTTCTGAAGGCGAAATATACGGTTATGAAATGAGTGAGAAGCTAGCAAAGTATGGTTTTACAATGGCGAGTGAGGGAAGTATTTATCCGTTATTAATACGAATGCAAAAAGAAGGATTAATAACAAGCGTAATGAAGGAATCTCCATCTGGTCCAAAGAGAAAATATTACACATTAACAGAAAAAGGCGAGGAAGCACTTGATGAATTTATGGATCGCTGGGAAGCGATGCAAAGTAGTGTAGAACGTTTACTTGAAGGGAAGGGAAGGAGAAAATAA	MSTSQMLKGILEGCLLAIISEGEIYGYEMSEKLAKYGFTMASEGSIYPLLIRMQKEGLITSVMKESPSGPKRKYYTLTEKGEEALDEFMDRWEAMQSSVERLLEGKGRRK				NA	NA	NA	NA	NA
AK009_02889	777	bdhA		D-beta-hydroxybutyrate dehydrogenase	ATGGTTACAAATCGAGTTGTCTTTTTAACAGGTGCTGCGAGTGGTATTGGATATGAAGTGGGAAGTACTTTTGCAAAAGAAGGTGCAAAAGTTGTGATTACTGATCGCCTTGAAGAACGTGCGAAAGAAGCTGCTGAACAATTACAAAATGAAGGTTTTCAAGCTATCGGTTTAAAATGTGACGTTACATCTGAAGAGGAAATTACAGCAGCAATTTCTCAAACAGTTGATCATTTCGGTTCATTAGATATATTAATTAACAACGCAGGAATGCAACACGTTTCACCCATTGAAGACTTTCCAACTGAAAAGTTCGAGCTGCTAATTCAAATTATGCAAATTGCTCCGTTTATCGCAATTAAGCATGCCTTTCCGATTATGAAACAACAAAAATATGGTCGTATTATTAATGTCGCTTCTATTAACGGCCTGGTCGGGTTTGCTGGAAAAGCTGCCTATAATAGTGCAAAACATGGCGTAATTGGATTAACAAAAGTTGCCGCTTTAGAAGGTGCTACGCATGGTATTACTGTTAATGCCCTTTGCCCTGGTTATGTCGATACCCCTCTTGTACGTAATCAACTACAAGACTTAGCTACTACACGAAATGTACCACTTGAAAATGTTTTAGAAGATGTCATTTATCCACTTGTACCACAGAAGCGTTTGCTACAAGTACAAGAAATCGCTGATTATGCTATGTTTTTAGCGAGTGAAAAAGCGAAAGGTATAACTGGTCAAGCTGTCGTTATCGATGGTGGCTATACTGCTCAATAA	MVTNRVVFLTGAASGIGYEVGSTFAKEGAKVVITDRLEERAKEAAEQLQNEGFQAIGLKCDVTSEEEITAAISQTVDHFGSLDILINNAGMQHVSPIEDFPTEKFELLIQIMQIAPFIAIKHAFPIMKQQKYGRIINVASINGLVGFAGKAAYNSAKHGVIGLTKVAALEGATHGITVNALCPGYVDTPLVRNQLQDLATTRNVPLENVLEDVIYPLVPQKRLLQVQEIADYAMFLASEKAKGITGQAVVIDGGYTAQ	PGPT0008310_1890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
AK009_02890	162			hypothetical protein	ATGGAAGAGTGGATCAAGATGATAGGTAATGTAGGGTTTCCAATTGTTGTAACATTATATTTACTCCACCGTATTGAAAGTAAATTAGAGGGGGTAATTGTTGCAATTGAGAAGCTCCCGCGGCAATTACTAAAGTACGAAGATCCTCGCGATAAAAAATAA	MEEWIKMIGNVGFPIVVTLYLLHRIESKLEGVIVAIEKLPRQLLKYEDPRDKK				NA	NA	NA	NA	NA
AK009_02891	1062	mtnA	COG0182	Methylthioribose-1-phosphate isomerase	GTGAGTACAATTGTTACTGTTCCGAGATCTGTAAGTTGGAAAGGTGATGCAATTGCGGTATTAAATCAAACGAAATTGCCGCATAGCACAGAATATAAAACATTGACGACTATTGAAGAGGTTTGGAAAAGCATCGTAATGTTAGAAGTACGAGGAGCGCCTGCAATTGGAATTGTAGCTGCATTTGGCTTGGCGCTTGCATCAAAAAAATATAACACTGTACATATTGAAGAATTTCAAAAGAAGTTTAATAGAGATTGTAATTATTTGGGGACGTCACGCCCGACAGCGGTCAATTTATTTTGGGCAATTGATCGTATGAGAGAATCTATTCGAGGGATTACTACAATAAAAGGAGCACAAAAAACATTAGAAGAAGAAGCGCTTCGCATTCAGCAGGAAGATGAAGAGGTGTGCCGAAATATTGGGGAATATGCGTTAACATGTTTTAAAGATGGCGATAATATTTTAACAATCTGTAACGCTGGAAGTATCGCAACTGCCAGATATGGAACTGCATTAGCTCCCTTTTATATTGGAAAAGAGAAAGGTGTGCGTTTACATGCATATGCGTGTGAAACGAGACCAGTTTTACAAGGTGGTCGCTTAACGACGTGGGAATTGAAGCAAGCAAATATTAATGTGACCCTTATTACAGATAATACTGCAGCTCATGCTATTCAAACGAAAGAAATAGATGCAATTATTGTAGGGGCGGATCGAATTGTCGCAAATGGAGATACGGCAAATAAAATAGGGACAATGAATTTAGCTATTTTATCAAAGTACTTTGATATCCCATTTTATGTTGCTGCGCCACTGTCAACATTTGATGTTACGAAAGAAACTGGAGCCGAAATAATTATTGAAGAAAGAGATGAAACAGAAGTTACGAAAATCTTTGGAAAACAAGTAGCACCAATCGGAACGAATGTTTATAACCCTGCATTTGACGTAACACCGAACGAATTAATTACAGGAATTATTACTGAGAAAGGTATTATAAGCGGGGATTATAAAAGAGAAATTGCATCATTATTTGAAAAACAGGCTAATACATAA	MSTIVTVPRSVSWKGDAIAVLNQTKLPHSTEYKTLTTIEEVWKSIVMLEVRGAPAIGIVAAFGLALASKKYNTVHIEEFQKKFNRDCNYLGTSRPTAVNLFWAIDRMRESIRGITTIKGAQKTLEEEALRIQQEDEEVCRNIGEYALTCFKDGDNILTICNAGSIATARYGTALAPFYIGKEKGVRLHAYACETRPVLQGGRLTTWELKQANINVTLITDNTAAHAIQTKEIDAIIVGADRIVANGDTANKIGTMNLAILSKYFDIPFYVAAPLSTFDVTKETGAEIIIEERDETEVTKIFGKQVAPIGTNVYNPAFDVTPNELITGIITEKGIISGDYKREIASLFEKQANT				NA	NA	NA	NA	NA
AK009_02892	1182	mtnK	COG4857	Methylthioribose kinase	ATGGGATATTATTCATTAACAGAAATAACAGCTGTACAATATGCGAAAGATCATGGCTATTTTGAAGCGAAGGCAAATGTCGTTTGTCATGAAATTGGAGACGGAAACTTAAATTACGTGTTCAAATTAGATGATGGAGAGAAATCAATTATAATAAAACAAGCACTGCCCTATGCGAAAGTAGTTGGTGAAAGCTGGCCATTGTCTATAAAAAGAGCAACGATTGAAAGTAAGGCCTTACAAATTTTTGCGCAGTATGTACCGGATTATGTGCCAGCAGTGTACAGTCATGATGAAGAGTTAGCGATAACGGTAATAGAAGACTTATCAAGACTAACAATTACAAGAAAAGGATTAATAGGCGGAGAAGAATATCCGCTTTTATCCCAGCATATCGGCCGTTTTCTAGCACATGTTTTATTTTACACTTCAGATTTTGGTTTACAATCAGAAGAGAAGAGGGTACTAGAAGGTACCTTTGTAAATCCGGATCTTTGTAAAATTACAGAGGATTTAGTGTTTACAGATCCGTTTGGACATTATGATACAAATGATTATGAGCCAGATTTACAGCTCGTGGTTGATGAACTTTGGAGTGATAAAACTTTAAAACTAAAAGTAGCACAATATAAATATAAGTTCTTAACAAGAAAAGAAACTCTTATTCATGGTGATTTACATACTGGTAGTATTTTTTCGTCACCTTCTGAAACGAAAGTGATTGATCCAGAATTTGCGACCTATGGCCCATTTGGATTTGACATAGGTCAATTTATTGCAAATCTATTATTAAATGCTTTATCTAGAGAAGAAGAAAAAAGAAGTGTACTATTTTTCCATATAGAAAAGACGTGGAGTTATTTTGTAGAGACTTTTACAAAGTTATGGATTGGAGAAGGTGTAGAAGCATATACGAAAGAAAAACAATGGTTACCAATTATTTTGCAAAATATCTTTACTGATGCTGTTGGATTTGCAGGATGTGAACTGGTTCGTAGAACAATTGGTTTAGCTCATGTAGCAGATTTAGATGAAATAGAAAATAAAGAAACAAGAATTCAAGCTAAGAAGCAAGCTCTATCCTTCGGTAAAGAACTAATAAAATATGAATCTAAAAGTGCGGATATTCAACTGTTTCGAACATTATTTCAACAGACAGTTTCAGGGGGCGTAAAAGCGTGA	MGYYSLTEITAVQYAKDHGYFEAKANVVCHEIGDGNLNYVFKLDDGEKSIIIKQALPYAKVVGESWPLSIKRATIESKALQIFAQYVPDYVPAVYSHDEELAITVIEDLSRLTITRKGLIGGEEYPLLSQHIGRFLAHVLFYTSDFGLQSEEKRVLEGTFVNPDLCKITEDLVFTDPFGHYDTNDYEPDLQLVVDELWSDKTLKLKVAQYKYKFLTRKETLIHGDLHTGSIFSSPSETKVIDPEFATYGPFGFDIGQFIANLLLNALSREEEKRSVLFFHIEKTWSYFVETFTKLWIGEGVEAYTKEKQWLPIILQNIFTDAVGFAGCELVRRTIGLAHVADLDEIENKETRIQAKKQALSFGKELIKYESKSADIQLFRTLFQQTVSGGVKA				NA	NA	NA	NA	NA
AK009_02894	864	yafV		Omega-amidase YafV	TTGAAAGTTGTTACAATTCTAGTGACAAATGATATAATCTTTCCAGTATTTTGTAAAGAGAAAAATAAGAATGGGGCTGAAAAAATGAAAGTCGCATGTATTCAAATGGATATTGTTTTTGGAGATGTAGAAAAAAATATTGAGAATGCTAAAAATAAAATAAGCGAAGCGATGAAGGAGAGACCGGATGTTATTGTCTTACCAGAATTATGGACAACAGGATATGATTTAGCAAGACTTTCTGAAATTGCAGATAGGGATGGATTGGAAACGAAAGAAAAGTTGAAAGAATGGTCGAAACAATATGGTGTACATATTGTTGGTGGTTCCATAGCGAAGCAAACAGAGCAAGGTGTTACAAATACAATGTATGTGGTAAACAAGGAAGGAGAACTAGTCAATGAATATAGTAAAGTGCATTTATTTCAGCTTATGGATGAACATAAATATTTAATCGCTGGAAATAGTACAGGTGAATTTAAGTTAGATGATGTAGAGTGCGCCGGCACAATTTGTTATGACATTCGTTTTCCAGAGTGGATGCGCGTTCATACTGCAAAAGGTTCAAAAGTTTTATTTGTTGTAGCAGAATGGCCATTAGTTCGTTTAGCACATTGGCGTTTGCTATTGCAAGCAAGAGCAGTTGAAAATCAATGTTATGTTGTTGCCTGTAATAGGGCAGGAAAGGATCCGAATAATGAGTTTGCCGGTCATTCTTTAATTGTCGATCCTTGGGGCGAGGTTGTTGTAGAAGCAAATGAAGAAGAATCAATTTTATTTGGAGAGCTTGTATTCGAGAAAATTAAAGAAGTACGTAAAGGAATTCCAGTTTTTGCGGATCGTCGTCCAGAATTATACAAATAA	MKVVTILVTNDIIFPVFCKEKNKNGAEKMKVACIQMDIVFGDVEKNIENAKNKISEAMKERPDVIVLPELWTTGYDLARLSEIADRDGLETKEKLKEWSKQYGVHIVGGSIAKQTEQGVTNTMYVVNKEGELVNEYSKVHLFQLMDEHKYLIAGNSTGEFKLDDVECAGTICYDIRFPEWMRVHTAKGSKVLFVVAEWPLVRLAHWRLLLQARAVENQCYVVACNRAGKDPNNEFAGHSLIVDPWGEVVVEANEEESILFGELVFEKIKEVRKGIPVFADRRPELYK				NA	NA	NA	NA	NA
AK009_02895	1179	bacF	COG0436	Transaminase BacF	ATGAAATTATTTCAACCTTCTGAGATAGTAACATCATTGCCAACACAATTTTTCGCTTCACTTGTTGCAAAAGTTAACAAATTCGTTGCAGCTGGTCACGATGTTATTAATCTAGGTCAAGGTAATCCAGATCAACCAACACCGCAGCATATCGTAAAAGCTTTACAAGATGCTGCAGAAAAGACCATTCATCATAAATATCCGCCATTTCGCGGACATGAAAGTTTAAAAGAAGCCGTGGCAACATTCTATCAACGTGAATATGATGTAGTAGTAAATCCGAAAACTGAAGTTGCTATATTGTTTGGTGGAAAGGCTGGATTAGTAGAATTACCAGTTTGTTTTACAAACCCTGGTGATTCGATTCTCGTTCCAGATCCAGGCTATCCAGATTATTTATCAGGAGTTGCTTTAGCAAAAGCACAATTTGAAACAATGCCGCTTATTGCAGAAAATAACTTTTTACCAGATTACACAAAAATTAATAACTCTATTGCCGAGCGTGCAAAATTAATGTTTTTAAACTATCCAAATAATCCTACAGGTGCTACTGCATCAAAAGATTTTTTTGATGCAACTATTCATTTTGCTAATAAACATAATATACTAGTGGTTCATGATTTTGCTTACGGTGCGATTGGATTCGATGGTCAAAAACCTGTTAGTTTCTTGCAAGCAGACGGTGCTAAAAATACAGGTATTGAAATCTACACTCTATCGAAAACTTTCAATATGGCTGGATGGCGTATTGCTTTTGCAGTAGGGAATGAAAGTGTCATTGAAACCATTAACTTATTACAAGATCATATGTATGTTAGTATTTTTGGTGCAGTTCAAGATGCTGCCCGCGAAGCACTATTAAGTTCACAGTCTTGCGTAATAGACCTTGTAAATAGTTACGAATCTCGACGAAACGCTCTTATTTCGGCTTGTCAATCAATTGGTTGGAATGTAGACATTCCAACAGGGTCATTCTTTGCATGGCTTCCTGTTCCAAAAGGATATACCTCTGAGCAATTTGCTGATATTTTACTAGAAAAAGCACATGTTGCAGTTGCTCCTGGTGTTGGATTTGGTGAACATGGCGAAGGGTATATCCGTGTTGGTCTCTTGCATACAGAAGATAGATTACGGGAAGCCATTAATCGAATTGATAAATTAAATTTTTTCAAAAAGTAA	MKLFQPSEIVTSLPTQFFASLVAKVNKFVAAGHDVINLGQGNPDQPTPQHIVKALQDAAEKTIHHKYPPFRGHESLKEAVATFYQREYDVVVNPKTEVAILFGGKAGLVELPVCFTNPGDSILVPDPGYPDYLSGVALAKAQFETMPLIAENNFLPDYTKINNSIAERAKLMFLNYPNNPTGATASKDFFDATIHFANKHNILVVHDFAYGAIGFDGQKPVSFLQADGAKNTGIEIYTLSKTFNMAGWRIAFAVGNESVIETINLLQDHMYVSIFGAVQDAAREALLSSQSCVIDLVNSYESRRNALISACQSIGWNVDIPTGSFFAWLPVPKGYTSEQFADILLEKAHVAVAPGVGFGEHGEGYIRVGLLHTEDRLREAINRIDKLNFFKK	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
AK009_02897	1245	mtnW	COG1850	2,3-diketo-5-methylthiopentyl-1-phosphate enolase	ATGAGCGGAATTATAGCGACGTATTTAATCCATGATGATTCACATAACTTAGAAAAAAAGGCTGAGCAAATTGCACTTGGTTTAACAATTGGCTCTTGGACTCATTTGCCACAATTATTGCAAGAACAATTAAAGCAACATAAAGGCAACGTCATTCATATTGTGGAATTAGCTGAACATGAACATACAAATTCGTATTTACGTAAAAAAGTAAAACGCGGAATTATTAAAATCGAATATCCGTTATTAAACTTCAGTCCAGATTTACCAGCAATTTTAACGACTACATTTGGAAAGCTATCCCTTGATGGCGAAGTAAAATTAATTGACTTAACTTTTTCAGACGAGTTAAAAAAACATTTTCCTGGGCCAAAATTCGGGATAGATGGTATTCGAAATCTTTTACAAGTGCATGATCGTCCCCTTTTAATGAGTATTTTTAAAGGAATGATTGGACGAAATATTGGGTATTTAAAAACGCAATTACGCGATCAAGCAATTGGTGGTGTAGATATAGTAAAAGATGATGAAATATTATTTGAAAATGCATTAACACCACTTACGAAACGCATTGTATCTGGAAAAGAAGTTTTACAATCCGTATATGAAACATACGGACATAAAACGTTATATGCCGTAAATTTAACAGGACGAACTTTTGATTTAAAAGAAAATGCGAAACGTGCAGTGCAAGCTGGAGCTGATATTCTATTATTTAACGTATTTGCTTACGGACTAGATGTACTACAATCACTTGCAGAAGATGATGAAATCCCAGTTCCTATTATGGCACACCCTGCTGTAAGTGGTGCTTATTCAGCATCTAAGTTATATGGAATTTCATCTCCATTATTACTCGGAAAGCTACTACGCTATGCTGGGGCTGACTTTTCATTATTCCCATCTCCATACGGAAGTGTTGCGCTAGAAAAAGAGGAAGCTCTTGCTATCTCAAAATATTTAACTGAAGACGATGCATTTTTCAAGAAGAGCTTTTCTGTTCCGTCTGCTGGTATTCACCCTGGTTTCGTTCCCTTTATTGTACGAGATTTCGGTAAAGATGTTGTTATTAATGCTGGCGGCGGGATACATGGACATCCAAATGGAGCGCAAGGCGGTGGTAAAGCATTCCGTACTGCAATTGAGGCTACTTTGCAAAATAAACCACTCCATGAAGTAGATGACATAAATTTGCATAGTGCACTACAAATATGGGGAAATCCCTCTCATGAGGTGAAATTATGA	MSGIIATYLIHDDSHNLEKKAEQIALGLTIGSWTHLPQLLQEQLKQHKGNVIHIVELAEHEHTNSYLRKKVKRGIIKIEYPLLNFSPDLPAILTTTFGKLSLDGEVKLIDLTFSDELKKHFPGPKFGIDGIRNLLQVHDRPLLMSIFKGMIGRNIGYLKTQLRDQAIGGVDIVKDDEILFENALTPLTKRIVSGKEVLQSVYETYGHKTLYAVNLTGRTFDLKENAKRAVQAGADILLFNVFAYGLDVLQSLAEDDEIPVPIMAHPAVSGAYSASKLYGISSPLLLGKLLRYAGADFSLFPSPYGSVALEKEEALAISKYLTEDDAFFKKSFSVPSAGIHPGFVPFIVRDFGKDVVINAGGGIHGHPNGAQGGGKAFRTAIEATLQNKPLHEVDDINLHSALQIWGNPSHEVKL				NA	NA	NA	NA	NA
AK009_02898	660	mtnX	COG4359	2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase	ATGAGTATTCAAGTATTTTGTGATTTCGATGGCACGATTACAAATAATGATAACATTATGTCCATTATGGAAAAATTCGCACCACCAGAAGCTGAAGAAGTAAAGAATAGAATTTTATCACAAGAGCTATCTATTCAAGAAGGTGTTTCTCAATTATTTCGATTAATACCTACTCATCTGCACGATGAAATTATTCAATTTTTAATAGAAACTGCTGAACTTCGTAATGGTTTTCATGAATTTATACAATTTGTAAATGAAAATAACATTTCTTTTTACGTTATATCAGGTGGAATGGATTTCTTCGTCTATCCACTCTTACAAGGACTCATTCCAAAAGAGCAAATTTACTGTAATGAAACAGATTTTTCAAATGAATACATTACGGTGAATTGGCCTCATCCTTGTGATCATCATTGTCAAAATCATTGCGGATTATGTAAATCATCTCTCATCCGTAAATTGAGTGATACGAATGACTTCCATATTGTGATTGGAGATTCAATTACTGATTTACAAGCTGCGAAACAAGCAGATAAAGTATTTGCTCGTGACTTCCTTATTACAAAGTGTGCAGAGAATTATATTGCTTATACACCGTTTGAAACATTCCATGATATTCAAAATGAATTAAAACATTTGTTGGAGGTGAAATCATGA	MSIQVFCDFDGTITNNDNIMSIMEKFAPPEAEEVKNRILSQELSIQEGVSQLFRLIPTHLHDEIIQFLIETAELRNGFHEFIQFVNENNISFYVISGGMDFFVYPLLQGLIPKEQIYCNETDFSNEYITVNWPHPCDHHCQNHCGLCKSSLIRKLSDTNDFHIVIGDSITDLQAAKQADKVFARDFLITKCAENYIAYTPFETFHDIQNELKHLLEVKS				NA	NA	NA	NA	NA
AK009_02899	639	mtnB_2	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGAAACAACTTTTTCGTCAATGGTATGACTTAAGCGAGATAAAAAAAGAATTAACAACTCGAAATTGGTTCCCAGCAACAAGTGGTAATATTTCTATAAAAGTTAGTCATGAGCCACTTACTTTTCTCATTACAGCAAGCGGTAAAGATAAAACAAAAACCACTCCAGATGATTTTCTATTAGTAGATCATGTAGGAGTTCCTGTTTTAGAGACTGAATTACGCCCTTCAGCAGAAACAATATTGCATACACATATTTATAACAATACGAATGCCGGGTGCGTACTTCATGTTCATACAACTGATAATAATGTCATCACAAATTTATATAGTGATGCAGTTACCCTTCAAAATCAAGAAATTATTAAAGCTCTCGATATTTGGGAAGAAGGTGCAACAATTCACATTCCTATTATCGAAAACCATGCCCATATCCCAACGCTTGGAGAAAACTTTCGAAAGCATATACAAGGTGATTCGGGAGCGGTATTAATCCGTAACCACGGTATTACCGTATGGGGCCGAGATAGCTTTGATGCAAAGAAGAGATTAGAAGCTTATGAGTTTTTATTCCAATTTCATATAAAACTACTATCAATTCAAGGAGGCGTTTCTAATGGCGCAAATTCGTATTCATGA	MKQLFRQWYDLSEIKKELTTRNWFPATSGNISIKVSHEPLTFLITASGKDKTKTTPDDFLLVDHVGVPVLETELRPSAETILHTHIYNNTNAGCVLHVHTTDNNVITNLYSDAVTLQNQEIIKALDIWEEGATIHIPIIENHAHIPTLGENFRKHIQGDSGAVLIRNHGITVWGRDSFDAKKRLEAYEFLFQFHIKLLSIQGGVSNGANSYS				NA	NA	NA	NA	NA
AK009_02900	513	mtnD	COG1791	Acireductone dioxygenase	ATGGCGCAAATTCGTATTCATGAAGTAAATACTCGTATTGAAAATGAAGTGGAAGTATCTAAATTTCTACAAGAGGAAGGCGTTTTATATGAGAAATGGAATATTTCTAAACTTCCTACTCATTTAAATGAAAATTATTCTTTAACAGATGAAAACAAAGCTGAAATATTAGCTGTTTTTTCAAAAGAAATCGCTGATGTTTCAGCAAGTCGAGGTTATAAAGCACATGATGTAATTTCACTTTCAAATAGCACACCTAACCTTGACGAATTATTAATTAATTTCCAAAAAGAGCATCATCATACAGACGACGAAGTCCGCTTTATCGTCAGTGGTCATGGCATTTTCGCTATTGAAGGCAAAGATGGGAAATTCTTTGATGTTGAACTTGAGCCAGGCGATCTCATATCTGTTCCTGAAAATGCAAGACATTATTTTACCTTGCAAGATGATCGTCAAGTTGTAGCTATTCGTATTTTTGTGACAACTGAAGGCTGGGTTCCAATCTATTAA	MAQIRIHEVNTRIENEVEVSKFLQEEGVLYEKWNISKLPTHLNENYSLTDENKAEILAVFSKEIADVSASRGYKAHDVISLSNSTPNLDELLINFQKEHHHTDDEVRFIVSGHGIFAIEGKDGKFFDVELEPGDLISVPENARHYFTLQDDRQVVAIRIFVTTEGWVPIY				NA	NA	NA	NA	NA
AK009_02901	276			hypothetical protein	ATGAGCTTACTTATCGCACTTATACTTGGAGTTACATGTGGGGCATTTCCTGTTATTTTAGGAGCTATTATGGAAGAGTTAGAAATTGGTGTTTTAGGATTTGTCGCATCTTGTGTAAGCGCTTTATTATTTGGTTTATTCGGCGCTATTCCTGTTTCAATTCTGTGTGCTTTTTATATAATACGCCATGCTCGTACAAAACAATTTGGTCCTAATCACATCGCACAAATTATCCCATTCCCAGTTGAACGATGTCGCCGAGCTTCTAACTTATAA	MSLLIALILGVTCGAFPVILGAIMEELEIGVLGFVASCVSALLFGLFGAIPVSILCAFYIIRHARTKQFGPNHIAQIIPFPVERCRRASNL				NA	NA	NA	NA	NA
AK009_02902	333			hypothetical protein	GTGGACCTTCAAAAGTTTGATGAGATGATTGATACTGTACAGCGAGCTACTTGTATGCAAATTAATGAAAAACAAAAAGAAGCTTTTAAACAAAAATATGATTTTGAACCAGACTTTGAATATGGAAGAGATGAGAAGGGGCATTATGTAATTCGAACCTCTAAAAAGATGTTAGAAGAAATGGAGTTTTATTTGGCATTGAAATATGATCGTGATGGAGTGGATCTTTATATGCAAGCTGAGATTGACGGTATATTTCATGTATCTGTTAGCTATGGTGAAGATGCCCTACATCTACAAGAATTGTTTCAATTTCTAGAAGAAAATAAATAA	MDLQKFDEMIDTVQRATCMQINEKQKEAFKQKYDFEPDFEYGRDEKGHYVIRTSKKMLEEMEFYLALKYDRDGVDLYMQAEIDGIFHVSVSYGEDALHLQELFQFLEENK				NA	NA	NA	NA	NA
AK009_02903	879	garR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGAACATAAAACTTTATCAATAGGTTTCATTGGTATTGGCGTAATGGGAAAAAGTATGGTTTATCACTTAATGCAAGATGGTCATAAAGTATATGTATATAATAGAACGAAAGCAAAAACAGATTCTTTAGTGCAAGATGGTGCACAATGGTGTGATACGCCAAAAGAGTTAGTGAAGCAAGTTGATATTGTAATGACAATGGTTGGATATCCACATGATGTAGAAGAAGTGTATTTTGGTATAGAAGGAATTATAGAACATGCAAAAGAAGGTACGATAGCAATTGACTTTACGACATCTACACCTACTTTAGCAAAACGTATTAATGAAGTTGCAAAAAGCAAAAATATATATACGTTAGATGCACCTGTCTCAGGAGGAGATGTTGGTGCGAAAGAAGCAAAACTCGCAATTATGGTAGGTGGAGAGAAAGAAATATATGATAGATGCTTACTTTTACTTGAAAAGTTAGGAACAAACATTCAATTACAAGGACCAGCTGGGAGTGGACAACATACAAAAATGTGCAATCAAATTGCGATTGCTTCCAATATGATTGGAGTATGTGAGGCTGTTGCTTACGCGAAGAAGGCTGGATTGAATCCAGATAAAGTGTTAGAGAGTATTTCAACAGGGGCAGCAGGTAGTTGGTCATTAAGTAATTTAGCTCCTCGAATGTTAAAAGGAGACTTTGAGCCAGGATTTTATGTAAAGCATTTTATGAAAGATATGAAGATTGCTTTAGAGGAAGCAGAAAAATTACAATTACCAGTCCCAGGCTTAAGTTTGGCGAAAGAATTGTATGAAGAGTTAATTAAGGATGGCGAAGAAAATAGTGGAACACAAGTATTATATAAAAAATATATAAGGGGGTAA	MEHKTLSIGFIGIGVMGKSMVYHLMQDGHKVYVYNRTKAKTDSLVQDGAQWCDTPKELVKQVDIVMTMVGYPHDVEEVYFGIEGIIEHAKEGTIAIDFTTSTPTLAKRINEVAKSKNIYTLDAPVSGGDVGAKEAKLAIMVGGEKEIYDRCLLLLEKLGTNIQLQGPAGSGQHTKMCNQIAIASNMIGVCEAVAYAKKAGLNPDKVLESISTGAAGSWSLSNLAPRMLKGDFEPGFYVKHFMKDMKIALEEAEKLQLPVPGLSLAKELYEELIKDGEENSGTQVLYKKYIRG	PGPT0018170_923	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
AK009_02904	1137	pbpX_1	COG1680	Putative penicillin-binding protein PbpX	ATGATAAAAAAAGTAATGATAATGGCTTCACTGTCTGCTATAGTTGGCGGCGGAGTATACTATTTTCTTGTTAGCCCCAATATAAAGGAAAACACAGTATTAACAACTAAGGTGAATCCTACTATTGAACCAGAAGTGCAAGGGAATATAGAAGAAAAAGAAGAGCAACAAATTGATTATGCTAGCATATCTCAAAAATTAGATCAATATTTAGTCGGAAAGCAATTTAATGGAACAGTTTTGGTAACAGATAAAGAGCATGTTATATTGAATAAAGGATATGGGTATGCTGATGTTCAAAATAAAATAGAAAATACGCCTCAAACAAAATATCGTATCGGTTCTATTACGAAAACAGTTGTTGCCACATCTATTTTACAGTTGCAAGAACAAGGTAAATTGAATATTCAAGATAATGTAAATAAATATATTCCTTCATTTCCGGAGAATAAAAATATTACACTATATCATTTGTTAACCCATACCTCTGGTTTACCTGAACACGCAAAAGGCAATGTTAATGCTGCTTCCCGTTTACAGTTAATTAATTGGATCGGACGTCAAAATTTAGAATTTCCTGCAGGAACAGGTTGGAGATATACAGATTATAATTATATGGTTCTTGCTTATATAATAGAACATATCTCGAAAAAACCTTTAGGAGATTACATAAAAGAAAACATATTTGTAAAAGCAGATATGCATGAATCCGGTATGGGAAATATGGTACCTGGCGATAAAAATTTTACAAAGGGTTATGTGAAAAAAAATCAAGAGCTTGTACCAGCGCAGAAGTTAGGCATGGATTGGCTATATGGTTGTGGTGAGATGTATACGACAGTTGGAGATATGAAGAAGTTAGACGAAGCAATTATAAATGGAAAACTTCTTTCTGAACAAAGTATACAAGCAATGTTTTCACCTTCAGCAGAACGGAAATATGCATTTAGTTTTTATATATATGCAGATTATTTTCATAATCATGGTGTATTATCTGGTTGGAACACTTTCAATAATTTTAATAAAGAAAAAGGAATTTTTGTTATGTTATTTTCAAATGTAAAAAATAGTATGGATGATGACTTTAATAAAGAGTTCCGAAAGATGGTAAATGATTTATTAGAACAAAGGGGATGA	MIKKVMIMASLSAIVGGGVYYFLVSPNIKENTVLTTKVNPTIEPEVQGNIEEKEEQQIDYASISQKLDQYLVGKQFNGTVLVTDKEHVILNKGYGYADVQNKIENTPQTKYRIGSITKTVVATSILQLQEQGKLNIQDNVNKYIPSFPENKNITLYHLLTHTSGLPEHAKGNVNAASRLQLINWIGRQNLEFPAGTGWRYTDYNYMVLAYIIEHISKKPLGDYIKENIFVKADMHESGMGNMVPGDKNFTKGYVKKNQELVPAQKLGMDWLYGCGEMYTTVGDMKKLDEAIINGKLLSEQSIQAMFSPSAERKYAFSFYIYADYFHNHGVLSGWNTFNNFNKEKGIFVMLFSNVKNSMDDDFNKEFRKMVNDLLEQRG	PGPT0023445_136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023445-fmtA-K22580	NA	NA
AK009_02905	1293			hypothetical protein	ATGAACATACTACATTTTTTATTAGAGAATACGGTTTTCCAAAATGTGTTACAAGATTTGCAGTTAAATGTCCTTTATATAGAAAATGGATGTAAGCATCAACAAACGATAGAAAATATCCATCCAAAATGTATGTTTATAGCAAATAATTTTGAAGAGGGCGAACTATTATTTCAAAGAACGAAACCGCACATTATAATTATGTATGTAACAGATTATTCTCAAATCAAATATATAAAGAATATGTATACCCCGCAAAGTACATTCATTGTCATTTGGGATCAACAAATAACAAAAGAATTTACAGATGTACTTGCATTAGGAATACGTAATATTGTAATAGCCCCTGTAACTCCACAAGCAGTATTAGAAGAAGTGAATAAGAGTTTGTATCAACTTTCTTTAGTAAGGCAAGTTAGTTTGCAACAGGAACTGCTTCAAACGATGTTTGATTTTCAAAATGATTTATTATTTATAGTAGAAGATGATGAAATTGTTGATTGTAATACAAATTTTTTAACTTTTTTCGGATATGAAAATTTGTTTGCCTATCGTGAGCAACATTTAGTATTTGCTGAACATTTTATTAGAGAAAATGGATACTACTCGACGACGCATGATATAACATGGCTAGACGATACTTTATCAAGTGGTAGAAGAATTAAGATGTCAAATTATGAAGGGGAATTATCTACTTTTCTATTACGTGCGACACCATTGCCAGAAGATTTATCAAGATTTATTGTAAAATGTACGGAAATTACAGAATTAGATGAAATCTATCAAGAACAAGAAAGACTTGCTATGGTAGATTCATTGACAGAGATTTATAATCGTTTAAAGTTTCAACAAATACTAGAGGTAGAGTGGGAAAAGGTAATACGTAGTGATGAGAAAATAGCAATCATTTTATTTGATATAGATAATTTTAAAACAGTTAATGACACATATGGTCATGATTTTGGTGATTTGGCATTAATACAACTTGCAGAGCTTATGAAATCTAAAGTGGAGCAGCAACACGTATTTGCAAGATGGGGAGGAGAAGAATTCATTATATTAGTGACAAATACAGTAGAAAAGGAAGCATTTCAAGTTGCGGAGTCATTACGATTCTTCATTGAAACAAAGCAATTCACTGGAATTTCGAAGCTAACAGCTAGCTTTGGAGTTGCGTTATATGAACAAGGAACTACAAGAGAAGAATTAATGCAACGAGCGGACATTGCTTTATATGAAGCGAAAAAAAATGGAAAGAATCAAGTATGTGTGTACAGAAAAGAAAAAATGTAA	MNILHFLLENTVFQNVLQDLQLNVLYIENGCKHQQTIENIHPKCMFIANNFEEGELLFQRTKPHIIIMYVTDYSQIKYIKNMYTPQSTFIVIWDQQITKEFTDVLALGIRNIVIAPVTPQAVLEEVNKSLYQLSLVRQVSLQQELLQTMFDFQNDLLFIVEDDEIVDCNTNFLTFFGYENLFAYREQHLVFAEHFIRENGYYSTTHDITWLDDTLSSGRRIKMSNYEGELSTFLLRATPLPEDLSRFIVKCTEITELDEIYQEQERLAMVDSLTEIYNRLKFQQILEVEWEKVIRSDEKIAIILFDIDNFKTVNDTYGHDFGDLALIQLAELMKSKVEQQHVFARWGGEEFIILVTNTVEKEAFQVAESLRFFIETKQFTGISKLTASFGVALYEQGTTREELMQRADIALYEAKKNGKNQVCVYRKEKM	PGPT0014690_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014690-ydaM-K21088	NA	NA
AK009_02906	618	yodC_2	COG0778	Putative NAD(P)H nitroreductase YodC	ATGACAAACGACAACTTTTTTAACGTTTTATATGAACGCACATCTACACGTGCATTCAACCCAAATAAAGAAATCTCATCTACAGAATTGCATGAGATTTTAAAAGCCGCAGCACAGGCACCTTCCGCTTGGAACTTACAACACTGGAAATTCCTTGTTTTTCAAGGTGAAGATGTACAAAAACGATTACACCCAATAGCTTATAACCAACAACAAATTCTTGATGCTTCTGCAGTAGTCGCTATTTTAGGTGATTTAGAAGCTTATAAAAATGTTGAGCCAGTATATGGTCCAATTGTAGAACAAGGATTTATGAAAGAAGAAGCAAAAGAACGCTTAGCTAAAAATATTGAATCTGCATATGCTCGTGAACAATTCCCGAGAGATGCTGCCTTTTCAAATGCATCTTTAGCAGCAATGCAACTTATGCTTGCAGCTAAAGCAACTGGTTGGGATACTTGTGCTATTGGTGGCTTCAATCCACAAGCACTGACAGACGAATTTAACGTTTCATCTCGTTACGTTCCAATTATGCTTATTACAATTGGTGAATCAACTTTAAAAGGTCACCCTGCACCACGTATGAGCGTAGAGCAAGTGAGTGAGTGGGCAAAATAA	MTNDNFFNVLYERTSTRAFNPNKEISSTELHEILKAAAQAPSAWNLQHWKFLVFQGEDVQKRLHPIAYNQQQILDASAVVAILGDLEAYKNVEPVYGPIVEQGFMKEEAKERLAKNIESAYAREQFPRDAAFSNASLAAMQLMLAAKATGWDTCAIGGFNPQALTDEFNVSSRYVPIMLITIGESTLKGHPAPRMSVEQVSEWAK	PGPT0028511_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK009_02907	219			hypothetical protein	TTGAGTTCATACGGAAGCTTGATCGCACTTTTATGTTACATAGTAACTGTACTGCTTCTATATTTTATTGGTGATGCCGCAAACATCTCCATTTTACAATTCCCAAAAGAAGAAGCATTTCAATTAGAATCAGAAAAACATACTGCACGATCCATCGTACCACTACTCCTAGCTCTTCCTGTATATATCGTCGTTTTATATAAAAGTAAAAAAGTGTAA	MSSYGSLIALLCYIVTVLLLYFIGDAANISILQFPKEEAFQLESEKHTARSIVPLLLALPVYIVVLYKSKKV				NA	NA	NA	NA	NA
AK009_02908	369			hypothetical protein	ATGTTTGGATCATTTGGATGCTGTGATAACTTTAGAGACTGTCATCATCGTGAAAGAGAGTGCGACCATCGTGACCATCGCGAGAAAGAGAGAGAGGTAAAACCACAACAACCAGCTGTATGTAACGTACTTGCTAGCATTTCAGTTGGAACAGAGCTTTCTCTTTTAAGCATTAAAGGTATCGGATCTTTCAACGATGTAATTTTTGAAGGTTTCGCTAACGGTGTTGCTCTTTTCTCCGCTTTAGCTCGTAACAATAATGATAAAGATAATAAAGACGACAACAAAGATGATAAGAACCGTCAACGTAATACTTTTAATGGTATTTTACGTGTATGCCCAACTGATATCGTTGCTATCGCTATCTAG	MFGSFGCCDNFRDCHHRERECDHRDHREKEREVKPQQPAVCNVLASISVGTELSLLSIKGIGSFNDVIFEGFANGVALFSALARNNNDKDNKDDNKDDKNRQRNTFNGILRVCPTDIVAIAI				NA	NA	NA	NA	NA
AK009_02909	1713	ptsI_1	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGACTCTTAACATTCAAGGGATCGCTGCATCAAGTGGGATTGCTATTGCAAAGGCTTTCAGACTTGAAAATCCTGAATTTAACATCGAAAAGAAATCAATTACAAACGAAGCTGCAGAAATTGCACGCTTAGACGCTGCGCTTGAGAAAGCAAAAACTGAATTAGAAGCTATTAAAGACCACGCATTTGCTGAGCTAGGTGCTGACAAAGCTGCGATCTTTGAAGCACATTTATTAGTGTTAAATGATCCAGAACTAGTAAACCCAGTAAAAGATAAAGTGAATAGCGAAAAAGTAAATGCTGAATTTGCAATGGATGAAGTTGCATCAATGTTTATTTCTATGTTTGAAAACATGGATAACGAATATATGAAAGAACGTGCTGCAGACATTCGTGACGTAACAAAACGCGTTCTTGCACATTTACTAGGAATTAACTTCTCAAATCCTGGTACAATTTCTGAAGAGGTAATCATCATTGCTGAAGATTTAACACCATCTGATACAGCTCAGTTAAACCGTAAGTATGCAAAAGGTTTCACTACTGATATCGGTGGACGTACATCTCACTCTGCAATTATGGCTCGTTCTATGGAAATTCCAGCTGTTGTTGGTACAAAAGTTGTTATGGAGAAAATCCAAAACGGCGATATCGTTATCATTGACGGTTTAGATGGAGAAGTAATTGTAAACCCATCAGAAGAAACTCTTCGTTCGTTTGAAGAAAAGAAAGCGAAATTTGAAGAGCAAAAAACTGAATGGGCAAAATTAAAAGACCAAGCTACTGTAACAAGTGATGGACATCACGTTGAGCTTGTTGCAAATATCGGAACACCAAATGATGTACAAGGTATTATCGATAATGGTGGAGAAGGCGTTGGTTTATACCGTACAGAATTCTTATACATGGGCCGTGACAATCTTCCAACAGAAGAAGAGCAGTTCGAAGCGTATAAAGCAGTTCTTGAAGGTGTAAAAGAAGGTCAACCAGTCGTTGTTCGTACACTTGACATCGGTGGAGATAAAGAGCTTCCATACTTACATTTACCAAAAGAAATGAACCCATTCTTAGGATACCGTGCAATTCGCTTATGTCTTGATGAGCAAGATGTGTTCCGTACACAACTTCGTGCATTACTTCGTGCTAGCGTATACGGCAACTTAAAAATTATGTTCCCAATGATTGCAACTCTTGATGAGTTCCGTCAAGCGAAAGCGATTTTATTAGAAGAGAAAGCGAAACTTGTAGAAGCGGGTACAACTGTTTCTGATTCTATTGAAGTTGGTATGATGGTTGAAATCCCAGCTTCAGCAGTATTAGCAGATCAATTCGCGAAAGAAGTTGATTTCTTCTCTATCGGAACGAATGATTTAATCCAATACACAATGGCTGCAGACCGTATGAACGAACAAGTATCATACTTATACCAACCATATAACCCATCTATTTTACGTCTTGTAAAAATGGTTATCGATGCTGCTCATAAAGAAGGCAAATGGGCTGGCATGTGTGGTGAGATGGCGGGAGATTCACTTGCTATCCCATTATTATTAGGATTAGGTTTAGATGAGTTCAGTATGAGTGCAACATCTATTCTTCCTGCAAGAACACAACTAAGCAAGTTGTCAAAAGCAGAAATGGAAACATTAGCAGAAAAAGCATTATTGATGTCAACTGCTGAAGAAGTTGTTGAACTAGTTAAAAGCATATAA	MTLNIQGIAASSGIAIAKAFRLENPEFNIEKKSITNEAAEIARLDAALEKAKTELEAIKDHAFAELGADKAAIFEAHLLVLNDPELVNPVKDKVNSEKVNAEFAMDEVASMFISMFENMDNEYMKERAADIRDVTKRVLAHLLGINFSNPGTISEEVIIIAEDLTPSDTAQLNRKYAKGFTTDIGGRTSHSAIMARSMEIPAVVGTKVVMEKIQNGDIVIIDGLDGEVIVNPSEETLRSFEEKKAKFEEQKTEWAKLKDQATVTSDGHHVELVANIGTPNDVQGIIDNGGEGVGLYRTEFLYMGRDNLPTEEEQFEAYKAVLEGVKEGQPVVVRTLDIGGDKELPYLHLPKEMNPFLGYRAIRLCLDEQDVFRTQLRALLRASVYGNLKIMFPMIATLDEFRQAKAILLEEKAKLVEAGTTVSDSIEVGMMVEIPASAVLADQFAKEVDFFSIGTNDLIQYTMAADRMNEQVSYLYQPYNPSILRLVKMVIDAAHKEGKWAGMCGEMAGDSLAIPLLLGLGLDEFSMSATSILPARTQLSKLSKAEMETLAEKALLMSTAEEVVELVKSI	PGPT0002025_2188	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
AK009_02910	264	ptsH_1		Phosphocarrier protein HPr	ATGGAAAAAATCTTTAAAGTAACTAGCGACTCAGGAATTCATGCTCGTCCAGCAACTCTACTTGTAAACACTGCAAGCAAATTCGGTTCTGACATTAACTTAGAGTATAACGGAAAGAACGTTAACTTAAAATCAATCATGGGCGTAATGTCTTTAGGTATTCAACAAAACGCAGAAATTAAAATCACTGCAAATGGTGATGATGCAGCTCAAGCACTAGCAGCTATCGAAGAAACTATGAAAAACGAAGGATTAGGAGAATAA	MEKIFKVTSDSGIHARPATLLVNTASKFGSDINLEYNGKNVNLKSIMGVMSLGIQQNAEIKITANGDDAAQALAAIEETMKNEGLGE	PGPT0016875_2719	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
AK009_02911	2064	ptsG	COG1263	PTS system glucose-specific EIICBA component	ATGTTTAAGAAGATCTTTGGTGTTCTTCAAAAAGTCGGAAAAGCGTTAATGCTTCCAGTAGCGATTTTACCGGCGGCAGGTATTTTACTTGGATTTGGTAATGCATTTCAAAATCCACAGTTAACAAATGTTATTCCTGCTTTAAAAGCAGATTGGTTCGTAATGGTTGCAAAAATTATGGAACAATCTGGTGATATTATTTTCGCTAACCTTGCATTATTATTTGCAGTTGGGGTAGCAATTGGTTTAGCTGGTGGAGACGGAGTAGCTGGTTTAGCAGCATTCGTCGGCTACTTAATTATGAACAAAACGATGAGTGTGTTCTTAGAAGTAGATAAGCTAGTGAAAGTAACAAGTTCTGGAGCAGACCCAGTAAAAATTGGATTTGCAGATCCAGCGTATGCAAACGTATTAGGTATTCCGACGCTACAAACAGGGGTATTTGGTGGTATTATCGTCGGTATAGTAGCGGCATATTGCTATAATAAATACTTCAACATTGAATTACCATCATACTTAGGTTTCTTTGCAGGTAAGCGTTTCGTACCGATCGCAACTGCAACATTCTCTTTAATAGTAGGTATTATCATGTGCTTCGTTTGGCCATACATTCAAGGTGGCTTAAACACGTTCTCACATCAAATGATTGATGCGAATAGAACAATCGCAGCATTTATATTCGGTTTAATTGAACGTTCATTAATTCCATTTGGACTACACCACATTTTTTATTCACCGTTCTGGTTCGAATTCGGTCAGTATACAAATGCAGCTGGCGAATTAATCCGTGGTGACCAAAAAATCTTTATGGCACAGTTAAAAGACGGTGTAGAATTAACGGCAGGTACATTTACAACTGGTAAGTATCCGTTCATGATGTTCGGTCTTCCAGCAGCAGCTTTAGCAATGTATCATGAAGCACGTCCAGAAAATAAAAAATTAGCAGCAGGTATTTTAGGTTCTGCAGCATTAACATCTTTCTTAACAGGTATTACAGAGCCACTTGAATTTTCATTCTTATTCGTAGCGCCAGTATTATTCGGAATTCATGCTGTATTTGCTGGTCTATCATTTATGACAATGCAAATTTTAGGTGTTAAAATTGGTATGACATTCTCTGGTGGTTTAATTGACTTCCTATTATTCGGTGTATTACCAGGCCGTACAGCATGGTGGTGGGTAATTATTGTTGGTCTTGTACTAGCAGTTATTTACTACTTCGGATTCCGCTTTGCAATCCGTAAATGGAATCTAAAAACACCTGGTCGTGAAGAGGCAAATGCGAATGACGGTGCAGGAAAAGCAGAAGCAGGCGAACTTCCTCGTGAAGTATTAGTAGCACTTGGTGGTAAAGAAAACATTGCTTCTTTAGATGCTTGTATTACTCGTTTACGTGTTCAAGTTAACGAACAAAAGAATGTAAACAAAGACCGCTTAAAAGAACTTGGAGCAGCTGGTGTACTTGAAGTTGGAAATAACATTCAAGCTATTTTCGGACCGAAATCTGACACGTTAAAATCACAAATTCATGATATTATGTCAGGTCGTACACCTCATGTTGAAAAAGAAGAACCTGTAAAAGTGGAAGAAACTCCTCAAAAAGTTGATGAAAATGAAACAATTGTATCACCAATTGAAGGGAAAATATTACCAATTACAGAAGTACCTGACCAAGTATTCTCAGGAAAAATGATGGGAGATGGATTTGCAATTGAGCCAACTGAAGGAACAGTAGTTTCTCCAGTTAACGGTGAGATCGTTAATGTATTCCCTACAAAACATGCGATTGGTATTCAATCTGAAGGCGGAAAAGAAATTTTGATCCACTTCGGTATTGATACTGTAAAATTAAATGGTGAAGGTTTTGAAGCGCTTGTAGCACAAGGCGACAAGGTGAAACAAGGCCAACCATTATTAAAAGTAGATCTTGCATTTGTAAAAGAAAATGCACCATCTATCATTACACCAATTGTCTTTACAAACTTACAACAAGGGCAACAAGTCGAATTGAAAAAAGATGGAAATGTTAAGAAGGGCGAAACCGCTATTATTGACATTCAGTAG	MFKKIFGVLQKVGKALMLPVAILPAAGILLGFGNAFQNPQLTNVIPALKADWFVMVAKIMEQSGDIIFANLALLFAVGVAIGLAGGDGVAGLAAFVGYLIMNKTMSVFLEVDKLVKVTSSGADPVKIGFADPAYANVLGIPTLQTGVFGGIIVGIVAAYCYNKYFNIELPSYLGFFAGKRFVPIATATFSLIVGIIMCFVWPYIQGGLNTFSHQMIDANRTIAAFIFGLIERSLIPFGLHHIFYSPFWFEFGQYTNAAGELIRGDQKIFMAQLKDGVELTAGTFTTGKYPFMMFGLPAAALAMYHEARPENKKLAAGILGSAALTSFLTGITEPLEFSFLFVAPVLFGIHAVFAGLSFMTMQILGVKIGMTFSGGLIDFLLFGVLPGRTAWWWVIIVGLVLAVIYYFGFRFAIRKWNLKTPGREEANANDGAGKAEAGELPREVLVALGGKENIASLDACITRLRVQVNEQKNVNKDRLKELGAAGVLEVGNNIQAIFGPKSDTLKSQIHDIMSGRTPHVEKEEPVKVEETPQKVDENETIVSPIEGKILPITEVPDQVFSGKMMGDGFAIEPTEGTVVSPVNGEIVNVFPTKHAIGIQSEGGKEILIHFGIDTVKLNGEGFEALVAQGDKVKQGQPLLKVDLAFVKENAPSIITPIVFTNLQQGQQVELKKDGNVKKGETAIIDIQ	PGPT0016870_228	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
AK009_02912	849	glcT	COG3711	PtsGHI operon antiterminator	ATGAATAATTATCTAGAAATTAAAAAAGTTTTAAATAATAATGTCATCATTGCTAGCCATCCTGAACACGAGGAAGTAGTAGTGATTGGTAAAGGAATTGGATTTGGGAAAAAAGCGAAAGATGTATTGGAGCAAGAACAAATCGAAAAAATGTTTGTCTTAAAAAATGAACGTGATCGTGAACAATATAAATTATTAGTGCCGCATGTTAGTGAAAAATTAATTGAATTGATGAACGATATTATGCTGTACATTCAAGAAAAAGCAAAATCTCCACTAAATGAACATATTCATATTGCGTTAACAGATCATATTTCATTTGCAATTAAAAGGTTAAAACAAGGACTTACAATTGATAATCCTTTTTTAGTTGAAACAAAAATGCTCTATCCAGAGGAATATGAAATTGCTGAAGGTGTTGTAGAACTTTTAAATTCTCGTTTGCAAATTACATTGCCAGAAGGAGAAATTGGTTTTATTGCACTTCACATTTACAGTTCGCTTACAAATTCTGATTTATCTTCAGTTAATCAAAACTCCCGTCTCATTGCACAACTTGTATCTTTAATTGAGACAAACTTACAAATTACATTAGATCAAGAGAGCATTCATTATTTACGCCTTATTCGTCATCTTCAATATGCTATTGAGAGGGTGAAAAAAGGAGAAAAAGTAGAGGAATCGCAAAGTTTTGCTGATTTATTAAAGGCGGAGTATCCAGTTTGCTATAACGTGGCTTGGAAGCTAGTTAAGGTCATGCAAAAAGAGTTGCAACTACCTGTATATGAAGCTGAAAGTATTTATTTAACGATGCACTTGCAACGCTTAGTAAAGGCAGAGCATGTGTAA	MNNYLEIKKVLNNNVIIASHPEHEEVVVIGKGIGFGKKAKDVLEQEQIEKMFVLKNERDREQYKLLVPHVSEKLIELMNDIMLYIQEKAKSPLNEHIHIALTDHISFAIKRLKQGLTIDNPFLVETKMLYPEEYEIAEGVVELLNSRLQITLPEGEIGFIALHIYSSLTNSDLSSVNQNSRLIAQLVSLIETNLQITLDQESIHYLRLIRHLQYAIERVKKGEKVEESQSFADLLKAEYPVCYNVAWKLVKVMQKELQLPVYEAESIYLTMHLQRLVKAEHV	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
AK009_02913	807	cof_1	COG0561	HMP-PP phosphatase	ATGATTAAAATGTTTGTAAGTGATATCGATGGTACAATGATGCAACACGGAGGTCTTATTGATGAGCAAGATGTTGCGGCACTACGCAGCCTCGCCGAGCAAAATGTTATTCTTTGCTTCGCTTCCGGAAGACTTGATAATGAAATTGCAGACTTAATGAAAGCTGTAAATACAAATTTTCATCGTATTAGTGTAAATGGTGTTTTTGTATATACACATGAAAATAAACAACTATTATCTGCAACTTTTGATTCCAGCATACTTCCCGATTTGTTAGCTATGACGAATGAAAATCCTTATTTCCGTTATGTAAGTGATGAGCATAATTATTACATTGAAGAGAAAACACCTTTTATTCAAGAACTTGAACAACAAGTAACAATGACTTCTGTTGAAGAACCAAACTTACTACAGAAGATTGATGATACAATTTTCCCAAATAAAATTTCTGTCGGTGGAACAAAGGAGAGCTTACAACTCCTTCAGAAAAAAATTGATGAAAAATTCCACGGGAAAGTTAGTACTTTCATCTCAGCAGAACAATGTTTAGATGTAATGCCACCGAATGTTAGTAAAGGCTCTGCCATTTCTGTTTTATTAAATGAGTTTCAAATAAAACCTGAGGAAATTGCTTGTATAGGGGATTCTTACAATGATATTCCTATGTTTTCTTTAACTCCTCACAGTTTTGCTATGTCGCAAGCCGATGATGCAGTGAAAAAACACGCTCACTATGTAGTAAATCACGTCAAAGATGCTGTTAACCACGTAATTGCTCATAATAAAAATACGACTCATTCCTTATAA	MIKMFVSDIDGTMMQHGGLIDEQDVAALRSLAEQNVILCFASGRLDNEIADLMKAVNTNFHRISVNGVFVYTHENKQLLSATFDSSILPDLLAMTNENPYFRYVSDEHNYYIEEKTPFIQELEQQVTMTSVEEPNLLQKIDDTIFPNKISVGGTKESLQLLQKKIDEKFHGKVSTFISAEQCLDVMPPNVSKGSAISVLLNEFQIKPEEIACIGDSYNDIPMFSLTPHSFAMSQADDAVKKHAHYVVNHVKDAVNHVIAHNKNTTHSL				NA	NA	NA	NA	NA
AK009_02914	678	nagR	COG2188	HTH-type transcriptional repressor NagR	GTGAAACAGCTAATTGAGGACGGCGAATGGAAGCCGGGAGATAAAATCCCATCTGAGAATGAACTTTGTGATAAGTTCGAAGTGAGTCGTATGACAATCAGACAGGCGATTAATAATTTAGTGGAACAAGGCTATTTATATCGGAAGCGTGGAATTGGAACATTTGTCCAACTTCCGAAAGTGGAACAAAAATTGCAAGGAATGACGGGATTCACAGAAGACATGATTTCTCGTGGGATGAACCCAAGTAGTCAATTACTTAGTTTCCGCCTAGTTCCAGCTACTGCTAAAATAGCAGACCGGTTGAGAATACAGGAGGGGGAATCGGTTTATGAAGTGAGGCGTATTCGCTTAGCTGATGATGAACCGATTGCTTTTGAGACGACATATTTGTCGCCAGCTCTTGTAAAAGATATTAACGAAGAGATATTGCAACAATCTTTATATGAACATTTAGAGAAAAAACTGGGCTTTAAACTTGTTAGCGCTACTCAGTCAATTGAAGCTTCTGTTGCAACGGAAAATGAAGCTGAACATCTGCATATTCCTAAAAAGGCGCCTGTACTTGTAATGCGTCAATGGTCATATTCAGAAGGTGAGATACCGCTAGAGTACGTGAAATGTATTTATCGTGGAGATCGTTATAAATTTATTACGAATATTGCACGTAACAAATAG	MKQLIEDGEWKPGDKIPSENELCDKFEVSRMTIRQAINNLVEQGYLYRKRGIGTFVQLPKVEQKLQGMTGFTEDMISRGMNPSSQLLSFRLVPATAKIADRLRIQEGESVYEVRRIRLADDEPIAFETTYLSPALVKDINEEILQQSLYEHLEKKLGFKLVSATQSIEASVATENEAEHLHIPKKAPVLVMRQWSYSEGEIPLEYVKCIYRGDRYKFITNIARNK				NA	NA	NA	NA	NA
AK009_02915	789	nagB	COG0363	Glucosamine-6-phosphate deaminase	ATGAATATTCTTGTTGTAAAAACTCCAGAAGAACTAGCAGAAGTAGGTTATAAATTAATTGAAGAAGTTGTAAAAACAAAAGAAAATCCAACATTAGGAATGGCTACAGGAAGCTCTCCATTAGGTATTTATGCAGAAATGCGAAAAAATAAACTTGATACAAGCCGTGTAACCACTGTAAACTTAGATGAGTACGTAAATTTACCACATGAAGATAAAAACAGCTATCACTATTTCATGCAAGAACAGTTGTTTGATCATCTTCCATTTAAACAAACTTATGTACCAAACGGGATGGCAAGTGATTTAGAGGAAGAATGCAAACGTTACGAGGGCATTCTAGCTGCTAACCCAGTTGACCTACAGATTCTTGGAATCGGTGAAAACGGTCACATCGGATTTAACGAGCCAGGAACACCGTTTAATTCTCCAACGAACATTGTTGAATTAACAGAATCTACACGCCAAGCAAACCTTCGCTTCTTCGAAAAAGAAGAAGATGTGCCAACTCATGCGATTACAATGGGAATTGGAAGCATTATGAAAGCGAAACAAGTTCTACTTGTAGCTATGGGTGCTAAAAAGGCAGAAGCTGTTAAAGAATTATTGCAAGGTGAATATAGTGAAGAGTGTCCGGCTACAGTTTTACAACGTCATCCGAATGTAACCGTAATCGCAGATCAAGAAGCTCTATCTTTATGCAGTGAGGCGATTGCTGATGAACATCGACAAGTATTCACCATTTCCGATCTATTATCAGATTCAAGAGTGGGTGAAACAGCTAATTGA	MNILVVKTPEELAEVGYKLIEEVVKTKENPTLGMATGSSPLGIYAEMRKNKLDTSRVTTVNLDEYVNLPHEDKNSYHYFMQEQLFDHLPFKQTYVPNGMASDLEEECKRYEGILAANPVDLQILGIGENGHIGFNEPGTPFNSPTNIVELTESTRQANLRFFEKEEDVPTHAITMGIGSIMKAKQVLLVAMGAKKAEAVKELLQGEYSEECPATVLQRHPNVTVIADQEALSLCSEAIADEHRQVFTISDLLSDSRVGETAN	PGPT0018865_1545	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
AK009_02916	1143	nagA	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGAAAACGCAAATTGTCATCAATGCCAAAATTTACACAGGTCAAGAAATAGTGGAAAACGGATTTATTCGTTACGCAGAAACCATTAAAGAAATTGGTTTGATGGCTCAATATGTACCACAAGAAAATGAAACTGTTTTTGATGCTACAGGGAAGATTGTAATTCCAGGTATGATCGATGTTCATATTCATGGTGGATACGATATTGATGCGATGGATGCAAATAGCGATGGGTTAGTAACTCTAGGTAAAGAAATGTTAAAAGAAGGGGTTACAACTTACTTCCCAACAACAATGACACAAGCTCCAGAGGCAATTGAAGCAGCGCTAACTGCTGCGAAAGAAGCAAAAGAAAAAGGAGCACATTTCGAATATATTCACTTAGAAGGACCTTATGTTTCAAAGAAACGTGCAGGTGCACAACCACTTGAACATATCGTTCCTGCAAATATTGAGCAATTTAAACAATGGCAAGAAGCAAGTGGGAATTTAATTAAATTAGTAACATATGCACCAGAAGAAGAGGGAGCATTAGAGTTTGAACAATATCTTACTGAAACTGGTGTAGTTGGCACAATGGGGCATACAGATGCAATTGATGCGCAACTAAAAAATAGAAAGATTACACATGCGACACATTTATACAATCAAATGCGTGGATTACATCACCGTGAGCCAGGAGTTGTTGGTCATGTGTTATTAAATCCAGATGTAATGGTTGAAGTAATTACAGATGGTATTCATATTCACCCTGATATGGTGAAATTAGCATATAAGTTAAAAGGACCGAAAAAAGTAAGTGTTATTACTGACGCAATGCGCGCAAAAGGTCTTGAAGATGGATTATATGAGCTTGGCGGACAGCCGGTACATGTAAAAGATGGTAGTGCTCGATTAGAAGATGGAACGTTAGCTGGTAGTATTCTAAAAATGGATCAAGCTTTCCGAAATGTAATTGAATTTACAGGTTGTTCAATCGAAGATGCAGTACTGATGACATCAGTTAACCAAGCAGAAGAGTTTGGATTAAATAATAAAGGTGCATTAGCGGTAGGAAAAGATGCAGACTTTGTTGTGATGAATGAAGATTTACATGTATATGATACGGTTCGTTTAGGAATTCATATGAAGGAAGGGAAGTAA	MKTQIVINAKIYTGQEIVENGFIRYAETIKEIGLMAQYVPQENETVFDATGKIVIPGMIDVHIHGGYDIDAMDANSDGLVTLGKEMLKEGVTTYFPTTMTQAPEAIEAALTAAKEAKEKGAHFEYIHLEGPYVSKKRAGAQPLEHIVPANIEQFKQWQEASGNLIKLVTYAPEEEGALEFEQYLTETGVVGTMGHTDAIDAQLKNRKITHATHLYNQMRGLHHREPGVVGHVLLNPDVMVEVITDGIHIHPDMVKLAYKLKGPKKVSVITDAMRAKGLEDGLYELGGQPVHVKDGSARLEDGTLAGSILKMDQAFRNVIEFTGCSIEDAVLMTSVNQAEEFGLNNKGALAVGKDADFVVMNEDLHVYDTVRLGIHMKEGK	PGPT0018860_2657	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
AK009_02917	903			hypothetical protein	ATGAGAGGTATGCGGATTATTCTATTATTAGTTTCTGTTTTATTATGTTTTTCTTTAAATAGCGCATCAGCTAAAAGGTATATGATGTCCATTCATACTACGTCTCCTTTACATATGCATCGGCAACATCTTAGTAAAATGAAAGTGAGCTTTTTAAAAGTGGGGCAAGGTGATGCAACACTTATCATAATGCCAAACGGACAAACAATGTTAATTGATGGAGGACCTTATGAAGCAGGAGAGGTTATTATTCAGAAATTAATTGAGAAAGGGATTAATCATTTAGATGTAATTGTCAGTACGCATCCCGATATGGATCATATAGGGGGGCTAATTCCAATTGTAGAGCAAATGCCGGTATCGCTTATATTAGATAGCGGAAAAACATATAGTTCTCTTACTTATCATACATATCGGAATAATATTAAAAAAAGAGGGATACCTTTCGTTTCAGTAAAGGAAGGGCAATATATACCGCTGGATCCACATGTTTCTATACAAGTATTAAACAATGGGAAATCAAAAGATGAAAATAATGAATCCTCAATTGTTTTGAAGGTACGATATGGAAAAGCGGATTTTTTATTAATGGGTGACGCGGATGTACGGACAGAACATGAAATATTAAAACAATTTGATGTACATGCAGATGTTTTAAAAGTGGGGCATCACGGCTCGTATACTTCAACAAGTGAAACGTTTATAAAAAAAGTGGAACCGCAGTTTGCTATTCTGTCTTATGGGAGTAGTAATCCGTATGGACATCCTCACCAAAGTGTAGTAAAACGCTTAAAAAGGCACGGTATAATGGTATATAGAACGAATAAACGTACAGTAGAAATAGAAACAGATGGTGAACATGTTATGTTAGAGTCTAGTGGGTTAATGCCATTGTTGAAGTGA	MRGMRIILLLVSVLLCFSLNSASAKRYMMSIHTTSPLHMHRQHLSKMKVSFLKVGQGDATLIIMPNGQTMLIDGGPYEAGEVIIQKLIEKGINHLDVIVSTHPDMDHIGGLIPIVEQMPVSLILDSGKTYSSLTYHTYRNNIKKRGIPFVSVKEGQYIPLDPHVSIQVLNNGKSKDENNESSIVLKVRYGKADFLLMGDADVRTEHEILKQFDVHADVLKVGHHGSYTSTSETFIKKVEPQFAILSYGSSNPYGHPHQSVVKRLKRHGIMVYRTNKRTVEIETDGEHVMLESSGLMPLLK	PGPT0029415_5325	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
AK009_02918	573	scpB	COG1386	Segregation and condensation protein B	ATGGATAGGAAAGAACAAAAGTCAATTATTGAAGGCCTTTTATTTGTTTCTGGTGATGAAGGGATTTATCCAGAACAAATAGCGAAAGTTCTTGAAATTGAAATGAATGAAGTAATGAATATTTTAGAAGAAATGCAACAAGAATGTGAAGGTGCAAACCGTGGTTTGCAAATTGTACAGTATGCAAAAGTATATCGTTTTGCTACAAAGAAAGAACATGCTTCATATTATCAAAAACTAATAGATACACCAACAGCTGCTTCGCTCTCACAAGCTGCCCTTGAAACGTTAGCGATTGTTGCATATCGTCAACCAATCACAAGGACTGAAATGGAAGAGATTAGAGGAGTTAAAACCGATAAGGCGTTACAAACGTTGGTTTCCCATTTACTTATAAAAGAAATGGGAAGGGCGGAAGGACCAGGGCGTCCTATTTTATACGGAACAACAAAAGAATTTTTGGACACATTTGGATTGAAAACATTAGATGATTTACCCCCGCTTTCTGAAGAGAATGAACAAATGAATGAAGCAGATTTATTCTTCGGTTCCTTACAAGAGATATCGAAATAA	MDRKEQKSIIEGLLFVSGDEGIYPEQIAKVLEIEMNEVMNILEEMQQECEGANRGLQIVQYAKVYRFATKKEHASYYQKLIDTPTAASLSQAALETLAIVAYRQPITRTEMEEIRGVKTDKALQTLVSHLLIKEMGRAEGPGRPILYGTTKEFLDTFGLKTLDDLPPLSEENEQMNEADLFFGSLQEISK				NA	NA	NA	NA	NA
AK009_02919	744	scpA	COG1354	Segregation and condensation protein A	GTGCAATATAATTTTAAAGTAGAGGCTTTTGAAGGGCCTTTAGATCTATTGTTACATTTAATACATCGTTATGAAATTGATATATATAATATTCCTGTAGCAGATATTACAGAGCAATATTTATCTTATGTGCATACGATGAAAGAACTTCAATTAGATGTTGCAAGTGAGTATTTAGTAATGGCCGCAACGTTATTACAAATTAAAAGTAAAATGTTGTTGCCGAAACATGAAGAAGATGTACTTGATAACGGTGATGATTTTATAGATGATCCTCGTCAAGAATTGATGGAGAGGTTAATTGAATATAAGAAATATAAGCAAGTTGCTACTGAGTTAAAAGAAAGAGAACAAGAAAGAGCACAGCTATATACACGTCCACCAATTGACTTTACATCGTTGCAACAAGAAGAGGAGACAAGCTTGCCTCTTGATGTTACGTTATATGATATGCTAGCGGCATTTCAAAAATTAATGCGCCGTAAAAAGGCAAAAAAACCTGTAACAACACGTATTACTCGTCAAGAAATACCAATTGAACAGCGAATGACTGATATTTTAAAGCAGTTAAAAATAAAGGGTGGTCGCCAAAGTTTTTATGATTTATTTGTTGATGATGAACGTGAAATAATGGTCGTAACATTTTTAGCAGTTCTGGAACTTATGAAAAATCAACAAATCATAATTGAGCAAGAACATAATTTTGATGAAATTTTCGTATCAAGCTCTAATAAATCTGCATAG	MQYNFKVEAFEGPLDLLLHLIHRYEIDIYNIPVADITEQYLSYVHTMKELQLDVASEYLVMAATLLQIKSKMLLPKHEEDVLDNGDDFIDDPRQELMERLIEYKKYKQVATELKEREQERAQLYTRPPIDFTSLQQEEETSLPLDVTLYDMLAAFQKLMRRKKAKKPVTTRITRQEIPIEQRMTDILKQLKIKGGRQSFYDLFVDDEREIMVVTFLAVLELMKNQQIIIEQEHNFDEIFVSSSNKSA				NA	NA	NA	NA	NA
AK009_02920	96			hypothetical protein	ATGGGTCACGTTGATTGTGGTTTTAGCGGTGGGTTCGCATTACTTGTTGTACTGTTTATTTTACTAATTATTGTAGGAGCAGCTTGCTTCTGCTAA	MGHVDCGFSGGFALLVVLFILLIIVGAACFC	PGPT0024985_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_02921	519			hypothetical protein	ATGTATCCTACCGAATACATACAATTTTTAATTCATTTCCAAGGAGATTACGACTATTTTGAATGCCACGAAATACTAGAAGAGTACTGGAAGACAAAACCACGAGGAAATCGTGATCATTACTTAGTTGGTCTCATTCAAATTGCAGTTTCTTTATACCACCAAAGACGTGATAACTGGAATGGTTCTACAAAAATGATGAAAAGCGCAATCACAATTTTAGAAAAAAGCGGTGTGTCTTTACAACGTTTAGGAATTAATCAAGTACAACTTCTTTCCTTGCTCAATGAAAGATTGCAATCTATCCATAAAAAAGAACGTTTTGTACCTTTATTTTTACCCTTATCAGATCCATCGTTAGAGAAGCAGTGCACAGAGTTATGTCAAAAACAAAACCTCCCTTGGAAAGATTTGAATGCTATCCCAAGTGAATATATTATAAACAAGCATACTATGCGTGATCGCACAGAAGTCATTACTGAACGAAATGAACAATTACAAAAAAGAAAGCAGAGATAA	MYPTEYIQFLIHFQGDYDYFECHEILEEYWKTKPRGNRDHYLVGLIQIAVSLYHQRRDNWNGSTKMMKSAITILEKSGVSLQRLGINQVQLLSLLNERLQSIHKKERFVPLFLPLSDPSLEKQCTELCQKQNLPWKDLNAIPSEYIINKHTMRDRTEVITERNEQLQKRKQR				NA	NA	NA	NA	NA
AK009_02922	369	ribT		Protein RibT	ATGTTAATTCGTTTTAAAAAAAGTTATGAAAAAATTGCAATGGGGCTTCTTTCGTTTATGCCAACTGAAAAAGATGTGAAAACATTACAATTGACAATGAAAGAATATGAAGCAAAAGATGATTGGCAATTGTATTTGTGGAAAGAGAATGAAGATTTTGTTGGAATAATGGGGATTGTAAAAAAAGAGAATCAAGTATTAGAAATTCAGCATTTGAGTGTCAACCCATCTCACCGTCATGTAGGGATTGGGACAAAGATGGTTCAAGAGTTAAAGAGTAAATTTCTTGAGTTTACAATTTGCGGAAATGAGCAAACAGCAAGTTTTTGCGAAAAATGTAAAGGGCTAGAACAAAATATACATTCGTGA	MLIRFKKSYEKIAMGLLSFMPTEKDVKTLQLTMKEYEAKDDWQLYLWKENEDFVGIMGIVKKENQVLEIQHLSVNPSHRHVGIGTKMVQELKSKFLEFTICGNEQTASFCEKCKGLEQNIHS	PGPT0008530_92	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
AK009_02923	438	ppiB	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGAAAACTTTAGGATACATATTAATGGAAAACGGTGAAAAAATCGACTTGGAATTTTTCCCAGAAGAAGCACCGAAAACAGTAGAAAACTTTAAAAAATTAGCAGAGCAAGGATTTTATGATGGTGTTACATTCCACCGTGTTATTCCTGGCTTCGTAAGCCAAGGTGGAGACCCAACAGGTACAGGTGCAGGTGGCCCAGGTTACTCTATTCCATGTGAAACTGATGGAAACCCTCATAGACACCTTGTCGGATCACTTTCTATGGCTCATGCTGGCCGTAACACAGGCGGTAGCCAATTCTTTGTTGTTCATGAGCCACAGCCACATTTAGATGGCGTTCATACTGTATTTGGTAAAGCAACAAGCGGTATTGAAACAGTATTAAAAATGCGTCAAGGCGATGTAATGAAAGAAGTTAAAGTTTGGGAAGAATAA	MKTLGYILMENGEKIDLEFFPEEAPKTVENFKKLAEQGFYDGVTFHRVIPGFVSQGGDPTGTGAGGPGYSIPCETDGNPHRHLVGSLSMAHAGRNTGGSQFFVVHEPQPHLDGVHTVFGKATSGIETVLKMRQGDVMKEVKVWEE	PGPT0015111_4711	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
AK009_02924	867	ypuA	COG4086	putative protein YpuA	GTGAGAACGAAATTATTAGCTCTGCTATTAGCTGTAACGGTATTTATGATGCCAACAGCTTCATTTGCAGACATCATCGAGGGAGAATCAATTGTTACACTAGGAGAGAACTTATCCGAACAACAAAAACAAGATCTGTTAAAAGAAATGAAAGCACCGAAAGATGCTACAATTATTACTGTATCTAATGCGGAAGAACATAAATTTCTAGAAGGCATTGTTCCAAAAGCACAAATTGGTACGAGAGCAATTTCTTCTTCTATGATTACATACACTAAACCAGGATCTGGTCTTATTGTACGATCAAAGAACATTAACTGGGTAACAGATGCAATGTACACTAACGCTTTGATTACAGCAGGTGTAAAAGATGCAGAAATTCAAATTAACGCACCTTTTAAAGTTTCAGGAACTGCAGCTTTAACTGGATTAATGAAAGCATATGAAACTGCGTCCAATAAACAAATTCCTGAAGAAGTTAAAAAAGTAGCGAATGAAGAAATGGTACAAACAGCCCAGCTTGGTGATAAAATTGGTGAAGAAAAAGCAGTTCAACTTGTTGCAAAAATTAAAGAAGAAATTGCAAAAGAACAGCCAAAAACAACAGAAGATTTACGTTCATTAATTAAAAAAATTGCTGATCAATTAGGCATTACATTAACAGATGAACAGTTAGATAACTTAGTATCGTTATTTGATAAAATGAAAAATCTTAATATCGATTGGAATCAAGTTGGTAGTCAATTAAACAAAGCAAAAGAACACGTTTCTGCCTTTTTAGGATCTGAAGAAGGACAAAGTTTTCTAGATAAAGTGAAAGATTTCTTCTCAAGTATCATTGATTTTGTTAAATCTTTATTCAAGTAA	MRTKLLALLLAVTVFMMPTASFADIIEGESIVTLGENLSEQQKQDLLKEMKAPKDATIITVSNAEEHKFLEGIVPKAQIGTRAISSSMITYTKPGSGLIVRSKNINWVTDAMYTNALITAGVKDAEIQINAPFKVSGTAALTGLMKAYETASNKQIPEEVKKVANEEMVQTAQLGDKIGEEKAVQLVAKIKEEIAKEQPKTTEDLRSLIKKIADQLGITLTDEQLDNLVSLFDKMKNLNIDWNQVGSQLNKAKEHVSAFLGSEEGQSFLDKVKDFFSSIIDFVKSLFK				NA	NA	NA	NA	NA
AK009_02925	804	cof_2	COG0561	HMP-PP phosphatase	ATGGAAGGGGAAGAGGACATGATTAAATTATTTGTAAGTGATTTAGATGACACGCTCGTTTACGATGTGAATCATATGCAAAAAGAAGATGAACGTGCGCTGTGTTGGTTAGCTGAGAAAGGGACAAATATTTGTTTTGCCTCTGGCCGCTTTACACATAGAATTGATGAAGTTGTAAAAAGGTTTTCATTCCCATATTACACAACAGGCTTAAATGGAGCGACAATGTTACTTCCGGATGGGGATTTATTCCATGAATCGAGTTTTGAAAATACGGTTGCCCAGGAAATATATCGATATATACATAAAAAAGGACTAGCGGATATTGTTTGTGCAAATGAGCAGCGATATACAAAAAGGAAAAATGAACAACACCATAATTTTGAAGCGTATATGGGTGTGCATATCGCTGAAATTGAAGCGTTAGAAGAAAAGTTTGGTAAGACTGTGCACCCTGCAAAATTGTTTGTTTTTGGAGAAGAAGAGAAAATTGTGACGTTAGATCAAGAGCTACGAGATACGTTTCAAGGCGAAGCGGAAGTTTTTATATCAGGTAAACGCTATGTTGATATTATGCCAAGAGGCGTGAGTAAGGGTAGTGCTCTAAAGCGACTAATGGACCATTTGCAAATTGAAGCAAATGAAGTTGCTTGTATTGGAGATTCTTTCAATGATATTTCTATGTTTGAAGTAACCCCGCATTCATTTACTCTTCATCATGCCCATCCATATGTAAAGGAGAAAGCAAATCATATAGTGCGTTCGGTTGAAGAGGCTGTTATGAAATTACCGTTACTTGTATAA	MEGEEDMIKLFVSDLDDTLVYDVNHMQKEDERALCWLAEKGTNICFASGRFTHRIDEVVKRFSFPYYTTGLNGATMLLPDGDLFHESSFENTVAQEIYRYIHKKGLADIVCANEQRYTKRKNEQHHNFEAYMGVHIAEIEALEEKFGKTVHPAKLFVFGEEEKIVTLDQELRDTFQGEAEVFISGKRYVDIMPRGVSKGSALKRLMDHLQIEANEVACIGDSFNDISMFEVTPHSFTLHHAHPYVKEKANHIVRSVEEAVMKLPLLV				NA	NA	NA	NA	NA
AK009_02926	1473	gerAA_2		Spore germination protein A1	ATGACGAAGCCTAAAAAGGTGGATATCCCTATATCAACTTTCATAAGTGACAATGAAAATTATTTAAAGCAGACAGTTGGACTAGGCGTTACATACGATGTTGGCATTCGTAAATTTCAAATTTTGAATAAAGAAATTGGTGTGTTATTTGTAAACGGACTTTGTGATACAAATTATATTATCCCTATTTTAGAAGAAGCGGTGGATACAAATGAGATAAGGGATGTAGAAGAAGATACAGTGAAGCTTTTAGAGAATCGCTTAATCCATCAACAAGTAAGCAAAGTGAAAACGATGGATGAGGTAATGCTCCAAGTATTATCAGGACTCATTGTGATATTTGTGGAAGGTGAAACGGAAGCGTTCGCGATCGATGTTCGTAGTTATCCAGGGCGAACACCGACAGAACCAGATACCGAAAAGGTAGTACGCGGTGCGAGGGATGGGTTTGTTGAAAATATCGTTGTAAATACAGCATTAATTCGTAGAAGAATTCGAGATCCACGTCTTCGAAATGAAATTATTCGAGTAGGAGATAGATCACAAACGGATATTTGTATTACATACGTTCAAGATGTTGCAAATCCAGACTTAGTAAAGATTATAAAACAAGAATTAAATAACATCGATGTAGATGGAATTACGATGGCGGATAAAACAGTAGAAGAATTTGTTGTAAAGCAAAGCTATAACCCATTCCCACTTATTCGATATACAGAAAGGCCAGATGTAGCAGCAAATCATCTACTAGAAGGGCATGTGTTAGTGCTCGTTGACACATCACCAAGTGCTATGATTACACCGACAACATATTTTCATCATTTACAGCATGCGGAAGAATTTAGACAAAATCCAGCTGTCGGTACATTTTTACGCTGGGTGCGCTTTTTAGGTGTTATATTCTCGTTATTTTTATTACCATTTTGGCTAGTGTTTGTATTTGATCCAACTCTTTTGCCAGCAAATCTTGCTTTTATTGGACCGACTAAGATGACGCATTTACCAATTTTATTACAGGTGTTAATGGCAGAGGTCGGACTTGAGTTTTTAAGGATGGCAGCCATTCATACTCCAACGCCGTTATCGTCTGCAGCAGGGTTGATTTCCGCTATATTAATTGGTCAAATTGCAATTGATGTAGGTTTGTTTGTGCCAGAAGTAATTTTGTATGTAGCGGTTTCGATGATTGGTGCATATGCAACACCGAGTTATGAATTAGGATTAGGGAATAAGGTTGGGAAATTGTTTGTTATTATTTTAACAGGTCTCTTCCATGAGATGGGATTTGTAATTGGTATGACGATATTAATTTTATTTTTAACGTCTATAAAAAGTTTACAAACACCTTATTTATGGCCGTTTTTACCATTTGATTGGGGCGCGTTAACAAAAATTTTACTCCGTCCAACAATGTCTAGTTTAAAAGTACGACCAAGTATTGTAAGACCTCAAAATGTAAAAAGACAAAAATAA	MTKPKKVDIPISTFISDNENYLKQTVGLGVTYDVGIRKFQILNKEIGVLFVNGLCDTNYIIPILEEAVDTNEIRDVEEDTVKLLENRLIHQQVSKVKTMDEVMLQVLSGLIVIFVEGETEAFAIDVRSYPGRTPTEPDTEKVVRGARDGFVENIVVNTALIRRRIRDPRLRNEIIRVGDRSQTDICITYVQDVANPDLVKIIKQELNNIDVDGITMADKTVEEFVVKQSYNPFPLIRYTERPDVAANHLLEGHVLVLVDTSPSAMITPTTYFHHLQHAEEFRQNPAVGTFLRWVRFLGVIFSLFLLPFWLVFVFDPTLLPANLAFIGPTKMTHLPILLQVLMAEVGLEFLRMAAIHTPTPLSSAAGLISAILIGQIAIDVGLFVPEVILYVAVSMIGAYATPSYELGLGNKVGKLFVIILTGLFHEMGFVIGMTILILFLTSIKSLQTPYLWPFLPFDWGALTKILLRPTMSSLKVRPSIVRPQNVKRQK	PGPT0024820_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408	NA	NA
AK009_02927	570			hypothetical protein	ATGAGACGAAGGGTTGTTTTGGTCACAGATGGAGATGAATATGCAAAGCGGACAATTGAGCTTTTAACAAAGGAATTTGGGGGAAGGTGTATTTCAGCATCACAAAGTAATCCAACCAAATTGACAGGGAAAAAAGTTGTTGAGCTTATTATGCAAACGCCATATGACCCTGTATTTGTCATGTTTGATGACAGTGGATTTATTGGAGAAGGATCTGGTGAGAAGGCTTTAAAATATGTGGCTACCCATAAACAAATTGATGTGCTCGGAATTTTAGCAGTAGCGTCTAATACGCATCATTGGGAATGGGCACGTGTAGATGTAAGTGTAGATCGGAATGGGAATTTAACCGAATACGGTGTTGATAAATTTGGACTTCCAGATGGTGAAATTGGCAGGATTAGTGGAGATACAATATATTGCTTAGACGATTTAAATGTTCCTGTCATTGTTGGAGTTGGTGATATTGGTAAAATGTGCGGGAATGATGAATGGGAGAGAGGGTCACCTATTACTAGAAAAGCGATTCAATTAATTTTGGAAAGGAGTGGTTTTTATGACGAAGCCTAA	MRRRVVLVTDGDEYAKRTIELLTKEFGGRCISASQSNPTKLTGKKVVELIMQTPYDPVFVMFDDSGFIGEGSGEKALKYVATHKQIDVLGILAVASNTHHWEWARVDVSVDRNGNLTEYGVDKFGLPDGEIGRISGDTIYCLDDLNVPVIVGVGDIGKMCGNDEWERGSPITRKAIQLILERSGFYDEA	PGPT0024815_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
AK009_02928	351			hypothetical protein	GTGGATTTTATATATGCATTTCTTGTAGGTGGAGCTATTTGTGTAATTGGGCAACTATTGTTAGATTTCGCAAAGTTAACACCAGCTCATTTAATGGCAACTTTTGTAGTCATCGGAGCAATTTTAGATGGATTTGGATTGTACGATAAACTAATAAAGTTTGCAGGTGCTGGAGCAACAGTCCCTATTACAAGTTTTGGACATTCACTATTGCACGGAGCAATGCATGCAGCAGAAAAACATGGATATTTAGGAATTGGTATTGGCATGTTTAGTTTAACGTCTGCGGGCATTTCCGCAGCGATATTGTTTTCGTTTTTTATAGCACTTATATGTAAACCGAAAGGATAA	MDFIYAFLVGGAICVIGQLLLDFAKLTPAHLMATFVVIGAILDGFGLYDKLIKFAGAGATVPITSFGHSLLHGAMHAAEKHGYLGIGIGMFSLTSAGISAAILFSFFIALICKPKG	PGPT0024815_571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
AK009_02929	1017	spoVAD_1		Stage V sporulation protein AD	ATGAGGTTGACCGGAAAACAAACGTGGGTATTTCAAAATGATATATATGTGAATGCAACGGGTACTGCTGTCGGTCCGAAAGAAGCTGAGGGCCCTCTTGGAAAAGATTTTGATATTTCATACGATGACTTGCATTGTGGAGAGGAAAATTGGGAGCTCGCCGAACGAAGATTAATGTCAGACTCAATTCAACAAGCAGTGCAAAAAGGGAATATAAAAACATCGCAAATTGATTTCTTTTTAGCGGGAGATTTATTAAATCAAACAGTGACAGCAAATTATGTTGCGCGTAAGTGGGGCATTCCTTTTTTAGGAATGTTTAGCGCTTGTGCGACGTCTATGGAGACTTTAGCAGTTGGCTCAGCTTTTATAGACGGTGGATTTGCAAATCGTGTCTTAGCTACAGTAAGTAGTCATAATGCAACGGCTGAAAGACAATTTCGCTATCCAACAGAGTATGGTGGGCAAAAGCCAGGGACAGCAAATTCAACTGTGACTGGTGCAGGATCTATATTAATTAGCAATGAAAAAAGTGCGATTAAAATTACGGCGGCTACAATCGGAAAAGTGCAAGATTTAGGAATCACAAATCCTTTGGATATGGGGGCAGCGATGGCTCCAGCAGCAGCTCATACAATTCAACAGCATTTTGAAGATTTAAGAAGAAGTGCCGATGATTATGATTTAATTGTTACGGGTGATTTATCAGCTGTTGGGACGCCGATTGCAAAACAACTTTTACTTGAGGAAGGTTACGATCTTGGGCATATATACAATGATTGCGGATTGATGATTTATGAATCAAGTCAAGAAGAAGTGTTTGCAGGTGGTAGTGGTTGCGCTTGTTCAGCAGTTGTCACATATGGCCATTTATTACACGAGATGCAAAAAGGGAATTTACAACGAATTTTTGTCGTTGCCACTGGCGCATTATTAAGCCCGATGATGATGCAACAGAAAGAAACGATTCCAACAATTGCACATGGTGTCGTATTTGAAAGAGTTAAAGGAGAGTGA	MRLTGKQTWVFQNDIYVNATGTAVGPKEAEGPLGKDFDISYDDLHCGEENWELAERRLMSDSIQQAVQKGNIKTSQIDFFLAGDLLNQTVTANYVARKWGIPFLGMFSACATSMETLAVGSAFIDGGFANRVLATVSSHNATAERQFRYPTEYGGQKPGTANSTVTGAGSILISNEKSAIKITAATIGKVQDLGITNPLDMGAAMAPAAAHTIQQHFEDLRRSADDYDLIVTGDLSAVGTPIAKQLLLEEGYDLGHIYNDCGLMIYESSQEEVFAGGSGCACSAVVTYGHLLHEMQKGNLQRIFVVATGALLSPMMMQQKETIPTIAHGVVFERVKGE	PGPT0024810_278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406	NA	NA
AK009_02930	459			hypothetical protein	ATGACAAGTCAGAAATTGAAGGATGATTACATAAATAAAGTGAAGGAGTATCATCCAAAGCCAAACTATTTACTAAATTGTATCAAAGCATTTCTTGTAGGTGGACTCATTTGTACAGTTGGAGAAGTATTGATGAAATTTTATATACATTATTTTCACTTCAGTGAACAAGAGGCAGGAAACCCAACTGTTGCAACGCTTGTTTTATTATCCGCGATTTTAACAGGATGTGGTGTATATGATAAAATCGGTCAATTTGCTGGAGCAGGATCAGCGGTGCCGGTGACAGGATTTGCAAATTCTATGGCGAGCGCTGCCTTAGAGCATAAGAGTGAAGGGATTGTTCTAGGGATTGCTACAAATATGTTTAAACTGGCAGGAAGTGTAATTGTATTTGGGGTTGTTGGTGCATATATCATTGGGTTAATAAGGTATACCTTTAAAGTTTTTATGTCTTAA	MTSQKLKDDYINKVKEYHPKPNYLLNCIKAFLVGGLICTVGEVLMKFYIHYFHFSEQEAGNPTVATLVLLSAILTGCGVYDKIGQFAGAGSAVPVTGFANSMASAALEHKSEGIVLGIATNMFKLAGSVIVFGVVGAYIIGLIRYTFKVFMS	PGPT0024805_311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405	NA	NA
AK009_02931	417			hypothetical protein	ATGATTGAGTCTGGATTTGTTATTTTAATTGGTTTAGCTGGAGGGATTGCGGTAGGTAGCGGGTATGTCGCATTTTTAGCTGTACTTGGTATAATCCCCCGTTTAGCTCAATTAACGAGAAGTGGAAAGCATATTCAATATTTTGAGTGGGCAGTCATTGCAGGTACTTTAACAGGGGCTTGGTGTAGTTTGAAAAACATTACATTTCAAACATCGCAATATTGGCTCGTTATATTAGGGATATTTTGTGGCACGTTCATTGGAATGCTTGCTGCGGCATTAACAGAGGTGTTAAATGTTCTACCTATTTTAGCGAAACGAGTAGGGGTAGAGGGGAAGATTGTTGTTTTACTCATTGCTATTGTACTTGGGAAAGTAATAGGATCGTTGTTTCACTGGATTTATTTCGTAAAGTAG	MIESGFVILIGLAGGIAVGSGYVAFLAVLGIIPRLAQLTRSGKHIQYFEWAVIAGTLTGAWCSLKNITFQTSQYWLVILGIFCGTFIGMLAAALTEVLNVLPILAKRVGVEGKIVVLLIAIVLGKVIGSLFHWIYFVK	PGPT0024800_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024800-spoVAB-K06404	NA	NA
AK009_02932	621			hypothetical protein	TTGGAACAAACGATTTATATTAAAATGCGCAATCGTTTAAAAGTTTCTCCTACTTATGAAGTAAAGCTGGGCGATGTTGCTCAACTTGCCGGAGATTCTTCTGTAGTTGAGTTGTTACAAAATGAGATAGTTTACAAAATAACAGCGCATGATAAGACGCATGTTGTAATTGATGTTATGAAAGTAATTGAGATTATTCAACAGAAAGCATCTCATGTACAAATTAATTTACTCGGTTCTGGACAAACTCTTGTTGAAATTATATACGAAAAAAAGAAGGCGCATCCAGTTTTTTTCGGGCTTGTATGGCTGTTACTTTTCATTGGAGCGGCCCTTGCGATCATTTATTTCCATGAAGATGTAAGTATGCAACAAGTACATCAACGGTTATATTACATGATTACTGGAGAATTTAATGCGCAACCACTTTTATTTCAAATTCCTTATTCTTTAGGTCTTGGCTTAGGGATGGTTTTATTCTTTAATCATGTATTTCAAAAGCGAATTAATGAAGAGCCAAGTCCGCTAGAAGTTGAGATGTTTCAATACCAACAGTCGCTTGATCAATATGTAATCGTTAATGAAAACAAGGATAATATGAAACAACTTGCCGATGATTGA	MEQTIYIKMRNRLKVSPTYEVKLGDVAQLAGDSSVVELLQNEIVYKITAHDKTHVVIDVMKVIEIIQQKASHVQINLLGSGQTLVEIIYEKKKAHPVFFGLVWLLLFIGAALAIIYFHEDVSMQQVHQRLYYMITGEFNAQPLLFQIPYSLGLGLGMVLFFNHVFQKRINEEPSPLEVEMFQYQQSLDQYVIVNENKDNMKQLADD	PGPT0024795_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024795-spoVAA-K06403	NA	NA
AK009_02933	99			hypothetical protein	ATGAGTGGATCAGCGATTATGATGATGGTTATTGGAATCGTAGTCATTTGGGGAGGGCTTGCATTAAGTATTGCAAACTTATTTAAGAAAAAGGCATAA	MSGSAIMMMVIGIVVIWGGLALSIANLFKKKA				NA	NA	NA	NA	NA
AK009_02934	1527			hypothetical protein	ATGGAAACGAGGCAACAATGGGGAACGAGAGCTGGATTTATTTTCGCAGCGGTCGGATCTGCCGTTGGATTAGGAAACATATGGCGTTTTCCTTATACAGCGTATGAAAATGGCGGCGGGGCATTCTTTTTACCGTACTTATTTGCATTATTAACGACGGGTATTTCATTGTTAGCATTTGAGTTTGCTCTTGGTCATCGTCATCGTGGCTCAGCACCACTTACATTTTTCCGTATTAGCCCGCGTGCCGAATTTATTGGATGGTGGCAAATGTGCGTAACATTTATCGTTTCAACATATTATGCAGTGATTATTGCTTGGTCTATATCGTATACATACTTTGCAATTACTGGAGCATGGGGAAAAGACACGCAATCATTTTTATTTAAAGAGTACTTACATGTTGCAGATAAGCCAGGACAATTTGGAGGACTTGTACCGGAAGTATTAATTCCGTTAGCTCTCGTTTGGATTATTGTGCTTGGCGTTGCATTTAAAGGAGTTAAAAAAGGAATCGAAGTTGTTAACCGTATATTTATTCCTTTATTAGTTGTTATGTTCCTTATTATCGTCGTTCGTGCAGTGACGATGGAAGGTGCTATGCAAGGACTAGATGCATTCTTTAAACCAGATTGGAGTCGTATTTTTGATGGGAAAGTATGGCTTGCTGCTTATGGTCAAATATTCTTTAGTTTATCTTTAGCATTTGGAATTATGATTACGTATTCTAGTTATTTACCGAAAAACTCTGATACAACAAATAATGCCTTTATTACTGGATTCGCAAACTCAGGATTTGAATTATTAGCAGGTATTGGAGTCTTTGCAGCTCTTGGATTTATGGCAAATAATATGGGAGTACCGGTTGATAAAGTAGCAAGTGCTGGCGTTGGACTTGCGTTCGTAGTATTTCCGCAAATTATTAATGAGTTGCCGATGTCACCGTTGTTTGGTGTATTATTTTTCTTATCGTTAACGGTTGCTGGAATCACATCACTTATTTCACTTGCGGAAGTATGCTTTGCCGCTGTATCTGAAAAATTCAGTTTAAGTCGTGAAAAAACCATTGGAATTATGGGAACCCTTCTCGTGTTAGTTTCTCTTGTTTTTGCAACACGTGGTGGACTTATGTTCTTAGATGTTGTCGACTATTTCGCTAATAATTTCGGATTAATTACAATTGCACTTGCGGAAGTAGTTACGATAGGGCTCATTTTACGTCGTTTACCAGTTTATCAAAATCATGCAAACTTTGTATCTGATATTAAATTAGGAACGTTTTGGAGAGTGAGTTTACTCGTTATTACTCCGCTTATGTTAGGGTATATGCTAATTGATGGTACAATCCAAAATATTAAAAAGAACTATGGAGATTATCCGACTGAGTTTGTTGTAACGTATGGTTGGTCGATAGCAGCAGCATTCCTCATAGTTGCAATAATCATTGGTCTGAAAAAATGGGATGCACAAATTCATTCGGACTCTGCCAAACTTGAAAAAGAATGGAAAGATCGAGGTGTTTCATAA	METRQQWGTRAGFIFAAVGSAVGLGNIWRFPYTAYENGGGAFFLPYLFALLTTGISLLAFEFALGHRHRGSAPLTFFRISPRAEFIGWWQMCVTFIVSTYYAVIIAWSISYTYFAITGAWGKDTQSFLFKEYLHVADKPGQFGGLVPEVLIPLALVWIIVLGVAFKGVKKGIEVVNRIFIPLLVVMFLIIVVRAVTMEGAMQGLDAFFKPDWSRIFDGKVWLAAYGQIFFSLSLAFGIMITYSSYLPKNSDTTNNAFITGFANSGFELLAGIGVFAALGFMANNMGVPVDKVASAGVGLAFVVFPQIINELPMSPLFGVLFFLSLTVAGITSLISLAEVCFAAVSEKFSLSREKTIGIMGTLLVLVSLVFATRGGLMFLDVVDYFANNFGLITIALAEVVTIGLILRRLPVYQNHANFVSDIKLGTFWRVSLLVITPLMLGYMLIDGTIQNIKKNYGDYPTEFVVTYGWSIAAAFLIVAIIIGLKKWDAQIHSDSAKLEKEWKDRGVS	PGPT0013950_374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK009_02935	759	sigF	COG1191	RNA polymerase sigma-F factor	ATGGACATAGAGGTCAAAAATGAGAAGAAGAAACCTCAGTTAAAGGACCACGAGCTAAAAGCGTTAATTCAAAAAAGTCAAGATGGAGATCAACAGGCGAGAGATACAATCGTTCAAAGTAATATGCGTCTCGTTTGGTCGGTTGTACAGCGGTTTCTTAATCGAGGATACGAACCAGACGATCTATTTCAAATTGGATGTATTGGGCTCTTGAAATCGGTAGATAAATTTGATTTATCTTTCGACGTGAAATTTTCAACATATGCAGTTCCAATGATTATTGGAGAAATACAACGTTTTTTACGTGATGATGGATCAGTGAAAGTTAGTAGGTCTTTAAAAGAAACAGGGAACAAAATTCGAAAGATGAGAGATGAGCTTTCGAAAGAGTTCGGAAGGGCTCCAACGATTAATGAGGTGGCAGAGGCGCTAGAACTAACGCCAGAGGAAGTTGTTCTAGCACAAGAAGCGAGCCGGGCGCCTTCATCTATACATGAAACTGTATATGAAAACGACGGTGATCCAATCACTATTTTAGATCAAATTGCAGATCAATCTGAAACGAAATGGTTCGATAAAATTGCTTTAAAAGAAGCGATTAGAGAACTAGATGAACGAGAGCGCTTAATTGTATACTTGCGTTACTATAAAGATCAAACACAGTCAGAAGTAGCAGAGCGCATAGGTATTTCGCAAGTACAAGTTTCAAGACTTGAAAAGAAAATATTAAAACAGATGAAAGATCGAATAGACGAATAA	MDIEVKNEKKKPQLKDHELKALIQKSQDGDQQARDTIVQSNMRLVWSVVQRFLNRGYEPDDLFQIGCIGLLKSVDKFDLSFDVKFSTYAVPMIIGEIQRFLRDDGSVKVSRSLKETGNKIRKMRDELSKEFGRAPTINEVAEALELTPEEVVLAQEASRAPSSIHETVYENDGDPITILDQIADQSETKWFDKIALKEAIRELDERERLIVYLRYYKDQTQSEVAERIGISQVQVSRLEKKILKQMKDRIDE	PGPT0014795_539	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
AK009_02936	441	spoIIAB	COG2172	Anti-sigma F factor	ATGAGAAATGAAATGAACCTTCAATTTTCAGCATTAAGTCAAAATGAATCATTCGCTCGCGTTACAGTGGCGGCTTTCATTGCACAACTAGATCCAACGATGGAAGAATTAACGGAGATCAAAACAGTTGTGTCAGAAGCGGTTACAAATGCAATTATTCATGGATACGAAGGAAATGCAGAAGGTATTGTTTATATTTCTGTAATTTTGGAAGAAGCAATGGTGAAACTCACGATTCGAGATGAAGGGATTGGAATCTTTAACTTAGATGAAGCGAGACAACCCCTTTTTACAACTAAACCTGAATTAGAGCGTTCCGGAATGGGATTTACTATCATGGAAAATTTTATGGATGAAGTAGAAGTTATTTCAAACGAATCTTTCGGGACAACAATCCATTTGACAAAATACTTATCAAATAGTAACGCTCTATGCAATTAA	MRNEMNLQFSALSQNESFARVTVAAFIAQLDPTMEELTEIKTVVSEAVTNAIIHGYEGNAEGIVYISVILEEAMVKLTIRDEGIGIFNLDEARQPLFTTKPELERSGMGFTIMENFMDEVEVISNESFGTTIHLTKYLSNSNALCN	PGPT0024660_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024660-spoIIAB-K06379	NA	NA
AK009_02937	351	spoIIAA	COG1366	Anti-sigma F factor antagonist	GTGAGTCTTTCCATGCAATTAGAAGTAAAACGTGACGTCCTATGTGTGAGACTAGAGGGTGAATTAGATCATCATACGGCTGAAGAGTTGCGAACGAAAGTAACAGATATGATTGAGACACATGGTGTTCATCATATTGTTTTGAGCCTAGAGAACTTATCGTTTATGGATAGTTCTGGTCTAGGTGTTATATTAGGCCGATATAAACACGTAAAGGGATTAGGTGGAGAAATGGTTGTTTGTGCAATTTCACCGCCTGTTAAGCGTTTATTTGAAATGTCGGGCTTATTCAAAATCGTTCGCTTAGAAGAAAGTGAAGCGCACGCGCTCGCGACGTTGGGGGTGGCATAG	MSLSMQLEVKRDVLCVRLEGELDHHTAEELRTKVTDMIETHGVHHIVLSLENLSFMDSSGLGVILGRYKHVKGLGGEMVVCAISPPVKRLFEMSGLFKIVRLEESEAHALATLGVA	PGPT0024655_341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378	NA	NA
AK009_02938	1191	dacF	COG1686	D-alanyl-D-alanine carboxypeptidase DacF	ATGAAGCGAGTTTTTGGAATACTTGTTTGTTTCATGTTATTGCTTTCTGGAACTTCAGTGAGTTTTGCGCAATCTGAGAAAACGAAGCAGGAGAAAACAGAAGAAACAACGCCGAAGTTAGCGGAACAAGCGTCGTCAGCAATCGTAATTGAGCAAGATACAGGTAAAGTTTTATTTGATAAAAACCCAAATGAAAAATTACCACCTGCTAGTATGACAAAGATTATGACAATGCTTTTAATTATGGAACAAGTTGAAAAAGGAAAACTAAAACTGACCGATAAAGTTAGAGCGAGCGAACATGCAGCTTCAATGGGTGGATCGCAAATCTTTTTAGAACCTGGGGAAGAGATGACTGTAAATGAGATGTTAAAGGGTATTGCAATTGCATCTGGAAATGACGCATCTGTTGCAGTAGCTGAGCATATCGCAGGTTCAGAAGAAGGATTTGTAAATATGATGAACAAAAAGGCGAAAGATCTAGGGTTGAAAAATACACATTTTCAAAACCCAACAGGTCTTCCGGCCAAAGACCATTATTCGACAGCAAATGATATGGCTATAATGGCGAGAGAATTGATGAAGTATCCACTTATTCGTAAATACACAGGTAAGTACGAAGATTATTTACGTGAAGATACGGATAAAAAGTTTTGGCTCGTTAATACGAATAAGCTAGTACGTTTTTATCCTGGCGTAGATGGAGTAAAAACAGGTTTTACGACAGAAGCGAAATATTGTTTAACAGCATCGGCTCAAAAAAATGGCATGCGTGTCATTTCAGTTGTCATGGGAGCACCAACATCAAAAGAACGGAACAACGAAGTGACGAAGCTTCTTGACTATGCATTTGGACAATATATGACAAAGAAATTGTATACGCGCGGCGAAAAAATTAAGACAGTTCAAGTAGGAAAAGGGAAAAAAGAAAAAATAGATTTAGTTGCGTCAGATAATGTTTCTCTTCTTATGAAGAAGGGGGAGAGTATGGACAAGGTAAAACAAGAAGTAATTGCTGAAAAGAAAGTAAAAGCACCGATTAAAAAAGGTGACGCGCTTGGCACACTTGTTATTAAAAAAGATAAAGATGTTTTATTAAAACAAACAATTGTAGCAAAAGAAGATGTTGCTGCAGCGAGCTGGTGGGAGTTATTTAAAAGAAGTTTTGGGATGTTTTCAACATCAAAATAG	MKRVFGILVCFMLLLSGTSVSFAQSEKTKQEKTEETTPKLAEQASSAIVIEQDTGKVLFDKNPNEKLPPASMTKIMTMLLIMEQVEKGKLKLTDKVRASEHAASMGGSQIFLEPGEEMTVNEMLKGIAIASGNDASVAVAEHIAGSEEGFVNMMNKKAKDLGLKNTHFQNPTGLPAKDHYSTANDMAIMARELMKYPLIRKYTGKYEDYLREDTDKKFWLVNTNKLVRFYPGVDGVKTGFTTEAKYCLTASAQKNGMRVISVVMGAPTSKERNNEVTKLLDYAFGQYMTKKLYTRGEKIKTVQVGKGKKEKIDLVASDNVSLLMKKGESMDKVKQEVIAEKKVKAPIKKGDALGTLVIKKDKDVLLKQTIVAKEDVAAASWWELFKRSFGMFSTSK	PGPT0024040_3266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_02939	420	ytrA_1	COG1725	HTH-type transcriptional repressor YtrA	TTGCATATTCAACTTGACCCAAGAAGCAACACTCCGATATGGGAACAAATTGTTCAAAATATAAAAGAACTCGTATTGAAAAACATGTTGGCTCCAAGTGATAAACTTCCTTCTGTACGCGAGCTCGCTTCTTTACTCGTTATAAATCCAAATACAGTGAGTAAAGCGTATCAAGAGTTAGAGCGACAAGGAATTATTGAAACGTTACGAGGAAAAGGAACATTTGTATCCCAATCGATTACCCCAACATTAGACGAAAGGAAAATCGCTATGGTTGAAAAGCAATTTCATCAATTACTATTAGAAGCCTCTTATCTTGGTATTACGAAAGATAAAATTCATGATTGGATAGATTCATACTATAAAGAGATTGGAGGAAATACGGATGTTGAAAGTGACAAGCTTGAAGAAAACAATTGA	MHIQLDPRSNTPIWEQIVQNIKELVLKNMLAPSDKLPSVRELASLLVINPNTVSKAYQELERQGIIETLRGKGTFVSQSITPTLDERKIAMVEKQFHQLLLEASYLGITKDKIHDWIDSYYKEIGGNTDVESDKLEENN				NA	NA	NA	NA	NA
AK009_02940	882	ytrB_1	COG1131	ABC transporter ATP-binding protein YtrB	ATGTTGAAAGTGACAAGCTTGAAGAAAACAATTGATAATCAAACAATTTTAGACGATGTTTCTTTCACATTACAAAAAGGTAGTATCGTCGGATTACTTGGAAGAAATGGTGCGGGGAAAACAACTTTATTACGAACGATAGTCGGTATTTTAGACCCAGATGAGGGAACTGTTACATATGAGGATATCGACATTCATAAAAATCCTGAAACGAAACAAAAAATCGTATATGTTCCGGATTCTACTAACATACTGAACGGTTATACAGTAAAAGAAATCGTGAAGTTTTATAAAGCAGTTTATACAGCATTTGATGAACCATATTTCTACGAACTACTAGAACGTTTCAATTTACCAAACAAACGAATTCGTAGTTATTCAAAAGGAATGAAAGCACTGCTTGCCATCATTTTAGCTGTTGCTGCACAGGCAGAATATATTATTTTAGATGAACCAACAAACGGACTTGATCCTATCGTTAAAAGACAGATTTTACAGTTTCTCGTTGGAGAAGTTGCAGAAAAAGAGATTACCATTTTCATATCTACCCATCATTTAGATGAAGTTGAACAAATTGCAGATACAATCATTATTTTAAAAGGACATACTGTATCTTCTATTACATCACTAGACGATGCAAAATCACAATTTGCTAAAATCCAAGTAGCCTATGAACGCTCATTACCTCAAAAACTAGAAAACTTAAGCAATATTAAAATATTAAACCAAACGGGAAAAGTATATACAATCTTAATTGAGGGAAATGTAGCTACAACACTGGAGAAGTTTTATAAAGAGCAACCTATACTCATTGAAGAACTAACAATGTCACTTGAAGATGTCTTCGTTACGACACTGGAGGAGGATGGGTATGTTTCATAA	MLKVTSLKKTIDNQTILDDVSFTLQKGSIVGLLGRNGAGKTTLLRTIVGILDPDEGTVTYEDIDIHKNPETKQKIVYVPDSTNILNGYTVKEIVKFYKAVYTAFDEPYFYELLERFNLPNKRIRSYSKGMKALLAIILAVAAQAEYIILDEPTNGLDPIVKRQILQFLVGEVAEKEITIFISTHHLDEVEQIADTIIILKGHTVSSITSLDDAKSQFAKIQVAYERSLPQKLENLSNIKILNQTGKVYTILIEGNVATTLEKFYKEQPILIEELTMSLEDVFVTTLEEDGYVS	PGPT0006725_22191	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_02941	1068			hypothetical protein	ATGTTTCATAAAGCGTTGTGGATGTGGAATTGGAAGCGCGGGAAATATGCTGCGTTACTGTTTTTCTTTAGTTCGCTTTATTTTTTATCTTTCGAATACTATCAAGCAGCAGAAACTCAACAGTCTCTCTTTCTCCATCCAGAAAAAATAGGTGAAGAAAAGTTCTACTATCATTATTCTTTTTATTCTTCTAATAGCTTTTGGTTAGGTATTATTACAATTATCCTATCCTGTATATTGATTGGTTGGGAGCGAAGTAATCAAAGTGGAGATTCACTTATGACATTTCCATTTAAAAGACGTGATATGTTCTTATCGAAGTGGGTTTTCGGTGGATTTTTCATTGTACTATCACTTCTAATCAATTGGGGTCTTATGTATTTTATTTATAAATCTACGATTCACTTTGAATATCAATCTTTCGAACCGTTTCATCGATATTTCCTGTATGCAATTTTCACATATATAGCGATCTATACTGTCTCTTTATGTATTGGTACATTTACTGGCAGTATTATTTCACAAAGCATCTTTAGCATTACTTTTTGCATCATGGGAATGGGAATCTTTTCACTCTTACTCCTATTCTTTACAGCTCATGCTGAGGCAATACAGGGGAATAAAAGTTATACGAATTTCGAAAACATTTATGAATTCAATAAAAAGACCAACATTTCAAGCGCTATATTAGACTTTTCAATTAGTTATAATTACCACCCTACTGCCCAATCAGATGAAGATCATGGAAAAGTAATACAAAGGGGACCTACTTTTCATAGTTATTACTCTGCAAAAATAATACTTGTTCCTATCTTCTATACAATTTTCAGTTTGCTTATTGGGATGTTTCTCTATGCAAGGTCACCTAATGAACATAATAAGAAAATTTTCCTTTTTCCAAAATACAACTCACTCTGGATGTCGTGTACTACCTTTTATTTTGCATTAATAGGTGGGCAAATGTTGAAGCGTTTTGATTTATTATTTAGTTACTATGTTGGGTTCTTTTTATTTGGAATCGTCACTTATTTTATATTATCACGTCTTACAAACTATAAAGTTTTTTAA	MFHKALWMWNWKRGKYAALLFFFSSLYFLSFEYYQAAETQQSLFLHPEKIGEEKFYYHYSFYSSNSFWLGIITIILSCILIGWERSNQSGDSLMTFPFKRRDMFLSKWVFGGFFIVLSLLINWGLMYFIYKSTIHFEYQSFEPFHRYFLYAIFTYIAIYTVSLCIGTFTGSIISQSIFSITFCIMGMGIFSLLLLFFTAHAEAIQGNKSYTNFENIYEFNKKTNISSAILDFSISYNYHPTAQSDEDHGKVIQRGPTFHSYYSAKIILVPIFYTIFSLLIGMFLYARSPNEHNKKIFLFPKYNSLWMSCTTFYFALIGGQMLKRFDLLFSYYVGFFLFGIVTYFILSRLTNYKVF				NA	NA	NA	NA	NA
AK009_02942	1086			hypothetical protein	ATGTTTCAAAAAGTATTATGGATGCATACCTACAAGCAAAGTAAATATATTGTTTGGCTATTTTGGTTAGTAAGTTTTTATGTACTATCCTATAAATACTACTTAGCATCTGCCGAGCAATTAAAATATTTTCATGAACATAATGAATGGAAATATATATACCGATACTATTATCAACTTTCACTTCCCGATGCTATCATGGTTCAAGGAGGACTCCTTATTGCATTAGCCTGCATCCTTATTGGATGGGAGCGTCAAAATCAATCAAGTGACATTCTATGGTCTATGCCATTTAAACGGAAACATCTCTTCATGACGAAATGGCTTTTTGGTGTGTGTAATATTTTAGCTATCGTTATATTGAATTGGGGACTTTTTGCTATTATGAAAAAGGCAACTTTTCATAATAAGTATCAAATATTTTCACCATTTCATACCTATTTCTTATACATGGTTATCATCTTAATTGCTATATATACACTTGCATTATGCATAGGAACAATTGCTGGTAATATGATTTCACAAGGATTCTTCAGTGTTGCTATACTTGGATTCCCTTTTATTTTGCCGACTCTAATTGCCGGAGCTATTTCTATTCATACGGTTGGACTTATTTCTAATCATCCCGTCTATACGGAGGAGAATGTAGATCGTTATGGTTCAGTAATAGAAAAAGTGAGTATTTTAGCGCCAGTTCGCGGATTCAATATTAATTTTAATTACGATCCTCAACGTGCTTATACTGATGAACAAGGCGTACGTCATGATGAACCTAATTTTACGTATATTCCCTCAGCAACAAAACTTATCGGCCCAATCGCAAATGTACTTATTCTATTACCTTTAGGAATGTACTTATATACAAGATCACCTAATGAACAAAATGGGAATTTTCTATTATATCCGAAACTCAAAACACTATGTATGATATGTTGTGTAATCTTTATTGGAATGTTTGGAGGAATGGCAACGGGAGGAAGTCATTCTATCTTAAATTATTATATTGGTTTTATAGGAACCAGTACGATAGTCTACCTACTATTATCTCGCTTATTAAAATTTAAATTTTCTTGGCGTGTGAAATAA	MFQKVLWMHTYKQSKYIVWLFWLVSFYVLSYKYYLASAEQLKYFHEHNEWKYIYRYYYQLSLPDAIMVQGGLLIALACILIGWERQNQSSDILWSMPFKRKHLFMTKWLFGVCNILAIVILNWGLFAIMKKATFHNKYQIFSPFHTYFLYMVIILIAIYTLALCIGTIAGNMISQGFFSVAILGFPFILPTLIAGAISIHTVGLISNHPVYTEENVDRYGSVIEKVSILAPVRGFNINFNYDPQRAYTDEQGVRHDEPNFTYIPSATKLIGPIANVLILLPLGMYLYTRSPNEQNGNFLLYPKLKTLCMICCVIFIGMFGGMATGGSHSILNYYIGFIGTSTIVYLLLSRLLKFKFSWRVK				NA	NA	NA	NA	NA
AK009_02943	546			hypothetical protein	ATGAAATATATTGCTGCACTTACCATTTTATTTGGTAGTTTTTTCTATTTTAAAACATTCACGTACGCAGATACGCCTATCCAAGTGGTGCGAAAAGAAGTGAAGTACATTGAAACTGATAATACAGTTTTATATTCGAAATTATGGGTTCGTTCTATGCAAAACGCAGTATTATTTCACCATAGCGATAATATTCGTAATCGGGACACATTACGTAATGTAACAAGTTCATCGTTTGTTAAAGCGAAGCAACTATCTTTTCAGAAAGCAGCACTTTATATACCGAGACTATCGCAATACGTATCAAAAATAGGGAAAGAAAACATTCAAGTGTACTACATTGCGATTCACTATAATGTGAAAAAAGAAAATGCATATCAATTAGATGGTATGAACTATTTTCTACAAGTATTTGTAAAAGAGCGTGGGGAATGGAAAATTGCCGAAAGTGTAGTTGCACCGACAGAGCAAATTGTGCAAAATGGTGATGGATTTGGGATGAAAGAAGAGATGGTGTATGGGGATAGGAGAGAGAATGTGAAATAA	MKYIAALTILFGSFFYFKTFTYADTPIQVVRKEVKYIETDNTVLYSKLWVRSMQNAVLFHHSDNIRNRDTLRNVTSSSFVKAKQLSFQKAALYIPRLSQYVSKIGKENIQVYYIAIHYNVKKENAYQLDGMNYFLQVFVKERGEWKIAESVVAPTEQIVQNGDGFGMKEEMVYGDRRENVK				NA	NA	NA	NA	NA
AK009_02944	453	mhqR_3	COG1846	HTH-type transcriptional regulator MhqR	ATGTGTAAATATGATAAAAAAGGGACGAGGCTATTGAACGAAAAAAGAGAAACGCTGATTTTAGATTTATCTGCATCATTTCGAAAAATGATACGTTTATTACAAAATGATATTAATACACGTTTTGCAGAACATATGCCATATAATGAATTTTCTGTATTACGTGCGTTATTTTTAAACAGTCCACAGATGGCTTCGCAAATTGCGAGTGAAGTAAACGTAACCTCCAGTCATATTACAGCTGTTACAGATCGACTTGTACGAAAAGGATTAGTAGAAAGAAAACGTTCTAATTCAGATCGTCGTATCGTGTACTTAGAAATTACAGAGCACGGAAGAGAAGTAACTGAAAAACTTGAAGCTGTGCGTAAAGAATATTATAAAGAGAGATTTAAAGGTTGGAGCGACCAAGAAATAGAAATGGTCTTAGAACTATTTGGCCGCGTATTATAA	MCKYDKKGTRLLNEKRETLILDLSASFRKMIRLLQNDINTRFAEHMPYNEFSVLRALFLNSPQMASQIASEVNVTSSHITAVTDRLVRKGLVERKRSNSDRRIVYLEITEHGREVTEKLEAVRKEYYKERFKGWSDQEIEMVLELFGRVL				NA	NA	NA	NA	NA
AK009_02945	672		COG2968	26 kDa periplasmic immunogenic protein	ATGCAGGGTGGAATAAATCCTTATTTACACAACGTACGCACAGCTAATACTGGTAAAGAAGCTACTATTACTGTACAAGGCGAAGGCGTTGTCAAAGCAAAACCAAACGTTGTTATATTAACGCTTGGCATTCGAACTGATAGTAAAAATGTAAAACAAGCGCAGGAAGAAAATGCAGTACAATCAAAACAATTACTGGATGCACTTAAACAGCTTGGTATTGCCGATAAAGATATAGAAACGATTTCTTATACGATCACTCCTCAATACGAATATGTAAATGATAAAGCATTGCTCCAAGGATACCGTGTGGAGCATTTGTATGAAATTACCGTTTTAAATGTACAAAAAGCTGGGGAAGTATATGATATAGCCGTATCAAATGGCGCAAATGTAGCAAAAGGTTTACGTTTCCGAGTATCTCATCCAAATAAATATTATGAGAAGGCTCTCATTCAAGCTCTTCACCAGGCAGTAGAAAAAGCTCGTGCTATTGCGAGTACATATAATCTAAATATTAATCCTGTTCCCCTCTCATTCGTTGAAGAATCTGCCCAATTACCACGGGAGGTTACGTCTTATGCTACTTTACATGCACAAGCAGCCCCGCCCATTCAATCTGGTGAATTAGAAATCATTTCATCCATACGGGCTATTTTTACGTATTTATAA	MQGGINPYLHNVRTANTGKEATITVQGEGVVKAKPNVVILTLGIRTDSKNVKQAQEENAVQSKQLLDALKQLGIADKDIETISYTITPQYEYVNDKALLQGYRVEHLYEITVLNVQKAGEVYDIAVSNGANVAKGLRFRVSHPNKYYEKALIQALHQAVEKARAIASTYNLNINPVPLSFVEESAQLPREVTSYATLHAQAAPPIQSGELEIISSIRAIFTYL	PGPT0012980_2177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
AK009_02946	1290			Nucleobase transporter PlAzg2	ATGAAAGGAATACTTGAAAGAACATTTAAATTAGGTTTACACGAAACATCACCAAAACAAGAAGTTTTAGCTGGAGTTACGTCATTTTTCACAATCGTATATATTATGATTGTAAATGCGTCCATCTTATCAGATGCTGGCATTCCTCTTGAAGCTGGAATTTTAGCAACTGTTTTTAGTTCATTTGTCGGATGTCTACTCATGGCATTTTGGGCAAATGCACCTGCTATTCTTGTCCCTGGTATGGGTGTAAATGCATTCTTCACGTACACAGCTGTGCATACGCTTGGACTAACTTGGCAAGAAGCATTAGCTGCTGTCTTTATCTCTGGTATTATTTTTGCAATTGCCGCTTTTACACCAATCGCTCGCGTGCTATCAGTATCAATTCCAAAGTCATTAAAGGAAGCGATTACTGTCGGCATTGGATTATTTTTAGCGTTTATCGGATTGCAAAAAGGTGGTTTAGTCGTTTCGAACCCAAATACTGCTGTGGCAATGGGGAAATTAAGTAATCCTGTCGTTCTTGCGACATTACTTACTCTTATCATTGCACTTGTATTATTTATTCGTAACGTACGTGGAAACTTTTTATGGACGATTGCAATAGGAACTGGTATCTCATGGTTATTTGGTCTTGTGGATACGAGTCAAATGGGAAATAGTTCATTCTCATTCGCTAATTACGGTGATGTGTTTGGAGCTATGTCATTTGGGAAACTTTCTTCCTTACCATTTTGGATTGCAACATTCTCTTTAAGCATGGTGCTTATTTTTGAGAACATGGGACTTCTGCACGGTTTATTAGAAGATGATCGTAAATTCCCACGTGCTTACCAAGCCAATGCAATTTCAGCAATGACATGTGGTCTATTTGGCACAAGCCCTACCGTTTCAACAGTAGAAAGTGCCGCAGGTATTACTGCAGGTGGTAAGACAGGTCTGACGTCTATCGTTACTGGGTTGCTATTCTTTGCATCACTGTTTGCTCTTCCATTTGTCAAATTAATTCCTGATAGTGCCATTGCACCAATCTTAATTATTATTGGCGGTCTGATGATTACAAGCATTCAACAAATTCCTCTGAACGACTTTTCAGAAGGATTTCCAGCATTCTTAATTATCGTTATGATCCCGCTCACATATAGTATCGCTGATGGCATTGCGTTCGGATTTATTGCTTACCCTATCTTAAAAGTTGCTCTTGGAAAGCGTAAAGAAGTCGCACCATCTATGTATATCATTACATGCTTATTCTTAGCTATGTTTGTATTACATGCTATTGGTTAA	MKGILERTFKLGLHETSPKQEVLAGVTSFFTIVYIMIVNASILSDAGIPLEAGILATVFSSFVGCLLMAFWANAPAILVPGMGVNAFFTYTAVHTLGLTWQEALAAVFISGIIFAIAAFTPIARVLSVSIPKSLKEAITVGIGLFLAFIGLQKGGLVVSNPNTAVAMGKLSNPVVLATLLTLIIALVLFIRNVRGNFLWTIAIGTGISWLFGLVDTSQMGNSSFSFANYGDVFGAMSFGKLSSLPFWIATFSLSMVLIFENMGLLHGLLEDDRKFPRAYQANAISAMTCGLFGTSPTVSTVESAAGITAGGKTGLTSIVTGLLFFASLFALPFVKLIPDSAIAPILIIIGGLMITSIQQIPLNDFSEGFPAFLIIVMIPLTYSIADGIAFGFIAYPILKVALGKRKEVAPSMYIITCLFLAMFVLHAIG	PGPT0007325_5466	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
AK009_02947	963	corA_2	COG0598	Cobalt/magnesium transport protein CorA	ATGGGTGAAATTATGATTAGAATTTGTGCAGTAACAAAAACAGATGAAGTATTATATGATGTTTCTCTAGAAGAAACAAAGAAAGACCATATTGTATGGTATTGGCTAGATTTATATAAGCCAACGAAAGAAGAGTATACATATATTCTGCAAGACCATTTTAAGTTCCATCCCCTTGCAATTGAAGACTGTCTAGAATATGTACAGAGACCAAAAGTTGATTTTTATGATGGATATAACTTTTTAGTTCTTCACGCGTTTGGAGAAGATGGGCTAGAACCACATGAAATTGATTTGTTTGTTAGTGATCGCTATATTGTTTCTTTCCATTTTTCTCATAATAATGCAATTGAAAGAGTATGGAAAACACTTGGTGAGAAGAGGCGGATTAAGAAAGGACCTTTACATGTAGCACATACAATCACTGATCAAATTGTAGATGATTATTTCGCACCTGTATATTACATTGAAGATCATTTAAATGCGATTGATGATAATTTAACAGGTGAGACAGCAGGAGCCGTGCTAGAAGAAGTATTTGATATTAGGGCAGATTTATCTAAGTTAAGACGTACAATTATTCCAATGCGTGATTTATTGTATCGTATTTTGAATTCCACTCGTTTTTACGGTATAAGTGATCATGAGATTTATTTTAAAGATATACATGATCATTTACTTAAACTTACGGAAATGATTGAGGCAAGTCGAGAGTTAACGGCGGATATTCGGGATAGTTATTTTTCATTAAACTCACATCATATGAATAACATTATGAAAACATTAACTGTATTCTCGACTATTTTCATGCCATTAACATTTATTGCGGGAGTATATGGAATGAACTTTACGCATATGCCAGAGCTTGGTGGACAATATAGTTATTTTATTTGTCTTCTTCTAATGGCATTAATTGGCGGCGGAATGATGGCATGGTTTTATAAAAAAGGATGGTTTAAGTAA	MGEIMIRICAVTKTDEVLYDVSLEETKKDHIVWYWLDLYKPTKEEYTYILQDHFKFHPLAIEDCLEYVQRPKVDFYDGYNFLVLHAFGEDGLEPHEIDLFVSDRYIVSFHFSHNNAIERVWKTLGEKRRIKKGPLHVAHTITDQIVDDYFAPVYYIEDHLNAIDDNLTGETAGAVLEEVFDIRADLSKLRRTIIPMRDLLYRILNSTRFYGISDHEIYFKDIHDHLLKLTEMIEASRELTADIRDSYFSLNSHHMNNIMKTLTVFSTIFMPLTFIAGVYGMNFTHMPELGGQYSYFICLLLMALIGGGMMAWFYKKGWFK	PGPT0014010_3466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK009_02948	1305	pdp_2		Pyrimidine-nucleoside phosphorylase	ATGAGAATGGTGGACCTAATTGCAAAAAAACGTGACGGACATGCATTAACGACAGAAGAAATTAACTTTATTGTTGAAGGATATACAAATGGTGATATTCCTGATTATCAAGTAAGTTCACTTGCAATGGCAATTTTCTTCCAAGATATGAACGATCAAGAGCGTGCTGATTTAACGATGGCAATGGTAAATAGCGGCGATACAATTGACTTATCAGCTATTGAAGGTGTAAAAGTAGATAAGCATTCGACAGGTGGTGTTGGTGATACAACGACACTTGTATTAGGTCCATTAGTAGCTGCTTTAGACGTACCAGTAGCGAAAATGTCTGGACGCGGTTTAGGACATACTGGTGGTACAATTGATAAATTAGAAGCAGTTCCAGGATTCCATGTGGAAATTGAAAACGATGAATTCATGCGACTTGTAAATGAAAACAAAATCGCTGTTATCGGCCAAAGTGGTAACTTAACACCTGCTGATAAAAAGTTATATGCACTTCGTGACGTAACAGCAACAGTAAACTCAATTCCGCTTATTGCAAGTTCGATTATGAGTAAAAAAATTGCTGCTGGTGCAGATGCAATTGTTCTTGATGTAAAAACTGGAGCAGGTGCATTTATGAAAACGGATGAAGATGCAAAACGTTTAGCAGAAGCAATGGTACGCATCGGTAATAACGTTGGTCGTAATACGATGGCAGTTATTTCTGATATGAGTCAACCACTCGGTGAAGCTATCGGTAACGCACTAGAAGTACAAGAAGCAATTGATACATTACAAGGTAAAGGGCCAAAAGATTTAGAAGAGCTATGTTTAACACTTGGAAGCCAAATGGTGTACCTTGCTGGACAAGCTTCATCTTTAGAAGATGCACGTGAAAAGCTAATTGAAGTAATGAACAACGGAAAAGCGCTAGAATCATTTAAAACGTTCTTATCAGCGCAAGGCGGCGACGCATCTGTTGTTGATGACCCTTCTAAATTGCCACAAGCACAATTTAAAATTGAAGTGGAAGCGAAAGAAGACGGATATGTATCAGAAATCGTTGCAGACGAAATCGGAACAGCAGCAATGCTTTTAGGAGCAGGACGTGCAACGAAAGAGTCAGAAATTGATTTAGCAGTTGGTCTAATGCTGCGCAAAAAAGTAGGCGATAGCGTGAAGCAAGGTGAATCCCTTGTTACAATTTACGCGAACCGCGAAAATGTTGAAGATGTAAAAGCGAAAATTTATGAGAACATGAAGATCTCTAAAGAACACGTAGATGCACCAACTTTAGTACACGGTATCGTAACGAAGTAA	MRMVDLIAKKRDGHALTTEEINFIVEGYTNGDIPDYQVSSLAMAIFFQDMNDQERADLTMAMVNSGDTIDLSAIEGVKVDKHSTGGVGDTTTLVLGPLVAALDVPVAKMSGRGLGHTGGTIDKLEAVPGFHVEIENDEFMRLVNENKIAVIGQSGNLTPADKKLYALRDVTATVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKTDEDAKRLAEAMVRIGNNVGRNTMAVISDMSQPLGEAIGNALEVQEAIDTLQGKGPKDLEELCLTLGSQMVYLAGQASSLEDAREKLIEVMNNGKALESFKTFLSAQGGDASVVDDPSKLPQAQFKIEVEAKEDGYVSEIVADEIGTAAMLLGAGRATKESEIDLAVGLMLRKKVGDSVKQGESLVTIYANRENVEDVKAKIYENMKISKEHVDAPTLVHGIVTK	PGPT0021295_417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756	NA	NA
AK009_02949	822	punA		Purine nucleoside phosphorylase 1	ATGAATCGTGAACTTATTACAAAATCAGCTTCATACTTAAAAGAGAAATTTCAAGAGACACCACAAGTAGGACTAATCCTTGGATCAGGACTTGGTGTATTAGCAGACGAAATTGAGAACGCAGTAACAGTACCTTACAGTGAAATCCCTGAGTTCCCAGTATCAACTGTAGAAGGCCATGCAGGTCAACTAGTATTTGGCACACTTCAAGGTGTAACAGTAGTAGCAATGCAAGGACGTTTCCACTTCTATGAAGGATACGACATGCAAAAAGTAACATTCCCAGTTCGTGTTATGAAAGAACTAGGTGTAGAAACGGTTGTTGTAACAAACGCAGCTGGTGGTGTAAATACATCATTCGAGCCAGGCGATCTTATGTTAATTTCAGACCACATTAACTTCATGGGTACGAATCCATTAATCGGACCAAATGATTCTGAAATGGGCGTACGTTTCCCTGATATGTCTACATCATATACAGTAGAACTTCGTGAAATGGCGAAACAAGTTGCAGCAGACTTAAATATTAAAGTACAAGAAGGTGTATACGTTGGAATGACAGGTCCTGTATATGAAACACCTGCTGAAATTCGTATGCTTCGTACACTTGGCGGAGATGCAGTTGGTATGTCAACAGTACCTGAAGTAATTGTAGCACGTCATGCTGGAATGAAAGTATTAGGTATTTCTTGTATTTCAAATATGGCAGCTGGTATTTTAGATCAGCCACTTCATCACGATGAAGTAATTGAAACGACAGAACGTGTTAAAGCTAACTTCTTAGCATTAGTAAAAGCAATCGTAAAACAAATGAAGGGGTGA	MNRELITKSASYLKEKFQETPQVGLILGSGLGVLADEIENAVTVPYSEIPEFPVSTVEGHAGQLVFGTLQGVTVVAMQGRFHFYEGYDMQKVTFPVRVMKELGVETVVVTNAAGGVNTSFEPGDLMLISDHINFMGTNPLIGPNDSEMGVRFPDMSTSYTVELREMAKQVAADLNIKVQEGVYVGMTGPVYETPAEIRMLRTLGGDAVGMSTVPEVIVARHAGMKVLGISCISNMAAGILDQPLHHDEVIETTERVKANFLALVKAIVKQMKG	PGPT0013380_1299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
AK009_02950	1185	deoB	COG1015	Phosphopentomutase	ATGAATAAATATAAACGTATATTCCTAGTCGTAATGGACTCTGTGGGAATCGGTGAAGCACCAGATGCTGAGCAATTTGGTGATTTGGGATCTGACACAATTGGTCACATTGCTGAACATATGAATGGTTTACAAATGCCTAACATGGTGAAATTGGGTCTTGGTAACATTCGTGAAATGAAAGGTATCTCTAAAGTAGAGAAACCACTTGGATATTACACAAAAATGCAAGAGAAATCTACTGGTAAAGATACAATGACAGGTCACTGGGAAATCATGGGCCTTTACATTGATACACCATTCCAAGTGTTCCCGGAAGGATTCCCGAAAGAATTACTTGATGAATTAGAAGAAAAAACAGGCCGTAAAATTATCGGTAATAAGCCAGCTTCTGGAACTGAAATTCTTGATGAACTTGGCCAAGAGCAAATGGAAACCGGCTCTTTAATCGTTTATACTTCTGCTGATAGCGTATTGCAAATTGCAGCACACGAAGAAGTAGTGCCACTTGATGAGTTATATAAAATCTGTAAAATTGCACGTGAATTAACATTAGATGAGAAATACATGGTAGGTCGTGTTATTGCTCGTCCATTCGTTGGTGAACCTGGAAACTTTACACGTACACCAAACCGTCATGATTATGCATTAAAACCATTCGGCCGTACAGTAATGAATGAATTAAAAGATAGTGACTACGATGTAATTGCTATCGGTAAAATCTCTGACATCTATGATGGTGAAGGGGTAACGGAATCACTTCGTACGAAGTCTAACATGGATGGAATGGATAAGCTTGTAGATACATTAAATATGGACTTTACAGGTCTTAGCTTCTTAAACTTAGTTGACTTTGATGCATTATTCGGCCACCGCCGTGATCCACAAGGATACGGAGAGGCTCTGCAAGAATATGATGCACGTCTTCCAGAAGTATTCGCAAAACTACAAGAAGATGATCTATTATTAATTACAGCAGACCACGGTAATGATCCAATTCACCCTGGTACTGACCATACACGTGAATATGTACCATTATTAGCATATAGCCCAAGTATGAAAGAAGGCGGACAAGAGTTACCACTTCGTCAAACATTTGCTGATATTGGTGCAACAGTAGCAGAAAACTTCGGTGTGAAAATGCCAGAATACGGAACAAGCTTCTTAAACGAGCTAAAGAAATAG	MNKYKRIFLVVMDSVGIGEAPDAEQFGDLGSDTIGHIAEHMNGLQMPNMVKLGLGNIREMKGISKVEKPLGYYTKMQEKSTGKDTMTGHWEIMGLYIDTPFQVFPEGFPKELLDELEEKTGRKIIGNKPASGTEILDELGQEQMETGSLIVYTSADSVLQIAAHEEVVPLDELYKICKIARELTLDEKYMVGRVIARPFVGEPGNFTRTPNRHDYALKPFGRTVMNELKDSDYDVIAIGKISDIYDGEGVTESLRTKSNMDGMDKLVDTLNMDFTGLSFLNLVDFDALFGHRRDPQGYGEALQEYDARLPEVFAKLQEDDLLLITADHGNDPIHPGTDHTREYVPLLAYSPSMKEGGQELPLRQTFADIGATVAENFGVKMPEYGTSFLNELKK	PGPT0017440_1374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
AK009_02951	741			hypothetical protein	ATGAAAAAACTGATTATAACTTTATTTATCGCGATGCTAGCGTTGGCTGGCTGTAATACAAACAAAGAAGAACCGAAAAAAGAACAGAAACTTGAAGCTGTAAAAGTAGCAGTCCAAACAAATCCGAAAGAAATTAAACCAGGTGAAAAAACAGAAGTACAAGCACTTGTTACACAAGGGAAAGAAAAAGTAACGGATGCCGATGATGTAAAGTTTGAAATTTGGAAAGATGGCGACGAAAAGCACGAGATGTTAGATGGTAAGCATAAAGGAAAAGGTGTTTATGCAGTAGAGAAAACATTCGAAACGGATGGAGTATACCATATTATCGCTCACACAAATGCACGTGAAATGCACGTTATGCCGGAAGTGAAAGTTGCTGTAGGAAATGCGAAAGTAGAAGATGCGAAAAAAGAAAATAGTGATCACAGTGCAGGACATGGAGATCATAAAAGTGACACAATGATCCATCTTATGGCTGGAGACATAAAGGCAAATGCTGAATCTACAATGAAAGTTCATTTAAAGCAAAAAGAAGAAGCATTAGCTGGTGCTGAAGTACAACTAGAGATTTGGAAAGATGGTGTTGAAAAACACGAATTTATTCCAGCGAAAGAAGGGAATAAAGGAGAGTATGAAACGAAACATACTTTCAAAGAGAACGGTGCTTACAAAGTGAAAGTGCATGTAAGAAAAGGCGAATTGCATGAACATAAAGAAGAAACAATAGAAGTAAAATAA	MKKLIITLFIAMLALAGCNTNKEEPKKEQKLEAVKVAVQTNPKEIKPGEKTEVQALVTQGKEKVTDADDVKFEIWKDGDEKHEMLDGKHKGKGVYAVEKTFETDGVYHIIAHTNAREMHVMPEVKVAVGNAKVEDAKKENSDHSAGHGDHKSDTMIHLMAGDIKANAESTMKVHLKQKEEALAGAEVQLEIWKDGVEKHEFIPAKEGNKGEYETKHTFKENGAYKVKVHVRKGELHEHKEETIEVK				NA	NA	NA	NA	NA
AK009_02952	891	xerD_1		Tyrosine recombinase XerD	GTGGAAGATCAATTAAAAGATTTTATTCATTATATGGTTGTCGAAAAAGGATTAGCAAAGAATACAGTAGTATCTTATGAACGGGATTTAAAAAGCTACGTAAAGTATTTGCAAAATGTGGAACAGACGAAAACTTTTCATGAAGTGACCCGTTTACACATTGTTAACTTTTTGCAGTATTTAAAAGAAAACGGAAAATCTTCGAAAACATTGGCGCGTCATATTGCATCAATTCGTTCGTTCCACCAATTTTTACTTCGTGAACGAGCGGTAGAACACGATCCATCCGTACATATTGAAACGCCGCAAGGGGAACGGAAATTACCAAAAGTATTATCAGTTGATGAAGTAGAGGCGTTACTTCAAACACCAAAAATGACAAGTGCTTTTGGGATACGTGATAAGGCGATGCTAGAGTTACTGTATGCGACAGGACTTCGTGTTTCAGAATTGATTGCACTCAATTTAGAAGATGTACATTTAACGATGGGATTTGTTCGTTGCATAGGGAAAGGGAATAAAGAAAGAATTATTCCACTAGGAAGTTTAGCAACGGAAGCGATTCAAAAGTATATTGAAAAAGGAAGAAGAGAATTAATGGGGAAAAAAGTAGTAGATGCACTCTTTTTAAACCATCATGGTAATCGATTATCAAGACAAGGATTTTGGAAAATATTAAAACGATTAGCGAAAGAAGCAAATATTGAAAAAGAGCTTACACCTCATACGTTGCGTCACTCGTTTGCTACGCACTTATTAGAAAATGGAGCAGATTTACGTGCTGTACAAGAAATGCTTGGTCATGCAGATATTTCAACGACGCAAATCTATACGCACGTTTCAAAAACTAGATTAAAAGATGTATATAAACAGTTTCATCCAAGAGCATAG	MEDQLKDFIHYMVVEKGLAKNTVVSYERDLKSYVKYLQNVEQTKTFHEVTRLHIVNFLQYLKENGKSSKTLARHIASIRSFHQFLLRERAVEHDPSVHIETPQGERKLPKVLSVDEVEALLQTPKMTSAFGIRDKAMLELLYATGLRVSELIALNLEDVHLTMGFVRCIGKGNKERIIPLGSLATEAIQKYIEKGRRELMGKKVVDALFLNHHGNRLSRQGFWKILKRLAKEANIEKELTPHTLRHSFATHLLENGADLRAVQEMLGHADISTTQIYTHVSKTRLKDVYKQFHPRA	PGPT0022000_6626	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_02953	231			hypothetical protein	ATGCGCCGAGCTTTAAAATTAACTTTTGATGGAATAAAAGTATTTTTATTATTTACAAGTTGTACGATTTTGTTTTATTTCGCTATACTATGGATAAATGAAGAATATGAAAGCTATCATCGTTATGAAAAACCTAAAGAAGAGACTGTAGAAAAAGTATCAGGGAATGAAGAACCGGCAAAGGATGCTTTCGTAAATAGAATGATGTTTTTCTATGAAAATGGGGAGTAG	MRRALKLTFDGIKVFLLFTSCTILFYFAILWINEEYESYHRYEKPKEETVEKVSGNEEPAKDAFVNRMMFFYENGE				NA	NA	NA	NA	NA
AK009_02954	456	fur	COG0735	Ferric uptake regulation protein	ATGGAAGAAAGAATTGAACGAATTAAGAAGCAATTACATGCAGCGAGCTATAAATTAACACCGCAACGTGAAGCAACAGTTCGTGTGCTGCTAGAAAATGAAGAAGATCATTTAAGCGCAGAAGATGTTTACCTCCTTGTAAAAGAAAAGTCGCCAGAGATCGGATTAGCAACCGTCTATCGAACTTTAGAACTATTATCTGAGTTAAAAGTTGTCGATAAGATTAACTTCGGAGACGGTGTTTCACGCTATGACTTACGCCAAGAAGGTGCGCAGCGTTTTCACCATCATTTGATTTGTACACAATGTGGTGCTGTACAAGAAATACAAGAAGATTTACTTGGTGAAGTGGAAAGGAAAGTAGAACGAGACTGGAGCTTTAAGGTGAAAGATCATCGTTTAACATTCCATGGGATTTGTAAAAATTGTCAAGAAAATGAAACGGATGAAAAATAA	MEERIERIKKQLHAASYKLTPQREATVRVLLENEEDHLSAEDVYLLVKEKSPEIGLATVYRTLELLSELKVVDKINFGDGVSRYDLRQEGAQRFHHHLICTQCGAVQEIQEDLLGEVERKVERDWSFKVKDHRLTFHGICKNCQENETDEK	PGPT0003880_1607	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
AK009_02955	648	spoIIM	COG1300	Stage II sporulation protein M	ATGTGGCGAAAAAATTGGCAAGACCTTGTAATGTCTCACATACAGGAAAACTCTTCATTATATATATTTAACGCTGTTTTATTATTGATGGGAGTAATATTTGGAGCCATTCTTGTGAATAGTTTACAAATCAATCAAAAACAAGATTTATCATTTTATTTACAACGTTTTTTTGGACAAGTCTCTAAAGGAGAATTTGCCATTGCGGGCGAAATGTTTCGAGAAAGTTACTTTTCGCAATTAAAATACATCGGATTTATTTGGATTTTAGGGATTTCAATTATTGGATTACCACTTATTTTTATTTTATTATTTGTAAAAGGAGTTGTTGTTGGATTTACAGTTGGTTTTTTAGTAAGTCAGCATGGATGGAATGGACTATTATTAGCATTTGTATCTGTTTTGCCACAAAATTTAATTATCATTCCAGTCTTTCTCATTATGACAACCATTGCTGCAAGTTTTTCTTTACGGATGATTAGGCATCAATTTATTAGAAAAATAACCGAGCCACTATTACCATTATTAATCCGGTATACATGTTTCTTTCTTGTAATTGGAGCGGTATTAGCAATGGCTTGTAGTGTGGAGGCTTACGCATCACCAGTTTTAATGAAAGAAGTTGTTGAGGCTATTAATAAAAAATAA	MWRKNWQDLVMSHIQENSSLYIFNAVLLLMGVIFGAILVNSLQINQKQDLSFYLQRFFGQVSKGEFAIAGEMFRESYFSQLKYIGFIWILGISIIGLPLIFILLFVKGVVVGFTVGFLVSQHGWNGLLLAFVSVLPQNLIIIPVFLIMTTIAASFSLRMIRHQFIRKITEPLLPLLIRYTCFFLVIGAVLAMACSVEAYASPVLMKEVVEAINKK	PGPT0024685_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
AK009_02956	552			hypothetical protein	TTGAAACCATTATTATTAGATTTTCCAACATTATTTCAAACTGAACGCTTACAAGTTCGTAAACCATTTCCAGGTGATGGTGCAGAAGTATATGAAGCAATCCAAGCTTCTCTAGAAGACTTAGTACCGTGGGTACCAATTAACGCTGAAACAGAAGAGAGTGCTGAAGAAATTGTTCGCGAAGCTCACGGACAGTTTTTACTTCGTGAAACACTTGATTTTCACTTATACGATAAAGTATCTGGTACATTCATCGGAGCAATTACACTAAAACCTGAAAACTGGGATATTCCAAAGTTTTCACTTCACTTCTGGTTGCATAGCGATTATACAAAACAAGGCTATATGACTGAAGCTGTTAAAGGCGCTATCCAATTCGCCTTTGATAAACTAGGCGCTAGAAGAATTGAAATTCGTACTGATGCAACAAATATAAATGCATGTAGCTTAGCAGAACGTTTAGAATTCATTCTAGAAGGTACAATGGAAAATGATTTCCTAGCACCAGACGGTAGCTTACGTGATGCACGTGTATATGCAAAAATCAATTAA	MKPLLLDFPTLFQTERLQVRKPFPGDGAEVYEAIQASLEDLVPWVPINAETEESAEEIVREAHGQFLLRETLDFHLYDKVSGTFIGAITLKPENWDIPKFSLHFWLHSDYTKQGYMTEAVKGAIQFAFDKLGARRIEIRTDATNINACSLAERLEFILEGTMENDFLAPDGSLRDARVYAKIN				NA	NA	NA	NA	NA
AK009_02957	540	act		Methanol dehydrogenase activator	ATGAGTAATCTTACAGAGAGAACAGTAAAAACTGAGCCGATTTTTGATGGTAGAGTTATAAAAGTTCGTGTTGATGATGTAGTATTACCAAATGGAGAAATGAGTAAACGTGAAATTGTAAATCACCCTGGTGCAGTTGCGATTATTGCTATTACAGATGAGGGGAAAATTGTGCTTGTTGAGCAGTATCGTAAAGCGCTTGAAAAGGCGATTATAGAAATTCCAGCCGGCAAGTTAGAGCCTGGTGAAAAACCAGAGGTAACAGCAGTTCGTGAATTAGAAGAGGAAACAGGATATGTATGTGAAAATATGGAGCTTATTACTTCTTTCTATACATCTCCAGGATTCGCAGATGAAATTTTATATGTATATAAAGCGACAGGTTTGACAAAAAAAGAAAATAAAGCTGAGTTAGATGAAGATGAGTTTGTGGAATTAATGGAAGTATCGTTAGAAGAAGCGATTACTCTTATGAAAAATCTTCGTATTCATGATGCGAAGACGATGTTTGCAGTACAATATTTACAACTACAAAAATAA	MSNLTERTVKTEPIFDGRVIKVRVDDVVLPNGEMSKREIVNHPGAVAIIAITDEGKIVLVEQYRKALEKAIIEIPAGKLEPGEKPEVTAVRELEEETGYVCENMELITSFYTSPGFADEILYVYKATGLTKKENKAELDEDEFVELMEVSLEEAITLMKNLRIHDAKTMFAVQYLQLQK	PGPT0021525_3246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK009_02958	135	mciZ		Cell division inhibitor MciZ	ATGAAAGTTTATATTTTACCAAATCGCATCACGTTAGTCGGAAAAGCATGGCAAATTCGCCATAAGCTAAAACAATATAGCAAAGAGTATACAACTGTACAAGAGTGGATTACAGCAAATAAAATGAAACATTAA	MKVYILPNRITLVGKAWQIRHKLKQYSKEYTTVQEWITANKMKH				NA	NA	NA	NA	NA
AK009_02959	915	iolS_3	COG0667	Aldo-keto reductase IolS	ATGAAAAAACGTCAATTAGGAAACTCAGATTTATTTGTTACAGAAATGGGCCTTGGCTGTATGTCTCTCGGTACATCTGAAACAGAGGCTATGCGTATTGTCGATGAAGCAATCGATTTAGGAATTAATTTTTTTGATACAGCAGATTTATATGATTACGGATTAAATGAAGAATTTGTTGGAAAAGCCTTGAAGGGGAAACGAGACAAAATTGTTCTTACAACGAAGGTTGGAAATCGTTGGACAGAAGAAAAAAACGGCTGGTCTTGGGACCCTTCTAAAGCTTACATAAAGGCTGAAGTAAAAGAAAGTTTACGTAGACTTCAAACTGATTATATTGACCTTTACCAACTTCATGGCGGAACGATTGAAGATCCAATAGATGAAACAATTGAAGCTTTTGAAGAATTGAAAAAAGAAGGTATTATCCGCCATTACGGTATTTCTTCTATACGTCCAAATGTAATCCGTGAATATGCAAAACGCTCAAACATCGTTAGTGTACTAATGGAATATAGCCTTTTAAATCGTCGTCCAGAAGAATGGTTCCCGCTTCTGAATGAATACCAAATTAGCATCATTGCTCGCGGACCACTTGCAAAAGGAATTTTAACTGATAACAATGCAAGAAAAATAGAAAGAGTAAAGGAAAAGGATTACCTCTCTTATTCTTACGATGAATTACATACAACTCTAGCGAGTGTAAAAGAAACGATTGGAGAAAGCTCTTTAACAGGAACAGCTATTCAATATTGCTTACATAATAAGACTGTTGCAGCTGTTATACCTGGCGCAAGCTCTCTTCAACAATTGCAGGAAAATATACGAGCTAGCCAACAGTTACCTTTAACTAAAGAAGAATATGTACAACTTCAAAAAATTATTAAATATGACACATATGCTTTGCATCGTTAA	MKKRQLGNSDLFVTEMGLGCMSLGTSETEAMRIVDEAIDLGINFFDTADLYDYGLNEEFVGKALKGKRDKIVLTTKVGNRWTEEKNGWSWDPSKAYIKAEVKESLRRLQTDYIDLYQLHGGTIEDPIDETIEAFEELKKEGIIRHYGISSIRPNVIREYAKRSNIVSVLMEYSLLNRRPEEWFPLLNEYQISIIARGPLAKGILTDNNARKIERVKEKDYLSYSYDELHTTLASVKETIGESSLTGTAIQYCLHNKTVAAVIPGASSLQQLQENIRASQQLPLTKEEYVQLQKIIKYDTYALHR	PGPT0017540_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
AK009_02960	828	ytbE_1	COG0656	putative oxidoreductase YtbE	GTGTATATTCCAACAACTACACTTCATAATGGCGTGAAAATGCCGATGATTGGTCTAGGCGTTTATAAAGCAAAAGAAGGCGACGAAGTAAAACAAGCAGTAAAAACAGCGTTAGAAGTTGGATACCGTTCGATTGATACAGCAACTGTGTATGAAAATGAAAGCGGTGTCGGAGAAGCGATTCGTGAATCAGGAATTCCAAGAGAAGACCTATTTATTACAACAAAAGTTTGGAATGACGATCAAGGATACGAGGAGACACTCGAGGCGTTTGAAAAAAGCTTAAAGAAATTACAAATGGACTATGTAGATTTATATTTAATACATTGGCCAGTAAGAGGGAAGTATGTGGATACGTACCGAGCGTTAGAAAAATTATATGAAGAAGGTAAAGTGCGTGCGATTGGTGTTTCTAATTTTCATAAACATCATTTAGAATTGTTATTACCAAATTGCAAAGTGAAGCCGATGGTGAACCAAGTAGAACTTCATCCGATGTTAACGCAATTTGAATTGCGTAATCATTGTCAAGGTGAGCAAATCCAAATGGAAGCGTGGAGTCCGTTAATGAGGGGCGGAGAAGTATTTCAGCATCCAATCATTCAGGCTATTGCTAACAAATATGAAAAAACACCTGCGCAAGTTATATTAAGATGGGATATTCAAAGCGGGATTGTTACAATTCCTAAATCTGTTACACCATCTCGTATTAAAGAAAACTTTACTATTTTTGATTTCTCACTAACTGAAGAAGAGATAAATCAAATTAACACGTTGAATCGCGATTTACATGTAGGCACAAATCCTGATAAATATGATACGTTATAA	MYIPTTTLHNGVKMPMIGLGVYKAKEGDEVKQAVKTALEVGYRSIDTATVYENESGVGEAIRESGIPREDLFITTKVWNDDQGYEETLEAFEKSLKKLQMDYVDLYLIHWPVRGKYVDTYRALEKLYEEGKVRAIGVSNFHKHHLELLLPNCKVKPMVNQVELHPMLTQFELRNHCQGEQIQMEAWSPLMRGGEVFQHPIIQAIANKYEKTPAQVILRWDIQSGIVTIPKSVTPSRIKENFTIFDFSLTEEEINQINTLNRDLHVGTNPDKYDTL	PGPT0014985_410	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
AK009_02961	525			hypothetical protein	ATGAGGAAAATTGTAGTTGTTCCGCATGAAAATCATTGGAGTGAAAAATTTCAAATGGAGGCTGAAAGATTAAAAACAGCGATGCCAGAAACGGTGAAAATTCATCATATTGGAAGTACGTCAGTGCCAGGACTGGCAGCTAAACCTATTATTGATATGATCATGGAAGTAGAAAGTATTGAAAGGGTAGATAGGTGGAATGAACGATTTATAGAGCTTGGTTACATCGTAAAAGGGGAAAATGGTATTTCAGGACGCCGATTTTTTATCCATGGAACGGAAGAAAAACGTTTGTATCATTTACACGTGTTTGAAAAAGGAAATCCAGAGATAGTAAGGCATTTAGCATTTCGTGATTATATGATGGCTCATTGTGAAGAAGCAGAGGCATATGCAACCTTAAAGAAAGAATTGGCCGAAAAGTATACATATGATGGCACGTTATATACGGAAGGGAAAAATGAGTTTGTGCGCAATGTGGATGAAAAAGCGAAAGAATGGAGAGAAAATAACGTGAATAAATGA	MRKIVVVPHENHWSEKFQMEAERLKTAMPETVKIHHIGSTSVPGLAAKPIIDMIMEVESIERVDRWNERFIELGYIVKGENGISGRRFFIHGTEEKRLYHLHVFEKGNPEIVRHLAFRDYMMAHCEEAEAYATLKKELAEKYTYDGTLYTEGKNEFVRNVDEKAKEWRENNVNK				NA	NA	NA	NA	NA
AK009_02962	264			hypothetical protein	ATGAAGAAAAAGAAACAAAGACAAATGCAAAGACAATCGCAAGTGAATCCACCAAAGAAAGAAACACTTACATTAGGCGATCAATTAAATGATTCACTCATGCAACAATTAAAGAGTAAGAAGAAAGAGTTGCAAGTGAGAGAAGAGGAAAAAGAGGCAGCTGAACTGGAAAGAAAGCGCAAAGAACAAAAAGAACGTGAAAAGAATAAATCATTTGAAGAACTGCTAAGTGAAAGTAACCTTACTTGGAAAGACTTTAAATAA	MKKKKQRQMQRQSQVNPPKKETLTLGDQLNDSLMQQLKSKKKELQVREEEKEAAELERKRKEQKEREKNKSFEELLSESNLTWKDFK				NA	NA	NA	NA	NA
AK009_02963	1590	yhcR_2	COG0737	Endonuclease YhcR	ATGTGGAAAAAAATTATTCCTGCCGTTGCTGTTTTAAGCACTATTACTTTTTCAAGCGTATTTGCCGCTCCCCCATCTCAGAATCCAGCTGAACAAAACCGCTACATAGACGTACAAATGCTTGGTATTAATGATTTCCATGGACAACTAGATACTGTTAAAAAAATTAATAATAAAGAAGCTGGTGGCGCTGATTACTTAGCTACTTATTTAAAAGAACGTAAAAAACAAAACCCTAATACACTTCTCGTACATGCTGGTGATATCGTCGGAGCTAGTCCACCAGTTTCAGCATTATTACAGGATGAACCGACGATTGAATTTTTAAATGATTTAAAATTTGATGTTGGTACAATCGGAAACCATGAATTTGATGAAGGCATTGATGAAATGAAACGCCTCATTTACGGTGGATATCATGAAAAAACAGGGAATTTCAAAGGGGCTAACTTCCCCTATGTAGCTGCTAACTTCTATAACAAATCAACTGGCCGCTTATTTTTACCACCATTTACTGTAAAAATGGTAGATGGTGTTCCTGTAGGATTCATTGGTGTTGTTACAACTGATACACCAAATGTCGTTATGCCTACGATGCTTAAAAATGTACAAATTACTGATGAAGTAGAAGCAATTAATAAATCAACACAACAATTAAAACGCCTCGGCGTTAAATCTATCGTCGTTCTTGCTCATGTCGGTGGAACAACCGATGAGTCTGGGGTAACAAATGGCGACCTTACTCGAATTGCAAATGAAACAGACCCAGAAGTTGATGTTATTTTCGGTGGACATAGTCATACGTATGTAAATGGTACAGTAAATAATAAGCTAATTGTCCAAGCAAATTCTTACGGCACGGCTTTCTCAGACGTGGATGTAACAATTGATCGTAAAACAAAGGATATTATAAAGAAAAAAGCTGAAGTTGTTACAACGTATCATGAAGGTGTAGAACCTGATAAACAAGTAAAGAAAAAACTAGATCAATATAAAGAAAAAATCGCACCACTTGTAAATGAAGTGGTCGGAAAATCTACAGCATCTATCGACCGTAAACAAAATGATGCTGGTGAGTCCACTCTTGGAAATTTAGTTGCCGATGCTCAGCGTCAAACGATGCAAACTCAAATCGCCCTCATGAATCCTGGTGGCATTCGTAATGACTTAGATGCTGGTGATATTACGTGGGGTGAGTTATACGGTATTCAACCTTTTGGAAATCAATTGATTAAAGTAGATTTAACAGGTCAAGACATTCGCGATATTTTAAATCAGCAATGGCAAAAAGGAACAACAAGAATGCTTCAAATTTCAGGTATTCAATATGCGTGGGATGCAAATAAACCAAACGGTGAAAAAGTTACAAATATACGTTTAACAAACGGAGAAGAATTATCTCCATCTAAAACGTATAGCGTAGTTGCAAATGCTTTCTTAGCTTCTGGCGGTGACGGATTCATATCATTTAAAAATGGTAAAAATGCAGAAACTGGTCCAAACGACTTTGAAGCGTTAGTCGATTACGTAAAACAATTAAAAGAACCAATTCAGCCAGTTATTGATGGAAGAATCCAAAAAGTAAATTAA	MWKKIIPAVAVLSTITFSSVFAAPPSQNPAEQNRYIDVQMLGINDFHGQLDTVKKINNKEAGGADYLATYLKERKKQNPNTLLVHAGDIVGASPPVSALLQDEPTIEFLNDLKFDVGTIGNHEFDEGIDEMKRLIYGGYHEKTGNFKGANFPYVAANFYNKSTGRLFLPPFTVKMVDGVPVGFIGVVTTDTPNVVMPTMLKNVQITDEVEAINKSTQQLKRLGVKSIVVLAHVGGTTDESGVTNGDLTRIANETDPEVDVIFGGHSHTYVNGTVNNKLIVQANSYGTAFSDVDVTIDRKTKDIIKKKAEVVTTYHEGVEPDKQVKKKLDQYKEKIAPLVNEVVGKSTASIDRKQNDAGESTLGNLVADAQRQTMQTQIALMNPGGIRNDLDAGDITWGELYGIQPFGNQLIKVDLTGQDIRDILNQQWQKGTTRMLQISGIQYAWDANKPNGEKVTNIRLTNGEELSPSKTYSVVANAFLASGGDGFISFKNGKNAETGPNDFEALVDYVKQLKEPIQPVIDGRIQKVN	PGPT0013395_1638	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
AK009_02964	477			hypothetical protein	GTGACGATTGGAGAAATTATAGATGGTTTAAATAGGCGTGAATCCATCGCTATTATAGCAAAACGTCTTGAAATAAGCCCGTATACATTATCGAAGAAATTAAGATTGATTGGATACGAATATGATGGAGAGCAGAAGAAACGTATTTTTGTAGGAGATGGAGAAGAACCACGTCACTTACAACTCCAAGAAGCGACCGCCCTTCAATATGAGAAAACAGATTATCAATTATTAATTTATGAGCAATTACAAAGTATTTATGAATTATTAAGAAGAAGAGAAGAAGTAATTGCACCAATTATGAGTAAAAGTACAGAGAAAAAGAGACGCACCTTTTCTATTAATACAGAAATATTAGCAAGATTGGACCTTATATCAGAATCGAAAGGAATTCAAAAATCTAAAATTGTAGAAGAGGCGTTGCAACAATTTTTACAGCAATATGAATTTAACAAAACATCACATTTTGATAACTAA	MTIGEIIDGLNRRESIAIIAKRLEISPYTLSKKLRLIGYEYDGEQKKRIFVGDGEEPRHLQLQEATALQYEKTDYQLLIYEQLQSIYELLRRREEVIAPIMSKSTEKKRRTFSINTEILARLDLISESKGIQKSKIVEEALQQFLQQYEFNKTSHFDN				NA	NA	NA	NA	NA
AK009_02965	999	rutD_3		Putative aminoacrylate hydrolase RutD	ATGCTTTTGCGTAGCTATACCCCTCAGTTCTATACTGAAAACAAACAACTCATTCCTAATAGTATCGCTACGATAGAAAGCGTTATGATTAATAATCGAAAACAAACTCTCCTTATGCGTGGGCAAAACGTAGAGCAGCCTATTTTATTATGCTGCCATGGTGGACCCGGCATGGCACAAATCGGATTTATTCGTCATTTTCAAAAAGAATTAGAGAAGCACTTTATTGTTATTAATTGGGATCAGCGCGGGGCGGGTAAATCTTTTTCAATGAAAGATTTCGGAGCAAATTTTACAATCGAACAATTCGTTTCCGATGCAAAAGAAGTGATTCAATATGCACTTAAAAGGTTCAACAAACAAAAACTATTTCTCGCTGGTCATTCTTGGGGAAGTATTATTGGGCTTAACATAGCACATCAATATCCAAAGTATATCGAGGCTTACATCGGTATTGGGCAAATTGTACATATGAAACAAAATGAAGAATTGCTATATCAACATTTAATTAGTTCTGCAAAAAAACATGATCATAAAAAAGCATTAGCTTCCCTTTTAAAATTAGGAAAACCACCATTTTTAGATATGAGACGTCTTATTATTCAAAGAAAGTGGCTTGGCACATTCGGAGGAGCAATCCAAAACGGATCTTCCTTTTCTTTCATACGAAAAGGTTTCTTTTCTCCTGAATATACGCTATTAGATTGGTTCAAGTTTCTCGCAGGAAATTTAAAATCTGGCGTTTTATGGGAAGAAATGCTGACAATCGATTTCTTTTCTTCTATCTCAAGTTTATCTATTCCAGTTTATTTTTGTTCTGGTCGCTATGATTATCAAACTCCTTATGCACTCGTTCAGGAATATTGCGATATTATTGAAGCGCCTATAAAAAAAATGATTTGGTTCCCAAATTCAGCACATTCTCCTGATCTAGAAGAACCAGAATTATTCGCCAATTCTTTGCAATCAATTAAACAAGAGCTAGCTTTTCAGCATTAG	MLLRSYTPQFYTENKQLIPNSIATIESVMINNRKQTLLMRGQNVEQPILLCCHGGPGMAQIGFIRHFQKELEKHFIVINWDQRGAGKSFSMKDFGANFTIEQFVSDAKEVIQYALKRFNKQKLFLAGHSWGSIIGLNIAHQYPKYIEAYIGIGQIVHMKQNEELLYQHLISSAKKHDHKKALASLLKLGKPPFLDMRRLIIQRKWLGTFGGAIQNGSSFSFIRKGFFSPEYTLLDWFKFLAGNLKSGVLWEEMLTIDFFSSISSLSIPVYFCSGRYDYQTPYALVQEYCDIIEAPIKKMIWFPNSAHSPDLEEPELFANSLQSIKQELAFQH				NA	NA	NA	NA	NA
AK009_02966	1320			hypothetical protein	ATGAACGCTGTACTCGTCGCAGTAGCAATTATGCTATTGCTTAGTTTGTTACGTGTCCAGGTCATTGTCGCCATCATTGTTGGAGCTTTAACAGGCGGAATTATCGGCGGACTCGGTATTTCAGAAACGATTAACACTTTTACAACTGGTCTTGGAAACAGTGCTCCAATCGCTTTAAGTTATGCAATGCTTGGTGGTTTCGCTATTTCCCTTTCCAAAACAGGACTTCCAGATGCTATGATTCAAACTGCATTAAAATGGATTGGCAATGAACAAGACACGAAAAAACAAGTTTATTCTAAAATACTTATTTTATTCATTATTTTAACGATGGCTTGTTTCTCACAAAATGTGATTCCTGTTCACATTGCTTTCATCCCCATCTTAATTCCAGCACTTTTAAAAGTATTAAATGAGCTGAAAGTGGATCGAAGACTTGTCACGTGTATTATTACATTTGGATTAATTACTCCTTATATGTGGATCCCTGCAGGGTTCGGAAAAATTTATCATGACGTATTGCAAACCAACGCTGCGCAAAGCGGTCTTACATTTGATGTCACACTTATTCCAAAAGCAATGACTATTCCAGCACTCGGTATGATTATTGGATTATGTGTAGCGGTATTCATTACGTACCGAAAACCTCGTACGTATGAAACAGAACAAATTCATACTACCGAAAATGAGATCGTTCCCTATACAAAACGTAGCATTACTTTCGGGTTATTATCTATCATTGCTACATTAACTGTTCAATTAACAACAGAATCAATGATTTTCGGTGCTTTAGCAGGTATTATCGTCTTATCAGTAAGTGGTAGTCTACCACTTAAAGAAGCAGATGCGATATTAACAAGCGGAATGCGTATGATGTCCTTTATTGGCTTTGTTATGATTGCTGCCGCTGGATTCGGCGCTGTTCTTCGAAAAACAGGACATGTTGAATCTCTGGTGCAAACGAGTGCACATATAATCGGAAATAACAAACCACTCGCTGCATTTCTTATGCTTGTTATTGGACTTCTCGTTACGATGGGAATTGGTTCATCCTTTTCAACCATCCCTATCTTAACAACAATTTTTGTACCTCTGTGCATTCAGCTTGGATTTAGTCCGATGGCTACAATTGCAATTATTGGTACAGCCGGAGCGCTAGGTGACGCAGGATCTCCAGCATCAGATAGTACCCTCGGACCAACATCCGGTTTAAATGCTGATGGTCAGCACCATCATATATGGGATACATGTGTACCCACTTTTCTACATTACAATATACCGTTACTTATATTTGGCTTTATTGCCGCAATTACATTATAA	MNAVLVAVAIMLLLSLLRVQVIVAIIVGALTGGIIGGLGISETINTFTTGLGNSAPIALSYAMLGGFAISLSKTGLPDAMIQTALKWIGNEQDTKKQVYSKILILFIILTMACFSQNVIPVHIAFIPILIPALLKVLNELKVDRRLVTCIITFGLITPYMWIPAGFGKIYHDVLQTNAAQSGLTFDVTLIPKAMTIPALGMIIGLCVAVFITYRKPRTYETEQIHTTENEIVPYTKRSITFGLLSIIATLTVQLTTESMIFGALAGIIVLSVSGSLPLKEADAILTSGMRMMSFIGFVMIAAAGFGAVLRKTGHVESLVQTSAHIIGNNKPLAAFLMLVIGLLVTMGIGSSFSTIPILTTIFVPLCIQLGFSPMATIAIIGTAGALGDAGSPASDSTLGPTSGLNADGQHHHIWDTCVPTFLHYNIPLLIFGFIAAITL	PGPT0020805_639	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
AK009_02967	864	degA	COG1609	HTH-type transcriptional regulator DegA	GTGGCAACTATACGTGATGTTGCAAAATTGGCAGGTGTTTCAGTCGCAACCGTTTCACGAGTTATTAATGAAAAAGGATATGTTCATGAGGACACAGTAAAACAAGTAAAGGAAGCAATTGAAGAATTACGTTATAGGCCAAACAGTGCAGCGAAGCCACTATTTAAAGAGAATTCAACGATAATTGCATTACTTGTAGATAATCTATATGACCCATCAAACATCACTTTGCTACATTGTATTGAGGAAATAGCATATAAAGAAGGATATCAAATCATTGTTTGTAATATAGAGAATAAAGATAGATACATATATATGTTGAAGGAGAATAACGTTGCAGGTGTTATTTTAACAAAATCCGTTTTTAAAAGTATAGGAGAAATTCCATTTCCGTTTGTTGTGATTGATGAGCAACAATCACATGGAAATTATTATGAAAGTGGACAGAGGGCTGTTTCTTTATTAAAAGAGAAAGGGTGTCACTTTCTTGCATATTTCGGTGAGGGAGAAGAAAGTGAAGAAATGGAAGATCATATAGCAGGTTTTTTAGATACTGTTTGGGATGAAGGAATCTCTTATCGAGAAGAATGTGTACAAGGGTATACAAATAAACAGTTTATTACATTATTGCGAAACAATCCGTATATAGATGGAATTGTAACCTCAAGTGATCAGATTGCTATTGAGTTAATTCGGTCAGCAAGATTTGTAAATATACATGTACCAGATAAATTAAAAATTGTTGGACCGAATGGGAGCATAGAGTGTGAATGGATAGGTTCATCACTACCGGCAATTGAAAGCTATGTCAAAGATAACGGAAAAGTAGCTTTTCAACAATTAAAAGGAAAAATAAAAAAGTAA	MATIRDVAKLAGVSVATVSRVINEKGYVHEDTVKQVKEAIEELRYRPNSAAKPLFKENSTIIALLVDNLYDPSNITLLHCIEEIAYKEGYQIIVCNIENKDRYIYMLKENNVAGVILTKSVFKSIGEIPFPFVVIDEQQSHGNYYESGQRAVSLLKEKGCHFLAYFGEGEESEEMEDHIAGFLDTVWDEGISYREECVQGYTNKQFITLLRNNPYIDGIVTSSDQIAIELIRSARFVNIHVPDKLKIVGPNGSIECEWIGSSLPAIESYVKDNGKVAFQQLKGKIKK				NA	NA	NA	NA	NA
AK009_02968	483			hypothetical protein	ATGGTGCATATACAAAAAATTACGCCAACGATGAAAGAAACAATTCGAATGTTTATGTGTGAGAACTGGGGAAGTTCATTGATGGTTTCACGTGGTAAGGGGCATCAATTAGAAGAGTTGCCAGGATTTGTTGCGTTTTCTAATGACAGAATAATCGGAATTATAACGTATGAAGTGACTGGAAATATGTGTGAAATTATATCGTTAGATAGTATTGAAGAAAGAAAAGGAATAGGGAAGAAGCTTGTGGATTGTGTATTGCAAGTTGCAGAAGAAGAACGGTGCAGGCAGGTTTGTCTTATTACAACAAATGATAATATGAATGCGTTACGATTTTACCAAAAACGTAATTTTGTAATGACTAATTTATATGTGAATGCGGTAGAGGAGGCACGAAAAATAAAGAAAGAAATTCCACGTATTGGATATGATAATATCCCAATTTTACATGAAATTCAGTTGGAGTATCGTTTAGTGAAATGA	MVHIQKITPTMKETIRMFMCENWGSSLMVSRGKGHQLEELPGFVAFSNDRIIGIITYEVTGNMCEIISLDSIEERKGIGKKLVDCVLQVAEEERCRQVCLITTNDNMNALRFYQKRNFVMTNLYVNAVEEARKIKKEIPRIGYDNIPILHEIQLEYRLVK				NA	NA	NA	NA	NA
AK009_02969	924			hypothetical protein	ATGAAACGTTTTTTTGCAGCATTGTTTACTGTACTAGGTGCGATAACAGCCCTTGGGATTTTCTTTACAAATAAAGTGATGTATTTAAAGAAAAAAACAGAGGAAGAAGTACTCGAAAGAGAAACGAAAAAACATTTTCGTATAGAAGATTTTGATGCTCTTCATAAAGAAGAAATTCATATTCCTTCACAATTCGGATATGATCTTCACGGCTATTACATTCCTGCTGGTCATTCCAATAAGTTTATGATTTTTTGTCACGGCGTAACTGTAAATAAAATGAACTCTGTAAAATATGCAAGGTTATTTTTAAACAGAGGGTATAATGTCGTTATTTATGATCATCGTCGTCATGGTAAAACTGGCGGAAAAACAACAAGCTATGGATACTATGAAAAACATGATTTAAAATCTGTAGTTGACTGGCTAAAAAGTCGCTTTGGAACAAATATAACACTCGGTATTCATGGTGAATCTATGGGAGCTGCAACACTTCTTCAATACGCAGGACTTGTAGAAGATGGTGCTGATTTCTATATTGCAGATTGTCCTTTCTCTGATTTTCACGGACAATTACAGCACCGTTTAAAGGTTGAATTCCATTTACCAAAATGGCCTTTATTACCTTTAGCAAATGCTTTTTTAAAAGTGCGTGACGGTTATACGATTCGCGAAGTTTCACCAATTGATTGTATAAAAAATATTAACAATCCCGTCCTCTTTATTCATAGTAAAGATGATGATTATATTTTAGCTGATATGACGAAATCACTATATGAAGCAAAAGAAAACAATAAACAACTTTATATTGCAGAACGTGGTGCACACGCTTGCTCTTATAACGAAAATAAAGAAGAGTACGAAGCAGCCATCGATCAATTTTTAAACACATATGTGAAAGAAACAAAAAACAGGCTTGCATAA	MKRFFAALFTVLGAITALGIFFTNKVMYLKKKTEEEVLERETKKHFRIEDFDALHKEEIHIPSQFGYDLHGYYIPAGHSNKFMIFCHGVTVNKMNSVKYARLFLNRGYNVVIYDHRRHGKTGGKTTSYGYYEKHDLKSVVDWLKSRFGTNITLGIHGESMGAATLLQYAGLVEDGADFYIADCPFSDFHGQLQHRLKVEFHLPKWPLLPLANAFLKVRDGYTIREVSPIDCIKNINNPVLFIHSKDDDYILADMTKSLYEAKENNKQLYIAERGAHACSYNENKEEYEAAIDQFLNTYVKETKNRLA				NA	NA	NA	NA	NA
AK009_02970	246			hypothetical protein	ATGGATAAACAATTACATACATTACGAAACATTGCAAATGAGCGCACGTGGGCATCATTTTTGAATGATAATCATCCATATAGTTTGTTACATTGGTCCATTGCAGGTGTAGGGCAAGAGGCAAAGGATGTTTGGTTACTTCAAGATGAAGTAACATTTCAAACGACAGAATTCCCAACGTTAGATGATGCAATGCAATGGATTTCTGAAAATATGGAACAAGTTACAGACGTTTTAGCGCAATAA	MDKQLHTLRNIANERTWASFLNDNHPYSLLHWSIAGVGQEAKDVWLLQDEVTFQTTEFPTLDDAMQWISENMEQVTDVLAQ				NA	NA	NA	NA	NA
AK009_02971	207			hypothetical protein	TTGGCAAAAGTACAAATTAAAGTAAATGATAATGGCTCTTTTCGCGTTACAGGGGACGTGGAATTAGTCGACTCACAAGGGAATGTATTCCCAGCAAAACCGGCATTTTCTTTATGCCGTTGTGGTTTATCAAAAAATATGCCTTATTGCGACGCTTCGCATAAAGGTAAATTCGAGTCTGTTGTTAGAGCACCAGAGGCAGAATAA	MAKVQIKVNDNGSFRVTGDVELVDSQGNVFPAKPAFSLCRCGLSKNMPYCDASHKGKFESVVRAPEAE				NA	NA	NA	NA	NA
AK009_02973	1113	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGACAGATCAAGAATATATGAGGATTGCCCTGCAGTTAGCAGAAGGAACATCAGGACAAACAAGTCCAAATCCTATGGTTGGTGCTGTTGTTGTAAAAGATGGAAACATCGTTGGTATGGGGGCTCATTTACGAGCTGGTGAAGAACACGCAGAAGTTCATGCCCTTCAAATGGCTAGTCAGAACGCCAAAGACGCTACCGTTTATGTAACACTGGAACCGTGTAGCCACTTTGGAAAAACACCACCTTGTTGTGAATTGCTCATCGAAAAAGGAGTTAAGCGTGTGGTAATTGCTACTCTCGATTGTAATCCGCTCGTTTCTGGTAACGGAAAAAGAAGATTAGAGGAAGCTAGAATTGAAGTAACTACCGGTGTTCTTGAAGCAGAAGCAGTTTTATTAAATCGCTACTTTTTTCACTACATGAAAACGAAACGCCCTTTTGTAACAATCAAAACAGCGATGAGCTTAGATGGAAAAATAGCAACTGTAACTGGTGAAAGTAAGTGGATTACAGGTGAAGAAGCACGTGCTGATGTTCACCAATATCGCCATACACATGATGCAATTCTTGTTGGAGTGAATACAGTTATAGCTGATAATCCTCATTTAACAACAAGAATTCCAAATGGTGGGAAACATCCTATTCGCGTTGTTTTAGATACCCATTTACGAACGCCACCATCTTCTCATGTTATAACAGATGGTTTAGCACCGACATGGATTATTGTCGGTAAGGATGTAAAGAAAGAGAAGATATCTTCTTATAATTCTAAAAATATAGCTATATTCCAAATGGAAACGAAGCATATAGAAATCGAGGACCTTCTTTCCTTTCTTGGAGAGAAACAAATTCTTTCTCTATTCGTTGAAGGTGGCCAATCAATTCATGCAAGTTTCTTAAAAACAAACAATTTCAATGAAATTGTAACCTATATAAGCCCGAAATTAATTGGTGGAAAAGATGCTCCTACTTTATTTGGAGGAAATGGTTTTTCAAAATTACAAGATGCGCTTTCCTTGAAAATTCAAGAGATGAAACAAATTGGTGATGATATAAAAATCGTTGCGAATGCCCGAAACGAGGTGACGGAATGTTTACAGGAATTGTAG	MTDQEYMRIALQLAEGTSGQTSPNPMVGAVVVKDGNIVGMGAHLRAGEEHAEVHALQMASQNAKDATVYVTLEPCSHFGKTPPCCELLIEKGVKRVVIATLDCNPLVSGNGKRRLEEARIEVTTGVLEAEAVLLNRYFFHYMKTKRPFVTIKTAMSLDGKIATVTGESKWITGEEARADVHQYRHTHDAILVGVNTVIADNPHLTTRIPNGGKHPIRVVLDTHLRTPPSSHVITDGLAPTWIIVGKDVKKEKISSYNSKNIAIFQMETKHIEIEDLLSFLGEKQILSLFVEGGQSIHASFLKTNNFNEIVTYISPKLIGGKDAPTLFGGNGFSKLQDALSLKIQEMKQIGDDIKIVANARNEVTECLQEL	PGPT0008555_1681	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
AK009_02974	645	ribE	COG0307	Riboflavin synthase	ATGTTTACAGGAATTGTAGAAGAATTAGGAACGATAGCAAACATGCAACAAAGCGGAGAAGCGATGAAATTAACGATTCATGCAAAGAAAATTTTATCAGATGTTCACTTAGGTGATAGTATCGCAGTTAACGGTATTTGCTTAACTGTAACAAACTTTACAACTACTTCATTTACAGTTGATGCAATGCCTGAAACGATGCAGTCGACATCGCTTCGCATGCTTAAACCCCACTCTAAAGTAAATTTAGAGCGGGCAATGTCTGCAAATGGAAGATTCGGTGGACATTTCGTTTCAGGACACATTGATGGCATCGGAACGATTTTAACTAAAAAACAACATTACAATGCCGTCTATTATAAAATAGCAATTTCTGATGAATTGCTACACTATTGTTTGCATAAAGGGTCCATTGCTGTTGATGGAACGAGTTTAACGATATTTGATATAGACGAAGCTTCCATAACGATTTCACTCATCCCGCACACAGTAAGCGAATCTGTCATTGGAGAAAAAAATGCCGGAGATATCGTAAATATTGAGTGTGACATGATTGGTAAATATATCGAACGCTTTATTACTAAACCTGCAAAACGAGTAGGTTCAATGACCGAAAGTTTTTTACAAGAAAACGGATTTCTATAA	MFTGIVEELGTIANMQQSGEAMKLTIHAKKILSDVHLGDSIAVNGICLTVTNFTTTSFTVDAMPETMQSTSLRMLKPHSKVNLERAMSANGRFGGHFVSGHIDGIGTILTKKQHYNAVYYKIAISDELLHYCLHKGSIAVDGTSLTIFDIDEASITISLIPHTVSESVIGEKNAGDIVNIECDMIGKYIERFITKPAKRVGSMTESFLQENGFL	PGPT0008610_1789	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
AK009_02975	1194	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	ATGTTTCATCGTATTGAAGAAGCTCTAGAAGATTTAAAACAAGGTAAAGTCGTTATCGTATGTGATGATGAAAACCGAGAAAATGAAGGCGACTTTATTGCTTTAGCAGAGTACATTACACCGGAAACAATTAATTTTATGATTACACATGGTCGTGGTCTCGTTTGTGTACCGATTACGGAAGGATACGCAGAACGTCTACAATTAGAACCAATGGTATCTCATAATACAGATTCACATCATACTGCGTTTACAGTGAGCATTGACCATGTTTCTACAACAACAGGGATTAGCGCTCACGAACGTGCAACTACGATACAAGAATTGTTAAATCCCGCATCAAAAGGCACTGATTTCAATCGACCTGGACATATCTTTCCATTAATTGCGAAAGAAGGCGGTGTCCTGCGTCGTGCAGGTCATACAGAAGCTGCTGTTGATTTAGCAAAGCTATGCGGTGCCGAACCAGCTGGAGTTATTTGCGAGATTATAAATGAGGACGGCACGATGGCACGTGTACCTGATTTAATAGAATGCGCAAAACAATTTGATATAAAAATGATTACAATAGAAGATTTAATTGCTTACCGCCGCCATCATGAAACACTTGTGACGAGAGAGGTGGAAATTACATTACCTACAGATTTCGGTACTTTCCACGCAATTGGCTATTCTAACTCATTAGATACGAAAGAACATATCGCACTTGTAAAAGGTGATATTTCAATAGGTGAACCGGTACTTGTGCGTGTTCATTCTGAATGCTTAACAGGAGATGTATTCGGTTCACATCGCTGCGATTGCGGACCACAACTCCATGCAGCACTTGCTCAAATTGAGCGTGAAGGAAAAGGTGTTCTTCTTTATATGAGACAAGAAGGAAGAGGCATTGGGCTTCTTAATAAGCTTCGTGCTTATAAATTACAAGAAGAAGGATTCGATACTGTAGAAGCAAATGAAAAACTCGGCTTCCCTGCTGATCTTCGTGATTACGGTATCGGTGCACAAATATTAAAAGATTTAGGTTTACAAAGTTTACGATTATTAACGAATAACCCAAGAAAAATTGCTGGCTTACAAGGTTACGATTTAGAAGTAGTCGAGCGTGTACCGTTGCAAATGCCAGCAAAAGAAGAGAATAAATCGTATTTACAAACGAAAGTAAACAAATTAGGACACTTACTAAACTTATAA	MFHRIEEALEDLKQGKVVIVCDDENRENEGDFIALAEYITPETINFMITHGRGLVCVPITEGYAERLQLEPMVSHNTDSHHTAFTVSIDHVSTTTGISAHERATTIQELLNPASKGTDFNRPGHIFPLIAKEGGVLRRAGHTEAAVDLAKLCGAEPAGVICEIINEDGTMARVPDLIECAKQFDIKMITIEDLIAYRRHHETLVTREVEITLPTDFGTFHAIGYSNSLDTKEHIALVKGDISIGEPVLVRVHSECLTGDVFGSHRCDCGPQLHAALAQIEREGKGVLLYMRQEGRGIGLLNKLRAYKLQEEGFDTVEANEKLGFPADLRDYGIGAQILKDLGLQSLRLLTNNPRKIAGLQGYDLEVVERVPLQMPAKEENKSYLQTKVNKLGHLLNL	PGPT0007990_2292	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
AK009_02976	462	ribH_1	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGGTATTCGAAGGTCATTTGGTTGGTACAGGATTAAAAGTTGGAGTTGTTGTTGGACGTTTTAATGAATTTATTACAAGTAAGTTACTTGGCGGCGCTTTAGACGGATTAAAGCGTCACGGTGTAGAAGAAAATGATATTGATGTTGCTTGGGTTCCTGGTGCATTTGAAATTCCTTTAATCGCTAAAAAGATGGCTAGTAGCGGAAAGTATGATGCTGTTATTACATTAGGTACTGTAATCCGAGGTGCTACAACTCACTACGATTACGTTTGTAATGAAGTAGCAAAAGGTGTTGCGTCTTTATCACTACAAATGGACATCCCAGTTATTTTCGGCGTATTAACGACAGAAACAATTGAACAAGCGATTGAACGCGCAGGTACGAAAGCTGGTAATAAAGGATATGAATCAGCTGTTGCTGCAATTGAAATGGCTCACTTATCAAAACAATGGGCATAA	MVFEGHLVGTGLKVGVVVGRFNEFITSKLLGGALDGLKRHGVEENDIDVAWVPGAFEIPLIAKKMASSGKYDAVITLGTVIRGATTHYDYVCNEVAKGVASLSLQMDIPVIFGVLTTETIEQAIERAGTKAGNKGYESAVAAIEMAHLSKQWA	PGPT0008605_3908	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
AK009_02977	321			hypothetical protein	ATGTACAAATACATATTAGCGATTATGACTTGTTTAATTTTAATAAAAGCAATAAGTTCTGATCCAGTTAAGGCTGCTGAAAATCCTGAACAAAAAGAGATGCAACAAAGAATCGAACAACACTTTCGAACGAAAGCTGAACATTTTGGATTGAAAACGGAAGGAAAAGATTTAAAGGAAGTTAGAAAAGAAATTACTATTATAGAAGAAGCGAAAAAAAGAGAGAATGTATGGAGAACAGCACAAGCTCTTCATATAAAAACAGAAGGAAAAACGATGAATGAATTAATAAAAGATGTACAAAAAAAGGTGAAAAAATAA	MYKYILAIMTCLILIKAISSDPVKAAENPEQKEMQQRIEQHFRTKAEHFGLKTEGKDLKEVRKEITIIEEAKKRENVWRTAQALHIKTEGKTMNELIKDVQKKVKK				NA	NA	NA	NA	NA
AK009_02978	999	bioB		Biotin synthase	ATGAAACAAGTACAAACAAAAAGGGATTGGAAAAAACTTGCATACGACGTAGTGGAAGAAAAGATGATTACGAAAGAAGATGCAATAGCGATATTAGAAGCTGATGATACAGAAGTTTTAGAAATTATGAATGCAGCTTACATTATTCGCCATCATCACTTTGGTAAGAAAGTAAAATTGAATATGATTATTAATACGAAATCTGGATTATGTCCTGAAGATTGTGGATATTGCTCACAGTCTATTATTTCAGAAGCACCAATTGATAAATATGCATGGTTAACGCAGGAGAAAATTGTAGAAGGGGCACATGAAGCAATACGCCGTAAAGCAGGTACATATTGTATTGTAGCGTCTGGTCGTCGTCCGACGGATAAAGAGGTAAATCACGTAATTGGAGCAGTTAAGGAAATTCGTGAAACGACAGACTTGAAGATTTGTTGTTGTTTAGGTTTCTTAAATGAAGATCAAGCAGGACGTTTAGCGGAAGCAGGCGTGCATCGTTATAACCACAACTTAAATACACATGCAAATAATTACGATAGTATTTGTTCAACGCATACGTATGATGATCGTGTTGATACAGTTCAAAAAGCGAAACAAGCTGGTATTTCACCATGCTCTGGAGCGATTTTTGGCATGGGAGAAACAATTGAAGAGCGTGCTGAAATTGCATTTGAATTACAACGTATAGATGCAGATTCTATCCCTTGTAATTTCCTTGTTGCTGTAAAGGGGACACCTCTTGAAGGGCAAAAAGAGTTAACGCCAGTAGAATGTTTAAAAGTACTGGCAATGATGCGTTTTGTAAACCCAACAAAAGAAATTCGTATTTCAGGAGGACGTGAAATCAATTTACGTTCTGTACAGCCAATCGGTTTATTTGCAGCAAATTCTATTTTTGTCGGGGACTACTTAACGACAGCTGGACAAGAGCCGACTGCGGACTGGGGTATGATTGCAGATTTAGGATTTGAGATTGAAGAATGTGCATTATAA	MKQVQTKRDWKKLAYDVVEEKMITKEDAIAILEADDTEVLEIMNAAYIIRHHHFGKKVKLNMIINTKSGLCPEDCGYCSQSIISEAPIDKYAWLTQEKIVEGAHEAIRRKAGTYCIVASGRRPTDKEVNHVIGAVKEIRETTDLKICCCLGFLNEDQAGRLAEAGVHRYNHNLNTHANNYDSICSTHTYDDRVDTVQKAKQAGISPCSGAIFGMGETIEERAEIAFELQRIDADSIPCNFLVAVKGTPLEGQKELTPVECLKVLAMMRFVNPTKEIRISGGREINLRSVQPIGLFAANSIFVGDYLTTAGQEPTADWGMIADLGFEIEECAL	PGPT0022120_2998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
AK009_02979	810	bioC	COG0500	Malonyl-[acyl-carrier protein] O-methyltransferase	ATGATCAACAAAACGTTACTACAAAAACGGTTTAATGGGGCAGCCGTATCTTACGATCGATATGCAAATGTACAAAAAAAGATGGCACATTCATTACTTTCAATCTTAAAGGAACGATATAGTGAAACGGCATCAATACGTATTTTAGAACTGGGATGCGGGACGGGGTATGTAACAGAACAATTATCAAAGTTATTTCCGAAAGCACATATTACAGCAGTTGATTTTGCTGAAAGTATGATTGCGATTGCGCAAACTAGACAAAATGTAAAAAATGTAACGTTTCACTGTGAAGATATTGAGCGATTACGATTAGAAGAATCATATGATGTCATTATTTCAAATGCTACATTTCAATGGTTAAATAATTTACAACAAGTGTTAAGAAATTTATTTCAACATTTGTCTATAGATGGCATATTACTCTTTTCAACGTTTGGACATGAAACATTTCAAGAATTGCATGCTTCGTTCCAACGTGCGAAAGAAGAAAGAAATATAAAAAATGAAACATCGATTGGTCAACGTTTTTATTCAAAAGATCAGTTGCTTCATATATGTAAGATAGAAACAGGGGATGTGCATGTTTCTGAAACATGTTACATAGAGAGTTTTACAGAAGTTAAGGAGTTTCTGCATTCTATTCGAAAAGTAGGAGCAACTAATAGCAATGAAGGATCATATTGTCAAAGTCCCTCACTCTTTCGTGCGATGCTGCGCATATACGAAAGAGACTTCACGGGAAATGAAGGGATAATGGCAACGTATCATGCTTTATTTATGCATATAACAAAAGAGGGGAAGAGATGA	MINKTLLQKRFNGAAVSYDRYANVQKKMAHSLLSILKERYSETASIRILELGCGTGYVTEQLSKLFPKAHITAVDFAESMIAIAQTRQNVKNVTFHCEDIERLRLEESYDVIISNATFQWLNNLQQVLRNLFQHLSIDGILLFSTFGHETFQELHASFQRAKEERNIKNETSIGQRFYSKDQLLHICKIETGDVHVSETCYIESFTEVKEFLHSIRKVGATNSNEGSYCQSPSLFRAMLRIYERDFTGNEGIMATYHALFMHITKEGKR	PGPT0022060_956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022060-bioC-K02169	NA	NA
AK009_02980	741	bioH		Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGAACGAGCTAAAGATTATTTTTATTCCCGGATGGGGAATGGAAGAGAATATTTGGGATTTAGTAATTCCGTATTTTAAAGGATATCCTGTTCAATGCATAGATTGGCGTAATGTGAAAGAACGAAGTGAATTTGCGGAACGAATTATAGATGTAGCGCATAATGACAACGTAATTTTAGTTGGATGGTCACTAGGAGCGTTAGCAGCAGTTGAAGCTTATAAAAAGATTAAGGCAAAAGGCATCGTATTAATTGGTGGTACTGCTAAATTTACAAGTACGAGCGATTACAGTAACGGATGGAATGCTTTGCATGTAGAACGGCTGAAAAGAAATTTGGCGAGAAGGAAAGAAGATACGCTCAAGCGGTTTTATGAAAATATGTTTACGAAAGATGAGCTAAAAGAGAATAAAAACTTTGAAGACATTGTAGACCGTTTTAAAGGTGATTCTATTCAGTCTTTACAACTAGGTTTAGATTATTTAATAGAAACAGATATGAGAGAAGAACTAAAAGAAATTAAAGTACCTATACTACTTATTCACGGAGAACAGGATGTAATATGCCCATTGTCTGCGGCACGTAGTATGACGGAGAATAGCAGCAGCGAGCTGAAAGTAGTAAGTGAAGCAGGGCATGCATTATGTGTAACGAATTTTGAATATTGTGCAAATGAGATAATTCAATTTGTAGAGGGGATACGACATGATCAACAAAACGTTACTACAAAAACGGTTTAA	MNELKIIFIPGWGMEENIWDLVIPYFKGYPVQCIDWRNVKERSEFAERIIDVAHNDNVILVGWSLGALAAVEAYKKIKAKGIVLIGGTAKFTSTSDYSNGWNALHVERLKRNLARRKEDTLKRFYENMFTKDELKENKNFEDIVDRFKGDSIQSLQLGLDYLIETDMREELKEIKVPILLIHGEQDVICPLSAARSMTENSSSELKVVSEAGHALCVTNFEYCANEIIQFVEGIRHDQQNVTTKTV	PGPT0022065_842	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
AK009_02981	1188	bioF_1		8-amino-7-oxononanoate synthase	ATGAATCAAACGTGGCGGGCGCACCTTCAATCTAAATTACAACAATTACATAAGCAAGGGCAGTATCGAAATTTATATGTAACAGAGCAGGCAGAAGAGACTTGGCTTATTCGAGATAAAAAAAGGATGTTAAATTTAGCGTCAAATAATTATTTAGGGTTAGCTGGAGATGAAAGGTTAAAAGAAGCTGCTATTGCCTGTACAAAAAGATATGGAACTGGAGCGACTGCCTCTCGTCTCGTTGTAGGAAATCATCCATTATATGAAGAGGTTGAGAGAAGCATATGTGACTGGAAAGGTACTGAAAGAGCTTTAATTGTAAATAGTGGGTATACGGCAAATATAGGTGCCATATCTTCTTTAGCCTCTCGGCACGATATTGTTTTTAGTGATAAGTTAAATCACGCAAGTATTGTTGATGGAATCATATTAAGCGGGGCAGAGCATAAAAGGTATCGTCATAATGATTTGGATCATTTAGAGAAGCTTTTGAAAATGGCTTCGCCTGAAAAGAGGAAATTAATCGTAACAGATACCGTTTTTAGTATGGATGGTGATACTGCGTATTTGAGAGATTTAGTACAACTGAAAGAGAAATACGGAGCAATCATTATAGTCGATGAAGCACATGCGAGTGGAATATATGGAATCGGCGGAGCTGGATTATCTCACATAGAAAAAAATCTTTCTCAAAAAATTGATATACATATGGGGACGTTTAGCAAGGCTTTAGGGTGTTATGGTGCGTATTTGACAGGTGATGAAATTTATATAGAGTATTTACAAAATATGATGAGAAGCTTTATTTTTACTACAGCTTTACCACCAAGTACGTTAGGAGCGGTGCAAAAAGCAATTGAAATTGTAAAAGAAGATAACGAAAGAAGAGAGAACCTTATAGCAAATGGAGAATACTTCAGAACTAAATTAAGGGATGCTGGTTTTGATATTGGGAATAGTTCAACTCATATTGTACCGATTGTAGTCGGTTCAAATGAACATGCTTTACGGTTTAGTAAAAGGTTGCAAGAGGCAGGGATTGCGGCTATTGCAATTCGTCCGCCAACTGTGCCGGTTCATAGTTCTCGAATTCGCTTTGCAGTTACATCGCAACATACAATAGCTGATTTAAAATGGGCTATTGATCGAATTATTCACATTGCGAAAGAAGAGGAGATTTTCGTATGA	MNQTWRAHLQSKLQQLHKQGQYRNLYVTEQAEETWLIRDKKRMLNLASNNYLGLAGDERLKEAAIACTKRYGTGATASRLVVGNHPLYEEVERSICDWKGTERALIVNSGYTANIGAISSLASRHDIVFSDKLNHASIVDGIILSGAEHKRYRHNDLDHLEKLLKMASPEKRKLIVTDTVFSMDGDTAYLRDLVQLKEKYGAIIIVDEAHASGIYGIGGAGLSHIEKNLSQKIDIHMGTFSKALGCYGAYLTGDEIYIEYLQNMMRSFIFTTALPPSTLGAVQKAIEIVKEDNERRENLIANGEYFRTKLRDAGFDIGNSSTHIVPIVVGSNEHALRFSKRLQEAGIAAIAIRPPTVPVHSSRIRFAVTSQHTIADLKWAIDRIIHIAKEEEIFV	PGPT0022095_1579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
AK009_02982	729	bioD1_1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAGTGGTTTTTTCATAACAGCAACTGATACTGAAGTTGGAAAAACAGTAGTTGCAGGTGCTATAGCAGGTGTATTTAGAGAATTAGGATATAACGTAGGGGTATATAAACCGTTGCAAAGTGGGCATGTTGCATCAAACCCTGAGGGAGATGCGGCAAGGTTAAAAGTATTATCAGGTGTACCGACACAAGAAAATGAAATTTGCCCTTATTCTATTGAAGAACCACTTGCTCCGAGACTTGCCATGAAAAGAGCTGGAAGAGTAGTAAAGTTAAAAGAAATTACTGATTACTATAATGAACTATTAAAAGAGTTTAATAGCTTATTTGTAGAAGGAGCAGGTGGGCTTGCTGTCCCATATACAGAAGATGCTTTAGTAATTGATTTTGCAAAAGAATTACAGTTGCCTCTTATTGTAGTAGCTCGTCCTACATTAGGAACAGTAAATCATACAGTGTTAACGATTGCTTACGCAAAGGCGCATGGCTTAACCGTAGCGGGTGTCATTTTATCAGGTTGCAAAGAATGTGAAATGGAAAGAGTGCAAGAAAATAAAGAGATGATTGAAGAGTTGAGCGGGGTACCAGTTTTAGGATTATTACCATTCTTTGAAGGTGAGTTTACGAAAGAAGAAGTATTGGAATCTGCAAAAGAATATATTATGATTTCAAAATTAGAGGAGTTTATCCAAAATGAATCAAACGTGGCGGGCGCACCTTCAATCTAA	MSGFFITATDTEVGKTVVAGAIAGVFRELGYNVGVYKPLQSGHVASNPEGDAARLKVLSGVPTQENEICPYSIEEPLAPRLAMKRAGRVVKLKEITDYYNELLKEFNSLFVEGAGGLAVPYTEDALVIDFAKELQLPLIVVARPTLGTVNHTVLTIAYAKAHGLTVAGVILSGCKECEMERVQENKEMIEELSGVPVLGLLPFFEGEFTKEEVLESAKEYIMISKLEEFIQNESNVAGAPSI	PGPT0022115_424	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
AK009_02983	1389	bioK	COG0161	L-Lysine--8-amino-7-oxononanoate transaminase	GTGACAATAAATAGTAGAACGATTGAAAAATCATCTTATACATATGAAGAATTAGCAGAGAAAAATAAAGCTTACGTATGGCACCCATTTACACAAATGAAAGATTATTTAGAAGAAGATCCTGTCATTATTGAACGTGGAGAGGGAAGAAAGCTATACGATGTAAATGGTAATGAATATTGGGATGGTGTTTCATCTATATGGTTAAATGTTCACGGACATCAAGTACCGGAATTAGATGAAGCAATTCGTGAGCAATTAAATAAAATTGCTCATTCTACTATGTTAGGACTTGCTAACGTTCCATCTATTTTATTAGCAGAAAAAATTATTGAGGTTGTACCAGATGGATTGAAGAAGGTATTCTATTCTGATTCAGGTTCTACCGCTGTTGAAATTGCAATTAAGATGGCTTTCCAATATTGGCAGCATAAAGGGAAACCAAAGAAACAAAGATTCGTTACATTAAAAGAAGCATATCACGGTGATACAATTGGAGCTGTTTCAGTAGGGGCAATAGACTTGTTTCACCAAGTGTATAGTTCGCTCTTATTTGATGCGATTAAAATGCCGTATCCATATACATATCGTTCTCCTTACGGAAATAATAAGGAGGAAATTGTAAAAAGCCATTTAGCAGAAATGGAAGAATTGTTGAAAGAAAAGCATGAAGAAGTAGCTGCCATCATTGTAGAGCCATTAATGCAAGGTGCTGGTGGAATGATTACAATGCCAAAAGGATATTTAAAAGGACTGCGCGATTTATGTACAAAGTACAATGTATTATTTATTACAGATGAGGTAGCGACTGGATTTGGGCGTACAGGGAAAATGTTTGCGTGTGAACATGAAAATGTGACGCCAGACATTTTAACTGCTGGTAAAGGTTTAACAGGTGGATATTTACCAATTGCAGTTACCGTAACGACAGATGAAATATATAATGCCTTCTTAGGAGAATATGAAGAACAAAAAACATTTTTCCATGGACATAGCTATACAGGCAATCCGTTAGGGTGTGCCGTAGCAATCGCGAATCTAGAACTATATGAAAAAACAAATTTAATAGAAGAAGTGGCACGTAAAACGGATTATGTGGCAGCGCAATTAGAAAAGCTCTTTGCGTATAAACATGTAGGTGATATTCGTCAGTGCGGATTAATGGTTGGTATCGAGCTTGTGAAGAATAAGGAAACGAAAGAAGCTTTTGACTGGACAGAAAGAGTCGGTGTTCAAGTATGTAAACGCTCAAGAGAGCTAGGTATGATTTTACGACCGCTAGGTAACACGATTGTATTTATGCCGCCACTTGCTTCTACTTTTGAAGAGATTGATGATATGTTACGCATCTTATATAAGGCAATCTCGGATGTTACGGAGGGAGAATAA	MTINSRTIEKSSYTYEELAEKNKAYVWHPFTQMKDYLEEDPVIIERGEGRKLYDVNGNEYWDGVSSIWLNVHGHQVPELDEAIREQLNKIAHSTMLGLANVPSILLAEKIIEVVPDGLKKVFYSDSGSTAVEIAIKMAFQYWQHKGKPKKQRFVTLKEAYHGDTIGAVSVGAIDLFHQVYSSLLFDAIKMPYPYTYRSPYGNNKEEIVKSHLAEMEELLKEKHEEVAAIIVEPLMQGAGGMITMPKGYLKGLRDLCTKYNVLFITDEVATGFGRTGKMFACEHENVTPDILTAGKGLTGGYLPIAVTVTTDEIYNAFLGEYEEQKTFFHGHSYTGNPLGCAVAIANLELYEKTNLIEEVARKTDYVAAQLEKLFAYKHVGDIRQCGLMVGIELVKNKETKEAFDWTERVGVQVCKRSRELGMILRPLGNTIVFMPPLASTFEEIDDMLRILYKAISDVTEGE	PGPT0022110_14	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
AK009_02984	357			hypothetical protein	GTGAAGAAAAAAATAATTCTTTTTACCACCTTACTAGTCGTTGGCGGAAGTGCTGGAATTTACACAGCTTTTGCGGCTGAATCAGAGCAGTTGAAACAAAAACAAATACAACAGTCAGAAGTGAAGAAAGTAAAAGAAATAGAAGAGAAGAAATCAATGGAAAAAGCAGCAGAGAAACTAGGAGTTTCTACTGAGGGGAAAACAAAAGAAGAGGTTACGAAAGAAGTAAATACCGCTAGGTTTGAGAAGCGTCATGATTTATTAATTGAGCACGCTAAACAACTTGGAATTGATACAGAGGGAAAAAAAGATGAAGAAATTATTTTAGAAATTGGAAAGATACAGCATGGAAAGTAG	MKKKIILFTTLLVVGGSAGIYTAFAAESEQLKQKQIQQSEVKKVKEIEEKKSMEKAAEKLGVSTEGKTKEEVTKEVNTARFEKRHDLLIEHAKQLGIDTEGKKDEEIILEIGKIQHGK				NA	NA	NA	NA	NA
AK009_02986	1374	nhaC	COG1757	Na(+)/H(+) antiporter NhaC	ATGGTTTCAAAAATTGAGTCTGTTCTTTTAACAATTTTTATCTTTTTCTGTATTGGTTTTAGTGTTATTCAATTAGAAGTTTCACCACACATCCCAATTTTATTTGGTATCGTTCTTTTATTAGCATTTGGATTCCTGAAGAAAATCTCTTGGTCTACTATGGAGAAAGGGATGATTAGTAGTATTTCAGCTGGTATTCCATCTATATTTATTTTCTTACTTGTAGGCGTATTAATTAGCGTTTGGATCGCAGCTGGAACTATTCCGACTTTAATGGTATACGGCTTCCAACTTGTATCTCCAAAAATTTTCGTTCCAACTGTTTTTGTTGTTTGTGCAATTGTTGGAACGAGTATCGGTAGTGCATTTACAACTGCTGCAACTGTAGGACTTGCCTTTATGGGAATGGGTACTGCCCTTGGATACGATCCAGCTCTTATTGCTGGTGCAATTATTTCTGGTGCATTCTTTGGAGATAAAATGTCTCCTTTATCTGATACAACAAACTTAGCGCCTGCTGTAACGGGTGTAGATTTATTTGAACATATTCGTAACATGCTTTGGACAACAGTACCAGCTTTCATTATTGCTTTTATCGCATTTTTCATTTTAGGAAGCGGATCTGGTGGAAACGTTGATTTCTCAGCATTTATTAACACACTAGAAAAAAGTGCAACGATTTCTATCGTTACGCTGATTCCCATTTTATTACTGTTCCTATTCGCATTTAAAAAGGTACCCGCAGTTCCAACATTACTTGCAGGAATTGTGGTAGGGATTATTATTCTCTTTATTTTTAAACCTAGCACTTCTTTAGCGGATTTAATGAAAATTATGCAAGACGGATACGTTTCTAAAACTGGTATTAAAGATATTGATAGCTTATTATCTCGCGGTGGTCTGCAAAGTATGATGATGTCAATCGCTCTTATTTTCCTAGCTCTTTGTATGGGAGGATTATTACAAGGAATGGGTATTATAGCCCAGCTGATGAACATTATCTCTAGCTTCGTAAAAACTAGTACACGCTTAATTATTTCTACTGCTTCAACTGCAATTGGTGTAAACTTCTTACTTGGTGAGCAGTACTTATCCATCGTTTTAACAGGACAAGCATTCGCTAATAAATACGATGAAGTCGGTTTAGAGCGTCGTAATTTATCACGAGTATTAGAAGATGCTGGTACAGTAATTAATCCACTCGTACCATGGGGTGTCAGTGGCGTATTCTTAACAAACGTTCTTAGCGTTCCAACATTCGATTACTTGCCATACGCAATCTTCTGTTTAGCGTGTCCAGTCGTAACCATTATCGTCGGCTTTACTGGATTCGGTCTTTCATGGAAAAAAGAAAAAGCAGTACCAGTTTCATAA	MVSKIESVLLTIFIFFCIGFSVIQLEVSPHIPILFGIVLLLAFGFLKKISWSTMEKGMISSISAGIPSIFIFLLVGVLISVWIAAGTIPTLMVYGFQLVSPKIFVPTVFVVCAIVGTSIGSAFTTAATVGLAFMGMGTALGYDPALIAGAIISGAFFGDKMSPLSDTTNLAPAVTGVDLFEHIRNMLWTTVPAFIIAFIAFFILGSGSGGNVDFSAFINTLEKSATISIVTLIPILLLFLFAFKKVPAVPTLLAGIVVGIIILFIFKPSTSLADLMKIMQDGYVSKTGIKDIDSLLSRGGLQSMMMSIALIFLALCMGGLLQGMGIIAQLMNIISSFVKTSTRLIISTASTAIGVNFLLGEQYLSIVLTGQAFANKYDEVGLERRNLSRVLEDAGTVINPLVPWGVSGVFLTNVLSVPTFDYLPYAIFCLACPVVTIIVGFTGFGLSWKKEKAVPVS	PGPT0013945_1450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
AK009_02987	2328	yfkN_2	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	GTGAAAAAGTCAAAAAAAATGCTAGCTGGAGCAACTCTTGCGATTGGTGTTATAGCGCCGCAAGTAATGCCAGCAACAGCTCATGCAGATGAGAACACTGGGGAGAGTACAGTTAACTTACGAATTCTAGAAACATCAGATATTCACGTTAACTTAATGAATTACGATTATTATCAAACGAAAACAGATAATAAAGTAGGACTTGTACAAACGGCAACACTCGTTAATAAAGCACGTGAAGAAGTGAAAAACTCTGTCCTATTTGATGATGGGGATGCATTACAAGGGACACCGCTTGGGGATTACGTAGCGAATAAAATAAAAGATCCGAAGAATCGTGTGGATCCTAGTTATACACATCCATTATATCGTGTAATGAATTTAATGAAGTATGACGTCATCTCTCTTGGGAATCATGAATTTAACTATGGTTTAGATTATTTAAACAAAGTGATTGAAAAAACGGATTTCCCGGTTATTAACTCGAATGTATATAAAGTTGACCATGATGATAAGGAAGAGAACGATGAAAATTATTTTAAACCATATCATATTTTAAAGAAAGAAGTAGTGGATGAAGCAGGCCAAAAACAAATAGTGAAAATTGGTGTAATGGGATTTGTTCCACCACAAATCATGAACTGGGATAAAGCGAACTTAGAAGGAAAAGTAAAAGCGAAAGACATCGTCGCAACAGCAAGAATAATGGTGAAAAAAATGCAAAATGAGGGTGCGGATATTATCGTTGCATTGGCTCATTCAGGCGTCGATAAGAGCGAATATAAAGAAGTGAATAAAATGGAAAATGCATCATATCATTTAGCAACACAAGTTCCTGGCGTAGATGCAGTATTAATGGGACATTCACATACTGAAGTGGAGGATGTATTTAATGGTGTTCCAGTTGTAATGCCTGGTGTTTTTGGTAGTAACTTAGGTATTATTGATATGCAATTGAAAAAGGTAAACGGAACATGGGAAGTACAAAAAGATCAATCTAAGCCACAACTTCGCCCGATTGCTAATAGTAAAGGTACCCCATTAGTAGAATCTGATCAAAAATTAGTTAATGAAATTAAAGATGAGCATCAAGCGACAATCGACTATGTAAATACACCTGTAGGTGAAACGAAAGCACCAATTAATAGTTATTTTTCATTAGTACAAGATGATCCTTCCGTACAAATTGTGACAAATGCACAAAAATGGTATGTAGAACAAGAACTTAAAAAACCAGAGTACGAAAAGATTAAAGATATTCCGGTTTTATCTGCAGGCGCACCATTTAAAGCAGGTGGCCGAAACGGTGCGACATATTATACTGATATTCCAGCTGGAACGTTAGCAATTAAAAACGTTGCAGATTTATACGTGTATCCAAATACGTTATATGCTGTAAAAGTAAATGGGGCACAAGTGAAAGAATGGCTTGAAATGTCTGCAGGTCAGTTTAATCAAATTGATCCAAAGAAAACAGAAGAACAGCCGTTAGTAAATATAGGCTATCCTACATATAACTTCGATATTTTAGATGGCTTAAAATACGAAATTGATGTAACACAACCGGCGAAATACGATAAAGATGGAAAAGTTGTAAATGCAAATGCTAATCGTATTGTAAATATGACATATGAAGGTAAGCTAGTAGCTGACAAGCAAGAGTTCATCGTCGCTACAAATAACTATCGTGGAAGTAGCCAAACGTTCCCAGGTGTAAGTAAAGGGGAAGTTGTATACCAATCACAAGATGAAACACGTCAAATCATTGTGAAGTATATGCAAAAAATAAAAGATATTGATCCAGCAGCTGATCAAAATTGGACATTTAAACCGATTGTTGCAGATAAATTAAATACAACATTTGATTCTTCACCAAATGCACAAAAGTATATAAAGAAAGATGGAAAGATTTCATATGTTGGACCATCTGAAAATGAATTTGCGAAATATGCAATTGATATAACGAAGAAAAATGATGATAAAGAAACTGGTGAAGGAAATCCAACGACACCGCCAACAGGTGGTGGAGAAAATCCGACGACACCGCCAACAGGTAATGGAGAAAACCCAACACCACCAACAGAAGAAGGTAATAATGGTAATGAACCAAAGCAAGATGGAAATAATACCGGATCTGGACAAACTACAACAGATGATCAAAATACAAAAGAAACAACAACAACTGTAAGTGAAAATAAAGAAGCTGAAAAACATGAACGTGATTTACCGAAAACAGGTGCAAGTATTGCTTCTACAATTGGAGCTGGTCTTGCGTTTGTTGGAGCGGGATTACTTATGTTATTTAGAAGAAAGAAAGCGAATAGATAG	MKKSKKMLAGATLAIGVIAPQVMPATAHADENTGESTVNLRILETSDIHVNLMNYDYYQTKTDNKVGLVQTATLVNKAREEVKNSVLFDDGDALQGTPLGDYVANKIKDPKNRVDPSYTHPLYRVMNLMKYDVISLGNHEFNYGLDYLNKVIEKTDFPVINSNVYKVDHDDKEENDENYFKPYHILKKEVVDEAGQKQIVKIGVMGFVPPQIMNWDKANLEGKVKAKDIVATARIMVKKMQNEGADIIVALAHSGVDKSEYKEVNKMENASYHLATQVPGVDAVLMGHSHTEVEDVFNGVPVVMPGVFGSNLGIIDMQLKKVNGTWEVQKDQSKPQLRPIANSKGTPLVESDQKLVNEIKDEHQATIDYVNTPVGETKAPINSYFSLVQDDPSVQIVTNAQKWYVEQELKKPEYEKIKDIPVLSAGAPFKAGGRNGATYYTDIPAGTLAIKNVADLYVYPNTLYAVKVNGAQVKEWLEMSAGQFNQIDPKKTEEQPLVNIGYPTYNFDILDGLKYEIDVTQPAKYDKDGKVVNANANRIVNMTYEGKLVADKQEFIVATNNYRGSSQTFPGVSKGEVVYQSQDETRQIIVKYMQKIKDIDPAADQNWTFKPIVADKLNTTFDSSPNAQKYIKKDGKISYVGPSENEFAKYAIDITKKNDDKETGEGNPTTPPTGGGENPTTPPTGNGENPTPPTEEGNNGNEPKQDGNNTGSGQTTTDDQNTKETTTTVSENKEAEKHERDLPKTGASIASTIGAGLAFVGAGLLMLFRRKKANR	PGPT0021400_79	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
AK009_02988	780			hypothetical protein	ATGAAAAAAGTCATCTTAACAATTGTTTGTCTCCTCCTTCTGATCATTTCTTATTCTTATTTTGAAAAGAACGACGAGACAAAACAAAATGAATCTGAAGAAAAAACAGAAAAAACATCTGCCCCAAATTGGATTGATAAGCAAACAAATGAATCTTTTTATCATCTTGTATTAGGTGATTCACTCGCTAAAGGATATGGATCGACACAAGGTGGATTTGCTGAATTAGCTTCTAAGCAAATAGAAGCACAAATTCATAAACCAATTACAGTAGAAAACCTTGGGGTAAACGGTCTTACAACAGATCGTCTCGCTAAAAAAGTTCAATCAGAAGATGTAAAGGAAAAAATTAGAGCAGCAAATATAATTACAATTAATATTGGAGGAAATAATTTATTTCGTTTAAATCGTGATGTTGGTGTTATAGATGGTATAAAAATGTTAAATAAAGAAAAAGCCCATTTTGAAGCGGATATAAAAAGTATTGTAAAGACAGTTCGAGATCAAAATCCGGATGCTTTACTCATTCTCTCAGAACTCTATAACCCGTTACAACTCGATGACTCCATCGCAAGTTATGCAGATATGTTTTTAGATGGCTGGAATGAATCTGTTTATTCCATTTCCAAAGCAAATCAACCATCTATCGTTTTACCAATTCGTAAATTAATATCGAATGATAAAAAAGAGTTATTATTTGACCAAGTACACCCAAATGATAACGGCTATGCGATTATTGCCAATACATTTACAAAGCAAGTGTTATCCTACAAATATTAA	MKKVILTIVCLLLLIISYSYFEKNDETKQNESEEKTEKTSAPNWIDKQTNESFYHLVLGDSLAKGYGSTQGGFAELASKQIEAQIHKPITVENLGVNGLTTDRLAKKVQSEDVKEKIRAANIITINIGGNNLFRLNRDVGVIDGIKMLNKEKAHFEADIKSIVKTVRDQNPDALLILSELYNPLQLDDSIASYADMFLDGWNESVYSISKANQPSIVLPIRKLISNDKKELLFDQVHPNDNGYAIIANTFTKQVLSYKY				NA	NA	NA	NA	NA
AK009_02989	447			hypothetical protein	ATGGAATCACGCGAGTGGGAACGTATTGTTGATCATCTTCTTTCGCTAGTGCCTCTTTTTTATCGCAAATTTATGCTTCCTGGAGAATTTTCTTCTCAAAGACATATGCCGCCATCACATACACAAGTATTACTGCTTTTGCATGAAAACGGCACATTAGCAGTTTCCGAAATCGGCAAGCGGCTAGCGATTTCACGGCCTAACATGACACCTCTATTAAACAAACTTATTCAAGAAGAACTAATAGAGCGTCATTATAGCGAAAAAGATCGACGGGTCATTTTAATTTCCCTAACAGCTGAAGGGAAATTATTAGTAAATCAGTATCAGCAATTCATTTTAGACAAACTAAAAGAAAATTTCCAAACATTATCTGAGGAAGAGCGCGAAAAGCTCATTCATTCTCTTCAAACCATTCAAAATTTAATTTTGAAAACAAACGTATAA	MESREWERIVDHLLSLVPLFYRKFMLPGEFSSQRHMPPSHTQVLLLLHENGTLAVSEIGKRLAISRPNMTPLLNKLIQEELIERHYSEKDRRVILISLTAEGKLLVNQYQQFILDKLKENFQTLSEEEREKLIHSLQTIQNLILKTNV				NA	NA	NA	NA	NA
AK009_02990	216			hypothetical protein	ATGTATTATTATTACGTACCTCAAGTATATCCATATGTAAATTATTATCCGGTTTATGATACGAGTAGACAATACGAATTATATCGGCAACAACAATTACAGCAATTATCACAAATACCACAAATACCACAACAACAGCCTACACAGGAAAAAAAAACATATTTAACAACATGGCCATATTCCAATGTATACTATGGTAACTATTACGAATCATAA	MYYYYVPQVYPYVNYYPVYDTSRQYELYRQQQLQQLSQIPQIPQQQPTQEKKTYLTTWPYSNVYYGNYYES				NA	NA	NA	NA	NA
AK009_02991	552			hypothetical protein	GTGAAAACAACTAAGAAAACATATTCGTTTTTTCAGCGGATGTGGAGAATATTAAAGTTTCAATATTATAAGTTGCTTCGATCGCCAGAAGGCGCAAAGAAAGTATCGTTAGGGTTTGCTATAGGATTCGGCTTAGAAATGTTAGTCATTTATACGGCATCGCTCGTATATGTAATATTTTATCCAATCGTCAGGTTAGCAAAGGGATCTTTTCCTGCGGCAGTTATTGGCAATATTATTGGGAAAATATCGTTTCTCCCAGTATTTTTATTTCCGCTTGCGTATACGCTAGGAAAAATGATTTATCCATTCCATGTACAGAAAATTCATCATGAACCATTTACGATATCGGACTTGTTTTCAAGTCACATTTTTACGATATTAAAGAGCTTATTACAAAGTGAAGTGTATGTATTAATTGGAATGACGATTTTAGGAGTTGTGTTTGGTCTCATTTCGTATTTCGTTGTGCATTATTTATACGAAAAGAACCGTAAGTTACGCTTGAAGAAAAGGAAGAAACGAGTGAGAGAACCACTTGTACAATTATAA	MKTTKKTYSFFQRMWRILKFQYYKLLRSPEGAKKVSLGFAIGFGLEMLVIYTASLVYVIFYPIVRLAKGSFPAAVIGNIIGKISFLPVFLFPLAYTLGKMIYPFHVQKIHHEPFTISDLFSSHIFTILKSLLQSEVYVLIGMTILGVVFGLISYFVVHYLYEKNRKLRLKKRKKRVREPLVQL				NA	NA	NA	NA	NA
AK009_02992	951	argF_1	COG0078	Ornithine carbamoyltransferase	ATGTCAACTGTACAAGTACCGAAATTAAATACGAAAGATCTTTTAACACTAGAAGAATTAACGAAAGAAGAAATTATTTCTTTAATTGAGTTCGCTATATATTTAAAAAAGAATAAGCAAGAGCCTTTATTACAAGGCAAAATATTAGGGCTTATTTTTGATAAGCATTCAACTCGTACTCGTGTATCTTTTGAAGCGGGAATGGTACAACTCGGGGGACATGGTATGTTTTTAAGTGGGAAAGAGATGCAAATGGGAAGAGGAGAAACCGTTTCAGATACTGCGAAAGTATTATCGCAGTATATTGACGGGATCATGATACGTACATTCTCACACGCGGATGTAGAAGAGCTTGCAAAAGAATCTAGTATTCCTGTTATTAACGGTTTAACGGATGATCATCATCCTTGTCAAGCATTGGCAGACCTAATGACAATATATGAAGAAACAAATACATTTAAAGGAATAAAATTGGCTTACGTAGGTGACGGAAATAATGTATGTCATTCATTGTTGCTAGCGAGTGCAAAAGTCGGAATGCATATGACTGTTGCAACGCCTGTAGGATATGAACCGAATGAAGAGATTGTAAAAAAAGCGTTAGCGATTGCCAAGGAAACAGGAGCTGAAATTGAAGTTTTGCATGATCCTGAATTAGCGGTGAATGAAGCAGATTTCATTTATACTGACGTTTGGATGAGCATGGGGCAAGAGGGCGAAGAAGAGAAATATTCTTTATTTCAACCTTACCAAATCAATAACGAACTTGTTAAGCATGCGAAACAAACATATCGTTTCTTACACTGTTTACCTGCCCATCGTGAAGAAGAAGTAACAGGAGAAATTATAGATGGACCACAGTCTATCGTCTTCGAGCAAGCTGGTAATCGATTGCATGCTCAAAAAGCGTTATTAGTGAGTTTATTTAAAAATGTAGAAGAGCCTTCCTAA	MSTVQVPKLNTKDLLTLEELTKEEIISLIEFAIYLKKNKQEPLLQGKILGLIFDKHSTRTRVSFEAGMVQLGGHGMFLSGKEMQMGRGETVSDTAKVLSQYIDGIMIRTFSHADVEELAKESSIPVINGLTDDHHPCQALADLMTIYEETNTFKGIKLAYVGDGNNVCHSLLLASAKVGMHMTVATPVGYEPNEEIVKKALAIAKETGAEIEVLHDPELAVNEADFIYTDVWMSMGQEGEEEKYSLFQPYQINNELVKHAKQTYRFLHCLPAHREEEVTGEIIDGPQSIVFEQAGNRLHAQKALLVSLFKNVEEPS	PGPT0020080_2762	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
AK009_02993	1161	argD_2	COG4992	Acetylornithine aminotransferase	ATGACGAGTCATCTTTTTCAAACGTATGGCAGAAGAACTATTGAGTTTGTAAAGGGAACTGGAACGAAAGTTATTGATAATAAAGGTAAGCAATATTTAGATTTTACATCAGGAATTGGCGTATGTAATTTAGGACATTGTCACCCTACTGTTCTCAAAGGTGTACAAGAGCAACTTGATGATATATGGCATATATCTAACCTGTTTACAAACAGCTTACAAGAAGAAGTTGCGTCATTATTAACAGAAAATAGAGCATTAGATTATGTGTTTTTCTGTAATAGTGGGGCAGAGGCAAATGAAGCGGCTTTAAAGTTAGCACGTAAGCATACTGGAAAATCTCTCGTCGTAACATGCCAGCAGTCTTTTCACGGTAGAACATTTGGAACGATGAGTGCAACAGGCCAAGATAAGGTAAAAGAAGGATTTGGTCCGTTACTTCCATCTTTTTTACATATCCCTTTTAACGATATTAAAGCATTAGAGGAAGTAATGAATGAAGAAGTTGCGGCGGTAATGGTAGAAGTAGTTCAAGGAGAGGGAGGAGTAATACCTGCTGATCTATCTTTTTTGAAAGAGATTGAAACATTATGTAATAAGTTCGGTTCCTTATTTATTATAGACGAAGTACAAACGGGGATAGGAAGAACTGGAACACTATTCGCTTATGAACAAGTGCGAATAGAGCCTGATATCGTTACCGTTGCAAAAGCACTTGGGAATGGGATTCCTGTCGGAGCAATGATTGGCCGGAAAGAGCTCGGAACGTCGTTTACTGCAGGATCACACGGTTCAACTTTTGGCGGGAATTACATCGCGATGGCTGCAGCGAAAGAAGTATTGCAAGTAAGTAAAAGACCATTGTTTTTAAAAGAAGTACAAGAAAAAGGCGAGTATGTATTAGAGAAGTTGCAAGAGGAATTACAGCATGTCGAATGTATTCAAAATATACGTGGTAAGGGGCTTATGATTGGGATTGAGTGTAAGCATGAAGTTGCAAGTTTTATAGAACAACTAGAAAACGAAGGACTTCTCGTATTACAAGCAGGCCCTAATGTTATAAGACTATTACCGCCACTCATTGTCACGAATGAAGAGTTAGAACAGGCAGTATATATAATAAAAAAAGTAGTTTGTACAAAAAACGTATCAATCATATAA	MTSHLFQTYGRRTIEFVKGTGTKVIDNKGKQYLDFTSGIGVCNLGHCHPTVLKGVQEQLDDIWHISNLFTNSLQEEVASLLTENRALDYVFFCNSGAEANEAALKLARKHTGKSLVVTCQQSFHGRTFGTMSATGQDKVKEGFGPLLPSFLHIPFNDIKALEEVMNEEVAAVMVEVVQGEGGVIPADLSFLKEIETLCNKFGSLFIIDEVQTGIGRTGTLFAYEQVRIEPDIVTVAKALGNGIPVGAMIGRKELGTSFTAGSHGSTFGGNYIAMAAAKEVLQVSKRPLFLKEVQEKGEYVLEKLQEELQHVECIQNIRGKGLMIGIECKHEVASFIEQLENEGLLVLQAGPNVIRLLPPLIVTNEELEQAVYIIKKVVCTKNVSII	PGPT0014253_4012	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK009_02994	768	argB	COG0548	Acetylglutamate kinase	ATGAGCGATTATATTGTAGTGAAATGCGGCGGTAGTATGTTGAATCAATTAAATGCTGTGTTTTTTGATTGTATAAAGAAATTGCAACAGAAGTATAAAGTGGTGATTATTCATGGTGGTGGGCCAGAAATTGATGCCAAATTAAAAGATTGTAACATCAACGTAGAAAAAAGAGATGGATTACGCGTAACACCAAAAGAAGTTATGGATGTTGTTCAAATGGTGCTATGCGGAAGTACGAATAAAAAACTCGTAATGAATTTACAAAAGCATAATTTACTTGCTGTAGGTTGTTCAGGGTGTGACGGTAATTTACTTCAAGTTCAACCTGTCAGCGAGGAGATAGGATATGTGGGAGAAGTAAGTTATGTAGAAACAGCCTTATTAAAAGGATTAATAAATATGGGGTATATTCCTGTTATTGCTCCAATCGGGGTAAATGGTAATGAAATTTATAACATAAATGCGGACAATGCTGCAGCTGGGATTGCGGCCGCGTTAGGGGCAAAAGAGCTGATTTTTATTACGGATGTAGATGGAATATTACATGAAGGGAATTTGGTAAAGGAAACGGATGAATCTGAAATTGCAACTTTTATAGAAACAGGTGTTATTACAGGTGGGATGATTCCGAAAGTACAGGCGGCACTAGCATCATTAAAAATGGGAGTGCAAAAGATAAGTATTGTGAATGGTACAAAAGATTTTACTGAGGTTACGGGAGAGTGTATTGGAACGACGGTAACGAAAGGTGTGAGTATTGCATGA	MSDYIVVKCGGSMLNQLNAVFFDCIKKLQQKYKVVIIHGGGPEIDAKLKDCNINVEKRDGLRVTPKEVMDVVQMVLCGSTNKKLVMNLQKHNLLAVGCSGCDGNLLQVQPVSEEIGYVGEVSYVETALLKGLINMGYIPVIAPIGVNGNEIYNINADNAAAGIAAALGAKELIFITDVDGILHEGNLVKETDESEIATFIETGVITGGMIPKVQAALASLKMGVQKISIVNGTKDFTEVTGECIGTTVTKGVSIA	PGPT0014249_3926	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
AK009_02995	1224	argJ	COG1364	Arginine biosynthesis bifunctional protein ArgJ	ATGATTAAAGTAGCGTCTATTACAAAATTAGAAAATGGTTCAATTGTAACGCCGAAAGGCTTTTCGGCAATTGGTACTGCAAATGGTTTAAAAAAGGAGAAAAAGGATTTAGGTGCCATCGTTTGTGATGTACCAGCATCATGTGCCGCTGTGTATACAACGAATCAAATACAAGCAGCTCCTTTACAAGTAACGAAGGATAGTATAACGGCAGAAGGGAAGTTACAAGCAATTATCGTTAATAGTGGAAATGCAAATGCTTGTACTGGAATGAAAGGATTACAAGACGCATACGAGATGCGCGCATTAGGGGCGGAACATTTTGGGATGAAAGAAAATTACGTTGCAGTAGCTTCAACAGGTGTAATTGGTGTTCCACTGCCGATGGATATAATCCGAAAGGGAGTTGCAACTCTTATACCGACGAAGGAAGAAAGTGAAGCATATTGTTTTTCTGAAGCAATTTTAACGACGGATCTTATAATGAAAGAAACTTGCTATGAAATGATTATTGATGGGAAGAAAGTGGCGATTGCGGGTGTTGCAAAAGGTTCAGGGATGATTCATCCGAATATGGCAACGATGCTTAGTTTTATTACGACAGATGCTCATATAGAGCATGACGTATTGCAAACAGCGTTATCCGAAATTACGAATCATACATTTAATCAAATTACGGTAGATGGAGATACTTCTACGAATGATATGGTCATCGTTATGGCAAGTGGATTATCAGAAACAAGGCCGATAAATATGGAACATACAGATTGGGAAACTTTCGTATGTGCTTTACAGCAAGTATGTGAAGATTTAGCGAAAAAAATTGCGCAAGATGGTGAAGGAGCTACGAAGTTAATAGAAGTAAATGTGCTAGGAGCTCAAACGAATGAAGAGGCAAAAAAAATTGCAAAGCAAATAGTCGGTTCGAGTCTTGTGAAAACAGCAATACATGGTGAAGACCCAAACTGGGGGCGAATTATTAGCAGTATTGGACAAAGTGAAGTAGCTATTCATCCGAACACAATTGACATTACTCTTCAATCTATATCGGTATTAAAAAATAGTGAGCCTCAAATATTTTCTGAAGAAGAAATGAAAGAGAGATTACAAGAAGATGAAATAGTCATTAATGTGTACTTACACTTAGGTGAAGAGACAGGATCAGCTTGGGGCTGTGACTTAAGCTATGAATATGTGAAAATAAATGCTTGTTATCGTACATAA	MIKVASITKLENGSIVTPKGFSAIGTANGLKKEKKDLGAIVCDVPASCAAVYTTNQIQAAPLQVTKDSITAEGKLQAIIVNSGNANACTGMKGLQDAYEMRALGAEHFGMKENYVAVASTGVIGVPLPMDIIRKGVATLIPTKEESEAYCFSEAILTTDLIMKETCYEMIIDGKKVAIAGVAKGSGMIHPNMATMLSFITTDAHIEHDVLQTALSEITNHTFNQITVDGDTSTNDMVIVMASGLSETRPINMEHTDWETFVCALQQVCEDLAKKIAQDGEGATKLIEVNVLGAQTNEEAKKIAKQIVGSSLVKTAIHGEDPNWGRIISSIGQSEVAIHPNTIDITLQSISVLKNSEPQIFSEEEMKERLQEDEIVINVYLHLGEETGSAWGCDLSYEYVKINACYRT	PGPT0014244_1722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
AK009_02996	1038	argC		N-acetyl-gamma-glutamyl-phosphate reductase	ATGAAAGTCGCAATTATTGGAGCCACTGGATATGGGGGCATTGAGTTAATTCGTTTATTAGAACAACATCCATATTTTTCGATAGCATCTCTCCATTCTTTTTCACAAGTTGGTGAGTGTATAACAAATGTATATCCGCATCTTCGAAATGTCCTTTTTCATACGTTACAAGAAATTGATGTGGAGACGATAGGAAAAGAAGCAGAAATCGTATTTCTAGCAACCCCAGCAGGAGTATCGGCGGAGTTAACTCCCAAGTTATTAGCAGAAGGTTTAAAAGTAATTGACCTATCTGGAGACTTTCGTATGATAGATCCTTCGTCATATGAACTGTGGTATAAAAGGCCAGCAGCGAAAGAAGAAATTCTTAGAAAAGCAGTGTATGGGTTAAGTGAATGGAAAAGGACTGGGATTCAAAAGGCAAATTTAATTGCAAACCCAGGATGTTTTGCTACAGCCACATTGCTAGCGATAGCGCCGTTAGTACGTAGCGGCATGATTGAAGAAGATTCGATTATTATTGATGCGAAATCAGGGGTATCAGGAGCAGGTAAAACACCAACAACAATGACTCACTTTCCTGAGCTATATGATAACTTGCACATTTATAAAGTGAATGAGCATCAGCACGTTCCAGAGATTGAGCAAATGCTTACAGAATGGAATAGTGGATCACAGCCAATTACATTTAGCACACATTTAATACCGATATCTCGAGGAATCATGATTACACTTTATGCAAAAGTAAAACAAAAGATGGAAATAAAGCAACTTCAAAAATTGTATGAAGAAACGTATGAACAATCGCCTTTCATCCGAATTTGTACGCAAGGGAAATTTCCAAGTCCAAAAGAAGTGAGAGGCTCAAATTATTGTGATATTGGCATAGCTTACGATGAAAGAGCTGAAAGAGTTACGGTCGTTTCTGTTATAGACAATATGATGAAAGGCGCGGCTGGGCAAGCGATTCAAAATGCAAACATAATAGCGGGACTAGAAGAGACAACAGGTTTACAACATATGCCGCTTTATGTATAA	MKVAIIGATGYGGIELIRLLEQHPYFSIASLHSFSQVGECITNVYPHLRNVLFHTLQEIDVETIGKEAEIVFLATPAGVSAELTPKLLAEGLKVIDLSGDFRMIDPSSYELWYKRPAAKEEILRKAVYGLSEWKRTGIQKANLIANPGCFATATLLAIAPLVRSGMIEEDSIIIDAKSGVSGAGKTPTTMTHFPELYDNLHIYKVNEHQHVPEIEQMLTEWNSGSQPITFSTHLIPISRGIMITLYAKVKQKMEIKQLQKLYEETYEQSPFIRICTQGKFPSPKEVRGSNYCDIGIAYDERAERVTVVSVIDNMMKGAAGQAIQNANIIAGLEETTGLQHMPLYV	PGPT0014251_1486	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
AK009_02997	189			hypothetical protein	ATGAACGAAAAATTAATTGAGAAAATGATTATAAAAAGTTTTCAACAATATCAATGCAGTCCAATATCAAAAGAAGATCAGGAAATGCTAGTGAAACATATTCAAACGGTGACTCATTCAAATATTGAAATTGATTTATACGAGGAAATTGAGGATATTGTTTATGATTATGTAACTGGAAAACAATAA	MNEKLIEKMIIKSFQQYQCSPISKEDQEMLVKHIQTVTHSNIEIDLYEEIEDIVYDYVTGKQ				NA	NA	NA	NA	NA
AK009_02998	795			putative oxidoreductase	ATGACAGGACGTTTACAAAATAAAGTAATCGTCATTACAGGTGCTTCTAGTGGGATTGGTGAGCAAGTTGCAATGCAAGTTGCAGCACAGGGAGCGACTCCAGTATTAATGGCTCGAACAGAAGAGAAACTACAAGCGTTAGTAGACAAAATTAAAGAAACTTATAATACGCCTTGCTATTATTATGTATTAGATGTAAGTGAAGAGATGGAAGTACAGTCTGTTTTTTCAAAGGTATTACAAGAAGTGGGACGTATTGATATATTAGTAAACAATGCGGGATTTGGTATTTTTAAAACGTTTGAAGATGCGTCAATGGGTGAAGTAAAAGATATGTTCCAAGTAAATGTATTTGGATTAGTAGCATGTACGAAAGCGGTACTACCTTATATGGTAAACAAGAATGAAGGACATATTATTAATATTGCTTCACTTGCTGGAAAAATTGCAACTCCGAAATCGAGTGCTTATGCATCAACGAAACATGCCGTATTAGGATTTACGAATAGTTTACGCATGGAATTAGCGAATACAGATATTTATGTTACAGCAATTAATCCAGGTCCGATAGATACAAACTTTTTTGAAATAGCGGATCAATCTGGTACATATGTAAAGAATATGGGACGTTACATGTTAAAACCAACATACGTAGCAGAACAAATCGTAAAGTCGATGCACACGAAAAAACGTGAAGTAAACTTACCGAAGTGGATGGGAATTGGCCCGAAACTTTATGCTTTATTCCCAGGTTTATTTGAACGTGTAGCAGGTAAATCATTAAGTAAAAAATAG	MTGRLQNKVIVITGASSGIGEQVAMQVAAQGATPVLMARTEEKLQALVDKIKETYNTPCYYYVLDVSEEMEVQSVFSKVLQEVGRIDILVNNAGFGIFKTFEDASMGEVKDMFQVNVFGLVACTKAVLPYMVNKNEGHIINIASLAGKIATPKSSAYASTKHAVLGFTNSLRMELANTDIYVTAINPGPIDTNFFEIADQSGTYVKNMGRYMLKPTYVAEQIVKSMHTKKREVNLPKWMGIGPKLYALFPGLFERVAGKSLSKK	PGPT0030485_1955	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK009_02999	954	gloB_2		Hydroxyacylglutathione hydrolase	ATGACGGCGATTCACCGAATGGAGATTCCTGTACCATTTGCAGTGGAAACTGTGAATGTGTTTTTAGTTGAGGGGGAGACATTAACATTAATTGATACAGGGACGAATACAGAAGAGGCAAGGAATGCGTTAGAAAGTCAATTAGGTGCATTAGGATATACGATAGAAGATATTGAAACAGTAGTCATTACGCATCATCATGCAGATCATTGTGGACTTTTAAATATATTTTCTGAGAAGACGAATATTATTGGACATCCTTGGAATGAGCCTTGGATCACACAAAATCCAGAATTTTTAAAGCGGTATCATGAATTTTTTAGAGAGACGGCCTTACAGTTTGGTGTGCCAGCAGCATTTTTGAAAGACGAGTCGTTATTGACGACGAGGACACTTAAATATTCTTGTAATAGATCGTTAACGCATACTGTGAGAGAAGGAGATCGTATTAATTCTTTGCCTGGATTTACAGTGCTTGAAACACCAGGCCATGCTTCTACTCATATTTCTTTATATAGAGAATCTGATGGAATATTAATTGGTGGAGATGCTCTCATTAGTCATATTTCTTCGAATCCAATACTAGAACCACCATATGAAGGGCAAACAGAACGGGCACGCCCATTACTACAATATAATCAAACATTACAGCGTTTAAGCGAAATGAATATTTCACGCATTTTATCAGGGCATGGGGAAGATGTTCTAAATGTGAAACAACTTATTGAAACGAGATTACAAAAGCAAGAAACACGTGCTTTTAAAGTGCTTGAGTTATTAAAGGAAAAACCAATGACAGCATTTGAAGTATGTGTAAAACTATTTCCGGTATTATATAAAGAACAATTACCACTTACTATTTCAGAAACGGTTGGACAATTGGACTATTTAGCATATAATCAACAAGTGATGATTGATGAGTCATCGCAACAATTGATTTATTATGCAAAGTAG	MTAIHRMEIPVPFAVETVNVFLVEGETLTLIDTGTNTEEARNALESQLGALGYTIEDIETVVITHHHADHCGLLNIFSEKTNIIGHPWNEPWITQNPEFLKRYHEFFRETALQFGVPAAFLKDESLLTTRTLKYSCNRSLTHTVREGDRINSLPGFTVLETPGHASTHISLYRESDGILIGGDALISHISSNPILEPPYEGQTERARPLLQYNQTLQRLSEMNISRILSGHGEDVLNVKQLIETRLQKQETRAFKVLELLKEKPMTAFEVCVKLFPVLYKEQLPLTISETVGQLDYLAYNQQVMIDESSQQLIYYAK				NA	NA	NA	NA	NA
AK009_03000	840	proC_3		Pyrroline-5-carboxylate reductase	ATGTCTATTCAAAACATTTCCTTTCTCGGTGCAGGCTCTATTGCTGAAGCTATTATTGGTGGCTTGTTACATGCAAATGTTGTTAAAGGTGAACAAATTACTGTAAGTAATCGTTCTAACGAGACGAGATTACAAGAGCTACATAAAAAATACGGTGTCAAAGGTACTCATAATAAAAAAGAATTACTTACTGATGCAAATATTCTTTTTCTAGCAATGAAACCAAAGGATGTTGCAGAGGCGCTTACCCCTTTTAAAGAATACATAAATAATAACGTGCTTATTATTTCATTACTAGCAGGTGTTTCTACTCACTCAATTAGAAAACTACTTCAAAAAGACGTTCCAATTATTCGTGCAATGCCAAATACATCCGCAGCCATTCTAAAATCAGCTACCGCTATCTCCCCTTCAAAACATGCAACAGCGGAACATATTCGCACTGCAACATCTTTATTTGAAACGATCGGTCTCGTCTCTGTTGTAGAGGAAGATGATATGCATGCTGTCACTGCATTATCCGGAAGTGGACCTGCTTATATTTATTACGTAGTGGAAGCTATGGAAGAAGCTGCAAAAAAAATTGGTTTAAAAGAAGATGTTGCAAAATCACTTATTCTTCAAACGATGATTGGTGCTGCTGAAATGCTAAAAGCAAGTGACAAGCACCCTTCTATTTTGCGAAAGGAAATTACTTCTCCTGGTGGAACTACCGAAGCAGGTATTGAAGTATTACAAGAACATGAATTTCAACAAGCACTTATTTCTTGTATTACACAGGCAACGGAACGATCACATAATCTTGGAAAAACATTAGAACAACTAACAAAAGAAAAATAG	MSIQNISFLGAGSIAEAIIGGLLHANVVKGEQITVSNRSNETRLQELHKKYGVKGTHNKKELLTDANILFLAMKPKDVAEALTPFKEYINNNVLIISLLAGVSTHSIRKLLQKDVPIIRAMPNTSAAILKSATAISPSKHATAEHIRTATSLFETIGLVSVVEEDDMHAVTALSGSGPAYIYYVVEAMEEAAKKIGLKEDVAKSLILQTMIGAAEMLKASDKHPSILRKEITSPGGTTEAGIEVLQEHEFQQALISCITQATERSHNLGKTLEQLTKEK	PGPT0014225_1367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK009_03001	879	sdhA		L-serine dehydratase, alpha chain	ATGTTTCGGAACGCAGCGGAACTAGTGGCGCAAGCTAAAGAACAAAATGTAAAAATCGCAGAAATTATGATTCAATGTGAAATGGAAACAAGACGTATTTCACGTGAAGAAGTAATTGCTGGTATGGAAAAGAACTTAGTCGTGATGGAACAAGCAGTAGAACGTGGTATTCGCGGCGTGAAATCACCAACTGGTTTAACTGGTGGAGATGCTGTAAAAGTTCAAGCGTATATGAAGAGTGGAAAAGGCTTATCTGGAGATACGATTTTGGATGCAGTAAGCAAAGCTGTTGCAACAAATGAAGTAAACGCAGCGATGGGAATTATTTGTGCAACACCAACAGCAGGGTCTGCTGGAACAGTGCCAGGTGTACTATTTGCACTAAGAGAAAAATTGCAGCCTACACGTGAAGAAATGATTGAGTTCTTATTTACAGCAGGAGCTTTCGGTATGGTTGTTGCGAATAATGCTTGTATTTCTGGTGCGGCAGGAGGATGCCAAGCTGAAGTTGGTTCAGCAAGTGGAATGGCGGCTGCAGCTGCAGTTGAGATGGCTGGTGGAACACAAGATCAAGCAGCTACAGCGATGGCAATTTCATTAAAGAACATGCTTGGTTTAGTGTGCGATCCTGTTGCAGGACTTGTAGAAGTGCCTTGTGTAAAACGTAATGCAGCAGGAGCTGCGAATGCGATGATTTCAGCAGATTTAGCATTAGCTGGTGTAACGAGTACAATTCCATGTGATGAAGTAATTGAGGCAATGTTTAGAATTGGACAAACGATGCCAGTAGCACTTCGTGAAACAGCAGAAGGTGGACTTGCAGCAACGCCGACTGGTCGTCGCCTGCAAGAAGAGATTTTTGGGAAGAACAATAACTAA	MFRNAAELVAQAKEQNVKIAEIMIQCEMETRRISREEVIAGMEKNLVVMEQAVERGIRGVKSPTGLTGGDAVKVQAYMKSGKGLSGDTILDAVSKAVATNEVNAAMGIICATPTAGSAGTVPGVLFALREKLQPTREEMIEFLFTAGAFGMVVANNACISGAAGGCQAEVGSASGMAAAAAVEMAGGTQDQAATAMAISLKNMLGLVCDPVAGLVEVPCVKRNAAGAANAMISADLALAGVTSTIPCDEVIEAMFRIGQTMPVALRETAEGGLAATPTGRRLQEEIFGKNNN	PGPT0001975_3877	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK009_03002	660	sdhB		L-serine dehydratase, beta chain	ATGAAGTATCGCTCAGTATTTGATATTATCGGTCCAGTTATGATTGGACCATCAAGTTCACATACAGCAGGCGCGGCAAGAATGGGGCAAGTTGCTCGCCAGCTGTTTCGTCATGAACCAGAAAGAGTAAGCATTTCGTTATATGGATCATTTGCAAAGACGTATCGAGGGCATGGTACCGATGTAGCACTAATCGGTGGAATATTGGGATTTGAAACAGATGACTTACGTATTCCAGAGGCGCTAGAAATAGCAAAAGAGCGCGGAATTGAAGTGGAATTCATTGAAGAAGATGCCAATGCACCTCACCCAAATACAGCAAGAATTCGTTTGTATAAAGGTGAAGAAGAAATTGAAGTTGTTGCTTGCTCAATTGGTGGCGGTAAAATTGAAGTTGTAGAATTAAACGGATTCGATCTTCAATTATCAGGCACAAGTCCAGCACTACTTATTGTAAATAACGATCGCTTTGGTGCTATTGCAGCGGTGGCTTCAATCCTTGCTACACACGAGATTAACATTAGTACAATGAGTGTTTCTCGTAAAGAAAAAGGAAGAAGAGCGCTTATGGTTATTGAAACAGATGAATTATTAGCAGATGAAGTGATTGAAGAAATAAAAGCGCAACAAAATATTTGTCAAGTAACTATTATGGATTAA	MKYRSVFDIIGPVMIGPSSSHTAGAARMGQVARQLFRHEPERVSISLYGSFAKTYRGHGTDVALIGGILGFETDDLRIPEALEIAKERGIEVEFIEEDANAPHPNTARIRLYKGEEEIEVVACSIGGGKIEVVELNGFDLQLSGTSPALLIVNNDRFGAIAAVASILATHEINISTMSVSRKEKGRRALMVIETDELLADEVIEEIKAQQNICQVTIMD	PGPT0001975_4813	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK009_03003	147			hypothetical protein	ATGAAAATAATACTAAGATTCTTATGTATTATGATAACTGGTATTATTTCAGGTTATATTGGATTACTTTTATTCAAAAATTATCCAATTCATACAGCAGAACAAATTCGTGGTACAACTGGAAAAGCGACAGATGTAGCAGCTTAA	MKIILRFLCIMITGIISGYIGLLLFKNYPIHTAEQIRGTTGKATDVAA				NA	NA	NA	NA	NA
AK009_03004	924	rnz	COG1234	Ribonuclease Z	GTGGAATTTGTATTTTTAGGAACTGGTGCAGGTGTTCCTTCAAAAGGAAGGAACGTTTCAGCAATTGCTTTACAATTGTTAGAAGAACGAGGACAGACTTGGTTATTTGATTGTGGCGAGGCCACGCAACATCAAATATTACATACATCGGTACGTCCGCGCCGCATTGAAAAAATATTTATTACGCATTTACATGGCGATCATATTTTTGGATTGCCTGGTTTATTAGGTAGCCGTTCATTTCAAGGAGGAACTACGCCTTTAACGGTGTATGGACCGAAAGGAATTAAACAATTTATTGAAGTGGCATTATCGGTAAGTACGACACATGTGAAATATCCACTTGAAGTTGTGGAGATAACAGAAGAAGGTACCGTATTTGAAGATAATGAATTTTATGTAGAAACGAAAAGATTGTCACACGGTATAGAATGTTTTGGATATCGTATTGTAGAGAAAGATATACAAGGTGCTCTTTTAGTTGATAAATTGCTTGAGATGGGTGTGAAACCAGGTCCAATCTTTAAACGTTTAAAAGATGGAGAAGTAGTTGAATTAGAGGATGGCACGATATTAAATGGAAATGAGTTTATCGGCCCACCTCAAAAAGGAAGAATTATTACTATCTTAGGTGATACGCGATATTGCGAAGCGAGTAGGGAGCTTGCGCAAGATGCAGATGTACTTGTCCATGAAGCGACTTTCGCAGCAGAAGATGAGCAACAAGCGCATGATTATTTTCATTCCACATCTAAGCAAGCTGCGAGCATTGCACTTCAGGCAAATGCGAAGCGATTAATCTTAACTCACATTAGTTCTCGCTATCAAGGAGATACATATAAGGAATTATTGAAAGAGGCAAGAGAGTTGTTTTCTAATACAGAAATAGCGACAGATTTGAAATCATTCCCAGTAGAAAAATGA	MEFVFLGTGAGVPSKGRNVSAIALQLLEERGQTWLFDCGEATQHQILHTSVRPRRIEKIFITHLHGDHIFGLPGLLGSRSFQGGTTPLTVYGPKGIKQFIEVALSVSTTHVKYPLEVVEITEEGTVFEDNEFYVETKRLSHGIECFGYRIVEKDIQGALLVDKLLEMGVKPGPIFKRLKDGEVVELEDGTILNGNEFIGPPQKGRIITILGDTRYCEASRELAQDADVLVHEATFAAEDEQQAHDYFHSTSKQAASIALQANAKRLILTHISSRYQGDTYKELLKEARELFSNTEIATDLKSFPVEK				NA	NA	NA	NA	NA
AK009_03005	252			hypothetical protein	ATGAAAGAAGTATTTCGTTTACAAACTGATTTTTCATCTTCATTTGATCGCTGGGTAAGTTCTTTCGTGTCTGATCACCCAGCACAATTAGAATGGACAACTTTAAAGGAATTAATCCATGAATATACAACATCACATACAAATGATACGTTACCAGCATATATTTCTTCAGCTTTAACATATTACGCCCAACGCGTTTCAACTACAAACAGTTCAGAGATTGTTATTTTTGAAAACCCTACAATCTCGTAA	MKEVFRLQTDFSSSFDRWVSSFVSDHPAQLEWTTLKELIHEYTTSHTNDTLPAYISSALTYYAQRVSTTNSSEIVIFENPTIS				NA	NA	NA	NA	NA
AK009_03006	414			hypothetical protein	ATGGATGAGGAATGGGGAATAAGTGAATCAGCTTTAGCTTTGTTACGAACTTTAGATAAAGAATATATTTGTGATATTGAAAATGAAGAGGGGGTTATTTTGCACGGATGTGGCACTATGCTAATGTTAGGATGCCCAATTTCAATTCATTGGACTATAAACCATATAGGTAAAAATGTGATTTTAAAGGACTTTGTCAAAGTTATTTCTACTGATCAAAAGGCTATATACTATGAAGGGTTTCATATAGAATTGAATGAAAATGAATATAGAAAACAAATTGTTTCTTTTGCACTACAAGCAAAAGAATTATTTAATAAATCAAGTGAAAAGATAATTTTAAATGAGCTTGAGCGAAGTATGTATACCGACTTTTGGACGGAATATGATCATTTGTTAAATAAGTATAAATAA	MDEEWGISESALALLRTLDKEYICDIENEEGVILHGCGTMLMLGCPISIHWTINHIGKNVILKDFVKVISTDQKAIYYEGFHIELNENEYRKQIVSFALQAKELFNKSSEKIILNELERSMYTDFWTEYDHLLNKYK				NA	NA	NA	NA	NA
AK009_03008	2706	mgtB	COG0474	Magnesium-transporting ATPase, P-type 1	ATGTTTAATTTACAAAGACAAGAAACAAAGCATGCTTATGAGCAAGATAGCATGAAAACAAATAACGAATTATTAGTGGAGGTTGCAACACAAGATGTAAGCTCTGCGTTAAAACTTTTAGAAACAACACAAGATGGATTATCTAAACAAGAAGCGTCTCGTAGACTTTCTTTATATGGTCCGAACGAAATAGCTCATAATAAAATGGCGCCGTGGTACATTCAATTTCTATTGGCATTTAAAAATCCATTTATTTTCGTTTTATTAGCTCTTGGAGCACTCTCCTTTTTCACAGATGATATGCAAGGAACGATTGTCGTATCTGTAATGGTCCTACTTAGTGCAACGATTCGGTTTTCCCAAGAATTTCGTTCTCAAAAAGCTGCCGATAAGTTAAAAGCTATGGTTCGAACAACTGCGAGCGTATTTAGAATAAATGGATTTGTACATGAAACAAAAAATGTAAAGAATTTAAACCGAAATTACACAACAGAAATTCCAATTGAGGAACTTGTACCTGGCGATATTATTTCCCTTTCATCTGGTGATATCGTTCCAGCTGATGTGCGTGTTGTATCCGCTAAAGATTTATTTGTTAATCAATCTTCTTTGACAGGGGAAGCACTTCCTGTAGAAAAATACGAACACTGCTACCATACAGAAAATAAGCATATCTTACCGAAAAACATGAAAAAAAATTACAATCCACTCGATATGGAAAACCTTTGCTTCATGGGAACAAATATTGTAAGTGGTAGCGCAAAAGCTGTTGTCATCTCAACAAGTACCGATACGTATTTCGGCTCTTTAGCAAATAAGGTAATTGGAAAGCGTGTAGAAACAAGCTTTGATAAAGGTGTAAACAAAGTAAGCTGGCTCTTAATTACATTCATGCTTATTATGGCGCCTATTGTCCTTCTCATTAATGGATTCACAAAAGGAGATTGGCAAGAAGCTTTCTTCTTCGCTATTGCCGTCGCTGTTGGTCTTACACCTGAAATGTTACCAATGATTGTAACTGCTAATTTAGCTAAAGGTGCCGTTAACATGTCTAAACAAAAAGTAATTGTAAAACAGCTAAATTCTATTCAAAACTTAGGTGCTATGAACATTCTTTGTACAGATAAAACCGGAACTTTAACAGAAGATAAAGTTGTCCTTGTTCGTCACTTAGATCCCAAGGGAAATGAATGCAATCGCGTCTTACAATTTGCCTATTTAAATAGTTTCTATCAAACTGGATTGAAAAATTTAATAGATAAAGCTGTTATTAAGCATACAGAGGAAAACAATAAATTTAATCCATCAGCTTTTCAAAAGCTAGATGAAATTCCATTCGATTTCGCCCGCCGGCGTATGTCAGTCATCGTAAAAGATATTTCAGGTGAACATACAATGGTTTGTAAAGGTGCCGTAGAAGAAATTTTATCAATTTGTAATTACACCGAAGTGGATGAAAAAGTCGTTCCACTCACCGAGGAAATACGTTCAAATGTCAAAAAACTAAGTGAGACATTAAATAGTGAAGGTATGCGGGTTATTGCTGTGGCTTATAAAAAAGAGAGAAGAATAAATAATAAAGAGTACGCAGTAAAAGACGAAACAGATATGATTCTCAGTGGATATATCGGCTTTTTAGATCCACCGAAACCATCTGCAGCAGCTGCAATTCAAGCATTACAAAAACATGGTGTACAAGTGAAAATTTTAACTGGCGATAACGAAATTGTTACAAGAAAGGTTTGTAAAGAAGTTGGATTAGATATCGGCGAACCAATCCTCGGTTACGAGATTGATTCTTTACCAGATAAAGCATTAGCAAAACTTGCTGAAGAAACGACTGTATTTGCGAAGCTTAATCCAATGCAAAAATTTCGTATTATACACGCATTACAAGGAAATGGACACACTGTAGGTTACATGGGAGACGGCATTAACGATGCTGTAGCATTACGTGAAGCTGATGTCGGAATATCTGTTAATACTGCTACTGATATTGCGAAAGAAGCTTCCGATATTATTCTACTCGAAAAAAGTTTAACTATATTAGAAGCAGGTATTTTAGAAGGACGTACTACATTCGGAAATATTTTAAAATATATTAAGATGACAGCTAGCTCTAACTTCGGTAATGTGTTTAGCGTGTTAGTAGCAAGTGCTTTCATTCCTTTTTTACCGATGCTTGCCATTCATCTTTTAATTCAAAACTTACTTTATGATATTTCACAACTTTCTATTCCATGGGACAAAATGGATAAAGAGTTTCTAGAAAAACCACGAAAATGGGATACTGCAAACTTACGAAACTTCATTATTTGTATCGGCCCAATTAGTTCCGTATTTGATATTATCACATACGTAGTCATGTGGAATGTATTTGGTGCAAATACACCGAGCGAGCAATCATTATTCCAGTCCGGTTGGTTTGTCGTTGGATTGTTAACACAAACTTTAATTGTTCACATGATAAGAACACAAAAGATTCCATTTATTCAAAGCACTGCATCAACACCAGTCGTTTTATTAACCGCTCTTATTATGGCAATCGGGATTTATATTCCATTCTCACCACTTGGTGCAGCCGTTGGTTTACAAGCATTGCCACTTAACTACTTTCCTTGGTTAGTAGGAATACTATTAGGCTACGCTTTTTTAACACAATTCCTAAAAAAGCTTTATATTAAAAAGTTTCGTAGCTGGTTGTAA	MFNLQRQETKHAYEQDSMKTNNELLVEVATQDVSSALKLLETTQDGLSKQEASRRLSLYGPNEIAHNKMAPWYIQFLLAFKNPFIFVLLALGALSFFTDDMQGTIVVSVMVLLSATIRFSQEFRSQKAADKLKAMVRTTASVFRINGFVHETKNVKNLNRNYTTEIPIEELVPGDIISLSSGDIVPADVRVVSAKDLFVNQSSLTGEALPVEKYEHCYHTENKHILPKNMKKNYNPLDMENLCFMGTNIVSGSAKAVVISTSTDTYFGSLANKVIGKRVETSFDKGVNKVSWLLITFMLIMAPIVLLINGFTKGDWQEAFFFAIAVAVGLTPEMLPMIVTANLAKGAVNMSKQKVIVKQLNSIQNLGAMNILCTDKTGTLTEDKVVLVRHLDPKGNECNRVLQFAYLNSFYQTGLKNLIDKAVIKHTEENNKFNPSAFQKLDEIPFDFARRRMSVIVKDISGEHTMVCKGAVEEILSICNYTEVDEKVVPLTEEIRSNVKKLSETLNSEGMRVIAVAYKKERRINNKEYAVKDETDMILSGYIGFLDPPKPSAAAAIQALQKHGVQVKILTGDNEIVTRKVCKEVGLDIGEPILGYEIDSLPDKALAKLAEETTVFAKLNPMQKFRIIHALQGNGHTVGYMGDGINDAVALREADVGISVNTATDIAKEASDIILLEKSLTILEAGILEGRTTFGNILKYIKMTASSNFGNVFSVLVASAFIPFLPMLAIHLLIQNLLYDISQLSIPWDKMDKEFLEKPRKWDTANLRNFIICIGPISSVFDIITYVVMWNVFGANTPSEQSLFQSGWFVVGLLTQTLIVHMIRTQKIPFIQSTASTPVVLLTALIMAIGIYIPFSPLGAAVGLQALPLNYFPWLVGILLGYAFLTQFLKKLYIKKFRSWL				NA	NA	NA	NA	NA
AK009_03009	702	mgtC	COG1285	Protein MgtC	ATGGTATGGTACGACATTGTATTCAGATTAGTTATAGCAATTATTGTAGGAGCTTGCATTGGAATGGAAAGACAATGGAGACACAGAATGGCTGGGTTACGGACAAATGCTCTCGTATCACTTGGTGCCTGTATATTTGTTTTATTATCCGTCATGCTTGATCATGATGCTAGCCCATCCCGCATTGCTGCTCAAGTCGTTAGTGGCATTGGCTTTTTAGGGGGTGGCGTTATTATCCGCGATGGTTTTAGTATTAGAGGGCTAAATACGGCAGCTACTTTATGGTGTGCAGCTGCTGTCGGTACTCTTACAGGCGCCGGTTTCCTCGTTGCAGCTATATTAGGTACAGCCGGCGTGTTACTAGCAAATATACTCCTTCGCCCAATTGCTCTTTTTATGAATAAAAAATCAAAAAAAGAATCACCAGAACAAACAAACTACTTACTTTCCCTTACTTGTTCAGAAGAAAATGAAGCACATATTCGTTTTTTACTTATGCATATGGTAAGTACAGAAGGGCTCGGTTTAAAAGAGTTGTATAGCGAAGACGTAGATTCTAATCGAAAGGTGTGTATACAGGCTACATTACATTGCAAGACAAATGCGGCTATCTTAATTGAAAAAATAGTAAGTAGAATGCTATTAGAATCTGGCGTTACTGCAGCTGGTTGGAAAACTTCATTAGATTTAGAAGCAAGTTAA	MVWYDIVFRLVIAIIVGACIGMERQWRHRMAGLRTNALVSLGACIFVLLSVMLDHDASPSRIAAQVVSGIGFLGGGVIIRDGFSIRGLNTAATLWCAAAVGTLTGAGFLVAAILGTAGVLLANILLRPIALFMNKKSKKESPEQTNYLLSLTCSEENEAHIRFLLMHMVSTEGLGLKELYSEDVDSNRKVCIQATLHCKTNAAILIEKIVSRMLLESGVTAAGWKTSLDLEAS	PGPT0014005_1209	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK009_03010	1239	dinB_1	COG0389	DNA polymerase IV	ATGCGAGAAATGTATCCGAAAAATGGTCGTGTTATTTTACATGTAGATATGAATTGCTTTTTCGCATCTGTTGAAATTGCTCATGATCCATCATTACAAGGAAAGCCATTAGCGGTTGCTGGAAATGAAAAAGAGAGAAAAGGAATTATAATAACATGTAGTTATGAGGCGAGAGAATACGGAATACGTACGACGATGCCCCTTTGGGAAGCGAAAAGATTATGCCCGCAATTAGTTGTAAGGCGTCCTAATTTCACATTATATCGCGAAGCTTCATTTCAAATGTTTCAAGTCCTTTCCCGTTTTACAGAAAAGATACAACCAGTCTCAATAGATGAAGGATATTTAGATATTACAGATTGCTATGCACTTGGTTCGCCTCTTGAAATAGCAAAGATGATGCAACAAGCACTATTAACAGAGTTACAGCTTCCGTGTAGTATCGGAATCGCTCCAAATCTTTTCCTAGCAAAAACAGCTTCTGATATGAAAAAACCTCTCGGTATTACCGTGCTTCGAAAACGTGATATTCCAGAAATGATTTGGCCACTTCCAGTTGAAGCAATGCATGGGATTGGAGAAAAAACAGCTGAAAAATTAAATGAAATTCATATACATACAATTGAACAGTTAGCGAAGGGAGACGAGCATATCATTCGCGCTAAAATTGGCAAGCACGGTATTGATTTACAAAAGCGTGCAAAAGGTACGGATGATAGGGAAGTGGATCCGAGTCAAATGGGCCAACATAAAAGTGTCGGTAACTCGATGACTTTTTCAAAGGATATGGATGAAGAGAAAGAATTACTTGATATGTTAGAACGGTTATCAAAATCAGTGAGTAAAAGATTACAAAAGCGAACCCTTGTCAGCTATAATATTCAAATTATGATTAAATACCATGATAGGCGAACAGTAACACGGAGTAAGCAATTGAAAAATGCGATTTGGGAAGAACGTGATATTTTTCAAGCAGCATCCCGTTTATGGAAGCAACATTGGGATGGTGATTCCGTTCGTTTACTAGGTGTTACAGCTACTGAAATAGAGTGGAAGACAGAATCGGTGAAACAATTAGATTTGTTTTCATTTGAAGAGGATGCGAAAAAAGAACCACTACTTGCTGTCATTGATCAAATTAATGATAAGTATGGAACACCGATTTTACAACGAGGTAGTCAACTACTACGTAAGCAAGAGAAGTCGTTTCAACAAAAGTTAGAAAATAAGTTTATGTAG	MREMYPKNGRVILHVDMNCFFASVEIAHDPSLQGKPLAVAGNEKERKGIIITCSYEAREYGIRTTMPLWEAKRLCPQLVVRRPNFTLYREASFQMFQVLSRFTEKIQPVSIDEGYLDITDCYALGSPLEIAKMMQQALLTELQLPCSIGIAPNLFLAKTASDMKKPLGITVLRKRDIPEMIWPLPVEAMHGIGEKTAEKLNEIHIHTIEQLAKGDEHIIRAKIGKHGIDLQKRAKGTDDREVDPSQMGQHKSVGNSMTFSKDMDEEKELLDMLERLSKSVSKRLQKRTLVSYNIQIMIKYHDRRTVTRSKQLKNAIWEERDIFQAASRLWKQHWDGDSVRLLGVTATEIEWKTESVKQLDLFSFEEDAKKEPLLAVIDQINDKYGTPILQRGSQLLRKQEKSFQQKLENKFM	PGPT0014881_1683	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
AK009_03011	156			hypothetical protein	GTGAAAGAGGCTGATTATGATGAAATTAACTATATGTTCCTTGTAGTTATATTAATCATTGCAATTAATTATTTACTACTTCCGATTTTCAATATGAATACGTTAGGATTATTCCCTCGTCTAGTACATATAGCAACAACGTATATACTTCCATAG	MKEADYDEINYMFLVVILIIAINYLLLPIFNMNTLGLFPRLVHIATTYILP				NA	NA	NA	NA	NA
AK009_03012	1119	pepT_1	COG2195	Peptidase T	ATGATTAATCAAGAACGTTTAGTAAATGAATTTATGGAATTAGTACAAGTAGATTCTGAAACGAAATTTGAAGCAGAAATCTGCAAAGTATTAACGAAGAAATTTACAGATTTAGGTGTAGAAGTATTTGAAGATGACACAATGGCTGTAACTGGTCATGGTGCAGGCAACTTAATTTGTACTTTACCAGCAACAAAAGATGGTGTTGATACAATTTACTTTACTTCTCATATGGATACAGTAGTTCCTGGTAATGGAATTAAGCCTTCTATTAAAGATGGATATATCGTATCAGATGGTACAACAATTTTAGGTGCGGATGATAAAGCTGGATTAGCATCCATGTTCGAAGCAATCCGTGTTTTAAAAGAGAAAAATATCCCTCACGGTAAAATTGAATTTATTATTACAGTCGGAGAAGAATCAGGTCTTGTTGGTGCAAAAGCTTTAGATCGTGAGCATATTACAGCGAAATATGGCTACGCATTAGATAGCGATGGAAAAGTTGGTGAAATCGTTGTTGCAGCTCCAACACAAGCGAAAGTGAACGCAATTATTCGCGGGAAAACAGCTCACGCTGGTGTAGCGCCGGAGAAAGGTGTATCTGCAATTACTATCGCAGCGAAAGCAATTGCGAAGATGCCACTTGGTCGCATTGACTCTGAAACGACTGCAAATATTGGACGTTTTGAAGGTGGTACACAAACGAATATCGTTTGCGATCATGTACAAATCTTTGCAGAAGCTCGTTCGTTAATCAATGAGAAAATGGAAGCACAAGTTGCGAAAATGAAAGAAGCATTTGAAACAACTGCAAAAGAAATGGGCGGTCATGCAGACGTTGAAGTAAACGTTATGTACCCAGGATTTAAATTTGCTGATGGGGATCACGTTGTAGAAGTTGCAAAACGTGCAGCTGAAAAAATTGGTCGTACACCTTCTCTTCACCAAAGTGGTGGCGGAAGTGATGCAAACGTAATTGCAGGACACGGTATCCCAACAGTTAACTTGGCAGTTGGTTATGAAGAAATTCATACAACAAACGAGAAGATTCCTGTTGAAGAGTTAGCAAAAACAGCAGAATTAGTTGTTGCAATTATTGAAGAAGTAGCGAAGTAA	MINQERLVNEFMELVQVDSETKFEAEICKVLTKKFTDLGVEVFEDDTMAVTGHGAGNLICTLPATKDGVDTIYFTSHMDTVVPGNGIKPSIKDGYIVSDGTTILGADDKAGLASMFEAIRVLKEKNIPHGKIEFIITVGEESGLVGAKALDREHITAKYGYALDSDGKVGEIVVAAPTQAKVNAIIRGKTAHAGVAPEKGVSAITIAAKAIAKMPLGRIDSETTANIGRFEGGTQTNIVCDHVQIFAEARSLINEKMEAQVAKMKEAFETTAKEMGGHADVEVNVMYPGFKFADGDHVVEVAKRAAEKIGRTPSLHQSGGGSDANVIAGHGIPTVNLAVGYEEIHTTNEKIPVEELAKTAELVVAIIEEVAK	PGPT0020915_2703	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
AK009_03013	546	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGATGAAAATATACGAAACAGATCGTTTATACTTAAGGGAAATAGATGAGTCGTATGCTGAAACAGTTCTTCAATATTACGACAGAAATCGTGAATTTTTAAAAGCTTGGGAAGAGTATAGACCGGATGATTTTTTTACGCTAGATTATCAAAAGAAAAAGTTGCAAAAGGATAGAAAAGAGTTCGAAGACGGGAAAATCATCAGACTATGGATTTTTAAAAAGGGTGATGATACAAAAATAATTGGGTGTATTTCATTTAATTTAATCGTTCGTGGCATTTATCAATCTTGTGTACTCGGTTATAAATTAGATAAAGCAGAGTTAAACAAAGGGTATACGACAGAAGCACTTAGAAAAGCAATTCAAGTTGCTTTTGAGGAATTTCAGTTACATCGTATAGAAGCTCCGATTATGCCTCGTAATTTAGCATCTATACAAGTGGTGACGAAGATAGGTTTTCAATATGAAGGCGTGTCTAGGAAGATGTTAATGGTAAATGGCGTGTGGGAGGATCATATGCGCTGGGTATTGTTAAATGAGTAA	MMKIYETDRLYLREIDESYAETVLQYYDRNREFLKAWEEYRPDDFFTLDYQKKKLQKDRKEFEDGKIIRLWIFKKGDDTKIIGCISFNLIVRGIYQSCVLGYKLDKAELNKGYTTEALRKAIQVAFEEFQLHRIEAPIMPRNLASIQVVTKIGFQYEGVSRKMLMVNGVWEDHMRWVLLNE				NA	NA	NA	NA	NA
AK009_03014	93			hypothetical protein	ATGCATAAAAAAGCTCAAAAAATTATGGTTTATGTGATGCTAATTTCTATGCTTGTAACAACATTACTTGCTGGCGCGAGTATGTTTTGGTAA	MHKKAQKIMVYVMLISMLVTTLLAGASMFW				NA	NA	NA	NA	NA
AK009_03015	240			hypothetical protein	ATGTACTTGAATCCAAAACTTTCGTATATGCAGTTTTTTATGGGATTTCTATTTGTTATTACATTCATATTGGCAACTTTTAATATATGTTCTTATCTTGTAGCGATTGTATGTATGGCATTACTTAATCTCACTTTTGTTATTGGAGCATTTCAGCAGAAACAATATACAAGTTTTGTAATAGCACTTGTAATGTCATTTTCCTTTAGTATTATAGCGATTGTGTTTTATATAAAATAA	MYLNPKLSYMQFFMGFLFVITFILATFNICSYLVAIVCMALLNLTFVIGAFQQKQYTSFVIALVMSFSFSIIAIVFYIK				NA	NA	NA	NA	NA
AK009_03016	561			hypothetical protein	ATGCCGTATCTTCTCTCTATCATATTATGTCTTTCTTTATCGCCGCTTTGGCCTCTTGGGGAGAATCCACGTGCCGGAGATCCTTTTATTATTGTAAATAAAGCAACGAATAAATTAGCTTACATTGACGATGGAAAGATTCAAAAGGTTTCTCCAGTAGCGACAGGGAAAACGAATGAATTAACTCCAGAAGGAACTTTTGATGTTGTAATGAAAGCGAAGGATCCATATTACATTGCAAAGGATATTCCAGGTGGATCGCCAAAAAATCCACTTGGATCAAGGTGGATTGGATTTAATGCAAGAGGAACTGATGGAAGTAAATATGGAATACATGGAACAAACCAACCGAGTTCAATTGGAAAGTATATTTCACAAGGATGTATAAGAATGAAGAAAAACGATGTGGAATATTTGTTTGATCGTATTCCAATTGGAACGAAAGTATGGATTGTGAAATCGAAAAAATCATTTCAGCAATTGGCAAAAGAAAAAGGAGCCGTTGCATATGAAAAAGCCAACGAAAAGGTTGGCTTTTTCTATTGTAATAAGTTGTCTTGA	MPYLLSIILCLSLSPLWPLGENPRAGDPFIIVNKATNKLAYIDDGKIQKVSPVATGKTNELTPEGTFDVVMKAKDPYYIAKDIPGGSPKNPLGSRWIGFNARGTDGSKYGIHGTNQPSSIGKYISQGCIRMKKNDVEYLFDRIPIGTKVWIVKSKKSFQQLAKEKGAVAYEKANEKVGFFYCNKLS				NA	NA	NA	NA	NA
AK009_03017	969			hypothetical protein	ATGTTCAAAATTGGATACCGTACAGTAAAAACAGCAATAGGGACAGGCGCGGCAGTTTTTATTGCTCAGTTATTAGGATTAGAATTTTATAGTTCAGCAGGTATTTTAGTTATTTTATGTGTACAAAATACGAAGCGCAAATCGCTTCAAGTGTCGTTACATCGTTTTCTAGCGTGTGTATTATCAATGGTATTCGCGTTTTGTATTTTTGAAACGATCGGCTATACACCACTTGCAATTAGCATATTGTTACTTACATTTATTCCGACTGCAGTAATGCTTAAAATTCAAGAAGGTATTGTCACGAGTTCAGTTATTGTTATGCATCTATATTCATTGAAGCAAATTACATGGCTTATAGTTGGAAATGAAATTGCTATATTAACGATAGGGATTAGCGTGGCTCTATTAGTGAATATGTATATGCCGAGTAGTGAAAATAAGCTAAAAGAGTATCAAGATAAAATAGAGAGTAATTTTAAAACGATTTTGTTTGAAATGGTTGTGTATTTACGAAATCGAGAAAGTAGTTGGAGTGGAGCAGAACTCATTGAAACCGAGAATATGTTAAATGAGGCAAGAGATTTATCGTTTAAAAAACTTGAGAATGCATTTATGCGAGAAGATGATTATTACTATCGTTATTTTAATATGCGTATGCAACAATTCGAAATTTTAGAGCGAATGATACCACTAGCAGCTTCTTTATCGTGGACATATGAACAAGCTGACATGATTGCAGATGTTGTTGAAAACATTGGTAATGCTATTAGCCCTGAGAGTACTGGCGTTATTTCCTTAAGGCAGCTTCAAGAAATGAGGGAATTATTTAGAGACATGCCATTGCCAGCTACACGCGAAGAATTTGAGATACGTGCGAAACTTGTTCAACTTGTGTATGAAATGGAACAATATTTACTAATTAAAAGTCGCTTTAAGGGAAAGGATAATATAAAAGAACTTATATAG	MFKIGYRTVKTAIGTGAAVFIAQLLGLEFYSSAGILVILCVQNTKRKSLQVSLHRFLACVLSMVFAFCIFETIGYTPLAISILLLTFIPTAVMLKIQEGIVTSSVIVMHLYSLKQITWLIVGNEIAILTIGISVALLVNMYMPSSENKLKEYQDKIESNFKTILFEMVVYLRNRESSWSGAELIETENMLNEARDLSFKKLENAFMREDDYYYRYFNMRMQQFEILERMIPLAASLSWTYEQADMIADVVENIGNAISPESTGVISLRQLQEMRELFRDMPLPATREEFEIRAKLVQLVYEMEQYLLIKSRFKGKDNIKELI				NA	NA	NA	NA	NA
AK009_03018	723	artM_1	COG1126	Arginine transport ATP-binding protein ArtM	GTGATTAAAATTGAAAACCTTCATAAATCATTTGGTAAAAACGAAGTATTAAAAGGAATTACAACAACGATTGAAAAAGGGGAAGTAGTTGCAATTATAGGACCTTCTGGATCAGGAAAATCAACATTTTTACGTTGTATGAATATGTTAGAAGCACCAACGGATGGTCACATTTGGATTGGAACGGAAGAAGTAACGAATCCGAAAACGAATGTTATGCATGTTCGTGAAAATGTCGGTATGGTATTTCAGCATTTTCACTTATTTCCTCATATGACTGTATTAGAAAATATTACGTATGCTCCTATCAATGTAAAAGGGGTAACGAAGCAAGAAGCTGAAAAGAAAGCTGAGAAACTTTTAGAAAAGGTTGGATTAGTAGATAAAAAAAATACGTATCCGAATCGTTTGTCGGGAGGACAAAAGCAACGTGTAGCAATTGCAAGAGCGTTAGCGATGGAACCGGAAGTTATGTTATTTGATGAACCGACATCGGCGCTAGATCCAGAGATGGTGAAAGAAGTGTTAGAAGTTATGAAATCGTTAGTTACGACAGGAATGACGATGGCTATCGTTACACATGAAATGGGCTTTGCAAAAGAAGTGGCAGATCGTGTTCTTTTCTTGGACGGAGGAAAGCTTGTAGAAGATAGTGCGCCAGAAGAATTTTTTGCAGCGCCGAAAAGTGAACGTGCGCAACAATTTTTACAAAAAATATTGTAA	MIKIENLHKSFGKNEVLKGITTTIEKGEVVAIIGPSGSGKSTFLRCMNMLEAPTDGHIWIGTEEVTNPKTNVMHVRENVGMVFQHFHLFPHMTVLENITYAPINVKGVTKQEAEKKAEKLLEKVGLVDKKNTYPNRLSGGQKQRVAIARALAMEPEVMLFDEPTSALDPEMVKEVLEVMKSLVTTGMTMAIVTHEMGFAKEVADRVLFLDGGKLVEDSAPEEFFAAPKSERAQQFLQKIL	PGPT0020555_432	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
AK009_03019	660	artQ	COG0765	Arginine transport system permease protein ArtQ	ATGAACTTAGATTTTTCGGCGATTACGCCTTCGATACCATATATACTAAAAGGTTTAGAAGTTACTTTGAAAATTGTAGCAGTATCAGCTTTAGCAGGATTTATTTTAGGAACATTATTAGCACTTTGTAAAATTGCTAGAATACGAGCGTTAAATATAGCAGCAGATTTTTATACATCAATTTTTCGTGGTACACCACTTGTATTGCAATTAATGATTATTTATTTCGGCGTCCCGCAAATAATTGGTTATGAAATACCAGCATTCTTAGCAGCTGTACTTGCATTTAGCTTGAATTCAGGTGCATACATGTCAGAAGTGATTCGTGCTGGTATTCAAGCAGTTGATAAAGGACAAACAGAAGCAGCGATGGCTTTAGGGATACCGTACGGAAAAATGATGAGAAATATTATTTTCCCTCAAGCATTAAAAAATATATTACCAGCTCTTGTGAACGAATTTGCGACACTTACGAAAGAATCGGCTGTAGTAACAGTAATAGGCGCGACTGATTTAATGCGTCGTGCTTACATCGTAGGCGGTGAGACATTTAAATATCTTGAACCATTACTTTTTGTTGGACTGATTTATTATATGTTAGTCATTATTCTTACATTAGTCGGGAAGGCAATTGAAGGGAGAATGAAGAAAAGTGATTAA	MNLDFSAITPSIPYILKGLEVTLKIVAVSALAGFILGTLLALCKIARIRALNIAADFYTSIFRGTPLVLQLMIIYFGVPQIIGYEIPAFLAAVLAFSLNSGAYMSEVIRAGIQAVDKGQTEAAMALGIPYGKMMRNIIFPQALKNILPALVNEFATLTKESAVVTVIGATDLMRRAYIVGGETFKYLEPLLFVGLIYYMLVIILTLVGKAIEGRMKKSD	PGPT0020550_548	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
AK009_03020	780	artP	COG0834	Arginine-binding extracellular protein ArtP	ATGAAGAAGTTATTATCAATATCGTTTGCACTTATTTTAATTGTAAGTATATTCAGCGCTTGTAGTAATGGGGAATCGAAAGAAACAAAAGGAAATAAGAAAGTACTCGTAATGGGGACTTCAGCAGATTATAAACCATATGAATACGTGGAAGCTTCAAAAAGTGATGAAATTATTGGTTTTGATGTTGATGTTGCTAAATATATTGGAAAAGAACTTGGGTATGAAGTGAAAGTGAAAGATATGGATTTTGGTGGTTTATTAGCATCTCTTAGTTCAGGAAAAGTTGATTTCGTAATGGCAGGTATGACGCCAACTGCAGAGCGTAAAAATAATGTTGATTTTACAGATATTTATTTTGTTGCGAAAAATATGGTCGTTTCTAAAAAGGATTCTAATATTAAATCTGTAGAGGATTTAAAAGGGAAAAAAGTAGGAGTACAAACAGGATCTATTCAAGAAGAGAAAGCAGCAGAATTTAAAAAACAAGTAGATTTCCAAGTTGAGGGACGTGACCGTATACCAGAAATCGTACAAGAAATTAAAGCTGGTCGTTTTGACGCTGCAATTATAGAAGACACAGTTGCTAAAAATTATTTAGAGAAAATGAAAGATTTAAAAGGAATTGAAATTAAAGAAGCGCCAGAAGAAGTTGGAGCAGCAATTGCCCTTCCGAAAAATAGTGATAAAACAGCTGAATTTAATAAAGTAATTAAAAAAATGCAAGAAAATGGAGAAATGGATAAATTAGTGAAGAAATGGTTTGGCAGCGAAAAATAA	MKKLLSISFALILIVSIFSACSNGESKETKGNKKVLVMGTSADYKPYEYVEASKSDEIIGFDVDVAKYIGKELGYEVKVKDMDFGGLLASLSSGKVDFVMAGMTPTAERKNNVDFTDIYFVAKNMVVSKKDSNIKSVEDLKGKKVGVQTGSIQEEKAAEFKKQVDFQVEGRDRIPEIVQEIKAGRFDAAIIEDTVAKNYLEKMKDLKGIEIKEAPEEVGAAIALPKNSDKTAEFNKVIKKMQENGEMDKLVKKWFGSEK	PGPT0020560_550	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
AK009_03021	435			hypothetical protein	GTGATTAATTTTAACTTTTTTATGAATGATGTTGTCCGCCAAGCGCGTGAAGAGATTGTCTCTGCTGGATATACAGAATTGACGACGCCAGAAGCGGTAGAAGAAGCGTTTAAAAGAAATGGAACAACACTTGTAATGGTAAACTCTGTATGTGGTTGTGCAGGTGGTATCGCTCGTCCTGCTGCTGCGCATTCCGTACATTATGATAAACGTCCTAACCACCTTGTAACGGTGTTTGCAGGTCAAGATAAAGAAGCGACAGCAAGAGCGCGTGAATATTTCGAAGGGTACCCACCTTCTTCTCCATCATTTGCTTTATTAAAAGATGGAAAAATTGTAACGATGGTAGAGCGTCATGAAATTGAAGGTCATGAACCGATGCAAGTTATTGCAAAACTACAATCGTATTTCGAAGAGAATTGTGAAGAACTATAA	MINFNFFMNDVVRQAREEIVSAGYTELTTPEAVEEAFKRNGTTLVMVNSVCGCAGGIARPAAAHSVHYDKRPNHLVTVFAGQDKEATARAREYFEGYPPSSPSFALLKDGKIVTMVERHEIEGHEPMQVIAKLQSYFEENCEEL	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
AK009_03022	408	yjdF		putative protein YjdF	ATGGAGTTGACAGTATATCATGATGGCCAATTTTTTGTTGGAATTATTACATGCAAAGAACAAGGGAAATTGTATGGAGCGAGGTATATTTTTGGAGCGGAACCGTCAGATGAAGAAGTGCTTATGTTTGTGAATGGTTCACATTTAGAGCATTTTCAGCATTTTGCAAAATGTGGTGTAGAAGTTAAAGAAAAACAGCGTCCTAAAAATATAAAGCGTATCATACGACAAACAGCAAAAGAAACAAATGTTAAACGTTTTACTAAGGCGCAAGAGGCGATTAGTTTATCTTATGAATTGCATAAACAAGAAAAGAAAGTGCAGTCTAAGGAGAAGCGAGAAGCTGAAAAAGAAAGAAGACGTTTAATTAAAGTACAAAAAGCAAAGCAAAAACATCGTGGTCATTAA	MELTVYHDGQFFVGIITCKEQGKLYGARYIFGAEPSDEEVLMFVNGSHLEHFQHFAKCGVEVKEKQRPKNIKRIIRQTAKETNVKRFTKAQEAISLSYELHKQEKKVQSKEKREAEKERRRLIKVQKAKQKHRGH				NA	NA	NA	NA	NA
AK009_03024	465	nudC_3		NADH pyrophosphatase	GTGGGATATGTAGAAGAATTACGAAAAATAGTTGGTCATCGCCCTTTAATTTTAGTTGGTGCTGTTGTACTCGTTATAAATGAAAATGGTTATGTTTTATTGCAGCAGCGGACAGAGCCGTACGGAAAATGGGGGCTACCTGGCGGGCTAATGGAGCTTAGTGAATCACCAGAAGAAACAGCTTATCGTGAAGTATATGAAGAGACAGGAATAAAAGTGAAGAACTTGCGACTAATCAATGTATTTTCTGGAGCGAACTACTTTACAAAATTAGCAAACGGTGATGAATTTCAATCTGTAACAACCGCCTATTATACGGATGAATACGAAGGGGATTTTGTTATGAATAAAGAAGAAGCAGTTCAGCTTAAATTCTTTTCAGTAACAGAACTACCTGACTATATTGTGGGATCGCATAAAAAAATGATTGCTGAATATATGAAGATTATGGAAAAAAAGATATAA	MGYVEELRKIVGHRPLILVGAVVLVINENGYVLLQQRTEPYGKWGLPGGLMELSESPEETAYREVYEETGIKVKNLRLINVFSGANYFTKLANGDEFQSVTTAYYTDEYEGDFVMNKEEAVQLKFFSVTELPDYIVGSHKKMIAEYMKIMEKKI				NA	NA	NA	NA	NA
AK009_03025	705			hypothetical protein	ATGCATATGCATATTTTTGAAGGAGCACGGCATCTTTCTAATAGTGAATGGGTTATTCGGGCTATTATAGCATACATATTTTTAATATTAGTTGCGAAAGCGATGGGGCAAAGGTCTATCGCACAACTTCGTTTTTTAGATGTTGTATTAGTGTTATTGCTTGGTGGGAATATTTCTAACGCATTGTCTGATGAAAAAGTAGGGTTACTGGGCTCGATGATTACAACGTTCATACTTGTTGTACTTCATATTATAAGCTCAGTTTTAATGCTGAAATGGGATAGATGGAGACGCTTTTTAGAGCCTGCACCTATTATTCTTATACACAATGGTTCCATTGATTTTAGCAATTTGAAAAAGGCGAGAATTACCTTGGAATATTTGTTTTCGGAACTTCGTATGCGAAATGTGAGCGATATTCAAACGGTTAAATTAGCATTATGGGAAGCGAGTGGCGTTGTTTCTATATTTCAGTATCCAGAATATGAAGCAGCTTCTCGGCGGGATCTAAAAGTGGCGGGGAGAAGGTCTCCAGTTTCTTTCATTTTAGTGAAAAATGGAAGGATTCAACAGGACGTTCTCGCTTTAATAGAAAAACCAGAAGAGTGGGCAAAAGAGTTTTTAGAGAAGAGTGCGGAAATTGAATCCATTATGTTAGCTACAGTAGATGAATCACATAAAATAAATATTTTGTTAAAAAAATGA	MHMHIFEGARHLSNSEWVIRAIIAYIFLILVAKAMGQRSIAQLRFLDVVLVLLLGGNISNALSDEKVGLLGSMITTFILVVLHIISSVLMLKWDRWRRFLEPAPIILIHNGSIDFSNLKKARITLEYLFSELRMRNVSDIQTVKLALWEASGVVSIFQYPEYEAASRRDLKVAGRRSPVSFILVKNGRIQQDVLALIEKPEEWAKEFLEKSAEIESIMLATVDESHKINILLKK				NA	NA	NA	NA	NA
AK009_03026	1179	rodA_2	COG0772	Peptidoglycan glycosyltransferase RodA	ATGAAAAGAAGTACCGAGTTTCTAAAAAGTTTAGATGTAAAATTAATTTTAATTTTGTGTGCACTATGTGTGACGAGTATAGCTGCTATATATAGCAGTCAGCAAACGGGACAGTATGGAGCTGCAAACTTTGCTATGAAGCAGGGGATTAACTACATAATTGGGGTTGTATTGTTACTTCTTATTGCTAGCATTGACTTAGATCAGTTGCAAAAATTGTCTTGGCCGCTTTATATTGCTGGGTTTGCTTCACTTATTCTTTTGAAAGTATTACCACCATCAGGTTTTACACCTGAAAAATTAGGTGCAAAAAGATGGTTTGTTTTCCCAGTATTTGGACAAATTCAGCCGTCTGAGTTTTTCAAAATTGCATTGCTTCTTGTAGTAGCGAGTATAGCAGTGAAACATAATGCACAGTATATGGCAAGGACATTCCAAACAGATTTAAAGCTAGTAGGTAAAATTATGCTAGTGTCACTTCCGCCTATGGCGGTTGTATATAGTCAACCGGATACAGGTATGGTGTTCTTATATGCTGCTGCAATTGCATGTATTTTATTTATGTCAGGTATACAAAAGAAATTGATAGCATTATGTACAGTTATTCCGTTGACCATATTATCTGCTTTAATATTTATTTTCTTTAAGTATCAAGATTTTTTCTATAATAATTTAGTTACTTTACTAAAACCTCACCAACAGTCGCGTATTGTAGGTTGGTTAAATCCATTTGAAAATGCAGATCAAGGTTACCAAACGCAACAATCGATTTTAGCTGTAGGTAGTGGAGGAATGGAAGGTAAAGGGTTTGGGGGAGGAAGCGTCTATATCCCAGAGAAGCATACTGACTTTATTTTCGCTACAATTGCCGAAGAAGGTGGGTTTATCGTAGCAGCGTTAGTTGTCTTCTTGTTCCTATTACTACTATATCGAACAATTATTATTGGTTATTCCGCTGATAATTTATTTGGTACATTATTATGCGCTGGATCGATTGGTATATTAACAGTTCAAATATTCCAAAACATCGGTATGATCGTTGGATTAATGCCTGTAAAAGGTATTGCATTACCTTTCTTATCGTATGGGGGAAGTTCCTTATTCTCGAATATGATTATGATGGGGCTCATACTATCGGTACGGAAAACTTATAAAAAATATATGTTTTCAGTTAAGTAA	MKRSTEFLKSLDVKLILILCALCVTSIAAIYSSQQTGQYGAANFAMKQGINYIIGVVLLLLIASIDLDQLQKLSWPLYIAGFASLILLKVLPPSGFTPEKLGAKRWFVFPVFGQIQPSEFFKIALLLVVASIAVKHNAQYMARTFQTDLKLVGKIMLVSLPPMAVVYSQPDTGMVFLYAAAIACILFMSGIQKKLIALCTVIPLTILSALIFIFFKYQDFFYNNLVTLLKPHQQSRIVGWLNPFENADQGYQTQQSILAVGSGGMEGKGFGGGSVYIPEKHTDFIFATIAEEGGFIVAALVVFLFLLLLYRTIIIGYSADNLFGTLLCAGSIGILTVQIFQNIGMIVGLMPVKGIALPFLSYGGSSLFSNMIMMGLILSVRKTYKKYMFSVK				NA	NA	NA	NA	NA
AK009_03027	1296	pdhC_3		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCTGTAGAAAATATTACAATGCCTCAGCTCGGGGAGAGCGTTACAGAGGGCACAATTAGTAAATGGCTCGTTAATGTTGGCGATCACGTAAACAAGTATGATCCGCTTGCAGAAGTAATGACTGATAAAGTAAATGCTGAAGTACCATCTTCTTTCACTGGTATTGTGAAAGAGTTAATCGCTGGTGAAGGTGATACGTTAGCTGTAGGTGAAGTAGTTTGTGTGATTCAAGTAGAAGGCGCAGACGAAGTAGCAGCAACAGCTGTTGAGGAAAAAACGAAAGAAGAACCAAAGGCAGCAGCAATTACGCCTGAAAAAGCACCGAAAGTAAAACAACCAACTGATGGAAAACCACGTTTTTCACCAGCTGTGTTAAAACTTGCGGGTGAGCATAACGTTGATTTAGATTTAGTAGAGGGTACGGGAGCAAACGGCCGTATCACTCGTAAAGATATTTTAAAGCTAGTGGAATCTGGAAATATTCCACAAGCAGGTGCGAAGAAAGAGGAAGCTGTAGCGGTAGTAGTAGAAGCTCGCCCAGTAGCACAAAAAGTAGAAGCTGCGAAACCAGTTTCTGTACCTACAATGCCTGGAGATATTGAAATTCCAGTAACAGGTGTGCGTAAAGCAATCGCAGCAAACATGTTACGCAGTAAACACGAAGCACCACACGCTTGGATGATGATTGAAGTAGATGTGACAAACCTTGTGTCATACCGTAACTCAATTAAAGGTGACTTTAAGAAGCGTGAAGGCTTTAACTTAACGTTCTTTGCTTTCTTCGTAAAAGCAGTGGCACAAGCGTTAAAAGAGTATCCTCAAATTAATTCAATGTGGGCTGGCGATAAAATTGTTCAGAAGAAAGATATTAACCTTTCTATCGCTGTTGCAACAGAGGAAGAATTATTTGTACCAGTAATTAAGCAAGCGGACGAGAAAACAATTAAAGGTATCGCTCGTGAAATTACAGAACTTGCAGGAAAAGTACGCACGAAATCGCTAAAAGCAGACGAAATGCAAGGTGGAACATTTACAATTAATAACACAGGATCATTCGGTTCTGTTCAATCTATGGGTATTATTAATTACCCACAAGCGGCTATTTTACAAGTTGAATCAATTGTAAAACGCCCAGTAATTATGGATAATGGTATGTTCGGTGCTCGTGACATGGTTAACTTATGTTTATCACTTGATCACCGCGTACTTGATGGTTTAATCTGTGGTAAGTTCTTAGGACGTGTTAAAGAAATTTTAGAAAACATGTCAGAAAACAATACATCTGTATATTAA	MAVENITMPQLGESVTEGTISKWLVNVGDHVNKYDPLAEVMTDKVNAEVPSSFTGIVKELIAGEGDTLAVGEVVCVIQVEGADEVAATAVEEKTKEEPKAAAITPEKAPKVKQPTDGKPRFSPAVLKLAGEHNVDLDLVEGTGANGRITRKDILKLVESGNIPQAGAKKEEAVAVVVEARPVAQKVEAAKPVSVPTMPGDIEIPVTGVRKAIAANMLRSKHEAPHAWMMIEVDVTNLVSYRNSIKGDFKKREGFNLTFFAFFVKAVAQALKEYPQINSMWAGDKIVQKKDINLSIAVATEEELFVPVIKQADEKTIKGIAREITELAGKVRTKSLKADEMQGGTFTINNTGSFGSVQSMGIINYPQAAILQVESIVKRPVIMDNGMFGARDMVNLCLSLDHRVLDGLICGKFLGRVKEILENMSENNTSVY	PGPT0001535_1231	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
AK009_03028	984	bfmBAB	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGGCTGTAATGTCTTATATTGATGCTATTACATTAGCAATGCGCGAAGAAATGGAACGCGATGAGAAAGTATTCGTTTTAGGAGAAGATGTTGGTAAAAAAGGTGGCGTGTTTAAAGCGACACACGGTTTGTATGATCAATTTGGTGAAGATCGTGCGCTTGATGCACCGCTTGCAGAATCTGCAATTGCTGGGGTAGCAATTGGTGCAGCAATGTATGGTATGCGTCCAATCGCTGAAATGCAGTTTGCTGATTTCATCATGCCAGCAGTAAACCAAATTGTTTCTGAGGCAGCAAAAATTCGTTATCGTTCTAATAATGATTGGACTTGTCCAGTTACAATCCGTGCACCATTTGGCGGGGGGGTTCACGGTGCATTGTATCATTCACAATCTGTAGAAGCGATGTTTGCAAACCAACCAGGTTTAAAAATCGTTATCCCTTCTACACCATATGATGCAAAAGGCTTATTAAAAGCAGCCATTCGTGATGAAGATCCAGTATTATTCTTCGAACATAAACGTGCATATCGTTTAATTAAAGGTGAAGTGCCGGAGGATGACTACGTATTACCAATCGGAAAAGCAGATGTAAAACGTGAAGGTGATGATATTACAGTTATCACGTACGGATTATGTGTTCATTTTGCTCTTCAAGCAGCTGAAAAGTTAGCACAAGATGGCATCTCTGCACACATTCTTGATTTACGTACTGTATATCCATTAGATAAAGAAGCAATCATTGAAGCAGCTTCTAAAACAGGTAAAGTTCTTCTTGTAACAGAAGACAATAAAGAAGGAAGCATTATGAGTGAAGTGGCAGCAATTATTGCTGAAAACTGTCTATTTGATTTAGATGCGCCAATCGCACGTCTTGCAGGTCCAGACGTTCCAGCAATGCCATATGCACCAACAATGGAAAAATTCTTTATGGTAAATCCAGATAAAGTTGAAAAAGCAATGCGTGAACTTGCGGAATTTTAA	MAVMSYIDAITLAMREEMERDEKVFVLGEDVGKKGGVFKATHGLYDQFGEDRALDAPLAESAIAGVAIGAAMYGMRPIAEMQFADFIMPAVNQIVSEAAKIRYRSNNDWTCPVTIRAPFGGGVHGALYHSQSVEAMFANQPGLKIVIPSTPYDAKGLLKAAIRDEDPVLFFEHKRAYRLIKGEVPEDDYVLPIGKADVKREGDDITVITYGLCVHFALQAAEKLAQDGISAHILDLRTVYPLDKEAIIEAASKTGKVLLVTEDNKEGSIMSEVAAIIAENCLFDLDAPIARLAGPDVPAMPYAPTMEKFFMVNPDKVEKAMRELAEF	PGPT0008862_1664	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
AK009_03029	1002	bfmBAA	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGGCAGAAGTAAAAGAAAAGCGCCATGAAGAGCTTGGCTTAAGTGATGAGCAAGTATTAGAAATGTTCCGTACGATGTTACTTGCACGTAAAATCGACGAACGTATGTGGTTATTAAACCGCGCTGGTAAAATTCCATTCGTAATTTCTTGTCAAGGACAAGAGGCTGCACAAGTTGGAGCGGCGTTCGCTCTTGATAGAGAGAAAGATTATGCATTACCATACTATCGTGATATGGGTGTTGTACTAGCATTTGGTATGACAGCTAAAGAGCTTATGTTGTCTGCTTTCGCGAAAGCTGGAGATCCAAACTCTGGTGGTCGTCAAATGCCTGGTCACTTCGGTCAAAAGAAAAATCGTATTGTTACAGGTTCATCTCCAGTAACAACGCAAGTACCACATGCAGTTGGTATTGCACTAGCTGGAAAAATGGAGAAGAAAGATTTAGTAACGTTCGTTACATTTGGAGAAGGTTCTTCAAACCAAGGTGACTTCCATGAAGGGGCAAACTTTGCTGGTGTACACAAACTACCTGTTATTTTTATGTGTGAAAATAACAAATATGCAATCTCTATTCCGGTTGAAAAACAATTAGCATGTAAAAACGTATCAGATCGTGCAATTGGTTATGGTATGCCTGGATATACAATAGACGGAAACGATCCGCTTGCAGTATATAAAGCTGTAAAAGAAGCAGCAGATCGCGGTCGTCGTGGTGAAGGCCCAACTTTAATTGAAACAGTATCATATCGTTTAACAGCACATTCTAGTGACGATGATGATCGTGTTTATCGTGATAAAGAAGAAGTAGAAGAAGCAAAGAAAAAAGATTCAATTATAACATTCGCGGCTTATTTAAAAGAAGCTGGTGTGTTAACTGAGGAATCGGAAAAACAAATGTTAGACGAAATTATGCATATCGTAAATGAAGCAACAGAATATGCAGAAAATGCTCCGTATGCAGCACCTGAAGATGCATTGAAGCACGTATACGCAGAATAG	MAEVKEKRHEELGLSDEQVLEMFRTMLLARKIDERMWLLNRAGKIPFVISCQGQEAAQVGAAFALDREKDYALPYYRDMGVVLAFGMTAKELMLSAFAKAGDPNSGGRQMPGHFGQKKNRIVTGSSPVTTQVPHAVGIALAGKMEKKDLVTFVTFGEGSSNQGDFHEGANFAGVHKLPVIFMCENNKYAISIPVEKQLACKNVSDRAIGYGMPGYTIDGNDPLAVYKAVKEAADRGRRGEGPTLIETVSYRLTAHSSDDDDRVYRDKEEVEEAKKKDSIITFAAYLKEAGVLTEESEKQMLDEIMHIVNEATEYAENAPYAAPEDALKHVYAE	PGPT0008861_2538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
AK009_03030	1422	pdhD_3		Dihydrolipoyl dehydrogenase	ATGGCAAAAGAATATGATTTAGTCATCGTTGGCGGCGGTACTGGTGGATATGTTGCTGCAATTCGTGCATCACAATTAGGATTAAAAACAGCACTAGTCGAAAAAGAAAATCTTGGTGGTACTTGTTTACACAAAGGATGTATTCCTAGTAAAGCTCTTTTACGTAGTGCGGAAGTATATGCAACTGCTAAAAAAAGCGAAGAGTTCGGAGTTATTGCAAGCAATGTAGAACTAAACTTTGCGAAAGTACAAGAGCGTAAAGAGAAGATTGTAACGCAGCTTCATAAAGGCGTTCAACATTTAATGAAACAAGGTAAAATTGATGTGTTTGAAGGTATTGGTCGTATTCTTGGCCCGTCTATTTTCTCTCCTATGCCAGGGACAATTTCAGTTGAACTTGCAAGTGGAGAAGAGAATGAAATGTTAATTCCAAAAAATGTACTTGTTGCAACAGGTTCTCGTCCAAATTCATTACCAGGTTTAGAATTAGATGGAGAATACGTAATGTCTTCGGATCATGCCCTAAAAATGGAAACGCTTCCTAGTTCGATTATTATCGTTGGTGGCGGTGTAATCGGTATTGAGTGGGCATCTATGCTTGCTGACTTCGGTGTAGAAGTTACAGTATTAGAGTATGCAAAAACGATATTACCACTAGAAGATCAAGACGTTTCAAAAGAAATGCAACGTCTATTCAAGAAAAAAGGTATTAAAGTGGTAACTGGTGCAAAAGTATTACCAGAAACATTGGTAAAAGATAATGGAGTAACAATCCAAGCTGAACATAACGGTGAGAATAAAGAATTTAAAGCTGAAAAAATGCTTGTATCTGTTGGAAGACAAGCGAATACGCAAAATATTGGCTTAGAGAACACCGATATCGTTGTGGAAAAAGGATACATTCAAACAAATGAGTTTTATCAAACGAAAGAATCGCATATTTACGCAATTGGAGATGTAATCGGTGGTTTGCAACTTGCTCACGTTGCTTCTCATGAAGGAATTGCTGCAGTAGAACATATTGCAGGGAAAGAAGTTACACCAATTGATTACTCTATGGTATCAAAATGCGTATATAGCAGTCCAGAAGTTGCTTCTGTTGGCTTAACAGAACAAGAAGCGAAAGAAAAAGGCTATAAGTTAAAAGTAGGTAAGTTCTCATTCCGCGCAATCGGAAAAGCACTTGTATACGGAGAATCAGATGGTTTCGTAAAACTTGTAGTTGATGAAGAGACAAATGACATTCTTGGTGTTCATATGATTGGACCACATGTAACAGATATGATTTCTGAAGCTGGTCTTGCAAGAGTACTTGATGCAACACCTTGGGAAGTAGCACATACAATTCATCCGCATCCATCATTATCTGAGGCGATTGGTGAAGCAGCACTTGCTGTAGATGGAAGAGCGTTACACGCATAA	MAKEYDLVIVGGGTGGYVAAIRASQLGLKTALVEKENLGGTCLHKGCIPSKALLRSAEVYATAKKSEEFGVIASNVELNFAKVQERKEKIVTQLHKGVQHLMKQGKIDVFEGIGRILGPSIFSPMPGTISVELASGEENEMLIPKNVLVATGSRPNSLPGLELDGEYVMSSDHALKMETLPSSIIIVGGGVIGIEWASMLADFGVEVTVLEYAKTILPLEDQDVSKEMQRLFKKKGIKVVTGAKVLPETLVKDNGVTIQAEHNGENKEFKAEKMLVSVGRQANTQNIGLENTDIVVEKGYIQTNEFYQTKESHIYAIGDVIGGLQLAHVASHEGIAAVEHIAGKEVTPIDYSMVSKCVYSSPEVASVGLTEQEAKEKGYKLKVGKFSFRAIGKALVYGESDGFVKLVVDEETNDILGVHMIGPHVTDMISEAGLARVLDATPWEVAHTIHPHPSLSEAIGEAALAVDGRALHA	PGPT0001380_4204	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
AK009_03031	1104	buk2	COG3426	Butyrate kinase 2	TTGTCTGTAAATCGAATTCTTGTTATTAACCCAGGTAGTACATCCACAAAAATTGGTGTTTTTGATAATGAAAGACCCGTTCTAGAAGAAACGATTCGTCATGACGTAGAACAGATTGGAAAATATAAGCGAATTATCGACCAATATGAGTTTCGAAAAGAAACGATTTTAGAAGTTCTACATTCTCATGGTATTAACATTTCAAAATTAAACGCTGTTTGTGGACGTGGTGGATTACTTCGTCCAATCGAAGGCGGTACTTATACAGTAAACGATGCGATGTTAGAAGATTTGAAAAATGGCTTTAGCGGTCATCACGCTTCAAACCTTGGAGGCATTTTGGCATATGAAATTGCTTCTGGATTAAATATCCCTGCATTCATTGTGGATCCTGTCGTTGTAGATGAGATGGAGCCGGTTGCTCGTATAAGTGGCATTGCTGGTATGGAACGCAAAAGTATCTTCCATGCATTAAATCAAAAAGCAGTTGCTCGTAAAGTAGCTGAACAGTTAAATCACAAATACGAGGATTTAAATTTATTAGTTACACATATGGGCGGTGGCATTACAGTTGGTGCTCATAAAAAAGGAAGAGTAGTCGATGTGAATAACGGTTTAAACGGAGAAGGACCATTTAGTCCAGAGCGCGCTGGTACAGTACCAGTAGGGCAACTAGTAGAAATGTGTTTCTCTGGTGAGTATTACCGTGATGAAATGATTAAAAAACTTGTCGGACAAGGTGGACTTGTAAGTTTAATCGGTACAAATGATGCGATTAAAGTAGAGAAAATGGTTGAAAAAGGTGATCCTGAAGCAACTCTTATTTATAAGGCAATGGCATATCAAGTTGCAAAAGAGATTGGCGGAGCTAGCGCTGTACTTCACGGGAAAATCGATGCAATCGTATTAACTGGTGGACTGGCATACAGTAAAATTCTTGTCGATGAAATAAAAGAGCGAGTGGACTGGATTGCAGATGTTATCGTACATCCAGGCGAAGATGAGTTAGAAGCGTTAGCAGAAGGAGCACTTCGTGTGTTACGTGAAGAAGAAGCTCCAAAAGAATACGTTGTACGTGAAAAAGAAACGGTAGCTAGGGGTTGA	MSVNRILVINPGSTSTKIGVFDNERPVLEETIRHDVEQIGKYKRIIDQYEFRKETILEVLHSHGINISKLNAVCGRGGLLRPIEGGTYTVNDAMLEDLKNGFSGHHASNLGGILAYEIASGLNIPAFIVDPVVVDEMEPVARISGIAGMERKSIFHALNQKAVARKVAEQLNHKYEDLNLLVTHMGGGITVGAHKKGRVVDVNNGLNGEGPFSPERAGTVPVGQLVEMCFSGEYYRDEMIKKLVGQGGLVSLIGTNDAIKVEKMVEKGDPEATLIYKAMAYQVAKEIGGASAVLHGKIDAIVLTGGLAYSKILVDEIKERVDWIADVIVHPGEDELEALAEGALRVLREEEAPKEYVVREKETVARG	PGPT0001815_120	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001815-buk-K00929	NA	NA
AK009_03032	1101	ldh	COG0334	Leucine dehydrogenase	ATGACATTAGAAATCTTCGAATACTTAGAAAAATATGATTATGAGCAAGTGGTATTTTGTCAAGATAAAGAATCTGGTTTAAAAGCAATTATTGCAATTCATGATACAACACTTGGACCGGCTCTTGGTGGAACAAGAATGTGGACATATGATTCTGAAGAAGCGGCGATTGAAGATGCATTGCGTCTTGCAAAAGGGATGACATACAAAAACGCAGCAGCTGGTTTAAACTTAGGTGGTGCGAAAACAGTAATTATCGGTGATCCTCGTAAAGATAAGAGTGAAGCAATGTTCCGTGCACTAGGACGTTATATCCAAGGACTAAACGGACGATACATTACAGCTGAAGATGTTGGTACAACAGTAGATGATATGGATATTATCCACGAAGAAACTGACTTTGTAACAGGTATCTCACCATCATTCGGTTCTTCTGGTAACCCATCTCCAGTAACTGCATACGGTGTTTATCGTGGTATGAAAGCAGCTGCAAAAGAAGCTTTCGGTACTGACAATTTAGAAGGAAAAGTAATTGCTGTTCAAGGCGTTGGTAACGTAGCATATCATCTATGCAAACATTTACACGCTGAAGGAGCAAAATTAATCGTTACAGATATTAATAAAGAAGCTGTACAACGTGCTGTAGAAGAATTCGGTGCATCAGCAGTTGAACCAAATGAAATTTACGGTGTTGAATGCGATATTTACGCACCATGTGCATTAGGCGCAACAGTTAATGATGAAACTATTCCACAACTTAAAGCAAAAGTAATCGCAGGTTCTGCAAATAACCAATTAAAAGAAGATCGTCACGGTGACATCATTCATGAAATGGGTATTGTATACGCACCAGATTATGTAATTAATGCAGGTGGCGTAATTAACGTAGCAGACGAATTATATGGATACAATAGAGAACGTGCACTAAAACGTGTTGAGTCTATTTATGACACGATTGCAAAAGTAATCGAAATTTCAAAACGCGATGGCATAGCAACTTATGTAGCGGCAGATCGTCTAGCTGAAGAGCGCATTGCAAGCTTGAAAAATTCTCGTAGCACTTACTTACGCAACGGTCACGATATTATTAGCCGTCGCTAA	MTLEIFEYLEKYDYEQVVFCQDKESGLKAIIAIHDTTLGPALGGTRMWTYDSEEAAIEDALRLAKGMTYKNAAAGLNLGGAKTVIIGDPRKDKSEAMFRALGRYIQGLNGRYITAEDVGTTVDDMDIIHEETDFVTGISPSFGSSGNPSPVTAYGVYRGMKAAAKEAFGTDNLEGKVIAVQGVGNVAYHLCKHLHAEGAKLIVTDINKEAVQRAVEEFGASAVEPNEIYGVECDIYAPCALGATVNDETIPQLKAKVIAGSANNQLKEDRHGDIIHEMGIVYAPDYVINAGGVINVADELYGYNRERALKRVESIYDTIAKVIEISKRDGIATYVAADRLAEERIASLKNSRSTYLRNGHDIISRR	PGPT0020320_229	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
AK009_03033	900	pta_1	COG0280	Phosphate acetyltransferase	ATGAAGTTAGAATACTTAATTGATCAAGCAGCGGGACAGCCTAAAAAAACTGTAGCTGTAGCAGTAGCTGAAGATCATGAAGTAATTGAAGCTGTAGCGAAAGCAATTAAATTACAGCTAGCTCAATTTCGTCTATATGGAAATCAAGAGAAAATAATGGGGATGCTACAAGAACATGGTTTACAAACTTCAGAACATGTTGAAGTGATTGCAGCAATGTCTAATGCAGAGGCTGCAGAACTTTCTGTTAAAGCTGTGAGAAATGGTGAGGCAGACGTGCTTATGAAGGGGAACATCCCAACAGCGAATATTTTGAAGGCTGTGTTAAACAAAGAGTGGGGCCTACGTAAAGGTAGCGTACTTTCACATGTAGCAGCATTTGAAGTTCCAAATTATGATCGTCTTATTTTCGTTACAGATGCAGCGATGAACATCGCACCTGATGTAACACAAAAAGCTGCTATTATACAAAATACTGTAGAAGTTGCCCAGGCAATAGGAATCGACTTGCCAAAAGTGGCACCAATTGCAGCAGTAGAAGTTGTGAATCCAGCGATGCAGGCGACAATTGATGCAGCGATGTTAACACAAATGAATCGCCGCGGACAAATTAAAGATTGTATCGTTGATGGACCACTTGCTTTAGATAATGCAGTATCACAAATTGCAGCAGAGCATAAAGGCATAGTAAGTGATGTAGCAGGTAAGGCAGATATTTTACTCGTCCCAACGATTGAAGCTGGAAATGTGCTATATAAATCACTCGTATACTTTGCGGATGCAAAAGTAGGAGCAATGATTGCTGGCGCAAAAGCACCGATTGTTTTAACATCTCGTGCTGATTCAGCAGAAACAAAAGTATATTCATTAGCATTGGCAGTTGCGACTGCTTCAAAATAA	MKLEYLIDQAAGQPKKTVAVAVAEDHEVIEAVAKAIKLQLAQFRLYGNQEKIMGMLQEHGLQTSEHVEVIAAMSNAEAAELSVKAVRNGEADVLMKGNIPTANILKAVLNKEWGLRKGSVLSHVAAFEVPNYDRLIFVTDAAMNIAPDVTQKAAIIQNTVEVAQAIGIDLPKVAPIAAVEVVNPAMQATIDAAMLTQMNRRGQIKDCIVDGPLALDNAVSQIAAEHKGIVSDVAGKADILLVPTIEAGNVLYKSLVYFADAKVGAMIAGAKAPIVLTSRADSAETKVYSLALAVATASK	PGPT0001810_298	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001810-ptb-K00634	NA	NA
AK009_03034	2073	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAAACAAAAAGTATTAATTGTTGGTGCAGGTGAAGGCGGGAGCGCACTGCTGAATCTGTTATATAGTTCGAATATATTTCAAATTATAGGGATTATTGATATAAATCCGTTGGCAAAAGGATTACAAATTGCTAAGGAATATGGAATTGCAATTGGAGAAAGTGTAACTCCATTTCTTTCTATGCATATCGATGTAATATTTGATATGACAGGTGAAGATGATGTACATAAAGTTTTATTGGAAAAAAAGAAAAAAGACACTCTTCTTATACCAGGTGATATTGCAAAAATTGTTACAGGATTAGCGCATGAGAAGGAAGGGTTAATTGGGCGGTTAGAGGAACAAACGCAACAAGGAGAATTAATTTTAAATTCTACGCATGACGGCATGATCGTAATTGATCAAGAGGGACAAGTTCGTCTTTTTAATAAAAGTGCAGAGCGTATTATCGGATATAAAAAAGAAGAGGCGATAGGAAAATATATTTTAGAAGTTATTCCGACTAGTAAATTACTTCGCATTATACGTACGAAACAAATAGAAGTAAATTATGAACTAACATTAGAGAATGGAAAGAAAATTATTACAACGCGTATACCGATATTAAAAGAGGGCGGAGAGGTACAAGGGGCATTTGCAATTTTTAAAGATATAACAGAAGTTGTAGATTTAGCGGAAGAAGTTACAGACTTAAAAGAAATTCAAACACTATTAGAGGCGATTATTAACTCATCTGAAGAAGCGATTTCGGTTGTGGATGAAAAAGGAAGAGGTTTAGTCATTAACCCGGCATATACGAAATTAACGGGTTTAACAGAAGAAGATATTATTGGGAAGCCTGCTACAACTGATATTGTAGAAGGCGAAAGTATGCATATGAAAGTACTTCGAACGCGTCGTGCGGTGCGCGGAATACATATGAAGATTGGGCAAAAAAAGCGCGATGTAATTGTAAACGTAGCGCCAGTTATTGTGGATGGAATATTGAAAGGAAGCGTCGGCGTTATCCGTGACGTGTCGGAAATTCAAAAGTTAACAAATGAATTGAATAGAGCGAGGCAAATCATTCGCACATTAGAAGCGAAATATTCTTTTGATGATATTGTCGGAAATTCAGATGAAACAACTGCAGCTATCGAACAGGCGAAGCTAGGAGCGAATACACCGGCAACGGTACTGTTACGCGGTGAATCTGGGACTGGTAAAGAATTGTTTGCCCATGCAATCCATAATGGAAGTAATCGAAAATACAATAAGTTCGTCCGTGTAAACTGTGCGGCCATTTCGGAGACGTTGTTAGAAAGTGAATTATTTGGTTATGAGGAAGGGGCGTTTTCTGGAGCGAAAAGAGGCGGGAAACGTGGGTTCTTTGAGGAAGCGAATAACGGTAGTATTTTTTTAGATGAAATAGGGGAGTTATCTGCAAATACACAAGCGAAACTCCTTCGTGTATTGCAGGAAAAAGAAATTGTAAAAGTTGGTGGAACGAAAGCGATACCTATTAATGTTCGAGTAATTGCAGCGACACATGTGAATTTAGAAAAGGCTATTCTAGAAGGGAAGTTTAGGGAGGATTTATATTATCGATTAAATAAAATTCCAATTCAAATTCCATCTCTTCGTCAACGTAAAGGAGATATACCGAAAATTGCGGACAGGTTGATTCAAAAAATTAATCAAGATTATGGTCGTAATGTAGAAGGGCTCACTGATTCAGCTATTTTATATTTACAATCATACGAATGGCCAGGGAATGTGAGAGAACTTGAAAATATTTTAGGACGAGCGATTATTTTTATGAATTATAACGAGATATATATTGATGTACAACATTTACCACCATTACATAACGAAGAGCAGGTGGAGTCAAAGCAATCTCATTTATTACCTGAATTAGAAGAAAAGCCACTTGAACATTTAGTGACAGAGTTTGAAGGGAATATTATTCATGAATATTTGGAGAGATTTGATGGGAATAAAACACAAACTGCAAAAGCGTTAGGAATTTCCGTACGAAATTTATATTATAAGCTAGAAAAGTATGACCATGCAAAAAATAGCATGCAATAA	MKQKVLIVGAGEGGSALLNLLYSSNIFQIIGIIDINPLAKGLQIAKEYGIAIGESVTPFLSMHIDVIFDMTGEDDVHKVLLEKKKKDTLLIPGDIAKIVTGLAHEKEGLIGRLEEQTQQGELILNSTHDGMIVIDQEGQVRLFNKSAERIIGYKKEEAIGKYILEVIPTSKLLRIIRTKQIEVNYELTLENGKKIITTRIPILKEGGEVQGAFAIFKDITEVVDLAEEVTDLKEIQTLLEAIINSSEEAISVVDEKGRGLVINPAYTKLTGLTEEDIIGKPATTDIVEGESMHMKVLRTRRAVRGIHMKIGQKKRDVIVNVAPVIVDGILKGSVGVIRDVSEIQKLTNELNRARQIIRTLEAKYSFDDIVGNSDETTAAIEQAKLGANTPATVLLRGESGTGKELFAHAIHNGSNRKYNKFVRVNCAAISETLLESELFGYEEGAFSGAKRGGKRGFFEEANNGSIFLDEIGELSANTQAKLLRVLQEKEIVKVGGTKAIPINVRVIAATHVNLEKAILEGKFREDLYYRLNKIPIQIPSLRQRKGDIPKIADRLIQKINQDYGRNVEGLTDSAILYLQSYEWPGNVRELENILGRAIIFMNYNEIYIDVQHLPPLHNEEQVESKQSHLLPELEEKPLEHLVTEFEGNIIHEYLERFDGNKTQTAKALGISVRNLYYKLEKYDHAKNSMQ	PGPT0001030_2307	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
AK009_03035	234			hypothetical protein	ATGCAGCGTTACCTTGCTCTATCATTAGCACTCATCCCTATTTCATTAGCTGTGTTTGGTATAAAGTTAATGAGAGATACTGTATTCGGGATTCTATTTCCACCAATCTCTATACTGTGGTTACAATTTTTAATCGGCGCTCTCTGCTTCGGGCTCGGGTTTTATATTTTTGGTGGCTTCGTCGTACACCGAGATCGTAAACGAAATAAAGTACAAGCTCGCTTCAGAAGATAG	MQRYLALSLALIPISLAVFGIKLMRDTVFGILFPPISILWLQFLIGALCFGLGFYIFGGFVVHRDRKRNKVQARFRR				NA	NA	NA	NA	NA
AK009_03036	729	glpQ_3	COG0584	Glycerophosphodiester phosphodiesterase	ATGACTCTTATATTTGCGCATCGTGGTGCGGCTGGAACGTACCCAGAAAATACAATGCTTTCATTTGAAGCGGCTGAGTCTTTTAGAGCGGATGGAATTGAACTTGATGTTCAATTAACGAAAGATGGAAAAGTTGTCGTCATTCATGATGAAACGGTGGACCGGACTACAAATGGAAAAGGTGCGGTTCGGAATTATGTATATGAGGACTTATGTAAGTTAGATGCAAGTTATAAATTTGGTGATAAAGTAGGTTTTTGTAAAATACCACTTTTAGAAGAGGTATTAGAGTGGCTTGAACAAACGAGTTTGCTACTTAATATTGAACTTAAAAATAATAAAATTCCATACAGAGGTTTAGAGGAAGAAGTTATAACGCTTGTACGGAAATTTAGTTTAGAGGATCGCGTTGTATTTTCTTCGTTTAATCACTACAGTATGAAACGGTGCCATATGATGGCTCCTGATATTCAAACTGCAATTTTATATCGCGAAGGTTTGCATAGTCCGTGGGCATACGCGAAAAAAATGGGGGCTACAGCAGTACATCCGAATTATCGTTACCTTCAAGATGCTATTGCTGAACTAACGATGGAAAGTGGTGTAGAGGTTCGCCCTTATACAATTAATGAAGAAACGCTTATGCGTAAATATTTTGATATGAATATATCGGCGATTATTACTGATTACCCTGAAACGGCAAGAACGTTATTGCCGATAAAAAAATGA	MTLIFAHRGAAGTYPENTMLSFEAAESFRADGIELDVQLTKDGKVVVIHDETVDRTTNGKGAVRNYVYEDLCKLDASYKFGDKVGFCKIPLLEEVLEWLEQTSLLLNIELKNNKIPYRGLEEEVITLVRKFSLEDRVVFSSFNHYSMKRCHMMAPDIQTAILYREGLHSPWAYAKKMGATAVHPNYRYLQDAIAELTMESGVEVRPYTINEETLMRKYFDMNISAIITDYPETARTLLPIKK	PGPT0018470_7619	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_03037	147	yycC		putative protein YycC	ATGAGACCATTGCAAATTTCTCCAGATACTGCAGTCCGCTTATCAAAAGCACTAGGTGTTCCACTTGAACAACTCATGCATATGCCGCAACACATTTTAATTCAAAAGCTAGTTGAATTAGAAAAACAAAATAAAGACGAAGAATAA	MRPLQISPDTAVRLSKALGVPLEQLMHMPQHILIQKLVELEKQNKDEE				NA	NA	NA	NA	NA
AK009_03038	564			hypothetical protein	ATGAAAAATAAAATTTCAACTTGGCTAGGAATAGTAGCAGCTATGGGAGTTCTTGCTATTGCAGTTACATTTGGGATGTTAGAACTTGCCGATAATCCAGTAGATAAAGAAGTGAGCGCTCAAATAGATAAAAAAGAAGACCAAACAATAGTAGGTAGAGAGGTAGATGGGGTCTTTGTTGATGTGTATGTTACTGAAAATTCTACTGAAAGAGAAGTCATTACAGCGATGCATCGCATGACTCATCAAAAAGTGGTGGCAGAACGAAAATCGGGCTCTATCCCAATGATTCAAAATAATGCTAAAAAATTAAAAGAAATCATAAATAAGAGTAGCTTTTCGAAGAAAAATGAGCTATTAGCAATTGCTAATAGATGGGCACAAAAAGATTTTAGTAAAATTGTAGAAGATCACAATTATTTCTCGGATGTTCAAGAAGATAACGTTTGTAAAGCAACTAGAGCGATGGATGCGGTAGAAGAGCAACATTATATTTTAACTACATTCGGGGAGGAAAAAGCGAAAGAACTATACGAATCAGGGGATGCTCCGCACGTTCAATAA	MKNKISTWLGIVAAMGVLAIAVTFGMLELADNPVDKEVSAQIDKKEDQTIVGREVDGVFVDVYVTENSTEREVITAMHRMTHQKVVAERKSGSIPMIQNNAKKLKEIINKSSFSKKNELLAIANRWAQKDFSKIVEDHNYFSDVQEDNVCKATRAMDAVEEQHYILTTFGEEKAKELYESGDAPHVQ				NA	NA	NA	NA	NA
AK009_03039	771			hypothetical protein	TTGAGTAACAGAAAGAAATCAAAGAATAAACGAACGATTTGGGCCTTTATGCCAAGAAATCAACTAGGTCAAGTAATGATATCTGTTATGGCACTGTTAGTTTCTATTAGTGCGGTAGTAATAACAAGTACTACAAATAAACTTATGGAACAACAGATGGAAATTACAAAAGTTGAAAAAAGACCTCTTATTAATTTTAAAGGGAATTACGAAACCGATGAAAATGGCTTTGCAATTAGAGAGAGTTTAGCTATTCATAATGAAGGTGGGCTAATGGAAGAGTTTGATTCAAAGATGCTTACTTTCTTTGATATTGGTGTATGGGATTATAGTAAAGATGACGTAGAAAAGCATATCGTAGTTCCGATAAAAAATTATTACTTTGGATTTACAACAGGGGCTTTGCAAAAGGAAATAGTTACGTATGATAATAAATTCTTCAAAGAGGGAAACAACAAGAAGATAATCGAGGTAACAAGAGAATTTTCGAAACTGAAGGAACCCCTTGAACAAAAACAAGCAAAAAAAAGCAATTACCACTTCGAGATAGGTGGAGGTGAATTTAAAACGTATTGCAAAGTGGAATATAAGGATATTTATGGTGAAAAGCAAGAATTATATTATGATGTTAGTACTTCCGGTGCTAAAAAGATAAGTACAAAACAGGGTAAGAGTATTTTTGAGAAAATTGAATCTAGTACAGGGTTTGATATTGAAGAAGTCAGTGCAAGTAAACTATTAGATTATGTGGAAAAGGAAATGAAGGATTAA	MSNRKKSKNKRTIWAFMPRNQLGQVMISVMALLVSISAVVITSTTNKLMEQQMEITKVEKRPLINFKGNYETDENGFAIRESLAIHNEGGLMEEFDSKMLTFFDIGVWDYSKDDVEKHIVVPIKNYYFGFTTGALQKEIVTYDNKFFKEGNNKKIIEVTREFSKLKEPLEQKQAKKSNYHFEIGGGEFKTYCKVEYKDIYGEKQELYYDVSTSGAKKISTKQGKSIFEKIESSTGFDIEEVSASKLLDYVEKEMKD				NA	NA	NA	NA	NA
AK009_03040	1362			hypothetical protein	GTGTCAGTGAGTAAACACCAATTTTTTGAAATGTATGGAACAGGACGAGAAGATGACCGGTGGGATTTTAAAGAAGATTTACATGTGAAATCAAAAGAGAATTTTTATTCGTTTGTAAAAGATGTACTAGCCTTTTCTAATAGTGGTGGTGGATATTTACTTTTAGGGGTAAAGGATAGAACACTTGAATTGGTAGGTATAGAAGAAGAAATAGATGAGGCGAATCTAGGAGAAAAAATTGAATCGACGCTAGGATATTCGATAAGATTTAGTCTATTCTACTTTGAGTATGAACAAAAAGACAAAGCACTAACTCTTGGAATTATGTATATACATGAAAGTGATAAAATAAATGTATCACCGAAAACTTTGAATGGACCGAAAAAGGCAATTGTTCAAGAGAATACAATTTATGTAAGAAGAAATACGAGAAGTGTAAATGCCAATAGAGAAGATTTCGAAAAGATTGGGCATCGAATAAACAATGCTGGCGAGTATGAGTTTAAAGAATCGGATTTAATGATATTAGAACGTAATAAGGAACGTTCGGATTCACTAGCAATAAAACTTGAAAAATATATTAAAGGAGAGTTTGTTTTTACATCAAACGAATTTGGTTATAAGTTGAATGAACTTTATAGACATCAAGTTAAGTATAATAAGTTAGAATTTGCAAGACTTTTAGGATTTGAAAATCATCGTATAGATGATTATTTTGAGGGGAAGCTATTTCCTACTTTAGAACATATTTTAAGGGCGACAACAATATTTAATTTACCATCAGATTACTTCTTTACACCTACATTACATATGGAATATCCAATATGGCAAGAACCGCTTGTTAGCTATTGTATTATTGAAAAAATGAAGTATAAGGATGATTTGTTTCATTGTGAAAAAAATAAGTTCTTTAGTGATGTCTTATGGCAATTAGCAGGGGGGATGAGGACATTTAGTGAATGGCTACATTCGGAAAGAATTCCTATACAGAGTATTACTAATAACAAACCGAAATATAAATATATAGATGATCGTTATCTGTATTCTTGCGTAAATTATATGAATGATATAGAGTTATATAACTTTAAAGTGCATTTAGAAAATCAATATTATAAAGTACTTGAGTACTGTCCTAATAGTGATAGGATGAATGGTGATTTAACCGTTGAGGAACAAATATTGAATACTTTAATTCAAGTGAATACACAGCTTGTTTGTCGAATTATTACTGAAAGTATTAAAGAAATACATATAAATAACGGTGAAATTGAGGTTAAATTACATTTTTTTGAAGATATCATAAATGGAAAAGTTGTAGGACGTAATTATTTACCAAATACTTTTACTTTGGAGTTTATATAA	MSVSKHQFFEMYGTGREDDRWDFKEDLHVKSKENFYSFVKDVLAFSNSGGGYLLLGVKDRTLELVGIEEEIDEANLGEKIESTLGYSIRFSLFYFEYEQKDKALTLGIMYIHESDKINVSPKTLNGPKKAIVQENTIYVRRNTRSVNANREDFEKIGHRINNAGEYEFKESDLMILERNKERSDSLAIKLEKYIKGEFVFTSNEFGYKLNELYRHQVKYNKLEFARLLGFENHRIDDYFEGKLFPTLEHILRATTIFNLPSDYFFTPTLHMEYPIWQEPLVSYCIIEKMKYKDDLFHCEKNKFFSDVLWQLAGGMRTFSEWLHSERIPIQSITNNKPKYKYIDDRYLYSCVNYMNDIELYNFKVHLENQYYKVLEYCPNSDRMNGDLTVEEQILNTLIQVNTQLVCRIITESIKEIHINNGEIEVKLHFFEDIINGKVVGRNYLPNTFTLEFI				NA	NA	NA	NA	NA
AK009_03041	681			hypothetical protein	ATGAGATTATACAAAAAAGAAAAGAAAACGCATATTCAAATACATCAGGAAGATAAGTTGGAACGAATAAAGCGAATTTATGATGATAAAAAAGTAAAGCAGGTGCTTGCGGTAGAAAAGGCGTGGGATAAGTATGCAATGCTTCGATTGGAAAAAGGAGAAGATGCTTTCTATATCATATTTAATGATTATTTAATAAGGTTTTTGATGCGATCTACTCTTAATAAATTTGAAAATGCATGGAAAAACAAACGGATTTTTCGAGATGATTTCGAAAGCATATTTTGGGAGAAGTTATGGCATGTTTGCCAAGAACATTCATGGAATGATGAGTATTATTTGTATGAAAAAATCAGAAAGTCATTAGAATGTACAGGTTGCAACCTAGTAAAATCGAAATTAACGACGGATAAGAGAAAGGCTAATCATCAAAATGTTGACCTTATGGCGGATTTAGAAAAGATTGATTCGTCGTTTCGTATTGAGGGCGATGTAGAAATTAAACTCCTGATTAAACAGTATTGTAGTGATATTGAAGTGGATTTAATAACAACATATTTAGAAAGTCCACATTTATCATATCGAGATTTAGGGTGTTTATATGGTGTGAATCATCCTGAGAAAGTGAGGCGAACCATTGAGTCTGCAAAGCGGAGGTTAAGAGAAGGGATTGACTGGTGA	MRLYKKEKKTHIQIHQEDKLERIKRIYDDKKVKQVLAVEKAWDKYAMLRLEKGEDAFYIIFNDYLIRFLMRSTLNKFENAWKNKRIFRDDFESIFWEKLWHVCQEHSWNDEYYLYEKIRKSLECTGCNLVKSKLTTDKRKANHQNVDLMADLEKIDSSFRIEGDVEIKLLIKQYCSDIEVDLITTYLESPHLSYRDLGCLYGVNHPEKVRRTIESAKRRLREGIDW				NA	NA	NA	NA	NA
AK009_03042	819			hypothetical protein	ATGTTTAACGAATTATCTATTGAAACCATAAGTAAGTTTTCCCCCGTCATTGTAGCACTTTTAGGTGCCACTACAGCTGCTTTCATATACATCATTAATCAATTTATTAATGTAGCAACAACGAACGCACTTGACGGACGCTTTAAAGATAAATCTAATCAATTAAAACTGAAGTTTTGGTCTTATACAATAGGCATACTTATAGGAACTCTTGTATATATTATTTATAGCTTTCTCCTCTATCCGGCTTTACACGAATATCGGCACTCTATCTTATTCATTTTGAATGCTATTATATGGTTCTTATTATTTATATATTTCATTATTACCTTAATACCTATAAAACCATTTAAAAGTATAATTAAAACAAACTGGCATTTAAAAGTATTCATTTTTCATATATTAACTAGCATATTATTAATCTTCTCAATTTCATGTGAATATATTATAAACAAACAGTATTTAGCTTTCTTTTTGGATATACCACTTTTGGCTTTTGTATTTAGCCTACTATATTTCTTTATACTCCATAAAATCACTACCGCTAGAAATACAAAATACGAATATGATATTCAGCCTATTTCTGAAGAAACATTTAAGTCAGTAGCTAATTTAAAATATGATTATCAAATGGACGAAAATAGATTAGTCTTCTATAAAGAACTGGACTCGAATGAAAAATTATTCTACGTGTACGATTCTTCTTCTAAACTTTATATGGAATGTAAAAAATTAGCCGAAACAGAAGTGACGCCTGAACAAACACCAAAGCCCCGTAGGACTAGCATCACAATTAATATAGAAAGAAACTCTAATTAA	MFNELSIETISKFSPVIVALLGATTAAFIYIINQFINVATTNALDGRFKDKSNQLKLKFWSYTIGILIGTLVYIIYSFLLYPALHEYRHSILFILNAIIWFLLFIYFIITLIPIKPFKSIIKTNWHLKVFIFHILTSILLIFSISCEYIINKQYLAFFLDIPLLAFVFSLLYFFILHKITTARNTKYEYDIQPISEETFKSVANLKYDYQMDENRLVFYKELDSNEKLFYVYDSSSKLYMECKKLAETEVTPEQTPKPRRTSITINIERNSN				NA	NA	NA	NA	NA
AK009_03043	810			hypothetical protein	ATGGTTGCAAAAAGCAAAGCAATCAACTATAGATTACTTGTAGTAGTTCTTTTACTCGTTTCTCTGTTAGGGGTATATAATCCTGTAACGGCAAATGCAGTCTCTAACCCTTATATCTTACTAGATAGTGATAAAGGGGTAGATTCAGTAGTAGAATCAGTAAACTCCAAGTCGCAATCCTTCCCTGATTATGGATTTAAACTATTAATTCAAGATAAGAAAGACCCAAAGAAGGTTGAAATTGATAAGGTAAACTATCAAAAACTATCTACTGAGGATAAGAAAGAGTTAATGAAACAAACCTTTACAGAAGTAGAGAACAGTAGTATGGGTGGTCGTGACCGTTCAAGATTGTATAACTTCATTGAAGAACAAGATGAAGGAACAGCATCAGCAGTTAGACATTTATCTACAAATGTAACGACTGACTTTGTATCAGCTAACGAGATATTTAGACCGTTTACAAGTCCAATCAGTACATTTTTAGGTTTAGCATGTATTGTTATATTCTTCATGTTAGCAATTGCTATTACAGTAGACATTTGTTTCCTATCAATACCTATGTTTCAAGCCTTTGTAATGAGAAATGACAAAGACAGACCTTCTTATATTTCACAAGAAGCATGGGACAGTCTATTAATTGCCGAATCAAACTTAGGAACTGGTGATTATAGTTTATGGGGTACGTATTTGAAGAACCGAACAAAGACAATGGTCTTAGTTGGTTTAACTTTAGGGTATCTAATAGCAGGTCAAATGTTTGATTTAGCTATATTCATAGTAGACGTATTTACAAATGCACTATCTTAG	MVAKSKAINYRLLVVVLLLVSLLGVYNPVTANAVSNPYILLDSDKGVDSVVESVNSKSQSFPDYGFKLLIQDKKDPKKVEIDKVNYQKLSTEDKKELMKQTFTEVENSSMGGRDRSRLYNFIEEQDEGTASAVRHLSTNVTTDFVSANEIFRPFTSPISTFLGLACIVIFFMLAIAITVDICFLSIPMFQAFVMRNDKDRPSYISQEAWDSLLIAESNLGTGDYSLWGTYLKNRTKTMVLVGLTLGYLIAGQMFDLAIFIVDVFTNALS				NA	NA	NA	NA	NA
AK009_03044	879			hypothetical protein	TTGGAAAAGACAGCAAACTTTCCTCACAAAGCGCTGAAATTCTTGATGGCATTTGTAATGATGTTATCAATCGGTGCATCGTTTATGGTTGCGCCAAACATGGCATCAGCCGATAACCGAATTGGTTCAACTGGCAACTCTAGTAGCGATGGTTCACAAGGGCGTTTACGTTCTTCTGTAGATAGTGCTATTGCAGACAAGTCTTATATCTCACAGACTGGTGACACTATTCGTGGTACAGAGTTAGTTAAAAACGGTATCACAACTGACCGTTTCGTAGAGTTAACTTCTAAAGAACAACAGAAGTTAATCAACGATATGTCAAGTGCGGTATCTAAGCAACAAGCTAAAGATAAAGAAAACAACACAACAAACCCTGTAACTCAAGATACAGCTACAAACTGGTTAAAAGAGTTACAACAACGTCCGGGCGTTGGTGCTAAACTTTTAGGTAACATTACTGAACAGTTAAAGCCAGACTACGTTAAAGGTAATCGTATCTTCCAACCTTTCGCTGGACCGATTAATACAGCTATCGCTTTAATGGTAATTGCACTAATGTTCTTCTTAGTAATGACATTCGCTATCGACTTAGCTTTCCTAAACGTACCAATGTTCCAAGCATGGGTAACTAGTGCAGGAGAAGGCGGAAACGGTGGACGTAAAGGTAACTTCTTCGTTTCTCGTGAAGCAATGCAGTCTTTAGAAGAGTCAGAGAATGGAAGTAACGGTAAATCTAAGAACCAAAACGGTATCTACATTAAGAAACGTTTCATCGGAATGTTCTTACTAGGTATCTGTCTATTATACTTAATCCAAGGTCAAATCATGATTCTTGTGGGTATGTTAATGGACTTACTAGCAGGATTCTTAGAGTAG	MEKTANFPHKALKFLMAFVMMLSIGASFMVAPNMASADNRIGSTGNSSSDGSQGRLRSSVDSAIADKSYISQTGDTIRGTELVKNGITTDRFVELTSKEQQKLINDMSSAVSKQQAKDKENNTTNPVTQDTATNWLKELQQRPGVGAKLLGNITEQLKPDYVKGNRIFQPFAGPINTAIALMVIALMFFLVMTFAIDLAFLNVPMFQAWVTSAGEGGNGGRKGNFFVSREAMQSLEESENGSNGKSKNQNGIYIKKRFIGMFLLGICLLYLIQGQIMILVGMLMDLLAGFLE				NA	NA	NA	NA	NA
AK009_03045	708			hypothetical protein	ATGGAAGGAAAAACTCATTATATCGGTGGCTCTATAGGTGCAATGACTGGGTACATCTTGTTGAAAGAGAATAATATGTTGTTAGACTCGGTACATCCAACACTTCAATTTAGCATGATTTACTTAGCAGGGGTATATGGTGGAATGCTACCTGATGCAGACCATCATTCGGGTTCTAACCCAATGAAAGACCCTGTAGGAGTAGTATTTAACAAACTACTTCATGTATTTAATAAACCTTATAAGAGATTAGATAGTGTTATGAGTAGTAATCATAAGAAGCGTAGTTTTGCTTATAAACTTCTAAGTATACTAAAATGTACACATAGAAGTTGGCAAACTCATAGTGAGTTAACTTTACTATTCTTCCTGTACTTTATCGTACAATTACTTACCGCAAACACGTCAGACCCTTCGGTAGCTATAGCAGTATTACTACTAACGGGATTATCTTTAGGGGTACTATCACACTTGGTATTAGACCTGTTAACCGCAGAGGGTATCAAATTTGCGACAGGTATAATAATAAAAACTTTCTTTCCGAGGATTCCAATGATTGATTCAATAAGACTAGTACCCAAGTGGCATACTTTTACAACAGGCTCACCTTATGAACTAACTGTAAGGTACTCTTTAAACGTAGTTCAGTATTTCCTATTGGGGTATTCTATATTGACTTTCTTTGGATACTCAATCATAACAGTATAG	MEGKTHYIGGSIGAMTGYILLKENNMLLDSVHPTLQFSMIYLAGVYGGMLPDADHHSGSNPMKDPVGVVFNKLLHVFNKPYKRLDSVMSSNHKKRSFAYKLLSILKCTHRSWQTHSELTLLFFLYFIVQLLTANTSDPSVAIAVLLLTGLSLGVLSHLVLDLLTAEGIKFATGIIIKTFFPRIPMIDSIRLVPKWHTFTTGSPYELTVRYSLNVVQYFLLGYSILTFFGYSIITV				NA	NA	NA	NA	NA
AK009_03046	522			hypothetical protein	ATGGAACATATTAAGGAAAGCAATACTTCCAGTAAAGTTCTAACAAACATGCAATCCGAAGTGATTTCCGAAAAGTTAAATATACCGTTTGTAACAGTCAGAACTGTAATCAAGAATTACAGATACATCCTAGCCGAAGAGTTATATCTAGGTATGGAAGTTAGACTAGGGTATATTTTAAAACTTGTACCTGACGTAATAACAAACAATTATTTAGCAACAACTGGTTATGAAGCATCTGTAATATCGACAAGAACAAACATCCCTTATAATACAGTTTTAAGTATCGTTACAAGTTACCTAGACATGATTATAGACACATTAGCTAGAGGAAAAGACTTTAATGTAGTAGGTATTGTAACTCTAAAGTCTTCATTTGATGGAGAAACTGGTGAGTTAAAAGTAAATACTAGTACGTCTAGAACATTAGTTGATGATTTACGTGAACACGATAGGGCTGTAAGGGTAAAACTGAATAAAAATCTAAGGGACTTGTTTAAGAAAAGAGTGTCTATCGCTTAA	MEHIKESNTSSKVLTNMQSEVISEKLNIPFVTVRTVIKNYRYILAEELYLGMEVRLGYILKLVPDVITNNYLATTGYEASVISTRTNIPYNTVLSIVTSYLDMIIDTLARGKDFNVVGIVTLKSSFDGETGELKVNTSTSRTLVDDLREHDRAVRVKLNKNLRDLFKKRVSIA				NA	NA	NA	NA	NA
AK009_03047	279			hypothetical protein	ATGAAATCAAAAACATTAACTCTTTTATTTCAGAAACTTAACAACAAAGATACAGAATCAGCGAAGAACCTTGATAAAAACCGTATTAAGGTAGAGATTGAAAATGCTTGTGAGCTTCATTTAAATGAAGCAAGTGAGGTATTTCAATTTGAAGTGAATCCTAGAGAGTTAGACCATGTGATTACGATTATCGAATTGGGATTAATCAATAAGTATGATATATTCCAAGTCGATAGAACAATCTTTAATGCAAGACTAAGAGAAGTAGACTTAATGTAG	MKSKTLTLLFQKLNNKDTESAKNLDKNRIKVEIENACELHLNEASEVFQFEVNPRELDHVITIIELGLINKYDIFQVDRTIFNARLREVDLM				NA	NA	NA	NA	NA
AK009_03048	765			hypothetical protein	GTGTTTAAAAAGCTAAAAGCTTTAAGATTAGGGGTATCAACCGCTTTCTTTATGGCTGTTTTTAAAGCACAAACTACGTTTGCCGAGTATGACGATGTAAACAGCGGAGGTTACGATGCAGTTACAGGCGAAGGTGGACGTAGTAGTTTTAATGGTGGAACGAGTACTCCTAGTGAAGTCTTTAAAGGGTATAATCCAGTTACATCAGAACAGATGGAAGCAGGTCGCTACTGGGCTTCTCCTTTTACAAACGTACTAGGTATCGGTATTGGTGTACTTATGTCAGCAACTTTTGCATGGGTATTCTTCCAAACCGCATTAGACTTGTTATATTGGGCTATTCCACCGTTAAGGGGTTTACTAGCAAAACAAAACCCTGCAATGCAAGGTGGCGGTATGATGGGTATGCAACCACAACAGCAACAATCCTCTAGTCGTAAGTTCGTTTGTGTATCAGACGAAATGCTACAAGCAATGGAGGAAGCAGGAAACCAAGCTTCACAAGGCGGTATGGGTGGAGGAATGCCTATGGGCGGTGGAATGGGAATGCCTATGGGTGGCGGTATGGGGATGCAACAAGCACCTCCAAGTCGTAAGAACGTATTAGTTACATACTTTAAGAAACGTTTACTTTCTATCGTTATTTTAGGGGTATGTGCAACTGTTCTATTCTCTAGCTTACTATTAGATACAGGTATAAACATGGGTCAATTCGTATTAAAAATCATTTCATTCTTTAACGATGTTGTAGTTAGCAACACATAA	MFKKLKALRLGVSTAFFMAVFKAQTTFAEYDDVNSGGYDAVTGEGGRSSFNGGTSTPSEVFKGYNPVTSEQMEAGRYWASPFTNVLGIGIGVLMSATFAWVFFQTALDLLYWAIPPLRGLLAKQNPAMQGGGMMGMQPQQQQSSSRKFVCVSDEMLQAMEEAGNQASQGGMGGGMPMGGGMGMPMGGGMGMQQAPPSRKNVLVTYFKKRLLSIVILGVCATVLFSSLLLDTGINMGQFVLKIISFFNDVVVSNT				NA	NA	NA	NA	NA
AK009_03049	1296			hypothetical protein	ATGTCAAACGACAAGTTAGAGAGTAACGAGAGATTAAATATCACTCGTAGATATAGACCAAAGTCAATGGACGAGTATAAAGGAAACGAAGATTTAAAGAAAGCAGTTTTCAGTTGGTTAAACAATATCAACAAACCACAAGCGATTCTTTTGAAAGGTACTACAGGTGGGGGTAAAACTTCAATGGCTCGTATTGTAGCCAAAGAATACCTATGTGAAGACCGTGATGAAGAAAAAGGAGCATGTGGTGAGTGTTATAGTTGTAAGATGATGGATGATTATATTGAAACAGGTAATACAGACGGATTAATGGGGTTACGTGAAATTAATGCTTCAAAAGACTCAGGACTTACTGCAATAAACTCATTATTAGAAGAAGCACAATACCCTAATCCAGACGGCTCATGGAAGATATACATTCTCGATGAGTGTCACCGAATCAGTATTCCCGCCCAAAACAGCTTATTAAAACTAGTAGAAGAACCACCTGAGAACGTGCTATTCATGTTCTGTACAACTGACCCTGATAAAATGTTAGATACGTTATTAAACCGTTGTAACATTAAATTAGACGTTAAGAAACCTTCAGAGGAACAGCTTACACAAATCCTGTTAGATATTTGTGTGAAAGAAGGTATCTCATATGACAGAAAAGGTCTTTCCTTAATCGTAGACAGGTCTGAACTTGTTATTAGACAGGCTCTTATGGACTTAGAAAATGTAATTGTACAAACTGAAAGTGCAGAACATCGTTTTGTATCAAAAATATTTGATAAGCATCCAAACAGTTTGTATTTCGACTTCTATCGTGCTTTACTCAAACATGACACGCATCAATTTGTTTCTATTATCCACAAGGTCAAAACTAAAATGACGGTACAAGAATTCGTTAAAAATTTGACTAACTTTACTAAAAGAGGGATATACATTTGGAATGGCGTGAATCTTGAGGGAATTACGGAGAACGAACTAAAAAACATGAAAGAATTGTTTAAACAGTTCAAGTTAGAAGAACTTGCAATGATGATTGAATTCCTAACTACGGTATCAGACGGTGATGTAGAAGTTAATCTACTTCTTTTAGGATTTAAGGGATTAGAAAAGCCTAAGAACGTACAATCACAAGAAGAGGTAGTCATTGAAGAGAACAAGAACGATATCGAACAGGAAAACAAAGTAATATCAGGTAATAAAAAAGCCATTACAGAGGAACGAAAACTAAAGAGTATAGAAAGCGTGAAGAATGCGGTAGAAACTGCAACCGCAGAAGAAGTATGGAATTTGTTTGATAAATAA	MSNDKLESNERLNITRRYRPKSMDEYKGNEDLKKAVFSWLNNINKPQAILLKGTTGGGKTSMARIVAKEYLCEDRDEEKGACGECYSCKMMDDYIETGNTDGLMGLREINASKDSGLTAINSLLEEAQYPNPDGSWKIYILDECHRISIPAQNSLLKLVEEPPENVLFMFCTTDPDKMLDTLLNRCNIKLDVKKPSEEQLTQILLDICVKEGISYDRKGLSLIVDRSELVIRQALMDLENVIVQTESAEHRFVSKIFDKHPNSLYFDFYRALLKHDTHQFVSIIHKVKTKMTVQEFVKNLTNFTKRGIYIWNGVNLEGITENELKNMKELFKQFKLEELAMMIEFLTTVSDGDVEVNLLLLGFKGLEKPKNVQSQEEVVIEENKNDIEQENKVISGNKKAITEERKLKSIESVKNAVETATAEEVWNLFDK				NA	NA	NA	NA	NA
AK009_03050	759			hypothetical protein	ATGGCAATCAAAAACGTAGTAGAAGAAAAAGGTACACAAGTAGCAGTAGAAAATAAAGCAGTTGGTGAATTAAAACCTGCTGAAACAAAACGTCCACAAGGCGCAGTTAACTTACAAGCACAAGGTGAGTCAATTTTAGCGGCTAAATCAGAAGAAGAAAAAGCTAACATGGGTTCTCGTTCAAAAGACATCGAATTCTTAAACCTTGTAACTAACCCTTGGCAACCAGTTTCTCGTAAAAAAGACGGAGACGTATTCAAAGGTGAAGAGTCTGTAGGTGCTATCTTCAAAAACGTTGGTACTGAGCCAATCACTATCACAGAAGTTCCAAACAAAACTTACAAAGTAATGGACGGAGACTTCGATAAAGTAACTGAGCGTTCTGTAGCACCAGGCGAAACATTCGTATTAAACTACATCGAAACTGCAATGTTATTAACTCGTGATGAGTTTGGTTGCCGTGCAACAGGTGGAGACAAAGTTGTTTCTTACTCTACACAAGTTTCTAAGAAAGACCCAACTGGTATCCCAACTACTAAATTAAACCTTAAAGGTGCATCAATCAAAGACCTTTCAGTATCTATCGCTGACGTAGATGCTAACGGTACTAAAACTATCAAAGATGAATTCAAAGAGAAATTTGAAATCTTCTCAACTCGTGGTACTCGTAAACGTTCTGCATCTGCATCAGGTTCTAAAGCGAAAGTTAACTACGCAGGTCTTGCTGTACAAGCTATGTTCCAAGCTAAAATCAAGTAA	MAIKNVVEEKGTQVAVENKAVGELKPAETKRPQGAVNLQAQGESILAAKSEEEKANMGSRSKDIEFLNLVTNPWQPVSRKKDGDVFKGEESVGAIFKNVGTEPITITEVPNKTYKVMDGDFDKVTERSVAPGETFVLNYIETAMLLTRDEFGCRATGGDKVVSYSTQVSKKDPTGIPTTKLNLKGASIKDLSVSIADVDANGTKTIKDEFKEKFEIFSTRGTRKRSASASGSKAKVNYAGLAVQAMFQAKIK				NA	NA	NA	NA	NA
AK009_03051	699			hypothetical protein	ATGAATAAGAAACTAGTTGGTATTATCGTATCAGTTATTATTCTAGTCATTCTCTTGGTTGCGTGGGCATTAGGAGGGGTAAGACTTCAAAAAGATAAGGATGTTAAGGTAATCAGTAATCAAACTGAACAACAGACGAATCAAAAACAGAAGCAACCTCAACATGAATCTAATGTCTCTACGAATCGAGAAAAACCTAGCCAAGAATCTAGAGAAAATTCTTCTAGGCAGGGTGAAAATGGTCATAAACAATCCGAAAATGGAAATAGACCATCTGAAAACCCTAATAGTCAAGAAAAGTCTAAGGGTAACGATATTTCAGAGGTAGTTCCTGATAGCAAAGAGTATTCTAACTCCGTAGCACAAGGGCAAGACTTGGTTGGAAAAGCAGTAGAAAATAGCCAAGTTGAGCAAGACGGTAATAGAGTCAGCATGAACCCTACTCAAACTCATTTAGAAGAAAGAGTTTATTCAATTGCAGGGGTAGTAGACCAAGTTGCTCTATACAAGAACTCCGAAGGTACACAAGCACAATACAAATTAGATATCAAAGTACAATTAGAAGATAAGACTTTAACATTAGCATACTTTACATCAGCAAACTCTGTTACAAAGTTAAAACAGGGTTCAAAGGTAACTGTAGAGTATCAGTTAACTAGTGATAAAGCAATGGTAATTAAAAGTTTAAAAGATAGATAA	MNKKLVGIIVSVIILVILLVAWALGGVRLQKDKDVKVISNQTEQQTNQKQKQPQHESNVSTNREKPSQESRENSSRQGENGHKQSENGNRPSENPNSQEKSKGNDISEVVPDSKEYSNSVAQGQDLVGKAVENSQVEQDGNRVSMNPTQTHLEERVYSIAGVVDQVALYKNSEGTQAQYKLDIKVQLEDKTLTLAYFTSANSVTKLKQGSKVTVEYQLTSDKAMVIKSLKDR				NA	NA	NA	NA	NA
AK009_03052	135			hypothetical protein	TTGGAAGATTTAAACGAGTTGTTATTAGGTATTGAGAACTACATGAATGAAAAAGGTTTATCTAAAACTGAAACAACTGTATTCAAATTGCTAGACTTAATTGCAGAAGATGTTATGGAAGAAAATGAATTTTAA	MEDLNELLLGIENYMNEKGLSKTETTVFKLLDLIAEDVMEENEF				NA	NA	NA	NA	NA
AK009_03053	975			hypothetical protein	ATGTTATACACAAAAGACCAAATTAATCAATTACTAGGAACTATCGAAAGCCCTGAGGTAGAAGAAGTACTGAATACACACCGTGATGTATTAAAAGCAACTGAAATTGAAAGTGAAGCACACTTAAAATCAATCGCAGACCGCATTTTAACATTAGGTAAAGGTATCATTGCAGGGGTATTATACAATTGCAGTAAATTAAACTTAAACATGAAACGTCCATTATTCCGTGTTTACGCTTCTACAGTAGAAGGAACAGATGTACCAGACATCAAGATGTTATTAACAGACATCCAATCTTGTGATTTCCGTTTCAAAGAAGAAACTCGTTTAGTACTAGACCATAGATTCGAAGAAAGCTTCCATGAGTTTATGGACAGAGTTGTTCTTAAATATATTTCTTGCTCAATTGCTAACGAGCATACAAAAGCACTAAACGAAAAATTAGAAGAAATCAAAGAAGAAATGATTGCAGACGAAGTAGTACCTGCATTTGACATTCAATTCGCTTTACATGATAAAGCAGTTAAATCTGTATCTGATAACCACATTGAGTTTGGTACAACTTACGAAGAAATGTTCGAGTTATCTAGCCGAAACTCTAACCTACAAGTATTATTCGATGATGCAGAAGATGTAGAATACATTCGCAATGCAACTCTTGAGTCTATCAAAGAAGACTGGGGAACATCAGCTAACGCATTAATCTTTATCCGTAAACACAATAAATTCTTAATGCCATTAGTTGCTACAAACCCAAATACTCGTAAGACACAACGTCCTGATGTATTATTACGTCATGCATTTACATTAAAATTAGATGGTTTAGAACACCGAAACAAAGCAATGGCTCACCACGTAGAAACAGAAGGTGAAACTACTTACATTTCTGTATACGCTAAAGAAGGTAAAGATGCAGAGCCAGTTCAAACTTTATCACCAGTTGATACAAACACATTAGTATTCAAAGGCTAA	MLYTKDQINQLLGTIESPEVEEVLNTHRDVLKATEIESEAHLKSIADRILTLGKGIIAGVLYNCSKLNLNMKRPLFRVYASTVEGTDVPDIKMLLTDIQSCDFRFKEETRLVLDHRFEESFHEFMDRVVLKYISCSIANEHTKALNEKLEEIKEEMIADEVVPAFDIQFALHDKAVKSVSDNHIEFGTTYEEMFELSSRNSNLQVLFDDAEDVEYIRNATLESIKEDWGTSANALIFIRKHNKFLMPLVATNPNTRKTQRPDVLLRHAFTLKLDGLEHRNKAMAHHVETEGETTYISVYAKEGKDAEPVQTLSPVDTNTLVFKG				NA	NA	NA	NA	NA
AK009_03054	1434			hypothetical protein	TTGAGTGAGGTAAAGTATAGGGAGTACATCGAAAACCTACTATTAAGATTAAGTCGTAATGGAATATCAATACCAACCGAGTTTTCTTCCTTTAATGAAATCGTTTGGGGTATCGGTTCGTTATACGAGATTGATAGACTATTAGATTTAGGAGATAGTAGAGTACGGATAGATGCTTCCATATCACATAAAACACATAACCAACTTCTAAAAGAGCAAGCTATAGATGAATACAATAAAGAGTATCAGACTAGAGTTAATGAATTGTATGAACGTCAAGTCAAAGACAAGGTAAGTCAGATACAAGAACCTGTAGAAGTCGAAGAAGTTGAGTCAGAAGAAGCTTCTAAGTACCGTAATCAGTTCTTAAACCAGTTAGTACAAGCCCAAGGGGTAGTAAAAGTTGAAAGTGAAACAGATGAAGACATTATCGAAGACGATGATTTAGAAGAGGAAGACGAAGATATCATTGAAGAAGAGGAAGAAGAACTTCTAGACGATGATATTGAGGATGACGATGAAGAATTAGAAGACGAAGATGATGAGGAAATCATAGAGGATGAAGATGAAACAGAATATGAAGAAGTTCAAAACGTATCTGTACCTTCATTTAATTTAAACTTTAATAACCCTAATCAAGATTCAGAAGATGAAGACGAAGAGAAAGAACTTCTAGACGATGATGATGAAGAACTCATTGATGAAGATGAGGACGAAGAATTCATTGAAGACGAGGAAGACGAACTTGAGGATGAATCAGAAGAAGACTTTGATGATGAGGATGAGGAACTGGAAGATGATGAGGAAGAACTTCTAGATGATGATGATGAAGAGTTTGACGATGATGAAGACTTTGAAGGTGGTGAGGAAGACGAAGAAGAACTCGAAGATGATGATGACTTCCTTAACGATGAAGACGAGGAAGAGGAAGAGTTTCTAGATGATGATGATGAAGACGAAGAACTCCTTGATGAAGACGATGAAGAACTCGATGATGACGAAGATGAGTTCGAAGACGAAGACGAGGAATTTGACGATGATGATTTCGAAGAACTAGAAGATGAAGAGGAAGACGATGAGGAATTGGATGATGACGAGGAAGAAGAATTAGACGAGGAAGATGAAGACGACTTTGATGAAGAAGACGAAGAAGAGTATGAAGAGGAATATGAGGAAGAAGACGATATTCCAGTTCAACAAAACGTATCTTCTACTGTATCAACCAATACATATCAAGGTATATCAAATCAACCTATCATGCAGACTCCAATGTCACAAATGCCAGTAAATCCTCCAATTGACCCAAAACTTGCTGAAAAACGTAAGAAATTACAGCAAGACCCTGATGATGCCATGATGGATAATATGGAAAAGGGTGTTACGTGGGGTATCAATAAGTTAAAATCAGCTTTTACTTCTGAGAAAAAGAAGTAA	MSEVKYREYIENLLLRLSRNGISIPTEFSSFNEIVWGIGSLYEIDRLLDLGDSRVRIDASISHKTHNQLLKEQAIDEYNKEYQTRVNELYERQVKDKVSQIQEPVEVEEVESEEASKYRNQFLNQLVQAQGVVKVESETDEDIIEDDDLEEEDEDIIEEEEEELLDDDIEDDDEELEDEDDEEIIEDEDETEYEEVQNVSVPSFNLNFNNPNQDSEDEDEEKELLDDDDEELIDEDEDEEFIEDEEDELEDESEEDFDDEDEELEDDEEELLDDDDEEFDDDEDFEGGEEDEEELEDDDDFLNDEDEEEEEFLDDDDEDEELLDEDDEELDDDEDEFEDEDEEFDDDDFEELEDEEEDDEELDDDEEEELDEEDEDDFDEEDEEEYEEEYEEEDDIPVQQNVSSTVSTNTYQGISNQPIMQTPMSQMPVNPPIDPKLAEKRKKLQQDPDDAMMDNMEKGVTWGINKLKSAFTSEKKK				NA	NA	NA	NA	NA
AK009_03055	1206			hypothetical protein	GTGGATAAAAAGACATTGCAAGAAACTTTACAAAACTACGGTCGTGCTTTAGCAGACCACATGTTGCCCTTAACATTTATTGTAGGAGAAGAAATGGAGTTTGGTCGTCAAGACTTACTTAACAATTCTGAACCAGGAAACATGTTAAGAGACATCCTAACTGAGAATGCAAAAACGGCTTTTGGTATGCAAGATAGTAGTCAAGTTACAGACTTACTAATTGTATACTACTTAATGTTAAATACATCAATCTTAGTAGAGCATACAACACATACACATAAGGGAGGTACATATCAACCTGATGTAGACCGTGGAGTATTTACGTTAGACAGGGAAGAAATTGAGTATATGTATAATACGCATGGGGTAGAGACACCTGAGAAAGTGTATAAAGACTTACAACGTGTATCAGAATCTATTGCAGAACATTATACAACAAATAAAATCAAAGGTTTGAAGCTAGACTTTAGGAAAGCAAAGGTAGTCAATCCAAGGTCACTCATGAGTTTTGATGATGGAATACACGTCATTCCAGTTGATGTAATAGTGGGGTATCTACAAGGTTTGCGTGAACATGCAAAAACAGGTATACTAAAGATAACATACAAGCGTGTAAATCAAGTAGACCGTACACAATACGTTACATTAAATAAAGAAGCAATTAACGATGTGTATAAAGAAGACTTAATGTTTGCCGATACCTTCTATGAAGTATCCAATCCAAAGTCCTATCAGTATCACGGACAGCCTTGTCATGCTGAAACGCATAGTGGATTTTGGAAAGTCGGTGATTTAGGAATTTCAAGATTCGAATTCCAAGCAAGCAGACAGGTTTCCTTAGCAAGAATTACAGAAGTTAAGTTAGCAACTCGTAGTGAATACGAAGGATTAAAGAAATATGTAAATGTAGACTTAGAAGGGGTAGAAGAAGCATTCGGTCATTATGTTTGTCAGTTAGATGAAGAACAAACAAAAGAAGTAAAGAACCATTTAAATGCTCCTGAAACAGTAGATGTTTTACATTATGTTAATGGGCAAATTGCTATATTTACTACAACCTATCGTAAAAGACTACATGATTATATGGTAATGAACCAAGAACATTTTACTGGATATACAGGAATCAAGACTGATATTTATGGTCAATCGAAAGAATTCAGTGGTAAAGATGTAGCATTTGGTCAGACAGAGCATATGGATTTTTAA	MDKKTLQETLQNYGRALADHMLPLTFIVGEEMEFGRQDLLNNSEPGNMLRDILTENAKTAFGMQDSSQVTDLLIVYYLMLNTSILVEHTTHTHKGGTYQPDVDRGVFTLDREEIEYMYNTHGVETPEKVYKDLQRVSESIAEHYTTNKIKGLKLDFRKAKVVNPRSLMSFDDGIHVIPVDVIVGYLQGLREHAKTGILKITYKRVNQVDRTQYVTLNKEAINDVYKEDLMFADTFYEVSNPKSYQYHGQPCHAETHSGFWKVGDLGISRFEFQASRQVSLARITEVKLATRSEYEGLKKYVNVDLEGVEEAFGHYVCQLDEEQTKEVKNHLNAPETVDVLHYVNGQIAIFTTTYRKRLHDYMVMNQEHFTGYTGIKTDIYGQSKEFSGKDVAFGQTEHMDF				NA	NA	NA	NA	NA
AK009_03056	252			hypothetical protein	ATGATATTCGGAAGCTTTGCAGATAACTTTTGGGGTTATGTTGTACCTGCCTGTATTACTTACGCAGGGGTAAACAATAAAGACTTTGTATTCAAAGATGAAAAGTACAGCAAAGGTATGTTGAAACGAGAGTGGGTATTTGTACTAATGCCTTATATAAACATGGTAGGTGCGTTATTCGTAACTTGTATGATGGTGTTACGTATTATCTTTTGGTTTATGAAAGGGTTCTTAGACAACGATAAAGACTAG	MIFGSFADNFWGYVVPACITYAGVNNKDFVFKDEKYSKGMLKREWVFVLMPYINMVGALFVTCMMVLRIIFWFMKGFLDNDKD				NA	NA	NA	NA	NA
AK009_03057	174			hypothetical protein	ATGGAATCATCAGTAGTATTTCTATTACTCGGTTTAGGGGTAGTTGGACTTATTTTTATTGTATTAGACATAGTAACGAGACTAAGAGGGTTTGGATTGGGTTGTTTAGGTGCGATTGGTTGGGGACTATTAGCCTTTACACTAGTTATGACAATTCTATTCGCAACTATCTAA	MESSVVFLLLGLGVVGLIFIVLDIVTRLRGFGLGCLGAIGWGLLAFTLVMTILFATI				NA	NA	NA	NA	NA
AK009_03058	276			hypothetical protein	TTGAATAAAACGGATAAAGATTTAAGGGAAGACATAAAGAAAGTAGTAAGTGAACAAGGATTTGTAAACTTCCAAACACTAGAGATAGTTGGCGTATTAATGGCTGAACGTGTAAAACGTGGGCTATCACAAAGGGAGTTATCAAAGCTATCAGGGGTAGCACAAAAGACTATTTCTCATATTGAGAGTGGAGAAGATATTCCATCCATTGAAACAGTAGTAAAATTAGCTAAACACTTAGGTTACGAATTAAAAATATCATTAGAGAAAATATAA	MNKTDKDLREDIKKVVSEQGFVNFQTLEIVGVLMAERVKRGLSQRELSKLSGVAQKTISHIESGEDIPSIETVVKLAKHLGYELKISLEKI				NA	NA	NA	NA	NA
AK009_03059	393			hypothetical protein	ATGTTTTCAAGTAGAAGTAATGTTTTTCATTTGAACTCTGTAAAATTTGAAGAAACTAAGAGAGTAATCCAGTTACCGTTCGAATACATAAGAGAAAATGAAAATGATTTTGGAACTGTTATGATACATGGGGAGAAACTATTCGTATTCAAAGATGTACACGAAACATTAACACCTAGTACATTTGAAAACGGTAGATTAGCATTAAAAGACTCTAATCTGAAAACAAGAGAATACTTTACATTTCCTACAATGTTAGACGTGCGTAATGCAGTAGAGGAAGTAGTATTAGAGGATAACCGTTTAGTAGTCACAATAAACGATGTAGCTTACAAGCGTAAACTAAAAGTATCCGTGTTTGCACCTGATTGGTTGGTAGAAAAGTATAATTAA	MFSSRSNVFHLNSVKFEETKRVIQLPFEYIRENENDFGTVMIHGEKLFVFKDVHETLTPSTFENGRLALKDSNLKTREYFTFPTMLDVRNAVEEVVLEDNRLVVTINDVAYKRKLKVSVFAPDWLVEKYN				NA	NA	NA	NA	NA
AK009_03060	411			hypothetical protein	ATGATGAAGACGGTAACTCGTAAGAAAACAGACAGATTAAGCGTTGTAAGAACTAAGAAACAAGTAAGTGCAATTCCAATTGAGTTTGAATTTCGTAATACAGACGAAGAGGATTTCGGTACAATCTTTATAGACGGGGTAGTTGTATTTAGGTTTAATAAGACGAATGCTAGAATGAACCCTCAAAAATTCAGTAACGGAAAACTTTCTTTTACAGATAGTAAATTTAGAGACGAGTATCATTTTAATTTCAATACAATAAGTGAAGTAAAAGACCTAGTAAAAGGTATCGGTTTAACAGAAAATAAACTTATCGTACAAGTGCATGACCAGTATCAAGAACGTAAACTACAACTTGTGTATGTTGCTCCTTCATGGTTGATTCAACGAGAGAAGGAACGAATGAAATAA	MMKTVTRKKTDRLSVVRTKKQVSAIPIEFEFRNTDEEDFGTIFIDGVVVFRFNKTNARMNPQKFSNGKLSFTDSKFRDEYHFNFNTISEVKDLVKGIGLTENKLIVQVHDQYQERKLQLVYVAPSWLIQREKERMK				NA	NA	NA	NA	NA
AK009_03061	1179			hypothetical protein	ATGTTTAAATCATTTAACAATAAAGGTTTTGAGTTAAACTTTACAAATGGTGTATCAATCAGTGTACAGTGGGGTTATTCAAACTACTGTTCAATTCGTGACTTAGATAGAAAACACGATGATTCAATGCAAGTGGCGGAGCATAAATCAGAAACAGCAGAAATTGAAATCCTACATGGTAAGAAGAACTTATCAGAAGAGTTTGCAGAACATCGTAAAGTATCAACTGACGGTCATGTTATTGGTTGGTTAAGTAGTGATGTAGTAGCAGACGCTATTGAATGGGCGAAGAACTATAATACTGGCGAAAATCCTGTAAAAGATTTAATTGAAGAAACAGCTTGGGCTTACCAAAGTGGAGCAAGAACAGATAGTTTTATGAAAGAAACTGAGAGATTATCTGAAAAGAGATTAGCTTCTTATAAGAAACAAGATGATGAAATAACTAATAATTTATATAAGCAGATTACGGAAATAGGAAAAGAATTTGCAAACAGAGGTGTATCAACTCACGAAGTACATATTGGTAAAAGTGAAACTGAGCCTGTTATTGAAGAGTTTCTTGGAGGTTCTAGCAAAACTTTAAAAGAAATGAGTCGTAAAATGTTAGAAGGTGGTCGTAAAGTATTAGAAGATAGAATACGTGGAGAAGAAGGAACGGTACGATTCATTGGGGTAATTAACCGTAATGATAAAAGTAACTTAGAAGAATATGAAGGAGACGAGTTAGTATTTGGAAAAACGATAAAAGGAATTGCTACAGGAGAGCGTAAATTTAAATCAGAACTAAGAACATTAGACCCAACTTTATATTCAACAGAAAACCCATTAGAACTAAAGTACTATTATGATTACTCAACTTTTCCAACTCATGGTTATATTATTTTAGGTGAATATTATCAAAACAAAGATAATCCTATTGCAATCCTAGACTTTAAATTAGAAGAAAATAATTCAGTTGGAACATTAAGTCTAACGGATGTAAATAAACAGAAACGTTATGAATTCCAAGTTAACTTAGATTCTGATGTACGGTTAATCATTTCTAAAATTGAATTTATTGGTTATGATTTACTTGTGTATGTAAACGTAGAGGGTAAAGAAGAAGACGAGAAGGTAGTCTTTCCTTTAGATACAAAGACAATTAAACGCATTCTAACTTATAAGATAACGGATTAA	MFKSFNNKGFELNFTNGVSISVQWGYSNYCSIRDLDRKHDDSMQVAEHKSETAEIEILHGKKNLSEEFAEHRKVSTDGHVIGWLSSDVVADAIEWAKNYNTGENPVKDLIEETAWAYQSGARTDSFMKETERLSEKRLASYKKQDDEITNNLYKQITEIGKEFANRGVSTHEVHIGKSETEPVIEEFLGGSSKTLKEMSRKMLEGGRKVLEDRIRGEEGTVRFIGVINRNDKSNLEEYEGDELVFGKTIKGIATGERKFKSELRTLDPTLYSTENPLELKYYYDYSTFPTHGYIILGEYYQNKDNPIAILDFKLEENNSVGTLSLTDVNKQKRYEFQVNLDSDVRLIISKIEFIGYDLLVYVNVEGKEEDEKVVFPLDTKTIKRILTYKITD				NA	NA	NA	NA	NA
AK009_03062	855			hypothetical protein	ATGGTTACGAAGCAAACATATAAGGTAGTATTAAAAGACAGAGATTCAGAAAGAATGTTATTAGTAGAAGGTAATGTAAATACAATTAAAGATAGTGAAACAATTAGTAGAATCAAAGAACTTTCAAAGGTACAAGAAGCAGACCGAAATATGAAAGTAACAGATATGGTATCAAACCGTAAATATACTTTTATTTTAGATAATGGAACACAAAAAGACTTAGGTATTCTACGTGAACATAAAGGTAGATATCAATTTGAATTAAAACTTACTTCACCTGATTGTCCAGTCATTAAACTAGAATTTGATAAAGACAAGTTCCAACAAAGATTATACGATTTAGAGATTGTAGACGGATTGGTAGATTCAGAAGATATGACAATGCAAAACCTGTTAATCTTGGCTCTTACGTCGTACATGGGGTATGCAAACAAGATTGAATTAGGTGATGTATCAGATATTTCTCGTGTTATTCTGTTTGATGTTACGTTTGAAGGTAGTATGAAACTAGAACATGTACAAGACGGTGTTGAGTATACAATTGTAGCTGATAAAGACGCACATCATGAGTATGTAACCATTGCAAAAGAGTTTGGTGTTATTACCGCTATCTTAGACGGAGAGAATTGTGAGAAGAAAGAAATCTTCACATTCCACATTTGGGAAGCACTAAACGTATTAAAAGAGTTAACACTTTACGATAAAGGGTATGATTTTGAAGGTCGTACCTTAAAAGACTTGGAATTATTAATCTCTAAATTATTTGGCTTCTATCAAGACCCTATGTTTAAGGATGTATTTAAGAAGGTATTCATTGAGTCCCAAGAAGGGGTAGAAGAAACAGAAGAAGTGTAA	MVTKQTYKVVLKDRDSERMLLVEGNVNTIKDSETISRIKELSKVQEADRNMKVTDMVSNRKYTFILDNGTQKDLGILREHKGRYQFELKLTSPDCPVIKLEFDKDKFQQRLYDLEIVDGLVDSEDMTMQNLLILALTSYMGYANKIELGDVSDISRVILFDVTFEGSMKLEHVQDGVEYTIVADKDAHHEYVTIAKEFGVITAILDGENCEKKEIFTFHIWEALNVLKELTLYDKGYDFEGRTLKDLELLISKLFGFYQDPMFKDVFKKVFIESQEGVEETEEV				NA	NA	NA	NA	NA
AK009_03063	888			hypothetical protein	GTGGGAGTAAACGTAAAATCAATGTGGGTATATAAAGTTATATTAGAAGGTTCGGCTACAGGTGACAAACCAAGAGTAGTACATTTAAGAGTAGATAATCAAGCAGAGTTACATAAGTGTTTAAACGAGTATTTTAATGATGAAACAGTAGTAGAGTTTATGCCTTATCCTTTAGCAGACCCTTCAACAAAAGTATCAAAGATGTTAGATGGGGTATACTATGAAATTTTAGCAGAAAACAAGGTCATTCAGCAAGGAGACTCTGTAAACGATACAGAAATTTTCATCAAACATGGAGATTGGATGGAGTGTTATATTCGTGGTTACGATTTTGACAATTTTGAATGGAAACACGTATTCCACATCAAAGACTTCATCAAACTAGCTTCTGAACAAGGTGATTTAGATATAGAAGACTTCCAATACGAAGATTTAGACTTACGTTTATTAGAGAACTTATCTTCTATTGTATTTGAGTATCTCGCAAGTGGGGTAGAACTAGATGGTAAAGTAGAGAAGGTTGCAAGAAGTATTAATGAAAACCCAATTACACCTTTAGACTTCAAATTCTCTGATATGGAGGAAAGAGAAGAATATACAGTATATTCAAAGGGTGGAACTGGTAAGTCGTATACTACGTTTATGAAAGATGAAGATAAAGTATTAGTTACATTAGACGGTACAGGATACAAAGAAAAGAAAATGTATGAATTAGACTTAAAAGGTTCAATTGAAAAACTACAAGCAATTAAGGTACGTTCAGAAGATTTCAATTTAGAAAATGAAACACTAGCTGAACTAGAAGGTTTATTTTGGAGTATGGTTGCGTTAGGGTATGGTGGTGCAATCGAAAACCCTAATTATACGCAATTTGTAAAACGAGTATAA	MGVNVKSMWVYKVILEGSATGDKPRVVHLRVDNQAELHKCLNEYFNDETVVEFMPYPLADPSTKVSKMLDGVYYEILAENKVIQQGDSVNDTEIFIKHGDWMECYIRGYDFDNFEWKHVFHIKDFIKLASEQGDLDIEDFQYEDLDLRLLENLSSIVFEYLASGVELDGKVEKVARSINENPITPLDFKFSDMEEREEYTVYSKGGTGKSYTTFMKDEDKVLVTLDGTGYKEKKMYELDLKGSIEKLQAIKVRSEDFNLENETLAELEGLFWSMVALGYGGAIENPNYTQFVKRV				NA	NA	NA	NA	NA
AK009_03064	552			hypothetical protein	ATGAAAACTATCAAAGCATATGAAGTAGGCTTAAAACTTAGAAATATAGGCGGTATGCAAGGAGACTTGTATATCATTAAAGCAATTGAAGATACAGTAGAAGATGTAAAGGCATATTTAAACAAGTATTATTCTGAGGATACAGTGTTATACATCAAAGAAACTCCATTAGTACACGGTGAAACTTTGTTATCTGAGTTAGAAGAAGGGGTAGCCTACGAAATGTCGGCTGATTCTGACCAAACAAACGCATCAGTAGAGATTACGAAACAAGGTGAGTGGGTTCAAATTTACATTAAAGGTGGAGACTTTAGTGATAGTATTTATATTCATAAATTTATTCCATCAAAAGTATCAAAACTGGCTATTAAGTTAGATATCCATGAAGAAGGTTGGTATGATGTAAATAACTTAACATTAAACGATATTGATTTAATCGGTGCTACTGTATATGAAGGTCTTACAGGAATGGAAGACTTAGGGGAAGAATTTAAAGAAGTAGCTGAAATCGTAGTAAACAACAATTTAGAAAGAAGAGAAGAAAAGCAATAA	MKTIKAYEVGLKLRNIGGMQGDLYIIKAIEDTVEDVKAYLNKYYSEDTVLYIKETPLVHGETLLSELEEGVAYEMSADSDQTNASVEITKQGEWVQIYIKGGDFSDSIYIHKFIPSKVSKLAIKLDIHEEGWYDVNNLTLNDIDLIGATVYEGLTGMEDLGEEFKEVAEIVVNNNLERREEKQ				NA	NA	NA	NA	NA
AK009_03065	573			hypothetical protein	ATGGTACAGTACAAGAAAGGGTATAAAACATTACTAAACGAAGAAGAAGGAAGAGGGTTATTTACAGTTCATATTGAAGCAACTGATGAAGTGTATTTAAGACGAATAGTTTTAATGAAATACGATAATGCAGACATTGTTTCCTTTAAAGAAACTCAGTTGATTGATGGAGGAAGTATTAAAGTACAAGATATGGTAGAAGGAGAAGAATACCTATTATTAGCAGAAACAGAAAGTTTCTTAGATACAGTTTCTTTTGAGAAAGATAAAGGTAAATTGTTCGTAAAAAGAACAGGTCAATTTGCAAGCGAACAACAAGAAAAGAGTATGGGTTCTTATGTTTATGAGATAGAAGAAGTATTGGAGAACTTACGTAGGTTTTATAGAAAACTAGTAGCAAATAAAGATAATGAGCCAATGGATGATTACGATACAAGAAAGGCATTAGAACTGTTTGAAGAAGAGATTGAAGAGTGTAATATAAACTCTTTAACTTTAGAAAGACTAGAAGGTTTAGATTGGATAATCCGTAAAGAATGTTTAGATGTTATGACAGTAGAATATGAAGGATAA	MVQYKKGYKTLLNEEEGRGLFTVHIEATDEVYLRRIVLMKYDNADIVSFKETQLIDGGSIKVQDMVEGEEYLLLAETESFLDTVSFEKDKGKLFVKRTGQFASEQQEKSMGSYVYEIEEVLENLRRFYRKLVANKDNEPMDDYDTRKALELFEEEIEECNINSLTLERLEGLDWIIRKECLDVMTVEYEG				NA	NA	NA	NA	NA
AK009_03066	369			hypothetical protein	TTGACAGATGCGAAAACTCCTTTATCTGAAATCGAAGAAGGGGTAGCATATGAAATATTAGCTGATATCGGTAATTCAAACTCTAGTGTGGAAATTACAAAGAAAGGTGAAAGAGTACAAATCTATATTAAAGGTTTAGACTTTAGTGATACTATTTTTATTCACAACTTCATTCCTTCTGAGATTATGAAACTAGGTTTAGAAGCGAAAGAGTATGAGAAAGAATGGTGTGACGTAAATAATTTAACATTAGGTGATGTTGATTTACTAGGTACATTAGCATACGAAACACATCATGGAATAGTAAACTTAGGTGAAAGATTTAAAGAAGTAGCACAAATTGTTAAAAACGAAAGAAAAGGCGAATAA	MTDAKTPLSEIEEGVAYEILADIGNSNSSVEITKKGERVQIYIKGLDFSDTIFIHNFIPSEIMKLGLEAKEYEKEWCDVNNLTLGDVDLLGTLAYETHHGIVNLGERFKEVAQIVKNERKGE				NA	NA	NA	NA	NA
AK009_03067	282			hypothetical protein	ATGTCCTATAATGTATTGTTAAATCAAGTAAACGGTAAAGGTTTATTCCAAGAGCAAGTCAAAGTAGATACAGAAGGTCAGTTAGTAGACTATGTAAATACAAACTTCTCTGATTCAGAGATTGTATCGTTTAAGAAGATTCAAATCTTATATGCAAAGAATCCAAACCCAATAAAAGGTTATGAGATTGGTTTACGTTTGAAAAAGAAAGGTAATTTACAAGCAGACGTATATACATTTACAATCGTAAAGAGTCAGAAGAACAAGCTAAACAGTACGTAG	MSYNVLLNQVNGKGLFQEQVKVDTEGQLVDYVNTNFSDSEIVSFKKIQILYAKNPNPIKGYEIGLRLKKKGNLQADVYTFTIVKSQKNKLNST				NA	NA	NA	NA	NA
AK009_03068	891			hypothetical protein	ATGCAAGAATTACAAGCAAACCCAGAAATGTTTCTAATGAACTTAGAGGAGAAGGGTTGTTACACAGTAAGTGATGATTTAACTGAGATTAAAGTAGAAAGACAAGGTACAAGATTTAAGTTTTCTGAGTTCTATCCAACAAGTGGTAAAACTTTAGTACAAACATTTGATTTAAAGAGACTAATTCATGTGTTAGTTGAAAATAAGAAGATTGAACCTAATGCTCATACAGATTTCCAATTAAAAGATGTATATGCACTAAGTAGAATCCTTTTAAACTATAAAGAAGGTACTCATCATGTGAAAAGTGCAACAAACTATACTACATTTGCAAACCGTTGGTTCGAAGGTACAGATACATCTAATTATAAAGGTGTTATGGGTGGTGGAGATGGCAAAACTTTAATTGCATTTAAAACTTTACTTAGTCATCCTGAGTATGGTCTGTATACAGAGCATATTGAAGCCCCTACAGAAGAAAGACTGAAACAAGTAGTTCAAAACTACCGTGATAAAGATGTAAGAATTGTATCTTTTAAACAGAAAGAAATGGTATCAGGTTCTCTTAAAGTAAAAGACATGGTAGAAGGTAAAGAGTATGAAGCTATTGCTGATTCAGACAATACAAATGATACAATCGCTTTCCGTAAAGAAGGAGACTGGATTTTTAGTGAAATTCGTGGTGGTGAGTTCGAAGAACCTTACAGACACTCTTATAAACTAGTAGATATTGTAAAAGTACTAGCAGATAAAGACCACATTAATAGGGTTCCATTTGATGATATGGATATTGACTATTTAATGTGGGTAGACTTTGAGGTGTATTGTAATGTTACAGCTTATGCAGAACTACCTGAGGAATTTAGAGGAATGGCAGTAGATACATGGTAA	MQELQANPEMFLMNLEEKGCYTVSDDLTEIKVERQGTRFKFSEFYPTSGKTLVQTFDLKRLIHVLVENKKIEPNAHTDFQLKDVYALSRILLNYKEGTHHVKSATNYTTFANRWFEGTDTSNYKGVMGGGDGKTLIAFKTLLSHPEYGLYTEHIEAPTEERLKQVVQNYRDKDVRIVSFKQKEMVSGSLKVKDMVEGKEYEAIADSDNTNDTIAFRKEGDWIFSEIRGGEFEEPYRHSYKLVDIVKVLADKDHINRVPFDDMDIDYLMWVDFEVYCNVTAYAELPEEFRGMAVDTW				NA	NA	NA	NA	NA
AK009_03069	471			hypothetical protein	GTGTCTGAGTTAAACGAAGATGGAACAGTACTTAGAAAACGTATGATAAACATGCATAAACTAGTTGATAAGTTAAAGAGTCTTGACATTATAGAAGAGTTATTATTCGAATTTGAACCAAACGTGGTACAGTTCCTAGAACTAGATTGGTTGATATCACATGAAGTAACACCAAACGGTACTGTTATTCCTGAGTGGGAAGGTATTGTATACAGTCTAGAGCCTACAAAGGATAGTCATGTAGGAGTAGTAGAAACATTTGAAGATACTGAAACAGAAGTAGTTGCTAAGATTTGTTCTACATGCAGTAAGGAGAAGAGATTTACAGTATCATCTAGAGCAATGCAAGACTGGGAAAACGGTCAATTAATCCAAAGAGCATTCCCAAACATGGAAGCACCTGATAGAGAACTATTTAGAGGTGGAATGTGTGGGGATTGTTGGAATAGAATGTTCCCAGTAGAAGAGTAA	MSELNEDGTVLRKRMINMHKLVDKLKSLDIIEELLFEFEPNVVQFLELDWLISHEVTPNGTVIPEWEGIVYSLEPTKDSHVGVVETFEDTETEVVAKICSTCSKEKRFTVSSRAMQDWENGQLIQRAFPNMEAPDRELFRGGMCGDCWNRMFPVEE				NA	NA	NA	NA	NA
AK009_03070	381			hypothetical protein	ATGAGATATAAAGTATTAATGAATGATGCAGAAGACAGAGGTTTATATTCAGAGATTTTATCAGTTACAGATGAGTCTCAATTGAAAAATATGATTCCAAAATTGTTTAAAGGTGAACTTGTATCCTATAAACCAATAGAAGAAGGTAAAGATATTACGAGTGATAAGTTAAAACCAATCGTAAAAGAGATTCCAAAAGTAGAGAAGCCAAAACAAAGTAGTAGTAATGGTAGTTCTTCTAGTATCGAAAATGTTCCTTTAAGAAGTAGACCACAAAAAGAATACAAGAGTGCGGAAAGTAAGTATAACGATGCGGTACAGGAAGCAAAAGTAGAAATAATGGCAGAAGCAATGAAACAAACTTTAGGAGAATACGATTGA	MRYKVLMNDAEDRGLYSEILSVTDESQLKNMIPKLFKGELVSYKPIEEGKDITSDKLKPIVKEIPKVEKPKQSSSNGSSSSIENVPLRSRPQKEYKSAESKYNDAVQEAKVEIMAEAMKQTLGEYD				NA	NA	NA	NA	NA
AK009_03071	738			hypothetical protein	ATGGCAAAGAGAAAAGACACGAAACAATCCCACTTTTGTAAGGTTTGTGGAGAACAGTGGTGGATTGAGTATAACGAAAAAGATTACAAGAAGTTTATTGAGAAAGGTAAACCGATTGATGAAGTAATGCCTTATTTAACAGAAACAGAGAGTCATTTATTAGAGCATAAAACTTGTACATCATGTGTGCCACCTACAATGCCAATCAATTCAACTCCACTCATGAAAGACCTAGAAGATGGGGTATATACGGTACAAAGTAAAGCATTCGGTGAAATAAGAGTAGAGAAACAAGGCGATTGGTTACATACAATATTAGAAGGAAAAGGAAACAAAGGTTTCTTCTCCTATGACTTAGATGCTACAATTGGTGGATTAAGAGTAAAAGGAGACTACAAAGGTTCTATCGTTGAGAGTCAAATACGCCTTGAACACATGGCTTCTCTTACACAAGTTGTATACAAAAACTTATTCATGCATGATTATATTCCTTCAAACTTTAAAGGAATTGCGTATTATGGTCTAAAAGAGCATAAAGACGTAAAACCATCTACGCCTGAGGGGTTGGATTTATCAAGTAGACCAGATAATGAATATATGGTATTAATGAACGATACAGAAGAACGTGGTTTATATAAAGAAAAGATAAAAGCTGAGAGTGAAGAACAACTAAAAATGGTAATTGAACAAACTTTAGTTGGTGAACTCGTATCTTACAAACCAACAAAGTATATTTAA	MAKRKDTKQSHFCKVCGEQWWIEYNEKDYKKFIEKGKPIDEVMPYLTETESHLLEHKTCTSCVPPTMPINSTPLMKDLEDGVYTVQSKAFGEIRVEKQGDWLHTILEGKGNKGFFSYDLDATIGGLRVKGDYKGSIVESQIRLEHMASLTQVVYKNLFMHDYIPSNFKGIAYYGLKEHKDVKPSTPEGLDLSSRPDNEYMVLMNDTEERGLYKEKIKAESEEQLKMVIEQTLVGELVSYKPTKYI				NA	NA	NA	NA	NA
AK009_03072	258			hypothetical protein	ATGGGTGATTATTTAACACTTTCACATATCGCAGGTGGTTTAAGCGTTACAAAGAAGTGGATGGGTATAATGATACTAGTAAACCGTTGGGGTGCTACCAACTCTTATAACGTTGTAATTGAAGTAAAGGATACAGACGAAGGTGAAAAGACTACAATTTATATAGTAGAAAGAGAACTAACATTAGACTTTGATGATTATGTATCAAGTAACCATAAAGACGGTTGGACATTCCATTTCCTAGACCCAAATGAATAA	MGDYLTLSHIAGGLSVTKKWMGIMILVNRWGATNSYNVVIEVKDTDEGEKTTIYIVERELTLDFDDYVSSNHKDGWTFHFLDPNE				NA	NA	NA	NA	NA
AK009_03073	258			hypothetical protein	ATGTCAAATGTTGCTACTAAATCAAAGGATAAAACGTTAGAAAGTATCTTGAACACAAAGGGTGTATGGAAAGGTAAATTAGTTTTCTACAACCACATTGGAGTAATTACAAGTCGAAAGAAAGCAATTATCAGACAAGTACAAACACCTACGGATATCGTTAGAACGATTAAATTTGAGGGTTCAGGTGCAATTCAAGATTTAGACTTATTCCTAGCTACATTAGAACATGAAGGAATGACGGTTCATTTAATGTAG	MSNVATKSKDKTLESILNTKGVWKGKLVFYNHIGVITSRKKAIIRQVQTPTDIVRTIKFEGSGAIQDLDLFLATLEHEGMTVHLM				NA	NA	NA	NA	NA
AK009_03074	267			hypothetical protein	ATGTCAGAGCAAGCAATTACACAACAAAACGTGAAAAACTATGCAAGAACACATGGTAAATGGTTTGGAACTCTCATTTCACAGCCAGTATTTAATGGTGTAGCTATGGGTGTTCCAACCCTAGCTAGTGTTTCAGTAGTACGCATAAACACAATTAGAGGTTTTGGGTATGTATTAGTATCTTCAAACAAAGAAATTATTGGTGAATTGGGTTGGTTTGTATCACAAAACGAAAAAGAAGGTCAAAAGATTTCTTTCACATCATAG	MSEQAITQQNVKNYARTHGKWFGTLISQPVFNGVAMGVPTLASVSVVRINTIRGFGYVLVSSNKEIIGELGWFVSQNEKEGQKISFTS				NA	NA	NA	NA	NA
AK009_03075	291			hypothetical protein	ATGGAACTAAGAGGGAAAGAGTTATCTGTTTCAGACGTAAAAGAACTAGCTAAGAGTCAAGAGAAATGGGAAGGTAAACTACGTTTAAACCATACATGGGAAAAGTATACTGATAAAGAACTAATAGAAACAACTGTATCCATTGTACCTGTTAAAACGTTTACTGGAACACAATACATCATGTTTAATTTCCAAGGGGATAAAATGAGAGAGTTAGACTGGTTTATTCGAGATAATAAGAAACTAGGTATTGAAGTTACATTCTACGAGTTAGGAACAGTAAAGGGGTAG	MELRGKELSVSDVKELAKSQEKWEGKLRLNHTWEKYTDKELIETTVSIVPVKTFTGTQYIMFNFQGDKMRELDWFIRDNKKLGIEVTFYELGTVKG				NA	NA	NA	NA	NA
AK009_03076	336			hypothetical protein	ATGAAAACATCTAACAGTTTTAAAGAAGTTTCATTAGAGCATGTGAAACAAGTAGCGAAACAAGATTTTCAGTGGCGTGGAGACATCGTTATTCAATCAGACAATCCAGTAAACTGTAAGACATACTTTGTCGTTGTTCATCATGTGTTATTAGAAGGGAAAGACCATTATATTTGCACATTCAGTTATGATATTACTGGTTTAGAGTACATTCACGATGAAAACGAACAGGATTACGATGATAGAACGAGATTCTTGAAGCCATTAGACGTAGTACATAATTGGTATACATCAGAGCCATATACAGGTTATAAGTTTATGGAACGAAGTAAGTAA	MKTSNSFKEVSLEHVKQVAKQDFQWRGDIVIQSDNPVNCKTYFVVVHHVLLEGKDHYICTFSYDITGLEYIHDENEQDYDDRTRFLKPLDVVHNWYTSEPYTGYKFMERSK				NA	NA	NA	NA	NA
AK009_03077	336			hypothetical protein	ATGAGTAAAGTAGTAGAATCAAAACGAGTTAGTATTATGGAAGCAATGGATATGGCAAGTAAAAACAATATGTGGCGTGGTGATTTACTTATGATTAATGATGGGGAGGTTGTTGACCAAACTTTAGTAGTCATTCATGCATTACCGTATGGAGAAGAAACAAAGTATGTTGTTACAATGCAACGTGATTTAAAGGAATTATTTGCAGTAAATAATCGTGATATGGAAGTAAAACAGCCTTTAGACCAAGTAATCTACACAATTGAACAGTTTACAGAACAGTTTACAGGAAACGAATCAGACGATTTTGAATTACAGGAGTTAATTGTAGAATAA	MSKVVESKRVSIMEAMDMASKNNMWRGDLLMINDGEVVDQTLVVIHALPYGEETKYVVTMQRDLKELFAVNNRDMEVKQPLDQVIYTIEQFTEQFTGNESDDFELQELIVE				NA	NA	NA	NA	NA
AK009_03078	2631			hypothetical protein	ATGAAAGCATCAAATATAACAAAATTAGCAACTACTGGACTAGTAGTCTTAGGAGCATTAACGTTTCCATCAAGTTCACTAGCAGAAGTAGGAAACCAAGCTACAAAGAAAATTGAAATGGTACAAGAACAGAATCAAGAAACTGTTAAATCAGGGGAAGTAACACAAAAAGATTTATTAAAATTACAAGATTACTTAAAACAGCAAGAAAAGTTATTTGCTGACGAAGATAAATTAAAGGAACAACAAAATAAAGAGAAAGACATTACGGTTGAAAATAAAGAATTAGAAAATAAGTTCGTAGAATTACAAACTAAACAAGATAAACTAGCAAAAGAGATTCAAACGTTCAAAGAAAGTATTAAATATCCTTCTGAAACAGTTGGGGTAGAAAAGAAAGATGAAAATAAGGTTGAAACGGAACAAGATGCAGAAAAAGAGTATGTGAAAAAGCGTGAAGACAATAAGAAAGCAGTTAAAGAAGTACAAGATAAGTTACAAGAGTTAAAAGTAAAAGAAGAACAGCAGAAGAAAGAAGCTGAACTGAAAGCAAAGCAAGAAGCAGAGTTAAAGGCAAAACAGGAAGCGGAACTAAAAGCGAAGGAAGAATCTGATTCAAAAGCAAAAGTTGAAGCTGAAACGAAAGCTAAAGAAGAAGCAGACGCTAAAGTGAAGAAGGAAGCCGAAGATAAAGCGAAGTTAGATGCTGAAACAAAAGCAAAACAAGAAGCTGAACTAAAAGAAAAACAAGATAAAGAAGAAAAAGCAAAAGTAGAAGCTGAAACAAAGGCGAAACAAGAATCTGAGTTAAAAGTGAAAGAAGAACAAGAAAAGAAAGATGCTGAAACGAAGGCGAAAGCAGATGCAGAGTTAAAAGCAAAAGAAGAGTCTGAATTAAAGGCAAAACAAGAAGCTGAATTAAAAGCGAAAGAGGAAGCAGAACTAAAAGCAAAATCAGTTGCACCTCAATTAGCATCATCACAAGCATCAGACCGACCAGTAATTAAACGTATTAAAATGGAAAAGAATTTCTTAACTTATGAAGAACCTTCTTTATCATCGCCTATTTCTTGTGAGTACTTACCACAAACTGTTAACGTAGTAGAAGAAGGTAAAGACGGTTGGGTGAAAATCAAAACATACTTCGGTGATAAATGGTTATTAATTGAGCAAACTAAACGAGTTAAAATTGATAGAGTATTCTATACGTATAATGAACCTTCATTATCATCAGGTATTTCATCAGGATTCTCACCACAAACTGTAACTGTATTAGAGGAACGTCCTGACGGATGGATGAAGATTAAAACATACTTTGGTGATAAATGGATGTTAAAAGAGCAGAAGAAACTTCCAATGGATAGAGACTTCTATACTTACAATGGACCTTCTTTATCGTCAGGTGTTTCAAGTTACTTCTTAGCACAAAAACTAGAAGTCATTGAAGAACGAGCAGACGGTTGGGTAAAAGTAAACACGTATTTAGGTCATAAATGGGTAACAAAGGATATGAAGAAGGTATGGATGACTAAAAACTTCTTTATCTACAATGATGCTTCTTTATCATCAGGTATCGCAAGTGAATGCGGAGCGCAACCAGTTGGCGTATTAGAAGAACGTGAAGATGGTTGGATTAAAATTGATACTTGGTTAGGTCATAAATGGGTGAAAACTACAGAGAAGAAAGTATGGATGACTAAAAACTTCTTCCTATACAATGACTCTAATTATGAATCAGGAATTGCTTCTGAGTGTTCACCACAACCAGTTGGGGTAATTGAAGAACGTGCAGGTGGATGGATTAAAATTCATACTTGGTTAGGTCACAAGTGGGTAAACACAGTTCAAAACGAAGCAAAACACGAAAACATCTATTTCAACAAAGTATTCTTTGCATACGATAGCCCTAACTTCTCTTCAAACGTTGCAGGTAAATTTGCACCTCAAACTGTAGAAGTAAAAGAAAAACGTGGAGCATGGGTACGCATTGGAACTGGTTTAGGTGATAAGTGGGTAAATAAAGATACACTAAACAACGATTTAGTATTATTAGACGTACCACATTACTACCAATACCCTTCATTATACAATGGTTGTGAAGTTGTTTCATTACAAATGTTAGTAGAGTACCATACTGGACAAAGATTTAATATGGTAAACTTCGCTATGCAAATGCCAATGGATACTACACCAATGGTTAAGCAAGGTGGACGTTATAAAACTTGGGGAGACCCAGATGTTGGTTTCGTAGGTGATGTTACAGGTAAGAGACCGGGATTCTCAATCAACCCAGCACCATTAAAACGTCTTTTAGACCAATATGCTAAAGGTACAAACCTTACAGGAAGTAGCTTCTCTGTATTAGAAAATTATGTTCGTAACGGTAAACCAGTAGTAGCTTGGGTAACAGAAGGATTAACAACTCCTAATAGTTCTGTTACATGGAAAACTCCAAGTGGTAAAACTATCTATGCGAAATTCAATACTCATGCAGTTACAATCACAGGGGTAGATGGAAACAATGTTTACTACAATGACCCTGTAACTGGTCAGAAGAATGCTAGAGCATCTAAATCTCACTTTGAAAACATCTATAATCAAATGGGACAAAAAGCATTAAGCATTAACTAA	MKASNITKLATTGLVVLGALTFPSSSLAEVGNQATKKIEMVQEQNQETVKSGEVTQKDLLKLQDYLKQQEKLFADEDKLKEQQNKEKDITVENKELENKFVELQTKQDKLAKEIQTFKESIKYPSETVGVEKKDENKVETEQDAEKEYVKKREDNKKAVKEVQDKLQELKVKEEQQKKEAELKAKQEAELKAKQEAELKAKEESDSKAKVEAETKAKEEADAKVKKEAEDKAKLDAETKAKQEAELKEKQDKEEKAKVEAETKAKQESELKVKEEQEKKDAETKAKADAELKAKEESELKAKQEAELKAKEEAELKAKSVAPQLASSQASDRPVIKRIKMEKNFLTYEEPSLSSPISCEYLPQTVNVVEEGKDGWVKIKTYFGDKWLLIEQTKRVKIDRVFYTYNEPSLSSGISSGFSPQTVTVLEERPDGWMKIKTYFGDKWMLKEQKKLPMDRDFYTYNGPSLSSGVSSYFLAQKLEVIEERADGWVKVNTYLGHKWVTKDMKKVWMTKNFFIYNDASLSSGIASECGAQPVGVLEEREDGWIKIDTWLGHKWVKTTEKKVWMTKNFFLYNDSNYESGIASECSPQPVGVIEERAGGWIKIHTWLGHKWVNTVQNEAKHENIYFNKVFFAYDSPNFSSNVAGKFAPQTVEVKEKRGAWVRIGTGLGDKWVNKDTLNNDLVLLDVPHYYQYPSLYNGCEVVSLQMLVEYHTGQRFNMVNFAMQMPMDTTPMVKQGGRYKTWGDPDVGFVGDVTGKRPGFSINPAPLKRLLDQYAKGTNLTGSSFSVLENYVRNGKPVVAWVTEGLTTPNSSVTWKTPSGKTIYAKFNTHAVTITGVDGNNVYYNDPVTGQKNARASKSHFENIYNQMGQKALSIN				NA	NA	NA	NA	NA
AK009_03079	333			hypothetical protein	ATGGAAACTGGATTAGAAACAAAGTTATCTAGTATTCTAGCAACTTCAAAGGTACTTTCATTTAAAGAATTTCAAGACTCATTAGATAACTTAGTAAATGAAGAAAACAAACGTAGTTTTACAATGACAACTGATACAGGTTCTTGTACGAAGGGGTATATCTTTAGTTTAGACACCGAAGAAAATAGGTCTAAACTGAAAGTAAATAGGTTAGGGAATGAAGAACATCACATAACTTTTGTACCTAGTATAGTAAGGTGTATCTCGCAGAAACAAGAAGGGGTATTTACTGTCTTTTACGAAACGTCAATTGTCATTATTGCAATAAAATAA	METGLETKLSSILATSKVLSFKEFQDSLDNLVNEENKRSFTMTTDTGSCTKGYIFSLDTEENRSKLKVNRLGNEEHHITFVPSIVRCISQKQEGVFTVFYETSIVIIAIK				NA	NA	NA	NA	NA
AK009_03080	438			hypothetical protein	ATGAAATCAACATTAAACTTAACAAGTCTGCAATTTATGGTATCGGTAATTGTAGAGGATTTAGAAAACTTTAGATTAACAGGTAATAGACTGTTTGATTTTGAAGAAGTAAGAAATTGTACCAACCTTGATGAATTATTTAAACAGTGGTTATTACAATTCGATGATTTGTCTAGTACCCCTGACGAGGATTTAGAAGATGTAAAACTAGAATTAAGTGAACATATGAAGTATATGTCTATTTGGAACGTAAGTGAGGTAGAAAGAGCAACGAATGTTAAGTCCTTTAAAGATTACTTCGAGGGGTATGAAGGTTTCTCTAAACTTGTAGTTGATTTCTATGAAACTAGTTCTAAAGAAGATGAAGAGTGGGCGAAAACAAAGAACTCACCTGAGTTCAAAGCAAAGTTTAAAGAACTGACAGGTATGGAAATTTAA	MKSTLNLTSLQFMVSVIVEDLENFRLTGNRLFDFEEVRNCTNLDELFKQWLLQFDDLSSTPDEDLEDVKLELSEHMKYMSIWNVSEVERATNVKSFKDYFEGYEGFSKLVVDFYETSSKEDEEWAKTKNSPEFKAKFKELTGMEI				NA	NA	NA	NA	NA
AK009_03081	1017			hypothetical protein	ATGACAACGGAATTAAGAGAAGTAAACGAAGAACTTTTAGCAAAGAACCCTAAAGATTTAAAAGGTAAAGAAAGAGATAATTGGTTAACAGAAAAACAGAAAGATATAATGAATAAAGTAACAAACCATAAGACTTCTAAAGAAGACATCATAGAAATGTTAACGTTTATGTCTAAGTTTCATAATTACTCCTATAAGAACTCTATGTTAATAGAAGCACAATGGGAGGGAGCGATGGCAGTTGCAAGTTCTCAACGTTGGAAGAAGTTAGGGTATTATATTCGTAAAGGCGAAACTGGTAAAATACTGATTTGGGTTAGAGTAAAATACAAACGTATTAAGCTAGACGATGGTTGGATTCCTTGGAACAAAGCACCGAAACAGGTACAGAACGATGCTTTAGCAGGTAAGTATGAGTGGACAGAAGGGGTAGGCTATAAGTCAGGTTATGTGTATGATATCTCACAAACAACAGCTGAGATTGAAGATTACCCTAAATTAATGCCAAACCGTCATTACAACTTTGAAGAAAACGAAGTAGATTATCAAAACTTACTAGGTGGTATCGACTTACTAGCAAACAATCTTGGTTACGAAATGAACTGGGATGAGCGTGGTGTATTACAAAGTGCAAAAGGTGGTTGTATCTATGATTCAAAACAAATCCTTTTAAACAAACGAAATACACATACAGAGAACGTAAGTACATCTATTCACGAACTTGCACATGCTTACATGCACCCTAAATCTGAATTAGATAGAGGGGAAAGAGAGTTACAAGCTGAACTAGTAGCTACAGTAGTTTCAAGTGTATTCGGTATAGACACAAAGGAAAAAGCAGTAGGTTACATTGCAACATGGATGAATTCAGCAAATAAACGTTTAAAAGAAGATGGAAAAGAAATGCAGTTAGAAGACTTACTACAAGAAGTACAAAGAACTGTTAAGAAGTTTGTAAGGATTATTAATGGTGAAATGGATTATCAAGAAGGAAACGATAAGGCAATGGATAACTAA	MTTELREVNEELLAKNPKDLKGKERDNWLTEKQKDIMNKVTNHKTSKEDIIEMLTFMSKFHNYSYKNSMLIEAQWEGAMAVASSQRWKKLGYYIRKGETGKILIWVRVKYKRIKLDDGWIPWNKAPKQVQNDALAGKYEWTEGVGYKSGYVYDISQTTAEIEDYPKLMPNRHYNFEENEVDYQNLLGGIDLLANNLGYEMNWDERGVLQSAKGGCIYDSKQILLNKRNTHTENVSTSIHELAHAYMHPKSELDRGERELQAELVATVVSSVFGIDTKEKAVGYIATWMNSANKRLKEDGKEMQLEDLLQEVQRTVKKFVRIINGEMDYQEGNDKAMDN				NA	NA	NA	NA	NA
AK009_03082	279			hypothetical protein	ATGTCAAAACGATACGGTAACTATAGACTAGATGATATACATTCAATGGCAGTAGCACCAACTAATGAACAAGAGAGTCAAGACTATAGAAATGCATTAGCAACTGGAAATTATCCATTAAGCATAACGGATTGTGAAACGGTTGGCTTATCAGGTGGTTGTGTGGTAGACTGTCATGTATATTTAGATGGTAAATGTCAAGAGCATAAAGAAATGATTCCACACCTTGAAACGGAAGAGGATAAAGCTACATATCAAGAATTGTATATAGACCAGTAA	MSKRYGNYRLDDIHSMAVAPTNEQESQDYRNALATGNYPLSITDCETVGLSGGCVVDCHVYLDGKCQEHKEMIPHLETEEDKATYQELYIDQ				NA	NA	NA	NA	NA
AK009_03083	1080			hypothetical protein	ATGCATGATGAAAATAAACTATCAATTAATACATTAGAACAGCAAGTAAAGGAACTCTCTACTCAAAGGGGTAGGGAGTCTTCTCCTGTTCAAGACGAAGTATCACATGTTGCAGACTTAGAAAAATGTGTATATCCGATACCATATGATACAGGTAATGGTGAGACAAGTTATACACCAACTACAGAAGAAAAAGAGGAAAACGATTCTGTAGAATTAGTAGAACCAATTGAAGATGAAGATGAAATCGTTGAAACGCCTATTATAGACGATGAGATACTGGATGAAGACGAAGATGAAGATTTACTAGACTTAAACGAACCAAAGGATTTTGATGAGTTTAGTAAACAAGACGAAGTGGATAAAGAAGACCGTAAGTTCTTATCTCATGCAGAAGATAAATCACTAGTATACTACGATAGAGAAACATTAAATGAAGAAGAAAGAAACTTCATGATTTCCGCTATCGAGCAACATATTTTAACACCGCAGTACGATAGAACAGGAAATTTATACTTCAACCCAAGAGGTATTGTATCAAGAGCAGAGAGTATAAACGCTCTAGAACGATTTGGTAAGAAGCGTAAATCTATAGACGGTGTATCAGAAGAATCGGATTACTTCAATCAGGGGTATAACGAATTAGTAAGTTCTGGACTTGATAATTTCTTTGAATTCTATACGAAAGAAAACATATATGGAAACATACGTAGATGTGAGTTAGCCTACATGATATCATCACACCCAAACCATTTCTTTAATAAAGACGTAGCGGTAAAAGAGAACATTTCAAAACTATATGGGTATGAAGACATCAAAAAGATTCAAATTTCTCTAGAAGATGCAGGTAGACTATATAGTTTAATCCAATTAAACAATAACCGAAGTGAAGACATTGATTATTACTTCAATCGAGTTCGTAGTGGAGAGATTAAACTTCCAATCTCACTTATCCTTCTTACGCATTATTTAGTCGAGTTGGGGTATAGTGAGTCAGACGAAAAAGTAACAAACTTACACCCATTAAAAGGGGTATCAAGACTAGAATTTGCAAAGTACATTGTAAATTTAAAGAAATAA	MHDENKLSINTLEQQVKELSTQRGRESSPVQDEVSHVADLEKCVYPIPYDTGNGETSYTPTTEEKEENDSVELVEPIEDEDEIVETPIIDDEILDEDEDEDLLDLNEPKDFDEFSKQDEVDKEDRKFLSHAEDKSLVYYDRETLNEEERNFMISAIEQHILTPQYDRTGNLYFNPRGIVSRAESINALERFGKKRKSIDGVSEESDYFNQGYNELVSSGLDNFFEFYTKENIYGNIRRCELAYMISSHPNHFFNKDVAVKENISKLYGYEDIKKIQISLEDAGRLYSLIQLNNNRSEDIDYYFNRVRSGEIKLPISLILLTHYLVELGYSESDEKVTNLHPLKGVSRLEFAKYIVNLKK				NA	NA	NA	NA	NA
AK009_03084	1743			hypothetical protein	ATGACTTATTTTAAGAATGGATTTGAAGTACAACATAACAAACTGAAAATCAGACTATCGTCTATCCGTAGTTTATTACATAACCTAAACTTCCAAATAGCAGACCGAGGTATGATAGATACAGCTTCTATTGTAAGCAAGCAAGACGTATCAGCATACTTAACGGATGAGTATGGGGTAGAGGAATTAGAGGTTATTAAAAATTATTCAGACGGGTTCTACGAAGTAGACGATTATTTAATGTTAGAATTCGGAGCAAGAGTAACAACCAATGAGGACTTAAAGAAAGATTTAGAGTTACTATCAAACTATTTTAGAGTACAAACAACTGAAAATCATTTATCTAAGTATCTAGGTAAGAAACAATCGGTTAACAGTAATACAATTGTAAAACCATTGGCTACCATCGAAAAAGGTAGAATTAAATTCAGAGGGGTAAACGATTTATCGTATATTGAGAATTTCTATACAGTAGGAAACGCAAAAGAGATTTATGTAAGTGGTATTTTCTATCAAGCCTTGTCTGAGTATGCAGGGATTAGTAATCTATCAAACTGGACATTCAGAAAAGAACTGTCTAGACATGATGAGTCTAGGTATATCTTAAAAGTGTTAGAGGGAGCAATTAAGCCAAACACGGAAAAAGGTAAGCTAGTTTATGAAAAGTATTTAGATGTTATCACGAAAAGAGGAGAAAACTTCATTTTCATGGAAACATATTTAAAACGAGCAGAAGAACTAGATTACTATACTGATAGATTACTAGCAGAAGGAAAACAATTAAAGGGTATTACAGACTACAGTATCATATATGAAGACAATATTGAAGAAGTAGACACATTCCCTTTCTATACGAGTTACTATGCAATAGATTATGATAATCAATGTGAATTAGACATGGTAAACCGTATCAGAGGGGTAGGTGGAGAATTTACAAGGGAAATAACAGAAGAAAACAAGTATGATTTCCCTGTAACAGTATACATAAACGGTAAGAAAGAGAAAATGTATCCTGTCAAAGAAAACCCTATCATTAAAATGCATAATTTAGAGAAAACTGGTTTCGCATATTCAGGAGATAACGAGTATGTTCGTGCTTTAAACGCTTCTGAATTACAGTTAGACGCTAGTATCTTAGTTACGGAAGCTACTAAATATGTAAACGTATATAACAAAGCAATGTGTAAAGCAGTTGATGAATACAATGAATTACTGGAGGATGAAGACGATATGCATTTAAAAGTAACGCCTAAAGTAACAAAAGAAGACAACAAAATGTACATTGCAAACAAGCTAAAATATTACTCTGTAAATCCAAACCTTGAAAGAGTAGTAGAAGGTACATTAATCTTAAACGAGAATTTAGAGTCTCCAACATTAAAGATGTTAATTTCAGACGATATGTTTGTTGATTACAGTATTGAAGATTTAGAGAAACGTAGAGCATTCTATGTAGAAGAAGAAAAGTCTATGTATGCTTATAAATTCACAATGCAGTATGATACAGAAAGTAAAGACATTATTACAGTACGTGAAAACTTAGTAGGTATTGTACGTAAGGGTAAGAAAGTAAACCCAACTGTATTAACGGCAATGGGGTTATCATTAGAGCAAGAAGAACTGATTCGTAAGATGGTTCGTAAAGAAATACTAAACAAAGTAATGGAATGTAAGGACAGTTCAGAGTACTTTAAGAAAGTGATTGAGTCGTCTTCAAAAGAAGGTGAGAAACAACATGCATGA	MTYFKNGFEVQHNKLKIRLSSIRSLLHNLNFQIADRGMIDTASIVSKQDVSAYLTDEYGVEELEVIKNYSDGFYEVDDYLMLEFGARVTTNEDLKKDLELLSNYFRVQTTENHLSKYLGKKQSVNSNTIVKPLATIEKGRIKFRGVNDLSYIENFYTVGNAKEIYVSGIFYQALSEYAGISNLSNWTFRKELSRHDESRYILKVLEGAIKPNTEKGKLVYEKYLDVITKRGENFIFMETYLKRAEELDYYTDRLLAEGKQLKGITDYSIIYEDNIEEVDTFPFYTSYYAIDYDNQCELDMVNRIRGVGGEFTREITEENKYDFPVTVYINGKKEKMYPVKENPIIKMHNLEKTGFAYSGDNEYVRALNASELQLDASILVTEATKYVNVYNKAMCKAVDEYNELLEDEDDMHLKVTPKVTKEDNKMYIANKLKYYSVNPNLERVVEGTLILNENLESPTLKMLISDDMFVDYSIEDLEKRRAFYVEEEKSMYAYKFTMQYDTESKDIITVRENLVGIVRKGKKVNPTVLTAMGLSLEQEELIRKMVRKEILNKVMECKDSSEYFKKVIESSSKEGEKQHA				NA	NA	NA	NA	NA
AK009_03085	357			hypothetical protein	ATGATTTATTTACGTAAACTAGGGCAAGGAGAGACTACTCTCATAATGAAAGGTAAAGCATTTTACTTTGATATGTTGAACGAGTTTAAACGGGAAGTACCTGTTAAATTTATAAACTTAGAACAGGTACAAATAATTTCATTTATTACACAAGGTAACCAAGTAGAAGTGGCATATACAGATAAAGAGGGTAATGTAACAAAGAGATTGACAATAAACATGAGTGAGTTATTACCTACAATTGACAGACTAAAGAAAGAACCGAGATATATTGTTACATTAACGAAAACAGTAAGGATTGGGGAAGTAGTGAGTAAACAATACATTGTGGTATACAAGACTTCAAGTAAACAATAG	MIYLRKLGQGETTLIMKGKAFYFDMLNEFKREVPVKFINLEQVQIISFITQGNQVEVAYTDKEGNVTKRLTINMSELLPTIDRLKKEPRYIVTLTKTVRIGEVVSKQYIVVYKTSSKQ				NA	NA	NA	NA	NA
AK009_03086	1848			hypothetical protein	ATGGAATATAATGTTGTGAAACACGGAAATAAAGAAGCATACATCATTAAGAATAAAACAACATTCAAAATCGTAAAAGAACTACTAGGTACAGACTACCTAAACACCGTTACAACTGAGTTCATTAAGAATAAGTGTGTACACAATCCGAACTTGGATAAAGGGGTATTAGTTTCAAACCGTAGGTCTTTAAAGGCAAAATTTGCAAAAGAGCGTATGATGTCAGATGTTGTTATGAACCGATTTTTAGAGCAAGAGATACCCGAAGAACAGTACAGCTTCTTACAACAATACGTAGGAAACTTAATACTTCATAATAAAGGTGCGGAGAATATTTTCTTAAACCTTGGTCGAGGGGTAAATGAAGAATATTTCCGTAAGAAGGGTATTAAGTTAGCAAACTTAAACCAAAATGCAAAATGGCGTTTAGCATTCGTGAAAGACATTGTTCATGGCTACTGTTCATTAGGTCATGAGATACGATACGCTTTTACCGCTATAAACGACTTTGGAGATAGTTTAGTCTTTGGTAGTACATGTGTTCATGATTTCTTCGAAATAGACGAGCAGTTAGGTGAAAGACTTACTGAATACGTAAATCAAATCAGAACACATACAGAAGACTACTATAACGATTACCATTCTTACTATGAAATTCATCGTAAACAAGACCAGTTCATGGCATTGTTAATGCAGTTCGTAAATAGTTCTACAAATGAACAAACCTTTAATAAAACAGAATTAAACTATATGAGTACATTCATTGGGTATGGTTTACCGATACCAAGACCTTTAGCAGAGCAAGTAGGAGACAAGATAATGGACTTCTTTGCTAGAGAATATAAGATGTTAGTAGCCTTTGAACCCTATGATATTGTAACCAAACTGATATATCTTTGTGGTTGTTTCGCGTATGGGTGTCACGGAACTACGGTAAGTGAATTGAATACAAACTTCCCAGTAAACTACTTAGGTGATAGAATTATGCCTAAGATGGTAGAACACCTACTAGAGAAGTTCGATGCGTTAAAGACAGGTACAACCAATAATGATTTCATACAAGTTATGACACAAAACTTAAATATCAATCAGTTCGTTATGTTATTAAATAACTTGTCTATGATTAAGAAGCTTACAGGGGTATTAGCACAAGACGATATTTTAACTCTTGAACCAAACCCTACTGAAACGGGTTATAAGTTAACATACAAAGAAATTACGTTATCAAAACAAAGCCATATAGCATCTAAGACTCATGCTACAGAAAGTGCAAAACGGATGAACTTACTATTCGGATTACCACCTGTAGAGACACGAGAAGATGCGTTGAAAATTTTCATGAATCAGCAAATACAATTGAAACTGAATAAGAGTGTACTAGCAACGAAAGATTTCGCATACTTGAATATGTTTGAGTATGAAGAAGGGGTATCGGTTTTCACAACAAAACTCAATGCAGGTGCAGAGAAACTGAAGAACTTTATGCATGAAAACGAAGGAAAAGTTGTAGCAGAAGATATCGTGTTACAAATTCTAAATAATGACTTTGTAAATAAAGACAAACCAAAAGGCTTAGAATGGTATAACTTAATTATCCAAGAAAACAATGTAGCCGAAGCAATGCAAAGTAATAAACCGAGAACAGGGGTAGTTAGAAACCGTTCAAACTTCCCTACAGAAGAGTACGAAGAGTTGTTAGAAAAAGCAATCAGACATAGGGATGTAGTTGATAAGAAAAGAAAAGGTTTCGCAGTAGACATACTAAAAACAGTATTAACCTACAAGAAAGTGTCACCTAAACAGAAAAAATTTATAGATGATTTAGAGAGTGTACTACAAGACGTATAA	MEYNVVKHGNKEAYIIKNKTTFKIVKELLGTDYLNTVTTEFIKNKCVHNPNLDKGVLVSNRRSLKAKFAKERMMSDVVMNRFLEQEIPEEQYSFLQQYVGNLILHNKGAENIFLNLGRGVNEEYFRKKGIKLANLNQNAKWRLAFVKDIVHGYCSLGHEIRYAFTAINDFGDSLVFGSTCVHDFFEIDEQLGERLTEYVNQIRTHTEDYYNDYHSYYEIHRKQDQFMALLMQFVNSSTNEQTFNKTELNYMSTFIGYGLPIPRPLAEQVGDKIMDFFAREYKMLVAFEPYDIVTKLIYLCGCFAYGCHGTTVSELNTNFPVNYLGDRIMPKMVEHLLEKFDALKTGTTNNDFIQVMTQNLNINQFVMLLNNLSMIKKLTGVLAQDDILTLEPNPTETGYKLTYKEITLSKQSHIASKTHATESAKRMNLLFGLPPVETREDALKIFMNQQIQLKLNKSVLATKDFAYLNMFEYEEGVSVFTTKLNAGAEKLKNFMHENEGKVVAEDIVLQILNNDFVNKDKPKGLEWYNLIIQENNVAEAMQSNKPRTGVVRNRSNFPTEEYEELLEKAIRHRDVVDKKRKGFAVDILKTVLTYKKVSPKQKKFIDDLESVLQDV				NA	NA	NA	NA	NA
AK009_03087	792			hypothetical protein	ATGACAGAATTCTTGGATAGGCATTTTGCGAAAGAATTTAAGCAACTAATGGCTGAGTTAAGAAGTGAGACAAGATTTAGTATAAAACAACTACCCTCACCATTCAGCAAACCAACTTTATTAAATAAAGTGTACATCAAAGGGATTGAAGACGAGAAATATAGTAAATTAAACGGTAAGTACGCACCAATTCGTAAAAGTAACTCAATCGTTCGTAACATTTATCACAATAACGGGCAAAAGAAATCAGAAACTACATATACGGCAAAGGATGGTAATGCATTAATCGTAACAAACGAAAATTTACACTTACCGTACCGTTATCGTCCTACAGACAAAGCATTGGAGTATGTAGACTACAGAGAAACAAATGGTGTTCGTACTTTTATTTATTCTATACCGAAAAAGTATCTATATAAAACAAAACAAACAGCATTAGTATTAGCTCAAAACACAAAAAGAAGTCATTATGGTGGATTGAAACTGATGTTAACAAACGGTCATTCTATCTATTTATACATTGTATCTTTAGGTAACGTGCGTGAACGAGAGGGTAACGTACCATTAATTACAAAGACAGGAAATGACTATAGCGTAGAGTTACAGAAACTACAAGAATATTGGCTACAAAGGGGTATTATCTTCCCTAAAAACGTATTAGAATTAGAAACACCATATGGAGATTCAACAAACTTAGGTTATAAAGTATTAGAAGCGGTAGAAGACTATGTAGGTATAGACGAGTTTAGTATTACGGAACGAGCAGAAATGAAAGCGAGACAGGCTTACTAA	MTEFLDRHFAKEFKQLMAELRSETRFSIKQLPSPFSKPTLLNKVYIKGIEDEKYSKLNGKYAPIRKSNSIVRNIYHNNGQKKSETTYTAKDGNALIVTNENLHLPYRYRPTDKALEYVDYRETNGVRTFIYSIPKKYLYKTKQTALVLAQNTKRSHYGGLKLMLTNGHSIYLYIVSLGNVREREGNVPLITKTGNDYSVELQKLQEYWLQRGIIFPKNVLELETPYGDSTNLGYKVLEAVEDYVGIDEFSITERAEMKARQAY				NA	NA	NA	NA	NA
AK009_03088	228			hypothetical protein	ATGACAGTATTAGTATTATTTTTATCAGCAATTTATTTAGCATTAGACTTCTCAAACATGAGAGCAATGCGTATTGTAAAGTTCGCAATGTTGTTTATCTATATAACTGCATTCGGTGACTCAACTGTAATGATGGTGTTACTAACTCTAATCATGATGTTCATGATTGTAGCAAGATTCGCTCGTAAAGTTTTAAAACGTACATCAGTATTCCTTAAACTATTTTAA	MTVLVLFLSAIYLALDFSNMRAMRIVKFAMLFIYITAFGDSTVMMVLLTLIMMFMIVARFARKVLKRTSVFLKLF				NA	NA	NA	NA	NA
AK009_03089	324			hypothetical protein	ATGACTGTACAATATGACTATAAAGCAATGATTCAAGCAAACAAAGATTTCGATGTATCAACGTTAGAAAACGCTAGACATTATGTACAGCAACTAAGTCAAGGTCGTAGTTACACAAGCGTAAAAGACTTACTAGCTGGTATAGACTGGTTGCATACACAAGCACATCATAATATAGCAAGATATGATGGGGAAGCAACACCACAACAACTAGAGCATATGAAAGACGTAAAACAATTGTATTATGTACAAAAGCAAAAACTAAGTGAAGTATTTAAAACATATAAAAATTATGGGTTTGACCCTTCACAAGTTTTATTCTAA	MTVQYDYKAMIQANKDFDVSTLENARHYVQQLSQGRSYTSVKDLLAGIDWLHTQAHHNIARYDGEATPQQLEHMKDVKQLYYVQKQKLSEVFKTYKNYGFDPSQVLF				NA	NA	NA	NA	NA
AK009_03090	306			hypothetical protein	ATGAATCTAAACAACGTTAATCTATCACAAGCAATTAACGAGATTAATATGTATCCAATGAGAAACTATCAAGAAGCGATGGCATTTATTAATTACAAGTTTCAACAATACCATGCAAACGATGTATCAATGCTTATTAATTTCTTAGAGTCGCAAGCTACAAGTTTACAGTATCAAGTAAACCAATTACTTACACATTACCAACCTAATTATAATCTGATTGAACGAAACAGAACATATATTGATATTTTAGGGGTAGATGTAGACAAGTTAAAACAAGCAAGAGCTATTATCAATCAATATTAA	MNLNNVNLSQAINEINMYPMRNYQEAMAFINYKFQQYHANDVSMLINFLESQATSLQYQVNQLLTHYQPNYNLIERNRTYIDILGVDVDKLKQARAIINQY				NA	NA	NA	NA	NA
AK009_03091	711			hypothetical protein	ATGTTAGTTACAGAAGAAAGAACAGCAAGAGGTATCAAAGACTTAAAAGGTTCAAAGATTACATTTCAAGAATTAGTTGCAAAACTGAAATCATATGAAGGTTGTTTAGTTGAACTGACAAGAGTAAGGGATGTTGGGTTACATCCTGTTATTGTAAGAAGTATAGAAACTTGTCAAATAAATCAAGTAGACGTGCAAGAGGATGCATGGTTTAAATTACATCTAGAGAATGAGCAAGACCACTATTATTACTTCAAATCTTCCATTGAATGCATTCTTCAAAATGGAACAACATATTATATCATTCAAACAAACAATACGTATTTTGAGTTTAAAGTAAAAGAAGAAGTATGTCATAGTAAACGATTAAAGAACTATATTGATGGTATGAGAAACAGTTTAGGAGTATTTCGATTTACAGATACACTAACTTATGATGATTTTCTAGAGTTTCTAGATAATTTTGAAGACTATAATTATACAAAAGTATCTGTATTAGACGGGAATGGTAACCATGTTACAGGTCAGATTGATGAAGTCATAACGAGTCGTGCAAGAGTTGGTTTCTGTATTATCCTTGATAACGGAGAGCATACTACAATAGACTTCGAAAGAGAAAATATAGTTTCAATCGTAGATATTAAAAACTCACGTAACAAATACTTCATGATTTATGAATTAGACTCTATTACGCCATTAATACTTGAATAG	MLVTEERTARGIKDLKGSKITFQELVAKLKSYEGCLVELTRVRDVGLHPVIVRSIETCQINQVDVQEDAWFKLHLENEQDHYYYFKSSIECILQNGTTYYIIQTNNTYFEFKVKEEVCHSKRLKNYIDGMRNSLGVFRFTDTLTYDDFLEFLDNFEDYNYTKVSVLDGNGNHVTGQIDEVITSRARVGFCIILDNGEHTTIDFERENIVSIVDIKNSRNKYFMIYELDSITPLILE				NA	NA	NA	NA	NA
AK009_03092	360			hypothetical protein	GTGACAAGTACATTATCAACAAAAAGAAAACAAGTATTGATTTCAAACGTAGGTAAGAGTAAGGTTATTCCTTTTAACAAACTGTTTTATCATATGTTTAAGCGTATAGAAACAGGTGCAACTATCTCAACTTTCCAAGACGGGTTGGTAGTACGTGGAAAGTTCGTAAGTTTAACAAATTTAATTCATAAGAATGAAATTGAACTGATATTAGAATTACCAAACAGTAGGGAAGTTGAGTTATATTTTAAAGCAAACGATATAGAAGAAGTCGTTCATGGGTTTGGTTCAAACTATAATTCATATACACTCTTCACATCTAGAGAGGTTGTACCGATAATTATAAGTAACATAGAATGA	MTSTLSTKRKQVLISNVGKSKVIPFNKLFYHMFKRIETGATISTFQDGLVVRGKFVSLTNLIHKNEIELILELPNSREVELYFKANDIEEVVHGFGSNYNSYTLFTSREVVPIIISNIE				NA	NA	NA	NA	NA
AK009_03093	402			hypothetical protein	ATGGGTGAAGGAGTAGGTATTGTGAACGAGTGGATGAGAGAAGAAGTGCTTAAAACAGTTGAAGACTATGTAAAAGGTAGTGGGGTACAAGATTACTTCTTTGTAAGTGGTAAAAAGTTTTTACATGAGTTATTAGAGTGTGGTAAGTATCCGTATCGCCTAACAGCTTTATGGGAGGGTTACACGTATACAGGAAAGGTAAACGAAATTGTAAAAGAGGAAGAGAAAGGAACAATTACAATAAATTTAGATGTTACAGAAGAAGGAAAGGAAAAGAGCATGGTTTTAGAAGAGATACATACAAAACATGCAATTATGCAAAGAACAGTAGACAGTGTTCACTTTACTTTATTCTACAAAGATTCTTTAGTTCCTTTACATTTTGTATACCTTAAAAAGTAA	MGEGVGIVNEWMREEVLKTVEDYVKGSGVQDYFFVSGKKFLHELLECGKYPYRLTALWEGYTYTGKVNEIVKEEEKGTITINLDVTEEGKEKSMVLEEIHTKHAIMQRTVDSVHFTLFYKDSLVPLHFVYLKK				NA	NA	NA	NA	NA
AK009_03094	417			hypothetical protein	GTGAAATCGGTTAAAGTAAATTCAAACTGTAGTGTAATTATAGAGCAACATTTAGTAGAGAGTTTGCTAAGAAAGGCAAACTTAAAAGAAGGAGAAGAAGTATTTACAATACAGTTTAACCAAGATTACAAATATATCTTGTTGGGGTATATTAAGCAAGACTTGTATATTTTCCTTATGACAAATAAAAGAATGTTATTACATAAAGTAAATGAAACAACAGGTCATTTAATGGGTGGATTAATTACATTGGATGAAAAGAAAGTTTTAATCGGAAACATGGAGACAGGTGTTATTAGTCTACCTTTTAAAGAGAAGAAACATCAAACATTCATTTCTTATCTTGTTGGGGTATCTGAGGATTATAAATCAAACTTATTTAGATATAGAGAAAGATTTAAATGGGTGAAGGAGTAG	MKSVKVNSNCSVIIEQHLVESLLRKANLKEGEEVFTIQFNQDYKYILLGYIKQDLYIFLMTNKRMLLHKVNETTGHLMGGLITLDEKKVLIGNMETGVISLPFKEKKHQTFISYLVGVSEDYKSNLFRYRERFKWVKE				NA	NA	NA	NA	NA
AK009_03095	726			hypothetical protein	ATGGGAGAAATAAAACTAGCAGAAGACATAAAGGGTGAAGTAATTAGCTTTAAAAACTTTGTATCAGAACTGAAAGAGAAGGAAAATAAGCATATTGTTGTACATAAACTGATAGCAGATTTAGATAAAGAGTTATATACAGATGGGGAACTACTACATGTAAAAGAAGGTAGAGGTGGTTCGTTCACATTAATTGTCGATGAAGAACAAGCACCTTCTGAAAGAACTTATTTTAGTTTCCTAGTCAAAGAGATTCGGAAGAATAAAACCAAGTATTATATGATATTCAAACAGGGGTATGTACTAGAATTTTCCTTTAAAAAGTCAGGTTCTCCCTGTATAAAAAGAGAAGTAAAAGTAGCTACAAAACCAACTAGTAATAAAGAAGCATCAGAGTTAAGGCATACGTTAAACAATTTAGGCTTTACTGAAACAAGGTCTTTCAAAACTTTTTCTAATTTTCTTTTGAAAAGTAAAGAGAGTGGGTATACAGATATTTTAACAATAAACCCAAAAGGAAAGAAAGTGGAAGGGTTATTAGATTCTGTAACTATAATAGATGGTGGGATTTTAGTACATGTATACCAATTAGGAAAAGGGCTAAGTGCGGTTAAGTTCTTAGAACAGGATACCATTCTCGTATCAGAAGTAAAGATGGAAGACTTAGTATACTTTATGGTGTATGGTAAAAGTATTGTTTCGCCTGTTATTGTTAAGACGAAGTAG	MGEIKLAEDIKGEVISFKNFVSELKEKENKHIVVHKLIADLDKELYTDGELLHVKEGRGGSFTLIVDEEQAPSERTYFSFLVKEIRKNKTKYYMIFKQGYVLEFSFKKSGSPCIKREVKVATKPTSNKEASELRHTLNNLGFTETRSFKTFSNFLLKSKESGYTDILTINPKGKKVEGLLDSVTIIDGGILVHVYQLGKGLSAVKFLEQDTILVSEVKMEDLVYFMVYGKSIVSPVIVKTK				NA	NA	NA	NA	NA
AK009_03096	612			hypothetical protein	ATGAGGAATTATGAAAAAGTCTCTTTAGAAACATGGGTAAACCAATTAAATTCATTAGTTGAGTACGAGATAAAGGAAACACAAGTACATGTTGAAGAAAATAATTTCGAACCTTTCAGTAGAGGAAATATCGGAAGGTCTACTGTACATGACTTGGAAGAACTAGAAGGTATACTTGCAGGAGTTGTAGTTGAAGGTGACATGCTTACAATCAAACTATTAGATGGCAAGCAATCTTCTTACGACTTAAATTATGTAACAAGTATAATGAGAAGAACCGATTCACCTTGCTTTTATCTGTATTTTGGTAGAGTAGAGACTCATGTAGAAATTACTATTAAAGTAGACAGACTAGGTGTACCTATTAAAAGTACAAGTTCAATTAATAAAAACATCAGTAAAGATATAAATATACCAGTTAAAGAATTTATAAACAATAAAGAACTAGTAAAGTCAGTAAACAATGGTAACAACAGTGAGGGGTATATTGTATTAAAAGATGTAGAGTTAAGACTTCCAATTAATGCTCTTAACGGTATTAGAGAAACAGAAGATGGTTGCTTATTATCATTTCATGTTGCACAAACCTTAGATATAAAAGTAGATAAGTAA	MRNYEKVSLETWVNQLNSLVEYEIKETQVHVEENNFEPFSRGNIGRSTVHDLEELEGILAGVVVEGDMLTIKLLDGKQSSYDLNYVTSIMRRTDSPCFYLYFGRVETHVEITIKVDRLGVPIKSTSSINKNISKDINIPVKEFINNKELVKSVNNGNNSEGYIVLKDVELRLPINALNGIRETEDGCLLSFHVAQTLDIKVDK				NA	NA	NA	NA	NA
AK009_03097	399			hypothetical protein	TTGTTAACAAACGAGTACTTAGACGATTTATTTGAAGGAATAAAAATAGAAGGAGAAGACTACTTTTATTACTTCTACGTGTATCAAATACCAAAGGAAGGGGTATTATTAGTAAACGGTATTATTCCAGTAGGAGACATAGAGCATATCATTGTTTGTTTTACAAATAAAAGACTTTTATTTTTAGAAATTACAATGATGGGTAAGTATACAGGTAATATGAAGAGTATAGACTTAATAGAGTTTGAACACATCAAAGTAAAGAGAGGTATGATTCGTACTAGTATTGTTCTAACTTCAAAGAATGGAAAAGGAAACACAGTAATCAAGGCAAATAGTTTTACATTCGGTCTATCAAACCAAAAGAAAAATTTAATTGCTTTAGAGAAACTGTATTAA	MLTNEYLDDLFEGIKIEGEDYFYYFYVYQIPKEGVLLVNGIIPVGDIEHIIVCFTNKRLLFLEITMMGKYTGNMKSIDLIEFEHIKVKRGMIRTSIVLTSKNGKGNTVIKANSFTFGLSNQKKNLIALEKLY				NA	NA	NA	NA	NA
AK009_03098	849			hypothetical protein	GTGTTACTAAAAGATATGTTACAAGTATGTGGATTAGATTTAACAAAACGAATTAAGGTTGCAAGGCATGTAGATAAAGATATAGACGTACAAGAGTTATATGAAAAAGATAATTTTGAGTTATATCAGTCATATCAAGGTAAGAACTCATTTAATTGCGATTATATTGTATCTTTCTTAGGATTGGAAAACAGCCAAGCAGTATTTATAGGTGTGTATGAAGTAAAGAACCCTACAGAAGTAACTGGTTTACCTCAATCTATAGACACCACAGAAGAATTAAGAAAACGATTAAGTAAAGCAAAATGGCAATACACTTTAGAAAAGGTAGATGGTTTCGAAACCTTAGAAAATAGAGTTATTGTACAATGGGAAGGTGTTGCAACTTCATGGTGTAGGTATTTAAACACCTTTGATTTAGAAGTGTTGCAAATGTTACCAAAAGGTGAAACAAGAAAGTTTACAGGGTATTTAGATTTCATCTTAAAACGTTGGGAATTAGAGAGTATCGTGAATAATCCTTTAAAGTATAAGTCTTGGCATGAGTCACTATCTATCGTAGCAGGGGTATACTTAATTGTAGATACAAAGACTGGTAAACAATATGTAGGTTCAGCTTATAATACAGAGGGAATATGGGGTAGATGGAAAACATACGTAAACAATGGTCATGGTGGTAATAAGTTATTAATGGAGATATTAAAACAAGACCCTGATAGAGTTAATGACTTTACCTATACAATACTACAAGTCTTACCTAATACCTATAAAGACACGGAAGTATTTAAAGTAGAGTCTTTATACAAAAGAAAACTAGGTTCAAGAGCATTCGGTTTAAATAGTAACTAA	MLLKDMLQVCGLDLTKRIKVARHVDKDIDVQELYEKDNFELYQSYQGKNSFNCDYIVSFLGLENSQAVFIGVYEVKNPTEVTGLPQSIDTTEELRKRLSKAKWQYTLEKVDGFETLENRVIVQWEGVATSWCRYLNTFDLEVLQMLPKGETRKFTGYLDFILKRWELESIVNNPLKYKSWHESLSIVAGVYLIVDTKTGKQYVGSAYNTEGIWGRWKTYVNNGHGGNKLLMEILKQDPDRVNDFTYTILQVLPNTYKDTEVFKVESLYKRKLGSRAFGLNSN				NA	NA	NA	NA	NA
AK009_03099	1353			hypothetical protein	ATGATAAGTAAAAAAGCATTAGTGTCATTAGGGTTGGCATCATCAGTTGTTTTAGGCGGTTTGGGTTATACCGCTTATGCGAAAGAACCAGAGATTAAAACAACTGAACTGACTATCGCATATGGAGAAGAATTACAAGCAAAACTTGTAAAGACTTCAGATGATGTAGTAAAAACGGAGTTTAAAACTAAGCTAGAAAAGAAACTAGGAAAACAGAGTGTAAAAGTAGATGTAGAAAATCTAATGGGTAATCACTTTACAAAAGACATTGAAGTCAATGTAGTGGATAAGGAGAAACCTGTTATCAAATCGGAGGGTTCGTATGAAGTAGGGGTAGGTTCAGAATTTAATGTAAAAGAACATGTGAAAGCTACTGATAACTACGATGGGGATATTTCAAATAAGGTAGTAGTTTCAGAGTTTAACACAAGTGAACTGGGTGAAAAGAAAGTAAATGTATCCGTATCAGATACATCAAACAATGTAACTACAAAGGAGATTATCTTAAAGGTAGTAGACAAAGCAAAGCCTGAGATAAACGCAGAAAACAAGTCAGTAAGTTTTGGAGAATCTATCAATCTTCTAAATGGGGTATCAGCAAACGATAATGTAGATGGAGATATTACAAGCAAAATCGAAGTAGTGGGTTCAGTAGATACAAACAAAGTAGGTACGTATGATATTACGTATAAAGTAAAAGATTCATCTAATAATGAAACTCTTAAAACAATTAAAGTAGACGTAAAACAACAAGAAGCACCTAAAGTAGAAGAGAAGAAAGAGGAAGCACAAAAACCTCAACCTACTGAAAAGAAAGTAGAAGCACCTAAACCAACAGAACAGCCTAAAGAAGAGTCTAAACCTGTACAAAAGCAAGAAGTTGCTCAAACACAACAAGCGAAGTCTCAACCTAAACCTGTTCAAAAGCAAGAAGCACCTAAATCTAAGCCTATGACAATTACCTTCAATGGTAAAACACTTACATATGTAAACGGTGGTCAAAGTCGAGGACAGCAAATCATTGATACAACAAACAAGATTTCTACTTGGGGTGGAGCGCCATTTAATGGTGAAGACGGAATGAATACACATTTCATTGGTCATAGCCCAGGAAACTTTGATGGTATTTGGAATGCTTCATCATTTGTTATTACAGACGGTAATGGAAAAGCATACACTTACAAAACTACAAAAGTGTATAAAGTATACCAAAAGAATGCAATTGGGGTAGCAGATGGTGTAGACTACTGGGATAGAGTTACTGGAACTGGTGGTGGAGAGCGTGTAACGTTCCAAACTTGTGCGGTTTCTGATAGTTCTATTGTATGGATTGTAGAAACAGTTCGAGCATAA	MISKKALVSLGLASSVVLGGLGYTAYAKEPEIKTTELTIAYGEELQAKLVKTSDDVVKTEFKTKLEKKLGKQSVKVDVENLMGNHFTKDIEVNVVDKEKPVIKSEGSYEVGVGSEFNVKEHVKATDNYDGDISNKVVVSEFNTSELGEKKVNVSVSDTSNNVTTKEIILKVVDKAKPEINAENKSVSFGESINLLNGVSANDNVDGDITSKIEVVGSVDTNKVGTYDITYKVKDSSNNETLKTIKVDVKQQEAPKVEEKKEEAQKPQPTEKKVEAPKPTEQPKEESKPVQKQEVAQTQQAKSQPKPVQKQEAPKSKPMTITFNGKTLTYVNGGQSRGQQIIDTTNKISTWGGAPFNGEDGMNTHFIGHSPGNFDGIWNASSFVITDGNGKAYTYKTTKVYKVYQKNAIGVADGVDYWDRVTGTGGGERVTFQTCAVSDSSIVWIVETVRA				NA	NA	NA	NA	NA
AK009_03100	10551			hypothetical protein	ATGGCTACGGTAATTGCTTTCACTACGTTTATGCAACCTGTAGTAGCAGGTGCAGAGACTATCACTGGTGACAAAGCAAAAAGCGAAGTCAAAGTTGAACAAGAAAAAGCTGTTCAAGAGCCAACGGTAAGTCCTGACGTTCAAACCTCTGAAATGGACAAGAAGGAAGTTACGAATGACAAAACTCCTAAGTCTACTACAGAGGAACAAGAGCGTAACAAAGGGCAACCAGTTGACGAAAAGAAAACGGTAGTAGAGCCGAAAGTGTCTACAACTAATGCAAACCCTACAGGCGTAGCCTTAACGGATGAGCAGAAGAAGGAACAGGCACAATTAGCTTCTACAGACGAAGTAAAACTATCTCAAAATTACGTAGAAACAGACGATAATGGTGACCCATTACGACTGATTGAAGCAGGTAAAGATTACACGTATGAGGTAAACTTAGATGTATCGGGTAACGTTACATTATTATCTGACTATGTAGTTAAAGTAGAGGTAGAGAAGAAGTACCTACGAGACTGGGGAGAACCTCTCCATATCAGTAAACCAGAGTTAGCAAGCGAAGTTACATATGCAGACGAGGGAGATAAGAAAGTTGCTTATATCAAATTCCCTCAACTTGCAGGGGGTACAACTCTTTCATTCCCAGTACAACTTATTGTGGAAGCAGGGTTAACTCCTGATATGTATGAAATGAAACCGATGGCTTCTTTAATGGATTCTAAATTAAATCTAGTAAAGAAAGCAAACGAAATTTCATACAAAGTAACTTACAAGAAACCGGGTTCTCAAAAGTATGTTAACGGACAGAAAGAAAACGGTAGCATGGTGTGGGCTGGTATAGACGATGGTAAAGGGGTAATTAAAGAAGGAACAGAAGTGCCAGTTGAGTTTTCATTCTCAACAGACCTTGAATTCTTAGATAATTACCGTTACTTTAAAGCCATCGAAGTAGTAGACACATTACCGCAAGGTGCTAAATTTGACCCAAAAGCAAACCCTGATTGGAAGTTGAGTGCTGATGGTAAATCAGTATCAACTACAGTATCTTTAAATGAAGAAATCGGAATGAGTACAAACGGTACATTAGCTAACAAGTTAAGTAAGCTAAAACTGTCATTAACATTCCCTAACGGAAAAGTTAATGGTACTTATACGAATAATGTAACAAAAACTTACATTCCTGAAAAGGCTGAAAGTTATGAGCCTAAAGTTGAGAGCAAAGCGAGTATTGACTTTGTATTAGATGCAAAACCAGTAGGTTTCGTATTTACAAAGAAAAGAAGCGAAGATGCTACAATTAAAGACTCGTTACATTATAAAGGTTTAGACTACACATACCGTATTGAGTTTAAAAATCCCAATTCTATGCCGTTACATAACGTAGTAATTGATGATTATAAACGTAAAGACGGTACTTATGCGTTAGATAAGCGTATGGAGTTCACGAAAGTACAAACGCTAAACGGTGAGGGTGAAAAGGTAATAGCGTACATCGAAGAAGATGGCAAAGTTACTGAAAAACAAATCACTAAAGACGGAAAGTACTATAACTTCCCTAAAGGTACAAAGGGGTATCGCTATGAAGTTGCAAAACTTGATGGTGCGAAGTTCTTCCAGTTCTTAGCTTATGTAAAAATTTCGAATCCAAAAGACGTGAAATATGACACAAAAGATGCTAGTAAAAACCTATTCGAAAATGAAGCTTCATTTAAAGGGGAAATTCAAAACCCTACTGATGGTAAAGTAATCTATAAAGCCGAAGGTACAGACAAAGATGATATTCCTTTAGTGGAATTCAAAGAAAGTATCTCTTTACGTAAGGAAATCACGAACTCTCGTGACAAGGTACTTAAAGGTGGAGAACTTCACAACCGTCTATTCATTCATGGTGCTGATTCTAACTTAGATGCTGAAACAGTAATCAAAGGTGGAAAAATTATAGACTTACTACCTAAAGGTATGACTGTAGTTAAATCATCTGTCAGTCGTCAAGGTGAAGTAATACCTAACTATAAAAACTCTGGTCAAACTGCAATTGTTTGGACATTCGAGGATATGAAAGCAGGAGACTTTGCACCTTATACTAGTAAGGAATATCCGCAAGTTGGATTTACAGCTATTGCGAATGACTTATCAGAAGAAGGTACAAACATCAACCAAGCTTACCTAGTATTTGATGATATGGAGAACATGGGTATTGAGTACAAGAAAGACGCTCAAGACAAGTTCGACTTCAATGAGAACAGTAAAACGGATGATAAAGTTGTTTATTCTGAAGACTACTACGTATATGTGCCAAACAAAGAAGTCGTGTTAACAAAATCGGTTCAAAACGAAGAGTTAGCAAAGAACAAAGTTTGGTCTACTGACGGGGTATTCGTCAAATATGGTGAAAAAGCCAACTATAAACTAAATATTAAAAACCATTTAGATGTAGATGTTCCTCAAGTAACCGTGTATGACGTGTTACCATTCAAAGGAGACAGAGCGATTGTTCCTAACGATGGAGGAGAGTACCTAAGTCGAGAAAGTATGTACAGTAATACGTTAACTGGTGCGATTAACGCCCCACAAGGATTTACGGTTTACTACACTACTGACAAGGTGCTAGACAATGCAAGTGACTCAATGACGAAATTAAATTGGTCAAAAACTTTAACAGACTACTCTAAAGCAACTGGTATCAAGATTGTAATGGATAACGGTAAAGTGTTAAAGAGTAAAGAGTCTGTAGACTTTGAGTTCGGGGCTATTGTTCCAAAAACAGGTCTTAAAGCAGAAGACAAAGCGTATAACTCTGCGGCTGTATCTGTAAACGGTGGAACTTCATTCGTTGAAGGTAACAAAGTATACACTCAAATGGACATTCCTGAGTACCCTACTATTACTAAAGACGTAGAAGGTAAAGAACACCACGATGTAGATAAAGGTAGAACTTATCAGTATAATGTTAAAGTTAAAATTCCTAAGAACATCAAAGGTTATGAAACTCTAACAATCAAAGATAAGTTAGATAGACGATTAACTTATAAGTATGCTACTCTTTATAAGGGGTATGATGTATATAACGATGCGAAAGTTAAAGTAGACGGTCAAGAATTACAAGTCAACTTAACAAAGCAAGATATTGAAAACCTACAAGGTAAAGAGTTAAATCTTAAAATTAATGCCTACATCAATTACGATGCGCCTTATGAATTAATTGAGAATAAAGCAGACTTACAGTTAAACAATGAAAGTGCAATTGAATCTAACATTGTTACTGTAAAACCTAACCCTCGAAAAGCAAAAGTAACAATTGCGAAAGTGAGCGGTGAAGGGCTTAACTCATTTGAATCAGTTACTAAGAAACTCTTTGGTACAACTGTTAAAGAAGTAACAGAGGGTAACATGGTAATCAATCCTCTAGATGTATTAAAAGCAAATGAAGAACCTAAGTTATTATCAGGTGCTACATTTGAAATTTTAGACTCTAGTAAGAATGTGATTCACACGGTATCAACTGATTACACTGGTACAGTAGATATTCGAGACTTAGATATGGGTGATTATTTCATTCGTGAAACAGTTGCTCCTAAGGGGTATGTATTAGACTCTACTGAGTATCCTTTCACTGTAAAAGATACTGGAACACCAAGTTTAGAGTTTAAATACTCATTCTACAATAAAGTAGACCCAATCGAACCTAAGTTAGAAAAGAACATTCTAGAACATATGACTGATGGTACAGTTAATCGTGTAAGTCATAAAGACGTATTCAGAGGTGAAAAATACAAGTACGAAGTTGGTACTACAATTGAGAACCTTGAAGGGTATAAAACGATTAAATTATCAGATTCATTAGATGCAAGATTAGATGTTCATTCAGCTAAACTAGTAGTAAACAGCAAAGACATTCAAGATGTTAAGCCAACTATCAAAGGTCAAGATGTTTCTATCGTTTTAACAAAGGAACAACTTGAATCATTTGGTATGAACAAAGACGGTAAATTAAGAATTGACTTGGTTATCGAATCTTCTGTAAAAGAAGGAACAAATAATGAAGTGATTCCAAACAAAGGTACACTTTCATTAAACGATAAGCCAGCAGTTGAATCTAATGAAGTTACTGTTAAACCAAAAGATGTTACAGCTAAATTAGTAGTTGTAAAAACTAGTGGTGAAAAAGAACATACCTTCGGTCAGTTAGCTGACGGTCAAGAACCAGGCAAAGACCTAGTTAAACTAGCAGGTGCTAAGTTCGAAGTCTCAAACGCTGATAGAAGTAAAGTAGAAACAGTAGTATCAAATGATAACGGTTTAGTGGAGTTAGACAACTTACCATTAGGTAAATACTTCATCAAAGAAGTTGAAGCACCTAAGGGGTATAAACTAGACACAAATGAATATCCATTTGAACTAAAAGAATTAAAAGGTACTTTCCATCCAGTATACGAATTCACATTCTATGATGTAGTAGACCCTGAAACTCCTCAAATTGTTAAGGATGTAAATGGTAAAACTCATCTAGAAACTGAGTATGACAAAGCGTTTGACTACAATGTAACAACTACAATTCCAAAAGACTTGAGTGGTTACGAGAAAGTAGTAATGGCTGATAGCTTAGACAAACGTTTAGACATCAAAGGCGTGAAAGTATTAGTAGACGGTCAAGAAAGTTCTTACAAAGCTACTGTAAAAGGTCAAGATGTTACATTAACTCTAGACCGTACAGAATTAAACAAACTTGCTAACAAGCAAGTAAGACTACAGATTGAAGCAAGTATCAAGTATGGTACACCCGCTGAAATCATTGATAACAAAGCTACAATCACAGTGAACGATAAGCCATCTGTTGATTCTAACAATGTTACTGTAGTTCCATTCTTACCTTTAGACCCTACAATCAAGAAAGATGTTAAAGGGGTAGAGCATTTACGAGTTGAACGTGAAAGAACTTACAACTACAATGTGAAATCTAAAATTGTAGATGATGTTCGTGGTTATAAATCACTAACTGTCTCTGATAAGTTAGACAAGCGTTTAGATGTAGTAGATGCAAAAATATTAGTAGACGGAGTAGAATCTTCTTACAAAGCTACTAAATCTGGTCAAAACGTGGAAGTTACATTCACTAGAGAACAATTAGAAACTTTAAAAGGTAAAGAAGTTAACCTTCAAATCCAATTTAAAGTGAAAGAAAGTACTTTAGCAGAAGAAGTTCCAAACATGGCTACTATCACTAGAAACGGTGATTTCAATCTTGATTCTAATGTGGTTACTGTAGTTCCTGTTGACCCTGAGACACCTAAGGTTGTTAAAGACGTTAACGATGTAGCACACATTGATGTAGTTAAAGGTGATGAATTCACATACCATGTTAAAACTACTATCCCTGAGGATTTACTAAGTTATAAATCATTAACTCTAGCAGATACTCTAGATAAACGTTTAACAATTAATGGTTCTGATGTAAAAATCGGAGGTAAAGCAGTAAAAGGTATTGAAACAAAAGTTGACGGTCAAAATGTTAAGTTTGTGTTAGATAGAAAACAATTAGAAGACTATAAAGGTCAAGAGGTTGTTATTTCTATTAGAGCAAAAGTGAAATATGATGCGCCAATCGAAATCGTAAACAACAAAGCAACAATTCAAGTAAATGATAAACCTTCTGTAGACTCAAATAACGTTACTGTTAAGCCTGAGAACAGAAAAGCAACATTATACCTATACAAACTAAGTGGTGAACAATCTAACACATTCGGACCTGCATTGGTAGAAAAAGGTGCAAGAAAAACTTCAACTACTAATCCTCTTTTAGATTCTTTAAAAGAGACAGAGAAGAATAGTGTAGTAAACCCACTATCAAGCCTTACACAGTCTAAACACCAACCAGTACCATTGGAAGGTGGGGTATTCCAAATCCTAGACGCTAGTAAGAATGTTGTAGGTACAATCACATCGGATTCTATCGGTACAGCTTATATTGAAAACCTTGATTTAGGTAATTACTTCATTAAAGAGGTTCAAGCACCTAAGGGGTATCAATTAGACAGCAAAGAACATCCGTTCACAATCGTAGAAAACGGTTCTAAACAATTAGCCTTTGAATACATCTTCCATGATGTAAAAGACCCTGAAACGCCTGTTATTACAAAAGACGTAGAAGGTAAAAAGCATCTTGAAGTTGAAAAAGGTAAAGAGTACAAATACAATGTTAAAACTACTATTCCTGAGAATGTTGAGGGGTATGAGTCATTAACAATTACAGATACATTAGATAATCGCTTAGACTTAGTTAACGCTAAGGTTTATGTAGATGGTCGTATCAGTACTCATGTAGCAAATATTAAAGGTCAAACTGTTACTCTTAACTTAACAAGAGTTCAATTAGACCAAATCGAAGGTAAAGAAGTTAAGATTCAAATTACTTCTAAAATCAAAGAAGATGTTGCTATCGAGACAATCGAAAATAAAGCAAACATCCAAGTGAATAATAAGCCTTCTGTAGATTCAAATGTAGTAACTGTAGTACCACCAACGCCTGAGAATCCAAACATCAAGAAAGATGTTGAAGGTTTAGACCACATTGTGGTTGAAGAAGGCGATAATTACAACTATAACGTAAAAACAGTAATCGCTAAGAATGTTAAGGGGTATAAAACTTTAACAATCAAAGACGAACTGGATAATCGTTTAGAAGTTGTAAACGCAAAAGTGTTAGTAGATGGAAAAGTAAGTACATTGAAAGCAGACTTTAAAGGAAACAAAGTAAAATTAGAGCTAACTCGTAGTCAACTTGATTCATTACAAGGTAAAGAAGTGAACTTACAAATTACTTCTAAGATTAAAGAAGGAACTGGTATCGTATTAATTCCGAACAAAGCAACAATCGAATTAAACGACAATCCTTCAATTGAGTCTAATGAAGTTACAGTAATTCCTCCTACTCCTGACGAACCAAACATCGTAAAAGATGTAAACGGTGAGAAACACGCTGTAGTTGAACATGAAGAAAACTTTAATTACAACGTTAAATCAGTTATTCCTAAAGATACTAAGGGGTATAAAACATTAACTCTTAAAGATACTTTAGATAACCGATTAGATATCGTATCAACAAAAGTTTTAGTTGATGGTAAACCATCTACATTCAAAGCAGTTGTTGAAGGTCAAGAAGTTAAACTTATCGTAGAGCGTTCTCAACTGAAAACAATCGAAGGTAAAACTTTAAACCTACAAATTACGGCTAAGATTAAAGAAGGTACACCAATTGAAACAATTAATAACAAGGCTACTGTTCAATTAAACGACAAGCCTGAAGTAGACTCAAATGTTGTTACAGTTGTACCACCTACTCCAATTGACCCTAACATTAAGAAAGACGTTGAAGGTAAAGAGGAACTAGTGGTTGAGCATAAAAATGAGTACAATTACAATGTTAAGACAAAAGTTGCTGATAGCGTTGCAGGTTACAAGTCATTAACGATTGCAGATACATTAGATGACAGATTAGACTTTGTCAAATCTACTGTATATGTAGACGGTAAAGCAAGTAGCTTCAAAGCAAAAGTAACAGGTCAAAACGTAGTTCTTGAATTAACTCGTAAACAGCTTGATGGTTTAGAAGGTAAAGAATTAAACCTACAAATTACATCTAAAATCAAAGAGGGTACACCAATTGAGAAAATCCCTAATAAGGCGACTATCCAATTGAATGATAAACCTTCAATTGATTCTAATGTAGTTAACGTAGTACCACCTACACCTATCCAACCAAACATTGAGAAAGATGTAGAAGGTTTACAACACCTTATCATCGACACTGAAAAAGAATTCGATTACAACGTAAAATCAGTTATCCCTAAATCAGTTGCAGGGTACAAACATATTACTATCTCTGATACGTTAGATAAACGTTTAGACTTAGTAGATGCGAAAGTACAAGTAAATGGTAAAGATACAGACTTTAAAGTTGTAAAAGAAGGACAAAAAGTTACAGTTAAAGTAGACCGTAAAGATTTAAATGGTTTAGAAGGTAAAGAATTAAACTTAGTAATTACAGCTAAGATTAAAGATGGTACTCCAATTGAACTGATTGATAATAAAGCAAACATTCAATTGAATGACCAACCGTTGGTTGAATCAAATGAAGTTACAGTAATTCCTCCAACACCAGTACAACCTGATATTTACAAGAATGTAGAAGGTACAGACCGTCTTGAAATTGAAAAAGAGAAAGAGTACAACTACACTGTAAAATCAGTAGTTCCATTCAATGTAATGGGGTATAAACATCTAACTATCGAAGATATGTTAGATAACCGTTTAGATATCGTTGGTGTAAAAGTTCTTGTAGACGATAAAGAAAGCAAGTACGAAGCTAAAGTTGAAGGTCAACATATTTCTCTGAAATTAGACCGTAAAGAATTAGATACATTACTAGGTAAAGAAGTACAACTAGTAATCACATCTAAAATCAAAGATAGCGCACCAATCGAAGTAATTGATAATAAAGCTACTGTTCAATTGAATGATGAACCAAAAATTGATTCAAACACAGTAACAGTAGTACCACCTACGCCTGTTGTTCCAAACATTCATAAAGATGTAGAAGGACAAGAGCATATTCAAGTAGAACTTGAAAAAGAATACAAGTACAATGTTAAATCTGTAATTCCTTCTAAAATTGATGGATACAAGACTTTAACAATTGCTGATACATTAGATAAGCGTTTAGATGTAGTAGAAGTAAACGTATTCGTTGATGGTAAAGCAAGTAAACTTGTAGCTGAAAGAAAAGGTCAAGATGTTAAGTTAGTTCTAGACCGTAAACAATTGGATGACTTGAAAGGTAAAGAAGTAAATGTCCAAATTACTTCTAAAATCAAAGATGGAACTCCAGTTGAGAAGATTCCAAACGGTGCTTCTATTCAAATGAATAACTTAGATGCAATTCAATCTAATGTAGTTACGGTAGTACCACCAACACCTGTAGACCCTAACATCGTGAAAGATATAGAGGGTAAACAACATTTAGAAGTTGAACGTGGTAAAGTATTCAATTACAACGTAAAAACTAAGATTGCTGATAAAGTAGACGGTTACAAAACTTTAACAATTGCTGATAAGTTAGATAAGCGACTAGGGGTAGTAAGTGCTACTGTATTAGTAGACGGTAAGGTTTCTGATTTAAAAGCGGTTGTAAAAGGACAAGACGTTACTCTTACATTAGACCGTAAACAATTAGACAAATTAATGGGTGCAGAAGTAAATGTACAAATTAAGGCGTTAGTATTAGGAGACACGAAAGCTGAGAACGTACCTAACAAGGCTACAATCAAGCTTAACGATAAACCTTCTATTGATTCAAATGTAGTAACTGTAATTCCACCAAATCCAATCACGCCTAATATCGTCAAAGACGTAGAAGGTAAAGAGCATTTAGAGATTGAACAAGGTAAAGATTACAACTACAATGTTAAAACTAAAATTGCTGATAGCGTAGCTGAGTACAAGTACTTAACTATCTCTGATACATTAGACAAACGATTAGATATCGTAAAAACTACTGTATTAGTTGATGGGGTAGCTAGTGAACTAGAAGCTAATGTAAAAGGTCAAACTGTCACACTTAAATTAGGTCGTAAACAGCTTGATGAATTAGTTGGTAAGGAAGTAAACGTACAAATTACTGCACAGATTAAAGAAGGTACAGAAGTTAACTTAATTGATAACAAAGCAACAATTCAATTAAATGACAATGACGCTATTGAATCAAATGTAGTAACTGTAATTCCACCAATGCCACCTGTTAACCCTAAAGTAACAAAAGATGTGGAAGGTATGAACCACATTGTTATTGAAACAGGTAAAGAGTATGATTACAATGTTAAAACTACAGTAGCTAATAAATTAGAGGGGTATAAGTCTTTAACTATTAAAGACATCCTTGATAGTCGATTAACTGTAGTTGGTGCAAAAGTTCTTGTTGATGGTAAAGAAACAAACTTCAAAGTTAACATTGATAACCAAGAAGTAACTGTTAAATTAACTCGTGAGCAATTGGAAACAATCAAGGGTAAAGAGATAAACTTAGTCATTACTTCTAAGATTAACAAAGGTGTAGCTATCGAGAATATCGAAAATAAAGCTACTATCCAGTTAAATAATAGAGACTTAGTTGAATCTAATACAGTTACAGTAATTCCTCCTAAACCGGAAGAACCTGTAACTCCGATTCCACCTAAACCGGAGCCACCAGTAACACCTGAGCCTCCAGTTAAACCGGAACCGCCTGTTAAACCAGAGCCACCAGTTAAGCCGGAACCACCGGTAAAACCTGAGCCTGTAAAACCTGAACCACCAAAACCTGTTAAGCCTGTTAAACCTGAGCCACCAAAACCTAACAAGGTTGAAAAGCCAGTACCACCTAAGAAACCTGATAGATACTTACCTAGAACTGGTAATGCAGGTGACTTTGGTTATACATCTTATATCTTATTCGGAAGTGTTATTGCTATTATTGTAGCGGTAGTTTACTTCACGAGAAGACGTAAAGCTTAA	MATVIAFTTFMQPVVAGAETITGDKAKSEVKVEQEKAVQEPTVSPDVQTSEMDKKEVTNDKTPKSTTEEQERNKGQPVDEKKTVVEPKVSTTNANPTGVALTDEQKKEQAQLASTDEVKLSQNYVETDDNGDPLRLIEAGKDYTYEVNLDVSGNVTLLSDYVVKVEVEKKYLRDWGEPLHISKPELASEVTYADEGDKKVAYIKFPQLAGGTTLSFPVQLIVEAGLTPDMYEMKPMASLMDSKLNLVKKANEISYKVTYKKPGSQKYVNGQKENGSMVWAGIDDGKGVIKEGTEVPVEFSFSTDLEFLDNYRYFKAIEVVDTLPQGAKFDPKANPDWKLSADGKSVSTTVSLNEEIGMSTNGTLANKLSKLKLSLTFPNGKVNGTYTNNVTKTYIPEKAESYEPKVESKASIDFVLDAKPVGFVFTKKRSEDATIKDSLHYKGLDYTYRIEFKNPNSMPLHNVVIDDYKRKDGTYALDKRMEFTKVQTLNGEGEKVIAYIEEDGKVTEKQITKDGKYYNFPKGTKGYRYEVAKLDGAKFFQFLAYVKISNPKDVKYDTKDASKNLFENEASFKGEIQNPTDGKVIYKAEGTDKDDIPLVEFKESISLRKEITNSRDKVLKGGELHNRLFIHGADSNLDAETVIKGGKIIDLLPKGMTVVKSSVSRQGEVIPNYKNSGQTAIVWTFEDMKAGDFAPYTSKEYPQVGFTAIANDLSEEGTNINQAYLVFDDMENMGIEYKKDAQDKFDFNENSKTDDKVVYSEDYYVYVPNKEVVLTKSVQNEELAKNKVWSTDGVFVKYGEKANYKLNIKNHLDVDVPQVTVYDVLPFKGDRAIVPNDGGEYLSRESMYSNTLTGAINAPQGFTVYYTTDKVLDNASDSMTKLNWSKTLTDYSKATGIKIVMDNGKVLKSKESVDFEFGAIVPKTGLKAEDKAYNSAAVSVNGGTSFVEGNKVYTQMDIPEYPTITKDVEGKEHHDVDKGRTYQYNVKVKIPKNIKGYETLTIKDKLDRRLTYKYATLYKGYDVYNDAKVKVDGQELQVNLTKQDIENLQGKELNLKINAYINYDAPYELIENKADLQLNNESAIESNIVTVKPNPRKAKVTIAKVSGEGLNSFESVTKKLFGTTVKEVTEGNMVINPLDVLKANEEPKLLSGATFEILDSSKNVIHTVSTDYTGTVDIRDLDMGDYFIRETVAPKGYVLDSTEYPFTVKDTGTPSLEFKYSFYNKVDPIEPKLEKNILEHMTDGTVNRVSHKDVFRGEKYKYEVGTTIENLEGYKTIKLSDSLDARLDVHSAKLVVNSKDIQDVKPTIKGQDVSIVLTKEQLESFGMNKDGKLRIDLVIESSVKEGTNNEVIPNKGTLSLNDKPAVESNEVTVKPKDVTAKLVVVKTSGEKEHTFGQLADGQEPGKDLVKLAGAKFEVSNADRSKVETVVSNDNGLVELDNLPLGKYFIKEVEAPKGYKLDTNEYPFELKELKGTFHPVYEFTFYDVVDPETPQIVKDVNGKTHLETEYDKAFDYNVTTTIPKDLSGYEKVVMADSLDKRLDIKGVKVLVDGQESSYKATVKGQDVTLTLDRTELNKLANKQVRLQIEASIKYGTPAEIIDNKATITVNDKPSVDSNNVTVVPFLPLDPTIKKDVKGVEHLRVERERTYNYNVKSKIVDDVRGYKSLTVSDKLDKRLDVVDAKILVDGVESSYKATKSGQNVEVTFTREQLETLKGKEVNLQIQFKVKESTLAEEVPNMATITRNGDFNLDSNVVTVVPVDPETPKVVKDVNDVAHIDVVKGDEFTYHVKTTIPEDLLSYKSLTLADTLDKRLTINGSDVKIGGKAVKGIETKVDGQNVKFVLDRKQLEDYKGQEVVISIRAKVKYDAPIEIVNNKATIQVNDKPSVDSNNVTVKPENRKATLYLYKLSGEQSNTFGPALVEKGARKTSTTNPLLDSLKETEKNSVVNPLSSLTQSKHQPVPLEGGVFQILDASKNVVGTITSDSIGTAYIENLDLGNYFIKEVQAPKGYQLDSKEHPFTIVENGSKQLAFEYIFHDVKDPETPVITKDVEGKKHLEVEKGKEYKYNVKTTIPENVEGYESLTITDTLDNRLDLVNAKVYVDGRISTHVANIKGQTVTLNLTRVQLDQIEGKEVKIQITSKIKEDVAIETIENKANIQVNNKPSVDSNVVTVVPPTPENPNIKKDVEGLDHIVVEEGDNYNYNVKTVIAKNVKGYKTLTIKDELDNRLEVVNAKVLVDGKVSTLKADFKGNKVKLELTRSQLDSLQGKEVNLQITSKIKEGTGIVLIPNKATIELNDNPSIESNEVTVIPPTPDEPNIVKDVNGEKHAVVEHEENFNYNVKSVIPKDTKGYKTLTLKDTLDNRLDIVSTKVLVDGKPSTFKAVVEGQEVKLIVERSQLKTIEGKTLNLQITAKIKEGTPIETINNKATVQLNDKPEVDSNVVTVVPPTPIDPNIKKDVEGKEELVVEHKNEYNYNVKTKVADSVAGYKSLTIADTLDDRLDFVKSTVYVDGKASSFKAKVTGQNVVLELTRKQLDGLEGKELNLQITSKIKEGTPIEKIPNKATIQLNDKPSIDSNVVNVVPPTPIQPNIEKDVEGLQHLIIDTEKEFDYNVKSVIPKSVAGYKHITISDTLDKRLDLVDAKVQVNGKDTDFKVVKEGQKVTVKVDRKDLNGLEGKELNLVITAKIKDGTPIELIDNKANIQLNDQPLVESNEVTVIPPTPVQPDIYKNVEGTDRLEIEKEKEYNYTVKSVVPFNVMGYKHLTIEDMLDNRLDIVGVKVLVDDKESKYEAKVEGQHISLKLDRKELDTLLGKEVQLVITSKIKDSAPIEVIDNKATVQLNDEPKIDSNTVTVVPPTPVVPNIHKDVEGQEHIQVELEKEYKYNVKSVIPSKIDGYKTLTIADTLDKRLDVVEVNVFVDGKASKLVAERKGQDVKLVLDRKQLDDLKGKEVNVQITSKIKDGTPVEKIPNGASIQMNNLDAIQSNVVTVVPPTPVDPNIVKDIEGKQHLEVERGKVFNYNVKTKIADKVDGYKTLTIADKLDKRLGVVSATVLVDGKVSDLKAVVKGQDVTLTLDRKQLDKLMGAEVNVQIKALVLGDTKAENVPNKATIKLNDKPSIDSNVVTVIPPNPITPNIVKDVEGKEHLEIEQGKDYNYNVKTKIADSVAEYKYLTISDTLDKRLDIVKTTVLVDGVASELEANVKGQTVTLKLGRKQLDELVGKEVNVQITAQIKEGTEVNLIDNKATIQLNDNDAIESNVVTVIPPMPPVNPKVTKDVEGMNHIVIETGKEYDYNVKTTVANKLEGYKSLTIKDILDSRLTVVGAKVLVDGKETNFKVNIDNQEVTVKLTREQLETIKGKEINLVITSKINKGVAIENIENKATIQLNNRDLVESNTVTVIPPKPEEPVTPIPPKPEPPVTPEPPVKPEPPVKPEPPVKPEPPVKPEPVKPEPPKPVKPVKPEPPKPNKVEKPVPPKKPDRYLPRTGNAGDFGYTSYILFGSVIAIIVAVVYFTRRRKA				NA	NA	NA	NA	NA
AK009_03101	1059			hypothetical protein	ATGCTAAATAAGAAACTGGGTATTGCATTAGGCATAACCGCTGTTCTTGGTTTAGGTATTTTTGGATATAAAGTTTATGCGAAAGCACCCGAAATCAAGACTAATGAAATAACTATAGATTATGGTAAGAAACTAGGAACTGATAAGATTGAAACTTCAACTGATGTTGTTAAGAAGCAATACAAATCAGCAACAGACACGAACAAATTAGGTAAACAAACAATTAAAGTAGAAGTTGAAAATGATAAAGGGGTAACAACGGAAAAGGAAATCACATTAAACGTTGTTGATAAAGAAAAGCCTGTTATCAAGACAACACAAGACAAGTTTGTAACAAAGAAAGGACACTCTATCAATCTAAAGCAGTTTGTAACAGCTAAAGATAACGTAGATGGAGACCTTACAAACAAAATTTTAATTCAAAGGTTTGATTATAGCAAAGTAGGAGACATCAAGGTTTCAATGGGAGTTGCGGATTCATCTGATAACTTTGCTGAAAAGACTGTAATCGTATCTGTAGTAGACGAAATGCCTGAGGTATTAACTGTACCTGAGTCACGTATTGTTCGTACAGGTGATGCTTTTAAACCAATTGATGGGGTAGAAGCGAAAGATTATAACGGTAAAGACCTTACTTCTAAAATCAACATTAACGGTAATGTAGATACAAGCAAAGCAGGAGAATACTCACTAACATACCAAGTAACTGATAGTCAAGGTATCTTCCACCAAAAATCAGGTCTTGTTGTAGTAAAAGACGAAGTAGTTGAGAAAGCATTACGAGACGAACAAAAATATAAAGAAGAAAATTCAGTTGGAGACTTTGTAAGACCAGACAAACCAGAGACAGCGAAGCTATTAGAAGATATTGCTGATGCAAAACGTAAAGAAGGTAAGAAGTCTATTAAAGACCGTGCTTACGATACAGTAGATAAAGAAAAAGCAGCACAAACTGAAAAAGAAATCAAAGATAAAGTAAATGACACAACTGATTCAATCAAGAAAGAGTACGATGAGCATGTAAAAGAACATCGTAAAGAATTAGGTATAGACGAATAA	MLNKKLGIALGITAVLGLGIFGYKVYAKAPEIKTNEITIDYGKKLGTDKIETSTDVVKKQYKSATDTNKLGKQTIKVEVENDKGVTTEKEITLNVVDKEKPVIKTTQDKFVTKKGHSINLKQFVTAKDNVDGDLTNKILIQRFDYSKVGDIKVSMGVADSSDNFAEKTVIVSVVDEMPEVLTVPESRIVRTGDAFKPIDGVEAKDYNGKDLTSKININGNVDTSKAGEYSLTYQVTDSQGIFHQKSGLVVVKDEVVEKALRDEQKYKEENSVGDFVRPDKPETAKLLEDIADAKRKEGKKSIKDRAYDTVDKEKAAQTEKEIKDKVNDTTDSIKKEYDEHVKEHRKELGIDE				NA	NA	NA	NA	NA
AK009_03102	417			hypothetical protein	ATGCATCAATTAGACTTTGAAAACAAGTTAGCTGATATATCAAAAGGTAGGATTGTAATAGAAGACTCCCAAATAGAACATCGAGATAAGGAAGAAGACAATATCTATAAAGCAAACTGGAAAGGGTTTGAAATCTACGCAAAGATGGGTAAGAATGATTGGGTAGAAAACTCCTATTCTGTTTCAACAAACAGGAATGTATTTGAAGATAAAACCCTTTATGAAAATTACCATAAACTTATGGAAAGTTTAATTCGTATTATGGATAGTAAACTAACCCTAGAAGAGATTGACAAGTTAATCGCTAAAGGGGTAGACGAGAACGAGTCACCAAACACCTATGATTTCGGATATGAAAGATATGTAGGGAAAGACAAAGGAAATCAAATTCGTTTTACGATAACGGATAGAAAGTAA	MHQLDFENKLADISKGRIVIEDSQIEHRDKEEDNIYKANWKGFEIYAKMGKNDWVENSYSVSTNRNVFEDKTLYENYHKLMESLIRIMDSKLTLEEIDKLIAKGVDENESPNTYDFGYERYVGKDKGNQIRFTITDRK				NA	NA	NA	NA	NA
AK009_03103	582			hypothetical protein	TTGAGTTTACAAGAACGGATAAAAGCATATAGAATTCCAATAGTAGGGGTATTGCTTCTATTAGTAGTATGGTTTATCTTCTTTAGAGGTAGCGGTTCTAGTGGAATCCTAACGCAACAAGAGTTTGAAGACAAGCTAAAAGAAATGTCAAACGGTAAAATCGTTATTTCAGATTCGAAGATAAAGATGTATGAAAGTGAAGATGGTGGGGTATATTCAGCTAACTGGAATGGTTTTATGCTATCAAGTAGAGTAGACAAAGATAAGAAATTGGATAGAACATTCAGTATTATAACAAAACAAGCAGGTTACATGGACGAGATTTCAATTGGTCAGTATCATGACTTAGTTGTATACCTGACAAGACTTTCAAATGAAAAGATGTCAGTAGATGAAGCAAATGTGTTAGTTGATACAGGTTTAAACTTCAATCAACAAATTACAACAGGTGAACAGCATGAAACTTCTAAGGGTGATTTATACTACCGATTAAGTGGAGGTAAGAAAGATATAAACTTCTTCTCATTCTTGATTATGGATGAAGACGGGCATAAGAGAGTAATAAACCCGAATAAAAAGTAA	MSLQERIKAYRIPIVGVLLLLVVWFIFFRGSGSSGILTQQEFEDKLKEMSNGKIVISDSKIKMYESEDGGVYSANWNGFMLSSRVDKDKKLDRTFSIITKQAGYMDEISIGQYHDLVVYLTRLSNEKMSVDEANVLVDTGLNFNQQITTGEQHETSKGDLYYRLSGGKKDINFFSFLIMDEDGHKRVINPNKK				NA	NA	NA	NA	NA
AK009_03104	711			hypothetical protein	TTGGAAAGACGGTTAAAGATTCGGTATGGACTCATAGCAGGAATTATAGCATTAGGGGTAGGCGGTTACTATGTTGTAGACTCTATGCTTCAAACTGATATGCGTGGTATCGAATTAGATAAAAACACCATAGATGAAAATAAGAAAGCAAAAGCAGACTTTGATTTAGACAGTATAAAACCTCTATCAGAGCAAGAATTACTAGAAAACAGTTTAAAGAGAAGTACAGGTTGGGGTAAAGACTTACATTATGGAAATCAAGGTGTAGTAGGAGGTATTTATGTACCTTCTGTAGATATTAAACTACCAATCTCAAAAGGTATCGGTAATAACAGCCTATCAAGAGGGGTAGGAACGGGTTTTGAGGATAGAGAAATGGGGAAAGGAAACTATGTATTACTAGGTCATAATTCCCCAAACAAGCATGTATTGTTCTCACCTCTAGAAGATATGAAAACGGGAGATATCATTTATGTAACAGATGCTACATGGATGTATGAGTATGAAACTACAGATAAGAAACGAATTCATCAATCGCAAGGTGAAGTAATGGATAATACAACTGAGGATATCATTACCTTAATTACATGTTTTGGTGGTTTAAATACAGATAAACGAACAGTTGTTACAGGTAAGTTAAAACATAAGTATCCAGTTAGTGGTGCAGAAAAAGAAATAAAGACAGCATTAAATATCAAAGAAGACAACTAG	MERRLKIRYGLIAGIIALGVGGYYVVDSMLQTDMRGIELDKNTIDENKKAKADFDLDSIKPLSEQELLENSLKRSTGWGKDLHYGNQGVVGGIYVPSVDIKLPISKGIGNNSLSRGVGTGFEDREMGKGNYVLLGHNSPNKHVLFSPLEDMKTGDIIYVTDATWMYEYETTDKKRIHQSQGEVMDNTTEDIITLITCFGGLNTDKRTVVTGKLKHKYPVSGAEKEIKTALNIKEDN	PGPT0024075_1804	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK009_03105	1413			hypothetical protein	ATGGTAACGATGAAGAAATTAATTAAAACAGGTAAGTCGGCAATTGTAGGAACTGTAGGGGTAGGAGTACTACTTTCTACTTCACATTCAATTAGTGCTGACACACTCAAACCAGTAGACGAGAAAGTACAAGAAAGTCAGTTAGAAAGATTAAGTCAAGAAGAAGACAAGAAATTAGATGTACAAGTTCCTGATTTAAATAAAGAAAAACAAGAAAATGAAGAAGGGGTAGAGAAACCTCAAACAGAGAATCAAGAAGTAAAAGATGAAAAAGTAGTAGAAGACGGAAATAAAGAAAAGAAGCCTGAGGTAAAGAACGAAGAAAAACCTGTAGTTAATGAAGAAGAAAAGCCGAAAACGGATAGTTTACAAGTAGTAGATGAAGAGAAGAAAGAAGAACCACAAGTTGAAGAAGAGGAAATTTATGTGGTTTACAAGAAAGTAAACTCTACACAAATCATTGAAAAGTCAAACAATGAGAGTATTTGGTCAAAACCACATATGTTAAAAGGTGCAGAAAACCTTGGTTCAGTTGATGAATATGTAGGTAAAGAAGTTCAAATGTCTGAAATGGCATTAGCAAACCGTAAAGCATGGTTTAAAATCAGTGTAGAAGGTAAAGAATTAGGTTGGGTTAGCTCTAGTGTTATGAGTGTAGCAACAGACCTTGAAAGTATCAATAAAGCGGTTGGAACAGAAGGTACAGACGATAAATATAGTATTTATTCATTACCAAAAGGTATGCAAAACTCACAAGAAGTAGCAAAAGTAAACGATTATGCAAATCAAGAATTAAAAGCAACAAAGCAAACAGTATATAACGGTACAATGTGGTATAAAGTAAGCCAAAACGGTAATGAAATTGGTTGGTTAGATAGTCGTTCAGTAAGTGAAAGAACTGTCTTACCACACATGAATGTACCGATTGAAAGTCAATTAGACGCAAAAGACCCTAGTAGAAACTTAGAAACAGGTTGTGAAATTACAGCAGTTTCTATGATGTTACAGTTTGCAGGAGCAAACGTAGATAAAGTGTTACTAGCAAAAGAAATGCCTTATCACGACTATGACCCAAACAAAGGTTATGTTGGAGACCCTTGGTCAGACGGACCAATTAACACGGTTTACCCACCCGCATTATTAGACTTAGTGAAGAAGTATGCAGGAAGTTCTGTAAACCTAACAGGTGTAAGCTTAGATAAGATTAAAGAAAAATTAAATCAAAACCATCCAGTTGTTGCATGGGTAGGAGATATGCATGGTTTTGGTATTCATGCAATCACATTAACTGGTTATACAAACGATAAAGTATTCTATAACGACCCTTGGACTGGTGAGAAAGACGCTTCTATGAGTTGGGATAGTTTCGATAGCAAGTGGACACCTAAGAAAAGTAGAGCCTTATCATACTAA	MVTMKKLIKTGKSAIVGTVGVGVLLSTSHSISADTLKPVDEKVQESQLERLSQEEDKKLDVQVPDLNKEKQENEEGVEKPQTENQEVKDEKVVEDGNKEKKPEVKNEEKPVVNEEEKPKTDSLQVVDEEKKEEPQVEEEEIYVVYKKVNSTQIIEKSNNESIWSKPHMLKGAENLGSVDEYVGKEVQMSEMALANRKAWFKISVEGKELGWVSSSVMSVATDLESINKAVGTEGTDDKYSIYSLPKGMQNSQEVAKVNDYANQELKATKQTVYNGTMWYKVSQNGNEIGWLDSRSVSERTVLPHMNVPIESQLDAKDPSRNLETGCEITAVSMMLQFAGANVDKVLLAKEMPYHDYDPNKGYVGDPWSDGPINTVYPPALLDLVKKYAGSSVNLTGVSLDKIKEKLNQNHPVVAWVGDMHGFGIHAITLTGYTNDKVFYNDPWTGEKDASMSWDSFDSKWTPKKSRALSY				NA	NA	NA	NA	NA
AK009_03106	7677			hypothetical protein	ATGTTAGATGCTTTTAAACGTGGTAAAGTATCTAAGGTCATGTTTAGTGTCCTTAGTTTACTGATGCTTACTATCTCAACCCTTATCTCACCTATCTTTGCACATGCAGATGATGGAGAGCCTAATGTAGTACAAAGAGCAAGTGGTAATTGGACTCAAATGTGGCATGAGAAATACAACAACAAAGGTTGGGTTTATGATGCAGGACAGAAGTATTCTATTGAAACCGATGTAATTAGATTCGGAGACAATTCAATTGCTTACTGTCTAGAAATGATGTTAGAATCTCCTAATGGACATTCATTAGAAGAGAAAACACGTCTATCAGATGAATACTACAAAATCATGAATAATGGTTATCCTGTAAAGACTCCTGAGCAATTAGGTGCAAACAGTTGGCAAGAAGCCCACTACGCTACACAAGTTGCAGTTTGGATTGTTAACCAAGATGTTAAGTATTCAAACCTTACTTTCAAAAATGCTAACGTAAAACAAGTTGTTGATAAAATTCTTGCTGATGCTAACAACTCTAGTGACACACAAGATTTATCATTCTCAATTACACCAGACCATATTAAAGCTGAAATGACTCCTTGGAGTACTGAATATCGTCAAGCCGGACCTTTTACTATTAAAACAAACGGTAACGGAACGTTCAAACCAGAAGCTATTAATGCCCCTGGTAAAGTAACATTTGTTGACTCTATGGGTAATCCTAAAACTGAGTTAAACTCATGGGAACCGTTCTTTGCACAGATTAATTCAAATACACCAACTGGTAGTTTCAACATTAAAGTAACTGGTGATATGACTAAAACTGAGACAGTTTGGTATAAGTCACATAGTGGAGGTATCCAACATACTACCGCTTTAGTTACACTACACAAGACTCCAACTGCACAAAACGCTTCTATATCTTGGGATTCAAACGGTGGATTCAAAATCAAGAAAGTCGATGATGCAGGTAACCCACTAGGTGGAGCGAAGTTCGATGTTATTAACTGGGGTAATCAAGTAGTTAGAAGTTTAACAACTGATTCAAACGGTATGGCATCTACTGATGGTCTTTGGTTTGAAGACTACACAGTAAAAGAAACGCAAGCACCTGACGGTTATGAATTGGATAACACACCTCAAAAGGTTACTGTAGACTCAAAAGACAAAACGTTAACATTTGTTAACAGAAAGTCTAAAGGTGGATTTAGAATCCATAAAGTCGATGATTCGAATAAACCATTGCAAGGGGTAGTATTTACGATTTATGGAAATGACGGACTCAAAATGTTCGATAGAACTACTGATGCAAATGGTATCATCCAATTAGGTGATTTACCTTATGGAGAGTATCATTTCAAGGAGTCTAAAGGACTAGACGGTTACGAATTCGATGATGATGTAAAACATATTACTATCAATGCAGATAGCCAAAACAAAGAATACAAAGTAGTGAACAAGTTAATTTCAGGTAGTATTAAAATCACGAAAACTGATGAAGAGAATCGTCCACTTAAAGGGGTACAATTCCTTGTTTACAATCAGAATGGTGATGTAGTAGGGGAAGCATACACAAACGAGCAAGGTATTGCTACGATGGGTAACTTACCTTACGGAACTTATGCTTGGTTAGAGAACAAAGGTCTTGACGGATATGAAGCTGAAAAGAAAACAGGTTCATTCGTAGTAGGTAAAGACCAAAAAGACCATGCAGTAACTGTAATTAACAAGCGCATGAAAGGTGGTCTAGAAATCTACAAAATAGATGATAGTCACCAACCATTACAAGGCGTAGAGTTTACTATTTACAAAGACGGTAAAGAGTTTAAAAAGGTAACTACAGGTAAAGACGGTAAGATTAAATTACCTGACTTAGAATTCGGTAAGTACTCTGTAAAAGAGACAAAAGGTCTTGAGGGGTATGTAACTGATTTCAAAGAAGAATCATTTGAGTTATCTTCACAAAACCGTTCAAAATCTATGGTTGTAGTGAACAAGAAAATCAAAGGTTCTCTAGAGATTACGAAAACTGATGATGCGAGTAAGCCACTAGCAGGTGTACAATTTACTATCTATAAAGACGGTAAAGAGTATGAGCAAATTACTACAGACGCTAACGGTAAAATTGTTTTAAATGACCTTCCAATGGGTAAATACACATTCAAAGAGACTAGAGGTCTTGAAGGATATGTAGTAAGCACAAAAGAAGAAGCATTTGAAATTAAAAACCTTGGTGATAGCAAGAAGTTTACTGTAGTAAACAAAGCAATCAAAGGTAGTATCGAAATCACGAAAACTGATGATGCTAGTAAGCCACTTAAAGGTGTAGAGTTCACTGTATACAAAGATGGTAAAGAGTATACGAAAGTAACTACAAACGATAAGGGTATTGCAGAAGTTAAAGACTTACCATATGGTAGTTATACGTTTAAAGAAACAAAAGGTATCGAAGGATATGTTCCTGATTCAACTACTAAAGGTGTAGACATCAAAGAAGATGGAAAAACTCACAAATATACTGTAATCAATAAGAAAATTAAAGGTAATTTAGAAATCACTAAAACTGATGATGCTAAGAAACCATTAAAAGGCGTTGAATTTACTGTATATGATGCTAAAGACAAAGAAGTAGCGAAAGTTGTTACTGACGATAAAGGTAAGGCTTCTGTTAAAGACCTTCCTTACGGTAAGTACTACTTTAAAGAGACTAAAGGTCTTGAAGGCTATGTATTTAGCAAAGAAAAAGTAGAGTTTGAAATCAAAAACTTGAATGAAACGAAGTCTTACAATGTAGTCAACAAGCTAATTCGTAGTAACATTGAAATCACAAAAGTAGATAATGAAGGAAAGCTTCTTGAAGGGGTAGAATTCACTATCTATGATTCAAACGACAAAGAAGTAGCGAAAGTTGTTACAGATGCTCAAGGTAAAGCGAAGTACGAAAACTTACCATACGGTAAATACTACTTCAAAGAAACAAAGAACCTTGAGGGTTACGTTAAAAACGGTACAAAATACGATATTGACGTAAAACAAGACATGCAGACATTAAAGTACGATGTTATCAACAAAAAGATTCGTGGTTCAGTTGAAGTATTAAAAGTTGATGCTGACAAGAAAGAAAAACCATTACAAGGGGTAGAATTCACTTTATTTGACCAAAACAATAAAGTAGTAGGAAAACCTAAATTAACTGATAAAGATGGTAAAGTATCATTTGATAAACTTGCTTTCGGTAAGTACTATATCAAAGAAACTAAAACTATCAAAGGTTACAATATCAACAATGAGAAATTCCCAGTTGATATTGATACTGATGGTAAAGTTGTTAAGCATACTGTAACAAACAAAGTAATCCGTGGTAACGTGGAATTACTGAAAGTTGATACAGAGAACAAAAACGTTACATTAAAAGGCGCTGAGTTCGAATTACGTGGCTCAAACGATGAAGTGTTAGGTAAATACAAAACTGATGCTAACGGTAAGCTAGTTATTAAGGACTTAGTATTCGGTGATTACAAACTTATCGAAACAATCGCTCCTACTGGATTCAACTTAGAGCAAACTCCAATTAGTTTCTCTATTAGTGAAGAAGGTAAAACAATTGGCTTAACGAAAGAAAATCTTAAAATCTACGGTAACATGGAAGTAACAAAAGTAGATGCTGAGGATAACAAGAAAGTTCTTGCAAACGCTAAATTCGAGGTTTACAACGAAAAAGGCGATAAAGTAGTTGAAGGAACTACAGACGCTAAAGGTAAAGCTAAGTTCGAACATTTACCATATGGTAAATACACATTTAAAGAAGTGGTTGCACCTGAGGGGTATTTAGTTAACCCAACGGTATTTAACTTTGATATTTTAGAAAATGGTAAAACAGTTTCTCACAAAGTTACAGACCAAATCATTAAAGGTGACTTAGAAGTTAAGAAAGTAGACATGGCTGACAAGAAAGGTTTATCAGATGCGAAATTCGAAGTCTTCAATGCAGAAGGTAAGAAGGTTGCAGAAGGTAAAACTAATAAAGACGGTTATGCTAAGTTCGAAAAATTACCTTACGGTAAATACACATTCAAAGAGACTGTAGCACCTAAAGGTTACTTCTTAAATGAAACAGTATTTAACTTTGAAATCAAAGAAGACGGAAAAATCATTGCACAAGTTGTAGAGAACGAAAAAGTACCTTCAATCAAAACAACGGCTACTGAAAAGCATGACGGTGCAAAAGAAATGCACACTTCTAAAGAAGTTACAATTACCGATAAAGTAGAGTACAAAGACCTATTAATAGGTAAAGAGTACACTGTTAAAGGTAAATTAATGGATAAAGAAACTAAGAAACCATTACTTGTAGGCGGTAAGGAAGTAACAGCGGAAGCTACATTCACTCCTGACAAGGCTACTGGTTCTATTAACTTAGACTTTACATTTGATGCAACTGGTTTAGAAGAAAAAGAAGTTGTAGTATTTGAAGATTTAATTAAAGAAGGTAAAACTCTTACTACTCACAGTGATTTAGAAGATAAAGACCAAACAGTTAAGTTTGTTAAGCCTAGCGTAAGCACAACAGCTACAGACAAAGCTGATGGCACAAAAGAATTACATGCAATTAAAGATGTAACAATTATAGACGTAGTTGAATACAAAAACTTAGTTGTAGGTAAGAATTACACTCTTAAAGGTAAGTTGATGGACAAAGCTACAAAACAACCATTAGTAATTGATGGAAAAGAAGTAGTAGCTGAGAAAAACTTCTCACCTAGAGAAAAAGACGGTAAAGTACCTTTAGAATTTAAAATTGATGCTTCTACATTAGAAGGTAAACAAGTAGTTGTATTCGAAGATGTTGTTCACAATAACTTTGTAATTGCAACTCACGCAGACATTGAAGATAAAGGTCAAACAGTTGACTTTGTTAAGCCTGAGGTTAAAACAACGGCTACAAACAAAGCTGACAAAGAAAAAGAAATTCATGCTATCAAGAACATTACTGTTCAAGATAAAGTGGATTACAAAAACTTAGTTGTTGGTAAAGAGTACACTGTTAAAGGTAAACTAATGGTTAAAGAAACAAACAAACCATTAGTAATCGAAGGTAAAGAGGTAACAGCTGAGAAAACATTCAAGCCTACGGCTAAAAATGGTTCAGTTACTCTAGACTTCACTTTCGATGCTTCTAAATTAGAAGGAAAAGAATTAGTAGTATTTGAAGATGTTGTATTCAACAAAACTACAATCGCTACTCATTCAGACATCGAAGATAAAGACCAAACAGTACGTGTTGTAAAACCAGAAGTACACACAACAGCTACTAACAAAGCAGACGAAGGTAAAGAAATTCACGCACAAGAAAAAGTAACTATCCAAGATAAAGTAGCGTACAAAGACCTTGTAAAAGGTAAAGAGTACACTGTTAAAGGTAAACTAATGGATAAAGCTACTAACAAACCATTTAAAGTTGATGGTAAAGAAGTAACAGCTGAGTCTAAGTTTACTGCAAAAGAGAAAGATGGGGTAGTTACAGTAGACTTCACATTCAATGCTGAGAAGTTACAAGGAAAATCTTTAGTAGTGTTTGAAGACTTATACTACGAAAAAGAATTAATTGCAACTCACTCTGATATTAAAGATGAAGGTCAAACTGTACGTATCGTGAAGCCTGAAGTTAAAACAACAGCAACAAACAAAGCAGATGAAGGTAAAGAAATTCATGCTGACCAAACTGTTACTATCCAAGATAAAGTTGAATACAAAGACTTAATCATTGGCAAAGAGTACACAGTTAAAGGTAAACTAATGGATAAAGCTACTAACAAGCCATTACTAGTTAATGACAAAGAAGTAACAGCTGAGTCTAAGTTTAAAGCAGAAGCTAAAGATGGCTCTATCATCCTAGACTTTACATTCGATGCAAAAGCGTTACAAGGTAAAGAAGTAGTTGTATTCGAAGACTTATATAACGAAAAACTATTGGTTGCTACTCACTCTGAAATCGAGGATAAAGACCAAACAGTTAAATTCGTTAAACCTGAGGTTAAGACAACAGCTACTAATAAAGCAGACGAATTAAAAGAAGTACACTCAAACAGAGAAATCACTCTTAAAGACGTAGTTGAATATAAAGACTTAATCGTTGGTAAAGAGTACACTGTTAAAGGTAAACTTATAGATAAAGGTACTGAAAAGCCATTCCTAGTGAACGATAAGGAAGTAACTTCAGAAGCTAAGTTTATTGCAGAAGCAAAAGATGGTTCTATTACTTTAGACTTCACATTCGAAGCTAAAGACGTAGAAGGTAAAGATATCGTAGTATTTGAAGACCTGTATCAAGATTCATTATTAGTAGCTACTCACTCTGATATTGAAGATAAAGGTCAAACAGTTAACTTTGTTAAGCCGGAAGTGAAAACTACAGCTACTAACAAAGAAGATGGATTGAAAAACATTCATTCTAACAAAACTGTAACAATCCAAGATAAAGTTGAATATAAAGACTTAATCGTAGGAAAAGAATACGTAGTAAAAGGTAAACTAATGGACAAAGCTACTAACGAACCATTCTTAGTAGATGGTAAAGAAGTAACTTCTGAAACTAAGTTTACTGCTGAGGATAAAAACGGCTCTGTTATCCTAGACTTCACTTTTGAAGCTAAAGGGGTAGAGGGTAAAGAGGTTGTTGTATTCGAAGACCTTTACAATGAAGATATTTTAATCGCAACTCACTCTGATATTGAAGATAAAGACCAAACAGTTGAGTTTGTAAAACCAGAAGTTGGAACAAAAGCTACAAATAAAGCTGATGGTGGTAAGGAGTTACACACAAACAAATCTGTTACAATCCAAGATACAGTGGATTACAAAGGTTTAATCGTTGATAAAGAGTACGTAGTAAAAGGTAAACTAATGGATAAAGAGACAAACAAACCACTTCTTGTGAATGACAAAGAAGTAACAGCAGAAGCTAAGTTTACTGCTAAGAAAGAAACTGGCTCTGTAACATTAGACTTTACATTCGATGCTACTGGACTTGAAGGAAAAGAAGTTGTTGTATTTGAAGACCTATACCAAGATAATGTCTTAGTTGCAACTCACTCTGACATCACTGACGAAGGGCAAACAGTTAAGTTCGTTAAGCCTGAGGTTAAAACTACAGCTACTAACAAAGAAAACGGTTCTAAAGAATTAGATGCAAACAAATCTGTTACTGTAACTGACAAAGTAGAATACCATGATTTAATCGTTGGTAAAGAATACGTTGTCAAAGGTAAACTGATGGATAAGGCAACAAACAAACCATTAATCATTAACGGTATAGAAGTTACATCTGAAACTAAATTTACTGCAAAAGAGAAAAATGGTTCTGTAAACTTAGACTTCACATTTGATGCTACTGAACTACAAGGTAAAGAGTTAGTAGTATTCGAAGATTTATATCAAGACAATGTTTTAGTAGCAACTCACTCTGACATTAATGATGTAAACCAAACAGTGAAAGTAAAAGTTAAGCCTGTTCAACCGAAACCTGAACAACCTAAGCCTGAGCAACCAAAACCACAAAAGAAACCAGTTCCTCAAACTGGTAGCGATAGTAACTTTGGTACTACAATGAGCATCTTAATGGGTATCATTGCATTGGCTCTTGGTGGGGTATTCGTATTCACTCGTAAGAACAAAGCTGAATAA	MLDAFKRGKVSKVMFSVLSLLMLTISTLISPIFAHADDGEPNVVQRASGNWTQMWHEKYNNKGWVYDAGQKYSIETDVIRFGDNSIAYCLEMMLESPNGHSLEEKTRLSDEYYKIMNNGYPVKTPEQLGANSWQEAHYATQVAVWIVNQDVKYSNLTFKNANVKQVVDKILADANNSSDTQDLSFSITPDHIKAEMTPWSTEYRQAGPFTIKTNGNGTFKPEAINAPGKVTFVDSMGNPKTELNSWEPFFAQINSNTPTGSFNIKVTGDMTKTETVWYKSHSGGIQHTTALVTLHKTPTAQNASISWDSNGGFKIKKVDDAGNPLGGAKFDVINWGNQVVRSLTTDSNGMASTDGLWFEDYTVKETQAPDGYELDNTPQKVTVDSKDKTLTFVNRKSKGGFRIHKVDDSNKPLQGVVFTIYGNDGLKMFDRTTDANGIIQLGDLPYGEYHFKESKGLDGYEFDDDVKHITINADSQNKEYKVVNKLISGSIKITKTDEENRPLKGVQFLVYNQNGDVVGEAYTNEQGIATMGNLPYGTYAWLENKGLDGYEAEKKTGSFVVGKDQKDHAVTVINKRMKGGLEIYKIDDSHQPLQGVEFTIYKDGKEFKKVTTGKDGKIKLPDLEFGKYSVKETKGLEGYVTDFKEESFELSSQNRSKSMVVVNKKIKGSLEITKTDDASKPLAGVQFTIYKDGKEYEQITTDANGKIVLNDLPMGKYTFKETRGLEGYVVSTKEEAFEIKNLGDSKKFTVVNKAIKGSIEITKTDDASKPLKGVEFTVYKDGKEYTKVTTNDKGIAEVKDLPYGSYTFKETKGIEGYVPDSTTKGVDIKEDGKTHKYTVINKKIKGNLEITKTDDAKKPLKGVEFTVYDAKDKEVAKVVTDDKGKASVKDLPYGKYYFKETKGLEGYVFSKEKVEFEIKNLNETKSYNVVNKLIRSNIEITKVDNEGKLLEGVEFTIYDSNDKEVAKVVTDAQGKAKYENLPYGKYYFKETKNLEGYVKNGTKYDIDVKQDMQTLKYDVINKKIRGSVEVLKVDADKKEKPLQGVEFTLFDQNNKVVGKPKLTDKDGKVSFDKLAFGKYYIKETKTIKGYNINNEKFPVDIDTDGKVVKHTVTNKVIRGNVELLKVDTENKNVTLKGAEFELRGSNDEVLGKYKTDANGKLVIKDLVFGDYKLIETIAPTGFNLEQTPISFSISEEGKTIGLTKENLKIYGNMEVTKVDAEDNKKVLANAKFEVYNEKGDKVVEGTTDAKGKAKFEHLPYGKYTFKEVVAPEGYLVNPTVFNFDILENGKTVSHKVTDQIIKGDLEVKKVDMADKKGLSDAKFEVFNAEGKKVAEGKTNKDGYAKFEKLPYGKYTFKETVAPKGYFLNETVFNFEIKEDGKIIAQVVENEKVPSIKTTATEKHDGAKEMHTSKEVTITDKVEYKDLLIGKEYTVKGKLMDKETKKPLLVGGKEVTAEATFTPDKATGSINLDFTFDATGLEEKEVVVFEDLIKEGKTLTTHSDLEDKDQTVKFVKPSVSTTATDKADGTKELHAIKDVTIIDVVEYKNLVVGKNYTLKGKLMDKATKQPLVIDGKEVVAEKNFSPREKDGKVPLEFKIDASTLEGKQVVVFEDVVHNNFVIATHADIEDKGQTVDFVKPEVKTTATNKADKEKEIHAIKNITVQDKVDYKNLVVGKEYTVKGKLMVKETNKPLVIEGKEVTAEKTFKPTAKNGSVTLDFTFDASKLEGKELVVFEDVVFNKTTIATHSDIEDKDQTVRVVKPEVHTTATNKADEGKEIHAQEKVTIQDKVAYKDLVKGKEYTVKGKLMDKATNKPFKVDGKEVTAESKFTAKEKDGVVTVDFTFNAEKLQGKSLVVFEDLYYEKELIATHSDIKDEGQTVRIVKPEVKTTATNKADEGKEIHADQTVTIQDKVEYKDLIIGKEYTVKGKLMDKATNKPLLVNDKEVTAESKFKAEAKDGSIILDFTFDAKALQGKEVVVFEDLYNEKLLVATHSEIEDKDQTVKFVKPEVKTTATNKADELKEVHSNREITLKDVVEYKDLIVGKEYTVKGKLIDKGTEKPFLVNDKEVTSEAKFIAEAKDGSITLDFTFEAKDVEGKDIVVFEDLYQDSLLVATHSDIEDKGQTVNFVKPEVKTTATNKEDGLKNIHSNKTVTIQDKVEYKDLIVGKEYVVKGKLMDKATNEPFLVDGKEVTSETKFTAEDKNGSVILDFTFEAKGVEGKEVVVFEDLYNEDILIATHSDIEDKDQTVEFVKPEVGTKATNKADGGKELHTNKSVTIQDTVDYKGLIVDKEYVVKGKLMDKETNKPLLVNDKEVTAEAKFTAKKETGSVTLDFTFDATGLEGKEVVVFEDLYQDNVLVATHSDITDEGQTVKFVKPEVKTTATNKENGSKELDANKSVTVTDKVEYHDLIVGKEYVVKGKLMDKATNKPLIINGIEVTSETKFTAKEKNGSVNLDFTFDATELQGKELVVFEDLYQDNVLVATHSDINDVNQTVKVKVKPVQPKPEQPKPEQPKPQKKPVPQTGSDSNFGTTMSILMGIIALALGGVFVFTRKNKAE				NA	NA	NA	NA	NA
AK009_03107	1269			hypothetical protein	ATGAAGAAATTAGACGTAGAAACATTAAAGAAACATAAGAAGAAACTCATTGTAGCAGGAATTGGGGTAGCAGTTCTTACATCGGCAGGTTTTGGTGGTAACTACTATGTACAAGCCAAAGAGACTGAAAAACAAGAAATTCAGCAGAAAGAAGCGAAGAAAAAGGAAGTAGCAAAACAAGAAGCTGAGAAAAAGAAACAAGATGAATTAAAAGCAAAACTTGCAAAAGAAGAAGCGGATAAGAAAGCAGAAGAGGAACGTGTAAAGGCTGAGGAACAAAAGAAAGCCGAAGAGGAAAAGGCTAAAGCTGAGGAACAAGCAAAACAAGAAGCTGAACGTGTAAAACAGGAAGAAGAAAAGAAAGTAGAAGAACAAAAGAAAGCCGAAGAAGGTAAGCAAGAAGAACAAGTAAACGGTAATCAAGAAGGTAAGAAACAAGGTAATAGTCAAGAAAACAAACAATCTAAAACGCAAGGTAATGAACAAACACAAGGTATCAAAGGTGTAGCGAAGAAAGCAGAAGAACCGCAACAAGGTTCACAAGAAAATCCACAAGCTAAACAAGGTGGAGAGCAAGCAAAACAACAAACTAATAATCAAGAACAACCAAAACAAGTCTCTCAACAACCTACTAATAAGGGTGGGAATCAGCAAGCAAATGTACAACAAGAGCAGGGAACAGCAATGACTCGTGCGGTATCTAACTCTAGTGTTGGAAAACGAACAGACCAAATCGTAGCGGTTGTGGCTCAAGGTTCAAGTGCAAAGGTTACGTACTTAGAGAAACATAATGGAAACTGGAAAGAAGTATTCACAACAAATGGTTTTGTTGGTTCACAAGGGGTAGGGCAAGCAAACGAATCTGTTAGTAGAACTCCAAGAGGAGCGCATTCATTAGGATTTGCATTCGGAACTTCAAACCCTGGTACAAACTTACCATTCCGACAAATCACACCGAAATCGTATTGGATTAGTAATGTAAATGATGACCAATACAATACATGGCAAGAACGAGATAGTTCTTCACCACAAGACGAGCATTTAATTAAAGAAACTGTAGCTTACAAGTATGGTATTGTTATCAACTATAACACTAGCAATCCAGTAAAAGGTGGAGGAAGCGGATTCTTCTTACACGTATCAAACGGACGACCAACGGCAGGTTGTGTATCTGTACCACAAGCTAAAATGGTAGAATTAATGCAGAAACTACATGGTGGTGCTTATATCGTGAATGTAAACAGCATTAATGAAATCTCTAACTACTAA	MKKLDVETLKKHKKKLIVAGIGVAVLTSAGFGGNYYVQAKETEKQEIQQKEAKKKEVAKQEAEKKKQDELKAKLAKEEADKKAEEERVKAEEQKKAEEEKAKAEEQAKQEAERVKQEEEKKVEEQKKAEEGKQEEQVNGNQEGKKQGNSQENKQSKTQGNEQTQGIKGVAKKAEEPQQGSQENPQAKQGGEQAKQQTNNQEQPKQVSQQPTNKGGNQQANVQQEQGTAMTRAVSNSSVGKRTDQIVAVVAQGSSAKVTYLEKHNGNWKEVFTTNGFVGSQGVGQANESVSRTPRGAHSLGFAFGTSNPGTNLPFRQITPKSYWISNVNDDQYNTWQERDSSSPQDEHLIKETVAYKYGIVINYNTSNPVKGGGSGFFLHVSNGRPTAGCVSVPQAKMVELMQKLHGGAYIVNVNSINEISNY				NA	NA	NA	NA	NA
AK009_03108	102			hypothetical protein	ATGTTTGTTTTATACAATCAGACAAATTCTTATACAGTAGCAGAAATAAAGGGTACAATTGGGGATTCTAACAGCTTAACAAGAACAGGTAAAATAATATAA	MFVLYNQTNSYTVAEIKGTIGDSNSLTRTGKII				NA	NA	NA	NA	NA
AK009_03109	1188			hypothetical protein	GTGAAAGACGAAATGTTAGATTTAATAGGAGAAAATGCAGACAGACGAAGAGTAATCATTATAGACTTTAACCATTTGGCATGGCGTTACGCTTTTAGTAATGCGAAAGGTTTAAGTATCAACCGTTTAGTAAATGGGGTATCAACTATCATTGATACAACAGTTCCATCTTATGCAATTAAACAGATAGTAAGATGGTCTAATTTTGGGGTAAATCCAACTATTGTATGTTTAGACGCACCAGTTAAATCACGTAAGGCATACTTTAGTAATATATTAAACAAGGATAAAAAGGAATTAATACCTTCTGATTATAAAGGAGACCGTAAAACACCAAACGGAGACTTCATTCAGCAGATTGAAATTGCAGGAGCATTAATGCAACAAGGTGGTATTTATGTCTATCGTAAAGAAAACTACGAAGCAGACGATATCATTCATGCATGTGTACAGAAAGCAAAGAAAGACTTCCCATATCTACCAATAGACGTCATTACAGGTGATGCTGATATGATTCCATTAGTAGATGAACAAGTAAGTGTATACATGAAGTCTAAAGTTCATACGTACGCAAACGAGTATAGCCCTACAATCAAAGGGTATGTACAGTATACGCCTGAGTCTTATCAAACGTATGTGCAAGAGTTATCAAAGTACAAAACAAGTTCTACACAAATTTTAGTACCGTATAACACACTATTACTAGCTAAGATTTTACGTGGAGATTCGTCAGACGGATTAAAAGGAAAGCCTGATTGGAAACCTAGAATGTATAATCAGTTAATAGAACAGTTAATTAGATATGAAGAACCAATTCATGAAATCTTTAGATACGGTACTTGGACTTCTGAAATCATTGATAGACGTACAAAAGAGGTTGTAACTGATTGGTCTAGTTGGACACCAGAAGAAAGAAAGCACTTATTCCAAAACTACAAAGAACCGAAAGAATTGAAAATGATAGAAGATGTTCTTTCTAGACACGTAGATGATGAAGACATCGAATTTATACGTGAAAGATACATTGGTATGTTACTAAACGGTGCATTCTTACCAAACATCCATGTACCTGATGAATTTAAACGTAGACCGTATGAAATTGAAGATAAGAAACCATTTACAGGTTTTGATATCACGAAACTACAAGAAGCAGTAAACGTATTAGAAATTAGATTACCGATGGGGTAA	MKDEMLDLIGENADRRRVIIIDFNHLAWRYAFSNAKGLSINRLVNGVSTIIDTTVPSYAIKQIVRWSNFGVNPTIVCLDAPVKSRKAYFSNILNKDKKELIPSDYKGDRKTPNGDFIQQIEIAGALMQQGGIYVYRKENYEADDIIHACVQKAKKDFPYLPIDVITGDADMIPLVDEQVSVYMKSKVHTYANEYSPTIKGYVQYTPESYQTYVQELSKYKTSSTQILVPYNTLLLAKILRGDSSDGLKGKPDWKPRMYNQLIEQLIRYEEPIHEIFRYGTWTSEIIDRRTKEVVTDWSSWTPEERKHLFQNYKEPKELKMIEDVLSRHVDDEDIEFIRERYIGMLLNGAFLPNIHVPDEFKRRPYEIEDKKPFTGFDITKLQEAVNVLEIRLPMG				NA	NA	NA	NA	NA
AK009_03110	411			hypothetical protein	ATGGAGTCTAAACTATTTAAAACAGAAAAGACAGAAAGAGGTACGAGGGTTTTCTTGAAAGACCCTCTACTTCACAATATGCTACCAAAACGTGTATTTTTCTTCTTGGAAAGACCTGTTTGGAGTATATTCTCTATACCTTTTACAATTCCTTTTCTACCTGTAAGAGTATCATTTGGGTTATCAACGAATGAGTTTAGTAGAGTACTAGATAAATATTGTGAAAACCTAGAAGAGTTATCAAATATACAGGTAGTAGACCCTAAAACCTCTATTTTACCGTATCCAAGTTTAGGGGTATACAAGGTAAACATGGTAGAAGGAGTTATGTTTGATTTTAAGTCAGATAAAGACATGAAATCATTATTATGTAAGATGGATAAAGCAGTAGAAAGATTTAGACGTACCTAG	MESKLFKTEKTERGTRVFLKDPLLHNMLPKRVFFFLERPVWSIFSIPFTIPFLPVRVSFGLSTNEFSRVLDKYCENLEELSNIQVVDPKTSILPYPSLGVYKVNMVEGVMFDFKSDKDMKSLLCKMDKAVERFRRT				NA	NA	NA	NA	NA
AK009_03111	390			hypothetical protein	ATGGAATCTAAGTTATTTAAAACGGAGGAAACGGATTTAGGTACAAAGATTTTATTTAAAGACAAGGTACTGTATCATTCTCTACCAAAACCAGTGTTTATGCTCTTTGAAAGACCGATGATAGGTGTATTTTACGTACCTTTTACGTCTTTCAAAGTTTCTTTTGTATCGTCAGAGACAGAGTATAACATGGTACTAGATAAGAATTTCGCAAACAAAACAGACATAGAAGAAGTAGACCCTGAAACCTTTGCTATTCCGTATCCATGTACAGGTGCAATTAAGGTAGACCTTACAAAAGGTGTTACGTTCCATATAAAAGATGAGAAGACGAAAGAGTCTTTATTAAAGAAAATGGATAAGGCAGTAATGAAGTTTAAGGGTATTTAA	MESKLFKTEETDLGTKILFKDKVLYHSLPKPVFMLFERPMIGVFYVPFTSFKVSFVSSETEYNMVLDKNFANKTDIEEVDPETFAIPYPCTGAIKVDLTKGVTFHIKDEKTKESLLKKMDKAVMKFKGI				NA	NA	NA	NA	NA
AK009_03112	300			hypothetical protein	ATGAAAGAAAAACTAATGAACAAGTTAAAAGAAAGCAAGAGTTTCTCTAGAGACAACATAGGTATGTCAGTAGGGGTAGTTTCAGCAAGTGGAAACTTAAAATATCAAAAGTATTTATGGACTTACATTGAAGACATTGATACAGTTGTAAACAGACAACCTTCTATTCGTTTATATGATGAAGAGAATGATACATTTGTACATGTTACGGTAAACTCGGTAGCACGTATTTTAGAATTGAAAAGGGAAGAAATAAATCAAGAAAATAGTACAGAAAACCAATTACACAAAGCAGTATAA	MKEKLMNKLKESKSFSRDNIGMSVGVVSASGNLKYQKYLWTYIEDIDTVVNRQPSIRLYDEENDTFVHVTVNSVARILELKREEINQENSTENQLHKAV				NA	NA	NA	NA	NA
AK009_03113	1080			hypothetical protein	TTGAGTTATTTATTAGAACCGATGGCTAAAACAGAAGTTCAAAGGTTACTAGCCAACTTAAATGTAGAACAGCGTGAATATGTAGAGGATGCAATGAAGAGGGGTAGACGAACAGCTTTTGCAAATACTTTAGCAAAGCATAAAGGTTCAGACTCTAATAATTCCAGTTTAGATGAGATTTTAGATTCATGGGAACTGGTTGATTTCATTGATTCTGGTCATCGTAACCCCGAAACCAAGTGTATGTGTGGTATACCTTTACGTTATCAGTACATTGTAAAGAATAAAATTACAGGAGAAACGGTTACATTCGGTAAAGACCACTTTGAACAACACACTGGAATCCCTTCACAAGTAGCTAGGGATGTCATTAACGGGGTAGACAAGATTGACCTTGAACTAACTGAGATTCTATCAAAGGTGTCAGAAGGTTGGTTTGTAGAGAAGTATATAGATATCGAGTTCTTACCAGGGCTAGACTTACCTAAGGATATAGAGAAACATTTAGATTTAGAGTTACCACTGTTACAAAGGCAGTTGAGACATTTAAACTATCTGATTCAAGAAAAGAAGCGTGATTCTAAACTAGTAGGTGTAAAGAGTGAACAAAATAATTGGGATGATGAAAAAGTTGGGTTAGAAAACGCTACACTATTTGACTTTTCAGATGAAACGCCAATTGCACAGCAAGTAGACCAGTTTTTACAGGATAATTTCGGTATTGACGAAGAGGATAAAGAAAAAGAGTTATCGAAACAAAAACTAAGTACACTAGGAAGAAGATTATATGGTGCAACTGAGATAAAACGTCCATTGCATTCTTTCTTAAATGATAGAGAAGTAAAACTGATTAATGATTACATTGAAAATGAAAAGTATGATGAAGACTACGGTATAAACGCCTTAGAAGTATGTGAAGGTTTAGTAAGACGTGGTAGTTTCAAAGATACTTACATTACAGATAAACCGAAAATATATCCATACGTAGCAAACTATCTAGACTATTTAGTTGCACAAGGTTATCTTGTTATGATTTCTGATTTAGGAACAGAGAATAAAATCTATACAAAAGCAGTATAA	MSYLLEPMAKTEVQRLLANLNVEQREYVEDAMKRGRRTAFANTLAKHKGSDSNNSSLDEILDSWELVDFIDSGHRNPETKCMCGIPLRYQYIVKNKITGETVTFGKDHFEQHTGIPSQVARDVINGVDKIDLELTEILSKVSEGWFVEKYIDIEFLPGLDLPKDIEKHLDLELPLLQRQLRHLNYLIQEKKRDSKLVGVKSEQNNWDDEKVGLENATLFDFSDETPIAQQVDQFLQDNFGIDEEDKEKELSKQKLSTLGRRLYGATEIKRPLHSFLNDREVKLINDYIENEKYDEDYGINALEVCEGLVRRGSFKDTYITDKPKIYPYVANYLDYLVAQGYLVMISDLGTENKIYTKAV				NA	NA	NA	NA	NA
AK009_03114	237			hypothetical protein	GTGGGAGAAGCCATTCAAAACGGTATTGTATACACTTATTCTGATGGTGGGAAAATTAAAGTAGTAGATTCAAAGAAAGGTAGTGGTTCAGACAATAAAGTCAAACGTTATAGATTATTCTATAACGGCAAGAAACCCTACCTTGGATACTTAAACTCTATCACACTAGAGGATGCAATTAATCGAGGTACTATTAAGAAGCGAGAGATTGATAGACAGAAGGAGGTTAAACATTGA	MGEAIQNGIVYTYSDGGKIKVVDSKKGSGSDNKVKRYRLFYNGKKPYLGYLNSITLEDAINRGTIKKREIDRQKEVKH				NA	NA	NA	NA	NA
AK009_03115	594			hypothetical protein	ATGGATAAATTACAAGATGCTGAATTAAGCTTCAAAGAACTATATGAAATCCAAGCTAACTTAGAAATCAATACAAGGGATGTACGATTTTTAGCAATTAAAGATGGAGAATCATATTGGCAAGTAGAGGGACGAGGTTTTGTTACAGTAGACCGTTCAAGAGTAGAAACAGAATTAAGTGAAAGCCATTATACATTTATGGTAGACGAGTCCATCAAGAAAAAGAATTTACATATTCGTAAGAAATTACAAAGATTGTATATGGTAGAGTTACTTTTAAGACATGATTTAGATTTCGTAAAGAAACAAGTGTGTATGTACGATAATATAAAGGTATTAAGGGAATTATCCGAAGGTATTTGGTTAATGAAAGAAGGCGGATTAGACTATGATGCCTTACAATTAAAAATGAAAGCAATTGATTTAGACCAAACAATGAAAATCGAGTTACTAGAGTATATAAAGCAAGACAAGATGTTTGAAGTAGTAGAATTAAGTAATGGAATTTGTTTGTTTAAACAGGCTTATTTAGAAATTACAGAAGGTGGAGAAAACGAGTATCATGGGTATGTAGATATTTATGATAGATTTTAA	MDKLQDAELSFKELYEIQANLEINTRDVRFLAIKDGESYWQVEGRGFVTVDRSRVETELSESHYTFMVDESIKKKNLHIRKKLQRLYMVELLLRHDLDFVKKQVCMYDNIKVLRELSEGIWLMKEGGLDYDALQLKMKAIDLDQTMKIELLEYIKQDKMFEVVELSNGICLFKQAYLEITEGGENEYHGYVDIYDRF				NA	NA	NA	NA	NA
AK009_03116	168			hypothetical protein	TTGTTTCATATTATTTTTATAATAACTCTACTATTTCTATTTACAGACATAAACTATAGGAAGAAAGACAAAGATTTCAGTCTTAAAGTTACATTTAAGATAGAAAACGTAAAGAAGAAATTCTTATTCTTTAATAAGTTATCAAATCAAAAAGACAAAACAATGTAA	MFHIIFIITLLFLFTDINYRKKDKDFSLKVTFKIENVKKKFLFFNKLSNQKDKTM				NA	NA	NA	NA	NA
AK009_03117	294			hypothetical protein	ATGGTAAAAGAATTTGTAAACGAATGGTCTTTTCTTATTATCATACTATTTTTCCTTAGTATTGCTTTTGTTGTTTATGTACTTCTAGATTTGTATGATGAAACAGATAAAGGAAGTGCAAAGAAAAGTAGTAAGAAAGTACCAAAGACTGTAAAAGGTAAAATACATCTTATTAGAAGAGACGATACGTTATACCCAAAACAAAGTATCTTTTCTAAATTAAGTGTAAGAAAAGTAAAAACTGAAATAAAGAATAAGTTACCGTTTGGAAGGAAACGAGTCAGAAGTAAGTAA	MVKEFVNEWSFLIIILFFLSIAFVVYVLLDLYDETDKGSAKKSSKKVPKTVKGKIHLIRRDDTLYPKQSIFSKLSVRKVKTEIKNKLPFGRKRVRSK				NA	NA	NA	NA	NA
AK009_03118	705			hypothetical protein	ATGGCTTTCAATAAGAACACAATGGAGTTTGAAAAAGAACCTGTAGGTAGTCCAATTGTCGATGTAGAGAAGGTAGCAAAAGGAAAGGCAAAGGAACTGAAAAAGGTAGAAGAATTATTAAACAAAAAGCATGGACAAGTATTATTTGCTTATGAAACGAAATCAGAGACATTTTGGATGACTGAACAAGAGAATGAAATTGTAGTATTAGGGGTAGACGGAGAAGGTAAAGTAATCGAAATGGCTAAAGATTATGCAGACTACTTTAACCATCTATATACGTATCCAGTCAATGCTGCAACAAGGGAAGCATTACGAAACGGTAAATTAAATGAATTAGAAAGTAAAGCAAAAAACTATGTAATGGATTCTATGTATCGTATAGCTTTAACTTATTGGTTTAGTGAAGATGATGTGAGGTTAGATACTATTTGTGATATGGTAGGAGAAGACCGGTTAGTAGTTATTAGAGACTCAATTGTTCAACGTCAAAATGGTATCGGTGCGGAGTTACTAGATAAAGAGACTTTAGAGTTAAGTTTAAGTCTTGAAAACATGCGAGTAAAAAGAGAAATGCAAAGATTATTAGATGAAGAGAAGTATGAATTGCTATCTTTAGAAGCAGACCGTATGAATGAATTAAAGAAAGCAGTTAGAAAGTATTTAAACAAGAAATATTCTTTTATGAGAAATACAGGAAAATAG	MAFNKNTMEFEKEPVGSPIVDVEKVAKGKAKELKKVEELLNKKHGQVLFAYETKSETFWMTEQENEIVVLGVDGEGKVIEMAKDYADYFNHLYTYPVNAATREALRNGKLNELESKAKNYVMDSMYRIALTYWFSEDDVRLDTICDMVGEDRLVVIRDSIVQRQNGIGAELLDKETLELSLSLENMRVKREMQRLLDEEKYELLSLEADRMNELKKAVRKYLNKKYSFMRNTGK				NA	NA	NA	NA	NA
AK009_03119	600			hypothetical protein	ATGGCTAAAACGAAAGAATTTGAAACATTAAAAGAGTTACATGTAGTGGAAAAGAAGTTAAAAGATTCATACGGAAATATAGTATTTGCATATAAGACAGATAATAATACCTACTGGAATGTAGAATTAGGCGGTAAAATGGTTACAATTGCAGTAGACGAAAAAGGTTCTACTCGTGAGTTAACAGTGGAAGAAGACGCTCAACATGATGCCTTATATGAAGAGAAGGTATTTACAAACCTACGTGAGCAATTAATGAACATCGCAGATGAGAGCGGTCTTACTGTAGATACAGTAGTTAAACGAGGGGTAGAAAACAATGTTTTATTCTTTTGGCTACATGAAAACAGAGATAAGATGATTGAGTCTTTAGATATCTTAGAAGAACCTCTTTTAAATGTACTGGTTTCATCTTTTGAAACATTAATGGGTAGTAAAGAATACTTTAAACACGATATAGACTTAATAGAGCAAGCATTAGAACGAGAAGAAAAGGAACTAAAAGAGTATGGTGTATTATTAAGTTTTACAAACGAGTTAGACAAGTTAAAAGAAGTAGTTGCAAAGTATAAGCAAGTAGAAACAATTAAGGAGGTGTAA	MAKTKEFETLKELHVVEKKLKDSYGNIVFAYKTDNNTYWNVELGGKMVTIAVDEKGSTRELTVEEDAQHDALYEEKVFTNLREQLMNIADESGLTVDTVVKRGVENNVLFFWLHENRDKMIESLDILEEPLLNVLVSSFETLMGSKEYFKHDIDLIEQALEREEKELKEYGVLLSFTNELDKLKEVVAKYKQVETIKEV				NA	NA	NA	NA	NA
AK009_03120	639			hypothetical protein	ATGATTTCTTTACAAGTAACAGAAAAGTCTGTAGATAAGACAGTAGAATTTATACATGATGCAGAAGTGTATTTAGACTTAAAGTATAAGATGATTCGCTTTCTAGGGTTAGTAGACGGTGAACCATATTGGGAAGTCAGTATGAAAGATAGTTGGGTTATAAAGCCACTACGTAAAGTGGTAAAAGTCGTTCAAGGTTTTAAGGTACAGACAATTGTTAGAAAAATAAGACTTGCTAGAATACAAGAGAAATCTCAATCAGAAAGTAATGCAGAGTTGAAAAAGGAACTTTTAAAGTATCAAGTTAATAAGGGATATAAAGGGTTAGAACGTCTATTAGAGTTAAAAAACTCACTATTACAAAAGTATAAAACAGTAATGTTCTTATGCTATGTAGATAGAGAATCCATTTGGTATACTCAAACTGAAAATGGTTGTGGTAATTATTTTGCAGTTAATAATAGACGAGTGATTAGGCATGTAGGGGTACATGAACTAGACAGGGTTGAAAGATATAGAACGAATTATGGGAATAGTGAAATTACAACATACGTTCTAACGAATGGTAAATATCCTCTACATGAGGAAGTACCTAAGAAAGTAGCTAGAAAAATGGAGTTTATCAAGAAACAGTATTAA	MISLQVTEKSVDKTVEFIHDAEVYLDLKYKMIRFLGLVDGEPYWEVSMKDSWVIKPLRKVVKVVQGFKVQTIVRKIRLARIQEKSQSESNAELKKELLKYQVNKGYKGLERLLELKNSLLQKYKTVMFLCYVDRESIWYTQTENGCGNYFAVNNRRVIRHVGVHELDRVERYRTNYGNSEITTYVLTNGKYPLHEEVPKKVARKMEFIKKQY				NA	NA	NA	NA	NA
AK009_03121	381			hypothetical protein	ATGAATCTTTCAAAAGAAGATGTTTTAAAGTTAGTAAACGAGCTATCTAATAAGGATGCAAAAGTTGCTTTTTACTTAAAACGTGTAGGTGGAGATTTTAATAAGTTACCTCAAATCAGACAGATTGGTATTTTACATAAACTAGGAATAAAACGTGAAATTATAAGTACACAAACATTCAAAAATAAAGAAGGTAAGCGTATTTCAGAAGAAGACTTTATGTTATTTGTGCAGTCTCTAGCTGAGGTGAATGGACTTGTAGCTTCACACTTAGAGGTAGCAGTAGACTACTTTGATATACCTTTACATGTAAGGAAAGAGATTGAAAACGAGTTAAATATTCATGCAACTCAAGTTAAATCAATTAAGTATAAAAGGTAA	MNLSKEDVLKLVNELSNKDAKVAFYLKRVGGDFNKLPQIRQIGILHKLGIKREIISTQTFKNKEGKRISEEDFMLFVQSLAEVNGLVASHLEVAVDYFDIPLHVRKEIENELNIHATQVKSIKYKR				NA	NA	NA	NA	NA
AK009_03122	390			hypothetical protein	ATGAAGATAGCTAAGACAGAAGTAATCAGACGAGTGGAAGAGTTAGCGAAAACTAACTATAAAGTGGAATGGCTGATGAAAGGGGTAGATGGCGACTTTAATAAGTTAACTGAACCTCAACAAATCATGCTTGCAAATGCTTTAGGAATTAAACGAGTATCTATTGTAAACAAGAAATTCACAAAGTATGATGGTACTTCTTTGACAGAAACAGAATTTTTATCTATGATAGATTCTTTATGTGAAAGAAACTATAAAGTTGCTCAACTTATTAAACATAACAATAACGATTATTATCAGGTAGAAAAACATCAAAGAGAATTAATAAACGATGCATTAGAAGTAAAGGTAAGTATTCGTAAAGCAGTTAGTTACGAAAATATTGTATAA	MKIAKTEVIRRVEELAKTNYKVEWLMKGVDGDFNKLTEPQQIMLANALGIKRVSIVNKKFTKYDGTSLTETEFLSMIDSLCERNYKVAQLIKHNNNDYYQVEKHQRELINDALEVKVSIRKAVSYENIV				NA	NA	NA	NA	NA
AK009_03123	531			hypothetical protein	ATGGCAGAAAGCAAAGGTTTATTTAAACGTGTAGCAGATAAATTAGAAAGAAGTTTAGAAGAACAAAATACATGGTGTCACTGTAAAACACCAACGAATCATGCTAAAATTACGGAAACACTAGGCAGAACAGTTGTAGACATATATTGCCTTCGTTGTTATAAACCGATTTATGGGTTACAATATAATGGACAAATAGACCGTTCAGAACTACCTAAGATTGAAAAACGTTTACTAGATATTCGTGAGTTTGATACAACAAAAGAAGTACTACATATAATTCATGCTACACATGATATCGAAACGATGCCACTATGTTTTACAGCAAACTATAATCCAAGTACACATACACTAGCTACGATTTACGATGTTCTATTACAAGAGGAACGCTTCATTCATGATTCTGTTAAAACCTACATCATACTAGAAGACGGTATGTACACATATGAACGTAGTGAAACAGGTGGTAAATGGATTAAGATAATTTTAAACCGTGAAGTAAAAGTTACCGCTAGAGGGATAGTAGAGTAA	MAESKGLFKRVADKLERSLEEQNTWCHCKTPTNHAKITETLGRTVVDIYCLRCYKPIYGLQYNGQIDRSELPKIEKRLLDIREFDTTKEVLHIIHATHDIETMPLCFTANYNPSTHTLATIYDVLLQEERFIHDSVKTYIILEDGMYTYERSETGGKWIKIILNREVKVTARGIVE				NA	NA	NA	NA	NA
AK009_03124	237			hypothetical protein	ATGAAAAAGAAAGAACTAAAAGGTTTATCAAAATATAAACTAATAGATACAAGGAACATGAAGCAGTATACAATTCAAACAAGAGTAAAAGGTGAAGACATCTTAGTTGGTACAGTAGACAACAATGAAGGTGAAATTCAAATGACTACAGTATCTTGGGAAGAAGCAGTCAAACTAATTAGGGATGAAGATTGGTTGATAGCTGAAAAATTGAAGACATACGGAATATTAGTTTAA	MKKKELKGLSKYKLIDTRNMKQYTIQTRVKGEDILVGTVDNNEGEIQMTTVSWEEAVKLIRDEDWLIAEKLKTYGILV				NA	NA	NA	NA	NA
AK009_03125	213			hypothetical protein	GTGACTAAAGAGAAAGAATTGCAAACTGAAAAAGAGAAGTTTAGAAGTAAGTTAGCATCAAAACATATGGAACATTTCAATGTCCCTAAAACAAAGAAAATGCAAGAAGAGGAGAATAAGCTTGAAACTAAGATTGTATTAGGTGGTTTAGCTTATATGGGTGAGCGTGGAGACGGAATCGCAAGACCGAAAGGTATAAGAAAGGAGAATTAA	MTKEKELQTEKEKFRSKLASKHMEHFNVPKTKKMQEEENKLETKIVLGGLAYMGERGDGIARPKGIRKEN				NA	NA	NA	NA	NA
AK009_03126	732			hypothetical protein	ATGAATAAGTTTGTAGAACTAGCTCATAAATTATATAACGAAAAACGTAAATTAGAAAGTACATATACAGGTATTAAACTAGTAGGTATTATTGAAGGTAAAGCCTATTGGTATGTAGGAAACGAAAAGTACAAAACGAAAGATATTGTTACAGGAGAATTTAATGACGTTACCTTAACTATGGAGCAAATCAAAGAGTTAGGAGAAGATGATTTTCAAGACTTTTTAAAAGATGAATTCTATCCATTGGATTTTGCCAAAACTTTAATTGAAAATGGAGTCTCATTGTCACAAGTAGTATTGGATTATAAAAATAAGGAAGATTACTTGTCTTTCCTTTTAAACGATAATGCTTGGTTCCGTGTAAAAGACCATCTAGAAAAAGAAGATGCAACAATCATGTGTAAACGTATTGAAGAATTAAAAGATTTAGTAAAAGAGTTAGCAGAAGAAAAAGTAGAAGAAGGTAAGTTTGATGAGTTAAGTAACTTAGTTGTAGCATTCAATAAAGTTATCTTCTTAAACGTAGTACATCAAGGGGTAGTAGACGAAGTAAAAACGTTTGGTAAGAGTTTAATTACAGAACTAGCAAAAGCAAAAGAGTTTGAGTACACTGTGTATACATCAAACGAAATATGTTTAGCATTACAGAAGCTAGACAGAAAGATGCATAAAAGAGACGGTAAATATCAATATTATTCAGATGTAACAAAACTAGAAGAAATGTATTAA	MNKFVELAHKLYNEKRKLESTYTGIKLVGIIEGKAYWYVGNEKYKTKDIVTGEFNDVTLTMEQIKELGEDDFQDFLKDEFYPLDFAKTLIENGVSLSQVVLDYKNKEDYLSFLLNDNAWFRVKDHLEKEDATIMCKRIEELKDLVKELAEEKVEEGKFDELSNLVVAFNKVIFLNVVHQGVVDEVKTFGKSLITELAKAKEFEYTVYTSNEICLALQKLDRKMHKRDGKYQYYSDVTKLEEMY				NA	NA	NA	NA	NA
AK009_03127	738			hypothetical protein	ATGTCTATAGAAAACATTGTACTAAAGAAACTCTTTGAGACAAAGAAGGAACTAGAAAAGAAATACCCATATATTCAATTAGTGGTAGCAACAAAAGAAAAGTCCTATTGGGAGACAGCAGAAGGGGTTATAGTTGCTATTGACTCTAAAACAAATATAGAAATACCTACAGACAAATTAAAATATGAGTTATTTGTATTATCTCAAAATAGAAGGGAAAAGATACTAGTAGACAATTTTAAAGCGTATGACTTTGTACAACGATTAATAGAAACTGATATCTACTCTGTCTGTAACCATCTTATGTTTGAAAATCTAGTAGCAACGGGTAAGTATATGCAAACAGAAAAAGTTACAAGGTTATTACTTGATATTTGCTTGAACCCAATACATCTTAAAAATGTAGAAAACCATTTAAAACAATTGGTATTTGCACTAGAGGTAGAAGCAGATAAAGAGTTAAACCAAAATAATTACTTAGAAGCAGTCGAAATTGTACAATGTAACTTAAATCTAATCGGAGAGTTAAGTAAACATGTATCGGATGTTTTAGTTCAAGACGTATTAGATTATGCAAAACAGGTATTACGAGAATTAGAGAAAGAAAATGAATTTATTAAATCTATAGAACTAACAAACAGTATTTGTTTATACCTAAAGAAAGTAGATGAACAACGAGGTATAGAAGATAGTAAGTATGAAAACTATAAAGGTGTTCAGTATTATGAAGAAGACTAA	MSIENIVLKKLFETKKELEKKYPYIQLVVATKEKSYWETAEGVIVAIDSKTNIEIPTDKLKYELFVLSQNRREKILVDNFKAYDFVQRLIETDIYSVCNHLMFENLVATGKYMQTEKVTRLLLDICLNPIHLKNVENHLKQLVFALEVEADKELNQNNYLEAVEIVQCNLNLIGELSKHVSDVLVQDVLDYAKQVLRELEKENEFIKSIELTNSICLYLKKVDEQRGIEDSKYENYKGVQYYEED				NA	NA	NA	NA	NA
AK009_03128	462			hypothetical protein	ATGAATGAAGAAATAGACTACAATGAGTTTCTAAGAGACTTAATTCTAACTTCAGCTATTAGAACTGAAACATTAGAGAGTATTTTAGAAGACAATCAAGATTGCTTATACACTGGAACAGGATACCGTGTACTATTCTTTGATAGGGAACATATAAGTCATGTAGACATATCAAAAGGATTAGAACCATTAGTTGATATAGAAGGGTATTATGAGTCTTTTTCTAAGACTTTAGAAGGTACTCAAAAACTAAGAATTAATCCATTATTCAACCACCATTTTAGAATTGTACTAGAAATGCAAATAAACAATGGTTTAGATATAAATAAACTGTTTAATAAATACAAAAGTAAATTAGAAGAAGAAACCATTAAATACTATGAATTCTGCAAAGATGAGGAAGAGGTTCTTTCTATATTGGATTCTAGTTTTAAAATTATTAATCATAAACCATTTAGTTAA	MNEEIDYNEFLRDLILTSAIRTETLESILEDNQDCLYTGTGYRVLFFDREHISHVDISKGLEPLVDIEGYYESFSKTLEGTQKLRINPLFNHHFRIVLEMQINNGLDINKLFNKYKSKLEEETIKYYEFCKDEEEVLSILDSSFKIINHKPFS				NA	NA	NA	NA	NA
AK009_03129	237			hypothetical protein	ATGTTATACGCATTTGTTAAGTATGAAGATGAAAGACCGATATTTGGTAGTTTTAAGACAGTAGAGAATCAAAAGCAAGCAGAAGAGGAAGCATGTAACATCATTGCTACTTACTCAAACATTACAAAAGTTGAAATTTTCTTATATGAACAAGGTGCTATGAACAAGGTAACTACTGTATATAAGAAAGGCGTAAAAGACGGAGTAGTAGAACTACAAATTGGTGAAGAAGAATAA	MLYAFVKYEDERPIFGSFKTVENQKQAEEEACNIIATYSNITKVEIFLYEQGAMNKVTTVYKKGVKDGVVELQIGEEE				NA	NA	NA	NA	NA
AK009_03130	285			hypothetical protein	GTGGCTGAAAAATTAACATTAAACGATTTACAAGACAACGAAACATGGGAGAAAGCAGTTGTAGTCTTTAAACCTGAAAGTTTCTCTAAAGAATTTACAGAGAAACAAAGAAGTTATGAGATTGACCGTGATAATCATTATTTTAAACCCGATTCAATCAGTAACTCACTGTTTGGTAACTGTTTAGACGGTACAGATAACGGTGTTAGACTTGACATTTATAAAAGTAGATTACCCGAAGAAGGTAAGCGTTGGATTGTAGACTATTGTTATATCACAAAATAA	MAEKLTLNDLQDNETWEKAVVVFKPESFSKEFTEKQRSYEIDRDNHYFKPDSISNSLFGNCLDGTDNGVRLDIYKSRLPEEGKRWIVDYCYITK				NA	NA	NA	NA	NA
AK009_03131	414			hypothetical protein	ATGTTAAAAGAATATACAGCGTATCAATTAAAAGATGGTCAAACGGATGAAATATTTAGTATCATTACAAAATCAAGTATGGAACTAGTAAAGGTATACAGAAACGGAAAAGAAAGTGTAGTAGGTTGGAATGAAATTGTACTAAACTTGGATTCTGATTACTGGTCAATCGAAGTAGAAGGAAAAACAGAAGATAATGCACAAAAGATTGGAACTTACAGTCGTTACAAGATAGTTAACGCTAAGAAAAACAAGTCTTTCAATGTGATAACTCGTGGTGAGTCTGATTTAATTATGGTAGGTTATCTAGACGAAGATGGAGAAATTAATGTAAACACATATGCATGGAGTAGTGTACTAGGTATGCTAGTAAACGGTGTATGGATAATCGAGAAACAGTTAGCTACCTTCTAA	MLKEYTAYQLKDGQTDEIFSIITKSSMELVKVYRNGKESVVGWNEIVLNLDSDYWSIEVEGKTEDNAQKIGTYSRYKIVNAKKNKSFNVITRGESDLIMVGYLDEDGEINVNTYAWSSVLGMLVNGVWIIEKQLATF				NA	NA	NA	NA	NA
AK009_03132	306			hypothetical protein	ATGACGAATAAACAAATCAGTCAAGAAAAACTAGAAGAACGGAAGAAACGGAAATGGTTTGCTTGTCAGATGGATGATGGTATTATCGCAAGTGGGAATACGTTACAAGAACTATTAGAAAAATTAGGTAGACGAAATGCAAAGTATATTAGCGCAGGTCACTATGAGTTTAAGGATTACAACTCACATTATGCTTGGACAACTGATATTTATAAAGGATTAGACTTAGTAAAATTACATGGTTATGATGTAAACGATAACGAGTGGAACAGTTGGCACATAGACGAGAGAATGGATGAGGAATAA	MTNKQISQEKLEERKKRKWFACQMDDGIIASGNTLQELLEKLGRRNAKYISAGHYEFKDYNSHYAWTTDIYKGLDLVKLHGYDVNDNEWNSWHIDERMDEE				NA	NA	NA	NA	NA
AK009_03133	228			hypothetical protein	ATGTTTCAATTAAAAGCTAAGAAACGATATGTTATGGAAGACAGAACGAAAAGAAATAAGGTTTGTGTTTTGAAAACAACAAATGTAAACGAATCTGTTTTCCTATGTTTTGATTCCAAAGCAGACACGCTACCACAAATGAAAGTATTCAGTTGGGATAAAGCAACAGAAGAAATTCAGAAAGGTAACTGGAATATTAAAGAGGAGTTAGCAAGTTATGACGAATAA	MFQLKAKKRYVMEDRTKRNKVCVLKTTNVNESVFLCFDSKADTLPQMKVFSWDKATEEIQKGNWNIKEELASYDE				NA	NA	NA	NA	NA
AK009_03134	225			hypothetical protein	ATGTTTACGTTAGAAGAAAGAAAACGTTACTTAGTAGAGGATAAAACAGATTTTAATAAAGAGATTGTTATTAAAACATTTACAAAACAAGAGCCAGCTTTCTTAGGGTTTGATTCTAAAGCAGACAAGCTACCACAAATAGATATGATGAGTTGGTCGAAGGTAGAAGCAAAGGTATCAATTGGAGACTGGGAAGTTAAGGAAGAGTTAGAGTACAATTTATAA	MFTLEERKRYLVEDKTDFNKEIVIKTFTKQEPAFLGFDSKADKLPQIDMMSWSKVEAKVSIGDWEVKEELEYNL				NA	NA	NA	NA	NA
AK009_03135	2076			hypothetical protein	ATGGCTGAAAGCAAATGGGGTAGCGGTTGGGGTGGTTCTAACGAGGATAAAAACACCTCAAACAACCAAAACCAAGGTACATGGGGTGGTAATAAAGACCCGAAAGTAACGCCAATAACTAAGAATAAGAAAAATAACGATGGTTTACAAATCGGTGGGAACTTTGGTAATTTCAATCAAACTCCAGAACCGAAGAGTAGTAAGTCGAAGTTGTTTGTTTCGATTGGAGTTGGGGTAGTTTTATTATTGGGTGGAGTTACCGCAACCGCAGTGTACAAAAACAGTACAAAACAAGAAGTCAAACAAGTATCCACACCTGATGAACTAAGAGAAATTAATGGTATACTAAAGAGTGGTAATGTAACAGCGTTTCCACAATATATGACAGATAGCTTTTTAGGACAAGAGTGGGAATACTTTAACAAGATTAAAGTACGAGAAGACTTCTTTAAAAAGGTAGTAGGGACAGTATCATTTAAACTGAATGGTAATGAAACACCTCAAGCTACTACTCTTTCAGTTGAACATATTAACTGGAGTAAAGTTGCAATGAACATGGAGGATTACGACTTCAAGAAAATCCAAGACATGTATAATCAAAAAGGTATTAAGAAAGAAGATTACATGTTCAAAGATAAACTGATTGATTTATTCTCTGAGTACATTACAAAGATTAAGAAACTTCCAGTTGAAACGTCTAAAGTACCAGTTAAGTTAGGTACAAAAGACGGAGTTCTCATGTTAGAAGACGACAAAGCAATTGATAAGATGTTGTTTTCATCTAAAGAGTTCCACAAAGCACTTGATGTGTTTGGGGGTATTGCTACAGGTGATATCGGAACATTAGAAGAAAACCCGAAATGGGTAGCATGGGGAGAAAAGGTAAAGAACTTAGATGCACAATTGAAGGAAGAAGAGAAGAAGTTAGACGAGTTGAATACAATCATAGCTAATTCTGAGAAAAATCGTGACTATGCTGATAGTAAGAAAGGTAAAGATGATTCTTCAAAGAACGGAAATGATACTTCAACAAACGATTCTCAAAGTTCTCATAACGAGTCTTCTAGTTCGGATAACTTATCTGATAGTTCAAGTGACAAAGATGGAGAAGTTCTTGACGAAGCAGGTACTTCATCGAACGGAACTGAGAAAGATGGAAACAAAGATGAAGGTTCAAAAGATAAAGCTGATAAAAAGGCAGACAAAACTTATAAAATTAATGGTGTAGGCGTTAAAAATCCCGATTTAAACATTGTAAACTCAATTAAAAATCAGTTAGCAGTTTTAAAGGATAATGAGCCATTAAAAACGCATGTGAAAAAGAAAACAGAACCGAATCCAAAGTGGGAAGAATGGAATAAACTAGACGATGCAGGAAAACAAGCACAAAAAGAGCCTATAAAAGAACTAGAAGTTGCCATGAAACCAGAAAGTACAATCCCGTACACATGGGTTGGTTCATATTACTTACAAAATGAGTACGAAGTAAATGGAAAGAAAGTAGTCGTAAAACCGCAAGTTGGTGATGGTACTTTCAAACGTCCCTTAGGTTTAGGTACACCAATCGTAACAAAGATGAAGGGTACAGACGGTAATTACTACGATGTCAGAGTCACTTTGTTGGGGTATAAGACTGAACAAAAAGCGATTGATTACGCAGTTTCATTTGATGAGCGTAACCGTGGATTTGATTCTAAGTCTGAGTTAAGCTTAATGACAGTTGAATATATAGTTGAAAACTTAACTGATAAAGAAATCGAATTAAATTCAGAGTTTACATTATCAGATGCAAATGAAAACTTAGTATCTCGTACAGGTAGTATGTATAACTTCTTAGAGAAGTCAACCTTCAAAGGTCATGAGACGAAGAAGATGCAAGATTGGTTCTATACGAAGAGTTTAAAAGACCGCTACCTAATTTGGGGTAAATCATTTGAAAGAAAACATCCTTCTCAATGGTATAATTTATTAAAAGGTGCTGAGAATGAGAAGAATGGTGGCGTAAAACCTACTGATAAACAGCATCCACAAAAAGAAAATAATCCTCAATCAAACGAGGAAGGTAAGAAAGGCTGA	MAESKWGSGWGGSNEDKNTSNNQNQGTWGGNKDPKVTPITKNKKNNDGLQIGGNFGNFNQTPEPKSSKSKLFVSIGVGVVLLLGGVTATAVYKNSTKQEVKQVSTPDELREINGILKSGNVTAFPQYMTDSFLGQEWEYFNKIKVREDFFKKVVGTVSFKLNGNETPQATTLSVEHINWSKVAMNMEDYDFKKIQDMYNQKGIKKEDYMFKDKLIDLFSEYITKIKKLPVETSKVPVKLGTKDGVLMLEDDKAIDKMLFSSKEFHKALDVFGGIATGDIGTLEENPKWVAWGEKVKNLDAQLKEEEKKLDELNTIIANSEKNRDYADSKKGKDDSSKNGNDTSTNDSQSSHNESSSSDNLSDSSSDKDGEVLDEAGTSSNGTEKDGNKDEGSKDKADKKADKTYKINGVGVKNPDLNIVNSIKNQLAVLKDNEPLKTHVKKKTEPNPKWEEWNKLDDAGKQAQKEPIKELEVAMKPESTIPYTWVGSYYLQNEYEVNGKKVVVKPQVGDGTFKRPLGLGTPIVTKMKGTDGNYYDVRVTLLGYKTEQKAIDYAVSFDERNRGFDSKSELSLMTVEYIVENLTDKEIELNSEFTLSDANENLVSRTGSMYNFLEKSTFKGHETKKMQDWFYTKSLKDRYLIWGKSFERKHPSQWYNLLKGAENEKNGGVKPTDKQHPQKENNPQSNEEGKKG				NA	NA	NA	NA	NA
AK009_03136	810			hypothetical protein	ATGGCAAACGTATTTAGACAGCAAGTAAGTTTACATTTTACAAATGAGCGAACATATCAATACTCTGAAAGATTGAAAGAACAAAAGAGACTACGTACTGTACTCTCTAATTTTCTAGATAAATTCGCTGAAAACCCTGAAATGGTAGAACGTTGGTTAAATGGTGAAATACAATTAGAAAATAACGGGGTAGTTACAGAGTCAGACGAAAAGATTCTTGCATTGAAACAGAATTTAGCAGTCTTCAATGCATTCCTAGATAGTGCAAAAGGTATGAATGAAGGTAACATGGAAGAGTTTGAAGACCAGTTATCAGCTACACAATTTAGGGAATTCAAAACAAATTTCGAAAAATCGCAACAAATTATGGATAATCCTGAGTATCAAGAACATGCTGTAACAGTAGAGCCTATCGTTGAAACACCTAAACAAAATAGTCAATTAGCTGATATGCAAAACCAAATCGACCAGTTGATGACTATGATGCAGAATATAGCTAACGGAAATGGTACAGGAAATTCAGAAGTAAAAATTGAAGTAACTAACCCTTCACACAATAGTTTACACGAAGAGAATAAAACGTTTGAAAAATCCGAAGTAGTTTCAGCAGACGTAATCAAAATGCCGGATGAAACGGAAGATGAGGTTATAGAAGAACCGATTATTCGAGAAGAGGTAATTGAAGAACCAATTATCGAAGAAACAATTGTTGAAGAACCGAAGAAAGAAGCAGACCCAGTAGATGAAGACGTCTTAGCAGGTGTTGGAGACGCAATGAGCGCTATTGAGGGATTAGGTATCGAATTGTAA	MANVFRQQVSLHFTNERTYQYSERLKEQKRLRTVLSNFLDKFAENPEMVERWLNGEIQLENNGVVTESDEKILALKQNLAVFNAFLDSAKGMNEGNMEEFEDQLSATQFREFKTNFEKSQQIMDNPEYQEHAVTVEPIVETPKQNSQLADMQNQIDQLMTMMQNIANGNGTGNSEVKIEVTNPSHNSLHEENKTFEKSEVVSADVIKMPDETEDEVIEEPIIREEVIEEPIIEETIVEEPKKEADPVDEDVLAGVGDAMSAIEGLGIEL				NA	NA	NA	NA	NA
AK009_03137	1752	smc_6		Chromosome partition protein Smc	ATGGAACTGATTGTATTGTATGGCGGTTTGACAACTGAGCAAAACCGCCATATAGAAGAGTTAGTAAACAATAGTCCTAAGAACTTAATAACGAAGAATTTAGGAGATAAGGTAACAAGAACCTCTCTTAAACGTCAATTAAAAGACTCAACAGTTGTGGTAGTATTCTTAACTGAGAAAGACTACATCAACTACAATGCTCTCCTTGAAGACGACAGACTAACAATGTACAATGAAGTAGAATCCATATTTGCAGAGAAGTTTGGGGTAGAGTCTAAAACTACCCCATCTTTATCTGTAGAGGAAGAGGATGAAGTAGAGATTCAAGATGAGATTATCGAAGACGAAGAAGAAGTTACACCAAACCATAAAGAGGAAGAAGATGGTGGTTGGGGAGACTTATTTGAAGAATTCGATAAGAAAGATAATGTACATCATATTCCTGTAGTAGAAACACCAGTTCCAGTAGGAAGTCCAGTAGGGGTAATGGAAAAGATAATGACAGAACCTATTATAGACTTACCAAAGCATACAGATGAAAAATATAAAATGTTAGAGAAACGTACAGAAGGTATGGAGCGTTTAAACGTTGAGTTGAGAAAGCAATTACAAGACTTAAAAGATAAGTTAGGTGACTCGGTAGCCTTTGAAGAGTTCTTAAATGTTAAGAAAGAAAAGTCAACGTTAGAAGAACGGATTACTGAGTTAAACCAATCAATTGTAGGTCTTGAAAGTGAAAAGAGAATGCTAGACTCTAGATTATCAGTGAAAAAAGAAGATATCGCAAAGTTAGATGTTAAAATTCAGTCTCTAAACACGATGGTAGATACATTAAATCAAGAGATAGAGAACTTAAATGCTGAAATAAACAGACTAAGTGATTCAAACTTAAAACTAGTTGATAAGAATAAAGAGTTAGAAAAAGAGTTAGAACAGGTAAGTAAGAAGCTAACTTTAACTGAGATTGAATACGATAGCAGTCAAAGTTTAGTAAGCACATTACAATCAGAGAACCGTAATCTTCACAATAAGAATGAAAGTATCTTAGAAGAGAATGAGAATCTGATTGAAACAAATAAGAAAATATCAGCAGATAATAAAAATCTGTTACAGAGAATGAAAGAGCAGTTAGAGGAAGCGAAAGAAGAACCGAAAACTGAACCTATCACGGTATACCATCAAGAAATTAAACCATTAAGAAGAAAGTATCCAAACGTTACTTTCATTGTACCGTTAAGTAATTTAACAGTAATAGACACGTATAAATATATCAAAACAATTAAGGGTGATAAGTTAGTCCTTGATTTAACAAATAACTCATACATTGATTATATTTATAAAGACGAGTTTAAGATAAAAGGTGGTACAACACCTACAAAATGGTTATTAGAAGGTAAACCATATGGGAATTGCTTCACACAGAAAACAGGCGGTAAAGGATTAGAAATTATTTCGTATTTAATTCATCCTAAGCCTGAGAACCTATTCAAAAGAATAGATTGGGATAGAGTATTAGCAGACGTAAGTCGTGAACAGCAAGTTATAATCAATTTAGGCTCTATCACAGAAGAAGGGGTAATAAACGTACTTAAAGCGGTTCAAGGTAAGGTAGACATACTAGGTGTTCTAGGTGACTCATCTTACGACCAACGTTCAGCTTTGATGCATTTAAAAGCATTAGACTTCTATACAGTATTAGCAAAACATGGTACGAAAGATAGAGCAAATATAGGAATAACAGAACGGTGGTGA	MELIVLYGGLTTEQNRHIEELVNNSPKNLITKNLGDKVTRTSLKRQLKDSTVVVVFLTEKDYINYNALLEDDRLTMYNEVESIFAEKFGVESKTTPSLSVEEEDEVEIQDEIIEDEEEVTPNHKEEEDGGWGDLFEEFDKKDNVHHIPVVETPVPVGSPVGVMEKIMTEPIIDLPKHTDEKYKMLEKRTEGMERLNVELRKQLQDLKDKLGDSVAFEEFLNVKKEKSTLEERITELNQSIVGLESEKRMLDSRLSVKKEDIAKLDVKIQSLNTMVDTLNQEIENLNAEINRLSDSNLKLVDKNKELEKELEQVSKKLTLTEIEYDSSQSLVSTLQSENRNLHNKNESILEENENLIETNKKISADNKNLLQRMKEQLEEAKEEPKTEPITVYHQEIKPLRRKYPNVTFIVPLSNLTVIDTYKYIKTIKGDKLVLDLTNNSYIDYIYKDEFKIKGGTTPTKWLLEGKPYGNCFTQKTGGKGLEIISYLIHPKPENLFKRIDWDRVLADVSREQQVIINLGSITEEGVINVLKAVQGKVDILGVLGDSSYDQRSALMHLKALDFYTVLAKHGTKDRANIGITERW				NA	NA	NA	NA	NA
AK009_03138	1290			hypothetical protein	ATGGAAAAAGCGCAATTGATTTTAGATTTAGGAAACAGTGAGACACGAGGGGTACTTCGAGTTGGTGAAATTATAAACAAAACACGTATCGAGCATAACTTCTATTTAAGCAACTACTTTAGCCCAATCTTTGAAGGGGTAGGCGGAATCCCTGAGTCAGATGATTATACAGAAGAGAACTCAACAGTATTCACATTAGACGATGATTTCAAAATCGGAAATGGTGTTGTAAATAGAGACACATATGTAAATGGTTTAATGTGTTCAAATGAGTTTTCAGACACACAAGATAAACCAACGGCAATGACAAAGAAATATGACTCTAGTTACACAGTTCTAACTATCATTACAGCTATCAAACAGTCAGCTATTTGGATGAAAGACTACTTTGGTAAGAAAGGTAAGAACTTTAGTGTTCAGCAGTTAATCAATGAGGTTGCATGGGAACTTACAATCTTACTACCACCTTCACAAGAAAAAGCAGGTGGACTTGTATTACAAGAAACACTAGTAGGTCAAATTCCAGTTAAGTTTGAACTACCTAAAGCAGACGCACGTATTAACATCACAAAAGTAACAATCCGTGCCGAAGGTATGATGGCTTATACAGGGGTATTACTATCTAAGACTAGACGTCAACCTCGTCCGAACAAAATCTTTATGCAAAAAGCTAAAGTAATGGTATTAGACATCGGTGCAGGTACAACAGACTTAATCGTAATTGACCAAGGTAAAGCAATTGAACGTTCTAAATACACAATTGATTTAGGTGGTAACAATATTACACAAACTTTACGTACAACTGTACAAACAAACTTAGAAATACGTCTAAGCGCACAAGTGTTTGAACAAGGTGTAATAACTGGTAAAGTAAAACAAGGTCTTAAAGAACATGATGTAACAGACGAATTAATCGGTGCAAAACGTTCAGTAGCCGCAAAAATCTCTAAAGAGGTTAAAGACTATCTAGAATCATCAGGTATCGAAGCAAACTCTATCGAATACATCTTAGTCGTAGGTGGGGGTAGCATTCCTTCTGAAAACGATAAAGTAAAACCAATCAGCGATTATCTATTAGACAGCATTAAGCGATTCGCTCCACAAGTTGGTTTAGTAGACATCAGTGATATCATTACAAAACCAAATTCAGTAGCATTCGAAAACGTAGCAGATGCAGATTTCGTAAGTTCTCGTGAGTTAAACATATCAGGTGCAGGTACAGTAACAGATTTATTAGAAATCAAACAATACCTAGCACAGCAAGAACAAGCAAAGCAAGTCCAAGCCTAA	MEKAQLILDLGNSETRGVLRVGEIINKTRIEHNFYLSNYFSPIFEGVGGIPESDDYTEENSTVFTLDDDFKIGNGVVNRDTYVNGLMCSNEFSDTQDKPTAMTKKYDSSYTVLTIITAIKQSAIWMKDYFGKKGKNFSVQQLINEVAWELTILLPPSQEKAGGLVLQETLVGQIPVKFELPKADARINITKVTIRAEGMMAYTGVLLSKTRRQPRPNKIFMQKAKVMVLDIGAGTTDLIVIDQGKAIERSKYTIDLGGNNITQTLRTTVQTNLEIRLSAQVFEQGVITGKVKQGLKEHDVTDELIGAKRSVAAKISKEVKDYLESSGIEANSIEYILVVGGGSIPSENDKVKPISDYLLDSIKRFAPQVGLVDISDIITKPNSVAFENVADADFVSSRELNISGAGTVTDLLEIKQYLAQQEQAKQVQA				NA	NA	NA	NA	NA
AK009_03139	1485			hypothetical protein	ATGGTTCAAGGAGTATCTATTGTTGCAGGTATGTTAGATAGGCATTGGCATAAACCGTTTACAGACTATTATGACCCTGACCCTGACGGAGTTTTTGCAGGTGAAGCTTCTTCTGAGTTCTTAGACTTATATGGGAAGAAGCATAAAGTTTATATAAATCCAAACAGGGCGCATGGTATCTTAATAGATGCAAAGGATTATAAAGACCAAGTCATATTAAACGTAGACAGTGGGGTTTCTTGGGAAAGACTGAAAGAACTTGTAGATGGTGGTGTTACAGTTATATCTTTAGACCACCATGAGATAGAAGGTAGACCTGATTTGGAGAATAATAATTTCAAATATCTATCAGACGAAGAGAAGTCTTTAGTAGAACAAGGGTTACTGTATTACTACAATGAAGAAACAGGGGCAGAAGGAGTCGTATTAAACAATCAATATGAGTTTGAAGACCCTGATTATAGATTTATGAGTGGTTGTGGGGTAGCACTAGATGTCTTTAACCAACTAAACCCAAATTATCAAACAGATGAGCATATAGCATGGCACGGTATCACCTTGTTGTCTGACTCTAGGGAAATTGAAAACGAGTTAGCTTACAATATCTTAGTAACAACATACGAAACAAACATTGCAGAAACTAGATTGCTTAGTCATCTTACAGACGCTATAGGGTTTAATACGTATGAAATAGGTGAACCAACTCTAGATAGGGCATACATAGACTTTTATCTTACACCATTCATTAATGCAATGCTTCGTTTAAACATGGGGTATGAAGCAATTAGATGGTTTAAAGGTGAAACTCTTTTGTATACAGATGTGAAAGAGCAACAAAAACTTATACTAGAGGAATTAAAGAGTAGAACTACAATGATAGAGTTACAAAACTTACTTCTTGTAAATGTGTATAAACTAGAGTCTGATTACTTTGAAGCATCTAACTTCATTGGTTTATTAGCAAACCGATTGTTAGTAAAAGGTAAAACTGTAGTAATTACGTGTTCCTACAACAATCAGTTCGAACGGGGTAGTGTTCGTGGCTATTATAACACGATAGACTACCAAGCTATCTTTAAAGAATATGGTTTTATTGCCTTAGGACATAAAGGAGCGTTTGGTTTAAAGAACTTTTCATTAGACCAAGAAGTATGGTTTAGTATGGATAAAAGAGTAGGGGTAGAGAACGAAAAGAGTGAGTCAACTTATCAAATTCATACCGTTCGAAACCTTGCAAAAGCGAGAGAACTGTTAAAAGATTTAGCATATACAAATCAGTTTTTACGTCCGATGTACAAACACTATATCAGATACACTGGTTTAAAGTTCTTTACAGTAGATTTCAGAGACCCTTACCAAGAGTATAAGGTAGATGGTTTACAGGTTAAATGTTTTGATAAGGAAGTAAACGTAAGAAATGGGTTTATCTTACCTTCAATGTCAAAAGGATTTGTCTCACTCTATTTAGAACGAATTGTGGTATAA	MVQGVSIVAGMLDRHWHKPFTDYYDPDPDGVFAGEASSEFLDLYGKKHKVYINPNRAHGILIDAKDYKDQVILNVDSGVSWERLKELVDGGVTVISLDHHEIEGRPDLENNNFKYLSDEEKSLVEQGLLYYYNEETGAEGVVLNNQYEFEDPDYRFMSGCGVALDVFNQLNPNYQTDEHIAWHGITLLSDSREIENELAYNILVTTYETNIAETRLLSHLTDAIGFNTYEIGEPTLDRAYIDFYLTPFINAMLRLNMGYEAIRWFKGETLLYTDVKEQQKLILEELKSRTTMIELQNLLLVNVYKLESDYFEASNFIGLLANRLLVKGKTVVITCSYNNQFERGSVRGYYNTIDYQAIFKEYGFIALGHKGAFGLKNFSLDQEVWFSMDKRVGVENEKSESTYQIHTVRNLAKARELLKDLAYTNQFLRPMYKHYIRYTGLKFFTVDFRDPYQEYKVDGLQVKCFDKEVNVRNGFILPSMSKGFVSLYLERIVV				NA	NA	NA	NA	NA
AK009_03140	651			hypothetical protein	ATGTCAAAATATCTTTGTTATTGTGACGCAAGTTACAATGAGTTAGAACAATCAAGTCAAGTTGGAATTTTAATTCAAGACGAGTTTGGTCAAACAATATACAATAAAACGAAAAGACCAAACAAACCTGCCATAAGTGTAGCACACGCTGAATTAATAGCAATAGACGAATTATTGTTTGTAATTAGAGAAAGAAAAATGAAACGTGTACTTATTCATTCAGACAATCAGGGTGTAGTAGAGAAAATAAACAAGCGTGAGAAGTTTAAGAATAATGGTACGGTATTAAACCCTCTTGTAGAAAGAATACATCAAAAGTTACAACACTTTGAATCTGACTTAGTTTGGATAAGTAGAGACGAGAATGAAGAAGCCGATAAACTGTCAAAAGGTGTGAGGGATTTGTCTAATACAGGCATAAACAAGAAGAGATTCAAAGGTAAACTGGTTTCAAAGTTTAAAGGTAAGAAAGTAAAAACTCCCTTTGAAAATTTAAAGTTAGAACAAGTAATTGCATTACAAGGGATTTTAAAGAAGTCAAACCATGAAAATATTGAAATTAGACTGAAAGAGTATATTGAGGAAGAAGAAATTCAGCAAGAACTAATAGAAACAAAAGAAGATACAGAAAAGTTATCAGTTGTAGTATAA	MSKYLCYCDASYNELEQSSQVGILIQDEFGQTIYNKTKRPNKPAISVAHAELIAIDELLFVIRERKMKRVLIHSDNQGVVEKINKREKFKNNGTVLNPLVERIHQKLQHFESDLVWISRDENEEADKLSKGVRDLSNTGINKKRFKGKLVSKFKGKKVKTPFENLKLEQVIALQGILKKSNHENIEIRLKEYIEEEEIQQELIETKEDTEKLSVVV				NA	NA	NA	NA	NA
AK009_03141	564			hypothetical protein	ATGGACAAAACAGTGGGATTCTTAAAAGAAAAGTTAACAGATAAAGAAACCCTATATGGTATTATGTTATTCTGTTTCGGAATATACATGTTTCAATATACATCAAAGTTAGATTATGTGTATAGACTCCTATATAGATTTGTAATGTTATTAATTGTAATGTTTATCTATAGGAAGTTTATAAACAAAGGTGATATGAAAACTACGGTAAAGAATTTTAAACTAAAAGAGAAATTACATAAAATGCTAATCCTTATAGGGGTAGTTGAATTCATTACTATGTTTATAGTTGTATTTATAAACGGAGGGTATGAAGCACAAACACCTACTCAATCTTTACAAGAAGTAGAGTATGCAGTAGAACTCACTTCTGTTACAACTGTAGTTATAATGTTTATCTTGTCATTCTTTATTATGATACCAATGATGTATAGTATGATTCAAGGTATAATACAATTGAGACTTTTAACTATATGGGTTTATAACAATCATCGAAAGTGGTTTGTAGTGTCCTTAATAGGGGTAGACTTATTATTTACAGCACTAACTTCATTAGTTATGTAG	MDKTVGFLKEKLTDKETLYGIMLFCFGIYMFQYTSKLDYVYRLLYRFVMLLIVMFIYRKFINKGDMKTTVKNFKLKEKLHKMLILIGVVEFITMFIVVFINGGYEAQTPTQSLQEVEYAVELTSVTTVVIMFILSFFIMIPMMYSMIQGIIQLRLLTIWVYNNHRKWFVVSLIGVDLLFTALTSLVM				NA	NA	NA	NA	NA
AK009_03142	165			hypothetical protein	ATGAGTCAGCCAGTGTTTTTAACACAGAAAATGTTGGAAGAAATGAAAGAGAAATCAAAACGAGAAGAGGAAGAAAAGATTGAGATTTTTAGTGATAAAACACTAGATAAGGCAAGTACAGTCGTAGGTGCATTAGACTTTATCTCAAAAGCAATTAAGAAATAA	MSQPVFLTQKMLEEMKEKSKREEEEKIEIFSDKTLDKASTVVGALDFISKAIKK				NA	NA	NA	NA	NA
AK009_03143	264			hypothetical protein	ATGGCAGTAGTAGGAAAGAAGTATAATAATTTTGGACAAACTATAGTAGAGATTAAACCAGTCTCATTAGAGTTAACAGAAGTATTTGAAAATACAATGCAAATTGTAAGAAACTTAGGTAGTAGAGGATATCAATTCAAAATGCGTTTAAATGACGTAGAATTAGCATTTGATAACTCAATAAAGTCTATAGAGGACTTAGTATCAATGTATGAAACAAAATTGGAAGAGAAGTATGAATTACGTAAATTACAAGCAGTATAG	MAVVGKKYNNFGQTIVEIKPVSLELTEVFENTMQIVRNLGSRGYQFKMRLNDVELAFDNSIKSIEDLVSMYETKLEEKYELRKLQAV				NA	NA	NA	NA	NA
AK009_03144	264			hypothetical protein	GTGTTTGGTTTCTTTAGGAGACGGAAGAAAAAGCAAGAAAACAAAGTTACGTTGCAACAAGCCTTTGATAGAATTTGTGAAGAATTAGATGGAGACCCACAAGCTGGTAGTTACTTCATGATTAATAGGCAAACAAATACTACCGCATATCGTAGGTGGCAGTTAGCCGCACCTAGTGATAGGGTACTCGTAACACAAGCAAGAGTAAGAAACTTGGATGAGAACTTAACAAGTAAGCAAGCTAATATGAAGAAAGGTATTTAA	MFGFFRRRKKKQENKVTLQQAFDRICEELDGDPQAGSYFMINRQTNTTAYRRWQLAAPSDRVLVTQARVRNLDENLTSKQANMKKGI				NA	NA	NA	NA	NA
AK009_03145	759			hypothetical protein	ATGAAGAAATATGAGTACAAGAAAGTAGAAGTTACGAAACTGACAATACCAAACTACATGGAGTTATGTGAGAAGAAGTTAAACGAGTATGGTGAAGAAGGTTGGAATTTTTTCCTAATAGACCACGGTTATGCTTTCTTTAAACGTGAAAAGGTAGGAGAATTAAAGAAACCAGTTTCTTTTAAAAATAAAAAGTATGTTGTAAACGCATATGGAGAGCATGGTCAATGTGTGTTATCAAAACAAACTGAAATTCCAAAAGAATATGAGCAAACTACTAAAGCATTAGACATGTTAATGTTTGCAGACCATCACGAAAAAGTAAAGTTATGCGAGATAACAGACGACATGGGAATGCCTTTAAAACCACTAGTAATTGCTTATGTAGTTCCTAAGTTAGAAACTATGTATAATGTAAAGATAGAACGAGATACAGATGGTTATAAGAAAGAAATGACATTTAGTTTTAAAAGAATTAGAGACTTGTTTATAGCAATTAAAGACATTACAAAAGATATGTCAGATATTTTAATCGCTATCAAACAGATAACAAATACAGAAGAAATTGATTTTACAATTGATAACCTTGGAAAAGGTGATATTAAAACTTTAATAGATGCTCATGATAAAGGTACAATTATTACATATAGTGATATTGTAGAAGATTCAGACTTTGGTGAGCGTCAAGTAGTTAGCTATCTTGTAAACACTCGTAAGGGGTATGTCAGATTAGATGCAATGAAATACTTAAACGAATAA	MKKYEYKKVEVTKLTIPNYMELCEKKLNEYGEEGWNFFLIDHGYAFFKREKVGELKKPVSFKNKKYVVNAYGEHGQCVLSKQTEIPKEYEQTTKALDMLMFADHHEKVKLCEITDDMGMPLKPLVIAYVVPKLETMYNVKIERDTDGYKKEMTFSFKRIRDLFIAIKDITKDMSDILIAIKQITNTEEIDFTIDNLGKGDIKTLIDAHDKGTIITYSDIVEDSDFGERQVVSYLVNTRKGYVRLDAMKYLNE				NA	NA	NA	NA	NA
AK009_03146	738			hypothetical protein	ATGAAACAGTATGAATATAAAAGCATAGATAAAAACCTTTTATTTGATGAGCATAGTGGAGATTTTGATTTAAGGTATATAAATGGTTTAGGACTAGAAGGATGGGAAATATCTATGGAAAACAACGGAGAAGTTCTTCTAAAACGTGAAGTGGTAGGAGAGGAAGAGGAAGAAGTAGAAACAGAACTAGAAAAGGACTATTGTGTTATTTTAGGTGGAGAAACTACAGCTTCAACCACAACAGACATAAAACTTACAAGTAAAGCAGATAAAATGGAAGTTGTTATGAGCCATTTCCTAGAAGACGAAGAGTTAGAAAAAGTTTCTCTTCTTGAGTATACAGACTCGAAAACTATACCACTTAGACCTTTAATAGAAGCTAAAGTTATTTCTTTTCAAGAGTTAATGTTTGAAGTAAAATTAGTAGACTATCATGGAAAAGTAGTAGACATTTCAAGAGAAAAAGTAGTTTATCTGTTCAAGTTGTTAAACAAATTGTATGATGCATTCGGTGATGGTGGAATGTATACGCTAACTATTACTCAAATAACAAACAAAGAAGATATGAAAATAGACTTTAAAGGATTAAGCAAACGAGATTTAAAGTCAATAATTCGTAAATTTAAATCATATGATAGTTTCAGTGAAAGAACTTATTATGTAAATGGTGTAAAAGTAGTAGAAAAGGTTAGAGACGGTAGCGAAGGGTATTTTGTAACGAAAGAATTTATTTATTAA	MKQYEYKSIDKNLLFDEHSGDFDLRYINGLGLEGWEISMENNGEVLLKREVVGEEEEEVETELEKDYCVILGGETTASTTTDIKLTSKADKMEVVMSHFLEDEELEKVSLLEYTDSKTIPLRPLIEAKVISFQELMFEVKLVDYHGKVVDISREKVVYLFKLLNKLYDAFGDGGMYTLTITQITNKEDMKIDFKGLSKRDLKSIIRKFKSYDSFSERTYYVNGVKVVEKVRDGSEGYFVTKEFIY				NA	NA	NA	NA	NA
AK009_03147	729			hypothetical protein	ATGATGGAACAGTTCGAATATATAAATATAGACTTACCTAAATTAACAAAACCTGATGGTATCAGAATAAATATGGACAAACTCCACGAATTAGGGGTAGAAGGTTGGGAAATGGTTCTTCAAAACAGTAAAGAATTCGTATTCAAACGTAAAGTTGAAGAAGGTCGAGTAATAGTATTAGACAAGAAATATAAGATTGAAACGTATGGTGATAAAGATGGTGCAGGGGTACTATTTAAAAGAATTGCAGAAGATGAGAGTAAAACAGCAATAGCTTTAAATTATTTCTATGTAAACAGAGGGTTAGAAAGGCTTACTATGTTTGAAGAAACAGGAAGTGAAGTTATATCTTATAAACCTGTAGTAAAAGCAAAATTAATTCCTTTCAGGTCTTTACAGCTAGAGACAGAAGTGAAGGATTTTAACGGAATACCGAAGTCAAGTCATACAGTTATTGTTAAAGACTTAGGTGAGTTCTTAGATAAAATCCTTAAAGAATTAAAAGTTGACCCTAAGTACACGGTTTCAATTGAACAGATAGCAAACCCAAACGACATACAAATAAACTTAGAAAATTTAAATATAAAACAGTTAGAAAAAGTAATCGAGAAGTATAAAGCTGATGAACCTTTCAATATAAAAGAACATACAAGAGAATCATATAAAACAGTAGAAAAGATTATAAAACATCCTTTAGGTCATCTTGTAGTGAAAGAATTTATTTACTAA	MMEQFEYINIDLPKLTKPDGIRINMDKLHELGVEGWEMVLQNSKEFVFKRKVEEGRVIVLDKKYKIETYGDKDGAGVLFKRIAEDESKTAIALNYFYVNRGLERLTMFEETGSEVISYKPVVKAKLIPFRSLQLETEVKDFNGIPKSSHTVIVKDLGEFLDKILKELKVDPKYTVSIEQIANPNDIQINLENLNIKQLEKVIEKYKADEPFNIKEHTRESYKTVEKIIKHPLGHLVVKEFIY				NA	NA	NA	NA	NA
AK009_03148	171			hypothetical protein	ATGATGTATTTGGGACTATATTTAATGGGTGGAGCAATTTATACATTCTTAACACGAAACACATACTATAACAGGATAGTAGAAGAGACAGGGAATCCAGTAGGAACGTTGTTAGTCTTAACTTTCTTTTGGCTACCAATGGAAGTTAAGAGTTGGTATAAGAACATGTAG	MMYLGLYLMGGAIYTFLTRNTYYNRIVEETGNPVGTLLVLTFFWLPMEVKSWYKNM				NA	NA	NA	NA	NA
AK009_03149	525			hypothetical protein	ATGTTACTATTCAAAATCTATTTAGGGGTAGGGGCGGTTGTTTCTTACTTCCTATCAAAACCAAAGGCAAAACAGCTAAGTAAATTTATGTTGATATTCAGTTACCTCTTTACAGTTGTCTTTTGGCTTCCAATATTAATTTTAGGATTAGTTGTTGCTCTAAGAAACTCTAAAAAGTCAGATAAACTAATAGATGAAATTGATATAAATGATTTATGTGATTCCTTAGATAAGAGCCTTTATTTCGAGAAACTACTTGTAGAAGATGGAGAGATATACAGACAAAAGTCTGAAACTTGTATTGTATGTAATAATGATAATACAAATGAACTAATAGAACAGAGTGAAAGTAAGTCTTATTGTTATGAAGACGTAGAAGAAGGTAAGGAAGATGAAGAAACATATTATACTACAATTGAGTATAGTGTATGTACGGTGTGTACATTAAAAGGTCAAACAGGATTAGAGTATATTAAGGACTACGTAGATAGACACAAACCAAAACAACAAGAAGAAATAGAATAG	MLLFKIYLGVGAVVSYFLSKPKAKQLSKFMLIFSYLFTVVFWLPILILGLVVALRNSKKSDKLIDEIDINDLCDSLDKSLYFEKLLVEDGEIYRQKSETCIVCNNDNTNELIEQSESKSYCYEDVEEGKEDEETYYTTIEYSVCTVCTLKGQTGLEYIKDYVDRHKPKQQEEIE				NA	NA	NA	NA	NA
AK009_03150	240			hypothetical protein	ATGAAAACAATTAAAGGTAAACTAGGAGAAGTAAGAGGTTGTGAGAAAGCATTCCAGAAAGACATTAGATTTCAACCAGTAGACGGTGGATTTGAGCAGAAGATAGGTGGTTGTATTGAGTGTGGTACAAATCAGGATATTAAACTTCATACATTTAAAGTAGCAGATGAAGATGAGAAAGTACACTTCGAACTGTCAACATTTAAATGCAAACATTGTTTAGAAGAGGATACAAATTAA	MKTIKGKLGEVRGCEKAFQKDIRFQPVDGGFEQKIGGCIECGTNQDIKLHTFKVADEDEKVHFELSTFKCKHCLEEDTN				NA	NA	NA	NA	NA
AK009_03151	483			hypothetical protein	ATGTCAATTTATGTAACGTTATACTTCCTAATTGGTGCAATTGTTTGTTTTGCAACAAGAAAGAAGTTATTTTTACCTTTATCAGAAGAAACAGAGTATCCCATCATTATGTTTGTAGTAATTGTTGTATTTTGGGTTCCGATGATAGTACTTGCACTCTTTTTAATTGGTAGAGACAGAATACAAGTAAAGTCTCAAAAGAAAGAAATAAACGTACATGCACTAGATAGAAACTTAGAAAACGATGCAAGGTTTCATTTTGTACATAGTATACAAGGTCGAATGTATATCCAGCATAGGGGTAGTTGTATTGCTTGTAGAGGTTCAGAAGGTTTATTAAGTAAGACTGAAATATTTGGGAAGAAGAGTAATCCTTACCTGCAAGTAAAACTTCAAGTATGTACAAGTTGTGTAACACAAGGTATAACAGGTATAGACATATTAGAAGAAGAATATAAGGAGGAAGAACATGAAAACAATTAA	MSIYVTLYFLIGAIVCFATRKKLFLPLSEETEYPIIMFVVIVVFWVPMIVLALFLIGRDRIQVKSQKKEINVHALDRNLENDARFHFVHSIQGRMYIQHRGSCIACRGSEGLLSKTEIFGKKSNPYLQVKLQVCTSCVTQGITGIDILEEEYKEEEHENN				NA	NA	NA	NA	NA
AK009_03152	192			hypothetical protein	TTGGATGTAGATATTTACATATTTTATACAGTAGTAGGGACTTTATTTCTTTGGTCTATTGTAAAGGTAATACTATCTAACTTATCCTTTGGCGATAAACTAGCATCTATTATAGGTATTATATTTCTTACCGTAGTTGTTCTACCTTTCATATTACTTTACTTAGCTTACTTCATAGATGGAAGTTACTAG	MDVDIYIFYTVVGTLFLWSIVKVILSNLSFGDKLASIIGIIFLTVVVLPFILLYLAYFIDGSY				NA	NA	NA	NA	NA
AK009_03153	216			hypothetical protein	ATGAGACCAATCACATTTTATGCACAAATCATACAAATAGCGATAATTCCAGTCCTCGCCTATAAACTAGTGGTTGAGGGCTTATTTTTGTATAAAATCAGTCCATTAACTGTTATACTATTTCTACTAAACATGATTGTCATGTATTTGCATAATCCAGTTTGGCATGAGTTATTATCTAAATGGAGAAACAGTAACAAAGATAAGGAGGACTAA	MRPITFYAQIIQIAIIPVLAYKLVVEGLFLYKISPLTVILFLLNMIVMYLHNPVWHELLSKWRNSNKDKED				NA	NA	NA	NA	NA
AK009_03154	633			hypothetical protein	ATGATAACAGACAGACTGAAAAACACGGTAAATAATTGGAATAACGTAAAAGGTTATAAGTTAAGGGAAAACAATCAAGACATCAAAAAGTCATTAAAAGCAAGAGGGTACACATTATTAGACTGTGACTTTCCAAAAATCGTATTTACACCTGTAACAAAGCAAGTATACGACAAAGTAGGTTGTAATGAAGTTTATGGGGTAGTGGAAAGTGACTACGGTTTAGATATTGTTAAACTAGAGAATGTGTCTGTTCCAACTACTTTTGAAGCAATTGAACAGATTGAGCATAAGTACCAAGACGTAGTTTCAAAGAATACAATCTCATTTGAAATTAGTGTAGAAGCTTATAAACAAATGATTCAATATAGTAAAACTGTAACAGAAAATATAAAGCAAGTAAAAGAAGAATTAGAAGAAACACAAAAACAATCATTCGCATTCCAAGAACACGTAGATGTATTAACGGAACTGTTGAAGGATTGCAATGCTGAAAAGAAAGAATTATTGGAAACAATACTAGGTGTTATTAAAGAAGAGAATAAAACACCAGTTGAGAATTACCAAACATTATTAGTACGTATCGAAGAAGTAGCAAAATCATTACAAAATAAAGAGGTAGTTGCAGACTAA	MITDRLKNTVNNWNNVKGYKLRENNQDIKKSLKARGYTLLDCDFPKIVFTPVTKQVYDKVGCNEVYGVVESDYGLDIVKLENVSVPTTFEAIEQIEHKYQDVVSKNTISFEISVEAYKQMIQYSKTVTENIKQVKEELEETQKQSFAFQEHVDVLTELLKDCNAEKKELLETILGVIKEENKTPVENYQTLLVRIEEVAKSLQNKEVVAD				NA	NA	NA	NA	NA
AK009_03155	1482			hypothetical protein	ATGACAAACTTACATCAATCAAGTTTAGATTTAGTGAAACAGGTTTTAAACGTATGGATTAAAAAGTACAATGCAGAGTTACAGAAAACAGGTGATTTAAATACAAGTATGGCATTAGAAGGTAACGAAATTAAAGTGTTATATGACAATTTACGTTGGTATTGTGGCAGAGAGTTAGGGGTAGAGTTAGCAGTAAAACATCCTAAACTATCGGCTTTAATTACAAGTCTTGATGATTCTCGAATGATTAATCGAAATCAAGGAGAAACGGTTGTATACGCTACATTAAAAGAAGTGAAGAGAATTGTAGCATACGTATCAAACTTAGGTGTAAAAGGTTTAACATTATCAGAAGGTAAGTTAGACGAGTTAGAAGAAGTATCATTCGCTATTGTATATGTGGAACCGATTAAACAAGTATTATCACAATGGACGAATGCTTTCAATGAAGCTTACCTTAGAAACAAAGAAAGTGTATTAATTCATGTACAAGACTTCAAAGCATTCTATGAAAACTTAAATAAATTCGCATTAGAAACAAAAGGTGATGTATTACATGAGTTAAACACAAACATGTATGCAGTATTAGAAGAGTTAAACCAAGATAGACTCCATGCTGAATCGCAAAAGCAAAATTATTTTATCATAGGTGTAAAGGAATTTGAGAAACTGACACTATTCTATAATAGATACGTAAATCCAACTGTCATTCGAGCAGAGGAAACTGTATCTGAAACAGTAGAAGAATTACAAGCAAAAGTAGAAAAGTTAAAGAAAGACTTAGAAGTAGAGCGTAAAGAACATATGGAAACAAAAGAGTCTATGAAAGCTGAACAAGAGGAACTATATACTACAATCTCTGAACTTACAGATGATTTAGTAGAGGTATCCGAGAAAGCTGATAACTTAGCTAAAGTGTTAGGATACGAAGTATTTAACAATGCTCAATTGCAAGAAAATAGTGGATTAATTGGATTTGATACAGAAACTAACCTATTCCCATTTGGAGATATTCATAGCGTAATTTTTACAGGAAGTACTTCGATTTTACCAAGTTCTATGACCAAACATACACACTGTAAAGAAAACGTAGTTGTATCAGAAAAACCTGGAAGTGGTAAAGCATATAACTTAAAAGAAGAAATGGAGAAACAAGGGTACATTGTAGATACAGGAACAGCCCACCCAGACAAAGTTTCACTAAAACCGTGTATTGAACAGCAAATTGGTAAACAACTCTTAGAAGACTATAACAAAATGGAACCTGAGTTTAAGGAAATGGTGAACATTCAAACATTTATTACCATGATGCGTCAATTAGCTGATGTTAAAATGGTAGGAGACGTAAAAGAACAAGAGAAAACTTCTAGTCCATTACAAGGAATTACACCACAAAATAGTGAAGACGTAATTAAGATATTAAAGAAACAAACAAGTCTTCCCGTATTCCTTGTTACACATAATGAGTCACTAAAGAAATAA	MTNLHQSSLDLVKQVLNVWIKKYNAELQKTGDLNTSMALEGNEIKVLYDNLRWYCGRELGVELAVKHPKLSALITSLDDSRMINRNQGETVVYATLKEVKRIVAYVSNLGVKGLTLSEGKLDELEEVSFAIVYVEPIKQVLSQWTNAFNEAYLRNKESVLIHVQDFKAFYENLNKFALETKGDVLHELNTNMYAVLEELNQDRLHAESQKQNYFIIGVKEFEKLTLFYNRYVNPTVIRAEETVSETVEELQAKVEKLKKDLEVERKEHMETKESMKAEQEELYTTISELTDDLVEVSEKADNLAKVLGYEVFNNAQLQENSGLIGFDTETNLFPFGDIHSVIFTGSTSILPSSMTKHTHCKENVVVSEKPGSGKAYNLKEEMEKQGYIVDTGTAHPDKVSLKPCIEQQIGKQLLEDYNKMEPEFKEMVNIQTFITMMRQLADVKMVGDVKEQEKTSSPLQGITPQNSEDVIKILKKQTSLPVFLVTHNESLKK				NA	NA	NA	NA	NA
AK009_03156	237			hypothetical protein	ATGTCTACAGAACAATATCAAGAGTTAGTAGAAGAATTAAACATGTGTGACGAAACTGTAGGGTTAAACCATTTAGGGTTCGATAAAGAGTCAACAGAAGGGGTATTGAAAGAATTCAATTATGAACTCCTTCCAAAAGAGTCAGACGAAGTATTCTTTACAGACGGAGATTACGAATATCAAGTCTTTCAAACGGATAGTGGAAAACTAGATGTTACAAGAATGTTAGTTATGTAG	MSTEQYQELVEELNMCDETVGLNHLGFDKESTEGVLKEFNYELLPKESDEVFFTDGDYEYQVFQTDSGKLDVTRMLVM				NA	NA	NA	NA	NA
AK009_03157	312			hypothetical protein	ATGTTAAAAGTAGCAGAACTGAAAGATTGGAAATGTGATTTAGATACAGATGAGCAAGAACAGGAATCATTACAAACCTTAACGGAAATGGAGACGCAGGTTTGGAACTACTTAGTTACAGAGGGTTGGTGTGCAGAAGCTACATTCAGTGACGTAATTGCAACTGATGTTGAACGTGCAACTGGAATTCCGATGAAACAGCTTAGAGGTGTTATTAGTAGCTTAGAACAAAAAGGGTTGATTCAACTTATCTTGATGGACGATATTAATTTAAATTTTATTTATCGTGAGTTAGACTTTAGATACGATTGA	MLKVAELKDWKCDLDTDEQEQESLQTLTEMETQVWNYLVTEGWCAEATFSDVIATDVERATGIPMKQLRGVISSLEQKGLIQLILMDDINLNFIYRELDFRYD				NA	NA	NA	NA	NA
AK009_03158	753			hypothetical protein	ATGATTTTATTAAACAGTTTAGGTTTTACAAGAGAGGAACAAGACTGTGCATTTAAGAAACTAGAAGTTAGAGGTTTTCAATCACAAAACGATAATATGACAATGTTTTTAGAAGGAGACACAATTGTAGTTGCTCCAAACGAAGATGAGAATGCAGGTCAACAATGTATGTTCATTGGAAGTAAGTTTGGGGTATTACAAGGAACTGTAGTAAAAGCACAAGTATTATTCTTAGATGGTGCAATGTTCGTGAATGTAACTAGTGGGGTAATTGATACAGAAACACTTATGTTCAGTGAAACTGGTGAAATGGAAAACTGGTTATTAGAATCAAATCTAGACCGAAATGATGAGCTAGTATTAGAAGCATTAGAAGATTTAGATGAAGATAAAAACTATCCTACACAATGGATAACTCGTGACTACTTATTCAGTCTGTTAAATGCTTCTACACAAAACGATTACTTTACATACGAAACAATGTTTGAAGTAGAAATGACTTATAAAAAGAACGGGTTGTTTGCATGTATCCCAACCGCTCGTCATGATTTCTCAAACGGTAAAGTAGATGAAATGAAAGAAGAGTTGAAAAAGCAAGAAGAATTAAAGAAACAACAAGCTGAACAACGTAAACTTGATAGACAGCGTGAGCATGAAGAACGTATTCAAGAACGTGAAGATAGAGAGCAAGAGAAGTTAATGGAGAAAAACCGAGGTATGCAAGAATTGTTTGCAAGTTTAATCAATAAATAA	MILLNSLGFTREEQDCAFKKLEVRGFQSQNDNMTMFLEGDTIVVAPNEDENAGQQCMFIGSKFGVLQGTVVKAQVLFLDGAMFVNVTSGVIDTETLMFSETGEMENWLLESNLDRNDELVLEALEDLDEDKNYPTQWITRDYLFSLLNASTQNDYFTYETMFEVEMTYKKNGLFACIPTARHDFSNGKVDEMKEELKKQEELKKQQAEQRKLDRQREHEERIQEREDREQEKLMEKNRGMQELFASLINK				NA	NA	NA	NA	NA
AK009_03159	390			hypothetical protein	ATGAATAGAATGACGGAAGAAACAAGTATACCTATACAAAAACGACTAGATTATTTATTAGGGACTGGACATCCAATCAATAGTATACCTACTCTACTCGAACAGGAGTTTCCAAACCATAAACTACTTGTTAAAGGGGTAGTCGAGTCTTATAAAGAAGAACATAAAGTACCTAAAACTCCTAAATTTGTAGAGATTGCAGATGATAAAGAAGACAGAAGAAAACGAATAGATAAACGTACAACAGAGTTAATCGAAAAAGGCTTACCCTACAAAGAGGTAATTTCTACATTGGTAAACGAATTTTATGATGGAACGGATGCTCTTATCCGTGGTTCACTTTACAGATATGTCGATAAACTAGAGTTTTCAGATGTTAAAAATAAATAA	MNRMTEETSIPIQKRLDYLLGTGHPINSIPTLLEQEFPNHKLLVKGVVESYKEEHKVPKTPKFVEIADDKEDRRKRIDKRTTELIEKGLPYKEVISTLVNEFYDGTDALIRGSLYRYVDKLEFSDVKNK				NA	NA	NA	NA	NA
AK009_03160	318			hypothetical protein	ATGCTAGAAGAAATGCCTGATTTAGCTTTTATTATTGAAACGGTTGTCGATAAGCATAAAGAGAAAACAAGTAAGTATGCAAACACGAACCTTTCTGTAAATAAGCAAAGATTTTTAAATGAGCAAACAACAGGGAATGAACTTAAAACTAGAGTACAAGTTGACAGGGTAAAAGAATTAACAACTAGCGTACATGTAAGAAAAGAAGTAAAAGACCGTGTTGGGGAACTTTTAGTAGAAGGTAAGACACCATCAGAAGTTCTCATAACTATTGGACAAGAGTTTCCAAACGGAGTTATGATAGAAGACAATAAATAA	MLEEMPDLAFIIETVVDKHKEKTSKYANTNLSVNKQRFLNEQTTGNELKTRVQVDRVKELTTSVHVRKEVKDRVGELLVEGKTPSEVLITIGQEFPNGVMIEDNK				NA	NA	NA	NA	NA
AK009_03161	126			hypothetical protein	TTGACAAAACTCAAAGATGTTACAGGGGAATTAGCAGAAACAATTAAGATGGCTATAGAACACGGAGTAGATGTAAAAGATAGACTACATGAATTATTGCTTCACGATAAAATATTGAAAACGTAA	MTKLKDVTGELAETIKMAIEHGVDVKDRLHELLLHDKILKT				NA	NA	NA	NA	NA
AK009_03162	282			hypothetical protein	ATGCGAATGCGTAACATACAAGAACTATGGGAAAACTTACAAAGACAGCAACAAGTATCTAATTTACTATTTCAACATATCCAATCTTTCTTGCAACAAGGGTATCCATTACATGAGATTGAGAAAAGATTGAATCAAGAATATCCAAACGATGGGGAAATAGTAAAGGACTTAATCACTAAGTTCCAAAAAGGATTAGATTGTCATTTAAACGGTCATAAATTCGAAAAGATGAAAAATGGAAATCAAAAATGTAATCATTGCGGTTTAATACATCCATAA	MRMRNIQELWENLQRQQQVSNLLFQHIQSFLQQGYPLHEIEKRLNQEYPNDGEIVKDLITKFQKGLDCHLNGHKFEKMKNGNQKCNHCGLIHP				NA	NA	NA	NA	NA
AK009_03163	915			hypothetical protein	ATGAGTAGACCTACACTAACTTTCTTTGAAATTGATAAATTAGATATAGATGAATTATCTAAGGATGAACTAAGATTAGCGTTCTTTCATAATATAGATTTAATATACTATTTAAATAAAGGTAAAACAGCAGAGCAACTAAGAGAATACCGTATAGCAATCCAATCAGGGGTAGATGAGGATTTTATAAACCTACATGTAGGTTGGGAAGTTATTAGATATATCCGCATGTTGCACAATCAAGGGTATAAACTAGATTTCTTACGTAAATACATGAAGTCTCCAAAAGGTAAACCGGCATTGGAAGAAGATACACTAGTAAAAGTATTAAAATGTCACTTAACACATAACACTTCTAGTATTGACTTCTTAAACGTAAAAAGAGACTTAGTAGACGGTTTTATCTACGGATTGTCTAAGGGGTATGACTTAACACCTCTTGTGAGAGTTGGTATGAAGTTAGACGAAGACATACTATATCTTTTAATAAACTTAATAGGTTCACATATAGATGTACGACCATTTATTAATAAAACATGGACGGCAGAACAGATTGAAGCTATCTTACGTGCGAAACCAGTTATAAACCCACCATCATTAATTCAAAACTATATTAACAATAAGTTTACAGGTGGTCAGATTGAAGAGGTTGTAAAAGGAATTCGATTCGGAGACGGTAAACTGGTATCAAAGAAAGACGAAGATGGAAACCCTATTTACAACGAATATCAAATGTACGAAATAGTAGAGGGTATACGCTTTGGATTGAGAACAGAAGAGTATTCGAACCCAAACATGAGTGACTTTGAAATGAGACAAATCAGAGAACAGTTAATGAGTCAAAAAGACTTACATGGTCACAACAATAGAGGTCGTTTACGTGCTAACAAACCTAAGAAAATATTCGTAAAGTAG	MSRPTLTFFEIDKLDIDELSKDELRLAFFHNIDLIYYLNKGKTAEQLREYRIAIQSGVDEDFINLHVGWEVIRYIRMLHNQGYKLDFLRKYMKSPKGKPALEEDTLVKVLKCHLTHNTSSIDFLNVKRDLVDGFIYGLSKGYDLTPLVRVGMKLDEDILYLLINLIGSHIDVRPFINKTWTAEQIEAILRAKPVINPPSLIQNYINNKFTGGQIEEVVKGIRFGDGKLVSKKDEDGNPIYNEYQMYEIVEGIRFGLRTEEYSNPNMSDFEMRQIREQLMSQKDLHGHNNRGRLRANKPKKIFVK				NA	NA	NA	NA	NA
AK009_03164	825			hypothetical protein	ATGACACAAGCATCATCAAAACAAATGGAACAGAAAATGCAACAAGCGTTAGCTTTCAATTATAAATACTTACAAGAACACGGAGACTTCCCTTCTACAAGTGAAGACCCGTACTACCGTAGTGCAAGACGATTTTTCGGTGGTGCTGAGGAATACCGTAGACAAGTATTGTTAGCTAACGGAGTACCTGAGGAAAAGGTAGACGAAGAGTTATTCAACATCAAACACAAAATGATTAGTAAAGAAGAATTATTCAAACAGTCTTTAGAGAACTTCAAGAAAACTGGAGTATTACGTTATGGTTCTGAGTTAGTAAACCACCATTACGGAACAGTATTCTATTTACGAATGGATGTCCTAAAAGAAATGGGGTATTCAGTAGAAGACTCTCTATATGAAATTAAGAACCAACAATTGAAAACAGCAATTCCTTTAAAAGAGGTACTAGAACCATTAATTGAGTATATTCGTAACTATGATGAAATTCCTCGCAGTGACGAAATGCCTGAACGAGCAAACATTGTAAAACGATTCAGTAAGTGGGATATCGCTGTTCGAGTAGCGGTTGCCTATATAGACGACCCTTCTAAAACAGTAGAAGAATGGTACAAAGAGAAACGTGATAGATATTTACCTCGTGTACATTTCTTAGACGAGATTATTGATTTTATCAAAAAGAATGACCGACTTCCAAAGTCTGATGAAGTAGGAAACTACCGACAAGTATTAAAAGACTTTATCTTATGGGACAATGCCTTAGATAATGCGTTAATCATCATGGGGTATGACCGTGAAGAACGTGAAAACTTCTTCAAAAAGAAGTAG	MTQASSKQMEQKMQQALAFNYKYLQEHGDFPSTSEDPYYRSARRFFGGAEEYRRQVLLANGVPEEKVDEELFNIKHKMISKEELFKQSLENFKKTGVLRYGSELVNHHYGTVFYLRMDVLKEMGYSVEDSLYEIKNQQLKTAIPLKEVLEPLIEYIRNYDEIPRSDEMPERANIVKRFSKWDIAVRVAVAYIDDPSKTVEEWYKEKRDRYLPRVHFLDEIIDFIKKNDRLPKSDEVGNYRQVLKDFILWDNALDNALIIMGYDREERENFFKKK				NA	NA	NA	NA	NA
AK009_03165	456			hypothetical protein	TTGGAAAAGTGGAAACAGTTAGCAAAGAAGAAAGAAACGAGAAGGTTATGTTTACCGATTATGTTCGCAACGGTCTTTATGTTAACGGTGAAAGGATTTGCCTATCGAAACATCTATTTAAACAGTTTACCGAAAGATATATTTAACATTCCTTTACCTGAGACGGGTTTATTCTTCTTTATTAGTTATGGAGAGATACTTGCACTTGCAACGGGTGTTTCTATTGCTTTATGTGTTTTGAATATTGGAGGTAAACGATTTGGAAGACCTGATTTAGAAATAAAGAACGATAAATTAGTATTTAAAGTGACAGGTATAGTTGTTTTATTATCTCCTATCATAACTTGTATCAATATAGCGGTAGACTATAAACTAGATGTAATTTCGTATGTGTTATTAGTTGTTACAACGATAGTATATGCGGTACTTAGTAAGGTAAGTAGGGTGAAACAGTAA	MEKWKQLAKKKETRRLCLPIMFATVFMLTVKGFAYRNIYLNSLPKDIFNIPLPETGLFFFISYGEILALATGVSIALCVLNIGGKRFGRPDLEIKNDKLVFKVTGIVVLLSPIITCINIAVDYKLDVISYVLLVVTTIVYAVLSKVSRVKQ				NA	NA	NA	NA	NA
AK009_03166	2232	uvrD	COG0210	DNA helicase II	TTGTCAAACAGTATTTTCGATGAATTAAACGCAATGGGCGACAATGGAGAAGTAGGAAACACGTATGAATCTATCTTAAATTGGTTAGGGAAGAAGGGGTATAACCTAGACGAACTAGGGCTTATTATCACGGAACAAAAAGACCAATTAATCATTGCAGGTGCAGGTTCAGGTAAAACAACAAGTATCATTTTTAAACTGAATGCTGATATTAAAACAGGTAATGCAGTACATGAAGTACGTCATAAAGATATGACAACCCAAGTTGCAGATAAAATTTGGGTATCTACATTCTTAAAAAGTGGTGCAGAAGACTTACAACGTACTTTTATGAAACAAAAGAATGAAATGGGAATATCAGTAGGGGTAGAGACAGTTAAGTTCTCTACTCTACATGCTGAGTTCTTGCACTGTTTAAAAGAGTTAAAAGTACCTGTACACATCATGGACATGAAATCTACAATGGGTATGATTCGTGATGTAGCGAAAAACTTCGGTTTAGGAAGTAGACCAGGGTATCCTACAAATGAAGAAGTATCCAGTATTGTATCATACATTTCAGCGGCACGTAACCGTTTAAATCCAGATGAGTTCTACCATCCTGATATGGAAGACGTAGGATTAACAAGAGAAAACATCAAATATGTTATTGCAAACTACGCTCAAATGCGTAAAGATTACAAGTGTATGGATTTTGAGGATTTACAGGAATTATTGTATAAATTCGCATGTAATCCTGAGACTCGTAATCCGCATGTAACGAACTTCATTTCAAATCGTTATGACCGTATTATCATAGATGAGTTCCAAGACGTATCTGAAATTCAATATGAAATCTTTAAAGTGTATGCAAAAGGATGTAAACAGGTAACAGTAATCGGTGACGATGACCAGTCCATTTACAGTTGGAGGGGTAGTAACATTGATATCATTACAAAACGATTCCCTGCCGATTTTAAACCTGTTATTAATAAGTTAAGTCGTAATTACCGTTGTCCATCAAACGTATTAAATCCGATTATCAACAGTATTACGATGAACGAAAACCGTTATGAAAAACCTCTAAAAGCAAGTCGAGAAGGAGGAACATTAAACTGTTACTCATATGGTAGTACAATTGAAATGGCTCGTTCAATTCAAGAGCAAATCATGGAAGACGTAAATAACGGTATGACAGTTGCAATCTTAGGACGTACAAATCCAAGTCTATTACCTTTATCCGTATTCTTAGACTTCCAAGATAAGTTCAACTATGCAATTAGAGGTACGCTCTATGATTTAAAACGTCCAAAATTTCGTAAATATTGGCAGTTAGCATATTTATTCATGAACAATTATGAGAAGATGCATGAGAACTTGAAAGTAATTGCAAAAGACTTATCAAACTATCAATTAAAGAACTTTGTAAATGCATTGAAAATCCAAGGGCAAACTATCTTTAACTTCCCTATGAACTCATTACGTAATATTTCAGAGGATTTAGCTTCATTTGTAATTCACATTAACAGTACGGCTGATGATGAAGTAGAGAAACTGAAAGCTACATTTGAATTTGTAAAATACAGAGCATTAGACGCAAATGATGAGTATACAGAAGAAACAGTATCTATCATTGAACTGTTAGAAATGATTATCGAATGCGGTGATGTGAAAACAATGGATGATTTTATTTATGAAATCAACTACCGTAATACAAGACTTCATTCAAGAGCAGACAGTAGAGATACTACAATCCAATTAACAACTGTCCATGACTTCAAAGGTAAGGAAGCAGACAGCGTATACATTTGGAAAGACACAAATAAATTATTCCCGTCTTCTCGTTCAGCAGATACAGAGTTTGAAGAGGAAAGACGTATCCATTACATCGCAGGAACTCGTGCGAAAGAGAAGTCAACGATTCTTACTATCAGGGGTAGTGAGTCTCCATTCATTGCAGAAATGGGTATCGTGCCAGTCGCATACTTTGGAGAAGGTGCAAGCGGTTCTATCCGTCAAAACGCAAATCAAATTATGGACGATGAAATTGCAGAATTCATTTACGGTACAGACCAATCTGTTCAATCAGGTGGGGTAGACTTTGAGAAGATATTAGAGGAAAAGAAGGAATCACAAACAAAGTTGGAAGAAGAACAGTTACAAAAGCAAAGAGAAGAAGAGGAAAATAATAAGAAAACGAATAGTGCGCCAGCATTAGACTTCTCTTCTATGTTTGGCAATAAACCACAATAG	MSNSIFDELNAMGDNGEVGNTYESILNWLGKKGYNLDELGLIITEQKDQLIIAGAGSGKTTSIIFKLNADIKTGNAVHEVRHKDMTTQVADKIWVSTFLKSGAEDLQRTFMKQKNEMGISVGVETVKFSTLHAEFLHCLKELKVPVHIMDMKSTMGMIRDVAKNFGLGSRPGYPTNEEVSSIVSYISAARNRLNPDEFYHPDMEDVGLTRENIKYVIANYAQMRKDYKCMDFEDLQELLYKFACNPETRNPHVTNFISNRYDRIIIDEFQDVSEIQYEIFKVYAKGCKQVTVIGDDDQSIYSWRGSNIDIITKRFPADFKPVINKLSRNYRCPSNVLNPIINSITMNENRYEKPLKASREGGTLNCYSYGSTIEMARSIQEQIMEDVNNGMTVAILGRTNPSLLPLSVFLDFQDKFNYAIRGTLYDLKRPKFRKYWQLAYLFMNNYEKMHENLKVIAKDLSNYQLKNFVNALKIQGQTIFNFPMNSLRNISEDLASFVIHINSTADDEVEKLKATFEFVKYRALDANDEYTEETVSIIELLEMIIECGDVKTMDDFIYEINYRNTRLHSRADSRDTTIQLTTVHDFKGKEADSVYIWKDTNKLFPSSRSADTEFEEERRIHYIAGTRAKEKSTILTIRGSESPFIAEMGIVPVAYFGEGASGSIRQNANQIMDDEIAEFIYGTDQSVQSGGVDFEKILEEKKESQTKLEEEQLQKQREEEENNKKTNSAPALDFSSMFGNKPQ				NA	NA	NA	NA	NA
AK009_03167	375			hypothetical protein	GTGCTGATTATGGTTGTAACAGCAGACGCATATGGTTTTAAAATTGAGATTGTGAGTGAGTATGGTTCTAAGGTTATCTTAACTTTTGAGGAAGTTTGGTCTTCAAGAACAGGCAGACTTGAAAGGTATGAGTGTTACGTGGATTACGAACATATGGTGGCAGAGTTAAACGATAAAGGGTTAATCGTGACTCGTCCAAAAGTAACAGATAGTTACGTAATTACGAATTGGTTTAATAAAAAGCTAGAGTTAAGAAAAAGAAACAAGTTAAAAAGCAAACTAGGAAATAAAACTTATGAGAAAATTCTTGACTATTCCTATAAGCAAACAAGAAGGAGTGAAACACCTTGTCAAACAGTATTTTCGATGAATTAA	MLIMVVTADAYGFKIEIVSEYGSKVILTFEEVWSSRTGRLERYECYVDYEHMVAELNDKGLIVTRPKVTDSYVITNWFNKKLELRKRNKLKSKLGNKTYEKILDYSYKQTRRSETPCQTVFSMN				NA	NA	NA	NA	NA
AK009_03168	1224			hypothetical protein	GTGAGGTTAGAAGATGTTTTAGGGGTAGATAAACTAGAGAATTCAGTTGAGTTTTTCTATGTTTGTTTAGTTGGGAAGTATTTGAAACACAAAGGTCATAATTTATCATTAGAAAATGTAGACGTATCAGCATTCAAAGACACGATTCAACATTCAAGATATTATACTTACTTCTTATATGCGGTAGAAAATGGATATGTAAACGATGTAGCAATTGATTTACCTCCATTTGAAGAAGATGAACATGAATTATATGGAGACTTATATTTGAACTCACTTGCAGAGGTTCAGCCTTACTTCTATAAGATTGAAGGAGAGCAAAACGAAAAGTTGTATATCAACTTGAGTGATACAAATGTAAACAACCAATTATTCTTATCTTCACAACATGAGAGTGTAGTTATTGAAATGACAGCTTTTCTTCATGTAGAGGGGTATCTAAATGGAAAACGCTATGAGTTGTATCCATCTATTTACAATGTAACAAGAGATAAACCACAAGGGATTGTAGCTTTGTATTACTTAATGATGTCACCGCTAACAAGACAGATTATTAAGTTTCCTTTAGAAACAAGATACTTAAACAGCGTAAGTTACAATTGTTGGTATTTCTTAGGAAAAGAACAAGGTTTGTTAAGCACAGAGGGGTATACAATTCCACAGAAACAGGCTTGCTTACAAAATGATAAATACAAGGTAGGAAACGTAGTTTACTTCTATGAACGAAACACTACCGATAAGTCAAGTAAAGAGCGAAAAGTAATGCATTGTTGCATAGCAATTGTACGAGGTATCACACCAACTTCTATTCGATTAGAGAAAGTAGTTGTGAATCAAACTAGAGTCCAAAAGGATAGAGAGTTTGAGAAACAGCCTAAAGACATGCAAGAGTTATGGCAACATACAGATTTAGAGGTAAGAAGACCAAGTGAAGAGTTCAATTTAACATCAATAGGGGTAGAATATGTGATGTCAAACGACCCTCTTTACTACGAAAAGTATTTCATAACGCCAGTATACGATTCAAACGAGATTGAATTATATGTAGAACAGAGTGGTATTGAGTTTACATATTTAATGAGTCAGATAGACGCAGTTTACTGGGTGTTAAAAGATTGGGATATACCTTTTGATGAAGAGTTGTATGTGAATACATACTACAAACAAGGTAATATTCCATTATACGAAAAAGATTTACTTGATGGATTTAGCGTAGATTTCTAG	MRLEDVLGVDKLENSVEFFYVCLVGKYLKHKGHNLSLENVDVSAFKDTIQHSRYYTYFLYAVENGYVNDVAIDLPPFEEDEHELYGDLYLNSLAEVQPYFYKIEGEQNEKLYINLSDTNVNNQLFLSSQHESVVIEMTAFLHVEGYLNGKRYELYPSIYNVTRDKPQGIVALYYLMMSPLTRQIIKFPLETRYLNSVSYNCWYFLGKEQGLLSTEGYTIPQKQACLQNDKYKVGNVVYFYERNTTDKSSKERKVMHCCIAIVRGITPTSIRLEKVVVNQTRVQKDREFEKQPKDMQELWQHTDLEVRRPSEEFNLTSIGVEYVMSNDPLYYEKYFITPVYDSNEIELYVEQSGIEFTYLMSQIDAVYWVLKDWDIPFDEELYVNTYYKQGNIPLYEKDLLDGFSVDF				NA	NA	NA	NA	NA
AK009_03169	618			hypothetical protein	TTGGTTAGACTATTACAAGAAGTTTCACGAGGTTTGGTATTAGCAAACTACGATGAAAGTGAATTTAAGCAACAAAAACTAGACTATCTAAATGAGGTACAGAAATTTATCATGGAAGGTTCTTATACGGATGTCAAACATAAAGGTTATTTATTAAATAACTGGGACAAACCTACAAAAGAACAATATGAGGAATTAGGTATTTCAAGGTCATTTTATTATAAGCAACGTAAAGCACTTGATGAAGACCTAGAGAAGATGTTAGGTACAGAAGTTGTCGAGTTGATTTTAAAAGAAGAGTTTAAAGAAGTTGATTTAATACTAGATACATTGTTAGCAGACTACAGTTCAGAAAGAGTCGTTATCAAGTCAGTCGTGAATCGAATCGAAAAGGGAGAACACAACGATAAATCACGTTACACTTTAGAAGAGTGTCTAAACGAAATTGCATTATTGAAGAAGTATTCTAATTTAGACTTAGAAGTATTACTAATGAATTGTGATATGAATAAGCTAAACTACTTATTACGTTTACTTGATGCAAAAGAGTCAGACGTCAAATCAAGAATTAGACTGATTGAAACGATTAAACAAGCTAAGGAGGGGACATTCCAGTGA	MVRLLQEVSRGLVLANYDESEFKQQKLDYLNEVQKFIMEGSYTDVKHKGYLLNNWDKPTKEQYEELGISRSFYYKQRKALDEDLEKMLGTEVVELILKEEFKEVDLILDTLLADYSSERVVIKSVVNRIEKGEHNDKSRYTLEECLNEIALLKKYSNLDLEVLLMNCDMNKLNYLLRLLDAKESDVKSRIRLIETIKQAKEGTFQ				NA	NA	NA	NA	NA
AK009_03170	369			hypothetical protein	ATGTTTATAGTAAACGCAGTTTTCAAGTATTTTGATTATGTAGTGAGAGCAAAGTCGTCAGTAACAAAGGAACAGATTGATGGGGAAACGTTAATCTTTCAATTTTGGTTGTGGGCAAACTTCATTATATCAATGATACTTACAATGGGTGCTTCTTACTTTACAGTAGCGGTCATTCAGACGAAATTGGGTTACTTCACTGAATATGGTTTATGGGTGTTATCACCTATTGTAGCTTATGGACTGTTATCTGTAATCGTGTTCTCTACATTCAATCTATTCCGTAGAAAGGTAGAAGTAAAACGCATTAGAGAAATGTTAGAACTAGAAAGATTAGAGAAAATGGGTAAAGTTACATCAGCAAACTAA	MFIVNAVFKYFDYVVRAKSSVTKEQIDGETLIFQFWLWANFIISMILTMGASYFTVAVIQTKLGYFTEYGLWVLSPIVAYGLLSVIVFSTFNLFRRKVEVKRIREMLELERLEKMGKVTSAN				NA	NA	NA	NA	NA
AK009_03171	564			hypothetical protein	ATGATTACAGAGCAACATAAACAAGATGGTTTAAACCATCAGTATTCACTAGGTCAACTTGTACTAGTCATGGTGTATGCAGAAGAGGTTCAGTCCTATATGGTACTTGTTGGAACGTTACAAAGTCAAGTCGGGTCTAAAATGGTTGTCCATGAAATTTCTTCGGATAAAGTAATCAAAACCCATGCAGACTATGTAGTACCTTTATACAGTGATACAGTTTACTTAGTAGAAAACAAAGTATTCGAAGAAATGAACATGGCTTTCCACTCAACTATCCGTTGTGCAATTGCGATGGCTTTATTGTCAGAAGAATTAGGGGTAGAAGAGGAAGAAGTAGAGCAAATTAAAGCAAGAGATTATCTAATTGAGTTAAGTAAGGAAAACGGTAGCATAGACGATAAAGTTGATTTAGATAAAGTAACTGTACATATGGGTGCAGAGTTTATCGCAAAATTCGTTGTTCCTTATAAAGACTTATCACAATTCCAAAATAAACAACAAGAAGAAGTTACAGACGAAGAGACAGTGGCAGAGGATAATACAGTTAAACTATTACATTAG	MITEQHKQDGLNHQYSLGQLVLVMVYAEEVQSYMVLVGTLQSQVGSKMVVHEISSDKVIKTHADYVVPLYSDTVYLVENKVFEEMNMAFHSTIRCAIAMALLSEELGVEEEEVEQIKARDYLIELSKENGSIDDKVDLDKVTVHMGAEFIAKFVVPYKDLSQFQNKQQEEVTDEETVAEDNTVKLLH				NA	NA	NA	NA	NA
AK009_03172	426			hypothetical protein	ATGGAGAATCAAGATTTAGCAATGATTAAGAAATTAACAAAGGTAAATGGAAACGTATATGCCAAAACTCGATTTGGGTTTCTTAAAGGAAGAGTAGACGAGATTCTTGAGCAAGACATGGTGTTAGTCTCGCTCCCAAGTGGAGTATACGACGAGTTTTCTTATGAAGACATCATTCCAATTGTGAAGAGCAAGCAATACGTATTAGAAGAACAGTATTTAGAGAAGCAAGACAAGTATCAAGTAGGTGCAGTTATAGGGGTATTCGATAATTCGAAGTTAAAAAGACCTGAGCATTTCAAACCAACTGAGAAAAATATCTATGAGAACGACAAATTACAGGTTAAGTTAGCAGGATTGAGTATTGGTAGGAAATTAATTTTAAAAACTGGTGAAGAAATTTTAAAAGACTACTTCAAAAAGTAA	MENQDLAMIKKLTKVNGNVYAKTRFGFLKGRVDEILEQDMVLVSLPSGVYDEFSYEDIIPIVKSKQYVLEEQYLEKQDKYQVGAVIGVFDNSKLKRPEHFKPTEKNIYENDKLQVKLAGLSIGRKLILKTGEEILKDYFKK				NA	NA	NA	NA	NA
AK009_03173	378			hypothetical protein	ATGGATAGAAGCAGACCAGTCATATTCAATGTAAAGGGTTTACTAGGTGAGGGGTATATTCAAAAGGTAGAAGGTGAGACGGTATATCTTATGGCTTTGTCTCCACAGTTTCAAGAGACAGTAGATATGTCAGAATACCACATTTCAGAAACAATGGAGATTCTTGCAGATGAGTTATATGAAGTAGATATAAGACCAGAAGGGGAAGTATTTTATTTAGAAAGTTATATTAAACATAAGAATGGTAAAGACGAGCCTATCTTACAAGTAGAAGGTAACTTGCATGAAACAAAGATACTATCAGGTGACTTGGTACATCAGCATTGTTTCCTTAATCTTGAAAAGCATATCAAAAGTGTTATAGACAAGAATGAGTAA	MDRSRPVIFNVKGLLGEGYIQKVEGETVYLMALSPQFQETVDMSEYHISETMEILADELYEVDIRPEGEVFYLESYIKHKNGKDEPILQVEGNLHETKILSGDLVHQHCFLNLEKHIKSVIDKNE				NA	NA	NA	NA	NA
AK009_03174	441			hypothetical protein	ATGAACAATAGAAGACCAGTTATATTTAATAAAGACGGATTAGTTGCATTAGGTTACATAGTAGAAGTGAAAGGAGAAACTTTAAGTATTCGTATTCTAGACGCCTATAATCCTAACTCTGTTACATTAATTGATATACCTGTAGTAGATACAATTGAGATTAAAAAGGATAAACTATATGAGTTAGATGTTATACAAGAAGATGGCTATTTAGTGTTAGGTAGTTACATTCGTAGTACAGAACTAGGAGAAACAAAGCATATTAGGAAGGAAGACAAAGAAGCCCAAAATATTAAACTTATGAGGGGTGAGGATGTATACATAAACTTATTCTTACTACGTGAACGAGTAATAGGGTTAGAGCGTGTGAAAGATATTGAATGGGGTAAGAAGGTCTATGAAGAAGTAGACAAGATTCAGAGAAGTAGATTAGGCTTATAG	MNNRRPVIFNKDGLVALGYIVEVKGETLSIRILDAYNPNSVTLIDIPVVDTIEIKKDKLYELDVIQEDGYLVLGSYIRSTELGETKHIRKEDKEAQNIKLMRGEDVYINLFLLRERVIGLERVKDIEWGKKVYEEVDKIQRSRLGL				NA	NA	NA	NA	NA
AK009_03175	429			hypothetical protein	ATGACATTACAAACGAACCAACAAGTATTCGTTAATATTCGAGAAGGGGTAATTTTAGGATATGTTCAGCAAGTAGATGGGCAAAACGTATATATCCGAGTAGGAAACGACCCTTACAAGTTTCATGTAGACCAAATTATCGTTATTAATCCTGACCGTTATTACTTATCAAAAGAAATCTTATACAGAGAAAGTATGCAAGACCCAAATATCAAAGAAAAGATTATCGGTATTGGTCACAGAACACATGAAAGAAGTAATAAACAACAAACTGAAAAGCTAATTGATGATAGTGGCTTACAACGTAAAGAGCAGGTATTTGACAAGTCAACAGGTCATTATAATGGTGGTTTCTACTGGACAAGTCGTAAAGGAAGTACAATCTTACGAATAATGGAGAAGCAACTAGGAGTAGCACTTCAAAAGTAA	MTLQTNQQVFVNIREGVILGYVQQVDGQNVYIRVGNDPYKFHVDQIIVINPDRYYLSKEILYRESMQDPNIKEKIIGIGHRTHERSNKQQTEKLIDDSGLQRKEQVFDKSTGHYNGGFYWTSRKGSTILRIMEKQLGVALQK				NA	NA	NA	NA	NA
AK009_03176	918			hypothetical protein	TTGAACGAGAGAATGGCAATAAAACAGGAGTTGGATAGTTTACGAGAGCAACAGGCTGAGGATAGAAAGATGTATTTAGAAATGCGTCATTTCAACCAGACAAGGCAAGGAGAACTTCTAAACCGTTTAAGAGAATTAGATGAACGGGATGAAAAGATTAGAAGGGAAGAGAAAAGGGAAGAAAGGCTACATGAGTTAAGTAAGCAACAATTAACTCTATCGGACACTGGTAAAGAGATAAAGGAACCGCAAAAGGAAATTACAAGTCATGTAGATTTGCAGGTTGCTAGAGTAGAAGGAAGAGAGAAGCAAGAGCAAGTAATAGAAACTAGAGTAAGAAAAGGTGTAAGCACATATACAACAGACACTGAATCCTTTCTTGAAAACGGAGTAGAAGCATCAGTTACAGAACATACAGACAGTATAAACTCTCCTAAAGAGAAGGTTGAACCACCTATAACAAGAGAGCGTCTTCGTAGTATATCTGAGGGTTTATCTAGACTAAAGGTTAAACGAGATAAGGAAGAGAATGAGGTAGCTAAAACGAAGGCTTTTAACAAGAAAAACACTACTAAGAAAGAAAAGCAGAAAAAGGGACGTAAGAAGAATGTCATGAAGAGTAAACGAATTCCTAGTAAGGAAGTTGTCGCATTTTTAGAAGGAGTTTTAAGAGGTTCTGAACCTAAAACTGTAAGCCAACTAAAAGCATTAGCAGAAGAGTATTTCAATAATGAGTGGACTTCTTTCTACGATATGATGAGTCTATCCTTGAAAGACAGCGATTATATTGTAAAAGACGAGAAAGTAGAAGGTAAAAGCATAACGTACTCTTACAATGAAAATAAGCGACAACAAACTACAGAAGAGAAAGAGGTAAACAATAATGACATTACAAACGAACCAACAAGTATTCGTTAA	MNERMAIKQELDSLREQQAEDRKMYLEMRHFNQTRQGELLNRLRELDERDEKIRREEKREERLHELSKQQLTLSDTGKEIKEPQKEITSHVDLQVARVEGREKQEQVIETRVRKGVSTYTTDTESFLENGVEASVTEHTDSINSPKEKVEPPITRERLRSISEGLSRLKVKRDKEENEVAKTKAFNKKNTTKKEKQKKGRKKNVMKSKRIPSKEVVAFLEGVLRGSEPKTVSQLKALAEEYFNNEWTSFYDMMSLSLKDSDYIVKDEKVEGKSITYSYNENKRQQTTEEKEVNNNDITNEPTSIR				NA	NA	NA	NA	NA
AK009_03177	348			hypothetical protein	ATGAGAACAAAACAACTACATGTACCCTTTAAACAAAGCGAGTATGCATTTGGATACATTGAGATTCAAGAGTCAGGAGAGTTAAAACCGAACATTCCTTTTGTTTCGAGAATTAAAGAAAGGTTATATCTGTCTGTAGTAGGCTTTAAAAGAAACCAAGAAGGTCACTTTATTTTATTAATGGAAATGTACTACAAACAAGTAGATAAACTAACACAAGGTAAAGAGAATACTTTCTTTGTACTAGAGTCTAAAGATATGGATACATCAAACGATGAGCCTATTCTCTTAGAACCATTTCAAGGTGATTCTTTAGACTTTGAATCATATGTGAAAGAAAGATTATAG	MRTKQLHVPFKQSEYAFGYIEIQESGELKPNIPFVSRIKERLYLSVVGFKRNQEGHFILLMEMYYKQVDKLTQGKENTFFVLESKDMDTSNDEPILLEPFQGDSLDFESYVKERL				NA	NA	NA	NA	NA
AK009_03178	384			hypothetical protein	ATGGCAATGGATTTCGAACAAAACAACAACATCAATTTAGAAGTACGAGTACAACATGGAGACAAACATTTCGTAGCAGGATTTGTAACAGTAGTATCAAACGACCATACGTATATCCCAAACATGCCTTTCCTTACACAAGTAGAAGCTAGTACAAGTTTAGGGGTAGTTTCTTACCATAGAACAGATGATTACGACTTTTATTTATTAGTAGAGAAACAAGATTATGGGAATGTTTCTTATTATCTATTAAACTCAACTCATATTACAGAAGAAGATGTAAGGAAAGGCTATATCGTGTTGCCTGATTTCGTAGGAGACAGTGAAACATTCTTAAACTACGTAAAACAGCAATTAGTTTTTGAAGGAAACCCAAGGGACTAA	MAMDFEQNNNINLEVRVQHGDKHFVAGFVTVVSNDHTYIPNMPFLTQVEASTSLGVVSYHRTDDYDFYLLVEKQDYGNVSYYLLNSTHITEEDVRKGYIVLPDFVGDSETFLNYVKQQLVFEGNPRD				NA	NA	NA	NA	NA
AK009_03179	372			hypothetical protein	ATGTTTAGACAGCAATTGTTAGAAGTAAACTTTAATGATAGAAATTTAATAGTAGGTAATTTATTTTTCAGTCCTGAGACTCGTAGTTTGCATTATGGGTTGGACTCTATTATAGACTTAGATGACGGCAGTACAGCTTTCTTAAAGGGTTCATTTGCATATGGAGAAGATAGTTTGTTATTGTACATTACAGTAGCAAACAATAAAACAGGTCAAGCAAAACATTATGTATTTAATTCAGCTGAGTGGTACTTAGTAGACTCCCATAAGAAGATGAATACACCTTATACATTAGAACCGACTAATCTTACAATTGAAGACTTCAGTGATTTAGTGGCAAGTGTTGTAGAGGATGGAAGAAGAAACTTTTAA	MFRQQLLEVNFNDRNLIVGNLFFSPETRSLHYGLDSIIDLDDGSTAFLKGSFAYGEDSLLLYITVANNKTGQAKHYVFNSAEWYLVDSHKKMNTPYTLEPTNLTIEDFSDLVASVVEDGRRNF				NA	NA	NA	NA	NA
AK009_03180	435			hypothetical protein	ATGCTTAGTTTATACTTCATTCAAGATTTAGTATTAGAGGTAGAAGTGAATGGAAAACCATCTACTTTTAAGGTAGGAACGTTAGATGTTACACCTAGAGCAGAAGAACTCATTTATGATATTCCAAAAAGTCAAGTGTTAACTACAAGTAAGACGTGTATCCTCCAAAGTAAACAACAAATTACAGAAGATAACTATTTAATCTTACTAGAAGTTAAAGATGAATTAAGTAAGACTTCAAAATGTTATGTATTAGACACGTATCAATGGAGAAAGACAGAGTTAGGAAGTCGAAAATATTATATGCTGAAAGAATTCAAAGAGGGGTATGTGGGCTTTAATAAATTAGCAACACAATACTTTGAGAAAGAAGACAAAGAATCAGAACCGACTCAATGTTTTGGTTTTGAAGGAATGGGGGATTTACATGTTTAG	MLSLYFIQDLVLEVEVNGKPSTFKVGTLDVTPRAEELIYDIPKSQVLTTSKTCILQSKQQITEDNYLILLEVKDELSKTSKCYVLDTYQWRKTELGSRKYYMLKEFKEGYVGFNKLATQYFEKEDKESEPTQCFGFEGMGDLHV				NA	NA	NA	NA	NA
AK009_03181	345			hypothetical protein	ATGATTATTCAATTAGACTTAGCTATTCAAGGATATAGTTGGGAGAAAGAGTTTGTAGAAATTGGTACAATGCAGTATATCAAACAAGATGGTCAAACTACACTTTTCCTTGTAAAAGAAGATGCTGATGCAGGAAAACTTTCAAACATCGTAGGTTTCCAAGAGTTAGAGAACGGAGAAATTCTTGTTGTGTTTACTGTATTCGATTTTCATACGGAAGACGAACGATATTACATCTATGACTCTAGACAGTCCTTACGAACAGGTCGATACTTATTAAGACGAGTAGAAGAAGGATTAACAAACTTCGGAAAAATCATTGATAAGTATATGATAGGAGAGTAA	MIIQLDLAIQGYSWEKEFVEIGTMQYIKQDGQTTLFLVKEDADAGKLSNIVGFQELENGEILVVFTVFDFHTEDERYYIYDSRQSLRTGRYLLRRVEEGLTNFGKIIDKYMIGE				NA	NA	NA	NA	NA
AK009_03182	249			hypothetical protein	ATGTCTTCTATTGTAGGAGAATTAAATTTACCAGACAGTAGTTCTATTTTCATGGTAAAAATTTTTGATAGAGAAACAAGACAATCTCAAAACTTCTTATTTGATACCGAAACATGGAGAAAAGGTAAAGAGTGGGAGAAAGAAGTATATGAATTAAGAGAAACGAATATGGATTATGTTTTATTTACAGATTTACTGAAACAACGAGTAATTGAATATCAAGAAAGAATTGAGGGGTTAAGACTATGA	MSSIVGELNLPDSSSIFMVKIFDRETRQSQNFLFDTETWRKGKEWEKEVYELRETNMDYVLFTDLLKQRVIEYQERIEGLRL				NA	NA	NA	NA	NA
AK009_03183	105			hypothetical protein	ATGTTTAAACAGAAAATCGTAGCAAACTTACAAGACGGAACAGTATTCCAATTAGGAGAATTGTTCGTTACACATACAGGACTCGTTACTCATGGATTAGAATGA	MFKQKIVANLQDGTVFQLGELFVTHTGLVTHGLE				NA	NA	NA	NA	NA
AK009_03184	330			hypothetical protein	ATGGAACAAACAAAATTAACAATTCAATACAGTGGTCAAACTGTTGAAGTAGGTACATTACATAATCATTTACATGGAGGAACTTCATTTACAATCCCACAATCACAAGATTTTGGTGAAACTGGTCAAATCATGATTGTAGGGTTACAATATGTAGACTTTGCGGATTACCTATTACTACTGGAAGCATTTACAGATGAAGACGGTGAATTATTCTTACTAGACATTCGTGAGTTCGGAGAAAACGGTAGTTTTACAAAACCATATGAATTACCTAAATTCGAAGGCGGATACAAAGAGTTCCATCAATTAGTAGGTTCTCGTCTATAA	MEQTKLTIQYSGQTVEVGTLHNHLHGGTSFTIPQSQDFGETGQIMIVGLQYVDFADYLLLLEAFTDEDGELFLLDIREFGENGSFTKPYELPKFEGGYKEFHQLVGSRL				NA	NA	NA	NA	NA
AK009_03185	324			hypothetical protein	ATGTATAAAGATATAGAAGTAAGGATTCCATATGGTAAAACTTATCACACCTTCGGATTTATTAGAGTAACAGTACAAAACGATAAAATACTAGGTCATCCTTGTACACCAAACCAAAAACAAATAGACAATCAAACCCTTCTACTGGTAGATGATTATGTAGTACGAAGTAGTTCATATGAAATATTAATAAGTAGATTAGAGTATTCAAAATATGATTGTGTATATCCTAAACGACAACAATTTGCTTTACTGTCCAAGAATTTAAAGAAAAAAGACATAGAAAATGGTTACGTAGTAGCAAGAAAGTTTGATTTGGGGTAG	MYKDIEVRIPYGKTYHTFGFIRVTVQNDKILGHPCTPNQKQIDNQTLLLVDDYVVRSSSYEILISRLEYSKYDCVYPKRQQFALLSKNLKKKDIENGYVVARKFDLG				NA	NA	NA	NA	NA
AK009_03186	399			hypothetical protein	ATGAAACAGAATGATGTTATGTTAATAGTGAAAACACCAATAGGAAACTTTGAGGTAGGTAGTATAAAACAGGATAGTAAAGGTAACTTTGAAAGACCACAAATCCCTTACGAACAAAGTAAAGTAAAACCGACTATTTTAACAAAACCTACCGAGGAAATGAATGCACAAATTGAGGGGTATGTGAATTTAGGTTTTAAAAGATATATTATTTTATTACATGTAACTACAATTGTTTATAATGAAAACAAAGATACACAAGAGAACTTTTATTTATTAGATACGAAGACATGTGAAAAAGAAGGTAACAATACATGTTACCTAGATTTATTTGAAGGTACATTAAAAGACTTCCATAATATCGTAGAAGACGTAAGAATGAAACTTGTATTAAGATAA	MKQNDVMLIVKTPIGNFEVGSIKQDSKGNFERPQIPYEQSKVKPTILTKPTEEMNAQIEGYVNLGFKRYIILLHVTTIVYNENKDTQENFYLLDTKTCEKEGNNTCYLDLFEGTLKDFHNIVEDVRMKLVLR				NA	NA	NA	NA	NA
AK009_03187	525			hypothetical protein	ATGGAGTTCACAAACAAAGAAATTGAGAAAGCGAAAAAGTTTGCAGAAACATACGGGTTAGGGGAAGAAAAGTTAGCAAATATAGTAGGAACAGTTAACAAGTCTATTGTAACTTGTGATAAAAGTCAGTATTTAGCAGAAGTTTACGGATTAAACAATGACTATCCAACAGTATTTTGTTATGCAGGAAGACCCTCTGTACCAAAGAGTAAGTTAATAGAAATTGAAGACACTAAGAATTACTTAGTAGAACAAAAATTATTCGGAGACAAACAAGTAGTTCGAAAAGTATTGGCAGTACAAGATGATTCTTTCACAATAAAACAGATAGGTGAAGAGTTTGGTTTAATAAAAGTAGAGGTTGTTTGTTTACGAGATACATTAGAGCCAAGAAAAGTAACATGGAATCATGTATCTTTAACAGGAAAAGAATTAAAGGAACGAGAAATTAGACCGGAAACAGATAAGGTATTTGTACTTATGCCAAGAGAAGCTTTTAACTTAGACCAATTGGAAGAAATCTAG	MEFTNKEIEKAKKFAETYGLGEEKLANIVGTVNKSIVTCDKSQYLAEVYGLNNDYPTVFCYAGRPSVPKSKLIEIEDTKNYLVEQKLFGDKQVVRKVLAVQDDSFTIKQIGEEFGLIKVEVVCLRDTLEPRKVTWNHVSLTGKELKEREIRPETDKVFVLMPREAFNLDQLEEI				NA	NA	NA	NA	NA
AK009_03188	258	dnaJ_1		Chaperone protein DnaJ	GTGGATTACGAAAAAGCAATAAGAATTATGGGAGTTCCTATCAATTATACGAAAGAAGACTTAAAGAAACAATATCGTAAACTAGCAAAGAAAGCCCACCCTGATTTAAACGGTGGAAGTCATGATAAGTTCGTAGAATTACGAAAAGCATTTGAGTATTTAGAATTAAATGAAGGAAACCAAGTAGCGGTACATACAAGAAGTCGTAAGCCAAAGATGTATCATGGTAGTTGGATATTTGAGTATGAGGTGAGATAA	MDYEKAIRIMGVPINYTKEDLKKQYRKLAKKAHPDLNGGSHDKFVELRKAFEYLELNEGNQVAVHTRSRKPKMYHGSWIFEYEVR				NA	NA	NA	NA	NA
AK009_03189	432			hypothetical protein	ATGTCAATTTTTGTTTCTGTTATTTTTCCTAAAACCTATACAGGAGAGAAAAAGATTACTGTATGGTCAGACAAAGGTAAAGTATTAAACAAACTATCTAATCCAAATAAATTTGTAGATTGGGTAAAGTTATTACAAATAAACCTACAATCTCTCCATGTAATTGAAGAAGAGTGCGTTTATATCAATACTAGTTATGGAGACCGTATAATAGAAGAATCTCTTTATTGGAATGAAGAAGAGATACCACAAGGAGCAGTCAAATGTAAAGGGGTATATAGTGAACAAGTTGTTACTGTTTACGTAAGTTTTAAAGAAGGAACAACATGTATTCATTATCCAAACCCTTTAAGTCCGATATGGCACATGGCAGTTCAAGAGGATGAACTAAATTCATTCATTAAACAGCATGGTTATTTAATTCAAGAATAA	MSIFVSVIFPKTYTGEKKITVWSDKGKVLNKLSNPNKFVDWVKLLQINLQSLHVIEEECVYINTSYGDRIIEESLYWNEEEIPQGAVKCKGVYSEQVVTVYVSFKEGTTCIHYPNPLSPIWHMAVQEDELNSFIKQHGYLIQE				NA	NA	NA	NA	NA
AK009_03190	204			hypothetical protein	ATGAAGAAATCTGAAATTGTGGCATTATCAAATGAGAAACTAGTTACAGAGTTATTATGGAATACAATAAGAGGTACAAAAGAAGTCAATTCAATGCGTGGCTTAACAAAACAAACCTATAAAGAAAGTCAGTGGTTGCTAGAAGAAACAGCAAAACGGTTTGATTTAAATTTAGAAGAAATACAAGAGGAAATGTCAAAATAA	MKKSEIVALSNEKLVTELLWNTIRGTKEVNSMRGLTKQTYKESQWLLEETAKRFDLNLEEIQEEMSK				NA	NA	NA	NA	NA
AK009_03191	435			hypothetical protein	ATGAAAGTGATTCAAATTATGATGTCAAACAACCAACCCGCATTAAAAAGTAATCAAGTGTATCAAATTCGAGTAAATAATTTAGTAACGAATCAGTTTATGGGTGAAGACTTATTTAAGAACTGGTGTAAGTTATTTGGTATTCGTCCAACGAAATTAAGTGAAATCAAAGAAGCACAGTTTCACACCGCTACATGGCAGTCAAACCATCAAATCTTTGAGCGTGGTTTCTCTAGTCTATCAGAAGTACCGCAAGGTGCAATTAAGTGTTGTACGGTATTAGGTGCAAACGTAGTAGAAGCATATGTCGTCAATCAAGATTTAATTTCATACATATATGTACCGATTTTGTCCCTAGCAAGACAATTAGTCGTACCAAACGTATCAGTACGAGACTTCATTTCTTACAATGGTTATATAGCAAAAGTTCAATAA	MKVIQIMMSNNQPALKSNQVYQIRVNNLVTNQFMGEDLFKNWCKLFGIRPTKLSEIKEAQFHTATWQSNHQIFERGFSSLSEVPQGAIKCCTVLGANVVEAYVVNQDLISYIYVPILSLARQLVVPNVSVRDFISYNGYIAKVQ				NA	NA	NA	NA	NA
AK009_03192	1101			hypothetical protein	ATGTTAAAAGAAAACAGAATCAAAGTAACTATTGTAGAAAAGCCTTACTACGGAGAACATCCCTATGCTTGCCAAACATACTATTCAGACGGTAGTCGTGCCTTTGTATTCCATTCTAAGAATGAGTTATTAAGATGGTGTAATTATTTTGATGTGAAACTGACAAGATTTACCGAGTATCCTACTTTAGTGAATGGATTAAAGATTGTTTATATAGGTAACAAGGAATTAAAAAGAGTAATTGTTAACTCTTTCAAAGAAGTACCAAGTGGTTTAGAAAAAGTACGAGGTGCAGTAGGGGTATATGCAAACGAATTTATAGACTTATATGTAGAGAATACAAACGAGTGTCTTACATTCTATGAAGTAGATTATGCAAACCCTGATATCGGTAAGTTTCGGCTAGGTGGTCGTACTAAAACAGAAGACGGGCATACGCTTATTACTACAGGTTGGTTAGAGTTACCTGTCTGTTATGATTGTAATAAACCTTCTGTAGAAAAGCAAGACAGTAGCGAAACACCGAAAGATATGTTCAGATGCGATGGGGTATTTCATAGAGAAGATAAACTCATCCATAAAAAGTGTACAAACTGGTATAAGGAAAAGAGATATTGTAAAGAATGTTACAATGGACTGATGAATCTTACAGAATTGGAAGTTGAGCATGAATTCAAACTGAAAATGAATATGACGGAGTATACATTCTTTACAAAGAACTACAATGCGTTTGAAGAAGACCAAACCTACTATCATTTGACTCGTAAATTTCTTGGAGAAAGAACATGGGATAAGATAGAGAACTGGTTGGATTTATTTGAAGAAGTAACAGATGTATATAAGGAAGAAAAAGCAAAAACAAAAGAGTTTGCAATTGTAACCTTTGAAGATATAGAAGAAGTACCTATCTCTATTAGATACAATAAATGCTATGCGATAGACAGGGGTAATGAAAGTATCTTTTATTGTTATATTATGAATTCTAAAGGTAAAACCATTATCTTTAAACCAACAAACATAGATGACTTATACTCGTTAGGTATTGTAAGAACTCGGTTACAAGAGTTTCAGAAAGTACGTTATTTAGGAGAGTTTAAGTAA	MLKENRIKVTIVEKPYYGEHPYACQTYYSDGSRAFVFHSKNELLRWCNYFDVKLTRFTEYPTLVNGLKIVYIGNKELKRVIVNSFKEVPSGLEKVRGAVGVYANEFIDLYVENTNECLTFYEVDYANPDIGKFRLGGRTKTEDGHTLITTGWLELPVCYDCNKPSVEKQDSSETPKDMFRCDGVFHREDKLIHKKCTNWYKEKRYCKECYNGLMNLTELEVEHEFKLKMNMTEYTFFTKNYNAFEEDQTYYHLTRKFLGERTWDKIENWLDLFEEVTDVYKEEKAKTKEFAIVTFEDIEEVPISIRYNKCYAIDRGNESIFYCYIMNSKGKTIIFKPTNIDDLYSLGIVRTRLQEFQKVRYLGEFK				NA	NA	NA	NA	NA
AK009_03193	654			hypothetical protein	ATGACAGACGAATTAGTACAAGAAGAAGATTTATGTTTTGATTGTAAGAAACCGGCAAAAGAAAGATATAGTGAAGTAGAAACACCAGGAGACATGGTTTGGTGTGAGGGTATATTTCACGAAGAAAGTAGGCTTATCCATCATAATTGCTTAAACTACTATGATGAAGATTGGTATTGTAAGGAATGTTATGGTAACTTAAAACGTTGTACAGAGTTAACGGTACAATACACGCATAGACCAAAGTATGATTCTCATCAGTTTGACTTAGTCACAAAAGAGTTTGATATGTTTAAAGAAGACCAAGCATTCCATCATTTATACGCATCGTTTGCAAGTGAACATCGTATGCAAGATTGGTGTAACTTGATTGGGCTAGATTTAGAGGTATACAAAGAAAACCCGTTACGTTTACAGTATTTCCGAATTGTAACATTCGATGATATCAAAGACGTACCTAAACTCGCTTTAAACCTAAAGTGTCACGCAATAGACAAGAATATAGATACAATTTTCTATTGTTATATGATAAAGACGGATTATTCTACCATTATTTTTAGACCAACGAATCCAAAAGACATGGTATCAGCAAATGTAGATAGAAAACAACTAGAACCTTTCTATCAAACACCATTCGTTGGTAAGTTCAAATAA	MTDELVQEEDLCFDCKKPAKERYSEVETPGDMVWCEGIFHEESRLIHHNCLNYYDEDWYCKECYGNLKRCTELTVQYTHRPKYDSHQFDLVTKEFDMFKEDQAFHHLYASFASEHRMQDWCNLIGLDLEVYKENPLRLQYFRIVTFDDIKDVPKLALNLKCHAIDKNIDTIFYCYMIKTDYSTIIFRPTNPKDMVSANVDRKQLEPFYQTPFVGKFK				NA	NA	NA	NA	NA
AK009_03194	474			hypothetical protein	ATGTTAAACGTAGAAATTCGGTATAACAAAGACTGTTCTGTAGTTAGAACAATCCAATTACTAGATGAAACAGGAGAACAGATTGCTTATTTCAATTCAAAATCAGTATTAGACAAATTCTGTAAGAAGACGGGAATGGTACTAGACGAAGGGGTAGTTGTTGAAGAAAACAGTGTAGCGAAAGAAGTTATGCACAAAACAAACAGAACAGTAAAGATTAATCATGTAGACTACAGTGACTTTGACCCAAAAGGAAAAGTACACATTAGGGGTACAAAAGGTTCTAGCATTGTAGACATGTATATTCATGTAGAAGGTGATGTAATTCATATTACAAAACCAATTCTTCTAGCAGATATAAAAACTTATAATAAAACAGAAGGTGGTTATTTTGAGTTTAGAGAGAGGTATGGTTCATTCTACTTTGTAAGAAAATCAAGACGAAGAAGGAAGAAGAAAAGTTCCATTCGTTAA	MLNVEIRYNKDCSVVRTIQLLDETGEQIAYFNSKSVLDKFCKKTGMVLDEGVVVEENSVAKEVMHKTNRTVKINHVDYSDFDPKGKVHIRGTKGSSIVDMYIHVEGDVIHITKPILLADIKTYNKTEGGYFEFRERYGSFYFVRKSRRRRKKKSSIR				NA	NA	NA	NA	NA
AK009_03195	1146			hypothetical protein	ATGACAAACGATAAATTACAATCAGCAAAGGATGTTTTAGTACAAGCAGAACGAGAAAATATGCAAACCTATGTAGTAAAGGCAAGCAAAACAGAGAATAATTTCTTCAAAAATCCAATCTTGTTAGTAAGTAAAGATGGAACAAGTGTAGGTAGCTTTTTAAACCAAAACCAACTAGAAAGACTACTATCAACTTTAAGTATTGAACTGATTGAGTATGGTGAAAAAGATACCTTCATGAACGGTTTAACAAAAGTATATCGTACAAGTAAAGAAATCAAACTGAAAACAATTCATAATCCGAACCAAGTTCCAAAAGACAGTAAAGATTCCGAACTATGGCTACTAAGGGGTATTGTAGGTGGTTTTGTCGTAGACATCTATGCAGAAGTAAAAGACAAAGAAGTTACAATTTATAAACCATCTTCTTCATCTAGTCACAACGGATTTAATCTATCATCGAAGAAAGCTGAGCCATTAGACGAGTTTGTAAAGCAAAACGGATATATCAATCGAATGGAATCAAGTTATTATCAACAAACAAGAGCAATTATGCATAATAAACAAGGTAGAAATAAGTTAGAAACGATTATTAACCTGTATAACAAACAAAATGAAACAGTAGGCATATTCCGTAAGAAAGAAGACTTAGAAGCATTTTGTCAGGTTGTAGGTATAGATATTATAGACGAACAAATAGGACGAGATACACAGGGTTATCCATTTGAGAAGTTCGTTTTAAGTCAAGACATTAAGAAAGAAGAAATAGAACAGTCACCAGTAGAGAACGTTGTAGCTACACTAAGAGGGGTAGTAAGAGGTCGTCTAGTAGACGTGTTCTTAGTTCATACCGAAACAGGCTTAGTATTACAAGAACCAAGTGAAACAGCAGATGGTCATGTATTTAATGAAGAATTAAACCCTACAATTCTATTAAACTTCTACGCAATGAAAGGTTCATTGGCATTAAAAGAAGAAAAGTTAAACCGTGTAGGTAACATGGCAAGACTAGGTGATATGTGGCATGAAATCCAAGGTATTAAGAAAACAAATAATGGAGAATCGTATAAGTTATTCGCAAAAGACGAATGGGTAAACGAATCTGACGTTGAAGAGTTCCGCACAAAAGAAGATTTAAACTATTAA	MTNDKLQSAKDVLVQAERENMQTYVVKASKTENNFFKNPILLVSKDGTSVGSFLNQNQLERLLSTLSIELIEYGEKDTFMNGLTKVYRTSKEIKLKTIHNPNQVPKDSKDSELWLLRGIVGGFVVDIYAEVKDKEVTIYKPSSSSSHNGFNLSSKKAEPLDEFVKQNGYINRMESSYYQQTRAIMHNKQGRNKLETIINLYNKQNETVGIFRKKEDLEAFCQVVGIDIIDEQIGRDTQGYPFEKFVLSQDIKKEEIEQSPVENVVATLRGVVRGRLVDVFLVHTETGLVLQEPSETADGHVFNEELNPTILLNFYAMKGSLALKEEKLNRVGNMARLGDMWHEIQGIKKTNNGESYKLFAKDEWVNESDVEEFRTKEDLNY				NA	NA	NA	NA	NA
AK009_03196	435			hypothetical protein	TTGATTGAGAAAACAGAAAACAGGTTTTATAAGTCTCACTGTCATGTAGAAACAGAAAATAGTTCTAATATGGCGATTTATAAAGAGAAGGAACAATTAATGAAATTCCTTAAACTAGTGAATGTTGAATTGACACCATTCTTATCTAGGCAAACAGAATCAGACGGATTAGTAGAAGTATTAAAACCAACAAGGGAGTTTCATATAGAAAAGGTAAGTTCGCCAAAAGAGTATCCGAACGGTAAAAATGTAAAGCAAGCAAGGGGTATTGTAATGGGTTCGTTAGTAGATATGGTTTTAGACGTACAAGAGTCTACTGTAACATTATACAAACCTAAGCCACTTTGTTTTCTTAACGGCTTTAATGCAACAAAACTTGATAGTATACAAACACATAAATTCTTTAAAGAAAACGGTACACTAAAGAAAATGTAG	MIEKTENRFYKSHCHVETENSSNMAIYKEKEQLMKFLKLVNVELTPFLSRQTESDGLVEVLKPTREFHIEKVSSPKEYPNGKNVKQARGIVMGSLVDMVLDVQESTVTLYKPKPLCFLNGFNATKLDSIQTHKFFKENGTLKKM				NA	NA	NA	NA	NA
AK009_03197	177			hypothetical protein	ATGAGTAAACAAGTATCAGAAGTAGGCTGTTGTTGGTGTGATGAAATGAACTTAGTAGAAACAGGAGTCGAAATGTGTCCAAGTTGCGGAAAACAAAGTTGCTTGCATGTATACCGTGAAAATGTAAAAGCAGTATGGTCAGAGAAAGATGAAACATGGGTTGAAGTAGAAGAGTAA	MSKQVSEVGCCWCDEMNLVETGVEMCPSCGKQSCLHVYRENVKAVWSEKDETWVEVEE				NA	NA	NA	NA	NA
AK009_03198	513			hypothetical protein	ATGCAAACAGACATAATACAATCAGCAGTAACAGTAATAGACTTAGCAAAAATAAAAGGACTAATTGGTTTAGAAGATACATATGTAGTAGAAGTAGAGAAACTAGGGGTAGGAATTTTCAAGGATACCTATTCTATCATGACGAAAGAAAACTACAAACTAGCAAGATATAGAAAGGCAGAACATCTATTTAGATTATTGAGAGAAATAGACTTAGAGTTAGAACCTGTATTAACAGCACAAACAAGGCATCATGGGAAAGTTACAATACTAAAATCACCAAAAGAATTCAAGTTAGAGGTAATAAACTCACCAAAGAAGTTTCCTAAGACTTCTATTAAGAAAGCAAGGGGTATTGTATCAGGTAGGATTGTAGATGTAGCACTAGACGTAAAAGAGAACGAAATAGTGTTATATCAACCAAAATCAATTTGTATAAGAAATGGATTTAACGAAACAGGCGGTGTGTTAGAGTTTTCCAAAGAAAACGGAAGTCTAAACATTATAAAATAA	MQTDIIQSAVTVIDLAKIKGLIGLEDTYVVEVEKLGVGIFKDTYSIMTKENYKLARYRKAEHLFRLLREIDLELEPVLTAQTRHHGKVTILKSPKEFKLEVINSPKKFPKTSIKKARGIVSGRIVDVALDVKENEIVLYQPKSICIRNGFNETGGVLEFSKENGSLNIIK				NA	NA	NA	NA	NA
AK009_03199	471			hypothetical protein	ATGGGTTCTTACAGACCAAGGTCTTCGCAAGAAGTTCTAACACTAGCAAGACAAGAGGGTATAGGTTCTTGTGTAGTAGAAGTAGAGGGTACATATACAGTATACAGTTTAGCAAAGTATGTAGTAGGTAAGTATACAACAAAAGAACAGATAAATAGATTCTTAAAACTGGTAGATGTAAAATTAACACCAGTTATGGAGAAAGAAACGTTAGATGAAGGCAAAGTAACAGTATATAAACCATCTAAAAACTTCAGAATCATCCATATTAACCATGTAGAACAAGTACCAAACGTAGAAATCGTTCACAAAATTAGGGGTATTTCAGAAGAATCGGTTGTAGATGTATATGTAACTGTAGATAGAAACTTAGTAACTCTATACAAGCCAATCTATTTTAAAGTAAACGAAGGATTCAACAGAGTTATGGAGACTGAGGACTTCATTAAAGAGAACGGAACACTAAATTAA	MGSYRPRSSQEVLTLARQEGIGSCVVEVEGTYTVYSLAKYVVGKYTTKEQINRFLKLVDVKLTPVMEKETLDEGKVTVYKPSKNFRIIHINHVEQVPNVEIVHKIRGISEESVVDVYVTVDRNLVTLYKPIYFKVNEGFNRVMETEDFIKENGTLN				NA	NA	NA	NA	NA
AK009_03200	435			hypothetical protein	ATGCCAATCGTAACAGTAGTAGAAAGAACAGATATGTCAAGAAAGCAAAACATCGTAGTACACGGTGATAACGGAGTAGACTTATTCTACTTTTCAGATAGAGAGCAGTTAGACAGATGGTGTGACCTAACAGGTACGGAATTAACTATGATTGAAGAGTTTCAAACACCAAGTTACGGGCTTTGCACTCGTTACCAATCAAACCAATTAATCGGATTCAATACATATTATAATACAAAGACAATTCCAAGTGGTTCAGTAAAATGTAAAGGTTTAGTAGGGTATTACGTGGTAGACTGTTATGTAACAAAAGAAAAGAGTGTTACAGTTGTGCATACACCACATCCAAACGTACCACAAGTATTCAAACCATTGGAAATGAAAGCACAAGTAGAATTCTTAGAAGAAAACGGAAGTTTAAACATAGAGAAATAA	MPIVTVVERTDMSRKQNIVVHGDNGVDLFYFSDREQLDRWCDLTGTELTMIEEFQTPSYGLCTRYQSNQLIGFNTYYNTKTIPSGSVKCKGLVGYYVVDCYVTKEKSVTVVHTPHPNVPQVFKPLEMKAQVEFLEENGSLNIEK				NA	NA	NA	NA	NA
AK009_03201	453			hypothetical protein	ATGTATAACGGAGTAATGGAAGAAATTTATTTAACTGAGACGAGCGAAATTAACGAGAGACATAGAAGTAGGTATATTGTAAGATTTGTATCTCAAAATTATTATTTAGCTGAGTTTGATACACGAGAACAATTGAGTGCATGGTGTAAACTGATGGGAGTTTCTATGATGGAATTACCTAAAAACACAGCAATGTTCCCTGACACGGTTAAAGTTTATGAACTAAGTAAGTCAGTTCAACAGTTCTCCTTTGGAGACCTAAGTCAAATACCTCAAGGTGCAATAAAACATAAAGGAATGAGTAATGGCTCTATTGTAGACTGTTATGTATACGTAACACCGATAGCCTTTGGTATCTTTAGACCTAATCCAAACTTTAAAAACGTATATGTACCTTTACCGTTAGAAGAACATATGCAGTATATTAGAGACAAGAAGAAATTCTTAATCTAA	MYNGVMEEIYLTETSEINERHRSRYIVRFVSQNYYLAEFDTREQLSAWCKLMGVSMMELPKNTAMFPDTVKVYELSKSVQQFSFGDLSQIPQGAIKHKGMSNGSIVDCYVYVTPIAFGIFRPNPNFKNVYVPLPLEEHMQYIRDKKKFLI				NA	NA	NA	NA	NA
AK009_03202	438			hypothetical protein	ATGCAAGGAGCGAGAAACATCTATGTAACGGAAGTAGAAAAGGTAGACCCAAGATTCCCTCGTAGTAAATTCGTTGTTCATTACATGGGTTCAACTTTTCAAATGAATGCGTTTGATACAAGAACTCAATTAGACGCATGGTCTAAACTAATGGGAATTACATTAGTACATATAGACACGAATTCATCAGGTGTTACAACATATCGAATAGACCAAGTAATCCGAGAAGTATTGTTTTGGTATCCACAAGAATTACCACAAGGAGTAAAGAGACATAAAGGTCTATCAAACGGTAGTATTGTAGATTGTTACGTATATGTTCAGCAAGGGGTAACGACAGTATTTCGTCCAAACCCGAATGCAAAAGAAGTATACAAGCCTTTACCAATAGAAGAACATATTGCATTTAACAAGGACAATACAAAATTTAGAGTCTAA	MQGARNIYVTEVEKVDPRFPRSKFVVHYMGSTFQMNAFDTRTQLDAWSKLMGITLVHIDTNSSGVTTYRIDQVIREVLFWYPQELPQGVKRHKGLSNGSIVDCYVYVQQGVTTVFRPNPNAKEVYKPLPIEEHIAFNKDNTKFRV				NA	NA	NA	NA	NA
AK009_03203	495			hypothetical protein	ATGAAAATTCGTATTACAGGTATAACGAGTCCACAATTCAATAAACACCGTAGTAAATTTATGGTACATGGGGAAGATAGTTCTATAATAGCTGAATTTTCAAAGTATGAACAGTTAAAAAGATGGGCTGAGTTAGTAGGCGTAAAACTAGGTATGCCAAGAGCAGATTATTTTGAAGGCTTGCAGGTAATGGAGTATAGAACGGAACAAATTTTTCATACGTATGAGTTTTTCAGATTGAGAGATATACCTTTACATGCTGAATCTTGTCAAGGGGTATCATATGGAAATCTCGTTACGTGTTATGTACATGTAATCGGAAATGTCACAACGATTTATAGACCTAACCCTCTTCATAAGGACGTTTTTCTACCTTTAGAGGTGGCGAATCATATTAAGTTCATTGAAGAGAATGGAACGTTTAATAAATATAAACAAGTCTATGAGAAAGAAAACGAAATGTCATATTTCAAGGACTTGTATGATTTGTATTAG	MKIRITGITSPQFNKHRSKFMVHGEDSSIIAEFSKYEQLKRWAELVGVKLGMPRADYFEGLQVMEYRTEQIFHTYEFFRLRDIPLHAESCQGVSYGNLVTCYVHVIGNVTTIYRPNPLHKDVFLPLEVANHIKFIEENGTFNKYKQVYEKENEMSYFKDLYDLY				NA	NA	NA	NA	NA
AK009_03204	267			hypothetical protein	ATGAAGTATGTAAACTTAGATGAACAATTTCATAGTTTTCTAACTTGGGATAAGATGTTTGATAGTGAAGAAGAGTTAGTCAAACTAGCAAAGAAGGTAGACATCAAGAAGTACCGTGCTAGAAGTTGCGCTTTTGCTAGTAAACTTGTTTCTATTCAAGTTGTGTTGCAGAAAAGGAAAGAGTTAACAGAGAAAGAAATGAAAGAGTTACAAAATATCGCAGGAGAAATTTACAAGTATTCCAATATTGAAGGGGTTAGTTACTAG	MKYVNLDEQFHSFLTWDKMFDSEEELVKLAKKVDIKKYRARSCAFASKLVSIQVVLQKRKELTEKEMKELQNIAGEIYKYSNIEGVSY				NA	NA	NA	NA	NA
AK009_03205	288			hypothetical protein	ATGGATAAAGACTTAAAGTATGTATTAAGTCGCCAGTATTACCAAAACAATGAGTATAATGGAGGTCATCAGTATAGTTTAGATTTATTAGGTGACAAACCATTCGAAGAAGTCGTAAGAGAAACAGAAGAGGATTTAAGAAAAACGAGTGAATTAACAATTATAAACACAGCTTTAGTTGGTCATTATTGTAGAATATGGGTAGAAGACCGAAGAACAGAAGGTAAAACTTTAGTTATCGAGTTAAATGTTATTTATGAACGTGATTTAGCTAGATTAATGCGCTAA	MDKDLKYVLSRQYYQNNEYNGGHQYSLDLLGDKPFEEVVRETEEDLRKTSELTIINTALVGHYCRIWVEDRRTEGKTLVIELNVIYERDLARLMR				NA	NA	NA	NA	NA
AK009_03206	150			hypothetical protein	ATGTCACGTTATGCTAGAGACAGATTTAGTAATTTAAAAGTTATTAGTATCAATGAAAAAGAAGGAACATTTGTAGCAGAAGACCTGTCATTAGGTATCAGATATTCTAACTTAAAGATTAAAGACTATTTCTTTTACGATTTTGAGTAA	MSRYARDRFSNLKVISINEKEGTFVAEDLSLGIRYSNLKIKDYFFYDFE				NA	NA	NA	NA	NA
AK009_03207	264			hypothetical protein	ATGAAACAGCTAGTAGGAGAAAACTGGAACAACTATTATTTCGGTAAACTACCTTGGGATAAAATGTTTGATAGTGAACAAGAATTACTTCTTTGTTTAGCTAATATAGACTTAGAGGTATTTAAACAAAAAGGTTGTAAAGGTTGGAAGTATGTAGAAGGGTTTCAGAAGAGACTAGCTAGTGGGCAAGGTTTAACAAATCCACAAATCACACAAACGAAGAGAATCGCAAAAGAGATATACAAATATTATAACAACATGTAA	MKQLVGENWNNYYFGKLPWDKMFDSEQELLLCLANIDLEVFKQKGCKGWKYVEGFQKRLASGQGLTNPQITQTKRIAKEIYKYYNNM				NA	NA	NA	NA	NA
AK009_03208	273			hypothetical protein	ATGAAACAGATAGTTAGGGAAGATATATTAGATTTTCAGTTGGGTAAACTACCTTGGAATAAAATGTTTGAGAATGAAAGTGAATTAATCCATGCTCTAACCCTTGTAAACTATGAAGATTACAAGGGAAGGGGTTATGAGAATCCAAAACTAGTAAAGGATTTCCAAAGTAGACTTGCTTGTGGTTTACCTTTATCCGTATCACAAGTATTACAACTAAAAAGAATTGCAAAAGACATCTATACGTATGTAAGTAAGGAGTGTGTAGGATGA	MKQIVREDILDFQLGKLPWNKMFENESELIHALTLVNYEDYKGRGYENPKLVKDFQSRLACGLPLSVSQVLQLKRIAKDIYTYVSKECVG				NA	NA	NA	NA	NA
AK009_03209	771			hypothetical protein	ATGGCAACAGATTACATTAAACAAGTAGAAGAAGTTGGAGAAACGGTTAATTCATCATATGGGAAAGGAGAGGTTAAGAAATTAATCTCTTATATGACAGGAAGAGACTTGATTGCAAATGATGAGGAACTAAATTTATACGCAAAGTTGAAGATGCTAACTTCACAAAGAGCCTATGAAATTGATAAAAATCAACTGAACACGGATGAAGAAGTAATGTCTAATCGCATTGCATTGAACCACACTGTATTTTTAATCAATTCTTTATTAAACTATAACTTGGATTCAGGGACTTCAAAGAAAGCAAAATACAAGCGTACCTTAGAAGGAATGAATATTGAGGTAGACATTAATTCGTCAGGGTTGCACTTAATTGTACGTCAGCACGGGAAAGTTGAGTTAGATAGACGTATAGGTGGGCGAGACATACATACGTATGTGGATTGGTTAAAAGTAAGAGAAGACGTCCATACATTAGATACAGGGTTATTGCAATTAATAGACTCTACGCTAGGGGTAGTATTCGAATGTCGAGTAGAAGTAGACAAAGAAGACTATAATGAACTGGTAGATAAAATTGAAATGGAGTTTCACAATGATGGTTTAGAAACATTTGAAATCATTGGAGACCCAAATAACTTCTTCCCAAAACAAGAAGGTAAAGAGTTATTACGTTTATCAAATGTGTATTATAATCATAATATCCTAGACTACAAACAAGCAATTGCCATTGTAAATGATGCTTTAAAAGAGCAGGGGTATCCAAAATGA	MATDYIKQVEEVGETVNSSYGKGEVKKLISYMTGRDLIANDEELNLYAKLKMLTSQRAYEIDKNQLNTDEEVMSNRIALNHTVFLINSLLNYNLDSGTSKKAKYKRTLEGMNIEVDINSSGLHLIVRQHGKVELDRRIGGRDIHTYVDWLKVREDVHTLDTGLLQLIDSTLGVVFECRVEVDKEDYNELVDKIEMEFHNDGLETFEIIGDPNNFFPKQEGKELLRLSNVYYNHNILDYKQAIAIVNDALKEQGYPK				NA	NA	NA	NA	NA
AK009_03210	318			hypothetical protein	ATGCACGAGGAATTAAAGGCAATTAGAGAAAGTCTAAATTTAGAATTAATAAGAGAAGAGAAACACCAATTAGTAACAGTAAAAGGTAAAGGGGTATCAGCTTCTTATTATGAAGTAAATAAACCGGGTTCTAAGTTAATTAAACGTTGTTTTGCTGAGATTGATGGTTATAATTTCGGAACTACAGGTGACAGTGGTGAAAGACCATACTGGAAGAAAAACGGTAGAGGTCGTATGAAAAACGATGGTGAAGTTTGGGATAAACTATATTCATTAGATGACTATATTTTAAATGAATGTGGGTATCATTTGTGGTAA	MHEELKAIRESLNLELIREEKHQLVTVKGKGVSASYYEVNKPGSKLIKRCFAEIDGYNFGTTGDSGERPYWKKNGRGRMKNDGEVWDKLYSLDDYILNECGYHLW				NA	NA	NA	NA	NA
AK009_03211	288			hypothetical protein	ATGAATTTAACAATGGAGAGAACAGAAAAGAATTTTGTGATAGTAAGAGGTGAAGACTTAGAGTTATACTACTATGAAGCATATGAACAAGGGTCTTGTGCATTAAAACGTTCTTTTGGTACTGTAAACGGTTATAAATTTAGTACATTCGAAAGCCTTACTGGGAAACCATATTGGAAGAAAAATGGTCGAGGTCGAATGAAGAACCAAAAGGAAGTAGAAGCTAAACTAGTAGAAGCAGATTCTTTCTTAGTAAACGAACATGATTGTTATTTCTATAAAAGATAG	MNLTMERTEKNFVIVRGEDLELYYYEAYEQGSCALKRSFGTVNGYKFSTFESLTGKPYWKKNGRGRMKNQKEVEAKLVEADSFLVNEHDCYFYKR				NA	NA	NA	NA	NA
AK009_03212	438			hypothetical protein	ATGCTAAAAGTAAAGATAATTGAAATTGAAAACTCTAAGAAATCTCATGTATATGTACACGATGAGCAAAATAACGTATTAGTAGATGGTACAGACAAGGATTACTTTAGAGATTGGGCAAGATTAGTTGAAGTAAACCTTGATGTTTTCGACTCTAAAACATACGAGTTTGAGACAATAACTATTACAAACTTTGTAGTAGATAAGGCTATCAAGGTAAAAGAGTTTTCAGACAAGAAAGAAGTACCACTAACGGCTAGACCAGTTAAGTTAGCTCTAAAAGGGAATACAATTTCAAAAGTAGTAGGATATGTAGATGTTAAAGAAAAAGCAACTGATATTTACAAACCAAAACAAGGTACAAGTGAATTCGTAACACCAATAGAGTTTACAATAAACGACAATATTCAATTAGAAGATACATTCATTTACCTATAA	MLKVKIIEIENSKKSHVYVHDEQNNVLVDGTDKDYFRDWARLVEVNLDVFDSKTYEFETITITNFVVDKAIKVKEFSDKKEVPLTARPVKLALKGNTISKVVGYVDVKEKATDIYKPKQGTSEFVTPIEFTINDNIQLEDTFIYL				NA	NA	NA	NA	NA
AK009_03213	498			hypothetical protein	ATGCTTACAATTACAATCGCAGGAGTACCAAACGAAGAACGAAAATCAGTAGTTATTGAAAATAGTGGAGGGGTAGTGTGGAAAGAGGAATCAAACCAAGCATTAGAGAAATGTGAAAAGTGGTGTGAAACAGTAGGTATTCCATTTTCATCTATCAATTTCTCTCATTCAGCTTATTATGGCGTAAACATGATGATTGCTACAGTAAAACATAGTGTAGCAATTAATCTATACGGTGATAATGTAGATTTAGATTTAACAAGTACAGAGAAAATTAAGATAGACCTTGGTTTAGAAGGTGAAAATCAGTATATTATAGGTAACGTCTTAAAAATAGATAACAAAACAATCTTATATGTTCCAATCTATGAATCCGAAATGGCTCAAAAGTTTCTACAAGAAGCAAGAGAATCAAGGGAAGACATAGAAGTATTACCTATCAGTTACATTGAATATGTAACAGCTATTGCAAAGATAACAAGACAAACTTTTCGTTAA	MLTITIAGVPNEERKSVVIENSGGVVWKEESNQALEKCEKWCETVGIPFSSINFSHSAYYGVNMMIATVKHSVAINLYGDNVDLDLTSTEKIKIDLGLEGENQYIIGNVLKIDNKTILYVPIYESEMAQKFLQEARESREDIEVLPISYIEYVTAIAKITRQTFR				NA	NA	NA	NA	NA
AK009_03214	516			hypothetical protein	ATGATTTCAATTACAATTGCAAGAAAAGAAGGGGTAGACAAAGAAGTTGTGCTTGTAAAGAATACAACAAACCGAACTCTATTTGGAATGGAATCAGACAATGCAGTAGAAGAGTTAAACGAATGGCTTAGTTTAGTGGGAGTTAACTTTAATTCTATTTTCTTTAGAAGAGAAAACCTATTCGGTGTATTCGTAAAAGATGCTTATGTAGAACACGATGTAAAGCTGTACTTCTATAAGTCTATAAATGCAGACATCATTCCTACAATGAAAGAAGTAATAGTAGAACGAAAAGTAGTAGAAGATGGAAAAGAAGTTGTGAAAAACACCCTTGCTTACATTGGTAACTTTTGTGGGTTAACAAGCATTTATTTACCAAAACTAGATTCAGAAGTATTTGAGTCTTCACATAAAGAAGCATTAGACAAAGAAGGTAAATTACCAGTTTTAAAATTAGGTTTAGAAGACACATCTATTGATGTAGAGTTTGAGCAAAGAGTAAGAGAAAACTATTAA	MISITIARKEGVDKEVVLVKNTTNRTLFGMESDNAVEELNEWLSLVGVNFNSIFFRRENLFGVFVKDAYVEHDVKLYFYKSINADIIPTMKEVIVERKVVEDGKEVVKNTLAYIGNFCGLTSIYLPKLDSEVFESSHKEALDKEGKLPVLKLGLEDTSIDVEFEQRVRENY				NA	NA	NA	NA	NA
AK009_03215	492			hypothetical protein	ATGTTAGTTGTTAAAACAGAGGTTAATGTAAACAAAACAACAAAAGTAGCAAGAGTACTAGACACAAGAGAACGGGTTTTATTTGAAAGTCAGTCAGGAAAAGCATTGGAGAATTTAAAACAATGGTTTGAACTGATGGGTATTGATGGTGAAAACAAACAAATGCCTTATAAATCTACAATAGGAGAAGTACATAAGGATAATTGGGTTCTTAACCATTACATAGAATTAGCATACTTTGATAGCGTAGACAAAGTACCTACAGATTCAAAACCATGTAGAATTCATGCGTCACAGTATAGTACATCAACTATGTCTTCCCTTACAGAAACGATGTGTTTCGTCCATGCAAAAGGTAGTGTTACAAGAGTATATGTACCTTTACAAGATTCAGAGGTATTTCAAGAACTAGCAAATAAAGTAATAAACAGTATAGAAACTATACCTGTTTTACAATTACGTCCAGTAACGGAAGGGTTGGTTAGGTTATGA	MLVVKTEVNVNKTTKVARVLDTRERVLFESQSGKALENLKQWFELMGIDGENKQMPYKSTIGEVHKDNWVLNHYIELAYFDSVDKVPTDSKPCRIHASQYSTSTMSSLTETMCFVHAKGSVTRVYVPLQDSEVFQELANKVINSIETIPVLQLRPVTEGLVRL				NA	NA	NA	NA	NA
AK009_03216	246			hypothetical protein	ATGGTTAATCTTAATGTAGGAGTTACAACAGCAAAAGGTGAAGAACTAAAATTAGGTGATGTGTTAAGTGCAGGCGGATTATTAGACACAGTTGTTGTAGTAGACGAAGAAGGTAACTTTCATGCACAAGTAGTAAGTGAACCGTTTATCGCATTTGAATTAGAGTTGTTTATCAGACAAAACATACATGTAGAAGTAACAGACAACATTGTGAAGCGTAGTAAGAAGAAAATCTTTGAAGAGTAG	MVNLNVGVTTAKGEELKLGDVLSAGGLLDTVVVVDEEGNFHAQVVSEPFIAFELELFIRQNIHVEVTDNIVKRSKKKIFEE				NA	NA	NA	NA	NA
AK009_03217	423			hypothetical protein	ATGGGGAAATACGTTGTAGACCAAAAGGTAGTTGCTTACACATTACTAGGATTAGCACCATGTAGAGTTACAAGAGTAGGTTGGATTTTCATAGGGGTACAGGAAGAGGAAACAGGACATTATTATTCCGTAACGAAAAAGAAACTAACACCTATAGAGGAAGAGGAACATTACCTTGTAGAAGAGAGTATTGATGAAGAAGGGGTATTTGACATCGGTAGGTTGTTTGCTAAAATTACAGCAGAAGACATGGATGTTGCAAAGAAATCATTTGAAGAGAATGAAGACTTCCCTAAATATGAAGATTTCCATAAACCTTCAGAGGGAAAACTGTATGACGGAGAGTATTACGTAACAATTAAAACAGGTAAAGAATTATTAGAACAATACTTTAATCGAAAAGGAGCAGTAAAGAATGGTTAA	MGKYVVDQKVVAYTLLGLAPCRVTRVGWIFIGVQEEETGHYYSVTKKKLTPIEEEEHYLVEESIDEEGVFDIGRLFAKITAEDMDVAKKSFEENEDFPKYEDFHKPSEGKLYDGEYYVTIKTGKELLEQYFNRKGAVKNG				NA	NA	NA	NA	NA
AK009_03218	627			hypothetical protein	ATGAGCAACTGGTTACATAAGGCAAAACTAAACTTATTCAGCAAGAGTGTAGAAAAGCGTAATTTTTCAAAGGCAAAGCAAGAGTGGGTATATTATGGAATGGTAGACAATAAGTTTTGTGGAGCAAACTGTCATTTATGTTGTCATGAGAGAATCCGTTATGAGTTTACAATTATTAATCGTTTAAACAAACAAGCAATGGTAGTAGGTTCTGAATGTATCAAGAAATTTACAGAAGGGTTTACAGAAACATTCTATGATACAAAAGGACAAGTGGTTACAGAGAAGCGTTTAACAGAAGATAAGAACGAGTATCTAAAACGATTCTTAAACCGTGAATTAGATGAGAAAATCGTACCACAAAATAATAACTTCTATAATAGTATCGTAAAACAAATTAAAGAAGATGGAAAACTGTCTCCTTTACAAATTAGATATTTAAAGGGCTTTTATAACTCCTTAAACGAAACAGGTCAACAAGCATTTAAGATGGTGGTAAAGGTTAATATCAAAACCAATAAGCAAAAGGAACAAATGAATCAATTTAATTGGTATGACTTACAATTTATTGGTCAGTTTATGTCTTCACAACAAAGAGACCGCTATAATATTACATTAAAAGAATAA	MSNWLHKAKLNLFSKSVEKRNFSKAKQEWVYYGMVDNKFCGANCHLCCHERIRYEFTIINRLNKQAMVVGSECIKKFTEGFTETFYDTKGQVVTEKRLTEDKNEYLKRFLNRELDEKIVPQNNNFYNSIVKQIKEDGKLSPLQIRYLKGFYNSLNETGQQAFKMVVKVNIKTNKQKEQMNQFNWYDLQFIGQFMSSQQRDRYNITLKE				NA	NA	NA	NA	NA
AK009_03219	453			hypothetical protein	ATGATTAAAGTATATAAAGTAACAGCAAAAGACTCCAATATTGTTACCTTGTTTGTATATGATGGTAATAAAAACTTATTAATGGATTCACCAGACGTAGAAGTATTAGATGATTTCTTAGATTTATTAAACTTAGGTTTATCTGATTCACCTCAAATTACTGATTTAGAAACAATATCTATAGAGAAATATTCATTAGAAGTAAGCATTAAAACAAAAGGTTTTATGAAATTAGACGAATTACCTAAGTATGTAAAACAAGTAAAAGGGATTGTAGTAGAGGGAGCAGAAGAACCTTATGCAAGAGTAGAGGTTTTATGCTATGTACATGTAGGTAACCAAGAAATAACATTTTACAAACCGCTTGTACAGTCTGAGTATTTTAATCATCCTTTTAACTTATTAGATGGAAGAGAGTTTGATAATTTACCTCCATTTAAACTATTCCTGTAA	MIKVYKVTAKDSNIVTLFVYDGNKNLLMDSPDVEVLDDFLDLLNLGLSDSPQITDLETISIEKYSLEVSIKTKGFMKLDELPKYVKQVKGIVVEGAEEPYARVEVLCYVHVGNQEITFYKPLVQSEYFNHPFNLLDGREFDNLPPFKLFL				NA	NA	NA	NA	NA
AK009_03220	447			hypothetical protein	ATGATTAGAATAAACCGTATTGTAGCAGAAAACTCTGAGGAAGAACTATTTTACGTATATGATGAAGTAGGGAAACTTTTATTAGATGGTGCAGACAAACTAGTATTCGAAGAATGGTCTGAATTCGTAGGGGTAGAACTTCCAAAAGAATTTGTACTTCATAGAATTGGAGAAATTCAAATTACTGTATTTGAATCAGACAGAGAAATTGAAATAGAAGAATACATGGATGCAAACAAACTATTTAAAAATGTAAAACCAATTTTAACATATGTAACTAACAGCGAAAGAAATCCGAACATGCGAGTATTAGGTTTTGTTAAGGTAGGAGAACATAAAACAACAATGTATAAACCAGCAAAAGAGTCACAGTATTTTGACCACCCTAGAAAATATATGAATAAGGAAGCATACGATAAGTTACCGCAAATCTATTTATTTATGTAA	MIRINRIVAENSEEELFYVYDEVGKLLLDGADKLVFEEWSEFVGVELPKEFVLHRIGEIQITVFESDREIEIEEYMDANKLFKNVKPILTYVTNSERNPNMRVLGFVKVGEHKTTMYKPAKESQYFDHPRKYMNKEAYDKLPQIYLFM				NA	NA	NA	NA	NA
AK009_03221	471			hypothetical protein	ATGTTATTCATTACAACGGTACAAGCAAAACAGTCAGACATTAAAACAAGTTATGTGTATGATACAAGTGATAACTTAGTTTTAGATGGGGCAGAGTCACATACATTTTTAGCTTGGTGTGATTTAATGGGAGTAGACTCCTGTATATCAGAAACAAAACAAACATTACAAGCTATTACTATTACAAATAGAGTTGTTAATCGTGATATTGTTGTACAAGAGTTTGAGGAATTAGACGAAGTACCAAAAGATGTAAAGTATCTAAGAGCAGAGACGGTTGTAGAAACAGCTAACGATACAAAATGTCAAGATATTTTATGTTTTGTTCATGTAGGAGAAGAACGAACAACAATTTATAAACCTGTTTATGAGTCAAAATATCATGCACATCCAAGAACGTTATTAAGTAAAGAAGACTACAATGAAAAAGTAGCACCAATTATTCTACAAGTAAATAAAGGGGTAAAGTAA	MLFITTVQAKQSDIKTSYVYDTSDNLVLDGAESHTFLAWCDLMGVDSCISETKQTLQAITITNRVVNRDIVVQEFEELDEVPKDVKYLRAETVVETANDTKCQDILCFVHVGEERTTIYKPVYESKYHAHPRTLLSKEDYNEKVAPIILQVNKGVK				NA	NA	NA	NA	NA
AK009_03222	357			hypothetical protein	ATGTGTAACGAAACAAAAGAGATTACAAAAGAAGACACAATAAAAATGCTGGAAGAAGCGAAAAATCTTCCAGTAGCAACTTTAAAGGATATTCCTTATATACCATCAGGTATCTCAACTGAAAAGCTAGAAGAGTATTTAAAAGATTTTGCAAAACCAACTGGAACATGTTGGGTGTGTAAGAAATCACTATATTTAGAATGGGGTCTTCAACACGGTATTGCATTTTGTACAAACTGTGGAATGCAAGTAACGAAATATCATTATTTCGATAATGATAAAGGAAAACGAGTATTGGTAGATGTTGCGTTACAAATTCATCCTAAACACTGTTCAGTAGAAGAAAATAACGAATAG	MCNETKEITKEDTIKMLEEAKNLPVATLKDIPYIPSGISTEKLEEYLKDFAKPTGTCWVCKKSLYLEWGLQHGIAFCTNCGMQVTKYHYFDNDKGKRVLVDVALQIHPKHCSVEENNE				NA	NA	NA	NA	NA
AK009_03223	330			hypothetical protein	ATGGAAAACAAAGAAGTCAGATTTGCAAACGAAGAATTTGCTAAGGTAGCTTTTGTATTTGGAGCATTACAACATAAATTAAATCCAGACAAACTATCTGTAACTTGGGATGATATTGTAGTAGAGGTGGAAAACATCGTGTCTGATTGGTATGCTGAAAAAGAGGTAAGAACGCTTAATGGTGAATCTATATCTTGGGGTAATGTAGTAGAGGTAGAAAACATTTTGTCCGATGGGTATACTGAAAAAGATGTAAGAACGTTTAATGGTGAGTTAGTATCTATCATGTCATATGCACAACGAGTAATTTTAGAAAAGTTCTGTAACTGA	MENKEVRFANEEFAKVAFVFGALQHKLNPDKLSVTWDDIVVEVENIVSDWYAEKEVRTLNGESISWGNVVEVENILSDGYTEKDVRTFNGELVSIMSYAQRVILEKFCN				NA	NA	NA	NA	NA
AK009_03224	822			hypothetical protein	ATGTTGGGAACAAACAAAGGGTATGATTATATTAGTCAAGTAAGTGAAGCAGTAAACAAGATTGAAGAGTATATTATTAAAGGTAGTGGCGAAAGACTAGTCGAAGCAATGAAGAAACGACAAGCAATCTTTGAATCGAAAGAATTATCGACTTTACGTAAGTTGAGACAAATTACATCATGGAGAGATTATGATTTAACAGAATACAGTTATGGTCAAAAAGACCTATTAGAATTACATAAACTAGCACTAAAACATACAATCTATTTAATAAACAGCATTTTGAAGTTTGAAGAAGTTACTAAAAACGGAAGTAACTTAGATTATTCTCGTACAGTTGATGGTTTTCGAGCAGATATGCGAATTAATGAGAAAGGATTCATATTATCTATTCGAAACGGTGAGAAAACTATATTAAACACAATAGTAGGAAGTTCAGAACTTATTCATGCAAGAGGTTGGTATGAAACAACGAAAGAAGTAAGAGAAAATGTAGACTTTGGTCTTTGGATTGAGAACTTTGGAACTTCTTCTGATATGTTTGAATCGGTATATAAAGTAAACCCAAACAATATTGAACCAATTAAAGCAAGAATTCGGAAAGAGTTTGTAGCTAACGGTTTAATGACACAAGTACGAGCAGGTGGAGGTTGGACTGTAGGAAATCAACATATTTGTAAATCTTCAAGTGCAACTCATGATGATATCATTTGCATCCACACAATGTATTATGGTTTACATTATTCAGAGATTCAACTTGCATTGGATATCGTAAACGCAGTTATTAAAGAAGAAGGTTATTCTACTAAATTTGAGAGATAA	MLGTNKGYDYISQVSEAVNKIEEYIIKGSGERLVEAMKKRQAIFESKELSTLRKLRQITSWRDYDLTEYSYGQKDLLELHKLALKHTIYLINSILKFEEVTKNGSNLDYSRTVDGFRADMRINEKGFILSIRNGEKTILNTIVGSSELIHARGWYETTKEVRENVDFGLWIENFGTSSDMFESVYKVNPNNIEPIKARIRKEFVANGLMTQVRAGGGWTVGNQHICKSSSATHDDIICIHTMYYGLHYSEIQLALDIVNAVIKEEGYSTKFER				NA	NA	NA	NA	NA
AK009_03225	450			hypothetical protein	ATGAAAGTAGAATTAAAGTACAGACTAAGAGGATTCAATTTAAAACTATTATCAGGTGTTGTGTCAGAAGAAGATGAAGTTGTGTTTGTTTCACCGCTACCTGAGTTAATGGAGAAATTTCTAACAGTAACAGGTATTGAACTACATACAGTAGATAATACTTCTACAATTTCAAACATAGTTACGATAGAGTCTAATGTAGACTACAATCTAGTATATAAAACATTTAACAAAGAAGACGAATTAGATAATGAGTTAATACAAATTATCACAAAAGTAAACGGATTTAACGTAGAAGGCTGGTTAGGGGTATATGATAAAACGATTGTTGTATATCATTTATCACAAGAATTAAGCGATGAAACATTAAAGTCATTAGAAAAAGAGTTTCTAAGTAGTAACATATTAGTAGATACATTAGCTTTCCAAATCCCAGTAATTAACGGATAA	MKVELKYRLRGFNLKLLSGVVSEEDEVVFVSPLPELMEKFLTVTGIELHTVDNTSTISNIVTIESNVDYNLVYKTFNKEDELDNELIQIITKVNGFNVEGWLGVYDKTIVVYHLSQELSDETLKSLEKEFLSSNILVDTLAFQIPVING				NA	NA	NA	NA	NA
AK009_03226	477			hypothetical protein	ATGAAAATGTCAATTAAGTATGAACTAAAAGGTTTACAGTTTAAACTAATGAATGGTATTATTCAAGACATATCTGATATACTGTTTCATGCCAATAGTGAAGAAACACTAAAACACTTCTTAGATGTGTTAGAGGTAGAACTAAGTGGCGTACACGGTGCAGAGGTTTTAGGAGAAACACTTTATATTAGTGTAGATTTTGATTTTGAATTTACATACAAACCATTTACAAGTGTAGACGAAGTACCACAAGGTTTGGAACAAGTTGTTACTTATGTAGATGAAAATACGCTATATGGTTATATGGAAGTACAAGGTAAAAACATTATTGTACATCATTATGCATGGGATTTAGGAGAAGATAAACTAGAAGAGTTAAGCACAAAGTTAATTCACGAAGACTTGACAGATAAAGTATTCTTCCACATTCCAAAGCCAAACAGAGTACAATACAATATTCCAATCATCACTGAGTAA	MKMSIKYELKGLQFKLMNGIIQDISDILFHANSEETLKHFLDVLEVELSGVHGAEVLGETLYISVDFDFEFTYKPFTSVDEVPQGLEQVVTYVDENTLYGYMEVQGKNIIVHHYAWDLGEDKLEELSTKLIHEDLTDKVFFHIPKPNRVQYNIPIITE				NA	NA	NA	NA	NA
AK009_03227	498			hypothetical protein	ATGTTACAATATAGGTATGTTAAAGATGAGGGAGAGATAAACGTGATTATTCAAATGAACTATGAACTGGTAGATAGTGAGTTAAAACTTAAAGGTGGTAAAGTAACTGATAATAAAGAAAATGTATTCTTTTCAGCGAGTAGCAAATACGCAATGAGAAAGTTTTTAGAACTAACAGGTATTGAGTTAAAAGGAAGACAAACTTTAGGTACAGTAGGAGAAACATATTATACTTCTACTATGTTAGACCGTGAGTTTGTATTTAAACCCTATAAAGATGTTGATGAATTAAATGTAACATTAGAGTTAGAGCGTGTAATTACCTATGTAGACGGTATTTTAGTGGATGGCTTCTTAGAAGTACAAGGTAAAACATTAATTATCCACCATATCTCAAAGGAAGTAGGAACAGACTATTTAGAGGAACAAAGAGATATCTTACTAAGTAGAGACTTAGGAAGAATGTTACACTTCCATGTACCGAATGAAACTAAATAA	MLQYRYVKDEGEINVIIQMNYELVDSELKLKGGKVTDNKENVFFSASSKYAMRKFLELTGIELKGRQTLGTVGETYYTSTMLDREFVFKPYKDVDELNVTLELERVITYVDGILVDGFLEVQGKTLIIHHISKEVGTDYLEEQRDILLSRDLGRMLHFHVPNETK				NA	NA	NA	NA	NA
AK009_03228	450			hypothetical protein	ATGAAAATCACATTAAACTATAATCGAACAATCAAAGGTATGGAGTTAGTAGGAGGTCGAGTAACACATCAAGACGAGTTACTATTCTTTACAAACCATAAACCTGTATTAGATAAGTTTTTAGAAGTAGCTGATATTGCAGTATCAGGTGTACCAACTGTAGAAGTACAAGGTGATGTAGTATCACTTACAACATCATTAGACCGAGAATTCATTTACAAACCATATATGAGTACAGAAAAGTTACCATTAGGATTAGAACGGGTAATGGTTCATATTGATAATGTTTCAGTTGAGGGGTATATGGAAGTACAAGGTAAAAACATTATTGTACATCATCCTTCACGAGAATTAGGACAAAAGAAACTAGAAAAATTAGATGAAGAGTTAATGAGTGGAGACCTACTTGGTATGATTCAATTCCACATTCCATCATTAGTAAACGCATAA	MKITLNYNRTIKGMELVGGRVTHQDELLFFTNHKPVLDKFLEVADIAVSGVPTVEVQGDVVSLTTSLDREFIYKPYMSTEKLPLGLERVMVHIDNVSVEGYMEVQGKNIIVHHPSRELGQKKLEKLDEELMSGDLLGMIQFHIPSLVNA				NA	NA	NA	NA	NA
AK009_03229	453			hypothetical protein	ATGGAATTAAAAGGTTTAGTCGTTGAAACATATTATACACAAAGAGATTTAGAATACACATTACAAGGGGCTATGGTGTACTATGAAGGTAAATTAGTGTATCACTGTACAGATATACAAACCTTCCGTAAATTCTTATCCATATTTAATTTAGAATTATATAGTCCTACTAAATCAGAAACTACAAGTGAAGGTGTTACAAACACGTATAAAACATATAAAGAATTCAAACTAGAACCTTACACATCTATGCATGAACTACCTGATGAGTTAATGATGGTAGAAGTTGTATTAAACGGTTCATTATATGTAGGCTATGTTGAAGCGGATAAAAATAACATTACATTATATTATCCAAACTTTGAAGAAGATAAAAATCTACACAAAATGACACATGAACTATCTAAGTATCGTAAAACAATGTCGTCTAATTTAATCTTTCATATTAATTAA	MELKGLVVETYYTQRDLEYTLQGAMVYYEGKLVYHCTDIQTFRKFLSIFNLELYSPTKSETTSEGVTNTYKTYKEFKLEPYTSMHELPDELMMVEVVLNGSLYVGYVEADKNNITLYYPNFEEDKNLHKMTHELSKYRKTMSSNLIFHIN				NA	NA	NA	NA	NA
AK009_03230	471			hypothetical protein	ATGATTATCGAAGTAGTGTATAAGAGAAGAAAACTAAAAGTAGAGTTGCAAACAGTAGAGGTTAAACAAGAAGGTAAATTACTATTCTCAACAGACAGTGAGAAAGTTTTAAATTACTTTATGGAAGCAATAGGGGTAGAAATCGGTGAACCTCTTCAAGAGTCTATTGAAAATGGTAAGTTCGTTGTTACATACCTAGTTGGAAAGAAACTGGTTACAAAACCAATTCATTCTATTAAAGATGTAACAAAACCATACTCAAAATGTATTGTAGGGGTAAGAGATTGGAAAACGGAAGGTTTCTTAGTTCAAGAGGATAATGGTGTAACTTTATATCATTACGCAGAAGACATGAAAGATGAAGTATTAGACAGTATTAGTTATGTATTAATTGAATCAAACAGAGAGTTCCAACTAGAAGAGTATCCAATCTTTTCAGTAAGTGAACTAAACGGAGAGTTATCAGCATAA	MIIEVVYKRRKLKVELQTVEVKQEGKLLFSTDSEKVLNYFMEAIGVEIGEPLQESIENGKFVVTYLVGKKLVTKPIHSIKDVTKPYSKCIVGVRDWKTEGFLVQEDNGVTLYHYAEDMKDEVLDSISYVLIESNREFQLEEYPIFSVSELNGELSA				NA	NA	NA	NA	NA
AK009_03231	474			hypothetical protein	ATGGAACTAAAAATGACATACCGACAACATGATTTTCAGTTTCAGTTTTGTGTAGCAAGCATTCTAGACGGAGATAAAGAATTATTCCGTACAAATAATATGGATGTATTTCGAGATTTACTAAAGAAAACGGAAATCAAAGTAGGTATGATATTTGAAGCTTATGCTGATGATGATTCAGTTGTAAACCGTTACAAGCTAGACAAGAGATTTGAATTTAAGCAATATAAGAGCTTAGACGAAGTACCTCATATGAGAAACGAATGCGTTACTGTTATAAACAAAGAGCATACAATCGGTTATATTTGTGTGAGAGACGAAGTAGCAACTATCTATTATCCTTCTTATGATTTTACAGAAGATGAATTTAAAGCGTTATACACAAAACAATATATGGCAGGAATAGAACCACAAGTATATAAACCAGTATTCGTTATGAATCACATTTTAGGGGTAGGGAGTGAACAAGTATGA	MELKMTYRQHDFQFQFCVASILDGDKELFRTNNMDVFRDLLKKTEIKVGMIFEAYADDDSVVNRYKLDKRFEFKQYKSLDEVPHMRNECVTVINKEHTIGYICVRDEVATIYYPSYDFTEDEFKALYTKQYMAGIEPQVYKPVFVMNHILGVGSEQV				NA	NA	NA	NA	NA
AK009_03232	492			hypothetical protein	ATGTTAAAACTAGAAACGAATCATATTATAGAAAATGGCGAAGTAAAATTTCATGTGGCACAACTGAAAGATGGAGAGAAAGAACTATTTCAAACAGGAGACTTAACAGTATATCAATCTTTCCTACGTAAATTAGGAATCGAACTAAGAACACCTGTTAAATCAGAAGTAGGTAATATCCTAATCCAAAATACATATCATTTAGACCAAACAATCGCATTAAGACCTTTTACAAATAAAGAAGAAGTACCTTTACGAGCAGAGTACGTTATTACAGTAGTAGACTCCATTGTAACGGAAGGTGCAGTAAGTATAAAAGAAGATATCATTACAATTTGGTATCCAGCATTGGAACTAGGTACAGAAAAATTAAAACGATTAGCATTTGAATTATTCAAAAAGCGCAATTCAGACATTAGTCGTGTTCCTGTATTCTTAATTGATTATATGGTAGACAATCAATACTATAAATCAGAATCGGAGGGTAAGTAA	MLKLETNHIIENGEVKFHVAQLKDGEKELFQTGDLTVYQSFLRKLGIELRTPVKSEVGNILIQNTYHLDQTIALRPFTNKEEVPLRAEYVITVVDSIVTEGAVSIKEDIITIWYPALELGTEKLKRLAFELFKKRNSDISRVPVFLIDYMVDNQYYKSESEGK				NA	NA	NA	NA	NA
AK009_03233	294			hypothetical protein	ATGAGACTAGAAGTCGTGTATACCTATAACAGCTTTGAAATCTTTCTAAACATAGCAGGTTTATATACAACTGATGGTGTACTAGTTTACAGTGGATTTTCTCCAAAAGAGGTAGAGAGTCTAATTGAGTTTACAGGTATCAAACTAGTAAGTCCATCTACGATTGTATCAGATAAGCATAATGTAACGAGATTATATGAGTTTGATTATATACTACAACTCAAACAATTTGAATTTAAAGAAGACTTACCAAGTAGCATAAAAGAGTGTAGAGTTTGTAAGAAAACAAGTTAG	MRLEVVYTYNSFEIFLNIAGLYTTDGVLVYSGFSPKEVESLIEFTGIKLVSPSTIVSDKHNVTRLYEFDYILQLKQFEFKEDLPSSIKECRVCKKTS				NA	NA	NA	NA	NA
AK009_03234	858			hypothetical protein	ATGTGTAGTACAGACAGTTTAAAAGTAGAAGTTGTATATGAAAAGCCTTTTCGTATTACAGATAGAGGTCATAAACAAGAAGTTGAGAATGAGGAACGTAAATTTTTACAAGTTCGTGTTTCTCATAGTGTAGAAGGGGATTTATTAATCACAGACGACCTTCATCAACTAAAAGACTTCTTACATGTTATAGGTGTTCGTATAGGTAGTGTGTATACAGAAATGAATTATGAGACAGACGATACATTATTAGGAATCTTTATCTATAATCCTATTAAACCTGTTATATTCAAAGAATATAAAGTAGGAGGAATAAATAAACTATCAAAAAGTAATACAGAAGTTACAGGGGTATCAGGTAGTGAGTTTATAGCTTGTTATGTAGATAATTCAGATTTAGTAACTACTATTTATAAACCCAAACTAAATACAGAAAATGATAAGGTAGAAATGCGTAAACACTTTATTGACAGACCTGTATCTACACATAGTTTTATTTTATTCAGCAAGGAAAAAGACTATATTTTTGAGGGTAAACCAAGTCATAAATTTGAGTTTATTTGTACAGATGTTGCAGAAGAAGGAGAATTAGAGAACTATAATTCTTCATCTGAAACAGAGGATTTTTTAACGTATATAGTAAAAACTCTTACTCAAAGACGAATTGCTTATAGGTTAACTCAACAAGAGTTAGCAGATAGAGTAGGTTTAAAGCAATCCGCAATTGCTAGATTTGAAGCAAGCGCTCATACTTTTACTTATCCTAGACTGTCAACAGTAGAATTAATTGCAACAGGTTTAGGTATGAACTTGGTATTATTTAAAGAGAACGAAGATGAAGTAGGAGGTAAAGAATGA	MCSTDSLKVEVVYEKPFRITDRGHKQEVENEERKFLQVRVSHSVEGDLLITDDLHQLKDFLHVIGVRIGSVYTEMNYETDDTLLGIFIYNPIKPVIFKEYKVGGINKLSKSNTEVTGVSGSEFIACYVDNSDLVTTIYKPKLNTENDKVEMRKHFIDRPVSTHSFILFSKEKDYIFEGKPSHKFEFICTDVAEEGELENYNSSSETEDFLTYIVKTLTQRRIAYRLTQQELADRVGLKQSAIARFEASAHTFTYPRLSTVELIATGLGMNLVLFKENEDEVGGKE				NA	NA	NA	NA	NA
AK009_03235	435			hypothetical protein	ATGTTAGAATTACAAGTTGTATCTGAAAAGAACACGGAAGATAGGTCTATCAAACAGATAAGAGTATTACATAACGATACCTTAATTTTCTTATGTTCTACCTTACCTACAATTAAACTATTATTAAGCGATTTAGGGGTAGAGCATCCAAACGAAAGTATTTTATCTTTCACCGAAGATTATGTTATTTCAAACATGAAAATTAAATCAGATAAAGAATTTATTGCAGTACCATATACAGAGCATGAGGAAAACACCATGCAAATTGATGTAAGACTGGTTGGTTCTGTAGTAGATGAAAAGGTTATTAAGTTATATGTAGGAAAGCAAGACGACAAAGTATACCTGTACTATCCAAGAGAGGTAGTCGAAGACTGTAAGGGGTTGGGTTCTCTTTCAGACAAGGTAACGTTAGAAGAGTTGTCATTAATTTAA	MLELQVVSEKNTEDRSIKQIRVLHNDTLIFLCSTLPTIKLLLSDLGVEHPNESILSFTEDYVISNMKIKSDKEFIAVPYTEHEENTMQIDVRLVGSVVDEKVIKLYVGKQDDKVYLYYPREVVEDCKGLGSLSDKVTLEELSLI				NA	NA	NA	NA	NA
AK009_03236	387			hypothetical protein	GTGTCAACAAAACCAGTATTAACAAAAGATGCATTTAAAGTTCTTTCAGGTAAACTTGATCAAGGCAATCAATATTTATTTAAAGAATTAAAACATATTTTAATAGATAACTTTGAAGGAATTAATACAAACCAAGCTTCAAGTATTATAAATAGAGCGTACACCCGTAGAGACGGTATATTAGTAAAAGAAGGTAAGTATTGTTCTTTACGTGCAACCGCTAAGGAATCTACTAACGGGTTGGAAGAAGCAAAGTATATCCTAGAAGATGCACTAAAGAAAATAGAAAAGATTCCAACTAGTTCAATAGAAACGATAGAGCAGTTCAATGAATTAATAAAGATAAGAACAAAACTAAATGAATTTATCGGAGAGCATATCATCTAA	MSTKPVLTKDAFKVLSGKLDQGNQYLFKELKHILIDNFEGINTNQASSIINRAYTRRDGILVKEGKYCSLRATAKESTNGLEEAKYILEDALKKIEKIPTSSIETIEQFNELIKIRTKLNEFIGEHII				NA	NA	NA	NA	NA
AK009_03237	246			hypothetical protein	ATGTCAGTAAAATATCAAGAAGGTATGTTAGTTCGTAAGTTTGTAGATTTAGAAGAAGGAACTGTACAATTTCAAATGTTCTTCAATCAGGATTCAGAACCGATGGATTATTTGGAGAATGAGAAAGAATTACAATTGAAACTGAATGAAATGGGTTGTGAGTTAGAGGATGGAGTCGAGAAAGATAAGATTAAAGGAATGGATATCTATACATATAGAGTAAAGAAAATGAAAGGAGGTAACTAA	MSVKYQEGMLVRKFVDLEEGTVQFQMFFNQDSEPMDYLENEKELQLKLNEMGCELEDGVEKDKIKGMDIYTYRVKKMKGGN				NA	NA	NA	NA	NA
AK009_03238	456			hypothetical protein	ATGGTAGTTCATGCAGAGTATAAAGAAGATGAAAATGGAGTACAAACCTTAGATAAGATTCAGTTGTTCGATAGTATAAATAGTAAGGTGCTTCAAGACGGTTTAACAAAAGAAGAGTTAGAAATTACTCTATTAGATATGTGTTGTAAAATAGAAAACCCTATTGAGAAAGTTATAGATAGTAAAGTTGTATATGAGTTTCCTGTAAAAGAATCAGATGGTTATAAAGTAGTGGCTTACGAGGAAATGTTAGGAGAAGACAAAGGAAAAATAAAGTCAGTTCATGTGTACCAGTATAGTATTAGTAATACGGTAGCAGAACTAGAGTCTATGGAAGAGTTACACAAATGGTTAGAAAGTAAAGGTTTAAAATTATCAAACCCGTATAAAGAAGAAAAGGAAGAGGAAAGAGAATCCGAAGATTTCAGAATGATTTTTTATTTTATCAATCAGTAA	MVVHAEYKEDENGVQTLDKIQLFDSINSKVLQDGLTKEELEITLLDMCCKIENPIEKVIDSKVVYEFPVKESDGYKVVAYEEMLGEDKGKIKSVHVYQYSISNTVAELESMEELHKWLESKGLKLSNPYKEEKEEERESEDFRMIFYFINQ				NA	NA	NA	NA	NA
AK009_03239	459			hypothetical protein	ATGATTTTAGTAAAAGAAGTACTTAAAGGTGATAAACGAGGGTATGCAAAAAGAGAAGTAGAAAAAGTAATTGTACATAGTAACCTAAACGGAGTTGTATATGAGTTTAGTCAAAAAGATTCATTTGAAGAGTGGTCAAACAAGCTAGGATTTAAGTTAGACCATACATATGCAACCGGTTCAAGTTTAGTTGAGGTTAAAAACCGTAAAGTATTAAACTATGAAGTACCTCATACATTGAAAGAAGTATTTGTAACTGATAAAGAAGAAATACCAACTGATGTTACAAGAATGGTAGGTTTAGTATGTGGTGATGTTGTATTTTGTTACGTTCATACAGAAGGAAACGAAACAACAATTTATCGTCCAAAACCACAAAGTGAATGTTATGAAATGTTACCACAACCAGTTCAGGATTTGATTGTTGAACATGGTATTCGTACAATCGACTTTATATAG	MILVKEVLKGDKRGYAKREVEKVIVHSNLNGVVYEFSQKDSFEEWSNKLGFKLDHTYATGSSLVEVKNRKVLNYEVPHTLKEVFVTDKEEIPTDVTRMVGLVCGDVVFCYVHTEGNETTIYRPKPQSECYEMLPQPVQDLIVEHGIRTIDFI				NA	NA	NA	NA	NA
AK009_03240	4323			hypothetical protein	GTGAGTCAAACAGAAACAGTCGAACAAAACATGAAAGAATTAATGGTAGAGTGTACAACAAAGTTAAAAGAACTGTCAGAAAGTAAATACAATGAGCAAATAGAGAAAGTAAATGAAATTCTAGAAGAATTACTCGTATTTGACCATGAAGACGAAGAATATGAAATGGTAGACTTCTTAACTCATGCTACTGTATGTGCATATTACAATTTGTTTGGTAAAGATATAGCAGTAGACCGAAATCGTGAGTTTGGTTGCGAAGGGGTAGAAGATGCGATTTCCTGTTTGCATGAGATTGGTGGTTTATCTAAAACCCAACAAGAAGAGGTAGAACGAGTAGGTGTAAACTTACTTGCAAATATTAGACAAACAGATTCCGGTTCTTATACACAACAAGGATATCTAGACCAAGATGTACAAGTTATGTATTCTCTTTTATTTCCTCAAACAGAAGAGAAATCGGATTTAGAGGAAGAAATTGATAAGAACCCTTTCATTCAGAAATCAGTAAACCGTGTCATAGACAGTATACTAGATGTCTATAAAAAGGTATTAGCAGGTGGTTTCGAGATTGAACAATACTTTGGGGTGTCTACATTAGACCAGACTAGAGGGGTTGCTCGTGTAACAGGTGGAGAAGGAAAAGGGTATGAATCTGTATCTCTACAAATCTTATCTCACATGTTAGCAGAGGAATACAAGGTAGACGTATCTCGTGAGCGACAATTCAATGTAGAAGAAATGTTAAACTCACAAACACCTATCTATTATCCTATGAAAATCATGGAATATGTATATGGAACAGTCTCAACGATGAATATCAGAGAATATGTATATGAAAAATATGCAGGTGGTAGTGGTTGGGATAACTACGCTGAAAACTACATCAGACCGAATCTACGTCATTTCCTTAATAAAGGGGTAAAGTTGATTGTAGAACGAGAAGGGTTAGTAGAAGACGGTAAAATTCAATTTAAAGATGTTGTAAAAGATACAGAACTGATAAAAGCAGGGCTAGAGCGTATTTCACGTTCTATGGTAACAATGGCAATTATACCTGAACTTGAGTCTTCACCAAGCAGTAATTATGAAGACTGGGCAAGTATTAAAATTCGTATGGTTGAATCTACGGATGCCAAACTCCCAACAAACCAAAAGATAATGGAGAATATTATCAATGGAATCATGGATGGGGTAGGAAACGTAGGTGGTGGAGAGTATAACATTTCACCTGAGACAAGAACAAAAGGTGGGTCATTTGATGTAGTCGAATATGTACATACATTTGATGCAAAGATGGCAAACATTAGACCTTTATTTGCCTATCAAGTATTGGATTCCTTGCAGGAGAAGGGCGAAACAGTAGACTGGTCAAACATTGTATTAGGTAAAGGAACAGATGGAACTACAGTTACTTCTAAAGCAGGAAGTAAGGTAGACTTCACAAAACAGCTTGTTCACAATATTATAGCAGGTTCTCGAAGTGGTAAAGGGGTAATGACTCTTAACATTCTATCAACGGCTATTGCAAGTGAACGTCCAGTATTTTACTTAGACCGTAAACCTGATATGGCGGCACTATTCGCTGATTACGTAGGGGTAGACAATGGTACGCCAAACATGTTTATCGTAAGTGGTTCAGCGTATTCAGATAGCTTTGATATCAATGGCGTATTAAATTACGATGCAATGTCTAGTAAGTGGAGACCGAGAGTACCTGAGTGGTGGGATATCAATTCCTATAAAGACGAGTTAGGTGACATCGTGTATTACAGAGCCATCATCTTTACACTAGGTTTACTTTTACTAAGACTATATGCAAGTGGTTCGAATAAAGAGTTATTTGATGCGTTAGGTGGTCCAAACGGAATAGCAGTCGTACTAGATGAGTTTACGAACTTCCAAACTAACTTCTCATCTAAAAAGATAAATCCTCGTGGTACAAACGGATTTTTCAGTAAGAGTATGCTATTAAGTAAAGCAACTCTACAGGAATTAGAGAAGGCGAAAGATGTATTGGAAGACTTCCCTTCAATGGACGGATTAAAGTCTAATGAGAAAGCAAAGGTAAGGGAAGCACAAAACTTAATTAAAGAAATACAAGACCCGAAACGAGCATACTGTACGGATATGTTAGATAATTTAGACCGTACAATCCTAAAGTTAAACGATGCGAAAAATGCAGGTTTCAAGAATGCAGAAGAAGTGATGTCTGATATCTTTGTAATTGGTCAAAATGTTCGTATCAACCCGCTTCCAAATGGTGAACTGATATTCCCACGAAATCAAGGGAAAGCAGGAGGGTTAAACGCAAGTAAAGACTATAATGACACATGCGTAATCAGTACTTTCTTATATAACTTTAGTACAGATTGGTTCTTAGGGTATAATGCAGACTACCCACAATACATGTTAGCCAATAAACCTGATTCACCTTCTAAATCAAGATTAACACAAGAAGCTAGAAACTTTGTATATTACAAGGGTTCTCGTGATGCGGTAATGGGGAACATGCAAGTAAGTACATTGAAATCAGATGCAACATTCTTCAAGCCTTACTTAATCTTAAATAATGCAAAAGAGCCAAAACCATTAAGTAATGACCCAGCGACTCGTAAAGCACAATGTACAACACCTGAGTTTCAGTATGTCGGTGGGGTAATCATGTTAACGGGTAAAGAGTGGGATAAGATACGTAAACAGAACGTAGACCCTAAAACAGATGAATTAAGACCTGAGATTGGATTCTTTGACTACTTAACCGCAATGGCACAAGGTAGTGGGAAGCAATTAGACCCTAGAAGTTCCTTAATGAAATCGAAAACAATTGCAGACATGGTTGTTCATCAAATGGGGTATGAGGGCGATTATCTAGACTTCTTAATGGATTTAAGACCAGAATGGAATTTCTCGGCTCAATGTTTAGTAGATGCATTTGCTGACCCTGAGACATTTAAGAGTGGTAAGAATCGTATGGCTACATATCTTGAACTGTTTGGAAATGAATCAAAACAAGCAGGAGATATAGATGGTAGTGAAGAGGAAGAGTTTGAAGTTGGAAATGAGCAAGAACTAGCAACAAGCAATTCTTCTACTGTAATCGCACCAAACTTAGATGTTGATAATCGTAATGTGAATCATGAAGAAGATGAAGACGCTGATAAACATGAAGAAGACCATGAAGATAAGCATGAAGAGGTAGATATCGGTACGGATATGTATAAAGGTACACCTCAAACGGTTTATACAGGTGAAGAACCACAAATGATGCCGGGCATGGACGATATACCACAACCACAAACTCGTGCTGAAAAGTATGGAAACACGTATAATCCAAACCAAAGTCAAGTGAATGCTCAAGGTGGAATAGATGACCCATTTAATACGCCATTACAAACTGGTACGTATATGAATCCACAAGAGGTTCAATCATTCAACTCTATGAATGAAATACCTACAGACGTATTAATGCGTGAATTAGAGAAAAGATTCCCTAATTTAGACAGCGAAGAAAAAGTAATGGAACCTTATAATTCAGAGGTCTATGGTAATGTGTCAGCTTACAACTTAAATGGTCAAACGAGAGAATTACGTTATATGAAGCAACGCCTAGAAGTTGAGAGAATGAATAATCAAGCAAGAGACGAAGAAGAATATTACACAAACTACTTTGACTTCTGTGAGCGTATTTCAAAAGACATTGTAAAATCATTTGGTGGCTACGATGGGGTAGAATCTTTAGTTGTTCGAGACGGTAGTTTAATCATAAACAATCAAAAGTACAGTAAGAAGATTGATGATGCAACACTACAAGGATTACCAGTAGACAAGATACAACAAATCCATAACGCCAATTACGCTCATGTGTTCAATTTCGCTCATATAACAAAGATGAAACGATTAGCACACATGAGTATTGATAGTAAAGACTTTGCTTTCATGAAAGTAAGACAGGATTTAGGTATTAGAGGTGAATTTAGTGCAGTAACTATATTTAAAAATGTAGAGAACCTGTATTACTTATCTATAGGAAACCAAAAGTTCGAAAGAAACACGTTAGAAGAAGATATAGCACGTAGTTCAAACTTCTTCCGAAGTGCAAGAAAAAGAGAACTTATCGCTAATGATATGGAAAACTGGGGAAGTCGCTCTGTAAACAAGAGTTGGGATTCTACAAAGAACATGTATAAGCGTAAAGGTTGGGGCTATAAACTAGGTGGAACCGCTATGTTAGGTGCAACTGTAGTAGGTGGAGCAATGGTACTTGGTATGAAGGGTGCTAGAAACTTCGGAAGAGGATTAAAAGATTTATTTAAAGCGTAA	MSQTETVEQNMKELMVECTTKLKELSESKYNEQIEKVNEILEELLVFDHEDEEYEMVDFLTHATVCAYYNLFGKDIAVDRNREFGCEGVEDAISCLHEIGGLSKTQQEEVERVGVNLLANIRQTDSGSYTQQGYLDQDVQVMYSLLFPQTEEKSDLEEEIDKNPFIQKSVNRVIDSILDVYKKVLAGGFEIEQYFGVSTLDQTRGVARVTGGEGKGYESVSLQILSHMLAEEYKVDVSRERQFNVEEMLNSQTPIYYPMKIMEYVYGTVSTMNIREYVYEKYAGGSGWDNYAENYIRPNLRHFLNKGVKLIVEREGLVEDGKIQFKDVVKDTELIKAGLERISRSMVTMAIIPELESSPSSNYEDWASIKIRMVESTDAKLPTNQKIMENIINGIMDGVGNVGGGEYNISPETRTKGGSFDVVEYVHTFDAKMANIRPLFAYQVLDSLQEKGETVDWSNIVLGKGTDGTTVTSKAGSKVDFTKQLVHNIIAGSRSGKGVMTLNILSTAIASERPVFYLDRKPDMAALFADYVGVDNGTPNMFIVSGSAYSDSFDINGVLNYDAMSSKWRPRVPEWWDINSYKDELGDIVYYRAIIFTLGLLLLRLYASGSNKELFDALGGPNGIAVVLDEFTNFQTNFSSKKINPRGTNGFFSKSMLLSKATLQELEKAKDVLEDFPSMDGLKSNEKAKVREAQNLIKEIQDPKRAYCTDMLDNLDRTILKLNDAKNAGFKNAEEVMSDIFVIGQNVRINPLPNGELIFPRNQGKAGGLNASKDYNDTCVISTFLYNFSTDWFLGYNADYPQYMLANKPDSPSKSRLTQEARNFVYYKGSRDAVMGNMQVSTLKSDATFFKPYLILNNAKEPKPLSNDPATRKAQCTTPEFQYVGGVIMLTGKEWDKIRKQNVDPKTDELRPEIGFFDYLTAMAQGSGKQLDPRSSLMKSKTIADMVVHQMGYEGDYLDFLMDLRPEWNFSAQCLVDAFADPETFKSGKNRMATYLELFGNESKQAGDIDGSEEEEFEVGNEQELATSNSSTVIAPNLDVDNRNVNHEEDEDADKHEEDHEDKHEEVDIGTDMYKGTPQTVYTGEEPQMMPGMDDIPQPQTRAEKYGNTYNPNQSQVNAQGGIDDPFNTPLQTGTYMNPQEVQSFNSMNEIPTDVLMRELEKRFPNLDSEEKVMEPYNSEVYGNVSAYNLNGQTRELRYMKQRLEVERMNNQARDEEEYYTNYFDFCERISKDIVKSFGGYDGVESLVVRDGSLIINNQKYSKKIDDATLQGLPVDKIQQIHNANYAHVFNFAHITKMKRLAHMSIDSKDFAFMKVRQDLGIRGEFSAVTIFKNVENLYYLSIGNQKFERNTLEEDIARSSNFFRSARKRELIANDMENWGSRSVNKSWDSTKNMYKRKGWGYKLGGTAMLGATVVGGAMVLGMKGARNFGRGLKDLFKA				NA	NA	NA	NA	NA
AK009_03241	1968			hypothetical protein	GTGTCAACTCAACCAAAACAGAGTCAAAAGGATAAGAACTCGTTATATAACCTCGTTTGGTCGAAGCTAACAAGGGGTGTAACTGAGAAGTTAAGTAGTAATGAGTCGTTTATGATTGATAAATGGTCGCCTAACAACCTAAGACGGCTTATTGTGAGTCCCGAAGGGGTATTATTCCAACTGTTTATTACAGAAGGAACATTCCACAAGAAGAGGGTAGACATAGTACCATTTGAAGTCAGTGAAAATACAAACTCAGCATTACAAACGGGGTATCCAATCACTTCTGTATTATACCGAAACCGTGTATTTTCGAGTGTAGAGGAAGTTATTGTTATACCAAGAAGTCCACTAACTTACTATTCCTTAAATCCAGTAGAAGTTAGGAGATTAGACTCAAAAGCTTCATCATTAAAACGATTAGCAAACGTTATAATTATTACAGATGTTATATCGTTCAAAGATTTTGTTCAGAAAAACATAGAAGCTTTAGAAGACCCGTATACATTGCTAACAGAGAATCCGAAAGCAAATTTAGGAAACCACAAAGCGATAAAATACGTAAAAGATTGGTATAAGCATACAAGTTTAAGACCGCAATACTACTCTCTTGATGAAACAGATAAAAGACTTCATAAATACTTCAAGGATGTTCGTGAAAAATGTAGTAACAAGCGTCCTACACCATTGTCTGTACAAGAAAAGGTAGCCAAAGAAGAAAAAGAAGAGAAACCGAATGAAACGGTAGAAATTGATACGTTAACTTCTTACTTAGTTTTATCTAGGGGTATTCAAATGGGCTTAGTAAACAGAGATAACCCTAGAATGCAAATGTTAAAACCATTCTTATCTGAAGTGAAAAACCAACCAAATGAAAAATTCAATGTAGACAAAGGTTCTAGATTTGCTAAAAGACTAGACACTTTAGGGTATTATAGTGAAACAGGTTCAGCAGATGCTTCTAAGTTAAGAGAAGTTTTATTTGTAGATACAGTACTAACCGCTAGAAAGACGATACGAGCAGTAGAACAAAGGTATCCTTTATGGGGTAGTCATTTGATTGAAGTAACAAGAAATCTCTTACCTTCAAACGGGGCAGTTACAAATGAAAAGGCGCAACAGTTACGTGAACTAGTTGGATTTGAATATCGAAATGAAATAGATACAGAAATAGTCTTTTCAAATGTATTTGTAACAGCAGAGCAGGTAGAGAGGTTGCAAAGGGGTATCAAATTAGATGCAGAAGAGTTAGAGGACTTAAAACGTCTTATTCTATTTGATGTAGGTCTAACAGAGGATACACCACATGTAGACTTACTAATTCTTCATGATTTGTACATCTACTGTAATAACATACCTCACAGACAGTACAATTCAGCTTTGAAACATGAAAATTCAGATATCAAAGGGTATGTAACAAACCAATCTATTGCAGAGAGAATCTGTTTTGTATTACAAGATGAGATTGAAGAAGAATTGGATACTATCGTAGAAGAAATACAAGACGAGCAACTAGAAAATGATGGACCAATTGAAGATGAAGTAAACGAGGAAGAAGAAAACGAAGAAAATACAGAAGATGACCACCAATGGGATTTATGTGGACAATATGTTTCAAGTTTAAACGAGGTAGAGCATAAAGCAGTTTGGAAAACTTTATCCTCTGAACTTCAATCTGAATTACAAGGGTTTATGAATTGTAATCCGAGAAACAGAAAAGAAGAAGTTGTATCCTTTATTGTAGACTTAATTAACAGATACGAATACGGTGGGGTAAATAAAGCAGGTACAATGGCACATAGTATAAACGTACTATATCGAAGAGGTATAATTACAAAAGGTACTCGATTAGGTTGCAAAGGGTATAAAACAAACCGATTTGCAAACCGTCTTTTCGATAGTGAGAAAGAAATAGACGAAGAGTATTCTAGGTATATGTATCTATTAAAACGCTTATATGAACGGTAA	MSTQPKQSQKDKNSLYNLVWSKLTRGVTEKLSSNESFMIDKWSPNNLRRLIVSPEGVLFQLFITEGTFHKKRVDIVPFEVSENTNSALQTGYPITSVLYRNRVFSSVEEVIVIPRSPLTYYSLNPVEVRRLDSKASSLKRLANVIIITDVISFKDFVQKNIEALEDPYTLLTENPKANLGNHKAIKYVKDWYKHTSLRPQYYSLDETDKRLHKYFKDVREKCSNKRPTPLSVQEKVAKEEKEEKPNETVEIDTLTSYLVLSRGIQMGLVNRDNPRMQMLKPFLSEVKNQPNEKFNVDKGSRFAKRLDTLGYYSETGSADASKLREVLFVDTVLTARKTIRAVEQRYPLWGSHLIEVTRNLLPSNGAVTNEKAQQLRELVGFEYRNEIDTEIVFSNVFVTAEQVERLQRGIKLDAEELEDLKRLILFDVGLTEDTPHVDLLILHDLYIYCNNIPHRQYNSALKHENSDIKGYVTNQSIAERICFVLQDEIEEELDTIVEEIQDEQLENDGPIEDEVNEEEENEENTEDDHQWDLCGQYVSSLNEVEHKAVWKTLSSELQSELQGFMNCNPRNRKEEVVSFIVDLINRYEYGGVNKAGTMAHSINVLYRRGIITKGTRLGCKGYKTNRFANRLFDSEKEIDEEYSRYMYLLKRLYER				NA	NA	NA	NA	NA
AK009_03242	717			hypothetical protein	GTGAGTCAGTTTTCAAATGTAATTGCAAATTTAAGGTATAAAGCAACAGCAAAGAAAGAACTAGAGGATAAAATACTAGAACTACGTGAGTTATATGTAAAGAAGTATAATGAGTATGAAACAATGTTACGAGCGCAACAGATTCTAGCTACTTTATCCGATAGTAACTCAAAAAGAATCTTGGGGTATATTCAAAGTATCATTAATAAAGCTTTACGAACGATGTTTCCAAATGAAACGTATAATATCATTGTAGAGAAGAAATTATACAGTAATACAAACACACATATCACAATCACTTTAACAGAAGTTACACCAACAGGTGAACATTATCCATTAGACTTTAGTTTACAAAGTGGAGACGGTATGAGTCAAGTTGTTAGTTTCTTATTTAGCTTATGTTTAATGAAGATTCGAGAAGCAAGACCGATTGTAATCTTAGACGAAGTATTAAAAGGTTTCCACCCTGATGCATTACCAATTGTACGAAACATTATTGAAATCTTTGCAAAAGGTGGATTCCAGTTTGTGTTAGTAGAGTATGACTTCCATGAATTAGGGAAAGAATACCTAGTTACGAAGAAGAACGGAATTTCTGTGATGAGTATCCTAGATAGAGAATCAGACATTCAATTCAATGAAGTAGTAGAGAAAGTAGACCGATTTACGTCAGCACAAGAAAACGTAAGGGAAGCATTATCAAAGTCTTCTAGCTAA	MSQFSNVIANLRYKATAKKELEDKILELRELYVKKYNEYETMLRAQQILATLSDSNSKRILGYIQSIINKALRTMFPNETYNIIVEKKLYSNTNTHITITLTEVTPTGEHYPLDFSLQSGDGMSQVVSFLFSLCLMKIREARPIVILDEVLKGFHPDALPIVRNIIEIFAKGGFQFVLVEYDFHELGKEYLVTKKNGISVMSILDRESDIQFNEVVEKVDRFTSAQENVREALSKSSS				NA	NA	NA	NA	NA
AK009_03243	2148			hypothetical protein	ATGTTACAAAATGGAGAACTACAAGTAAGTGAGTTAGAATCGTATAAAAACTATGGGGAAAATAATCAAGTTTTAAGCATTCAAACATATGTAGATAGTTTCTTTACAACAAAATTAGAAAACGTAAGTGAACATAAAATAGAGTTTAGAAACTTAAAGGGTGAATTAGAAAGAGTTGGTGTTAGCGCAATTAGTTCATTAAGACTTTATAAATGCGCTACTTTAGAGCAGTACGGTATTGAATATGCAAAAGATTATACAGAAACAGGTCAGTACATAAGTATAACTGGAATAGGTAATCAAATAACCAAGGTTAAAAGAGTAATATCTGTAGATGGGTTATATTTCTATGTAGAAAAGCTAGACGGTGGAGAAGAGAAAGTCAATCGTATTGATGTAAAGGTAATGGAACTTGCACCTATTGAGCAAGAAGATATTGAAAAACTACTTAAAACTGTAAAAGCACTAAAAGAGTTAGAAACACATAAAAATTATTATGAAGACGAAAATAAAGTTATCAAGTTAGTAAACTCAAAAGGAATATTTTATTTAACTACAATTTTTGATGTTTCGCCTAAAACAAACTCTGTGTATGGTAAAGACATAGAGCATAGGCATTTAAACATAAGTTCTCCATTCGATGAAGTAAAATTATTACACCTAAAACCATTAGAAGATTACGGTGTAATGCCTTTAGAAAACTACTATAATAATGATAAAATCCTAAAGGTTACATTATCAAACGGAGATACAGAATACTTAAAAGATATTCAAACAATTACGATTGCTTACTACTACGCAACTTCATTTGACAGTGAAACAAAGACAATCAAGAGAGAAGATGTTGTAAACATTGAGATTTTAGATATGATAGATGGGGTAATTCAAGAAGATACTAATACATCTAGACCAACTACATTAAAAAGTATGCTACAAGAAAAACCTATTCAAACGGCTAAAGATTATTCCTTAGACAGTCGATTAGTTAAAGTAACTACAGATGCATCAGAAATGTACTTTAAATTCATTGATAACGTAGATGAAAAAGATGTAGTATTACGAGGTATGGGAGAAGACGACAGACCTTATGTAATACCTTACTACAGAATCTTAGACATAGAAGTTGTACCTAAGGTTCTAGAAAATGTTGAATCAAACGATGATGGACTTAAATTAGGTGAAATTGAAGTAGGTAAACATTATGGTTTAGAAGACAAGGTTATTAACATTGTAACGGAAGATGGTGACTACCTTGTCTATGGTGTATCAGAAATAGAAGGAGACTCTATGTACTGTATGACTACAGATTATGATAACATTGAGATTCCATTACGAGACGTTAGACATGTAGCTATGCACACAAGATACAATTTAGAAAAGTGGGGTATTGTACCTTCTTTAGATTATAGTACAGAAAACATGTATGTAAAAGTTACATTTAATAATGGTGAAACAGTAGTAGCAGACAGTGTAAGTCATATAGATGTTATCTATTATAGACTTCTAGATGCCGTTGGTAAACCAGTTAAAGTAAGTTGTGAAAACGTGAGAAATATGGAAGTACATGAAAGAGGAAACCATATGCCTGTATCAAAAGGAATTAAGTTATTAATGGTAGGTAATGTAAAAATAGGTACAGACTATAGTGAAGAAGAGAAAGAAATTATAGTTAAAACAAGCAATGTAAAGCATATATTTAAACTTTGTGTAGGAGTATCAACAGGTAATGAATCTATCGCCTTTTTGAACCATGAAGATATAAGGAAAGATGTACCTGTTAGTGATATTTTAAAAGTATACTTAAAGGATATCAAAACAACAGGATTAAAAGCTATTCCTTTAAATTTGAATTCTGAACCAAGTACAGAAAAAGAAGAAACTCCACATGAAGATGACTTTGATGTAAGTGACTTATTTAATTTAACAGACGATGTATTTGAATACTATGGGGTAGAAGAAGGTAAAGACTACCGTAAAGAAAGTAAATTACTACAAGTAAAGTTAGAAGACAATGTATTAGTCTTTGCAAACCTAGAGTCAGATATGGAAGGTTGGGTTGCAGGTAGACAGTTTGGTAGTATTACAACGAGTGTACCTGTTAGTAAGATTAAAGATATCAAAGTTGTAGACATTGCTGATTTGATGTAA	MLQNGELQVSELESYKNYGENNQVLSIQTYVDSFFTTKLENVSEHKIEFRNLKGELERVGVSAISSLRLYKCATLEQYGIEYAKDYTETGQYISITGIGNQITKVKRVISVDGLYFYVEKLDGGEEKVNRIDVKVMELAPIEQEDIEKLLKTVKALKELETHKNYYEDENKVIKLVNSKGIFYLTTIFDVSPKTNSVYGKDIEHRHLNISSPFDEVKLLHLKPLEDYGVMPLENYYNNDKILKVTLSNGDTEYLKDIQTITIAYYYATSFDSETKTIKREDVVNIEILDMIDGVIQEDTNTSRPTTLKSMLQEKPIQTAKDYSLDSRLVKVTTDASEMYFKFIDNVDEKDVVLRGMGEDDRPYVIPYYRILDIEVVPKVLENVESNDDGLKLGEIEVGKHYGLEDKVINIVTEDGDYLVYGVSEIEGDSMYCMTTDYDNIEIPLRDVRHVAMHTRYNLEKWGIVPSLDYSTENMYVKVTFNNGETVVADSVSHIDVIYYRLLDAVGKPVKVSCENVRNMEVHERGNHMPVSKGIKLLMVGNVKIGTDYSEEEKEIIVKTSNVKHIFKLCVGVSTGNESIAFLNHEDIRKDVPVSDILKVYLKDIKTTGLKAIPLNLNSEPSTEKEETPHEDDFDVSDLFNLTDDVFEYYGVEEGKDYRKESKLLQVKLEDNVLVFANLESDMEGWVAGRQFGSITTSVPVSKIKDIKVVDIADLM				NA	NA	NA	NA	NA
AK009_03244	195			hypothetical protein	ATGAGAGACAAGAATGGAAATACAGTAGAACTAGGTAATACAATTAGGTTTGACGAAGACCATTTCGGGGTAGGAAGAGAAAGAACGGTTGTAACTCGTTTTGATGGTGAATTAGGTTTTGAAGCTTACCCAAACAAGTCTAAAGAAGTAATTGGACTGAAACATTGGCAAGATGAATTTGAAATTGTAAGCTAA	MRDKNGNTVELGNTIRFDEDHFGVGRERTVVTRFDGELGFEAYPNKSKEVIGLKHWQDEFEIVS				NA	NA	NA	NA	NA
AK009_03245	219			hypothetical protein	ATGAGTAAACAAGAACTGACAAATCAAGTGGAGTTTTCAAAGGATTATAGTAAGAAGTCACAAGCAATTAAACTTACAACATCTAAGCAAGTAACGTATTATTTTAAAACATTAACGAAAATGACAGGAAATTTCTTATTCGGTAAAACGTTAGATAACGAAAAAAGACGTGTAATTGCAGGTTCAATCGCAAAAGTAGAAGTCGTAGAAGTAATTTAA	MSKQELTNQVEFSKDYSKKSQAIKLTTSKQVTYYFKTLTKMTGNFLFGKTLDNEKRRVIAGSIAKVEVVEVI				NA	NA	NA	NA	NA
AK009_03246	1173			hypothetical protein	ATGAGATTAGAGATAGAGTTCGACAAGTTAATTAATGGGTTAACGTATGTAGGGAATGTGGCAAACTCACAATCAAGTTTAGAAGGAAACAAGGTAGTTATTTTCACAGTGACAGAAGATAACTTGACTATTTTTGGAGAGTCAGCAACGGTAGGAGCAATAACAGAGTTTGAGAAATCAGACTTCAATTACAGTTCTAAAAACACAGGTGATATGTTCAAAGTAAAAACAAAAGAGTTACTAAACTTCTTAAATACATTCACAATAGATAGAACGATGCCAACAAAGGTTACATTCGATTTAGTAGAAGGTACAAACGGTGGAGGTACATTAACGTTAACAGTACATGAAGAACCATTAGAAGGTCAGCCAAGTTACTTAGAAAATGATAGTCATTGGGTATTTGATACAACGCCAATTTCAAAGGCTACGTTAGAAAATATGAATATCCTAGACGGAGAACAGGTTGTCGCTTCTCCATTATTAAAGATATACATCGAAGCATTATTACCACTTCTAAATAATGCAGATGCAAACATGAATGATAGTAAAATAAACTTTGAAGAAAAATACGCATATGTATTTAGTAGTAAAACATTCGCTTTATTCCAAAACAAGTTACCTGAGTGTTTAAAAGGAATCGTATTGGGGTATGAAGGAATTGTATTACTGAAACAGCTTACTTCTGAATACGACCAAATACTAGTAAGTAAATACCGTGAAAAGGGTAAAATCTTTATCACCGCAGGTACAAACCGTATTTCTATTAAGTTTAACGAGAAGATGTTAGATTATAAACGTATGATGGAAACATTAACGGTGGATAACTACTTTACAGTTGACCGTAAGATGTTTACAAGTGTTATTAACCGTTTAACTCTTACAAAAGATAATACAACGATGTCATTAGACCTTGAAAACGAAGTATTAGCATTACGCTCTAAGAAGTTCTCACAAAACATTCCAATCTCAAACTACAGTGGAGCAGATTTAAAAGACTTCAATATCAATGTAGTAACAGGGGTATTAAAGGACTCGGTTTTAGGTGATGATGCTCAATACTCGGATGATTTAGTTATTCGTGTAACAAGGTCTTCTACAGCTTGGACGGTTACATTTACAGACCCTTCTAATATGTGGTTATGTGTATTCCGTACATTAGCGAAGAAGTAA	MRLEIEFDKLINGLTYVGNVANSQSSLEGNKVVIFTVTEDNLTIFGESATVGAITEFEKSDFNYSSKNTGDMFKVKTKELLNFLNTFTIDRTMPTKVTFDLVEGTNGGGTLTLTVHEEPLEGQPSYLENDSHWVFDTTPISKATLENMNILDGEQVVASPLLKIYIEALLPLLNNADANMNDSKINFEEKYAYVFSSKTFALFQNKLPECLKGIVLGYEGIVLLKQLTSEYDQILVSKYREKGKIFITAGTNRISIKFNEKMLDYKRMMETLTVDNYFTVDRKMFTSVINRLTLTKDNTTMSLDLENEVLALRSKKFSQNIPISNYSGADLKDFNINVVTGVLKDSVLGDDAQYSDDLVIRVTRSSTAWTVTFTDPSNMWLCVFRTLAKK				NA	NA	NA	NA	NA
AK009_03247	1143			hypothetical protein	ATGAGTATGACAGTAGAACAAGTGTTAGAAGAAGCACAAAAGTTAAACAAACAGGTAGCGGTGCATAACCAAAACAATTCGAAAAATGAAGGTATGCGAATGGCAAAGAAACAAGAAATTGTAAGGTTATTCGAAGCTTTCAATAAGAAACATGGTACACAATTAACACCTGATGATACAAAAGGTATCGAAACGGAATATCAAAATGCGGCTTATGGGGTATACAATGAGTCGAAACATCTAAAAGAAGTGTTAAAAGCAATTGAAGAAGGAGACATTCCACAAGTAATGGCTTTAACTGGGGTAGATGTATCACAAGACACATTAAACATCCCACGTATGCATGTAGATTTAGATGAGTTAGAGAAACAAGCTGGTAACTCACTTAAAATTCAACAAGAAGATACAAACCTTGTAACTGGTATTGTTGGAGATACAGAGCAAATTGTAGAAACAAATGAAGAAATCTTAGAAGTTACAGAGGATGAAGCAGAAGAACAGCAAGAAACTGATATGAAAGGGTTACAATCATTCTTCCAAGCGAAAGTTGCAGAAGGTGAAGCAAACCAACAAGCTACACAACTTAGTCAAGCAGTTGCAAACCAACAATCTACAATTCAAGTACCAAAGCAAGAAGTAGAACAAACTCCTGTTCAAGAAGTGAAAACAGCAGAAGCACCTAAATTTAACTTTGGAGCTGAAACAAAGAAAGAAGAGGTTCAAACACCTGTTCAAGAAGAAAAGAAAGCAAATGCACCAGTATTTAGTTTCGGAAATGTAACTGAAACACCTGTAAAGGAAGAAACACCAGTAGAGCCGAAGCAAGAAACGGTAGAGCAACCGAAACAAGAGTCTACAAGCGGAATTTCATTTGGGGTATCAGCAGATGAGGAAGTAAAACCAGTACAAACACCTAGTTTCGGACAAGCAATTGCTCAAAACAAAGAAGTAGTAAAAGATAAGGAAGCCCAACCAAGAAAAGGTATGATTTCTTTTAATATGCAACCAAAAGAAGGTCAAGAAGTAAAAATTCCAACTCCAAAACCAATCACAGGTGGAGCGAACTTAGAAGATGCATTAGCACAACAAGGTCAATCAATGCCTGTATTCAACATCGGAGCAGACATTGATATCGAAGAATAA	MSMTVEQVLEEAQKLNKQVAVHNQNNSKNEGMRMAKKQEIVRLFEAFNKKHGTQLTPDDTKGIETEYQNAAYGVYNESKHLKEVLKAIEEGDIPQVMALTGVDVSQDTLNIPRMHVDLDELEKQAGNSLKIQQEDTNLVTGIVGDTEQIVETNEEILEVTEDEAEEQQETDMKGLQSFFQAKVAEGEANQQATQLSQAVANQQSTIQVPKQEVEQTPVQEVKTAEAPKFNFGAETKKEEVQTPVQEEKKANAPVFSFGNVTETPVKEETPVEPKQETVEQPKQESTSGISFGVSADEEVKPVQTPSFGQAIAQNKEVVKDKEAQPRKGMISFNMQPKEGQEVKIPTPKPITGGANLEDALAQQGQSMPVFNIGADIDIEE				NA	NA	NA	NA	NA
AK009_03248	1023			hypothetical protein	TTGTTACGTATTAGCGGTATGAAAGCAATCGCCTTTGGTGACCCTCATGCAGATGATGTATTCCAAGGTAGACATATAAACTATTGGGAAAACTTCATGGAAGTAACTGATAGAATTTCAAGAATAGTAGAGTTAGAGAAACCTGATTTAGTTATCCTTGCAGGTGATTTAGTAGGGGTAAGACGTGGTAAATCTACAATTCAAGATAAAAACGCATTACTATATTTAGCAAAATGGTTAAAATCATTACCAAACGTAGTAGTATTACGAGGAAATCATGATTACAATGAAACTTCAGATTATGAGTTCTTATCTGAGTTAATGATATTCACATCAAGTAAGCAAACGGAGAATATGGTTGAGTTTACGCATCCAAATGCAGAAACACCATGCTTCTTCCATTTAGTAGACTATGGTCAAGAGAATGAAAAGATTGAAATTCAAGCAGACGCTTATAACATCGGAATCATGCATAATGAGTTCTATGTAGCAGGTCAAGAACAGCAGTTCCACGGAGAAGGAGCAATTGAACTATCATCAAAGAAAAACTTCTTTGGTTTAGATATGGTAGTCAGTGGTCACATCCACACTCCTACGAATGGTATGATAAACTTCTCATATCAAGATGGATTTGAGTCAGCATTTGCAAACTTAGGTTGTCCAACAAGACCTGGTCATGGTGAGTTATACGACCAAGTATGGTATATGGTTTGGGAGTATACAGAAATTGAAGGTACAAACATGACGGATATGAGATTTAGACAGCAACCATTCCATCTAAGACCTTATACTGAAATCTTTAGACCTGATAGTGATTTCATCGAAGATATAAAGAGTAAAGAGTTAATAGATGACTACACTGGTATTCAGAAGGGTAAACTAGAAGAGATTTTGAGTTCTTTAACAACTTCTAATATGGGTAGTGATGATTTCTTTAAACAAATAGATACATTACAAGTAGTTGCTACGCCTGAGTCAAGGGATATGGCAAAGAAATACTTGGAAATGGCATTAAACAAGTAG	MLRISGMKAIAFGDPHADDVFQGRHINYWENFMEVTDRISRIVELEKPDLVILAGDLVGVRRGKSTIQDKNALLYLAKWLKSLPNVVVLRGNHDYNETSDYEFLSELMIFTSSKQTENMVEFTHPNAETPCFFHLVDYGQENEKIEIQADAYNIGIMHNEFYVAGQEQQFHGEGAIELSSKKNFFGLDMVVSGHIHTPTNGMINFSYQDGFESAFANLGCPTRPGHGELYDQVWYMVWEYTEIEGTNMTDMRFRQQPFHLRPYTEIFRPDSDFIEDIKSKELIDDYTGIQKGKLEEILSSLTTSNMGSDDFFKQIDTLQVVATPESRDMAKKYLEMALNK				NA	NA	NA	NA	NA
AK009_03249	1161			hypothetical protein	ATGAGTCATAGCAGACTAGTATCTGTAGAGTTAATTGATTTCATGGGGTATGAGTACGGAAGATTCGACTTTGATGAAACCGGCATTATTTCCTTGAAAGGGTATAACTCATCAGGTAAAACAACTGTATTACGTGCATTAGGTATTATAAATTTCAATATGTATCAACAAAAGCAAGCAAAACTAATCCGTCATGGTCAAAATAGGTTTATCATTAAAGAAACATTCAGTGATGGGGTAGTAATCACAAGAGAGAAGTATCTAAACGGTAAATCAGCTTATCATTTACATAAAGATGGAGAGTTATTCTTTAGTACAGTAATAGACGGTGTATATGTACAAGTAAACGAAGTACCTGAGTATATCGCTAAGTATTTAGACTTGATTGATGATGCAAAGTTAAACCTTCATTTCAGAAGGGGTAGAGATAAGCTTTTACTAATAGACACAACTGGTCGTGAAAACTACGAATTCCTGTCTAACGCACTAAAAGCCGAAGAGTTAACACAAGCAAGTTTACGATTAAAAACTGACCGTATGAAAGTTAAACAAGAGGTAACGGCTTTAGAACATCGAATTGAAAGTCACAGGGAATTAGTTACAAAGGATAAACTTATTACTCCTAGACTAGTAGATGCTTTAGAAACAGTTGATGAGTCCTTAGATACGAATATAGACAAGAAAGAACGATTAGAAGACATGGGTGAAGTCTTCCGAGTATTGTCTGAATTAAAACCTAGTATCGAATTAAAACCAATTGATACATCAAAGGTAACGGATTTATTAGCAATTAGTAAAGCAATTGAAGATTACAATTCAGTTACGGTAACTGTAAGTTTAACGAAAGTAAACTATGATAAAGTAATCGAGTTAGTTCAGTTAGTAGAAGCAATGGAAACATATAATAAGATACAACTACTACCAATGCTGAAAACAATTGATACATCTAAGGTATCTGAGTTACAAGTTTTACGTAGAGCCTTAAATGAATTGAAACAGATTGAAGAAGTAATGGCACAAGAAGAAGCGAAGAAACAAGAGAAGATGAATATGTTAGAGCAAGTACGTAACTGGTTAAATGAGCAAAACGTACAAGTATATCAATGTAAAGATTGTGGTAGTGTTCAGCCAGTATCAGAACAACATAAACATCATATCTAA	MSHSRLVSVELIDFMGYEYGRFDFDETGIISLKGYNSSGKTTVLRALGIINFNMYQQKQAKLIRHGQNRFIIKETFSDGVVITREKYLNGKSAYHLHKDGELFFSTVIDGVYVQVNEVPEYIAKYLDLIDDAKLNLHFRRGRDKLLLIDTTGRENYEFLSNALKAEELTQASLRLKTDRMKVKQEVTALEHRIESHRELVTKDKLITPRLVDALETVDESLDTNIDKKERLEDMGEVFRVLSELKPSIELKPIDTSKVTDLLAISKAIEDYNSVTVTVSLTKVNYDKVIELVQLVEAMETYNKIQLLPMLKTIDTSKVSELQVLRRALNELKQIEEVMAQEEAKKQEKMNMLEQVRNWLNEQNVQVYQCKDCGSVQPVSEQHKHHI				NA	NA	NA	NA	NA
AK009_03250	1134			hypothetical protein	ATGAACATTTCTAAATTAAAACCTATTCAATTAGAGTCAGAAGACCAATTTAAGGCGGTAGAGAACGCAGTTAAAACACAATCAATTAGTACATCTGTACCTCGTGTATTTGATGAAAACTTCCCTATCTTCCGATTTGAAGCGAACAACAAACATTTAGTTTACGTTCCTAACTTCTTTGAAGTTGATGAAGATGGAAACAAACAATTGGTTCGTGAAACTGCATATGTACACTCTGTAACGAATGGTCGTGCATTCTCTCAATACCGTTCAACTCAAGGGTTAAAAGGTCTAGAAGAATATGGTATCAGCGGTAACTCGCCATTAATGACGGCAACGCAGGAATGTTGGGAACTGTACAATATCAAGTACAAGAAAGTTGCTGAACAGTTAGGTGTAGACCCTAACGATGATAAAGGTGAAGTATTAAAACCTAAACGTATCGAACTATTGAATCAACGTGCAATTAAAGACCCTGATGTAAAATACTACTTCCCAATTGTAGTGTTCGAAACTGAGAAAGATGCTAAAACTGGTCTTAACTCATTCGACTGGATTACACATGAAGTAGAGGGTGTAGGAACGCTTCCTAAGTACAAAATCTTTTGGATGGAAGTTTCTGAAAACTCTTGGAAAAACATTTGGGCTAAACTTGCAGACTCAATGGATACAGGCGATTGCGTAGCAGGTAAACTATTATCACTAAACTACAACTTCACTGATGACCCATCAAAAGAGAAGAACTTACGTAGAGATAGTGGTAAAAACCTTCAAATCAACATTCGTCAAATTAAACCACAAGATGTAGAATTCTTTGCTTACTTAGACGAGCAAGCTAAAGATTGGACGAAGCAAAAGGCTCGTGACACTATCATTGCTTGTGCGTTATTAACTGACGAACAGCAACAAGAAATTGTAGATGAAGCTATGGCGGAAACTCGCTTAGAGTTAAACATGCTGAAAAATGTACAAGCAGGTTTAACTGGTGGTGCTACAAAGCAAATCGAAACAGAACAAAATAAATCACCGGAAGAACTATTAGGTGGTTTCGGTGGAGTAGCAACTGAAACAAAAACTGAGGAAAACTCAGGTGAAACTTCTGGTGCAGAAGGAATCACTTTTGGAGCAGAGTAG	MNISKLKPIQLESEDQFKAVENAVKTQSISTSVPRVFDENFPIFRFEANNKHLVYVPNFFEVDEDGNKQLVRETAYVHSVTNGRAFSQYRSTQGLKGLEEYGISGNSPLMTATQECWELYNIKYKKVAEQLGVDPNDDKGEVLKPKRIELLNQRAIKDPDVKYYFPIVVFETEKDAKTGLNSFDWITHEVEGVGTLPKYKIFWMEVSENSWKNIWAKLADSMDTGDCVAGKLLSLNYNFTDDPSKEKNLRRDSGKNLQINIRQIKPQDVEFFAYLDEQAKDWTKQKARDTIIACALLTDEQQQEIVDEAMAETRLELNMLKNVQAGLTGGATKQIETEQNKSPEELLGGFGGVATETKTEENSGETSGAEGITFGAE				NA	NA	NA	NA	NA
AK009_03251	786	dnaG_1		DNA primase	ATGGAAGATTTCGAGTTACATGTAAGAAAGATGGAATTTGTGTATAAAAAGCTGAAAAGTGTATTAGATAGAGATTCATTAGACTATTTAATGCAAGCAAGAGCATATTTTCATCAAGAACAGCGCATACTATTAGAAGAATTAGAGATATACAAGTGTACGCTACCTGAACTGTCAGAAGAAGAGAGAACGATATTTGAAGAAATGGGTTGTTTCTCTGAAAACGGGCATTTCATCTTAGAAGGTCGTTATCTGATTCCAGTTTATTCACCAAGCGGTAAACTCATTACTTTAATCGGTTGGTTTAATGATTACAAGAAATACATTACATTACCTACTAAATTCTTTTCGAAGAAGGTAGACTGGTTTAATATTGAAAACGCATTAGAACTATCCTTTAACGCCTATGACGGCTTAGTGTTTGCAGTAGAAGGTATCTTTGATGCTTACTCATTACGCTCTATTGGATTACCAGTAGTTGCAACAATGGGTGCAGACGTAAGTAAATCAAAAGGTGAACTATTAAAAATATTTAAAAAGGTAGTATCTATACCTGACAATGATAAAACAGGTAAGAAAGCTATTTATGACAGGTACAGACAATGGAATCTACCACACAACTCTACTTATTTAGATATCAGAGGGGTAGTTACATTAGGAGACGGTAAGTCATATCCTGTAAAAGACGTAGACCGCCTTGTAGCGTGGTTTCAAGTCGAAGGGGTAAGGGAAATGCTATTAGACGTAGCAAAATCAAATGACAAATACTACATCCTAAACTTGTAA	MEDFELHVRKMEFVYKKLKSVLDRDSLDYLMQARAYFHQEQRILLEELEIYKCTLPELSEEERTIFEEMGCFSENGHFILEGRYLIPVYSPSGKLITLIGWFNDYKKYITLPTKFFSKKVDWFNIENALELSFNAYDGLVFAVEGIFDAYSLRSIGLPVVATMGADVSKSKGELLKIFKKVVSIPDNDKTGKKAIYDRYRQWNLPHNSTYLDIRGVVTLGDGKSYPVKDVDRLVAWFQVEGVREMLLDVAKSNDKYYILNL				NA	NA	NA	NA	NA
AK009_03252	327			hypothetical protein	GTGAAATACGAATTAGTTACAAACGAAACATTATTTGAGGTCAAAGAAGACCATAAAGTGTTAGGGAAGTCAGGTACAATTTATTCTATTATAGACTTCCTACCTGATATAGAAACAGGTGAAACAAAACTAGTATTAGGTAAATCTGAGTTTGATACAGAACGAGGTCAAATGTGTACGCAATTATTTGGGGTAGTAGATAAGCTTCAAGTAGAAAACTTCTTTTATATTATAGAAGAAACGTATTCAAATTACATTTTAAAACTGTCTACATCATATAAAGATAATAAAGAGAGCCAAACTAAAAAAGAGAAGAAGGTTCTTTAA	MKYELVTNETLFEVKEDHKVLGKSGTIYSIIDFLPDIETGETKLVLGKSEFDTERGQMCTQLFGVVDKLQVENFFYIIEETYSNYILKLSTSYKDNKESQTKKEKKVL				NA	NA	NA	NA	NA
AK009_03253	273			hypothetical protein	ATGCTAAACTTAGAAATCGCACATACATTACTACAATTAAAAGAAAACCATTCAAAACTAGGAAAAGAAGGTACAGTCTTTTCAGTAGTAGATTACGTATTAGATGTTCAAACTGACAATACAAAAGCTTTATTAGGTAAACCTGAGTATAACGAAGTATTAGAGCAAGTTTGGACGTTACCTGTATGTACAGTATCAGAAGATGAGATTGAAGAATTATTCGTAGTGATGGAAGAACCACTCCATGAGTACGAGAAGGGTTTGAAGAAGTAG	MLNLEIAHTLLQLKENHSKLGKEGTVFSVVDYVLDVQTDNTKALLGKPEYNEVLEQVWTLPVCTVSEDEIEELFVVMEEPLHEYEKGLKK				NA	NA	NA	NA	NA
AK009_03254	303			hypothetical protein	GTGAACAAGATGTCAGAATCAGTAAACATCATACTTGAAGTTACTTTAATAAAACTAAAGGAAGAACATAGTATCTTAGGAGAAAAAGGTACAATTTATTGTGTTACAGACTCTATTAGTGATATAGACAGTGGTACAAGTAAGTATGTAATCAATACAATGTACTATGAAGATGGTCAACTAGAGATAGACAGTAGTTCTTTCTCTGTAAGTGAAGAAAAGTTAGAAGAGTTGTTTGAAATTATAAAAGAAAACTTAGATTGGTATGAAAATGAACTAAGAAAGCAATATCTCGAACAGTAA	MNKMSESVNIILEVTLIKLKEEHSILGEKGTIYCVTDSISDIDSGTSKYVINTMYYEDGQLEIDSSSFSVSEEKLEELFEIIKENLDWYENELRKQYLEQ				NA	NA	NA	NA	NA
AK009_03255	285			hypothetical protein	ATGTTAGAAGATTTAGATGTATATCCATTTACAAAACTATTTAAACTAAAAGAAGACCACGAAGTACTAGGTCAATCAGGTACACTTTTCGTTGTTAGAGATACTGTAATCAGTCTAGAAACAGGTGTCTCTAATTTACTATTTGGTGAAGTAGTGGTAGAAGACGAAAGAGTAAGTGTTAGTTTCGGAAAATGTACAGTAGACAAAAGATTTGTTGAAACATTCTTCGATGTAGTAGAGGATGAAACATTTCACCAGTGCCAAGACAGAATAGAAAGTAACTAA	MLEDLDVYPFTKLFKLKEDHEVLGQSGTLFVVRDTVISLETGVSNLLFGEVVVEDERVSVSFGKCTVDKRFVETFFDVVEDETFHQCQDRIESN				NA	NA	NA	NA	NA
AK009_03256	327			hypothetical protein	ATGTCTGATAGTGTAATCTTAAAACCAAAAGAAACAATGGTTCAATTAAAGAAAGACCATGAAGTACTTGGTGAAGAAGACACATTATTTTGTGTATTAGGAACAGCTTTCAATATCAAAACTGATGAAAGTAATATTTTATTGGCTAAAATTGTAGAAAACGATGGTATAGCAGATATAAGTGAAGAATTCTTTACAGTAGAAGGGGTAGTGTGGTTAGAGAGCTATTTTGATATTGTACAGAACACAACATTTCTAGAACATCAAATAAAAAGCATAAGACGAAACACTGAAATGAAATATTCTAGACATGATGATTTTTATTAA	MSDSVILKPKETMVQLKKDHEVLGEEDTLFCVLGTAFNIKTDESNILLAKIVENDGIADISEEFFTVEGVVWLESYFDIVQNTTFLEHQIKSIRRNTEMKYSRHDDFY				NA	NA	NA	NA	NA
AK009_03257	663			hypothetical protein	GTGTCAAAAGTAAATGCGGAAACAATAAGTGGTATGCCAATCTATTTGGAGCGTAGGTTTACAACTTCAAATAAATCAAGAACAATCCTTATGCCACCTAATAAACAAGTAATACCAAAAGATTTAACAGATAAAGAAGAAACTGAATTTAAGATATTAGAGTTAGCAGACAGAATGATTAAACGTATGAGTATAAACAGTGGTGAGTATAAGTTTTATAGTGAGGTTCACAAGTTGTTAGGTAAAAGCTATTTACAACTATGGAATGAAATACAGCAACAAGGTTTTGGTTCAAATCAAGCTAGAAATTACATTCTAAGTAAGATACATATCTCAAATAAACCTACAAGGTCATATTTAGTAGGTGAAAGAATGAATCAAGTTTTAGTTTACTTAGACCGAACAAAAGATACAAAGCATTTAAACGTGATGGAAAATAAGGAACTAAAACTACGTATCAAAGTTGATAAAATTTTAATGCGTATTTACTTAGAAACGAATAATAAAGAACTGGTAGAGTATTTCGGTGTCTTGGATACGGTATTACGCATTAACTTCATAGAACTGTGGAGTAATGTAGTTGATAACAAATTAAATGTATACGAGACAATTAATTACTTAGTAAAAGTATACGAGAAGGGCTTAGAAGCTAAAATCCAATAG	MSKVNAETISGMPIYLERRFTTSNKSRTILMPPNKQVIPKDLTDKEETEFKILELADRMIKRMSINSGEYKFYSEVHKLLGKSYLQLWNEIQQQGFGSNQARNYILSKIHISNKPTRSYLVGERMNQVLVYLDRTKDTKHLNVMENKELKLRIKVDKILMRIYLETNNKELVEYFGVLDTVLRINFIELWSNVVDNKLNVYETINYLVKVYEKGLEAKIQ				NA	NA	NA	NA	NA
AK009_03258	438			hypothetical protein	ATGATGGATATGCAACGTTATAATGAAATTGTAAGTAGAACTGTTCCAACACAACAAGAAATGGAGATACATAATCAGGTCAGACAAGGATTAGCACAAGACGAACAAAGCAGTCCTTGGTCAAACAATAAATATTACATAGGATTTGATGAAAGAAACACTGATGGTTATAATTTAAAACAAGCGCCACTTTATAAACTGTTAATGGTTGTTTCAGACGCTACAGGTACATTTTACAATAATAGTAGAGGGACTGGTATGAGTCGAGGTTCTGTTATCATTAAAATGTCAGAAGACCTAGTATATTGTGTAGATGCATTCTACTGGGGTGCAACACCATATGGACCTGTAGTAACATCCTTACAAGGTTATTTGCAATATACGTATCAATCTGTAAATTATGGAAGAGTAAAAGAGTTATCTCAAGTAAGACCTTAA	MMDMQRYNEIVSRTVPTQQEMEIHNQVRQGLAQDEQSSPWSNNKYYIGFDERNTDGYNLKQAPLYKLLMVVSDATGTFYNNSRGTGMSRGSVIIKMSEDLVYCVDAFYWGATPYGPVVTSLQGYLQYTYQSVNYGRVKELSQVRP				NA	NA	NA	NA	NA
AK009_03259	273			hypothetical protein	GTGTCTGAATCAAGTCCAAAACTTGTTATAAACCACACATTACTATGTTTGAAAGCGTACCATAAACAGTTAGGTCATCAAGGTACAGTTTACTATATTTCAGACGTAGTATCAGAAGTAGATACGTATGAAGTAAAGTTTATCATTACGCAAGTTGTTATAAACGGGGTAATTTCTTATGTGTTAAATGAGAACAAGATAAGAGAGTTGTTTGGTGTTCAGCATCAAACGTTACAAGAGTATAGAGAAGGTTCAAACAAATTACCATTTTAG	MSESSPKLVINHTLLCLKAYHKQLGHQGTVYYISDVVSEVDTYEVKFIITQVVINGVISYVLNENKIRELFGVQHQTLQEYREGSNKLPF				NA	NA	NA	NA	NA
AK009_03260	258			hypothetical protein	ATGAGACGTAGCAGAACATTTAGTACAGTAAAAGAGTTTCGAAAAGAATATGACAACATGAGAATCGACATCTTAAAACGTCATAATATTACAGACCCTAGTAAAGCACGATTAAAGAATGCTATGCGTTTGTATCAAACGTTTAATAATCAGTGGACGCCAATCACAATGAAGAAAAGTGATATGGAGAACCGTATTAAAATGTATGAAGATATTCCTGATAGACAGGCGTGTTTTATGTTGGAAGCATTAGTATAG	MRRSRTFSTVKEFRKEYDNMRIDILKRHNITDPSKARLKNAMRLYQTFNNQWTPITMKKSDMENRIKMYEDIPDRQACFMLEALV				NA	NA	NA	NA	NA
AK009_03261	315			hypothetical protein	GTGGAGAAAGTGAAAGTACAGTATCAAGGTAAAGCAGAAGTATTATTAAATGCATTATTAGACGGAGCAGGGGAAGATTTAAAACTATCAAATGCACGTATGGTAAAGTTAAGAGAATCAGGAGACTTAGTGGCTTTACGTATGGAGCGTGAAATGAATGATATTTACAAGAAAAAGAAGAGTAAACTAGAGTCTCTTGTAAAGATGGAGAAGAATGTTTCATGTAGTGTTCCTTATGTAGTAACAGTTGGTTGGCAAGATGAAGACGGAGGAATATTCGGTAAAGAATCTTATGTTTCAAATGTAAAAGAGTAG	MEKVKVQYQGKAEVLLNALLDGAGEDLKLSNARMVKLRESGDLVALRMEREMNDIYKKKKSKLESLVKMEKNVSCSVPYVVTVGWQDEDGGIFGKESYVSNVKE				NA	NA	NA	NA	NA
AK009_03262	513			hypothetical protein	ATGAACATGAAAGAGAAAAGGGTAAAACTTCATGATTCACTAGAAAAAGCAATTATCTGTAATCAAAACGAGTTTGAGTTAAAGTCATTAACGTACAAAGTATTAATGGTTGGTATTGATGGAAGAAACATTGAAGCATATAAATCAGTGTTAAAAGGACTAGACGTAAAGTCTCCATTAAGTATCATAAAACAGTTTTCCAATGAGTTAAAAGTTTTAGGGTTAGAACCAATTATTCACACAGGAGATATGTTAGATACATTACGTTATGCATATAAAACTAGCTTCTTACTCTTAAAGAACGAGTTAGAAGAGTTAAGAGGGGTAGTAAATCAGATTAGACTGAATGCAGTTCTTTTCTTATTAAGAGACTTTATGTTAGTTGGGTTTGAAGAGTTATGGGTTAAGAGTACAGGGTTGCAAGACTATAATAAGAGAGTTCAAGACACGTTAAATGGGTTAAAGTGTCGAGTAGATAGTCTATTAAACAAGGGTATGCTAGTAACAGCATAA	MNMKEKRVKLHDSLEKAIICNQNEFELKSLTYKVLMVGIDGRNIEAYKSVLKGLDVKSPLSIIKQFSNELKVLGLEPIIHTGDMLDTLRYAYKTSFLLLKNELEELRGVVNQIRLNAVLFLLRDFMLVGFEELWVKSTGLQDYNKRVQDTLNGLKCRVDSLLNKGMLVTA				NA	NA	NA	NA	NA
AK009_03263	303			hypothetical protein	ATGAAAACATTAAACAGAGAAAAATATAGACAAGGTATTGTAGCAAGAACAGAAAGTCCAATGCCACTCATTAGTATTGGACAACTATTGATGGCGATTAAGAGACGTATTTCAGATTATGAAGAATATATGTTACTGGATAAAGTAACAAACATTTACAAAGAAAACATGAGTTCAGGAGCAAAAGTAGTAAGTAAAGAAGAGTATTTAACAGAAGTTAGAGGATACTTAGAAGAGTTGGTATCTAAGACACAAGATAACTTCATTAAAACTATTGTATCAAATATTTTGGCAAATAACTAA	MKTLNREKYRQGIVARTESPMPLISIGQLLMAIKRRISDYEEYMLLDKVTNIYKENMSSGAKVVSKEEYLTEVRGYLEELVSKTQDNFIKTIVSNILANN				NA	NA	NA	NA	NA
AK009_03264	510			hypothetical protein	ATGACAGACTACGGTATTTCCGTATCATCATCCGTGTTTGAAGGGGTTTTAAATTCACAACTTCTAACATTTGAAGGAAACCCAATAGACCAAGTAGAGGAAGACCACATTATCCTCTTTAAAGAGTCCGACCATGAAGGTAATTTGATTGGTCGAAAGCACTTAGTTGGGGTATCCTCTGTAAACTACGATAAGGAAGAGGGTAATTTAACAATTGGTATCTTCGATATCATGGTTCATGGTAGCGGAACTGAGAAAGTATTAGAGAAAACAAGAAACCCACTATCAGTTGACGAAATGGGGTATATTCTTACTGTAGCGAGAGACTTTACAGAAGAGGATGAATACGATGATTTGGATAGTTTATTAAAAGCGTATCGTACTTTAGACGTAGAGGATTTCGATTTATGGTTAAATGATATCCAAGACCAAACTGAGCAAGCTTTCATTTATATCTTAATGGATAACCTAATGGAACTGATTCATAAGGAAGGGTATACAGGTAACTAG	MTDYGISVSSSVFEGVLNSQLLTFEGNPIDQVEEDHIILFKESDHEGNLIGRKHLVGVSSVNYDKEEGNLTIGIFDIMVHGSGTEKVLEKTRNPLSVDEMGYILTVARDFTEEDEYDDLDSLLKAYRTLDVEDFDLWLNDIQDQTEQAFIYILMDNLMELIHKEGYTGN				NA	NA	NA	NA	NA
AK009_03265	522			hypothetical protein	TTGAAAGTAAACGCAAACTTCATTTTAAACTTAGATGTGAACGCTTTTGAAAATGTCGTGTTAGATGGGCATTTCGTTGAGTTTGCAACTAGGGAGGGTATAGAGTACAAAGTAGGTGATTTTGTACTAATGAAAGAGGTAAACTCAAGCAATGCTTTAACTGGACGTAAGTCTTTAGAAGCAATTAACCGAGTAATTGTAGACCCTCTTACAAAATGTACAACATTGTTCTTTGAGAACTTACCAACAAATACATTAACTGACAGAGTTTCATTAGCTTTCTCTAAGAAATATCTACAAACTGTATTTGATATGAAAGTGTCATTATACAATTTAAGAGAGTTAGCAATTTCACATGTAGACAAACGATTAATCGGTTCAATCACACATAACTTAAAAGAGTATGTTACGGTTGGTGAAAAGAAGAACTATATGATGAGTAAACTCTTAGAGTTACAGCATGAAACAGTTGATACAGTGTTGTATTTGTATGTAGATAATGTATTAGATTTCAACAATTAG	MKVNANFILNLDVNAFENVVLDGHFVEFATREGIEYKVGDFVLMKEVNSSNALTGRKSLEAINRVIVDPLTKCTTLFFENLPTNTLTDRVSLAFSKKYLQTVFDMKVSLYNLRELAISHVDKRLIGSITHNLKEYVTVGEKKNYMMSKLLELQHETVDTVLYLYVDNVLDFNN				NA	NA	NA	NA	NA
AK009_03266	270			hypothetical protein	GTGGATACAAATAATGGAGTATTCAGAGAGAACTGGAATTCTTTGGAGATTTCTGATACGATTAAATTGGGTTATGTAGAAACTATTCTAGTAGAAAAACTAGGCAATCAGCCATTAAACTATAAATTCATTGTCAACAACAAGAAGCAAATCGTTGACTATTTATCTAGAGTATATATGTCAGAAACTTATTTGGTGGGTATAGGAGATTCAGAACGTATTATTGTTACAAACGAGCCTGATGTAAAATTCAAACTACTTAAAATGTAA	MDTNNGVFRENWNSLEISDTIKLGYVETILVEKLGNQPLNYKFIVNNKKQIVDYLSRVYMSETYLVGIGDSERIIVTNEPDVKFKLLKM				NA	NA	NA	NA	NA
AK009_03267	1197			hypothetical protein	ATGATAGTCGAATTTGAAGTAATGGAACTGAGTGAAGATTATTTTTACAGTCGTATTAAGAAACTACAGAAGATGGCAAACAATCGAGGATTTCATTTTGAACTGACAGAGAAAGAATCTTATCCTAAGAAAATTGAAGTAGACATTGAAGGCTACCTACATAAACTCCAAGTTAAAATGACTCCATATACTTTAGATATTGGTATTCCTGAGGATTCAAACCGATATATTGAAGTAGGTATTATGCGTAAGATTGATACTCATAATACATTAGATGTAAACCATGATTTTGCACAAAAGTATGAGGTATCTAAGTTACCGAAGGAATTATATACAGAACCTATCTTATGTGAGCATTGTGGTAGTGGTAGAGTATGTAAACAAACACATGTACTATATGACTTTGAAGAACAGTTATTCTTTCAAGTTGCAAGTGGGTGTTTGTTTGAGTATAAAATGTATATGAGACCGATAAACATAGAGTATATGTTAGAAGACTTAGAAAGAAACTTAGCAGATAGAAACCGTACAATGACTTCTCGTCATAGAGAGTATTATACATATGAAGAGTTCAAACCAGTAGCTTTATATTGTTTGGCTCATTATATGGGGTTAGAAAAACTAGAATATATTTCAAGAAGTTATGCGTATTATAATAAACTTATACCTACAGAAGACCGTATTGAATCCTTACTTGCAGAAAATAAAGGGGTAGGAGACGAAGTAAAACAGGTATATCCATTATTTTTGCAGTATCTAACGGAATATCAAGGGGATGCAGAGAATAAGAACTACGAAAACATCATAAAAGATAATACACTACCTAGCTTTAAGCGTAGACCACTTATCTATTTAGCATTCCAGTATTTCTATGATAGGGAGAAACGAGAGAAGAAGGAACGAGAAAGAAAATTAATGGATGAAGAGGTTTCAGACTACATAGGAGAAAAAGGAGACAAGTTAGAGTTAGAAGTTACATATGCTAAAACAGTCTCTTATACAAGTGAACGATTTGGGGTAGGATACTTTCATTTCTTTGTTACAGAAGACGGAAATGTATTAAAGTGGGCAACTTCAAAAGACTTTAATGAGAATGTAAACGAGGGAGATATATTCCCTATTAAGTTTAAAATAAAGGGACATGAGACGTATCAAGGTCTTAAACAAACCCAAATATTTTATGTAAAAGTGGATTAA	MIVEFEVMELSEDYFYSRIKKLQKMANNRGFHFELTEKESYPKKIEVDIEGYLHKLQVKMTPYTLDIGIPEDSNRYIEVGIMRKIDTHNTLDVNHDFAQKYEVSKLPKELYTEPILCEHCGSGRVCKQTHVLYDFEEQLFFQVASGCLFEYKMYMRPINIEYMLEDLERNLADRNRTMTSRHREYYTYEEFKPVALYCLAHYMGLEKLEYISRSYAYYNKLIPTEDRIESLLAENKGVGDEVKQVYPLFLQYLTEYQGDAENKNYENIIKDNTLPSFKRRPLIYLAFQYFYDREKREKKERERKLMDEEVSDYIGEKGDKLELEVTYAKTVSYTSERFGVGYFHFFVTEDGNVLKWATSKDFNENVNEGDIFPIKFKIKGHETYQGLKQTQIFYVKVD				NA	NA	NA	NA	NA
AK009_03268	234			hypothetical protein	ATGAGATATACAAACACAAAAGAAGGTCAAGAGTTATTAAAATTCTGTTCAATGGTAGCTTCAACTCACGGTCAAGAAGTATATAAGTGTGGTATATGTGACGAGTTATTTGTAGGAGTACCTAACGAAGTAGATGAAAAGAAACCTGTATGCGGAATTTGTATAGAAGAAATTAAAAGAGAAAACAAAGATTCACATGGTATTGAATCCGTAGATGAAGACTTTGATTATTAA	MRYTNTKEGQELLKFCSMVASTHGQEVYKCGICDELFVGVPNEVDEKKPVCGICIEEIKRENKDSHGIESVDEDFDY				NA	NA	NA	NA	NA
AK009_03269	483			hypothetical protein	ATGTTAACAGATGAAAAACTCGTTGAAATATTATATAACAGCAAGAATTTAGGAGTAACTGTACAATATGAATCTATGTCTAGTAGCATTTTATACGCTCATGTGTATTTTCCTGATGGTAAGAGGGAAACTGTAGACGTAGAAATATTTCGCCTGTTATTTAAACTCAAAATGCTAATAGAAGACAAGAAATTTAGAGAATATAATAAAACAGGTTCACGTAGACTGTATCGTTTGTCTAAGGTAACCAACGTACAGTTAGATATCTTAAAAGATAAAGGGGTATTCAAACTAAAGAATTACTATCGTTTTCCTTTTCTATCTGTATCAAAACAAGCTTGTATCCTTTCACATGTTGGTAAGGGTATGGTAGACTTCACATACAATGATATAGAACATATTGTAAAGAAAGGTACACCGTATAGTTTCTTTGTAGACCAATATAGAATCTCAAATGAAGAGTCAAACAGAAGGAATCACTAA	MLTDEKLVEILYNSKNLGVTVQYESMSSSILYAHVYFPDGKRETVDVEIFRLLFKLKMLIEDKKFREYNKTGSRRLYRLSKVTNVQLDILKDKGVFKLKNYYRFPFLSVSKQACILSHVGKGMVDFTYNDIEHIVKKGTPYSFFVDQYRISNEESNRRNH				NA	NA	NA	NA	NA
AK009_03270	7209			hypothetical protein	TTGGAGAAGGAAAGTAACAAACCAACCGATAGTAAGAAAAGCAAGAAGAATCCTTCGAAAAAGGTACTCGCAACAAGTGTCGCAGTTGCAACTATTTTAAACCCTCTTGTTCAGCCAGTAACAAACATCTACGCTGAAACAGAGAAAGATAGTAGTGGTACGGTAGAAGAAAACAAACCGAACAATACAAAGCCAGACACAAGTGAGAAGCCGAAAGAAGATGTTAAGCCGAAGGATGACTTGACACCAAAAGAGCCTGAGGTTAAACCAATTCCAAAACCGGATGAAACGGTAAAACCAGACCCTAATGGTGAAGACAAGGGTGAGCAACCTGTACCACCAACAGGTGAGGAAACTGAGAAACCTAAGGAAGAAGTAAGTAAGTTTCCAAAATGGGTAGATGAAGGGTATTCCGATTGGTCAGACGAAGAGAAACAAATCTTAGTTGACAACTTCAATCAAGACTTATCATTTAAATCCGCTTCTATTACAGGTGTATTCGGACAAATCATGTTAAACTATGGTGGATACGAATTCCAACTCAAGAATGAATACGCTTTACAGTTTGCAGAAGGTAAAGACAAGTTAAGAGACTTGGTTCTTCTTATGTCCGTACAGGGGTATGGAGAGCCAATTAAGTATTATACAAACTCTAAGATTCTTGAAAAAGCACCGAGTTTACAATTAAAGGCTGATGTTTCTGACTTCAAATCTTACTACAACGTTACAGTAAACGATGTAAAGTACTTAAACGAGTCAGTAGTTAATAAGTCAGAATTTAAATTTGTTACAAGTTTCGAAGATTTAAAGAGTCGATTAGGGGTAGAGAATTACTATTTTGTATATAACACAATTTCAGGTAAAGTAGACGGTAAAGTTGTACAAGACATGTCTTCTTTCGAACCTACGTATAGTAAAGATGGCGTAACACATGTAAATATGGAGTTACACTTCCTAAATCTAGTTCCAATCGAGTATGGAAAAGATACAAACATCAAAGTATCAGTAGAACCTACGGATGCAAAGATTAAGAGAGATTTGACACCTTTCTATGATACGAGTAAGGTTACTTTAACGGATACACCAATCTCTATCGCATTAAACGATATAGGAGAAAATGGTGCATTAAAATCGTTAAAGATAAATGATAGATTAATATGTTTCCACGAGATTGAAGACTTTAAACTAGATAACCAATGGTTAGAAGGTGGAACGAACAAATCTCTTAAAGTAGAAGGTGAAACGTTAAGCCTTGCAGGGAAAGACAGTACATTCTCTAAGAAAGGTATTGACATCAAGAACAAAACTACCATTGATAAATCGAATTGGATTAAAGACAATCACGTTGAAATGGGTTATCAAAGTAAGAGAGCATTAAGCAACTTACAAATCTATCTAAACGGTGAAGAGTTAGACTCCTTCTTATTCGGTTCAAAATCAGGGGTAAAAGGGATTGACTTCAATTTAAACTTAGAAGACGAGAAAATCAAATCTAAGTTAGTTGCAGGAGACAATACACTAACTGTCATGGATGGTACAAAACAGCATGATATTAGTTTCCGTTTTGATAAAGAAGCACCTTCAAATAATGGTTCGACATTAGATAACTTCAAAGCGAACTATGATGGCGTATCTTACTTTAAACAAAAGCCTACTGTTACATTGAACTTCAAAGATAACACAGGTGTTGATAAAGTAACATACTTAGACCAAGAAGGTAAAGAAGTAGAAGTAAAAGACCCAGTAGGACGTACAATTGAGTTAGATGTAGAAAAAGGTTTACCAAAAGACTTCATTGCATATGATGTAATCGGTAACAAGTCTGAACCATTATCTTTATCTCAATTAACTGGTGTAGAGTTAGAAGCGAAAGCGGTTGTATATGATGACAAACCTACAGTTAAAATTATAAACAACAAAGAAGCTTCAAAAGAGAAAGATTCTAAGCCTACTACAAAAGAAATTGATGGTAAAACGTTCTTATTAGATAAAAACGTAGATGTTACGTTCCAAGTATCTGATAAACATGTTGTATCTAAATATTTCATGTACGAAGGTGAAGGGATATTAAACTCTAAAGAAGAACCTACGAAAAAGGTTGATGACTTTAATGTTAAGAAAGAATTAACAGAGTCTACTGTATTAGACTACAAAGTATCAGCAGAAAACATCGTTGGTAACAAAGAGAAAGACGAAATGAAACTGTATTATGATGTAGATAAGCCACAATTAAGTGGGGTTGTAACATCTGATAGTGTAACAGACATGGTAAGTGGTATGTACTCTTCTAAGCCTGTTACATTAAACATCAAAGCAGAAGATTTAGGAGTTGCACCATCAGGGGTAGACAAAGTCTTAATCTTAGACGATGAAAAGTCGATTATTAAGGAATTACCATATACGGATACGTTAACGTATACCTTAAACAAGTCAGGTCAATACCACTTACAGGTAGTGGATAAAGTTGGTAATAAGTCAGAAGTCATTGCATTGAATACTATCCTAAACGGTGGTATGAAATCAAATAACTTCCAACTTGTACAATCTAATCCAATTATCGAGTCAAACTTTGATAAGCCTGTAACATTCATTGACATAAAAGGTAATATGTGGTTTAAAACGATTCCAACTATCAATACAAAAGTAACAGATGATGCTCCATTCCGTATCTTAAAAATCTCTCAAAACGATAAACTTGTATTTGATAAAGATTATTCACAAGATACACAAGGAACGAAGCAAGAAAACATCAAATCTGATATTAAGAACGAGGATGTACCTTCTAACGGTCAAATCACATATAATACGCATTTAGAAGATGTTTTAGGTGAAACGTTAGATAACAAGAAGGAGTTCTTTGTAGATACAAAAGCACCGAATGTAACAGGTACAGACAAAGATGGTTTCTATAAAGAGAATGCTCTAGGGGTATTCATTGAGAAATCATTAAACCTTAACTTTAAAACAGATGAAGAATTAAGTGGTTTGAATAAGTTAGAAGTATTAGACTCATCGGATGCAGTGATTGATGAGGTAAAAGGTGAAGGTTCTGAGATTTCATACAAGATTAAGAAGAGTGGACTATTTAAATTCCGCTTTACAGATAATGTAGGGAATGCCAGCAAGGTATATACAATGTCAGACTTAGGTTTTGCTTCTGATAAAGTATACCAATCTGAGTCAAAACCAACAATTGATGCAAAGATTGATAAACCACAAGTTGAGATTGATGGTAAGAAGTGGTATGGTGGTCTTCCGAAGGTAGACTTTACATTGAAAGATGATGTAGGGGTATCTAAGTACGAAGTCATTGTAAACGGTAAGGTAATTGATACAGTTGATGTACAAGACTTACAAACAAAGATTGAATACAATCTAGACTTCACAAAAGTAGATAAGCCACAAGATGGTCGCTATAACATCAAGGTTGTATCGAAAAACTTCATTGAAAAAGAAGTAAGCTTTGAAGATACAATTTACGTAGATGATACAAAACCTGAATTTTCTGGTCTAACTATCAATGGAGATTATAAAGTGTTCAGTGAAGCCTTTTATAGTCAAAATAAACTACGTTTAGACTTCAACTTGAAGGACTTTGAGAACTCTAGCGGTATCTCGCATGTATCTATCTTTAATAAAGATAAGTCTTTAATTAAAGACGTAAAAGTAGAAGATGGAAAAGCTTCTTATGTACTAGAAACGTCAGGTCAATACTATGTACAAGTAGTGGATAACTTAGGTAATAAGAGTGATATGAAAGCATTAAACGATATCCTACCATCATTAGGTTCTAATAACTTCATATATGATGTGAACGCACCTCAATTATGGTCTGAGTTACCACAACCTGAGTATGTAGACGGAGATAAACGTTGGTATAGTAAGGTATTTCCGATAACAGTTCAAGCAGACGATAATACCGCAATTGCTGAGTTTAAAGCAATAGTGAATGGTAAAGAAGTTATTTCTAAGAACTATGGAGAGTCTATTACGAAACAAGAATCATTCCAATTAGACGTATCTCAAGCAAATCGAAATCAAGATGGTTCTTATAATGTAGAACTCATTACAATTGATAAGTCTGGTCTTGAAACTCGTAAGAACTTTACATTCTATGTAGATGATGTTGCACCTAGCGTTACAAGTTCCGCTTTATTAGGCGAATACAATATCGAACCTGAGGGTAACTACAGTAAACAACCTTTACAAGTGAACTTAAACTTAACAGATGTTGGTTTCTCTAGTGGGGTATCTAAGGTTCATGTATTTGACGGTAACAAAAACTTAGTTGAATCTATTGGAGTTAATGAAGACCGATTCTCTTACATCCTAAATAATCGTGGAGGATACTTCTTCCAAGTAGAAGATAAACTAGGTAATAAATCACCAATGTATAGTACAACAGATTTATTCCCATTCTTAAAAGCGAATAACTTTGTAGTAGATAATACAAACCCAACTGGTGAAATTAAGACATCAAATCCACAACATAGTAAGAACGGTGAAGATTGGTACAAAGAAAACCAAAATGTAGACTTTGATATCAATGATGAAACAGCTATTAAACAGGTTGTTGTTACGGTTAACGGTCAAGAAGCTATCAACAAATCGTATGATGGGGTAGTTGGAAGTGACAAGTTATCTGTTAACACATCAAACTTTACTCGTGGTACAGACGGTTCTTACGTTATTGTTATGAAAATTCGTGATAAAGCAGGTAATGAGATTACGCAGAACAAAACAATCTATGTAGACGATACAAAACCTGTTATCAAAGGATTTATCTTTACAGATAGCGGTTACAAAGAGGGAGAGTCTATTACAGTAGACGAATCATCTTACGGTTTCTACTTCAAGAATGGGGTAGGCGTACAAGTAAACGTAGAAGATGCAAATGCTTCTAGTGGTCTAAAAGAGTTAACATTCCGATTACACAATGTAAACGGTAATGTATCAGAACAAGTTGTAGCTATCCAAAACGGAGTAGCATATGCAACAATTCCTGAGAACTTCAAAGGTCAAGTAAAATCAGTCGCTTCTGATAACGTAGGTAACAAGAGTGACCAAGCAAAACCAAGTGGTGTAATTACAGAGAACGGTAACTGGCATGTAAATAGCAGTAATCTTACTTTAACATTACCACCAACGCAATATCAAACAGCAGATGGTCAGCCATTATACAATAGTGATGTAAACGTAGCATTTAACTTAGCAGATACTACGTCAGGTTTCCGTAACATTAACTGGGGTATTGACGGTAAAGTTGTTGGTAACACAGACATTTCAAATGGTGGTGGCATGACGGGTTACGGATTTGATGTAACAAACCGTGATTCAAACTTAATCACTGGATTAAAATCTGTTGGGGTAGTAAGCGAAAACCGTAATAATATTAAGGTTAACTTAAACTCTACAGATAGAGTTGGTCATGCTTCTACAAATGAAGTTGCTTTTTCTATAGATAAAGATGCACCTGTCTTATCTCTATCGTATGATTCAGAAGACGGAGATAATGGTTACTTTAACCATAATAGAACAGCAACATTAACAATCAAAGAACGTAACTTTAGAGCATCAGACGTACAATTCAGCGGTAATGTTCCGAAAGGAAATATTAGTTGGAACTCAAATGGTGATGTTCACGTTGCTACAATTCATTTCACAGATGAAATGGAATATGATTGGGGCGTAAGTTACACTGACTTAGCAGGAAACAAAGGAAACGATGTACAAAGTCAGAAGTTCACGATTGATAAATCAGCACCACAATTAAACGTAAGTTATAGTAATAATGACCCGCATAATGGTAATTTCTATAACAATTCTCGTATGGCAACTGTTACAATTAATGATAAAAACTTCGACCCATCAAGAGTTAATTTTGAAGGTCAAGGTACATTAGGTGGTTGGTCATCAAACGGTGATATTCATACGGCAAACATTACGTATGCAGAAGATGGAGAATACCAATTCAAAGTGTCTGCAAGAGATAAAGCAGGAAACCAAGCACAACCATTTGAAAGTGGTCAGTTCATTATTGATACACAAAAACCAGAACTTACAATCTCTGGTGTAAACAATGGTGCTTCTTATAAAGGTAAAGTATTACCTATCATTGAATTTAAGGATAAATACTTAGACAAAGATAAAGTCAGAGTAACCCTTAAAGGTAACAAGAAAGGTAATATCGAACTAGGAGGTAGCTTAGAGGATGGTCGCTTAATCTTAAATGACTTACCAAAAGATGAATCATACGATGATATTTACACATTAGACGCTAAAGTAGAAGATAAAGCAGGTAACGTATCTGAGCAAAACTTGAAATTCGTTGTTAACCGCTTTGGTTCTAATTTCGATTTAGATGATTTAGACTTCAAAGGTAAATATCTACAACGTGTGAAAGAAGATATGATGATTCAAGAAGTAAGTAAAACTGAATTAGATATTGATAAGCTTCAAATCATTGTAAGTCATAATGGTACACCGAAGACTTTAACTAACAATGTTGATTTCAAAGTAGACCATAAAGTAGACGAATACGGTTATCATCATTACAAGTACATCATTAATAAACGTCTATTTGAAAGAGAAGGTTCTTATAGTATCCTAGCAATCTCTCAAGATTTACATGGAGACAAGAATGATACTCGTCAAACAGAATTGAAGTTTATTGTTGATAGAACACCTCCACGAGTTGTTATTATCGGTGCTGATGAAAATCAAACTTATAAAACAGATAAGTTAAAAGTTGAGTTAGATATTAAAGATAATATTAAACTTGATAAGTACCAAGTATTTATTGATAGTAAAGAAACAAAACCTTATATGGAAGGTGACAAAATCTTTGTAGATGTTGTTGGTTCAGATAAACCACAAGATATTGAAGTGGTTGCATATGATAAAGCAGCAAACAAAAGAGTTGCCGAGGTCAAAGGGGTATTAATCACTACAAACTGGTGGTTAAACTTAAAAGGTAATAAATACTTCCAAGGCTCTATGTGGGCTGGACTAGGCGCATTACTAGTCGGTTTCATATTCTTACTAAGACGTTACATTGTAGGTAAGAAGCGTGAACAAGATGAACAAGATGCAAACAGAGCAAGACTTGCTCAAATGCATTCAGAAGAGTTAGCAAACTCGAAACAGCCAACTGGTCAAGCGACTGGACAAGCTGAGAAAGAAGTAGCTTCAACAAAAGACAAAGAATAA	MEKESNKPTDSKKSKKNPSKKVLATSVAVATILNPLVQPVTNIYAETEKDSSGTVEENKPNNTKPDTSEKPKEDVKPKDDLTPKEPEVKPIPKPDETVKPDPNGEDKGEQPVPPTGEETEKPKEEVSKFPKWVDEGYSDWSDEEKQILVDNFNQDLSFKSASITGVFGQIMLNYGGYEFQLKNEYALQFAEGKDKLRDLVLLMSVQGYGEPIKYYTNSKILEKAPSLQLKADVSDFKSYYNVTVNDVKYLNESVVNKSEFKFVTSFEDLKSRLGVENYYFVYNTISGKVDGKVVQDMSSFEPTYSKDGVTHVNMELHFLNLVPIEYGKDTNIKVSVEPTDAKIKRDLTPFYDTSKVTLTDTPISIALNDIGENGALKSLKINDRLICFHEIEDFKLDNQWLEGGTNKSLKVEGETLSLAGKDSTFSKKGIDIKNKTTIDKSNWIKDNHVEMGYQSKRALSNLQIYLNGEELDSFLFGSKSGVKGIDFNLNLEDEKIKSKLVAGDNTLTVMDGTKQHDISFRFDKEAPSNNGSTLDNFKANYDGVSYFKQKPTVTLNFKDNTGVDKVTYLDQEGKEVEVKDPVGRTIELDVEKGLPKDFIAYDVIGNKSEPLSLSQLTGVELEAKAVVYDDKPTVKIINNKEASKEKDSKPTTKEIDGKTFLLDKNVDVTFQVSDKHVVSKYFMYEGEGILNSKEEPTKKVDDFNVKKELTESTVLDYKVSAENIVGNKEKDEMKLYYDVDKPQLSGVVTSDSVTDMVSGMYSSKPVTLNIKAEDLGVAPSGVDKVLILDDEKSIIKELPYTDTLTYTLNKSGQYHLQVVDKVGNKSEVIALNTILNGGMKSNNFQLVQSNPIIESNFDKPVTFIDIKGNMWFKTIPTINTKVTDDAPFRILKISQNDKLVFDKDYSQDTQGTKQENIKSDIKNEDVPSNGQITYNTHLEDVLGETLDNKKEFFVDTKAPNVTGTDKDGFYKENALGVFIEKSLNLNFKTDEELSGLNKLEVLDSSDAVIDEVKGEGSEISYKIKKSGLFKFRFTDNVGNASKVYTMSDLGFASDKVYQSESKPTIDAKIDKPQVEIDGKKWYGGLPKVDFTLKDDVGVSKYEVIVNGKVIDTVDVQDLQTKIEYNLDFTKVDKPQDGRYNIKVVSKNFIEKEVSFEDTIYVDDTKPEFSGLTINGDYKVFSEAFYSQNKLRLDFNLKDFENSSGISHVSIFNKDKSLIKDVKVEDGKASYVLETSGQYYVQVVDNLGNKSDMKALNDILPSLGSNNFIYDVNAPQLWSELPQPEYVDGDKRWYSKVFPITVQADDNTAIAEFKAIVNGKEVISKNYGESITKQESFQLDVSQANRNQDGSYNVELITIDKSGLETRKNFTFYVDDVAPSVTSSALLGEYNIEPEGNYSKQPLQVNLNLTDVGFSSGVSKVHVFDGNKNLVESIGVNEDRFSYILNNRGGYFFQVEDKLGNKSPMYSTTDLFPFLKANNFVVDNTNPTGEIKTSNPQHSKNGEDWYKENQNVDFDINDETAIKQVVVTVNGQEAINKSYDGVVGSDKLSVNTSNFTRGTDGSYVIVMKIRDKAGNEITQNKTIYVDDTKPVIKGFIFTDSGYKEGESITVDESSYGFYFKNGVGVQVNVEDANASSGLKELTFRLHNVNGNVSEQVVAIQNGVAYATIPENFKGQVKSVASDNVGNKSDQAKPSGVITENGNWHVNSSNLTLTLPPTQYQTADGQPLYNSDVNVAFNLADTTSGFRNINWGIDGKVVGNTDISNGGGMTGYGFDVTNRDSNLITGLKSVGVVSENRNNIKVNLNSTDRVGHASTNEVAFSIDKDAPVLSLSYDSEDGDNGYFNHNRTATLTIKERNFRASDVQFSGNVPKGNISWNSNGDVHVATIHFTDEMEYDWGVSYTDLAGNKGNDVQSQKFTIDKSAPQLNVSYSNNDPHNGNFYNNSRMATVTINDKNFDPSRVNFEGQGTLGGWSSNGDIHTANITYAEDGEYQFKVSARDKAGNQAQPFESGQFIIDTQKPELTISGVNNGASYKGKVLPIIEFKDKYLDKDKVRVTLKGNKKGNIELGGSLEDGRLILNDLPKDESYDDIYTLDAKVEDKAGNVSEQNLKFVVNRFGSNFDLDDLDFKGKYLQRVKEDMMIQEVSKTELDIDKLQIIVSHNGTPKTLTNNVDFKVDHKVDEYGYHHYKYIINKRLFEREGSYSILAISQDLHGDKNDTRQTELKFIVDRTPPRVVIIGADENQTYKTDKLKVELDIKDNIKLDKYQVFIDSKETKPYMEGDKIFVDVVGSDKPQDIEVVAYDKAANKRVAEVKGVLITTNWWLNLKGNKYFQGSMWAGLGALLVGFIFLLRRYIVGKKREQDEQDANRARLAQMHSEELANSKQPTGQATGQAEKEVASTKDKE				NA	NA	NA	NA	NA
AK009_03271	852			hypothetical protein	ATGTGGTTAACAGTTTCTTATATTTCTGTTGGCTTAGGGGTATTGTTTCTAGTTATTACAATTATCCTTTGTGTAAAGTGGGATATTGTAAACATATATGATACCATTACAGGACGAAAAGCAAAACGTCAGATTAAGAAGTACAAAGAGCGTGATGAAGGGGTAGGACTAGCTACAGACTCACTTACAAGTGGTTTAAGTGCTACAGGACATTTCACTACAGAGTCTTTACTACAACAATCAAACCAAAATGGAGTTAAGGTCTATAATAGTGAATCGCTGATTAAGTCGCCAAGTTCAGAACGACTCGAAAGAATAATAAACGCTAAAGGTCTTACCGCAACAGGTGAGTTCAAACCACAAAACGATGAAATTTTAAGAACTGAGATTCTTATGGAAGACTCCTTAGAAGATGATATTCAACGTACCGAAATCCTTGATTTAGACGAAGAAAATCAGGTCGAACAAGGTGAAATTTTAGATAACTTGTCTTATCAACCATCATCTGTAGGTCTAGTGGAAAACAAAGAGAATGTACAAGAAAATTCTCTAATCGGTAGCGATGTAACACAGATTCTAGTAGAAGACGAAGAAGAAATAGTTTCTCCAGTTGTAGAGACTGTTTCAATTCAATCAGGAGTTAAGGTATCAGCAGATTTAGATAAGACGCAATTATTAGATGAGAGTACACAAATTTTAGATGAAGGTACACAAATCTTAGACGAGGGTACAGCTATTCTTTCTGAGGAAGACTACAATACATCTCAACTAACACAAGAAGTTGTATCGTCAAACCGTATTATCATTAAACAGCGTGGTAGTAGTTATTCAAAACCAAAGCAAGCAAGTTAA	MWLTVSYISVGLGVLFLVITIILCVKWDIVNIYDTITGRKAKRQIKKYKERDEGVGLATDSLTSGLSATGHFTTESLLQQSNQNGVKVYNSESLIKSPSSERLERIINAKGLTATGEFKPQNDEILRTEILMEDSLEDDIQRTEILDLDEENQVEQGEILDNLSYQPSSVGLVENKENVQENSLIGSDVTQILVEDEEEIVSPVVETVSIQSGVKVSADLDKTQLLDESTQILDEGTQILDEGTAILSEEDYNTSQLTQEVVSSNRIIIKQRGSSYSKPKQAS				NA	NA	NA	NA	NA
AK009_03272	1671	pknD		Serine/threonine-protein kinase PknD	ATGACATTACGAGTAGGAGACGTTATCGAAGGTAAGTATGAAATATTAAAACAAATAGGTCAAGGCGGTATGGCTACCGTATACCTATCAATAGACTCTAGGTTAAACAAGCAATGGGCAATTAAAGAGATTGTAAAGTCCAATACAAAATTAGGTAAGATTGAGTACAGGTCTATTCTAATGGAAGCAAACTTGATGAAAGAATTAGAACACCAATTCTTACCACGTATTGTTGACATTATAGAAACACCAGAACGTATCTTTATTATCATGGACTACATTGAAGGTCAAACTCTGTTAGAGAAGCTAACAGCAGAGGGTTCAATCAAACAAGATAAAGTAATCAAATATGCAAAGCAATTAGCTACAGTATTAGGTTACTTACATGGTAGACCAAAACCTATCATTTATCGTGATATGAAGCCAGGAAACATTATGATTCAACCAAGTGGTACAATTAAGTTGTTTGACTTTGGTATCAGTCGTGAGTTAGCGAATGAATCAAGTGATAAAACAACCGCTTTAGGAACGAAAGGTTATGCCGCACCTGAGCAATACGGTACAAACCCTACATTTGATGAGCGAAGTGATATTTATGCATTAGGTATGACATTGTATCACCTTGTAACTGGTCATAGTCCTGTTAAGACGCCTGAGGAAATCAAGCCGATTACACAATGGAATCCAAACCTAAGTCAAGGGTTTGAAAAGATTATCTTAAAGATGACTGCCAATAACCCTTCACACCGATATCAAAACACCGCTGAACTTTTATATGATTTAGATAATTATTCTGAATTGGATGAAGGGTATAGAAGCAAACTGAAAAGTCAGTTCCGAACGATTATGACAACTGGTACATTAGCAGTTCTATGTTTACTAGGAAGTGGGGTAGGGTATTACGCAAATGCAATGGAAGTAAAAGACAAGTATGAGCGTACATATCAACAAGCCGAAGTATCTCAAAACCCGCAAGTAACAATAGAAGCAATTGGGTATAAACCAACAAAGGTGGAAGCTTATAACCTATTAATCAACCAATATAAACTAGATGCAAAGTTTACAATGGAAGAGGAAAAGGAACTATTGAAGGTTGTAAATCCGAATTTACTAGATTTACAGAAGCAAGAGGGGTATGGAGACTTAGCATTTGAGATTGGTAAATTGTACTGGTACTACTATACAGACGACAATAACGGCAAAGACGGAGGTCATGAAGATTTCTCTGTAACAAGAGTCACGACTCCTATCAAATGGTTTGATGATGCGGTGAAATACGGTTCTAGAAATAGTAAAACAGCTAGAATCTTCTCTGAGATTGGTAAGTTCCAACGAGACATCGTATTAAACATGCAAGAAGCATCAGACGGTAAGTTATACTCAAAATACTGGGCAAATATCAAAGAAGTATTAAGTATGAACGATAGTAATGACCTTGTAACTTTAGAGGTTGCGAAGTTAGTCTATGATGCAGTTGAGTCTTATTCTGTACAGTTAAAGAACGATGGTATCAAACAGTCTGAAATGAAACAACTTACTGATAAGGTAACAAAGAATATAAATAATGTTAACCCAAGAAACGATAAAACAGCTTCATTGAAAGCGAGTCTAAAGGATAGAACATCTAGCGTAACTTCTCAAATCGAGAATGCTTACAGAGTAGATGCCTAG	MTLRVGDVIEGKYEILKQIGQGGMATVYLSIDSRLNKQWAIKEIVKSNTKLGKIEYRSILMEANLMKELEHQFLPRIVDIIETPERIFIIMDYIEGQTLLEKLTAEGSIKQDKVIKYAKQLATVLGYLHGRPKPIIYRDMKPGNIMIQPSGTIKLFDFGISRELANESSDKTTALGTKGYAAPEQYGTNPTFDERSDIYALGMTLYHLVTGHSPVKTPEEIKPITQWNPNLSQGFEKIILKMTANNPSHRYQNTAELLYDLDNYSELDEGYRSKLKSQFRTIMTTGTLAVLCLLGSGVGYYANAMEVKDKYERTYQQAEVSQNPQVTIEAIGYKPTKVEAYNLLINQYKLDAKFTMEEEKELLKVVNPNLLDLQKQEGYGDLAFEIGKLYWYYYTDDNNGKDGGHEDFSVTRVTTPIKWFDDAVKYGSRNSKTARIFSEIGKFQRDIVLNMQEASDGKLYSKYWANIKEVLSMNDSNDLVTLEVAKLVYDAVESYSVQLKNDGIKQSEMKQLTDKVTKNINNVNPRNDKTASLKASLKDRTSSVTSQIENAYRVDA				NA	NA	NA	NA	NA
AK009_03273	645			hypothetical protein	ATGGAAAGCAGAAATGATTTATTAAAAATGATAGAGAATAAACAGGCTATTGGCTTACTAGACTTTAGATTATTCTTTGAAGGATTAAAAGAAGCGTTTGGAATAGAAGAAATCTACCATACAAAAATGAAAATATCAGCAAAGGTAGACCAATTAAAGGATTCTAACTTTACATTAAACGATATTAAATATTCTTTGTTCTTCTGTAATCCAAATGGGGTAAACAATAAGTATTTAGATGTCTTTCATGTAGGTACAGTTAAAACTGGTATTCGTTTTGAGGTAATTGGAAATACAATACGAATCAGTGAAAGGGGTAGAAGCCTATTTAATAATGCTCAACTGTTAAAAGAAGGAGTAGACTCTATGCTACTTGATGTATCTGTAGATGCTTTGAAAGATTTCGTAAAAGGAGCAAGAGTACTTTATAATTCAAAACCAATGAAAGTATTAGACGACCCACTCAAACAGTTTGCAAGACTAAACTTAGATGATGTATACAAGATTCAGCTTATCCTAAAAGGTAGTTACGAAGTTATAGAGTACTTAGGGGTAGTAAAGGATTACGATATCGAAGCAGACCGAGGGAGTGATACGTATTATCTACCGTTAATAATTAAGGAAGACAAATTGTATAACCAATAG	MESRNDLLKMIENKQAIGLLDFRLFFEGLKEAFGIEEIYHTKMKISAKVDQLKDSNFTLNDIKYSLFFCNPNGVNNKYLDVFHVGTVKTGIRFEVIGNTIRISERGRSLFNNAQLLKEGVDSMLLDVSVDALKDFVKGARVLYNSKPMKVLDDPLKQFARLNLDDVYKIQLILKGSYEVIEYLGVVKDYDIEADRGSDTYYLPLIIKEDKLYNQ				NA	NA	NA	NA	NA
AK009_03274	714			hypothetical protein	ATGGATAAGCAAAACGAGTTAGATTTTATTAAACAGGTATCAGCAGGTTGGTTTAATAAGAATGGTTCATCATTTAATTTCGTAACAAAACCTCTAAAAGATGGAAGCACTAATGTGTACATGTTATTAGTAAATGATAAATCCACTGTAAGTGCAAACTATCAACGTATTCAAGTAAACTATAATACAGTAGATGAGGATGTAATTTTTAGTATTTTAACAAGTCCTTTTGGAAAGTCTAAACGTGTTGAAGTAAGTAAACAAGAAGCATTAACTTATCTTTCTACTTTCATACAGTCTCCTGACTGGGGAGAAAAGCCGTTAAACCAAGAAGAAGGTGAAGTTGATTTCTATAACATCTTGGAACAGTTAGAAGAACAAGTATTTAGTAAGAGAGATTTATTTGAAATTAATAAGTGGAACAGCGAATTGTATCTACATAAACAAGTAGGAGAAGAGTATGGTACAATGCAAAACGCATATCACGTACACGGAGGGGTAGGAAATGCACCTGACATTAACGGTTTACATGATATCACAACTACAATTGAGTTAGCTACAAGTCCTATTAATGGTAAAACTTACTTGAATGTAAGGAGAGACTTAACAGAAAATCCAATGAGTATGCAAGGTTTATATGAAGACGCAACACCTCAAATGTTTGTAGAGTCTATCATTGAACAGTATAAAGGAGCATGGAACAGAAGTAAGTAA	MDKQNELDFIKQVSAGWFNKNGSSFNFVTKPLKDGSTNVYMLLVNDKSTVSANYQRIQVNYNTVDEDVIFSILTSPFGKSKRVEVSKQEALTYLSTFIQSPDWGEKPLNQEEGEVDFYNILEQLEEQVFSKRDLFEINKWNSELYLHKQVGEEYGTMQNAYHVHGGVGNAPDINGLHDITTTIELATSPINGKTYLNVRRDLTENPMSMQGLYEDATPQMFVESIIEQYKGAWNRSK				NA	NA	NA	NA	NA
AK009_03275	1107			hypothetical protein	ATGAATATTAAAGGGGTAGGAGAAATGAAAGCAAAGAAACTAGTCACATTAGCGATTCCAGTTATGTTATTGAGTGGTTGTATTACAGTAGAAACGAGTAAGAAAGAAGAACCAAAACAAGAATCAACGAAAGCAAAGTCAAGTGAACAGGATAAAAATTCAGCTAACTCGAAAGATAGCAGTAAAGATGTTCAAATGGTTCGAGTTTTAGAAGAGGATTATCCACAATTAATGCTAGACATAGAAAAAGATGCAAAGAGACGATTAGATTATTACCAAGAGTCTTTAAAAGATTACAATAAAGGTAGTAAATCTAAGAAAGAACTAATTGAAGCCTTAAAAGACATCAATAAAATATTCGATAAATTAGAACATTTAGATGCACCTTCTAAATATAAAGAAGACCACAAAGAAGTATTAAAAGCAGTTAAGAGTTTAAGAGAGTCATTTGGTGAGATAGAAAAGCTTTTATCAAATAGTAACGCATCAGATGAATCAGTTAAAACAAGTATTGAAAAGTCAGACCGTGCAATGGAAGAAGCAAGGTCACATTGGAACCCAGTATTTGAAAAGTTAGAGAAACAAGTAAACGGTGGAGGAACATCTAGTAGTTCTTCAAGTTCTTCCAGTAGTTCAAGTACACCTACACAATCAACTACGTTGGGAAGTTCAAGTCAATCAAAACAATATGATAGCAAAGCTAAAACTGGAATCTTTACAGGAAAGATTGATACAAATGATGAAGATTCAGCCAAGTTTAAAAATGTACAAAATAACTATAAAGACGGTACAGAAGTTATCGGAAATTGGGGTATTGACTACGGTAACGGAGTAAAAACTACACTCGTATTAAAGGGTGATAAAACATTCGAATCATACGCAAATGGTTCTTATCCAAACAAAGATAACTATCTAACAGGAACATACCAAGCAGACGTAGCTTCCCATCAATTAATGTTGGTAGTTGAAAAAGGAACACAAAATGGTCAAGAAGTAAAGTTAGAAAGACCAATTTACTCATCTTATCAAGTAAAGAACTTAGATAGAAACACATTACAGTTATTCCATATAGATGAGAAAGTAACAATTCTGTATACAAAGAACTAA	MNIKGVGEMKAKKLVTLAIPVMLLSGCITVETSKKEEPKQESTKAKSSEQDKNSANSKDSSKDVQMVRVLEEDYPQLMLDIEKDAKRRLDYYQESLKDYNKGSKSKKELIEALKDINKIFDKLEHLDAPSKYKEDHKEVLKAVKSLRESFGEIEKLLSNSNASDESVKTSIEKSDRAMEEARSHWNPVFEKLEKQVNGGGTSSSSSSSSSSSSTPTQSTTLGSSSQSKQYDSKAKTGIFTGKIDTNDEDSAKFKNVQNNYKDGTEVIGNWGIDYGNGVKTTLVLKGDKTFESYANGSYPNKDNYLTGTYQADVASHQLMLVVEKGTQNGQEVKLERPIYSSYQVKNLDRNTLQLFHIDEKVTILYTKN				NA	NA	NA	NA	NA
AK009_03276	738			hypothetical protein	ATGAAAGCAAAGAAACTAATAGCGTTAACTCTACCTGTTCTACTATTTACAGGTTGTACGCTAAACACATATGGATTAACACAAGCAGAATATAGAAAAGTAGATAAAGAGTTCAAGGCAGATAGAATGATAGAAGATATGGAAAGACTTCATTATAGTGACGAGCAAATTGAAGCACAACTAAGAGGTGCATTATCTCAACTAGAATATGAAGAGGAACAAAAGAAAGAAGAGAAATCAGGTAAGAAAGAAGAGAAAGAAACTGATAAAGAGGATAGTGGAGAAAGTAAAATAATTAGAGATTCTGTTTACGTTTCCGCAACTGATTATGTAGACTTTATGTTTAGAGAGCTAGTAAACTATAAAAGTTACATAAAAACGATAACAAAAGAGTCTAACGCATTAGCAGAAGGTGGTTATGAAGGAAGCGCAAAAGATACAGTAAGAAGCCTTCGAAAAAACTTAACGGATATGTTAGAGGTTAAAATCCCTAAGAAGTATTCAGATTACGAGTACAAAATTAGAGACGCAAATGAAGCCTTAGTTAAACAGATGCCTGACTTAGAAAAAGCGGTTGATAATTATGAAGACTCTAGTCAAGATAAGAAAAAGGTAAAAGAAGAAGTAGATAAGGTATTAAAAGAAATAGACAAGGCAATGTACATATGGGAACCTTTCTTTTCTGATATGAACTCTATGAATCCTAACTCATTGCGAAAAGCAGTTGAAGGAAAGTAA	MKAKKLIALTLPVLLFTGCTLNTYGLTQAEYRKVDKEFKADRMIEDMERLHYSDEQIEAQLRGALSQLEYEEEQKKEEKSGKKEEKETDKEDSGESKIIRDSVYVSATDYVDFMFRELVNYKSYIKTITKESNALAEGGYEGSAKDTVRSLRKNLTDMLEVKIPKKYSDYEYKIRDANEALVKQMPDLEKAVDNYEDSSQDKKKVKEEVDKVLKEIDKAMYIWEPFFSDMNSMNPNSLRKAVEGK				NA	NA	NA	NA	NA
AK009_03277	561			hypothetical protein	TTGAAACGATTAGTTAGTGTAGCAGTTCCAGTTATGTTACTATTCGGTTGTGGGGTAGTAAAAGACACAAAGCCTAAAGTAGAAGAAACAAGTAAAGCAATGTTGAAAACTACAGTATCCGAGAAAGAGTATCCAAGTTACATGTATGAGCAATTAGTAACGTTTAGCTTTAACAAGGATGACATTATACTAGGTATAAGTTCAAAACAAAAGGGTGATGACAGGTATAACAAGATATTCGAAACGGCAAGTATTATGGATGAAGCTTTAGACCGAATGGAGAATGTAAAAGTACCTGATAAGTATAAAGCTAACCATAAACTTATATTAGAAGGGGTAGAAGATGCAAGAAAAGGTATAAAACCGATATTAGAAGCAAAAGGTAAAGATGTAAACGAAGTAAATATAGCGATTACGAATAATTTACCTCACTTAGATGGTATGGATAGACCACAGTGGAAAGAAGCAATTTATCAACTAGCAAAAGAAAACAAAGACGATTTTGAAAAGGTATTTACTAAGGTAATGGAAGAACAAGTAAAGAAAAAGAGTAACTCGTAA	MKRLVSVAVPVMLLFGCGVVKDTKPKVEETSKAMLKTTVSEKEYPSYMYEQLVTFSFNKDDIILGISSKQKGDDRYNKIFETASIMDEALDRMENVKVPDKYKANHKLILEGVEDARKGIKPILEAKGKDVNEVNIAITNNLPHLDGMDRPQWKEAIYQLAKENKDDFEKVFTKVMEEQVKKKSNS				NA	NA	NA	NA	NA
AK009_03278	519			hypothetical protein	ATGAAACGTAAGGTGTTAGCAATTTCTTTACCTGTTATGCTATTATCAAATGTAGGTTGTTCAGCAGACTGGATATTTGCAAAGGACAATGAAAAGGAAATTCATGCAATTGAGAAAGAAACAAAGAAAGAAGAACAATCCTATTCAAACAACATAAGCAGATTATCAAGTCAATTAGAAATAGATGTAACTGAACTACAAAAGTATTTCTTTGATAGTAGCGAAACAGGTAAAGAGGATTTAAATACAAGATTGGCGTTATTCAAAACTACAATTTCTAAAATTAAGAAATTAGAAGTTCCAAAGAACTACAAAGAAGCACATAAGGAAGTACTGAAAGCAGTAGATTTATATGAATCAAGTATAAACTACAGATTAGAGAGTATAGAAAAGAAAGACCAAAAAGGTATTGATGAAAGTAAAGAGAAAACGAAAGAAGCAGGAGACAAGTTAGAGGAAGCAAGGAAGAAAGTAAATTCTGTAGACTTGCAGAAATCAAAAGAAATGTGGGGAAAATAA	MKRKVLAISLPVMLLSNVGCSADWIFAKDNEKEIHAIEKETKKEEQSYSNNISRLSSQLEIDVTELQKYFFDSSETGKEDLNTRLALFKTTISKIKKLEVPKNYKEAHKEVLKAVDLYESSINYRLESIEKKDQKGIDESKEKTKEAGDKLEEARKKVNSVDLQKSKEMWGK				NA	NA	NA	NA	NA
AK009_03279	480			hypothetical protein	ATGAAACGTAAGTTGTTAGCTTTAGCAATTCCAATGTTACTCGTAACAAGTATTGGAGTAGGTTGTAGTGCAAAAGAAAAGCAAGTAGACCCGAAAGTTTCTATTGAGCAGAATAAGAAAGAAGACTACAAAGAAAACTTAGCATACTTAATGAAAGATTTATCGGAACAATCGAAAGTAGTGAGTGACATTCTGACAAGTAAGAAGTCAGTGGAAGAAAAGCAGAAAGAGTTTGAAACCGCTTCTAAAGACTTACTTGCTATTGGGGATAAAGTAAAAGCCTTAAACGCAAGTGATAAGTATAAAGATGTACAACTCACTATGGAAACAGCTATGGGTTTACTTAATATGTCGGTGCTATCTATTAAAGACGGATTCGAGCAGAAAGACGGAAACTTAATGAGTATAGGCAATGATGCTATCATTAAAGCTTCAAAGAAGATAGATGAAGCAAATAAAATGATGCAAGAAATCAAATAA	MKRKLLALAIPMLLVTSIGVGCSAKEKQVDPKVSIEQNKKEDYKENLAYLMKDLSEQSKVVSDILTSKKSVEEKQKEFETASKDLLAIGDKVKALNASDKYKDVQLTMETAMGLLNMSVLSIKDGFEQKDGNLMSIGNDAIIKASKKIDEANKMMQEIK				NA	NA	NA	NA	NA
AK009_03280	483			hypothetical protein	ATGAAACGTAAATTGTTAGCTTTAGCAATTCCAATGTTATTAATAACTGGGGTAGGTTGTGAGTCAAAGGATAAAAAGAAGGATGAAGTAATGGAAGCTTCCATTAAACAGAATAAGAAAGAAGACTATAATAAGAATGCATCGTATTTGCTAAAAGAATTCATGGAACAAACAGAAGAAATTGATGACTCTTTAGATAGTTGGAAGTCAATGGATAAAAAGGCGGTTAAGTTAAAAGAACTAAAGAAACCGTATTTTGAGTTAATAGAGAAGATAGAAAACTTAGATTACGCATTGAAAGAAGATACACAATTACAAAAAGACGTAGGTAGAGCAATGTTTACAGCTAAAACAGGGATAGATATGATAGAAATAGGATTAAAAGACGAGGATAAAGAAGCAGTAAACACATCTAGAAAAGATTTAGAGTCGGCTTCTAAATCAGCAGACAAGATAGTAAAAGAATTAGACAAAAAGAAATAA	MKRKLLALAIPMLLITGVGCESKDKKKDEVMEASIKQNKKEDYNKNASYLLKEFMEQTEEIDDSLDSWKSMDKKAVKLKELKKPYFELIEKIENLDYALKEDTQLQKDVGRAMFTAKTGIDMIEIGLKDEDKEAVNTSRKDLESASKSADKIVKELDKKK				NA	NA	NA	NA	NA
AK009_03281	627			hypothetical protein	ATGTCAATGAAACGTAAAATGTTAGCAGTTGTATTACCACTTACTTTAGCATTAGGGGTAGGTTGTTCAAACGGGGAAGATGAGAAGAAGAAAGAAGAAAAGGCAAACATAGAAGCGGAAGCCAATAAGAAAGCTTTGGAAACAGTAAACAAAGAGTTAGATAAGTTGAAAGAAGAAAAGGCTGACTTAGAGAAGCAAACGAAAGAAGACAAGAAAATAGATAAGGCTAAACTGAAAACAGTAAAAGAATATCAACAAGAAGTAGATAATAAAGGGTTAGACTTTGCAACAGAGGTACAAAAAGTAAATCCTATTATTGAAAAAGACCAAACACTTATTACAAACCACCAAGAAGTAAAAGAGCAGTTTGATAAGGTGAAAGTAGTATCTAAGAAGTTACAAGACATCAAAGCACCTGAGCAATATGAGGGTTTACAAACAGAACTGAAAAAGTCACTCATCATTTACGAGAAATCAATTGATAAGATTCTTGAAGGGGTAGACGAATTAGACGAAAATAAAGTAACTACAAACATAAACTATATGTTTGAAGGATTAGAAATGTTTGGTAAAGCAATAGACGAAATACGAGCATTAGATGAGCAAAACATGAGTGAAGTTCAATAA	MSMKRKMLAVVLPLTLALGVGCSNGEDEKKKEEKANIEAEANKKALETVNKELDKLKEEKADLEKQTKEDKKIDKAKLKTVKEYQQEVDNKGLDFATEVQKVNPIIEKDQTLITNHQEVKEQFDKVKVVSKKLQDIKAPEQYEGLQTELKKSLIIYEKSIDKILEGVDELDENKVTTNINYMFEGLEMFGKAIDEIRALDEQNMSEVQ				NA	NA	NA	NA	NA
AK009_03282	678			hypothetical protein	ATGAAACGTAAAGTATTAGCAGTAGCCTTACCAATCACACTTGCATTAGGGGTAGGATGTTCTAAGGATAGTTCAGAAGAAAGTAAAACTGATAGTATAAAAGTAGAAGATTATAAGAATGCAGACAGTGTTAAAGAAACTGATAGTTTAAAAGATGCTGAAACAAAGAAAGAAGAAGCAGACAAAGGGAAGTTTATGAAAGTTGTAGATGAGGAAATGGATAAAGAAGCCTTAGCCCAAAACCCTACATTAAAGAAAGAAGCAACGGATAAGGGACAGGCTACTGGTACAATGTCGGAAGACAAGAAAGAACTCGTAGCGTATCAAAACAAGGTAAATGAGGGGTTTGAACAGTTTAAAACTGATTTAGAAGCTACGATTCCAATCACACAAAAAGATATGGAATTAAAGACAAACAAAGCTGAGTTAAAAGCACAATACGGTAAGGTAAAAGAACAAGCGATTAAACTATCTGAAATTGAACCACCAAAAGAATATCCACAATTCAAAGAAAACCTGAAAACAAATTCAGATATCATTGTTATGAATATAGACCAACTATTTGATGATTTGCTAAGAGATAATACAGAGAAAGCAAGGTCTACTAAGGGAGACATACTAGATGGACTCAAGTATCTCAAAAATACAGTAGAAGAGATTAGACGAGCAGGTAAGTAA	MKRKVLAVALPITLALGVGCSKDSSEESKTDSIKVEDYKNADSVKETDSLKDAETKKEEADKGKFMKVVDEEMDKEALAQNPTLKKEATDKGQATGTMSEDKKELVAYQNKVNEGFEQFKTDLEATIPITQKDMELKTNKAELKAQYGKVKEQAIKLSEIEPPKEYPQFKENLKTNSDIIVMNIDQLFDDLLRDNTEKARSTKGDILDGLKYLKNTVEEIRRAGK				NA	NA	NA	NA	NA
AK009_03283	492			hypothetical protein	ATGAAACGTAGATTAGTCGCTTTAACCATTCCAGTCATGCTACTAGGAGGGGTAGGGTGTTCAAAGGAAGAAGCACAAGTAAAAGAGACTGATAGTTTAGAAGTTTCTCAAAATGATTCTAGCGGTACAGTGTCCTCATCATCTTCTTCAAACTATCAAAAAGAAACACTTAAAATGACAGATGAGTGGTCAAACCTATACTTAGAAATATCTAGAAAAACTTCTGTAGGTGGAGACTTTAAAGAAGTACAAGGAGATTTATCTGAGTTACGTATGTTAACAAAGAAAATAGAAGACATACAAGCACCTGATAAATATAAGAAAAGCCAAGACAAACTGAAGGTAGCAATTCGTGATTACTTTATTGCAGTTAATGAATCTGTTAGCTATTTGATGAGTTCAAGTGAATCATCTACAGTAGACTATGCATCGCAACGAGAAAGAGCATCACAGAAGTTTATAGAAGTATTAGACGAAATAAGAGGGCTATAA	MKRRLVALTIPVMLLGGVGCSKEEAQVKETDSLEVSQNDSSGTVSSSSSSNYQKETLKMTDEWSNLYLEISRKTSVGGDFKEVQGDLSELRMLTKKIEDIQAPDKYKKSQDKLKVAIRDYFIAVNESVSYLMSSSESSTVDYASQRERASQKFIEVLDEIRGL				NA	NA	NA	NA	NA
AK009_03284	558			hypothetical protein	ATGAAACGCAGTTTAATTTGTTTAGCAGTGCCAATGATGTTATTCGCAGGAGGATGCGGTAACGAGGAATCAAAGAAAGAAGACAAGATTGCAGTAGCAAGTAAAGAAGAAAAAGTGGCATACATAGACCAAGTCATAGGTTTCTCTAATGACTTTGAAACAATAATGAAAAAGATGTCTAAACTGACAAGCGATGATATGACTCTATTCTCGAATAAAGAAGAATTTATAGGGGTAATTAACGAGTTTACAGATTTGTTCGACAGACTAAACAATATGGAACCTGATGAAAAGTATAAGACGCAACATGAGAAACTAAAAAGAGCAATGGGGTATTATGCAGAATCTTTCCAAATTCAATTAGACAATATTGATAACCCTTCAAGTAGTGAGTTAGCGTTATCTACAAGTAAACTAAAAGACGGATTAGCAATATACAAGAAATCAATGGGTGCAATCAATGATATCCGTAGAGGTAACGAGATTGGTACAACTGAAAAGAGTTTAGAAGAAAAGAAACAACAAAATACAACTAGTGAAACAACAGAAGGAGAATAA	MKRSLICLAVPMMLFAGGCGNEESKKEDKIAVASKEEKVAYIDQVIGFSNDFETIMKKMSKLTSDDMTLFSNKEEFIGVINEFTDLFDRLNNMEPDEKYKTQHEKLKRAMGYYAESFQIQLDNIDNPSSSELALSTSKLKDGLAIYKKSMGAINDIRRGNEIGTTEKSLEEKKQQNTTSETTEGE				NA	NA	NA	NA	NA
AK009_03285	534			hypothetical protein	ATGTTTAAACGTAAAATACTTAGTATCGCACTTCCACTTATGTTAGTTGGTGGAGGTTGCGTACAAGTATATAGCGGTAAGGCTATCGAGAAGAAAGAGATACCAAAAAGCCATCAAACCGTAACAACCGTTATGTATATAGACTATCTCGTAAATTTTATGGTAGATTTAGAGGAAGCAAATAAATCAGCAAACAAGTTACTACAGTTAGATGAATCTCTTAATTCAGTTGATATGGAATTTAAGTCTGAGATACATAGCTTAAAAACTTCTATAAATGTATTTAAATCTATTGAACCACCTAAAAAGTATAAGGAAGTACATGCTAAACTTTTAGATTCAATTATCAGTTTAGATAAAGGTTTGGATTTAGTAGAGCAAGGAATAGTAGATGTAGAAAGTGCTGATTTTAAAACAGGTAAACAAACTGTAATGGATTCAGCAGAAGACTACATAAAAGGATTAGAAGAAATTGATAAGTTAAGTGGCGGAGAAGTTTCAGAAGCCATTGATACATGGGAAGAAGACAAGTAA	MFKRKILSIALPLMLVGGGCVQVYSGKAIEKKEIPKSHQTVTTVMYIDYLVNFMVDLEEANKSANKLLQLDESLNSVDMEFKSEIHSLKTSINVFKSIEPPKKYKEVHAKLLDSIISLDKGLDLVEQGIVDVESADFKTGKQTVMDSAEDYIKGLEEIDKLSGGEVSEAIDTWEEDK				NA	NA	NA	NA	NA
AK009_03286	732			hypothetical protein	ATGAAAATCGAAGAATTATTTGGTAAATTTGATGAAAACGGTAACGTGAAAGAAGGAGAAACGTTAGAAGCGAAAGAAAAATCTCGTAAAGGGGTAGCAAAGGAATTTCAGTTCGAGGAAGACGATTTTGAACCAAAGGTAGACTCTGATGACGAGGAAGAAGAATTAATTGATGAGGAAGAGGAAGAGTTCACTCATGAGCCGGAAGACGATGATGACGAAGAAGAGGAACTTATTGAAGATGAAGATGAGGAAGAAGAGGAAATAGAGGACGAAGATGAAGAGGAGGAAGACGAGGAACTTGAAGAAGACGAGGATGAAGATTTAGAAGACGAAGATGATGATTTCGAAGAGGAAGATGAAGAATTAGATGACGAGGATGAGGAAATAGAAGACGAAGATGAAGATTTGGATGACGAGGATGAAGATTCAGAAGACGAGGATGAGGAAATCCTAGACGAAGATGATGATGAGAGTGGTTTAGTAGACACGGATGATGAAGATGAAGACGAAGCTGATTCTGAAGAAGACGAGGACGAAGAATTAGATGATGAAGATGATGATTCAGAAGACGAAGCTGATTTTGAAGAAGACGAAGATGAGGAATTAGAGGACGAAGATGATATCATTGAAGACGAAGATGATGATTTAGAGCCTGAATTAGAGTATGATGAGGAAGACGAAGACGATATCATCGAAGACGAAGATGAGGAAGATGAAGACGAAGAGTAA	MKIEELFGKFDENGNVKEGETLEAKEKSRKGVAKEFQFEEDDFEPKVDSDDEEEELIDEEEEEFTHEPEDDDDEEEELIEDEDEEEEEIEDEDEEEEDEELEEDEDEDLEDEDDDFEEEDEELDDEDEEIEDEDEDLDDEDEDSEDEDEEILDEDDDESGLVDTDDEDEDEADSEEDEDEELDDEDDDSEDEADFEEDEDEELEDEDDIIEDEDDDLEPELEYDEEDEDDIIEDEDEEDEDEE				NA	NA	NA	NA	NA
AK009_03287	948	yhaM_1		3'-5' exoribonuclease YhaM	GTGGTAAGAGTAGAAGAAATGCAAAAGTTGGATAAAGAGTCAATAAGTGGGGTAGTATGGGTTCACGGTTATAAACAAGCACCCAAAAAGAATAAAACAGGTTTTTATGGTATGGGTGATTGTTACGTAAAAGGCGGTGAAAAGGTAGCCTATCGTATTTGGGATGATAAACTCATGAATATGATGGAACAAGCAGTTGCAAAGGTGGGAAGTAGTTTCTTTATTGAGTTTGAAGCAACTGGAAACGTATTTAACGGTCTATTTTCAATGAGTATTACAGAACTTAGATTTCCAAAGCAAGAAAACTTCAATGAAACAGATTTTATGACTGTGAATTTAAATGCAAGAGAGTTAAACGGTAAAGTAAATCAGATTCTTAGAAACAGAGTTACACCAGACGCTTTACTAGTAGTAGGTGCTATATTAAAAGGTGATATAGCAAACCGTTTCGCAACTGAGTTTGCAGGTATGCATATGCATGATGCTGAACCAGTTGGGTTATTACATCATACAACTAAGATGATGGAAATATTAGACTTAGTAATGGTTCAACACAAAAACTTTGGGTTAGATTCAAACGGTGTTGATTTAATGTATACAGGGGTATTGCTTCACGATATAGGTAAGATTTTAGAACTGAAAAATGGATTATATACAGACATTGCAATTGCAACTCATCGTTTCTTAGGTGCAGAAATGATTATGGAGCATAAAAACTTCATTATCGAAAAGTATGACACGTTATTCTATTACAATCTAATATCTATCATAACGCAACATCATGGTCAATACGAAGAACGTCCAAGAACAATCTATTCTTACATTATTCACTTGATAGACAACCTAGAAGCACAAATGACTATCATAGATGAAAAGTATAAAGAAGCGAAGAATGGAACTGAGATTTACGTAAATGATTTCCGTCTAACGGTTCAAAAGCCACAATAA	MVRVEEMQKLDKESISGVVWVHGYKQAPKKNKTGFYGMGDCYVKGGEKVAYRIWDDKLMNMMEQAVAKVGSSFFIEFEATGNVFNGLFSMSITELRFPKQENFNETDFMTVNLNARELNGKVNQILRNRVTPDALLVVGAILKGDIANRFATEFAGMHMHDAEPVGLLHHTTKMMEILDLVMVQHKNFGLDSNGVDLMYTGVLLHDIGKILELKNGLYTDIAIATHRFLGAEMIMEHKNFIIEKYDTLFYYNLISIITQHHGQYEERPRTIYSYIIHLIDNLEAQMTIIDEKYKEAKNGTEIYVNDFRLTVQKPQ				NA	NA	NA	NA	NA
AK009_03288	726	prpC_2	COG0631	Protein phosphatase PrpC	ATGTTTGAAGTCGTACCGTTCACCGATATAGGAGTAGTAAGGGAAACAAATGAGGATAACTTAGTATTCTTAGTAGGTGAATTCCAAGGAGAAGAAATAGCATTAATCGTTGTATGTGACGGTATGGGTGGTTTAGATGATGGTGAGAATGCAAGTCGAACTGTTTGTCAGAACCTAGAAGAAACCTTCGCAAATGAAGAGTATGAAACGATAGCTGAGTTAAAAAGGGCTATTACAATGTCAATTACGATGTCAAACAAACAGCTTCTTAATATAAACATGGCAAAAGGTAAAAAAGGTGGTACAACTGTATCATGTGTCTTGTTAGCTGATAAGGGGTATTTATGGCACGTAGGAGACTCTAGGATTTATCAAATCAAAGACGGTCAAGTAAATAGATTGACTGAAGACCATACTTTAGTAAACAAGTATATTAAAGATGGAGACATTACAGAGGAAGAAGCGAAAACTCACCATCAACGAAACGTTATACTACGTGCAGTAGGAATCAAAGCAGGGGTAAAGATTGATACAAACACTTTTGATTATAAAGATTCAAGCCTAGTATTATGTTCAGACGGTTTTTGGCATAGTTTAGAGGATAGACAGTTAGTGGACTTGAATAATAAGCATGTATCACTAAATGATTTATTCCAGTTTGCAATTGCAGAAGGTGAAACAGATAATATTACATCAGTATTTGTAGAACACAAATCTACTAACTGA	MFEVVPFTDIGVVRETNEDNLVFLVGEFQGEEIALIVVCDGMGGLDDGENASRTVCQNLEETFANEEYETIAELKRAITMSITMSNKQLLNINMAKGKKGGTTVSCVLLADKGYLWHVGDSRIYQIKDGQVNRLTEDHTLVNKYIKDGDITEEEAKTHHQRNVILRAVGIKAGVKIDTNTFDYKDSSLVLCSDGFWHSLEDRQLVDLNNKHVSLNDLFQFAIAEGETDNITSVFVEHKSTN				NA	NA	NA	NA	NA
AK009_03289	372			hypothetical protein	ATGATTCGATTAATGTTTGATAATATTCAAATCGCACATCAAGAAGTTGTAAATAATAGACACGAATTGGTATTAGAAAACCATCTACCAAGTGTCTATATCATTCCAAGAGAGTTATTTCCACAAGGGGTAAAAAGAATCCCTTTAGGTGATATCGTAAACTTTATTGAATGGCGTATTTTCCCAAAAGAACGAGAAGACTGTAAGAAATTATTAAAGCAACTAGGTTTGCGAGAGTATGACCCTTTGGAAATTGCAAAAAGAACAAAAGCTTCTTTAGTAGAAGATGGTTGGTGGATAGCTTTTAGTGATACAGACACCTTTGAGAAAGATACAGTCAGAGGAAAAATGGGCTATCCTAGATGGAACTAA	MIRLMFDNIQIAHQEVVNNRHELVLENHLPSVYIIPRELFPQGVKRIPLGDIVNFIEWRIFPKEREDCKKLLKQLGLREYDPLEIAKRTKASLVEDGWWIAFSDTDTFEKDTVRGKMGYPRWN				NA	NA	NA	NA	NA
AK009_03290	789			hypothetical protein	ATGAAAATAGAATTACTTCAATTAGTTGACTCTACAACATCAAGGGGTAATTTACCTAAGGGTTGGTATAACATAAACGGTGATGTGTTCTTGGTAAAGGGTAACTTTCATCCAAACATGGTAAGTGGTCATACTTACGACCCTTATTCGGAAGCAATGGCTACTCTGATTGCAAGAAGACTAGGTTTTGAACATATAAACTATATGTTACTACCAAAGCAATACTTTCCTGAGTTAGATGTTCATGGTATTAATCATGTTTCTATTTGTAAGAAACTTACGTTACCACAACAAACTATGCGACCTTTACAAAGGTACTTAATTGATAGATTTGGGGTAACGAAAGATGATGCTTTTACACAATACAAACAAGTGCTACCATCTTTACCTTTATATAAAATGTTAGTATTCGATGCTCTTACAGGCAATGAAGACCGTCATTTATATAATATAGACATCATAGTAGATGTACTAACAGGTGAAGAGAGGTTAGCACCTATCTTTGATAATGGAGCAAGTTTACTATCTTGGGTAGACGATAAAGATTTAAAACTTGCTAGTCATTTTAACAAGTTAGATAGAGCAAAACCATTTAGAACAACTCATCAGAAACAAATTAAATTAGTAGACCAAAAGATATTTCCTAAGTTAAACTTAGATGCATTATATACAGCAATTATTCAAGACATAACTCCTATTCTTAGTTTACTACCTGAGGATAGAGCAAACGCTATAGTAAAGTATTTAAAATGGAGAATGCGTTATATTGGTAAGGTAATGGAGGTATAG	MKIELLQLVDSTTSRGNLPKGWYNINGDVFLVKGNFHPNMVSGHTYDPYSEAMATLIARRLGFEHINYMLLPKQYFPELDVHGINHVSICKKLTLPQQTMRPLQRYLIDRFGVTKDDAFTQYKQVLPSLPLYKMLVFDALTGNEDRHLYNIDIIVDVLTGEERLAPIFDNGASLLSWVDDKDLKLASHFNKLDRAKPFRTTHQKQIKLVDQKIFPKLNLDALYTAIIQDITPILSLLPEDRANAIVKYLKWRMRYIGKVMEV				NA	NA	NA	NA	NA
AK009_03291	1254			hypothetical protein	ATGGGGTTTGTAAAACTTTTAACCCAAGACAATGAATGGGTAATTGTAAACGAATTAGAAAAGAAAGAAAAAGCAAGAGAAGACTTAGCTGAGTATTTAAAGTCTGAAAATGTAGACTGTATTCTTCCTTTTGAAATTGAAAAGGTAAAACGAAAGACATTTATTAGAGCAAAGTTAACGGGTAAATATTCTGTGCTAACTAGGTTACAAAGTCCGATAGATAGTCGTGAATTTGTACTTTTATTAAAAGGTATCGTAGATGCTATGCAAACGATTAGTTCTCACAATATTTCACCTGATTATCTTGATTTAGACTTAGATTTCATCTTTATAAACAAAGAAAACGGTAAGATTGAGCTTACGTTATGGATACTAGACAACCTAGCACCAAAACAAAACATCTTACACATGTTCTATCAAATGGGTGAAGTTGCAAAACCAAAGTCTTCTAAGGACAAGACATTCCTTGAGGGGTATGCAAAGATGTTCCAAAAAGAAGATATGGGCTTAGATAAGCTAGACATGTTCGTAAATAAAACGTATTCTATGTTAGAGCAGTCGGTAGAATCGTCAGAAAGAGCGAAGGAAAATCTAGCTAAACAAGAAGTTGAAATAAAAGAAACTCCAATTGAAGAACCTGTATTGGAAGAACCTATTATTGAAGAACCTGTTGTACAGGAGCAAGTAATAGATGAGCCTGATTTAGTTGAACCATTAATTCAAGAAGACGATATTGAAGCAGATGTTATCATTGAAGAAGTGAAAGAACCAGTAGTAGAAGCAAGAGAAGAAGTTGCAAGTTCAGTAGAAATTGAAGAGAGTATTCAAGAGTCAGATGATGATGAAATCCTAATGCCTACTGATAAGACTACATTCTTAATGGATGACATAGAAGATGAGCAAGAAGAGGACTTTGATAGCGGTAAAACTACTATCTTAGACGAAGATGACGAAGAACAAATTCCATACTTAATCCGTGAAAGTGATGGAGAAAGATATGAACTAAGTATATTAAAAACTGAAACTACATTCGGTAAGTTAGGTACAGATATTCAAATCAAAGGTAACGGATTAATCAGTCGTAAACATGCAGTATTCCACTTTGAATATGGGGTAGTTGAATTAGAAGATATTGGTTCAGCAAACGGAACTTTTGTTAATAAGAAGAAACTTATTAAGGGCAGAAGAGAACAGTTAGCTGAGGGCGATGTTATTAAATTCGCTAATGAAGTATTCCAATTCTTTGAGGGGTAA	MGFVKLLTQDNEWVIVNELEKKEKAREDLAEYLKSENVDCILPFEIEKVKRKTFIRAKLTGKYSVLTRLQSPIDSREFVLLLKGIVDAMQTISSHNISPDYLDLDLDFIFINKENGKIELTLWILDNLAPKQNILHMFYQMGEVAKPKSSKDKTFLEGYAKMFQKEDMGLDKLDMFVNKTYSMLEQSVESSERAKENLAKQEVEIKETPIEEPVLEEPIIEEPVVQEQVIDEPDLVEPLIQEDDIEADVIIEEVKEPVVEAREEVASSVEIEESIQESDDDEILMPTDKTTFLMDDIEDEQEEDFDSGKTTILDEDDEEQIPYLIRESDGERYELSILKTETTFGKLGTDIQIKGNGLISRKHAVFHFEYGVVELEDIGSANGTFVNKKKLIKGRREQLAEGDVIKFANEVFQFFEG				NA	NA	NA	NA	NA
AK009_03292	1017			hypothetical protein	GTGTTTGAAGACAGACTGAAAATTGTTGATACATCTATACCCACCTTTGATATCTTAAACGAGATAGACAAGAAAGGTCGTCTAAGGGATGTCGTTGTAGGTGGGTATGTGAAGCATAAGATAGAGAAACCGCCTATCTTTCATTCAGAAGAGTTAGCACCAAACTGTAAATTCGTATCATTTCGAGTTCATTTTATAGGTGAGCAAGGTCGAGAAAAGAAACTCACAAAAGGTGAACTAGTAGTATATGTACCAAACGATTTAGTAGAGAATGATTTTTATGAGTTTAGGGGTACGTTGTCCTTAGCAGGTTTTGATTACACAAGAGTAGTAACAATGATGCGTTTTAAAAAGAAAGAGGTTAAATTGCAAGATAAAGGCATGAAAGGGCATAACAGGAAAGATTCCTACAAACAGGAATATCCTAAGAAGGAAAACAAAATGCAATACGTATGGGAAGTACACCCAGTTTCAGTATCAGACTTGGATTTAGGTTCATTGTCAAGTAATTTATACCATGAAACGATGCAGTTCATACAATCTCCATTATCGTATACGCATAAAAAGTTAAATTCTATACTTGAAACGCAATCATCTAGAATAGACACCGATAAATACTACTATGATTTCAGTACACCGATTGATAAAGACGAGTTGTTAAAGAGACCTACAAAAGATAGTACATCTTTTGAAGAGGAAAACAACTATATAATTGATAAAGACTATGGGATTATTCTTGAAGCATTAGAATATCCAGTCTTGTTACTGAATTTAGAAGCATTTGGTTTAGATAAAACAATGTTAAACTACATGATATGGTTAGTAGACGGTGCATTAGATGTATATGATAGTATAGAAGACCTACAAAACAACAAGATTAATCAAGATTACGTTGTAAATGAGCAAGAAGGGGTATTAAACGGTACACGAAGAAAAGTTGTTTTAGTAAGTGAACCGTCAAAAGGGTATCCGTATTTAGAGTTAAAGAAAGGAGATATGATTTCATGGGGTTTGTAA	MFEDRLKIVDTSIPTFDILNEIDKKGRLRDVVVGGYVKHKIEKPPIFHSEELAPNCKFVSFRVHFIGEQGREKKLTKGELVVYVPNDLVENDFYEFRGTLSLAGFDYTRVVTMMRFKKKEVKLQDKGMKGHNRKDSYKQEYPKKENKMQYVWEVHPVSVSDLDLGSLSSNLYHETMQFIQSPLSYTHKKLNSILETQSSRIDTDKYYYDFSTPIDKDELLKRPTKDSTSFEEENNYIIDKDYGIILEALEYPVLLLNLEAFGLDKTMLNYMIWLVDGALDVYDSIEDLQNNKINQDYVVNEQEGVLNGTRRKVVLVSEPSKGYPYLELKKGDMISWGL				NA	NA	NA	NA	NA
AK009_03293	195			hypothetical protein	ATGTATCCGAAAGAATTACTAAAGAAGTATAGTGAGAAAAAGGAAGACTCTACTCAATTATTAAGTATGCAAGGGGTAGTTGAAATAGACAAAGGTAAAGATAGTTCGGAGTATATGGAAATCGAAACTAGATTAAAAGAGTTAGAAAACGAAATGACTGATATTGCAAAAGTCTTTATTGAAAGCTTTATTTAA	MYPKELLKKYSEKKEDSTQLLSMQGVVEIDKGKDSSEYMEIETRLKELENEMTDIAKVFIESFI				NA	NA	NA	NA	NA
AK009_03294	177			hypothetical protein	ATGAAAACGAAAAATAATCATGTATTATATACAAAAGAAGACTTTACAAACAAGAGTCCCGAAGAAATGGAAAGTGATACAATAGCAAACTTAGTATTAGATGGAGGTCTTGCTATTTGTAAAGTATGCGGTGAATTCGAAGCGGGATTAGATAAAGAGTGTAAACCAAAAGAATAA	MKTKNNHVLYTKEDFTNKSPEEMESDTIANLVLDGGLAICKVCGEFEAGLDKECKPKE				NA	NA	NA	NA	NA
AK009_03295	186			hypothetical protein	ATGAATGAAAATGAATTTTATAAACCTGTAGTTCCTGAGTGGGTTGCAAAGATTCTTGAAAAGAAGAAAAGGAATGACCCTTTAGCCACAATAGGACACTCGAAAGAATGGGAAAACTGGAAGAGAAAGTATCCAAGAAAGTATAAATACGCTATGTTAAACGGTTGGATTGTAGAAGAGAAATGA	MNENEFYKPVVPEWVAKILEKKKRNDPLATIGHSKEWENWKRKYPRKYKYAMLNGWIVEEK				NA	NA	NA	NA	NA
AK009_03296	201			hypothetical protein	ATGCCACAAAAGAAAACGTACATCGGTAAAGTAGTAGAGCAAGAAATTGATTATGGAAACAGTAATGCACTTTACCATGATGTATACATAAAAGAAATTAATGATTATTTAACACAAGACCTGTTTAACTTTGAAGGTAAGAAGGTTAAAGTAACGGTTGAAGTAATCGAGGAAGACACAAAGGAGTGTCAAAATGAATGA	MPQKKTYIGKVVEQEIDYGNSNALYHDVYIKEINDYLTQDLFNFEGKKVKVTVEVIEEDTKECQNE				NA	NA	NA	NA	NA
AK009_03297	516			hypothetical protein	ATGGAGATTTTAAATAAGTATGATGAATTAGGTTTTGAAGTGACGGTTTATGAAATGACTAAAATGAGAAAAGGTGAGAAGACTGAGATTTTCAAAGCAGAAATTAAAATTGCAGATAGAGAAGAACTACTTACAACACTAGAAGCATCTTCAAAATTTCAACTGAGAGAATTATTAGAGAGTTGGTTAGAGTATGAAGAGACAACAAAAGAAAAGTTACAAGGATTACCTAAAGTAAGATTTGTACGCTTTGCAACAGATGAGCATAGTGAATACTCTTACTCTACACTTATGATTCGTGGAGACATAACAAACGAAGAATTCTTAGACTTATATCATCGAATTGTAAAACAAGTAGATACAAATCAACATGAAGTAATTGCTCAAGCAATGTGTCGTGAGTATGGATTCCAGTTAGTAGAAGAAGACTTAGAAATTCATGCAATGTATAGTAAATTTAGTATAGTAGACCGTGATGTGAGCTATAAAACAGCAGGATTTACTACATTAGGGTAA	MEILNKYDELGFEVTVYEMTKMRKGEKTEIFKAEIKIADREELLTTLEASSKFQLRELLESWLEYEETTKEKLQGLPKVRFVRFATDEHSEYSYSTLMIRGDITNEEFLDLYHRIVKQVDTNQHEVIAQAMCREYGFQLVEEDLEIHAMYSKFSIVDRDVSYKTAGFTTLG				NA	NA	NA	NA	NA
AK009_03298	189			hypothetical protein	ATGAGTAAAGGTTTTACATTAATCTGTAATGAGTGTGAGAACAAAGTAGACTATAAAGAGTTAGAAAATAAACGGCATAATATAGAGAAACAAATGTCTGTTACAATTCATTCGTTAACAGAGTGTGGGTTCATTTGTTTCTCGTGTGAGAATAAAGTAAAGTTAAACGATAAAGAGAATCAAGAATAG	MSKGFTLICNECENKVDYKELENKRHNIEKQMSVTIHSLTECGFICFSCENKVKLNDKENQE				NA	NA	NA	NA	NA
AK009_03299	300			hypothetical protein	ATGAAATCATTTCGTATATCAGATGGAACTTTTGGAGATTATACATTTATAACTTTACTAACTGAGAAAGATTTAAGCAAACAAGAGTTTATTTCCATGTACAATCAAGTGGTGTCAGAAGGTATAAATTTAAATCGTGAGCAGATAGCAGACGAGTTATGTAAACGTTATGGTTTTGTAAAAGAAACTCACTTTTTCGAGATTCATGCAATGAGTGGATTTGGTATTGTACAAGATTATAAGAAAGAAGACGTAGTAAGAGACGATTTAAGACGTATAGAAGTATATTCACCATACTAA	MKSFRISDGTFGDYTFITLLTEKDLSKQEFISMYNQVVSEGINLNREQIADELCKRYGFVKETHFFEIHAMSGFGIVQDYKKEDVVRDDLRRIEVYSPY				NA	NA	NA	NA	NA
AK009_03300	345			hypothetical protein	ATGGCAACATACTTTAAACTAGGGTTTTCGGAATATGCAGACTATGAAGCAATTATTATGGTATCATTATCAGGTATATCAAACAAGGAATTCATAGATATGTATAACGAAGTCGTACAAGATAAAGAGTATAGAGACTTGGAGGAATTAGCAGAGGAAATGGAAAGAAGATTCGATTTAGTTGTAGCTAGAGAGAAACTTGAAATTAGAGCCACAACTGAAGTATATAAACCTGTATCAGATACCGATGTTATTCCTTACGAAGAAGGTAAAGATTATATTGACATTGCAACCGTGAAAGAAAAGAAACAACCTAGAAAAATAGTATGGAATAGAACAAAATAA	MATYFKLGFSEYADYEAIIMVSLSGISNKEFIDMYNEVVQDKEYRDLEELAEEMERRFDLVVAREKLEIRATTEVYKPVSDTDVIPYEEGKDYIDIATVKEKKQPRKIVWNRTK				NA	NA	NA	NA	NA
AK009_03301	468			hypothetical protein	GTGCAAACAGGTAATAAAGAAAGGATGTTCATAATGACAAAGGAAAACCATTTTGAATCATGGAATAAAACAATCAAAGAGGTATATGGTAGCGAAGAAACTGATTCTTTACAAGTAGCAAACGAAGGTTCAACTATTACGATGAAAGAAGAGAAAGAACTACCTACTATAGAGGATTACAATAAAAAGGTTAAGGTTATCGAAGACCAAAAGAGACGAGTAGAGATACAATTAGCAAAAGTAGTGGCAGAAAAGAAACTGGTAGAAAACGAGTTAAAAGAGAAGTTAGAACGTGCAAAACGTAAGATTGAGTCTTTACATACAAGAGTAGAAAACGGAGACGAGATATTCGAATCAGATGGGTTACAGAGTTTAGGGGTAGACATTGATGTTTTACAATCAAGACTTGTATCTTACAATAAGTTCATTGCGTATTTAAAAGAGTTTGAAACAGAAATAAACGAATAG	MQTGNKERMFIMTKENHFESWNKTIKEVYGSEETDSLQVANEGSTITMKEEKELPTIEDYNKKVKVIEDQKRRVEIQLAKVVAEKKLVENELKEKLERAKRKIESLHTRVENGDEIFESDGLQSLGVDIDVLQSRLVSYNKFIAYLKEFETEINE				NA	NA	NA	NA	NA
AK009_03302	564			hypothetical protein	ATGAGTAGAGCAAGTAGATATACAGATAAAGACAGGTTCGGTCTTGGGGTAGACTGGAAAGAAGTTCCGATGTGGAAAGCAATGAAGTTATGGGCAAACAATCAAACACATGTAAAGTGTAAATTAGGAGAAACAAACTATTATTTTCACGGTCAAGAGTCGATGGCTGATTTAGAACCTGAATTTATCTCAAATGGTGTATGGTTTATAGAAGAACGTAAAAACAAGATGAAAGAAGCTAGAAAGAAGAAACTAGAGAGTGAAGAAAAGAAACCTTTATTCTTTATCTATCAGAACGGGTTTAGACAAATTTCTCTACCGCCTAAACAAGAAGGATTTAGAAATTTTGATATTATACAATTGACATCTTGTGATGATGGTTGTTTGATTACAGTAGAGGGAAACATGGAAGAAGTAGCAAGAGAACTAAGTACCTTTGTAGGTTATCCAATTGTAGAAATTTATTGTGATACGAATGAGATAACAAACTACGGATATACTTTAAAGGGTGCAAGTATTCGAAAAGGAAACGTTGGAGAGAAAGTTATTTATTTAGATTTCTAA	MSRASRYTDKDRFGLGVDWKEVPMWKAMKLWANNQTHVKCKLGETNYYFHGQESMADLEPEFISNGVWFIEERKNKMKEARKKKLESEEKKPLFFIYQNGFRQISLPPKQEGFRNFDIIQLTSCDDGCLITVEGNMEEVARELSTFVGYPIVEIYCDTNEITNYGYTLKGASIRKGNVGEKVIYLDF				NA	NA	NA	NA	NA
AK009_03303	198			hypothetical protein	GTGAGTAAAGAAAACTGGTATGATAGTACAACTTGGGAATCAGTACCGATGTGGAAAGCAATGAAACTATGGGCTGAGGAAGGTAAGAGTATTCGATGTCAAGTGAAACGTTCACAGTACTATTTTAAAGGTGGAGAGACGATACATAAATTAGACCAAGACTTCGTAAAAGAAGGTCAATGGTTTGTAGAGGGGTAG	MSKENWYDSTTWESVPMWKAMKLWAEEGKSIRCQVKRSQYYFKGGETIHKLDQDFVKEGQWFVEG				NA	NA	NA	NA	NA
AK009_03304	399			Protein SprT-like protein	ATGGAACGTACAGAAGTGTATTTAAACCAATTAGCAAAAGAGTTGTGTAAAGAGAATTGGGGTTTAGATTTAACGATACCTGTTAAAATAAACGGTAGATTACGTAAACTGTTTGCAAGATTTACTGGTGCTTTAATCTATGAAAACGGAAAAGAAACTAGAAAACCGAAAAGCATAGATATTAGTTCATTTGCAAATAAACATTTTAAAAATGAAGCAATCGTTGATGTGCTGAAACACGAGTTATGTCATTATGCTTGTTTCGTAAAGAATAAACCTTTTAAAGATGGTGATGTATACTTTGAAATGGAATTAAAACGAGTAGGTGCATGTTCTAACGCAACAAGTAAGGAAGAGAAAATAAATAGAGGGTATGTATATAGAAGTATGGTGGCTTAA	MERTEVYLNQLAKELCKENWGLDLTIPVKINGRLRKLFARFTGALIYENGKETRKPKSIDISSFANKHFKNEAIVDVLKHELCHYACFVKNKPFKDGDVYFEMELKRVGACSNATSKEEKINRGYVYRSMVA				NA	NA	NA	NA	NA
AK009_03305	186			hypothetical protein	ATGTCTAACTCTATAATCATAATGGTTGGTCTATACTTCATCATATTAGGGGTAGTTTGCATTCTAGTAAAACCTTCTAATAGAAAAGATGTAACCGAGGATGAAATGCGTAAAATGAAGATAGTGAATGTGATAACAGGTATATTCTTCACTATAATAGGTAGTAGTTTTATCATATGGCTTTAA	MSNSIIIMVGLYFIILGVVCILVKPSNRKDVTEDEMRKMKIVNVITGIFFTIIGSSFIIWL				NA	NA	NA	NA	NA
AK009_03306	297			hypothetical protein	ATGTCAATGACAAAAGAAGAGTTAATTGAAGAAATTAAGGTTTCTTTACCTAATCCAGACTTGTTACGTGTAGTAACTTTTGCAGGAATAGAGTTAAACGATAGAGTAATTGTATTAAAAAGTAAATCTGATTTTAGATATACAGACCTTAAAAACCAATGGATTAAGTACAATAAATCTTATCAAGAAGAACATAATCCAAAAGAACTGTTAAAGAAAAATGTTGTTTTTACTTCGGATGTATTAAGCAGAAGAGGAAAAGAAGCATTACGTAAACTAGAAGAACTCATGAAATAA	MSMTKEELIEEIKVSLPNPDLLRVVTFAGIELNDRVIVLKSKSDFRYTDLKNQWIKYNKSYQEEHNPKELLKKNVVFTSDVLSRRGKEALRKLEELMK				NA	NA	NA	NA	NA
AK009_03307	1086			hypothetical protein	ATGAAAAAGAAAATCGTTGCAACAGCACTAACGGCATCATTGGTAGTACCAACTTTAACTACAGGGTTAACAGTGGCATCAGCAGAAACAGGAGATACTACGCCTAAACAGTCACAAACTTCTACTGACACAAAAACTTCAACTGACTCTACAAAAACAAACGGTAGTGACAAAATCCAAAAAGATGATGTAGTACATGAAACTTGGTCTGAACCAGTATTCGTAAAAGGGGTATCTTTAAAGGAAGCTGATTTAGGTTCAGTTAAGAAAGACCTTGCAGTAAAAGAAAACTTTAAAACACTTACTATGGATGGTAAGAAAATGGTTGAACTTTTAGGTGAAGGTGACCCATCTTCAAACATTTATTCTTCTGTAGTAGTTCAAAAGACTGATAAAGGTGATGGAGTTAAGGTAGACATCAAAACACCTAAAAACATTACTCGTATTACACAAGACCAATATCGTAATGCGGCACTAACAGCTGGATTAACTGATGTAAACATTGAGGTAGCTTCTTCTGTTAAAGCAACTGGTGAAGGTGCACTTGCAGGGGTATATTATGCATTTAAAGAAAACGGTGTTGAACTTGACCAAAAAGATATGAAACTAGCACAAGATGAAGTTTCTATGTTAGGTAAAATCAACGAACAGAATAAAGATAAGAAAGACTTCTCTGACCAACAATTAAACGTTGCTATCGCTGATATGAAACAAGATATCGCTAAGTTAGATGAAGCCCAAAAGAAACAATTAACAAAAGAAGATGTTGAAAAGATTGTAGACGAGAAGTTAAAAGCCCTTGAACTTGAACAAGCGGTATCTGATAAGCAAAAAGATATAATTGTAAACTTCATGTTCAACTTTAAAGATTCAAACATTGCAAACAGTGAAGAGTTTGTAAAACAAATCGGTACATACAAAGATAGTATCGTAGAAGGTTCTAAAGAACTGTTTGGTAAATTAAAAGACTTTAAAGATAGCGAAGCAGGTCAAAATTTCATTCAGTCTTCATGGCAGTTCATTAAAGACATTGGTTCAGCAATTGGAAACTTCTTCTCTAGTCTGTTTGGAAGTTCTGAAAAGTAA	MKKKIVATALTASLVVPTLTTGLTVASAETGDTTPKQSQTSTDTKTSTDSTKTNGSDKIQKDDVVHETWSEPVFVKGVSLKEADLGSVKKDLAVKENFKTLTMDGKKMVELLGEGDPSSNIYSSVVVQKTDKGDGVKVDIKTPKNITRITQDQYRNAALTAGLTDVNIEVASSVKATGEGALAGVYYAFKENGVELDQKDMKLAQDEVSMLGKINEQNKDKKDFSDQQLNVAIADMKQDIAKLDEAQKKQLTKEDVEKIVDEKLKALELEQAVSDKQKDIIVNFMFNFKDSNIANSEEFVKQIGTYKDSIVEGSKELFGKLKDFKDSEAGQNFIQSSWQFIKDIGSAIGNFFSSLFGSSEK				NA	NA	NA	NA	NA
AK009_03308	219			hypothetical protein	GTGATAGATAAACAATTTGAAATTCCGTACATGGGAAATACGGTGAAATTAAACGTATTTCATAGAACAGACGAGTCAGTTGAAAGTGGAATGCCAGTCTTATCTTTTGGAAGATTGAGAACTTTACTTGAATCAGGTAATCAAACTTATGTAGCTTTATTAAACAAAGTGTCTGAATTAGAATTAGAGTTACAAAAGTACAAAGAAAAATTAAACTAA	MIDKQFEIPYMGNTVKLNVFHRTDESVESGMPVLSFGRLRTLLESGNQTYVALLNKVSELELELQKYKEKLN				NA	NA	NA	NA	NA
AK009_03309	381			hypothetical protein	ATGCAAGTATACGAAGAAGAGGTAAGACATAAAGAAGTAGCAGGTATTACAGATAAGATTACACGAAACGTAGTAACAGGTATTCAGTATCCTGTTGTAAATATATTATTAACAGATAATATGCCAAAACATAAAATGACAGCTTTAGTAAGTCTTTTAAAAGCAGAAGTAACGAAGTCAGAAGATAGTGAAGACCAGTTAAACAAGGCGGTTTATATTTCATTAAAGAAGGGTGATGAAGTAAGAAAACCAATTGGTCGTATCTTGCCAAAACAGGTTAAAACGATGATGTCTATTCTTACAGGGGTAGACTTAGAACTAGAAATGTCACAAGGCGAAATCATGGATAGCAAATATATCTATGCATTAAGTTCTTATTAA	MQVYEEEVRHKEVAGITDKITRNVVTGIQYPVVNILLTDNMPKHKMTALVSLLKAEVTKSEDSEDQLNKAVYISLKKGDEVRKPIGRILPKQVKTMMSILTGVDLELEMSQGEIMDSKYIYALSSY				NA	NA	NA	NA	NA
AK009_03310	3399			hypothetical protein	TTGTTAAAAGGACATATTAAATACGATGGGATGCACTACAATGTGTATGGGTTAGACACAAGTGGTAGTATCAATTTGACATTGTGCAATCCGATAACTAAATCAATGCAGTATCTAGACCCTGATAATACGCAGTTAGCTTATACAGAAAAGCGTATTCAGATTAAAGGAACTACAATGGCGGTAGAGTCAGAACGTGCGCCTGATGGTAAACGATTTACGCCAAACATGGATTTCTTTGGTCGTCTAGGGGTATTAATGCGTTACATCAAAAACAATTGTAGAAATATTAACAATACATTAAAACTAGTAGGTAATGCATTTGACCCAAGGGTTACAACACAACATGAAGTGCAAGTAGGAGACTACTATGCATGGGTTGAATTAAGTTATAGTAATATCACAAAGTTCTCATTTGAGGGGTATGGTTTTGATATTAAACTGTATGAGCAAGAGTCTACAGGGTATACAGAAGCATACAGAACAACAAAAGAGAATGTAACGGCTAAATTCAAGAAAGACGATTTATTTGATTTCTTTGGTATCGTAGAACGTAAGAAAAAGATACTAGACTTCGGTAACATTAATGATATGGATTCTCCATTCTATCAAACAATTGAAGAGATTATGGAAGCCAATCCTGATAGAGACTTTAGTTGGTTACTAGATAGAAATTATATCATGGTAACAGATGAGACATTACAGGAAACGATTGAGTATTTAAATACATTTAAAGTATTAGCAGTCGATACCGAGACAACAGGATTAGACATTACATTCAAGTCAAGAACAGGTGAGCATGATGAGTGTGTAGGTTTAATCATAACAGGTAAAGAAGGGGAGAGTTTCTACTTCCCATTCAAACATACACAGTTTGATAACTTATGTGGTGGCGATGATTGGTACTTCATGGAAACATACATGAAACCGTTATTAGAAAAGAAAGACATCATTGTCCACAACGCATCGTTCGACTGGAAAGTTATTTATATTTACGGTATCGTGTTAAACGTAGTAATAGATACATTTGCGGTATTCTCATTAACACTAAATGCAAAATATCAAACACCAGTTGGTTTGAAGCACTTAATTTCATTATTGCTTAAACGTGATTCACTGGAATTGGATGATTTATGTAAGAATGGTGATTTTGGTTCAATTGACCAAAACTTCGCAGATTTACCAAAAGAACTTGTACGTCTATATGCTTGTGCCGATGCTGATAATACGTTAGCATTATATCATTATATGCTAGAAACAAACATGCTAGAAAACTGGGGTGCTACAAAAGTAGTACAATTCGAGTCTATCTTCGCATGTGCGATAGGGTATAGTGAGTTTCACGGTCAGTTCGTTAATGTAAATGAAACAGACCAACTAGTACAAGATATTGACCGAGATTTACAAGAAGCAGAACGTAAAATGCGTAATGAATTACGTAAAGTAAACTATGATGCAGATAATTTCAACCCACAATCAAACGTGGAAAAACTGAAAATCATATATGAAGTGTTTGGTGCGCCTGAGCAGTACAAGTTAGATGGTAAGCTAACAGCGGATAAAAAGGCATTAAAGAACTTGTCTAAGATGACAAACCCTGATGATACACCTAAGTATCCGTTCGTTAACTACTTCCAAGAGTTCAATGAAGTAAACACATTACGTAAAAACTTCTCCAAGAACTTACCTGAGTTCTGTACGCCTGATGGTTTCATGTTTAGTGGGGTAAAACAGTTCTTAAAAACAGGTCGTGTATCTATTTCGAAACCAAACTACCAGTCTTACAATGATACCGTTAAAAAGTACATTAAGCCAAGACCTGGTTTTTGGATGGGAGACATGGATTACTCAAGTATTGAGTATCGAGTAATCGCTTCAATGAGTAAACAGTTATCATTAATTGAAGCCTTCCAAGACCCGAATACGGATTATCATAAACTACAAGCATCAAACATGTATCAGATACCATATGAACTTGTATCAAAAGCCATGCGTGGTGAAGCGAAAGCCTTTAACTTCGGTATTCCGTTTGGTATGGGTAATGAGAAACTGGGTATGACAATATTCGGTAAGGTATCAAAAGAGAATACAAGAAAAGCAACGGCTTTACGTGAAAGATACTTCAAAGGGCAAGATAACGTTCGTGAGTTCTTCGTAAACGCCCAACGTGATGCAGTTAAATATGGTTATACAGAAACACACTTTGGTCGTAGACGTTACTATAATAAAGAAACAACATCAGTTGGTTCTATTAAACGTCAAGGTGGTAATCAGCGTATCCAAGGTACAGCGGCAGACATTTATAAACAAGCAGTTGTACGTTTATTCCTACGAATCATCAATGAAGGTTGGTTAGACAAAGTATTACTTCCGGGCTTCATTCATGATGAACTGTTAATGGAAGTGTCAATGGAGATTCACCCGCTAGACTGGATGAAAGTATTAAAAGAAGAAATGGAATTAAAAGTAGACGGTTTCTGTCCTCTATACATCGGGTTTGGGGTAGGTCGTTCATGGTACGAAGCAAAAGCAGTTGAGATTCCTACAGAACTACAACAAGAAATCCAAGGTAAAACAAGTGAGTTCGATTGGAACGGTAACTTAGATGAGTTCTGTGAGTGGGTTCCAAAACGTATTAACCAATTCGAACTAGAGTATGCAGATAGATACTTAAATAATAAAGAAAATAACGGTCAAGTTATTTCAGCAGTAACTTATGATTACATTAACTCACAAGTCAATAGAGTACAAGACGAGTTAATGAAAAATTACTTCTCACAATTAGAAGCAGGTAACAGATACGATTTCGATGTAAACGTATTATCTATTATCAAGCACCGTGCAGATAAACTTGTACCACCATCTAAAACACATGAAATTACATTAGATGAGAAAGTAACAGCATATTGTAAGAAGTTAAAAGTGGACAAACAGTGGTATGTAAATGAAATACCAAAAGATATGGTATTAGGAAACTTTGAAGATTTACAAGTTTTACTTGATTTCTATTGCCAATACAGGGGTATTGATAGAGCGACTGTACAGTTGCTATCACCACATGATGTTGATGTAGAGAAAGAACAAGCAAAGTCAGCAGTAAACGAGCATGAAGGTGAATATTACTACAATGCAAGGGAAGACGCTGAAAGCAATAAACAACTCTTATTAACAAAAATAAATGAGTATGGTTGTTTCTTAAACGTAGAAGAGAAGAAAGCATACTTCAAGTTTGTTCCAAGTATTATGCAAATCATTAAACCGAAGGTTCATCAAGATAAAACAGGATATCAAGTCGTATTCATTGATGTAGAAAAGGATAAAGAAATCCTTACAAACGCTTATATCACAAGTGCGAATTTAAATGCAGTACAACGAGAGGTTATGTTTGCGGTAGCGTAA	MLKGHIKYDGMHYNVYGLDTSGSINLTLCNPITKSMQYLDPDNTQLAYTEKRIQIKGTTMAVESERAPDGKRFTPNMDFFGRLGVLMRYIKNNCRNINNTLKLVGNAFDPRVTTQHEVQVGDYYAWVELSYSNITKFSFEGYGFDIKLYEQESTGYTEAYRTTKENVTAKFKKDDLFDFFGIVERKKKILDFGNINDMDSPFYQTIEEIMEANPDRDFSWLLDRNYIMVTDETLQETIEYLNTFKVLAVDTETTGLDITFKSRTGEHDECVGLIITGKEGESFYFPFKHTQFDNLCGGDDWYFMETYMKPLLEKKDIIVHNASFDWKVIYIYGIVLNVVIDTFAVFSLTLNAKYQTPVGLKHLISLLLKRDSLELDDLCKNGDFGSIDQNFADLPKELVRLYACADADNTLALYHYMLETNMLENWGATKVVQFESIFACAIGYSEFHGQFVNVNETDQLVQDIDRDLQEAERKMRNELRKVNYDADNFNPQSNVEKLKIIYEVFGAPEQYKLDGKLTADKKALKNLSKMTNPDDTPKYPFVNYFQEFNEVNTLRKNFSKNLPEFCTPDGFMFSGVKQFLKTGRVSISKPNYQSYNDTVKKYIKPRPGFWMGDMDYSSIEYRVIASMSKQLSLIEAFQDPNTDYHKLQASNMYQIPYELVSKAMRGEAKAFNFGIPFGMGNEKLGMTIFGKVSKENTRKATALRERYFKGQDNVREFFVNAQRDAVKYGYTETHFGRRRYYNKETTSVGSIKRQGGNQRIQGTAADIYKQAVVRLFLRIINEGWLDKVLLPGFIHDELLMEVSMEIHPLDWMKVLKEEMELKVDGFCPLYIGFGVGRSWYEAKAVEIPTELQQEIQGKTSEFDWNGNLDEFCEWVPKRINQFELEYADRYLNNKENNGQVISAVTYDYINSQVNRVQDELMKNYFSQLEAGNRYDFDVNVLSIIKHRADKLVPPSKTHEITLDEKVTAYCKKLKVDKQWYVNEIPKDMVLGNFEDLQVLLDFYCQYRGIDRATVQLLSPHDVDVEKEQAKSAVNEHEGEYYYNAREDAESNKQLLLTKINEYGCFLNVEEKKAYFKFVPSIMQIIKPKVHQDKTGYQVVFIDVEKDKEILTNAYITSANLNAVQREVMFAVA				NA	NA	NA	NA	NA
AK009_03311	324			hypothetical protein	ATGCAAGATGTCATTCAATTTAACAGAGACAAGTTTGAAGAGTTACGAAAAGTGATTTCTAGTTGTAGTTATGAGGGTGGAATCTTAGGTTATCTATTATCAGAAATGGGTTTGCATAATCGAGTAATAACAAGCATTGAAAAGATAACAGACGAGTTAGAAGCCCCACTAAAACAGGTAAGAGAAGGTTTAGCAATGCTTTGTGAGAGGGGTATTGTTTCAATTGAGGGTGTAAACCCAAAAAGTCTTGTATTTACAATCAATAAAGATTATGCAGTAAGGGTTTATCAGACAAAACGGATGAAACAAATGATAAAACAATAG	MQDVIQFNRDKFEELRKVISSCSYEGGILGYLLSEMGLHNRVITSIEKITDELEAPLKQVREGLAMLCERGIVSIEGVNPKSLVFTINKDYAVRVYQTKRMKQMIKQ				NA	NA	NA	NA	NA
AK009_03312	585			hypothetical protein	ATGTTAGACGGTTTCGACTTTAAGGAATTCGCTAGAGAAAATGCACAGTTAACACATGAGGTTCACATGGGAGACTACATTATTATCCATGTGCAACGAGAAGAAGTAGAAGGTGCTATTTATAGTCGTATTATGAAACACATTCGTACTATTGATAAACGTGAGAGTAGAGGATATGCTTCTTTAATTATTACTTTTAATGGATATGATGACATCCCAGACTCCGTATTTGAAATTATGGACATTCGAAAGTATGTTCAAGGCTTATTTAGTCGAGTACCACACCTATTATTTTACATGGCAAACATGCCTGAGGTAAGAGAAAATATGTTGTTATGTATTTGTGATTTTGAAAAGATAGGTAAAAACCACGGATTGTCTTATGAAGAACTATTAGAAATGACATTAGAAGACCCTGATAGCATTCCTAAAGAGCAAATTATGATTAGTATTTCTGATTCTAAGAGAAGAGACTTAGGGGAAACACTACGTAAGTATGGTAATAAAGTAAAGAAACAAGAGGAAGCACAAGAGGTTATTCAGTGGTTAAACAATACATTTAGTTCAGATAATCGAATCCAGTAA	MLDGFDFKEFARENAQLTHEVHMGDYIIIHVQREEVEGAIYSRIMKHIRTIDKRESRGYASLIITFNGYDDIPDSVFEIMDIRKYVQGLFSRVPHLLFYMANMPEVRENMLLCICDFEKIGKNHGLSYEELLEMTLEDPDSIPKEQIMISISDSKRRDLGETLRKYGNKVKKQEEAQEVIQWLNNTFSSDNRIQ				NA	NA	NA	NA	NA
AK009_03313	663			hypothetical protein	ATGGACAAGCAAGTAATTACAGAAGAGTTACACGTTGTTGAAGAAGATTTAATCAAAGTAAAACTAGGATTAAATAAGGTAGACAAATATGTAGAAAAATTAGAAGATATTCAAGAATATGTAGGAATGCTTGTAGAATATTTAAACTGTAGGCTTCCAAAAGGAACTATAAGTGCAAAAGATGATACAGAAGAGGATTATCAAGAGTTATTCTTGTTAACAATAATTACCATAGACAGAGGTCTTCAAGATTTATTAGATGAAATAGTAGAAACTGTAGAAGGTAAAGAGGATATTAAGAATCTGTTAGTTAAGTCTACTATTGGTATCAGAAAGATTATGTACAAGCATTCAGACTTAAAATCAGTCAAGTATGCTTTATCACATACATTAGGTAGTTTAAAAGCAGTTAGTTTTGATACAGTAACATATGAAGAAATCTTACTAAACTTATTGAAGCTAACAGATAGAGAATATCAGTATTCAGCTATCCAGTATGAAACGGTTGAAGAAGAGATATTTTCAACATTAGATACTCTAAATACAAGCCTAAAAGGGCATGTAGAAGGTAAACTTGATGGAGAAAATAAAGAACATTTAGACTACGGTTTAGGTTTTATAAGAGAAGTATCTCTATTCTTACAAGCAGTACTATCAAAATAA	MDKQVITEELHVVEEDLIKVKLGLNKVDKYVEKLEDIQEYVGMLVEYLNCRLPKGTISAKDDTEEDYQELFLLTIITIDRGLQDLLDEIVETVEGKEDIKNLLVKSTIGIRKIMYKHSDLKSVKYALSHTLGSLKAVSFDTVTYEEILLNLLKLTDREYQYSAIQYETVEEEIFSTLDTLNTSLKGHVEGKLDGENKEHLDYGLGFIREVSLFLQAVLSK				NA	NA	NA	NA	NA
AK009_03314	333			hypothetical protein	ATGAAAAGAGACTTATTAAAGCAAAATTATAGTTCTATTTTAGATAAAATGAACTTAGCTTTTCTCGCTACAGATGATGATTTAATGCAAGACCGTATAACAGAAGCTATGTTTGATTACGAGTTTGTAGGTAAGTTACTAACAGGGGTAGAACCTCATTTAGATAACTCTTGTACAGTCGAGGAAAGAATGAGTTCTATCCTTACAAATTGTATCAGTAACATAGAAGACGCCCTACGTCACATGAAGGATGCAGATTGGCGTTATAGTAAGACGGTAGAAGAACAAGGAAACATTGTAGTTTCTATGTTAAAAGAAATTATAGAGGGGTAA	MKRDLLKQNYSSILDKMNLAFLATDDDLMQDRITEAMFDYEFVGKLLTGVEPHLDNSCTVEERMSSILTNCISNIEDALRHMKDADWRYSKTVEEQGNIVVSMLKEIIEG				NA	NA	NA	NA	NA
AK009_03315	369			hypothetical protein	ATGTCAACTGTCATTTCAAAACATAGAGCAAAAGCAATAGCTGAAATATCTGTAGCTAGTGGTATTTTAGAAATTATGCCAGTTAGCAATAATAAATTAGCTAACTTAAAAGTAAAAGAAGCAAAACAAGAATTAGAAGAAGTTAAAAACTTTATATTTAATGATGCAAAACCGTTAGAAATGTATAATAAGTTGGAAGTACAAGCTATTATCAGCTTAAATACAGTTAAAACATCCCTTAATAACTCATTTGGTAAGCCTTTTAACGGAAACGAAGAACAAGTAAAAAGGTATGAAGAGTTGAAACCGAGTATTGAAAAGATATTCCTAAGTATAGATAGTGCTATAAACCACCTATCAGCCGAATAA	MSTVISKHRAKAIAEISVASGILEIMPVSNNKLANLKVKEAKQELEEVKNFIFNDAKPLEMYNKLEVQAIISLNTVKTSLNNSFGKPFNGNEEQVKRYEELKPSIEKIFLSIDSAINHLSAE				NA	NA	NA	NA	NA
AK009_03316	423			hypothetical protein	TTGATTAACCTAAGCATTAGCGTAAACAAGGGGTATGAAGCCATTGTTATTTTAAAGGATGGTCGTATCCTATTCAAAGAAGTAAAGAACGAGAATAAAGCAGTAAAGAAACATTATACAGAGAAGTATTTAGACTTATTTAGAAAGTCTTTACAATTATTAAAAACAGTAACAGAGCAAGAAAATATAGACTATGAAAATCGTTGTATTATGGAAATGAAGTGTGAACATGTAGTGAAATGGTTCAACGAGTTAGAAGCCCCTAAGAATCATTCAGAGAAATTCTTAGAGACTTTAAAAGTATTCGATGAGTTACCGTTCCGATACAGTATTATCAATTCTTCAAATCCAACGGCTATGTACTATGCAAACGAGAAACATGTTGAAAAAGAAGTATTAATGGGTGTAGCTGATTTATTCTAA	MINLSISVNKGYEAIVILKDGRILFKEVKNENKAVKKHYTEKYLDLFRKSLQLLKTVTEQENIDYENRCIMEMKCEHVVKWFNELEAPKNHSEKFLETLKVFDELPFRYSIINSSNPTAMYYANEKHVEKEVLMGVADLF				NA	NA	NA	NA	NA
AK009_03317	867			hypothetical protein	GTGTCTGAGAAAACAGGAAAAGGGAACGAAATATCAAAGTTAAAAGTATCAGCAGAAATGTATGGTGGGGCAATTAATACGATTGCCCTAAACATATTAAAAACTCGAATGAATAAATCATCGAACCAAAAGGCATTAGGGGTAGGTACGCTAGGTTTCGATTTAGACTCTTTAAAGGATGAAGACCGTAAGGAACAGAAAATGACAGGTGACTTTACTCACTTTGCTTTAAACAATTCCGATGCTTTCATTCATTTTTGTGAGTCTACACTAGCAAGTAAATTCCAACCTGAGGATTTCACAAAAGACTTCTTATTTGAATTAAGAAGATTTTTCATTATGTATGGAACGAATTTTACAAATTACATTATTAGTTTCTACTTAGAGAACCATGATTTATTCCATGCTATTCAAGAAACAAGTAAGTTAACTGAGGATTTCAAGTGTAACACTGATTTAATGACGATTAGACAGTCAAATAACGTATCAGTCTATAAAGGTGAACTAAAAGGTGAAGTGAAGAAGGGGTATATCGCTTTTTCAATTGACTTAGCAAAAGATGTAGACACAATACTAGATTACATGTTAAATAAACCTCTAAAAGAAAACCTATTCAAAGTACACATGTCTAGGTTGGATTACTTTAGAGACTTAGGAAACAATTTCTTTGCTTTCAATAACTTCTATGAGCATATCAAGATACAGTTTATAGAGAACATATTAAATCAAACGAATGCGTTATTAATAGAAGTCGTACATGATAAAGTATACTTCTTAGTTAAGACTGATGCAGTTCCAGTATTAAACTTTAAAATATACGGTATACCATTTGAACAAACATTTAAAATTGAGTTAGTAGGTGAGTAG	MSEKTGKGNEISKLKVSAEMYGGAINTIALNILKTRMNKSSNQKALGVGTLGFDLDSLKDEDRKEQKMTGDFTHFALNNSDAFIHFCESTLASKFQPEDFTKDFLFELRRFFIMYGTNFTNYIISFYLENHDLFHAIQETSKLTEDFKCNTDLMTIRQSNNVSVYKGELKGEVKKGYIAFSIDLAKDVDTILDYMLNKPLKENLFKVHMSRLDYFRDLGNNFFAFNNFYEHIKIQFIENILNQTNALLIEVVHDKVYFLVKTDAVPVLNFKIYGIPFEQTFKIELVGE				NA	NA	NA	NA	NA
AK009_03318	684			hypothetical protein	ATGGACATATTAAGAGGACCGTTTGACTTTACAAACAACATAACTTACGAAGACACTGAGATTTTCGTAAATCAAATTCAAAAGTATGAAGATGGTAACATTGACAGTTTAAAGAAACTAGATACTGGAAAAATGATGGATGTTACATTGAATCGTAACACAAAAATTCCAATGATGAACTTACGTTTTTACAATGGCAGTATTAAACGTAATTCTAAAAATTCGATTGAAGGTAAATCGAAAAAGAACGAAGTAAACATTACATCTAATATGTCAGAAGACGCAAAAGGTCAAGGTCAGTCAGCTAAGACAATAGATGAAAACCTGATTATCAAAGAGTCTAAGAACAATGGACCGAGGTATAAACTGGTAAATGATAAGACAATTGATGAGGTAGAAGAGGTTAAACATTATATTTGGGTATTTAGAGAGTATCAAATTGCATTTGAGAAGTTAGAGTATGTAGACTTATCACATCTTGTTATGCGTTCACTACAGGGAGTTCAAAACGCAGTTCAAAGTCTACGAAAACTAGTTCGTTATTATGGTGAAAATGGCAGACACGAAGAAAAATTGAAGGCTATCGTATCTCACCACGAACCTTTTAATATTGTTATTGAGAAAATTTTAAAAGCAAAAGAAGAAGGTTATGATGTATTTGAAGAAAAGAATGAAGTAGTATAA	MDILRGPFDFTNNITYEDTEIFVNQIQKYEDGNIDSLKKLDTGKMMDVTLNRNTKIPMMNLRFYNGSIKRNSKNSIEGKSKKNEVNITSNMSEDAKGQGQSAKTIDENLIIKESKNNGPRYKLVNDKTIDEVEEVKHYIWVFREYQIAFEKLEYVDLSHLVMRSLQGVQNAVQSLRKLVRYYGENGRHEEKLKAIVSHHEPFNIVIEKILKAKEEGYDVFEEKNEVV				NA	NA	NA	NA	NA
AK009_03319	393			hypothetical protein	TTGGAGTCTTTGTTATTGATGGTAGCAGTAGGACTGGGTATCTTAATAGCTTGGAAAATAGTAAAGACTGTAATTGTAAGGTGCATTGTTATTGCAATAGCAATAGGAATCTTCATAGTGGGGTATGACTATGTTTTACCCGCAAAGTTTAACATGAATCCTTATAAACTTGATAGAGCGTATCAATTATCACAAGAAACGAAAAAGGTCAGAGTAGTGGAAGCAGACGGAGAAAAAGAGGTGCAAGTCTACTTCAATGATAATTGGTATTACATAAAAGATTTAGACATAAAGAAAGAGTTTAAAACAAACAGTTACATGGTAGAGACTAAGGATAATAAGTTTAAGATAGAAGATAAGGAACTCGTAGCGATTTTAGAAACATTGAAGTAA	MESLLLMVAVGLGILIAWKIVKTVIVRCIVIAIAIGIFIVGYDYVLPAKFNMNPYKLDRAYQLSQETKKVRVVEADGEKEVQVYFNDNWYYIKDLDIKKEFKTNSYMVETKDNKFKIEDKELVAILETLK				NA	NA	NA	NA	NA
AK009_03320	702			hypothetical protein	ATGGCGTTTTTATCAATAATAGACGCAGAATCGTTTGATGTGTCAAAATCGTATTTTAATAAGTTAAAGAGCAAAGAGGAAGAATGTTACTTAGTATTAGATAACTATAGGAACCAAGAAGTAAACGAAATGGTCAAAGCAGTGATAGTTAAAGAAGAAGTAACCGAGATGAAGCAGGGAATACTATACATCAAAATGCTTGAACATTCTTCTAGTGAATTAGAACTAGAGCAATTTTTAGAGGAACATGTCGACCCAGTAGATGTCTACACATATGTAATTAAATTACATGAAAATTATGTAGACTTACGAAAACTAACTGAAATGGTAGATAAGTATACAGAAAGTAAAGTACGATTTATTGGTGGAAACTTGTTAGCTATTCAAGGTGCAGGGGTAGGGATGTTTGCAGACTCCTTTATTACTGAAAATAAATTAAAAGTAAATAAAACAAGTCGATTTGAAGTAACACAAGTAAAATTACTAGAACTAAGTAAACTTGTAACCCATGAATTAGAAGAGTATACCGCACGTAAGAATAGACCTAAGAAGTCCACAGTTAAGCGTGAACGAGCGAAGAAAACAAAGTTAGCTGATGGTACAGTAGTAGACAAGCCTAAGAAACCAAAGTCAGCTAAAAGTAAAACACCTAAACCAAAGAAACAAAAGTTAAGCATGGAAGATATTTTAAATTCTTATTAA	MAFLSIIDAESFDVSKSYFNKLKSKEEECYLVLDNYRNQEVNEMVKAVIVKEEVTEMKQGILYIKMLEHSSSELELEQFLEEHVDPVDVYTYVIKLHENYVDLRKLTEMVDKYTESKVRFIGGNLLAIQGAGVGMFADSFITENKLKVNKTSRFEVTQVKLLELSKLVTHELEEYTARKNRPKKSTVKRERAKKTKLADGTVVDKPKKPKSAKSKTPKPKKQKLSMEDILNSY				NA	NA	NA	NA	NA
AK009_03321	294			hypothetical protein	ATGAAACTTGAAAAGATAGAACGTAAGTTAAATGCGTTATACATGGATTTGAAGTATGCTCAACTATTTACATCCGAGGATAGTGTAACAGATGAAGTAAATACTGTCATGGAGAACATAAAAGGTATTCTTACTGAACCGAAAGAAAAGCTAATGGTATCGGCTTTAAAAGAAATTGCACAACAATTAGACTTAGTTTTAAAAGAAGTTTCTTATGGTCAGAATGTAGTAAACTTATCAGAAGCAAAAGATAGTTTACAGGAAATTATTACAAACTTAGAAAAGCTAAATTAA	MKLEKIERKLNALYMDLKYAQLFTSEDSVTDEVNTVMENIKGILTEPKEKLMVSALKEIAQQLDLVLKEVSYGQNVVNLSEAKDSLQEIITNLEKLN				NA	NA	NA	NA	NA
AK009_03322	384			hypothetical protein	ATGAATGATTCGTATGTTAAGTTTTTAAACCGATTACAAGAAGAAACAGGTATCAAGAAAGTAAGCGAACTACTAGATAGTATGTCACCTTTGCAAGAGAAAGTCTTCATGATTATTAGGGGTATGGGAGACGTGGAATTCCACGTCCAACCTGAGTTAAGACAAGTTGTAACTTGTTGTATGGATAATTTAAGTAAGGTTTACGATATGATTGAACCTGATGGGACAATCCATGAAAACCTAAGATTCGTATTAAATGGTATGAAGAACGACTTAACTACGATTCACTATAAAGCAGACAAGGAAACGGTACGAAATAAAGCTTTCCATACTTTAAATGAACTGAAGTTTTTAGACTTAGAATTAAAGAAACAAAATAAATAG	MNDSYVKFLNRLQEETGIKKVSELLDSMSPLQEKVFMIIRGMGDVEFHVQPELRQVVTCCMDNLSKVYDMIEPDGTIHENLRFVLNGMKNDLTTIHYKADKETVRNKAFHTLNELKFLDLELKKQNK				NA	NA	NA	NA	NA
AK009_03323	153			hypothetical protein	ATGAATAAAGAAATTATTTTACAAAATTTACTGAAAACGAAAGAGAAACTAGAAATTATAGAGGGTAGAACAGATGATGGTGCAATTTCTGTTATGGCAAATGAAGGATTAGATTATATTGAATCTGCAATGGAGGAACTGAACAATGAATGA	MNKEIILQNLLKTKEKLEIIEGRTDDGAISVMANEGLDYIESAMEELNNE				NA	NA	NA	NA	NA
AK009_03324	1197			hypothetical protein	ATGGGGTTAGAGTTATTGTTTGACAGACAAAGTATGATGAAGGTTGTCTTGTTATATACACCTTCTAACTCTTTATCTATGTACGTTCAAGACGTGATTAAAAACAGGTTTCAGATTAATAAAGATAGTATTAAAGATATAGCAACTAAGAAGGAATTACAGGAAACAAAAGAGTTATACAATGTAGTTCCTTTCTTATCTCAAAAGTGGCTATTTCACGTAAAGAACGGAGATAAAGCAGTTAAGAAAGACTTTTTAAGGTTAGCTAGAGGAAATACAAGTGGCGTTTATTTTATCGAGTTTGAAAACTATAGAAACTATAAGTTCGTAAAAGATTTACTAAGGAATGAACCGGGGACAGTAGACTTATACATGGGTTGGTTAAAACGTGCTGACTTTGAAATGTTATATCGTCATTTGGTTGTCGGTTTCAAGGGGTATGAGTTAACAAAAACATTACAAGACTTTGTAATTCGTGGGTATGCAAATGAAATTGAAGCGGTGTTTAAGTTATTCGTGGAGTTACGTGATGGTAGAGAAGTTAAAACACGTAAAGAAATTATAGACATATGTGGGATTAACTCAAATACAGTAGATAATTTTATGTTTAGTTTATTAAAAGAACCACCAGTGAAAGATAAAGGGTTAAAAAGATATATGTCAAACCGTATTAAGGAAGCGGTAGATTTAGCTGAAAAGTATACATGGTCTACCTTTAGAAACTATTTAAAACGTTCAGTACGTTCGTGTATAGATGTAAAACTTATTTTAAGTAGTGGAGAGATATATGATAACATTCGGAACTATGAGAACGAAGGTTATGATATGAAGAAGTTACGAAGAATGCAACGATATCTTCCACAATTAAAAGAGATTAGTATGGCAAGACTATTAGGGTTGTTAGACAATATAGAAAAAGGTGTATGGTACACCGATTTAGAGTTTCTAAACTTCTTCTTTAATTACATGTTATATAAATATAACTCAAATAAAGAAGTAAAGAAACTGATATTAGAAGCTAGAGCGTTAGTGAAACAAAAGGAGAATAAAGCTAAATCAGAACCAAAAGAAAAGAGAGTCATCATGCAAGCACATTCACCTGACAAGGAAGATAATGTGAAACCTATGACAAGGAAAGAAGAAAATGATAGGGTGCAAGTGAGAGACTTCTTTAGGAGGAAGTTAAGTAATGAATAA	MGLELLFDRQSMMKVVLLYTPSNSLSMYVQDVIKNRFQINKDSIKDIATKKELQETKELYNVVPFLSQKWLFHVKNGDKAVKKDFLRLARGNTSGVYFIEFENYRNYKFVKDLLRNEPGTVDLYMGWLKRADFEMLYRHLVVGFKGYELTKTLQDFVIRGYANEIEAVFKLFVELRDGREVKTRKEIIDICGINSNTVDNFMFSLLKEPPVKDKGLKRYMSNRIKEAVDLAEKYTWSTFRNYLKRSVRSCIDVKLILSSGEIYDNIRNYENEGYDMKKLRRMQRYLPQLKEISMARLLGLLDNIEKGVWYTDLEFLNFFFNYMLYKYNSNKEVKKLILEARALVKQKENKAKSEPKEKRVIMQAHSPDKEDNVKPMTRKEENDRVQVRDFFRRKLSNE				NA	NA	NA	NA	NA
AK009_03325	186			hypothetical protein	ATGTATTACGGTTATAAGTGTGAAACAGGTTGTGGTCATATAACGCTTACAGATAAGTATTACAAAACGAAACTTACTCATTGTGCAGTATGTGGAGAAAAGAAAACTTTAGTATACATCGGAGAGTTTGAAGCGAAAGCAGTAACTTCAAACTCTCTAGTTGATAGAAACAGAAGTAGAAAGTAG	MYYGYKCETGCGHITLTDKYYKTKLTHCAVCGEKKTLVYIGEFEAKAVTSNSLVDRNRSRK				NA	NA	NA	NA	NA
AK009_03326	1824			hypothetical protein	GTGGCAATTAAACCAGATGTATTAGAAGCAATTAATTATTATACAGAGGTAACTGGTGAATCAGTATCACAGTTCTTAGAAGGTATTGATTCCTTACTTACAGTAAACGAAGAAGAGTTAACGAATAACGATTGGTTACGTAAACAAATAGCGAAGCTAATTAAGAATAAAGGGGTATCTCTAGACGAGATTATCAAGAATAAAGATTTATTGATGGCAAAAGATACAAAAGAGGAAGACGGAAGTTTCTACACGCCTTTAGAGTGGGCGGCTGAGACTCATAGAATGATAGAAAAATATATTCCGAATTTAGAAGATTATGTTGTATGGGATGCAAGTTGTGGTTCGGGAAACTTATTAGCTGAGTTACCACCTTGTAAAGAGTTATATGTATCCACATTACATCAAGAAGACGCTGAAATCGTACAGAAACGCCTACCACATGCACATGCATTCCAGTTAGACTTCTTAACAGGAATTGATTACAACGAGTGGGTAACTGAATTTACAGACGGTCTTCCTGAGGGGTTACAACGAGCGTTAAGAAATAACGAACCTATCCTTTTCTTAATGAACCCACCATATAGTATTACCAATGCTCATAAAACACAAGTTGCAAAACATTTAAAAGCGATTGGTAAAGAGGAACTTGCTTCGGATTTATTAAGACAGTTCGTATGGCGTGTATATAACTTAGTAGATATACATGGACTATCGAATTCATACTTTACGTTAATTGGTACAAACAGTCTTTACATCATGAATTCTTGGGAGAGTACAGTAAGAGAAATGCAAGAACATGCAGACTACTTAGAAGGATTTACATTCCCTGCTAGTGAGTTTGCAGGTATCGAAAAATCAGTTCAATGGGGTATCTTCTCAACGATTTGGAAAACAACTGAGTTACGAACTGTAGAAACTTTACCTAGTATTCAGATGACGGCAAAGAAAAAGGATGAAAACGGAGTTATTTACGATGATGGGGTATTGGATTTTGTATGGGACAAACAATACATGCCAAACTGGATTCAAAGTAAGATAACGAAAGGGAATCGTATTACAGTTCCAGTTACATCCGTTAGAGGTGTTCCAAAAGTAGACGCTAATGGAGAAGTATCTACAGTAACAGGGTTAGACAATGCACTTGGTTATTTCTTAGTAAAGAGTACATTTAAAGACATTGCTAACTTCAACGGTATTGGTACATTACCGATAACACTTGGTACTGTTCCTGTAACAGAAGAAAACTTTAAAGACGTATGTGGTTGCTTTGCATTCTTATCTACATACAAGAATGACTTTAATGATTTAGCAAGACCATTTAACGAGCCACATACAGGTTCAGATGAATATCGTGAATGGATAGCAAACAGTATCTTATTCTCTATATGTGCAAGAAAAGGGTACATGTTCTCTGTCAGAAACATTGAATTTAATAGAGAGATTAATAGTGTAAACTCTACTATTTTCCCATTCTCACATGAACAAGTAAGAGAGTATTGTCAAGATGAGAAGGTACTAAAAGACTTAGAAGAAAACCCAGTAGATAATTCTTACTTCCTAAACTTAGTAGAAGAGTCTAAGCCTTATGCTTGGAAAGGGGTAATGAACTTATACAATGCAGTAACAAACTTCATTAAGCAGTCTTATAATTATAGACATACAATGGATTATGAAGGAAGTACAGTAGCATGGAACGCTGGATTCCACCAGTTGAAACAAACAGCTATTTGGACAGACGAAATGGAAGAAGCATATGTACAAGCCTTGTCAATTGCAAGAGACGAGTTTAGAGAAAGAGTAAAAACTCATTATATCGTCTAA	MAIKPDVLEAINYYTEVTGESVSQFLEGIDSLLTVNEEELTNNDWLRKQIAKLIKNKGVSLDEIIKNKDLLMAKDTKEEDGSFYTPLEWAAETHRMIEKYIPNLEDYVVWDASCGSGNLLAELPPCKELYVSTLHQEDAEIVQKRLPHAHAFQLDFLTGIDYNEWVTEFTDGLPEGLQRALRNNEPILFLMNPPYSITNAHKTQVAKHLKAIGKEELASDLLRQFVWRVYNLVDIHGLSNSYFTLIGTNSLYIMNSWESTVREMQEHADYLEGFTFPASEFAGIEKSVQWGIFSTIWKTTELRTVETLPSIQMTAKKKDENGVIYDDGVLDFVWDKQYMPNWIQSKITKGNRITVPVTSVRGVPKVDANGEVSTVTGLDNALGYFLVKSTFKDIANFNGIGTLPITLGTVPVTEENFKDVCGCFAFLSTYKNDFNDLARPFNEPHTGSDEYREWIANSILFSICARKGYMFSVRNIEFNREINSVNSTIFPFSHEQVREYCQDEKVLKDLEENPVDNSYFLNLVEESKPYAWKGVMNLYNAVTNFIKQSYNYRHTMDYEGSTVAWNAGFHQLKQTAIWTDEMEEAYVQALSIARDEFRERVKTHYIV				NA	NA	NA	NA	NA
AK009_03327	294			hypothetical protein	ATGTTTGTAAGTGAAAGAGGTATAGCACTAATTACACAAACCAATGAGACAAGGATGTTAACGGCAGAGGATTATATGAAATGGTATAATCTTTACATCATTGAAACAGATGGTACAGTTAAAGGGGTAGAAGATGATAACGAGATTTTATTTGAGGGTTGGTATGACCATTGCGTTCGACCTGATACTTTTAAGAAACTGGCTGAATCGCTAAATGCATCATACGATGAGAAGACTTGGAAAGCAGTCATAGATATGTACGAAGAAATGACAGACTCCAAGTGGGAAGAGTAA	MFVSERGIALITQTNETRMLTAEDYMKWYNLYIIETDGTVKGVEDDNEILFEGWYDHCVRPDTFKKLAESLNASYDEKTWKAVIDMYEEMTDSKWEE				NA	NA	NA	NA	NA
AK009_03328	504			hypothetical protein	ATGCTAAATACTAAACTATGTAAGCTATTTGGGTGTAAACAAAAGAGCTACGCAAAGGGGTATTGCAGTTCTCACTACGACCAGTTCCGTAACGGAAGAAAAGTAGGAGAAGTAAAAAAGTATAAAACACATTGTTCTATAGAAAACTGTAGCTTAAAACATCATGCAAAAGGATATTGTAGAAAACATTATGTTCAAATAAACAAACATGGTAAAACCTTACCTGAGAGGGTAAAAGTTTGTGTTGTAGATGGTTGTGAAGAGAAACATCATGCAAGAGGTTTTTGTAGAAAGCACTATAACCAAATAGGCAAGCTAGATAAACTATTACCTGAGAAAGATACAACATGTAGTGTAGAAGGGTGTGATGGAGAGAGTCGGACAAGGAATATGTGTTTAAAACATTACACTAGATGGTATCGTAATGAAAAGAAGAAACCCAGTAACGAGAGTTACTACAGTAAACAATATTATAGTAATAAGGAGGAAGAAACATGTTTGTAA	MLNTKLCKLFGCKQKSYAKGYCSSHYDQFRNGRKVGEVKKYKTHCSIENCSLKHHAKGYCRKHYVQINKHGKTLPERVKVCVVDGCEEKHHARGFCRKHYNQIGKLDKLLPEKDTTCSVEGCDGESRTRNMCLKHYTRWYRNEKKKPSNESYYSKQYYSNKEEETCL				NA	NA	NA	NA	NA
AK009_03329	327			hypothetical protein	ATGAAACTATGTAGTGTAGATGGATGTAAAGTGAAACATAGGGCAAAGGGCTATTGTCCAAGACATTATAGACAAGCTAGAGCAGGAAAAGAAATTACATTGGAGTATATCAATCAAACTGGTAGGGTTTGTAGTCTAGATGGGCGTAACCGAAAGCATAGAGCAAAAGGGCTGTGCAAGTTACATTATGATAATGCAAGGTATACAATAAGACCCACTAAACCAATAAGGTTATGTACAATAGCAGGTTGCACAAAGAAACACCAAGCAAAAGGATTATGTTTGAATCATTACAATCAAGAACGGTATAGGAGAAAGAAGGTTTAG	MKLCSVDGCKVKHRAKGYCPRHYRQARAGKEITLEYINQTGRVCSLDGRNRKHRAKGLCKLHYDNARYTIRPTKPIRLCTIAGCTKKHQAKGLCLNHYNQERYRRKKV				NA	NA	NA	NA	NA
AK009_03330	354			hypothetical protein	ATGTCAGATAAGATGAGTAAGGAAGACTTAATAAAAAGGATTCAACAAAGTCCAAGCGGTAAAGTTTGGAATGAAGACGAAATCAAACAATTATTAATGACAAACCCAAAAGCAGTATATAGTGGGATTCTTGCAATATATAAGTTACAGACGGAAGAAGAGAAGAAGAGTCGAGAGACTCAAGTACAAAACGGTATGGGTTTTAATGCAAACGATAGTGTAATCATGTCTAGCTTTGCAGAACAGATTCTACAAGGCAAGATATTATCACAAAGACAATTCGCAGTAGCATCTAAACGTATTTTAAAGTATGTAAATCAGTTAACTGATATAGCAAACGAAGATTACTATTAA	MSDKMSKEDLIKRIQQSPSGKVWNEDEIKQLLMTNPKAVYSGILAIYKLQTEEEKKSRETQVQNGMGFNANDSVIMSSFAEQILQGKILSQRQFAVASKRILKYVNQLTDIANEDYY				NA	NA	NA	NA	NA
AK009_03331	1161			hypothetical protein	ATGGCATTTAAACTATCAAAAGAAGAAATGTATAAGTTATATGTAGAAGATGGCTTATCAGATAGACAGATAGCAGAATTAAAGGGTGTGAACACGTCTACAATCAGACGATTGCGAGTAAAGTATGAAATCGAAACAAGGGGTAGACATAATGTAGACCCTACACAAGTATTAAGTAAAACAGAATTAGAAAGATTGTATATAGAAGAATGTTTATCAGATAAAACAATTGGTAAACAAGTTGGTTTGAGTCATTCAACTGTTCATAGGTTGAGAGTAAAGTACGGTATCGAAAGAAGACCTGTAAAAAGAGCCTTTACAGAAGAAGAGTTAAAACAGCTATACATTAAAGAAGGTAAGACGGACGAACAGATTGCAAAATTAAGGGGTATTACGGCAGGAGCAGTAACGCATTTGAGGAAGGTATATGGGATTGAAGCAATAGAAAGGGCTGTAGTACCAAAAGAAATATTGATAGACTTATATGTAAAACAGAAAATGACAGATAAAGAAATAGCTGAACAATATAATTGTGCAGAAAAGACGGTCTGTAGTTTAAGGAAAAGATTTGGTATACAAGCAAACAGAAAAAGATGTTCCTTATCGAAAGAGCAAGTATATAACCTATATGTAGAAAAAGGTTTAAGTGATAATCAAATCGCAAACTTATATGGTACGTATTCCGCTACAATTTCTAGTTTGAGAGAGCGTTACGGTATTCAAACGAAAGAAGTCATAACAGACCATTCATTACCGTATGTATACAATATTTTAGTTCAATTGGGCTTCCAAGTTGAAAACATGAGACAACATACGCATATGTTATTTTATGATTTCTTATTAAACGGTAGAATTCGTATAGATGTAAGAACTTCAACCACTTTCTATAATAACAGTTTAAACTTCAAGTTATTAGATAAGGATAATTCAGGATACACGGAATCAGATGTAAGACTGAGAGTAGATAGTGGAAGAACAAAGAGAAATATAAGAAATACATGTGATTTCGTCATTTGTGTGGGGTATATAAAAGGAAAACCGCATTGTTGGGTAATACCTTCTAGAGATTTAAAGGAAGATTTACAGGGTATTACAATTAGACCGTATTCAAATAGAAGTAAATATAATTTCTATGCAGAAGCATGGAGTTTAATTAAGTAA	MAFKLSKEEMYKLYVEDGLSDRQIAELKGVNTSTIRRLRVKYEIETRGRHNVDPTQVLSKTELERLYIEECLSDKTIGKQVGLSHSTVHRLRVKYGIERRPVKRAFTEEELKQLYIKEGKTDEQIAKLRGITAGAVTHLRKVYGIEAIERAVVPKEILIDLYVKQKMTDKEIAEQYNCAEKTVCSLRKRFGIQANRKRCSLSKEQVYNLYVEKGLSDNQIANLYGTYSATISSLRERYGIQTKEVITDHSLPYVYNILVQLGFQVENMRQHTHMLFYDFLLNGRIRIDVRTSTTFYNNSLNFKLLDKDNSGYTESDVRLRVDSGRTKRNIRNTCDFVICVGYIKGKPHCWVIPSRDLKEDLQGITIRPYSNRSKYNFYAEAWSLIK				NA	NA	NA	NA	NA
AK009_03332	2298			hypothetical protein	ATGTCAGAAAGACTATGTAGTGTAGAAGGTTGTGTTGGAAAGCATCAAGCAAGGGGTTTATGTAGTAAACATTATACTGAATACAGAAGGTCATTACAGCCAAAGAAACCTAAATTTACAATACCAAAAGAAGAGTTAGTAAAGTTATATGTAGAAGATGGTTTGAATGATAAACAGATAGCAGAACTGAAAGGAACATACCCTTTAAAGGTTAGTAAGTTGAGAGAAAAGTACGGTATTGCAAAACGAACTTTAAAAGATGTAATACCAAAAGAAGAGTTATATGAACTCTATGTAATGAATGGGTTAACAGATATACAAATAGCAAAACTGAAAAATGTAGGAGATACTACAATATTTCGTTTAAGGAACGAGTATGGTATTGAGTCGAGTCATAGAAGCTATTTAACACAAGAGCAATTGTATCAGCTATATGTCGTAGATGGATTATATGACGAAGAAATAGCAAAATTAACAGGGTATCATAAAGACTCTATTAGCAAGTGGAGAAGAGACTACGGAATTAAAGCACACTCTAGAAAAGGTACAAAGAAAAAGGGTACAAAACGTAGAAGTATAATAGTAAAAGAACAACTATACCGACTGTATACAATAGATGGTTTAACAGATAAGCAAATTGCAGAACAAATAGGAATAACAAGTAGTCATGTATCTTACCTAAGAAAGAGTCGGGGTATCGAAACAAGACCTACAATTGTAGCGAAATCTATACCTTATGTAGAAAGCGTACTAACAAAACTAGGTTTCCAAGTAACAAACATAAGGGAAATAAAGTATAACGCTACTCACGATTTATTATTAAACGATAAAATCAGAATAGATGTTAGAACTACAGAGTCTCTACAAAGAAACAATACAGAACTTAAATTTAAGTTATTGGATTCAGATGATTCAAATTTGAAAACATCAGATATCCGATTTAGAGTTAGTAGTGGTCGCACAAAACGAGATTTACATCTTACATGTGAATATATCATATGTGTGGGGTATTTGAATGAAAAACCTCATTGTTGGGTTATACCTTCTAAGGATTTAAGAAAAGACTTACAAGGTATTTCAATCAGTCCTTACGCTGAAAACAGTAAATATGAGATTTACGCAGAAGCATGGAACTTGATAAAACCAGTTAAGAAAGAAATACTAACAAAGAAAGAGTTAGAAAGGCTATATGTAAAAGAAAATCTGTCAGATAGTAGAATAGCGAAACGAGTTGGAGTAAGTACAGCAACAATAGGAAATCTTAGAAGAGCATATGGTATTGAAGCAAAACGAGATATTCAAGAAATGTCTAAGCAAGAGTTAGAGAAACTATATGTAGAAGAGGGACTAACAGATAAAGAAATAGCAGAACGTAAGGGTACGTATCCTACTAAGATAAGAAGATTGAGAGAAAAGTATGGTATCGAAACAAAGTCTAGAGCTACAATTAGTAAAGAGGAATTAACTAAACTGTACGTAGATGAAGGAATGTCAGATAAAGAAATAGCAAAACAAAAAGATGTATCACTCGAAACTGTGTATCGTTTAAGAAGAGAATACGGTATCAAATCAAGACCTTCTGTACCAATACTAACAAAAGAACAATTGTACCAGTTATACGTTGTACAAAGATTATCGGATAGTAAGATAGGAGACATATATAAAGTATCGAAGAAAACAATTGCAAAGTTAAGAAAAGAGTATAATATCGAAACAAACCCTACGATTTCTCTTGTAACTAAAGAACAATTACATCATCTGTACGTAGAAAAGGAAATGAGCGATGGTCAGATAGGAAAATTGTTTGGGGTAACTAGAGAATCAATTTTAAAATACAGAAACAAGTATGGTATCGCTACAAGACTTACAATAGCAAACAAAGCAATCCAAGACGTAGGAAATCATTTAGTTCAATTGGGTTTTCACGTAGTCAATATAAGAGGGGTAGACTATGCTTCTTTTTATGATTTACTGTTGAATAATAGACTACGTATAGATATAAAAGCAACTGAATACGTAACAAAAGATGGATTCTTTAAGTTTAAATTACTGGATAAGGATGAATCAAACTATATAGGTAGTAATTCAAGACTCATTGTAGATAGCGGTAGAACCAAAAGAAACCTACACGATACATGTGATTTCGTTATTTGTGTGGGGTATTACAACAACAAACCTTACACATGGGTTATACCTTCAAAAGATTTAAGAAAAGACTTACAAGGTATAACAATAAACCCTAATCTAGAAAACAGTAGATACTTGAGATATTCGGAAGCTTGGCATTTATTAAGATAA	MSERLCSVEGCVGKHQARGLCSKHYTEYRRSLQPKKPKFTIPKEELVKLYVEDGLNDKQIAELKGTYPLKVSKLREKYGIAKRTLKDVIPKEELYELYVMNGLTDIQIAKLKNVGDTTIFRLRNEYGIESSHRSYLTQEQLYQLYVVDGLYDEEIAKLTGYHKDSISKWRRDYGIKAHSRKGTKKKGTKRRSIIVKEQLYRLYTIDGLTDKQIAEQIGITSSHVSYLRKSRGIETRPTIVAKSIPYVESVLTKLGFQVTNIREIKYNATHDLLLNDKIRIDVRTTESLQRNNTELKFKLLDSDDSNLKTSDIRFRVSSGRTKRDLHLTCEYIICVGYLNEKPHCWVIPSKDLRKDLQGISISPYAENSKYEIYAEAWNLIKPVKKEILTKKELERLYVKENLSDSRIAKRVGVSTATIGNLRRAYGIEAKRDIQEMSKQELEKLYVEEGLTDKEIAERKGTYPTKIRRLREKYGIETKSRATISKEELTKLYVDEGMSDKEIAKQKDVSLETVYRLRREYGIKSRPSVPILTKEQLYQLYVVQRLSDSKIGDIYKVSKKTIAKLRKEYNIETNPTISLVTKEQLHHLYVEKEMSDGQIGKLFGVTRESILKYRNKYGIATRLTIANKAIQDVGNHLVQLGFHVVNIRGVDYASFYDLLLNNRLRIDIKATEYVTKDGFFKFKLLDKDESNYIGSNSRLIVDSGRTKRNLHDTCDFVICVGYYNNKPYTWVIPSKDLRKDLQGITINPNLENSRYLRYSEAWHLLR				NA	NA	NA	NA	NA
AK009_03333	573			hypothetical protein	ATGGTAGCAGTTACAGAAAGCCAATTAAGAGATTTATATGAAGTACAAGGTAAGACTGATAAACAAATTGCAGGAGAGTATGGTGTAGATAGAACCCGTATCTCTCAATTACGTAAACAGTGGGGAATTACTACAAGACTTACTGTATTCGATAAAGGTGTAAAAGACGTAACAGATAAATTGGAGTCTTTAGGTTTTAAAGTAAAGAACGTGAAGAAAGATGATAAAACAGCTAACTACGATTTACTGTTAAATGACTTAATAAAGATAGAAGTAAGAACATCATCGGCTTTAGACAGAGGTAGACAGCATTTCAGATTACTGGAACAAGCTTCTACTGGGGTAGTCGAATCAGATATTCGTATCAAACTAAAGAATGGTCATTTCAGAAAGTTATTTAGACGAACATGTGATTACATTATCTTTGTGGGGTATGAAGAAGGAAACATTAATTATTGGGTGATGCGTTCAAGTACGGTTACAGATACGATTCAAAGCCTTGGACTTAATATTTCACCAATGGTAACGAGTAAGTTCGATGTATGTAGGGATGCATGGCATATCATCATATAA	MVAVTESQLRDLYEVQGKTDKQIAGEYGVDRTRISQLRKQWGITTRLTVFDKGVKDVTDKLESLGFKVKNVKKDDKTANYDLLLNDLIKIEVRTSSALDRGRQHFRLLEQASTGVVESDIRIKLKNGHFRKLFRRTCDYIIFVGYEEGNINYWVMRSSTVTDTIQSLGLNISPMVTSKFDVCRDAWHIII				NA	NA	NA	NA	NA
AK009_03334	606			hypothetical protein	ATGGATAAATTAACAGAAGACTTGTTAAGAGAGTTGTACATAGAGAAAGGTATGTCAGACCGAGAGATAGGAGACTTATACGGAGTTACAAGAGCCAATATATCTTATCATCGGAAGAAATGGGGTATTGAAGGAAAACCTTCTTTATCAAAGAAAGCTATTCAAGACGTACAAAATAAATTGGATTCTCTAGGGTTTGTAGTAGAAAACATGAAGAAAAAGAATACACATCATATATTTGATTTGTTAGTAGAAAATACAATAAGACTAGATATTCGGTCTACAGAAACATTACAAGAAGATACTTTTAGATTTAAGTTATTAGATAGTGATAATTCATGTTTACTAGAATCAGATAATAGACTTCAATTGAAAAATGGTCGAACTAAGAAGATTTTAAGAAACACATGTGATTTTGTAATACTTGTAGGCTACTTAAAAGGAGTAGCAAATTTTTGGGTAATTCCTTCACGAAACTTAAAAGATGATTTAAATGGTATCTCAATTAGACCTTATTCAGATTCCAGTAAGTATTTAGATTACAAAGATTCATGGGGTAGTATTCGTCAAACCATTAAGTTGCAAAGAGTGAATAGAGTAGGTTAA	MDKLTEDLLRELYIEKGMSDREIGDLYGVTRANISYHRKKWGIEGKPSLSKKAIQDVQNKLDSLGFVVENMKKKNTHHIFDLLVENTIRLDIRSTETLQEDTFRFKLLDSDNSCLLESDNRLQLKNGRTKKILRNTCDFVILVGYLKGVANFWVIPSRNLKDDLNGISIRPYSDSSKYLDYKDSWGSIRQTIKLQRVNRVG				NA	NA	NA	NA	NA
AK009_03335	2004			hypothetical protein	ATGAAAAAGTCAATTAAGAAGCAAGTAGTCGCACTAACAACTGGATTAGCAATTCTAGGGAGTATTCCTGTAAACGCATTAGCAGACCAAACAGACAAATTACAAGTAGCAACTGGGGAACATTTAAATCAAGGTACTAACCTTACAAACATCGAATTACAAACACCTGATGTGAAAATTAACGAAGCTGAAATTTCACCTAATGAAAAGGTTTTATTAGACGAATATAAGCACAAACATGATACATCGGCTGAAATGGAAAAGATGAAAGAAGCTAAAACGGGAGCAGTTGACCCTAACGAGGCAGTACAAAACGTAGAAAATGCATTTAAAGATGTAGACGGTAAAGGTGACGGTAGTTCTCGTGAAATGACACCTAAACGTCAAAAACGCTCTTTAGCATTTGCACCTACACAAACTACTAAACGTTATGGTACGTTAGCAGGAACTAAATTTGTAGAGTGGATTGTACCAGCAGGTAACATTGATATCCGCCCACAAAACCCTATGAAAGCACGTTACATTACAATTCATGAAACTGCAAACACTGAACGAGGTGCAAACGCAGAAGCACATGCTAAGTACCTATATAACCAAGCAACTCAAGGGACATTCCGTACTGCATCATGGCACTTTACAGTAGACGATAAACAAATCTATCAACACCTTCCAACTAATGAGAACGGATGGCACGCAGGAGATGGGAATGGACCCGGAAACCGTGAGTCTATTGGTATCGAAATCGCTGTAAACCAAGATGGAGACTATAATAAAGCATTAGAAAACGCTAAACGTCTAGCAGGTTACTTAATGAACAAAGAGGGTATCCCTGCAAGTAACATCGTAAAACATCAACATTGGTCAGGTAAGAAATGCCCAGACATCATGATTTCTCGTGGTAACTTTGCAGGATTCGTACAAGGTATTGAATGGTATGCAAGTCTAAACAATACTCTTGAAGGTATGACTGATACACAAGAAAATAACAATTCAAATGAAGTAAACCCTGCTGAACCAGTTATGGAACTAGTAGTAAAAGGTTACGGTATTAATATCCGTAGTGGAGCAGGAATCGAGAATGGGGTAGTTGGTAAAGCAAACAGCGGTGATAAATTCCGAGTATTAGCAGTTAAAAACGGTTGGTACAAAACAGAAAAAGGTTGGATTTTCTACGACCCAAGTTACATCAAAATTAACTACAATGTAGAAAACCCACTTCCAAAGCCTGAGGAAAAGCCAAAGCCTGAAGAAAAACCTGAGGTTAAACCTGAGCAACCAATAGATGATATTACTGGTGGATGGTTCGAACCACATATTCGTGAACTAAACAAACGTGGTATCATGGTTGGTGAAGGTAATGGGGTATTCGCACCTTATCGTGCAGTAACTCGTGCGGAATTTGCTAAGTTAATCTCTAACTCTTTACAACTTCCAAGTGGTAATGCAAACTTTAAAGATTTAGACCATGCACACCCAACATTACAAGATGGTATTAAACGTACAGCAAGTGCAGGAATCATTCAAGGTCGTGGAGACGGTATCTTTGACCCTAACTCTCCAATTACTCGTGAAGAGTCTGCAATTATGGTAGATAAAGCGTTACAATATAAAGGTATTGTTGGTGACTTAAACGGTATGCCATTCCGTGACAAACACCTTATTAACTACAAAGATGCAGTAAGTCGTCTATTCAGTTTAGGGGTAGTAAACGGTGTAGGTAACAATGAATTCAACCCACATGGTACAACAACTCGTGGTGAGTCAGCCGCATATCTAATGAAGATGTTAAACGTAATGGAAAACAATAAAGTTATCGGTGAATTAACAATTAACGATTTCGGTCTTGAAATTCATAAAGAAGCTACAAACGATAGTGGTTTAGTACGTAAAGCATTTAAAGGTGAAGTAATCAATGTACTTGCAGAGAAAGACGGTTGGTACAAAGTAGGAGCGAACGAGTGGATTCAAAACTCTCCTTCTAAAATGTCTTACCAAGCAAAATAA	MKKSIKKQVVALTTGLAILGSIPVNALADQTDKLQVATGEHLNQGTNLTNIELQTPDVKINEAEISPNEKVLLDEYKHKHDTSAEMEKMKEAKTGAVDPNEAVQNVENAFKDVDGKGDGSSREMTPKRQKRSLAFAPTQTTKRYGTLAGTKFVEWIVPAGNIDIRPQNPMKARYITIHETANTERGANAEAHAKYLYNQATQGTFRTASWHFTVDDKQIYQHLPTNENGWHAGDGNGPGNRESIGIEIAVNQDGDYNKALENAKRLAGYLMNKEGIPASNIVKHQHWSGKKCPDIMISRGNFAGFVQGIEWYASLNNTLEGMTDTQENNNSNEVNPAEPVMELVVKGYGINIRSGAGIENGVVGKANSGDKFRVLAVKNGWYKTEKGWIFYDPSYIKINYNVENPLPKPEEKPKPEEKPEVKPEQPIDDITGGWFEPHIRELNKRGIMVGEGNGVFAPYRAVTRAEFAKLISNSLQLPSGNANFKDLDHAHPTLQDGIKRTASAGIIQGRGDGIFDPNSPITREESAIMVDKALQYKGIVGDLNGMPFRDKHLINYKDAVSRLFSLGVVNGVGNNEFNPHGTTTRGESAAYLMKMLNVMENNKVIGELTINDFGLEIHKEATNDSGLVRKAFKGEVINVLAEKDGWYKVGANEWIQNSPSKMSYQAK	PGPT0019115_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_03336	2244			hypothetical protein	ATGGACTACGGTATCGAAAACAACATGAAGAAATCAGTTAAGAAACAAGCAGTCGCACTATCCACTACGCTTGCCGTTTTAGGTGGTATGCCAGTTGGAGCATTAGCAGAAGAAACAGTTAAAACTGAGGTAGACCAGTTACGAATTTCCGAAAGTGACCAAGTAGAGCAGAATAGTTTATATGGTTCTGAGTTGGAACTGGAAAATAAGAAAGAGGATGTTAAGAAAGAAGTTAAACAGGCAACAGCAGAAGTAAAAACAGAAGTTGCAAAAGAGGAAGTAAAAACAGAAGCTACTACTGAGAACAAAGCAGTAGAAGTAAAGAAAGAAGAAAAGGTTGAACCTGTTAATCAAGAGGAGGTAAAACAGCCAGTAAAAGAAGAGAAACAAGAAGTTAAGCAAGAAGTGAAACAACCTCAACAAAAGCAAGAAGTAAAAGAAGAGGTTAAGCCTGAGGTTAAGCCTGAGGTTAAACCAGAAATCAAGCAAGAAAACAAGGAAGTAAAACCAGAAGTTAAGCAAGAAGAAGTTACTCATGAAGAAGAAGGTCATGAGCATAAGACTGTAGAAGATGTGCAAAAAGCTAAAACTGGTGAAGTAACAGAGTTTGAAGCATTACAAAACATCCATAACGCTTTTAAAGGTGAAGACGGTAAAGGTGATGGAAGTTCTCGTGAAATCAAACCGAAACGTACTAAACGTTCATTAGCTTTCAGCGCACCTACTCAAACAACACAGAAAAAGGGTTCAATTGCAGGTATTCCTTTCACTGAATGGATTGTACCAGCAGGAAACTTAGATATTCGTCCACAAAACCCTATGAAAGCGAAATATATCACGATTCATGAAACAGCGAACACGGAGCGTGGAGCAAACGCTGAGAATCATGCGAAGTACCTTTACAATCAAGCAACTCAAGGTACTTTCAGAACAGCTTCATGGCATTTCACTGTAGACGATAAAGAAATCTACCAACACTTACCTACAAATGAAAACGGTTGGCACGCAGGAGACGGTCAAGGTTCAGGAAACATGGAATCTATTGGTATTGAGATTGCAGTTAACCAAGACGGTGATTACAATAAAGCAGTTGAAAACGCCCAAAAACTTGTTGCTCATTTAATGAAACAAGAAGGTATCAGTGGGGATAACTTACGTAGACACCAACAATGGAGTGGCAAGAAATGTCCTGACATTATGATTTCTCGTGGTAACTGGAATAACTTTGTTAATGGTGCAAAAGGATTTGCAGGTCAAGGGGTAGGTATTGATAAACCTCTTGAAGAAAAAGAAGAAACGGTAAATCCAAACGAACATAATCCCGCATCACCTAACATTAAGTTAACGGTTAATGGTTATGGGGTAAACGTTCGTAGTGGAGCAGGTCAAAACTATGGTGTTGTAGATAAGCTGAACAAAGGTCGTGAGTTCAAAGTATTATCTATTAAAGACGGTTGGTATGAAATTGAAAAAGGTAAATGGGTATTCTTTAACCCAAGTTGGATTAAATTGACTTACAATGCCTACGATAAACCAGTACAACCTGAGCAAAAACCGGAACAAAAGCCTGAACAGAAACCTGAGCAACCACAAGTACAACAAGGTAAGAAGATTGTTATAAACGGTCAAGGGGTACGCCTACGTAGTGGAGCAGGTACAAACCACGGTGTTGTAGGTAAAGCACAATATGGTCGTACTTACGATGTATTAGAAGAATCAAACGGTTGGGTAAAAACTTCTGATGGTTGGATTTACAACGATTCAAGTTATATCCGAACAATTAATAATGGCGGTGGAAACACGAACCAAGGTGGAAATACTGGTGGAAACCAAGTACAACAAACTGGTAAAAAGATTATCGTAAAAGGTAATGGCGTTCGTGTTCGTAGTGGAGCAGGTCAAAACCACGGAGTATTAGGCTATGTTTCATACGGTCAAGAGTTTACTGTAGAAGCGGAATCAAACGGATGGGTAAAAACTTCTAGAGGTTGGATTTATAATGATTCTAGTTATATTCAAACTGTAGGTCAAGGTGGAGGTAACTCTAACCAAGTACAAGCAGGTAAAAAGATTCAAGTAAACGGTAGCGGTGTTCGTATGCGTCATGGAGCAGGTTTAAACTATGGTGTTAGTGGGTACGCTTCTAAAGGTAAAACATATACTGTACATGCTGAGTCTAATGGTTGGGTGAAAGTAGACGGTGGTTGGATTTATAACGACTCTAGTTATATTCGTTCACTGTAA	MDYGIENNMKKSVKKQAVALSTTLAVLGGMPVGALAEETVKTEVDQLRISESDQVEQNSLYGSELELENKKEDVKKEVKQATAEVKTEVAKEEVKTEATTENKAVEVKKEEKVEPVNQEEVKQPVKEEKQEVKQEVKQPQQKQEVKEEVKPEVKPEVKPEIKQENKEVKPEVKQEEVTHEEEGHEHKTVEDVQKAKTGEVTEFEALQNIHNAFKGEDGKGDGSSREIKPKRTKRSLAFSAPTQTTQKKGSIAGIPFTEWIVPAGNLDIRPQNPMKAKYITIHETANTERGANAENHAKYLYNQATQGTFRTASWHFTVDDKEIYQHLPTNENGWHAGDGQGSGNMESIGIEIAVNQDGDYNKAVENAQKLVAHLMKQEGISGDNLRRHQQWSGKKCPDIMISRGNWNNFVNGAKGFAGQGVGIDKPLEEKEETVNPNEHNPASPNIKLTVNGYGVNVRSGAGQNYGVVDKLNKGREFKVLSIKDGWYEIEKGKWVFFNPSWIKLTYNAYDKPVQPEQKPEQKPEQKPEQPQVQQGKKIVINGQGVRLRSGAGTNHGVVGKAQYGRTYDVLEESNGWVKTSDGWIYNDSSYIRTINNGGGNTNQGGNTGGNQVQQTGKKIIVKGNGVRVRSGAGQNHGVLGYVSYGQEFTVEAESNGWVKTSRGWIYNDSSYIQTVGQGGGNSNQVQAGKKIQVNGSGVRMRHGAGLNYGVSGYASKGKTYTVHAESNGWVKVDGGWIYNDSSYIRSL	PGPT0019115_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_03337	417			hypothetical protein	GTGACGATTTGCAAGGAAGAAGGTTGCAATTCGAAACAACATGCAAAAGGGTTATGTAACACACATTATCAAAAGAGTAGACGAAATTCTTTACATACAAGTCGTGGCATATGTAGTGTAGACACTTGTAATCTACCGCACTATGCTAAGGGGTATTGTAATAAACATTATCAAAGCAGAAGAATGGCTAAGATAGTAGGAGACAAGCCACCGAAACCAAGAAAAGTTTGTAAAGTAGAAGGTTGCCAATTAGACCATAGAGTAAAGGGTTATTGTCGAAAGCACTACTATCAAGTTAAGAAACACGGTAGAGTATTAGATAAGGTACTAAAAGTAGACTACTGTATAATAGAGGGTTGTCACCGTGTAAGAGAAGCAAAGGGATATTGTCCGAAACATTATCAAAGAGTACATTAA	MTICKEEGCNSKQHAKGLCNTHYQKSRRNSLHTSRGICSVDTCNLPHYAKGYCNKHYQSRRMAKIVGDKPPKPRKVCKVEGCQLDHRVKGYCRKHYYQVKKHGRVLDKVLKVDYCIIEGCHRVREAKGYCPKHYQRVH				NA	NA	NA	NA	NA
AK009_03338	261			hypothetical protein	ATGTCAAAAGGTCAATGTGAAGTAGCAGGATGTAGTATTCCTGTACACTCAAAAGGGTATTGTAATAAACACTATCTTCAAATATGGAAACATAAGAAGTTAACACCTGAGTTAGAACGAATGAAGGTAACTGATTGTATTATACCGAATTGTGATGGTAAGGTGCGTTCGAAGGGGTATTGTAGTAAACATTATTATCACTTTGTTTTAAAAGAAAAAGAAAAGAAAAAGAAGTTAAAGTCTACAGGAACAGATAAGTAG	MSKGQCEVAGCSIPVHSKGYCNKHYLQIWKHKKLTPELERMKVTDCIIPNCDGKVRSKGYCSKHYYHFVLKEKEKKKKLKSTGTDK				NA	NA	NA	NA	NA
AK009_03339	351			hypothetical protein	TTGAGTACTTGTAAAGTAGAACATTGTGGTAGAAACACGAGAGCAAAAGGTTACTGTCACAAACACTATCAACAGTATTTAAGAACGGGAACAACATGGTTAGGTTATAGTGAGTTTCCTACTAAACAGTGTGAAGTACCAGACTGTGATGGTAGGCACTTCGCTAAGGGGTATTGTAATCGTCATTATCAACAATTTAAAGTACATGGAGAAGTTAAAACTGATTTGGAAGTACAACAAGAAAGAATTTGTTCCGTAGACGGTTGTTGCGGAAAGGTACTTGCAAAGAAAATGTGTGGTAAACATTACTATCAAGTAAGACGTAAAGGAAAAGTTGTACAATTAGCATAG	MSTCKVEHCGRNTRAKGYCHKHYQQYLRTGTTWLGYSEFPTKQCEVPDCDGRHFAKGYCNRHYQQFKVHGEVKTDLEVQQERICSVDGCCGKVLAKKMCGKHYYQVRRKGKVVQLA				NA	NA	NA	NA	NA
AK009_03340	1335			hypothetical protein	TTGTGTACAGAACAGTGTAAAACAGAAGGTTGTCAAGAAAAAGTAATAGCAGACGGATATTGTTATATACATTTTATGTCTGTAAGTAGTAAAACAAAAGATAAGAGTCAAAAGGCAAAAGAAACAATTATTGAAAACTATGCTATAACTTGTATGGAACAGGGTTGTGAGCAAATAAAGACCTACAAAGATAGATGTGATAAACATACTACTTTACACTATTTACAAGAAAAGGTTCAAATTTGTAAAATAAATGGATGTCTAAACGAAGTACACCAAGATGAGTTATGTAAGTATCATAGCAGACAGAAAGAAGTTTTAGGGTTTACAATCGAGACTGTACCTACCGTTAGACTTTGTAAGGAAGTAGGTTGTCTTCATGATGGGGTATACAGACAATATTGTAAAAAGCATTACATTGAGCATAAAAGAGAAGAAGATGTAGGGAAAGACTTATTCTGTAAAGAAGAACAATGTAGTGAAATAGCAGAAATAAAGGGGTATTGTTTAAATCACTATAAATCAGAAGGTAAACAAGTAAAAGGTAAGGATAAAACTCCAAAAGTAGTCGTAACGTTAGAAATGTCGAATAGGTGTGGGATAAAAGATTGTACAAAAGTTTTATTTGATGAAGATTTTTGTGAAAAACATGCTAACTTAATAAATTCGCAAGTGTCTGTAGATGAATCTTTCAACAATACAGGTTTTGACAAGAAATCTATACAGACTTGCATCGTAGATGGTTGTGTTCATTTGGAACATAAATTTGGGTTATGCGAATATCATTATAATGACATAAGTGAATTAGGAGACTTTAAATCAGACAAGGAAGTATTTGAAGACCGAAGATGTGCGGTAGAAGATTGTCGTTCAAAACGTACTAAGGTAATAAAAGACTCCTGTTTCTGTAAGTCACATTATGAAGAGTTCGTAAATAGAGAAAAGATAGCAAAGAAAATCAAGAAGAAAACTGAGAAACTATGTAATGTATTTGAGTGTAATGAGCCTAGAGATACAAGACTGTATTGTTCGTATCATGCGGAGCATATCAAAATGGGCTATGACTTTGAAATGAAAGACTGGTGTAGTCAAACAGGTTGTAAAGAAGAAGCAAACATGATGATAGGTAAGAAATACTACTGTAAGAAGCATGGAACTTGTAAGACAAGATATTGTAGAAATCCAGTTCATCAAAACGGACTATGTAAAGAGCATGTATTACAAAAGCAAGAAGAAAAACAGTGTAAAACCATGAATTGCGGTGAAAAAGCGTATAGAAAAGGATTATGTATCAATCATTATACGATAGCAAAGAACTTAGAAAGAGGGGTATAA	MCTEQCKTEGCQEKVIADGYCYIHFMSVSSKTKDKSQKAKETIIENYAITCMEQGCEQIKTYKDRCDKHTTLHYLQEKVQICKINGCLNEVHQDELCKYHSRQKEVLGFTIETVPTVRLCKEVGCLHDGVYRQYCKKHYIEHKREEDVGKDLFCKEEQCSEIAEIKGYCLNHYKSEGKQVKGKDKTPKVVVTLEMSNRCGIKDCTKVLFDEDFCEKHANLINSQVSVDESFNNTGFDKKSIQTCIVDGCVHLEHKFGLCEYHYNDISELGDFKSDKEVFEDRRCAVEDCRSKRTKVIKDSCFCKSHYEEFVNREKIAKKIKKKTEKLCNVFECNEPRDTRLYCSYHAEHIKMGYDFEMKDWCSQTGCKEEANMMIGKKYYCKKHGTCKTRYCRNPVHQNGLCKEHVLQKQEEKQCKTMNCGEKAYRKGLCINHYTIAKNLERGV				NA	NA	NA	NA	NA
AK009_03341	696			hypothetical protein	ATGAATCAAGTATCAGACCAGTTAGAAGTGGCAATTGTACAAGGTTTAGAGAAACATGTTCGTTCATTTATGAATAAAGGGGTAGTGGCTTTTACGCCTAGTACATTAGATGCGACTCTTTTACGTATGAAAGGTGAAGTTGAGCGTTTATTTCAGGATAAGTACGCTGTACTAGACTTAGTTGATGAAGCAATTGGTTTAAGTCAAAGAAACCGATATAATCAATACAACATGAGTCCATTAGAAATGGCAAAGTTCCATTTTATTAAAGAAGAACTAAAGTTTTCAGTAGCTTGGACAAGACAAGATATCCTAAACAGTATAGAAGAGTATCTGAATAAAGATAAAGAGTTGCCTAGAACTAAAGTAAACGTATTATCTCTATTAGCAAATGAAGATAATTTTGGTTCAAACGAAGAAATGGTGAAGTTTATTGATGGTCATGAACTGGACATCTTAAAAGACTTTACAAGACATATTTACCTTACAATGAATAAGGAAACTGGTGTCCGTGATTTACATTTTTACCATTATGTACCGGAAAACTACTTAAAGTTAGAAAATATCACATTACGATTAAAATATGTATTTCTTAACTTAGTAGATAGAAATAAAGAACTAGATTGGAATGAAATTGAGTCGTTATTAAATACTTCAAACTTAGAATTGGTACGTAAAATTAAAGGGTTAGCATAG	MNQVSDQLEVAIVQGLEKHVRSFMNKGVVAFTPSTLDATLLRMKGEVERLFQDKYAVLDLVDEAIGLSQRNRYNQYNMSPLEMAKFHFIKEELKFSVAWTRQDILNSIEEYLNKDKELPRTKVNVLSLLANEDNFGSNEEMVKFIDGHELDILKDFTRHIYLTMNKETGVRDLHFYHYVPENYLKLENITLRLKYVFLNLVDRNKELDWNEIESLLNTSNLELVRKIKGLA				NA	NA	NA	NA	NA
AK009_03342	606			hypothetical protein	ATGGAACAAATGATAAATAAGGTAGAACATTTTATTTATGAGATTAATCAGTTACATAAAGAAGTTTCACAAGATTACTTTGAAACTAATAAGGAAGAAAGATATAACTTATCAAAAACGATTACACATGTACCTGTAGACTATATTTTAGATTACAGATTAAATTTACATGAATGTATAAACGATTATCTGATGAGGGGTTTAAGTCCTTTATTCTTTGTCTACCGTGTTAAAACACATGAGAGTATTATGGATAAACTAGAAAGATATGCAAACCGAGAAAATAAGTACCCTGTAAATGGTTGGTTAAATGATATATTTGGTTGTAGATTAATAGTAGATACAGAAACAATGGAGTTAATTGAAAATACACTAGATAAGTGGAAAGAACAATTTAATCTGAAAAACTGGTATAAGAAAGACAAAGATGGATATAAAGCGATTCATGTTTATTTTAAGAATCAAAACAATGTATATTTTCCTTGGGAACTTCAAATATGGGATGAGAAGGATAAGAAACAAAACATACAAGCACATAGAAGTCAAAAGAGAAAGTTTATATTAAATAGAAAAACAATGATGGCACAATGGATTAGAGACTATTAA	MEQMINKVEHFIYEINQLHKEVSQDYFETNKEERYNLSKTITHVPVDYILDYRLNLHECINDYLMRGLSPLFFVYRVKTHESIMDKLERYANRENKYPVNGWLNDIFGCRLIVDTETMELIENTLDKWKEQFNLKNWYKKDKDGYKAIHVYFKNQNNVYFPWELQIWDEKDKKQNIQAHRSQKRKFILNRKTMMAQWIRDY				NA	NA	NA	NA	NA
AK009_03343	729			hypothetical protein	ATGGCAAAGAAGCATAAAGTTTGTACAGTACCAAACTGTAATTTGGTTTACTACGCAAGGGGTTGTTGTAGGAAACATTATAATCAGATTAAAGAATATGGTAGACTTACACCTGAGTTAGAAATAGTAGGAATAACGAGAAGATGTTCCGAGAGAAACTGTAATAATTTACATTATGCAATTGGTTTATGCGAGAAACATTATCATCAGAAACGCATATATGGTCAAGTTGTTAGTGAGGTAGAGGACAATGAACCTTGTGAAGTAAAAGACTGTCCTTTTCCAAGGAGAGCAAAGGGGTATTGTAGAAAGCACTACTCACAAATGTATAGAAACGGTGAAATCAATACCGAAGTAGAAAGAGATAGAGTTAAATTATGTATAGTAGATGGTTGTACAGGAAAACATAAATCACATGGTTATTGTTCAAAACACAATCATCAAATAAATAAGTATGGTAGAATTATAACAGACGAGGAAAAGAAGCAGTATAAGACTTGTCAGTTAGAAGGTTGTAGTAATACTCATGTAGTTGAGGGGTATTGTGGTACGCATTATAATGAAAAGAGACTAACTGGTAAAGTTACAATTCAAACAGATAAGGTGAGAAGAGAAGGTTGTAAGGTAGAGGGTTGTAAGAATAAGTATTATGCAAGAGGATTTTGTCGGAAACATAATACAGAAGATAAGAACAAAGGGGTAGTGGTATATGGAACAAATGATAAATAA	MAKKHKVCTVPNCNLVYYARGCCRKHYNQIKEYGRLTPELEIVGITRRCSERNCNNLHYAIGLCEKHYHQKRIYGQVVSEVEDNEPCEVKDCPFPRRAKGYCRKHYSQMYRNGEINTEVERDRVKLCIVDGCTGKHKSHGYCSKHNHQINKYGRIITDEEKKQYKTCQLEGCSNTHVVEGYCGTHYNEKRLTGKVTIQTDKVRREGCKVEGCKNKYYARGFCRKHNTEDKNKGVVVYGTNDK				NA	NA	NA	NA	NA
AK009_03344	240			hypothetical protein	ATGATTTGTAAGGAAATAGATTGTCATAGCAAAGTAAGAGCAAAGGGGTATTGTGCTAAACACTATACACAAATACAAAGGCATGGTAGAGTTACACCTGAGAAAGAAAAGCTTCAAAACGGTGGAATTTGTAAGATAGAAGGTTGTAATCAGAAACTAAGAAGTAGAGGTCTTTGTTCAAGTCATTACTACCAACACATGGGATTTTATCAGATGAAAAAGAATAAAGAGAACTCGTAG	MICKEIDCHSKVRAKGYCAKHYTQIQRHGRVTPEKEKLQNGGICKIEGCNQKLRSRGLCSSHYYQHMGFYQMKKNKENS				NA	NA	NA	NA	NA
AK009_03345	846			hypothetical protein	TTGTCATCCAAACAATGTAAAGTAGATAACTGTACAAATAAGGTATTAGCAAGAGAAATGTGTTCAAAACATTATACGCAATGGAGAAAACATGGTGAATTACGACCTGACTTAGAAAAGCAGAGACATGATATTTGTACAGAAGAAGGTTGTAACAGAAAGCACTACTGTAAGGGGTATTGTAACAAACATTATAAGCAATATAAATCACATGGTAGAACTACACCTGAACTAGAAAGAATCGGTAAAACTAAGATTTGCAAAGTTGATGATTGTAATAAGAAAACGTTAAGTAAAGGGTATTGTAGTAAACACTATTCTCAATTATATAAATATAATACATTAAGACCTGATATCGAAAGAGGTAAGATTAGATTATGTACGGTAGACGGGTGTGAGAATAAGTATAAAGCAAAAGGATATTGTACAGGTCATTATGTTCAGTTCAAGAAGTATGGTTACATTGTAAAACCAGTTAAGCAAGAAACAAGACTATGTAAAGCAGAAGGTTGTAATGAACCAATACGTGCGAGAGGTTGTTGTGATAAACACTATCAACAACTAAGAATACACGGTAGTTTGAAGTCTAAGTCAAAGAAACTATGTAGTGTAGAAGGTTGTACAAGCCCACATCAATCAAAAGGGTTCTGTAACAAACATTATAAACAAATAACTCGACATAATGAAATAATAGACTATAGATTACATAGAGGTTGTATGGTAGAAGGTTGTAACAATAAACACAAGGCGAGGGGACTTTGTAAGAAGCATTATCAAAGAGTAATGAACACATTAAACAAGGTACAAAATACATATAACATCAAAGTAGGGGTAGTAAACGAATGA	MSSKQCKVDNCTNKVLAREMCSKHYTQWRKHGELRPDLEKQRHDICTEEGCNRKHYCKGYCNKHYKQYKSHGRTTPELERIGKTKICKVDDCNKKTLSKGYCSKHYSQLYKYNTLRPDIERGKIRLCTVDGCENKYKAKGYCTGHYVQFKKYGYIVKPVKQETRLCKAEGCNEPIRARGCCDKHYQQLRIHGSLKSKSKKLCSVEGCTSPHQSKGFCNKHYKQITRHNEIIDYRLHRGCMVEGCNNKHKARGLCKKHYQRVMNTLNKVQNTYNIKVGVVNE				NA	NA	NA	NA	NA
AK009_03346	603		COG2184	Protein adenylyltransferase NmFic	ATGTTACAAAATAAATTAGGTATAACAGACCAAATTGAGTTAGCTAGGGAAGAGGAACGTATAAGTAAGTTAAAAGCAAAAACTTTATATGATAGTGGGAAAATAGATAAAATAGAAATTGGGACATTTAAAGGTTTATCAGACATTCATAGATGTCTGTTTGAAGATATTTATGATTTTGCAGGAGAACAAAGAAAAGTAAATATTTCAAAAGGTAACTTTAGATTTGCCCCTGTTATGTATTTAAGTGTAGCCTTAGACTATATAGATAAAATGCCTCAAACAACATATGATGAAATAATTGCAAAGTATGTAGAAATGAACGTTGCTCATCCTTTTAGAGAAGGTAATGGCAGAAGTATGCGTATTTGGTTAGATTTAATTTTAAAGAAAGAAATACAAAAGGTAGTAGATTGGAACTTAGTAGAGAAAGAAGCCTATTTGTCAGCAATGGAACGTAGTCCAGTCAACGATTTAGAAATTAGATATCTATTAAAACAAGCATTAACAGATGATATTCAGAATAGAGACGTATTCATGAAAGGTATTGACGTAAGTTATTACTATGAAGGGTATACTGAATACAATACAGACGAGTTATAA	MLQNKLGITDQIELAREEERISKLKAKTLYDSGKIDKIEIGTFKGLSDIHRCLFEDIYDFAGEQRKVNISKGNFRFAPVMYLSVALDYIDKMPQTTYDEIIAKYVEMNVAHPFREGNGRSMRIWLDLILKKEIQKVVDWNLVEKEAYLSAMERSPVNDLEIRYLLKQALTDDIQNRDVFMKGIDVSYYYEGYTEYNTDEL				NA	NA	NA	NA	NA
AK009_03347	906			hypothetical protein	ATGTGTACAGAAAACAAACAATGTAAAGCAAAGAATTGTCAGAAACGAGAATTAAGAGAAGGATTCTGTAAAGTACATTTAATTCAATTTCTAAATGGAGAAGAGATTGAAATCGGTACAAACGAATGTATTATTGAAGACTGTAATTTAGAAGCCGTAACAGCAGTTGGTTACTGTCATACACATAAGAACCAAGCATACAGATGGGGTAGAGCCTATTCAGAAAAAGAGTTAAAAGAGGTCAAACCACATCTATTCTGTAAGGAATCAGGTTGTATCAACAGAAGAAAAACTGGTGGTTATTGTGAAGAACATAAACATCTAGTAAAAGACGATAAGTTAAAGTGTAGTGAACCAAAATGTAAGCACAAAGTCTTTAAAGATGGAATTTGTAGACAACATTATATTGAGAAACTAGATTTTTCACAATTAAAAGGTGTTGTTACACCTTTTGACAAAGAAACAGTTCGAAACGATGATTGGTGTCGTATTAAAAATTGTAAAAATGATGCGAAATATGAAGGGTACTGTTTTTTACATGGTAGACTCATTTTAGACGGAGAGTTGGATGAGTACATGACAGACAATGGTTCAAAACTATGTACGGTATCAGACTGTGACGAGATTGTAAAAGGAAAAGGTTTATGCCATAGACATTATCAACAATTTAATAAATATGGTAAAGCTTTTACGAACGAAGAACACAAGAAGATTGTACCTCAGTTTTATTGTATTGAAGACGGTTGTTCAGAAAAGAGAGAACTCGTTCAGTATTGCGGGGTACATGCAGTAAAACATAAAAATGATACCGAAGCACAATGTTTCGAACCAAGATGTAGAGATAACATATTTAAAGACGGTAAATGTGCGATACATTACTATGATAGTCAAAGACGAGGTGAATAA	MCTENKQCKAKNCQKRELREGFCKVHLIQFLNGEEIEIGTNECIIEDCNLEAVTAVGYCHTHKNQAYRWGRAYSEKELKEVKPHLFCKESGCINRRKTGGYCEEHKHLVKDDKLKCSEPKCKHKVFKDGICRQHYIEKLDFSQLKGVVTPFDKETVRNDDWCRIKNCKNDAKYEGYCFLHGRLILDGELDEYMTDNGSKLCTVSDCDEIVKGKGLCHRHYQQFNKYGKAFTNEEHKKIVPQFYCIEDGCSEKRELVQYCGVHAVKHKNDTEAQCFEPRCRDNIFKDGKCAIHYYDSQRRGE				NA	NA	NA	NA	NA
AK009_03348	141			hypothetical protein	ATGAAAGAAAGAGAATTAGACTTCTATTCATTAATGGAAGGAAAGAAGCAACTAGCACAAGAAATGGCTAACTTGATGAAGAGTGGCTACACAGAGTCACAAGTTATTGATTTAGTTTTAAAAATGTATGGAAATCAATAA	MKERELDFYSLMEGKKQLAQEMANLMKSGYTESQVIDLVLKMYGNQ				NA	NA	NA	NA	NA
AK009_03349	345			hypothetical protein	ATGTGTCAGTCAAAACAATGTAAAGTAGAGGGATGCGAAAACAAGAAGAAAGCAAGAGGGTTATGCAACAAACATTATACAAGGTTTAGCAGATATGGTACACATAAACTATTACATGAAGTAGTGAGTGTGAAAGGGAAACCATGTGAAGTAAACGGGTGTAAAGAAACGCAAAAAGCAAAAGGGTTATGTAACTATCATTATTTTGAAGAATGGAAGAGAAAGAAAACAAAGGTCTGTTCTATAAACAAATGTTCTTCAAAGGAGTATACAAAAGGGTTATGTCAAAATCATTATATGCGTCAAAGAGACGAAAAGATAGAGAAACTAGAGAAACTGGGGTAA	MCQSKQCKVEGCENKKKARGLCNKHYTRFSRYGTHKLLHEVVSVKGKPCEVNGCKETQKAKGLCNYHYFEEWKRKKTKVCSINKCSSKEYTKGLCQNHYMRQRDEKIEKLEKLG				NA	NA	NA	NA	NA
AK009_03350	504			hypothetical protein	ATGAAACTATGTAAAGAAGAAACTTGTTCAAATAGGCATTATAGTAAAGGTTATTGTAGAAAACATTATATGAAATTTGAATATGGAAAGAAACCTTGTAAAATAAAAGGGTGTCCAAACAAGGTACATGCAAAAGGGTATTGTGACTCACATTATAAAGAACTTATCTATTTGAAAGGTAAAACTTGCAAGATAGAAGGATGCAACAAACCGTATCATGGGAAAGGTTTTTGTACCAATCATTACTATGAGTATAGAGTACATAGTAGTAAAGAAAAAGAAGTTAGACTTTGTAGTATAGAAGGTTGTACAGATAAGCATTACGGGAAGGGGTATTGCTCTAAACACTATCGAATGAATCGAAAGACTGGTAGTCCAATTAGTCCTTCTGAGAAAATACGAAACCAAGGTTGTTCTATAGAAGGGTGTGATAATGAACATAGAGCAAAAGGGTATTGTTCGAAACATTATCAGTATTACCACAAGAAGGGTTTAATTCAGTAG	MKLCKEETCSNRHYSKGYCRKHYMKFEYGKKPCKIKGCPNKVHAKGYCDSHYKELIYLKGKTCKIEGCNKPYHGKGFCTNHYYEYRVHSSKEKEVRLCSIEGCTDKHYGKGYCSKHYRMNRKTGSPISPSEKIRNQGCSIEGCDNEHRAKGYCSKHYQYYHKKGLIQ				NA	NA	NA	NA	NA
AK009_03351	1281			hypothetical protein	ATGTGTAAATCAAACGAGTGTAAAGTTATTAGTTGTAAAGGTAGAGTAGTAAATAAAGAATATTGTCGTAAACATTTAAAGGCATTACTAGACGGTACATTAGAGTGCAAAGTTTCAGATTGTAATAGAGAAATGTTATATGATGGATATTGTGGCAAACATCATATGCAATGGAGAAGGTATGATAGAGTCTTTACAGATTTAGAATTTAAAGAGATAAAACCAAATTTATTTTGTAAAGTAGACGGATGTTTAAGCAAACGCAACTCAGGAGGATATTGCGAAGAGCATGGGTATGTTAAATTAGATGAGAAATTTAAGGATAAATGTAAAGAAAAGGGATGTTCAAGTAAGTCTGTTGAAGGAGACTTATGTATTGAGCATTATATAGAAAAGAAAAAGTTAAACTTAAAAGATACAGTAACTCCTTATGATAAAGGAGAAGACCGTACAGGAACAATGTGTAAAATTGTGTATTGTTGTAATGGACAGGAGATAGATGGTTACTGTGGAAAACATGCTATTCTTATTAGTCTAGGTAAACTTGAAGAGGAAATGTCAAGACGAGGGACAGTGAAATGCAAAGTAGATGGTTGTGAATCGTGGGTTAAAAATGGAACTCTTTGTCCTATGCATAAAGCACATATGAAGAGATATGGTAGAGTATTAACAAAAGAAGAACATAAGCAGAAAACACCTAAGGCATATTGTAGAGCAGAAGGTTGTTATGTAAGAGAACCTAAAGGTCGTTATTGTGAAGACCATCAAGATATTGGAATGAAAGAATTAAAGACTTCAAAAATAAAAGATAATCTTTGTCTTCATGAAAACTGTAAAAGAAAAGTATTTATTAATAATATATGTACAACTCATTATATAAAAGACGAGGGTGAAATCAGCTTAAACGGAGTATCAACTCCTTATGATAAAGGAGAAGACCGTACAGGAACAATGTGTAAAATTGTGTATTGTTGTAATGGACAGGAGATAGATGGTTACTGTACAAAGCACGCGATTTTAATCCATGCAAATAAGTTAGAGTCTGAAATGAAACGAATTGGAAGAGTAAAGTGTAAAATAGACGATTGTATACAATGGTCTAAAACGGACGGTTTATGTGCTAGACACAAAAACCAAGAAAGGAGATATGGTAAAGCTCTAACAGACAAAGAGTTTAAAGAAAAGAAACCTCATTTATTTTGTAATATAGATGGTTGTTTAAACCGTAAGGCAGAAGGTAAATATTGTGAAGAACATCATCAACTAACAAAAATAAACTGA	MCKSNECKVISCKGRVVNKEYCRKHLKALLDGTLECKVSDCNREMLYDGYCGKHHMQWRRYDRVFTDLEFKEIKPNLFCKVDGCLSKRNSGGYCEEHGYVKLDEKFKDKCKEKGCSSKSVEGDLCIEHYIEKKKLNLKDTVTPYDKGEDRTGTMCKIVYCCNGQEIDGYCGKHAILISLGKLEEEMSRRGTVKCKVDGCESWVKNGTLCPMHKAHMKRYGRVLTKEEHKQKTPKAYCRAEGCYVREPKGRYCEDHQDIGMKELKTSKIKDNLCLHENCKRKVFINNICTTHYIKDEGEISLNGVSTPYDKGEDRTGTMCKIVYCCNGQEIDGYCTKHAILIHANKLESEMKRIGRVKCKIDDCIQWSKTDGLCARHKNQERRYGKALTDKEFKEKKPHLFCNIDGCLNRKAEGKYCEEHHQLTKIN				NA	NA	NA	NA	NA
AK009_03352	756			hypothetical protein	ATGGCAACAATTTCGAGTAATAGTAACCAAGTAGAAGTACCTGTAGCAAAAGAAGAGAAATTACAAATTGTTAGGAAGTATAATAGTTCTATACGGTACACAGACAAGTTAGATAATACAATAACCGCTACTGTTTATCGAGTATATAATGATGTTTCCTATCAAGACAAGAAAAGATTAAAAGACCTTGATATTACACAATTACATGGGTTTGTAAAAGATAGTATGCATCAAGTATTAGTAGACGAAGAAAGTATTCTCAATACAATACTACGTGCAAAACAGTTAGACAAGCTAGGTAAATTGAATGTACAGGAGTTAAAACTGAAAACTTTCATCAAGTACAAGGCTCTCATAGATTATTTAGGGGTAGACTTGAGTCTGTCTCAGATAGAGTTAAAAACAATTGTCAAACGGATTGTTAGTTTAGATAATTACTATGTTGGGAATGTAAGACCTACATCTATGATTCTATTAGATGATGAGAATTTTGGTTCTGTAGAAAGTCTAGTAAACTATTTAAAAGATTTTGCATCAAAATCAGTATCATCAGACCATATATTACTAATGGAAAATCCGTTTAGTAAGGTAAGAGAACCTTATGTAGAATCTCAAGCACCTTATGGTTGGGTTAAACTAGAAGATATTACAATGAAGATTATAAAGATATTCCAAGTAACGGAATTAACTTACAAAGACCTTGATGTAGAGTTATTTCTAGGTTACATTGATGGGGTATTATCGTTAGAAAGTTAA	MATISSNSNQVEVPVAKEEKLQIVRKYNSSIRYTDKLDNTITATVYRVYNDVSYQDKKRLKDLDITQLHGFVKDSMHQVLVDEESILNTILRAKQLDKLGKLNVQELKLKTFIKYKALIDYLGVDLSLSQIELKTIVKRIVSLDNYYVGNVRPTSMILLDDENFGSVESLVNYLKDFASKSVSSDHILLMENPFSKVREPYVESQAPYGWVKLEDITMKIIKIFQVTELTYKDLDVELFLGYIDGVLSLES				NA	NA	NA	NA	NA
AK009_03353	1179			hypothetical protein	ATGACAGTAAACAGTAATTTTACAATTGAAGACAGTTATTTGGGGTATGAGAAAACGTTACCATCAAAGTTAAAAGTAGGTCAAGCAGTAAAACAACTAGATAAGAAAATCAGAATTGACGGAGTAGTAATGAAACAAAAGATGTTTATCCTTACTTTACTTCAAAAAGGATTTAAACCTAAATTTGTAGAGAATTACACATATGTAATGAAGAACGGTGAATACTCCAAACCAAAAGATTCCTATCAAATGGAACATGAAGATTTATCATTCTACGAAATCAATAAAACACTATTTGACTATGCAAACTACTTAGTAGATAATGCATTAATCAGTCCAACAATCGCAGAGGGGTATATTGAGACGGAACGTGCAGAAGTACAATTAGGTATTGAAAGAGAAAAACATGAAGAAGAACAGAAGAAAAAGGAAGAAGACCTTGCTAAAGAAAAAGAGAAACAAGAATTAGAAGAACGTAAGAAATTACGTTACAGTAAAGGTTTGAAAATATATTCTAGGAAAGCAGATTCAATTGTACGAAACGAGGTAACTCGTGTCATGAAATTCTTTGCAGACGAGGGGTATATTAACGATGATGCGTTAGCAAAAACTGAATATGTATATCAAAACGTGAAGAATAGAGTGGTTTCTACATTAGCAGATTGGAGCAGTATTTTATCCGCTTTAGAACATGCTATTGAAAGACATAGGTCAGGAAAATTTAACCTTGACTATATAGATACTAACGTGTATATGATGTATAAAGTATTAGTAAAACTAATAGACGTAGATTTAGATGGAACAGACCGTGACTTACGTAATAAAGTAAAACTATTTATTACAAAACCGAATATCGTTACAAAAGGAAATCGTCCTTTGTCTGAGATTTTAATAGATGAAAACAACCTTGGAAGTAAAGAGAAACTACTAGAATTAGCTTCTCAAATGACAATATCTGATTTAAACACAAGTGGTCATATCTATTTAACATATCATAGAGAAACTGGTGAGTCTGATATTTACGGTGAAAGTGATATACCATCAACTCATGTGAAAGTAGAAGACGTATCCGTTAAATTACAACATGTATTCCATAGAATGCCTGATGTGAGTAAAGCAAAACCTGATTGGAATTTAATATTCTACTATTTAGATAGTAACTTAGAGGATGTTCAATAA	MTVNSNFTIEDSYLGYEKTLPSKLKVGQAVKQLDKKIRIDGVVMKQKMFILTLLQKGFKPKFVENYTYVMKNGEYSKPKDSYQMEHEDLSFYEINKTLFDYANYLVDNALISPTIAEGYIETERAEVQLGIEREKHEEEQKKKEEDLAKEKEKQELEERKKLRYSKGLKIYSRKADSIVRNEVTRVMKFFADEGYINDDALAKTEYVYQNVKNRVVSTLADWSSILSALEHAIERHRSGKFNLDYIDTNVYMMYKVLVKLIDVDLDGTDRDLRNKVKLFITKPNIVTKGNRPLSEILIDENNLGSKEKLLELASQMTISDLNTSGHIYLTYHRETGESDIYGESDIPSTHVKVEDVSVKLQHVFHRMPDVSKAKPDWNLIFYYLDSNLEDVQ				NA	NA	NA	NA	NA
AK009_03354	966			hypothetical protein	ATGTTAGTATCTGAAATGAAACACACAGAGGGGTATCAGTTCAATGAATTGACTTTAGCTTTAGTTCCAAACAACTGTTTCTCATGTGGTTCACCTTTAAAAATCAACCCTGTATTAACACATCTAACTTGTAGTAATCCTAGATGTATTGATAAGATTACGTTACGAACAGTAGCGATGTTTACTCAATTAGGGGTAGTTGATATTGGAGAACCTACAATCAAGAAACTGATTCGAATTTTTGGTATTGATTGTCCGTTAATCTTTTTCTGTTATGAACCGTCAGATTGGCAGTCAGTTTCCTATGAAAATTACAATGAGTCATTAAAGCGTAAGATAGACGATGTATACGGTCAGTTAGCAAATAAGCGTGATATGACTTTAACACAATTTATTCAAATTGCAAACCTACCTAACGTACAGACAAGTGCTGATAAACTGTTTGAAGATATCAATACTTTAGATGAGTTTTATGAGCAACTAGAATCAGGTGGGGTAGCATATATTCAGAAGAAGTTAGGGATTCAAAGAGAAAACTCTTTAAAGAGCTATAAACTGTATGAAACATTTTTAGAGTATAAGAAAGATTTGCAATCCGTGTTAAGTACAGGCTTCATTAATATCATTGCAGACACAAGAGCAGATATTAGAATTAAAGCAGTATGCACAGACGAGGTAGGCGCACCGTTCAGAAAGAAAGCAGAGTTCTACACGTACATGGATGAGAACTTTGGTGATAAAATTTATATAGACTGGGGTAAATCAGCAACAAAATCAATGGATGTATTAATTTGGGCAGGGGCAGATGGAACACCTGCAAGATATACAAACAAGGTTCAGAAAGCAGAGAACTGGAATGAGCAAGGAGAAGGGATTCCAATTCTTACAGCGAATCAGTTCATTGAAATCGTACAAGGAAGTGCAAACGGTCAATCTGTATTAGATACGCTAGAGAGTTTAGGTTAA	MLVSEMKHTEGYQFNELTLALVPNNCFSCGSPLKINPVLTHLTCSNPRCIDKITLRTVAMFTQLGVVDIGEPTIKKLIRIFGIDCPLIFFCYEPSDWQSVSYENYNESLKRKIDDVYGQLANKRDMTLTQFIQIANLPNVQTSADKLFEDINTLDEFYEQLESGGVAYIQKKLGIQRENSLKSYKLYETFLEYKKDLQSVLSTGFINIIADTRADIRIKAVCTDEVGAPFRKKAEFYTYMDENFGDKIYIDWGKSATKSMDVLIWAGADGTPARYTNKVQKAENWNEQGEGIPILTANQFIEIVQGSANGQSVLDTLESLG				NA	NA	NA	NA	NA
AK009_03355	621			hypothetical protein	ATGCTAACAACAAGGGAAGACCTGTTAAACGAGTTAAGAAAGCTGAATGCAGAAAATAAAGTATTACTATTCGTAGCAGGGATAAAACCCGCATTAACAAGTACAAGATGGAGTTCTGTAAGGGAACTTCTAGAAGCAAACTTTCCTTTTATTCCTTTAAAGCAGAAAAGAACAGGTAAAATTAATATGAACTTGTATTTTCAAACTGAGGAACAAAAAGAAAGATTCGTGAGAGAGTGTACAGATGATGGAAGATTTACATGTCATATCAAACTAGGTTTAGAGTTAGGTTTTCCACCTTTCGCTTGTGAAGTAGTAGGTAAGAATATAAACCTAAAAGATGATGTACATGAGAAGTATAAGGACTATGGCGAACATTGGCTTGCTCATAATGATTCTGTTCTAAACCAAGAGTTAGAAGAACGAGGTTATATAAAAGACACGATTGGAATCAATTATCACGGTGTACAATTTGGAATGGAAAGAGGAACAGCAAAAGAAACCTATGAGTGGTTACTGGAAAACATGCCAGTTCCTTCTAACCTACAAACAGTTGTAATCGTAAAGGATAACTTTACATTTAAAAAGATAGAGCAGTATATACAAGAAAACGAGGTGTAG	MLTTREDLLNELRKLNAENKVLLFVAGIKPALTSTRWSSVRELLEANFPFIPLKQKRTGKINMNLYFQTEEQKERFVRECTDDGRFTCHIKLGLELGFPPFACEVVGKNINLKDDVHEKYKDYGEHWLAHNDSVLNQELEERGYIKDTIGINYHGVQFGMERGTAKETYEWLLENMPVPSNLQTVVIVKDNFTFKKIEQYIQENEV				NA	NA	NA	NA	NA
AK009_03356	633			hypothetical protein	ATGGATTTAACACAAGCGAAAGAACGAGTACGTTCAGATATTCATAATGGAAATTTAGTGTCAGAACTAGAAAATCATGAGTCACAACAAGAGATTCAATTATTTTTAGAAGGTGTAAAACCAGCATTACTACTTAGAAACAAAGGTCAAATTGTAGAGAGTTTAGTAACTCATTTCCCTTCGGTATCCTTTCCACACCGATTCGGTCAAGTGTTAATCTTCCAAAACGGGGAAGACTTAAAGCAATTCATTTTAAACGGAACATTCATTAGAGTAGAAAAGCCGATTCTAGACTACAAAACAAGTGAACTCGGTTCAGTTTTAGGGTATCCTCCAAACGCTTGTGAAGTGTTTAAGTTAAATGGGTTAAAAGAGAACATTGCAAAATCAACAGGTAAAGACCCAATAGATATGATTGAATTATATCCAGTAGACTATCATGGTATCAAGTTCTTTACAAGTTTAGACCACTTTGAAGAAGATATTGAGTGGTTACTCGCAAAAAGACCAGTACCAACTCATTTAGAAACGGTTATTACAATCGAATTAGATAAACCAAACGGTAAGCGTTTAGTTGTAAAGTATGAAGACTTCGATTTACATTATGCGAAAGAGTTAGAGCAATCATGCTAA	MDLTQAKERVRSDIHNGNLVSELENHESQQEIQLFLEGVKPALLLRNKGQIVESLVTHFPSVSFPHRFGQVLIFQNGEDLKQFILNGTFIRVEKPILDYKTSELGSVLGYPPNACEVFKLNGLKENIAKSTGKDPIDMIELYPVDYHGIKFFTSLDHFEEDIEWLLAKRPVPTHLETVITIELDKPNGKRLVVKYEDFDLHYAKELEQSC				NA	NA	NA	NA	NA
AK009_03357	789			hypothetical protein	ATGAAAGTGATAACGGAAGAGGTAATGGGTACATACCTATCAAACTTTAATAACGATTTCAGACGAGTAAGGTTAGAGTTACAAATATCAGAATATGAAAAATCAGATTATATTCCAATAGAAAGACTTCTTTATATTTCAGGAGACTATGGGTTAAGTCTTGTAAGATTACATTTAGAGAAGAGTTTATCTTTCAAAGATATGGGAGCAAAACTAGGGTTACAAAGTAAACTATTGGAGAAGTATTGTAAAGAGAAGTTCAGTGATTCTGTTCTACAAGCACATAAACAGAGAGTAGAAAAGAAAGAACTAGAAGAGTTAAGCAAAAAGGTTGGAAGAAGTCGGACATTGAAATCCAATGAAATACCGCTTCATTTTGATTCGAATGTAAGAACAAGAAGACCGAATACAGTAATTAAGAGTTTAGACGAGGTAAGGGAAGTTGTAAAACCGCTTCTAAGTTATGGAATTACAGTGACAGGTATTTGTCGTAATTTTGGTATTGTAGAGTGTGATAAGGCAAAACTGAAAATACCAAAACCAAAAATAGATGTAGAGTTAGCAGACAAGATATGGTCAAGTCTGTATAAACAAGTATATAATGACCCTTATTTCTTATATGAGACGTTGGATAGATACAATAAGTTTTCATTATCGGAAGAGGTAAGAAAGCATTTACACTACTGTATTAAAGACCGAAACAAGAATATCAATCTTTATGTAAGGGGTAAGACGGTAGTAAGAAGTAAGAATAAACGATTAATGGATAAGAAACCAGTAATTGTATAA	MKVITEEVMGTYLSNFNNDFRRVRLELQISEYEKSDYIPIERLLYISGDYGLSLVRLHLEKSLSFKDMGAKLGLQSKLLEKYCKEKFSDSVLQAHKQRVEKKELEELSKKVGRSRTLKSNEIPLHFDSNVRTRRPNTVIKSLDEVREVVKPLLSYGITVTGICRNFGIVECDKAKLKIPKPKIDVELADKIWSSLYKQVYNDPYFLYETLDRYNKFSLSEEVRKHLHYCIKDRNKNINLYVRGKTVVRSKNKRLMDKKPVIV				NA	NA	NA	NA	NA
AK009_03358	153			hypothetical protein	ATGGAAGTAGTAGACGGGGTAAACCAAGAAAAAGTAGAACTACACTATGCAGAGGATGGAGACTTCTTTAAAGGGGTATATTATGCTTCAATTATCTCTATTCATTTTTATGCATTAGTATTTGGGTTAATTAGATTATGTTTTTATAACTAG	MEVVDGVNQEKVELHYAEDGDFFKGVYYASIISIHFYALVFGLIRLCFYN				NA	NA	NA	NA	NA
AK009_03359	1314			hypothetical protein	TTGAAACGGATGAAAAATCAAATGAACTTACTAGTAAAGGTACTGTTAGTTGTTCCAATTGCGTTTCTATTCTTTTTCAGCAATATGACGAACGAAACAATTGTATCAGCAAATAATGGTGATTATAAGACTTGGAAACAATACGAAGGAGACTGGGCTGATAGGCTTTATGTATCTAAATATGGTCAATACAAGTTCGGAGACCATGTAGGTATGGCAAACAAGAGTAAAGGTATGGGAACAATGGCAGACTGGGGTTGTTACTTAACCGCAATGGCAATTCAAATTGGTAAGTCTGGAACCGGACCTGCCGATAACGACCCTTGGAAGTTTGCTGAACATATGCATAAAGGCGGTTATATGTTAGCAGGGAACGATTCTTTAGTACAAAACGAGAAAGATGGAGTAAACACGTATACAGGTGGTAAGTTTCGAGCGCACGAGCCATTCAGACAAGATGTAGGCGGTAAGTCTAAGGAGCAGAAAATTGCAGCCATTAAAGCAGTATTAGACGCAGGTGGTTATCCAATCGTTCGTGTAGGGCTAAACGGTGGTACTCACTTCGTAGCAGTAGATAGAATCGAGGGAGACAAAGTTGTTCTTATGGACCCAGGTTCATCTAAAGACGACTTATTTGCAAAATATGGTTCTACAGTCAATCAGGTTCGTTTCTTTGAATCAGACACACCGTCAACAAATGCAAACGGTAATGGTACAGGTGGTGGAGCACAACAACCAACTGGAGAAGGTGGCGCACAACCACAACAACCTACAAAAGAACAGCAAGAAAAGATTAATATTGCAAGAATGGAATGGGATGAAGGTAAAATTAAAGGTCTTCCAAAACCTCGTAACTGGGAAGAAGACCCTGTACAAATCGCGCATTTAAGTGAGTTAGATACAATCCAACATCAATCTTTAGAAAAGTGGAAGAAAGAAGTTAAACAAGAAGAAAAGATAGACATGGTTAAATATGCTAGAACTGGGTTAATGTTAATTGGTATCTTACTGTTAGTCTTTAGTTTAATTTATTTAGTAGCTTATATGTTTGATAGAGTTTCCATGTTTGAATTCAAGTTATTTGAATGGTTAACATTAGGTAAACTTACACCATCAGCTACAGGAGATAGTACTTTCCTTAGAAACAAAGAACAGCAGTACGGACCGAAGTTAGTAAACTTACGAGATTTCCTTATCGTTGAGTTTTTATTAATTGGACTGTCTATGTTACTGTTAAGCGGAAGTATCTTCTACGTCATTGAAGTAATTATAGACTTCTTTAGAGCCATGACAAATTATATTTCAAATCTCTAA	MKRMKNQMNLLVKVLLVVPIAFLFFFSNMTNETIVSANNGDYKTWKQYEGDWADRLYVSKYGQYKFGDHVGMANKSKGMGTMADWGCYLTAMAIQIGKSGTGPADNDPWKFAEHMHKGGYMLAGNDSLVQNEKDGVNTYTGGKFRAHEPFRQDVGGKSKEQKIAAIKAVLDAGGYPIVRVGLNGGTHFVAVDRIEGDKVVLMDPGSSKDDLFAKYGSTVNQVRFFESDTPSTNANGNGTGGGAQQPTGEGGAQPQQPTKEQQEKINIARMEWDEGKIKGLPKPRNWEEDPVQIAHLSELDTIQHQSLEKWKKEVKQEEKIDMVKYARTGLMLIGILLLVFSLIYLVAYMFDRVSMFEFKLFEWLTLGKLTPSATGDSTFLRNKEQQYGPKLVNLRDFLIVEFLLIGLSMLLLSGSIFYVIEVIIDFFRAMTNYISNL				NA	NA	NA	NA	NA
AK009_03360	531			hypothetical protein	ATGGATAAAGAAATGACTAGAACTGATAAGGTTGTAGCTTTAAGTATGGTTTCTATAGCTTTTCTTTATATGTCTTTTAACCTGTATCTTAGTTTACAAGATAATCAGACTGGTAATGTTATCATGAGTATAGCTATACTAGGTATTATGATTCTACCTATCCTAATCAGACGTAAGAAACTAAGTCCTGCATTTGCTTTATTAGTTATCGTTATGGTTGCAGTATCCTTGATATTAACAATAAACATCCATCAACAAAAAGAAATAAACTTTGTAAAACGAGGAACACCCATTGAGGTAACGGTAGTAGACAAGATGGAGAGACAGCGTGATGCTTCTATTAGATACTATGTATATGTAGATGCAAACGGAAAGAAAGTTCAATCTGAAATACGAGATAGACAAACATTTAAGAAGATACAAGAAGGTAATAAGATTCAAGCTATTGAGTACAGAGGTGAAGTAAAACTAGAAGTAGAAATAGCAGAAGAGTATGAGAGAAGTCAGACTATGTTTAAAAGAAATAAGTAA	MDKEMTRTDKVVALSMVSIAFLYMSFNLYLSLQDNQTGNVIMSIAILGIMILPILIRRKKLSPAFALLVIVMVAVSLILTINIHQQKEINFVKRGTPIEVTVVDKMERQRDASIRYYVYVDANGKKVQSEIRDRQTFKKIQEGNKIQAIEYRGEVKLEVEIAEEYERSQTMFKRNK				NA	NA	NA	NA	NA
AK009_03361	288			hypothetical protein	ATGAGAAAAGGATTACTAATCGCATTCATTGTACTTATAGGGGTAGTTGGATTTGGCGGTTATAAGTACAAAACATTAGATAAGACAGCATTTGCAGAAGGTAATAAGATTCTAGCAGAAGTAACATATGTCTCTGAAAAAGAAGACCAAAAGGTACAATTAGAAGTTGGTGGAGAACAGATTGAAGTAAAAATGAACAAGGAAAAGATTAAGTCAATAAAAGTAGGAGACAGGGTAGAAGCAGTAAAATATGGTGATTCTTACCGTATAGACCCTGAGTATAGATAG	MRKGLLIAFIVLIGVVGFGGYKYKTLDKTAFAEGNKILAEVTYVSEKEDQKVQLEVGGEQIEVKMNKEKIKSIKVGDRVEAVKYGDSYRIDPEYR				NA	NA	NA	NA	NA
AK009_03362	318			hypothetical protein	GTGAAGATAAAAACATTATTACCTCTAGTGGTAGTTATTGTAGCAATAGTTTTTCTTGTAAACCTAAATTTAAAGAACTTCAATGAAATTGTACCTAAACAAGAAGGTAAGCCTGTAACAGCAGAAGTAATAGATAAGAAATACAGAGTAGACACAAAAGTAGGTAAGGTTCATGAAGTAACTTTAAAGGTAGGAGAGAAGACTTACAATACACTTATTAAAGAAGAGTTGTATTCTAAAGTCGATAATGGTACACGGCTAGAAGTGTTACAGTATAAAGACAGAGTAAAGTTATATGACAGTTATGATTTAAAGTAA	MKIKTLLPLVVVIVAIVFLVNLNLKNFNEIVPKQEGKPVTAEVIDKKYRVDTKVGKVHEVTLKVGEKTYNTLIKEELYSKVDNGTRLEVLQYKDRVKLYDSYDLK				NA	NA	NA	NA	NA
AK009_03363	1236			hypothetical protein	TTGAGTTCAAGTAAACTATCTAAACATATAAGGTACTTACTTCCTTTTCTACTAGTCGGTTTATTCTTTATCGTACCACATAAAGCAGAAGCGAAACGAGCACCACATGTTGAGGAATACATTAACAAGAACAAACAAGCCGCTATAGACGTAGGTAGAAAATACGGTATCTTCCCATCACAGATTTTAGCACAAGGTGGTTTCGAGTCAAACTGGGGTAGAAGTTCAGTTGCAAAGAATAACAATAACTTCTATGGTATTAAAGGTAGTGGGGCATATAGAAAGTATGCAAGTCCCGCTGAATGTATGGAAGACTTCGTTACAAACTTCTATGTAACGAAATTAAAGTCTTATGAAGACATCATTAAAGCAACTTCACCCTATGGAATAGGTAAGTTATTGTACATAGACTATGCACCACCTGGTGATGGTACAAATGCTGAGTATCTAACTTCCTATGAATCTATTGTTGCAAATTACGATGTTGTTCAATATGATAAAATTGCATTTCCTGACGGTGTGAAACGTCACCCTAAGATATCAGAAGTACGAGCAGGGAAGAGAGACAACTTCACTTACGAAGAAGCGGGTAAAATTGATTACAGTGGTAAAGAAGTTGTTGTAACAGATAAAGATGTAAAAGCAGACGGTACTACTGAGCAAAAGGTAGAACAACCAAACCCTAACGGTGGTCAACCTACTGAAAACGTAGTAATACAACCGAAATTTACTTTCTCTGAGGATGCAATTAAAGGTATGCCGAAGAAGAGAGACTGGGAAGAAGAGAAGCTACCTGAGTCTAAGAAATCAGACTTAGCTTTAGAAGAACATAGAAGTTTAGAGAAATGGAAACAAGAATCTGATACACCAATTGCTGATAAGGTAACAAAAGGGTTTAGAACCGCAGTTTCATTATCAGGTATCATTTTATTCTTCTATGGACTACTGATTATTATCGCCTATATCTTTGATAGAGTCACGATAACGGAGTGGAAAGCGTTACCTGTCATTACAAAGAACCGATTGTTTGCAGTAAAAGACAAGGAAGACTCCACTTATCGCATAAACGCACCACAAGAAGGCTCAAAAGGTATAACGATAGCAGACTTATGTAAGGTACAGTTCTTTATTATAGGGTTGGCAATGTGTCTCTTAAACGGTTGGATTTACACATTTGTAGACGTGATTATAAGAGGTTTTGCAAACGCCCAACAATACCTAAGTGGTTTGTTTTAA	MSSSKLSKHIRYLLPFLLVGLFFIVPHKAEAKRAPHVEEYINKNKQAAIDVGRKYGIFPSQILAQGGFESNWGRSSVAKNNNNFYGIKGSGAYRKYASPAECMEDFVTNFYVTKLKSYEDIIKATSPYGIGKLLYIDYAPPGDGTNAEYLTSYESIVANYDVVQYDKIAFPDGVKRHPKISEVRAGKRDNFTYEEAGKIDYSGKEVVVTDKDVKADGTTEQKVEQPNPNGGQPTENVVIQPKFTFSEDAIKGMPKKRDWEEEKLPESKKSDLALEEHRSLEKWKQESDTPIADKVTKGFRTAVSLSGIILFFYGLLIIIAYIFDRVTITEWKALPVITKNRLFAVKDKEDSTYRINAPQEGSKGITIADLCKVQFFIIGLAMCLLNGWIYTFVDVIIRGFANAQQYLSGLF				NA	NA	NA	NA	NA
AK009_03364	702			hypothetical protein	GTGTGGCAAGGTCAAAATGAGCCTGAACAGAAAAGTAAGAACTTATTAATAGGGGTATCAGTCGCTTCTGTCTTATTGTTAGGTGGCGTAGGATATGGTGTTTATTCTTACTTTACAAAACCTACAAAAGTAGAAGTAAAATCAGTTGAGAAGTCAGAGAAAAGTAAGGTAAACACCAAATCAGATGTCATCTTACAGAAAGATGTAGGTAAAGACATTGAGATTGATAACTCAACTGGGTATGAAGCAGACGTACAGAAGAAGATTGATGAAGGAACAAACATTATGAAAGAGCAAGAGGGTAAGCAAGGAGACTCCTTAACTCAATTATCTGACCGTTTTCAAGCATTTTTGAATAGGAAACCAGTAATAGGTGAAGGAGATTCTTACTTATTCCAAGGTAAGATTAGTCTAAAACAGTATTATGTAAAAGAAACTGGTATTAGCGTTTCACTAGGTTCAAATGGTGAGATACTAGCATTCTTCTTAGATGTAAAAGACGGAGAATTAAACAACAAGTATATTCCAGTTGTAACAGGTGAGAATTTCACAATAAACCTAGATACGGCAGGTAGTAATTTAGGGGTAAAACTTGAAAACACCGATAAATGGGATATCAAACAGTACAATGCAGATAAGTATGTCGTATATAAACTAAATAAAGGGGTAGATGGTCTTGAGGGTGGCTTTGAGTTCAAGTAA	MWQGQNEPEQKSKNLLIGVSVASVLLLGGVGYGVYSYFTKPTKVEVKSVEKSEKSKVNTKSDVILQKDVGKDIEIDNSTGYEADVQKKIDEGTNIMKEQEGKQGDSLTQLSDRFQAFLNRKPVIGEGDSYLFQGKISLKQYYVKETGISVSLGSNGEILAFFLDVKDGELNNKYIPVVTGENFTINLDTAGSNLGVKLENTDKWDIKQYNADKYVVYKLNKGVDGLEGGFEFK				NA	NA	NA	NA	NA
AK009_03365	1026			hypothetical protein	ATGGCAATGAGAATAGACGAACTAGTAAACGCAGAACAGAAGGTATTTATTGTAAACATGCGACCTAAAAATGGAAGTGAAGAATTAGAAATAGAGAAACGTCATATGATTTCAACAACATGTATGAGTTTAAAAGGTAGAAAAATTGTACAACCATATAATGATAATACGTATCCATATAAAAAGAATGTAAACATCAATGAAAATACGTATAACAGTATGTTAGCTAAAATAGACAAGGTATATAAAGGTAGAGGTTTTAACATCGTGTCTATCTGTAAGGATTTCCGAAACATGGTAAGACAGTCTATTAAAGATGGTACACTGAGACAGAACTTCGGTGTAGATGAAAATCAAGTTAGGGGTATGAACTTCCGTCAGATTATAGACTGTATCTTTGAACAGCATAAAGGTAAAGTAGACGTAGAATTATCAGGTAAGTCTAGTTTAAAAATTACACTAACTCAAAAAGATTTCCTAGAGTGGATAGAAGCTAAAAGCTATTTAAAGGAAATTGAGTCATTAGATAACGTACTAAACATGGTAGGTGTAGATAATCAGAACCTAACTGGTAAGAAGAAGTTACCAATTACATTTGAAACAAAGAAATTCATTAAATTTGATAAAGGGTTGAGTTTAGTTAGTTTCAGACTAGATTATACAAGTCAAGAAAAGCGTGAATATACAAGAAGATTCTTGCAAAAAGCAATCATGAAAGCAGAGTCGCAAGGGGTAGAAGTAGTAAACCTGTCTTATTCAAAGCATTTCGGTCTATTGAACTTACTTGTACCAAATGAACGAGCAAATGAATGTATTAAACTGTTCTTAGACATGTTTCCAAAACATGTACAAAATCAGCTATATAGTATGAATTATCATCTAGACGTAGAGGTAGAAGAGAATATTGGTCAAGAGAATTGTAAGTCAGAATGGTACTACCTTTTAAACGGAAGTCGATTTAATAGAATTAAAGAGAGTCTAGAGAAGGAAGAAGGAACATTTTTCGGATTCCCAATGTACAAGTAA	MAMRIDELVNAEQKVFIVNMRPKNGSEELEIEKRHMISTTCMSLKGRKIVQPYNDNTYPYKKNVNINENTYNSMLAKIDKVYKGRGFNIVSICKDFRNMVRQSIKDGTLRQNFGVDENQVRGMNFRQIIDCIFEQHKGKVDVELSGKSSLKITLTQKDFLEWIEAKSYLKEIESLDNVLNMVGVDNQNLTGKKKLPITFETKKFIKFDKGLSLVSFRLDYTSQEKREYTRRFLQKAIMKAESQGVEVVNLSYSKHFGLLNLLVPNERANECIKLFLDMFPKHVQNQLYSMNYHLDVEVEENIGQENCKSEWYYLLNGSRFNRIKESLEKEEGTFFGFPMYK				NA	NA	NA	NA	NA
AK009_03366	999			hypothetical protein	ATGAATACAAATCAAAAAGAGACAAAGATAAGTAGCTTTGTTATTCTTCCGCAAGAAGGGATTAAAAATTTAGTAGATGCTATGAATAGGTCTCAACTGATTATGGAAACGTTAAGGGAAGTAAATAAAGAAAAACTGAAAGTTGATTTTAATACCTATCCTTTTAGAAAGCAATTTGAAATAGATGAAGACAAGTATAATGCAGATAAGAAACTAGCAAGTGAATATGATTTTGAACAAAATAGAAATTGTTCTAGGTTTTCTGTACTTTTACATTCGTTATTTAACCCTTTAAAGAATAAACATAGACTGTTTTTTAATAATAAAACACTAACTGATTACGAAGGCTTATCTAAACAAGAAGTAATAGACAGGTTGTTTGAAGAAGGTAAAGGTTCGGTTACTTATACAGACCATAGAAGACGGGAAGTAACAGTAACAAAAGGAGATTTTGAAAGATTTCAATCTGTAAAACAAGCACATATACATGTAAAACGATTTGATACTTTTGTAGAGAAGATAGGTTCTAGAGACTTTATACCATTTTGTTTAGAAACATCAAGGTATATAAAAATAAAAGAGGGTTATTCTAAGATTCATTTTGAACTCCCTAAACATAATATGGTAAGAAAGAATTTATCAAATGATATCATCAAATTAATGATTACGGAAGCAAACAAGTATGAAAGGGAAGATGTAGAAGTTGTTGATTATAGTCATACAATAACATTTACTTATTTCACTATACTATGTAAAACTGATAAGATAGAAGGAATGTTAGCTAGTTTCTTCAGAATATATAAGTTACAAGAAGAATTTATCGAAAAATACGATGAACCTTATTATACTTATGTATCAGTAACAAAGGATATAGGGACTGAGAACAGAGAAAATAAATGGTATCAAGTATTTACAGGTACACCATTTAATTGTATAAAAGAGAGTTCATTGTTTGAGAAACAAGAAGAACTATTCCACAGATTTTCAGCAATAAAGTAA	MNTNQKETKISSFVILPQEGIKNLVDAMNRSQLIMETLREVNKEKLKVDFNTYPFRKQFEIDEDKYNADKKLASEYDFEQNRNCSRFSVLLHSLFNPLKNKHRLFFNNKTLTDYEGLSKQEVIDRLFEEGKGSVTYTDHRRREVTVTKGDFERFQSVKQAHIHVKRFDTFVEKIGSRDFIPFCLETSRYIKIKEGYSKIHFELPKHNMVRKNLSNDIIKLMITEANKYEREDVEVVDYSHTITFTYFTILCKTDKIEGMLASFFRIYKLQEEFIEKYDEPYYTYVSVTKDIGTENRENKWYQVFTGTPFNCIKESSLFEKQEELFHRFSAIK				NA	NA	NA	NA	NA
AK009_03367	1014			hypothetical protein	ATGAACAAAGTAGATGAAGTAAGACCAGTAGAGGAAGATGTAATTGTATTTAATTCAACAGGTAAGCTACATAAGGATAAAAACCTTTTAACTGAAAAGAGAACTAAAGTATTTGAGTTGATAACTTCTCTTAGAAATAGTTTAAAACCAGAACCAAAGTCAAAAACATATTATTACAGAAAGTCAGTAAAATTAGATTTAGAACAAGCAGATAAAGATTCTAATTCTATGGAAGAATTAGATAAAGATATAAAACGTAGGGTTAGTCAGTTCAATACATTTGTTATGAACCGTCTGAAAAGAGGGACTTTAGGACAGTATTATCCTTTTAGTGAGATAGAAGATTTAGACAAGTATAAATTTAAAGACATCAAATTTTTACGTAATAAAGTAATAGAAGAGTACAAAACAATTACGTTTACTTCTTTGTCAGGTGAAGAGTTAACAATAACAGAAGAAGAATATGAATTACATTCTCACCATATGAAGTTAAGTTCAAAAGGTAAACATCTATTTAGAGTATTAAACGAATTAGGTTATTGGATAGAAGACATGAGGGAGGAAGAAAGAATTCCTGTAATGTGGAAGACAATACCTTATATCCAGTTTGAAGATAATAAAACGTTTGTAGAGTTCAGTTTTAGTACATTATTTTCAGATATGGAAACAAAGACGAATATAATTATCAATCAACTTATAACTGAATTAGAGAAAACAGAAGGTATCGAAGTTGTTAACTTATATTACATGAAATCTTATGCAAAATTCGGGGTATTGTGTGATAACGAACAGCTAACGGAGGTATTAGACTCTTTTGCTAGAAGTTATAAACGTAGTAGTTACTTAAAAGCAAAAACTTATGCAGTCGAGATTGATGCAACTGTTGATATTGGTAATGAAGATAAGGAAACAGTAGAGTTCTACAAAGTGTTAGAAGGTGAATACTTCAAACCTGTATATGATATGTTAGAACCTACAGATGAAACATTATTCGGATATAACGTATACTTGTAA	MNKVDEVRPVEEDVIVFNSTGKLHKDKNLLTEKRTKVFELITSLRNSLKPEPKSKTYYYRKSVKLDLEQADKDSNSMEELDKDIKRRVSQFNTFVMNRLKRGTLGQYYPFSEIEDLDKYKFKDIKFLRNKVIEEYKTITFTSLSGEELTITEEEYELHSHHMKLSSKGKHLFRVLNELGYWIEDMREEERIPVMWKTIPYIQFEDNKTFVEFSFSTLFSDMETKTNIIINQLITELEKTEGIEVVNLYYMKSYAKFGVLCDNEQLTEVLDSFARSYKRSSYLKAKTYAVEIDATVDIGNEDKETVEFYKVLEGEYFKPVYDMLEPTDETLFGYNVYL				NA	NA	NA	NA	NA
AK009_03368	1041			hypothetical protein	GTGTCAAACTTAAACGTAACAAACCATGATGATGTAGCTTATACTGAATTAACAGGCAATAGTCTTTTAGTTCGTATAACACCAAACGATTCTACATGTTTTCGTAATACTCTAGTAACAAAACTGAATATTGCATTAGGATTTGATATTCTTGATAATGTAGACACATCAAATGTTATTATGTACAGAAAAGATGTATCTATAGACAATGTAAGTATTAAGAGTTCTGAGGAATACTGTAAGTTCTTTAGAACAGATTATAATACAAAGGTATTAGATGTATTAGACTTATCACTAAGAGAGTCCATTTCCAGTAGAAGATTAGATACAGAAGAGAGTGAGTATCTAGAGCAGTGGGGTATCGAAGAAGGAACTGATATAGAAGTTCATTTAAAAGAAGCCTTAAAACTGTTTTTAAAATATAATGGTTCAGATTATGCATTAAACGTAGCAGGTTTAAATACGAAGCATACTTTTGAAGTAGGAGACGTTGAAAGATATTTAAAATATTTATCAGAAGATAATAAACTTAGTTTATTCAAATTAATACGTTCAAGATTAAATACAAACAATAACCTACCAATTAACTATGCTACAAAAGATTTTATTAAGGTCAAGAAAGGAAAAACTTTGGTAAGCGTTACAGTAAACGATGATTACGATTCAAGTGAGTTAATCAATAAATTCATTACAGAGTTGAATAAACTACATGAAGGTGTAGTAGATTTTGTTAACTTTGCAAAAGAACGAGGTAGAATTCATTTTAACATTTTATGTGACAATAAAGACGCACAAGATATGTTAGACTTAATTGCTCTTTTATATACTAACTTATATGGAGAAACAAGCCTAGGTATAAGAGAAGACTTTTATTGTAATATTGAAATTGAGAAAAGTCTATCTCATGAGGGTTATGAACGTGATATCTATTGTATTGTTCAGGGGTATGAATTTGAACCCGTTATAAGTTTCTTAGAAGAGTTAAGAGCAGAAGACGAGTCAAGATACGAAACAGATATGGTTAAGCTAATTATAGGTTAG	MSNLNVTNHDDVAYTELTGNSLLVRITPNDSTCFRNTLVTKLNIALGFDILDNVDTSNVIMYRKDVSIDNVSIKSSEEYCKFFRTDYNTKVLDVLDLSLRESISSRRLDTEESEYLEQWGIEEGTDIEVHLKEALKLFLKYNGSDYALNVAGLNTKHTFEVGDVERYLKYLSEDNKLSLFKLIRSRLNTNNNLPINYATKDFIKVKKGKTLVSVTVNDDYDSSELINKFITELNKLHEGVVDFVNFAKERGRIHFNILCDNKDAQDMLDLIALLYTNLYGETSLGIREDFYCNIEIEKSLSHEGYERDIYCIVQGYEFEPVISFLEELRAEDESRYETDMVKLIIG				NA	NA	NA	NA	NA
AK009_03369	369			hypothetical protein	ATGGACAAAACCGTTTATGTAGAACTAAGAGAATCACCAACAACTGGATATATTTCAGTTTCCAATATGTTTCACATGAAAGACCTAGAATCTAAGTATGAACACTACGTAGAAATATGTAAGAGTATTGGTAACAGGTATGAGTCTTTGAAGGGGTATGAACTATCATTTCTATTATTAACTGTCACATATGATGGTAGAAAAAGAAGTATAACCGATGAAGACATTATGAAGGCTATGCTTAAACTAGGTTACGTTACACAAGTAGGAAACAGTATGTTAGGTGGATTTTATTTAAAAACACCTAAGTTAACTCAATTATTAGCAGACAAACTAGCTGAAAGAAAGTCTTTAGTTGGTATAATATAA	MDKTVYVELRESPTTGYISVSNMFHMKDLESKYEHYVEICKSIGNRYESLKGYELSFLLLTVTYDGRKRSITDEDIMKAMLKLGYVTQVGNSMLGGFYLKTPKLTQLLADKLAERKSLVGII				NA	NA	NA	NA	NA
AK009_03370	216			hypothetical protein	ATGAATCACATGGATAAAGTTTGTATCATACTTGGGGTAGACTTATTTGAAAAGTTTAATATCATAAAAGAGCGTCCTAACATATTCCAAAAGAATATCAGAAACCCTTACTACTTTACTGACGAGGGTTTAATGAATAGTTTCGGTGTGTTAGATAATCAATTTCTAGCAGACTTACTTGTTGGTAGTTTAAAACTAGAGAAAGTAAACAGGTAA	MNHMDKVCIILGVDLFEKFNIIKERPNIFQKNIRNPYYFTDEGLMNSFGVLDNQFLADLLVGSLKLEKVNR				NA	NA	NA	NA	NA
AK009_03371	918			hypothetical protein	ATGGAGAAAGTAAGCAAAGAAAGAGAACAAACTGGGTTTTTCATTCAAGTATTGGAAGGTGAATTAGAAAAACGCAAAAACCTTTCAGAAAAAGTATTAGAAACTCACTCGAACGGGGTATCGAATCTACATATCTTTCCTTATCGTAAGAAAGTAGAGTTAAAACAAGATATTTTAGATTTAGACGTGATGTCTTATACCTATAGTTATTTAGAAGAAGATATAAACAAATATACTTCTTTACGTAAACTGATAAAGAAAGCCTTTAACGAGGAAGTTTTCGATTCCTTAACGTTTAAGGAGAAGGAAGAGTTGTTCTTCAAGCAAGGAAACAATGAAGTAGTCTATACAGATAAAAATTACAAGAAACATACAGTTACAAAAGAAGAATATGATTTATTCTTTAAGAGACGAAAAGCATATAATCAAGCGATGGAATTTTACAATGTTAGAGAACATGTAAACTCCGAAGATTACTTACCAATTAACAGAGCCACAAAGCATTATATTAAATTTAATAAAGAACAAGTATTGGTTTCACTTAGACTTGAGTCATCTAATTATAGAACAGGTAGAATTACAAGTAAATTCATTTCTTGTCTCCAAAACTTTATAAAAGATACGGGTATTGAAATTGTGAACATTGACCAAACGGAAAATGCTACTTATGTAAACCTTTTAAGTGAGAAAGAGAATTTCATGTTAAACGGTTTAAGAGAAGTAATTAGTCAATGTGAGTTATATAGAACAGAAGAAAGTTTCAATTACAACTTAGAAGTAGAAATAGAACGAAATTTACATCAAGAAAACTATAGTAAAGATTGGTATTACTTCTTTACTGGAAATAAGTACGAAGAATTAAAAGATATGTTTAAGAAACAGGAATCAAACTTCTTAGCACATCCATTATATAAATAA	MEKVSKEREQTGFFIQVLEGELEKRKNLSEKVLETHSNGVSNLHIFPYRKKVELKQDILDLDVMSYTYSYLEEDINKYTSLRKLIKKAFNEEVFDSLTFKEKEELFFKQGNNEVVYTDKNYKKHTVTKEEYDLFFKRRKAYNQAMEFYNVREHVNSEDYLPINRATKHYIKFNKEQVLVSLRLESSNYRTGRITSKFISCLQNFIKDTGIEIVNIDQTENATYVNLLSEKENFMLNGLREVISQCELYRTEESFNYNLEVEIERNLHQENYSKDWYYFFTGNKYEELKDMFKKQESNFLAHPLYK				NA	NA	NA	NA	NA
AK009_03372	972			hypothetical protein	ATGTCAAATGCTATTTTAATAGATGTACAAGATAATAAAGAATTAATGGCAAGACTTACAAATGTAGCAGACCATTTATCTCCATATAGAGTAGTAGAAAGAAGAGGTTTCTTTCCAATTCGTAAAGACGTAGAAGTACAATTTGATAACTATAGAAAATATAAACCCGAAGTATTCTTTAGCCCTGAGGAACTAAAAGAATATAATAACTACTTAGAATTTCGTGAGAAACTGAAAAATGTTTTAACATATGGTAATGTAACTTTAAATTTAGGAATTAAACTAGAAGGTAAAAAGAATCTTTCAGACGCATATCTTGACTATGTGATTGAATTAATTATGGAAAAAGATGGAGACGCAAGTAAACTAGAAGTTAACTTAGATAAGTTCTATATTAAATTAGAAGGTAGTAAAGTGTACAAATTCAACCAGTATAAACGTATGTATGAAAGAGTACAAGAGGGATATCGAATTATTAATGATTTACAAGGTAAAGAAGACCCTTATTATGTAAAGATTCCAATTAACCGTAATACACTACCATTTTTAGATAAGAACAAGAATGGTTTAACAGCTAAATACTTATACAGTTATACATTCAAAAAGAATTTACGTACAGACCGATTAATTCAACGTTTCTTAACTGAATTTGAATCATCAGACAGTATTGAAATTACAGATTTATCATTTAATAAAAACTATGTTTACTTAGATATTGTTTGTTCTGCGATTCGTCAGAAAGAGGTAATTGCAATCTTCAAGCATGTATTTGATGAAACAGGTGATAACAAATTAAAAGACTATTATGTTATGGTACAAGTACACAATATGAACCTGTCACTAGAAAATGAGCATTCTTACTTTATTCTAGAAGGAGACTGTAAGTTTCAAATAGGGGAACTTGAAATTCTATCTGATAATTTCATGGAATTTCCGATGTATTGGTTAAGTAACGGTGAATCTTACTGTTAA	MSNAILIDVQDNKELMARLTNVADHLSPYRVVERRGFFPIRKDVEVQFDNYRKYKPEVFFSPEELKEYNNYLEFREKLKNVLTYGNVTLNLGIKLEGKKNLSDAYLDYVIELIMEKDGDASKLEVNLDKFYIKLEGSKVYKFNQYKRMYERVQEGYRIINDLQGKEDPYYVKIPINRNTLPFLDKNKNGLTAKYLYSYTFKKNLRTDRLIQRFLTEFESSDSIEITDLSFNKNYVYLDIVCSAIRQKEVIAIFKHVFDETGDNKLKDYYVMVQVHNMNLSLENEHSYFILEGDCKFQIGELEILSDNFMEFPMYWLSNGESYC				NA	NA	NA	NA	NA
AK009_03373	1059			hypothetical protein	ATGGCAAGTAGAGAACAGAGTTATGTAATTTTAGTTACGAAAGATACAGACGTGAAGGAATTAGAGAAAAACTTTCCTGATATTAAACAAAACGCTGATTTGTTAGAAGATACAGTTCATTTACAAAGAAAAGATGTAGTAGTAAATTGGGAGTACTACAATCAAATACTAGAAACAGTTAATAATTATCAAGAAACAGAAGAATATAAATCAATAGCAAGAGTTTATACGAAACTATATCATTCTACGATTAGTAGAATATTACATATCACATTTGATTTAGATTTAAGAAGACTTGGTTACGAAGGTTGTACTACAGATTTTGAAGAGATATTAAACTTCATTTTACTGGAAAACATAACATTAAGCACACAAATTCCATTAGAAGGTGGAGAAACAACAGAGCAAGTAATTGTTACTTCTGAACAGTTACAGAAGTATTTAATGTATACAGAAACATACCGAAAAGGAAGTACAAGTATAAATCTTATTACTGAGTTAAGTGGGTATAAACCAGAATATAAAGAAGGTAGTAAAGAATTAGATTTCTCAAATGCACCGAAACGATTAGCTTTACCAATCAATCATGTAACAAAGAATTACGTTACATTTGAAGGAGATAAAACGTTAATTAGTTTTAAGTTAGTTACAAACGGTGGGGTAGAGTTATTCTTAAATAGACTTTTAACATTTACAAATACAGACTACGAACTAGAAATTGTAGACTTACAAAAAGCATTTGAAAAAGTACATGAGAATGATTTTGTTTACTTTAACTTACTTTGCAATGAAAAAGCAGAGTCAGACGTAATACGTTTGGTACTAAGTTTGATTCGAGAAACAATTAATGTAAGCCCTCTACAAGAAACTACAATTATGTCTGTCTTAGTTCAAAGAGGGGTAGACAAAGAAATTACGTCAGAAAGTAGTTATTACTTTGTAACTGGTAAAGGATATACGCATGTTACAAAAGGAGAATACCATAACATGGTAGACCAATATAAAGAACATTTAACACAAACAAATGCAAATCTATTTGGATATGCAACATTCATGTAA	MASREQSYVILVTKDTDVKELEKNFPDIKQNADLLEDTVHLQRKDVVVNWEYYNQILETVNNYQETEEYKSIARVYTKLYHSTISRILHITFDLDLRRLGYEGCTTDFEEILNFILLENITLSTQIPLEGGETTEQVIVTSEQLQKYLMYTETYRKGSTSINLITELSGYKPEYKEGSKELDFSNAPKRLALPINHVTKNYVTFEGDKTLISFKLVTNGGVELFLNRLLTFTNTDYELEIVDLQKAFEKVHENDFVYFNLLCNEKAESDVIRLVLSLIRETINVSPLQETTIMSVLVQRGVDKEITSESSYYFVTGKGYTHVTKGEYHNMVDQYKEHLTQTNANLFGYATFM				NA	NA	NA	NA	NA
AK009_03374	378			hypothetical protein	ATGACAGCAAGACTATATAAAGAAGTAGGAAGAACATTAAGAGTACAGAGAAAGCAACAAGGTCTATCATTAGACTCCGTATCAAAACAGGTAGGTATCAGTATAAACTACCTTTCTGAGTTAGAGAAGGGTGATAAAGGGAAAGTACCTTCTGATAATGTCCTTCAACGGTTAATAACTATATTAAACTTAAATGAGAAAGAGTTATACGTGGGTTTCGGAAAGATTCCATTATCGGTAGTAGAAGAGTTACAAAGTAATGAGAAACTATTAAGTATATTATATGGAGTAATTCACAATCCAAACGTATCAAGAGAAGACTTCTATAATGACATGCAGAAACTATATTTTAAATACGCAAGTAGGTCACAGGGGTAG	MTARLYKEVGRTLRVQRKQQGLSLDSVSKQVGISINYLSELEKGDKGKVPSDNVLQRLITILNLNEKELYVGFGKIPLSVVEELQSNEKLLSILYGVIHNPNVSREDFYNDMQKLYFKYASRSQG				NA	NA	NA	NA	NA
AK009_03375	210			hypothetical protein	ATGTGGAAGAAAAGCATAGACTATTGGTATCCAGTCCTAGCAGGTGGCGTTATGGGTGTGTTTGTAGGAGATATGTTATTCGAGTCTGAACTGATTGGTGCTACGTGGGGTATGGCAGTAGGTTTAGCGTTTATACCGAGTATCAAACCAAAAGGTAAGAAAAGGGAAGATGGGGAAGATGAGGAAGAGAAAGAAAAGAGGATTTTATGA	MWKKSIDYWYPVLAGGVMGVFVGDMLFESELIGATWGMAVGLAFIPSIKPKGKKREDGEDEEEKEKRIL				NA	NA	NA	NA	NA
AK009_03376	183			hypothetical protein	ATGAAGAAAATAGAAGTAGTTTCAGCAGTTTGTTTCTTTTTGGTTGTAGTTGTATCAAACTTACTATTAGAAGCCTTATTCGATAACTTAGAGTTATCTATTGTAATCAGTGTAGCGTTAGGTATCTTAGTATACTACGGTTTTGATATGAAGAACAAAGAAGTAACTACACAAGACGGGTAG	MKKIEVVSAVCFFLVVVVSNLLLEALFDNLELSIVISVALGILVYYGFDMKNKEVTTQDG				NA	NA	NA	NA	NA
AK009_03377	168			hypothetical protein	ATGAACGAAAGAGGTAAGTTAGCGTGTTTGATTACAGGGGTATTTGCACTAGGTCATATATTCAGTTATTGGTTAATAGGTAGCCTAAACATTATATCTTTTATCTTGTCCTTACTAGGAGGGGTAGCAGGATTTTGGGTACTAGCTAGACTAGAAGGTGTAATTTAA	MNERGKLACLITGVFALGHIFSYWLIGSLNIISFILSLLGGVAGFWVLARLEGVI				NA	NA	NA	NA	NA
AK009_03378	171			hypothetical protein	ATGTTTTCAAAACGAATGATTATAATCTCTATTCTTTCTATGTTAAGTCTTGCAACTATTATAGACTATAGTAGAGTAGGAGGTAGAAGCCTAACTCATGGGTGTTTACTAGCTATACTAGGTTTATTACTTGTAATATATGTAGAAAAGACGCAAAAGAAAACAAAGTAA	MFSKRMIIISILSMLSLATIIDYSRVGGRSLTHGCLLAILGLLLVIYVEKTQKKTK				NA	NA	NA	NA	NA
AK009_03379	243			hypothetical protein	ATGGCAAGAACAAAATGGGTTAAGCAACCAAACTTTGAACAATACCACAGTCACCATATTACAATAGAACATTATGGTGAGAAAGTACCAATGTATACAATTTTATTAAACCCGCAGATTGGTAGATATGTGATAGGTAGTTTTTACGCATTCACAAGTGAGTATACACCATTCCAACCACATTTAAACTTCGGTACAGTAGAAGAAGCAAAGAAATACATTGATTCAAACTATAACAAGTAA	MARTKWVKQPNFEQYHSHHITIEHYGEKVPMYTILLNPQIGRYVIGSFYAFTSEYTPFQPHLNFGTVEEAKKYIDSNYNK				NA	NA	NA	NA	NA
AK009_03380	471			hypothetical protein	ATGAATAAAGAGTTTGAATTTAAAGGTGCAGGGAAATCGAAAATAGTAATAGACGGTAATTTCATCCGTATATCTCGTAAAGGGTTTATGAACCTTATGAATCACGGTCTAGGCGGTGAGAAGACAATAGATTTGAATAACGTAACAGGTGTTCAAATGAAGAAAGCAGGACTTACAAACGGTTATATTCAGTTTATCTTTGTAGGTAGTCAAGAGAGCAAGAAGGGTGTATTTGCAGCAACTCAAGATGAAAATACAGTTATGTTTACGAAGAAAGAGCAACCTAAAGCAGAAGAAATTAAGAAGTATGTAGAAAACTTCCTTGCTAACAAAAGTAAACCACAAGTTGCAAGTACAGTAGAATCCGTTAGCATATCAGACGAAATTGTAAAGTTAAACGATTTAAAAGAAAAAGGTATTCTTACAGAAGAAGAATTCCAAGCAAAGAAAAAGCAACTACTAGGGCTTTAA	MNKEFEFKGAGKSKIVIDGNFIRISRKGFMNLMNHGLGGEKTIDLNNVTGVQMKKAGLTNGYIQFIFVGSQESKKGVFAATQDENTVMFTKKEQPKAEEIKKYVENFLANKSKPQVASTVESVSISDEIVKLNDLKEKGILTEEEFQAKKKQLLGL				NA	NA	NA	NA	NA
AK009_03381	1869			hypothetical protein	ATGTCAGTTGAAGAGTTAAAAGACCAAGAGGTACATGGTGATGAAGAAGATTTTGAAGATGAAGACGAATTAATTGATGAAGAAGACGATGAAGAGTTCATCGAAGAGGAAGAAGACGAAGAACTAGAAGATGACGATGAAGAGGAATTTATTGAAGACGAGGACGAAGAGTTCGAGGAAGAGGATGATGAAGACCTAGAGGAAGATGAAGAGGATTTCGAGGAAGAGGACAAAGACCTTGACGAAGAAGATGATGAGGAATTAGAAGAAGACGAAGATGATTTAGATGAAGACGAACTTGATGATTCAGAAGACGAAACTATCGAAGAAGAATCAGAAGAGGAAGGTCAAGAAATTGAGGATGAACCTGTTATTGGTGAGGGTATATTTCAACCAGTAGAAGAACCGAGTGAGGTATTCCTACAAAACCCTTCTGTTGATTTAGGAAGTGGTATTGTATTAGATGCTAACTCTGGTGAAAACCTAGAAGACCGTCCTAGAGTTGTATTAGAAAAGAATATGGATACAGACGAGATTGAAGATTCTGAGTCTCGTGAAACATTGAGTTTACTAAGTAGTACTTCTGAAACGTTATCTGATATGGGTATAGAAAAGGAAAATTACACGCTAACTTACGTAAATAATATTAAACTTACGAAAATAGCGATTAGTGAGCCAATGAAGAAAGGTAGAGCATCAACAATTGTCGGTTTAACGAAGTCAATCGGTGAATTAGGGGTAGTAACGCCAATTCATTTAATGAAACTAGAAACCGCAGATGAAGATGAAGATTCGGACATGCCAGCTTATCAAACTATTGATGGGTTAAGACGTATCTATAGTTCTGTTAAGAATAACTTAGAAACAATACCTGCAATTGTTTGGGACTTTAAAGATAAACAGAAAGGTAGACAAGCCGCACTTATCTTAGGTCTTACATTAAACCGTCAACAAAAGAGAACATGGTCTGAGATTTGGGATTTATATACTATCTTAGAACGTCAAACTCAAATTAAACCAAACACATTTGAGTCACTCTTCCAATTAGAGGGCGGAGACGCTATGAAATTGAAAGATGTAGTACTAAGTGAGTATACAGAAGTCAAAGAAGAGTTATTTTCTAATGAAAAGACTCTAGAACAATGTTATAAAAACTTACAAAAGCTACGTAAGGAAGAAAATACACTAGAGATTGAAGACCAAACTGGTTTCGCTGATACAAGTGATATGGCAAAAGATGTAGTAGAAGGGGAAGAAAAACCTGAGGTACAGTTGTCTAACGATGAAGTATTAGCTATCCTTGAAATGGGAGAAGCACTAGATAAAGAGATAAACCCTGATGACTTCGGTAGTATGGGAGACATGTTTGGGGAAGTTACACATCAAGATGTGAAGAACCGTAAACCAGTTGACCCAATAATCAAACAACAGACTTTAGCTAGGGATGACTACCGTTGTAGATGTTGCGGAACTGGTGGGAAAGCCTTCTTATCTACGATAATTTTCCATCACATCGTTCCTGTTCATGCAGGTGGACCGGATACTGTAGCTAACGGTTTAACACTTTGCGACTCTTGTCACATCACACTTCATGTAATAGAGCGAAACGGTAGGCTTCCTCTTACAGAAGAAGAATTTAAAGAGTATGAACCAGAAGACCAATGGAGAATCAAAAATATCCTTCATTATGCTCGAATTGCTATCATGGCAGGTAAGAATAAAGGTCTAACTGACGAACAAAGAAAAGAGTTAGCTAAGTCAGGTACAAGACATCGTATGCCAGGTGAAGGAAATAAAGAAAATCAACAAGGTTTTGCTTTATATGAACAAGACCGAGAAGATAAAAAGAAAGAAGAAACTACAGCATAG	MSVEELKDQEVHGDEEDFEDEDELIDEEDDEEFIEEEEDEELEDDDEEEFIEDEDEEFEEEDDEDLEEDEEDFEEEDKDLDEEDDEELEEDEDDLDEDELDDSEDETIEEESEEEGQEIEDEPVIGEGIFQPVEEPSEVFLQNPSVDLGSGIVLDANSGENLEDRPRVVLEKNMDTDEIEDSESRETLSLLSSTSETLSDMGIEKENYTLTYVNNIKLTKIAISEPMKKGRASTIVGLTKSIGELGVVTPIHLMKLETADEDEDSDMPAYQTIDGLRRIYSSVKNNLETIPAIVWDFKDKQKGRQAALILGLTLNRQQKRTWSEIWDLYTILERQTQIKPNTFESLFQLEGGDAMKLKDVVLSEYTEVKEELFSNEKTLEQCYKNLQKLRKEENTLEIEDQTGFADTSDMAKDVVEGEEKPEVQLSNDEVLAILEMGEALDKEINPDDFGSMGDMFGEVTHQDVKNRKPVDPIIKQQTLARDDYRCRCCGTGGKAFLSTIIFHHIVPVHAGGPDTVANGLTLCDSCHITLHVIERNGRLPLTEEEFKEYEPEDQWRIKNILHYARIAIMAGKNKGLTDEQRKELAKSGTRHRMPGEGNKENQQGFALYEQDREDKKKEETTA	PGPT0027235_1	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
AK009_03382	552			hypothetical protein	ATGAGTCAAGTAGTTAACTTAGAAGAGTTATTCGCATTACAAAAAGTGTTAGACACTCGTATCGTATTAGAACATCCGATTCAAGAAGGTGAAGACCGATTAGGTAAGAAGTTCTTAGCGTTAAGTGTTGAGTTATATGAATGGATTAATGAGTTACCTGAGACGTTTAAGTATTGGAGTAACAAGAAGAACAAATACGAAGAATCATTGAAAGAATATGTAGACGGATTACATTTCATTCTATCAATTGGTTTGGAACTTGGCTTTGATACAAAACAAGACATTCATGTAGTATATGGAACAGAGTTTTTAGGGGAAGAATCCTTAGTAGGTTCATTCCATCAAAAGTTTATGATATTCAATACATTAGTAAACAAGGTATATGTTTACCGTGACACAGAACCAAATCAGCATAGTCACAAAGCGTATGTAAACATGTTATCTTCTTACCTAAAACTAGGTGAAGAAATGGGATACAAAACAGAAGATGTAATCATTTACTACAAGCATAAGAACGAAGTAAATCACAAGCGACAAACGAATAATTACTAA	MSQVVNLEELFALQKVLDTRIVLEHPIQEGEDRLGKKFLALSVELYEWINELPETFKYWSNKKNKYEESLKEYVDGLHFILSIGLELGFDTKQDIHVVYGTEFLGEESLVGSFHQKFMIFNTLVNKVYVYRDTEPNQHSHKAYVNMLSSYLKLGEEMGYKTEDVIIYYKHKNEVNHKRQTNNY				NA	NA	NA	NA	NA
AK009_03383	402			hypothetical protein	ATGGGTTTACATTCAGGTTTTTATACATTAAACAACAAGGAATTAGAGAAGGAAGACAGATTACATTACAAAACAAAAGCTACAGAGAAATATGACTTTTTCGGTAACGGAATCATATATCAATGGTTTATTCGTAAGGTAATGAACAGCGAACCTTCTTATGATTACTTTAAAATTAACAAAGAAATGGTACAAGAACTACGAGACACATGTGAAAGAGTATGGAACGACCATGAGTTGGGCTATACGGAATTACCATTCAATAAAGTCTGGAGGGGTAGATTCTCTCAAAACGATAAAAGTTATTTCGAGTACATTGAAAAAGCTATAGAATGGTTAGACTTCATACTAGAGTATCATGATTTTGAAAAAGAAACATTATATTATAGTGCAGATTGGTAA	MGLHSGFYTLNNKELEKEDRLHYKTKATEKYDFFGNGIIYQWFIRKVMNSEPSYDYFKINKEMVQELRDTCERVWNDHELGYTELPFNKVWRGRFSQNDKSYFEYIEKAIEWLDFILEYHDFEKETLYYSADW				NA	NA	NA	NA	NA
AK009_03384	204			hypothetical protein	ATGTATGAGATACTGTATGGGGTAGGATTGTTTGTTTACTTTTATATGTGTATTAAAACTCTTTTATATTATAAGAAAACAAATAAAGTAAATGAACTAGGTATTACACTAGTAATTATAATAGGTTTTGGTCTACTTTATTTTATGCCTGAGACTTTAAGAGATATGTTACCTTACTTGGCTACACCTTTAGCTTTTAATTGA	MYEILYGVGLFVYFYMCIKTLLYYKKTNKVNELGITLVIIIGFGLLYFMPETLRDMLPYLATPLAFN				NA	NA	NA	NA	NA
AK009_03385	372			hypothetical protein	ATGTATAATTCAAGACGTGATGTATTTGATGGATTAGTTTCCTTGGAAGATTACGCAAAAGTAGTAGAACTTATGCTAAAGTTAGAGGGTGAGAAACTAAAAGCAGAATCAATTCGTAGTGCCGTTAAAGAAATTAGGGGTATTGCACAAAACGAACATGTAGTTACAGAACCCGAATTAAATGAATTTATAAACGATGCTAACCGCATTAAGAACACATTTAATTATGTGGCTGAACATTTCCCTTCAACAAAGTCATTCATTGAAAAGTACATTACTGTTCATACAGAAGTGATTGATAAATCTGTAGACTTTTATCGTAATGGCGGTAGTAAGAAGGATGATAACTTAGAAAACACGATTTGGGGCTAA	MYNSRRDVFDGLVSLEDYAKVVELMLKLEGEKLKAESIRSAVKEIRGIAQNEHVVTEPELNEFINDANRIKNTFNYVAEHFPSTKSFIEKYITVHTEVIDKSVDFYRNGGSKKDDNLENTIWG				NA	NA	NA	NA	NA
AK009_03386	201			hypothetical protein	ATGTTATTTACGTTTGTTATACATCTAGAAGGAAGTAAGCAGAGGGGTTTAGTGAAGAGTTTTGACTTCACAATACAAGCTGAGTCTTATGCAAAGAAACTTATATCTGAGAAAGCTGAGACAATCAAGGTAGAAATCTTTCAATACGTAGACAGTAGCTTTATTCTTATAGACAGTGTATATAACGTAGAGAAAGAATAA	MLFTFVIHLEGSKQRGLVKSFDFTIQAESYAKKLISEKAETIKVEIFQYVDSSFILIDSVYNVEKE				NA	NA	NA	NA	NA
AK009_03387	252			hypothetical protein	ATGAACTACATAAACACAATCCATGCCGAAACATTATTCTACGTGTTAGGTAGTTTAACAGGGGTAATGACTGTATTTTTCATTTACTTGAAACTAAGAAATCTGTATACAATCAGCAATCATTTAATTAGTACTTTTGCATTAGCAACAGCAGGTTTCTTTATTTACAACTATTTTATTATTCAAAACAGCGGGAGCAACTTTTTAAGTTTACCAGTGATTCATGATTTTATGCGAATAGTAACTCCATAA	MNYINTIHAETLFYVLGSLTGVMTVFFIYLKLRNLYTISNHLISTFALATAGFFIYNYFIIQNSGSNFLSLPVIHDFMRIVTP				NA	NA	NA	NA	NA
AK009_03388	171			hypothetical protein	ATGACTATGCAAAATGTATATTTACTACTTTCTTTAATACTAACATCTATTACGTTAAACTTAGTTGTAATGAAAAGACACAATAAAGATAAAGTAAAGACTCGTCATATTGTTGAGTCTTTACTTTTGACAATAGGAGTAATTGGATTCCATTTACTTTATTTTAATTAA	MTMQNVYLLLSLILTSITLNLVVMKRHNKDKVKTRHIVESLLLTIGVIGFHLLYFN				NA	NA	NA	NA	NA
AK009_03389	702			hypothetical protein	ATGAAACAGCCTAAAATTAATATTCAAGGTAAGATTTATAAGGTATTAGAACTAGGTTTCCATTCAAAGACAGGTGAGTTAGATAAGGTATTGTTTCAAATTAAAGAGTATAATCACTGTCATATATTTAAAAAGAATACAATGGTTAATGATAAATTGACAGAAGACTTACCAATTACAGAAACAACAAGACATCCTTATCATGACTATTACCATTCCCCTGACTTAGTAAGTTTACTTATCTTTGACGATGGAAAGAATGACGAAACGTTTGATATACATTCTAGAATTAGATTAGGACAATTTATACGTACATTTCTTGGACTAGACTTAAGTATACATGACTTAAAAGATGTAGTAGATGAACTTCCACAAGAGATTGTGACAAGAGGTTTCGAGTTAGATGTACAAGGTTCTGATGTAAACGGTCTTTTATCTAACTGGGTATGTGAAAATAAAGAGTTAATTAAAAGCAAGAAAACATTTGATAGTGAATATTTAAACTCTATTCGTGAAGCTGTTTTACAAGCTTTAAACGAATATATTACAGATGAACAGGTTCGAGAAGTTGCATTCCATCTTCCTACTGATATTCTAAAACTTGTTGAAGAGTTTGGAAATAATGGGGTAGAGGTATTAGACTACATTTATAGATGGTCTAATGAGCATATTGAACTAATTGAAAGCTTTAAAACTAAGTAA	MKQPKINIQGKIYKVLELGFHSKTGELDKVLFQIKEYNHCHIFKKNTMVNDKLTEDLPITETTRHPYHDYYHSPDLVSLLIFDDGKNDETFDIHSRIRLGQFIRTFLGLDLSIHDLKDVVDELPQEIVTRGFELDVQGSDVNGLLSNWVCENKELIKSKKTFDSEYLNSIREAVLQALNEYITDEQVREVAFHLPTDILKLVEEFGNNGVEVLDYIYRWSNEHIELIESFKTK				NA	NA	NA	NA	NA
AK009_03390	393			hypothetical protein	ATGAAACGAGTAAAGTTATATTTAGATGATATAACAGGTAATTGGATGGTACAAGACCACGAAACAGAGAAGACATATGATTTAGAAGAGTTGTTGTCTGTACCTTTAGGCGGTGATGTATTAATTACAAACAACAAGTTACCAGTATCAAGAGTGAAAGGTTTTAAAACAGTAACACATAATGAAGCAGTCGAACTTGTTATAAAAGGTCACAAGTTATATACACCAGCTTTAGACAGTTATGTGAAGATTCAAGAGTATCAATTAAAATCTGAACTTGTTTGGAGAGATTTATACGATAATGATATGTCACCTATTTATTCTAAATTAAACTATGATTATGTTCGTAAAAACCAATGGTTGGTAAAGGAGGAAGACTATGAAACAGCCTAA	MKRVKLYLDDITGNWMVQDHETEKTYDLEELLSVPLGGDVLITNNKLPVSRVKGFKTVTHNEAVELVIKGHKLYTPALDSYVKIQEYQLKSELVWRDLYDNDMSPIYSKLNYDYVRKNQWLVKEEDYETA				NA	NA	NA	NA	NA
AK009_03391	441			hypothetical protein	ATGACAATTACAAAATTTGAAATGTATTTTCATAAGGAAACTGATGAGTGGATTATTAAAAACTCAAAAACAAGTGAAGAAGACTTTTTAAGTCATGTACTAGAAGAACGTTTCAATCGTGAGAGTATAGAAATCGAATTTACAGGTTTTATAAGCAAACAAGAAGAAGTAGTAAAAGAAACTTTAGAACCTAAGGTTGAAGAGTCAAAACCTTTTGTAAAAGTAACTGATTATGAAGCAGTACAACATCTATTAGCAGGAGATATAATGTTAGGTATGAATTCGGACACGTATCTTAATTATCATAGAAACCACCCATATCCAGACGGTAAATTATCTTGGAGAGATATAAACGGTAAAGATATGACACCTGAGGGAGAGGTATTAGACTTAGAATTTGTACGTAAAAATGAGTGGTGGATGAAGGAGTGTAGGAAATGA	MTITKFEMYFHKETDEWIIKNSKTSEEDFLSHVLEERFNRESIEIEFTGFISKQEEVVKETLEPKVEESKPFVKVTDYEAVQHLLAGDIMLGMNSDTYLNYHRNHPYPDGKLSWRDINGKDMTPEGEVLDLEFVRKNEWWMKECRK				NA	NA	NA	NA	NA
AK009_03392	396			hypothetical protein	ATGTCAAGAGAAATCAAAGTATTTAAAAGTAAAACTGGAATACTAATGGTCAGAGACGTAGAGACAGGTGATACATTACCATTTTCTGAATTAGTGAAAGCAGGTCACGAAGAAGAACTTATTCTTATCCCACAAGAAACAGTTCCTTCTATTACAGTAAACGGTACTAAGCTAGAAGTAGTTGAGGGTTATGAATATGTAACAGGTAGAGACGTAGAACATCATTTACAAGAAGGTGAAACATTATACTTCACTGATTTAGAAGGTTGTATGAAATTAATATACAATAATGGAATAGGTAGACTGTATAGTAATCGAAATAGTCCTTCACTTGTAGAGTCAGGTTACAGAATGGACGAAGTAACTCGTAAGTTTTGGTTAATCAAATCTGAATAG	MSREIKVFKSKTGILMVRDVETGDTLPFSELVKAGHEEELILIPQETVPSITVNGTKLEVVEGYEYVTGRDVEHHLQEGETLYFTDLEGCMKLIYNNGIGRLYSNRNSPSLVESGYRMDEVTRKFWLIKSE				NA	NA	NA	NA	NA
AK009_03393	528			hypothetical protein	ATGGAAGTAGTAGAGTTAGCAGTAGTAGAGGAAAACTTAAAACCATTCGCAGGTGTTACAGTAACAGGAGAATGGGAAGAGTGGCATGAAGAAGACGAAAATGGTGTAATGGTAAACAAGAAGTGTTCAAACCTTACAAAAGATGATTGGGACAACTATTCAGCTAGACTACATAATGGTCGTGTATTTTCAACTGATGGAGGTAAAACTTGGTTTGTAAATGAAAACAGTGGATTACCTTTAGATTTTCCTTGTGAGTTACCATCAAAACCGAAAAAATTCGTATTAAGTCATACTGGTTTAGTAGAGGTATCGGGTAAAGAAGCAAGTGACTTTTTACGTAATGGTGGAAAACTATGGTTTGAAGATATGGGTAGTTATTTAACATTTGAACACTACTATGGAGAACCGAAAGTATTTGTTACAACAGAACCATTTCCAATGTATGAAGACGAAGAACCACAACGTGGGCAGACAATGTTTGCACTAGAAAAAGTACAAGCAAAACGATGGTTAAGAGAGGGGTAA	MEVVELAVVEENLKPFAGVTVTGEWEEWHEEDENGVMVNKKCSNLTKDDWDNYSARLHNGRVFSTDGGKTWFVNENSGLPLDFPCELPSKPKKFVLSHTGLVEVSGKEASDFLRNGGKLWFEDMGSYLTFEHYYGEPKVFVTTEPFPMYEDEEPQRGQTMFALEKVQAKRWLREG				NA	NA	NA	NA	NA
AK009_03394	168			hypothetical protein	ATGGACATCTTTTTATGTATAACACTAGGAGCATTTCTTGTATCAGGGGCTTTAGTTATTAGAACCGCATACAAGAGAAGCAAAATAGATATACTAGAAACGAGTGTATTCGGTCTATCAGGGCTAATTCTATCGGTAGGTTTAGTAATACTAGTAATTAAGGGGTAG	MDIFLCITLGAFLVSGALVIRTAYKRSKIDILETSVFGLSGLILSVGLVILVIKG				NA	NA	NA	NA	NA
AK009_03395	327			hypothetical protein	ATGGAAGACTTAAATTTCGATTTCCTAAAAGAATTATCTACGCTACATAACGAGATAGTGTTAGGTAGAAAACAAGATTCAGATTTTCATAGTTTTATCTTATCAAACAAAGAAAGATTCAATAACTTGGAATATCTTTCTGTAGCAATGGAACGATTTGAGTTATCAGAAGAGTATATTCAACAAAACTTTGAATCTTGTAAGTTTGTTTATGATTTTATGAAAGAGAACCGCTGTTTAGCATTAAACACAACTGGTCTACGTACTGGAATCCGTTTAGGAATGTTCGAAGACTTTGTAGAAGACATCATGAAACAAGAGAGGTAG	MEDLNFDFLKELSTLHNEIVLGRKQDSDFHSFILSNKERFNNLEYLSVAMERFELSEEYIQQNFESCKFVYDFMKENRCLALNTTGLRTGIRLGMFEDFVEDIMKQER				NA	NA	NA	NA	NA
AK009_03396	837			hypothetical protein	ATGAAAACCAAAACAGTAAGTGGACTAGCTATTGTTTGTTCATTAGCTATGTTAACTACAGGTTGTGGAAAAGATTCACCAATTAAAGAACAAACAGCAAAAGCAGAAGTAAATGAAATTTTAACCGAAGAAGACTATCTAGGGGTATCAGAGGAAATTGACTACATTAAACCTACTCCAAAAGAGAATAAAGAAGAGGTAGATTATATCAAACCGGCAACTACGCCAAATAGAGTCGCTCAAGGGTTAGAGAGACAGAATGCTAATGATATAGAAGTAGTCGTAAACAAGAAGAACAAGTTACCTGATAATTATAAACCAAAAGATTTAGTTGTACCAAACGTATCTTTTGCTTACGACGGGGTATATGAGAAGTCTCACTTACGTAAAGAAGCGTCAGACTCCTTAGAGAAACTATTTGCACTTGCAGAAAAAGATGGTATCTATTTAAATGCAGTATCAGGTTTCCGTTCGGCTGAGTATCAAACGAAAGTCTATAATGGAAATGTAAAGAAAGATGGAAAAGACCATGCTGATATGTTTTCAGCAAAACCTGGTCATAGTGAGCATCAAACTGGTTTAGTTATGGATGTATCAGCTAAATCATTTGATAACAAGTTAGAGCAAGAGTTTGAACAAACAAAAGAAGGTAAGTGGTTGGCGAAGAATGCTCATAAAACTGGATTTATCATTCGTTATCCAAAAGGTAAAGAAGATGTAACTGGTTATGAGTATGAACCTTGGCATATCCGATATGTAGGAGATATTGCTACTAACCTGTTCGAAAAAGGTCTAACTTTAGAGGAATACAAAGAGCAGAAGGCTACTTACGAGTAA	MKTKTVSGLAIVCSLAMLTTGCGKDSPIKEQTAKAEVNEILTEEDYLGVSEEIDYIKPTPKENKEEVDYIKPATTPNRVAQGLERQNANDIEVVVNKKNKLPDNYKPKDLVVPNVSFAYDGVYEKSHLRKEASDSLEKLFALAEKDGIYLNAVSGFRSAEYQTKVYNGNVKKDGKDHADMFSAKPGHSEHQTGLVMDVSAKSFDNKLEQEFEQTKEGKWLAKNAHKTGFIIRYPKGKEDVTGYEYEPWHIRYVGDIATNLFEKGLTLEEYKEQKATYE	PGPT0024055_594	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
AK009_03397	306			hypothetical protein	ATGGGCGTAAGAAAAGTAGGTAGAAGAAAAATTTCAAATAATGGTGATGCACCACCTTCAAATGGATATCAAACGTATAGTTACGTATCTCCTAAAGTTACTTTAGAGTGTGAGAAACTAACAGAAGACGAGTTAAAAGCATTAAGTAGTGATGTAAAAACGTATCGTGTTGAAGAATTAATCAAGAATAAAGAAGCTATAACGGTAATTGCTGATGATACAAACGGAGTATATTCATTTTTCATTAAGAAGTATGATGTTAAAGAAGGAGACATTGTAAAAGACCCCCTTAGGAGTCGAGTATAA	MGVRKVGRRKISNNGDAPPSNGYQTYSYVSPKVTLECEKLTEDELKALSSDVKTYRVEELIKNKEAITVIADDTNGVYSFFIKKYDVKEGDIVKDPLRSRV				NA	NA	NA	NA	NA
AK009_03398	342			hypothetical protein	GTGAACCAAACAATAGAGTCGTATCCTAAACAAGCAAGCTATTGTGGGGTATGTAATAAAGAAATAGGAGCATACGATAGAGTAGTGTATAGACGAGAAAGAAGTGGTTTATATACATTTTATTGTATGCATTGTGAGGAAGAAGCAAGAAGCTTAAAGGAATGTAAGGTCTGTCAACTACATAGAGCAAACTGTAAGTGTGAAAAGCGCAAAGAAAAGTTATTAGAAAGAGAAAACTATGGTGCTTTAGGTGGTCGAACAAATAGAAAGAAAAAGAAGACCGAAGAATCGAAAAGTAATACATGGTGGACTCATTATCAAAACCAATTAGGGAGAAGGTAA	MNQTIESYPKQASYCGVCNKEIGAYDRVVYRRERSGLYTFYCMHCEEEARSLKECKVCQLHRANCKCEKRKEKLLERENYGALGGRTNRKKKKTEESKSNTWWTHYQNQLGRR				NA	NA	NA	NA	NA
AK009_03399	444			hypothetical protein	TTGAAGAAAACAAAGAGTTTTACAGGCGCAATCAGGGGTATGAAGGCTGGTTTAGATGTAGAAATTAATAATTTCCTTACAACTCATGGTTATGAGTTACTAGATGTACATTACACAATCTATCATGATGTAAACGGTAACCCAGTTCGAGACGCCTTAATTACATATGATGATAAAAAGGTTCAAGAAGAAGAAGTTACGAACAAAAATCCAGACTTAGTACCTACTTTCATTACAAATGGTGGTATTCCAATCGTAAAGAGAATGCATGAAACAATGATAGAGGAAATCCAAACAATAGAAGGTCTAGAAAAGAACGGAGAAAAAGGTGTTCTTAGACTATGGGAGAAATATGGTCAAAACTTACTATTTTCTCATAATGAAATGGTTCTTATGTTAGAAAAACGATTTAAACAGTTACAAGAACTAGAAAAAGAAGAGTAA	MKKTKSFTGAIRGMKAGLDVEINNFLTTHGYELLDVHYTIYHDVNGNPVRDALITYDDKKVQEEEVTNKNPDLVPTFITNGGIPIVKRMHETMIEEIQTIEGLEKNGEKGVLRLWEKYGQNLLFSHNEMVLMLEKRFKQLQELEKEE				NA	NA	NA	NA	NA
AK009_03400	432			hypothetical protein	ATGAAACAAACAAAGTTGTTCAAAACAATGTGTAAACCGAAACAAAATGGAGTAGCAGGTTACGATGATTTAGACGTTGATGTGCAAATAAATGAGTTTATCGCAAACAATGATATTGATGTAATCAGTATTGAGTTAGCAACTGGTATAGATAGTGAAGGAAACCCATATGACCGTGCATTACTATCATATGATGATAAAGTCAAACAGCCATCAAAAGAGCAATTAAAACTAGCAAATCAAGATACTGAGTTAAAATGTATGTCTTTATCAGAACTAATTGAGTCTAGATTATTGGATATTCAAGAATTAAGTAGTATAGAAGGTTTAGACATACCTTTATTATGGGCAAAACATGGTATTTGGATAGTACATAATCTTCAAAGCCAGTTAGAATTAACAAGACGAGTAGAGGAAAGAAAGAACAAATAA	MKQTKLFKTMCKPKQNGVAGYDDLDVDVQINEFIANNDIDVISIELATGIDSEGNPYDRALLSYDDKVKQPSKEQLKLANQDTELKCMSLSELIESRLLDIQELSSIEGLDIPLLWAKHGIWIVHNLQSQLELTRRVEERKNK				NA	NA	NA	NA	NA
AK009_03401	1473	ligA_1		DNA ligase	ATGTCAAAAGGAATTGAGTTTGAAATTGGTAGTTTTCTAGGTGAGTTTGATGTAACAGACTATACAATGAGTCAAGTTGAGAAGTTAGAAGATTACATTGAACAAGCCAATACAATAGCAAACATGAAAACTGGTGAGTTACTAGTTGTAGACGCTATTTATAATGAAATGGTATCTATTTTACGTCAAGTAAAACCGGATTCACATTTATTAACTGAGTTGTGGGAAACTGGTGATGAAGATAACGTTGAAGGTAATCAGTATACAGATTTATTAGTTAAAAACCCGATGAAATCTATCTTAACGGTTAAGTCTTTTAATAGTGCTGAAATGGGTATCTTTAAAAGCAATTATCCTGAGGATGAACCTGTTACATTACATGGTAGTTTAAAAGAGAACGGTTGGGGTATCCGTATTGCTTATATGGACGGTGAATATGTATCAGCAACTTCAAGGGCGAGAGCAAGTGCAGGTAAAGATTTAACAAGGCAAGTTGGAGTTGTATTAGAAAAGAAAGGTTTATTAACGTTAGAAGATGTACCAGACGGATTAGCTGAAGTACGAGGTGAGTTATTACTATCTTTTAACAACTTGGATGAAGCACGAGCATACAATCCAAACATCGTAAGTGCATTCAGTGGGGTAGCAAGTATGGCACGAGACAGTGCAAGTGAAGAGGAAAACGCTTTACTTGATTTCGTAGCCTATACAATAATCCACGAAGACCTAGAATTTGAATCTAAGTCAGAAGAGTACAGGTACTTGAAGGAGTATCTAGGTTTCGAAGTTCCTTTAAACTGGACAATCGAAGATGTAACAATAGATGAACTAGAAGAAGTACTAGAAGACACACTAGCTGAAATTGAGGAAGAGGTATTCAATGAAGCAGAACCGTATGAGTACTTTACAGATGGGGTAGTTATTCAGATAGACGATTATGCTACATTCCATGCTTTAGGTGATGATGGAGGTAAATATAATAAAGGAAACATTGCATTAAAAGTAGGAGCATGGTCACAAGATAATTACTATGGATATGTACAGTATATAGACTTTTCAAAAGGGAAATCAAAACTAAGTCCAGTAGCAATTTTAGGTACTGAGCCAAACCAAGCAGTATTCGAAATAGACGATGAAATATATCAAGGTTTAGACGAAGTAATGGAGTATCACGATATCGAAACTCTAAACTTCAACTTAGCTGACTGTGTTAAGAATTACAAAGACTTAGGAGTAGGTACAGCAAGTGGAAATAAAGTAAGACGGGTTCCATTATATGAAGTAGCAAACATGATTTTACTTGGTATAACGCCAAACTCTATTTTATACTTCAAGTACGGTGGAGAAGCAGGGGTAGTGCCTTGTCGTGAAGACGGCTCTTTAATCAAGGATATTAAAGGTGTTAATTATATAGACGGATTATTTACAGAGGAAGACATTATAGGTTCTGAAGAAGGAGAAGAATGGGCTTAA	MSKGIEFEIGSFLGEFDVTDYTMSQVEKLEDYIEQANTIANMKTGELLVVDAIYNEMVSILRQVKPDSHLLTELWETGDEDNVEGNQYTDLLVKNPMKSILTVKSFNSAEMGIFKSNYPEDEPVTLHGSLKENGWGIRIAYMDGEYVSATSRARASAGKDLTRQVGVVLEKKGLLTLEDVPDGLAEVRGELLLSFNNLDEARAYNPNIVSAFSGVASMARDSASEEENALLDFVAYTIIHEDLEFESKSEEYRYLKEYLGFEVPLNWTIEDVTIDELEEVLEDTLAEIEEEVFNEAEPYEYFTDGVVIQIDDYATFHALGDDGGKYNKGNIALKVGAWSQDNYYGYVQYIDFSKGKSKLSPVAILGTEPNQAVFEIDDEIYQGLDEVMEYHDIETLNFNLADCVKNYKDLGVGTASGNKVRRVPLYEVANMILLGITPNSILYFKYGGEAGVVPCREDGSLIKDIKGVNYIDGLFTEEDIIGSEEGEEWA				NA	NA	NA	NA	NA
AK009_03402	636			hypothetical protein	ATGAGTAAGAAAGAGTCAAACAAGCTAAGAAAAGCAGTATCAATGTGGGTTTATAGAAAAGACTTAGAATTATCAAATGAGGAAATCAGTCAAGAAACAGGAGTAGCAGTAGACGAACTAGAACAAGAGTTAGTAAGGGTTGGATTAATTTCTATTAATAAGGAATTAAATCGTGCAGTAGATTTATATGTAAACCGTTATAAGCTAGGTTTAACAATGGATGAAATTGTAGAGAAAGAGTGTATATCGAAAAGTACTTTGTACGCAGAATTAAAGAACAGAGGTATTGACTGTAGAAGTATAGGTAAAACTTATACACAAAAAGATGTACATGAAGCAGTATCATTATTCTTAACTCGTGAAGAAACAGGGTTACATGTAAAAGACGTTTTAGAGAAAACAGGCGTACCACATTCTGTATTATATAAAGAGTTACATAGATTAGATATAACTTTAAAGGAAAGTAATGATTCAGCGATTAATCTTGCGATTGAGTTATACGAAAACCGAAAGCAAACGGGTATAAAAGTAATAGATATCTTAGAAAGAACAAAAATATCTAGTCAAACTTTATATAGAGAGATAAAACTAAGAGGTGTTCCATATCGAGGTCGTAGTAAGAAAAAGGTAGCTTAA	MSKKESNKLRKAVSMWVYRKDLELSNEEISQETGVAVDELEQELVRVGLISINKELNRAVDLYVNRYKLGLTMDEIVEKECISKSTLYAELKNRGIDCRSIGKTYTQKDVHEAVSLFLTREETGLHVKDVLEKTGVPHSVLYKELHRLDITLKESNDSAINLAIELYENRKQTGIKVIDILERTKISSQTLYREIKLRGVPYRGRSKKKVA				NA	NA	NA	NA	NA
AK009_03403	648			hypothetical protein	ATGAGTGAGCCAAACCTAGAATTACGAGAAGCAGTTTTTATGTATTTGTATCGAAAAGATTATAATTTAAAACTAGAAGATATCGTAGAGCAAACAGGGGTTGCAGAACAGGATATACTAGATGAATTAGTTAGACTAGGTATACCTTTAGAAATAAACCAACTTCAAAAGTATGCAGCTAGTACGTTAGACGTAGCAATTCTCTTACATTTAGGTAAAGAAACGAATGGAATGTCAGTACAGGATATTGCAAACAAAACTGGCATCCATCGTTCAGCTTTATACAACGAATTAAAGAGAAGGGGTATTTTAGATTTAAAGAGTCTTACACCTGACTATAAGTATGATATGGAAAAAGCAATAGAATTAATACTAAACCGTGAAGAAAACAGGTATAGATTAATAGATATTGAATTAGAAACAGGGGTATCGAAGTCTTCCTTATACCGTGAACTAGAAAACAGGGGTATTGAAGTAGTGAACGGGAATCGGAAAACTTCACAAGAAGCGATAGATGAAGCATTAGACTTATATGAAAATAGAAAAGAAAATGGGTTAACAGTACGTAAAATCATTACCCAAACAGGGGTATCGAGAAGTACTTTATATGCAGAATTAAAGAAGAAACAGGGAGAGAAAAATGAGTAA	MSEPNLELREAVFMYLYRKDYNLKLEDIVEQTGVAEQDILDELVRLGIPLEINQLQKYAASTLDVAILLHLGKETNGMSVQDIANKTGIHRSALYNELKRRGILDLKSLTPDYKYDMEKAIELILNREENRYRLIDIELETGVSKSSLYRELENRGIEVVNGNRKTSQEAIDEALDLYENRKENGLTVRKIITQTGVSRSTLYAELKKKQGEKNE				NA	NA	NA	NA	NA
AK009_03404	474			hypothetical protein	GTGGCGTTAGAAGAACAAACTAATTTAGATAAAGCGATACGTTTATACGTAAATAGAAGTAGAACGGGATTAACAGTGAGACAAATATGTAAACAGACTGGAATACCTCTACACACGCTTTATAAAGGGTTAAGAGAACTAGGGTTAGCAATTAAACCGAATAAAAGGGTAGATAAAGAGAAGTTAAATCAAGCGGTTGAATTGTATTTAGAAAAAGAAGAACTAGGGTTGACTGTAGAAGACATTGTAAACAAAGTTGGAGTATCAGCAAGTGTTATTTATAATGAATTAAGAGACAGAGGATACAAATTAAAAACATGTGGTCGTAAATTTGAACAAGAAGATTTAGAAGAAGCGATTTCTTTATTCCTAAGAAAGAAAGAACTAAAGTTATCAGGAGAAGCAATTGCAGAAAGAACTGGAGTACCAAGACAAACAATCTATTGGCATTTAAACAGAAGAGGTTTAAAGTAG	MALEEQTNLDKAIRLYVNRSRTGLTVRQICKQTGIPLHTLYKGLRELGLAIKPNKRVDKEKLNQAVELYLEKEELGLTVEDIVNKVGVSASVIYNELRDRGYKLKTCGRKFEQEDLEEAISLFLRKKELKLSGEAIAERTGVPRQTIYWHLNRRGLK				NA	NA	NA	NA	NA
AK009_03405	846			hypothetical protein	ATGGTTAAAGTATTAGAAACGGATAAACTTGTAGAAGTGGAGATTACTAGAGACCAACAAATCGCTAAAGCAATTGAGTTATATAAGAGTAAGATGAAAGTTAAGGATATTATAAAAGAAACTGGTATTCCTGAGTCTACGTTATACCGTATCTTTAGAGCAAACAATTTAAGAAATCAACCTAGAGATAAAAAGATAGATGTAGAGAAGTTAGAGGAAGCATTAGACTTATTTATAAACAGGGATAAGTTAGGGTTAACTGTTAAGCAAATTGCAGAGAAAACAGGTATTTCCAAACAAACTATTTATGTAGAAGCAAAAGCAAGAGAGGTAAACTTTGAGTTTGTCGGCAAGGGGTATACAAAAGAATCTTTGGAGAAAGCGGTTGAAATGTATCAAAGACCGATACAAGAAAAGATTACACTAAAGAAAATTTACGAAGAGACAGGTGTTTCTAGAAGTGTATTATATAAAGAATTAGAATCACGGGGTATTGAAATCAGACATGGTAATCGTTTATCTTATACCGAAGAGTCTTTAGAAACTTCAGTTCATTTATATAAGAACCGTCATGAACTAGGGTTAGGAGTTTCAGACATTATTGATAGAACAGGTATTTGTATAAACGCCTTACATAAAGAGTTAAGAAAGAGAAAACTAATAAAGGGTAATACAAATAGAAAATACCCTATTAGACTAGTAAACCAAGCAATACGTTTAATCCTTAATAAAGAGAATAATTTTTCAGTTGCTCAAGTATCAGAGCAGACTGGTATTAAGGAAAGCACATTGTTTGCAGAATTAAGAGATAGGGGTATACGATTACGAGAACGGAAGGCGATGTAA	MVKVLETDKLVEVEITRDQQIAKAIELYKSKMKVKDIIKETGIPESTLYRIFRANNLRNQPRDKKIDVEKLEEALDLFINRDKLGLTVKQIAEKTGISKQTIYVEAKAREVNFEFVGKGYTKESLEKAVEMYQRPIQEKITLKKIYEETGVSRSVLYKELESRGIEIRHGNRLSYTEESLETSVHLYKNRHELGLGVSDIIDRTGICINALHKELRKRKLIKGNTNRKYPIRLVNQAIRLILNKENNFSVAQVSEQTGIKESTLFAELRDRGIRLRERKAM				NA	NA	NA	NA	NA
AK009_03406	669			hypothetical protein	TTGGCTAGTTATACAGAAGACCAGTTAGTAAGAGCAATAGAACTATATAAAGATAAAGCAAACAATGGGATGAGGTTACGAGATATATTAAAAGAGACAAACGTACCTTCAAGTGCTTTATATTCGACTATAAGAGAACAGGAAGTTGAGTTGCAAGGCAAAACAAAAGTTACAGAATACCCTAACTTAGAAAAAGCTTTAGAGTTATACGCAGATAGGGGTAGTAACGGTCTAACTGTTAATAGTATAGCATCTAAATATGGTATTCCAACTTCAAGATTGTATTTAGAAATAGATATTAGAGGTATTAAACCAAGAATGAAGGGAAGAAAATATACAGAAAAAGATGTGCATAGAGCAGTAGACTTGTATATAAATAGACCTACAAATGGTTTAAAGGTTAAGGATATATTAGCACAGACAAGCGTAACACAAACAGCTTTATATGGTGAGTTAAATAGACGTGGTATTGTTAGTATTGATAAGAATAAAGAACAAAAAGATTTAAATTCATTAATGAGACGAAAAGGTAACTTAGATAAAGCGGTAGAACTATTCATTCACAAAGATACATATGGCTTAACTGTTACCAAGATTCTTAAAATAGCAAAAGTAAGTACAACAACGTTATATGGGGAATTAAGAAAACGAGGTTATAAAATAGACTAA	MASYTEDQLVRAIELYKDKANNGMRLRDILKETNVPSSALYSTIREQEVELQGKTKVTEYPNLEKALELYADRGSNGLTVNSIASKYGIPTSRLYLEIDIRGIKPRMKGRKYTEKDVHRAVDLYINRPTNGLKVKDILAQTSVTQTALYGELNRRGIVSIDKNKEQKDLNSLMRRKGNLDKAVELFIHKDTYGLTVTKILKIAKVSTTTLYGELRKRGYKID				NA	NA	NA	NA	NA
AK009_03407	288			hypothetical protein	ATGGTGTTGAGTATACTAGGAGCTAGATTTAGAAGAGACTTACATGGTCGAAGAATGATAGAAGATTGTCATTTCTTAACTAACTTATCAAACGGGGATGAAAAATTATTCAAACAAGCTTGTGATGAGTTAGGTATTAAGTGTCATATCGAAGAAGTTGTATTCGATGGATTGAATCGTAGGATTGAAGGAACAGACATGGTAGCATTTTATATAGACAAGTCTTTAGCAAACCTAGACGCATTTTGGAAAAGAGTTAGAGAATTAGAAGAGTTGAAGATTTCATAG	MVLSILGARFRRDLHGRRMIEDCHFLTNLSNGDEKLFKQACDELGIKCHIEEVVFDGLNRRIEGTDMVAFYIDKSLANLDAFWKRVRELEELKIS				NA	NA	NA	NA	NA
AK009_03408	291			hypothetical protein	ATGTTTGAAGAAGAAAAAGAAGAAGAAGAGTGTAGTTCTGACTGTGATTTTGAAGGAAGACTTACTTTTATAAACGGTTGTAAATTCCTATCAAACGTAAGTGATGGTGGAGAAAACAGATATATTAAAGTGTGCAATGATTTGGGAATCAAATATCATGTAGAAGCAATCGCATTCGATAGGTGGGGTAGACCTATTTTGGGAAGGAAAATGGTAGGATTCTATATAGATAAAGACTTTAAAGACTTTCAGTTATTTTGGAACAAACTAAAAGAACGAAAAGGAGTGTAG	MFEEEKEEEECSSDCDFEGRLTFINGCKFLSNVSDGGENRYIKVCNDLGIKYHVEAIAFDRWGRPILGRKMVGFYIDKDFKDFQLFWNKLKERKGV				NA	NA	NA	NA	NA
AK009_03409	348			hypothetical protein	ATGGTCTTTAGTCTATACCTTATAAACAAAAACCTATTAGAAAATATGTATAGACGAGTAGATACGGAGGATACAGTAGAAAGGTATAGCTTAGAACTGGCATCTATAAGTTTAATTGTTGTATCTGTCATGGGACTTGTACAAACACAACTACACTTCTTACCATACAATACGATATCAGGGGTAGGAACATTACTAGCTATATCTATTACTATGTTTTTCAGTACTGAACTAAGTAAGAAAAAGGTAACTACTCGATTCTCAAAGCATAGAAATAAAGCATACAAACTGTCTTCTATTGTGTGTTTAGCAGGGTATATAGTTACAATCATATTTTTGTTAAAGTAA	MVFSLYLINKNLLENMYRRVDTEDTVERYSLELASISLIVVSVMGLVQTQLHFLPYNTISGVGTLLAISITMFFSTELSKKKVTTRFSKHRNKAYKLSSIVCLAGYIVTIIFLLK				NA	NA	NA	NA	NA
AK009_03410	423			hypothetical protein	ATGACAGAATTTTGGAGTTTTATTGGGACAAACATAGAGCCATTATTTCACTTATTTGTGAACATAATGATTTTAGTGTTTCAAGGTATAATCTTAAAAGGATTTACGGAAGACTACTTTAAAGATAGACATCTAAGAAAGTTAAAGTACGATAGAGGTTTTGCCTTGATAACTTTAGGGGCTTTTATCCTCGTTATGATACTTTCAAAACTTATGCACGTATCTATTTACGGTCTTATGGTAGTAGGAACAATCAATACATTATTAATCATCGTTATCATCACATTGGTATTAGAAAACGGTAAAGCGAAACTACTAAACTCATTTATTACATTACTAATCGCTATTTGGGGTGTTGGAAACATTCTTTTAGTTGTTCAGTTAGTAAGAGAAGGAATCGAACTTTGGGGTATGTTAAAGTAG	MTEFWSFIGTNIEPLFHLFVNIMILVFQGIILKGFTEDYFKDRHLRKLKYDRGFALITLGAFILVMILSKLMHVSIYGLMVVGTINTLLIIVIITLVLENGKAKLLNSFITLLIAIWGVGNILLVVQLVREGIELWGMLK				NA	NA	NA	NA	NA
AK009_03411	447			hypothetical protein	TTGATTTTACTAGGTGGTTTATTATTTATTGGGCTAACTTTGTTTACGTTCGTGCAAATACTCATATACATGATAATTGTGCTATTCTACGTGAAAAATGATTTATTTTACATGATTGTAGACAGAGCTTTTAGAAAGAAAACAAGCAATTCTAAATACGAAAACTTGAGAAGATTTAAAAATGAATTAATCAAATTATCGGTGATATATTGTATATTTGTAACTTTTTCATTTTTCTTTGGACTTGCTTCGGTTTTATTTTTAACAGTATTACGAGCAGGAACTACAATTTTGTTAATGATTCTTATGTCATATGAGTTAAAAGCAATACGTCAAGAGGAAGACTTATATACTAAAGTATTGAAAATAATCATTTCTCTAGGGGCAGTTGGTTTAATCCTTTTAACTGTTTTCCATACAGTAGAGAAAATGATATACAGATTCTAA	MILLGGLLFIGLTLFTFVQILIYMIIVLFYVKNDLFYMIVDRAFRKKTSNSKYENLRRFKNELIKLSVIYCIFVTFSFFFGLASVLFLTVLRAGTTILLMILMSYELKAIRQEEDLYTKVLKIIISLGAVGLILLTVFHTVEKMIYRF				NA	NA	NA	NA	NA
AK009_03412	171			hypothetical protein	TTGGATAGGAAAGTAAATGAAGATTTTAAAAGGGAAATGAAAGAAGAAGCAAACTTGAGTCCTTTTGAAACCACTTTATACAATGCAGATGAAGATTGCGAACATGATATTCAACCTTCAAACGGTGGAGGTGTTCATTGTACAAAGTGTAAAGGTTGGTTTTGTTATTGA	MDRKVNEDFKREMKEEANLSPFETTLYNADEDCEHDIQPSNGGGVHCTKCKGWFCY				NA	NA	NA	NA	NA
AK009_03413	108			hypothetical protein	ATGTTATTAGACAAGGTAGAAAAGAAAAAGAAACCGTTAATTAAACTTATGTGTTTTTGTGTAGTATGGTTGATAGTCGCATCTTTAATTTGTTCATTTACAAGTTAA	MLLDKVEKKKKPLIKLMCFCVVWLIVASLICSFTS				NA	NA	NA	NA	NA
AK009_03414	141			hypothetical protein	ATGTCTTTAAAACTGTTAAACGAGATTATTAAAGATATAGTTGGGGTAGTACTCTTTTCGGTATGTTTGACTATGTTCATGACAGACGATTATAGACCCTTAGTAAAACTAGTAGAAGGATTTACTTATTTGTTTAAGTAA	MSLKLLNEIIKDIVGVVLFSVCLTMFMTDDYRPLVKLVEGFTYLFK				NA	NA	NA	NA	NA
AK009_03415	387			hypothetical protein	ATGCGTAATATGACTGATTTTTCTATTATCATAAACTTCATTGTATTTATTGGACAGCTTATCTTATTTATTAAGTTGTTTCGATTAAAGGCGAATGAAGATTTTGTAAACCACAAACGATTATTAGTATACATGACTTTTGGGATTGTCGTTTTACTAAGTATCAGTTTATCCTTAAACGCTGAATATTTAGTACCGCTTATATTAGGAATCGTTTCAAACGTATTTGCATTTGCTATTTGTATAGCAAGACAGATGTATCGAAAAGAAAGACGAAAAATACTGAAAAGAAGAATTTGGATTATAAGAGACGCATTGATGGTATTTTTCATGTTCTCGAATCTATTGCATATAATTATGGTTATTAAACCAATTATACAAGAGTAG	MRNMTDFSIIINFIVFIGQLILFIKLFRLKANEDFVNHKRLLVYMTFGIVVLLSISLSLNAEYLVPLILGIVSNVFAFAICIARQMYRKERRKILKRRIWIIRDALMVFFMFSNLLHIIMVIKPIIQE				NA	NA	NA	NA	NA
AK009_03416	444			hypothetical protein	GTGCAAACAGTTTGGTTCATTGTCTTAACGATAATTGCCCTTCTTGTAAGCGTACTAAACGTTTATAGTACAAGAACAGTATTAAGTAAAGCAAGTAAGGAAGAAGGGGTAGATGCTGAAAAAGAGAAGGGTTCAGCAGTAGTTTTAGTAACTTTATTGTTTATTATGTGTACGGGAACTTCTTTTGTTGCAGGTTCAATGGAGATATCACTAAAACTAATAGGTTATTACATCGGTATAACTATTATTATGTGTTTAGTACCTGTTGTCTTTTTAAAACTAAGAAAGAAACATGAGTTACTTTCAAATCTTGTTCCAGTCTTTGCTATATTTGTGTTATTTTATCCTATGAGTGAACTTATAAATATGATGTTTACAGTATGGAAGGAGATAACAGACATACCATACCCTTATATAAACTTTATTTCATGGTGGTGGGAATAA	MQTVWFIVLTIIALLVSVLNVYSTRTVLSKASKEEGVDAEKEKGSAVVLVTLLFIMCTGTSFVAGSMEISLKLIGYYIGITIIMCLVPVVFLKLRKKHELLSNLVPVFAIFVLFYPMSELINMMFTVWKEITDIPYPYINFISWWWE				NA	NA	NA	NA	NA
AK009_03417	369			hypothetical protein	ATGCAAACGGTTATATTTTATATTATAGTAGCTTTAGTCACTTTCATGAGTAGATGTTATTACGATTATGGTAAAACAGCAAAGAATGAGGGAAACAAAGTAGAGAAGATACTAGGATATTCAATTAGTACTATATCAGCTATTGTTTTCTTTTTCCTTTTATATGATGGTGGACAGATAAATGAAGAAAAAGACTTACTAATCAATTACCTAGTTATTGTTTTTGCATTAATAACAATGATAGTAGGAATAGATTTCAGAGAAAAAGTAAAACTAGAAGGTCTAATGCAGTATAAACTTAAATTACATATAAACAGATTTATGATAGTCGTCTGTTTTGGGTTTCTAGTAGCAAGAATTATCTTATAG	MQTVIFYIIVALVTFMSRCYYDYGKTAKNEGNKVEKILGYSISTISAIVFFFLLYDGGQINEEKDLLINYLVIVFALITMIVGIDFREKVKLEGLMQYKLKLHINRFMIVVCFGFLVARIIL				NA	NA	NA	NA	NA
AK009_03418	387			hypothetical protein	ATGGTATTCACATCAGTAAACGTACTTATCTTTTTAACAGTAGCTACAGTATTCGTTTATTTCTATTACGGTTACAAAGCAAGAAAACAGGGAAACAGTAGAGAAGAAATGTTTGGTTTCTTTATAGGTATCCTAATTGCAATTATATCCTCTTTAGCTTTAATAGATATAGACAAAGTAGTCATTTCAAAAGACCGTCTACATGTAATCATTGTATTAGCTTCTTTCTTAGCATTAACTGTATTAAATTTATTTATGCGTTACAAGTGGCATATTCAAGGGTTAAGAGAGTTTAGACTTCATTTGAATGTAGGAAGAATTTTAATTCTTGTTTGTGTCGGTATTATGATATTCAAGACACACGTATCATGGGTACACCACGTATAA	MVFTSVNVLIFLTVATVFVYFYYGYKARKQGNSREEMFGFFIGILIAIISSLALIDIDKVVISKDRLHVIIVLASFLALTVLNLFMRYKWHIQGLREFRLHLNVGRILILVCVGIMIFKTHVSWVHHV				NA	NA	NA	NA	NA
AK009_03419	387			hypothetical protein	GTGAATCAATTAAACTTCGCATTATTCGGGGTAGTAGTTATTTTATTAACAGGTACAAGTTACCTTTATTATGGTTACTTTAAAACAATGAAAACAGCAGAGAATAAAAATGAAACAGCTTATGCTTTTATATTTGGATTTATTATTTTCCTTATAACTACATTAGGACTTGTTATATCAGACCACATAACTGTACAACAAGAGAAAACATCTTTACTTTCAATTCTTATTGTTTTCTTAGCAAACGGTATGTTAGCTATTTGGGTAAGAGGTATGTACGATTTAACGAAGTCTAGTAAGTATAAAACATGGGTAATGTTAGTTAGACTGGTTTCTATTACTTGTATTATTATAGTTGGATTTAATGTGTATAAAGTAATAGGTTAA	MNQLNFALFGVVVILLTGTSYLYYGYFKTMKTAENKNETAYAFIFGFIIFLITTLGLVISDHITVQQEKTSLLSILIVFLANGMLAIWVRGMYDLTKSSKYKTWVMLVRLVSITCIIIVGFNVYKVIG				NA	NA	NA	NA	NA
AK009_03420	378			hypothetical protein	ATGGGCTTTATAACAGACTCTACATTCTTATTTATGATTGTAGTAAATGTACTACAGACAATTATGTTGGGTAGTACCTTCTATATTGTTTTTCATTTGCAAGATAAGAAGAAAATCAAAACACTCATGGTCTATGTAACCGTATTAAATCTAGAGTACATTGGGGTATTAACGGTATTCTGTTTGTATAAGGGGTTTTATCCATATGAGCAACTGATAGCCGCTATAGTAACAAACGTATTTCTACTCGTATATTTAGGTATTACAAGAAGTAAAACGGGAGAAAGAAGAGAAGTAAACGTAATGAAGAAAGTATTGTATGCTATGTGGTTAGTAGGGAATACAGTATGTTTACTAATCTTCTTAAACTCCATTTAG	MGFITDSTFLFMIVVNVLQTIMLGSTFYIVFHLQDKKKIKTLMVYVTVLNLEYIGVLTVFCLYKGFYPYEQLIAAIVTNVFLLVYLGITRSKTGERREVNVMKKVLYAMWLVGNTVCLLIFLNSI				NA	NA	NA	NA	NA
AK009_03421	459			hypothetical protein	GTGAAAGGCGCAAATGAAAAGTATGATTTAATTACAAAAGCAGTACAAGAAGGGGTAGGGGAGTTAGAGAAATTAAAACTAAAGTATGGTTGGAACGGAGGGGATTCAGAAGCATTCCTTCATGGAAACTTAATTTTTGTTATAGCAACTCACGCTAGAGGTAAAACATTCCGTATCTTTATTACAGAAGACCCTACACAAGCACATGAACAAATTAAAGATACAGCTTTAGAAGTATATGGTGTAACAGGTGGTCAATTAGGTTGGACTGAAACATATGGATGGATTCATGAAGGTGCTTGGGTAGATGCAATTGAGCAATACTTCGCAACTTTAAGTAATACGTTACATTTAATAAAAGAAACACGTAAGAAAGAGAAAGAAAAGAAAAATACATCAGACCATTTAGTGTTAAAAGGAAAACTTACAAATTTGTCAGAGAAGTTCAAACAGGTTTAG	MKGANEKYDLITKAVQEGVGELEKLKLKYGWNGGDSEAFLHGNLIFVIATHARGKTFRIFITEDPTQAHEQIKDTALEVYGVTGGQLGWTETYGWIHEGAWVDAIEQYFATLSNTLHLIKETRKKEKEKKNTSDHLVLKGKLTNLSEKFKQV				NA	NA	NA	NA	NA
AK009_03422	387			hypothetical protein	ATGAGTGAAAAAGTATATCCAGACCATTACTATATGAGAGCAACTGAGAAAATAATAGACAGAGAGGGTACTACAGGGTACTACTCTCGTCTTATTGCCACAAACGAGATTTACGGATATGTAGTTGAGAGTTATAGAGTGAAAACAAAAGAAGACTTACTAGAAAAGGTAGAAGAAATACTAACAAGGCATTTAGGAAAATTAGACGAATACACAAGAGTTGAAACACCTTATGGTTGGAAATACGAGTTGTATGTACATTGGTTTAATGATGATATGGACTACAGAGTTACAGATAAAGACGGAGATTGGACGCACCATGAAGTATTTAATGTAGATATTAGTCTTTTTGAAGAAGTACATAATCCAATGTCAAAACTGAGTTAA	MSEKVYPDHYYMRATEKIIDREGTTGYYSRLIATNEIYGYVVESYRVKTKEDLLEKVEEILTRHLGKLDEYTRVETPYGWKYELYVHWFNDDMDYRVTDKDGDWTHHEVFNVDISLFEEVHNPMSKLS				NA	NA	NA	NA	NA
AK009_03423	309			hypothetical protein	ATGACAAAGATGATTGAGTTAAATGGTGAAACACATTTTCTAAACACAATTCACGATTTTATTGAATTGTTACCACACGATTCTCAAAAACCTGTTTATGATTTAATGGAGGAAGAAACAGGTGGAAAGGATTTAAAGACTGAATTTCGTGCATTAGAGGGTTCACTAGATGACCAACGAAAAGCGGTAAATGAAGTATTAAACTTACTCAATAAGATGGAAAAGCATATGGAAGGTGCAAGATTAAACCGTAAAACATTAACAGAATGTATTTCAAGTGCAAAACAAGTCATTAATAATACATTCTAA	MTKMIELNGETHFLNTIHDFIELLPHDSQKPVYDLMEEETGGKDLKTEFRALEGSLDDQRKAVNEVLNLLNKMEKHMEGARLNRKTLTECISSAKQVINNTF				NA	NA	NA	NA	NA
AK009_03424	396			hypothetical protein	ATGAAAGAAAAAGAAGATTCCTTATATGTTGTGGTGACAGAGAATCCACATGATAAATTTGGTAATAAACCATTAGCAATGAGATTGTGGCATGAAAGCTTAGATTTAAAATTGTTTATTATGCCAAAACATGCATTTAAATCAGAAGAACAGTTTAAGAAAGAAATGATATTAAAATTAAACCGTGCTATTCCTGATTTTAAATCAATGAAAGAAGAAGAAACTTCATTTGGTTATAGATACATAAAATATATTCTTAAAGACCCTGATGGTGCAGTTTGGGACGTTGAAACAGAAAAACAGGCAACCCACATTTTAGAGTATAACGTACATAAAGTAGAAGTAAAACTTGGCGAAGATAGAAAAGAAGTATTAAATATCAGAAGTATCAATTGA	MKEKEDSLYVVVTENPHDKFGNKPLAMRLWHESLDLKLFIMPKHAFKSEEQFKKEMILKLNRAIPDFKSMKEEETSFGYRYIKYILKDPDGAVWDVETEKQATHILEYNVHKVEVKLGEDRKEVLNIRSIN				NA	NA	NA	NA	NA
AK009_03425	135			hypothetical protein	ATGGAACACAAATTAAGTAATGTCCCTTATATAAAGTGTAAGAACTGTGGGAAAGAAACGATACAAGCGATACATTTTAAAGTGTGTCAGCATTGTAAACAGGTCTACACAAAGAAAGCAAGTACAGACAAGTAA	MEHKLSNVPYIKCKNCGKETIQAIHFKVCQHCKQVYTKKASTDK				NA	NA	NA	NA	NA
AK009_03426	189			hypothetical protein	ATGATAGATATACTAGAACTAAACTATACCTTTCTCTTCTTTTTAATTTTGTTAGAAGTAGCGGTATTTCTACTACTTATGAACGAAATGAAGCATAAAAGACCGGATGAGAAGAAAGTAACGATTCCACTTTTATTACTAACTTTCATATTACTTGTGTGTCTGTTCTCCTATTTCATCGTTTTCTAA	MIDILELNYTFLFFLILLEVAVFLLLMNEMKHKRPDEKKVTIPLLLLTFILLVCLFSYFIVF				NA	NA	NA	NA	NA
AK009_03427	420			hypothetical protein	GTGGAAACAGTAGTAATAGAAAAGAGTGTGTTAGATTATTTCATCATAATAGGGGTATTCTTAGTACAGACTTTCTTCATAGGTATGTTAGTTTACTTAAAGAGAAAGAAACGTACTATAGGAGATTCAAAGATACTTCCTTTTGGTTCTGTCATTACAGTAGTTTTATATTATATCTTAATAAGCCAATCAAACAGTTTAGAGATTAATGAGTTCTCTATAGCATCTTTAGTAAACGGAGTTGTAATCAATCAATTCTTAATCTTAATGTATATCTTTACTTGGATTAGAGACCATTTTAAAGCAAAGAACTCTCCTAAATTGTTAACGAATGTAGGAGTTATCCTATTTATGTCGTTAGCAGTTGGGTTATACGGAATCTACTTATTAAACTTCATGTTTAGTTGGGTGACTGTATAA	METVVIEKSVLDYFIIIGVFLVQTFFIGMLVYLKRKKRTIGDSKILPFGSVITVVLYYILISQSNSLEINEFSIASLVNGVVINQFLILMYIFTWIRDHFKAKNSPKLLTNVGVILFMSLAVGLYGIYLLNFMFSWVTV				NA	NA	NA	NA	NA
AK009_03428	426			hypothetical protein	ATGGAGATTACAGTTTCACTAGACGTACTAAACATAATAGTAAGAGTAGGAATACTAGTTGTACAAACAGTTATATTTTTGAGTATTAGTAGTTTACTTTTATTTAAGAAAGACTTACTAGATTATAAGAGAGTTTGGATTCCTACAGTTTTAACAATACCACTATATTTTATTTTAATCTATATGGGAGACGTAATAGATTGGTCAAAGCAAACTTCTAATATGATATTCTTCGGATTAATGATGGGTAGCTTCTTTCCAATGTACTTCTTCACATATTTAGCAAAGAGAAACTATAGGAACAAACATAGATACATGCCTAAGTATTTAGAGTTTATGTTAGGAGCATTTAGAACTTTCTTTTTCCTAATATTAACTCTAGTATATGGTATGCTAATCTATCATTTTGTTATTAGTTTTAAATAG	MEITVSLDVLNIIVRVGILVVQTVIFLSISSLLLFKKDLLDYKRVWIPTVLTIPLYFILIYMGDVIDWSKQTSNMIFFGLMMGSFFPMYFFTYLAKRNYRNKHRYMPKYLEFMLGAFRTFFFLILTLVYGMLIYHFVISFK				NA	NA	NA	NA	NA
AK009_03429	381			hypothetical protein	ATGGCACAATTAGGGGTAGTATTAATTCAAGTATTGATTATCTTAACTATCATACAATCTATGGTAGTGAAAGAGAAAGGCAAACTACAAAAGAGGTTGTGGATGTTTCCTTTCATTGCTTTATTTGTATTTGCACTCTTAACTTTCATAGGTGATAGAATAAACTTACCATCTACCTTAGCAGACACATTAGCTACAGGAGTAGCATCAAATGAGTGCTTACTATTGTATTTCGGAAGTATTTGGGTAGAAGAAAGGCACAAAAGAAACGAAGCTATTTATCAAAACTATATAAAGTATGGTGTATTACTATTAAAGTATGTAGCACTAGGGTTTGGAATTCTATTAACTTTAGTCGCAATAGCAGACTTATTTATATAA	MAQLGVVLIQVLIILTIIQSMVVKEKGKLQKRLWMFPFIALFVFALLTFIGDRINLPSTLADTLATGVASNECLLLYFGSIWVEERHKRNEAIYQNYIKYGVLLLKYVALGFGILLTLVAIADLFI				NA	NA	NA	NA	NA
AK009_03430	468			hypothetical protein	ATGATAAACTATTGGGATTTAGCGGTCATTGTACCGTGTGTCGTTATACAGATATGGTTAGGTTTACTAATCATGGATTATCTCATTAAACGAGGTAATGAGAATAAGAAGAATGAAATTAAGCAAACGAAACTTATGAGAAAAATTGTAGGAAACCGAGATATAAAAAGTATCAAGAACAAAGTAATCATGGTTTCTATCCTGTTAGGGGTAGTTCTACTATGTAGACAGTGGATTTACGATTCTAGATACACAAACGATTTGCTATTTGGTAGTTTACAAATAAACGTACTATTTTTATTATGGTATGCGTCAGCATTTAAAACACAAAAGCCAGACGATAGTAAGTTAATTCAATCATATGCAAAGATACTAGGACGTATTAGTATATCATTCGCATGTATGGGGTATTCCGTATTCTATGTATACTTTGTATTTAAACTTATCTTTTCAGGAGAGTTCATTTAA	MINYWDLAVIVPCVVIQIWLGLLIMDYLIKRGNENKKNEIKQTKLMRKIVGNRDIKSIKNKVIMVSILLGVVLLCRQWIYDSRYTNDLLFGSLQINVLFLLWYASAFKTQKPDDSKLIQSYAKILGRISISFACMGYSVFYVYFVFKLIFSGEFI				NA	NA	NA	NA	NA
AK009_03431	558			hypothetical protein	GTGTGTCACGTACCTAAATGTAATTGCCTGTCAAACAGTTTTTATCGTTCCATTTTAGAAGGTAAAGGAAGGTCACTCATACTAGGGGTAGATGAACTCTTTGAATGTAATGGAGACCATTTTATAAAAACATTATTAAACGAAGATAAATATTATATAACACTTAGCACAGAAGGATTAACTAAATTATTACGTAAGAAACAAATAACTTCATCAGCTACAAATTATATTATAAATAGAGTTAAATATTCAGAAGAAGAACAGTATGTACGATTAAGGGCTTATCTAACAGCAAACCGAGAGGTTGGTAAGAAGGTAACTTATATAAGAGTAAAAGATAATACAGTAATAACGAATAAAGAATATATGGAAGATTTCAGTTTACCTTTAGAAGACCTACTAGATTACATAACTTTCTTAGGATATAAACCAGTAAACTTAAAAACAAAAGAAGCAACTAGAGAAGTAGACTTAAACGATGTAAGTGACTATGTTTTCGCTGACAAAAGGATGGATGGTCTTTTAACAATATTCATAGACGTAACAGAGGGCGTGTAA	MCHVPKCNCLSNSFYRSILEGKGRSLILGVDELFECNGDHFIKTLLNEDKYYITLSTEGLTKLLRKKQITSSATNYIINRVKYSEEEQYVRLRAYLTANREVGKKVTYIRVKDNTVITNKEYMEDFSLPLEDLLDYITFLGYKPVNLKTKEATREVDLNDVSDYVFADKRMDGLLTIFIDVTEGV				NA	NA	NA	NA	NA
AK009_03432	324			hypothetical protein	ATGACAAACACAACTGATAAAGTAAAAGCGATTATTGAAGAGAATTGGGATTTAACAAATGAAACAGTAAACACAATTCATTTTCGTTTTGGAACAAGTCGAGGAGAACCTAAATTTGTTTATAAAAAAGATACTGAAACAGTAAACCTAGTAGACAAAGACATAGATTCTAGAAAAGAAGCACTATCTGTAGAAGTTAAAACACTAATTTACAGTCAAATCCGCGACGGGGTAGAACCAATAGACGCTCAAAAAGTATTCTTAGAACGTAATACAGATGAAATGAAGAAGATAATTGAACTGTATGGTGGACATAATGATTAA	MTNTTDKVKAIIEENWDLTNETVNTIHFRFGTSRGEPKFVYKKDTETVNLVDKDIDSRKEALSVEVKTLIYSQIRDGVEPIDAQKVFLERNTDEMKKIIELYGGHND				NA	NA	NA	NA	NA
AK009_03433	366			hypothetical protein	ATGAATTTAGCACAAGTAGACATACATACGAAACAGTTAATTACAAACACAATTGGTAATTCAATTGATACAAACTGGTTCTTTAACTGGTTAACAACTAGAGTAGGTAGACAGTATACAATTTACAACGGAAGTGACATTACAAATCTTGAAACGCTAAAGAATCAACGAGAAACTTGTATTAAGACAGGTATTATCACAAGAGTTTTCGAAGATGGAAATCGTATTTATATAGAACTGAATAACGACCCATATAACTTAGATTTCTTTGACTATAAACAATTTACAGGTATTTGTACACATGGTTACGGAATGTATTATATTATCTATCCAAACTGTACGTACCACAAGGTTCACATTCAATAA	MNLAQVDIHTKQLITNTIGNSIDTNWFFNWLTTRVGRQYTIYNGSDITNLETLKNQRETCIKTGIITRVFEDGNRIYIELNNDPYNLDFFDYKQFTGICTHGYGMYYIIYPNCTYHKVHIQ				NA	NA	NA	NA	NA
AK009_03434	783			hypothetical protein	ATGTTTAAAAGTAAAGTATTAAACAGTAAACTAGTAAAAACATTAGCCTTAACTACAGGGATTTTAGGATTTGCAACTGGTTGTGATAACTTAGTAGACCAAGCTACTCAAACATTTAAAGCCGACCACGGAGTTAAAACAGAAGAGGTAGCACAAGCGAAGAAACCAAAAGTTACAGATTTAAAGAAAATCGCAACGAGTTACAACGGTGAAAAGGTAGTAACAGTTAACAACAATAAAGCAGACTTTACACAAGACCAATTAGATAAGGTAAGATTAACTCAAACTGACCCTACATGGCAAGAATACTCGAATTTAGATAATATGAATAGAGTAGGGGTAGCAACGGCATTACTTGGAATGCAGAATCAACCGAAGGAAAAGCGTGACGATAGATTAAATACAAAACCTACAGGTTGGCATCAAAAGAAACTAAGTGATGGTAGCTACTTGTATGATAGAAGTCATCTAATTGGATTCCAGTTATCAGGACAAAACGATAACCCGAAAAACCTTATGACAGGTACAAAAGACTTTAATCGTAAGAGCATGTTAAAATATGAGAACATGGTAGACAAAGAAGTAGAAAAAGGAAGCTACGTCTTATATGAAGTAAAACCCGTATTCATTGGAAGTGAAAAGGTTGCTCGTGGTGTAAACATGAAAGCAAAATCAATGAACAATCAAAATTTAGAATTCAACGTATTTTGTCATAATGTACAAGATGGGGTAGAAATAAACTACGAAGACGGAACTTCTAAACTAACAGGTAAGTTGAAATAA	MFKSKVLNSKLVKTLALTTGILGFATGCDNLVDQATQTFKADHGVKTEEVAQAKKPKVTDLKKIATSYNGEKVVTVNNNKADFTQDQLDKVRLTQTDPTWQEYSNLDNMNRVGVATALLGMQNQPKEKRDDRLNTKPTGWHQKKLSDGSYLYDRSHLIGFQLSGQNDNPKNLMTGTKDFNRKSMLKYENMVDKEVEKGSYVLYEVKPVFIGSEKVARGVNMKAKSMNNQNLEFNVFCHNVQDGVEINYEDGTSKLTGKLK				NA	NA	NA	NA	NA
AK009_03435	261			hypothetical protein	ATGAGGAAAGTAAATCAAACTCACATTAAGAAAACAATTAAACAAACTGGTAGTTGGACTGGATATATTGCACCTAGTAACGTACCACAAGAGAATGTAGTTACAGGATGGGGTATGGGAAGACTGACTACAATTACAGAATTAAGCAGTACATTAATGGTAGACAATAATGCATACTCCTTAGAATATTTATTAACTCATTTAAAAGCCAATAACGAAAGAAACGGATTAGGTAATGGCATTGCCTATTGGGAGGCATAA	MRKVNQTHIKKTIKQTGSWTGYIAPSNVPQENVVTGWGMGRLTTITELSSTLMVDNNAYSLEYLLTHLKANNERNGLGNGIAYWEA				NA	NA	NA	NA	NA
AK009_03436	273			hypothetical protein	ATGGGTTTAAAGAAAGTAACATTAGCACAAGTAAAAGCATCGGTTAAGAAGAACAAAAGTTGGAATGGATATGTAGCACCAAACAAGGTAGCAGAGTTTCATGTGAACCAAGGATGGCACTTAGGGGTACAAATTAACGTAATGACAAACGATAACGGGGATTTATTTGTAGGTGGACAGCATTTATTAACAAGATATCTAGAAAACTTCCAGTATCATAATTGTAACAACGAAGTAGGAACAGGGGTAGCTTATTGGGAGTTGACAAGCTAA	MGLKKVTLAQVKASVKKNKSWNGYVAPNKVAEFHVNQGWHLGVQINVMTNDNGDLFVGGQHLLTRYLENFQYHNCNNEVGTGVAYWELTS				NA	NA	NA	NA	NA
AK009_03437	297			hypothetical protein	TTGCAGTTAGTTACAAAGAAAAAGTTACTAACAGTAGTAGACAATGATGGGTATTGGAAAGGCGTATTTGCACCATGCAAGATAAGGAAGACCTACGTAAATGATAATCACCCTTCTTGTACTGAGGTATTGATTCAAAAGATAAAATATACGAATGGTGAGATAAAGACATTAGTAAAGACAGTTAGAAACCCATATGGGAAAGAGTTAGAGTTAGAAGAGTTTATTGAAAACTTCATTTTCCACAATTGCAATGAAGAAGACGGAATAAACATTAAATATTGGCAGTTAGCATAG	MQLVTKKKLLTVVDNDGYWKGVFAPCKIRKTYVNDNHPSCTEVLIQKIKYTNGEIKTLVKTVRNPYGKELELEEFIENFIFHNCNEEDGINIKYWQLA				NA	NA	NA	NA	NA
AK009_03438	252			hypothetical protein	ATGGTATTAGATTTCATAACGAACGGCAAAATCACACAAACTCATTTAAACTTGAAAATGAACCCTTCAAAGTTCATCAAAGTTGGGGTAAGTGAGGATTTAGAAACCGTTCTATTCTCATATCTAGAGTTAGAAGACCGTTGCAACTTCATAAATCCTTCCATTATTACTGTTTTATTAGCTAGAAAAGTAATAACAAGAGAAGAACAAACGGTGGACGGTCAAACAATTCTACTAAAATATAGCTATTAA	MVLDFITNGKITQTHLNLKMNPSKFIKVGVSEDLETVLFSYLELEDRCNFINPSIITVLLARKVITREEQTVDGQTILLKYSY				NA	NA	NA	NA	NA
AK009_03439	549			hypothetical protein	ATGGCAACTGAGAAAGAAGTTGTAAGTTATTTAGCAACATCAAACGGATACAAAATAGGAGAACTGGTAAAAATGCCTGACGATGGTTCAGCAGATTCACCGCAGGTAAAACACATATGTCGTAATGGGGTAGCGTTTATACCTAGAGTAGAACTTACAACTCGATATCAACTAAGTACAAATAAGATTAGAAACTTACAATGTTACTATTGGAATTGTATGGCTTGTGGCAAAACGTATTATAGTGCAAATAAAGAAGATATAGATATCTCAAACAATAATAAACAGCAACAAAACATGTATAACCCGAATATGGGTCAACAAACAAATATGAGTCAAGGTTATCCACATCAAAACCAATATCCAAATCAGCAGTATCAGCAAGGGTATCCGAATCAACAATATCCAAACCAACAATATCAGCAACAACAAGGGTATCCACAACAGGGTTATCCGCAACAAGGTCAAAACTATTATAGTCAACAACAAAATAACCGCCAACAGCAACCTACTCATCAACCAAATCAAGGAGTATGGAGAGGTTACTAA	MATEKEVVSYLATSNGYKIGELVKMPDDGSADSPQVKHICRNGVAFIPRVELTTRYQLSTNKIRNLQCYYWNCMACGKTYYSANKEDIDISNNNKQQQNMYNPNMGQQTNMSQGYPHQNQYPNQQYQQGYPNQQYPNQQYQQQQGYPQQGYPQQGQNYYSQQQNNRQQQPTHQPNQGVWRGY				NA	NA	NA	NA	NA
AK009_03440	876			hypothetical protein	ATGTTCGAATTAGCATCAATACAGAAACCAACCGTATTAAATGTATTACAAAACACAATGGAAAGTGGATTAGGATTAGATATTTCTAAGACTTCAACAGGTATTACAATCTTTGATGGAGAAACGGTTAAAACATATCAATGCGTAATAGAATATGATGAAGACTCACCGTTCCATTGGTATCTACTAACAAAGGCATTAGAAGACGATTTAAAGTCTTTATTACAAGGAAAACATTTTGATGTAATAGGTATAGAAGATTCAATTCAAGGGGAAAACTATGATACAGTACGAAAATTAATCCTTCTTAATAGTGTAATAGATAAAATTATCATGGAAGGAAACGTAACTTGTGATTATTTCAAACGAATTGGTAATACAGTTTGGAAGAAATGGTTAAGAACCTTAAAGCCTGGCAAGAAGATTTTAAAAGATAAAGCAGAGATTGAAATGATTCTAGATTACTTGGATTTTCCATTAGTAGACTTATATCGTAATGAAAAGAACAGTGTAAAAGAAAAAGATGGATATCAAGACCAATTAGATTCTACAGGGGTATTAATTGGTGTAGGACTTGAACGTCAAAATAATAACCTAACTGGCAAAAATAAAAAGAAACCTAGCAAGTTACGTATACATAATTATAGTAGTGCAGAAGAACTGTTAAAATATCATGAAGGTACTACTTTAACCCCGATAAATCTAGGTGGGGACTTAAAATCTTCTGTTAAAACCTTTTTTGAAGGACTGTCCAACGAAGATAAACAGAAAAAGTACTATATGTGTAAAGACTCCTTAGGTAGCTTGGGTTTAGAGTATGGACTTGCGGATTACAGAAATGGAAACCACATTGTCATGTACCATGAATTAAAATAA	MFELASIQKPTVLNVLQNTMESGLGLDISKTSTGITIFDGETVKTYQCVIEYDEDSPFHWYLLTKALEDDLKSLLQGKHFDVIGIEDSIQGENYDTVRKLILLNSVIDKIIMEGNVTCDYFKRIGNTVWKKWLRTLKPGKKILKDKAEIEMILDYLDFPLVDLYRNEKNSVKEKDGYQDQLDSTGVLIGVGLERQNNNLTGKNKKKPSKLRIHNYSSAEELLKYHEGTTLTPINLGGDLKSSVKTFFEGLSNEDKQKKYYMCKDSLGSLGLEYGLADYRNGNHIVMYHELK				NA	NA	NA	NA	NA
AK009_03441	573	dnaG_2		DNA primase	ATGGACTTACAAAGACAGGTCGTTACAAGTCGAAAGAATGGGAAGGTAATCGCAACTGTTGAAGATTACTACGATAGATTCGTGCATGACATGGGGGCAAAATACAAGAAAACTAGCTTTACAAAAGATAAACTATGTATTTGCCCCTTCCATGATGATAATGATGCATCGTTAGGTTTATTCCGAGATAAACATGATAAAGAAGTTAAAATCTTTCACTGTTTCGGTTGTGGAGCAGGTGGAGACATCGTTCAATTCCATAGAAGACTTATTAACATTACAGAACATAGAAATATCTCATTAGAGGTAGCAAGTAAAGAAGTAGCAAACTTATATGGAATTGAAATAAATGAAGAAGCTATCGAAGAACACTTAAAATCGTTACTGTTTGAACGAGAATTGGAAGTAGAGAGAAACTTAGGTCAATATAACTTCCGTTCACATAGTAGTAACTTAATGAAACTAAGAATGGAACAAGAAAATATGTCATTAGGTGATTTTAGTGAAAACTTAGATGTAGTTATAAACATGTGGAAACTAGCAATCAGACAAGCGGAAAATAAAGATAATTAA	MDLQRQVVTSRKNGKVIATVEDYYDRFVHDMGAKYKKTSFTKDKLCICPFHDDNDASLGLFRDKHDKEVKIFHCFGCGAGGDIVQFHRRLINITEHRNISLEVASKEVANLYGIEINEEAIEEHLKSLLFERELEVERNLGQYNFRSHSSNLMKLRMEQENMSLGDFSENLDVVINMWKLAIRQAENKDN				NA	NA	NA	NA	NA
AK009_03442	684			hypothetical protein	ATGTCTAAGGAATCAAAACGTGCTATATACGATGTGTATAATAGAGCATGGTTCAGTAACCCTACAATCAGGGCGTTAGGGTACAACGAAGACCGCTTCTGTACTGGATTGGCAACCACGCCAAAAGAACTTATTCCATTACTAAACAATAAACAATGTACAGGGGTGGTATTTCTTACAAGTCCTGTAGACTTTGAAGAGTATCATAAGAACACAGGTAAAAAGATACAGATAGAGAAATTTATCAACGGAGAGGAATTTCTTCACTATTCGTATCGTGATTACGCAAACGCCATGTTAGAGTGGGGTTTAGATATATCTGATAAAGAAGACTTATATAAGTTCGATAAAAGATTAGAAGGAAATAGTTTATTCCTAGACTCTCTTATCAATTATGGTTTCAAGAGTAATATAGATGTAGAACCATTTGCTATGAAAGTAGAAGGTGGCGCACAATTTCCACTACGAACTGTATATTTGACAAGAGGTAACTTAACATTTTGTGTAACAAGTGAGCAAGTCGCTATCAAAGTTGGGGTAGACGATTTCATGATAGTACATGATGCAACAAGAGATATAGACTTCCAACTACTAGTAGATATTATGGCAAGAGGTTTAGGTCTTAGTCATGGTGAGTTACAGACAGAACTTATTAAAGCAATTGAATTAAGCGATATTAGTTAA	MSKESKRAIYDVYNRAWFSNPTIRALGYNEDRFCTGLATTPKELIPLLNNKQCTGVVFLTSPVDFEEYHKNTGKKIQIEKFINGEEFLHYSYRDYANAMLEWGLDISDKEDLYKFDKRLEGNSLFLDSLINYGFKSNIDVEPFAMKVEGGAQFPLRTVYLTRGNLTFCVTSEQVAIKVGVDDFMIVHDATRDIDFQLLVDIMARGLGLSHGELQTELIKAIELSDIS				NA	NA	NA	NA	NA
AK009_03443	696			hypothetical protein	ATGAACTTCAGATATGCAATTTTAAACCTAACAGAATTTAAAAGTACAAAGAAACATTTCTACTCTGAACTGGAACAACGTTTCGTTCAGAGTAGGTTTAATTCTCAAAGACCTGTAATAGCAATTAATAGTGAAAATAATACAGTAATAGACATGATATATGGTAAAGACTTTAGAGGTCAATTAGCAAAGCATATGTTATGGGGCGAAAACGTAAATCTAGCTATACCCTTAAAGATTGAAGATAAGAAGGTATCTTTGGAAGAGAAACTGTATAGACAATACAAGTATCAATTTGAAACACAAAAACCCGAAGAAGGTAACGCTTTCGAAGAACATGTAAACAAAGTATTCCAAGCAGAATCACAAGGGGTAGCAAGTAATAATCAGTTTGTATTAAATTTTAAGACTTTCCTTGATACAAATAGTATAGAAGAAAGAATGAAACCTAGTACGAAAGAAAATAGTATTGTATTACAATCAGGTGAGACAGCAAACTACCTACAAATCAAGTTATTCGAAGGGGTAGTGTTGTATGCCTTTGAAAATCAAATGTTATACAAGACAATAAACTCTAATGTCATCATTGTTCATGATTACCACCATGACATTGATGTAGAAAAGTTCCTAGACTTCTTATCTCCAGCATTAACGATTGAAAGAGAAAATTTAAAGGAATTTTTCTTAGGGAGTTAA	MNFRYAILNLTEFKSTKKHFYSELEQRFVQSRFNSQRPVIAINSENNTVIDMIYGKDFRGQLAKHMLWGENVNLAIPLKIEDKKVSLEEKLYRQYKYQFETQKPEEGNAFEEHVNKVFQAESQGVASNNQFVLNFKTFLDTNSIEERMKPSTKENSIVLQSGETANYLQIKLFEGVVLYAFENQMLYKTINSNVIIVHDYHHDIDVEKFLDFLSPALTIERENLKEFFLGS				NA	NA	NA	NA	NA
AK009_03444	639			hypothetical protein	ATGACAAAATCAATTAAACAAGAAGCATATACAACTTTAGGTAAGTTTTTACAAACAGATAATGGAAGTCTTGTATTCGGTTACAACAAGAACTACGAGGTAACAGGGGTAGCAAGAACAAAAGAACAATTAAAAGAAGTCATACAAACGAAGGGTATAGCAGGGGTTATCTTTCCTATGACACAACCTCATGCAACTGGATATGACTTTGTAACAGGAGAAAAGTATAAGACTTTAAAAGGTAGAGCAGGGGATATAAAAGACTACACAGAAAAAGAAAATCATAACTTATATGAGTACAGCACTAACATAGATGAAATGATTAGAGAGAATACAAACTTTATAGAACCCTTCATGGAATTTTTGGATAAAATAGATGCAAGCTATGGTTGTATAACAGAACAGCCTGTAAGTGGTCATAACTCTACATATGAAGCAGTTATTACTCTTAGTGGTTGTCGTGTTAGAGTTTCAAAACATGGTACAGTTGTAACTTTAAGTCCAAACTATTTAGTTGTTCATGACTCTACTAAAGACACTGACATTAACTTCTATTCAACATTTATGGCTAGAGTATTGAATGTAGACGAAAATATAATGAAAGATGTACTTGTAAAGTGTCTACAGAATAAGGGGTAA	MTKSIKQEAYTTLGKFLQTDNGSLVFGYNKNYEVTGVARTKEQLKEVIQTKGIAGVIFPMTQPHATGYDFVTGEKYKTLKGRAGDIKDYTEKENHNLYEYSTNIDEMIRENTNFIEPFMEFLDKIDASYGCITEQPVSGHNSTYEAVITLSGCRVRVSKHGTVVTLSPNYLVVHDSTKDTDINFYSTFMARVLNVDENIMKDVLVKCLQNKG				NA	NA	NA	NA	NA
AK009_03445	645			hypothetical protein	ATGGCTAAAACATTAAAACAAGATGCATATAGTTTTCTAGGTAGTCAACTAGAAGAGATAGGTTCAGAACTGGTAGTTGGATATGATAAAGACTATGGTGTAATCGGTATTGCAAAGAATAAAGCACAACTGAAACAGGTCTTAAAAACAAAAGGTATCGCAGGAGTCATTATAGCAGATAGAGAATCTTGTGCAGTAGGGTATGACTTCATTAAAGGTGAACAATACTTTGGGATGCCAGAACGTCATGGTCATATATCAGACTATATTGATAAAGAAAAAGTTGCTGTCTACGGAAACGGTGATACGGATAAACTTGTTATAGAGAATAATGACTTTATGTTAAAGCTTATGGAATTTTTAGATAAAAACAATATATCGTATAATGATTCAACTTACGCTCCAATAAGAGGACACAAGTACATGTATGAGATAACTGTCTATAACGGCAGGTGTTCGACTACCATATCAAAGAATCAAACGTATATGAAAACAAGTACAGATGTATTAATTGTACATGATTCTACAAGAGACGTAGAGTTTGAGTTTTACGCTGAGTTTTTATGTAAAGTATTAAATATAGACTTTAACGTAGCAAAACAGTTAATTATCGACTGTTATAATGCAAAAGGATTGTACCAGTAA	MAKTLKQDAYSFLGSQLEEIGSELVVGYDKDYGVIGIAKNKAQLKQVLKTKGIAGVIIADRESCAVGYDFIKGEQYFGMPERHGHISDYIDKEKVAVYGNGDTDKLVIENNDFMLKLMEFLDKNNISYNDSTYAPIRGHKYMYEITVYNGRCSTTISKNQTYMKTSTDVLIVHDSTRDVEFEFYAEFLCKVLNIDFNVAKQLIIDCYNAKGLYQ				NA	NA	NA	NA	NA
AK009_03446	183			hypothetical protein	GTGATAAAGAAAACAGACCCATTGAGAGTATATAAACAACTACGAGAAGTTGTAAAAGAATATAAAGAGGGTTTTCTGAATATACCAAGAAACCAAATAGAAGACGATATAGACTATGCCTACTCTAAAGAACGTATAGGGTACAATGAGTATATCGTCTTGAAAGATTACTTACAGGGGTAG	MIKKTDPLRVYKQLREVVKEYKEGFLNIPRNQIEDDIDYAYSKERIGYNEYIVLKDYLQG				NA	NA	NA	NA	NA
AK009_03447	645			hypothetical protein	ATGGCTAGTGAGTTAGCAGAGTTTAAGAAAGGTTGTTATAATCATTTTCGAGACGAATTAAAAGAGCATAAAGACGCTATGATAATTGGTTTTGATGCAAAACACGTTGTAATGGGAATTGCAACTACACCAACTGAGTTAAGAGATTTATTAAAATTAAAGGGACTTAATGCAGTTGTCATTAACCATCCTGATATCTTTATGGTGGGTTATGATTTCAAGAAAAAATCTCAATTTGTCAGAACAGACGATTCTGTATTAGGCAGACTGTATACTAAAACAATTGATAAACAATACAAGGAAATCTTCAAAAATGCAAAAAGCAAACAATTGGTGACTCAGGAAAACCACGAATTAATTCAACGTATTGAAGATTTCTGTATGCGTTATCAAATTCCTCATTCTAAAAGTGCAGGAGACAGAGCAGGAGATAACACAAACATTATAGTGATTAACTTAATGATGGGTAACATAAAAATAGAAATTACAGAAGAACTAACTTATATTCAGTTACATGAAACATACTTAATCGTACACGATATGCATCATGATATTGAGACAAGTAAGTATATGAATATTATGTCTAAACTGTTATTCGTACCTGAGTTAGAAGTACAAAGATTGTTCATGCCAAACGTTAGATAA	MASELAEFKKGCYNHFRDELKEHKDAMIIGFDAKHVVMGIATTPTELRDLLKLKGLNAVVINHPDIFMVGYDFKKKSQFVRTDDSVLGRLYTKTIDKQYKEIFKNAKSKQLVTQENHELIQRIEDFCMRYQIPHSKSAGDRAGDNTNIIVINLMMGNIKIEITEELTYIQLHETYLIVHDMHHDIETSKYMNIMSKLLFVPELEVQRLFMPNVR				NA	NA	NA	NA	NA
AK009_03448	639			hypothetical protein	ATGACTGAAACAAAAGGATTTAAACAAAGTGTTTATGATGAATTGAAAGTAGAAATAGAAAACTCACTTACAAAAGTAATTGGATTTTCAGATGCAGGAACTGTAGTAGATATCGCTTCAAATAAAAGTGAATTAGGTTCACTATTAAAGAACTCAAATGTAAAAGGTGTTGTAGCAGACTATACCCAACACGGTTCAGTCGGATTTGTATTTAAAACAAAACGCAGTGTAGTGAGTACAAACTTATCACCTGTACCTGAGTTAATAGACTTTGTAGTTGAAGATATAAAGAATACTATTTCAAGTTATAGTGAGTTCGAGAAAGCGGTTGTATCTAGCAATCGCTTTAATCATAGACTTGTAGAGGTATTTCAAGGTAAACCACATATTGAATTTGAATTAAAATCTACCTACATTATGGGTGACGATGAAACGTTTCCACTATTTAAGTTCTTATATGTATATGTAGGAAACTTAGCATTTTGTATAACAGAGAGTCAAATTTCATTAATGACTGAGTGTGGTAACTTTATTGTACATAGTTCAAAACATGATGTAGAAGCAAGTTTTATTTTTCCATTCCTAGCAAAACACTTAAAAGTAGACGAATCAGAAATAAAGAAAGTTTTCATCGGATAA	MTETKGFKQSVYDELKVEIENSLTKVIGFSDAGTVVDIASNKSELGSLLKNSNVKGVVADYTQHGSVGFVFKTKRSVVSTNLSPVPELIDFVVEDIKNTISSYSEFEKAVVSSNRFNHRLVEVFQGKPHIEFELKSTYIMGDDETFPLFKFLYVYVGNLAFCITESQISLMTECGNFIVHSSKHDVEASFIFPFLAKHLKVDESEIKKVFIG				NA	NA	NA	NA	NA
AK009_03449	588			hypothetical protein	ATGGCGACAGCAACAAAACCAATTAGTTTTAAGAAACAGGTATTTAATCAATTAAAAGACGAAGTAAGTATCGTAACTCCAATTATTGGTTTTAACGATGAAGGTCACTTAACTGGGTTAGCTTTAACAAGAAAAGAATTAGTAAACTTAATGAACAATAAAGATACAAAAGGGGTAGTTGCTACAGACACTACGTTCGGTGCGGTAGGTTTTCATTTTAAATCGAAAGCAAGTTCAACTGATGCTTTACTTGTTCCAAACCAAAGAGAAGTAAATGAATTAATAGACTTCACAGAGGAAGAAAGCTTTGCTTTTATTACAAGATTAGAAGGATTAATAAAGAAATTAGACCCAAAAGCAATCGCATATGTACAAGGTAATGTACATACAATTAATTTTGAAGTATCAAACGTAGCATTCTCTATTACAGCTGACCAAATAAGAGTATTAACTAAAAATGGTAACATCATTGTACACGGTCAAGGAAGAGACTTAACATTAGAAGAAGTTGCAAGTTATTTACATGAGACATTTAATCTATCACATCAAGATTTTGTTAATCTATTAAGACAAGCATACGGTATTTAA	MATATKPISFKKQVFNQLKDEVSIVTPIIGFNDEGHLTGLALTRKELVNLMNNKDTKGVVATDTTFGAVGFHFKSKASSTDALLVPNQREVNELIDFTEEESFAFITRLEGLIKKLDPKAIAYVQGNVHTINFEVSNVAFSITADQIRVLTKNGNIIVHGQGRDLTLEEVASYLHETFNLSHQDFVNLLRQAYGI				NA	NA	NA	NA	NA
AK009_03450	639			hypothetical protein	ATGTCTTTTAAACAAATCATATATGATGAACTAAAAGGAGAAGTAAGTCCGAAACGTAGAGCAGTCGTATCTGATACAGACAGTTATCTATTAGGAGTTGCTTCTACAAAAGAAGAGTTAAAAACTTTACTGAATAAAGAAACTGTAGGTAGTGTAGTATGTGACCAATCTATAATAGGTACAGTAGGTTTTAATGTAGAAACAGAAGAAGTTGTAGTTTCAAAGAATATATCGAAAATAGAACCTCTATCTAATCCCGTTATAACAGAGATTACAGGTAGTAGGTACGTTAATGATACAAAACTAAGTAAATCAGAGTTAAATCAATTGATTGAAAGAAACAACGAATATGTAGATAAAATACATAAGTCTTTAATGAATTACCAAACATTAACTACATTAAAAGACGAGAAGGAAGTATTACATGACCTTCCAAAAGTAGTTTCCTTGAAAATAGGTAAAGACGGTATATGGTTCTACTTATCTGAACTACAATTAAGTACAGAAACATATTGTGGAACATTCATGGTACACGGTAAAGGTAAAGACTTATATGCACATGAAATAGCTGAAATAGTGTCTCCTGTATGGGGTATATCGGAGAAAGAAATAGAAGATATATTACTAGGTGGATTTTAG	MSFKQIIYDELKGEVSPKRRAVVSDTDSYLLGVASTKEELKTLLNKETVGSVVCDQSIIGTVGFNVETEEVVVSKNISKIEPLSNPVITEITGSRYVNDTKLSKSELNQLIERNNEYVDKIHKSLMNYQTLTTLKDEKEVLHDLPKVVSLKIGKDGIWFYLSELQLSTETYCGTFMVHGKGKDLYAHEIAEIVSPVWGISEKEIEDILLGGF				NA	NA	NA	NA	NA
AK009_03451	579			hypothetical protein	ATGATAACTCCATTAGAATCATTCGTACTTACACATATGGGTGAAAACTTCATGGAAGGTGCGAACTGGGGATTTTGTCCTCCCGAAGACTACGAAAGACATTTACCAACATTCCAAAAAGAAGTAGTTGGGGTAGCAAACTTTAGTGTCTTAAAAAGTCGAGGTGGTATATTAATTGAAGTAGAACCAAACTTCTTAGTACAAGCATTATCTAAGCTACCAAATGTAGGTTTTGATAATGAAGACTTGAAGAGTGCATTAGCTGAACGTCAGTTAGCATTAGTACAGTTTCGTATATGGATTGAGAATAACTCATCATATCAAGGCTTCCTTGGTATCAACGAAACAACAGACTCCAAATCCGTAACCATCAGTCAAGTTCCGTATCCTTCCTTCAAAGTTGGGGTAGACACATTCTTCCATGAATTTATGAATTATAAAGTACAGTTCCTAAACAACAAGAACCAATGGCAATACTTTGATAGTGGTATGGATAGACAAGAATTTATTAATGCTTGTTCTATCTCACCTACAAGAAACTGTATGGTAATTCCAATAAAGATTGAAGGTAAACGATAA	MITPLESFVLTHMGENFMEGANWGFCPPEDYERHLPTFQKEVVGVANFSVLKSRGGILIEVEPNFLVQALSKLPNVGFDNEDLKSALAERQLALVQFRIWIENNSSYQGFLGINETTDSKSVTISQVPYPSFKVGVDTFFHEFMNYKVQFLNNKNQWQYFDSGMDRQEFINACSISPTRNCMVIPIKIEGKR				NA	NA	NA	NA	NA
AK009_03452	672			hypothetical protein	ATGTCTAAAACAAAACCTGTTTTAAATCCACAAATGATTGAACAAATCAATGAAAGAACAGCTAAGTTACCTGAGAATGAGCAGTTCTTAATTGCAAACTGTATTCAAAACTTATTAAACGGCTCTAGTTGGGGCTTTATGACAAAAGAAATGGTTGAAGCTTATGGAGACCCAATGAAGTTTAATAATGAACTTACAAAAGTATATTCATTAGCTCCTAAACCATCAAAACGTGCAGGGAAAACAAATCCAGTATACATGGTAGAATCAAACTACCAAAACGCATTAACAACGTTACAAAAGGTAGTTCCAGGCGTTGTAAATAATGAGTTTGTACAAGAGTTTAAAGACGAAGTACAAGATAGTATTGAATCATTTAAGAAGTTCTATGCAAAAGCTTCTAAAGAAGGTTTCCAAGGAATCATCGGTTTTAACTCTGTAAATAAAACAGAAACAATGACTTTCAATGGAAAACGTGAAAGAGCATTCCAATTACCATTATCAGCAGTGTTAGGTCTTATGAACGATAACAACACTCGCCTTAACTTAGGTGGAATAGTAACACCTTCACAAGTAAAAGCAAACTTCGAACAGTACGCAAGTAAATTACTAACAAGTGAAGGCTCAACAGCGGTTGTTGTTCAACTTGTAATTCGAGGAACAGGTAAATAA	MSKTKPVLNPQMIEQINERTAKLPENEQFLIANCIQNLLNGSSWGFMTKEMVEAYGDPMKFNNELTKVYSLAPKPSKRAGKTNPVYMVESNYQNALTTLQKVVPGVVNNEFVQEFKDEVQDSIESFKKFYAKASKEGFQGIIGFNSVNKTETMTFNGKRERAFQLPLSAVLGLMNDNNTRLNLGGIVTPSQVKANFEQYASKLLTSEGSTAVVVQLVIRGTGK				NA	NA	NA	NA	NA
AK009_03453	1446			hypothetical protein	ATGGCATTAGAGCCTACAGAAAGACTGGAGTATTTTTCAGACATCATTTTAAGCAGAATGTTAACATCAAGTGATGATAGAGACTTGATTATTACACAATTACAACCTGAGGTATTTACAAACGAGAATTTCTTAATCTATTCCGTTATGTATAGCTTCAAAGACAGGGGTATTGTTCCTGATAAAGAGTTTTTAAATATGTATTTATCTCGTAATACGAAATTAATTACACAAAACCCACAAAACATAGAAGCTGATTTATTTAGTGATACAGGGGATGATGTAGTAAGTTCATTTATTAGTGCTACAATAAACAAGTTAGTAAGACTACAGGGTGAAGACTATTCAAAACAAAATATAGATTTAATATTAGAAAAGTTCCGAATTGATTTCAAAACTATATACCAAACAAAGGTGTTAGACGGTGCGAAGTTAATTCTAAACGATAAGCTACAAGTAGGGTATAAAACGTATAGTGGTCAAGAAGATAGTGATTTATACTATCAAGAACAAATGACGAAACTGAATACATTAATCAACAGTGATGCAAGTGAAGGTTTCGTAGATGATACAATAGACGGTATGGATGATTCATCAAGAGTTATGCCTGTAACTGTTAGTGACTTCCACTACTTAGATTTCTTAAACAAACATTATGGCGGTATCAAAACTGGTTACTTCTATAACATCATGGCTCCACCTAAGAGTGGTAAGTCTAAGTTCTGTTATAGAGCGATTCATACCGCTAGGGTTAAGTATGGCGTAAACTGTGGATTCTGGGCAAACGAGGGTGGTCGTAAAAAAGCCCAAGCAGAAATGAGAGCAATTCACTTTGATTACTATTACAATGAGAAACAAGGGGAAGATTATGCTCAACTATCAGGTCAAGATATCTTAGATGATAATTTCCCTTCACAACAATATCGTGAGTTAGAAGCAATTAGTCGAGCAGACTTATTTACAAATCCAAACCACGGTAAAGTTATTTTCATTGAAGAACCTTTAGAGATTGAACATTATATTCATCAATTAACATTAGCAACAAAGCGTTATAACTTAAAGTTAATCGTAGTCGATTACCTACAGTTAATGGGTAGTAAAGGTAATAAAATGAGTAAGAATGAGCGTATCGGTGTTGCATATCAGCAAACCCTAGCGTTCATCGGTAAGTATCAAGTAGCGTTTATCAGTCCTTCACAGTTCAAACAGGAATTCTTAAAAGAGATTGATAAGGGTGGAGACGTAGATACTCGATTAGGTGGCGGTGAGTCAGCAGAGATTGTACGTACTCCCGATGTAAACATAGCCTTATACGGTACACCTACCGATATTGACAATAATAAACTATCCTTACTAAGTATCCCTTCTCGTGTAGCTAGACCATTTGAGAAGCGTGATATCTATGTGGATTTGGGGTATTGTTTCTATTCAGATATAAATTGGTAA	MALEPTERLEYFSDIILSRMLTSSDDRDLIITQLQPEVFTNENFLIYSVMYSFKDRGIVPDKEFLNMYLSRNTKLITQNPQNIEADLFSDTGDDVVSSFISATINKLVRLQGEDYSKQNIDLILEKFRIDFKTIYQTKVLDGAKLILNDKLQVGYKTYSGQEDSDLYYQEQMTKLNTLINSDASEGFVDDTIDGMDDSSRVMPVTVSDFHYLDFLNKHYGGIKTGYFYNIMAPPKSGKSKFCYRAIHTARVKYGVNCGFWANEGGRKKAQAEMRAIHFDYYYNEKQGEDYAQLSGQDILDDNFPSQQYRELEAISRADLFTNPNHGKVIFIEEPLEIEHYIHQLTLATKRYNLKLIVVDYLQLMGSKGNKMSKNERIGVAYQQTLAFIGKYQVAFISPSQFKQEFLKEIDKGGDVDTRLGGGESAEIVRTPDVNIALYGTPTDIDNNKLSLLSIPSRVARPFEKRDIYVDLGYCFYSDINW				NA	NA	NA	NA	NA
AK009_03454	666			hypothetical protein	TTGTTATTAACGGTAGAGCAATTAGTTGGAAGTAAGAATGAGTTAGAAGCTACTACCTTAGACTTAGGTGAAGTCAATAAGTTTACAGGTTCAAAAGAGTTAAACGATTTACTATTTTCATCTTTGCAAAATATATTCACAAAGAATGGGGTAATTGATACAGTAACTTCTAAGAAAGAAGAAGTATTAGATTACCGTACAAGAGCAACGAATAGGTTTGTATTACGAGTAGATAAAGAGCAGTTTGAAACAAAGTCAGCTATCTTTGTAACAGATGAGCATGTTATTAAGAACGATAAAGCAAAAGAGAAACAACATACTGGAAAAGAGATTGAGTACAATATTTTAACATTAATTAAGAAGTATGAAGACATGTTTGATATTAAGCAGTTAAGTGACCAAGAGTACAGACTGATTAGTATACTAAATGTCATAATGTTAACAGAAGCAAGTTTTGTTGTATTCGGTATGGAAGCTACAGATATGCATGAAAACTTATTACTTATGATAGAAGATTATAAAGAGAATAGTTTAAACTGTAAATTAGAAACAATTATCTTTTATGAAAATGAAGACAATCGTATTGCATATGGTGGGATTAATGAGTTTTCAACACATAAAGTAAAGAGTCCAAACCAATATGAGAAGTTTTATAAGAGCGTATAA	MLLTVEQLVGSKNELEATTLDLGEVNKFTGSKELNDLLFSSLQNIFTKNGVIDTVTSKKEEVLDYRTRATNRFVLRVDKEQFETKSAIFVTDEHVIKNDKAKEKQHTGKEIEYNILTLIKKYEDMFDIKQLSDQEYRLISILNVIMLTEASFVVFGMEATDMHENLLLMIEDYKENSLNCKLETIIFYENEDNRIAYGGINEFSTHKVKSPNQYEKFYKSV				NA	NA	NA	NA	NA
AK009_03455	2238	gyrA_1		DNA gyrase subunit A	GTGGTAAAGGAATTACATGATGCTGAAAACTTCACATTAGAAGAGAAAGACATTGATAGTTTAACAGAAGAGGATTTATTTAAACTGTTACACTTGGAAAATACAAAAGGTTCAGACGTGCATAATTCGGGTTTTCAGTACCTAGTTAGAGGTTACATTGATTATGCACGAGAAGTATTAACAAACCGTGCTTTAGAGGATATTCGAGACGGTTTAAAACCAGTACAACGCTATGCATTATATTGGATGTTTAAAGAGAAAGCCAAAGACATGATTAAGTCAGAACAAGTCGGAGCAGGGGTACTAAAGTATCACCCTCATAATGCAGACTCGGCTTATGAATCTCTAACAAAAATGGTAGAATCAAACGGTACATTTTACGTTCCACTTTTAATTGGTAAAGGTGAACTAGGTAAAAAGTTCTCGAACGGTAGTCCAGCCGCATCACGTTATACGTCAGTTAAGTTCCATGAAAACGCAAAAGAAATGTTTACCGCAATGGACGGAATTGATATGGTATGGAACTTTGATGATACAGAACGTGTTCCTGAGGTGTTACCTGCATCTGTACCTTACATCTTAATGAAGTATGCAGACGGTATCGCAGTTGGTTTCTCTACGAAATCACCATCATTCTTACCACAAGATGTAACAAACCTAGTACGTGAGTACATTAGAGACGGTAAATGTTCTACTATGATTGTACCAGACTTCTCAACTGGTGGCTTCATTTCTTATACAGAGAAAGAGTTAGAAAAGTTAATGAAAACTGGTAAAGGTAGTTTCATGACTCGTGGTAAAGTATTTATAGACGGTAAAAACATCGTAGTTACAGAAGTACCACAAGGGGTAACAGTCGAAAAGATTATGAAAGAAATTGAAAAGGCTGAGATTCAAGGTATTACACCAAACGGCTATAGTGATTTAACAGGTAAAGATGGTTGTTACTTTGAAATCACTTGTCGTGCGAAAAACCGTGTACAAGAAGTATTAATGGAGTTATACACAAAGACTTCATTACAAAAGAAATTCAACTCAAACCTGTTAGCAGTAGAAAGCAAAAAACTAGTTATCACAGGGGTATGGGGTATTATAGACCGTTGGGTAAAATGGCGTAGAAAAGTTTTAACTCGTCAAACTCGATTAGATTTAGCTAAGTTAGTAGAAAGTGCAAAATACACAAAAGGTTTCATCGACTTACTAGCAATTGAAGGTGCTAGAGACGAGATTGTAGAACTTACTACTAAGAAATCAGACAATGATGCTATCAAGCGTATTCAAGAGTACATTCAATGTGAACGTGATGTTGCGGAATGGATTATCAAACGTAGATTAAACCAATTCCGAAATGATAATAAGTATATTAATCAATATGCAAACTATCAGATTGAAATTGCTAAACTAGAAAAGTACCTAGAAAACATTGATACGTTAATTCTAGAAGATATGGATAGATTTGATTTATTAGTATCTAAGAAACACGAACGTAGAACTGAAATTACAAACAAGGTATATGAAGTAGAAACAGTAAAAGAGGATGAAATTGAGATTCCTGTAAGTGAGTGTTACTACCAAATTAAAGATGGATTCTTACGTAAACTTCACGTTAAACCAACATCAGGTGAAGGAATCATCTTTGAGGGGTATACAAACTCTACTATCATTGCTTTATCTAGTGAAGGTGAAATCTTCCGTATTTACGGAAACGATATTAATTACCTAACAGGAAACGATATCGGAACTTACATTCCTACGTATTCCGGTTTAGCAAATGCTCAACATGTACAACTGATTTGGGCAACTGTATGTGATGAGAAGAAATATGTATTAACATATGAAGACGGATTTGTTGGATTCCTAGATACGGCTGAGTTCCTAGTAGGTGCAATTAAGTCTAAGTACTTACGAAACGGTATTTCAGCACATGCGGACAAGCTAACAGACGTGAGAGAGTACCAAGAAGATTCTGTTATCGTAGTAGAAACTCACGACAAGTTATATGCTTGCGCTCATCTAGACAGCATTAAAATGAAGTCTAGAACAGCAAGAACTCGTGTATGGTATACGGATAACCTATATGATTCAGCAATTATTCCAATGAATGAAATTTCAAAACGTGTTCCGAATTACATGACCCTATTTAATAAGAAGCCAGTAATGTATAATGGTGAAATGAACCTATGGGGTGAAGTAAGGGTATACGAAGAAAATTCAGAGGAACTATTAGCAAGCAGTTAA	MVKELHDAENFTLEEKDIDSLTEEDLFKLLHLENTKGSDVHNSGFQYLVRGYIDYAREVLTNRALEDIRDGLKPVQRYALYWMFKEKAKDMIKSEQVGAGVLKYHPHNADSAYESLTKMVESNGTFYVPLLIGKGELGKKFSNGSPAASRYTSVKFHENAKEMFTAMDGIDMVWNFDDTERVPEVLPASVPYILMKYADGIAVGFSTKSPSFLPQDVTNLVREYIRDGKCSTMIVPDFSTGGFISYTEKELEKLMKTGKGSFMTRGKVFIDGKNIVVTEVPQGVTVEKIMKEIEKAEIQGITPNGYSDLTGKDGCYFEITCRAKNRVQEVLMELYTKTSLQKKFNSNLLAVESKKLVITGVWGIIDRWVKWRRKVLTRQTRLDLAKLVESAKYTKGFIDLLAIEGARDEIVELTTKKSDNDAIKRIQEYIQCERDVAEWIIKRRLNQFRNDNKYINQYANYQIEIAKLEKYLENIDTLILEDMDRFDLLVSKKHERRTEITNKVYEVETVKEDEIEIPVSECYYQIKDGFLRKLHVKPTSGEGIIFEGYTNSTIIALSSEGEIFRIYGNDINYLTGNDIGTYIPTYSGLANAQHVQLIWATVCDEKKYVLTYEDGFVGFLDTAEFLVGAIKSKYLRNGISAHADKLTDVREYQEDSVIVVETHDKLYACAHLDSIKMKSRTARTRVWYTDNLYDSAIIPMNEISKRVPNYMTLFNKKPVMYNGEMNLWGEVRVYEENSEELLASS				NA	NA	NA	NA	NA
AK009_03456	2172	parE_1	COG0187	DNA topoisomerase 4 subunit B	TTGTCACAAAACTACGGTAATAATAGTATAGACAGTTTAGAGGGTGCGGAACGTGTACGTAGACGTCCTGCGGCGGTATTAGGTTCTAGTGGTATTGAGGGTGCTAGACATGGTGTAACTGAAATTGTAGGTAACTCTGTAGATGAAGGAACAGCAGGGTTCGGCTCAAAACTAGATATTAATTACTTCAAAGATGGAAGTATCTCTATTAGAGACTATGGTCGTGGAGTACCAATGGGGTATAACGAAAACAAAGGAATTTCAAACTGGTTCTTAGTTTTCAATGAAATGTATGCAGGTGGTAAATATAAAGATTACCAAGAAGAACTAAGAGCAATTAAAGACTGGTCTACATTTAATCCAACTGATTATAACTACTTGTTCTCAATTGGTCTAAACGGACTTGGTGCGGCATCAACCCAGTATACGAGTGAGTTCTTTGAAGCAATCTCTATTACAGACGGTATTGCAACTAAAATGGAATTCCGTGGTGGATATCCTATTTTAAAAGATGCAAACGGTAATGAAGTACATGCAATCATTGGTGAAGAGAGACTATTAGAAGAACATGGTATCGTATTAAAAGAATACGTAGCAGAAACTTATGAAACAGAAGAGGAAAACGGTACATACATTCACTGGAAACCAGATATTAGAGTATTCTCTGATGTTGATATCACACTTGGTTGGATTAAAGACGTATGTGAGTCTGTAGCATATATTAGTGGTTTAGATGTAAACCTATATGATGAAGCAACAGATACAATGCATGAATATCAAAGTGGTACAATCAGTGATTTAAACTTAATTTTAAATGAGAAAAACTTAGTAAATGAGGATTCTCCTTCTGTATATGAAGACAATGATATTACACATGGTAATGTAAAACAAAATAATGAAAACTTCATTTATGTATTTAAAGCTGATGTATCTGTAGTAAGAACAAGAGAAAAAGGTAAAACTGTATGTTTCCACAATGCAATTAAAATGAAGGGTGGAGCGCAATATCGTGCAGTTGATTCAGCAGTAGCAGACTTTGTAATCGGCTTAGGAAACACAAAAGGTGTAAAAGTAGTCGAGCGTGATTTCGAAGGAAAATTAGGGGTAGTCGTTAAGAGTTATTCAAACGTTGCTTCTTATAAAGGTCAAACGAAAGACGAAGTAGATGATAACTTTATCTACCGTGATTTAAAAACTATCATTTACAGACTTATTAATACAGAATACCATAAAGGTAATAAAGACATCATTGAGTTTGTTGATAAGGTACTTGAAGAAGCTGAACTACGTATCACTTTACAAGAACAAGCTAAAATGTTACGTGAAGTTAAGAAAACAAGTCGTACTCGTAAACTACCTGAGAAGTTTTTACCTTCAAAACTATTTAAAGAAAAAATAGTAAAGAAGTCGGAACTATGGATTGTAGAGGGTGACTCGGCTAAAACTTCTGTTAAGAATGCACGAGACCCTCTATTCCAAGCGATTTACGCTGTTAGGGGTAAAGTAACAAACGCCCTAAAAGCTTCATTTAAGAAGTTAATGGAGTCAGAAGAGATTCGAGACATCTTTTCACTATTAGGAACTGGTATGGATGTAGAACTGTTAGATGATAATGAGTTCGATATTGATGCTTGTCGTTTTGAGAAAATTATTATCGGAACGGATGCCGATGAAGATGGATATCAAATTCGTGTGTTATTATTCGTAGTCTTTTGGGTTCTTGCACCTGAGATTATCAAACGTGGTATGCTTTATATTGGAGAAACACCAAAATTCGGTATTAAACTATCAAATGGTGAAATGGTATATGCTATCAATGAAGTTGATAAAGCAGAACGAGAAAAGGAATATGCAGGTCAGATTGTAAAAGTAGAGCGATATAAAGGTTTAGGTGAAGTAAACGCTGATGTATTAGGGTTCACTACACTAGCCCCTGAAACTCGTAATTTAATTCAGATTAAATTAGACCCTGCTGACCACATTTTATCCGAGTTTGTTGAAACATTATTCGGTAAAGACCCGTATAAAAAGCGTAAAGAAACAATGTTACGTGTATTGGGTAGTGATGCAATGGATATGTTTAATGATACAGACGAAAAAGAAGAATTTAGCATTGTAGATGTTTTAGATGCAGACGATGTAGAAGAGGAAAACGAATTGGAAGTCATTTAA	MSQNYGNNSIDSLEGAERVRRRPAAVLGSSGIEGARHGVTEIVGNSVDEGTAGFGSKLDINYFKDGSISIRDYGRGVPMGYNENKGISNWFLVFNEMYAGGKYKDYQEELRAIKDWSTFNPTDYNYLFSIGLNGLGAASTQYTSEFFEAISITDGIATKMEFRGGYPILKDANGNEVHAIIGEERLLEEHGIVLKEYVAETYETEEENGTYIHWKPDIRVFSDVDITLGWIKDVCESVAYISGLDVNLYDEATDTMHEYQSGTISDLNLILNEKNLVNEDSPSVYEDNDITHGNVKQNNENFIYVFKADVSVVRTREKGKTVCFHNAIKMKGGAQYRAVDSAVADFVIGLGNTKGVKVVERDFEGKLGVVVKSYSNVASYKGQTKDEVDDNFIYRDLKTIIYRLINTEYHKGNKDIIEFVDKVLEEAELRITLQEQAKMLREVKKTSRTRKLPEKFLPSKLFKEKIVKKSELWIVEGDSAKTSVKNARDPLFQAIYAVRGKVTNALKASFKKLMESEEIRDIFSLLGTGMDVELLDDNEFDIDACRFEKIIIGTDADEDGYQIRVLLFVVFWVLAPEIIKRGMLYIGETPKFGIKLSNGEMVYAINEVDKAEREKEYAGQIVKVERYKGLGEVNADVLGFTTLAPETRNLIQIKLDPADHILSEFVETLFGKDPYKKRKETMLRVLGSDAMDMFNDTDEKEEFSIVDVLDADDVEEENELEVI				NA	NA	NA	NA	NA
AK009_03457	186			hypothetical protein	ATGGAAGTAAGACGTATCAATTCAAAAGACAAACAAGGTATTATTGTTATGGGTACAGGAGTAAGGAGACTGAATTTAGATTTAATGAGAGAGCAAATCAAGATAATGAAACAAGATGAAGAAGCAATAACAATTAAGAATGGTTATTTACATCATAATTTACCTAAAGCATACAAAAGAAAATAG	MEVRRINSKDKQGIIVMGTGVRRLNLDLMREQIKIMKQDEEAITIKNGYLHHNLPKAYKRK				NA	NA	NA	NA	NA
AK009_03458	204			hypothetical protein	ATGTATATTTATAAAGGAACGAAATGGGAGAGATTCAAACATAGATGTAAAAAGATAGGAAAAGGTTTCTTACATGTTTTAGATTATATTATATCAGACATATTAGTCGATTTACTCTTTAAAGGATTCTTTAGACTGATAGGTTGGTTCTTCAAAGGTATATTAAAAGCATTAAAACATTTAATAGAGCATATATTTGATTAA	MYIYKGTKWERFKHRCKKIGKGFLHVLDYIISDILVDLLFKGFFRLIGWFFKGILKALKHLIEHIFD				NA	NA	NA	NA	NA
AK009_03459	258			hypothetical protein	TTGAAACAAAGATGGCGTAAAACAAAGAATACAAAGAGTTGGTTATGTGATTTCTGTCAAAACCTTACCTTAGTAGAAAAAGACTATAAGCCTGAGACATGTTGTGATGGTTACATGTGTGGTTGTTACGGAATGGTAAACAATCCAGTGTTATGTAAGAAGTGTGAAAACCGTATGAATCTAAATGCAAAACTAAGAAGTAGAAAACTATCAAAACGTGAATTACACAACGTAAAAATAGATGTGTATCTACCATAA	MKQRWRKTKNTKSWLCDFCQNLTLVEKDYKPETCCDGYMCGCYGMVNNPVLCKKCENRMNLNAKLRSRKLSKRELHNVKIDVYLP				NA	NA	NA	NA	NA
AK009_03460	525			hypothetical protein	ATGAAAAACCCTATCATATTAACTTATAAGAGACATAATACGCAAGTACATGAAGAAACGGTAAATATGAGTATACATGCTACGGAAAGTATGTTAAAAACAATTAAGCGTGAAGGATGTAAAGGTACAATCTATTTAGCAAACATAAAAGGTCAGCTTTGGGATTCTGTAGATGTGAAGCAAGTAAATGAGTTAGGTACAGTTATTTTCGAAGAATCAAACTGGGTAACAGCAGGTAATTACATAACAGACTCAATTAAAGATAAGGTGACAATAGAGGACTTACAAAACTATGTAGCAGATTTTAAAAGAGTGAATTGTTATGAAGATGAGTCAGTAGAAAAGAGGATGAACCATTTATTTAAGCAGACTGATAGGTTAGCAGATGCAATCGCACAAGAGAATAAGGAACAAGTAAGTAAAGACTTATATTATGCGATGTGGAATCTAATGGATATTGCAAACAAGCTAGGTGTTGATATAAACGGAGAGTGTAAAAAGAGAATGGAAGAGAAATATGAATAG	MKNPIILTYKRHNTQVHEETVNMSIHATESMLKTIKREGCKGTIYLANIKGQLWDSVDVKQVNELGTVIFEESNWVTAGNYITDSIKDKVTIEDLQNYVADFKRVNCYEDESVEKRMNHLFKQTDRLADAIAQENKEQVSKDLYYAMWNLMDIANKLGVDINGECKKRMEEKYE				NA	NA	NA	NA	NA
AK009_03461	183			hypothetical protein	ATGAAGACTAAGAAAGAAATCGAAGAGGAAATCAAGTCATTTGAAAACACAATTAAAAACTATCGTAAAGCAGTAGCAAACGGAAAGTTTCCTAAGGAAGAACTACCAAACATCATACGAGAAAACCAAGCAGGTATTTCTGCACTCTTATGGGTGTTAGGAGAGAATGATAGGTTTGATTAA	MKTKKEIEEEIKSFENTIKNYRKAVANGKFPKEELPNIIRENQAGISALLWVLGENDRFD				NA	NA	NA	NA	NA
AK009_03462	663			hypothetical protein	ATGGGAGTATCAATTTTAAAACAATTTCGAAACGATGAGAATCGAGTATTTAAACTGGAAATGATTTCTTCAAGTGCATTCAATGAAGACATCTATAAAGAAATGACAGACTGGGTTAACAGTGAGTTATTTGACAGATATAGTAGTCTTGAAATTGTAACTACAATTAATGGTGTTACTTTTGAAGTTAAACGAGGGGATACACCAGAGCAACTGAAATCTCGTCATGTAAAGAAAAGAGAATTAATCGAGTCAGTAGATAAAGCCCTTAGTTTAAGAGTAGGAGAACCGAAAGCAGTTGTTGTGTTAGAAGCAAAAGAAACACATTTCGTAGCAGACCCTAAGCCTTTCACACTCACAAACGAAGGGGTATTATCAAACGAAGAAATTTATCGTTTGATTGATTCAAAATATTTTGTACCGATTCCTTTTAGTGAGACAATTGATATGTTAGTAGACGAAGAAGGAATTCATACAAAGGAAACATATGTAGATGTTATCACACCTAGAGATACGATTCGTTTATATGGTAAAGTATTATTTGTAAACCGTACAAACGATGGAGATTATACACCGTTAACACAAAATCAAGAACATAAACTGATTGATATTGTTCGTGCAAAAGATTTTGGTAAGAACGTATATAAGAAGCAATCCTGTTAA	MGVSILKQFRNDENRVFKLEMISSSAFNEDIYKEMTDWVNSELFDRYSSLEIVTTINGVTFEVKRGDTPEQLKSRHVKKRELIESVDKALSLRVGEPKAVVVLEAKETHFVADPKPFTLTNEGVLSNEEIYRLIDSKYFVPIPFSETIDMLVDEEGIHTKETYVDVITPRDTIRLYGKVLFVNRTNDGDYTPLTQNQEHKLIDIVRAKDFGKNVYKKQSC				NA	NA	NA	NA	NA
AK009_03463	330			hypothetical protein	ATGAGTCATGTAAGCACTAAGATTCCAAGAATAAAATCTGAAATTAAAGTGAAAGACCAGTATGTAGAAAATGAGATAAGGATTGTAGAACTGGACACAGATTATGATTTCTTAGAAGGTTTGTTTATAAATCTAGCTTGCTTTATTAGAAGTGATAAGATTAAGAAACTACGTGCTGATTTATTCAAGTTAAACGTAAACGGTTGTCTATTATCATTTAAAGAGGGGATACGTGCGTATGAGTTATTAAACATGTACGATAATAGATATGAAACAAGAGAAGGTACAACAATCGGTAATATACATGGAAAACATAATAGGAGGAAGTAA	MSHVSTKIPRIKSEIKVKDQYVENEIRIVELDTDYDFLEGLFINLACFIRSDKIKKLRADLFKLNVNGCLLSFKEGIRAYELLNMYDNRYETREGTTIGNIHGKHNRRK				NA	NA	NA	NA	NA
AK009_03464	186			hypothetical protein	ATGAAACGATTCTTTACGGAATTTATTAGTGCAGAAACGCCAAACCAAGATGTATGTCAGGAAGTCGTAGAAGCTAAATCAAGAAATGAACTATTTAAGAGTATGAGAAAACGTAGTGATGTAGGTCTTCTATTACGTGTAGAAGATAGAGGGGAGGTAAACCCTAATGAGTCATGTAAGCACTAA	MKRFFTEFISAETPNQDVCQEVVEAKSRNELFKSMRKRSDVGLLLRVEDRGEVNPNESCKH				NA	NA	NA	NA	NA
AK009_03465	405			hypothetical protein	ATGAGTACAGATAATACATTGCAAGTGGCAGAAGGTAAAGCAAACGTGTTAAAGTTATATGTAACAGAAGATGTAGATTTAAAGTGGGAAGTTATTCAGTTAGAAACAAATGAAGAAGGTTTTATTGAGCATGAAACTATTGTAAAAGCAATAAACGGTGGAGAATATGTAGGCGGTATGTGTGCATTAGAAACTTCATCTTTATACTATGATGAGGAAGGTATTAATAACTTCGAAACATGGTTTGCTATTAAAACTCCATATGAATATACAGCAAAAGTCTACGGGGTAGGAATCTTTGTAGGACATGGTGTAGATGAAGAACCGATTGGTCTAACTGAGGAAGAAATAAAAGAAATGAGAGAGCGTTGTGAAATTCGGGGTTATGGAAGCAAACAGAATTAA	MSTDNTLQVAEGKANVLKLYVTEDVDLKWEVIQLETNEEGFIEHETIVKAINGGEYVGGMCALETSSLYYDEEGINNFETWFAIKTPYEYTAKVYGVGIFVGHGVDEEPIGLTEEEIKEMRERCEIRGYGSKQN				NA	NA	NA	NA	NA
AK009_03466	381			hypothetical protein	ATGAAATTAAAAGCAGTAGTAATAGAAGTAGAAGAAGAAACATTAGATGTAAATAAAACTGTAGTATATTTAGAGCCAAACACACATGATAATATAAGTAAAGTAGGTATAGACCGATTAGGTTGGTTTGATAGTATAAAAGAAACTTCTGTACATAAAAATATTATCGCTTTAACAGAAGAGAATGGTACGTATACAAAGAAAACTTATTTTGCACCAAACTATCCAAAACCTACAGTTGGGTTTGTGTATGGAAAAGCTTTATTTGTAGGGGTAAACGAAGAAGGAGAGTATATCGCTTTAACAAACGAGCAAATATACTTAATAATGAATTACATACCTATTCTTACGAAAGGTGAAAACCTCCTATATCAAGGTTAA	MKLKAVVIEVEEETLDVNKTVVYLEPNTHDNISKVGIDRLGWFDSIKETSVHKNIIALTEENGTYTKKTYFAPNYPKPTVGFVYGKALFVGVNEEGEYIALTNEQIYLIMNYIPILTKGENLLYQG				NA	NA	NA	NA	NA
AK009_03467	291			hypothetical protein	ATGGAATGTCCATATTGTAAAGGGAGTTTAGACTATAATACTACATGGTATACAGGATTGTACGGTAGAGAAGACTATCAAGAAAGAGGTATTGAATATAAATGTCCAAACTGGCAAGGTTTTAATGATGAAAAAGAAAGACAAGCTTATATAGAAAGAAACAATATAGTAGTTGGTAAAGACCAAGAATTTGAAACAGTTGAAGATGTTATTTGTAAGAGTCATGAAGAATGTAACGGAGATTTCTATACAGACGGAAGCGAAGAACTTATAGAAGGAAATCCATGTTAG	MECPYCKGSLDYNTTWYTGLYGREDYQERGIEYKCPNWQGFNDEKERQAYIERNNIVVGKDQEFETVEDVICKSHEECNGDFYTDGSEELIEGNPC				NA	NA	NA	NA	NA
AK009_03468	156			hypothetical protein	ATGAACCTATTAGAGTTACTATCAGAAGAAAGTACAGAAGGAACATATGAAATCACACAAACACCTAGCGAACTTTGGTTGGGAACTGTTGTAACTTTAAACATTCGTACATACAAGAAAATAAGTAATTGTCGTGCTATAAAGTTGTTTCTGTAA	MNLLELLSEESTEGTYEITQTPSELWLGTVVTLNIRTYKKISNCRAIKLFL				NA	NA	NA	NA	NA
AK009_03469	264			hypothetical protein	ATGAAACCTGTATCTATTGTAGATATCATACAAAACGGTAAGAAAGATGAAAAGTACCGTATTGTTAACTCATCGGCAGATAACTGGGTAGATGTACAAGTAACAGTAAAAGAACAGATAAAGCATAATGAAGAACCTACAAAATCTGTTTATATAACAGATTTATCACAAGATAATGTAGGAGAATACTACTTAAACTGTCCAGTACCTTTAATAGATGCAATTATTTCAGCAGAATTTATAAAAGAAGAGAACGAAAACTAA	MKPVSIVDIIQNGKKDEKYRIVNSSADNWVDVQVTVKEQIKHNEEPTKSVYITDLSQDNVGEYYLNCPVPLIDAIISAEFIKEENEN				NA	NA	NA	NA	NA
AK009_03470	246			hypothetical protein	ATGAATATCGTTCAATTATTAACAGGTAAAAACGTAAAGGGTTTATATAAAATTACACATTCAATTAGTGAGTCATGGATTGGAGCAGTAGTAAACGTACAAGAGGATACAGACATAAATGAAGGTAATTATCGTTACATTATTGTTAAGGGTGTAGAAGACCAAACAATAAACCACGTAGTAAACAATGCATTACCTTTAGTCGGTGCAGTAACTACAGCTGAGTTCGAAAAGGTAGGTAAATAA	MNIVQLLTGKNVKGLYKITHSISESWIGAVVNVQEDTDINEGNYRYIIVKGVEDQTINHVVNNALPLVGAVTTAEFEKVGK				NA	NA	NA	NA	NA
AK009_03471	387			hypothetical protein	ATGTTAGGATTAGAATACGTTTTATTTATTAAAGGTTTAAGTGGAACTGAGATAGCAAAGAATATAGGGGTATCAAGTCAAATGGTGAATCACTGGGTACAAGCTCGTAGACCTATGGATTCTGAAAGATTAGCTTATTTCGAGGGATTACTAGAAGTACCTTCAACTTACTTAAACAAAGAAATAGACTCAAAAGATAGATTAGAAATTGATATTATTATTTGTAAAACAGAAGGTGTTTCAATTGAAAGTGATGTAGTAAATAAAACAATAGAACTAGAAACGATGAGAGAAAACTATGCAAAACTACTTAATAAGTATAATGAGTCTTTAGTAGATAAGAAAGAATTCAAAGAGAAAATCATTGCAATGATACAAAATATGTAG	MLGLEYVLFIKGLSGTEIAKNIGVSSQMVNHWVQARRPMDSERLAYFEGLLEVPSTYLNKEIDSKDRLEIDIIICKTEGVSIESDVVNKTIELETMRENYAKLLNKYNESLVDKKEFKEKIIAMIQNM				NA	NA	NA	NA	NA
AK009_03472	444			hypothetical protein	ATGAGTACAAATAAAACAGTTACATTAGGTGAGTTAAAGCAAGGTGTTTGGAATGCAGTAAGGGGAGACATGGAAATAGAAGCAAACTTCATTCTAGTTAAACCGGAAGCTGATAAGGTAACTTTCACATACATGGGTGAGTATGATGATACAAATACCGCTTTAGAGTATGAAAGAGTAGCATATGTTGTACATGAAGAAATCTTTATGTTTGATGAAAACCTTGCAGGATTAACATTACAATCAATGAGTGTTAATAAACTGGTTGATATAGTTGAAAGTCACCCAACAACTATTTTATTTGACATATTTATTACAGGAACAAATAAAGATATTTATCCAAACTTAGATGAATTAGAAAAATTAGCATATAAAACTGATGTTTCGGAAGAGTTAGAAGGATTCCGTTTAGAAGATGGAACACCTGTAACACCAATGAAATAA	MSTNKTVTLGELKQGVWNAVRGDMEIEANFILVKPEADKVTFTYMGEYDDTNTALEYERVAYVVHEEIFMFDENLAGLTLQSMSVNKLVDIVESHPTTILFDIFITGTNKDIYPNLDELEKLAYKTDVSEELEGFRLEDGTPVTPMK				NA	NA	NA	NA	NA
AK009_03473	270			hypothetical protein	ATGGAATTTGTATACATACTAAACTCCATATTCGTTGTGATTGTATGGATTATTACAATTAAAACTTGTATTTCTTTCCTACAGACATTATCTTTTAATAAGAAAGTAATGGATAAAGAACAAGGGTATGATGATAAAGAATTATTAAATATAGAAAACAGTCAGAATAAAGTAAAGAACCAATTAATATTTTTCCTTGTTATTAATGCTTTATATGTAACTACAGATGGATTTGCTTATACTGTACATGCATTACGTAATTTAATTTAA	MEFVYILNSIFVVIVWIITIKTCISFLQTLSFNKKVMDKEQGYDDKELLNIENSQNKVKNQLIFFLVINALYVTTDGFAYTVHALRNLI				NA	NA	NA	NA	NA
AK009_03474	141			hypothetical protein	ATGGGAAACTTAATAAACAGTTTCCTATTTTCTTTTGTCTTTTTAGTTGTTGCATCCTATAGCATGTTTTCAATGAGAGACATAAAGACAATGGATAAAGAACATTTTAAATTACCATCAGAACAGAAAGAAGGTTTATAA	MGNLINSFLFSFVFLVVASYSMFSMRDIKTMDKEHFKLPSEQKEGL				NA	NA	NA	NA	NA
AK009_03475	273			hypothetical protein	ATGTTAAACTTTGTAGTATCTCATATGGTTACAATTTCTTGGATAATTAGCTTTTATTTCTTTATTGATTCTATCATTCAGTTAAACAATAAAGAAAAGAGGAAAGAAGAAGAATTTAACAAAATGGTAGGTAAGAAACACAAAGACCTATTTACAGACTTTGCACTTAAATTTGTTATCGTATTCTCGATAGGGTTGTATGGTGTTTATACAAACACGTTTGAAACAGCAATTCAATCTTTATTAAACTTTAAATTACACTTGGAGGGGTAG	MLNFVVSHMVTISWIISFYFFIDSIIQLNNKEKRKEEEFNKMVGKKHKDLFTDFALKFVIVFSIGLYGVYTNTFETAIQSLLNFKLHLEG				NA	NA	NA	NA	NA
AK009_03476	891			hypothetical protein	GTGTCAGAAGTACACAAATGTAATAACGGTCAAAAGTTTGATAAACAATTAAGAAAATTAGTTCCATGTGAAATATGTAAAAGAGAACGTAAAAATGAAGTACGTGATGGGATTGTAAATCAACAAACTGGCAATCGTGAATCGCTATCTATTCATTTAGGAATTGACCAAAGATACGTTTCAGATATGTATAGTCAAGAAGCGATTATTGGTACGACAGACTTATACTACCTTGAAGACAACTCTGTATATGAGTTTAATGCAGTAGTAGAAGCGTTAATGGCTGGTCTAACTGGTGGTCAACTACCTGAGACTTCATTTGTTATGTATGCAGGTCGTCATGCTGAATTACAGAAACTAGCTTATTGTTTCTTAGCATCAGCTTACAAAGGGTTATTAACGGTAGGTAGAGTGCTAACAGCTAGAGAGATTCGAGTAAACAAATACAAAGAAGATTTTGATGAGTATTACAAGAAAGACATTATTGTAGTAATTATGACAGATGATGCAGATAGTGTAACTTTCGGTGAAGTACAAGGGTTTATGCAAGAGCGTTCATTAAACAATAAACCTACAATCGTATTATTAAGTAATCGTAGAAACTTTACATTAACAATCGGTAGACTTTGTAGTCTGAGCGAAGCAAGATATGATTTAGGGGTATTTATCGGTGTAAACTATAAGCAAGGTTTAGATATGTCAGAAGAAACTATCAAAATTGCTACAAAAGCCTTTAAAGTATCAAATGAAACTTTAGGTACAAATCAGAAGTTAGAAGATATTATGAGAATACCGAATGAGAATCTAAAGACTACGGATGCTGAAATGCAGTCATTTGATATGGATAAATTCACAAAAGGAAACCTAAACTTCAATGGTAAAGGAAGTTAA	MSEVHKCNNGQKFDKQLRKLVPCEICKRERKNEVRDGIVNQQTGNRESLSIHLGIDQRYVSDMYSQEAIIGTTDLYYLEDNSVYEFNAVVEALMAGLTGGQLPETSFVMYAGRHAELQKLAYCFLASAYKGLLTVGRVLTAREIRVNKYKEDFDEYYKKDIIVVIMTDDADSVTFGEVQGFMQERSLNNKPTIVLLSNRRNFTLTIGRLCSLSEARYDLGVFIGVNYKQGLDMSEETIKIATKAFKVSNETLGTNQKLEDIMRIPNENLKTTDAEMQSFDMDKFTKGNLNFNGKGS				NA	NA	NA	NA	NA
AK009_03477	1335			hypothetical protein	GTGGTTGTTAATTTAGATTTTGCTTTAGAGGGGGATAAAGTTGTACACATTAAAGACAGACTATCTAGAGATATGACTTACAAATGCCCTTTTTGTGGAGACGAAGTAGGTTACAGGAAGGGTAGTGAAAGAGAGCATTGTTTTTACCATAAAAATCTGGAAACTTGTAACCCTACTAAAGAAACATTACTTCATTATGATTCAAAACATTACCTTTCTAATTTTATTAATAATACGGATTATAGAGTAATAGGTAAAGACTTGTATTTTACAGTAAATTGGTCTTTACTAGATGCAGACTATTATAAGATTTTAAAGAATTTAGGAATGACAATGTATTCTATATCTTTGAAGGAACTTTTAAGTTATTACTCAACTTTCTACTCCGAAGTAGAGAAGACTGTTTCTACTTTTAAAGCTGATGTTTGTGTTGTAAATAAGACTTATAGTACAAACCCTCTAGTATTTGAGATATTCGTAACACATAAAAATGAGGAAGAAAAAGTAAAATATTTAAAAGACAGTAATATACCTTATTTAGAGTTAAAACCAACAAGAACAAGTGAAGGTTTTATTTATGAAGTAGTAGATTTTAATTTAGAAGACTTTTTAGAATATAAATATAGTACGTTGAGAGAATCTATATTGAATTTAGTATATAAAGACCAAAAAGAAGAATTAAAGAGTAAAGTATCAGAAGAAGTAAGAGTTACAATAAAAGAAGAACTTGAAAAAGATATTAAAAATGAATTTTTAATGGAAGCTAGAAAAGATATTTCAAATATAAACCTAAGAGATTTCATAAAGAAATCTTTGTATAAAGAAATGAATAGTATAGATTGTCTAAATAGTAAAGTTAAAAACAGACCTTTAAAGAGAAGAGAAAGATATTATAATTTCGAAACTAAGATTCACAAAGGTAATAAGATACTAATAGCCAACATGGGAAATTATTATGTAACTGACCCTTTAAATATGCTGAGTAGTTTAATTAATCAACTATCGAACCACTATGATATTGAGATTCTTATTGCAGACATACCTAATTATAACAGAACTTCAAATAGGGAAGAGGTAATAGGTTTTAATTTAATGTTACCTAACGAAAAATCAACAGGAATACAGTTGAAAAGTATTATGTTATCTTCATTAGATTACTTATTTTCAAATCCTGAACTACAAACTACAAAGCTAACTATATATGGTATAGACTCCAAAGGTAAATGGGTGAAAACAACGAGAGTTAAAAGGGACAAGATAAGTAGTGTAATAGAAGCTTATAAGAACGCAGGTATGGGATACCGAAGTCATAAAATAGAAGAATTACCGTATTAG	MVVNLDFALEGDKVVHIKDRLSRDMTYKCPFCGDEVGYRKGSEREHCFYHKNLETCNPTKETLLHYDSKHYLSNFINNTDYRVIGKDLYFTVNWSLLDADYYKILKNLGMTMYSISLKELLSYYSTFYSEVEKTVSTFKADVCVVNKTYSTNPLVFEIFVTHKNEEEKVKYLKDSNIPYLELKPTRTSEGFIYEVVDFNLEDFLEYKYSTLRESILNLVYKDQKEELKSKVSEEVRVTIKEELEKDIKNEFLMEARKDISNINLRDFIKKSLYKEMNSIDCLNSKVKNRPLKRRERYYNFETKIHKGNKILIANMGNYYVTDPLNMLSSLINQLSNHYDIEILIADIPNYNRTSNREEVIGFNLMLPNEKSTGIQLKSIMLSSLDYLFSNPELQTTKLTIYGIDSKGKWVKTTRVKRDKISSVIEAYKNAGMGYRSHKIEELPY				NA	NA	NA	NA	NA
AK009_03478	318			hypothetical protein	ATGACAAATAAGGAAAGTATCATAAACGCCTTAGTAAGATGTCATAATGCAATCGTCCAGTTAAAGGAACTAGAAGAGTTAAGAAAAGAAGCGGTAGAGATTGATTCTACTAATTTAAACTTAGATTATATCATGAAGAAGCATAATGAAACAGTACGAGTTCAAGAAATGTATAATAGAAACATTGAAAAAGAGTATGCTAGTTATCAAGCTATATTAAAACTAGCAGAAGAGTTAGGGTATAGTGAGAAAGAGTTAAAACATAAAAGTAAGTTAAGAGTAGAAGAAATAATCAAGTCAGCGGAGAAAGAAGCATAA	MTNKESIINALVRCHNAIVQLKELEELRKEAVEIDSTNLNLDYIMKKHNETVRVQEMYNRNIEKEYASYQAILKLAEELGYSEKELKHKSKLRVEEIIKSAEKEA				NA	NA	NA	NA	NA
AK009_03479	312			hypothetical protein	ATGTTAAACTTTACAAAAGCAGTAGTAAAGCATATGCAGAAGTATATGAATGAGTTAAAGGACTTGAATGCAGAGGAAGAACGAGTAGTTACAGATTTAAAATTCGTAATGGAAACAAGAAAGAAAGTAAACGATATTTTAGGTATTTTTGAAGCAGAGGAAGAGTTATTAAACAAGAGAGTACATTTTAATAAACAAAAGAAACTAGTATGGTCAAAATTATTAGCGGTGGTAGAGTTTGCAAGTGAATTAGATGCAGAGGAAGAAATGAAACAAATGATTGAAACGATTATGAAAGGTAGAGGGATATGA	MLNFTKAVVKHMQKYMNELKDLNAEEERVVTDLKFVMETRKKVNDILGIFEAEEELLNKRVHFNKQKKLVWSKLLAVVEFASELDAEEEMKQMIETIMKGRGI				NA	NA	NA	NA	NA
AK009_03480	339			hypothetical protein	ATGAGTACGGAACTTCAATCTATGCAATTAATAGAGAAAATAGTAGAACATAAGGTTAAACTTCTATTACTTAGAGCAGAAGAACAAAAGCTAGTTGAGTTTGAAGAAAATCATTTACGTGTAAACGGATTACAGTTACATATACCAAGTGTCGTAGCACATACAGAGAAAACATTAGAAATTAGAAAAGAATATGCAAACAGAATAAAAGCAGTAGGAAAACAGAATGAAAAAGTAATGACTCTATTAAATGCCATGTACCCAAACAAGGAAGAATTGGAGAGAACACTTAATAGTGAAACAGTAAAAGCGTATCAATCAGGAAAGTATTCCATATAA	MSTELQSMQLIEKIVEHKVKLLLLRAEEQKLVEFEENHLRVNGLQLHIPSVVAHTEKTLEIRKEYANRIKAVGKQNEKVMTLLNAMYPNKEELERTLNSETVKAYQSGKYSI				NA	NA	NA	NA	NA
AK009_03481	180			hypothetical protein	ATGGGTTTTCTAACAGACTTTATTATTTTATCAGTAGTACCAAGTATAGCGTTATTGTTAACAAAGAAGTTTCCAATGAAACTAAGAATTGTATCAGTTATCATATGGGTTATCATTGTATGTATACTATTAAACACAGAAGCATATAAAGTAGACGGATGCTTAAAAGGTTGTAAATAA	MGFLTDFIILSVVPSIALLLTKKFPMKLRIVSVIIWVIIVCILLNTEAYKVDGCLKGCK				NA	NA	NA	NA	NA
AK009_03482	330			hypothetical protein	ATGCTATCAGGATTAAAACGGTTATTCAAACCAAATAAACAAGCGATGAAAGAGAAAGATATCATTATAAATATTAAGGTTATGCAAAAAGATAGAAAGAAACTAGAAACTGAAAGAGCATTAAAGATTGATGAAATGTGCGAAACAGTAAAAGGTTTATCAAAAGAAAACAAAGATGTAGTAAGTACAAAACTAACAAATGATATTATGGAAATCAATGCACAAATTGACCCTAAAATTGAAGAATGTAACTTGTATATTCAAGAGCAGTTAGATAAAGCAATATACCTAAAACTAGATGTAGAATATATTAAAGAAATGGTAAGCTAA	MLSGLKRLFKPNKQAMKEKDIIINIKVMQKDRKKLETERALKIDEMCETVKGLSKENKDVVSTKLTNDIMEINAQIDPKIEECNLYIQEQLDKAIYLKLDVEYIKEMVS				NA	NA	NA	NA	NA
AK009_03483	249			hypothetical protein	ATGGGAAAAATGACACCGCCAATTGGTATAACAGGGTATACGAAGCCTGTTACAAGAAAGTTAATGAGACAGTTAGTAGAAGAGAACAGATTTCATTTTATTACAGGTTATTCTCCAATCATATACAAACCGGAATTAGGGACATATGTTTGTCATATGGATGAGAGATATGATAATAAAACAGTAGAAGAGTTATGGGAGTTGTTAAGGGGTAGTAAGGGAGGAAGAAAGTTATGCTATCAGGATTAA	MGKMTPPIGITGYTKPVTRKLMRQLVEENRFHFITGYSPIIYKPELGTYVCHMDERYDNKTVEELWELLRGSKGGRKLCYQD				NA	NA	NA	NA	NA
AK009_03484	198			hypothetical protein	ATGAAAGCAGAATACACAGTACACATTTTAAAACTGGGTTTAGGGTTCATGCTTGCAACATCTATCATAATCGGTTTAGTGAAGAACTTTAGTGTAAGTCCAGTAGAAGTTATTGCATTATTCGTTCTGATTCTAGTTACACCAAAAACTAACTTAGCTTGGAAAGACCTTGTAGCTGTTTGGAATGGTAGAAAATAA	MKAEYTVHILKLGLGFMLATSIIIGLVKNFSVSPVEVIALFVLILVTPKTNLAWKDLVAVWNGRK				NA	NA	NA	NA	NA
AK009_03485	162			hypothetical protein	GTGCCAACAATGTTAATTTATGCGTATACGTTATCAGTTCTCATTTTCGTATACATGTTATGGACGAAGATGGAGACTACAAAGTTTAAGAAGGTATTCTTAACAGGGGTAATTAGTGCTTCTTTATATGCATTAAACTATTTCGGGTTATTCTATAGCTAA	MPTMLIYAYTLSVLIFVYMLWTKMETTKFKKVFLTGVISASLYALNYFGLFYS				NA	NA	NA	NA	NA
AK009_03486	159			hypothetical protein	ATGAGCAGTACAGAAGCAATAATTTCAGCAATTGTAATAGCAGTAGTGGTAGACTGGGTAAGTGATTCAATGGGTTGGAGTTTGAAATGGAAAAGACTTGCTATCAGTAGTATTATAACCGCTACAATAATAAGTGCAACAATTAAACTGTATATCTGA	MSSTEAIISAIVIAVVVDWVSDSMGWSLKWKRLAISSIITATIISATIKLYI				NA	NA	NA	NA	NA
AK009_03487	924			hypothetical protein	GTGGATGAATTAAGAGTGAATGAGAAATCAAGAGGGGCTAAATACAGTAACGTTGCTAGGGAAAAGACGGTCACACTGTTATTTAAAGATGAACCTGTAACATTTTTAAGAGACGAGTACAATAAGAAACTAACTAAATTTATAACAAGATTTGAGAAGCATGATGGGGTAAAGTCAATTCGTTGTCACTTCTCTAAAACGTCAGAAAGTATATATGTAATGGTACAGTACGAAAACAGAAGTGGTTACTTGCTATTTACAATTAAAAACCATAAAGATTATCGAGTATCTAGTGTTAAGATATTCACAACTACAAAGTTCTATGATATGGCTCATTTAGGTAGAGCAGTTGGAATGTACATACAAGAAGCTAAAACAAGTGAAACTTTACTATTTAACTTCAAGTTTGGAACATTCTTAGGGTTAAACACCATTTATAAGTTAGCAAATAAGGGGTATCAGATTACAACTCACCCTTTAAACTATGAACTGGATTTATCAAGAGATATCTATATTTCATCTAAGGTAAACATTACAGATAGTACATTAATTACAGATGAAGTATTCTTAAAAAGAATCAAGAAACTAGTACATTGCGGACTAATTAGAGCCTTCAAAGTAAACGAAGGGGTAGTACGATTCTACGTTTCGATTTTCGGTAGTGAATTATACAAGCAAAACTCTGAAAAGTATAAACAACAATTAGAATCAACAAACTTAGCAGGTATTGATGGATTATTAGAAAATACAGTAGGTGTATCTAAGAGAACATCTTCTACCGCAAAGCATCATAAAAAGAAACCGCACACAAAAGGTTCTTACAAAGGTAAACAGCAATATAAAAAGAAACCGTATCAAGGAAAGTCAGATGGTACTCAAAAACCAAGCAAACCTCATTATAAGAAGGATGATAATCGGAAATGA	MDELRVNEKSRGAKYSNVAREKTVTLLFKDEPVTFLRDEYNKKLTKFITRFEKHDGVKSIRCHFSKTSESIYVMVQYENRSGYLLFTIKNHKDYRVSSVKIFTTTKFYDMAHLGRAVGMYIQEAKTSETLLFNFKFGTFLGLNTIYKLANKGYQITTHPLNYELDLSRDIYISSKVNITDSTLITDEVFLKRIKKLVHCGLIRAFKVNEGVVRFYVSIFGSELYKQNSEKYKQQLESTNLAGIDGLLENTVGVSKRTSSTAKHHKKKPHTKGSYKGKQQYKKKPYQGKSDGTQKPSKPHYKKDDNRK				NA	NA	NA	NA	NA
AK009_03488	1587	rhlB		ATP-dependent RNA helicase RhlB	ATGGCGAAACGAACGGTTAAATACTATAATGATAGATTACAAGGCTCTATGAACGAAGCAGACTGTGATAATTTAGAGCATATTTTAAAAATGAAAGAAGTAAACGGAAGTATTGACTCATTGAAACATACAATCTATGCTTTATCCGATGAAGAAGTGGCAAGAATACAACGAGAAAAGAAAGTAGACCCATCTATTTCAAAGGAGAAAGGTACACTAGCGGATAATCAAACACTAGGAACAGCTTACATGTACTATTCAGGCGACTGTATTATTGGAGATAGTGTAGGTTTAGGGAAAACTGTACAGGTATCAGCCCTTATTAACTTAAAGAGAAAACAAAACCATGATAACGGATTACCTTTCCGCTATTTATTCTTAACGGAGAAAACACTAGTAGAACAGGCGGTAAGAGAGTTAACTCGTTTTACAAGACAGTATGTACATGAGTTAACTGGGGAAAAGAAAGAGAACGTAAAATGGCGTGAAGAAATGTGGGACGGGCATAAAGGTGGTATTGTTGCTCCACACTCTTTACTAAAACAGCAAGTCTTTCATTCATGGTTAGACGATATGTTAGACGAGTATGGTTTAGCAGAAGGAAGCTATTATTTTGATTATCTATTTATAGATGAATCGAGTTTACTAGGTAGTACAAGCACACAACTCTATAAGTATGCAGAACTATTAAGAAGGTATGCAAAACATGTTATCTTAATGAATGCAACACCATTCGAAAGTAATTTAGATACATTCTATGGTCAATTAAACTTCTTAGACCCAAATTTAATGCCAGCTAAGACTACATTCAAGAAGATATACTACGTATTAGAGTATGGACATGGTCAGAAGAAGTGGGGTGTTCACAATGGTAAATATAAGAACGCACACGTATTTAGGCATCAAGTGGGGTATTTCTATTTCTATCAAACTCGTAAACAGTTAGGTGCAGAAATGAAGAATACAACCTATGAGATTATAACAAGAGAAATGACAAAGGAACAAACAGAGTTAATGAAGCTAACTGATATGTACGGTTATGTATATGATTGTCCTACGTATTTAGACTCTGATATCCCATTCGATGAAGAGAATGTACCGAAGTTAGACATGTTAGAAGAATTACTAGAAAACAAAATCAAGGTAGGAGAACAGGTATTAATCTTCTGTCACTATAAAGAATCACAAAGAAGATTACAAGATTGGTTTGAGAACCGTGGATATGATACTGAAATTTTAAATGGCGATATTACAAACCGAGAAGAACGAAACGGAATTGTAAACGCCTTTAAAGAGAAAGAATATGAAGTATTAATAACTTCAGTTCAGAAAGGGTTAAACTTTGGAGACGTACCACATTTAATCTTCTATTCATTTAGTACAAACCCAAACAAAATGATTCAGATGGAAGGTCGTATTACTCGTTCATTCCATATTGAAAATAAAAACTTCTATCTACTAGCACATGAAGGTAGAGAGTTAAACAAACTGAAGAAAGATGTTAAGAAGACCTTACAGTCAAGTCGTGACTTCTCTAGTGACGATTTAAGTGCAGTAGTTGAAATGTTACTAAACCTTATGGATTAA	MAKRTVKYYNDRLQGSMNEADCDNLEHILKMKEVNGSIDSLKHTIYALSDEEVARIQREKKVDPSISKEKGTLADNQTLGTAYMYYSGDCIIGDSVGLGKTVQVSALINLKRKQNHDNGLPFRYLFLTEKTLVEQAVRELTRFTRQYVHELTGEKKENVKWREEMWDGHKGGIVAPHSLLKQQVFHSWLDDMLDEYGLAEGSYYFDYLFIDESSLLGSTSTQLYKYAELLRRYAKHVILMNATPFESNLDTFYGQLNFLDPNLMPAKTTFKKIYYVLEYGHGQKKWGVHNGKYKNAHVFRHQVGYFYFYQTRKQLGAEMKNTTYEIITREMTKEQTELMKLTDMYGYVYDCPTYLDSDIPFDEENVPKLDMLEELLENKIKVGEQVLIFCHYKESQRRLQDWFENRGYDTEILNGDITNREERNGIVNAFKEKEYEVLITSVQKGLNFGDVPHLIFYSFSTNPNKMIQMEGRITRSFHIENKNFYLLAHEGRELNKLKKDVKKTLQSSRDFSSDDLSAVVEMLLNLMD				NA	NA	NA	NA	NA
AK009_03489	345			hypothetical protein	GTGTCGATTAAAGTAACAGCAGTAAGTTTTAGTTTCGCAAAAGCAATGGATGAAAACAGAAACGGTTCATGTGGGTTCTGTAGGGTTATCTTAAATGGGGTAATCACAATAAACAGGGTGAGAGTTATTAAGAAAGATGCAGACTATATTGTACAAATGCCTGTAACTCCTTGTAGGTCTGTAGAAGAGAATGCAATTAAGTCAGTTGTACAAATAACAGATAGAGAGACGATGTCGGAAATAGAAACAGCAGTTTTAAAGGAGTATAACGAGATATTAAAGAATACAAAAGTCTATTCGAAGAAGCCCTCTAGAAATAATAATCAAACTAAAACATACAAGTAG	MSIKVTAVSFSFAKAMDENRNGSCGFCRVILNGVITINRVRVIKKDADYIVQMPVTPCRSVEENAIKSVVQITDRETMSEIETAVLKEYNEILKNTKVYSKKPSRNNNQTKTYK				NA	NA	NA	NA	NA
AK009_03490	1278			hypothetical protein	TTGCGAGTAATGTTAGAAAGTATATCCAATGAAGACTTATATTTTGCCTTACAAAAGTATGGTGAGAAATTAGCAGACAATAAGAAAGATTATAGTCAAGTAAAAGCGGAAGAGTTTGAGAGGTTACAGCTTCTTAGACCTCTTCCAGTATTAGATGAACGGAGTCTGATATCCGAAGAGGTAGAAGAAGATTATGAAATACAATTAAAAGCTTCCGAGTCAATAGAGCATATTACATTAGACTCTATTCTACCACATGAGATTACAAGTCATATTGAAGGTGTCTTTGAGAAGCTAAACAGTAATGTAAACTTAGATTTAGTTTCGGAAGATGAGCCAATTGATTACACAAAAGAAGAACCTCCAGTTGCTATTATAGATGAAGAAGAGGATGAAGAAATTGTAGATGATGAAATTATAGACGATGATGTCATTGAAGACGATGAAATAGAAGATGAAGAACTAGAAGATGATGAACTAGAAGACGAAGACGAGGAAGAAATAATTGAAGATGACGATGAAGAAGAATTGTTAGACGATGATGAGGATGAAGAAGACCTTGAAGAAGACTTTGAGGAAGAGGAAGAAGAGGAATTCTTAGAAGACGAAGAAGATGAAGAGATTATAGAGGAAGACGAAGATGACTTTGAGGATGAGGAAGAGTTGGAAGACGAAGAAGATGACTTTGAGGATGAGGAAGAGTTGGAAGAGGAAGAAGAGTCCTATGAACCTGAGCCTGAACCTATAATCGAAGAAGTCAAACTAGTAAAACCAGTCATTACACCTCCAATCGTAGAAAAGAAAGAGAAAGTTCAAGCTTTCGAACCAGTGTTTAAAATGGATGCACCAGTCATTAAGAAGACTGAACCAGTATTCAAGAAAGATACACCAGTTGTAGCACCTCCAAAACCTGAGTTGAAGAAAGAAGAACCTGTTCAAAGTCAATTCGATGTTCCAAATAATCCAAGACCGAGTCGTAGAGCTAATTCAAACTCACTAAGAATGCAAAGCATAGAAGGTAGTGAAGAAGACTTCATTAAAAGCATAATGAACAGTCAAAATTCCAAAGTAACTCCACCTTCATCGAATGTCAATCCATCTTCTCCAAAAGTAGAAGAAGTAAAAGTAGAAAACTTACCTCCAGACCCAATTTCGTACCTAAGACTTCATCCGAGGTCGAAGGAAAACGAGGTCAAAAAGCTATATTCACCTAAAGTAGTAGATGACTATATTAATAGTGGTATCATAACAAGGGCTAGAGGGGTATTATTAATTTAA	MRVMLESISNEDLYFALQKYGEKLADNKKDYSQVKAEEFERLQLLRPLPVLDERSLISEEVEEDYEIQLKASESIEHITLDSILPHEITSHIEGVFEKLNSNVNLDLVSEDEPIDYTKEEPPVAIIDEEEDEEIVDDEIIDDDVIEDDEIEDEELEDDELEDEDEEEIIEDDDEEELLDDDEDEEDLEEDFEEEEEEEFLEDEEDEEIIEEDEDDFEDEEELEDEEDDFEDEEELEEEEESYEPEPEPIIEEVKLVKPVITPPIVEKKEKVQAFEPVFKMDAPVIKKTEPVFKKDTPVVAPPKPELKKEEPVQSQFDVPNNPRPSRRANSNSLRMQSIEGSEEDFIKSIMNSQNSKVTPPSSNVNPSSPKVEEVKVENLPPDPISYLRLHPRSKENEVKKLYSPKVVDDYINSGIITRARGVLLI				NA	NA	NA	NA	NA
AK009_03491	2331			hypothetical protein	ATGAGTTTCGACTCACGAAACTTTGTCTCTGACGATGACTTAGCAAAAGAACGTCAGGATAGGCAAGACAGACAAAACCCACCAAGCGTAGAACATGGTCAAGGTGGAGACCCGTTTTCTGATTTGGATATAGATGCTATGTTCAGTAATCCTTCTCCTTCTTCACCAACTGATAATAACAACTCGTTTAACTCATTCGGTGATGCACCTCCACTGGGGCAACCTTTAGGTGGTGGAAATGACCCTTTCTTAAACCCAATTGGAGGTATACCACCGATGGGAGGTATGAACCAACCACCTACACCATTCGGTCAACCACCACAACAACCTAAGAGTGACGAAGAGAAAATAATGGATGCAGGAAAGAAGAGTTGGTCATTCATTAAAGACTTAGGTAGTGGATTTCATGATTTAAAATCAACACCTACAAACTGGTCTATGACTGGTAGGAACTTAGTTAAAATGTCAGCAATCGCTTGTGGTTTATCCTTTGCAACTATGATGATATTTAAGAAAGACGTAATGGACTTCATGATGGGTAGCGGTTTTACCGCAATTGTAGGGGTATTGTTATTATCTTTCAATAATGATAAAGCACGAATGATAAAAGGTACAGACGGAGAAGAGGAACAGCCCTTTGATATTAATAAAATAGAGGGAGACCCTTTACCACAAGATGATATCTTTGCGAATGCATTTGCAACTGAACCTAACATGGTAGTTAACTTAGATAAACCACCATTAGAAGAAGTACAGCCTTTTGACTCCTATGAAGAAGATGAAGACGAAGGAGAAGAGGATGACGATGAATTTGATGATGGTTGGGACGAGTTCGATGAAGAAGAAGACGATGAATACGATGAGGAAGACGATGAAATAACAGAATTTGTTACAGTAGATGAAGCACCTACTGATATAGCAACTGTCTTAACTGATGTAGACCAAGTACCCGCAGGTATGTATACAAGACATTTCTTATATGAAAACTATAAGAAAGCCTTAACAAGTATTACACCATCTTATAGTGATACAATCTATTTAGATGAAGATGAGGATGACGAGTGGGATGCATACAGTAGACTGATTCGAGAAGTTCAACAACAAATGGACTTAGAATCAGGGGCAGACGATTACGAAAGTGATTTATCTGAAATTCTTTCTGTAGAAAAACGTCTATTAACTGTTTATGTAGAAGCAACAAGACCGAAGAAGCTTAAAAACAGTAAGATAGAAGAGTTTAACCGAGAATTATCAAATATCGTTTCAAGGGTAAAAGGAAGACTAGTAGAAGGAAGATACTCACAAACAATAGCAGTTGGTAACACAATTTACATTACAATCTTTACAGGTGAAACAGCAAGTGTATCTGTTAAAGACGCTATTATAAAAGAGCAAGATTTCTTCTTAAATACAGACAACCGTATTCCAGTTGTAATGGGCTTTAACGAATTAGGAGACACAATTAAAACTGATTTATATGATGTGGAATCTATCCTAACAGCAGGTATGCCAAGGGGTGGTAAAACATTCTCTGTTAAAACGGTAATGTCTCAAATGGTTCAATTTTGTAGTCCATCAGAAGTTAATTTCTACTTTGCAGACGTAAAAGGTAAAGTATCTGACTGGTATCAGTTCAGAACACCTCATGTTAGAAGGTTTGAAAGTAACCCACAAGACATCATAACAATGTTAACTCACCTAACAGAAGTAGAAGGACCGAGACGTGAGAAGATAATGGCAGAAGTAGGGGTAACAAACTTAAAAGACTATAATCAAGTTCCGCATGATGTTGAACTTCCTATGATTTATGTTGTTATAGATGAAATGGCAACTCTAATGCAGAAGTTAACAGACAAGGATAAAAAGTTATTCCATGCAAGAATGGTCGATTTAGTAACGAAAATGCCAGGGTTTGGACTTAGATTATGGGGTATTCCTCACTTAGTTAAGAATGATATCATCCCTAAAACAGTATCAGACTTAATACCTTGTAAGATATCTGTTAAAGGTGATGAGAGTCACGTAGAAGCTACAACTGGTGCAAAACCAAGTAAGTTCAAATTTAAATTATCACACGTAGGGGATTGTGCAGTAAACATGCCATCAATCTCTAGTGACGTATTCTTTATGCACTCATTTATCTTAGCTAAGAACGGTACAGGGGTAACTCGTGTATTAGATTATCAAGCGAAGTTATGGGAGAAACTAGAGCCTGATTCCATAAAAGGTTCACTTGCCTATCAACTAGACAATACAAACAAGCAAAAAGTAATATTAGATAAGTTAGACTTACCTAGTGAGCCTGTATTTGGTAAAGATGGAATGTACTAG	MSFDSRNFVSDDDLAKERQDRQDRQNPPSVEHGQGGDPFSDLDIDAMFSNPSPSSPTDNNNSFNSFGDAPPLGQPLGGGNDPFLNPIGGIPPMGGMNQPPTPFGQPPQQPKSDEEKIMDAGKKSWSFIKDLGSGFHDLKSTPTNWSMTGRNLVKMSAIACGLSFATMMIFKKDVMDFMMGSGFTAIVGVLLLSFNNDKARMIKGTDGEEEQPFDINKIEGDPLPQDDIFANAFATEPNMVVNLDKPPLEEVQPFDSYEEDEDEGEEDDDEFDDGWDEFDEEEDDEYDEEDDEITEFVTVDEAPTDIATVLTDVDQVPAGMYTRHFLYENYKKALTSITPSYSDTIYLDEDEDDEWDAYSRLIREVQQQMDLESGADDYESDLSEILSVEKRLLTVYVEATRPKKLKNSKIEEFNRELSNIVSRVKGRLVEGRYSQTIAVGNTIYITIFTGETASVSVKDAIIKEQDFFLNTDNRIPVVMGFNELGDTIKTDLYDVESILTAGMPRGGKTFSVKTVMSQMVQFCSPSEVNFYFADVKGKVSDWYQFRTPHVRRFESNPQDIITMLTHLTEVEGPRREKIMAEVGVTNLKDYNQVPHDVELPMIYVVIDEMATLMQKLTDKDKKLFHARMVDLVTKMPGFGLRLWGIPHLVKNDIIPKTVSDLIPCKISVKGDESHVEATTGAKPSKFKFKLSHVGDCAVNMPSISSDVFFMHSFILAKNGTGVTRVLDYQAKLWEKLEPDSIKGSLAYQLDNTNKQKVILDKLDLPSEPVFGKDGMY	PGPT0030468_6292	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
AK009_03492	159			hypothetical protein	ATGAATGTTGCGTATGCTTTAAGTTTCGCTTTGTTCTTGTTTCTCGTTTCAGTATTTACAACGAATAAAGACACAATAAACGAGAAATCAAAGCGTAACTTTTGGATTCTAGCAGGATTGTTTGGGGTATATAGTGTAATTCGATTTATACTAGCCTAA	MNVAYALSFALFLFLVSVFTTNKDTINEKSKRNFWILAGLFGVYSVIRFILA				NA	NA	NA	NA	NA
AK009_03493	1029			hypothetical protein	ATGTTAAGTGGAATAACAAGTTGGATTATGGAACACAAGAAAACCACGCTTGCAATAGCAGGGGTAGTTATCATTAGTTTCATATCCTATAATGTTGCGGCAGACCGACAAGCCAAGAAGGAAGCTGAGGTTTCAGCAGAGAAAAGCGCAAAAGAAGAAAACGTTAAGTCTGAATTCGACATTGAACAAGAGAAACTAGTGAAGAAACATGGCGCACCAAAGAAAGGTTTCCGTTGGACAGACGATGGTAAGCTTCAAGCAATAGGAGATAAAGGTATGACCAGTGAGGACGTTATTTATGCATATGTTCGTGGTCTATCAACTCTAGATTTCTCTAATGCACAAAGATATAGCTATAAGACTGATGTAGTAAAATCATACCAAGGATTCTACGAAGCAGAACAAGATTTTACATACAATAAGAACTTCCAAAAAGGTATGTATAAACAAGTACTATTAAGTCTTAGACCAAACAAAATTGAAGATACAGCTTTATTCGCTGATTATAAAACTTCAATTACAATGAATATCGAGTTATTAGATTTAAGTAACAAGGATTTTTGGTTAAAAGACAAAGATAAAATCTTCCAAGACTTGAAAAAGTACAAAGTGAATGAGCGTGATACAACAAAAATGAAAGATTACTTATTCAACTACGTACTAAGTTACTATTCAGGTGAGAAGCCAAAAACTAGAAATGTAAAAGTAAACTTTGTAATGCAACAAACTATGGATGGTTCATGGTTAGTTACAAATGATGCTGAATTAGATGCATTAGCGAAGTACCAAGACGGTGAAATCGTAGTAAACCAAATCTTAGACCAGTTTGAGCGTTGGATTGGTAAGTCAGGTGAAGATGTAACTCCTGATGCTAAGATTGAGAACACTGAAATTGGTAATGTAAACGGTAATATTGAGAATAAGAAAGATTCAGATAACGTTAACCCTTATAGTAGACCTAACAATGATAATGATAAAATCAATCAAAACGCACCGAAAGACGATGCACCAACTATCATTGAGAGGTAA	MLSGITSWIMEHKKTTLAIAGVVIISFISYNVAADRQAKKEAEVSAEKSAKEENVKSEFDIEQEKLVKKHGAPKKGFRWTDDGKLQAIGDKGMTSEDVIYAYVRGLSTLDFSNAQRYSYKTDVVKSYQGFYEAEQDFTYNKNFQKGMYKQVLLSLRPNKIEDTALFADYKTSITMNIELLDLSNKDFWLKDKDKIFQDLKKYKVNERDTTKMKDYLFNYVLSYYSGEKPKTRNVKVNFVMQQTMDGSWLVTNDAELDALAKYQDGEIVVNQILDQFERWIGKSGEDVTPDAKIENTEIGNVNGNIENKKDSDNVNPYSRPNNDNDKINQNAPKDDAPTIIER				NA	NA	NA	NA	NA
AK009_03494	219			hypothetical protein	ATGAACTTACATGCGTTAGATATGCAAGTTGCTATTGCTTTTGTAGGGGTACTTTTATTTACAGTTGCGACAGTTTGGTTGACATTAAAATTCGACATTACGAAAAAGCTTCAACCTGTTAGAACTTGGATGGAAAGTCATAAACTTATGACTGTGACAGGTACATTATCTGTTCTATTCTTGTCTATGTGTCTACAGTACTTAGGTTACATTCAGTAA	MNLHALDMQVAIAFVGVLLFTVATVWLTLKFDITKKLQPVRTWMESHKLMTVTGTLSVLFLSMCLQYLGYIQ				NA	NA	NA	NA	NA
AK009_03495	363			hypothetical protein	GTGCAAGATGTAATACAATTCTTTCAAACAACATTAGGGGTATCGTTGCTTATATTTTTAGCGTATTTTCCTTTGGTTGATTTTATGCGGAGACTTTATCTATATGAGTTAACATTATATAACCGATTAGAAAAAGAGTACAGACCAATTATAAAATATACAATGGGTTTTCAAACGATAGCATTCATTGTGTTTTATGTAATTGCTCCTTATTTCTCTATTCAGAAATACATGGTAGATGGTGTAACTTCCTTATTAATACTTCCAGTTGCATTTTTTATCCTGACAAACATGGGAATCTTTACAATATACGGATTGATTCATACAGGTAAAATAAAAGTAACTTTAAAAGATAAGAAGTAA	MQDVIQFFQTTLGVSLLIFLAYFPLVDFMRRLYLYELTLYNRLEKEYRPIIKYTMGFQTIAFIVFYVIAPYFSIQKYMVDGVTSLLILPVAFFILTNMGIFTIYGLIHTGKIKVTLKDKK				NA	NA	NA	NA	NA
AK009_03496	2037			hypothetical protein	TTGTTCGGGTTAAGCATACCAAACTTTAAAAAGATACTTGGCGAAAAGAAACGTACCATTAAACCTTGGGGTTTATGGGACACAAGAATAGCTGAGTTTATGAATAAGAACAAAAGTGAACAAGGACCGACTAGACGTGTTAACTTCTATGCAAACACCAATGCTTTCTATAGTGGTGAGAAGAACGTGTCTTATCTGTATTTAGTAGACCAACTACCTAGTGAATTAGAGTTATCATTCCGTAAAACGATTAGACGAGAGTGTAAAGCAGGGGTACGTATTACCTTCATTACAAACTTAAACCGAGATACAATTAACTGGGAAAGTCCTACAAATAAGAATAAACTTCAAACATGGAAGAACTTAGAGAAAGCCAATGATAGAGAGGTTAGTATCTATGAAGCGGCAGGAGAGGTTGGACGTTTAGACCTACAAAACTATAAGAAGAAAAGTATTGAATATTTAATCAATGCAGACTTACGTAGAAAGAGAAAGTTATTTAACGTACAAGGTATTATGTTAATTACAGGTGAACGAGGGTTAGCATTTGATGATACGGTTAAATCAGTAGAGTCTTCTTGTAAACGTAGTAAAATTAAGATTAAACGTATAACAGGTAATTTAACGGATTACTTAGAAACGTTTAGTCCTTTCTCACTACGTAAGAATAGTGGGGTAATTAAACGAACTGGTTCAAACGTTATACCTGATGAATTAGTAGCAAGATTAAACTCTTACGACCAAGGTACAGTTGGAACAGGTTCGATGTATTGGGGTACTGATATCTATTCTAAGAAACCAGTATTAAAAGAGCCAAAAGTAATAGACACTGATGCAGAGAACTGGTTAATTGCGGCTGAGACTGGTGGAGGAAAATCCTACTTTGTAAAATCATCTTGTATTCAATTACTTGGACGAAACGATATGGTAGGAACAATTAACGATATCGAGGGTGATGAGTATGAAGACTTAGGTTACATCATCGCAAACCATAGTAGCGTTGTTATGTTAGATATTGGTGAGTCAGGTGGTTCTTACTTTGACCCTGTAGAGATATACGAAACAGGAGTTGCAGATTTAGATGAAGAAATGCACTCTTTATCAGTTTCCTTTACAAAAAGTATGTTTAAAACATTAGTAGGAGACAAGCTACTACAAAAGCGTGACTGGGCTGAAACAATCATCGAGAATGGGGTAGAAGAGTTCTACGCTGATTTAGGGGTAGTAAACAGTGATAGTAAGACTTGGAAGAAAACAAAAGGTAAAACTATCTTTGATGTTTACGAAAAGATTAAAATATACAAACCTCATAAATTAAATTCTGAGTTTGAAGCGGATAAAGAGTTAGTTATCGCTCAATTAGAGTCAAGATTAGGTAGAAACAGTCGTACAACAGGTAGATTCAGTAATCGTGTACAATTCGACTCTATCCGTGATGCGAAACTAGTAATTAACTCATTCGGTATGAAAGGTCGTTCAGCTTCTACAGTAAGTGCGGTAGACATGGCGTTAATGCAGTTATACACCGCTTTAATCTCTCATTTACGTTCTGTATTTGCGAAATCAAGGGGTATGTATAACTTTAAAATTTGGGAAGAGTTCCAACGTTGGGGTGGATTCCCTGGTGCGGAAGAAACACTTAAAACTCCATTATCAGGTGGACGTAAATTAGGTGATATTAATATTATTATCACAAACAGACCTTCCGAATTACTAGAAACAGACCGATTCAAAATCTTTGACTCAATCACTACATTTGCAATTGGGGCTGTAGGTGACTCGAAAGTTCGTCATGAACTATGTGAACGTCTACAAATGCCGTTAATGAAGAAAGAATTAGATTTAATTGAAAGAAACCGTAAGAAATCCGATGATAATACAACAGAGTATGAAGACTTCGATGCAATCAAGATGAATCCATACGCAAAAGCTTTCCTTGTTGGATTAGAGAGACGAGATTTCTCTATTACGAAAATTGTATTACCTGATAGCTTGTCTAAAACAAGACTATTCCAAACTGGTGTAAAAATAGGATAA	MFGLSIPNFKKILGEKKRTIKPWGLWDTRIAEFMNKNKSEQGPTRRVNFYANTNAFYSGEKNVSYLYLVDQLPSELELSFRKTIRRECKAGVRITFITNLNRDTINWESPTNKNKLQTWKNLEKANDREVSIYEAAGEVGRLDLQNYKKKSIEYLINADLRRKRKLFNVQGIMLITGERGLAFDDTVKSVESSCKRSKIKIKRITGNLTDYLETFSPFSLRKNSGVIKRTGSNVIPDELVARLNSYDQGTVGTGSMYWGTDIYSKKPVLKEPKVIDTDAENWLIAAETGGGKSYFVKSSCIQLLGRNDMVGTINDIEGDEYEDLGYIIANHSSVVMLDIGESGGSYFDPVEIYETGVADLDEEMHSLSVSFTKSMFKTLVGDKLLQKRDWAETIIENGVEEFYADLGVVNSDSKTWKKTKGKTIFDVYEKIKIYKPHKLNSEFEADKELVIAQLESRLGRNSRTTGRFSNRVQFDSIRDAKLVINSFGMKGRSASTVSAVDMALMQLYTALISHLRSVFAKSRGMYNFKIWEEFQRWGGFPGAEETLKTPLSGGRKLGDINIIITNRPSELLETDRFKIFDSITTFAIGAVGDSKVRHELCERLQMPLMKKELDLIERNRKKSDDNTTEYEDFDAIKMNPYAKAFLVGLERRDFSITKIVLPDSLSKTRLFQTGVKIG				NA	NA	NA	NA	NA
AK009_03497	1239			hypothetical protein	ATGAATTATTTAGTAAGTACAAGTAACGAGTACGATTTAGAGAACTATACAAAGGTAGATAGTTTGCAAGCAGTAATAGAAGCAGATGCAAACTCTATTATTCTATTACATTCCTTTCAAGAAGATTCTTATAAAGCTTCTTTAATGCTATCAAACTTATATAGTACAAAAGGTGTTAATAAGTTTATTTACATAAACAACTCACCTTACGAAGATGTAAGAGTATTAATTGATAGCTTTAAAGGGGTAGTGGAAGAAGACGAGTCTTTATTGGAAGACGAGGATGAAATTGCAGGTTTAGTTGAAATTTTAAAAGAAGACTCCTTAGAAATCGCAATAGGAGAGACAGAGAATCAAAACTCACCTTTTAACGTATTGACTGAGTTTGTATCAAAGTTGTCTGAGGGTGATGAGTCATTAAACGACCCATTATACCTAGATGTTGTTAATAGAGCATTAACAAGTGTAAATAGAGACATGAAGTTACAAGAGGAACGAATCAGTTTAATGGGTAAAGGTGTAATTGAGACGTACAACAATACCACAAAAACTATCAATAATTTACAGGTTAAAGCCGAAGAAATGAAAAACAAGCTACTAGAGATAGAGCATGATAAGAAGTATAGTGGTGCAAGCCGAAATAGGGCTAGTAACCTATCATTCTATCCGCCTATCATCTATACAGGAAACATACCTTTAATTGTATTTAAAGAAATGTCAGCTTGTAGGTATCTAACGAGTATGGTACTAGCTTATAAGAATCATTTAGAAACGATTAAGAATAAGCGTGTACGTTTGATTGTTGTATCAGGTAAACAAGAATTAACAAAACGTAGATATGAAGGATTCTTTGAACTTACCTTACAATCTATGAAGAGTGAGTATGCAATTACAAAAGACGTAGCTTTCACTACAACACCTTTACGAGATATGATGTTAGAAATGACAAAGAAATCAGACGAAGTGATTCTAATACTAGACCGTACCTATGAAAAAGACCCTATTTTTACAAACAAAGCAAAGGTTATTCATTGTGTAACAAGTATAGGAGAACTACGTAAGTACAATCTAAAGAGTGAAGAAAGTATCATATCTATAAGAGGTCTGAAAAACTCTTTAATGCGCCTAACTCATATTGATAGATATCCCGAAGGGGTAGAAAACAGATTAGACCGTTATGAGAAAACGTTCTATGAATCTTTCAACCGTATAGATGAATTTGTAGGTATAACAAGATAA	MNYLVSTSNEYDLENYTKVDSLQAVIEADANSIILLHSFQEDSYKASLMLSNLYSTKGVNKFIYINNSPYEDVRVLIDSFKGVVEEDESLLEDEDEIAGLVEILKEDSLEIAIGETENQNSPFNVLTEFVSKLSEGDESLNDPLYLDVVNRALTSVNRDMKLQEERISLMGKGVIETYNNTTKTINNLQVKAEEMKNKLLEIEHDKKYSGASRNRASNLSFYPPIIYTGNIPLIVFKEMSACRYLTSMVLAYKNHLETIKNKRVRLIVVSGKQELTKRRYEGFFELTLQSMKSEYAITKDVAFTTTPLRDMMLEMTKKSDEVILILDRTYEKDPIFTNKAKVIHCVTSIGELRKYNLKSEESIISIRGLKNSLMRLTHIDRYPEGVENRLDRYEKTFYESFNRIDEFVGITR				NA	NA	NA	NA	NA
AK009_03498	921			hypothetical protein	ATGAGAACATTATTGGCATTTGGAGATATTACAGAAGGTGTCAAACAAGAAATTAACGAACTAGACGATAGTGTAGATATTAGGGCATATACAAGAGCCTATGACTTAATTGAAAATATTACGATTCTAAGACTTAATTTTGACCGTATCGTATTGACACATGCAGGGGTAAAGACGCAACAAGAGTTAGTAGATTTAAACAAGTTTTTAAGGAAGGAACATCCAAGGGCTACAGTAGTCTTTATGTTCCCAAAAGGAAAAGAAAATGCAGAAAAGAAAGCTAAGTTCTTCAATGAGGTATTTAATTCACCTTTATATACAGACTTAGCAGTAGAAGAACAAAACTTATCTATCCTACTGAAAAGTGTAAGAGGGGGTATAGATGAGATTCGTGAACAGTATTCCGCAAACAAGCAAGATGAAATTGATGATGATTTGTTAGAAGACGATTATGACGAAGAAGAGAACGAAGAATCAGCAGAAGCTACAAGAGAATTAGAAATACAACCGATGGTTGTCTTACCACAACGGAAAAGACAGTATAAAAGATACGGATTTTTTGGTCTAAAGAAACTGTCCAAAGTCCAATTGCAAACAAAACAACAAAATATGCAAATAATTATGGCTTACTTGCAACACATAAAAGGAGATAATAACGTACAAGGTGAAACATTTGAACAGGATATTCATAGTCAAGTGTTACAAGAAGGTCATAACCAAGATAAATCTATGCAAACAAGTAATGATAATGTGTATAACGTAAATGAAAAATCAAAGGAACTAAGTGAAAAATTAAGTAACCCGACACCTTCTCGTACATTCACAGAGTTAGATTTTGGGTTCTATAATTTCATCAATACTTATGATGGTAGACCGATGGTTTCTCAAGAAGGTTCAGGTTATAAACAGCTTTATAAGTAA	MRTLLAFGDITEGVKQEINELDDSVDIRAYTRAYDLIENITILRLNFDRIVLTHAGVKTQQELVDLNKFLRKEHPRATVVFMFPKGKENAEKKAKFFNEVFNSPLYTDLAVEEQNLSILLKSVRGGIDEIREQYSANKQDEIDDDLLEDDYDEEENEESAEATRELEIQPMVVLPQRKRQYKRYGFFGLKKLSKVQLQTKQQNMQIIMAYLQHIKGDNNVQGETFEQDIHSQVLQEGHNQDKSMQTSNDNVYNVNEKSKELSEKLSNPTPSRTFTELDFGFYNFINTYDGRPMVSQEGSGYKQLYK				NA	NA	NA	NA	NA
AK009_03499	1338			hypothetical protein	GTGGGTGGTAATCAATTTCAAGACGCTATGAGACCAAAGAAAGGTGAAAGAGTAATAAACCTTCCGATTACATTTAGTAAACGTAGTGAAGGTACAGTTAACAAGACAACCTTGTTTTGGGTAATAGCAATATCAACCGTGTTATTCTTAATCTATGTGTATGGGGTATTAACAGGCTCGAAACCTTTTTACTACAAGATTCCTTTAGCACTCCTTAGTACATATGTCTATACCTTCATTCTTAGGTTCTTAGTTTTCCAAGAAGGACGAATAAGTGATGCCTATGAAACGATGGTAGAAAAAGACTATGAACAATCTACAAACGCTTTTTGGAATATCTACAATATTAGTCCTAAACCACCATTTACAGTACATTACGCAAATGGTTTAAAAGGTATCTTTGTTAGATTAGATAAAGACGTAGTAGTTGGTCAGGAAGACAACATGGAATTCACACATTTTGAGAAACTAGCTGATATGTACAATGTAGCGCACCGATTAGGTTTAGATATGGTAAACATAGACTACATGGATATCGTAGGTAATGATTCTCGTATGCAAAGCATGTATGCAAAAGCTTCAAACTGTGAAAATGAATCTTTAAAACAAATCTTACTAAGCATGTGTGGATATTTAGAGTATGAAATGAGCCTAGACTATACGAGTTATGATGTGTACTTATTTACAGGTCGTATTAGTGAAGAAGCTTTATTCTACAACGTAAGGGAAGTATTAGATGCAGGTATGTACGCAAACTACAAGTCATACACATTAATCGACCCTAATCAGTTAAGAAATATGACTCAATCCATTATGAACTTAGAAAACTTCTCAAGACTTCAAGCTGAGAAAGAAGTAATCATGAATACATTAAGTAAAACGATTACTCCTATCAAGTTAATTAGAGAAGATGGTACAGAAGAGATTTATAATAAGACTAGAGCGCAGTTAGAGGAAGACAAGAAATTCCAAGAAGCTATGAAAGCTGAAGAGAAACGTAAGAAGAAAGAAAGTAAGAATAAGAAGTCTAAAACTTCTGATGTTGTCAAAGAAAACAAAGATGAAAGTCAAGATAAACTGGGTGACTTCTTTGAAAGCACAACTATCTTGGATGACTCCTATTTAAATGATGAAGTCGTAGAAGAAGTAAAAGTAGACGATGTTAAGAAACCTGTTTTACGTAAAGAAAGCGAAGTTATTACACGTAAAGAGGAAGTAGAAGTTAAGAAAGAAGAAGTAAAACCTAATATCGTTGAAACTGAAAAGCCGAATACGAAAGAAACAAAGAAAGACAGTAAAGTAAACTTATTCAGCGATTCAGAAGACGAAGGATGGTAA	MGGNQFQDAMRPKKGERVINLPITFSKRSEGTVNKTTLFWVIAISTVLFLIYVYGVLTGSKPFYYKIPLALLSTYVYTFILRFLVFQEGRISDAYETMVEKDYEQSTNAFWNIYNISPKPPFTVHYANGLKGIFVRLDKDVVVGQEDNMEFTHFEKLADMYNVAHRLGLDMVNIDYMDIVGNDSRMQSMYAKASNCENESLKQILLSMCGYLEYEMSLDYTSYDVYLFTGRISEEALFYNVREVLDAGMYANYKSYTLIDPNQLRNMTQSIMNLENFSRLQAEKEVIMNTLSKTITPIKLIREDGTEEIYNKTRAQLEEDKKFQEAMKAEEKRKKKESKNKKSKTSDVVKENKDESQDKLGDFFESTTILDDSYLNDEVVEEVKVDDVKKPVLRKESEVITRKEEVEVKKEEVKPNIVETEKPNTKETKKDSKVNLFSDSEDEGW				NA	NA	NA	NA	NA
AK009_03500	624			hypothetical protein	ATGAAAGAATTGTTACGAAACAAGAAGGTTCTTATCTCCTTAGGGGTAGTTGCAGTTGTAGGTTTAAGTAGTTGGTTTGGGTACAGTAAATATACAGACCATAAGAACTATGAACTCCAACAAGACCAACTCGTTAAAGAAGCAAAAGAAAGAGATAAGAAGTTAGAAGAATTAAGACAGAAGGAATTAAAGAACTCAAACTCTTATAAGTTTAACAAACAGGAGAGGGAAGAGGTAAAGGATTCCAAGTTAGATAAAGATGACTTAGACTTAGCAAAGAGATTTAATCGTTCAGAAGTAGAGTCTCACGCAAAAGCTATTCTAAGTATCAATGATGAAAAGACTAGAGAGTATGCAATGAATAACTTACCTCTATCAAAAGAAGCAACTACAAAATACTTTGGAAATGCGAAAAACATCTTTTACGGTGGCTATAACAATGTAAATGTTCAAATCATGTATACAGGGGTAGATTACTCTGAGACAGAAAAGAACTATAAAGCAAACGTAATAGCAAAAGTAGTTTCTCGTAATGAAGGGCAAGAAAATGTCGCTCCAAAAGTAGAAACAATTAGTTTGGTTATCGAGTACAGAAGTAATGAAATAACTGGTTGGAAGTATTAA	MKELLRNKKVLISLGVVAVVGLSSWFGYSKYTDHKNYELQQDQLVKEAKERDKKLEELRQKELKNSNSYKFNKQEREEVKDSKLDKDDLDLAKRFNRSEVESHAKAILSINDEKTREYAMNNLPLSKEATTKYFGNAKNIFYGGYNNVNVQIMYTGVDYSETEKNYKANVIAKVVSRNEGQENVAPKVETISLVIEYRSNEITGWKY				NA	NA	NA	NA	NA
AK009_03501	603			hypothetical protein	ATGATTACAAAAGGTAAAAAGATATTAAAACTTGCTCTAATAAGCGGTACTGTTATTGGATTCAGTGGGGTAGATATTGCAAAAGCTGAACCAAACGGTATTGATATAGAGAAGCTATATAAAACATATAATAACGAGAGAAACGCTAAGTTATCCATTCAAGGAATTGCTGAGAAATATGAATTAAATGCAATTATGATGATAACGAAACAGAAACAATGGAACATGTTTGGTCATAACGCAGAAGATTTAGGCGAAGACAATCAAGAAAACACTGTAACTGTTAACCCTGTGGGTAAATATGAGTCTAAAGAAGATTTATTCTCTAAATTAGGCGCAAATCTCGAAGAACACAAAGCAAACTACAAGAAATACAGAGAAAGTCAAGAAAAACCCGCTGAGGAACAAACAGAAGAAGATGTAATGATGAAGGTTGAGCCTTTAGACTACCTAGCTGAAAGTGAAATCAGTATTGAGTATTTCTATGACTCTTCAAGAGACCAATTATCACAATTAATTCGTGTTAAAACACCTGATAATGTATTCAGATGTACGGTTATATACGACCATGACGGATTAATTAAAAACTTCCTTGAAGCGTAG	MITKGKKILKLALISGTVIGFSGVDIAKAEPNGIDIEKLYKTYNNERNAKLSIQGIAEKYELNAIMMITKQKQWNMFGHNAEDLGEDNQENTVTVNPVGKYESKEDLFSKLGANLEEHKANYKKYRESQEKPAEEQTEEDVMMKVEPLDYLAESEISIEYFYDSSRDQLSQLIRVKTPDNVFRCTVIYDHDGLIKNFLEA				NA	NA	NA	NA	NA
AK009_03502	2133			hypothetical protein	TTGATTGCTCTCGTGGTTGGTTTTATTCTTCCTTTGTTAGTTTGGATAGTTACATTACCTTTAAAGTTCGCATTATATTTAGCTGAAAAATCGTTAGACGGTTCTAAAAGCTTCCTAACTAAGAAGTATAAGCAAATAAGTGCTAAGGAAAAAGATTATTTCCAAAAGAATGCAGGGAAAGGTAGCAAACTCGTAAGGTCAACCGCTAAGGTTGGCTTTACTGCTACTAAGATAGGTTTAAACGTAATGGTAAAGTCCATGAAACTTTTAGTAAAAGTAATCAGATGGACAATCCGAGTTTTAATTTGGATTACGACTCTAGTATCTTTAACCTACACCCTTCTTATCTTTGGTGCACTTGCGGCTATAATCGCCATAATCGCTTCTGTACAAACACTAGACAAGAGTGGTGGTAATACAGACAGTGCAACACCGAATCAACAAGGTGGTGGCGGTGCAACTGGTATGGCAGACTACTTTTCCATTGATTGGGGACAAGATTTCAGTAAGCAACTGGATAAGATTGAAGCCGAGAAAGGGGTAGAAGCTAGGAACTGGACGGAGTTTACGATTATAGCAATGAATACAATGCAGAAAACCAAGAAAGACGGTAAAGCACAAATTATCGTTGCAGGTTTCTTGAATGGGTTAAAAGCGGTAGAGACAGAACAGAAGTCTTTAACTAGTAAACCACATTTAGCGAAGCAAATGGTTAGATATATTCCTGGCGGAAACCTAGATACGCCATTACAGTTTGATAATACTCATTGGCATGAACTTTCTCCATACTACAACGACTTAAAGTCAGAACGTGGACCGACTGGTTCAGCATATTATTATCCAGACGGGTTTTACGGTATAACTCAAAAGTTTAGTAAAGCAGGGGTAGAAGGATTCTTACCAAAACGTACTACACCGATTTATGAAAGAGCATTTAAAGACTTAGGTGTTGAAATGACTCCTGATAAGTTAAACTGGGTACGTTATGTTGGTAACATTACAAATCAGTACAATGCAGTATTCCTTGAGAAAGGAAACTGGGTTCCGGGTCTAACCGCTGAACAATCAAACGATACAGTGTATGTAAACGCATTGATATTAATAAAGTTTGGTGAAATGTATGGTTATGGTGTTAATGAAAAGACTGTTAATCTTTCTAAGTCAATGTATAAAGGAATGATTGGAGACGAGTATCAGAAATGGTTCTTAGATAAAGGTAAAATGATACAAGGTGCATACGGTATGATTGGTGGACATAAGAACTACCCTGCCGATATTAAGAACGGTCAAAGTTATGGTGTTATTTCACCTGACGGACAAGCGCAACAAGGCACATTATTCTCTTATCTAAAAAGTCAGATGCCACCAAACATTCAACAAAACGTAGACAATAGTAGTGGTTTCAAAACATATAATGCATCTAGGGCGCACTATATGAGGGCTAGATATGATTTAACCGCTTTACTAACAGGGGTATACGATGTATTTTGGGCATCAAACGCCTTAGGCGTTACACCTCAACAGACTCAACAACCACAACAACCGAATGGTGGAGGACAAACGAATCAATCATCAGCAATTGGTGATAAAATCGTAGCCCAAGCCAAGAAATACGCAGAAGACACAAGTTCAAACCGTATAACTTATAGTTATGCAGGTATTGGTACTACACAAGACTGTTCTTCATTCGTAAACGGTATTTTACGTGAGTTGGGGTATGCGATTGATGGGAAAACATTAACTCCTGAGCCATTAGCAAACGGTAATTTCAACTATGTAAGGAATACAAGCCAAATGGTAGACGCTGTTAGAAAGAAACCTGAGGTATTAGTTAAGTTAGACGGATATACTGGTACACAAGGTATACCCCGTTCAGTACTTGAACCTATCTTACAGCCAGGAGACATCCTATTAGCAGGTGACAGTGAGCGTAACCATACTGCAATTTATGTTGGTAGAAACTCAAAAGGTGATTATGTAACTATTGAATCCAAAACTAGCTATCCACATCAATTTAGTAGTCATAGTGATATGGAACTTACACAAGGGAAGTATGGTTTCGGATATGATAGAATCAGAGAAGGAAATACAAAATACAAGTATTTAATTCGTATGGGTAATGTAATCAAATAA	MIALVVGFILPLLVWIVTLPLKFALYLAEKSLDGSKSFLTKKYKQISAKEKDYFQKNAGKGSKLVRSTAKVGFTATKIGLNVMVKSMKLLVKVIRWTIRVLIWITTLVSLTYTLLIFGALAAIIAIIASVQTLDKSGGNTDSATPNQQGGGGATGMADYFSIDWGQDFSKQLDKIEAEKGVEARNWTEFTIIAMNTMQKTKKDGKAQIIVAGFLNGLKAVETEQKSLTSKPHLAKQMVRYIPGGNLDTPLQFDNTHWHELSPYYNDLKSERGPTGSAYYYPDGFYGITQKFSKAGVEGFLPKRTTPIYERAFKDLGVEMTPDKLNWVRYVGNITNQYNAVFLEKGNWVPGLTAEQSNDTVYVNALILIKFGEMYGYGVNEKTVNLSKSMYKGMIGDEYQKWFLDKGKMIQGAYGMIGGHKNYPADIKNGQSYGVISPDGQAQQGTLFSYLKSQMPPNIQQNVDNSSGFKTYNASRAHYMRARYDLTALLTGVYDVFWASNALGVTPQQTQQPQQPNGGGQTNQSSAIGDKIVAQAKKYAEDTSSNRITYSYAGIGTTQDCSSFVNGILRELGYAIDGKTLTPEPLANGNFNYVRNTSQMVDAVRKKPEVLVKLDGYTGTQGIPRSVLEPILQPGDILLAGDSERNHTAIYVGRNSKGDYVTIESKTSYPHQFSSHSDMELTQGKYGFGYDRIREGNTKYKYLIRMGNVIK				NA	NA	NA	NA	NA
AK009_03503	5505			hypothetical protein	TTGTTTAAGAAGATACGATATAAGAAACAAAAGAAATTGGATAAACTATCAGCGGAAAACGATATAGTTTTTAATCCGACTTCGAGAAAACAAAAGAGACATGGTATAAGAAACAAGTTAGTGTTCAGCGTATTGTCACTGTCATTATTTTTACCTATGCTAGAGCCATTAACTGCATTTGCCGACCCCACAACGGGAGGACAAACTCAGCAACCTCAAACTACCACACCTCAAGACCCGAACGCAGGTGGTGGACAACCTCAACAACCAAATGGTGGAGGTCAGCAACCACAACAGCCGGGTGGTAACGGTACTGGTACAGGAGAAAACTCAAACGATGCTCGTAAGAACAATGTAACCGTAGGTAAGATGGCTACATTAGGGGTATCAAGTGAGCAAGGTTATAAAGCTGATATGAGCAGTTTATCAGGGAATGAGTTAAGAACTTTAGGCGTATTTATATCAAACTATTATGTTCCGTTTAGTACCCAAGTGGGTAACGTAAAAGACGAGAAAGACTCAAAAGAAGTGCAAGATAGTATTGTAAAAGCGTTGACTGAAACGAATGCATTCGAAAAAGGTATCGCTGAAAAGATATCTAAAGTTGTTACGAATGCAAGTAAACAGAGTGTTCAACCTTTATACTTTGCACAATCAAAAGATGGAGAGAATTTCGAAGCGGTAGACGGTGGTAATGGTAAGAAAGGTAAACACGCTACATTCTACGAATTCTTAGACCAAATTAGCGGTTATGCATACAAACGTTCCAATGAATTACCATACCCTGATATTAAAGATGGGGTAGACAAGAATGGTGATAAAATGGTGTCTGCCTATAAAGGTAGTGTTTGGAATTATGACCCTAACTCTAAGAAAAACGAAGGTGCATTATATTGGGGTAGTGCGGACAAAGTAGACAAGAGTCATATCATGTTTAACTGGAATCCAACAAGTAGTGATGGTGGAGGTCAAACCGCTTCTCAAACGGTAATGGCTGAAATTTATAAATACTTAGACCCTGAAAATAGTGTTGGTACTTCATTCTTAGACTACACGGAAAAAGAACGTGGTAAAGGTTCTAAAGGTGAAACAGTTACTAAAATGTTAGAGGAAGAGAAGTTTAAGAAAGACTCATCAATTGAAGCTATCTATAAACGCTCAATGTACGACTGGAAAATGTATGTGGATGCTATCGGTAATATCTTAGTAGACACAGGGAAGCGTCAGTATGTTGTAGTTCCTGCCGCAATGAACCCTTTCATCTTTAAAAAGAAAGAAACAGATAGCGGTGGTAAAGAGTTAGACTTCGGACGTGCAGTTCCTATCAATAACTTCGTTTCATTAGCATTAGCTAGTAAAGGAAACCTTGTAACTGGTAAGCCTACGCAACATACAGCGTATTTCAATTTAGGAAACATTTATGATAAGTTTTCTAAAGATACAAAGTATAAGCAACCGGCATTATATAAATTCCCTGGCTCTAAAGATGTAGATTGGACAGAGAAACAGAGTTGGTCAGATACAGGTACAACTTTATCTGAGGGTTTACTAGACTCGTTAACTACCCAGTTTGCAATAAATAGCTATGGTGTAAAAGGTGATAAAGATTGGGGTAAGTGGTTAAAACGTACTACAGAAAGTTTCTCTGTAAACAAAGGTAATGACATTCAAAGTTATGACCACGATAAACTTACAAAAGAGAAGACTTTCCCATTCTCGTTCAATACGAATGAGTTTAATGGTAACGATGCAATCTACGCCCCACGTAGTGGTTTAAATTCAAAACCCGGACATTTCATCATAGGAGACTTAGTAGCCTTTGATAACTTAGGTGCATTGAATACAACTACTACACAACCAGCTCAACCGCAACAAGGTGGAGACCAAGCACAACAACAACAGCAACAACCACAACAAACTCCAACGGCTGATACAAGTAGTGATGGTAAGCCATTAACGTTAGATTCTTACAAGAAGAACTATAAGGTAATTGCTGATAAAGGTCATGAAGTTATTAAACGTACTCCTAATGCATTATGGGATACAGACGGTAAACCTTTAATTGACTATAAAGATATTAGTTCTGACGGTGCTTTCGGTGATAAACTTTCACCTAAAATCAATGAAGTAAGTGTAGCGAAAAACCAAATCGCACGAGATTATGGTGCTAACTTATTTGTAACGTACATGTTTGCGGCACTTGGAGGTAAAGAAGGGGTAGACAAGGTTGGGTTCGAAATCGGATTCACTAGATTACCTACTTTTGATGGAAACCTAGCTTTAGAAGGTGCAGTAACAGAAGCGGATAAGAAAGCAGAAAAAGAAGCAAACGTAGACGAATTAATGAACATGGCTTATTACTTCTTACACCCAACAGAAGGTATTTCTTACTTCTCACGTTGGGCTAAGACTAAAATCGGTGCTTTCTTTGTTGGTTGGCACAATGACATGACTGGTGCAAGTAACGCTCAAAACACAACTGGTTATACTAGGTATATAGGATTTAACGGATTTACAACCATGCCTTCCTTATCAGACATGCAATGGACAGACTGGATGGTGAAAAGCTATCTAGACTGGGGTATCTATTTAATTATTTTCGTGGTAGTTATCATGATATTCTATGTGGCTATCGGTGAAATAAGTATACAACGGGCAATATTAGGTGTCGGTATATTCTCCTTATGTTTATACCTACCACCAATAGCGATAAACTCTAGTGTAGAATTTACAAACTCCGTAAGTAACTCAATTTACGGTAAGAAGTTCTTATATTGGGGTATTGTTCAGCAACAAACGTATGCGAAGAAAATAGACGAAGTTGCTAAGAAAGGTGAAGAAGGTAAGTCAGACGATTATACAATCGGACTTATGAGATTACAAGGTGAAAACAATAAAGGTCTTTATGCAGATAATACCTCTATTGGACGAACTGTAACTCTTAAATGGATGGCTCCTAAAAAGGATAACTATTTATACCAAATTGAACAAGAAATTAAAGGTTCAACTGGTAATATGAGTCCTATGTTCCAACGAGTTCTCAACAATACCTTAGCAGGTAATTTAAGTGGAGAACGTTATGTAGATTCAAACGAAGCGTTATATTTATACAGAACATACACAGATATCGGTAACTACGCTCGTTATTACTACGGTAACTTAATGGGTGATAAGGTTTACGATACAGGCGCAGTGAATCATGATATTGGAGACACAAGTGCAAGTATGGGTAACGTAAATATGACAAGGCAGTATGAGTCTTACATGCAAGGAACGAAGGAGAATTCTTTAACGGAACGTAAAGAGAAAGGTTTCATCAACGATGAACAAGACGCTATTCATGGGGCTTCAACAGATAAAACGAAAGTAAAACGTCTGTACGCTCCGTTATCTAGTGAACCTGTAGCTAAATCTTCTCAACAAAGAATTAGTAAAGTAAACGTAGGTGATGAAGTTGGTTTACGAAAAGAGTATTTCAATACGACTGTTCGTAACTTCAATAACCACGGTCAATCATTACAGGAACAGATAGCAGGTGGCTCTAGTGCAACATCTGAAAACCTAGCGAGTACGGCAAGTTTCGCATTGTTTACAGAGAGTCCTTTCTATTACTTCTCATGGTTCTTATATGATAATGGTATGAAGTTTGAATCAGGTAAACATGATACTTTCAGAAACTTAATGATGAAAGATAACGATTCATTCTTCTATAACTACAAGATTAAGAAAGAATCATCGGGGTATGGAGAGTTAAAAGACTATATGGACATGGGTTCTATGTTCCATACAATCATTCCATACTTACGTGAAGTAAACAAACCGTTAAAAGAATGGTCATCTATCTATGGTACAAAACCTTATCCTGAGATTCCAACTAAGGAAGAAGATTTTGCAAACCAAGGTGACAAGAATTCAGAAGAGTATTATAAGTATTGGTTCAACATTAGTCTTGCAAGGTTATTTAACACATATACTCCTTGGGTAGACGCAATGTATGATACAGACTACGCTAAACCTGAGAATATCACGTATGGCGGTAAAAAGCAAACAATCATCGACCCTATTAACCCTAAGTCATATGAAATTAGACCAATGGTATTCAGTGAGTCAGAAATGGCTTACTATGGTTTAAAAGACTATAACTTAACTACGGTTGAGAGTAAAATTATTAAAGTACAACGTCAAACACGTAATGATTTACTACGTTTGATGAACTACTATAATTTCGATGATAATGTATTGAATCAAACAGCTTCAATGATTATGACTTTCAACTTTAATAAAGAGTTCTCACAAGAAAACTTTATTACAGAAAGTTTCGTTCAATACCCACAAAGCTTTGAATTAAAGAACTTCTCGTATGACGCTTACCTACGTCTAATCTTAGCACAAACTACAGGGGAGACGATTACAGGTGATGATGGTAAACTATCAATCTATGATAGAGTAGTAGAGAAATCTAGTATTCTAACTGGTATTTTACTAGTGTTAGGTGATATCGTTGCAATTTACGGTATTCCAACTATGAAGTTTGTATTCTTAGTTTTAGTGTTTGTATTATCAGTCGTAACGATATTCGTTAAGGCTCTGAGGGTAGAGATATCCTTTAGAAGAGTAGTTTGGCAAGCATTAGCGAAACCTTTAATACAGTTTTGTGGTGTTACATTAGGTCATTCGCTAGTAATCTCATTCTTTATGTCAGAAGGTTTAACAGATGTAACTGGTAAGACTACTTACTCAATTGCATTAGGAGACCCAGTTATGACATTAGTAGTATTACTACTAATAAACATCGTAACCTTAGTTCTTTACTCATTCATTGTAATGGGACTTGTAAGAAGCTTAATTGTATATGGTAAACTTGCAGGTACGATTGTTGGGGGTATTGTTGCTTCAGCAGGAACATTCGCATCGGCTACCGCAGGTAAAGTTACAGGTAGCGTAAACGATAAAATGTTCGGATATGGCGGTTCAGAAGCAAACGGTAAATCAGCCCCATCTTCTACAAGCGCTCAAGCCGACCCTGAGACAAGAGGTTCTAGAAACGTAGAGCCTGAGTTATCAGTAAGGGAAGACATGAGATATCGTAGAGCAAACGAGGAAGCTTACGGTTCAAAAGAGCGTCCTAAAGACAATACGAATGTAGAAGACATGATTAATAGGGGTAAAGAGAACTTCCAAGAATCCGAAAGAGAACGATATAAAGAACAAAGAAATTACTCCAATGACTTAAATGATTATGACTTGAACGACATTGCTGAAAGTAGAAAACATACTCATAATCACACTCATAACCACGAGCATAACTATCAAGGTTCTGCCGATGGCAGAGGTAATGTTCCTGAGACTGAGTCATTAGATGAACTAGCGCAGAATAGAAGGGAAACTCAAACGAGTGATTTACAAAAACCTCATTCTAGCTCTAGAACTGATGCACAGAGAGAATTAGAACGCAAGAAAGCAGAAGCAGATGAAGTGAAAAAGAAATACAATCTAGACGACTAA	MFKKIRYKKQKKLDKLSAENDIVFNPTSRKQKRHGIRNKLVFSVLSLSLFLPMLEPLTAFADPTTGGQTQQPQTTTPQDPNAGGGQPQQPNGGGQQPQQPGGNGTGTGENSNDARKNNVTVGKMATLGVSSEQGYKADMSSLSGNELRTLGVFISNYYVPFSTQVGNVKDEKDSKEVQDSIVKALTETNAFEKGIAEKISKVVTNASKQSVQPLYFAQSKDGENFEAVDGGNGKKGKHATFYEFLDQISGYAYKRSNELPYPDIKDGVDKNGDKMVSAYKGSVWNYDPNSKKNEGALYWGSADKVDKSHIMFNWNPTSSDGGGQTASQTVMAEIYKYLDPENSVGTSFLDYTEKERGKGSKGETVTKMLEEEKFKKDSSIEAIYKRSMYDWKMYVDAIGNILVDTGKRQYVVVPAAMNPFIFKKKETDSGGKELDFGRAVPINNFVSLALASKGNLVTGKPTQHTAYFNLGNIYDKFSKDTKYKQPALYKFPGSKDVDWTEKQSWSDTGTTLSEGLLDSLTTQFAINSYGVKGDKDWGKWLKRTTESFSVNKGNDIQSYDHDKLTKEKTFPFSFNTNEFNGNDAIYAPRSGLNSKPGHFIIGDLVAFDNLGALNTTTTQPAQPQQGGDQAQQQQQQPQQTPTADTSSDGKPLTLDSYKKNYKVIADKGHEVIKRTPNALWDTDGKPLIDYKDISSDGAFGDKLSPKINEVSVAKNQIARDYGANLFVTYMFAALGGKEGVDKVGFEIGFTRLPTFDGNLALEGAVTEADKKAEKEANVDELMNMAYYFLHPTEGISYFSRWAKTKIGAFFVGWHNDMTGASNAQNTTGYTRYIGFNGFTTMPSLSDMQWTDWMVKSYLDWGIYLIIFVVVIMIFYVAIGEISIQRAILGVGIFSLCLYLPPIAINSSVEFTNSVSNSIYGKKFLYWGIVQQQTYAKKIDEVAKKGEEGKSDDYTIGLMRLQGENNKGLYADNTSIGRTVTLKWMAPKKDNYLYQIEQEIKGSTGNMSPMFQRVLNNTLAGNLSGERYVDSNEALYLYRTYTDIGNYARYYYGNLMGDKVYDTGAVNHDIGDTSASMGNVNMTRQYESYMQGTKENSLTERKEKGFINDEQDAIHGASTDKTKVKRLYAPLSSEPVAKSSQQRISKVNVGDEVGLRKEYFNTTVRNFNNHGQSLQEQIAGGSSATSENLASTASFALFTESPFYYFSWFLYDNGMKFESGKHDTFRNLMMKDNDSFFYNYKIKKESSGYGELKDYMDMGSMFHTIIPYLREVNKPLKEWSSIYGTKPYPEIPTKEEDFANQGDKNSEEYYKYWFNISLARLFNTYTPWVDAMYDTDYAKPENITYGGKKQTIIDPINPKSYEIRPMVFSESEMAYYGLKDYNLTTVESKIIKVQRQTRNDLLRLMNYYNFDDNVLNQTASMIMTFNFNKEFSQENFITESFVQYPQSFELKNFSYDAYLRLILAQTTGETITGDDGKLSIYDRVVEKSSILTGILLVLGDIVAIYGIPTMKFVFLVLVFVLSVVTIFVKALRVEISFRRVVWQALAKPLIQFCGVTLGHSLVISFFMSEGLTDVTGKTTYSIALGDPVMTLVVLLLINIVTLVLYSFIVMGLVRSLIVYGKLAGTIVGGIVASAGTFASATAGKVTGSVNDKMFGYGGSEANGKSAPSSTSAQADPETRGSRNVEPELSVREDMRYRRANEEAYGSKERPKDNTNVEDMINRGKENFQESERERYKEQRNYSNDLNDYDLNDIAESRKHTHNHTHNHEHNYQGSADGRGNVPETESLDELAQNRRETQTSDLQKPHSSSRTDAQRELERKKAEADEVKKKYNLDD				NA	NA	NA	NA	NA
AK009_03504	255			hypothetical protein	ATGAAAAATAAAATTACACAAGAAGATATTAACGCTATTTTAGATAAAACACAGTGGACGGTAGAAGAGTTTCACGGTAAATGTACAGTAGTTGTTGCTAAATTACCGAATGGTTTCATTCTGACGGAATCCAGTGCATGTGTTGACCCTACTAATTATGATGTAAACATTGGAATTGAATGTTGCAAAGAACGAATTGTTGATAAGATTTGGCATTTAGAGGGCTACAGATTGCAATGTGAATTAGCTAAGTAA	MKNKITQEDINAILDKTQWTVEEFHGKCTVVVAKLPNGFILTESSACVDPTNYDVNIGIECCKERIVDKIWHLEGYRLQCELAK				NA	NA	NA	NA	NA
AK009_03505	264			hypothetical protein	ATGATGAAATTCGGACAAGCAATTGAAGCAGTTAAAAAAGGGAATAAAATTGCACGTAAAGGTTGGAACGGGAAATGTATGTTTGTTTATTATGTGCCTGCTGCATCATATCCACCAGCTACAGATATTATGAAAGAAGCATTTGGCGGAGAAAATGTCCCGTATCGTGCATATCTTGCATTGAAAACAGCCCAAAACGATGTTGCTACATGGTCCCCTAGCACTTCTGATGTGTTAGCAGAGGATTGGATGGTGGTTGAATAA	MMKFGQAIEAVKKGNKIARKGWNGKCMFVYYVPAASYPPATDIMKEAFGGENVPYRAYLALKTAQNDVATWSPSTSDVLAEDWMVVE				NA	NA	NA	NA	NA
AK009_03506	252			hypothetical protein	ATGACTTTTGGCCAAGCGCTTGAAGCATTGAAACAAGGTAAGACAGTGGCTCGTAAAGGTTGGAATGATGTAGGTATGTGGGTAAGACTCGTAAAGCAGGGGGAGTTTGATATCTCTTTTGAGGTGGTAGGTGGTAACAAATGCAAAGGACTCCTCCCCTGGATTGGTATGAAAACAGTTGATGATACATTTGTTCCTTGGTTAGCATCACAAACAGATATGTTAGCAGAAGATTGGGAGGTTGTTGAATGA	MTFGQALEALKQGKTVARKGWNDVGMWVRLVKQGEFDISFEVVGGNKCKGLLPWIGMKTVDDTFVPWLASQTDMLAEDWEVVE				NA	NA	NA	NA	NA
AK009_03507	276			hypothetical protein	ATGGATTTAACTATTGGTGATTTTGGTTGGGCATGGCATCGGTTAAAAGAAGGAGAAAGGGTATTTCGTTCCGGATGGAATGGTAAAGGGATGTTTCTGTATCTGGTTAACGGGAACGATTTTTCTACCGCGTTTAGATATGGATATGGAGAGTATGCAGGGGAACCGCGATTTGAGGATTCAATTGCTATTAAAACCGCGCAGAATACAATATCCGTAGGTTGGAAGCCAACCAACTTGGATATGTTCGCAAATGACTGGGAGGTTGTAGAATAA	MDLTIGDFGWAWHRLKEGERVFRSGWNGKGMFLYLVNGNDFSTAFRYGYGEYAGEPRFEDSIAIKTAQNTISVGWKPTNLDMFANDWEVVE				NA	NA	NA	NA	NA
AK009_03508	2124			hypothetical protein	TTGTTTGGTCTCAATAAACCAAAGGAACAAAAGCAAGAACAGAAAAGTCCTGATGATTGGGTGTCTCTTGTGGAAGAACGTATTACCCAAGCCGAGGACTGGGAAGAAAAACGTCAAATGATGGCACAAGTAAACTATTATCGCGGTAATCAGTGGCTTGTATGGAATCCAACTAGTAAAAAGATGATCACTGCACCTCTTGAAAATGGAGAACAACGCATTACAGTGAACCAAATTAGACCGCGTATGATGGTCAAGCTCGCGAAACAAATTAAAAATCGCGTGAAATTCGATGTTGTACCTGATAGTAACGATGAAACACGCATTGAAATTGCGAAAGCAGCATCAAAATTTCTTAAATATTGGTGGGAACAAACAGGAATGGATCGTAAAACACGTGATATTTTCCTGAATAACGGTGTAAAAGGCTGGTGTGCCGCAAAAGTATATTTTGATGCGGAAGCTGGTCAAGATATTACGCCAGGGGAAGGCGAAGTTGGTTTTGAGGAAGATATGCAACGTTTATATACGGGTGAAATTCGGTGTCGTATTTGTGACCCGCTCACTGTATACATTGACCCCGCCGCTGAAATGGACGAAGAGATTCGTTGGATTGTGGAAAGAAAGCCACGTGATATTGATTACATTAAAGAGCGCTACGGAAAAGATGTCGCTGCTGATGAGAATGTAGGGTTTGCGGCTGCATTTGATGTGACACCACAAAATGGATTCAACTCGACTAGTAAAAAACGCCCCAACATGGCAATGGTGGATGAAATGTGGGTAAAACCGTGTGGTAAGCATCCAAATGGATTGAAAGTTACGATTGCAGGTGGACAATTGCTGGATATAGACGAAAATGCTGGGGACATTCCTTTCTTTATCTTTGGTGATATTCCGATACCAGGGAGCGTAAAAGCGGAAGCATTTATTAAAGATATGTTGCCGATTCAGCGTGAAATCAATATTATGCGCTCTATGTTTGCCACACATGCAAGGAAAATGGGGAATAGTATGTGGCTTGTGCCCATGGGGTCAAGTGTGGATGAAGATGAAATTACAAATGAAGAAGGTGGAATTGTTCACTATACACCGATAGAGGGTGTGAGACCGGAAAGAGTTGGTGCGCCAGATATCCCGTCCTTCTATGATCGTATCTTAAATAATCATGATGCTGATATCGACGATTTATCAGGTGCGCGTGAAATCTCACAAGGACGTTTGCCGTCTGGATTAGATACGTATAGCGGATTGTCTCTCATGGTAGAACAGGAGAATGAGAAGCTTGCCGTTTCTTCTCAAAACTATGAGCATGGGATGAAGCGTTTATTGCAACGTGTACTGTTGCTGATGAAGAAACATTATACAGAGGAACGTATGGCCCGTATTCTTGGTCCGGATAATGATATTGAATTAGTAAGCTTTACTGGGTCTGATTTAAGCGGTGGAGAGGACATTAATATTATTCAAGGTTCTTCTCTCCCTGAAATGAAATCGGCGCAACAAGACCGCATTATGACCATGTGGGATAAAGGGGCAATTGTTAAGAAAGACGGCTCACCAGATACCCAAGGATTTTTAAAATTAATGGGTATGGGAGATAGTAATGAGCTGTTTGAAATGCAGCAGCTTGATGAAAACAAAGCAAAAATGGAAAACAAGCAGTTCGAGGAAATTGCACAGAATCCAGAGTCGTTACAAGCATTGCAACAATACAGCATCCAGCAACAACAGTTTGAGGAGCAAGCCCAAGCGATGCAAGCGCAAGGTGTAGACCCCATGCAGGCTGGCATGCAACCTCCACAACTACCACTGGCGACACCGCAGGTGCGTGATTTTTATGACCATGAAGTGCATGTATATATTCATAATGCATTCCGAAAATCAAGCTTATACGATGAATTACCGCCTGAAGTGCAACAGTTAGTTGATGACCATGTACAGCAACATATGGAGGCACTCAATGCGCCAATGGAAGCGGATAGAAGGCAGCAGATGGAACAAGAACAACACATGCAAGAAGCGCAGAAAGCTATGAAAGAACAAGACTTACAGTTACAACATCGTAAATTAGATATTGAAGAAAAGAAAGTAGAAAAACAAGTGCAGAAGGGTGAGAGATAA	MFGLNKPKEQKQEQKSPDDWVSLVEERITQAEDWEEKRQMMAQVNYYRGNQWLVWNPTSKKMITAPLENGEQRITVNQIRPRMMVKLAKQIKNRVKFDVVPDSNDETRIEIAKAASKFLKYWWEQTGMDRKTRDIFLNNGVKGWCAAKVYFDAEAGQDITPGEGEVGFEEDMQRLYTGEIRCRICDPLTVYIDPAAEMDEEIRWIVERKPRDIDYIKERYGKDVAADENVGFAAAFDVTPQNGFNSTSKKRPNMAMVDEMWVKPCGKHPNGLKVTIAGGQLLDIDENAGDIPFFIFGDIPIPGSVKAEAFIKDMLPIQREINIMRSMFATHARKMGNSMWLVPMGSSVDEDEITNEEGGIVHYTPIEGVRPERVGAPDIPSFYDRILNNHDADIDDLSGAREISQGRLPSGLDTYSGLSLMVEQENEKLAVSSQNYEHGMKRLLQRVLLLMKKHYTEERMARILGPDNDIELVSFTGSDLSGGEDINIIQGSSLPEMKSAQQDRIMTMWDKGAIVKKDGSPDTQGFLKLMGMGDSNELFEMQQLDENKAKMENKQFEEIAQNPESLQALQQYSIQQQQFEEQAQAMQAQGVDPMQAGMQPPQLPLATPQVRDFYDHEVHVYIHNAFRKSSLYDELPPEVQQLVDDHVQQHMEALNAPMEADRRQQMEQEQHMQEAQKAMKEQDLQLQHRKLDIEEKKVEKQVQKGER				NA	NA	NA	NA	NA
AK009_03509	201			hypothetical protein	ATGGCTAGAGTGTTTCATTTAACGTTAGGTAGTATTGAAAAATTCGCGGTAGCGGATGATTATGAGGAAATGTATGAAAAGAGAGCTGAAATTGACCCGACATTTGCCTATACACCTGTAGAGATAAAAGAACTGTGTGTGGAAGGATATGAAATCAAAGCGGAAAAGAAAGTGTCGAAGTCGAAAGTAAAGAAATCTTAA	MARVFHLTLGSIEKFAVADDYEEMYEKRAEIDPTFAYTPVEIKELCVEGYEIKAEKKVSKSKVKKS				NA	NA	NA	NA	NA
AK009_03510	231			hypothetical protein	ATGACGTATGTTGTCTTTTTTGTATTATTTGCAGTCATTGTATTTCTTGGTGTGTTTGCATATGAAATGGAGCGTGTACATCAAGGGGAACGTGATGTGTGGCAACAAGAGCGTAAGGAATTGTATGATCGTATCCAAGCCTCCTCTTTTGCCGAATACAAGCAGGGTGAAGTGAAGATGGTGAAAGCACAGAAAGAAGAACAGCCTGTACCAATATACCATTTAGAATAG	MTYVVFFVLFAVIVFLGVFAYEMERVHQGERDVWQQERKELYDRIQASSFAEYKQGEVKMVKAQKEEQPVPIYHLE				NA	NA	NA	NA	NA
AK009_03511	1464			hypothetical protein	GTGGAGGAGATACAAAGGGAAATAGCACGTCGTGATTACTATGAGTATGTGTGTTATGTACATGAAGGTAGATATAAGAAAGCACCGCATAGTGAGTTTGTTGGTGGTGTCATTCAGGAAGCGATTGATAAAAAGAAACAAATGAATGCAAGCGAGATTCCAACCACGAACCAATACATTGCTATCAATATGCCACCACGTCATAGTAAGTCGATGACCATTACGGAGACGTTACCATCTTATTATTTAGGAAACTTTCCAGAAGATAGAGTAATTGAAATAAGTTATAGTGACACATTTGCTCGCCGTTTTGGTAAGAAGAATAAAGAAAAGGTCAAAATGTATGGTACTGATTTATTCGATATCAAAATATCCAAAGAAAGCTCGGCACATGATGAATGGTTACTGGATAATGAAATAGGTGGCATGATCTCACGTGGTGTGTTATCAGGTATCACTGGTATGGGTGCTGACTTAATGATTATCGATGACCCGATTAAGAACCGTGAGGAAGCTGATAGTGAAACGCATCGAGGTAAGATATGGGATGAGTGGATAGATAGCTTCTCTACTCGTTTACATCCGGGTGCAATTGTCATACTGATTCTAACAAGATGGCATGAAGATGATTTACAGGGTAGGTTGCTAAGTAAGGAATATGGTGAACCATTACCTTGGCAAGTGTACAATCTTCCATTAGAAGCCGAGGAAGATGATGTAATAGGACGAGCAGTAGGCGAACCATTGTGGCCAGAACGATATGGGTTAGAGTTCATACAAGAACGGAAACGATATCCAAGTAGCTTTAACTCATTGTATCAAGGCAGACCAACCGCAGCGGAAGGGAATCTATTAAAGCGTAAATGGTGGCAATATTATGATACGCTGCCGAAGATGGTTCATACGATTATGAGTATCGATGCAACATTTAAGGATGAAGCAGACAGTGACTTTGTGTGTATTCAGGTGTGGGGGAAGAATGGGGCGGATATGTATTTGATTGATAATTTGAAAGCACGTATGAACTTCCCAACTACCCTACAAGCCATTCGCAATATGGTACGAAAATATCCGAAAGCCCATGCCAAACTAGTGGAAGATAAAGCGAATGGCCCGGCAATTATTTCGATGTTAAAGAATGAAATCGGCGGTATGATTCCGGTGAATCCACAAGGTGGTAAGGTTTCGCGTGTGAATGCAGTCTCACCATATATTGAATCAGGTAATGTGTATTTACCAAGGCAAGCACCTTGGGTGCATGATTTTGTGGAAGAGTGCGCATCCTTTCCGCAAGGAAAAAATGATGACCAGGTAGACGCAATGTCACAAGCATTAAACCGATTTATCTATTATCATGCGAATGAAAAATTCATTCCAAAAGAGCCAGTGACATTAGAAGAAAAGGTACATCGCCACATTATTAGACTATCGAGAGGGCGAAGGAAAGGAGGGCAACTACAATGA	MEEIQREIARRDYYEYVCYVHEGRYKKAPHSEFVGGVIQEAIDKKKQMNASEIPTTNQYIAINMPPRHSKSMTITETLPSYYLGNFPEDRVIEISYSDTFARRFGKKNKEKVKMYGTDLFDIKISKESSAHDEWLLDNEIGGMISRGVLSGITGMGADLMIIDDPIKNREEADSETHRGKIWDEWIDSFSTRLHPGAIVILILTRWHEDDLQGRLLSKEYGEPLPWQVYNLPLEAEEDDVIGRAVGEPLWPERYGLEFIQERKRYPSSFNSLYQGRPTAAEGNLLKRKWWQYYDTLPKMVHTIMSIDATFKDEADSDFVCIQVWGKNGADMYLIDNLKARMNFPTTLQAIRNMVRKYPKAHAKLVEDKANGPAIISMLKNEIGGMIPVNPQGGKVSRVNAVSPYIESGNVYLPRQAPWVHDFVEECASFPQGKNDDQVDAMSQALNRFIYYHANEKFIPKEPVTLEEKVHRHIIRLSRGRRKGGQLQ				NA	NA	NA	NA	NA
AK009_03512	537			hypothetical protein	ATGGGGAAAGGGAAAGCACACCCTTGGCTGACAAAAGAAGGGTTACTAAAAATAGAAGGATGGGCACGTGATGGACTGGTAGAAGAACAGATTGCCCATAACATGGGTGTGAGTCGTTCTACGCTGAGCAATTGGAAGAATAGACATCCACTGATTATACAAGCGTTAGCAAAAGGAAAAGAAGTATCAGATCGTGAAGTAGAGAATGCATTATTTAAGCGAGCGACAGGTTACACGTATGAAGAAGTCACTGTGGAAAGGGAAAAGGTGGACGGTGAGTTTCAAAGCATAGAAACCAAACGAGTGAAACGACAAGTCCCACCTGATACAACAGCCATTATCTTTTGGCTCAAGAATCGAAAGCCAACTGTGTGGCGTGACCGACGTGAGATTGATCACAGTGGTGAGATGAAACAAACCGTTGTACAAAAGCCAGAACTTAGCAACCTGTCTGTGGAGGAGCTGAAACAAATTGAGTCAATCCTTACCAAACCTACCGACAGTGGAGGAGATACAAAGGGAAATAGCACGTCGTGA	MGKGKAHPWLTKEGLLKIEGWARDGLVEEQIAHNMGVSRSTLSNWKNRHPLIIQALAKGKEVSDREVENALFKRATGYTYEEVTVEREKVDGEFQSIETKRVKRQVPPDTTAIIFWLKNRKPTVWRDRREIDHSGEMKQTVVQKPELSNLSVEELKQIESILTKPTDSGGDTKGNSTS				NA	NA	NA	NA	NA
AK009_03513	573	hin_1	COG1961	DNA-invertase hin	ATGATATTTGGATATGCACGTGTTTCAACGAAAAAGCAAAGTTTGGATATGCAATGGGACGAATTAAAGCAGTATGGATGTGAAGAAATAGTCACAGAAAAGGAAAGCGGAGTGAAAAAAGACAGGGTTGAGCTTCAATCCCTTCTTGGAAAGCTTCGAAAAGGTGACACATTGGTTGTCTACAAGTTAGATCGTTTAGGAAGAACGATGCATCAGCTTGTGAACTTGCTCCAAGAATTTCATGAAAAAGGGATTCACTTTGTATCGATTAAAGATGGGATTGACACCTCGACAACAATGGGCAGGTTTTTATTCCATATATTCGGTGCGATGGCTGAAATGGAGCGAGAGGTAATCAATGAACGTGTGGTAAACGGTGTGGCTGCAGCAAAGGCAAGAGGACGTGAAGGCGGTAGAAAGAAAGCTCATACGCCACAACAGATTGAAGGTATGATGGAAATGCTGGAAGCTGGTAAAACAAAAGTGGAAGTATGTGAGATGTTTGATGTAGCAAGAGCCACTTTATACCGTTATATAAGAGAATTCGAAGCGAATAACACGCAGTTAAAGTAG	MIFGYARVSTKKQSLDMQWDELKQYGCEEIVTEKESGVKKDRVELQSLLGKLRKGDTLVVYKLDRLGRTMHQLVNLLQEFHEKGIHFVSIKDGIDTSTTMGRFLFHIFGAMAEMEREVINERVVNGVAAAKARGREGGRKKAHTPQQIEGMMEMLEAGKTKVEVCEMFDVARATLYRYIREFEANNTQLK				NA	NA	NA	NA	NA
AK009_03514	207			hypothetical protein	TTGCATACCAAAGTTACGTTTTTTATGAAAATGAATGGGGAAAATAAAGATGCGACTGCTTATGTAAACTGTATGACAAAAGTGGCAGCTTTTTTGCTAGCTAACACGGATAGACAGGTAATTGATAAACTGTTAACGCAGGTTGATGAGGAAGAAAAAGTATTTATCAAAGCCAATTTAGCTGGATGGAAGCATCATTCTCAATGA	MHTKVTFFMKMNGENKDATAYVNCMTKVAAFLLANTDRQVIDKLLTQVDEEEKVFIKANLAGWKHHSQ				NA	NA	NA	NA	NA
AK009_03515	156			hypothetical protein	ATGGTGAACGTAAAGGATTTAACTACAAAAGATTTAAGTGAGGAATTAGCGAAACGTGAAGGTGTTACAAAAATAGAAGTAAATGTATATGAAAAGATTGAATTTGGCGGAATTGTCGTGGAAGGACCAGCGATTATCTTGGTGAATAAAGATTAG	MVNVKDLTTKDLSEELAKREGVTKIEVNVYEKIEFGGIVVEGPAIILVNKD				NA	NA	NA	NA	NA
AK009_03516	216			hypothetical protein	ATGAAATATTTAGAGATTTGCATGAATGGTGGATATAAACATCAGGTCCATATGCCATTAGAAACATTTGAAAGTTGGATTACAGATAAAGACGGGTTATTACTCAACAGATTACTCCTTGTTGGAGATGTTATGATAAACCCAGCTAATATATCTATGGTCAGGGTAAAAACAAATGATAATTTTGAAGTACCAGAAGTATATAAGCCTAAATAA	MKYLEICMNGGYKHQVHMPLETFESWITDKDGLLLNRLLLVGDVMINPANISMVRVKTNDNFEVPEVYKPK				NA	NA	NA	NA	NA
AK009_03517	375			hypothetical protein	ATGAATCAATTATCTCTTTTTACATATGTCAACGAGAAAGAAATACGCCCTTTTGTGATAGAAGAACTGAAAAAGTATAAGGTATTACGTGTACGGTTTCAAAATCAGCGAGAACGGATGGAATTAGGAGCAGATCTTTTGTTTCCAGAGTTGAGAAAGTTGAATGTTCATGAACTTAAGTACAGACAATTACAACGAGCGTTTGAGCATGCGCTAGATCAGGATGAACAACGAATATTAGAAATGAAATATATGAGTGCGACAGAGTTAAATGATGATTACATTTATACGGTACTAGGGATGAAGCGAGGTAAGTTCTACCGGAAAAGGAAGTCAGGTATTCTTAACTTTGCCACGGCATTAGAGATGATATAA	MNQLSLFTYVNEKEIRPFVIEELKKYKVLRVRFQNQRERMELGADLLFPELRKLNVHELKYRQLQRAFEHALDQDEQRILEMKYMSATELNDDYIYTVLGMKRGKFYRKRKSGILNFATALEMI				NA	NA	NA	NA	NA
AK009_03518	798			hypothetical protein	ATGACAAAAATGCAAACATTCGCACATAATATGTTCGGAAATTTAGAGGTTTTTATCAAGGATGGAAAAGAGTACTTTCCGGCGACAGATGTTGCAAAAGTATTAGGATACACTAATCCGCACAAAGCAATTAGGGATCACTGTAAACAAGAAGGGGTGAACGAAACGTTAGTCCCTACTAATAGTGGCAAACAAATGAAAAAATTCATTAACGAACCCAATTTATATCGTCTAATCGCTAAATCCAAACTCCCACAAGCGGAACAATTTGAAAAATGGGTATTTGAAGAAGTGCTCCCAAGTATTCGAAAACATGGTGCATACATGACACCGCATACGATTAACGCCTTACTACAAGACCCAGATTTACTGATTGGTCTCGCGTCCCAACTGAAACAAGAACAACAGGCAAGGCAAGTGGCAGAACAAAAGAACCTTATGTTGACACAGCAAGTCGCAGAGCATGCATCTAAGATTACATACCTCGATCAAATTCTTCAGTCAAAAGATACCGTAACAGTATCACAAATTGCAGCCGATTATGGTTTATCTGCAGTTCGATTAAATAAAATTTTAAAGGACGAAAAAATACAGTACAAAGTAAACAACCAATGGCTGCTGTATGCCAAACATCAAAACAAAGGGTATACGAAATCGCAAACAATTGATGTGACACATTCGGATGGTAGCAAATCCGTAAAGATGAATACACGCTGGACGCAAAAAGGAAGATTATTTATCCATGATATGTTAACGAAACGAGGTATTATCCCGGAAATGGATAAGGAAGCGGTTTAA	MTKMQTFAHNMFGNLEVFIKDGKEYFPATDVAKVLGYTNPHKAIRDHCKQEGVNETLVPTNSGKQMKKFINEPNLYRLIAKSKLPQAEQFEKWVFEEVLPSIRKHGAYMTPHTINALLQDPDLLIGLASQLKQEQQARQVAEQKNLMLTQQVAEHASKITYLDQILQSKDTVTVSQIAADYGLSAVRLNKILKDEKIQYKVNNQWLLYAKHQNKGYTKSQTIDVTHSDGSKSVKMNTRWTQKGRLFIHDMLTKRGIIPEMDKEAV				NA	NA	NA	NA	NA
AK009_03519	183			hypothetical protein	GTGGGAAAAGTTGAATTTAATCAAGATAGTTTTGGACAACAGTTAATTATTACAGGTTTAGCAAGATTAGTTGAGGCGGAAGGTTTAACACCGCATGAAGCGTTTGATGTTTTAAGGCTCATTCAAACCAATACATTTCATGCGTTAGCTGATTTACACAAGGAATACAAAAACAACAAATAA	MGKVEFNQDSFGQQLIITGLARLVEAEGLTPHEAFDVLRLIQTNTFHALADLHKEYKNNK				NA	NA	NA	NA	NA
AK009_03520	165			hypothetical protein	ATGGAGCCATTTTTATGGATAGCCATCTTTATTTTGCTTGGCCACATTGTTTTTACAAAGTTGGATGTAAAACAGCTAGAAGAACGTTTAGATACTTATAAGGAAACGCTGGATATACAAAATGAAAAGATTGATGACTTATGGAAATATATTAATAAATGTTAA	MEPFLWIAIFILLGHIVFTKLDVKQLEERLDTYKETLDIQNEKIDDLWKYINKC				NA	NA	NA	NA	NA
AK009_03521	735	rpoS		RNA polymerase sigma factor RpoS	ATGATGAAAGCGATTGAAGATGTGAGAGCGATGCCAGATGAGGAGTTTATGAGTAAGTATGAAGATTTGGTACATCACTTTATCTGGAAGAGATATAAGGGCATGTTAGAAATAGTTAAAGCGAATACAGGTTTGGAGATAGAGGACTTAGTGCAGTACGGGATGATTGGTCTCATAAAAGCGAGAAGGGATTTTAATCATGAGCTCGGTTATCAGTTCTCTACGTACGCGATACCAAAAATTCATGGAGAAGTTGGAAAGTTTATTATGAATAGTCACAAGATAAAGGTGCCAAGAGCTTTATATCAACTGAGAGGGAAAATGATGAGGCAAGGATTGATGGAGGAAGATGGAGAGACGATTTGTAAACAATTAGAAGTGGCTCTTCCAGAAGTGAAAGAGGCATTACAATATCAACCCAATACAAAATCTCTACAGGATGTAATGTATACATCGGCGGGTGGTGGTAGTGAAGAAATTCTGTTGGAAGACATGCTGGAAGATACACAAGTAATCGAAGAGACAGAGCAAGTCGAGAATCATATGGTCCTTCAATCATTTTACCAAACACTTGAGCATCCAGAATTAATCGTGTGGGATATGCATTCGAAACATAAAACGCAGCAAGAAATTGGGAATAGAGTGGGGAGATGTCAGGTTCAAGTTAGTCGAATATTAAAACGAATTCAGCAAAGAGCCGCTGAGTTTGGGAAAGAGCAGGGATTAGGGAAATGA	MMKAIEDVRAMPDEEFMSKYEDLVHHFIWKRYKGMLEIVKANTGLEIEDLVQYGMIGLIKARRDFNHELGYQFSTYAIPKIHGEVGKFIMNSHKIKVPRALYQLRGKMMRQGLMEEDGETICKQLEVALPEVKEALQYQPNTKSLQDVMYTSAGGGSEEILLEDMLEDTQVIEETEQVENHMVLQSFYQTLEHPELIVWDMHSKHKTQQEIGNRVGRCQVQVSRILKRIQQRAAEFGKEQGLGK	PGPT0014795_843	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
AK009_03522	423			hypothetical protein	GTGAAACTCACCAAGGAAGAACGCATACGACTCACCTATCAAATTGGAGATATTATTGAACAGAAATGTAGGCGGTGTTATTACAATCGCTCAGATGATGCGAGCTTCAGTATCAACATTTGTGCAAAATGCCCGACTGGTCAAACATTACGTCAGTTGGGTAGATATTTTGATACAGAGCCGAGAAGTCGCGGAGGGAAGACTGGAAATATGCCGGATGGATTGACACCAGCGCGTGTGAGAGAACTCAATGACCAGGGGATTCCAGATAAAGAAATTAGTATCATGTTTGAGCGAAGTCCATCCTACGTTGGGAAAGTGAAAAATAGATGGAGAAAGCAAGGGTTATGGCAAGGGCCGAATCAGGTGCCGAAGAAGTCAAGTAAGCGGAAAAGGAGAAACAGGCATGATGAAAGCGATTGA	MKLTKEERIRLTYQIGDIIEQKCRRCYYNRSDDASFSINICAKCPTGQTLRQLGRYFDTEPRSRGGKTGNMPDGLTPARVRELNDQGIPDKEISIMFERSPSYVGKVKNRWRKQGLWQGPNQVPKKSSKRKRRNRHDESD				NA	NA	NA	NA	NA
AK009_03523	723			hypothetical protein	ATGAAGCTTGATAAGAAATCCATCCGGATTCAAATATTAGATCTACAAGATGAGAAATGCGCGGGATGTGAAAAAGTGCCAGCATACAGGAAGTCAGGGAATCGTAAGACTTCCTGGTGTGCGGATAACTGTAGGGTTGGGAAGCGAATCAAACAATTAGGCGGCAGCTTACTGGAAGGGAGAAATGAAACGATGGCAGAGCAGATGGCTGAAGAGAGAAATTGGGATGTATTATGTGAGAAGGCGGAGAAGTTACGGGAACAGAAATTATCTTGGGCAAAAATTGCAAATCGTCTTGGTGTGAGTGAAAGCACATTGTATCACAATGTTGCAAAACGACGAGAGAAAAAAGAGGGGGTTAGGAAGTGCGCTAAGAGGTCGGGAACGAAAAAGAGTGCAAAACCATTGGTCCAGGGTGCAAAAGTTATTAGGGAGGAAAATGAACATTCTGAAGAGAGAGATAATGGGATGCATCAAATGGAATTAAAAGCGGAACTTGAAAAGTTAAAAAAACAATTTCAAAATCGTGAGGAAGAATACACAATGTTGCTTGGTGAACGCAACCAATTAAGCGAAAAGAAATGGGAACTGGAAGCTGAATTACGTAAAGTACAAATCAGAATCAGCGCGGCAGAAGAAACAGCAGAAATGGAACGGAAACATCGCTTGGAATTACAAGCAAGAGCGCAAGCATTAGGGATCGCATTAAAAGCAGTATTGTAG	MKLDKKSIRIQILDLQDEKCAGCEKVPAYRKSGNRKTSWCADNCRVGKRIKQLGGSLLEGRNETMAEQMAEERNWDVLCEKAEKLREQKLSWAKIANRLGVSESTLYHNVAKRREKKEGVRKCAKRSGTKKSAKPLVQGAKVIREENEHSEERDNGMHQMELKAELEKLKKQFQNREEEYTMLLGERNQLSEKKWELEAELRKVQIRISAAEETAEMERKHRLELQARAQALGIALKAVL				NA	NA	NA	NA	NA
AK009_03524	669			hypothetical protein	ATGGCATATATCGAATTTAAACCAGTGTTAAAGAAAGTGAACTTAAAACCTGATGGGAAGAAAGAGATTGTGTTAGAAGTAACAGATTCCTCGCTACAAGGGAAATTGGATTCTCTGTCTGAAATGATTGATGCAAAAGTATTTGTTTCGCTAGAGTCTATGCAAGTCAACTTTAATGTCACGATTAATGCGAAAACAAATGAGCCGGTTACGCAGTACGAAGTCGATGAGAAAGGAATGGTACAAGAGGTAAAATCAACATTCGAGCAAATAGAAGCGGATCTAGATATGCCAGAAGAAAAGATTCAGACTCGTGAAGAAAAAGAACAAGCGGACCGTGAGATTATCGATGCTTTTATCATCAGCGGTTTAGCACCGAACTTTGAGGGTATGCCAAATAAACTTCCGGACATCGTGAAACGTCGTCTAGAGGGAGAATCGTACTTGAAATTGGCGAATGAGCTGAGCATGTCCTCGGGTCAAATTATTGAGGTAATCGATGAATACCGTAAGCGTGTAGCACCATTAGCGATAAAGTGGCATGAGTGGAAAGAGCAGCAGCCAGAACCAGCAGAGGAGACAAAAGGGGAAGAAAAACCGGAAATGGAGAATCAAGTCTCGGAAGAGTTCGAAATAGCGGATGAGGACAAGCCTTTCGATGAAGCTTGA	MAYIEFKPVLKKVNLKPDGKKEIVLEVTDSSLQGKLDSLSEMIDAKVFVSLESMQVNFNVTINAKTNEPVTQYEVDEKGMVQEVKSTFEQIEADLDMPEEKIQTREEKEQADREIIDAFIISGLAPNFEGMPNKLPDIVKRRLEGESYLKLANELSMSSGQIIEVIDEYRKRVAPLAIKWHEWKEQQPEPAEETKGEEKPEMENQVSEEFEIADEDKPFDEA				NA	NA	NA	NA	NA
AK009_03525	426			hypothetical protein	TTGAGCAAATACAACAACAAAAAAGTGAACCTCGATGGCTACGTATTTGATTCACAAGCGGAAGCAAATTATTACGAAGGCTTAAAAATACGCAGTGCAAGAGGGGAAATTCAAGGGTTTGAACGGCAGCCAGTATTTAATCTACAACCTGCATTTAAAAAACAGGACAAGAGCTTTCAAGCCATTACATACATAGCGGACTTTCTGGTGTACTTGCCAAATGGTGAGGTGGAGGTCATAGACATAAAAGGCATGATCACCGAAACTTTCAACGTGAAACGAAAGTTATTCGAGTATAAATATCCACACTTACAGCTGATTTTGCTGAAGCATGTGAAGAAATACGGTGGTTTTATCACATTGGATGAGTACAACAAGTTACAACGAGCGGAGAAGCGAGCAAAAAAACAAAATGAAGCAGAATAA	MSKYNNKKVNLDGYVFDSQAEANYYEGLKIRSARGEIQGFERQPVFNLQPAFKKQDKSFQAITYIADFLVYLPNGEVEVIDIKGMITETFNVKRKLFEYKYPHLQLILLKHVKKYGGFITLDEYNKLQRAEKRAKKQNEAE				NA	NA	NA	NA	NA
AK009_03526	480			hypothetical protein	ATGAGTAAAGTGTCGGTTGAGAAGAAGTTGGAGTTCATCGAATGGGTAGTTGAGAATCTAGAACGGAAAATCAGAAGAGGGTTTGCTTCCTTGGTCACGTTTAGTGATGAGAGATTTATAAATCGGATTCATTTCGTAGAAAATGCTAGTAAATATCCGTATGGTATTGAGGTTACGGCGGCATGTGTGGAAGGGAAAGCATCTGCATTTTATACACCTCATGGTGTGTTCAATAGCTTGACAGCACCATACGAGCATTTTGTAGAGAATGAGGATCCAATTTATATCCAAATCAATTTCAGAGAGAAATATGAAAATATGCAATACCTAGATGTACTAGAAGACGATGAATGTTCCTTGCAGACGTATTTAGACGGGGAAGATCATGATGAAATCGAAAATCTCCTCACAAAACAACTCATCGATTATGCACTCGACATGAAGGATGAAGCACTATTTAAAAAGCTGGTTATGAAATAA	MSKVSVEKKLEFIEWVVENLERKIRRGFASLVTFSDERFINRIHFVENASKYPYGIEVTAACVEGKASAFYTPHGVFNSLTAPYEHFVENEDPIYIQINFREKYENMQYLDVLEDDECSLQTYLDGEDHDEIENLLTKQLIDYALDMKDEALFKKLVMK				NA	NA	NA	NA	NA
AK009_03527	810			hypothetical protein	TTGCAAGCCGAGAACGAAACATGCCAAGTTACATCAAACGAGTATAAATGCTCAACATGCCAGGATACGGAAGTACTGTTTTACGAGGAAGTCAATGAATTTGGAATGAAAGTATCTGTGCAGAAGGATTGTTCGTGTAAAGTGCAACGAGTGATAGAGCGAAGGTTGAAGAATGCAATGATTCCAGAAGAGTTTGCACAAGCGAGATTTGATTCTTACAAACAAAAGACAGAAAACCAAAAAGTGTTGTATGAAACCATCGTAAAATATTTGCGTAATTTTGAAGAAATAAAGGGGACGAAACAAAATAGCTTAGGCTTTATCGCAACGTTTGGTGAGCTCCGCATTAAACAGTTAGAACCATCCAAACGGGCACAGGCAAAGCGGGAACATAACAGTTTTGGTCTTGGGAAAACACATTTGCAAGTGGCTGCAGCAAAATATCTCATGAAGCAAGGATATAGTGTATTACTGATTTCGGACGGGACGTTCATGGATGACCTCATTGCAGCAAAGATGATGAACGATGACAAAAAAGAATTCAATCGCTTATTACATTCTGCAAAGCAAGTAGAAGTTCTAGTGTGGGATGACTTAGGAAAATCCAAATGGTCGGAAGCAAAAGAAAATTTGTACTACCAGATCATTGATTATCGATATCGTCATAATTTACCGATTCTGTATAGTTCAAACGAAGATGACGAGACGTTAGGTGAAAAGATAGGTTTTGCAGCAAATAGTCGTTTAAAGGGTATGAGTAAAGATTATATGGTCGCTGTAGAAGGTGAGGATTATCGCGAGAAGGAGTGA	MQAENETCQVTSNEYKCSTCQDTEVLFYEEVNEFGMKVSVQKDCSCKVQRVIERRLKNAMIPEEFAQARFDSYKQKTENQKVLYETIVKYLRNFEEIKGTKQNSLGFIATFGELRIKQLEPSKRAQAKREHNSFGLGKTHLQVAAAKYLMKQGYSVLLISDGTFMDDLIAAKMMNDDKKEFNRLLHSAKQVEVLVWDDLGKSKWSEAKENLYYQIIDYRYRHNLPILYSSNEDDETLGEKIGFAANSRLKGMSKDYMVAVEGEDYREKE				NA	NA	NA	NA	NA
AK009_03528	480			hypothetical protein	GTGGAAAAAGGGGGACTACTAAATACTAATGATTTACTAAGTACTAATATACCAAGTACTAATCTAACTAAAGATGATGATGTAGATAAGCACCCCTTGATTGACGAAGCATTTCAGAAAAGTTATCAGTATTTACTGCAGAACAATATTCCGCTAAGTGAAACAGCTCTGCAAGATTTGGGAGAGTTTTGTGATGTGCTAGGAAGCGAAATGGTGTTAGAAGCTGTGGATCGAGCGATTGACCAAAATGTAAAGCGCTGGAAATATATCAGCGGTATTTTATCCAATTGGCAGAAAAGCAATGTCAAAACAATGGCGGATGTCATGCAACTGGATGAATCATATAAAAATCAAAAAGGCGGTGGGGAACATGTAACACGTTGGAGACGCAATGGAGGAAATTATCAAACGGGCAGAAGCTATGAGGAAGAAGTTGCAAGCCGAGAACGAAACATGCCAAGTTACATCAAACGAGTATAA	MEKGGLLNTNDLLSTNIPSTNLTKDDDVDKHPLIDEAFQKSYQYLLQNNIPLSETALQDLGEFCDVLGSEMVLEAVDRAIDQNVKRWKYISGILSNWQKSNVKTMADVMQLDESYKNQKGGGEHVTRWRRNGGNYQTGRSYEEEVASRERNMPSYIKRV				NA	NA	NA	NA	NA
AK009_03529	387			hypothetical protein	ATGGGAATATTTCGAGTAGCTAAAGATACAAATTATTCAATCATACACAATACACCTTTACATGATTCTAACCTCAGTTGGAGAGCAAGGGGCTTACTCGCTTATATGCTTTCTTTGCCAGATGATTGGACATTTCATATCTCAGAACTGAGTGAACATACCAAAGATAGTGAAAAAATAACTGCAAGTATTGTAAAAGAGCTGAAGGAAGCGGGTTACTTAAAGCGGTATCCCGTTCAAAATTCTGAAACGGGGAAAATTTCACGTTGGGAAACAGTGGTGTATGAAGTCCCAACCATAGATACCGAAAACCACCCCCTGGAAAATCCACCTAGTGGTAAAACCATCGAGTGGGAAACCACACAGTGGAAAAAGGGGGACTACTAA	MGIFRVAKDTNYSIIHNTPLHDSNLSWRARGLLAYMLSLPDDWTFHISELSEHTKDSEKITASIVKELKEAGYLKRYPVQNSETGKISRWETVVYEVPTIDTENHPLENPPSGKTIEWETTQWKKGDY				NA	NA	NA	NA	NA
AK009_03530	171			hypothetical protein	ATGAGCAAATCAAAGGTGCTCCTCTCCCATAAATTATGGGAGAGAGCGCAATCCAAAGAAGAACTAAAGCATTCTATTGCAAGATATATACAGGCTGGGTATCCAGGTTATCACATAGAAAAAGTTATTTTAGAAAATCAATCGTACATTGCGGTTTGCAGAAGGGAGTAA	MSKSKVLLSHKLWERAQSKEELKHSIARYIQAGYPGYHIEKVILENQSYIAVCRRE				NA	NA	NA	NA	NA
AK009_03531	807			hypothetical protein	ATGGCTACAAATGAAAAGTTGAAAAACCAGTTAACAAATCGAAAAGAAAGTGCGCCAGTTACACCGGAACAAACAGTAGAAGCATACATGAAGAAAATGGCGCCTAGAATGGCGGAAGTATTACCGAAGCATATGGATATGAACCGTATGAGTCGCATTGCCTTAACAACAATTCGAACGAATCCAAAGCTTCTCGAATGTGCAGTTCCTTCTCTTATGGGGGCTGTGATGCAAGCCGTACAGCTAGGATTGGAACCAGGATTACTAGGACACTGTTACATCTTACCGTATAAGCGTGAAGCGACATTTATCATCGGGTATAAGGGGATGATTGACCTCGCAAGACGGTCTGGTCATATTCAAAGTATTTATGCCCATGCTGTACATGAAAATGACGAATTCGAATATGAGTTGGGGTTACATCCAAAATTGGAGCATAAGCCATCACATGGGGATCGTGGCGCATTTATTGGAGCGTATGCAGTTGCTCATTTTAAAGACGGTGGGTATCAAATGGAGTTTATGCCGAAAAGTGAAATTGAGAAACGCCGAAAACGTTCTGCAGCCGCTAATTCTAGCTATAGCCCTTGGAGTAGCGACTATGAAGAAATGGCGAAGAAAACCGTGGTTCGTTACATGTTTAAATACTTACCGATTAGTATTGAAGTTCAGACACAAGCCCAGCAAGATGAAGTGGTGCGAAAAGATATTACAGAAGAGCCAGAGTTTATTGAAGTGGATCCAATTGAAGGAGAACAGGTAATAACAGAAGATGCTGGACAACAAGAATTCCCGATTGAAGGATGA	MATNEKLKNQLTNRKESAPVTPEQTVEAYMKKMAPRMAEVLPKHMDMNRMSRIALTTIRTNPKLLECAVPSLMGAVMQAVQLGLEPGLLGHCYILPYKREATFIIGYKGMIDLARRSGHIQSIYAHAVHENDEFEYELGLHPKLEHKPSHGDRGAFIGAYAVAHFKDGGYQMEFMPKSEIEKRRKRSAAANSSYSPWSSDYEEMAKKTVVRYMFKYLPISIEVQTQAQQDEVVRKDITEEPEFIEVDPIEGEQVITEDAGQQEFPIEG				NA	NA	NA	NA	NA
AK009_03532	936			hypothetical protein	ATGCATGCAAAGGTGTTGGCAAATACATTACATATGGATCGTAGGGCATGGTTAGAAGCGCGTAAGCAAGGATTAGGTGGTTCTGATGTGGCAGCCATTGCTGGCTTAAGTAAATGGAAGTCGCAAGTACAGGTGTTTCTTGAGAAAACACAAGCTATCGAGCAAGAAGATATACAAAGTGAAGCCGCTTATTTTGGGAATGTATTAGAAGAAGTAGTTGCCCAGGAGTTTGCCAAACGTACGGGACTAAAGGTACAACGTAGAAATGCTATCTTGCAACACCCAGAGTATCCTTGGATGCTTGCAAACGTGGACAGGCTCATTGTAGGAGAACGAGTGGGGCTTGAATGTAAAACAGCTTCAGAATATTTAAAAAAGGACTGGGAAGGTGAAGAAATACCGGTCGCTTACCTTCTCCAGTGTCAACACTATATGGCTGTGACAGGCTATGAAGCATGGTGGATTGCCGTATTAATTGGTGGTAATAAGTTTGTCTATAAGAAGATTGAGCGTGATGAGGATATTATTCAATATCTTGTTAATATGGAACGGGATTTTTGGCTGAATCATGTCGAGAAAGATGTACCGCCTATGTTCGATGGTTCTGAGGCATCTACGCAGCTACTCAAGCAAATGTATCCAGAATCTATTGAGGACAGTTCTATCAGCCTAGGGAAGCAAGAAGAGCTACTCATCGAAGCGAGGGACCAAGTAGATAGAGAAATGAAGGTACTACAAGAACAAAAGGCAGAGTATGAGAACAAGCTGAAAGCGAAACTAGGCTCTCATGAGAAAGGGACAACGGAGAATTACACCATTCATTGGAAGTCCTATACAAGTAATCGTTTTGATAGCAAACGATTCAAAACAGAACATCCTGATTTACATAAAGAATATACAAATGAAACTATATCAAGAAAGTTTTCAGTGAAATAA	MHAKVLANTLHMDRRAWLEARKQGLGGSDVAAIAGLSKWKSQVQVFLEKTQAIEQEDIQSEAAYFGNVLEEVVAQEFAKRTGLKVQRRNAILQHPEYPWMLANVDRLIVGERVGLECKTASEYLKKDWEGEEIPVAYLLQCQHYMAVTGYEAWWIAVLIGGNKFVYKKIERDEDIIQYLVNMERDFWLNHVEKDVPPMFDGSEASTQLLKQMYPESIEDSSISLGKQEELLIEARDQVDREMKVLQEQKAEYENKLKAKLGSHEKGTTENYTIHWKSYTSNRFDSKRFKTEHPDLHKEYTNETISRKFSVK				NA	NA	NA	NA	NA
AK009_03533	195			hypothetical protein	ATGATTGAAAACCCAAACGTTACAGGAAACCCACACAATTCACCACGAAAAGATTTCGAACACTATTGTAGTGATTGTGACGGTGAATTGTATTTCGGTATGACGTATTACGTGTTTGAAGGTAGCCTCATTTGCGAGGAATGTAATGAGAAATTTTTAGAGAGACATGGTACGCGTTTTGTGGCAGGAGAATAA	MIENPNVTGNPHNSPRKDFEHYCSDCDGELYFGMTYYVFEGSLICEECNEKFLERHGTRFVAGE				NA	NA	NA	NA	NA
AK009_03534	264			hypothetical protein	GTGAAAGTTTTAAAAAATCAAACGCTATTCCAATGTGATCATTGCGGGAAGCGCCTTCTCACAAAGTATGGCGCAAAAATTCATGAAGAAAAGTATTGTTCAGTGGTTTTAGAGCAGAAAAAGAAAGAAAAACAAGCTAAATGTAAGCATAAAAACATTGATACACATTACGAATACATTCCAGGTGAAGCAGTTATGCAACCGGCGTACGATTATTGCGTGGATTGCGACAAACAAATTGGATGGGGTGAGAGGAATGATTGA	MKVLKNQTLFQCDHCGKRLLTKYGAKIHEEKYCSVVLEQKKKEKQAKCKHKNIDTHYEYIPGEAVMQPAYDYCVDCDKQIGWGERND				NA	NA	NA	NA	NA
AK009_03535	303			hypothetical protein	ATGACCAAATCAGTTCTAACAAAGGACCTCGAAAAGAAACAAATACTCGATGAATTCTTACAGCATTGCGAACAACAACAAGTTAAAGCGCTACAAAAAAATGACCCATATCTATTTTGTATCTGGATTAAAGAAGCCCGATTAGCCCGAAGGGAATTGGCAGCACTCTACCGTGCTAAAGAAAAGCATGATGAGGAACGAGCGCATATTCGTGGGATTGTTCACCGCTTGAAAAGTATCGGTGTGAATGCGGATGTTGTGGAGAGGGTGCACTATATTACGCTTGCTGAGGAGGTCAGTTAG	MTKSVLTKDLEKKQILDEFLQHCEQQQVKALQKNDPYLFCIWIKEARLARRELAALYRAKEKHDEERAHIRGIVHRLKSIGVNADVVERVHYITLAEEVS				NA	NA	NA	NA	NA
AK009_03536	156			hypothetical protein	ATGAAAAACGGTAAAAGGCCAACCAAGAGAGAGAAGATACATATTAATGCATATAATTTAAATTCTGATAACTGGTTGATTTATAAGAAAGCAGATGGGCAACTACATTTAGTGCATCGTCATACGAACTCAACACGAGTCATTCCGAGTGCATAG	MKNGKRPTKREKIHINAYNLNSDNWLIYKKADGQLHLVHRHTNSTRVIPSA				NA	NA	NA	NA	NA
AK009_03537	648	fliA		RNA polymerase sigma factor FliA	ATGACACCTGAAAAGTTGTTCGAAGAGAAAGAGTATTTAGTAATCGCAGCGATCAAACAAAGATTTGGAAGTATCGCAAGAGCAAGACAAATTGCAGAAAGGAACAATATGGAGTTGGACGATTTAATTCAAGTAGGTCGCATGCATTTATGGGCGTGTTGTGTGAAATATGATGCAGAGAGAATAGATACATTCCATGCATACGTGATGAAAGGTATGAAATGGGCCATGAGTGATGAGCTGCATATGAAAGGAATGCCTTTTAAGGTAAGTAGAAAAGTGAGCCATGAGGAAAGGAATCAAATCAATATTCATTCGATTGATTGGCATCGAGATGAGGATTCAGTAAATGAATTTTATGCAGTTTCTCCTATAAATGTGGAAGAAGAAGCGCTGTTATCAGTTGAATTTGAAGAAGTAACGAGTGTGCTGGAAGAAAAAGAGAAATTAATCATTCTGCATGTGGGTGAGGGATACACCGAAAGAGAAATTGCAGTGAAACTTGGGATGGGTAGATCCACAGTAAATACAAAGAAAAATGAAGCATTTTTAAAAATTAACCCTGATTATAAACCGTTAAATGTAAGAACATTTTTCTTGGGCACAAGAAGAAACATGAGAAACCGCCAGTTGGGGCTGACGGTCTAA	MTPEKLFEEKEYLVIAAIKQRFGSIARARQIAERNNMELDDLIQVGRMHLWACCVKYDAERIDTFHAYVMKGMKWAMSDELHMKGMPFKVSRKVSHEERNQINIHSIDWHRDEDSVNEFYAVSPINVEEEALLSVEFEEVTSVLEEKEKLIILHVGEGYTEREIAVKLGMGRSTVNTKKNEAFLKINPDYKPLNVRTFFLGTRRNMRNRQLGLTV				NA	NA	NA	NA	NA
AK009_03538	189			hypothetical protein	ATGCACAAAAACCTATACATAGCCAGAAAAGAGCGACGTATTACACAAGTGGCTGCTGCGAACCTGATAAACATATCGTCTAGATCTTATCACTCAAAAGAAAACAGAAGAACTGATTTCACCCTAAAAGAAGCTCAAAAACTAGCAAAGTACTTCAAAACAACAGTGGACGAGCTGTTTGAAAAATAA	MHKNLYIARKERRITQVAAANLINISSRSYHSKENRRTDFTLKEAQKLAKYFKTTVDELFEK				NA	NA	NA	NA	NA
AK009_03539	207			hypothetical protein	ATGAAAAGATTTGATGGTAAGAAACTGTATTTATTAAGGAAAAATAGAGGATTTTCGCAGAGGGAATTAGGAGAGTTATTAAATTGTAGTCACTCTTTAGTTAACCTGATGGAAAATGGTAAGCTTCAACCAACAACTGCCAAGTTATTAGGTATTTCAAGTATCTTTAAAGTTTCTATAGATGAGTTGTTTATAGATTTTTTTTGA	MKRFDGKKLYLLRKNRGFSQRELGELLNCSHSLVNLMENGKLQPTTAKLLGISSIFKVSIDELFIDFF				NA	NA	NA	NA	NA
AK009_03540	345			hypothetical protein	ATGGTAACATTAGGAGACCGTATAAAATTTATTCGTACAAAAAAAAATATCTCACAACAAGAATTAGCGGACATTTTAAATGTTAATCGCTCTGCAATATCTTTATACGAAACCAATAGAAAAAGCCCTTCGAGAGAAAATACCTATAAAATAGCTACCGCATTAGGTGTATCGATAGATTATTTATTAGGTTTACAAACAGATCCTTCTTTTCAAACTGACAACATCCATTCTGAAACTGCTCAACTTATGAAACGTCTTGATAATATGCCGTCAGAAACAAAACAAACCATTATTAATTTAATTGATGACTTACTTAAAATACACGAAAAAAGCCATGATTAA	MVTLGDRIKFIRTKKNISQQELADILNVNRSAISLYETNRKSPSRENTYKIATALGVSIDYLLGLQTDPSFQTDNIHSETAQLMKRLDNMPSETKQTIINLIDDLLKIHEKSHD				NA	NA	NA	NA	NA
AK009_03541	147			hypothetical protein	ATGAACAAAATAAATGCAAAAAAAATTAAACAGGAAAACACTGAAGATAAAATTAAAAAGATGTTAATTTTAGAACAAATTTTTAGCGAGGATGAAGAATACATACTTGCAGTTAGTAAAATTAAAGCCATGATTAATAATAATTAA	MNKINAKKIKQENTEDKIKKMLILEQIFSEDEEYILAVSKIKAMINNN				NA	NA	NA	NA	NA
AK009_03542	1221			hypothetical protein	ATGTTATCGGATGGAGGGAAGAATACTTTGAAGCCGCTACATGTTGAAATTTGTGAATTAATTGACAATAGCCCAGAGCTAACATATGGGAGTGTTGCTGAGGCTATTGGAGTAAGCCCCCAATATATGTCTAAGTTCAAAAAAAGTGGGACAGTTAGTTTTTGTAGTCTCTTGAAATTGTCGCAAGTATTAACGTTGCCTGATGAAAACTACAAAACTATAATGCGTGACTTTTGCTTGAAAGTTGATACAACAGAACTAATCAAACAAAGCTTTGAGTACGCTTCAATTACTAGGGATATTGAATTGTTAAAACGTTTGATAGGAAAATATCGAAAAGATAAAGGGAGTATTCAGGAGTTTGTGGATGTGTATGAAATATTGTATCAATATATAGTGAATGAGATTGATGGTAGATCACTAATTGATAAATTGTGTGAATTAAGGCAACCAACGGATTGTTGTTTACGAATATTAATCGATATCATGAAATGTTATAATTATTACTTTTCTAAAGATTTTCCAATGATGATTGGATTGGGTAAAGAAGTAGAACAGAGGCTTAAGCAGTTAAGTGGTGGGCGTAAAGATTTTATTCTACATTGCTATTTCCACAAGGTATATGAGGTTCTAGCACCTGTTCATTTAAGATTAAATAATAAAGAATTAACAAGAAGATATGCTACTATCTTAAAAAGTGTGAATATTAGCGCAAAGACAGTTTCAGATGCAACGTATTTAATGGGTATGTCTTATTTACTTGAAGATAAGCAAAAATGCTTATCACTACTAAAAGAGAGTTATGAGTTATCTAAAGCGATTGGGGAGGAAATTTTAGAAACTGAAGCATTGTATAACTTGAAATTGGTCGAATTGTATTACGAATCAGACAAGAATGAATCCGTTATCGCACTAAGAGAAATTGATAAATTCTCATCAGTATTTTATCAGAAAGAAAATGAAGACTTTATTGTGTTATTTAAGGCAATGCAAGATACTTCTAATAAGAGTTTACATAAATGTCTTCAGCAATTCTTTACTCAAGGTAATTATTTTTTTTCCAGTTTGAGTGCAAGAGAATTGTATAAGCGTGGGGAAGATTCTGTTATACTTGAATGGATGATGGACTATAAACCAGAGGTGGGAGTGAATGAATTTGAAGAAGATAATGTTGATATTTTCAATGATGTTGACTTTAATGATAATACCATTCGTTGCTAA	MLSDGGKNTLKPLHVEICELIDNSPELTYGSVAEAIGVSPQYMSKFKKSGTVSFCSLLKLSQVLTLPDENYKTIMRDFCLKVDTTELIKQSFEYASITRDIELLKRLIGKYRKDKGSIQEFVDVYEILYQYIVNEIDGRSLIDKLCELRQPTDCCLRILIDIMKCYNYYFSKDFPMMIGLGKEVEQRLKQLSGGRKDFILHCYFHKVYEVLAPVHLRLNNKELTRRYATILKSVNISAKTVSDATYLMGMSYLLEDKQKCLSLLKESYELSKAIGEEILETEALYNLKLVELYYESDKNESVIALREIDKFSSVFYQKENEDFIVLFKAMQDTSNKSLHKCLQQFFTQGNYFFSSLSARELYKRGEDSVILEWMMDYKPEVGVNEFEEDNVDIFNDVDFNDNTIRC				NA	NA	NA	NA	NA
AK009_03543	1092	intQ_2	COG0582	Putative defective protein IntQ	ATGGTGATCTACAAAGATAAAGAACGAGGAACATATTTTTTCGTTGTCAGAGTCCGTCAGTTTGATGGTACTCAAAAACAAGTAAAACGTCGTGGATTTAAAACAAAAAAGGAAGCGCGTGAAGCCGAAGCGAAAATGTTAGTTGAAAAAGAAACGAACTCTAGCTTAACATTCGCTCAAGTGGCGGATAGTTACTTTGATTGGTATTGCCAGAGGAGGAAACAGTCTTCGATTAACGCCATAAAAAATGCAATTTATAATCATTTACTAAAAGAATTTGGTAAAATGAAAATTGATACCATTACCGCAAAACATGTAATGAACTATCAAAATAAACTCTTAAATAACTACTCCGCTGATACTCTAAAGCAAATTCATACTATACTATCCGCTATATTCAATTTTGCGATAAAATTTTATGGATTGACTAGCAATCCAGCACGTATTGCAGGAAACTTTGAATTAGAATCAAATAAACGAATGAGTTATTGGGAATTCGATGAATTTCAAAGATTCATCGATACTGTAGATGATCTACTTTACAATGCATTTTTTTCGACACTTTATTATAGCGGCGCTAGGAAAGGTGAATTATTAGCTTTAACATGGGCGGATGTTGATTTTGTAGGAAAAACGATTAACATCAACAAAACTGAATACAATCGTCAAGTTACAAAACCAAAGACAAAATCATCGAATAGAATCATCTTATTGCCTACACTTATCATTAATTTATTGAAGAAATTAAAAGAACATGCTACATTAACAGCACCAGTAAAGAATGATTATGTTGTTTTCGGTGAGTTTTATAATAGTATTGCTACCTCCACGCTAGATGAACGATACAAGAAATATGTGGCTACTGCTGGAGTGAAAAAAATTTTACTTCATGAATTTAGACATTCACATGCATCTTATTTAATTAATAAAGGTGTAAGTCCACTTGTAGTAGCACAACGACTAGGTCATTCTGATGTAGCAACAACTTTGAATACTTATAGTCACTTATATCCGTCAAAACAAGCAGAGGCACTCGCCTTTATAGAAGACGATTTGGCAAAAAAGTTACCAAAGTGTCACCAAGGGCTCTAA	MVIYKDKERGTYFFVVRVRQFDGTQKQVKRRGFKTKKEAREAEAKMLVEKETNSSLTFAQVADSYFDWYCQRRKQSSINAIKNAIYNHLLKEFGKMKIDTITAKHVMNYQNKLLNNYSADTLKQIHTILSAIFNFAIKFYGLTSNPARIAGNFELESNKRMSYWEFDEFQRFIDTVDDLLYNAFFSTLYYSGARKGELLALTWADVDFVGKTININKTEYNRQVTKPKTKSSNRIILLPTLIINLLKKLKEHATLTAPVKNDYVVFGEFYNSIATSTLDERYKKYVATAGVKKILLHEFRHSHASYLINKGVSPLVVAQRLGHSDVATTLNTYSHLYPSKQAEALAFIEDDLAKKLPKCHQGL				NA	NA	NA	NA	NA
AK009_03544	726			Putative formate dehydrogenase	ATGAATGACAACATGGTTCATATTACAATTGACGGAAAAAAGTATGCAGCGGAGCCTGGTTCAACGATATTGGGTGTGATTAATGAGAACGGGATTGAACATCCGCAAATTTGTTACGTGCCAGAAGTAGATCCTATTCAAACATGTGACACTTGTATTGTAGAAGTTGACGGAAAGTTAATGCGTTCTTGTTCGACGATAGCAACGGAAGGTATGGACATTGAACGTGCTTCTGTTCGCGCAAAAGAAGCACAAACAGAGGCGATGGATCGGTTACTAGAAAATCATTTATTATACTGTACAGTATGTGACAATAACAATGGGAACTGTAAACTGCATAATACAGCAGAATTAATGGAAATCGAACATCAAAAATATCCTTATGAACCGAAAGTAGATGTAAGTGAAGTTGATATGACGCATCCGTTTTATCGCTATGACCCTAATCAATGTATTGCATGCGGTCAATGCGTTGAGGTGTGTCAAAACTTACAAGTAAATGAAACGTTATCGATAGACTGGGAAGCGGAACGCCCACGAGTTATTTGGGATGAAGGAGTAAATATTAATGATTCTTCATGCGTTAGCTGTGGTCAATGTGTAACGATTTGCCCTTGTAACGCTTTAATGGAGAAAACGATGCTCGGTGAAGCTGGATTTATGACGGGATTAAATACGGTATCATATATACCTAGGGTTTTAGAGCCCTTGGTGACACTTTGGTAA	MNDNMVHITIDGKKYAAEPGSTILGVINENGIEHPQICYVPEVDPIQTCDTCIVEVDGKLMRSCSTIATEGMDIERASVRAKEAQTEAMDRLLENHLLYCTVCDNNNGNCKLHNTAELMEIEHQKYPYEPKVDVSEVDMTHPFYRYDPNQCIACGQCVEVCQNLQVNETLSIDWEAERPRVIWDEGVNINDSSCVSCGQCVTICPCNALMEKTMLGEAGFMTGLNTVSYIPRVLEPLVTLW	PGPT0026875_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026875-hoxU-K05588	NA	NA
AK009_03545	144			hypothetical protein	ATGACCTGTTATGAATCTATCGTTTTATTTATGAATAAATGGATTGGTATTTTAGCAAGATGTGCTAATAAACTACTCCACCATGATAATAGCGTGCCAAAAATGTGGTGCGTATATTTTCGTGGTGGAGTTTTTTTATTCTAA	MTCYESIVLFMNKWIGILARCANKLLHHDNSVPKMWCVYFRGGVFLF	PGPT0019635_268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
AK009_03546	1191	gerBA_3		Spore germination protein B1	ATGGGTTCTTTTCGAAAATGGATAAGGGGCGAAAAATCTTTCTTTACACACGAGCAATCTGAAACTGTATTACATAAAGAAACTTCTTCCTCCATGCCGCTTAATCTTAAACACTTATCCAAATTATTTAGTGGTATTCCAGAATTAATTACACGCACTTTCCCGTTAAAAAACGGAAAAGAAGCTGCTCTTATATATATGGAAGGACTTGTAGATAAAACTGTTATTAATGTAGATATTCTTCGGCCTCTCTTATTTAAAGAATGGAATGAAGACGATTTTTGGAAATCTTCTGTTTCTATAGGGAATATTAAAAAAGTTCAGAAGTGGATAGACATTGAGCAATCTCTCTTACATGGCAAAAGTATTTTATTTATAAACGGTCAATTATCAGCTTTAGAACTAGATACACAAGCGGCGCCAAAAAGGAGTATTGAAGAACCTACAACAGAGACTTCCATAAAAAGCTCACACGAAGGATTTAATGAAGTGGCAAGTGATAGTATCGCACTTATTCGTCGCTATATTCCAAATCGCGAATTAAAAGTGAAGGAATTCACTGTTGGCGAACGAGCAACCTCTAAAGTTTTTTTACTTTATCTTGCAGATGTTGCAAACGAAGATGTTGTACAAGATATGGCATGCCGCATCGAATCAATCAAAGTAGATGCTATTCTTACTACCGGTGAATTAGAAGGATTTGTTGAAGATAATTCCTATACTCTCTTCCCACAATTGTCTATCACTGAACGTCCTGACACAACGGCACATCATATTTTGAATGGGCGAATCGCTGTTGTTGTAGATCGCTCACCAGGCGTATTAATAGGACCTATGACCTTTTCATCCTTTTTTCAGACGATAGATGATTACAGCTTCAGACCTATGATTCCATCTTTTATACGACTTCTTCGTTTCACTGGGCTATTTATTGCAATATTTGCTCCTGCTCTTTATATTGCTATGATTTCCTTCCATTATGAAGTAATTCCGCTCAAATTGTTGTTAACGATTGGAGAATCTCGAGCCAAAATTCCTTTCCCCCCCCATATTAGAAGCTTTATTAATGGAATTAGTTCTCGAAATGCTCCGAGAAGCAGCGATTCGGCTTCCTGGGCCTGTTGGACAAACAATCGGCGTCGTAGGAGGAATTGTAATTGGACAAGCTGCGGTTCAAGCTGGGATTGTTAG	MGSFRKWIRGEKSFFTHEQSETVLHKETSSSMPLNLKHLSKLFSGIPELITRTFPLKNGKEAALIYMEGLVDKTVINVDILRPLLFKEWNEDDFWKSSVSIGNIKKVQKWIDIEQSLLHGKSILFINGQLSALELDTQAAPKRSIEEPTTETSIKSSHEGFNEVASDSIALIRRYIPNRELKVKEFTVGERATSKVFLLYLADVANEDVVQDMACRIESIKVDAILTTGELEGFVEDNSYTLFPQLSITERPDTTAHHILNGRIAVVVDRSPGVLIGPMTFSSFFQTIDDYSFRPMIPSFIRLLRFTGLFIAIFAPALYIAMISFHYEVIPLKLLLTIGESRAKIPFPPHIRSFINGISSRNAPRSSDSASWACWTNNRRRRRNCNWTSCGSSWDC	PGPT0014780_115	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_03547	288			hypothetical protein	ATGATTTTCCATGGGAAACGTACAAGGGTATCTTTTAAGTCCGAAGCATATGACGGAGAAAAAGGACTACCATATGGCACACCAAGTGATTCCATAGAAAGAATATGGATGATAATGATTGCCATTCCAACCATAATTCCAATGACGCCAAATAAAGAGGCTGCTATCATCATTGGGAATCGAAGAAGCCGAATTCCTGCTGACATTTCTAAGTTAGGAATAATGAAAGAGGCAACCGCAGTAATTGATACGACGATAACCATAACGTTACTAACAATCCCAGCTTGA	MIFHGKRTRVSFKSEAYDGEKGLPYGTPSDSIERIWMIMIAIPTIIPMTPNKEAAIIIGNRRSRIPADISKLGIMKEATAVIDTTITITLLTIPA				NA	NA	NA	NA	NA
AK009_03548	1098	yndE_4		Spore germination protein YndE	GTGACAAAACGTGCAAAGAGGGAAATCACTTTATTTCAATACATTTTAACTATTAGTGGTGTTCAAGTCGGATTTGGCGTACTTACACTCCCGCGTGAAGTTGCACAAGGGGCGAATACAGATGGCTGGATGTCTATTATTATCGGATGTGTCATTACTACTTTAGTCAGTCTATGTATTGTAAAAATTATGGAAAAACATCCAGGATATACTTTACTTGATGTGCTGATACGCTATCTTGGAAAATGGCTAGGAAGAGTAGTAATGATTTTTTGGATTTTATATGCTGTACTCGCAGCTGTTTCCTTAATTTTTTCCCTCTTATACGTTATTCATATTTGGATTTTACCTAGATCTCCTATGTCTTTAATTATGATTTTGCTATCTATTCCAATGCTTATGCTTGCATGTAAAGGAGCACTTATTATTAGTCGTTTTGCTGTTTTCACTGTCATCTTTACACTTTGGATGCCATTATTATTATTTATTCCTCTTAAAGATGGGCATTTTATATATCTACTTCCTCTTATCAAGGAAGGATGGCTACCAATTATAAACACCGTGAAATCAACTATCATTGCGTTTCTCGGATTCGAGTTTTCGTTTGTCCTTTATCCTTATTTAACTAACAAAGCATCTGCAAAAAAAGGAATCGTTATTGCGAATTTGATTACGTTATTTATTTATCTTCAAATCACGTTCGTTTCTTTTATTTATTTTAGTCCAGATGGTATAACAAAGTTTTTATGGCCGACACTTTCTCTTGTTACACCGTTTCACTTCTCATTTCTTGAGCGATTTGAAATTATCTTTTTGTCATTTTATCTCTTTATTATTTTTGATTCCTGTATTCCTTATATTTTCACTGCTTCAGATGGAATTAATCAATTACTTAACAAAAAAGGCAGTTCATTACCTATTTATTTTTTATTATTCGGCTGTATTTTCATCTTATTCTTTTATATCCCTTCTTCTTATCAGATAAGTGCGTTGCGGGAATTTTGGGGAACTGCTAGTTATTTTATCGTTTTTCTATTCCCAGTGGTATTTCTCTTATACATGACACTTTATCAGCATTGGAAAAGGAGAAAAATTTAA	MTKRAKREITLFQYILTISGVQVGFGVLTLPREVAQGANTDGWMSIIIGCVITTLVSLCIVKIMEKHPGYTLLDVLIRYLGKWLGRVVMIFWILYAVLAAVSLIFSLLYVIHIWILPRSPMSLIMILLSIPMLMLACKGALIISRFAVFTVIFTLWMPLLLFIPLKDGHFIYLLPLIKEGWLPIINTVKSTIIAFLGFEFSFVLYPYLTNKASAKKGIVIANLITLFIYLQITFVSFIYFSPDGITKFLWPTLSLVTPFHFSFLERFEIIFLSFYLFIIFDSCIPYIFTASDGINQLLNKKGSSLPIYFLLFGCIFILFFYIPSSYQISALREFWGTASYFIVFLFPVVFLLYMTLYQHWKRRKI				NA	NA	NA	NA	NA
AK009_03549	1137			hypothetical protein	ATGAGACGTTGTATTCATTTTATTATATTTTGTTTCCTCATAATTTTTTTAGTAGGCTGTGAAGATCGGCTTGATTTAGAAAAACAATCCATCTCATTAATTTACGGTTTTGACGCAAAACCAAAAGGAAAATTAATTGTGTATCACGTAAACCCTATTTTTAATGAAGATGTAGAGAAAAAGTACGAAATTCATGAAGCGAAAGTACATACACCCCGAGAAGCAAAAGATACGTTTAACAGTTCAAGCAGCGGTTTAGTGTCCACAGAAAAGTTACAGCTCATATTGTTTAGCACAAATTTTTTAAAACAAGAAGGAGCTATGCCTTATCTGGATGTTTGGTATCGCGATCCTAAAAATACAGGAAATATGCGCATGGTTGCAGTAGATGGCCCCATTTCTTCTGTTATATATAATAATTTCAAAGATAAGCCTGCTCTTCCTGAATATTTAACAGATTTAATTAATACGAACAAACTATACAATCGGACCGTGTTTACGACATTCCATGAATTTCATAGACAAACTTTTAATAAAGGCGTAACTCCTGCTATTTCAGAAATAAAAAAAGGGAAGAAAGATGTTATTGTTACCGGTTCGGCACTATTAACTTCTCGTGGAACTTATAAGATGTCTTTAAATCGCTATGAAAGTGCCCTTCTTCTTATGGTGCAAAAGAAAGCTAATATACCCGTTTCACTTACAATGAAAATCCCCTCTAATTTAGTTGAAAGTAATAGCCATCTAAAAGATACAAAAGGCGACGATTTCATAACAATAAACGTTCTTAGTATGAATCATGATATCGATACAGACTATAGCGATAACCGCTTCAAATTTAATATTAAAATGGATTTAAAAATTGCCGTATCTGAACTTACATTCAACATGGATATAGATAAAGATAGAAAGAAATTAACTTCTCTTATTACAAAACAACTAAACAAAGATTTAAACGAATTAATCTACAAAATTCAAAAACAGCAACTCGATCCATTCGGATTTGGTGATTATGCGAGAGCATTTCACTATAAAGAATGGAAACAAGTTGAAGATGATTGGCCACGTGCCTTTTCAAAAGCTAATGTGAAAGTAGCACCAACTATTAAAATTTTAGAAAATGGGATTATTAAATAG	MRRCIHFIIFCFLIIFLVGCEDRLDLEKQSISLIYGFDAKPKGKLIVYHVNPIFNEDVEKKYEIHEAKVHTPREAKDTFNSSSSGLVSTEKLQLILFSTNFLKQEGAMPYLDVWYRDPKNTGNMRMVAVDGPISSVIYNNFKDKPALPEYLTDLINTNKLYNRTVFTTFHEFHRQTFNKGVTPAISEIKKGKKDVIVTGSALLTSRGTYKMSLNRYESALLLMVQKKANIPVSLTMKIPSNLVESNSHLKDTKGDDFITINVLSMNHDIDTDYSDNRFKFNIKMDLKIAVSELTFNMDIDKDRKKLTSLITKQLNKDLNELIYKIQKQQLDPFGFGDYARAFHYKEWKQVEDDWPRAFSKANVKVAPTIKILENGIIK				NA	NA	NA	NA	NA
AK009_03550	135			hypothetical protein	ATGCCGTTTTTAGGAAGTGTATATCAAATATTTGGATTATATCCAGAAATTTATTATGGAATGATTTCAGCTGAACTTGCGGAGCAGCAAAGGTTGGAACAAGCGGAAAACGAAGAACCAGAAACAGAAGCGTAA	MPFLGSVYQIFGLYPEIYYGMISAELAEQQRLEQAENEEPETEA				NA	NA	NA	NA	NA
AK009_03551	3363			hypothetical protein	ATGACATTACAAGTTCCAACGATATTAATTGGATTAGGTGGAATCGGTAGTACTGTGACGCATCAAATATATGAAAAACTGCCTGAAGAGCGCCGAAAAAAGGTAGCGATGCACGTATTTGATACAGATGTGAATACATTGAGTAAATTTGATCATATTCGAAAGTTTAAGACACAAACGAGTTCAAGTAAAACGCCTAGAGAGTATATTGCAGGAGATCCAACGATTCCAGAGTGGTTTCCAATGGATCCAACTATACTTGATAAACCATTAACAGAAGGAGCAGGACAGTTACGCGTCATTTCACGTTTAGCGTTACGTGCTGCGATGAAAGAAGATAAATTGACGTCCTTTTGGCAAGAAATTGAGAAGATTTTTCCGGTTACAAGTGATCAAACGGAATATGGTGTGCGAGTTATTATTGTAACATCACTAGCAGGTGGAACAGGTTCGGGGATGTTTCTGCAAATTGCATTATATTTACGTGAAATGCTTCGGAAAAAACTGCAGCATCATAACATTTTAATACGCGGTGCATTTTTAATGCCTGATGTGTTAGTGAAGACGAGAACGGTTAGTGCGAAAGAATTTGAAACGGTGCAAGCAAATGGTTATGCGTCTTTAAAAGAATTGCATGCCATTACGCTCGGTTCAACTGGAGAATTATCAAAACGCGGTGGTGTAACGATTGAATTAGAATACCGTCCGGATCAAGTAGATGAGGATGGAAGAACGAATCATACGATTAAACAACATCATTTACCGTACAATTATTGTTTCTTATATGATTACGAAAACTTACATGGACACCATTTACACAATTTATCGGATTATATGGAGCAGATGGCAAATACGATTTATTTACAGTTATTTAGTCCGATGTCCACAAGTCATTTTGCACAGGAAGATAATCAAATTCAGCAATTGGCAGAATCAAGCGGGAAAGGACGATATTGCGGGGCAGGAACAGCAAAGCTCATTTATCCATATGAACATGTGTTAAAATATTGTGCTTTAAAATGGGCTGTGCAAGGTTTAGACGAATCGTGGCTTCATTTGGATCAACTCTTTCAAGAAAAGAAGCAAAGGTACGACCAAGATGTAAAACGTGGGATGCAGCGTGAAAAGCCGGAGAGAGGTAAAAGTTATTTAGAGGACTTGGAACATCTTGCTACCCGTCCAGAGCAAGCTCATATTTTCTATAGACAAATGTACAATGAAACGCGTGAAGGAGCAGAGGGTGGTAAGCTCGGAGTTGCGAAATCAAAACTGTTTTTAGAAGCTGTAGAAAGTTATGTACAACGCACGGTGCAAAAAGATGAGGAATTAAATCGTCTGCAACATGAGTGTAAAATTTCAGCTGCGAAGCTGAAAATGATGGAACAAATGAAAGGTGAAGTGGCAAGAGTGGATCATGCGGTGCGTTTATATGCGTATGCGATTCCGAGCCGTGTACATGAACATGTAACGACACTTTTATATGACATGATTGAATCAGACCGCTTTTCACCAAGTGGTTCTGAAGGGCAGTCCTATCAATTAAATACATGGTTTTTAAAGAAAACAGATCCAGTTCACCCAGTAGCAGCACGTTTTATGTTATATGAAATTCGAAAGCAGTTAGTAGAAAAAATGAATCGACTACATGAAAATAATGAACAAAAGCGTAATGTAATTCAAAACTACGATAAAAAATTTAATGTGGGTAATATCGATGGAACGGTAACGGCTGTACGCCGAGTAGAAATTGCTCAACAACAAGGCTGGTTTGGAAAAATGATTAATAATCAGCAACGTTTATTCAAAAGAGAATTTGAAGACATCGTAACGCAATATGTACACAAATTAAATGAATATCGAAAAGAAATGCTATTAGAACTTGTGTATCAATCGCTATATCAAACAGTTAATAAAATGATTCAATATTGGGAAAGGTTTTTTGATAATTTACATGAAACACGTGAAAATTTATTGTTTGAAATCCAAAAGCGCAGTAAGGAATTTGAAGGGAAAACAAACCCGACGAATGTATATGTATTAGCTGAGGAACAGCTGCAAGAAAAGATATGGCAAGATATGCAGCAACATTTAAATTTAGGTGTACTACCGAAAGATATATCAGCGGAAATTTATATGAGTTTGTACGGGGAATATTGTCGTGATGCGAAAACAGAAGAGATTCAGTCGAAAAAGGTAGAGGATTTCTACCGAGAACATATACTGAGCTATTGTTATGACGAACTGCAAGTACGCTATCGTGATAAATTAGAATTGAATATTATTGAAGCATTGCGAAAAGAAGCAGATTATAAGAAACGTGATCGCAATGAATACGTGCGTGAAAAAATTGAAGACCTGTTCCATTTAGCAAGTCCGTTCATTCCGAAAGTTGCTCATCATAGGGAATTACAATATTGGGGTATACATCCTTCTTTAAAGAAAGAGCTGCAAGAGGAATTAATTCAAGAAATGTTTAAAGAAAAAGATACAGTACATGAAGCCTTTTCGCCATTTGAAGTGATCTGTTATCGAGCACATTACGGCTTATCGCTGCAAGACTTTCCTAAATTATCATCAGGACATATTTCAAACGGATTTATGAATGATAAAGGTGACTATTTCCAATCGTATTATCGCCGTGTAAACAAATTAAATAGTAAAAAATCTAGTTTAACGCCGCATTTAGATAAGTATTGGCACTTACCAGCCTTTATGCCAGATTTAAACGCGACTCAAACAAAATTAGATTATGATAAATGTAATCGTGCATTACTATACGCATATATGTATCGCTGGATTAGTTTAGTTGCTGTTGATGGACAGTTTGTGTATCAATATAACGGTGTGGGACGTAGCTTTTTAATTCAGTCGATGGGGAAAAATATTTCAAGCGAAAGTTATAAATTACACAGAGCATTGCTTCATAATCCGTTTATTTATGAAAACATCTTGTCACGATTTGAAGAAGAGCAAGAAAAGGCGATGATACAAGGTGGACATTTATATACACATCCGTTCGTATTAGGAGCCCAAGATGTAAGATGGCTTAGAAAAGAACATGTCCACAATCTTTTAGACATGATTTTAATGTATGACCGTGAAGCGAAGTATGATCCGACGTTAGAAGAAACATCAGATGAATTATTAAGACTATTCCTTGATGAAATCGAGTTGTATTTCCAGAACTATTACGGTACAGGTGCCGATATGGTGGCAAAGAAAGAGAAAGAAATGTTTATTAAACAATTGTGGGATCGCTCGCATGCAAAAGGATATGTAGATCCAAATAGCGCTCCGTATAAAAAATGGCAAAATTTATTAAGTGTTCAAGATGAAGAAGAAACGCCAAAAACGAATGTATAA	MTLQVPTILIGLGGIGSTVTHQIYEKLPEERRKKVAMHVFDTDVNTLSKFDHIRKFKTQTSSSKTPREYIAGDPTIPEWFPMDPTILDKPLTEGAGQLRVISRLALRAAMKEDKLTSFWQEIEKIFPVTSDQTEYGVRVIIVTSLAGGTGSGMFLQIALYLREMLRKKLQHHNILIRGAFLMPDVLVKTRTVSAKEFETVQANGYASLKELHAITLGSTGELSKRGGVTIELEYRPDQVDEDGRTNHTIKQHHLPYNYCFLYDYENLHGHHLHNLSDYMEQMANTIYLQLFSPMSTSHFAQEDNQIQQLAESSGKGRYCGAGTAKLIYPYEHVLKYCALKWAVQGLDESWLHLDQLFQEKKQRYDQDVKRGMQREKPERGKSYLEDLEHLATRPEQAHIFYRQMYNETREGAEGGKLGVAKSKLFLEAVESYVQRTVQKDEELNRLQHECKISAAKLKMMEQMKGEVARVDHAVRLYAYAIPSRVHEHVTTLLYDMIESDRFSPSGSEGQSYQLNTWFLKKTDPVHPVAARFMLYEIRKQLVEKMNRLHENNEQKRNVIQNYDKKFNVGNIDGTVTAVRRVEIAQQQGWFGKMINNQQRLFKREFEDIVTQYVHKLNEYRKEMLLELVYQSLYQTVNKMIQYWERFFDNLHETRENLLFEIQKRSKEFEGKTNPTNVYVLAEEQLQEKIWQDMQQHLNLGVLPKDISAEIYMSLYGEYCRDAKTEEIQSKKVEDFYREHILSYCYDELQVRYRDKLELNIIEALRKEADYKKRDRNEYVREKIEDLFHLASPFIPKVAHHRELQYWGIHPSLKKELQEELIQEMFKEKDTVHEAFSPFEVICYRAHYGLSLQDFPKLSSGHISNGFMNDKGDYFQSYYRRVNKLNSKKSSLTPHLDKYWHLPAFMPDLNATQTKLDYDKCNRALLYAYMYRWISLVAVDGQFVYQYNGVGRSFLIQSMGKNISSESYKLHRALLHNPFIYENILSRFEEEQEKAMIQGGHLYTHPFVLGAQDVRWLRKEHVHNLLDMILMYDREAKYDPTLEETSDELLRLFLDEIELYFQNYYGTGADMVAKKEKEMFIKQLWDRSHAKGYVDPNSAPYKKWQNLLSVQDEEETPKTNV				NA	NA	NA	NA	NA
AK009_03552	2100			hypothetical protein	ATGAAAATTCGAATTTGTGCCACATTCATGTTGTTTCTATTTATATGGTTACATCCTTATTGGACTTTTGCAAAAGGAGAGGAGGCAAAGGAAAGGGTCGTTTCACTTGTATATGATGATTCGGGCAGCATGAGAAATAACGATCGCTGGAAATATGCCAATTACGCTTTGCAAAGTTTAGTTGCGCTATTAGATGAAAAAGATACATTTTCTTATGTTCCAATGAGCAAGCCGAATAATCCGTTAAACATTTCGTTAACGAAGGATAAAAGGCAAACAGAAATTGAAGGAATTGGAGCGTGGAAAACGTATTTAAATACTCCTTTTAGCGCAGTAGAGACGGCGATGCAATCTATAAAAAAGGAAGCAGATATAGATGGAAAACGTGAATTTTGGCTTATTGTATTAACTGACGGGGCATTTAATGATCTAGAAAAAGATAAAGTTGGCGGAAAAGAACAAATTACAAAGAAACTAACAGACTTTAAGAAAGAAATGGATGTAAAAAAGATATCTCTACATCCTATCTTAATTACGATGGAAGAGGATTTAGGGCAGCAAGAAAAAGAACAATTAAATACGTTTAAAGAAATATGGAAGAAAGAGATAAACGGAGTTACGATGCCGTCAAGCGGAGAGGATGGCATTGTAAAAAGTGTAAATCAAGTGGCAGCATTAGTTGCGAATCGTGATCCATTCTCCTCCGTTGAATCGATTGTAAAAACGAAAGTAGTAGGAAAGAAAGTAGAGATTACAACGCCGTTCCCATTAAAGCGTATGACGCTTGTACGACAATCGCCTTCGCTGTCTAATTATCAGGTCACACAAATTTCGAAACCATTACAGTTACAGTCTTCTTTTTCCATACATGCACCCGGAGAAGCGAAATTATTCGGAAATATAGTTCATATAAGCACGGAAAATCAGGAAGTCATTAAACCAGGAACATATACGATAGAAGTGGATCGGGATATTGAGAAAGAAGGATTGCAAGTACTTGTTGAACCAGCGCTTAACTATACGGTTTCTACTTATGACAAAGATGATAATAGTCAAAAAAATGTTGAACAAATGTACGAAGGTGTTACTGCTGTTATTGAAGCAAAGCCTACTGAGTTACCAATTCAGTCTTCTTACTTTCAAGCAGAAGTAGAAATAGACGGAAAACAATATCCGATGAAGTGGAACGATAAGAGGCATGTGTTTTATTACGAAACGAAGATTGGTAAAGGGTTAGTACGTGGAAAAGTTCATATGAATATAAAGGGATTTTACAGACAGACGAAAGAATTCAAAATTGAAACAACAGAAAAGCCAAAATTATCACTTCAAACTGTTACGAAAGATTATGAAGAAAAAGTAACGAATTTAGAGAATAGTAAACCGTTTATTTTACAACCAAAGTTAGATGGTAAGCCGATGACAGAAGGGGCTGTAAAGAAACTATTAAAATCTACTGGTGTCACATCTAAACAATCAATCAACTATGAAATAAAACAACGTGGTAATCAAATTTACGTTTATCCTCGTCCTTATTACTCCGACACATTCAATTTCACAGATACTGGCACCGTAGAAGCTACCATCGTTATACAAGATGCGAAATTACAAGAAGTAAAGAAGCAAATATCACTCCATATTCAAAGTGCGCCGTTTTATGAAAAGTATGCGCTTATTTTTAAGTTTGTCATTCCTATCACTTTATTGCTGCTAGTAGTAGGCATAATCGTTTTAGGATGGATTGTTCGTCCAAGATTTCACCGGAAAGCGCTATTGTATTACGAATGGGATCAAGAAGTAGCGAAAGATTGGTTATATCAATCTGAACCAGAATTACTTCGAAATAAATGGTGGAAACATTATTTTGGTATCCCATTTCGAGCAGAAAGAAAAACTGTGCAATCCGTTACGTTTATAGCCAAGAAAGGTTCGAAATCTGTCTTTGTAGCGAAAGAGTCACAAGTAGTAGGAATGATTATTGATGGGATGTTTATAACAGAGGAAGAAGTAGGAATGGAGCATAAGACACTATATCCAAATGAACTTTTATTAATTGATAGAGGATATGGTAAGGAGATTTACAAATATGAATGTGAATAG	MKIRICATFMLFLFIWLHPYWTFAKGEEAKERVVSLVYDDSGSMRNNDRWKYANYALQSLVALLDEKDTFSYVPMSKPNNPLNISLTKDKRQTEIEGIGAWKTYLNTPFSAVETAMQSIKKEADIDGKREFWLIVLTDGAFNDLEKDKVGGKEQITKKLTDFKKEMDVKKISLHPILITMEEDLGQQEKEQLNTFKEIWKKEINGVTMPSSGEDGIVKSVNQVAALVANRDPFSSVESIVKTKVVGKKVEITTPFPLKRMTLVRQSPSLSNYQVTQISKPLQLQSSFSIHAPGEAKLFGNIVHISTENQEVIKPGTYTIEVDRDIEKEGLQVLVEPALNYTVSTYDKDDNSQKNVEQMYEGVTAVIEAKPTELPIQSSYFQAEVEIDGKQYPMKWNDKRHVFYYETKIGKGLVRGKVHMNIKGFYRQTKEFKIETTEKPKLSLQTVTKDYEEKVTNLENSKPFILQPKLDGKPMTEGAVKKLLKSTGVTSKQSINYEIKQRGNQIYVYPRPYYSDTFNFTDTGTVEATIVIQDAKLQEVKKQISLHIQSAPFYEKYALIFKFVIPITLLLLVVGIIVLGWIVRPRFHRKALLYYEWDQEVAKDWLYQSEPELLRNKWWKHYFGIPFRAERKTVQSVTFIAKKGSKSVFVAKESQVVGMIIDGMFITEEEVGMEHKTLYPNELLLIDRGYGKEIYKYECE				NA	NA	NA	NA	NA
AK009_03553	339			hypothetical protein	TTGGGAATTAAACATCTTAATTTAACAGTTACAGATGTAACAGCATCTAGAGAGTTTTTAGAGAGGTATTTTGGTTTAATTTGTAGTGGAACAAGGGGGAATGCCTTTGCAGTTATGCGTGATAATGATGGATTTATACTAACTTTAATGAAGGGAAAAGAAGTTCAGTATCCAAAAACATTTCATGTAGGATTTCCACAAGGAAGTGAAGAACAAGTAGATAAGATAAATCAAAGATTGAAGAAAGATGGATTTTTGGTGGAGCCTCCTAAGCATGCCCATGCATATACATTTTACGTTGAAGCACCTGGTGGATTTACAATTGAAGTAATGTGCTAA	MGIKHLNLTVTDVTASREFLERYFGLICSGTRGNAFAVMRDNDGFILTLMKGKEVQYPKTFHVGFPQGSEEQVDKINQRLKKDGFLVEPPKHAHAYTFYVEAPGGFTIEVMC	PGPT0013300_6269	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
AK009_03554	336			hypothetical protein	ATGAAATCTACAGATCAGTTTCAAACATACGAAGTACCGTGGAAAGAATTTATAGAAGCATTGCGAGATGAAATGAAGAAACAAGTAGGAGCGGATATTATTGATACAGTAGTTTGCAATTTAGAGGATGGATTTGAAGTGTATACATATATACAGGGGGATTTAGAGTTTGAATATAAAGAAGCGCTTGAAAGAAAATACGGAAGTGATGCTAAGACTCCTAATTTGTTAACAATTATGCTATTAGCCAGCATTTATAATACGAGTGAAGCGAATATACGCTTACATGCAGATAACAAAGATAATCCAATTGTTGAAGTATATGTGAAGCAATGA	MKSTDQFQTYEVPWKEFIEALRDEMKKQVGADIIDTVVCNLEDGFEVYTYIQGDLEFEYKEALERKYGSDAKTPNLLTIMLLASIYNTSEANIRLHADNKDNPIVEVYVKQ				NA	NA	NA	NA	NA
AK009_03555	393			hypothetical protein	ATGCATAGACAAAGATGTTATGATACGTGCCGACGTTATTTCGGTAAAGTTGTTCGAATTGAAGATCGCGATGGTCGCATTCATTTAGGCAAAATAATCGATGTGACAAATGAATCTGTATGGATCGAACCAATGCAACAGCGCTCATCTTTTGATACAGGATTCGGATACTATGACGCATATGCAAACGGTGGTTGTGATCTTTGCGGCGGCATTAGCAGGTGTGATAGTTGCGGATTTGGTTGCAGTGGTGGATTCAGTAGCTGTGGATGTGGCGGTCGTGGTTGCGGTAATTGTGGTGGCGGCGGCTGTGGTGGCGGTTGTGGCTGGGGCGTTGAACTTGGATTTGGTTTCATCTTCGGAATTACTTTAGCTGCATTATTTTTCATTTAA	MHRQRCYDTCRRYFGKVVRIEDRDGRIHLGKIIDVTNESVWIEPMQQRSSFDTGFGYYDAYANGGCDLCGGISRCDSCGFGCSGGFSSCGCGGRGCGNCGGGGCGGGCGWGVELGFGFIFGITLAALFFI				NA	NA	NA	NA	NA
AK009_03556	720			27-O-demethylrifamycin SV methyltransferase	ATGGAACGAAATACTTACATCGATTTCTTAGCTTATTACGGAATAGGAAGTGCTCATCCTGGTGGTTTTACGTTAACAAAACAATTGCTAGCACAACTGCCTCTTAGACAAGGAGCGGATGTCCTTGAGATAGGTTGTGGTACGGGGAAAACAGCGGCTTACATGACAAAAGAATTCGGTTATAAAGTAACAGCGGTTGAAAAGAATGAAATTATGATTCAAAAAGCGAAAGATAGATGGTTGTTTGAAAGATTGAATGTACAATTGATTCAAGGTGATGCAGAGCGATTACCTTGTTTAAATGATTCATTTGAGTTTGTGCTTGGGGAATCGATACTCGCTTTTACAGATAAAGAAAGGGTTATATCAGAGTGCTATCGTGTATTACAGAAGGATGGTAAGCTTGTTGTCATTGAAATGATTATTAATACACATATTGAGAAGAGTGAGGAAGAAAAAATTGCCCAATTATATGGCATGAAAGAATTATTAACTGAGAATGAGTGGGTACAACTATTTCAGAAAGCAAATTTCAAAAGAATTACAATTGCTGGCGGTGGTACAATTGCAGAAACGATATCTAGCTATATAGAAGAGCCGGAATGGAATGTATCAACATATATTCCGAATGAGTTATATGAGGCATGGGTACAGCATGAAAATGTACGGCTTATGTACCAACATATTTTAGGGCATCGTATTTTTATATGTGAAAAATAA	MERNTYIDFLAYYGIGSAHPGGFTLTKQLLAQLPLRQGADVLEIGCGTGKTAAYMTKEFGYKVTAVEKNEIMIQKAKDRWLFERLNVQLIQGDAERLPCLNDSFEFVLGESILAFTDKERVISECYRVLQKDGKLVVIEMIINTHIEKSEEEKIAQLYGMKELLTENEWVQLFQKANFKRITIAGGGTIAETISSYIEEPEWNVSTYIPNELYEAWVQHENVRLMYQHILGHRIFICEK				NA	NA	NA	NA	NA
AK009_03557	1695	dppE_4	COG4166	Dipeptide-binding protein DppE	ATGAAGAGAAAAAAGATGAAAAAATTAACAGCGGTAGTAGCACCAGTTTTAGTAATGAGTATGGCATTAACAGCTTGCTCTGGATCTGGGGAAAAAGATAAAGCAAGCACAACACCAAAAAGCAGTGAAAAAGAAGGCGGAAAGCTAGCGGCGAAGCAAGTGCTTAATTTAACAGAGTCTCAAGAGATTCCATCTATGGACTCTGCTAAAGCGACAGACCAAGTATCGTTTCTCGCTTTAAACAACGTAATGGAAGGTTTGTATAGACTTGATAAAGATAATAAAGCAACACCAGGGGTTGCTGAATCATATAAAAAGAGTGATGACGGTAAAAAATATACATTTAAATTGAATAAAAATGCAAAATGGTCAAATGGAGAGCCTGTAACAGCAAAAGATTTCGTATTCTCTTGGAAACGTGCGGTAGATAAAAATACAGCAGCGGAATATGCATACATTATGTTTGATTTAAAAAATGCACAAGCGATTAATGAAGGAAAAGCTGAGCTAGATACGTTAGGAGTAAAAGCTGTAGATGACTATACGTTAGAAGTAGAATTAGAAAATCCAGTTCCTTACTTTGTAGAATTAACTTCATTTGGAACATTTTATCCATTAAACGAGAAGTTTGTAAAAGAAAAAGGAGAAAAGTACGGTTTAGAAGCAGATACAACGTTATACAACGGACCATTTACATTAACAGACTGGAAACATGAAGAAGGTTGGAAGTTAAAGAAAAATGCACAATACTGGGATAATAAAACAGTTAAGTTGGAAGAAATTAACTTTAATGTGGTAAAAGATAGCGGTACACGTGTCAATTTATATGAAAGTGGACAAATTGATCGCTCAGGACTTACATCTGAATTTGTTGACAAATATAAATCAAGCCCCGATTTCTTTACACAAAAAACACCGTCAACGTACTTCTTACGCTTAAACCAAAAACGTGGTGGGCAAGATACAGTGCTAAAGAGCAAAGATTTACGTTTAGCGATTGCAAAAGCGTATGATAAAAAAGGCTTAACGAATGTAATTTTAAATGATGGTTCTACACCTGCAGATTACTTAGTACCAAAAGAATTTGCTAAGAGCCCAGATGGAAAAGACTTCCGTAAAGAAAATGGAGATATTTTAAAAACAGATGTGAAAAAGGCAAAAGAGCATTGGGAAAAAGCGAAAAAAGAACTTGGAAAAGATGCAATTACAGTAGAACTATTAAACTATGATGGTGATGGTGCGAAAAAAGTAGGAGAGTTCTTAAAAGGAGAACTTGAGAAAAACTTACCAGGCTTAACAGTGAATTTGAAAAACCAGCCATTTAAACAAAAGTTAAAATTAGAATCAGATCTAGATTATGATTTATCTTACGCTGGTTGGGGCCCTGACTACTTAGATCCAATGACGTTCATTGATATGTTCGTTACAAATGGGCCTCATAACCAAACAGGATATTCAAATCCTAAATATGATGAAATTGTAGAAAAAGGTAAAGGTGAGCTATTAACGAAAACGAAAGAGCGTTGGGATAGCTTACTGAAAGCTGAGAAAATGTTACTTGAAGATGCAGCAATTGCACCATTATATCAACGTGGTGATGCAATTGTTCAAAGAGCAAAAGTAAAAGGAATTGTTCACCACCCAGTTGGTGGAGATTACAGCTACAAATGGGCATATATCGGTGAGGAAAAATAA	MKRKKMKKLTAVVAPVLVMSMALTACSGSGEKDKASTTPKSSEKEGGKLAAKQVLNLTESQEIPSMDSAKATDQVSFLALNNVMEGLYRLDKDNKATPGVAESYKKSDDGKKYTFKLNKNAKWSNGEPVTAKDFVFSWKRAVDKNTAAEYAYIMFDLKNAQAINEGKAELDTLGVKAVDDYTLEVELENPVPYFVELTSFGTFYPLNEKFVKEKGEKYGLEADTTLYNGPFTLTDWKHEEGWKLKKNAQYWDNKTVKLEEINFNVVKDSGTRVNLYESGQIDRSGLTSEFVDKYKSSPDFFTQKTPSTYFLRLNQKRGGQDTVLKSKDLRLAIAKAYDKKGLTNVILNDGSTPADYLVPKEFAKSPDGKDFRKENGDILKTDVKKAKEHWEKAKKELGKDAITVELLNYDGDGAKKVGEFLKGELEKNLPGLTVNLKNQPFKQKLKLESDLDYDLSYAGWGPDYLDPMTFIDMFVTNGPHNQTGYSNPKYDEIVEKGKGELLTKTKERWDSLLKAEKMLLEDAAIAPLYQRGDAIVQRAKVKGIVHHPVGGDYSYKWAYIGEEK	PGPT0021015_888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_03558	1548	dppE_5	COG4166	Dipeptide-binding protein DppE	ATGGATACTTCTAAATCTACTGATACATTAGGTGCGCAAATTTTAGGGAACACGATGGAAGGCCTATATCGCCTTGATAAAGATAATAAGCCAATTCCTGCTGCGGCAGAGTCTAGTACGAAAAGCGAGGATGGCAAAAAATATACATTTAAACTACGTAAAGATGCAAAATGGTCAAACGGTGATCCTGTAACAGCGAAAGATTTCGTATATGGATGGCAACGCTTACTTGATAAAAATACAGCGGCAGAATATGCGTTTATCGCTTTCTATATTAAAAATGCAGAAGCAATTAATAAAGGTGAAAAACCTCTAACAGATTTAGGAGCAAAAGCGGTAGATGATTATACACTAGAAGTAGAATTAGAAAAGCCAGTACCGTATTTCTTGAATTTAATGGCATTCCCATCGTACTATCCTTTAAATGAAAAGTTCGTAAAAGAAAAAGGAGATAAGTTCGGTTTAGAAGCAGATACAACGTTGTATAACGGACCGTTCGTTATGTCTTCATGGAAACATGAACAAGGTTGGCAGCTAAAGAAAAATGATAAGTACTGGGATAAAAAGACTGTGAAATTAGAAGAAATTAACTATAGTGTAGTAAAAGAGGTTGCAACGAAAGTAAACTTATATGATACAGGATCAATTGATTTTACATTACTATCAGGAGAGTTTGTAGATAAATATAAATCGAATAAAGATGAGTACGGTGAGTATGCGGAATCAAGTACATTCTTCTTACGTTTAAATCAAAAACGTAACGGACAAGATACGCCTTTAAAGAGCAAAAAACTTCGTGAAGCAATTGCATTATCAGTTGATAAAAAAGGCTTAGCGAACGTTATTTTAAATAACGGTTCAAAAGCAACAGATCAATTAGTACCAAAAGGGCTTGCGACAGGTCCTTTTGGTAAAGATTACCAAGGTGCATTTAAAAATGGTCTAAAATATGATCCGAAAAAAGGTGCAGCAGCTTGGGAAGCAGCGGAAAAAGAACTTGTAAAAGATCAAGTTACAATTGAATTGCTAAGCTATGATGATGGAACTGCGAAAAAGATTGCTGACTATGTAAAAGATCAAATTGAGAAAAATTTAAAAGGTGTAACAATTAATACAAAAATTCAGCCGTTCAAACAAAAATTAAAATTAGAAACTGCGCAAGATTATGAAATTTCTTATGCAGGTTGGAGTCCAGACTATGCGGATCCAATGACATTTATTGATATGTTTGAATCGAAGAGCCCGTACAACCAAATGAGTTATTCAAATCCAAAATACGATGAAATGGTAGGAAAAGCAGGTAGTGAATTAATGAGTGATGCGAAAAAACGCTGGGAAACGTTAGGGAAAGCTGAGAAATTATTCCTTGAAGAAGATGCAGGGTTAGTTCCTTTATATCAAACAGGAAGATCGTACGTAATGAAACCGAATGTAAAAGGAATTGTGAAACATAACATCAGTTCAGAATATAGCTTTAAGTGGGCGTATGTAACTGAGGATGGCGGAAAAAATAAAGTGAAATGCTTTTTAGTATGTATAAGGGAATAA	MDTSKSTDTLGAQILGNTMEGLYRLDKDNKPIPAAAESSTKSEDGKKYTFKLRKDAKWSNGDPVTAKDFVYGWQRLLDKNTAAEYAFIAFYIKNAEAINKGEKPLTDLGAKAVDDYTLEVELEKPVPYFLNLMAFPSYYPLNEKFVKEKGDKFGLEADTTLYNGPFVMSSWKHEQGWQLKKNDKYWDKKTVKLEEINYSVVKEVATKVNLYDTGSIDFTLLSGEFVDKYKSNKDEYGEYAESSTFFLRLNQKRNGQDTPLKSKKLREAIALSVDKKGLANVILNNGSKATDQLVPKGLATGPFGKDYQGAFKNGLKYDPKKGAAAWEAAEKELVKDQVTIELLSYDDGTAKKIADYVKDQIEKNLKGVTINTKIQPFKQKLKLETAQDYEISYAGWSPDYADPMTFIDMFESKSPYNQMSYSNPKYDEMVGKAGSELMSDAKKRWETLGKAEKLFLEEDAGLVPLYQTGRSYVMKPNVKGIVKHNISSEYSFKWAYVTEDGGKNKVKCFLVCIRE	PGPT0021015_5266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_03559	156			hypothetical protein	ATGAAAAAGTTAACGGCAGTTGTAATACCAGTTTTAGCGATGAGTGTTGCATTGACAGCATGTTCTGGATCAGGTGGGGAAAAGAAAACGACTACTACATCAAATAGTGGGGAAGAAAAAAATCTGATATTAAATATGCAGCGAAACAAGTATTAA	MKKLTAVVIPVLAMSVALTACSGSGGEKKTTTTSNSGEEKNLILNMQRNKY	PGPT0021015_712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_03560	1704	dppE_6	COG4166	Dipeptide-binding protein DppE	ATGAAAAAGAAACAAATGAAAAAACTAACAGCAGTTGTAGCACCGGTTTTAGCAATGAGCATGGCGTTAACAGCATGTTCTACATCAGGTGGAGATAAGAAGACAAGCACAAATTCTAGCTCTGGTGGAGATAGTAAGTCAGGGGAAAAATTAGCAACGAAACAAGTGCTGAATCGAACAGTAACACAAGAAATTCCAACTATGGATTCTTCTAAATCAACTGATACAGTATCTTCACAAATGCTTGGTAATACGATGGAGGGTTTATATCGTCTTGATAAAGACAATAAGCCGATTCCAGCAGCGGCAGAATCTAGTACGAAAAGTGAAGATGGTAAAAAATATACGTTCAAACTACGTAAAGATGCAAAATGGTCAAATGGAGATCCAGTAACTGCAAAGGATTTCGTATATGCTTGGCAACGTCTGTTAGATCCAAAAACGGCTGCTGAGTATGCATTTATTGCATTCCCGATTAAAAATGCAGAAGTAGTAAATAAAGGAGAAAAACCTGTAACTGAATTAGGTGTGAAGGCGGTAGATGATCTTACACTTGAAGTTGAGTTAGAGCAAGCGGTACCGTACTTCTTAAATTTAGTAGCATTCCCATCATATTATCCATTAAACGAAAAGTTCGTTAAAGAAAAGGGCGAGAAGTTCGGTTTAGAGGCTGATACAACTGTCTATAACGGACCGTTCGTTCTTAAAGATTGGAAGCATGAACAAGGATGGCAATTAAAGAAAAATGATCAATATTGGGATAAAAAGACTGTAAAACTTGAAGAAGTTAACTTTAGTGTTGTTAAAGAGGCTGCAACTTTAGTCAATCTATATGATAGCGGTCAAGTTGACTTTGCTTTATTAAATGGAGAGTTCGTTGATAAATATAGAAGCAAGAAAGATGAATTTGGCACATATTCACAAGTGAGTACGTATTTCATTCGTATGAACCAAAAACGTGATGGACAAGACACTCCATTAAAGAGCAAAAAATTACGTGAAGCAATTGCGCTATCAATTGATAAAAAGAATTTAGCAAATGTAATTTTAAATGATGGATCAAAAGAAGCTGACTTCTTAGTACCAAAAGGATTAGCAACGGGACCAGACGGTAAAGATTTCCAAGAAACATTTAAAAACGGTTTGAAACCAAATTCTAAAAAAGCTGCTGCAGCTTGGGAAGAAGCGAAAAAAGAACTTGGAAAAGATCAAGTTACAATCGAATTCTTAAACTACGATACTGGTAATGCGAAAAAAGTTGGCGAATATATTAAAGATCAGATTGAGAAAAACTTAAAAGGTGTAACAGTTAATATTAAACTTCAACCATTTAAGCAAAAACTAAAATTAGAAACTGAACAACAATATGATATTTCGTATGGCGGATGGAATCCGGATTATGCAGATCCAATGACGTTCTTAGATATGTTTGAGACTGGACATTCACATAACCAAATGAGCTTCTCTGACCCTAAATATGACGGCATGGTGAAAAAAGCTGGGACGGAATTAATGAGTGATGCGAAAAAACGTTGGGAAGAGTTAGGAAAAGCTGAAAAAACATTACTTGAAGAAGATGTAGCGATTGTACCTTTATACCAACGTGGAGATTCTTATGTTTTACAACCAAATGTAAAAGGTGTAGTAAAACACAATATCAGTCCAGAATTCAGCTTTAAGTGGGCATATGTAACTGAAAAATAA	MKKKQMKKLTAVVAPVLAMSMALTACSTSGGDKKTSTNSSSGGDSKSGEKLATKQVLNRTVTQEIPTMDSSKSTDTVSSQMLGNTMEGLYRLDKDNKPIPAAAESSTKSEDGKKYTFKLRKDAKWSNGDPVTAKDFVYAWQRLLDPKTAAEYAFIAFPIKNAEVVNKGEKPVTELGVKAVDDLTLEVELEQAVPYFLNLVAFPSYYPLNEKFVKEKGEKFGLEADTTVYNGPFVLKDWKHEQGWQLKKNDQYWDKKTVKLEEVNFSVVKEAATLVNLYDSGQVDFALLNGEFVDKYRSKKDEFGTYSQVSTYFIRMNQKRDGQDTPLKSKKLREAIALSIDKKNLANVILNDGSKEADFLVPKGLATGPDGKDFQETFKNGLKPNSKKAAAAWEEAKKELGKDQVTIEFLNYDTGNAKKVGEYIKDQIEKNLKGVTVNIKLQPFKQKLKLETEQQYDISYGGWNPDYADPMTFLDMFETGHSHNQMSFSDPKYDGMVKKAGTELMSDAKKRWEELGKAEKTLLEEDVAIVPLYQRGDSYVLQPNVKGVVKHNISPEFSFKWAYVTEK	PGPT0021015_799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_03561	1263	dctA	COG1301	C4-dicarboxylate transport protein	ATGAGAATTGCAAAGAATTTAACATTCCAAGTTATTGTGGCCATTATTTGTGGTATTGCAGTAGGGGCAATTTGGCCGAGTGTTGGACAACAAATGAAGCCAATTGGTGAAACATTCATCAATATGATTAAAATGGTTATTGCACCGATTATCTTTTTAACAATTGTGCTTGGTATTGCAAGTATGGGAAGTATGAAAAAGGTAGGCCGTGTTGGTGGGAAGGCACTATTATATTTTGAAATTGTTACAACAGCGGCTTTAATTATTGGTATCATCGTAGCGAATGTTGTGCGTCCCGGAGACGGATTAGATCCCTCAAAACTAAAGGGCGGAGATGTTTCGCAATATGTACAAAGCGGACAAGAAATGAAATGGATGGATTTCTTTTTACATATCGTGCCGTCTAACATGTTTGAAGCATTCGCCAAAGGTGATATTTTACAAGTTCTGTTCTTCTCCATTTTATTCGGCGCAGGGTTAACGATGTTAGGGAAAAATGGACAACCGGTTATTGACTTTTTTGAAAGATTATCGAAAGTATTTTTTAACATTTTATCAATTGTAATGAAATTAGCACCGGTTGGAGCATTCGGTGGGATGGCATTTACAATTGGGAAGTATGGTTTAAGCACGCTCATACCACTTGGCAAATTAATGATTTGTGTATATGCGGCAATGGCATTATTTGTTTTTATTGTTTTAAATTTTATTTGTAAACTGTACAAATTTAGTTTGTGGAAATATTTAGCTCACATTAAAGAAGAATTACTCATTGTTCTCGGGACATCGTCATCAGAATCAGTACTGCCGCGAATGATGACAAAGATGGAAGACTTGGGATGTTCGAAGCCAGTAGTAGGTTTAGTCATTCCGACAGGATACTCATTTAATTTAGATGGAACGACAATTTATTTATCGATGGCTACTATATTTTTAGCTCAAGTCTTTCATGTCGATCTTTCACTAGGTCAACAATTAACTATAATAGCTATTTTATTAGTTACATCTAAAGGTGCAGCAGCAGTAACAGGTGGAGGCTTTATTGTATTAGCATCTACGTTATCTGCGATGAATGTTATTCCATTAGAAGGGTTAGCACTATTGCTTGGTGTAGATCGTTTCATGTCAGAAGCACGTGCTATCGTTAATTTAATTGGTAACGGTATTGCAACTGTAGTTGTTGCAAAAAGTGAAAATGAATTTGATGATGAGAAGTATACGAAAGTAATAGAGGAAATGAAAAGAGAAAAAATAGCCGGGTAA	MRIAKNLTFQVIVAIICGIAVGAIWPSVGQQMKPIGETFINMIKMVIAPIIFLTIVLGIASMGSMKKVGRVGGKALLYFEIVTTAALIIGIIVANVVRPGDGLDPSKLKGGDVSQYVQSGQEMKWMDFFLHIVPSNMFEAFAKGDILQVLFFSILFGAGLTMLGKNGQPVIDFFERLSKVFFNILSIVMKLAPVGAFGGMAFTIGKYGLSTLIPLGKLMICVYAAMALFVFIVLNFICKLYKFSLWKYLAHIKEELLIVLGTSSSESVLPRMMTKMEDLGCSKPVVGLVIPTGYSFNLDGTTIYLSMATIFLAQVFHVDLSLGQQLTIIAILLVTSKGAAAVTGGGFIVLASTLSAMNVIPLEGLALLLGVDRFMSEARAIVNLIGNGIATVVVAKSENEFDDEKYTKVIEEMKREKIAG	PGPT0001450_2432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
AK009_03562	1038	tagT	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagT	ATGGGGAATCATTCATCTTTAAGAGAAGAGAAAAATAAGCAAAAATATAAAAAGAAAACGATAATAAGTTTACTACTAGCGGTATTGCTATTTGGTGGAATTGGCTATGGAGCCTATGTATATATGAAAACTTCTAGTCTCGTACAAAAATCTAATTTGAATTTAGCACGAGGTGAAAAATCCAATTTACGTGAGAAATCTGTAAAGCCAATTGCAAATCATGTTTCACTTTTAATTATGGGAATTGATGAAAATCAAGAACGACAAAAGGAGTATAATGGTGCATTTCATACAGATGCATTATTGTTAGCGACTTTTAATAAAGACGATAAAACAGTGAAATTAACGAGCATACCGCGTGATACATATACATACGTTCCAGTTGAAAAGAAAAAAGATAAAATAACCCATGCATATGGAAGTGGTTTCGTTAAAAATGGTAAAGATGGAGGACCGCAAGCTTCTGTGGAAGCGGTAGAAAAATTGTTACAAGTGCCCGTTGATTATTTTGTGAAATTTAATTTTGGTTCCTTTACTAAAATTGTTGATGGGTTAGATGGTATTGAAGTAGATGTCCCAGTTGAATTTACGGAGCAAAATAGTAAAGATGAACCTGATGCGATTCATTTGAAAAAAGGATTGCAAAAATTAAATGGGGAAGAAGCACTTGCACTAGCAAGAACGCGCCATATTGATAGTGATGCGATGAGAGGGCAGAGGCAACAACTTGTTATTGAATCGATTTTAAGTAAATTAAAAAGTGTAGGATCGATTACGAAGCTAGAAAAAATAGTTGAGGCAGTTGACGACGATTTTAAAACAAACTTAGTAATGGATGATATTTTATCTTTTTATAAATACGGTTTAAACGGTTCAGTTGAAAAAATACAACTAGCTGGTGATGATTTATATTTACCTAATGGTCCAAATGGGCAACGTGTATATTATTATAATCCTAATAAAAAAGATTTGCAGAGTTTGAGTAATACTCTTAGAACACATCTAGGGTTAAGTGAAAAGCAAATTGAGGAGAATTAA	MGNHSSLREEKNKQKYKKKTIISLLLAVLLFGGIGYGAYVYMKTSSLVQKSNLNLARGEKSNLREKSVKPIANHVSLLIMGIDENQERQKEYNGAFHTDALLLATFNKDDKTVKLTSIPRDTYTYVPVEKKKDKITHAYGSGFVKNGKDGGPQASVEAVEKLLQVPVDYFVKFNFGSFTKIVDGLDGIEVDVPVEFTEQNSKDEPDAIHLKKGLQKLNGEEALALARTRHIDSDAMRGQRQQLVIESILSKLKSVGSITKLEKIVEAVDDDFKTNLVMDDILSFYKYGLNGSVEKIQLAGDDLYLPNGPNGQRVYYYNPNKKDLQSLSNTLRTHLGLSEKQIEEN	PGPT0023440_2145	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
AK009_03563	987			hypothetical protein	GTGGATAGTGAAAAATTATTTGATGAGAAATTAAAAAAGAGAATAAAAAATGAAAATGTTATAGTATCTCCAGAGTTAAATGAGAAGATTAATGGTACACTACATAATCTTCAGGTAAAAAAGAAGAGTTACAAAATCCATATGATGATAATTAGTGCAGCGGTTTGTATACTTTCAGTGGTATCTATGTCTGAGTTTTCTATACAAAGTTTTGCGCAAAACGGTGGAGTATTTGAATATGTAAAGAAAAAAGCGTTTTCTGATTATGAAAATGAAGAAGAAATAAAATCAAATGTACATTATCCAGATAAAGAAAAGATTCATCAAAAGATGCTAGATTCTATTGATTATTTTAAAAATAGTTCAGGACAATTTGAGGAATATTCTAGCTCATCAAGAATTGCTACAACATATAAGTATGCAATTGATACGGAAAAACAAAGAGGTATCTCTTCGAAAGAAGATAAACTAGCGAAAAAACGAACAATTATATATAACGAGGGCAAGAAAAAAGAGTTTGATGATGAGAAGTATACCTATAAAGAGACAAAATGGAACCCGAAAGAAAGAAACAATGAATTATTAAAGTTAAATCCTACGGAAAGGTTATTGAGAAAATCAGGTGAAAAAAAGCGATATGATGATGAATATGTAGGACTAGCGAAATATAGTATTCAATCAGAATTCGCAGATTTGTTAATTCGATATAAAGATTGGAATTATAAAGAAACGAAATATCTTGGATTAGATTGTTACAAAATTGAAGGAGTCATCAATATAGAGATGCCTGTTAGCACCTCTGAAGATTTAAGAGGGAAATTCGAAATGGTTGTGGAGAAAAATACAGGGATTATGTTGAAATTTCTTAGTTTTCAAGAAGGCTTGATTCAATATTCACTTACGACAGAATGGATACAAATAGATAAGGGATTGAAAGAAAGTATGTTTCAAAAGGATAGCGCTAAATATGAAAAACATATTGGATGA	MDSEKLFDEKLKKRIKNENVIVSPELNEKINGTLHNLQVKKKSYKIHMMIISAAVCILSVVSMSEFSIQSFAQNGGVFEYVKKKAFSDYENEEEIKSNVHYPDKEKIHQKMLDSIDYFKNSSGQFEEYSSSSRIATTYKYAIDTEKQRGISSKEDKLAKKRTIIYNEGKKKEFDDEKYTYKETKWNPKERNNELLKLNPTERLLRKSGEKKRYDDEYVGLAKYSIQSEFADLLIRYKDWNYKETKYLGLDCYKIEGVINIEMPVSTSEDLRGKFEMVVEKNTGIMLKFLSFQEGLIQYSLTTEWIQIDKGLKESMFQKDSAKYEKHIG				NA	NA	NA	NA	NA
AK009_03564	534	sigW	COG1595	ECF RNA polymerase sigma factor SigW	GTGAAAGTAATCCCTTTATATAAAATGATTATAAAAGAAGAAACCGATGTTTCTTTAGCGAAAAAAGGCGATCATGAAGCCTTTATAACGCTTATACATACAGAAAAAGTGAAGATGTATCGAATAGCAAAGGCGATGTTACGTGATGAGACAAATATAGAGGACGCGATACAGACAACAATTTTAAAAGCTTATGAAAATATAAAAAAACTAAAAAAAGAAGAGTTTTTTCAAACTTGGTTAATTCGAATTTTAATGAATGAGTGTAACAATATTATTAGAGCGTATAAAAATGTAATTGTGACAGAAGAGAATGATTACAATATGAGTGCGTGTGATCAGTATGAAGATATAGATTTGTATAATGCGATTCAATCGTTACATGAAGAATTAAGAGCTGTTACGGTGCTTTATTACTATGAAGATATGAATCAAGATAGTATTGCGAAGCTGTTAGAAATACCGAAAGGAACAGTGAAATCAAGATTATCGCGTGCGAGGGAACAACTACAAAAACGATTAAAGATGGAATAG	MKVIPLYKMIIKEETDVSLAKKGDHEAFITLIHTEKVKMYRIAKAMLRDETNIEDAIQTTILKAYENIKKLKKEEFFQTWLIRILMNECNNIIRAYKNVIVTEENDYNMSACDQYEDIDLYNAIQSLHEELRAVTVLYYYEDMNQDSIAKLLEIPKGTVKSRLSRAREQLQKRLKME	PGPT0014960_10482	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_03565	807			hypothetical protein	ATGAATAAGCAATTATTTTTAGCTAGTTTGAAAGAAACACAAAAAAATATTTTGAGTTATGCGTTTGGTGCGGCTTTATATTTGTGGTTATTAATTTGGATATTCCCGTCAATGGTATCAGCGAAAGGGCTAAATGAACTAATAGCTGCCATGCCTGATAGTGTGAAAAAAATCGTTGGTATGGAAAGTCCGATTCAAAACGTAATGGATTTTTTAGCTGGTGAATACTATAGTCTATTGTTTATTATCATTTTAACAATTTTTTGTGTAACAGTTGCAACACATTTAATTGCTCGTCATGTAGATAAAGGAGCAATGGCATACTTGTTAGCAACACCTGTATCTAGAGTGGAAATTGCTATTACACAAGCTGCTGTTCTCATATTGGGACTTCTGATTATTGTATCTGTTACGTATGTAGCTGGGTTAGTAGGTGCAGAATGGTTTTTACAAGATAATAACTTAAATAAAGAATTATTTTTGAAGATAAATGTAGTCGGAGGGCTCATATTTTTAGTCGTTAGTGCGTATTCATTTTTCTTTTCTTGTATATGTAATGACGAAAGAAAGGCACTAAGTTATTCAGCGAGTTTAACTATCTTATTTTTCGTATTGGATATGGTAGGTAAATTAAGTGATAAGTTAGAGTGGATGAGAAGTCTATCATTATTCACGCTGTTTCATCCGAAAGAAATTGCTGAAGGAACGTATAATATATGGCCGGTAAGTATAGGTTTAACTGCTGGAGCACTTTGTATTTTCATAGTAGCAATTGTAGTTTTTAAGAAGAGGGATTTACCGTTGTAA	MNKQLFLASLKETQKNILSYAFGAALYLWLLIWIFPSMVSAKGLNELIAAMPDSVKKIVGMESPIQNVMDFLAGEYYSLLFIIILTIFCVTVATHLIARHVDKGAMAYLLATPVSRVEIAITQAAVLILGLLIIVSVTYVAGLVGAEWFLQDNNLNKELFLKINVVGGLIFLVVSAYSFFFSCICNDERKALSYSASLTILFFVLDMVGKLSDKLEWMRSLSLFTLFHPKEIAEGTYNIWPVSIGLTAGALCIFIVAIVVFKKRDLPL				NA	NA	NA	NA	NA
AK009_03566	894		COG1131	Multidrug efflux system ATP-binding protein	ATGATTTCAGTTCAGGATGTCACAAAACAGTTTTCGAATGGAAAAGGTTTGTTTCATATTACATTTGATGTAAAAGAGGGAGAAGTATTCGGTTATTTAGGACCGAATGGTGCCGGGAAATCAACGACGATTCGTAATTTAATGGGATTTATAAAACCGACAGCTGGTAAAGCGACAATTTTTGGATTAGATTGTTGGAATGAAGCAGCGAAAATTCAAAGGGAAGTTGGTTATCTACCGGGTGAAATTTCTTTTATTGAAGGAATGAACGGATTAGAGTTTTTAAAATTAATGCAAGGAATGCGTGGATTAAAGGATACGAAAAGACGAGATGAACTGATAGATCGTCTGCAATTTGATGTGAAAACACCGATTCGCAAAATGTCTAAAGGAATGAAGCAAAAAGTGGGGATAGTTGCTGCATTTATGCACGATCCAGAGGTGTTAATTTTAGATGAACCAACATCTGGACTTGATCCACTTATGCAGCAAGTATTTATAGAATTAATATTAGAGGAAAAGCAAAGAGGAAAAACAATCCTAATGTCATCACATATTTTCACTGAAATTGAGCGTACGTGTGATCGAGTAGCGATTATTAAAGATGGTCGACTCGTAACGGTTGAAAATATTCACGATTTACAAAGTATGAGACGACAGGTAATAGATGTAACCGTATCATCGCAAGAAGAGATTGAATCTCTTACAAAGTGTAATTTGCAATTTGAAGTGGTAAAAGGTAGAGAGGCATCTATCATTGTACAAGGAAACTATCAAACTGTTTTACAAACAATTTCAAACTATAATGTAACGGCACTTCAAACGAGAGCGATGGATTTAGAACATTTATTTATGCATTATTACGATAAGAAAGAAGGGGTAACGCATGAATAA	MISVQDVTKQFSNGKGLFHITFDVKEGEVFGYLGPNGAGKSTTIRNLMGFIKPTAGKATIFGLDCWNEAAKIQREVGYLPGEISFIEGMNGLEFLKLMQGMRGLKDTKRRDELIDRLQFDVKTPIRKMSKGMKQKVGIVAAFMHDPEVLILDEPTSGLDPLMQQVFIELILEEKQRGKTILMSSHIFTEIERTCDRVAIIKDGRLVTVENIHDLQSMRRQVIDVTVSSQEEIESLTKCNLQFEVVKGREASIIVQGNYQTVLQTISNYNVTALQTRAMDLEHLFMHYYDKKEGVTHE	PGPT0006725_7858	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_03567	594			hypothetical protein	TTGAACGGATTTGAAAGAGTAAAAGAAAAGAAAAAACGTGCCATTAAAGAAGCAGCATTCGTATTATTTTCAGAACGTGGATTTAATGAAGTGAAAATAGAACATATCGCAAAAGAAGCGAACGTTTCTCAAGTTACAATTTATAATCATTTCGGAAGTAAAGATGCGTTATTTAGGGAGCTTATACAAGAATTTATCATATCTGAATTTCAATATTATAAAGAGCTTGCAGAAGAAAAATTACCTTTTCATGATATGATGCAAAAAATGATTGTAAGAAAAATGAATACTGGCGGGTTATTTCAACCTGATATGTTACTACAAATGATGCAAAGGGACGAAGAACTCCGGAAGTTTATTTATAGTTATCAAAATGAAAAAATCCTGCCCTGGTATTTAGAAATATTAGAACGAGCGCAGCGCAAAAACGAAATTAATCCTCACCTTACTAAAGAAATGATGTTACTTTACATTCAAATGTTTACAAAATTAGGTGATGAATTTGGAGCACAACTTCTTGAAGGAGATCGTGAAAAACATATACAAGATATCGTTACGATGTTCTTTTATGGACTCTCCGTCCCAGAAAAATAA	MNGFERVKEKKKRAIKEAAFVLFSERGFNEVKIEHIAKEANVSQVTIYNHFGSKDALFRELIQEFIISEFQYYKELAEEKLPFHDMMQKMIVRKMNTGGLFQPDMLLQMMQRDEELRKFIYSYQNEKILPWYLEILERAQRKNEINPHLTKEMMLLYIQMFTKLGDEFGAQLLEGDREKHIQDIVTMFFYGLSVPEK				NA	NA	NA	NA	NA
AK009_03568	945			hypothetical protein	ATGAAAAAAACGGAACGAATAAATGATATGCTTATTTTCTTAAATAATAAAAGATATTTTAATTTAAAAGATTTAATGGTTAGATATGATATTTCTAAAAGTACCGCTTTGCGAGATATTCAATCATTGGAAGAAATAGGTGTACCCATATATTCTGAATTGGGTAGAAATGGAAGTTATAAAATTATAGAAAATAGTGTTTTATCACCAATTTATTTTAGTGTGGATGAAATGTATGCCTTATATTTTTCAATTCTTACGCTAAATGGATACAAGACAAAACCATTTAATGTAGAAAGTATTGCGCTTGAAAATAAATTTAAACATGTATTACCTGATAATGTGAGTAAAAATATTTCAATTATGGAACGAACGCTTTCCTTTGAAGTAACAAATCATAGTAATTTTAGTCCGTTCTTAAAAGAAATTTTACAGGGGATTTTTGCTGAGCGAGTTTATCATTTAACATATTTAAAAAAAGGTGAGGAGAAAGCATTGGTTGCCCAATTTATTCGAATAGAATCTAAATTTGGCCAGTGGTATGCTAAAATCTTTAATTTTGAGACGAATAATGTTCAAATAATTAGATGTGATAAAATTCTTTCTATTGTGGAAACGAGCAATATTAATCCAAAAAATCTTGAAGAATTATTAAGTTATCTTACTACTTTTCACAGAAAGCCTGATGCAATTAATTTTAGTGTCATTGTTAATCAAAAAGGAAAAGACATTTTTGATAAAGAGAATTACCCTTCCATGAGGATGCAAAAGGAAAATGAAAATTACATTATAACAGGCTATTTTAACAAGCAAGAATTTGATTTTATTTCAAATTATTTTCTGAATTTCGGTGAAACGATTATTTCAATTCAGCCTGTTATGCTAAAAGAGTTAATCTATAATAAGGTGTTATCTATAAAGAAGCATTTAACTTCTTTAAGATAA	MKKTERINDMLIFLNNKRYFNLKDLMVRYDISKSTALRDIQSLEEIGVPIYSELGRNGSYKIIENSVLSPIYFSVDEMYALYFSILTLNGYKTKPFNVESIALENKFKHVLPDNVSKNISIMERTLSFEVTNHSNFSPFLKEILQGIFAERVYHLTYLKKGEEKALVAQFIRIESKFGQWYAKIFNFETNNVQIIRCDKILSIVETSNINPKNLEELLSYLTTFHRKPDAINFSVIVNQKGKDIFDKENYPSMRMQKENENYIITGYFNKQEFDFISNYFLNFGETIISIQPVMLKELIYNKVLSIKKHLTSLR				NA	NA	NA	NA	NA
AK009_03569	444			hypothetical protein	ATGACATTAGAAATAGCTATTTTTCTTTCAATGAATGGGCAAGCAAAGGAGGCGATTAACTTTTATACACGTCATTTAGAAGCCAAAAAGTTAATGGTTGTTACGTATGAAGAACTGGCGAAAAGAGATAGTTCTTTTAAAATTAAAAGTGAAAATAAAGATCATATTGCTCACTCTGTTTTACAAATTGGGAATACAAAGCTAATGATAGCAGAAGATACAATGAAGCCTAATGAACGTTATAACGTTGGAAATAACATGTCACTTTGCATTCAAAGCGCTAATTTAGAAGAAATACAAAGGTTTTATAATAATTTAATTTCCGATAAGCATGTGAAAATAATCTCTCCCCTAGAAAAAAATATATTTAGTGAAGCATATGGTATTATTGAAGATCCTTATGGCATACAAATCCAATTAATGTATGATAAACGACTAAACTAA	MTLEIAIFLSMNGQAKEAINFYTRHLEAKKLMVVTYEELAKRDSSFKIKSENKDHIAHSVLQIGNTKLMIAEDTMKPNERYNVGNNMSLCIQSANLEEIQRFYNNLISDKHVKIISPLEKNIFSEAYGIIEDPYGIQIQLMYDKRLN	PGPT0030505_1241	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK009_03570	1032	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGAAAAAAATAGGTGTAGGGATTGTAGGATTTGGTTTTTCTAGTACGACATTTCATATCCCACTATTACAAACAATAGAAGAATATGATATTCGTGCTGTATTATCCTCAAAAGAAGAGGTAGTAAAAGAAACATTACCAAACGCTAATGTTGTTAGTACAATTGATGAATTGGTGAAGCGAGCTGATGTTGACTTAGTTGTTATTACATCACCTAATACAACTCATTTTCCATATGTAAAAGAAGCAATTTTAAACGGTAAGCATGTTGTTGTAGAAAAACCATTTGTTGTTTCAATTGAAGAAGGGGAAGAGCTTATTTCATTAGCAGAGCAGCATAATGTAATGTTAAGCGTATATCATAATCGTCGTTTTGATAATGATTTCTTAACAATTAAGAAATTGTTAGGAGAAAACAGAGTAGGGAATGTATACGCATATGAATCAAATTTTGATCGTTTCCGTCCACATGTGCGTGATCGATGGAGAGAAAAAAATCTACCAGGTTCCGGTATATTATACGATTTAGGATCGCATTTAATTGACCAAGCGTTATCAATATTTGGGAAACCAGATGCGATAAGTGCAGATGTAATAAAACAACGACCAGGTGCAGAGGTGGATGATTATTTCCACATAGTACTGCATTACGGAGCTAAACGTGTCATTTTACGTAGTAGCAGTTATGTGAAAAAAGCTGGACCGCATTTTATAGTGCATGGAGAGAAAGGTTCTATCGTGAAGTACGGTATGGATTCGCAGGAAGAGCAATTAAAAAATGGAATGAAGCCAGGTGATAATGGTTATGGAGTAGACGATGAAGAGAATTTTGCTACTTTAGAAACAGAAGAAAGCTTAGAGCGCATTCCAACAGAAGTCGGTTGTTATGATAATTATTATAAAGGTGTACGAGATAGTATATTAAATGGTGAGAAACTACCTGTAACAGCAAAAGAAGGCTTAGATGTTATTAAACTGATTCAATTAGCGATTGAAAGCAGTGAAAAGGGTAGAGTCATTTCTATAAAATAA	MKKIGVGIVGFGFSSTTFHIPLLQTIEEYDIRAVLSSKEEVVKETLPNANVVSTIDELVKRADVDLVVITSPNTTHFPYVKEAILNGKHVVVEKPFVVSIEEGEELISLAEQHNVMLSVYHNRRFDNDFLTIKKLLGENRVGNVYAYESNFDRFRPHVRDRWREKNLPGSGILYDLGSHLIDQALSIFGKPDAISADVIKQRPGAEVDDYFHIVLHYGAKRVILRSSSYVKKAGPHFIVHGEKGSIVKYGMDSQEEQLKNGMKPGDNGYGVDDEENFATLETEESLERIPTEVGCYDNYYKGVRDSILNGEKLPVTAKEGLDVIKLIQLAIESSEKGRVISIK	PGPT0018530_636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018530-iolW-K16044	NA	NA
AK009_03571	2424	parC		DNA topoisomerase 4 subunit A	ATGCAAGCAGAGAAGTTTCATGACCTCCCGCTTGAAGACGTGTTAGGTGACCGCTTTGCACGTTATAGTAAATATATTATTCAAGATCGTGCACTTCCAGATGCACGTGATGGCTTAAAGCCAGTACAAAGACGTATTTTATATTCTATGTATGTAGAAGGTAATGTACATGATAAAGCGTTTCGTAAATCAGCTAAAACAGTAGGTAATGTTATTGGTAATTATCATCCACATGGAGATTCCTCTGTATATGAAGCAATGGTTCGCTTAAGCCAAACTTGGAAAGTACGTAATGTTTTAGTTGAAATGCATGGTAATAACGGTAGTGTTGATGGGGACCCAGCGGCAGCGATGCGTTATACGGAAGCTCGTTTATCACCAATCGCATCTGAATTATTACGTGATCTTGATAAAGAAACAGTTGAATTCGTGTCAAACTTTGATGATACGAGTGAAGAACCGGTTGTATTACCAGCAGCGTTCCCGAATTTATTAGTAAACGGATCTACAGGAATTTCCGCTGGTTATGCAACAGAAATTCCTCCGCATCATCTTGGAGAAGTTATTGACGCTACAATGATGCGTATTGATAAGCCAAATAGTACTGTTGATGATTTATTAACAGTTATGAAAGGACCAGATTTCCCAACAGGCGGTATTATTCAAGGGATTGATGGTATTAAAAAGGCGTATGAAACAGGAAAAGGTAAAATTATTATTCGCGGAAAAGCAGAAATTGAAACAGTGCGCGGTGGGAAACAACAAATTGTAATCACTGAAATTCCTTACGAAGTGAATAAGGCAAACCTTGTAAAGAAAATGGATGAATTACGTCTAGATAAAAAGTTAGATGGCATTGCTGAAGTACGTGATGAGACGGATCGTACTGGTTTACGAATCGTTGTTGAATTAAAGAAAGAAGTAAACGCCGAAGGTATTTTAAATTATTTATATAAAAATACAGATTTACAAATTCCATATAACTTTAATATGGTAGCGATCAATAATCGCCGTCCAACACTTATGACATTACCGAAAATTTTGGATGCTTATATTGGACATCAAAAAGAGGTTATTACGAGACGTTCACAATATGAATTAAGAAAAGCAGAAAATCGTCAACATATTGTAGAAGGTTTAAAGAAGGCATTATCGATTTTAGACCAAGTAATCGAGACAATTCGAGCTTCAAAAGATAAACGTAATGCGAAAGATAATTTAAGTGCAAAATTTGGCTTTACAGAAGCACAAGCAGAAGCAATTGTATCCTTGCAATTATATCGCTTAACGAATACAGACATTACGGCGTTACAAGAAGAAGCAGATGAGCTTAATAAGAAAATTCTAGAGCTACAGTCAATTTTACAAAGTGAAAAAAGATTACTTCAAGTCATTAAAACTGATTTGAAGAGAGTTAAGAAAACATATAGTGATGATCGCCGTGCTATTATTGAAGAACAAATTGAAGAAATTAAAATAGACGTAGAAGTGATGATTCCACAAGAAGATGTCATCGTTACTGTAACGAAAGAAGGATATGTGAAACGTACTGGATGGCGCTCACATAATGCATCAAACGGCAAAGACTTCGGTATGAAAGAGGGTGACATCTTACTTGAACGATTCGATACGAATACGACTGAAACAGTTCTTTTATTCACAAGTAAAGGGAACTATATATATCTTCCAGTATACGAAATGCCAGATATTCGTTGGAAAGATTTAGGTCAGCACGTTGCAAATATCGTTTCACTCGACCGAGATGAAACGATCATTTGGGTAACGGTTGTACCGAACTTTGAGGAAGAAAAACGATTTATCGTATTTGTAACACGAAATGGTATGATAAAGAAAACAGAATTAAATCAATATAAAGTTCAGCGTTATTCAAGGGCATTCGTTGCTGTAAACTTGAAAAAAGGTGATGAAGTTGTCGATATATTTGCGACAGATGGAACGAGTGATATCGTTCTTGCTACACATGGTGCATATGCACTTATTTTCCATGAAGATGAAGTAAGTCCAGTCGGTGTAAGAGCTGCTGGTGTGAAAGCAATTAATTTAAAAGAAGATGACTATGTCGCTTCTGGTAAACCGTTAAATGGTGACAAAGATCAACTTATTCTCGTAACGCAGCGCGGTGCTGTAAAACGTCTAAAAGCATCAGAAATTGAGAAATCAACGAGGGCGAAACGAGGTCTTGTTATTTTCAAAGAGTTAAAACGTAATCCATACCGCATTGTCGGTATTGAAATTGTTCGGGACGATGAATTAGTTTATATGAAGACAGAAAAAAATATTGTAGAAGAGATTGATCCGAAAGCGTATCGAAATAAAGACCGGTATAGTAATGGTAGCCTAGTGCTAGATGTTAATGATACTGGTGAAGTAGTAGAAACGTGGACGAAAAAACGACCGGAGTAA	MQAEKFHDLPLEDVLGDRFARYSKYIIQDRALPDARDGLKPVQRRILYSMYVEGNVHDKAFRKSAKTVGNVIGNYHPHGDSSVYEAMVRLSQTWKVRNVLVEMHGNNGSVDGDPAAAMRYTEARLSPIASELLRDLDKETVEFVSNFDDTSEEPVVLPAAFPNLLVNGSTGISAGYATEIPPHHLGEVIDATMMRIDKPNSTVDDLLTVMKGPDFPTGGIIQGIDGIKKAYETGKGKIIIRGKAEIETVRGGKQQIVITEIPYEVNKANLVKKMDELRLDKKLDGIAEVRDETDRTGLRIVVELKKEVNAEGILNYLYKNTDLQIPYNFNMVAINNRRPTLMTLPKILDAYIGHQKEVITRRSQYELRKAENRQHIVEGLKKALSILDQVIETIRASKDKRNAKDNLSAKFGFTEAQAEAIVSLQLYRLTNTDITALQEEADELNKKILELQSILQSEKRLLQVIKTDLKRVKKTYSDDRRAIIEEQIEEIKIDVEVMIPQEDVIVTVTKEGYVKRTGWRSHNASNGKDFGMKEGDILLERFDTNTTETVLLFTSKGNYIYLPVYEMPDIRWKDLGQHVANIVSLDRDETIIWVTVVPNFEEEKRFIVFVTRNGMIKKTELNQYKVQRYSRAFVAVNLKKGDEVVDIFATDGTSDIVLATHGAYALIFHEDEVSPVGVRAAGVKAINLKEDDYVASGKPLNGDKDQLILVTQRGAVKRLKASEIEKSTRAKRGLVIFKELKRNPYRIVGIEIVRDDELVYMKTEKNIVEEIDPKAYRNKDRYSNGSLVLDVNDTGEVVETWTKKRPE	PGPT0027705_1110	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
AK009_03572	1965	parE_2	COG0187	DNA topoisomerase 4 subunit B	TTGGCGAAGCATCAGTTCCAATATAATGAAGATGCGATTCAAGTGTTAGAAGGACTTGAAGCCGTTCGAAAACGCCCGGGTATGTATATCGGGAGTACGGATAGCCGTGGATTGCATCATTTAGTATATGAAATAGTAGATAACTCCGTTGACGAGGCGTTAGCGGGATTTGGCGACGAAATTTCTGTCGTAATACATAAAGATAATAGTATTAGCGTTATAGATAAAGGGCGAGGAATGCCTACGGGAATGCATAAACTTGGGAAACCTACACCTGAAGTTATTTTAACTGTACTTCATGCAGGTGGTAAGTTTGGTCAAGGTGGCTATAAAACGAGTGGTGGTTTACACGGTGTTGGGGCATCAGTTGTAAACGCCTTGTCAGAATGGTTAGTAGTAACAATTAAACGTGATGGTAACATTTATGAACAACGCTTTGAAAATGGTGGCGTTCCTGCAACAACGTTAGAGAAAATCGGGAAAACAAAAGAGTCTGGTACAACAATGCATTTCAAACCAGATACAACGATTTTTAGTACGACAAATTACAATTATGAAACATTATGTGAGAGATTACGTGAATCTGCATTCTTATTAAAAGGAATGAAAATCTCAATAAAAGACGAACGTAATGATTTAGAAGATATATTTCATTATGAAACAGGAATTGAAGCTTTCGTTTCATATTTAAACGAAGAAAAAGATTCAATTCACCCGGTTGTATATTTCACTGGTGAACAAAACGGGATTGAAGCAGAACTAGCATTCCAGTTTAATGATGGTTACTCAGAAAATATTCTTTCGTTTGTAAATAACGTACGTACAAAAGATGGTGGAACACACGAAGCTGGATTTAAAACAGCAATGACGCGTGTGTTCAATGAGTATGCTCGTAAAGTTTCATTATTAAAAGAAAAAGATAAAAATTTAGAAGGTACAGATATTCGTGAAGGTGTAGCGGCTATCGTTTCTGTACGTGTACCAGAAGAAGTACTGCAGTTTGAAGGACAAACGAAAGGGAAACTTGGTACAAGTGAAGCTCGTTCTTCTATTGATGCCATTGTATCAGAGCATCTAGCTTACTTTTTAGAGGAAAACCCGGATGTAGCTACACTTCTTGTGAGAAAGGCAGTTAAAGCAGCGCAAGCACGTGAGGCTGCTCGTAAAGCGAGAGAAGAAGCACGTAGTGGTAAGAAAAAGAAAAAATCAGAAGGTACTTTAAGCGGGAAGTTAACACCTGCACAATCACGTAACCCTCAGAAAAACGAATTGTATTTAGTAGAGGGTGACTCGGCTGGCGGTTCAGCAAAGCAAGGGCGAGATCGTCGTTTTCAGGCGGTACTACCATTGCGTGGTAAAGTAATTAATACGGAGAAAGCAAAGCTTGCTGATATTTTTAAGAATGAAGAGATTAATACAATTATTTATGCAATTGGCGGCGGTGTAGGAAATGAATTCGCTGTTGAAGATATTAACTACGATAAAGTTGTTATTATGACCGATGCAGATACGGATGGAGCTCATATTCAAGTATTGTTATTAACGTTCTTCTACAGATATATGAAGCCACTTATCGAAGCCGGTAAAGTGTTTATCGCACTTCCTCCTTTATACAAGGTAAGTAAAGGGAAAGGTAAGAGTGAGGTAATTGAATACGCTTGGTCAGATGAGGAATTAGACGGTGTAACGAAAAAAGTTGGCAAAGGCTATATGTTACAACGTTATAAAGGACTTGGTGAAATGAATGCGGATCAATTATGGGAAACAACAATGAATCCTGAAACGCGTACATTAATTCGCGTGAAAATTGATGATGCAGCAAGAGCAGAGCGTCGCGTTACAACATTAATGGGCGATAAAGTAGAACCGCGCCGTAAATGGATTGAACGTAATGTACAGTTTGGTATGCAAGAAGAAGGAAATATTTTAGAAAATGAAATGATTATGGAGACGGAGGTGGAATAA	MAKHQFQYNEDAIQVLEGLEAVRKRPGMYIGSTDSRGLHHLVYEIVDNSVDEALAGFGDEISVVIHKDNSISVIDKGRGMPTGMHKLGKPTPEVILTVLHAGGKFGQGGYKTSGGLHGVGASVVNALSEWLVVTIKRDGNIYEQRFENGGVPATTLEKIGKTKESGTTMHFKPDTTIFSTTNYNYETLCERLRESAFLLKGMKISIKDERNDLEDIFHYETGIEAFVSYLNEEKDSIHPVVYFTGEQNGIEAELAFQFNDGYSENILSFVNNVRTKDGGTHEAGFKTAMTRVFNEYARKVSLLKEKDKNLEGTDIREGVAAIVSVRVPEEVLQFEGQTKGKLGTSEARSSIDAIVSEHLAYFLEENPDVATLLVRKAVKAAQAREAARKAREEARSGKKKKKSEGTLSGKLTPAQSRNPQKNELYLVEGDSAGGSAKQGRDRRFQAVLPLRGKVINTEKAKLADIFKNEEINTIIYAIGGGVGNEFAVEDINYDKVVIMTDADTDGAHIQVLLLTFFYRYMKPLIEAGKVFIALPPLYKVSKGKGKSEVIEYAWSDEELDGVTKKVGKGYMLQRYKGLGEMNADQLWETTMNPETRTLIRVKIDDAARAERRVTTLMGDKVEPRRKWIERNVQFGMQEEGNILENEMIMETEVE	PGPT0027710_1250	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
AK009_03573	414	yccU	COG1832	putative protein YccU	ATGACAATTGAAAACCCAACTCGTACGGAAATTGGTGAAGTGTTAAAGAAAAGCAAAACAATTGCGGTTGTTGGATTATCAGATAAGCCAGAACGTACATCGTATATGGTTTCAAAAGCAATGCAAGATGCTGGATACCGCATTATTCCAGTTAATCCAACAGTAAATGAGGTGCTTGGAGAAAAGGCAGTTTCTTCACTAAAGGATATTAAGGAACACGTTGACATTGTAAATGTATTTCGTCGCTCAGAGTTTTTAATGGATGTTGCAAAAGAATTTGTCGAGATTGATGCAGATGTTTTTTGGGCACAATTAGGAGTACAAGATGAAGATACATATAAACTTTTAAAAGAAAAAGACTATACTGTAATAATGGATCGTTGTATTAAAGTAGAACATGCGATGACAAAATAG	MTIENPTRTEIGEVLKKSKTIAVVGLSDKPERTSYMVSKAMQDAGYRIIPVNPTVNEVLGEKAVSSLKDIKEHVDIVNVFRRSEFLMDVAKEFVEIDADVFWAQLGVQDEDTYKLLKEKDYTVIMDRCIKVEHAMTK	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK009_03574	1242	htrB	COG0265	Serine protease Do-like HtrB	ATGGGATATTACGACGGACCAAATTTAAATGAAGAGCATAGTGAAACGAGAGAAGTGAGAAAATCAGGTAGTAAAAAAGGCTATTTCTTCACAGGTTTAGTGGGAGCTGTAGTCGGAGCGGTTTCGATTAGTTTTGCAGCACCATATATGCCATGGGCTCAAAATAATGGAGCACCAGTATCATCATTTAGTTCGGATTCAAAAGTAGAAGGTACTGTAGTTCCTGTTGTAAATAAAGCGAAAAATGAAACTGATTTACCTGGTATGATTGAAGGAGCGAAAGATGTTGTTGTAGGCGTTATTAATATGCAACAAAGCGTTGATCCATTTGCAATGCAACCGACAGGTCAAGAACAACAAGCTGGTTCAGGATCAGGTGTTATTTATAAAAAAGCAGGAAATAAAGCATATATTGTAACAAACAACCACGTAGTAGATGGAGCGAATAAACTTGCTGTAAAGCTAAGTGATGGTAAAAAGGTAGATGCAAAGTTAGTAGGGAAAGATCCTTGGTTAGACTTAGCTGTTGTTGAAATTGATGGGGCTAATGTAAATAAAGTTGCAACTTTAGGTGACTCAAGTAAACTTCGTGCGGGTGAAAAAGCGATTGCAATCGGTAACCCACTTGGATTTGACGGAAGTGTAACGGAAGGTATAATCAGTAGTAAAGAACGCGAAATCCCAGTTGATATTGATGGGGATAAACGCCCAGATTGGCAAGCACAAGTTATTCAAACAGATGCAGCGATTAATCCTGGTAACAGTGGTGGTGCATTATTTAACCAAAACGGTGAAATAATTGGGATTAATTCAAGTAAAATTGCACAACAAGAAGTTGAAGGAATTGGATTTGCTATTCCAATTAATATCGCAAAGCCAGTTATTGAATCACTTGAAAAAGACGGAGTAGTAAAACGTCCAGCTCTTGGAGTAGGTGTCGTTTCGTTAGAAGATGTGCAAGCTTATGCAGTCAATCAATTGAAAGTACCGAAAGAAGTAACTAATGGTGTTGTATTAGGTAAAATTTACCCAATATCACCGGCAGAAAAAGCTGGTTTAGAGCAATATGATATTGTCGTAGCATTAGATGATCAAAAAGTAGAAAATTCACTTCAATTCCGTAAATATTTATATGAAAAGAAAAAAGTAGGCGAGAAAGTAGAAGTCACATTCTACCGTAACGGTCAAAAAATGACGAAAACAGCTACTTTAGCAGATAATTCAGCTACAAAGAATCAATAA	MGYYDGPNLNEEHSETREVRKSGSKKGYFFTGLVGAVVGAVSISFAAPYMPWAQNNGAPVSSFSSDSKVEGTVVPVVNKAKNETDLPGMIEGAKDVVVGVINMQQSVDPFAMQPTGQEQQAGSGSGVIYKKAGNKAYIVTNNHVVDGANKLAVKLSDGKKVDAKLVGKDPWLDLAVVEIDGANVNKVATLGDSSKLRAGEKAIAIGNPLGFDGSVTEGIISSKEREIPVDIDGDKRPDWQAQVIQTDAAINPGNSGGALFNQNGEIIGINSSKIAQQEVEGIGFAIPINIAKPVIESLEKDGVVKRPALGVGVVSLEDVQAYAVNQLKVPKEVTNGVVLGKIYPISPAEKAGLEQYDIVVALDDQKVENSLQFRKYLYEKKKVGEKVEVTFYRNGQKMTKTATLADNSATKNQ	PGPT0015105_4997	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
AK009_03575	678	srrA_5	COG0745	Transcriptional regulatory protein SrrA	ATGAATAAAACAGTATTGCTTGTTGAAGACGAAAGAAGATTACGTGAAATTGTTAGTGATTATTTTCGTAATGAAGGCTTTGAAGTAATCGAAGCAGAAGATGGAAAGAAAGCGTTAGAGTTATTTGCAGAGCATGAAATTGATTTAATTATGTTAGATATTATGTTACCGGAAATAGATGGATGGTCTGTTTGTAGACGAATTAGAAAAGAATCAGCAGTACCAATTATTATGTTGACAGCACGTTCGGATGAGGATGATACATTGCTAGGTTTCGAATTAGGTGCAGACGAGTATGTAACGAAACCATTTAGTCCGAAAGTGTTAGTAGCTCGTGCAAAGACGTTATTGAAACGTGCGGATGGCGCGGTAGGAGTAGCGGAAGAAAATGCTATGTCTTTAGCTGGAATTGAAGTGAATCGTCTATCTAGAACTGTTTTAGTAGATGGAGAAGAAATTATATTGACACATAAAGAATTTGAACTTCTCGTTTATTTAATGGAGAACAAAGGAATCGTATTATCACGTCAACATTTATTAGACCAGTTATGGGGATATGACTATTACGGTGATGACCGAACGGTTGATACCCATATTAAAAAACTTCGAAATAAGTTAGGAGATAAAGCGAAGCATATCGGTACTGTTATTCGAGTTGGTTATAAATTTGAAGAATAA	MNKTVLLVEDERRLREIVSDYFRNEGFEVIEAEDGKKALELFAEHEIDLIMLDIMLPEIDGWSVCRRIRKESAVPIIMLTARSDEDDTLLGFELGADEYVTKPFSPKVLVARAKTLLKRADGAVGVAEENAMSLAGIEVNRLSRTVLVDGEEIILTHKEFELLVYLMENKGIVLSRQHLLDQLWGYDYYGDDRTVDTHIKKLRNKLGDKAKHIGTVIRVGYKFEE	PGPT0002665_1516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK009_03576	453	nrdG_1	COG0602	Anaerobic ribonucleoside-triphosphate reductase-activating protein	ATGAAAGTGATGAATATTATTCATGATAGTGTAGTAGATGGAGAAGGATTGCGGACAGTCGTGTTTTTTGCGGGCTGTCCGCATCGTTGTGTCGGTTGCCATAATCCGAAATCGTGGAATATTTGCAACGGAACGGAAATGACAGTAGAAGAAATTGTGAAAGAGATTGCAAGTAATCCATTAACTGATGTAACATTTTCAGGTGGAGATCCATTTTTTCAAGCTGCTGAAGTGAAAAAGGTAGCAAAAATCGTGAAAGATTTGAAAAAAAACCTATGGATGTATACAGGTTATACGTTAGAAGAGATACAGAGTTCCCAAAATAATGATATGATAGAGTTGTTACATTATGGGGATGTTTTAGTCGATGGAAGGTTTGAAATTGAGAAAAAAGATTTAACACTTCCATTTCGCGGAAGCTCCAATCAACGTATTATTCGATTGAAAGAGTAA	MKVMNIIHDSVVDGEGLRTVVFFAGCPHRCVGCHNPKSWNICNGTEMTVEEIVKEIASNPLTDVTFSGGDPFFQAAEVKKVAKIVKDLKKNLWMYTGYTLEEIQSSQNNDMIELLHYGDVLVDGRFEIEKKDLTLPFRGSSNQRIIRLKE				NA	NA	NA	NA	NA
AK009_03577	1857	nrdD_1	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGTTACAAAATAATACACGTGGAGAAGAATTAATGAAAGTGTTCGAGACGATAGTCCACGGCAATGAACAAGATTTAATGCAAGAAAATGCAAATGTAGACGGCCGCTCTCCAATGGGTGTAATGGGAACGTTCGCATCTGAGAGTGCAAAATATTATGCTGTTGAGAATTTATTGTCAGATCAAGTGAAAAAAGCGATAAATGAAAATATATTATATCCACATGATTTAGATTTTTATGCGACAGGAACGACGACTTGTTCGCAAATTCCGTTAGCGCAAATGCTTGCTAACGGTTTTCATACTGGACATGGACATATGAGACAACCACAAGACATTAAAAGTGCATTGGCTCTTTCGTCTATTATTTTTCAAGCGAATCAAAATATGCAGCATGGCGGTCAATCGTTTGCACTCTTTGATATTGATTTAGCACCTTATGTACGAAAAACAATTGAGAGACATAAAAAACGATTACAATCATATCCGCTTACGAAAGAACAAATAGAAGAATTTGCATGGAAAGAAACGGAAAATGATACGTATCAAGCGTGTGAGGCTTTCGTTCATAATTCGAATAGTATGCATAGTAGGGGCGGAGGACAAGTACCGTTTATTTCTATTAATTACGGAACAGATACATCAAAAGAAGGAAGAATGTTAATTAAACAACTATTAAAAGCAACACAAGCTGGACTTGGTAAAGGAGAGACACCAATTTTTCCGATTCAAATTTTCAAGATGAAAAAAGGTGTGAATTTTGAAGAAAGTGATCCGAATTACGATTTATTTGAATTAGCATTAGAGACAACTGCAGAGCGATTATTCCCTAACTTTTCATTTTTAGATGCTCCGTTTAATACAGTGCATTATGATGGAAGACCAGAAAGTGAAGTATGTTACATGGGATGTCGTACCCGTGTTATGTCTAATATACATGGAGAAGAAACAGCGATTGGTAGAGGGAATTTATCATTTACGTCTATCAATTTAGTGAAATTAGCGTTAATTAGTGGTTCAAAAGAAGCATTTTTTGAAGCGCTAAACTACTATTTAGATTTAGGAATTAAGCAGTTATTAGAAAGATTTGCGTATCAATGTAAGAAGCGAGCAAGAGATTTTCAGTTTTTATATTCACAAGGTGTATGGCGTGGTGGAGAAGCATTGCAGCCTGAAGACTCCGTAGCTTCGATTTTAAAACAAGGGACGTTAAGTGTTGGTTTTATCGGTCTTGCGGAATGTTTAGTAGCTTTAACAGGAAAGCATCATGGGGAAGATGAAGAATCATGGAAACTTGGGTACGAAATTATTTCCTTTATGAGAGATAGAATGGATAAAGCGACAGAAGAACATCAACTAAATTTCTCGATAATTGCAACTCCAGCAGAAGGATTATCAGGAAAGTTTGTGAAAAAAGATAGAGAAGAATTTGGCGTGATTAGCGGTATAACGAACCATAATTACTATACGAATTCATTCCATATTCCAGTTTATTATAACATTCAAGCGATAAATAAAATCCGTTTAGAAGGCCCGTTCCATGCTCTCTGTAATGGAGGACACATTACGTATATTGAACTGGACGGAGCAGCGATGCATAACAAAAAGGCATTAAAACAAATTATACAAGCCATGGCAGAACATGGCGTTGGATACGGTTCAATTAATCATCCTGTTGACCGTTGTAAGTGCTGTAGTTATCACGGGGTTATTGGAAATGAATGTCCAAGTTGCGGGAATGAAGATGAGGCTAATATAGAAAGAATTCGCCGTATAACAGGCTATCTTGTAGGAGATATGTCGAAGTGGAATAGTGCGAAACGTAGTGAAGAGATAGATCGGGTGAAACATAAATGA	MLQNNTRGEELMKVFETIVHGNEQDLMQENANVDGRSPMGVMGTFASESAKYYAVENLLSDQVKKAINENILYPHDLDFYATGTTTCSQIPLAQMLANGFHTGHGHMRQPQDIKSALALSSIIFQANQNMQHGGQSFALFDIDLAPYVRKTIERHKKRLQSYPLTKEQIEEFAWKETENDTYQACEAFVHNSNSMHSRGGGQVPFISINYGTDTSKEGRMLIKQLLKATQAGLGKGETPIFPIQIFKMKKGVNFEESDPNYDLFELALETTAERLFPNFSFLDAPFNTVHYDGRPESEVCYMGCRTRVMSNIHGEETAIGRGNLSFTSINLVKLALISGSKEAFFEALNYYLDLGIKQLLERFAYQCKKRARDFQFLYSQGVWRGGEALQPEDSVASILKQGTLSVGFIGLAECLVALTGKHHGEDEESWKLGYEIISFMRDRMDKATEEHQLNFSIIATPAEGLSGKFVKKDREEFGVISGITNHNYYTNSFHIPVYYNIQAINKIRLEGPFHALCNGGHITYIELDGAAMHNKKALKQIIQAMAEHGVGYGSINHPVDRCKCCSYHGVIGNECPSCGNEDEANIERIRRITGYLVGDMSKWNSAKRSEEIDRVKHK	PGPT0021330_2034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
AK009_03578	597	plsY_2	COG0344	Glycerol-3-phosphate acyltransferase	ATGGTTACTACATATCTTTTATTTATCGTTGCCTACTTGCTTGGCTCGATTCCATTTGCACTAGTTGTTGGAAAAATTGGCTACGGAATCGATATTCGTGAGCACGGGAGCGGTAATCTAGGCGGAACAAACACATTCCGTACATTAGGGAAAAAAGCAGGTTTTACCGTTACAATTGCTGACATTTTAAAAGGGACATTAGCAACAAGTCTACCAATGATTTTCGGATTAGATATTCACCCACTATGGTTCGGGTTAGCGGCTGTTCTTGGACATGTCTACCCGATCTTCGCGAAATTCCGTGGTGGTAAAGCAGTTGCAACTTCTGCTGGGGTGCTATTATGCTATTCACCAGTTGTTTTTGCAATATTGGCTGTTGTATTTTTCACCCTTTTATTTACAACAAGATACGTATCACTTTCTTCTATGGTAACAGCAGTTGTTGCTGTTATTGCATCCATTGTTAGCGGGGATAAAATCTTCATTATTGCGATGTGTTTATTAGCAGGTATGGTTATTTATAAACACCGTGCAAATATCGGACGAATTATAAATAAAACTGAACCAAAAGCAAACTTTTCAAAAAAGCAAAAATAA	MVTTYLLFIVAYLLGSIPFALVVGKIGYGIDIREHGSGNLGGTNTFRTLGKKAGFTVTIADILKGTLATSLPMIFGLDIHPLWFGLAAVLGHVYPIFAKFRGGKAVATSAGVLLCYSPVVFAILAVVFFTLLFTTRYVSLSSMVTAVVAVIASIVSGDKIFIIAMCLLAGMVIYKHRANIGRIINKTEPKANFSKKQK	PGPT0024375_2887	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
AK009_03579	291			hypothetical protein	ATGAATCTTTCCGTAACAAAAGAAGCAGCACAATGGTATAAAAATGAATTAAACTTACAATCAAATGAAACACTACGCTTTTTCGTACAATACGGTGGTTGCAGTACTGTGCAAAAAGGACTTTCTTTAGGTATTCGTAAAGATGATCCTGCACACCCTGCTGTTCAAATTCAAGAAGAAGGTATTAACTTCTTTATTGAAGGCGATGATGAATGGTTCTTCGATGGACATAATTTATCTGTTACACTTCATGAAGGTGACGACTTCCCACAATTTAATTATGAAAAATAA	MNLSVTKEAAQWYKNELNLQSNETLRFFVQYGGCSTVQKGLSLGIRKDDPAHPAVQIQEEGINFFIEGDDEWFFDGHNLSVTLHEGDDFPQFNYEK				NA	NA	NA	NA	NA
AK009_03580	420			hypothetical protein	ATGTTTGTAGCAGAACATGAAGTTGAAATCCGTTATGCGGAAACAGATCAAATGGGTGTTGTTTACCATTCAAACTACTTAGTGTGGCTTGAGTTAGGTCGCACGAAACTTATACAAGATTTAGGTTTTTCATATGTTGAAATGGAGAAAGAAGGAATTATTTCTCCTGTGTTAGATTTACAAATTTCATATCGTAAAGCGATGCGTTATGGAGAAAAGGCAATCGTAAAAACATGGGTCGATACTGTGAGCCCGCTTCGCGTTGTATATGGATATGAAATATATAATGGTGATGGTGATCTTTGTATTACTGCAAGTACGACGAATATTTGTGCGAAAAAAGAAGGGTTCCGCCCTGTATCATTTAAAAAGTTATATCCTGAGTGGTATGCGAAATATGAGGAAATTAAGAAAAAATAA	MFVAEHEVEIRYAETDQMGVVYHSNYLVWLELGRTKLIQDLGFSYVEMEKEGIISPVLDLQISYRKAMRYGEKAIVKTWVDTVSPLRVVYGYEIYNGDGDLCITASTTNICAKKEGFRPVSFKKLYPEWYAKYEEIKKK	PGPT0001850_6219	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK009_03581	1293	sleL	COG3858	Cortical fragment-lytic enzyme	ATGATTCAAATTGTAACTGTTCGTAGTGGTGATAGCGTATATAGCTTGGCATCAAAATATGGATCAACACCTGACGAAATAGTAAAAGACAATGGACTAAATCCAGCTGAAACGCTCGTTGTTGGTCAGGCACTTATCGTTAATACGAAAGGAAATAATTATTATGTACAGCCTGGTGACAGCCTATATCGAATTTCTCAAACATATAATGTCCCCCTCGCTAGTTTAGCTAAAGTTAATAATTTATCTTTAAAATCTATTCTCCATGTCGGACAACAATTATATGTACCAAAAGGCACAAAACGAGCTGTAGAATCCATCGCTTATTTACAACCTTCAACTATACCGATTAAAGAGAGTTTAGTTAATGCGACACGCGCCATCAATCCATTTTTAACATACTTAGCCTATTTTAGTTTTGAGGCAAAAAGAGATGGCACATTAAAAGAACCTACTGAAACAGCTAAAATTGCTAATATTGCAACGCAAGGTAAAACAATCCCTATGCTCGTTATTACAAATATTGAAAATGGTAATTTCAGTGCCGATCTAACATCAGTTATTTTACGCGACGCAACGATTCAAAACAAATTTATTACTAACATTTTGCAAACAGCTGAAAAATATGGCATGCGAGACATTCATTTCGATTTCGAAAGTGTAGCACCTGAAGACCGCGAGGCGTATAATCGCTTTTTACGAAATGTAAAAACACGCTTACCTAGTGGGTACACATTGAGCACAACTCTCGTACCGAAAACAAGTTCCAATCAAAAGGGCAAATTTTTCGAAGCTCATGATTATAAAGCGCAAGGGCAAATTGTTGATTTCGTCGTCATTATGACATATGACTGGGGATGGCAGGGCGGGCCACCGATGGCGATTTCTCCTATCGGTCCAGTGAAAGAAGTACTTCAATATGCAAAATCTCAAATGCCTCCACAAAAAATTATGATGGGGCAAAATTTATACGGGTTTGATTGGAAACTTCCATTTAAACAAGGAAATCCACCTGCAAAAGCAATTAGCTCCGTCGCAGCTGTTGCACTAGCTCGTAAATATAATGTTCCTATTCGTTATGATTTCACAGCCCAAGCTCCTCATTTTAATTATTTTGATGAAAACGGCGTGCAACACGAAGTTTGGTTTGAAGATTCACGGTCTGTTCAAAGTAAATTCAATTTAATGAAAGAACAAGGTATAGGTGGTATTAGTTACTGGAAAATCGGTTTACCATTCCCGCAAAATTGGCGTTTACTCGTTGAAAATTTCACGATTACGAAAAAGAGCTGA	MIQIVTVRSGDSVYSLASKYGSTPDEIVKDNGLNPAETLVVGQALIVNTKGNNYYVQPGDSLYRISQTYNVPLASLAKVNNLSLKSILHVGQQLYVPKGTKRAVESIAYLQPSTIPIKESLVNATRAINPFLTYLAYFSFEAKRDGTLKEPTETAKIANIATQGKTIPMLVITNIENGNFSADLTSVILRDATIQNKFITNILQTAEKYGMRDIHFDFESVAPEDREAYNRFLRNVKTRLPSGYTLSTTLVPKTSSNQKGKFFEAHDYKAQGQIVDFVVIMTYDWGWQGGPPMAISPIGPVKEVLQYAKSQMPPQKIMMGQNLYGFDWKLPFKQGNPPAKAISSVAAVALARKYNVPIRYDFTAQAPHFNYFDENGVQHEVWFEDSRSVQSKFNLMKEQGIGGISYWKIGLPFPQNWRLLVENFTITKKS	PGPT0025110_210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK009_03582	135	sspN		Small, acid-soluble spore protein N	ATGGGTAATCCGAAAAAAAATTCAAAAGACTTTGCACCAAATCATATTGGAACACAATCGAAAAAAGCTGGTGGAAATAAAGGAAAGCAAATGCAAGATCAAACAGGTAAACAACCGATTGTTGATAACGGTTAA	MGNPKKNSKDFAPNHIGTQSKKAGGNKGKQMQDQTGKQPIVDNG	PGPT0024925_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024925-sspN-K06431	NA	NA
AK009_03583	144			hypothetical protein	ATGAGAAGAAGTCGCCGTAAATCGTTTGAAGAACTTGTAAATGAAAATAAACAACAATTATTAAGCGATCGTGATGCAATTGATCGCATTGAAGAGCGCATCGAAAAACGTTATGAAATGAAACTTTTTAAGCAAGCTGAATAA	MRRSRRKSFEELVNENKQQLLSDRDAIDRIEERIEKRYEMKLFKQAE				NA	NA	NA	NA	NA
AK009_03584	948	dinG_2		3'-5' exonuclease DinG	GTGGGGAATGTATCCTTACCGTTAGATTATGTTGTAATTGATTTTGAAACAACAGGATTTAACCCTTATAATGATAAAATTATTCAAGTTGCAGCAGTGAAATATCGTAATCATGAATTAGTAGATCAATTTGTTTCATACGTGAATCCAGAGCGGCCAATTCCGGACCGAATAACGAGTTTAACAGGTATTACTAATTATCGCGTTTCAGATGCACCGACGATTGAAGAAGTGTTACCTTTATTTTTAGCATTTTTACATACAAATGTTATTGTGGCCCATAATGCTTCTTTTGATATGCGCTTTTTGAAAAGTAATGTAAATATGCTAGGGCTACCTGAACCTAAAAATAAAGTAATTGATACTGTATTTTTAGCGAAGAAATACATGAAGCATGCGCCTAATCATAAACTTGAAACGTTAAAGCGAATGCTTGGCATTCGTTTAAGTTCTCATAATGCATTTGACGATTGTATTACGTGTGCCGCTGTTTATCAAAAGTGTGCAGCTATTGAAGAAGAAGGGAACCGAAAAGTAAATAAGGCTGTGCTTGATGAAACTGCGGTATACGAAGCGGTGAAAGAAATGCTTGTATGTAATAAACGTAATGTAGAATGGCTACGTTGTATGAATGTAGGAAGTTATTTAGATATAAAAGCTTTTTATCCAGTTATGAGAGTAAAGGTAAAAGGGCGAAAGAAATATGTATTAACAGAAATATTAGAAGATGATGTGAAAGAAATATGTACAAGCTTAAAATGTGAACCAGCGTTAAAAAGTGAAGTTGGTAATACGAGAATTATGCTTAATAGCTTAGAGGATGTTATGAAATTAGAAAGTTATATTTTAGAACAGTATGATTTTGTGTTACAGGTGCTTCATGATTATAAAGAAAATGAAATGAATGCAGATGAAAAGTTGAAAGAGTATTTAAATATTATGGTATGA	MGNVSLPLDYVVIDFETTGFNPYNDKIIQVAAVKYRNHELVDQFVSYVNPERPIPDRITSLTGITNYRVSDAPTIEEVLPLFLAFLHTNVIVAHNASFDMRFLKSNVNMLGLPEPKNKVIDTVFLAKKYMKHAPNHKLETLKRMLGIRLSSHNAFDDCITCAAVYQKCAAIEEEGNRKVNKAVLDETAVYEAVKEMLVCNKRNVEWLRCMNVGSYLDIKAFYPVMRVKVKGRKKYVLTEILEDDVKEICTSLKCEPALKSEVGNTRIMLNSLEDVMKLESYILEQYDFVLQVLHDYKENEMNADEKLKEYLNIMV				NA	NA	NA	NA	NA
AK009_03585	576	resA_3	COG0526	Thiol-disulfide oxidoreductase ResA	ATGTGGCGGAAGCTTACGATTATTGTAGTGTTACTTTGTTTAGCGGGATATGCAGCTTATGAACAATTTGGTAAAAAAGATCAGGCGGTACAAGGGGAGCAAGAAAAAAGTGAAGCTGCTATGAAAGAGATGATTGCAAGTAATGGTATCGAAATAGGGAAGAGTGCGCCAAACTTTGAATTAACGAAGTTAGATGGAACGAATGTAAAGTTATCGGATTTAAAAGGAAAGAAAGTGATTTTAAACTTTTGGGCAACGTGGTGTGGACCATGTCAGCAAGAAATGCCGGATATGGAAGCTTTCTATAAAGAACATAAAGAGAACGTAGAAATTTTAGCAATAAATTATACGCCTTCAGAAAAAGGTGGGGGAGTAGAAAAGGTAAGCAATTTTGTTAAAGAAAAAGGAATTACTTTTCCTATTTTATTGGACAAGAACATTGATGTGACAACAGCGTATAAAGTAATTACGATTCCAACTTCGTATTTTATAGATACAAAAGGTGTCATTCAAGATAAGTTTATTGGGCCGATGACGCAAAAAGAGATGGAGAAAAGAGTTGCTAAATTAAAATAA	MWRKLTIIVVLLCLAGYAAYEQFGKKDQAVQGEQEKSEAAMKEMIASNGIEIGKSAPNFELTKLDGTNVKLSDLKGKKVILNFWATWCGPCQQEMPDMEAFYKEHKENVEILAINYTPSEKGGGVEKVSNFVKEKGITFPILLDKNIDVTTAYKVITIPTSYFIDTKGVIQDKFIGPMTQKEMEKRVAKLK				NA	NA	NA	NA	NA
AK009_03586	258			hypothetical protein	ATGAATTCATTCGAAAAAACAACATTATATATTCTTAGTTTTCTTTTATACCCAGTCGGTATTATTACATGGATCATTTCACTCTTTAGTAAAGACCTTAAAAAAAAGAAAGTAGGGCGTATTTGTCTCTACGTCTCTCTAGTCTCATTCGTCCTTTTCTTAATTCTTGGAATTGCCACTTTCCTTACGACCGCTACCTTTAACGTTGATCTGAATCATTCAGAATCTATCGAGTATCAAATAAATGATGCTGAATAA	MNSFEKTTLYILSFLLYPVGIITWIISLFSKDLKKKKVGRICLYVSLVSFVLFLILGIATFLTTATFNVDLNHSESIEYQINDAE				NA	NA	NA	NA	NA
AK009_03587	1644		COG1132	Putative multidrug export ATP-binding/permease protein	ATGAAAGAATATAAAAGAATATTGTGGCCGTTACGAAAAGAGAAAATATTAGTAATGGCAGCTGTATGTAGTGGGATAATTGCTACCATTTTAAATTTATCACGCCCAATTTTCATGGGATTAATTGTAGACAATCTTATTCAAAGGGAGCTAAAAGGTGCGTATTTATATATAGCTTTGTTTGCGGGTATTCGCTTTTTAATGTGGACGAACAATCTTTTATTTGATTATATAAGTTCAAAAGCGAGTCAACGTATATTACAAACGAAACGTATAGAATTATTGCGTCACTATTTCTCATTACCGTTTGAAGAGAGTGAGAAGATCAAGCAAGGGGAGTTAGAAACTTGGGTCGTATCTGATATTCCGAACTGGATCAGATTATATGGCTTTATGTTAATAGAGTATATACACGCTATTGCCCAATTTATTGGAGCTTTCATAGCACTACAACATATAGATATACAGTTTATATTGTGGGTAACTCCGTTTTTATTTTTAAGTACAATTGTTCCAATACTGATGGGAAAAAAGGTAAGAGATATTGCAAGCGTTGCTCAAAAAAATCAATCGAGTGTTGTAGAGATGGTGTCACAGTTTGTAAAGGGTATACAAGATTTACGTAGTTTACAAAAAGAAAAATGGGCTATTCGCTTATTTAAAGGAGTAACGGCACAATCTTATAAATCGGAAGTAAAGAAGACGATGATGCAACACTGCATTGGAGTAGTTGGAACAGTGATTGAAACAGGGGCATATATCGTTGTTCTCATTATAGGCGCGCAAAAAATAATGAAGGGAGAAATGGAAGTTGGCTCAATTGTTGCCGTGTTAGCCACAATTGAAATGCTCTTTTTTCCAGTCCGTTACGTTGGCGATTTATTAATGATGACACAAGTTGCAGTCGCTTCGGCAAATAGAATTTTTTCCTTTTTAGATAAACGAGTGGCAGATAGTAAGGTAGAAAGAGCGATGGGGATGACAGTAACAAATGTTTCATTTCAGGAGAATGATGAAGAGAAATGCAGAATTCATAATATTGATTTGCAAATTAATCCAGGTGAACTCGTTATTATTGTAGGAGAAAGTGGCGCAGGAAAAACAACGCTTTTAAAATTAATGACAGGGTTGTATAAACCATCTAATGGTAACATTGTTTATTATGGTGATGAGGCTCGTATGACTACAGTGTGGCAAGAACCTCGTTTCTTTCGGACGACAGTAAAAGAGAATATGTATTTCGAGGAAGAGGGTTTAGAAAATCAGTTAGAAAAAAATATTGAGCTTGTAAATGTGAAGCCGATAATTAGAGGTTTATCGGAAGGGCTTCAAACTGTACTACATAAAAGCGGTGAAGAGTTTTCGGGGGGGGGGGAAAGAAAACGTCTTGCATTATTACGTGCCATTGTTTCAAATCCGAATCTTATTATTTTAGATGAACCAACTGCGGGATTAGATCCGAGCAACCAAGAAACTATTTGGAATATGATAGAAGGATTAGGAAGAGAGGTCACGAGAATTGTGGCAACACATGATGTAGAGAAAGCGATACTAGCAGATCGTGTTGTCATAATGAAAGAAGGACGTATTGTTGCATGTGGAAGTCCTAAAAAATTAATAAATAGTCATTCGTTTTGCAAGTGA	MKEYKRILWPLRKEKILVMAAVCSGIIATILNLSRPIFMGLIVDNLIQRELKGAYLYIALFAGIRFLMWTNNLLFDYISSKASQRILQTKRIELLRHYFSLPFEESEKIKQGELETWVVSDIPNWIRLYGFMLIEYIHAIAQFIGAFIALQHIDIQFILWVTPFLFLSTIVPILMGKKVRDIASVAQKNQSSVVEMVSQFVKGIQDLRSLQKEKWAIRLFKGVTAQSYKSEVKKTMMQHCIGVVGTVIETGAYIVVLIIGAQKIMKGEMEVGSIVAVLATIEMLFFPVRYVGDLLMMTQVAVASANRIFSFLDKRVADSKVERAMGMTVTNVSFQENDEEKCRIHNIDLQINPGELVIIVGESGAGKTTLLKLMTGLYKPSNGNIVYYGDEARMTTVWQEPRFFRTTVKENMYFEEEGLENQLEKNIELVNVKPIIRGLSEGLQTVLHKSGEEFSGGGERKRLALLRAIVSNPNLIILDEPTAGLDPSNQETIWNMIEGLGREVTRIVATHDVEKAILADRVVIMKEGRIVACGSPKKLINSHSFCK				NA	NA	NA	NA	NA
AK009_03588	2724	citB	COG1048	Aconitate/2-methylaconitate hydratase	ATGGTCAAACATAATCCATTTCAATCACGTGCAACTTTTGAAGTAGATGGAAAAACGTATCATTATTATGATTTGAAAGCGCTTGAAAATGCAGGGGTTGGCAACGTATCTCAATTACCATATTCCGTGAAAGTTTTACTTGAATCAGTACTTCGTCAAGTAGACGGACGTGTAATCACAGAAGAGCATGTTACAAATTTAGCGAAATGGGGAACGAAAGATGTGCAAGATATCGATGTTCCATTTAAACCATCTCGTGTAATTTTACAAGATTTCACTGGTGTTCCAGCTGTTGTTGATTTGGCTTCGCTTCGTAAAGCAATGGCAGACATGGGTGGGGATCCTGACAAAATTAATCCTGAAATTACTGTAGACCTTGTAATTGACCACTCTGTACAGGTTGATAGAGCGGGTACGGCAGACGCGCTTGCATTCAACATGGACTTAGAGTTTAAACGTAATGAAGAACGTTATAAATTTTTAAGCTGGGCACAAAAATCATTTGATAACTACCGTGCAGTTCCACCAGCTACAGGCATTGTACACCAAGTAAACCTTGAATATTTAGCACCAGTTGTTCATGCTGTGAAAAATGCTGAAGGTGACTTAGTTGCATACCCAGATTCATTAGTTGGAACAGACTCACATACAACAATGATTAACGGTATCGGCGTTCTTGGATGGGGCGTTGGTGGTATTGAAGCAGAAGCAGGAATGCTTGGACAGCCTTCATACTTCCCAGTACCTGAAGTAATCGGTGTGAAATTAACTGGCACACTTCCAAGTGGTACTACGGCAACAGACGTTGCATTAAAAGTAACACAAGTATTACGTCAAAAAGGTGTAGTTGGTAAATTTGTTGAGTTCTTCGGTAATGGACTAAAGAGTATGCCTTTAGCTGACCGTGCAACAATTTCAAATATGGCACCAGAATACGGCGCAACTTGTGGATTCTTCCCAATCGATGATATTTCATTAGAATACTTACGTTTAACAGGTAGAGATGAAGAGCAAATTCGTATTGTTGAAGAATACTGTAAAGCGAACGGTTTATTCTATACAGCAGATAGTAAAGATCCAATCTACACTGATCTTGTTGAAATTGATTTAAATACAATCGAATCTAACCTTTCTGGACCGAAACGCCCACAAGATTTAATTCCACTTTCAGATATGAAAGATGCGTTCCACAAAGCTGTTTTAGCACCAGTTGGAACACAAGGACTTGGATTTAATGAGCAAGAGTTCGATAAAGAAGTGAAGGTTACATTAGAAGATAAAGAAGTAACGATGAAAACAGGTGCAATTGCAATCGCTGCAATTACAAGCTGTACAAATACATCAAACCCATACGTATTAATTGGAGCAGGTCTAGTTGCGAAGAAAGCAATTGAAAAAGGACTTGTAGTACCTGAGTACGTAAAAACATCATTAGCACCAGGATCTAAAGTTGTTACTGAGTACTTAGATAAATCCGGTTTAACAACATATTTAGATCAATTAGGTTTCCAAACAGTTGGTTACGGTTGTACGACTTGTATCGGTAACTCTGGTCCATTAGCGCCAGAATTAGAAGAATCAATCGCAGCAAACGACTTACTAGTAACATCTGTTTTATCTGGTAACCGTAACTTTGAAGGTCGTATTCATCCTCTTGTAAAAGCAAACTACTTAGCATCACCACCACTTGTTGTGGCATATGCACTTGCAGGTACTGTTGATATTGACCTGAAAAATGATGAAATCGGTAAAGATGCAAATGGCAATGCTGTTTACTTCAATGATATTTGGCCATCAGCTAAAGAAATTGAAGATGTAGTTCAAAGCGTTGTTACATCTGAATTGTTCAAGAAAGAATATGCACAAGTATTTAACAGCAATGAGCGTTGGAATGAAATCCAAACTTCAAACGAAGCTTTATATACTTGGGATAATGATTCAACATACATTCAAAACCCACCATTCTTTGAAGGTTTATCTAAAGAGCCAGGTGAAGTTGAAACGTTATCAGGTTTACGCATAGTTGGTAAATTTGGTGATTCTGTAACAACAGACCATATTTCACCAGCAGGTTCAATTGGTAAGCACACACCAGCTGGACGCTATTTATTAGAAAACGGCGTACAACCAGTTGACTTTAACTCTTACGGTTCTCGTCGTGGTAACCATGAAGTTATGATGCGTGGTACATTTGCAAACATCCGTATTAAAAACCAAATCGCACCAGGAACAGAAGGTGGATATACAACATATTGGCCAACTGGTGAAGTAACATCAATCTATGATGCTGCTATGAAATATAAAGAAGATGGAACAGGTCTTCTAGTTGTTGCTGGTAAAGATTACGGTATGGGAAGTTCTCGTGACTGGGCTGCGAAAGGTACTAACTTATTAGGTATTAAAGCAGTAATCGCAGAAAGCTTCGAACGTATTCACCGCAGTAACTTAGTATTAATGGGTGTATTACCACTTCAATTTAAAGATGGCGAAAGTGCTGAAACGTTAGGTCTTGTTGGTAACGAGTCATTTGAAATTCAAATTGACAAAACAGTTAGACCGCGCGATCTTGTAAAAGTAGTTGCAACTGATTTAGATGGCAACGAAAAACAATTTGAAGTAGTAGCTCGTTTCGATAGTGAAGTAGAAATTGACTACTACCGTCACGGTGGTATTCTGCAAATGGTTCTTCGTGAGAAAATCGAAGAGTCAAAAGTGTCAAACTAA	MVKHNPFQSRATFEVDGKTYHYYDLKALENAGVGNVSQLPYSVKVLLESVLRQVDGRVITEEHVTNLAKWGTKDVQDIDVPFKPSRVILQDFTGVPAVVDLASLRKAMADMGGDPDKINPEITVDLVIDHSVQVDRAGTADALAFNMDLEFKRNEERYKFLSWAQKSFDNYRAVPPATGIVHQVNLEYLAPVVHAVKNAEGDLVAYPDSLVGTDSHTTMINGIGVLGWGVGGIEAEAGMLGQPSYFPVPEVIGVKLTGTLPSGTTATDVALKVTQVLRQKGVVGKFVEFFGNGLKSMPLADRATISNMAPEYGATCGFFPIDDISLEYLRLTGRDEEQIRIVEEYCKANGLFYTADSKDPIYTDLVEIDLNTIESNLSGPKRPQDLIPLSDMKDAFHKAVLAPVGTQGLGFNEQEFDKEVKVTLEDKEVTMKTGAIAIAAITSCTNTSNPYVLIGAGLVAKKAIEKGLVVPEYVKTSLAPGSKVVTEYLDKSGLTTYLDQLGFQTVGYGCTTCIGNSGPLAPELEESIAANDLLVTSVLSGNRNFEGRIHPLVKANYLASPPLVVAYALAGTVDIDLKNDEIGKDANGNAVYFNDIWPSAKEIEDVVQSVVTSELFKKEYAQVFNSNERWNEIQTSNEALYTWDNDSTYIQNPPFFEGLSKEPGEVETLSGLRIVGKFGDSVTTDHISPAGSIGKHTPAGRYLLENGVQPVDFNSYGSRRGNHEVMMRGTFANIRIKNQIAPGTEGGYTTYWPTGEVTSIYDAAMKYKEDGTGLLVVAGKDYGMGSSRDWAAKGTNLLGIKAVIAESFERIHRSNLVLMGVLPLQFKDGESAETLGLVGNESFEIQIDKTVRPRDLVKVVATDLDGNEKQFEVVARFDSEVEIDYYRHGGILQMVLREKIEESKVSN	PGPT0001465_1673	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
AK009_03589	150	sspO		Small, acid-soluble spore protein O	ATGGGTAAAAGAAAAGCAAATCATACTATTTCAGGAATGAATGTTGCATCTGCACAAGGACAAGGAACTGGTTACAATGAAGAATTTGCAAACGAGCCTTTAACTCCAGCAGAGCGACAAAATAATAAGAAACGTAAAAAGAACCAGTAA	MGKRKANHTISGMNVASAQGQGTGYNEEFANEPLTPAERQNNKKRKKNQ	PGPT0024930_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024930-sspO|cotK-K06432	NA	NA
AK009_03590	726		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGTTAAAACAGAAAATTCTTTTAATAGTTTTTTCTTTATTATGCGCAGTACATATATTTCAAGTGGAAAAAGTGGAAGCGAAAATGTTGCTCAGAAAAGAGTTAGAACCAACTGGTTATGTAACATGGGAAGTACCTAATAATGAAAAAATTATTGCAATTACATTTGATGATGGGCCAGATCCAACATATACACCGCAAGTTTTAGATTTATTACGTCAATATAAGGCTGAAGCGACATTTTTTATGATTGGATTTCGAGTTCAGCGCAATCCATATTTAGTGAACCAAGTGTTAAAAGAGGGACATGAAATTGGAAATCATACGATGAATCATTTGTATGCGAGTAATTCGTCAGATGAAAAATTAGAAAATGATATTTTAGATGGAAAGAAATTTTTTGAAAAATGGGTGAAAGAACCTTTGCTATTCCGTCCTCCTGGTGGATATATTAACGATGCTGTATTTAAAACAGCGAAAGAAGCTGGTTATCAAACTGTTCTATGGTCATGGCATCAAGATCCACGTGATTGGGCAGATCCAGGGGTTGAATCCATTGTAAATCATGTAGTGAAAAATGCTAAAAGTGGCGATATTGTATTGTTACATGATGGAGGAAATGATCGTAGTCAAACGGTAGCAGCGCTAGCAAAAATTTTACCTGAGTTGAAAAAGCAGGGCTATCGATTTGTAACGGTTTCGGAATTACTACGTTATAAACATTAG	MLKQKILLIVFSLLCAVHIFQVEKVEAKMLLRKELEPTGYVTWEVPNNEKIIAITFDDGPDPTYTPQVLDLLRQYKAEATFFMIGFRVQRNPYLVNQVLKEGHEIGNHTMNHLYASNSSDEKLENDILDGKKFFEKWVKEPLLFRPPGGYINDAVFKTAKEAGYQTVLWSWHQDPRDWADPGVESIVNHVVKNAKSGDIVLLHDGGNDRSQTVAALAKILPELKKQGYRFVTVSELLRYKH	PGPT0018645_3985	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_03591	264			hypothetical protein	ATGCCATATCATAAAGATAATCAACAAGCCTTTCAAGCGGCACAGCAAGGAGTTACACAAGCAGAAAATGCATTTAATAATATTGTGAAGAATGACCCTAACTATGGTCATGATTTAAAAGAGTTACGCCAAGAGGTTCAGGAAGCATATGAACAAATTCAAAATGCACTAGAGGTAGCTTCAGAAACACAACGTCCACAACTTGAGCAATATGAAAATAATCTCCAAAATATAATGCGAAATGTAGATCAATTAGAAAAGTAA	MPYHKDNQQAFQAAQQGVTQAENAFNNIVKNDPNYGHDLKELRQEVQEAYEQIQNALEVASETQRPQLEQYENNLQNIMRNVDQLEK				NA	NA	NA	NA	NA
AK009_03592	123	sspP		Small, acid-soluble spore protein P	ATGAGTAAAAACAATCGTGAATCTAAAGAAAAAAAAGGACAACCTGAGCCATTAAGCGGATCTCATAAAGTAAAAAACCGTAACCATTCACGCCAAAAAAAACATGCACATCATGATATGTAA	MSKNNRESKEKKGQPEPLSGSHKVKNRNHSRQKKHAHHDM	PGPT0024935_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024935-sspP|cotL-K06433	NA	NA
AK009_03593	381			hypothetical protein	ATGGGCAAGAAAAAGAAGAATTGTCTTTTTCATGTTGATGGTTTCGAAGAATGGATGGATCAATTTTGTTCCGATTCTTATAGTAACTTTAGCTTTCCAAATCAAATTCACATCGACCTTTGCGAAACTGAAGAAGAATATATTTTGGAAACAGATGTACAAAATGTCACTGAACAAAATGTACTCATTAAAAAGTTAGAGACAGGCCTAGCTATATGCATACTTCATAAAAACATTTCCTTACAACGAACAATCCCTTTACCTACTACTATCATTTATAAAAAGATGCTAGCCTGCTTAGAAAACGGATTTTTAGCCATTCATATTTCCAAAAATGAAGTTGCTGATAAGCATGAAAAAAAAGTTCTTTTTTCAAATTAA	MGKKKKNCLFHVDGFEEWMDQFCSDSYSNFSFPNQIHIDLCETEEEYILETDVQNVTEQNVLIKKLETGLAICILHKNISLQRTIPLPTTIIYKKMLACLENGFLAIHISKNEVADKHEKKVLFSN	PGPT0025190_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025190-cotM-K06335	NA	NA
AK009_03594	1239	mdrP_4		Na(+), Li(+), K(+)/H(+) antiporter	ATGAAGGGGAAGTTACAAAATATTCATCCGTTAGGAATGACAATTATAATAGGGACTTTATTTGCGAGGTTCGCCACGTCAATGAGCATTCCTTTTTTAGCAATTTATTTAACGACTGTTAAAGGTGTATCAGCTGGAATGACAGGTGCTATTATCGGAACGAGTGCACTTGTTGGTGTTTTTGCTAGTTTTATCGGAGGGAATTTATCAGATCGATTTGGCCGGAAAACGATTATGCTCTGGTCCATGATCGTTTGGATTTTTGTGTTTATAGGTTTTTCACTTGCGGATCATGTTTTAAGTTTCTTTTTATTAAACGCTTTAAATGGATTATGTAGGTCGTTTTTTGAGCCAACATCAAGAGCATTATTATCAGATTTAACGAAACCAGAGTATCGTTTACTCGTATATAATTTGCGTTACGGTGCAATCAATGTTGGAGTGGCGATTGGCCCTCTTGTCGGATTACAGATTGGAAGCGCAAAATCTACAATTCCTTTTTTAGTAGCAGCTGGAGTGTACATTCTATATACAGCTATATTAGCATTCCAATTTAAGAAGTATCCAATTGAAAAAAAGAAAATAAATACAGAAAAACCTGTCACAATGTTAAATGCAATTCGCATTTTGCGAAAGGATGTCGTATTTTTAGTTGCTTTAGTCGGTATTATTTTGAGTAATTGTGGTTTTTCTCACTTAACGACAACAGTATCTCAATATTTTGCAAATGCACATATATTTCAGGATGGAGTGAAATTATTTTCATATATGTTAGCTTTAAATGCGATTGTTGTAGTGATTATCCAATACCCTGTTATTCAAATGTGCAAAAAGTATACACCGTTAACATCAATTATGGTGGGGACTTTATTTGTAAGCGGAGGATTATTTGGCTTTGGAATAGTAGAATCTATGCTAAGTGCTGCCGTTTGTACAATTATTTTTACAATTGGAGAAGTCTTAATGTTTTCGATGACGGATGTATTTATTGATGATATTGCTATTGCGCATCTAAAAGGAACATACTTCGGTGCGATGGGCTTTTCGGGAATTGGAGCAGTAATAGGTCCGTGGTTTGGAGGAGTACTTCTCGATTACTACGGCTACCAAAATGGGTTTGTAGTATTTTCAGCACTAGCTATATTTTCAACTGTGGCATTTCCTGTGCTTTTAGTTACAAAAGGTTTATCGAAAAAAAGATATGATGCAAATTCTAATATAGAAATGCATGCGAAATAA	MKGKLQNIHPLGMTIIIGTLFARFATSMSIPFLAIYLTTVKGVSAGMTGAIIGTSALVGVFASFIGGNLSDRFGRKTIMLWSMIVWIFVFIGFSLADHVLSFFLLNALNGLCRSFFEPTSRALLSDLTKPEYRLLVYNLRYGAINVGVAIGPLVGLQIGSAKSTIPFLVAAGVYILYTAILAFQFKKYPIEKKKINTEKPVTMLNAIRILRKDVVFLVALVGIILSNCGFSHLTTTVSQYFANAHIFQDGVKLFSYMLALNAIVVVIIQYPVIQMCKKYTPLTSIMVGTLFVSGGLFGFGIVESMLSAAVCTIIFTIGEVLMFSMTDVFIDDIAIAHLKGTYFGAMGFSGIGAVIGPWFGGVLLDYYGYQNGFVVFSALAIFSTVAFPVLLVTKGLSKKRYDANSNIEMHAK				NA	NA	NA	NA	NA
AK009_03595	408			hypothetical protein	ATGTTATATGAAAACGGCGTAGATAAACTTCTTAGTTTAAGTAAAAATATTTCTGAATTGTATCGAGAATTAAATGAAATGACCCGGATTTTAACGGATTGTAATCGAGAAAGTGTGAAGTTTGATCGGTTATATGTAAAAGAGTTACTGTGGAAGAAAGAAGATGTAATAGAGAAATATGACCAGCTACTTGTGCAACTTTGTATAAATGAATGCTTTGATTTAAAAAGTGTCATTACAGGGGAATATAAGTATACATATGAAGAAGTAGAAAACATAGTTTTACAATTTAATGAAAAGTATAATGTCGCAATCTTAATTAAAGATGTGTGTAAAGAATTACAGTTCACATATGGAATTGATATGGACATAACGAGAACAACTCGGGTATCAACAGCTCAAGTATAG	MLYENGVDKLLSLSKNISELYRELNEMTRILTDCNRESVKFDRLYVKELLWKKEDVIEKYDQLLVQLCINECFDLKSVITGEYKYTYEEVENIVLQFNEKYNVAILIKDVCKELQFTYGIDMDITRTTRVSTAQV				NA	NA	NA	NA	NA
AK009_03596	1236	alaS_2	COG0013	Alanine--tRNA ligase	ATGAAACTAGTGAACGCGAAAGGGGAAAGAAAATTGGAGCAAAAATTATATTACACTGACGCTTATAAGCAAGACTTTACTACAAAAATTATAAAGCAAGATTATGATAAAGACGGTAACTTATACGTCGTTTTAAACGAGACCGCATTTTATCCGACAGGTGGCGGACAACCGCATGATACTGGCACATTAAATGATATCGATGTAATCAATGTAGAAGAGATACATGGGGAAATTCGTCACTTCATTGTAGAAAAATTACATACAGAAGAAGTAGAAGGTAAAATCAATTGGGAGCGCCGTTTTGATCATATGCAGCAACATGCGGCTCAGCACATTTTATCTGCTGCTTTTTGGGATCATTTTAACATACCTACGATTGGATTCCACCTTGGTAAAGAAACGGTAACAATTGATTTAGAAATAGAAAATCTTCATACAGAAACGGTTGAAAAAGCAATAAACATTGCCAACAAAATTGTTTTCGAAAACCATCAAATCCATATCGAATGGATGAACTTAGAAAAAGCGAAAACATTCCCCCTTCGTAAAGAACCGACTATAACAGAAAATATACGGGTTGTTATTATCGAAAACTTTGACTACAACGGCTGTGGTGGAACGCATCCGAAACGAACTGGTGAAGTTGGTCCTATTCAAGTACTAGGATGGGAGCGCAATAAAGGTGGTATACGCTTAACGTTTATCGCTGGTTGGCGTACACTTAAATTAATGGGACAACAGCAACAAATTATGAAAGATGTTTCTAAACAATTAAACAGTAGCGAGAGTGATATCCCAGCAAAAGTAGCACAACTTCTTACTTCTCAAAAAGAAAATGAAAAAGCAATACAAACAATGAATGAAAAATTATTATTTGCAGAGGCAAATGAACTACTTCTACAGCCCATAAAAATTCATGCTGACATACTTATTTCTAAAGTATTTACAAATCGTTCTATGCAAGAAATCGCAAAGCTTTCCGCTATTATTACAGAACAACAAGAGCATGCAATTACGTATTTCGTCATCGAAAATGATGACAAACTACAATGTATTCTCGCTTGCGGAAAATCAGTATCACTCGATATGAATGCTCTTTTAAAAGACGCTCTTCCTACAATCGAAGGAAAAGGTGGCGGAAATAAGAAGAGTGCTCGCGGTGGCGGGAGAGCAATTATGAGCGGAGATGAATTTTTAAATCAGCTTGTTTCTTCTTTACAGTCGGCGGTGTAA	MKLVNAKGERKLEQKLYYTDAYKQDFTTKIIKQDYDKDGNLYVVLNETAFYPTGGGQPHDTGTLNDIDVINVEEIHGEIRHFIVEKLHTEEVEGKINWERRFDHMQQHAAQHILSAAFWDHFNIPTIGFHLGKETVTIDLEIENLHTETVEKAINIANKIVFENHQIHIEWMNLEKAKTFPLRKEPTITENIRVVIIENFDYNGCGGTHPKRTGEVGPIQVLGWERNKGGIRLTFIAGWRTLKLMGQQQQIMKDVSKQLNSSESDIPAKVAQLLTSQKENEKAIQTMNEKLLFAEANELLLQPIKIHADILISKVFTNRSMQEIAKLSAIITEQQEHAITYFVIENDDKLQCILACGKSVSLDMNALLKDALPTIEGKGGGNKKSARGGGRAIMSGDEFLNQLVSSLQSAV				NA	NA	NA	NA	NA
AK009_03597	444	rppH_5		RNA pyrophosphohydrolase	ATGGAAAATGTAATGCAAGTTCGTGTTACGGGAATTTTAATTGAAGGTGAAAAATTATTGCTAGTAAAGCAAAAAGTTGCTAATAGGAATTGGTCTTTACCTGGAGGAAGAGTGGAGAATGGTGAAATGTTAGAAGAGGCGATGATTAGAGAAATGAGAGAAGAAACGGGATTAGAAGTTAAAATTAAGAAGCTACTCTATGTTTGTGATAAACCGGATGCCAGTCTATCTTTATTACATATTACATTTCTACTTGAAAAGCTTACAGGGGAAATTATGTTACCCTCTAATGAATTTGATCATAATCCAATTCATGATGTGCAAATGGTACCGATTAAAGATTTAAGTCAATATGGTTTTTCGGAAACTTTTATCACTCTTATAAGTGAAGGTTTTGCAAGTGCAGGGAGTTATCAAGGCTTGAAACAAAATATTGGTTTGTAA	MENVMQVRVTGILIEGEKLLLVKQKVANRNWSLPGGRVENGEMLEEAMIREMREETGLEVKIKKLLYVCDKPDASLSLLHITFLLEKLTGEIMLPSNEFDHNPIHDVQMVPIKDLSQYGFSETFITLISEGFASAGSYQGLKQNIGL				NA	NA	NA	NA	NA
AK009_03598	582			IS1595 family transposase ISBce21	ATGCGTCCACCTTTAACAAAGTCTATATCACTTGAAGATTTCCAAAACTATTATTGGTTAAAAGCAGAACTCCAAACATTTTGTCGTGAGAATGGGTTGCCAGCTAGCGGCTCTAAGATTGAAATAACCGATTGTATCTCACATTATTTAACTACGGGGAAAGTCTTAAAAAACAGCTCTGGGCAAAAAGTGCGTAAAGCTTCCCTCTCTTATAAAGACCTTTCTCTTCAAACGATTATTACTAACAATCACCGCTGTAGCGAAGATGTTCGTGCTTTTTTCAAAGAAAAAATCGGAACAAACTTCCGCTTTACAGTAGCTCTTCAAAAATTTTTCAAAGAGAATGTTGGAAAAACATATGAAGACGCGGTAGCTTTTTGGCATGAAGAAAACGAACGAAAAAAAGACCCTACATACAAAACAACTATCGGTGCACAATTTGAATACAATCGCTTTACTCGTGACTTTTTCGAAGATCCAAATAATAAAGGGAAAGCAAAAGCTGATGCGATTGCTGCTTGGAACGAAATGAAAGCGAAGCCTGGTAGCAATATTTATGTTCCTCAAAAAGTAGAAAACTAG	MRPPLTKSISLEDFQNYYWLKAELQTFCRENGLPASGSKIEITDCISHYLTTGKVLKNSSGQKVRKASLSYKDLSLQTIITNNHRCSEDVRAFFKEKIGTNFRFTVALQKFFKENVGKTYEDAVAFWHEENERKKDPTYKTTIGAQFEYNRFTRDFFEDPNNKGKAKADAIAAWNEMKAKPGSNIYVPQKVEN				NA	NA	NA	NA	NA
AK009_03599	1092	yhfS	COG0183	Putative acetyl-CoA C-acetyltransferase YhfS	ATGAATAGAGCAGTTATTGTAGAGGCGAAAAGAACACCTATCGGTAAGAAGAATGGGATGTTAAAAGAGTATGAAGTTCAGCAATTAGTAACGCCGCTTCTTACGTTTTTAAGTAAAGGGATTGAGAGAGAAATAGACGATGTCATGTTAGGGAATATTGTGGGGCCAGGAGGGAATATTGCGAGACTATCTGCTTTAGAGGCGGGACTTGGCTATCATATTCCTGGTGTAACGATTGATCGGCAATGTGGTGCTAGTTTAGAAGCAATTCGAACTGCGTGTCATCTCATTCAAGGCGGGGCAGGTAAGTGTTATATCGCCGGGGGAGTAGAGAGTACAAGTACGTCACCTTTTCAAAAAAGAGCACGATTTTCACCTGAAACAATTGGTGATCCTGACATGGGAGTAGCGGCTGAATATGTTGCGGAGCGTTATAACATAACGAGAGAAATGCAAGACGAGTATGCTTGTCTTAGTTATAAGCGGACACTGCAAGCGTTAGAAAAAGGATATATACATGATGAAATATTTTCTTTTAATGGATTATTAGATGAATCTATAAAGCTAGAAATGAATTATGAACGAATCATTAAAAGAACAAAGCCCGCATTTTTACAAAATGGAACAGTAACGGCAGGTAATTCGTGCGGTGTAAATGATGGAGCATGTGCCGTTCTTGTAATGGAAGAGGGACAAGCCCGAAAGTTAGGTTATAAACCTGTCCTTCGTTTCGTTCGTAGTGCTGTAGTGGGAGTGGATCCCAAGCTTCCAGGGACTGGTCCGATATTTGCGGTGAACAAATTATTAAACGAAATGAATGTAAAAGTAGAGGACATCGATTATTTTGAAATAAATGAAGCATTCGCCTCAAAAGTTGTTGCTTGCGCAAAAGAGTTACAAATTCCGTACGAAAAAGTAAATGTAAATGGTGGAGCAATTGCGCTCGGTCATCCGTACGGTGCATCTGGTGCTATGCTTGTAACACGTTTGTTTTATCAGGCACAAAGAGAGTCTATGAAATATGGAATTGCTACATTAGGAATTGGGGGCGGGATAGGGATTGCGCTATTATTTGAGAAAGTAGAAGACTAG	MNRAVIVEAKRTPIGKKNGMLKEYEVQQLVTPLLTFLSKGIEREIDDVMLGNIVGPGGNIARLSALEAGLGYHIPGVTIDRQCGASLEAIRTACHLIQGGAGKCYIAGGVESTSTSPFQKRARFSPETIGDPDMGVAAEYVAERYNITREMQDEYACLSYKRTLQALEKGYIHDEIFSFNGLLDESIKLEMNYERIIKRTKPAFLQNGTVTAGNSCGVNDGACAVLVMEEGQARKLGYKPVLRFVRSAVVGVDPKLPGTGPIFAVNKLLNEMNVKVEDIDYFEINEAFASKVVACAKELQIPYEKVNVNGGAIALGHPYGASGAMLVTRLFYQAQRESMKYGIATLGIGGGIGIALLFEKVED	PGPT0008320_14334	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK009_03600	1464	yhfT	COG0318	putative acyl--CoA ligase YhfT	ATGGGGATTACAAAAGAATATAAAAAGTATGCCTCTTTACTATCAAGTAAAATAGCAATAAAGGAAAATGATCGAGTATTAACATATAAAGAGTGGTTTGAGTCAGTATGTAAAGTAGCAAACTGGTTGAATGAAAAAGAATCGAAGAATAAAACGATAGCAATTGTATTAGAAAATAGTATGGAGTTTTTACAACTATTTGCTGGGGCTGCGATGTCTGGATGGGTTTGTGTGCCGTTAGATATAAAGTGGAAAGAGGATGAGCTCAAAGAAAGAATTGCAATTAGTAATCCGGATGTGATTGTGACAGAGCGATATAAGGTAAATGATCTACCGGATGAAGAAGGAAGAGTAATTGAAATTGATGAGTGGAAAAGAATGATAGAGAACTATCTTCCTACATATAATCCTGTAGAAAGTTTACAAAATGCTCCTTTTTATATGGGATTTACATCAGGATCAACAGGAACAGCAAAACCATTTTTACGTGCACAACAATCGTGGGTTCATAGTTTTGATTGTAATGTACATGACTTTCATATGAAAAGGGAGGATTCGATTTTAATAGCTGGGACGCTCGTTCATTCTCTTTTCTTATACGGGGCAATAAGTGCATTATATGTAGGACAAACGGTGTACATTATGAGAAAGTTCATTCCAAATCAAGTACTAGATAAGTTAGAAACTGAAAATATATCAGTTATGTATACAGTTCCGACAATGCTTGAATCTTTATATAAAGAAAATAGAGTAATAGAAAATAAAGTGAAAATTATTTCGTCAGGAGCGAAGTGGGAAGCTGAAGCGAAAGAAAAAATAAAGAATATATTTCCTTATGCGAAAAGATATGAATTTTATGGTGCATCAGAGTTAAGTTTTGTAACAGCACTAGTCGATGCAGAAAGCGAAAGAAGGCCAAATTCAGTAGGAAAACCTTGTCATAATGTGCAAGTTCGAATATGTAATGAAGCAGGCGAAGAAGTACAAAAAGGTGAAATAGGAACTGTTTATGTGAAAAGTGATCAGTTTTTTATGGGATACATAATAGATGGGGTTTTAACACGGGAGTTGAATGCAGAAGGCTGGATGACAGTGCGAGATGTAGGCTATGAAGATGAAGAAGGCTTTATATATATTGTTGGTAGAGAGAAGAATATGATTTTATTTGGAGGAATCAATATTTATCCAGAAGAAATAGAAAGTGTATTACATGAACACCCAGCTGTTGATGAAATAGTTGTAATTGGTGTGAAAGATAGTTACTGGGGTGAAAAGCCCCTCGCGATCGTAAAAGGAAGTGCTACGAAACAACAATTAAAGAGTTTTTGCTTACAGAGATTATCCTCTTTTAAAATACCGAAAGAATGGCATTTTGTAGATGGAATACCTTATACAAATAGTGGGAAAATCGCTCGTATGGAAGCAAAAAGTATGATTGAAAACCGGGAGAAAATATATGAATAG	MGITKEYKKYASLLSSKIAIKENDRVLTYKEWFESVCKVANWLNEKESKNKTIAIVLENSMEFLQLFAGAAMSGWVCVPLDIKWKEDELKERIAISNPDVIVTERYKVNDLPDEEGRVIEIDEWKRMIENYLPTYNPVESLQNAPFYMGFTSGSTGTAKPFLRAQQSWVHSFDCNVHDFHMKREDSILIAGTLVHSLFLYGAISALYVGQTVYIMRKFIPNQVLDKLETENISVMYTVPTMLESLYKENRVIENKVKIISSGAKWEAEAKEKIKNIFPYAKRYEFYGASELSFVTALVDAESERRPNSVGKPCHNVQVRICNEAGEEVQKGEIGTVYVKSDQFFMGYIIDGVLTRELNAEGWMTVRDVGYEDEEGFIYIVGREKNMILFGGINIYPEEIESVLHEHPAVDEIVVIGVKDSYWGEKPLAIVKGSATKQQLKSFCLQRLSSFKIPKEWHFVDGIPYTNSGKIARMEAKSMIENREKIYE	PGPT0008380_15563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_03601	576	bioY	COG1268	Biotin transporter BioY	ATGAATACAAAAAACTTAGTTTTCGTCGCTTTATTTAGTTCTATTATGGGAGTGTTAGGGTTAATACCTCCAATTGCTCTTGCTATTACACCAGTTCCGATTACATTACAATCACTCGGTGTTATGCTTGCTGGTGGATTGTTAGGATCACGTCTTGGTGCGTTAAGTCAGCTTATTTTCTTACTTATTGTTGGAGTTGGGGCACCATTACTTGCAGGTGGACGAGGTGGTCCAGGTATATTTGTTGGGCCAAGCGCAGGATATTTACTTGGTTATATTGTAGGAGCATTTGTTATTGGTTATTTAATTGAGCGTTTACGTGAAGTTTCTATTATAAAAGTATTATGCATTAATATAATTGGTGGTATTTTCGTAGTTTATGTATTTGGTATCATTGTACAAGCATTCGTAATGGATATTTCTATATGGCAGACGATGAAAGTGAGTGTCGTATTTTTACCAGGTGATTGCATAAAAGCGATTATAGCAGCAATTCTTGTAACGAAATTACATCGTTCATTGAAACATATTATTACGCCTGCTCTAAAGAGTGGGAAATATACAAATGCGGGATAA	MNTKNLVFVALFSSIMGVLGLIPPIALAITPVPITLQSLGVMLAGGLLGSRLGALSQLIFLLIVGVGAPLLAGGRGGPGIFVGPSAGYLLGYIVGAFVIGYLIERLREVSIIKVLCINIIGGIFVVYVFGIIVQAFVMDISIWQTMKVSVVFLPGDCIKAIIAAILVTKLHRSLKHIITPALKSGKYTNAG	PGPT0022050_1320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
AK009_03602	1614		COG0318	Long-chain-fatty-acid--CoA ligase	ATGATGATGAATGTACCGCTAACAATTAGTTCTATGATGGAAAGAGCAGAAAAACTGTTTTCAAAGAAAGAAATTGTTTCACGGACACATGATACAGTTACGACGTTAACGTATAAGCAGTTAGGTGAAAGGACGAGAAGGCTTTCTAGTGCGTTAAAAAAATTAGGAATTAAAGAAGGCGAGCGTATAGGAACGTTAGCGTGGAATCATCATCGACATGTGGAAGCTTATTTTGCTATTCCTGGTATTGCTTCTGTTTTGCACACAATTAATATTCGTTTATCTCCTCAACATATTTCATACATTATTCAGCACGCAGAAGATCGCATTCTACTTATAGATGAAGATCTCGTACCACTCGTTGAAAATATTCAATCACAATTATCAACTGTACAAGCCTACATTATTATGACTGATAAAGATGAACTTCCAAATACTACGCTAGAACCTGTATATCATTATGAAAAACTATTAGAAGAAGGCGATCCAAATTTCCAATTTGTAAAAGATATTGATGAAAATACACCTGCTGGTATGTGTTATACGTCAGCGACTACAGGGAATCCAAAAGGTGTTGTATATACGCATCGTAGTACTGTACTGCATTGTATGGCACTCGGTTTAGCGGATACAGCTGCTTTATCGGAAAGTGATGCGGCGATGGCAATTGTACCGATGTTCCATGTGAACGCTTGGGGACTTCCTTTTGCAGCTACTTGGTTTGGAACTAAACAAGTTCTGCCAGGACCAATGTTTACTCCAAAAATTTTATTAGAGATGATTCAAGCTGAAAAAGTAACGATAGCAGCAGGTGTGCCGACAATCTGGCTCGGTGTATTACAAGAATTAGAAAATAATAGTTACGATTTATCTAGTATAACGAGAATATTATGCGGTGGTGCTGCTGCACCGAAAAGCGTTATTAAAGCATTTGAACAAAAATATAATGTTCCTTTCGTACATGCATATGGTATGACTGAAACAAGCCCACTCGTAACACTTGCACGTTTAAAAAGTTATGAAACAGAATTATCATATGAAGAGCAATTAGAAATCCGCTCAAAACAAGGATATCTTGTCCCTGGTGTAGAGATGAAAGTAGTCGGTACAAACGGTGAAGTGAAGTGGGATGGTACTGAGATGGGAGAGTTATGTTTACGAGCACCTTGGATTGCTGAAAGCTATTATAACGATGATCGTACTGTCGAAGGATTCCGAGACGGTTGGTTATATACTGGTGATGTTGTTACAGTTGACGAGGAAGGCTGCGTGAAAATTGTTGATCGTACGAAAGATGTTATTAAAAGCGGGGGAGAATGGATTTCCTCAGTTGACCTTGAAAATGCTTTAATGGCACATGATGCTATATTTGAAGCGGCCGTTGTTGCAGTTCCACACCCGCAGTGGCAAGAGCGTCCAGTTGCCTGCGTTGTACAAAAGGCAAATAGCACTGTTACAAAAGAAGAACTATATGAATTTTTAAAACCACAGTTTGCAAAGTGGTGGTTACCAGACGATATTGTATTTATGCAGGAAATTCCGAAAACATCTGTTGGGAAGTTTTTAAAACAGGCGCTTCGGAAAGAACTTGAGCATTTGCATAAGGAGAAATAA	MMMNVPLTISSMMERAEKLFSKKEIVSRTHDTVTTLTYKQLGERTRRLSSALKKLGIKEGERIGTLAWNHHRHVEAYFAIPGIASVLHTINIRLSPQHISYIIQHAEDRILLIDEDLVPLVENIQSQLSTVQAYIIMTDKDELPNTTLEPVYHYEKLLEEGDPNFQFVKDIDENTPAGMCYTSATTGNPKGVVYTHRSTVLHCMALGLADTAALSESDAAMAIVPMFHVNAWGLPFAATWFGTKQVLPGPMFTPKILLEMIQAEKVTIAAGVPTIWLGVLQELENNSYDLSSITRILCGGAAAPKSVIKAFEQKYNVPFVHAYGMTETSPLVTLARLKSYETELSYEEQLEIRSKQGYLVPGVEMKVVGTNGEVKWDGTEMGELCLRAPWIAESYYNDDRTVEGFRDGWLYTGDVVTVDEEGCVKIVDRTKDVIKSGGEWISSVDLENALMAHDAIFEAAVVAVPHPQWQERPVACVVQKANSTVTKEELYEFLKPQFAKWWLPDDIVFMQEIPKTSVGKFLKQALRKELEHLHKEK	PGPT0002895_357	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMS_DEGRADATION,PGPT0002895-dmdB-K20034	NA	NA
AK009_03603	789			hypothetical protein	ATGGAATTTGGTGAGAAGCTTTTTAAATTAAGAAAGGAAAAGGGTCTTTCTCAAGAAGTGTTAGCTGAGAAATTAAAAACAACAAGGCAAGCAGTTAGTAAATGGGAAAACGGTCAAGGATTTCCTGAAACTGAAAAGTTAATAATGATTGGAAAGGTATTTGAAGTATCACTCGACTATTTATTAAAAGAAACTGCTGAGCAAAGTAATGAAAATGTGGAGGGCTATTACGTAAGTCAGGAAATGGCAGAAGGGTATATAGTGTATGGGCAAAAAATTTCTAAATATATTGCGCTAGGATTTAGTTTGCTCATTTTATCTACAATACCGTATTTATTATTTAAAGAAAATGCAACAATTTCGACATTCCTTGTTATTATCATTGCTGTCCTTGGAATTGGAGCAATGATGGTACCTGTAACAATAGAAGAGAGTAGATACAATGTATTAAAAAAAGAAGAACTACTATTTGATCAAAACTTTCTAAAAGAATTGACAAAAAGATATGCGACTATTAAGAAGAAGTATGCGTCAGTAGTGATCGTTGGATTTTGTTTTATTGCAGCAGGAGCGATTCCGTTTTTGTTTGAGAAAAAGCATATAACTTCAGGAGAATTAGTGCAGTATTACCCTTATTGTGTTGTACTTATTGCTATCGGAGTTTATCTTTTTGTACGTGTGTTAGGAGTGTTAGAGACGTATCGGATTTTAGTAGAAAATAAGGAATACAGTAATCGTTTTATTTTTAAATTGAAAAAGAAAGTAAGGAAAAAGGTAGATAGTTTATAA	MEFGEKLFKLRKEKGLSQEVLAEKLKTTRQAVSKWENGQGFPETEKLIMIGKVFEVSLDYLLKETAEQSNENVEGYYVSQEMAEGYIVYGQKISKYIALGFSLLILSTIPYLLFKENATISTFLVIIIAVLGIGAMMVPVTIEESRYNVLKKEELLFDQNFLKELTKRYATIKKKYASVVIVGFCFIAAGAIPFLFEKKHITSGELVQYYPYCVVLIAIGVYLFVRVLGVLETYRILVENKEYSNRFIFKLKKKVRKKVDSL				NA	NA	NA	NA	NA
AK009_03604	204			hypothetical protein	ATGAAACAAAAAGCCGTGCAGGCATGCTCTAATTGTGGTTCTCAAAACATAGGAGAAGGTGAGTTTGTCGGATATGCACAAATACGGAAAAAGGAAACGATGTTCACATCTTCACCGGTGGATGCTTATATTTGTACAGATTGCGGGAATATCCTTCTATTAAAAGTACGACATTATGAAAAGTTTAAGCAGAAGCCGTTATGA	MKQKAVQACSNCGSQNIGEGEFVGYAQIRKKETMFTSSPVDAYICTDCGNILLLKVRHYEKFKQKPL				NA	NA	NA	NA	NA
AK009_03605	813			hypothetical protein	ATGACTACTGTTATAACACTCGATATAGCCACAGAAATTGAAAACGCAGAAATACATATGCTCTCTTCTAGACTAAAAGCATTACAAGCATTAGCTGAAAATCCAATGCAAGTACAAATGAAAAAGTTCGGGAGTGCCACTGCCTTTTCATCAAAAATAATTGCTGGTCCAGCTTTTAATACGGTAAAAGGTATTACATTTACAAATACAGATGAGATAGATGAAATCGTCTCTTATTATCAATCGCTACAAATCCCTTGTCGTTTTGAAATTACACCCGCTCAAGGTACAGCCAAATTATTTCAATACTTATCTCAAAGAGGATTTTACCAATCCAGCTTCCATACCGCTTTATATAGTATACCGAGAGAAGACCCTTCCCTTCTTCCTTCTAACATTTCAGTACGCGAACTAAAAGAAAATGAATTTCATATTTTTGCAGACATATACGTACGCGGATTTAACATGCCATCCTTTACAAAAGATGGCGTCCATCAAAATAACGAAATTCTCTACAATAAACCTGGCTGGCATTTTTTCATAGCCGAAGTTCAAAACACTCCTGCGGGTATTGGTGTCCTGTATATAAATAATGGGATTGCATCATTAGCTGCTTCTGCTACTTTGCCAGAATTTCAGCGTAAAGGCTGTCATACTGCATTAATTCAAAAACGAATAGAGACGGCTATTGAATCCAACTGTAACTTAGTAGTTGGACAAGCAAAGTTCGGTAGCAGCAGTCAAAATAATATGGAACGTGCCCATATGAAAATTGCTTATACGAAATCAATATGGACTGCAAAAGACATGTAA	MTTVITLDIATEIENAEIHMLSSRLKALQALAENPMQVQMKKFGSATAFSSKIIAGPAFNTVKGITFTNTDEIDEIVSYYQSLQIPCRFEITPAQGTAKLFQYLSQRGFYQSSFHTALYSIPREDPSLLPSNISVRELKENEFHIFADIYVRGFNMPSFTKDGVHQNNEILYNKPGWHFFIAEVQNTPAGIGVLYINNGIASLAASATLPEFQRKGCHTALIQKRIETAIESNCNLVVGQAKFGSSSQNNMERAHMKIAYTKSIWTAKDM				NA	NA	NA	NA	NA
AK009_03606	213			hypothetical protein	ATGACTAAACATGATCATGGTTTAAAAGAAAAAGTAGAAGGTGCTATTGATAAGGTAAAGGGTGAAGTAAAAGAAGTTGTTGGGAAAGTAACTGACAATAAGAAATTACAAGCTGAAGGAAAATGGGATAAGGTGAAAGGCACTGCTAAAGATACAGTTGGTAATGTGAAAGAAAAAGTACATGAATATAAAGAACATAAGAAAGAAAAATAA	MTKHDHGLKEKVEGAIDKVKGEVKEVVGKVTDNKKLQAEGKWDKVKGTAKDTVGNVKEKVHEYKEHKKEK				NA	NA	NA	NA	NA
AK009_03607	249			hypothetical protein	ATGATGAATATAAAAATACCAAATGATAAAAAAGAAGAGCTTGTAGCACAAATTCAGCAATTTTTCATGGAAGAAGATTTAGATGAAATTGGACGTTTCCAAGCAGAGCGTTTAATAGAAGAGATGATTAAATTAGTTGGACCATTTGCATACAATCAAGCAATTGGAGATGCAAGAAAGCTTGTAAGTGAGAAATTAACTAATATTGAAGAAGATTTATACGTGTTAGAGAAGAATGAAGGAAAATAA	MMNIKIPNDKKEELVAQIQQFFMEEDLDEIGRFQAERLIEEMIKLVGPFAYNQAIGDARKLVSEKLTNIEEDLYVLEKNEGK				NA	NA	NA	NA	NA
AK009_03608	453			hypothetical protein	ATGGAAATTAAACGTGTCAATCTAACATTTCAAGATGAATTAGTTCCTTTAGAAAAAGTAAACAAACTGATTATTCACCATACAGCTGAAGATGGATGGGACGTGTATAAAACGCATGAATTTCATCAAACTGTAAAAGGGTGGAGTGGGATTGGTTACAACTATTTTATCGAAGAGGACGGAACTGTAGTGGAAGGACGAGGTTTACATATTGGAGCGCATGCGAAAGATCATAACCGCCATACAATTGGGATATGTATGACGGGAAATTTTGATAAATACGATCCAACTCCTGCACAAGTGAATGCATTATATTCTTTATGTAAAATATTTATGAAGCAATTTGCTATAAAGAAAGAGAATATACTCGGTCATAGGGAGTTAGAAGGAGTTACAAAAAGCTGTCCTGGTAATCGTTTTTCTATGGTAGAGTTAAGGAAGATATTATCTTAA	MEIKRVNLTFQDELVPLEKVNKLIIHHTAEDGWDVYKTHEFHQTVKGWSGIGYNYFIEEDGTVVEGRGLHIGAHAKDHNRHTIGICMTGNFDKYDPTPAQVNALYSLCKIFMKQFAIKKENILGHRELEGVTKSCPGNRFSMVELRKILS	PGPT0019115_2638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_03609	822			hypothetical protein	TTGAAAGGGGATACAGTTGTGAAGATAAAAACATATCAACAGAAAAGCCCGTTGAAGCAAGAATGTGAGGATTCTTATTTTTGTAATAAAGAAAAAAAGATTTATGGTGTATGTGACGGTGCAACACCACTTGTCCCGTTTGGTGATGAAAATGGACATAATGGAGCATACATCGCTTCGCATTTATTTGCAAGTTATTTTACTTCATTACGAGAGAATCATAGGTTACGATTTGCAGTTGCAAAAGCAAATGAAGCATTGCAAAGCAAAATGTTGGAATATAAAGTAGATACGAGAAAGAAAGATCATTTGTGGTGTACATGTATTGCGGCAGTTCAAATAGATGGTGAGAAAATTGAATATGCGCAGCTTGGGGACTGTATGATTGTCGCAACTTTTCAAAATGGAACGATGCAAGTATTAACGAAAGACACAGTTAAAGGAATTAGTAACCGAGCAAAAAGGAAGAGGGAAGAAGATCGTAAGAAAGGTTTATCTGTCCCGGAGGAACATGTTTTTCAAGATGTTCGAGAACAGTTAAAGTACAATCGTTATCTTGCAAATATGCCAAATGGTTATTCAGTTGCAAATGGAATGAAAGAAGCGATACATTATTTACAACATGGTGAATTACATATAGATGAAGTGAGTGGAATTTTTATTTGTTCAGACGGGTTATTTCACCCAGATTGGCCACTCGAACAAACAGTTGCATATATAAGAAAGAATAGTATAAACGAATATGTAGCAATCATTGAAGAGCTGGAAGGGGAAAAGAGAATAAGACCAGATGATAAAACGATTATTATGATTGATTTTTAA	MKGDTVVKIKTYQQKSPLKQECEDSYFCNKEKKIYGVCDGATPLVPFGDENGHNGAYIASHLFASYFTSLRENHRLRFAVAKANEALQSKMLEYKVDTRKKDHLWCTCIAAVQIDGEKIEYAQLGDCMIVATFQNGTMQVLTKDTVKGISNRAKRKREEDRKKGLSVPEEHVFQDVREQLKYNRYLANMPNGYSVANGMKEAIHYLQHGELHIDEVSGIFICSDGLFHPDWPLEQTVAYIRKNSINEYVAIIEELEGEKRIRPDDKTIIMIDF				NA	NA	NA	NA	NA
AK009_03610	810			hypothetical protein	ATGGTCAGATTCCTTGGTGTTATTATCGGTTCTATTATTATTGCGGTTGCCTTTAATCTTTTCCTTATCCCCCACAAAATTTTAAGTAGTGGAATTGGCGGAATTGCTATTATTTTAGGAATTGTAACCCCTGTAAACACAGGCATTATTAACTTTGTATTAAACTTACCTATCCTTATTTTAGGGTACATAGGTCTTGGAAAAAAAGTAATTTTTAACACAGTTGTCTCTGTAGTTGTATTATCTGTTGCATTATACTACGTTCCAGTAAAAGTCGTAGCAACAGATCCATTGTTATCTTCTATCTTCGGAGGTGTCATCGCCGGAGCTGGTATTGGTCTTGTTTTTAACTGTAATGGATCCACTGGTGGATTTGATATTATCGGTATGCTTTTATCCCGCAAGCGAGACATTAAACTTGGCGGATTCCTTATTATTTTAAATGCAGTCGTTGTAATAATCGCAGGATTCTTCTTCACCTGGGATGTTGCACTTACAAGCTTACTTTCAATTTATGTAACTGGTAAAGTAATTGATGCTGTTCATACAAAACATCGTAAAGTTACACTTATGATTGTAACAAATGAAGCAGAAAAAATGAAAAAACAACTTCTTTCAACTGTTGTACGTGGAATAACGTTACTTGATGGCGAAGGTGCTTATTCAAGCGAGAAAAAGCGTGTACTTATGACCGTCGTTTCTCGTGAAGAATTAGCAAGTATGAAACTAACAATTTCTGAAATCGACCCGAATGCATTCGTTAATATTACAGAAACTGTAGAAGTATTAGGACTTTTCAGAAGAAGTTAA	MVRFLGVIIGSIIIAVAFNLFLIPHKILSSGIGGIAIILGIVTPVNTGIINFVLNLPILILGYIGLGKKVIFNTVVSVVVLSVALYYVPVKVVATDPLLSSIFGGVIAGAGIGLVFNCNGSTGGFDIIGMLLSRKRDIKLGGFLIILNAVVVIIAGFFFTWDVALTSLLSIYVTGKVIDAVHTKHRKVTLMIVTNEAEKMKKQLLSTVVRGITLLDGEGAYSSEKKRVLMTVVSREELASMKLTISEIDPNAFVNITETVEVLGLFRRS				NA	NA	NA	NA	NA
AK009_03611	372			hypothetical protein	ATGAAAAATTATATTCAAGGGATTAATCACGTGCAAGTAGCTGCACCTGTAGGGTGTGAAGAAGAGGCGCGTGATTTTTATGGGAATACAATTGGTATGGAAGAAATTCCAAAGCCAGAAAAGTTGAAAAAACGAGGTGGATGTTGGTTTAAATACGGAAATCAAGAAATCCATATTGGTGTGGAGCGGAACTTTACACCAGCTAAAAAGGCTCATCCAGCTTTTTATGTGAATGAAATTAATGAATTTAAGCAAACACTTATAGAGCAAGGTGTTAAAGTGATTGATGATTATGCACGGCCAGATGTAATTCGATTTTACGTGTCAGATCCATTTGGAAACCGAATTGAATTTATGCAAAATAAAGACTAG	MKNYIQGINHVQVAAPVGCEEEARDFYGNTIGMEEIPKPEKLKKRGGCWFKYGNQEIHIGVERNFTPAKKAHPAFYVNEINEFKQTLIEQGVKVIDDYARPDVIRFYVSDPFGNRIEFMQNKD	PGPT0009300_46	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009300-cbiZ-K08260	NA	NA
AK009_03612	1533	kinE_1	COG2202	Sporulation kinase E	ATGAGTCGTAAAAAATATTCACCAACTCAAAAAAAACGTCATCCGAACATTTCTAGACGTTTGCGAAACCATATACAAGATCGTTCATTAACAGAAATGTACGCATCTCTGTTCGAACACAATCCTGATAGTATTATTTCATTAAATTTAGAAGGAGTTATTCTACATATAAATCCTTCTGCCGAAAGAATATTAGGTTACACTTCTTTAGAATTAGAACAGAAAAATATTACCTCTATTTTAGAAGCCCATATTTCTGAGCAAGTATTACAAAATATAAAGAATACTGAAGCGGATAATCAACAAGAGTATATCTTATCTATTTATCATAAAAATGGATTCTTATTAGATGTTGTGACAAAACTAGTTCCTATTTTTGTTCAAAATCGTCTTACTGGCGTATATGCTATTATGAAGCCGCTTGAAAAATCAGAAAGAATTGAGAATATGCTAAAAGAAAGTGAGAAGAGATTACGTACATTAGTAAACTCCATGCCTGCCTTTGTTATATTTAAAGATCATGAAGGGCGCTGGCTTGAGGCAAATGACTACGCACTTTCTTGCTTCAATTTCCATCATGTACCTTACCATGGGAAAAAAGATAGCGAACTCATTCAATATAATGAAGCATACCGAGAAGCTTTTTTACATTGTGAAGAAATTGATGAACTAGCATGGCAACAAAGACAAATTCTTCATGGCGAGGAATTTATTATACATAGAGATGATTTCGATCTAATCTTAAGTATATCAAAAGTCCCGCTTTATCATCCTGACGGTTCTCGCAAAGGTCTTATCGTGATGGGGAGAGATGTTACTGAGCTAAAAGAAACTGAAAAGTTATTACGAAAATCTGAGAAGCTCGCAGTAGTCGGACAACTGACAGCTGGAATTGCCCATGAAATTCGAAATCCACTCACTTCTCTAAAAGGTTTTCTAACGTTGCTCCTCCCTGAAATAAATGAGGAGCAAAAATGGTATATCGATGTTATGTTAAGTGAGATTTCACAAATGGAATCCATCACAAGTCAATTTATGGCGATGTCTAAGCCACAAGTATTATCTATCCAAACTTGTAACATACAAACTTTAATTGAAGAGGTAGTTACATTTATTTTACCGACTGCAATTATGCATAGCGTTCATATCATCATGGATCATTTTGATTACGTATATGATATTCAATGTGACGGTAACCAATTAAAACAAGTTTTTATAAACATATTAAAAAATGCGATAGAAGCGATGCCAAATGGCGGAAATATTTTCATTCAAACAAAACCATTAGAGGATAATTTCATCTTAATACGAATTATCGATGAAGGTTGTGGCATTCCAGAAGATCGTATCTCCCGTCTAGGCGAACCTTTTTATAGTTTAAAAGAAAAAGGCACAGGACTAGGATTAATGATGTGTTACAAAATAATTGAAGAACATCATGGTAAATTACACATTTCAAGCGAATTAAATAAAGGTACGATTGTTGATATTGAGCTACCACTTTCTTCATCTCATCTTGCAATCCAGTCTTAA	MSRKKYSPTQKKRHPNISRRLRNHIQDRSLTEMYASLFEHNPDSIISLNLEGVILHINPSAERILGYTSLELEQKNITSILEAHISEQVLQNIKNTEADNQQEYILSIYHKNGFLLDVVTKLVPIFVQNRLTGVYAIMKPLEKSERIENMLKESEKRLRTLVNSMPAFVIFKDHEGRWLEANDYALSCFNFHHVPYHGKKDSELIQYNEAYREAFLHCEEIDELAWQQRQILHGEEFIIHRDDFDLILSISKVPLYHPDGSRKGLIVMGRDVTELKETEKLLRKSEKLAVVGQLTAGIAHEIRNPLTSLKGFLTLLLPEINEEQKWYIDVMLSEISQMESITSQFMAMSKPQVLSIQTCNIQTLIEEVVTFILPTAIMHSVHIIMDHFDYVYDIQCDGNQLKQVFINILKNAIEAMPNGGNIFIQTKPLEDNFILIRIIDEGCGIPEDRISRLGEPFYSLKEKGTGLGLMMCYKIIEEHHGKLHISSELNKGTIVDIELPLSSSHLAIQS				NA	NA	NA	NA	NA
AK009_03613	609	mhqD	COG0400	Putative hydrolase MhqD	ATGATGAAACATGTTTTTCAAAAAGGAAAAGATACGTCAAAACCAGTGTTGTTATTACTTCATGGCACAGGTGGTAATGAATTAGATTTACTATCACTTGCAGAAATAGTTGATCCGGAAGCGTCGGTATTAAGCGTTAGGGGAAATGTGTTAGAGAATGGGATGCCGCGTTTCTTCCGCCGATTAGCAGAAGGCATTTTTGATGAAGAGGATTTAATTTTCCGTACGAAGGAATTAAATGAATTTTTAGATGAAGCGGCTAAAGAATATAAATTCGATAGAAATAACATTGTAGCTATCGGTTATTCGAATGGGGCAAATATCGCAGCAAGCTTATTATTCCATTACGAAAATGCATTGAAAGGTGCTGTGCTTCATCACCCAATGGTACCAAGAAGAGGAATGCAATTAGCAAATTTAGCAGGGAAATCTGTGTTTATTGCTGCTGGGACAAATGACCCAATTTGTTCATCAGCAGAGTCCGAGGAATTGAAGGTACTATTAGAAAATGCAAACGCGAATGTAACAATACATTGGGAAAATCAAGGGCATCAATTAACGATGGGTGAAGTAGAAAAAGCAAAAGAGTGGTATGACAAAGCATTTTAA	MMKHVFQKGKDTSKPVLLLLHGTGGNELDLLSLAEIVDPEASVLSVRGNVLENGMPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPMVPRRGMQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTIHWENQGHQLTMGEVEKAKEWYDKAF	PGPT0028515_3443	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
AK009_03614	939	mhqO	COG0346	Putative ring-cleaving dioxygenase MhqO	ATGACAAAGAAAACGATGGGAATTCACCACATTACAGCAATCGTAGGACATCCACAAGAAAATGTAGATTTTTATGCTGGTGTATTGGGGTTACGTTTAGTGAAACAAACAGTGAATTTTGATGATCCAGGTACGTACCATCTTTATTTTGGAAATGAAGGAGGAAAGCCTGGAACAATTATTACGTTTTTCCCATGGGCAGGTGCTCGTCAAGGTATTATTGGAGATGGTCAAGTAGGAATTACGTCTTACGTTGTACCAAAAGGTGCAATGGAGTTTTGGGAAAATAGATTAGAAAAATTCGATGTTTCGTATACAAAAATGACTCGTTTTGGAGAACAGTATTTAGAATTTGATGATCCGCATGGTTTGCATATAGAATTAGTTGAAAGAGAAGAAGGCGAATTAAATAATTGGAGTTTTGGAGAAGTTACACCAGAAGTAGCAATTAAAGGGTTTGGAGGTGCTGTTCTTTTATCTGCACAGCCTCAAAAAACAGCTGAATTGTTAGAACATATTATGGGTCTTGAGAAAATTGGAGAAGAGGGTGAATTTGTTCGATTCCGTTCTTCTGCTGACATTGGAAATATTATTGATTTGAAATTATCAACAATCGGTCGTGGCCAAATGGGCGTTGGCACAGTTCATCATATTGCTTGGAGAGCGAGTGACGATGCAGATCAGCTAGACTGGAAAGAGCATATGACTCGTTTTGGATATCACGTAACTCCTGTACAAGACCGAAATTATTTTAACGCGATTTATTTTAGAGAACATGGTGAAATCTTATTTGAAATTGCAACAGATCCTCCTGGTTTCGCTCATGATGAATCGTTAGAGACGATGGGTGAGGAATTAAAGTTACCGGAACAATATGAACAACATAGAAAACAGATTGAACAAACGCTTTTACCATTTGAAGTGAGAAATTTAGATTAA	MTKKTMGIHHITAIVGHPQENVDFYAGVLGLRLVKQTVNFDDPGTYHLYFGNEGGKPGTIITFFPWAGARQGIIGDGQVGITSYVVPKGAMEFWENRLEKFDVSYTKMTRFGEQYLEFDDPHGLHIELVEREEGELNNWSFGEVTPEVAIKGFGGAVLLSAQPQKTAELLEHIMGLEKIGEEGEFVRFRSSADIGNIIDLKLSTIGRGQMGVGTVHHIAWRASDDADQLDWKEHMTRFGYHVTPVQDRNYFNAIYFREHGEILFEIATDPPGFAHDESLETMGEELKLPEQYEQHRKQIEQTLLPFEVRNLD	PGPT0028510_1083	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
AK009_03615	1479	opuE	COG0591	Osmoregulated proline transporter OpuE	GTGAAGATTGAAATTATGGTTTCGCTTGCTATTTATATGGCAGGTATGTTGTATATCGGATATTGGTCTTATAAGAAGACATCCGATTTATCAGATTATATGTTAGGCGGAAGAGGACTCGGTCCAGCAGTTACAGCTTTATCAGCTGGTGCTTCTGACATGAGTGGTTGGATGCTAATGGGATTACCTGGTGCGATGTATGCAACAGGATTATCAAGTGTATGGATTGCGATAGGTTTATTAATAGGTGCTTATGCAAACTATTTAATCATTGCCCCGCGTTTACGAACGTATACAGAAGTGGCAAATGATTCAATTACGATTCCAGACTTTTTAGAAAATCGGTTTAAAGATCGTACGAAAATACTTCGTTTTGTCTCCGCTATCGTCATTTTAGTATTTTTCACATTTTATGCGTCGGCTGGTTTAGTTTCAGGTGGACGTTTGTTTGAAAATTCTTTTAACCTGGATTATAAAATTGGTTTATTTGTAACAGTGGGTGTCGTTGTTGCGTATACACTATTTGGTGGTTTTCTAGCCGTAAGTTGGACGGACTTTGTGCAAGGGTGTATTATGTTTATTGCGCTTGTACTAGTGCCAATTGTTGCTTTTACGGATGTCGGTGGTGTAACAGAAACATTCAATACGATTAAGCAAGTTGATGCATCACATTTAGATATGTTTAAAGGGACTACAATACTTGGTATTATTTCATTTTTAGCATGGGGTCTTGGGTATTTTGGTCAACCACATATTATTGTCCGCTTTATGGCAATTACCTCTATTAAAGATTTAAAAACTTCTCGTAGAATCGGTATCGGTTGGATGACGATTTCAATTATAGGTGCAATGCTTACTGGTCTAATTGGTATCGCTTATTATGCTAAAAATAATGCGACATTACAAGACCCAGAAATGGTCTTTGTAACATTCTCAAATATTTTATTCCATCCATACATTACAGGATTTTTATTATCAGCTATTTTGGCTTCGATTATGAGTAGTATTTCCTCACAATTACTTGTTATTTCAAGTGCAGTAACGGAAGACTTTTATAAAACATTTTTCCGTCGTAACGCAAGTGACAGAGAACTTGTATTTATCGGTAGATTATCAGTATTAGTAGTAGCTATGATCGCAGTTGTTTTAGCGTATCATCCAAGTGATACAATTTTAACACTTGTAGGTTATGCCTGGGCTGGATTTGGTTCAGCATTCGGACCAGCTATTTTATTAAGTTTATATTGGAAAAGGACGAATAAGTGGGGCGTTCTTGCAGGTATGATTGTTGGTGCAGTAGTTGTTATAGCATGGGTACAAATTCCAAGTTTAAAAGCGACTATGTATGAAATGGTACCTGGATTCTTCTGTAGTTTATTAACTGTTATCGTTGTAAGTTTATTAACGAAAGAACCCGTTAAGGCAGTTCATCGTGAATTTAATGAGATGGAAGCAGTGCTGGAAGAGGAAACGAAATAA	MKIEIMVSLAIYMAGMLYIGYWSYKKTSDLSDYMLGGRGLGPAVTALSAGASDMSGWMLMGLPGAMYATGLSSVWIAIGLLIGAYANYLIIAPRLRTYTEVANDSITIPDFLENRFKDRTKILRFVSAIVILVFFTFYASAGLVSGGRLFENSFNLDYKIGLFVTVGVVVAYTLFGGFLAVSWTDFVQGCIMFIALVLVPIVAFTDVGGVTETFNTIKQVDASHLDMFKGTTILGIISFLAWGLGYFGQPHIIVRFMAITSIKDLKTSRRIGIGWMTISIIGAMLTGLIGIAYYAKNNATLQDPEMVFVTFSNILFHPYITGFLLSAILASIMSSISSQLLVISSAVTEDFYKTFFRRNASDRELVFIGRLSVLVVAMIAVVLAYHPSDTILTLVGYAWAGFGSAFGPAILLSLYWKRTNKWGVLAGMIVGAVVVIAWVQIPSLKATMYEMVPGFFCSLLTVIVVSLLTKEPVKAVHREFNEMEAVLEEETK	PGPT0013955_4070	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
AK009_03616	489			hypothetical protein	TTGCAGCAAGGTTCGTACAGTATTACAATTTTTTTACTCGTCATAGGGCTCGTTATATTTAGACGCATGCGTTCTATGAATCGACCAATTAAAAATAAAGGAAGACGATTACTATTGCCATTATTCTTCTTATTACCAGGTTTTTCTTTATATGCTGCACCGATACAACTTGTTGGTTGGCAAATTGGTATAGCTGCTGGGATCGGTCTGTTATTGTCAATTCCACTTATTATTTTAAGTGGGTATGAAGTTAGAGAAGATGGCCAAATTTATGCGAAAAAAAGTATCGCTTTTATTGCTACATTTTTAGTTATCGTTCTTTTACGTGCTTATTTTAGAAGACATTTACAAGGTTTAGATCCAAAGTCAATTGGCATTCTTTTCTACACTCTTGCGGTTTGTTATATAGTACCCTGGCGTATTGGATGCTATATGAAATTTCGTAAAGTATATGTAGAGAAAGAGAAAATTGAGATGTCAATAAGCTAA	MQQGSYSITIFLLVIGLVIFRRMRSMNRPIKNKGRRLLLPLFFLLPGFSLYAAPIQLVGWQIGIAAGIGLLLSIPLIILSGYEVREDGQIYAKKSIAFIATFLVIVLLRAYFRRHLQGLDPKSIGILFYTLAVCYIVPWRIGCYMKFRKVYVEKEKIEMSIS				NA	NA	NA	NA	NA
AK009_03617	1575			hypothetical protein	ATGAGTGAAACGCTACTCGTTATTATTAGTATATTACTATTTTTAATGTTGCTTTTAATCGTCTTTTTTATCATTACATTTTTTATAAAAAAACGAACACATCATTCTATTTTAAAGTTACATCCATACTTAGGAAGAATGCGCTACTTACTGGAAAAGATAGGGCCTGAATTTCGACAATATTGGTTTGATCATGATACGGATGGAAAGCCTTTCTCACGTTATGATTTTCAAAGTGTTATGTTTTTAGCGAAATATCGCTCTGAAATACTTGGTTTTGGATCAAAACGAGATTTTGAAGCTTCTGGCTATTATATTGCTAATACATTATTTCCGATATTGACTGAGGAATTAAGTGTGAATCTCACGCAAGAGCGAGAAGGTAAAAAGTACGTGATTCATAAAGAAGGGTTATTTTCAAGAAGAGAAAAATTGACAGCGGATACAACGAATCTTTGGCTGTACGAAGAAGATGATGCAATTATAGTCGGTGAGAACCGTAAATATCCGTGGAAGCTACATGGTATGTTTGGTGCATCTGCGACTTCTTACGGCGCGATTGGAGAAAATTATATTTTAGCGAGTGGTTTTGGAGCAAAAATGGCAGGCGGATCGTGGATTAATACTGGTGAAGGTGGCGTTATTCCAGAACATTTACATACAGGAGCAAATATCCTTGCGCAAATTGGTCCAGGGTTATTTGGATACCGCGATGAGGACGGTAATTTTTCAATGGGAAAATTCAGGGAGAAAGCAAAAGAAAGTAATATTAGAGCATTCGAATTGAAATTTGGGCAAGGTGCTAAAATACGTGGTGGTCATCTAGAGGGACAAAAAGTAAATGAGAAAATTGCTTCTGTTCGCAACGTCAGAAAGGGAGAGACGATTAATTCACCGAATCGATTTTCATTTTTAAAGAATGCAACGGATACACTTTGTTTTATTCAACAGTTGCAAGAAAGCGGCGGTAAACCAGTTGGAATGAAAATTGTAATTGGTCAGCAGGAGCCTTTGGAAGATTTATTTAAAACGATGAAAGAGTTAAATATCTATCCAGATTTCATTACAATTGATGGTTCAGAAGGTGGATCAGGAGCGACGTATAAATCGATGGCAGATAGTATGGGAATGCCGCTTATTCCAGCGTTACTGACATGTATTGATACAGCGAATCATTATGGTGTTCGGGACAAATTCAAAGTGTTTGCATCGGGGAAATTAATCACACCAGATAAAGTGGCGATTGCTTTAGCGATTGGAGCGGATGCTGTAAGTTCAGCCCGCGGATTTATGATGGCAAGCGGCTGTATTATGGCCCTTCAATGTAATTCTGGCCAATGTCCATCTGGTGTAGCCACGACGAATCCGCATTATCAAAAAGCGTTAGATCCGTATGAGAAGAAGTGGCGAGTCATGAATTATATTATTAGTATGAGATATAGTTTATTTTCATTAGCAGCGGCAGCGGGAGTAAAGAGCCCGCGCCATTTAACTAGAGAGCATATTGTGTTTAAAGACGAGATGGGGAGAGTAGTTCCTCTTTCGGAATTGTTTCCTATAGTAAATCAAATCTAA	MSETLLVIISILLFLMLLLIVFFIITFFIKKRTHHSILKLHPYLGRMRYLLEKIGPEFRQYWFDHDTDGKPFSRYDFQSVMFLAKYRSEILGFGSKRDFEASGYYIANTLFPILTEELSVNLTQEREGKKYVIHKEGLFSRREKLTADTTNLWLYEEDDAIIVGENRKYPWKLHGMFGASATSYGAIGENYILASGFGAKMAGGSWINTGEGGVIPEHLHTGANILAQIGPGLFGYRDEDGNFSMGKFREKAKESNIRAFELKFGQGAKIRGGHLEGQKVNEKIASVRNVRKGETINSPNRFSFLKNATDTLCFIQQLQESGGKPVGMKIVIGQQEPLEDLFKTMKELNIYPDFITIDGSEGGSGATYKSMADSMGMPLIPALLTCIDTANHYGVRDKFKVFASGKLITPDKVAIALAIGADAVSSARGFMMASGCIMALQCNSGQCPSGVATTNPHYQKALDPYEKKWRVMNYIISMRYSLFSLAAAAGVKSPRHLTREHIVFKDEMGRVVPLSELFPIVNQI	PGPT0014521_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014521-yerD-NA	NA	NA
AK009_03618	1128	nemA	COG1902	N-ethylmaleimide reductase	ATGACAAGTTCAAGTAATAAAGCAGCGAGTATTTATGAAGGAACAAATGTAAACGCTGGGGGATCTTTTGAAAACGTTGAAGAAACAAAGTTGTTTGATCCAATTCAAATTGGAGCTTGGTCTCTTCGTAATCGTATAGCAATGGCACCAATGACAAGATGCTTTGCAGATAATGAGACTGGAGCAGTGGGTGCTGATGTAGTGGAATACTATAGAAAGCGTGCTGCTGACGGAGTTGGATTAATTATTACAGAAGGAATTGTCATTAGTCCAAGAGCGAAAGGGAATCCAGGAGTACCAGGAATTTATACACAAGAACAAATCGATTCTTGGAAACCTGTTACAGAGGCAGTACATAAAGAAGGCGGGACGATTATTGCTCAAATATGGCATGTTGGGCGTATGAGTCATCATGAAATAATTGGTGGACAAATGCCGCAAGCACCATCTGCTATCGCTGCAGAGGGAAATGTTCCACGTTTTCGTAAACCGTTTGATACGCCAGAAGCAATGACGTTAGAAGAAATACAAGAAGTGATTGGTCAATACGCACAAGCTGCGAAAAATGCAATCGAAGCTGGATTTGATGGAGTAGAAATTCACGGTGCACACGGATATTTAATTGATCAATTTACGTATGAGTCTGCGAATAAGCGAACAGATAAATATGGCGGTAATTTAAAACAAAGGTTAACGTTTATGAAAGAAGTAACGGCTGCTGTAATAGAAGCTGTTGGAGCTAATAAAACACTTCTTCGCTTCTCTGCTTTCAAAGGTGATAATCCTACTTATATGTGGGAAAATCCTGAGCTTGCAATTGAAACGTTCGTAAATATGTTCAAAGAAGTTGGATTAACGATGATCCATCCTTCAACGATGAATTATACGCAAGGAATTGCTGACGGAAAGAATTTTCATCAACTAGTAAGAAAATATTGGGATGGTACAATTGTTGGGGTTGGTAATTTAAATCCGAAAGAGGCCGAAGAAGCGTTGCAAGAAGGAACGATTGATGTAGTGGCATTCGGCAGACCGTTAATTGCTAATCCAGACTTTGTTCATCGAATTAAACATGCTGAAAGTTTAGTTGAATATGACGCGAAAGAGCATCTTGTTACGTTAGTATGA	MTSSSNKAASIYEGTNVNAGGSFENVEETKLFDPIQIGAWSLRNRIAMAPMTRCFADNETGAVGADVVEYYRKRAADGVGLIITEGIVISPRAKGNPGVPGIYTQEQIDSWKPVTEAVHKEGGTIIAQIWHVGRMSHHEIIGGQMPQAPSAIAAEGNVPRFRKPFDTPEAMTLEEIQEVIGQYAQAAKNAIEAGFDGVEIHGAHGYLIDQFTYESANKRTDKYGGNLKQRLTFMKEVTAAVIEAVGANKTLLRFSAFKGDNPTYMWENPELAIETFVNMFKEVGLTMIHPSTMNYTQGIADGKNFHQLVRKYWDGTIVGVGNLNPKEAEEALQEGTIDVVAFGRPLIANPDFVHRIKHAESLVEYDAKEHLVTLV	PGPT0005930_290	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
AK009_03620	477	carD_3	COG1329	RNA polymerase-binding transcription factor CarD	ATGGAGGTGGATTATTTGTTTCAAATTGGCGATAACATTGTTTATCCAATGCAGGGAGCAGGTATAATTAAAGCCATAGAAGAGAAGGAAATCTCAGGAGAAAAACAACAGTATTATGTTATAAAAATGTCGGCTAGTAATATGGAACTAATGATTCCAGCAGGGAGAATATCGAATTCGAATATACGACCAGTTACGGATATAACCGCATTAGTACACATAATGGATATTTTTCAACATGGGGAGTCAGATAGATTACTTACGTGGAAACAAAGGTATAAATTGAACACTGATAAAATAAAGACGGGTAAAATGCAAGAAGGTGCTGAAGTTGTGCGTGATTTAATGCGTATACAGAAAGAAAAAGCACTTAATGCAAGCGAAAAGAAGATGTTAGATAACGCATATGAATTTTTGATTAGTGAGCTGGGATTAATTGAAGGTATCACAGAAAATCAGATAAAAAGCTTTTGTTAA	MEVDYLFQIGDNIVYPMQGAGIIKAIEEKEISGEKQQYYVIKMSASNMELMIPAGRISNSNIRPVTDITALVHIMDIFQHGESDRLLTWKQRYKLNTDKIKTGKMQEGAEVVRDLMRIQKEKALNASEKKMLDNAYEFLISELGLIEGITENQIKSFC	PGPT0014830_1467	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
AK009_03621	972	hutG	COG0010	Formimidoylglutamase	GTGGAGCACGGCCACTATTTAAAGAAGAATGCAAAGTTTATTGATCGTGAAGTGACAAAATGGAGTGAGATAATTAAAGATTGGGAGGAAGGCGTAGAAATATTCGGTGCTGCCTTAATTGGAGCACCCCTTTCTAAGCCATCTATTAGTCATTCAGGAGCAAGTTTTGCTCCAAAAACAATTCGTGCGATGTTAGATGCATATAGTACGTACGCAATTACAGAAGAACACGATATGAAAGAAAGTGTCTTATATGATTGCGGCGATATCACGATGCATGTGACGGATATAAAAGAAAGTCATAACCGAATTGCGAAAACAGTTGGTCATGTAACGAAAGTAAATCCGAACATGATACCAATCGTTCTTGGTGGTGACCACTCGATTAGTTTTCCGAGTATAACAGGCTTTACAAACAGTAAAGGAAAGGTCGGGATTATTCAATTTGATGCTCATCATGATTTACGTAATTTAGATGGTGGAGGCCCGTCAAATGGTACACCATTCCGTAGTTTATTAGAAAATGATGTCATTACAGGGAAACAACTTGTTCAAATTGGAATTCGTAATTTTTCTAACGCACGTGCGTACCATGAATATGCAATAGAGCATGGCGTAACAGTGTATACAATGAAAGACGTACGAGAGCGAGAAATAAAAGATATTATCACGGAAAGTATTGAAGTATTAAGAAAACAAGGTGTGACTTCTATTTATATTTCTCTTGATATGGATGTACTAGACCAAGCGTTTGCACCAGGTTGTCCAGCAATTGGGCCTGGTGGAATGGATAGTACGACTTTACTAGATGCGATTGAATTCCTGGGTAAAGAACCGCTCGTTCAAGGAATGGATATAGTAGAGATTGATCCAACTCTTGATTTTAGGGATATGACGAGCCGAGTAGCTGCGCAAGTAATTATGAGTTTTCTTTTAGCGAGGGAAACAATTAGTAAGCGGGTTAGTATATAG	MEHGHYLKKNAKFIDREVTKWSEIIKDWEEGVEIFGAALIGAPLSKPSISHSGASFAPKTIRAMLDAYSTYAITEEHDMKESVLYDCGDITMHVTDIKESHNRIAKTVGHVTKVNPNMIPIVLGGDHSISFPSITGFTNSKGKVGIIQFDAHHDLRNLDGGGPSNGTPFRSLLENDVITGKQLVQIGIRNFSNARAYHEYAIEHGVTVYTMKDVREREIKDIITESIEVLRKQGVTSIYISLDMDVLDQAFAPGCPAIGPGGMDSTTLLDAIEFLGKEPLVQGMDIVEIDPTLDFRDMTSRVAAQVIMSFLLARETISKRVSI	PGPT0020240_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
AK009_03622	1272	hutI_1	COG1228	Imidazolonepropionase	ATGCTGGACACTTTACTAATAAATATCGGTCAATTACTAACAATGGATCAAGAAGATGGCTTGTTAAGGCGGGAAGCGATGAACATGCTTCCTGTTATCGAAAACGGTGTGGTTGGAATTGAAAATGATGTAATCACTTTCGTTGGAACAGCGGAAGAAGCGAAAGGACTTCAGGCGAAAGAAGTTATTGATTGCGGCGGGAAAATGGTTTCTCCTGGTCTTGTTGATCCGCATACTCATCTTGTATTTGGTGGATCTCGCGAAAATGAAATCGCACTAAAATTACAAGGAGTTCCGTACTTAGAAATTTTAGAACAAGGCGGAGGTATTCTTTCAACTGTAAATGCAACGAAACAGGCGTCGAAGGAAGAACTTGTTCAAAAAGCGAAATTCCATTTAGACCGTATGCTATCTTTCGGAGTTACTACTGTAGAAGCGAAGAGCGGTTACGGATTAGATGATGAGACGGAATGGAAACAATTAGAGGCAACAGCACAATTACAAAAAGAGCATCCGATCGATTTAGTTTCCACATTTTTAGGTGCTCATGCAGTTCCGAAAGAATATAAAGGTAGATCGAAAGAATTTTTACAATGGATGTTAGACTTATTGCCAGAAATGAAAGAGAAGCAATTAGCGGAGTTCGTTGATATTTTCTGTGAAACAGGTGTGTTCTCTGTCGAAGAATCAAAAGAGTTTTTATTAAAAGCGAAAGAGCTTGGCTTTGATGTGAAAATTCATGCGGATGAAATAGACCCTCTTGGTGGTGCGGAAGCAGCGGCAGAAATTGGTGCAGCATCAGCGGACCATTTAGTTGGCGCTTCTGATAAAGGGATTGAAATGCTTGCAAACTCGAATACAGTAGCAACATTATTACCAGGAACAACTTTCTATTTAAATAAAGAAAGCTTTGCTCGTGGTCGTAAAATGATTGATGAAGGTGTTGCAGTTGCGTTAGCTACAGACTTTAACCCAGGTAGCTGTCCAACTGAAAATATTCAGCTTATTATGAGCATTGCGATGCTAAAACTGAAAATGACACCAGAAGAAGTGTGGAATGCCGTAACGGTTAACTCATCATATGCCATTAACCGTGGTGATGTAGCTGGGAAAATTAGAGTTGGTCGTAAGGCAGATTTAGTTTTATGGGATGCTTATAATTATGCTTACGTACCGTATCATTACGGCGTAAGTCATGTGAATACAGTATGGAAGAATGGTAATATTGCATATACAAGAGGTGAACAATCGTGGAGCACGGCCACTATTTAA	MLDTLLINIGQLLTMDQEDGLLRREAMNMLPVIENGVVGIENDVITFVGTAEEAKGLQAKEVIDCGGKMVSPGLVDPHTHLVFGGSRENEIALKLQGVPYLEILEQGGGILSTVNATKQASKEELVQKAKFHLDRMLSFGVTTVEAKSGYGLDDETEWKQLEATAQLQKEHPIDLVSTFLGAHAVPKEYKGRSKEFLQWMLDLLPEMKEKQLAEFVDIFCETGVFSVEESKEFLLKAKELGFDVKIHADEIDPLGGAEAAAEIGAASADHLVGASDKGIEMLANSNTVATLLPGTTFYLNKESFARGRKMIDEGVAVALATDFNPGSCPTENIQLIMSIAMLKLKMTPEEVWNAVTVNSSYAINRGDVAGKIRVGRKADLVLWDAYNYAYVPYHYGVSHVNTVWKNGNIAYTRGEQSWSTATI	PGPT0020235_427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
AK009_03623	1659	hutU	COG2987	Urocanate hydratase	ATGGAAAAAGTACAACAAACAATTCGCGCGCCAAGAGGTACAGAGTTACAAACGAAAGGGTGGGTGCAAGAAGCTGCACTTCGTATGTTAATGAACAATTTAGATCCTGAAGTTGCTGAAAAACCAGAAGAATTAGTTGTATATGGCGGAATTGGCCGTGCAGCTCGTAACTGGGAAAGCTACAATGCAATTGTAGATTCATTAAAAACGTTAGAAAGCGATGAAACGTTACTTGTTCAATCAGGAAAACCAGTTGCCATTTTTAAATCACATGAAGATGCACCGCGCGTTCTGTTAGCGAACTCAAACTTAGTACCAAAATGGGCGAATTGGGATCACTTCCGAGAACTAGAGAAAAAAGGACTTATGATGTACGGACAAATGACAGCTGGTAGCTGGATTTACATTGGAACACAAGGGATTCTACAAGGAACATATGAAACATTTGGTGAGGCAGCTCGTCAACATTTCGATGGTTCATTAAAAGGTACATTAACACTTACTGCTGGTTTAGGTGGTATGGGTGGTGCACAACCTCTTGCTGTAACGATGAATGGCGGTGTTGTCATTGCTATTGATGTAGATAAGCGCAGCATCGATCGTCGTATTGAAAAGAGATATTGTGATAAGTATACAGAATCATTAGAAGAAGCATTGGCTATTGCAAACGAGTATAAAGAGAAGAAAGAGCCTATTTCAATTGGATTATTAGGTAATGCAGCAGAAATTTTACCTGAGTTAGTAAATCGTAATATTATCCCTGACTTAGTTACGGACCAAACATCTGCTCATGATCCATTAAACGGTTATATTCCAGTAGGTTATACGTTAGAAGAGGCAGCGAAACTTCGTGAAGAAGACCCAGAACGTTACGTACAATTATCAAAAGAAAGTATGACAAAGCACGTAGAAGCAATGCTTGCGATGCAAGAAAAAGGCGCAATTACATTTGATTATGGAAATAACATTCGCCAAGTTGCTTTCGATGAAGGTTTGAAAAATGCTTTCGATTTCCCAGGATTTGTTCCAGCATTTATTCGTCCATTATTCTGTGAAGGAAAAGGACCATTCCGCTGGGTAGCTCTTTCTGGTGATCCAGAAGATATTTATAAAACAGATGAAGTAATTTTACGAGAATTCGCTGACAATGAGCATTTATGTAACTGGATTCGTATGGCGCGTCAACAAGTGGAGTTCCAAGGGCTTCCATCACGTATTTGTTGGCTAGGTTACGGTGAGCGTGCGAAGTTTGGCCGCATCATTAATGAAATGGTGGCAAATGGTGAATTATCAGCACCGATCGTTATTGGTCGTGACCATTTAGATTGCGGTTCAGTAGCATCTCCAAACCGTGAAACAGAAGCGATGAAAGACGGTAGTGATGCAGTAGCAGACTGGCCAATTTTAAATGCATTAATTAATAGTGTAAACGGTGCGAGTTGGGTATCTGTTCACCACGGTGGCGGCGTTGGTATGGGTTATTCACTTCACGCTGGAATGGTTATTGTTGCAGATGGAACAGAAGCAGCAGCAAAACGTATTGAGCGCGTATTAACTTCTGACCCTGGTATGGGTGTTGTTCGTCACGTTGATGCAGGATATGACTTAGCAGTGGAAACTGCGAAAGAAAAAGGCGTTAACATTCCAATGATGAAATAA	MEKVQQTIRAPRGTELQTKGWVQEAALRMLMNNLDPEVAEKPEELVVYGGIGRAARNWESYNAIVDSLKTLESDETLLVQSGKPVAIFKSHEDAPRVLLANSNLVPKWANWDHFRELEKKGLMMYGQMTAGSWIYIGTQGILQGTYETFGEAARQHFDGSLKGTLTLTAGLGGMGGAQPLAVTMNGGVVIAIDVDKRSIDRRIEKRYCDKYTESLEEALAIANEYKEKKEPISIGLLGNAAEILPELVNRNIIPDLVTDQTSAHDPLNGYIPVGYTLEEAAKLREEDPERYVQLSKESMTKHVEAMLAMQEKGAITFDYGNNIRQVAFDEGLKNAFDFPGFVPAFIRPLFCEGKGPFRWVALSGDPEDIYKTDEVILREFADNEHLCNWIRMARQQVEFQGLPSRICWLGYGERAKFGRIINEMVANGELSAPIVIGRDHLDCGSVASPNRETEAMKDGSDAVADWPILNALINSVNGASWVSVHHGGGVGMGYSLHAGMVIVADGTEAAAKRIERVLTSDPGMGVVRHVDAGYDLAVETAKEKGVNIPMMK	PGPT0020250_2426	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
AK009_03624	1518	hutH	COG2986	Histidine ammonia-lyase	ATGATTACGTTAACAGGACACACATTGACAATTGAAGAAATGAAGAGATTGTTACTTGAAGGGGAAGGTGTAACAGCCTGTCCAACTAGTATGCAAAAGGTGGCGGAGTGCCGCGAAGTTGTTGAGAAAATTGTCGAGGACGGAAAAGTCGTTTATGGTATTACAACTGGATTTGGAAAGTTCAGTGATGTGCTTATTCAAAAAGATGATGTAAAGGCACTTCAACACAATTTAATTCAGTCACATGCATGCGGTATAGGCGATCCATTCCCTGAAGAAGTATCACGCGGTATGTTAATTTTACGAGCGAACACGATGCTTAAAGGAGTATCTGGTGTTAGACCGCTTGTTGTAAATATGCTTCTTGAGTTTGTAAATCGTAAAATTCACCCAGTTGTCCCGCAACAAGGTTCACTTGGTGCAAGTGGAGATTTAGCACCTTTATCTCATCTCGCTCTCGTATTATTAGGCGAAGGTGAAGTGTTCTATAAAGGGAAACGCGTTCATGCAATGGTTGCTCTTACAGAAGAAGGGCTTGAGCCAATTGAACTTGAAGCGAAAGAAGGTCTTGCGTTAATTAATGGTACGCAGGCGATGACAGCACAAGGAGTTCTTTCTTATATAGAGGCAGAAGCAACGGCGTATCAAGCTGAACTAATTGCTTCGATGACAATTGAAGGGTTACAAGGCATTATTGATGCATTTGATGAAAATGTTCATAAAGCACGTGGTTATAAAGAGCAAGTAGATGTAGCAAGCAGAATTCGTGACATTCTTCATGATAGTAAGTTAACAACAAAACAAGGAGAACTACGTGTACAGGATGCCTATTCACTTCGCTGTATCCCGCAAGTACACGGTGCTTCTTGGCAAGTTTTGAATTATGTGAAAGAAAAATTAGAAATTGAAATGAATGCAGCAACGGATAATCCGCTAATCTTTGATGGCGGAGAAAAAGTAATTTCGGGCGGGAATTTCCATGGTCAACCGATTGCGTTTGCGATGGACTTCTTAAAAGTAGGAATGGCGGAACTTGCAAATATTTCGGAGCGTCGTATTGAGCGTTTAGTAAATCCGCAATTAAATGATTTACCTCCATTTTTAAGTCCAGAACCAGGACTTCAGTCTGGTGCAATGATTATGCAGTATGCAGCAGCATCACTTGTTTCTGAGAATAAAACGTTAGCACATCCAGCGAGTGTAGATTCAATCCCGTCGTCAGCTAACCAAGAAGATCATGTAAGTATGGGAACAATTGCTTCACGCCATGCACATCAAATTATTCAAAATGCAAGACGTGTTCTTTCAATTGAGATGATTTGTGCAATGCAAGCAGCAGAATATCGTGGTATTGAAAACATGAGTACAGTGACGAAGAGCTTCTACCATCAAGGTCGTCAGCAAGTACCTTCTATTACAAATGACCGTATATTCTCAACGGATATTGAAAATATTGCGCATTGGTTAAAAACGAATTATTCGATAAAAGAAAGATTAGATGTAAACGCAGCACTATAA	MITLTGHTLTIEEMKRLLLEGEGVTACPTSMQKVAECREVVEKIVEDGKVVYGITTGFGKFSDVLIQKDDVKALQHNLIQSHACGIGDPFPEEVSRGMLILRANTMLKGVSGVRPLVVNMLLEFVNRKIHPVVPQQGSLGASGDLAPLSHLALVLLGEGEVFYKGKRVHAMVALTEEGLEPIELEAKEGLALINGTQAMTAQGVLSYIEAEATAYQAELIASMTIEGLQGIIDAFDENVHKARGYKEQVDVASRIRDILHDSKLTTKQGELRVQDAYSLRCIPQVHGASWQVLNYVKEKLEIEMNAATDNPLIFDGGEKVISGGNFHGQPIAFAMDFLKVGMAELANISERRIERLVNPQLNDLPPFLSPEPGLQSGAMIMQYAAASLVSENKTLAHPASVDSIPSSANQEDHVSMGTIASRHAHQIIQNARRVLSIEMICAMQAAEYRGIENMSTVTKSFYHQGRQQVPSITNDRIFSTDIENIAHWLKTNYSIKERLDVNAAL	PGPT0020230_3077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
AK009_03625	441	hutP		Hut operon positive regulatory protein	ATGCTTCTCCAAGGAACACATCGAATTGGTCGTATGGCCATGTTGTTGGCACTTGCGCATGAGAATGAAAGCCCTGTATTATCTATTCCAAAAGGTTGGAAGTATTGTACGGGGAAAGTGGGTTCGATGAATTCGCAAAAAGTTGTAGCAGCAATGGAAACAGCGGCTAAGAGCAACCAAGTTATTGAAACAGATGTTTACAGAGAAACACATGCACTTTATCATGCAATTATGGAAGCATTGTACGGAGTGACGAGAGGTCAAATTCAGTTAGCAGACGTTCTTCGTACAGTAGGACTTCGATTTGCGATTGTGCGCGGTAGACCATACGACGGAAAAAAAGAAGGCGAATGGGTTGCTGTTGCGCTATATGGAACGATTGGTGCACCTGTAAAAGGATCTGAGCATGAGGCGATTGGTTTAGGAATTAATCACATATGA	MLLQGTHRIGRMAMLLALAHENESPVLSIPKGWKYCTGKVGSMNSQKVVAAMETAAKSNQVIETDVYRETHALYHAIMEALYGVTRGQIQLADVLRTVGLRFAIVRGRPYDGKKEGEWVAVALYGTIGAPVKGSEHEAIGLGINHI				NA	NA	NA	NA	NA
AK009_03626	948	COQ5_3		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGACGAAGCGAAAAGATATTCATTTTCGAATTGAAGAAAAATTACTTGAAAGGTTTGAATCTGCACTTCAATATGAAGGTTTAAAGAAAACCGACGTATTAACACATGCGATTCAGCAATTTTGCACGAAGGTGGAATGTGAAAAAATGAATGATGTAAAACGGCAATATAGCGTCAGTAACAATTTACAAACACGTATCGATACGCATAAACATTACGAAGAAAAACAAGTGAATTTAGATGAAATCGTTATTGAACATTTACAACTTCAAGGGGAAGAAAGCATATTAGAGGTTGGGTGCGCTAGTGGAAAATTCCTTTCCCTTTTACAAACAAATGGTCATAAAGGCCCATTAACCGGGTTGGATCAATCCGAAGCTATGCTTGCTCAAGCTGCTAAGACGAATAACTTAATAGAATGGAAACGAGGGGATGCTAATAAACTTCCTTTTGAAACAAATTGTTATGACCTAATAATTGCAAGACATATGTTATACCATGTGAAAGACGTTGAAACAACAATTCAAGGATTACATAAAGTAATTCGTCCCGGCGGCTCACTTTTAGCTACAACAAATTCTAACGATACACTACCTCGTATAATTGAAATGTGTAACCGCATGTTAGACGCATTTGATTTACCGAAAACAACATCATCAGTCACTCCATTTTGTTTAGAAAACGGTAAAGAGATATTACAATCCGTTTTTCCAACTGTTGAAGAAACAGTTATTCATAAGGCGCTCGTTTTTCATCATGCTACCCCAATAGTAAACTATATTTCTAGCATGTTTCCATCGCTAAATATACCCGATAATATGTATCTTCAAGCCGAGATGAAAGAATGGCTAACAGAAGAAATCAACAAGGAATTATCTCTCCATAACGGTATATGGCGCGATCCAAAAACGTTAGTAATTTATCGGTGTAAAAAAGAAAAAAGCTAG	MTKRKDIHFRIEEKLLERFESALQYEGLKKTDVLTHAIQQFCTKVECEKMNDVKRQYSVSNNLQTRIDTHKHYEEKQVNLDEIVIEHLQLQGEESILEVGCASGKFLSLLQTNGHKGPLTGLDQSEAMLAQAAKTNNLIEWKRGDANKLPFETNCYDLIIARHMLYHVKDVETTIQGLHKVIRPGGSLLATTNSNDTLPRIIEMCNRMLDAFDLPKTTSSVTPFCLENGKEILQSVFPTVEETVIHKALVFHHATPIVNYISSMFPSLNIPDNMYLQAEMKEWLTEEINKELSLHNGIWRDPKTLVIYRCKKEKS				NA	NA	NA	NA	NA
AK009_03627	573			hypothetical protein	ATGAAAAAAATACTTTTATTCGTATATCCAACATTTGCGGAGTTTGAAATAACGGTAGCTACAGCATTGCTGAAAAAGAAATATGACATCATTACAGTAGGTTTAACTAAGGAATTGGTTATAAGTGAAACTGGGTTGCAAGTGCAGCCGCATATAGAAGTAAGTGAAGTACGTGTAGATGAGTATGAGGGGATACTTATTCCAGGTGGAGAAGAAGTACAGTTAAAAGATGCAAAAACTCTTTTTTCAATCATTCGGCAATTTCATGAACAAGAAAAATTAGTGGCGGCAATTTGCGCTGGACCGTATGCGCTAGCAAAAGCAGGCTTATTTAAGGGGATTTCTTATACTGCGACTATAGATTATCAAAAATTCGATTGTTTTCCAGTAAAAAATTTTGTGTATGAAGAAGTTGTGAAACATTCAAATATTATTACAGCACAGGGGCATGCATTTGTAGCATTTGGAATAGTGATTGCCTCTTATTTTGGAGTGGCAGACGAACATAATACAAATTTTTATTGTGGTAAAGGTAATGTAGTAATGGAGAAACTTTTACGAGAAAACGTGTAA	MKKILLFVYPTFAEFEITVATALLKKKYDIITVGLTKELVISETGLQVQPHIEVSEVRVDEYEGILIPGGEEVQLKDAKTLFSIIRQFHEQEKLVAAICAGPYALAKAGLFKGISYTATIDYQKFDCFPVKNFVYEEVVKHSNIITAQGHAFVAFGIVIASYFGVADEHNTNFYCGKGNVVMEKLLRENV	PGPT0008945_768	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B1|THIAMIN_METABOLISM	PLANT_VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008945-thiJ-K03152	NA	NA
AK009_03628	579			hypothetical protein	ATGGCATACGTAATTTCACTGCAAGGGCCGATGGCAAGCGGAAAAACAACATTGGCTAAAAGATTAGAAGAGAGAGGATATTCGGTTATATATGAAAATCCTTATCCAATTGTAGAAAAGCGAAAGCAATTAAATTTGGATGTGAATTCAAAAGAAGGGTTTATCATAAATCAAAAAATGTTTATCGAAGTAAAAATAAAGGAGTTTCAAAATGTGAAAGATTCAGTTGTTATTTTTGATCGTGGACCTGAAGATATTGAATTTTATACACTTTTTTATCCAATGATTATAGGGAAAGAGTGGGATATAGAAACTGGATTGAAAGATGAATTATATAAATTAAGAGAATGTCGTTCAGATGCTATTTTTTATTTAGATGTGACGAAAAAGAATGTATATGATAGAAAAAATAACGATAGGACAAGAAAACGAAGTACATTTGATGAGCAATTTAAATTAGTAGAAACGGAAAAAGATTGGTATAGACAATTTCCTGTAACTTATTTGGACACGAATAGATTAACAGTGGACGAATTAGAGGCATATTTTATGAGATGGTTGAAGGAGAAAGCGTTATGA	MAYVISLQGPMASGKTTLAKRLEERGYSVIYENPYPIVEKRKQLNLDVNSKEGFIINQKMFIEVKIKEFQNVKDSVVIFDRGPEDIEFYTLFYPMIIGKEWDIETGLKDELYKLRECRSDAIFYLDVTKKNVYDRKNNDRTRKRSTFDEQFKLVETEKDWYRQFPVTYLDTNRLTVDELEAYFMRWLKEKAL				NA	NA	NA	NA	NA
AK009_03629	297			hypothetical protein	ATGGTATACGACACAAAAGCAATTTCTTGGAATGAATCTTTAAAACAACTTCAACGCCGCTATACAAACAAACAAGTTGACCGAAAAGAATTTGAGGATATTGAACTGATGGAATTCTTCCGCGATAACGACTACATTTCTTTACCTACACATATAAGCGGCCTATCAAAAACACGTTTTACTTCTTACTCTATTTTCACAACTGAAGATAAAGATCGTAAAGTTGGCACACTTATTATTGAGTATGTTGAAGACGATAATAATAATTTATGTGTTGAACAACTATACTTCGTTTAA	MVYDTKAISWNESLKQLQRRYTNKQVDRKEFEDIELMEFFRDNDYISLPTHISGLSKTRFTSYSIFTTEDKDRKVGTLIIEYVEDDNNNLCVEQLYFV				NA	NA	NA	NA	NA
AK009_03630	432			hypothetical protein	TTGCTCGAAGGATGGTTCAGTTGGTTCATTGTATTGTGGACGGTTATTTTATTAGGACTTATGTCTATCGGTGGATACTTTATGTTCAGAAAATTTTTAAAACGATTACCAAAAGAAGACGGCATGTCCATTTTGGATTGGGAAGAACACTACATAAATAAAACGAGACATTTATGGGCTGACGAACAAAAACAATTGTTAGAAGAGCTTGTAAGTCCTGTTCCAGAACTATTTCGCGATGTTGCAAAATCAAAAATCGCTGGCAAAATTGGGGAACTTGCATTACAAGAAAATGCCTCTCAAATTACACAAGACTTAATTATTAAAGGATATATCATTGCCACACCAAAGCGTGATCATAAATTTTTAATTAAAAAACTACAAGAAAAAAAGATTGATTATTCTAACTATCAATCTTTACTCGCAAAGTAA	MLEGWFSWFIVLWTVILLGLMSIGGYFMFRKFLKRLPKEDGMSILDWEEHYINKTRHLWADEQKQLLEELVSPVPELFRDVAKSKIAGKIGELALQENASQITQDLIIKGYIIATPKRDHKFLIKKLQEKKIDYSNYQSLLAK				NA	NA	NA	NA	NA
AK009_03631	507			hypothetical protein	ATGAACATAGTTGTTTTATCCAGTATCGTTGCTGTTTGTATGGCTGTCGGTGCGATGTTTATTCGTTTAAAAGCAGCTAAGAAACCTGCAACATTGAAAAAAATTATACTTCCACCATTTTTTATGAGTACGGGCGCATTGATGTATGTTTTTCCTGAATTTCGATTAACTCCAGCAGAAATGTTAGAAGCAATTGGTGTCGGTTTGATTTTCTCTATTTTTCTTATTAAAACATCTAAATTTGAAATTAGAGGACAAGAGATTTATTTGAAGCGTTCAAAAGCCTTTGTTTTTATATTAATTGGATTACTTGTAGTGCGGATTGTATTTAAAACATACTTAAGCCAATCTCTTGATTTAGGACAACTTAGTGGCATGTTCTTCTTACTTGCGTTTGCGATGATTGTGTCATGGAGAATTGCAATGTATCGTTCCTTTACGAAATTACAGAAGGAAATGGAAAAAGAAGATGGTTTTTATAATGAAAAAGATATGAAGCTAACTTAA	MNIVVLSSIVAVCMAVGAMFIRLKAAKKPATLKKIILPPFFMSTGALMYVFPEFRLTPAEMLEAIGVGLIFSIFLIKTSKFEIRGQEIYLKRSKAFVFILIGLLVVRIVFKTYLSQSLDLGQLSGMFFLLAFAMIVSWRIAMYRSFTKLQKEMEKEDGFYNEKDMKLT				NA	NA	NA	NA	NA
AK009_03632	708			hypothetical protein	ATGCAAGATATTAGTATTTTTTTAGCGTTTGGCGCCGGGTTCTTATCATTTATTTCCCCATGTTGCTTACCGCTTTATCCGGCATTTTTATCGTACATAACAGGTATGTCGGTTTCTGAATTGAAAGAAGAAAATGCAATGCTTCGCAAAAGAAGTATGATACATACAGCGTTTTTCTTACTTGGATTTTCAATTATATTTATTGCAATTGGATTTGGTACAAGTTTTATTGGAGGAATCTTTACTGACTATAAAGATTTAATCAGACAGTTAGGTGGTATCTTTATCATCGTGTTCGGCTTAATTATTGTCGGGGTGTTTAAGCCGAAATTTTTAATGCAAGACCGTAAATTTACATTTAAAAATCGTCCAAGTGGCTATTTTGGATCAGTACTAATTGGATTAGCCTTTGCAGCAGGATGGACGCCATGTACCGGACCAATTCTAGTGTCCGTAATTGGATTAGCAGCAACAAACCCAGAATCTGCAATGATTTACATGATTGCTTACATACTTGGATTTGCTATCCCGTTTTTCGTACTGTCATTCTTTATTACGAAAATGTCTTGGATTAAAAGAAATAGTATGGCCTTCATGAAAATCGGAGGATATATTATGATTGTTATGGGTGTCTTCTTATACTTTAACTGGATGACGAAAATTATCGTATATTTCTCAAGTTTATTTGGTGGTTTTACCGGTTTTTAG	MQDISIFLAFGAGFLSFISPCCLPLYPAFLSYITGMSVSELKEENAMLRKRSMIHTAFFLLGFSIIFIAIGFGTSFIGGIFTDYKDLIRQLGGIFIIVFGLIIVGVFKPKFLMQDRKFTFKNRPSGYFGSVLIGLAFAAGWTPCTGPILVSVIGLAATNPESAMIYMIAYILGFAIPFFVLSFFITKMSWIKRNSMAFMKIGGYIMIVMGVFLYFNWMTKIIVYFSSLFGGFTGF				NA	NA	NA	NA	NA
AK009_03633	915			hypothetical protein	ATGCTTCGTTATTCTCTTTTAGTTTTATTAGGAGCGTGTAGTTATGGAATTTTAGCTATTTTTGTTAAGCTTGCATATGCAGAAGGATTTTCACTTGGAGAAGTAATTGGCAGCCAATATTTGTTCGGTTGGATTATTTTGCTTGCTATTACACTTCTATTTTCTAGACATCGCGTTCCTTTAAAGCAAGCATTACTTTTATTCGTTGCAGGAACATCTGCAAGTTTTACCGGAATTTTTTATTATGCTTCATTAAAAACTGTACCAGCTTCTATTGCAATTATTCTTTTATTCCAATTCGTTTGGGTCGGAATTATCATTGAAGCAGTCGCAACAAAAACATTACCTTCAAGAGAAAAAGTTATTTCTGTTATTTTCTTACTTGTAGGGACATTTTTATCCAGTGGTTTACTAGAACAATCAGCAGGTGCTTTCGATACGACTGGAATCATTTTAGGTTTATTATCTGCTGTTACATTCGCAACATACATTTTCGTGAGCGGAAAAGTTGCTGTTGAAGTACCTTCATTACCGCGCGGTGTTCTCTTAATGACTGGTGCTTTAACTTTAGTCATGATTGTATTTCCACCAACATTTATTTTTAATGGTGCCATTTCTCAAGGTCTTTGGAAATACGGTTTAGGATTAGGAACATTTAGTATCGTAATTCCATCTATTGCCTTTACAATCGGAATTCCAAAAATCGGTTCTGGCTTAGCGACTATTCTTGGTGCAGCGGAACTACCGGTTACAACAATTATGTCAGTATTCGTTTTAAAAGAGGCTGTACTATCTTCACAATGGTTCGGTGTATCACTTATTTTAATCGGGATTGCAATCCCGCAAATTGCATACGCAATGCGTGGACGCGGACGTTATCGTAAACATCATACGCATAAAAAAATAGCAGCATGA	MLRYSLLVLLGACSYGILAIFVKLAYAEGFSLGEVIGSQYLFGWIILLAITLLFSRHRVPLKQALLLFVAGTSASFTGIFYYASLKTVPASIAIILLFQFVWVGIIIEAVATKTLPSREKVISVIFLLVGTFLSSGLLEQSAGAFDTTGIILGLLSAVTFATYIFVSGKVAVEVPSLPRGVLLMTGALTLVMIVFPPTFIFNGAISQGLWKYGLGLGTFSIVIPSIAFTIGIPKIGSGLATILGAAELPVTTIMSVFVLKEAVLSSQWFGVSLILIGIAIPQIAYAMRGRGRYRKHHTHKKIAA				NA	NA	NA	NA	NA
AK009_03634	1146	scmP_1	COG1473	N-acetylcysteine deacetylase	ATGGTATCTATTTCAAATCAACTAAAAGAAAAACTTATTTCCATCCGTCGACATTTACATGAGTATCCAGAACTATCATATGAAGAGTTCGAAACAACAAAAGCAATAAAAAATTGGTTAGAAGAAAAAAACATTACTATCATTGATTCCAATTTAGAAACAGGAATTATCGCTGAAGTGTCTGGTAATAAAAACGGACCAATTGTAGCAGTTCGTGCTGATATTGATGCCCTTCCTATTCAAGAAGAAACACATTTGTCCTATGCATCTAAAGTACCAGGGAAAATGCATGCTTGTGGACACGATTTTCATACAGCTGCTATTTTAGGTACTGCTTTCTTATTAAAAGAAAGAGAATCTTCCCTAAATGGAACGGTTCGCTTCATATTCCAACCAGCTGAAGAAAGTAGTAATGGCGCTTGCAAAGTTATTAATGCTGGACATTTACGTAATGTGCAAGCGATTTTCGGCATGCATAATAAACCTGATTTATCAGTAGGTACAATTGGCATTAAAGATGGTCCACTGATGGCCGGAGTTGATCGATTTGAAATTGAAATTCACGGAGTTGGTACACACGCGGCTGTACCAGATGCTGGCGTAGATCCTATTGTCGCATCCTCTCAAATTGTGATGGCACTGCAAACAATTGTAAGCCGAAATATAAGTTCATCTCATAATGCAGTTGTTAGTGTTACAAATATTCATGCGGGAAATACGTGGAACGTGATTCCTGCAAAAGCTACGTTAGAAGGAACTATTCGCACGTTCCAAGCTGAAACACGTGAAAAGATCCCAGCACTCATGGAGCGTATTATTAAAGGTGTATCTGATGCATTAGGTGTAAAAACCGAATTTCGTTTTTATTCAGGTCCTCCTGCTGTTCACAACGATAAAGCTCTTACAGACTTATCTACTCACGTTGCCACAAAGATGAATCTTAATATCATCTCGCCTAGTCCGTCAATGGCTGGAGAAGATTTTTCATTTTACCAACAGGAAATACCAGGTTCATTCGTCTTTATGGGAACGAGCGGTACACATGAATGGCATCATCCTGCTTTTACAATTAATGAAGAGGCACTGCCTATAAGTGCCGAATACTTTGCTTTACTAGCCGAAAGAGCACTTAAACAATTCTCATAA	MVSISNQLKEKLISIRRHLHEYPELSYEEFETTKAIKNWLEEKNITIIDSNLETGIIAEVSGNKNGPIVAVRADIDALPIQEETHLSYASKVPGKMHACGHDFHTAAILGTAFLLKERESSLNGTVRFIFQPAEESSNGACKVINAGHLRNVQAIFGMHNKPDLSVGTIGIKDGPLMAGVDRFEIEIHGVGTHAAVPDAGVDPIVASSQIVMALQTIVSRNISSSHNAVVSVTNIHAGNTWNVIPAKATLEGTIRTFQAETREKIPALMERIIKGVSDALGVKTEFRFYSGPPAVHNDKALTDLSTHVATKMNLNIISPSPSMAGEDFSFYQQEIPGSFVFMGTSGTHEWHHPAFTINEEALPISAEYFALLAERALKQFS				NA	NA	NA	NA	NA
AK009_03635	945			hypothetical protein	TTGTTTAATTTAGTATATAACGAACTGTATAAAATATTTAAGCGGAAGCGAACGATTATTCCATTTGCGGTTATTGCAGTATTAATAATCGGATTAGGGTGGGTTACGGTAAAGTATTTTGAACCGGAAACAAAAGGATGGAAAGTAGATTATACAGAACGTACTGTAGAAATTGAGAAAAAGCTTGGCATGAAAAAAGAAGCTATTTTAGCAGAAAAATCAGGGGATGAGCTTGTAAAAGAATACCAGCTTAAGATGAAGCATTTAGATACGGATACAGCACCGGCAAGCAGTTCTCCACTTTCTTTCATGAGAGATACAGGTTTTATCGTATTTCCAATTTTGCTCCCATTTATCCTCGTGTATGCAAGTACAATTTTTGCGAATGAATATAGCTGGGGAACATATAAATTTTTAACAATCCGTCCGGCGAGTCGATTTAAAATTTTAACAGCAAAGTTTTTAGCAATCGTTATATTTGCAGCTTTATTGTTTATATTTAATATGATTTTCTCCGCTTTATGTGGACTTGTTATTTATAAATTCCAACAGCCTGCATGGAGTGAGTTTATTTTCCAAGATGGAAATATAATAAAACAAAATATTTTTGTGGAAGCAAGTAAATATTATGTTTTATCGTGGTTACCAACGGTTGTGTATGCATCGTTTGCATTTATGATTTCTGTGTTAACGAGATCTAGTGGAGGTGCAATTGGTATTTCACTATTCCTTGCTTTATCAGGCAATATTGCGTTATTAGCAGCCACTAGATATAACTGGGCGAAATATTTATTGCCAGCAAACACAGATTTATATAGTATTTCAAAGAATGGAAGTTTTATTGATGGAGTAACATTCCCGTTTGCATCATGTATGTTACTACTTTATTTGTTCGTATTTTTATGTATTTCATATACTGTGTTTTTAAAACGTGATTTAACTTAA	MFNLVYNELYKIFKRKRTIIPFAVIAVLIIGLGWVTVKYFEPETKGWKVDYTERTVEIEKKLGMKKEAILAEKSGDELVKEYQLKMKHLDTDTAPASSSPLSFMRDTGFIVFPILLPFILVYASTIFANEYSWGTYKFLTIRPASRFKILTAKFLAIVIFAALLFIFNMIFSALCGLVIYKFQQPAWSEFIFQDGNIIKQNIFVEASKYYVLSWLPTVVYASFAFMISVLTRSSGGAIGISLFLALSGNIALLAATRYNWAKYLLPANTDLYSISKNGSFIDGVTFPFASCMLLLYLFVFLCISYTVFLKRDLT	PGPT0006730_9178	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_03636	912	bcrA_3		Bacitracin transport ATP-binding protein BcrA	ATGACAAATGAACAATCAATTGTAAAAGTCGATCGGTTAACGAAGCGAATTGGCTCAAAGACACTTGTACAAAATATTAGTTTTGAAGTGAAAAAAGGCGAGGTTGTCGGTTTACTCGGACCAAACGGTGCTGGAAAAACGACTTTAATGAGAATGATGGTTGGTATGATCCGTATGACAGAAGGTGAAGTATGGATTGATGGTCAATCTGTGAAACAGCAATTTGAAAAAACCGCTGCGAAAATTGGGGCGGTAATTGAGACACCCGAATTTTATCCTTTTTTGAGCGGGTATGAAAATTTAACATATTTCGGACGAATGAATGGTAATGTGACCGAAGAACGTATCGATGAAGTAGTGAAATTGTTAGGAATGGGACAAGTAATTAATCGTAAAGTAAAAGCATATTCACTTGGCATGAGACAACGTTTAGGAATCGCTCAGGCGCTTATTCACGATCCGGATGTGTTGGTACTAGATGAACCGACGAATGGATTAGACCCTAGTGGAATACATGAAATGAGAATGTACATAAAAAAAATTGCACATGAACAAGGAAAAGCTGTACTTGTATCGAGTCACTTACTTTCAGAAGTTGAATTAATGTGTGACAGAGTTATCATTATTCAGCACGGGGAATATGTGGCTACGCAAAACATTCAGCATAGTCAAAGTGAAGAGATGGAGACGATCCGTATACGTGTAGATGATGCGAATAAAGCAGCGGAAATGTTAGGGCATGATGTTTTAGTAAAAGATAATGAATTAATTATTAACGTAAAAGATGAAGAAATCCCAAATGTTATTCGTACATTGCTTGAGAAAAACATTCAAGTGTATCGTGTATATGAAGAAAGAAAAACGTTAGAAGAGCAATTTTTAGAATTAACAGGGGGAAAAGATATTGTTTAA	MTNEQSIVKVDRLTKRIGSKTLVQNISFEVKKGEVVGLLGPNGAGKTTLMRMMVGMIRMTEGEVWIDGQSVKQQFEKTAAKIGAVIETPEFYPFLSGYENLTYFGRMNGNVTEERIDEVVKLLGMGQVINRKVKAYSLGMRQRLGIAQALIHDPDVLVLDEPTNGLDPSGIHEMRMYIKKIAHEQGKAVLVSSHLLSEVELMCDRVIIIQHGEYVATQNIQHSQSEEMETIRIRVDDANKAAEMLGHDVLVKDNELIINVKDEEIPNVIRTLLEKNIQVYRVYEERKTLEEQFLELTGGKDIV	PGPT0006725_13733	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_03637	1470			IS200/IS605 family transposase ISBth14	ATGACAAAGGAAAATCCATCAAACTATAAAACTCTTCAAATTTGGATTAAAAAAGGGCATCGTATGTATTCTTATTTTCAAGAATGTTGTCATAACGCTAAGAATATGTATAACACCACAAACTTTTATATACGCCAGGTGTACACTGGATTAACACAAGAAAAAGAGTTGCAGCCTTTGCAAAAAGAAGTTCTGGATAATATTCATAAAAATATTGATAAGATGAATGACACACAACTTCTTGCCTATCGGAAGAAATTGAAAAAAGAGAAATTAAAGCCTAAAGAAGAACAGAAAGAGATTACATGTAATTTGTTTTCAGAACCTAATTTTGAAAAACCTTATGTAGATTACAACTTTCTAGATGCACTATTTAAGGCTATGATTCAAAATGATTATCGAGCTTTGCCTACGCAATGTAGCCAGTCAATCATGAAGGGTTTGTTCCAAAATTGGAAATCTTTTTTTGCTAGTTTAAAAGACTATAAAAAGAATCCAAACAAATATGCTGGAACGCCTAGGATTCCAAAGTATATTCGTTCTTCTGAAAAAGAGATTCTGTATACAAACCAAGATTGTATCATTAAAAACGGTAGATTTTTAAAGTTTCCAAAGACGAAATTACAATTAAATATTGGGAAACTAGGTTTCACTGAAGGTAAACTGAAACAAGTTCGTGTGATTCCAAAATACAATGAATATGTAGTGGAATTGGTAATTGATGTTCCTTCTGAACAACAAATGATTGAAGAGAATGCTCGTTATATGAGTATTGATTTAGGGATTGATAACCTTGCAACCATCGTAACAAACACAGGTATGAAACCTGTCCTTGTTAAGGGCAAACATGTCAAAAGCATAAATCAATATTACAACAAAATGAAGAGTCATTTTACAAGCATTCTTAGAAATGGAAAACAAACGAATGAAGGACCTTTTACTTCTAAAAGGATAGAAAAACTTCATCAAAAACGTTACTTGAAAATAAAAGACGTCTTCCATAAAGTTAGTCACCATATCGTAAAACTAGCTCAAGAAGAAGAAGTTTGTAAAATCGTTATTGGTCAAAACAAAAGTTGGAAACAAGAAACGAATATGGGAAAAAGAAATAACCAATCGTTTTGTCATATCCCGCACAATTTACTGATTCAAATGATTACATACAAAGCAAATGCTGTAGGCATTCAAGTTGTTGTAACTGAAGAATCATATACATCGAAAGCAAGTTTTCTGGATAACGACTTCATTCCAACGTATGGAGAAAATGACCAAAATACAACTTTTTCAGGAAAACGAATAGAGCGCGGCATATATCGTTCAGCAAATAAAACTTTAATTAATGCTGATGTAAATGCTGCGGCTAACATTTTACGAAAAGTAATCCCAAATGCATGGACAAATGGGATAGAGGGGTTAGGCGTGAAACAGCTCGCTAATGTGTTAACTCCTCTGACGTTAATCGTCCGTTAG	MTKENPSNYKTLQIWIKKGHRMYSYFQECCHNAKNMYNTTNFYIRQVYTGLTQEKELQPLQKEVLDNIHKNIDKMNDTQLLAYRKKLKKEKLKPKEEQKEITCNLFSEPNFEKPYVDYNFLDALFKAMIQNDYRALPTQCSQSIMKGLFQNWKSFFASLKDYKKNPNKYAGTPRIPKYIRSSEKEILYTNQDCIIKNGRFLKFPKTKLQLNIGKLGFTEGKLKQVRVIPKYNEYVVELVIDVPSEQQMIEENARYMSIDLGIDNLATIVTNTGMKPVLVKGKHVKSINQYYNKMKSHFTSILRNGKQTNEGPFTSKRIEKLHQKRYLKIKDVFHKVSHHIVKLAQEEEVCKIVIGQNKSWKQETNMGKRNNQSFCHIPHNLLIQMITYKANAVGIQVVVTEESYTSKASFLDNDFIPTYGENDQNTTFSGKRIERGIYRSANKTLINADVNAAANILRKVIPNAWTNGIEGLGVKQLANVLTPLTLIVR	PGPT0030680_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
AK009_03638	576			hypothetical protein	ATGTCTTTATGTCGGCTAGCGAGAAAAAATATTAGAACATTTGCTACCAAAAGGATGAAGCAATTTATTTGGATTGCTATGAGTACTATGATTTTGTTTTTTATGATATCGTTACAATTTAATGAAGGAGCCATTTGGAAAGTAGGGGATACATTTGTATTTCAAATGTATTTTTACACGCTGTTTATTGTACTAATTTTCATATGTATTTTTACTACATATCAAATGATGTACTCCCTTTTGCATGTGAGGAGAGAGGAGTTTACATCTTATGTAGCAGAAAATATGAAAAGAAAAGAAGTGCTATGTTTATTATTTCAGGAGCAATTATTCATTTATGGAGCAGCATTTGTTTTCGGATTAATTAATGGGATGCTATTTTTAAAATTATTTACGGTTATCTTTATGAAAATCGCAGGGATACAAGGAGTAAATAGTGCGCCAATTACAATATATGCAATAGTAGTAGTGAGTATAATTATGATTGTTATCCTTCTATTATCGATGGTGCAATGTTTTCGATTTGTTCAAAGTTTACAAGATAAAAATTCGTTGCATTTCAAGAAAAAGGCATGA	MSLCRLARKNIRTFATKRMKQFIWIAMSTMILFFMISLQFNEGAIWKVGDTFVFQMYFYTLFIVLIFICIFTTYQMMYSLLHVRREEFTSYVAENMKRKEVLCLLFQEQLFIYGAAFVFGLINGMLFLKLFTVIFMKIAGIQGVNSAPITIYAIVVVSIIMIVILLLSMVQCFRFVQSLQDKNSLHFKKKA				NA	NA	NA	NA	NA
AK009_03639	600			hypothetical protein	ATGCGTATAAAATTACTATCAATCTTGTCTTTATTATTACTCACAAGTTGTAGCCCACTAAAAAACAATGAAGTTGCCATTGTTGAGCCATACAAATTAACAAAAGAGCAAGCTTCTATTTTACAAATGACTCCTTTTCAAGAAGGAAATAGCATGTTTTATAACATTACGCTTAAAAATGATAAAGATGAAATAAATGCTACAATTGATTATTATAACAATGGTAAAAAAACAAAAGAAATTGCTTACATTGCTACCTCACATTTTCTAGAAAAGAAAATAAAACTCTCTTTCATATCGCCATACCCCTACTTTAATGAAGATGTACCAGAAAAAGGGCAATGGTATATTAATATTAATGGTGGTGCAACACTTGTTCCTGAAGAAGCGCCACCAATCGTAAATAGCTCTGCAACTACTACAATCCAATCTATAAAAAATTTAAAATACAATCAAAAAACGATTTTAGCTGCTGTAATCCAAACCAGTAAAGAAACTGTAATCGTTCCTATCATTGATGAAGAAACAGGCATTGATCTACTCTTAAAAGAAAATGAACACGTTTATCTATTTAGTATCGAGCTAAAAAAAGAACAATAA	MRIKLLSILSLLLLTSCSPLKNNEVAIVEPYKLTKEQASILQMTPFQEGNSMFYNITLKNDKDEINATIDYYNNGKKTKEIAYIATSHFLEKKIKLSFISPYPYFNEDVPEKGQWYININGGATLVPEEAPPIVNSSATTTIQSIKNLKYNQKTILAAVIQTSKETVIVPIIDEETGIDLLLKENEHVYLFSIELKKEQ				NA	NA	NA	NA	NA
AK009_03640	900	benM		HTH-type transcriptional regulator BenM	ATGGAATTACGGCATTTGCAATATTTTGTTGTTGTGGCAGAAGAGTTACACTTTGGACGGGCGGCTGCTCGTTTACAAATGACACAGCCACCACTTAGTCAACAAATACAGCAATTAGAAAAAGAAATGGGAGTTACATTATTTTCAAGAACGAAAAGAAAGGTTGAACTAACAGAAGCAGGAGAAATGTTTTTAAAAGAAGTAAAAAAAGCGTTTGAACAAATTGAAAAAGCAGTAGAAGTTGCACAAAGTGCGCAAAGGGGAGAAGTGGGATCACTTTCAATTGGTTTTGTAGGTGCAGCGATATACGATATTTTACCATCAATTGTTAGGGAATATAGAAAGAAATTTCCGAGAGTGTCTGTTGCATTACATGAATTGTCAACACCAGATCAAGTTCATGCACTTCATGATAACCGTATTGATATTGGCTTTTTACGTCCGCCAATTCCAACACAATTATTAGAATTAGAGCCAATTCAAAGGTTATCTTGCACCTTATGTTTACCAAAGGCACATCCGCTTGCAGAGAAAGATGAAATACATATAGAAGATTTACGAGATGAGCCGTTTGTATTTATTACGAGACCAGTATGGCCAGCTTTATATGATACAATTTTATCTCTTTGCAGAGAAGTTGGATTTAGTCCGCGTATTGTACAAGAAGCAACAGAGTATCAAACAGTTATGGGGCTTGTAGCAGCAGGAATTGGAATTACAGTAATACCCGTGTCGGCAAATAAGTTATATAAAACAGAAGTTGTATATAAAGAGTTATATGATTCTAATTTTGTTGCAGAAATGTCAGTGGCTTACAAAAAAATGAATAGTAATCCAGAGCTACTAGAGTTTTTAAAAATTGCAAGAGAGAAGAAAAGAATAGAAGTAGAAGATGAGTAA	MELRHLQYFVVVAEELHFGRAAARLQMTQPPLSQQIQQLEKEMGVTLFSRTKRKVELTEAGEMFLKEVKKAFEQIEKAVEVAQSAQRGEVGSLSIGFVGAAIYDILPSIVREYRKKFPRVSVALHELSTPDQVHALHDNRIDIGFLRPPIPTQLLELEPIQRLSCTLCLPKAHPLAEKDEIHIEDLRDEPFVFITRPVWPALYDTILSLCREVGFSPRIVQEATEYQTVMGLVAAGIGITVIPVSANKLYKTEVVYKELYDSNFVAEMSVAYKKMNSNPELLEFLKIAREKKRIEVEDE				NA	NA	NA	NA	NA
AK009_03641	366	cidA	COG1380	Holin-like protein CidA	ATGAAATGGTGGAAGTTAAGCGGACAAATTTTGTTACTATTTTGTTTCGCTTGGACAGGTGAATGGATTGCAAAACAGGCACACCTCCCAGTTCCAGGAAGTATAATCGGTATTTTTTTATTATTAATTTCATTAAAATTTAACCTAGTTAAAAAAGAATGGATACAGGACGGAGCAGATTTTTTATTAAAAGAACTTATTTTATTTTTCATCCCTTCTGCAGTCGCTGTCATACGTTACAGAGATACACTAACACAATATGGAATCGATCTCATTTTAATTATTATGATTAGCACTCTTTGCGTTACCTTAGTTACAGGACTTTTAACAGAATTGCTACTAAAGCGGAAAGGATCAACGCAATGA	MKWWKLSGQILLLFCFAWTGEWIAKQAHLPVPGSIIGIFLLLISLKFNLVKKEWIQDGADFLLKELILFFIPSAVAVIRYRDTLTQYGIDLILIIMISTLCVTLVTGLLTELLLKRKGSTQ				NA	NA	NA	NA	NA
AK009_03642	678	yohK_1	COG1346	Inner membrane protein YohK	ATGATCGGATTTCTTTGTTTACTATTAACACTATTCACATATTGGATATCAAAAAAAATGTATCAACGCTGGAATTGGAGTCTACTTTCTCCTCTTCTCGTCTGTCCCATTATTTTAATTGCTTTATTGCTCGGATTAGATACACCTTATGAAACATATGAATCTGGTGGTCACTGGTTAACTGAATTATTAAAACCCGCAACAGTTGCTTTTGCATGGCCAATCTATAAATACTTTGATTTATTAAAGAAACATGGAATGGCTATCTTACTTAATGTCATTGTCGGTTCGTTTTTATCAGTCATTACTTCAGCACTACTAGCAAATTATTTTCAAATTGATTCATCACTAGAACATAGTTTAGCGCCACATATCGTAACAACACCAATCGCAATGGCTATTTCAGAAATGATTGGTGGTATGTCACAATTAACTGCTGTATTTGTCGTTTTAACTGCCTTAACAGGAGCATTGCTCGGTCCTTCTCTCATACGTATTTGCCGTATTAAAACAGCAATCGCAAAAGGTATTATGTTAGGAACGAGCGCAAATGGAACCGGTACATCAAAAGCATTCGAAATCGGTCCTGTGGAAGGAACAATTGCAAGTTTATCCATGCTTTTAACAGCAGGCGCTAGTTTGGTTATCGTTCCGCTTTTCTTGTCTTGGATACATTAA	MIGFLCLLLTLFTYWISKKMYQRWNWSLLSPLLVCPIILIALLLGLDTPYETYESGGHWLTELLKPATVAFAWPIYKYFDLLKKHGMAILLNVIVGSFLSVITSALLANYFQIDSSLEHSLAPHIVTTPIAMAISEMIGGMSQLTAVFVVLTALTGALLGPSLIRICRIKTAIAKGIMLGTSANGTGTSKAFEIGPVEGTIASLSMLLTAGASLVIVPLFLSWIH				NA	NA	NA	NA	NA
AK009_03643	414	ndx1	COG0494	Diadenosine hexaphosphate hydrolase	ATGGAGAGATGGATAGGTAGTGCAGCGGTATGTGTAAATGAAAAAAATGAAGTTTTAATGGTATTGCAGGGCAAAGAGGGAGAAGAAAAAAGGTGGTCTGTCCCAAGTGGAGGACTTGAAAAGGGAGAGACACTAGAAGAATGTTGTATCAGGGAAGTTTGGGAAGAAACGGGTTACAATGTGGAAGTTGTAAATAAAATATATGAAAAAGAGGGTATTACATACGGAATTCCAGTGTATGTCCATTATTATTTTGTTAAACAAATAGGCGGTAATATGAAAATCCAAGATCCTGATGAGTTAATACATGAAATTGCTTGGAAAGGGATACATGAAGTTGAACAATTGTGTTTAGCTTTTCCAGAGGATTATGAATTGCTGTGCCAATATATAAATAAAGAAGCAAGTATGTAA	MERWIGSAAVCVNEKNEVLMVLQGKEGEEKRWSVPSGGLEKGETLEECCIREVWEETGYNVEVVNKIYEKEGITYGIPVYVHYYFVKQIGGNMKIQDPDELIHEIAWKGIHEVEQLCLAFPEDYELLCQYINKEASM	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
AK009_03644	201			hypothetical protein	ATGATTTCTAATTATGTTGTGGAATGTGTCTTTTGTGAAGAAAATCGAAAACCTCGCCAAGCTATTGTCACAGTTCCCGCCACTACTCAGCTACTAGCCCTTGAAAAAGTGCGCGCGGAATGCAAACGTCGCTTCGGAAAAACTGTATTATTGCAAACAGAAATTAAAGAAGAAATAATTTTCGAACAAAAAGAAAGCTGA	MISNYVVECVFCEENRKPRQAIVTVPATTQLLALEKVRAECKRRFGKTVLLQTEIKEEIIFEQKES				NA	NA	NA	NA	NA
AK009_03645	756			hypothetical protein	GTGGCAATTATTATAACAATGTTAGTAATGGGTATTTTATTAGGATTTGTTGGAGCTGGAGGAGCTGGATTTATTATCGCGATACTCACTTTGGTATTCCAAATTCCTATTCATGTTGCTCTTGCAACATCTTTAACTGCAATGGCATTTACGACATTATCAGGTGTTGTAAGTCATTACCGTGAAGGCAATGTTGCACTTATTATAGGTGGGATTGTTGGGGGATTTGGCGCAATTGGCTCTTATATTGGTTCTAAATTTGGTTCACTTATACCAGCACATCTTCTTCATTGGTTTACAGCTGGGATGTTATTTTTATCGGCAATTTTTATGTTTATTAAATTAATTATGTTCCAAAAAAAAGAACAGTCGTCTTTATATAAACATAAAGAGTTTTCCGTGAAATACTTGTTGAAATGTGTATGCCTTGGATTAGTTACTGGAATGATGGCTGGTTCATTTGGGATTGGTTCTGCACCGTTTATTCAACTTGGATTAATGGTTCTATTGGGACTTACGATTCAGCAATCTGTAGGGACAACAATGCTTGTTATATTACCGATTGCAATTGGAGGCGGGCTAGGATATAGTTCGGAAGGATATTTAGATTATATATTGTTATTGCAAGTATTGATTGGGACCATGTTAGGGGCATACATTGGTGCGAAGTTTACAAATTATGCACCGCGAACGCTTTTGAGGTTTTCGATGATTATGACACCGGTTTTAGCTGGATGTATGCTATTGATGGAATAA	MAIIITMLVMGILLGFVGAGGAGFIIAILTLVFQIPIHVALATSLTAMAFTTLSGVVSHYREGNVALIIGGIVGGFGAIGSYIGSKFGSLIPAHLLHWFTAGMLFLSAIFMFIKLIMFQKKEQSSLYKHKEFSVKYLLKCVCLGLVTGMMAGSFGIGSAPFIQLGLMVLLGLTIQQSVGTTMLVILPIAIGGGLGYSSEGYLDYILLLQVLIGTMLGAYIGAKFTNYAPRTLLRFSMIMTPVLAGCMLLME				NA	NA	NA	NA	NA
AK009_03646	165			hypothetical protein	GTGAAAGCAATCCCGACTGATGTCCTGAGTAAAGAATTGATGGAAAGAGAAGGAGTTATCTCTATTACAGTAAAGGAATTTGAAAAGATAGAAGTAGCTGGAGTGGTGGTCGCTGGTCCAGCAGTTATTTTGATTAATCAAATTAAGTACATATCATTGAAATAA	MKAIPTDVLSKELMEREGVISITVKEFEKIEVAGVVVAGPAVILINQIKYISLK				NA	NA	NA	NA	NA
AK009_03647	549			hypothetical protein	ATGCTACGTGGCATTTTGTATGTCTATTTTTGTTTGTATATAGTAATGTACATTCTATTTATATTCGTCATCGATATGATCCATATGCCCTTAAGTGTAAGGAGCATTTTTGTAGTATTCATACCATTTGTTTTATTAGTCATGGTTCAAAGGGTTATTTTATATGCTTCTAAAAATCGTAATGAAGAAAAGAAGCAAATGTCTGGGGTTTTAATAGTAGCACTCATACCATTAATAGTATGCACTGTACAACTAAGTGTAAATGAATATACGTCAAAGTTTAATCAAAATAGATGGTTAAATCATGCAGAGAAACGGATACATATGGTAGATGATCTATTACAAAAATATAAATTAATAGGGAAATCAAATGAAGAAATTACACAATTGTTAGGCGCTTCAACGGACACGAGAAGTGGGGAAGAAGGAGTTATCACTTTGTATTATCTTGGGACTGAACGTGGCTTTATTCCAATAGATAGCGAACAGCTTGTTTTCCAATTTGATAGAGATGGAAAAGTCATGGAATATACGGTGCATAAAGATTAA	MLRGILYVYFCLYIVMYILFIFVIDMIHMPLSVRSIFVVFIPFVLLVMVQRVILYASKNRNEEKKQMSGVLIVALIPLIVCTVQLSVNEYTSKFNQNRWLNHAEKRIHMVDDLLQKYKLIGKSNEEITQLLGASTDTRSGEEGVITLYYLGTERGFIPIDSEQLVFQFDRDGKVMEYTVHKD				NA	NA	NA	NA	NA
AK009_03648	1020			hypothetical protein	ATGAATTATGTGCTAATAGGTGCGGTTTTAATATTATTAGCTGTAGTATTTGTGCTGTTTTATAAAAATAAACAGTTAGAATCAGAGAGTCAGCAAGTAGAATTTGAAAAGAAACAAGCGATTGAAACGTATAAAAATGAAATTGCAGCTACGGTGATAGAGCATACAGAACAACAAAATAATTTGAAAAATATGGAGCAGAAAAAATACAATGATTTACAAGTAAGTGCAAATAGAGAAATTGAAAATATGCGTATGATGAAAAATCAATTAGCTGTGCAGCATAGTAAAGAACGTAGTGAAATACAAAATAAACATAATAATGAAATACATATGTTTCAAAAATTAATTGCAAATTTACGAGAATATACTAAAAACGGCGCTGAAATGAATACGTACGAAACATTACATTATATGAAGCGAGGATTCATAGAGCAAGGCATCATATTAGATGCTGAAATTCAAATCATGCCGAATGTTTTTATTAAAAATAATAGTGAAATAAACGATAATCGAATCCATCATCTCATCTTGTGCAAAACTGGTATTTATCTACTTGAGACGAAAGAATGGGAAGAGAAATTAGTTCATGGTTTAACGAAAGAAAATGCTGGTATATATTCATTTATGATTGATGAAATGGGTAAGTATCAACAAGAAGTTGAAAAAGAAGAGACATTTGAATATATAGTAGGTAAAGATTCGTCAACTATACAAGTGAAAAATGAAGGGAATCCAGTATATAAGGCGAAGAAACTATCTCAAATTTTATACAATTGTTTGAAAGAAATGCAGACTAATAGTATAAAAGAAAAGGTAAAACCAGTTGTATATTTTTATAATGAAAATGGAAAAGAAATAATAGATCTTTCTAGTGAGGAAACACCTAGATTAAAAGATCGGGAGCAAATTGTAACGTTCTTCAGAAATGAAATCTTAGCAGGGAAAATAGTATATACAGTGCAAGAATTAGAACAGATTCGAGAAATGATTAGCAGGATGAATTATATAGTGAGTTAA	MNYVLIGAVLILLAVVFVLFYKNKQLESESQQVEFEKKQAIETYKNEIAATVIEHTEQQNNLKNMEQKKYNDLQVSANREIENMRMMKNQLAVQHSKERSEIQNKHNNEIHMFQKLIANLREYTKNGAEMNTYETLHYMKRGFIEQGIILDAEIQIMPNVFIKNNSEINDNRIHHLILCKTGIYLLETKEWEEKLVHGLTKENAGIYSFMIDEMGKYQQEVEKEETFEYIVGKDSSTIQVKNEGNPVYKAKKLSQILYNCLKEMQTNSIKEKVKPVVYFYNENGKEIIDLSSEETPRLKDREQIVTFFRNEILAGKIVYTVQELEQIREMISRMNYIVS				NA	NA	NA	NA	NA
AK009_03649	1047			hypothetical protein	ATGCAAAACAGATCGAGTTCAAATGTTACGTTAATTGATGTGTCTCATTGGGAAGGGAATATTGATTGGAATGCAGTGAAGGCATCTGGAATTCCAGCAGCGTATGCAAAAGCGACAGAAGGTGTAAATTACATTGATCCTACTTTTACTAAAAATGTACAAGCAGCCCGAAGTGCGAATGTATTAATTGGTGCATACCATTTTGCACGTCCAGAACAAAATGATGCAATTTCAGAGGCGAAATATTTTGTGAGTATATTACAAAGTAACCAGACAGACTTAATGCCAGTTCTGGATTTAGAATCACCAAAAGATCCGAGTAATAGTAATTTAACTGGTAGCGCTATATCGAATTGGGCAAGAAGCTTCATAAATTATGTGAAACAGGCTACTGGAAAAGATGTAATGTTATATACAGGAGTTTGGTATATTAATGAGTTCGGAATTAGCGGATTAAGTGATATTCCACTTTGGATTGCTAAATACTCGAGTACACCGCCTGCTGATGCTGGTGGATGGACAGCGTGGACAGCATGGCAGTACACAGATTCTGGACAAATTTCAGGTGTAGGAAATTGTGATGTATCAGCTGCAGTTTCACTAGAAGCTTTACAAGGGAATGGAGCAAGTGGTGGAGGGAATGTTTCTCCGCCTAATAATGCAACTCCAGTGTACGGGGTTGCTATAATTAATGGAGATAATGTGAATTTGAGAAGTGGACCATCTTTGCAGTCTAGTGTAATTCGCCAATTGAATCGTGGCGAAACATATGAAGTTTGGGGAGAACAAGATGGATGGCTTTGTTTAGGGACAAATCAGTGGGTATATAATGATCCGAGTTATATTCAGTATAAACATTATGTGGCGACTATTACTGGTGATAATGTAAATTTGCGTGATGCTCCATCATTAAAAGGAAATGTTATAAGACAGTTACATCATGGTGAATCGTATCGAGTATGGAGTAAGCAAGATGGATGGCTTTGCTTAGGGACAAATCAATGGATATACTACGATCCAAGTTATATTCAGTATGGTGTACAATAG	MQNRSSSNVTLIDVSHWEGNIDWNAVKASGIPAAYAKATEGVNYIDPTFTKNVQAARSANVLIGAYHFARPEQNDAISEAKYFVSILQSNQTDLMPVLDLESPKDPSNSNLTGSAISNWARSFINYVKQATGKDVMLYTGVWYINEFGISGLSDIPLWIAKYSSTPPADAGGWTAWTAWQYTDSGQISGVGNCDVSAAVSLEALQGNGASGGGNVSPPNNATPVYGVAIINGDNVNLRSGPSLQSSVIRQLNRGETYEVWGEQDGWLCLGTNQWVYNDPSYIQYKHYVATITGDNVNLRDAPSLKGNVIRQLHHGESYRVWSKQDGWLCLGTNQWIYYDPSYIQYGVQ	PGPT0019160_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273	NA	NA
AK009_03650	1764	yheH_1	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheH	ATGGTAGAGAAGAAGCGAAGTGATTTAAGTAGATTGCTTTCTTATATGAAGCCATATAAAGGGTTGCTATCTTTAGCATTTATCTTTTTAGTTGGTGCGACAGTAACGGAAATGATGGGGCCTTTTTTAATTAAACAATTCCTTGATGAACACCTAGTACCGCGTGATTTTGAACGATCAGCACTCGTTACTTTATTTGTAATTTACATAGTTGCTCATTTATTAAAAGTATTATTTACGTATTTAAATCTATTGTACTTTCAGAACATTGCTTTTAAGATTGTTCAAGATATGCGAGTTGAAGTATATGAACATGTTCAAAAGCTGTCATTAAGTTTCTTTGATCGTACGCCAATTGGTACGCTCGTATCTCGTATAACGAATGATACGGAAGCGATTAAAGATTTTTATGTCAGTGTATTATCAACATTTGTGAAAAATGTAGTCTTTTTAGTAGGTATTTTAATAGCGATGTTTTTATTAGATGTAAAATTAGCGTTATTTTCTCTCATATTAATTCCGATAATGTTCGCGATTATGGTATTATATCGCCGGAAAAGTGCAGCTTTTTATTTAGAAGTACGTAATCAACTAAGCGTGTTAAATGCAAAATTGAACGAGTCCATACAAGGAATGAATATTGTTCAAGTGTTCAGACAAGAAAAACGTATGAGAAAAGAGTTTGAAGAAGTGAATAATAAACATTATAGTGCAGGGCGACGTACTTTGAAGTTAGACGCATTACTTTTACGACCAGCTACGGATTTAGTACATATTGTAGCTATTGCGTTAGTACTAGGTTTATTTGGGATTGATGCTTTAAAGAGCCCTGTTGAAGTAGGAGTTTTATATGCTTTTGTTAACTATATACATCGTTTCTTCCAACCTGTAAATGAGATGATGATGAAATTGTCCTTTTTCCAACAGGCACTTGTTTCGTCATCACGTGTATTTCATTTAATGGACGAGAAAGATTTAGCACCGGTTCAAAAAGGCAATGAGAATCCTCAAGTTGTCGATGGAGATATTGAATTTAAAAATGTTACTTTTTCATATGATGGAAAGCGTGACGTTTTAAAAAATGTATCATTTCACGTGAAACAAGGGCAAACGGTTGCTTTTGTTGGGCATACTGGTAGCGGAAAAAGTACGATTATGAATTTGTTAATGCGATTTTATAATATTAAGTCGGGAAATATTGTAATAGACTGTGTAGATTTAGAAAAATTTGAAGAACGAGAAATTAGAAAGAAAATAGGACTCGTATTGCAAGATGCATTTTTATTTGCTGGAAATGTAAAGCAAAATATTCGTATGTATAATGAAGAAATTACGGATGAAGAAGTAAAAGAAGCTGCTCGATTTGTGCAAGCGAATACGTTTATTGAAAAGTTACCAGAGCAGTATGAAACAGAAGTAGTAGAAAGAGGTGCAGCATTTTCAAGCGGTCAACGACAATTAATTGCTTTTGCTAGAACGATAGCAACGAATCCGAAAGTATTAGTATTAGATGAAGCAACAGCTAATATCGATACAGAAACAGAAGAGGCTATTCAAACAGCGTTGCAACAAATGCGAAAAGGTAGAACTACGATAGCCATTGCGCATAGGTTATCTACAATTCAAGATGCAGATCAAATTTTTGTGATGCATGATGGAGAGATAGTAGAAAGAGGAACACATCAAGAATTACTAAGTGAGCAAGGTTTGTATTATAATATGTACTTGTTACAAAATAAAGGGAGTTTGCAAAAGGCCTTGTAA	MVEKKRSDLSRLLSYMKPYKGLLSLAFIFLVGATVTEMMGPFLIKQFLDEHLVPRDFERSALVTLFVIYIVAHLLKVLFTYLNLLYFQNIAFKIVQDMRVEVYEHVQKLSLSFFDRTPIGTLVSRITNDTEAIKDFYVSVLSTFVKNVVFLVGILIAMFLLDVKLALFSLILIPIMFAIMVLYRRKSAAFYLEVRNQLSVLNAKLNESIQGMNIVQVFRQEKRMRKEFEEVNNKHYSAGRRTLKLDALLLRPATDLVHIVAIALVLGLFGIDALKSPVEVGVLYAFVNYIHRFFQPVNEMMMKLSFFQQALVSSSRVFHLMDEKDLAPVQKGNENPQVVDGDIEFKNVTFSYDGKRDVLKNVSFHVKQGQTVAFVGHTGSGKSTIMNLLMRFYNIKSGNIVIDCVDLEKFEEREIRKKIGLVLQDAFLFAGNVKQNIRMYNEEITDEEVKEAARFVQANTFIEKLPEQYETEVVERGAAFSSGQRQLIAFARTIATNPKVLVLDEATANIDTETEEAIQTALQQMRKGRTTIAIAHRLSTIQDADQIFVMHDGEIVERGTHQELLSEQGLYYNMYLLQNKGSLQKAL	PGPT0029045_1763	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
AK009_03651	1752	yheI_1	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	ATGAAAGTGTTTATGAATTTAGCGTGGTTTTTTAAACAAGAAAAACGAGCGTACATAACCGGAATTATTTTATTATTTGGCGTTGCACTTTTAGAGCTCGTAGCACCAAAAGTAATTGGAATCGTTGTAGATGAAATTAATGATGAAACATTGACGACCGATAAGTTACTAAAATGGGTTGTACTATTAGTAATTGTAGGTATTACGATGTACATATTGCGTTACATATGGCGTATTATGATTTTCGGGTCTTCGTTAAAATTAGCTCGCCAATTACGAAAAAATTTATATGAATATTTTACAAAGATGAGTCCATCTTTCTATCAGTCAAATCGAACAGGTGATTTAATGGCACATGCGACTAATGATATTCAAGCAATCCAGCAAACTGCTGGAGCGGGTGTTTTAACGCTTGTTGATTCATTAGCTGTTGGGGGATGTGTACTCGTAGCGATGGGTTTTACAATTAGTTGGAAGTTAACATTGTTAAGTTTAATTCCGATGCCGATTGTAGCCATTTCGACAAATTATTATGGAACGTTATTACATAAAAGGTTTCATAAAGCACAGCAATCGTTTTCGGAAATTAATGATAAAGTGCAAGAGAGTATGAGTGGAATGAAAGTGATTCGATCGCTTGGACAAGAGAAAGAAGATTTGCAGGCGTTTCGAAAAAAATCAGAAGATGTTGTGCATAAAAATGTGTTAGTTGCACGTATTGATTCGTTATTTGATCCGACAATCGCTCTTATCGTTGGATTTTCTTTTTTAATTGCAGTATGTTACGGATCGGTATTAGTTGTAAGAGGTGAATTAACAGTAGGTGATCTCGTTACATTTACGACATATTTAGGTACCCTCGTTTGGCCAATGTTAGCGTTTGGATGGTTGTTCAATATTATGGAGCGTGGGCGTGCTTCATATGACCGTGTAGAAAAAATTCTTTCACAAAAATCAGATGTAGTAAATAGAGAAAATGCTGTACATACGATAGCGAGCGGTAATGTTTCATTTGCCATTGATTCATTTTCGTATAAGAAAAATGAACTGTTACATTTAAACGATATTCACTTTGATTTGAAGAAGGGCGAAACGCTAGGAGTTGTAGGACGTACAGGTGCAGGGAAAACGACTTTATTAAAATGTTTAATCCGTGAGTATGATCATTTTAATGGTGAATTAAAAGTTGGGGAGCGAGATATTCGAGATTTAACACTTCATGGTGTCCGTTCTGCCATTTCATATGTGCCGCAAGATCATTTTTTATTTTCAGCAAGTATTGGTGAGAATATTGCCTTTGGAAAGGCGGATGCTACATATAATGAAATTACCCAAGCTGCAGAGATTGCTTGTATTCATAATGATATCCTCCAATTTTCAGAAGGATATGAAACAGTAGTAGGGGAAAGAGGCGTTTCGTTATCTGGTGGTCAAAAACAGCGAATCTCTATTGCTCGTGCTTTATTAACAAATGCTGAAATTTTAATTTTGGATGATTGTTTATCAGCGGTAGATGCAAAAACAGAAGAGACAATTTTAAGTGCCTTAAAGAGGGAAAGAGCAGGGAAAACGACGATTATTACTGCACACCGATTAAGTGCAATTCAGCATGCTAATCTTATTCTTGTTGTTGATGAAGGTAGAATTGTACAAAGAGGTACACATGAGGAATTAATGAAGGAAAACGGCTGGTATAAGGAAATGTATGAAAGCCAGCAATTAGAAGCTTTAGTCGAGAAAGGAGGCGTATGA	MKVFMNLAWFFKQEKRAYITGIILLFGVALLELVAPKVIGIVVDEINDETLTTDKLLKWVVLLVIVGITMYILRYIWRIMIFGSSLKLARQLRKNLYEYFTKMSPSFYQSNRTGDLMAHATNDIQAIQQTAGAGVLTLVDSLAVGGCVLVAMGFTISWKLTLLSLIPMPIVAISTNYYGTLLHKRFHKAQQSFSEINDKVQESMSGMKVIRSLGQEKEDLQAFRKKSEDVVHKNVLVARIDSLFDPTIALIVGFSFLIAVCYGSVLVVRGELTVGDLVTFTTYLGTLVWPMLAFGWLFNIMERGRASYDRVEKILSQKSDVVNRENAVHTIASGNVSFAIDSFSYKKNELLHLNDIHFDLKKGETLGVVGRTGAGKTTLLKCLIREYDHFNGELKVGERDIRDLTLHGVRSAISYVPQDHFLFSASIGENIAFGKADATYNEITQAAEIACIHNDILQFSEGYETVVGERGVSLSGGQKQRISIARALLTNAEILILDDCLSAVDAKTEETILSALKRERAGKTTIITAHRLSAIQHANLILVVDEGRIVQRGTHEELMKENGWYKEMYESQQLEALVEKGGV	PGPT0029040_1363	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
AK009_03652	222			hypothetical protein	ATGCCAATTTGGTTAGGTATTCTAGTGGGCGTAGTAGCACTAGTAGCAGGCGTGGCGTTAGGATTTTTCATTGCCCGCAAATACATGATGAATTACTTACAAAAAAATCCACCAATTAACGAACAAATGTTAAAAATGATGATGATGCAAATGGGACAAAAACCTTCCCAAAAGAAAATCAATCAAATGATGAGCGCGATGAACAAGCAACAAATGAAATAA	MPIWLGILVGVVALVAGVALGFFIARKYMMNYLQKNPPINEQMLKMMMMQMGQKPSQKKINQMMSAMNKQQMK				NA	NA	NA	NA	NA
AK009_03653	441	sirA		Sporulation inhibitor of replication protein SirA	ATGAAAACGTATGAATTGTATTTAATTCAAGAGGATATTGCGAAATCTTATTTTGGTCGTGAATATTTGTTTTTTGATTTATTTGCTCGATTTTCAGAATCTGGGTCCCTTTCGGAGAAAAAAGTGTTATATAAACAAATGATGTATATAACGAAACCATTGCAAGTAATGAAAATTCATCATAAATTAGAACAAGCTTTGCGCGTTCTTGGTAAATATGATAGAACACATCATACACATACACTTTATACGGGAGCGGAGTACGGTGAAATAATGGTGAAACCGCACTATATTCGTATGAATACCTCTGGAAATGTCTCTATGGAAACGACTTTCTTTGAGGTGTTAAGAAAGTGTGAATTAACATTTTTAGCTATGGATTATGAAAATACAAAGTACGGATGGCTGAATCCTCTAAAACAAGTACGAACATATGTGTAA	MKTYELYLIQEDIAKSYFGREYLFFDLFARFSESGSLSEKKVLYKQMMYITKPLQVMKIHHKLEQALRVLGKYDRTHHTHTLYTGAEYGEIMVKPHYIRMNTSGNVSMETTFFEVLRKCELTFLAMDYENTKYGWLNPLKQVRTYV				NA	NA	NA	NA	NA
AK009_03654	2001	tkt_2		Transketolase	ATGTCACATTCAATCGAACAACTTTCTATCAACACGATTCGCACATTATCCATCGATGCGATTGAAAAAGCAAACTCTGGTCACCCAGGAATGCCAATGGGTGCAGCACCAATGGCTTATACATTATGGACTCAATTTATGAAACACAATCCAAATAACCCAACGTGGTTTAACCGTGATCGTTTCGTATTATCTGCAGGTCATGGTTCAATGTTATTATACAGCCTACTTCATCTATCTGGTTATGATGTAACAATGGATGACTTAAAGAACTTCCGTCAATGGGGAAGCAAAACTCCAGGACATCCTGAGTACGGTCATACAGCTGGTGTAGATGCAACGACTGGTCCACTTGGACAAGGTATTGCAACTGCTGTAGGTATGGCAATGGCTGAAAGACATTTAGCTGCTAAATATAACCGTGATGCGTATAATGTAGTAGATCATTATACATACGCTATTTGTGGTGATGGAGATTTAATGGAGGGCGTTTCTGCTGAAGCATCTTCATTAGCTGCTCATTTACAATTAGGTCGTCTTGTTGTGCTTTATGATTCAAACGATATTTCATTAGATGGCGATTTAAATCGTTCATTCTCTGAAAGTGTAGAAGATCGTTACAAAGCATACGGATGGCAAGTGATCCGTGTTGAGGATGGAAACGATATTGAAGCAATCGCGAAAGCAATTGAAGAAGCGAAAGCTGACGAAAAACGCCCAACGCTAATTGAAGTAAGAACGACAATTGGTTTCGGTTCTCCAAACAAATCAGGAAAATCAGCTTCACATGGTTCTCCACTTGGTGTAGAAGAAACAAAATTAACGAAAGAAGCATATGCTTGGACTGCTGAACAAGACTTCCACGTAGCAGAAGAGGTATACGACAACTTCCGTAAAACAGTACAAGATGTTGGTGAAACTACGCAAGCAGAGTGGAACACTATGCTAGGTGAATATGCGCAAGCATACCCAGAATTAGCAAACGAATTCCAAGCAGCAATGAACGGTCAACTTCCAGAAGGTTGGGAGCAAAACTTACCAACTTATGAATTAGGATCAAAAGCAGCAACTCGTAATTCTTCTGGTGCTGTAATTAATGCAATTGCAGAGTCTGTACCATCATTCTTCGGTGGATCTGCTGACCTTGCTGGTTCTAACAAAACATACATGAATAACGAAAAAGACTTTACAAGAGACGATTACAGCGGTAAAAACATTTGGTACGGTGTACGTGAGTTCGCAATGGGTGCAGCAATGAACGGTATTGCATTACATGGCGGTTTAAAAACTTACGGTGGTACGTTCTTCGTATTCTCTGATTACTTACGTCCAGCAATTCGCCTTGCAGCATTAATGCAATTGCCAGTAACGTATGTATTCACACATGACAGTATCGCTGTTGGTGAAGATGGTCCAACACATGAACCAGTCGAACAATTAGCAGCGCTTCGTGCAATGCCGAACGTTTCTGTTATCCGTCCAGCTGATGGTAACGAATCTGTTGCAGCTTGGAGACTGGCTTTAGAATCTACAAACAAACCAACTGCTTTAGTATTAACTCGTCAAGACCTTCCAACATTAGAAGGTGCAAAAGATGATACGTATGAAAAAGTAGCAAAAGGTGCATATGTAGTTTCTGCAAGCAAGAAAGAAACGGCTGATGTTATCTTACTTGCAACTGGGTCTGAAGTAAGCCTAGCTGTTGAAGCTCAAAAAGCATTAGCAGCGGACGGCGTTGACGCAGCTGTTGTCAGCATGCCATCTATGGATCGTTTTGAAGCTCAACCTGCAGAGTACAAAGAATCTGTATTACCAAAAGCAGTAACAAAACGTTTCGCAATCGAAATGGGTGCTACATTCGGATGGCACCGTTACGTAGGTCTTGAAGGAGATGTGTTAGGTATCGATACATTCGGTGCTTCTGCTCCTGGTGAGAAGATTATGGAAGAGTATGGATTTACTGTAGAGAACGTTGTTCGTAAAGTAAAAGAAATGCTTTAA	MSHSIEQLSINTIRTLSIDAIEKANSGHPGMPMGAAPMAYTLWTQFMKHNPNNPTWFNRDRFVLSAGHGSMLLYSLLHLSGYDVTMDDLKNFRQWGSKTPGHPEYGHTAGVDATTGPLGQGIATAVGMAMAERHLAAKYNRDAYNVVDHYTYAICGDGDLMEGVSAEASSLAAHLQLGRLVVLYDSNDISLDGDLNRSFSESVEDRYKAYGWQVIRVEDGNDIEAIAKAIEEAKADEKRPTLIEVRTTIGFGSPNKSGKSASHGSPLGVEETKLTKEAYAWTAEQDFHVAEEVYDNFRKTVQDVGETTQAEWNTMLGEYAQAYPELANEFQAAMNGQLPEGWEQNLPTYELGSKAATRNSSGAVINAIAESVPSFFGGSADLAGSNKTYMNNEKDFTRDDYSGKNIWYGVREFAMGAAMNGIALHGGLKTYGGTFFVFSDYLRPAIRLAALMQLPVTYVFTHDSIAVGEDGPTHEPVEQLAALRAMPNVSVIRPADGNESVAAWRLALESTNKPTALVLTRQDLPTLEGAKDDTYEKVAKGAYVVSASKKETADVILLATGSEVSLAVEAQKALAADGVDAAVVSMPSMDRFEAQPAEYKESVLPKAVTKRFAIEMGATFGWHRYVGLEGDVLGIDTFGASAPGEKIMEEYGFTVENVVRKVKEML	PGPT0011200_1722	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
AK009_03655	804	phnE_1	COG3639	Phosphate-import permease protein PhnE	ATGAATAGAACGACGATGATTGTGCCAAAACCGAAGAAACTGAGTGTATATCGCTGGGTTATTTTTATAGCAATTACATTTGTTTATGTTTGGGCCTTTTCAGGAGTACCATTAGAAGGGATAAAGGACACAGCAGGTGAAATCACGAAAGCAATTATGACAGGGGTATTGAATCCAGACTGGTCGTATGTATCTTTGCCAGATGGTGAAGATTTATTGCATGGATTAATTGATACGTTGGCAATTGCGATATTAGGTACATTTATTTCTGCATTTTTATCTGTTCCGTTTGCCTTTTGGGCGGCAACGAATATGAGTAGTGGAAAATTAACTTCAGGATCTGGAAAATTTGTACTTAGTTTTGTTCGTACGTTTCCTGAATTAGTTATGGCTCTTTTATTTATAAAAGCTGTTGGTCCAGGCTCTTTTGCAGGAGTATTAGCCTTAGGATTACATTCTATTGGAATGTTAGGAAAACTATATTCAGAAGGAATTGAAAACATAGATAAAGGACCGACGGAAGCGTTACTAGCAACAGGAGCAAACCGTTTTCAAATACTTTGGTATGCAGTGTTACCACAAGTGTTACCAGACTTTCTATCGTATACGTTATACAGATTTGAAATTAATGTACGATCCGCTGCGATTTTAGGGGTTATCGGAGCAGGAGGGATTGGTACACCTTTAATTTTTGCGCTGAGTTCACGGAATTGGTCTCGTGTTGGGATTATTTTATTAGGTATTATTTTAATGGTAATTATAATTGATTTGATTTCAAGTTCGATTCGCAAACGGATTGTTTAA	MNRTTMIVPKPKKLSVYRWVIFIAITFVYVWAFSGVPLEGIKDTAGEITKAIMTGVLNPDWSYVSLPDGEDLLHGLIDTLAIAILGTFISAFLSVPFAFWAATNMSSGKLTSGSGKFVLSFVRTFPELVMALLFIKAVGPGSFAGVLALGLHSIGMLGKLYSEGIENIDKGPTEALLATGANRFQILWYAVLPQVLPDFLSYTLYRFEINVRSAAILGVIGAGGIGTPLIFALSSRNWSRVGIILLGIILMVIIIDLISSSIRKRIV	PGPT0002530_2420	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
AK009_03656	795	phnE_2	COG3639	Phosphate-import permease protein PhnE	ATGAATGACATGACGATATATTCAAATGAAATACCGAAGCCGCCGAGTAAATTGAAACATATGTTAACGTTTATTTTAGTTATTTTAATGCTGTGGAGTAGTAGTGTACAAGTAGATGCATCATTTTCAAAACTGGTAGACGGTTTTCCAAATATGGTAGATCTATTGAAAGAAATGGTGCCACCTGATTGGAGTTATTTTCAAGTTATTACAACAGCGATGTTAGATACAATACGTATGGCGATTATTGGGACGACCTTAGGAGCGATTTTAGCTATTCCACTTGCATTGTTTGCAGCAAGTAATGTGTTTACTAACACATTTTTATATAGTCCAGCTCGAATGATTTTAAATTTTATACGAACGATACCAGATTTATTATTGGCGGCTATTTTCGTAGCGATTTTTGGAATTGGGCCACTTCCAGGTATTTTGGCTCTTACTTTTTTTTCAATTGGACTTGTAGCGAAATTGTTGTATGAATCAATTGAATCAATTGACCCTAGCCCACTAGAAGCGATGACAGCTGTAGGGGCTACTAAGGTGCAATGGATTGTTTATGGAGTCATTCCACAAGTAAAAGCACACTTTGTTTCCTATGTACTATATACATTTGAGGTGAATGTACGTGCAGCGGCTGTCCTAGGTTTAGTAGGAGCAGGTGGTATTGGACTATATTATGATCGTACACTTGGATTTTTACAATATCAACAAACTGCTTCTATAATTATTTATACCCTTATTGTTGTTTTGTTAATTGACTACATTAGTACATTGTTGCGGGAGAAACTATAA	MNDMTIYSNEIPKPPSKLKHMLTFILVILMLWSSSVQVDASFSKLVDGFPNMVDLLKEMVPPDWSYFQVITTAMLDTIRMAIIGTTLGAILAIPLALFAASNVFTNTFLYSPARMILNFIRTIPDLLLAAIFVAIFGIGPLPGILALTFFSIGLVAKLLYESIESIDPSPLEAMTAVGATKVQWIVYGVIPQVKAHFVSYVLYTFEVNVRAAAVLGLVGAGGIGLYYDRTLGFLQYQQTASIIIYTLIVVLLIDYISTLLREKL	PGPT0002530_2745	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
AK009_03657	774	glnQ_1		Glutamine transport ATP-binding protein GlnQ	GTGATAGAGTTTCGAAATGTTTCCAAAATGTATCCGAATGGCACAAAGGGATTGAATAATATAAATTTAAAGATTCAAAAAGGTGAGTTTATTGTAATGGTCGGATTATCCGGAGCCGGAAAATCTACACTTCTCAGATCCGTAAATCGTCTTCATGAGATTACCGAAGGAGAAATCATTATTGAAGGTGAGTCTATTACTTCTGCGAAAGGAAAAGGATTAAGGCGTATGCGCCGGGATATCGGTATGATCTTCCAAAGTTTTAACCTTGTAAAGCGATCAACAGTATTAAAAAATGTATTAGCTGGTCGTGTTGGATATCATTCCACACTACGTACAACGTTAGGTTTGTTTCCGAAAGAAGATGTGGAGCTCGCATTTCAAGCATTAAAAAGAGTGAATATTTTAGAAAAAGCATATGCACGTGCTGATGAATTATCAGGAGGACAACAGCAACGTGTATCGATAGCTAGAGCATTGGCGCAAGAAGCAAAAATCATATTGGCAGATGAGCCTGTTGCATCGTTAGATCCACTTACGACAAAGCAAGTGCTAGATGATTTGAAAAAAATTAATGAAGATTTTGGAATCACGACAATTGTAAATTTACATTCTATTGATTTGGCTAGACAATATGCGACACGCATTATCGGATTACATGCAGGAGAAATTGTTTTTGACGGTTTAGTAGAAGAAGCAACGGATGAAAAATTTGCTGAAATTTATGGGGACGTTGCTCAGAAAAGCGAATTATTAGAGGTGGCAGTAAAATGA	MIEFRNVSKMYPNGTKGLNNINLKIQKGEFIVMVGLSGAGKSTLLRSVNRLHEITEGEIIIEGESITSAKGKGLRRMRRDIGMIFQSFNLVKRSTVLKNVLAGRVGYHSTLRTTLGLFPKEDVELAFQALKRVNILEKAYARADELSGGQQQRVSIARALAQEAKIILADEPVASLDPLTTKQVLDDLKKINEDFGITTIVNLHSIDLARQYATRIIGLHAGEIVFDGLVEEATDEKFAEIYGDVAQKSELLEVAVK	PGPT0002520_1519	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
AK009_03658	939	phnD	COG3221	Phosphate-import protein PhnD	ATGTTGAAAAAAGTTTTTGCAATGAGTACAACAGTTGTACTAGCGGCGGGATTATTAAGTGGCTGCGGAGCGAAAGAATCAAGTGCAAGTAAAAATGAAGATACGAAAAAAGGTTATGTACCAAAGACCTTAAATGTTCAATTTGTTCCTTCTCAAAATGCGGATACGCTAGAGGCGAAGGCAAAACCATTGGAAAAGCTATTAAGCGATAAATTAAATATTCCGGTAAAAGTTAGTATTTCAACTAACTACAATACAATTGTAGAAGCGATGGCATCTAAACAAGTAGATGTAGGGTTTTTACCGCCAACAGCGTACGTGTTAGCACATGAAAAGAAGGCTGCTAATGTAATTTTGCAAGCACAACGTTTTGGAGTAGAGGATGAAACAGGAGCTCCTACAAAAGATTTAGTAGACTATTATAAATCTGAGTTTGTTGTTAAAAAAGACTCTAATATAAATAGTGTAAAAGATTTAAAAGGTAAAAAAATTGGTTATCAAGATGTAACATCATCAGCAGGATATGTATGGCCTGCAGCTGTTCTATTAAAAGAGGGAATTGATCCGCTAAAGGATGTGAAACCTGTTACATTAAAAGGCCATGATCAGTCACTTATTGCACTTTTAAATGGTGATGTAGATGCAGCTGTTGTATTCCAAGATGCTCGTAATATTGTAAAAAAAGATTATCCGAATATATTTGATCAAACGAAAATAGTGAAATTTACTGAGAAAATTCCGAACGATACAATTTCTGTACGCTCGGATTTAGATGCAGAGTGGAGTAAGAAATTACAAGATGCTTTCATTGAAATTGGAAAAAATGAGGAAGGCCGTAAAATCATTAAAGAAGTATATTCCCATGAAGGATATATTAAATCTGATGATAGTAAATTTGATATTGTTCGTGAATATGGAAAGACAGTGAAGACGCAATAA	MLKKVFAMSTTVVLAAGLLSGCGAKESSASKNEDTKKGYVPKTLNVQFVPSQNADTLEAKAKPLEKLLSDKLNIPVKVSISTNYNTIVEAMASKQVDVGFLPPTAYVLAHEKKAANVILQAQRFGVEDETGAPTKDLVDYYKSEFVVKKDSNINSVKDLKGKKIGYQDVTSSAGYVWPAAVLLKEGIDPLKDVKPVTLKGHDQSLIALLNGDVDAAVVFQDARNIVKKDYPNIFDQTKIVKFTEKIPNDTISVRSDLDAEWSKKLQDAFIEIGKNEEGRKIIKEVYSHEGYIKSDDSKFDIVREYGKTVKTQ	PGPT0002525_1221	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
AK009_03659	1584	yfkN_3	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	TTGGAACAAAATCAAACTGTAACTTTAAACATCTTATTAACAAGCGATATACATAGCACTGTTTATCCCATTTACTACCAAGATAACTCCCCGGCAGAACTTGGTTTAGCTAAAATTTCTACTCTTATAAAAAAAGAACGTTCCCAAAATACAAACGTTCTTTTAATTGATAATGGTGACTTCATTCAAGGAACACCATTTACTTATCATTATGTTACATACGAAAAAAACAAAAAAAACCCAATGTCCTTATTAGCGAATTACCTACAGTATGATGCTGCAGTTATCGGCAATCATGAATTTAATTACGGGATGGACATATTAAATAATGCTGTGACTACTGCGAACTTCCCGTACCTATCAGCAAACATTTTAGATAAAAACATAAAGAAACCCTATTTCGGAAAACCTTATATAATCAAACAGATTGAATCAAATATAAAAATTGCTATTTTAGGGGTAACAACACATTACATCCCAAATTGGGAACAGGCCCATCATATTAAAGATTTACTATTTGAAGATGCATTAGAGACTACAAAAAAATGGGTTTCTTATATTCACGAACACGAGAAACCAGATTTATTAGTCGTAGCCTATCACGGTGGATTTGAAAGTGATTTACAAACCGGGGAACCGACTGAAGTGTTAACAGGTGAAAACCAAGGATATGCAATGTGCCAGGAAATTGAAGGCATAGATCTTTTACTAACAGGTCATCAACACCGAGACATTTCTCACACAATGGCTAACGGTGTAACAATTTTACAGACCGGATGCAATGGACACTCAGTTGGAAAAGTAAAAGTAACATTCGAAAAAATGAAACATAAATGGGTGAAAAAAGAGAGTTCTTCTGAATTATTATCTGTACAAGGGGTTGCAGCGGACCAAGATGTACTTTCATTGGTAGCCGATTACGAAGAGAAAACACAAAAGTGGCTTGATCAACCTATTGGAATTATTGAGGGGGACATGCAAATTTCAGATGCTATGCAAACTCGTTTGCATGATCATCCTTTTATCGAGTTCATAAATAAAATACAGATGGATATAGCTAATGTATCAATTTCTTGTACAAGTTTGTTCCATAATACATCTCCAGGCTTCCCAGAACATGTAACAATGCGTGACATCGTTTCTAATTATATTTATCCAAACACATTAAAAGTAATTAGAATAACTGGAGCAGATATAAAAGATGCTCTTGAACTCTCTGCTTCTTATTTCACATTAAAAACAGATGGATCCATCATCGTAAGCCCTACCTACATAGAACCAAAGCCACAACATTATAATTATGATATGTGGGAAGGGATTTCATATGTATTAAACATTTCAAAACCAATTGGTGAAAGAGTAGAATCTTTACAGCATAAAAGTGCTCCTCTTAATATGAATGACGAATATGACGTTGTAATGAATAATTATCGTGCAAGTGGCGGGGGAAATTTCTTTATGTTTCAAAACAAACCGATAGTAAAAGATATACCCACTGATATGTCTGAACTTATCGCTAATTATATATTGGAACATAGAACGATAGAAGCAACCGTTAATAACAACTGGAAAGTTATTAAATAA	MEQNQTVTLNILLTSDIHSTVYPIYYQDNSPAELGLAKISTLIKKERSQNTNVLLIDNGDFIQGTPFTYHYVTYEKNKKNPMSLLANYLQYDAAVIGNHEFNYGMDILNNAVTTANFPYLSANILDKNIKKPYFGKPYIIKQIESNIKIAILGVTTHYIPNWEQAHHIKDLLFEDALETTKKWVSYIHEHEKPDLLVVAYHGGFESDLQTGEPTEVLTGENQGYAMCQEIEGIDLLLTGHQHRDISHTMANGVTILQTGCNGHSVGKVKVTFEKMKHKWVKKESSSELLSVQGVAADQDVLSLVADYEEKTQKWLDQPIGIIEGDMQISDAMQTRLHDHPFIEFINKIQMDIANVSISCTSLFHNTSPGFPEHVTMRDIVSNYIYPNTLKVIRITGADIKDALELSASYFTLKTDGSIIVSPTYIEPKPQHYNYDMWEGISYVLNISKPIGERVESLQHKSAPLNMNDEYDVVMNNYRASGGGNFFMFQNKPIVKDIPTDMSELIANYILEHRTIEATVNNNWKVIK	PGPT0021400_1645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
AK009_03660	240			hypothetical protein	ATGATTAATCACGAACTCGTTGAACGCATTAACTTCTTAGCGAAAAAAGCAAAAGCTGAAGGTTTAACTGAAGAAGAGCAACGTGAGCGTCAATCGCTACGTGAACAATATTTAAAAGGATTTCGTCAAAATATGTTAAACGAACTTAAAGGTATTAAAGTTGTTAACGAAGAAGGTACAGATGTTACACCGACGAAATTAAAAGCTTTAAAAAAGCAAGATAATGCAAAATTAAATTAA	MINHELVERINFLAKKAKAEGLTEEEQRERQSLREQYLKGFRQNMLNELKGIKVVNEEGTDVTPTKLKALKKQDNAKLN				NA	NA	NA	NA	NA
AK009_03661	657	yneB	COG1961	Resolvase YneB	ATGAATGCAATTATTTATGCACGTGTGAGTACAACGAAAGAAGCGCAAGAAACATCATTATTACGTCAAAAAGATGAATTATTGCATTTAGCTGAGCGCTATCAAATGAATGTTACTAAGGTGATTGAAGAGCAGGCTAGTGGGTATACAATTGAACGTGACGGTATATTAGAGGTGTTAGATACAATTCGGGACGAACAAATTGATGTGTTACTTATACAAGATGAAACGCGCCTTGGTAGAGGGAATGCGAAGATTGCATTAATGCATTGTTTACATAAAGAAGGCATAAAAGTATATACACATACACATAATGGTGAATTACAATTGTCGGATTCTGATTCGATGGTATTAGATATTATTGGTATTGTTGAAGAATATCAAAGGAAGATTCATAACTTGAAAATTAAACGAGGTATGCAACGTGCAGTAGAAAAAGGTTATCGTCCAGAAAAAAATTTAAAAAATCGTCATTTAAGTGTAGGAAGAGAGAAAAAAGAAGTGCCAATTGAGGAAATTGTACGTTTGCGAAAAAGTGAACTCACGTTTGAAGAAATTGCAGCAACACTACGTGGATTTGGTCATAATGTTTCAAAGGCGACTGTACATCGTAGATATGTAGAGTATACGAAGCAATTGCTTGATAAAGAAGAGTAA	MNAIIYARVSTTKEAQETSLLRQKDELLHLAERYQMNVTKVIEEQASGYTIERDGILEVLDTIRDEQIDVLLIQDETRLGRGNAKIALMHCLHKEGIKVYTHTHNGELQLSDSDSMVLDIIGIVEEYQRKIHNLKIKRGMQRAVEKGYRPEKNLKNRHLSVGREKKEVPIEEIVRLRKSELTFEEIAATLRGFGHNVSKATVHRRYVEYTKQLLDKEE				NA	NA	NA	NA	NA
AK009_03662	672	lexA_1	COG1974	LexA repressor	ATGTTATACTTATTAATAAGAAAAATGAAAGAAAACGAGGTGTTAGAAAACATGGAAAAGTTAACGAAACGCCAGCAAGACATTCTCGACTTTATTAAGCTAAAAGTACAAGAAAAAGGATATCCACCTTCCGTACGTGAAATTGGTCAAGCAGTCGGCCTCGCTTCTAGTTCTACAGTGCACGGACATTTATCACGATTAGAAGAAAAAGGATACATTCGACGCGATCCAACAAAACCACGTGCCATTGAAATTTTAGGCGAAGACCGAATGGATACGGAAACACAATCTGTTATTCAAGTTCCAATTGTCGGAAAAGTTACTGCTGGTTTACCAATTACAGCGGTCGAAAGCGTAGAGGAACATTTCCCACTTCCAGCTAGCATTGTTTCCGGAGCAGACCAAGTGTTCATGTTACGTATTTCTGGAGATAGTATGATTGAAGCTGGTATTTTCGATGGAGATTTAGTTGTTGTTCGCCAACAACAGTCTGCATATAATGGTGAAATTGTAGTCGCTTTAACAGAAGATAACGAAGCAACTGTTAAACGTTTCTATAAAGAAAAAGACCATTTCCGTCTACAACCAGAAAACTCTTCATTAGAACCTATCATTTTAAAACAAGTGTCAGTTATCGGGAAAGTAATTGGCGTATATCGTGATTTACATTAA	MLYLLIRKMKENEVLENMEKLTKRQQDILDFIKLKVQEKGYPPSVREIGQAVGLASSSTVHGHLSRLEEKGYIRRDPTKPRAIEILGEDRMDTETQSVIQVPIVGKVTAGLPITAVESVEEHFPLPASIVSGADQVFMLRISGDSMIEAGIFDGDLVVVRQQQSAYNGEIVVALTEDNEATVKRFYKEKDHFRLQPENSSLEPIILKQVSVIGKVIGVYRDLH	PGPT0014895_1540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
AK009_03663	804			hypothetical protein	ATGATGAAAAAACTATTTTTAATCGCTATCGCTTGTATCATTATTGGAGTAATAGGAATTTCCCAAACATATGAAAAAGCAGTACAAACTGCTGAAAAAGGCGATAAAGAAGATGTAATTAAAAACGAAACATTAAAAAATATAGAAGTTAAGTTAGATGCCGGAGATATTGTTATCCAAAAATCTCCTGACTCTTCTTTTTATGTAAAGCAATCAGGAGATGTACGTAAACAAGTGATTCGTATTGCAGAAGATGGTGACACATTAAAAATTATTGGGGAAAGAGAAAAAGGTGCTTCATTTGATTTTTCTTTTTACGATTTTAGGTTCCAAACGTCTAAATTGACTCTCCTTGTGCCCGAACGCTCTTATCAAGATGTAAAAGTAAATTCATCTGCTGGACAAATCGAAATGAGTGATGTGAAAAGTGATAGTGTAAGTGTTAGAACACTTGCTGGAGAAGTAGAGCTGAAACAAGTAACGTCTAAGAATGTGGAGGGATCTACAAAAGCTGGTGAGGTGAACTTTAAAAAAGTAATAGGGAAAGTGACCGCAAAAACAACAAGTGGGGAAATAAATATTCAAGATCATGATTCTAAGTATAATCTAGAAGCAAGTTCAACTGCGGGAGATATAGATATTACTTTATCGGAAAAACCACAAGATGCGGTAATTACTGGGCAAAGTGCTGCCGGAGATGTAACAATTTTTAATGAAGAAAATAATAACGTAACAATTGGAAATGGTAGTAAAAAGATTAGCGGTAAAACGGCTGCTGGAGATGTCACGATTGAAACTCGTTAA	MMKKLFLIAIACIIIGVIGISQTYEKAVQTAEKGDKEDVIKNETLKNIEVKLDAGDIVIQKSPDSSFYVKQSGDVRKQVIRIAEDGDTLKIIGEREKGASFDFSFYDFRFQTSKLTLLVPERSYQDVKVNSSAGQIEMSDVKSDSVSVRTLAGEVELKQVTSKNVEGSTKAGEVNFKKVIGKVTAKTTSGEINIQDHDSKYNLEASSTAGDIDITLSEKPQDAVITGQSAAGDVTIFNEENNNVTIGNGSKKISGKTAAGDVTIETR				NA	NA	NA	NA	NA
AK009_03664	543			hypothetical protein	ATGAGTAAAGAAGGGTTTCTTAAAGAATTATCAAGTTATCTTAGAAAGTTACCAGAGGAAGAGAGGCAAGATATTTTATTGGATTATGAAGAGCACTTTCAGTTTGGACTAGAAGAGGGGAAAACTGAATCAGAAATAATACAGGGCCTTGGTTCTCCGAAAGTAATCGCAAAAGAATTACTTGCGATGTATCGCTTCGATGAAATGAAAAAAAATCCATCGACTTCAAATGTGACAAGAGCTGTTATGGCAGCGATTGGACTTAGTTTGTTTAATTTTATTATTGTGTTAGGCCCGTTAGTCGCAATTATTGCTTTTATATTTTCTTTTTGGATTGGTGGTATTGCTAGTGTAGTAACACCATTTTTCGTTATTGGAAAAGTATTTATGGGTACTTTTATATGGTTGGATCTTTTCGTTAGTATAACGTTTGTTGGAGTAGGTTTGTTGTTATGTATTATCGCTTTTTATAGTACAAAGTGGTTTAAGAGATTGTGTGTACGATACGTAATATGGAACTTCAAAATGATAAAAGGAGAGTAA	MSKEGFLKELSSYLRKLPEEERQDILLDYEEHFQFGLEEGKTESEIIQGLGSPKVIAKELLAMYRFDEMKKNPSTSNVTRAVMAAIGLSLFNFIIVLGPLVAIIAFIFSFWIGGIASVVTPFFVIGKVFMGTFIWLDLFVSITFVGVGLLLCIIAFYSTKWFKRLCVRYVIWNFKMIKGE				NA	NA	NA	NA	NA
AK009_03665	324			hypothetical protein	TTGAACGTTCAGTTTAAAAAAGGTGTGCTTGAACTTTGTGTATTAGCACTTGTAAAACGTAAAGATAGTTACGGTTATGAACTTGTTCAGCAAATCTCTAATAAATTTTTAATATCGGAAGGGTCAGTATACCCTTTGTTACGTCGTTTGACGAAAGAAGGGTATTTTCAAACGTATTTAAAGGAATCTACGGAAGGGCCACCTCGTAAATATTATCAATTAACAGAACAAGGGGAGACGCAATTTCATTTGTTAGTAACAGAATGGCGTGATTTTGCGAAAGGGGTACAAGAAATTATTGAAGGGGTGGAATGGGATGAGTAA	MNVQFKKGVLELCVLALVKRKDSYGYELVQQISNKFLISEGSVYPLLRRLTKEGYFQTYLKESTEGPPRKYYQLTEQGETQFHLLVTEWRDFAKGVQEIIEGVEWDE				NA	NA	NA	NA	NA
AK009_03666	231	uviB_2		Bacteriocin UviB	ATGGAAGAACAAATCTTCAATTCAATGATTCAACAAGGAGCATTCGCAGCTTTATTTGTGTGGATGCTGTTTACTACGCAAAAAAAGAATGAACAGCGCGAAGAACAATATCAAAAAGTTATTGAAAAAAATCAACAGGTCATTGAAGAACAAGCAAAAGCATTTAGTTCGTTGTCAAAGGATTTATCAGATGTTAAGCAAAAAATATTGGGAAACGGGGATGAGAAATAA	MEEQIFNSMIQQGAFAALFVWMLFTTQKKNEQREEQYQKVIEKNQQVIEEQAKAFSSLSKDLSDVKQKILGNGDEK				NA	NA	NA	NA	NA
AK009_03667	843			hypothetical protein	ATGGCGAAATTTATTTATCCAACCGATACAACGAGAGTAACAAGTGGTTTTAGGGGGAGTAGACCAGATCATCATGGGATAGATCTGGCTGAATCGGGTTATCATCCGATTTATGCAGCGGCTAGCGGACGAGTTAGTCGTTCTTATGTTTCATCTAGTTATGGTGAATGTATTATGATTGTGCACACTATTGATGGGGTTACATGGGAAACAGTATATGCTCATATGCGTAGCGGTTCTCGAACGGTGAAAGAAGGTGATTATGTTACGCAAGGACAAACTATTGGAGTTATGGGTAGCACGGGAGAAGTTACTGGTCAACATCTACATTTTGAATTGCATAAAGGGTCTTGGAACGTTAATAAGAGTAATGCTGTGAATCCATTAGATTACTTAGGAAAAGGAGACGGTGGTGGTACAACAGATCCTTCTAATAAACCACTACAACCAAAAGGGCTAGGTATCGCAACGTCTAAATACCCAGAAGGATCGGGTATCAATTTATATAGTGGCCCTGGAAAAGATGCCTGGTTCACAGGTCATGTCATTAATACAAAAATGCCATATTTAATTATAGATGCTGCTTGGTATGGTGGGAATGAAAATATGTTGTGCCTAGGTTGGGAAGCATGGGCAAAAGAAGAACACTTTGAAGTAGAGTGGTTCCATGCTTATTCAAAATATCCAGCAGGTTATGGTATTAACACATATGATGGTCCAAATGGAAATTATAAAGGAAATGTAGATGGATCTTATCCATATGGGATTTTTGCAAGAAAAGATGGTTATATCGATATTGGACAAAATACATGGGTAAAAGAAGAACATTTTAATGTGAGATAA	MAKFIYPTDTTRVTSGFRGSRPDHHGIDLAESGYHPIYAAASGRVSRSYVSSSYGECIMIVHTIDGVTWETVYAHMRSGSRTVKEGDYVTQGQTIGVMGSTGEVTGQHLHFELHKGSWNVNKSNAVNPLDYLGKGDGGGTTDPSNKPLQPKGLGIATSKYPEGSGINLYSGPGKDAWFTGHVINTKMPYLIIDAAWYGGNENMLCLGWEAWAKEEHFEVEWFHAYSKYPAGYGINTYDGPNGNYKGNVDGSYPYGIFARKDGYIDIGQNTWVKEEHFNVR				NA	NA	NA	NA	NA
AK009_03668	990			hypothetical protein	ATGATGAATTTATTAGCTGCTTCAGTCAAAACAAAGAATTTGCCACAACAAGTGTTACGTTGGCAATCAATGGTAGAAAGTGAATGTTCCGCACAAGGAGTACCTGAGTTAGTTCCTTACGTACTTGGAATTATTATGGTGGAAAGTGGAGGGAACTCTGAAACACCCCCCGATATTATGCAGTCCAGTGAATCACAAGGTTGGCCAATGAATACAATTAAAAATCCTAAGGATTCAATTTATTACGGAGTAAAGCATTTAAAGGGAGCTTTTGATGATGCAAAGAAAAATGGTATTACAGATTTAAGTGCCATTGTTCAATCGTATAATTTTGGACGAGCTTACCTTCGCTGGTTAGCTTCTAACAATAAACAGCATTCATTACCGGTAGCAGATTTGTATTCTAAAACAGTTGTTGCTCCATCACTCGGAAATACAACTGGTGCTATGGTGAAATATAGTCACCCTATCGCTGTTGCCTACAATGGTGGTTATCGATATAAAAATGGGGGGAATTTCTTCTACTCTGAAATTGTTAAGCAATATGTTGATTTTAACGGAGGAACTGATGGTGGTGACAATAAACCGTTACAACCAAAAGGACTAGGAATCGCAACGTCTAAATACCCAGAAGGATCGGGTATCAATTTATATAGTGGCCCTGGAAAAGATGCTTGGTTCACAGGTCATGTCATTAATACAAAAATGCCATATTTAATTATAGATGCTGCTTGGTATGGTGGGAATGAAAATATGTTGTGCCTAGGTTGGGAAGCATGGGCGAAAGAAGAACACTTTGAAGTAGAGTGGTTCCATGCTTATTCAAAATATCCAGCAGGTTATGGTATTAACACATATGATGGTCCAAATGGAAATTATAAAGGAAATGTAGATGGATCTTATCCATATGGCGTTTTTGCGAGAAAAGATGGCTATATCGATATTGGACAAAATACATGGGTAAAAGAAGAACATTTTAATGTAAGGTAA	MMNLLAASVKTKNLPQQVLRWQSMVESECSAQGVPELVPYVLGIIMVESGGNSETPPDIMQSSESQGWPMNTIKNPKDSIYYGVKHLKGAFDDAKKNGITDLSAIVQSYNFGRAYLRWLASNNKQHSLPVADLYSKTVVAPSLGNTTGAMVKYSHPIAVAYNGGYRYKNGGNFFYSEIVKQYVDFNGGTDGGDNKPLQPKGLGIATSKYPEGSGINLYSGPGKDAWFTGHVINTKMPYLIIDAAWYGGNENMLCLGWEAWAKEEHFEVEWFHAYSKYPAGYGINTYDGPNGNYKGNVDGSYPYGVFARKDGYIDIGQNTWVKEEHFNVR				NA	NA	NA	NA	NA
AK009_03669	387			hypothetical protein	GTGTTCGAATGGCTCAAAGATTATAAGAAGTTAGAAGAAGAAATTACTTATTTAGAATACAACTTAGATAAATCAAAAGCCGAATTGAAGCGTTGGATTAGTGGTGATTTGCAAAATGTACGATTAAACGCTGAATCGGAAGGGGCTAAGGTAGAAGGACGAATTGAAGTAATTGAATATGAATTAGCTTATAAGATGAATGAAGAGTATGATTTAAAGCTTTTAATTAATAAGTTTACAGGACTGGATCATCAAATACTTAAAATGAAATATGTTGATGGAATGACTTTAGAACAAATAGCGTTTGAATTACATTATAGTACAGGCTATATCCGCCGAAAACATGCTGAAATAAGAAAGATTGTCAAGTTTTTAGATGGGTTTTAA	MFEWLKDYKKLEEEITYLEYNLDKSKAELKRWISGDLQNVRLNAESEGAKVEGRIEVIEYELAYKMNEEYDLKLLINKFTGLDHQILKMKYVDGMTLEQIAFELHYSTGYIRRKHAEIRKIVKFLDGF				NA	NA	NA	NA	NA
AK009_03670	165			hypothetical protein	ATGTTAGGAAAGGGTTGTGTTTATAAAATGAAAGATAATTTACAAGTAATAAAGATTGAAAAAGTTAATAAGCATATTCATTCTATTAAATTAGTATTAAGAGACTTTGTAAAAAGAACGGAAGTGGGTGAATCGGTAAGTGTTCGAATGGCTCAAAGATTATAA	MLGKGCVYKMKDNLQVIKIEKVNKHIHSIKLVLRDFVKRTEVGESVSVRMAQRL				NA	NA	NA	NA	NA
AK009_03671	888			hypothetical protein	ATGGGAATTATTCGAGTGAAAAAAGATAGTAATTATTCCGTTATAAATAATACTGGTTTAAAAGATGAAAGGTTGTCTTGGAAAGCGAAAGGAATCTTAGCCTATGCGCTTACATTACCAGACGATTGGACTTTTCATATTAGCGAATTAGCTCGACATGCTAAGGATGGAGAAGATTCGCTCCGTACAGGTTTTAAGGAATTAAAAGAATTAGGTTATGTAAAACGTTATCCTGTTCGTGATGGGAATACCAAAAAAATTACAAGGTGGGATACGGAAATTTACGAAACGCCACAAAGGAACATGCCACAAGTGGAAAACCAAGATGTGGTAAAGCCATATGAGGAAAATCAAGCACTACTAAATACTAATAGAATAACTACTAATAAACGAAATACTAATATACAAAATACTAATCATTATGATGATATTGATAAATTAGATTCTTGTGTATCCAGCAATGAGAAGGTTAAAGTAAGTTGCAACTTTATTAAGGGGACGGGCATTCCGTTAAGTGAAATTGCAATTGCAGAGTTGGGGGATTTTTGTAATTTGTTTAGTGATGAATTAATTCAGCATGCAATTAATAAAGCCGTTGATGAGAATGCACCAAGATGGAACTACATTAAGGCTATATTGAGGAATTGGAAGGAGCAAGAAGTTAAAACATTAGTTGATGTGGCCATACTAGATAGACGTTTCGAAATGAGCAAGAAAAAGAAATATAATGGGATAGGTAGGAAGTATTCAAATAGAAAAGAGATTGTACCTGATTGGTTATACAAAGATGATGAATCAACAAATCAAGAAGAGGAAAGAAAAATCGTGCAATCTACTGATGAAGAGCGTGAGAGATTACAAGAAGTGTTAAATAAATATAAGTCATAA	MGIIRVKKDSNYSVINNTGLKDERLSWKAKGILAYALTLPDDWTFHISELARHAKDGEDSLRTGFKELKELGYVKRYPVRDGNTKKITRWDTEIYETPQRNMPQVENQDVVKPYEENQALLNTNRITTNKRNTNIQNTNHYDDIDKLDSCVSSNEKVKVSCNFIKGTGIPLSEIAIAELGDFCNLFSDELIQHAINKAVDENAPRWNYIKAILRNWKEQEVKTLVDVAILDRRFEMSKKKKYNGIGRKYSNRKEIVPDWLYKDDESTNQEEERKIVQSTDEERERLQEVLNKYKS				NA	NA	NA	NA	NA
AK009_03672	195			hypothetical protein	ATGCAAAGAAAGATTTTAGTCATTACTAGCAGTTTAGCAGGACTACCAACTGTCAGTGAATTTAAAACAAAAGAAGATGCAAAAGAGCAGGTTAGAAAGCTTATTCAAAAAGGAGTGAGTCAAAATGTGATTCGTATAACACAAGAAATTCCTATGAATATCGAAATTCAAGTGGATGTTGAATTTGAGGAATAA	MQRKILVITSSLAGLPTVSEFKTKEDAKEQVRKLIQKGVSQNVIRITQEIPMNIEIQVDVEFEE				NA	NA	NA	NA	NA
AK009_03673	759			hypothetical protein	ATGGGGCAATTAACTGACTCATCAGTACATAGTTCATTAGTATTTGAAGTTAATGGCAAAGTAGTAACGGATAGTTTGGTAATTGCAAAGATATTCAAAAAAGATCACTTCGACGTTTTGAAGGAAGTTCGAAAACAAATTGTATATGTAGATGAAGAGTTTGGAGGAGAAAATTTTCACGAGTCCACTTATGTTAATTCAAAGAACAGGTGGATCCCTAAATATGATTTAACAGAAGAAGCATTCACGTTACTTGTTATGGGATATACCACTAGAGAAGCGGTTGGAATGAAAATTAAATTTATGAAAGAGTTCAAACGAATGAAGCAGTATATACAAAATCAACAAAATGTGCCAAAGGATCCAATGGGGGTTTTAAAGTTAACATTTGCTGCGTTAGAAGGGCATACTCAGGAGATACAAGAGATTAAGTCTGAGGTGAAGGAATTGCGAGAAAATACGCCGCTTTATGCTATTGAGTGTGAAGAGATAATAAGGGCTGTAAAGAGGTTAGGTGTTATGTTATTGGGAGGTAAAAATTCAAATTCTTATCAGGATATCGGCCTTAGAAGAAAGTTATATAGAGATATTTATAGTCAGTTACATCGGGAATTTGGTGTGAATAGTTATAAAGCTATTAAACGTTATCATTTGGATAGAGCGATACAAATTATTAATGAAGAATATTCAATTCCAACTGTTTTAAATGAAGAAATTACAGTTAAAAACTCACAAATAAATATGGCAGAAATTCAGTAG	MGQLTDSSVHSSLVFEVNGKVVTDSLVIAKIFKKDHFDVLKEVRKQIVYVDEEFGGENFHESTYVNSKNRWIPKYDLTEEAFTLLVMGYTTREAVGMKIKFMKEFKRMKQYIQNQQNVPKDPMGVLKLTFAALEGHTQEIQEIKSEVKELRENTPLYAIECEEIIRAVKRLGVMLLGGKNSNSYQDIGLRRKLYRDIYSQLHREFGVNSYKAIKRYHLDRAIQIINEEYSIPTVLNEEITVKNSQINMAEIQ				NA	NA	NA	NA	NA
AK009_03674	213			hypothetical protein	ATGTATCCGGATTTGCGTGCAGAGATGGCGAGAAAAAGAATTATGATTACACAAATTTCTTCGCATCTGAAACTTCGCCACGCAACAGTGAGCGACAAAATAAATGGTAAATTTCGTTTTTATTATGATGAAGCTTTTGAAATTAAGAAAACTTTTTTTCCAGAACATAATTTGGAATATCTTTTTGAATTTGAAGAAAACGAAGCGAATTGA	MYPDLRAEMARKRIMITQISSHLKLRHATVSDKINGKFRFYYDEAFEIKKTFFPEHNLEYLFEFEENEAN				NA	NA	NA	NA	NA
AK009_03675	672	lexA_2		LexA repressor	ATGGTGAAAGTAATGAAAAAAGCAGAGGTTGTAACACGCTTAATAAAAGAAGCTGGCTATAGCAAAAGAGCCTTCGCCGAAAAAATAGGTCTCCCCCCCACAACACTGCAATCCATGTTATCAAGAGGGATTGGTAAAGCATCTGTTGATAATGTAATAAAAGTTTGTAAGGGATTAGGAATCACTACTGATGATTTAGAAAAACTCGCAACCCAAGAGGACAATACTGTTAAAGAAGAAGTTTCTATTTATGAAACCATCCAAAACGATCAATCAAATATTATTCATATTCCTATCATTGGTTCTGTAGCAGCTGGTACACCTATATTCGCTGAAGAAAATATCGAAGGCTATTTACCAATGCTAAGTACATTTTTAAACAAGCGTAAAAAGTATTTTTACCTTACTGTAAAAGGCACTAGCATGAATCTCGAATTCCCTGATGGTTCTTATGTTTTAGTAGAGGAAACTCCTTATGTTGAAAACGGACAAATTGCTGTTGTAAAAGTCAATGGTTATGATGCTACCGTGAAAAAGATTTCAAAATCTGGAAGCATCATTACTTTAATACCATTGAGTAATGACCCTATCCACGAACCAAAAACTTACGATCTTTCAGCTGAAGATGTAAAAATCATTGGTCGCGTTGTACAGGCAGTAAAGAATTATTAA	MVKVMKKAEVVTRLIKEAGYSKRAFAEKIGLPPTTLQSMLSRGIGKASVDNVIKVCKGLGITTDDLEKLATQEDNTVKEEVSIYETIQNDQSNIIHIPIIGSVAAGTPIFAEENIEGYLPMLSTFLNKRKKYFYLTVKGTSMNLEFPDGSYVLVEETPYVENGQIAVVKVNGYDATVKKISKSGSIITLIPLSNDPIHEPKTYDLSAEDVKIIGRVVQAVKNY	PGPT0014895_602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
AK009_03676	1335	glnA	COG0174	Glutamine synthetase	ATGTCTAGATACACAAAAGAAGATATTTTCCGTTTGGCGAAAGAAGAGAATGTAAAGTATATCCGTTTACAATTTACGGACCTTTTAGGGGTAATTAAAAACGTAGAGATTCCAGTGAGACAACTAACGAAAGCTCTTGATAACAAAATGATGTTTGATGGATCTTCGATTGAAGGTTTCGTACGTATTGAAGAATCTGATATGTATTTATATCCTGATTTAGACACTTGGGTAATTTTCCCTTGGACAGCTGAAAAAGGTAAAGTAGCTCGACTAATCTGTGATATTTACAATGCAGATGGCACTCCATTTGATGGAGACCCACGTAACAACTTAAAACGTGTGTTAAAAGAAATGGAAGCTTTAGGATTTTCAGACTTCAATCTTGGACCAGAGCCAGAATTCTTCCTATTTAAGGTTGATGAAAAAGGAAATCCAACATTAGAATTAAACGATAACGGTGGATACTTCGACCTTGCGCCGATGGATCTAGGGGAAAACTGTCGTCGTGATATCGTTCTTGAACTTGAAGAAATGGGATTTGAAATTGAAGCATCTCACCATGAGGTTGCTCCAGGACAGCACGAAATTGACTTTAAATATGCAAATGCAATTCGCTCATGTGATGACATTCAAACATTCAAACTTGTTGTAAAAACAATTGCTCGTAAACATGGTTTACACGCAACGTTTATGCCAAAACCACTATACGGTGTGAACGGTTCAGGTATGCACTGTAACTTATCATTATTTAAAAATGGTGAGAACGTATTCTTTGATGCAAACGGTGACTTACAATTAAGTGATGATGCTCGTCACTTCATCGCAGGTATTTTAAAACATGCACCAGCATTTACAGCGATAGCAAACCCAACTGTAAACTCATACAAACGTCTAGTACCTGGATATGAAGCGCCTTGTTACGTAGCGTGGTCTGCACAAAACCGTAGCCCGTTAGTACGTATCCCTGCATCTCGTGGTATTAGTACACGCGTAGAAGTACGTAGTGTTGACCCAGCTGCAAACCCATATTTAGTAATGGCTACATTATTAGCTGCAGGTCTTGATGGAATTAAAAACAAATTAACTCCACCAGCTGCAGTAGACCGTAACATCTATGTAATGACAAAAGAAGAGCGCGAAGAAGCAGGTATCGTTGACTTACCAGCAACATTAGCGCAAGCGTTAGTTACATTACAATCTAATGAAGTAGTATGCGGTGCACTAGGAGAACACTTACTTGAGCACTTCATCGAAGCGAAAGAGATTGAGTGGGATATCTTTAGAACACAAGTTCACCAATGGGAACGCGATCAATATATGTCTCTATACTAA	MSRYTKEDIFRLAKEENVKYIRLQFTDLLGVIKNVEIPVRQLTKALDNKMMFDGSSIEGFVRIEESDMYLYPDLDTWVIFPWTAEKGKVARLICDIYNADGTPFDGDPRNNLKRVLKEMEALGFSDFNLGPEPEFFLFKVDEKGNPTLELNDNGGYFDLAPMDLGENCRRDIVLELEEMGFEIEASHHEVAPGQHEIDFKYANAIRSCDDIQTFKLVVKTIARKHGLHATFMPKPLYGVNGSGMHCNLSLFKNGENVFFDANGDLQLSDDARHFIAGILKHAPAFTAIANPTVNSYKRLVPGYEAPCYVAWSAQNRSPLVRIPASRGISTRVEVRSVDPAANPYLVMATLLAAGLDGIKNKLTPPAAVDRNIYVMTKEEREEAGIVDLPATLAQALVTLQSNEVVCGALGEHLLEHFIEAKEIEWDIFRTQVHQWERDQYMSLY	PGPT0000645_8503	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
AK009_03677	390	glnR	COG0789	HTH-type transcriptional regulator GlnR	ATGAAAGAAGATAGACGTTCTGCCCCGCTGTTTCCAATTGGTATTGTTATGGATTTAACACAATTGTCTGCACGTCAAATTCGCTACTATGAAGAGCATAATCTTGTTTCTCCAACCCGTACAAAGGGGAATCGTAGATTATTTTCATTTAACGATGTAGATAAGTTGTTAGAGATTAAAGATTTGTTAGATCAAGGCTTGAATATGGCTGGTATTAAGCAAGTGTTACTAATGAAAGAAAATCAAACAGAAGCAGTGAAAGTAAAAGAAGAAACAAAAGAAATTTCAAAAACTGAGCTTCGCAAAATACTTCGAGATGAACTACAACATACAGGTAGATTCAATCGAACTTCATTGCGACAAGGTGACATTTCAAGATTTTTTCACTAA	MKEDRRSAPLFPIGIVMDLTQLSARQIRYYEEHNLVSPTRTKGNRRLFSFNDVDKLLEIKDLLDQGLNMAGIKQVLLMKENQTEAVKVKEETKEISKTELRKILRDELQHTGRFNRTSLRQGDISRFFH	PGPT0001015_175	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0001015-glnR-K03713	NA	NA
AK009_03678	1272			hypothetical protein	ATGTTTGATCGTTTGAAAAATGGAGAAAAAATTGCTCCAATCGTAAAAGAAGTAGAGAGTCAGATTACAGAAGTACATAAACGTGCGGATGAAGTAATTGAAAGTAATCAGTTTCGTGTATTAGAAAGTTTTCGTAAACATAAAATTAGTGACTCGCATTTTATCCCGACGACAGGTTATGGTTATGATGATATTGGCCGTGATTCGTTAGAAAAAGTGTATGCTGATGTGTTTGGAGCGGAAGCTGGACTTGTTCGTCCGCAAATTATTTCAGGTACTCACGCTATTTCTACAGCGTTATTCGGTATTTTACGTCCAGGAGATGAGTTATTGTACATCACTGGAAAACCGTATGATACGTTAGAGGAAATCGTTGGCGTGCGTGGGAAAGGTGTAGGTTCATTTAAAGAATATAATATTGGTTACAATGCAGTTCCGCTAACTGAAGGTGGGCTTGTTGATTTTGAAGCTGTTGCAGCAGCGATTCATAGTAATACGAAAATGATCGGTATTCAGCGTTCGAAAGGTTATGCTACTCGTCCATCGTTTACTATTTCTCAAATTAAAGAGATGATCGCGTTTGTTAAAGAAATTAAACCTGATGTTGTTGTGTTTGTAGATAACTGTTATGGTGAGTTTATTGAAGAGCAAGAGCCGTGTCATGTTGGTGCAGATTTAATGGCGGGTTCGCTTATTAAAAACCCAGGCGGGGGAATTGTAAAAACTGGTGGTTACATTGTCGGTAAAGAACAGTATGTTGAAGCGTGTGCATATCGTTTAACATCTCCGGGAATTGGTGCGGAAGCTGGAGCGTCTTTATACAGTCTGCAAGAAATGTATCAAGGGTTCTTCTTAGCGCCACATGTTGCAGGACAAGCGCTGAAAGGTGCAATTTTTACAGCTGCGTTTTTAGAAAAGTTAGGAATGAACACGTCACCAGCGTGGAATGCACCAAGAACAGACTTAATTCAATCTGTTCAATTTGATGATAAAGACCGTATGATTGCCTTCTGCCAAGCGATTCAATATGCATCTCCAATTAATTCGCATTTTACTCCGTATGCAAACTATATGCCAGGTTATGAAGATGATGTAATTATGGCGGCGGGAACGTTTATTCAAGGTGCAAGTATTGAATTGTCTGCTGATGGTCCGATTAGACCACCGTATGTTGCATATGTGCAAGGTGGATTAACGTATTCGCATGTTAAAATTGCGATTTGTTCTGCGATTGATGAATTGATTGAAAAGAATTTATTAACAATTTCTTAA	MFDRLKNGEKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFRKHKISDSHFIPTTGYGYDDIGRDSLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKMIGIQRSKGYATRPSFTISQIKEMIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLMAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEMYQGFFLAPHVAGQALKGAIFTAAFLEKLGMNTSPAWNAPRTDLIQSVQFDDKDRMIAFCQAIQYASPINSHFTPYANYMPGYEDDVIMAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELIEKNLLTIS				NA	NA	NA	NA	NA
AK009_03679	1275	hflX_2	COG2262	GTPase HflX	ATGGAAGAAAAAGAAAAAGTCATATTAGTAGGCTGTCAATTGCCGCAAGATGATGATGAAAAATTTATGCATTCCATGAAAGAGCTTGCATCACTAGCTAAGACTGCGAGAGCGGAAGTGTTAGTTTCAACAACGCAAAAACGACCAAAGTTTCATCCGGCAACTTACATAGGTAAAGGGAAATTAGAAGAGCTTACAATGCTAACTGAAGAATTAGAGCCGGATGTTATTGTATTTAATAATGAATTAACGCCGAGTCAAATTCGGAATTTATCCTCAGTATTAGATGCGAGAGTAATTGATCGAACGCAACTAATACTAGATATTTTTGCGCAACGTGCGAAGTCGAGGGAAGGTAAGCTTCAAGTAGAATTAGCTCAGTTGCAATATACAATGCCACGTCTTATGGGTCAAGGGTTGTCCTTATCACGTCTTGGTGGTGGTATTGGAACGAGAGGACCGGGTGAGACGAAACTTGAGACGGATCGTCGTCATATTCGATCGCGTATTGATGAAATAAAGAAACAACTTGCAGTTGTTGTGGAACACCGAAAAAGATATCGTGAGAGAAGAAAAGACAATAAAGTATTTCAAGTTTCATTAATAGGCTATACAAATGCAGGGAAATCGACACTGTTTAATAGATTAACGGAAGCTAATACGTTTGAAGAAAATCTTCTGTTTGCAACACTAGACCCAACGACGAGGAAGATGCCGTTACCTTCTGGTTATACAGTATTACTAACTGATACTGTTGGTTTTATACAAGATTTACCCACTTCATTAATTGCTGCTTTTCGTTCAACACTGGAAGAAGCGGGGGAAGCAGATGTTATTTTACATGTAGTTGATTCTGCGGATCCTAACTACATAGGGCATGAAAGAACAGTAAAACGATTATTATCAGAACTTGAAATTAATCATATTCCTATTATTACGTTATATAATAAAAAAGATGAATTACATCAAAACTTTATTCCGTTTCCGAAAAGTGATTTCTTAATGACTAGTGCTTTTGAAGAAAGTGATTTATTGCGTATAAAAGAAGCGATAGAAATGAAAATGAAGAAAGAAATGGATCGTTATCGAGTAGAAATCCCTCCGAGTGAAGGTAAGTTATTAACGCTTTTAAAGACGGAAACGCTATTAGCAAAGATGGAGTTTCTGGAAGATAAATTTGTATATGATTGTGCAGGGTATATTTTTACTCATTCATCGCTTAATGTGCAATTAAAGAGATTTTTAGTGGAAGAAGGAGAAAATAAAAATGTTTGA	MEEKEKVILVGCQLPQDDDEKFMHSMKELASLAKTARAEVLVSTTQKRPKFHPATYIGKGKLEELTMLTEELEPDVIVFNNELTPSQIRNLSSVLDARVIDRTQLILDIFAQRAKSREGKLQVELAQLQYTMPRLMGQGLSLSRLGGGIGTRGPGETKLETDRRHIRSRIDEIKKQLAVVVEHRKRYRERRKDNKVFQVSLIGYTNAGKSTLFNRLTEANTFEENLLFATLDPTTRKMPLPSGYTVLLTDTVGFIQDLPTSLIAAFRSTLEEAGEADVILHVVDSADPNYIGHERTVKRLLSELEINHIPIITLYNKKDELHQNFIPFPKSDFLMTSAFEESDLLRIKEAIEMKMKKEMDRYRVEIPPSEGKLLTLLKTETLLAKMEFLEDKFVYDCAGYIFTHSSLNVQLKRFLVEEGENKNV	PGPT0007245_3226	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
AK009_03680	624			hypothetical protein	ATGGCATGGGAGATTTTTAGCATCATAGGCACAATCGCTTTCGCACTAAGCGGAGCCATTGTTGCAATGGAAGAGGATTATGATATTTTCGGGGTGTATATTTTAGGAATGGCAACCGCATTTGGGGGAGGTGCCCTTCGTAATTTATTAATCGGTTATCCGATTGTCGCGTTTTGGCAACAAGACATGTTATTCCAAATCGCACTTTTATCAATGACTATTATTTTTCTTTTTCCAAATAAGTTAATTAGACATTGGAAAAAGTGGGAAAATATCACTGACGCTATCGGCTTATCAGCATTTGCTGTACAAGGAGCATTATATGCTCAAAAATTAAATTTACCAATTAGCGCCACAATCGTGGCAGCTGTTTTAACTGGTATCGGCGGCGGTATCATTCGCGACCTTTTAGCCCGCAGAAAACCTCTCGTTCTTCGAGCTGAAGTATATGCCTTTTGGACAATTTTAGCAGGTTTCTTAATTGGCGCTCAAATTATTGTTAGCGATTGGGCTCTTTACATTTTATTCATTTTAATTGTTTGCTTCCGCATGGTTTCTATTCATTACAAATGGCATTTACCGCACAGACGTATCGAAACGAAAGAACGTTCAATGCATAAATAG	MAWEIFSIIGTIAFALSGAIVAMEEDYDIFGVYILGMATAFGGGALRNLLIGYPIVAFWQQDMLFQIALLSMTIIFLFPNKLIRHWKKWENITDAIGLSAFAVQGALYAQKLNLPISATIVAAVLTGIGGGIIRDLLARRKPLVLRAEVYAFWTILAGFLIGAQIIVSDWALYILFILIVCFRMVSIHYKWHLPHRRIETKERSMHK				NA	NA	NA	NA	NA
AK009_03681	138			hypothetical protein	ATGACAAACCACGTTAATAAAGGAGCTCAAAAAAGTTCAGTAAACCAATTTGGACACGACCCTAATTCAGCACACGAAAAGAGCGCTAAAATGGAACGCTTCCATAAAGCGCACCAAGAAAAAGCAAAAAAAGAGTAA	MTNHVNKGAQKSSVNQFGHDPNSAHEKSAKMERFHKAHQEKAKKE				NA	NA	NA	NA	NA
AK009_03682	957	spoVK	COG0464	Stage V sporulation protein K	ATGGAACAATCGATGCGAAAGAAAAACAACAATCAAATTAATATTGTGTTAAACCATCGAAAGAAAATTTCTTTGCCAGCCACAGAAAATAAAACGGTAATTTCAAATGAAACTACAATTAAACATGAAATGCTGCAGAGAATTGAAGAAGAGATGGGGAAGCTTGTTGGGATGGATGATATAAAAAAGATAATAAAAGAAATATATGCTTGGATTTATGTGAATAAAAAAAGACAAGAGAAGGGATTGAAGTCTGAGAAGCAAGTACTTCATATGTTGTTTAAAGGGAATCCGGGTACAGGGAAGACAACTGTTGCTAGAATGATAGGGAAATTGCTGTTTGAGATGAATATTCTATCGAAAGGCCACTTGGTTGAAGCTGAACGTGCTGATCTTGTAGGAGAGTATATCGGCCATACAGCTCAAAAAACAAGAGACTTAATAAAAAAAGCAATGGGAGGTATTTTGTTTATTGATGAGGCTTATTCTTTAGCTCGAGGAGGAGAGAAGGACTTTGGAAAAGAAGCAATTGATACGCTTGTAAAACATATGGAAGATAAACAACATGGTTTTGTATTGATTTTAGCTGGATATTCAAGAGAGATGAATCACTTTCTTTCATTAAATCCAGGGCTGCAATCTCGTTTTCCATTTATTATTGAATTTGCGGATTACTCGGTAAATCAGCTATTGGAAATTGGAAAGAGAATGTATGAAGATCGTGAATATCAGTTATCAAAAGAAGCTGAATGGAAATTTAGGGATCATTTACATGCGGTGAAGTATTCGTCGCAAATTACATCGTTTAGTAATGGGCGGTATGTACGGAATATTGTTGAAAAATCAATTCGTACACAGGCGATGCGGTTGTTGCAAGAAGATACGTATGATAAAAATGATTTAATTGGAATATCGAGTATGGATTTGATGCTCGAAGAGGAGACGCACAGTACATAA	MEQSMRKKNNNQINIVLNHRKKISLPATENKTVISNETTIKHEMLQRIEEEMGKLVGMDDIKKIIKEIYAWIYVNKKRQEKGLKSEKQVLHMLFKGNPGTGKTTVARMIGKLLFEMNILSKGHLVEAERADLVGEYIGHTAQKTRDLIKKAMGGILFIDEAYSLARGGEKDFGKEAIDTLVKHMEDKQHGFVLILAGYSREMNHFLSLNPGLQSRFPFIIEFADYSVNQLLEIGKRMYEDREYQLSKEAEWKFRDHLHAVKYSSQITSFSNGRYVRNIVEKSIRTQAMRLLQEDTYDKNDLIGISSMDLMLEEETHST	PGPT0024835_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
AK009_03683	966	xerC_6		Tyrosine recombinase XerC	ATGGAGACAACGGAATTCCATGATACAATACAAGCCTTTTCTATTTTTTTATTGAATAAAGGCCGAAAACCCTCAACTATTAAACGTTATGTTTATGACGTTGAAGACTTCGGACATTGGTTAGAAAAAAACAAAAAGCTCCCTTCCAGTAATATATGGGCTACACTTTGTACAAAAGACTACGAAGATTACTTTTCCGATTTAAAAACGAATCGACATTACTCAGAAAAAACGATGCATCGTGTATTTACTGTATTAAATAGAATGCATCACTTTCTAAACATTCCCAATCCATTGAAGAATATGGAAATATCTATTCAACCAGACCGTACACTTCGTAACGAAGATTTCATTTCACCTGATGAAGAAAAAAGATTAAAGTATATAGTCACTTCATTAGAAGGACTTTCAGAAAAACAACTTCCTGTGCGCCTTTTATTAATGGATCGCAATATTGCTATTTTAAATCTATTGATCGACTACGGTTTATCCTTACAGGAACTTACAGCATTAACAATGCATCACGTTCACTTTGAAACTAACACATTGTCAATCCCAGCAACCGCAGGTGTAGAAAGAACAATTACATTAGCAAAAGAAGACAAAAAACAACTATATAATTATTACAAAAGTATCCCAGAACCAGTTCGCCCTAAGTATCATAGTGATGATTCATTGTTTGTCGCATTTGATTTTAACCGCGGAACATACAGGTGGGTATATGAAAATGATGCACCAAAGGCATTAACGGAAATTGCTATACAAAAAATGATTCGCCTCGAAGTGGCTAGAGCCAATTTACGTAAAGGAATTTCAGGACAACATTTTCGTAACACCTATATTTTAAACTTAATAAAAAAAGAAACTCCTGAATCAGAAATTATAAAACTCGCTGGATTCAAATCAAAAATTTCATTAAAGCGATATTATCAATACGCAGAAAATAGAAAAAACGCCTTATTGTAA	METTEFHDTIQAFSIFLLNKGRKPSTIKRYVYDVEDFGHWLEKNKKLPSSNIWATLCTKDYEDYFSDLKTNRHYSEKTMHRVFTVLNRMHHFLNIPNPLKNMEISIQPDRTLRNEDFISPDEEKRLKYIVTSLEGLSEKQLPVRLLLMDRNIAILNLLIDYGLSLQELTALTMHHVHFETNTLSIPATAGVERTITLAKEDKKQLYNYYKSIPEPVRPKYHSDDSLFVAFDFNRGTYRWVYENDAPKALTEIAIQKMIRLEVARANLRKGISGQHFRNTYILNLIKKETPESEIIKLAGFKSKISLKRYYQYAENRKNALL				NA	NA	NA	NA	NA
AK009_03684	225	hfq_2	COG1923	RNA-binding protein Hfq	ATGAAGCAATCAATCAATATTCAAGATCAGTTTTTAAATCAACTCCGTAAAGAAAATACGTTTGTTACGCTGTACTTATTAAATGGTTTCCAGCTTCGTGGACTAATTAAAGGATTTGATAATTTTACAGTCCTACTGGAAACAGAAGGTAAGCAACAGCTTATTTATAAACATGCAATTTCTACATTTGTACCACAAAAAAATGTTTCAATTGAATTAGAATAG	MKQSINIQDQFLNQLRKENTFVTLYLLNGFQLRGLIKGFDNFTVLLETEGKQQLIYKHAISTFVPQKNVSIELE	PGPT0025560_1911	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
AK009_03685	954	miaA_1	COG0324	tRNA dimethylallyltransferase	ATGGGAGAAGTGCAACGTGAAAAAGTTGCTGTCATCATTGGACCAACAGCTGTTGGAAAGACGAAGTTAAGTATCGATCTTGCCAAAGCGTTGAACGGTGAAATTATTAGTGGTGATTCCATGCAAATCTATCGAACGATGGATATTGGAACTGCAAAGGTAACACAAGCAGAGATGGACGGAATTCCACATTATATGGTCGATATAAAAAATCCGGAAGATTCATTTTCTGTCGCGGAATTTCAAGAACGTGTTCGCAAACATATTCGAGAAATTACAGAACGTGGTAAATTACCAATTATAGTTGGTGGGACCGGTCTTTATATACAATCTGTTTTATTCGATTATCAGTTTACAGATGATGCTGGTGATGTGATATACCGAGAGCAAATGGAAAAGTTAGCTTTAGAACGCGGTGTGGAATATGTACATAAAAAATTGCAAGAAGTAGATCCAGAAAGTGCAGAGCGTATTCATGCAAATAATGTACGACGTGTCATTCGGGCGTTAGAAATTTTCCACACGACGGGTGAAAAAATGAGTGACCAAATTGAGAAACAAGAAAAAGAGTTACTCTATGATGTTTCATTAATTGGCTTGACAATGGATCGAGAAATGCTATACGATCGCATTAACTTACGAGTGGATTTGATGATGGAACAAGGCCTATTAGAGGAAGTAGAAGGGCTGTATAATAGAGGGATACGAGATTGTCAATCTATTCAAGCGATTGGATATAAAGAAATCTATGATTATTTTGAGAATCGAGCCTCTTTAGAAGATGCGGTATCACAATTAAAGACGAATTCGCGTCGTTATGCAAAGCGTCAATTAACGTGGTTCCGTAATAAAATGGATGTCACGTGGTTTGATGTTACAGACGGTGAAAAAACGTCAGAAATTTTACGATACATAGAAGGAAAGTTACAAGTAAAGTCGAATAATAGTAAGTAG	MGEVQREKVAVIIGPTAVGKTKLSIDLAKALNGEIISGDSMQIYRTMDIGTAKVTQAEMDGIPHYMVDIKNPEDSFSVAEFQERVRKHIREITERGKLPIIVGGTGLYIQSVLFDYQFTDDAGDVIYREQMEKLALERGVEYVHKKLQEVDPESAERIHANNVRRVIRALEIFHTTGEKMSDQIEKQEKELLYDVSLIGLTMDREMLYDRINLRVDLMMEQGLLEEVEGLYNRGIRDCQSIQAIGYKEIYDYFENRASLEDAVSQLKTNSRRYAKRQLTWFRNKMDVTWFDVTDGEKTSEILRYIEGKLQVKSNNSK	PGPT0007210_1878	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
AK009_03686	246			hypothetical protein	ATGAAACAATCCACCATCAATTTTTCATCTTTGACAAAAGACCTCATTTTAGCTACTTCTACAAAAGAACAAAATTGTTCACAAGAGGAATTATACTTCGCCCTAAATTGTTTACTACGGGCTTTTCATTCTACTCTCCATGAAACAACATCACATCCAGAAAATAAAAATACAGAATATATACAAACACAATTTTGCAGTGCATATAAAATTATTACAGGTAAAACTATTTATCCCTTTCAATAA	MKQSTINFSSLTKDLILATSTKEQNCSQEELYFALNCLLRAFHSTLHETTSHPENKNTEYIQTQFCSAYKIITGKTIYPFQ				NA	NA	NA	NA	NA
AK009_03687	933			hypothetical protein	ATGAAAAAATTATTAAGTATAGCAACAGCAGCAGTTTTTGGTCTTGGGATTTTTGCAGGTTCTGCTAAAGCGGAAACAATTGTAACAACAGACGTATTAAATGTTAGAGAAAACCCAAATGTAGAGTCAAAGCTTGTAGGTAAAGTGTTAAGTGGGAATACACTAGATGTTATAAATACAGAAAATGGATGGACAAAAATTAAGTTAAACGGTAAGGAAGCGTTTGTAAGTGCTGAGTTTACAAGGAGCACATATTATGTAACGGCGGGCGTATTAAATGTTCGTGCTGGAGCGAATACTGATTCTGAAATTTTAGGTAAACTTAATAAAGATGATGTGATTGAAACGACGAATCAAGTTCAAAATGAATGGTTACAATTCGACTACAATGGAAAAGTCGGATATGTTCACGTGCCATTTTTAACAGGAACGGCACCTGTAATTGAAAAGAAAGAAGTTGTAGCTCAAGAAGAAGCGCCGGTTAAAAATAATACAGCAGTTAAGAATAAAGAGTCTGTTAAGAGTAACGATTCTATTAAGAATGTAGAATCAAGTAAACCTGTGGTAAAAGAAAAGCCGGCTGCAAAACCAGTTGCGAAATCTACTGAAAAAAGTGCGCCTACTGGTGGTCGTGAAATTACAGTAGAAGCGACGGCATATACAGCAGATCCGAGTGAGAATGGTTCGTATGGTGGTCGTGTATTAACTGCAATGGGGCATGATTTGACAGCAAATCCAAATATGAAAGTAATTGCTGTTGATCCGAAAGTAATTCCGCTTGGCTCAAAAGTATGGGTAGAAGGATATGGAGAAGCGATTGCTGGAGACACTGGTGGTGCGATTAAAGGAAATCGTATTGATGTATTAGTCGGTTCAGATGGTAGTGCTAATAGCTGGGGGCGCAAATCTGTAAAAGTGAAAGTTATACAATAG	MKKLLSIATAAVFGLGIFAGSAKAETIVTTDVLNVRENPNVESKLVGKVLSGNTLDVINTENGWTKIKLNGKEAFVSAEFTRSTYYVTAGVLNVRAGANTDSEILGKLNKDDVIETTNQVQNEWLQFDYNGKVGYVHVPFLTGTAPVIEKKEVVAQEEAPVKNNTAVKNKESVKSNDSIKNVESSKPVVKEKPAAKPVAKSTEKSAPTGGREITVEATAYTADPSENGSYGGRVLTAMGHDLTANPNMKVIAVDPKVIPLGSKVWVEGYGEAIAGDTGGAIKGNRIDVLVGSDGSANSWGRKSVKVKVIQ				NA	NA	NA	NA	NA
AK009_03688	1875	fruA	COG1299	PTS system fructose-specific EIIABC component	ATGAAAATTACAGAACTATTAAAAAGGGATACAGTCATTATGGATATGACAGCTTCAAATAAAGAAGCTGTCATAGATGAATTAGTTGAGAAATTAAACGGGGCAAATCGTTTAAATAGTAAAACGGAATTTAAAGAAGCTATTTTAAAGCGGGAGTCCCAAAGTACGACTGGAATAGGGGAAGGTATTGCAATACCTCATGCGAAGACAAAGGCTGTTAAACAACCATCGATTTGTTTTGGTAGAAGTGTAAGCGGTATCAATTATGAGTCGCTTGATGGACAACCGGCACACTTATTCTTTATGATTGCTGCAAGTGAAGGAGCGAATAATACTCATTTAGAAACGTTGTCTCGTTTATCGACATTATTAATGGATGAAGGGTTTCGCAAGCAACTATTAGAAGCGAAGGATGAAAGTGAGCTTCTTCAACTATTTGATGAAAAAGAGAATGAAAAAGAAAAAGAGAATGAAAAAGAAGAAGAGATTGAAGTTGCAAAACCAGAAGGAAATGAACCGTACGTACTTGCTGTTACAGCTTGCCCAACTGGAATCGCTCACACATATATGGCGGCGGATAGCTTAAAAGCAAAAGCGGCAGAGTTAGGAATAGCGATTAAAGTTGAAACGAACGGATCAACAGGTATTAAAAACGGTTTAACAAAAGAGGATATTGAACGTGCAACAGCTATTATTGTTGCGGCAGATAAACAAGTAGAAATGAATCGTTTTGCTGGTAAACATGTCATTCAAGTGCCAGTTGCTGATGGGATTAGAAAAACGGAAAATCTGCTTAAACGAGCTGTCAAACAAGATGCACCAATCTTTAAAGGTGTAAAAGAGGATGGGAAAACAGAAAGTATTGAGAGAGAAAAAGGATTAGGAATTTATAAGCATTTAATGAGCGGTGTAAGTAATATGCTTCCATTCGTTGTTGGTGGCGGGATTTTAATAGCGCTAGCATTTTCGTTTGGTGGTATAAAGGCGGAAGGTCCTTTAGCTGAATTGTTCATGTCAATTGGTGGAGGAAAAACAGGTGCGTTTTTATTCCTTGTACCAATTTTAGCTGGATTTATTGCAAGCTCTATTGCTGATCGTCCTGGTTTTATGCCTGGTGTTGTAGGTGGATTTTTAGCGGCGAATGCGAATGCTGGATTTTTAGGTGGATTAATTGCTGGTTTCTTAGCTGGATATGTTGTTTTAGGGTTAAAAAGATTATTTTCAGGACTACCAGTACAATTAGAAGGAATTAAACCTGTTTTGTTATATCCAGTCTTTGGATTATTGATTACAGGAGTTGTAATGCAAAAAGTAGTAATTCCGCCTGTAGTAGCATTAAATGAAATGTTGACAGGGTGGTTAAATGGTTTAAATGGTACGAATGCTATATTACTAGGTCTTATTTTAGGTGGTATGATGGCAATTGATATGGGTGGTCCAATTAATAAAGCGGCATTTACGTTTGGTATTGCTGCAATAGAAGCACAGAATTTTGGAGTGCACTCAGCAGTTATGGCTGGTGGTATGGTACCGCCACTTGCGATTGCATTCGCAACTACATTCTTTAAATCAAAGTTTACAGAAGCGGAACGTAAATCTGGTTTAACAAATTATATTATGGGAGCATCGTTCATTACAGAAGGTGCGATTCCGTTTGCAGCTGCAGATCCGGTTCGAGTAATCGTAAGTTGTGTTGTTGGTTCAAGTATTGCAGGTGCGTTATCTATGTTATTCCAAATTACATTACCGGCACCGCATGGTGGATTATTTGTAATAGCATTAGTAAATAAACCGTTACTATATATTTTCTCTATATTAATTGGAACGATTGTCTCGGCTATTATGCTAGGTGTTTGGAAAAAGAAAGTTCAATAA	MKITELLKRDTVIMDMTASNKEAVIDELVEKLNGANRLNSKTEFKEAILKRESQSTTGIGEGIAIPHAKTKAVKQPSICFGRSVSGINYESLDGQPAHLFFMIAASEGANNTHLETLSRLSTLLMDEGFRKQLLEAKDESELLQLFDEKENEKEKENEKEEEIEVAKPEGNEPYVLAVTACPTGIAHTYMAADSLKAKAAELGIAIKVETNGSTGIKNGLTKEDIERATAIIVAADKQVEMNRFAGKHVIQVPVADGIRKTENLLKRAVKQDAPIFKGVKEDGKTESIEREKGLGIYKHLMSGVSNMLPFVVGGGILIALAFSFGGIKAEGPLAELFMSIGGGKTGAFLFLVPILAGFIASSIADRPGFMPGVVGGFLAANANAGFLGGLIAGFLAGYVVLGLKRLFSGLPVQLEGIKPVLLYPVFGLLITGVVMQKVVIPPVVALNEMLTGWLNGLNGTNAILLGLILGGMMAIDMGGPINKAAFTFGIAAIEAQNFGVHSAVMAGGMVPPLAIAFATTFFKSKFTEAERKSGLTNYIMGASFITEGAIPFAAADPVRVIVSCVVGSSIAGALSMLFQITLPAPHGGLFVIALVNKPLLYIFSILIGTIVSAIMLGVWKKKVQ	PGPT0017120_1367	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
AK009_03689	912	lacC		Tagatose-6-phosphate kinase	ATGATCTATACAGTTACTTTAAACCCATCTATTGATTATGTAGTGCAAGTTCCTTCTTTTGATTTAGGAACAATAAATCGAGCGGAGAAAGATATGAAGTTTCCTGGAGGAAAAGGAATTAATGTTTCTCGTGTTCTTCAGCGTTTAGGTGTTAAAAATATAGCACTTGGATTTACTGGTGGATTTACTGGTCAATTTATTAAAGAGGTATTACAGACGGAAGGTGTAACAACAAACTTCGTCCAAGTAGATGAAGATACTCGCATTAATGTGAAAATAAAAGGGAAAGAAGAAACAGAATTAAATGGCCAAGGTCCTATTGTAACAAAAGAGCAGTTCGAACAGTTAATGAAAAAAATTGAGAGTATGCAACCTGGAGATTGTGTTGTACTCGCTGGGAGTGTACCAGTCTCTATTCCAAGTACCTTTTACGAATCAATTGCTGCGTTTGGAGCTGAAAAAGGTATTCGTGTAGTAGTAGATGCAAGTGGAAGTGCACTGCAACATGTAATTAAAAATAAGCCGTTTTTAATTAAGCCAAACCACCATGAACTTGGTGAGTTGTTTGGAGTGGAGCTTTCAACAGTAGAAGACATTTTACCTTATGGAAGAAAATTAATTGAACAAGGTGTAAAACACGTTATCGTATCGATGGCTGGAGAGGGAGCTTTATTATTTACGGCAGAAGGTATATATGAAGCGACTGTTCCAAAAGGTGTTGTAATTAATTCAGTTGGGGCCGGAGATTCTCTTGTTGCAGGGTTTGTAGGCAAATATGAACAGACAAAAGATATTGAAAAGGCATTTCAATACGGCGTTGCAACAGGGAGTGCAACAGCATTTTCAGCTGATTTATGTAAGAAGGAAAAAGTAGAAGAATTATTGTCGCAAGTAATTGTAGCTAAGCGATAG	MIYTVTLNPSIDYVVQVPSFDLGTINRAEKDMKFPGGKGINVSRVLQRLGVKNIALGFTGGFTGQFIKEVLQTEGVTTNFVQVDEDTRINVKIKGKEETELNGQGPIVTKEQFEQLMKKIESMQPGDCVVLAGSVPVSIPSTFYESIAAFGAEKGIRVVVDASGSALQHVIKNKPFLIKPNHHELGELFGVELSTVEDILPYGRKLIEQGVKHVIVSMAGEGALLFTAEGIYEATVPKGVVINSVGAGDSLVAGFVGKYEQTKDIEKAFQYGVATGSATAFSADLCKKEKVEELLSQVIVAKR	PGPT0017580_2054	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
AK009_03690	753	lacR		Lactose phosphotransferase system repressor	ATGTTAACTCCTGAACGTCATCAAATGATATTGCAACTTGTAAAAGAACAGAAAGTTGTAAAATTACAGCAATTAGTTGAAAGAACAGAAAGCTCTGAGTCGACAATTCGCCGTGATTTAGCACAATTGGAAAAGCAAAGGTTATTAAAAAGAGTTCATGGTGGTGCCGCTGTTTTAACAGGAAAAGGGCAAGAACCAACGATGGTTGAAAAATCATCCAAAAACATTCAAATAAAACAACAAATTGCTAATTATGCGGCTAGCGTTGTTGAACAAGGTGATTGTATTTATTTAGATGCAGGGAGTACAACATTTGAAATGATTCCATTTTTAATCAATAAAGATGTTACTGTCGTTACGAATGGACTTATGCATATTGAAGCTTTAGTTGAAAATAATATTCGTGCGTATTTACTAGGCGGAATGATGAAGAGTAGGACGAAAGCTTTAATCGGTGCTATGGCACAGGAAAGTATGCAGAAGTATCGCTTTGATAAATGTTTTTTAGGTGCAAATGGTGTACATGAACAGCTTGGCTTTACAACGCCAGATCCAGAAGAAGCGCTCCTAAAACAAATGGCATTAACATTAGCAAACGAAGGATATTTCTTAATTGATGAAAGTAAGTTTTCAGAAGTTGCGTTTGCGAAAATTGCAAATGTTGAAGATGCAAATATTATTACAAACCATTTAGAAATTGATTTAGAAAAATATAAAAAACAAACCAATGTAATTGAGGCTGATAAACAATGA	MLTPERHQMILQLVKEQKVVKLQQLVERTESSESTIRRDLAQLEKQRLLKRVHGGAAVLTGKGQEPTMVEKSSKNIQIKQQIANYAASVVEQGDCIYLDAGSTTFEMIPFLINKDVTVVTNGLMHIEALVENNIRAYLLGGMMKSRTKALIGAMAQESMQKYRFDKCFLGANGVHEQLGFTTPDPEEALLKQMALTLANEGYFLIDESKFSEVAFAKIANVEDANIITNHLEIDLEKYKKQTNVIEADKQ	PGPT0017590_1541	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
AK009_03691	1164	adh2	COG1979	Long-chain-alcohol dehydrogenase 2	ATGCAAAATTTTGTATTTCGTAATCCAACGAAACTTATTTTCGGTAAAAATCAATTAGAACAGTTAAAAACTGAAATTCCACAGTTTGGTAAGAAGGTTCTTCTCGTATATGGAGGAGGCAGTATTAAAAGAAACGGTATTTATGATAATGTAATTTCTATTTTAAACGATATTAATGCAGAAGTATTTGAATTGACGGGTGTTGAACCGAATCCTCGTGTATCAACTGTAAAGAAAGGGATTCAAATTTGTAAAGATAATGGAGTTGAATTTATTTTAGCAGTTGGTGGAGGAAGTGTAATCGACTGTACGAAAGCGATTGCTGCTGGTAGCAAATATGATGGAGATGTATGGGATATTGTAACGAAAAAAGCATTTGCTAGTGAGGCATTACCATTTGGCACTGTACTTACTCTTGCTGCGACAGGTTCTGAAATGAATGCAGGCTCGGTAATTACAAATTGGGAAACGAATGAAAAGTATGGATGGGGAAGCCCAGTTACATTCCCGCAGTTTTCAATTTTAGATCCAGTTCATACTGCATCTGTACCGAGAGATCAAACGATTTATGGTATGGTAGATATTATGTCACATGTATTAGAACAATATTTCCATCATGGAACGAATACAGAACTACAAGACCGTTATTGTGAATCTGTTTTAAGAACAGTCATTGAAACAGCACCTAAGCTTTTAAGTGATTTAGAAAATTATGAGCATAGGGAAACAATTTTATATTGCGGAACGATGGCGTTAAATGGCATTTTAGCGATGGGAGTAAGAGGTGACTGGGCAACTCATAATATTGAACATGCAGTTTCTGCTGTTCATGATATACCGCATGGAGGTGGGCTTGCGATTTTATTCCCGAACTGGATGAAACATGTTGTAGAGGAAAATGTAAGTCGTTTTAAACAGTTCGCTATTCGTGTATTTGATATAGAAACAGATGGCAAAACAGATAAAGAAGTGGCGTTAGAAGGAATTGAGGCACTGCGTCAATTTTGGACTTCAATTGAAGCACCAGCAACATTAGCTGATTACGGTATTGGAGAAAATGAAATTGATATAATGGCTAATAAAGCGATGGTGTATGGTGAATTTGGTAACTTTAAAAAATTAAATAAAGATGATGTTCTAAGTATATATAAAGCTTCTTTATAA	MQNFVFRNPTKLIFGKNQLEQLKTEIPQFGKKVLLVYGGGSIKRNGIYDNVISILNDINAEVFELTGVEPNPRVSTVKKGIQICKDNGVEFILAVGGGSVIDCTKAIAAGSKYDGDVWDIVTKKAFASEALPFGTVLTLAATGSEMNAGSVITNWETNEKYGWGSPVTFPQFSILDPVHTASVPRDQTIYGMVDIMSHVLEQYFHHGTNTELQDRYCESVLRTVIETAPKLLSDLENYEHRETILYCGTMALNGILAMGVRGDWATHNIEHAVSAVHDIPHGGGLAILFPNWMKHVVEENVSRFKQFAIRVFDIETDGKTDKEVALEGIEALRQFWTSIEAPATLADYGIGENEIDIMANKAMVYGEFGNFKKLNKDDVLSIYKASL	PGPT0008295_465	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
AK009_03692	552			hypothetical protein	GTGACCATTTTGGTGGATCAATCAACAAATCAGAAAAGCTATGCTCCTATTGTGATAACGCTTTCTGTAATTGTAAATGCGATTATTTTATTTTTGTTCTTTGGACCTGTTGGCTATGAAGGAGAAGTACATTTTGATGTAACAATTTTACCAATGTTAAATGCGATTTTTAATAGCTTTACGTTCGTATTCTTATTAGCAGCTTTATACTCTATTATTAAAAAGAATGTGAAAATGCACCGTGGTTTTATCCTCGCAGCATTTACAACGACGTTGCTATTTTGTGTTTCTTATTTATCGTATCATTACTTGGCGCCAGCAACACATTTTGGCGGAGAAGGGTTCATTAAATATGTGTACTTCATTATTTTAATTACGCATATTATCCTTGCTGCAATTATTGTACCACTTGCATTGTTTGCACTTGTATTTGGTTTTACAAATCAATTAACACGTCACCGTAAAATTGTACGTTGGACGATGCCAATTTGGTTATATGTAAGTTTATCTGGTGTTATTGTTTACTTAATGATCTCACCTTATTATCAATAA	MTILVDQSTNQKSYAPIVITLSVIVNAIILFLFFGPVGYEGEVHFDVTILPMLNAIFNSFTFVFLLAALYSIIKKNVKMHRGFILAAFTTTLLFCVSYLSYHYLAPATHFGGEGFIKYVYFIILITHIILAAIIVPLALFALVFGFTNQLTRHRKIVRWTMPIWLYVSLSGVIVYLMISPYYQ	PGPT0024520_286	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
AK009_03693	117			hypothetical protein	ATGTGGTTTCGATTTCTTATGATTGGTTTCTTTTCATTAACAGCAATTTCATTAATGGGATATCAAGTGTCTGAAATTTTTCAAGCATATAGCGATACATTTTTTAACAAAAATTAA	MWFRFLMIGFFSLTAISLMGYQVSEIFQAYSDTFFNKN				NA	NA	NA	NA	NA
AK009_03694	339			hypothetical protein	ATGGTAAAAAAGGAAGGGGGGATGATGTTGGAAGAGTACGTATTAGAGCTGTATAACTTGTTATATACGACAGAATGGCAAGATATTGTTTCGTTTCTAGGAATAGTATTTTGCATGAAAATTGTAATTGTATATATGGAAGAGCAAGGTATGTTCTATTCCTTCTCATCTCCGTTCGATGTGCAGCGCGAGCCGTTGCTAAACTATGCCAATGTGAATTACGAACAATTTCCTTTTGTACTATTCTTTATGATTCGATTTATAACAGCAATTGTAAAGAAGAAGGAAAGTGATGATGAAGAGTGCCACGCAACTTGTAAGGTAGCTAATGTTTTTTAA	MVKKEGGMMLEEYVLELYNLLYTTEWQDIVSFLGIVFCMKIVIVYMEEQGMFYSFSSPFDVQREPLLNYANVNYEQFPFVLFFMIRFITAIVKKKESDDEECHATCKVANVF				NA	NA	NA	NA	NA
AK009_03695	1416	gabP_1	COG1113	GABA permease	TTGGAAGGGGATGTACAAGAGTTGGATAAAAATCTTAAGAAAGACCTCAAAATACGCCACATTACAATGATCTCAATTGGTGGCGTAATAGGAGCTGGTTTGTTTGTTGGAAGTGGTGCGGTTGTGCATTCGGCAGGACCTGGTTCTATCGTTTCATATGCATTAGCAGGGCTTCTAGTTATTTTCGTTATGAGAATGCTGGGGGAAATGGCAGCTATTAATCCGACAAGTGGTTCATTTGCAACATATGCAAGAGAAGCAATTGGTCCATGGGCAGGTTATACAATTGGGTGGCTATATTGGTTTTTCTGGGTAATTGTTATTGCAATAGAAGCTACAGCAGGTGCTGGTATTATTCAATACTGGATTCCGGAAATCCCACTCTGGTTATTAAGCTTAATATTAACGATTTTATTAACGTTGACGAATGTTTTCTCGGTGAAATCATTTGGAGAATTTGAATATTGGTTTTCATTTATTAAAGTAATAAGTATTGTTTTGTTCCTTTGCTTAGGTCTTGCTGTTATTTTAGGATTTGTACCAGGAACGGAAGCACCTGGCACTTCGAATTTAGTAGGGCAAGGAGGATTTATGCCAAATGGTATAAGTTCGGTGTTACTTGGAATTACCGTCGTTATATTTTCATTTATGGGATCAGAGATTGTTGCTGTAGCCGCTGGAGAGTCTGCCGAACCTGTAAAAGCAGTAAAAACAGCAACAAATAGTGTGATTTGGCGTATTCTCGTATTTTTCATTGGATCGATCGCTGTAGTTGTTACACTCCTTCCGTGGAATTCAGCGAACATACTAAAAAGCCCATTTGTGGCGGTATTGGAACATATAGGGATACCAGCGGCAGCACAAATTATGAATTTTATCGTTTTAACAGCTGTACTTTCTTGTTTAAATTCGGGTTTATATACGAACTCAAGAATGCTTTTTTCAATGGCAGAAAGAGGAGATGCACCAAAGGCATTTTTGAAATTGAATAGTAGTGGTGTTCCGGTTCGGGCGGTTTTATTTGGAACTTTCTTTGCTTACATTGGAGTTGTTTTTAGTTACATATCTCCAGATAAAGTATTTTTATTTTTAGTGAATGCATCTGGCGGTATTGCATTACTCGTTTATCTCGTTATAGCAATTTCACATTTCAAGATACGTAAAAAAATGGGGAAAGCAGAACAACAAAATTTGAAAGTGAAGATGTGGCTTTTTCCATATGTAACATATGTTACAATTGCTGCGATTATAGCAGTTTTAGTTGCAATGATCGCAATTGAATCTTTACGTTCACAGGCACTATTAACGATGCTTGTTACTCTTCTTATAATAATTTCTTATTTTATTTTTAATAGAAATAAAAATAGTACAGTATTGAATTCCGAAAGTAAAAATGAGGAATCTGTTCGATTCTAA	MEGDVQELDKNLKKDLKIRHITMISIGGVIGAGLFVGSGAVVHSAGPGSIVSYALAGLLVIFVMRMLGEMAAINPTSGSFATYAREAIGPWAGYTIGWLYWFFWVIVIAIEATAGAGIIQYWIPEIPLWLLSLILTILLTLTNVFSVKSFGEFEYWFSFIKVISIVLFLCLGLAVILGFVPGTEAPGTSNLVGQGGFMPNGISSVLLGITVVIFSFMGSEIVAVAAGESAEPVKAVKTATNSVIWRILVFFIGSIAVVVTLLPWNSANILKSPFVAVLEHIGIPAAAQIMNFIVLTAVLSCLNSGLYTNSRMLFSMAERGDAPKAFLKLNSSGVPVRAVLFGTFFAYIGVVFSYISPDKVFLFLVNASGGIALLVYLVIAISHFKIRKKMGKAEQQNLKVKMWLFPYVTYVTIAAIIAVLVAMIAIESLRSQALLTMLVTLLIIISYFIFNRNKNSTVLNSESKNEESVRF	PGPT0007665_587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007665-gabP-K11735	NA	NA
AK009_03696	1083	chiD		Chitinase D	ATGTTAAACAAGTTCAAATTTTTTTGTTGTATTTTAGTAATGTTCTTACTACTACCGCTATCCCCTTTCCAAACACAAGCAGCAAACAATTTAGGTTCAAAATTACTCGTTGGATACTGGCATAACTTCGATAACGGTACTGGCATTATTAAATTAAGAGACGTTTCACCAAAATGGGATGTAATCAATGTATCTTTCGGTGAAACTGGTGGTGATCGTTCCACTGTTGAATTTTCCCCTGTATATGGTACAGATGCAGAATTCAAATCAGATATTTCTTATTTAAAAAGTAAAGGAAAGAAAGTAGTTCTTTCAATAGGTGGACAAAATGGGGTCGTTTTACTCCCTGACAATGCCGCTAAGCAACGTTTTATTAATTCCATACAATCTCTGATTGATAAATATGATTTTGATGGAATAGATATTGACCTTGAATCGGGTATTTACTTAAACGGAAATGACACTAATTTCAAAAACCCAACTACTCCTCAAATCGTAAATCTTATATCAGCTATTCGAACAATCTCAGATCATTATGGTCCAGATTTTCTATTAAGCATGGCTCCTGAAACAGCTTATGTTCAAGGCGGTTATAGCGCATACGGAAGCATCTGGGGTGCATATTTACCAATTATTTATGGAGTGAAAGATAAACTAACATACATTCACGTTCAACACTACAATGCTGGTAGCGGGATTGGAATGGACGGTAATAACTACAATCAAGGTACTGCAGACTACGAAGTCGCTATGGCGGATATGCTCTTACATGGTTTTCCTGTAGGTGGTAATGCAAATAACATTTTCCCAGCTCTTCGTTCGGATCAAGTCATAATTGGACTTCCTGCAGCTCCAGCGGCCGCTCCAAGTGGCGGGTACATTTCTCCAACTGAAATGAAAAAAGCTTTAGATTATATCATTAAGGGCATTCCTTTCGGAGGAAAGTATAAACTTTCAAATCAGAGTGGCTATCCTGCATTCCGCGGCCTAATGTCTTGGTCTATTAATTGGGATGCAAAAAACAACTTTGAATTCTCTAATACTTACAGAACATATTTTGATAATCTTTCCTTGCAAAAATAA	MLNKFKFFCCILVMFLLLPLSPFQTQAANNLGSKLLVGYWHNFDNGTGIIKLRDVSPKWDVINVSFGETGGDRSTVEFSPVYGTDAEFKSDISYLKSKGKKVVLSIGGQNGVVLLPDNAAKQRFINSIQSLIDKYDFDGIDIDLESGIYLNGNDTNFKNPTTPQIVNLISAIRTISDHYGPDFLLSMAPETAYVQGGYSAYGSIWGAYLPIIYGVKDKLTYIHVQHYNAGSGIGMDGNNYNQGTADYEVAMADMLLHGFPVGGNANNIFPALRSDQVIIGLPAAPAAAPSGGYISPTEMKKALDYIIKGIPFGGKYKLSNQSGYPAFRGLMSWSINWDAKNNFEFSNTYRTYFDNLSLQK	PGPT0012130_4961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK009_03697	192			hypothetical protein	GTGAAAACAAATATCGGGAGCAGAGGAGTAATCGGCGTAATTGAAGGTGGAAGACCTGGGAAGACGATAGCGCTACGTGCTGATTTTGATGAACAAGCAATGTTAATTGGTGGTAAATTACTTTTAAGTCTTGTGAATAGTTATGTAAGAGATGAAAAAGAATCTCTTCATCATGTAGAAGTGAAAAAGTAA	MKTNIGSRGVIGVIEGGRPGKTIALRADFDEQAMLIGGKLLLSLVNSYVRDEKESLHHVEVKK				NA	NA	NA	NA	NA
AK009_03698	894	lpxG_2	COG1408	UDP-2,3-diacylglucosamine pyrophosphatase LpxG	ATGAATACGAATCATGTAAAAAAAGAACGAAAAAAATCAATCGTAAAGATATTTATTATTATTTTTATAAGTATATTAATGATACCAGTAAGTTTGTATTATTATGCGACAGAAATAGAACGAAAATTAGTAACAGTTACGTGGAATGAAATAGAAGCTTCTGCAATTCCTAAAGAATTTAATAATAAAAAAATATTACAGTTTTCAGATGTACATTTAGGACCAGAGTTTACACTGAAACAACTTGAACATTTAGTGGAGAAGATGAATGAATTACATCCAGATATAGTAGTTTTTACTGGAGATTTAATAGATAAATTTGGGTCTTATAGTGCGGAAAGAGAAGAAGCGAAGGCTATTTTGCAGAAAATTTACGCTCCCTTAGGGAAATATGCTGTGTTTGGGAATCATGATAGGGGCGGGGGCGGTAGTTTATTTTACAAAAAATATATGGAGGAAGCTGGTTTTTCTGTATTAGTAAATGAAGTGCAGAAAATTAAAGTGGAAAACGGCAAATATATTACAATATCAGGTTTGGATGATTTTCTATTAGGGAAGCCGCAAATAGATTCAACTTTAAAAAACTTGAAACAAAATGATTTCAACATGTTATTAGTACATGAGCCGGATGTTGTAACCAAAATCAATCGTTACCCAGTTGATCTTCAACTGTCAGGACATAGTCACGGAGGACAAGTCCAAATTCCTTTTGTAGGTCCGTTAATTACTACCAAACTAGCTGAGAACTATGTTGAAGGTATGTATGAAGTAGAGGGGAAGAGTAAGCCGTTATATTTATATGTAAATCGTGGCATTGGGACTACTAGGATGCCTGTTAGATTTTGGAGTGTACCTGAACTTTCAATTTTTGTGTTGAAGCAAAATAGTGACTAG	MNTNHVKKERKKSIVKIFIIIFISILMIPVSLYYYATEIERKLVTVTWNEIEASAIPKEFNNKKILQFSDVHLGPEFTLKQLEHLVEKMNELHPDIVVFTGDLIDKFGSYSAEREEAKAILQKIYAPLGKYAVFGNHDRGGGGSLFYKKYMEEAGFSVLVNEVQKIKVENGKYITISGLDDFLLGKPQIDSTLKNLKQNDFNMLLVHEPDVVTKINRYPVDLQLSGHSHGGQVQIPFVGPLITTKLAENYVEGMYEVEGKSKPLYLYVNRGIGTTRMPVRFWSVPELSIFVLKQNSD	PGPT0022365_2956	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_03699	816	focB_2	COG2116	putative formate transporter 2	ATGTCTGTATTTACACCAGAAGAAATTACGAAACTTGCTGCGAATTCAGGAAGGAAAAAAGGTCATTTATCATTGCTCCCTATACTAATTCTTGGTTTTTTTGGTGGTGCTTTTATCTCATTAGGGTATTTACTCGATATTCATGTTATTGGGACAATGCCAAAATATTGGGGATCATTTTCTAGTTTTCTAGGCGCTGCTGTATTCCCTATTGGTCTTATTCTCGTTATTCTTGCAGGCGGTGAACTAGTTACTGGTAACATGATGACAGTTTCTATGGCCTGGTTCCAAAAGAAAATTACTTTATTTTATTTCATACGAAATTTAGTTATTGTTACATTTAGCAATTTCATAGGAGCTGTATTCGTAGCCTATTTTTTCGGTCATATCGTCGGCTTAACTGAAGGAGCTTTTTTAGCGAAAACTATTTCTATCGCTCAAGCGAAACTACAAGATACACCATTGCAAGCATTTATTTCTGCAATCGGATGTAATTGGCTCGTTTGTTTAGCTGTTTGGCTCAGTATGGGAAGTAAAGAATTTATCGGAAAGATTATCGGTATTTGGTTCCCAGTTATGACTTTTGTTGCGATTGGATTTCAACACGTTGTAGCCAATATGTTTGTCATCCCAGCTGCGATTTTTGCCGGTCATTTCACTTGGGCTGAATATTTTCCAAACTTTATTTTTGTTTTCTTTGGAAATTTAGTAGGGGGTATGTTATTTGTAGCACTACCTTACTTCATATCTCATAATAAGAAACTACCTTCTCATCAAGAGAAGACTGAAATGAAGAACAAATCTCTATCCGCTTAA	MSVFTPEEITKLAANSGRKKGHLSLLPILILGFFGGAFISLGYLLDIHVIGTMPKYWGSFSSFLGAAVFPIGLILVILAGGELVTGNMMTVSMAWFQKKITLFYFIRNLVIVTFSNFIGAVFVAYFFGHIVGLTEGAFLAKTISIAQAKLQDTPLQAFISAIGCNWLVCLAVWLSMGSKEFIGKIIGIWFPVMTFVAIGFQHVVANMFVIPAAIFAGHFTWAEYFPNFIFVFFGNLVGGMLFVALPYFISHNKKLPSHQEKTEMKNKSLSA	PGPT0017240_591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
AK009_03700	273	hup_2		DNA-binding protein HU	ATGAACAAAACAGAATTAATTAAAAACGTAGCACAAAATGCTGAGATTTCTCAAAAAGAAGCTACTGTAGTTGTACAAACTGTAGTAGAATCAATCACTAACACTTTAGCTGCTGGTGAAAAAGTACAACTTATCGGATTCGGTACATTCGAAGTTCGCGAAAGAGCTGCTCGTACAGGCCGTAACCCACAAACTGGTGAAGAAATGCAAATCGCAGCTTCTAAAGTACCTGCTTTCAAAGCTGGTAAAGAACTAAAAGAAGCTGTAAAATAA	MNKTELIKNVAQNAEISQKEATVVVQTVVESITNTLAAGEKVQLIGFGTFEVRERAARTGRNPQTGEEMQIAASKVPAFKAGKELKEAVK				NA	NA	NA	NA	NA
AK009_03701	480	yafP	COG0454	putative N-acetyltransferase YafP	ATGTTAAAAGATATTATAGTTAGAACATTTCAGAAAGAAGATTTAGAGCAAGTATTACAATTGTTCTATGAGACAGTTCATACGGTTAATGCAAAAGATTATAATGAGTTACAGCTACAGGCGTGGGCACCAAATCGACTAGATAGAGAAAGCTGGTTAAAGTCTTTAGAGAAGAATATTAGTTATGTAGCGGATCATAACGGTGTGATATTGGGATTTGGGGATTATAACGATGATCATTACGTAGATCGTTTATTTACACATAAAGATTATCAAGGGAAAAGAGTCGCTTCATACATACTACAGATGTTAGAAAAAGAAGCAGTGAAATTGGGGCATAGGGAGATATATACAGAGGCGAGCATTACCGCAAAACCTTTTTTTAAAAGTAAAGGTTTTATTTGCATAAAAGAACAAAAGAAACAGCATAATGGTCAGATTTTTATTAATTATGTTATGAAAAAAATATCCTTCTCATAA	MLKDIIVRTFQKEDLEQVLQLFYETVHTVNAKDYNELQLQAWAPNRLDRESWLKSLEKNISYVADHNGVILGFGDYNDDHYVDRLFTHKDYQGKRVASYILQMLEKEAVKLGHREIYTEASITAKPFFKSKGFICIKEQKKQHNGQIFINYVMKKISFS	PGPT0013330_75	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
AK009_03702	2421	copA	COG2217	Copper-exporting P-type ATPase	ATGAATGAAAAAAAAGAGGCCAATCTTCAAATATCAGGAATGACATGTGCGGCATGTGCAAATAGAATTGAAAAAGGTCTAAAAAAAGTAGAAGGTGTTCATGAGGCAAATGTAAATTTTGCGCTTGAAAAAACAAAAATAATGTACGATCCAACTAAAACAAATCCGCAACAATTTAAAGAAAAAGTTGAATCGTTAGGATATGGAATTGTAAGTGATAAAGCTGAATTTACTGTTTCAGGAATGACATGTGCAGCATGTGCAAATAGAGTTGAAAAGCGTTTAAATAAGTTAGATGGTGTGAACAAGGCGACAGTAAATTTTGCTTTAGAATCAGCCACAGTAGACTTTAATCCTGATGAAGTTAATGTAAATGAAATGAAGAGCGTGATTACGAAGCTAGGATATAAATTAGAAGTGAAACCAGATGATCAAGATGCATCAACTGATCATCGATTACAAGAAATTGAGCGACAAAAGAAGAAGTTTATTATTTCGTTTATTTTATCTTTCCCATTATTGTGGGCAATGGTTAGTCATTTCTCATTTACTTCGTTTATTTATTTACCAGATATGTTAATGAACCCTTGGGTGCAACTAACACTTGCAACTCCTGTTCAATTTATCATTGGTGGACAGTTTTATGTTGGGGCTTATAAAGCGTTACGCAATAAAAGTGCTAATATGGATGTTCTCGTGGCGCTTGGAACGTCGGCCGCCTATTTCTATAGTGTATATTTAAGTATTCAATCTATTGGTTCTTCGGAACATATGACAGATTTATATTTTGAAACGAGTGCGGTACTTATTACATTAATTATTTTAGGTAAATTATTTGAAGCGAAAGCAAAAGGGCGCTCATCAGAAGCGATTAAAAAATTGATGGGTTTACAAGCGAAGACAGCTACAGTTGTGCGAGATGGAACAGAAATAAAAATTTTGATTGAAGAAGTAGTAGCTGGTGATATCGTCTATGTAAAGCCTGGTGAAAAAATCCCAGTAGATGGGGAAATTGTAGAAGGAAAGTCAGCGATAGATGAATCGATGTTAACAGGCGAAAGTATTCCGGTTGATAAAACAATTGGAGATGGAGTAATCGGTTCTACAATAAATAAAAATGGGTTTTTAAAAGTGAAAGCCACTAAGGTAGGCAGAGATACTGCATTAGCTCAAATTATTAAAGTAGTAGAAGAGGCTCAAGGTTCAAAAGCTCCTATTCAAAGGGTAGCAGATCAAATTTCAGGTATTTTCGTACCAGTTGTAGTTGTGATTGCAATTATCACATTTGCAGTGTGGATGCTATTTGTTACACCTGGTGATTTTGGCGGAGCACTTGAGAAAATGATTGCCGTACTTGTTATCGCTTGTCCGTGTGCATTAGGGCTTGCAACGCCTACATCTATTATGGCAGGATCAGGAAGATCGGCTGAGTATGGTATTTTATTTAAGGGCGGGGAGCATTTAGAAGCAACACACCGATTAGATACAGTTATTCTAGATAAAACAGGTACTGTGACAAACGGGAAGCCGGTGTTAACAGATGTAATTGTAGCAGATGGATTCCGTGAAGAAGAAATACTACGTTTAGTAGGGGCAGCAGAAAGAAATTCTGAACATCCACTTGCAGAAGCGATTGTAGAAGGAATTAAAGAAAAGAAAATTGATATCCCAAGTTCAGAAACGTTTGAAGCGATTCCAGGATTCGGTATCGAATCAGTTGTAGAAGGAAAACAATTATTAATTGGCACACGTCGATTAATGAAGGAATTCAATATTGATATTGAAGAAGTTTCTAAATCAATGGAAGCGCTAGAACGAGAAGGAAAAACAGCAATGCTTATTGCAATCGATAAAGAATATGCCGGTATAGTTGCCGTTGCAGATACTGTGAAAGATACTTCAAAAGCAGCTATCGCAAGACTGAAAAAAATGGGTCTAGACGTTGTGATGATTACAGGAGATAATACACAAACTGCTCAGGCGATTGCAAAGCAAGTTGGTATTGATCACGTAATTGCAGAAGTATTGCCAGAAGGAAAAGCAGAAGAAGTGAAAAAACTCCAAGCACAAGGTAAGAAAGTAGCAATGGTTGGAGATGGAATAAATGATGCTCCTGCTCTTGCTACGGCGGATATCGGTATGGCAATTGGAACAGGAACGGATGTAGCGATGGAAGCGGCAGATATTACGTTAATCCGTGGGGATTTAAATAGTATTGCTGATGCGATCTTTATGAGTAAAATGACGATAAGAAATATTAAACAAAATTTATTCTGGGCATTAGCTTATAACGCGTTAGGAATTCCAATCGCGGCATTAGGCTTCTTAGCACCTTGGGTTGCTGGAGCAGCGATGGCATTTAGTTCTGTATCCGTTGTATTAAATGCATTAAGATTACAAAGAGTTAAATTAAAGTCTTAA	MNEKKEANLQISGMTCAACANRIEKGLKKVEGVHEANVNFALEKTKIMYDPTKTNPQQFKEKVESLGYGIVSDKAEFTVSGMTCAACANRVEKRLNKLDGVNKATVNFALESATVDFNPDEVNVNEMKSVITKLGYKLEVKPDDQDASTDHRLQEIERQKKKFIISFILSFPLLWAMVSHFSFTSFIYLPDMLMNPWVQLTLATPVQFIIGGQFYVGAYKALRNKSANMDVLVALGTSAAYFYSVYLSIQSIGSSEHMTDLYFETSAVLITLIILGKLFEAKAKGRSSEAIKKLMGLQAKTATVVRDGTEIKILIEEVVAGDIVYVKPGEKIPVDGEIVEGKSAIDESMLTGESIPVDKTIGDGVIGSTINKNGFLKVKATKVGRDTALAQIIKVVEEAQGSKAPIQRVADQISGIFVPVVVVIAIITFAVWMLFVTPGDFGGALEKMIAVLVIACPCALGLATPTSIMAGSGRSAEYGILFKGGEHLEATHRLDTVILDKTGTVTNGKPVLTDVIVADGFREEEILRLVGAAERNSEHPLAEAIVEGIKEKKIDIPSSETFEAIPGFGIESVVEGKQLLIGTRRLMKEFNIDIEEVSKSMEALEREGKTAMLIAIDKEYAGIVAVADTVKDTSKAAIARLKKMGLDVVMITGDNTQTAQAIAKQVGIDHVIAEVLPEGKAEEVKKLQAQGKKVAMVGDGINDAPALATADIGMAIGTGTDVAMEAADITLIRGDLNSIADAIFMSKMTIRNIKQNLFWALAYNALGIPIAALGFLAPWVAGAAMAFSSVSVVLNALRLQRVKLKS	PGPT0004090_3742	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK009_03703	207	copZ		Copper chaperone CopZ	ATGGAACAGTTAACATTACAAGTTGAAGGTATGTCTTGTGGACATTGTGTAAATGCTATCGAAAGCAGTGTGAAAGAGCTAAACGGTGTTGAACAAGTGAAGGTTCAATTAGCAGAAGGAACTGTTGAAGTTACTATCGATTCGTCTGCTGTAACATTAAAAGATATCGTTGCTGTAATCGAAGATCAAGGATACGATGTTCAATAA	MEQLTLQVEGMSCGHCVNAIESSVKELNGVEQVKVQLAEGTVEVTIDSSAVTLKDIVAVIEDQGYDVQ	PGPT0004125_2327	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
AK009_03704	303	csoR_1	COG1937	Copper-sensing transcriptional repressor CsoR	ATGGATCATAAAGAGAATGAAGCAGTAACACATAGATCAGAAAAAGAAAAAGAACAGATTATAAATAGATTAAAGAGAATTGAAGGACAGGTTCGCGGTATTCAAAATATGATTGAAAATGATCGTTATTGCGTGGATATTTTAGTGCAAATTTCAGCGATTAATGCAGCGATGAAAAAAGTAGGAATGGGCGTTCTCAAAAATCATACGAGTCATTGTGTTTCAGGAGCTATTAAAAATGGAAATGGTGACGAAGCAATTGAAGAATTAATGACAGTATTTGAACGTTTTTCAAAAGCGTAA	MDHKENEAVTHRSEKEKEQIINRLKRIEGQVRGIQNMIENDRYCVDILVQISAINAAMKKVGMGVLKNHTSHCVSGAIKNGNGDEAIEELMTVFERFSKA	PGPT0004175_992	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK009_03705	228			hypothetical protein	ATGAAAACTATTCTTGCTATCGCTGGGCTTATTTGGGTTTTATCACATGGAATTCCAATTTATGAAGGAGAACAAATTCGCAGTGCTCTGAATAAAAATTTTAATGAATATCATGTTATTGATCGGCAAGATAATGTTGTGACAGTTCGTGTAAATGACTGTTTTCATACGGTAACCGTGGAAGGAACTTCAGTAGTGAATGATGAAAAAGTATGTGATCAGCAATAA	MKTILAIAGLIWVLSHGIPIYEGEQIRSALNKNFNEYHVIDRQDNVVTVRVNDCFHTVTVEGTSVVNDEKVCDQQ				NA	NA	NA	NA	NA
AK009_03706	1071			hypothetical protein	ATGCATGAAAAAACAATGAAAGAAATTAAAATGGTAGCGAATCATATAAGTTCTATAAGATCATTTCAAGAGTCATTTCTCCACTTGATACGTAAAGTTATTGATTTTGACGCCGCTTGTTTTACAACTATAGACCCAATTTCTTTTTTATCTACTGGGGCATTTACCGATGAGAGTGTTGAAAAGATTCATCCACAATTGTTTATGAATGAATTTTTAGAAGATGATTTTAATAAATTTAAATGTTTAACAGAACACTCTCCTCATGTTGCTTCTCTAAGTATGGCGACAAATGGTGAACAAAAGAAAAGCTCTAGATACCGAAATATTTTAAAACCAGCAAGTTTTGGAGATGAATTAAGGGGCGTTTGTATGAGTAAGGGGAAATGTTATGGCCATCTTAGTTTATTTCGAGGAAGTATAAGTCCCGCTTTTCATATCGATGATTGTAAGTACTTAGCAACGATAGTCCCAATCGCTGGAGAGGCTTTAAAGAAGACAGTTTCTATACCTTTTTCAGAAGAGAAGGTGATAGGCACAGGTACGATTATAGTAAGTGAGGATTTTAGTGTATTATATTGGAATCAAGGTGGCAGCGAGTGGCTTTCAAATCTTAGAAAGCATGAACAGTTAAATATAAAAGAAATACCAAGGCCAATACGTGCGGTTTGTTCGAAAGTAAAGGCTAACGAGTATAATGTAGGGTGTATGAATAGAGAAGAAAACGTTTGTCTACCTTTAGCCTATGGCCATTTTTTAATCATTCGGGCTAGTAAGTTAGAACGTACAAGTAGTTTTCAAGGTGGTTATATTGTTCTATTCGAAAGAGCAAGACCGGAAGAGATTTTTCCACTTATTATGGAAGCTTATAGTTTTACAATACGTGAGAAGCAAGTAATACGTAAAATTCTTACAGGTATGTCGACAAAGGAATTAGCCCAAGAACTTTGTATATCTATATACACGGTACAAGATCATTTAAAATCCATTTTTGAAAAGACTGGGGTAAGTAGCAGAAATGAACTTGTGTGGGAAGTATTTTCGAAGTTTTGCTTTGATGTCAATGAATGA	MHEKTMKEIKMVANHISSIRSFQESFLHLIRKVIDFDAACFTTIDPISFLSTGAFTDESVEKIHPQLFMNEFLEDDFNKFKCLTEHSPHVASLSMATNGEQKKSSRYRNILKPASFGDELRGVCMSKGKCYGHLSLFRGSISPAFHIDDCKYLATIVPIAGEALKKTVSIPFSEEKVIGTGTIIVSEDFSVLYWNQGGSEWLSNLRKHEQLNIKEIPRPIRAVCSKVKANEYNVGCMNREENVCLPLAYGHFLIIRASKLERTSSFQGGYIVLFERARPEEIFPLIMEAYSFTIREKQVIRKILTGMSTKELAQELCISIYTVQDHLKSIFEKTGVSSRNELVWEVFSKFCFDVNE				NA	NA	NA	NA	NA
AK009_03707	690	cmoA		Carboxy-S-adenosyl-L-methionine synthase	ATGAATTGGAATGATACTACCGTAAATTCATATGAACAAAGAATTCCATGTAAAATCCCAGGCTACTACCACCTATATGAAATGATGAACCATTTTTTATTTACTACACTCCCTATAAAAAACATGAATCCAAATTTACTAGTTATAGGTGCTGGTGGCGGACAAGAAATTCTCTCAATAGGCAAACAAAATAACAACTTATCTTTTACAGGGGTCGATCCATCTGAAAGCATGCTACAGTTAGCTAAAAAAAGAATTAAAAACGAAGGCATACAAAACCATGTTCATCTTGTACATGGAACTATCCATACATTATTACCAAATCAGTTATTTGACGCTGCCACCTGTATGCTTGTCCTGCACTTCATTCCAACTAATAAGGAGAAAAAAGAACTTATTAATGATATTAGTAATCGCCTAAAGCCTGGTGCGCCATTCTTTCTCGCTTCAATAAATGGTGTGCCCCATACAAGTATGTTTTCTACACAATTACATGCTTGGCGCAATCATATGATGCAAAATCAAATTCCATTAGAAGATTGGGACCGATTTGAAAATTCTTTTGAAACAGAAATATTTCCTATTTCCGAAGCTAATTTATTAACTATTATGGAGGAATGTGGCTTTACTCAAATGACTCGCTTTTTCACTAGTTTTTTAATTGATGGATACGTTGCCTTTAAACAATAA	MNWNDTTVNSYEQRIPCKIPGYYHLYEMMNHFLFTTLPIKNMNPNLLVIGAGGGQEILSIGKQNNNLSFTGVDPSESMLQLAKKRIKNEGIQNHVHLVHGTIHTLLPNQLFDAATCMLVLHFIPTNKEKKELINDISNRLKPGAPFFLASINGVPHTSMFSTQLHAWRNHMMQNQIPLEDWDRFENSFETEIFPISEANLLTIMEECGFTQMTRFFTSFLIDGYVAFKQ				NA	NA	NA	NA	NA
AK009_03708	819	besA	COG2819	Ferri-bacillibactin esterase BesA	GTGAATACTACAGTTGAAAAACAGCAGATTATAACATCTAATACAGAGCAGTGGAAAATGTATTCAAAATTAAAAGGTAAAGAATATCAAATTCATATTTCAAAGCCGAGGCAACCAGCACCGGATTCAGGATATCCTGTCATTTACGTATTAGATGGCAATGCCTTTTTTCAAACATTTCATGAAGCAGTTAAAATACAATCAGTAAGAGCGGAAAAAACCGGTGTTTCACCAGCTGTTATAGTAGGAGTGGGTTATCCAATTGAAGGCGCATTTTCAGGGGAAGAAAGATGCTATGATTTTACGCCTAGCGTAATTTCAAAAGATGCTCCTTTAAAACCAGATGGTAAACCGTGGCCTAAAACAGGAGGAGCACATAATTTCTTTACTTTTATTGAAGAAGAACTGAAACCACAAATTGAAAAGAATTTTGAGATTGATAAAGGTAAGCAAACGTTATTTGGGCATTCTTTAGGTGGACTATTTGCTCTCCATATACTATTTACAAACTTAAATGCTTTTCAAAATTATTTTATTAGTAGTCCATCTATATGGTGGAATAATAAATCTGTACTTGAAAAAGAAGAGAACCTTATACATGAATTAAACAATGCTAAGTTTGAAACAGGAGTGTTCCTTACAGTTGGGTCACTAGAACGAGAGCATATGGTTGTAGGTGCAAATGAATTATCAGAGCGCCTTCTCCAAGTAAACCACGATAAACTTAAATTTAAGTTTTATGAAGCTGAAGGAGAGAATCATGCATCTGTTGTGCCGACGTCTTTAAGTAAAGGATTGAGATTTATTAGTTACGTATAG	MNTTVEKQQIITSNTEQWKMYSKLKGKEYQIHISKPRQPAPDSGYPVIYVLDGNAFFQTFHEAVKIQSVRAEKTGVSPAVIVGVGYPIEGAFSGEERCYDFTPSVISKDAPLKPDGKPWPKTGGAHNFFTFIEEELKPQIEKNFEIDKGKQTLFGHSLGGLFALHILFTNLNAFQNYFISSPSIWWNNKSVLEKEENLIHELNNAKFETGVFLTVGSLEREHMVVGANELSERLLQVNHDKLKFKFYEAEGENHASVVPTSLSKGLRFISYV				NA	NA	NA	NA	NA
AK009_03709	822	yusV	COG1120	putative siderophore transport system ATP-binding protein YusV	GTGAGTATTTTAAGTGCAAAAAATTTAGAAACAAGTTATGAAAAGCTTACAGTGTTTCGCGATTTAAATGTGGAAATACAAGAAGGAAAAGTAACGACAATTATAGGTCCAAACGGTTGCGGTAAATCGACATTGTTAAAAACAATGGGAAGAATTTTAAAACAAAAAAGCGGAAAAGTATATTTGCAAGGGCAAGATTTACATACAATTCCAACGAAAGAAATTGCGAAGCAGTTAGCTTTACTCCCGCAAACGCCAATTGCACCAGGTGAACTTAAAGTGGAAGAATTAATTTCTTATGGACGCTATCCACATCGAAATAACGTAAATAAGTTAACGACAAAAGATAAAGAAATGATTGATTGGGCATTAGATATAACGAAAACTTCTGAATTTCGGACGAGACAAATTGCAAATTTATCGGGCGGTCAAAGACAAAAGGTATGGCTAGCGATGGCATTAGCACAAGAGACAGAAGTGTTGCTATTAGATGAGCCAACTACATACCTTGATATGTCTCATCAATTAGATGTATTACAAATTGTGGAGAAGTTAAATAAAGAACATAATTGTACGGTTGTTATGGTATTACATGATATTAATCATGCAGCAAGGTTTTCAGATGAAATTATTGCAATGAAGGAAGGAGAAATTGTTATAACTGGTAGCCCAGAAGAAATCATTACAAATGAAGTGTTAAAAGAAGTATTTCATATTGATGCGCGTGTCATGATTGATCCGTATAACGGGGCTCCTGTTTGTTTCGGTTATGATAGCGTTGTATCTCAAGAAGAAAAAATCGAAATATATGTAACAAGTTAA	MSILSAKNLETSYEKLTVFRDLNVEIQEGKVTTIIGPNGCGKSTLLKTMGRILKQKSGKVYLQGQDLHTIPTKEIAKQLALLPQTPIAPGELKVEELISYGRYPHRNNVNKLTTKDKEMIDWALDITKTSEFRTRQIANLSGGQRQKVWLAMALAQETEVLLLDEPTTYLDMSHQLDVLQIVEKLNKEHNCTVVMVLHDINHAARFSDEIIAMKEGEIVITGSPEEIITNEVLKEVFHIDARVMIDPYNGAPVCFGYDSVVSQEEKIEIYVTS	PGPT0003760_1958	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
AK009_03710	1023	feuC_1	COG0609	Iron-uptake system permease protein FeuC	ATGCTTAAAAGTTCAAGTCAACGTTTTGGAATGACGATGGGGATTATTGTATTTTTAATACTATGTGCCATTTACATTAGTTTAACGAATGGTACGTTTGATATTACGATTACAGATGTATTTAAAACACTTTTTAGAATTGATCCAGTACCAGAACATGATTTAGTTATTTTTGAGTTTCGCCTTCCGCGTATTGTAATTGCTGGATTAGTAGGATTAGGCCTTGGTGTTGCGGGTGCCGTTATTCAAGGGATTACAAGAAATGGATTGGCAGACCCAGGTATTTTAGGCGTAAACGCCGGAGCAGGAACAGCCATCGTTATTTTTATGTTTTTCTTTCAAGGGCAACTAAAGAGCACAGATTGGATTTCTATAATGATGATGCCTATGTTTGGTTTAATAGGTGGATTAGGTGCAGCGCTAATCATTTATTTGTTTTCTTGGAAAAACGGTAAGTTAGATTCGCAACGACTGTTATTAACAGGGATTGCAATCGGTTCAGGGTTTGGAGCATTCTCTATGTATTTATCACTCAAAATGAAGTCAACCGATTTCGAGATGGCTGCAGTGTGGGTGTCTGGAAGTATATATAGTGCAAACTGGAAGTATATTGTGGCTATGTTACCATGGCTTATTATCTTAATTCCGCTTATACAAAAGAAAGCTTATTTATTAGATTTATTTCAATTGGAAGAAACGAGTATTACAAGTTTAGGTGTTTCAGTAGAAAGAGAGAAATCGATTTTACTGTTAAGTAGTATCGGACTTGTGAGCGCATGTGTTGCTGTTTCAGGGAGTATCGGTTTTATTGGACTAATGGCACCGCATATAGCGAAAAGACTTGTCGGTATTCAACATAAGTATATAATTCCTACGTGCGGCGTAATAGGAATGTTTCTTGTAATTGCTTCAGACTTTATTGCGAAAACAGTTTTCACACCTGTAGAGCTACCAGTTGGAATCGTTATTTCTATTGTCGGTGTACCGTATTTCTTATATTTACTTTATAAGGCGAAAGCGTAA	MLKSSSQRFGMTMGIIVFLILCAIYISLTNGTFDITITDVFKTLFRIDPVPEHDLVIFEFRLPRIVIAGLVGLGLGVAGAVIQGITRNGLADPGILGVNAGAGTAIVIFMFFFQGQLKSTDWISIMMMPMFGLIGGLGAALIIYLFSWKNGKLDSQRLLLTGIAIGSGFGAFSMYLSLKMKSTDFEMAAVWVSGSIYSANWKYIVAMLPWLIILIPLIQKKAYLLDLFQLEETSITSLGVSVEREKSILLLSSIGLVSACVAVSGSIGFIGLMAPHIAKRLVGIQHKYIIPTCGVIGMFLVIASDFIAKTVFTPVELPVGIVISIVGVPYFLYLLYKAKA	PGPT0003770_5940	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
AK009_03711	1008	feuB_1	COG0609	Iron-uptake system permease protein FeuB	ATGCAGAAAACAAATGCAGTACCAGTAACCATATTATGTATAGCACCCATACTCATCTTATTTACAGTTATACTTTCGATTTTGTATGGGGCGAAAAGTATTGATGCTGAAACAGTGTGGAACGCATTATTTCATTTTGATTCAAGCGATGTAAATCATAATATTATTATTACTTCACGTTTACCAAGGGTAGTTGCAGCTCTTTTAGTCGGAGCATTTCTAGCCATATCAGGAGCACTTATGCAGGGGATGACAAGAAACTATCTTGCATCCCCTTCTATTATGGGTGTGACGGATGGCGCTGCCTTTGTTATTACACTTTGTATGATCTTTCTTCCGGGAATGTCATCAATTGGTATGGTTTTATGTTCAATGATTGGTTCTGCACTAGGAGCCGGTATCGTGTTTGGTTTTGGTTCGCTCCTTCAAAATGGCTTATCACCAGTTAGGTTAGCGATTATAGGGACAGTTATTGGAACATTTTTAAGCAGTGTATCGGCTGCAATGGCTTCATATTTTCAAATTTCTCAAAATGTTAGTTTTTGGTTTAATGCAAAATTAGATCAAGTAGATCCTAATATCATTAAAATCACGATACCGTTTGGGATAATTGGAATAATTTTAGCGCTGTTAATATCAAAATCTATTACCATTCTTTCATTAGGCGAAGAGGTTTCTATTAATTTAGGGCAGCGTACAAAACTAGTTAAAGCGATGGCAATTTTATCAGTTATCTTTTTAACAGGAACAGCAGTTGCTTTAGTGGGGAAAGTTGGTTTTGTAGGTTTAATTATTCCGCACATTACTCGCTTTATAATTGGGGTAGATTATAAGTGGATTTTGCCATGTGCAGGCGTTATTGGTGGCGTTTTCTTAGCGTTATGTGATGTTTTAAGTAGATTTGTAAATTATCCATTTGAAACGCCAATTGGAGTCGTAACATCTTTAATTGGAATTCCTTTCTTCCTTTATTTAATTCGTACAAGAGGAGGAGAGAGACATGCTTAA	MQKTNAVPVTILCIAPILILFTVILSILYGAKSIDAETVWNALFHFDSSDVNHNIIITSRLPRVVAALLVGAFLAISGALMQGMTRNYLASPSIMGVTDGAAFVITLCMIFLPGMSSIGMVLCSMIGSALGAGIVFGFGSLLQNGLSPVRLAIIGTVIGTFLSSVSAAMASYFQISQNVSFWFNAKLDQVDPNIIKITIPFGIIGIILALLISKSITILSLGEEVSINLGQRTKLVKAMAILSVIFLTGTAVALVGKVGFVGLIIPHITRFIIGVDYKWILPCAGVIGGVFLALCDVLSRFVNYPFETPIGVVTSLIGIPFFLYLIRTRGGERHA	PGPT0003770_7359	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
AK009_03712	966	feuA	COG0614	Iron-uptake system-binding protein	ATGAACAAGAAATTATTTACTTTAGGGATGGTTACAGTTTTAAGTGTAGGTTTAGCGGCATGTAATAGTGCGGATAAAACTTCAGGCGAGCAAAAACAACAGACAAAAGCTACGGAAACGAAAAAAGATGAAAAACGAAAAATTACATATTTAGGTAAAGAATATACAGTGCCAGCAAAAGTAGATAAAATTGCGACAGCTAGTTTAGAGTCAATGGAAGATGCGGCGGTACTTGGAATTAAACCAGTTGGTGCCATTACTGTAGGTGGTAAATTACCAAAATACCTTGAAAAAGAGTTAGAAGGTGCGAAATCTGTTGGTGAGAAAATGCAACCAAATTTCGAAACATTACTACAATTAAAACCAGATGTTATTACATCGAGTACGAAATTCCCAGCAGAAACAGCTGAAAAGTTTACGAAAGTAGCTCCTACATTCCCGGTATCACACGTTTCAACAAATTGGGAAGATAACTTAAAGTTAATGGGAGAATTAACTGGTAAAAAAGATAAAGCAGAAAAAATTATTAAAGACTACAATTCGGACGCTGAAAAAGCAAAAGCAAAACTAGGAGATAAGTTAAAAGATAAAAAAGTACTTGTCATTAGATTAAGAGCAAACGAATTATTCTTATATCCAGATGGAGTATACTTCAACCCTGTAATTTATAAAGATCTTGGACTAACTGCTCCAGAACAATTGAAAACTGTAAAAGCACAAGAGAAAATTTCATTTGAAAAACTTGCTGAACTTAACCCAGATTATATTTTCTTACAATATGAGGCAAGTGAAAATAAAAACCCGAAAGTGTTAGAAGAAATTGAAAGTAATCCAATTTGGCAAAGTATGAATGCTGCGAAGGAAAAGAAAGTATTTGTAAATGTTGTAGATCCAATGGCACAAGGTGGTACTGCTTGGAGTAAAACAGCATTCTTAAAAGAAGCAGTGAAAAATTTATCTAAATAA	MNKKLFTLGMVTVLSVGLAACNSADKTSGEQKQQTKATETKKDEKRKITYLGKEYTVPAKVDKIATASLESMEDAAVLGIKPVGAITVGGKLPKYLEKELEGAKSVGEKMQPNFETLLQLKPDVITSSTKFPAETAEKFTKVAPTFPVSHVSTNWEDNLKLMGELTGKKDKAEKIIKDYNSDAEKAKAKLGDKLKDKKVLVIRLRANELFLYPDGVYFNPVIYKDLGLTAPEQLKTVKAQEKISFEKLAELNPDYIFLQYEASENKNPKVLEEIESNPIWQSMNAAKEKKVFVNVVDPMAQGGTAWSKTAFLKEAVKNLSK	PGPT0003765_7619	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
AK009_03713	759	exoA	COG0708	Exodeoxyribonuclease	GTGAAGTTAATTTCATGGAATGTAAATGGTTTACGTGCAGTTATTGCAAAGGGTGGATTTTTAGAATATCTCGAAGAATCTAATGCAGATATATTTTGTCTGCAAGAGATTAAATTGCAAAGTGGCCAAATTGATTTAAATCTAGAGGGATATTATACATACTGGAATTACGCTGTGAAAAAAGGGTATTCGGGAACGGCTATTTTTACAAAAAAAGAACCGCTTTCTGTTACATACGGCTTAGAAATTGAAGAGCATGATCAAGAAGGGCGACTTATTACATTAGAATTCGAAGATTTTTACATGATCACGTTATATACACCAAATTCAAAACGTGGATTAGAACGATTAGATTACAGAATGAAATGGGAAGATGATTTCAGATCCTATATCAAACGATTAGATGAGAAAAAACCAGTTATTTTTTGTGGAGACCTAAATGTTGCTCATAAAGAAATCGATTTGAAAAATCCAAAAAGTAATCGTAAAAACCCTGGATTCTCCGATGAGGAACGAGAGAAATTTACATGTATTTTAGAAGAAGGATTTATTGATACGTATCGTTACCTTTATTCTGATCAAGAAGGTGCATACTCGTGGTGGTCGTATCGTATGGGCGCGAGAGCGAAAAATATCGGATGGCGTTTAGATTATTTTGTTGTTTCGGAAAGAATGAAAGACCAAATAACAGAAGCGAAAATTAATAGTGAAGTAATGGGATCAGACCATTGTCCAGTTGAATTACATATAAATTTCTAA	MKLISWNVNGLRAVIAKGGFLEYLEESNADIFCLQEIKLQSGQIDLNLEGYYTYWNYAVKKGYSGTAIFTKKEPLSVTYGLEIEEHDQEGRLITLEFEDFYMITLYTPNSKRGLERLDYRMKWEDDFRSYIKRLDEKKPVIFCGDLNVAHKEIDLKNPKSNRKNPGFSDEEREKFTCILEEGFIDTYRYLYSDQEGAYSWWSYRMGARAKNIGWRLDYFVVSERMKDQITEAKINSEVMGSDHCPVELHINF				NA	NA	NA	NA	NA
AK009_03714	597	adaA_2	COG2169	Bifunctional transcriptional activator/DNA repair enzyme AdaA	TTGCACAATGAAGGGTTAACATTAACGAGTGAGTATTGGCATGCAATTATTCATAATGATTCTTCCTATGATAGCAAATTCTTTTATGCTGTGAAATCAACTGGAATCTTTTGCAGGCCATCATGCAAATCAAGAATACCGAATAGAAACAATGTACGAATTTTTCATCATGCAGAACAAGCATTAAGTGAAAACTTTCGCCCGTGCAAACGTTGTAAGCCAAACGGGATCACTTTACCTAATGAAGAGTGGGTAGAACAAATTAAAGACTATATCGAAAAGCATTATGACGAATCCTTAACTCTCGACATGCTTGCGGAAATGTGTCATGGTAGCCCTTTTCATTTACAGCGTACTTTCAAAAGAATAATAGGGCTAACTCCTATAGAATATATACAACAATTCAGGGTTCTTAAAGCAACCGAATACCTTTTACACACAAATCAATCTATTAAAGAAATTAGTACTGCTGTCGGGATAGAAAACCCAGAGTATTTCGCAACTTTATTTAAAAAAAAAACCGGATTTACTCCTACTGAATATCGAAAAAAGAACGAAATGAAAGAGGGATACGATAATGAATTCCTACAAAAATAA	MHNEGLTLTSEYWHAIIHNDSSYDSKFFYAVKSTGIFCRPSCKSRIPNRNNVRIFHHAEQALSENFRPCKRCKPNGITLPNEEWVEQIKDYIEKHYDESLTLDMLAEMCHGSPFHLQRTFKRIIGLTPIEYIQQFRVLKATEYLLHTNQSIKEISTAVGIENPEYFATLFKKKTGFTPTEYRKKNEMKEGYDNEFLQK				NA	NA	NA	NA	NA
AK009_03715	531	adaB	COG0350	Methylated-DNA--protein-cysteine methyltransferase, inducible	ATGAATTCCTACAAAAATAATTATATATATTGGACGCTACTTACACATAAAAATTGGCGATTTCATATTGCTGCAACTGAAAATGGACTATGTTTCATTGGATCACAAGACGAAAACTTTGAAGAATTAAATATATGGGCTAGAAAAAAACTGCCCCAACATATATTGATCCATAGTCCAGATTACTTGCAAATATATACGAAAGAAATTATCGAATATTTAGAAAGCAAGCGAGAAACTTTTACATTCCCTATCGATGCTTATGGAACTAATTTTCAATCATCTGTTTGGAATGCGGTACGTGAAATTCCTTATGGAAAGACCTATTCTTATACAGAAATTGCTGAAAGAATTCAAAAACCTAAAGCTGTGCGCGCCGTTGCTTCTGCTATTGCTGCTAACCCTCTTCTTATTACCATTCCTTGTCACCGCGTTATTGGGAAGAATGGGAAACTAACCGGATTTAGGGGTGGATTAGAAATGAAGAAAAAATTGCTTACATTAGAAAAGTTGCAGGTGGAATTCATATGA	MNSYKNNYIYWTLLTHKNWRFHIAATENGLCFIGSQDENFEELNIWARKKLPQHILIHSPDYLQIYTKEIIEYLESKRETFTFPIDAYGTNFQSSVWNAVREIPYGKTYSYTEIAERIQKPKAVRAVASAIAANPLLITIPCHRVIGKNGKLTGFRGGLEMKKKLLTLEKLQVEFI				NA	NA	NA	NA	NA
AK009_03716	912	alkA	COG0122	DNA-3-methyladenine glycosylase	ATGACAGCAGAATATAATAGCGCATTATCTATAGCAGTTCCAAAAGAATTTTGTTTCCAAGAAAATTTACGTTATCTATCACGTTCTAACAATGAATGTATGTTCCATATTGAAGATAACAAAATTTATAAAGTTATCCCTGTTCAAGATGTAAATCCTCTAGTTGAAATTAGTGTGAATACAGATGGCAATATTCAAATACTTTGTTTAGAAGAATCATTCACATCTGAAAAATCGATACGTGAAGCTGTAGCTAACTATATAAAAGAATGGTTTGATTTAACTACTGATTTAGCCCCCTTTTATACATTAGCTAAACATGATTTACTCCTTCAAGGACCAATTGAACAATATTATGGCCTTCGTACTTTAGGTATTCCAGACTTATTTGAGGCACTTTCCTGGGGAATTATCGGTCAACAAATTAACCTAACATATGCTTATACGCTAAAAAGAAGATTAGTTGAGCAATTTGGAAGTTATGTAGAATGGGACGGTAGAAAGCATTGGATATTCCCATCACCTGAAACAATTGCAAATCTACATGTAGAAGATCTCCAACAATTAAAAATGACGACTAGAAAATGTGAATATTTAATCGGTATTGCGAAGCTTATCACAGAGGGAAAACTATCAAAAGAGGATTTACTGCAAACACAAGATGTAAAGGTTGCTGAGAAACAATTAACCGCTATCCATGGTATAGGCCCATGGACTGCCAACTATGTTTTAATGCGTTGTTTAAGATTTCCTTCAGCTTTTCCAATTGATGATGTTGGTCTGCATAATGCAATTAAATTTATAACAGGTTCCGAAAATAAACCGACTAAAAATGAAATAAAAGATTTCGCGGCAAACTGGGCTAATTGGGAGTCTTATGCGACTTTTTATTTATGGCGAGTACTATATTAA	MTAEYNSALSIAVPKEFCFQENLRYLSRSNNECMFHIEDNKIYKVIPVQDVNPLVEISVNTDGNIQILCLEESFTSEKSIREAVANYIKEWFDLTTDLAPFYTLAKHDLLLQGPIEQYYGLRTLGIPDLFEALSWGIIGQQINLTYAYTLKRRLVEQFGSYVEWDGRKHWIFPSPETIANLHVEDLQQLKMTTRKCEYLIGIAKLITEGKLSKEDLLQTQDVKVAEKQLTAIHGIGPWTANYVLMRCLRFPSAFPIDDVGLHNAIKFITGSENKPTKNEIKDFAANWANWESYATFYLWRVLY				NA	NA	NA	NA	NA
AK009_03717	1239	pepT_2	COG2195	Peptidase T	ATGAACTTGAAACAAGAACTTATTGAAAGATTTACGAGATATGTAAAAATTGATACGCAATCAAATGAAGAAAGCCATACAGTACCAACAACACCAGGACAAATTGAGTTTGGTAAGTTATTAGTGGAAGAGCTAAAAGAAATTGGGTTAACAGAAGTAATGATGGATGATAATGGCTATGTAATGGCAACACTTCCAGCTAATACGGACAAGGATGTTCCTGTAATCGGATTTTTAGCTCATTTAGATACGGCAACAGACTTTACAGGGAAAAACGTCAAGCCACAAATTCATGAAAATTTTGATGGTAATGCAATTACGTTAAATGAAGAGCTAAATGTTGTGTTAACACCAGAGCAGTTCCTGGAATTACCATCATATAAAGGGCATACCATTATTACAACTGATGGTACAACACTTCTAGGAGCAGATGATAAAGCTGGTCTTACAGAAATTATGGTTGCAATGAACCATTTAATACATAATCCGCAAATTAAGCACGGGAAAATAAGAGTAGCATTTACACCGGATGAAGAAATTGGTCGTGGGCCAGCGCATTTTGATGTAGAAGCGTTTGGTGCATCATTCGCTTATACGATGGATGGAGGTCCATTAGGTGGTTTAGAGTATGAAAGTTTTAATGCTGCAGGTGCTAAGTTAACGTTTAACGGAACGAATACACATCCTGGAACAGCGAAAAATAAAATGCGCAATGCAACTAAACTGGCTATGGAGTTTAATGGGCATTTACCAGTAGAAGAGGCGCCAGAATATACAGAAGGCTATGAAGGATTCTATCATTTACTTTCTTTAAATGGTGATGTTGAGCAAAGTAAAGCGTATTATATTGTTCGAGACTTTGATCGTGAAAATTTTGAGGCACGTAAAAATAACGTTAAAAATATTGTGAAGAATATGCAAGAAAAGTATGGTGAAGATGCAGTCGTCTTAGAAATGAATGATCAATACTATAACATGCTTGAAAAAATTGAACCGGTAAGAGAAATTGTTGATATTGCATATGAAGCAATGAAAAGTTTAGACATTGAACCAAATATTCATCCGATTCGCGGAGGCACAGATGGATCACAATTATCATATATGGGATTACCGACGCCGAATATTTTCACTGGTGGTGAAAACTATCACGGTAAATTTGAGTATGTTTCGGTAGATAATATGGAAAAAGCCGTTCAAGTTATTGTAGAAATTGCAAGACGTTTTGAGGAGCAAGCTTAA	MNLKQELIERFTRYVKIDTQSNEESHTVPTTPGQIEFGKLLVEELKEIGLTEVMMDDNGYVMATLPANTDKDVPVIGFLAHLDTATDFTGKNVKPQIHENFDGNAITLNEELNVVLTPEQFLELPSYKGHTIITTDGTTLLGADDKAGLTEIMVAMNHLIHNPQIKHGKIRVAFTPDEEIGRGPAHFDVEAFGASFAYTMDGGPLGGLEYESFNAAGAKLTFNGTNTHPGTAKNKMRNATKLAMEFNGHLPVEEAPEYTEGYEGFYHLLSLNGDVEQSKAYYIVRDFDRENFEARKNNVKNIVKNMQEKYGEDAVVLEMNDQYYNMLEKIEPVREIVDIAYEAMKSLDIEPNIHPIRGGTDGSQLSYMGLPTPNIFTGGENYHGKFEYVSVDNMEKAVQVIVEIARRFEEQA	PGPT0020915_1384	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
AK009_03718	630			hypothetical protein	ATGAGGCTAACTCTCTTTCGCTATTTTCTTTTTTTCTTAGGATTAATTTTCTTTGGCCTTGGAAATGCTCTTGCGGTCAAAGTTAAATTTCTAGGCTTGCACCCTTGGGAAGTTTTAAATATGGCTCTCTACCAAAAGTTTGGATGGACCATTGGTACGTGGAGTGTCATATGTGGGTTATGTCTCGTTCTAATATCTTTACTAGTAGATCGAAAATATATAAATGTCGGTACATTTTTGAATGCACTACTTATCGGTCCCATTATGGACTTTTTCTTACAATCAAACATGCTTCCAGACGCTAGTAATTATTTATGGATAAACTTACTCATTTTATTTTCTGGTATTGCCATTACAGGTATCGGGGGAGGGATGTACGTTGCAGCTGGGATTGGCGCTGGCCCTCGTGATGGATTCATGCTTACTATTTCCGACAAAACAGGACTTTCTATTAGCCGTGCTAGAATCATAGTAGAATGTATTGTACTAGTTGTTGGATTTATGCTAGGCGGTCCTGTTTTCATCGTAACTTTTCTGTACACCTTTATTCAAAGTCCAATCTTTCAGCAATCATTTAAGATGTTTCAAACACTTTTACATAACAAAAAGAAAATTAGTGAACATATTTAA	MRLTLFRYFLFFLGLIFFGLGNALAVKVKFLGLHPWEVLNMALYQKFGWTIGTWSVICGLCLVLISLLVDRKYINVGTFLNALLIGPIMDFFLQSNMLPDASNYLWINLLILFSGIAITGIGGGMYVAAGIGAGPRDGFMLTISDKTGLSISRARIIVECIVLVVGFMLGGPVFIVTFLYTFIQSPIFQQSFKMFQTLLHNKKKISEHI	PGPT0026395_704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
AK009_03719	318			hypothetical protein	ATGAAACAGATTAAAAAGTTTGCGGGAGTTGCTTTAGCGGGGACGATTGGATTAAGTGGACTACTGTTTTTAGAACCAAGTGTAAGCGTTGCGGAAGCACAGCAAGTGAAAGTGGAAAATTTCAATACAATTGATGTAACGATGGATCTAAATGAATTGTATGTATTAAGTGGCAGAAGTATTGATATTCTTTCTGGAGATAAAGAAGCAATTCAGTTAAATAAATACACAATTAGTTTTAATAAACCTGGGAAGTATGTGATTAAAGTAAATGGTTGTATTTATGATGATGTATATACTTTTATTGTGAATGAGTAG	MKQIKKFAGVALAGTIGLSGLLFLEPSVSVAEAQQVKVENFNTIDVTMDLNELYVLSGRSIDILSGDKEAIQLNKYTISFNKPGKYVIKVNGCIYDDVYTFIVNE				NA	NA	NA	NA	NA
AK009_03720	576			hypothetical protein	ATGAGCACATATATTTATATGGTTAGACATGGTGAATCACCAAAACTAGAAGGAAATGAAAGAATGCGCGGGTTAACTGAGAAGGGACGTATGGATGCCCGTAGAGTAACTGACATATTAAAAGCGGAGAAAATTGATACTTTTATTTCCAGTCCCTATAATCGGGCTATGTTAACGATAGAGGAGTCAGCTAATTTCCATGAAAAAGAAATAGTAGTATATGAAAATCTTAAAGAGTGTATGTTTTCAAGTGAGGGTCAGGTTATATCAGACAAAGAGGTGTATCCACTTGTACAGAAGATGTTCTCTAATCCGGACTTTTCACGAACGGAAGGAGAGTCATATGCAGATTGCCAGAGAAGAGTAGTGAAAGTATTAAAAGAAATCTTAATAGATTTTCAAGGACGCAAAATTGTAATTGGTACACATGGGCTTGTCATGACATTAATGATGAACTATTTTGATAAACAATATGGTTTTGAATTTTTAATGAATACGTCAAAACCGGATATATATAAGATGGAGTTTAAAGAAGAACAATTAATGAATGTAGAGAGATTATGGAAAGCGGAATAA	MSTYIYMVRHGESPKLEGNERMRGLTEKGRMDARRVTDILKAEKIDTFISSPYNRAMLTIEESANFHEKEIVVYENLKECMFSSEGQVISDKEVYPLVQKMFSNPDFSRTEGESYADCQRRVVKVLKEILIDFQGRKIVIGTHGLVMTLMMNYFDKQYGFEFLMNTSKPDIYKMEFKEEQLMNVERLWKAE	PGPT0018030_3882	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
AK009_03721	816	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGATATATCGAATTAAAGATGCAGAAATATACTATGAAATTGTGGGAGAGGGTAAACCGGTCATTATCATACATGGCTGCGCCCCTGATCATAGGTTAATGATGAAATGTATGGAATCAGTATTTCAGAAATATGAAGGTTGTAAGCGAATATATATTGATTTACCTGGTATGGGGAAATCGAACGCTCCAAATTGGATAAATAGTTCAGATCGTATAGTAGAAGTGCTTATCACATTTATTGAGGAAATCATTTCTACTGAAAAATTTTTATTGGTAGGAGAATCATATGGAGGCTATTTAGCCAAAGGTATACTTACAAAGATGTTTGAGAGAGTTAGCGGATTACTATTAGTATGTCCTGTTGTTGTAGCGGAGCCAGAAAAAAGGATTCTTCCAGATAAACAGGTAATTGTACAAGATGAGGAATTTTTAAATACGCTTACTTCCACGGAAAGAGAGAAATTTTGTGAGTTAGCTGTAATAGCAAATGAATATACATATACGCGATTTAAAGAAGAAATTAAGCCTGGGTTAGATGTTGCTAATTATGAATTTATTGAAAGGTTGCAAAAGAATTACTCTCTTACTATGGATTTTCAGCGTGAAAAATATGAAAAGCCCGTTCTTTTACTGACTGGAAGACAAGATATATCAGTAGGTTATCAAAATATTATAGAAATTATTGAAGAATATCCCAGGGCAACATTAGCAGTGTTAGATATGGCAGGGCATAATTTGCAAATTGAGCAGCCTGAATTATTTGAGAGTTTAGTAGGAGAATGGATTAGACGAACAAATCAGCACATTTTATAA	MIYRIKDAEIYYEIVGEGKPVIIIHGCAPDHRLMMKCMESVFQKYEGCKRIYIDLPGMGKSNAPNWINSSDRIVEVLITFIEEIISTEKFLLVGESYGGYLAKGILTKMFERVSGLLLVCPVVVAEPEKRILPDKQVIVQDEEFLNTLTSTEREKFCELAVIANEYTYTRFKEEIKPGLDVANYEFIERLQKNYSLTMDFQREKYEKPVLLLTGRQDISVGYQNIIEIIEEYPRATLAVLDMAGHNLQIEQPELFESLVGEWIRRTNQHIL				NA	NA	NA	NA	NA
AK009_03722	2745			hypothetical protein	TTGAAATTAAATAAAAATTTACAATTATGTATATTAATTGGAACATTAATATGCTATTCAATCTATTTTATGTTTTTCTATCTGTTCCCTACTCATTTTTCAAATTCAGATGTACGCTTCGCTTCACTTATCGTTGAAGCCATTACATTTGTATCACTGATTTACTCTATATATTCTAAAAAAGTCAGTTCAAATCCGTTTTGGATATGTATTACAATAGCAATTGGTAGTTTTTTATTAGGGAAAATAGTATATACATATCAGGATAGCTTCTTCGAAATTCCAATACATCGTTTTACTGTTTCTGATGTATTTTACATGTTTTTTCTATTTTTCTGTCTTATCGCTTTCTGCTATAAAATTTTAAAGGAATGCAATAAATGGGAAAAAGCGTTCTTTATTTGTGATATATGCATAGTGCTTACTTCCATATTTACATTAGAATGGTATTTATTTAACCAACCAAGTTTAAATATATTCTCTCTTTCACTAGGAGATGTTTTCCTTTCATTTTTATACCCAATTGCAGATTTATTATTTCTGCTGCTAGGTGTTAGTCTCTTTTTCCGTCCAACAATTTTTAAATCCAAACGGAAAATTTATATCTTTATTTTTGTATTAATAAGTTCTGCAACTTTTAACTATATTTATTTTTACTTAAATAACCACTTATCAACTGAAACGATAACATTATTACGTCTTTTATATAGAATACCTATATTACTTATTGCAATAGCTGGCTCTATTCCAGAAGATCATAATAGCCATAAAAATTATTTCATTGTAAACCCTATAATAGGAAAAAAAGCTTTAGTTGTATTTCCCTATCTTGCTGTTGCAATACTAATCGGGTTTACATTAAAAGAACAAACATCATCTTCAACTCTCATTACAGGAAATTGTATTACTTTTATTTTCGTACTCATTCGTCATTCTATCGTACGTATGCAAAACAATTCCTTAACAAAACGTTTGCAGGCATTTAATGCCCAACTAGAAGAAAAAGTTACTTTACGGACGTCTGATTTAGTTCATAAATCAGAGGCTCTTTCTCAAAAACAACAAAAGTTTAAATCATTATATGAATATCATCCTGACCCTATTTTCACCATTGATTTAAATGGAATATTCTTAAATGTAAATAAGGCTGGGAGTGTACTACTTGGTGCACCAACGGATGAGTTACTAGGTGAAACTTGTTTTTCGATTATTTTAGATGAAGATAAGCATAAGCTAGCATTGGCATTAGAGAAAGTGAAACAACAAGAATCGGCATCCTTACAACTTAGTTCTCAATATAAAGATGGCTTTACTTATTTTTTATACGTTACAATCATTCCTATTATAATAGACGGACAAATTTCAGGAAGCTATATTATGGTGAAAGATATTACTGCACTAAAAAAACAGCAAGAAGAAATTAAATATTTAGCATTCCATGACACAGTAACGAAAATTGGGAACCGTGCCTTTTTTCATAAAAAATTAAAGAGAGTTATAAAAAATGCTAAAATAGCAGGAAGCGAGTTTGCATTATTATATTTAGATTTAGATCGCTTTAAAGCAATTAACGATACACTTGGACATTCGTCAGGAGATTACATATTAGAAGAAGTAGCAAAGCGATTCCAATCATGTCTTCCATCACATACTCATCTTTCAAGAATCGGTGGCGATGAATTTACAATCATAATTGAAAACTATACTGACGAAGATTACTTATTCCAATTATGTAACCAATTATTTGAATGCATGAAAAAATCATTTATCATACATGAGCATAAATTAACTTTATCACTGAGTATCGGCATCGCTATTTATCCACATTCCGGAATCGATACCGCTACACTCCTGAAAAACGCCAATGTTGCAATGTATGATGCAAAAGCAAAAGAGCTTAACTCTCTCTCTATTTATGACGATGTAATCGCTAAAAAAATTGAAAGACGATTACGATTAGAAAAAGATTTACCAAACGCACTACAAAATGAAGAATTGTTCCTTTTGTATCAACCTCAAGTTGATAGTGAATCTAATAAAATCATCGGTGCAGAAGCTTTAATTAGGTGGAATCATCCTGAATTAGGTATTATTTCTCCATACGAGTTTATTCCGATTGCAGAAGAAACACTACAAATTATTTCAATAGGAAAATGGACATTAGAGCAGGCTTGTAAGCAAATGAAACGTTGGCACGGACTCGGATATTCACATTTAAAAATAGGTGTAAATTTATCTGCTAAAGAATTTGAACAAGAGGATTTTGTAAGGTCTATTTCTTCTACTTTAACAAATACAGGTTTACCAGCAAGCTCTCTTGATCTTGAATTAACAGAGCGAATTGCAATGATGGATGAACGAGAAACATTGATAAAACTGCGTACACTAAAAAGTCTAGGGATTCACATTTCAATCGACGACTTTGGTACAGGTTATTCTTCGCTAGCCTACTTACCTTTATATCCAATTGATACATTAAAAATTCCGAGAGAATTTATTACAATGTCTGAAACATGTGATGATGGAATGGAAATTATTAAAACAATCATCACATTAGCAAATACACTAGGAATGTCTGTCATTGCTGAAGGTGTAGAAACAAAAGAGCACGTAAATTTCCTTCAAAAAAATAAATGTCAGTTTATTCAAGGTTATTATTACAGTAAGCCTATTCATATTGATGCATTTACTGAGCTATTAGAAAACGGCATTCACCCATATTACATAGCTAATTGGAATAACTAA	MKLNKNLQLCILIGTLICYSIYFMFFYLFPTHFSNSDVRFASLIVEAITFVSLIYSIYSKKVSSNPFWICITIAIGSFLLGKIVYTYQDSFFEIPIHRFTVSDVFYMFFLFFCLIAFCYKILKECNKWEKAFFICDICIVLTSIFTLEWYLFNQPSLNIFSLSLGDVFLSFLYPIADLLFLLLGVSLFFRPTIFKSKRKIYIFIFVLISSATFNYIYFYLNNHLSTETITLLRLLYRIPILLIAIAGSIPEDHNSHKNYFIVNPIIGKKALVVFPYLAVAILIGFTLKEQTSSSTLITGNCITFIFVLIRHSIVRMQNNSLTKRLQAFNAQLEEKVTLRTSDLVHKSEALSQKQQKFKSLYEYHPDPIFTIDLNGIFLNVNKAGSVLLGAPTDELLGETCFSIILDEDKHKLALALEKVKQQESASLQLSSQYKDGFTYFLYVTIIPIIIDGQISGSYIMVKDITALKKQQEEIKYLAFHDTVTKIGNRAFFHKKLKRVIKNAKIAGSEFALLYLDLDRFKAINDTLGHSSGDYILEEVAKRFQSCLPSHTHLSRIGGDEFTIIIENYTDEDYLFQLCNQLFECMKKSFIIHEHKLTLSLSIGIAIYPHSGIDTATLLKNANVAMYDAKAKELNSLSIYDDVIAKKIERRLRLEKDLPNALQNEELFLLYQPQVDSESNKIIGAEALIRWNHPELGIISPYEFIPIAEETLQIISIGKWTLEQACKQMKRWHGLGYSHLKIGVNLSAKEFEQEDFVRSISSTLTNTGLPASSLDLELTERIAMMDERETLIKLRTLKSLGIHISIDDFGTGYSSLAYLPLYPIDTLKIPREFITMSETCDDGMEIIKTIITLANTLGMSVIAEGVETKEHVNFLQKNKCQFIQGYYYSKPIHIDAFTELLENGIHPYYIANWNN	PGPT0023624_772	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
AK009_03723	1065	murG_2		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAGCAAAACGATTCTTTTTACTGGGGGCGGTACAGCCGGACACGTTATGATTAATATTGTATTAATTCCTAAATTTATAGAGCAAGGATGGAGAGTCGAGTATATTGGATCCAAAAATGGAATTGAAAAATCATTAGTGAAAAATGTTAAATACAATAGTGTTTCAACGGGCAAGCTTAGGAGATATTGGGATTGGGAGAATTTTAAAGATCCTTTTAAAATTATAAGCGGTTGTTTACAAAGTTATAAATTAATTAAGAAAACAAAGCCTGACGTTATCTTTTCAGCAGGAGGATTTGTTTCAGTTCCTGTAGCTATAGGAGCATGGTTAAATCGTGTGCCTATAATTATACGTGAACCAGATAGCACATTAGGACTTGCCAATAAAATAGCATTACCTTTTGCTACAAAGCTATGCACAACATTTCCTCAGACAGGAGAAAATGTAAGTAATGAGAAGAAGGTTTATGTAGGACCGATTGTAAGGGAAGAAATTGAGAAGGGTAACGTATTAAGAGGAAGAAGATATTGTGAATTTCAACAAGATAAACCAGTGTTATTAATTATGGGTGGGAGTCAAGGTGCTAAATGGATAAATGATATGGTAAGGAAATGTTTAGATACAATACTATTAAACTTTAATATTATTCATATATGTGGTAAAGGGAAGGTAGACCCATCTATTGGCATGGAGGGGTATATGCAATTTGAATATATAGGAGACGAGTTGCCGCATATACTAAATATGGCAAGTGTTGTAGTTTCCAGAGCGGGTTCTACTGCTATTTCTGAATTGTTATTTTTGAAGAAACCGATGTTGCTTATCCCGTTAACTAACAGTTCCAGTAGGGGAGATCAAGGTTTAAATGCTGAATATTTTTCACGGCAAGGATATGCGGAAGTAATACTCCAAGACAGAGTAAATACGAATACATTTATACATGCAGTAAATAAGTTGTATACAAATCAGGAGAAATATATTCAAAACATGAATGAATATAAAAAAACAAATGATGAGGGGATTCATCAATTAGTAGATATAATAAATGATGTGGTGAAGTAA	MSKTILFTGGGTAGHVMINIVLIPKFIEQGWRVEYIGSKNGIEKSLVKNVKYNSVSTGKLRRYWDWENFKDPFKIISGCLQSYKLIKKTKPDVIFSAGGFVSVPVAIGAWLNRVPIIIREPDSTLGLANKIALPFATKLCTTFPQTGENVSNEKKVYVGPIVREEIEKGNVLRGRRYCEFQQDKPVLLIMGGSQGAKWINDMVRKCLDTILLNFNIIHICGKGKVDPSIGMEGYMQFEYIGDELPHILNMASVVVSRAGSTAISELLFLKKPMLLIPLTNSSSRGDQGLNAEYFSRQGYAEVILQDRVNTNTFIHAVNKLYTNQEKYIQNMNEYKKTNDEGIHQLVDIINDVVK	PGPT0024150_4410	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
AK009_03724	351			hypothetical protein	ATGAAAAACAAAAAAGGGTGTAAGAAATATATGAATGGTTATGAAGTAATAGATAATCAAAATACGCTATTTCTTTCAATTGTTGATACGCTGGACTGGAAAGATGAAGAAGCGCATGTATTGCGTCTTTATGAGGCAATACATAAATATCAAGCGTATGTAGAAGAAAAAAGGGTTAATCGAATAAAGTCAGCATTAGAGACCGAAACTAGGTATGTGATTCAAATCTTTGCTCAATATGAGTGTAGTGAGTATGGAAATGATTTTTATGAACTCATTAAAGATCTTTTACAAGATATAGAGGTGGAGTTAAAGATTTATATAAAAAATAATAAGTTTATTTACATTTAA	MKNKKGCKKYMNGYEVIDNQNTLFLSIVDTLDWKDEEAHVLRLYEAIHKYQAYVEEKRVNRIKSALETETRYVIQIFAQYECSEYGNDFYELIKDLLQDIEVELKIYIKNNKFIYI				NA	NA	NA	NA	NA
AK009_03725	912	rmd_2		GDP-6-deoxy-D-mannose reductase	ATGAAAAAAAATGCGAGCCTTTTAATAACTGGTGCAAATGGTTTTACAGGACGCCATGCTTGCCAATATTTTTTAGAGCAGGGCTTTCATGTAATTCCTATGTTTCAAAATCGTGCACATAGAGAAAAAATTAGAAATGGTATTACTTGTAATTTAACTAATAAGAGCGAAGTAATAAAGGTAATGAAACAAATAAAGCCAGACTACGTATTGCATTTAGCAGGAAGGAATTCGGTCATAGAATCTTGGACATCTGCTCTTGAATATATAGAGATTAACGTAATAGGAACGTTATATTTATTAGAAGCAATTAAGCAAGAAGCATCGCATTGTAGAACATTAGTTATAGGATCTGCTTTGCAAGCAGATAGTATGGACGAAATGAAAATTTCAAATCCATATAGTTTAAGTAAAACGATGCAAGTCATTATTGCAGAGGCTTGGGGAGAATTAATGGATTCAAATATTATCATTGCAAAGCCTTCAAATTTAATTGGTCCAGGGGTATCGAATGGCATTTGTTCGATTCTCGCAAAGAAAATGATAGATATAGAATCAGGTAGAAGTAAAGCTATTATTGAAGTAAACAGTTTGAAAGATAGTAGAGATTTTCTAGATGTACGTGATGCGGTTAAAGCATATCATGTGTTATTACGAGATGGAATAAATGGAAAACAATATAACATCGGATCAGGAGTAAAACGATCTTTATTAGATGTACTAGAACAATATAAAGAATTAACACAGCTAAATTTTTTTATAGAGGAAACAGAGAAAAGTGGGAGCGACTCAAATGAGAGTTTAGTAATAGAGGAAATAAAAAGGTTAGGTTGGATCCCAGAAATTGAATTTCATCAATCATTAAAAGATGTACTTGAGTATGCGAAGTGTAGTGACATCTGCATGCAATGA	MKKNASLLITGANGFTGRHACQYFLEQGFHVIPMFQNRAHREKIRNGITCNLTNKSEVIKVMKQIKPDYVLHLAGRNSVIESWTSALEYIEINVIGTLYLLEAIKQEASHCRTLVIGSALQADSMDEMKISNPYSLSKTMQVIIAEAWGELMDSNIIIAKPSNLIGPGVSNGICSILAKKMIDIESGRSKAIIEVNSLKDSRDFLDVRDAVKAYHVLLRDGINGKQYNIGSGVKRSLLDVLEQYKELTQLNFFIEETEKSGSDSNESLVIEEIKRLGWIPEIEFHQSLKDVLEYAKCSDICMQ	PGPT0022970_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0022970-preQ-K24311	NA	NA
AK009_03726	987	pseB_2	COG1086	UDP-N-acetylglucosamine 4,6-dehydratase (inverting)	ATGTTAAATAAAATAATTTTAATTACTGGTGGTACAGGTTCGTGGGGGCATGAACTTATAAAACAACTATTAGAAAAATCACCGAAAGAAATTAGAATTTTTTCAAGAAATGAAACGGTTCAGTTTGAAATGCAGCAACAGTTTATAAATGATGAAAGGTTAAAATTTATTATTGGAGATATTCGTGATAAAGATCAACTAGTCTATGCTTGCCAAGGTGTACATTATATATTTCATCTTGCAGCTTTAAAACACGTTCCAGTATGTGAGTATTATCCTTATGAAGCTATAAAAACCAACATACATGGTACGCAAAATGTAATTGAAGCCTCTATACAGATGCGAGTTGAAAAAGTTATATATGTTTCAACGGATAAAGCAGCTGATCCATCAAATACGTATGGGATGACAAAAGCAATTGGTGAAAAATTAATGGTTCATGCGAATATACAAACGAAGAAAACAAAATTCATTTGTGTTCGTGGTGGAAATGTTTTAGGGACGAGTGGAAGTGTAGTACCGCTTTTTAAACAACAAATTAAAAAATCTTCACAAGTAGGGATTACCGATGCGAATATGACTAGATTTTTCTTAACAGTTGAAGATGCTGTTGGATTGTTATTTAAAGCCGTATATCAAGGTAGAGGCGGGGAAATCTTTGTTATGAAAATGCCGGCATGTAAAATAACAGATTTAGCAGAAGTGTTAATTGAAGATTCGGAAAAAAGGAACGTTAAGGTAAAAGAGGTAGGGATAAGACCAGGTGAAAAATTAAGTGAAATGCTTTTATCTGAGGTAGAGAGTAAAACAAGTATAAGTTTTGATCAAAATTATTTTGTGGTACTACCGACCATTCCTATAGAAGGACTTCAAGAATATTATTCTAGCTATCCGCTAGTGGATGTGAAGAGTTTTAGTTCTCAACAAGACTTACTTGCAAAACATGAGGTGAAACAAATGCTATTAAAAGGAGGATTTTTGCGATGA	MLNKIILITGGTGSWGHELIKQLLEKSPKEIRIFSRNETVQFEMQQQFINDERLKFIIGDIRDKDQLVYACQGVHYIFHLAALKHVPVCEYYPYEAIKTNIHGTQNVIEASIQMRVEKVIYVSTDKAADPSNTYGMTKAIGEKLMVHANIQTKKTKFICVRGGNVLGTSGSVVPLFKQQIKKSSQVGITDANMTRFFLTVEDAVGLLFKAVYQGRGGEIFVMKMPACKITDLAEVLIEDSEKRNVKVKEVGIRPGEKLSEMLLSEVESKTSISFDQNYFVVLPTIPIEGLQEYYSSYPLVDVKSFSSQQDLLAKHEVKQMLLKGGFLR	PGPT0018935_1108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0018935-pseB|wbjB-K15894	NA	NA
AK009_03727	1179			hypothetical protein	ATGGACCAAAGCAATTCAAATCATACATATAACGGACCTTCCAAAGCACTGCCCCTCTCCCTATTCGATGTAAAAAATGAATTGAAACAAAAAAGCAAGCTTATTCCTTCTGATACCTTGTATAAATTAACGAAAGAAGAGCAACTCATCATCAACAAAATAAAAATACAAACAGAACAGCTAAATAAAAATAATGTTACAAGAACACGCGCATACTACCAATTTTACATTCAATATCCAGAAATACATTGGGCACTGCTTGGACATATGGTATCACGTAACGGCGGTTGGAATATGACTGATTTAAAGGGCGATTTATATACGAGAATCTTATCAGAGAAAGATCAATTCATATTTTTTTCTTTTTTAGAAAGAGGGAATTGGCTTATTTTCCAAGATGTATACCCTCAATTTTTACTTTACGAACAAAGTGTAAAGAAATCACAAAAGTTATTTCACCTTCTCCCTCACCTAAATGTTTCTACATTTATGGAAACGATGTGGAACGATTTTTGGAAAACAGGCAACAAAAAAACATTAGCCATTGCAACTATTATTAATGAACAAAACTACTTAGAAAAAAGAGTGATTCAAAATGTACAATTTAAAAAGACCGTACTCAATAGTATTGGATTTAAACTCTTTGATTTCTTTCAGTTTAATCATATCATTTTCCCATTCTACGAAAATGATAAGAAACAAAAAGTGTTACTATTTGGTGATACAATGAAACATTTCACTTCCTTACATGAACGAATATTAATTGGAAAAAGATTATATTCATTATTATTTCGAGATACACATGTTTTATCTCAAATAATAAGCTGGGCCCAACACCATCCACACACGGGATCAAGGAAAGATTACTGGCCCCATTTATTTTCAAGTGTAAATGAATCTTTTTCCCGTGAGTTTTATAAGCGCCGAATAAAAAAATGCCAGTTACGAAATGACGCTTATCGCATATACAGCCCTGCACTCATCTATGCATGGCGAGATATGAAGCATGAGGAAGTTGACAGTGAAGATTGGTTTACCGATTGGCAAGTTGTACATTATTTAGTTGATAAGGAGGAAAATATAAATGGACAAATTACAGAAGACTACTGCAAAACACTCGAAAAAATTGAACTCGCAATTCTCGCAAAGAAAAATGTCCTCCTCCGAGAAGAAGAATGA	MDQSNSNHTYNGPSKALPLSLFDVKNELKQKSKLIPSDTLYKLTKEEQLIINKIKIQTEQLNKNNVTRTRAYYQFYIQYPEIHWALLGHMVSRNGGWNMTDLKGDLYTRILSEKDQFIFFSFLERGNWLIFQDVYPQFLLYEQSVKKSQKLFHLLPHLNVSTFMETMWNDFWKTGNKKTLAIATIINEQNYLEKRVIQNVQFKKTVLNSIGFKLFDFFQFNHIIFPFYENDKKQKVLLFGDTMKHFTSLHERILIGKRLYSLLFRDTHVLSQIISWAQHHPHTGSRKDYWPHLFSSVNESFSREFYKRRIKKCQLRNDAYRIYSPALIYAWRDMKHEEVDSEDWFTDWQVVHYLVDKEENINGQITEDYCKTLEKIELAILAKKNVLLREEE				NA	NA	NA	NA	NA
AK009_03728	402			hypothetical protein	ATGTCCTCCTCCGAGAAGAAGAATGAGTTTCTAGCATTAGTAGTTACAATCTTTCTCTCTGCTATTATTGGAACTTGTTTAGATGCTTTTTTTGTTCATAAACAAATATATTCCTTTCCAGCTAGACCCTTCTCATCCACATTTTCGGTTAATATAGCTTTTACATTATTCGTACTGCCGATTTTAACAGTTATCTTTATACACATTTCAAAAAAATTATCTAAAGTTTCTAGAATTCTATTTATTATTTCAATTGGTATTTGTGCTAGCCTTTTTGAACAGATTGCTGAAAGTTTAGGTTTATTTATACACAGTACGAATTGGAACCATACATATTCTTTATTTGGTTATATGATTTTCCATTCTTTTATTTGGAACATATATAATTGGATAAAAAAATAA	MSSSEKKNEFLALVVTIFLSAIIGTCLDAFFVHKQIYSFPARPFSSTFSVNIAFTLFVLPILTVIFIHISKKLSKVSRILFIISIGICASLFEQIAESLGLFIHSTNWNHTYSLFGYMIFHSFIWNIYNWIKK				NA	NA	NA	NA	NA
AK009_03729	426			hypothetical protein	ATGACAACATGGTTTATAGTTACATTATTTGTTTTTGGAGCTATTAAAGTATTAGTTTCTAGTATGCCCACTTCTGTTGTAGAATCAATTATTAGTAAATTTGAGTTGCATCAAAAACTTGAGGCGGAAAATACTTCTATATCAATAGATGGAAAAAATATAGAGGGAGAAATGAAACTACAAGTTATTCATGAATTTAATGAAGCTTTGTTTTTAGATAAACATTATTTCCCGCCGCACGGAGAAGGGACACCAATAGTCATTGATACGAAGAAAGGGAATAAAGAGATTAGGTTTTCTCTATATAGCTATGAGGAACATATTGATGTCATTAAGCAATATAAGAAGAAAGTCGTTGCCTATCGTTTACGCTCTAAAAGCCTACAAACACTGGCACCATTAGCAATAATGGAAGAGTATGCTTAA	MTTWFIVTLFVFGAIKVLVSSMPTSVVESIISKFELHQKLEAENTSISIDGKNIEGEMKLQVIHEFNEALFLDKHYFPPHGEGTPIVIDTKKGNKEIRFSLYSYEEHIDVIKQYKKKVVAYRLRSKSLQTLAPLAIMEEYA				NA	NA	NA	NA	NA
AK009_03730	672	yohK_2	COG1346	Inner membrane protein YohK	ATGGTCTTAATTATTATTACTGTAGCAATTTATTTCTTGGCGACAAATCTATATAAAAAATTTACGTTTGCATTTACGTTACCGGTGTTAACAGTTACGGCAATTATGATTTGTTTATTTTTGATTTTTGGTATTTCTCATCATGAGTATAGGGAAAATGGTGGAGACATTCTTTCAAGCTTATTGAGCCCTGCAATTGTAGCATTAGCCATACCTCTATTTAAAGAGCGAAAGATACTGATGAAAAATTTTTTATCGATACTTATCGGAGTAGTGATAGGTATAGTGGCTGTAACGAGCATGAATGTAGTGATTGGCGGAATTTTAAATATAGATAAGGAACTTATATTAACTACTTTACCACAGTTAGCAACGATGCCTATTGCCCTTTCATTAGCGGATCAAATTGGTGGTATTCCATCTATGACTTCTAGTTTTGTAGTTGTTGCAGGGATAACAGGTGCTATTGTCGGACCGACAGTACTTAAGTTTTTCAGTATAACAAGTACGATTGGAAAAGGAGTTGGAATGGGCTGTGCATCACATATTATCGGTGTGAGTCGTTTAGTGAAGGAAGGCGAGAAAGAAGCGACTATCGGTTCGGTAACGATGATTGTAACTGGAATACTCATTAGTATACTAATACCGTATGGAACGAAATTTATTTTTTAA	MVLIIITVAIYFLATNLYKKFTFAFTLPVLTVTAIMICLFLIFGISHHEYRENGGDILSSLLSPAIVALAIPLFKERKILMKNFLSILIGVVIGIVAVTSMNVVIGGILNIDKELILTTLPQLATMPIALSLADQIGGIPSMTSSFVVVAGITGAIVGPTVLKFFSITSTIGKGVGMGCASHIIGVSRLVKEGEKEATIGSVTMIVTGILISILIPYGTKFIF				NA	NA	NA	NA	NA
AK009_03731	357			hypothetical protein	ATGAAGTACGTGACGCTTTTACTTCAAGTAGGTGTGCTATATGTATTTAGCTTAGTGGGTATGTGGATTCAGGAAATATTCCATCTATCAATACCGGGAAGTTTAATAGGGATGTTAATACTGTTCCTGTTTCTTTTCACTCGCGTTCTACCGTTAAAGTGGTTTGAGTTAGGTGCGGAAAAGTTAATCGTATTTTTACCGTTATTTTTAATCCCTTCGACAACAGGGCTCATGGAATACGGATCTTTTCTTTTAAGTAAGGGGAGTATTATATTCCTTTTAGTAGTTGCAAGTACTATAGTAACTTTAATTGTTTCAGGTTATATAAGTCAATTATTAGTAACATCAAAAAAATAA	MKYVTLLLQVGVLYVFSLVGMWIQEIFHLSIPGSLIGMLILFLFLFTRVLPLKWFELGAEKLIVFLPLFLIPSTTGLMEYGSFLLSKGSIIFLLVVASTIVTLIVSGYISQLLVTSKK				NA	NA	NA	NA	NA
AK009_03732	1434	norG_4	COG1167	HTH-type transcriptional regulator NorG	ATGGAATGGAAACCAAATCGTGCAGATAAGACACCTGTATATAAACAAATTGCTGATTATATTGAAAGAGGCATTTCTTCAGGTGAATTTCCTTCTGATAGTAAGTTACCTTCTGAGCGTATATTGGCAAAGGGGTTACAGGTGAACCGGAGTACAATAGTAGCTGCGTATGAAGAATTAAAATCACTTGGAGTAGTAGAACGGCAAAAGGGAAGCGGAACACGGGTCAATACAGACATATGGGGTGTCTCACATAAACGAATACCGAACTGGGGTAGGTACGTGGAGGACGGATCATTCTTACCTAACGTACCACTCGTTCAACAAATTCGAACGGAAACACAAAAAGATGATTTAATTAATTTAGCAAGTGGTGAACTGTCACCAGAATTAATTCCAAGTGATAGATTTCGAACAATTTTGTCGGAGAAAACATTTATGGAAAACCTCGGTTATGACCATCCACTTGGAAATGAGATGTTGAGAAAAACAATTTCAGCACATGTTCAGCAATATAAACAAATTGAAGCAGATTCAAGCTCTATTCTTATTACGTCTGGAGCACAACAGGCGCTTAATCTTATCGTTCAATGTTTATTAAAACCTGGCGATGCGATCGCGATTGAAGATCCTTCGTATTGTTTTTCGCTTCCAATGTTTAAATCGGCCGGTTTAAACATATTTCATTTACCTGTTGATGAGCATGGAATGAATCCAGATGACTTAATCGATTTGCACAAAAAGCATCGCATTCGGATGGTATTTTTGAATCCAGATTATCAGAATCCAACGGGTACTGTACTTTCATTAGCGAGACGTAAAAAGATTTTAGAACTGTCTTCTGAGTTCGGTATACCAATTGTAGAAGATGATCCGTATAGTTTAATTTCTTTTAATGGAGAAGTGAATCCGACATTAAAATCAATGGATCAAAATGGAAATGTTCTTTATATAAGTTCATTATCAAAAATTGTTGCATCAGGATTACGTATTGGATGGATAATTGGTCCTATACGAGTAATTGAGCGTTTAGCAGATGCAAAGCAACAAGTTGATTTTGGCCATAGTGTATTTACGCAGTGGGTAGCAAATCAATTTTTAGAATCAAAGGATTTTCATACACATATTACGATACTTCGTGGACAATTAAAGCAAAGAAGAGATGAATTAATTACAGAGCTTGAAGGAACATTGGGAGACCGAGTTGAATGTTTCGTGCCAGAGGGTGGAATACATGTATGGTGTAAAGTGAAAGGAAAGTTTGATGAATATCACTTATTAGGTGAATCTATACGGAATGGTGTCGCATTTGTTCCGGGCAGTGTTTTAGGTTCGAAAAATGAATATATACGATTTACGTTTGGTAGAGCGAATATAGAACAAATTCAACTTGGAATTAAACGGTTTGCTTACACGCTAAATGAGATTTCATAA	MEWKPNRADKTPVYKQIADYIERGISSGEFPSDSKLPSERILAKGLQVNRSTIVAAYEELKSLGVVERQKGSGTRVNTDIWGVSHKRIPNWGRYVEDGSFLPNVPLVQQIRTETQKDDLINLASGELSPELIPSDRFRTILSEKTFMENLGYDHPLGNEMLRKTISAHVQQYKQIEADSSSILITSGAQQALNLIVQCLLKPGDAIAIEDPSYCFSLPMFKSAGLNIFHLPVDEHGMNPDDLIDLHKKHRIRMVFLNPDYQNPTGTVLSLARRKKILELSSEFGIPIVEDDPYSLISFNGEVNPTLKSMDQNGNVLYISSLSKIVASGLRIGWIIGPIRVIERLADAKQQVDFGHSVFTQWVANQFLESKDFHTHITILRGQLKQRRDELITELEGTLGDRVECFVPEGGIHVWCKVKGKFDEYHLLGESIRNGVAFVPGSVLGSKNEYIRFTFGRANIEQIQLGIKRFAYTLNEIS	PGPT0028960_362	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_03733	192			hypothetical protein	ATGAGTTTTGCAATTTCACTAGTCGTTATTATTGTAATTGTATCGCTATTTGGGACTGTACTAGTTGCAAGAAACGTGGAGGAGAATTACGGCAAGTCTACAAAAAGAAATGTGAAAAACTTATCTGCAATCTATATTCTTCTTCTTTTTGTTCTACTGGTTGGGGTAACATGGTATGTGGTAATGATTTGA	MSFAISLVVIIVIVSLFGTVLVARNVEENYGKSTKRNVKNLSAIYILLLFVLLVGVTWYVVMI				NA	NA	NA	NA	NA
AK009_03734	210			hypothetical protein	ATGGATATAATTAACCTTGCGAAAAAGCAACTGGTCCTAAGTGATCAGTTGCTTTTTATTTTTAAAGTGGATGAGCAAAAAAACGCGAAAGTGGTTGGTCCGCTTTTTACAAACATCTATTATGATAAGAGAAGAAAGGTAGTATGTTATCAGCGTTTTAAAGAGGAAGGTTTTTATGTAAGTTCTTTAATTAAAATAGATGGGTCTTAG	MDIINLAKKQLVLSDQLLFIFKVDEQKNAKVVGPLFTNIYYDKRRKVVCYQRFKEEGFYVSSLIKIDGS				NA	NA	NA	NA	NA
AK009_03735	1725			hypothetical protein	GTGATTTTGTTGTCTTTTATTAAAAATAGTAAAATTGGAACGAAATTAAATGTGTTAGTCATTATATCGAGTTTGGCTTGTATCATGTTATCTTCACTCGGGTTTTTAGGGCTTCAAAAAGGTGAAAATGCATCTTCTAGTATGTATGAAGAAAGACTATTACCAATTGAATGGATAGGAATTGTAGAATCAAATTTTTACCATGTTAATATGAATTTTATGGAGATTATGATATCGAAAGATGAAAAAAGAATGAAAGAACTCATAATAGAAATGGATAAGACTAGAAAAGAAAATGATGAGCTGTTAAAACAATTTGAAACTAGAATTAGTTCTCATAAAGAAAAAGATTTGTATAATGCGTTTCAAAGTCAATTTAAAGATTTAAGAGTACAAATGAAAAAAGCACAAGATTTGGGACTGACTAATAATGAAGAAGCCTATAGCTATTATTTAAAAGAAATTGACCCTAATATGGAAAAAACAATTCAGTCTATTCGTGAACTTATTTTATATAATAATAATGCTGCTGAACAGCTACAAAAAGAGAATGTTAATAGTGTGAAAAATACAATCATAACATTTGTAATTATTTCATTTGTTGGAATCATAATAATCATTTTTATTGGTTTTATAACAAAAAATGCTATAAAAAAACCAATTGTATTATTACAAAAAGATATGGAACGAGTATCTGCTGGAGATTTAACAATTCGAACTTCTTATAAATCCGAGAACGAATTAGGCCATATTGTACAGTCCTTTAATAGTATGTTAGATAACTTGCAACAATTAGTCGGTCAGGTGAAGGTTACGGCGAAAGAAGTGATTGTTTCAACTGAAAATATGCTACAAGAGACGAAAACGGCAGCACATATATCAAACGAGGTTGTTCGAACTACTTCTGAAATAAATAAAGAAATAGAGGGACAAGTGACTAGTATTCAAGAAAGTTCAACTTCAATGGAAGAAATTGCAACTGGTGTTCAAACAGTAGCTGAATCTTCAGCGATGGTTGCTGAAGTTGCTGTTGCAACAATAGACCAAGCAAACTCTGGTAGTGAAGTTATAAAACAATCTATTCATCAAATGAATAGCGTGAATGAAGTTGTCGAAGAAACTTCTAAGGTCATTGATAGACTTGTTACGCGTACACAACAAATTGAAGAAGCGTTAGATGTTATTACTAATATTGCGGAACAAACGAATTTACTTGCTTTAAATGCTGCAATTGAGGCAGCACGTGCTGGAGAAAATGGAAAAGGATTTGCAGTAGTTGCAGCTGAAGTAAGAGGTCTAGCTGAGAAATCTAAAACATCTGTAAATGATATAAATAATTTAATACGTTTTATACATCAAGATACAGAGGATACAGTTCATGTAATGAAAAAAGGTCAACAACAGGCTAGTGGTGGTAAAGAAGCAGCGCATAAGGCAGAACTCGCATTTTCATCTATTATGCAAGATATTAATAGAATAACGACCCAAATTCAAGAAGTGTCTGCTGCCACAGAAGAAATGTCTGCTGGGACAGAAGAAGTAAATGCCTCTTTGTCAATAGTTTCTGAAACTGCAACACAAGTCGCACAAGAAACGAATCGAACGGTACAATCAATTCAAGCACAAGCCACATTGATTCAAGAAATAACGACGAAATCTAATGAAATGAAAAAGAAAGTCGAAAATTTAGAAATGCTAATTTCACAATTCATTATTGAAGAATAA	MILLSFIKNSKIGTKLNVLVIISSLACIMLSSLGFLGLQKGENASSSMYEERLLPIEWIGIVESNFYHVNMNFMEIMISKDEKRMKELIIEMDKTRKENDELLKQFETRISSHKEKDLYNAFQSQFKDLRVQMKKAQDLGLTNNEEAYSYYLKEIDPNMEKTIQSIRELILYNNNAAEQLQKENVNSVKNTIITFVIISFVGIIIIIFIGFITKNAIKKPIVLLQKDMERVSAGDLTIRTSYKSENELGHIVQSFNSMLDNLQQLVGQVKVTAKEVIVSTENMLQETKTAAHISNEVVRTTSEINKEIEGQVTSIQESSTSMEEIATGVQTVAESSAMVAEVAVATIDQANSGSEVIKQSIHQMNSVNEVVEETSKVIDRLVTRTQQIEEALDVITNIAEQTNLLALNAAIEAARAGENGKGFAVVAAEVRGLAEKSKTSVNDINNLIRFIHQDTEDTVHVMKKGQQQASGGKEAAHKAELAFSSIMQDINRITTQIQEVSAATEEMSAGTEEVNASLSIVSETATQVAQETNRTVQSIQAQATLIQEITTKSNEMKKKVENLEMLISQFIIEE	PGPT0015710_15410	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
AK009_03736	981			1-phosphatidylinositol phosphodiesterase	ATGAGAAATAAGAAGTTAATTTTGAAATTATTCATATGTAGTACAATATTTATCACATTTGTATTTGCTTTACATGATAAGAGAGTAGTTGCAGCTAGCTCTGTTAATGAGCTTGAAAATTGGTCGAAATGGATGCAACCTATACCTGATAATATTCCGTTAGCACGAATTTCAATTCCAGGAACACACGATAGTGGGACGTTCAAGTTGCAAAATCCGATTAAGCAAGTGTGGGGAATGACGCAAGAATATGATTTTCGCTATCAAATGGACCATGGAGCTCGCATTTTTGATATAAGAGGACGTTTAACAGATGATAATACGATAGTTCTTCATCATGGGCCATTATATCTTTACGTAACACTGCATGAATTCATAAATGAAGCGAAACAATTTTTAAAAGATAACCCGAGTGAAACAATTATTATGTCTTTAAAAAAAGAGTATGAGGATATGAAAGGGGCAGAAGATTCATTTAGTAGTACGTTTGAAAAAAATTATTTTGTTGATCCTATCTTTTTAAAAACAGAAGGAAATATAAAACTTGGAGATGCTCGTGGGAAAATTGTACTACTAAAAAGATATAGTGGCAGTAATGAATCTGGAGGATATAATAATTTTTATTGGCCAGATAATGAGACGTTTACCACAACTGTAAACAAAAATGTAAATGTAACAGTACAAGATAAATATAAAGTGAGTTATGATGAGAAAGTAAAATCTATTAAAGATACAATCAATGAAACGATGAACAATAGCGAGGATTTAAATCATCTATATATTAATTTTACAAGCTTGTCTTCGGGTGGTACAGCATGGAATAGTCCATATTATTATGCGTCTTATATAAATCCCGAGATCGCGGCATATATTAAACAAGAGAATCCAAAAAGAGTTGGTTGGGTTATCCAAGATTATATTAGTGATAAGTGGTCACCGATTCTCTATCAAGAAGTTATAAGAACTAATAAGTCGCTTTAA	MRNKKLILKLFICSTIFITFVFALHDKRVVAASSVNELENWSKWMQPIPDNIPLARISIPGTHDSGTFKLQNPIKQVWGMTQEYDFRYQMDHGARIFDIRGRLTDDNTIVLHHGPLYLYVTLHEFINEAKQFLKDNPSETIIMSLKKEYEDMKGAEDSFSSTFEKNYFVDPIFLKTEGNIKLGDARGKIVLLKRYSGSNESGGYNNFYWPDNETFTTTVNKNVNVTVQDKYKVSYDEKVKSIKDTINETMNNSEDLNHLYINFTSLSSGGTAWNSPYYYASYINPEIAAYIKQENPKRVGWVIQDYISDKWSPILYQEVIRTNKSL				NA	NA	NA	NA	NA
AK009_03737	1842			hypothetical protein	ATGAAAATATTTCAAAAAATGTATGCGTCAACTGTAATCATTACAACACTTTTAGGAACAGGAGGTACTATCAATAGTGTACATGCTGATTCTATAGAACAGCAGAGTAAATTAGGGATAGAACAAGAAACAGATAAGCAAATCATTGTAAAATTTAAAGCAGATTTGGATTTTCCATATGAAGATGGTATTGAAAAACAAATACAATCTCAAACGAATGATAAAGTAATAAAAGATCTTTTGACAGAATATCCAGATGTAACATTTACTCGTTTATTCACATCTGTAAGCCCGGAACAAATACAAAACCTTGAAGTGAAAGCACCTAATCATGTATCTACAAGTTTATTAAACTACTATATTCTTCAAAATCAAAATAGTGGGTATGAAGAAGAAATAGTAGATAAGTTAAAGGCATCTTCTTTAATAGAAGATGCGTATATGAAGAAACAAGAGAAAATAATGCCACCTGAAGTGCAATCATCAAGTGTAGCTCTTAATCCTAATAAAAATCCTAGATTTAAAAAACAAGGTTATCTTGAAGCAGCCCCATACGGTATTAATGCGCCTTTCGCCTGGGGAGTTCAAGGCGGTAATGGAAATGGTATCACTTTTGTTGATATGGAATACGGATGGCTATTAAATCATGAGGATTTATTACATCAAAATATTGAATTAATGTCTGGAAGAAATATAAATCAGCATGTCGGTCATGGGACGTCTGTACTAGGAATTGTATCCTCTGAGGACAATGAAGTCGGGAATATTGGGATTGCGCCAAAAGCGAAAGCAAAGGTTATCTCTCAAATAAGAGATAACGGACAGTATAATACGGCTGATGCAATATTAAGCGCTGTAAATCAGTTAGAAGCTGGGGATGTTTTATTGTTAGAGGCGCAAGCATCCTTTGATGGATATGGTGATAAATATTTACCTGTTGAAGTACAACCAGATATTTTTGATGCAATTCGTGCTGGTACAGATAAGGGAATTGTAATTATAGAGGCTGGAGCAAATGGGTGGAATGATTTAGATCAGTTCAAAGATAGAAAGGGTAAGCAAGTCTTAAATCGTAATAGTAAAGATTTTAAAGATTCGGGTGCAATTATAGTAGGAGCTGGCTCTTCATCTTTCCCTCATGAACGTATGTGGTTTTCGAATTATGGAAGCCGTATTGATGTGTACGGATGGGGAGAAAATGTAGATACAACTACAGCCGAGCAAAGTAGAAGTGCTGTAAATCTTTATACTTCAAGCTTTAGCGGAACATCTAGTGCTTCGCCAATTATTGCTGGGGCAGCGACTTTAGTACAAAGCATTGCTAAAGAAAATTTAGGACAACCATATAGACCTAGTGAACTAAGAGCAATATTAAGCAACCAGAGCACAGGAACAAAATCTAAAGATCCATATGCAGATAAAATTGGTGTTTTACCAGATTTGAAGTCTATACTAGTAAACTTAGGCTATGAACAAAGAAAACTAAACGGTGGGAATGAATTACAAGTAACAGAAAATGAACCAAATAATGAGCCTAGACAGGCAAATAAAGTTAACTTTCATACACCGGTGAAAGGAACGCTACATAATAGTGATAGAGTAGATGTATTTACTTTCCAAATTGACTCGCCGGAAAATATTAATATTTCTCTACTAAATGAACAAAATATCGGAATGACATGGGTACTTCATCATGAATCAGATTTAAATAACTATGTAGCATATGGTGAAAATGAAGGAAATGTAGTTAAAGGAACTTATAATGCAAAGCCAGGAAAATATTATTTATACGTCTATAAATATGAGAATAAAGATGGTTCATATGTATTGAACATAAAATAA	MKIFQKMYASTVIITTLLGTGGTINSVHADSIEQQSKLGIEQETDKQIIVKFKADLDFPYEDGIEKQIQSQTNDKVIKDLLTEYPDVTFTRLFTSVSPEQIQNLEVKAPNHVSTSLLNYYILQNQNSGYEEEIVDKLKASSLIEDAYMKKQEKIMPPEVQSSSVALNPNKNPRFKKQGYLEAAPYGINAPFAWGVQGGNGNGITFVDMEYGWLLNHEDLLHQNIELMSGRNINQHVGHGTSVLGIVSSEDNEVGNIGIAPKAKAKVISQIRDNGQYNTADAILSAVNQLEAGDVLLLEAQASFDGYGDKYLPVEVQPDIFDAIRAGTDKGIVIIEAGANGWNDLDQFKDRKGKQVLNRNSKDFKDSGAIIVGAGSSSFPHERMWFSNYGSRIDVYGWGENVDTTTAEQSRSAVNLYTSSFSGTSSASPIIAGAATLVQSIAKENLGQPYRPSELRAILSNQSTGTKSKDPYADKIGVLPDLKSILVNLGYEQRKLNGGNELQVTENEPNNEPRQANKVNFHTPVKGTLHNSDRVDVFTFQIDSPENINISLLNEQNIGMTWVLHHESDLNNYVAYGENEGNVVKGTYNAKPGKYYLYVYKYENKDGSYVLNIK				NA	NA	NA	NA	NA
AK009_03738	798			hypothetical protein	ATGAAATTACTAAAAATAAAACATATAATCCCTTTATCCGCGGCTGCAATTACATTCGTATGTAGTCAAAGTACAGCTGAAGCTTCTACCATTCATACAGTAAAAAAGAACGATACACTTTGGGGCATTAGTAAACAATACGGAGTTTCAATACAATCCATTAAACAGGCTAATAATAAAGGAAACGATAAAACCTTTATTGGCGAACAGTTACATATTCCAGGGTCCGTGAAATCAAATGAAATCACTGTTCCTCAAAACGCCAAGCCTGCGAGCATTTCTGGACAAATTATTTATCAAGTACAACCGGGGGATTCATTAGAAACGATAGCAAAGCGTTACAATGTCACCGTCCAATCTATAAAACAAATTAACAATACAGTCGGAAACAAGCTTTATACAGGACAACATTTAAAAATTAACTCAAGCATTTCACAAAAAGAAAAAGACTTAATGGCACGCTTAGTTACTGCTGAAGCAGGTGGCGAATCCTATAAAGGAAAAGTAGCAGTAGCAAAAGTTATACTAAATCGTGTAAATGCAAAAGGTTTTCCAAATACAATAACAGGTGTTATTTATGAACCTATTAAATACGGATATGCATTTACTCCTGTTACAGATGGCAGAATTAATCAGCCTGCAAGTGCAGAAGCAAAAATGGCTGTAGAAGAGGCTATCTCCACAAATGGAGTACATTCTGACTGGATTTATTTCTACAATCCAAAAACATCAACAGACAAGTGGATTACGACACGTCAAACAGTAGCAGTAATTGGTAACCATGTGTTTGCTAAATAA	MKLLKIKHIIPLSAAAITFVCSQSTAEASTIHTVKKNDTLWGISKQYGVSIQSIKQANNKGNDKTFIGEQLHIPGSVKSNEITVPQNAKPASISGQIIYQVQPGDSLETIAKRYNVTVQSIKQINNTVGNKLYTGQHLKINSSISQKEKDLMARLVTAEAGGESYKGKVAVAKVILNRVNAKGFPNTITGVIYEPIKYGYAFTPVTDGRINQPASAEAKMAVEEAISTNGVHSDWIYFYNPKTSTDKWITTRQTVAVIGNHVFAK				NA	NA	NA	NA	NA
AK009_03739	1338			hypothetical protein	ATGTATGATGTTACAATTATCGGCGCTGGAGTAAGTAGCATTTTTATGGCTTATTCACTAGCTAAAAGTAACAAAAAAGTTTTAATTCTTGATAAAGGTAAAGCGCTAGAAGATCGCCATTGTCCTTTAGACGAAGGAAAAGTGTGTAATTGTACTACATGTGATAAATATTTCGGGTTTGGTGGTTTAGGAAGATCTGAAGGGAAATTTAATTATACAAACGGATTTGGCGGAGAACTTGAGCAAAAAGTCGGTAAAGAGGGCTTTATACAGCTCATGGCTGAAGTAGATGAAATTCTATGTCAGTTTGGTGGAAGTTCTGTCTCAAAATATTGTACTGAAAATTCAAGTCTCACTAAAAGAGCTGAAGCGTGTGGTTTACAAATGCTAACAACAGAAGTAAGACATCTTGGTACTCCCCTTTCCAATAACATTTTTCAGCAGCTCTATGAATTTTTACTGACGAAAATAAAGATCAAATTTCAAATAGATGTACAACATATTCTGAAACAGGAAGATTATTTTACAATAGAGACAAATCAAGGAACAGTTCAAACTAAGCAACTAGTATTTGCAACTGGGCGTTCAGGGGCCGATTGGTTAAAAGAAATATGCAGTTCTCTAAGTATTTCTCAGGAGCAAACACGTGTAGATTTAGGAATTAGAGTAGAAATGAAAGAACATCAATTACGTTCTATATTAAAAGATACTTTTGAAACAAAACTTTCTTATCAAGGTGAGCATTTCACAGCAACTACTTACTGTATGAATCCAAAAGGACGCATCATTCGAAAGTACGAAGAAGGTTTAGTTATGCCTGACGGTCAAAATTTTCGAGAGCAAGGAACTGGCACTTCTAATTTAAACTTCACTTTATTTATTCCTCGCTATTTTCCAACTCTCAAAGAAGCAAATGTATACGCAAGTTCAATTATTAAAGGCATTAACCAAGGACGAGATCGGATTGTTATACAGCGCTTAGAGGACTTATTAAAGAAACAACCTACGGCGAAAAACAGCATGGAACATAATCGTATACAACCTACACTACAGGGGGATTATGGAGATTTGAATCAAGAAGTTCCTCAATTATATATTGAAGGGCTGAAAGAATTTTTATTACGTTTAGAACAATTTATACAAGAGCCTATTGATCAACATACTTTACTATATGGAATTGACGGAAAGTTCTATGCTCCTACGATAAAAATCAATAACTCTTTTGAAACAAGTGTGCATGGACTATTTTTAGTTGGAGATTGTTCCGGCGTCACTCATTCCTTATCTCAAGCTGCTGCAAGTGGTCTGTATGTTGGAAAGTACTTATCTGACATTTAA	MYDVTIIGAGVSSIFMAYSLAKSNKKVLILDKGKALEDRHCPLDEGKVCNCTTCDKYFGFGGLGRSEGKFNYTNGFGGELEQKVGKEGFIQLMAEVDEILCQFGGSSVSKYCTENSSLTKRAEACGLQMLTTEVRHLGTPLSNNIFQQLYEFLLTKIKIKFQIDVQHILKQEDYFTIETNQGTVQTKQLVFATGRSGADWLKEICSSLSISQEQTRVDLGIRVEMKEHQLRSILKDTFETKLSYQGEHFTATTYCMNPKGRIIRKYEEGLVMPDGQNFREQGTGTSNLNFTLFIPRYFPTLKEANVYASSIIKGINQGRDRIVIQRLEDLLKKQPTAKNSMEHNRIQPTLQGDYGDLNQEVPQLYIEGLKEFLLRLEQFIQEPIDQHTLLYGIDGKFYAPTIKINNSFETSVHGLFLVGDCSGVTHSLSQAAASGLYVGKYLSDI				NA	NA	NA	NA	NA
AK009_03740	1920	ltaS2	COG1368	Lipoteichoic acid synthase 2	ATGAAGAATAAAATAAATTTACAAATGCAAAATATAAGTTTTGTTATAATAATGGCTTTAGCAGTATGGTTAAAAACATATCTTATTACTCGATTCAGTTTTGATTTAAAAATTGAGTCTTCAACGCAAGAGCTTATTTTGTTTATTAGCCCTCTAGCCGCATCATTAGCATTTGTTGGATTAGCATTATTTGCAACTGGTGAAAAGCGAAATTATATAGCGCTATGTATTAATTTCTTATTAACGATCGTGCTTGTTGGAAATGTAATGTTCTATGATTTTTATAGTGATTTCGTTACATTACCAGTACTTGGACAAACCTCAAACTTTGGCCAATTAGGCGGCAGTATTATAGAGATATTAAACTACAAAATTATACTCGCATTCGTAGACATTGTTTTCTTCTTTATTTTATTAAAAAAGAAATCATTGGTCTTTAAAACAGAACGTGTAACTCATTCTACACGCTTGTTATACTTTCTTTTAACGATTGGTGTATTCTTTGCGAATCTACAGCTTGCAGAAAAAGAGCGCCCTGAATTATTAACGAGATCATTCGACCGGGTAATGCTTGTCAAAAATTTAGGCTTATATACTCACCAAGTATATGACTTAACACTGCAAGTAAAAGCTGGGTCACAAAAAGCACTTGCTGATAGTAGTAAATTACAAGAAACTGAAAACTACGTAAAAGCAAACCAAAGCGAGCCAAACCCTAATATGTTTGGTGCAGCGAAAGGAAAAAACGTAATTGTCGTCACTCTTGAATCCTTGCAGACCTTCTTAATAGGCGCATCAGTCAATGGGCAAGAAGTTACACCATTCCTAAATGAATTCATAAATGAAAGTTATTACTTTGATAACTTTTTCCATCAAACTGGTCAAGGGAAAACATCCGATTCTGAATTTCTAATCGATACGTCGTTGTATCCATTAAATCGAGGGGCTGTATTCTTCACACACGGTAACAATGATTATACTGCGACTCCAGAAATTTTACGTCAGCAAGGTTATTTCACTTCTGTATTCCATGCGAATAACGCAACATTTTGGAATCGTAATATTATGTACTCCGCTCTTGGTTATGATCGTTACTATAATGAGCTTGATTACAAAATTACGCCAGAAACAAATTTAAATTGGGGATTAAAAGATATCGAATACTTTGATCAATCAGTAGATATATTAAAAACTGTTGATCAACCATTCTATGCTCGTTTCCTTACTTTAACAAACCATTATCCATTCACGTATGATGAAGATACAAAATTCATTGAACCATACAACTCTGGTAATGGCGTATTCGATCGTTACATCGTAACTGCACGTTACTTAGACGAATCAATTAAAAAATTTATTGAGCGTTTAAAGGCCGAGGGAATGTATGATGATTCTATTATTGTGTTATACGGTGATCATTATGGCATTTCCGAAAAACATAATCGTGCAATGGCACAGTTTTTAGACAAAGATCAAATAACAGAATTTGATACTTTAAATTTACAACGTACACCTTTATATATTCATATTCCTGGACAAACAGAAGGTCAAAATATTTCAAAGCCTACGGGACAAATCGATATGAAACCTACTATTCTAAATTTATTAGGTGTTGGTTCTACGAATGATATCCGTTTTGGCCATGATATGTTTTCAGATGAATATACTGGCTTTGTTGTTTTACGCGATGGTAGCTTCGTTACAGATAAGTATGCATACAAAAACAACACTTTCTACGACCGTATAACAGGGGAAATTGTAGATTTACCAAAAAAAGAAGCTCAAGCCCTCATTAAACGTGCACAAAATGAATTACGAATGTCTGACAAAATTATTGAAGGCGATTTATTACGCTTCTCAGAAAGTAATAAAATTAAAACTGGCGAAGTACAAACTAAAATTAAAGAAACAGAAAAATAA	MKNKINLQMQNISFVIIMALAVWLKTYLITRFSFDLKIESSTQELILFISPLAASLAFVGLALFATGEKRNYIALCINFLLTIVLVGNVMFYDFYSDFVTLPVLGQTSNFGQLGGSIIEILNYKIILAFVDIVFFFILLKKKSLVFKTERVTHSTRLLYFLLTIGVFFANLQLAEKERPELLTRSFDRVMLVKNLGLYTHQVYDLTLQVKAGSQKALADSSKLQETENYVKANQSEPNPNMFGAAKGKNVIVVTLESLQTFLIGASVNGQEVTPFLNEFINESYYFDNFFHQTGQGKTSDSEFLIDTSLYPLNRGAVFFTHGNNDYTATPEILRQQGYFTSVFHANNATFWNRNIMYSALGYDRYYNELDYKITPETNLNWGLKDIEYFDQSVDILKTVDQPFYARFLTLTNHYPFTYDEDTKFIEPYNSGNGVFDRYIVTARYLDESIKKFIERLKAEGMYDDSIIVLYGDHYGISEKHNRAMAQFLDKDQITEFDTLNLQRTPLYIHIPGQTEGQNISKPTGQIDMKPTILNLLGVGSTNDIRFGHDMFSDEYTGFVVLRDGSFVTDKYAYKNNTFYDRITGEIVDLPKKEAQALIKRAQNELRMSDKIIEGDLLRFSESNKIKTGEVQTKIKETEK	PGPT0023375_918	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
AK009_03741	2784			hypothetical protein	ATGAGATTAGAAAAACAATTAATAAAAAAGATGTATTATGAAACATTCCTAATGGAGAATGAAACAAAACCAACTCTTGACGTACTTGGACAAGCTTATGTAAACGATGAAAAAAATGAGATTTCTGATGGGTCTTATATTCGTTTTGCACAAGGTGAATTTTATTATCGTCATCAAGATTTTGAAGCAGCTATTTTTAAATGGGAGAAGGTTAGTAATGAATTAGCACCATGGGCACAAAAAAATATTGCGGATGCTTATTTCGAACTTAATCAATTATCATATGCTGAAAATATTTATACTTCTATTACTACTGATAATAAAATATTGATGATTGAAATTAGACTACAATTACTTTCTCTTTACATTGAGCAAAATAATTTTGACTCAGCTTTCGGTGTTATTAAAGAAGCAGTTTCTTTAAATCCTGATTATCCGAATGTCACAAAAATTGCCCGTTCCTTTTATGAGGAACAGCAAGATTTTGATAGTGCAGTAGAGCTTGCTGTGAATGAGTTAATTCGAATAGAATCGTATCCGTGGTTTGAGGTATTAAAAGGATATATTGATAAAGGGTTTACTAAACATATTTCACCAGATTATTTTTATAATGCATTAGCTACATTAAATAATGTAGATCAAGTACAGTTTACGCAAATGGTTTCATCACTTTGGAACAGTTATAAAGATGAACAAAATTATTTATTATGGCTTAATACAATAAATGAATTTTTCTTACATATTGAAATACATTCGTCCGATATATGGAACAAAGTTTCTGCTTTTTACGAAGAAACTTACTTTGCATTAATTCAAGGTCAATATACGCTTAGACAATTAAACGATATCATACCCAATCTGTTAGCAAATTGGTTAAAAGTAGTTAATCCATCTTATGCTGTATTTCCATCTGCAGCTGTATTGGCATGGGATGAGATTTTCCCTTCCAAAATAGATTCAGCAAATATAGAGCATGCGGAAAACTTACTGTCACATTCTATTAATCATGTAAATGGCTTAGAGTACAGCTTACACCTTTTTGAATCTATTACAGAGTGGGCACAAAAGCACAATATAGAAATAGGTCACCGATTTAAATGGTTAGTTGACGAACTCGCAGATTTAAGAACAAATCGTATTTTAGTAACGGGAACTTCAGGAAATGGAAAAACTACATTTATTAACTCTATATTAGGAGAAAACATATTAGAAAAATCAATTTCAAATGTAGTAGTTTTAAAAAATGATGCTCATATAGAAATAAACGCTATAACAGACTCAGCAATTACAACAACGGAAGATGTCTCTGATTACCATAATATGATGTCTCAGCACCATCAAACATATAGAGATAGAGCGTGTGTTGAATTTAAATTACCATGCAGATTTTTAAATGAAAATAAACTTACATTTGTAGTGACACCTGGCTTTAATAGGAATAACGACACTAGAGATGAGATATTCGAATATTTAAATTCTGTAGACGAATTACTGTTCGTATTGAATGCGGATTCACCTTTTACTGACAAAGAACGTGACATTCTATTAAGTATTCAAGAACATACGCCAAATTTACAAATTCATTTCTTATTAAATAAAATCGATAACATTTACAGTGAAGCAGAAGTGAAAAGGGTATTACATGATACGGCAACGAGAATAAACACATATTTCCCGCATGCGAGAATTTTCCCTTATTCCTCGTTATATACAAGTAGTAAACAATTAAATGATTTAACTGAGTTTATTCATTTTAACTTTAATCATAAAAATATCGATGCAGAACGTACTGAAAAGTTATTATTTTTCATTCGAAAAACAATTACATATCTTTTGGATAAACGTGTTGAGAAAGAAAATAATCTAGTAGATGCTATTAATTGGAATGAAGATATGCTAGTGAAACTAAACGGTAGCATTAATAACCTTACTGCATTTGAGAGGGAAAAAATTCATTTCATTACACAATCATATCGTTCAATGAAGACTGAAATTACAAATGATCTTACTGAAAATATTCCGAAGATATTAAAGAGCTGTTCTAATTTAATTAGTGAAGAAAGTGATTTCGGGCACATGGATACGGAACTAAATAAAGCAATGAATGAAAAAGTGCATAAATATTTAGAACAAACTGTATTACCTAATCTCGCTCTTTCTATGCAAAATTGGATTGCAACTTCTAATAATGAGCTTCTTCAAAGTCAAACGTATTTAGAAGAACTTAGTGAAGGGCTTAATTCACTATTTGGAGAAAATAGAATACAGTTAGAATGTGATTTTAAAGTGCTTGATGACTGGCGCAGAGATACTGACAGGATGACGACTAGAATACAAATGGATGAAGTAAATATTTTACGTCGATTTACGCCAGCACAATTTTTGTTGAAAAGTGCCGGTAAATTATTTGGAGTTCTTCCTAAAAATAAATCTATACTATATAACAAATACAAACAGTATGTAGAAAATGAAGATTATACTGAAGTAACGGCTTCTATTATGAAGAAATTTTTCTTGCAATTTGAGCTGTTTGAAAACACACAAGAGCGAGATATTAATATATTCTTTAGGAATCCATTTAACTCCTTAAAGCAAGCTGTAGAAAACACGCATTTAGAAATACAAGAAAAACAAGAGATATTACATAAGATGAAATCAAATCCTGAAATCTATCATGATTCTATCATGCTCTTTGAATTGAGATTGCGTCAATGTGAAGTAATTTTAAATATAGGTGATGATAATACCTATACGGATGTAGCTTTAGAAACAAGCGTAGAATAA	MRLEKQLIKKMYYETFLMENETKPTLDVLGQAYVNDEKNEISDGSYIRFAQGEFYYRHQDFEAAIFKWEKVSNELAPWAQKNIADAYFELNQLSYAENIYTSITTDNKILMIEIRLQLLSLYIEQNNFDSAFGVIKEAVSLNPDYPNVTKIARSFYEEQQDFDSAVELAVNELIRIESYPWFEVLKGYIDKGFTKHISPDYFYNALATLNNVDQVQFTQMVSSLWNSYKDEQNYLLWLNTINEFFLHIEIHSSDIWNKVSAFYEETYFALIQGQYTLRQLNDIIPNLLANWLKVVNPSYAVFPSAAVLAWDEIFPSKIDSANIEHAENLLSHSINHVNGLEYSLHLFESITEWAQKHNIEIGHRFKWLVDELADLRTNRILVTGTSGNGKTTFINSILGENILEKSISNVVVLKNDAHIEINAITDSAITTTEDVSDYHNMMSQHHQTYRDRACVEFKLPCRFLNENKLTFVVTPGFNRNNDTRDEIFEYLNSVDELLFVLNADSPFTDKERDILLSIQEHTPNLQIHFLLNKIDNIYSEAEVKRVLHDTATRINTYFPHARIFPYSSLYTSSKQLNDLTEFIHFNFNHKNIDAERTEKLLFFIRKTITYLLDKRVEKENNLVDAINWNEDMLVKLNGSINNLTAFEREKIHFITQSYRSMKTEITNDLTENIPKILKSCSNLISEESDFGHMDTELNKAMNEKVHKYLEQTVLPNLALSMQNWIATSNNELLQSQTYLEELSEGLNSLFGENRIQLECDFKVLDDWRRDTDRMTTRIQMDEVNILRRFTPAQFLLKSAGKLFGVLPKNKSILYNKYKQYVENEDYTEVTASIMKKFFLQFELFENTQERDINIFFRNPFNSLKQAVENTHLEIQEKQEILHKMKSNPEIYHDSIMLFELRLRQCEVILNIGDDNTYTDVALETSVE				NA	NA	NA	NA	NA
AK009_03742	186			hypothetical protein	ATGTTTGAAGATAAATCTAAAATAAATTACCCATATGAATTTACTGAAACCACAACAGTTCCTCTAAAGAACCCCATTGATAAAAAATTCAAGAACGGCACAGGTACACATAACTTTCCAATTAAGAAACACTACAAAGAGCAAGTTCTATACACTGAAAAAATTAATAATAATAAAAATAAATAA	MFEDKSKINYPYEFTETTTVPLKNPIDKKFKNGTGTHNFPIKKHYKEQVLYTEKINNNKNK				NA	NA	NA	NA	NA
AK009_03743	1965	mutL	COG0323	DNA mismatch repair protein MutL	ATGGGGAAAATTCGCAAACTCGATGACCAACTCTCTAACTTAATTGCGGCAGGAGAAGTAGTAGAGCGTCCTGCTTCAGTCGTAAAAGAACTTGTGGAAAATTCTATCGATGCGAATAGTACATCTATTGAAATCCACTTAGAAGAAGCTGGTTTATCGAAAATTCGCATCATTGATAATGGAGATGGCATTGCAGAAGAAGATTGCATCGTAGCTTTTGAACGACATGCGACAAGTAAAATTAAAGATGAAAACGATCTGTTTCGCATCAGAACACTCGGTTTCCGTGGTGAGGCATTGCCGAGTATCGCCTCAGTTAGTGAATTAGAATTAATCACTAGCACAGGTGATGCACCTGGTACACACCTTATTATTAAAGGTGGAGACATTATAAAGCAAGAGAAAACCGCGAGCCGAAAAGGAACAGATATTACAGTACAAAACTTATTCTTTAATACACCAGCGCGTCTTAAATATATGAAAACCATTCATACAGAGCTTGGTAATATTACAGATATTGTGTATCGTATTGCAATGTCACATCCAGAAGTATCGTTAAAGCTGTTTCATAATGAAAAGAAATTGCTTCATACGTCAGGTAATGGTGATGTAAGACAAGTACTTGCATCGATTTACAGCATTCAAGTTGCGAAGAAACTTGTTCCGATTGAAGCTGAATCTTTAGATTTCACAATTACAGGCTATGTAACATTACCAGAAGTAACGAGAGCATCTCGAAATTATATGTCAACAATCGTAAATGGCCGTTACGTTCGAAACTTTGTATTAATGAAAGCAATTCAGCAAGGATATCATACATTACTGCCAGTCGGACGATATCCAATCGGATTTTTATCGATTGAAATGGATCCAATGCTTGTTGACGTTAACGTACATCCTGCAAAATTAGAAGTTCGTTTTAGTAAAGAACAAGAATTGCTAAAGCTTATCGAAGAAACATTGCAAGCTGCATTTAAAAAAATACAGCTCATTCCAGATGCAGGCGTAACAACGAAGAAAAAAGAAAAAGACGAGAGTGTGCAAGAACAGTTCCAGTTTGAGCATGCGAAGCCGAAAGAACCATCCATGCCGGACATTGTTTTACCAACTGGCATGGATGAAAAACAAGAAGAACCGCTGCCTGTGAAACAGCCAGCACAACTGTGGCAACCGCCGAAACAAGAATGGCAACCACCGAAACAAGAATGGCAACCACCACAGTCGCTCGTAAGAGAAGAACAAAGTTGGCAGCCATCTACTAGACCGATAATGGAAGAACCAATTCGAGAAGAAAAATCGTGGGACAGTAATGAAGAGGACTTTGAATTAGAGGAATTGGAAGAAGAAGTTCAGGAAATAAAAGAGATTGAAATGAACGGTAATGACTTACCGCCACTTTATCCAATTGGACAAATGCATGGAACATATATTTTCGCTCAAAATGATAAAGGCTTATATATGATTGACCAACATGCCGCGCAGGAACGTATTAATTATGAATACTTCCGTGATAAAGTAGGAAGGGTAGCGCAAGAAGTACAAGAACTGCTTGTACCGTACCGTATCGATTTATCTCTTACTGAATTTTTACGTGTTGAAGAGCAACTAGAAGAACTGAAAAAAGTCGGTCTATTCTTGGAGCAATTTGGCCATCAATCCTTTATCGTCCGCTCACATCCAACGTGGTTCCCGAAAGGACAAGAAACAGAAATTATCGATGAAATGATGGAGCAAGTTGTTAAACTAAAAAAAGTTGATATTAAAAAATTACGTGAAGAAGCAGCCATCATGATGAGCTGTAAAGCATCGATTAAAGCGAATCAATATTTAACGAACGATCAAATATTTGCTTTACTGGAAGAACTACGTACAACAACAAACCCGTATACATGCCCGCACGGAAGACCGATTCTTGTGCATCATTCTACTTATGAGTTGGAGAAGATGTTTAAGAGGGTTATGTAG	MGKIRKLDDQLSNLIAAGEVVERPASVVKELVENSIDANSTSIEIHLEEAGLSKIRIIDNGDGIAEEDCIVAFERHATSKIKDENDLFRIRTLGFRGEALPSIASVSELELITSTGDAPGTHLIIKGGDIIKQEKTASRKGTDITVQNLFFNTPARLKYMKTIHTELGNITDIVYRIAMSHPEVSLKLFHNEKKLLHTSGNGDVRQVLASIYSIQVAKKLVPIEAESLDFTITGYVTLPEVTRASRNYMSTIVNGRYVRNFVLMKAIQQGYHTLLPVGRYPIGFLSIEMDPMLVDVNVHPAKLEVRFSKEQELLKLIEETLQAAFKKIQLIPDAGVTTKKKEKDESVQEQFQFEHAKPKEPSMPDIVLPTGMDEKQEEPLPVKQPAQLWQPPKQEWQPPKQEWQPPQSLVREEQSWQPSTRPIMEEPIREEKSWDSNEEDFELEELEEEVQEIKEIEMNGNDLPPLYPIGQMHGTYIFAQNDKGLYMIDQHAAQERINYEYFRDKVGRVAQEVQELLVPYRIDLSLTEFLRVEEQLEELKKVGLFLEQFGHQSFIVRSHPTWFPKGQETEIIDEMMEQVVKLKKVDIKKLREEAAIMMSCKASIKANQYLTNDQIFALLEELRTTTNPYTCPHGRPILVHHSTYELEKMFKRVM				NA	NA	NA	NA	NA
AK009_03744	2679	mutS	COG0249	DNA mismatch repair protein MutS	ATGACGCAATATACCCCTATGATACAGCAATATTTAAAGGTTAAGGCAGACTATCAAGATGCCTTTTTATTTTTCCGATTAGGCGATTTTTATGAAATGTTCTTTGAAGATGCCGTTAAAGCAGCTCATGAACTTGAGATTACATTAACGAGCCGAGATGGTGGCAGTAGTGATCGTATACCGATGTGCGGTGTACCGCATCATGCAGCTAAAAACTATATTGAACAACTTGTTGAAAAAGGATATAAAGTTGCTGTTTGTGAGCAAGTGGAAGATCCAAAAACAGCTAAAGGTGTAGTGCGCCGTGAAGTAGTACAACTAATTACGCCAGGAACGATGATGGAAGGGCGTACAATTGATGAGAAAGAAAACAACTTCTTAGCCGCATTAACACATTTTGAAGATGGATCATATGCTTTAGCTTGTAATGATTTAACGACTGGACAAAATACAGTAACGTTATTGACTGGTTCAGTAGAAGATATTTTATTGGAAGTGTATGCAACTGGTTCGAAAGAAATTGTTGTAGATTCTTCATTTTCTAAAGATGAATTAAATAAATTAACTGAAACGTTAAAAATGACAATTTCATATGAAGATGCAACGGCAATTCCTGAAGGATTAGAACATCTTGTGAAAAATGTTTCGCAAGCAAAGTTAATTAAAGCAATTGGACGCTTATTTAACTATGTGATAAGAACGCAAAAACGTTCATTAGATCATTTACAACCTGTAGAAATTTATTATACGAATCAATTTATGAAAATTGATGTGCATTCAAAGCGAAATTTAGAGCTGACGGAAACACTTCGAACGAAAGAAAAAACAGGATCATTATTATGGCTATTGGATAAAACAAAAACAGCTATGGGTGGTCGTATGTTAAAACAGTGGATGGAACGTCCACTTATTCAGAAAGAAAAAGTTGAAGAGCGTTTAGAAATGGTTGAAACATTTGTAAATGATTACTTCTTACGTGAAGATTTAAAAGAAAAATTAAAAGAAGTATATGATTTAGAACGTTTAGCAGGAAAAGTTGCATTTGGTAATGTCAATGCACGGGACTTATTACAGTTAAGACGATCTTTACTTCAAGTACCAGCTATTTTAGAAGCGATTAGTTTGTTAGATAATGCTTATGCAGCAAGGTTAATTCAAAGCGCGGATCCATGTGAGAGCTTAACTGAATTACTAGGAAGAAGTATTCAAGAAAACCCACCGCTTTCTATTAAAGATGGAGATATTATTAAAGACGGTTATAATGACAAGCTTGATCAATATCGTTACGTTAGTAAAAACGGAAAAACGTGGATCGCTGAGCTTGAAAAACGAGAGCGTGATATTACAGGAGTTAAATCGTTAAAAATCGGGTACAACCGTATTTTCGGCTACTACATTGAAGTGACGAAGGCGAATCTTGCAGCACTTCCAGAAGGCCGCTACGAACGAAAACAAACGCTTGCTAATGCTGAACGTTTCATTACAGATGAACTGAAAGAAAAAGAAACGTTAATTTTAGAAGCAGAAGAAAAAATTGTACAACTAGAATACGATTTATTTACAGCGCTTCGTGAAGAAGTAAAAGTATTTATTCCGAAATTACAACATTTAGCAAAAGTAATTAGTGAATTAGACGTACTGCAAAGTTTTGCGACAGTTAGTGAAGAAGAACAGTTTGTAAAACCTGTACTAACAACGAAGCGTGAAATCTTTATTAAAGATGGTCGTCATCCTGTCGTTGAAAAAGTATTGAACGGGAAATTGTATGTACCGAATGATTGTATTATGCCAGAGAAGATGGATGTCTTTTTAATTACAGGACCGAACATGTCTGGTAAAAGTACGTATATGAGACAGTTAGCACTTGTAACGGTTATGTCACAAATTGGTTGTTTCGTACCAGCGACAGAAGCAGTATTACCTGTATTTGACCAAATCTTTACGAGAATTGGTGCAGCAGATGATTTGATTTCAGGTCAAAGTACATTTATGGTCGAAATGTTAGAAGCGAAAAATGCAATTGCAAACGCATCAGAAAGAAGTTTAATTTTATTTGATGAAATTGGACGAGGTACATCTACGTATGATGGCATGGCACTTGCACAGGCAATCATTGAACATATTCATGACCAAATTGGGGCAAAAACGTTATTTTCTACACATTATCATGAATTGACTGTGTTAGAAGAGAGTTTAGATCAACTGAAAAATGTACACGTTTCAGCAATTGAAGAGAATGGTAAAGTAGTATTCCTTCATAAAATTCAAGATGGAGCAGCAGATAAAAGTTACGGAATCCACGTTGCGCAACTTGCAGAGCTTCCAGATAGCTTAATTGCCCGTGCGAAAGAAGTGTTAGCACAACTAGAAGGACAAGAAGAAATTATTATTCCAAAGCGTGTAGAAGTGAAAGTGCAGGAGCAAGAAGTTATTCCAGAACCTGTAGTTGTAAAAGAAGAGCCAGTAGAAGTACTAGAGGCGAAAGTAGAGACTGAGGAAGAATCACAACTATCTTTCTTTGGAGGAGAACAGTCTTCGAAGAAACAAGACAAGCTTGCGTTAGATCAAAAAGAAACAGCAGTACTGGCGCAAATTAAAAAAATTGATTTACTTGATATGACGCCTTTAGAAGCGATGAACGAACTGTATCGCTTACAGAAAAAGTTAAAGAAAGGATGA	MTQYTPMIQQYLKVKADYQDAFLFFRLGDFYEMFFEDAVKAAHELEITLTSRDGGSSDRIPMCGVPHHAAKNYIEQLVEKGYKVAVCEQVEDPKTAKGVVRREVVQLITPGTMMEGRTIDEKENNFLAALTHFEDGSYALACNDLTTGQNTVTLLTGSVEDILLEVYATGSKEIVVDSSFSKDELNKLTETLKMTISYEDATAIPEGLEHLVKNVSQAKLIKAIGRLFNYVIRTQKRSLDHLQPVEIYYTNQFMKIDVHSKRNLELTETLRTKEKTGSLLWLLDKTKTAMGGRMLKQWMERPLIQKEKVEERLEMVETFVNDYFLREDLKEKLKEVYDLERLAGKVAFGNVNARDLLQLRRSLLQVPAILEAISLLDNAYAARLIQSADPCESLTELLGRSIQENPPLSIKDGDIIKDGYNDKLDQYRYVSKNGKTWIAELEKRERDITGVKSLKIGYNRIFGYYIEVTKANLAALPEGRYERKQTLANAERFITDELKEKETLILEAEEKIVQLEYDLFTALREEVKVFIPKLQHLAKVISELDVLQSFATVSEEEQFVKPVLTTKREIFIKDGRHPVVEKVLNGKLYVPNDCIMPEKMDVFLITGPNMSGKSTYMRQLALVTVMSQIGCFVPATEAVLPVFDQIFTRIGAADDLISGQSTFMVEMLEAKNAIANASERSLILFDEIGRGTSTYDGMALAQAIIEHIHDQIGAKTLFSTHYHELTVLEESLDQLKNVHVSAIEENGKVVFLHKIQDGAADKSYGIHVAQLAELPDSLIARAKEVLAQLEGQEEIIIPKRVEVKVQEQEVIPEPVVVKEEPVEVLEAKVETEEESQLSFFGGEQSSKKQDKLALDQKETAVLAQIKKIDLLDMTPLEAMNELYRLQKKLKKG				NA	NA	NA	NA	NA
AK009_03745	543	cotE		Spore coat protein E	ATGTCCGAATTTAGAGAGATTATTACAAAAGCAGTGGTTGGAAAAGGACGTAAGTATACAAAGTCAACGCATACATGTGAATCGAATAATGAACCAACAAGTATTTTAGGGTGCTGGGTAATTAACCACTCGTACGAAGCAAGAAAGAATGGGAAGCATGTGGAAATTGAAGGTTTCTATGATGTGAACACTTGGTATTCATTTGATGGAAATACAAAGACTGAAGTTGTAACAGAACGCGTGAACTACACGGACGAAGTAAGCATTGGTTATCGTGATAAAAACTTTTCTGGTGACGATTTAGAAATTATTGCTCGTGTTATTCAGCCACCAAATTGTTTAGAAGCGCTTGTATCACCAAACGGTAATAAAATTGTTGTAACTGTAGAACGTGAATTTGTAACAGAAGTAGTTGGAGAAACGAAAATTTGTGTAAGTGTAAATCCTGAAGGCTGCGTAGAATCAGATGATGATTTCCAAATTGCTGATGATGAATTTGAAGAATTAGATCCGAACTTTATCGTTGATGCAGAAGAAGAGTAA	MSEFREIITKAVVGKGRKYTKSTHTCESNNEPTSILGCWVINHSYEARKNGKHVEIEGFYDVNTWYSFDGNTKTEVVTERVNYTDEVSIGYRDKNFSGDDLEIIARVIQPPNCLEALVSPNGNKIVVTVEREFVTEVVGETKICVSVNPEGCVESDDDFQIADDEFEELDPNFIVDAEEE	PGPT0025155_160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025155-cotE-K06328	NA	NA
AK009_03746	432	ymcA	COG4550	putative protein YmcA	ATGAAAGTATATTCGAAAGATGACATTGTTGAACAAGCAAAAGAATTAGCAAAAATGATTTCTGAAACAGAAGAAGTTGATTTTTTTAAGAAAGCAGAGGCGCAAATTCATAAAAATGAAAATGTAAAGCGCGCAATCGATGAAATTAAAGCACTGCAAAAACAAGCAGTAAACTTGCAGCATTACGGGAAGTGGGAAGCTTTAAAAAAGGTAGAAGCTGAAATTGATGCATTGCAAGATAAGTTAGACAGTATTCCAGTCGTACAAGAATTTAAATCTTCACAAACATATGTAAATGACTTATTACAGTTAGTTGCTAGTACAATTTCTAACAACGTAACAGATGAAATATTAATTTCAACTGGTGGCGATGTACTTAAGGGTGAAACTGGCGCAGCGGTAGAAAGTAAAAAAGGAAATTGTGGTTGTTAA	MKVYSKDDIVEQAKELAKMISETEEVDFFKKAEAQIHKNENVKRAIDEIKALQKQAVNLQHYGKWEALKKVEAEIDALQDKLDSIPVVQEFKSSQTYVNDLLQLVASTISNNVTDEILISTGGDVLKGETGAAVESKKGNCGC	PGPT0026336_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
AK009_03747	1530	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGAACGAGCAACAACGATTAGCAAGTCAACAAGCAAATTCCTCTACGAAAAAAGAAGAGAAAGATTATAGTAAATACTTTGAAAGTGTATATCAACCACCTTCCTTAAAGGATGCGAAAAAGCGAGGGAAAGAAGAAGTTAAAATTGAACGGGATTTTGGCTTACCTGAAGAGTTTCGCAATTTTGGTACAGGAAGAAAGTTCTATATTCGTACATATGGTTGTCAAATGAATGAGCATGATACGGAAGTAATGGCAGGTATTTTCACAACGCTTGGATATGAACCAACTTTTTCGACTGAGGATGCAGATGTAGTTTTATTAAATACTTGTGCAATTCGTGAAAATGCTGAAAATAAAGTGTTTGGTGAACTAGGCCATTTAAAGTCACTAAAGCGAAGAAATCCGGACCTTTTAATTGGTGTATGTGGTTGTATGTCTCAAGAAGAATCTGTTGTAAATAAAATTATGCAAAAAAATCAGCATGTAGATATGGTATTTGGAACGCATAATATTCATAGATTACCGTACATTCTAAAAGATGCGATGTTCTCGAAAGAGACGGTAGTTGAAGTATGGTCAAAGGAAGGCGACGTAATTGAAAACCTTCCGAAAGTACGTCGTGGTGATATTAAAGCTTGGGTAAATATTATGTATGGCTGTGATAAGTTCTGTACGTATTGTATTGTACCGTATACGCGCGGAAAAGAGCGGAGCAGACGTCCAGAAGATATTATCCAAGAGATTCGTCATTTAGCTGCGAATGGTTATAAAGAAATTACATTACTTGGACAGAACGTAAATGCATATGGTAAAGACTTTGAAGATGTAGAATACGGTCTTGGTGATTTAATGGACGAACTTCGTAAAGTTGATATTGCCCGTATTCGTTTTACAACGAGCCATCCACGTGATTTCGATGATCACTTAATTGAAGTGCTTGGCAAAGGTGGCAACTTAGTAGAACATATCCATTTACCAGTTCAATCTGGAAGTACAGATATGCTGAAAATTATGGCGCGTAAATATTCACGTGAGCATTATTTAGAACTTGTAAGAAAAATTAAAGAAGCAATTCCAGATGCAGTATTAACAACAGATATTATCGTTGGTTTCCCAAATGAAACAGATGAGCAATTTGAAGAAACGATGTCGTTATATCGTGAAGTAGGATTTGATACTGCCTTTACATTTATTTATTCTCCTCGCGAAGGTACACCAGCTGCAAAAATGAAAGATAATGTACCTATGGAAGTGAAGAAAGAACGTCTTCAACGCTTAAATACACTAGTAAATACGTTGGCAATTGAAAAGAATAGTCGTTACAAAGGTCAAATTGTAGAAGTGTTAGTTGATGGGGAAAGTAAAAATAATCCGGAAGTACTTGCAGGTTATACTCGCACGAATAAACTTGTAAACTTCGTCGCTTCAAAATCTTTAATTGGTCAGCTTGTGAAAGTAAAAGTAACGGAAGCAAAAACTTGGTCTCTTAACGGGGAATTAGTTGAAGAGCCGATTGAGGTGAAATAA	MNEQQRLASQQANSSTKKEEKDYSKYFESVYQPPSLKDAKKRGKEEVKIERDFGLPEEFRNFGTGRKFYIRTYGCQMNEHDTEVMAGIFTTLGYEPTFSTEDADVVLLNTCAIRENAENKVFGELGHLKSLKRRNPDLLIGVCGCMSQEESVVNKIMQKNQHVDMVFGTHNIHRLPYILKDAMFSKETVVEVWSKEGDVIENLPKVRRGDIKAWVNIMYGCDKFCTYCIVPYTRGKERSRRPEDIIQEIRHLAANGYKEITLLGQNVNAYGKDFEDVEYGLGDLMDELRKVDIARIRFTTSHPRDFDDHLIEVLGKGGNLVEHIHLPVQSGSTDMLKIMARKYSREHYLELVRKIKEAIPDAVLTTDIIVGFPNETDEQFEETMSLYREVGFDTAFTFIYSPREGTPAAKMKDNVPMEVKKERLQRLNTLVNTLAIEKNSRYKGQIVEVLVDGESKNNPEVLAGYTRTNKLVNFVASKSLIGQLVKVKVTEAKTWSLNGELVEEPIEVK	PGPT0007215_594	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
AK009_03748	867			hypothetical protein	ATGGCAACATTTAAGGACTTTCGTAACAGTGTAAAGCCAAACTGGTGCCCAGGTTGCGGAGACTTCTCAGTGCAAGCTGCAATTCAACGTGCGGCAGCTAACGTTGGTTTAAATCCAGATGAACTTGCTGTTATTTCTGGTATTGGCTGTTCAGGCCGTATTTCAGGTTATATTAATTCATATGGTGTGCATAGTATTCATGGTCGTGCCCTTCCGATTGCACAAGGTGTAAAAATGGCAAATCGTGATTTAACAGTCATCGCTTCAGGTGGTGATGGTGATGGATTTGCGATTGGTATGGGACATACAATCCATTCTATTCGTCGTAATATCGATATTACGTACATCGTAATGGATAACCAAATTTACGGGTTAACAAAAGGGCAAACTTCACCACGTAGTGAAGCTGGATTTAAAACGAAAAGCACACCGCAAGGTTCAATTGAACCATCACTAAATGTAATGGAAATGGCTTTAACAGCTGGTGCGACATTTGTGGCGCAAAGCTTTTCGAGTGATTTAAAAGAATTAACACAAATTATTGAAGCTGGTATTAACCATAAAGGATTTTCATTAATTAACGTATTTAGCCCATGTGTTACTTACAATAAAGTAAATACCTACGATTGGTTTAAAGAGAATTTAACGAAACTAAGCACAGTAGAGGGATATGATCCATCTAATCGCATGATGGCTATGCAAACTTTAATGGAAAATAACGGTTTAGTAACAGGTTTAATTTATCAAAATACTAAGCAACCATCATATCAAGAACTTGTTAAAGGCTATAGTGAAGAGCCTTTAGTGAAATCTGATTTAAATATGGATCAGAAAATGTTTGATGAGCTTGTTGCTGAATTTATGTAA	MATFKDFRNSVKPNWCPGCGDFSVQAAIQRAAANVGLNPDELAVISGIGCSGRISGYINSYGVHSIHGRALPIAQGVKMANRDLTVIASGGDGDGFAIGMGHTIHSIRRNIDITYIVMDNQIYGLTKGQTSPRSEAGFKTKSTPQGSIEPSLNVMEMALTAGATFVAQSFSSDLKELTQIIEAGINHKGFSLINVFSPCVTYNKVNTYDWFKENLTKLSTVEGYDPSNRMMAMQTLMENNGLVTGLIYQNTKQPSYQELVKGYSEEPLVKSDLNMDQKMFDELVAEFM	PGPT0001180_1094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001180-korB|oorB|oforB-K00175	NA	NA
AK009_03749	1758	korA	COG0674	2-oxoglutarate oxidoreductase subunit KorA	ATGATTAGTCAACTTTCATGGAAAGTTGGAGGCCAACAAGGTGAAGGAATTGAAAGTACAGGAGAAATCTTCTGTATTGCATTAAACCGATTAGGATATTACCTATACGGTTACCGCCACTTCTCATCACGTATAAAAGGCGGCCATACAAATAATAAAATTCGTGTAAGTACAACAGAAGTACGAGCGATCTCAGATGATTTAGATATTTTAATTGCTTTTGACCAAGAAACAATTGATTTTAACTTCCACGAACTACGTCCAGGTGGAATTGTAGTTGCGGATGCGAAATTTAATCCAACAATACCTGATAATACAGATGTAAATCTATATGTGATACCGTTTACAGATATTGCTTCAGAATTAGGCACATCATTAATGAAAAACATGGTTGCTGTTGGAGCATCAAGTGCAGTATTAGGATTAGACGAAACAGCTTATTTAGATGTTGTTGAAGAAATCTTTGGTCGTAAAGGAGAGCAAGTCGTTCAAAAGAATATGGACGCAATTAAACGCGGCTCTCAATATATGAAAGAATTACTAGGTGAGAAAGTAAACATGATGCAGCTTGAAAAAGCTGATGGTAAAAAACGCATGTTTATGATTGGAAACGACGCAATCGCATTTGGTGCGGTAGCTGGTGGTGCTCGTTTTATGTCAGCATACCCAATCACACCTGCATCAGAAATTATGGAATACTTAATTAAAAAATTACCGAAAGTCGGCGGAACAGTAATCCAAACTGAGGATGAAATCGCAGCTTGTACAATGGCAATCGGTGCAAACTATGCTGGTGTTCGTACATTAACTGCATCTGCTGGTCCTGGTCTTTCATTAATGATGGAAGCAATCGGTTTAGCAGGTATTACAGAAACTCCATTAGTAATTGTTGATACACAACGTGGTGGTCCAAGTACGGGATTACCAACGAAACAAGAACAGTCTGACTTAATGGCGATGATTTACGGTACGCATGGTGAAATTCCAAAAATCGTAATGGCGCCAAGTACAGTTGAAGAAGCTTTCTATGACATTGTAGAAGCATTTAACTTATCTGAAGAATATCAAGTTCCTGTTATTTTCTTAACAGATTTACAGCTTTCGTTAGGAAAACAAACAGTAGAACCACTTAAATTAGATAAAGTGGAAATTCGTCGTGGTAAGCTTGATTTAGAAGCGGAATTACCAGAACGTGAAAATAAAGCATACTTCAAGCGTTATGAAGTAACTGAAGACGGCGTTTCACCGCGTGTTTTACCTGGTATGAAAAATGGTGTTCACCATGTTACAGGTGTAGAACATGATGAAACTGGAAAACCATCGGAATCAGCAATAAACCGTAAAGATCAAATGGACAAACGTTTCCGTAAAATGGAAAACTTGAAGTTTAATACCCCTGTTTATAAAAATGTTAAGCATGAAGAAGCAGACGTATTGCTTGTTGGATTTAACTCAACTCGTGGTGCGATCGAAGAGGCAATGACGCGTTTAGAACAAGAGGGTATGAAAGTAAACCATGCTCATGTACGTTTAATTCACCCGTTCCCAACAGCTGAAATCGATCCACTTGTGAAAAAGGCGAAGCGTGTTGTAGTAGTAGAAAACAATGCAACAGGTCAGCTTGCTAACATTATGAAAATGAATCTTGGTAATGGTGAGAAAATTTCTAGTCTTTTAAAATATGATGGAAACCCATTCTTGCCGAAAGAGATTTACAACGAATGCAAAAAAGGGGTTGTATTAAATGGCAACATTTAA	MISQLSWKVGGQQGEGIESTGEIFCIALNRLGYYLYGYRHFSSRIKGGHTNNKIRVSTTEVRAISDDLDILIAFDQETIDFNFHELRPGGIVVADAKFNPTIPDNTDVNLYVIPFTDIASELGTSLMKNMVAVGASSAVLGLDETAYLDVVEEIFGRKGEQVVQKNMDAIKRGSQYMKELLGEKVNMMQLEKADGKKRMFMIGNDAIAFGAVAGGARFMSAYPITPASEIMEYLIKKLPKVGGTVIQTEDEIAACTMAIGANYAGVRTLTASAGPGLSLMMEAIGLAGITETPLVIVDTQRGGPSTGLPTKQEQSDLMAMIYGTHGEIPKIVMAPSTVEEAFYDIVEAFNLSEEYQVPVIFLTDLQLSLGKQTVEPLKLDKVEIRRGKLDLEAELPERENKAYFKRYEVTEDGVSPRVLPGMKNGVHHVTGVEHDETGKPSESAINRKDQMDKRFRKMENLKFNTPVYKNVKHEEADVLLVGFNSTRGAIEEAMTRLEQEGMKVNHAHVRLIHPFPTAEIDPLVKKAKRVVVVENNATGQLANIMKMNLGNGEKISSLLKYDGNPFLPKEIYNECKKGVVLNGNI	PGPT0001175_1040	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001175-korA|oorA|oforA-K00174	NA	NA
AK009_03750	924			hypothetical protein	ATGAAAATTTTTGATGCTCATTGTGATGTGCTCTTTCAGTTATGGAGTGCAAAGGGAAAAAAGAATTTTAAAAACGATCCGCAATTACATATTACATTTCAACAGTTAAAGGAAAGACAAGGAAGTATACAATGTTTTGCAATATATGTGCCAGAAACAGTGACGTATGAAAAACGATTTGAAGCGGCATTACAAATGATAGATATTTTTTATAATGAAATTCTATCGCTACCAGGTGTGAGATTTATCCGAACGAAAGAGGATATAAATAGATTAAAACAAGACGAGGTTGGCGCGCTATTAACGTTAGAAGGGTGCGAAGCAATTGGCAAAGAAGCGATGAAATTACGTTTGTTTTATCGGTTAGGTGTACGTTCTTTCGGATTAACATGGAACTATGCGAATTTGTTAGCTGATGGGGCGCTAGAGACGCGTGGAGCAGGTTTAACTACTGTTGGTAGACAAGTTGTACAAGAGTTGAATACTTTGCAATTATGGACGGATCTATCACATTTAAATGAGAGAAGTTTTTGGGATGTGATAGAAATTGCAAATAACCCAATTGCATCCCACTCAAATTGTTATAAACTGTGTGAGCATCCACGCAATTTAAATGACGAACAAATTAAAGCGCTTATACAGAGAAATAGCATAATCGGTGTTACTTTTGTACCGCAGTTTCTAACAAGTGAAAGACAAGCAAATATAACAGATATAGTAAAACATATCGAATATATTTGCTCGCTAGGTGGAGAAAACAATATAGGGTTTGGTTCAGATTTTGATGGGATTGTAGATACGGTTGTCAATGTATCTGCCTACCGAGATTATGAAAATGTCATGAATGAGCTTTATAAATACTATGCTGCATCTACTGTAGAAAGATTTTTATATGATAATTTTGTTGAACATATGAGTTTTTAA	MKIFDAHCDVLFQLWSAKGKKNFKNDPQLHITFQQLKERQGSIQCFAIYVPETVTYEKRFEAALQMIDIFYNEILSLPGVRFIRTKEDINRLKQDEVGALLTLEGCEAIGKEAMKLRLFYRLGVRSFGLTWNYANLLADGALETRGAGLTTVGRQVVQELNTLQLWTDLSHLNERSFWDVIEIANNPIASHSNCYKLCEHPRNLNDEQIKALIQRNSIIGVTFVPQFLTSERQANITDIVKHIEYICSLGGENNIGFGSDFDGIVDTVVNVSAYRDYENVMNELYKYYAASTVERFLYDNFVEHMSF	PGPT0020950_3740	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
AK009_03751	261	spoVS_2	COG2359	Stage V sporulation protein S	ATGGAAATATTAAAAGTTAAAGCAACGTCGGTCCCTAATTCTGTAGCTGGTGCACTTGCAGGTGTTATTCGCGAACGCGGAACAGCAGAAATTCAAGCTATTGGTGCAGGTGCATTAAACCAAGCGGTAAAGGCAGTAGCAATTGCAAGAGGGTTTGTAGCGCCTAGTGGTTTGGACCTAATTTGTATCCCAGCGTTTACAGATATTATGATTGATGGCGAAGAGCGTACAGCAATAAAATTAATTGTAGAACCTCGTTAA	MEILKVKATSVPNSVAGALAGVIRERGTAEIQAIGAGALNQAVKAVAIARGFVAPSGLDLICIPAFTDIMIDGEERTAIKLIVEPR	PGPT0024850_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416	NA	NA
AK009_03752	795	ymdB	COG1692	2',3'-cyclic-nucleotide 2'-phosphodiesterase	ATGAGAATATTATTTGTTGGGGATGTAGTAGGATCTCCTGGTAGAGGTATGATTCAACAGTACGTACCGGCATTAAAGAAAAAATATACACCTACAGTAACAATCATTAATGGAGAAAATGCAGCAGGTGGCCGTGGGATTACAGAAAAAATATATCGAAACTTTTTAGAGTGTGGGGCACAAGCAGTTACACTTGGAAACCATGCTTGGGATAATCGTGAAGTATTTGAATTCATCGATGATGCAAAATATCTTGCAAGACCAGCTAACTTCCCAGAAGGAACTCCAGGAAAAGGACTTATCTTTGTGAACTGTAATGGAACAGAAGTTGCAGTTATTAACTTACAGGGGCGTACTTTCCTTCCTCCGATTGATTGTCCATTCCGTAAAGTGGATGAATTAATTAATATTGCGAAAAAACGTACGAATATTATCTTTATTGATTTCCATGCGGAGACTACAAGTGAAAAACAAGCGCTAGGTTGGTATGTAGATGGACGTGCTACAGCAGTAGTAGGTACGCATACGCATGTCCCTACAGCGGATAACCGTATTTTACCAAGCGGAACGGCATATATTACAGATGTTGGGATGACAGGGCCATATGATGGAATTTTAGGTATGGACCGAGAAGCAGTATTGAAGAAGTTTTTAACGAACTTACCGGTACGATTTGAAGTAACAAGTGGTAGAACGCAATTAAGTGCAGTGTTAATTGATGTGGATCCAAATACAGGAAAAGCAAAGAAAATTGAGCGCATTTTAATTAATGACGATCAACCATTTTTTGAGTAA	MRILFVGDVVGSPGRGMIQQYVPALKKKYTPTVTIINGENAAGGRGITEKIYRNFLECGAQAVTLGNHAWDNREVFEFIDDAKYLARPANFPEGTPGKGLIFVNCNGTEVAVINLQGRTFLPPIDCPFRKVDELINIAKKRTNIIFIDFHAETTSEKQALGWYVDGRATAVVGTHTHVPTADNRILPSGTAYITDVGMTGPYDGILGMDREAVLKKFLTNLPVRFEVTSGRTQLSAVLIDVDPNTGKAKKIERILINDDQPFFE	PGPT0021405_1014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769	NA	NA
AK009_03753	1566	rny	COG1418	Ribonuclease Y	ATGAGTAGTACAGTTTGGATACTCATCTCCATTTTGCTTGCAACAACAGTCGGTGCAGTTGTTGGCTTTTTTGTTCGAAAGTCTATTGCTGAAGCGAAGATTAATGGTGCGGCTAATGAAGCGAAACGTATTTTAGACGAAGCGAATCGTGAGGCTGAAGCACTTAAGAAAGAAGCGCTTTTAGAAGCAAAGGATGAAATTCATACACTTCGTACAGAAGCTGAATTAGAAATTCGTGACCGTAGAAGCGAATTACAAAAACAAGAAAATCGTTTAATGCAAAAAGAAGAGAACCTTGATCGTAAAGACGAAACGCTCGATAAACGCGAGCAGCAGTTAGAGAAGAAAGAGGAATCTCTTGTAGCGAGACAACAACAGATTGAAGAGTTGGAAAGCAAAGTGGGAGAGTTAGTTCAAAAGCAACAAACAGAATTAGAGCGCATTTCCAATCTGACACGCGAACAAGCGAAAGCAATTATTCTTGGTAAAGTAGAAAATGAAGTTTCTCATGAAATCGCTGTTATGGTAAAAGAAAGTGAAGTTCGCGCGAAAGAAGAAGCGGATAAGAAAGCAAAAGAGATTTTATCTCTTGCAATGCAAAGATGTGCAGCTGATCATGTTGCTGAAACAACCGTTTCGGTTGTAAATCTTCCAAATGACGAAATGAAGGGACGTATTATCGGGCGTGAAGGTCGTAATATTCGTACGTTAGAAACGTTAACGGGTATTGACTTAATTATCGATGATACACCAGAGGCGGTAATTCTTTCTGGATTCGATCCAATTCGTCGTGAAACAGCTCGTATCGCTCTTGATAAACTAGTACAGGACGGACGTATTCACCCAGCGCGTATTGAAGAGATGGTCGAAAAATCAAGACGTGAAGTGGACGAGTATATTCGCGAAGTCGGAGAGCAAACAACGTTTGAAGTGGGTGTTCACGGATTACACCCAGATTTAATTAAAATTTTAGGTCGTTTAAAATACCGTACAAGTTATGGACAAAACGTCTTAAAACACTCTATGGAAGTTGCATATTTAACTGGACTTATGGCAGCAGAGCTTGGTGAGGATGAAAAACTAGCAAGACGTGCTGGTCTATTACATGATATCGGAAAAGCGATTGACCATGAAGTAGAAGGTAGCCACGTTGAAATTGGTGTTGAACTCGCAACGAAATATAAAGAGCATCCTGTAGTTATAAACAGTATCGCATCTCACCATGGTGACACAGAACCAACTTCTATCATTGCAGTTTTAGTTGCAGCAGCAGATGCTTTATCAGCTGCAAGACCGGGAGCTCGTAGTGAAACGCTTGAAAACTACATTCGTCGTCTTGAAAAGTTAGAAGAGATTTCAGAGTCTTATGAAGGCGTTGAAAAATCATTTGCAATTCAAGCAGGACGTGAAGTTCGTATTTTGGTAAAACCAGATACAATCGATGACTTAGAAGCTCATCGTTTAGCTCGTGATATCCGAAAACGTATTGAAAATGAACTGGATTACCCAGGACATATTAAAGTAACTGTTATTCGTGAAACACGTGCAGTGGAATACGCAAAATAA	MSSTVWILISILLATTVGAVVGFFVRKSIAEAKINGAANEAKRILDEANREAEALKKEALLEAKDEIHTLRTEAELEIRDRRSELQKQENRLMQKEENLDRKDETLDKREQQLEKKEESLVARQQQIEELESKVGELVQKQQTELERISNLTREQAKAIILGKVENEVSHEIAVMVKESEVRAKEEADKKAKEILSLAMQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARIALDKLVQDGRIHPARIEEMVEKSRREVDEYIREVGEQTTFEVGVHGLHPDLIKILGRLKYRTSYGQNVLKHSMEVAYLTGLMAAELGEDEKLARRAGLLHDIGKAIDHEVEGSHVEIGVELATKYKEHPVVINSIASHHGDTEPTSIIAVLVAAADALSAARPGARSETLENYIRRLEKLEEISESYEGVEKSFAIQAGREVRILVKPDTIDDLEAHRLARDIRKRIENELDYPGHIKVTVIRETRAVEYAK				NA	NA	NA	NA	NA
AK009_03754	201			hypothetical protein	ATGGTATTTACTAAGGTTTTCCAGGATAGTATGCTATCAATTTTTCAAATTCAGATAACATTAAGGACTGAAGGTAAAGAAAGTAAAAGTAGACAACGCTTGACAATGAAAATTACGATAGATACAATGAGAATGTATATTTTTTCTTATATACGATATACTCTTCTCAAGAAGAGAAGTAATATTCGGAGTAAGGTTTAA	MVFTKVFQDSMLSIFQIQITLRTEGKESKSRQRLTMKITIDTMRMYIFSYIRYTLLKKRSNIRSKV				NA	NA	NA	NA	NA
AK009_03755	1032	recA_1	COG0468	Protein RecA	ATGAGTGATCGTCAAGCGGCATTAGATATGGCGTTAAAACAAATAGAGAAGCAATTTGGTAAAGGTTCAATTATGAAATTAGGAGAACAAGCGGAACGTAGAATTTCTACAATTTCAAGTGGTTCTTTAGCACTTGATGTGGCATTAGGGGTAGGCGGATACCCACGTGGCCGTATTATCGAAATTTACGGACCTGAAAGTTCAGGTAAAACGACAGTTTCATTACATGCAATTGCAGAAGTACAACGTCAAGGTGGACAAGCAGCATTCATCGATGCGGAGCACGCAATGGATCCTGTATATGCACAAAAATTAGGCGTTAACATAGATGAATTACTATTATCACAGCCTGATACAGGGGAGCAAGGATTAGAAATCGCGGAAGCTCTTGTACGAAGTGGTGCGGTTGACATTATCGTAATTGACTCTGTAGCAGCTCTTGTACCGAAAGCAGAGATTGAAGGCGACATGGGTGACTCACACGTAGGTTTACAAGCACGTTTAATGTCACAAGCACTTCGTAAGCTTTCAGGAGCAATCAACAAATCAAAAACAATTGCAATCTTTATTAACCAAATTCGTGAAAAAGTTGGGGTTATGTTCGGAAACCCAGAAACAACTCCAGGTGGTCGTGCGTTGAAATTCTATTCAACTGTCCGTCTTGAAGTGCGTCGTGCGGAGCAATTAAAGCAAGGTAACGACATCGTTGGTAATAAAACAAAAGTAAAAGTAGTGAAAAATAAAGTAGCGCCACCATTCCGTGTTGCTGAAGTTGATATTATGTACGGAGAAGGTATTTCAAGAGAGGGTGAAATCTTGGATATGGCTTCTGAGCTTGATATCGTTCAAAAGAGCGGTGCTTGGTATTCTTATAATGAAGAACGTTTAGGACAAGGTCGTGAAAATTCGAAGCAATTCTTAAAAGAGAATACGGACTTAAGAGAGGAAATTGCCTTCTTTGTTCGTGATCATCACGGAATTGGTGAAGATTCTGGTGTGGAAGACACGGAAGATGCAACTCTTCAAGATTAA	MSDRQAALDMALKQIEKQFGKGSIMKLGEQAERRISTISSGSLALDVALGVGGYPRGRIIEIYGPESSGKTTVSLHAIAEVQRQGGQAAFIDAEHAMDPVYAQKLGVNIDELLLSQPDTGEQGLEIAEALVRSGAVDIIVIDSVAALVPKAEIEGDMGDSHVGLQARLMSQALRKLSGAINKSKTIAIFINQIREKVGVMFGNPETTPGGRALKFYSTVRLEVRRAEQLKQGNDIVGNKTKVKVVKNKVAPPFRVAEVDIMYGEGISREGEILDMASELDIVQKSGAWYSYNEERLGQGRENSKQFLKENTDLREEIAFFVRDHHGIGEDSGVEDTEDATLQD	PGPT0007235_4194	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
AK009_03756	1239	cinA	COG1058	Putative competence-damage inducible protein	ATGAATGCTGAGATTATTGCGGTTGGAACTGAATTATTACTTGGACAAATTGCAAATACAAATGCCCAGTTTTTATCTGAAAAGTTAGCTTCAATTGGAATTAACGTGTACTATCATACTGTTGTTGGTGATAATAATAAGCGACTGCAAAAGGCGATTGAAGCTGCGGAAGAACGTGCTGATATACTTATTTTTACAGGTGGATTAGGACCGACAAAAGATGATTTAACGAAAGAAACGATAGCGGCTAGTTTAGATGAAGCGCTTGTGTATGATGAAAAGGCATTAGCCTTAATAAGTAATTACTTTAAGCGTACAGGCCGTGAATTTACGGAGAATAATAAAAAGCAAGCGCTCGTCTTAAATGGAGCAACAGTATTTGCAAATGACCACGGTATGGCGCCTGGTATGGGGGTAAATAAGAACGGAAAAGTTTATATTTTATTACCAGGGCCGCCAAAAGAAATGAAACCAATGTATGTAAGTTACGTGGAGCCTTTTTTACGTAATTTTACAACAGGAGAAAACATTTATTCCCGTGTGCTTCGTTTCTTCGGTATCGGGGAGTCCCAATTAGAGGTGAAAGTTCAAGATTTAATTGATGGACAAACAAACCCAACAATCGCCCCGCTAGCAAATGATGGAGAAGTGACATTACGTTTAACCGCTAAGCATCAAAATGTTAGCGAAGCGGAGAAACTAATTCAACATGTGGAAGATTTGATTTTAGAAAGGGTAGGAGAATTTTTCTACGGATATGACCAAGAATTTTTGCATTATAAGGCAATCGAGTTATTGAAGAGAAAAGGGTTAACTTTAGCATGTGCAGAAAGTTTAACAGGTGGTCTTTTTGGAAATCAAGTAACTGAAAATGCTGGTGTTTCTTCTGTATTTAAAGGCGGTGTCATTTGTTATCATAATGATGTGAAGCAACATGTATTGCGTGTGCCTGAAGAAGTGTTGCATACTGATGGTGCAGTTAGTAAAGAATGTGCTCGTTATCTTGCTGAAAATGTTAAGGATTTATTAAAAGCGGATATCGGAATTAGTTTCACTGGGGTAGCAGGGCCAGATGCTTCAGAACAGAAAGAGCCAGGAACAGTATTTGTTGGATTGGCGATTAAAGGTGAACAAACTGCAGTTTTTCCTCTTAATTTAAGTGGAAGTCGTCAACAAATTAGAGAACGCTCGACAAAATATGGATTTTATCATTTATATAAAAAGCTAGAAGAGATATAA	MNAEIIAVGTELLLGQIANTNAQFLSEKLASIGINVYYHTVVGDNNKRLQKAIEAAEERADILIFTGGLGPTKDDLTKETIAASLDEALVYDEKALALISNYFKRTGREFTENNKKQALVLNGATVFANDHGMAPGMGVNKNGKVYILLPGPPKEMKPMYVSYVEPFLRNFTTGENIYSRVLRFFGIGESQLEVKVQDLIDGQTNPTIAPLANDGEVTLRLTAKHQNVSEAEKLIQHVEDLILERVGEFFYGYDQEFLHYKAIELLKRKGLTLACAESLTGGLFGNQVTENAGVSSVFKGGVICYHNDVKQHVLRVPEEVLHTDGAVSKECARYLAENVKDLLKADIGISFTGVAGPDASEQKEPGTVFVGLAIKGEQTAVFPLNLSGSRQQIRERSTKYGFYHLYKKLEEI	PGPT0013455_1351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
AK009_03757	579	pgsA		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	GTGAATTTACCAAATAAAATTACAATATCTAGAATCTTCTTAATTCCAATTTTTATGGTAATTATGTTAGCGCCCTTTGATTGGGGTTCATACAAAATTGGTGATGTTGATTTGCCAATTCAACATTTAGTAGGGGCACTTATCTTTATCATTGCTTCAGCTACAGATTGGATTGATGGACATTACGCAAGAAAGTATAATCTTGTAACGAATTTAGGAAAGTTTCTTGACCCATTAGCTGATAAATTACTTGTTTCAGCAGCACTTATTACATTGGTAGAGATGCAATATGTACCGGCTTGGATTGTTATTGTAATTATCAGTCGTGAGTTTGCTGTAACAGGTTTACGTCTTGTACTTGCTGGAACAGGGGAAGTAGTTGCGGCAAATCAGCTAGGGAAAATTAAGACATGGACACAAATTATTGCGATTGCAGCATATTTATTACACGATGTACCTTTAAATTTAATCCATATTCCAGTTGCTGATATCTTCATATGGATTGCATTAATCTTTACTGTTATTTCAGGATGGGATTATTTCTGGAAAAATAGAGCTGCTTTTGTAAACTCAAAATAG	MNLPNKITISRIFLIPIFMVIMLAPFDWGSYKIGDVDLPIQHLVGALIFIIASATDWIDGHYARKYNLVTNLGKFLDPLADKLLVSAALITLVEMQYVPAWIVIVIISREFAVTGLRLVLAGTGEVVAANQLGKIKTWTQIIAIAAYLLHDVPLNLIHIPVADIFIWIALIFTVISGWDYFWKNRAAFVNSK	PGPT0007705_3356	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
AK009_03758	915			hypothetical protein	GTGACGGAATTGGGACAAAAGCTGAAAGAAGCAAGAGAAGCGAAAGGCTTGTCTATTGATCAGCTGCATGAAATTACAAAAATTCAAAAACGCCATCTAGTGGCAATTGAAGAAGGCAATTATGATGTATTGCCAGGAGCTTTTTATGCGCGTGCATTCATTAAACAATACGCAGATGCTGTTGGATTAAATGGAGAGGAACTGCTTGTAGAACATCAGAGTACGATACCACAATCTGAAAGGCGTGAAGTTCCACAAGTATCAACGGGACAAAAAACACAAGAAACAATGCAAAAATCTTCATCATGGCCAGTTGCAGATCACATGCCGAAAATCTTAGTTGCGCTGTTAGTAATCGCGGTTGGAGTCGTAATCTGGTTTGTGTTTCAAGCGTTAACTGGAAAAGATGATGAAAAAGTTCCGAGTGCTCAAAGTGAGAAAATTGAAGTTCAAAAAGCGAAAGATTCTCCGTTAGATACGAAGAAAGCGGAAGAGCCAAAGAAAGAAGAGCCAAAGAAAGAAGAACTAAAGAAAGAAGAACCAAAGAAAGAGGAGCAGCCAGCACCACCAACTGGACAGCAAGAAGTGAAAGTAGTTGGAACAACTGGTAAGGTATCTACTTTGGAAATTCATAATAATAAAACGTTAGAATTGGAAATTTCAGCGAAGGGTGCAAGTTATGTAGATGTTAAGGATGATGCGGGTAATGAAATTCTAAACACTACAGTACAAAGCGGTCAAACAGAGAAACGCGATGTATCAACATTAAAAGAAGTACGACTTAATATTGGAAGTGCACCGAATGTTGAAATTAAACTGAATGGCCAAGTGCTTGCTTTCCCGTTAGATCCACAAAAAGAATATCACCAAAGATTGGTGATTAAAAACCAAGGGATAGAGCAACCTGCACAATAA	MTELGQKLKEAREAKGLSIDQLHEITKIQKRHLVAIEEGNYDVLPGAFYARAFIKQYADAVGLNGEELLVEHQSTIPQSERREVPQVSTGQKTQETMQKSSSWPVADHMPKILVALLVIAVGVVIWFVFQALTGKDDEKVPSAQSEKIEVQKAKDSPLDTKKAEEPKKEEPKKEELKKEEPKKEEQPAPPTGQQEVKVVGTTGKVSTLEIHNNKTLELEISAKGASYVDVKDDAGNEILNTTVQSGQTEKRDVSTLKEVRLNIGSAPNVEIKLNGQVLAFPLDPQKEYHQRLVIKNQGIEQPAQ				NA	NA	NA	NA	NA
AK009_03759	786			hypothetical protein	ATGATTGAATGGTATTTTGAATATGAAATACATAAAAACCGACCTGGCTTGCTTGGTGACGTTTCTTCGTTAATCGGTATGCTCGGCATTAATATTGTCACAATTAATGGTGTAGATAATGCACGACGTGGGTTACTTCTTATGTGTGATAATCAAGAGCAAATCTCTAGACTTGAATCAATTTTAAATACGATGGATAACATAACGGTAACGAAATATCGTCCGCCCAAGCTAAGAGATAAGCTAGCGGTTAGGCATGGTAGGTACATACAACGAGATGCAGATGATAAGAAAACATTTCGATTTGTGCGTGATGAATTAGGCTTACTTGTAGACTTTATGGCAGAAATTATGAAAAAAGAAGGCCATAAACTAATTGGGATACGCGGAATGCCTCGTGTCGGAAAAACAGAATCCATTGTTGCTGCAAGTGTTTGTGCAAATAAAAGGTGGTTATTTGTATCATCTACTCTTATTAAGCAAACTGTTCGTAGTCAATTAATTGAAGATGAGTATAGCGATGACAATATTTTCATCCTAGATGGAATTGTGTCAACGAAGCGTGCCAACGAAAGACATTGGCAGCTCGTTCGTGAAATTATGAGATTGCCTGCAACGAAAGTTGTGGAACATCCTGATGTATTTGTGAGTCAGTCAGAATACACATTGGATGATTTTGATTATATTATCGAGTTGCGTAACGATTATGATGAAGAAATTCAATATAATTTAGTAGATGAAATTGAGCAAGGTACGCAAAATAATTTCTCTATGTTTGACTTTTAA	MIEWYFEYEIHKNRPGLLGDVSSLIGMLGINIVTINGVDNARRGLLLMCDNQEQISRLESILNTMDNITVTKYRPPKLRDKLAVRHGRYIQRDADDKKTFRFVRDELGLLVDFMAEIMKKEGHKLIGIRGMPRVGKTESIVAASVCANKRWLFVSSTLIKQTVRSQLIEDEYSDDNIFILDGIVSTKRANERHWQLVREIMRLPATKVVEHPDVFVSQSEYTLDDFDYIIELRNDYDEEIQYNLVDEIEQGTQNNFSMFDF	PGPT0003183_22	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003183-ymfK|ymfkn|ymfKc-NA	NA	NA
AK009_03760	249	yflH_2		putative protein YflH	ATGTCAGTATTAGATAATTTTGATCAGTGGAAGAGCTTTTTAGGAGATCGTTTAGAGCAAGCGCAAGGAAAAGGTTTAGACGGCGGTGCGGTATCAGATATGGCATTTCGTGTTGGCGACTACCTTGCTAATGAAGTAGAAGGGCGCAATGACCAAGAGAAATTATTAGCTGAGCTTTGGAAAGTTGCTGATGAACAGGAGCAACATACAATTGCAAACTTAATGGTTAAGTTTGTACAACATAAGTAA	MSVLDNFDQWKSFLGDRLEQAQGKGLDGGAVSDMAFRVGDYLANEVEGRNDQEKLLAELWKVADEQEQHTIANLMVKFVQHK	PGPT0003182_658	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK009_03761	714	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAAAAGTATGCGTTAGTAACTGGAGGGAGCGGAGGGATTGGCTCTGCTATTTCGAAACAATTAATTCAAGATGGATATACAGTTTATGTTCATTACAATAACAGTGAAGGAAAGGTATTGGAATTGCAGAAAGCATGGGGAGAAGTTATCCCTGTTCAAGCGAATTTGGCTTCTAGTGATGGAGCAGAGCAATTGTGGGGACAAATTGAACACCCTATTGATGTTATTGTATACGCAGCTGGGAAGAGTATTTTTGGACTAGTAACAGATGTAACAAACGAAGAATTGGGTTATATGGTAGAACTTCAAGTGAAGAACGTATATAAATTACTTTCAATGGCACTTCCGCCTATGATCGGGAGGAGAAGTGGTAATATTGTAATTATTTCATCTATATGGGGACAAATAGGGGCTTCTTGTGAAGTGCTGTATTCAATGGTAAAAGGGGCGCAAAATTCATATGTGAAAGCTTTAGCGAAAGAAGTTTCTTTAAGTGGATTACGTGTGAATGCAGTAGCACCAGGAGCAATTGAAACGGAAATGTTAAGTGTTTTTTCTGAAGAAGATAAAATGGGAATTGCTGAAGATATACCATTAGGTAGAATAGGATTACCAGAAGAAGTAGCAAAAACAGTTTCATTCCTCGTATCACCAGGAGCATCATACATAACTGGACAAATCATCGGAGTGAATGGCGGTTGGCACTGCTAA	MKKYALVTGGSGGIGSAISKQLIQDGYTVYVHYNNSEGKVLELQKAWGEVIPVQANLASSDGAEQLWGQIEHPIDVIVYAAGKSIFGLVTDVTNEELGYMVELQVKNVYKLLSMALPPMIGRRSGNIVIISSIWGQIGASCEVLYSMVKGAQNSYVKALAKEVSLSGLRVNAVAPGAIETEMLSVFSEEDKMGIAEDIPLGRIGLPEEVAKTVSFLVSPGASYITGQIIGVNGGWHC	PGPT0003180_21890	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
AK009_03762	1287			hypothetical protein	ATGGAAAAAATTGTTTATGAGCAATTAAAAGAAACACTCTATTATGAAAAACTTCCTAATGGATTAGATGTATATGTTTTACCGAAACAAGGATTTAATAAAACATTTGCGACGTTTACGACGAAATATGGTTCAGTAGATAATACATTTGTACCATTGGGGAAAGAAGAAATGATTCGTGTGCCTGATGGGATTGCACATTTTCTTGAGCATAAATTATTTGAAAAAGAAGATCACGATGCTTTCCAATTGTTTAGTAAACAAGGAGCATCGGCAAATGCTTTTACATCCTTCACACGAACAGCTTACCTTTTTTCATGTACTTCAAACGTAGAACAAAATTTAAATACATTGCTAAACTTCGTGCAAGAGCCTTATTTCTCTGAAAAAACAGTTGAAAAAGAGAAGGGGATTATTGGGCAAGAAATTCAAATGTATCAAGATAACCCAGATTGGCGTTTGTACTTTGGGTTAATTGATAGCTTGTTTGTAAAACACCCAATTAAAATTGATATTGCAGGCACAATCGAATCTATTAGTAAAATTACGAAAGATTTATTATATGAATGTTATGAAACATTTTATCATCCGAGCAATATGTTATTATTTGTTGTGGGTGCAATTGATCCAGAGAAAACAATGGATTTAGTACGTGAAAATCAAGCGGAAAAAGATTATAAAAACCAGCCAGAAATTGTGCGTTCATTTGAAGAGGAACCAAATGAGGTAAATGAAAAGAAAAAAATTATTTCAATGCCTGTGCAAACACCGAAATGTTTAGTTGGTATTAAAGCGACTAATTTAAAAGAAAAGGGGCAAGCGCTTTTAAAACAAGAAATTGCGCTTACGTTACTCTTAGATTATTTATTTGGAAAAAGTTCTGTTCATTACGAAGCTTTATATAATGAAGGACTTATTGATGATTCATTCTCGTATGACTATACAGAAGAAAATAACTTCGGTTTTGCAATGGTTGGTGGTGATACGAAACAACCTGATGAATTGGCAGATCGTTTAAAAGATATTTTATTCAAAACAGATTATGATCAATTAGATGCGGCGGCATTAGAACGAGTGAAGAAAAAGAAAATTGGTGGTTTTTTACGCTCGTTGAATTCACCAGAATATATTGCAAATCAATTTACACGATATGCGTTTAATGAATCTAGTCTATTTGATGCATTGACTGTATTAGAAGGGCTGACGGTTCAAGACTTACAAGAAGTAGCAAAATTATTGTTATCAGAAGAAAAAATGAGTGTTTGTCAGGTGTTACCGAAAAAATAA	MEKIVYEQLKETLYYEKLPNGLDVYVLPKQGFNKTFATFTTKYGSVDNTFVPLGKEEMIRVPDGIAHFLEHKLFEKEDHDAFQLFSKQGASANAFTSFTRTAYLFSCTSNVEQNLNTLLNFVQEPYFSEKTVEKEKGIIGQEIQMYQDNPDWRLYFGLIDSLFVKHPIKIDIAGTIESISKITKDLLYECYETFYHPSNMLLFVVGAIDPEKTMDLVRENQAEKDYKNQPEIVRSFEEEPNEVNEKKKIISMPVQTPKCLVGIKATNLKEKGQALLKQEIALTLLLDYLFGKSSVHYEALYNEGLIDDSFSYDYTEENNFGFAMVGGDTKQPDELADRLKDILFKTDYDQLDAAALERVKKKKIGGFLRSLNSPEYIANQFTRYAFNESSLFDALTVLEGLTVQDLQEVAKLLLSEEKMSVCQVLPKK	PGPT0003179_54	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003179-ymfH-NA	NA	NA
AK009_03763	1275			hypothetical protein	ATGAAACTAATGGAACAACAACTACATGAGTTAGGTGGTTTGCGCGTACATATTATTCCGACTGATAAATATAAAACGAATACCTTTGTATTTCGTTTTAAAGCGCCTTTAAATGAGGAGACGGTGACAGAGCGTGCCCTATTGCCATACGTATTGCAAAGTGCCACAGAAAAATTACCTTCTGTAATTCGTCTTCGTCAATATTTAGAAGAATTATACGGGTCTTCTTTAGCGGTAGATGTAAGTAAAAAAGGGGAAGACCATATTATCTCCATTTATGTAGACATTGCAAATGAAGTTTATTTACATGATGCACCACCGTTATTTGAAAAAGCGCTTTCTATGTTGTCTGATATTGTGTTACATCCAGCAACCGAGGGGAACGGTTTCCTATCTTCTATCGTAGAAAGTGAAAAAAGAGCACTGTTACAGAGAATTGAAGCTACTTATGATGATAAAATGCGTTATGCAAACGAGCGTTTAATTGAAGAAATGTGCAAAGTAGAACCGTATCGTTTAAGTGCAAATGGAAAAAAAGAGAGTGTTGCTTCTATTACAAATGAAAGTCTGTATCAATATTATCAAAAGGTGTTAGCGGAAGATGAGATGGATCTATATATTATTGGTGATATTTCAGAAAACGCCGTTGATCTTGTAAGTAAGTATTTTTCTATTTCAGCTCGTCCAGTGAGAGAAAGAAATGTACTCCTTCATAGACGAAATAATGAAGAAAAAGAAGTTGTTGAAAAACAAGAATTAAAACAAAGTAAATTACACATCGGTTATCGTACATTTGTCACATATAAAGATGAAGATTATTTTGCATTGCAATTGTTCAATGGATTGTTTGGTGGTTTTTCTCATTCGAAGTTATTCGTAAATGTGCGTGAAAAAAATAGTTTAGCGTACTATGCAGCATCGCGCTTTGAAAGTCATAAAGGTTTATTATTTGTTATGTCAGGAATCGAAGCGAAAAATTATGAAAAAGCAGTTGAGATTATTAAAGAACAAATGCTTGCGATGCAAAACGGAGAGTTTTCTGAAGAAGAAATACATCAAACAAAAAGTGTCATCCAAAATCAAATATTAGAGGCGATTGATACACCGCGTGGATTTGTAGAAATGCTATATCATGGTATTATTTCAGATCGTACACGTCCAGTTGAAGAATGGCTTACAGGTATAGAAAGTGTAACAAAAGAAGAAATTGTAAAAGTAGCTAAAAATATTGAACTAGATACAATTTACTTTTTACAAGGAACGGAGGGAGAGTAA	MKLMEQQLHELGGLRVHIIPTDKYKTNTFVFRFKAPLNEETVTERALLPYVLQSATEKLPSVIRLRQYLEELYGSSLAVDVSKKGEDHIISIYVDIANEVYLHDAPPLFEKALSMLSDIVLHPATEGNGFLSSIVESEKRALLQRIEATYDDKMRYANERLIEEMCKVEPYRLSANGKKESVASITNESLYQYYQKVLAEDEMDLYIIGDISENAVDLVSKYFSISARPVRERNVLLHRRNNEEKEVVEKQELKQSKLHIGYRTFVTYKDEDYFALQLFNGLFGGFSHSKLFVNVREKNSLAYYAASRFESHKGLLFVMSGIEAKNYEKAVEIIKEQMLAMQNGEFSEEEIHQTKSVIQNQILEAIDTPRGFVEMLYHGIISDRTRPVEEWLTGIESVTKEEIVKVAKNIELDTIYFLQGTEGE	PGPT0003177_33	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003177-ymfF-NA	NA	NA
AK009_03764	960	rfuD	COG1079	putative riboflavin import permease protein RfuD	ATGAGCTTTTTAGATATATTAGCCATTCTTGTGACAGGTACGTTATATACATCGGCACCTATCATTTTCACAGCACTAGGTGGAGTATTTAGTGAACGATCGGGTGTTGTAAATATCGGATTAGAAGGACTAATGCTATTTGGTGCATTTATTGGAGTTGTTACAAACTTATTAATGGGTGATACTTGGGGAACGATGACCCCGTGGATTGCGTTATTATTTGCGGCAATTGGTAGTGGATTATTTGCATTACTTCATGCGGTAGCTTCTATTACATTCCGAGCAGATCAAGTTGTAAGTGGTGTAGCAATTAACTTCTTATCTCTTGGTTTAACGGTATTTGCAATTAAGAAGATTTTTGATAAAGGGCAGACTGACTTTATTCAGTATCGTATTGAAAAGATTGATATTCCAGGCCTTTCGGATATTCCGGTTTTAGGGAAAATATTTTTCTCGAATGTACCAATAACGTCGTATATTGCCATTATTTTAGCATTCGTTGTTTGGTATGTTATTTATAAAACACCGTTCGGTCTTCGTCTACGTGCTGTTGGTGAACACCCAATGGCAGCGGATACGATGGGGATTAACGTATATAAAATGCGCTATATTGGAGTCTGTATTTCAGGAGTGTTTGCTGGAATTGGTGGAGCGATTTTTGCAATGTCAATTTCTAATAACTTCTCAGGGGCAACTATTACAGGACAAGGTTTCTTAGCTTTAGCTGCTATGATTTTTGGAAAGTGGAATCCACTAGGCGCACTAGGTGCAGCTCTATTCTTTGGTTTTGCGCAATCTCTTAGTGTAACGGGCGGAACAATTCCTGTATTAGATCAAATTCCAAGTGTTTTATTAACGATATTACCATATGTATTCACAATATTAGCGCTTGTTGGTTTTGTAGGTCGTTCTGAAGCTCCGAAAGCATTAGGAACTCCTTATGAAAAAGGAAAACGATAA	MSFLDILAILVTGTLYTSAPIIFTALGGVFSERSGVVNIGLEGLMLFGAFIGVVTNLLMGDTWGTMTPWIALLFAAIGSGLFALLHAVASITFRADQVVSGVAINFLSLGLTVFAIKKIFDKGQTDFIQYRIEKIDIPGLSDIPVLGKIFFSNVPITSYIAIILAFVVWYVIYKTPFGLRLRAVGEHPMAADTMGINVYKMRYIGVCISGVFAGIGGAIFAMSISNNFSGATITGQGFLALAAMIFGKWNPLGALGAALFFGFAQSLSVTGGTIPVLDQIPSVLLTILPYVFTILALVGFVGRSEAPKALGTPYEKGKR	PGPT0021050_1064	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
AK009_03765	1059			hypothetical protein	ATGGCTAAAAAACTTTTAACAGAACGAACGATAAATATTTTAGTCCCAGTACTATCCGTTATTTTTGGCTTACTTGTCGGAGCGATTGTAATGTTAGTTAGTGGTTATGATCCAATTGTAGGTTATAGTGCACTTTGGACAGGGATGTTCGGTAGCGCAAGTGCGATTGGTGAAACGCTTCGTACAATGATACCGCTTATTCTTGCTGGTTTATCAGTGGCGTTTGCATTTCGTACAGGTTTATTTAATATCGGGGTAGAGGGTCAATTGCTAGTTGGTTGGCTTGCAGCGGTTTGGTTCGGTTATGCAGTTTCACTACCAGCTTTCCTTCATATTCCATTATCTATTTTATTCGCAGCATTGGTAGGAGGAATTTGGGGCTTCATTCCTGGATATTTAAAAGGAAAGTTTCAAGTTAATGAGGTTATTGTAACAATTATGATGAACTATATCGCATTATATGTAACATATGACATCATTAAGCGCTTTTTACATGAAGGTAATGATAAAACGTATGACATTAAAGAGAGTGCATCACTATCTTCAGACTGGCTTGCTAGCATTACTGATGGTTCGCGTCTTCACTGGGGAATTATTGTAGCAATATTAATCGCTATTTTAATGTGGTTCTTATTAGATCGAACAACTTTAGGCTACGAATTAAAGTCGGTAGGATTTAATCAGCATGCTTCTCAATATGCAGGTATGAAAGTTTCTCGTAATGTAGTATTCTCCATGACAATTGCTGGTGCATTTGCGGGGATTGGTGGAGCGATGGAAGGATTAGGAACATTCCAGAGTATGACCGCGATGTCTTCGTTTACAGGAGTAGGATTTGATGGGATTGCCGTAGCATTACTTGGAGGGAATAATCCGTTTGGTATAATCCTTTCAGCTTTATTATTTGGTGGTTTGAAAAGTGCTTCCCCTCAAATGAACTTTGAGGCAGATGTACCATCAGAGCTTATTAATGTAATTATTGCATGTATCATCTTCTTTGTTGCATGTAGTTATGTGTTAAGATGGGCGCTTACACGCATGAGCAAGGAGGGGAAATAA	MAKKLLTERTINILVPVLSVIFGLLVGAIVMLVSGYDPIVGYSALWTGMFGSASAIGETLRTMIPLILAGLSVAFAFRTGLFNIGVEGQLLVGWLAAVWFGYAVSLPAFLHIPLSILFAALVGGIWGFIPGYLKGKFQVNEVIVTIMMNYIALYVTYDIIKRFLHEGNDKTYDIKESASLSSDWLASITDGSRLHWGIIVAILIAILMWFLLDRTTLGYELKSVGFNQHASQYAGMKVSRNVVFSMTIAGAFAGIGGAMEGLGTFQSMTAMSSFTGVGFDGIAVALLGGNNPFGIILSALLFGGLKSASPQMNFEADVPSELINVIIACIIFFVACSYVLRWALTRMSKEGK	PGPT0021045_2766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
AK009_03766	1533	mglA	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGAATACGTAATTGAGATGAATAACATTACGAAAGTATTCCCAGGCATTGTAGCGAATGATGATATTACGCTGCAAGTAAAGCAGGGTGAGATACATGCTTTACTTGGAGAAAATGGTGCAGGGAAATCCACATTGATGAATGTACTATTTGGTTTGTACCAACCAGAACAAGGTGAAATTAAAATTAAAGGAAAGTCTGTAAATATTACCAATCCGAATGTGGCAAATGACCTTGGTATTGGAATGGTTCATCAGCACTTTATGCTTGTTCATAATTTTACAGTTACAGAGAATATTATTCTCGGAAATGAACCGAGGAAAAAAGGGAAAATTGCTGTTGAGGAAGCTGCTAAAGAAATTCAAAAACTGTCTGAACAATACGGTTTAGCTGTAGATCCATATGCGAAAATACAGGATATTTCAGTGGGTATGCAACAGCGTGTTGAGATTTTGAAAACTCTTTACCGCGGTGCAGAAATTTTAATATTTGATGAACCGACAGCTGTGTTAACACCACAAGAAATTCATGAGCTAATTCAAATTATGAAAAAGCTTGTGCAAGAAGGAAAATCTATTGTTCTTATTACACATAAGTTGAAAGAAATTATGGAAGTTTGCGATCGTTGTACGATTATTCGTAAAGGAAAAGGAATTGGAACGGTTGACGTTGCAAATACGGATGAAAATAAACTTGCAGAATTAATGGTCGGACGTCAAGTGAATTTTAAAACAGAAAAAATAGACGCGAAACCAAAAGAAGAGGTACTTTCAATTGCAAATCTTGTTGTTCACGATGCACGTCAACTACCTGCTGTAAAAGGCCTTGACTTAACTGTTCGTGCGGGGGAAATTGTTGGGATTGCAGGGATTGATGGAAATGGACAAAGTGAATTAATAGAAGCAATTACTGGTTTACGAAAAGTTGAGTCAGGTTCTATTGCAATTAAAGGGAAAGAAATAACAAATTGGCCTGTTAGAAGAATAACAGAAGAAGGAATTGGTCATATTCCAGAAGATCGTCATAAACACGGACTCGTCCTTGATTTTTCTGTTAGAGATAATATAGTTCTGCAAACGTACTATAAGAATCCGTTTTCAAAGAAATGGATTTTAAATTTCAGCAAAATTACAGAAAAAGCAAAGGCTCTTATTGAACAGTTTGATGTACGTACACCTAGTGAGCAAACTTTAGCACGCGCTCTATCTGGGGGAAATCAACAAAAAGCAATTATTGCACGTGAAGTAGACCGTGATCCAGATTTATTAATCGCAGCACAGCCAACACGTGGTTTAGATGTAGGAGCAATTGAATTTATTCATAAGAGATTAATAGAGCAAAGGGATAAAGGGAAAGGTGTATTACTTTTATCACTAGAGTTAGATGAAATCTTAAATGTTAGCGATCGAATTGCTGTTATTTATGAAGGGAAAATTGTAGCAATAGTTGATGCGAAAGAAACGAATGAACAACAGCTTGGATTGTTAATGGCTGGGGGAACAAAGAAGGAGCAGGTGGGTACAAATGGCTAA	MEYVIEMNNITKVFPGIVANDDITLQVKQGEIHALLGENGAGKSTLMNVLFGLYQPEQGEIKIKGKSVNITNPNVANDLGIGMVHQHFMLVHNFTVTENIILGNEPRKKGKIAVEEAAKEIQKLSEQYGLAVDPYAKIQDISVGMQQRVEILKTLYRGAEILIFDEPTAVLTPQEIHELIQIMKKLVQEGKSIVLITHKLKEIMEVCDRCTIIRKGKGIGTVDVANTDENKLAELMVGRQVNFKTEKIDAKPKEEVLSIANLVVHDARQLPAVKGLDLTVRAGEIVGIAGIDGNGQSELIEAITGLRKVESGSIAIKGKEITNWPVRRITEEGIGHIPEDRHKHGLVLDFSVRDNIVLQTYYKNPFSKKWILNFSKITEKAKALIEQFDVRTPSEQTLARALSGGNQQKAIIAREVDRDPDLLIAAQPTRGLDVGAIEFIHKRLIEQRDKGKGVLLLSLELDEILNVSDRIAVIYEGKIVAIVDAKETNEQQLGLLMAGGTKKEQVGTNG	PGPT0021040_2268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
AK009_03767	1077	tmpC	COG1744	Membrane lipoprotein TmpC	ATGAAGAAAAAAGCAGGTCTTTTATTATCATTAACATTAGCAGCAAGTACAGTTTTAGGTGCATGTGGTAACTCGGATAAGGCAAGCAGTGATAAGAAAGACACGAAAGACTTCAAGGTCGGTATGGTAACGGATGTTGGGGGCGTTGATGACAAATCGTTCAACCAATCGTCTTGGGAAGGACTAAAAAAGTTTGGTAAAGATAACGGATTAAAGGAAAAGACAAATTATCGTTACCTACAGTCTGAAAAAGAAGCGGATTATATTCCAAACTTAAAGAAATTTTCAAAAGATAAGTATGATTTATCTTTCGGAATTGGTTATAAATTAGAAGGTGCAATTAAAGAAGTAGCAAAAGAATCTCCAAAACAACAATTTGCAATCGTTGATACTGTAGTAGATGCACCAAACGTAACGAGCATTACATTTAAAGATCATGAAGGATCATTCCTTGTAGGTGCGGTAGCAGCTATGTCAACAAAATCGAATAAAGTAGGATTTGTTGGTGGGATGAAGAGTGATTTAATTAGTAAATTCGAAAATGGATTTAAAGCGGGTGCAAAAGCAGTAAATCCAAACATTGAAATCGTATCTGAATATGCAGAAGCATTCGATAAACCTGAAAAAGGTACAGTTCTTGCATCAGCAATGTATGGTCAAGGCGTAGACGTAATTTATCATGCTGCTGGTGGTACAGGTAACGGTGTATTCACTGAAGCGAAAAACCGTAAGAAAAAAGGTGAAAATGTTTGGGTAATCGGTGTTGACCGTGATCAAAACCAAGAAGGTATGCCTGAAAACGTAACATTAACTTCAATGGTAAAACGTGTAGATATCGCTGTTGAAAAAGTAGCGCAAGAAGCGAAAGACGGTAAGTTAAAAGGCGGTAAAGTAGAAGCGTTTGGTTTAAAAGATGACGGTATTGGTATTTCAAAAACAACTGATAACGTGAAAAAAGTTAACCCTGAAATTTTAACAAAAGTAGAAGAATTTGAAAAGAAAATTACAGACGGTGAAATTAAAGTACCGGCTACAGATAAAGAGTATAAAGAATATGAAGCTTCTCTAAAAAAATAA	MKKKAGLLLSLTLAASTVLGACGNSDKASSDKKDTKDFKVGMVTDVGGVDDKSFNQSSWEGLKKFGKDNGLKEKTNYRYLQSEKEADYIPNLKKFSKDKYDLSFGIGYKLEGAIKEVAKESPKQQFAIVDTVVDAPNVTSITFKDHEGSFLVGAVAAMSTKSNKVGFVGGMKSDLISKFENGFKAGAKAVNPNIEIVSEYAEAFDKPEKGTVLASAMYGQGVDVIYHAAGGTGNGVFTEAKNRKKKGENVWVIGVDRDQNQEGMPENVTLTSMVKRVDIAVEKVAQEAKDGKLKGGKVEAFGLKDDGIGISKTTDNVKKVNPEILTKVEEFEKKITDGEIKVPATDKEYKEYEASLKK	PGPT0021055_2165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
AK009_03768	726	phnR	COG2188	Putative transcriptional regulator of 2-aminoethylphosphonate degradation operons	ATGTCAGTAAAATCCGATAGTCGTCACCTATATTTACGGGTGATTGATCACATCAAAGAAAAAATTAAAGATGGGGCTTATAAAGAACGACAAAAGTTACCATCAGAGTTTGATTTAGCGAAAGAACTTGGCGTAAGTAGAGCGACTTTAAGGGAAGCGTTACGTATTTTAGAAGAAGAAAATGTTGTCATTCGTAGACATGGTGTAGGGACATTTGTAAATGCAAAGCCATTATTTTCTTCTGGAATAGAACAACTTTCTAGTATTACAGATATGATTTCTAGTGTGGGGAAAACACCAGGAACGATCTTTTTATCATCATCTACTACAACTTTAACAGAAGAGGAAAAAGAGAAGTTTAATAGTGAAGATGGTTTCAATGCAGTGATGATTGAACGCGTGCGTACAGCAGATGGGGAACCTGTTGTATATTGTATCGATAAACTTGCAAAAGAAATATTGCCAGATTTATCGGGTTACAATGAGGAGTCATTATTAACGGTGATACATAATAACACGCATAAGCGCATAACATATGCGGTTGCTCACATTGAGCCAATTGGCTATCACCCTAAAATCTCACCGATTTTAGAATGTGAGCCTGAAACAGCACTGCTTGTATTAAAACAAATGCACTATGATCAAAATGATGAGCCAATCTTATATTCTATCAATTACTTTAGAGCTGATAAGTTTAGCTTCCACGTATTAAGAAAGCGTATGTAG	MSVKSDSRHLYLRVIDHIKEKIKDGAYKERQKLPSEFDLAKELGVSRATLREALRILEEENVVIRRHGVGTFVNAKPLFSSGIEQLSSITDMISSVGKTPGTIFLSSSTTTLTEEEKEKFNSEDGFNAVMIERVRTADGEPVVYCIDKLAKEILPDLSGYNEESLLTVIHNNTHKRITYAVAHIEPIGYHPKISPILECEPETALLVLKQMHYDQNDEPILYSINYFRADKFSFHVLRKRM				NA	NA	NA	NA	NA
AK009_03770	2382	spoIIIE	COG1674	DNA translocase SpoIIIE	ATGGCAAAACAAAAGCAAAGAGGGACGAAGGCAAAGGCAAGACGTACGATAAAGCCAACCTTGTATTATGAAATCGTCGGTTTAACTCTTTTTGCACTTTCAATCATTACGATTTTACAGCTAGGCGTTGTAGGGAAATCGTTTGTGTTATTTTTTCGCTTCTTCTTTGGTGAGTGGTACATAATTGGTGTGTTAGGTGTAATAGCTTTATCGGTTTCCTTTGTTATAAAACGCGGATGGCCGAACCTTTTAAATAAACGGTTAATTGGATTTTATTTAATTGTATTGGCAATATTAATGTTTAGTCATATTACATTATTTAACCTTCTTACAAAAGATGGAGCAGTGCAAAATACTTCTGTTATTGTGAGTACGAAAGATAACTTCTTTCTTGAAATGAAAAAAGGGCCAGATAGCGTTCATTTAGGCGGTGGTATGTTTGGTGCGCTTATGTTCGCGACATGTTACTTCCTATTCGACGAAGTAGGAGCCTATATCATTGGGATTATTTTAGTTATTCTCGGGGTACTCTGTATAACAAATAAACATATTGGAGAAGTGTTAGCTCCAGTTGGTAGAATTCTTAGAAGTCAATTTCAAGTGATGCAAGTGGATTATAAAGATTGGAGATCCAAAAGAACGGCTGAACAAACAGAAAAGAAAAAAACAACAAGAAGTACAAGAAGCAAACGTGCTGCAGAACAAGAAGAAGTGATTGAGCCGATGGAAGAAATCCAAATTGATCCGCCAATTATTTCAAATTTCACTGAGAATTATCCTGCAAATGAAGAAGAGGATAAACGAATTGAAGTAGAGCAAGAAGATTTGATCACTTCACCGTTTATTGAAGAGACTCCACCAATTGAAGAATCAAAGAAAAAGCGTGGAGAAAAAATCGTTGAATCGTTAGAGAGTGAAGCGCAAGCACCTCCTATGCAATTTTCAAATGTAGAAAATAAAGATTACAAGCTTCCTTCACTTGATATATTAAAATTTCCAAAGAATAAGCAAGTTACAAATGAAAATGCGGAAATTTATGAGAATGCTCGTAAATTAGAACGTACATTCCAAAGTTTCGGAGTGAAAGCGAAAGTAACAAAAGTGCATAGAGGTCCTGCAGTTACAAAATATGAAGTGTATCCTGATATGGGGGTAAAGGTAAGTAAAATTGTCAGTTTAAGTGATGATTTAGCCCTTGCATTAGCTGCAAAGGACATTCGTATTGAGGCGCCAATTCCCGGGAAATCAGCTGTAGGGATCGAAGTTCCGAACTCAGAAGTTTCGATGGTAACGCTGAGGGAAGTTCTTGATTCTAAGGCTAACAATCATCCGGAAGAGAAGTTGTTAATTGGTCTTGGCCGAGATATTACAGGTGAAGCTGTATTAGCCCGTTTAAATAAAATGCCCCATTTACTCGTAGCTGGTGCGACAGGGAGCGGGAAAAGTGTATGTATTAACGGTATTATTGTTAGTATTTTAATGCGTGCAAAACCACATGAAGTAAAATTAATGATGATTGACCCGAAAATGGTAGAGTTAAATGTATATAACGGTGTGCCTCATTTGTTAACACCAGTTGTAACTGATCCGAAAAAAGCATCGCAAGCATTGAAAAAAGTTGTGAGTGAGATGGAACGTCGTTATGAATTGTTTGCTCATAGTGGTACACGTAACATTGAAGGATACAACGATTATATAAAAGAGCATAATAGTCAATCAGAAGCGAAACAACCCGAATTACCGTATATTGTAGTAATTGTGGACGAGTTAGCAGATTTAATGATGGTTGCTTCGTCTGATGTAGAGGATGCGATTATGCGTCTAGCGCAAATGGCTCGTGCTGCTGGTATTCATTTAATTATTGCAACGCAACGTCCGTCAGTTGACGTTATTACGGGTGTTATTAAAGCGAATATTCCATCACGTATTGCATTCGCTGTATCTTCTCAAACAGATTCTCGTACAATTCTTGACGGTGGTGGTGCAGAGAAGCTACTAGGTCGTGGCGACATGCTGTTTATACCAATTGGTGCATCGAAACCTGTACGTGTACAAGGTGCATTTTTATCAGATGATGAAGTTGAGAGAGTTGTAGAATATGTTATTGGACAGCAAAAAGCACAATATCAAGAAGATATGATTCCGCAAGATGTTCCTGATACGAAGCAGGAAGTAGAAGATGAATTATATGATGAAGCGGTTCAACTTGTAGTGGAAATGCAAACAGCATCTGTTTCTATGCTACAACGTAGGTTTAGAGTAGGTTATACGCGAGCTGCTCGTCTAATTGATGCAATGGAAATGAATGGTGTAGTAGGTCCATATGAAGGTAGTAAACCGAGAGAAGTACTCATTAATGATGTACAAGAAAAAAGTTCTTAA	MAKQKQRGTKAKARRTIKPTLYYEIVGLTLFALSIITILQLGVVGKSFVLFFRFFFGEWYIIGVLGVIALSVSFVIKRGWPNLLNKRLIGFYLIVLAILMFSHITLFNLLTKDGAVQNTSVIVSTKDNFFLEMKKGPDSVHLGGGMFGALMFATCYFLFDEVGAYIIGIILVILGVLCITNKHIGEVLAPVGRILRSQFQVMQVDYKDWRSKRTAEQTEKKKTTRSTRSKRAAEQEEVIEPMEEIQIDPPIISNFTENYPANEEEDKRIEVEQEDLITSPFIEETPPIEESKKKRGEKIVESLESEAQAPPMQFSNVENKDYKLPSLDILKFPKNKQVTNENAEIYENARKLERTFQSFGVKAKVTKVHRGPAVTKYEVYPDMGVKVSKIVSLSDDLALALAAKDIRIEAPIPGKSAVGIEVPNSEVSMVTLREVLDSKANNHPEEKLLIGLGRDITGEAVLARLNKMPHLLVAGATGSGKSVCINGIIVSILMRAKPHEVKLMMIDPKMVELNVYNGVPHLLTPVVTDPKKASQALKKVVSEMERRYELFAHSGTRNIEGYNDYIKEHNSQSEAKQPELPYIVVIVDELADLMMVASSDVEDAIMRLAQMARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFAVSSQTDSRTILDGGGAEKLLGRGDMLFIPIGASKPVRVQGAFLSDDEVERVVEYVIGQQKAQYQEDMIPQDVPDTKQEVEDELYDEAVQLVVEMQTASVSMLQRRFRVGYTRAARLIDAMEMNGVVGPYEGSKPREVLINDVQEKSS	PGPT0030468_5557	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
AK009_03771	201			hypothetical protein	ATGAGTAGGCTGCTTTCTTCTGTTTATTTAGCATTTTACAAGAAGTGTAAAAATAGAAGATATAAAGACCTGAAAAATAGAGAAAACAGACATATAAATAGAGCATTTTTAGGGGAGCTTTACTTATATGTAGAACACGAGGTGAAGAAATGGCAAAACAAAAGCAAAGAGGGACGAAGGCAAAGGCAAGACGTACGATAA	MSRLLSSVYLAFYKKCKNRRYKDLKNRENRHINRAFLGELYLYVEHEVKKWQNKSKEGRRQRQDVR				NA	NA	NA	NA	NA
AK009_03772	204			hypothetical protein	ATGATTTTATATACAATTATGCCAGAGCAACTTGTGTATCCGGCCGATTATTCACAATGTGAAAGTCAAAAAGTTGTAAATATAAATGGTGTGGAATTAATGGTTTCTGAAGAGGAACATGGGTGTTATTCTATTGTACGTGTGCTAAGTACGGACCCACTTCACTATTTAGAGTTTGAGCCCGGTCAGAAAATAACCTTTTAG	MILYTIMPEQLVYPADYSQCESQKVVNINGVELMVSEEEHGCYSIVRVLSTDPLHYLEFEPGQKITF				NA	NA	NA	NA	NA
AK009_03773	750	tepA	COG0740	Translocation-enhancing protein TepA	ATGACAGAACGTGATCGATATACAAATGAAGAAAAAGAAACTGAGCCAAAAGAAGCTGGAAAAGAGGCTTCAATAGTAGAAAAAATTCAACAGCTTGGACAGACAAATGTACCACAGATGAATGAATCACGTATTCATTGTTTAACGATTATCGGACAAGTGGAAGGTCATGTTCAATTACCGCCGCAAAATAAAACAACAAAATACGAGCATATCATTCCGCAAATTGTTGCGATTGAACAAAATCCGAAAATTGAAGGTTTGCTTTTAATATTAAATACGGTTGGAGGTGACGTTGAAGCTGGACTAGCAATTTCAGAAATGGTAGCTTCACTTTCAAAACCAACAGTATCTCTAGTTTTAGGTGGGGGACATTCCATCGGTGTACCGATTGCTGTTTCTACTGACTATTCGTTTATTGCGGAAACTGCGACGATGACAATTCATCCAATTCGTTTAACAGGTCTTGTCATAGGTGTGCCGCAAACATTTGAGTATTTGGATAAGATGCAAGAAAGAGTTATTCGTTTTGTGACGAAGCACTCGAAAGTAACAGAGGATCGTTTTAAAGAGCTTATGTTTGCGAAAGGAAATTTAACGCGAGATATTGGGACGAATGTAATTGGTGGAGATGCAGTAAAGTACGGTCTTATAGATGATGTTGGTGGTATTGGAAATGCGATTCGAAAATTAAACGAATTAATAGATGTTCGCGCGGAAGGTAGTGCAGAAGGGACAATGTTACAATGA	MTERDRYTNEEKETEPKEAGKEASIVEKIQQLGQTNVPQMNESRIHCLTIIGQVEGHVQLPPQNKTTKYEHIIPQIVAIEQNPKIEGLLLILNTVGGDVEAGLAISEMVASLSKPTVSLVLGGGHSIGVPIAVSTDYSFIAETATMTIHPIRLTGLVIGVPQTFEYLDKMQERVIRFVTKHSKVTEDRFKELMFAKGNLTRDIGTNVIGGDAVKYGLIDDVGGIGNAIRKLNELIDVRAEGSAEGTMLQ	PGPT0014595_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK009_03774	1671	rnjB	COG0595	Ribonuclease J2	ATGAAGAGAAAAGAGAATGAGTCTGTTAAAGTATTTGCTCTTGGTGGAGTAGGTGAAATCGGGAAAAACATGTACTGTGTTGAAATTGATTCTGAAATCTTTATTGTGGATGCAGGGTTAATGTTCCCGGGAGATGAAATGTTTGGAATTGATATCGTTATTCCTGATATTACATATTTAGTGGAAAACCAAGAGCGAGTAAAGGGTTTATTTATTACTCACGGTCATGAAGATCATATTGGTGGTATTGTTTACGTACTTCGTAAATTATCTATTCCAGTGTATGCAACGAAATTAACAGTAGGACTTATACAAGAAAAACTTGGCGAAGCGGGTATGTTAGGTCGTGTAGACTTAAAAACAATCGATTCAAATTCAACAGTAGAGTTTAATACTACAACGGTGTCATTCTTTGGAACGACACATAGTATTCCAGATTCTGTTGGTGTTTGTTTCCATACATCAAAAGGTGCAATCGTATATACAGGAGACTTTAAATTCGATCAAACTCCAATTGGAAATAGTGGAGCAGACCTTGGGAAAATGGCTCAAATTGGAAATGAAGGCGTACTTTGCTTATTATCTGATAGTACAAACGCAGAGCGCCCAGGTTATACAGGTTCTGAAAAAGAAGTTGGTGTAGAAATTTCTAAAGTGTTCTACGGCGCAGAAGGTCGTATTATCGTTGCTTCATTTGCATCGAATGTACATCGTATTCAACAAGTATTTGATGCAGCTGCCGAAACAGGGCGAAAAGTAGCGGTAGTAGGACGTAGTATGGTGAAAGTAGTAGACATTGCAAGACGTCTTGGTTATTTAGATGTTCCAGAAGGTATGGTTATTTCATTACAAGAAGTAGACAACTTCCCAGAGAAAAAGGTAGCTATTTTAACGACAGGTAGTCAAGGTGAACCGATGGCTGCTCTATCTAGAATGGCAAAACAAGCACATAAACAAATTTCAATTCGTAAAGGTGATACTGTTATCATTGCTGCTTCGCCAATTCCGGGTAATGAAATATCTGTATCAAAAATTATTGATTTGTTATTTAGAGCTGGAGCTGAAGTTGTTTATTACGGCGAAAGAAAAGTTCATGTTTCAGGTCACGGTAGCCAAGAAGAATTAAAATTAATGTTAAATTTAATGAAACCGAAGTACTTTGTACCCGTACATGGTGAGTTCCGTATGCAAAAAGCACATGCGTATTTAGCTGAAGATGTAGGTATTACAAGAGAAAATATCTTTATCGTAGAAAAAGGCGATGTAATTGCTTTTGGTGACGATGAAGCGAACTTAGTCGGTAAAGTACAAGCTGGTAATGTTTTAATTGATGGATTAGGTGTAGGTGACGTTGGTAATATCGTTCTTCGAGATAGAAAGATGTTATCTCAAGATGGAATATTAGTAGTAGTTGTAACGCTTGGTAAAGATGAAAAGAAAATTATCTCTGGTCCAGAAATCATTTCACGTGGTTTCGTATATGTTCGTGAGTCAGAAGCGTTAATTGAACGATCTACAGAGATTGTACGTATGATTGTTGAGCAGTCAATTAAAGAATATTCGATTGAATGGTCAATGTTAAAACAAAATATTCGTGAATTATTAGGACAGTTCTTGTACGAAGAGACAAAGAGAAAACCTATGATTTTACCGATTATTATGGAAGTATAA	MKRKENESVKVFALGGVGEIGKNMYCVEIDSEIFIVDAGLMFPGDEMFGIDIVIPDITYLVENQERVKGLFITHGHEDHIGGIVYVLRKLSIPVYATKLTVGLIQEKLGEAGMLGRVDLKTIDSNSTVEFNTTTVSFFGTTHSIPDSVGVCFHTSKGAIVYTGDFKFDQTPIGNSGADLGKMAQIGNEGVLCLLSDSTNAERPGYTGSEKEVGVEISKVFYGAEGRIIVASFASNVHRIQQVFDAAAETGRKVAVVGRSMVKVVDIARRLGYLDVPEGMVISLQEVDNFPEKKVAILTTGSQGEPMAALSRMAKQAHKQISIRKGDTVIIAASPIPGNEISVSKIIDLLFRAGAEVVYYGERKVHVSGHGSQEELKLMLNLMKPKYFVPVHGEFRMQKAHAYLAEDVGITRENIFIVEKGDVIAFGDDEANLVGKVQAGNVLIDGLGVGDVGNIVLRDRKMLSQDGILVVVVTLGKDEKKIISGPEIISRGFVYVRESEALIERSTEIVRMIVEQSIKEYSIEWSMLKQNIRELLGQFLYEETKRKPMILPIIMEV				NA	NA	NA	NA	NA
AK009_03775	879	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGATAGATTTTGGGACAATTGCAACTGCGATGGTAACACCGTTTGATATAAACGGTAATATCGATTTTGCGAAGACAACGAAATTGGTAAATTATTTAATTGATAACGGTACAACAGCAATCGTGGTAGGAGGAACGACAGGCGAATCTCCTACATTAACTTCAGAAGAGAAAGTAGCGTTATATCGCCATGTCGTATCTGTTGTCGATAAAAGAGTGCCCGTAATCGCTGGAACAGGTAGCAATAATACGCATGCTTCTATTGACTTGACTAAAAAGGCAACAGAAGTTGGTGTGGATGCAGTAATGCTAGTAGCACCGTATTATAACAAGCCGAGTCAAGAAGGAATGTATCAGCATTTTAAGGCAATTGCTGAAAGCACGCCGCTTCCGGTTATGCTATATAACGTTCCAGGACGATCTATTGTACAAATCTCCGTTGATACAGTTGTTCGTTTATCAGAAATAGAAAACATTGTTGCTATTAAAGATGCCGGCGGCGATGTGTTAACAATGACAGAAATCATTGAAAAAACAGCGGACGACTTTGCGGTATACAGCGGTGATGACGGTTTAACGTTACCGGCTATGGCAGTTGGAGCGAAAGGTATCGTTTCGGTAGCATCTCATGTCATCGGAAACGAAATGCAAGAAATGATTACAGCATTTCAAGCAGGAGAGTTTAAGAAGGCGCAAAAATTACATCAATTACTTGTAAGAGTAACTGATTCGTTATTTATGGCGCCAAGTCCAACTCCAGTAAAAACAGCGTTACAAATGGTTGGATTAGATGTAGGTTCTGTACGTTTACCACTTCTTCCATTAACAGAAGAAGAAAGAGTAACGTTACAATCTGTAATGCAATCTATTCCTCGTTAA	MIDFGTIATAMVTPFDINGNIDFAKTTKLVNYLIDNGTTAIVVGGTTGESPTLTSEEKVALYRHVVSVVDKRVPVIAGTGSNNTHASIDLTKKATEVGVDAVMLVAPYYNKPSQEGMYQHFKAIAESTPLPVMLYNVPGRSIVQISVDTVVRLSEIENIVAIKDAGGDVLTMTEIIEKTADDFAVYSGDDGLTLPAMAVGAKGIVSVASHVIGNEMQEMITAFQAGEFKKAQKLHQLLVRVTDSLFMAPSPTPVKTALQMVGLDVGSVRLPLLPLTEEERVTLQSVMQSIPR	PGPT0002080_7582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK009_03776	1233	lysC_2		Aspartokinase	ATGAAAATAATTGTTCAAAAATTTGGTGGCACATCAGTACGTGATGACAATGGACGTAAGCATGCGCTTCATCATATAAAAAAATCATTAGCTGCTGGTTATAAAGTAGTTACTGTCGTATCTGCTATGGGTCGTAAAGGTGAACCATATGCAACGGATACGTTATTAAGTCTTGTAAATCAAGAGGAATCTACTATTTCTAAACGTGAGCAAGATTTATTATTATCGTGCGGAGAGTTAATCTCTGCAATTGTTTTCTCTAATATGTTGAATGAGAACGGTATAAAAGCAGCAGCATTAAATGGTGCACAAGCTGGTTTTGTAACGAATGATGACTTTACGAATGCAAAGATTATTGAAATGAATTGCGATCGTATACATGAAGAGTTAGAAAATGTAGATGTAATCGTCGTTACAGGATTCCAAGGGCAAACGAAAAAAGGTGATACGACAACACTTGGACGCGGAGGTAGCGATACTTCAGCTTCAGCATTAGGTGTTGCGCTTCATGCTGAATACATCGATATATTCACTGATGTAGAAGGTGTTATGACTGCGGATCCTCGTATTGTAAAAGATGCACGTCATCTTCAAACTGTAACGTATAACGAAATTTGTAACATGGCTTATCAAGGTGCGAAAGTCGTTCATCCACGTGCAGTTGAAATTGCGATGCATGCAAAAGTACCGCTTCGTGTACGTTCTACGTATTCTGAGAGTGAAGGTACGCTTATTTCAGCATATGACGGTGCTACAAGAGGTCGTGATGTAGAAGAACGTCCTGTTACAGGTATTGCCCACGTATCAAACGTAACGCAAATTAAAGTGCTTGCAAAAGAAACGGCATATGATTTGCAGCAACATGTGTTTAAAGAAATGGCGAACGAAGGAATCAGTGTCGATTTAATTAACATTTCACCTACTGGCGTAGCATATACGGTGAGTGATAATGTATCAAGTCATGCAGTTAAATTATTAAAGAACCTTGGATATGAGCCAATTGTGACAGAGCATTGTGCGAAAGTATCTATCGTTGGAGCTGGAATGGCAGGATACCCAGGGGTTACTGCGAAAATCGTTACAGCTTTAGCAGAAAAAGGTATTCAAATTCTGCAATCGGCAGATAGTCATACAACAATTTGGGTTCTTGTAAAAGAAACTGATTTAGTGGAGGCTGTAAATGCATTACATAGTGCGTTTGAGCTTTCAAAAGAAAAGCAACTGGAACAATAA	MKIIVQKFGGTSVRDDNGRKHALHHIKKSLAAGYKVVTVVSAMGRKGEPYATDTLLSLVNQEESTISKREQDLLLSCGELISAIVFSNMLNENGIKAAALNGAQAGFVTNDDFTNAKIIEMNCDRIHEELENVDVIVVTGFQGQTKKGDTTTLGRGGSDTSASALGVALHAEYIDIFTDVEGVMTADPRIVKDARHLQTVTYNEICNMAYQGAKVVHPRAVEIAMHAKVPLRVRSTYSESEGTLISAYDGATRGRDVEERPVTGIAHVSNVTQIKVLAKETAYDLQQHVFKEMANEGISVDLINISPTGVAYTVSDNVSSHAVKLLKNLGYEPIVTEHCAKVSIVGAGMAGYPGVTAKIVTALAEKGIQILQSADSHTTIWVLVKETDLVEAVNALHSAFELSKEKQLEQ	PGPT0014040_4753	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK009_03777	1047	asd_2	COG0136	Aspartate-semialdehyde dehydrogenase	ATGGAAAAGCAAAAAACTTTTCATGTCGCTGTAGTTGGAGCAACCGGCGCAGTTGGTGAACAAATGTTAAATACTTTAGAGAAACGAGAATTTCCGATTGGGAAGTTAACGTTACTTTCATCTAAACGATCTGCAGGTAAGAAACTTGTATTTAAAGGCGAAGAATTTACAGTTCAAGAGGCAACTCCTGAAAGCTTTGAAGGAGTAGATATCGCACTATTTAGTGCTGGTGGATCTGTATCGAAACAATTAGCGCCAGAAGCAGCAAAACGCGGTGCGATTGTTGTTGATAATACAAGTGCATTCCGTATGACAGAAAACGTGCCACTTGTTGTACCTGAAGTAAATGAAAATGACTTAAAAGAACATAATGGCATTATTGCAAATCCAAACTGTTCTACAATTCAAATGGTAGTAGCTCTTGAGCCAGTTCGTCAGCAATATGGTTTAAAACGAGTAATCGTTTCCACATATCAAGCTGTATCAGGTGCTGGTGCGGCAGCTATTGAAGAACTTCATGAACAATCACAAGCAATCTTAAATGGCGAAGAAGTTAAGGCAAATGTTCTTCCTGTATCAGGTGATAAGAAGCATTTCCCAATTGCTTTTAATGCGATTCCACAGATTGATAAGTTCCAAGATAATGGATTTACATTTGAAGAAATGAAAATGATTAACGAAACGAAAAAAATTATGCATATGCCTGAATTAGAAGTAGCGGCAACATGTGTACGTTTACCAGTTGTATCAGGACACTCTGAGTCTGTTTACATCGAAGTAGAAAAAGAAGGCGTAACAGTAGCAGAATTAAAGAGCTTACTTGCAAATGCGGAAGGTATTGTTCTGCAAGATAATCCAGAAGAGCAGTTATATCCAATGCCAGCTACTGCAGTAGGTAAAAACGAAGTATTCGTTGGAAGAATCCGTAAAGATTTAAATAACGATAAAGGATTCCATCTTTGGGTCGTATCTGATAACTTATTAAAAGGCGCTGCATGGAATTCTGTTCAAATTGCAGAGCGCTTAGTAAAATTACAATTAGTGTAA	MEKQKTFHVAVVGATGAVGEQMLNTLEKREFPIGKLTLLSSKRSAGKKLVFKGEEFTVQEATPESFEGVDIALFSAGGSVSKQLAPEAAKRGAIVVDNTSAFRMTENVPLVVPEVNENDLKEHNGIIANPNCSTIQMVVALEPVRQQYGLKRVIVSTYQAVSGAGAAAIEELHEQSQAILNGEEVKANVLPVSGDKKHFPIAFNAIPQIDKFQDNGFTFEEMKMINETKKIMHMPELEVAATCVRLPVVSGHSESVYIEVEKEGVTVAELKSLLANAEGIVLQDNPEEQLYPMPATAVGKNEVFVGRIRKDLNNDKGFHLWVVSDNLLKGAAWNSVQIAERLVKLQLV	PGPT0014045_2498	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
AK009_03778	177	dpaB	COG0452	Dipicolinate synthase subunit B	ATGCGCCTAATGGCAACAAAAAACATCTACTTCGTTCCATTCGGTCAAGATGCACCAGAGAAAAAACCCAACTCAATGGTAGCTCGCATGGAGCTGCTGGAAGACACAGTATTAGAAGCACTGCAAGGAAAGCAATTGCAACCGGTGGTCGTAGAAAAATTCAGATATATGAATTAA	MRLMATKNIYFVPFGQDAPEKKPNSMVARMELLEDTVLEALQGKQLQPVVVEKFRYMN				NA	NA	NA	NA	NA
AK009_03779	453			hypothetical protein	ATGAGCAACATTACATGGATTGGTGTAAGTAAAAAAGAAATTACGGATAATGAGATAAAAAAAGTAGAAGAGTATTTTAACATTAAACTACCTAATGATTTTATTGAGTGTGTTAAAGAAAATGACGGAGGATATCCTCAGCCTAAAGTTTTTGATATAGCAGGACAAGATGAAAGTACATTTAATGATCTATTAACTCTACATATGGATGATAAATATTCAATTGTCCAAAGATACGAGAATATAAAAGAATGGTTGGTGGATCTAGTATATCCATTTGCAAGTGATTCATTTGGAAATTTCTTATGTTTTGATTATCGAAACAATCCTGATTTACCAACAATCGTATTTTGGGATCATGAAGAAGAAGATATAGAGAAAGCAATATATCCTGTTTGCTCTACATTTACAGAATTACTTAACAGCCTACGTGATTTTGAAGACGAGGAATAA	MSNITWIGVSKKEITDNEIKKVEEYFNIKLPNDFIECVKENDGGYPQPKVFDIAGQDESTFNDLLTLHMDDKYSIVQRYENIKEWLVDLVYPFASDSFGNFLCFDYRNNPDLPTIVFWDHEEEDIEKAIYPVCSTFTELLNSLRDFEDEE				NA	NA	NA	NA	NA
AK009_03780	1233			hypothetical protein	ATGAGTACGCAGATTAAGGTAACGCCAGAGCAATTAGAGCATGCGGCCAAGACCGTAAGAGATGCGAGATCAACCCTAGAGTACATACATAAAGATTTATATAAACAAACAGAATACATTGCTTCTCAATGGAGCGGAGCAACGAGTGATCGGTTCTACCATATGTTTAATGATACAAAACCAATGATGTTTAATGTTCTACAGGAATTAGAGAAAATTGCAGTAGAATTAGAACGTGCAGCTGTTAAATTCCGCGAAGCCGATGAGTTGTATGGTGGGAATTTAGTTGACTCTGATATTCAAGAAGGAGCCATGTGTGGAAAACTTCCTCCAAAATCAGAAGAGTCCTTTCTGAATAAAAAGGATTTAAATGCTGCGTGGACTGGTATTTCTACTGGTTTTGTAGATGGTGCAGTGGATGCGTGGGAAGGACTCATATCCTTAGGTGATAAAGAAACCTGGCTGAATATGCGAGATGCGATTGTAAACTATGAGGAAACTATTCCTGCTGCATGGAACGCTTTCTCAGATACATTTATGAATAAGTTTTGGAATGGAGATCTGGAAAGTAGAGAGCATTATGTAGCTTATGGTGTAGCAACGTTAGGACTCGGACTTCTGGGTGATAAGGGTCTTAGTAAAGCAGGACAAGTAGGGAAGGTAGCTGCTATTGCAGGGATTACCAAGGGGAAATCACTTGTAATTAATTCTCCTGCTTACAGAAATGCATTGCATATATTAAATAACTATGAGTTTAAAGGTGGTAATCACCTTTCATATGCGGGAATTGGTAGCACACAACAATATATACAGAAAGCGGTCACCTATACTTATGAAGGTAAAAATGGTCCAAAGACAATTAAATTAAGAAAAGGGGATTTGGCGGGAGATAAACATCCAGTTTCAGGCGTGCCATATGATCTAGATGGATTCCCTATTTTCGATGCTATTACTGAAGTTAAATTAAAAGAAGCTGATTTTAAAAAAACAAGACCCACACATGATAGAATATGTAATAAGTTATTATATGAACAAATATTAAAAGATCCCAAATTAGCTGCTAAATTTACAGCAGAGGAAATTGAACTATTTAAGAAGGGTGAAAAACCTAAGACGTATACATGGCATCACCATCAGGATACAGGTAGAATGCAGCTCGTAGACGCGTTCCTGCATGAGAAAACTGGCCATACTGGTGGATATAATATTTGGGGCAAAAAAGGTGAAAAATAA	MSTQIKVTPEQLEHAAKTVRDARSTLEYIHKDLYKQTEYIASQWSGATSDRFYHMFNDTKPMMFNVLQELEKIAVELERAAVKFREADELYGGNLVDSDIQEGAMCGKLPPKSEESFLNKKDLNAAWTGISTGFVDGAVDAWEGLISLGDKETWLNMRDAIVNYEETIPAAWNAFSDTFMNKFWNGDLESREHYVAYGVATLGLGLLGDKGLSKAGQVGKVAAIAGITKGKSLVINSPAYRNALHILNNYEFKGGNHLSYAGIGSTQQYIQKAVTYTYEGKNGPKTIKLRKGDLAGDKHPVSGVPYDLDGFPIFDAITEVKLKEADFKKTRPTHDRICNKLLYEQILKDPKLAAKFTAEEIELFKKGEKPKTYTWHHHQDTGRMQLVDAFLHEKTGHTGGYNIWGKKGEK	PGPT0027660_166	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
AK009_03781	762			hypothetical protein	ATGACAGATTTAAAATTAGAGCAATCCAATTTAACGTGGTTAGAAGATAGAACAATCCTCTTGTCTCCTACAGGTAGTTATGCCTATGGAACAGATACAGATACATCAGATAAGGACTATAAGGGTGTATGCATCCCACCAGTTGAGTATTACTTAGGTTTGGATTCATTTAATGAGTACAACACATCAGGTGGTAAAAACTTCAGAAACACGAAGGATGATGTCGATGTAAACATCATTCATGTGAACAAGTTTGTTAGAGATGCTATGCAAAGCGTACCTAATAACATCGAGATCCTATTTGTTCGTCCGGAGGATTACATCAAGGTTACTCCACTCGGACAAATCTTAATCGATAACCGTCACTTATTCTTATCAAAAAACATTAAGTACCGATTCGGTGGATATGCAAATTCACAAATCCAAAAGCTAAAGAATAAGAACTCAAACGGAACAGGCAGACGTGACTTAATCGGTGCTCATGGCTACGATACAAAGTTCTTTATGCACAGTATCCGATTACTAACAAGTGCAACAGAAATCTTGGAGACAGGTAATTACAGTACGTATCGTCCTAACCGAGAACTTCTATTAGATTGTCGTAATGGTAAATACACTTTCGAAGAAGCTTTAGAAATGGTTGAAATGTACGACAATGAATTAGCAGCAGCCTATGAGAAATCAGAGCTTCCGGCAAAAGCTGATTATGACAAGATCAATAAGATGTTAATGGATATCAATAAACAAGGACTTGCTCTTTAA	MTDLKLEQSNLTWLEDRTILLSPTGSYAYGTDTDTSDKDYKGVCIPPVEYYLGLDSFNEYNTSGGKNFRNTKDDVDVNIIHVNKFVRDAMQSVPNNIEILFVRPEDYIKVTPLGQILIDNRHLFLSKNIKYRFGGYANSQIQKLKNKNSNGTGRRDLIGAHGYDTKFFMHSIRLLTSATEILETGNYSTYRPNRELLLDCRNGKYTFEEALEMVEMYDNELAAAYEKSELPAKADYDKINKMLMDINKQGLAL				NA	NA	NA	NA	NA
AK009_03782	255			hypothetical protein	ATGTGTGTTTGTGGAAGTGATAGAAACCCAGGATTCAGACAGTGCTGCGGTTCTCTTTCGTTACAGAGAAAAGAGGAAGCTGTAAAAGAGTTACAGAAGACGTACATGGATGATACAATTGTTAATCATCCGAAATATGAGGAAATCATGTTAATGACTCTTCATGATGTAATTCCACATCTGAGCCATCATGGATTAAATATCCTTACTGGTAGAATAGATTTACTTAAAAGAATGAAGGGGGCTTCAAAATGA	MCVCGSDRNPGFRQCCGSLSLQRKEEAVKELQKTYMDDTIVNHPKYEEIMLMTLHDVIPHLSHHGLNILTGRIDLLKRMKGASK				NA	NA	NA	NA	NA
AK009_03783	309			hypothetical protein	ATGAGGAAGGTGATTCAAGTGACTGAAAATGAAAAATTAATGGATAGTGTAAATGAAGAAGTATATCAAGAACGTCTTCGTCAAAATGAAAAGTGGGGTATTCAACGACACCCTATTGGTACATGGCTATCTATCTTAGGAGAAGAGTTTGGAGAAGTATGCCAAGCCGCTCAAAGTGAATTAGGATTAGCTAGTGTGAAAGATACAGATGCAGACAATTTATATATGGAATGTATTCATGTTGCAGCCGTTGCTTCAGCTATTGCAGAACAAATTAAGGAGCAACATTCCTTAAAGGAGGTAGCTTAG	MRKVIQVTENEKLMDSVNEEVYQERLRQNEKWGIQRHPIGTWLSILGEEFGEVCQAAQSELGLASVKDTDADNLYMECIHVAAVASAIAEQIKEQHSLKEVA				NA	NA	NA	NA	NA
AK009_03784	306			hypothetical protein	ATGGATTATTACATAGTTATTCTTAAAAGTTATGATTCAATAAGTATCTTTCGAACAAAGGAATATAACGACGATGTTGTAAGTCTATTGAATTGGTACATTGGTTCTAGTTTTGATGTAACTGCAGTATTTAAAAATGCTGAGCCAATAGTAATTGGCGAGTATGTTTTCCAAACAAAGAAAGAAATCCTAGATGAATTAGAATGGAAAAGATATATGTGGTTTGATGAAGAAGGTGAAGAGCTAGAGGAGAAGATCCGTAAGTTATTGGATGCTCTTTATGAGGAAGGTGATTCAAGTGACTGA	MDYYIVILKSYDSISIFRTKEYNDDVVSLLNWYIGSSFDVTAVFKNAEPIVIGEYVFQTKKEILDELEWKRYMWFDEEGEELEEKIRKLLDALYEEGDSSD				NA	NA	NA	NA	NA
AK009_03785	153			hypothetical protein	ATGGAAACAAGACCAATTGAAAAGAAATGTTTAGTAGTAGAAGCGAAGAAATATCTATTTGGTCAACCACCACCAGGAATGGCGGAGCAACGATGGCACAATTACATGAATGCTAGAAGAAACTGCACATGCGGAAATTGTCCAAAAGAGTAA	METRPIEKKCLVVEAKKYLFGQPPPGMAEQRWHNYMNARRNCTCGNCPKE				NA	NA	NA	NA	NA
AK009_03786	186			hypothetical protein	ATGATGTTGATTAGTGCCATGTGCCTATTAGTTGTTGCAGCTTTTGGGTTCGTAGGTAGCCTAGCATTTACAGTTTACCATTTAGAGAATAGAAACTGGATTCGAACTTTTATTGAATTCATCGGTATCATGTTCTTCTTATTTTGGGGATTTGTAGATGCTGCTGCAGTCGCTATATTCTGGTAG	MMLISAMCLLVVAAFGFVGSLAFTVYHLENRNWIRTFIEFIGIMFFLFWGFVDAAAVAIFW				NA	NA	NA	NA	NA
AK009_03787	252			hypothetical protein	ATGGAAATTCTTAAATTTGGTTTAAATGGGTGCGGCCCTTGTGTAACAGTTGAAAGATTTTTAAAAGACGAGGGTGTAGATTTTACATCTGTTAATGTAGAAGAAGAACCTGAAAAAGCAGCTCAATACGACGTACTGTTTTCTGTTCCAGTGGTAATTCTAAAAGATGGTGACAAGGAAATCATGCGTACTACTGGTTATAACTCTGGCCAGCTAGGAGAAATTATCGACCTGTACCAAGGTGCACAATGA	MEILKFGLNGCGPCVTVERFLKDEGVDFTSVNVEEEPEKAAQYDVLFSVPVVILKDGDKEIMRTTGYNSGQLGEIIDLYQGAQ				NA	NA	NA	NA	NA
AK009_03788	1032	nrdF_2	COG0208	Ribonucleoside-diphosphate reductase subunit beta	GTGGTGATTAGTACTAGATCAGTAGATTTAAAGAAACATAAAGCTGTTAACTGGACCAAATACAATACAGAGTATATCGAGTCCATTTACAATCAAATGCGCCAACAATTTTGGCTAGAAAATGAGATACCTGTATCAAAAGATAAGAACGTTTGGGATATGCTTCCGAAAGATCAGAAGGAAGTATACAAGAAAGTTCTTGGCGGTTTAACGCTATTGGATACAAAGCAGGGTGGAGAGGGTATGCCACTTGTCTCATTACATATGGAAGACCCTCAAAAGAAAGCAATTATCAACTTCATGGCAATGATGGAGGATATCCATGCGAAATCGTATTCTCATATTTTCATGACTCTTTGTGAAAATGAAGAAGTAGATGCGGTGTTTGACTGGGTTGAAGAGAATCCATTCCTTCAAAAGAAAGCTGATATCATAACAGGTCATTATCGTAAGTTATTAAAACCTGATGTGGATCCAAAAGAATTATATATGGCTATAGTAGCATCAGTATTCTTAGAAAGCTTTTTATTCTACAGCGGGTTCTTCTATCCGTTATTCTTAGCGGGACAAGGACAGCTAACTGCTTCCGGTGAAATCATTGCATTAATCTTAAGAGATGAGGCAATCCACGGGGTAACAGGTGGTATCTTCGCTCAAGAGATTTATGAAAACCAACTTACTGAAGCTGAACAGCAAGAGGTAGATAAAGAAGCAATTCAATTATTAGAAATGTTATACGCGAATGAATTAGATTACACGAATGATGTGTATGCTCCACTTGGAAAAGACATGATCGAAGAAGTAAATAAGTTCCTACGTTATAACGCAAATAAAGCAATGATGAATTTAGGATACGACCAATACTTTGATGATGAGTATGTAAATCCAATCGTTCAAAATGGACTACAAACAAAAACGAAACAACATGATTTCTTCTCTGTTAAAGGAAATGGATATGTAAAAGCCATTAACGTTGAAGAAGTACGAGACGAAGATTTTGTGTTTGAAGGCCTTCCATCATATGCAGCTTAA	MVISTRSVDLKKHKAVNWTKYNTEYIESIYNQMRQQFWLENEIPVSKDKNVWDMLPKDQKEVYKKVLGGLTLLDTKQGGEGMPLVSLHMEDPQKKAIINFMAMMEDIHAKSYSHIFMTLCENEEVDAVFDWVEENPFLQKKADIITGHYRKLLKPDVDPKELYMAIVASVFLESFLFYSGFFYPLFLAGQGQLTASGEIIALILRDEAIHGVTGGIFAQEIYENQLTEAEQQEVDKEAIQLLEMLYANELDYTNDVYAPLGKDMIEEVNKFLRYNANKAMMNLGYDQYFDDEYVNPIVQNGLQTKTKQHDFFSVKGNGYVKAINVEEVRDEDFVFEGLPSYAA	PGPT0021345_2021	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
AK009_03789	2085	nrdE_2	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	ATGTCTCACGTTGCATTAAACAATGAAGTTGGGATCTTAAAGGATGGATTCTATCAACTTGCAAAAGACAAAGAAGCCTTAGAGGTATTCCTTGCCGAAGTAAAAACAAAGCAATTAGAATTTGCTTCGATATTAGACAAAATCAAATACCTAATCGAACACAATTATTACTACAATGTGTTTGGAGAGTATACGGAGGAAGAAGTACAACGTATTTATGAAGCTGCTTATACTCATAAGTTTGAATTCCAATCCTATATGGCTGCTACAAAGTTCTATAAGGACTACTCATTACGTTCAGACGATAAGAAAATCTACTTAGAAGATTATGAGGATCGTGCTGCAATCGTAGCTTTATACTTAGCATCAGGTAATACAAAGAAAGCACTACGTTATGTGAACCAAATCATGAAGCAAAATTACCAACCTGCTACACCAACATATTTAAATTCTGGTAAAGCTCGTGCTGGGGAATTAGTTAGTTGCTTCCTATTAGAAATGGATGACTCATTAAATAGTATTAACTACAACTTATCAGTAGCAAAACAGTTATCTAAAATTGGTGGAGGAATTGCGATTAACTTAAGTAAATTACGTGGTCGTACTGAAGCTATTAAAGGTATTGAGAACGCTGCTAGTGGTGTATTACCGGTAATGAAGTTAATGGAGGATTCATTCTCTTACATTAATCAACTTGGACAACGACCGGGTGCCGGAGCTGCATACTTAAACATCTTCCATTGGGACTTAATTGAATTCCTTGATTCAAAAAAAGTAAATGCCGATGAGAAGACACGTATTCAATCTTTATCTATTGGATTAGTTACACCGAGAAAGTTCTTCCAGTTAGCTGAACAAAACAAAGAGATGTATCTATTTGCACCTGCTACTGTTTATAAAGCTTATGGAGTTCACCTAGACGATATGGATTTAGATGAGAAATATGACGAGTTAGTTGCAAACCCTATGGTTCGTAAACGTAAGTTAGACCTTACAGCTCGTGAGATGTTAGTTAAGATCGCAACGATTCAATTAGAATCTGGCTATCCTTATTTTATGAATAAAACAAACGCGAATGAACAACATCCATTAAAAGATTTAGGCGGCGTTAAAATGTCTAATCTTTGTACTGAGATTTTTCAGTATATGGAGACAAGCGTAATTAACGATTACAATATCGCGGACTGGATCAAGAATGATATTTCTTGTGTATTAGGTTCACTAAACATTGTAAATGTAATGGAGAACAAAGATGTAAAAGAAGCTGTACATACTGGTATGGAAATGTTAACAGATGTTACAGATAAGTCTTGTATCGAAAACGCTCCTGGTGTTAAGAAAGCGAATGCTACATTACACTCAGTAGGTCTTGGAACAATGAACCTTCATGGATTCCTTGCTAAGAACTTCATTCCATACGAATCAGAAGATGCAAAAGACTTTGCTCGTGTATTCTTTGCAATGCTGAACTATCACTCTATCGAAAAGTCTACAGAGATTGCTAAAGAAAGAGGAGTATCTTTTGAAGGATTCGAGAAATCTGAGTATGCAAAAGGTACTTATTTTGAGAAGTATTTAACAACAGAATTCTTACCTCAATCTGAAAAAGTTAAGAAACTATTTGAAGGTATTCAAATTCCAACAACTGCGGATTGGGAACGTCTAATGAAGCAAGTTCAACGTGATGGTTTGTACCACTCTTACAGACTTGCAATTGCTCCGAATCAAAGCTCAGGATATGTACAGAACGCTACACCAAGCGTAATGCCAATCGTTGATAAAGTAGAAACTCGTTCAACTGATAAAGCGACTACTTACTATCCAATGCCTTACTTATCAAAACAAACATTCTTCTCTTACAAGTCTGCTTATGAGATGGACCAAATGAAGGTTATTGATTTAATTGCTGAAATCCAACCTCACGTAGACCAAGGTATTTCATGTATTCTGCACGTTACAAATGGTACTTCGACAAGAGATCTTGCTCGTTATTACATCTATGCAGAAAAGAAAGGGCTTAAGAGCCTTTACTATACACGTACATCAAATTCAACTATAGAAGAATGTATTGCTTGTGCAGTATAA	MSHVALNNEVGILKDGFYQLAKDKEALEVFLAEVKTKQLEFASILDKIKYLIEHNYYYNVFGEYTEEEVQRIYEAAYTHKFEFQSYMAATKFYKDYSLRSDDKKIYLEDYEDRAAIVALYLASGNTKKALRYVNQIMKQNYQPATPTYLNSGKARAGELVSCFLLEMDDSLNSINYNLSVAKQLSKIGGGIAINLSKLRGRTEAIKGIENAASGVLPVMKLMEDSFSYINQLGQRPGAGAAYLNIFHWDLIEFLDSKKVNADEKTRIQSLSIGLVTPRKFFQLAEQNKEMYLFAPATVYKAYGVHLDDMDLDEKYDELVANPMVRKRKLDLTAREMLVKIATIQLESGYPYFMNKTNANEQHPLKDLGGVKMSNLCTEIFQYMETSVINDYNIADWIKNDISCVLGSLNIVNVMENKDVKEAVHTGMEMLTDVTDKSCIENAPGVKKANATLHSVGLGTMNLHGFLAKNFIPYESEDAKDFARVFFAMLNYHSIEKSTEIAKERGVSFEGFEKSEYAKGTYFEKYLTTEFLPQSEKVKKLFEGIQIPTTADWERLMKQVQRDGLYHSYRLAIAPNQSSGYVQNATPSVMPIVDKVETRSTDKATTYYPMPYLSKQTFFSYKSAYEMDQMKVIDLIAEIQPHVDQGISCILHVTNGTSTRDLARYYIYAEKKGLKSLYYTRTSNSTIEECIACAV	PGPT0021340_6044	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK009_03790	363	nrdI_2	COG1780	Protein NrdI	ATGATTGTATTTGACAGCAAGACTGGAAACGTAAAGAGATTCATTAAGAAGCTCGGTATTCCAGCTGTACAAATTACACCCGACTTAGTTATGGAACAGCCTTTTATATTGATTACTTACACATCAGGATTTGGTCAAGTTCCAGAAACTACACAGTCATTTCTACAAGCCAATAACTCATTCTTACAAGGAGTTGCTAGTAGTGGTAACCGTAACTGGGGTGAACACTTCGCAGCTGCAGGAAGAATTATTTCAGAGCAATATCACGTACCGCTGATTCATCAATTTGAGTTGAGTGGAACAAGAAAAGATATTCAAATAGCCAAAGAAAGGATAGAAGAACTATGTCTCACGTTGCATTAA	MIVFDSKTGNVKRFIKKLGIPAVQITPDLVMEQPFILITYTSGFGQVPETTQSFLQANNSFLQGVASSGNRNWGEHFAAAGRIISEQYHVPLIHQFELSGTRKDIQIAKERIEELCLTLH				NA	NA	NA	NA	NA
AK009_03791	1098	xerS_1	COG0582	Tyrosine recombinase XerS	ATGAGACTTGAACGCCAAAAGGATAGTGAGAAGCTAGAAAAACTACGTCCTTCGTTTCCTTACTATATTTCTGAATACATACAAGTGAGCTTAGATCAACTCACGCCTACAACAGTTCTCTCATATACAATAGATATCCAAGACTTTTTCGAATGGTTTTGGCATACTTTCGTACCGGAAAAACCGGGAATAAAAGAAATCTCCCTAGAAGACCTAGAGAGATTGATTGAGATTGATATATCGCATTACCGTTCACATTTAAAATATCGCGAGGATTCTCACAATATAGGTAATAGATATTACAAAACAAAAAATAAGGACACCACAATCAGCAGAAAGATTAGTGCCCTTAGAAGTTTGTTTGAATACTTAACTAAGAATACAAATCGTGAAACAGGTAGACCTTATCTTAGTAAGAATGTACTTGAGAATACAAAGGTGTTCTCTACTAAAGTTTCAGTTAGAGCTAAAGCTCAGAAACTTAAAAACAATATTATAAGACTTGAGGAACTAACTGAGTTCCAAGACTTTATCCTAGAGGGATATGGTAAAGAACAAATAAGCAACATGGAAAAAGCCTACTGGAAAATTAATCGACATAGAGATGCTGCAATCATCTCCCTTCTATTGACCAGTGGTATCCGTGTCGGTGAGTTATCTAGTCTTAGACTGAAAGATGTTATCTTTGATTCCCGCAAATTAGTCGTAGAAAGAAAACGAAGTAAAGAAGATGTTGTTTTCTTTTCTAAACAGACGTTAGAATATATAGTACAGTACCTTGAAGTTAGAGAGAGTCATTACAAAGCAGACGATAAACCGACCTCACCTTTATTTGTTACGAAATATGCGGGTAAGATAAACCCTATCAGTAAAAATACTGTTCAAAAAATGATAATGAAATATGCTAAAATCTATGGAAAGCCCGAACTGACAGCACACATACTGCGTCATAGTTTCGGGACGAATGTATTTAAAAAGACCAAGAACATTCGAGGAGTACAAGAAGCTCTTGGTCATTCATCAATTAATACGACTCAAATCTATACTCACATGTTCGAAGACGACGAACGTGAATTAATAGATGAAGTATTTGAGTAA	MRLERQKDSEKLEKLRPSFPYYISEYIQVSLDQLTPTTVLSYTIDIQDFFEWFWHTFVPEKPGIKEISLEDLERLIEIDISHYRSHLKYREDSHNIGNRYYKTKNKDTTISRKISALRSLFEYLTKNTNRETGRPYLSKNVLENTKVFSTKVSVRAKAQKLKNNIIRLEELTEFQDFILEGYGKEQISNMEKAYWKINRHRDAAIISLLLTSGIRVGELSSLRLKDVIFDSRKLVVERKRSKEDVVFFSKQTLEYIVQYLEVRESHYKADDKPTSPLFVTKYAGKINPISKNTVQKMIMKYAKIYGKPELTAHILRHSFGTNVFKKTKNIRGVQEALGHSSINTTQIYTHMFEDDERELIDEVFE				NA	NA	NA	NA	NA
AK009_03792	279			hypothetical protein	ATGTTTATTATTTCTGTAGGTAACAAATTTGTAAAACATATTTCGCTCAATGAGAGCAAGGAGATAACTGAGATGATATTTACTTCTGATATCAAGGGGGTACAGGAGATAAATGTAGATGATCTAGACATTTATAAGAAAGCTTTAGAAGATTACATAAAAGAAGATCCTTATGTGATTATACCTGTTGGTACACCCCTGGCACAAAATAGTAAAGAACATATTCTTGATGTTGGAACAAACACTTGGGATTTGGCTTCAGATAAAAATAAAGAATAA	MFIISVGNKFVKHISLNESKEITEMIFTSDIKGVQEINVDDLDIYKKALEDYIKEDPYVIIPVGTPLAQNSKEHILDVGTNTWDLASDKNKE				NA	NA	NA	NA	NA
AK009_03793	387	rtp		Replication termination protein	GTGGAGGAATATCAAAATAGAGGGTTCTTATTAAAACAGCGTTCATACTTAAAGTTATATATCTATAGAATAATTGATCGTAATAAAGGATATGGTTCACAGTATCTTAATGACTTGAGAGAAGAGTTTAAGTTTTTAGGCTATCATCCAACTCATACAGAACTATATAAAACATTACATGAATTAACACGGGATGGATATGTAAAACGGGAGAAAAGAATAAAAGGGGAAGAGGGAGTAGATTTTCAAGAAATTATTCTTTATCAATTAACTGACGAAGGCAAAAAAGAGTATAATAGATACAAACAACAAATGAAAGTAGAATTGGAACGCTGCAAAGGATTGCTTGATAAGGCGCTCAAAGATCATTATGGTCCAGTTCGCTAA	MEEYQNRGFLLKQRSYLKLYIYRIIDRNKGYGSQYLNDLREEFKFLGYHPTHTELYKTLHELTRDGYVKREKRIKGEEGVDFQEIILYQLTDEGKKEYNRYKQQMKVELERCKGLLDKALKDHYGPVR				NA	NA	NA	NA	NA
AK009_03794	639			hypothetical protein	ATGGCTAATCAATATAAAGGTGGATGGACTGAAGAGGAAGTCGATTATTTAGAATCCAATATAGGTGTCTGGGATTTTGATAGGATTGCCAAAAAGTTAGGCAAAACTCCTAAAGCCGTTCTGAAAAAAGCTGAATCATTAGGGATTGCAAATACAAAAGTTGCAAGCGGTCTTTATACTATGCATGAAATGGCGCAGGCCCTATGTTTAGATGATAAAACAGTGAAACGACTTATCACAAATCATGGTCTCCCAGGTAAGCAAAGAGATTTTAGGATAAAAAATAAAGAAGTAGATGAAAACGGTAAAAAGAAAAGCAAAAGACTTTTTTATTATATAGATGTAACAGATTTTTGGAAGTGGGCTGAAGCAAACAAGGACCTAATTAACTGGCATCAAGTTCCAAAATATGCTTTAATGCCTGAACCAGAGTGGTTAGAGGAACGGAGAAAAACTGACTACTATAAATGGGCTAATCGTAGAAGGCCTTGGACACCAGAGCAGGATGCTCAGCTATGGTCTATGTATTACCAAGAGGGGATGACACAAAAAGAAATAGCTACATTATTGGCTAGATCAGTAAACGGCGTAGAGAAACGCTTAAAACGATTAAGAGAACAGAAGTTAGTCGCTGTTTAA	MANQYKGGWTEEEVDYLESNIGVWDFDRIAKKLGKTPKAVLKKAESLGIANTKVASGLYTMHEMAQALCLDDKTVKRLITNHGLPGKQRDFRIKNKEVDENGKKKSKRLFYYIDVTDFWKWAEANKDLINWHQVPKYALMPEPEWLEERRKTDYYKWANRRRPWTPEQDAQLWSMYYQEGMTQKEIATLLARSVNGVEKRLKRLREQKLVAV				NA	NA	NA	NA	NA
AK009_03795	897	isp_2	COG1404	Intracellular serine protease	ATGGAATTTAAAATCCAATCAAATGTAATTGAGATTCAATCAGCGTCACCTATTCAAGTAGTTGACTGGGGTGTTAATGTTGTTCAGGCTCCCGAAATGTGGTCAATCACAAAAGGAGAGGGTATTAAGGTTGCTGTATTAGATACGGGTATTGATGCTACTCATCCGGATCTTGCTTCCAATTACAAAAAAGGAATGAACTTTACTACGTCTAACTTTACTGACATAATGGATAGACAGGGACACGGTACGCACTGTGCAGGTATTATTGCTGGTTGCGATAACTCAATCGGTATTGTTGGAGTTGCTCCTAAAGCTGAACTATACATTGCAAAAGTATTAGTAGACGATGGCTCTGGTTCGGTTGAAGCAATTGTAAAAGGAATTGATTGGGCTATCTCTGAACAAGTAGATATCATTTCTATGAGTCTAGGTTCTTCAGCTGATCCTGGTCCTGTTCTGCACAATGCTATTAAACGTGCTCATGAAGCAGGCATTATTATTGTTGCTGCTACTGGTAATGAGAATACTCATGTTGGATGGCCAGCATCATACGATGAAGTAATTGCAGTTGGTGCAATTAATCAAAATCTTGATAGAGCTAACTTCTCTAACTTCGGTAGTGAGACAGATATAGCTGCTCCAGGTGTAGACATTTATAGTACATATCCTGTAGGTCGTTATGCGAAACTATCTGGTACGTCTATGGCTACTCCAATGGTTGCGGGTGTAATTGCTCTTATTCTAGCTCGCTATCGAGACATTGGTAAGAAGTTAACTCCTGATCAAATCATGCAATTAATTCGTGAACATTCGGTCGATCTTGGACAAAAGGGTACTGATGACATGTTCGGTAATGGACTAGTAAGTATTCATGAATTAATGAAAACTAGTTAA	MEFKIQSNVIEIQSASPIQVVDWGVNVVQAPEMWSITKGEGIKVAVLDTGIDATHPDLASNYKKGMNFTTSNFTDIMDRQGHGTHCAGIIAGCDNSIGIVGVAPKAELYIAKVLVDDGSGSVEAIVKGIDWAISEQVDIISMSLGSSADPGPVLHNAIKRAHEAGIIIVAATGNENTHVGWPASYDEVIAVGAINQNLDRANFSNFGSETDIAAPGVDIYSTYPVGRYAKLSGTSMATPMVAGVIALILARYRDIGKKLTPDQIMQLIREHSVDLGQKGTDDMFGNGLVSIHELMKTS				NA	NA	NA	NA	NA
AK009_03796	1185	nupC_2	COG1972	Nucleoside permease NupC	ATGACAGGTATTTTAATAGGTCTTTTAGGTATTATTCTTACATTTGGTGTTGCCTTCTTAATGTCAAACGACAAGAAGAACATCAATTTCAGAGCAATTCTAGTTTTACTTGTACTGCAAGTAATTGTAACACTAGTTATGTTCAAAACTACTGCAGGTTTAAAAGTAGTAGAAGCTGTTTCTAACGGCGTAAATAAAGTATTATCATATGGAGTTGAAGGTGTTAACTTCGTCGTAGGTGGACTAGTTCCAGAGGGCGTAACAGTATTCTTCATTAACGTTCTTATGATTATTATCTTTACTTCAACTTTATTATCAATCTTAACTCATATCAAAGTGTTACCTTTAGCAATTAAATGTATTGGTGGAGCACTTTCTAAAGTTACTGGATTATCAAAAGTTGTCACATTTAACTCTGTGAATTCGATTTTCTTCGGTCAATCAGAATCATTATTAGCGGTTAAAACACATCTAGATAAAATGAATGACAACAAATTATTCATCATTTGTACGTCAGCAATGGCCTCTGTATCTGCTGCTATTATGGGAGCATACATGACTATGATTCCAGCAAAATATGTTTTAGTTGCTATGATCTTAAATGCTTTATCTTCTCTAATCATTGCTACAATTGTTGCACCGATTAAGAAAGAAGAAGATGAAGAGATTAATATCAAAGATGTATCTCAAACAAAATCAATCTTTGAAGCTATTTCAGTAGGTGCTCTTGATGGCGGTAAGGTTGCTCTAATCGTAGCTGCTATGTTAGTTGCATACATTGCCTTAATCGCATTAATCAACGCTGCATTCGCTGGTATCTTCGGAGTGGATCTTACTACAATTCTTGGTTATGTATTTGCACCTATTGCATTTGTTATGGGTGTTCCATCAAGTGAAATTGTAACTGCAGGTTCTATTATGGGAACTAAGTTAGCAACAAATGAATTCGTAGCAATGCTTCAATTCAAACCTATGATTGCTGACCTATCTGATAAGACAGTTGCTATTGTTTCTACTTTCCTAGTATCATTCGCTAACTTCTCTTCAATTGGTATCATTGGCGGTTCTATGCAGGCTATCAATGGAGCAAAAGCAGGTACTGTTGCTAAGTTTGGATTTAAGATGTTATTCGTAGCTACGATGGCTTCTATCTTAACTGCAACAGTGGTAGGATTATTCGCGTAA	MTGILIGLLGIILTFGVAFLMSNDKKNINFRAILVLLVLQVIVTLVMFKTTAGLKVVEAVSNGVNKVLSYGVEGVNFVVGGLVPEGVTVFFINVLMIIIFTSTLLSILTHIKVLPLAIKCIGGALSKVTGLSKVVTFNSVNSIFFGQSESLLAVKTHLDKMNDNKLFIICTSAMASVSAAIMGAYMTMIPAKYVLVAMILNALSSLIIATIVAPIKKEEDEEINIKDVSQTKSIFEAISVGALDGGKVALIVAAMLVAYIALIALINAAFAGIFGVDLTTILGYVFAPIAFVMGVPSSEIVTAGSIMGTKLATNEFVAMLQFKPMIADLSDKTVAIVSTFLVSFANFSSIGIIGGSMQAINGAKAGTVAKFGFKMLFVATMASILTATVVGLFA	PGPT0021065_422	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_03797	522			hypothetical protein	ATGGTTGTTGGAGATATTATTGTTGTAAGTGGAAAGTCTTTTATCTCAAAGATTATTCAAAAGGTATCAGGTTCTAAATGGACTCATGTAGCTTTGTATGTTGGTGGAGGGTATATCATAGAGATAGATTGGAATACAAAATCCACTATCGTAAGAGAGAAATATTCTACTAGTGATCTAGAATGTGTAGTGCTAAGAAATAAGGAAGAATTAACGAAAGAACAACGAGATGCTATTATTTCTACAGCAGTTACATATCAAAGAAAAGGTTTTCGCTATGATTGGCTTCGATTAATTTCTCTATATTTGAAATCAAAATTTCCTAATAGTAAACTGATAGACAAGTTTGATAGAAAGAACAAATTTGTTTGTACAGAACTAGTAGATGAAATCTTAAAAGAAGCAGGGATTGACCTATTCCCAAATCAAGGTGGAGATATTTTCCCTCATGAATACCTTACTTGTGAACAAGTAATGCCGTTAAAAAAAGTGAAACGGTATAGCTATATGAAGGCTAGATGA	MVVGDIIVVSGKSFISKIIQKVSGSKWTHVALYVGGGYIIEIDWNTKSTIVREKYSTSDLECVVLRNKEELTKEQRDAIISTAVTYQRKGFRYDWLRLISLYLKSKFPNSKLIDKFDRKNKFVCTELVDEILKEAGIDLFPNQGGDIFPHEYLTCEQVMPLKKVKRYSYMKAR				NA	NA	NA	NA	NA
AK009_03798	726	cobB_2	COG0846	NAD-dependent protein deacetylase	GTGTTAGATAGAGCAGCAGAACTTATTAAGAAGTCGAATCATATTGTCGTATTAACAGGGGCTGGTATCTCAACGGATAGCGGCCTTCCTGATTATAGGTCTAATGGTGGGTTATGGGATGGAAAGAAACCAGAAGAAATATCTCATTTCTCAGCTGTTGGCAAACCTGAGTTCGTCAAATTCTTTGCAGATCGTATGAATGATATTTCTAATTGCAAACCCAATAAAGCACATGAAATACTAGCAAAATGGGAAGAGCAGGGGAAGGTTAAGTCTGTTATTACTCAGAACATTGACAGCTACCATAAAGATGCAGGTAGTAAAAATGTAATTGAAATGCATGGCCACCTTCGGAATCTTGTTTGTGATACTTGTTCAAAGGAATACGACAACTCGATGTATACAAAAGAAGATAAGGATAATTGTGGTTTAGAGTGGGAATGTACAGGGGTTGTTCGTCCAGAAGTTGTATTGTTTGGCGAAACACTTCCTCCGCTCGCATGGCATCAAGCAAATGAACAAATGAAAAAGACTGACTTAGTGATTGTACTTGGAACATCACTACAGGTGTTTCCGTTTAATTCACTTGTGGAAAGTGTTTATCCTGGTAAGGCTCCTGTGATGATTATCACTAAAAGCGATACACCGTATGACCACATGGCTTCGGTTCGTATTTACGATAACATTACTGAGACTTTAGTAGAGATAGACAATAGACTAAAATAA	MLDRAAELIKKSNHIVVLTGAGISTDSGLPDYRSNGGLWDGKKPEEISHFSAVGKPEFVKFFADRMNDISNCKPNKAHEILAKWEEQGKVKSVITQNIDSYHKDAGSKNVIEMHGHLRNLVCDTCSKEYDNSMYTKEDKDNCGLEWECTGVVRPEVVLFGETLPPLAWHQANEQMKKTDLVIVLGTSLQVFPFNSLVESVYPGKAPVMIITKSDTPYDHMASVRIYDNITETLVEIDNRLK	PGPT0013485_2010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
AK009_03799	1071	nrnB	COG2404	Oligoribonuclease NrnB	ATGTTTGCTAACTTACCATCATTAACCGATAAAGTGGTTCATCATTTGTCACATAATGATATGGATGGATACGCTCCACAAGTCGTATCAAAGGTCTCTAAGCTAAACACAGCCGAGTTTATCCATTGTGGGTATTCTAACTTCGAGAAAAAGCTAGAAGACCTGGTTGCTTTCTTTGAGGAAGCTAAAGCTCTAGATGGGCATGCAATCTTAATTACAGATATCACTCCAAAATCAGAAGAACTAGTAGACCGCTTAAACAATTTATTTGAACGTGGTCTTGCTATTGTTCTTCTTGACCACCATGAGAAAGCTAACTGGATTAGCAAAAAGTATCCTGAGTGGGCTTTTATTGAGAGTGAATTTAATGGACGAAAAACTTGTGGAACTGAACTACTTTATATCTATTTAAAAGATAATGAACTATTCAGTACTGATGTTGTGGAATCCCCATATTTCGCAAGCTTTGTTGAACAAGTTCGTGCTTATGATACATGGGATTGGAATACTAATGGCAATGTAGAAGCAAAAGAGTTAAACTCTCTTCTTTATACATTTGGTCCAAGTAAATTCATGCATATGCAATTTGCAAAAATTGCTGAACATGTAAATGATCCAGAGGCGGTTAAATACACATTTAACGAAACCGAAAAACTCTTTGTTGATGTTGAAAACAAAAAAGAGGCGAAGTATATTGAATCTCGTTCTAAGACAATGAGTGTTCGTACATGGAACGTAAATGGTGAAAACATGGAAGTTGGCGTAGTATTCGGTGACCAATATCATTCAACATTAGGAAATGTTTTAAGCCAAGAAAATCCGCATCTTTTATTTATTGCTATTCTTGATTTAAATATCGGTAAGGCTAGCTTGCGTACAATTCATGACAATATCCATCTTGGAGATATCGCTGAAGCTATCGCTCCTGGTGGTGGTGGTCATCCAAAATCAGCTGGTTTTGAATTTGGTTCAGAAATCAGTTTAATGAAAATTGAAGATGCTATTGGTGTTTCTTCAACAGGTGTTACTACAAACTCTTGGAAAGAGCAGTTACTTAAAGTAGCTAATTAA	MFANLPSLTDKVVHHLSHNDMDGYAPQVVSKVSKLNTAEFIHCGYSNFEKKLEDLVAFFEEAKALDGHAILITDITPKSEELVDRLNNLFERGLAIVLLDHHEKANWISKKYPEWAFIESEFNGRKTCGTELLYIYLKDNELFSTDVVESPYFASFVEQVRAYDTWDWNTNGNVEAKELNSLLYTFGPSKFMHMQFAKIAEHVNDPEAVKYTFNETEKLFVDVENKKEAKYIESRSKTMSVRTWNVNGENMEVGVVFGDQYHSTLGNVLSQENPHLLFIAILDLNIGKASLRTIHDNIHLGDIAEAIAPGGGGHPKSAGFEFGSEISLMKIEDAIGVSSTGVTTNSWKEQLLKVAN				NA	NA	NA	NA	NA
AK009_03800	750			hypothetical protein	TTGGAAAATTTATATATCGTTTTTATTTTGGTACTTATGGAAGGGTTATTAAGTGCAGATAACGCACTTGTATTATCTATGATGGCAAGCAAAATCAAAGACCCTGTAAAGCAGAAGAAGGCATTGTACTACGGTATGGTCGGGGCAGTTGCATTTCGTGCCATCTTTATTTTATTAGGAACAATTATTCTTAAGTTCTGGATTATTAAAGTTTTAGGTGCAGCTTACTTATTACACTTAGCTATCAGCCACTTCAAGTCTCAAGGCGAAGAAGAAATGAATGTAGATAAATATGAAAATACAATTTTCCACAAGATCTTAGGTAAGTTCGGTGTTCGTTTATCACAGTTTTGGGCAATCGTTGTATCAATCGAATTTATGGATTTAGCATTCTCAATTGACAGCATTACAGCAGCATTAGCATTAAGCGACAAGTTTTGGGTATTAGCTTTAGGTGGAGTTCTTGGAATCATTATGATGCGTTCGGTTGCAGGAGTATTCATTAAGTTAATCAACCGTGTACCAGAAATGGAACACACAGCATTCGTTCTTATTGCAATTATCGGTGTGAAGATGTTATTAGGTACTGTTCATTACATGGTTAACTTTGTTGTTTCATTCACTGACAGTGCTTACCAAATGCAAGAAATCCATATTCCACATTGGATGTTCTTTGGAGTATTAATCATTACTTTTGGTATGACATTTGTTGTACATGCTATCAAAAAGAATAAACGCGCAGAAGCGTAA	MENLYIVFILVLMEGLLSADNALVLSMMASKIKDPVKQKKALYYGMVGAVAFRAIFILLGTIILKFWIIKVLGAAYLLHLAISHFKSQGEEEMNVDKYENTIFHKILGKFGVRLSQFWAIVVSIEFMDLAFSIDSITAALALSDKFWVLALGGVLGIIMMRSVAGVFIKLINRVPEMEHTAFVLIAIIGVKMLLGTVHYMVNFVVSFTDSAYQMQEIHIPHWMFFGVLIITFGMTFVVHAIKKNKRAEA	PGPT0003866_21	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
AK009_03801	99			hypothetical protein	ATGAGTTTATTCATTTTCTTATTAGGTGCAGTTGCAGGATGTTTCATTTGGGATTACGCAGGTGAAGATATTAAACGTGCAATTATGAACCGTCGTTAA	MSLFIFLLGAVAGCFIWDYAGEDIKRAIMNRR				NA	NA	NA	NA	NA
AK009_03802	228			hypothetical protein	ATGAGAGAAAAAGCAAAGAAGATCGCAGATAACTTTAAATTTATGACTCTACTATTAGTGGTAGAAGTTGTCATGTTCTTTATTTGCAAAGTCCTAGTAAGGGTGGAGTTGTTATTCCACCCTTACACTAAGGTCGGTGCAATGATGTTGTCCTTTGGGCAGCATATTTTATTTGGCATTTTTGGATTTATTATTACAATTCTACTCTTAGGAGGAAACAAAAAATGA	MREKAKKIADNFKFMTLLLVVEVVMFFICKVLVRVELLFHPYTKVGAMMLSFGQHILFGIFGFIITILLLGGNKK				NA	NA	NA	NA	NA
AK009_03803	603	yceD_1	COG2310	General stress protein 16U	ATGGCAGTTAATTTACAAAAAGTAGTAGGCGGACAACGAATCAATTTACGTAAGGAACAACCGGGACTGAAGAAACTTCGTGCTGAGATCTCTTGGGATGAAAACCGATTCGATACAGGTGGTAAACACGATTTAGATATCTTTGCAGTAGCTCTTCAATCTAATGGTAAATGTCGTGAAGATCGTGACTTCATTGTGGCATTCGGTTATGACGACAATGGAAACAACTTAGCTATCCACCCAAGTGGAGCAATCGTTCATAGTGGTGATGAAATGTCAGGAAGCAAAGACGGTGCTGATGAAGTAATCTCTGTTGACTTCACACGTGTTCCAGCTCATATCACTGAGATGCATTTCATTGCTAGCACAAATGATGGTGTACGCTTCGGTGACGTTCGTAACGCGAAAGTAGTTCTTGTTAATGACGAAACTAACGAGCCAATGTACGAGTACGATTTAGAAGAAAACTACTCAACTGAAACAGCAATTCTTCTGTTCAAGCTTTACCTAAAAGATGGTGACTGGAGATTTGGTGCTGAAGGTAAAGGCTACAATAAAGGCGTTGAAGCATTTATCGTTGAGTACGGATTACAAGTAGGTTAA	MAVNLQKVVGGQRINLRKEQPGLKKLRAEISWDENRFDTGGKHDLDIFAVALQSNGKCREDRDFIVAFGYDDNGNNLAIHPSGAIVHSGDEMSGSKDGADEVISVDFTRVPAHITEMHFIASTNDGVRFGDVRNAKVVLVNDETNEPMYEYDLEENYSTETAILLFKLYLKDGDWRFGAEGKGYNKGVEAFIVEYGLQVG	PGPT0004910_124	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
AK009_03804	651	yceD_2	COG2310	General stress protein 16U	ATGGCTATCAATCTTATTAAAGCTGGTCAAACAGTTGTATTAGCAAAAGAAAATTCAGGTCTACGTAAAGTAACGTTAGGTTTACGATGGGGAGCACTAACTGAGAAGAAAGAAGAGAAAAAGGAAAAAGTAAGTCTTTTATCTGCAATCTTCGGTGGCGGTCGTCGTTCTAGTTCTAGTGAGTCATTTATGTCAGGTGGAGCAGTCGATGTTGACTCTGCAGTTATTTTACTAGATGGAAATGGTCGTAAGGTAGACCGTGTTTACTATGCAATGCGTAGTGCTCAAGGTGTTTATCATGCAGGTGATGACCGCAGCGGTAACAATCAGTTCGGTGAAGTAGATAATGAGGAAATCTATGTAGATCTTCAAAAGCTTAATCCGGCTGTTAAAGAGATTTATGTTATTGCAAACATCTTCTCAGGAGCTAACGATTTTAATGACCGACGATTAAGAGGTTCATATGTACGTCTTTTGAATTCTGAAAACAACGACGAGTTAGTACGCTACGAATTAGATGAATTCAAGGGAATGCGTGGAGTAGTTCTTGGTAAGCTTTACAAGCATAGCGGTGATTGGAAGTTCAAAGCTTTAGGACAAGGTGTTCAATCTGGTTCTATTGATGTAATTGAAAGAGCAATTATTGGTTAA	MAINLIKAGQTVVLAKENSGLRKVTLGLRWGALTEKKEEKKEKVSLLSAIFGGGRRSSSSESFMSGGAVDVDSAVILLDGNGRKVDRVYYAMRSAQGVYHAGDDRSGNNQFGEVDNEEIYVDLQKLNPAVKEIYVIANIFSGANDFNDRRLRGSYVRLLNSENNDELVRYELDEFKGMRGVVLGKLYKHSGDWKFKALGQGVQSGSIDVIERAIIG				NA	NA	NA	NA	NA
AK009_03805	210			hypothetical protein	ATGAATTTCTTTAAAAATATTACGTTCGTTAAAGTAATGAATGTTTTTGTCATCGTGGGCTGGTTGTATATATTTTTTGATTCTGCTCGCCGTGTAATCATGGGGCCACATACAAACATTTGGATAGATATTGTTTTTATGGTTATGGCGATTTTCATCGTTCCTATGTTTGCTATTGAATATCGCAACAGATTCATTAAAAAGAAGTAA	MNFFKNITFVKVMNVFVIVGWLYIFFDSARRVIMGPHTNIWIDIVFMVMAIFIVPMFAIEYRNRFIKKK				NA	NA	NA	NA	NA
AK009_03806	462			hypothetical protein	ATGGGTGTCTTTGGTTGTTTTGAAGTCACTATTGGATTTAATGGAAATGAACGAGTCGATTATATGACTTACGACACTAAGGGTATTTGGCGATGCTATGAAATTAAAGTTTCACTTGCTGATTTTAGAAGTAAAGCAAAGAAAACTTTTTGCGGACATTTTAATTACTTTGTAATGCCTAAAGAATTATTTGAGAAGGTTAAAGATGAAATCCCATCTCATGTAGGTGTTTATGTTAACGGAATGTGTGTTAAGAAAGCCAAAAAGCAAAAGCTATTAGTGGAAGAGAAAGTATTAAAAGATTCATTGATTCGATCATTATCAAGAGAGTCGGACAAGCTTTTCCAAAGCGCAAGTCCTGCAATTGTATCTTCATTAAGAAAACAGTTAAGTACTACTCGAAAAGAACTTGATGATTATCGAAAGAGATACAGAGAATTAAAGAAAGGAAGATTCGCATGA	MGVFGCFEVTIGFNGNERVDYMTYDTKGIWRCYEIKVSLADFRSKAKKTFCGHFNYFVMPKELFEKVKDEIPSHVGVYVNGMCVKKAKKQKLLVEEKVLKDSLIRSLSRESDKLFQSASPAIVSSLRKQLSTTRKELDDYRKRYRELKKGRFA				NA	NA	NA	NA	NA
AK009_03807	882	uvrC_3		UvrABC system protein C	ATGGATTTTTACGTTTATAGGTTTCTTGACGTTGAGAACCAAATCATATACGTCGGCAAAACCAACAACATAAAAAATAGGATGCGACAACATTTCGGAAAGAACGGTCATTTGCCGGAGGAATGTTATGAGCAAGTATCTTTAGTAGAATGTATCGAATTAGATAGTGAGTCAGATATGAGTGTATTAGAACTGTACTTCATTAATAAATGGAAACCAGTATACAACTCAAGCAAGAAGTATTCATCTATCATGTCAATTGAAATTGATGAGAGTAGTTTTTGTTGGGAAAGTCTTGAGCAAATGGAGTACAATCCAAAAGGCGAAATAGATGCACTGAAACAAGTTGCTGACAAATACAAAAACCAGTTAAAAGAAAAAGATAAAGAAGTATCCAAATTAAATCAAAAAGTAACAAGTTTAACTTTACAATTAGACAGCCTAAAAACAGATTTAGTAAGTTTAAATTCGCAACGAGTGGTAAGGAAACGAAAGAGTAAAACAAGAGAGTTTTCTTATTCAGAAGTTGAAACTGCACTATCTTATCATAGCGATGTAGTGTTTCTTGGCAGAGCTTTTGCAAATGACAATAAATCACCTATGTATGAGCTTTTTATATACAAAAAAGATGGAAAGCTCACTATAGAAGATACTGTTAGTAAACGAGTATCTCAAGAAGATAGATCTGTACTTGGTCAGTACTGGGACTTACATATGAAGGCCGGATACCTTCTATTCAAAGCATTAAGTGATGAAATGGCTCAAAAAACAGAAGCTGCTCTGGAAGAAGAAAAAGAAAATCTTAGAAAGAAGAGCGAGGAAAGAAATAGGGAACATGAAGAATTCCGTCGCAACAATCCAAACAACTGCTCAGCTGCTTAG	MDFYVYRFLDVENQIIYVGKTNNIKNRMRQHFGKNGHLPEECYEQVSLVECIELDSESDMSVLELYFINKWKPVYNSSKKYSSIMSIEIDESSFCWESLEQMEYNPKGEIDALKQVADKYKNQLKEKDKEVSKLNQKVTSLTLQLDSLKTDLVSLNSQRVVRKRKSKTREFSYSEVETALSYHSDVVFLGRAFANDNKSPMYELFIYKKDGKLTIEDTVSKRVSQEDRSVLGQYWDLHMKAGYLLFKALSDEMAQKTEAALEEEKENLRKKSEERNREHEEFRRNNPNNCSAA				NA	NA	NA	NA	NA
AK009_03808	1536			hypothetical protein	ATGACTTACGATAAACATTTAACATCATTTAAAGCGAAACCGGTTTGTCTACCAATGTTACTTTGTGACTATTACAAAACGTCTCATATTGATCAATACCCAGAAGGTACGGAAGTAATTTACTCTACGTTTACTCCACGTAGCAATCGCTACATGCCATATGCAGACAAAGTAGTAGTGTTCGGTATTCAATCTTTTGTTAAGAAATATCTAGTCGATTACTTCGATGAGCATTTCTTTAGCCGACCACTTGAAGATGTAGTAGCAGAATATGTTCGTTACATGAAACACACTTTATTTATTGAAGAGCCAAAAGCTGCACACATCATTGAACTTCACAAGTTAGGCTATATGCCGTTACAAGTAAAAGCACTACCAGAAGGAACTCTAGCTCCAATTAAGGTGCCAGTTTTAACTGTTGAGAACACACGACCAGATCTTGTATCTACTTTCTGGATTACTAATTATCTTGAAACAATCATGTCGAATGAAATTTGGTTACCAATGACAAGTGCAACTGTTTCTTATCAGTACCGAAAGTTACTAATTGATATGGCTATGAAAACAGTAGGTCATGCAAACGATGTACCGTTTCAAGCACACGATTTCTCTATGCGCGGAATGAGCAGCTTAGAGTCTGCTATGGCGAGTGGAGCAGGACACTTATTATCATTCGTAGGAACAGATACGGTTCCAGCTATTGCTTATCTTGAGCATTATTACAATGCGAACATTGAAAAGGAATTAGTAGGAACATCAATACCAGCTACTGAACATTCAGTTATGTCAGCAAACACAGATGCAGATAGCCGTGATGAATTCGAAATGTACAAGCGTCTTATAACTGAGGTATATCCTAAAGGCTTCTTCAGTGTAGTTTCAGACACGTATGATTTCTGGGCAGTAGTAGGAGAAATTCTTCCTCGTCTTAAGAAGGAAATCATGGAACGTGATGGTCGTATGGTTATTCGTCCTGATAGTGGAGACCCTGTTCTTATTCTTACTGGTAACCCAGAAGCAAAAACAGAACTTGAACGTAAAGGACTAATTGAGGCTTTATGGGATATCTTTGGTGGAACAATTACTGAGAAGGGTTATAAACTATTAGATACTCATATTGGTGCAATCTATGGTGACTCTATTACTCTTGAGCGTGCAAAAGCTATTGTTGAGAAGTTAGAAGAAAAAGGCTTTGCTTCAACAAACGTTGTTTTCGGCGTGGGATCTTATACTTTCCAATATCAGACTCGCGATTCTCTAGGGTTTGCTATGAAAGCTACATATGCTGTAGTAAATGGAGAAGAACGTTTATTGTTCAAGGATCCAAAAACAGATGATGGAACTAAGAAATCTCAACGTGGCCGCGTAGTAGTAACAGAAGATGATGACTTTGGCATCATTGGCATGGATGGTTTAAATAAAGAACAAGCAAATGCGCTTAAAGATGTAGATTTATTACAAGATGTATTTGTCGATGGAAAGCTTATGCGTGATGAATCATTAAGCGAAATTCGTGCGCGACTTCAAGCAGCTTAA	MTYDKHLTSFKAKPVCLPMLLCDYYKTSHIDQYPEGTEVIYSTFTPRSNRYMPYADKVVVFGIQSFVKKYLVDYFDEHFFSRPLEDVVAEYVRYMKHTLFIEEPKAAHIIELHKLGYMPLQVKALPEGTLAPIKVPVLTVENTRPDLVSTFWITNYLETIMSNEIWLPMTSATVSYQYRKLLIDMAMKTVGHANDVPFQAHDFSMRGMSSLESAMASGAGHLLSFVGTDTVPAIAYLEHYYNANIEKELVGTSIPATEHSVMSANTDADSRDEFEMYKRLITEVYPKGFFSVVSDTYDFWAVVGEILPRLKKEIMERDGRMVIRPDSGDPVLILTGNPEAKTELERKGLIEALWDIFGGTITEKGYKLLDTHIGAIYGDSITLERAKAIVEKLEEKGFASTNVVFGVGSYTFQYQTRDSLGFAMKATYAVVNGEERLLFKDPKTDDGTKKSQRGRVVVTEDDDFGIIGMDGLNKEQANALKDVDLLQDVFVDGKLMRDESLSEIRARLQAA	PGPT0013475_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013475-nadV-K03462	NA	NA
AK009_03809	966	prs_1		Putative ribose-phosphate pyrophosphokinase	ATGATTAAACTCAATGGTCAATTAATTGAATTTAAGAAGTTCCCGAATAAGGAAACGAAATTAGATGGGGAACAAATTACAAAAGCCTTATCTTTTTTCACTGAGAATTACATCATGTTCAAATATGAATCAGATGATGACTTCTTTAAATTGATGATACTTAAACGATTCTTAGATGAGTCTTCAAGCAAAGGTACGATTTTAGATATTACCTATATGCCATATAGCCGTATGGATCGACGTATGGGCAGCGATGTTTTTACCTTGAAATATGTATGCGACTTTATTAATTCACTTAATTTTAGTCAAATCTACGTCCACGAATCTCATTCAGACGTCGCTGTTGCTTTATTAAATAACTGTATTCCGGTTGAAGATGGTCCTCATTTATTTGGACTTGTTTCAGAAGAAATTAAGTTTGATAAAGAAAAAGATTATGTACTATTCCCGGATGCTGGTGCTCAAAAACGTTATAGTAATCTAGGCATTACTAATGAATTAGTAGGGCTTAAGAAACGTAACGTTGAAACAGGGAAAATCGAAAGCATAAAAATTATTGGTGACATCAAACCAGGTCACAAAGTTGTAATTCTTGATGACCTAAGTTCGTTTGGTGGAACGTTCATGATGAGCGCGGAAGCTTTAAAAGAACTAGGAGCAGGAGATATCTTCCTTGCTGTTACTCATTGTGAAGACAACATCTTTAAAGGAAAGATTCCTGAATCAGAATTAATCACAAAGGTTTACACTTCCGATTCAATCATTGATGAATCAACTCACGAGAAGGTAGAAATTATCTACCCAATGTGGAGCGGAGAAGAAGAAGATGAAGATGAAGGAGAAAAAGAAGCTTCTGATGACATTAAAAACAACCGTATAAAAGAATTTGAAAATGTGGAAGAAGCCTGTAAGTGGTTAGATTCAGATGAAGAAGAACGACAAGAGGGAGCAGTAGAAGCTGCTTAA	MIKLNGQLIEFKKFPNKETKLDGEQITKALSFFTENYIMFKYESDDDFFKLMILKRFLDESSSKGTILDITYMPYSRMDRRMGSDVFTLKYVCDFINSLNFSQIYVHESHSDVAVALLNNCIPVEDGPHLFGLVSEEIKFDKEKDYVLFPDAGAQKRYSNLGITNELVGLKKRNVETGKIESIKIIGDIKPGHKVVILDDLSSFGGTFMMSAEALKELGAGDIFLAVTHCEDNIFKGKIPESELITKVYTSDSIIDESTHEKVEIIYPMWSGEEEDEDEGEKEASDDIKNNRIKEFENVEEACKWLDSDEEERQEGAVEAA	PGPT0021480_2959	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK009_03810	435	yqeY_1	COG1610	putative protein YqeY	ATGACAACTTTAAATAAGCGTTTAATGGATGAATTAAAAGATGCAATGCGAAACAAATATGTGATGAAGAAAAACATCATCACTTTAATTCGCGCAGGTTTAGCTGCTGCAGAGAAAGAAAAGCGTGCTCCACTTACTGAAGCAGAAGAAGTAGCAGTAGTTCAACGTGAACTTAAACAAACAAAACAAGCTCTTGCTGAAGCTGTGAAAGCAAACCGTGAGGATATTGTTGAATCAGAAAAAGCAAAGATTGTTATTATCGAAACTTACTTACCAAAGATGATGACGGAAGAAGAAATCGTTTCTTTCCTAACATCTAAAGGTGTTCAAAAAGGTGGCCACATTGGTAAAGTGACTGGAATCCTTATGAAGGATAACAAAGGTAAAGTCGATGGTTCATTTGCACAAGAAGTAATCAAGAAGCACTTTGCATAA	MTTLNKRLMDELKDAMRNKYVMKKNIITLIRAGLAAAEKEKRAPLTEAEEVAVVQRELKQTKQALAEAVKANREDIVESEKAKIVIIETYLPKMMTEEEIVSFLTSKGVQKGGHIGKVTGILMKDNKGKVDGSFAQEVIKKHFA	PGPT0030490_3066	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
AK009_03811	438			hypothetical protein	ATGGAAAACATTTTGTATAGAGAGCAGGATGAAAAAGGGCGTGAGTTTACCCTGTATGGTAATATCGACCGCCTAACTGAAAGGTTAACTCCATTATTCAATGTAGACCCTGATGACGATGAATATGGGATTAACTGTGTAAGCAAAGATCCTTGGACTAATCAAAAATGGACTGCAGAGGAACGACAAGAAGATGAAGATCGTTTCCGTGCCATCCTAAGATATATGCCTTGGGATTGGAAAGATTTCTTTGACAAGATTCCAAGAAAGAAAAATGGAACCTTTGCCAAGGGACGAGTAGTGTTAATACACCGAGGAGATACATATGCACATTACTGGGAAGATTCTTATGGATTCAATGGACCAGAAGTGCGTATCAAAACACTTGATGACTTTACAGCCGAGGTTAACTTAGATTATGTAACCCAAGGCTATTAA	MENILYREQDEKGREFTLYGNIDRLTERLTPLFNVDPDDDEYGINCVSKDPWTNQKWTAEERQEDEDRFRAILRYMPWDWKDFFDKIPRKKNGTFAKGRVVLIHRGDTYAHYWEDSYGFNGPEVRIKTLDDFTAEVNLDYVTQGY				NA	NA	NA	NA	NA
AK009_03812	249			hypothetical protein	ATGAAGAAATTAATTGAATCAATTAAAAGGGAAGTAAGAGAAACTCTTGATTGCTGTAAGAAGCCTTTATGGACATTGAGGTATTTCTTTTTCGGATGGGCGATAGGCGGAGTGATTGCTACTGCCTATTCCTACAAATTAGAAGAGATAGACACTTACGATGTATTTATTCGTATTACTGCAGCGATTATCATGTTCCTTCTTCCGTTAGCTTTTGGGGAGAAAAATGAAATAGGGAGTAGTGAGTAA	MKKLIESIKREVRETLDCCKKPLWTLRYFFFGWAIGGVIATAYSYKLEEIDTYDVFIRITAAIIMFLLPLAFGEKNEIGSSE				NA	NA	NA	NA	NA
AK009_03813	1206			hypothetical protein	ATGTTTGCCCAACCAATAACAGAAAACCCAGAAGTTGCTTCAAGTCCGTTTTCTACTTCGGGACAAGAACTATTTTGGCCAACAGCAGAAGATACAGGAGAAGCAGACAAGCCGAAAGAAAATGTTGTTCCTTTTAATACAGTAGCAACCCCACCAGGTTTTGAAATGAATCCAAATGAAATCACACCAGATCTTGTTCGAGAAGTAGCGGGCGATGTAGTTCCGTTCTTCCGAACTAAGATGCTTAATACGATTGATGCAGTAGAGGAATACTCCTGGAATCGTGGTGAGATGGGTGGATTAGACTGGGGATTTGATAGTTTAAATAAAGCCTTTGAAGGATTGAATACCGGAGTTCATTTAATAGGTGGTCAATCCAACATTGGTAAATCATCATTCATGCTTCAATTAGCATGGCAGATTTCACAGTCAAACCAAGTAGTCACGAAAGAAAGACCAAGAAAAGCGTTCGTCTTATATTTCTCTTTAGATGATAACAACAATGAGTTATTACCTCGTTTAGTTGCTATTGATCAACGTATTCCAATTAACGTTGTTCGATTCCCTAAAAAGTATCAAGACAATGCTACCTACATGACAAAACGTGCTCAAGGTGTAATCGCCTTAAAACAGTCTGCAGATTATATTAACATGCAAGACGTAAACAATGGCTCTGATATTGAATACATTCAGGAAACAATGGAAGCGTATCATGTCGAGCTACAGAAAGTAGATCCGACCTACCAATTAGTTGTCTTCATAGATAACTTCCATGATATTACGATTGGTGATGAAAAACTTCGTGCTAAATCTGGTGGAGAAAAATATGACCATATTGCCGATTTACTAACGAAGATTGCTACTAAATATGACTGTCCTATTGTATGTACAGCAGAGTTTAGAAAGCTAAATGGTAACAGAAGACCAACGCCTGATGACTTACGTGATTCAGTAAAGATTCTATATGAAGCAAAAGCTGTAATGCTTTGCTACAACGAGGTTTCCCTTCGCGGTCAACAATCAACGGTTCATTGGATGAGGCCCGACAACCCTAATAAACAACCAGTTTATGAAGTTCATATTGGTAAAAATAAGTTTAGTAGTTTCAAAGGGAGACTGTTCTTCGAATTCATACCTGAAATGGCTTACTCAAGGGAAGTTCCCGAAGCAGGGGCTCAACGTTATGCTCAGATGGTGAATGGATAG	MFAQPITENPEVASSPFSTSGQELFWPTAEDTGEADKPKENVVPFNTVATPPGFEMNPNEITPDLVREVAGDVVPFFRTKMLNTIDAVEEYSWNRGEMGGLDWGFDSLNKAFEGLNTGVHLIGGQSNIGKSSFMLQLAWQISQSNQVVTKERPRKAFVLYFSLDDNNNELLPRLVAIDQRIPINVVRFPKKYQDNATYMTKRAQGVIALKQSADYINMQDVNNGSDIEYIQETMEAYHVELQKVDPTYQLVVFIDNFHDITIGDEKLRAKSGGEKYDHIADLLTKIATKYDCPIVCTAEFRKLNGNRRPTPDDLRDSVKILYEAKAVMLCYNEVSLRGQQSTVHWMRPDNPNKQPVYEVHIGKNKFSSFKGRLFFEFIPEMAYSREVPEAGAQRYAQMVNG				NA	NA	NA	NA	NA
AK009_03814	1116			hypothetical protein	GTGTTCTACCAAGGGCAATTAGCTAACCACCCTGCAGCGGCAGAGGTTAAGACACCGACTATGCCTGAATCAATGGTACAACCAAAACCATTCTATGTGGAATTTGGTCGTAATAAGCCAACAAAGGAAGGCAATATGTTTATCCGTAACGAGTATCGTGAAGTGAACTGGATGAACTTCCATCAGCATTGTTTTGATTATATACAAAAGAATCCTGGATGGGGCTTGTATGCAACAGCTTTTCAATATAGCACTAGCGATCCTTATACGGCTGATTTGCGAGGAGATTTTTATTTAGACTTTGATGATGAAGATGATATTAAGAAAGCACAAGAAGATGCACTTCGTATCATTCAACATCTTACGATTAGTCCTAACTATAGAATCCCTGCAAATATGATTAAGGTTTTCTTTAGCGGCAAGAAGGGGATTCATGTTACTGTGCCATACCAGTGTTTTGGTGTTGAATGGCATCCTCATTTAGACCGTATGTATCGAATTATGGCAGAAGAATTAATGCCATTTGCACCAAATCAAACACTGGATATGAAAGTGTATGAGCGTCGTCGTTTGTTTAGGTTAAGAGGAAGTCAGCATCCTTCTACTGGTTCTTATAAAGTACCAATGGAATTAAAGAATTTGTTGGCTCTATCTGAAGTAAATATTCAGCAAATAAGTAAAAATCCAAACTATGGTTCTTGGATTAAGTACGACAAGCCAAGAGTTATTCAAGAGGCTGCTCGTTACTTTAAAGAAGTTGAGCACAAGTTTGTTCAGCGATTTAAGAAAACATTTAGCAAATCGGGTGAAGCACAAACAATCGATTTTGATCCGCCTTGTTATGAAGAGATGATTGATAACGGTCCTGTTAAAGGTGCTAGAAACCACATAGCATGTATGCTTGTTGCATTTTGGAGACAAAGAGGACGTTCCGAACAAGAAGCGTGGGATATGTTAATCGAATGGAATAATGGCAGCTTGCCAGAAAGAGAACTGCAAACACTGTTTCGATCCAATTTCAAAGGTCATTATGTTTATGGTTGTAACACGATTAAAACCTATGCGTCTTGTCCTGCTACATGCAGAGAAGACTGTAAATTCTACAAGAGTAATTAA	MFYQGQLANHPAAAEVKTPTMPESMVQPKPFYVEFGRNKPTKEGNMFIRNEYREVNWMNFHQHCFDYIQKNPGWGLYATAFQYSTSDPYTADLRGDFYLDFDDEDDIKKAQEDALRIIQHLTISPNYRIPANMIKVFFSGKKGIHVTVPYQCFGVEWHPHLDRMYRIMAEELMPFAPNQTLDMKVYERRRLFRLRGSQHPSTGSYKVPMELKNLLALSEVNIQQISKNPNYGSWIKYDKPRVIQEAARYFKEVEHKFVQRFKKTFSKSGEAQTIDFDPPCYEEMIDNGPVKGARNHIACMLVAFWRQRGRSEQEAWDMLIEWNNGSLPERELQTLFRSNFKGHYVYGCNTIKTYASCPATCREDCKFYKSN				NA	NA	NA	NA	NA
AK009_03815	723			hypothetical protein	TTGAATAATCAAATGATTGTCCTTGCCTCAAGGTTTATGGATGAAATTAAAGAGTTTGAAAAAGATGCTCACGGAAAAATCAACTGTGACTCTAATTATAAAAAAGAAGTTATTAATGATATTGGAGAAATCTTAGCAGGGGGATCTGTTACAGCTAAACAATTCCATGAACTATTTGATAAGGAAAAGGATAATCCTCAAAAAGGTCTTTTCTATAAACCAAATAGTATCTTGGATGCTCACAATATCCAATATGTAAGGAAACCATATAGGGACCCTGACAACTTATTAGTGCCGGGGCAATTTTATTTCCACCCAAGACTACAATTAACTCCACCTCCTCCGATGTTAAAGATTTCGGATGATGGAACAATTGAAGCTTCTTATGATGATGAACCGTTTTATTTAGAGATAGTAGATAAGATTACGAAAAAAGATCTTGTTGAATATTTTTATTCAAAAACGAATGCACCAACTCCAGAAGCTACATTGTCAAGGGACATAGGTGCTTTTGATCATATGCTCCGTTTTTGGGATGTAGATTTTATCTTCTATTTAATAGATGAAGCATTTACATGTTCTTTAGATAACGGAAAACCAATGCCTAAATCTCCGCTTGATATTCAACACTTTGAAGCAGAAGCGTTATTAGTGCATGAAGCTAGAAAAAATACTTGTTATGAGGAGGGTTTAGACCGTGTTCTACCAAGGGCAATTAGCTAA	MNNQMIVLASRFMDEIKEFEKDAHGKINCDSNYKKEVINDIGEILAGGSVTAKQFHELFDKEKDNPQKGLFYKPNSILDAHNIQYVRKPYRDPDNLLVPGQFYFHPRLQLTPPPPMLKISDDGTIEASYDDEPFYLEIVDKITKKDLVEYFYSKTNAPTPEATLSRDIGAFDHMLRFWDVDFIFYLIDEAFTCSLDNGKPMPKSPLDIQHFEAEALLVHEARKNTCYEEGLDRVLPRAIS				NA	NA	NA	NA	NA
AK009_03816	441			hypothetical protein	ATGGATTACATGAAGAAGATTGATGAAGCGATTGAGCTATTCAAAAACTTAGCTAGTGCGACTACAAAAAAAGCAAAAGCGACTGTTCTTGGAACAAACCAAGACAACGAGATTGCGGATAAATTGTTAGTTCTTTTAAAGAATAAAACATTGTATCTTCCTAAGTTAACTTTATCTGCAGCAGTTGCTAAGAACGATAGTCAAAAACGTTTAAGCAATTATGTTGGCTTTGTTAAAGCTGCTGATAAGTTAGAAGGTAAAAAGCTAGAGGAATATGTTTTTGATTACTTACTTCGCAATATCGATGAAGAAGAATTAGAAATGTATAAAGCTATCTTAACGAATACTGCCTTAGTACCAGTTGTTAAAGAACCAGCAGAAGAAAAGGTAGAGGAGATAGTATTGGAAGAAAAGATTCAAGAAGAAGTTGAGTCTGAATAA	MDYMKKIDEAIELFKNLASATTKKAKATVLGTNQDNEIADKLLVLLKNKTLYLPKLTLSAAVAKNDSQKRLSNYVGFVKAADKLEGKKLEEYVFDYLLRNIDEEELEMYKAILTNTALVPVVKEPAEEKVEEIVLEEKIQEEVESE				NA	NA	NA	NA	NA
AK009_03817	177			hypothetical protein	GTGACGAACCGAAGAAGAAAATACGAATTCGCGGAAAAGTGGGTAGAATGCCTTAACTGTTCCCAAGAATACGTGATTGAGTATGTAATTGACGAGCGAGATACAAAAGGTTGCCCGGTCTGCGGATCTCATGCTTATGAAGATCCCGCAAATGAATATAGCGATTGGGGCGATTAA	MTNRRRKYEFAEKWVECLNCSQEYVIEYVIDERDTKGCPVCGSHAYEDPANEYSDWGD				NA	NA	NA	NA	NA
AK009_03818	255			hypothetical protein	ATGATCGACTACATTGAAAACGACAACTCAGATAAGCCACCAGTTAATGTATATATCGGAGAAGAAGAATGGGCTAACTATTCTTTTCAAAACAAAGTTCGATTACTATATCGACTAAGAAACTCCGACAATGTACTAGCTAAAGAATTGGTAAAATCTATTTCATTACTAGTAGAAGAAGAACAAAAGATGAGAGAGATTGATTACGAAGCAACACTAAAACAATGTGAGGATGTGAGTGAATGGCCGGAATAA	MIDYIENDNSDKPPVNVYIGEEEWANYSFQNKVRLLYRLRNSDNVLAKELVKSISLLVEEEQKMREIDYEATLKQCEDVSEWPE				NA	NA	NA	NA	NA
AK009_03819	240			hypothetical protein	ATGGCCGGAATAAAAAACATGTACCAGCTTTACGGTGCAACCCCATTCGACACGATTAAAGGCGATACAATTATAGACCGCCACATGCAATCACAACTTCGTCAATATACCCCATACTGTAAGTTCTGCGGACGAGAAATTATTAACTCTAAACAGGACGAGCATATGCACAACGTAGACCCTGAGTGGGAAATACATTATCAAATGCATTACCGCTGCTATAGGGAAAACGTGAGATAA	MAGIKNMYQLYGATPFDTIKGDTIIDRHMQSQLRQYTPYCKFCGREIINSKQDEHMHNVDPEWEIHYQMHYRCYRENVR				NA	NA	NA	NA	NA
AK009_03820	804			hypothetical protein	ATGACAAAAATCGAATTAAGTATGGATGATATTTATACGTTTATGCAGTGTCCATTGAAGTACAAGCTGACTAAGATTCATGAGATACCTTCTGAAGACGACTATAAAAGTGCAGTACTTTACTCAAAGGGCATTCATCAAACTATTTCCTACTTTTATTATGAAGTAATGCAAGGTAGACTCCCTACTCTCCGACAAATGAGAGATAAGTGGGCTAACTATTATTACTCCATTTTCGAAGAGGATAAACGTACAAAGGATAACTTCCTACTTGCACGAACAGGAACAGATCAACAACGAACGCAACAGATTTTAAACCGGGGCATGGAAGCTATCTACGCTTTCTATGCAGAGAACAAAGATAATCCCGGCACACCTATTGCCGTCAATTACCCTTTCCGTATTGCTGTTCAAGACGACCTAATCCTTACAGGCGAATTTGAACTGATTCGAGAGTACACCGATTCAAACAATAAGCGCATGATTGAGATTGTTGATTTCAAAACAAGCAATAACAAGACTGACGCTTCCTCTGGATTTTTCCTCAGACATGACCTACGAGCAACCGCTATGTTTTATGCCTTCCAGGAACTATTCCAATCTACACCAGACCGATTTGTATTTGATTACATCGGTACAGATAAACAGTTGTCTTTATACAGAGATGAGAATGAAATTAAGCGCCTTAAAAGCGTACTAAAAGGAGTCCGTAACGGAATAAAGCAGGAGGATTTTTATCCGAGACAAAGCTTCATGTGCAAATCTTGCCCAATGATGAACTACTGCGACAGATTACAATTTTAA	MTKIELSMDDIYTFMQCPLKYKLTKIHEIPSEDDYKSAVLYSKGIHQTISYFYYEVMQGRLPTLRQMRDKWANYYYSIFEEDKRTKDNFLLARTGTDQQRTQQILNRGMEAIYAFYAENKDNPGTPIAVNYPFRIAVQDDLILTGEFELIREYTDSNNKRMIEIVDFKTSNNKTDASSGFFLRHDLRATAMFYAFQELFQSTPDRFVFDYIGTDKQLSLYRDENEIKRLKSVLKGVRNGIKQEDFYPRQSFMCKSCPMMNYCDRLQF				NA	NA	NA	NA	NA
AK009_03821	426			hypothetical protein	ATGACACCAGATGAAATCGGTATTGTTGAAAAAATATTTACTAGCATCACTGAAGGTGATAAACCATTCATGGTTCTCTTTGCAATCATCATGCTCTTTGTTATCTTCATGTCCGTTAAGGTTATGGGATATGTTCGTAGCGTTAGTGATAGTCACAAAGAACAAATCACTGCTATGAACGACAACATGAAAGAGCAACGTGAAGACCACTATAAAATGATTGCTGAAGATCGTCTTCGTTCTGATAATCGCGAAAGAGAATTATTCGTAAACTTAGAGAAGAATACTCAGCAACTTGAGGGCATTGCAACAACACTTAAAGAAGTGCAATTCAATTTTACTAGTCTAGAAAACAAAGTTACACAAAACTTTGATTATCTTGAGAAAGAAATTGAAAGTGTTAAAGAAACAGTTAGTAAAAAATAA	MTPDEIGIVEKIFTSITEGDKPFMVLFAIIMLFVIFMSVKVMGYVRSVSDSHKEQITAMNDNMKEQREDHYKMIAEDRLRSDNRERELFVNLEKNTQQLEGIATTLKEVQFNFTSLENKVTQNFDYLEKEIESVKETVSKK				NA	NA	NA	NA	NA
AK009_03822	192			hypothetical protein	TTGAACTTGAGAGGATGTAATGTATTATGGTTTGAAGATCCTAATACGTTCTCGATTGAAGATTTAAAGTTGCTAAAACATGCATTCGAAAAAGGATATAAACCATTAGGTGATAAATTCGGAGAGCAGAATGAAGAATGGATCGGATGGAAAGAAGAAGTATCCTCAGTTATTAAAGTAAGAATAGGGTAA	MNLRGCNVLWFEDPNTFSIEDLKLLKHAFEKGYKPLGDKFGEQNEEWIGWKEEVSSVIKVRIG				NA	NA	NA	NA	NA
AK009_03823	828			hypothetical protein	ATGAAAATTGATTATGCTTCAGATTTACACGCCAACCACTGGATGCTTTGGACAAATAATCAAATGAAGTGGGAAAGCAGAACAAGAGAATTAACAAGAAAGCTAATAGAAAATGGTAATGGAGAAGTTCTGATATTACCTGGTGACTTTAGTGAATGGAATCAACAATCCTTATGGATATTAGATGAAGCAGCAAAGCATTATGAAAGAGTATATTTTACAGTTGGAAACCATGATATGTACCTTATTTCAGGAAGCCAAAAGAAGAAGTATAAAGATTCTATAGGTCGAATTAATGAACTGATAGAAAAGGCTTCTGAAATTCCTAATGTAGTTCCTCTTGTTAAAAATGTAGATACATACAAAGGGAAAGTATTCGCAGGAGATGTGTTGTGGTACCTTCCTAAATCACAAGCTGATTGGGAGTTCCTTCGCAATGTATCCAATGATTCTAGTTATATATCAATCAATGGATATGCGGGTAGTGATGTGCCAAGAAAACTACATAAAGAGTCTATGGATTGGTATGACACGTTAGAAGATACACATGTTGATGTATTTGTTTCTCATGTTCCGCCAGTACATAATCCTTTTACGCCGTATGAACCAAATACTTGTTATATGACGGATGTTCCTTTTATTAATGCAGAGCATTGGATTTGTGGACATGACCATATTCAAGATGAGTTTGAAAAAGCGGGAGTTCAATTCCATATGAATGCAATTGGATACCCAGATCATTACTCTAACTATCCTAAAAAGAATGTAGTGCCAGAAGGGAATATAGACGAACATAAATCCTTTGGTATTAAAACATTTGAAATATAG	MKIDYASDLHANHWMLWTNNQMKWESRTRELTRKLIENGNGEVLILPGDFSEWNQQSLWILDEAAKHYERVYFTVGNHDMYLISGSQKKKYKDSIGRINELIEKASEIPNVVPLVKNVDTYKGKVFAGDVLWYLPKSQADWEFLRNVSNDSSYISINGYAGSDVPRKLHKESMDWYDTLEDTHVDVFVSHVPPVHNPFTPYEPNTCYMTDVPFINAEHWICGHDHIQDEFEKAGVQFHMNAIGYPDHYSNYPKKNVVPEGNIDEHKSFGIKTFEI				NA	NA	NA	NA	NA
AK009_03824	210			hypothetical protein	ATGGATGATTATCAAAGAGAAGGGTATTTGCAAGAGGTTGAAAAAATAGAAAAGCTTAAATTCAAAGAAGGTTATTTACCACATGATTTTGTTGCTGTTGCTTTTCTTTTACTAGAGAGACATTTACCTTCAGCTGAAAGATTTGAAAAAACTATGAAAGATACAGATGACCTAATAAAGAGAGCAGAAAAACTACTCCAAACTTATTAA	MDDYQREGYLQEVEKIEKLKFKEGYLPHDFVAVAFLLLERHLPSAERFEKTMKDTDDLIKRAEKLLQTY				NA	NA	NA	NA	NA
AK009_03825	546			hypothetical protein	ATGCTTACCATCCAACTAAGCATGAGTATCACACAGGAGGCTACCTTACTTGGTAGTTCCGAAGAAAAAGACAAACTAGGATGGGGCGTTAGCCCCTATACATCAGGAGGAAATATTATGGCAAACATTTATTTAGCTTCACCATTTTTTAATGAAGAAGAATTAAAACATGTAGAAAAAGCAGAGCAGGTATTGCGTGCATTAGGACACACTGTATTTTCACCGAGAGAGAACCAGTTACCTGAAGTAGAATTCGGTTCTTTTGAATGGCGTACTTTCGTATTTAAAAATGACTTAGAACATATCAAATGGGCAGACATGGTATTCGGTATCATTGGCGAAAACTACGATGACACTGGTACTGCTTGGGAATTAGGCGCAGCTTATATTCTAGGAAAACCTGTACTGTTATTTAATCCAAAGGGAGAAATCATCAACCTTATGATTACTGACAGCTTACATGCGTACTTTGAAGATATGAATGAAGTAGCTCGTTATGATTTTGCTACTCTACCAATTAAGCCATATTTAAAACCAGTGAAATAA	MLTIQLSMSITQEATLLGSSEEKDKLGWGVSPYTSGGNIMANIYLASPFFNEEELKHVEKAEQVLRALGHTVFSPRENQLPEVEFGSFEWRTFVFKNDLEHIKWADMVFGIIGENYDDTGTAWELGAAYILGKPVLLFNPKGEIINLMITDSLHAYFEDMNEVARYDFATLPIKPYLKPVK				NA	NA	NA	NA	NA
AK009_03826	288			hypothetical protein	ATGTTTAATCAAAAGGAAATCGAATTATGGGAGCAAGAACAAGCAGAAAAAGAAAGCAGTCGTTATTGTACAACTAAGAATACTCGCTTGTTCGATCCAAAGAGAGAGCGTTTGTTTAAAGCACGTAAGCGTTGTGTACTGAAATGGTTCTGGGGTGTCGAAACAAAAGATAACCGTAAAGAATGGCAGACACATATTCGTGCAGTGAATAAGCAACGAGGCTTCGGGGAGGATGCTTACCATCCAACTAAGCATGAGTATCACACAGGAGGCTACCTTACTTGGTAG	MFNQKEIELWEQEQAEKESSRYCTTKNTRLFDPKRERLFKARKRCVLKWFWGVETKDNRKEWQTHIRAVNKQRGFGEDAYHPTKHEYHTGGYLTW				NA	NA	NA	NA	NA
AK009_03827	192			hypothetical protein	ATGGGGGAGAAGGAAACACTGGATAAGTTGAAGGAAAATATTTATCACTTGGATCGATCTATGGATGATGCCCCTTATCATGGTTTTAACGGTGATCATATTAAAGGTGTTAGATTTGCTGTTAATAAAATTCTAGCAGATACAGGGTTAACAACTGTTTCTATTTTTAAAGAAATAAGTAAGAAAGGATAG	MGEKETLDKLKENIYHLDRSMDDAPYHGFNGDHIKGVRFAVNKILADTGLTTVSIFKEISKKG				NA	NA	NA	NA	NA
AK009_03828	435			hypothetical protein	ATGAGAGAAATGAATTATGGTTTATCTGGATATTTAGCACCGGATGGTATTTTTTATGAATGTGATTACGGAAAACATGGCGAACTGGCCAAAAAACTTATTGAAAAGTACCAAGTAAATTACACGATGGATTATAACGAAATGGCAACCAAAGGGGAGTTTTTAAAATTCGGCACATACCCTTGGACTGGAAAAGAAGGATGTAATGGTTGTCATGTTTTTAAAAGTTTATTCCACCCCTTAACCAACAAACAAACTATATGGATAATGGAAAATATGAATAAGCTTACTGATAAGCAACGTTTTGAATTAAAAGTTTCACTGGAACAAGAGGAGATGGTAAGAAAGAAATTAGCTATAGAGCGCGCAAGAAATGCAGAAAAGATACAGGTTTCGTACAGAGCCGGTACAAGATTGTCGGCTGTTGGTGTTTAA	MREMNYGLSGYLAPDGIFYECDYGKHGELAKKLIEKYQVNYTMDYNEMATKGEFLKFGTYPWTGKEGCNGCHVFKSLFHPLTNKQTIWIMENMNKLTDKQRFELKVSLEQEEMVRKKLAIERARNAEKIQVSYRAGTRLSAVGV				NA	NA	NA	NA	NA
AK009_03829	180			hypothetical protein	ATGAAATACATAGGTAAAGGGTTTGAGTACTTCACTCATTGTGGAATCAAAAGGGTTGGCACTGTGAAGAAAATCGAATTTCACAAAGAATTAGGAAAGCCAATTTTTATCGGAGTATCCCCTTTTGGGAACACATTGCGGTTATCTAGAGAAGAAATCTGTAGATTTATTAATTTATAG	MKYIGKGFEYFTHCGIKRVGTVKKIEFHKELGKPIFIGVSPFGNTLRLSREEICRFINL				NA	NA	NA	NA	NA
AK009_03830	255			hypothetical protein	ATGGGCGCTTTTATATCAATGCAACCCAACGGTCTGTATTGCAGGTTCTCAGGCGTGGTTGATTGTCCGACTCACTGGAATATGACACGAGAGGATTACTTGAACAACACTACCGGTACGATCAGATCGAGAGCAGAAGGTGAAGATATTTTAGACAACTACTTAAAGCCGTTTTCAGATGTTCTTGAACATTTTATGCCTCACAATATGGCTCAAAAAGAATTCGATAAACTTGTTAAGTTAATGAGTTCTTGA	MGAFISMQPNGLYCRFSGVVDCPTHWNMTREDYLNNTTGTIRSRAEGEDILDNYLKPFSDVLEHFMPHNMAQKEFDKLVKLMSS				NA	NA	NA	NA	NA
AK009_03831	234			hypothetical protein	ATGAAAGCATTCAAAGTGTTCTATAGTACGCCAGGTTGTTCAACTTCAGCAATCGTATTAACAGAAGATGAATCGACATTAGAAAAATCATTATCTGAAAAAGATTCGGATTTTAGAATGGGTGATAAGTACTATGGAATATCAAGAAAAAGAGAGATGCCTTTATCTAATGTGATGTTGCGTGATTTATCAGTTGCGGAACTATTGAAGATACTGAATAAGGAGGGTGTATAA	MKAFKVFYSTPGCSTSAIVLTEDESTLEKSLSEKDSDFRMGDKYYGISRKREMPLSNVMLRDLSVAELLKILNKEGV				NA	NA	NA	NA	NA
AK009_03832	324			hypothetical protein	ATGTTTAAGTATGCGAAATCGATGAGCCTACTAGGTGGAATAGATATGTATAGCCTCGGAAAAAGATACGGAAAAGAGGTTTCTCCAAAAGGAAGAAAAGTGTATTTCCTTAATAGAAACGGATACGCAATGGAATTAGAACAAGCAAGAAAGCTTTTTAAAGAAGGACAAGTCCTAACGGTAAAAGAGATATATGTGGGTAGAAGTAGCTCAGAAGTTGAATTTGTAGAGTATCCACTTAAGAAATTCAATACAGTAATGTTCGCTGATTGTACAGAAGAAGGAGAGGCGTGTCAGAATGAAAGCATTCAAAGTGTTCTATAG	MFKYAKSMSLLGGIDMYSLGKRYGKEVSPKGRKVYFLNRNGYAMELEQARKLFKEGQVLTVKEIYVGRSSSEVEFVEYPLKKFNTVMFADCTEEGEACQNESIQSVL				NA	NA	NA	NA	NA
AK009_03833	636			hypothetical protein	ATGCCATATATGCCACATCAGGAATTTGAAGAAAATTATTTCGAGATGGATCCAAACTTTCAATTCAATACAGCTATTAACGAACTGTTAAATCAAGAAGTTGAGAAGCGTGTATCAGAAAAAGTTAAGGATTATGAACAAGCAAAAGAACGAGATGCTAGTTCACAAAAAACAATTAGTGACTTAAGAAACCAGATGCACAAATTACAAATGGAATTAAAGGGTGCTGAAAATACTTTCAAAAAAGAAGGTGCGGGCCAAGCAAAAAGAGAGATGCTTGGAGGCTTTAAGCTAGGTGATGAAGCTTGGTTTGTTAGAAGTCAATACAACTCAGAAACATGTACGGTTTGCTCAGGCGATAAAAAACTTGTTGTAGAAATCCAGGGCGAGGAAAGAAAAGTAAAGTGTCCGGAGTGTAACGGTTTTGGGTGTAGGAGCAAACTAATAAAAAGCGCAGAAAAAGGATTAGTTAAAGAAATAGATATCCATACATGGGCACAAGGGAAACAACTTAGTGTGAAGATGTATATAGAACCTACGTCATATAGGGCTTCTAGTAATGTGCAAGCACATCTTGGTGGTTTCTTTAAAACCAAAGAAGAGTGCGAAAAAGAACTAAATAAAGAAAAACCATAA	MPYMPHQEFEENYFEMDPNFQFNTAINELLNQEVEKRVSEKVKDYEQAKERDASSQKTISDLRNQMHKLQMELKGAENTFKKEGAGQAKREMLGGFKLGDEAWFVRSQYNSETCTVCSGDKKLVVEIQGEERKVKCPECNGFGCRSKLIKSAEKGLVKEIDIHTWAQGKQLSVKMYIEPTSYRASSNVQAHLGGFFKTKEECEKELNKEKP				NA	NA	NA	NA	NA
AK009_03834	264			hypothetical protein	ATGAGTACTACTACATTATCAAAAGACTTAACTTTTGAGCAATGGCTAGAAATGCATTACGGGTACACTGGAACAGAAGAAGAGATCGAAGCAGCTATTTTAGAACATAACAAAACAGCGATTGCTGAAGTCTTTAAGGAAGAATGGTGTACAGCTTACAGGTCTGCTCAGATGGAAGTTGTTAAATTATTTGAAGAAGATTACATCAAGGATTCGCAAAAACAAGGTTGGGAACGACTTACGAAACGATTCTGGTGGGAATAA	MSTTTLSKDLTFEQWLEMHYGYTGTEEEIEAAILEHNKTAIAEVFKEEWCTAYRSAQMEVVKLFEEDYIKDSQKQGWERLTKRFWWE				NA	NA	NA	NA	NA
AK009_03835	144			hypothetical protein	ATGAAATTAACAGATGAGCAACTTAAGAAACTACCACGACAATGCTTGGATTGGAATGGTGGCGGAGCAGTTATTATCAACAAAGCTACACTAAAAGAAATCTGCAAAGAGCTATTAGATTACCGAACGGGTAAAAAAACATAA	MKLTDEQLKKLPRQCLDWNGGGAVIINKATLKEICKELLDYRTGKKT				NA	NA	NA	NA	NA
AK009_03836	627			hypothetical protein	ATGAAAAATCTATTAATGGAATCAACAAATGATGTAAGAACAAATATTTTAATGGCAGCGGATTTTCTTAAAGAACAGAAGCGACTACTGAAAAAGCAGTCAAATGTAATGCAAAAGCATAAGGAAGAGAAAGAAGAAAAAGCAGAACGTCTTACTAAGAACTCCGAAGAGATTGAACTAAAAGGACAAGAACGGGAGTTACTGATTAAAAAAGTAGAGAACTTGTTAAAGGTGCGACTAGAGAAAGATGTTGTGTTAGTGGAAGCTGGCCATGACTCTAAGCGTTATATTCGCTGCATCTATAGACAGAATCGAACAACGTTAAAAGGTTTCTTAGAAGACCTAGTAGCTGTCTATGGGGATGGATTAGCCGAAGAAATGAGAGATAATCCTATTCCATCATTGCTTCAGCTATTGCATGAAAAGAAGGTTTTGAAGAAAGACTACAAGCCATATTCTACTGCATTCTCTAAAGGATATTTTGAAGAGAAGCCAGCACGAATCTATGTTGATTCTAATAAGAACGCAATTCGTGTAGAGACAGAGGTGTATATCACTGCAAGTGGGACAAACCGCTTACGTCTTAAAGAATTAAAACCTATTATCGTTGCAGGAAATTCCATTTGA	MKNLLMESTNDVRTNILMAADFLKEQKRLLKKQSNVMQKHKEEKEEKAERLTKNSEEIELKGQERELLIKKVENLLKVRLEKDVVLVEAGHDSKRYIRCIYRQNRTTLKGFLEDLVAVYGDGLAEEMRDNPIPSLLQLLHEKKVLKKDYKPYSTAFSKGYFEEKPARIYVDSNKNAIRVETEVYITASGTNRLRLKELKPIIVAGNSI				NA	NA	NA	NA	NA
AK009_03837	816			hypothetical protein	ATGACAAACGAAGTAGTAAGTGTTGAGGTTTTAGTGCCTATCTCTGAGATGGTTTTTGAAGGACGTTCCTTTTCTATCTATGGAACATTTGAGGAGCCATTGTTCTTAGCTAAAGATGTAGCTCAATGGATTGAGTATGATGTTTCATCAATTAATAAGATGTTAAGAAATGTAGATGAAGATGAAAAGGTTCGGAAAATTGTTCCGACGCAAAGTGGCGCTCAAGAATCTTGGATGCTTACAGAACAAGGTATGTATGAAGTATTATTACAGTCTCGTAAACCTGTAGCGAAAGAGTGCAAGAAAGTTGTTAAGGCACATATGAAAGAGTTACGTGTTTCTGGCGTAACTCTGAGACAGAATCTAACACTTCAACAACAAACAGTTGTCTTATTAAGTAAACTAGACGAAGTACTTATTCAACAAGAAGCAGAACTTGCTCAACTTAATTCTCAAATTGAGACTTTAGGCGAGCAAACTGAACTACTAGAAGAAGAGATCCGCGTGGTCGATAATCAAATTAAAGCACTTCAACCATATGCCAAGAAATACAAAGAGTTCTTATCTGAAGATGCTCTGATGACCATTGATGATTTTGCCCGTATTATGTTTCCACGTTATAGCTTAGGCCGTAACCAACTGTTCCAATACATGCGTGACAATCGTATGATTGGTTCAGAAGGACGTAATCGTAATATGCCACACCGCCAACTTGTAAATCGAAACATCTTAAAGTTATTAAAAGGACAAGTCTTTATCACAAAACAAGGATTCGATTATCTTTGTGACTCTTTAGACTCTCATTTTAATCTTTAA	MTNEVVSVEVLVPISEMVFEGRSFSIYGTFEEPLFLAKDVAQWIEYDVSSINKMLRNVDEDEKVRKIVPTQSGAQESWMLTEQGMYEVLLQSRKPVAKECKKVVKAHMKELRVSGVTLRQNLTLQQQTVVLLSKLDEVLIQQEAELAQLNSQIETLGEQTELLEEEIRVVDNQIKALQPYAKKYKEFLSEDALMTIDDFARIMFPRYSLGRNQLFQYMRDNRMIGSEGRNRNMPHRQLVNRNILKLLKGQVFITKQGFDYLCDSLDSHFNL				NA	NA	NA	NA	NA
AK009_03838	336			hypothetical protein	ATGAATAAGCAAGAGGCAATAGAAATTATTAAGAATTCTTTTTTACACTTGATGTTTGAAGAGAACGTTAAAGTGGGGTCTATCGATATCCTTTTATATTTTCCGTCTATAGGTATAGCTATTTTAGAACCTAAAAAAGATAGGAAGCACTTACTCTTAGAGGATAATATTGAAGATATGGATGAACTGTATATTAAAAAAGAGTTAGAAGCTAAACCCATCTATTTAGATTTAGAAGAAGACAAATTCAATATAGGATTTGTTATTAACGACATACTGTTGGAGGCGAGATTCGCGCCATCAGAAAATTTTTTGGAGAGTAGGGGTACTTATTAG	MNKQEAIEIIKNSFLHLMFEENVKVGSIDILLYFPSIGIAILEPKKDRKHLLLEDNIEDMDELYIKKELEAKPIYLDLEEDKFNIGFVINDILLEARFAPSENFLESRGTY				NA	NA	NA	NA	NA
AK009_03839	192			hypothetical protein	ATGGTTCAAATACTTACAGACAAGTTAGTTCAAGGAGGAATTAATGTGCTTAAATTTATTAACAATCAAGGTAAAAAAGTCATGGAGATGACAGATAACGGCGATGTAACTATCTTAAATGAAGAACTTAAAAAGTCTTTCTCTGAAAACTCTCTACAAGAAACTAAGAAAGAGGAGAAAGAAAATGAATAA	MVQILTDKLVQGGINVLKFINNQGKKVMEMTDNGDVTILNEELKKSFSENSLQETKKEEKENE				NA	NA	NA	NA	NA
AK009_03840	567			hypothetical protein	ATGAATAAACCAACTGAACAAAAAGAAGTGTTAGGTATTTTCATTACTAAAAATGAAGTAGCTAACTTAAATATGGAACACATTCATGTAAGTGATTTCGCTATCCAAACAATCTTAAAAACAATTCGCCTTACTCCTGAAGTTCAGGCAGAGGTTATTGATAAGATGGTTGAACGTACTCCAGGTTACTTCCAACTGACTCCGGAAGAACAAGTAAATAAAATCAAAACAACTCTAACTATCGAAACAGTTGTTGAATACCTTCGTCTACATGAGTATATCCGTGAAGGTATTGACATGATTGAAGTTGGTATCGACCAAGAAGGTTCTGTTATTGTTTCTGCTTTTTATGTGGGACAAGATGAAACACTTGATAAGGTCTTCCGAAAAGAGTTAACTCCAGAAGAAATTGACCAGTTAGAAAAAGAAGTAAATATCTTAGATGGTCAGGTAAACATCTATGAAGAAGCTAAAAAGCGTTTAGATCAAATGAAAGCAGACAACGTTATCCCTTTTCAAAATCGTGCAGCTAGACGCCAAGCGAAAGCGAGGTTATCACACAAATGA	MNKPTEQKEVLGIFITKNEVANLNMEHIHVSDFAIQTILKTIRLTPEVQAEVIDKMVERTPGYFQLTPEEQVNKIKTTLTIETVVEYLRLHEYIREGIDMIEVGIDQEGSVIVSAFYVGQDETLDKVFRKELTPEEIDQLEKEVNILDGQVNIYEEAKKRLDQMKADNVIPFQNRAARRQAKARLSHK				NA	NA	NA	NA	NA
AK009_03841	537			hypothetical protein	ATGATTGAACAAGTAAAAGAGAATCTAGTATACGTAGTTGAAGAAGAAGAGGAAGAAACTATTACAGTTGACCTCGAAAATAAAACTATCTATCAAAAAGAAGAAGGACTTATTGTAAGTTCAGACGGTATCATTGACCCGAACATCTACAAGATGCCAAAAACATTTGATGAATTTGATGGAGATATGAGAACTATTGAGATAACTCCCCCAAAACCAACCTTCCAAAATGAACTTCAAGATTTACTACTAAATACAGTAACTTCAAAAGCGGTCGCTTCCCTACTATCAAAACATTCAGCTCTCGATACAGAGCTTGATATTTTAATGGAAAACAAACGAATGGGGCAACTTGGCTCTATTCTAGATAAAGAAATTGACGACATGATGACTAAGCGCCGTATGGAATTACGTTCTTGTTTCATAGGAGAACAAGTTCGCTATGAAAAGGTTCCAGACTGGGCAAAGAGTTATGTAAAAGAATACATCAAAAACATGATTCATGGTTTATCAATTTTAGTAGAAGACGGGGAATAA	MIEQVKENLVYVVEEEEEETITVDLENKTIYQKEEGLIVSSDGIIDPNIYKMPKTFDEFDGDMRTIEITPPKPTFQNELQDLLLNTVTSKAVASLLSKHSALDTELDILMENKRMGQLGSILDKEIDDMMTKRRMELRSCFIGEQVRYEKVPDWAKSYVKEYIKNMIHGLSILVEDGE				NA	NA	NA	NA	NA
AK009_03842	483	ruvC		Crossover junction endodeoxyribonuclease RuvC	ATGTACTACTTAGGATTAGACCCCTCAACTAAATGCACAGGATACTGTGTAATGGACGAAAAACATGATATTATCGAAGCTGGCAAAATCGATATACCTTCTAAGGGTGATGAAGGAGATAAAATCATTTATCAAATCGAACGTATTGAAGCCCTTTTCGAAAAATATGATATTACTAAAATCCTTTGTGAAGATCAATTTAGCAAATTAAACATCGATACATTAAAGAAATTAACACGAGTATCGGGCACAATTCTTTATCTTGCAAAGAAACACAAGCTAGAGATTGAACTTATCTACCCTACTAGCTGGCGTAAAATCTTCCACGGCTCAGGTAAAGCCAAGAAAGAAGATACCTTCCATAAGGTTGTTGCTCTCTATGAATTTGAGAATCTAGAATTCAAAAAAGACAACGATTTAACAGATGCTATCGGCATTGCCTGGGCATGTGTAGACTTACATAAAGAAGGTGTAGCTGCTTGA	MYYLGLDPSTKCTGYCVMDEKHDIIEAGKIDIPSKGDEGDKIIYQIERIEALFEKYDITKILCEDQFSKLNIDTLKKLTRVSGTILYLAKKHKLEIELIYPTSWRKIFHGSGKAKKEDTFHKVVALYEFENLEFKKDNDLTDAIGIAWACVDLHKEGVAA				NA	NA	NA	NA	NA
AK009_03843	270			hypothetical protein	TTGAAAATCTACCGTGGCAATATAGGTGTGGACTTGTCTCTTGAAGAGTTTTCTCAAATCATAGAAGATGAAGATAAAATTGATGACCTACTCAACATCATTTACGAATTGGAGATGGATGAAGTCATGAATTACAATAAAGAAGACATCTTAGCTTTTGAAGCAAACCTTTTTCAAGAGGTTGCAGAATATCAACGTAAACAAAATGCAAATGACGACACTGTAAAAATGGAACGTATCCTAGCCCACTTAGAAAAGTATGGACGATAA	MKIYRGNIGVDLSLEEFSQIIEDEDKIDDLLNIIYELEMDEVMNYNKEDILAFEANLFQEVAEYQRKQNANDDTVKMERILAHLEKYGR				NA	NA	NA	NA	NA
AK009_03844	810			hypothetical protein	ATGGACGATAAAACTCAACAATATGAACACATTGAGTCTTTAGTGTTCGAATATCAAGCAGGTTCCGAGAAGGCTGGGTTAGAAATAATCCAGTCTTTTGGTTATGATCCGGAAACAAAAGAACTATCTAAGTACCTCAACAAATACTTTGCCCTCTTACGCTTTGGCGTGATTAAATTTAACGACAGAGATACAAGGCAATTCCTCAGACAGTTTACCTCAGACGAAACCCTGCATAAGGCTCTTATCCCTAACTATCAATATGCTCATACGAAAAAAGCTACACGGAAGCTTGTTCAAATGATTAATTATCGAATGAGACATATTACAGATGAAGATTTAATAAACGATCTTTGCTTACTCTTATTAACTCAGGCTAGGAAGTATAAGAAGCAAGGAAAGAAAAAGAACTTTTGTGGATACCTATTCAATAGTTATCGCTACAAAGTTTATGCTCATTACAAATATCTCTTCAAAGACCAACTCTATTCACACCGTATAGAGATGCTAGAGGATTATAGAGATGAGAACAGTGAGATTCTGATAGAAGAAACTCTCCGCTCTGACCTTTACTTTCAAAATGAAAAAGAGAAAATAGGACTCAATTGGATACTAGGTAAAACAGCTGACTTCCCCTTTAACCAATTAAATAATTTTGAAAGAACTCTAATCTCCCTTTACGACTATAAAGGAATGACCTATGAAGAAGTTGGTGCTCAAATGGGATATCACCGTGATACTATTTGGAATAAGCGTAAACAAATTAAGAAAAAATTAGAAGAAATAATGAAGAATCCTCCCTGTGATTAA	MDDKTQQYEHIESLVFEYQAGSEKAGLEIIQSFGYDPETKELSKYLNKYFALLRFGVIKFNDRDTRQFLRQFTSDETLHKALIPNYQYAHTKKATRKLVQMINYRMRHITDEDLINDLCLLLLTQARKYKKQGKKKNFCGYLFNSYRYKVYAHYKYLFKDQLYSHRIEMLEDYRDENSEILIEETLRSDLYFQNEKEKIGLNWILGKTADFPFNQLNNFERTLISLYDYKGMTYEEVGAQMGYHRDTIWNKRKQIKKKLEEIMKNPPCD				NA	NA	NA	NA	NA
AK009_03845	678			hypothetical protein	ATGAGTGAAAGCAGAGTAAGGTTATTTGAACAACGTATGGCAGATGCGGGACAGGAGATGACTCTTCGCGCGTTAGATATGGTTAAGGAAGAGATGTGTGCTACAAAAGGATTTGCTCGTCATGATGGTTCTAACTATTACAACCATTGTGTAGATGTAGCTCAGGACCTATTTAATCATGGTATAAGAGATGAGGATATCTTAACAGCAGCTCTGCTTCATGATATTGTTGAAGATGTTGAGGGAATCACTTTAAGAATGATTGAAGACAAATTCAACAAAAGAGTAGCCAAAATGGTTGACCTTGTTACGAAAGAAAAGTCTGTAAACTATAAAGAAGGTGAGATCCTTAAGGTATTGTATCTTGAACCAATGCTAAGAGATCCAGGGGCATGTTTACTTAAAGCTTCTGATAGAAAACACAATTTCAGTACATTACGTGATGCTACACCAGAAAAGAAAGTAAGACAAGCAATCGAGACTGAGAAGTACTTCTTCCCATTCTTTAAGGAAGCTATGAAGCGTTATCCAAGATACTCTGCTTATTTCCTATCTGCTAAGACAGCTATCAAACCACATCTTATGGAGATATTAGAGCATTATAAAGAAGTGAATGCTTTAAATGCTCGAATTGTAGAGTTGGAAGCTCAACTAAATAAGGTTCCTGTATTACAATAA	MSESRVRLFEQRMADAGQEMTLRALDMVKEEMCATKGFARHDGSNYYNHCVDVAQDLFNHGIRDEDILTAALLHDIVEDVEGITLRMIEDKFNKRVAKMVDLVTKEKSVNYKEGEILKVLYLEPMLRDPGACLLKASDRKHNFSTLRDATPEKKVRQAIETEKYFFPFFKEAMKRYPRYSAYFLSAKTAIKPHLMEILEHYKEVNALNARIVELEAQLNKVPVLQ	PGPT0021700_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021700-spoT|relA-K21138	NA	NA
AK009_03846	732	rbn		Ribonuclease BN	ATGCTTAATTTTATTGGAAGAGGTAGTGCATTTAACACAAAAGAAGGAAACAACTGCGCTTATATTAAAAAGGATGATCATTTGTTTTTAATTGATTGCGGTAGTTCAACATTCGGCCGCTTAATTGAATCTAAATTACTAGATGAAGTGAAGCAAGTAACTGTACTACTCACTCATTTACATCCTGACCATGTAGGTTCACTAGGCGATTTAATTTTCTATGGGTATTATTCAATGGGAAAGTTAATGGAACCAAGTATAACCGTGTATGCTCCATACGATTTAAAGATTGCTGAACACTTAAAAACGATGGGTGTAGAAAGAAATACATATGAACTAGTACAGTTCTGGGGAAGTGTAGGATGTCATCATGATGATTTTATATTAAACTTCAAACCTATTTGTGTTAACCATGTAGATGAATTACCTTGCTTCGGATATATTATTAAAATCTGTATTGATGGTCGCAATAATACGATTTACTATAGTGGAGATTCTAATGATATCCCAATGAGTATTTTACACATGTTAGAGTATGGTGAGCTTGACTACTTTTATCAAGACACATGCATAGCAGACTACGAGAAGAATGTTCATCTATCCTTAAGGAAATTAGATGAGTCGATCAAACAAGAGGCAAGACATAAAGTCTTCTGTATGCATTTAGATGAAAAGTTCGATGAGCAAAAAGCAAAGGACTTAGGATTTAATGTAGTTTCTATTACAGCATAA	MLNFIGRGSAFNTKEGNNCAYIKKDDHLFLIDCGSSTFGRLIESKLLDEVKQVTVLLTHLHPDHVGSLGDLIFYGYYSMGKLMEPSITVYAPYDLKIAEHLKTMGVERNTYELVQFWGSVGCHHDDFILNFKPICVNHVDELPCFGYIIKICIDGRNNTIYYSGDSNDIPMSILHMLEYGELDYFYQDTCIADYEKNVHLSLRKLDESIKQEARHKVFCMHLDEKFDEQKAKDLGFNVVSITA				NA	NA	NA	NA	NA
AK009_03847	909			hypothetical protein	GTGTCAACAGCTCAACTAGAAGTTGAAGTGTCAAAAATAAAACAAATTAAAGAGCGATATGGGGATTTAGACATCATAGATATGGTCCATCAGTTTCTCACTACAGAGAATGCTGCCAATCAACAAAAGCGTATCGACCAAGGACGATTAGGTAAGTTCTATCCGTCTTCAATTGGAAGGTGTAAACGTGCTGTGGTTTATCAGATGTTGGGTTATCCAACTAAACCGATACCAGGACAAAACCTTTTAATTATGGAGAATGGAACAAGTTTTCATAATCGAATGGAAGATATCTTTGAAAAGATGGGAATCCTGATTGCTCCCGAACTCTCATTAAAAGATGAAGAATTACGCATAAGTGGGCGTTCAGATGCTATCATCTGGAACTATCTAAAGTCAGATGACGAAGAGGATGCAGATGATATCGTCTTAACAGCTAAAGTTGCAGAGAAATATAAAGATAGAGAAGGCGTAGAAAAGACGAAGATGGTAGACAAAGAAGTCTATCGTGGTCCAGCTAATCATATCCTTATTGTCGAATTCAAGTCAATTAAGAATAAGAACTATGCTAAGTTACCGAAATCTAAGCCAGACAAGAAACATGAAATGCAGTTGCAATTGTATTTCTATCTAACTGGTATTAGAAGAGGTATGGTGTATTACGAGAACAAAGATACACAAGAATCTAAGTCTTTCCATGTCTATTACAATGAAGAGTTGGTTGAACAAGTTAAAGCGGACATAAAAGAAATTCTTGATTATGTAGATCGTCGAGAGTTACCTGAGAAAGAAGGGAATGCATTAGACATTATGTGTCGCTATTGTGATTTCCGTAATTTATGTCATGTACCAATCTCTGAAGAAGAATGGTTAGAACTATATTTCAAAGATGAAAAAGAAGCCTCCTAA	MSTAQLEVEVSKIKQIKERYGDLDIIDMVHQFLTTENAANQQKRIDQGRLGKFYPSSIGRCKRAVVYQMLGYPTKPIPGQNLLIMENGTSFHNRMEDIFEKMGILIAPELSLKDEELRISGRSDAIIWNYLKSDDEEDADDIVLTAKVAEKYKDREGVEKTKMVDKEVYRGPANHILIVEFKSIKNKNYAKLPKSKPDKKHEMQLQLYFYLTGIRRGMVYYENKDTQESKSFHVYYNEELVEQVKADIKEILDYVDRRELPEKEGNALDIMCRYCDFRNLCHVPISEEEWLELYFKDEKEAS				NA	NA	NA	NA	NA
AK009_03848	444			hypothetical protein	ATGGAAAAAAAATATGAATTTATGGACACCGACAATATTTACGGACAACGTAAAGATGATGAAAAGAACTGGGAAGAGTTTGGTGAACTCGCCCAAGAGACCTTTAAGAACTGGACAAAATACAACGATGGAACTTCCGGTGTAAAAGCTAAGACATGGCAAGATGCTGGTCGTGGCTGTGTAAGATGTGGTGGTTCCCTAATGGTCTTTGAAGAAGGTGAAAACGGAAATGTTCTTTTAGAATGTAAGAGTTGTGGTTATCATCAGTGGAATGCTGACATAGCACCATACAGTCAAAAAGAACTGAAGCAAATGAACAAGGAAGCTAAACAAGCTGGTGCCACTGGTGCTCGCCATCTTCCCGATGAATTATACAGAACTATACCAGACTCTCTTATTATGCAATATGTAGAAATGAGAGAGAAAAGAGCGCAGGGGTATTAA	MEKKYEFMDTDNIYGQRKDDEKNWEEFGELAQETFKNWTKYNDGTSGVKAKTWQDAGRGCVRCGGSLMVFEEGENGNVLLECKSCGYHQWNADIAPYSQKELKQMNKEAKQAGATGARHLPDELYRTIPDSLIMQYVEMREKRAQGY				NA	NA	NA	NA	NA
AK009_03849	660		COG1428	Deoxyguanosine kinase	ATGACCATTCTATTGGTAGATGGAGTCGTTGGGGCTGGCAAAACAACTCTAGCGCAATTAATAAGTGAAAGATTTAACATTCCTATTTTTGAAGAACTAGGAAATCCTGATGCAGAACGATTACTAAATCGATTCTATGCGAAGAAAACTCGCTGGGCATTTACAACACAAATTTTCTTTGCAAACGAACGATGGGAAATGATTAAGAAAGTTCATGAAGAAGGTCATGGGATTTTAGATCGCTCAATTTTCGGCGACAACATCTTTGCAAGTATGTTAGCTGAAGATCTTGAGGATGGCGGAGAAGGTATGACATGGGAAGAGTATCGTACATATAAAAAGTTACTAGATCAAATCCTAGAGCATTCTCAACCACCTGAGCTATTAATCTACCTACAATGTAGTGCTGAAGTTGCAAAGCAGCGAATTGATAATCGTGGTCGCGGTATTGAAAGCGAAGTAGAAATGGCTTATTGGGAACGACTAAATGACAAGTATGACGTATGGTACCAAGACTATGATCATTCTCCAAAAATCTTAATCAATGTAGATAATTTGGATTTTGCAAACAACGAAGAAGATAAAGAGTCTGTACTTGCATTAGTTGGCGAAGCATTAGAAAAGATTGGTTATACAAAAAAAGAAAAAGCAGGGGTTTAA	MTILLVDGVVGAGKTTLAQLISERFNIPIFEELGNPDAERLLNRFYAKKTRWAFTTQIFFANERWEMIKKVHEEGHGILDRSIFGDNIFASMLAEDLEDGGEGMTWEEYRTYKKLLDQILEHSQPPELLIYLQCSAEVAKQRIDNRGRGIESEVEMAYWERLNDKYDVWYQDYDHSPKILINVDNLDFANNEEDKESVLALVGEALEKIGYTKKEKAGV	PGPT0021370_297	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519	NA	NA
AK009_03850	351			hypothetical protein	ATGTGGATTGTATTGCTTATATCCTTTTATGTTGTTGCCGGAATTGTTTATGGCTTTCAACATATGATTAGTATTTATACCATGATAAGACAAGCAGGGGACAAGGAAGCGTTCTTGCGCGAGATGGTATCTATGTATGAGTTAACTCCTCAAGGAGCTGAGTATTATGCGCAGCTGCAAAATTTACACGTAGAAAAAGGAGAATTACTGGCCGAGTACAAAATATTTAAAGCAAATGAAGGTAAGTATCAACTCCTAACATTTCTTTTTGGTTTTGTTCTTTGGCCATACTATATTTTTTCTATATCAAAAAGAAAAAGAACAACTAAGAAAAGAGAGATGGGGCGATGA	MWIVLLISFYVVAGIVYGFQHMISIYTMIRQAGDKEAFLREMVSMYELTPQGAEYYAQLQNLHVEKGELLAEYKIFKANEGKYQLLTFLFGFVLWPYYIFSISKRKRTTKKREMGR				NA	NA	NA	NA	NA
AK009_03851	375			hypothetical protein	TTGATTTCTGAGTTTCACTTACGAAAGAAAATGTTCAACTACATGAATAAGAATTATGGAGGACTACTTCGTATTCTTGATAGTTGGAACGAAAAACTAAATCATGGTATTCCAATGGCGCAGGAAATGTTAGCGGATTTATTTGGACATGAAATCAATAATGCAATGGTAGATGAGTTTATCGATGCTTACGACGTCCCAGGAACTTTTGTTGCTGTGTCTGTTGGAGCATGGATGAATGAAGACAACCCTTTTCAAGTTGTGTTTGTTTATAAGGTTGAGATCCATACAGAAACTGAAGACAACGTTGAAATGTTTGTAATGGGCGATGAAGCTGCCCTTATCGAATATTGCAAAGAAAAGGGGTATAGATAG	MISEFHLRKKMFNYMNKNYGGLLRILDSWNEKLNHGIPMAQEMLADLFGHEINNAMVDEFIDAYDVPGTFVAVSVGAWMNEDNPFQVVFVYKVEIHTETEDNVEMFVMGDEAALIEYCKEKGYR				NA	NA	NA	NA	NA
AK009_03852	297			hypothetical protein	TTGAATTACTCTTTCGATATTAAAGAAGAAGACTTAACACCTGGGCGAATATGTTTAGGTGCTGTAAAAGTAGAGATGGGACGTATATTTTTATTTGGTTCTCAAGAAAGGTTACATGAAATGGTTTCGTTTATCCCAGGATTGGGTAACGGGGTGTATGAAGTGTATGCCGTAATAAAAGATGTGCCAGGATACGGTTACCGAACTACTAAAGTTGAAATCGAATGCATCTCTGATGAAGAGATTAAACATTACGAGAAAGAACAGTCTGACCGAGTATTGGAGGTGGTGTATTGA	MNYSFDIKEEDLTPGRICLGAVKVEMGRIFLFGSQERLHEMVSFIPGLGNGVYEVYAVIKDVPGYGYRTTKVEIECISDEEIKHYEKEQSDRVLEVVY				NA	NA	NA	NA	NA
AK009_03853	1527	sasA_13		Adaptive-response sensory-kinase SasA	ATGAGAAGCAAGATTAGGAAATTCCTCAGAAATTTTGTAAAGCGTGACAAATTACGTGTTCAAGTGGTTCTGTTTACTATCGCATTGATTTTTATTTCAGCAGTACCAGTTAATTTATTTTCTATGTACAATGAATTACAACTAACAACTCAAAGAGAATATGAGGCAATGTTTGCCAGGGTAGAAAAAATACAACAAAAGTTAGAATCGATACAAGATGGTGGAGGAAAGCAGCAGATTGATGACGGTTTTTTTGAGTATTTGAGTTACCCCGGTGAATCGATAAAAGTTAAAATTGGTCAAGCAGGGATTGGAGAATATAATTACTTCTCTCCTGCTGAACAAAATGATGCTTTTGATGTGTTTGGATCTCAACTCTTAACTTTATTTGTTCCAACTTTTTTTGATTCTATTAAAACACATATGAAAACATTAGACTCTTCTGCAGACAATGCAGAATACAATTTTTATTTTGACGAACAAAACAAGGCATACGGTGTCGTTTCGTACTATTTCAAGCATGAAAATCATTTTGATATGGTAACTATAAAAAGAGATATAACGACGAATTTAAAAATGCAAATGATGGCCGGTTTAGAGAGCGCTTTGTATATGTTTATTTGGTTTCTTTTCTTTTTAGTTATATCAGCTTTGGCGGGTTTGAAATTTATATTTAGACCATTACAAAAGGCAATTGATACAAGTTTTGATGGTGTGGTAGATAATAATTATCAAATGAAAATTGAAGATCCTTTGTATGGGGAAGAAATATCTAAGGTTGTTAATCGTTTCAATGCTGTTCTAGATAGAATGAATGAGCTTGTACAGAACAATCTAAACTCTATGCAAGATGTATCACATGAAGTAAAAACATACCTAACTGCAATAAAACAGTCTGTGGATATGATTAAGTTTTATGGTAAAGAGGATAAAGATTTAGTTGATGAAAAATTACTTGCTATAGAAGACAATATTGCTAGGGTTACATCAATTATGTCAACAATCTTAGAACTAGCTCGCTTAAAACAAATATCAAATATTGATAGTGCAAATTACTATAACGCAAAAGACTTGATCAATTACTTATTGCGATTTAAAGCGGAATCATACCCAGACTTTGTTTTTGATATTTCTTACGATGCAGATGGTGTCGAGATATTTGTAGATCGAAATCATTTCTTCCTAATGATGAACCCAATCCTCGACAATGCAGTTAAGTATTCTGTTGATTCAAATCATGTTGAGATAAACGTAATTTCTAAAACTAATGATAATACGGTTTGTATTTCGGTTACTAACAAAGGTATTGTTCTTGATCCAAAAGAAATTCCTTTCCTTTTCGATAGATATTATCGTGGTAAAAATTTAGATTATACTAAACAAGGCTCTGGATTAGGATTAACCATCGCAAGAGAAGTAATGAACATATATAAAGGTAAAATAACTGCTCAAAGTACAACGGATGATAAAACATCTTTCACATTAAGATTTCCAAAAGCTATAAGAGTAGAAGACTTAGGAGAATAA	MRSKIRKFLRNFVKRDKLRVQVVLFTIALIFISAVPVNLFSMYNELQLTTQREYEAMFARVEKIQQKLESIQDGGGKQQIDDGFFEYLSYPGESIKVKIGQAGIGEYNYFSPAEQNDAFDVFGSQLLTLFVPTFFDSIKTHMKTLDSSADNAEYNFYFDEQNKAYGVVSYYFKHENHFDMVTIKRDITTNLKMQMMAGLESALYMFIWFLFFLVISALAGLKFIFRPLQKAIDTSFDGVVDNNYQMKIEDPLYGEEISKVVNRFNAVLDRMNELVQNNLNSMQDVSHEVKTYLTAIKQSVDMIKFYGKEDKDLVDEKLLAIEDNIARVTSIMSTILELARLKQISNIDSANYYNAKDLINYLLRFKAESYPDFVFDISYDADGVEIFVDRNHFFLMMNPILDNAVKYSVDSNHVEINVISKTNDNTVCISVTNKGIVLDPKEIPFLFDRYYRGKNLDYTKQGSGLGLTIAREVMNIYKGKITAQSTTDDKTSFTLRFPKAIRVEDLGE				NA	NA	NA	NA	NA
AK009_03854	1494	sasA_14		Adaptive-response sensory-kinase SasA	ATGTCCTTGAAGTCTTTAATTCTTAGAAGAACAAAAGAAAATAGGTTGCGTACAAAATTGACGGTAATGGCAGTAGCTGCTGTCACTTTTTTTACAATGCCTATTTTACTGTGGTTCCTCGTTTTTGATATTTTAAACGATGGGGAAGAAGTTTATAATCGTATGAAGTATCGGGCTGTTCAAATTGAAAATGAAGTATGGGAATCCGGAGGAATCAGTAAGGTACCTCCGGGATTTTTCGACGGCGTTGTAGCTAAAGGTGAAGAAATAACAGTTTCATCTACAGATGATCGTACCAAGCGTGTTTTTTATAGTAAACAAAATGAGGAAGAGGATTTAGTGAATGATACAAATGCTAAAATCGCATCTTCTCTAATTGAATTTTTAGCTGGAAGATATAAAGATGAAATAAAAAAAGTAGGAAATATATCAATTCATAAAGACGAAACAAGCGGACTTCATTACATGAATTATAAATATTCCTTTAAACATATAAATCACACGGATACAATTTTGGTGAAAAGAAACATTACACCAACTGTTGTGAAACCTGTAGAAAAATATCAGCAATTATTTTGTCTGAGTTTACTATATATTGTTATCTGTTCAAGTATATTTTCCTATTTTGGTCTTGGCTTGGTGTTTCGTCTACTTGGAAATGCTCTTGATAAGACGTTTTCTGAGCTAGAAGAAACAGATTACAAAACTAGGATAAAAATTACGGGTGTGTATGGAAAAGAAATTCGTGGTGTTAAACATAAGATAAACGACATTTTGGAGCGAATGCAAAAAATTATTGAAGTTAATATAGAATCAATGCAGGATGTTTCTCATGAGGTAAACAATAAATTGACCTCAATCAAGCAGTCTGTTGATATACTAAGATTCTTTGGAACAGATGATAAGCAAACTGTGGAGAAAAAACTGAAATCAATAGATGACAATATTGAGCAAATTACAAAAGTTATGTCTATAATTCTTGACTTGGCAAAGTTAGACCGAGGAACTCAGTTCTCTTCTACAGAAACAGAAAACGTAAAAAAGTTAATTGATGAATATCTTGATTATACGAGAAAGATTTTTCCGGAATTTGATTTTATCAGTGAATGTGACGTAGAACAACCTATCATAAGAATCAACAAGCAACATTTCTTATTAGCTTTAAATCCTATTATTGAGAATGCAGTTAGGTATTCAGTGCATAGCAATGAAGTTATTGTTCATATTAAGGATGTCGGATGTCCAAGCTGTTTATACATAGATGTAATTAGTTGGGGACATCAAATTAAAGAAGAAGAAATTCCATTTTTATTTAATAGGTATTACAGAGGAAAAAATCTTGATAACTCAATAAAAGGATCTGGACTAGGTTTGACCATATCTAAAAAAGTGATGGATATATACAATGGTAAAATAAATGTAGAAAGTAATACAGATGGAAGAACTGTATTTACATTGGTTATACCTATTGTATCAGGAGAGGGGGATGCCTAA	MSLKSLILRRTKENRLRTKLTVMAVAAVTFFTMPILLWFLVFDILNDGEEVYNRMKYRAVQIENEVWESGGISKVPPGFFDGVVAKGEEITVSSTDDRTKRVFYSKQNEEEDLVNDTNAKIASSLIEFLAGRYKDEIKKVGNISIHKDETSGLHYMNYKYSFKHINHTDTILVKRNITPTVVKPVEKYQQLFCLSLLYIVICSSIFSYFGLGLVFRLLGNALDKTFSELEETDYKTRIKITGVYGKEIRGVKHKINDILERMQKIIEVNIESMQDVSHEVNNKLTSIKQSVDILRFFGTDDKQTVEKKLKSIDDNIEQITKVMSIILDLAKLDRGTQFSSTETENVKKLIDEYLDYTRKIFPEFDFISECDVEQPIIRINKQHFLLALNPIIENAVRYSVHSNEVIVHIKDVGCPSCLYIDVISWGHQIKEEEIPFLFNRYYRGKNLDNSIKGSGLGLTISKKVMDIYNGKINVESNTDGRTVFTLVIPIVSGEGDA				NA	NA	NA	NA	NA
AK009_03855	708	copR		Transcriptional activator protein CopR	TTGTATAAAATATTATTACTTGAAGATGAATATGAAATCGGTAGCACACTTGAAATGATTCTAAAAAGCGAAAATTACCATGTAGATTGGTTTACTACTGGTGTTGAAGCTGTTAATGCGGCATTGTCCAATAACTATCACTTGATGATATTAGATGTTATGTTAAAACAAACAGCAGCAGGATTAGATTCTCGTATTTCAAATGGTCTTGAGGTTGCAAGGTTAGTGAATAAAAATAAGACCGTACCTTATCTACTTCTCACGTCACGAAATGAACCACTGGATATTATGCAGGGGTTAGATATGGGAGCAGAGGATTATATTACTAAGCCATATGATCTAACGGTTTTACTAGCAAGAATTCGAACAGTCTTACGAAGAACCAGTAGTAAGGAATCATCAAATGGGGGAGTTACACAATGCGGAAATATTGAAATCAATTTATTAACGCATAAGGTAACTGTTGATGGTAAACAAGTTCATTTAACAAATCAACTTTTTGAGCTGCTGCACTACTTTATCACTCATAAAGGGAAGATTATTTCTAAGGAAGAATTGTATAAAAACATTTGGGGGTATGATCCTTCAGAATTACAAGAAACAAACACCTTAGAAGTAAATATTCGAAGATTGAGAAACTCAATCGGCATTGACATAATTAAAACAGTTCGAGGTAAAGGTTATGTCCTTGAAGTCTTTAATTCTTAG	MYKILLLEDEYEIGSTLEMILKSENYHVDWFTTGVEAVNAALSNNYHLMILDVMLKQTAAGLDSRISNGLEVARLVNKNKTVPYLLLTSRNEPLDIMQGLDMGAEDYITKPYDLTVLLARIRTVLRRTSSKESSNGGVTQCGNIEINLLTHKVTVDGKQVHLTNQLFELLHYFITHKGKIISKEELYKNIWGYDPSELQETNTLEVNIRRLRNSIGIDIIKTVRGKGYVLEVFNS				NA	NA	NA	NA	NA
AK009_03856	930			hypothetical protein	ATGAGTAAGGCATTAAGAGAGAAATCATTGTATCCTATATTTACTGAACAAAATTTCAGGGACTTCATTACAAAAGATAAAGAGTCTGTATGGGAATGTCAGGTTACGTCAACATACTCATCCGATAGGTTAGAGGAAGTAGCAATCCTAAAGCTTGCTGTAAAAGATGCTAAAGCAATTCCTTTTATTGTTATCAGATACAATAAGGATGTTTACACAGCTAAGAGCTTTGGCAGATTTAATAATTATTTAGAAGTTGATGGTGTTTACCTGATAGATAAGGATGCTATTATATTTGTTTCTGATTATCGCTCAAAAGAAATTAGGCCGTTGGTTGATAATATGAAAATATATACAGCAGAAGAATTAGACGAGGAGATGGAGGAACATCTTCAACAAGGTTTAAAAGAAGCAGTTGCTATGAAAAGAATGCTAGGTGTCGAACCAGACAAAGGTTATGAGTATGAAAGCTCTGTTCTGGATTGGTATGTGAATGGAAAGAAACCTATTGATTTCATTTGTAGAAACACAACATTTACTAAAGCATTTACAAATGAGGGCAAACTTAAATACATGATTAAATATATTCGCGGAGAAGATATTATAAAAGACGGTTTGCAGAATATAAATATAGACAAATATGCAGAGGTTCTTGAGTTTGTTGAACAGAAATTTAACGAATATGACAAAAGCGAAGAAATTAAGCGCAACATAGAATTATTCCGTATTCTAAAAGAGGATTTGTCAAATGCAGTTACTGTAAATATTACTAAAAAAGATGGTACAACTATAAAAGTTGAAAACAGCGTAAGGCATTGGGATAGCACATACAAGGTTGGACGTTATGATAAGGAAGTATATTTTACAGATATTGATTGCATTACATACAAAAAGAAAATTTATGGAAAATTAAATCCAACTACCATTTAA	MSKALREKSLYPIFTEQNFRDFITKDKESVWECQVTSTYSSDRLEEVAILKLAVKDAKAIPFIVIRYNKDVYTAKSFGRFNNYLEVDGVYLIDKDAIIFVSDYRSKEIRPLVDNMKIYTAEELDEEMEEHLQQGLKEAVAMKRMLGVEPDKGYEYESSVLDWYVNGKKPIDFICRNTTFTKAFTNEGKLKYMIKYIRGEDIIKDGLQNINIDKYAEVLEFVEQKFNEYDKSEEIKRNIELFRILKEDLSNAVTVNITKKDGTTIKVENSVRHWDSTYKVGRYDKEVYFTDIDCITYKKKIYGKLNPTTI				NA	NA	NA	NA	NA
AK009_03857	1788	rapA_2		RNA polymerase-associated protein RapA	TTGTTTTCACTCCGTTTACAGGGTGACCAATTAGACATTCGTATTGAAACGAAACTATCTACTCAAATGTTCCGCGAATATACAGATTTCATGAGGTCACTACCGGGTGCATATTATATTGAGCAGGAATATAAGTGGATGGTTCCAAAACGTCATGTAGACGCCTTTGTTGAACGCTACGAGGATATAACCGCTTGGCACACAACTATTGAAAGTATTAAGGGGATTCAAGAAGTTTTACTTCCTGAGTTCCCGATGCTAGATGATTTTTCGGACTTTAAATTACAGCCATATGAGTTTCAGCAACAAGGTATTTCCTTCTTAACTCATGTCAAAAGCGGTATTATCGGAGATGACATGGGATTGGGAAAAACGGTGCAAACGATGGGCGCTGCTCATATGCTATGGAAACAAAGAAAAGTAAAAAAGGTTCTCGTTATTTGTCCGTCTTCATTAAAATATCAGTGGTCTTCAGAAATTGAAAAATTCCTTGGACATACTAATATCGTTATTGATGGTAAAAATACAAAAGAGAAAAATAAAGCTTTCCTTAAATTCATTAATGGTGATTACTTATTTGGTATCGTCAATTATGAATTAGTCAGAAGCATGAGTGATATGATGAAGGAATTTCATTATGATGTAATTATTGCCGATGAAGCCCATCGATTAAAAAATAGGGGTTCTATCACCTATAAAGCTGTTAATGCATTACCTTCTACATATCGATTCGCAAGTACTGGCACACCACTTCAAAACAACGTAGAAGAACTATATGCTTTAGTTGAATGGGTGCAGCCGGGACTACTAGGTAAGGTTACCGAATTCAGAAAGAAATACATTGTGTATGCTTCTAAGTTTGGTAGACGTTTTGTTCCAATTGGGAACAAGCGACTGGGTGAACTTCGTCGTTCTATTTCTCCTTACATGTTACGTCGATTAAAGAAAGACGTTGCACAAGACTTACCGCCAATGATTTTCCATCGTCGAGATGTTGAAATGAATAATGCTCAAGCCAATCTATACAACAAGATTCAGGAAGATTTCCTAACTCTATTAGAAGAGTTGTCTTCCCAACAAGTAAATGGTCAATATGACCAAGAAGGCAATTGGGTTGAAGAGAAGCGTAAGAAGGAAGATCAAGTGCTAGGATACTTGTACATGATGGTTGCTTCATCAGACCACCCTGCTTTGCTCCAGATGGGGCAAAGTGGTATGTCTAAGCATTACCTAGAACATATTCCGGAAAACGTTAAATCTCCGAAACTGACAGAGCTAGTGGATATATGCAAAGAGCGTATAGAAGCAGGCATAAATAAAATTGTTATCTTTACTCAATTTGCTAAAATGCAAACCCTTATAGATGAAGAGCTGAGTACACTAGGTAAGGTAGCGTTACTAAATGGATCAATGTCTTCTGCTCAACGACAAGAGCAGTTAGAAACGTTCAAGGCAGATCCTGAGTATAAATTCTTTGTACTAACAGATGCAGGGAACTACGGTTTGAATATCCAATTTGCTAATACACTTATTAATTATGATTCTCCGTGGAATCCAGCCACATTTGAACAACGGGCGGGGCGTGTACACCGTATTGGTTCTACACACAACGTAGTTGATATTATTAGCTTGGTAACAATGGGAACGATTGATGAAAAAATCCAAGAAACATTAGAAGAAAAACGTAAGCTTGGTGTAGCTGTTATTGAACGCAACCAATCTGAGCGAAGCATGATGAATGGATTAATTGCTTCTATTAAAAAGAAACCAATTGCAAAAGCTGCTTAA	MFSLRLQGDQLDIRIETKLSTQMFREYTDFMRSLPGAYYIEQEYKWMVPKRHVDAFVERYEDITAWHTTIESIKGIQEVLLPEFPMLDDFSDFKLQPYEFQQQGISFLTHVKSGIIGDDMGLGKTVQTMGAAHMLWKQRKVKKVLVICPSSLKYQWSSEIEKFLGHTNIVIDGKNTKEKNKAFLKFINGDYLFGIVNYELVRSMSDMMKEFHYDVIIADEAHRLKNRGSITYKAVNALPSTYRFASTGTPLQNNVEELYALVEWVQPGLLGKVTEFRKKYIVYASKFGRRFVPIGNKRLGELRRSISPYMLRRLKKDVAQDLPPMIFHRRDVEMNNAQANLYNKIQEDFLTLLEELSSQQVNGQYDQEGNWVEEKRKKEDQVLGYLYMMVASSDHPALLQMGQSGMSKHYLEHIPENVKSPKLTELVDICKERIEAGINKIVIFTQFAKMQTLIDEELSTLGKVALLNGSMSSAQRQEQLETFKADPEYKFFVLTDAGNYGLNIQFANTLINYDSPWNPATFEQRAGRVHRIGSTHNVVDIISLVTMGTIDEKIQETLEEKRKLGVAVIERNQSERSMMNGLIASIKKKPIAKAA				NA	NA	NA	NA	NA
AK009_03858	786			hypothetical protein	ATGAAACAAAAAATCACAAAGGGCAAAGTAATACAAAACTGTTTGAAAGCAACAGCAGCGATCGTAGTGGCTAGCGGCGTAGGATTTCAATTTCACGAGATTCAAGAACTAAACAAAGAAGTAACAGCCTTAGAAAAGAATCACAAACAAACTGTCCAAGAATTGAAAGTCGCTAATGAAAACAACAAAACGCTAGAAGAGCAGAAGAAAAAAATTCAATCTGCTACAGAACAGCTTTCAGTTGAACTGGAAGATTTAAAACATAGCAAGGAAGCTATTGAGCAAGAAAAGCAGAAGTCTCTAGAAGATAATCAAAAACTTCAAGCAGAGAATGCAGAATTAGCTAAGCAAGTGCGCGAAGCGAAGGAGTCTGCCAGGCCAGTAAAGTCTGATAAGCCAAAGTCAGACAACGTAAAACCTGTTTCCAATCCAACTCCTAGTGCTGCTCCAACCCCATCTCCTACTAAGGATACTAGTGACAATGCTGGTGTTTCTAAAACAATTATGGGCGTTGGTACTGCTTATATGATAAACGAACCAGGAGTAACAGGTCTTACTGCTTCAGGTAAGAAAGTACAACCGGGAATGATCGCTATGGACCGTTCAGTTCCATTTGGTACAAAAGTAAGAATCACATGTGAATCTTATCCATCTATCAACGGTATTTATACAGTTGAAGATCGTGGTGGGGCTATCAAAGGTAACATAGTAGACATTTACATGACAGATGCTGACAGAATGTATGACTTCGGAAGAAGAGATATAAAGATAGAGTTTCTTAACTAA	MKQKITKGKVIQNCLKATAAIVVASGVGFQFHEIQELNKEVTALEKNHKQTVQELKVANENNKTLEEQKKKIQSATEQLSVELEDLKHSKEAIEQEKQKSLEDNQKLQAENAELAKQVREAKESARPVKSDKPKSDNVKPVSNPTPSAAPTPSPTKDTSDNAGVSKTIMGVGTAYMINEPGVTGLTASGKKVQPGMIAMDRSVPFGTKVRITCESYPSINGIYTVEDRGGAIKGNIVDIYMTDADRMYDFGRRDIKIEFLN				NA	NA	NA	NA	NA
AK009_03859	222			hypothetical protein	ATGGAGAACAAACAAATCGTATCATACAATGCACAATCAAGAGGACATAAGACCAAGGGTAATACATACAAAGATCGTTACGTCGAGAATACATGCCCTGAGTGCCAAAATCCTCGTTCTTATAAAGATGAGTGGAAGACAAGAATTAAGTACACATGCTTAAAGCGTGCTTGTCGTCACCAATGGTTCGAAAAAAAGGAATTTCCTGAAGTAAAAGAATAA	MENKQIVSYNAQSRGHKTKGNTYKDRYVENTCPECQNPRSYKDEWKTRIKYTCLKRACRHQWFEKKEFPEVKE				NA	NA	NA	NA	NA
AK009_03860	594			hypothetical protein	ATGTCAAACAATGAAAAATCAGAAAAAAAATCAGATGTATTTCAAGAAACTTTTGGTGGGCTATTAGACGGTAACAAGAAAGAGCCTGATACTGTAGTTCATCAACCTAAAGAAAAATTAGAAGATGTTCTATTCGGAGCAGAAGAAAATCAAACGCTTTCTCATGAAGAAGTGGAGAAAGCAGCTGAAAACTATATTCCTCTTTCTATTGGAGATGAGCAGTGGGAGCAATTTGTGGGCAGAGTGCCTTTACCTCCTATTAATAGAGAACAAGAATCAAGAGCCGTATCTATTGGCTTACAAGAGATTCGAAAAATGAAGGAGTACATGTTATATATTCATCGTCATATGATAAATGAATTTAACCGTATTTATGCTTCATTCCCTATTCTCTTTGCAAAAGATTTTGAAGATAAATTTGGTACTGCCCATAAAGAACTAGTCACAATTATGGAAGACATTGAGCATTTAGTTGCTGGTGACATCGACCATGTAGAAGCAGTAAAGAAGGACTTCAAACTCATGCAAGTCTTCGAAGAAAAGCGTTTATCACTTCTCTATGACCTGTTAGAGCATTACAACAAGAAAAAATAA	MSNNEKSEKKSDVFQETFGGLLDGNKKEPDTVVHQPKEKLEDVLFGAEENQTLSHEEVEKAAENYIPLSIGDEQWEQFVGRVPLPPINREQESRAVSIGLQEIRKMKEYMLYIHRHMINEFNRIYASFPILFAKDFEDKFGTAHKELVTIMEDIEHLVAGDIDHVEAVKKDFKLMQVFEEKRLSLLYDLLEHYNKKK				NA	NA	NA	NA	NA
AK009_03861	192			hypothetical protein	ATGAGATTTCACGAAGAATTTACAAGGTGCGAATGTGGTAGTGCGTATCTGAAAAAAGAGATTTGCGTTCTTGCAAACTATGAAAAAGATTCGGCTGAAAAAGTAGTAGGTTTTAATGAACTCCCTGAAAAAAACGAGATCCGTTACACATGTTCAAATTGCAATAAACTCATTCATATAACAAGGGAGTAA	MRFHEEFTRCECGSAYLKKEICVLANYEKDSAEKVVGFNELPEKNEIRYTCSNCNKLIHITRE				NA	NA	NA	NA	NA
AK009_03862	159			hypothetical protein	ATGCTTAAGAAAATAATTGTATGTCTTTCAACAGCTGTAGCTTTAGCTACGATCATTACAATTTCGAACGATTCTAAGGAGACAGTTGTGAAAGCAGATACTACTTATACACAACAAGCAGAAGCTATTACAAGCGGTATCTCTTGGTGGTGGGAGTAA	MLKKIIVCLSTAVALATIITISNDSKETVVKADTTYTQQAEAITSGISWWWE				NA	NA	NA	NA	NA
AK009_03863	723			hypothetical protein	GTGAAGTACTTGAATTCTGCAAACTTAGGATGGTTTGTTTTATCTCAGACTATTTTAGGGATTGGTAACTATGCAATTATGTGTGCCATATTCCGTTTAAGATTCCATCGACACATTACTATAATTTCGGTAATTTCATTTTTAACTAGTGTGATCAACTACTCAATCTACTTTAATAAGCAGCATGATGGACTTGGTTATCTAGTACCGATTATAGGGATGGTTATATCTTTTCTTTATCTAGCAGCTGTAGAGAAGGTTCCTGTAATTTGGTCACTTGTAGTGACAGTTGCAGGAGGTGTGATTATTCCGCTGATTATTCAAATTGCAATTATATATTGTTCATTTGGATTCTTCAGCCCTCTTGAGTTAAAGGCACATATTTGGAGAAATTACGCAATGGATATCACCTCTGGTTTTATCTATGGTGTAATGGCATTCATTCTTTATTCTCAAGACTGGACTTTCAACTTTAATTTTGAAAGAATACGTTTTAAGCGAGAAAAGCATTTCGTAATAGCAATTTCTCTTTTTGGGGCAGTCTATTTGCCGGCGTCATTCTTTATGTCGCATGTAAGAGGTATTGATTTGAATCTAACATTCTTAGCTATTAGCTCTTCTATATTATTCATAATCCTTCTAGTATTTGCGATAAAAAAAGAAAAGACAGAGACAGAAATAAAATATACCAAAAAAATTACGGAGGTAGAAACCAATGCTTAA	MKYLNSANLGWFVLSQTILGIGNYAIMCAIFRLRFHRHITIISVISFLTSVINYSIYFNKQHDGLGYLVPIIGMVISFLYLAAVEKVPVIWSLVVTVAGGVIIPLIIQIAIIYCSFGFFSPLELKAHIWRNYAMDITSGFIYGVMAFILYSQDWTFNFNFERIRFKREKHFVIAISLFGAVYLPASFFMSHVRGIDLNLTFLAISSSILFIILLVFAIKKEKTETEIKYTKKITEVETNA				NA	NA	NA	NA	NA
AK009_03864	750			hypothetical protein	TTGCATAAGTGTAATGAAGAAACACATAACAAGTGTGAAAACTCAGCTCTCTGTCATTTATGTGATGGGGTTCGTCTTTACAAGAACAGTAAAGAGGAGAGAGAACGGAAACTAGAAGCAAGAGAAGCAAATAAACAAGCTGAGCGTAATGCTGCTTTCCGAACTTATAAAAGTGAGAAGAAAGAGGGCATGGCTTTTGAAAAAGATGTAACGAAAAAGTGGAACGATGCTTTCAATAAAGTAAATAAACAAACTGATTTGTTTAAGCAGGGTACTAAAAAAACAAAGATTCAAAAGCCTCGTATACAAGTTAATGAACCGGTAAAGGAAGAACCTCCTAAGCCAATAGAAAAACCAGTTCCTTCTATTATATTATCGTCAATGGGTGCCACACCAACAATGAAGAATAAACCAATCGTAGACGCAAGACGTCAAGCGAACAGCGGAGCTTTGTGGTATGCAAAAGGAGACATTAAAACCCAAGACTACTTAATGGAATGCAAAGAACGAGGTACTATCAACGCACGAGGAGAAAAATCAATAAGTATTCCGAAAGACTGGCTTTTAAAACAAGAACTCGAAGCTTTTCAAGAGAATCGCCCTTACTGGGTGATCCCATTTCGATACAAGAATGACGACTCTATTTATTTAGTAAAGTCATTTGATCAAGAGATCGAGATGTACCAACAAATGAGAATCCTAAGAGAAGAAAATGAGAAACTTAAAAGGCAGATTGAAAAGAATACTTAG	MHKCNEETHNKCENSALCHLCDGVRLYKNSKEERERKLEAREANKQAERNAAFRTYKSEKKEGMAFEKDVTKKWNDAFNKVNKQTDLFKQGTKKTKIQKPRIQVNEPVKEEPPKPIEKPVPSIILSSMGATPTMKNKPIVDARRQANSGALWYAKGDIKTQDYLMECKERGTINARGEKSISIPKDWLLKQELEAFQENRPYWVIPFRYKNDDSIYLVKSFDQEIEMYQQMRILREENEKLKRQIEKNT				NA	NA	NA	NA	NA
AK009_03865	279			hypothetical protein	ATGACGATTACGGAACACGCTGTCAGGAGGTATAAACAACGTGTAGGGAAAAGAACAGCTTCTAAAAAACGTGTTGTGATGCAAATAAATCGAGATCTTGCTCGTGATGTGAAATACAAAAAGAAATCTAAAGTTAAAGATCATTACATTCTAGTCACATCTAGATATCAAGCTGTTTGTTATAAGCACAGAGTAGTTACTATCACAGGATTAAATGAAGATGCTTCTAATTTCAAGCAAACATCTAGTTGCGATGAGGAGTTGAGTCTTGTTGCATAA	MTITEHAVRRYKQRVGKRTASKKRVVMQINRDLARDVKYKKKSKVKDHYILVTSRYQAVCYKHRVVTITGLNEDASNFKQTSSCDEELSLVA				NA	NA	NA	NA	NA
AK009_03866	480			hypothetical protein	ATGAATCCGATTGTTGACATGACCGCAGAACAATGGGCAGCTTATCGTAGAGAGTTAAATCAAAACACACAATCTATTCATATCCCAACGGATGTAAACCCAGCGATGGCTATTAGCATCCTTTCAAGAATAGACAGTATCTATTCAACCCTTCGCATTCAATTCTCGGATTTAGAATCATCCAAAGAGAGAATCGATTTAATGGTAAAAGAAATTGAACGTGTTGGTTTGACTGGAAAAAATGAAGATGAAAGAAAGCGTAACGCTGTTATGGAAGTAAGAAAAATTACCACACAAGAAGGATTAACTTTGTATGATATGCAGCGAGAATCAACAGAACGATACATGTTTATTAAAGGAATTTTAGATGTTCTTATTAACAAGCAAAATCGTCTAATAACAATCAATGGCTTACTTAAATTAGATAAGGATTTAATGGTTTCACAAGAATCTTTCTCTTCTTTAGGTAGAGCATCATAA	MNPIVDMTAEQWAAYRRELNQNTQSIHIPTDVNPAMAISILSRIDSIYSTLRIQFSDLESSKERIDLMVKEIERVGLTGKNEDERKRNAVMEVRKITTQEGLTLYDMQRESTERYMFIKGILDVLINKQNRLITINGLLKLDKDLMVSQESFSSLGRAS				NA	NA	NA	NA	NA
AK009_03867	615	tmk_1	COG0125	Thymidylate kinase	ATGATTATTATAGCACTTGAAGGTTTAGATAAGTCAGGTAAGAAGTCGCAGGCAGATAAACTACACGAAGCTTTGTACGAACGTGGCTACAATGTAGAACAATCTGAATTTCATCGTTATGATACACCAACTGGTGGGTTGATTCGTCAGTTTCTTGATGGAGAATATAACCCAGGGCAACTTGCGATTGAGTGTATTATGGCAGCGGATAAGTATGCTCAGCTTAATTGGTTCGAAGAATTAGCAGAGAAGTTAGATGTTCTTATCTTAGATCGATACTTAGTAAGTCAACTTGTTTACAGTACAGCAAATGGTGTTGATATCGATTTTACAGCTAATTTACTGGACCGTATGCCAGAGCCTAACTTCCAAATCTTTTTAGATATTGAACCAGAAGAATCAATGAAGAGAAAAGGAAAGCATGGCGAAAACGATAAGTACGAAAGCGATAAAGAATTATTAACAAGAGCTCGTGATCTGTATCTTCGTTATATGAAGTTAGAAGAGGAAGATGGGAATGCAATGATTTTAGATGGTACATTAGCCGTCGAAGAATTGCATCAACAAATCCTGGAGCGCACATTATCTCTATTAACAGAAAGTAAGGGGGAATAG	MIIIALEGLDKSGKKSQADKLHEALYERGYNVEQSEFHRYDTPTGGLIRQFLDGEYNPGQLAIECIMAADKYAQLNWFEELAEKLDVLILDRYLVSQLVYSTANGVDIDFTANLLDRMPEPNFQIFLDIEPEESMKRKGKHGENDKYESDKELLTRARDLYLRYMKLEEEDGNAMILDGTLAVEELHQQILERTLSLLTESKGE	PGPT0021395_4966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK009_03868	483	dut_1		Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGAATATTTTAAAACTATTTAAAAACAAAAAAGTTAGAGGCTTTGAAGTGTTAAACGATTTTAAAGAGCACTTCGAAAACTTTTCGGTCTTAAAGCCAACTCGTAAGACACTTAACGCAGCAGGTTATGATATTGCTGCAGTCGGTGATTATGTTATTCCACCGAACTCAAAGGCTATTATTAATACAGGTTTAACTGCTTATATGAAAGAAGATGAGTGGTTAGCTTTATTTGTAAGAAGCGGCTTAGCGTATGGGAAGGATTTAACCTTACAAAATGCAACTGGCGTTATCGATGCTGATTTTTATGGCAACCACATTCGAATTCTACTTCGCAATGAAGGAACAGAACCATTTGTTGTGAATCATGGAGATCGTATCGCTCAAGGTATTTTCCTTCCTTATCTTACTGCTGATGATGATTATGCTTCAGAACTTCGCACTGGTGGATTTGGTAGCACAGGTGGGGTGAGCGCAGCATGA	MNILKLFKNKKVRGFEVLNDFKEHFENFSVLKPTRKTLNAAGYDIAAVGDYVIPPNSKAIINTGLTAYMKEDEWLALFVRSGLAYGKDLTLQNATGVIDADFYGNHIRILLRNEGTEPFVVNHGDRIAQGIFLPYLTADDDYASELRTGGFGSTGGVSAA	PGPT0021355_1295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
AK009_03869	1962	pcrA_1		ATP-dependent DNA helicase PcrA	TTGTTAGCTACAGTAGAGAATCCTTTGATGGGTACATTAAATAGTAGCCAACAAAGAGCAGTTTTAACAACAGAGGGACGAGTCCTTGTGTTGGCCGGAGCTGGTTCTGGAAAAACAAAAGTACTAACTACTCGTATTGCTTATTTACTGCAGCAGGGTGTAGATCCTTGGCGTATTCTTGCCATTACATTTACGAATAAGTCTGCTAAAGAAATGAAGGAACGAGTAACTGGTATGGATAGTCGGGCTTCTAAGAGCTGGATTGGTACATTCCATAGTATCTGTAACCGTATCCTATCTACTAACATTCATCATCTTGGTATGGATATGTTTACACTGATGGACGATACAGATCAAAAAGCATTAGTTAAGACCGCTGCTGTCCAACTAGGATTAGAAGCAGATAAGAATATTGTCTACAACCTTCTTTCTCAAATTTCATTGTGGAAGAATGAAGCGATTAGTCCTGGTCAAGCTCAGTCTAATAGCACAGGAGATAAAGAAAAGCTTGCGGTTTCTCATATCTATCAAAAGTATGAAGATTTAAAGGCTATTCATAATTACTTTGATTATGATGATTTACTGCTTAAGACAGTTCATCTATTTCAAAACAATCCTGAATTATTGGGTAGGTATCAGAATTTATTCCGTTACGTACTTGTAGATGAGTTTCAGGATACGAATAAAATTCAGTTTGATTTAATTGAAATGCTATCTCAAAAGCACGGAAACATTTTCTTAGTTGGTGACGCGGATCAATCTATTTACTCGTTCCGTTCAGCAAAGATTGAAAACATCTTAAGCTATCAGAAAATACATCCGGAAACTCAATTAATCTTACTGCAAGAAAATTACCGTTCTACTCAAAACATAGTTAACGCTTCTAACTCTCTTGTTGGTAACAACAAAATGAGATTAGAAAGAGAAGCATTTTCTGTAAGTGGAGTAGGGGATGACATTCATGTGTTCCGATTCAATGATGCATCGAGGGAAGCAGATTTTGTTGCCCGGATGATTGTAAATATGAAAAAGGCGACTCAATGTGATTGGAAAGACTTTGCTGTTCTTTATCGAATGAACTTCCAATCGAAGCATTTAGAACTCGCTTTACGTGATGAGAACATTCCATACAAGATTGTAGGAACAACTTCTTTCTATGATAGAAAAGAAATTAAAGATCTTGTTTCGTATATTCGTGCAAGTCATAACTTAACAGATGATTATGCTCTTGAAAGAGTCATCAATGTACCTAGTCGTAAGATTGGTAAAACAACGATTGAGAAAATCTATGCATTTGCTCATGAAAGAAGAATCCCATTCTTTGTTGCTTTACAGAACATTGATGAGGTAGCAGCGCTATCAAAGATTAATAAATCGACAGTTGCAAAGATTAAGGAATTTGCGACGTTAATGCAAGAGCTTAGTCAATTAGCATTAGTTGGTGAATTCTCTGCTACTAAATTTATGCAAACACTTATTAAGAAGACTGATTTTATGGGTCAGTTTGATAAGGAAAAAGAAGAAGATGAGACTAGAATCGAAAACGTAACTCATTTACGTGATTATGCTCGTCATTGGGATGCACAAGAAAAAGAAATAAATAGCTTGGCTCAATTTGTTTCTGAAATTACTTTAGATGGAGATTCAGATGAAGATGAGGAAGACTTTGTTACTTTAACATCTGTTCACTCTGCTAAAGGTTTAGAATGGCCTGAAACATTCGTGATTGGATTGGAAGATGATGTGTTTCCACATTATCGTTCTAAGCAAAAACTCTCAGACTTGGAAGAAGAGCGACGCTTAATGTATGTAGCTATGACCAGAGCTGGAAAACGACTGTACCTAACTCATTCTGCCTTTAAGTATGAGTATGGTTCCCAGAAACCGATTAGACAAAAACCTAGTCCGTTCTTGGGAGAGATTCCAGACAACTATAAAACGGTCATGATACAAACGGCTTAA	MLATVENPLMGTLNSSQQRAVLTTEGRVLVLAGAGSGKTKVLTTRIAYLLQQGVDPWRILAITFTNKSAKEMKERVTGMDSRASKSWIGTFHSICNRILSTNIHHLGMDMFTLMDDTDQKALVKTAAVQLGLEADKNIVYNLLSQISLWKNEAISPGQAQSNSTGDKEKLAVSHIYQKYEDLKAIHNYFDYDDLLLKTVHLFQNNPELLGRYQNLFRYVLVDEFQDTNKIQFDLIEMLSQKHGNIFLVGDADQSIYSFRSAKIENILSYQKIHPETQLILLQENYRSTQNIVNASNSLVGNNKMRLEREAFSVSGVGDDIHVFRFNDASREADFVARMIVNMKKATQCDWKDFAVLYRMNFQSKHLELALRDENIPYKIVGTTSFYDRKEIKDLVSYIRASHNLTDDYALERVINVPSRKIGKTTIEKIYAFAHERRIPFFVALQNIDEVAALSKINKSTVAKIKEFATLMQELSQLALVGEFSATKFMQTLIKKTDFMGQFDKEKEEDETRIENVTHLRDYARHWDAQEKEINSLAQFVSEITLDGDSDEDEEDFVTLTSVHSAKGLEWPETFVIGLEDDVFPHYRSKQKLSDLEEERRLMYVAMTRAGKRLYLTHSAFKYEYGSQKPIRQKPSPFLGEIPDNYKTVMIQTA				NA	NA	NA	NA	NA
AK009_03870	216			hypothetical protein	ATGTCCAAAGAATTTATTATGGATAACAAAGGGGCATTAATTCGTATTATTGTCTTTGCGTTAGCTTGGTTGAACCAATACTTGGTTGCCAAAGGTCAACAACCGTTACCTGTTGTAGGTGAAACGGAGATTGCTGCTGTTCTTACTTTTGTCGCGTCAGTAATGACATTGGTAAAAGATAATAAAGTAGCACCTAAGACGAAAGAACCCAAGTAA	MSKEFIMDNKGALIRIIVFALAWLNQYLVAKGQQPLPVVGETEIAAVLTFVASVMTLVKDNKVAPKTKEPK				NA	NA	NA	NA	NA
AK009_03871	891			hypothetical protein	ATGTTCCAGAGTAATCAAGGAGGAAAACAAATGACAGCAGTAACTACAGAAGCTCCGCCAGTAGAGCAAGACGTTGTAGAAGAACCCGTTAAATTAGAAAAGAACTATTTTGCGGAAATGGCAGGTATGGATGTAACGAAATACCTAGAAAAGAAAAATGGATTCTCTTATATGAGTTGGGCTCATGCAGTTGAACAACTTAAACGAAAACATCCTGATGCAAAGATTAATGTAAAACGTTTCCCTGAGCCTGAAACAGGTGGTCTTTTAGTACCATATATAAGAACCGCTCTTGGATACTTTGTAGAAGTAGAAGTTATCGTAAATGGTGTTTCTGTCTCTGAACCTTTCCCAGTATTAGACTTCCGTAATAAGCCAATCGCTAAACCTACAACATTTGACATCAATAACAGCATCCAACGTGCAAAGGTGAAAGCTATTGCAGGTCATGGACTTGGACTATATGTATACGCTGGTGAAGACTTACCAGTTGATTCTGATGATAAGGGGCCTAATCAGGCTCCTCAAAATTATCAGCAACAGAATTATCAACAACAACAACAACAACAGCAATATCAGAATCCACCACAGCAACAAAATCCTTATGCGGCTACAGAGCCACAGAAACACCAAATGCGTGATTTAGCAATGCAAATCGCAACCTTAACTTTAGGTGCAGGAGCTACTCAAGAAAATGTGGTGGCTAAGTTGAAGGATATTTATGGGCAATTTAAAATCACTTCAAACCTTACAAAGGAAATTGCGGATGTGAAAATTAATGAACTTGGGGCAGCGGTTAAAGCAATTCATGATAATCGTATGGTCCAACAAGCTCAAGTAGCGCAGCAAACACAATCAAATACCTTATTCAATATGCCACAGGCTCAATAA	MFQSNQGGKQMTAVTTEAPPVEQDVVEEPVKLEKNYFAEMAGMDVTKYLEKKNGFSYMSWAHAVEQLKRKHPDAKINVKRFPEPETGGLLVPYIRTALGYFVEVEVIVNGVSVSEPFPVLDFRNKPIAKPTTFDINNSIQRAKVKAIAGHGLGLYVYAGEDLPVDSDDKGPNQAPQNYQQQNYQQQQQQQQYQNPPQQQNPYAATEPQKHQMRDLAMQIATLTLGAGATQENVVAKLKDIYGQFKITSNLTKEIADVKINELGAAVKAIHDNRMVQQAQVAQQTQSNTLFNMPQAQ				NA	NA	NA	NA	NA
AK009_03872	210			hypothetical protein	ATGTTAAGGAATCGTTCATGTTCATGGTGTGATGGCACCGGTATTGTGAAGAGTGGCTTTTGTAGTATGTGTAAAGGAAAAGGATATGTAGAAGTACTTAAACAAGTAGAAACTTCTTCAAAGAAGCAACCTAGTTTAGCTTGTCTTATTCGTTCTATTTCCAAGCATACAACTCCGGAGCAGTTTTCGAACATCATGAATGATTGTTAA	MLRNRSCSWCDGTGIVKSGFCSMCKGKGYVEVLKQVETSSKKQPSLACLIRSISKHTTPEQFSNIMNDC				NA	NA	NA	NA	NA
AK009_03873	519	dfrA	COG0262	Dihydrofolate reductase	ATGATTAGCCTTATTGTAGCTGCAGATGAAAACAATGCAATTGGATTTGAGAATAAATTACTTTGCCGATTGAAGGACGATATGAAACATTTCATAAAAAAGACAAAAGGCAAACCAATTATTATGGGCTATAAAACCTTTGCTTCACTTGGTCATAAACCATTAAAGGATCGATTTAATATTGTACTTACTAGAAGCCCAATGGCTTTAACACTGGATCATCTGCATTTAGTAGGTGAGAATCTTGTTTTTGAAAGTTTAGAGTACATTCAATTCATGATTGAACAATCGAAAGATAAAGAGATTGTTGTTATTGGTGGTCAGCAAACTTATGAATTGTTCTTACCGATGGCTTCTCGTGTCTATCTTACGCGCATTCATCATTCGTTCCCAGAAGCAGATTCATACTTTCCTATGTTAGACAGTTCGGAATGGTCGTCTAAATTAGATGCAAAACATGCAGAAAGTGAGGATAATGATCATCCGTTCAGTATATATACTTTTGAAAGGAAGGGTTAA	MISLIVAADENNAIGFENKLLCRLKDDMKHFIKKTKGKPIIMGYKTFASLGHKPLKDRFNIVLTRSPMALTLDHLHLVGENLVFESLEYIQFMIEQSKDKEIVVIGGQQTYELFLPMASRVYLTRIHHSFPEADSYFPMLDSSEWSSKLDAKHAESEDNDHPFSIYTFERKG	PGPT0007945_1196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
AK009_03874	861	thyA1	COG0207	Thymidylate synthase 1	TTGGCTTTAATAGATGATTATCAGAAGGATACTTTAAAACTTATCTTGGCTCAAGAATGGATTCCAGATAATCGTGCAGTATGGGAAGATGGATCACCAATTGCAACAAAACGAATTTTCGGTGTTGTTAATCGTTATGATTTATCAAAAGAATTCCCAGCACCAACAACTCGTCCGCTACCATTAAAAACTATCTTTGATGAAGTAGATTGGATTTATCGTAAACGTTCTAACAACGTAAATGATATGAGAGCGAAAATTTGGAACCAATGGGCATTTAAAAAAACAAGACTTAGATTCTCAAAAACATTTCCTTTTGTTCGATTAGAGAAAAAGGGTTCAATTGGTGAGGCATACGGATATCAAGTAGCTAAACCTATATTCGGTTACGACAACCAAATGGATTATGTCTTGGGAGAACTAAAACGAGATCCATTTACTCGTAGAGCAGTAATTGAAATGTGGAACGTAGATGATACAGGAAGAATGAATTTACCTCCATGTGCTCACCACTTACAATTTTGGTCAGATGGAAAGAAAACGAATCTGATTTTAAAACAAAGATCTCAGGATTTTGTTACAGCAAATGCTTTTAATGTATGTGAATACGCAATACTTCTACATATGGTTGCTCGTCATATTGGGCAAGAAGTAGGGGAATTGTTACATATTATCGGAGATTGTCATATTTACAACAAACACCTTGAATTGGCAGAAGAGCTTGTTAAAAGAGAGCCTTATGCCGCTCCTACTTTATGGATTAATCCCGAAAAAACAGATTTTTATAGTTTTACAGCAGATGATTTCCGCTTAGAAAACTATGATAAACACCCACAAATGAAAATTGAGGTTGCAGTATGA	MALIDDYQKDTLKLILAQEWIPDNRAVWEDGSPIATKRIFGVVNRYDLSKEFPAPTTRPLPLKTIFDEVDWIYRKRSNNVNDMRAKIWNQWAFKKTRLRFSKTFPFVRLEKKGSIGEAYGYQVAKPIFGYDNQMDYVLGELKRDPFTRRAVIEMWNVDDTGRMNLPPCAHHLQFWSDGKKTNLILKQRSQDFVTANAFNVCEYAILLHMVARHIGQEVGELLHIIGDCHIYNKHLELAEELVKREPYAAPTLWINPEKTDFYSFTADDFRLENYDKHPQMKIEVAV	PGPT0008145_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
AK009_03875	390			hypothetical protein	TTGGAGGGAATTACATTGTCAACAACTGCTACTATCACAAAAGATTCAGAAGTACGTTTCACCATAGAAAACAAGTCGGGGTATTTAAATGCAGAACTAGGTATTCGCAAAGTGAAGCTATTCAAACCTTCTACCAAACAACAAGGAATAGGTATTGTTACAACGATGTTAGTTGATGCAGGGATTGGAGAAACCCGTATTGTCGTGTTCAACTCTAAAGAAAATTCAGGCGAACTTTACCTACGTGCTCCTCAATCAAAAAGCTTTGTTGGTGGAGAAGTTAAATTCTATGACGAAGTAAAAATCAATAAATCTTCTCAAGATTATTTACTTTCTCTATTGGATTCCTACGTAGAAAAAGAGAATGTTCAGCGAGTGAAATTACTCTAA	MEGITLSTTATITKDSEVRFTIENKSGYLNAELGIRKVKLFKPSTKQQGIGIVTTMLVDAGIGETRIVVFNSKENSGELYLRAPQSKSFVGGEVKFYDEVKINKSSQDYLLSLLDSYVEKENVQRVKLL				NA	NA	NA	NA	NA
AK009_03876	1080			hypothetical protein	ATGAAAATTATTAACTTCGGAAGTACTTATAAAATTTACGGTGATGACTTAAAAACTTATGACAAACTACCAGCTGCTACATACAAAGTAGAATTCAATCCAAGATCAGGTTTCTCTTTAGAGAAGATTGATAACTTTGAATCAACGGAAGCAAAGATTTATGGAAGTCACCCAGAAAAAATTAATAAAGTATTAAAATCATATGAAAAATTTGAACGTAGCTTAGGTCTTATCTTGAGTGGTAACAAAGGAATGGGTAAATCTATGTTTGTTCAACTTATTGCAGAAGCAGTTGTTAAAAAGGAAATCCCGGTTATTATGGTTACAAAGGCATTCCCAGGGATTGCTGATTTCATTGAACAAATTGACCAAGAAGCATTAATTATCTTGGATGAGTTTGAAAAGATGTTCAATCCTCGTAATGAAGAAGCAGAAAAACAGGAAAACTTACTGGGGTTATTTGATGGTACTTCTCAGAAGAAACGTATCTATGCGATTACGGTAAACGATCTTAATAAGGTAAATGAGTTTATGTTAAGCCGTCCTGGTCGATTCCATTACCATATCCGATTTGATTATCCAACTGCTACTGAAATTGAAATCTACCTAAAAGACAAAATTGCTGAACAGTATCATGGTGAAATCAAGCATGTTGTAGCATTTGCAAATCGTGTAAAGTTAAATTACGACAGCTTACGTGCGATTGCGTTTGAATTAAATGAGGGTTATACATTCCGTTCTGCTATTGGTGATTTAAATATCTTAACAACAGATTCACAACGATATGACGTTAAAGTGATTCTTGATAACGGTAAATCTATCGAATTAAGAAGTAAGAGTATCAATCTGTTCAGTGAAACGATTCAACTTAGTGGTTATATGCATGGTGGGGATTACTTCTCTATGAGTTTTAACCCAGCAAATATCGTTGAAGAAACACATAAAATGCTTGTTGATGGAGAATTTGTAAAAGCAAAATTCCAAGATGAAGATGATGAGCCATTAAAAGGAATCAAAGTGGAGTCTGTCATCATTACACATGCAGCTGAAGCTGGTGTTAACTACAAATTTGCTAGCTAA	MKIINFGSTYKIYGDDLKTYDKLPAATYKVEFNPRSGFSLEKIDNFESTEAKIYGSHPEKINKVLKSYEKFERSLGLILSGNKGMGKSMFVQLIAEAVVKKEIPVIMVTKAFPGIADFIEQIDQEALIILDEFEKMFNPRNEEAEKQENLLGLFDGTSQKKRIYAITVNDLNKVNEFMLSRPGRFHYHIRFDYPTATEIEIYLKDKIAEQYHGEIKHVVAFANRVKLNYDSLRAIAFELNEGYTFRSAIGDLNILTTDSQRYDVKVILDNGKSIELRSKSINLFSETIQLSGYMHGGDYFSMSFNPANIVEETHKMLVDGEFVKAKFQDEDDEPLKGIKVESVIITHAAEAGVNYKFAS				NA	NA	NA	NA	NA
AK009_03877	1617			hypothetical protein	ATGAATAAAGAATTGAGCTTAAATGGGTATGGTTATAACAAAGAGGACAGCAATCAGGATCAGTACCCTCAATTTGAACAAAGCGTAAAGAATTTCTTTGATATGGCTATTAATTCAGGTAAGAAACTATTCACTACAAATGTTGATGAATTATATGAAATCTATTTAAATAATCTACCTGCAGAAGCTCGTCAGCATTATACTTGTAACGCTTGCCGTACTTTCATTAACCGCTTCGGTGGTCTTGTTACTATCGATGAAAATGGAACTATGAATTCTGCAATGTGGAATGAAGATATTACACCACGTTTCTTCGCACCAGCCGTTTCTGCAATGAAAAAAGCGGTGTTAAATTCAAGAGTAAATGGTGTATTTATTCCAGATGCAAGAGTATTAGGTATTCCTCGTACTGGTGAATGGACTCATTTATCTGTCGCATTACCTCAAACATTAGTAAATCGTTCTGTAATTCGTACTGCACATCAAGTTATGGCTGAAAAATTAGAAGACTTTAAAATGCTTATCAGAGCATTAATGGAGTATTCAGTTGATGTAGTGGATCAAGCGGTAGGACTTTTAAAAACAGAATCTTTATATCGCTCAGAGAAGTGCTTAGGTACTGCTGAATGGTTTAGAGAAGTACATGAAAAACGCGACAATGTTAAAAACTCTCGCCATAAAGAAAACATTGTTTGGTTAGCTGTTGCTACGGCACCGACAGGTTTCTGTCATGTTAGAAGCTCAATGATTGGAACGCTTCTTGATGATATCGCTTCTGGTATGTCATTTGATTCAGTTAGTCGTCGATTTGCTGAGAAGATGCACCCATTACAATACCAACGTCCACAAGCAGCTCCATCAGCAGGTAACATTGCTCAAGCGGAAAAGATTGTTGAGAAATTAGGAATTCAAAAATCTTTAATTCGTCGATTTGCACGAGTAGATGAACTAAAAACAGAATGGACTCCTAAAGGTAAAAAAGAAACTATTAAAAATAGTGGAGGTATCTTCTCACATATTCAATCAAAAGATAAGAAGGAATTACCTAAAATGAATGTACCACCTGTCACTATGACATGGAGAAAGTTCATGGAAACAGTTCTTCCATTAGCAGAAGAAATTGAATACCAAGTTAAGAGTGTTGATAACTTCTCAGCTATTCTTACAGCTTCATATGAAGATGCGCCACCTATTTTACAATGGGATAAAGAAGAGCAACGTAATCCTTTCTCTTGGTATGTATACAGTGGAGGTTCAAATGCTAGCAAGTGGAATGTATCTACAGGTTATCAAAAAGTAACGGCAATTACATTCCAGCCGTCTATGTGGTATGACGAAAATGCTCATCAAGGAAAAGCAGTATTCCTTATTTTAGATGGAGCAAAAGATAATCGATTCAATAGTGCTGGTAATGCATTGTTCCCAGAAATCCTTAAATCAGAGTTACGTGAAATCCGCTCAACTCTTGAATCTTATTCTAAGGGTGCAGCTATTGAAGAGTATGACGAAGCTTCTGCTTGTGGCGTTCGATTGCAATATGGTGGAACTTGGAACGCAATGGTTCGTGTAACAACAAAAACAGGAACAGCAGTTTACAAGCTTGATCGTTGGGATTGA	MNKELSLNGYGYNKEDSNQDQYPQFEQSVKNFFDMAINSGKKLFTTNVDELYEIYLNNLPAEARQHYTCNACRTFINRFGGLVTIDENGTMNSAMWNEDITPRFFAPAVSAMKKAVLNSRVNGVFIPDARVLGIPRTGEWTHLSVALPQTLVNRSVIRTAHQVMAEKLEDFKMLIRALMEYSVDVVDQAVGLLKTESLYRSEKCLGTAEWFREVHEKRDNVKNSRHKENIVWLAVATAPTGFCHVRSSMIGTLLDDIASGMSFDSVSRRFAEKMHPLQYQRPQAAPSAGNIAQAEKIVEKLGIQKSLIRRFARVDELKTEWTPKGKKETIKNSGGIFSHIQSKDKKELPKMNVPPVTMTWRKFMETVLPLAEEIEYQVKSVDNFSAILTASYEDAPPILQWDKEEQRNPFSWYVYSGGSNASKWNVSTGYQKVTAITFQPSMWYDENAHQGKAVFLILDGAKDNRFNSAGNALFPEILKSELREIRSTLESYSKGAAIEEYDEASACGVRLQYGGTWNAMVRVTTKTGTAVYKLDRWD				NA	NA	NA	NA	NA
AK009_03878	156			hypothetical protein	ATGAGCAATATTACTACAGAAGTAAATCATTTTATGGTAGATGGGAAACTGGTTTGCGTGGTCACCACTTATCAGGATGGTTCCTTCCTATGTGACTCAAGACATGATGTTACAAGTGAAGTACATAAAGTTATTGAAGGAATTTCAGTTGGGTGA	MSNITTEVNHFMVDGKLVCVVTTYQDGSFLCDSRHDVTSEVHKVIEGISVG				NA	NA	NA	NA	NA
AK009_03879	1107			hypothetical protein	ATGTATATAGATAAAATGTTTGAAGAATTAAAAGCAAAGATGGTTCATGAATTACAACAGGTTACATTATCAAACTTTAACAGATATGAAGAATGGGCTAAACCTCATCACAGAATAATTGAACAGCTTGTAGAATTAAGCAAAATGAGTTATGAAGGCGGCGGTGTAGGACTAGATGTTGTATTAGAACCAACAGAAGTATTAGCACCAGAAGCAATTGTTGTTGAACCAGTAGAAATGGTAGACACATATCCAGTTGGACACGTATTTACTTTCCTTAAGAAAGCATTTGGCGGTGTAATTGAAGAATTAAAATATCCAATTCCAGAAGAGCTAGTTCGTAAGCTTTCTATGGAAAATGAAAATAAAATTGAAGTAACGGGTATCAAAGGTCAATTTCAAGATGGTTCACCAATTTATGAATTCAGTATCGTGGATCGGAAAAATGTTCCGAACCCTTATTTATCAGAAATCAAAATGGGTATCGTTGAGGAAATAGGTAGCCGATTAGTTGTTACAAGTACAAACTCTGGAGCTATTTTTGTAAATGAATCACCAGCTTGTTTATATATTAATGAAAAAGATGCAAACCGTTTTAAAATTTCGAAAGGTGATGTTATTGATGGGCGTTTCTACACAAATAACATTACAAACAGTTTCCGTGCGACATACAAATATGATACAGAAGAAATAGAACAAACAGCTTCTATCGAATCGAAACGATTAGTACATCGTCAAAATAATGCTACTGAATCAGAATTGGGCTTCTCCATGATAGATCGACTTGATAAAAAACCTTTTCTGAACAAAAAAATCCTTTTAGTAGGGCTAGAAGGTCGCATGAATAACTTTAAAGATTCGTTAGATGGAGTAGAAGAAATTCAACTTACTCATCTTACAGGAGATGAGCATAAACAAAAAATTCGCGCTCAGATTCTTAAGTCTGACTACGTAATTATTAGTACTCAAGAAAATAGTCATGATGCAAGTAAGTACGTTGCGAAAATTTGTAATGAATTTTTCGTTCCATGCAAATCAACATCTGCAGATGGATTATTCGGCGTATTAATGGATGTAAAAGAATTAATTGACCAACAAGCAGCTTAA	MYIDKMFEELKAKMVHELQQVTLSNFNRYEEWAKPHHRIIEQLVELSKMSYEGGGVGLDVVLEPTEVLAPEAIVVEPVEMVDTYPVGHVFTFLKKAFGGVIEELKYPIPEELVRKLSMENENKIEVTGIKGQFQDGSPIYEFSIVDRKNVPNPYLSEIKMGIVEEIGSRLVVTSTNSGAIFVNESPACLYINEKDANRFKISKGDVIDGRFYTNNITNSFRATYKYDTEEIEQTASIESKRLVHRQNNATESELGFSMIDRLDKKPFLNKKILLVGLEGRMNNFKDSLDGVEEIQLTHLTGDEHKQKIRAQILKSDYVIISTQENSHDASKYVAKICNEFFVPCKSTSADGLFGVLMDVKELIDQQAA				NA	NA	NA	NA	NA
AK009_03880	246			hypothetical protein	ATGACAATGTTACGTTCAAGCTTTGGTGGACACTTCGCAGGATCTGGTATCGTTCAAGATGCTGATATGCGAGATGATTTTATTATCCGTCGCGGTGTGAAAATTGATCGTGGAGTTTCATTACCCACTGATAAATTTAGCAGCGATAAAGAGGGTAAGAAAGCATTCGATGATTATTGCGAAGCTATGTCCAGCGAAGTAACAACATATAATATGTATGAACAAACAGAGCCCGTTGCTCTATAG	MTMLRSSFGGHFAGSGIVQDADMRDDFIIRRGVKIDRGVSLPTDKFSSDKEGKKAFDDYCEAMSSEVTTYNMYEQTEPVAL				NA	NA	NA	NA	NA
AK009_03881	1089	recA_2	COG0468	Protein RecA	ATGAGCATTGAAAAATTAATGTCTACAATCAACAAACAACTTGGGGAAGATACAATCGGGTATTCAGTAAATACAGGTCCAACTATTAAACTTTTCTCAAGTGGTTCATTAACAATGGACTTAGCTTTGGGTGGAGGAGTAGCAAATGGTCGTATTATTGAGTACTTTGGTAACTCAATGGCTGGAAAAACAACATTGATGTTTCTTCATATAGCTGAAGTTCAACGTAAAAATGAAGGCTATGTTGCTTTCATTGATATGGAACATGCTATGAATAAAGAGTTAGCACAGCAGTATGGCGTAGACTTAGATAAATTAATCTACGTAAATCCAAAAACTGCAGAAAATGCTGTAGACATTGCTGATAGTCTTATTCGCTCAGGTGAAGTCCGTTTAATTGCAGTTGACTCTGTATCCGCTATGGTTCCTACTAAAATCGTAGAATCATCTGCTGAACAACAAACTATGGGTCTACTAGCTCGTTTCATGAGTACAACAATGCAGAAGCTAACTGGTATTGCTTATGAACATGACTGTACAGTAGGTTTCATTAACCAGATTCGTGAAAAAATCGGTGGATTCAGCCCTGCTGGTACACCAACAACAACTTCTGGTGGTCGTGCATTACCATTCTATGCTTCTCAACGTATCCAAGTAAAAATGGGCGAATACATTAAAGACGGTAATGACATTATTGGTCACTGGGTAAAAATTAAAGTTGTGAAAAACAAAATTGCAATTCCGTTTAAAGAAGCAGCGTTCCCACTTATTTATGGACATGGTGTAGACCGTATTGATGAAGTAGCTCAGGTAGCTATTCTTGCGGGATTTGTTCAGAAAAACGGTGGATGGTGCCGAATCATTGATGAAGAGACAGGTGAAATCCGTCAACATAAAGGCATTGAACTTAAGTTTAATGGACAAGCAAAACTTGTTGCATTCTTACATGAACATAAAGACCTAGCTGCTGAACTTGAAGCGAAAATCCGCGGAGTAGAAGTTGAACTTCCAGATGGTGAACGTGTAGATGAAGATGGTTATGGTGACATGGAAGTAGCACCGAAACCTGAATTACAAGCTGCAGCATAA	MSIEKLMSTINKQLGEDTIGYSVNTGPTIKLFSSGSLTMDLALGGGVANGRIIEYFGNSMAGKTTLMFLHIAEVQRKNEGYVAFIDMEHAMNKELAQQYGVDLDKLIYVNPKTAENAVDIADSLIRSGEVRLIAVDSVSAMVPTKIVESSAEQQTMGLLARFMSTTMQKLTGIAYEHDCTVGFINQIREKIGGFSPAGTPTTTSGGRALPFYASQRIQVKMGEYIKDGNDIIGHWVKIKVVKNKIAIPFKEAAFPLIYGHGVDRIDEVAQVAILAGFVQKNGGWCRIIDEETGEIRQHKGIELKFNGQAKLVAFLHEHKDLAAELEAKIRGVEVELPDGERVDEDGYGDMEVAPKPELQAAA	PGPT0007235_1402	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
AK009_03882	333			hypothetical protein	ATGAGTACTCAACGACGATTACGATCAGAGTTAAAACAAGGGCTTCATCAATTCATGATGAGCCTTTATAACTCTTATTTACAAACACTACCGCATGAAGAAGCGGTAGAACAAATCTCTCTTTGTTTAGCCGAGGAGTTTGAATACTTTACTAAACAAGCTATGAAACAAGAAGATTCTCTTGATCTTGGAAGCCTTATTAATAAGGTAGAAAAGCGTGCTAGGAGTGAAAGGGACTCTGCAAAGCAGTTCGGGTTGTATGAAGATGTGGAAGTCCTAGTGCGTGCACAGGAGATTCTCACAAAATACAACACGACGGAGGACAATAAATGA	MSTQRRLRSELKQGLHQFMMSLYNSYLQTLPHEEAVEQISLCLAEEFEYFTKQAMKQEDSLDLGSLINKVEKRARSERDSAKQFGLYEDVEVLVRAQEILTKYNTTEDNK				NA	NA	NA	NA	NA
AK009_03883	537	ssbA_2	COG0629	Single-stranded DNA-binding protein A	ATGTATCAAAAACAATTAATCGTAGGTCGTTTAACTCGTGATCCAGAAAGCACTCCTTATGGTGAAAACACGGTTTGTCGTTTTGCTGTAGCTGTAGATGATGGTTATGGTGACAAAAAAACTACTGATTTCTTCAATGTATCTGCGTGGGGTAAATTAGGTGCGAACGTACAACAGTACACTAAAAAAGGTTCGGTTGTTTTAGTAGAAGGTAAGATGAAGTCTTCTAAAAAAGAGAATATCACTTATTGGGAACTTCGTGCAGATAATATCAAATTCCTTTCTTCTAACAATGATGGTGGACAAGGTAATGGTCAGCAACAACAGTTCCAGCAACAAGGACAGCAGCAGTTCCAACAACCTCAATATCAGCAACAAGGTCAACAACAACAGTTCCAAGGTCAAAACCCTTACGCTCAACAAGGGCAGCAACAATTTCAACAACCTCCATACCAACAGCAAGGACAACAAGGGCAATACAACCCTGAAATGTTCCCTGGTAGCGTGAACATTAGTGACGATGCTTTACCATTCTAA	MYQKQLIVGRLTRDPESTPYGENTVCRFAVAVDDGYGDKKTTDFFNVSAWGKLGANVQQYTKKGSVVLVEGKMKSSKKENITYWELRADNIKFLSSNNDGGQGNGQQQQFQQQGQQQFQQPQYQQQGQQQQFQGQNPYAQQGQQQFQQPPYQQQGQQGQYNPEMFPGSVNISDDALPF				NA	NA	NA	NA	NA
AK009_03884	501			hypothetical protein	ATGGCAATGCATAAGAAATTGAGCGTTGGAAGCATCTTGTTTACTTATCATGAACCACGTTATGACTATTCGAATCATCGTTATGGTCGTGATAAGTACGTTGTTGAGTTCAAAGCTTTATACATTCATAACCGGCGTGAAAGAACGACTGGGGCGAATGTACCAAAATCACTAATACCTACGCTTGAAAAGTTAGGTGTTAAATATGAAACAAATCATTACGATCAAGACAGTGTTTGTGCTGTTGGATGTAGGAACTATATCTATAGCAGATGTACTTCAGCAATGCCTTATCCTTCAGTTGAGCAAATTAAATTCGCTCAAGAAAAACTTGAAAATGAGTTAAGCGCAGCAACTGCATGCAATGAAGGAGTCTCTTTAATGGAAATAGAATTTGTCCAAGATTTTAAAGAGAAGAAGATGTCTAACAAAGACGCTGTATTTTCGTTGTTAAAACCGCTTCATGACTATGTAGCGAATGAAACATATATATCAAATTAA	MAMHKKLSVGSILFTYHEPRYDYSNHRYGRDKYVVEFKALYIHNRRERTTGANVPKSLIPTLEKLGVKYETNHYDQDSVCAVGCRNYIYSRCTSAMPYPSVEQIKFAQEKLENELSAATACNEGVSLMEIEFVQDFKEKKMSNKDAVFSLLKPLHDYVANETYISN				NA	NA	NA	NA	NA
AK009_03885	585	tdk_1	COG1435	Thymidine kinase	ATGGCCAAGGTAGTTTTTTATTATGGAAGCATGAACAGCTCAAAGTCAGCACAGTTGATTATGACCGCATTTAATTTCGAACAACAAGGAAAGAACTTCGAGATCGTCAAGAGTTCTCAGGATACAAGGGATACAAAGATTAAATCTCGTGCCCTAAGTATTGAGATGGATTGCACACCAATTACTCATTTCACGGAATTAATTCAGATAGCAATGCTGAAAAAACCTGACTGGTTATTTGTAGATGAAGTTCAATTCATGGACAAGGATATGATCGATACACTTTCACATTTAGCAGATGATTTTGGGATTAACGTTATTGCTTATGGGCTAATGACAGATTTCCAAGGTCAGCTATTCGAAGGAAGTAAGCGATTAGTCGAATCAGCAGATAGTATTCGTGAAATCAAGAACCAATGCATTCATTGTGAGAATAAAGCAAATCGAAATGTGCGCCTAATAAACAACATTCCTGTCTTTGAGGGAGAAGTCGTACAGGTAGGTGGCAATGAGTCATACTCAAGTGTTTGTCGCCGCTGCTACAACAAAATAAGAAGAGAATCTAAATCTACTCAGAAACAATAG	MAKVVFYYGSMNSSKSAQLIMTAFNFEQQGKNFEIVKSSQDTRDTKIKSRALSIEMDCTPITHFTELIQIAMLKKPDWLFVDEVQFMDKDMIDTLSHLADDFGINVIAYGLMTDFQGQLFEGSKRLVESADSIREIKNQCIHCENKANRNVRLINNIPVFEGEVVQVGGNESYSSVCRRCYNKIRRESKSTQKQ	PGPT0021390_2590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
AK009_03886	441			hypothetical protein	TTGATCAATTTATCCACAATTCATGAAAGCAACTTAACAGCATTTCATCGAAATCATTTTATTTTAGCGGTAACAGACTTAAAAGATACTTCTATTTTCAAAGACGATGACTTTACTAACGATAATCATATTTCAATCGAAACATGTAGGCGTCTCTTCCCGAATGCTAGTGAAAAAACTGTCGCTAGTCTGCTTTTAACAGCATTGCAGATGAAGATAGAGCAGGGAGAAACGCACTTTTTATTTGTCTTCAATGATGACAATAAAGAAGAGTCTCTTGATGTGATTAATGGTTTAGTTCATATCTTTGAACTTACTCCAACCTCTGATGAACAGGAAGCGTATTTTGACTTCTTAAAAACGTATGAAAAGAATTGGACACACATTCTGATTGCTGAAGAGCAACGCCTAAATAAGATTGGATCAACAAAACAACATTGA	MINLSTIHESNLTAFHRNHFILAVTDLKDTSIFKDDDFTNDNHISIETCRRLFPNASEKTVASLLLTALQMKIEQGETHFLFVFNDDNKEESLDVINGLVHIFELTPTSDEQEAYFDFLKTYEKNWTHILIAEEQRLNKIGSTKQH				NA	NA	NA	NA	NA
AK009_03892	531			hypothetical protein	TTGACAAACCTTTATGATTTAGTGCTAGAGTACGATCGAGAAACGAAAGTAATCACAAAACGAATTGAGATTCCTTGGATTTATGATTATGATTTCAATCAAGGCCGACAAGACTGGCAAATGCCTTCTTACCCTGAAACAGCCTATGATGAGTATGCTAATCAATTCGTACCTCATGTACGATTAGGTGCAAGCTATACAAATCTTTCAGGGAATAAATTGCAACGCGGTACTTACCAAGGAGATTTATCTGCAATTCAAGTAGGTGACTTGATCACTCAAGAGATGCTAGATGGACACTACTTAGTTGGTGGAACTGGCACTCGTAGCCAAGACTATGATAAGGATAAAACGCAAGCAGCTTTATATGGTGTAACTGGAACTCAGTTTAGTCTTGTACGTTACTTAGCTAGCGCACGATTCTACTGGCATGCTACAGATCAACACGTAGAAGATGCATTTGCAAAAGGTCTTATCACAGAAGAAAATAAGATTAATATCTTGTCTGTACACAAATCATATTATCATTAA	MTNLYDLVLEYDRETKVITKRIEIPWIYDYDFNQGRQDWQMPSYPETAYDEYANQFVPHVRLGASYTNLSGNKLQRGTYQGDLSAIQVGDLITQEMLDGHYLVGGTGTRSQDYDKDKTQAALYGVTGTQFSLVRYLASARFYWHATDQHVEDAFAKGLITEENKINILSVHKSYYH				NA	NA	NA	NA	NA
AK009_03905	984			hypothetical protein	ATGGCCATTTCAGTTAAACAAAATCTTGTGGCTACAAGCAAATACCCAATCAAGTGTCCTTATTCTATGAAAGCAGAGTACATTACAGTGCATAACACTTATAATGATGCGCCTGCTAAGAACGAGGTAAATTACATGATCGGAAATACTAACGAGGTTTCATTCCACTTCGCAGTAGATGATATCGAAGTTATTCAAGGTATTCCGGTTGATCGTAATGCTTGGCATTGTGGTGATGGTGGTGGTAACGGAAACCGAAAATCTATCGGTGTTGAAATCTGTTACTCATTATCTGGTGGTCCAAGATATGAAAAAGCTGAAGCTTTATCTATTAAATTCGTTGCTCAATTACTAAGAGAGCGCGGATGGGGAATTGATCGTGTTCGTACTCATAAGAGTTGGACAGAGATTGGTGTTAAAAACGGTAATTCTAGAGCAGTTAAGAATTGTCCGCACCGTATCCTAGATGCAGGACGTTGGAATAGTTTCTTAGCAGCAGTACAAGCTGAACTTAATGGTTCAACTGTAGCGCCGCCAGTAACTCCACCACCTTCTACAGATGGTATTGGTGTTGTTGAGATTCTTGTTGCTGAATTAAACGTTCGTGAATCTGCTAGCTTTGATTCAAGAGTTGTTAAAACTGTGAAGAAAGGCGAAACATACCAGACTTGGGGATTATCTAACGGTCTGTACAATGTTGGAGGAAACCAATGGGTATCAGCAGGTCCTGCTTATGTTAAGTTTACACCTGCAGGAAGTTCTTCTAATGGAACACCTGAAGACTTAGCAGGAAAACGTAATCCAATCGGAAAAATCACAACTACTGCAAACTTAAACGTCCGCACTAAACCTTCGACAGACGGAGATATTATTCGAACTATCTCTAGTGGAGACACATGGAACATCTACGATATTAGTGGTGGATGGGCGAGAGTGCATGATGGTTGGGTTTCTCTAACTTATGCTAATCTAACAAGATACTAA	MAISVKQNLVATSKYPIKCPYSMKAEYITVHNTYNDAPAKNEVNYMIGNTNEVSFHFAVDDIEVIQGIPVDRNAWHCGDGGGNGNRKSIGVEICYSLSGGPRYEKAEALSIKFVAQLLRERGWGIDRVRTHKSWTEIGVKNGNSRAVKNCPHRILDAGRWNSFLAAVQAELNGSTVAPPVTPPPSTDGIGVVEILVAELNVRESASFDSRVVKTVKKGETYQTWGLSNGLYNVGGNQWVSAGPAYVKFTPAGSSSNGTPEDLAGKRNPIGKITTTANLNVRTKPSTDGDIIRTISSGDTWNIYDISGGWARVHDGWVSLTYANLTRY	PGPT0019115_584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_03906	2568			hypothetical protein	ATGAAAACAGTAAATTCAATTCAAAAACAAATCGATTCATATGAAAAGGAGAGAATATTAATGAACGTACAACAATTTGATCACTTATTAAAGCGAGTAAACATCGAAGAGGACAATGCTGTTAAGCAACGCATGTTAACAGTTATTGAACAATACTTAAGTGCATTATCATCTAACACTGTAGTAGTGCCAGATGTAGAAAAAACAGTAGCACCAGTTGAAACAGTTACAGAGGATGTTGTTCTTCCTGTAACAGAGGAAACAGTATTAGGGTCAAGCGAAGAAGTAGAAATGAATCAAAATAACGCAGCTATTCTGTACAATCAACAAATGGAACAAAGATCCAAAGAAGAAGATGCTAAATTAGCAGAAGAACTTCTTCAAGCTAAAGAACAAGAAGAGGCAGATGCAAAATATGAAGCAGCTGTTATGAATACTAAAGAAGTTCAAACTGTTGAAGATATGGAAGACGAAGCTAAAGCAAGATTAGAAGAAGCTGAGCAAGTAGAACTACCAATCGACACACCAATTGAAGAACCAATAGTAAAAGTAGAACCAGTAACGGAAGAAGTAGTAGAAACACCAGTAGATTCAATTGAGTATGTAGAAGAGTTTGGTCTTATTTCTACAGCTAAAGAAGAAGAGCACATGAGTCAAATCATTGAGCGTGGTGGTGTTATTTTCCGTGAGAAGCGTTCATTCATGTTAATGCTTTGCTTAGATGATGAAGTAGTTGCTATTGCTAAGACAATTAAGTTAGAGCAATTCCCAGAGCATGTACAGAAACATCTTAAGAGCGATGGATTCATTACTTGTGATGTAGTTTCATTTGGAGAAGTAACTAAGCGTTCTCGTGCTCGTTACACAAATGTTACATATAAAAACCTTCAATTATTAGAGAAGGATCATTGGGTTGTAAAGAACGTTACAAACCTTTTAGAAAAAGGAGAAGTTCCAGAACACGTTAAAGAAGAAGCTAAAGAAGTTGTAGCTGAAGAAAAACCTGTTCAAGTAGTAGCTCCAGAAACACAAGAAGAAGTGGAAGAAAAACCATTTATCGTAGCTAGCTTTATGCTTCACCCAAGCTTTGTAGGAACGTTTGCAAATCAAAAAGAAGCTGTTATGGCTCAAAAATATGGAATTAGTTCTGCAGATGGAATCGCTAGATTATTTACGCAGAATGCTAACGGTACAGTTGTAGTTGGTGTTGATGAGAAAACAGCTCTTAAACCAAACAACTATATGGCTACCATCCTTGATTACACAATGAAAGAGCAAGATGGAAAAACATTTGCTCAATTTAAATTAGATGCTAGTGTTATTGAACCGACTGTGCAGCCGGCGCCAGTTGCTCAAACACCTGCAGTAGAAACACAAACTGAACAAGCACCAGTAGAAGTAGTAGCTAAAGGAGAAGTCCCATCTGATTTCCCTTTAACTAATGAAATTGCATTACCATTACATCCGATGGCAGAATCTATGTTTAGCTTAGAAGCTGCTAAAGCAATGGTTGGACAAGTTGTTCACTTAGGATTATTCACTCGTCCAGAAGAACAGCTGAAACGTGTTTCATTAATGTACGATGTATTTGAAATGGCAACAGCATCTAATACATTAACAAAAGAAACAATTCGCAATTCTAAATGGTTAGCTCGTATTACAGATGTTAGCTTAATAAAAGATGAGGTAAAACAACGCACATCACTATTCTTAGTCTTTGATCGATTAGAAGAAGTAACAGTATTCCCTTATGAAAAAGAAGGGGAAGCTCGTGAAGTAACAAGTTTCTTACCAATCAATGAAGAAGTATATACTGAAAGACAACAAGAGTTAGCCAATGCACATGCAGTTGTTAAGACAGAAGCTACTCCTGTAGAAACTCAAACAACTCCAGTAGTTGAAAATGCACCAGTAGTAAACGCTCCAAAAGAAACGGTATCTGCGGAAGCGTTAATGAATAAAGAATACAATCCTGTAGAAGCGAAACAATTAATCAATCCTACTGCAGGTACTAACTATACACAAGGATATCAAGAACTAGTTCAATCTCAAGCGAAAGATATGAGTGGAGCGGTTCAAGAAATTCGTAATCAAACGCAAGTATTACCAACTTCTCGTCAAGAGTTGACAGAAGCGGCAAATGGATTAGTTACAGGTGTTATTAATCAAACACTGAAAGAAACAGGAATCCATACACAAACTGAGCAAAAACAAACTGTTCAAGTAATGGGCAATTTACAAGACGGTGCAGGCAATTTAACTCAGACTGAAACAGTTATTCGATTTGCGACGGGCTACTCACCGCAATCTTGGGCACAATCCGTCGGCAAACGAATTGACCTAAAGAGTGAGTTACAATTAGGAAACGGCCCTGTAACAAATAAACTAGTAACAATGGTAGGTAAAAACGGAGCAGTTGTAGCACAAGGGCAAGTGCCTATGACTGAAGCTCTATTGTTGGACGGCAACCAACATTCAGCAACTCTATTAGGCATTGAAGGAGCAACACAAGAGCAACATGGATATGTTATCTCTCTTCGTTTAGGAGAGTTCAATAAAATAGCTTAA	MKTVNSIQKQIDSYEKERILMNVQQFDHLLKRVNIEEDNAVKQRMLTVIEQYLSALSSNTVVVPDVEKTVAPVETVTEDVVLPVTEETVLGSSEEVEMNQNNAAILYNQQMEQRSKEEDAKLAEELLQAKEQEEADAKYEAAVMNTKEVQTVEDMEDEAKARLEEAEQVELPIDTPIEEPIVKVEPVTEEVVETPVDSIEYVEEFGLISTAKEEEHMSQIIERGGVIFREKRSFMLMLCLDDEVVAIAKTIKLEQFPEHVQKHLKSDGFITCDVVSFGEVTKRSRARYTNVTYKNLQLLEKDHWVVKNVTNLLEKGEVPEHVKEEAKEVVAEEKPVQVVAPETQEEVEEKPFIVASFMLHPSFVGTFANQKEAVMAQKYGISSADGIARLFTQNANGTVVVGVDEKTALKPNNYMATILDYTMKEQDGKTFAQFKLDASVIEPTVQPAPVAQTPAVETQTEQAPVEVVAKGEVPSDFPLTNEIALPLHPMAESMFSLEAAKAMVGQVVHLGLFTRPEEQLKRVSLMYDVFEMATASNTLTKETIRNSKWLARITDVSLIKDEVKQRTSLFLVFDRLEEVTVFPYEKEGEAREVTSFLPINEEVYTERQQELANAHAVVKTEATPVETQTTPVVENAPVVNAPKETVSAEALMNKEYNPVEAKQLINPTAGTNYTQGYQELVQSQAKDMSGAVQEIRNQTQVLPTSRQELTEAANGLVTGVINQTLKETGIHTQTEQKQTVQVMGNLQDGAGNLTQTETVIRFATGYSPQSWAQSVGKRIDLKSELQLGNGPVTNKLVTMVGKNGAVVAQGQVPMTEALLLDGNQHSATLLGIEGATQEQHGYVISLRLGEFNKIA				NA	NA	NA	NA	NA
AK009_03907	843			hypothetical protein	ATGAGAGCGCTAGAATTTTATCCAAGTAGAACAATGCATTTTGATATTGTACAAGTTGGTTGTGGAGGAAATGGGGGATATATAACGCAGCGATTAGCCAAGTTAATATCCTCTTTAACTAAAAATTCAAGTCATACAACATTTGATTATACATTGGTTGATTTAGATAGGGTTGAAGAAAAGAACTTGCAAAGACAACCATTCTTACCTAGAGATTTAGATAAGAATAAAGCGAAGGTCTTGGCAGAGAGATATGGAATGTCGTATCAGTTTCCTATCTATCATCGTGAAGAATATGTAGAGTCAGTCGAAGAATTATCGAATTGTTTCCGTTCTAATCAGGAGACATACGTTCTTGATTCTTCTCGTGTTTTGTTCCGTGTATTAATTGGCGCAGTTGATAACCATGCTTCGAGAAAAATTATGCACGAATACTTTCTGAAAGACCCTAACATCATCTACATAGATTGTGGAGTTGACGGTGTATTATTTGAAGGAACAGATGAAGAAAAAATTCGTTCAGGGTACGCAGGTCATTGCGTAGTTGGATTACATCATAACGATACGATGCTTACACCGGTTGCTGGAGTTTATCCGGATATATTAGAAGACAGTGAGAGTCTTTTACCTTCACAAAGTTGTGGCCAGAATATTGTTTCTCAACCACAAAGAATGCAATCAAATGAAATGGCTGCATTGATTACAATGGGATACCTAAATCAAATCTTTGCAGAAAGAAGACTATATCATCACTATACAAACTTTAACGCTCTTACTCATTCATCAAGAGCTACATTATTACCAGTTAGACCTAAAACGGAAAGAGATGCTAAAAATGTGTAA	MRALEFYPSRTMHFDIVQVGCGGNGGYITQRLAKLISSLTKNSSHTTFDYTLVDLDRVEEKNLQRQPFLPRDLDKNKAKVLAERYGMSYQFPIYHREEYVESVEELSNCFRSNQETYVLDSSRVLFRVLIGAVDNHASRKIMHEYFLKDPNIIYIDCGVDGVLFEGTDEEKIRSGYAGHCVVGLHHNDTMLTPVAGVYPDILEDSESLLPSQSCGQNIVSQPQRMQSNEMAALITMGYLNQIFAERRLYHHYTNFNALTHSSRATLLPVRPKTERDAKNV				NA	NA	NA	NA	NA
AK009_03908	477			hypothetical protein	ATGACAGAGAAAAAAGACTTATTCGGTAGTATTGATTTATCACAAAACGACTTCTTAGATCCAGCAGAATCAAAAAAGTTTGATGGGCTATTTCAAACAACAGCAGGCACAAATTTATTTGATAATCCTAGTAGTAACAATCCATTTGATAATGTAATACAGACTGAACCACCTGTAGTAGTTCAAGTGAAAGAAGAAGAGAAACCACCTGTAGTTCAGGTTAATAAGGAAGAAAAGAAACCAGCAGCAGGTAAGGCAAAGGGAAAAGATAAGAAGACTACTAAAGTAGATACAACTTGGAATATCGCCTATGCTGCACAGCAATATAATCCACCAGAAAACGATATGACTTTAGAACAAGTTCGTGAATGGCTGGAACTAGATTACCCTGAACTGTCTAAAGAACGTTGTCATATGGATGTTGATGCAGACAAAAAACTAATTGTGCCTATCGTAAAAGGCGCAAAGAATGGGTGA	MTEKKDLFGSIDLSQNDFLDPAESKKFDGLFQTTAGTNLFDNPSSNNPFDNVIQTEPPVVVQVKEEEKPPVVQVNKEEKKPAAGKAKGKDKKTTKVDTTWNIAYAAQQYNPPENDMTLEQVREWLELDYPELSKERCHMDVDADKKLIVPIVKGAKNG				NA	NA	NA	NA	NA
AK009_03909	705			hypothetical protein	ATGATTAAAATTACAATTGGAAATGAGAAATTACCACTTGTCGAATACGAAAAGAATGGGGCACAACGCTCATTCCATATAGACCACAATACACTATTTGAATTTGTACAGAAGAACTGCTACGAAACAAAGACAAATACTAAAAAGTTGGATATACCTGTTTTTGAAACACCTGCATTACCACCTGGCACTGTTAAATACATGGCTTTACCAGACGGAAAGATTGTTTTATTCATGGAGAAGAAAGAATTCAAACACAACTTAACATATCATTCAACAAAATATAAACAAATTCCATTCCCGAACTTATTGTTTGTTTTCGTATTTAGACCGAATGGAGATAAATATATTCTTGAGAATAAGAGATGCTATGCATTCCGAGATAAAGTATTTCGTGACACAACTAAGCTATATCGTTTTCCTTTTTCACATGTACAGAAAGATGGAGAAATGTGTTTCTTCTTTTTAACAGAAATGCAGGATTTAGCTCAGATGTCATCCTTTATTCATAACTGGCTTTCTGCAGCGTTTACAGATCATTACTATAACTTAGAGAATAAAAATAAATGGGGTTGGCCTTTGCGACAAATCTTTAGTGAGACGCAGGGACAACCTCATTTTAATTATGACAAATTAATTGAAGAGGATTATACATCAGTGGACTTAGTTCAAAGATTCGTTAATGTGTATTTCCCAGTAAAATAG	MIKITIGNEKLPLVEYEKNGAQRSFHIDHNTLFEFVQKNCYETKTNTKKLDIPVFETPALPPGTVKYMALPDGKIVLFMEKKEFKHNLTYHSTKYKQIPFPNLLFVFVFRPNGDKYILENKRCYAFRDKVFRDTTKLYRFPFSHVQKDGEMCFFFLTEMQDLAQMSSFIHNWLSAAFTDHYYNLENKNKWGWPLRQIFSETQGQPHFNYDKLIEEDYTSVDLVQRFVNVYFPVK				NA	NA	NA	NA	NA
AK009_03910	555			hypothetical protein	ATGTTAAAGTTTCCTGTATTAGAAGCTAAACGAAACCTGTTCGTTCAAACTCTAATTAAAGCATATGACATTACAGATGATGGATTAATTCAGTTCTTAAAACAATGTACTTCAGAGGAATGCGATTTATACATACATGAGTTACAAGAGGCATTACCTTACATATTCGATTTTGATTTTGATTGGATTGATGTACCTCATGAAGTTTCTGAAGACCATGCAGAAGGATGGAATTATTTTATAGTTGGGGCTATAAGCGTTCCTTCATTATTACCTTACGCTGATCAACCGACCTTTATTGAATTCACAAGGAATATTGAAGTACTTACAAATACAAGTTGTGGAAACTTAATTGAGTTTGTTTACTTACCAGATTCTAAAATTGCATCTAGTGATGACCCTGTTCATTCTACTTTCGCAAACCAACCTGGTACTTTCATGATAGGCATGCAAGACAATGGAGGTCTTGATATAAACGATACAATTGAATTTTTAACAGAACTTAGAGATGTTAACGATTCTATTAATTCATTAGTTGAAGGGAGAGAATTATAA	MLKFPVLEAKRNLFVQTLIKAYDITDDGLIQFLKQCTSEECDLYIHELQEALPYIFDFDFDWIDVPHEVSEDHAEGWNYFIVGAISVPSLLPYADQPTFIEFTRNIEVLTNTSCGNLIEFVYLPDSKIASSDDPVHSTFANQPGTFMIGMQDNGGLDINDTIEFLTELRDVNDSINSLVEGREL				NA	NA	NA	NA	NA
AK009_03911	648			hypothetical protein	ATGATTAATCATCTTGAAGCAGGATATTACAGAGATACACTTCGTTATTATTCCTATGTTAAAACTCAAACACATATAAATAAATTTGTTGAATACCCAAGAGACATTGTAGAGCCCACTTATATTAGTTTGGGTGAACAGATGTCTTTTTGTAATTATATACCCGAAGTATTAGAAGGTCTAACGAGTTCAACGTGTTTAGATTATCCTAATGAAGATTTCGGCCGTTGTATCGGAAACATTCAATCAAATGTTCAAGATCATTGTCCAATTGAGGTAGCTGGTATTTTTCATTTTGGTTTATTGTTAGATCATCTTCATTTATTTACAGAAGCTGAGGAAACTGAACTAAAGGCTCGAATAGATGATATGTTTCATAATTTAGGTGACGTATGTATGAGTTTTAAAGAGTTTTACGAAACGTATTTTGCAAGTCAGTTTTTCGGAGGATATTCAGCTAGATATACACAATTTGAAAAATATATGGAATATACCTATATAATTTGGTGCGATTTTGAATTCCATACCACTGAAGAATTCGGACCTAGATTTATGGGTGCTTATTCAAAATTTGCTGAAGAATATTATGAATTCTATAAAGAATTAGTAGATGAAATACAAAGGAGAAAGCAGGTGGACGCATGTTAA	MINHLEAGYYRDTLRYYSYVKTQTHINKFVEYPRDIVEPTYISLGEQMSFCNYIPEVLEGLTSSTCLDYPNEDFGRCIGNIQSNVQDHCPIEVAGIFHFGLLLDHLHLFTEAEETELKARIDDMFHNLGDVCMSFKEFYETYFASQFFGGYSARYTQFEKYMEYTYIIWCDFEFHTTEEFGPRFMGAYSKFAEEYYEFYKELVDEIQRRKQVDAC				NA	NA	NA	NA	NA
AK009_03912	399			hypothetical protein	ATGAAACCGACTTTACATGGAATAAATCAGTTAAGCAATGTTATTGTAACTAGGATTCCGTCGGATAAAATTAATGTAAATGCTCTTATTGAAACATTTGAAAGTAATCAGGATAAAGCTACTCCTACGGAATGGCTGCAACAATACGATGAAATTGCTTCTATATATAAGATTTTATTCACAGAAGGTGAACTTCCACAAGAAATGATAGATAAGACATCTCATGAAGTATTAGAGATGGCTTGTGAACACATTTCTCATGACCTTGAAGAACTCATTGAAGAACCAACGACTAGCAATGGTCGTGATTATTATTATGAATTTGGTAGAAGTTTAGGAGTGGAGGAGCAAGCTTCGAAATTAAAAGAGCATTTAGCTGAGGATTGTGATTTTATATGA	MKPTLHGINQLSNVIVTRIPSDKINVNALIETFESNQDKATPTEWLQQYDEIASIYKILFTEGELPQEMIDKTSHEVLEMACEHISHDLEELIEEPTTSNGRDYYYEFGRSLGVEEQASKLKEHLAEDCDFI				NA	NA	NA	NA	NA
AK009_03913	276	abh	COG2002	Putative transition state regulator Abh	ATGAAATTCACAGGCATTATTCAATATGTGGATAGTAAAGGGCGTATAGGTATCCCTAGAGAATTAGCTAACATATTGGAAATTCAAGCAGTGCCTGTAGATTTTACTGTAGAAAATGGACTGCTTGTTTTGCAACGGCATAGAGAGGCTTGTATCATAACTGGGAAAGTATCAAGACGTAATATTTCATTGGCAAATGGAAAAATAAAAGTACATCCCAAGGAAGTAAATCAATTAATAGAAGAGCTAAAAGAATATCTAGAAAAAATAGATTGA	MKFTGIIQYVDSKGRIGIPRELANILEIQAVPVDFTVENGLLVLQRHREACIITGKVSRRNISLANGKIKVHPKEVNQLIEELKEYLEKID	PGPT0014790_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_03914	147			hypothetical protein	ATGAAGGAAGAAGAGATTATGGAGTCATTAAAAATACAAATGGAGACTCACATAAAACAACTCCGGGATCAGGGTGTTCGACCTCAAAATATTGAAATCGAATTGCTTCACTTTGCAAAAAAAATAATTTACAAAGAAAAACATTAG	MKEEEIMESLKIQMETHIKQLRDQGVRPQNIEIELLHFAKKIIYKEKH				NA	NA	NA	NA	NA
AK009_03915	423			hypothetical protein	ATGGTTTCGCTTAGTGAATTAAAAATTACTCCTCCCAGACCTTATGTAAATACAGGACCAAGGTATTTTGAGATGGAGTATATGGCTGAGCCGTATCAACCGATTGAAACAACATGTGTGAATCATAGTTTGCGTTCGCCTTACATGAGAGAACCAGACAGCATAATGGAGTATATGGTTATGGAAAGAGAAAATGAACGCAGCAGAGATACTATGAATAGACTCACGGAATTGCACCATGATTTTGTTCGTAGTCACAGAATGCGACCAAATGCCATATTTCTTAATCGTGACGACCATCATTATGTAAGAAGATATAGCGATATCCAATACAACGGTATTGAAGAAACCTTTCAGGGGCTTAAAGTAGTGCCAACTATAGCTAATAGGTCTTATGTAGGTATCGTAAATTTTGAACATTAA	MVSLSELKITPPRPYVNTGPRYFEMEYMAEPYQPIETTCVNHSLRSPYMREPDSIMEYMVMERENERSRDTMNRLTELHHDFVRSHRMRPNAIFLNRDDHHYVRRYSDIQYNGIEETFQGLKVVPTIANRSYVGIVNFEH				NA	NA	NA	NA	NA
AK009_03916	150			hypothetical protein	ATGAAAAAATTAAAAGCATTGGTATTAGGTATCGCATTAACCGGTACATTCGCATTTGGATTAAGTCTTGTTCATACTGAAAATAGTAATTTATCCGAAGAAAAATCTTATGAGTATGTTCAGTACATGAACAGGGGAGACACTTGGTAA	MKKLKALVLGIALTGTFAFGLSLVHTENSNLSEEKSYEYVQYMNRGDTW				NA	NA	NA	NA	NA
AK009_03917	1098	rapF_5	COG0457	Response regulator aspartate phosphatase F	ATGCAAGATTACAAAGTTAGTAATGAAAAAGTAACAAAGCTTCTTAATGAGTGGTATCAAGAGATGAGGGCTCAACAAATTTTAAAAGCCACTCAGTTAAAAAAAGAGATAGATACCCAAATTAATGCTTTAGCTGAGCAAGATCAAAACCTATTGTTGTATTACTCTTTATTAGATTTTAGATATAAGTTACTAACTGATGACTTTGGAATTGGGAAAGACAGTTTTGACAGAATCGAAGAATTAAATACTCCAAGTGATCAAATGTTGAATTACTATTATCATTTCTTTAAAGCAATACATTCTACTGTCCTTACAAATTTTTCTGAAGCAAAAGAACATTATACAAAAGCTGAAGAGATGCTGAATCATATTCCGGACATATTAGAACGCGCAGAATTTTACTACAGATTCTCAACTTTTAATTATCAGACGTATCAACCTTTAGTAGCGATTAAATATGCTGATAAAGCTAAAGAAATCTTTGCTAAGCATAAAGGATATGATATAAATGTTGCGTCCTGTGAGAATGTGTATGGTCTAGCTTGTGTAGATTTAAAACAATACGAACTAGCTGAAGAAAGTTTTAACTCATCTATTAATATTTTAAATAAAATGGACGAGAAAAAATTAATCCTGCGAGTAAGAAGTAATTTAGGATGGCTATATGCAAGTCAAAATTTATCTACTTTAGCAATTAGACATCTTTCTGAGGTTACTCATAATATCCCTAATCATTTCAAAGCTTTATTCTCAGAAGCAGAAGAGAACTATAAGTTAGGGAATAATGAACAAGCTAAAGAGTTGATTACCAGAGGATTAGATATTAGCCATAAAATTAATAATGTAGAATATCTACATAGATTTAGAATCCTGCAGAAGTTAAATGAAAATGTACCAGCTACTGATCTAGAGGTAGTTGTTAAAGAAGGACTTTCTTACTTTGAGAAAGAAAACTTATTAGAGTGTATGCAAGAATATACCGAAAAGCTAGCTTCAAAATATTATGAAGAAAATAATACGGTTAAAGCAAGTGAATATTATTACCGAAGTGTTAATGTTAAAAAACAATACTTTGAAAAAGGAGCATTAAAATAA	MQDYKVSNEKVTKLLNEWYQEMRAQQILKATQLKKEIDTQINALAEQDQNLLLYYSLLDFRYKLLTDDFGIGKDSFDRIEELNTPSDQMLNYYYHFFKAIHSTVLTNFSEAKEHYTKAEEMLNHIPDILERAEFYYRFSTFNYQTYQPLVAIKYADKAKEIFAKHKGYDINVASCENVYGLACVDLKQYELAEESFNSSINILNKMDEKKLILRVRSNLGWLYASQNLSTLAIRHLSEVTHNIPNHFKALFSEAEENYKLGNNEQAKELITRGLDISHKINNVEYLHRFRILQKLNENVPATDLEVVVKEGLSYFEKENLLECMQEYTEKLASKYYEENNTVKASEYYYRSVNVKKQYFEKGALK	PGPT0025760_69	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025760-rapC-K06361	NA	NA
AK009_03918	489			hypothetical protein	ATGTATAGAATGTGGCGGGAATATGCTTCAAAACCTACTGATTTACCGACTGACGATTTATTAGAAGCGGTAAAAATGTCTATAAATTGTGAAGCCGATTTTTATATATACGGAAGAATGATAGCTAGCTGGATGGGTCTTAGTATGGAAGAGAATATTCGTCGATTAGATAAAGAAGGAATCGAAACATATGTTGTAGACGGAGATTATCGTTTCAGGTACAAAGATCCTGAAAAAAATATTAAACGTATCTTCTTTGAATTTATAAATATAGGTGAAGGAAAAGGCGAAGTCCATTTGAACAGTTATCGTTCAAGAAAGGATCAGCCTTTTTATTCGTCTATTGAGGAAATTTATGAACTGCTAAAAGAAGATTGTCCTCACGTTCATACATTGAATGTTGTAGATTTTTCAGGGGATAAGTATGAAGGTTCATATCAGTATAATTTACAAAATCATGTTAAAAATAAATTGTCTGAAAATTGTTGA	MYRMWREYASKPTDLPTDDLLEAVKMSINCEADFYIYGRMIASWMGLSMEENIRRLDKEGIETYVVDGDYRFRYKDPEKNIKRIFFEFINIGEGKGEVHLNSYRSRKDQPFYSSIEEIYELLKEDCPHVHTLNVVDFSGDKYEGSYQYNLQNHVKNKLSENC				NA	NA	NA	NA	NA
AK009_03919	102			hypothetical protein	ATGGGCGTAAAAGTTAAAATATCTTCAGCTGAAGCAAAGAAAATTGCAAAAGGTTGCCTAAGCCAAAGTACGAAATATGGATTACCACGTAAAAAGAAATAG	MGVKVKISSAEAKKIAKGCLSQSTKYGLPRKKK				NA	NA	NA	NA	NA
AK009_03920	636			hypothetical protein	ATGAGTAAAGTAAAAGAGAGGAAGATTAGGAGTGACAAACGTAAGGACGTTAAGCCAACTGTTGAACTCAGTTTGTATGATTGCGTTGCTCGAATCTCATACATTACTAATACACCAATGAAAGATGTCGGTGAAATATTTTGTACTCACGGTTTATATTCTAAAAAAGTAATTGATTACTTGTCCAAAAAGTTCAGAAGAAGTTACAAATTTAAAGATACTCTACATATGGGTAATAGAGAATTAATGTCTGAACGAGTTAGAAAACATTCGAAATCAACAACAAGAATTACAATGCGTTTTAGACAAGAAACGTATGATCATTTAGCTGATTTAGCATATGCATTAGATACAACTGTTTCGACAGCTACAGCTATTTTACTCGATGCTGCTGTTAGGAATACGGATATCGTAAACGAATACGTAACTAGATTTGTTGAAGAAACCTTAGATGACAATAGAAAAGACCAACTTAAGAAAGTTCTTACCTACATAAGAAAAGAAAATCCTTATGAAACAAACGAAATTACATTAGCTCAGCTAATTAGCTACATCTTAGATGGTTTTAAAGGACATTCAAAACACATCAAGCAGACAATAGAAAGTTGGCTAGATAACGTAACTGAGAGGGACTAA	MSKVKERKIRSDKRKDVKPTVELSLYDCVARISYITNTPMKDVGEIFCTHGLYSKKVIDYLSKKFRRSYKFKDTLHMGNRELMSERVRKHSKSTTRITMRFRQETYDHLADLAYALDTTVSTATAILLDAAVRNTDIVNEYVTRFVEETLDDNRKDQLKKVLTYIRKENPYETNEITLAQLISYILDGFKGHSKHIKQTIESWLDNVTERD				NA	NA	NA	NA	NA
AK009_03921	408			hypothetical protein	ATGAGCGAAGCTATGTTTACAGTAGAAGAAGTAAAAACAAAATGCCAGGAGAATAGTTGGTTAAAGATTGGTGGTTGTGACTTTGAAGATGATTTCATGATGGAACTCGACTATGATTATGGTCTTTATACTTGTCAAAGCCTTGAAGAATTAGAGCAGAAGATGAAGCAAGGGAATTGGTCTATTCGTTCTGCTTTTGCATATGACCGATTATTATTTGTGAATCAAGTGAATGGCGGAGATGAATGGTGGACATGCTATAAACATGAGGACGGTAGTATCGAAAGTTTCGAATCTATTACCTTCAGAAGCTTTATTAATCGGGGCGAGTTTAAACAATTATTGGAAAGATTGCTACAGGGCCCCGATGCCTACTGGGGAAGAAACGAAGAAAAAGAGGGAGCTTAG	MSEAMFTVEEVKTKCQENSWLKIGGCDFEDDFMMELDYDYGLYTCQSLEELEQKMKQGNWSIRSAFAYDRLLFVNQVNGGDEWWTCYKHEDGSIESFESITFRSFINRGEFKQLLERLLQGPDAYWGRNEEKEGA				NA	NA	NA	NA	NA
AK009_03922	456			hypothetical protein	ATGAATGACTTACAAAACATAGGTTGGCGGCGATTACTGTTAAGCAAACAAGAAAAATTCCTAGTGGATTTAAAAACACTTGGTAAAGAAAAAGATAATGTTCAAAAGGGAATTATTATTTTTGAAAACTTAACAAAACCTCATTATGTTTTTCACTTGTTAAAAAGATATTTTCGTCCTTATATTTATAAAACATATTGGGCGATTGCACCTAAACGATTACGTGTTTGCAGAAGAGGAACTGCTATTTACGAATTCTTACCTTGGATTAACAACTCGCACCTTTATAAAGACAACACAGGTCGTATTGGTCGTGCATATGGTGGAGATCCTACATACGTATACTCTTGGAAAAAAGCTCATGAAAGTATGATGAAATATAAAAAAGAAGAAGATCAGAAGCGTCTTCAATTTCAATTAGATATGTCTCTTAGAAGAATAAATGGAGGTAAATAA	MNDLQNIGWRRLLLSKQEKFLVDLKTLGKEKDNVQKGIIIFENLTKPHYVFHLLKRYFRPYIYKTYWAIAPKRLRVCRRGTAIYEFLPWINNSHLYKDNTGRIGRAYGGDPTYVYSWKKAHESMMKYKKEEDQKRLQFQLDMSLRRINGGK				NA	NA	NA	NA	NA
AK009_03923	303			hypothetical protein	TTGGATATCTATATTAATCCTCCAAAACGAATCGAGACAACAGTAGATCAATTTAAATCATTTACGTATTTTGAACTATCCTCATTTTTTATTAACCATGGAGCTTGTGTACAAGACAATGGCGATTCGTTTAGAATCTGGACTTCAAGATACGAATTAGTACATGCGTGTATGAAGAACCACAGATTTAGAGGAATAGACTGGTACGAAAAAAGTAATGTAGAACTTTATTTTTGTGACATTACAGAGGATAACTTAAAAGGACTAATTAGAAAGAGTTATGAGGATTTGTTTTTGAGATAA	MDIYINPPKRIETTVDQFKSFTYFELSSFFINHGACVQDNGDSFRIWTSRYELVHACMKNHRFRGIDWYEKSNVELYFCDITEDNLKGLIRKSYEDLFLR				NA	NA	NA	NA	NA
AK009_03924	321			hypothetical protein	ATGAAGAAATTAATCGCAACTGTATTAACTGTAGGATTAGCAGCAACCATTTTAACAGGATGTAACAATGATCCGTATATGCAGAAGCAGGATGACCAAATTATAAGTATCGATTATAAGATGCTAGTAAAAGACAAGCTTTATTACATTCCGCATGAAAGAGGAAAGGCTGATCTTCCTCCGAGATATGAAAAACTTCTAACAGATAATCCTAGCTTAGAAGTTATCAGTGTTTCTACAAATACGAATGAAGATAGTCAAAATAGTATCAACGGTTACTACATCTTTACAAAGAAAATCAAAGAAAATCAAGAGCAATAG	MKKLIATVLTVGLAATILTGCNNDPYMQKQDDQIISIDYKMLVKDKLYYIPHERGKADLPPRYEKLLTDNPSLEVISVSTNTNEDSQNSINGYYIFTKKIKENQEQ				NA	NA	NA	NA	NA
AK009_03925	738			hypothetical protein	ATGGACAGCATTGGAGATCGCATGAAGAGATACGAGAATGCATATCGCATTAAGTTACCTGAAAGAATGCCCGTGATTGTAAGGATTGATGGAGCACACTTTCATACATATACAAAAGGTTGCGCTAAGCCTTTTGACCAGGATCTAGCAGAAGCATTTTGGGAAACATGCAAATACTTAGCTCAAAACATTATGGGCGCGAAATTAGTTTACCATCAGTCGGATGAGATTAGTATTCTTATTACGAACTATGACAAGCTTACAACTCAATCTTGGTTTGAAAATAACCTTCAAAAGATAGCTTCTGTTTCGGCTTCTATGGCAACTGCAAAGTTTAATGAAGTTATGAGAGAGAAATATCCGGACAAACCACTTGCTACATTTGATGGTCGCGCACAGGTATTGCCACAAGATGAGGTTGCAAACTATTTCATTTGGAGACAACAAGATGCTTCAAAGAATAGCATCTCAATGGTTGCTCAAGCTAACTTTCCACATAAGCAATTGCAAGGCCTTAATGGTAAGGATATGCAGGATAAGTTAATGACTGAGAAAAATATCAACTGGAATGACTTACCTGTATGGCAAAAACGTGGTATATGCATCATTAAAGAGTTCTACGAAAAGAATGGTGCTTTAAGAAGTCGATGGTCAGTAGATCATGAAACTCCTATTATTTCTAAAGACCGCGAATATGTTGAACAATTCGTTTACTTAAATAGAGGTGCTGCAGCATGA	MDSIGDRMKRYENAYRIKLPERMPVIVRIDGAHFHTYTKGCAKPFDQDLAEAFWETCKYLAQNIMGAKLVYHQSDEISILITNYDKLTTQSWFENNLQKIASVSASMATAKFNEVMREKYPDKPLATFDGRAQVLPQDEVANYFIWRQQDASKNSISMVAQANFPHKQLQGLNGKDMQDKLMTEKNINWNDLPVWQKRGICIIKEFYEKNGALRSRWSVDHETPIISKDREYVEQFVYLNRGAAA				NA	NA	NA	NA	NA
AK009_03926	1152			hypothetical protein	ATGATTTGCATATATCGTTTAAGAAACAAAATAAATGAAAAGAATTACATAGGTCAAACAACAAACTTTAAAAGAAGAATGATTCGCCATAAAGCCGATTCAAAACATCCTGAGCCAATTTACAAAATTCATCGAGCAATTAAGAAATATGGAATAGATAATTTTGAAATAACTGTTCTTGAGGAATGTACGGAGGAAATGCTGGATGAAAGAGAAATCTATTGGGTTTCTCATTTTGATTCTTTCAATAACGGCTACAATATGACAGGTGGTGGTAATGGTTTTGGGATTGGAGAAGGATCTCCTTCCTCTCGAATCTCAACTCTAACTGCCAAAAGAATAATTAAAATTAAGTTGGAGACCGTAGCACCGTATAGAGAAGTCGCTAATTATCTAAACTGTACATTAGGCACATTTAATAACGTTGGTAATAATTCATGGCAATATTTAAACAATCAAATTGATGATTTTTCCGATGAGGTTGTTGAATATTTTCGTAACAAGTATCCAATAGATTCTCTAAACATATTAGTATTTGACAATCGTACTCTTGAGTTACTAGGAGAATATGAATCTACAAACGATATAATTTCCGCCGGTATTGTGGAGGTCAGAGGAAAGTATGATCAAACTAGTATATCTAGAGCTATCGCTACTAAATTATCGTTTCAGAATAAAATATTTATCCATAAAAAAGATTATTCGGAAGAATATCTCAAAGAGATTACTTCTAATAATCGCCAAAGACAAATTGATTGGATAGATGTTTACGCTGAAGATGGTCAGTATATTAAGCGTTTTTCTTCCCGTAAAGAGATTCGAGACGAGTTAGGATTAACCGCTTCTCAAATTAGTAATGGATTATATTTACCTAATCAAGTTGTAACAAAGGGGTTTATTTTAATAACCAATGTTCAACATGACGAAGGTGAAACTATTGAAGCAAAACTTGAAAAACTTGCCTCATTTAGTCACACTAGTCCGGAATTTGCGGTAATTAAAAATGGTGCTGTTTTGGAGACGCTTAGAAATCAGCAAGAATGTGCTAAAAAGTACAATCTTCACCAGTCTCGTATTTCACTTATATTGAGAAATGGTAAAGGAACTACTGGTGGATATACGTTCAAATACGTAGACAACGAGGAGGAATAG	MICIYRLRNKINEKNYIGQTTNFKRRMIRHKADSKHPEPIYKIHRAIKKYGIDNFEITVLEECTEEMLDEREIYWVSHFDSFNNGYNMTGGGNGFGIGEGSPSSRISTLTAKRIIKIKLETVAPYREVANYLNCTLGTFNNVGNNSWQYLNNQIDDFSDEVVEYFRNKYPIDSLNILVFDNRTLELLGEYESTNDIISAGIVEVRGKYDQTSISRAIATKLSFQNKIFIHKKDYSEEYLKEITSNNRQRQIDWIDVYAEDGQYIKRFSSRKEIRDELGLTASQISNGLYLPNQVVTKGFILITNVQHDEGETIEAKLEKLASFSHTSPEFAVIKNGAVLETLRNQQECAKKYNLHQSRISLILRNGKGTTGGYTFKYVDNEEE				NA	NA	NA	NA	NA
AK009_03927	987			hypothetical protein	ATGACAGAAAAAATTACAATCGCAGTAACTGCACATCGTCCAAATAAATTATATGGGTACGATTATTTTTCACCAGGTAACCTTGCTATCGCTACTAAACTACGAGAACATCTTCTTTCCCATTTAGATCAAGGGAAACAGGTACACGCAATAAGCGGTATGGCATTAGGAGGAGACACGATTTATGCGTTAGTCGTCCTTAAATTAAAAAGACAAGGATATAACATAACCTTAGAATCGGCTATTCCATGTACCGCACATTCTAGTCAATGGCCAAAACCATCGCAAGATCAATGGAAAAGCATTGTGGAACAAGCCGATGTTGTTACATATGTTAGCAAACTACTGTACAAGCCTTATCTTATGCAAAAGCGTAATGAGTATATGGTGAATCAATGCGATGAGCTGATAGCTATATGGAATGGAGAACCAAAAGGCGGTACTGGTAACTGCGTAGATTATGCCATAAAGAAGGAGAAGAAAATGGTACAAATTAATCCGAAAGAACTAATCATCCAACATAAAGGTGATATCTTGCGTTCAGATTGTGACGTAGTAATGCATCAAGCCAACGCGAGATCTACGATGGGGAGCGGTATTGCTAAGCAAATCCGAGCAGAATTTCCGGTTGTATATGAGGTCGATCGTTCATCACCTCTAAGACCTGAACAAAAGCTGGGAACTTTTACTTTCGCTAATGTCCAAAACAATGGGAAAAGTATTGAGATAGTTAATTTGTATGGTCAATTAAACTATGGAGCGGATCGAAAACTTTATACGGTTTATGAAGCACTTGAATCTGCTTTATTTAGTTATTTGGCTAATCGATTAGATAGAGAAGGTAACCTATCTCATTTAAAAATAGGCGTACCAAAATATATTGGATGTGCAAGAGCTGGTGGAGACTGGAATGTAGTTAAAGGTATACTAGAAAAGGCTACAAAACATTTCAATGTATCAATTCACACGTATGAATTTGCTGCATAA	MTEKITIAVTAHRPNKLYGYDYFSPGNLAIATKLREHLLSHLDQGKQVHAISGMALGGDTIYALVVLKLKRQGYNITLESAIPCTAHSSQWPKPSQDQWKSIVEQADVVTYVSKLLYKPYLMQKRNEYMVNQCDELIAIWNGEPKGGTGNCVDYAIKKEKKMVQINPKELIIQHKGDILRSDCDVVMHQANARSTMGSGIAKQIRAEFPVVYEVDRSSPLRPEQKLGTFTFANVQNNGKSIEIVNLYGQLNYGADRKLYTVYEALESALFSYLANRLDREGNLSHLKIGVPKYIGCARAGGDWNVVKGILEKATKHFNVSIHTYEFAA				NA	NA	NA	NA	NA
AK009_03928	390			hypothetical protein	TTGCTAATTAGTAGCAAACAACCATTTAGGCATAAAGAAATAGTTGAATTAGTTAAAGGAATATTAACCCAAGAAGGAACTCCATTCACTATTAAGGATTCAAAAACGAGATATGGTTCAAAATCGGGAAAGAATTGGAACCTTGGCATTATGTACAACAAAGATCATAACCTTACAGTTGGTCATAAGCGTAAGCGAAGAATTAAAACGATGTTATTCCAATTCTATCGAGGACAACGAGATAGAGGATATGCTTTAGAACTTAATGGAGAATTAGCATATCTTAAGAACATCGAACCGGACTATCATGACTACTTAATAGGTTTTATGAATAGCAAATACAGATTCAACTTCAAAAAAGCTATTAACATAGCAATCAAACAAAATTGA	MLISSKQPFRHKEIVELVKGILTQEGTPFTIKDSKTRYGSKSGKNWNLGIMYNKDHNLTVGHKRKRRIKTMLFQFYRGQRDRGYALELNGELAYLKNIEPDYHDYLIGFMNSKYRFNFKKAINIAIKQN				NA	NA	NA	NA	NA
AK009_03930	1263			hypothetical protein	ATGCAAGAAACAAAACCGTTTGGTATTTCAAAGAATGTTGTAATGATGGCATTCGAGCGAGTAAAAGCCAATAAAGGGACATATGGAATGGATGAACAGTCCATCGAAATGTATGAAATGGACTTGAAGAATAATTTGTACAAATTATGGAATCGTATGTCCTCAGGTAGTTATTTTCCAAAACCAGTGAAAGCAGTAGCTATTCCTAAAAAGAATGGAGGAACCAGAACACTAGGTATTCCAACAGTTGAAGACCGAGTGGCACAAATGGTAGCGAAACTCTATTTTGAACCAAATGTGGAGAGATTGTTCTATGAAGATTCTTATGGATACCGACCAAATAAGTCAGCGATTCAAGCAATTGAAGCGACACGGAAAAGGTGTTGGCGGAAGGATTGGGTGTTAGAGTTCGATATTAAAGGATTATTTGATAACATTCGACATGACTATCTAATTGAAATGGTAAAGCGTCATACCAACCAGGAATGGGTTACGCTCTATGTACAAAGATGGTTAATAACACCTTTCCAAATGGAAGATGGAACCTTAATAGAAAGAACGGCCGGCACACCGCAAGGTGGAGTCATCAGTCCAGTTCTTGCGAACTTGTTTCTCCACTACACATTTGATGATTTTATGGTAAAAGAATTTTCAAGTATTCCGTGGGCAAGATACGCAGATGATGGAATAGCACATTGCACTTCATTGAAACAAGCAAAATATCTTCAACGAAGACTGGAAGAAAGATTTAAATTGTTTGGATTAGAGCTAAACTTAGAGAAAACGAAAATTGCCTATTGTAAAGATGATGATAGACAACTGAGCTATCCGAATACCTCTTTTGATTTTCTTGGGTATACGTTTCGACCAAGGCACGCAAAGAACAAACATGGAAAATTCTTCACAAACTTCTCACCAGCTATTGCCGATAAAGCTAAGAAAGCAATTAGAAAAGAAGTGAGAAGTTGGCGACTACAGCTGAAAGCAGATAAAACATTACAGGATATTTCCAATATGTTTAATAAGAAAATCCAGGGATGGATCAACTATTATGGGCATTTCTATAAATCAGAAATGTATAGTGTATTGCGGTATATCAATAGTAGCCTAATAAAATGGGTTCGCCGGAAATATAAGAAGCGAAAACATCGAAGGAAAGCAGAATATTGGTTAGGCACTATTGCACAACGCGAGCGTAAATTATTTGCACATTGGAAATATGGAATACTACCGGCAACGAATAATGGGAGCCGTATGAGCTGA	MQETKPFGISKNVVMMAFERVKANKGTYGMDEQSIEMYEMDLKNNLYKLWNRMSSGSYFPKPVKAVAIPKKNGGTRTLGIPTVEDRVAQMVAKLYFEPNVERLFYEDSYGYRPNKSAIQAIEATRKRCWRKDWVLEFDIKGLFDNIRHDYLIEMVKRHTNQEWVTLYVQRWLITPFQMEDGTLIERTAGTPQGGVISPVLANLFLHYTFDDFMVKEFSSIPWARYADDGIAHCTSLKQAKYLQRRLEERFKLFGLELNLEKTKIAYCKDDDRQLSYPNTSFDFLGYTFRPRHAKNKHGKFFTNFSPAIADKAKKAIRKEVRSWRLQLKADKTLQDISNMFNKKIQGWINYYGHFYKSEMYSVLRYINSSLIKWVRRKYKKRKHRRKAEYWLGTIAQRERKLFAHWKYGILPATNNGSRMS				NA	NA	NA	NA	NA
AK009_03932	699			hypothetical protein	ATGTACTATACACACAACACAAAGAATCAAAATGATTCAAAGTATCAGCGTTTTAGTACTACCAAATTAAAATCCGAAGAAATAACAATTGAGCAGTACCGTGAGTTCGAAGCAATAAATAAACAAATACTCGGACTAACAAAGAAAATAAAAGACTGGTTAACCAATAATCAGTCGGCTATTAAGTATTCGATTTTTAATCTACCTAAAATGACTGGTGGATTTAGAACAATTAAAGCACCAGAAGAAAAACTCAAATCTTTTATGAGAGAAATTAAATTTGATTTAGAAAGCATTGGTATAGTACCACATGATTCAGCTTATGCATACATCCCAAACCGTGACTGTTTAAAAGCAATACAATGTCACCAACGGAATAAATCAAATTGGTTTCTCAAAATGGATTTAGAGAAATTCTTTAACAATTGTTCTGAACAAGTTATTACTATCCAATTAAAAAAGCTGTATCCATTCAGCTTAATGACTGAAACAGATTATAAGAGTTTTATTAGTAGTTTATGTGGTTTAGCTTGTCATGAAAATGAATTACCGCAAGGAACTCCGCTTTCTCCGATACTTACTAATTGGTTGATGATTAGTATAGATACTCAAATCAACAACGCATTGGCAAAAAGAAGTGGGGAATCCTTTATTTACACTAGGTATGCTGATGACTGTGCGCCACGAAAGTGTGCGTGA	MYYTHNTKNQNDSKYQRFSTTKLKSEEITIEQYREFEAINKQILGLTKKIKDWLTNNQSAIKYSIFNLPKMTGGFRTIKAPEEKLKSFMREIKFDLESIGIVPHDSAYAYIPNRDCLKAIQCHQRNKSNWFLKMDLEKFFNNCSEQVITIQLKKLYPFSLMTETDYKSFISSLCGLACHENELPQGTPLSPILTNWLMISIDTQINNALAKRSGESFIYTRYADDCAPRKCA				NA	NA	NA	NA	NA
AK009_03933	1971	ligA_2		DNA ligase	ATGTTTGATTTAAGAGCAAGATATCTTCACTTAGTAGGCGAGCTTACTATGCTTAACCACCACTACTACACAATGGATAAGCCAATTGCATCCGATGCAGAGTACGACAGACTTTATGATGAATTAGTAAAGATAGAAGAACTTCATCCAGAATGGACAGTAGCTCATTCTCCTTCTAATAGAGTTGGTGGGGAAGTTCTTGATAAGTTTGAGAAGAAAGAACATACAATGCCACTTTACTCATTAGAGAAATCTCAAACTTATGATGGAGTTCGAAAGTTTGTGGAAGATGTTAAGCGTGAGTTTCCGAACGCTACATTTACTATAGAACAAAAGATGGATGGATTAGCTAACGTTTTACGTTATAGCGGTGGTTCTTTTAGTGAAGGTAGAACAAGAGGTACTGGTAAAATAGGAGAAATTGTTTCTGAACAAATTAAAACAATCCGTTCTATTCCATTGAATATTCGATTCCAGGGAGTAATTGAGCCACGCGGAGAAGTGTTTATGCCTATTTCAGGATTCGAAGCTTATAATGCTTCCTTACCAGAAGGGGAAGCACCATTAAAGAATCCAAGGAATGGAGCTGCTGGTGCTTTAAGAAACTTAGATCCACGAATTGCAGCTTCAAGACCATTAGATGCATTTTGGTATGACATTGCTTATAGCGAAGGGATCACGTTTGAAACTCAAGCAGAAATGATGACATTCCTTCAAGAACAAGGATTTAAAATCAATCCGTACTTCTATGTAACAGACTCTATTGATGTAATTATTGAGAAGCTAGAAGAAATGAAAGAAGTTCGCCCTACACTAAACTGGGATATCGATGGAATGGTTATTAAGGTTAACGAGTTACATATTCGTGAGGAACTAGGTTATACGTCAAAATTCCCTAAATGGGCTATTGCATACAAGTTTGAAGCGGTTGAAGAAACAACTACTTTAAACTCTGTTACATGGGAAGTAGGTCGCACTGGTAAACTTACACCACTTGCTCATCTTGAGCCTGTTGATATTGGTGGAACTACTGTAACAAAGGCTACTTTAAATAACTATGATGACATCTTACGTAAAGGCGTTAAGGTTGGAGCAGAAGTATTTGTTCGTCGTAGTAATGATGTTATTCCTGAAATCATGGGAATCGTTGAAGGTAGTGAAGGTACTGAAATTGTGCCACCTACTCACTGTCCAGAATGTGAAACTGTATTAGTTCAAGACGGTGCTCATCTACGTTGTATGAATATTGATAGCTGTAGTGCTCAATCGGTTGGTAAATTCACTCACTTTGCTTCTCGTGAAGCGATGAATATCGACTCTTTCAGTGAGAAAACTGCAGAACAATTATTTGAAGCAGGTTTAATTCGCAATAGCTTCGTTGATCTATACCGATTAGACAGAAACGAGTTATTGAAATTAGATAGATTTGGAGAAAGAAAAGCAGACCGACTATTGGCTGCTATTGAAGAATCTAAATCAAGAACACTTGAAGCGTTCATCTATGCATTAGGTATGAGACATTCAGGAAAAGGAACTGCAGAGCGACTTCTACGTTATTACAACAATATTGACGATATTGCTAATGCATCTGTAGAAGACTTAATGAGAATTGAAGATATTGGTTCGGCTGTAGCACAAAGTATTTTTGACTACTTCCATAACGAGCGTAATCTTCAAATGATTGAGGAGTTAAAAGCCCTTGGTTTAACACTTACACATGTAGCTGCAGTGTCTTCTGGTAATCAATTAGAAGGTAATACATTTGTTATTACAGGTAAGGTATCGCGTCCTCGTAAAGAAATTGAAGCGTTTATTAAAGAACATGGTGGTAAAGCGTCGGGTTCAATTTCTAAGAATACGAATTATCTTGTTGCAGGTGAAGCTGCAGGAAGTAAATTAGCAAAAGCACAAAGTTTAGGTGTAACTGTTATCACTGAAGAGCAGTTATATAAAATGGTTAACGAAGGTTAA	MFDLRARYLHLVGELTMLNHHYYTMDKPIASDAEYDRLYDELVKIEELHPEWTVAHSPSNRVGGEVLDKFEKKEHTMPLYSLEKSQTYDGVRKFVEDVKREFPNATFTIEQKMDGLANVLRYSGGSFSEGRTRGTGKIGEIVSEQIKTIRSIPLNIRFQGVIEPRGEVFMPISGFEAYNASLPEGEAPLKNPRNGAAGALRNLDPRIAASRPLDAFWYDIAYSEGITFETQAEMMTFLQEQGFKINPYFYVTDSIDVIIEKLEEMKEVRPTLNWDIDGMVIKVNELHIREELGYTSKFPKWAIAYKFEAVEETTTLNSVTWEVGRTGKLTPLAHLEPVDIGGTTVTKATLNNYDDILRKGVKVGAEVFVRRSNDVIPEIMGIVEGSEGTEIVPPTHCPECETVLVQDGAHLRCMNIDSCSAQSVGKFTHFASREAMNIDSFSEKTAEQLFEAGLIRNSFVDLYRLDRNELLKLDRFGERKADRLLAAIEESKSRTLEAFIYALGMRHSGKGTAERLLRYYNNIDDIANASVEDLMRIEDIGSAVAQSIFDYFHNERNLQMIEELKALGLTLTHVAAVSSGNQLEGNTFVITGKVSRPRKEIEAFIKEHGGKASGSISKNTNYLVAGEAAGSKLAKAQSLGVTVITEEQLYKMVNEG				NA	NA	NA	NA	NA
AK009_03934	240			hypothetical protein	ATGAAAAAATCAATTGGTATTGTATTACTTGGAGTTATGCTACTAGGAGCATGTGAAAGTTCAGCAGGTGCTTCATTAGGTAGGTTGAAAGTAATAGGAGAAGATAAAATAGCAAGTGATATCACTATTTTTGAAGATACAGCGACAGGCTGCCAATTTATGAATACAAACCAAGGGTACGCTGCTTCTATTACACCTATCTTAACACCAGAGGGTAAACCTTATTGCCCGAAAAAGTAA	MKKSIGIVLLGVMLLGACESSAGASLGRLKVIGEDKIASDITIFEDTATGCQFMNTNQGYAASITPILTPEGKPYCPKK				NA	NA	NA	NA	NA
AK009_03935	468			hypothetical protein	ATGACAAAGGTAGAGAATAAAAAGTATTTCGCAAAGGAAGTAACTAGTCTACTTAATATATCTAACAGAACATTATGTAGATATTCTGCTCTTTTAGAAAAGTATGGATATGATTTTGGTAGAAATAAATACTTGCATCGCATCTACTTTATTCAAGACATCGCGGTTTTAAGAGAAATACATAATGCTAGATGTTTAGAGAAAACAATAGAAGAAACAGTTGCTGAAGTAATTAAAGGTAAAGTCGTAGCAAATACACAAGAAGCTAAAACTGTTCAGTTAGTTTTACCGTTATTAAATTCAGCAGGAGAACCTGTTAAGAAGTCAACAAACAAACAAGATAATGTCAACACAGATAAAGATGATTTCTTACGAATTAAAATTGGTGAAGCTTCTATTGAAGTAAAACCAGGTTTTGATCCGGCATTTGTTAGTGACGTAGTAAAAGCACTTTCTGTAAATATCTAA	MTKVENKKYFAKEVTSLLNISNRTLCRYSALLEKYGYDFGRNKYLHRIYFIQDIAVLREIHNARCLEKTIEETVAEVIKGKVVANTQEAKTVQLVLPLLNSAGEPVKKSTNKQDNVNTDKDDFLRIKIGEASIEVKPGFDPAFVSDVVKALSVNI				NA	NA	NA	NA	NA
AK009_03936	1863	dnaE_2	COG0587	DNA polymerase III subunit alpha	ATGCCTATCTCTGAAGCTTTAGAAGAGATTAAAGAAGTAAAGGCTTATGCGAAAAGGTATCCAAGACTATTCGAATTAGCTTTAGAAGTAGAAAGTATGCCACGTACTCAAGGTATTCACGCTTGTGGAATGCTAATAACTGCTGAACCAATTACAAATGAAGTAGCGCTTGTAAGAGGAAAAGGCGGAGAAAGTATAGCGGGATATGATGGTCCTACTTTAGAAGCTAAAGGATATATTAAGTTTGACTTCTTAGGACTTAAAAACTTATCAGTAGTTGAACTTTGCCGAAGAATGGTTGAGGATCGATACGGGTATCTAATTGATGTAGATAATCTGATACCAGAAGATCAAAAAACATTCGATATGATTCAAAGAGGAGAAACGGATGGAGTATTCCAGATCGAATCTGACGGAATGAAGAAAATGTTTATGGGTCTAAACAAGGTAGATTTTGAAACATTAATTGCAGGTGTATCATTATACCGCCCAGGCCCAATGGATTATATTCCGAAATACACTGCATTGGCGAATGGTCATGAAGAAGTACCTCAAGTACATCCTGCTTTTGATGAAATCACACGCAATACGTTCTCTATTATGATTTACCAAGAGCAAGTAATGCAGGTTTCTACTGAAATGGCTGGATATTCAAAAGGGGAAGCGGACGTTCTTCGTAAAGCGGTCGGCAAAAAAAAGATAGAAATCTTAGAGCCAGCATTAGAAGAACTTCATAATCGACTAACGCAAAATAACGTACCGACTCAGGTAGCTACAAAGATTTGTGATGATATACGTCCATTCGCTGGTTATGCATTTAACCGATCTCATGCTGCATGTTACGCATATATCGCTTATCAAACTGCTTACCTTAAAGCTAATTACCCTCTAGAATACATGACTGCATTACTTCAAGTATTCTATACAGAGGAAGATAAGGTTGTTAAATTAGTAAAAGTAATTCGAGATATGGGAATTGAAGTATTACCTCCGGATATTAACCGTTCAGAAATTGGATTTACGATTGAAGGAGAGAATGCAATTCGATTTGGATTAGGTGCTATCAAAGGTCTTGGAGAAGCAACACTAGAAGCAATTATTGAAGAAAGAAAACCACGAATGGCTCCTGCTGTTCGTGATGAAGATGGATTAGAAACTGTAATTTCAAAAGAGGAAGCAGATGAAATCGCAGCTACTCCTGATTTAGGGATTGTAGTAGGTTCTGTTGCTGTTGGTGGACCATTTACATCAGCACAAGATGTAATAAAACGTATCCCTAAGAAGAACTTCAATAAGAAAGCTATCACATCATTATGTTATTCAGGTGCGTTTGATGCATTAGCTGAAGGGCTATGTAATAACCGCTTTGAGTATTTAGCCCATATGTTTGATATTCGCGGTGAAGCACCAGATTCAGAACTAATTGAACAAATTACAAAATATACAGACCGTATTAAGTTCGAAAAAGAACGTGAAGTACTTGGTCTATATATTAGCGGACACGTTCTCGATCGACTAGCTGAACCTACAGATTGGGAAGGGCTAGATGATGCTACTCATACTACAATGGTAGCTCTTACAGAAGCACGCGTTATACGCACAAAAAAGGGAGACAACATGGCTTTCTTACGAGTTGATACATTAGAGGGTGAACGTAGTTTAACACTGTTCCCATCCCATTATGAGCAGGTAAAAGAAGGCTTAGTCGCAGGAATGATAATGAAGGTTGGTATAAAGGGTCAGATGAACTGGCAACGAAACCAAAAAGACTTCATTATCAATTCAATTACGATTCCGAAGAAGATTAACAAAGATATTTGGAAGCGAATTGAGAAAGATAATGTCCAAGTAGGAGCGGCGTAA	MPISEALEEIKEVKAYAKRYPRLFELALEVESMPRTQGIHACGMLITAEPITNEVALVRGKGGESIAGYDGPTLEAKGYIKFDFLGLKNLSVVELCRRMVEDRYGYLIDVDNLIPEDQKTFDMIQRGETDGVFQIESDGMKKMFMGLNKVDFETLIAGVSLYRPGPMDYIPKYTALANGHEEVPQVHPAFDEITRNTFSIMIYQEQVMQVSTEMAGYSKGEADVLRKAVGKKKIEILEPALEELHNRLTQNNVPTQVATKICDDIRPFAGYAFNRSHAACYAYIAYQTAYLKANYPLEYMTALLQVFYTEEDKVVKLVKVIRDMGIEVLPPDINRSEIGFTIEGENAIRFGLGAIKGLGEATLEAIIEERKPRMAPAVRDEDGLETVISKEEADEIAATPDLGIVVGSVAVGGPFTSAQDVIKRIPKKNFNKKAITSLCYSGAFDALAEGLCNNRFEYLAHMFDIRGEAPDSELIEQITKYTDRIKFEKEREVLGLYISGHVLDRLAEPTDWEGLDDATHTTMVALTEARVIRTKKGDNMAFLRVDTLEGERSLTLFPSHYEQVKEGLVAGMIMKVGIKGQMNWQRNQKDFIINSITIPKKINKDIWKRIEKDNVQVGAA				NA	NA	NA	NA	NA
AK009_03937	768			hypothetical protein	ATGCCAACTATGAAAACATTAACTTGTGAAAACTGCGGAAATGAATTTGAAGTCTTAGCTAAAAGAAAAACAGCTCGTTTTTGTACTAAAGGGTGTTCAATATCTTTTAGACAAAAAATACATGATCCTGATTTTATGAGTATCAATGATGAACTTCATTTTTATTTGTTAGGGTTGATTCTTACAGACGGTTGCATATCTAAACAAGAAAATAAAGAGGAGAGAATGACGCTTCGATTATCGGATAAACAAATTGTTGAAGAATTGCACCCTTTGATGTCACCAGACAGAAAACTGTATGCAAACAAACCGTATAAGGAAGAGCACAATGTTTCTTATGCCATTGTTAGTACGAATAAAGAAGCAATTGCAACTCTAAAAGGTTATGGAATAGAGCATGGAAAGACTTATTCAGTTGAATACCCAAAGATAGCAAAAGAACATACACATCATTTTATTAGAGGATTATTTGATGGTGATGGAAGTATCTTCACAAATGTTGTAAAGCAGAAGAAAGCTGATGGTTCTATTCTACATAGACCATACAAGCACATTTCGTTTACAACCGCTTCTATTAATTTTGCAGAAGGATTGAAGTCAGAACTAGAATCTTTTGGATACCATCCAAAGATTACAGAAGACGTTCGCGGCGGTAAATTCTATGTGAAACTTTATAGACAGAAAGAAATACAGTCTTTTGGTGAATGGATATATGCAGATTCACACTACTACTTAAATAGAAAGAAACAATCTTTTGTAATGATATAG	MPTMKTLTCENCGNEFEVLAKRKTARFCTKGCSISFRQKIHDPDFMSINDELHFYLLGLILTDGCISKQENKEERMTLRLSDKQIVEELHPLMSPDRKLYANKPYKEEHNVSYAIVSTNKEAIATLKGYGIEHGKTYSVEYPKIAKEHTHHFIRGLFDGDGSIFTNVVKQKKADGSILHRPYKHISFTTASINFAEGLKSELESFGYHPKITEDVRGGKFYVKLYRQKEIQSFGEWIYADSHYYLNRKKQSFVMI				NA	NA	NA	NA	NA
AK009_03938	1542	dnaE2		Error-prone DNA polymerase	ATGACGATGACACTAACAAATAACAAAATAGTACCTTTCGCGCATTTACATTTACATACACCAGAAGGTAGTTTGTTAGATGGATTCTGTCGTATTGATCCAATGATAAAATTAGCTCAAGAATTCGGTATGGATTCAATTGGTGTAAGTGATCATGGTACATGTTTCGCTCATATTCAGTTCTATAAAAAATGTAAGGCAGCTGGTATTCATCCCGTTTTAGGAATGGAAGGATACATCGCCCCTAGAAAACAGTGGAAAAAAGCAGATTTTGATAGAATCAACTACACTGATGTTGCGTATCGTACAAAAGAAGAACTAGCGAAATTAGAAAGTGAAGGATATATAGCTTTTGAAAAGAAGCAAAGAGATTCTTTCACTAAAGGTAAAACTACAAAACCTGAACACGTTGAGTTCTTGGCGAAGTTAAATGAAAAGGATCCAGCAGCGTTTGATGCATTAAAAAAATCTACTCGTTGGTATTTATCAGGAAAGCAAGATGACAAACAAAAGCGTTTATTTGAATGGTCTCCTAGAATAGCTCACTTGCTTATGATTGCTAAAAACAATGAAGGTTATAAAAACCTAATCAAATTAACAACGATTGGTTCTGTAGAAGGATTCTACGGGAAACCTCGATTCGATTATGGTGACATTAAGAAGTATGGTAAGGGAATTATCGCAACTTCATCTTGTCTTGGTGGAACAATTCCACAATTAATTCGTAGAGGTAAATTCCGTGTTGCAAAGAATCATATTAAGTTCTACAAAAAATGTTTTGATGAATTCTATCTTGAAATTCAGCCTAGCACAATGCAGGAACAAATCCTTGTAAATAATATTTTAATAGAGTGGTCGAAAGAATTAGACGTTCCTCTAGTAGCAACTTCAGATGCACATATGTTACGTCCTGAAGATCGTCCAGTTCATAAAGCAATTACTTCTATTAATAAAGGCAAAGATGAAGATGAATCCGATATTGATGTCTATGAGCATTGTGTATTCTATTCTGCCGAAGAAATGTTGGCGATGGGAATGCCTGAAGAAGCATTGATTAATGCTTATAACATAGCTCATTCTTGTCATGTTGATTTAGATGAATCAAGCATTAAGTATCCAGAGTTTGAAGTACCAGATGACTTCGATTTCGATAGTTATTTAGCTCATATTTCAAATAAGGGCTTAATGGAGAAAATTGCAGAGGGTAACTTTGTAGGGAAAAACTTCTACAAAATGTATAGAAAATATAAACGAAGACTTGATTATGAGCTAGAAGTAATTAAAAACAAAAACATCAGTGCTTATATGTTAATAGTTTGGGATTATATTAACTTTGCAAAACGTAATGATATTTTAGTAGGTCCTGGTCGGGGTTCAGCTGCAGGTTCACTTGTAGCATACGTAACAGGTATTACTAACTTAGACCCGATTCGTTACAATCTGTTATTTGAACGTAAACTGATTGCGTTCGTTAAATTGGGTGAATTCAGGGGAAGCCTACGTGCTATGAAGCATATGGTAATCCTGAGCCGAGCTGCATAG	MTMTLTNNKIVPFAHLHLHTPEGSLLDGFCRIDPMIKLAQEFGMDSIGVSDHGTCFAHIQFYKKCKAAGIHPVLGMEGYIAPRKQWKKADFDRINYTDVAYRTKEELAKLESEGYIAFEKKQRDSFTKGKTTKPEHVEFLAKLNEKDPAAFDALKKSTRWYLSGKQDDKQKRLFEWSPRIAHLLMIAKNNEGYKNLIKLTTIGSVEGFYGKPRFDYGDIKKYGKGIIATSSCLGGTIPQLIRRGKFRVAKNHIKFYKKCFDEFYLEIQPSTMQEQILVNNILIEWSKELDVPLVATSDAHMLRPEDRPVHKAITSINKGKDEDESDIDVYEHCVFYSAEEMLAMGMPEEALINAYNIAHSCHVDLDESSIKYPEFEVPDDFDFDSYLAHISNKGLMEKIAEGNFVGKNFYKMYRKYKRRLDYELEVIKNKNISAYMLIVWDYINFAKRNDILVGPGRGSAAGSLVAYVTGITNLDPIRYNLLFERKLIAFVKLGEFRGSLRAMKHMVILSRAA				NA	NA	NA	NA	NA
AK009_03939	645			hypothetical protein	ATGGATGGTAAGATTCTTATCCAGACCCTTTTGTATGGGATTAATCAATTAGCAACAAAACAAGTAACACAAATAGACGCAGGTAAAGACATTCTTATTTCTTCTATGAAGATTTTAGATATTGGTAAGGAAATGGTTATACCTAAACTTTTTCAAAAGGAAGCTTCAGCTACCTACAATATAAACAACAATAGAGTAGTTAGCGATATGTCTTTGTTATCTGAAGTACTGACAGCTTTTCTAAGAAAGAAGAAAGAGTTAATCGGGTCATCTAGAATAGATAGCTCCGAATCATTTAAATATCGTCGTAACACAGGAACTACTTTACCTTTGCAGTTCCATGACTTTTTTATAGTAGAACAAGCGTATATGTATTCGTTGGCGTATCTTGACTCTTCAGATGATTATGCCTATGAATATGATGGGCTTATAGAGCTAGGCGCATTAGTTGCAATCTATCTATTTGAAAATATGACAAGACAAAATGAGTACTACCTTCATGACTCTTGGGGTAATATGGATGAAAATCCAGGCGGTCTCTATAAATTTAAAAGCAATACAAACGTCAAGGATTATATTGAAAGTATAATCGAAGATATTGAGGGTATTGATGAGCATGAAGAAGACGAGGACGAAGAAGAATGA	MDGKILIQTLLYGINQLATKQVTQIDAGKDILISSMKILDIGKEMVIPKLFQKEASATYNINNNRVVSDMSLLSEVLTAFLRKKKELIGSSRIDSSESFKYRRNTGTTLPLQFHDFFIVEQAYMYSLAYLDSSDDYAYEYDGLIELGALVAIYLFENMTRQNEYYLHDSWGNMDENPGGLYKFKSNTNVKDYIESIIEDIEGIDEHEEDEDEEE				NA	NA	NA	NA	NA
AK009_03940	795			hypothetical protein	ATGAAAACATTAACTTTAACTAAAGAATATATCGAATCGGTAGCAAAATCTTTAATCCATGCAACTCCACAAGAAGTATTGGACTTCAAAGCATTAATGGAAATCCATCCACAAGGCGAAGAACTTGTTGCAGCACTTAACGAAGTAGGTCCTCGTCTTATTGTTGAGGCATTACTTGAAGCATTATTTGCTGATGTAGAAGAAGCTGTTTGTGAAGAAGCGAAACAAGAGCCTACACCTAATGCATCATCAGTTTCTCAATTCACTGCTCAAGAACTTTCTAACTTTATTAGTCAACAAGCTCCAAAAGCAAAAATCGAACCAGTATTTATTCCTTATATCAAACCAGAACCACAAGTTGATATTTCTGCTTCTATTAAAGAACAAGTTGCTTACAAAAATCTGGTAGAGGGTATTAAAGCTCAAGCTGAATCTAAGCCAGCGTTTGACCTTTCTGCTTCTATTAAAGGACAAGTAGTAGAGCAACAAGCTGCTAAAACAAACGAAGAAAAAATCAAAGGTATTCTTAATGAAATCGTTGAGGAAATCATCAATGAGGATGCTGCTAGTGAAATAATTAGCTTAGATCCTAACACAATTAAATTATACGAAGTTGCATTCTCTACTGTTTTCTTTACAAAAGCAAATGTATTAGGTTTCGCAGAGCCTGTAGAATATGCTCACGAATACACAGCATATATCTTATCTTCACTTGCTTCTTACTTAGTTGAAGAAGAAGGATTTGAACTTGCATTCAATGTAGTAGAAGGAAAAGTGGTAGCGGGTTTGGTTTAA	MKTLTLTKEYIESVAKSLIHATPQEVLDFKALMEIHPQGEELVAALNEVGPRLIVEALLEALFADVEEAVCEEAKQEPTPNASSVSQFTAQELSNFISQQAPKAKIEPVFIPYIKPEPQVDISASIKEQVAYKNLVEGIKAQAESKPAFDLSASIKGQVVEQQAAKTNEEKIKGILNEIVEEIINEDAASEIISLDPNTIKLYEVAFSTVFFTKANVLGFAEPVEYAHEYTAYILSSLASYLVEEEGFELAFNVVEGKVVAGLV				NA	NA	NA	NA	NA
AK009_03941	249			hypothetical protein	TTGACAACTGAAGAATTAGAACCGGTAGAAGGTATTATTCCGGATGTAGTACCTGATGTAGTTATACCTGATGTATCTGATTTCCTTATTGGAGGAAGTAAGTACATCTTAGATCCTAGTACATTAAAAACACAAGAAGACGTCCTAAACGTTATTAAGCATTTCTCAACTAGAGTAGAGCTTCATGTGTTTGACATTGTAGGTATCGAACACTATGTAAAACCAGTAACAAATAATCAAACACACTAA	MTTEELEPVEGIIPDVVPDVVIPDVSDFLIGGSKYILDPSTLKTQEDVLNVIKHFSTRVELHVFDIVGIEHYVKPVTNNQTH				NA	NA	NA	NA	NA
AK009_03942	420			hypothetical protein	ATGCAACTAACAAAAGAAGAAGCAGCCAAGTTAATGAAACAGATTCAACCACATATTAGTGGATTCTCCTACAGTCTTCAGGCAAATGGTGAAGATGGACAGGATATAGTTTGTGGTGGAAGAATCAAACTTGTTTTTGACATGTATAAATACAATGACCAAACAGAAGGAGATCTTTCCTATGTAACAATTGAAGATGGTCTTGGTGAATTACTAATTCTAGTACCTGGTGTTTTATGGAGGAATCTCGGCGCCAAGAAAGGTGACATTGTTATTGCAAGTGGAAAATTGTTTGCTCTAAAAAGAGAATGTAAATTTAAATCAAAAGCAGGTACAGATATTATTGTACCGCATGGATATGAACCTCTGCGTGTGTTAGTTAGAGAGATTAATATACTACCGGAAGAAGGCGCTGAATAG	MQLTKEEAAKLMKQIQPHISGFSYSLQANGEDGQDIVCGGRIKLVFDMYKYNDQTEGDLSYVTIEDGLGELLILVPGVLWRNLGAKKGDIVIASGKLFALKRECKFKSKAGTDIIVPHGYEPLRVLVREINILPEEGAE				NA	NA	NA	NA	NA
AK009_03943	687			hypothetical protein	ATGAATTTATTGCTTAATTCAAATCAGCAGATGGCTCAGGATTTTAGCCATCTGTTTTTTTCTTTTGAAGAACATATGGAACGCGGGGAGCAAGACAAAGCAAAAGAAATTTCTAAAAAGCAAGATATGCTATTGAAAGAACTTAAGGAAAATGGCTATGATGTAGGCGCTTTGTTAGAAGAGTTAAAAACAAGAAAATCATTTAGAAAAAGCTATGAAACTATTATTGTTTTTACTGATGGTGGTGTAAGAAACAATCATGATGTTAGTCAAGAATCTATCGCTGCAAGTGCTTTTGCAATTTACGGTGATCAGAAGATGTTAACACACGAGTCTTCTTTTATTGGTAACTCAATTCAATTACCTTCTGGTGAAAAGATTGATATTAATTCTACATTTGCTGAGTATCATGGATTACTTCAAGCGTTACTATTTGTAGAGAAGTATAGAGCTTCAGCTAAAAGAATAATATTTCTTACTGATTGTGCATCAATGGTGCAACACATTCAACAAAAACTACCACAACAAAGAGTATTTAAAGAATATGTTTTAGATTTAATTAGTAAATTAGATAGTATCCCTAATGTAGAGTTAAAGCACATACCAAGAGAGCATAATAAGATCACAGACGGGCTTGTTAACCAACTCTTAGATAAATATGAAAGGGGCGAATATACATGCAACTAA	MNLLLNSNQQMAQDFSHLFFSFEEHMERGEQDKAKEISKKQDMLLKELKENGYDVGALLEELKTRKSFRKSYETIIVFTDGGVRNNHDVSQESIAASAFAIYGDQKMLTHESSFIGNSIQLPSGEKIDINSTFAEYHGLLQALLFVEKYRASAKRIIFLTDCASMVQHIQQKLPQQRVFKEYVLDLISKLDSIPNVELKHIPREHNKITDGLVNQLLDKYERGEYTCN				NA	NA	NA	NA	NA
AK009_03944	876			hypothetical protein	ATGGCATTTCAATTAAATTTAGAACCAACTTTTACGTTAAATACTAGCTATCAAATGGCAAAAGTTTTTGTTGTTGTTGGCGCTGGTGGTACAGGTGGTTATTTTATTCCAAACTTAGCACGACAAATTTCTATTACTAATAAACTACGTCGCATTGAGCGATTACCTGAACACAAACTGCTTATTATAGACCAAGATGAAGTTAGCTTATCTAATCTTAATCGTCAAAACTTTGTTGAAAAAGATCTTGATAGTAACAAAGCAGAAGTTTTAGCTACTAGATATGGAGTTGCTTTCCAGACAAATATTCGATTCCTGGACCAATACATTACATCTACTAAGATGTTAGAAGACATCGTAATTGCTAGTTGTACTGACATTAACACTCAAATTCCAGTTATTGTTGATTGCGTGGATAATAACAAAACTCGTGTCTTCATTCATGAAGCAGTTCAAAACTTAAAGAAAAAAGTTCGTGGTATATATTCTTTAAGTAGTGGTAATGAATTCTTAAACGGTCAGGTTGTTTGTGGTTTTGTTCCTGGAAAAGGAAGTAGTTCATCTTCACTGTATAACAGTTCTTGGTTCCGCACACCAACAGTTACAGAAATGTTTCCTGAAATTCTTGAAGGTGGAGATAAGCTTCCAACTGAATTAAGTTGTGATGAAGCAGCTGTATCAAATCCACAAAATATCATGACAAACATCAATGCTGCTACTGAACTATTTAAGTTTGCCAATATCTTATTAACAGCTAATACAGAAAACGAAGAGCTTCCCGGCTTAAAATACTTTGCAGTTACTTTTGATACACAGCAAGGTACTACTCGCACGTTCCTAAATAAGAAGAGTGTAATCGATGAATTTATTGCTTAA	MAFQLNLEPTFTLNTSYQMAKVFVVVGAGGTGGYFIPNLARQISITNKLRRIERLPEHKLLIIDQDEVSLSNLNRQNFVEKDLDSNKAEVLATRYGVAFQTNIRFLDQYITSTKMLEDIVIASCTDINTQIPVIVDCVDNNKTRVFIHEAVQNLKKKVRGIYSLSSGNEFLNGQVVCGFVPGKGSSSSSLYNSSWFRTPTVTEMFPEILEGGDKLPTELSCDEAAVSNPQNIMTNINAATELFKFANILLTANTENEELPGLKYFAVTFDTQQGTTRTFLNKKSVIDEFIA				NA	NA	NA	NA	NA
AK009_03945	1191			hypothetical protein	ATGACACTTAATCTTACAAATCTACTAGCGAGTCAAGTAACAGGGTATCTTGCTTACAATGACCATTACAACACAGACACCTTGAAAAAGATTAATTACGTAACTGCGGCAAACGGATTATTCCGTGTTGAAAAAACACCAATTGCTATTTTTAAGGTAAAGGTTCAGGAATATAAGAAACCAATTCCAGGTTTAAAAACTATGGAGGAAGGTCCAGAACTTATTGCTCCAAAGATTCCATTTAAGTTTTTACAGATGGCACTTAGCTTCTATTTAGATGTTTATGAAAAAGATAAAACAGAAGCATCTTTATTATTCTTCTGGAACAAAGACAATAAACGTTTACCGGAAGTCTATTCTGATAACTCACCAGTTAAGGGCTTAATATCAGAAGGAGAACTAGTTGTATATGTACCACGCCAAGAAAACCAAGGTGGTCTTTCTGAGTTTCATAAAGATCCTGTAGTGGATTGGTTAAGAACTAATCTTTGCATTCTTTGTGAAACACACAGTCATCATGTTATGAATGCTTATTTCAGTGGAACTGATGATGCAAATGAAAATGCTACTCAGTTTTATGGTGTTTGGGGACATATTACAAGTCAGCAACCAAAATTTGCGTTCCGTTATGTAAGTGGAGAAGCAAAAATTGAAATTAGTCCTGATGTATTATTTGAATGGCCAATGGTAACGACGACAACGACAGAAGTTATTACTTTTGAAGATGAAACTTTAGAACCATTAACTTCTATCAATCAAGAACATCATATGTTTAAAGGACCATTCAAGAAACTTGAGTATCCTACTGAATGGATGGAGCAGCATACTGCAAAAAGAGTTGTACCAGCATTACCAACAATAGGCGGACGAGGAACCTTTCCCCACAATAGAAGTTATGTCTCCCGTTTCGATGGACGGCTTGACCAAATCGGATGGGATTTTGAACACGATCCGAATGCATTTAACCCAGCTTTTGAAGAGGATCTTTCTTCGAGATTAATGTCAGGTCATACAATTACAGGTTCAAGTTTCGAAAACGCTGAAGTAATTCAATTCATGAATTTACCTGATGAGAAAAACAAGTTAGATATTCGAGACAATATTTATGATTTGTGTTCAGAATATGAACGACATGGTTATTCACAAGTAATTGAATCTACCATTAATGGTATGAAACAAAATGCAATTTAA	MTLNLTNLLASQVTGYLAYNDHYNTDTLKKINYVTAANGLFRVEKTPIAIFKVKVQEYKKPIPGLKTMEEGPELIAPKIPFKFLQMALSFYLDVYEKDKTEASLLFFWNKDNKRLPEVYSDNSPVKGLISEGELVVYVPRQENQGGLSEFHKDPVVDWLRTNLCILCETHSHHVMNAYFSGTDDANENATQFYGVWGHITSQQPKFAFRYVSGEAKIEISPDVLFEWPMVTTTTTEVITFEDETLEPLTSINQEHHMFKGPFKKLEYPTEWMEQHTAKRVVPALPTIGGRGTFPHNRSYVSRFDGRLDQIGWDFEHDPNAFNPAFEEDLSSRLMSGHTITGSSFENAEVIQFMNLPDEKNKLDIRDNIYDLCSEYERHGYSQVIESTINGMKQNAI				NA	NA	NA	NA	NA
AK009_03946	762			hypothetical protein	ATGGTTACATCAAAAACTACGATTGTCTTAGAACCAGAAAAAGTAACTGTAGAAACAGTTAATAAAGATGGTATTAAAGCAATTAAAAATACAAACATCGAAACAATTCAGCAAATCTTCATGAAAGAACAAGCAATGGAAACACCGTTACTTCCTTCTCAATGGGGAGTTGTTAAGTATTATCGTAAAAATCATTATGAAGGATATGTACTAACGACACCTCCAACAGAGCGTGTAGTTAAATTTGATATCGGACGTAGTAGCGAATTACCTACTGAAGTTACGCTACCAATTCCACCTATGTTGTGGGTTTTTGAAGTAATGACAGATCAAAGTGGTAAAAAGAAACTGACTCATTCAATGACTTACGTTATAAAGCATGAACTCCTATCGTTAAAAGACAAGGTGTTCCACGCACCGTTTTGTAACATTGGTATTAGTCATGGGATTTGTTGGGGCAGGACTTTACCTGAGGTACCTATCCCTAAATCAATTCAAAGCATTCCGGCTCGCTTCTTTTCACAGCCGTTTAATTATGATTTATCAGGAAACCGTGTAAAACCATTTGAATGGACACATCCGAATGGAAATACAGAAGACACAGAATGCGCTGTTTACCACATGATGAATGAAGCGGACAAATTAAAAGCAGCAAAAGAAGCAGGGGAGGCGTACTCTTATCCATTTGACTCGTTAAAACCAGCTGGAACAATGGATGTAGACACTGCAATCAAAACATATTTACCGGGGATATTCCGTTAG	MVTSKTTIVLEPEKVTVETVNKDGIKAIKNTNIETIQQIFMKEQAMETPLLPSQWGVVKYYRKNHYEGYVLTTPPTERVVKFDIGRSSELPTEVTLPIPPMLWVFEVMTDQSGKKKLTHSMTYVIKHELLSLKDKVFHAPFCNIGISHGICWGRTLPEVPIPKSIQSIPARFFSQPFNYDLSGNRVKPFEWTHPNGNTEDTECAVYHMMNEADKLKAAKEAGEAYSYPFDSLKPAGTMDVDTAIKTYLPGIFR				NA	NA	NA	NA	NA
AK009_03947	1581			hypothetical protein	ATGATTATTAATAATGATGTCCAATTTCGAAGAGGAATATTCAATATATTATTCACTTTAAAAACACATGTCAGAGATAATGAGTTTAGTGAGATTATTGAAGAACTTCAGGGAAAACTGGAACAGCTTCCTACTAATGACTTAGAACAATCTAAGCAGTTTTTCTTTGAGGTAACAAATAAAATAATGCAGGGTCTTTCGGATTACTACAACATTTCCCATGAACAAGTTAGTGGCGATGTGGTTCATAATGACGTATTCACTTTAAAAATGGACGAAAACACATCAGAAATGATTGAGACCTTTGCTAAATATAAAAACATGGCTCGTTTTAGAGATTCATTTCTTCAGTCATACAATTATGATTTCTGGAGAAGGTTTCGTGCTAATTACTACAACCCACGAATTAGTGACGTATGTACAGCAGGGGAAGATAAAAGTCTTGTTTTTAGAACCAATGAGATTCCAGCTATAGGACCGTTATTCCTACCAAAAGACAGAAGTGGTAAGCCTGTAGGAGTTACTACGGAATTCCAGTATTTTAGTAGTTTAATAAGTCGAGTGAACTCAGAAAAGAAATATATCGATGATCTTCGTGCAGATTATGAAGTATTAAACAAAGCAGTTAAGGCTTTTGATGAGCGACTTCAAGCATCTCTTCGTGAAGAACATATTCGTTTTGGAATTATTCATCTTAAAGAGATTCTTTCCCAAATTGTTATCCCAGTTGCGTTGATTGAGGATGATGAATTACGTGAACTATGCAAAGAACATAACCGTCAGGTATTTGTTAAAACACCTACACTAGATGAGTTAATGTATATTGGTTCGTCCGTACATATCTATTCGTCGCACGATATAAGCGATGATTCTAGTTATGTAGCTAAGCCAATTATGATTTCTGAAACACTTCCAACTGATACGGAAGAGTTAAAGTATCTAGGTGTTGGTCAATACACGGGTTATGACGATGAATCACCGCGTAGTTTAGAAGGGGCAAACCCATTCATTATCAACAACAACATCTTTGTTAAGGCTTCTTATGAAGACTTCCTTGCACTTATCCCTGAGGAATTAGTGGAAGATATGGGAATCTGTAAGAATCTAGTTGATTCTTTGGAGAACCCAGTGGAAGATATTCAATTAGAAGAAAATGAAACTCTTAAGTCTATTATTGACACTATCAAGGAAGATCAAACATTGGATTATAAGAAAATCATCGACGATTTCATGGCTTCTTCTACATATTTCGAGAATGAAGAAGACAAGGAGACAGGACCAGTGTTTATTCATGCTGCTGAGTATCAATTTGAGAAAAGCAACCTTTCTTTCAATAGAGAACTTCTAAAGAAAACGGGTAGACATCCAAATGGTTATCTTATTCTTAAAGATAACACAGGCAATCATGCGGGCATTCGAATAAATGAAGAGGGAATAAGTGAAATTTATATCAATACTGATATTGATAAGATATTTAAAGCCCTTCAATTGAACGCTGGACTCTACACGATTTATTCTTTCAGACACAGAGACATGTCAAGGCAAAGAGCTATTCTTACAATGCAACATTACACAGGATAA	MIINNDVQFRRGIFNILFTLKTHVRDNEFSEIIEELQGKLEQLPTNDLEQSKQFFFEVTNKIMQGLSDYYNISHEQVSGDVVHNDVFTLKMDENTSEMIETFAKYKNMARFRDSFLQSYNYDFWRRFRANYYNPRISDVCTAGEDKSLVFRTNEIPAIGPLFLPKDRSGKPVGVTTEFQYFSSLISRVNSEKKYIDDLRADYEVLNKAVKAFDERLQASLREEHIRFGIIHLKEILSQIVIPVALIEDDELRELCKEHNRQVFVKTPTLDELMYIGSSVHIYSSHDISDDSSYVAKPIMISETLPTDTEELKYLGVGQYTGYDDESPRSLEGANPFIINNNIFVKASYEDFLALIPEELVEDMGICKNLVDSLENPVEDIQLEENETLKSIIDTIKEDQTLDYKKIIDDFMASSTYFENEEDKETGPVFIHAAEYQFEKSNLSFNRELLKKTGRHPNGYLILKDNTGNHAGIRINEEGISEIYINTDIDKIFKALQLNAGLYTIYSFRHRDMSRQRAILTMQHYTG				NA	NA	NA	NA	NA
AK009_03948	348			hypothetical protein	ATGGAAGAACCAGTTGTTTTAACTGTTCAAGCTGAATCTGTTGTTGAAGCTGAAACCATTTCAGAAGACAAAGTATCTCCCCTACTTCCTTTACCAATGCGAGTTATGGAAAGTTTTGAAGCGGTACAAGAGTCTAACTTCTGGCCATCTGAAGTCACATCAGTAGTTAGTGATTTAATGGCACCATCAACATTCGAAGAGTTCGGAGCAATCTTAAATAACACAACATCAAACTCCATCAATAGCATGGATCAGAGCATACAGGCACATAACAAGAATTATCGTGGATACTTATCCGAACTTGATAAAACGCCAAATGTCTTCTCCTTCGATGTTGATTATATTTAA	MEEPVVLTVQAESVVEAETISEDKVSPLLPLPMRVMESFEAVQESNFWPSEVTSVVSDLMAPSTFEEFGAILNNTTSNSINSMDQSIQAHNKNYRGYLSELDKTPNVFSFDVDYI				NA	NA	NA	NA	NA
AK009_03949	750			hypothetical protein	ATGACAAACATGTTAGATGTAATTTATGCAGATACAAAATTAGAGGTACCAGCTAACACTGATATGAAGGCGTTAGAAGCAGCGATGATTGAGAATTTTCCTGAATTGAAGAATCCAACAATCACGCGAGAAGGCAATACAATCACTTTTACAGCTAAAGCAGGTACAAAAGGAGCAGATAATATGGAAATGTTAGATGTAGTTTACGCAGATACTAAATTGGAGGTTCCAGCCAACACAGACATGAAAGCATTAGAAGCAGCGATGATCGAGAACTTTCCAGAACTAAAAAACCCAACAATCACTCGTGAGGGGAACACAGTAACATTTACAGCAAAAGCCGGAACTAAAGGCTCTGACATGCTAGATGTTATCTACGCAGATACGAAGTTAGAAGTACCAGCGGATACTGATATGAAGGCTTTAGAAGCTGCAATGATCGAGAACTTCCCTGAATTAAAGAACCCTACAGTAACTCGTGAAGGGAACACAATCACATTCACGGCTAAAGCAGGAACTAAAGGCTCTGATATGTTAGAAGTTATCTATGCGGACACTAAACTAGATGTACCAGCAGATACTGACATGAAAGCACTGGAAGCAGCTATGATTGAAAACTTCCCAGAGCTAAAGAATCCAACTATTACTCGTGAAGGAAACGTTGTTACTTTCACTGCAAAAGCAGGTACAAAAGGTAATGTTGTTCCGTTTGTCCGTAAGTTTGCTATTGGTTTAGCTAAAGTAGCTTAG	MTNMLDVIYADTKLEVPANTDMKALEAAMIENFPELKNPTITREGNTITFTAKAGTKGADNMEMLDVVYADTKLEVPANTDMKALEAAMIENFPELKNPTITREGNTVTFTAKAGTKGSDMLDVIYADTKLEVPADTDMKALEAAMIENFPELKNPTVTREGNTITFTAKAGTKGSDMLEVIYADTKLDVPADTDMKALEAAMIENFPELKNPTITREGNVVTFTAKAGTKGNVVPFVRKFAIGLAKVA				NA	NA	NA	NA	NA
AK009_03950	261			hypothetical protein	ATGAGTTACGAACTGATGTTAGTACCAATGGACTATAAAAAACATCTAAAAGGTGAAGGGTCAAAAGCTACTTCTAATTGTATTATGTGCGATTACGAACTTGCTTTAATCGATAAATTCACTAATGTAGCGGGTATGCCACAATCGCATACGGACTATGAAGGTATTTTTAGTATTTGTCCGCAATGTACAACACCACACTTAGAGTTATTAAGCGGAGTGGTAGATTTCAAAGGACCTGTTTTGATTGGGTGGGAATAA	MSYELMLVPMDYKKHLKGEGSKATSNCIMCDYELALIDKFTNVAGMPQSHTDYEGIFSICPQCTTPHLELLSGVVDFKGPVLIGWE				NA	NA	NA	NA	NA
AK009_03951	444			hypothetical protein	GTGCAACAACTTACTAATAAACTCGACTCAACTGAAATCTTTCAAACCATTTCTAAGACTAGTATGGTTGAAGATATAATCAACAACCTTGTTAGTTATCCAACACTACATGCAATAAAGATTCGTAAAGGAGCATTCAGCAACTACGAGCAGTACAAAGTGTTTTTGGAGAATGCACCAAAGTTTAAAAATCGTTTACAGAATTATTTTGCATTGTATTGTCATAAAAATGGATTTGCATCCAAACTTAAAGAAGAATATATCTCCGTTAGAGGTTACTATGTTGAAAATAAAAATTTTCTTGTATCTCTAGAAGGGGAAGAATTGATAACTATCTATGCAGAACTAAAGCCAGTAACAAATAAGGATTCTGTAGCAGGTCTTTATCATTGGGAGGATAAGTTGAATGAGTTACGAACTGATGTTAGTACCAATGGACTATAA	MQQLTNKLDSTEIFQTISKTSMVEDIINNLVSYPTLHAIKIRKGAFSNYEQYKVFLENAPKFKNRLQNYFALYCHKNGFASKLKEEYISVRGYYVENKNFLVSLEGEELITIYAELKPVTNKDSVAGLYHWEDKLNELRTDVSTNGL				NA	NA	NA	NA	NA
AK009_03952	435	spxA_2		Regulatory protein Spx	TTGGAAAACCTTAATATCACTATTTACACAATTAACAGCGCAGAAGGAGAAAAGGTTGCAGAAAAATTGGCAAAGTATGATTTGATAGCAACAATTAAACACATTGTACGAGATCGTTTTACTTTTACTGAGTTCAAAGCTTTGTTAGCGTTAACAGACGATGGGTTAGATGATTTATTAACTCAACGTGGAAGCACAATTGATTTCCTTACAGAACAAGGGATTGAACTTGATGATTTAACATTACGTGAAGCATACAATGTTATTCTTCAGAATCCGAAGTTGCTAAAAACAACCATCTTGACAGATTGGAACAGGATTGCGTATGGTCTAAACGGCGCAAAGATGTTCCTTCCTCGACACGTAAGAAAACAAGAGCAACTAAAGATGTACGCTAAACCAGAAGCACAAGTCGAGTACCAGGAAGCTAGTTGA	MENLNITIYTINSAEGEKVAEKLAKYDLIATIKHIVRDRFTFTEFKALLALTDDGLDDLLTQRGSTIDFLTEQGIELDDLTLREAYNVILQNPKLLKTTILTDWNRIAYGLNGAKMFLPRHVRKQEQLKMYAKPEAQVEYQEAS	PGPT0012940_67	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
AK009_03953	1152			hypothetical protein	ATGTCTAAAAAAAGAATCAACATAAAAGACGTAACAAACGAAGAGTTTTACAAATTACCTAAGGTACTTATCTGGAAGAAACAATACCGCGAGAACTTAAGTAGCGGTGCTAAATTACTATACATGCTAGTAAGAGACCGATTCAATTTATCTATATACACAACACAGATGTCAGTAGCTAATGGAAGTGAAGCTCCTGCTTTTATAGATGAAAAAGGTGACATTTACTGTATTTTAGATAATCAGGAAATCGAATTCTCATTAAACATATCAAACAAAACAGTTACTAAGTTCATGGACGAGCTTATAGCTGAGGAATTAGTATCAACAGAGGCAGTAGATGGTGGCGCTAACAGAATCTACTTGAATGAACCAGATTCTAGTGGAGCGTCGCTAGCGCATTTTCTAGGTGAAAAAGAATACTACAAGCACGTTAAGATGCGTAAGAAAAAGAAGAAAGAACCATTAAAAACACTAGAAGAGTGTATAGCTGCTGCTAAGGATAAGTATGGTGTGAAAAAAGAGGGTAGTAAAAATTCCACCCCTGGGGAGGGAGAAATTCCGGTACCGGGGGTAGGAGAAAATACACCCCCTAGTGACGGAGAAATTCCTCCCCCAGGGGATGAAGATATTCCAGCCCTAGGGGAGGAAAAAGTACACACTAATGATCTTTATTCTAGTTATCCTTATCCTAGTGAGATTTATCCCAACGAGAATGACCCCAACTTAAATAAGTCTTCTAAATCTAAAACAGAGGAAGAACCATTAGAAGACGAACAAGGAGAGACTATCGTTTCTCGACGCAATAATTATGCCTTATTAGATTCTATACTTGAACAAGTTAGAATATGTCCAGATTTAAAAGCACTTAACGTTGTAAAGAAAACACTTGCAGAAGCTGAAATTGCATCATTCCATAAGGTAGATGTACTAAACGCCATAGGTAGACATGCTATGAACGTTAAAAAGTATTTATCTCAAGGTGAAGTAATCGAATATGAACCAGCATTTTTCGCTAATAATCTAGTAGACCGTATTAGAGAAAATGCTATGAAGCGCCAAAATGAATCAGAGAAACAACAAAAGTTAGAAGACCAGAAATCTTTTGAATGCAACGAATCAGCAGTATACAATTGGCGTGAAGCAAAATAA	MSKKRINIKDVTNEEFYKLPKVLIWKKQYRENLSSGAKLLYMLVRDRFNLSIYTTQMSVANGSEAPAFIDEKGDIYCILDNQEIEFSLNISNKTVTKFMDELIAEELVSTEAVDGGANRIYLNEPDSSGASLAHFLGEKEYYKHVKMRKKKKKEPLKTLEECIAAAKDKYGVKKEGSKNSTPGEGEIPVPGVGENTPPSDGEIPPPGDEDIPALGEEKVHTNDLYSSYPYPSEIYPNENDPNLNKSSKSKTEEEPLEDEQGETIVSRRNNYALLDSILEQVRICPDLKALNVVKKTLAEAEIASFHKVDVLNAIGRHAMNVKKYLSQGEVIEYEPAFFANNLVDRIRENAMKRQNESEKQQKLEDQKSFECNESAVYNWREAK				NA	NA	NA	NA	NA
AK009_03954	942			hypothetical protein	ATGACACTAAATTTAATACTTGGAGTAGATGCAGGTCTGAATGCAGTTAAAATTGTTGGACCTAAAGGAGAAGGATCATTCCCTTCAATTACTATCCTTGAGCCACCAAAAATGATGAAATTCGGAAATGCACTAGGGATCCAAAACAGATTTGAATTAGCAGTTAATAATGAAAGATATATTTTAGGAGACCATGCTAAGTTTATTGAAACATTCAATCCACTAGGCGTTGATAGCCATAGTAGCACTGGTTCTAAAAATGATGAAACTGCATTTATTCGCGCATTAGGTGGAATTTGCCTATACTTAGACAAATATGAGAAGTTCGACGATGAAGATATTAACGTTTATTTAGCTTATGGAACACCACTAGTAAGCGCTTCTGAATCTGAAGAACTAGAAGAGATTGAAACTAGATTTAAAAACAATGGTAACCCAATTGAAGTTACATTCAATGACGTTCCTTTAAATATTCGTATTAAAGATATTATCGTATTACCAGAAGGTGCAGCTGCATTCTTCTCAAATGAATTCACATCTCAAAATGTTTATGTTGTTGATGCTGGCTCGCAAACTATCAATCTTGCAGCATTTGTTAATGGTATCCTTGTACCGACAGCAGCAGATACTATACATAATGGTGTAGAATTCTATAAGAATATGTACGCTAACCGAACAGCTGAAATGATTGCAAAGAAAGTTAAAGGTTCAATTGAATCTTTAAAATGGCCAAAAGGTTCAACACTTCATGTTTGTGGTGGATATTCAGAACAATTAGCAGATGCATTTAACGAACTAAAAGACAACAACTATCGAATGGAAATTATGAAACCTGAGCTAGCATTATCAAGAAAGAGTAAGAGTCTAAAACCAATATACGCAAATGCGGCAGGACTTTACTTTATTGCTAAAGAAGCCTTCGCTACTGCGGTAAAAGGGTGA	MTLNLILGVDAGLNAVKIVGPKGEGSFPSITILEPPKMMKFGNALGIQNRFELAVNNERYILGDHAKFIETFNPLGVDSHSSTGSKNDETAFIRALGGICLYLDKYEKFDDEDINVYLAYGTPLVSASESEELEEIETRFKNNGNPIEVTFNDVPLNIRIKDIIVLPEGAAAFFSNEFTSQNVYVVDAGSQTINLAAFVNGILVPTAADTIHNGVEFYKNMYANRTAEMIAKKVKGSIESLKWPKGSTLHVCGGYSEQLADAFNELKDNNYRMEIMKPELALSRKSKSLKPIYANAAGLYFIAKEAFATAVKG				NA	NA	NA	NA	NA
AK009_03955	525			hypothetical protein	TTGGCTAAAAACGAAGGTACTAATAAGCCTAAAAAGAAAAAACCGGATAACCAGCAACATAAAACGGTTTATTTCAATACTCTTAATGTAAATGATGCTAAGTTATATGACTACGCTCAGAGTGTTGGTGTTCGAAATTTTAGTGGATGGATTAAAAGTCTAATGTATCAAGAGATGATTAGACGTAATGGTATGCCACCTAATCCATATGAATATATTTCTGCGACAGTTGAACCTGAAGTAACACAAGTACAAACTATTCCAGTGCCAGTTAAACCTGCGAAAATAGACAAAGCTAAGAATAACGCTGAAGAAGTAAAAGTTTACGTAGGTGGAGAACAGGTAGAAGTACAAGAAGTAAAACGAAGTGTTGAAGAACCTAAAGAAGTAGAAGAGATTGTAGAAGATAATGATGAGGTTATAGATAATACTGAAGAACAAGAAGAAGAGCAAGAAGCTCCTCAAAATAGTGCTCGTTCAGCAGCAGCATCTGCTATGCTAGGTATATATGGTAGACGTAAATAA	MAKNEGTNKPKKKKPDNQQHKTVYFNTLNVNDAKLYDYAQSVGVRNFSGWIKSLMYQEMIRRNGMPPNPYEYISATVEPEVTQVQTIPVPVKPAKIDKAKNNAEEVKVYVGGEQVEVQEVKRSVEEPKEVEEIVEDNDEVIDNTEEQEEEQEAPQNSARSAAASAMLGIYGRRK				NA	NA	NA	NA	NA
AK009_03956	468			hypothetical protein	ATGAAAATGAATACAAAAACAATCGTAGACAAAAAAATGCAGGCTGGAATGAACGAATTAGTACTTGAAATGAACTCTTTAAAAGATGGATTAGACATTACAACGATGACAAAAGACATTTCAAGATATATAGAACAAAAAGTGGTTGGTACAGGTAGAAATTATAAAGTGGATATGTATGCTTTAGCTGAGAATGGAGTTTTAAAATTCGAACAACTAGCTTCTTTTGAAAATGGTTTAAATACTGAACTTATAATGGGTAATAAGGTAGTCACAAACAAAGAATCCAAGTATGTACTTGTTGTCCAATGTAAGATGAAGCTTCATACTATCAACAACTTCTCGAAATTACAGCGACTGGTTTATGAATTGTATGGTTCGAATCCTGAAGTAGCAAAAAAAGGATTGGCAGCAATGTCACCAGAGGAACGATCCGTTATGGATGTAGCTCTTAAATATGAGCGTTGA	MKMNTKTIVDKKMQAGMNELVLEMNSLKDGLDITTMTKDISRYIEQKVVGTGRNYKVDMYALAENGVLKFEQLASFENGLNTELIMGNKVVTNKESKYVLVVQCKMKLHTINNFSKLQRLVYELYGSNPEVAKKGLAAMSPEERSVMDVALKYER				NA	NA	NA	NA	NA
AK009_03957	300	spoVG_1	COG2088	Putative septation protein SpoVG	ATGGAATATGGATTAATTGTTACTGATGTAAAAATGAAAATTAAAGATGGTAATGGCATGAAAGCGATTTGTAATATTGTAGTAAATGGTATGTTAGCTCTAAATGATATTAGGATTGTAGAAAACAGAAGTGGGAAATTAATGGTTGCAATGCCTTCTAAGAAAATGGGAGATGGTAGATTCAAAGATTTAGCTAATCCTGTCAATGCAGAAGCTAGAAGAATAATTGAAGATGCTGTAATTGGTGAATACAACAAACTAACTTCTTTAAGCAATGAGCTGTTTGCACTTATTGGCTAA	MEYGLIVTDVKMKIKDGNGMKAICNIVVNGMLALNDIRIVENRSGKLMVAMPSKKMGDGRFKDLANPVNAEARRIIEDAVIGEYNKLTSLSNELFALIG	PGPT0024830_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412	NA	NA
AK009_03958	726			hypothetical protein	ATGGTAGAACTAAATGAAAAAGAGCAATTAGAAGAATTAAAGGAAAAGATCGGTGATATCAAAGCCGATATCGCTAACTATATTGAAGATAAGTTCGATGACATCTTTGCATTAATCAATGGACGCATTGAAGAACTATGCGATACAGAGCATGATGATGATTTCTCTGATGAAGAAGATCATGAAGAATATGAGGAGCGCGACGTTCGTGATGAACTAACTCATGAACAAGAAGAACAAGCTGCAGTTTTATCACAAAACATTGCTTCTCAAATTCAGCAAACTAATCAAAATCAAGAAAACAGTGATGAAGACGCACCAGTAGTAGTAATCAGCTCCCCTGCTCCATCTTTAGCTGAAAATATTAAGAAACAAATCGATGAAGTAAAAACAGTTGCAACAGAAACTCCAGTAAGTCTTACTGAACAAATTGCACAACAAGTTGCTGATAAAAACAACTTAGCTGTGGTTGCACCTGCTATGTCTGAAGGTCCAGTTGATATTCCTCAACCTGCTGAAGGAGCGCCTCGACCATTAGGTCAAATTATTGAAGAACTACGTAATAGTGTAAACACTGGAGTTGATGCAACTTCAGTAGAAAAAACAGAGCAATTAGTAGAACAAGCTGCTACACAAACTCCAGATGTTAATACTATAAAAGCATCAGGATTAGCACAAGATATCAAAGTACAAGTATTATCTGATTCAATAAAAAAGCAATTATAA	MVELNEKEQLEELKEKIGDIKADIANYIEDKFDDIFALINGRIEELCDTEHDDDFSDEEDHEEYEERDVRDELTHEQEEQAAVLSQNIASQIQQTNQNQENSDEDAPVVVISSPAPSLAENIKKQIDEVKTVATETPVSLTEQIAQQVADKNNLAVVAPAMSEGPVDIPQPAEGAPRPLGQIIEELRNSVNTGVDATSVEKTEQLVEQAATQTPDVNTIKASGLAQDIKVQVLSDSIKKQL				NA	NA	NA	NA	NA
AK009_03959	108			hypothetical protein	ATGAAAAAGAAAAAGCGTGTAGGTGAACCAACCAATAAAAATAAGCCTAGAAAAACAGATGGACTACCTTCTAAGAAAAAGAAAGTAAGATCCGGGGCTTATTGCTAG	MKKKKRVGEPTNKNKPRKTDGLPSKKKKVRSGAYC				NA	NA	NA	NA	NA
AK009_03960	222			hypothetical protein	GTGGTGACCCATAGTGAACATGTTGCACTTGGAGACTTAGTTGTAGTTGACACTGGTGTCCTTGGAAAGTTGGTTTACAAAGTAACTAACGACTTCCTTCATATTAAACTTGAGAATATCGACAATGGCTTTGAATACAATGAAGTTTTCAAAAGTCTTGGTGAGTTAGATGAATTCATTCGTAAGTATTCTAGCAATATACGATTAGTTTCTTTACATTAA	MVTHSEHVALGDLVVVDTGVLGKLVYKVTNDFLHIKLENIDNGFEYNEVFKSLGELDEFIRKYSSNIRLVSLH				NA	NA	NA	NA	NA
AK009_03961	1575			hypothetical protein	ATGAGTACAGTAATTGAAGGATTAATAACACCAAACACAATTGAAAACACCGTTGAAACAATTGTTGATCCATTAGTTGAGAAATACGATTTAGAACAGGTTGAAATTAACTGGTCAGAAAAATCTACCTTAGCTAAAACAAATGAATTTGTGGCTTATTTTAAAAAACGTTTAAATCAGTTTCTATTACGTAACGAACGTATTGAAATAGCACATGAAATGAAACATTCGATTGCTGGTGGTTTTCTTTCAGATTCATATATGAAGAATGTACCAGAATTAAATAATGAAGAATCTTATCTCGTGACTGAGAGTAAATATAAGTCTAAAGATATTGATGTGTTCATGGAAGTTCCTGTATCAGCTTTCAGAGGATTAGATATTGAAGCATTTATTGAAGAAATACGGGAAGAATTAAAAATAGCTAGTGGTAGTCCATTCTCTTGCCCTACTTTCAATATTAAGAAGTTTGAAAGAAACTACACATATGACTTTATTTCCGTTCCGTATATCTTTGAAGTAAGTATCGATAAGATGACTAGAATCGAATTAATACTATGTCGTGATATAGAACGGATTATGGATTTTGATATCTCAATCAGACACTTCTTTAATTTTGGAGGTACAGAGGTTTATGCAGCGAAGTTTGCTATTAAAGACATTAAGAAAAAACGATTGTCTGTAGTGTGTCCAATTACACCTAAGAGCACATTGGTTCGTCTATTCTATTTCAAGAAACGCTATGGTTTTTCAATTCAATATACTGCTTTTAATATATTGACATGGGTATTCAAACAAAAAGGTAATACACCTGAAGAACTAATAGAATATGTAACTACTGTTGAGAAATTTAAATATGACTTTGCTCTTAGAAGCTATCTGTATAACATGGTTCTTGTATATCTTGAGGCATATACGGAATCTGCAGGCGGAAATATACCTCGAAAAGAATTTGCATCTCATGAACTACTCAACGTCTTAGCCAATGAAAAGATGTATCATCATAATGTATTTGTTAATGACAATGTATCGTACTTCGGAGAATTCAAAATGAGTTTCCCTTACTCTGACTTATTCCGACCTATTTATAAATTTGTCGCTAACAACTCTCTTTATGATGTAATGTTTGCAACAAAATTTCCACATGGCTTCTTCGGTAAGTTCTACAAGTATCTGAATATGGGCAATAACTTCCCGACTTTCTTAGATGAACATGGCTTAGAGTATCTTGAAGTGCTAAAAAAATGCGTGTACTCTCCTTACGAATTAATCATGACGTATGTGGAATATGAAGAAACTAAGTCCAAAGAACAAGAATTACGTGATAAGCGAAAGTTTGAATTAGAACTACGCAATCTATTTACGCTTACTAGTGACCAAGACAAGTATCGTTATCTTAATAAAAAGTTTATCAGGAAACTTAAAGCTGGTTATCAATCACACCAAACCCCGCTTCCAGACTATTGTAATGAAGAAGACATTCCTTCTTTCTTAAAATTAGCTAAGCCGGAACCAGTTGAGTTTTATAACGTAGGGGCTCCTACCCCTATAGATGACGACAATTTACCATTTTAA	MSTVIEGLITPNTIENTVETIVDPLVEKYDLEQVEINWSEKSTLAKTNEFVAYFKKRLNQFLLRNERIEIAHEMKHSIAGGFLSDSYMKNVPELNNEESYLVTESKYKSKDIDVFMEVPVSAFRGLDIEAFIEEIREELKIASGSPFSCPTFNIKKFERNYTYDFISVPYIFEVSIDKMTRIELILCRDIERIMDFDISIRHFFNFGGTEVYAAKFAIKDIKKKRLSVVCPITPKSTLVRLFYFKKRYGFSIQYTAFNILTWVFKQKGNTPEELIEYVTTVEKFKYDFALRSYLYNMVLVYLEAYTESAGGNIPRKEFASHELLNVLANEKMYHHNVFVNDNVSYFGEFKMSFPYSDLFRPIYKFVANNSLYDVMFATKFPHGFFGKFYKYLNMGNNFPTFLDEHGLEYLEVLKKCVYSPYELIMTYVEYEETKSKEQELRDKRKFELELRNLFTLTSDQDKYRYLNKKFIRKLKAGYQSHQTPLPDYCNEEDIPSFLKLAKPEPVEFYNVGAPTPIDDDNLPF				NA	NA	NA	NA	NA
AK009_03962	294			hypothetical protein	ATGGGTGATTTAGCTGATGATTGTTATGAAACAGCCATGCAGGAAATGTTTTCTATCAAGGAAGCAGTTACTAAATATACTGTAAATGTTCCGGACCAAAAGGTTATTGATGATATCATCCAATCTTTTAAGGATAGTCCAGTTGATAAATCAGATAAGCATGAATGCCTAGCGCGGGACATACTGGTTACAGTAGCTAAAAGAAAAACACTAAGCATTAAGCAAAAGACCCGTTTAGTAATGGTATTGGTTGATCGATACACGGTGGGATATGAATGTGACTATGATTTATAA	MGDLADDCYETAMQEMFSIKEAVTKYTVNVPDQKVIDDIIQSFKDSPVDKSDKHECLARDILVTVAKRKTLSIKQKTRLVMVLVDRYTVGYECDYDL				NA	NA	NA	NA	NA
AK009_03963	99			hypothetical protein	ATGAGAGCACTTATTGAAAACAATATGAAACTACTTATAGAAGAAAAATTAATCCGTACTGATGTAGTAGATCGTGCGATGGTTAATTTAGGAGGTTAA	MRALIENNMKLLIEEKLIRTDVVDRAMVNLGG				NA	NA	NA	NA	NA
AK009_03964	369			hypothetical protein	TTGAAAGCAAACATAGATTTAACAGCTAATCAAGATTTTAATAAACCTGCTCAAAGAAAGCCTTGGTTCTTATATGAAAAAACACTTTCTATATTATCTAGTCGCTTAAGTAAACCTATTCCCTGGGATCAAAACGACATCTTTTCGATGTTAGGTTCAACTCCGAGAAATAGTTTGGTGCATATTGGTAACAAGGAAGCTATTAAGAAAGAAAAGCGGTGGGCTAAATTTGAGCAAGGCCTATCTTGTGAATGTTGTGGTAGAGATTTATCGCTTATGCCTTGGAACATGACTTATAACTTATGTACTCCATGTGATGAAAATCTCGACATAAGTATGAATGGACGAACGGCTATCTTGAATTTATAA	MKANIDLTANQDFNKPAQRKPWFLYEKTLSILSSRLSKPIPWDQNDIFSMLGSTPRNSLVHIGNKEAIKKEKRWAKFEQGLSCECCGRDLSLMPWNMTYNLCTPCDENLDISMNGRTAILNL				NA	NA	NA	NA	NA
AK009_03965	729			hypothetical protein	ATGAATCAAGAACTAACGCCAAGCGAATACTTTGAAATTATAAAAGGCAAAAAGAATACGATAGATGATCAAGAACTCGTAAACATCTATGATAACTGTCTTACTCTTTTGAACAAGTACAAAATCACTGGCCAAACTAAAGCTATTAAGAAATTAATCTTTCATTTAGAAACAATTGAAAAAGAACGTAGCATTGTGCAGGCTGGTATCGATACATTTGTTTACCGTGATGACATCGAAGAATTTATCGAGAACATTTCTAAAGATACAGTTAAGATTCAGGATCTTGAAAGTTACGAACGAGAAATACCTGATGATGTTGTTGCTGTTCTAGAGACTGTTAAAGATAAGTTCGACCAGTTCTATGTTGTGTTTACGGATTATACAGGTAAGGTTGAAAAACAAGTAACAAAGGAACGCCGCGACAAGGACCCTATCCTCTTCGGAACATTCCAAGATGAGAAAAGTAGAACGGTTATTGACCGTTTCTATTTTATTGGCGATTGGGAAGATGAGTATTGTGACCTTACGTTAGATAAGATGGTTAATAAAGTACAAACTTCTAAGGGGAAAAACATTTCTATGACAATTAAAACCCCTACAGATATTAAAGAATTAAAAGAACAGCTTTCTCTGCTAGAAGAACATGAAAACCGCTTTATAATGGGCAATAAACAAAAAACCGGTTTCTTCCAGAAGATATCTACGTTCTTCTCTAAAAAACATTGA	MNQELTPSEYFEIIKGKKNTIDDQELVNIYDNCLTLLNKYKITGQTKAIKKLIFHLETIEKERSIVQAGIDTFVYRDDIEEFIENISKDTVKIQDLESYEREIPDDVVAVLETVKDKFDQFYVVFTDYTGKVEKQVTKERRDKDPILFGTFQDEKSRTVIDRFYFIGDWEDEYCDLTLDKMVNKVQTSKGKNISMTIKTPTDIKELKEQLSLLEEHENRFIMGNKQKTGFFQKISTFFSKKH				NA	NA	NA	NA	NA
AK009_03966	1524	cca_2		Multifunctional CCA protein	GTGGAATTAACTAAAATCGTAGAAACATTAAAAACATGTAATGCAAAGGTTTATTTAGTAGGTGGAGCTGTTCGTGACTTACTATTAGACATCGTACCAAAAGATAAAGATTATTGTGTCACTGGTATATCACAAGAAGGATTCGAGAGTCTCTTCCCTACTGCTATGTTACAAGGTAAAGATTTCCCTGTTTATCGTATGGATATTGATGGAGAACTTTGTGAAGTAGCATTAGCTAGAAAAGAACGAAAAGTATCTGAAGGTCATAATGGTTTTGTTATCTATGCATCACCTGACATCACTATTGAGGATGATTTAGCCCGCCGAGATATTACTATCAATTCAATGGCTATCGACCTAGAAACAAATAAGTTAATTGATCCATTCTATGGTGAACTTGACTTACGAACTGAAACGATTCGTGCAACTACTGAAGCTTTTTGTGAAGATCCGCTTCGTGTGTATCGTGCTGCAAGATTTGCTGCAGAATATGGTTTCTTTATTGAATACAAAACATCGACGATGATGAATCAACTTAAATCAGAGTTGTTATCACTACCTATTGAACGTGTATTAGAAGAAACGAAGAAAGCATTCATGGCTCGTACCCCTTCCCGCTTCTTCCATGCATTAAAATCTGCAAATGTATTAGATGTTCATTTCCCTGAGATTGATTGCTTATCAGAACTTGAACAGAACTTAATGTACCACCCAGAAGGAAATGTATTTGAACATACGATGCAGGTTATTGATTCTGCTCGTTATCTTGCAGATGAATTACCTGTTAATAGTGAACTAGTAGTTATGTTCTCTGCCTTACTTCACGATGTCGGTAAATATGTAACAAAAGGTATTCACCCTGTTAAAGGTACTCCTACTTATATTGCACATGAAGCAGAAGGTGTTCCAATTGCAGAACAATTTCTTGACCGCTTTAATTTAAAATCTTACAAGAAGGCTATCTTATTCAATGTAGCTAACCACATGGTTTTCCACGACGCATTCACTGCAATGAAGAATGGTAAAGCTGTTGATTTTATGGAAGGTAAATTTGAATACAGTGGTAGTGATTATATAAGAAAACCAGGTCTTCTTCCGAGTGTCGGTTGGGCTCAAGATTACATTACCGTATGTATTGCTGATACAGTTGGTCGAATACGCAACCCGGAGCTATTACCAGCTGTTCTAAAAGTTGTATCTTGCATGTTACGTGTATTTAACACTGAAGGTACACTCAACTTTGACGAACTAATTAGAAAGCTATTGTTCATTACCGGTAGTTATGAATCAGCTAAGAAACTGACTGTTGATTTAGTTATCGCTATTAAACATAAGCGTATCATGGATATGTATGTAGAGAATTCAAAGGATATCGCCTGCCTTCTTGATATTGAAGAACTAAAGAAAACATACAAAGGTGAAAAGTTAGGTTTAATGATTCATAAGGATAAACGTACACAGCGCACTGTCATTATGAAGAATGCTCGTGAACAAATGTCTAACTATGTGGGGAAAATGGTATGA	MELTKIVETLKTCNAKVYLVGGAVRDLLLDIVPKDKDYCVTGISQEGFESLFPTAMLQGKDFPVYRMDIDGELCEVALARKERKVSEGHNGFVIYASPDITIEDDLARRDITINSMAIDLETNKLIDPFYGELDLRTETIRATTEAFCEDPLRVYRAARFAAEYGFFIEYKTSTMMNQLKSELLSLPIERVLEETKKAFMARTPSRFFHALKSANVLDVHFPEIDCLSELEQNLMYHPEGNVFEHTMQVIDSARYLADELPVNSELVVMFSALLHDVGKYVTKGIHPVKGTPTYIAHEAEGVPIAEQFLDRFNLKSYKKAILFNVANHMVFHDAFTAMKNGKAVDFMEGKFEYSGSDYIRKPGLLPSVGWAQDYITVCIADTVGRIRNPELLPAVLKVVSCMLRVFNTEGTLNFDELIRKLLFITGSYESAKKLTVDLVIAIKHKRIMDMYVENSKDIACLLDIEELKKTYKGEKLGLMIHKDKRTQRTVIMKNAREQMSNYVGKMV				NA	NA	NA	NA	NA
AK009_03967	222			hypothetical protein	ATGTCAGGTATAAATAACACTATTCACGATTGTCTTATTAGTGTAACTGGACGTGCACCAGAGCAGGATTTAATGAAGCGAGTTATCCGCCTCCTCCCTGCTTCTATCTTACTATTAGCTGAACACTGGGGACCGAACGATACAGAGTTCAGAGATAAAACATTAATTTGGATTAGTAACAACAAGAAAATGCTAGAAGGTGAACTTTGTGGAATTAACTAA	MSGINNTIHDCLISVTGRAPEQDLMKRVIRLLPASILLLAEHWGPNDTEFRDKTLIWISNNKKMLEGELCGIN				NA	NA	NA	NA	NA
AK009_03968	306			hypothetical protein	ATGAGTACTTCAACTACGAATCAAACAAAGGATGTTGTTATCCTTAGAAAAGATACAAACGTTACGTATTCACCTGGTACTCCTAATAAGTTTACCGCTAAAAGACACAATGTTATCTTGCGTAAGCGTAAGGATAAGATTGAGTTAAATATTCAAAATGACGGCTACGATGCGAATGGCCAACGTAAGTCTATTCTAAATGGATGCTTATTAACTAAAGAAGAAACTCAGTACCTAATTGATGAACTTCAAGGATTACTTAATCAAGATACAGTAAAAGAAAAACATCTTAAGGACGTGATTTGA	MSTSTTNQTKDVVILRKDTNVTYSPGTPNKFTAKRHNVILRKRKDKIELNIQNDGYDANGQRKSILNGCLLTKEETQYLIDELQGLLNQDTVKEKHLKDVI				NA	NA	NA	NA	NA
AK009_03969	552			hypothetical protein	ATGAAATTTGCAGATAAAGAAAGTATATCTATCGGTGATAAGTATTGGGTTAGAACCATTACAGACAAAGACTACGAAGTAGAGGTTGTTGGTAATCCCGTGGAAAACATATACCAGGATGTGCTAGTACATTGCAAACGATTAGATAGGACAGATTGTGATATCCGTTTGGAGTTTGTCCGTCATTTATATACAAAGGAATCTATTAACTTTGAAATTGTGAAATCGGATTGTAAATATCCTGTTGTTATCTACTCTCTTTCATACGTAAGTCCTTTAGGAAAGATTCCTGTCATCGAGAAAAAATTAGAGTCATACAAAGGCAAAGTGTTGTTTGACTTACTACTGAGCAATGGTTTTGCCTCTAACAGATATATTGAAGCAGAATTTAATGAAGGTAAGTTTTTAATAGGTTCTTTTCGCGCGGTAGAACCCGATATCGAAATAAAGATGGAGTCTTCCTCTTTTTATTTAAAAGAACCTTCATTATTAGATAATGGGATTCTTCATAACCCACAAAAGTTTTTATTTAAGAAAGGTAAGATCTTGTAA	MKFADKESISIGDKYWVRTITDKDYEVEVVGNPVENIYQDVLVHCKRLDRTDCDIRLEFVRHLYTKESINFEIVKSDCKYPVVIYSLSYVSPLGKIPVIEKKLESYKGKVLFDLLLSNGFASNRYIEAEFNEGKFLIGSFRAVEPDIEIKMESSSFYLKEPSLLDNGILHNPQKFLFKKGKIL				NA	NA	NA	NA	NA
AK009_03970	204			hypothetical protein	ATGGTGTCAAAATGGTGGACTACAAAAGGCACTGAAGATTGCACAAATATGATTAAGTTTATTAAACGTCTTATATGTAAACATAAAGGTCATGATTGGGATACTTACACAGTTGTTACTGGTTATTGGAGTTATGACATAGAACAAGCTGGATATTGTACAAGATGTGGTTATGATACACATGGAGAATACTTAAATCATTAA	MVSKWWTTKGTEDCTNMIKFIKRLICKHKGHDWDTYTVVTGYWSYDIEQAGYCTRCGYDTHGEYLNH				NA	NA	NA	NA	NA
AK009_03971	456			hypothetical protein	ATGAAGTTTAGAAACTATAAGCAACTGTTAACGGAATTAAATAAGACCAAGCAGGTCATTCTTACTGTTAGCTTGTGGACACATAGCAGTAAAAGAATGGTATTCAATGTTCCGTTCGAACAAGTAAAGAATTGTTTGGATCGAGATATGATATTTGAGTGCTCCGACAAGGTGCTTAAGTTCACCTCTATAGATGGTAAAGAGTTTAAGTCTCGATTAAATAGATTACGGATATCTAAGATTGATTCTGTAGAAGTTGTAGAACGACGCCCTATGTCATTTGGGGAGATTGAGGAATTAGTTAAGTCTATTCGTAACGATGTTAAACAAGATGCTTATAATCCGGAAGAGATTCTCCTGCTTTGCGATAAGGTTAGCGAAGTACTGGAGGAAAACTTAACTCTATGGTGTCAAAATGGTGGACTACAAAAGGCACTGAAGATTGCACAAATATGA	MKFRNYKQLLTELNKTKQVILTVSLWTHSSKRMVFNVPFEQVKNCLDRDMIFECSDKVLKFTSIDGKEFKSRLNRLRISKIDSVEVVERRPMSFGEIEELVKSIRNDVKQDAYNPEEILLLCDKVSEVLEENLTLWCQNGGLQKALKIAQI				NA	NA	NA	NA	NA
AK009_03972	258			hypothetical protein	ATGAGTCGATTAAGTTTACGTGTAGTAGGTAGTATCATGGGTAACTGTTTAATAATTACCGATAATGAAACAGAGAAAAATGTTGAGGTTATGGCATTACAGTTAAAAGGTATTCTTGGCAGTGAACAATCAACTGGTGAACTCCCCCATGCTGGTTGGACTAAAGAAGGAGAGAAAATTACAATCTATCATGATGATGAAAGAGATAAGCATGAAGTCACATTTACGCTGCAGGAACTAGGCGAACTTATCAAATAA	MSRLSLRVVGSIMGNCLIITDNETEKNVEVMALQLKGILGSEQSTGELPHAGWTKEGEKITIYHDDERDKHEVTFTLQELGELIK				NA	NA	NA	NA	NA
AK009_03973	129			hypothetical protein	ATGACTTACGAAGAAGCGATAAAGGCAATTAAGTCGAATTACCCGCCTGAAAGATACACAATGCTTAGAGAAGCACTTGATTTAGCAATTACAGTTCTTGAAGCAGAAAGCAAAAAGAAAATAGTATAG	MTYEEAIKAIKSNYPPERYTMLREALDLAITVLEAESKKKIV				NA	NA	NA	NA	NA
AK009_03974	507			hypothetical protein	ATGGTGTTAACATACGCGGAAGAAATTGAACTACGATATCTATTCTTAAAAGGTTTTACATACTTAGTTCGTAATGAAATTGGATCGGTAAATGTATTTGTTAATAAACCACATCGAGATAAAGAAACGAACTATATCCCTCATGGTAAATCAAGAGGTGGTTATGACATTTGGATTGAAACTAAAACTCCTATACCTATAGCAGAACAACGTAGATGCAGAGCTGTTGAATTAGGAGAGTACAAGTTTGTTACTTGGAAGTCTGAACCTATCTTAATATCTGACCTATTAAGTGTAGATAAAGAAAAAGAAGTGTATGTATTACTGTCTGATGGAGATGGCACTATGCGCTCGACGGATATGCCATTCGGAGTTGCCGTTACATCTGAAGGTGAAGCAAAACGATTCGTTTCAGAAGGTAATTGCGGCTACACTCAATCTTATGAAAAACTAACTGTCTTTGCCGACAAAGATGAAGCAATTAACTTTGCATTTAATAAGGGGTGA	MVLTYAEEIELRYLFLKGFTYLVRNEIGSVNVFVNKPHRDKETNYIPHGKSRGGYDIWIETKTPIPIAEQRRCRAVELGEYKFVTWKSEPILISDLLSVDKEKEVYVLLSDGDGTMRSTDMPFGVAVTSEGEAKRFVSEGNCGYTQSYEKLTVFADKDEAINFAFNKG				NA	NA	NA	NA	NA
AK009_03975	207			hypothetical protein	GTGACTAAGATCATAACCAAAACATCTGCACAAGCAAAGATAGAGCGTGCACAGCGAGAAAAAGATACTTCTTGCCCTGAATGTGGTAAACCCTGCCTAGGAAGTGTTGCAACTAGAACAAAAGGAATCTTTTCAGTCAGAGTAGAGAAAAAATACAGTTACAGTTGTATATATTGTGATTGTGAATGGACTACCGGATGGAAGTAA	MTKIITKTSAQAKIERAQREKDTSCPECGKPCLGSVATRTKGIFSVRVEKKYSYSCIYCDCEWTTGWK				NA	NA	NA	NA	NA
AK009_03976	330			hypothetical protein	ATGGATGATGTTCAAAAGTTTGTATCTAAGAATCAACATCAGTTTGGTTATGTCATGCAAGTAGCTAGTGATCAATGGAAGAAGAAAGATCCTACTGGTGCTTTAACTGTTGGTCCTTGTAATTACTATATAGAGAAACATGGTGACTATCATACATTACTTGATAAGTTAGCTAGTAAAGAAGAGATAACTATGCGCGCCCTGGGTAAATCTGTTGAGACTATGCACAAAATCAAGTTTTTCTGTGAAAGAGCTAAGAATTATCAACGCATTGAAGATAAAGATAAAGACATGGATATTATCTTAGAGTTACTAAAAGAAAATGTCTAA	MDDVQKFVSKNQHQFGYVMQVASDQWKKKDPTGALTVGPCNYYIEKHGDYHTLLDKLASKEEITMRALGKSVETMHKIKFFCERAKNYQRIEDKDKDMDIILELLKENV				NA	NA	NA	NA	NA
AK009_03977	276			hypothetical protein	ATGCCTAACAATTGGTATCACACACCTAATTACAATAATACTACTCAGCTTCCGAAGCAATCGAAAACGAAGGTAGTTGCAAGTGTTAAACGGAAAGCTATTGTCGGAGAAAAGATCGTGATTACTGAAAAACACTTTGCTAGTGATTTTATGATTGGAGATATATTTACCGTTAAGGAAATTGAGAAGGATTCGGTAAATGTGAATGAAGATGCTCAAGGTGTGTACCACTGGGAGTATGAAGTTGTTACAAAATTAGAGCAGGTTTGCGAATAA	MPNNWYHTPNYNNTTQLPKQSKTKVVASVKRKAIVGEKIVITEKHFASDFMIGDIFTVKEIEKDSVNVNEDAQGVYHWEYEVVTKLEQVCE				NA	NA	NA	NA	NA
AK009_03978	216			hypothetical protein	ATGCAAGAACAACCTATTTATTTAAAGTCGCTACATTCTTATAACTTTCGTCACTCTAAGGAAAATCCAAAGGTAATCGGTTTTGTTATGTTTACACCTGAAGGGTATTCTCCCCGTCCATGTTTTAAAGTTCTATACGAAAGTGATAACTTTGTTGACCATATCCCTCACTCTTCACTTGTTGATGGATACTACGAAGTTGTTGTTAAGGATTAA	MQEQPIYLKSLHSYNFRHSKENPKVIGFVMFTPEGYSPRPCFKVLYESDNFVDHIPHSSLVDGYYEVVVKD				NA	NA	NA	NA	NA
AK009_03979	177			hypothetical protein	ATGTTGGAAGTTTATATAGGTTCTGCACAGCATGAGAAAGTAGCTGCTATGGTACAAGTCTTTATTAATGTTTATACAGGTGAGCATGTAGATGTTAAAGAGTTAGAAGGTCGTGTCTTACATCATACATTCACTGATTCATGTGGAAGACAAGTCATGATGTTTAGGAGGAAATAA	MLEVYIGSAQHEKVAAMVQVFINVYTGEHVDVKELEGRVLHHTFTDSCGRQVMMFRRK				NA	NA	NA	NA	NA
AK009_03980	279			hypothetical protein	GTGGGTTATATAGAGAGAGAAGAAGCAGTAGATTTGTTTCCGGGGAATTTTCCCGCCCACTATATAATATATATCATTTCGGTATTTTTCGGTCGATTTCACAAAAAAAGTTTAGGAGTGTACAAGAATATGAATCTTACACGTAATATGAATTTCACTAGTAATGAACTAAAAGTTATATATAAGAAACTAACTGGTGCTAGACTCACTGAAAATGAACAACGTTTAGCATCTCACTTAGTAATGAAACTACAAATTGAAGGCAAAGTTAAACCATAA	MGYIEREEAVDLFPGNFPAHYIIYIISVFFGRFHKKSLGVYKNMNLTRNMNFTSNELKVIYKKLTGARLTENEQRLASHLVMKLQIEGKVKP				NA	NA	NA	NA	NA
AK009_03981	105			hypothetical protein	ATGGATGAAACTGATCATGTCCTATATATATTAGGTCTAGTATTACTGTCTATAGATGCTGTTATGTTTATCTATATAGTTTGTGTAATAGCGTCTTACATGTAG	MDETDHVLYILGLVLLSIDAVMFIYIVCVIASYM				NA	NA	NA	NA	NA
AK009_03982	273			hypothetical protein	ATGCCAACGTTCATCGTCAACATTTACGAACGCACTTGGGCCTTCACCAAATACGAAGTCATCTATATAGATACAGACGGCACCGTCACTCGCAAAGAACGACGTGTCATCAACTGGGTCAACAATCCGAAAGAAGTCGCATACCATCGTGCAAAAAAGATGGTCGAAGAATGGCAACTGGCAGTCGGTGTAGTCAATGCCTTCGTCACCTATATAGTAGACAAACAAACTACGTATAAATTCCCTACAGGGGGCTTTTTCAAAATAGGCTGA	MPTFIVNIYERTWAFTKYEVIYIDTDGTVTRKERRVINWVNNPKEVAYHRAKKMVEEWQLAVGVVNAFVTYIVDKQTTYKFPTGGFFKIG				NA	NA	NA	NA	NA
AK009_03983	312			hypothetical protein	ATGAAGAATTCACCACTTTGTCCAGGCTTCTCCCCTGCTCACTCCGAAGCATATACAATGTCATCATTTATCGGTCACGTTGTCGTAGCTGGATATAATCACGAAACAAACAAATACTTAGCTTTCGTCATCGAAGGCGACATTGAGATGGATGCAGTGGTGAACTTGCGAAACCCCCATCTTGAACTATTCATACCAGAACAATTAATCGAGACAGGAAACTCACTGGCTTGGATGTTCAAAGAAGAACTAACGACACCCGGCTTACGTGTAGAAGATGCCTTCTCGCAACCATACAATTTTATTCACTGA	MKNSPLCPGFSPAHSEAYTMSSFIGHVVVAGYNHETNKYLAFVIEGDIEMDAVVNLRNPHLELFIPEQLIETGNSLAWMFKEELTTPGLRVEDAFSQPYNFIH				NA	NA	NA	NA	NA
AK009_03984	246			hypothetical protein	ATGGAAAACAAAAAAGGAAGCATTTTTCAAAGTTTTACATCTAAACAAATTATTTGGGCAGCGGATCTTATTGCGGTGAAGATGAAGGACGGAACATATGACGTATTCAAAGGTCGTCCGTCTTTATCTAAAGGAATTGTTGATGGATTAACTTTTAAAGGGATGTTAGTTGAAGCGAAACAACCAATCGTTCTTTGTGAAGACTATCTAGATAAAGACAAAAACGGACGAGTACTATTCTCATAA	MENKKGSIFQSFTSKQIIWAADLIAVKMKDGTYDVFKGRPSLSKGIVDGLTFKGMLVEAKQPIVLCEDYLDKDKNGRVLFS				NA	NA	NA	NA	NA
AK009_03985	411			hypothetical protein	ATGAACGAATTAATTCCGGTAGCTATCAACAATAAAACAATCAACACAGATGAAGTCGATCAACTATATAGAGATGACATCGCACTATTGATCCCTCGTGTAGCAGGACAACCTTACATCAAGTCAACTACCGAAGCTGCAGTCAATACCATGTGGAAGATGACGGCAGCTATGCGCCCGAACAAATCCAAGATTTCTTTCGATCAGTTACATACAGGTAAGACTGACGAAGAAGTACATGAAGACTTAATGGCACTTGTAAAAGACATGTCCAACTTGATGCAAAAGATTGTTCATTCGTCTAGCTGGCGTAACGGAGAATTCAATGACTTCGATAAAGTTGAATTCGACAGACTGCTACGAAACATGCAATATCACACATCAGCGAAACCAGCGGTTTCGTCATACTAA	MNELIPVAINNKTINTDEVDQLYRDDIALLIPRVAGQPYIKSTTEAAVNTMWKMTAAMRPNKSKISFDQLHTGKTDEEVHEDLMALVKDMSNLMQKIVHSSSWRNGEFNDFDKVEFDRLLRNMQYHTSAKPAVSSY				NA	NA	NA	NA	NA
AK009_03986	522			hypothetical protein	ATGAATAACTTATATGGACAATTCCAATCAGACATACAAGGTGCAGCTAACAATATGATGACTCAATTACTATGTGCAGAGAAAGGTATCGACTACAACCAGTTGATGCAACAAGCTCAGCAAGCACATGTTAATGGTATCTTACAAGCTGAACAGCAACGTCAAGTTAACAACTTGATTAAAAGTCATTACCAAGGGAATAGTGGTTCTATCGTTTCTAAAATTAAAGATATGTTTGTTTCGGAACCTGCACCGAACATGTTCATGCCTATGGCTCCTATGCCTGGGATGCAACCAATGATGCAGAATCCTATGCAACCACAACAAGGGATGACTCCTCAACAGGCGTCGTCCTTTTTAGTTCCACCTCAACCAACTACTACAGAGATTCCTTTAGAGGACAACTCTCGTATAGAAAAGCTTGAGAAGGACATGGAACAAATGATGCAACAGATGACACAATTTATGATGGCTATGCAACAACCACAACAAACAGTGGTACAACCTGCGCCACAACTATAA	MNNLYGQFQSDIQGAANNMMTQLLCAEKGIDYNQLMQQAQQAHVNGILQAEQQRQVNNLIKSHYQGNSGSIVSKIKDMFVSEPAPNMFMPMAPMPGMQPMMQNPMQPQQGMTPQQASSFLVPPQPTTTEIPLEDNSRIEKLEKDMEQMMQQMTQFMMAMQQPQQTVVQPAPQL				NA	NA	NA	NA	NA
AK009_03987	516			hypothetical protein	ATGGAAGGTAACGGTTGGGTTTTATTTATTGGAATGATATTAACGTTTGCTTTATTTATTCGTATTTGTATCACAGCCCCTAACAATGGTTCTGATACTACTGTTAAGAAAGAAAAGAAGAAAGTTGATTCTAAGTTTGAACGAGTTAATCAAGTAGAAGGCATTCTATATGCTGATGACTTAAAGATTAAGACATTCAACATAGGTGAACTTGCAGTTGATAACGTTACAGTCAAGTTGTATAACCACGTAGGTAAACCTGTACAGCCGACTGATATTATTTTCAATGGTCAATCTATATATGCTTTTGCCCCAGTCGGGACATCTTATCGTGAGAAAGCAGAGTATGCTATCCAAGTATTAAAGAACAATGCTAATCAAGGTGCGTTGTCTTTCCGTACAGTGGATGAGATTGAACATATTTTAATTGAAGTAGATAACCTGAATGACTACATCAATGAAGGTAAGGTTTCTCAAATCAGCAATGATGCCGAGGATTTTGTTTGGGTAGGCTAA	MEGNGWVLFIGMILTFALFIRICITAPNNGSDTTVKKEKKKVDSKFERVNQVEGILYADDLKIKTFNIGELAVDNVTVKLYNHVGKPVQPTDIIFNGQSIYAFAPVGTSYREKAEYAIQVLKNNANQGALSFRTVDEIEHILIEVDNLNDYINEGKVSQISNDAEDFVWVG				NA	NA	NA	NA	NA
AK009_03988	357			hypothetical protein	ATGAGCACCTTATTCGAAGGTTATACAAAGTTCGAAAGTAAGATTGATAGTAACAAAGATATTTGCATCACCATTGATGGTATACCGACAGTGATTGAGTATTCCTATCACTCTATCAAACGTAGTAAGCACCGCGTCGTATTCGAGGCTGCTGTCGTAATGATGATTCAGAATGCGTTTGATGACATATTAGATTTACACAACGATGAGAGATTTATCGTAATTGACAAAGAGCTATGCATCTCTGTCATTGGTTCATTAAGAGGAGTTGGAGGTGACATCATAATCAGTATTGTTTCTGTTATAGATTCTGATCAACCTACCAATCCTTATGGCACATACACTATTGCAATTTAA	MSTLFEGYTKFESKIDSNKDICITIDGIPTVIEYSYHSIKRSKHRVVFEAAVVMMIQNAFDDILDLHNDERFIVIDKELCISVIGSLRGVGGDIIISIVSVIDSDQPTNPYGTYTIAI				NA	NA	NA	NA	NA
AK009_03989	342			hypothetical protein	ATGTTAGAAATTCAATCATCAGTTTGGTACCACACAGTAAATGTACCAGTAAGAACACACAACAAGGAATACGGTTTAAAGGATATTAAGGTGTATCCTGCAAATGCTCTACAGAAGTCATACGGTATGGTTTGTAACTGTATCTTATATTTAGTTTGTGGAACGATTCGTGTAACAATTGCTGAATCAAAGAATAATCCAGGAACAATCTATCTAATCACACCTGGACAAACACAAGTTGAAGTACAAGGCAATCCACAGTACTACGAGAATGTTCAGCTCAGCTATGAGTTGAAGGCACAAGTTTTAAAGTATGTTGAATCGTTAACGAAGCAGGTCTAG	MLEIQSSVWYHTVNVPVRTHNKEYGLKDIKVYPANALQKSYGMVCNCILYLVCGTIRVTIAESKNNPGTIYLITPGQTQVEVQGNPQYYENVQLSYELKAQVLKYVESLTKQV				NA	NA	NA	NA	NA
AK009_03990	114			hypothetical protein	ATGAAGATTAACACTAGAGAATGGTTAGCAATGTCAAAAGAGGATCGACTTCTTTGCATTCGTTTAACTGTAGCAGACAACATCATGGAACAACGTAAACGTCGAAGAGGATAA	MKINTREWLAMSKEDRLLCIRLTVADNIMEQRKRRRG				NA	NA	NA	NA	NA
AK009_03991	291			hypothetical protein	ATGCAAAAAGGTTTTGAAGGCTTAATGATGTCCAACGTATGGAATGGTCTTCGAATAAAGAAAGAAAAAAATATAAAGAATATGCCCTTACATGTATTACGTGTAGATGGAGGCAGTGAAAAAGTCGTGTTCCAAGACGTAGAGGAATTTGATCTTCCTAATGAATACACCCTAGTGGGAACATGCACCATTAATAATCGGGAACACACATTTGAATATATAGCAAAATTCGGGAGGCAGAACTCTACTATTATAGGGTTCTTGCCTGTAGATGAAAGGAAGTTATCATAA	MQKGFEGLMMSNVWNGLRIKKEKNIKNMPLHVLRVDGGSEKVVFQDVEEFDLPNEYTLVGTCTINNREHTFEYIAKFGRQNSTIIGFLPVDERKLS				NA	NA	NA	NA	NA
AK009_03992	234			hypothetical protein	ATGTTAGAAATCACAACGAACGACAATTCAATTTACCTTGCAAAAGAAGAAACAAAAGGTTTAGTTGCTGTAGTAGCCAGAAAGATTGAGGAAGGTATTATCGAGATCACTTATTTCTGTAATGGCGTAACTAAGGTACTTAAATCTGCAAGTCTTCTAGCATCACGTATGATTGCTGGTCTTATGGAGGCTGACTATGCAGAGGTAGATAAAGCGGTCAGAGGTGTTGCTTAA	MLEITTNDNSIYLAKEETKGLVAVVARKIEEGIIEITYFCNGVTKVLKSASLLASRMIAGLMEADYAEVDKAVRGVA				NA	NA	NA	NA	NA
AK009_03993	747			hypothetical protein	ATGACAACTCAACAATTTACACAACCGCAATACGGACAACAGTTTGGACAACAACCACAATTTGGTCAACAGCAACAGAAGCAGTCTGACCCGTTCTGGTATCGTCAAAATAGTAGTTATCTGTATGGTGTAACAAATGCACCAAGCAATATGCAGTTAGGTATTGAGAATATCTCATTGAAACCTGCATCTGCTAACCAAGTGCCACATGGCATTATGTTCAATGGTTTATTACGTTCTGTTATTGGTAGTATTTCATTCCAAGTTCGTATGAGTCCTCGTACACAAGCACCATTCGTACAGACTATCTCAACTGAAAATGGAGTAGATACACAAACAGGTCAAAAGAACTATTGGGAGCACATTAACTTAACTCCACAAGTTAAAGCTCAAATTCTTCGTTTTGCTGAAGCGATGTTGACTGGACAAGCTCCTATGCAACAACAAATGCCACAGCAACAATTCGGAATGCAACAACCAATGGGTATGGGCGGTATGCAACAACCTATGAATTATGGTCAGCAACCTATGTATGGTCAACAGCCTATGGGTATGCAACCTATGATGGGTATGCAACAACCTATGCAAGTTCCGCAGTATGGTCAACAAACTCCTGTTTATACGCCACCTGCTCCTCAGGATATGGCACAGCAAACTGAACAGCCAGTTGAACAACCACAACAGCAACCAGTTGATGCAGGAGACAAAGTTGAACCAACTGTTAAAGAAGAAGATTTACCAATCTAA	MTTQQFTQPQYGQQFGQQPQFGQQQQKQSDPFWYRQNSSYLYGVTNAPSNMQLGIENISLKPASANQVPHGIMFNGLLRSVIGSISFQVRMSPRTQAPFVQTISTENGVDTQTGQKNYWEHINLTPQVKAQILRFAEAMLTGQAPMQQQMPQQQFGMQQPMGMGGMQQPMNYGQQPMYGQQPMGMQPMMGMQQPMQVPQYGQQTPVYTPPAPQDMAQQTEQPVEQPQQQPVDAGDKVEPTVKEEDLPI				NA	NA	NA	NA	NA
AK009_03994	1398	recD2_1		ATP-dependent RecD-like DNA helicase	ATGACTATTATGACAACAAACCAATTACTTAACCACTTAAACACAAAGAAGGAAAAGCCAGTTACTAATCCCGTTGATGCTGTAACTGTAGCAGAAGATATTGTAGCTAGCCCTAAACCTGTATTCAATGTGGATCAAACTACTGAACCTGTTCAACCAGATAAGCGTAAGAAGAAAAGAGATATCGTACTAACACCTAGTCAACAATCAGTAGTAAGCAAGATTAAGAGATGGTACTCTACTACTCATGGTTACGGAAAGTTTGAATTAGCAGGATTTGCTGGTGTAGGTAAATCCACTGTTGTTGACTTTATCTTAGAGGAACTTGGAATTAGAGCGGATCAAGTTCGTATGTGTGCACCAACTGGTACTGCTTCTCTTGTATTAAAAGAAAAGACACCTGGATATTCTTGCTCTACATTACATCGATTATTCTATGTTCCTGAGTTAATGAAAGATGGACGTACTCGCTTTGTCCCTTCTGCAGAAAACTTATACGGTGTAAGACTAATCATTGGTGATGAGTTCTCTATGACGGGTAGACGTATGGCTGAGGAAATTCTTCCTATGGCTAAGAAAGCTGGATGCAAAGTATTAATCGTTGGAGATCCTGGGCAACTACCTCCTGTTAAAGATGAAGAGTATTTCTTTGTTAATCCAGATGCAATCCTTACTGAGGTATTACGCCAAGCTGCAGATAATCCAATTGTTGCTTTATCAATGGCTATTCGTCAGGCTACAGAAAATGGAGCACCATACATCTTCCCTAATAGAGACCAGAACATTGGTGGGAAAGTATTTGTTATTAATCGCAGTAGAGTATCTATTGCTCAATATGCAAAAGTAGTTTCTAACGGCGGTGTTGTTATTGCAGGTATGAATAAAACTCGTCAAAGTTTAAACCAAGCTATTCGTTCACACCTTGGCTTTAATGAACCAGTTCTTATGAATGATGAAACTGTTGTAATCAAAGAGAACATTGATGGTGGTAACAATGGTGAGATTCAAGTCACTAACGGTATGCGTGGTAAAGTATCTGAAGTTAAGAAACTAAGTAACGGAAATATTAAGTTCAAGTTTACTCCTGAAGCATTTGATGGACATCGCTATATTGAAGTAAACGAGGATGTATTGTTTGAGAGAAAGACAGCTTCTGAGATTCGTAAGAAGAACAAGGAGCTTAGAGTTCAAGGAAAACGCGAAATCCCATTAGGCGTAGAAGTTCAGTTTGGATATGTTATTACTGGACATGCTTCTCAAGGTTCACAATGGAAGACTGTATATGTAATTAATGAAAGTGGAGTATTTAATCGTGGAGCTGATGGATATAAGAATGCTAACAGATGGTTATACACAGTAGTTACACGAGCAGTAGAAAACTTAGTAATTGTAAGATGA	MTIMTTNQLLNHLNTKKEKPVTNPVDAVTVAEDIVASPKPVFNVDQTTEPVQPDKRKKKRDIVLTPSQQSVVSKIKRWYSTTHGYGKFELAGFAGVGKSTVVDFILEELGIRADQVRMCAPTGTASLVLKEKTPGYSCSTLHRLFYVPELMKDGRTRFVPSAENLYGVRLIIGDEFSMTGRRMAEEILPMAKKAGCKVLIVGDPGQLPPVKDEEYFFVNPDAILTEVLRQAADNPIVALSMAIRQATENGAPYIFPNRDQNIGGKVFVINRSRVSIAQYAKVVSNGGVVIAGMNKTRQSLNQAIRSHLGFNEPVLMNDETVVIKENIDGGNNGEIQVTNGMRGKVSEVKKLSNGNIKFKFTPEAFDGHRYIEVNEDVLFERKTASEIRKKNKELRVQGKREIPLGVEVQFGYVITGHASQGSQWKTVYVINESGVFNRGADGYKNANRWLYTVVTRAVENLVIVR				NA	NA	NA	NA	NA
AK009_03995	843			hypothetical protein	ATGAATAACAACGAAATCTTTGCAATGTATATGAACACATTAAACCAACAAGCACAGGCTCTTAACCAACAGACACAAGCTTTACAACAAGGCTTAACTTGGATGCAACAATCAAATACTGCACCTGTTCAACAAGAACAGTCTGTAGATGTTAATACATTAGTACAACAACAAATAGATGCTATGATGCCAGCTTTAATGAAACAAGCGGCAGATGCTGTACAACACACAAGTGAAGTGCCAGCACCATTCATTCCTCCACAACCAGTAGTGGAAGATATCGTAGAAGATCCTGCACCACAAGAATATATACTTGGCAACAAACAGTATGACTTATATGTTCGTATCGATAAGCCATGTGAAGGATGTCCATTCGCATCTTCTTGCGACTTAAAGGCATCTCACATTGCACAAGAGTGTGGAATCATGAACATGAAAGAAGCAGCTGTTGATGCAGGTATTATGGAAGTGAAAATTGAGGTAAATGAACAAACAATGACAACATCTTACCTTGTTTATAAAGATGGTCAATTCATTGGTTCTCTTGCTGACAATAGAGAGAACAAAACGATTCGTGCTGAATTAGAAAAGTATATGGGTCACACTGTTCGCGTAATGACTCACTTAAAGAAGAATGTTGCAAACTCTACTTTCACTGGATTATATGCAGAAATCTTAGAAGTAGTTACAGAAGTAAAACAAGCTCAACCAGTTCAACCTATTGTAGTAGCACCATCAATGTTTGATGAATCAATTCTTATTCCAGAAGTTAAATATCCAGAACCACCTACACAACCAGAAGAAGCAACTCTAGACTTAGGTGACATCGTTCTACCGATTTAA	MNNNEIFAMYMNTLNQQAQALNQQTQALQQGLTWMQQSNTAPVQQEQSVDVNTLVQQQIDAMMPALMKQAADAVQHTSEVPAPFIPPQPVVEDIVEDPAPQEYILGNKQYDLYVRIDKPCEGCPFASSCDLKASHIAQECGIMNMKEAAVDAGIMEVKIEVNEQTMTTSYLVYKDGQFIGSLADNRENKTIRAELEKYMGHTVRVMTHLKKNVANSTFTGLYAEILEVVTEVKQAQPVQPIVVAPSMFDESILIPEVKYPEPPTQPEEATLDLGDIVLPI				NA	NA	NA	NA	NA
AK009_03996	4173			hypothetical protein	ATGACTAACACTACTACAGCTACAACAACTCAAGGAACTAACACAATCAAGGGAGAGAACACAACTATGACTAACAACACTAACACAACTGTAAACAACACAACTAAAGGAGAGATTAAAATGACAAACAAAACAGTAGTATTCACAGCAGGTAACTTACAGGTAGTACAAAACGCTTCAGGACAAATCGCTAAAGCATTATTCGGTATGGGTGTAAAGGCTCCATTATTCTCACAATTCATTGGTACTGATGCAACTGCATTAACTGTAGATGCTCGTCGTAACAAATTCGTAGTAACAAATGAAACTGGTACTGAAACATCTATCCAGTTCTCTTCTGCTACTGGTAAGCAAGTAATCGATTACTTAATGGTGGTTATGCCTGGTCTATTCCCTAAGTTCATGGAATCTGCAGAATTCAAAGCATTAGAGAAGTTAAACTTAAAAGGCCGTCTTACTGCTAAGGCTAAAGTACACGGTAAGAAGACTCGTGAAACTGTATTAATGGCAGCATTAAACATGGGTGATATCTATGTAGCATCTAGTGGTGAAGTACTAGGTAAATTAGTAGACTTCGATGTAGAGGAATTAATGGAGAATGTAATGGTTCAAGTAGGAAAAGACGACAACAAGAAGGTAGTACTGCGTGATGATGTTCGCTTCTACATTGCTAAGGATACTAATGTAAGCAATCTAACTAATGTTAACTCTCTATTCCAAAAGATGTCTGGTAGCTTAGCGGCTTACCGTTTTGCAATGGCTAAAGGTAAGAAGACTCAAACAATCAATGTTGTTAAAGAGTACAGCAAGGATGGTATGACTCTACGTATTGAAGAACCACAGAAAGCAGTTATCCTTGATGAAATGTGTACATTCGACGGATCTGCTTCTCTACCATTTGGTGAAGAAGTAAACGGCGCAGTATTAAAAGCGGTATTCTCTGAGGTATCTGTATTACACCGTGAAGATGGTCAATTAGAAGTCGGTTCTGTTGTATCTGAAGAAGAAACATTCTCTTACAAAACGTATGCTAAATCAATGTCTCAAGCTCGTTCTAATGGTGCTGTTGGTTTCAAAACTCTTGAAGATGTAATTACTTACTTCTTAGGAACTGGTCAAGATGAGCGCGCTTATGGTAAAAAGCACAAATTAAATGGTGAAGCAACTGGATACAATGTAATGGATGTTGCTAAGTCTTACAAACGTTTCATGTTAGCAGGTTCTAATGGCCTTAAAGCTGATAAAGGTTTATTAAGCACATTCAGCCACAACCACAAAGTTGAGTTCTTCCCTGCTGGAACTCGTAATGTAATTGGTGAAATTAAACCAGCTTACATCGTAGTAACAAACAACGATGGCGAGAAAATCACAATCGCTTTAGTTGATGATTTCACTGGTCAAATCGCAATGGATCAAGACTTTATGTTAAACGTATTAAATAAAGATAATGCATTTGTAGGTGTTGAAAAGTTCAATAACTGGGATAACAAAGATGCTGTTAAAGCTCTTCTTTCTCGTAACCTTACAGATGGACAAGGATGGCACAATGATCGTATCACTGAAGGTTTACGTTCTGCAGGAGTAATCAATAGCTTTGATGCATTCCAATTACGTATCTCTAACGCAGTTAAAGGGGCTTCATTCCAGTTCAACCCAATCTGTGAATTATTCGATGCTGATATCATCCTTACTGACGGTATGGTTAAATCAGAAGATATCTTAGCTGATATCCAAGAAAATGGATTCCAATTATTCGTAGTTGGACAACGTAAAGATGGTAACGACGGTATCTGGGTTGCATCTCAAGCTACACAACAAATGGGATTATCTGTTGAAGAATTAAAACAAGGTGTTACAAATAGCGTTGATTTCGTTAAGAATTCTATTGAAGAGAAAATGACTGCTGATATCTTAACAATGCTTAATGCAGCTGAGGAAGAAGCAGAAACAGAATTCGCGGCGGTTGACTATGTACGTCTTGCTCAAGAGTTCGGTGACATTCTTGATGAGCAATACATTAAAGATGAGATTGTTGGTTTAGGAGTTAAGAAGCTTAACAAATTATTAGATTCTAAACTATTCACTACTCAAGCTCGTACTCGTTATATGTTCACAGATGTATTCGCTATCTACAATGCAGCTAAAGCAGGTCGTTACACTGCAATTAAAGAAGATGCTGTATTAGGTGCTTATGAAGTAGTTGCACCATCTAAGAAAGATGAAGAGTTCTTCCTAGAAGAAGGTAAGGCATTATCTGTTCGTTTCCCTGTTACAGTAACTCATGAAATTCCAGTTGTAACTGCGGTTCAATCTGCTGAGTATGCTGAGTTTGTTAAACAAGGTTTATGGCAAGGTATTACGTTCTTCGATGCTTTCTCTTGGGTTGTTGCACAACAAGCTGGTGCTGACCATGATGGTGATACTTCAATCATCATCTTTGACGAAGTAATGGTTAATGCTCGTATCCGTAAAGAAGTTGAGTTATACGGTAATCAAGCAGTACTTCCATTCGTTGATGCTTATGTTAAATACGAGAATGGTGTTGCTGTTGACTTCTCTACAGGTTGCCCTACTTACGTAACTGCAGCTGCTAAAGCAAAAGAAACTAAGCCAGAAGCTAAAGATGTAAATGGATTTATCGTTCAAGGTAACAATGTAATCTTCAATCCAGAAGAATTAAAAGGTGAGAACGGTACTGCTCGCCGTCATGATTTCTTAGAAGTAGTTGCTGGACTATCTCAACAAATCACTGTTGATACAATTGAAGCAAGCTTAATCGGTGTAATTGCTAACCGTGCAATGATCTTAACTGACCTTCTTTCTCGTTCAGTATTAAATGCTGCTCAACGTGCGGAAGTTGAAGCTGACTTACTTGCTTTATGTACTGCTGGTCGTTGGGAAATTGACCGTCCTAAACACGGTGGTGCTTACCTATCTATGCCTCTTATCAACAAATTATTCGCTAACTTCGAAGGTCGTTTCTTTGAAGAAGCAGAATTAGAATTAACAAATGAAGCTAAGTTCGCATTACTTGCTGAAGAAAAAGGTATTTACGCTCATATCTTCAGCCCGGTTGTACGTCAAGATAAAGTATCTGGTCAAGCTGTAATCACTGGTTTCGAAGTTAAGAAGCCACAATGGTTAGCATCTCAGAAAGATGAGTTTGGTGTTGTAAACAATGATAGTGCTTATGAGTTTGTATTTAACTATGCAGAAGAAGCTATCGTGGCATTATGTGAGAAGTTCCAAACAGGTCACAGCAATACTGCTAAGAATGAAATTCGTACTCGTATTGCTACACATATGGAAGTTGCTCCACAATCAATTGATGCAGTGAAGTACTATGTTGCTAACCTATACAATGCTTACACTCAAAAAGAGAATGTTCGCGCGGCTGCTGAGAAAGAGTTTATGCACCAAGCTGAAGCTGAACTTAAAGAAGCTGGTGTGTTCCGCAAGAAAAACATGCAATCTCTAACTAAAGCTAAGAAGACTGCTAAGATCCGTGCTAATTACGATGCTACATTATCTCAATACAAAATGGCTCGTGACCTATACAAAGCAGAACTTCGTAAAGAAATGTATGCAACTGCAAAAGAATTAGGTTTAGATGTTCGTCAATTAGTTGGTACTCTATACCTATTAGTTAATGAAGCAAAAACAAATGGTAAAGCTGCTTACCGTAAAGATGGCCGCGAATATCGTTTCGTAGCATCTAACGGATTCATTGCTTTACCATTCGAAGTGTTTGCGGAAGAAATGAACTCTTTAATCTCTGGCCGAGTTTCTGAGACTTATTTCGTTCCACAAGATATTACATTCACTCTTTTACAATCTAGCTTAGTTGAGAAAGTTGCAGCTCCAACTGCAGTTTCTAACCAAGTGAAAGTTCGTGTTATGAACCCGGTTGCAAAAGTAGCGAATAAAACTGTTTCTGTTAACCGTAACGTTCGTGTTGCGATTAAACCAGAACAACAGCAAGATTCTGTTCGCCTTGTAATGTACTTCTTAAACAAAGATGCACAAGTTACTGACGCTATGGCAGTTACTCGTGAAGATGCAGCATACATGGGGTTTGCTCCAACAAACTTCAGCATGGCTGGTATCTATGAAATCCCTGTTACAGAAATCGCATTTGGCGAAGAAGGAACGACTGCTATCGTTCGCTTCTAA	MTNTTTATTTQGTNTIKGENTTMTNNTNTTVNNTTKGEIKMTNKTVVFTAGNLQVVQNASGQIAKALFGMGVKAPLFSQFIGTDATALTVDARRNKFVVTNETGTETSIQFSSATGKQVIDYLMVVMPGLFPKFMESAEFKALEKLNLKGRLTAKAKVHGKKTRETVLMAALNMGDIYVASSGEVLGKLVDFDVEELMENVMVQVGKDDNKKVVLRDDVRFYIAKDTNVSNLTNVNSLFQKMSGSLAAYRFAMAKGKKTQTINVVKEYSKDGMTLRIEEPQKAVILDEMCTFDGSASLPFGEEVNGAVLKAVFSEVSVLHREDGQLEVGSVVSEEETFSYKTYAKSMSQARSNGAVGFKTLEDVITYFLGTGQDERAYGKKHKLNGEATGYNVMDVAKSYKRFMLAGSNGLKADKGLLSTFSHNHKVEFFPAGTRNVIGEIKPAYIVVTNNDGEKITIALVDDFTGQIAMDQDFMLNVLNKDNAFVGVEKFNNWDNKDAVKALLSRNLTDGQGWHNDRITEGLRSAGVINSFDAFQLRISNAVKGASFQFNPICELFDADIILTDGMVKSEDILADIQENGFQLFVVGQRKDGNDGIWVASQATQQMGLSVEELKQGVTNSVDFVKNSIEEKMTADILTMLNAAEEEAETEFAAVDYVRLAQEFGDILDEQYIKDEIVGLGVKKLNKLLDSKLFTTQARTRYMFTDVFAIYNAAKAGRYTAIKEDAVLGAYEVVAPSKKDEEFFLEEGKALSVRFPVTVTHEIPVVTAVQSAEYAEFVKQGLWQGITFFDAFSWVVAQQAGADHDGDTSIIIFDEVMVNARIRKEVELYGNQAVLPFVDAYVKYENGVAVDFSTGCPTYVTAAAKAKETKPEAKDVNGFIVQGNNVIFNPEELKGENGTARRHDFLEVVAGLSQQITVDTIEASLIGVIANRAMILTDLLSRSVLNAAQRAEVEADLLALCTAGRWEIDRPKHGGAYLSMPLINKLFANFEGRFFEEAELELTNEAKFALLAEEKGIYAHIFSPVVRQDKVSGQAVITGFEVKKPQWLASQKDEFGVVNNDSAYEFVFNYAEEAIVALCEKFQTGHSNTAKNEIRTRIATHMEVAPQSIDAVKYYVANLYNAYTQKENVRAAAEKEFMHQAEAELKEAGVFRKKNMQSLTKAKKTAKIRANYDATLSQYKMARDLYKAELRKEMYATAKELGLDVRQLVGTLYLLVNEAKTNGKAAYRKDGREYRFVASNGFIALPFEVFAEEMNSLISGRVSETYFVPQDITFTLLQSSLVEKVAAPTAVSNQVKVRVMNPVAKVANKTVSVNRNVRVAIKPEQQQDSVRLVMYFLNKDAQVTDAMAVTREDAAYMGFAPTNFSMAGIYEIPVTEIAFGEEGTTAIVRF				NA	NA	NA	NA	NA
AK009_03997	258			hypothetical protein	ATGGAAGGACTTATGTATGAACGATTTGAACAAGACCTACTTGATCATTGGGTAAAGAGTCAGGAGTCAGCAAGGGTGGGACAAAAGACCACTGTTGTATGTCTTCAAATGAACAATGGGTTTGAAGTAGTTGGACAGTCAGCTTGTGTAAACCCAGATGAGTACGACTATGAACTAGGTGTCTATTACGCTACTAAAGACGCGCTTAAAAGAATCGCTGATATTGTAGCTTACCTTGAACATGAAGGTACATTTTAG	MEGLMYERFEQDLLDHWVKSQESARVGQKTTVVCLQMNNGFEVVGQSACVNPDEYDYELGVYYATKDALKRIADIVAYLEHEGTF				NA	NA	NA	NA	NA
AK009_03998	273			hypothetical protein	ATGGATTTCGGACAAGCATTGATCTCATTAAAAGAAGGAAATAAAGTAGCACGTAATGGTTGGAATGGTAAAGGACAGTGGATTGTACTAATGCCTTCATTATTTCTAGAAGCAGGTGTAGTAAATGGACGTACATCTAAACATCTAGGACAAGGTGTAGATTTAGATTCTCAACCATATTTCGCCTTATATACAGCTCAAGGCAAATGGCAACCAGGATGGGTACCATCTACATCAGACGTTCTATCAGAAGACTGGGAAGAAGTAGCTTAA	MDFGQALISLKEGNKVARNGWNGKGQWIVLMPSLFLEAGVVNGRTSKHLGQGVDLDSQPYFALYTAQGKWQPGWVPSTSDVLSEDWEEVA				NA	NA	NA	NA	NA
AK009_03999	705			hypothetical protein	ATGTCTGTAGAAAAACGTATGGAAGAGTTACGTCAAATGGAAGTAGAGACACCTGAACAGTTAAAGGTAAGAGCTACAAATGAATTAGTATTACCTTCTACTTGGAAAGTGTCCAATGAGACAAGAGGAATGATTAATCAGTCTATGGAGATTTACAACACAAAACATGGACTATATGCTTCTGTTCCTATGCTATGCCAAGGTGAGAGTTGTCCTTATGCAAGTGTTTGTCCGTTACTTGATGGAGGAATGGATCCAAGTGGTTCTCGTTGTCCTCTTGAGATTGGACTTATTATGAAACGTGTAGATGAATACCAAAAGGAATTCCATGTTGCTGATAATGACGTAGTTGATATGAGTTTGATTAAAGACTTAGTAGATTACGATGTTCAGTTATTCAGAGCAGAGAACCGAATTGCTATGCAAGGTGACTTCATCGAAGACGTTGTTGTAAGTGTAACGGATAACGGTCAGGAGATAACAGCCCCTCAAATATCTAAGGCAGCTGAGTATAAAGAGAAGATTATGACGAAGAAACATAAGGTTCTTCAATTGATGCACTCTACTCGTTCTGATAAAGCAGGAGATAGATTAACTCTTACATTGGACCCAAGTTCTTATGCATCTCAGTTAATGTCTCAAATTGCATCCACTATGGAGCCTGGACAGATATTCGATGCAGAGTTCGACGAGGTTGGGGAATAG	MSVEKRMEELRQMEVETPEQLKVRATNELVLPSTWKVSNETRGMINQSMEIYNTKHGLYASVPMLCQGESCPYASVCPLLDGGMDPSGSRCPLEIGLIMKRVDEYQKEFHVADNDVVDMSLIKDLVDYDVQLFRAENRIAMQGDFIEDVVVSVTDNGQEITAPQISKAAEYKEKIMTKKHKVLQLMHSTRSDKAGDRLTLTLDPSSYASQLMSQIASTMEPGQIFDAEFDEVGE				NA	NA	NA	NA	NA
AK009_04000	576			hypothetical protein	ATGACTGCTAAAGAGCATGTAATTGACACTTTTGCTACCTCTAAGTTTCTACAAAAGAATAGGTCGAAAATAGCGATGGGTGCTGTAGGTTTTGGATTAGCTAAGTCTATTGTAGATGGAGAAGAAGATGATTTATTTACTTCTGCAGGAAAAGGAATCAAAACAGGTGCTGTAGTTGGTGGTCTAGCTTATGGTGCAGAACACTTAATGAAAACTCAAACTGTTCAAGATCTAGTAAAAGGTGAGATTTCTGACGTAGGAAAAGAAGCTATTAAGAAAGTGAGTAAAGGAAGTAAAATGCTTCTTTCAGGTAACAAGCTAGGTACTGCTATGAAAATGGGTATGTACGCTGTTGGTGCTGCTACTGTTTTAGATGCAGGACAACGCATGGGTGAAAACCGTGAAGCAGAAAAGATTAAGAGAGAGCAAGAATATCGTCTTGAGCAAAAAAAGAAGAAACAGAAGGATAAGAACAAGAAGTATTCATATGGAAACATAAATCAAGGAGAAGTCGTATTTGACCTATTTGAAGCAAGAACAGGTCATCACAAGATGGGCAACGCTAAATTTAATTAA	MTAKEHVIDTFATSKFLQKNRSKIAMGAVGFGLAKSIVDGEEDDLFTSAGKGIKTGAVVGGLAYGAEHLMKTQTVQDLVKGEISDVGKEAIKKVSKGSKMLLSGNKLGTAMKMGMYAVGAATVLDAGQRMGENREAEKIKREQEYRLEQKKKKQKDKNKKYSYGNINQGEVVFDLFEARTGHHKMGNAKFN				NA	NA	NA	NA	NA
AK009_04001	837			hypothetical protein	ATGGCAAGATGGCATAAAAGCGCAGAAAGAGTAATGAGCGCAGTAAGTAGGAAGATCAATAATAGTCCTGAACTGCTAGAGCGTATGACATCACCAGTTAAAGGTGTAACTAGAACAGTAAATGGTCCTATTGCACGAACTCCTAATTTTGTTCCGTCTAGCTCAACAAACTTGATGGACGACATGATATCTAAGGCTACTGCGCCAAGAGATAAGATTCGTGCAACAAGAGCACAAGCAAGAGCAGGACAAGGTTCTAAGAATAAAGGAAGTCTTAGAAATGCAACTCCGGAACAAATTCAAGCTAGGAAAGAATCGGCAAGAAAAAGTAAGTCAGCAAGAGAGACAAGAAAAAGAGTAGCAGGTTCACAAGAAGCTCTTAATGGTGCTACTCCAAACGATAAGTTTCTTGGCCGTATAGGTGCTAGTGCAAAAACCTTACTTGGCTCAGGAATGGAAAACCTTAAAGCAGAAGGTAATTTAAGAAAAGCAGGTATAGGTGCATTTCAATCATCGGCTGCTTCTGCAGCTGTGCATGGTGGTATTGGTTACTTACAAGGAGAAGATCCTTGGGAAGCAGCTAAAACTGGTGCAGTACGAGGTGCTTTTGCGGGTGCAGGTTACCACGGTTTAAAGGCTGCTACACACGCCAATAAAGGTTCTATAAAGGGCAATCTTAAGCACATAGGTTCTACTACTCAACAAGTTTACAAAGCCCATACACCAGCAGGAAACGCTGCTATGAGGCAGAATGGTGTGTCTAATCAATTAAAGCGTGTGCTAGAGGCAAATCAGATGACTCAAAAAACAAATAGCATATTCGGATTTAATAGATAG	MARWHKSAERVMSAVSRKINNSPELLERMTSPVKGVTRTVNGPIARTPNFVPSSSTNLMDDMISKATAPRDKIRATRAQARAGQGSKNKGSLRNATPEQIQARKESARKSKSARETRKRVAGSQEALNGATPNDKFLGRIGASAKTLLGSGMENLKAEGNLRKAGIGAFQSSAASAAVHGGIGYLQGEDPWEAAKTGAVRGAFAGAGYHGLKAATHANKGSIKGNLKHIGSTTQQVYKAHTPAGNAAMRQNGVSNQLKRVLEANQMTQKTNSIFGFNR				NA	NA	NA	NA	NA
AK009_04002	447			hypothetical protein	ATGGCTATTTTAAATTCAGTCAAAAAACTTGCTAAGATAGGCGTTCAAAATACTAAGATTGGTACAAAGATGGCTGCTCATAGTGTTAAAAACAGTCCGAAAACAATTACTAATGGAGTTAAGAACGCTCCAAAGAATATTGTTAAGAGTACTTTTGTTGATACAAAGGATAAAGAAAAGACGTTGAGTAATTTCTACACTGGTAAAAAATTAAATCCAAAACATGTTATGGCTGTTGGTGGAGGTTACCTTGCCATTAATAATGCTAAGTTAGGGTTTGAGCATAAGACAATTGAACCTCTTAGATTAGCAACTATGAATAACTATCAGGAGATGGGCGCGCCGGACGTCATGATGTATGACGGCGTAGGACAAGAACGTGCCCCTAAGAATCTAAACGCTGATGGTAGCATTGTATTTGGTCTTCACAATAATAGAAGGGGGTAG	MAILNSVKKLAKIGVQNTKIGTKMAAHSVKNSPKTITNGVKNAPKNIVKSTFVDTKDKEKTLSNFYTGKKLNPKHVMAVGGGYLAINNAKLGFEHKTIEPLRLATMNNYQEMGAPDVMMYDGVGQERAPKNLNADGSIVFGLHNNRRG				NA	NA	NA	NA	NA
AK009_04003	447			hypothetical protein	ATGGCATTAAAAGCCGTTTCTAGTGTATTAAAAGCAGTAGGTTCTAAGGGTGGTAAGAAACTTGCTACAGCTGGTGGTCTTGCATTCGGAGCCGATACTGCAATGAACTTATATGGTGGCGATGACTTAGGTACATCTGTACTAAAAGCTGGTGTTACGGGTGCTTTAGCTGCTTCAAACCCTCTACTATTTGGGGGAATAACTGTTGCAAGCATGGCGCAAGATGGCTATTGGGGCCTACAGCAATTCAATCACCAAAAGAAACAATGGTGGAATGCACAGTATGCAACAAACAATAGAGTTGGCGGAAATTATGTGGATACACAAAGAGCCCAAACTATGAGACAAGCAGCTGTACAAGCCATTCAAGGAAGTAAGATGAACGCAAGGAGTGCGCTTGGCGGAGAAGCTAAGATATTAAACCCTTACGCATCTAGAAGATATTAA	MALKAVSSVLKAVGSKGGKKLATAGGLAFGADTAMNLYGGDDLGTSVLKAGVTGALAASNPLLFGGITVASMAQDGYWGLQQFNHQKKQWWNAQYATNNRVGGNYVDTQRAQTMRQAAVQAIQGSKMNARSALGGEAKILNPYASRRY				NA	NA	NA	NA	NA
AK009_04004	2895			hypothetical protein	ATGAGCCAATTTACTAAGTATGACCAGGAAATGCTCGAAATTATTCGTGATCCTGTTAAGTGGACAGAGCATCACTTAGGAGAAAAACCACGTTGGTATCAAGAGCAAATCCTTCGACATCCGCATCATCGTAAAGTTTTACGTTGTGGTCGTCGTATCGGTAAATGTATAGAAGAAAATCAACGAATCATCAATCCGAATACGGGAGAATACCAATCGGTAGGAGAGCTTTACAATGCTCAAGTTAATGGTAGCGCTACACCACTGTTAACGCTAAATGAATCCTATCAGTTAGAAAATAGCGAAGCCTTCTTTATTGAAGATAATGGTGTAAAAGACACATTCGCTGTTGTAACAAAACATGGAGCAAGAGTTGTTCTTACAGGAAACCATCCAGTATTAACAGTAGATGGGTGGAAAGAAGTTGATGCACTTCGCATCGGTGAAAGTATCGCTACACCTAAATTCTTACCTGTATACGGAACAAAACAAGTCGATAAAAACAAGCTCCGTATCCTTGCGTACATGCTCGCTGCGGGCCGTTTTAACAAGGATAGTATTAGCTTCCAGGCGCGCTATGAAGGCGTTAGAGAGACGTTACAGGCGTCTTGTGAGGCACTTGGTATTAGAACATATCGTGAGCGTCATAAGAAGGCTACAATCTATTTAATGAACTTCAGTAGCTTCGAGTTTTATAGAGAAATAGAAGAGAAAAAAATCCCTTCATTTATCTACGAGTTAGATAGAGAACACTTAGCATTCTTCTTAGGAAGTCTGTATTCTGCAGGTGGTTGGTTCTTTGCTGGCCGTATCTGTGAAATCGGATACGCTACGAAACATCGTCAGTTCGCATTAGACTTAAAACACTTACTTCTACGTTTTGGTATCCAAGCGAATTTACTTCAAAAGGAAATGAACGACTCTGTTTATTACCACCTTATGATTTATCACCGTTCCTCAATCTTATTATTCCTCGAACATTTAGCTACACCAGAGCGCAATTATGAAGAAATTCAACAACGCGCACTTGAAATGAACTCTTCTGAACCAACACTCCCTAAAGAAGTATGGAAATACATTGAAGAAGAACGAATTGCTAAAGGAATCAAGAAAGCTGAGGTAGTTGGAAAGGGTAACCGCCGCTATCGTACAGAGAAAGGTATCTCTTTAAGTAATGCTCGTGTATATGCAGAGAACTTACAATCTGCAATGCTACATGACTTAATTAACTCTCATGTATTGTGGGAGGAAGTAGTAGAGATCATTCCTCTTGGTAAGAGACAAACTTATGATGTTTTCGTTCCAGAGACTCATAACTTAGTAGTTGAAGATATCCTTGTACATAACACATGGACAATGTGTGCTCATATGTTGTGGGTGGCATTTACATGTAACGGTGGAACAAGAATGGCAAAAGGAGCAGCTTGCGTTGTCGCGACCCCTTATGATAACCAAGCCCGATTAATCTTCGACCAATTAAAAACCTTCATTGATAATAACCCCGTTTTACAAGAGTCCATCAAATCTATTACTAAAAACCCTTACGTAATTGAGTTTAAAAATGGTTCAGTTATCCGTCTGTTCACTGCTGGTACACGTTCCGGTTCAGAGGGTGGATCTCTTCGTGGACAACGTGCAGATTGGTTGTACATGGATGAGGTTGACTACATGGGCGATAAAGATTTTGAATCTATCTTTGCCATCGTCAATGAAGCACCTGACCGAATTGGATGTATGATTGCATCAACCCCAACAGGTCGAAGAGGGATGTTCTATAAAACATGCACTCAAATGAAGCTTAATCAAGATGTGAAAATGAATAAAAATAACGTTTATGATATGAGGTCATATAACCGTACCTTATCTGAAGGTTGGGCGGAATTCTACTTCCCGACAATGGTTAACCCTGAGTGGGGACCTAAGATGGAACGTGAGTTACGCAAACTATTCTCAGAAGCAGCTTATGAGCATGAGGTACTTGCAGAGTTTGGTACAGAGATGGTTGGGGTGTTCAACAAGGATTACGTTGACGAAGCTTCAAGCATTGGTTACAACTACACTACATCACCAACTCATGATGGTCCTATTGCAATAGGTATTGACTGGGATAAAGCAGGGGCAGCTACACAAATTGTTGTTACCCAATACAATCCTTTTGAGGTTCGTCGTCCAAGACCAGAACTTGGAGAAACAGAACCATCATTCGGACGATTCCAAATCATTAACCGTATTGAAATCCCTAAAGGGGAATTTACATACGATATTGCAGTTAAGAAAATTATTGAACTAGATGGAGTTTACAATCCGTTTGGTATCTATGCAGATGCCGGGGCTGGGGAATACCAAATTGAGCTTCTACGTAAAACACTAGGCGACAAAGTTAAACGTGTTCACTTAGGTAGTTCTCAAATGGTAAGAGATCCACACAGTAGAGAGTTTGAGAAGAAACCGTTAAAAGCATTTATCGTTGACCAAACGAAATTAATGTTAGAGCGTGGACAACTCCGAATCCCTCATCGTGAAAAAGACGAAACACTAGCACGACAAATGACAAACTACCAAGTAACTCGCTATAGTCCAAAAACAGGTGAGCCTACTTTCACAGACGTAGACGAACATGCTTTAGATGGATTGATGTTTAGCTTACTAGGGTTCATCAATGAAAAACCCGAATTAGCTGCAACTGTTATCAATAAGCCAAATGCTAAGACAATAGCGAAGGTGAAGAAAACATTTACTGATCCGTTTAAACAACAAGAAAGTGCAGCTAATTCTAGTGATTCAGAGTTAAGACAGAAATCAAAAACAACAAAAGTAAGACAAAGAGCTGCCCAAGGTTTTGGTTGGGGTAGACGTGGCACTAACATGAATATGCCTTCCCGCGGAGGGTGGTAA	MSQFTKYDQEMLEIIRDPVKWTEHHLGEKPRWYQEQILRHPHHRKVLRCGRRIGKCIEENQRIINPNTGEYQSVGELYNAQVNGSATPLLTLNESYQLENSEAFFIEDNGVKDTFAVVTKHGARVVLTGNHPVLTVDGWKEVDALRIGESIATPKFLPVYGTKQVDKNKLRILAYMLAAGRFNKDSISFQARYEGVRETLQASCEALGIRTYRERHKKATIYLMNFSSFEFYREIEEKKIPSFIYELDREHLAFFLGSLYSAGGWFFAGRICEIGYATKHRQFALDLKHLLLRFGIQANLLQKEMNDSVYYHLMIYHRSSILLFLEHLATPERNYEEIQQRALEMNSSEPTLPKEVWKYIEEERIAKGIKKAEVVGKGNRRYRTEKGISLSNARVYAENLQSAMLHDLINSHVLWEEVVEIIPLGKRQTYDVFVPETHNLVVEDILVHNTWTMCAHMLWVAFTCNGGTRMAKGAACVVATPYDNQARLIFDQLKTFIDNNPVLQESIKSITKNPYVIEFKNGSVIRLFTAGTRSGSEGGSLRGQRADWLYMDEVDYMGDKDFESIFAIVNEAPDRIGCMIASTPTGRRGMFYKTCTQMKLNQDVKMNKNNVYDMRSYNRTLSEGWAEFYFPTMVNPEWGPKMERELRKLFSEAAYEHEVLAEFGTEMVGVFNKDYVDEASSIGYNYTTSPTHDGPIAIGIDWDKAGAATQIVVTQYNPFEVRRPRPELGETEPSFGRFQIINRIEIPKGEFTYDIAVKKIIELDGVYNPFGIYADAGAGEYQIELLRKTLGDKVKRVHLGSSQMVRDPHSREFEKKPLKAFIVDQTKLMLERGQLRIPHREKDETLARQMTNYQVTRYSPKTGEPTFTDVDEHALDGLMFSLLGFINEKPELAATVINKPNAKTIAKVKKTFTDPFKQQESAANSSDSELRQKSKTTKVRQRAAQGFGWGRRGTNMNMPSRGGW				NA	NA	NA	NA	NA
AK009_04005	1356			hypothetical protein	ATGGATGAAGTTTTAGGAAAGAAAGTTGAAATAGATACCGAATTAGAACGTTCCGTTATAGAGTACAGACCAAGAGTAAAGTACGAACCGAATAAACCGTTCACTGTACATTTGCAAACAGAAGAAGTTATAGGAGAAGACCCGGAAGAACTTGAAGAAGATGGTTCTTTTGTTCCCGAAGAAAAACCTGCTAAACAATACGATAAGTTTGTCGATACATTAGATCAGATTAAGGTACTTATTGATTCTGTTGAGAAGAAGATAAAAGACCTAAAGATTCCTATTTCTCAGGTGGAATTAGAAAAAATCTACGAATCACAACCATCATTCGATCCAAGCATAGCTAACAATGGTTTTATTGATTTTGATATATACAAGAAAACATTTGAAGATCCAGAAGCTCCTGCAAATTCACTTATCCAAGACATTGTTCATTCATATGCAGAAGATGTAGAAGGTAATTTAGATCTTGAATTTTATGAAGACCTAAAGGAATTGCAATTAACAGTAGAAGAGGGATACTTCTTATTTAAAGAAACAGTTTTAAAGAATTACCTTGATGGCGACATTCCTGCTGAACCAGAAAGAAATAAGGACTTCACTGAACAAATCGAAGAAGCGGTTAAGAAACAAAAAGAATGGTTTGGACAAGTAACAAAACTGTATAAAAACAATGAAGGTACATATTATGAATCCCTTAGAACAGAGTATGGTTCTCCTGAATTCTTTAAAGCAAGTGATGAATATTTAAAAGCAAAACGCCCTTATGATATTGCGATTCGTGAGGAAAAAACACTTAATGAAATGAGTTCTCTTGTAGATGGTCTTCTTATAGCCTCGGAAGATTGTTCCGACTCTATTAAATCCGGATTAGTTTTAGGTAGCGAGATTGATAGTGAAGGGGTTATGAATTTATTAGAAAATCAAGCTTCTACTAAAGAACAACTTACCGATTTACTCAAATTAACGCAGTTATCCTTGAAGCTACAACTTAACCAACAAATTGAAGATAAAAAACAATATCGAGATGTATTGAAGAACATCAACAATCTTTCTCGTAAAAAGCGCTCACATGATGAATTACTTATGGCGTTCGAACTTCGAAACAAGATGTATCTAAACATGTATGACTCATTGCAACACTTAGAATCTCCAAGTAAAGCACCTGGGGTGGAATCATTCCTAAACCAAATGGCTGGAGGATTAAGTCTTGTACAAGGACAGTATGATTCATTCCTGCAAGATGTGTATGCAATGTATATGTCTGAATACGAAGTGAGAAAAGAGAAAATCGATAAAACGTTAAACAAGGAAAATGCAAGAGCCGGTTATTCTTTGGTATTAGAGTATCTATAA	MDEVLGKKVEIDTELERSVIEYRPRVKYEPNKPFTVHLQTEEVIGEDPEELEEDGSFVPEEKPAKQYDKFVDTLDQIKVLIDSVEKKIKDLKIPISQVELEKIYESQPSFDPSIANNGFIDFDIYKKTFEDPEAPANSLIQDIVHSYAEDVEGNLDLEFYEDLKELQLTVEEGYFLFKETVLKNYLDGDIPAEPERNKDFTEQIEEAVKKQKEWFGQVTKLYKNNEGTYYESLRTEYGSPEFFKASDEYLKAKRPYDIAIREEKTLNEMSSLVDGLLIASEDCSDSIKSGLVLGSEIDSEGVMNLLENQASTKEQLTDLLKLTQLSLKLQLNQQIEDKKQYRDVLKNINNLSRKKRSHDELLMAFELRNKMYLNMYDSLQHLESPSKAPGVESFLNQMAGGLSLVQGQYDSFLQDVYAMYMSEYEVRKEKIDKTLNKENARAGYSLVLEYL				NA	NA	NA	NA	NA
AK009_04006	2106			hypothetical protein	TTGAATATGATAGAACGAATTCGTAAAGGAGTTCGATTAAGAACTATTAATGAAGCACCTTCCGCAACTAAACGTGACCCAAAGAAAATTGCAGTTAAACGTTTAGGGCAAGCCGTCAAAACTGCGGGTGGGGGAGGAGACTTCGAGAATTCGCCAGTTGATTTAGCGGAAATTGGACGTGCTTATTATACGGACAGTTATATTCGCAGAGCTGTCGATAAACATGCAGCCTTAATGTTTAAAAATGGTTGGGAGATTTCGGGGAAGAACGATCAAGCAGTTGAGTATGTATGGACCCGATTAAAACTAATGTCAGAAGCAACAGGTCAAAGTATAGATTCATTCCTACAAGAGATTTCTGACAACCTAATCCTTTATGGTAATGCCTACGTTGTAAAAGCTCGTGCAAAGACGGGTGGGTTACCAACTGGTGTTACAGCTATAGGATACACAGGTAAACAACCAATTGCAGGTTACTTCCCCTTAGCTGCTCCAAACATCACAGTAAGTCGTGATGATAATGGTAAGATTCTAGCTTATGAGGAGACTGCAGGTAGTGGTGGTGGAGAAGGTGTTCAATACAAACCAGAAGATATGGTCCACTTCACCTATCGCAAACCAAGTGGTCGTGCTTACGGTATACCATTCATCTTTAATGCTTTAGATGATGTTAAGCTCCTTCGCCAAATCGAAGAGAACGTAGCAAGATTAATTTACCGCAACCTATTCCCTCTATATTTATACAAAGTCGGTATTGATAAACCGGGCTTTGAAGCCACAGATGAAGAAATAGAAACACTTCGAGAAGAAATCCGTAACATTCCTGTAGATGGAGCCTTAGTTGTTCCAGAGCGTCACAACATTGAAGTAGTTGGTTCACAAGGACAAGCTATCGATGCAAATGGATACTTAAAGTATTTCCGTCAACGTGTATTCTCCGGATTAGGAGTAAGTGACACAATCATGGGTATTTCGGATACCGCTAATAAATCCACATCTGATAATCAATCCTCAGATTTAAATGACTCCGTGAAAGACTTCCAAAAAACATTCGCCGATATTGCTAAGTTCGCAATCATTAATGAGCTTCTTTTTGAAGGTGGATTTGATCCTATTTTAAATCCAGATGATGAAGTGGACTTTATATTCCACGAGATTGAATTCGATGCAAAAATCAAACGCGAAAATCATGTTGTTCAATTGTTTATGCAAAACACAATTACGTTTGAAGAAATGCGTCAGTTACTTGGTAAAGACATAACAGTAGATGAATCTCGTCTATATGGAAATATGTTTAGCGCAGCAACAAGCACATCTGCAGATAGTGAAGGTGCCGCTAATCAGGGTAACAACAAAGATCAGCCAGAGAATCAACATGGTAAGCAGACAAGCCCAGGTAAGCCTAAAACATCTGAGACGAAAAATAAGAGTGTTTCAGTTTCAGAAAACACAAAATTGACCGAGGCTACTCAACTGGTTAATTTGTCTGAGTCATTACAAGTTGGTTCATTCACTGAAAAGATGGAGAAATACTGGTCTGATGCAATGGAGGATGTCCAAGATAGAGTTTCTAATCAACAGGACACTGAAACCATAACTGCATTTACTACTGGTCTTGTTACTCAACTATTCTATGAAAAGACTCGTCCATTTGTAGAGCGTTCATTCCTATATGGATTCCAAGATGGATTAAACCAAATGGGGAATCAGTTAACGAAATTACAGCCGGGCGATACAGAAATCGCGGTAGAGAAACATAGCCAATCATTTAAGAAGTTAACACAGGATATTACAAGTTCTGTATCAGCCTGTTATGAAAAGGAAACACCAGTTGCTCATGTTAGCCATGCATTTATAGCTAATCGTTATCGTATTGGATTTATCGCGAAACGAATCGCCTATGAAGTTTATAACTATGGAGTTGCACTAGCAGCGGAGAGAGCCAAAAAAGACAGGGTTTATGTTAAGCATAAACCTAATTGTTGTAAGACATGCTTATCCGCTTCTTCTGAAATCCTCTTAACTGATGGTTGGAGAACACAAATACCACCTCATCATACCAACTGCGAATGCACAATTGTACTTACCAACAAGGAGGTCATCTAA	MNMIERIRKGVRLRTINEAPSATKRDPKKIAVKRLGQAVKTAGGGGDFENSPVDLAEIGRAYYTDSYIRRAVDKHAALMFKNGWEISGKNDQAVEYVWTRLKLMSEATGQSIDSFLQEISDNLILYGNAYVVKARAKTGGLPTGVTAIGYTGKQPIAGYFPLAAPNITVSRDDNGKILAYEETAGSGGGEGVQYKPEDMVHFTYRKPSGRAYGIPFIFNALDDVKLLRQIEENVARLIYRNLFPLYLYKVGIDKPGFEATDEEIETLREEIRNIPVDGALVVPERHNIEVVGSQGQAIDANGYLKYFRQRVFSGLGVSDTIMGISDTANKSTSDNQSSDLNDSVKDFQKTFADIAKFAIINELLFEGGFDPILNPDDEVDFIFHEIEFDAKIKRENHVVQLFMQNTITFEEMRQLLGKDITVDESRLYGNMFSAATSTSADSEGAANQGNNKDQPENQHGKQTSPGKPKTSETKNKSVSVSENTKLTEATQLVNLSESLQVGSFTEKMEKYWSDAMEDVQDRVSNQQDTETITAFTTGLVTQLFYEKTRPFVERSFLYGFQDGLNQMGNQLTKLQPGDTEIAVEKHSQSFKKLTQDITSSVSACYEKETPVAHVSHAFIANRYRIGFIAKRIAYEVYNYGVALAAERAKKDRVYVKHKPNCCKTCLSASSEILLTDGWRTQIPPHHTNCECTIVLTNKEVI				NA	NA	NA	NA	NA
AK009_04007	1398			hypothetical protein	ATGAACATTTTAAAGTGGAAGGGTCTTGATATTGACCCTAAGGAAATTCATGAATCTGTAACTACGAAAGCAGAAATCTCACAAATAGATACAGCATTTAATGAATCTACAAGCGAAAGTGGAATTACTGTTCTTTATCCAAAGATTGAAGCAATCCACGAAGGAAGAACTCGTAACTTTAACCGCTATACTGCAGAAAAACTAAAAGGAAATCACGAATTAAAAAGTGGTGTTTATAGTTGGACGCAACCTTTCCCCAAACCCGTTATCCACAATCACGACGTTAATACAGAAGCTACTGGTCGTGTTTACTCCGCTTCATTCACTGAATATACTTCAGCTGGTCGCCCCGGCATTATCGTAACTCCTAAAATTACTCAAGAAAAAGCAATCAAAGATATTCTAGAAGGTCGTTTATTAACTGTATCTATCGGTGCAACTACAAACGCTGCTGTATGTACTGTTTGTGGAACAGACATCATCAACGAAGGTTGGTGTGGTCATATGCGTGGAGAACAGTATGACGGCAATGTATGTGAATGGGTTGCTGGTGACTTATTCTTCGACGAATTAAGTTGGGTAAACGTACCTGCCGATTCCGATGCAATGATTACAACGAATGGATTAACTAGCAACACAATGTCTACTGGTGAAGGTGTTACTGATTTAGGTGGGGGTAAGATCGTGGCAAGCTCAATCAAAGCTAATCATATCGATACTTCGACTTCAACGTTGACTCCTGATTCTGGAGTGGTTAAAAGTGTAAGTGAATCAAATGAAAAGGAGGAAAACATAGTGACGCAAGAGGACAAAAATGTTGTAACTGAGCCAGTGGTAGAAGAAGCTGCTCCGGTTACAGAAGAGAAAGATGAAGCAACTACAGAAGAAACTGTTGTAGAAGAGACAGTAGAAGAAGCTACTCAAGAAGTTACAGAGGAAGAAACTCCAGCTACGACTGTTGAAGAAACTCCAGTAGTCGAAGAGCCAGTTGTAACAGAACAAGAAGAAACTCAATCTGCTGAACTTACTCAAGTTCAAGAAGAGTTAGTTGAAGCTAAAAATACGATTGAAGAACTAACAAGTGCAAATGAGAAACTTGCAAAAGATCTTCATGAATCTACTGTTGGTTTCCTAGTTGATCTACGCATGGCAGTGGGTAAAGAATCTAGTCGCGAAGATGCAACTACAAAATTTGCTGCTCGTTCTATCGAGTCCTTACGTGATTCTATCTCAGACATTCTAGCAGAAAAGCCACCTATTCAGACGACTCGTACTGTTGAGCATGTAGAGAAACCGGTTGGAAAAGTTGTTACTGAAAGTAAAACGTTGGCAACTGAATCATTAAAGGTTACAAGTAATGAAGAAGCAATTATTCGTCTATTAACTGGACGTAGATAA	MNILKWKGLDIDPKEIHESVTTKAEISQIDTAFNESTSESGITVLYPKIEAIHEGRTRNFNRYTAEKLKGNHELKSGVYSWTQPFPKPVIHNHDVNTEATGRVYSASFTEYTSAGRPGIIVTPKITQEKAIKDILEGRLLTVSIGATTNAAVCTVCGTDIINEGWCGHMRGEQYDGNVCEWVAGDLFFDELSWVNVPADSDAMITTNGLTSNTMSTGEGVTDLGGGKIVASSIKANHIDTSTSTLTPDSGVVKSVSESNEKEENIVTQEDKNVVTEPVVEEAAPVTEEKDEATTEETVVEETVEEATQEVTEEETPATTVEETPVVEEPVVTEQEETQSAELTQVQEELVEAKNTIEELTSANEKLAKDLHESTVGFLVDLRMAVGKESSREDATTKFAARSIESLRDSISDILAEKPPIQTTRTVEHVEKPVGKVVTESKTLATESLKVTSNEEAIIRLLTGRR				NA	NA	NA	NA	NA
AK009_04008	1257			hypothetical protein	ATGGCACAATTTCCAAATGTGAATGGTTCTTACAAGTTCAAAGGTAAGACACATACTAACTTAGTAATCTCTGAAGGTAATGCTCCGGCGGAAGATTTAATTATCTCTCGTACTAACGGTGCAGAAACTTTCATCTATGAGTACGGCCCAGAGGGTAACCAAACGGTAGTACTTGCAAAAGGTAAAATCGTTGAATTAGTTGGCGCTGAGTATGATCCTGAAACAGGTCATCAAAAAACAGCTGTTAAACAAGCGACAGATGCAGCTGAAAAAATTGCTGGTGTAAACTTACACAACGTTTATTCTCGTCGTCGTGACGGAATGCATTCAACTTTAACAAAACCAACTGTTATCACTCGTAACTATGTTGAGGTTCCTTTATTCGAAACTGAAGGTACTGACACTTTAGAAGCTGCTCAAGTACTTGCAAAAGCAATGAAATTTGGTGCTGCTGTATCTGAGAAAAAACAAGATACAACAAAATTAATGCCTGGTGACCGCGTTGTTTCTGACAAAGACGGTAACTTCCGTAAATACGTAAAAGGCACAGATGCTCCTGAAGCTATCGTTGGACAAGTTTGGGCGAAAGAAACTGAACTTCCACCAGCTGGATTCCTTCAATACTACTCAGAGTTAGTTAACCCTGAAATGGAAGCATTCTTAAAACAAATGTCTCACGCTCCATCTCCAGGTGCTCCAGGTACAGGTATAGGCGCATTCCCTTATGGATCTTCTTACACAGAAAAAGGTTGGAAGCCTGAATTCGAAAAAATGTTAGGCGCTAAAGGTTTAACTGGAATTCCATTCTTAACTGACGGATTCTTCCGCGCTCAAGAAACTCGCAACTTCGGTGTTGCTACTGGAACTGCTGGTGCAATGACACTTAACGCTAACGTTGAAGCTGTTCGTGGTGCTGAAGGTACTACTTTCGACGCTAAAGACAACAAAGTAGTAGTTGGTGCAGGAGTTAAAAACGCTGCTGTATTTATCAAATTAAAACAAAAAATCGATACTACTAAACTAGCTAACGTAGCTGCTCAAATCGATGGTAAAGCAGTAAATGCTAACGATATGCACGTTGACGTTACTCACAACACTGTTGTTATCTACTTACCAATCAATGAAACTGATGCAGCTGTAGAACACACTGGTTTAACTTTAACAGTACCAATGGTAGTTGATCCAATCGCTGGAATTCCTACTGCTTGGGATCACAAAGGTTCTGTTGGTGCAGTACGTATCTTACTTCAAAAATAA	MAQFPNVNGSYKFKGKTHTNLVISEGNAPAEDLIISRTNGAETFIYEYGPEGNQTVVLAKGKIVELVGAEYDPETGHQKTAVKQATDAAEKIAGVNLHNVYSRRRDGMHSTLTKPTVITRNYVEVPLFETEGTDTLEAAQVLAKAMKFGAAVSEKKQDTTKLMPGDRVVSDKDGNFRKYVKGTDAPEAIVGQVWAKETELPPAGFLQYYSELVNPEMEAFLKQMSHAPSPGAPGTGIGAFPYGSSYTEKGWKPEFEKMLGAKGLTGIPFLTDGFFRAQETRNFGVATGTAGAMTLNANVEAVRGAEGTTFDAKDNKVVVGAGVKNAAVFIKLKQKIDTTKLANVAAQIDGKAVNANDMHVDVTHNTVVIYLPINETDAAVEHTGLTLTVPMVVDPIAGIPTAWDHKGSVGAVRILLQK				NA	NA	NA	NA	NA
AK009_04009	1104			hypothetical protein	ATGGAAAAAAATCAAAATATTGAACTTCATGAGAAGTACACAAAAATGATGGCATATGCAGGAAAAGTACCTGCTAAGCAACGCGTACAAGTAAGTGAAGCATTAACATCGGCTGATGCAAACATTTTAATCCCGAAAGTAATCTCTACAGTAGTATTAGAAGCTGCTGAACCTTTAACATTAGTATCTAATCTATTCCAAAAGGTTACATTAAATGAAGGACGTTCAATGGAATTCATCCACTTTGGAGCAATTCGCGCATTCGAAATCGGAGAAGGACAAGAATATCCAAACCAAGCACTAGACTTAGCTCAAGGCGGAATCGGATCTGTAGATGTTAAAGTTAAGAAATACGGTTTGAAAATCGCTATTACTGACGAAATGATTTCAGACTCACAATGGGATGTAATCGGATTACACCTTCGCGCTGCTGGTCGTGCAATGGCTGCTAAGAAAGAAGAAATTTGCTTCAACGAATTTAAGAAAACTGGTCACGTAGTATACGATGCAGAATTATTCCCAGCTGGTACTGACGGACACCCTACAGGTCGTGGATTCGATGGCGAACTTAACGGTACATTATCTGCTGAAGATATCATCGACATGGCTGTATCAATCATGAGCGCAGGATACACTCCTACAACAATCATCATGCATCCTCTTTGCTGGTCTCTATTTGCTAAGAACGCTGCTTTAGAAGGCACAAGCGTTGCTGCATTTGGACAAGGCACTTCAAACTTTGACCCTCGTACATTCAACACTTCGAACGCATTAGGCTTAGAAGTAGTATTCTCTCCATTCGTTCCTTTCGATCAAGCTAACAAGAAATTCGATTTCTTCCTAGTAGACAAAAACAACGTTGGTGTAATGCTAGTTAAAGACGAAATCTCTACAGAGCAATTCGATGATCCAACTCGTGACATCCAATCTCTAAAATTACGTGAGCGTTATGGCGTAGGCGTACTAAACGGCGGAAAAGCAATCGCTGTTGCTAAGAACATCAAGTTCGCTAAAACTTACCCAGCTCCAACTCGTAGCTTTGCTGATATGCCTTTACCAAAGGATATGCAAGGTGCAGAAGCTAAGAAGCACGATGTTATCTAA	MEKNQNIELHEKYTKMMAYAGKVPAKQRVQVSEALTSADANILIPKVISTVVLEAAEPLTLVSNLFQKVTLNEGRSMEFIHFGAIRAFEIGEGQEYPNQALDLAQGGIGSVDVKVKKYGLKIAITDEMISDSQWDVIGLHLRAAGRAMAAKKEEICFNEFKKTGHVVYDAELFPAGTDGHPTGRGFDGELNGTLSAEDIIDMAVSIMSAGYTPTTIIMHPLCWSLFAKNAALEGTSVAAFGQGTSNFDPRTFNTSNALGLEVVFSPFVPFDQANKKFDFFLVDKNNVGVMLVKDEISTEQFDDPTRDIQSLKLRERYGVGVLNGGKAIAVAKNIKFAKTYPAPTRSFADMPLPKDMQGAEAKKHDVI				NA	NA	NA	NA	NA
AK009_04010	414			hypothetical protein	ATGAAAGAATTAAAAGTATTTTTATCTCCATTTTATTTTGAAGAGGAATTCGAAGAAGAAGTGAGCGGTATCTTATTTAAAAAAGCTGGAGAGCATTCTATTAGCTCAATTTCTGTACATTCAATTGATATTGAAGAGAATAAGCTGTCAGGTATCCAATCCGCTTTACGTAAAAACATCTTACTCCCTTATGACAAACAAACTCTAGAATTCGTTAATGGCAACAACATTGCTGAAGATGAAGAACCAGTTAAACCAGAAGAACCAGTTAAACCAGAAGAACCAGAAGTAGTTGAACCGGAAAAAGAAGAACCAGAAGTAGTTGAACCGGAAAAAGAAGAACCAGTGATGGAAGCAGCTGCAGTTAAACCAGTTAAGAGAACTCGTAAAAGCACTAAAAAAGAAACTGAATAA	MKELKVFLSPFYFEEEFEEEVSGILFKKAGEHSISSISVHSIDIEENKLSGIQSALRKNILLPYDKQTLEFVNGNNIAEDEEPVKPEEPVKPEEPEVVEPEKEEPEVVEPEKEEPVMEAAAVKPVKRTRKSTKKETE				NA	NA	NA	NA	NA
AK009_04011	1614			hypothetical protein	ATGCCTTCTAATGCATATCTAGTATTGGGTGTTAATCCGGTATCGAATGAATCAAATGTAGAGCTATCTACTAAAATAACAATCACGTTCGCTAAACATATCAATCTTGATACGTTAAATAATAATACGATTCGCCTAAGAAAAGTAAATGGTGATTTCGTAGAGCACACTGGGCGATATAACAACGTGAATAAAGTGTACGAGATTACTCCTAACACTCCACTTGAACCTAATACACAGTATCAAACAATGGTAATGGGCGGGGCAAGCGGGGTTGCTTCAATCGATAACAATTATCTTCCTAGTACAAAGACATATGAGTTTGTAACTGTTCAGAAAAAGGGAATTACTGCTTTAGAAAACTTGGTATTAGCGCAAGATTATTACTTTGTTTCTGCTAAGTGGGACTTGCCTAATGGGTTAGTAGATGGGGAAGAGATTTACTTTAATGTTCGTCTATCAACATCTAACAATCCCGAAGCGTATGATTTGTGGCCAAAGAACCCACTAGAGGGTAAAACAACAAGTCTTAGCTTCACTATCCCTTATCGTTTAGAACCAGAGAAGAATTATTATGTACATGTTCAAGGTGTTACAGGTGATAAGGAGACAGCTTGGTTAACAAGTCAAATTTACATCGAGAAAAAAGGAGAACAACCCGTAACTCCACCAGTAGTAGAACCACCAACTACAGGTGATGGTGGAGAAAGCGGCGGGGGAGGAACAATAGTTGGTCAGTTATCTATTGTCGATCATTTCCCTCAAACAGGAGAGTTACAAAAACCTTCGGAAGTAGTTGTCGTGTTTACAGATACTATTGCTAGTAGCTTATTCGGGGAAGATCAACCCGAAACAAACCCTTTATTCTACGTTGTAGAAGCTCCATACAAACAACAGCTTTCCTTAATTGATATGAGAGGTGCATATAGCCCTAATAAGGCTATAAAAGGTCGTATAAGCCTAGATGAAGAGAATGATAACGTATTAGTCTTTACACCTGTAGAAGGCCCTACTGTCTTTAGACAGGGTAAGGAATATACAGTAGTAGTTTCTAAGAATCTAAAAGGCGAAAACACTTTACCTACTGGAATGACGTATACATTTAGTTTTGTAGGTACACCAGAGCATCTACATGGTGACATTACTCAAATCAGAGAGGTATTGAAACAGTTTGGATTAAATCCATCAACTCGATTCCTTCAGTCATTAATGAGAAAGTACAGTCAGTTTGCATGTGATATATGGTTTGAATCACCAGCATTTGATGAAGAACTTCATAAAGATGGTGACGCGCCTTATTACATTAATGAATATGTAAACACACAAGTAACTATCGACTCGTTACTAAGCGGTGGAAGTGCTGTTTCTTCAAGTGGTGATGAGAGCATTAAACTAGGTGACTTATCCGTAACGAAGAAGGCAGGAAGCTCAAGCTCAAACAATGTGTCTTCTATGATTAGAAAACTACAAGGAGCATTAAAACCTTGGGAAGATCTTATTCATGGTCATCACAATAGAGGATATGCAAAACCAGGTAACGCAGTAAAAGGTGAATCAGTATCACCATATCCTGATTTCGTAACAAGAACTACACTGAAAGACTTCGATAAGTAG	MPSNAYLVLGVNPVSNESNVELSTKITITFAKHINLDTLNNNTIRLRKVNGDFVEHTGRYNNVNKVYEITPNTPLEPNTQYQTMVMGGASGVASIDNNYLPSTKTYEFVTVQKKGITALENLVLAQDYYFVSAKWDLPNGLVDGEEIYFNVRLSTSNNPEAYDLWPKNPLEGKTTSLSFTIPYRLEPEKNYYVHVQGVTGDKETAWLTSQIYIEKKGEQPVTPPVVEPPTTGDGGESGGGGTIVGQLSIVDHFPQTGELQKPSEVVVVFTDTIASSLFGEDQPETNPLFYVVEAPYKQQLSLIDMRGAYSPNKAIKGRISLDEENDNVLVFTPVEGPTVFRQGKEYTVVVSKNLKGENTLPTGMTYTFSFVGTPEHLHGDITQIREVLKQFGLNPSTRFLQSLMRKYSQFACDIWFESPAFDEELHKDGDAPYYINEYVNTQVTIDSLLSGGSAVSSSGDESIKLGDLSVTKKAGSSSSNNVSSMIRKLQGALKPWEDLIHGHHNRGYAKPGNAVKGESVSPYPDFVTRTTLKDFDK				NA	NA	NA	NA	NA
AK009_04012	540			hypothetical protein	ATGAGAGTAAGTTTCGACCTATCTAATGAATTCAAAAAGATCTTGGAAGAGTACGGTCATGATGTACTGGTTCTTAGACAAGATAAAAAGCTTTTATGTTCTTGTTATAACGAAGTAACCCAAGAGGCAGATCGTAATTGTCCGATTTGTCTCGGACTGGGTTATTCTTTCATTGCTGAAAGGCATACGACAAGAGCTGAAACGATTGCTTTAGAACCACAGTTAGCAGGACTCTTAAAGGAAAATCCTATTGGAGATGTATTAACAGGAGGTAGAAAGTATTACTTCCAACCAAACATGATAGCTAACGAAAAAGACTTGATTGTAGAAGTGGATTGGGATAATTTCGGACGACCTTCTTATAAAGATGAGGGTATATGGAAAATCACAAACGTAGACCACACTCAGGATCTTGGAGAAGGAAAAACAATTTACAAGGTCTACTATGCTACTGTACAACCTGTAAGAAGCAAAATACGTGGCATTCGCATTTCAGAAATAAACGGCGTAAAACAATACAATATTTTATTGGAGGGGTAA	MRVSFDLSNEFKKILEEYGHDVLVLRQDKKLLCSCYNEVTQEADRNCPICLGLGYSFIAERHTTRAETIALEPQLAGLLKENPIGDVLTGGRKYYFQPNMIANEKDLIVEVDWDNFGRPSYKDEGIWKITNVDHTQDLGEGKTIYKVYYATVQPVRSKIRGIRISEINGVKQYNILLEG				NA	NA	NA	NA	NA
AK009_04013	1497			hypothetical protein	ATGTATAAATACAATCAACTTATCTTCCCTTCTCACATGGAAAAGAATACTCGCTTTCTAGTGTTAGCGGGTTTTTCTTTTAATGGGCCAGTAGGGACACCTTTTATCATCCGAGAGAACACAGACCCGTCTTATGTTCTTGGTGATTGTCGTCTAACGGAAAACGTAAGAATGGCAAGAAAGAACAGGATTACACCACTAATCCTACGATTAAATGGAACACATGGGGAATGTGTAGTTGATCATGATGAATTAAACACTCCTGCACTTCGATTTAAAACATTAGAAGCAACGGATGAATCAAACCATATCAGTATTCACTTATTCCCAACTCATATGGTGGTTAAAGGTATAAACAATAGTTACTCATATTTGTTTGCTGATTATAAAGGCTTAGATGAATTAGCTTTTGCAATCAAACAGGATCTCTATTTTAAAGCAGGAGAAGTCGATGTAGAAGTTGTTAATCAGATTCCTATAGCAGGATTATGTTTAGCAGAAAGACACGTTCGATTTACAGGAGCGGACGATGGATTCCATTATGTAAGTAATCATGATGATTCAGACTCAGACGATAAGCTCCAAATGCAATTACAGCTATTAAGAGATAGTTTAATTGATGAAGATGGAAGCGAATTGTTCTTTACAGGGGAGCTAAGTAGTTTTCAAATAGATACACTTCTATTTACAGACATTCCTTACGAAAAAGCATCTGCTGAACTAACCTCTATATTTGGAGAATTTGCTAAGACGAAAACAAGTGAACAATCGATTTTTTGCTCAGCTGTTTTATGCTCTGACTTGTTCTCAGGAAATCGTTATGGAGTGACAGGTGAAGATACATATGAACCTCAGATACAAACACTTCTAGAAAAGGCCTCTACTAATAAGGAAAAAAGTCGTCATTTGGAACATGTAGAAGTTGTAGTTGGTGTGCAGGATTCGGAAAATCCTAAGTACTTATCTATGCCAGCCGCAGCAACTTACGCTTGTATGCGATACAAACTACCTAATTTCCACAATTCAGCAACTAATAAACAGCTACTGTATATAAATACGTTACAAAGTAGGGAACTCAAAAAGGTTGAAGTTGCTAAATTAACAAGTAGTGGTTATATATGTATCGTACCATCAATTAAAAAAGGATTTGTTCCTTTTTCCTCAAAAAATCTTTACCCTCAGAACACACTCTATTCAAAACCTCATTACCTTCGAAGTATAAGTTACGACGTTAACCGAATCGCTGGATTCTTCAATCAATACATTGGAGAGCCATTCAGCTTCGTATTACTTCAATCCATCATCACACAAGTTGATGCCTTCATCGATAATCTTTCAGAAGATCATCCAATCTACAGAAATGTAAAAATGGAAGTCTTAGATTATGACCAAGTAAATCTTACTCTATCAATCTCATTTGAGTTGTATGGGGAAATTGAATCGGTTAAAACTTCCTTTAGTTATATTCCATCAAGTGAGGTGAATGTTTCATGGTAG	MYKYNQLIFPSHMEKNTRFLVLAGFSFNGPVGTPFIIRENTDPSYVLGDCRLTENVRMARKNRITPLILRLNGTHGECVVDHDELNTPALRFKTLEATDESNHISIHLFPTHMVVKGINNSYSYLFADYKGLDELAFAIKQDLYFKAGEVDVEVVNQIPIAGLCLAERHVRFTGADDGFHYVSNHDDSDSDDKLQMQLQLLRDSLIDEDGSELFFTGELSSFQIDTLLFTDIPYEKASAELTSIFGEFAKTKTSEQSIFCSAVLCSDLFSGNRYGVTGEDTYEPQIQTLLEKASTNKEKSRHLEHVEVVVGVQDSENPKYLSMPAAATYACMRYKLPNFHNSATNKQLLYINTLQSRELKKVEVAKLTSSGYICIVPSIKKGFVPFSSKNLYPQNTLYSKPHYLRSISYDVNRIAGFFNQYIGEPFSFVLLQSIITQVDAFIDNLSEDHPIYRNVKMEVLDYDQVNLTLSISFELYGEIESVKTSFSYIPSSEVNVSW				NA	NA	NA	NA	NA
AK009_04014	621			hypothetical protein	ATGGTAGTAGAAATCAATAAGCCAACTCAAGCAAATGGTTCTATGGACTATGAAGACATGACAAAGACAATCAAGTATTTATTAGATGCCGCATGGGGCCCTAAGTGGGGAAGTTTTATTCCCGACGGACCAAATGTAACAGATGACAAGCATGTAGAATACCCGGTCATCGTTCATTATCTTAGCGTAATGCAACCAGGTTTAATCGGTAAAAACACCAGAGAAATTAAACCACGTCAACGTTACCTTGCTTTTAATGAGGATTCTAATGGGACTCTACCACCTGCAACTAAGATTTATGGACAGGTATTTGATGCGGAGATTGTTTTTGAGATTTGGGAAGAAACCAATGCGCGAGTGGACAAGCTCACAAAAGAGTTTCGTCAAACGCTTGCAACATACACGGGATTCCTTAAAGAGAAGGGGCTTAAAGAACTTCAATTCGTAAGGATGGAAACAGACTTATCAAAGGCAAATATACGTGATGCTAGTAAGACTCGTAGACTTGTTTACTTTGCTAAGTTCGAAGAATTAACAGAAGTCCCTGTAGATATCTTCCGTGTGATAGATGTCGTAGAGAAGAGACTCCAAGAAACAACAAACACTCAACTGGGTGAATAG	MVVEINKPTQANGSMDYEDMTKTIKYLLDAAWGPKWGSFIPDGPNVTDDKHVEYPVIVHYLSVMQPGLIGKNTREIKPRQRYLAFNEDSNGTLPPATKIYGQVFDAEIVFEIWEETNARVDKLTKEFRQTLATYTGFLKEKGLKELQFVRMETDLSKANIRDASKTRRLVYFAKFEELTEVPVDIFRVIDVVEKRLQETTNTQLGE				NA	NA	NA	NA	NA
AK009_04015	1716			hypothetical protein	ATGCTTTACGAAAATCTTCCTGGCATTAATGTCACGCTAAAAGATGGTGGCTTAATTATTCCAGAACGAGGCGGATCAGAGTCGATCCTAATCATCGCTCCATCTCTTGCGAAAGATGCTCCTGAAGAACCAGTATTAATCCGTAGTTCATCTGAACTTGTGCAAGCTGGATTCGGTGATTTCTATGTAGCAGGAGAAGTTAACCCGATTGCTGCAGAGTGGAAAGCTGCTACTGATGGCGGAGCTAGAATGGTATACCTAGTAGCTCTTAAAGAAATCAGCACAGAGCGCGCTACTGAACTTGAGCAATTTGCAATCGATGCTTATGTAGCTGAAGGAAACACTTCACAAGAAGCTGAAGCTAAGTTCAAAAACGTTTTAGTTGGTACTACAGAAGCAGTTCGTATCCGTCGTAAGTTTATCTATTTCTACGACTTACTAATGAGCGACTTACTTGATTTTAATGTAGATCACGTAGTTCTTAAAGGAGTCACGCTTGAGGACGAAGCAACTAACCTAGTTGGTGAATTCTTCCCTGAAGTTCCAAACTCTGAAGATTTCCCTTACATCAGTGGAATGGTTACTTCTTCTTATGTAATGGAATCTAATTCTATTGTTTATCCAGTAGAAATTACAACTGGAACTAACGATAAGCTAGTAGTAAAAGTTGATGGTAAAGATCTAACGTTTACGCTTCCTGAAAAGACTTACAACGGCAGCACACTAACTATTAGTGACTTAGTAAAAGATATCAAAGCTGTTATCGATGCAGATCCAACTGGTATCAAAGCTAACGTAAGAGAAGACAGTGGTAAAATTGTTCTTTACTTCGATGCTCCTGCTTCTGTACAAGCTGGTACAACAGCTACCGGTCTTCAATTAAGTAATCAAGTAGCTAAATGGCAAAAAACTAGCTTTGGTGTAATCCATCGCGGTTCATTTGCTCAAACAGTTGCTGATTATTGTTCTATGAAGACTTTAATGAAGTCAGCTGCTATCGGATACATCGGGGTTAAATCTCCAGTAGATACGAAAGTTTCTACAATCCGCAAATATGTGGACGAGCTAGCTAAGCTTGACACAGAAATCTCTCCTTACCTTCAAGTAGTAGGGTCTGAAGTTGGAGTAATCATGCCAACAACAAACTCAATGCACTATGTAAATGGTGCGACTCACTACGCTGCACTACTTTCAACTCTTCGAAAAGAAAGTGCTCCTACAAACAAACCAATCAAAGGTGTTAAAGCTATCCGCTTTGACTACTCTCTTCGCCAACTTTCTAAACTGACTAGCAAGAAAATCGTTACATTCCGTTTGAAAGATTCAACTCAACTAGTTGTTACAGACGGAATCACAACTGCTCCATCTATCTTTATGGCTGGAAAAGTACGTGAAAGTGACTTTGCTCGTTTATCTACTCTTCGTATCACTCAGCTTGCAATCCAAGTTGTTCGTGAAGCAGTAGAGCCATTCATTGGTGAAGCGAACGAAATGCCACAATACAACGCAATGAACACTGCTATTAAGTCGGCATTAGAAAAAATCCGCGAAGCAGGTGCTATCCAAGGATACAAATTTACAATCGGGAACCTTGGAGTTTACTTAGACGAAGCAACAGTTAATTTAGAAATCATCCCGGCATTTGAATTACGTCGTGTAGAAGTTCAAGTTAACTTAGCTCCTCCTGAGTACATGCTACAAAGCCTTGGTCAATAA	MLYENLPGINVTLKDGGLIIPERGGSESILIIAPSLAKDAPEEPVLIRSSSELVQAGFGDFYVAGEVNPIAAEWKAATDGGARMVYLVALKEISTERATELEQFAIDAYVAEGNTSQEAEAKFKNVLVGTTEAVRIRRKFIYFYDLLMSDLLDFNVDHVVLKGVTLEDEATNLVGEFFPEVPNSEDFPYISGMVTSSYVMESNSIVYPVEITTGTNDKLVVKVDGKDLTFTLPEKTYNGSTLTISDLVKDIKAVIDADPTGIKANVREDSGKIVLYFDAPASVQAGTTATGLQLSNQVAKWQKTSFGVIHRGSFAQTVADYCSMKTLMKSAAIGYIGVKSPVDTKVSTIRKYVDELAKLDTEISPYLQVVGSEVGVIMPTTNSMHYVNGATHYAALLSTLRKESAPTNKPIKGVKAIRFDYSLRQLSKLTSKKIVTFRLKDSTQLVVTDGITTAPSIFMAGKVRESDFARLSTLRITQLAIQVVREAVEPFIGEANEMPQYNAMNTAIKSALEKIREAGAIQGYKFTIGNLGVYLDEATVNLEIIPAFELRRVEVQVNLAPPEYMLQSLGQ				NA	NA	NA	NA	NA
AK009_04016	603			hypothetical protein	ATGAGTACAACAGCTTCTCGCTATAGCAAAACATTTACTACTTACGGTGGATCAGACATCGTATGTACATTTAATGGACAGGTAGTTGGTCAATTACAAGCTATTACTTACTCAGTTACTCGTGAAAAAGGTCCTGTGTATGTAATGGGTGACCCAAACCCAAAATCTTTCTCTCGTGGTAAACGTGGTATCGCAGGAAGTTTAGTATTTACTATCTTCGACCGTGATGCACTGTTCAACCTTAAACAACAAGCTACTGTTCACCGTCATGGTTTAAACCAAACAGATGCCCTAGCAAGTAGCACTACTCAAGTTTTAGATGTAGATGCAAACGCTGCAGCTTTAACTCAACGTAATGACCTTGTACAAGGATGGCAGACAAAACGTAAAGCCAACTTCATCGACGAAATCCCTCCATTTGATATCACTATCAACTTCCTTAACGAATATGGACAAGCTAGTAAAATGGAAATCTACGGTGTAGAGATTCTTAATGAAGGAATGGGCTTAAGTGTTGATGATAACACTACAGAAAAAGCTTGTACTTTCATCGCTCGTAACATCGTTGAGATGCGTCCACAAGATGATTGGGAAGTAGAATAA	MSTTASRYSKTFTTYGGSDIVCTFNGQVVGQLQAITYSVTREKGPVYVMGDPNPKSFSRGKRGIAGSLVFTIFDRDALFNLKQQATVHRHGLNQTDALASSTTQVLDVDANAAALTQRNDLVQGWQTKRKANFIDEIPPFDITINFLNEYGQASKMEIYGVEILNEGMGLSVDDNTTEKACTFIARNIVEMRPQDDWEVE				NA	NA	NA	NA	NA
AK009_04017	498			hypothetical protein	ATGACAAGTAAATACCAGAAGACTTATACGAGTTTTGCAGGTACGGATATTGTTGCTGTTGTAACTCCCGAAGGCGGTAAGTCTGTAGTGTTAGGTCAATTACAGACAATCTCTTATTCTGTATTTAGACCAACAGCTCCGGTGTATGCCTTGGGGCAGATTGCAGCTAAAGGTGTTGTGCGTGGAGCAAGAACGGTGGCAGGAAGTCTAATCTTTACTGTATTTGACCGTCACGTTTTATATGAAATCATGAGAGATCATAATAACAATTCAGGTAATTGTCCTATTAATAAGAGTGATGAGCTTCCACCATTCGATATAACAATTAACTTTATGAATGAGTATGGACAGTCTTCAAGATTAGTAATCTATGGGGTATATCTTATCTCAGAAGGACAAACGATGTCGGTTGAAGACATGATTACAGAAAATACAATGGAGTTCATTGCTTTAGATATAGACACAATGAAACCAGATGTTTTTGATGAAGGGTGGTAA	MTSKYQKTYTSFAGTDIVAVVTPEGGKSVVLGQLQTISYSVFRPTAPVYALGQIAAKGVVRGARTVAGSLIFTVFDRHVLYEIMRDHNNNSGNCPINKSDELPPFDITINFMNEYGQSSRLVIYGVYLISEGQTMSVEDMITENTMEFIALDIDTMKPDVFDEGW				NA	NA	NA	NA	NA
AK009_04018	717			hypothetical protein	ATGAGTGATGGAGCTTACACACCAACAGGTCAATCTAAAAAGGGTTATGCGAATTATTACTCAGGAACAGATATCAGAATCTATTTCGGGGACAACTGGATAGATGAAATTGTAGAGATTGAATGGACAATGCAAGAGCAATTAGCACCAATTTACGGATTTGCTTCATATACGTGGGACAAGGTAGCTAGAGGAAATCGTTTTGTTCAAGGTTCTTTTTCTATCAACTTCAAAGAAGCTGGTTATTTACAAACCGTACTTAATAGTTTAAGTTCTGAAATGACAGACGAACAAGAGTGGTTCAACCTATCAGAATTTAACGGTGATGGTGGACAGAGTGCCCACAAAAACACAAAGGTTGAAGACCTTATAGATAACTTCCAAGCATTAGCAGATGATTATGAAAATGCACTGTGGGGAACAAACTCTAATTCTTCTAAGTTAATAGATAGTCGTAAAACCGATACATTCTTTTATAGCACAAATGAAAACGCAAAGAATAAGGCTTTAAAGGAACATGGTTTCAATATCTTATTAACTTACGGGAATAATCCTTGCGCTGTTAGAGGAGCAGGAAGCTACAAGACCGCTCAAACAATTGTCGGTGTACAACTAACAGGTGTTTCTCAGAGAGTAGATCCATCTGGAAACCCCATTTCTGAAGTATATACTTTTATAGCGAAAGATATCTCAGGAAATGTACAAAAAGCGTATTAG	MSDGAYTPTGQSKKGYANYYSGTDIRIYFGDNWIDEIVEIEWTMQEQLAPIYGFASYTWDKVARGNRFVQGSFSINFKEAGYLQTVLNSLSSEMTDEQEWFNLSEFNGDGGQSAHKNTKVEDLIDNFQALADDYENALWGTNSNSSKLIDSRKTDTFFYSTNENAKNKALKEHGFNILLTYGNNPCAVRGAGSYKTAQTIVGVQLTGVSQRVDPSGNPISEVYTFIAKDISGNVQKAY				NA	NA	NA	NA	NA
AK009_04019	438			hypothetical protein	ATGGCAAAACGTACTGAAAAAGAAGAAGTTTTCATGGAGGATCAAGAAGCTCCAGTTGTACCAGCAGGAGAAAAATTTGATGAAGATGATGTTTCAAAAGCAGAACAAGAAATCTTCCCAGGTGGTCCAACTTATAACGAGTTAGAAAAATGGAAGTCAATGTACGCAGGAGAAGTATACTACACTGAATTTGATGAAGAAAACCAATTCGTATGGCGCCCAATTAAGCGTAAAGAATACAAGGATATTGCTAAAATTCCAAATGCAGATAACTTCTATAAAGAAGAACGTATTTGTGAGAAAGCAGTTCTTTTCCCTGCTAACTACGGTTTCATGAATATGACAAATGGTAAAGCTGGTATTCCTACACTGTTACATGAAATGGTGTTAGAGAAGTCAGGATTCGTAGCGAAAACAGGCGCAATGCGCTTAAGCTAA	MAKRTEKEEVFMEDQEAPVVPAGEKFDEDDVSKAEQEIFPGGPTYNELEKWKSMYAGEVYYTEFDEENQFVWRPIKRKEYKDIAKIPNADNFYKEERICEKAVLFPANYGFMNMTNGKAGIPTLLHEMVLEKSGFVAKTGAMRLS				NA	NA	NA	NA	NA
AK009_04020	576			hypothetical protein	ATGTTAATCGATCCTAATTTATTGAATGACAAGGTAGAAGAATTACCTATTGAATTTGAAACGTATGAAGAAGAAGTATACTTCAAAGAACAATTGCGTATGTGGCATGAAGAACACGGACATATTTTCATGCAGGAAATAAGTGATGTACTATTTTTCTTCCGTGCATTAAGTAAAGAAGAGTTGAAAATCGCCCAGGAAGTATACAACGATGACTATGAACGAACAGAATACATCTGTAAAACTTGCGTTATCGAACCAGTTATTGAGGACTACTCATTAGATATTTTTGCAGGTGTACCAGAAATTCTTTGTCGTTCTATTCTAGAAGAGTCAGGATATACAAAGGCACAAAAAGTTAAGATCATGATAGCTAGATGGGAAAAACATATGGAGGATTCAGAAAATCAACTTCCATTAGTAATAAAAGAAGCATTTCAAGATATCCCATTAAGCGAAATAGAATCATGGCCAATGGCTAAAACAGCAGAGTATTATGTTAAAGCTAAATGGTTGCTTGAAAATCTAAGAGGATTACAATTAGTGAATGAATCAGATATGCAACAAGAACAGTAA	MLIDPNLLNDKVEELPIEFETYEEEVYFKEQLRMWHEEHGHIFMQEISDVLFFFRALSKEELKIAQEVYNDDYERTEYICKTCVIEPVIEDYSLDIFAGVPEILCRSILEESGYTKAQKVKIMIARWEKHMEDSENQLPLVIKEAFQDIPLSEIESWPMAKTAEYYVKAKWLLENLRGLQLVNESDMQQEQ				NA	NA	NA	NA	NA
AK009_04021	6483			hypothetical protein	ATGGCTGATAAACGCTATACGGGTGAAGAGAAAGAGAAGAGTCATCTGCTTAGTAATATAGCAAAAACAGGTTCCCTTATCGGTGGAGGAGTAATGGCTTACCGTAACCGAGCAATGATAGGTAAAGCTATGTCTGATTTATCTAGTAATGCAGCGGTCACTGGAAGTAGGGTATTAAGCAAGGATGGACATGCATACAGTGCTTTATCCGATGCAAAAGTATTTATGAAGGGAATATCTGATGCTCTTGGTGATAATCCATCTGTTATTAGAACATTACGTGGTGGATTTGATAGTAACATACAGGAGAAAATGCATAAAAACTTCGAAGCTTCTGTCCGTAACAATATCAAGAAGAGACAAATGCTTACGAATCGCCCAGGTCAAAACAATACAGAATTCGTTAGTCGTTACTATAAAGAATTCCATAAAAGAAACATGGGTGGTCTTAATAAGTTTGAATACGCTGCTACTCAATCATTCCGTCAAAATAAAATCCTTGAAAACCTACGAAAACAATCCTCTATTAAAAACAATGGTGGGGACAAGATTCTTAATGCTCTTACCCATTACCACAATCAGAATAAAGGTATTTTTAATAGTCCTGCTGATCACGTTGATGACTTCATAAAGCAACTTGAAAATGGGAAGTACTCTCATAAGGTTAAATTCCAAGATGATACACAACGAAATGTATTCCAAAAACAAATGCTTCAAACTCTTGAGCAGTATAAAGATACTAAAAAAGTATTTGAGGGGAATAAAGGATCAATCCTATCTCAAGCGAAAGCGATGGAGACTGCTTCTTCTTATGGTTTCATTCAAGATGCACTCAAGCAAACTGATGTATTAAGTACTCAATTTAAGAAAAAAGGATTTAATCACACTACGTTAAAAGATGCTGAGAAGTTTGACGTAGCTACTAAACGTAAATATGGATTAATTGTTGATGATATTGATGAAAAAGGAAATGAAAAGTCTATCGATGTTACTAAGGAGTTAAGAAAATTCTTAGACAACAACAAACACAATGAAGATTTAAATGCACTGTTAGGTAAAAAAGGAATATCTTTTAACTTCGAAGATATGATTCTTGATAAGAATTTATACACTCATGCAAAAACAGGTGAGATGATAGACAATCGACATTTAAAATCTGGGGCTGTTAGTGCAATAGATTCTTTCCAAGAAAGTGTTAAAGTTCCCTTTCTTAATATTAACCCGGTTGATTTAACACCTTGGCAAGCATTCCGTTCTGGTCAAGCAAAAGAGGGGATTCAAGTATTAGGTGCTGGACAGGTTCACGGTTTTGTAAGGAACTTAGGTGACCAAGCTTTCGATGGGGTAGCTAAAACAACTCAAGAAGGAGCTATCCGCAATCCTCTAAAGAATAGTGATCATTTCTATACTGGTGGAAATGTTTTTCGTTATACAGAAACAGGTGGACTAGATTTAGTTGATGAAGGTCTATACTTGGCTCCATCACAATTCGGTGCATTCTCACGTATGCATAAAAACATGACCAACTACAGTGAAAAAGATGTAGTGGATGAACGTGGATGGATGAAGAAACTATTCGACGTTGGATATCAGGAAAATGAAAGCCGAGCAGAAACATACAGAAAAGCATGGGATAAGCTTGCAGATCCAATGTACGGGCCAAATGCATTAAGAGGTTTAGTATATGATTTACATACCTCTAAAGAAAACCAATCAGATATGATTCGTGATGTTTACAATGTTATGCGTGTTGGTATGGATAAGAGCGCAACAAGTCTTACCCGTGAAGCTACAGAAGTTCTTTCTCCTCACGTAAACAAGCTATTTGACCACATTAAAGTAAATGGAGAAGCTTTTGACTTTGCTAGATTAACTGATGACGACTATGTAAAAGATGCAGCTCTTATATTTAATAAAGAGCTTAAAAATCAATCATCTAACATAGGAATGTACAAGTCTCATACTCGTTCTGTATACAATGAAGACTTATCAGGTAGAGATGCTTTAAAACATTATGAAGATCCATCTGTTAAGGAATTAGGTAGATGGACGCAGAAGTACATTAATGACCCTGAAGGATTTAACTCCTCAAGGGAAGCAGCAGTCGATAAAAACCTACCATCTTTAATGGAATTTATGGTTCCTACATTTGGTGACGATGCAGCACTTATTCCTGCAACTGAAAAACTTCGACGTTCTTTCCATCAATATGCTTTAAGAGCATTAGATAATGAAGCAGGAGACTTTGCCCCGGATGTTGTTAAAAATGGAGCAAGACAAAGAAGTTCCCTTGCATATTTAATCGATGCAAGAAATAAAGGCATTCTCTCTGAATCAGACGTAAAGAATGCGAAGGATTTAGAAACATTAACTGATATTCTAGGTTATGACAATATCCACAGTATTGATGCAAGACCTCGTGAAGCGAAGACATTCCTTGAGGACGTAATGAACATTCATAAAGGCGATGTTGGTTATGATGATACTAAGTTAGTATTTGAAAGCGGCGGAGTTATTCTAAATGGTTTTGGTCAAGATCTTCAAGAAGGTATTCTACGTGCTCAACCTCTTACAGGTAGAAAACCAGAACCGGGCAAGCCATCTCCTAATGGTGCTGATTTCATCATCATGCGTAAAAGTGGGCTTGGTAAAGCTGGTAAGGAAATCGTATCAGAGCTAAACATAAATAACCTAAAAAATTACGGTCCAATTGATGATGGTTGGGATCTTGCAATTAATACAGAAATGTATGCAAGAAATGCTTCCTCAACATTAGTTCAACAAGGCCTAGCAGTTTCAAAAGAGATGTTAGCAGGAAGACACATTAATGGAGATTCCTTAGAAAATGTAACAACTTCAACTGCTATTATGTACGGATTGGCAGAACGTCTAGATAATCAGTTAGGTAACTTCGGATTGAGTTTATCTCAGAAGAATCTAGGTTCTTTCCAAAGTATTATCGGTAATCAATATTTACGTCGTATTGTTCTTCCATATGCAGCATATCAACAAGCTGTTTACTTTGATGGATTAACAGGGGATACGGTTAGTGATACAGCAGCAGACGCATACGTAAACACTCATACAACTCTTCAAAGTATTAAAGAAGGGCTTGGTATTAACAAGGCGTTACGTCCTTGGGCAAATGTATTTAAAAATGCAGGTGCTGACCAAGTTGGAGAATGGCTTGGAGTTAAGCAATTAGACTTTTTAACATTCGGCATATTTAGTGATTTCCGTAGCGGTGAAGATACTAGAGAGTACTACGAATCTGGTGAAGATGCAATCCGTAAAAATAGATACTGGGGAGTTGGTTCTCCTTCTCCTTGGGCTGGTGGAGGAATCGACCACTTTGAAGCCAACTGGTATCGTAAATTAAAGTCTGATTATAAATTCACAGATACTATGTATGGTAGTGAAAGTGAGTACTGGGCAAATAACTGGATGCCTACATTAACTCATCCGTTCGCTCCTATTAAACACTTCCTAACAGACCCTTATCATTATGAAAACAAACACGAACTAGATAGACCATATGCAATCACTGGTGGTTTCAGTGAGCTACAAAACATTCCTATCGTCGGTAACCTTGTCGATGGAACTGTTGGTCGAATCTTAAAACCTCGTAAAGAGCACAAGGGGTTAGAAAAAGCACATGAAGAATATATTTCTTCTATCAACCAATTCATCCAAGATAAGTATAGTCCAGTTAATGATGGTTCTTATGTTGGTATTTCTGGAACAGGTGCAGTCACACAATATAATATGTACGCTGATCAAGGAACAGGTGATTACTTTGGTGGTTCAGCAGCTAATTATGGTGCTGATGCTGGTATTGTTAACTACGGCAATGGAATTACACCTACGTATAAAACAAACGTTGCAGGCGGTGGTGCAGGAGGCCCTGTAGGTTCTATAGGTGGATCAGGTGGAACAGCGGTTGGCGGAAGTATTATTGGTAGAGGTATGAGTGGTGCTACAAGAGCCCAAAACATTTTAGCTGAACAAAACTATGAACTTGCTCAAATGGGTGATGGTGTAGAAGCTAGCACAGTTAATAGTTTAATGAAGCTTCGAAATATGGGAGTCCCTCAAGATCTTGACAGTATTGGTCAACTTGATAATTTAACAGGCTTGCTTAAAGACGGATTCTACAGTGCTTCTGAGTTAGGTGGTATCTATGGTTTCTTAACGAAAACAGGAATTGGATATGAAGAGTCATGGCGTGGAACAACACTTGCTCCATCAACATTAATGACTTCTCCAAGTCGTGCTTTTTGGGATATGAACCTTGGTGGTGCCGGTGGTGCACTATCGGAGATTGGTCGTCGTTATGTTCCTCGTGACCCTAACAAAGATTATTACTCTCCAATTCGAAACACGATGCCTGAATGGTTGCCAGGTATAGGTTCATCAACAGATTTCTTACACGGTGATCCATATGCGAAAATACAGAAGGGTGAAATAAGACTTCCTGGTAAAGCATATGAAACTCTTTATAAGCTTCATCCGGACGGAACTGGTTCTGGTGAATTTGCAGACTACGGTGTGTTTGACCGTTTCCGTATCTTAGCAGATGTTGATCCTGATAGTGAACAGTATAAAGTAGCTAAGCATCAAATCTCATTACTGCGTCAATCTGGTGGTCTTACAGAAGATATGGCCAAAGAAGTTGATGAGATTAAGAAACAGGTTCACGACAAACAGGATACATATCATTGGTACGATAAGAAGTTTTCAAATGCTGACATTCAAGAAAAGAATGTAACAATCTCTAAAATTATCGATGCAAATACGTTCATGGTTCGAGAGTTCGATGCTCCAATTAAATTAGCTGGTATCAAATTAACACAAAAAGATAACCAAGATGTTATTGATTGGATGGGGCAGTATCTAAAAGTTGGTGAGAAAGTTAAGATTGGTATCGCTGACGACCCTGTTGCACGAATGAATACTGACACATATGGCTCAATGGATGCTGTTGTATACACGAACAAAAATGAAGATGGTCGTTTCTGGTTTGAGACTAACAAAGGTCAATCATTAAATGCTCTTATCGCAAACCGAACTTGGAAAAATCCAGTTCAGATAAAAGATGATGGCAGCCCGACTTCTACAAGGGCTCTTTATTCAAATGACATGGTAACTGTCGGTAAGTATACTGAGATGTTAACGCATGATATTCTTCCTAAAATACCTTTCGTCGGAATCTTAGCTGATAAGTTTTTACAAGTACGTACACCGATTGAAAGTTATAAGAGAGATCAAGTATACGGTTCAGATTGGAGACCTTGGACACAGCCATATGAAGGTTGGATTAAACCGATGGTAAATACGGTTGCTTCTCAAAATCCACTTATTGCTGGTGCAGAAATGGCAGCCATTGGTCACCTTTGGGGGAAGACTACAAAAGCTAAAGGGTTAGGACGTGTCGCTGGATTCGCTATCGGTGCAGGACTTTCTACTCTTCGTGTATTAGATGAAGGAGCAGGCAGAATCCTTCCTGGGTTAGATAATGTTTGGATCCCTCAAGAGCGTGAGGATGAGCGAGAAATTAACCAGTACTTTGACCGTTTAAAATACGTTAAGTATCGTGGTCTTTACGAAAAAGCTAGTCAGCTTGCTAAAAGTGAAGAGGACGTAGATGTAGAAGAATTCTTTGATGCTGCAGCAGAAAAAGGACGAAAAAATAAAGGCTTAAAACGTTACCTAACAGACAAGAAGAAAACATTGTCGTGGGCTAAAAAAATGGGTTATGGTGACACCGAAGCCGTTAAATCACAAATTCATGAACTCTCTGACGAAATAGAAGGTATTTCTTCTGCAAAAGAAGCCTATCAATCAGGTAAGTATACATCTTTAGCTATTAAGTATCGACAAGAATATGAAGGTACTCTATATAGTATGGGTGAGACTGGAGCCTCTGATAGAACATCGTTAATGAGAGCCTTAACACCAAAAGAGCGAGAATACATTCCTCGATTCCTTGAGACGACTAGTAGTAAAGAGCGTCAGGAGATTCTAAAGTATGTTCCTGAGGACATTAAAAGAATCTTACAAGGTAGTTGGGGGCTTAAGGTAGATAAGCAAGAAGATATTGAAGATTACTTTGATAGTCATTATCTACCGAGTGAAAATTGGTCCGGATGGAACGCGGGTACAAATCTTGATGATATAAAAATCAAGGTTATGAAAAAGCAAGGTGTAAACCCAACTACTTCTGGTTATTGGAGTAAAGACCAAGCTAGAGCGGAGAAATCAGGAGAAAAAGCAATACCAATACACTCTTTAAGTAGTTTGATCGATACAGGTCGCTTGCGTGAGGTGTTATCAGGAATGGGATTGTCAGATGTAGATGTCCAATTAACAACTTCTTATGGAGAGGGACCAGGTGGAATTAATACTTCCATCGACATCATGAAAGATATGCAAAATGAAATTTTAGATAATCTTAATGCAGGGATACATTCCTCATTATTCTAA	MADKRYTGEEKEKSHLLSNIAKTGSLIGGGVMAYRNRAMIGKAMSDLSSNAAVTGSRVLSKDGHAYSALSDAKVFMKGISDALGDNPSVIRTLRGGFDSNIQEKMHKNFEASVRNNIKKRQMLTNRPGQNNTEFVSRYYKEFHKRNMGGLNKFEYAATQSFRQNKILENLRKQSSIKNNGGDKILNALTHYHNQNKGIFNSPADHVDDFIKQLENGKYSHKVKFQDDTQRNVFQKQMLQTLEQYKDTKKVFEGNKGSILSQAKAMETASSYGFIQDALKQTDVLSTQFKKKGFNHTTLKDAEKFDVATKRKYGLIVDDIDEKGNEKSIDVTKELRKFLDNNKHNEDLNALLGKKGISFNFEDMILDKNLYTHAKTGEMIDNRHLKSGAVSAIDSFQESVKVPFLNINPVDLTPWQAFRSGQAKEGIQVLGAGQVHGFVRNLGDQAFDGVAKTTQEGAIRNPLKNSDHFYTGGNVFRYTETGGLDLVDEGLYLAPSQFGAFSRMHKNMTNYSEKDVVDERGWMKKLFDVGYQENESRAETYRKAWDKLADPMYGPNALRGLVYDLHTSKENQSDMIRDVYNVMRVGMDKSATSLTREATEVLSPHVNKLFDHIKVNGEAFDFARLTDDDYVKDAALIFNKELKNQSSNIGMYKSHTRSVYNEDLSGRDALKHYEDPSVKELGRWTQKYINDPEGFNSSREAAVDKNLPSLMEFMVPTFGDDAALIPATEKLRRSFHQYALRALDNEAGDFAPDVVKNGARQRSSLAYLIDARNKGILSESDVKNAKDLETLTDILGYDNIHSIDARPREAKTFLEDVMNIHKGDVGYDDTKLVFESGGVILNGFGQDLQEGILRAQPLTGRKPEPGKPSPNGADFIIMRKSGLGKAGKEIVSELNINNLKNYGPIDDGWDLAINTEMYARNASSTLVQQGLAVSKEMLAGRHINGDSLENVTTSTAIMYGLAERLDNQLGNFGLSLSQKNLGSFQSIIGNQYLRRIVLPYAAYQQAVYFDGLTGDTVSDTAADAYVNTHTTLQSIKEGLGINKALRPWANVFKNAGADQVGEWLGVKQLDFLTFGIFSDFRSGEDTREYYESGEDAIRKNRYWGVGSPSPWAGGGIDHFEANWYRKLKSDYKFTDTMYGSESEYWANNWMPTLTHPFAPIKHFLTDPYHYENKHELDRPYAITGGFSELQNIPIVGNLVDGTVGRILKPRKEHKGLEKAHEEYISSINQFIQDKYSPVNDGSYVGISGTGAVTQYNMYADQGTGDYFGGSAANYGADAGIVNYGNGITPTYKTNVAGGGAGGPVGSIGGSGGTAVGGSIIGRGMSGATRAQNILAEQNYELAQMGDGVEASTVNSLMKLRNMGVPQDLDSIGQLDNLTGLLKDGFYSASELGGIYGFLTKTGIGYEESWRGTTLAPSTLMTSPSRAFWDMNLGGAGGALSEIGRRYVPRDPNKDYYSPIRNTMPEWLPGIGSSTDFLHGDPYAKIQKGEIRLPGKAYETLYKLHPDGTGSGEFADYGVFDRFRILADVDPDSEQYKVAKHQISLLRQSGGLTEDMAKEVDEIKKQVHDKQDTYHWYDKKFSNADIQEKNVTISKIIDANTFMVREFDAPIKLAGIKLTQKDNQDVIDWMGQYLKVGEKVKIGIADDPVARMNTDTYGSMDAVVYTNKNEDGRFWFETNKGQSLNALIANRTWKNPVQIKDDGSPTSTRALYSNDMVTVGKYTEMLTHDILPKIPFVGILADKFLQVRTPIESYKRDQVYGSDWRPWTQPYEGWIKPMVNTVASQNPLIAGAEMAAIGHLWGKTTKAKGLGRVAGFAIGAGLSTLRVLDEGAGRILPGLDNVWIPQEREDEREINQYFDRLKYVKYRGLYEKASQLAKSEEDVDVEEFFDAAAEKGRKNKGLKRYLTDKKKTLSWAKKMGYGDTEAVKSQIHELSDEIEGISSAKEAYQSGKYTSLAIKYRQEYEGTLYSMGETGASDRTSLMRALTPKEREYIPRFLETTSSKERQEILKYVPEDIKRILQGSWGLKVDKQEDIEDYFDSHYLPSENWSGWNAGTNLDDIKIKVMKKQGVNPTTSGYWSKDQARAEKSGEKAIPIHSLSSLIDTGRLREVLSGMGLSDVDVQLTTSYGEGPGGINTSIDIMKDMQNEILDNLNAGIHSSLF				NA	NA	NA	NA	NA
AK009_04022	7269			hypothetical protein	ATGGAAGGAATCGAAAGAGTACCTATAAAAAACAGAGCACTAACACCTGCTTATGAATCTGCTGATGGTTCAGGCAAGATTAGAATGGAGAACGCAGCAGAACGTACTGCTGCTGAATATAGACAAAGCGCAATAGCTCAAACATATAACGAATTAACAAAAGACAATCGTATTAGTTCATTAGGAATTTGGGAGTCAGCTCGTACTCCAAATAGCTTTAATGTGAATGCTCAACAAGCATTAAATCCTTTTATGAGTCTAAAAGGTGATGACAACGTATTGTTCTTTGATATAGAAGCGATTGGTACACCCGAACACATGAGAAGTAATAAGGGGTTAGATTTGTTTGCAATGACTGAGTTATCCTTTGGCGGGACTAAATTTAATGGAAAAGATTTTGTTAAAAATCATGGCTCTATTGTTTCAATGGCAGTCGCTCCCGGAAAAGATGAGTATGCTCGACTAAAGCAACAGATTAACAGATTAAAACAAAATCCAATGATGGCAGTTTCACAAGATATGCACCGTACATTACTGGATTTAGCTAAGTATTCTGATGCGAGTAAATTTAAAAGTGCTACAAGTAACGGAAAAGCTTACATGTCTTTACTAGGACATTCTCGTGTTCCTTCTGCAGGTACAGCTTTTACAAGAAATACAATAGAAGAAATTGAGAGAGGCCTTAATAACCTTTACCACAAAGGAACAAAGGTTGAAGATGCGTTATCTATCTTCCAGAATCAGATTAGATCTACTAATTCAAAGTTAGGTGGATACAACATTCACCACTATGACTTACCAGCTATTATTGGTGCTGCGGGAAATAAAAGCACAAAAGAGTTCTTTAGAAAAGTATCAAAAGATTCATTAGATTTTTATCATGGATATTCTGCTACTGCTAAAGATCCATACTCATTAACTGGTTCAAGTTTACGACAAGAACATATCCATCAATCTTTATTAAGTAAGAAAAAGATTAAAGCGAATCAATCTTCTTATTTGTATCACTTAGCAAAAGACGATATTCAGGCGAATATTGAAATTGCGGGATTCACCCACAACAAAATCAAATCATTCATCCAAGAATCGAAGAAATCTCCAGCTTACGCCCTTAATCCTTCTACATTAAAAACAGAAATCCTAAAAGCGGGACAAGACGTATTCTCTTATCAAAGTGGTTATTTTGATAAAGAGAAGCACAAGTACAATCTTGTGGGAACAGTTGAGGGCGATGGAAAGATGAAACCCCGATGGGCTAATTTAAACACATCTCTTCCTTCAAATGAGAATTTCACAATTAAAGAATTTTTACAAGACGTAGCATTACCAGGAACAGATAAGAAAGGGTTCGGTGCAAGACTTGATTCTAAAGATATTAAAGGTAAAAGCATCTTATTAATGTCTGAAACTCAAGAAGGACTAGCTCAGCAAATTCATGGTTCTTTCATGCCAATGGATGATGCAATTTCTAAAAGCCTGCGTGATTTAAAAGTAAAACATGACGCTTCCTTCCGTGAATATGAAAGAATGTTCGATAATAATGGATGGAAGAAAATGAATGAATACTACAACTATCTAGATAAAGCAGGTAGTGTCGGAGAAGGTTTTGACTGGAAATCACACGTTGTTAAAAATGGAGGAACAGAAGAACTAGCTATGAAGTTCCCTCATATGGTCGCACGATTAGAAGGGGAAAGAGACGTATGGGGAACAGCTATGAGCACTCTAAAAGCTTCAGGGTTAAGTGACGAACAGAAGTCAATTGCTCTGCGACACCTTAAAAATAAGTTAGATGAACAAGGCGATAACAAAGCTCATGTAACTGCTAAAGGAAATAGATTTTTCGATTTTGCTTTTGGAGAAGAAGATAAAACAATTTTCAATGCAAAAGATACGAACTCAATCAAAGGTTCTTTCCGTTCTTACATTAATGGAAGAAGAGGGGATCGCATTGGAAATCCTGAAAAGTCATACAAGATGGCTCGTATTGACGAATTACAGGATATCATCATTAAAAACTTCAAACTTTCACCGGAAGGTAAAGCTTCTAACGATGTAAAATATCTTATAGGTCAGATGAAACAGGAAGTTATGTCGGGTAATAAAATCGAAACAGCTCTTACTGAAATGTCTAATCTTGTTCGTGACAAGGTAGAAAATATGGGTACAGACAATTTCGTTCGTGAAGTAACTAATCAAATGACGGATAACCGAACAACTGCAATCAAAGGGTTAATGAAGAACCTACCAGATGTTATGCATGAAAGCATTGAGAACGCTCGTTCATACAAAAATGCTAAAGACATATTAAATGGTAATAGTCCACTAAAAGGATTCTTAAGAGAGCAGGATAATCGTATTAAGAGATTATTTGAGAAGAATTTCGGCACACATGGAATGAACGATGCAGACACAATTAGTAAAGCAAGTGGTATGGCTGCAAAGTATGAAGATCTTGTAGGTAAGATTTTATCGTCTTACAGCAATGACTTTAATACTCAAATTCGATTTATGGACGGCGGAAATCCTCTACTTATCTTAGCTGATAAAAAGAGTGGTATGGATTTAAGCGAAGTAAAGACATATGAAGAATTAGTTCGTAACCCTAGACTAGCTACTATTGAACTTCCATCCTTTGATAATGATATGAAGGTAAAATACGGTGGCAACCGAAAAGCTTCTGTTGTTCGTTCTGGTATTGGTGCAAAAGGAGCTTATCATAGTACATCAGTTACAGATGCTCTTAATATGATTCTTGATTACTCTAAGAAAGCAAAAGAGTTGTCTGAGATAGCTGAAGGTACAGGAAATAAGAACGCATTTGTTCAAATCAGACAAGGACTTCGTTATCGTGTTGGAAGACAGGTAGATCCAGTCCCTACTGATGCAAGTCGAAAACTACATTTCGATGATAAAGAAATGTTTGATATTAAATCAGCTATTAGTGGTGAAGTTCGTTCAAGTAAATGGGATATCACGGGCTATGCAGAAGCTTGGTATAAGGCAAATCAAAAAAGATTAGGTTTGAACACCTCTGCTGATATTATTGCTCAAAATGCAAAAGAAAAAGGGATTACATTCTTTGAAGCAATGGGACAAAGAGCAAAAGGTTACGCTACTGCCGGAGGACTTCTTGATTTCGCAAATGGTGCTTCTGGATTAAAAGGAAGTATGTTTGGTATTAATAACCGTTCTGCTTCAAAAGGTTTCGTCGGTACTGCAAATACAGATGCTCGTACTTATATGGCATTAGGTAACTACTATGCTGATTCAGTAGAGAATCCACACAAAACAATCAACTACCGAAAAGTAGACCAAGAAGTTGCATCGAAAGTATTACGTGGTTCTGGTAAAGACCAATCGTTCCGTACAAAAAACAGCTTTATTTCGTCAGCTGCATATAAAGCACTTGATGATGCAAATGAGGTCCGCGGTATTACAATGCAAACAGGTTATATGACAGATGAAGAAATTGCATTGAAGCTAAAAGATGCTAATACTGTTGCGAAATACAAGAGCATGATTGATACAGCTCAATCTAAAAATCAAATCTCACCTGTAGAAGCAAGACAAATGAAGAAATCTTTAGATATGGGTATGCTTTCGACTAGTGAAGGTCTAGCGTTTATGGATCACAAGCTAATGAAAGCCTTTGATGGAATGGACGAAGTTCGTATTAATATGAACGCTGAAAAAGTAATGTTCAACAATTCTATTGAAGTAGCTATTGAAAAAGAGGCTGAAAAACAAGGTCTTGGTAATGGTCTATGGAAAGAGAAAGGAATCACTTTTGATAAGCCATTAAATATCGATATAAATTCTATGTTTAATGAGAAGAATCATCTTACACTTGGAAAATATGAAATTAACAATATTAAAAATGAAATTGTTGATGACAAACGTTTTAAGAAAGGTGATAAAGTATCTATCCTTGGATTCAACGCAGATGACATTGATAAGAGATCTCTTGTGTTAGGTAGACAACGTAAAACAGGACATGGATTCAAAGCAGTAACTGAAGGTGGTTTCCGTGCTACTATGACTCCTATGCTTGGAGAAGTTATGAGTGACTTATATGGCGTAGAAGGAGTAGAGCAGGTAATTTCTCATCTTGGAGAAAAGAAAGGTGCTACTGATTTACCGGCATTAATTCGTGGTTATGATACTCAGATTCGTCAACAATTCGGCGGCACAGTAGATAAGAAAATCACTGGTTACGGTTCGGAAGATAAAGCACTGTCTTCATTCTACAAAGATGTTGAACAAATGCTTGGTATTAAAACTACTAATCAAAATGGTCAATACGTTGTAGATTCCAACTTTGGTTTAGATGGAAAACAGCTTGATCAAAAAGGTCGCGAGAAACTTTCAGCTAAGTGGATGAATGAGTTAGGTCTTAATCGTGAAGTGTTTGCTGATATCACAATGGCCCATGATGTTTGGAATCGTCAGGGTGGAATTGACCGCGGTAAGATAACTGTTAAAGAGATAGATATGTTAGATCGTTCTTATACTCGAACAGGCATATATAAACCAGGAGAGACTTCTACACATGCTAGCTTCATGCGTGATATGGTTTATGGTTCTCAAACTGCACCAGAAATTAAAGCTCAGCAAAAAGTATTTAACGAAATGGTTAAAGTTGCTGGTAATTACGATAACGGTTGGACTCCTAAAGCAGGAGATGTAGTTATTGATTACACTTCTGATGGTATGGGGGTAATGACGGATGTAAATGCACAGATGAAAGGTGGAGTACTTCATGTAAGTAAGGATTCATTCGAAGCAATTCCTCAAAAGCCTGGTCATAGTCAAACATTCACTGTTGGTGATTACAATAAAACGATTATTAATGCCGGAGCAATAGAGTTTAATCTAGAGTCTGGTGGTAAAGGTAAAAAGATTCAAGAGCACCTACTTAGCACAAAAGGAACAGCGTACTTAAAACTTCCGGAGTTCGCAGGGAACCAACACATTCCTCTTCTTGATATCAATTCAATGAAGCTACCTAGTGATGTTAACTATGTTGAGAAGACAGAGTTCCTCGATACATTAAAAGGTCACTATGCTTCTATTGCGAGAAAAACAGAAGAATACAATGGCTTATTCACAACAGATAAATTCTCTGCAGAAGATGTAGCTAAACGACGTGGAAATTTAGAAACAGAGATTAACAGAGAAGTTTCTAATCTTGTTACAACTCTTGGTGATTCAACTTCAAAAGAAGGTATGGCTAAGATTATGGCAAGAAGACTTCCAATGTCTTCTCAATACCAATTTGGAGGCGTTAACCCTGCTTTAGCTTATCAGAAAGACGGCGAAAAGTGGGTAAACAATGGTATCGCTAAAGAGGGCGAAGTCTACATGAACGAGAAAGATGTTCGTAATTTAATTGGCGACAAGGCTGAGAACATTGCGAAATCTTGGGGTACAGATACTGCGAAAATCAAACCAGAGGACATGACGGATTATGTTGTGAAAAACTGGAACAAAAACGATGTGTTCTCAACTACTATTCGTTACCCATCGATTGACGTTGGTACGACTCAAGCTCTTAAATTGAAAATCAGTGATGCTGTTGGTGAAGGGCAAGTAGTCGGATTGCGTGGTATGGCCGAACGTATTTCTGGTGACTTTGACGGAGATAACTTAGCGGTATTCTTAACTCATTATGGAATAGATGATGAGAAACAAAGAAGTGCAGTATTAAAGGACATCACTAAGCTACATAATTCTGATACAGCGAAGAACCAATTGGCAGCTGACGTAATTATGAACAGTATGGAAAAAGACTTCCGTACAAGCGTATCAAGTGCTACTGGTTTAGACGCAACTCATAAAGATGTTGTAGCTGCTTCCGAAGCATTCTTCTCAGGTAATAGCACTAAGAATCTTACACTTGGACACCTACACGGTGCTGAAGCACATGAAAAGATTCGTGAATCTCTTCAAAGTACGGGTGTATATGATGATTGGGGAACAGTTAAGAATGGTGAATTCGGACTAGGTAAGGCCGAACACGAAAAATCAATCTTAGCTCGTGCAACTTCTTCTACAATTGGTAGTGTAGATAATACACGTATGAGAATGTCTGCAGCGTTTATGACGATGGCGGAAACGAAATACAAGCTATTCAATGAAGCAGAAGGAGCAATGAAATACTCTAGAGATGATTATGTACGAGAAACTGCAATGGTGGATGAATTCCTTCGTGAATATTCTCAGAAGTCTATCTCGGCTAAGAAAGTAGAAGGTTCTAAGCAAACTGCAGAAGAGGTAATGGGCGACCTTTACAGCATGATTGATAAAATTAATAATCCTAGTAACGGATTGGATTATGATTTAGCTTCAGCTGACCTTGTTGATCGTGGTCTATTTAAGAGCAAACCATTCCTAGAAGTAGGAAAAGGTGAAGTTTACAAAGGATCAAATCAGGAATTCATTAAGAAGTCTCTTCAAATCTTAGGTGGAGCAGAAGAAGTTTATAGTGAAATGGGTGTTCAAGGATACCGACAATCAAGTTTACTTGTAGCTGCTTCTCAAGGTATTGGATTCCATAACTTCTCCAACATGGTCAAAACAGGTGAGCACATCCCAGGCATGGATGCTGTAACTGAAATCTCTAACATTGCTAAAGAGTACGGTAATGCGAGAATGGCTAAGCACCAGGAATTCTTCGAAAAATCTGTACAACGAATTCATGAGCGCAGATATGCAAACATTGAAGATCGTTTAGACGATGCAGTTAGTTCTGTTGAAATCATGGGAGAAAGAAAAGCTGTTGAGCCAAAAATCATGTCAAATGAAGCAATGCCACTTCATCGTACAATGAGAGATGAAATGAATGAGTCCCTTTCAGATATTGCAACTGCTGGTAAGAAAGCATTTAGTGGAAGCGCAGCAAGTTTCGCGGGGGTTGGACTTATGGGGTTCGGTGCATTATGGGCAACAAACGCCCTAATGAAAGGCGCACCTACACCAGAAGGGTTACAGGAAATGGCACCAGTGGCACCAGAAACTTTAGGGGCTCCTACAGCTCGTGTAACACCTAACCAGAACGGTGAATACATCAATATATCTGTAAAGGCTTCGGCTGCTAAGAGAATGAATCATAATGACCTAGCAGCTATGCTAAACAATGAAATCATGGCTATGTCGAATGTCAAAATGAGTACAAATGTGAATGTAAATGACAATTCGAGAAACATAGATAACAAGTGGTTAGAGGGCGCGGTTGCAAATGCAATGAATAAGGGTTATGCATATTAA	MEGIERVPIKNRALTPAYESADGSGKIRMENAAERTAAEYRQSAIAQTYNELTKDNRISSLGIWESARTPNSFNVNAQQALNPFMSLKGDDNVLFFDIEAIGTPEHMRSNKGLDLFAMTELSFGGTKFNGKDFVKNHGSIVSMAVAPGKDEYARLKQQINRLKQNPMMAVSQDMHRTLLDLAKYSDASKFKSATSNGKAYMSLLGHSRVPSAGTAFTRNTIEEIERGLNNLYHKGTKVEDALSIFQNQIRSTNSKLGGYNIHHYDLPAIIGAAGNKSTKEFFRKVSKDSLDFYHGYSATAKDPYSLTGSSLRQEHIHQSLLSKKKIKANQSSYLYHLAKDDIQANIEIAGFTHNKIKSFIQESKKSPAYALNPSTLKTEILKAGQDVFSYQSGYFDKEKHKYNLVGTVEGDGKMKPRWANLNTSLPSNENFTIKEFLQDVALPGTDKKGFGARLDSKDIKGKSILLMSETQEGLAQQIHGSFMPMDDAISKSLRDLKVKHDASFREYERMFDNNGWKKMNEYYNYLDKAGSVGEGFDWKSHVVKNGGTEELAMKFPHMVARLEGERDVWGTAMSTLKASGLSDEQKSIALRHLKNKLDEQGDNKAHVTAKGNRFFDFAFGEEDKTIFNAKDTNSIKGSFRSYINGRRGDRIGNPEKSYKMARIDELQDIIIKNFKLSPEGKASNDVKYLIGQMKQEVMSGNKIETALTEMSNLVRDKVENMGTDNFVREVTNQMTDNRTTAIKGLMKNLPDVMHESIENARSYKNAKDILNGNSPLKGFLREQDNRIKRLFEKNFGTHGMNDADTISKASGMAAKYEDLVGKILSSYSNDFNTQIRFMDGGNPLLILADKKSGMDLSEVKTYEELVRNPRLATIELPSFDNDMKVKYGGNRKASVVRSGIGAKGAYHSTSVTDALNMILDYSKKAKELSEIAEGTGNKNAFVQIRQGLRYRVGRQVDPVPTDASRKLHFDDKEMFDIKSAISGEVRSSKWDITGYAEAWYKANQKRLGLNTSADIIAQNAKEKGITFFEAMGQRAKGYATAGGLLDFANGASGLKGSMFGINNRSASKGFVGTANTDARTYMALGNYYADSVENPHKTINYRKVDQEVASKVLRGSGKDQSFRTKNSFISSAAYKALDDANEVRGITMQTGYMTDEEIALKLKDANTVAKYKSMIDTAQSKNQISPVEARQMKKSLDMGMLSTSEGLAFMDHKLMKAFDGMDEVRINMNAEKVMFNNSIEVAIEKEAEKQGLGNGLWKEKGITFDKPLNIDINSMFNEKNHLTLGKYEINNIKNEIVDDKRFKKGDKVSILGFNADDIDKRSLVLGRQRKTGHGFKAVTEGGFRATMTPMLGEVMSDLYGVEGVEQVISHLGEKKGATDLPALIRGYDTQIRQQFGGTVDKKITGYGSEDKALSSFYKDVEQMLGIKTTNQNGQYVVDSNFGLDGKQLDQKGREKLSAKWMNELGLNREVFADITMAHDVWNRQGGIDRGKITVKEIDMLDRSYTRTGIYKPGETSTHASFMRDMVYGSQTAPEIKAQQKVFNEMVKVAGNYDNGWTPKAGDVVIDYTSDGMGVMTDVNAQMKGGVLHVSKDSFEAIPQKPGHSQTFTVGDYNKTIINAGAIEFNLESGGKGKKIQEHLLSTKGTAYLKLPEFAGNQHIPLLDINSMKLPSDVNYVEKTEFLDTLKGHYASIARKTEEYNGLFTTDKFSAEDVAKRRGNLETEINREVSNLVTTLGDSTSKEGMAKIMARRLPMSSQYQFGGVNPALAYQKDGEKWVNNGIAKEGEVYMNEKDVRNLIGDKAENIAKSWGTDTAKIKPEDMTDYVVKNWNKNDVFSTTIRYPSIDVGTTQALKLKISDAVGEGQVVGLRGMAERISGDFDGDNLAVFLTHYGIDDEKQRSAVLKDITKLHNSDTAKNQLAADVIMNSMEKDFRTSVSSATGLDATHKDVVAASEAFFSGNSTKNLTLGHLHGAEAHEKIRESLQSTGVYDDWGTVKNGEFGLGKAEHEKSILARATSSTIGSVDNTRMRMSAAFMTMAETKYKLFNEAEGAMKYSRDDYVRETAMVDEFLREYSQKSISAKKVEGSKQTAEEVMGDLYSMIDKINNPSNGLDYDLASADLVDRGLFKSKPFLEVGKGEVYKGSNQEFIKKSLQILGGAEEVYSEMGVQGYRQSSLLVAASQGIGFHNFSNMVKTGEHIPGMDAVTEISNIAKEYGNARMAKHQEFFEKSVQRIHERRYANIEDRLDDAVSSVEIMGERKAVEPKIMSNEAMPLHRTMRDEMNESLSDIATAGKKAFSGSAASFAGVGLMGFGALWATNALMKGAPTPEGLQEMAPVAPETLGAPTARVTPNQNGEYINISVKASAAKRMNHNDLAAMLNNEIMAMSNVKMSTNVNVNDNSRNIDNKWLEGAVANAMNKGYAY	PGPT0022155_822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
AK009_04023	7374			hypothetical protein	ATGAAAGAGAAAATATTAATTACCTCTCTAACAAGAGTTAGAAAAGATGCGCCTTGGCGTGTTGGTATATACATAAATCAGAACTACACGTTTATTAATGTAGGGAGCAAGGGGAGTGTAGCAACTAGCCCAAGATTCAACATGTTCCTTAATGAAGTAGAAAAGAAAGTGTCTCGTTACCCTGTAGACATTAGTTTTTATTCAATAGCTGATAATAGAGAGATGGAAGTCACTACGATGCGTAACCAAATCATCTATTTAGATTGTGGCTACAATTCTCACAGACTATTATCAAGCGCTAAATTCTACTACGAAAAAGAAGTGCTTGGCAATCCGTTAGAAATAGCGCAGCAAAAACCAGAAGAAGAGAGCAGTGGATTCTTTAGTGCAATGGAAGAACATAAAGAATCAGTTGTTACTTCAGACTATATTGCGGTTGGAAGATTAGAGAAAGTTACAGATGGTGATACAATTGATGTAAAACTGGTAAAGTTATCTGATTTCTTATCTTCTAAGTTAAAAGTAGAAGAAACAATCACAATTCGATATAACGGCGTAGAAACACCAGAAACATTGCAGCCGGGAGCAGAATCCTATAAAGACCCTAAAAATACTAGGTTAGGAAAAACATACGGGGTTACAATGCAAGATATGTACGAAGTAGGGGAAGAAGCCCATAAACAAAACGAGACACTCTTAGGTTGGAAAGCAAACCAAAAACCACTTGTTGTTATTCACTTTGATCGTCGGAAAATGGGAGAAGCACCTCTGACTGATGCAAAATATGGTCGATATATTGCAGATGTTTATGCTACGGAAGACAAAAGTGCTGATATCCTATTTAACAGGGTTAATAGCGCAGAAGGTCAGAAACTTGTACACGTAAACAAGTCCCTTTTAGTAACAAAATCTAAGAAGTTTCCTCAAGTTCCTCTTGGTATTTTCCCATTTGAGTATGCAAATACTTTAACAGTTCTTAATCCATTGAGTTGGATTCAGGAATTAAATTTAAAAGCATATGACACAGGTATTGGTGCCCCTTCAACAGGTGGAAGCGATGCAGAGAGTACTCCTGATATCGGTAGTGATGAACCTTACGATGAAGATATCAATCCCGAAACGACAAATATAAAAGGAACAACAACTCCTGCTCATAACGCTTTGGACTTTTTCAGCCCTTATGACGATAGGGTGTCAATTTTTACAGAGGGTATTAGTTCAGTCGAAGATTTAAAAAGACATTCTAAAGTTAGGATTGGTGATGTAATTCTTACAATTCCACCTACTTCTATTGATGTAAACAAAACTTCAAACATCTCCAAAATAAAAACACTTCGTACAAAATCCTCTGTATTAGTTAACCGCGGTCAAACACTTACTACGTTAAGCATGGATCTTTATTTCCACGATCTAGAATCAATTAATGGTAAGAAATACCCTTGGAAGAAAGAATACGGAAAAGGAGAAGAAGCTAAGTATTTTTACGTTGATGGACTTAGACCATTACTTGCACAATTCGCTAAAGCACCGTTTCTTCCTATTGATAACTACTACATTAATGATGTATTAGGTATTCGTGATGTAGCTTTAATGAATATCGAAGTAACGACAGTTCCTAATTTTCCAGAGTCCTTAACTGCCAAATTAACGCTTGTTGAATTTAATTCAGAAGCATACTTAATGGATAAAAGTACACTGGGCGATTCTGTAAATTACCCAATGCTAAGATGGTATTACAATCAATCCCTAGCTCCTCGCGGAGACAAGTACCGTTACTTCAAAGGATTAGATGGCCAACTTAAAAGTGATATCAAATTTACTCTTGCTGATGAGTCATTCCTTACAGCTCGAAGAGACGCTATCAACTACATGAAGAATGCAGATTCTCCAGAACTAAGAAAAATCGAATTAGAGACAAAGAATGATGAGTACAAATACAAAAAAGAAGATGCTTCTGTTGCTAATGAAATCCTGGATCAATATAAACGCTATAAAGATTCTACGATTAAGCCAGAAACAATTATTGATGATCTTCGAATGGGATTTGCTGATAGTAACTATTGGTACATGGTTAGCGAACTTAAAAAGAAATACAACAACTTAAAAAGAGAAGAAGCAGAAAACGTTCTACGTGAAGGAGCGGAATTGTTTGCTAGAATTTACGATGGTAAACACAAGGGCTCCTTTACTAATCTGCGTAATCAAGAAATCTTCATTCCATACCAGTCTCGTTTGTACTTTAAGACTCGATTTGATTGGTCAGGTATATCTGCTGGGCTTAATTACTATGACGAAGATCCTCCAGTAGATTACTCAAAAGAACCATACAAAGGAAAAGAGGAAGATGGTCTTATCCTTATAAAGGAACTTAAAGATCCTGGTAACCAAAAAGCACTTGAAAAGGAATTTAAGAAGTATTATGAGAAAGGACTATTCCGTATTCCTGCTAATGATGCTGGGATAAAGGCAATTAAAAACATTGCAGACGGTGCAAAGAAAATGGAAGATGAAGTAGCTAAATACAAAGACGAATTTGATGAGTACATGAGAGTCATTGAAGCTAGTGAACGTTTGATTCCGATGAGAGAATATCCGATCTCTGGTAAGGTTATCCCAATCTCTATCAATGCTCGTTTCTCAAATGAGTTTAGTATATCTCATGTTCAGTCTAGTGAAGCTGCAACCCTGCAATATATGGGTGGTGGAGATCCATACATTGATTTACTCTTGGAGGTAGATGAAGATGGCGCAAGAGATTTCAACAACCTTATTGCAACTTCTGACCAATACGCTAAGAAATTTAATCAAGGTATTACAAATGGATATATCGGTATTGAAAATGATCTTTCTCAGTTATTTGGTATTCGATATGTAATGTTCGAAAGTATCTCTGTAAATACAGTTCCTAACTTCCCAGGAAGATACCAAATCATGTTACAAGGTATTGGGTTTGATAAAACGCAACGTCAACGTGAAGAATTAACTGCACTACCTGGTAATAGCAAACAAATGGATCTTGAGAAGTTAAAGATCAACAAGACAGCATTTATGAATGACCGTATGATTGAAGCTAGACTTCACAAGCTAGAAGTTTATCCTGATATGGAACTTCCTACTTACGCTCAAATTAATGCCGTATTGCCAGAGCTGGATGCAGGTACAAAAGAATATCCGAACATAACAAATGGAACATATCTTGATCCCGACTTCTATTTCTCTACAGGTAACACGTTAAGACAATTAATTGAAGAGTCGTACCTTGGAAACCATCAATTAAACATGTTTGATGCTACAGGTGTAGCTGCTTTCACAAGTAATCAATCAGAGAAATTATTTGATACGACTGAAGAGGACTGGGACAAGCTTAAGAAGTTAGAAAAGACTGAAGGTGTAGGACCTCTTGACTGGAAGTTTGATTGGGGTAAAAAGGAAGATGCTAAAAAATCCGACGCTCCAAATACATCAGCAGGAGCTGTTATGGCTGACCAAGGCGGCACTGCAACTGTAAAGAATGCAGACGTTCAAAAGTTTTTAACAGATAAAAAAGATGATAAATTTGCTTATGAAACTTTCCCGACTATGGAAGAATGGAAAACACTCTTCCCTGATGGCGGAAATGATTATGGTACATTATCTAAAAACCCTAGTGGCGATGAAGCACTTATATACCAAGAACTTAATAGTCTAGTTGATAAGTACTTTAAGAAATACTATTCAGCTCCTACATTCATTGAAGAGTGTCGCGGGGATTTAAAAGAGGCAGACAAAACTAAAAAGGTAGTCTCTTATCAGCCTGCGGAAGATATTTATTACGCAAGTTTCAAAGTGAGAAGAAGTAAATTAAGAGGCCCAGATACTACTGCTATTGGTGATTTGATCAAGAAAGAAGTCATTAAAGAGCCTAAAAAACCAAATGGTATGGATCATATGGACTTCGCTAAAACAGAATCAAAAATCACAAAAGAACGATTTATGACGCTTATGAAAGCATTCCTTGATAAAACAAGTCAGTGGAAACATTTCAAAGGGACAAAACCTACTGTAGGCAAGTCTGGACGTGTAGGGTTAGCGCAAGTAGATGTTTCTTCAGCTGATATGAAGGTTGATGAAGTAAAACGCTTAATGTACAACTGGAGATACAATTTACAAACAGCAGTGAAGCAGCTTGCGGAACACTACGAGAAGCTAGATAAGTTAGATAAGGATCGCGAGAACTATGAAGTTTATTGTCGTCCTTGGGATGGAATGTTTGCCCTGTATGAAAAGCCAGATGCTAAAATTAAATTCTCTAAAGATATCGAAGATAATAGTTTTGCAAGTGGCGTTATGAACCGTTTCAACCATTATGCGACTAAGCCATTTAATACATTTAGTGGTTATAACAAGGATGTATATAGAGGGTATGCCGGACTAACTCTAGACGAGGGTATTACGATGGGTGATGGAAATAAAGATGACTATGTTGATGAACTTCTTGAGCTTGAGTACTATGATTTATCAGTACTAAAAGCGAATAACTTGAAAGTTGATTCCGATAAGAAAAATATCAAGAAGGTTATGAAAAAACATCTAGAAACCCTGGATAAAAATTCACTATACTCTATTTATGAGAAGCATTTAAAAATGCTATATGAATTAAGTAAGACAGATGGATGGGTTGAAAAAGGTATAGACTTTCTTGGGAAATACAATCCAGGTAACCTTGCTACGTTTGGTGCACTTGGAAAAGCTACCGATAAACTAACAGACAAATTCGCAGGTAGTAAAAAAGATAAGAATGGATACGAGTATTCACAAAAAATCTACGAAAAAGGTGCGAAGCTTTATGAAACAATTCATCAAGTTGATGAGACGGCTGAAGCTTCAACAGGATCTACAGACCTGCGTTTGTATAATGATGTTGACCCGCGAACCCTGTATGAGGAAATGTTCTATGATTTAAGATACCATGACCAACGTGGAAGAATGCTTCGTGCATTCCCAGGATTCCAGATGTTTATTATCCATGAAGGTGATTACTTTGGTAAGTACAAGTTTTGGGATAATATGTACGGATTCAACGCTATTCAAAGTATAGACGTTCACCGTTCTCGTAAAATTGCTGCAGATACAGCAGTAATCTCTATGACTAATGTTTACTCAAACTTAACAACTCGTCGTACCGATGTTGACTATGTAGACCGTCAGTTAAAATGGTGGGACAACTACGTTTGGAATGAAATCCCTCAAGATTTAATTGATAAGAAGGAAAACGAAATTCACAAGAACCTTTTCCTAGAAACAGGAGCGCGTATCCATTTAAGAATGGGTTATGGTGCTACAGCTAGTGCGTTACCAGTAGTGTTTAATGGTACGATTTCAGAACTTGAGATTGGTGATGTAATTGAAATTGTTGCTCAAGGTGACGGAGTTGAATTAGGAAACGTGGTGTCTGGTGACCCTGATGATGATAACGATGGAATCTTCAGTGTAACTGAACCACGAGACTTGATTTGTAGTCTTATGAGTTCAAAAGGAAGTTGGTTTAAAGACTTCATGAACGGAGTAGTAGATGAGCGACTATTCAAAGACAATCCTCTAGGAATCATGCATTTTGGACAGCCATTTGATTCAAAGGGCACAACTGATTCGAAACCTATGGGTAACTTAATATGGTTCAACGATGAATATGGTGAAGTAGCCCAAAATATTTATTCCTCAAACGGAACTCCTACATTTTCACAATGGTTGCACCCTAATGGAGAGCGAAATAATATTTTCGAAGATTTTAGCTGGACGCGACTATGGGAAAACAAATTTAAAATCCTTAACCCAGGTGATGAAGATAACGTAGTTGTTAAGTTCTACAACAACACCGTTTGGGATATTATACAAACGATTACGTATTCGACTCCGGACTATATATCTGCTGTCCATCCGTTCGAATTACGCTCGACATTGTTCTTCGGTAAACCGTACTGGCGTTGTGCGTTCGAGTATGATTCTCGATATGAGTTTGATCCTATACAAAAAACATGGTCAAGATACCTTACAGGACAGTCAAAACGTCCGTACATGCAAAACAAATTCTACATGTCAGCTTATGATATTATAGAAAACAATATTAAAGCTAGTGAGGATAATGTTTTCACAAACGTTATCGTAAACTATGACGGAAAACAAACACCGGTGCTTTACGCGGATGCGGATATTCGTTATGACAAACAAAAAACAAGAGTAGTAGAAGCAGATATTGTAGCAAAGTTTGCGGACTTCTATACTTCGGAAGTAATGGCTACATACTTCGGACAGTCTACTCTTAGAGATAGCATGAAAGACATGTACAAGGGTAATCTGTTGGTGCTAGGAGATCCTACCGCTAAACCTCATGACATGATGTACATCAATGATGAGATTAACGACCTGCAAGGAAATGCGTTAATTAAATCAGTTACACATCACTTCAGTATGGAGACAGGATTCATTACTTCTATTGAACCAGACTTACTGGTTGTAAACGATGACCAGGTAATTCTTGAAATGAGTAAGTGGTACATGAGTTTTGGACAGTCATTAGCTGCTACAGTTGCAATACGTGCAGCTGCTAATAAAGCTGGAAGAAACTTAACTAAATGGATTACTAAATCAAAAGGGATTCCTGCTGGTGTAGGTAAATGGGTTTCTACTAAAGGATTTAGACATACAATAAGTATGGCGAATAGTAGTGGAGATATGGACAAGATCCTAAAAACTCTTGACGAGATTGTCTCGAAAGGAGATGGGGATGTTAAGGCTCTGCAACAGAGGTTAGTAAAGGATTTTGAAGAAGCAGCCCAAAACATGACCAAGGCTCCCGGAAAATCAGGTTTTCTTAAGAACACAAGTAAAAAGGCTATTCTGCAATCAGGAAGTGCCTTTGCGAAAGTTCTATCAAGCTCTGATGACATAGCGAAGATTGGTAAAGGGGCATTAGGCGTGATTCGAGGAGCAGCTTCCTTCACGCCAGTTGGATTCATTATTAATGCAGGAATATGGATTGGTACAGAAATGATATTTGAACATTATCGTCGATTCAAAGAAAACCTTCAGTGTGTTGTGGCGATTCCATTAAATTATAGAGGGAAGGAATTGACGGCAGGTATTAACAACCATGCAGGTATGATTTATGGTGATGCACCAGGTCGATACGATAAAATGTTCAATGCAACATTATTCCATGATGACGGGGATGATGTAGAATTCTTCGGTAATGCATTCATAGAAATAGCTAACTTCTTTACTGGTTCAGGAGGAGAAGAAGGTGTGTATGCAAGAACTGAAAAAGCGTACCAACTAAATCAATTAAACAACAGGCAACAACAGACAGCAACATCAACAACGAAAGAAGGGGCATAG	MKEKILITSLTRVRKDAPWRVGIYINQNYTFINVGSKGSVATSPRFNMFLNEVEKKVSRYPVDISFYSIADNREMEVTTMRNQIIYLDCGYNSHRLLSSAKFYYEKEVLGNPLEIAQQKPEEESSGFFSAMEEHKESVVTSDYIAVGRLEKVTDGDTIDVKLVKLSDFLSSKLKVEETITIRYNGVETPETLQPGAESYKDPKNTRLGKTYGVTMQDMYEVGEEAHKQNETLLGWKANQKPLVVIHFDRRKMGEAPLTDAKYGRYIADVYATEDKSADILFNRVNSAEGQKLVHVNKSLLVTKSKKFPQVPLGIFPFEYANTLTVLNPLSWIQELNLKAYDTGIGAPSTGGSDAESTPDIGSDEPYDEDINPETTNIKGTTTPAHNALDFFSPYDDRVSIFTEGISSVEDLKRHSKVRIGDVILTIPPTSIDVNKTSNISKIKTLRTKSSVLVNRGQTLTTLSMDLYFHDLESINGKKYPWKKEYGKGEEAKYFYVDGLRPLLAQFAKAPFLPIDNYYINDVLGIRDVALMNIEVTTVPNFPESLTAKLTLVEFNSEAYLMDKSTLGDSVNYPMLRWYYNQSLAPRGDKYRYFKGLDGQLKSDIKFTLADESFLTARRDAINYMKNADSPELRKIELETKNDEYKYKKEDASVANEILDQYKRYKDSTIKPETIIDDLRMGFADSNYWYMVSELKKKYNNLKREEAENVLREGAELFARIYDGKHKGSFTNLRNQEIFIPYQSRLYFKTRFDWSGISAGLNYYDEDPPVDYSKEPYKGKEEDGLILIKELKDPGNQKALEKEFKKYYEKGLFRIPANDAGIKAIKNIADGAKKMEDEVAKYKDEFDEYMRVIEASERLIPMREYPISGKVIPISINARFSNEFSISHVQSSEAATLQYMGGGDPYIDLLLEVDEDGARDFNNLIATSDQYAKKFNQGITNGYIGIENDLSQLFGIRYVMFESISVNTVPNFPGRYQIMLQGIGFDKTQRQREELTALPGNSKQMDLEKLKINKTAFMNDRMIEARLHKLEVYPDMELPTYAQINAVLPELDAGTKEYPNITNGTYLDPDFYFSTGNTLRQLIEESYLGNHQLNMFDATGVAAFTSNQSEKLFDTTEEDWDKLKKLEKTEGVGPLDWKFDWGKKEDAKKSDAPNTSAGAVMADQGGTATVKNADVQKFLTDKKDDKFAYETFPTMEEWKTLFPDGGNDYGTLSKNPSGDEALIYQELNSLVDKYFKKYYSAPTFIEECRGDLKEADKTKKVVSYQPAEDIYYASFKVRRSKLRGPDTTAIGDLIKKEVIKEPKKPNGMDHMDFAKTESKITKERFMTLMKAFLDKTSQWKHFKGTKPTVGKSGRVGLAQVDVSSADMKVDEVKRLMYNWRYNLQTAVKQLAEHYEKLDKLDKDRENYEVYCRPWDGMFALYEKPDAKIKFSKDIEDNSFASGVMNRFNHYATKPFNTFSGYNKDVYRGYAGLTLDEGITMGDGNKDDYVDELLELEYYDLSVLKANNLKVDSDKKNIKKVMKKHLETLDKNSLYSIYEKHLKMLYELSKTDGWVEKGIDFLGKYNPGNLATFGALGKATDKLTDKFAGSKKDKNGYEYSQKIYEKGAKLYETIHQVDETAEASTGSTDLRLYNDVDPRTLYEEMFYDLRYHDQRGRMLRAFPGFQMFIIHEGDYFGKYKFWDNMYGFNAIQSIDVHRSRKIAADTAVISMTNVYSNLTTRRTDVDYVDRQLKWWDNYVWNEIPQDLIDKKENEIHKNLFLETGARIHLRMGYGATASALPVVFNGTISELEIGDVIEIVAQGDGVELGNVVSGDPDDDNDGIFSVTEPRDLICSLMSSKGSWFKDFMNGVVDERLFKDNPLGIMHFGQPFDSKGTTDSKPMGNLIWFNDEYGEVAQNIYSSNGTPTFSQWLHPNGERNNIFEDFSWTRLWENKFKILNPGDEDNVVVKFYNNTVWDIIQTITYSTPDYISAVHPFELRSTLFFGKPYWRCAFEYDSRYEFDPIQKTWSRYLTGQSKRPYMQNKFYMSAYDIIENNIKASEDNVFTNVIVNYDGKQTPVLYADADIRYDKQKTRVVEADIVAKFADFYTSEVMATYFGQSTLRDSMKDMYKGNLLVLGDPTAKPHDMMYINDEINDLQGNALIKSVTHHFSMETGFITSIEPDLLVVNDDQVILEMSKWYMSFGQSLAATVAIRAAANKAGRNLTKWITKSKGIPAGVGKWVSTKGFRHTISMANSSGDMDKILKTLDEIVSKGDGDVKALQQRLVKDFEEAAQNMTKAPGKSGFLKNTSKKAILQSGSAFAKVLSSSDDIAKIGKGALGVIRGAASFTPVGFIINAGIWIGTEMIFEHYRRFKENLQCVVAIPLNYRGKELTAGINNHAGMIYGDAPGRYDKMFNATLFHDDGDDVEFFGNAFIEIANFFTGSGGEEGVYARTEKAYQLNQLNNRQQQTATSTTKEGA				NA	NA	NA	NA	NA
AK009_04024	2052			hypothetical protein	ATGGCACAAAAAGATAAACAAACCTATAACACAGAAATGTATATAAAGAAAATAAAAGCAGCAAAAGAAGTATATGCAGAACGTAAGAAGTTCTTACAGAGTTTCTCACTTAAAAAGACAAAAGAGAAGCCAAAAGAAGGTGGCGGAGAAGTCGCAGCATCAAGTGGAGCTGGCGGAGCAAACTTTAATGGTGAGATGCCTACAGTCGCTCAATACACTGGACCAGATAATTACTTCGACAAAATCATAAACGGTAACTACCAAACAGGACTTAAAGGTAAGGTAGCTGGTACTGATAAGTGGAATCAACATATTAAAGAACAAGCAGCAAAAGCTGGAGTAAACCCTCTTATGGTTAAAGTGATTATGGCAACCGAATCTGGCGGAGAACACGATTCAAGACCAAACCCTTATAACTGTGTTGGATTAATGCAGACGGAAAAAAATATTACTGGTGAGCTAGGTTTAGATTTTGGTAAGGCATGTAATGACCCGATCTATAATATTTATGTAGGTTGCATGATTCTTAAAGAAAAACATAACTATGCTGGAGGAGTTATCTCTAGGGCTGCTGACAGATATTCACGCTTTAAAAGTCAAGGGTATGAATTAAAGCAAAACGTTCATGGGATTGCATGGCTATATAACGGTTTTAGTGTACCTAGTAACGGAAGTAGTAAGGTTACAACTGGTGGGTATATTTATGGGAACCAAGTAGCTGAGATGTATAAAGGTTTCGGAAGAGATCCATATGTAGAGTCAATTTTAACCCTAGATGTTTTATCTGGTGGAGGCGCTGGTGGAAGTTCATCTTCTGCTGGTGGTAAAGGAACAGGTGGTAAATGGGAGTACGGAAAAACATTTGCAAGCGGTGCAGAAGTAGTTAAATTCTTAGACACTGTAGATACGACTATGATCAATGGTATCTATGTCCATCATACCTGGAACCCAAACCATACAAGTGCTAAAGGTCAGACACTAGCAAAACTAAACGACGACATGAGAAGATTTCATACACAAACAAATGGCTGGGACGATATCGCGCAACACTTTACTATCGGTGTAGATGGACAAGTAATTCTTGGACGTAACATTTCATCCGTACCATGTAGTGCAAAAAACTATAATGGTACAGCTGCTAATCATCCAGCAATGTATGAAATGATTGGAAACTTTGATAAGGGCAATGATACTTTACAAGGCAAACAGTTAGAATCTGCTGTTGCTATCGCCAAGTATTTTGCTGGCAGACCAAATGGTGTGAAGTTTCACCGCGAAGGATTAATTAATGGTCAAGAACCGAAAAGTTGTCCTGGTACTGGAGTTGATAAAACTTGGTTTATGAATCTAGTTACAGGCAAGGCAAAAGTAAGTGCATTTTCTGCTCAAGCAGCACCTTTATCAGATAATGAGATTGAAGGGAATTATGCAGCTGGCTGTGACCTTTATCAAGATCCGGTAAAAGAAGTTGTTGCTGAATCCCCAGCCAAGCTACCACCAACAGAAGAGGAATTAGCATCCGCTAGAAGTTTTGCACTTAAGATAAGTATTCCTACTGCAAAACTAAAAGAGAGTAGAATCATTGCCCCAGACTACCCAAGGTCAAACTATGTGGAAGACTTTAAACTGTCATCCAGTTATGACATGAAGAAAAAATATTCCCCATTACCTCCAAACGAGTTTATTCATTTAAATGGACCTCAAGAGAATTTCTACACAAGTGAAGCAAGACAAGCTTTTCGTCTTCTTAAAGATCGACTCGGATATAGAACCTTAAAAATAGCTAGAGGGTTTGATCCTTCTGATGGAGAGTCTTCTCATTCTATTGGTATTTCTATGGATATTTATGCTGATTCAACGGAAGAAGCAATTTATATAGCTGACACTGCATGGTTAACAGGATTCCGTGCTATTGCAGTTGGTCCTAATTTTGTTCATATTGATATTGGCCCTGAATCGACTTGGGGCTATGACAATCTACCACTTTATAGAGGACCAGGTACATTAAGGGCAGGTGAGTTTAGTTATGGCTACAAACAAAGAAACCTATAA	MAQKDKQTYNTEMYIKKIKAAKEVYAERKKFLQSFSLKKTKEKPKEGGGEVAASSGAGGANFNGEMPTVAQYTGPDNYFDKIINGNYQTGLKGKVAGTDKWNQHIKEQAAKAGVNPLMVKVIMATESGGEHDSRPNPYNCVGLMQTEKNITGELGLDFGKACNDPIYNIYVGCMILKEKHNYAGGVISRAADRYSRFKSQGYELKQNVHGIAWLYNGFSVPSNGSSKVTTGGYIYGNQVAEMYKGFGRDPYVESILTLDVLSGGGAGGSSSSAGGKGTGGKWEYGKTFASGAEVVKFLDTVDTTMINGIYVHHTWNPNHTSAKGQTLAKLNDDMRRFHTQTNGWDDIAQHFTIGVDGQVILGRNISSVPCSAKNYNGTAANHPAMYEMIGNFDKGNDTLQGKQLESAVAIAKYFAGRPNGVKFHREGLINGQEPKSCPGTGVDKTWFMNLVTGKAKVSAFSAQAAPLSDNEIEGNYAAGCDLYQDPVKEVVAESPAKLPPTEEELASARSFALKISIPTAKLKESRIIAPDYPRSNYVEDFKLSSSYDMKKKYSPLPPNEFIHLNGPQENFYTSEARQAFRLLKDRLGYRTLKIARGFDPSDGESSHSIGISMDIYADSTEEAIYIADTAWLTGFRAIAVGPNFVHIDIGPESTWGYDNLPLYRGPGTLRAGEFSYGYKQRNL				NA	NA	NA	NA	NA
AK009_04025	1323			hypothetical protein	ATGGCTACAAACAAAGAAACCTATAACCTCGAATCATATAAGAGAAAAATTAAAGCAGGTAAGGAAGAGTATAAAAAAAGAAAAGAGTACCTTGCTAAATTTGAACTTCCTAAAACCGATGAAGAGGAAGAAGTAGAAGAAACTTCCGATGATAGTAAAAAGTCTGAAGACCAAGGTAGCGCCGTAAAAGAACCTGAGGGAGGAGTTGGTAGCTTCACAGGTTCGGGTGAACTGGGCGTTCCTGCAGAACCAAAATCATATAGGTTCACTTCTGTTATGGGAGCACGTTGGGGAACAAACCATAATGGGGTGGATTTAGCTCCAAACACACCTGGCGATACCAACTGCAAGATACTTTCTGCAGGTGATGGGGTTGTTCTTCAAGCTAGAAGTGGGGTAAGTGGATTTGGTACTTGGATAGTTATTAAGCATAAGGATGACTTATATACGATTTATGGCCATATGCCCCCTAATACACTAAAAGTAAAAACCGGAGATGCGGTAAAAAGAGGACAACATATTGCAAATATGGGTATGCAAGGGCAGTCAACGGGTGTCCATTTACACTTTGAGGTTTGTACAGACTTTAATAATAGAAAAGGGACAACAAAAAATCCTGAAGACTACGTTAATATTCGAGGCAGCGCTTCAGCTATTCAAGTAAATTCTATTGCACCTAAGGTTAGCTTCTCAGCAAAAGCAGATGAGAAAGAAGAAGGCAATGAAAAACCAATGCATGCTCTTTATGAAAAGGATGGAGCAGAATTATCGGAAGAAGAAAAACTAATTGATCAGACGTACAGAAGTTCTTTCCCATACCTACCAGTTCAATTCATAGAGGATTCTCTTAAGAAGGGTGACATGACAAGAGAGTACTTTCTCCTTAACCGTGTTGGTTGGGCTCGAACTACCAAGTATGAAAAAATGGTTCCCTTAAATAAGGAAAGATTTATTCATAGTGAAAAATACGATGGTCATGAGGGGAATCTTTATTCACCAGACGCAAAAAGGTTGTTTGAAAGCTTGCTTTTGAAAACCCAAAAACCTTATTTTGAGGTTATTAGTGGTTTCCGCTTTAGTAACCCCGGTCAACTTTCACCTCATGAAGCAGGTTGTGCAATCGATATTCTTGTTAGAAGCATAGACGAAGTAAGAGAAATTGCAGACTGTGCATGGCAATTAGGTGTAAGATCTATTGCGATTGGTGGAGACTTCGAAAACAATAAGGGGTTCATACATATAGACATTGCTCCAAAAGGGAAAGACATTAAATATGATGGAGTTCCTATCTATGGTGGACCAGGAAAGTGGGTGACAGCATGA	MATNKETYNLESYKRKIKAGKEEYKKRKEYLAKFELPKTDEEEEVEETSDDSKKSEDQGSAVKEPEGGVGSFTGSGELGVPAEPKSYRFTSVMGARWGTNHNGVDLAPNTPGDTNCKILSAGDGVVLQARSGVSGFGTWIVIKHKDDLYTIYGHMPPNTLKVKTGDAVKRGQHIANMGMQGQSTGVHLHFEVCTDFNNRKGTTKNPEDYVNIRGSASAIQVNSIAPKVSFSAKADEKEEGNEKPMHALYEKDGAELSEEEKLIDQTYRSSFPYLPVQFIEDSLKKGDMTREYFLLNRVGWARTTKYEKMVPLNKERFIHSEKYDGHEGNLYSPDAKRLFESLLLKTQKPYFEVISGFRFSNPGQLSPHEAGCAIDILVRSIDEVREIADCAWQLGVRSIAIGGDFENNKGFIHIDIAPKGKDIKYDGVPIYGGPGKWVTA				NA	NA	NA	NA	NA
AK009_04026	252			hypothetical protein	GTGGGTGACAGCATGACAATTAAAGAGTATTTAGAACAGCATAAAGGTACAACATGCATTGAATATGGAACTTTATTCATTGGTATAAGTGAGGATCATGGCGAGTTATTTTTCTATCATAAAGAGGATGGGAAAATCAAAGGACCATATCAATTTCTTGTAGCCTATGAGCATATGCAAGAATTAATCACTAAACCTATGACAGACGATTTCTTAACTCAAGAAAGAATTAAAGAGAAGGTGATTCGATGA	MGDSMTIKEYLEQHKGTTCIEYGTLFIGISEDHGELFFYHKEDGKIKGPYQFLVAYEHMQELITKPMTDDFLTQERIKEKVIR				NA	NA	NA	NA	NA
AK009_04027	366			hypothetical protein	ATGAATTTCAACAGTCCAATTCATCAATCTATTTACAGTAAAGTAGTTGTACCGTCTTTAAATAGATTACAAGGAACAATCGAAGGCTATGTGATCCAAGTGGATTATACGAAACTAACATGTGAAGTAGTCTACTCCGATGAAAACAGTCATGCTTTACGAACAATGAAAAACGTATCTTTACCTAAAGATGGGGATGGTGTATTTACACAAGCTGTTAAAAATGGTGACAGGGTGTCTATCTCTTTTAAAAACAAGTCAAAAGAGTCACCTTATATATCTACAGTGTACAAAGCAAATCATAGTGATGAAAATTATCTAAGTCCCTATGGTGGAAGAACAATTCGTCAATCTCGTATTTTTTAG	MNFNSPIHQSIYSKVVVPSLNRLQGTIEGYVIQVDYTKLTCEVVYSDENSHALRTMKNVSLPKDGDGVFTQAVKNGDRVSISFKNKSKESPYISTVYKANHSDENYLSPYGGRTIRQSRIF				NA	NA	NA	NA	NA
AK009_04028	570			hypothetical protein	ATGAATGAAGCATATGTAAATAAGACATATGGTGATGGAGATAAAGATATTCATTATCCTTATTGGCGACAAGTATTACAAGAGGAACTCGTTAATTTTAAAACTAAGAGTTTGGAAAAAGAATTAGAGAACTGGCAATTTATTAGTGAAGATGAAATTGCACTTAAACATCCAGTTACAGGTTCAACCTTTAAACTCTGCGATGATGGTTCAATTGAAATGTTTGTGAATGAAGACACAGGTATTCGATTGGATGCTAAAGATAATGGAATCATCTTTTATGGTGACAGTATTCATTTTGCTACAAAGGAAATGAGGATGCATACAAAACCATACGGATTCATTTGGAATAATCATAACCTAAATCCTTATCTGTATTATGGCGACAAGGTAGGGGAAAAGAGACATATTCCAAAAGCTTCAATGGTTTCTATGTTGCAAGATGGACCGAATAATATTAATGTTCCTTTATTCCAAGAACAAAAGAGAAAGCACTATTACGATGAAAAAGTTACATCTATGATTGAGGATCTAGGAATAGAAACTTCAAGAATAAAGAGAGGAGGATAA	MNEAYVNKTYGDGDKDIHYPYWRQVLQEELVNFKTKSLEKELENWQFISEDEIALKHPVTGSTFKLCDDGSIEMFVNEDTGIRLDAKDNGIIFYGDSIHFATKEMRMHTKPYGFIWNNHNLNPYLYYGDKVGEKRHIPKASMVSMLQDGPNNINVPLFQEQKRKHYYDEKVTSMIEDLGIETSRIKRGG				NA	NA	NA	NA	NA
AK009_04029	489			hypothetical protein	ATGAAAGTCGATTTTCGTTTTACACCGGAAGGAGATTTAGAGCTTGGTTCTCCTAGTTACAACGACTTTGATGAATTACTCTATATCGATTCGGTTGGAAATATCTCAACAGATAGTTCAGAAGGATTATTAGTAAGAGATATCCCGCTTCAAGTATCCTATTTGAGTGAGAAGCAGGTAATACTCAATCGATTAAGAACAGACAATCCAGATTGGTTTATACATCAAGATATAGGAGCAGACTTATCTGAATTAATTGGTCTTCCTAATACAAGGGAGACAGGAGAATTAGGAAAATCCCTAATTGAGAAAAGTTTAACTAGTGACAAGTTCATACCACCTAGTGACTTAAGTGTTAGACCAGTTCCTGTTAGTTCTAGCGAAATACTTTTCTATATAACTGTTAGAAGAAAAGCAACGGATCTAGTTTTACCAGTTCTATTCAATTTAGAACATGGTTTGTTATCAGAATATGAGGTGAACAGTTAA	MKVDFRFTPEGDLELGSPSYNDFDELLYIDSVGNISTDSSEGLLVRDIPLQVSYLSEKQVILNRLRTDNPDWFIHQDIGADLSELIGLPNTRETGELGKSLIEKSLTSDKFIPPSDLSVRPVPVSSSEILFYITVRRKATDLVLPVLFNLEHGLLSEYEVNS				NA	NA	NA	NA	NA
AK009_04030	801			hypothetical protein	ATGAGAAAATCAAAAGATGAAATGCTCGAAGCGGTTTTGACTCGACTTCGAACTGAAGGTGGAATTACTGAAACAAGTCCAGGTTCCATTGCTCGTATGTTTTCAGAAGTAATGATAGAAGAGTTTAGTCCCTTCTACGATGAATTAGAATTAATTATTCAAATGGGCTTTATTTCAACATCAACAGGTGGATACTTAGACCTTATTGGTGAACTGTTAAACTGTACTCGTGATGGAGATGAATCTGACGACAACTATCGTGCAAGAATCTCCAATCAGGTATCTGTTGAACAGAATGCAAATCTAATTGCTATCCGTTTAAAAACACTGAGAATTGATGGCGTTGCAGATGCTCAATTCAAAAGATTTACAAGAGGTACAGGCTCGTTTACTTGCTATGTTACTCCTCAAGTTTACCCAATTGAAAACGATCTACTAACTCGTGTAGAAAGCGTTATAGATGAAGTGGCTGCTTATGGTATGAATGTAGAAGTAAAAACAAGTGAGTACAACCCCGTGGATATCACCCTCAACTTAATTTTCCACTCTAAAACAACTTCTCTTGAAAGACAACACATCCGTAACAAAGTCGTTCAAAATGTCGGAGCGTACATGAAACAATTAAACATGGGTTCTCCAATTATTATCAATGAAATTATTCAGCGCGTAATGGAAACAAGCGAACAAATTCTTGATATGGAATTTAAAAAACTTGTTGTTGGTGAAAAAGAATATTTCATTAAGAATGTTGAGCCTTCATTAGAAGAACGATACTTCTTAAGAAAAATTAATGTAGCTTAG	MRKSKDEMLEAVLTRLRTEGGITETSPGSIARMFSEVMIEEFSPFYDELELIIQMGFISTSTGGYLDLIGELLNCTRDGDESDDNYRARISNQVSVEQNANLIAIRLKTLRIDGVADAQFKRFTRGTGSFTCYVTPQVYPIENDLLTRVESVIDEVAAYGMNVEVKTSEYNPVDITLNLIFHSKTTSLERQHIRNKVVQNVGAYMKQLNMGSPIIINEIIQRVMETSEQILDMEFKKLVVGEKEYFIKNVEPSLEERYFLRKINVA				NA	NA	NA	NA	NA
AK009_04031	1584			hypothetical protein	TTGTTAAACAAACATACAACAAGTATGATGTCCATGCTTCCGCAATGGATGAAGATGGCCAAAGACGAGAAATCTGTAGGGGCACTATTTTTAGATGCATTTGGTGTTGAACTATCAGACATTGAACGTTACATAGAGCAAGCTTGGAACAACATGTATATCGGTACAGCAAACTTACAAACAGCAGATTACTGTTATAAGATTCCGCTTGCTACTCGTGACGTTGTAGATGTTGAAACACCAAATCGTCACGTTCGTTTAGTTATTGATGGTGTGCGAAGAGACTGTATGCCAATGGATAGTTTACGACTATTTTTTGAGAGTGACGACAACGCCTACATGATTGATACCATTGAAGGTTATGTATATATCAAAGTAACGGATTACTACATGCAAGATAATATCTTTAAACCATTCGATGCAATTGAAGTAGGGGATACCCTTCATTATGAATATATGCTTCATCATATCTGGAACGTATTTGATGAGTTTGGTATGTTGCTAGGCATTTCTAGATTACCGGGCGAAAGAAACGAAGCTTTCAAGAATCGTATCTTAGATGTTTTTAAGAATCCTGGTGGAGCAACAAAGAAAGGGCTTATTAATGGTATTAGTAGAGAACTTGGCATTGATAAATCTCAAGTTGAATTAGGCTCGCTATCTGATGATAAGTATGTTCAAACAAAACTTATGAATACAGATGGGACACCTTCTCAAACATATATCCAATACGTAAATCAGATTAATAGTAATCTAGGTTTCTCTTGGGATCATATGAACTGGGGAGAAGCTTATTGGCGCAGCATTGAAGAAAACAATATGGGGTTTCATTACCTGCCTCATATCTGGGACGGTTTCTCTGCTTCATGGAAGGATAACGAAGTTCAATCAGGAATTGGTAGCGGTGATGACTTACTAGTAACTGCTCCAAAAGAAGAGTCTTCTGTTCGCGAATTCAAAGCCTATGTTGGGCTACATGGTACAGAGGAACAAATTGAAGAGAATCACCCAGAAATTCAATTTAAGTACAAGATAGTTGCAAAAGGGAAAATACCAAATGATGAGTATGATTTAGAGGATTACAAATATACAGTAATGGCTTCTGAAATTATTCCACTTCATTACGTATTAGTAGCTTTACGTGAATTCCTATATCAAACTCATATCACTTGGGATAATCGTTACGGTTATACTTTTAGCGACAACACATCTCCTGGTATGGAAATTGTTACAGGAGAAGATATCCTTCACAATAATGAAGAGCCACAAATTAAAGTCCATGTAGAAATGAAAACTGCTGATAGAACAGTGACACCTGTTTTAGAAGAGCTTATAGTGGACTGGATCGATCAGAGTGACGCACCGCAGTCTTACAAATTAACAACTGATGAGGACTTTACTCTAAACAATACAATGACCCAAACAACGTTAGCCGATGTAGAAGTTGGTAACGGCTCTGTAACTCTTGGTAGGGGTTCATTCTCTGCAGTAATAGATACAGAGGGTTCATTTTTAAGAGGATCACAAGGTATATCCGTAAGAGTTAACCGAGAAGGTTCTTTATCTCTTAACCTACCAAAATAA	MLNKHTTSMMSMLPQWMKMAKDEKSVGALFLDAFGVELSDIERYIEQAWNNMYIGTANLQTADYCYKIPLATRDVVDVETPNRHVRLVIDGVRRDCMPMDSLRLFFESDDNAYMIDTIEGYVYIKVTDYYMQDNIFKPFDAIEVGDTLHYEYMLHHIWNVFDEFGMLLGISRLPGERNEAFKNRILDVFKNPGGATKKGLINGISRELGIDKSQVELGSLSDDKYVQTKLMNTDGTPSQTYIQYVNQINSNLGFSWDHMNWGEAYWRSIEENNMGFHYLPHIWDGFSASWKDNEVQSGIGSGDDLLVTAPKEESSVREFKAYVGLHGTEEQIEENHPEIQFKYKIVAKGKIPNDEYDLEDYKYTVMASEIIPLHYVLVALREFLYQTHITWDNRYGYTFSDNTSPGMEIVTGEDILHNNEEPQIKVHVEMKTADRTVTPVLEELIVDWIDQSDAPQSYKLTTDEDFTLNNTMTQTTLADVEVGNGSVTLGRGSFSAVIDTEGSFLRGSQGISVRVNREGSLSLNLPK				NA	NA	NA	NA	NA
AK009_04032	1116			hypothetical protein	ATGGCTGAAACTGGATCAGTACAAAATGCAGTTGGGAATAATATTTATCCCGACTTAGTTCTTACTCGTTTCCCTGAATTATTCGATGAGCGTAGTGGTTCTAAGTCAAATCCCAACTTGCTTCGATGGACAAACCTTAAAGATTACAACATGGCTGAACATGTAAACTCGCTACAGGATGCTGTAATGGCAGTACAACGTATGCTAGGAGAATTAGCTCAAATGCCAGCTGCACCAAAGGATGTAAACGGAAAACCTATTACAGACCCAAACGTGCTACTAAACCTTAAACGAACTTCTACCGTTAAGTCTCGTATAGATGCACTTGAGACTCATGATTGGTATGCTGAATTCGATAAGCGATACGGTGGACCTACATGGGCTTTCGATAAGGATAAGACTACAAATCCTACAATTCAACAACACCGTCACTTAGGTAGTACTTCGGGGATTCCTGGTATGCCGGAGAAGATTATGCTTACACAAGAAGTACAAGGTAAACTTCCAAAGGCAAACGTTGATTTAACAAAGACTGCTACAGGAATCACCGGTTCAGATATCTATGTAGAATCAACTTCAAATACAAAAGTAGCTGATGCGATTAACGACAAGATTTCTGAAACAACAGGTGGAACAATCGCACAAAATGCAGAGCTAAAGGTATTAGGGAAGACAAACACTCGATGGACAAGAGAGTTCGATTCAAATGATGCATCTTCAACTGGCAACACTGCAGTTGCTGATTCAAAAACATTATTAAACAAAGCAATCGAGAGTGGTGCTACTGCTGCTTCAGACCTGCTAAATGCACCATTAGATGGAATGCATTACGGTCGTTATGTTGCGGTTGTAAGATTATCAGCAAGTAGTCTTCCTTCTAATGCGGTTGTTGAGGTTTCTGCAGTTAACTCAAAGACAAACCAAGTTATTAACAAAACTACTTTAAACGGAACAGACTTCGATACAAGTGGACAATATAAAACATTCTACTTGATCTTCAATCATGATGGTTCTACAAAATTACGTGTTCGAAAACTAGCTACAACTTCTTCTGTAAAAGTTCGTTTCGATTATGCGATTGTTGAACCAGTTCACCCAGCGGTATTTGATCGCTAA	MAETGSVQNAVGNNIYPDLVLTRFPELFDERSGSKSNPNLLRWTNLKDYNMAEHVNSLQDAVMAVQRMLGELAQMPAAPKDVNGKPITDPNVLLNLKRTSTVKSRIDALETHDWYAEFDKRYGGPTWAFDKDKTTNPTIQQHRHLGSTSGIPGMPEKIMLTQEVQGKLPKANVDLTKTATGITGSDIYVESTSNTKVADAINDKISETTGGTIAQNAELKVLGKTNTRWTREFDSNDASSTGNTAVADSKTLLNKAIESGATAASDLLNAPLDGMHYGRYVAVVRLSASSLPSNAVVEVSAVNSKTNQVINKTTLNGTDFDTSGQYKTFYLIFNHDGSTKLRVRKLATTSSVKVRFDYAIVEPVHPAVFDR				NA	NA	NA	NA	NA
AK009_04033	2184			hypothetical protein	ATGGCAAAACGACCAGAAGGGTTATCTCCTAATTTTAACTCCATCGTTTCTCCAGACGTTCCTTCCTCACTCATTTTTTCATGGACATTCATTAAAGAAAACTCTAATGATTATCAGAAAGATGCAGAAGTAAAGGTATATAAAACGGGCTCTAACACAGCCCTTGTTACCTTCCATTCAGGAACAGATACTCAAGTAGATATAACTTCTCATCAGGGTGTTCTTGACCTAGAGCAAACTTATGAATGGGAAGTAAAAGTAACAGCTGCTAACGACTCTACTGCTTATAGTGGAAGAAAAAGATTTAAATTTGGACCTGTATTTTTACAGGATGGACTTGTATGGCCAGATGGACCAGAAGCATATGAGTACATCGGGACTCGTAAATACTTTGAGGAAATTAGAGAAAACGCTGCCTCAGTAGTAGATGATTACGTAGTAGATTCTATAGAAGAAAATGATGCGTTAGAAAAAGCTTTGGCTTTATTTACTCGTGAAACGGTTCCTAGCCGTACCGATTTTGAAAACCTCGAAAGTATCCTGTGGTTAATTGCAAAAAAAGAAGATACATATCGAGATGAAATTCAAAGACTTATTGAAGATGGTCTAGGTGCTCAAGATATTCACAAGATATATACAATCTTTGACCGTCTTATTAGAATCCCACCAAAAGAACCAAGTAATGTGTACTTAACATTTGGTGGCTTTGAAAAGCTTTATGTAAAAAGTGGAAGGGCGTACAACAATGGTAAAGAGGACTTATCTGTTGATGTTAATTGGCAGCCCTCAGATCTTAAACCAGGTACATGTACGGTTAACTTTTTAAATGAGCTATCAGAAGATGTTTCGTATTACAAGGTTGAGCTAGAGGTTGGTTTCACTGACAAGACTTGTACTCATACATTATTTTATCGAGTAGAAGATGTAGAATCATTTGGAAGAAAAATCAATATTCCAATGGATCATATTAATTTTGTACATCTTTCTTCCTCAAAAGAAACGCGTTATGTTTTACGAGTTTCTGCAGTAGACAAAAGAAAAGAACAGTCAGTGCCTTACTACAAACCCTACAAAGTGGACAATGTTCCCCTTGGTGTAGCAAGTTATAACCTACGTGTTCAACAATACGATTTATCAAATCAGTGGATAACCCAGTATTACTACGACATTTACAACGGTCCAAATACAGCTTATGTTCATAATGTAACAGGCAATGTAGATGGTGTTTATCATTATGCTGTTCGTGTATTTGATATAAATGGGAATGTAAGCGATTGGTTTTGGATCTTGGATTATATAAAAATTGATCCACTAAAACCTCCCGCAGCTCCAAAACCTCGTATGGCGTGGTCTTCACAACATGAACTGAATTTCATTTGGGATGCTGTTCCTACCGCTGAGTATTATGAATATTTACCTACGTGGTGGCCAAACCCATCTATACAAAGAACAAACACTTTGGACTCACCTCATGTATGGTTAAATCCAGATACAACATATGTTCAAAAAGTAAGAGCTGTAAACCGAGCGGGCGCATCACCTTGGGCTACTGTTAGTGGTAAAACACAACCAAGACCAATTATTGAGAAGTACCAAAAGGGTGCAGGAAGCAGAACATGGCGTACAAATTATGTCATTTTAATGCAGAATGGCAGAATTATAAGAAATCCATCTGAATGGCGCAACGAGTACGATGATCGAGAAGTATTTCATGGAGAATGGATAGAGCTTGAAGCCAAAAATCAGGACGGCCTTGATGTTAAAAAGGGAACAAGATGGGGTAACAACAAATGTTTATTCTTCCTTGATCATAATGACTGGAGACAAAAATTACAGGGGAAAGAAATCTTAGATGTTCAGTTTTATATTCGCAGAAGAAATACCGGACATGGGTATAAGAATGATGGTCGTTTTCTTCATGTGTGGGCTCACAACTATGGAGGTAAATGGGACCTCCCTTCAGCAAAAGATGGACCATATCTATTTAATCATCAAAAGATAGAAAGAATAGATTTCAACCGAGGAGAGTCTCACTGGATCTCTCTTAATAAATCGTTTGGTGAGGGATTACGTGACGGATGGATTAAAGGAATTGCATTCTATCATCCTGAGGCGGAGTATGGCCCATACTCTTACATGCGTTTTGATGCTTACACGTTCCAATTTTACGTTAAATATCGATAG	MAKRPEGLSPNFNSIVSPDVPSSLIFSWTFIKENSNDYQKDAEVKVYKTGSNTALVTFHSGTDTQVDITSHQGVLDLEQTYEWEVKVTAANDSTAYSGRKRFKFGPVFLQDGLVWPDGPEAYEYIGTRKYFEEIRENAASVVDDYVVDSIEENDALEKALALFTRETVPSRTDFENLESILWLIAKKEDTYRDEIQRLIEDGLGAQDIHKIYTIFDRLIRIPPKEPSNVYLTFGGFEKLYVKSGRAYNNGKEDLSVDVNWQPSDLKPGTCTVNFLNELSEDVSYYKVELEVGFTDKTCTHTLFYRVEDVESFGRKINIPMDHINFVHLSSSKETRYVLRVSAVDKRKEQSVPYYKPYKVDNVPLGVASYNLRVQQYDLSNQWITQYYYDIYNGPNTAYVHNVTGNVDGVYHYAVRVFDINGNVSDWFWILDYIKIDPLKPPAAPKPRMAWSSQHELNFIWDAVPTAEYYEYLPTWWPNPSIQRTNTLDSPHVWLNPDTTYVQKVRAVNRAGASPWATVSGKTQPRPIIEKYQKGAGSRTWRTNYVILMQNGRIIRNPSEWRNEYDDREVFHGEWIELEAKNQDGLDVKKGTRWGNNKCLFFLDHNDWRQKLQGKEILDVQFYIRRRNTGHGYKNDGRFLHVWAHNYGGKWDLPSAKDGPYLFNHQKIERIDFNRGESHWISLNKSFGEGLRDGWIKGIAFYHPEAEYGPYSYMRFDAYTFQFYVKYR				NA	NA	NA	NA	NA
AK009_04034	3300			hypothetical protein	TTGGCACAGTACCAAAGAAACTTTTATTCTAGTTCATTATATGGACGACTAAAAGCATTTTATGGAGATTATCTAACAGAAGAATTTGATGCTCAAGAACCTTTTAGCTATCATATTGATGCAAAAATCCAAGCACAATTACCTTCTACTTTTTACGCAGCAACAAGCAGAGAATTTACAAGAACCGATGCAACCAAATGGACAGTATCGGGGACTGATATTAAAACAAGAACTGCTAATACACCAGTGGAATTCTTGGCTACAGGTGACAATTTGGAAGTTCATGTACGACTTCAAAACGTGGGTACTCAGAACATCGAAGCGAAGTTGTACAAAGAAGAATTAGTATCAGAAACATACCAATGGGTAGAGAAACAAACAAAGTCAATCAATACATTATCCCTAACAAATCCAAATAAAGTAGATAAAATCGTTTTTGATTCTTACGGTTTTGGTGATTATAAAGTAGTTATCAAAGCACTTGATACGACAGCAGATGCAATCATTGTTGGAGGTAAATTAAGAACAAGTGATTTCAATATTGAAATTCGTACCTCTGCTAATAAAACTACATGGTCGCAATGGGAGCCGATTACTTTAACGAAAACATTTATTCAAGGACAGGATTATTTATGTACAGGACAGAGCACAACATTATATCAAAACGTTCGTTATGTTCAAGGAAAAATAATTTTACTATCTTCGGATAATGCTACTTCTCCAATTATTGATAAGGTTGAATTACGTTCAGAAGATAGTGGGTTGTATGATCAAAATGGTGATTACACTGTTAAAATCGATATGACGCAAGTAGCAACAAGTGTTGGTAAGACATTCAAGTATGCAAGTAAGATACGTTTTGTTCAAAAGCAGCCAACTGGTACTGAAATGAATATTCGTTCTTCTTCTAGTCGAGACAATATATTCTGGGGCCCGATAACAGCACCTTATCGCCAAAATACAAAACGTCTTCGATTAAAGCGCGGAGTAACAAATCATAGTGTGACATTAGGCCCAATCAATGAAGGAACTAAATTTGACTTTAGTAAGACAACAGCACTTTTAAATTGGGACACACAAGCGTTTCCTCCAAAAGATACGAGTAATACCAAGATATCGTATGTCTTCTCTAAAACAAGAACAAATCAAAAAGACCCTCGAAATCTTCTTCAGGTAATTGATAATCCGATGAATGTAAAAGATCGAGCAATGAAGTTTTCTCCTCAACCATATTTCCTAACTGTAGAAATGACACGTTCTTCAGTAAGAGGAACACCGGTAGTTGACCTTATAGATATTTACCAAAACATCTTATACAAAGAAGTAGTCAATGTAATCAACAAAGATGTTTCTGCAGTAGATGGTTTAAGTACAGGAAGAAAATCACTTCAAAAGATTAGTGATTATCCGTTTAAGTACCCAAGCACCTCAAATCAAATTCCGTTTAATCAGCAACAAATTACTTCTGCTCAACAAAAGTATGAGCTTACAGACCAAACAAGAAGACCTTCTGATGTAATGATTTACCTCAAATCAGAAGAAAGTAAAGGATCTAGAACGGGCAAATCTACATCTGCATCCGATGAAGTAATCGCAAAAGCTATTCAAAGGAAATTGGAGTTTGGAGGAAAAACAGGAGTTCTTATGCATTACCAATATGGTGCAGGGAAGGTTCAATACTTAAGACCTTACGAAAGAGAACTGGATTCTACATTCACACCATTCTTACTATCTAATCTTAAATATCGTTATTACATTCAAAATGGATGGCCAAACGAATTACATAAGGTTGTTAATGGGCAAACATTGAATGATGTAGCTGAAATGTATAACACAACGGTAACTGCAATTAAAGCTACCAATAAGGATATTCTTCTGAATGAGGATGGAACATTAGTGAAGGACCAACTTATCACGATGCCAAACATATCTAAAAACAATGAGGTTTCTCTATTGTTTAAGAACGGTACGGTTTATACGCAAAAATCTAGTCATAACTCAGTCTATGACAAAGATCATGGTGTAAACGTTACAGACTTCTCAAGTGAACCAATAAGTATTAAGGTTCCAAACACTCCTCCAAAAGGGTATGTAGATTGGGCATCAGAAGAAAAAATTTATACTGGTGTAATTAATGCGAATGATATCCGCGGTGAATTTGTTCGTACACAATTCAACCTTTCAACTCTTGCAGATTTCAATCGTGAATATGTAGTAATAGAGGGTGATACTTGGGAAAGCATTGCTACTAAGTACGATATTCACGTACAAGATCTGAAGGTAGCTAATGATTCAATTGAAGAATTAAAAGTAGGAAGTATAATCATCATTCCTCCAAATATCATTCTTCCTGCACTAGCTCCTGAAGCCGAGTTCGAAAATGCGATGCCTTATGAGATTTCTATTATTGAAGATTCTGTTCATAAGAAAAATGGAGTTAGAATTGATGAGTCCTTTGTTCCTATTGATTGGAATGGAAAACACCTTCCTCTTGAAGTTACATATAGAACTTCTGAACTTCTTACAGCTGAAATGGTCAGAGGTGCAGATGCTAATGGAATGGACCCCCTTCCTTTAAGTGATGTTATTGAGATTGTTTCTTGTAAGAAAAAGACTGGAAGTGTAACATATCACATCTGGAACGACACTTTAAAAACAGGTGACTTCAAATTAAAGAGCAACTACATTGATTGGTCTCCATCTCAAGCAGGAGTACTAGAGCCTGCAGCAGGAGAGGAATACGTTGTTGTTTATAAGCGTCGTGAAGTAGACAGCGTAAAAGTTCATTTAGATACAACTTACTTTGAAAAAATGGGAACAGACATTGTATGGCGTTCACCTGAAGTAAAAGTATTTGATGGGGTTTGTACACCAACAGAAGACTTTAAACTGGAACTTCCTACTCCTCAATCTTTCGAAAGATATGATAGTATCTACAAGAATATCGGATACATTATTGAGGATAATGACTTGTGGGTAGAAACAAGTGTTCAAGATATCGATGGCAAGAAGTTCTTAGTAGGAACTCTGAATGGAAAAGATCCAAGTAAGAATTGGCATCCTGAAATTCAGAAGGGGTACTACTACCTAAAAGAACAAGAGCACTACCTATATTCAGAACCATTAAAAACGGTACTTACTGAAAAAGAGTTACCAACAGCTGATGGTATCGAATATGTAAATGGGCCAACTGGAATAGGAGCAATGTTATTACCTACTAGTAGTAACATTGTTAAAGATTCTGTATTTGAGAACGATGATTGGAAAAAGGCTAAGGTCTTTAATGCCACATCATTCTAG	MAQYQRNFYSSSLYGRLKAFYGDYLTEEFDAQEPFSYHIDAKIQAQLPSTFYAATSREFTRTDATKWTVSGTDIKTRTANTPVEFLATGDNLEVHVRLQNVGTQNIEAKLYKEELVSETYQWVEKQTKSINTLSLTNPNKVDKIVFDSYGFGDYKVVIKALDTTADAIIVGGKLRTSDFNIEIRTSANKTTWSQWEPITLTKTFIQGQDYLCTGQSTTLYQNVRYVQGKIILLSSDNATSPIIDKVELRSEDSGLYDQNGDYTVKIDMTQVATSVGKTFKYASKIRFVQKQPTGTEMNIRSSSSRDNIFWGPITAPYRQNTKRLRLKRGVTNHSVTLGPINEGTKFDFSKTTALLNWDTQAFPPKDTSNTKISYVFSKTRTNQKDPRNLLQVIDNPMNVKDRAMKFSPQPYFLTVEMTRSSVRGTPVVDLIDIYQNILYKEVVNVINKDVSAVDGLSTGRKSLQKISDYPFKYPSTSNQIPFNQQQITSAQQKYELTDQTRRPSDVMIYLKSEESKGSRTGKSTSASDEVIAKAIQRKLEFGGKTGVLMHYQYGAGKVQYLRPYERELDSTFTPFLLSNLKYRYYIQNGWPNELHKVVNGQTLNDVAEMYNTTVTAIKATNKDILLNEDGTLVKDQLITMPNISKNNEVSLLFKNGTVYTQKSSHNSVYDKDHGVNVTDFSSEPISIKVPNTPPKGYVDWASEEKIYTGVINANDIRGEFVRTQFNLSTLADFNREYVVIEGDTWESIATKYDIHVQDLKVANDSIEELKVGSIIIIPPNIILPALAPEAEFENAMPYEISIIEDSVHKKNGVRIDESFVPIDWNGKHLPLEVTYRTSELLTAEMVRGADANGMDPLPLSDVIEIVSCKKKTGSVTYHIWNDTLKTGDFKLKSNYIDWSPSQAGVLEPAAGEEYVVVYKRREVDSVKVHLDTTYFEKMGTDIVWRSPEVKVFDGVCTPTEDFKLELPTPQSFERYDSIYKNIGYIIEDNDLWVETSVQDIDGKKFLVGTLNGKDPSKNWHPEIQKGYYYLKEQEHYLYSEPLKTVLTEKELPTADGIEYVNGPTGIGAMLLPTSSNIVKDSVFENDDWKKAKVFNATSF				NA	NA	NA	NA	NA
AK009_04035	2478			hypothetical protein	ATGTTCACTAATCCGGGAACAATTATTAAACATGCTACAATCCCAAACGCTATTGTGTTCCAAAGTGAGGGATATGTTTCTATTTCAAATGAACTCTATGAAGATAGTAAAGTAGTATTCTCGTTTGCTAAGCCAACGGAAAAAGTAGTATTAATCCCTAAATATTTAAGTGATGGAAACTTTTTGTTTGCTTCTCTAGATAAAGAATACAAGTTGCATATAGGCGGAATCGTAAAAGATTCTGAAAAGATTTATGGAGTCGTAGATGTAAAGGATAATATCTTAGATTCTAACACCCTAACAATCTCTTCGAACGGATCTCATTTTACAGTTACCTTAAACAATAAAACAGTTTTTAAATTTGAGTCTGCTTTATTTGTTAATGGTCAAGTTCGTGTATATGGAGAAGCAGGAGAAATCTTTTACTCTTGTGAAATACAAGAACCTCAATCTACTGCATGGACAAGTAATGCAAACGGTGGAGGAATAGAGGTAAAAACAATTAAAATAGAAGACCATGAGTATATAAAACTCTTAGGCTCTACAACTAAGAAAGCGATGTTCTCTCAATCTATCTCTCTACTTGCAAAAGACCATACACTTTCATTCAATGCTCAAGGGAATGGTGAGTGTTTAATCAAGTCTGGGGAGACAGTGTTAAAACAAATTCCTATATCAAAAGGAGAGTTGTCCTACATCTCTCAAACTTTCAATGTAGCAACCCCACAAACAATTACTCTACTATTCCAAACAAATGGAATTCTTATCGTGGGAAAACACCAATTAGAAGACCGTGTAGATCCTACTCCATACATTCCGAATTCTAATATTACTAGTTCAGTAGTTCGTAAGGGGTCATCATTAAAATTCCCAGTAAAGAACTTATTTGATAAAAAAGCAGGGAGTATCTATTTAAAACTAACTACAAAAAACCGTATCGATAGAGATCAAACCCTTTTCCGTTCAGATACAAATGAACTATCTCTTGCAGTACGTGGAACTAATTTATCCTATACCGTTGGTGCAAGTTCAATTACTATCCCTAAAACACTTGAAGGAAGTACGTCATATGAATTGCTTTGTAGTTGGAATGATGAAGGTATTGAATTAACTATTAATGGTGAAAATGCGAAAGCTTTAAATACAGGACTTCTACTTACAACTCCTCAAGAATTGATTTTCGCAAATGAAGAAACACCTATTCAGGAAGAAGTTGTTTTAGAAGAATGGGCATTATTTAATAACAAATTACCAGCTACTTCTAACATTAAAACGCAGCTACCTTTTGCAGTTATGCAGTCTTTATTCGATGGTGGAATTAGTGGCCAGAATGTTACATGGTCTGAAATTCCCGTAGCTCCAATTGATCATTCACCTATCCTAGTTCAAAAAGAAAATGGAGATACGTTACAAAAAGTATCGTTCTTTGATCATGAAACAGGAGCATATCAAACATGGAATCAAGAACCATTCCGGTATGACGGTAAAAGTGACTTTGTTGAAGTTGCGTACAATAACCTTGATGAACAATTTAGGGACATCGCTATCCGTACAGAGGATGGAGAAAAAATAGGAGAACCTTATCGAATAGATGGTAAGAGATTCTATTTCTCTATTCACACAAACAGAAAAGCAGTATTAAAAAACAAAACGCTTTATGCAACGTACCAGGTAAATGATACCTATACAATTGATTACAATATCAAGGCTGTTGATGGGTACCGAATTGATTTTGCTAAACACGATGGTGGAAAAAGAATTGTATATCAAGAAGGAAATCGTTATGGTGAGCCAAAGAAGCTAGCCACAATGATTGATATGAATCCAATTCAAAACCAAAATCATGAAGGGTTCTTATATATTACAAACACAATAAATAAGACAGATAGCTTTAGAATTACAGCTACGCCAGATCGATTACATGCAGATGGAGCGAGTTTCTCAACACTTATTATCGAGCCACTTGATTATCAAGGAAACTTCTTGTCTCACTCTAACTTAGAGATTGTTGCTTCTAAAGGATTTGTTTCTAGACATGTATCAAGAGATGCAGTTGAAGCGCAAAAACGTTCAGGGCAATATCTATATCAATACCATGCTCCATATATCCAAGCAAAACGCGCAGGTGAGATTGTAGAAGATTATATTTGGATCACAGACAAAGATAATAATATCGGCGTTTGTTACAAGATATTATTAAGCCCTGTATCAAAACCAGATAAGGTTCAATTAACTCAGAGAGAGAAGAACTTGTTAACTGCAAAAACAAAGATCATTAACTACCTCCTTATGTATGAGGGAGTAGAAAGATATGAAGATGAAGTGCTTTTCTCTATCTTAGATTTTAATCAAGATGGTCGCGTTACGATGGACGAGATTTTAGTCTTAGAAACAAATCAAAAAGATAATGGACTGACTGTTATCTTAAACAAGTTGAAAGAATGGGAGGATACAAACCATGCAGCTGCAACCTCATAA	MFTNPGTIIKHATIPNAIVFQSEGYVSISNELYEDSKVVFSFAKPTEKVVLIPKYLSDGNFLFASLDKEYKLHIGGIVKDSEKIYGVVDVKDNILDSNTLTISSNGSHFTVTLNNKTVFKFESALFVNGQVRVYGEAGEIFYSCEIQEPQSTAWTSNANGGGIEVKTIKIEDHEYIKLLGSTTKKAMFSQSISLLAKDHTLSFNAQGNGECLIKSGETVLKQIPISKGELSYISQTFNVATPQTITLLFQTNGILIVGKHQLEDRVDPTPYIPNSNITSSVVRKGSSLKFPVKNLFDKKAGSIYLKLTTKNRIDRDQTLFRSDTNELSLAVRGTNLSYTVGASSITIPKTLEGSTSYELLCSWNDEGIELTINGENAKALNTGLLLTTPQELIFANEETPIQEEVVLEEWALFNNKLPATSNIKTQLPFAVMQSLFDGGISGQNVTWSEIPVAPIDHSPILVQKENGDTLQKVSFFDHETGAYQTWNQEPFRYDGKSDFVEVAYNNLDEQFRDIAIRTEDGEKIGEPYRIDGKRFYFSIHTNRKAVLKNKTLYATYQVNDTYTIDYNIKAVDGYRIDFAKHDGGKRIVYQEGNRYGEPKKLATMIDMNPIQNQNHEGFLYITNTINKTDSFRITATPDRLHADGASFSTLIIEPLDYQGNFLSHSNLEIVASKGFVSRHVSRDAVEAQKRSGQYLYQYHAPYIQAKRAGEIVEDYIWITDKDNNIGVCYKILLSPVSKPDKVQLTQREKNLLTAKTKIINYLLMYEGVERYEDEVLFSILDFNQDGRVTMDEILVLETNQKDNGLTVILNKLKEWEDTNHAAATS				NA	NA	NA	NA	NA
AK009_04036	4515			hypothetical protein	ATGCAGCTGCAACCTCATAAAGACCTTGTTCGTAGTGGTCAAAGAAACCGCGGGTATGCTATTCGTATTGGTAATAAGGTTCCTAAGAATAGTACAAACCTTGCGTATGTACAATCAAAATCTGTATCACCCGAGGAGAACATCTTATTAGAAGATGTTTCTTCTCAAATTAAAGAAAACGGATTATCTAATTTCATAGAGAAAGATTACATGGTTTATCCAAACAATAAATTCTTATTAGAAACAGAATCCGGACAAGCTATTTTTCCTACTGATGCAGTCTATGTAACAGATGAATTTACTATTCGAAAGAACCGTCAAGATACTCCAAAACCAGTATTTTATGAGATGGAGTTAAAAGGACGTTTCGATGCAAGAACTGCTCAGGTTATTCCTTATCTGGGTGGCTTTTCTTCTGAAACTGAACAAGAAGCTATACCTCTAGAAGAGGTTGTACTAGATAAAAGAAATGACCTAGTTTATGTAGGGAATAGTATTCGTATTGAAGCAAACGGTGGACCATTACAAGAGGATGATATGTACAAGGTTCAATTAATTCGTGAAGATAATTTCATATACCGTATTGTTGTATTTACAAATTTCCGTAACAACAAAGATGTTACATACAAAGTAGTGTACCCTAACTACAGAAGTGACATTAAACAGAGTGAATTAAAAGAAGAAGTTCTTAATGCATATCCATTTTTCAAACAAGTAACAATGGATGAGTTTGAAGACATTGTTACTGATATGGAATCCGATCCAGACAAATACAAACACTTGAAAGTATACGCAATTGAAGAGAAGGGGAATGATTTTTCTTTCTACGCAACATCTGACGTTATGATTGCTAATTATCAAACACGTACACCTCAATTGTTTAAACATCGCGTCGAAGCTAAATTAAAAACAAAACTAAGTGAAACAAACCCAGGCAAGATGAACATTGGTTTTAGTTTTGTTCAATCGGTAGTGAATGTTGAAAACCTATCCTCAATTGGTAAGGCGATTAATGAACACCTGTCTCTTCCGAAGTACGTAGAATTACAAAACCCACATCCAACAGCAGTCGATCTCTTGAAAAAAGATGTTCGATATTGGGCAGTTAATCTTGATATGCCAGACCATCATTATGAGGATTATGATTTGCTTGTTATAACTGGTTACGGTAAGGCTGACTTGTCTATGTTTAAAGACAAGTTTGAGCATTACTTAAAGAATGGCGGTACGATCTGGGTAGATAATGCTGGTAGCGGAATCAATATTCTTGATTTCAAAACGAGCAAAGGGAATACATTCATTTCTGATATTGGGTTCTCGTCAAGCAGCAATGAATTTGGAGTTAAAGAAATTAAAAAAGACTCTCCATATATTAGCCGTTTGTTACCGATTCAAAACGTTGGGGCTTTAGGTTATGCGGATATTTCTCCTGCTATCTTATTTGGACAAGATGAAGTGAGTACGCAATGGGATACAATCGTAAAACACTTAAATGGTGGGCCTTCTATTATTAAGAAGACATTGTTTGATAAAGGTACTGTTCTTGTTTCTAACTGTGGAATATTTAGAGCTTTTTACCATAATCAGAAAGAGAGTGTAAACCTTGTTTTAAACTCAATCCTTTACCATTCAGAAGAACAATGGGTGTTTACTCCTTGGAGAAATGACTTTGTGTATCATCGAGATAATTTATTTGCTCAGGAATACAAAGTAAATAACACGGATGTTTATATTAATGACAGAAGTGATTACAACGCAAACCAAATTGTAGCTAAAAAAATCCTTTATAAGAATTGTAAAGAGTATGTGAAAATCTATTGCAAACCTTGGTTCTATAATGCTACAGGAGTGTATGAACATGCTGTAGATGGTGATAAGTCCATTCCTATTAACAACAGTGGATTTGAAAGCGGTCAGGTGGATGCAGGTGGACAACCTGTTACATCTTGGACAGCAGATACAGTAAATGCAATACCTTCATGGAATACAAAGAAGTTAGCTGGTCAAACCGTAACTTTCACACACGATTCTACAAAAAGTTTATTTGGTGTTCGTCAGGTATCCTTAGACTCTTCAAATGGAACAACGGGTGCTCAAGCCTTTTGGGAAAGTGAAGACATCTATGTATCTATTGATGATTATAAAGCGACTGTGTGGGCAACCATTGATCAGGTGCGAGGAATTACAACGGATGGTGTGAAAATCGGTATCTATAATTTACAGGGTGAAAAAATCTCTTCTTCAATTTCTATTACAGGGAAGAAAGATTGGGTTAAACTCGAAACGATCTTCCATATCGATAAACCTCAAAATATTAAGATTCGCATAGGCTTTGTAGATGGTAATGGATTCGGTAAAGCAAGTTTTGATGATGTCACATTAGATACAATTGGAGCGGTTAGAGGTGTTGCACAGAATGAAGGAGAAAAGGCTCTCTATGCATTCAGTATTAAACCAAATGCTACAACGATTGATATTGAAGCAGAAGGATTTGGAAATGCAGATATCACTAGGGCAACACCAGAAGTTCCATTCACATATACGATTATGCCATTTATCCATCAATGGATTTCTTTCGGTGTAGATGCAGGAACAGGACTAGAATATGGTCGTTATGAACGAATGTATGGGCCACCAGTTTCTTATTCTAAATCAATTCGTAAAACAGAAGGCTTAAAGAATTTAGGATACTTACATACGCTACTTCCTCCAGTGCCGAGTGGGAAAGAATGGTACGACAAGAACAAAATCTTCTACAAGATTGCACTTGGTTCAGAGAGTTTAGAAGAAAACAACTTAGTTAACCTAAAACTATTTGACCGTAAAACAGGCATGGAATGGTTCTATAGTGGAGATCTTGTTATTGGCCATAAAGATATTTTCTGGGCAACAGATAAACCAAGCTTTGTTCTTCATGCTGAAACTGGTTTTGAAACAATAAGAGCTTCTAAAAGGAACTTTGGATTGAAGTTAATTGATGACCGCCGTATCTACAGTGAACTTCCCCAGACAAAGGATGCTAAAGAAAACTGGTATTTAAGAATTCATAACGGACAATTCATTAAAGATGATCTTGGATATAAAGAGTGGTCAGAATTACATGTTAGTAAAAATCCTGATGTAATGAACCAGTACAAAGAGCGAGTTATGAAAAAAGAGAAGTATCAGGTTAACGAATACGCTTCTCAAATCTTTAATCCTTCTATTGGAATCATGACAGTAGAAAATGAAATGGAATACATGACTCCTTCAACAGTGAAAGTACCTCACAACAATCTGTTCGTAAGCCAAGGCTTTGTAGAAAAAGAACAACTTTTAGTTGAGGGCTTAGCGAATTCAGCCGGAACATTATTCCGAGCTAAACAAAAAGACTGGATTCGTAATGACAAGGTTCATATTTTTATCGATGCTGCAAATAACGGAAACATGGTGGAGATCTTCGAAGAATACCCATTCGAGATTAACCATGATGAAGGCACTATTTTCTTCCCAGGTAAAAATATAACAGGTAAAGTATACGCTACTTACGAGTACCGTAATTTCCGCTTGTATAAGAGAATCTACAAAAACACAAAAATGTCCGATGATTTATTAGAAAACAAACGTGTTGATCCAGTTACGAAAGAAGTAATCATGTATGGTTCGAAAGAAAACTGGTTAATCCAACCGGTACCAGTTCTAAAAACTACTAAAGGCAAAGCGACATCAGCTAATACAATTCCTGCTACAAATTATCGAATCGATTATGAAAAAGGGAAAGTAGTCTTTAAATTTGAACCAGTTGGTCCTGTATATGCAGATTATGGCTATTTCGAAAACCAAGAGCTATCAGCAAATGATTATGATATCCAAAATGGAATCTTCTTCTTAAAAGAAAACATTTCATTTAAAGATGATTTATTTGCTAAGTATTCTTATTTTGATAACTTCTACGAATACAAAGGCTTCTACAGTGAAACTCTTCGGACATTTCTTCATTTAGACCTCAATCCATCAGTTGGACATTACTCAACTCTTCCGATGACAACTTATGTAAATGGTGTTCAAAAGGTAGAGTATAAGAAAGTTCCATCTTCAAAGCTTCTTAATAAACTCATCCACATTTACATCGTTCCGGATTCTGAAAATGGAAACTCAATTCGTCACTGCTTCAGTAGAGAAGAGTGGAGAAATATTCAACAGTCGAACCCTATGTACTTGCTACTTGCCAAAGTTCAAGTCAGAGAGCATACAAGTGTTAAAGATGTAGTTGTTATGGATGCACGTACTCGCGGTGGTGGTATCTCTGAATCGCTATCAACTAAAACGATCGATGAGAGAGTGCAAGGAAGACAACGTTATTGGGACATTGGCAACTGGGATGGAAAAGCATTTTACCGAAATGGTGTCTTAATTGTCGCACTACCAAAGTCTATTCTTACTGAATACGGTGGCAGCTTATCTGAAGAATATGTAAAAGAAGTTATCGACAAGCACGTTGCTTATGGAACGTACTGCATTATTGAATGGGAGTGA	MQLQPHKDLVRSGQRNRGYAIRIGNKVPKNSTNLAYVQSKSVSPEENILLEDVSSQIKENGLSNFIEKDYMVYPNNKFLLETESGQAIFPTDAVYVTDEFTIRKNRQDTPKPVFYEMELKGRFDARTAQVIPYLGGFSSETEQEAIPLEEVVLDKRNDLVYVGNSIRIEANGGPLQEDDMYKVQLIREDNFIYRIVVFTNFRNNKDVTYKVVYPNYRSDIKQSELKEEVLNAYPFFKQVTMDEFEDIVTDMESDPDKYKHLKVYAIEEKGNDFSFYATSDVMIANYQTRTPQLFKHRVEAKLKTKLSETNPGKMNIGFSFVQSVVNVENLSSIGKAINEHLSLPKYVELQNPHPTAVDLLKKDVRYWAVNLDMPDHHYEDYDLLVITGYGKADLSMFKDKFEHYLKNGGTIWVDNAGSGINILDFKTSKGNTFISDIGFSSSSNEFGVKEIKKDSPYISRLLPIQNVGALGYADISPAILFGQDEVSTQWDTIVKHLNGGPSIIKKTLFDKGTVLVSNCGIFRAFYHNQKESVNLVLNSILYHSEEQWVFTPWRNDFVYHRDNLFAQEYKVNNTDVYINDRSDYNANQIVAKKILYKNCKEYVKIYCKPWFYNATGVYEHAVDGDKSIPINNSGFESGQVDAGGQPVTSWTADTVNAIPSWNTKKLAGQTVTFTHDSTKSLFGVRQVSLDSSNGTTGAQAFWESEDIYVSIDDYKATVWATIDQVRGITTDGVKIGIYNLQGEKISSSISITGKKDWVKLETIFHIDKPQNIKIRIGFVDGNGFGKASFDDVTLDTIGAVRGVAQNEGEKALYAFSIKPNATTIDIEAEGFGNADITRATPEVPFTYTIMPFIHQWISFGVDAGTGLEYGRYERMYGPPVSYSKSIRKTEGLKNLGYLHTLLPPVPSGKEWYDKNKIFYKIALGSESLEENNLVNLKLFDRKTGMEWFYSGDLVIGHKDIFWATDKPSFVLHAETGFETIRASKRNFGLKLIDDRRIYSELPQTKDAKENWYLRIHNGQFIKDDLGYKEWSELHVSKNPDVMNQYKERVMKKEKYQVNEYASQIFNPSIGIMTVENEMEYMTPSTVKVPHNNLFVSQGFVEKEQLLVEGLANSAGTLFRAKQKDWIRNDKVHIFIDAANNGNMVEIFEEYPFEINHDEGTIFFPGKNITGKVYATYEYRNFRLYKRIYKNTKMSDDLLENKRVDPVTKEVIMYGSKENWLIQPVPVLKTTKGKATSANTIPATNYRIDYEKGKVVFKFEPVGPVYADYGYFENQELSANDYDIQNGIFFLKENISFKDDLFAKYSYFDNFYEYKGFYSETLRTFLHLDLNPSVGHYSTLPMTTYVNGVQKVEYKKVPSSKLLNKLIHIYIVPDSENGNSIRHCFSREEWRNIQQSNPMYLLLAKVQVREHTSVKDVVVMDARTRGGGISESLSTKTIDERVQGRQRYWDIGNWDGKAFYRNGVLIVALPKSILTEYGGSLSEEYVKEVIDKHVAYGTYCIIEWE				NA	NA	NA	NA	NA
AK009_04037	198			hypothetical protein	GTGAATTATCCATTAGGAGTGTTCCAGTACTACGACAAGGAGACTGATACAACCCACTTACAGTGGAGTTATGTTGATGATCCGAATCTTACTCATTTTGAAGTTGAAATCTATGACCAAAACTTACGCAAATGGGTGAAGTGCGATGGGCGAAACGGCATCATAGAAAAACAACCGAAAATAGGAAGTAACTATTAA	MNYPLGVFQYYDKETDTTHLQWSYVDDPNLTHFEVEIYDQNLRKWVKCDGRNGIIEKQPKIGSNY				NA	NA	NA	NA	NA
AK009_04038	3519			hypothetical protein	ATGGAAAAGGAATTGATTTTCCCTGTGCCTTTTTCTGAGTTTGTCCGTAAAAAGGATGCAGAGTATGATGGAGATCCTAATGGTGATTACGTCATGTCTGAAGATGTTAATGAACTGCAGGAATCTATTGAACAGATAGAACGCGTCATTAACTTTAAAGAGCTAGGAAACACAGTCTCAGGTGAACTTAATAAAAAAGTAGATAAGGCAGCCATATCTGATTTTGGTAGCCCGTTATTCGTTGGTTATAGAGGTGCATCTATTAACACATATGATTCTATCGAAAAACGAATCAATGCTTTTAGTTACATTCCTCATGTCATGATTAATAAAGAAGAATCTACTAACTTTAATTTCTTTGTAGATGAAGTTAAGAAGAGCGGAACGCTGCTATATGGTATTATCAATTACCCTAATGTTGTTTTAAATAACATTGAAGCTGATATAACATGGTTCGAATCTAAAGGTTTTCATGGAATCTTACTATCTAATTTTGGATTTGAAAATGGATGGAACAGATCGCAACAAAACCAAATTCTTCAATACATTCATGCAAAAGGAATGTCAGCTGTTATTACAGGTGAAATAGAAACCACGTTATTTAATAAACCTCATAAAAATAACCCTCAACAAGCAGACCTTAAAACATCAAAAGAGGACATCTACCTAGCGCAAGATGTTTTCGTTTTAAATGGTGCTAAAAACAATCCTATCGTAATTCCTTCCGTTGTTTTCAATTTAAACAAAGCCCAAAAAGAAAGAGGAATTCAGATCTTCGTTGAAGATACAGCAGATGCAAGTAATGATAACAATAAGCTTTATTTATATGGAAAAATGTTATCTACACTGTATAACTTAGATGGATATAGTCTCGCTCCTCAGAGTCGATACGCTTTAAATGAGAAGGTAGAAAGATATCTTCATGGTTTTGAGCTAGGGAAATGGAAGACTCAGAATCCAGTTTATGTAGAAGAAACAACTGCTACATCTCGTTCTTTTTCTAAGGGAAGCATTGTGTTCGATAAAGTAAAAAACGAATGTTACATAAAAGGAGTAGGGTTAAACCCATCAATCTATACATGGCAAGATAAACAAATCCCTGGTAAAGCAATTGATTTTGCTAGTGCTATTTATGGTTCTGAAGGTATTGAAACTCTTGTCGATGCAATTAATGACAATAATCATCTAATTCATTATTCGAAAATTGATGGATTGACTGGAAGTGGAGCAACTCCAGATTCAATCAAGGATACAGTTATTAGGGCAATCAATAACTCTCCTGCAGCTGTAGCCAAGAATGGTCCTGGTGGCTATGATGAAATGGCTGGTAATGACTTCTTGCATGGAGGAGTTATTGACTATATTGATGCAGGATCTATTAAGTCTGGGATACTTAATATCGACCATATTAAAACAAACATCATTGAAGCGATTAATGCTTATATTGGTACAGCCAAAATCAATACTGCTGTTATTGGCGAACTATCTGCAGAACATATCGCAGCCAATGTTATCGATGCAATCAATATTTACGCTTCAAACATTTCTGTTGGTTCAGCTTTGATCGATAATGCTGTTATTGGTGAATTATCAGCAGAGCATATTAAAGGGGCAGTTATTGAAGCTGTAAACTTGTATGCAGGAGAAGCTGTAATTGATTCTGCAAAGATTAGTCAACTTGACGCCGAACATATCAAAGCAAGTGTGATTGAAGCAATTAATGCCTCAATTGAAACTGCTGTAATTGACTCTGCAAAGATTGGTACCTTAACTGCAAGTCATATTAAAGGAATGGTTGTTGAGGCTATTAACCTTTATGCAGGACAAGCTAAAATCGATGCCGCTCAGATTGGTGCTTTAAAAGCTGAAAACATTTCAGCAGGGCTAATTGAGGCCTTAGAAATCTCAGCAGGAAGTGCGAACTTCGATAGATTACAAGCTTCTGTAATTGAAGCGATTAATGCCAGTATCGAACATGCTTTTATTGATGGAGCTATTATTGGTGAAGGTACAGTTGACTCTGCTCAAATCGCAGATGGTAGTATCACAGATGCAAAGATTGTTAGCTTAGTAGCGAATAAAATTGTTGCAGGTACTATTGATACTGGACAAGTTACCCTACAAGGAACAAATGGTCATTTAAGAATTACAGGTAATAGATTACAAGTTTTTGATAATCAAAAAACACCTGTTGAGCGTGTGTCTATTGGTGATGTTAATGCCGATGGATCCCTGTATGGATTACGCGTTCGTGGTGCTGATGGGGTAACTGTTCTGTACGATGAAAAGGGTGTTTACTCAGAAGGTATTACGGATGGTGCTATTACAAATCCAAAAATCCAAGAAGGCGCAGTCGATGGTGGGAAACACATTGCAGTCAATACAGTAACTGCTGATAAGCTGGTGGCTGAATCTATTACCGCAAGAGAGTTAGCGGCGAAATCTGTTAATGCTAATCACTTACAAACAAACTCTATTGTTGCGGGTAGTGGGGTTATTGGAAAAGGTGCTATTGGTGAGGCTGAAATCGCACAAGCTAGTATCACAGATGCCCATATCAAAACATTAAGTGCTAACAAAGTAACTGCTGGTTCTATCCAGATGACGAGTAGAAACTTAGTATCGAATGCAACACTTAGAAAAGGGACAATAGATTGGACTCTTGACTCAACTTTTAGTACATATGAAGTGAGTGAAATTGTTCGTTTAAATACAACAAATAGTCTTCATTTGTTTACCACTGGAAAACCTCTACAAAATTCAAGTGCGTATTCCAAGTTTGTTCCCGCAAGTGCAGGAGAAAACTACTCTGCTTCTGTATATGTCCTCACAAAAAACCTCTCCGGTTATGATGGCGGTCATCCTAGAGTTGAAATCGAATACCACAATGACTCCGCTCGTATCATATCAAAAACCACCACATCTATACTAACAGGAAATGATATATGGCAACGTATTAGTGTTACAGAAACTGCTCCTGCAGGAACGACAAGAGTTCGTTTACGAATCTATCATCCTAAAAACGGGGATTCTTATTTCTGTAGACCAATGCTTCAAAAAGGAAATATCGTAACTGAGTGGACTGGTGACGGTTCATTCATGACTGAAGATGGTTTTTACACAGGGGAATTACATGCGGAACAAATAACTACTGGAAAGATTAAAGCTGGTATGGTTCAGATCGGACCAGATACACAGTTTGAACCAGGGTATAGCCCCGGTGAACTTCTTCAAGAAATAGAAAAACGAACTCCTTATCGTGTAGAAATAATAAGTACAAATGGAATGTTCTTTAAACAAGGTGTTGTTTCAACGACATTAAAGGCTCAAGTGTATAAAGGATCTTCCGACGTAACAAGCCAGTTACAAAACAATCAGTTTCTATGGAGAAGAGTAGATAAAGATGGTAATGAGGATATTCCTTGGAATCAATCACATGCAGGTTTAAAAGAAGTACCAATTACCAGACAGGATTTAAAACAAAGAGCAACATTCCTTTGCCAGATTATTAGCAATTAG	MEKELIFPVPFSEFVRKKDAEYDGDPNGDYVMSEDVNELQESIEQIERVINFKELGNTVSGELNKKVDKAAISDFGSPLFVGYRGASINTYDSIEKRINAFSYIPHVMINKEESTNFNFFVDEVKKSGTLLYGIINYPNVVLNNIEADITWFESKGFHGILLSNFGFENGWNRSQQNQILQYIHAKGMSAVITGEIETTLFNKPHKNNPQQADLKTSKEDIYLAQDVFVLNGAKNNPIVIPSVVFNLNKAQKERGIQIFVEDTADASNDNNKLYLYGKMLSTLYNLDGYSLAPQSRYALNEKVERYLHGFELGKWKTQNPVYVEETTATSRSFSKGSIVFDKVKNECYIKGVGLNPSIYTWQDKQIPGKAIDFASAIYGSEGIETLVDAINDNNHLIHYSKIDGLTGSGATPDSIKDTVIRAINNSPAAVAKNGPGGYDEMAGNDFLHGGVIDYIDAGSIKSGILNIDHIKTNIIEAINAYIGTAKINTAVIGELSAEHIAANVIDAINIYASNISVGSALIDNAVIGELSAEHIKGAVIEAVNLYAGEAVIDSAKISQLDAEHIKASVIEAINASIETAVIDSAKIGTLTASHIKGMVVEAINLYAGQAKIDAAQIGALKAENISAGLIEALEISAGSANFDRLQASVIEAINASIEHAFIDGAIIGEGTVDSAQIADGSITDAKIVSLVANKIVAGTIDTGQVTLQGTNGHLRITGNRLQVFDNQKTPVERVSIGDVNADGSLYGLRVRGADGVTVLYDEKGVYSEGITDGAITNPKIQEGAVDGGKHIAVNTVTADKLVAESITARELAAKSVNANHLQTNSIVAGSGVIGKGAIGEAEIAQASITDAHIKTLSANKVTAGSIQMTSRNLVSNATLRKGTIDWTLDSTFSTYEVSEIVRLNTTNSLHLFTTGKPLQNSSAYSKFVPASAGENYSASVYVLTKNLSGYDGGHPRVEIEYHNDSARIISKTTTSILTGNDIWQRISVTETAPAGTTRVRLRIYHPKNGDSYFCRPMLQKGNIVTEWTGDGSFMTEDGFYTGELHAEQITTGKIKAGMVQIGPDTQFEPGYSPGELLQEIEKRTPYRVEIISTNGMFFKQGVVSTTLKAQVYKGSSDVTSQLQNNQFLWRRVDKDGNEDIPWNQSHAGLKEVPITRQDLKQRATFLCQIISN	PGPT0022155_3173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
AK009_04039	6273			hypothetical protein	ATGGAAGTATTAGCAACTGGGCACATATCACTTGTTGATATTAACGATGCAATTGTATCAGATGTACCGCCCGCTGACCCTTCATTAGGAGCACTTTGGATTGACACAACTAAAGACCCTAATACATTAAATAGTTGGGACGGAACTAATTGGGTTGAGCAATCATTATCTATTTCCTCATTAGATCCATCATTTTATCAAGACGTAGAAAAACTAAAAGATTTTGCTGATAAAGCAGGAAGTGACGGTATCATTTCTTCAGGCGAAAAGGCAAACATTAAATTAATGCTAATGGAAATCACAGGTGATGTTCTATCTGGACAAACTCTTCCTACTCTTGCAACAATTGATACTGCAAAAGGTGGTCAAGTTTATTTAGCGAGAGCAGAGGCAAGAGCTTCGGGTATTCCGGTAACTCATGCGGATTATACAGCTTTTGAAACGGCCTACAGTGATTTGAAAACATATTTAGAGTCATTAACTCCAAAACCTTGGTTAACAGGGGATACAACAATTGATCCTGTTACATGGACGGCTAAATGGGATGCTTACTATGAAAAACTTTCAAGATTAGCAGTAGCAACATCTACATATCTAGCAAACAGCATTAGACCAGGAGAAGACTACAATGGTGTCACTATCAATACTGATAAAGGTATCGTTGTTTTAAGAGGTGATAATCTTTTCAGAACAATTCTGAATGCAACTGAAGGTATTTCTATTGAAAAGAATAATGCAGGTACATGGAACAAAATGTTCTATACAAACCTAGATGGTAAAATTTATGCTCATGGTTTAGTTATTAGTTCTGATTCTACAATTGCTGGAACTGATGCAGCCACAATCAAAGATAATGCTGCAAAAGGTAAGGCGGGTATTGATGAATTAACAAGTGACTTAAAGGTTACTCCAGTGGAAAAAGCACAACTAAGCCGAGAGTGGGAAGCTATTAAAGCAGAATATACACAAGTGTTAGCACAAGCAACTTCTCTTGGCGTTGCTACCTCTACTTACACGACATCTTATACAAATCTAGATGGCGTTACTCCGAAAATAGCAGCCGAAGTATTAGCTACTATGATAACCACTTATACATTCGCTTCAGCATCTGCGAGAGATGCATTTAGAACAAAGATAAACTCTTATTTTGCTGAGTCTGAAAAGATTAAAAAAGCAATTAACGATGCAATTAATAACTCAGCAAATAATGCTAATAACAAAATCGACAATTTAAAAGTCGGTGGACAGAACATCGTTAGAAAAAAACAAGTAGTTCCTATCAATGCAGTATCTTCATCATTTGATGATCCTACAAATACATGGACTCTTACGATTAATGATGGTGCTGGTGGATCATGGGGAGCAGGTGTGCGAATCACTGACAAGTTTTCTGTTATCCCTATTGGGAGTTGGTACACAGTTAGTTTCGACGTGTATTCACCTGTGGATGTAACATGGAGTAATGATACAAATAACTTCCCAATTGGTACATCATCTGGCACGAATGATAACGACGATGTAGCGCTAAGAAAGAATTCTGGTAGAAATATAAAAGCGAATACATGGACTAAATGTTGGTTCTCTTATAAAAACAAAGATAATTCAACTACAGAGTTATACGACCAATCTAATATTGGAGTGATTAATAACACTGGTGCTCCTCTTACATTTAAAATCAGAAACGTAAAAGGGGAGCTAGGTAGTGTAGCAACTGACTTCTCTTTATCCCAAGCTGACATTGATGATTCAATTGCTAAGGTACAGGATAACCTTGATAAGCTTTCTGTAGGTGGTAAGAACCTATTATTAGAATCCAATATGGACTTCTCAACAACAGATTACCTTATTAAGATGTATAGTTTGTCCGAGGATTGGATTACTGGACAAGAGTACACTTTTGTTATCAAAGGAACTGTTCCTGCAGGACAAAAATTTGGTATATGGCAAAATGGTGGTTCAAATAAAGTAGGGGAAGCCACAACAACATATGTGAATGGAGTAACTTATGTAACTTTCAAAGCAATAGCTACAACAACTGGTAATGAAAGAAAACTAAGTTTATATAACTACCCTCAAAATACCACACTATCCACTGTAGATTGGGTTGCCCTATACAAAGGAAATAAGCCAATGGACTGGTCTCCTGCTCCGGAAGATATTGAAAATACAATTCTCGGACAACTCAACAGTGGTAATAACTTATTTAGAAATTCTGGAGATTTCAGAAATCTAAATGGTTGGGCATTGAATGGTGGTACATCTCTAAACATTGTTCAAAAGGATGGCTTCTCTGTATTAGAAGCAGTCGGTTCTATCCTTTCTAATAATACAGTAAATGTCCCTGTAATTAAGGGAGGAACAGAGTATGTATACACTACAGAAATTATGTTTAGTGAAGATACAGCAATAGCTAGCACAACCCCAATGCACTTTTGGTTCTTTGATACAGGCGGAAACAACAATGCAATAGAAAGAAGTTCATTGATTTCTAGTGATACCATTGCTAAGGCAAACACTTGGACACGAATCTCGATACTCTTCAAGACAAAACCTACTATAACTTCAGCAGCTTATTTCAAAGCCTTTATCTATGGTGCTCAATTAACAGCTACTAATAAGTACTGGGTTAAAAATGTTATGTTTTCTGAGGCGAACAGAATTGTTAACTGGTCTCCATCGACTCTTGATGTTTTAGATATGATCACAGATATACAAGTTGGTGGAAACAATATAATTCCAAACTCTTTATTTAAAACAATGGGTAAATGGAGAGCTTTTGGTACTTCTGGCGGAACAAAAACAGTAGGTGTAGATGTTGATTTAGCAGGGTTTGGAACTGGTTTTCAATTTGAGTCAGCCGTGAATGGTGAATATGGTCTTGCATTAGACAGTGTTAAGGTTACTGTAGGAGAAACTTACACACTTTCAGCTTGGTTTAAATTAACTAAAACTGGTGCTATTAAGATGCAAGAAGGAAACTCGAATGTGAAATGGACGTATACAAAGGCTCAACCAGAAGTGGGGAAATGGGTTCGTGTAGTTCATACATTCGTTGCAAAAGAAAGTACATTAAGTGTTTATGCTGGAGCAGACTCATCATCAGTAGCGACTGCAGGATTTGTTACTGGATTCCAATTAGAAAGAGGAAATAAAGTAACAGACTGGAGCTTAGCTACTCAAGACATTAATGATTTAATCGATGCAGCAAATAAAAGATATGACGATATGAAAGTCGGCGGTACTCAAATGCTGACTGGAACAGACTTCAAAGATGCTTCAGGTTGGAATCGTTGGGGGAGCATTGGAACTATTGGTCATTACGCGCAACCACAATTACCGACAGGAAAATCGTTATTTATGGAAACTAGAACCGGACAAACACAACTACCAGTTCCCTTAGGTACTAAAGTCGGGATGACAAGTGATGGGAGAAAGTTTGCTGTTAAAAGCGGACGAGAGTACACACTTTCTATGAACGTAGCCACAAGCGAACTGGGTGACATATTGGATTACATGTACTTAATGTATACAGTAGCTGGTGGTAACCGTCGTTTAGCTGATATTAAAACAACCAACTTCCCAAAATTCGCACCAATTGCTGAAGGAAGTTTAACAAACTATTATAGTGTTAAACTAACGTTTACAGCTGACCGTGACGACGACAATGCGTACATCTTAATTGGCGGTAGCACAACACGAGAGTTAACAGGTTCTAATGGTTATGCGTGGATTCGTGTTAACTCATTAAAAATCGAAGAGGGTAACATTGCTACATCTTGGGAGTTAGCTCCAGCAGATATCGATAAAGCTATTGCAGATACAGATAAAAAAGCTCAGGATGCAGCAAACAATGCAAATAACGCACTGAAGCAAGGTCAGGTAGTTGTAAATTCAACATTCTCTAACTGGACTCAAGCATTCCCTGCTGGGCTTGGTTCGTGGAGTGGTTCATCAGTTTCAAAAGAAACAACTCTAACAAGAACTGGAAGTGCAATGAGATTTGATGTTCCATCAGATACTGCACAGATAGGGGCACAAATTACAACAGGTTTCTTCATTCCTAACCTTCCAAACAACAAGTATTATGTGGTTGAGTTAGACTTTATGTTAGTAAGTGGATCAATAACAGGAGCATGTGTCTTGTTAGATTGGAATAGTATGAGTCCTTCTAGGGCATCAATTCACCTATCAGATGTGGTACCTACTCCAACTCTAGGTAAATGGTATACAGTTCGAGCAGTTATGAAAAGACCAACAGACAACCTATCTGGTTATTCAGCTATGGGGGGTTTTTTACTTGCTAACTATGTAGGTTCAACTACAAACAAAATTAAGAATTTAATCTTTGACCGACTTGTTTTCAGAGAGCCTACTCAGCAAGAAATAGATGCTTATGAAATCACTACTATTGAAAACGGAGTAACTGTTATTGATGGTGGAAAACTTAAAACGAATTCTGTAAAAGCAGAATCCGTGGATGCAAGACGCTTAAGAGTAACGAACAATAGCGGTACTGTTACATTAGAGATTACCGATACAGGGGAAGTAACTGTTAACGGTAAGGTTTCTATTAATAGTAGCTCAATGTTTGCTCCAGGATATGACCCGTCAAAAAATGCTGGTGGTCGCAACATTCTTTTAAACTCTCGCTTCGCTACTGCAGATGCAACAAACTGGAATAACTGGGGGTCTCCTTCTGTAAGACAAATCGAGGATATTACTGACTTGCCTGGTTTTGATAAAGCAGTTAAATTAACAACGACAGCAAACAACCAAGGCCTTAGCCAAAGTGTGCCCGTTGTTACTGGTCAAACTTACACCGTTTCTTGTTATGCTAAATCAGCATCAGGACAACCAGTTCTACAGATATATGACGGTGTAGGTTATCCTTCTGTATCGATGAAATCAGAACATGTTGGTAAAAACCAATGGGCTAAGTTATTCTTGACGTTCCCTGCTAAAACTAGCACAGCACGAGTAGAGTTTGGTAAAACTGGTGGAGGAACATTAGGTACTTACTGGTTCACTGGTATTAAATTAGAAGAGGGAGACAAGACAACAGGTTGGACTCCTGCTGGTGAAGATGCTGATGGGTTGATCGGAAAAGTAGTAACTCCAAATGGAGATATTAAAGCACTTGATATTGCTTCTTCTATGTCTATCACACCAGGAGCGATTGATGCAGTAAGTAAATACATCAACTTAAAAGGTAAAGTTACCTTCTCTGATTTTGCTTCTGGATGGGCACTTGATTCAAAAGGAAATAAGATTAGTAACTCTGATCAACCAGGTTATGATCCAGCAAATCCACTTTATCTAGATATGGATGGAAACTACAGACCATTATCAGATGAAAAGAATTTCATGTCGAACCTATTTACCAAAGATGACACAACTGGAGTCACAGTTATCGATGGTAACTATATTAAGACAGGAACAATTCAAGCAAAATACGCAAACTTTAGAGATGTTCAAGTATACAATGATTCAGGTCAACAGACTTTCCGTATCGACACGAACGGTAACCTATCTACATCTGGTACCTCTCAATCTATTGGATACGAAAGACAGAAAAAAGGTTGGAAGATCGATGCTGATGGTTCTGCTGAATTCAATGCTGCTACATTCCGTGGAGACATTGAATTGGGGTATTATAACGCACCAACGGATACTTTCGTCGTTACTGGTGGTCTATTAAGTAATATTGGCGGAACTGGTAAGGATTTAAGATTCTGGGCAGGTCCAAATAAATCTACTGCTCCATTTAAAGTTTTCTCAGATGGTACTTTAGAAGCGACTAAAGGATACTTCACAGGAACTTTCTCTGGTGAAGTAGTCGTAGGGAATATCTCAATCAGAGATACTGCAACAAAAGGAGATGCGAAAATTATCCTTACTGATGATTCTAAGATCCAGAAAGTGGTTCTAGGTGAGTCAGTAGTAGAATTAAATACAAAAACGACTTTCGGTAACTTTTTAACGGTAGATATCACCAATCAAAAACTCGATTTTGGAGCTAACGATTTCGGAATTGATTATAAAAACAATACGATCAAAATGAAAAGCTTCTCTATTAGAGGAACAACAGCTTTAGAATTTGTTTCTGATGGTTCATCTGGTGATGATTTCGTATTTAAAAACGTAACTGGTGATACATCTGTTCGAGTAGATGGTAGTTTTATTGCTAGGGACGATATTGAGATTACGAACGTCTTACGTATGAAAAAGTCTACAGATGCCGGTAATAAAGGTATAGACTATGTATTCATTTAG	MEVLATGHISLVDINDAIVSDVPPADPSLGALWIDTTKDPNTLNSWDGTNWVEQSLSISSLDPSFYQDVEKLKDFADKAGSDGIISSGEKANIKLMLMEITGDVLSGQTLPTLATIDTAKGGQVYLARAEARASGIPVTHADYTAFETAYSDLKTYLESLTPKPWLTGDTTIDPVTWTAKWDAYYEKLSRLAVATSTYLANSIRPGEDYNGVTINTDKGIVVLRGDNLFRTILNATEGISIEKNNAGTWNKMFYTNLDGKIYAHGLVISSDSTIAGTDAATIKDNAAKGKAGIDELTSDLKVTPVEKAQLSREWEAIKAEYTQVLAQATSLGVATSTYTTSYTNLDGVTPKIAAEVLATMITTYTFASASARDAFRTKINSYFAESEKIKKAINDAINNSANNANNKIDNLKVGGQNIVRKKQVVPINAVSSSFDDPTNTWTLTINDGAGGSWGAGVRITDKFSVIPIGSWYTVSFDVYSPVDVTWSNDTNNFPIGTSSGTNDNDDVALRKNSGRNIKANTWTKCWFSYKNKDNSTTELYDQSNIGVINNTGAPLTFKIRNVKGELGSVATDFSLSQADIDDSIAKVQDNLDKLSVGGKNLLLESNMDFSTTDYLIKMYSLSEDWITGQEYTFVIKGTVPAGQKFGIWQNGGSNKVGEATTTYVNGVTYVTFKAIATTTGNERKLSLYNYPQNTTLSTVDWVALYKGNKPMDWSPAPEDIENTILGQLNSGNNLFRNSGDFRNLNGWALNGGTSLNIVQKDGFSVLEAVGSILSNNTVNVPVIKGGTEYVYTTEIMFSEDTAIASTTPMHFWFFDTGGNNNAIERSSLISSDTIAKANTWTRISILFKTKPTITSAAYFKAFIYGAQLTATNKYWVKNVMFSEANRIVNWSPSTLDVLDMITDIQVGGNNIIPNSLFKTMGKWRAFGTSGGTKTVGVDVDLAGFGTGFQFESAVNGEYGLALDSVKVTVGETYTLSAWFKLTKTGAIKMQEGNSNVKWTYTKAQPEVGKWVRVVHTFVAKESTLSVYAGADSSSVATAGFVTGFQLERGNKVTDWSLATQDINDLIDAANKRYDDMKVGGTQMLTGTDFKDASGWNRWGSIGTIGHYAQPQLPTGKSLFMETRTGQTQLPVPLGTKVGMTSDGRKFAVKSGREYTLSMNVATSELGDILDYMYLMYTVAGGNRRLADIKTTNFPKFAPIAEGSLTNYYSVKLTFTADRDDDNAYILIGGSTTRELTGSNGYAWIRVNSLKIEEGNIATSWELAPADIDKAIADTDKKAQDAANNANNALKQGQVVVNSTFSNWTQAFPAGLGSWSGSSVSKETTLTRTGSAMRFDVPSDTAQIGAQITTGFFIPNLPNNKYYVVELDFMLVSGSITGACVLLDWNSMSPSRASIHLSDVVPTPTLGKWYTVRAVMKRPTDNLSGYSAMGGFLLANYVGSTTNKIKNLIFDRLVFREPTQQEIDAYEITTIENGVTVIDGGKLKTNSVKAESVDARRLRVTNNSGTVTLEITDTGEVTVNGKVSINSSSMFAPGYDPSKNAGGRNILLNSRFATADATNWNNWGSPSVRQIEDITDLPGFDKAVKLTTTANNQGLSQSVPVVTGQTYTVSCYAKSASGQPVLQIYDGVGYPSVSMKSEHVGKNQWAKLFLTFPAKTSTARVEFGKTGGGTLGTYWFTGIKLEEGDKTTGWTPAGEDADGLIGKVVTPNGDIKALDIASSMSITPGAIDAVSKYINLKGKVTFSDFASGWALDSKGNKISNSDQPGYDPANPLYLDMDGNYRPLSDEKNFMSNLFTKDDTTGVTVIDGNYIKTGTIQAKYANFRDVQVYNDSGQQTFRIDTNGNLSTSGTSQSIGYERQKKGWKIDADGSAEFNAATFRGDIELGYYNAPTDTFVVTGGLLSNIGGTGKDLRFWAGPNKSTAPFKVFSDGTLEATKGYFTGTFSGEVVVGNISIRDTATKGDAKIILTDDSKIQKVVLGESVVELNTKTTFGNFLTVDITNQKLDFGANDFGIDYKNNTIKMKSFSIRGTTALEFVSDGSSGDDFVFKNVTGDTSVRVDGSFIARDDIEITNVLRMKKSTDAGNKGIDYVFI	PGPT0022155_1139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
AK009_04040	2775			hypothetical protein	ATGGAGTTATTTTCAGCATTGGCGTCGGGTTCATACCCGACCATGCTTTATACAGTTTATGCAGAACAGACAAGTCGTTCTGCGAATTCAGTTACATATAGCGTTACATGTTGGGCTAGGTTAGATAACCAAACTTACGATTATTTTGGTGCACTTGTTTATCCCAAGATTAATATAGGTGGTACTACTGCTTCTTTTGCTGCTTTAGGTACATTCCCAAAAGGAGCAGGAGCTAAATTTAGCACAATCAGCGTAACTGTATCTGGAATATCAGCAGCAACATCTAGCTTGTCATACACATTCTCAGCAACGTCACAACTTGGTGGAACATCAAGTAGTACAACAGGTTATGTTGGAGGTAAATCAGGAACCGTACCTGTTTCCGTTTATGCTACGACTCCTTCATTAGGTGGTACAATTACCATCAAGGATGGTTCGACAGTAGTTTCCTCTTATTATAGAGAGAACCTTGGAACAGGCTCCTTTAATATTAGCTGGCCAAGTGCTACGGGAGCAAACGGAACTCTTGTCTATGAACTACAAAGAAGTATCAATGGACAAAACTGGACTATCGTGAATAGCGCTATAAGCGGTACATCTATTAATGATGCTCCAGGAGCAGGTGCAAGCTCTGTTCGATATGCTGTGTTGGCAAAGAATAGGGTAGGAACAGACGAAATGATGTCTGGGTTTATTTACTCTCCAACAGTAAATAAAAATGAGTTAAAATCACCGTCATTAACTTCTAGTGCTAATGTTACCTACAATACAAGAACCTTTGTCGTAACACTTGGAGCCGCTTCTGACAATTTGGGTTCTTCAATAAGTTACACCATTAGTGGGATATCAAGTAAGTACACAACTATTAATGGAACTACTAGTGTTCCACCAGGGAACATTACAATCAATGCAAACAATGGTACAGGCGGTACTTATATGACGCTGGCCAATCTAAAGGCGGCAGCACTAAATGGGGCTGCCCATTCAGATACAAACCCCTACAAAGGAACCATTGATTTACAGGTAACCGCTACAAATGGTAAAGGTTCATCAAAAACCGAAACAGTAGCTATTCCGATTAATTTAGGAATAGATGCCCCTGTAAATGGAACCCCTAGTGTTTCTATAGCTGCTGCTTCGTACTACACGATAAATTCAGTTAACTACATTTTTCCTGAATACAAGCCCGTTTCACTGTCAATTCCAGGAGCAATCAAAGATATGCTCGGACGAAATTGTAGTTACGACATAGTTATGGTAGAAGGAAACAGTCAAGCCATTATTAAAAATACAGGTATTGTTACTGCTGCGACTACAGCGACCGTTAACCATGTAGAATCTGGTTTGCTAACTAGTAAGAAAAACGTTTCTTTCTATGTAAGAGCACAAGCATTAGGAAACGAAGGAAAGTCTTCTGCAGAAACCCCAAAAGTAGATCTTCACTACTATAAAAAACCAAGTGTTACTTCTAGTGACTTATCTCGTATCGTTGGTAAAGCAACCTTCAAAGTGAATATCACCCCTAACACTTCATTAACAGGATCTACAAATACCTCAACAATGCCATCAGGATATACAAAAGGAACTTCAACTATAACTTCCGGAGTAGAGTCTTACACAGTAACAAGTAGTACAACTCTTGCTGATTCGTATACTGCGACAATTTCTGTTGTAGTTCGTGATTCAATAGGTTACATATTAAGTGGTTCGAATGACGTTACCCTAAAAGTTACTATTCCTACATTTACACCTGCATTATCTATCCGTGAAAGAGGGGTGGGTATTAATGGTTTTGCTGGAACGACTGAAAAACTTTATGTTGGTGGTAACGTAAAACTTACTGGAAACTTAATTGTCGGTGGAATAATTGACATGGGTAATACGAACATCGAAAACGTAAATCATATTACAATCACTGATCCAGGTGGTGGAGAAGGACTAGAATGGAAAGATCCTACAAACAACTGGAAGATTGTAGTTGCTCCAGACAACCTCGGAAATGCTACAGGTGATTTACAGTTTGCACGAAATGGTGTAAGAAGAGCAACAGTAAGAGCGAATGGCGAAGTTGCAGCAGTAGGTGGTTTTGCTACAACCAATCCTAGTAATACTGCAGCATCAGTTTCGTTAAACTTCCTTAACAATATCGCAAGACTTCGTACTGGCGGAACAGGTGCTGGTGCAGATAATGGATTTGAAATACATGGAACAGGCGATATTGTTAGGTGGAAAGTAGACGGTGCAGGAAACGTATCGAACTACGGAGACCTAAGAGTGTACAACGGTAAGCAAATTCAATTCATGAATAGCTCAGGTATGGCAATGGACGGATACGGGAACATAAAACCTAGGGATCCTGCAAGTCATGCACCAGGTGCAAGTTGGTGGGTTTCAGATGTAAAAGGTACCCAAATAATCAGGGTTAACACGGGTAGTACTGGTGGTTTTGGGGAAATGATAGGTAGGCCATTTACACAAGTAACAGCATTTACAAATGGGTGGCAGGACTATGGTTCATTCGGTCCAGTAGCATATACAAAAGATGCAGCAGGTTTTGTTGTACTACAGGGATTACTAAGAGGTAATAGTGGTACTAGTGGATCTGCATTCCAATTACCTGCTGGATTCAGACCAAGTACAACACGTATATTTAGCGCCGTTAATGGTGTTAACGGTCATTCTCGTATAGATATAAATGCAGATGGAACCGTTGTAATGCAAGGTGGTGCCCCTGATTTCTGTTCTCTAAATGGAATTAGGTTTCTAGCCGCATAA	MELFSALASGSYPTMLYTVYAEQTSRSANSVTYSVTCWARLDNQTYDYFGALVYPKINIGGTTASFAALGTFPKGAGAKFSTISVTVSGISAATSSLSYTFSATSQLGGTSSSTTGYVGGKSGTVPVSVYATTPSLGGTITIKDGSTVVSSYYRENLGTGSFNISWPSATGANGTLVYELQRSINGQNWTIVNSAISGTSINDAPGAGASSVRYAVLAKNRVGTDEMMSGFIYSPTVNKNELKSPSLTSSANVTYNTRTFVVTLGAASDNLGSSISYTISGISSKYTTINGTTSVPPGNITINANNGTGGTYMTLANLKAAALNGAAHSDTNPYKGTIDLQVTATNGKGSSKTETVAIPINLGIDAPVNGTPSVSIAAASYYTINSVNYIFPEYKPVSLSIPGAIKDMLGRNCSYDIVMVEGNSQAIIKNTGIVTAATTATVNHVESGLLTSKKNVSFYVRAQALGNEGKSSAETPKVDLHYYKKPSVTSSDLSRIVGKATFKVNITPNTSLTGSTNTSTMPSGYTKGTSTITSGVESYTVTSSTTLADSYTATISVVVRDSIGYILSGSNDVTLKVTIPTFTPALSIRERGVGINGFAGTTEKLYVGGNVKLTGNLIVGGIIDMGNTNIENVNHITITDPGGGEGLEWKDPTNNWKIVVAPDNLGNATGDLQFARNGVRRATVRANGEVAAVGGFATTNPSNTAASVSLNFLNNIARLRTGGTGAGADNGFEIHGTGDIVRWKVDGAGNVSNYGDLRVYNGKQIQFMNSSGMAMDGYGNIKPRDPASHAPGASWWVSDVKGTQIIRVNTGSTGGFGEMIGRPFTQVTAFTNGWQDYGSFGPVAYTKDAAGFVVLQGLLRGNSGTSGSAFQLPAGFRPSTTRIFSAVNGVNGHSRIDINADGTVVMQGGAPDFCSLNGIRFLAA	PGPT0022155_4401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
AK009_04041	663			hypothetical protein	ATGGAAAATATAGGAAATATTACAATCGTAGGAGAATTAGAAGACGTAGAAGAGCCTATCGAAGAACCTATCTTTATAGAGGTAGAAAATCCGTGTTGGGAGATAGATGAAAAAGGTTATGTGATTGACCATTACTTAATGTCAGATAGTGAAATAGAAAAAGCCTTATCTGAAGGAAGAAGAATTCTTAAGTCCTGTTGGAAAGAAAGCTTCTACAGACCTCGATTCGATGAAGTCTTAAATGATTGGGTCGAGGACGAGGATGTGGAAGTGGTCTTGACCCTCGTTAAGGAAAATAAATTTAATGAGCTAAACGATGCATGCAACAAAGATATTTTAGGTTATTTTGACGCTTCTGTTGGTTCGGAGACATACTCATTTTCTTTTGATGAAGAAGCACAATCTAATTTTATTGGTAGCTTAGCATTATTTAACGAAGGGCTTATGACAGAAGTTGAATGGACTGCATGGAAAGGTGATAAAACTCATAGAGTTACTTTAAGTAAAGAACAATTTCTTAATGTAGCATTTTTAGCATATCGAGAAAAGGATGCTAAGATATCTAAGCTAAGAAATGTACTACAACCAAGAATCGAAGCATGTACAACCATAGAAGAAGTACAAGCTATCCAGTGGGATGAAAAACCAACACAACTAGCTTGA	MENIGNITIVGELEDVEEPIEEPIFIEVENPCWEIDEKGYVIDHYLMSDSEIEKALSEGRRILKSCWKESFYRPRFDEVLNDWVEDEDVEVVLTLVKENKFNELNDACNKDILGYFDASVGSETYSFSFDEEAQSNFIGSLALFNEGLMTEVEWTAWKGDKTHRVTLSKEQFLNVAFLAYREKDAKISKLRNVLQPRIEACTTIEEVQAIQWDEKPTQLA				NA	NA	NA	NA	NA
AK009_04042	228			hypothetical protein	ATGAATCAACAAGGGAATACAACAAACTTAGATGTGAATCTATTAATCAAAGAATATGAAGCTACAATTACTACGTTAATTAGTGAAAATGTTAAGTACAAAACACTTCTAAAACAAAAAGCTATTGAAGAACAGCAACGTCAGGAAGAAATGATGCGACATGCCGCACCACCGGCACCATCTGCTGTTCCAACAGAAGAAATAGTAGAAGCAGAGGTCGTAGCGTAA	MNQQGNTTNLDVNLLIKEYEATITTLISENVKYKTLLKQKAIEEQQRQEEMMRHAAPPAPSAVPTEEIVEAEVVA				NA	NA	NA	NA	NA
AK009_04043	375			hypothetical protein	ATGACACAGGTACGAATTCGTTTTATTACAAGAGACGAGAAATCTCCCTGGGTTTATATTCAAGAAGAGATCAGACAGGAAACTCCAAAAGCAAATGCATTCCAAGTAAAAGCCGAACCTGTTACAAGACGAAATTCTAAGACAAATCAATACGGACGTTTTCGTTACAGTGAAATGCAATATGGAAGAATTGAAGCAATCTTAGCTTCTGCTTTAGAGATAAGTAAATCTCCTATAAGAATAAGAAACCAAAATGGAGAATGGATTTATATTCAGCAAACAACTATCGACGGCGCTTGTCCTTCTATTCGGATACGAAACCGAAATAGTGAGCAAGTAGGTCCTTGGGTTTATATCCAACATAAGGAGGTGTAG	MTQVRIRFITRDEKSPWVYIQEEIRQETPKANAFQVKAEPVTRRNSKTNQYGRFRYSEMQYGRIEAILASALEISKSPIRIRNQNGEWIYIQQTTIDGACPSIRIRNRNSEQVGPWVYIQHKEV				NA	NA	NA	NA	NA
AK009_04044	750			hypothetical protein	ATGGAGTATTTACACAATTATTTATCGGTTCTGCCTGATTACGACCGTAAAGAAGTAGAACAGTTAGTACAAGAAAATATGGATTTGTTCGATGTAAAAGTTATAACAAAAGAAGAGTTCGAAGCACTTATTCAACAACTTGCAAATAGACAAGAAAAGGTTACAACTCTTACACCAACTGATGAAAAAGTTGATGCCGAACATTTTAATCAGTTGCATTCGAATGTAGCTTTAGATCTAAAGCGACTTTACAACTCGCATCTTATCATTGAGAAAGTAATAGCCAATTACGACAGAATCCTTCGAGGAACATTAGATGATGTAAAGAGGGAAGTGGATTCACTTTCTACTCGTGTTGAGGAATTAAACCTCAAAGCAAAAGGAGAAGATGGACTAGTTGTAAAAACATATGGTTTTGAAGAAAAGGAAAAGAGCTTGTATATGGAAACAGATCGTGACCAATACGCTCACTTATTCTTAGACCGCGACGGTAAATCCTTACCAAGTGCATCACTAAATCGTAGCTTCCATCAACACTACCTATCTCTACCTATTAGAGAAGTAGAGGACGCTCTGCAAAATTCAAATGGAGCAACAACTGCAAAGATTGAAATCATGTATCAAGCACCAAATAGTATTTCAGACAGAAACCATACATTGGAACATGCAATAGATGATTCACTTGAGACGTATTGGGCACAAGCGGTTAAAACAAATGCCCCTGCTTATACAGAAATAACCAAACTATAG	MEYLHNYLSVLPDYDRKEVEQLVQENMDLFDVKVITKEEFEALIQQLANRQEKVTTLTPTDEKVDAEHFNQLHSNVALDLKRLYNSHLIIEKVIANYDRILRGTLDDVKREVDSLSTRVEELNLKAKGEDGLVVKTYGFEEKEKSLYMETDRDQYAHLFLDRDGKSLPSASLNRSFHQHYLSLPIREVEDALQNSNGATTAKIEIMYQAPNSISDRNHTLEHAIDDSLETYWAQAVKTNAPAYTEITKL				NA	NA	NA	NA	NA
AK009_04045	948			hypothetical protein	ATGCCTACTCCCATTTATATCGAACAACATTATTCATTATCTGTATCTGAATTTGAAGGACTATGGGAAATGACATTTATGCACCCATACAATCGACAAGAGCATTTCAGTATCTATCTAGTTGCTCCTAATAGTGACTATGAACATGCTGAACTTGATGACCGACCAATTGTAGAAGCTGGACCAAGATTAACAGAAGTATTAAAACGACTACTGTACAAAATCGAATATTACCCGTACTCTTGGGACTTCGCCGGAAAGAAAATCGTTTCATACGGATACGATTTCGAAACAGACTTTACAGGTACAGGTTTGACCTATATTGACTTAACAGAGATTGCTCTTAAAGAAGTAAATGAATACTACAACTTCTTTTCTGAATTAGAAACAGATGTAGTAGATGAAAGAGAAAAGGTCAGTGGGAAAGGTGTTATGGCCAAACTAAAAATCACATTAGACAAGCCTAAAACCGTAAATCACTTATCCGTTGATTTCTTCACAGAGTATCCAATCGAATTAATGTCATTGATGTATCAAATTGACCAGAATGAAGAATCCACTACTTACGAAATTCCTCTTTCAAAAGCGGTTCAAACAAATGGATCCATTTATCTTCATTTCTCTCCTGTATTTGCAAAGACGTTCTATTTAATCATTAAGCAAGAGTCTTATACATTGTTAGACCAATCAAAGACAGAAGAAGAAGTAATGAAAGCTGAGCTATGGAATCAAGCTTCAACGAGAAGCCAATCTATTTATGAATCTGCAGTTGGAGAATATGTAGACCAATTATTATCTTCTAAGTCTGGTATTCAGCTGCATCAAGAAATCTTAGACAGTTACCAAAACACGAATGTGAATCATACGCCAATGTCAGCAGAGCCAATGAATCCATACCGTAGTGATTTTGAACAAGCCAAAAAATCTTTAGATAGCCAACAACGATAG	MPTPIYIEQHYSLSVSEFEGLWEMTFMHPYNRQEHFSIYLVAPNSDYEHAELDDRPIVEAGPRLTEVLKRLLYKIEYYPYSWDFAGKKIVSYGYDFETDFTGTGLTYIDLTEIALKEVNEYYNFFSELETDVVDEREKVSGKGVMAKLKITLDKPKTVNHLSVDFFTEYPIELMSLMYQIDQNEESTTYEIPLSKAVQTNGSIYLHFSPVFAKTFYLIIKQESYTLLDQSKTEEEVMKAELWNQASTRSQSIYESAVGEYVDQLLSSKSGIQLHQEILDSYQNTNVNHTPMSAEPMNPYRSDFEQAKKSLDSQQR				NA	NA	NA	NA	NA
AK009_04046	1215			hypothetical protein	ATGGTTAACAGTTTTGAAAGTGCAAGCAAACCAAAGACAACTTTACTGCAAGGTCAAAGTGCTACAAGCAGTACAACACCTGGGCCACTTCCTCCAATCGTAGAAGGAGTTGGCTCAAGTAACCGTATAAATAGCTCAACAGAATATGTTTATCAGTATGGGGTAAAGAACCTGCAGCTAAATCATTCCTTATATGAACAAGCAGGAATTTTCGTTACAAAACCAATTGAAGTAGAGGGGAATATTGTAGAGGTATCATTATCTACCTTTGAAGACCATCCACTGTTTAATGAGTTAGATGGAATGGCTACAGACCGTGTTACTTCTATTGAATACTACATCTCGTTAGAAGAGAATCCTTCACTTAATGATTGGGTTTCAATTCTTCCAGAAGGTACAAAGAATGTAAAATGCGAAAAGCTTTTCTTCCGTGGTTCAAGTGCAGAACTTCGATTCCATGCAGATATTAGTGATGAAGATAATACGAAAGTATACCGCAACAATATCTTAATGAATAGAAGTGATTGGTACTTTACAGAGAGAGGAGCTGCTATTCAGTTAGCTGTACCTCACGACAATAGTTCAATCTACACAATTGATTATGTACCAAATGCAAACCTATTTGATCCTTGGACAGTTAAGGTAGGAGATCGCTTCTCTAAAAGAGTTCGTAAGGTGGAATCTTTCCCAAATGGAACTGATTCTAACAATACGATTAAACTTTCTAAGTATCCATTTGTTGATTACAAACAAGTGAATAGTGGAGAGAGCTATGATCCGAATACAAGTGAGTATAGACCAATTGATGTATTCCTAACGAATGGAGCTATTGTAGTAGGAGGCGGAAAGACTCAACCAGAATTCTTCCCAATCGCTTACTCAAGTAAAAATGAATTCACAACAAAGAACCGTACAGATTATAAAACTAGCAAAGATGCGTTTTTAAATAAGTACAGTATTGTTCCAGATTCTGCTTATAAGACATTTGAGTATAAGCAAGAGAAGAATAAACTTATCTTCACAGAAAGCTTTAACCGTTCGGATCTTTATTATAACGAAGCAACAAATCATGGTAACGCTACGGTGGTTGTTCACTACGATTATCTAGTGACAAACTTCCGACTAAAAGTTATCTTACGTAAAAACGTAGGTGATGAACTAGTGGTGACGCCAATGGTTGATAGCTATCAATTAAAATTCAAAGTTATGAAGTAG	MVNSFESASKPKTTLLQGQSATSSTTPGPLPPIVEGVGSSNRINSSTEYVYQYGVKNLQLNHSLYEQAGIFVTKPIEVEGNIVEVSLSTFEDHPLFNELDGMATDRVTSIEYYISLEENPSLNDWVSILPEGTKNVKCEKLFFRGSSAELRFHADISDEDNTKVYRNNILMNRSDWYFTERGAAIQLAVPHDNSSIYTIDYVPNANLFDPWTVKVGDRFSKRVRKVESFPNGTDSNNTIKLSKYPFVDYKQVNSGESYDPNTSEYRPIDVFLTNGAIVVGGGKTQPEFFPIAYSSKNEFTTKNRTDYKTSKDAFLNKYSIVPDSAYKTFEYKQEKNKLIFTESFNRSDLYYNEATNHGNATVVVHYDYLVTNFRLKVILRKNVGDELVVTPMVDSYQLKFKVMK				NA	NA	NA	NA	NA
AK009_04047	1782			hypothetical protein	ATGAATGCCCCTGTTATTGAATCTAAAATATTAGAGAAACAAAGAGAGTATCTTTTAGAGCAAGCAAAGCTACGATTAAGTAGTTCTGCTACAAAAGAAGAGGTATCTCAATTAGCGGATGAAATCTTTTACAGATATCAATCTTGCATAGGTAAACCTTTATTCCAAGCACAGAAAGTGGTGTATGGAGAATTACCTTTCCTTGAGGATTACTATAGCAACAACAAGGAAATGGAAACAGATTTAGGTATTTTATTCTCAGAACTAAATACCATTGCTACTTACCTGGTGGATTACTTTAATTACTCTCAAAGTGAGAAAGACAGAATCTTAGCTATCGTTCGTGGTATTAATGGAATTGTATCAGACCTTCAAATGTTAACAGAAGAAACAACGCCTAATACGGTTTATTTAAAAGAATCGTTTACGAATTACGATAACGTAGATACTGTTTTAACTCCAGTGGAAAACCGAAGTATGATCCACACACAAGAAGGAGTATTAACTCTTCGCCGTACAAATGCTTTAAATAGAAGCATCGGAAGTAAAGTCCGAACCATAACTGGTAACGGTATTGCAGGGACTTATTATTTGTCTCGTAAAGTTAAATCGGATTCAGAATTCGAAAACTACGAATATGTTTCTTCTCAAATTAAGAACGATGATCCAAAAGCATTAATCGATGGGAACCCCGATACAGTATTTGAATTCGAGATGGTTAACATTCCAGAGAGCTATAAGAAGCAAGTATTCTATTATGATGTTGAATGGGCAAAAGGAAAAGAACATGACGAACTATTACGTGTAAAGATTGTAGTTCAATTACCTAAGAGCGAGACAATCAACTGGATTAATTTAAATCCTTATCATGCTGCAGGTAGCCCAGGTACAGTTAATGTATATTCTATTCGAACATCTAATGATGGTATTGAATACCAAGGTCTTTTCCAAAATGACCAATTTGTATTAAACCAAGAAATCAATAAAACACCTCAAAGCTATAGAGCAGAGGATTTATTTGATGGCAGCGAAAACTTTGCTAAAACTAAATTTTCTGGCCAAGGTGTTTGGAGCTTTCCATCAAGAGAAGCAAAATACATTGAGTTCGTATTAGAGCAACCTAACTCCTATAAAGAATTGTTAGGACAAGAAGCTTTCTATAGAAGAAAAAAGGATTCTACTTCATTTACTCGTATTCGCAAACAAGAGGTGCCAAGTAATATCATTGATGAAAAATACGGTATCCATACTGTTAATAGCGACTATGAGATTAAAAAAGTATTAGAAGCTATTGAGGGTTGGCGTTACGCTATTGGAGTTCGAGACATCGATATTATGAGTTTTGAATTCGCTGAAACAAGTGAGTATATTAGTAAACCGTTTTTACTTGAAGATGGTATTAAGAAAGTACTTCTATACGCAAATGAAAAAGTTCCTCCTATGTACAAAGAGAAAGTAAGTGAATCTAATGATTGGATTCAGTACTTTGTTTCTTTCGATGACATAGACTGGCATAGAATTTCCCCACAACATCAGCAACCGGTAAACGATAAGTTCCCAGCAAAGATTCTTTCGATTAACGATAACGAGTCTGATATTGAAAATGCGTTTGCTCTTCACAAACAAAACCTTCAATTAAAAGAACTTCCAAAGCAAGTAAGATTAAAAATCATTATGAAGCGACCAGAGAAAACAACAGAAGATGAAATACCTCTTCTTCATACAACACCACTCGTTGAAGACTTCGCTTTAAAAATTCTTACAGAACAGAAAGGGGTGTAG	MNAPVIESKILEKQREYLLEQAKLRLSSSATKEEVSQLADEIFYRYQSCIGKPLFQAQKVVYGELPFLEDYYSNNKEMETDLGILFSELNTIATYLVDYFNYSQSEKDRILAIVRGINGIVSDLQMLTEETTPNTVYLKESFTNYDNVDTVLTPVENRSMIHTQEGVLTLRRTNALNRSIGSKVRTITGNGIAGTYYLSRKVKSDSEFENYEYVSSQIKNDDPKALIDGNPDTVFEFEMVNIPESYKKQVFYYDVEWAKGKEHDELLRVKIVVQLPKSETINWINLNPYHAAGSPGTVNVYSIRTSNDGIEYQGLFQNDQFVLNQEINKTPQSYRAEDLFDGSENFAKTKFSGQGVWSFPSREAKYIEFVLEQPNSYKELLGQEAFYRRKKDSTSFTRIRKQEVPSNIIDEKYGIHTVNSDYEIKKVLEAIEGWRYAIGVRDIDIMSFEFAETSEYISKPFLLEDGIKKVLLYANEKVPPMYKEKVSESNDWIQYFVSFDDIDWHRISPQHQQPVNDKFPAKILSINDNESDIENAFALHKQNLQLKELPKQVRLKIIMKRPEKTTEDEIPLLHTTPLVEDFALKILTEQKGV				NA	NA	NA	NA	NA
AK009_04048	2055			hypothetical protein	ATGTCTATTAACATTCGTCAAAAACGTTTTACTGTAGCGGTGAACAAAATCCTTCAGGAAGAACTTCGAAAGGGGAATCTTCCTACATCCAAGGAGTTCGGTTCTCGTTTAAATAAACTATTGAGAGATCAAGATTTAGGCGCTCCTGAGTACACGTTCAAGCGTATCCGTAATGGTGAACTAGCTGAGTCTGACTTCTACAATGAGGTTGTTGGTAAAATCCAAAAGGACTTGATGATTCTTTATGAAAATACAATCGCCGTTCATGATCAGTTAAAAGGAAAGTTTAATTGGTTTGAGGTAGAAAAGAATCGGTTAGAGTATGAGGCTAGAAGATTAGAGACGGAATTAAAAGAGAAGATCTTGTTGTATGGTAAGACGGGTTACTTAGCTAGTATCTTTGATACATTTGATGACCTGTCTAAAATCGATTCGGAAGACAATGTATCTATTGATATAAAGAACCATCAGATCACACTTAAGAAACAGGAGAATACTTCATTTTTAATTAATCCTGCTAGTGAAATTAAATTCGTTATGCCGAAGAACTCTGCAAGTACATTTAAAAAGATTCCTATTTCAGGGAAAATCGAACAATCCTTAAATGTAAATACAAACGAAACATTTCAAGAAGTATGGTTATCTAAAACAGAAGGTCCAGCTGATGGGTATGTAGATATTACATTCAATGGTAAACAAGTACTAAATCGAATTGATTTAAGCTTACATACCATTAAGGATGTCACGGTATACATTGAATTCACGTTAGATGGATTAAACTACTTCCACTTACCATATTACCCAGAAGGTAAACAAACGGGTAATAACGTATCTTTTTATTTCCCAACAACAGAAATGAAGAATATGAGAATTTGGATTCGTAAACAAGAGAGCGATAAAGAGCTTGTACATCCTGAAGGTTATTCATACCAGTACTTATTTGGAGTTAAGAAAATTCAATTCTTCCAACTAAGCTATCCGGAAAGAGGAGAGGTTGTTACAAAATTCCTTACTCCGAATACAGATGAAACATTCTCTATTGGGAAAGTATCATTAGTTACAGAAGAAGAGATTGCCGACGGTACAGATATTGAGTACTTTGTACGTGTAGATAATAGGGAAGAGAGTTGGAAACAAATATCTCCTGTTAACAGAGATACTGCACAAGCACCTAACCTAATTGATTTCAAGTACGTTGTTCATGCCAGTCCAACAAACTTAGGTATTCCAGAGAATACTGGTGGCCAAGAATCTGAGGTTATTGAATTACAAGCAAATGGAATCGCATTCTATACATTAGGTTCTATTGAGAAACGTAAGATCGTTCCGCGAACAGAGCGTATGTATATGGGTAAAGATGCTTGGAGTGTTCAGAAGACAGTTGAGAACTTTGGTGAAACTCATATCCCTTCATTAGATGACTGGAAACAACCATCAAATGATATTGTTCGAAATGTAATTCCAATTAAGGAAGGGAATCGTGGTTTGATTCTACAAGACGAACAGTTCACGCAACATACACAACTGTACTATGGAATGGGTATTTTCTATGAAGGAAAAGAACAAGTACTTCCTACGATTCCATCAGCTACAGAGCCAATTACTATCTTCTTAAATGGAGAAAAATTATTTGAGGGAATACCTTCTTCTCAAACCAATGTGAACTATAAGTTTAAGCAAGGATGGAATGACTTAACCGTGTTGGTATATGTACAGAGTTTAAACAAGGACTGTACGATTGATTTAGGATTTGATCCGATTCGTGTAAGTACGCATTGTTATTCTACAAGTCAGTTCTTAGAAAAGGTATCTGTATTCGACCTTCGATACAACACAAAGAATAATGATTGGTCTAAGTACGCTCTTTACGAGAAAGATGGAAAGGTCTATATTGTGGTTAATCATTCGTTACCTGGTGTAACATATGACCTTTACTATGACTATGTAGATGAAGTAGAACATCGAGATATCCAATTAAAAATTGCTATGAAACAATTCTCAGTAGGGCAATATACAACACCTGTATTACGTCGCTACACATTACAATTTAGTTAG	MSINIRQKRFTVAVNKILQEELRKGNLPTSKEFGSRLNKLLRDQDLGAPEYTFKRIRNGELAESDFYNEVVGKIQKDLMILYENTIAVHDQLKGKFNWFEVEKNRLEYEARRLETELKEKILLYGKTGYLASIFDTFDDLSKIDSEDNVSIDIKNHQITLKKQENTSFLINPASEIKFVMPKNSASTFKKIPISGKIEQSLNVNTNETFQEVWLSKTEGPADGYVDITFNGKQVLNRIDLSLHTIKDVTVYIEFTLDGLNYFHLPYYPEGKQTGNNVSFYFPTTEMKNMRIWIRKQESDKELVHPEGYSYQYLFGVKKIQFFQLSYPERGEVVTKFLTPNTDETFSIGKVSLVTEEEIADGTDIEYFVRVDNREESWKQISPVNRDTAQAPNLIDFKYVVHASPTNLGIPENTGGQESEVIELQANGIAFYTLGSIEKRKIVPRTERMYMGKDAWSVQKTVENFGETHIPSLDDWKQPSNDIVRNVIPIKEGNRGLILQDEQFTQHTQLYYGMGIFYEGKEQVLPTIPSATEPITIFLNGEKLFEGIPSSQTNVNYKFKQGWNDLTVLVYVQSLNKDCTIDLGFDPIRVSTHCYSTSQFLEKVSVFDLRYNTKNNDWSKYALYEKDGKVYIVVNHSLPGVTYDLYYDYVDEVEHRDIQLKIAMKQFSVGQYTTPVLRRYTLQFS				NA	NA	NA	NA	NA
AK009_04049	774			hypothetical protein	ATGAAAATCGAAAAGAAATATAAACCTTCCTTTCATAAAGCCAATGCTCGTTATCGTGGTGTAACTGAGCTTTCCCAATATACGAATTTTGTTCTTGAATCTGCTCATGACCTTTTACTATTAGGACACATTACAGAAGGAAATGAAGCAACGAATAAAGATGGCCACAAAAAAGAAATGTACAATAATTTCGTTTCTATCATGACAGGTGATCGAGAAGTAGGGAAGTCGAATGTATTTACGGCTTCCACGCTTCAAAAAATTGATTACTCGCGAACAGTTCCTGTTCCTGAATTAGATAGTTGGAGTCCATTAAATGGATGCACAAAAACAGCTGCCGGTGATGCAATTAAGCTTTCCTCAAATGGATTGTTAGACCCAGTAGGTATGTTTAGTACTCTTTATGTAGAACCAGGGGATAAGCTTTATATTCGTATGAAGGTAAGAAGTACAGGTGGTTCTGCTGATTTTACCTTTGGTTCAAACAATATGCGTATGGGACCAAATGCAAATGGTGACACAAGAAAGGTTCCTTTACCACAAAGTAATGAATTTATCACTATCGATTACGTGTTACGTTTCCAATATGCTGAATCAGTATCAATTAATATAAACGTTCATGAAAAACCGAATGTGTTAAAAGCAACAAATATCGAAGTAAAAGATCTTGAGATATATTACTTCAATGAAACACCAATTCAAGTCTCATCTTTTGATACAGTTATTAAACCAAATGTTGATGAACTAGAAGAAAAAATCAATTCGATACGATAG	MKIEKKYKPSFHKANARYRGVTELSQYTNFVLESAHDLLLLGHITEGNEATNKDGHKKEMYNNFVSIMTGDREVGKSNVFTASTLQKIDYSRTVPVPELDSWSPLNGCTKTAAGDAIKLSSNGLLDPVGMFSTLYVEPGDKLYIRMKVRSTGGSADFTFGSNNMRMGPNANGDTRKVPLPQSNEFITIDYVLRFQYAESVSININVHEKPNVLKATNIEVKDLEIYYFNETPIQVSSFDTVIKPNVDELEEKINSIR				NA	NA	NA	NA	NA
AK009_04050	1248			hypothetical protein	ATGCGCCCGATTACATTAAGAAATCCGAATCTAAATAAAGGGCCCAGCTCTTCTGAAGAATTTAATAAACTACGTAATGATATTCAAACTGACATTACTACTTTGTTTGATATTGTTAATGACCATGATGGTGTAATTTCTGAAAACATGGATCATATCTTACGTGAAAATTACTTCTTACAAAACCGTCTAAAGAAATTAGAAGGAAGAGTGTATGAGTTAGAAAAGGATTATCAGAACAACAGTATGGTAGGGGAGAGTATCCTTACTCGATCTTTCTATCATGCAAGCAATATCATTTCTTCAAACGCAAATAGCCCCGTTAATGTAGATACACTTCATGGAATTATTACCCCAGTTGTTGTTCGTTCTCATGATAAGATTGCCTATAAGAATGACTTAGGTGAATACATATTACCTAGTAATCTAGAAGTAAACGTATATGAGTCATCAGATGTAGAACCAATTGATGAAGAAACAAAACAACGTAAATTCTACGAGGTAGATTCTAGTGGTATTACAAAAGCATTTGATGGAGATAAGAACTCATTCTGGGTTCGTCAATCTGAGACAAATGAAAATAAATGTGTAACAGAAGTGTATGGATTGATTCATGTGAAAATCCCGCAAAACATTTCTAACAACATTTATACAAACACTATTACTCTTCATCCATCTCCAGAGTATTCTATGAGTGTTCTTGATATCCAATACAAGAATCAGAATGGGGAGTGGAGGCGTATTGAAACTTACCCAGTTAAAAAGGTAAATAATACAGACGTACCGGAAGAGATAGTTGAAGCTGGTAAGTTAGTATTTGCATTCCCAAGAAGACAAGTAACGGAATTACAAATCAAAGTAAAACAACCTTACTGGTTCAAGCATGACAATAAAAGAATCTTTATGTATGGATTCCAAGACATCGTTGTAGAGTATCGTGAGTATTCCCAAGATACTGCAGAGTTCACAACAAAGTTCTCATTAGAAGGAACAGATCGTCGTTTCACAAATGTAAACACACCAAAGGTAACAGTACCAGTTGGATGTCCACCATTTAACGACTATACTGTAAAACATGAATTGTACTTTGATGAGGGGTTAACGGAGAAGTTTGATTTCTCAACAGACATTTTCCAACCAATTCAATCTGTATATGTAAAAACACTTTTAAAAACAGCAGGAGATCAGGTACCATTCTTACGTGAGATTGAGTTACCTTACCGACATGAAGAATTAGAAGTACTATAA	MRPITLRNPNLNKGPSSSEEFNKLRNDIQTDITTLFDIVNDHDGVISENMDHILRENYFLQNRLKKLEGRVYELEKDYQNNSMVGESILTRSFYHASNIISSNANSPVNVDTLHGIITPVVVRSHDKIAYKNDLGEYILPSNLEVNVYESSDVEPIDEETKQRKFYEVDSSGITKAFDGDKNSFWVRQSETNENKCVTEVYGLIHVKIPQNISNNIYTNTITLHPSPEYSMSVLDIQYKNQNGEWRRIETYPVKKVNNTDVPEEIVEAGKLVFAFPRRQVTELQIKVKQPYWFKHDNKRIFMYGFQDIVVEYREYSQDTAEFTTKFSLEGTDRRFTNVNTPKVTVPVGCPPFNDYTVKHELYFDEGLTEKFDFSTDIFQPIQSVYVKTLLKTAGDQVPFLREIELPYRHEELEVL				NA	NA	NA	NA	NA
AK009_04051	207			hypothetical protein	ATGGGATATTTAATTGCGGCATTATTTTTACTAGTAATCACTTTTATTCTTTCACTCACTTTAAGAGGAAAACCTCAGGAACACGCTAAAGGAATGTTACATGAAATTCTAACTGGTTCTCTTGGGAAAATGTTATTAGGTGCTCTTATAGCACTTGTGATTATAGGAATATTTTTTGCTGGTATGATTTATGATTTAAACAATTAA	MGYLIAALFLLVITFILSLTLRGKPQEHAKGMLHEILTGSLGKMLLGALIALVIIGIFFAGMIYDLNN				NA	NA	NA	NA	NA
AK009_04052	669			hypothetical protein	ATGAAGATTTTAAACAAAGGACTCCTAGTAGCTTTTACAACAATGCTAGCATTTTCTTACACTGTACCTTCAAGTATTTCTTACGCTGATGAAAACAATACTGTCAATACTGTTAACACAGCTAATACTGAGGTTAGCAATGCAGAAGTTACTAAAACTAAAGAGCTAATGGATATTATTCAGGAATTGGATCAAAATTTAGACATGGAAAATCTATCTAATAATAATCCAGAAGATATTTTAAAGTTGAGTAAAACAGCACAAGATTTTTATCACTCATATAAAAGTATAAGCGATTCAAATAACGGAAGTGTAAGCGCAGACAGTGTAGTCAACCTTATAGCATCTAAAGTTAATGAAAACTCTATTAATAATAATCCAAATTACGCAGCACAGTATGCTGTAGTAAGATCAAAAGACTTTTATATCTCAAATTACCAAGTGAACCAAGTAGTAAAACTTGCCGGCCTGCATGGGACTGGATGGGGATTCGCAATTGCATTAGCTAAAAAATTTGGTAAAAGTCCTACCTGGGTAACACTAATGATTGTTGCTGTTCCAGCTTTAGGAGCGGCTACTCTTAATTATTGTAACAGTAAGAATAAGGGGGTTATTATCAATAGGCTTTCTATTGGTGCGACTCATAACTTTAGTTGTCGTTCACAATAA	MKILNKGLLVAFTTMLAFSYTVPSSISYADENNTVNTVNTANTEVSNAEVTKTKELMDIIQELDQNLDMENLSNNNPEDILKLSKTAQDFYHSYKSISDSNNGSVSADSVVNLIASKVNENSINNNPNYAAQYAVVRSKDFYISNYQVNQVVKLAGLHGTGWGFAIALAKKFGKSPTWVTLMIVAVPALGAATLNYCNSKNKGVIINRLSIGATHNFSCRSQ				NA	NA	NA	NA	NA
AK009_04053	216			hypothetical protein	ATGTTTTTTGAAAATGATAGTACTAAAAAGAAAAGTTCATCTAATAATGCATGTTGGATTACTTTTTGTTTTTGGGGACTTGTGTTATTTATAAATTCTATATTTGAGTTATTGTTTGATAGAGAACTTATATCTAGTTCCTTTCTAATACTTGTATTGGGTTTAATCATATTTTTTGCAAGTGATTTTATCATGAATAAAAAGACAAGGAATTAA	MFFENDSTKKKSSSNNACWITFCFWGLVLFINSIFELLFDRELISSSFLILVLGLIIFFASDFIMNKKTRN				NA	NA	NA	NA	NA
AK009_04054	150			hypothetical protein	ATGAATAAACAACAGAGTAAGAAAAAGACCATTGGAATTATGACACAAAACCGTGGGACTATGCCGCCACCAGCAAGAGCTGATAAAGCCAAAAAAGGTAAAGGTTCTTATTCACGTAAAAATTCTAAAATTGATTTAAGAGCAGTATAA	MNKQQSKKKTIGIMTQNRGTMPPPARADKAKKGKGSYSRKNSKIDLRAV				NA	NA	NA	NA	NA
AK009_04055	174			hypothetical protein	ATGAGAATTGATTTGTGTATGGGATACAACGAAACATTAGCAGTTAATTTCATCTTACTGGGTTTGTATGTTAAGGAGTTTACAGATTATGAAACTACATTAGACTTTATGTCGTCGTACACATTTGATGATGCGAAACATATTCAAATGAATCATCCGGAATTTTTATTGTAA	MRIDLCMGYNETLAVNFILLGLYVKEFTDYETTLDFMSSYTFDDAKHIQMNHPEFLL				NA	NA	NA	NA	NA
AK009_04056	300			hypothetical protein	ATGTACGCTCCAGGTCATATATCTCGTGAAGATGAAGCGAAAATTCCTTCATTTTCTAGCCATGATGAAGCTCGTGATTGGTTTATAAATAAATACGGCAATACTTTTCAATTAGTAGGTTCTGAACCCATCGATGACCAAGAATGTTATTTTTACTACTTGATCTTAGATGAAAAAGAATTCACTAAGGGTCGAGAGATTTTGCTAAAGCATGGAATGCTTGTAACTTCAATGGAATACTTAGGTAGTTATCAAAGTATCGAAATATTTGAGGACGGTAGAATTCATATTGTTCATTAG	MYAPGHISREDEAKIPSFSSHDEARDWFINKYGNTFQLVGSEPIDDQECYFYYLILDEKEFTKGREILLKHGMLVTSMEYLGSYQSIEIFEDGRIHIVH				NA	NA	NA	NA	NA
AK009_04057	471			hypothetical protein	ATGGAAGATATTAAATTTTATGCGCGTGTAAAAAACAAATGGGCTCGTAGACGTAGTGGACTGAAGAATCCTGTATTATCTGAGCTATATGATGCTACGAATAAACTAAATGAGAAATATGGTGTGAAACACTGGGCATTCCCAGCAGGTATTAACCCAGAAGATTATCCTGAATTGTTAGCAATGGAGGAGGTAGTGACAAGTCATGTAAACCATTACTCAAATGACTTTTACCTTCATGATCTTCATGCGTATCTAACAGGGGATAAGAAGGCTCTTTGGTTATTAAGAAGTAGTGGCACTCATTATATTCCTTTAGAGGATAAGTTTAATCCAATGTATTTCGATTTATACAAGTCATACATTGTGGGGAATAAGTATTTCTACCTAATCAATAACGGAGAAATTCAGAAAATTACAGCAGAAAAAGCAAATGCAATTATACAAGAAAAGCTATTTGTTGCTGCATAA	MEDIKFYARVKNKWARRRSGLKNPVLSELYDATNKLNEKYGVKHWAFPAGINPEDYPELLAMEEVVTSHVNHYSNDFYLHDLHAYLTGDKKALWLLRSSGTHYIPLEDKFNPMYFDLYKSYIVGNKYFYLINNGEIQKITAEKANAIIQEKLFVAA				NA	NA	NA	NA	NA
AK009_04058	276			hypothetical protein	ATGGTTAAACTAGCCAGAGGAACAGCTGTTAAAGTTGATTTTGTTAAAAATTCCGTGACTGGGCATACTAAAAAAAAGGTGCGTGGTGCTATGGTTAACAGAATAAAAATGGATAGGTTCGAAAGAGGGTTCCCTGACGGAGTATATGTGGAACCAAGCGACAAAAAAGAACCGAGAATAAAAGTAAAAGCTTTGTTTGAATACTGTAATGAACGTGGAGTAAAGCCCAAAGATTTAACAGATGAAGAAAGAGAACAATTCTTAGTATACGAATAA	MVKLARGTAVKVDFVKNSVTGHTKKKVRGAMVNRIKMDRFERGFPDGVYVEPSDKKEPRIKVKALFEYCNERGVKPKDLTDEEREQFLVYE				NA	NA	NA	NA	NA
AK009_04059	534			hypothetical protein	ATGATATACAATTTAAAGACAAAAAGATTCAATGATTGTTATTATCGCAAAATAAATCTTAATAATGTAGGGAAGTACGTTCCGCCTAAATGGTTTTTTAATTTTAAGCACGATCTTGAAGAAGGGTACGATGTATTTACTGTAGAAACGTTAGAGTATCCGGGAGAGGCTCAAGGGGTTATATCTCTTCAAGCACGCATACATGAATCTACTGTTTATGTTAAATCTATAGAGGCAGCTAATCATAACAAAAACTTCACTAGGAGTAGAAACAGGAATGATATTAATACAAATAGAATATACAAAGGTATAGGCTATAATTTAGTATCATTTGCTTGTCAATACAGCTTAGAGCAGGGCTGTGGAGGACATATGTATTTAAAATCTAAAACAACTACAACAAGATTCTATACACAACACCTTAAGGGTGAGCACTTATATGAGGGAAGTCAAGAAATTGTATTTGATGAAAAAGCAGGTATGGACTTGGCCAAAACACATTTTCCGGGAGGTGCAATACAATGGTTAAACTAG	MIYNLKTKRFNDCYYRKINLNNVGKYVPPKWFFNFKHDLEEGYDVFTVETLEYPGEAQGVISLQARIHESTVYVKSIEAANHNKNFTRSRNRNDINTNRIYKGIGYNLVSFACQYSLEQGCGGHMYLKSKTTTTRFYTQHLKGEHLYEGSQEIVFDEKAGMDLAKTHFPGGAIQWLN				NA	NA	NA	NA	NA
AK009_04060	276			hypothetical protein	ATGTTAGAAGTATCTACTGCACATATAACTTACGAAACAGCTAAATGGCTAGATAGACAAGTCGAAGAAACAAAAGAGAATAAGATGGAACTTATTGTTTATGAAAAAGGTGAGTATGGAGCATTTATCCCTCTGTATCCAGAAATGTTTGCAAGTAAAGTACTACCAGAGTCATTGGTGTTCATATTTGGATACGCAATGGGAAAGGGTTGTTCTTGGATTATGCTTGATAGAGATATTGAAATAATTGATGATTTACCCACGTACAATTGGTAA	MLEVSTAHITYETAKWLDRQVEETKENKMELIVYEKGEYGAFIPLYPEMFASKVLPESLVFIFGYAMGKGCSWIMLDRDIEIIDDLPTYNW				NA	NA	NA	NA	NA
AK009_04061	1242	yhaP_2	COG1668	putative protein YhaP	ATGAGTAGTTTCTGGACAATTTTTTTACAAAACTATAAATCTAAAGTGAAATCAAAATCATATTTTGCTATTACAATAATAGTTTCTATGTTAATTATAGGATTGATGAATTTTGACAAGATTTATAACTTGTTTGCAGGTAACGAGGACGATCAAGTTGTTGTTGTAACAGAAAAAGAAGAATTATATTCAACCATTCATCAAGTGTTTAAAAATGTCGATAGTAAGATACAAGTTAAACGTAGCACGGATAAACAAAAAGCAGAATCAGGTGTTAAAAATGGTGATTATACATATGCAATCGTTGTAGAGGAATTGAATAATAAACAATTAAAGGCTACGTATATAACTGAGACGGATGTAAATCAGCAAGATGTTAGCAAGGTTCAAACGATTTTATCTCAAATACAATCTTCTAACTTCGCCCAGCAATTGAATCTATCGCAAGATGAATTAAAGGTGTTAACAACGCCAGTAGAAATTCATACCAAAACGGTTTCAGATAAGGTTAAAGATGGAGAACATACTGAGGGTGTAGGGATTTTAATTAATGTCTTTATCATGCTAAATTATCTAATGATATTAATGTATGCTGCACAATTAGCAACAGATGTTGCAACAGAGAAATCTTCTCGTGTTATGGAGTTAGTTGTTTCAAGTATTTCGCCTACCAAACATTTATATGCGAAGCTATTCTCGACATTATTGGCTGGTATTACGCAAATCATAATTTGGGGCTTGGTCGCAACTGTTGGATATAAAACAGCAATTAATGATTCGAAAAATGATATTTTAAATAGTATTGATTTAAATTCTGTTGCTCCAACTCTAGTGTTTTATGGGATTCTATTCTTCACATTAGGATTCTTATTATATGGCTCATTATCTTGTCTATTTGGCTCTATCATTACGCGTATAGAGGAATCTTCTCAAGCTGTTATGCCGCTGATGTTTATGTTACTTGCTGCTTTGTATATTGCAATTTATGGAATGTCAAATCCAAGCAGCATGGTTGTTACCATTACTAGTTATGTACCTTTCTTTACTCCTATAGTTATGCTTGTACGAATTGGATTCCTTAATATCCCAGTATGGGAGATTGCGCTAGCATTAGGGATTCTAATCGCAACAATATGTATAATGATTGGTTTAACGAGTCGTGTTTACCGCGGTGGCGTATTAATATATGGTAAAGGTGCATTTAGTAATATCAAAAAGGCAATCAAGTTAGGGCAAAAATAG	MSSFWTIFLQNYKSKVKSKSYFAITIIVSMLIIGLMNFDKIYNLFAGNEDDQVVVVTEKEELYSTIHQVFKNVDSKIQVKRSTDKQKAESGVKNGDYTYAIVVEELNNKQLKATYITETDVNQQDVSKVQTILSQIQSSNFAQQLNLSQDELKVLTTPVEIHTKTVSDKVKDGEHTEGVGILINVFIMLNYLMILMYAAQLATDVATEKSSRVMELVVSSISPTKHLYAKLFSTLLAGITQIIIWGLVATVGYKTAINDSKNDILNSIDLNSVAPTLVFYGILFFTLGFLLYGSLSCLFGSIITRIEESSQAVMPLMFMLLAALYIAIYGMSNPSSMVVTITSYVPFFTPIVMLVRIGFLNIPVWEIALALGILIATICIMIGLTSRVYRGGVLIYGKGAFSNIKKAIKLGQK	PGPT0006730_3492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_04062	900	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGAGTTTACTAATTAAAGATTTAACAAAGAAATTTGACGAGCATGTTGCAGTGAATAATTTGAATATCGAGATACCAAAAGGTGAAATATTTGGATTCTTGGGCGGGAATGGAGCAGGTAAAACGACTACATTTCGAATGATACTTGGACTTTTATCGAAATCAAGTGGGACCATTTCATGGAATGGTAAACCTATAAATTATGGTGTTACAGATAAAATTGGGTATTTACCAGAAGAACGTGGTCTTTATGCGAAAATGACTGTCAAAGAACAAGTTAACTTTTTTGCAAAACTAAAGAACATGAAAAGTAAAGATGCAGAAAAAGAACTTCACTATTGGCTGGAGCGTTTTAATATTACTGAGCATCTGAACAAAAAGGTAGGAGAACTTTCTAAAGGGAATCAGCAAAAAATCCAGCTGATAACAGCGATTATACATAAGCCTGAACTCTTAATTTTAGATGAACCATTTAGTGGTTTAGACCCAGTAAATGTTGAAATGTTAAAAGACGCTGTTCTTGATATGCAAAAACAAGGGTCGTCAATTCTTTTTAGTTCACATCGTATGGAACATGTGGAAGAGTTATGCCAACACATTTGTATTATGCACAAAGGTGTACCTGTTGTTCAGGGTGACATTGCCAAAATTAAAAGTGATTTTGGTAAAAAGAACGTTGTAATCGTTGGCGATCATGACTTTGACCATTTGAAAGAAATAAAAGGTGTAGAAAGTATGAAGAAACGTAAAAATGCAGTTACTCTTAAAATTTCATATGAAGAAGTGTCACATGTTTTATTTAAAGAGATAACAAAATTAGGGTATGTTAAAAAGTTTGCAGTAGAAGAGCCTACATTAAATGATATCTTTATTGCGAAAGTAGGTGCACAAAATGAGTAG	MSLLIKDLTKKFDEHVAVNNLNIEIPKGEIFGFLGGNGAGKTTTFRMILGLLSKSSGTISWNGKPINYGVTDKIGYLPEERGLYAKMTVKEQVNFFAKLKNMKSKDAEKELHYWLERFNITEHLNKKVGELSKGNQQKIQLITAIIHKPELLILDEPFSGLDPVNVEMLKDAVLDMQKQGSSILFSSHRMEHVEELCQHICIMHKGVPVVQGDIAKIKSDFGKKNVVIVGDHDFDHLKEIKGVESMKKRKNAVTLKISYEEVSHVLFKEITKLGYVKKFAVEEPTLNDIFIAKVGAQNE	PGPT0006725_14335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_04063	213			hypothetical protein	GTGGTATACAATTCACTGTCCTATAGCATAAACGATAATAACGAAAGCTATTTGAAGTCCTTTGAAGGAAATAAGTTATTAAAAAAGATTCCATATAGAAAATTTGTTGAAATTTCAGATGTAACAAATGTCATTTTATTTTTAATGTCTGATAAAAGCGATGCCATTAGAGGGCAAAATATTGTGGTTGACTATGGATATACAATTGTATAA	MVYNSLSYSINDNNESYLKSFEGNKLLKKIPYRKFVEISDVTNVILFLMSDKSDAIRGQNIVVDYGYTIV				NA	NA	NA	NA	NA
AK009_04064	597			hypothetical protein	GTGCAAAAGATAAAGAGATTATTGCTATTAATGATGGTAGTAGGATTAACAGCGGTTGTTTTAGCAGGGTGTGCAAATCCGAAAGATACTACAGAAGAATTTTTAACAGCGATACAAAAAGGTGATGTAGAAAAGGCTCGTACATTTGTTGAGAGTGACAAGGAATTTAATAAACTAAATGAAAAAACAGATGATGCTGAGGCAAAAGCAATGCTAAGTGCAATTACAAAGAACTTTAAATTTGAAAAGCTAGAAGAAGTATCGAAAAAGGATGACAAAGCAGAAGTGAAAGTGAAAATTACATCTGCTGATCTATCCGTTGCTGTAACAAAAGCAGTGGGAGAAGTTATGCCAATGGCCTTCGCTAGCGCATTTAGCGAAGACAAAGAACAATCTGAAAAAGCGATTGAAAAAACAATGACCTCAACTATCATCAAAAACTTAACGGATAAAGATGCAGCCATGGCAACTCGCGAAGTTACATTGAACTTAAAGAAAGACAAAGATGGCGACTATAAAATCGTTGCTGACGATAACTTGAAAGAAGTATTGTTTGCCAATGCAAAGTCTTTGGAGAAGATGTTTGGTGGGAAGTGA	MQKIKRLLLLMMVVGLTAVVLAGCANPKDTTEEFLTAIQKGDVEKARTFVESDKEFNKLNEKTDDAEAKAMLSAITKNFKFEKLEEVSKKDDKAEVKVKITSADLSVAVTKAVGEVMPMAFASAFSEDKEQSEKAIEKTMTSTIIKNLTDKDAAMATREVTLNLKKDKDGDYKIVADDNLKEVLFANAKSLEKMFGGK				NA	NA	NA	NA	NA
AK009_04065	363			hypothetical protein	ATGAATAAAAAAACTATCTTCTATTTATTAACTTGTATACTACTTGTAGCTAGTACTACTTATATAATATGTAACAAAAGAGAACAAGTGCCACCTATATTAGTATGGGACGAACAAGAATACTATGTTACGAATGAACCTGCCAAAGTAGAAGAAGTTGGGCAAAAACTTGGCGAAGTAACAAAGAAAATTAAAACAAGTAAAAACCCTACTAAAAATAGAGAATCTAATACATTACAAGAGAAAACAGAAGTGTTTACAATGATTGAGGAAGAAAAAAGTGAATATCCGCCTTTAATCATAAAGGAAGCTTATAGTGATGAATATAGGGTAGTGAGGCCGATGTTGAAGCAAGTATTATGA	MNKKTIFYLLTCILLVASTTYIICNKREQVPPILVWDEQEYYVTNEPAKVEEVGQKLGEVTKKIKTSKNPTKNRESNTLQEKTEVFTMIEEEKSEYPPLIIKEAYSDEYRVVRPMLKQVL				NA	NA	NA	NA	NA
AK009_04066	183			hypothetical protein	ATGCAAATGATGTATGCTTTTGGCATTGGGCTTGTATTATTTTTAGCCGTATTCTTATTTATTCGTAAAGATGTTCAAGGTGGGACATTAACGAAGCGAGGATTTTATAAATTAATCGGCTGTTTAGTTGTTATGCTTATAGCGATTATTGTAATGATCGTATTAATTAATCAGTCACTATAG	MQMMYAFGIGLVLFLAVFLFIRKDVQGGTLTKRGFYKLIGCLVVMLIAIIVMIVLINQSL				NA	NA	NA	NA	NA
AK009_04067	378			hypothetical protein	ATGAACTATTCACAAAAGTACTTTGTAATCATGGGAATTATCTTTCTATTTATGAGTGGATTTATGATATTAACAGGTATAATGACGCATTCTGCACCGCCGGCTATAACGTATCCATTGCTTGGGATGATGATTATGAGTTTCTGCCTAAGCTACTTACACCCACAATTTAAAGAAAAAGATGAGCGAATGAAATTCATTCGTTATAAAGGAATGTTTGTAACCTTTTTTGCATTAACAGTATATTATCTTCTTTTCTCTATTGGCTTAAACTTAAAAATACTTACACTATCTGCTACTGAATTATTGAATATACTTATGGCACTTACGATGAGTACCGTCTTTATCTCATTTGTTGTTTTGGCAAAAAGATATTAA	MNYSQKYFVIMGIIFLFMSGFMILTGIMTHSAPPAITYPLLGMMIMSFCLSYLHPQFKEKDERMKFIRYKGMFVTFFALTVYYLLFSIGLNLKILTLSATELLNILMALTMSTVFISFVVLAKRY				NA	NA	NA	NA	NA
AK009_04068	198			hypothetical protein	ATGGTCGAATACCGAAAGAAATTTGGACTATCTCAAGAAAAACTGGCCGAGAAACTCGGGGTTTCCAGACAAACCATTATCTCAATTGAAAAAGGGAAATACGATCCATCACTTCCGCTAGCATTTGAAATAGCAAAAACATTTCAGACAACGATAGAACATGTATTTATTTATGAAGGAAAAGAAGGGGAGGAGTAA	MVEYRKKFGLSQEKLAEKLGVSRQTIISIEKGKYDPSLPLAFEIAKTFQTTIEHVFIYEGKEGEE				NA	NA	NA	NA	NA
AK009_04069	2868	odhA		2-oxoglutarate dehydrogenase E1 component	ATGACGAGGAAGAATACAACGACAAACCCTTGGGCCAAGTTCCACGGTCCGAACCTTGGTTATGTGATTGAACAGTATGATCTTTACGTAACTGGAGCAGGTTCTGTTGATCCGGAATTACAAGAGCTTTTTGAAATTTTTGGAGCTCCTTCGTTTCAAGATGATGTCGTAACAGGGGACAACACAGCAACACATTTTTCTCCTCAAAACACAGGTAACATTGAAAAAATTCTTAAAGTCGTTCAACTTGTTGAGCAGATTCGTTCTTTCGGGCACACGTTGGCTCACATCAACCCGATGGAAGATGCTGCAAATGGACAATCTCTTCTTGAGAAAGCAATGAACGAACTGAGCGATGCTGACTTGAAAGCGATTCCAGCGAAAACAGTATGGCAAGATGCACCAGAAGGTATTCACACTGCACTTGATGTAATTCATAGATTAAAAGACGTTTATACAAAATCTTTAGCTTATGAATTTTCTCATATACAAGATAGTGAAGAACGCACGTGGTTGCATCAAATGGTGGAATCAAATTCATTGCGTCAACCACTATCAAATAAAAAACGAACTGCTCTTTTAAAACGTTTAACAGCTGTTGAAGGTTTCGAGCAATTCTTGCATAAAACATTCGTTGGGCAAAAACGTTTCTCTATCGAGGGCGTTGATATGCTTGTGCCTGTTTTAGATGAAATTGTTCTAGAAGGTGCTAAGAACGGTGTAGAGGATGTCATGATTGGTATGGCTCACCGCGGTCGTCTAAGCGTACTTGCTCACGTATTAGAAAAACCATATAGTCACATGTTTGCTGAGTTCAAACATGCAAAAATAGAAGGCGCAGTAGCCAATTCTGGCTGGACTGGCGACGTAAAATACCACCTAGGTAGAGAACAAGTCGTTAGTAACGAAGAAGTTAGCACTCGCGTGACATTAGCAAATAACCCGAGTCATCTTGAGTTCGTGAATCCTGTAGTAGAAGGTTTCGCACGTGCTGCTCAAGAGAATCGTAAAAAATCTGGTCTTCCAGATCAAGATATTTCAAAATCATTCGTAATTTTAGTTCATGGTGATGCTGCATTCCCTGGTCAAGGTATTGTATCTGAAACGCTCAACTTAAGCAGATTGAACGCGTATCAAACAGGCGGAACGATTCATGTTATCGCAAACAATGCAGTTGGTTTTACAACTGATAGCTATGATTCTCGTTCTACGAAATATTCAAGTGACCTTGCAAAAGGTTTCGATATTCCGATTGTTCACGTGAACGCTGATGATCCAGAAGCTTGTCTTGCAGCTGCTAACCTTGCGATTCAATATCGCATGTTGTTCAAAAAAGACTTCTTAATCGATTTAATCGGTTACCGTCGATATGGTCATAACGAAATGGATGACCCAGCGGTTACGCAACCACAAGTGTACAAAAAAATTAAAAATCACCCAACTGTAAGAGCAATTTATGCAGATCAATTACAAGCTGCTGGTGTTCTAAATGCAGATGAGGTTGAAACAATTACTCAGTTTACGCAAGAACAATTAAAATCCGATTATGCACAAGTACCGCCAGCTGATACGAGCGATGCAACAATTCACGTTAAAGTGCCAGATGTTGTTGCAAAAGGCATTCAACCAATTGATACTGGTGTTGAGATTGACTCACTTCGTGCAATTAATGAAGGTCTACTATCTTGGCCAGAAGGCTTTAACGTATATCCGAAAGTGAAGAAAATTCTTGAGCGCCGTAAAGATGCTTTAGACGAGAACGGTAAAATTGAATGGGCACTTGCTGAGTCATTAGCATTCGCTTCTATTTTACAAGAAGGTACGCCAATTCGTTTAACTGGTCAAGATTCACAGCGTGGTACATTTGCGCACCGTCATATCGTATTACACGATACTGATACAAATGAAACATATTCACCATTACATCGCTTACCAAACATTAATGCATCATTCTCTGTTCATAACAGTCCGTTATCAGAGGCTGCTGTTGTTGGTTACGAATATGGTTATAACGTATTCGCTCCAGAAACTCTTGTTATGTGGGAAGCGCAATATGGTGACTTTTCAAATACTGCGCAAGCATTATTTGATCAATATGTTTCAGCTGGAAGAGCAAAATGGGGTCAAAAATCTGGTTTAGTTCTTCTATTACCACACGGTTATGAAGGTCAAGGACCAGAGCACTCTAGTGCACGTCCAGAGCGTTTCTTACAGTTAGCTGCTGAGAATAACTGGACAGTTGCAAACTTAACGAGCGCGGCACAGTACTTCCATATCCTGCGTCGTCAAGCATCTATCTTAGGAACAGAAGCTGTTCGACCATTAGTACTGATGACGCCGAAGAGTTTATTACGTCACCCACTTACGCTTTCAACTGCTAGTCAGTTAAGCGAAGGACGTTTCCAACCTGCTTTAGAACAAGAAAACCTTGGCACGAAACCAAATAAAGTAAAACGTCTTGTTTTAAGCACAGGTAAAATGGCGATTGACTTAGCAGCAGAAATCGAGTCTGGTAAACATGAGTACAACTTAGACGAAGTTCATGTCGTTCGTATCGAGCAATTGTACCCATTCCCTGCTGAGAAAGTTCAATCTATTATTAAACGATTTAAAAACTTAGAAGAAATCATTTGGGTTCAAGAAGAACCTCGTAATATGGGCGCATGGCATTACATGGCTCCAATTCTGTTCGAACTTGCTGGAGATAAAGTGAAAACAGGTTACATTGGACGTCCTGATCGCTCTAGTCCATCTGGCGGCGATCCATTCGCTCACAAAGCCGAGCAAGAACTAATTGTTGCACACGCTTTAGATGTGAAGTATAACTTCCGTCAAGATAAACAAGAAATTGAAGTTTTCAGCAACTAA	MTRKNTTTNPWAKFHGPNLGYVIEQYDLYVTGAGSVDPELQELFEIFGAPSFQDDVVTGDNTATHFSPQNTGNIEKILKVVQLVEQIRSFGHTLAHINPMEDAANGQSLLEKAMNELSDADLKAIPAKTVWQDAPEGIHTALDVIHRLKDVYTKSLAYEFSHIQDSEERTWLHQMVESNSLRQPLSNKKRTALLKRLTAVEGFEQFLHKTFVGQKRFSIEGVDMLVPVLDEIVLEGAKNGVEDVMIGMAHRGRLSVLAHVLEKPYSHMFAEFKHAKIEGAVANSGWTGDVKYHLGREQVVSNEEVSTRVTLANNPSHLEFVNPVVEGFARAAQENRKKSGLPDQDISKSFVILVHGDAAFPGQGIVSETLNLSRLNAYQTGGTIHVIANNAVGFTTDSYDSRSTKYSSDLAKGFDIPIVHVNADDPEACLAAANLAIQYRMLFKKDFLIDLIGYRRYGHNEMDDPAVTQPQVYKKIKNHPTVRAIYADQLQAAGVLNADEVETITQFTQEQLKSDYAQVPPADTSDATIHVKVPDVVAKGIQPIDTGVEIDSLRAINEGLLSWPEGFNVYPKVKKILERRKDALDENGKIEWALAESLAFASILQEGTPIRLTGQDSQRGTFAHRHIVLHDTDTNETYSPLHRLPNINASFSVHNSPLSEAAVVGYEYGYNVFAPETLVMWEAQYGDFSNTAQALFDQYVSAGRAKWGQKSGLVLLLPHGYEGQGPEHSSARPERFLQLAAENNWTVANLTSAAQYFHILRRQASILGTEAVRPLVLMTPKSLLRHPLTLSTASQLSEGRFQPALEQENLGTKPNKVKRLVLSTGKMAIDLAAEIESGKHEYNLDEVHVVRIEQLYPFPAEKVQSIIKRFKNLEEIIWVQEEPRNMGAWHYMAPILFELAGDKVKTGYIGRPDRSSPSGGDPFAHKAEQELIVAHALDVKYNFRQDKQEIEVFSN	PGPT0001530_1586	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
AK009_04070	1239	odhB		Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGATCGAAATTAAAGTACCTGAGCTTGCAGAATCTATTACCGAAGGAACTATTTCACAATGGCTTATCAACGTAGGCGACAAAGTTGAGAAAGGCGGCAGCGTTGTTGAGCTTGAAACTGATAAAGTCAATGTAGAAATCATTGCAGAAGATTCAGGTATTGTATCGAAGTTACTAGGCGAACCTGGGGATACAGTTGAAGTTGGCGCAACTATCGCAATTTTAGATGCTAATGGAGCACCAGTTGCAGTAAGTACACCTGCACCACCTGCTGAGCAAGCAAAACAAGAAACAGCTGAAGCACCGAAAGCTGCGGCTCCAAATGCTGAACAAACTACGAGTCTACAAGGCTTACCAAATACGAACCGTCCTATCGCATCACCAGCTGCTAGAAAAATGGCTCGTGAATTAGGAATCGACTTAAACGACGTACGTAGCACAGATCCACTTGGACGCGTGAGACCACATGATGTACAAGCTCATGCTGCAGCACCAAAAGAAGCACCAGCTGCTCCAGTTGCAAAAACAGAATTCGAAAAACCAGTTGAGCGCGTGAAAATGTCCCGCCGCCGTCAAACAATTGCAAAACGTCTTGTAGAAGTTCAACAAACATCTGCAATGTTAACAACATTTAACGAAGTTGATATGAGTGCGATCATGGAATTACGTAAAGAGCGTAAAGACGCTTTCGAGAAAAAACATGATGTACGTCTTGGCTTCATGTCATTCTTCACAAAAGCAGTTGTTGCAGCATTAAAACAGTTCCCATTATTAAATGCTGAAATTCAAGGTGACGAGCTTATCATCAAAAAATTCTATGATATCGGTATTGCAGTAGCAGCTCCAGATGGATTAGTTGTTCCAGTTGTACGCGATGCTAACCAATTAAACTTCGCTGAAATCGAAAGTGAAATTCGTAATTTAGGTATGAAAGCACGCGATAACAAACTTTCATTAAAAGAACTACAAGGTGGTACATTTACAATTACAAACGGGGGTGTATTCGGTTCTCTAATGTCAACACCAATCCTAAATAGCCCTCAAGTTGGTATTTTAGGAATGCATAAAATCCAAGTACGCCCAGTTGCAATTGATAACGAGCGTATGGAAAACCGCCCAATGATGTACATTGCTTTATCTTACGATCACCGTATTGTTGATGGTAAAGAAGCAGTTAGCTTCCTTGTTGCTGTTAAAGATATGCTTGAAGATCCAAAATCATTATTATTAGAAGGTTGA	MIEIKVPELAESITEGTISQWLINVGDKVEKGGSVVELETDKVNVEIIAEDSGIVSKLLGEPGDTVEVGATIAILDANGAPVAVSTPAPPAEQAKQETAEAPKAAAPNAEQTTSLQGLPNTNRPIASPAARKMARELGIDLNDVRSTDPLGRVRPHDVQAHAAAPKEAPAAPVAKTEFEKPVERVKMSRRRQTIAKRLVEVQQTSAMLTTFNEVDMSAIMELRKERKDAFEKKHDVRLGFMSFFTKAVVAALKQFPLLNAEIQGDELIIKKFYDIGIAVAAPDGLVVPVVRDANQLNFAEIESEIRNLGMKARDNKLSLKELQGGTFTITNGGVFGSLMSTPILNSPQVGILGMHKIQVRPVAIDNERMENRPMMYIALSYDHRIVDGKEAVSFLVAVKDMLEDPKSLLLEG	PGPT0001535_1887	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
AK009_04071	1920			hypothetical protein	ATGAATAACCTTCCAATTCATGCAAAACTTAAAGTAAATAAGGATACTTTCTTCCTGCCCCATTCAAACGGGGGTGTCTATTTTCGAAATAACGCCAGTTCATTTCGCATGGACGGTGATGGAATTTATGACTGGATTGAAAAATTAATGCCAATGTTTAACGGTAATTATTCTTTAGCAGAAATAACTGATGGTCTCCCTCTCCCCTATCAAAATCGTGTATTTGAAATTGGAGAGGTTTTATATGAAAATGGTTTCGTTCGCGATGCAAATCAAGATGCACCTCATGAATTAAACAGTACATTACTCGACAGATATGCTTCACAAATTGAATTTTTAGAAGCTGATTCTCATTCAGGTGCTTTAAAATTTGAAACGTACCGCGGAGCAAATGTCCTTGTACTTGGCTCCGGAGATATGCTTACTTCTTTAGTTTCTTCTTTATTAGAATCTGGTTTACCTACATTTCATTACCTCGTTACAGATCGAGATGAAACAAACTATGACAGAATACATGAGCTAATAGAACGTGCATATGAAGTTGATAACGGTGTACTCATTCAAGAAATCGATACTACAATTGACCGTCCCTTGCATGAAGTATTCGAACCTTTTGATTGGATTTTATATGTTTCTCAAAATGGAGACATTGACGGTTTAAAAACAGTTCACACTATTTGTAGAGAAACGAAAAAGAATTTTATACCAGCTATTTGTTTATCAACACTCGGTATAGCTGGACCTGTCGTAACGGAAAATCGTGATGAATGCTGGGAATCCGCATGGCATCGGCTACATGAAACGACTTTGCAAAATGAAAATTCATCAGATTCCTTCTCACCACTTACATCTGCAATGTTAGCAAATGTAATCGTTTTTGAATTGTTTAAACATGTCGCGGATGATTTATATCGTGAAAAAGAATTACAATTCTTTTTATTAAACTATGAAACACTTGAAGGAACGTGGCATCCTTTTATAAAACACCCTCTTGCAACTGATGAAAGTTTTACAATTGATACGATAGAAAATCTTTCTGAAAAACTTGAGCATCGGTCCAACCAACATACTTCAACTGATGTATTCCGCTTTTTCGACTCATTAACTTCTAAAGAAGCCGGTATATTCCATGTATGGGATGAACAAGATTCATATCAATTACCGTTATCACAATGCTATATTCAAGTAGCCAATCCATTATCAGATGGCCCAGCTCCCCTTCTGCCTCTTATGACTCGCAGTGGATTAACTCATAATGAAGCACGCCGAGAAGCTGGTTTAACAGGAATTGAAACATATGTAGCAGAAATCATTCACCGCCTTATTCCTGAACATAACGATATCGGTATTGGCGCTGGAGAAACGATGACAGAAGGATTTTACCGGGCACTACAACAACATTTAAATAATAAATTGTATGAACGGCAGTCACATATGCTAGAAGAACTTACAACGATTGATTTAACTGATATTCACGATAAACATTGTAGATTTTATTACGATGCCCTTGCTACAATTCATGAAACACCTAAAATCGCAATGAGTGAAGAGATTCTCAGTTTTCCAGTCGTTTGGGTTGGTATAAATGATAAATGGTACGGTGCATCTAATATTAATATGACGTTAGCGTTACGGAGCGCACTACAACTATCACTGCTCCACATTCAAAGTGAAGAGACTCCTTACAGAGCTAATATCTTGCCTGAATCATCTATTATTTTATATGACACGGATTCTTTTAGGGTGGAAATACAAGCGGAAGAAGAAATTCCAAGTGTGCAATCTTTACAGCTTGCCTTACAGCATTTAGAAGAACATAATTTTTATCCCTTCGTGTTTGATTTAGCAATCGAACCATTTTTGAAAGAAAACTTAGACGGTGTGTATGGCGTATTAATTGCAAAGGAGGACGGTCTATGA	MNNLPIHAKLKVNKDTFFLPHSNGGVYFRNNASSFRMDGDGIYDWIEKLMPMFNGNYSLAEITDGLPLPYQNRVFEIGEVLYENGFVRDANQDAPHELNSTLLDRYASQIEFLEADSHSGALKFETYRGANVLVLGSGDMLTSLVSSLLESGLPTFHYLVTDRDETNYDRIHELIERAYEVDNGVLIQEIDTTIDRPLHEVFEPFDWILYVSQNGDIDGLKTVHTICRETKKNFIPAICLSTLGIAGPVVTENRDECWESAWHRLHETTLQNENSSDSFSPLTSAMLANVIVFELFKHVADDLYREKELQFFLLNYETLEGTWHPFIKHPLATDESFTIDTIENLSEKLEHRSNQHTSTDVFRFFDSLTSKEAGIFHVWDEQDSYQLPLSQCYIQVANPLSDGPAPLLPLMTRSGLTHNEARREAGLTGIETYVAEIIHRLIPEHNDIGIGAGETMTEGFYRALQQHLNNKLYERQSHMLEELTTIDLTDIHDKHCRFYYDALATIHETPKIAMSEEILSFPVVWVGINDKWYGASNINMTLALRSALQLSLLHIQSEETPYRANILPESSIILYDTDSFRVEIQAEEEIPSVQSLQLALQHLEEHNFYPFVFDLAIEPFLKENLDGVYGVLIAKEDGL				NA	NA	NA	NA	NA
AK009_04072	1950			hypothetical protein	ATGACTCAAAATATATTGCTTATAGGGGATGGCCTTCTTGCAGACTATGTACATGATCAATTATGCAAACAATATTCCATCATTCGTCAGCATACTCTTACAGAAGAACTTCCTGAAAATATTTATCTCGCTCTCGTATTACATGATGGATCTCCTTCTACTATTCATCATGATGCTGAGCTAATTTTTCGCTCAAATCATATTCCGTGGCTTCGTGGTTTCACTTCATTTGGCGAAGGTATTATCGGTCCTTACATTCATCCTCTTACGCCCGGATGTTCCCATTGTTCTGATGGACGCCGTTTTATCGCTGGCTTTGATCAAAAAGAAATGTGGGAACTACAGCGGAAATATGCCTTTAAAGCCGAAAATGGAACGAGGCGTGATGTACGTGCCACCCAAAATGGCATGTTACAAATGTGCCATCTTATTTGCGCAGAAACAGAAAAAATATTAACTCATAACCATTCTTCTTTAGAAAATGAACTTATTTTACTAAACTTACAAACATTACAATGTACGCGGCATTCTTTTCTTCCAGATCCTCTCTGTCCTGTATGTAGTAGTTTACCTGATGATACTGCGGATGCGGCGGTAGTTTCTTTACAACCGAGTTTAAAAGTAAGCACCGAAACGTATCGCTGCCGTTCCATTCATGAATTAAACACATTTTTAACGAAAGACTATTTAGATTATCGGATCGGTATGTTGAACGGCAAAATGCAGCATTCTTTATTGCCATTCGCTGACGTCATTATAAACATGCCATTAATGTTTGGAAATGAAGGTGTTGCAGGCCGAACTCATTCATTTGCAGTGAGTGAAGCAACTGCTATTTTAGAAGGTTTAGAACGATATTGCGGTATGTCGCCTCGCGGGAAAAAGACAAATGTGCATGGTAGTTTTCATGATTTAGAGGAACATGCACTAAATCCCCTTACACTCGGTGTGCATACAAATGAACACTACAGTCGTGATAATTTTCCATTTAAGCCGTTTGATCCTGATTATGAGCAAAACTGGGTATGGGGATATTCTTTATCACAAAACAGACCGCTTTTAGTTCCTGAATCAATTGCTTATTATAGCCTCGGTCATCGAGATGCTTTCGTGTATGAAACATCAAATGGATGTGCAATTGGCGGTAGTTTAGAAGAAGCGATTTTTCACGGCATTTTAGAAATTGTAGAGCGTGATGCCTTCTTACTCACTTGGTATGCCGAATTACCTCTTCCCCGCCTTGATCTGAGTTCAGCAAATGATACAGAATTACAATTAATGATTCAGCGGTTACGTACGATTACCGGATATGAATTACACGCTTTTAATGCGACGATGGAACACGGCATCCCGAGCTTATGGGTAATTGCAAAAAACACACGTGAAAATGGAATGAACGTTGTTTGTGCGGGAGGTGCTCATTTAGATCCTATTCGAGCTTTAAAAAGTGCCATTCAAGAAATCGCAGGCATGTTACTTATAACAGACGATGAGCTCGAGCACAAAAGAGAATACTATGAAAAATGCTTACAAGATCCTTATTTCGTTAATAAAATGGAAGACCACAGTATGCTGTACGGATTGAAAGAAACGGAAGAACGTCTTCACTTCCTTTTACGAGAAGATGCACCGGTGCAAACGTTCCAAGAAATGAATGTATCACAATCATTTGATATGGATTTAACATCCGATCTCCACCAACTTTTAAATCGTTTGCATCAATCTAATCTTGAAATAATCGTTGTAGATCAAACCGTTCCCCTTATAGAAAAGAACGGACTACACTGTGTAAAAGTTATTATTCCAGGCATGTTACCGATGACTTTCGGACACCATCTTACTCGGATTACAGGACTGGACCGGGTATATACCGTACCGATGACACTTGGATATACAGACGAACCTTTAACGAATGAAAGATTAAATCCACATCCACATCCGTTTCCATAG	MTQNILLIGDGLLADYVHDQLCKQYSIIRQHTLTEELPENIYLALVLHDGSPSTIHHDAELIFRSNHIPWLRGFTSFGEGIIGPYIHPLTPGCSHCSDGRRFIAGFDQKEMWELQRKYAFKAENGTRRDVRATQNGMLQMCHLICAETEKILTHNHSSLENELILLNLQTLQCTRHSFLPDPLCPVCSSLPDDTADAAVVSLQPSLKVSTETYRCRSIHELNTFLTKDYLDYRIGMLNGKMQHSLLPFADVIINMPLMFGNEGVAGRTHSFAVSEATAILEGLERYCGMSPRGKKTNVHGSFHDLEEHALNPLTLGVHTNEHYSRDNFPFKPFDPDYEQNWVWGYSLSQNRPLLVPESIAYYSLGHRDAFVYETSNGCAIGGSLEEAIFHGILEIVERDAFLLTWYAELPLPRLDLSSANDTELQLMIQRLRTITGYELHAFNATMEHGIPSLWVIAKNTRENGMNVVCAGGAHLDPIRALKSAIQEIAGMLLITDDELEHKREYYEKCLQDPYFVNKMEDHSMLYGLKETEERLHFLLREDAPVQTFQEMNVSQSFDMDLTSDLHQLLNRLHQSNLEIIVVDQTVPLIEKNGLHCVKVIIPGMLPMTFGHHLTRITGLDRVYTVPMTLGYTDEPLTNERLNPHPHPFP				NA	NA	NA	NA	NA
AK009_04073	1542			hypothetical protein	ATGCAGCTAGATACTTTTTTACATCATCTCCATTTCTCTATCGATGAAATTATGCCGAATCATGAGGTGGACTGGAAAGACGCACCGCTTCCTTATAAATTATATCGAAATGTACCTACCATCCCGCTCTCCTTAGAAATCCCATTATCTTTACCGAACTCTTCTACTACACCTACTTTAGATGAAATTGGTCACTACCTTTGGTATTCATTTGGTGTAACACAATTATGTCAGCTAAATAGCGAGAGAAATGTATTACGAAGATCTATTCCTTCAGGCGGCGCTTTATATCCGAATGAATTGTATATCTATTTAAAGATTGACGATTATCCAGACGGCATTTACCATTATGACGCCGCGCATCACCGGCTTATTTTACTTCGCGAAGGAAATTTCGATTCTTATTTAGCAGACGCACTCGGTAATCGCTGTAATATACATGATTGTTTCGGTGCTGCATTTATATCTACTATGTTTTGGAAAAATTTCTTTAAATACAATAATTTTTCATATCGCCTTCAAGGATTAGATAGCGGGGTTCTCATTGGACAATTACTAGAATGTGCAAAACAGTTCGGTTATACGAACGGCGTATACTTTCAATTTCTAGACCGTGCACTGAACCGTTTACTCGGATTGTCAGAAGGTGAAGAAAGTGTGTATGCCGTTATTCCTTTAAGTACAGAGCCAGAAACTAATTGGTTTCACAATGATTACCGTGAAAATAAAACAGTTACTTCTCATGAGTTGTTGCAACAAATTCCGCCGTTAGCACATGAACATTTCGTTCGCTCAAAACATGTAGGTGAATATCCGATGATAACAAAAATAAATGAAGCTTCTATGATCGAATCGACAGCACACTTCCAAACACTACATCATGAAGAGCACTATCAACATAATGCGTACGCTGTACAGCTACCAAAAGTAGAACGGTTATCGTATGATTTCCTACAACTTTGTAAAAAACGATATTCTCCTGATGCGGACTTTATTTTAACGAAATGGGATGCAGCCGAGCTCGCTACTTTACTACAAGAAGCGAGCCTCTCCTTCCCCTATTACAACGACCTTGACGGTAAGTATGCAAATGAAAATGCACGCGTCTTCTTATATGGATGTTTTTATAACGTGAAAAATATTGAAAACGGGGCTTACGCTTATAATAGTAAAACACATTCGATACAACCAATTCGGTATGGAGACCTTCGTTACCCTCTTCAATCTAGTATGACGATGGATAACGTAAACCTTTTTCAAGTACCACTTTGCTTACATGTAGTCGGAAAGAAAGATTACTATACACGTGCATTAGGCTATAGAGGATATCGTATTCACCAAATGGAAGCTGGTATACTCGTTCATAAACTCGTTTTTGCAGCGACCGCGATGGGGATGGGCGGGCATCCATTACTTAGTTTTGATACAAATTCATGTGATCAATTGTACGGTATTGATGCTGGGAATGAAACGTCTCTTATTCAAATTCCTGTTGGGGCGTATCGAGCGCGGAATTGGTTAAAAGGGGTTTTGCATAGTTAA	MQLDTFLHHLHFSIDEIMPNHEVDWKDAPLPYKLYRNVPTIPLSLEIPLSLPNSSTTPTLDEIGHYLWYSFGVTQLCQLNSERNVLRRSIPSGGALYPNELYIYLKIDDYPDGIYHYDAAHHRLILLREGNFDSYLADALGNRCNIHDCFGAAFISTMFWKNFFKYNNFSYRLQGLDSGVLIGQLLECAKQFGYTNGVYFQFLDRALNRLLGLSEGEESVYAVIPLSTEPETNWFHNDYRENKTVTSHELLQQIPPLAHEHFVRSKHVGEYPMITKINEASMIESTAHFQTLHHEEHYQHNAYAVQLPKVERLSYDFLQLCKKRYSPDADFILTKWDAAELATLLQEASLSFPYYNDLDGKYANENARVFLYGCFYNVKNIENGAYAYNSKTHSIQPIRYGDLRYPLQSSMTMDNVNLFQVPLCLHVVGKKDYYTRALGYRGYRIHQMEAGILVHKLVFAATAMGMGGHPLLSFDTNSCDQLYGIDAGNETSLIQIPVGAYRARNWLKGVLHS				NA	NA	NA	NA	NA
AK009_04074	411			hypothetical protein	ATGGCAATTAATATGAAAACAATCGAAGAATGGATTGTTGAATCAAATACAAGACATGAAGAAGACTTTGGACACGTTGTGGAAGAAATGAAAGAAGTATGTGTCGGACTTGATAACGCGACATTAATTTATACGAAAAATGTATTTTGTTTCGGTAAAAAAGTAGAAGTGTTTTTCTTCTTCCAAGACCATGTCGTGATTGGACAAGAAAAAGACGAATATATTGAGATTGAAAAATTAAAGTATGATGACATTACAAATAATAATTTAAAAACAAATGACAAAAATACAACGTTAGAATTAAAGTTTGCTAACGGACAATCTATTAATTTAGATAGTTTAAATGATAACTACGGTACGAAAAATTGGTTATTTGCTAGACAAATTAAGAGTATTTTTAAGTTAATCTAG	MAINMKTIEEWIVESNTRHEEDFGHVVEEMKEVCVGLDNATLIYTKNVFCFGKKVEVFFFFQDHVVIGQEKDEYIEIEKLKYDDITNNNLKTNDKNTTLELKFANGQSINLDSLNDNYGTKNWLFARQIKSIFKLI				NA	NA	NA	NA	NA
AK009_04075	489			hypothetical protein	ATGATTGTAGCACTTCAAAAAGTTCAAGAATCAGAAAAAGAAATATTACGTAATTTGTACACTTTATATCTTCATGACCTTTCTAAGTTCACTATGAATATAACTATCGGAGCGAACGGATTTTTTGAATACGAAGATTTGCATATGTTTTGGAAAAATGACGGAATCACGCCGTATTTTATAAAAGTTGATCATAGTATTGTAGGATTCTTATTACTACTGGAACGTCCGTTTTTGAAGAAGGAAAATGATTTTGGTATTAATGATATTTTCATATTGAATCAATATAAAGGAAAAGGAATCGGTAAACAAGCTGTTGAGAATTTACTAGAAGAGAAAAGAGGACAATATTTCGTTATCGAACTTGTAAAAAATGTACCAGCAGTGTCGTTTTGGAAGAAAGTATATAAAAAACTGAACATTGAATTTGATGAGAGAGAGCAGTTAATTGATGATGAAGAATGCCTCGTTCAAACGTTTAAAATTTAA	MIVALQKVQESEKEILRNLYTLYLHDLSKFTMNITIGANGFFEYEDLHMFWKNDGITPYFIKVDHSIVGFLLLLERPFLKKENDFGINDIFILNQYKGKGIGKQAVENLLEEKRGQYFVIELVKNVPAVSFWKKVYKKLNIEFDEREQLIDDEECLVQTFKI				NA	NA	NA	NA	NA
AK009_04076	1335	cdr		Coenzyme A disulfide reductase	GTGAACTATGTCATTATTGGCGGAGATGCAGCTGGTATGAGTGCAGCTATGCAAATTGTTAGAAACGATGAAAATGCAAATGTTGTAACTTTAGAAAAAGGTGAAATTTATTCATACGCTCAGTGTGGATTACCGTATGTCATTAGTGGTGCTATCGCTTCAACTGAAAAGTTAATCGCGCGCAACGTAAAGACGTTTCGTGAGAAATATGGAATTGATGCGAAAGTGCGTCATGAAGTAACGAAAGTAGATACGGAAAAGAAAATGGTGTACGCAGAGCATACGAAGACGAAGGATGTCTTTGAATTTCCATATGATCGATTATTAATTGCGACTGGAGTGCGTCCTGTTATGCCAGAATGGGAAGGACGGGAATTACAAGGCGTTCATCTTTTAAAAACAATTCCTGATGCTGAGCGCATATTAAAAACGCTAGAAACGAATAAAGTTGAAGATGTAACGATTATTGGCGGTGGTGCCATTGGACTTGAGATGGCAGAAACATTCGTCGAACTTGGTAAGAAAGTAAGAATGATTGAGCGAAATGATCATATCGGTACGATTTATGATGCAGATATGGCAGAGTACATACATAAAGAAGCAGATAAGCATCATATTGAAATTTTAACGAATGAAAATGTAAAAGCATTTAAAGGAAATGAACGAGTAGAAGCAATCGAAACGGATAAAGGTACGTATAAAGCAGATCTTGTTTTAGTGTCGGTTGGAGTGAAGCCAAATACTGATTTTCTTGAAGGGACAAATATACGTACAAATCATAAAGGAGCAATCGAAGTAAATGCATATATGCAAACGAATGTGCAAGACGTATATGCAGCCGGTGATTGCGCAACACATTACCACGTTATAAAGGAAATTCATGATCATATCCCGCTCGGAACGACTGCCAATAAGCAAGGGCGACTTGCTGGACTGAATATGCTTGATAAACGAAGAGCTTTTAAAGGTACGTTAGGCACAGGCATTATTAAATTTATGGATTTGACACTCGCAAGAACAGGGTTAAATGAAAAAGAAGCAAAAGGGCTACACATTCCGTATAAAACGGTCAAAGTAGATTCTACAAATATGGCGGGCTATTATCCAAATGCAAAACCACTTTACTTGAAATTACTATATCGCTCCGATACGAAACAATTATTGGGCGGGCAAGTAATTGGAGAAGAAGGCGTAGATAAACGTATTGATGTGATCGCGATGGCACTTTTCAATAAAATGAGCATTCATGATTTAGAAGATGTCGATTTAAGTTATGCACCACCATATAACAGCGTTTGGGATCCAATTCAGCAAGCGGCAAGGAGAGCAGAATAG	MNYVIIGGDAAGMSAAMQIVRNDENANVVTLEKGEIYSYAQCGLPYVISGAIASTEKLIARNVKTFREKYGIDAKVRHEVTKVDTEKKMVYAEHTKTKDVFEFPYDRLLIATGVRPVMPEWEGRELQGVHLLKTIPDAERILKTLETNKVEDVTIIGGGAIGLEMAETFVELGKKVRMIERNDHIGTIYDADMAEYIHKEADKHHIEILTNENVKAFKGNERVEAIETDKGTYKADLVLVSVGVKPNTDFLEGTNIRTNHKGAIEVNAYMQTNVQDVYAAGDCATHYHVIKEIHDHIPLGTTANKQGRLAGLNMLDKRRAFKGTLGTGIIKFMDLTLARTGLNEKEAKGLHIPYKTVKVDSTNMAGYYPNAKPLYLKLLYRSDTKQLLGGQVIGEEGVDKRIDVIAMALFNKMSIHDLEDVDLSYAPPYNSVWDPIQQAARRAE				NA	NA	NA	NA	NA
AK009_04077	432			hypothetical protein	ATGTGCGCCGGCCTTCTCGCCCAGCTTCCAGATGAACCGCAAGAACCAAAAGAACCGAAACCCGCCCTCTCACTTGACCAAGAATTTTCCATTAATGCGACAATATACAGCGCTCGTGCCTGGTTATCTAACGATGATACGTTTGCGCAAGATATTTGGAAAGCTACCCAATTCGCTTCAGCATCACATGCTGGCAAGTCTATCTTTCCAGTCGGTTCAGTTAAAATTCTGAACTTCTCTGACGATACAATAACTGTTACTGCTTCACCAGAATCAGATCATGCGCTCAAAATAGTCGTACCCCCCCATTCCGAGGCAGCCCTAACATCTGGTCCTTTATCACATATACAAGCTAGTACATCAGGAGGATCAAGTAAAGTCACATTTCTCTTTCACATCTTTTTCTCAAGGGATCCTGGTTCAGATAAATAA	MCAGLLAQLPDEPQEPKEPKPALSLDQEFSINATIYSARAWLSNDDTFAQDIWKATQFASASHAGKSIFPVGSVKILNFSDDTITVTASPESDHALKIVVPPHSEAALTSGPLSHIQASTSGGSSKVTFLFHIFFSRDPGSDK				NA	NA	NA	NA	NA
AK009_04078	1236			hypothetical protein	ATGAATGTATGTACAAAGTGCGGAATTCAGTTTGAAGATGGTGTGCAATTTTGTCAAAACTGCGGGACGAAGAGGGGAAGTCCTGTAGTAAAGAAGAACATGAGCGGTGGTGCAAAGGTTGGCATTACACTGTTAGCACTATTTGTTATAGCGATTATTGGATTATATTTGTACGGATCATCGTATTATACGCAGGTGGCACAAGTAGATCGGATGATTACGATTTTACAAGAGAGGGACGGAGAGAAATTAGCTGAGATCATTACGGCAGATGATCAATCGGTTATGATAACAAAAGAGAGTTTAACGCCTCTATTTTCATATATAAAAGAAAATCCATCGTATGTGAATGAATTAAAAGAATATTTGAGACAAGGTGAAAAACAACGGGACGGAATAGAAAGAGCTGATTTTTCGTTAACGAAAGACGGAAAGTATTTCTTTATATTTGATCGGTATAAATTGAAAGTGAAGACGTACTATACCACTTTGCTTACAAATGAAAAAGGCGTATCGTTAAAAATGAACGGAAAAGAAATTGATAAGACAGATGACAAAAAGTTTGAGAAGCAATATGGGCCGTTTCTTCCGGGCAATCAAGTGTTTCAATCAGAATATAAAAATGATTATGTAAAACTATCGCGTGAGGAAAAGGTTGTACTTATGAAACAAAGCCAAAATAACGTAATGATAGATTTAACGTTGCAAGGTCAATATATTACAGTTCAAACGAACGCGCCTGGTGCAACATTGTACGTAAATCAAAAACCAGTTACAGCACTGGCAGGAGAAGAAATTACATGGGGGCCTATAGCGACTGATGGAAGTACGACGATTTATTTAGAACGAAATGGAGAAAATGGAAGGGAAACGACGAAGGTAGAAACGGTAACGGCACTTCCGTCTTATAATCTTCCATTTCAAAAGAAAAGTACAGAAAAAACAGTTGTTTATAATGTTACTCCGCCATCTACCACTCCGTATGTATATAATGGTTTCATTTTCCCAGATAGTGATATTCGAAAATTAACGAGTACAGATTTAGCATATTTATCGAAAGAACAGTTGAAAATTGCTAGAAATGAAATATATGCAAGGCATGGACATATTTTTCAGACGAAAGATATGCAAACGTATTTTTCAAAACAATCTTGGTATAGAGAAAATCCATATTTTACAGGAAAGCTAACAGATATTGAAACTTATAATGTTGAACTCATCAAATCAAGAGAATAA	MNVCTKCGIQFEDGVQFCQNCGTKRGSPVVKKNMSGGAKVGITLLALFVIAIIGLYLYGSSYYTQVAQVDRMITILQERDGEKLAEIITADDQSVMITKESLTPLFSYIKENPSYVNELKEYLRQGEKQRDGIERADFSLTKDGKYFFIFDRYKLKVKTYYTTLLTNEKGVSLKMNGKEIDKTDDKKFEKQYGPFLPGNQVFQSEYKNDYVKLSREEKVVLMKQSQNNVMIDLTLQGQYITVQTNAPGATLYVNQKPVTALAGEEITWGPIATDGSTTIYLERNGENGRETTKVETVTALPSYNLPFQKKSTEKTVVYNVTPPSTTPYVYNGFIFPDSDIRKLTSTDLAYLSKEQLKIARNEIYARHGHIFQTKDMQTYFSKQSWYRENPYFTGKLTDIETYNVELIKSRE				NA	NA	NA	NA	NA
AK009_04079	786			hypothetical protein	ATGAAATGTCCGTCATGTCATACAGAAAATGCAGCAGAGGCAAAGTTTTGCGGGAATTGTGGACATTCGTTAACGGAAGAAGTAGTGGCAAGTAGTGGTCAAGAAGAAGGGCCGGAACAAGCACGCGCGGCACAAGTAAAGGAAACTCGGCCAAATGAAACGGTAGAGCAAGCGAAGCGGTTTGCGAGCGGCTATTTTCAATTTTTTAAACATGCATTACAAGCACCGACAGCGATTATGAAAAGCGGCACGATTGAAGTAAGAAATGGAATTGTAAGTCTTGTTCTTATTTGTTTTTTAGGAGCATGTATTTTTTATAGAATGATGAGTGCAGCATCAGCAGTTACGAGAACATTTGCACCAGATATATCTACTCCCACATTTTTTGTAGAATCTATAACGGTCTTTTTCTTTTTATTAATTTTAACTTTATTTGTCGGATTTATTATTTTTGTAAGTGGTAAGATGATGAAATCATCTTTTTCGTTTCTTGAAGTATTCGGTATATGGGGAACGCTAGCGACGCCGGCTATTGCTATATTAGTCCTTTCTTTTCTTTTTAGTTTCTTATTAATCTTTTTCTTACCGATATTATTATCGGTAGCTGCAACTTATATAGGGATTAGTATAACTGTAGCCATATTAAAGCTAGACAATGGCGGATTAGATCTCGTGTACACACTTATTATTGCAAATGTTTTAATTGGAATTGCAACATTTATTGTACTTTGGTCTTACATTAGCACGATAATTCAAGCCTTAACACAGGGAATAACTGGCTTCTAA	MKCPSCHTENAAEAKFCGNCGHSLTEEVVASSGQEEGPEQARAAQVKETRPNETVEQAKRFASGYFQFFKHALQAPTAIMKSGTIEVRNGIVSLVLICFLGACIFYRMMSAASAVTRTFAPDISTPTFFVESITVFFFLLILTLFVGFIIFVSGKMMKSSFSFLEVFGIWGTLATPAIAILVLSFLFSFLLIFFLPILLSVAATYIGISITVAILKLDNGGLDLVYTLIIANVLIGIATFIVLWSYISTIIQALTQGITGF				NA	NA	NA	NA	NA
AK009_04080	834			hypothetical protein	ATGGAATTGGTAAACTCAATTTTTCAAATATTCCTTACGAGCGTAATCCAATTATTTTCTTTAATTGGCGTTATCATTGTAATTGGATTTCTATTAGGTTATTTAGAATCACTAACACGAATGTATTGGTCGAGGGCTTTCGGAAGAAAAGGATTCCTTTTAACGGCGTGGATTGGTGTTCCGATTCACGAACTTGGACATGCCATTATGTGCGTACTGTTCCGTCATAAAATTGTAGCAATGCAGTTTTTCCCAACAGATACAAGTCAAGGAGCATTAGGTTACGTACAACATCAATACAATCAAAAAAGTGTGTATCAACGAATTGGGAATTTCTTCATCGGCATCGGGCCTATTATTTCTGGTATTACTGCATTAATCCTTTTAATGCGCTATTTCGTACCAGAATCATATTTTTTATTTAATACAACTCTCGAAAAAACGATCGCTTCTACTTCTATTAATGTAGAAATGATTCAAAACATGCTCTTGTCGACGTTTGTATTATTGAAAAGCTTATTTACAATCGGCAATTTATTGAATCCTTCCTTTTGGTTATTTTTATTTATCGCCATTTGTATTTCCGCACATATCGCTTTAAGTAAACCAGACATTAAAGGATCAATAGACGGAGTTATCGTCATGTTTATCGTTTTATTTTTATTCAACATCATAGCGGGACTGTTTCAATACGACAGTAACCAGCTAATTGGACAGGTTATGAAATATAATATGTATCTCATTGCGTTTTCTAGTGTAGCACTGCTTTTCTCTTGTCTTTCTACACTCGTTAGTTTTTCGTTTTATAAAATAAGAAGAGGGCGTTCTTTTTGA	MELVNSIFQIFLTSVIQLFSLIGVIIVIGFLLGYLESLTRMYWSRAFGRKGFLLTAWIGVPIHELGHAIMCVLFRHKIVAMQFFPTDTSQGALGYVQHQYNQKSVYQRIGNFFIGIGPIISGITALILLMRYFVPESYFLFNTTLEKTIASTSINVEMIQNMLLSTFVLLKSLFTIGNLLNPSFWLFLFIAICISAHIALSKPDIKGSIDGVIVMFIVLFLFNIIAGLFQYDSNQLIGQVMKYNMYLIAFSSVALLFSCLSTLVSFSFYKIRRGRSF				NA	NA	NA	NA	NA
AK009_04081	684			hypothetical protein	ATGCCCCTAAAAAACTACGGTGTGTTAAAAGGTACAGTTATACAATCAAAGATTGGAAAAGGGAAAACACCTCATTATCAAGTTCATTTACAGGGCGAGACTGGAGCAGATTATCGTATTGCAATTAACGTAAAGTCGCAAAGTTATCCGTCAGAAGTTTTATATTTTGCGAGTAACAATATTAAATCAGAAGCGATTCATATTTTACCGACATTACCATTCGGTTTTACAGAAATAAAAAACAATGAACCGAAAGTGGCTTTAGATTATGTAAGAGGAAATCTATTTAATTCAAAACAAATGATTCCTTTGCCTCCCGAAAAAGCAGGAGCAGATAATGATTTAAACGAAAAAATAGAACGTTATATAAAGCGAGCGATAGAAGAAAAAGCGATTATTTACGCGTTTGGTGAAAGATGGGGACCAGAAGAAAATACACCAGATTCCTATTTTCATTTCAAACCAGGAAACGGTATACATGATATTCACATGAATCAAGGGAATGTAGAGAAATGGAAAGGTGATAATGGCATATGGCAAGACGGAGGGATACTCATTCACTTTGAAAAGGAAGAAGAATGGATTGGTATCTTTCTTGCATTCCAATCACAGTCATGGTGTACCGATGAAGAAGGGCATGCTCGTGTGCCTGTTGAGCATTGTGATTATAAGGGGAATAATTAA	MPLKNYGVLKGTVIQSKIGKGKTPHYQVHLQGETGADYRIAINVKSQSYPSEVLYFASNNIKSEAIHILPTLPFGFTEIKNNEPKVALDYVRGNLFNSKQMIPLPPEKAGADNDLNEKIERYIKRAIEEKAIIYAFGERWGPEENTPDSYFHFKPGNGIHDIHMNQGNVEKWKGDNGIWQDGGILIHFEKEEEWIGIFLAFQSQSWCTDEEGHARVPVEHCDYKGNN				NA	NA	NA	NA	NA
AK009_04082	1500	lctP	COG1620	L-lactate permease	ATGGCCATATTGTTGGCACTTATCCCAATTATGATGATTTTCATTTGTTTATTTTTATTTAAACAAACGTCATTAAGGTCCTCGTTAATTTCTTATGCAGTGTCTGTCGGAATCGTTTTACTCTCGCCAACGTTTCGATTAGGGATAAGTGAAACTGTGCACGCAACGATTAAAGGATGGTTAATTTGTTTTATTGTCGGGTACGTTTTATTTTTCGGTATTTTTTTATTTCACCTCATGAACAAAATGGGATACATCGATCAAGTAGCACGTTTTTTAGAAGAAATCACACATGATCGCTTATTACAAATGCTGCTTATGTGTTTTGGCATTTGTCCGCTTATTGAATCAGTAAGTGGATTTGGTATTGGATTCATGGTTGCAGCACCTATTTTTCTTTCGCTAGGCTATAAACCATTTCAAGCTGTACTGCTCTCATTCATCGGCTTACTAGCTAGTTCATGGGGCGCAATGGCAACGGGTACGATTATCGGTTCGCAGCTAATAAATATGCCTCTTACAACACTTGGTACAAATACAGCGCTATTAAGTATTCCGATGTTTGCTTACTTCGTTATTCTTTCTTTACACGTTGTTGGCGGCTGGCAAGCGGTTATAGAAAAGTGGAAAGAAGGAGTAGGGTTCTTTCTATTATTTTCTCTCGGAATCTATCTTTCTAATGCATACGTAAGTGTTGAACTAGCCGGGATATTAAGTTCTATCGTTACGATTACATTTGGCTTTCTTATCATTAAATTAAAAGGAAAAAGTGGGCAAAATCTTATAACAGAACATGCGGCTGCAACGGAGAGAGAAGTATCCATTATAAAAATTATTAGCCCTTATATATTTCTAACAGTTTGTATTTTACTTTCTCGCCTCGTTCCAGCATTACATGATTTGTTCAGATCATATGCGGTTCTTGATTTGAAATCATACTCTTATAAACTAGAGTTACTATATTCACCAGGATTTTGGCTCGGTATGACTTGCTTATTTACTATTATTTTCTTCCGCATCCCGTCTAATATTATTAAACAATCATTCTCACAAACGATCAAACAATGGATTCCATTTGCTATTACGACGACAATGTTTATCGCCATTTCAGAACTAATGGGTGCATCTGGCATGCATTCATTACTTGCAAAAACAGCTGGTGAAACATTTGGAACCTTTTTCGTTTTTGTTGCTCCGTTTATTGGCGCTATTGGTGGATTTTTAACAGGTAGTAACGCAGGATCAAATGCAATGTTTATAAAACTACAAATGCAAACCGCACAAAACGTAGCACTCCCGTGGCAATATGTCACAACACTTCAAAACACCGCATCATCAGTAGCGACAATCGCTTGTCCATCACGGATTACATTAGGTGCTTACTTATGTAATATCCCTTACCGTGAAAATGAACTATTAAAGAAGACAACGTTAATGATCTTTGGTGCGGTTTTACTTGTAGTGGTAGAGGTTATTGTTTGGTATATGTTGAGAAATTAA	MAILLALIPIMMIFICLFLFKQTSLRSSLISYAVSVGIVLLSPTFRLGISETVHATIKGWLICFIVGYVLFFGIFLFHLMNKMGYIDQVARFLEEITHDRLLQMLLMCFGICPLIESVSGFGIGFMVAAPIFLSLGYKPFQAVLLSFIGLLASSWGAMATGTIIGSQLINMPLTTLGTNTALLSIPMFAYFVILSLHVVGGWQAVIEKWKEGVGFFLLFSLGIYLSNAYVSVELAGILSSIVTITFGFLIIKLKGKSGQNLITEHAAATEREVSIIKIISPYIFLTVCILLSRLVPALHDLFRSYAVLDLKSYSYKLELLYSPGFWLGMTCLFTIIFFRIPSNIIKQSFSQTIKQWIPFAITTTMFIAISELMGASGMHSLLAKTAGETFGTFFVFVAPFIGAIGGFLTGSNAGSNAMFIKLQMQTAQNVALPWQYVTTLQNTASSVATIACPSRITLGAYLCNIPYRENELLKKTTLMIFGAVLLVVVEVIVWYMLRN	PGPT0001800_2178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK009_04083	363			hypothetical protein	ATGCTAAGACGCAAATTACTGTATCTTCTTTTAACTATACCACTATACGCTTGGCTCATTAGCATGGCGAAAATAGAGTTGATGGCTCTATTTTTAGGATATGTATTTATCTTTTCCAACTTAAATCGCATTCAAGAACAGTCTATTTTAGAAATATGTCTATTTTCGATTAGTGTAGAATTATTTAGTATCGTTTCGATTGTATTATTAAACGAATTATTTCTACGGATTCATTCATTTACATTAATGAAATTTGGGAATATTGTATTGCAAGCAATATGTACTTACATTGTGTTTGTTGTGTTAGAAAAAATAATTGGGCAGCAGACAGTTTTTCAGAATAATAGAAAATGGGGTGAATGA	MLRRKLLYLLLTIPLYAWLISMAKIELMALFLGYVFIFSNLNRIQEQSILEICLFSISVELFSIVSIVLLNELFLRIHSFTLMKFGNIVLQAICTYIVFVVLEKIIGQQTVFQNNRKWGE				NA	NA	NA	NA	NA
AK009_04084	777	trpA	COG0159	Tryptophan synthase alpha chain	ATGGGAGTAGAAAAAATTAAAGCAGCGTTTGAAAATGGTAAGAAAGCATTTATTCCGTACGTAATGGGCGGAGATGGTGGACTTGAGAAATTAAAAGAAAGAATTCGTTTTCTAGACGAAGCAGGAGCAAGCATCGTTGAAATTGGTATCCCGTTTTCAGATCCAGTTGCAGATGGCCCAACGATTCAAAGAGCAGGGAAGCGAGCGCTAGATAGCGGTATAACAGTAAAAGGAATTTTTCAAGCATTAATAGAGGTAAGGGAAGAAGTGCAAATTCCGTTTGTACTCATGACATATTTAAATCCAGTACTCGCATTTGGAAAAGAACGATTCATCGAAAACTGCATAGAAGCAGGTGTAGATGGCATCATCATTCCAGACTTACCATATGAAGAACAAAATATTATTGCGCCGTTACTTCGAGAGGCAAACATTGCGCTAATTCCACTCGTTACCGTAACGAGCCCAATTGAGCGAATCGAAAAAATTACGAGTGAATCAGAAGGATTCGTCTACGCTGTTACAGTAGCGGGCGTAACGGGAGTACGTCAAAACTTTAAAGAGGAGATTCGTAGTTACTTAGAAAAAGTAAAATCACACGTCAACTTACCAGTAGTCGCAGGATTCGGTATTTCAACAAAAGAACATGTAGAAGAAATGGTTACAATATGTGACGGAGTTGTTGTTGGAAGTAAGATCATTGAGCTTTTAGAAAATGAAAAACGAGAAGAAATATGTGAATTAATATATGCAACAAAACAAAAAGAAGAGGCGTAA	MGVEKIKAAFENGKKAFIPYVMGGDGGLEKLKERIRFLDEAGASIVEIGIPFSDPVADGPTIQRAGKRALDSGITVKGIFQALIEVREEVQIPFVLMTYLNPVLAFGKERFIENCIEAGVDGIIIPDLPYEEQNIIAPLLREANIALIPLVTVTSPIERIEKITSESEGFVYAVTVAGVTGVRQNFKEEIRSYLEKVKSHVNLPVVAGFGISTKEHVEEMVTICDGVVVGSKIIELLENEKREEICELIYATKQKEEA	PGPT0007070_4076	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
AK009_04085	1194	trpB	COG0133	Tryptophan synthase beta chain	ATGAACTACGCATATCCAGATGAAAAAGGTCACTACGGTATATACGGAGGACGATACGTTCCAGAAACGTTAATGCAATCTGTATTAGAACTAGAAGAAGCATATAAAGAAGCAATGCAAGATGAAGCGTTTCAAAAGGAATTAAATCATTATTTAAAAACGTACGTTGGAAGGGAAACACCGCTTTATTTCGCTGAAAATATGACGAAGTATTGCGGTGGTGCAAAGATTTATTTAAAACGTGAAGATTTGAACCATACAGGAGCTCATAAAATTAACAATACAATCGGTCAGGCACTACTTGCAGTACGAATGGGCAAGAAAAAAGTTGTCGCTGAAACAGGAGCAGGACAACACGGAGTGGCAACTGCTACTGTATGTGCCCTACTCGGATTAGAATGCGTCATCTTTATGGGAGAGGAAGATGTGAGACGTCAAAAATTAAATGTGTTCCGAATGGAATTACTCGGAGCGAAAGTAGAAAGTGTAGCGGCAGGTAGCGGCACATTAAAAGATGCAGTGAACGAGGCGCTTCGCTACTGGGTTTCACACGTGCACGATACACACTACATTATGGGATCCGTTCTCGGGCCACATCCATTCCCGCAAATTGTCCGTGATTTCCAAAGTGTAATTGGAAATGAAACGAAAAAACAATATGAGGCGTTAGAAGGAAAGTTACCAGAAGCAGTCGTTGCTTGTATTGGCGGTGGTAGTAATGCGATGGGCATGTTTTATCCGTTCGTACACGATGAAGAGGTCGCTCTTTACGGCGTAGAAGCAGCAGGGAAAGGCGTTCATACAGAAAAGCATGCAGCAACTTTAACGAAAGGAAGCGTCGGTGTTTTACACGGATCAATGATGTATCTTCTGCAAAACGAAGAAGGGCAAATTCAAGAAGCGCACTCTATTTCAGCAGGACTCGATTATCCAGGTGTTGGTCCAGAACATAGCTTGCTAAAAGATATTGGCCGCGTTTCTTATCATTCAATTACTGATGATGAAGCGTTAGAAGCATTTCAATTATTAACGAAAAAAGAAGGAATTATTCCGGCTTTAGAAAGCTCACATGCTGTCGCATATGCATTAAAATTAGCGCCGCAAATGAAGAAAGACAAAGGACTTGTCATTTGCTTATCAGGCCGCGGTGATAAAGATGTAGAGAGTATAAAACGTTATATGGAAGAGGTGTGA	MNYAYPDEKGHYGIYGGRYVPETLMQSVLELEEAYKEAMQDEAFQKELNHYLKTYVGRETPLYFAENMTKYCGGAKIYLKREDLNHTGAHKINNTIGQALLAVRMGKKKVVAETGAGQHGVATATVCALLGLECVIFMGEEDVRRQKLNVFRMELLGAKVESVAAGSGTLKDAVNEALRYWVSHVHDTHYIMGSVLGPHPFPQIVRDFQSVIGNETKKQYEALEGKLPEAVVACIGGGSNAMGMFYPFVHDEEVALYGVEAAGKGVHTEKHAATLTKGSVGVLHGSMMYLLQNEEGQIQEAHSISAGLDYPGVGPEHSLLKDIGRVSYHSITDDEALEAFQLLTKKEGIIPALESSHAVAYALKLAPQMKKDKGLVICLSGRGDKDVESIKRYMEEV	PGPT0007075_3607	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
AK009_04086	615	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAAAGTGAAAATTTGTGGTATTACTGATGTTGAAACAGCAAAATGTGCTTGCGAATACGGAGCAGATGCAATCGGATTTGTTTTTGCAGAAAGTAAGCGGAAAATTACTCTGGGGCTAGCGAAAGAAATTATTGGGGAGCTTCCAGCACACGTATTAAAAATCGGGGTTTTCGTAAATGAATCAGTTGAAGTGATTCAGAAGATTGCAGATGAGTGCGGGTTAACGCATGTGCAACTACATGGGGATGAAGAGAATCATCAAATTAGAAGATTGAATATTCCGTCTATAAAATCGCTAGGAGTAACTTCAGAGAGTGATATGAAAAGCGCTCAAGCATATGAAACGGATTATATATTGTTTGATAGCCCGAAAGAAAAGTTTCATGGAGGAAATGGAAAGACATTTTCATGGGAATTACTTGAGCATATGCCAAAAGAGTTGCGAAAGAAAACGATATTAGCTGGTGGATTAAACATCCTTAACATAGAAGAAGCAATTCGAACTGTTCGGCCATATATGGTCGATGTAAGTAGCGGAGTAGAGACAGAAGGAAAGAAAGATCTAAAGAAAATAAAACAATTTATTATAAAATCGAAGGAGTGTTCCAAATGA	MKVKICGITDVETAKCACEYGADAIGFVFAESKRKITLGLAKEIIGELPAHVLKIGVFVNESVEVIQKIADECGLTHVQLHGDEENHQIRRLNIPSIKSLGVTSESDMKSAQAYETDYILFDSPKEKFHGGNGKTFSWELLEHMPKELRKKTILAGGLNILNIEEAIRTVRPYMVDVSSGVETEGKKDLKKIKQFIIKSKECSK	PGPT0007115_3058	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
AK009_04087	762	trpC_1		Indole-3-glycerol phosphate synthase	GTGGGGACGATTTTAGATAAAATTGTAGAACAGAAGAAAAAGGAAGTTGCGGAGTTATATGAAACGTATACACCAGTCAAAACAAAAAGAAAGACACATTCACTTGTAGAAGCGTTACAGCAGTTTACTGTCATTGCAGAAGTAAAGCGAGCATCACCATCAAAAGGAGATATCAATTTACACGTTGACGTACGAAAACAAGTGGGAACATATGAAGACTGCGGGGCAGGAGCAGTATCTGTTTTAACAGATGGTCAATTTTTTAAAGGATCGTTTCACGATTTACAAACAGCAAGAGAAGAAAGTAACATTCCGCTTTTATGTAAAGATTTCATAATCGATAAGATTCAAATCGATAGAGCGTATGAAACGGGAGCAGATATTATTTTACTAATCGTAGCAGCGTTAACGAAAGAAAAGTTAAAAGAGTTGTATAGCTACGTGTTAGAAAAAGGATTGGAAGCGATTGTTGAAGTTCATGATGAACAGGAATTAGAAACTGCGATCCAACTAAATCCACATGTTATTGGCATTAATAATCGTAATTTAAAAACGTTCGAAGTAGATTTAAGCCAAACTGAAAAGTTAGGAAAACGATTGAATGAGGAGAAATTACTTTGGATTAGTGAAAGTGGCATTCATTCAAAAGAAGATATTACCCGCGTTAAAAGAGCTGGGGCAAAAGGTGTATTAGTTGGAGAGGCACTTATGACATCATCTTCTATTAGTAGCTTTTTTGAAGATTGTAAGGTGAATATATGA	MGTILDKIVEQKKKEVAELYETYTPVKTKRKTHSLVEALQQFTVIAEVKRASPSKGDINLHVDVRKQVGTYEDCGAGAVSVLTDGQFFKGSFHDLQTAREESNIPLLCKDFIIDKIQIDRAYETGADIILLIVAALTKEKLKELYSYVLEKGLEAIVEVHDEQELETAIQLNPHVIGINNRNLKTFEVDLSQTEKLGKRLNEEKLLWISESGIHSKEDITRVKRAGAKGVLVGEALMTSSSISSFFEDCKVNI	PGPT0007080_3813	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
AK009_04088	1026	trpD2	COG0547	Anthranilate phosphoribosyltransferase 2	ATGAATAACTATCTTCGTAAATTAGTGGAGGGTCAACATTTAACAGAAGAGGAAATGTATAAAGCAGGACTACTTTTATTAAGTGAAAACATATTAGAAAGTGAAATTGCAGCTTTCTTAGTCTTACTGAAAGCGAAAGGTGAAACTGCAGAAGAAATATACGGTCTCGTTCGAGCTCTTCGCGAAAAGGCATTGCCGTTTTCGAACCATATACAAGGAGCAATGGACAATTGCGGGACGGGTGGTGACGGTGCTCAAACGTTTAATATTAGCACAACATCAGCATTCGTACTGGCAGGAGCAGGTGTAAAGGTTGCAAAACATGGTAATCGTGCCGTTTCTAGTAAAACAGGAAGTGCAGACTTATTAGAAGAACTAGGTGTAAATATTAGTAGTACGCCAAACGAGATTGATTATTTACTAGAGCATGTGGGCATTGCCTTCTTATTTGCACCAGCAATGCATCCAGCACTAAGGCGCATTATGAAAATAAGAAAAGAGTTAAACGTGCCGACAATCTTTAATTTAATTGGTCCTTTAACAAATCCAGTGAATTTAGAAACACAATTTGTCGGTATTTATAAACGAGATATGTTATTACCAGTTGCACAAGTATTACAAAAGTTAGGCCGGAAACAAGCGCTTGTCGTAAATGGAAGTGGTTTTTTAGATGAAGCGTCATTACAAGGGGAAAATCAAGTAGTCCTTTTAAAAGATAATGAAATAGTAGAAATGAATATTGATCCAGAAAATTATGGTTTTTCAAGAGTGAAAAATGAAGAAATTAGAGGGGGGAATTCACAAGAAAATGCAAAGATTACAGTCGGCGTATTGAGTGGAGAAAAGAGTGTTTACCGCGATACAGTGTTATTAAATGCAGGTCTAGCCCTTTTTGCAAATGGAAAAACAGAAACGATTGAAGAAGGAATTAAACTAGCAACACATAGCATTGACTCTGGAAAAGCATTAACCAAATTAAACTTATTAATTGCAGCAAGCAACGAAAAATTAGAAAGGGTGAACTAA	MNNYLRKLVEGQHLTEEEMYKAGLLLLSENILESEIAAFLVLLKAKGETAEEIYGLVRALREKALPFSNHIQGAMDNCGTGGDGAQTFNISTTSAFVLAGAGVKVAKHGNRAVSSKTGSADLLEELGVNISSTPNEIDYLLEHVGIAFLFAPAMHPALRRIMKIRKELNVPTIFNLIGPLTNPVNLETQFVGIYKRDMLLPVAQVLQKLGRKQALVVNGSGFLDEASLQGENQVVLLKDNEIVEMNIDPENYGFSRVKNEEIRGGNSQENAKITVGVLSGEKSVYRDTVLLNAGLALFANGKTETIEEGIKLATHSIDSGKALTKLNLLIAASNEKLERVN	PGPT0007090_2639	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
AK009_04089	588	pabA_1	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	ATGATTGTACTAATTGATAATTATGATTCATTTACTTATAACTTGTATCAACTGTTAGGTGAATACGAAGAAGATATTGTAGTCGTAAGAAATGATCAAATAACGATAGAACAGCTAGAAGAGATGAATCCAACAGGAATTGTGCTTTCACCAGGACCAGGAAAACCAGAGGATGCTGGTATTTGTATCGAAGTGATTCGTCATTTTTATAAGAACGTTCCCATATTAGGGATTTGTCTTGGCCACCAAGCGATCATAGCCGCATTTGGAGGAGACATTGTTAGAGCAGAACGTATTAAACACGGAAAAACATCGCGTGTGAAACATAACGGAACGTCAATCTTTTCATACGTTACACAGCCGCTGACGGCGATGCGCTATCATTCCCTTGTTGCAGAGCAAACGAGCTTGCCAGATTGTTTTGACATATTAGCGACAGCGATGGACGACGGAGAAATAATGGCAGTCCGTCACAATTATTATCCGCTCTTCGGATTACAGTTTCATCCGGAATCAATCGCAACAGAAGAAGGCGGAAAGTTAATACGTGCCTTTTTAACAGAAGTAAAAGAGGAGGAAAGAGTATGA	MIVLIDNYDSFTYNLYQLLGEYEEDIVVVRNDQITIEQLEEMNPTGIVLSPGPGKPEDAGICIEVIRHFYKNVPILGICLGHQAIIAAFGGDIVRAERIKHGKTSRVKHNGTSIFSYVTQPLTAMRYHSLVAEQTSLPDCFDILATAMDDGEIMAVRHNYYPLFGLQFHPESIATEEGGKLIRAFLTEVKEEERV	PGPT0007105_1938	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
AK009_04090	1419	trpE_1	COG0147	Anthranilate synthase component 1	ATGATGACGAAAGAAGAATTTATAAAACAAAAAAGAGAGAGAAAGACATTTTTAGTAATCACTGAAGAAGAAGGAGATAGCATTACGCCAATTTCTTTATATAGACGTATGAAAGGGAAGAAGAAATTTTTATTAGAAAGTTCACAGCTTCATCAAGATAAAGGGCGTTATTCTTACTTAGGATGTAATCCTTATGGAGAGGTGACAAGCGTTGGTACGGAAGTAGAAAGAATGATATATGGGCAAACAGAAAAGTTAAAAGGTAACGTACTACAAGTGTTAGAAGAAGTAATCGCATCATCACAAGTAGATAGCCCATTTCCATTTTGCGGAGGAGCAGTTGGTTATATTGGATATGATGTCATTCGGCAGTATGAAAACATTGGAGCGGATTTACACGACCCATTAAATATTCCGGAAGTACACCTTTTACTATATCGTGAGTTTATCGTTTACGATCATTTACGCCAAAAGTTGTCGTTTGTATATGTATGCAGGGAAGATGATTCAGCAGATTATGAGGAAGTATACGAAAGGCTACGAGTATACAAAGAGGAAGTGCTACAAGGAGAAGAAGCTGAAGTAAATGCAATACAATCCACATTATCATTCACTTCTTCTATAACGGAAAAAGAGTTTTGTGAGATGGTAGAAATGGCGAAAGAACATATAAGAGCTGGGGACATATTCCAAGTCGTACTGTCACAGCGTTTGCAAAGTGAATGTATTGGTGATCCATTCGCGTTATACCGAAAACTTCGAATTGCAAATCCATCACCATATATGTTCTATATCGATTTTCAAGATTATGTTGTACTCGGTTCTTCACCGGAAAGTTTGCTATCAGTAAGGGAGAATAAAGTGATGACGAATCCAATTGCTGGTACGAGGCCGAGGGGGAAAACGAAGAGGGAAGATGAGGAAATCGAAAAAGAACTGTTGGAAGATGAGAAAGAACGAGCGGAGCATATGATGCTTGTAGATCTTGGGCGAAATGATATTGGCAGAGTGAGTGAAATTGGATCCGTGACGATAGATAAATATATGAAAGTAGAAAAATATTCTCACGTTATGCACATTGTATCTGAAGTTTACGGAACATTGCGAAAACAAACGAGCGGATTTGATGCGTTAGCGTATTGCTTACCAGCAGGGACAGTTTCTGGAGCTCCGAAAATTAGAGCGATGGAAATTATAAATGAGCTAGAGAATGAAAAAAGAAACGTATACGCCGGAGCAGTTGGATACGTTAGTTTTTCAGGGAATCTTGATATGGCACTTGCCATTCGAACGATGGTCGTAAAGGATGAAAAAGCATACGTTCAGGCCGGAGCAGGAGTCGTTTACGATTCAGATCCAGTAGCTGAATATGAAGAAACATTAAATAAAGCGAGAGCGCTATTGGAGGTAATGAAATGA	MMTKEEFIKQKRERKTFLVITEEEGDSITPISLYRRMKGKKKFLLESSQLHQDKGRYSYLGCNPYGEVTSVGTEVERMIYGQTEKLKGNVLQVLEEVIASSQVDSPFPFCGGAVGYIGYDVIRQYENIGADLHDPLNIPEVHLLLYREFIVYDHLRQKLSFVYVCREDDSADYEEVYERLRVYKEEVLQGEEAEVNAIQSTLSFTSSITEKEFCEMVEMAKEHIRAGDIFQVVLSQRLQSECIGDPFALYRKLRIANPSPYMFYIDFQDYVVLGSSPESLLSVRENKVMTNPIAGTRPRGKTKREDEEIEKELLEDEKERAEHMMLVDLGRNDIGRVSEIGSVTIDKYMKVEKYSHVMHIVSEVYGTLRKQTSGFDALAYCLPAGTVSGAPKIRAMEIINELENEKRNVYAGAVGYVSFSGNLDMALAIRTMVVKDEKAYVQAGAGVVYDSDPVAEYEETLNKARALLEVMK	PGPT0007095_3986	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
AK009_04093	189			hypothetical protein	GTGCAACTTAAAAAAATGCAAGCGTTGATGAAGAAGAGTACACATGATGAACATGTCAGAGAGCTGATGGTTGGTGCGAATCAGTATGGAATTGATGTGGAATGGGCTTCGGAGCTTCCAAACCGAAACGAAAGAAGTAGGCTTTGGCGACATGATCTCATCGATACAAGAGACACGTATTGTTTTTGA	MQLKKMQALMKKSTHDEHVRELMVGANQYGIDVEWASELPNRNERSRLWRHDLIDTRDTYCF				NA	NA	NA	NA	NA
AK009_04094	1479	putP	COG0591	High-affinity proline transporter PutP	ATGAGTACGCAGATGTTAATTTTAACTTCTATCTCTATTTACATGCTCGGGATGCTAATTATCGGCTATTTCGCTTATAAGCAAACATCCAACTTAACAGATTATATGCTTGGCGGGCGTACACTAGGCCCCGCAGTAACAGCATTAAGTGCTGGAGCAGCTGATATGAGTGGTTGGCTTTTAATGGGCTTACCCGGTGCAATGTTTAGCGTTGGATTAAGTAGTAGCTGGATTGCGATTGGCCTAACATTAGGCGCATATGCAAACTGGCTTTATGTCGCTCCTCGCTTACGTACCTACTCTGAAATTGCAAATAACTCTATTACTATCCCAGAATTTTTGGAACACCGTTTCCACGACAAATCCCATATGCTACGTTTAGTATCTGGACTTGTTATTATGATATTTTTCACGTTTTATGTAGCTTCAGGATTTGTCTCTGGTGCTGTATTATTCGAAAATTCATTTGGACTCAATTACCATGTTGGTCTTCTTATCGTTGGTGGAGTTGTCGTAGCTTACACATTATTTGGTGGATTTTTAGCTGTAAGTTGGACAGACTTCGTGCAAGGAATCATTATGGTAGTCGCTCTTATTCTTGTTCCAGTCGTAACAATTATGCACGTAAATGGACTTGGTCCAGCATTTGAAACAATTAAATCTATCGATCCGGCATTATTAGATATTTTTAAAGGTACTTCTGTATTAGGAATTATTTCATTATTCGCATGGGGCCTTGGTTATGTTGGACAACCACATATTATTGTACGCTTTATGGCGATTTCTTCTGTAAAAGAAATTAAAAGTGCACGACGTATTGGTATGAGCTGGATGATTTTCTCTGTTGCTGGAGCTATGTTTACTGGCCTTATCGGTATTGCATACTATTCAAAAGCAGGTTTAAAACTTTCTGATCCAGAAACGATTTTCGTTGAACTTGGCACTATTTTATTCCATCCACTTATTACTGGATTTTTATTAGCAGCTATTTTAGCAGCTATTATGAGTACAATTTCTTCTCAACTTCTCGTTACTTCGAGTGCAGTAACAGAAGACTTATATAGAACATTCTTTAAGCGTGATGCTTCTGATAAAGAACTTGTATTTGTCGGTCGTATGGCTGTTCTTGTTATTGCTTTAATTGGATGTGCATTAGCACTTAAACAAAATGATACGATTTTAGCTCTTGTTGGATATGCTTGGGCTGGGTTCGGTTCTTCATTCGGACCTGCTATTTTATTAAGCTTATATTGGAAACGTATGACGAAATGGGGCGCGCTTGCTGGTATGGTTTCTGGTGCCGCTACTGTTATTATATGGACTCAATTCAAATTCTTAAAAGATTTCTTATATGAAATGATTCCAGGTTTCGCTATTAGTTTACTAGCTATCGTAATTGTTAGTTTACTAACACAACCTTCAAAAGAAGTTGAAGAGCAATTTGAGAATTTCGAAAAACAACATAGTCATAATCTATAA	MSTQMLILTSISIYMLGMLIIGYFAYKQTSNLTDYMLGGRTLGPAVTALSAGAADMSGWLLMGLPGAMFSVGLSSSWIAIGLTLGAYANWLYVAPRLRTYSEIANNSITIPEFLEHRFHDKSHMLRLVSGLVIMIFFTFYVASGFVSGAVLFENSFGLNYHVGLLIVGGVVVAYTLFGGFLAVSWTDFVQGIIMVVALILVPVVTIMHVNGLGPAFETIKSIDPALLDIFKGTSVLGIISLFAWGLGYVGQPHIIVRFMAISSVKEIKSARRIGMSWMIFSVAGAMFTGLIGIAYYSKAGLKLSDPETIFVELGTILFHPLITGFLLAAILAAIMSTISSQLLVTSSAVTEDLYRTFFKRDASDKELVFVGRMAVLVIALIGCALALKQNDTILALVGYAWAGFGSSFGPAILLSLYWKRMTKWGALAGMVSGAATVIIWTQFKFLKDFLYEMIPGFAISLLAIVIVSLLTQPSKEVEEQFENFEKQHSHNL	PGPT0013970_1314	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
AK009_04095	399			hypothetical protein	ATGTTAGCAGCTTTCCAGCAACAACAAACACGAAAATTTTCACCTATCACCAATACTTCTGCGTCTTGTTTGAACATACAACCTAATCCACCTAAAATTACAATTGCTCCTTCTGTTATTTCAGTCATCGGTGTTCATATGGAAAAAAATAAGTTAAAAGTAAGAACTGGCCAAAGCACTGAGTTATCAGCTTCCGTTTTGCCAATGCAGGCAACAAATAAAGAACTTCTTTGGACGAATATGAATGCTGATGTTATCACACTGTATCCAAAGGGGGACACGGTAACGATTACTGGAAAAAGTGCAGGTAGAGCAGTCGTAATTGTCACAACTGCTGAAGGAAAGTTCCGTGACCTATGTATCATTCACGTACAACCTTATATGACAAATCCAAAGTAA	MLAAFQQQQTRKFSPITNTSASCLNIQPNPPKITIAPSVISVIGVHMEKNKLKVRTGQSTELSASVLPMQATNKELLWTNMNADVITLYPKGDTVTITGKSAGRAVVIVTTAEGKFRDLCIIHVQPYMTNPK				NA	NA	NA	NA	NA
AK009_04096	396			hypothetical protein	ATGGAATTCCCATCAAAAAAAGATGTATGGCTATATCCGATTTTTTTCGTTGTCATTGGAGCGTGTTTTGCTCCCCTATTTGCAGGTAGAGAATATTTTCTTTTATTTTTTACAATTTCATTAGCGATATTATTTATTTGGAGTTGGTTTTCGACAAAATACATCGTCGGAGAAGAAACAATTACAATTAGATCAGGTTTCGTTAAAAAGCGCATATTTATACGAGATATAAAACAAGTTTTAAATACAAAAAATCCAATAGCAGCCCATGCATTGTCATTTGATCGACTTGAAATTGTTTATGGTGCACATCAAACAGAAATTATTTCTCCTAAAGATAAAGAGCAATTCATCAATCTTGTTAAAAGTAAAAATCCACACATTGAAATAAAGTAA	MEFPSKKDVWLYPIFFVVIGACFAPLFAGREYFLLFFTISLAILFIWSWFSTKYIVGEETITIRSGFVKKRIFIRDIKQVLNTKNPIAAHALSFDRLEIVYGAHQTEIISPKDKEQFINLVKSKNPHIEIK				NA	NA	NA	NA	NA
AK009_04097	912			hypothetical protein	TTGAAACAAGAAAAGTCAATCGCACTACCATTAGCTATTTCTATAATTGCCATTTCTTTTGCAGCAGTTTTTGTAAAGATGTCCTCAGCACCATCTTCTATTTTAAGTATGTACCGCTTATGGATTATCGTACTTATTATGCTGCCTATCGTATGGAAAAAACGGGAAGAGTTTAGTAAGATTCAAATAAAAGATTGGGGATTTTTAATTGGATCTGGTTTCTTTTTAGCACTTCATTTTCTATTATGGTTTGAATCTTTAAAGCATACGACAGTTGCGAGTTCGACGATTATTTTAGCGCTTCAACCAATCGTATCTTTAATTGGAGGTTTTTTCTTATTTAAAGAAAGAACAACATACTCAGCTATTGCAACGATGGGAATTGCGATATTAGGCGTAATGTGTATTGGTTGGGGAGATTTAGGGCTAAGTGAACAAGCAATTTATGGAGATATATTATCCTTTTTAAGTGTAATAGCGGTTGTCGGTTATTTATTTATCGGGCAAACGACAGTAAAGAAAGTATCACACTGGATTTACAGCTTTACAGTTTTTGCATTCGCAGGTATTTTTATGGGAATTTATAATATAGTATTGCAAGTGCCTTTTACAGGTTATACGAAGTGGGATTGGACCGTTTTTCTTTTACTTGCGGTTGTCCCGACAGTGTCACACGTCATTAATAATTGGTTATTAAACTACGTAAATGCAACAACAATTTCAATGAGTATTTTAGGAGAACCCGTTGGAGCATCTATACTAGCGTTCTTCTTACTCGGTGAAAGACTAAATGCCATGCAAATTATCGGTAGCATGCTCGTATTATTTGGTGTATCTGTTTTCTTACTACAGCAACAAAAACGAACAGCAAAAAATGTAGTAAACGAGCCGGCGTATACACAGGAATTATAA	MKQEKSIALPLAISIIAISFAAVFVKMSSAPSSILSMYRLWIIVLIMLPIVWKKREEFSKIQIKDWGFLIGSGFFLALHFLLWFESLKHTTVASSTIILALQPIVSLIGGFFLFKERTTYSAIATMGIAILGVMCIGWGDLGLSEQAIYGDILSFLSVIAVVGYLFIGQTTVKKVSHWIYSFTVFAFAGIFMGIYNIVLQVPFTGYTKWDWTVFLLLAVVPTVSHVINNWLLNYVNATTISMSILGEPVGASILAFFLLGERLNAMQIIGSMLVLFGVSVFLLQQQKRTAKNVVNEPAYTQEL				NA	NA	NA	NA	NA
AK009_04098	732			hypothetical protein	ATGAGTCAAACAATAGGGAGAATTGAAGAAATTTCATTTTATAGCGCATCACTTCAAGAAGACGTTACACTTCTCGTTTATTTACCAGTAAATTACACACCACTGCACAAACATACAGTTGTAATTGCACAAGATGGTAGAGATTATTTTCAGCTCGGTAAAGCGCATCGTGTAATTGAGCGCCTTCGTGAAACTGAAGAAATTGACCGTACAATTATTGTCGGTATTCCATATAAAAATGTACATGATCGTAAAGAAAAATATTTCCCAAATGAAGTAAAAAATGCTGCATATATACGTTTCCTTGCTCATGAACTTGCACCATATATTGATGAAAATTATCCAACGTACCAAATGGGAAAAGGTCGTGTTTTAATTGGTGATTCTCTTGGCGGAACAGTTTCCTTTATGACTGCACTTATGTATCCGCATACATTCGGTAAAGTCGTTATGCAATCACCATTTGTGGATGAGACAGTAATGAACTTAGCAAAAGACTTCAAAGATCCACAAGCATTAGAACTGTATCACGTCATCGGCACAGAAGAAACGGCTGTAAAGCGTACTGATGGACAAGTATCTGATTTCGTAGAACCGAACCGTGAGTTAAATACACTTCTTACAGATAGAAATTTCATTACGCATTACGAAGAGTTTGAAGGTAATCATACTTGGAAATATTGGCAAACTGATTTACCAAAAGCCTTCTCTCATATTCTATCAATGAAATAA	MSQTIGRIEEISFYSASLQEDVTLLVYLPVNYTPLHKHTVVIAQDGRDYFQLGKAHRVIERLRETEEIDRTIIVGIPYKNVHDRKEKYFPNEVKNAAYIRFLAHELAPYIDENYPTYQMGKGRVLIGDSLGGTVSFMTALMYPHTFGKVVMQSPFVDETVMNLAKDFKDPQALELYHVIGTEETAVKRTDGQVSDFVEPNRELNTLLTDRNFITHYEEFEGNHTWKYWQTDLPKAFSHILSMK				NA	NA	NA	NA	NA
AK009_04099	519	yjcG	COG1514	Putative phosphoesterase YjcG	ATGAAATTAGGCATTGTAATTTTTCCATCTAAAATGATTCAAGATAAAGCGAACGGATTGCGTAAGCGTTATGACCCACACTACGCATTAGTTCCGCCACATATTACATTGAAAACACCCTTTGAGACGCAAGATGAACAATTAGAATCGATTGTAAACGAGCTACATACAATCGCAGGTAAAACGAACCCTTTCACCCTTCATGTTGGGAAAGTCGGTTCATTCGCACCTGTTAATAACGTCCTTTATTTTAAAGTAGAAAAAACACCTGAACTTACTTTCTTAAATGAAGAAATGCATGGCGGGTTATTCACGCAAGAACGCGAATATGCTTTCGTACCTCACTTAACAATCGGACAAGGCTTATCAGATGCAGAGCATGCTGATGTATTGGGGCGATTACGTATGAAAGATTTCTATTATGAACAACCAATTGATCGTTTCCATCTTCTATATCAATTAGAAAATGGAACATGGACTGTACACGAAACATTCCATCTTGGAAAGGGGAACAACTAA	MKLGIVIFPSKMIQDKANGLRKRYDPHYALVPPHITLKTPFETQDEQLESIVNELHTIAGKTNPFTLHVGKVGSFAPVNNVLYFKVEKTPELTFLNEEMHGGLFTQEREYAFVPHLTIGQGLSDAEHADVLGRLRMKDFYYEQPIDRFHLLYQLENGTWTVHETFHLGKGNN				NA	NA	NA	NA	NA
AK009_04100	423	yjcF_2		putative N-acetyltransferase YjcF	TTGCACGCACAGATTGTACAAACGGACGAACAACTAAGAGATGCATTCTCTGTACGTAAACAAGTGTTTGTAAATGAACAACGTGTCTCTGCTGAAGAAGAGTACGATGAGTTTGAAGAAACTTCAACACACGTTGTTATATATGACAATGATGTTCCAGTTGGTGCTGGACGTTTTCGCACCCTTGATGGTATAGGAAAAGTGGAACGCATTTGCGTGCTAGGTTCCCATCGAAAAAAAGGCATCGGAAAAATTGTTATGGATGCGCTTGAAGCGTATGCAAAGGAAAATTCGCTACCAAAATTGAAACTTCATGCTCAAACACATGCTGAAGATTTCTATAAAAAACTTGGATATGTAACGAGTTCTGATGTATTTATGGAAGCAAATATCCCGCACGTCGTAATGATAAAAGAATTGTGA	MHAQIVQTDEQLRDAFSVRKQVFVNEQRVSAEEEYDEFEETSTHVVIYDNDVPVGAGRFRTLDGIGKVERICVLGSHRKKGIGKIVMDALEAYAKENSLPKLKLHAQTHAEDFYKKLGYVTSSDVFMEANIPHVVMIKEL				NA	NA	NA	NA	NA
AK009_04101	2067	yjcD	COG0210	Putative ATP-dependent DNA helicase YjcD	ATGACACAAGAAAAATTTTCACAAAAATCGTTAACACACGCTGATATTCCGCGTGCGACATATCATACTCCGAAAACATCTACCCATTTAATTATGGAAGAAGATGTAGATGCGGCTTATTTCCGCGCTCTCGAACAACAAAATGTTTTTTTAAACGAAAAACAATTAGAAGCCGTGCGCACAACAGAAGGTCCTGTTCTTACACTAGCTGGTGCTGGAAGCGGGAAAACATCTGTTTTAACAACTCGCGTTGGTTATTTAGTAAATGTAAAACAAGTTCATCCAAGAAATATTTTATTACTTACATTTACACAAAAAGCAGCTGAAGAAATCCGAAGTCGTGTTGCAAAGTTACCAGGTATGAATCATGCAGCAAGTAGCTACGTTGTTGCTGGTACATTCCACTCTGTTTTCTTAAAATTGCTTCGTAGTCAAGGGTATAATCAGCAAATTTTAGCAAATGAAAAACATAAACAAATTATGATAAAGAAAATCTTAAAAGAATTGCGTTTAAAAGACGATTATGATTCGGAAACGATCCTCGCGATGATTTCACTTGAGAAAAACAAATTAAATCGTCCGAAAGATGTAAAGGCGAAAACGCCAGTCGAACAAGAATTTAAAGAAGTATATGAACGTTTTGAAGAGGTAAAACAACGATACAATTATATTGATTTCGATGACATCTTATTGGAAACATATTATATGTTAGAAAATAATGCTCCTTTACTAACTCAATTACAACAACGTTTTCACTACATTGAAGTAGATGAGTTTCAAGATACATCCTATGCACAATATGAAATTGTAAAATTGTTAGCCACGCCAAGAAATAATTTGTTCATCGCAGGTGATGATGATCAAGCAATTTATGGCTGGCGAGGGGCAAGTCACCAAATTATTTTATCTTTTCCAAAAGAATTTGATAACACAACAATCATTGCACTAAATACGAATTATCGATCCAATCCCTTTATCGTCGGGCTTGGAAATGAAGTTATAAAATTAAATCAAGAACGTTTTGATAAAGAGCTATACTCCGTTCGCGAGGAAGGTGTACAACCTTTTTATGCAAGACCTGCTACAACTCTTGATGAAGCAAATCAAATTTTGCAGCTCATTCAAGAAAAAGTAGATAGCGGTGACCGAAACTATAAAGATTTTTGTTTACTGTATCGCACACATTCTGTAAGCCGTTCGTTACTTGATCAGCTTACCATTCATAAAATTCCGTTTATTAAACACGGGGCGAGCCAATCATTTTATGAACATTCTTTAATTAAGCCTGTATTAGATCATTTAAGACTCGTGATTGAGCCGTTTCGACTAGAATCACTTTCAAACATATTGCCGACGATGTATATCGGACGTGATGATTGTATTTCATTTATTGAACGTGAACAATGGAAATATGGTGAAGGCCGTTTTCCTTCTCTTCTTCATTTCTTATTATTAAATCCGAGCTTAAAACCTTTTCAAGTGCAAAAGGTAAATGAGCGCATCGATTTTATTAAATTTATTAAAGAATTAGAACCGAAAAAAGCATTAAAAGAAATCATACATGGTAAAGGAAAATATTTAGAGTACTTACAAAGTAACGATCGTTCTTCCTTTACGATGCATAAAGACATACAAGAAGAAATGTTGGAAGAATTAATGGAGTCTGCAACTCGTTTCACCGATATTCCAGCTTATTTACAATTTATCGACGAGGCGATTCAAGGTCAAAAGGAAATGGAAGCATTAAAAACAATGCCGCAAAAAGATGCCGTTTCACTTATGTCAATTCATAACGCAAAAGGCCTTGAATTTCCATGTGTCTTTTTACTTGGAGCGAGTGATGGAATCCTGCCCCATACTTCTTCTTTAAAAGATGCAAATGATCGTATTACGGAAACTTCTGAAGCGTTAGAAGAAGAACGCCGATTACTGTATGTCGCCATTACACGTGCGAAAGAAGAGCTTTACATTTCTTCTCCGCAATTTTTCAGAGGAAAGAAATTAGATATATCTCGTTTTTTATATACTGTGCGAAAAGATTTACCTGAAAAGACATCCACTAAATAA	MTQEKFSQKSLTHADIPRATYHTPKTSTHLIMEEDVDAAYFRALEQQNVFLNEKQLEAVRTTEGPVLTLAGAGSGKTSVLTTRVGYLVNVKQVHPRNILLLTFTQKAAEEIRSRVAKLPGMNHAASSYVVAGTFHSVFLKLLRSQGYNQQILANEKHKQIMIKKILKELRLKDDYDSETILAMISLEKNKLNRPKDVKAKTPVEQEFKEVYERFEEVKQRYNYIDFDDILLETYYMLENNAPLLTQLQQRFHYIEVDEFQDTSYAQYEIVKLLATPRNNLFIAGDDDQAIYGWRGASHQIILSFPKEFDNTTIIALNTNYRSNPFIVGLGNEVIKLNQERFDKELYSVREEGVQPFYARPATTLDEANQILQLIQEKVDSGDRNYKDFCLLYRTHSVSRSLLDQLTIHKIPFIKHGASQSFYEHSLIKPVLDHLRLVIEPFRLESLSNILPTMYIGRDDCISFIEREQWKYGEGRFPSLLHFLLLNPSLKPFQVQKVNERIDFIKFIKELEPKKALKEIIHGKGKYLEYLQSNDRSSFTMHKDIQEEMLEELMESATRFTDIPAYLQFIDEAIQGQKEMEALKTMPQKDAVSLMSIHNAKGLEFPCVFLLGASDGILPHTSSLKDANDRITETSEALEEERRLLYVAITRAKEELYISSPQFFRGKKLDISRFLYTVRKDLPEKTSTK				NA	NA	NA	NA	NA
AK009_04102	471	cotZ_1		Spore coat protein Z	ATGAGCTGCAATTGTAACGAAGACCATCATGAACATGATTGTGATTTCAACTGTGTATCGAATGTCGTTCGCTTTATACATGAACTGCAAGACTGTGCAACAACAACATGTGGATCTGGTTGCGAAGTTCCATTTTTAGGTGCACATAACACTGCATCAGTAGCTAATACACGTCCTTTTATTTTATACACAAAAGCCGGAGCACCTTTTGAAGCATTTGCACCATCAGCAAGTCTTACTAGCTGCCGATCTCCAATTTTCCGCGTAGAAAGTATAGATGATGATGATTGTGCTGTATTACGTGTATTAACTGTAGTATTAGGTGATAACTCCCCTGTACCACCTACTGACGATCCCATCTGTACGTTTTTAGCTGTACCAAATGCAAGATTAGTATCAACCTCTACTTGCATTACTGTTGATTTAAGTTGCTTCTGTGCGATTCAATGCTTACGCGATGTTACAATTTAA	MSCNCNEDHHEHDCDFNCVSNVVRFIHELQDCATTTCGSGCEVPFLGAHNTASVANTRPFILYTKAGAPFEAFAPSASLTSCRSPIFRVESIDDDDCAVLRVLTVVLGDNSPVPPTDDPICTFLAVPNARLVSTSTCITVDLSCFCAIQCLRDVTI	PGPT0025235_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025235-cotZ-K06344	NA	NA
AK009_04103	504			hypothetical protein	ATGTTCTCTTCTGATTGCGAATTTACTAAAATTGATTGCGAGGCAAAACCAGCTAGTACACTACCTGCCTTCGGTTTTGCTTTCAACGCGTCTGCACCTCAGTTCGCTTCACTATTTACACCACTACTATTACCTAGTGTAAGTCCAAACCCAAATATTACTGTTCCTGTAATAAATGATACAGTAAGTGTTGGAGATGGTATTCGAATTCTACGAGCTGGTATTTATCAAATCAGTTATACATTAACAATTAGTCTTGATAATGCACCTGTTGCACCAGAAGCTGGTCGTTTCTTCTTATCATTAGGTACGCCAGCTAACATTATTCCTGGATCAGGTACAGCGGTTCGTTCTAACGTTATTGGTACTGGTGAAGTAGACGTATCCAGCGGTGTTATTCTTATTAACTTAAATCCTGGTGACTTAATTCAAATTGTACCAGTTGAGTTAATTGGAACTGTAGACATCCGTGCAGCAGCATTAACAGTTGCACAAATTAGCTAG	MFSSDCEFTKIDCEAKPASTLPAFGFAFNASAPQFASLFTPLLLPSVSPNPNITVPVINDTVSVGDGIRILRAGIYQISYTLTISLDNAPVAPEAGRFFLSLGTPANIIPGSGTAVRSNVIGTGEVDVSSGVILINLNPGDLIQIVPVELIGTVDIRAAALTVAQIS				NA	NA	NA	NA	NA
AK009_04104	177			hypothetical protein	GTGAGCAATAATCCTAGGCAAAATTCATATGACCTGCAGCAGTGGTATCAAATACAGCAACAGCACCATGCACAACAACAGGCATATCAAGAACAATTACAACAACAAGGATTTGTGAAGAAAAAGGGATGCAATTGTGGGAAAAAGAAGAACACAATAAAACACTATGAAGAATGA	MSNNPRQNSYDLQQWYQIQQQHHAQQQAYQEQLQQQGFVKKKGCNCGKKKNTIKHYEE				NA	NA	NA	NA	NA
AK009_04105	360			hypothetical protein	ATGCTATTTACAAGCTGGCTTTTATTTTTTATTTTCGCGTTAGCAGCCTTTAGGCTCACTCGTTTAATTGTTTATGATAAAATTACAGCCTTTTTGCGAAGACCATTTATTGATGAATTAGAGATTACGGAGCCAGATGGAAGTGTATCAACGTTTACAAAAGTGAAAGGTAAAGGATTAAGAAAGTGGATTGGCGAATTATTAAGCTGTTATTGGTGTACAGGTGTATGGGTTAGTGCTTTTTTATTAGTTTTATATAATTGGATTCCTATCGTTGCGGAGCCGTTACTTGCATTATTAGCTATTGCAGGAGCAGCAGCAATCATTGAAACGATTACAGGATATTTTATGGGAGAATAA	MLFTSWLLFFIFALAAFRLTRLIVYDKITAFLRRPFIDELEITEPDGSVSTFTKVKGKGLRKWIGELLSCYWCTGVWVSAFLLVLYNWIPIVAEPLLALLAIAGAAAIIETITGYFMGE				NA	NA	NA	NA	NA
AK009_04106	465	cotZ_2		Spore coat protein Z	ATGAGTTGTAACGAAAATAAACACCATGGCTCTTCTCATTGTGTAGTTGACGTTGTAAAATTCATCAATGAATTACAAGATTGTTCTACAACAACGTGTGGATCTGGTTGTGAAATCCCATTTTTAGGTGCACATAACACTGCATCAGTAGCAAATACACGCCCTTTTATTTTATACACAAAAACTGGAGAACCTTTTGAAGCATTTGCACCATCATCAAGCCTTACTAGCTGCCGATCTCCAATTTTCCGTGTGGAAAGCGTAGATGATGATAGCTGTGCTGTGCTACGTGTATTAACTGTAGTATTAGGTGACGGTACTCCGGTACCACCTGGTGACGATCCAATTTGTACGTTTTTAGCTGTACCAAATGCAAGATTAATATCTACAACTACTTGCATTACTGTTGATTTAAGCTGTTTCTGTGCGATTCAATGCTTACGCGACGTTTCTATCGTAAAGTAA	MSCNENKHHGSSHCVVDVVKFINELQDCSTTTCGSGCEIPFLGAHNTASVANTRPFILYTKTGEPFEAFAPSSSLTSCRSPIFRVESVDDDSCAVLRVLTVVLGDGTPVPPGDDPICTFLAVPNARLISTTTCITVDLSCFCAIQCLRDVSIVK	PGPT0025230_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025230-cotY-K06343	NA	NA
AK009_04107	600			hypothetical protein	GTGAAGAATAAAAATAAAAGTTCAACAGTTGGAAAACCGTTGTTATATATTGCGCAAGTAAGTTTAGAACTTACTGCACCGAAAATAAAAAGGATTATCCTGACAAACTTTGGAAATGAAGATCAAAAAGAGCAAAGTAATAGAAATGAAAATATTGTAAGTAGTGCTGTGGAAGAGGTAACAGAACAAGAACAACAAGAAGAGCAGCAAGTGGAAGAAAAAATAGAAGAAGAGAAAAAAGAAGCACACGCAGAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAACAAGAACAAGTAAGAACTGTTCCGTATAATAAATCATTTAAGGATATGAATAATGATGAAAAAATTCATTTTTTATTAAACCGCCCTCATTACATTCCGAAAGTAAGGTGCAGAATAAAAACAGCTACAGTTTCTTATGTTGGATCGATCATATCGTATCGTAATGGTATTGTATCTATTATGCCGCAAAATAGCATGAGAGATATTAGGTTGTCTATAGATGATATCCAATCGATTAGTATGGCCGGTTTTTAA	MKNKNKSSTVGKPLLYIAQVSLELTAPKIKRIILTNFGNEDQKEQSNRNENIVSSAVEEVTEQEQQEEQQVEEKIEEEKKEAHAEQEQQEQQEQQEQQEQQEQQEQQEQQEQQEQQEQVRTVPYNKSFKDMNNDEKIHFLLNRPHYIPKVRCRIKTATVSYVGSIISYRNGIVSIMPQNSMRDIRLSIDDIQSISMAGF				NA	NA	NA	NA	NA
AK009_04108	771	fabI	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGAACTATTACAAGGGAAAACATTTGTTGTTATGGGCGTTGCGAACCAAAGAAGTATTGCGTGGGGAATTGCTCGCTCTTTGCATAATGCAGGTGCAAAATTAATCTTCACATATGCAGGAGAACGTTTAGAAAGAAATGTTCGTGAATTAGCGGATACATTAGAAGGACAAGAATCACTTGTATTACCTTGTGATGTAACAAATGATGAGGAACTTACAGCTTGCTTTGAAACAATTAAACAAGAAGTAGGTACTATTCACGGTGTAGCACATTGTATTGCTTTTGCAAATCGCGATGACTTAAAAGGCGAATTTGTAGATACTTCTCGCGATGGATTTTTACTTGCACAAAATATTAGTGCATTCTCTTTAACAGCTGTAGCAAGAGAAGCGAAGAAAGTTATGACAGAAGGCGGAAATATTTTAACGTTAACATACCTTGGCGGCGAGCGTGTTGTGAAAAATTATAACGTTATGGGTGTTGCGAAAGCTTCATTAGAAGCGAGCGTGAAATATTTAGCAAACGATTTAGGTCAACATGGTATTCGTGTCAACGCTATTTCTGCAGGACCAATTCGTACGTTATCTGCAAAAGGTGTAGGCGATTTCAACTCAATCTTAAGAGAAATTGAGGAGCGCGCACCACTTCGTCGTACAACAACTCCAGAAGAAGTTGGCGATACAGCAGTATTCCTATTCAGTGATTTAGCTCGCGGTGTAACAGGAGAAAACATTCATGTTGATTCAGGGTATCATATCCTAGGATAA	MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTPEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG	PGPT0008370_3192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
AK009_04109	855	rmlD_1		dTDP-4-dehydrorhamnose reductase	ATGAAAGAGAGGGTTATCATAACAGGAGCAAACGGCCAATTAGGAAAGCAACTATTTGAAGAGTTAAACTCTGAAGAATATGATATATATCCATTTGATAAAAAGTTATTAGATGTGACAAATATATCCCGAATTCAACAAGTGGTACAAGAAATAAAACCACATATAATTATTCATTGTGCTGCCTATACGAAAGTAGATCATGCTGAGAAAGAACAGGATCTTGCATATAGAATAAATGCAATCGGAGCTCGAAATGTAGCGGTCGCTTCACAATTAGTAGGAGCGAAACTAGTTTATATTAGTACTGATTATGTATTTCAAGGCGCCAGACCAGAGGGATACGATGAATTTCATAGTCCAGCGCCGATAAATATATATGGAGCCTCTAAGTATGCTGGGGAGCAGTTCGTCAAAGAGTTACATAATAAATATTTTATCGTTCGCACATCGTGGCTATATGGTAAATATGGAAATAATTTTGTGAAAACGATGATGCGATTAGGAAAAGAAAGAGATGAAATATCTGTTGTAGCGGATCAAGTTGGCTCTCCTACGTATGTGGCGGATTTAAATATAGTTATTAATAAGCTCATTCATACTTCTTTATACGGTACATACCACGTATCAAACAGAGGCTCATGCTCTTGGTTTGAATTTGCACAAAAGATATTTTCGTATACAAATATGAAAGTGAATGTGTTACCTGTTTCAACGGAAGAATTCGGGGCTGCGGCTGCGAGGCCCAAATATTCTATCTTTCAACATAACATGCTACGATTAAATGGTTTTTTACAAATGCCGTCTTGGGAAGAAGGATTAGAGCGCTTTTTTATAGAAACCAAAAGTCATTAA	MKERVIITGANGQLGKQLFEELNSEEYDIYPFDKKLLDVTNISRIQQVVQEIKPHIIIHCAAYTKVDHAEKEQDLAYRINAIGARNVAVASQLVGAKLVYISTDYVFQGARPEGYDEFHSPAPINIYGASKYAGEQFVKELHNKYFIVRTSWLYGKYGNNFVKTMMRLGKERDEISVVADQVGSPTYVADLNIVINKLIHTSLYGTYHVSNRGSCSWFEFAQKIFSYTNMKVNVLPVSTEEFGAAAARPKYSIFQHNMLRLNGFLQMPSWEEGLERFFIETKSH	PGPT0022630_3401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
AK009_04110	972	rffG	COG1088	dTDP-glucose 4,6-dehydratase 2	ATGAATATATTAGTAACAGGTGGGGCTGGATTTATTGGAAGTAATTTCGTTCATTATATGCTACAAAGTTATGAAACATATAAAATTATTAATTACGATGCATTAACATATAGCGGGAATTTAAATAACGTAAAATCTCTTCAGAATCACCCGAATTACTCTTTTGCAAAAGGAGAAATTCAAAATGGAGAGCTATTAGAACATATTATAAAAGAGCGAGACGTACAAGTGATTGTAAATTTTGCAGCTGAATCACATGTGGACCGTAGTATTGAAAATCCGATTCCTTTTTATGATACAAATGTAATTGGGACGGTCACTTTATTAGAACTAGTTAAAAAATATTCGCATATAAAACTTGTGCAAGTATCAACGGATGAAGTGTATGGCTCTTTAGGGAAAATAGGGAAATTCACAGAGAAAACGCCGTTAGCTCCAAATAGTCCATATTCTTCAAGTAAGGCGAGCGCGGACCTGATAGCTCTATCTTACTATAAAACATATCACTTACCGGTTATAGTAACGCGTTGTTCTAACAATTATGGGCCGTACCAGTATCCCGAGAAATTAATTCCGTTAATGGTTACGAATGCACTGGAAGGAAAAAAACTACCGTTATATGGTGATGGTTTAAATGTAAGAGATTGGTTACATGTAACGGATCATTGTAGTGCGATTGACGTTGTTCTGCATAAGGGACGTGTAGGAGAAGTATATAATATAGGTGGAAATAATGAAAAAACAAATGTAGAAGTTGTGGAACAAATTATTACTCTTTTAGGAAAAACAAAAAAAGATATCGAATATGTTACAGATCGTTTAGGGCACGATCGTCGTTATGCGATTGATGCAGAGAAAATGAAGAATGAATTTGATTGGGAACCGAAATATACGTTTGAACAAGGATTACAAGAGACGGTGAAATGGTATGAAAAGAATAAGGAATGGTGGAAACTACTAAAAGACCAGTAA	MNILVTGGAGFIGSNFVHYMLQSYETYKIINYDALTYSGNLNNVKSLQNHPNYSFAKGEIQNGELLEHIIKERDVQVIVNFAAESHVDRSIENPIPFYDTNVIGTVTLLELVKKYSHIKLVQVSTDEVYGSLGKIGKFTEKTPLAPNSPYSSSKASADLIALSYYKTYHLPVIVTRCSNNYGPYQYPEKLIPLMVTNALEGKKLPLYGDGLNVRDWLHVTDHCSAIDVVLHKGRVGEVYNIGGNNEKTNVEVVEQIITLLGKTKKDIEYVTDRLGHDRRYAIDAEKMKNEFDWEPKYTFEQGLQETVKWYEKNKEWWKLLKDQ	PGPT0022625_4929	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022625-rfbB|rmlB|rffG-K01710	NA	NA
AK009_04111	546	rfbC_1	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAAAGTCGTAGAAACAAATTTTATCGATGCAAAATTGTTAGAACCGAGGTTGTTTGGAGACGAGCGTGGCTTTTTTTCAGAAAGCTATAATAAGCAGGTGCTAGAAACATTAGGGATTACGTATTCATTTGTACAGGATAACGTATCTTATTCGGCTAAGGCAGGAACGATTCGGGGACTACACTTTCAAAAAAAACCGAAAGCACAAACGAAACTCATTCAAGTTATGCAAGGGGCAATTTATGATGTTATCGTTGATTTACGAAAAAAATCACCAACATTTAAACAATGGAAAGGGTATATTTTAAGTGCAGATAACCATCGACAATTACTAGTGCCAAAAGGGTTTGCGCATGGATTTTGCACCCTTGTTCCGCATACTATCGTTATGTATAAAGTAGATGAATATTATAGCGCAGAGCATGACTCAGGATTACTTTGGGAAGATAAAGATTTAGCAATTCCTTGGCCAGTAACCGATCCTATATTGTCCGATAAGGATCAGATATTACCATTACTAGAGGAATATGAAGATAGTTTTTAA	MKVVETNFIDAKLLEPRLFGDERGFFSESYNKQVLETLGITYSFVQDNVSYSAKAGTIRGLHFQKKPKAQTKLIQVMQGAIYDVIVDLRKKSPTFKQWKGYILSADNHRQLLVPKGFAHGFCTLVPHTIVMYKVDEYYSAEHDSGLLWEDKDLAIPWPVTDPILSDKDQILPLLEEYEDSF	PGPT0014300_3022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790	NA	NA
AK009_04112	738	rmlA_1	COG1209	Glucose-1-phosphate thymidylyltransferase	GTGAAAGGAATTATTTTAGCAGGTGGTACTGGATCGAGATTATATCCAATAACGAAAGTAACGAATAAACATTTACTTCCTGTTGGTCGGTATCCGATGATTTATCATGCGGTATATAAGCTAAAACAATGCGATATTACAGACATTATGATTATTACAGGTAAAGAGCATATGGGGGATGTTGTTAGCTTCTTAGGGAGTGGTCATGAATTTGGCGTGTCCTTTACGTATCGTGTGCAAGATAAAGCGGGCGGTATCGCACAGGCGTTAGGGCTTTGTGAAGATTTCGTCGGGAATGATCGTATGGTAGTTATATTGGGGGATAATATTTTTTCAGATGATATTCTTCCGTATGTTGAAGAGTTTGCAAATCAAAAAGAAGGTGCGAAAGTGCTCTTGCAATCTGTAGAAGATCCCGAAAGATTTGGCGTAGCACATATTCAAAACCGAAAAATAGTTGAAATTGAAGAAAAGCCGAAAGAGCCGAAAAGTTCTTATGCTGTTACGGGAATTTATTTGTATGATTCGAAAGTTTTTTCTTATATTAAAGAATTAAAACCTTCTGCACGGGGAGAACTTGAAATTACAGATATAAATAATTGGTATTTAAAACGAGGGGTACTTACTTATAATGAAATGAGCGGCTGGTGGACTGATGCGGGAACTCATGCTTCTCTTCAAAAGGCGAATACGTTAGCACGGGATATTGATTTTGGGAAACAGTTTAACGGAGAATAG	MKGIILAGGTGSRLYPITKVTNKHLLPVGRYPMIYHAVYKLKQCDITDIMIITGKEHMGDVVSFLGSGHEFGVSFTYRVQDKAGGIAQALGLCEDFVGNDRMVVILGDNIFSDDILPYVEEFANQKEGAKVLLQSVEDPERFGVAHIQNRKIVEIEEKPKEPKSSYAVTGIYLYDSKVFSYIKELKPSARGELEITDINNWYLKRGVLTYNEMSGWWTDAGTHASLQKANTLARDIDFGKQFNGE	PGPT0022600_4934	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022600-rfbA|rmlA|rffH-K00973	NA	NA
AK009_04113	681			hypothetical protein	ATGAAAGATCATACAATATTAGTTGTTGTTTGTGTAAATAATGAAGAGCTTTTCAAACAATGTGAGAGCCAAATCAGAAACATTTTTGTTCCCCCTGGCTATGTCGTACAAATTTTTCCGATACGAGATGCACAAAGTATGGCAAGTGCATACAACCGAGCCCTTTCATATCCAGCGAAATACAAAGTGTATATACATCAAGATACATATCTTATTAATCGAGACATGTTTTCTACACTTATATCTCTTTTTAAAGAAAATGAAAAGCTTGGTTTAATAGGAGTCGCTGGGGCTCAGTTTTTACCGAATAACGGGATATGGTGGGAAGGAAAAAATTTAGTAGGGAAAGTGATTGAATACAGAAGACAGAATTATCAATTATTAAATTTAGATCAGGTTTTTTATGGTAATCAACCATTTTTGTCAGTTCAGGCAATTGATGGTTTATTCATGGCAACGCAGTATGATATTCCGTGGCGAGAAGATTTGTTTCAAGGGTTTCACTTTTATGATGTGTCACAGTCTTTAGAGTTTCAAAGGGCTGGTTATTTAATCGGTATCCCAAATCAAGCAAATTTATGGTGTATTCATTACAACGGGGATGAGTTTGATGCGGATACATATGAGAAGTACCGGCAAGTGTTTATAGAACATTACAAAGATATATTATCTCCATCATAA	MKDHTILVVVCVNNEELFKQCESQIRNIFVPPGYVVQIFPIRDAQSMASAYNRALSYPAKYKVYIHQDTYLINRDMFSTLISLFKENEKLGLIGVAGAQFLPNNGIWWEGKNLVGKVIEYRRQNYQLLNLDQVFYGNQPFLSVQAIDGLFMATQYDIPWREDLFQGFHFYDVSQSLEFQRAGYLIGIPNQANLWCIHYNGDEFDADTYEKYRQVFIEHYKDILSPS				NA	NA	NA	NA	NA
AK009_04114	687			hypothetical protein	ATGAGTGCTGCAGACAAAACAATATTATTTGTTACATGTATAAATGATCGGAAATTGTATGCAAACTGCGTGCGACATATATTGCAATTGTTAGTACCACCAGGGTATATTGTCCAATTTATGCCGATTCGAAATGCGAAAAGTATGACGAGTGGATACAATCAAGCCATTTCGCATCCAGCGAAGTATAAAGTGTATTTACATCAAGATGTTTTTATTATAAATAGAGCTTTTTTATACGGATTACTTCAATTATTTGAGGAACATGAACACCTTGGTATGATTGGGATGGTTGGAGCGCAATATGTTCCTCCAACTGGTGTATGGAACGAAGGGCGTGGAATTGTAGGAAAGGTCATTGGTTATATGAATGATTTGTTTTATATGGCAAGTTTAGAACAACCGTATCACGAATCAAAAACATTTATTCCTGTAGAATGTATTGACGGTTTATTAATGGCGACACAATATGATGTTCCGTGGCGAGAAGACTTATTTGACGGATTTGACTTTTATGATGTATCTCAATCATTTGAATTTAAAAAAGCAGGATATACAGTCGGTGTACCTGTACAGCGCGATGCTTGGTGTATCCATTATCATTTTGATGTGAATATGACGAACTATGAGAAGTATCGGGAAATATTTGTGGAACACTATATGTCAGAGGTAAATAAGGAAGAATAA	MSAADKTILFVTCINDRKLYANCVRHILQLLVPPGYIVQFMPIRNAKSMTSGYNQAISHPAKYKVYLHQDVFIINRAFLYGLLQLFEEHEHLGMIGMVGAQYVPPTGVWNEGRGIVGKVIGYMNDLFYMASLEQPYHESKTFIPVECIDGLLMATQYDVPWREDLFDGFDFYDVSQSFEFKKAGYTVGVPVQRDAWCIHYHFDVNMTNYEKYREIFVEHYMSEVNKEE				NA	NA	NA	NA	NA
AK009_04115	690	COQ3_3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAATCGCGAAAAAAGTTCTTTATATGAAGAAAAATCCGAGCATTATTATAATGCAGCGAATCCGAATTTATTAAAGCATATAAAAAAGGAATGGAAAGAAGTTCTTGATATTGGTTGCTCGAGCGGTACATTGGGAGCAGCTATTAAAGAAAATGGTACACGTGTATCAGGAATCGAGGCATTTCCAGAGGCTGCAGAAAAAGCGAAAGAAAGACTAGATCATGTTATTTTAGGGGATATAGAAAAAATAGATCTTCCTTATGAGGAGGGGCAATTTGATTGCATCCTATTTGGAGATGTATTAGAGCATTTATTTGATCCATGGGCTGTGATTGAAAAGGTTAAGCCATATATAAAGCAAAATGGTGTGATTTTAGCAAGTATACCAAACGTTGCTCATATTTCAGTATTAGCTCCCTTACTTGCCGGAAATTGGACGTATACAGAATATGGTTTATTAGATAAAACACATATTCGTTTCTTTACATTTAATGAAATGCTAAGAATGTTTTTAAAAGCAGGATATGTTATTAGTAAAGTAGATCGTGTATATGTTGATCATAAAATGTATGAGCCACTTATTGAGGAGTTATATGGAATTTGTAAAAAATATCGTCTTGGAAGTGGCTTCATGGCTGAGACAGTTGTATTTCAGTATATTATTGAAGCTGAAAAATCACAATTATGA	MNREKSSLYEEKSEHYYNAANPNLLKHIKKEWKEVLDIGCSSGTLGAAIKENGTRVSGIEAFPEAAEKAKERLDHVILGDIEKIDLPYEEGQFDCILFGDVLEHLFDPWAVIEKVKPYIKQNGVILASIPNVAHISVLAPLLAGNWTYTEYGLLDKTHIRFFTFNEMLRMFLKAGYVISKVDRVYVDHKMYEPLIEELYGICKKYRLGSGFMAETVVFQYIIEAEKSQL				NA	NA	NA	NA	NA
AK009_04116	267			hypothetical protein	ATGGAACAAGAAAAATATAATGAAGCGATATTTTGGTTTAAACTTGCAACGGAAGTACCAATGGCAACGGAAAGTCCTTTTCATAGTCCAGCTAGCTACACATGGCTACCCTATTTACAAATGTGTATTTGTTATAGCAGGTTAGGGGAGCAGGATAAAGCGTATTATTACAATGAATTAGCAGCTTCTTATGTTCCGAATAATGCTGCAATTGAATATAACCGTAAATATTTTCGGGGAGTTTTTGATAAACCATATAAAGCGTAA	MEQEKYNEAIFWFKLATEVPMATESPFHSPASYTWLPYLQMCICYSRLGEQDKAYYYNELAASYVPNNAAIEYNRKYFRGVFDKPYKA				NA	NA	NA	NA	NA
AK009_04117	849			hypothetical protein	ATGTTGAACAAGCAAGGAATTACAATTAGTTTATGTATGATTGTTCGAGATGAGGAGGAGACAATAGCCCGTTGTTTAGAGACAGTTGAGAAAATTGTGGATGAAATTATAGTAGTGGATACAGGTTCCGTCGATCGAACGAAAGAAATCGTAGAGAAATACACTTCTAACATATATGATTTCCAGTGGATTGATGATTTTGCGGCAGCAAGAAATTTTTCTTTTTCAAAAGCGACGCAAGAGTATATATTGTGGCTAGATGCAGATGACGTATTATTAGAAGATGCTCAAGAAGCATTGAAACTCTTAAAAATAGAATTAGATCCTAAATTTGATGCTGTTTCGATGCCTTATCATCTTGCGATGGATTCTAACGGGAAACCTTTATATTGTACAAAAAGAAATCGACTTGTAAAGCGTGAAAAACAATTTCAATGGTTTGGAAAGGTTCATGAGTATTTAGCTATTGCTGGTGAGACTTTTAGTAGTAAAGTTGCTATTACACATAAAAAAGAAAAAAAAGTAACAAATCGTAATTTGAAAATTTTTCAAAATACTGTAGCTGCAGGGGAAGAATTGAGTTCGAGGGATTTATTTTATTACGCAAATGAATCTATGGATAACCAAAAATATGATGATGCAGTTCTTCTTTATGAAACATTTCTTAATCAAGACGAAGGATGGTATGAAGAGAAAATTTATGCATGTGGTAAGTTAGGAGATTGCTATGCGAAGCTCGGAATGTGGGAGAAGGCAATCGAATCTTGTGTGAAGTCGTTTCGGTATGACGTCCCTAGAGGAGAGAATTGTACAAGAATAGGATATATATATGGAACAAGAAAAATATAA	MLNKQGITISLCMIVRDEEETIARCLETVEKIVDEIIVVDTGSVDRTKEIVEKYTSNIYDFQWIDDFAAARNFSFSKATQEYILWLDADDVLLEDAQEALKLLKIELDPKFDAVSMPYHLAMDSNGKPLYCTKRNRLVKREKQFQWFGKVHEYLAIAGETFSSKVAITHKKEKKVTNRNLKIFQNTVAAGEELSSRDLFYYANESMDNQKYDDAVLLYETFLNQDEGWYEEKIYACGKLGDCYAKLGMWEKAIESCVKSFRYDVPRGENCTRIGYIYGTRKI				NA	NA	NA	NA	NA
AK009_04118	891			hypothetical protein	ATGTCAAATAATAATTATTCAAATGGATTAAATCCCGATGAATCTTTATCAGCTAGTGCATTTGACCCTAATCTTGTAGGACCAACATTACCACCGATACCACCGTTTACCCTTCCAACTGGGCCTACCGGACCTACCGGGCCTACTGGACCGACTGGACCTACTGGCGGAGGAACTGGAATAACTGGACCTACCGGGCCTACTGGTGACACTGGGGCTACTGGACCTACCGGGCCTACTGGTGACACTGGGGCTACTGGACTTACGGGGCCTACTGGTGACACTGGGGCTACTGGACCTACCGGGCCTACTGGTGACACTGGAGCTACTGGACCTACCGGGCCTACTGGTGACACTGGGGCTACTGGACTTACGGGGCCTACTGGTGACACTGGGGCTACTGGACCTACCGGGCCTACTGGGGCTACCGGACCTACGGGAGCTACTGGACCTACGGGGGCTACTGGACCGACTGGACCATCCGGATTAGGACTTCCAGCAGGATTATATGCATTTAACTCCGGTGGGATTTCTTTAGATCTAGGAATTAATGATCCAGTACCATTTAATACTGTTGGATCTCAGTTTGGTACAGCAATTTCTCAATTAGATGCTGACACTTTCGTAATTAGTGAAACTGGATTCTATAAAATTACTGTTATCGCTTATACTGCAACAGTAAGCTTATTAGGAGGTCTTACAATCCAAGTGAATGGAGTACCTGTACCAGGTACTGGATCAAGTTTAATCTCACTTGGAGCACCTATCGTTATTCAAGCAATTACGCAAATTACGACAACTCCATCATTGGTTGAAGTAATTGTTACAGGACTTGGGCTATCATTAGCTCTTGGTACGAGTGCATCCATTATTATTGAAAAAGTTGCTTAA	MSNNNYSNGLNPDESLSASAFDPNLVGPTLPPIPPFTLPTGPTGPTGPTGPTGPTGGGTGITGPTGPTGDTGATGPTGPTGDTGATGLTGPTGDTGATGPTGPTGDTGATGPTGPTGDTGATGLTGPTGDTGATGPTGPTGATGPTGATGPTGATGPTGPSGLGLPAGLYAFNSGGISLDLGINDPVPFNTVGSQFGTAISQLDADTFVISETGFYKITVIAYTATVSLLGGLTIQVNGVPVPGTGSSLISLGAPIVIQAITQITTTPSLVEVIVTGLGLSLALGTSASIIIEKVA				NA	NA	NA	NA	NA
AK009_04119	846	mycF		Mycinamicin III 3''-O-methyltransferase	ATGGAAAGTAAATCTGCTGTTCAGCTTTATCTCGAATTGCTAAAGAAAACAATTTTATTTGAAATATGGTTGGAATATGAGGCATACTTACCCGCATCTCTACATATTTCGAAAGAACTAGAATTCGAACCCGTTACAGTCCCCCTCCCTTTATTCATTAAGCAATATGCCGAAAACCATAACTTAAAAATTGTAAAACCAAATGTTTCAAAAAGTGAACGTCATGATGGAATGGATTGGCCAAGAGCAGCACATAGCATGATTGGTCGAGAACGTATGAACCAATTACAAGAGGCAATGGAAACCGTTGTTCGTGAAAATATAGAGGGAGATTTTATTGAAACAGGTGTATGGCGCGGAGGATCATGCATTTTTATGAATGGTTTTTTACAAGCAAACAACATTACGAATCGTACTGTGTGGGTCGCAGATTCATTTGAAGGTTTGCCAGCACCGAATCTAGAACAATATCCAAAAGATTACGGTGATTATTTACACACATTCGATTACTTACGCGTCTCTTTAGAACAAGTACAAGAGAATTTTAAAAAATATGATTTACTAAATGATCAAGTGAAATTTTTAAAAGGTTGGTTTAAAGATACTTTACCAACAGCACCAATTGAAAAAATAGCAATTGCACGGCTTGATGGTGATATGTACGAATCCACCATGGATGGTCTCATGAACTTATATGATAAAGTTTCTAAAGGTGGCTATATAATTATCGATGACTACGGGCTACCGCCATGCGCTGAGGCTGTGACAGACTTTAGAAAGCAACGAAATTTAAAAGCCCCTATTACTAAAATTGATGTATTTGGCGTTTATTGGAGAAAAGAATAA	MESKSAVQLYLELLKKTILFEIWLEYEAYLPASLHISKELEFEPVTVPLPLFIKQYAENHNLKIVKPNVSKSERHDGMDWPRAAHSMIGRERMNQLQEAMETVVRENIEGDFIETGVWRGGSCIFMNGFLQANNITNRTVWVADSFEGLPAPNLEQYPKDYGDYLHTFDYLRVSLEQVQENFKKYDLLNDQVKFLKGWFKDTLPTAPIEKIAIARLDGDMYESTMDGLMNLYDKVSKGGYIIIDDYGLPPCAEAVTDFRKQRNLKAPITKIDVFGVYWRKE	PGPT0010620_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-TYPE_II_POLYKETIDE-ELLORAMYCIN_METABOLISM,PGPT0010620-elmMIII-K19569	NA	NA
AK009_04120	753			putative protein	ATGAGCGAACTTAACAAAGAAATGACTTTACTCCCCCCTCCTGAACTCGTCCAATATGTAGGTGGCGACTTCAAAAAGGTGGGAAAAGAGTTCCTAAAGCATTTTATTCAAATTGGCGCTTTAAAATCAAATGAAAAAGTATTAGATGTAGGCTGCGGCGTCGGCCGAATGGCTGTACCATTAATGAATTACTTAAATGATGATGGAGCATATTATGGATTTGATTTGTTTAAAGATGGAATTACTTGGTGTCAAAATAACATTTCAACTATGCGTAATAATTTTCACTTTGAACATGTTGACATATACAATCAATTCTATAATCCAGAAGGAAAAGAAGATGCCTCTCAATATCGTTTTCCCTATGAAGACGGAACATTCGATTTTATCTTTTTAACTTCTGTATTTACACATCTTCTTCCAAAAGAATTAGAACATTACGTATCTGAAATTGTACGTGTATTAAAAAAAGACGGGAGATGTTTCATTACATTCTTTCTAATAAATCCTGAATCGTCCTATTATTTAAATGCAGGACAAAGTACATTAGGTTTTTATCATCGAATTGAAAATTGCTACGTTGTAAATAAAGATATTCCCAATTTTGCAGTTGCTTATCCTGAGACAGATATTTGCAATCTATTGAATAAGTATGGTCTAGAAATAATCAATAAGCCACATTATGGTTTATGGTGCGGCAGACCAGAATATACAAGTTACCAAGATATTGTTCTTACAAAAAAAAGCTTCTGA	MSELNKEMTLLPPPELVQYVGGDFKKVGKEFLKHFIQIGALKSNEKVLDVGCGVGRMAVPLMNYLNDDGAYYGFDLFKDGITWCQNNISTMRNNFHFEHVDIYNQFYNPEGKEDASQYRFPYEDGTFDFIFLTSVFTHLLPKELEHYVSEIVRVLKKDGRCFITFFLINPESSYYLNAGQSTLGFYHRIENCYVVNKDIPNFAVAYPETDICNLLNKYGLEIINKPHYGLWCGRPEYTSYQDIVLTKKSF				NA	NA	NA	NA	NA
AK009_04121	927			hypothetical protein	ATGGCGAGTGAAAAAAATCTACCTCTCGTTTCTATCCTTATTCCCACTTATAATCGACCCCATTATTTCAAAATCGCTCTAGAAAGTGCATTGGCACAAACTTATTCAAATATTGAAATCATCATCGGAGATGATAGTACAAATGATGAAACAGCAACTCTAATCCATGAACAATACTTACCAAATTATAAAAATATAACATACATTCGAAATATCTCTACTCTAGGACAATTTCACAATGACCTTATGCTCATAGAAAAATCAAATGGTGAGTATATAAATTTTTTAATGGACGATGACGTGTTTTATAAGCATAAAATACAAAAAATGATGGCCTATTTTGAGCAAGATTCCAATAAAGATCTTGCTCTTGTTACTTCTTATCGAGTACGTATTGATGATCATGGAAATCTAATCGGCGATGCCCATCCAACACAAAAGTTATATAGCGAAGATACACCATTAAACGGAATATTTTTAGGCGACTGGATGCTAAAGGCCGGCCACAACATTATCGGCGAACCTACAACTACTTTGTTTCGAAAGAACTTGCTCACTGAACCTTTTGGCACCCTTAAAGAGCGACAATATTCTTGTAGTGTTGATATGGCCTCATGGATTTCTTTACTTTCTAAAGGAAATGCAATATACATTTCTGAGCCTTTAAGTCAATTTCGCTACCATGCTGGACAACAAATACACAATAAACTACTTCAAGGTTGCGAAGATTTCACACACCTCGTTATAACAGCAAAAGAATATGGATTTTTACAAAATACTATAGACTATAGAACAGCTCTACTTAGTGCTTACAAATGGTGTAAAAGTTCCTTAAAATACTACCTTCATCAACTAGATATTTTTCCTGACGCACATGTACGTCTTGCCCATTGTTTGGATATAATTATTAAAGAGTTAAACAATTAA	MASEKNLPLVSILIPTYNRPHYFKIALESALAQTYSNIEIIIGDDSTNDETATLIHEQYLPNYKNITYIRNISTLGQFHNDLMLIEKSNGEYINFLMDDDVFYKHKIQKMMAYFEQDSNKDLALVTSYRVRIDDHGNLIGDAHPTQKLYSEDTPLNGIFLGDWMLKAGHNIIGEPTTTLFRKNLLTEPFGTLKERQYSCSVDMASWISLLSKGNAIYISEPLSQFRYHAGQQIHNKLLQGCEDFTHLVITAKEYGFLQNTIDYRTALLSAYKWCKSSLKYYLHQLDIFPDAHVRLAHCLDIIIKELNN				NA	NA	NA	NA	NA
AK009_04122	1161	rodA_3	COG0772	Peptidoglycan glycosyltransferase RodA	TTGAAAGATTCAAATTCTCAATATCAAATAGACTACGTATTACTATTTATTTTATTTGCCATTGGGATTGTTAGTTGTTGTGCTATTGCAAGTGCGCAAGCCTCCTTACCGCCATTTTTACAAAACGTCAATTTTGTACTCAAGCAAATCCAATGGTACTTCATTGGATTTATAGCCATTGGTGTTATTATGATTATCGATTTCGATCGTTATCAAAAAATTGCTTGGTATTTGTATAGCTTTGCAATGGTACTACTTATTGGACTAGAACTTCAAGTACCGGGTGCCGTTACAATTAAAGGCGCTACCGCTTGGTACAGGCTCCCAGGCATCGGAAATTTTCAGCCTTCTGAAATTATGAAATTGTTTTTAATTATCGTCATTGGACGAATTATAGCAAATCATAATGAGAAATATTTTTCCCAAACAATGCGTGACGATTTTTTATTACTTGGAAAAATATTTGCGACAAGCTTGCCACCACTACTACTTATTGCAAAAGAACCAGATTTAGGAAACACAATGGTCATTTCAGCGATGCTTGCAGCAATGATACTAGTTTCTGGCATACGATGGCGTTTTATTTTCGGATTAGTTTCAGGTACTTTCGTGGCTGGATCTACATTAATATATATATTTTTTACTCACACAGATTTCTTTAAAGCACACATTTTAAAAGAATATCAATTAAATCGCTTCTACGGATGGTTGGCACCTTACAAATATGATGCGCAAGGCTATCAATTAAGACAAGCATTCTTAGCGACTGGATCCGGAGAAATGCAAGGAAAGGGGTGGGAAAATGGACAAGTATATTTTCCAGAACCACATACAGATTTTATTTTCACTAATGTCGCTGAACAATTTGGATTTCTAGGTGCAAGTGTCATTATTTCACTTTTTTTCTTACTCATTTTTCGAATGATTCATATCGCTTTAGAAAGTAATGACCCTTTCGGTAGTTACATTTGCGCTGGTACAATCGGAATGTTTACTTTCCAAGTATTCCAAAATATCGGGATGACAATCGGATTACTTCCCATTACAGGGATAACATTACCTCTTATGAGCTACGGAGGAAGTTCACTGCTTACATACATGATTGCGATTGGATTCATTTTAAATATTCGCTCAAGAACGAAAAGCTTTATGTTTAAATGA	MKDSNSQYQIDYVLLFILFAIGIVSCCAIASAQASLPPFLQNVNFVLKQIQWYFIGFIAIGVIMIIDFDRYQKIAWYLYSFAMVLLIGLELQVPGAVTIKGATAWYRLPGIGNFQPSEIMKLFLIIVIGRIIANHNEKYFSQTMRDDFLLLGKIFATSLPPLLLIAKEPDLGNTMVISAMLAAMILVSGIRWRFIFGLVSGTFVAGSTLIYIFFTHTDFFKAHILKEYQLNRFYGWLAPYKYDAQGYQLRQAFLATGSGEMQGKGWENGQVYFPEPHTDFIFTNVAEQFGFLGASVIISLFFLLIFRMIHIALESNDPFGSYICAGTIGMFTFQVFQNIGMTIGLLPITGITLPLMSYGGSSLLTYMIAIGFILNIRSRTKSFMFK				NA	NA	NA	NA	NA
AK009_04123	741	prpE	COG0639	Bis(5'-nucleosyl)-tetraphosphatase PrpE [asymmetrical]	ATGAAATATGACATTATAGGAGATATTCATGGATGCTTCCAAGAGTTTCAAAATTTAACAGAGAAGCTAGGGTATAACTGGAGTAGCGGTCTACCGATCCACCCTGAACAACGTAAACTTGCATTCGTTGGTGATATTACAGACCGTGGTCCTCATTCATTACGTATGATCGAAATTGTATGGGAACTTGTCATACATAAAAAAGAAGCTTATTACGCTCCTGGAAATCACTGTAATAAACTATATCGATTTTTCCTTGGACGTAATGTAACAATCGCTCACGGACTTGAAACAACTGTCGCTGAATATGAGGCACTTCCTTCTCATAAGCAAAACATTATAAAAGAAAAGTTTATCACTCTTTATGAACAATCACCACTCTACCACATACTAGATGAAAAAAAAGTAATCGTATGTCACGCTGGGATTCGGCAAGATTACATAGGAAGACGAGATAAAAAAGTACAAACCTTTGTATTATATGGTGATATTACAGGAGAAAAGCATGCCGATGGCTCACCTGTCCGTCGCGATTGGGCGCAAGAATACAAGGGGCAAGCTTGGATTGTATATGGACATACACCAGTAAAAGAACCTCGATTCGTCAATCAGACAGTCAATATTGATACTGGTGCTGTATTTGGTGGCAAATTAACCGGATTACGTTATCCTGAAATGGAGACTATCTCTGTCCCTTCTTCTTTACCTTTTGTCGCTGAGAAGTTCCGTCCAATTTCATAA	MKYDIIGDIHGCFQEFQNLTEKLGYNWSSGLPIHPEQRKLAFVGDITDRGPHSLRMIEIVWELVIHKKEAYYAPGNHCNKLYRFFLGRNVTIAHGLETTVAEYEALPSHKQNIIKEKFITLYEQSPLYHILDEKKVIVCHAGIRQDYIGRRDKKVQTFVLYGDITGEKHADGSPVRRDWAQEYKGQAWIVYGHTPVKEPRFVNQTVNIDTGAVFGGKLTGLRYPEMETISVPSSLPFVAEKFRPIS	PGPT0030420_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
AK009_04124	1389			hypothetical protein	ATGAAGAAAAAATCTTCTAAACAAAAAAGAAAATTTCCCCCTTTATATCTGCCCATGTACGGAATTAACAACTGGTGTAGCATTCGGGCTGCAGCCATAGAAGAACTAGAAGAACAAGAGTCATCAAAAAAAAGCAAAGTAAAACCAACATATGTCTCTTTAGAAAATGCTGTGATGAACCACATAATCGATCGCAGAAAAATAAAGATGCAACAAAAAAATAAACAGCTCTCAAATCAAGATGAACAGGTACTACGTTCTAACCAAACAGAAGAAACGGTGGAAGAAAATAATTCTGTAGCAATAAATAAAAAAGTGGAACCAGAAATTCCAGCTGCTATTATAAACAAAGTAAAAAAAATAAAAGAAGCATTAGCTTCATCGAATGATATACAAACTGAAAAACCACTCATAATTGAGACACCTACACCTGAAAATACAAAAGTTAAAAGGGGCGGCCGATATGCATATGCGGAGGGGCTTCACTCTCATGCGGAGGGCATGGCAGCACATGCGGAAGGCTTATTAACACACGCAAAAGGTTCTTTCTCTCATGCAGAAGGATCCAACTCAAAAGCAACTGGACATAGTTCGCATAGTGAGGGAAGTGAAACGACAGCAGGCGGTGCTTATTCTCATGCGGAGGGTAAACAGACGACTGCTTTAGGCGAAGCAGCACACGCAGAAGGAACCGCAACTATCGCTAACGGCTTCTCTTCTCATGCGGAAGGTCATCATACATCAACAGCTCATTTTGCAGGTAGCCATATTATGGGGCGCTTCGGCACTGCAGAAGAAGCTTATTCCTGGTTTATTGCAAATGGTGCAAACGACACCGACCATAATATCGGTGCTAAATGGCTTGCCCATAATGGAGAAATGTATATTGAGGGCGCGTCTTACAATGCAAGCGGAACGGATTTTGCACAAATGTTTGAAACAGAAGGTCATAAACCTATTGATGTCGGTTATTTCGTTACATTTAGTAGCGAAGAAAAAATTCGGATAGCTACTTCACACGATTCGTTCATTTTAGGAATATCTAGTGCAACCCCTGCACTTATAGGAAATAGCGGGGCTTTAAGTTGGCAAAAACGCTATAAAACAGACAACTTTGGAAAACGCCAATATGTATGGACGGAATCAGAAGAAATACAACCTCTTTTAAATACAGAATGGGATCCAGCTTGCAAATATGTAGCAAGAAAAGATCGCGCCGAGTGGCTTCCTGTCGGATTAATTGGGCAAATGTTAGTACGTGATGACGGCACTTGCGAAACGCATGGATATTGTCGTCCAAATGACAATGGCATTGCTACAAAAGCCGAAAGTGGATTTTTTGTTATAAAGCGTACGGGTGAGAACCAAATTTTAATATTATTCCGCTAA	MKKKSSKQKRKFPPLYLPMYGINNWCSIRAAAIEELEEQESSKKSKVKPTYVSLENAVMNHIIDRRKIKMQQKNKQLSNQDEQVLRSNQTEETVEENNSVAINKKVEPEIPAAIINKVKKIKEALASSNDIQTEKPLIIETPTPENTKVKRGGRYAYAEGLHSHAEGMAAHAEGLLTHAKGSFSHAEGSNSKATGHSSHSEGSETTAGGAYSHAEGKQTTALGEAAHAEGTATIANGFSSHAEGHHTSTAHFAGSHIMGRFGTAEEAYSWFIANGANDTDHNIGAKWLAHNGEMYIEGASYNASGTDFAQMFETEGHKPIDVGYFVTFSSEEKIRIATSHDSFILGISSATPALIGNSGALSWQKRYKTDNFGKRQYVWTESEEIQPLLNTEWDPACKYVARKDRAEWLPVGLIGQMLVRDDGTCETHGYCRPNDNGIATKAESGFFVIKRTGENQILILFR				NA	NA	NA	NA	NA
AK009_04125	894	rluD_3	COG0564	Ribosomal large subunit pseudouridine synthase D	TTGAACAGATTTACATTGAAATGGGATATAGGACTGGCTGAAGAGAGTACTTTAGTTAGGGAATTTTTGAAAACGAAAGGTATTTCTAAAGCCGCTTTAACGGATATAAAGTTTCACGGCGGGGCAATTGAAGTAAATGGTCAACATGCGAGTGTTCGTCATCAGTTGCGCGCTAGTGAAGAATTACGCATCTTTTTTCCAGTGGAGGAAAGAAGTGAAGGGATGATTGCAGAAGATATCCCTTTATGCATTGTATATGAAGATGATGCGGTTCTTATCATTAATAAAGAGGCGAACATGTCAACGATTCCATCTAGGGAACATCCGACAGGGAGTGTTGCCAATGCGCTTTTATCTCATTATGATAAGCAGCATCTTGCAAGTACAGTACACATTGTAACACGGTTAGATCGTGATACTTCAGGGCTTATGCTTATTGCAAAAAATCGTTTCGTGCATCATCTTTTATCGAAGCAGCATCAACAAAAAGCTGTGAAACGAACGTATGAAGCAATTGTTCACGGTGAGATGGTAGAACGAGAAGGAATGATTGATGCACCAATTGGTCGGAAATCTGATAGCATTATTGAGCGAACGGTTTGTGAGGATGGACAAAGGGCAGTTACTCATTTTAAAGTAATTGATAGTACATATCATAAGACACATGTAGCGCTGGAGCTTGAGACAGGAAGAACGCATCAAATTCGTGTGCATATGGCTCATATAGGACATCCATTACTTGGTGATAACTTATATGGAGGAAGAAGGGATGAAATGAAACGGCAAGCACTTCATAGTAAATCTTTGACGTTTTATCATCCTATTTTAGAGAAAGAAATGTCTTTCACTATAAAGATTCCAAGCGATATGCAAGAGTTACTTAGGAATGCTTAA	MNRFTLKWDIGLAEESTLVREFLKTKGISKAALTDIKFHGGAIEVNGQHASVRHQLRASEELRIFFPVEERSEGMIAEDIPLCIVYEDDAVLIINKEANMSTIPSREHPTGSVANALLSHYDKQHLASTVHIVTRLDRDTSGLMLIAKNRFVHHLLSKQHQQKAVKRTYEAIVHGEMVEREGMIDAPIGRKSDSIIERTVCEDGQRAVTHFKVIDSTYHKTHVALELETGRTHQIRVHMAHIGHPLLGDNLYGGRRDEMKRQALHSKSLTFYHPILEKEMSFTIKIPSDMQELLRNA				NA	NA	NA	NA	NA
AK009_04126	798	ppnKA	COG0061	NAD kinase 1	ATGAAATTTACAATTATGTCAAAGGGAGATCAATCATCAGATACACTGGCAAGCACGATGAAAGAGTACTTGTTAGATTTTGGATTTACAATGGATGAAAAGGAACCCGATATTGTAATTTCTGTTGGGGGAGATGGAACGCTTTTATATGCGTTTCATCGTTATTATAATCGATTGGATGAAACAGCATTTGTTGGTGTACATACAGGACATTTAGGTTTCTATGCAGATTGGTTACCGACAGAAGTAGAGAAATTAGTAATTGCGATTGCGAAAACACCATTCCAAGTGGTGGAATATCCGCTTTTAGAAGTGATTATTCGCTATGTGAATGGAAGTAAAGAGTCACAGTATTTGGCGATGAATGAGGCGACTGTAAAAAGTGCAGAAGGTACATTAGTAACAGAAGTAGAAATACGCGGAGAATATTTTGAAACATTCCGCGGGGACGGCCTTTGTATTTCTACTCCTTCAGGAAGTACTGCATATAATAAAGCGCTTGGCGGAGCAATTATTCACCCTTCTATTGAAGCGATTCAAATTGCAGAAATGGCGTCCATTAACAATCGTGTGTTTCGTACTGTGGGATCGCCACTCGTATTGCCGAAGCACCATACATGTGTGTTAAAGCCAGCTGCAGGAATGAACTTACAAATTACAGTGGATCATTTAACGATGGTTCATCAAGATGTGAAATCAATCCAGTATCGCGTCGCAAACGAGAAAGTACGATTTGTTCGTTTCCGCCCGTTCCCGTTCTGGAAACGAGTTCGTGACTCGTTTGTTGCAGATAAATAG	MKFTIMSKGDQSSDTLASTMKEYLLDFGFTMDEKEPDIVISVGGDGTLLYAFHRYYNRLDETAFVGVHTGHLGFYADWLPTEVEKLVIAIAKTPFQVVEYPLLEVIIRYVNGSKESQYLAMNEATVKSAEGTLVTEVEIRGEYFETFRGDGLCISTPSGSTAYNKALGGAIIHPSIEAIQIAEMASINNRVFRTVGSPLVLPKHHTCVLKPAAGMNLQITVDHLTMVHQDVKSIQYRVANEKVRFVRFRPFPFWKRVRDSFVADK	PGPT0013490_5561	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
AK009_04127	639	yjbM	COG2357	GTP pyrophosphokinase YjbM	ATGAATCGAAATTGGGAAGAATTTTTAGCACCTTACCATCAAGCGGTGGCAGAGCTGAAAGTGAAACTAAAAGGAATGCGTACTCAATTTGCAATGTTGACAGAGCATTCTCCAATTGAGTTTGTAACAGGAAGGGTAAAGTCGGTTGCTAGTATTATTGATAAAGCGGAGAAGAGAAATGTACCGCTAGATCGGCTGAGAGAAGATATGCAAGACATCGCGGGCCTTCGAATGATGTGTCAATTTGTTGATGAGATTAAGCCTGTTGTAGAATATCTTCGAAAACGAAATGACTTTGAAATCGTGGAAGAACGTGATTATGTCACGCAAAAGAAAGATAGCGGCTATCGCTCTTATCACGTTGTCATTAGTTACCCCGTTCAAACGATTCAGGGAGAAAAAAAAGTATTGGTAGAAATCCAAATACGCACGTTAGCAATGAACTTTTGGGCAACAATTGAGCATTCTTTAAATTATAAATATAGTGGACGTTTTCCTGAAGATATTAAAATACGCTTGCAACGTGCAGCGGAAGCGGCGTTTTTATTAGATGAAGAAATGTCTTCTATTCGTCTTGAGATTCAAGAAGCGCAGAAGGCTTTTTCAAGAAAGCAAGAAACGAAAGATTCCGAATCATAA	MNRNWEEFLAPYHQAVAELKVKLKGMRTQFAMLTEHSPIEFVTGRVKSVASIIDKAEKRNVPLDRLREDMQDIAGLRMMCQFVDEIKPVVEYLRKRNDFEIVEERDYVTQKKDSGYRSYHVVISYPVQTIQGEKKVLVEIQIRTLAMNFWATIEHSLNYKYSGRFPEDIKIRLQRAAEAAFLLDEEMSSIRLEIQEAQKAFSRKQETKDSES	PGPT0014825_1328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK009_04128	372			hypothetical protein	ATGCAAAATAAAATTCAAGTTAAGAGCGTAGAAAAGAGAGAGAATGCGCTTATTTTTTGTGCGGAAAATAATGAAATAGAGGTAAAGGAGTTAAGTGCGCGTAATCACGTACTTGTAGACTCAGACAATTTATCATTTTTATATATTTTAGAAAACGAATCATCTTTCATTTATGTAAGTATTCCGCACACATGCTGGGAAGCAATGCATGAAGCGATGAATAACGATATAGTAATGTTCGTTCGTGTGAATGACGTTGAAATGGAATTAGAAAATTTAAAAGAAGAAGTAGAATATTTAGTTGAAAATATTGAAGGTAATGCAAATTACGGAGAAGAACTAGTAACTGCTGTAGAAAAAGTATTTCTATAA	MQNKIQVKSVEKRENALIFCAENNEIEVKELSARNHVLVDSDNLSFLYILENESSFIYVSIPHTCWEAMHEAMNNDIVMFVRVNDVEMELENLKEEVEYLVENIEGNANYGEELVTAVEKVFL				NA	NA	NA	NA	NA
AK009_04129	579	yjbK	COG4116	Putative triphosphatase YjbK	ATGACACAAGAAATTGAAATTGAATTTAAAAATATTGTTACAGAAGAAGAATTCGATACATTATGTAAATCATTCTCTATTGAAGCATTTACGAAACAGGTGAATCACTACTTTGAAACACCGGGCTTCTCGTTAAAAGAAGCCGGCTCTGCACTTCGTATTCGTCATAAAGGAGAAATTTATACATTAACATTGAAACAACCTGCAGAAGTCGGCTTGTTAGAAACGCATCAAGTCGTAACAGAAGACGCAGCAAGAATGATGATGGAAACAAACGTAATCATTCCAGGGGCTGTAATGGATCAACTACACAAATTACAAATTCCTGTTTCCACTTTAACTTATATGGGTAGTTTAACAACTGAAAGAGCCGAAGCATTATTTAAAGGCGGAACGCTTGTCTTTGATCATAGTTTCTATTACAATCACGATGATTATGAAATTGAATTTGAAGTGCAAGATGAAGAAACAGGAAAAGCTGCATTTATTCATTTATTAACGCAACATAACATACCTGTTCGTCATACAAATAACAAAGTAAAACGCTTTTTCCTTGCCAAACAAAACAAAGCACGCTAA	MTQEIEIEFKNIVTEEEFDTLCKSFSIEAFTKQVNHYFETPGFSLKEAGSALRIRHKGEIYTLTLKQPAEVGLLETHQVVTEDAARMMMETNVIIPGAVMDQLHKLQIPVSTLTYMGSLTTERAEALFKGGTLVFDHSFYYNHDDYEIEFEVQDEETGKAAFIHLLTQHNIPVRHTNNKVKRFFLAKQNKAR				NA	NA	NA	NA	NA
AK009_04130	399	yjbI	COG2346	Group 2 truncated hemoglobin YjbI	ATGAGCAAGCAACCGATGACACCATTTGAAGCAATTGGCGGTGAACAATGCATTGCAATATTAGTAGATACATTTTATTCCTATGTCAGTAAACACCCTGACTTATCTCCCATCTTCCCGGAAGATTTAACAGAAACCGCTAGGAAGCAGAAGCAATTTTTAACACAATATTTAGGTGGTCCTAATTTGTACACTGAAGAACATGGTCATCCTATGTTAAGAGCACGCCATCTTCCGTTTGAGATTACTCCAAAACGAGCAGAGGCTTGGCTATCATGTATGGAGCAAGCAATGGATGATACTGGAGTGCATGGTCATATAAGAGAGTTTGTTTTTGAACGTTTAGCATTAACTGCTCAGCATATGGTTAATACTCCAAACGAAACAGGTGAAGTGTAA	MSKQPMTPFEAIGGEQCIAILVDTFYSYVSKHPDLSPIFPEDLTETARKQKQFLTQYLGGPNLYTEEHGHPMLRARHLPFEITPKRAEAWLSCMEQAMDDTGVHGHIREFVFERLALTAQHMVNTPNETGEV				NA	NA	NA	NA	NA
AK009_04131	894			hypothetical protein	ATGGATAAGCAGGAAGCAAAGCATATAAATATGCCATCTCCTTCCGCATGCGAGCATAAGTCTGTAGAAGCATATTTATTTATTGATCCACTTTGTAAAGATTGCTGGGAAATTGAGCCTTTTATTATTAAACTATGGCTTGAATACGGGAAATACTTCTCTATTCGTCATATCGTAACAGGAAAAGTGGATGGAACGAACGCTTCCTCACACAAATGGAATAAACCTGCTAATATTCGATTTGTGTGGGAAAAGACAACAAGTTTACAAGGTTTTTCATGTGATGGAAAGGTACATATGCAAGAAGCATCGTCAACACCATATTTAGTTTCGATGGCGATTAAGGCAGCGGAGTTACAGGGCCGAAAAGCAGGTTCGAAGTTTTTGCGAAAACTCCAAGAATACATTTTCCTTGAAAATGTATCAACCCCTGACTGCGAACTATTACTTGCATGTGCGAAAGATAGCAATATTGATGTAGAAGAATTTAAAAAAGATCTACATTCTGCTAGTGCAAAAAAAGCTTTCCAATGTGACTTGAAATTCACGAATGAAATGCATATTACAGAAATACCCTCCCTCGTCTTTTTTCATGCGAACTCAGATGAAGAAGGTATTAAAATCGCTGGAAATTATTCCTACGATGTATACGTACAATTATTGAAAGAACTTGTAAAATGTGAAATTGAGCCAGAACCATTACCACCTTTAGAAGCATTACTAGAAGCAACACAATTTATATCTTCAAAAGAAGTAGCATTTATTTATGACTGTCCGCAGCAAGAAATTGAGCGCGAACTTAAAAAATTACAACTGAAACGAAAAGTACAAATGATTGAAGTAAAATGCGAACGTTATTGGAAATGGATAGCAAAAGAAAAAGACCTGGTGTAA	MDKQEAKHINMPSPSACEHKSVEAYLFIDPLCKDCWEIEPFIIKLWLEYGKYFSIRHIVTGKVDGTNASSHKWNKPANIRFVWEKTTSLQGFSCDGKVHMQEASSTPYLVSMAIKAAELQGRKAGSKFLRKLQEYIFLENVSTPDCELLLACAKDSNIDVEEFKKDLHSASAKKAFQCDLKFTNEMHITEIPSLVFFHANSDEEGIKIAGNYSYDVYVQLLKELVKCEIEPEPLPPLEALLEATQFISSKEVAFIYDCPQQEIERELKKLQLKRKVQMIEVKCERYWKWIAKEKDLV				NA	NA	NA	NA	NA
AK009_04133	1827	pepF1_2		Oligoendopeptidase F, plasmid	ATGTCTGAACAAAACAAAGCGAAAACATTACCAGATCGCAATGAGATTGAAGAAGCAAGTACGTGGCGATTAGAAGATATTTTCCAAACAGATGCAGAATGGGAAAAAGAATTCCAAGCTATTAAAGAGCTATTACCGAAGTTAACTGAATTTAAAGGGAAACTTGGTGACTCTGCGGACAATTTGCTTGAGGCATTGCAATATGAAGACGAAATTTCAATGCGATTAGGTAAGCTATATACATATGCTCATATGCGTTACGATCAAGATACAACAAACTCTGTATATCAAGCATTAAATGATCGCGCAACAAATTTATATTCACAAGTATCTAGTAGCACAGCGTATATTGTACCTGAAATTTTGTCGGTTTCAGAAGATACACTGCAAACATTCTTGAAGGAAAATAGAGATTTAAGTGTATATGAACATGCATTAGAAGAAATTACACGTCAACGCCCGCACGTATTATCAGAAGCTGAGGAGGCTTTATTAGCGGAAGCATCTGAAGTAATGAGTTCATCAAGCAATACATTTGGTATGTTGAATAACGCGGATTTAAAATTCCCATCTATTAAAGGTGAAGACGGAGAAGAAATAGAAATTACACATGGTCGTTACATTCAGTTTTTAGAAAGTGATGATGGCCGTGTTCGCGAAGATGCATTTAAAGCTGTATATGAAACGTACGGGAAATTTAAAAATACATTCGCAAGTACGTTAAGCGGAGCAGTAAAACGTAATAATTTCAATGCGCGTGTTCGTAAATATGATTCTGCTCGCCAAGCTGCACTAAGCAATAATAATATTCCGGAAGCAGTATATGATCAACTTGTTGAAACGGTAAATGACAACTTACATTTATTACACCGTTACATCGATATTCGTAAGCGTGCATTAGGACTTGATGAGCTTCACATGTATGATTTATATACACCACTTGTACCAGAAGTGAAAATGAATGTGAAATACGAAGAAGCGCAAGACCTTTTATTAAAATCTTTAAACGTACTTGGTGATGAATATGTTGATATTTTGAAAGAAGCATATGAAAATCGCTGGGTAGATGTGTATGAGAATAAAGGAAAACGAAGCGGGGCATATTCATCTGGTGCATATGGAACAAATCCGTATATTTTAATGAACTGGCATGATAATGTAAATAATTTATTTACACTTGCTCATGAATTTGGTCATTCGGTGCATAGTTACTATACAAGAAAAACACAACCGCACGTATATGGTGATTATTCCATCTTCGTAGCAGAAGTGGCATCAACTTGTAATGAAGCGCTTCTAAATGATTATTTATTAAAAACGACAGAAGATAAGAAAGAGCGTCTATATTTATTAAATCATTATTTAGAAGGGTTCCGTGGTACTGTATTCCGTCAAACGATGTTTGCAGAGTTTGAACATATTATTCATAAGAAAGTACAAGAAGGACATGCTGTTACGCCAGACATGCTAACGGAAATCTACTACGATTTAAATAAGAAATATTTCGGTGACGCTTTAGTAATCGACGAAGAGATTGGTTTAGAATGGTCTCGTATTCCGCACTTCTACTACAACTATTACGTATATCAATACGCAACAGGATTTAGTGCAGCGACAGCTCTATCTAAACAGATTTTAGAAGAAGGACAACCAGCAGTAGAACGTTATATTAACGAATTCTTAAAAGCAGGAAGCTCTGATTATCCAATTGAAGTGCTGAAAAAAGCAGGAGTAGATATGGCATCTCCTGAACCAGTAAAAGAGGCACTACAAGTATTTGAAGAGAAATTAAATGAATTAGAAGCATTATTATTTGAAGAAAAGTAA	MSEQNKAKTLPDRNEIEEASTWRLEDIFQTDAEWEKEFQAIKELLPKLTEFKGKLGDSADNLLEALQYEDEISMRLGKLYTYAHMRYDQDTTNSVYQALNDRATNLYSQVSSSTAYIVPEILSVSEDTLQTFLKENRDLSVYEHALEEITRQRPHVLSEAEEALLAEASEVMSSSSNTFGMLNNADLKFPSIKGEDGEEIEITHGRYIQFLESDDGRVREDAFKAVYETYGKFKNTFASTLSGAVKRNNFNARVRKYDSARQAALSNNNIPEAVYDQLVETVNDNLHLLHRYIDIRKRALGLDELHMYDLYTPLVPEVKMNVKYEEAQDLLLKSLNVLGDEYVDILKEAYENRWVDVYENKGKRSGAYSSGAYGTNPYILMNWHDNVNNLFTLAHEFGHSVHSYYTRKTQPHVYGDYSIFVAEVASTCNEALLNDYLLKTTEDKKERLYLLNHYLEGFRGTVFRQTMFAEFEHIIHKKVQEGHAVTPDMLTEIYYDLNKKYFGDALVIDEEIGLEWSRIPHFYYNYYVYQYATGFSAATALSKQILEEGQPAVERYINEFLKAGSSDYPIEVLKKAGVDMASPEPVKEALQVFEEKLNELEALLFEEK	PGPT0020965_637	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
AK009_04134	1245	coiA	COG4469	Competence protein CoiA	GTGATTACGATATTTATAGCTAAAAGAGAAAACGGAGAAAAAATTCATTTACTCTACAATTGTAATGAAGAGCTTTTGCGCCGTATGCGTCAACAGGAACGATTCTTTTGTGTAGCTTGTGGAAAGGAAGTACAAATGAAATTAGGGAAACAAAAAAGTTGGCATTTTGCTCATAAAAAAGTGGATTCATGTCTTGCCTTTTATGAAGCGGAATCTATGTATCATAGGCACGGTAAAGAATTGTTATATAGATGGTTCGAACGTCAAAACTTTCATGTAGATATAGAGCATTATCTGCCCCAGATTCAGCAACGACCAGATATTTTTATAGAGAGAGCAGGGAGAAAAATTGCGATTGAATACCAATGCGCAAATCTTTCTATAGAGCAGCTGTACAAACGAACCTATTCGTATTGGCGAGTGGGTATACAGGTCATTTGGATCATTGGTGGAAATCAATTGAAAAAGCAATCTGCATATTGGATGAAATTTTCCTCACTTATGGCTTTCTCCTTACAATCTTATCCTCAACCATTTCTTATTTTCTTCTGTTCCAAACAAAAAGCATTTATGAAATGCGCGTTTCTCACTTCTTTTTCTACAAGCGTCTCTTTCTCACATACTATATATTTACCAACTGAAACTACTACTTTTGAACTACTCTTTTCCCCTGTTCCTTTCCAAAAAGAAATATTAGACCGAGAATGGAAGCAACGAAAGGACTATTTTCGAAAAAATGCTTTGCCTATTTGGAATTATAATTATAAGTCACTATTACGCCTCTTATATCAATTTAAATGTACCCCAGCGAGCTTTCCTTCTGAAATTGGTGTTCCACTTCCTTCTGGATTTGCTTTTCAAACAAACCCATTTATATGGCAAGCTTTTCTATATATGAAGTGTATAGGGGAGCTTGCAGTAGGAGAGTGTATTACTCTTCAATATGTGTGTAGTTATGTAAAAAAGTATACGAAAAGGCGTATGCTCCCGTACTTTTCAAAGCATATATGGAAAGTAGCAGTTACTGAATATATGACATTCTTATGTTATACAGGTGTATTACGTAAAGTGGAGACTTATAAGTACCGGAAAATAAGGGGGATCGTTATGTTAAAAACAGAGGAGGAGGTTATGAAATATGATGAAACTTGTTTAGCGTATGCCTTATCTTTATTTGAGGCAAAGTACAACATGAGAGAAGGAAAAGGGGATATAATAAAGACTGATTGTGAAGGAATTACATAA	MITIFIAKRENGEKIHLLYNCNEELLRRMRQQERFFCVACGKEVQMKLGKQKSWHFAHKKVDSCLAFYEAESMYHRHGKELLYRWFERQNFHVDIEHYLPQIQQRPDIFIERAGRKIAIEYQCANLSIEQLYKRTYSYWRVGIQVIWIIGGNQLKKQSAYWMKFSSLMAFSLQSYPQPFLIFFCSKQKAFMKCAFLTSFSTSVSFSHTIYLPTETTTFELLFSPVPFQKEILDREWKQRKDYFRKNALPIWNYNYKSLLRLLYQFKCTPASFPSEIGVPLPSGFAFQTNPFIWQAFLYMKCIGELAVGECITLQYVCSYVKKYTKRRMLPYFSKHIWKVAVTEYMTFLCYTGVLRKVETYKYRKIRGIVMLKTEEEVMKYDETCLAYALSLFEAKYNMREGKGDIIKTDCEGIT				NA	NA	NA	NA	NA
AK009_04135	1545	ywiE	COG1502	putative cardiolipin synthase YwiE	ATGAAAAATACGTTAAAGCTGATTTTCTTTATCCTGCTATTGTTCGCATTATTTGTTTCGTTACGTATGTTTATTGATGTAGCATTTTATTCAGATGTGATTGGGATAAAAGATGTTTCGATTTTAGGTATTATTAGTATTTTATTTACAGTATCTGCGTTTTTAATTGGTTGCGTTATTTTCTTAGAAAATCGCCATCCATCTAAAACACTTACATGGTTAATTGTGTTAGGGATTTTTCCGGTATTTGGCTTCTTTGCTTATTTATTATTTGGACAAAATTTTCGGAGAAAAAGAATGTTTCAAAAGAAGGCGTTACTTGATGAACAGGCGTTTTTACAATATAAAGGGCATGAAGATTACGAAGAAAGAATTTTACGCAATCATAAGCATCAAGAGCTGTTATTTCGTTTAGCGGATCGCTTAGGCGCTTTAAATATTTCATTTCAAACTGAAACGAGGACATTAACAAATGGAGATGAAACGTTTCAGGCCATTTTAGATGGATTAAAACGAGCAAAACATCACATTCATATGGAATATTACATTGTGCGTGATGATAAATTAGGAACAGAAATTAAAGATATTTTAATACAAAAATCAAAAGAAGGCGTTGTTGTTCGTTTTTTATATGATGCGGTTGGAAGTTTTAAGTTATCAAAATCGTATATTGAAGAATTAAACGATGCAGGTGTTGAAATGATTCCGTTTTTTCCTGTGCGCTTTCCGATTTTAAACGATAAGATTAATTATCGAAATCATAGGAAAATTGTTGTGATTGATGGGAACGAAGGGTTTGTAGGCGGATTAAATATCGGTGATGAGTATTTAGGGAAAAGTAAATATTTTGGCTTTTGGCGAGACACGCATTTGTATTTACGTGGTGAAGCGGTTCAAAGTTTACAGCTTATTTTCCTTCAAGATTGGTTTTATATGACTGGAGAGGCTGTGCTAGCTCCTGAATATTTACAAGCAAAAGCAGTTGAGGGTGATCATTGGGGAGGCGTGCAGCTCGTTGCAGGCGGCCCTGATAATAAGTGGGAAACGATTAAGCATTTATATTTCGCAATGATCGCTTCTGCTCGGAAATCTATTTGGATTGCAACGCCGTATTTCATTCCGGATGATGATATTTTATCCGCATTAAAGGTAGCTGCGCTTGCTGGTATTGATGTTCGTTTGTTAATGCCGAGTAAGCCTGATAAGCGTACTGTCTTTTACGCATCGAGATCGTACTTCCCAGAGCTTTTAGATGCAGGGGTAAAGATATATGAGTATGAAAAAGGTTTTCTCCATAGTAAAGTTGTCATTGTCGATTCTGATTTAGCTTCAATTGGGACAGCTAATATGGATATGAGAAGTTTTCATTTGAATTTTGAAGTAAATGCCTTTTTATATGATACAGATAGCATTAAAAGACTTGTTCAAGACTTTAAAGATGATTTAGAAGAATCAAGTGAAATTCATGTCGATCATTTTCATAAAAGGCGTCTTCATAGACGAATTGTTGAATCAACGTACCGGTTATTATCCCCTTTATTATAA	MKNTLKLIFFILLLFALFVSLRMFIDVAFYSDVIGIKDVSILGIISILFTVSAFLIGCVIFLENRHPSKTLTWLIVLGIFPVFGFFAYLLFGQNFRRKRMFQKKALLDEQAFLQYKGHEDYEERILRNHKHQELLFRLADRLGALNISFQTETRTLTNGDETFQAILDGLKRAKHHIHMEYYIVRDDKLGTEIKDILIQKSKEGVVVRFLYDAVGSFKLSKSYIEELNDAGVEMIPFFPVRFPILNDKINYRNHRKIVVIDGNEGFVGGLNIGDEYLGKSKYFGFWRDTHLYLRGEAVQSLQLIFLQDWFYMTGEAVLAPEYLQAKAVEGDHWGGVQLVAGGPDNKWETIKHLYFAMIASARKSIWIATPYFIPDDDILSALKVAALAGIDVRLLMPSKPDKRTVFYASRSYFPELLDAGVKIYEYEKGFLHSKVVIVDSDLASIGTANMDMRSFHLNFEVNAFLYDTDSIKRLVQDFKDDLEESSEIHVDHFHKRRLHRRIVESTYRLLSPLL	PGPT0007725_303	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
AK009_04136	684	mecA	COG4862	Adapter protein MecA 1	TTGGATATTGAAAGAATTAATGATCATACGATGAAATTTTTTATTACGTACATTGATATAGAGGATAGAGGATTTAATCGTGAAGAAATTTGGTATGATCGCGAACGAAGTGAAGAGCTCTTTTGGGAGATGATGGACGAAGCTCGTGATCATGACGATTTCTTTATTGATGGGCCGTTATGGATTCAAGTGCAAGCAGTCGATAAAGGGATTGAAGTACTTGTCACGAAAGCAGAGCTTTCAAAGGACGGACAAAAGCTGGAACTACCGATAGGGGTAGACAAAATTATAGATATTCCTCTAGATGAAGGCATCGAATCATTATTCCAACAAGAGTTAGTCGAAGAGGTAGAAGAACAAACAGGAACAAACTTTAATGAAGATGGTACGTTTGGCTTTTTAATTAAATTTAATGATTTTGAAGATGTCATTTCATTAAGTCATCGTCTTATCTTTGAAGATATAAAAGATGAGCTGTATTCATTTGAGAACCGCTATTATGTATATGTGGAATTCGATGAAGTGCTACATGATGAAGAAGAAATCGATCGTATTTTAAGTATTATTTTAGAATATGGGGAAGAATCAACTTTAACAATTCATCGTGTAAGTGAGTATGGAAAACAAATTGTGAAAGAGCATGCGCTTGAAACGATTCGCAATAATTTTCCTGCTAAAACGTAG	MDIERINDHTMKFFITYIDIEDRGFNREEIWYDRERSEELFWEMMDEARDHDDFFIDGPLWIQVQAVDKGIEVLVTKAELSKDGQKLELPIGVDKIIDIPLDEGIESLFQQELVEEVEEQTGTNFNEDGTFGFLIKFNDFEDVISLSHRLIFEDIKDELYSFENRYYVYVEFDEVLHDEEEIDRILSIILEYGEESTLTIHRVSEYGKQIVKEHALETIRNNFPAKT				NA	NA	NA	NA	NA
AK009_04137	675			hypothetical protein	ATGGACTTAGAGTTTTTAACATCCGTACTAATGATTGTCGGTATCGATGTTGTATTAGGTGGTGACAATGCAATTGTCATCGCACTAGCTAGCCGAAATTTACCTGAATCGAAACGAAATAAAGCTATTTTGATTGGTACTCTTTTAGCAATCGTACTAAGAATTGCCCTTACTATATTAGCTGTCTATTTACTCGACATTCCATTTCTACAACTGATTGGCGGGGTTTTACTTACATTAATTGCAGTCAATTTATTAACTGATAATAACAACGATCTTTCTGCTATTCAAGGAAAAACAACTTTATTCCAAGCTGTGCGGACAATTGTTTTCGCGGATCTCGTTATGGGGTTTGATAATGTTATTGCCATTGCAGGTGCAGCTCACGGGAGATTTTTACTCGTCATAATTGGCTTACTCATTTCTATCCCTATTATTATTTGGGGCAGCAAACTTATTTTAATACTTATGGAACGATTTCCATTCCTCATTTATTGCGGTGCAGCGATTCTTGCCTATACTGCAGGAAAAATGGTTACACATGAAGACAGACTTGCCACCTTTTTTCATAACAACCCAAGTTTCACTGCAAGCATTCCTTATTTGTTCATTTTCACTATTTTATGCATCGGCTTTATCGTACAACAAGTTCGATTACGCAATGTGAAACATTAA	MDLEFLTSVLMIVGIDVVLGGDNAIVIALASRNLPESKRNKAILIGTLLAIVLRIALTILAVYLLDIPFLQLIGGVLLTLIAVNLLTDNNNDLSAIQGKTTLFQAVRTIVFADLVMGFDNVIAIAGAAHGRFLLVIIGLLISIPIIIWGSKLILILMERFPFLIYCGAAILAYTAGKMVTHEDRLATFFHNNPSFTASIPYLFIFTILCIGFIVQQVRLRNVKH				NA	NA	NA	NA	NA
AK009_04138	396	spxA_3	COG1393	Regulatory protein Spx	ATGGTAACATTATATAGTTCTCCAAGCTGTACGTCTTGTAGAAAGGCGAAATTATGGCTAGAGGAAAATCATATTCCCTATACAGAACGTAATATTTTCTCAGATCCATTAACAATTGAGGAAATTAAAGAGATTTTACGTATGACAGAAAGCGGAACGGATGAGATTATTTCTACTCGTTCGAAAGTTTTCCAAGAATTGAATGTAAACTTAGAATCTTTACCACTTCAAGATTTATATAAGATGATTCGTGACTATCCAGGGATTTTACGTCGTCCAATTATGATTGACGAGAAACGCCTTCAAGTTGGTTACAACGAAGACGAAATTCGCCGTTTCTTACCACGTACAGTAAGAACGTTCCAATTACGTGAAGCACAACGTCTTGTAAATTAA	MVTLYSSPSCTSCRKAKLWLEENHIPYTERNIFSDPLTIEEIKEILRMTESGTDEIISTRSKVFQELNVNLESLPLQDLYKMIRDYPGILRRPIMIDEKRLQVGYNEDEIRRFLPRTVRTFQLREAQRLVN	PGPT0012940_548	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
AK009_04139	204			hypothetical protein	ATGATTGCTTTTTTTGTTGATTTTATTACGGTTGCTGCCCTCATCATCGGAATAACAGCATTGATTGGTGTCATTACAAATAGCATTGGCGAAAAGCTCTTTGGCGGAAAAGAAAAAATGAAGTTTGTTAACAAAAGTTTGGATGTACAATCCGGCTGGAATCAAGTTGGCGGAAAAGGCATTTATAAGAAACGCACGTATTAA	MIAFFVDFITVAALIIGITALIGVITNSIGEKLFGGKEKMKFVNKSLDVQSGWNQVGGKGIYKKRTY				NA	NA	NA	NA	NA
AK009_04140	1647	dppE_7	COG4166	Dipeptide-binding protein DppE	ATGAAAAAAAAGATACCAGTTTTTGTAGTATCAACAGTAGCAATGAGCATGATATTAGGGGCATGTAGCTACCAAAAAGATGAACCGCAAGCAAACGCAAAAGGGGATAGCGGGAAAAGCGGTGCGAAGCAAGTTCTTAATTTAATTGAAACACAAGAAATTCCAACGATGGACCCAGCATTATCAGCTGACGCAGTTTCTTCAAAAGTAATGAACAACACGATGGAAGGTCTATACCGCCTTGGAAAAGATGATAAGTTAGTTCCAGGTGTAGCAAAAGAATTTAAAAAGTCAGAAGACGGTAAAAAATATACATTTAAATTACGTGAAGACGCGAAATGGTCAAACGGTGAGCCTTTAACGGCGAAAGATTTTGTATACGCATGGCAAAGAGCAATCAACCCAGACACAGCTGCGAAATCAGCATACATTATGTATGATATAAAAAATGCAGAGAAAATTAATAAAAAAGAGATGAGTCCTGATCAATTAGGTGTAAAAGCAATTGATGATTACACATTAGAAGTAGAATTAGACAATTCTATTCCATATCTTGTAGATTTAATGGTATATCCAATCTTTTATCCTGTAAATGAGAAATTTGTGAAAGAGCAAGGTGCGAAGTTTGGTTTGGAAGCGAACACAACGCTTTACAACGGACCATTTACATTAAGTGATTGGCAACATGAACGCAGTTTTAAAATGACAAAGAGCTCATCATATTGGGACAATAAAGAAGTGAAGCTTGAAGAAGTAAACTTTAATATTGTAAAAGATACATCTACGCCAATTAACTTATATGAAACAAATGCAATCGATCGAGCGACGTTATTAGCAGAGTTCATCGATAAATATAAAGGAAAACCAGATTTCAAAACAGTAGAAGAGACATCTGTATTTTTCCTACGCTTAAATCAAAAAGATCCAGCTTTAGCAAATAAAAATATTCGTAAAGCAATTTCCCTTGCTTTTGATCGTAAGCCGTTCGTTGATACATTATTAAATAACGGTTCTAAGCCAGCAACAGGATTAATTCCTGATAACTTCATTAAAGGTCCGGATAAAAAGGATTTCCGTGCTGAAAATGGTGATATTGTAAAACCAAATGTGAAAGAAGCAAAAAAATATTGGGAAGCTGGTACAAAAGAGCTTGGAAAAAATGAAATTGAATTAGAGTTATTAAATGAAGATGTTGAATTATCTAAGAAAACTGGTGAATATTTAAAAGGTGAACTGGAAAAGAATTTACCAGGCTTAACAGTGAAAATTAAACAACAACCATTCGCACAAAAGTTGAAATTAGAAGATGCGGGTGATTATGTCATGTCATTCTCTGGATGGGGGGCAGACTTCCCAGATCCGATCACATATCTTGATATGTTTGTAACAGATGGGTCACAAAATAAGATGAAGTACTCTAATCCGAAATACGATGAAATCATTATGAAAGCGAAAAAAGATGGAAGCGATGTAAATGCTCGCTGGAAAAACTTACTTGAGGCAGAAAAAATGTTACTTGATGACGCTGCGATTGTTCCAGTATACCAACGTGGTAGAGCATACTTACAAAGAGAAACAATTAAAGATATGTACAACCATAAATATGGCCCTGATGTGAGCTTCAAATGGGCATCCGTAGGGAAATAA	MKKKIPVFVVSTVAMSMILGACSYQKDEPQANAKGDSGKSGAKQVLNLIETQEIPTMDPALSADAVSSKVMNNTMEGLYRLGKDDKLVPGVAKEFKKSEDGKKYTFKLREDAKWSNGEPLTAKDFVYAWQRAINPDTAAKSAYIMYDIKNAEKINKKEMSPDQLGVKAIDDYTLEVELDNSIPYLVDLMVYPIFYPVNEKFVKEQGAKFGLEANTTLYNGPFTLSDWQHERSFKMTKSSSYWDNKEVKLEEVNFNIVKDTSTPINLYETNAIDRATLLAEFIDKYKGKPDFKTVEETSVFFLRLNQKDPALANKNIRKAISLAFDRKPFVDTLLNNGSKPATGLIPDNFIKGPDKKDFRAENGDIVKPNVKEAKKYWEAGTKELGKNEIELELLNEDVELSKKTGEYLKGELEKNLPGLTVKIKQQPFAQKLKLEDAGDYVMSFSGWGADFPDPITYLDMFVTDGSQNKMKYSNPKYDEIIMKAKKDGSDVNARWKNLLEAEKMLLDDAAIVPVYQRGRAYLQRETIKDMYNHKYGPDVSFKWASVGK	PGPT0004430_6391	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
AK009_04141	1443	yeeO	COG0534	putative FMN/FAD exporter YeeO	ATGTTACGATACATTTTGCTAAAAATAGATATCGGTAAAGAGGGGACGGACATGACAGCAATTCAGGCAAAAAATGGGCCGACAGAAAAATTAAGTTTATTCTTATTAACATGGCCTATTTTTCTAGAAGTTTTTCTTTTTATGTTGATGGGGATCGCTGATACTTTCATGTTAAGTGCATTATCAGACGATGCTGTATCTGGGGTTGGTGCAGCGAATCAATATCTCCATATTGCGATTTTGGTATTAGAAGTCATCGGGAACGGCGCTGCTATCGTTGTATCTCAATACCTCGGTTCCAGACGCTTTATGGAAGCATCTAAAATATCAGCATTAGCCGTCACATTAAATTTAATAGTTGGGCTCGTTATAAGCGCTGGTTTTCTTTTATTTTCGAAACATATGATGCTCGCAATGAACTTACAAGGCGATGTACTAACGTATGCGCAAAACTACTTATCTATCGTCGGAGGGGCAATCTTCCTGCAAGCTATCATTAACTCATTAGCCGCAATTATCCGTGTACACGGTTTTACAAAGCAAGCGATGTTTATTTCACTCGGAATGAATATTATTCATATCGCTGGAAACTACGTACTCATTTTCGGGAAATTTGGTTTCCCTGAGCTCGGTGTACAAGGGGCTGCAATTTCTTCCGCTATCAGTCGATTGATCGCACTTATTGTTTTCTTCTGGTTACTATATCGCGTTATGGAATATCGTGTGAAATTACAATATTACTTCACTTTATCCAAAGAATACATTGGAAAAATTTTAAAAATCGGCATTCCATCTGCATTTGAACAAGTGATGTATCAAGCTTGTCAAATCGTCTTCCTTTATTACGCAACGTACTTAGGAACGGAATCATTAGCTGCTAGACAATACGCTACTAACATTTCCATGTTCACTTATTTATTTGCAATTGCGATTGGTATGGGAACAGCCATTATTATTGGCCGCCTTGTTGGTGGTGGCGAAAAGGATGAAGCATACGAACGTTTGTGGAAAAGTGTAAAATGGGCGATAGGTGTAACTTTATGTATGGTCGCTCTCGTTATTACATTCCGTACACAATTAATGGGACTGTTTACAGATAATCCGCACATTATCGGGTTAGGCGCAAGTGTTCTTTTACTAAGTGTACTACTTGAAACGGGACGTACGATGAACATCGTCATCATTAATTCGCTTCGTGCAGCTGGTGATGCAAAATATCCTGTTTTAATCGGTGCATTTTCTATGGTGTTAATGAGTTTACCACTAGGTTACTTTTTCGCCTTTCATTTAGATATGGGGCTCGTGGGTATTTGGCTAGCGATCGCCATCGACGAATGGACACGTGCCATTATTATGTTCTTCCGCTGGAAAAGTAGAGCTTGGGAACGTTACGCACTAGTTAAACCTGAAGAACAAGAAGAGAGTATTTCTGTTCAAGTTTAG	MLRYILLKIDIGKEGTDMTAIQAKNGPTEKLSLFLLTWPIFLEVFLFMLMGIADTFMLSALSDDAVSGVGAANQYLHIAILVLEVIGNGAAIVVSQYLGSRRFMEASKISALAVTLNLIVGLVISAGFLLFSKHMMLAMNLQGDVLTYAQNYLSIVGGAIFLQAIINSLAAIIRVHGFTKQAMFISLGMNIIHIAGNYVLIFGKFGFPELGVQGAAISSAISRLIALIVFFWLLYRVMEYRVKLQYYFTLSKEYIGKILKIGIPSAFEQVMYQACQIVFLYYATYLGTESLAARQYATNISMFTYLFAIAIGMGTAIIIGRLVGGGEKDEAYERLWKSVKWAIGVTLCMVALVITFRTQLMGLFTDNPHIIGLGASVLLLSVLLETGRTMNIVIINSLRAAGDAKYPVLIGAFSMVLMSLPLGYFFAFHLDMGLVGIWLAIAIDEWTRAIIMFFRWKSRAWERYALVKPEEQEESISVQV				NA	NA	NA	NA	NA
AK009_04142	936	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACTAAACAACGTGAGAAATTAATTGAAGTAAAAAATGTAAAGCAGCACTTCGACGTGAGTGGTGGTGTTGTCAAAGCGGTTAATGATATTTCATTTGATATTTACCGCGGAGAAACATTTGGTCTTGTAGGAGAATCAGGTTGTGGTAAATCAACAACTGGAAGAACGATTATTCGTTTATATGATGCAACTGCTGGTGAAGTATTATTCGATGGTGAAAACGTACATGGTAAGAAATCACGCACAGAATTGAAGAAATTCAACCGTAAAATGCAAATGATTTTCCAAGATCCATACGCATCACTAAATCCTCGTATGACAGTAGGGGATATTATCGCAGAAGGTATTGATATTCACGGATTAGCGAAAAGTAAAAAAGAGCGCATGGACCGTGTTCATGAACTACTAAACACAGTTGGTTTAAATAAAGAGCACGCAAACCGTTTCCCACACGAATTCTCAGGTGGACAACGTCAGCGTATCGGTATCGCTCGAGCGCTTGCTGTAGAACCAGAATTTATCATTGCCGATGAGCCGATCTCAGCACTTGACGTATCGATTCAGGCGCAAGTTGTAAACTTACTGAAAAAGTTACAAAAAGAAAAAGGCTTAACATACTTATTCATTGCCCATGATTTATCGATGGTAAAATACATTAGTGACCGCATCGGCGTAATGTACCGTGGTCAAATTGTAGAACTGACAACAAGTGAAGAGTTATATGCGAATCCAGTTCATCCATATACGAAATCACTATTATCAGCAATTCCGCTACCAGATCCAGATTATGAGCGTAATCGTAAACGTATCGTATACGATCCATCGCAGCATGATTACGGTAGCGAAGTGCCAACAATGCGTGAAATTCGTCCAGGACATTTCGTACTATGTTCTGAAGCAGAGTATAAGAAATATAAAGAAATCTATCAATAA	MTKQREKLIEVKNVKQHFDVSGGVVKAVNDISFDIYRGETFGLVGESGCGKSTTGRTIIRLYDATAGEVLFDGENVHGKKSRTELKKFNRKMQMIFQDPYASLNPRMTVGDIIAEGIDIHGLAKSKKERMDRVHELLNTVGLNKEHANRFPHEFSGGQRQRIGIARALAVEPEFIIADEPISALDVSIQAQVVNLLKKLQKEKGLTYLFIAHDLSMVKYISDRIGVMYRGQIVELTTSEELYANPVHPYTKSLLSAIPLPDPDYERNRKRIVYDPSQHDYGSEVPTMREIRPGHFVLCSEAEYKKYKEIYQ	PGPT0021035_2590	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
AK009_04143	1044	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAAAACATTGTTAGAGGTAAAAGATTTACAAGTCTCCTTTGATACACATGCAGGTGAAGTACAAGCAGTGCGCGGAGTTACTTTTGATTTGAAAAAAGGGGAAACATTAGCGATTGTAGGAGAGTCTGGTTCTGGGAAATCAGTTACTTCTAAAGCGCTAATGGGGTTAATCCCAAATCCTCCAGGCCGTATTAAAAATGGAGAGATTGTATTTGACGGTCGTGATTTAACGAAATTAACGGAAAAAGAAATGCAGCAAGTTCGTGGTAAAGATATCGCGATGATTTTCCAAGATCCAATGACATCATTAAATCCAACGATGACAATTGGGAATCAAATTATGGAAGGTCTTATTAAACACCAAGGGATGAGTAGAGGAGACGCACGTAAAGTTGCGTTAGAATTAATCGACCTTGTAGGTATTCCAAATCCAGAAGCACGTTTAAAACAATATCCTCACCAATTCTCAGGTGGTATGAGACAGCGTGTAGTTATTGCGATGGCGTTAGCTTGTAACCCGAAATTATTAATTGCCGATGAGCCGACAACAGCGCTAGACGTTACGATTCAGGCACAAATTTTAGAACTTATGAAAGACATTCAGCAAAAAACAGAAGCGGCAATTATTTTCATTACGCATGACTTAGGTGTAGTAGCAAACGTTGCTGACCGAGTGGCAGTTATGTATGCTGGTAAAGTTGTTGAAATTGGAACTGTAGATGAAATTTTCTATAATCCGAAACATCCATATACTTGGGGCTTAATCGCATCTATGCCAAGTTTAGATGGTTCAGAGGAAGAGTTATACGCAATTCCTGGAACGCCTCCGGATTTATTGAAGCCGCCAAAGGGTGATGCTTTTGCACCACGTAACCCACAGGCGCTGAAAATTGATTTTGAAATGGAACCGCCTTTATTTAAAGTAAGTGATACACACTATGCGGCAACTTGGTTACTTCACGAGCAAGCTCCAGAAGTAAAACCGCCGGCAGTTGTTGAAAAACGTATTCTTCAAATGAAAGCAGGTGAACAACATGACTAA	MKTLLEVKDLQVSFDTHAGEVQAVRGVTFDLKKGETLAIVGESGSGKSVTSKALMGLIPNPPGRIKNGEIVFDGRDLTKLTEKEMQQVRGKDIAMIFQDPMTSLNPTMTIGNQIMEGLIKHQGMSRGDARKVALELIDLVGIPNPEARLKQYPHQFSGGMRQRVVIAMALACNPKLLIADEPTTALDVTIQAQILELMKDIQQKTEAAIIFITHDLGVVANVADRVAVMYAGKVVEIGTVDEIFYNPKHPYTWGLIASMPSLDGSEEELYAIPGTPPDLLKPPKGDAFAPRNPQALKIDFEMEPPLFKVSDTHYAATWLLHEQAPEVKPPAVVEKRILQMKAGEQHD	PGPT0021030_1103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
AK009_04144	1017	oppC_1	COG1173	Oligopeptide transport system permease protein OppC	ATGATGAAAGATGTACAAAAATTATCTCCAGATTTATTTCAACAAGCCAATCAAAATAATGTTGATAATGAAGTCATTGCCCGTCCAAGCTTAACGTTTTGGCAAGATGTAAGAAGACGTTTGTTCCAACATAAAGGTGCGATGCTTGGCCTTGTATTATTAGTAATCATTGCGCTATTAGCGATTTTTGGACCGATGGTAAGTAAACACTCGTATAAAGAGCAAGATTTAGGTCGTGCGAAATTACCACCAAAAATTCCAGTTATTGAAAATGTTCATTGGTTACCATTTGACGGTACAGATCAATATGGTGTTGACCAATATGAAAAACGTGATATTAAAGAGTACTTCTGGTTTGGTACAGATGATCTTGGCCGTGACTTATGGACAAGAACATGGGAAGGTACACGCGTATCATTATATATCGCTCTTTTAGCAGCAGCAATTGACTTAGTAATTGGGGTTGCATACGGAGGTATTTCAGCATTCTACGGCGGTAGAGTAGATAATATTATGCAACGTATTATGGAGATTATTAACGGTATTCCATACTTAATCATCGTTATTTTAATGGTAATCATTATGGGATCTGGTATTTGGTCAATTACACTCGCGATGGCGATTACGGGTTGGATAGGGATGTCGCGGATTGTTCGTGGACAAATCCTAAAGTTAAAAAACCAAGAATATGTATTAGCATCTCGTACATTAGGTGCAACAAATACACAATTAATTGTGAAACATTTAATTCCAAACGTAATGGGACCTATTATCGTAATGACAATGTTCACAATTCCATCAGCGGTGTTTGGTGAAGCGTTCTTAAGTTTCATTGGTTTAGGAATTCAGCCACCATTCGCGTCACTTGGTTCTCTTGTAAATGATGGTTATAAATCTATTCAAACGTATCCACACATGATGTTCATCCCTGCGGTTGTCATCAGTATGTTAATTCTAGCATTCAACTTAATGGCAGATGGATTACGCGATGCGTTAGATCCAAAAATGCGTAAGTAA	MMKDVQKLSPDLFQQANQNNVDNEVIARPSLTFWQDVRRRLFQHKGAMLGLVLLVIIALLAIFGPMVSKHSYKEQDLGRAKLPPKIPVIENVHWLPFDGTDQYGVDQYEKRDIKEYFWFGTDDLGRDLWTRTWEGTRVSLYIALLAAAIDLVIGVAYGGISAFYGGRVDNIMQRIMEIINGIPYLIIVILMVIIMGSGIWSITLAMAITGWIGMSRIVRGQILKLKNQEYVLASRTLGATNTQLIVKHLIPNVMGPIIVMTMFTIPSAVFGEAFLSFIGLGIQPPFASLGSLVNDGYKSIQTYPHMMFIPAVVISMLILAFNLMADGLRDALDPKMRK	PGPT0021025_750	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
AK009_04145	930	oppB	COG0601	Oligopeptide transport system permease protein OppB	ATGGGACGTTATGTATTAAAACGTTTCGTGTACATGGCTTTGACATTATTTTTAATTACTACACTGACTTTCTTTTTGATGAAATTACTTCCGGGTTCTCCGCTTAAAAACCAGGAGAAGCTATCACCGGCACAAAAAGAAATCATTCTTGAAAAATACGGATTAAATGATCCGGTACCAGTTCAATACGCACGTTACTTAGGTAACTTAGCAAAAGGTGATTTAGGGGTATCATTCCAATATGATAACCGCCCAGTAACAGACATGATTGTGGATCGTATTGGACCATCAGCCCAATTAGGTTTACAAGCGATTATATTAGGGACATTTATCGGTTTAATTTTAGGTATTGTTGCCGCACTTCGTAATAATACGTGGGTGGATTATAGTGCAACAGTTATTTCGGTACTCGGAATGTCGGTACCATCATTCGTATTCGCCGCATTACTACAATATTTCGTAGGGGTAAAACTTGGTTGGTTCCCGGTAGCATTCTGGAAAGGACCAGAGTTTACTGTAATGCCTACAATTGCATTATCGATGGGAGTTATCGCAACAATCGCACGTTTCTCTCGTGCAGAATTAATTGAAGTTATGCAGTCAGACTATATTTTAACAGCGAAAGCAAAAGGAATTAGTCAAGGCGTTATCATTGTAAAACACGCACTTCGTAACGCGTTAATTCCAGTTGTAACAATTTTAGGACCAATGGTTGCGGCATTAATTACAGGAACACTTGTTATCGAGCAAATTTATGCTGTACCAGGACTTGGGGAACAATTCGTTAAATCGATTACTTTAAATGACTATACAGTTATTATGGGAACTACGATTTTCTATAGTGCAATCTTCATTTTAGTTATTTTCATTGTCGATATTTTATACGGAATTATTGATCCTCGTATTCGTTTAGCGGGAGGGAAAAAATGA	MGRYVLKRFVYMALTLFLITTLTFFLMKLLPGSPLKNQEKLSPAQKEIILEKYGLNDPVPVQYARYLGNLAKGDLGVSFQYDNRPVTDMIVDRIGPSAQLGLQAIILGTFIGLILGIVAALRNNTWVDYSATVISVLGMSVPSFVFAALLQYFVGVKLGWFPVAFWKGPEFTVMPTIALSMGVIATIARFSRAELIEVMQSDYILTAKAKGISQGVIIVKHALRNALIPVVTILGPMVAALITGTLVIEQIYAVPGLGEQFVKSITLNDYTVIMGTTIFYSAIFILVIFIVDILYGIIDPRIRLAGGKK	PGPT0021020_873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
AK009_04146	1656	dppE_8	COG4166	Dipeptide-binding protein DppE	ATGAAGAAAAAGATACCGTTATTACTTGCATCAACTTTAACTGCAAGTATGTTGCTTGGCGCGTGTAGCTACCAAAAAGATGATGCAAAAGCAAAAGGGAAAGAGAACGCTATGAGTAGTAGTAACGGAAAACAGATTCTTAATTTAACAGAGTTATCTGAAATTCCGTCAATGGATGCATCATTAGCATCTGACTCTTCATCTTCTACAGCATTAAATAATACGATGGAAGGTTTATATCGTATTGGCAAAGATCAAAAGAGAATGCCTGGCGTTGCAGAAGATGTCGAAAAGCTAGATGATGGGAAGAAATACATATTTAAATTAAGAAAAGATGCGAAATGGTCAAATGGGGAACCTGTAACAGCTAAAGACTTTGTGTATTCATGGAAAAGAGCCGTAAATCCAGATACAAAAGCAACGTATTCGTACATTATGTTCGATATTAAAAATGCAGAGAAAATTCATAAAAAAGAATTACCTGCTGACCAATTAGGTGTAAAAGCGATTGACGATTATACATTAGAAGTGGAATTAGACAATCCCGTTCCTTACTTTATCGATTTAACAGTTTATCCAGTATTTTACCCGCTAAATGAAAACTTTGTAAAAGCACAAGGTGATAAGTTTGGTTTAGAGGCAAATACAACATTATATAACGGTCCATTCGTTATGAGTGATTGGAAACATGAACAAAGTTTCCAATTCAAGAAGAATCCTTCATATTGGGATAATAAAACGGTTAAAATCGAAGAAATCAACTTTAATATTGTAAAAAATACAGCAACTGATGTAAATTTATATGAGACAAACGCGATTGATCGTGCGGCTTTAACGTCTGAATTTGTTGATAAGTTTAGACAAAGCCCAGAGTTCCAAACAAGAAAAGAAGCAGGGGTTGCTTACTTAAGATTTAATCAAAGTAATCAGTACTTAAGTAATAAAAACTTAAGAAAAGCAATTTCAATGTCCTTTGACCGTGATAACATTGCGAAAGTTATTTTAAATAACGGTGCAATTGGAGCTTACGGATTTGTTGGAAAAGATTTCGCTGAAGGTCCGAATAAAAAAGATTTCCGAGCTGAAAATGGAAAGCTAGTTGAAACAAATCCAAAAGAAGCGAAAAAGCTTTGGGAAACAGCGAAGAAAGAGCTTGGAACTGATAAAATCGAACTAGAATTCTTAAACTTTGATAATGAAGATGCTAAAAAAGTTGGTGAATTCTTAAAAGGTGAGATAGAAAAGAACTTACCAGGTTTATCAATTAAAATTAAACAGCAACCATTCGCACAAAAAAATAAATTAGAAGATTCTCAGCAATATGATATTGCGTTTGGTATTTGGGGACCAGATTTCCCAGATCCAATCTCATATTTAGATATGTTTGTTACGAATGGTTCTCAAAATAAAACAGGGTATTCTAATCAGAAGTATGATGAGTTAATCCTAAAAGCTAAAACAGATACAAAAGATTTACAAGCTCGCTGGAACAACCTTCTAGAAGTAGAGAAGATGTTAATTAAAGAAGATGCAGTTATCACTCCAATCTTCCAAAAAGGTTCAGCGTATGTAGTAAAAGGTGCCGTAAAAGATATTATCCCAATTAACTATGGTGGTAAATTAACTTACAAATGGGCATCTGTTGAACAAAAATAA	MKKKIPLLLASTLTASMLLGACSYQKDDAKAKGKENAMSSSNGKQILNLTELSEIPSMDASLASDSSSSTALNNTMEGLYRIGKDQKRMPGVAEDVEKLDDGKKYIFKLRKDAKWSNGEPVTAKDFVYSWKRAVNPDTKATYSYIMFDIKNAEKIHKKELPADQLGVKAIDDYTLEVELDNPVPYFIDLTVYPVFYPLNENFVKAQGDKFGLEANTTLYNGPFVMSDWKHEQSFQFKKNPSYWDNKTVKIEEINFNIVKNTATDVNLYETNAIDRAALTSEFVDKFRQSPEFQTRKEAGVAYLRFNQSNQYLSNKNLRKAISMSFDRDNIAKVILNNGAIGAYGFVGKDFAEGPNKKDFRAENGKLVETNPKEAKKLWETAKKELGTDKIELEFLNFDNEDAKKVGEFLKGEIEKNLPGLSIKIKQQPFAQKNKLEDSQQYDIAFGIWGPDFPDPISYLDMFVTNGSQNKTGYSNQKYDELILKAKTDTKDLQARWNNLLEVEKMLIKEDAVITPIFQKGSAYVVKGAVKDIIPINYGGKLTYKWASVEQK	PGPT0021015_1569	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_04147	381			hypothetical protein	TTGAATAAAGTTTTTTTTCATACTTGTATACTAATTTTTATAGCGATGATTGCTTCTAGTATTGGTGCATTCCTCATTTCATCTCAATTTTTGTTGAACTTTGTCAACATCTCGTTTTATATCGCGCTATTTTTTATTCTGATAGGTGGTTTTTTATTCATATTTCAAAATGGATTTTTCAATGTAACTCTTTACGCTTTCCAGAGAGTATTTGGCACGAACAAAAAGATTGACTCTTTAATTGAAGAAGTCGAGGAACCTACAGATAAGAAAGAACGTATTTATAAAACATATTCATTCAAATGGACATATCCAATTTGTATTACAGGTATCGTTCTTGGGTTGTTCTCGACCCTCATTAGCTTTACTATTTTGATGTAG	MNKVFFHTCILIFIAMIASSIGAFLISSQFLLNFVNISFYIALFFILIGGFLFIFQNGFFNVTLYAFQRVFGTNKKIDSLIEEVEEPTDKKERIYKTYSFKWTYPICITGIVLGLFSTLISFTILM				NA	NA	NA	NA	NA
AK009_04149	990	trpS_2	COG0180	Tryptophan--tRNA ligase	ATGTCAGTTATCTTTTCTGGTATTCAGCCAAGCGGAACGATTACACTTGGAAACTATTTAGGGGCTATGAAGCAATTTACAGAGCTTCAAAACGAACACGATTGCTATTTCTGTATTGTAAACCAACATGCCATTACAGTACCTCAAGATCCTATACAACTTCGCAAAAACATTCGTAGTCTTGCTGCACTTTATGTAGCATGCGGCATCGATCCTGAAAAAGCTACTTTATTTGTACAATCAGAAGTACCTGCACACGCTCAACTAGGATGGATCATGCAATCTGTTGCTTACGTTGGAGAATTAGAGCGTATGACACAATATAAAGATAAAGCTTCAGGTAGAGATTCAGTTCCAGCTGGATTACTTACGTATCCACCATTAATGGCTGCTGATATTTTACTTTATAACACAGAAATCGTACCTGTTGGTGATGACCAAAAACAACATATGGAATTAACACGTGATCTAGCAGAGCGTTTCAACAAACGCTTCCGTGAAGTGTTCATAGTTCCTGAAATTCGTATTCCAAAAGTAGGAGCTCGCGTTATGTCATTAACCGAACCTACGAAAAAAATGAGTAAATCTGATCCGAATCCAAAATCAATGATCAGTATGCTTGATGAACCAAAAACAATTGATAAGAAAATTAAAAGTGCTGTAACAGATTCAGAAGGTATCGTGAAATTCGATAAAGAAAATAAACCTGGAATCTCTAACCTATTAACAATTTACTCTTCATTCTCAGGAAAAACAGTTGAAGAGATAGAAGCAATGTACGAAGGAAAAGGATACGGCGACTTCAAAGGCGACTTAGCACAAGTAGTCGTAGAAGCAATTCGCCCAATCCAAGACAAATATAACGAACTAATCAGCTCCCCAGAACTAGACGAAATTCTAGACAAAGGTGCCGAAAAAGCAAACCGCGTTGCATTCAAACAACTACGCAAAGTAGAAAACGCAATGGGACTAAGCAGAAAACGTAGGTAA	MSVIFSGIQPSGTITLGNYLGAMKQFTELQNEHDCYFCIVNQHAITVPQDPIQLRKNIRSLAALYVACGIDPEKATLFVQSEVPAHAQLGWIMQSVAYVGELERMTQYKDKASGRDSVPAGLLTYPPLMAADILLYNTEIVPVGDDQKQHMELTRDLAERFNKRFREVFIVPEIRIPKVGARVMSLTEPTKKMSKSDPNPKSMISMLDEPKTIDKKIKSAVTDSEGIVKFDKENKPGISNLLTIYSSFSGKTVEEIEAMYEGKGYGDFKGDLAQVVVEAIRPIQDKYNELISSPELDEILDKGAEKANRVAFKQLRKVENAMGLSRKRR	PGPT0007120_5907	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
AK009_04150	747			hypothetical protein	ATGTTATATCTACATGATGTATGGGTAAATTGGTTTGAAGGTGAAGAGAATGGGTATAACGTTTGTCATTTTTACGAATGGCGGAAAGATGATACGATTGAGCTATTAGATCAAGTGCCATTATTAAAAGTAGATGCCACATTATATCATTACATCGAGGACGAATTGTTAGAGCTTCCGCAAAAATTGTTGGAAGACGTACATCATAAGGCTTATATTCGTAAAAATCATGAACGTTTGCAGCAAGAGTATTGCTTTGTTGTTACAGATGGAAAAGGAATTATTGCGATTGATACAATTGGTTACAATGTACCTATTCGTAAAAGCAGACTTATACCACGGCAAGAGCAGATGGTATATGAGATGGTAGAAAACGTACAAGCAGAAAAGTATGAGTTCCAAGTAGAAGAAACAGAAAAAGAACACCACATTTTATCACCATCGCCTTTCATTATGAATGGCTTGACTCGTAAAGAAAGACAACTAAAACAATTATTATTTATGGCGTTAGATCAATTACATACAACGAAAAATACAGCGGAAATTCGCTATTGGTACACAGAGTGGGATCCGTCAGCATATGGAACGGTCCAACATATGGAATTTGAAGATATTTGGGCAAGACTATATGATGAAGCGAAATCAGGCTGGTCTGAGAAGCACGAACAATTATGCGAGCGCCTTGTAAAAGGACAGCCGTTTTTTGAAAAGTTATGGGAAATGGAAAATGAGCAAAAGGTAAATTAA	MLYLHDVWVNWFEGEENGYNVCHFYEWRKDDTIELLDQVPLLKVDATLYHYIEDELLELPQKLLEDVHHKAYIRKNHERLQQEYCFVVTDGKGIIAIDTIGYNVPIRKSRLIPRQEQMVYEMVENVQAEKYEFQVEETEKEHHILSPSPFIMNGLTRKERQLKQLLFMALDQLHTTKNTAEIRYWYTEWDPSAYGTVQHMEFEDIWARLYDEAKSGWSEKHEQLCERLVKGQPFFEKLWEMENEQKVN				NA	NA	NA	NA	NA
AK009_04151	789			hypothetical protein	ATGGGGGTTATTGAAACAGCTGAATGGCTACATTTATATTATGGACGGCCAGAAAAACTTTGTGAGAAATTTACGAAGTATATTCCGTTGCCAAAAGAAAGGTTGTATCGCTTTTTAATTTCAAAAGGGATGTATCGTCCGGTCATGCATGGGGAAAAGGAAATTAAAGAATTAGAGGAAAAGGAAATTTGGAAAGAGTTGAGCTTGGAGTATGATAAATTGAAAAATTGGTTGAAAGGTCCGGATGTCCCTGTCTTTATTTTATTATCAGATTCCTATAATCGAACTGTACAAGAAGAGTATAACGGTAGGGCTGGATTATCTATGCGTCATGTTATTTTCTTATTTGTATGTGGACGGAATTCGGTGGAAGAATTAAAGGTGTTATTGGCGCATGAATATCATCACATATGCAGGTTACATCAAATTGAGACGAAAGAAACAGAATATACATTACTTGATACGATGATTATGGAAGGGCTAGCTGAGCAAGCGGTAACGGAAAGATATTCAGAAAAAAACAATGCACCGTGGACGATGTATCTTTCAAAAGAAGAGGCTATTTATTATTGGAAAAATGTTGTACATGAAAGAATAAGTATAAAACGAGGAACAAGGGAGCACGACATCTTATTAAATGGATTTCACTCTTATCCAAAGATGCTTGGCTATGCGCTTGGATTTCATATTGTCAAAGATTGTGTAACATTGGAAGGAGAAGATACACTTTCTTTATTATCTATAGATGCAAAAGAAATATTGAATAAAGCAAATACATTTCATATATAA	MGVIETAEWLHLYYGRPEKLCEKFTKYIPLPKERLYRFLISKGMYRPVMHGEKEIKELEEKEIWKELSLEYDKLKNWLKGPDVPVFILLSDSYNRTVQEEYNGRAGLSMRHVIFLFVCGRNSVEELKVLLAHEYHHICRLHQIETKETEYTLLDTMIMEGLAEQAVTERYSEKNNAPWTMYLSKEEAIYYWKNVVHERISIKRGTREHDILLNGFHSYPKMLGYALGFHIVKDCVTLEGEDTLSLLSIDAKEILNKANTFHI				NA	NA	NA	NA	NA
AK009_04152	1239	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGAAAAAAAGAGGGTCGTAATTACAGGGCTAGGAGCTGTTACACCGATCGGTACAGATGTTGAAACAGCGTGGGAAAACATTAAAAAAGGTGTATCTGGAATCGGACGACTTACAAGAATTGATCCGGAACTATTTCCAGCAAAAGTAGCAGCAGAAATTAACGACTTTGAAGTCGAGAAATATATTGATAAAAAAGAAGCGCGCCGTATGGATCGCTTTACACAATATGCAGTAGCAGCAGCGAAAATGGCAGTTGCAGATGCAAAGCTTGAAATTACAGAAGAAAACGGACCTCGAATTGGTGTATGGATTGGATCTGGTATTGGCGGTATGGAGACATACGAAGAACAATTTAAGATTTTTACTGAGAAAGGTCCGCGCCGTGTGAGCCCATTCTTCGTGCCGATGATGATCCCAGATATGGCAGCAGGTCAAGTATCAATCGCAACAGGAGCGAAAGGAATTAACACTTGCTCTGTAACGGCTTGTGCATCTGGTGCAAACTCAATTGGTGATGCATTTAAAGCAATTCAGCGTGGTGATGCTGATGCAATGATAACAGGCGGAGCTGAAGCGCCGTTAACAAGTATGGCATTCGCAGGATTTAGCTCAGCGAAAGCATTAACATTTAATGAAGACCCAGCAACGGCTTGCCGTCCATTTGATAAAAACCGTAGCGGTTTCGTAATGGGTGAAGGTTCAGGTATTTTAATTCTTGAAGAATTAGAGCACGCATTAGCTCGTGGTGCTCACATTTATGCGGAAATCGCTGGTTACGGTGCAACTGGTGATGCATTCCATATTACAATGCCGGCTCCTGGTGGTGAAGGCGGCGTGCGTGCAATGCGTCAAGCTTTAGCAGATGCAGGTCTACAGCCAGAAGATATTGATTACATTAATGCGCACGGTACAAGTACGGATGCGAATGAAAAGTATGAAACGATGGCAATTAAAGAAACGTTCGGTGAGCACGCGTACAAAGTAGCAATTAGCTCAACGAAATCAATGACAGGTCACTTATTAGGAGCAGCTGGTGCTGTTGAAGCGATCTTCTCAATTAAATCAATTACAGACGGAGTAATCCCTCCAACAATTAACTATGAAACACCAGATCCAGAATGTGACTTAGATTACGTACCGAATCAAGCGAGACAACAAGAAGTAAATGCAGTATTAAGTAACTCACTAGGATTCGGTGGTCATAACGCAGTATTAGTATTTAAATCGTATAAATAA	MEKKRVVITGLGAVTPIGTDVETAWENIKKGVSGIGRLTRIDPELFPAKVAAEINDFEVEKYIDKKEARRMDRFTQYAVAAAKMAVADAKLEITEENGPRIGVWIGSGIGGMETYEEQFKIFTEKGPRRVSPFFVPMMIPDMAAGQVSIATGAKGINTCSVTACASGANSIGDAFKAIQRGDADAMITGGAEAPLTSMAFAGFSSAKALTFNEDPATACRPFDKNRSGFVMGEGSGILILEELEHALARGAHIYAEIAGYGATGDAFHITMPAPGGEGGVRAMRQALADAGLQPEDIDYINAHGTSTDANEKYETMAIKETFGEHAYKVAISSTKSMTGHLLGAAGAVEAIFSIKSITDGVIPPTINYETPDPECDLDYVPNQARQQEVNAVLSNSLGFGGHNAVLVFKSYK	PGPT0008360_5676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK009_04153	933	fabHA	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 1	GTGAACGTGGGCATTTTAGGGATCGGAAGATATGTGCCGGAAAAAGTAGTCACAAATCACGATTTAGAGAAGATAATGGATACATCCGATGAATGGATTCGTACGAGAACGGGAATTGCCGAAAGACGCATTGCCGATGATACAATAGATACTTCGTATATGGCCGTAGAGGCTGCTAAAAAAGCACTTGAAGATGCAGGGGTTAGCGGAGAAGATATCGATCTTATTTTGGTGGCGACAGTAACACCAGATCGTGCGTTTCCAGCAGTAGCTTGTGTCATTCAAGAAGCGATTGGAGCGAAACATGCAGCTGCAATGGATGTAGGTGCAGCATGTGCTGGTTTTATGTACGGAATGATTACAGCGCAGCAATTTATTCAAACGGGAACTTATAAAAATGTATTAGTAGTTGGTAGTGATAAACTATCTAAAATTGTAGACTGGAATGATCGAAATACAGCGGTACTATTTGGAGACGGAGCCGGTGCTATCGTAATGGGAGCTGTTTCAGAAGGAAGAGGCGTTCTATCTTTCGAATTAGGAGCAGACGGAAGTGGCGGTAAGCATCTTTATCAAGACGAGTATGTTATGATGAATGGCAGAGAAGTGTTTAAATTTGCCGTTCGTCAACTTGGTGAATCTTGTCTTCGCGTGCTGGATAAAGCTGGTCTTACGAAAGAGGATGTGGATTTCTTAGTACCGCATCAAGCGAACATTCGTATTATGGAATCTGCAAGAGAGAGATTAAATTTACCACAAGAAAAAATGAGTATGACAATTGAAAAGTTTGGTAATACATCAGCTTCTTCAATTCCAATTGCAATGGTAGAGGAATTGCAAAATGGACGTATTCAAGATGGTGATTTAATTATACTTGTTGGTTTTGGCGGCGGATTAACATGGGGAGCAGTTGCTCTTCGTTGGGGTAAATAA	MNVGILGIGRYVPEKVVTNHDLEKIMDTSDEWIRTRTGIAERRIADDTIDTSYMAVEAAKKALEDAGVSGEDIDLILVATVTPDRAFPAVACVIQEAIGAKHAAAMDVGAACAGFMYGMITAQQFIQTGTYKNVLVVGSDKLSKIVDWNDRNTAVLFGDGAGAIVMGAVSEGRGVLSFELGADGSGGKHLYQDEYVMMNGREVFKFAVRQLGESCLRVLDKAGLTKEDVDFLVPHQANIRIMESARERLNLPQEKMSMTIEKFGNTSASSIPIAMVEELQNGRIQDGDLIILVGFGGGLTWGAVALRWGK	PGPT0008355_7345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
AK009_04154	177			hypothetical protein	ATGAACGAAAAAAGCATGCAGTTTTTACAAATCGCAATGAAGCATTTACCAGAAGCAAAGGCCATTTTAGATGATAATGGAATTGCGCTTGATATGGAGAAAGCACAACCAGTATTAGAGTTATTGATGAAAGTTATGAACGAAGCATATGAGCTTGGGAAAGCAGATCAACAATAA	MNEKSMQFLQIAMKHLPEAKAILDDNGIALDMEKAQPVLELLMKVMNEAYELGKADQQ	PGPT0029475_56	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029475-comZ-K02254	NA	NA
AK009_04155	873			hypothetical protein	TTGTTTCAAGGAGAAAGGGTTGGTGGTATGGAACGCGTGCTGATAATAGGTGCACTTACGTTTGTAGGTTATCACCTTGTGAATAAAATGATCGCAGAAGAAGTAGAAGTGTATGGTCTTGATTTTGATGAATTCAATAGTATGACCAAAATTAATGAAGAGAAGTTATTGTTAATTGGGCGAAATGCGTTATTTACGTATTATTCGATAAGAGATGAAGATGGATGGAGATTAGTAGAGGAAGAGAGATTCGATACTGTTTACTTTTGCTTATATGAGCCAAATCAGCAATGTGGATTTCGGAATGAAAGAGTCATATTACAATATTTAAAGCGAATTATAAGAATGTGTGAAGAACAAAAATTGAAGTTAAATTTAATTTCTTCTATTGAAGTAGGTAGTACAGATGAATCGGAAAATAAGCGCATATTTTTGAAAGTAGAAGAAGGATTGAAAAAAGGGGATTTACAATATAGTGTATTTCGAGTTCCTACATTATATGGACCGTGGCAACCGTCTTTTATGATGTATCATCAGCTCATTTTATCAGAACTGGATGAGAAAGAGTGCTATTATGCGAGTGAGGAAAACGGAAGTGATCTACTGTACGTGGAAGATGTATGTGAATACTTATGGGAAAATGGAATGAACGAGCAGCATCTCGGTATATACAATTTGCTTAGTGGTAAAAAGTCATTATGGAAAAAAGGTATGAACCTTTTACGCGCGGATGATAAAGTAAATAAAAATAATAACGAAGTAAGAGATGAGGCTATCGAGGTAATTTCGATAAAAAGAAATACTCCGTTAGAATACGGTTTAAATAAGCAACTGGCACACATGAAAAAATATAAAGAGTTATACGAAGGGTAG	MFQGERVGGMERVLIIGALTFVGYHLVNKMIAEEVEVYGLDFDEFNSMTKINEEKLLLIGRNALFTYYSIRDEDGWRLVEEERFDTVYFCLYEPNQQCGFRNERVILQYLKRIIRMCEEQKLKLNLISSIEVGSTDESENKRIFLKVEEGLKKGDLQYSVFRVPTLYGPWQPSFMMYHQLILSELDEKECYYASEENGSDLLYVEDVCEYLWENGMNEQHLGIYNLLSGKKSLWKKGMNLLRADDKVNKNNNEVRDEAIEVISIKRNTPLEYGLNKQLAHMKKYKELYEG				NA	NA	NA	NA	NA
AK009_04156	735			hypothetical protein	ATGAGTATTACGGAACGTTTTTTTTACTTAGAAAAAGAACCATGTGTCATTTATTTACCGGAGAAGCCAAATGGATTTTCGGTTATGCTCCTCGGTGATTACAACTACTTTATTGAGAATGGTACAAGTTTATGGACACAGCATGCGGGAAGATCTTATTTTTTACATGGCCTTATTGAGGAAGGCTACACAGTCTTTTCTTCTAATTTATACGGAAGGCACTGGGGAAACGACCAATCTGTTCGTCTAGCAAAACGTTTATATGATGTTGTTTTGAGAAAAGAGACGTTAAATGCGAAAATGCACATAATGGCAGATGGTATGGGTGCGCTTGTAGCACTTGAAATGATGAACAAATACCCTGAATGTATTCGTTCTGTCATTATGTTGAATCCATGTTTAGATTTACCAGAATATGTGGAATTTGAGAAAGAGCATAAGTTTTTTTACAAAAGATTAGTGAAGGAATTAAGTTTGGCGTATGATGCCAAAGAAGAAGAGTTAGATTTAAAAATAAATAAGAAATCATTTACGCTTCTGCCATCTTGTGTACCTGTCAAAGTTTTCGTATCAACACAAGAAAAAAGAGGAAGAAAACAACAGTTGCGTAAATATGAGAAAATGAGGCAATTAAATCAATGCGATACTTCTGTCTTGTTCCATCTGCAAGATGTGAAATATAAAATGGTTAGGCAAACGACTGATTTCTTTAAAAAATATGAAGAAGAATTGTGA	MSITERFFYLEKEPCVIYLPEKPNGFSVMLLGDYNYFIENGTSLWTQHAGRSYFLHGLIEEGYTVFSSNLYGRHWGNDQSVRLAKRLYDVVLRKETLNAKMHIMADGMGALVALEMMNKYPECIRSVIMLNPCLDLPEYVEFEKEHKFFYKRLVKELSLAYDAKEEELDLKINKKSFTLLPSCVPVKVFVSTQEKRGRKQQLRKYEKMRQLNQCDTSVLFHLQDVKYKMVRQTTDFFKKYEEEL				NA	NA	NA	NA	NA
AK009_04157	183			hypothetical protein	ATGCGTTTCATGTGGGCATTAATTTGGTCGTTCTTACTTGTACATATGATGAGCTATGTAATCGGCTCTATGACTGGCGGTACATACGACTTTAACCAAGCGTCTATTTTCTCAGTTGTTCTTGCTGTATTAGTACTAGCGATTTCAGCTGCAATTCCAAACGAGCCAGTAGAACAACACTAA	MRFMWALIWSFLLVHMMSYVIGSMTGGTYDFNQASIFSVVLAVLVLAISAAIPNEPVEQH				NA	NA	NA	NA	NA
AK009_04158	2601	clpB	COG0542	Chaperone protein ClpB	ATGGACTTAAATCAAATGACAACAAAAACACAAGAGGCGATTATGAGTGCCCAATCTTTAGCGGTATCTCATCATCATCAAGAAGTAGATACTGTTCATCTCTTGTTTACATTATTAGAAGAGCAAGATGGGTTAGCAGTGCGTATTTTTCAAAAAATGAATGTCGATATAGAAGCGTTAAAGCAAGGCGCCGAAAGTTTAATTAAGAAAAAGCCTTCTGTAACGGGAAGCGGTGCAGAAGTAGGCAAATTATATATAACAGGTGCTCTGCAACAACTATTTGTAAGAGCAGGAAAAGAAGCAGAGAAATTGCAAGATGACTACATTTCAGTGGAACATGTATTGCTTGCTTTTTCTGAAGAAAAAGGCGATATCAATCAATTATTTACAAGATTTCATATTACGAAAGATAACTTATTACAGTCTTTAATGACAGTTCGGGGGAATCAAAGAGTGACTAGTCAAAATCCAGAAGCAACTTATGAAGCGTTAGAAAAATATGGCCGTGATTTAGTGGCAGAAGTGAGAGCAGGGAAAATTGATCCTGTTATTGGCCGGGATAGTGAAATTCGACGTGTCATTCGCATTCTTTCACGTAAAACGAAAAACAACCCTGTTTTAATTGGTGAGCCAGGTGTTGGTAAAACAGCAATCGTTGAAGGGTTAGCGCAGCGTATTGTGAAAAAAGATGTACCTGAAGGGCTAAAAGATAGAACGATCTTCGCGTTAGATATGAGTGCGCTCGTAGCTGGTGCGAAATTCCGTGGTGAGTTCGAAGAGCGTCTGCAAGCTGTATTAAATGAAATTAAAAAGAGTGAAGGGCGTATTTTATTATTTATTGATGAACTTCATACAATCGTTGGCGCCGGTAAAACAGAAGGTGCGATGGATGCAGGGAATATGTTAAAACCGATGCTTGCTCGCGGTGAACTACACTGTATTGGGGCGACGACATTAGATGAATATCGTAAATATATTGAGAAAGACCCGGCGTTAGAAAGACGTTTCCAACAAGTATTAGCAGAAGAACCAACTGTTGAAGATACAATTTCCATTTTACGTGGTTTAAAAGAGCGTTTTGAAATTTATCATGGTGTAAATATTCATGACCGCGCGATTGTAGCAGCATCAGTTTTATCAGATCGATATATTTCGGACCGTTTCTTACCAGATAAAGCAATTGATCTTGTCGATGAAGCGTGTGCAACAATTCGTACAGAAATCGATTCTATGCCGACAGAATTAGATGAAGTAACGCGTCGTATTATGCAGTTAGAAATTGAGGAAGCAGCTCTTGGAAAAGAAACAGATCGTGGTAGCCAAGAACGTCTTAAAACGTTGCAACGTGAACTATCAGATTTAAAAGAAGTTGCAAGTGGTATGAGAGCGAAATGGGAGAAAGAAAAAGAAGACATTCACAAAGTTCGTGACTTACGTGAACATTTAGAACGTCTGCGCCGTGAATTAGAAGAAGCAGAAGGTAATTACGATTTAAATAAAGCAGCCGAACTTCGTCACGGGAAAATTCCAGCAATTGAAAAAGAGTTAAAAGAAGCGGAAGAAATGGGCGCGCATAATAAACAAGAAAATCGTTTATTACGTGAGGAAGTAAGTGAAGAAGAAATTGCAGATATTGTTTCACGCTGGACTGGTATTCCTGTTGCTAAACTCGTTGAAGGTGAACGCGAGAAATTACTACGCTTAGAGCAAATCTTATCAGAGCGTGTCATCGGACAAGAGGAAGCAGTAAGCTTAGTATCAGACGCGGTTCTTCGTGCTCGCGCCGGTATTAAAGATCCGAACCGCCCGATTGGTTCCTTCATTTTCTTAGGCCCTACGGGTGTTGGTAAAACAGAACTTGCAAAAACGTTAGCGCAGTCTTTATTCGATAGTGAAGAGCAAATGATTCGTATTGATATGTCTGAGTATATGGAGAAACACGCAGTGTCACGCTTAATTGGTGCACCTCCTGGATATGTAGGATATGAAGAAGGCGGTCAATTAACAGAAGCGGTAAGACGTAAACCATATTCCGTTATTTTATTAGATGAAATTGAAAAAGCACATCCAGAAGTATTCAACATTTTATTACAAATGTTAGATGATGGACGCATTACAGATTCGCAAGGACGTACAGTGGACTTTAAAAACACAGTTATTATTATGACTTCAAATATTGGATCTGCTCATTTACTAGATGGATTAGAAGAAGATGGCTCGATTAAAGAGGAATCAAGAGACCTTGTAATGGGGCAATTAAGAGGACATTTCCGCCCTGAATTTTTAAACCGTGTTGATGAAATTATTTTATTTAAACCTCTTACAACGAATGAAATTAAAGGTATTGTTGATAAAATTGTAAAAGAATTACAAGGGCGTTTAGCTGACCGTCACATTACAGTAGAATTAACAGACGCAGCAAAAGAATTTGTTGTAGAAGCTGGCTTTGATCCGATGTATGGAGCTCGTCCATTAAAACGATACGTACAACGTCAAGTGGAAACGAAATTAGCGCGAGAATTAATTGCAGGAACAATTACTGACAATAGTCACGTAGTTGTCGATGTAGAAAATAACGAATTAGTTGTTCATGTGAAATAA	MDLNQMTTKTQEAIMSAQSLAVSHHHQEVDTVHLLFTLLEEQDGLAVRIFQKMNVDIEALKQGAESLIKKKPSVTGSGAEVGKLYITGALQQLFVRAGKEAEKLQDDYISVEHVLLAFSEEKGDINQLFTRFHITKDNLLQSLMTVRGNQRVTSQNPEATYEALEKYGRDLVAEVRAGKIDPVIGRDSEIRRVIRILSRKTKNNPVLIGEPGVGKTAIVEGLAQRIVKKDVPEGLKDRTIFALDMSALVAGAKFRGEFEERLQAVLNEIKKSEGRILLFIDELHTIVGAGKTEGAMDAGNMLKPMLARGELHCIGATTLDEYRKYIEKDPALERRFQQVLAEEPTVEDTISILRGLKERFEIYHGVNIHDRAIVAASVLSDRYISDRFLPDKAIDLVDEACATIRTEIDSMPTELDEVTRRIMQLEIEEAALGKETDRGSQERLKTLQRELSDLKEVASGMRAKWEKEKEDIHKVRDLREHLERLRRELEEAEGNYDLNKAAELRHGKIPAIEKELKEAEEMGAHNKQENRLLREEVSEEEIADIVSRWTGIPVAKLVEGEREKLLRLEQILSERVIGQEEAVSLVSDAVLRARAGIKDPNRPIGSFIFLGPTGVGKTELAKTLAQSLFDSEEQMIRIDMSEYMEKHAVSRLIGAPPGYVGYEEGGQLTEAVRRKPYSVILLDEIEKAHPEVFNILLQMLDDGRITDSQGRTVDFKNTVIIMTSNIGSAHLLDGLEEDGSIKEESRDLVMGQLRGHFRPEFLNRVDEIILFKPLTTNEIKGIVDKIVKELQGRLADRHITVELTDAAKEFVVEAGFDPMYGARPLKRYVQRQVETKLARELIAGTITDNSHVVVDVENNELVVHVK	PGPT0014580_2224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
AK009_04159	180			hypothetical protein	ATGGGACAAAATCGCAGGTTTCGTTCTGGACAAAAAGCGCCAAATGATGGCATTTACGTAGAAATTGGTGAAACGGGAAGTATGGTAAAAAATCCGCAAATGGTACAATTAACTGCCGGTGAAAAGTTTCCAGATAACACGAATCATAACCGCCAGTGGACATATAAAAGAAAACCGTAA	MGQNRRFRSGQKAPNDGIYVEIGETGSMVKNPQMVQLTAGEKFPDNTNHNRQWTYKRKP				NA	NA	NA	NA	NA
AK009_04160	1023	cof_3		HMP-PP phosphatase	ATGAAAGAAACATTATTTGAACTTTCTAAAAAGATGTTGACTTTTCTTAATTTCCAACGAGAAATAGTAGACACCATAGTACTTCGCGACGTAAGATGGATATATAGTGAAACCTCCATCTATGGTGGTCTCACCCAGTCTAACCTCTTATTTCTGCATATTAAAAACGGAAATACAGATAGAAACAAAAAAATTATTATAAGAGGTGAAATTATGAACAAACAACATTTAATCGCATTAGACTTAGACGGCACTTTATTAACAGACAACAAAATAATTTCCACTCGAACGAAACATACAATTGCAAAAGCAAAGGAACAAGGACACGTTGTCGTTATTTCAACAGGACGTCCATTCCGCGCTAGTTATGATTACTATAAAGAACTAGGTCTGAATACACCTATCGTAAACTTTAACGGTGCGTACGTGCACCATCCTCTTGATTCAAACTGGGGTATACATCACTCTCCTCTTGAGCTAGCAACAGCGCAAGAAATTGTACGAGCTTGTTTTGATTTCGGCGTAAAAAATATATACGCTGAAGTTATGGATGATGTGTATGTTCGTGAAATTGATGAAGATAAAAAACACATTTTCGAATTCGGTTCTCCTAAGATTTTTACAGGAGACTTATTAAATATTTTAAATGACCATCCAACTTGCTTATTAATTGACGCACATGACGAGCATTCTACTGCAATTCGTCAACATTTAACTGATATGCATGCGGAAGTAATCGACCATAGAAAATGGGGTGCACCTTGGCCGATTATTGAAATTGTAAAAAGCGGATTAAATAAAGCGGTCGGATTACAAAAAATTTCTAGTCATTACAACATTCCACAAGAGCGAATTATCGCTTTCGGTGACGAAGATAATGATTTTGAAATGATTGAATTTGCTGGTCACGGCATCGCAATGGGTAATGCCATCCCTGAATTAAAATCACTCGCAAACCATACTACGTTAACGAACGAAGAAGATGGTATTGCTTTATATTTAGAAGAGGTTCTTGGGTTGTAA	MKETLFELSKKMLTFLNFQREIVDTIVLRDVRWIYSETSIYGGLTQSNLLFLHIKNGNTDRNKKIIIRGEIMNKQHLIALDLDGTLLTDNKIISTRTKHTIAKAKEQGHVVVISTGRPFRASYDYYKELGLNTPIVNFNGAYVHHPLDSNWGIHHSPLELATAQEIVRACFDFGVKNIYAEVMDDVYVREIDEDKKHIFEFGSPKIFTGDLLNILNDHPTCLLIDAHDEHSTAIRQHLTDMHAEVIDHRKWGAPWPIIEIVKSGLNKAVGLQKISSHYNIPQERIIAFGDEDNDFEMIEFAGHGIAMGNAIPELKSLANHTTLTNEEDGIALYLEEVLGL	PGPT0008595_620	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
AK009_04161	141			hypothetical protein	ATGGGTAAAAAGAACAAATCAAAACGTTTTATCCAACAAGGAGCCGATGCTGTTATGAAGCATGATGCAAGATTCCCGTACAGAGGTACATTAGCTGAGGCAGAAAAGGCAAGAAGTAACTCTTCTTTTGGAGGGGTTTAA	MGKKNKSKRFIQQGADAVMKHDARFPYRGTLAEAEKARSNSSFGGV				NA	NA	NA	NA	NA
AK009_04162	198			hypothetical protein	ATGGGGAACTTACTATTCCAACAAGCTAGAGATGCTGTTGAAAATGCCGTATCTTGTTCAAGCGGTACTGAGCAACGAGATCTCGTATATAGAGCAAAAAATGCTTTGCAATCCGCTTACGCAAACTCTTCAACTGCTGAAAAAGTTCAGCTCCGTGAAATGCAAGAGCAATTGCAAAACATTACGAATGTACATTAA	MGNLLFQQARDAVENAVSCSSGTEQRDLVYRAKNALQSAYANSSTAEKVQLREMQEQLQNITNVH				NA	NA	NA	NA	NA
AK009_04163	858			hypothetical protein	ATGGATTTGAAGTTGAATTATACTGAACTTATAAAGAAGTTAATCGTTGTAATCATCGCAGGTTTATTAAACGCGATTGGGATGAATTTATTTTTAACACCAGCAAAAGTGTATGCGAGCGGCTTTGCTGGATTGTCTCAATTATTATCACAAATATTAGGTGATTTTTTATCGATTCACATATCTACGGGAGTATTGTTTAGCTTATTTAATATTCCTGTCGTTATTTTAGCGTGGAAAAAGGTTGGAAAGGCCTTCACCTTTTTTAGTTTTCTTTGTGTTATATTTATGACTCTGTTTCTAGAAATCATCCCTGTTAGAGCGGTTTCGAATGATATTATATTAAATGCGATTTTTGGCGGGATTATTTCGGCAATTGGAGTAGGGATTGCTTTAAAGTGGGGTGCTTCTACAGGTGGATTAGATATTATCGCCATGATTTTATCAAAAATAAAAGATAAGCCTGTCGGTACATACTTTTTCTTTTTTAATGCAATTATCATTATCGCTGCTGGCTATGTATATGGATGGGAAAAAGCGTTATATACGTTAGTGACTTTATATGTATCAACGAGAATTATTGATGCAATTCATACTCGTCATGTAAAGATTACAGCATTAATTGTTACGAAGAATGGGGCGGACGTAAGAAAGGCGATTCACTCGCGATTAGTAAGAGGAATTACAACGATACCAGCAACAGGTGCTTATACGAATGAAAATAAAGAAATGTTAATGATGGTTATTACCCGTTACGAGTTATACGAATTGGAGAGGATTATTAAACAAGTGGACCCAGGTGCATTTACAAATATACTGCAAACAGTTGGGGTGTTCGGATTGTTTCGGAAAGATTAA	MDLKLNYTELIKKLIVVIIAGLLNAIGMNLFLTPAKVYASGFAGLSQLLSQILGDFLSIHISTGVLFSLFNIPVVILAWKKVGKAFTFFSFLCVIFMTLFLEIIPVRAVSNDIILNAIFGGIISAIGVGIALKWGASTGGLDIIAMILSKIKDKPVGTYFFFFNAIIIIAAGYVYGWEKALYTLVTLYVSTRIIDAIHTRHVKITALIVTKNGADVRKAIHSRLVRGITTIPATGAYTNENKEMLMMVITRYELYELERIIKQVDPGAFTNILQTVGVFGLFRKD	PGPT0014526_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA	NA	NA
AK009_04164	132			hypothetical protein	ATGCCACATACGAGTGATAACGACAAAAAAGCACGCGATAATAATGCAAAACGCGCACAAAAAAATGAGCAAGAACAAAAAAATATAGAGCAAGGTAAACGTGCATACTCTAAAAAGACCGATCACCTTTGA	MPHTSDNDKKARDNNAKRAQKNEQEQKNIEQGKRAYSKKTDHL				NA	NA	NA	NA	NA
AK009_04165	858	prsA2	COG0760	Foldase protein PrsA 2	ATGAGAGGGAAACAAATTTTCATTATTACTGCACTAATAAGTATATTGATGCTATCTGCTTGCGGACAAAAAAACGAATCAGCTACAGTCGCCACAGCAACAGACTCAACCGTTACGAAGGACGACTTCGAAAAACAGTTGAAAGATCGTTACGGAAAAGACATGCTATACGAAATGATGGCACAAGACGTCATCACAAAAAAATATAAAGTATCTGATGAAGAGGTAAATAAAGAAGTAGAAAAAGTAAAAAAACAATATGGAGATCAATTCAAAAAAGTATTAGAAAATAATGGTTTAAAAGATGAAGAGGATTTCAAAAATCAAATTAAGTTCAAACTTGCTATGAATGAAGCGATTAAGAAAAGCATTACAGAGAAAGACGTAAAAGACCACTATAAGCCAGAAATTAAAGCGAGTCACATTTTAGTAAGTGACGAAAATGAAGCGAAAGAAATAAAGAGTAAACTAGATGCTGGTGCTTCATTTGAAGAATTAGCAAAACAAGAATCACAAGATCTACTATCAAAAGATAAAGGCGGAGACCTTGGATACTTCAATTCAGGTACAATGGCTCCTGAATTTGAAACGGCTGCCTACAAACTAAATGTTGGACAAATTAGCAACCCCGTAAAATCATCAAACGGTTATCACGTTATTAAATTAACTGATAAAAAAGATTTAAAACCTTACGATGAAGTAAAAAAATCTATTCGCAAAAACTTAGAAGAAGAACGTATCGCTGACCCTATATTCAGCAAAAAATTGTTACAAGAGGAATTAAAAAAGGCAAATATTAAAATAAACGATAGTGATTTGAAAGATACATTTACTCTTGTTTCTCCACAAGGAAATTAA	MRGKQIFIITALISILMLSACGQKNESATVATATDSTVTKDDFEKQLKDRYGKDMLYEMMAQDVITKKYKVSDEEVNKEVEKVKKQYGDQFKKVLENNGLKDEEDFKNQIKFKLAMNEAIKKSITEKDVKDHYKPEIKASHILVSDENEAKEIKSKLDAGASFEELAKQESQDLLSKDKGGDLGYFNSGTMAPEFETAAYKLNVGQISNPVKSSNGYHVIKLTDKKDLKPYDEVKKSIRKNLEEERIADPIFSKKLLQEELKKANIKINDSDLKDTFTLVSPQGN				NA	NA	NA	NA	NA
AK009_04166	270			hypothetical protein	ATGATAATGCAAGATAATGTACTGGAACAATTAATAAAGAGTCTCTCAGTATTATCCTCTGAAAAAGAACGTGAAATAGCAGCAGTTGATTTACATGATATATATGAGAGCACTGAAAGATTCGAACGATTGCTTGAAAATATTATAAACTCTCAGCAATCTAAAGAAGACTTAATAGATGCGCTAATTGAAGTGGAGATAGAATTAAATCACATCAATTGGCATTATAAAAGCTTGAAGAAAAAGTTGAAAATATTGATGAAAGATTAA	MIMQDNVLEQLIKSLSVLSSEKEREIAAVDLHDIYESTERFERLLENIINSQQSKEDLIDALIEVEIELNHINWHYKSLKKKLKILMKD				NA	NA	NA	NA	NA
AK009_04167	243			hypothetical protein	ATGGAGACGACACATACAATGATTGGTATATATAATGTTGTTTTTATTGTAGCATTATTGGTGATTATGTTAAAAAGGAAAAACTATCGAGCTACAATGGTGTTAGTAGTAAGTCTCATATATACAATTCTAGTAAGTTTTACTTCGTATATGTCGTTCTTGGGTTATACAATTAACGTGATAATTGTAATTTTTCTGGGGAGTAGTTTTATCTTGGCTGGTATTTTTGAAAAAGAAAAGTAA	METTHTMIGIYNVVFIVALLVIMLKRKNYRATMVLVVSLIYTILVSFTSYMSFLGYTINVIIVIFLGSSFILAGIFEKEK				NA	NA	NA	NA	NA
AK009_04168	381			hypothetical protein	ATGAAGAATTTGAAGATAGGGATTGCGCGTTATTATAATCCAGATCATGGTGTGTTCTTATCGGTGGATCCTGATCCAGGTGATGAAGATGATCCTGTGACGCAGAATGGGTATACTTATGGATGGAAATCATCTAGAAGTAACTCGAAAAAACAAATCGCAAATTTATCGCCGGGACAGCGCGTTCAAACGCAGCAAATACTAAAAAATGCAGTGAAGTCAGCGACTAAAGGAGCGTTATTCACTGGTAGTAAAGCTGTTGGAGGGATAGGGCTGATTCCGGACGCGGCGGTTTTTATAGATGGAGATTATAAGGGATATAAAAAAGGATATAAAGATTATAAGCCGAAAAAAACTAATTCTAAGAAAAGAAGAAGATAG	MKNLKIGIARYYNPDHGVFLSVDPDPGDEDDPVTQNGYTYGWKSSRSNSKKQIANLSPGQRVQTQQILKNAVKSATKGALFTGSKAVGGIGLIPDAAVFIDGDYKGYKKGYKDYKPKKTNSKKRRR				NA	NA	NA	NA	NA
AK009_04169	129			hypothetical protein	ATGAAATTCCTAAAATATGAAGATGGACAAGTATTAAATATGTTATATAAACAAGGTATAGACTTTAATAAAACACACATAGTGGATTTCTTTATTGTAATTCCTGATCAAGACAATAGGGAAAAGTAA	MKFLKYEDGQVLNMLYKQGIDFNKTHIVDFFIVIPDQDNREK				NA	NA	NA	NA	NA
AK009_04170	450			hypothetical protein	TTGGAAGAAGGTGGAATGGTGGAAATAAAAAAAGAAATTGAGTTGGTGTTTTTAGGGGATGAAAAAAAGATAACCATTGTATCATTTGGGTCTATGTATCCAAATGATGATGAGCTGTATTTACGTGATTTACAACTGAATTTCTTAGCTGTATCCTCGAATAATATTCATTATGAGTGTAAAGGGCCAATGTTTTTGAGGAGTGAAATAATTAAATTTGGGGAAGAACTAGAAGCATTACTACGAAAAGATATTAAGGAAGCTGTATTAAGTGCTGATGAAGAGGAAATAGAATTTAAAGTGAAGCTAAAAAAAAATCGATTTTTAGTATACTTTACTTTTGTTAAAAATGATTTGATTAATGAAAAATGGGAGTATGAAACATCATTCGGGATGGAAGTAAAAGTTGTAGAAGAGATGTGTTGTAAAATAAAAAAAATATATAGTTAA	MEEGGMVEIKKEIELVFLGDEKKITIVSFGSMYPNDDELYLRDLQLNFLAVSSNNIHYECKGPMFLRSEIIKFGEELEALLRKDIKEAVLSADEEEIEFKVKLKKNRFLVYFTFVKNDLINEKWEYETSFGMEVKVVEEMCCKIKKIYS				NA	NA	NA	NA	NA
AK009_04171	1293	wapA_1		tRNA(Glu)-specific nuclease WapA	GTGCATAATAAATTTGTAGGAGGAAGGGCCGATATCGGTTCTTCTTTCTTTTTGGATCTTAATCCAATGAATTCAATTTTAAATGAGATATTACCAAACGGAACAAGTAAATCATACACATATGATGGATTTGGAAACCGTACGAGTGTGAAAGTTGTAGAGAATGGAAAAGAAACAAAATCTATAGCGGCAACATTTAATGACGGAAATCAGCTTGTGAAATTCGGAAACGAATCGTTAACGTATGATGCGAATGGAAATCGTACGTCTGATGGAAAGTACAAGTATACATGGAATGAAAATGACCAAATTGTAGCGATTACAAAACAAGGTGAAAGCAATGCATTCGCAACGTATAAATATGATGAGGATAATCGTCGTATTGAAAAGAATGTCAATGGTCAAGTAACACGTTACTTCTATGATGGAGATAGTATCAATCCATTGTATGAAACAGATGGAAGTGGAACTGTACTTCGTCAATATGTATACTCAACAAGTGGCGCGCGTCTAGCGACGAAATCAAAAGGACAAACGTTATACTACCATTACAACCCTCGTGGTAATGTCGTTGCGATGACAGATCAAAATAGAGAAGTTGTAGCAACGTATGAATATGATTCGTGGGGTAACGTACTAAAGAGCGACGTAAAAGGTATCGCCGCAGACAATCCATTTGGATATGCGGGATACATGTATGATAAAGAAATTGGGATGTATTATCTGATTGCGCGTTATTATAATCCAGAGCATGGTGTGTTCTTATCGGTGGATCCAGATCCGGGTGATGAAGATGATCCGATTACCATGAATGGGTATACGTATGGTGATAATAATCCGGTGATGAAGATTGATCCAGATGGGCATGTCGCTTGGTGGATAGCTGGTGCGTTAGGTGGAGCTGCTTGGGATGTTGGTACTTACTTATGGAATAATCGGAAAAAAGGGTATTCTTGGAAAGGAGTAGGGAAATCAGCACTAAGAGGAGCGGTGGCAGGAGTTGCACTAGGTGGAGTTGGAAGAGTTGGCTATTTCGCAGCAAAATTAAAATATAGTATTCATGCGACAGAGCACTTAGCGAACCCAGCGCGTCAAATGTCTAAATCTGCTACAGTATTAGTTCGAAGTTTTGGTAGAAAGCATATAGATAAAAGAAATCCACATGACCGATTTGTGCAAACGTTAGGTAAAAAACATATTGTTGTATCAAAAACTAAAAAAAATAACATTATTAGTCTAGGGCATCGCTCGAAGAAGGATAAAAATTGGAAGAAGGTGGAATGGTGGAAATAA	MHNKFVGGRADIGSSFFLDLNPMNSILNEILPNGTSKSYTYDGFGNRTSVKVVENGKETKSIAATFNDGNQLVKFGNESLTYDANGNRTSDGKYKYTWNENDQIVAITKQGESNAFATYKYDEDNRRIEKNVNGQVTRYFYDGDSINPLYETDGSGTVLRQYVYSTSGARLATKSKGQTLYYHYNPRGNVVAMTDQNREVVATYEYDSWGNVLKSDVKGIAADNPFGYAGYMYDKEIGMYYLIARYYNPEHGVFLSVDPDPGDEDDPITMNGYTYGDNNPVMKIDPDGHVAWWIAGALGGAAWDVGTYLWNNRKKGYSWKGVGKSALRGAVAGVALGGVGRVGYFAAKLKYSIHATEHLANPARQMSKSATVLVRSFGRKHIDKRNPHDRFVQTLGKKHIVVSKTKKNNIISLGHRSKKDKNWKKVEWWK				NA	NA	NA	NA	NA
AK009_04172	249			hypothetical protein	GTGGGTAAATTTAATAGTGATGTGAAAGGGGTATTATTGCAAAGGATATTAAAGGAAAATTGGCCTGAGTTATTGTGGATTGCAAATTGTAAGGACTTTAGTCTATCAGAAATTGAAACAATACATGAGTTGAGAGATATATTAGCAGATGAATTAATTGAAAAAGGCTTTGATGAACAGGATAATATTAATGATTTTGGTAGGAATTTAGAGAAATTGATTGATGTATTTGGGGATTTACTTCCTTAA	MGKFNSDVKGVLLQRILKENWPELLWIANCKDFSLSEIETIHELRDILADELIEKGFDEQDNINDFGRNLEKLIDVFGDLLP				NA	NA	NA	NA	NA
AK009_04173	204			hypothetical protein	ATGAAATCAGTACTGTTTAATAAATTAAATTATATGTTACAGGTCGGGAAAAGTCGTATGTTTATACCGGATTTTAGTTCAAAAGAATATATCATTTTTGAGGATTTAGCTGGGCTTTTAGATTTAGAGACAAATCAAAGGCGATCTTACATACAGTTAGGTCAGGTAAAAGAGGGCTATACAAAAAGATCGTGGAACTATTAA	MKSVLFNKLNYMLQVGKSRMFIPDFSSKEYIIFEDLAGLLDLETNQRRSYIQLGQVKEGYTKRSWNY				NA	NA	NA	NA	NA
AK009_04174	603			hypothetical protein	ATGGACAAATATATTGAAATACACAAACCTGCAACAGAAAAAAACGAATATTTTCTAGTGTTGGATGAACATGATAATTTTGAAAATGATAAAATCTTGAATTTGTTATCAAAAATTAATAGATATATAGTTGATGTTGATACAAGCATGGAACAATTTATGAAAACAATGATGTCGAAATTTCATTTATATATTTTAGTGAATTGTGAAGGGATTCAAGAGGAGTTAACAAAGGTGCAAAATTACATTTTGGAAAAAGAATTAAAAGAGTTAAACTGGAAAAAGTCGATTGTGAAGAGCACAATTTTAATAAACCAGTATGATCCTGCAACTGATATTTTCGATGTGATCTCTCCTGTATGTATGGAAGGGAGCCTCATGTTCCTTTTCTCTGAAAAAGAAGCAAACGATAATGAGTTAGAGAGTATCATAAAACATATAAATTTTGATCGGACAAGAGTATATTTTAATAAAGAAACAATTGAACTGGCGGGGGAGATGGGGTATATAGTAGGGCATTTTGAAGATGAGTATTATTTAGTATCTTTACGTTCGGAAAAGCAAGTATTTGTTTGTTATGCGGAAGAACGTATTATGGATTAG	MDKYIEIHKPATEKNEYFLVLDEHDNFENDKILNLLSKINRYIVDVDTSMEQFMKTMMSKFHLYILVNCEGIQEELTKVQNYILEKELKELNWKKSIVKSTILINQYDPATDIFDVISPVCMEGSLMFLFSEKEANDNELESIIKHINFDRTRVYFNKETIELAGEMGYIVGHFEDEYYLVSLRSEKQVFVCYAEERIMD				NA	NA	NA	NA	NA
AK009_04175	6741			hypothetical protein	ATGGAAAAGAGGCAAGTTAAGAAAAAATGGTATAGGCAATTAATCCAACTTATCGTAGTTGCATTAATTGTTACTTCTATACCACTGAATGGGTTGGCAGAAACGGCACCACCGTTTACACCATCTCCAAATTCAGAACAAACTCCAGAAGTGGAAAAGAAAGAGGAGCAGGAATTACCAGCTCCACATCCAGATCAATTAAAGAAGGATAAGGCTAAAGCGCAGGCGAGTCCGACTGAGATTGTAGAAGAAAGAACGGAAACTGAAAAGGTTTTTGATAACAATGATGGTACTTTTACAAAGAGGGTATATACGGAACCGATTCATGCAGAGAAAGATGGAAAGCTAGAAGAGGTTTCACCAAAATTAGTAGAAGCACCAAATGAAAAAATTGTAACGGAAAATACAACATTAGAACCAGAGTTCGAGAAAGCGACACAAGATGGAAAGTACGTTCAATTTAAAGTAAAAGATCATACTATTCAGTATAAACTAATAAGTGCAAATGGTGAAAAAGGTGAAATAAAGCCATCGCCAGTAACCGCAACACATGAAAATAATACAGTATGGTATAAAGGAGTCTTCCCAAATATTGATTTAAAGAGTACGACATTCAATGAAAATGTAAAAGAAGATTTTGTATTACGTGAGTATACAGGGCACCACATTTTTACATTTGCATTAGAAACAGATTTAACACCTAGCTTACAGGAAGATGGTTCAATCGACTTCCAAGATGAGAAAAAAGAAAAAGTATTCACATTGCCGAAACCATATATGAATGATTCCAATGTGGACCAACAATCAGGTGAGGCTGTAACGTCAGATGCGGTTCGCTACAATATTGAGAAGAAAGATGAAAAAACATATACATTAACTGTTACTGCAGACCCGCAGTGGTTACAAGCACCAGAGCGAAAATATCCGGTATATGTAGACCCTTCGGTTCAGTTGAAGGATTTTGATAATGCATATGCTTCAAGTGCATATCCAACTGTCAATTATTCAGGAGGAAAGCTTTGGGATGCTGGTCAAAATGCTTATACGTTAAAAGTAGGATATTATGATGGATCATCTGGGACAAACTTTGCATTTATTAAACCAGACGTTTCGAGTTTTAAAGGTGCAAATATTGAAAGTGCAACATTCAATGTACATACCATTTGGCATTATTATGCGAATCAACCAAATGGTGTTTGGTTAGATGAAGTAACGAGTGCCTGGAATGAAGGCAGTTTAAATTGGAATAATAAACCTGGTTCAAATAATATTGCACATGCTGATGTAACAAGAGGACAATTGGCGAAGTTTAATGTAACTAACACAGTAAAAGCATGGGTAGAAGGCGCGAGACAAAACAATGGCTTTAAGCTACATGCAAATGGTAATGGTCAAAACCATTGGAAGAAATTCATTGCAGCTGAAAATGGAACGAATGCACCATTCTTGGAAGTGAAATATTCCTACGCAAAACCGAATAAGCCAAGAGTACAAGCTTACTCAAATGGCAGTGGGAGTGGTTCAGGTCACTTCAATGTACAATGGGACGCAGTTCCAGGAGCAACAGGTTATAAAGTTGCCATTTTTAATGGATATGACTATGAATATATTCCTGTTGGGAATGTGACAAGCTGGACGACGAAAGATAAAAAAATATTCCCGACGCCAGAAGAAATTGCACAAGGGCGTTACTGGATACATGATGATGGAAAAGGTGCAGAAGCGCCTACTAACCCAGGACAAATATATAAAAATGCTTACGAGTCAGGAGGTCCGTACGGGGATTATAGCGGAAGAAGTAGCTACTGGATTCGTATTGTAGCAGAGTATCCGTTTGAGGATAGTCCACTTTCAGATGAAATAGTTCCATTTATTCCATTAGAACAAGTGAAAAAGCCAGACGGATCGGCCTATATTAATGCGACAGATAAGGAAACGGGATATGTCACATTAAAGTGGGATGCAGTTCCAGCGGCTGCAGGCTATAAAGTTTGGATTTATAACGGAAAAGATTACGAAGCGTTCGATGTAGGAAATAAAACAAATTGGACAACGCAAAATGAGAAAATTTGGCCAACGAAAGATGAAATTGCAAAAGGCCAATATTTACTTCATCATGATAAAAAAGGTGCAGAATTAGCAGTTGATCCATCACCTGTGTATAAAAATTCTGGCGGAATCTATGCTGGCTTTAAAAATTATTGGTTCCGTGTAACAGCGTATAGTAAAGCCGGACATGCTGAAAGTGAAATTTCGCATGAGTTTGTACCTAAATTTGCTCAAGACTTTGGGTTTATAGGGATGTTTGATTACTGGGCATCAGTTCCGGTACTAAATGGTACAGTGAATGCTACAAATGGTAACTTTATCATGAGTGAAAAAGATATTACGTTATCAGGGCGCGGACCGGATGTATCAGTGGAAAGAACGTATAATAGCCAAAGTAAAAAAGTAGGTTTATTTGGTACAGGTTGGTCTAGTGGATTAGAAGAAAGAATTTTGGCTGAAGGAAATGGAAACTTACTATTAATTTCTGCCGATGGCGCAAATATTACTTTTACTAGAACGGGAGATAATACGTATCAAGCCCCTACTGGTATATATTTAGAAATTAAACAAGTATCAGGCGGATATGAAATAAAAGATAAAGACCAAACGGTTACTTTCTATAAATCTGGAGATGCACAAGGTCGTATCCAGTATACAAAAGATAAATACGGAAATACGACGACATATGAGTATGATGGGGAATCACGTTTATCAAAAGTAAAGAACGCTTCTGGTAAAGAGTTAGTCGTACAATATGATGGAAATAATAAAAAAGCAGCAAGAGTAATCGGCCCAGATAGCAAGACGATTACATTTAAATATGATGGAGATTTACTCGTTTCTTCTACAACTCCAGAAGGAAAAGTATATAAATACGGATATGATAATGGATTACTAACATCTATTTATGATCCGCAACATACAGATGCCAAACCATATAAAACATCGTATGCATACGAGAATAATAGGTTAGTAAAAGTAACGGACCCATTAGGAAAAGCTACGACATTAGCATATAATACAGATGCGAAAGAAGTTACGTTAACGAATCCTAAAGGACGTAAAACTGTTTATACGTATAACGATGCTGGAAACCCAGTCAAAACAGTTGAAGATTCCGGACGTCTAAATTTAACAACAACATATGAATATAATGCAAATAACCTAGTAAAAACAACAACTCCTAAAAATCAAACAGAAACAGCGACCTATGATGGTAATGGGAATGTAACTTCTGTTACTGATGAAATGGGAACAGAAAAGTTCGAGTACAATAAAGACAACGGGCTTATAAAAGCGACAGATAACGAAAATCGTGAAACAACAGTTGCTTATAAAGCAGCAAATACAGAAGTGTCTGAAACTGACCAAGAAGCAAATACATCATCTTTCATGCAGTATGATCAGTTTGGAAATCCAATTGCAACAACTAGAGAGCTAGGAACAGGAGAAAACCTGATTCAAAATCCAAGCTTTGAAATGAATAACACTGAGAGATGGAATGAAGAGAAGACTAATAGTCATGGATCATTGAAAAAAGATGCAACATTCGCGCCAGGTGGATTGGGTGGATCTTCATCTTTACAAATGATAGTAAAGGCGCAAAACGCTGGTTGGGGATACCATAGTGCGATTCAAGATGTGGTAGTAGAACCAAATACAACATACACATTAAGTGGGATGATGAAAACATCATTAACTCACGCTGGTGCATTTTTTAATGTTCAGTTATTAAAAGAAGATGGAACCCCTCTTGGAAGTGGGAATAACTGGTTTGATACACGTCATAATAGGATAGAGGGCGAGAAAGATTGGACGAATCGTCAAGTAACCTTTAAGACAACAGATCAAACAAAAAAAGTTAGAATATATCTACAAGTTGATTATAATCGAGCAGATTCAAGTGGTTCCGCATGGTTTGATAAGATTCAATTGGAAAGAGGAGAAGTGTCTTCCAGCTTTAACCCAATTGAAAATAGTAGTTTAGAAAATATGGCGGGAAATGGCTGTATGCCAGGTTGGATTCGAGGAGATGGAACAAGCTGTGATCCGAAAGATGTTTCTCAGCAAGAGAGCTTTACGGGACATTCATCTATTGTATTAGAGCGTAGTCAATATGGTGGTTCAAATGTAGGCTATGGTAAGCATGTAACTGTAAATCAGAAAAAAGCAGAGCCAATTACACTAACAGGAATGTCTAAATCTGAAAATGTAGAGAATGATGCGCCAGATAAACTTTCTCGAGACTATGCGATTTGGGCGGATGTGCATTATCAAGATGGTAGTGGTACCAATTACCAAGCGAAATTCCCAAGCGGTACAAATGATTGGAATCGTAGTGCGGTTGTAATCCCAGCAACGAAACCAATTAAACGTATGGAAATCTATCTTCTTTTCAGACATAACAACAAAGGGAAAGTTTGGTTTGATGATATACGTCTATTAGAAGGGAACGCTCTTATAAAAAATGAGTACGACAACGATGGAAATGTTGTTGCTGCGTATGATGAAGAAGGACAGAAAAATACTTTCACATATGATGCATCAGGAAATAAAAAGAGCGAAACAGATGAAAAAGGAAATACAAAACTATATGATTACAACAAAGATAATCTATTAACAAAGGTTACATTGAAAAATGGTACCTCTGTCAATTATCGTTATGATCATAATGGAAATACAACAGAGAAATCTGTCATGTTTGGTGGGAAAACACAAACACACAAATATGAATATGATGTAGATAATAAAAATACAGTGTATATCGATGCGTTAAACCGTCGTATTGAACATACGTATGATGAAAATGCAAACAAGATTAAAACAAAAATGCCAAACGGTTCTATTTTAGAATCTGTATATGATACAGCAGATCGTGTCGTCGGTGAAAAGCGTAACGGAAAAGATTCATTTACATTCGAACGTGATCAAAATGGACAAGTTACGAAAGTGAAAGATCTTGTCAACGGCGTAGAACGCACGAAAACATACGACAAGGCTGACCGCGTTACAAGTGCAACGGATAGCCGAGGCGGAAAAGTTGACTGGGCATACCATGACAAAGCAAACAGTAAGACAGAAAAACTAAAAGAACAAACAATTACGCAAGGTGGATACACAAATAAAGTATCGTATGACTACAACACGTTAGATCAAAACATACGTGTAACAGATGGTTCGCAAACATATCGATTTGATTATGATGATCAAGGAAATGTTCGTACGTATACAGCTGGAAATGGTTCAGGTTCTACTTTCAACTATGATCATGCGAACAAAATTAAAGATTTAGTAGTAGGTACGTCAAATAGTATTCTACTTTCTGAACGATATGAATATGACCAAGCAGGCAACCGTACGAAGATTAAACATGAAGGTGCGGGCGGAAAAGTAACAGAAACAAACTTTGTCTATGACCCGATTAACCAATTATTAAATGAAGCACTACCAAACGGAACAACTAAATCATACACATATGATGGATTTGGAAACCGTACAAGTGTGAAAGTTGTAGAGAATGGAAAAGAAACAAAATCTATAGCGGCAACATTCAATGAAGGAAATCAGCTTGTAAAATTCGGAAACGAATCGTTAACGTATGATGCGAATGGCAATCGTACATCTGATGGAAAGTACAAGTATACATGGAATGAAGATGACCAACTTGTAGCGATTACAAAACAAGGTGAAAGCAATGCATTCGCAACTTATAAGTATGACGAGGATAATCGTCGTATTGAAAAGAGTGTAAATGGTCAAGTAACACGTTATTTCTATGATGGAGACAGCATTAACCCATTATATGAGACAGATGGTAGTGGAAATGTTCTTCGTCAATATGTATATTCCACAAGTGGTACACGCTTAGCTATGAAATCAAAAGGGCAAACGCTATACTATCACTATAACCCACGTGGTGATGTAGTCGCGATGACAGATCAAAATAGAGAAGTTGTAGCAACGTATGAATATGATTCGTGGGGTAACATATTAAAGACTGACGCAAAAGGTATCGCAGCAGATAATCCATTTGGATATGCGGGATACATGTATGATAAAGAGATTGGTATGTATTATCTAATTGCGCGTTATTATAATCCGGAGCATGGTGTGTTCTTATCGATTGATCCGGATCCGGGTGATGCAGATGATCCTGTGACGCAGAATGGGTATACCTATGTAGATAACAATCCAGTATTAAAAATAGATCCTGATGGAAAAATCCCTATTTTTGCAGTTGCAGCTGCACCTTTACTTTGGCTAGGTGTAGCAGCCGCAGGAGCTGGTGCTGCCTATTATGGATATAAAGCTTATAAATCAGTAAGTCGAATAGAGGCTAATGCTAAACAACAGGCTCGTAATACTGCCTTCAGGTTAGCGATTAGGACTGCAGGATGGGGGAAAAATAATTATAATAATTACAAATCGAAAAAACAGTATTATTATAACCCAGGATCAAGACATCCATATGGACAACAAAGTCGACAGGTTCGCCCTACTTGGGAAACCAGAAGTTTTGCTAATAAGGGAGGATCTGGTGTAAGAGTTGCTCAAGATAAATGGGGGCATAAATTTGCAGATGGCAGAACTGTTAAACCACATTTTAATGTATACGTTAAAGTGAAAGGAACTGTAGTTGTAAATAAACATATTTTCTACCGCAGTAATTGGGATCCAAGACGGAATAAATAA	MEKRQVKKKWYRQLIQLIVVALIVTSIPLNGLAETAPPFTPSPNSEQTPEVEKKEEQELPAPHPDQLKKDKAKAQASPTEIVEERTETEKVFDNNDGTFTKRVYTEPIHAEKDGKLEEVSPKLVEAPNEKIVTENTTLEPEFEKATQDGKYVQFKVKDHTIQYKLISANGEKGEIKPSPVTATHENNTVWYKGVFPNIDLKSTTFNENVKEDFVLREYTGHHIFTFALETDLTPSLQEDGSIDFQDEKKEKVFTLPKPYMNDSNVDQQSGEAVTSDAVRYNIEKKDEKTYTLTVTADPQWLQAPERKYPVYVDPSVQLKDFDNAYASSAYPTVNYSGGKLWDAGQNAYTLKVGYYDGSSGTNFAFIKPDVSSFKGANIESATFNVHTIWHYYANQPNGVWLDEVTSAWNEGSLNWNNKPGSNNIAHADVTRGQLAKFNVTNTVKAWVEGARQNNGFKLHANGNGQNHWKKFIAAENGTNAPFLEVKYSYAKPNKPRVQAYSNGSGSGSGHFNVQWDAVPGATGYKVAIFNGYDYEYIPVGNVTSWTTKDKKIFPTPEEIAQGRYWIHDDGKGAEAPTNPGQIYKNAYESGGPYGDYSGRSSYWIRIVAEYPFEDSPLSDEIVPFIPLEQVKKPDGSAYINATDKETGYVTLKWDAVPAAAGYKVWIYNGKDYEAFDVGNKTNWTTQNEKIWPTKDEIAKGQYLLHHDKKGAELAVDPSPVYKNSGGIYAGFKNYWFRVTAYSKAGHAESEISHEFVPKFAQDFGFIGMFDYWASVPVLNGTVNATNGNFIMSEKDITLSGRGPDVSVERTYNSQSKKVGLFGTGWSSGLEERILAEGNGNLLLISADGANITFTRTGDNTYQAPTGIYLEIKQVSGGYEIKDKDQTVTFYKSGDAQGRIQYTKDKYGNTTTYEYDGESRLSKVKNASGKELVVQYDGNNKKAARVIGPDSKTITFKYDGDLLVSSTTPEGKVYKYGYDNGLLTSIYDPQHTDAKPYKTSYAYENNRLVKVTDPLGKATTLAYNTDAKEVTLTNPKGRKTVYTYNDAGNPVKTVEDSGRLNLTTTYEYNANNLVKTTTPKNQTETATYDGNGNVTSVTDEMGTEKFEYNKDNGLIKATDNENRETTVAYKAANTEVSETDQEANTSSFMQYDQFGNPIATTRELGTGENLIQNPSFEMNNTERWNEEKTNSHGSLKKDATFAPGGLGGSSSLQMIVKAQNAGWGYHSAIQDVVVEPNTTYTLSGMMKTSLTHAGAFFNVQLLKEDGTPLGSGNNWFDTRHNRIEGEKDWTNRQVTFKTTDQTKKVRIYLQVDYNRADSSGSAWFDKIQLERGEVSSSFNPIENSSLENMAGNGCMPGWIRGDGTSCDPKDVSQQESFTGHSSIVLERSQYGGSNVGYGKHVTVNQKKAEPITLTGMSKSENVENDAPDKLSRDYAIWADVHYQDGSGTNYQAKFPSGTNDWNRSAVVIPATKPIKRMEIYLLFRHNNKGKVWFDDIRLLEGNALIKNEYDNDGNVVAAYDEEGQKNTFTYDASGNKKSETDEKGNTKLYDYNKDNLLTKVTLKNGTSVNYRYDHNGNTTEKSVMFGGKTQTHKYEYDVDNKNTVYIDALNRRIEHTYDENANKIKTKMPNGSILESVYDTADRVVGEKRNGKDSFTFERDQNGQVTKVKDLVNGVERTKTYDKADRVTSATDSRGGKVDWAYHDKANSKTEKLKEQTITQGGYTNKVSYDYNTLDQNIRVTDGSQTYRFDYDDQGNVRTYTAGNGSGSTFNYDHANKIKDLVVGTSNSILLSERYEYDQAGNRTKIKHEGAGGKVTETNFVYDPINQLLNEALPNGTTKSYTYDGFGNRTSVKVVENGKETKSIAATFNEGNQLVKFGNESLTYDANGNRTSDGKYKYTWNEDDQLVAITKQGESNAFATYKYDEDNRRIEKSVNGQVTRYFYDGDSINPLYETDGSGNVLRQYVYSTSGTRLAMKSKGQTLYYHYNPRGDVVAMTDQNREVVATYEYDSWGNILKTDAKGIAADNPFGYAGYMYDKEIGMYYLIARYYNPEHGVFLSIDPDPGDADDPVTQNGYTYVDNNPVLKIDPDGKIPIFAVAAAPLLWLGVAAAGAGAAYYGYKAYKSVSRIEANAKQQARNTAFRLAIRTAGWGKNNYNNYKSKKQYYYNPGSRHPYGQQSRQVRPTWETRSFANKGGSGVRVAQDKWGHKFADGRTVKPHFNVYVKVKGTVVVNKHIFYRSNWDPRRNK				NA	NA	NA	NA	NA
AK009_04176	855	cvfB		Conserved virulence factor B	ATGTATTTGCAAATAGGATCGATTGAACAGGTAACTGTTTTACGCGAAACGGAAATTGGATATATGGTTGGGAATGAAGAAGAAGAAATTTTCCTACATAAAAACGAAGTAGCTGGAGAAATTGAAGAAGGCGATACGATTGATGTATTCTTATACCTTGATCACCAAAATCGTATTTCAGCAACAATGAAGGAGCCAATTATTACAACGTATGATTGGAACTGGGTAAAGGTTGTAGAAGTCATTCCTAGTTTAGGTGTGTTTGTTGATATTGGTGTATCAAAAGATATACTAATTCCAGCTGATGAGTTCCCGATTTATATGCCGGTATGGCCAGAAGTAGGCGACGAATTATATTGTACGTTAAAATTAACGAATCGTGATCGTTTAATTGCTCTTCCGGCAAGAGACAGTGATATGCAAGAAATTATCGTAGATGCAACGCCATCTATGCGTAATAAAAACGTAAATGGACGTGTATATCGTTCTCTTCAAGTTGGTTCATTCGTACTAACTGATGAGCATTTCCGTGCTTTCTTACACCATACAGAAAGAAAAGAACAAGTCCGCATCGGGGAGCGTGTAACGGGCCGTATTATTGACGTGAAAGATGATGGTACAATTAACATTTCACTTCTTCCTCGTAAAGAAGAAGGAATGGAAGACGATGCGGCAGTAATTTATGCATATATGGAAGAACGAGGCGGAGCAATGCCGTTTTGGGATAAGAGCCATCCAGAAGATATTAAAGAACGCTTTAACATGAGTAAAGCTGCATTTAAGCGCGCACTTGGTAAGTTGATGAAAGAAGAAAAAGTTTACCAAGAAGAAGGTTGGACTTACTTTAAGAAATAA	MYLQIGSIEQVTVLRETEIGYMVGNEEEEIFLHKNEVAGEIEEGDTIDVFLYLDHQNRISATMKEPIITTYDWNWVKVVEVIPSLGVFVDIGVSKDILIPADEFPIYMPVWPEVGDELYCTLKLTNRDRLIALPARDSDMQEIIVDATPSMRNKNVNGRVYRSLQVGSFVLTDEHFRAFLHHTERKEQVRIGERVTGRIIDVKDDGTINISLLPRKEEGMEDDAAVIYAYMEERGGAMPFWDKSHPEDIKERFNMSKAAFKRALGKLMKEEKVYQEEGWTYFKK				NA	NA	NA	NA	NA
AK009_04177	492			hypothetical protein	ATGGCAAAAGATAGTTCTTTTGACATCGTTTCGAAAGTAGAATTACCTGAAGTAACAAACGCAATTAATATCGCATTAAAAGAAATCCAAAACCGATATGACTTTAAAGGAAGTAAAAGTGATATTAAATTAGAAAAAGAAGTACTAGTTTTAACTTCTGACGACGAGTTCAAATTAGACCAAGTAAAAGACGTTTTAATTTCTAAACTTGTAAAACGTAACGTTCCAATTAAGAACTTAGATTACGGAAAAGTTGAAGCTGCAACTGGCAACACTGTTCGCCAACGCGCAACACTTCAACAAGGTATCGATAAAGATAACGCTAAAAAAATTAACAACATCATTAAAGAAATGAAATTAAAAGTAAAAACACAAGTACAAGACGATCAAGTACGTGTTACAGCGAAAAGCCGTGATGACTTACAAGCAGTAATTGCAGCTGTTCGTAGCGCTGATTTACCAATCGACGTACAGTTCATTAACTACCGCTAA	MAKDSSFDIVSKVELPEVTNAINIALKEIQNRYDFKGSKSDIKLEKEVLVLTSDDEFKLDQVKDVLISKLVKRNVPIKNLDYGKVEAATGNTVRQRATLQQGIDKDNAKKINNIIKEMKLKVKTQVQDDQVRVTAKSRDDLQAVIAAVRSADLPIDVQFINYR	PGPT0012210_860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
AK009_04178	897			hypothetical protein	ATGGAATTTTACGATTTGGGTATTACCATTAAAGAGCTTAGAATTAAAAAAAATATATCACAATCCGAATTATGTCATGGAATATGTTCGCAAAGTCAAATTAGCAAAATAGAAAAAGGTATGATTTATCCATCTAGTATATTGTTATATCAATTATCAGAAAGACTTGGTATTGACCCGAATAATATATTTGCATTAACTCAAAACAAAAAATTTAAATATGTAGAAAATGTAAAATACGTAATAAAAGATTGCTTAAAGCAAAAACAATATAAAGAACTTTATGAAATAGTGAAAAAAGAGAAAGATGAAAAAAATTTCCAAGCAAAAGAAGATAAACAATTTCTCCTATGGCATGAAGCAATTGCTGTATTTGAGGTGAACAGATCCATAAAAACTGCTTTAAAACTTTTAAATAATGCATTAAAACTAACTTTAACCAATGTTGATTTTTTATCAGAAAGAGAAATAGATATTATGCAGACAATGTCTATATTTTATGCGGAAAATAAAGAATATGATAAAAGTATTACTATATTAGGAAGATGTTTAACTAATTTTAATAAGTTAGATTTTCCGAGAGATAAAGCGATTAAATTAAAAATCATTTTTAATTTAGCGAAATGTTTAGGTATGACCTATCAATATGAAGAAGCGGTAAAATACGTTGATAAGGGCATCAAATTAGCTATTAATCTAAATACTTTATACTTATTAGGTGAACTGTACTATTTAAAAGGATGGAATTTATTAAGATTTAAACAACAGAATGAAGAAGATATTGCAAATAACATGAAAAAAGCATTATTTATATTTGAACTAACAGAAAAAGAAACTCTGATAAAAATGGTTAAAGAAAAATATTTTGAAAATCAAACTGAAAAAAGCCACTCATAA	MEFYDLGITIKELRIKKNISQSELCHGICSQSQISKIEKGMIYPSSILLYQLSERLGIDPNNIFALTQNKKFKYVENVKYVIKDCLKQKQYKELYEIVKKEKDEKNFQAKEDKQFLLWHEAIAVFEVNRSIKTALKLLNNALKLTLTNVDFLSEREIDIMQTMSIFYAENKEYDKSITILGRCLTNFNKLDFPRDKAIKLKIIFNLAKCLGMTYQYEEAVKYVDKGIKLAINLNTLYLLGELYYLKGWNLLRFKQQNEEDIANNMKKALFIFELTEKETLIKMVKEKYFENQTEKSHS				NA	NA	NA	NA	NA
AK009_04179	1356			hypothetical protein	ATGCGTTTCACTTGGATAATTGGTATAATATTCTTACAATTAAAAAATTGGGGGATGCGTGTGGGAAAAATATGGACTAGGAAACTATTCATTTGTTTTTGCTTAGCTGTTGTTTTGTTTGTACCAATACATACTTTTGCAGACGAAAAAAGAGAGTGGCGAGATGAGGTTATATACTCCATTATGATTGATCGCTTCAATAATGGAGAACCGAAAAATGACAAACAGTTAGAAGTTGGTAATTTAGAAGGGTATCAAGGCGGGGATATAAGAGGAATTATAAAAAGGTTGGATTACATAAAAGAAATGGGTTTTACTACCGTTATGCTTTCGCCACTTTTTGAAAGTGGAAAGTACGATGGATTAGACGTGCGAAATTTTAAAAAGGTAAATGAACATTTCGGGACAGAAAATGATGTGAAAGAACTTGTAAAAGAAGCTCAGGCAAAAGGAATGAAAGTTGTATTTCAATTTCCGCTTGGAGAAAACGAACAACAGGTAATTGACGCAATGAAATGGTGGATAAAAGAAGTTGATTTAGACGGAAGTTATGTTATACATAGTGAAAAAAAGCCGCGTTCCTTTTGGGATAACGCGCAAAAAGATATGCAAGTGATAAAGAAAGATTTTCGTATTATGACAAAGGAGGATAGCGAATACAACGAAAAAATAGTAGAATCGTTTTCCAAAGCGGATGTATCGGTGAAATCGTTATACGATGTGAGTAAAAAAGAAGGAGAATTTGTTACGTTCTTAGATGATCAAGAAACAAAAAGATATGCGCGTATTGCAAAAGAAAATATGTATTATCCGCCATCACGTTTAAAACTGGCGCTTACATATCTGTTAACATCACCTGGAATTCCGAATTTTTATTACGGAACTGAAATTGCATTAGATGGAGGAAGTGTACCCGATAATAGACGATTAATGGATTTTAAGTCAGACGAAAAATTTATGCAGCACATAACAAAACTAGGTGAACTTAGACAGGCGAGACCGTCTTTACGACGCGGTACGTTTGAGCTATTGTATGATAATAGCGGGATGAGCATACTAAAACGAAAATATAAAAATGAAGTAACTTTAGTAGCAATTAATAATACGAAAGAAACACAAAAAGTCTCCTTACCTGCAAGTACGATTGGTGAAAAACAAGAGTTAAGAGGATTGTTAGAGGATGAAATTATAAGAGAGGAAAATGGGGGATTTTATCTCGTTTTAAAGCGTGAAGAATCAAACGTGTATAAAGTTAACGGAGAAACAGGTGTGAATTGGTTATTTATCTCCTTAATCGTTGGTGTGAATGTATTATTTATTGCGTTTTTAATTGCAGTTAAAAGGAAACGTAGATGA	MRFTWIIGIIFLQLKNWGMRVGKIWTRKLFICFCLAVVLFVPIHTFADEKREWRDEVIYSIMIDRFNNGEPKNDKQLEVGNLEGYQGGDIRGIIKRLDYIKEMGFTTVMLSPLFESGKYDGLDVRNFKKVNEHFGTENDVKELVKEAQAKGMKVVFQFPLGENEQQVIDAMKWWIKEVDLDGSYVIHSEKKPRSFWDNAQKDMQVIKKDFRIMTKEDSEYNEKIVESFSKADVSVKSLYDVSKKEGEFVTFLDDQETKRYARIAKENMYYPPSRLKLALTYLLTSPGIPNFYYGTEIALDGGSVPDNRRLMDFKSDEKFMQHITKLGELRQARPSLRRGTFELLYDNSGMSILKRKYKNEVTLVAINNTKETQKVSLPASTIGEKQELRGLLEDEIIREENGGFYLVLKREESNVYKVNGETGVNWLFISLIVGVNVLFIAFLIAVKRKRR				NA	NA	NA	NA	NA
AK009_04180	1227	nrgA		Ammonium transporter	ATGGAAGATACGGTTTTTATGTTTGTGACGACAGTAATGGTCATGTTGATGACACCAGGATTGGCACTTTTTTATGGAGGTATGGTTCGTAGCAAAAACGTACTCAGTACAACGATGCATAGTTATAGTGCAATGGCTATCGTTTCGATTCAATGGATTGTTATCGGCTATTCTTTATCATTCGGGCCAGATTGGCACGGACTTATCGGTACACTTGATTGGTTCGGTCTAAACGGAGTTACCTACGCACCAAATCCAGACTACTCATCTACTATTCCTCACAATTTATTTATGATGTTTCAACTCATGTTCGCCATTTTAACTCCAGCTTTAATTTCAGGTGCATTCGCTGAAAGAATGCGATTTTCTGCCTTTCTTATTTTTATCCTTCTATGGACAACAATCGTTTACAATCCTGTCGCTCATTGGGTATGGGGCCTCGGTGGGTGGCTAAGGGAACTTGGTGCACTAGACTTCGCTGGCGGAAATGTCGTTCACATCACTTCCGGAGTTGCCGGTCTTGTATTAGCTATTTTCCTTGGAAAACGAAAAAACATAAATGGTTCTTCTCCTCACCATTTGCCATTTACAATGTTAGGCGCAGGCTTATTATGGTTTGGCTGGTTCGGTTTTAACGTTGGCAGCGCATTATCCTTAAACGACGTAGCTTTAACTGCATTTATTAATACAAATATAGCCGCTGCTGCCTCTGCTCTAACTTGGATGCTTTCTGAATGGTTCTTCCAATCAAAACCGACCGCGATGGGAGCTGCTTGCGGAGTTGTTTCTGGTCTAGTAGCTATTACACCAGCCTGCGGGTTCGTTACACCTTTCTCCGCCCTTCTTATCGGAGCAATTGGTGGTATAATATGCTTCGGCGCCGTTTTCTTCCTAAAAACAAAATTCGGGTATGACGATACACTTGATGCCTTTGGATGCCACGGCATCGGAGGAACTTGGGGCGGTATTGCAACAGGACTATTTGCAACTACTGCCGTAAACGGGGATGGCGCAAACGGATTATTTTACGGAAATGCCGCGTTACTGTTTAAACAACTTATAGCGATTGGCGCAACATATGCATTCACGATCATCATGACGTATGCCATTATTAAAGCGATCAACTTCTTCCTCCCCGTTCGCGTCGATGAACATGAAGAACACATGGGTCTTGATATTTCAATGCATGGCGAGAAGGCTTATGAACATGCAGAGCGAGTAAACTAA	MEDTVFMFVTTVMVMLMTPGLALFYGGMVRSKNVLSTTMHSYSAMAIVSIQWIVIGYSLSFGPDWHGLIGTLDWFGLNGVTYAPNPDYSSTIPHNLFMMFQLMFAILTPALISGAFAERMRFSAFLIFILLWTTIVYNPVAHWVWGLGGWLRELGALDFAGGNVVHITSGVAGLVLAIFLGKRKNINGSSPHHLPFTMLGAGLLWFGWFGFNVGSALSLNDVALTAFINTNIAAAASALTWMLSEWFFQSKPTAMGAACGVVSGLVAITPACGFVTPFSALLIGAIGGIICFGAVFFLKTKFGYDDTLDAFGCHGIGGTWGGIATGLFATTAVNGDGANGLFYGNAALLFKQLIAIGATYAFTIIMTYAIIKAINFFLPVRVDEHEEHMGLDISMHGEKAYEHAERVN	PGPT0000840_6594	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
AK009_04181	1467	katA_2	COG0753	Catalase	ATGAATCCAAATAATCGCTTAACAACAAACCAAGGTGCTCCAGTTGGAGACAACCAAAATTCTCGTACAGCTGGTCGTCGTGGACCAGTATTATTAGAAGACTATCATTTAGTAGAAAAACTTGCACACTTTGATCGTGAACGTATTCCGGAGCGTGTTGTGCATGCACGTGGTGCAGGTGCTCACGGTGTATTCGTAACGAAAAATAGCATGAAGCCATATACGAAAGCAGCATTTTTACAAAATGAAGGAACTGAAACACCTGTATTTGTTCGTTTTTCAACGGTTATTCATGGTCAAGGTTCTCCGGAAACAGCTCGTGACCCACGCGGTTTCGCAGTTAAATTTTATACAGAAGAAGGAAACTACGATATCGTAGGTAATCATTTACCAGTTTTCTTCATTCGTGATGCAATTAAATTCCCTGACATGGTTCATTCTTTAAAACCAGCACCGGATACAAATATTCAAACGCCAGATCGTTATTGGGATTTCATGACGTTAACTCCAGAGTCTACACATATGATGACATGGGTATTTTCTGATTATGGTACACCAGCAAGCTATCGTGAAATGGAAGGTTTCGGTGTCCATTCATTTAAATGGATTAATGAAGAAGGTAAAATTGTTTATATTAAATACCACTGGAAACCGCAGCAAAGTGTACGTAACTTAAATGCGAAAGAAGTGCAAGAAGTGCAGGGGAAAGACTTCAATCATGCAACTCGTGATTTGTTCGACGCAATCGAAAAAGGAAATCATCCAAAATGGGATTTACACGTACAAGTTATGCAACTAGATGAAATGGATTCTTTAGACTTTGATCCACTAGATCCAACGAAAGTATGGCCAGAAGATCGCTTCCCGTTAATTGAAGTAGGGACAATGACGTTAAATCGTAATCCGAAAAACTTCTTTGCAGAAGTAGAACAAGTAGCGTTCTCTCCAAGTGCAACTGTAAATGGTATTGAACCATCGGAAGATAAATTATTACAAGGTCGTTTATTCTCTTGCCCAGATACACAGCGTTATCGTCTTGGTGCAAATTACTTGCAAATTCCTGTAAACTGCCCATATGCAGCTGTTCATAACCAACAACGTGATGGTGCGATGCAAATGAATCAAAACCCATCTACAATCAACTACGAACCGAGCCGTCATGCAGAGAATCCAGTTGAAGACAAAGCTTACCGCGATTCGACTATGAAAGTAGAAGGCTATGTATCTCGTGAAAAAATCGAGAAACCAAATGACTTTAAACAAGCAGGTGAGCGTTACCGTTCATTCTCTAAAGAAGAGCAAGATAACTTAATTGCAAACTTAACAAATGACTTGAAAGACGTAAATGAACGCACGAAATTACTAGCTGTTTGTAACTTCTTCCGTGCAGATCAAGAATACGGTATGCGTTTAGCGCAGGCGTTAAATGTTGATATTACGCAATATGTAGGAAATGCTCCAAAATAA	MNPNNRLTTNQGAPVGDNQNSRTAGRRGPVLLEDYHLVEKLAHFDRERIPERVVHARGAGAHGVFVTKNSMKPYTKAAFLQNEGTETPVFVRFSTVIHGQGSPETARDPRGFAVKFYTEEGNYDIVGNHLPVFFIRDAIKFPDMVHSLKPAPDTNIQTPDRYWDFMTLTPESTHMMTWVFSDYGTPASYREMEGFGVHSFKWINEEGKIVYIKYHWKPQQSVRNLNAKEVQEVQGKDFNHATRDLFDAIEKGNHPKWDLHVQVMQLDEMDSLDFDPLDPTKVWPEDRFPLIEVGTMTLNRNPKNFFAEVEQVAFSPSATVNGIEPSEDKLLQGRLFSCPDTQRYRLGANYLQIPVNCPYAAVHNQQRDGAMQMNQNPSTINYEPSRHAENPVEDKAYRDSTMKVEGYVSREKIEKPNDFKQAGERYRSFSKEEQDNLIANLTNDLKDVNERTKLLAVCNFFRADQEYGMRLAQALNVDITQYVGNAPK	PGPT0014380_4177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK009_04182	960	hemH1_1	COG0276	Ferrochelatase 1	ATGACAAAGGAAAAAATAGGTTTACTCGTAATGGCGTATGGAACACCAGAATCATTAGACGATGTAGAGGCATATTATACACATATCCGTCACGGACGTAAGCCATCAGAAGAAGCGCTTGAAGATTTAATTGGGCGCTATAAAGCGATTGGTGGAATTTCGCCGCTTGCAAAAATTACGAAAGAGCAGGCGCATAAATTAACAGATTCAATGAATAATATATTTACAGAGTATGAATTTACTTGTTACTTAGGTTTAAAACATACTGCGCCATTTATAGAAGATGCTGTAGAAGAAATGAAGCGAGATGGAATTGAGCAGGCGATTAGTATCGTATTAGCACCGCACTATTCTACATTTAGCATTAAAGCGTATAATGACCGTGCTATTCGTCTTTCAAAAGAAATCGGTGGTCCTGTGATTGAACCAATTGAACAATGGTACGATGAACCGAAGTTTATTTCGTATTGGACAGATCAAATAAAAGAAACATTTACAAAGATTGAAGATAAAGAGAAAACAGTTGTAATTTTTTCGGCGCATAGTTTGCCAGAAACAATTATTGCAGCAGGGGACCCTTATGTGGAGCAATTGCAGCATACAGCAGATTTAATTGCGGGGGCTGCCAATATTCAAAACTATACAACGGGTTGGCAAAGTGCTGGGAATACTCCAGATCCGTGGATTGGTCCAGATGTGCAAGATTTAACGAAAGATTTATATGAAGAGCATGGGTACGAATCTTTCATATATTGCCCAGTTGGCTTTGTGGCAGAGCATTTAGAAGTTTTATATGACAATGATTATGAATGTAAAGTTGTAACTGATGAATTAAATGCTAAATATTTTAGACCAAATATGCCGAATGCACAATCTGCATTTATCGACTGTTTGGCTGAAATTGTTTCCAAAAAAGTGAAGGAAATAGTTGACAAAGATTTAGTTTTAAATAATAATTAA	MTKEKIGLLVMAYGTPESLDDVEAYYTHIRHGRKPSEEALEDLIGRYKAIGGISPLAKITKEQAHKLTDSMNNIFTEYEFTCYLGLKHTAPFIEDAVEEMKRDGIEQAISIVLAPHYSTFSIKAYNDRAIRLSKEIGGPVIEPIEQWYDEPKFISYWTDQIKETFTKIEDKEKTVVIFSAHSLPETIIAAGDPYVEQLQHTADLIAGAANIQNYTTGWQSAGNTPDPWIGPDVQDLTKDLYEEHGYESFIYCPVGFVAEHLEVLYDNDYECKVVTDELNAKYFRPNMPNAQSAFIDCLAEIVSKKVKEIVDKDLVLNNN	PGPT0008485_4159	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
AK009_04183	1848	asnO_2	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 3	ATGTGCGGGATTACAGGATGGGTGGATTATAAACGCTCATTAGAAGGAGAAAGAGATGTCGTTACGAAGATGGCTGAGACGTTAGCGAAACGCGGTCCAGATGATAATAAAGTTTGGATTAAAGGTAATGTCGCATTTGGGCATAAACGGTTAATCGTTGTTGATCCTGAGGGTGGTAAACAACCGATGACTTGTTTAAAAGATGAAACGAATTATGCCATTTGTTATAACGGTGAACTTTATAACACAGAAGACATTCGAAAGGAATTATTAAGAAGAGGATATACGTTCAAAGGTCATTCTGATACAGAAGTATTATTAGCTTCTTATATTGAATGGAAAGAAGAATGTGTCGATCATTTAAACGGTATATATGCGTTTGCAGTATGGGACGAACAGAAAGAACAAGTATTTATTGCGAGAGATCGATTAGGTGTAAAGCCACTTTTTTATAAATATGATAGCGGACGCTTATTATTTGGTTCGGAGTTAAAAGCGATATTGTCGCATCCAGATGTGAAGGCAGAAGTAACATTAGAAGGATTATCAGAAATATTCGGACTCGGACCGTCAAGAACACCTGGCCACGGTATTTATGCTGGTATAAAAGAATTACGTCCAGGTCATGCGATGACATTTTCAAAGAACGGTTTATGTATATGGAGATATTGGAATGTGGAAAGTAAAAAACATGAAGACTCCTTTGAAGAAACAGTAGAGAAAACACGCTTTTTATTACAAGATGCGATTACAAGGCAGCTCGTTTCTGATGTACCACTATGTACTTTTCTATCAGGCGGTGTAGATTCGAGCGCTATAACAGCAATTGCTGCGAAAGAATATGCAAGGTCAGGAAAAGGGCAATTACACACATATTCTGTTGATTATGAAGATAATGACAAATACTTTAAAGCGAATGCGTTTCAGCCAAATTCAGATGCTCCGTTTATTAATTTAATGACTGAGACATTTCAAACAACCCATCATCGCTGCGTCATTTCGAATGAACAATTAGCAGAGTATTTAACTGAAGCGGTACTCGTTCGTGATTTGCCTGGTATGGCAGATATCGATTCGTCATTATTATGGTTTTGCCGAGAAATTAAACAAGATTTTGTCGTTGGCTTATCTGGAGAATGTGCAGATGAAATATTTGGTGGATATCCGTGGTTTTATAGAGAAGATGATTTACAATCGAGTGCATTTCCGTGGATGCGTTCTACAGAGGCACGTGAACAACTTCTAAAAAAAGAATGGAGAAATAAACTAAATTTACAACAATATGTACAAAGGCGCTATGAGGAATCGATTCAAGAAGTTCCTATTTTAGAGGGGGAAAGTCCACTAGAAGCAAAAAGACGCCAATTATTTTATTTAAATATGGTATGGTTTATGACAACATTATTAGACAGAAAAGACCGTATGAGTATGGGGGCAAGTTTAGAAGTACGCGTTCCATTTGCAGATCATCGTCTTGTCGAATATGCGTGGAATATTCCTTGGGAAATGAAAATGTATAAAAACCGCGAAAAAGGTCTATTACGTAAAGCGTTAGAAGATGTACTCCCACATGACATCTTATATAGGAAGAAGAGTCCTTATCCGAAAACGCACAATCCACACTATACAAAGGCAGTAACGGTATGGCTTCAAAATCTATTAACAGATAAAGGTTCAATTTTACACGAACTATTTGATAAAGAGCAGTTGAGCGGATTGATTCAGTCTGGTGGCAGTGCATTTCAAACACCGTGGTTTGGTCAATTGATGACTGGGCCACAGCTTTTAGCTCATTTAGCACAAATTCATGTTTGGTTTAAAGAGTATGGGGTAAATATTAAAGAATAG	MCGITGWVDYKRSLEGERDVVTKMAETLAKRGPDDNKVWIKGNVAFGHKRLIVVDPEGGKQPMTCLKDETNYAICYNGELYNTEDIRKELLRRGYTFKGHSDTEVLLASYIEWKEECVDHLNGIYAFAVWDEQKEQVFIARDRLGVKPLFYKYDSGRLLFGSELKAILSHPDVKAEVTLEGLSEIFGLGPSRTPGHGIYAGIKELRPGHAMTFSKNGLCIWRYWNVESKKHEDSFEETVEKTRFLLQDAITRQLVSDVPLCTFLSGGVDSSAITAIAAKEYARSGKGQLHTYSVDYEDNDKYFKANAFQPNSDAPFINLMTETFQTTHHRCVISNEQLAEYLTEAVLVRDLPGMADIDSSLLWFCREIKQDFVVGLSGECADEIFGGYPWFYREDDLQSSAFPWMRSTEAREQLLKKEWRNKLNLQQYVQRRYEESIQEVPILEGESPLEAKRRQLFYLNMVWFMTTLLDRKDRMSMGASLEVRVPFADHRLVEYAWNIPWEMKMYKNREKGLLRKALEDVLPHDILYRKKSPYPKTHNPHYTKAVTVWLQNLLTDKGSILHELFDKEQLSGLIQSGGSAFQTPWFGQLMTGPQLLAHLAQIHVWFKEYGVNIKE	PGPT0020150_2966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
AK009_04184	555			hypothetical protein	ATGATACAACGTAAACATATTTTATATAACCAGCCCCGTGCTCATACAGTCGGTAATGTAGAATATATAAACAATGAATGGGTATTCTTTGATGATGAAAATGATGAAGCGTTTTTATTAGAAGATATTGCCGAAGATGGGTTTGAAGTTTTATATAATAACAATTGGCTACCAGCCCGTTTCTATGAACAAGATGTATTACAAATCGCCAACGAACAACACCATTTGCAAAATGGTGAAATGATACGTATTCGAAAAAAGTTACTTCTTAGTTATAATGAATGGCTCGAGGAATTACCTGACTCCGTCTTCACATTATTAACTGAATCATTGCAATCACTTCACTACTCTTTATATGATTGCATGTATTGTCATAATTATTTATCTTTCTTACCGAAAGAGGAGTCACGCGAAGGAGTAAATATTCTTTTGTTTGATAACGAAGAGATGATTTGTACACTGCAGCACCATTTCGTCCGTCACACTACATCCAATAAAAATATGTTCCGTTTTACGAAAGTAAATGGGGAAGAGTTGCATATCGATGCGACATAA	MIQRKHILYNQPRAHTVGNVEYINNEWVFFDDENDEAFLLEDIAEDGFEVLYNNNWLPARFYEQDVLQIANEQHHLQNGEMIRIRKKLLLSYNEWLEELPDSVFTLLTESLQSLHYSLYDCMYCHNYLSFLPKEESREGVNILLFDNEEMICTLQHHFVRHTTSNKNMFRFTKVNGEELHIDAT				NA	NA	NA	NA	NA
AK009_04185	366			hypothetical protein	ATGGTACATATGCATATTACAGCATGGGCGTTAGGTTTAATTTTATTCTTCGTTGCGTATTCACTTTATTCAGCAGGAAGAAAAGGTAAAGGTGTACATATGGGGCTTCGCCTAATGTATATCATCATTATTGTGACAGGCTTCATGTTGTACATGAGTATTGTGAAGACAGCAACAGGTAGCATGCACATGTGGTATGGCTTAAAAATGTTAACTGGTATTTTAGTTATCGGTGGAATGGAAATGGTTCTTGTGAAAATGAGCAAAAACAAACCAACAGGGGCGGTTTGGGGCTTATTTATTGTTGCGCTAGTAGCAGTATTTTACCTTGGACTGAAATTACCGATTGGCTGGAAAGTATTCTAA	MVHMHITAWALGLILFFVAYSLYSAGRKGKGVHMGLRLMYIIIIVTGFMLYMSIVKTATGSMHMWYGLKMLTGILVIGGMEMVLVKMSKNKPTGAVWGLFIVALVAVFYLGLKLPIGWKVF				NA	NA	NA	NA	NA
AK009_04186	1191	rocD	COG4992	Ornithine aminotransferase	ATGATTCAAACTAAGGATATTATCGAACTTACAGACACATACGGAGCAAATAACTATCACCCACTTCCAATCGTTATTTCTAAAGCAGAAGGTGTTTGGGTAGAAGATCCTGAAGGAAACCGCTATATGGACTTATTAAGTGCATATTCTGCAGTAAACCAAGGTCATCGTCACCCGAAAATTATTAACGCTTTAATTGACCAAGCTAATCGTGTTACGTTAACTTCTCGTGCTTTCCATAGCGATCAATTAGGTCCTTGGTACGAAAAAGTTGCGAAACTAACTAATAAAGAAATGGTACTTCCAATGAACACAGGTGCTGAAGCTGTTGAAACTGCAATTAAAACAGTTCGCCGCTGGGCTTATGATGTGAAGAAAGTAGAAGCAAACCGTGCTGAAATCATCGTTTGTGAAGATAACTTCCACGGACGTACAATGGGTTCTGTTTCTATGTCTTCAAATGAAGAGTACAAGCGTGGATTCGGTCCAATGCTTCCTGGCATCGTTGTAATTCCTTACGGTGATTTAGAAGCATTAAAAGCCGCAATTACACCAAACACAGCAGCATTCATTTTAGAACCGATTCAAGGTGAAGCTGGAATTAACATCCCACCAGCTGGTTACTTAAAAGAAGCTCTTGAAGTATGTAAAAAAGAAAACGTTTTATTCGTAGCCGATGAAATCCAAACAGGCTTAGGCCGTACTGGTAAAGTATTCGCTTGTGACTGGGACGATGTAACTCCTGACATGTACATACTTGGTAAAGCACTTGGTGGCGGTGTGTTCCCGATCTCTTGCGTTGCAGCAAACCGCGACATTTTAGGTGTATTTGAGCCAGGTTCTCACGGTTCTACATTCGGCGGTAACCCACTTGCATGTGCTGTATCTATCGCAGCTCTTGAAGTGTTAGAAGAAGAAAAATTAACAGAGCGTTCTCTTCAATTAGGAGAAAAATTAGTTGGGCAATTAAAAGAAATTGATAACCCAATGATCACTGAAGTTCGCGGTAAAGGTTTATTCATTGGTATCGAATTAAACGAGCCAGCTCGTCCTTACTGTGAACAACTAAAAGCAGCTGGTCTACTATGTAAAGAAACACACGAAAACGTAATTCGTATCGCACCACCTCTAGTAATCTCTGAAGAAGATTTAGAGTGGGCATTCCAAAAAATTAAAGCTGTATTATCATAA	MIQTKDIIELTDTYGANNYHPLPIVISKAEGVWVEDPEGNRYMDLLSAYSAVNQGHRHPKIINALIDQANRVTLTSRAFHSDQLGPWYEKVAKLTNKEMVLPMNTGAEAVETAIKTVRRWAYDVKKVEANRAEIIVCEDNFHGRTMGSVSMSSNEEYKRGFGPMLPGIVVIPYGDLEALKAAITPNTAAFILEPIQGEAGINIPPAGYLKEALEVCKKENVLFVADEIQTGLGRTGKVFACDWDDVTPDMYILGKALGGGVFPISCVAANRDILGVFEPGSHGSTFGGNPLACAVSIAALEVLEEEKLTERSLQLGEKLVGQLKEIDNPMITEVRGKGLFIGIELNEPARPYCEQLKAAGLLCKETHENVIRIAPPLVISEEDLEWAFQKIKAVLS				NA	NA	NA	NA	NA
AK009_04187	285			hypothetical protein	ATGCTATTAAGATACGGTAAACAGATTAACTATTTAGCTACATCTTTTATTTTAGTTACATTCTGTGGCTTCCTACTTTCCACAACATGGCTTACTCACTACTCAACTCCTACTACATTCACACTACTGAAAGCATCATTTTGGACTGCTGTTATTCTTACTATCATTGGTTTTGGACGAGAAAAAAGTGCACTTACGGTTATACTATTTGGCATTTGTACACTTGCATTCATTGGCCTTTACACTTTTTCCGTTATCGATTACCTCTATAACCCAAGGCCATAA	MLLRYGKQINYLATSFILVTFCGFLLSTTWLTHYSTPTTFTLLKASFWTAVILTIIGFGREKSALTVILFGICTLAFIGLYTFSVIDYLYNPRP				NA	NA	NA	NA	NA
AK009_04188	909	yisK_1	COG0179	putative protein YisK	GTGGAAATATTGCGTTTTGTAACGGCGAAGAAAGAAGAAAAGGTATTTGTAGGTATTGTGGATGAAGAAGAAGAAAAGGTATTACACTTAAGAGAAGCGCAAAGACAAAAAAGGGAAAAGGTTACAATCCCTATTACAATGTTAGAGTGTATTGAAAGAGGGACTGAGTGCTTTGAGAAAGTATGTGAAATTGTAAATTGGGCAAAAGAGAACGGGGAAGCGGCGTATTATCCGTTAACAGAGGTGAAAATATTAGCACCGATTCCAAGGCCAAGAAAGAATATTTTGTGCGTTGGAAAAAACTATCGTGAGCATGCGGTAGAAATGGGCGGAGTAGAGTCTATTCCAGAAAATATAATGATCTTTACGAAAGCACCAACAACAGTTATTGGCATAAATGAGCAAATTAATGGTCACCCTCACGCAACGGACGAACTAGATTATGAAGGAGAACTAGCTGTCATTATAGGTAAGCGAGGGAAGCAAATTAAAAAAGAAAAAGCGCTTGAGCATGTTTTTGGTTATACGATTATAAATGATGTAACAGCTCGAGACATTCAAAGAAAACATAAACAGTTTTTCCTTGGGAAAAGCTTCGATACATTTTGCCCGATGGGACCGTATTTAATTCATAAATCGGTGGTTAATGCGCCGAATGCATTACACATTGAAACGGTAGTAAATGGAGAAGTAAGGCAAACTTCCAACACAAATAAAATGATTTTTTCGATAGAAGAAATTATTTCAACGATAAGCAAAGGAATGACTTTAGAACCAGGTGATATTATCGCAACAGGAACCCCGGCTGGTGTCGGAAAAGGTTTTACACCACCGAAGTTTTTACATGCTGGTGATGAAGTGGTCATTACAGTAGAAGGAATTGGTACTTTGCGAAATGTAGTGAAATAA	MEILRFVTAKKEEKVFVGIVDEEEEKVLHLREAQRQKREKVTIPITMLECIERGTECFEKVCEIVNWAKENGEAAYYPLTEVKILAPIPRPRKNILCVGKNYREHAVEMGGVESIPENIMIFTKAPTTVIGINEQINGHPHATDELDYEGELAVIIGKRGKQIKKEKALEHVFGYTIINDVTARDIQRKHKQFFLGKSFDTFCPMGPYLIHKSVVNAPNALHIETVVNGEVRQTSNTNKMIFSIEEIISTISKGMTLEPGDIIATGTPAGVGKGFTPPKFLHAGDEVVITVEGIGTLRNVVK	PGPT0001630_34	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
AK009_04189	180			hypothetical protein	ATGTTTGAGCAAGCGATTGAAAAAAAACGTGAAAAAATGATTTATTTTGCTGAACGCTATGGAATGACTTCTCAAAAAACAGTGGATTGTAGCCAAGAACTGGACAGGCTCTTAAATGTAATTTGGCATGTACATACGGATTTTCACTCAAATCAAACACTCAACACACACACGCAATAA	MFEQAIEKKREKMIYFAERYGMTSQKTVDCSQELDRLLNVIWHVHTDFHSNQTLNTHTQ	PGPT0024640_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376	NA	NA
AK009_04190	222	gerPA		putative spore germination protein GerPA	ATGCCAGCTATGGTCGGACATATTCGTATCGTCAATATTGGATCAAGTGGTATTTTTCATATTGGAGATGTATTTGCGATTAGGCCTATTAGTTACTCACGTGCTTTCGCCGGGGCCGGCTCTTTTAATGTTGGAGATAATGTTTCTGTCTACAATTATCAAAGTGCAACGACTGTTAATGATTCAGATGTCGTTGATCAAGCGATAATTGGTTCAACTTAA	MPAMVGHIRIVNIGSSGIFHIGDVFAIRPISYSRAFAGAGSFNVGDNVSVYNYQSATTVNDSDVVDQAIIGST	PGPT0025065_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299	NA	NA
AK009_04191	615	gerPC		putative spore germination protein GerPC	ATGAATCAAGATATATATACTTACTTACACCAACTTCAACAAGCTCTTCAAACACAACAAGCAGCCATCCTCAATTTAGAAGATCAAGTGCGTCAACTCCAAGAAGAGCTTAACGAATTAAAAAATCGCCCCTCCTCTTCTGTAGGAAAAGTGGAATACAAATTCGATCAATTAAAAGTCGAAAATTTAAATGGCACTTTAAATATTGGCTTAAACCCATTTTCAGCAAAAGGACAACAAATTGAAGATTTTCAAGTGGATACAGAAACATTGAAGGTAAATCCTGAAACCGAAACAAACCCAGACTTTTATCAAGGTATCCTCCAAGAAATGCATCGATACTTAGATGAAGAAGCATATAATCGTATTCTCCATTTTGAACAAGAAGAGAGAACACCGCTTGATGAAATGTATCGACAAATGATGGTGGATGACATAAAAAAACAGATGGAGCATCGACTCCCTTATTATTTATCACAAGTTCAATCATATGAAGGTATTTCAACAGATCCAGATTATTTACGAGATATCATTATCCAGGCAATGAAACAAGATATTGACAAAGCCTTTCTCTCATTTATTCAGCACATACCGGGAAATTTCCGAAAGGAGTAA	MNQDIYTYLHQLQQALQTQQAAILNLEDQVRQLQEELNELKNRPSSSVGKVEYKFDQLKVENLNGTLNIGLNPFSAKGQQIEDFQVDTETLKVNPETETNPDFYQGILQEMHRYLDEEAYNRILHFEQEERTPLDEMYRQMMVDDIKKQMEHRLPYYLSQVQSYEGISTDPDYLRDIIIQAMKQDIDKAFLSFIQHIPGNFRKE	PGPT0025075_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025075-gerPC-K06301	NA	NA
AK009_04192	195	gerPD		putative spore germination protein GerPD	ATGAACCTTAACGTTGTAAACCGTGAGTTAAAAGTCGGACAGATTAAAATGAACGGTGTATCGTCGTCCGCACTCTTTTTAATTGGAGATGCAAATCTCCTCATTCTATCTTCTATTCTCGATACACCATTTGAAACAGTTACAGAGGGTCCATTTGTACCATTAGTAACAGATGTCCCTCCTACTCCAGGTTAA	MNLNVVNRELKVGQIKMNGVSSSALFLIGDANLLILSSILDTPFETVTEGPFVPLVTDVPPTPG	PGPT0025080_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025080-gerPD-K06302	NA	NA
AK009_04193	387	gerPE		putative spore germination protein GerPE	ATGTTGCATCATGTGTCCATTGTCCAAAATGTTTCTATTATTTCTTTAGGGATTACTGCCGTATTTCAAGTTGGAGATGCAAACCAAATGGAATTAAAAAGTAGAGCTCTTGCCGTCCACCGTGAAATTCCTTGTTATATAAGGGGAGAAGGTCGCTTTGATGCTTTTGAAATCTTTACAGATGAACACATTACAATTCCAAAACGAACGACAGATGTAAAATTAAATATTGTAAATGAATGCCCTTTTATTGAAGTTAATAATGTTGAATTGCGGACACTTTTAAATTCTGGTTGCTTTCAAATTGGAAATGTTGATTATGGTTTTAATAACTCTCGTATTATGCAAATCCGCCAATATATTACGGATGAACCTTCCGCACAATAA	MLHHVSIVQNVSIISLGITAVFQVGDANQMELKSRALAVHREIPCYIRGEGRFDAFEIFTDEHITIPKRTTDVKLNIVNECPFIEVNNVELRTLLNSGCFQIGNVDYGFNNSRIMQIRQYITDEPSAQ	PGPT0025085_117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025085-gerPE-K06303	NA	NA
AK009_04194	216	gerPF_3		putative spore germination protein GerPF	ATGCCTTCGGTTGTAGGAAATCTCGTCGTTCAAAATAGTAACGGCTCTTTCAACTTAGGAGATTTTTATAACGTATCTCCGAAAGAAAACACGAAAGCTTATAACGGATCTGGGGCTTCCAATGTTGGATTTGTCGTAAATACGTTTAACGGTGTTAGTGCAACAAATACGTTTGATTCTGATGTGGCGGATCAAGATCAGATTGGAACAGCGTAA	MPSVVGNLVVQNSNGSFNLGDFYNVSPKENTKAYNGSGASNVGFVVNTFNGVSATNTFDSDVADQDQIGTA	PGPT0025090_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
AK009_04195	288			hypothetical protein	ATGGTAACGGAAAAAACGTTAAGAACTTGTGAAAAAGGACATGAATACTACAAAAGTAGCGATTGCCCAACTTGCCCGACTTGTGAGAAAGAAAAGAAACCTAAAACAGGATTTCTTTCACTTCTTTCATCACCAGCACGAAATGCGCTGCAACATCATGGAATTCACACGATAGAAGAACTATCCAAGTATAGTGAAAAAGAGATTTTAAAACTGCATGGTATGGGACCTGCGTCTATGCCGAAGCTTAGAAAGGCTTTGGAGGAGAGAGGGTTATCATTTAAATAA	MVTEKTLRTCEKGHEYYKSSDCPTCPTCEKEKKPKTGFLSLLSSPARNALQHHGIHTIEELSKYSEKEILKLHGMGPASMPKLRKALEERGLSFK				NA	NA	NA	NA	NA
AK009_04196	3726	addA	COG1074	ATP-dependent helicase/nuclease subunit A	ATGATAGAAAATTGGCCTAAAAAACCAGAAGGTAGTCAATGGACAGATGACCAGTGGAAAGCTGTTGTAGCGAACGGACGTGATATTTTAGTTGCGGCTGCAGCTGGATCAGGTAAAACAGCAGTATTAGTTGAACGTATTATTAAAAAGATTATTAATGAAGAGAATCCAGTCGATGTCGACCGCCTGCTCGTTGTAACATTTACAAATGCAGCAGCGCAAGAGATGAAAAATCGAATTGGGGAAGCGTTAGAAAAGGTATTAATTGATGAACCAGGCTCTCAGCATGTAAGAAAGCAACTGAGCCTATTAAATAAAGCTTCCATTTCAACAATTCACTCATTCTGTTTACAAGTAATTAGAGGATATTACTACATGCTGGATGTTGATCCTCGTTTCCGTATTGCGAATCAAACAGAAAATGAATTGTTAAAAGAAGAAGTGCTAGATGACATATTAGAAGAAGAGTACGGAATCGAAGATAATACAATCTTCTTTGAACTTGTTGATCGTTATACGAGTGACCGTAGTGATGATGACTTACAACGTATGATTTTAGCGCTTCATACAGAGTCAAGAGCGCATCCAAATCCGGAAAAATGGCTTGATAAATTAGTAGAAGCATATGACGTAGAAGGAAAGACAATTGAAGATTTAGTATATGCTTCTTATTTATTAGAAGATGTGAAATTCCAGCTTGAAACAGCGGAACAGCATATTCGTAAGGCAACTGAACTCGCAATGCTTCCTGACGGTCCAGCGCCTCGCGTTGAAACCCTGCAAGCAGATGTAGCATTACTTGGAACGTTATCATCAGCTGCTCGTGAGTCGTGGACAAGCGTGTATGAAGCGATGCAAAACGTATCGTGGCAAACGTTAAAGCGTATTAAGAAAAGTGATTACAATGAAGATGTTGTAAAACAAGTAGACTCTCTTCGTAATAAAGCGAAAGATGAAGTAAAGAAATTACAAGAAGAGTTATTTAGCCGCAAACCTGAAAGTTTCTTACGAGATTTTCAAGATATGCACCCAGTATTAGAAAAGCTTGTTCAACTTGTAAAAGTATTTACAGAGCGTTTCCAAGCGATGAAGCGAGATAAAGGAATGGTCGATTTCACAGATTTAGAGCATTTCTGTTTACAAATTTTAAGTGAACAAAGTGAAAATGGTGAAATGAATCCGTCAGCAGTGGCGTTCCAATATCGTAATAAATTTACTGAAGTATTAGTCGATGAATATCAAGATACGAACTTTGTACAGGAATCCATTATTAAATTCGTAACGAAAGATTCTGAGAGTGAAGGAAACTTGTTCATGGTTGGTGACGTAAAGCAGTCGATTTATCGTTTCCGACTAGCTGAACCAGGACTATTCCTAGGAAAGTATAAACGCTTCACACAAGAAGGATTGGGCGGCGGAATGAAGATTGACTTAGCGAAAAACTTCCGTAGTCGTCATGAAGTACTAGCAGGTACGAACTTCATTTTCAAACAAATTATGGGCGAAGAAGTTGGAGAGATTGACTACGATGCTGACGCTGAATTAAAACTAGGTGCTACCTATCCAGAAGGTGAAGATGTAGCGGCAGAATTACTCTGTATTCAGCAAACGGAAGAAGAAGTAATAGACGGTGAAGAAGGTGCAGAAGTCGAAAAAGCACAGCTTGAAGCTCGCCTTATGGCGCAGCGCATTAAAGCGATGGTTGATTCCGGTTATGAAGTGTATGACCGTAAAACGGATAGTATGCGTCCTGTACAATACCGCGACTTCGTTATTTTACTTCGCTCCATGCCGTGGGCGCCGCAAATTATGGAAGAGTTAAAATTGCAAGGAATTCCGGTATATGCTGACCTTGCGACTGGTTATTTTGAAGCAACGGAAGTAAATATTATGATGAACGTATTCCGCGTTATTGATAATCCGATGCAAGATATCCCGCTTGCAGCTGTACTTCGTTCCCCAATCGTTGGATTAAACGATGAAGACCTTGCGACGCTTCGTGCTCACGGAAAGAAAGGCTCGTTTTATGAAGTAATGAGCTCATTCTTAAAAGGTGCACCGCTTGAAGAGGAACAAGAACTTCATGAAAAACTAGAGTGGTTTTATAACTTACTGCAAGGATGGCGTGAATTTGCACGTCAACAATCACTTTCTGATTTAATTTGGAAAGTGTACGGCGAGACAGGTTATTACGACTTCGTTGGCGGTTTACCAGCTGGAAAGCAAAGGCAGGCAAACTTACGCGTACTATATGACCGTGCAAGACAATATGAAGCAACATCATTTAGAGGATTATTCCGCTTCTTACGTTTTATTGAACGTATTTTAGAACGCGGTGATGATATGGGGACGGCGAGGGCCCTCGGTGAACAAGAAGACGTTGTTCGCATCATGACGATCCATAAAAGTAAAGGGCTAGAGTTCCCGGTTGTATTTGTAGCTGGACTCGGCCGTCGTTTTAATACACAAGACTTAATGAAACGTTTCTTACTCCATAAAGATTTCGGTTTCGGTTCGCAATTTATCGATCCGCGTAAACGAATTAAATACACGACATTATCACAGCTTGCGATTAAACGTAAAATGAAAATGGAATTAATTGCGGAAGAAATGCGCGTACTATACGTAGCGTTGACGCGTGCGAAAGAGAAGTTAATTTTAATCGGAACAGTTAAGGATGCAAATAAGGAGATGGAAAAATGGCTTGATGCGAGGGAACATAGTGAATGGTTATTACCGGATCACATACGTGCCGGAGCGTCTTGTTATTTAGACTGGATTGCACCTTCATTATATAGACACCGTGATAGTGAAATGCTTCTTGAATTAGGACAAGGAAGTATTCCAGATGAAATTTACGGGTATGACACGAACTGGAAAGTAGAAGTTGTGGACGGTAACACGCTACTTGCACCAGAGCCAGTTCAAGAAGAGAAACAAGAATTGTTAGAAGCGCTTCGTGAGAAAAAGGCTGTTCCCCTGCAAAGTGAACGGAAAGAAGAAGTGTACGACAGATTAATGTGGAAGTACGGATATGAGGATGCAACATCTTATCGTGCGAAGCAATCTGTTACAGAAATAAAGAGAAATTATCAATCTGAAGAAGGTAGCGATAATGCCTTTATTAAAAAACTACGTACGCCAATTAAAACACGTCCGCGCTTTATGGAGAAAAAAGGATTAACGTACGCAGAGCGTGGAACAGCAGTCCATGCCGTTATGCAGCATGTTGATTTGAAGAAGCCGATTACGGTTGAAGTTCTGCAAGAGCAAATTGCTGGAATGGTAAATAAGGAATTATTAACATTCGAGCAGGCGGAAGAAATAGCGATTGAAAAAGTAATTTCATTCTTTGACAGTGATTTAGGTAAAAGGGTACTAGCGGCGAAAAGTGTTGAGCGTGAAGTGCCATTTACGATGATGCTTGCAGCAGAAGAAGCATATCAAGATTGGCAAGGGAAGAGTGAAGAAACGATTCTTGTCCAAGGGGTTATCGACTGCATGATTGAAGAGGAAGACGGCATTACGTTAATCGACTTCAAAACAGATACGATTGAAGGGAAATTCCCAGGCGGATTCGAACAAGCAAAACCAATTTTAGAAGATCGATATAAAGTACAGCTTTCGTTATATGCAAAAGCGCTGGAGAAAAGCTTACAACATCCTGTGAAAGAGAAATGTTTATACTTCTTTGATGGGAATCATGTTGTAAATATTGAGGAATAG	MIENWPKKPEGSQWTDDQWKAVVANGRDILVAAAAGSGKTAVLVERIIKKIINEENPVDVDRLLVVTFTNAAAQEMKNRIGEALEKVLIDEPGSQHVRKQLSLLNKASISTIHSFCLQVIRGYYYMLDVDPRFRIANQTENELLKEEVLDDILEEEYGIEDNTIFFELVDRYTSDRSDDDLQRMILALHTESRAHPNPEKWLDKLVEAYDVEGKTIEDLVYASYLLEDVKFQLETAEQHIRKATELAMLPDGPAPRVETLQADVALLGTLSSAARESWTSVYEAMQNVSWQTLKRIKKSDYNEDVVKQVDSLRNKAKDEVKKLQEELFSRKPESFLRDFQDMHPVLEKLVQLVKVFTERFQAMKRDKGMVDFTDLEHFCLQILSEQSENGEMNPSAVAFQYRNKFTEVLVDEYQDTNFVQESIIKFVTKDSESEGNLFMVGDVKQSIYRFRLAEPGLFLGKYKRFTQEGLGGGMKIDLAKNFRSRHEVLAGTNFIFKQIMGEEVGEIDYDADAELKLGATYPEGEDVAAELLCIQQTEEEVIDGEEGAEVEKAQLEARLMAQRIKAMVDSGYEVYDRKTDSMRPVQYRDFVILLRSMPWAPQIMEELKLQGIPVYADLATGYFEATEVNIMMNVFRVIDNPMQDIPLAAVLRSPIVGLNDEDLATLRAHGKKGSFYEVMSSFLKGAPLEEEQELHEKLEWFYNLLQGWREFARQQSLSDLIWKVYGETGYYDFVGGLPAGKQRQANLRVLYDRARQYEATSFRGLFRFLRFIERILERGDDMGTARALGEQEDVVRIMTIHKSKGLEFPVVFVAGLGRRFNTQDLMKRFLLHKDFGFGSQFIDPRKRIKYTTLSQLAIKRKMKMELIAEEMRVLYVALTRAKEKLILIGTVKDANKEMEKWLDAREHSEWLLPDHIRAGASCYLDWIAPSLYRHRDSEMLLELGQGSIPDEIYGYDTNWKVEVVDGNTLLAPEPVQEEKQELLEALREKKAVPLQSERKEEVYDRLMWKYGYEDATSYRAKQSVTEIKRNYQSEEGSDNAFIKKLRTPIKTRPRFMEKKGLTYAERGTAVHAVMQHVDLKKPITVEVLQEQIAGMVNKELLTFEQAEEIAIEKVISFFDSDLGKRVLAAKSVEREVPFTMMLAAEEAYQDWQGKSEETILVQGVIDCMIEEEDGITLIDFKTDTIEGKFPGGFEQAKPILEDRYKVQLSLYAKALEKSLQHPVKEKCLYFFDGNHVVNIEE				NA	NA	NA	NA	NA
AK009_04197	3516	addB	COG3857	ATP-dependent helicase/deoxyribonuclease subunit B	ATGTCACTTCGATTTGTGATTGGTAGAGCGGGAAGTGGAAAAAGTACACTTTGTTTACGCGAAGTGCAAGAAGAGTTAAAACAACGCCCGAGAGGGAAAACAATATTATATCTTGTGCCAGAACAGATGACATTCCAGACGCAGCAGGCGTTAATTGGAAGTGAGGATGTAAGAGGTTCTATTCGGGCACAAGTTTTTAGTTTTTCACGATTAGCGTGGAAGGTACTACAAGAAGTTGGCGGAGCGAGTCGTCTTCATATTGATGAAGCGGGTGTACATATGTTACTCCGTAAAATTGTAGAGTCTCGTAAAGATGGATTATCGGTGTTCCAAAAAGCAGCGGAGCAAAACGGTTTCTTTGAACATCTTGGCAGTATGATTGCAGAGTTTAAACGTTACAATGTAACGCCATCTAACGTATATGAAATGTGGCAACAATTGGATGCGCATAGTAGCAGTGCCGAACAAAAGTTACTAGCGAATAAAGTGTATGATTTACAGCTATTATACGATGATTTTGAACGTGCTTTAATTGGAAAATATTTAGATTCAGAAGACTACCTGCAATTGCTAGTGGAAAAGCTTCCGCAGTCTGAATATGTAAATGGTGCGGAAATTTATATAGATGGATTTCATTCATTCTCCCCGCAAGAGTTAGAGATTGTAAGACAGCTTATGATTTGCGGAGCGAGAGTTACGATCACGTTAACGATAGATGAAAAAACGTTAGCACAGCCAGTAAATGAACTCGATTTATTTTATGAAACGACGTTAACGTATGAAAAAATCAAACAAGTAGCGCGTGAAGAGAAAATAGAAATTGAAAAAATAATTCCACTTATGGAACAGCCGCGTTTTCATTCTCCGGCATTAGCGCATTTAGAAGCTCATTATGAAGCGCGTCCGAATGAAAAATTTAACGGTGAAGCGAGTGTAACGATTAGCACAGCTGCGAATTTACGAGCGGAGGTAGAAGGTGTTGCTCGTGAAATTCGTAAACTTGTTGCGAATGAAAAATATCGTTACCGAGATATTGCAGTGCTTCTTCGTAATGGGGAAAGTTATTACGATGTGATGCGCACGTTATTTACAGATTACAATATCCCGCACTTCATCGATGAAAAGCGTCCGATGTCACACCACCCATTAGTAGAATGTATTCGTTCTGCACTCGAGATTATTAGTGGGAATTGGCGTTATGATGCGGTGTTCCGCTGCGTGAAAACAGAGCTTTTATATCCATTAGACGTAAGAAAAGAAACGATGCGTGAAGAAATGGATGAATTTGAAAATTACTGTTTAGCGTACGGTGTACAAGGAAAGAGGTGGACTTCAGAGGATCCATGGATGTATCGCCGTTATCGTTCTCTTGATGATACGAACGGGATGATTACAGACAGTGAACGTGAAATGGAAGAGAAAATAAATAGGTTACGTGACGTTGTAAGAACACCTGTTATTCGCATGCAAAAAAGGTTAAAGCGTGCAGGAACAGTTATGCAAATGTGTGAAGCAGTTTACTTATTTTTAGAAGAACTGGATGTTCCGAAGAAGCTAGAAGAATTACGTATACGTGCAGAAGAAAGTGGAGATTTCTTATTTGCGACAGATCATGAACAAGTATGGGAAGAAGTAATGAGTCTTCTTGATACATTTGTAGAGATGCTTGGTGAAGAGAAAATGTCTCTTTCTATGTTTACGGACGTTATGTCGACAGGTCTTGAGGCACTTCAATTTGCTAACATTCCGCCGTCATTAGACCAAGTGTTAATTGCTAATATTGATCACTCCAGGTTATCTGACGTGAAAGCAACGTTTATTATAGGTGTAAATGAGGGGGTCATTCCAGCAGCACCTATGGATGAAGGTATGCTTTCTGATGAGGAAAGAGAAGTTCTTGGTGCGGCAGGGATTGAATTAGCGCCAACGACGAGACAAACTTTGTTAGAAGAACAGTTCGTTATGTATCAAATGGTAACGAGAGCGTCTGAGAGGTTATACATTTCATGCCCGCTTGCAGATGAAGAAGGAAAGACGTTACTTGCGTCTAGCTTTATTAAGAAAATAAAAAGAATGTTCCCTAATGTGAAAGATTCATTTATTACGAATGACGTAAATGATTTATCACGTTCAGAACAAATTTCATACGTAGCAACGCCAGAAGTAACGTTATCTTACGTTATGCAGCAACTACAAACGTGGAAGCGATACGGATTTGAAGGGAATTTAGACTTTTGGTGGGACGTATACAACTTCTACGTAACTTCAGATGAATGGAAACAAAAAAGTAGCCGCGTTTTATCAAGTTTATTCTATCGAAATCGTGCGAAGAAACTAAGTACAGCAGTAAGTAGAGATTTATATGGAGATATAATTAAAGGAAGCGTCTCTCGTATGGAACTATTTAACCGTTGTGCATACGCTCATTTTGCACAGCACGGTTTATCACTTAGAGAGCGTGATATTTTCAAGCTTGATGCACCGGACATCGGCGAATTATTCCATGCGGCATTAAAGAAAATTGCGGACAAGTTATTGCGTGAAAACCGTACTTGGGCGGATTTATCCATAAAAGAGTGCGAGCATCTTTCTGTTTTAGTAATAGAAGAAATTGCACCGTTATTACAACGACAAATTTTATTAAGTTCAAACCGTCATTTCTATTTAAAACAAAAACTACAACAAATCATTTTCCGTACGTCAATCATTCTTCGTGAACATGCGAAGTCGAGCGGATTCGTACCAGTTGATTTAGAAGTGCCATTCGGTATGGGCGGTACAGGATCACTTCCGCCGATGGAATTCTCACTACCAAATGGTGTGAAGATGGAAGTAGTCGGCCGTATTGACCGTGTTGATAAGGCAGAAGATGAGAACGGGACGTTCTTACGTATTATTGATTATAAATCAAGTTCAAAAGCGTTAGATTTAACAGAAGTGTATTACGGATTAGCACTTCAAATGTTAACGTATTTAGATGTTGTTACTTCGAATGCACAGACGTGGATGAAAAAAGGCCAAGCAGCATCACCAGCGGGTGTATTGTATTTTCATATCCATAATCCAATTGTTGAAATGAAAGGTGACGCATCTGAAGCCGAAATTGAAAAAGAAATTTTAAAGAAATTTAAAATGAAAGGACTCGTATTAGGAGATGCTGACGTTGTTCGTTTAATGGATAACAAACTTTCAACAGGAAGTTCAGATATTATTTCTGCTGGCCTGAAAAAAGACGGTAGCTTTAGTGCGCGTTCAAGTATTGCAAATGAGCAAGAGTTTAACGTACTGCAAAAATATGTACACCATACGTTTGAAAATATCGGAAAAGATATTACAGAAGGTGTTATCGATATTGCTCCTTATAAAATGGGAAATAAAGCAGCGTGCACGTTCTGTAACTTCAAATCTGTTTGTCAATTTGATGAGTCACTTGAAGATAATCAATTCCGTACGTTAAAAGATATGAAAGATAGTGAAGCGATGGAGAAAATAAGAGAGGAGGTTGGCGGAGAATGA	MSLRFVIGRAGSGKSTLCLREVQEELKQRPRGKTILYLVPEQMTFQTQQALIGSEDVRGSIRAQVFSFSRLAWKVLQEVGGASRLHIDEAGVHMLLRKIVESRKDGLSVFQKAAEQNGFFEHLGSMIAEFKRYNVTPSNVYEMWQQLDAHSSSAEQKLLANKVYDLQLLYDDFERALIGKYLDSEDYLQLLVEKLPQSEYVNGAEIYIDGFHSFSPQELEIVRQLMICGARVTITLTIDEKTLAQPVNELDLFYETTLTYEKIKQVAREEKIEIEKIIPLMEQPRFHSPALAHLEAHYEARPNEKFNGEASVTISTAANLRAEVEGVAREIRKLVANEKYRYRDIAVLLRNGESYYDVMRTLFTDYNIPHFIDEKRPMSHHPLVECIRSALEIISGNWRYDAVFRCVKTELLYPLDVRKETMREEMDEFENYCLAYGVQGKRWTSEDPWMYRRYRSLDDTNGMITDSEREMEEKINRLRDVVRTPVIRMQKRLKRAGTVMQMCEAVYLFLEELDVPKKLEELRIRAEESGDFLFATDHEQVWEEVMSLLDTFVEMLGEEKMSLSMFTDVMSTGLEALQFANIPPSLDQVLIANIDHSRLSDVKATFIIGVNEGVIPAAPMDEGMLSDEEREVLGAAGIELAPTTRQTLLEEQFVMYQMVTRASERLYISCPLADEEGKTLLASSFIKKIKRMFPNVKDSFITNDVNDLSRSEQISYVATPEVTLSYVMQQLQTWKRYGFEGNLDFWWDVYNFYVTSDEWKQKSSRVLSSLFYRNRAKKLSTAVSRDLYGDIIKGSVSRMELFNRCAYAHFAQHGLSLRERDIFKLDAPDIGELFHAALKKIADKLLRENRTWADLSIKECEHLSVLVIEEIAPLLQRQILLSSNRHFYLKQKLQQIIFRTSIILREHAKSSGFVPVDLEVPFGMGGTGSLPPMEFSLPNGVKMEVVGRIDRVDKAEDENGTFLRIIDYKSSSKALDLTEVYYGLALQMLTYLDVVTSNAQTWMKKGQAASPAGVLYFHIHNPIVEMKGDASEAEIEKEILKKFKMKGLVLGDADVVRLMDNKLSTGSSDIISAGLKKDGSFSARSSIANEQEFNVLQKYVHHTFENIGKDITEGVIDIAPYKMGNKAACTFCNFKSVCQFDESLEDNQFRTLKDMKDSEAMEKIREEVGGE				NA	NA	NA	NA	NA
AK009_04198	564	spsB_2	COG0681	Signal peptidase IB	ATGAAGAAAACTTTGAAAAAAGAAGGCATAGAGTGGATACGAACAATTTTAATTGGTGTATTATTAGCTGTATTTTTTCGAACGTTTTTCTTCTCAACGTATGTTGTAGAGGGGAAGTCAATGATGCCGACATTGCAAGATGGTAATATGCTCGTTGTAAATAAGGTGAGTTATCAAGTTGGGGACTTGAACAGATTTGACGTTGTGGTGTTTCATGCGAATAAAAAAGAGGACTATGTAAAGCGAATTATCGGTTTACCTGGAGATCATATTGAATATAAGCATGATAAGTTATATATAAATGGACAATTTATTGATGAGCCGTATCTAGAGAAATATAAGAAAGAGATAAATGGAAGGCAACTAACAGGCGACTTTAAATTAGAAGAGTTAACGAAAGAAAAGCTGGTGCCACCCGGGTTTATTTTTGTAGTAGGTGATAACCGGCTCGGGAGCTGGGATAGTAGACACTTTGGCTTTGTAAAAGCTGATACAGTCGTCGGTAAAGTTGATTTGCGATATTGGCCAATTCAAGAGGTGCAAACGAATTTTTCAAAAGGTTGA	MKKTLKKEGIEWIRTILIGVLLAVFFRTFFFSTYVVEGKSMMPTLQDGNMLVVNKVSYQVGDLNRFDVVVFHANKKEDYVKRIIGLPGDHIEYKHDKLYINGQFIDEPYLEKYKKEINGRQLTGDFKLEELTKEKLVPPGFIFVVGDNRLGSWDSRHFGFVKADTVVGKVDLRYWPIQEVQTNFSKG				NA	NA	NA	NA	NA
AK009_04199	594	ydjZ_1	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGGATTTTCAGACAATCAAAGAGTATTTTTCACCAGAAAATATGGATCATATTGTTGAGAGTTATAAAGCGTTCGGACCACTTCTTGGTATTGGTTTACCGATGATAGAGGCGTTGATTCCAGCATTACCGCTTATTGTATTTGTACTGGCGAATGCTGTTGCATTTGGCTTTTGGCTCGGTTTTCTTTATTCATGGCTTGGATCAGTAATGGGTGCATTACTTGTCTTTTTCATCATCCGCCATTTTGGTCGCAGTCGTTTCTTTTCGTTTGTAAATAAGCATGAGAGAGTAAGAAAAGCAATGGGGTGGATTGAAAGGAAAGGATTCGCACCGATTTTTGTTATATTTTGTTTTCCGTTTACACCGTCAGCGCTAATAAATGTTGTCGCTGGTTTATCACGAATTAGTGTAAAACAGTTTGGGCTAGCGTTAGCATTCGGAAAACTTGTGATGATTTTTATTTTAACGTATATCGGTCATGATTTAATGTCATTTATTCATAATCCGGTGAAATCAGTCATTGTAGCGATTGGTATTTTTATTTTATGGTATGTCGGTAAGAAAATTGAAGTAAAGTTAGAACTACATTAA	MDFQTIKEYFSPENMDHIVESYKAFGPLLGIGLPMIEALIPALPLIVFVLANAVAFGFWLGFLYSWLGSVMGALLVFFIIRHFGRSRFFSFVNKHERVRKAMGWIERKGFAPIFVIFCFPFTPSALINVVAGLSRISVKQFGLALAFGKLVMIFILTYIGHDLMSFIHNPVKSVIVAIGIFILWYVGKKIEVKLELH				NA	NA	NA	NA	NA
AK009_04200	582	comK	COG4903	Competence transcription factor	ATGGAAAGTAAAGTGGAACGCTATGTCGAAAATTATGTTGTAACGAAAAATACGATGGCCTTACTTCCTGTTATTCTAAGTGAAAAGAAAATTGTTACGCGAGTCGTTGAAATGAATGATTCTTTTTTCGTATTTCAAAAACCACTAGATATTATAGAAAGAAGTTGCCGAAAGCATGGTTCTAGTTTCTTAGGCAGAAAAGAAGGAACGAAAGAATTAACTCATATTACACATAAAGCACCGATTGCGATTAGTCCTACAGATCAACTTTATTTTTTCCCTACCTATTCTTACTCTAGAAAAGAGTGCGCTTGGTTGTCTCATTTTTATATTGAAGGTAATAAAGAATTAAAAGATGGAAATCTTATTATTAGGTTTATAAATGGCTTTGCTGTGAAATTAGAAATATCAAAAACTAGTTTTGAAAATCAACAAAATCGTACAGCGAAATTGCGTACTGAATATGAAGATCGTAGGAAAAAACAAGGGAGCCCTTGTTTTAAAGAGATTGATAAAAAAGAGGAATCAACATTAAGACCTGCTTATGAGAGAGTGTATTTTGTGAAGGAAGGCGAAGTGTGA	MESKVERYVENYVVTKNTMALLPVILSEKKIVTRVVEMNDSFFVFQKPLDIIERSCRKHGSSFLGRKEGTKELTHITHKAPIAISPTDQLYFFPTYSYSRKECAWLSHFYIEGNKELKDGNLIIRFINGFAVKLEISKTSFENQQNRTAKLRTEYEDRRKKQGSPCFKEIDKKEESTLRPAYERVYFVKEGEV	PGPT0025815_69	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
AK009_04201	186			hypothetical protein	ATGGAAGAAAAAGAGATCCAACCATCGATTCAAATGAAAAATAGTAGCGTCATTATCGTGAAAAATTCAGCTAGTATTATATTCGGTTTATTTTTTATTCTGCTATTCTTTGCCAAACCGTTTCGTAAATCAAAATGTACAGAATGTAAAAAACGTGAGAAGAAAAACGTAGCGAAAAAAGAGTAA	MEEKEIQPSIQMKNSSVIIVKNSASIIFGLFFILLFFAKPFRKSKCTECKKREKKNVAKKE				NA	NA	NA	NA	NA
AK009_04202	204			hypothetical protein	ATGGATAAAGAAAATCTATTAAGTCAGCAGGTTAATAGCATCCCCTCAGATGCTCTGAATACTCCTAGCAAGGAACAAGAACAACTGTTAGAAACATCATCTCAAAACGTACAAAATTCCAATAACAATACTAACAAAAAAGATGAGACTCAAGGTCTATCTGGAAAAGATTCCCCTATTTCAATAAAGAATACAAACTTATAG	MDKENLLSQQVNSIPSDALNTPSKEQEQLLETSSQNVQNSNNNTNKKDETQGLSGKDSPISIKNTNL				NA	NA	NA	NA	NA
AK009_04204	204	cspA_2	COG1278	Major cold shock protein CspA	ATGGCAGTAACAGGACAAGTAAAATGGTTTAACAACGAAAAAGGTTTCGGTTTCATCGAAGTTCCAGGCGAAAACGACGTATTCGTACACTTCTCAGCAATCGAAACTGACGGTTTCAAATCTTTAGAAGAAGGTCAAAAAGTTAGCTTCGAAATCGAAGACGGTAACCGTGGACCTCAAGCTAAAAACGTAATCAAACTATAA	MAVTGQVKWFNNEKGFGFIEVPGENDVFVHFSAIETDGFKSLEEGQKVSFEIEDGNRGPQAKNVIKL	PGPT0014675_6504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_04205	495			hypothetical protein	ATGAACAACAAAATTCCTAGAAAAACATTAAAAAGAATCGAAGAGGATATTGAAAATAATAATCTTGGAAAAGCAAGAGACAGATTGCACGGCCTCATCTTTACATACCCAAATGAATTACATCTTCGAAAACAACTCGGAGATATTTATTATAAATTACAATATCCAGAAATGGCTGGACGTTACTGGTATCTAGAGGAGCATAAAACAGATATTATGCATGAATCATGTTTATTATTTGAGAAATCAATGGGAAATAACCCTCATCATATTGCACGCGCTTTAAAGTTTAAAGGCGATTCTAACCATATAAAAGCTTTGTATAAAGATCAACCTTTATCTTCAGTGCAGAAGAAAGTAGCAGAGGAGTTAATTTATGAGTATAAAGAAACATGGCAAGATAAGCTAGTTCCTTTTGGCTGTCTAGCATTCCTTGCTTGCCTTCTCTTTTCTGCCATTGTTGGTCTATTCACTATTTGGAATTGGATTTTTTAA	MNNKIPRKTLKRIEEDIENNNLGKARDRLHGLIFTYPNELHLRKQLGDIYYKLQYPEMAGRYWYLEEHKTDIMHESCLLFEKSMGNNPHHIARALKFKGDSNHIKALYKDQPLSSVQKKVAEELIYEYKETWQDKLVPFGCLAFLACLLFSAIVGLFTIWNWIF				NA	NA	NA	NA	NA
AK009_04206	621			hypothetical protein	ATGTCAAACTACGATAACGAAGAAAAGCTAACAGGCGGAAACGTTTCGAACGTATATCGTTCTGAAAATACTGTTCGTCGAGAGTTAAAGCCAGATAGCGCAAAGATGCTCCGCCTTTACCATGATGCTGTAAGTGATTTTCCGTTATTAGATGATTGGAAACCGATGGATCACACGCCAAATAACATTGAGGTTTTATGCCACAATGATTTTGCCATATATAACATTATTTTTAATAATGAGAAGCCAGTAGGGATTATTGATTTCGATGTTGCTGCTCCTGGTCCAAGACTATGGGATATCGCTTATACACTTTATACTTGTGTGCCTTTAAGTAGAGTGTATTATACAGAATCTGGTGAAGCCATTCATTATGAATCATCGCAACATGCAGATCGTATTAAAGAGAGAGTGAAATTATTCGTTCAGTCCTATGGTAAAAATATGGATGAAGATTACTTAGGAATGGTGTTGCTACGATTAGAAGGGTTATGTACATATATGAAACGAAAAGCGCAAGAAGGCGACTTGAATTTCCAAAGAATGATTGATGAAGGACATCTAGAGCATTATGAGAAAGATATGAAGTTTATTCGTAATCATAGGGCTGAGTGGCGTTGA	MSNYDNEEKLTGGNVSNVYRSENTVRRELKPDSAKMLRLYHDAVSDFPLLDDWKPMDHTPNNIEVLCHNDFAIYNIIFNNEKPVGIIDFDVAAPGPRLWDIAYTLYTCVPLSRVYYTESGEAIHYESSQHADRIKERVKLFVQSYGKNMDEDYLGMVLLRLEGLCTYMKRKAQEGDLNFQRMIDEGHLEHYEKDMKFIRNHRAEWR				NA	NA	NA	NA	NA
AK009_04207	1278	aceA	COG2224	Isocitrate lyase	ATGAAAAACGAAAGAATCGAGAAATTACAAGAAAGCTGGGAATTAGATGAGCGTTGGAAAGGGATCACACGTCCATATTCGGCAGAAGATGTAATTCGCCTGCGCGGATCAATTGATATTGAACATACATTAGCGCGCCGCGGTGCTGAGAAGCTTTGGACATCGCTTCATACAGAAGACTATATTAACGCACTTGGCGCATTAACAGGAAATCAAGCGATGCAACAAGTAAAAGCTGGGTTAAAAGCGATTTACTTAAGTGGTTGGCAAGTGGCAGCTGATGCAAACCTTTCTGGACATATGTATCCAGACCAAAGTTTATATCCAGCGAACAGCGTACCTGCTGTAGTGAAACGAATTAATCAAACACTTCAACGTGCGGATCAAATTCAACATATGGAAGGAAGCGATGATACAGACTATTTCGTACCGATTGTAGCAGATGCAGAAGCTGGATTTGGTGGACAATTAAACGTATTCGAACTGATGAAAGGTATGATTGAAGCAGGTGCATCAGGTGTGCATTTTGAAGATCAATTATCTTCAGAGAAAAAATGTGGCCATTTAGGTGGAAAAGTACTACTACCAACGCAAACAGCGGTACGTAATTTAATTTCTGCACGTCTTGCAGCAGATGTAATGGGAGTGCCAACAATTATCGTTGCAAGAACAGATGCAGATGCAGCTGATTTAATTACGAGCGATATCGATCCTGTTGATAAAGCATTTATTACAGGAGAAAGAACACCAGAAGGATTTTACCGTACGAATGCAGGTCTTGATCAAGCGATTGCGCGCGGTTTAGCGTATGCACCGTATGCAGACCTCGTTTGGTGTGAAACGTCGGAACCAAATTTAGAAGATGCAAAACGATTTGCGGACGCAATTCATAAGGAGCATCCAGGAAAGTTACTTGCATATAACTGTTCACCTTCATTCAACTGGAAACAAAAACTAGATGAAAAAACAATTGCGAGCTTCCAAAAGGAAATCGCATCTTACGGTTATAAGTTCCAATTCGTAACACTTGCTGGATTCCATTCATTAAATTACGGTATGTTTGAACTAGCACGTGGCTATAAAGAGCGCGGCATGGCAGCATACTCTGAACTACAACAAGCTGAATTTGCAGCAGAAAAACACGGCTACTCTGCAACACGTCATCAACGCGAAGTAGGAACAGGTTACTTTGATGAAGTTGCACAAGTGATTACAGGCGGAACTTCATCAACGACAGCGTTAAAAGGATCTACAGAAGAAGCACAGTTTACGAAATAA	MKNERIEKLQESWELDERWKGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKTIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQFTK	PGPT0001550_2456	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
AK009_04208	1590	aceB	COG2225	Malate synthase A	ATGTCGACGCAAACTTCACGGGTTACACTCGTTGGAGAAATGTTACCAGCGTACAACGAAATATTGACACCTGAGGTGCTTAGTTTTTTGAAGGAACTACATGAGAATTTTAATGAGCGCCGCATAGAACTTTTACAAAAACGTGTAGAAAAACAAAAGAGAATTGATGCAGGGGAGTTTCCGAAGTTTCTAGAAGAAACAAAACACATACGTGAAGCGGATTGGACAATTGCCAAGCTGCCAAAAGACTTAGAGGATCGCCGCGTAGAGATTACTGGACCGGTAGATAGAAAGATGGTCATTAACGCTTTAAATTCAGGAGCGCATCTTTTTATGGCGGATTTTGAAGATTCGAATTCACCAACTTGGGAAAATGCAGTGGAAGGTCAAATCAACTTACGAGATGCAGTAAAGGGAACGATTTCACATGAAAATGATAAAGGGAAAGAATATAGATTAAATGAGAAAACAGCTGTACTCATTGTACGTCCAAGAGGATGGCATTTAGAGGAAAAGCATATGCAAGTTGATGGGGAAAATATGTCAGGTAGCTTAGTAGATTTCGGCTTGTACTTTTTCCATAATGCGAAAGCTCTTTTAGCAAAAGGGAGCGGCCCATACTTTTACTTACCGAAAATGGAAAGTTATTTAGAAGCGAGATTATGGAATGATGTATTCGTATTTGCTCAAAAATATATCGGCATTCCAAATGGAACGATTAAAGCAACTGTGTTACTGGAAACGATTCACGCTTCGTTTGAAATGGATGAAATTTTGTATGAGCTAAAAGATCATTCTGCTGGCTTAAACTGTGGAAGATGGGATTATATTTTTAGCTTTTTAAAGAGTTTCCGTAATCATAATAAATTCTTACTACCAGATAGAGCACAAGTCACGATGACAGCGCCATTTATGCGTTCGTATTCTTTGAAAGTAATTCAAACGTGTCACCGCCGTAATGCACCAGCAATTGGAGGAATGGCGGCACAAATTCCGATTAAAAATAATCCAGAAGCGAATGAAGCAGCTTTTGAAAAAGTGCGTGCTGATAAGGAGCGCGAAGCTTTAGACGGTCATGACGGGACTTGGGTTGCTCACCCTGGACTTGTACCGGTTGCAATGGAAGTATTTAATCACATTATGAAAACACCAAATCAAATTTTCAGAAAACGTGAAGAAATATGTGTAACAGAAAACGATTTACTAGAGGTACCGGTGGGAACGATTACAGAAGAGGGCCTTCGCATGAATATTAGCGTAGGTATTCAATATATTGCATCTTGGTTCAGCGGACGGGGAGCAGCACCCATTTATAACTTAATGGAAGATGCGGCAACTGCTGAAATTTCAAGAGCACAAGTATGGCAATGGATTCGTCATGAAGGTGGAAAACTAAATGATGGTCGTAATATTACGCTTGAATTAATGGAAGAGCTAAAAGAAGAAGAATTAGCAAAAATAGAAAGAGAGATTGGTAAGGAAGCCTTTAAGAAAGGGAGATTCCAAGAGGCGACAATGTTGTTTACAAATCTCGTTCGAAATGATGAATTCGTACCATTTTTAACATTACCAGGTTATGAAATTTTATAA	MSTQTSRVTLVGEMLPAYNEILTPEVLSFLKELHENFNERRIELLQKRVEKQKRIDAGEFPKFLEETKHIREADWTIAKLPKDLEDRRVEITGPVDRKMVINALNSGAHLFMADFEDSNSPTWENAVEGQINLRDAVKGTISHENDKGKEYRLNEKTAVLIVRPRGWHLEEKHMQVDGENMSGSLVDFGLYFFHNAKALLAKGSGPYFYLPKMESYLEARLWNDVFVFAQKYIGIPNGTIKATVLLETIHASFEMDEILYELKDHSAGLNCGRWDYIFSFLKSFRNHNKFLLPDRAQVTMTAPFMRSYSLKVIQTCHRRNAPAIGGMAAQIPIKNNPEANEAAFEKVRADKEREALDGHDGTWVAHPGLVPVAMEVFNHIMKTPNQIFRKREEICVTENDLLEVPVGTITEEGLRMNISVGIQYIASWFSGRGAAPIYNLMEDAATAEISRAQVWQWIRHEGGKLNDGRNITLELMEELKEEELAKIEREIGKEAFKKGRFQEATMLFTNLVRNDEFVPFLTLPGYEIL	PGPT0001445_2871	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
AK009_04209	663			Endoglucanase	ATGAGCAAAAAATTATTAAAAACAGCTACAGCATTAACAATTATGGGTGGGGTGTTATTCTCAGCAGAGAGTAACAATGTAAAAGCGGAAAGTGCACCGTTGCAAAAAACAAATACAATTGTATTTAAAGATGTACCAAAAGGGCATTGGGCATATGAGGCGATTCATGATTTAGCGGAACAAGAAATTATTTTGGGATATGGCGATGGAATATTCGGTTTTGGGGATAATGTAACACGTGAGCAAGTTGCAGCTTTAATTTACCGTGTGTTTGATATGGAAGAACAAGATGAATATGAAAACCCATATGGAGATATCGATGAAAATTCAACAAGCTTTATCGAGGAAATATTGGCTTTAACGGAAATGGGAATTTTCCAGGGAGACGAGAATGGAAACTTTAGACCGAAGGCGACGTTAACGCGTGCGGAAATGGCACAAGTTCTTACGAATGCTTTTGACTTACAGGCAAAGGGATCTCATAACTTTAATGATGTTTCAGCAAATTCATGGGCAACGAATGCAATTAGTGCAGTACAAACAAATGGTATTACAATGGGAATCGGAGAAGGTAAATTCGGTCCGTCTATGAAGGTAACGAGAGAACAATACGCACAGTTTTTACATAGAGCAATATTGCATGATATGGAACAAGGGCAGTAA	MSKKLLKTATALTIMGGVLFSAESNNVKAESAPLQKTNTIVFKDVPKGHWAYEAIHDLAEQEIILGYGDGIFGFGDNVTREQVAALIYRVFDMEEQDEYENPYGDIDENSTSFIEEILALTEMGIFQGDENGNFRPKATLTRAEMAQVLTNAFDLQAKGSHNFNDVSANSWATNAISAVQTNGITMGIGEGKFGPSMKVTREQYAQFLHRAILHDMEQGQ	PGPT0018620_1932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK009_04210	657	sap		S-layer protein sap	ATGAAGAAAAAAATATTGGGTGTAATGATGATTGCGACAATGGCAGGAGGGATATTTGCAGGGACGAATGTGACGCCTGTAAAAGCGGAAGAGTATCCACAAATGATTGTGTTTGAAGATGTTCCATACGGGTTTTGGGCATATGACGCTATTATGGATTTAGCATATCATAAAATTATATTAGGGTATGGAAACGGGAAGTATGGTGTTGGTGATCTTACAACACGTGAACAAGTAGCTGGTATTATTTACAGAACACTTGAAATGAAAGAAGAAGGATCAGTAGCGAATCCGTATAAAGATATTTCTGATAGTACAACAACTTTTAAAAAGGAAATTTTGGCGTTAACAAAACGTGGTGTTTTTACAGGGGATGGGCAAGGGAACTTTAGGCCGAAAGCACCAGTCTCTAGAGCGGAAATGGCTGTCATTTTAAAACGAGCATTTACTTTTGAAACGAAGCAAAAACATACATTTAAAGATATTCCAAAAGGCCACTGGGCAGAAGATGCAATTAGTGCGCTACAATCTAATAATGTTGTAAGAGGAACTGGGAATGGCATGTATGAATTAAATCGCCCTGTACCTAGAGAACAATATGCTCAATTTATTAATAATGCGATTATTAATTATCATTTGAAAGAGGATTGGAGATAG	MKKKILGVMMIATMAGGIFAGTNVTPVKAEEYPQMIVFEDVPYGFWAYDAIMDLAYHKIILGYGNGKYGVGDLTTREQVAGIIYRTLEMKEEGSVANPYKDISDSTTTFKKEILALTKRGVFTGDGQGNFRPKAPVSRAEMAVILKRAFTFETKQKHTFKDIPKGHWAEDAISALQSNNVVRGTGNGMYELNRPVPREQYAQFINNAIINYHLKEDWR	PGPT0018652_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-N_ACETYLMURAMOYL_L_ALANINE_AMIDASES,PGPT0018652-yubE-NA	NA	NA
AK009_04211	252			hypothetical protein	ATGAAGGTTACTATATTCATGATTTATATTTCAGAGGTAGCATTCCTCTCCACTGATAACTCGCCTTCTCTTCCCTTGCGAAAAGTTAGCGCCATCCCTACAAATATAAGGATAATCCCTACTACTTGCATACTAGTTGGTCTAAATCCGGTAAAAACAGTATCTAATAATATTGCAACAGCAGGATCTAAAAACACTAATACAGAAATAATTCTCGTCGATAAATGTCTTAAACTGTCAAAAAATAAGTAA	MKVTIFMIYISEVAFLSTDNSPSLPLRKVSAIPTNIRIIPTTCILVGLNPVKTVSNNIATAGSKNTNTEIILVDKCLKLSKNK				NA	NA	NA	NA	NA
AK009_04212	1728			hypothetical protein	ATGTATTTTTTACAAAATTTAAAAGTGAAATATAAATTATTAGCGCTTATTTCATTAGCAGTTTTAGGTATGATAATTATAAGCAGTGTAGCAATTCATTCTATTAATAAGATTAAACACGATACAGAGGTTGTAGTAGATGATTATCAATATTCTGCAATTTTATTAGAAGGAATGCTTCGCACACAAAATTCACTAGAATATAACTTATTAGAGTTAATTACGGCATCACAAAATGAAGTAGCAAATAAAGAGGGAATAATTGATAATATTGAAAAGGATCTTAAAAAATATGATTCTTTATTAAAAGAATATGATGATGGTTTTAATTTAAGTAAGCAAGAGGATGAACTGTTTCAGAAGATGAAGAAATCTTTACCAAGTTATAAAGATACATATAAAAAATTATTTGAAAAGGCGAAGGCAACAAACGAGCCACAAATGGTAAATGAATTTCAGAAGGAATTAAAACCGAAGGGAATAGAGTTAGCTGGTTATGCAGTGGATCTAGAATCGTATGTTTCAAACTTAGCTGATCAAGTGTTTAAAGATTCTCAAAAAATGATTGATCGATCCGTTATTACCTTTATCATTCTTGTAGTAGTTACTACAATCGTTATATGTATAGTAAGTTATATTATTAGCAAGCTTATAGTTGCTCCTTTACAAACGGTTAGTCGTATGATGGAAAGAGCGAAAGAAGGAGATTTAACCGTACATGGTGATTATACTGCTAAGGATGAATTAGGTGTATTAGTAAGTAATTTTAACGAGATGATTGCAGGGCTAAGAACAAATATGCAAGAAGTAGAGAATAATATTCAGCTTTTATTCCAACATGCAGACGGAGTAGTATCTGCATCAGAAGTATCTAGTAGTGCAGCGAAGAAAATCACTATGGATATTGAAGAAGTTGCAAATGGTGCAGAAAGTCAAATGCAAGCAATGGAACAAACTGCGGGTGCGATGGAAGAGTTGACACAAGGAATGCAGAGTATAGTCAATACATCATCCTCTGTAAATGAATTATCTGCTCAATCAGCATTAGATGCAGAGAATGGTAACAAATTAATGAAACAAATGATTCAACAGATGGATACAATCCAAAATTCGGTACATAGCGGTGTGAAACAAGTAGAGACTATGAAAGAACAATCAGAAGAAATTGTTAAAATCATTGATGTTATGCAAGGTATTACCTCTCAGATTAACTTATTAGCATTAAACGCCGCAATTGAGGCTGCACGTGCTGGTGAAAGTGGTAGAGGATTTGCAATTGTGGCAGATGAAGTGCGGAAATTAGCAGAACAATCTAGTGATTCTGCAAAACAAATTGAGAATCTTATTACTCAAGTTATGGGAACAACGAACCATACGGTACATATGATGGGGAAAGTAGATAATGAGGTACAGGCAGGTACACAAGTAGTAATGCACACAGAAAAAGTATTTGGAACAATTACAGAAAAAGTACAGCAAGTATCTGAGCAAATTCAAACGGTATCTATGTCTACAGATGAAATTGCAGCGAGTAGTGAGGAAATCTCGGCTTCTGCAGAAGACATGGCTCAAATTTCCCAAAGATCATCTGACCGAACTGATAGGGTAAAAGAGTCTATTCAACAGCAAGAAAAATCTGTTCAAGAGATTTCGGTTTCAATTGAACATATGCATAACGCAGCAGGAAAATTAAAACAAATAGTTGGCCAATTTACTCTTCAAAAGTAG	MYFLQNLKVKYKLLALISLAVLGMIIISSVAIHSINKIKHDTEVVVDDYQYSAILLEGMLRTQNSLEYNLLELITASQNEVANKEGIIDNIEKDLKKYDSLLKEYDDGFNLSKQEDELFQKMKKSLPSYKDTYKKLFEKAKATNEPQMVNEFQKELKPKGIELAGYAVDLESYVSNLADQVFKDSQKMIDRSVITFIILVVVTTIVICIVSYIISKLIVAPLQTVSRMMERAKEGDLTVHGDYTAKDELGVLVSNFNEMIAGLRTNMQEVENNIQLLFQHADGVVSASEVSSSAAKKITMDIEEVANGAESQMQAMEQTAGAMEELTQGMQSIVNTSSSVNELSAQSALDAENGNKLMKQMIQQMDTIQNSVHSGVKQVETMKEQSEEIVKIIDVMQGITSQINLLALNAAIEAARAGESGRGFAIVADEVRKLAEQSSDSAKQIENLITQVMGTTNHTVHMMGKVDNEVQAGTQVVMHTEKVFGTITEKVQQVSEQIQTVSMSTDEIAASSEEISASAEDMAQISQRSSDRTDRVKESIQQQEKSVQEISVSIEHMHNAAGKLKQIVGQFTLQK	PGPT0015710_15044	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
AK009_04213	1269	htpX		Protease HtpX	GTGAGGAAGGTTATTGGTTGGTCGCTTTTTTTGTACGTTGGATTTGCGTTACTTATATATTGGTATTTATTTGGATGGAATCATGAACTTATTCCGGACATGTATAAAGGAACAAGTGCAGATCCAGAAACGTTTATGAGTGCTAGAGAGCTTACGCTAAGCCAAGATTATTCGCGCGTGAAAAATTTACTATACTTTTTAGCGACGCCTCTTGAATGGATTATTTTATTATTTGTACTTGTGCTAGGTATTTCAAGAAAGTTTGAGAAATGGTCGAAGGAAACGACTAAAATAAGTGTCTTGCAAGTTGCGATTTATTTCTTTTATTTATCATTACTGACAACAGTGCTTGCCTTACCGATGCAATGGATTGGCCGGAAAGTATCCGTTGATTACGGCATTTCAACACAAAGTACACAAAGCTGGATAAAAGATCATGTTATCGGTTTTTGGGAAAGTTATGCGACTATGTTAATTGTAGTTACCGTTCTATTATGGCTTATCCGTAAATTTCCGAAGAGGTGGTGGCTAGCAGGGTGGGCGCTCTCTGTTCCATTTACAATCTTTTTAACATTCATACAGCCTGTCGTTATTGATCCGCTTTATAACGACTTCTCAACGCTGAAAAATAAAGAATTAGAAACGAAAATTTTAGCGATAGCAGACAAAGCTGACATTCCTGCTAAACACGTATATGAAGTAAATATGTCAGAAAAAACGAATGCATTAAATGCTTACGTAACAGGAATTGGTCCTAACGCCCGTATTGTAATGTGGGATACAACGCTTAAGCAGTTAAAAGATAAAGAGATATTATTTATCATGGCTCATGAAATGGGACATTATGTTATGAAGCATATATACTTTGGCGTTGCAAGTTATGTATTGCTATCGTTTATAGGTATGTTTTTAATTAGTCGTATTATAAATATGTGTATTCGCAAATGGGGAGATACATTGCAAATTTCAAAAGTAGCATGTTTCTCCATTTTACCTTTATTTTTCTTAATTTCTTCTGTACTCTCTTTTGCAGCACAGCCAGCAACAAACTACGTTTCACGTATAGAAGAAAGAGCGGCAGATCAATATGCTTTAAATATGACGAAGGATGGGAAATCTGGTGTGAAAACTTTTCAATATTTATCAAAAACAAGTTTAAGCCAAGTCAATCCGCCTGCGTTAGTGAAATTTTTCTTATACACGCACCCACCAATTTTTGAAAGAATTCACACGTTTGAACAATATGAGAAACAAAGAAAAAAGGAGTAG	MRKVIGWSLFLYVGFALLIYWYLFGWNHELIPDMYKGTSADPETFMSARELTLSQDYSRVKNLLYFLATPLEWIILLFVLVLGISRKFEKWSKETTKISVLQVAIYFFYLSLLTTVLALPMQWIGRKVSVDYGISTQSTQSWIKDHVIGFWESYATMLIVVTVLLWLIRKFPKRWWLAGWALSVPFTIFLTFIQPVVIDPLYNDFSTLKNKELETKILAIADKADIPAKHVYEVNMSEKTNALNAYVTGIGPNARIVMWDTTLKQLKDKEILFIMAHEMGHYVMKHIYFGVASYVLLSFIGMFLISRIINMCIRKWGDTLQISKVACFSILPLFFLISSVLSFAAQPATNYVSRIEERAADQYALNMTKDGKSGVKTFQYLSKTSLSQVNPPALVKFFLYTHPPIFERIHTFEQYEKQRKKE				NA	NA	NA	NA	NA
AK009_04214	300			hypothetical protein	ATGAATGAAACGATATCATCAAATAAGTTTTTTTATTTGATTTTACTTAGTCTAGTGTTAATAACGACAGTGAATGTTATTTTGCGCTGGGAGGAAGCTTACTTTTTCATGTATTTAGCGCTCCATTTGTTGGGGATTTTATGTATAAGTGGTGGAGTCGTTACTGAAAAAAAGAGTGAAGAAAGCGTTAACTATATGTGTGTGATCGGTCTTATTTTACTTTTAGCTGTACAGGGTATTATGAAATATAGTTCCTTCTCTTTACAAGATTTTAGTTTATTAATAGATGTACTTCCTTAA	MNETISSNKFFYLILLSLVLITTVNVILRWEEAYFFMYLALHLLGILCISGGVVTEKKSEESVNYMCVIGLILLLAVQGIMKYSSFSLQDFSLLIDVLP				NA	NA	NA	NA	NA
AK009_04215	357			hypothetical protein	ATGAAGAAGACGGTTGAAAAAATATTAAAAGAAATTATAGATGCTACGTCTATTGCAGATATGTGTGATAAAAGCTTTTGTAATTGGATTCAACCTGTAGTAGATACGTTTGTGTTTCCAGAGTATTATTTGTTTTCTAGTAATCATTTAAAAGAAAATATTATTTCTCTTCTTATTGTATTAGGAGTTGTACTAATATTTGGTCTAATTGTAGAAGAAATGATGAAGCGCATCTTCAGAAAAAATGGAGAGAAGTATATGTGGGTTCATAAAGTATTCGAGAAAGTAATAGTGGCTTTCCTTTTGTTTTATAGTATGAAAACAATCATTTACTTTATAGCTTTGAAACATCATTAA	MKKTVEKILKEIIDATSIADMCDKSFCNWIQPVVDTFVFPEYYLFSSNHLKENIISLLIVLGVVLIFGLIVEEMMKRIFRKNGEKYMWVHKVFEKVIVAFLLFYSMKTIIYFIALKHH				NA	NA	NA	NA	NA
AK009_04216	849			hypothetical protein	GTGAATCCGTTTCAAGTGATGCGAGCTAGATATTTTTTAATTGTATTTGCACTATTAATTTTAATAGCGAGAAGTAGTGGCGAGTTGCTAACAAGTATATTTCATATACAAAATTCTTCTTTTATAAATATCCTTATATTCTATATCCTTCCGATGGTATGGATTTTTTATGAGTATAAAAAGCATCGCATTTCATTTTCATTGTTTGTTAATAAAAATGAAACATTTAACTTGGTGCAAGTTTTATACATTACGGTTATGTTATGCATATTTAGTTACGGGTATCTTATTTTGTATATGTATAGTTTTGCATGGATCACACCAGACTTTATTATGAATGCATTGCATGAACCGATTATAGATAGTACTGGGGGATATGTATATCAAGTCATTAGGGTTGTATTCATCGCACCAATTATCGGGGAGTTTGTTTTTCGCGGATTTTTACTTCAACGCTTTGCAACAAAATGGGGAACGAGCATAGCGACCATCGTTGTAGCAATATTGTTTGCATTGTTACATGTTGATTTCCTCGGTGCAGCCATATTCAGCATCGTATTGTCGATCGTATATATTCGTACGGAAAGTTTACTCATGCCAATTGCAATACATATGTTAAACAATGCATTTGTAATGGGCGCGGCTTTTTTAATAAGTAGAGAAAAAATTATGAGTTTTGCAGACTTCTCAAATTATACGACATTCTTTCCTGGACTTATTATATTTATAACGGGATTAAACTTAGTACTTATCTTTTTATTTGTTAATCGCAAGTATTGGAGTAAAGAAGTGCCAGTTATATATGCAGAGCAGGAAAAGAGCTTTTCAGATGTAGTCGGGAGTAAATAA	MNPFQVMRARYFLIVFALLILIARSSGELLTSIFHIQNSSFINILIFYILPMVWIFYEYKKHRISFSLFVNKNETFNLVQVLYITVMLCIFSYGYLILYMYSFAWITPDFIMNALHEPIIDSTGGYVYQVIRVVFIAPIIGEFVFRGFLLQRFATKWGTSIATIVVAILFALLHVDFLGAAIFSIVLSIVYIRTESLLMPIAIHMLNNAFVMGAAFLISREKIMSFADFSNYTTFFPGLIIFITGLNLVLIFLFVNRKYWSKEVPVIYAEQEKSFSDVVGSK				NA	NA	NA	NA	NA
AK009_04217	705	srrA_6	COG0745	Transcriptional regulatory protein SrrA	ATGTACCAAGCAAATATTTTACTCGTTGATGATGAAACAGCAATTTTACAATTACTAACTACCATTCTTGAAAAAGAAGGTTTTTCTCATATTACAACTGCAACATCAGCTGAAATAGCTTTATCTCTAACTAAGGAAAACAATTACGATTTAATTATTTTAGATGTAATGCTTCCTGGACAATCTGGTTTTGATATTTGTCCAATCATTCGCCAACAAACAGATTGTCCCATTTTCTTCCTATCAGCAAAAGCATCTGATTTAGATAAAATATCTGGATTTTCATACGGTGCGGATGATTATATTACGAAGCCCTTTAATCCATTAGAAGTAGTAGCACGCATGAAAGCACAGCTTCGGAGACATATGAAACAAGCAGTACCGCACGAACAAAAATCACACTCGATTTCATTTGGAAGATTTGAAATTGATCAACACTCTGCAGAACTGACAGTGGATGGTCACATTGTCGAATGTTCCGCTCAACTCTTTCAACTACTACTCTTCTTTTGCGAGAATCCGAACTACGTATTTTCGAAAGAGGAAATATACGAAAAAGTTTGGGGAGCACCTGCCTATAATGGCGATGACAACACTGTTATGGTCCACATTCGAAAACTACGTGAAAAAATTGAACACGATCCAAGTAAACCAGAATATATAAAAACTGTTCGCGGCCTTGGTTATAAGTTCGTTACAAAGTAG	MYQANILLVDDETAILQLLTTILEKEGFSHITTATSAEIALSLTKENNYDLIILDVMLPGQSGFDICPIIRQQTDCPIFFLSAKASDLDKISGFSYGADDYITKPFNPLEVVARMKAQLRRHMKQAVPHEQKSHSISFGRFEIDQHSAELTVDGHIVECSAQLFQLLLFFCENPNYVFSKEEIYEKVWGAPAYNGDDNTVMVHIRKLREKIEHDPSKPEYIKTVRGLGYKFVTK	PGPT0002675_108	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
AK009_04218	1743	sasA_15		Adaptive-response sensory-kinase SasA	ATGAATTTTAATAAACGACTTATTATTCAATTTATCATGCAACACGTTTTTGTTTTAGTTACATTACTTATCGCTGTAGTTGCTGCTTTTACTTATTTAATTTTTCTTCTTACTAGTACTTTATACGAACCTAACATTCCAGATTCTGATAGTTTTACAATTTCAAGATACATCTCTTCAGAAGATGGGCATATTTCATTACAATCTGAAGTGCAAGATTTAATAAAGGAGAAAAATGATTGGCTCCAAGTTGTAGATGAAAACGGAAAAATCCTCTACCACTTTAATACACCAAATGATGTTCCGAATGCTTATACGAAGACATCTTTAGTCGCATATATACAACATCATATCGAAAGTAATTATAAATTTACATATTGGGAAATTGAATTAGAAGAAAAGAAAGTACTTGTTATTTATGGTGGTATGTTAAAAAGCAATGCTTTACTAACAGCAATTCAAAAGGAGCATTCCTCTTTAACAATGGATTCGTTCACATTAACAGATCAAGAAAAACAGTTACTGTCTAAAGAAAAAGCAGCACTTCAAATATTTAATCAAAATGGCGAAGAGGTTTTTTCTTATACAACCGGAAAGAAAAAAACATTTTCAGCAATACAAATCGCCCTTAATGAAAAAGAACCTTGGAATCATAAAGAAAACACGTCTAGCTTTTACGATGCAAATAGTGGCAACCTTCTCGTTGTAACTGCAAAAAATGATCACTACTACCCAGATGACGAAATTGAAGATGTATTTACTAAGAAGTTTCTCATTGGATGCGGATTAATCCTTCTTATCGTATTTGTTTATTTAGTCATTCTTTCTATTTGGTATGGTAATAAATTCGGAAAACCGTTATTACATGCGATGCGCTGGCTTAAAAATATCGCTGGTGGAAAGTATGAAGAACCTATTAGTAAAAAAGGAAAGCCTGTCAGGTTCCGGCGATCTGGTAAAGAAAAATGGTCATTCCGTTTGTTTAGAGATGTGACAAGTTCACTAGAACACCTTTCTATTACACTCAAGAAAAATGATGCGATGAGGCAAGTACTTCAGCAAACACGAGAAGAATGGATTACCGGTCTAACGCATGATTTAAAAACACCACTTAGCTCTATATATGGCTACGCATTATTACTAGAATCGAATCAATACAACTGGACCGATCGTGATATTCAACAATTTGGTAGTGTTATGAAAGAGAAATCTCAATATATGACGACATTAATTGATGATTTAAGCTTAACGTATCAATTAAAAAATAATAGCCTTCCTGCACAGCACGTAAACGTTGAAATTAATCAGTTCGTCCAAAAAGTATTATTGCAATTTATTAATAATCCAACACTTCAAAATCAAAATATTGAATTCGTACCGAGCTCAAATAAAATTCAATATTTCATTGAAGAAAAATGGTTCCAGCGTATTATCGAAAACTTACTCGTAAATGCTGTAAAACATAATAACGAAACAACTACTGTCATCGTAAAACTATCACAAAACGCCAATTCCTTTATACTCTCCATTTCGGATGACGGAAAAGGAATGGATGAAAAAACGAAAGAACTTCTATTTGAACGATATTACCGCGGAACAAACACAGAAGAAAGCAACATCGGAACTGGACTTGGCCTAGCCATTACAAAACAGCTCGTTCATGCTCATAACGGGACAATTTCCGTTGATAGTGCACTCGGAAAAGGAACGACGATTATTCTTGTGTTTCCGTTTCGTTCGTAG	MNFNKRLIIQFIMQHVFVLVTLLIAVVAAFTYLIFLLTSTLYEPNIPDSDSFTISRYISSEDGHISLQSEVQDLIKEKNDWLQVVDENGKILYHFNTPNDVPNAYTKTSLVAYIQHHIESNYKFTYWEIELEEKKVLVIYGGMLKSNALLTAIQKEHSSLTMDSFTLTDQEKQLLSKEKAALQIFNQNGEEVFSYTTGKKKTFSAIQIALNEKEPWNHKENTSSFYDANSGNLLVVTAKNDHYYPDDEIEDVFTKKFLIGCGLILLIVFVYLVILSIWYGNKFGKPLLHAMRWLKNIAGGKYEEPISKKGKPVRFRRSGKEKWSFRLFRDVTSSLEHLSITLKKNDAMRQVLQQTREEWITGLTHDLKTPLSSIYGYALLLESNQYNWTDRDIQQFGSVMKEKSQYMTTLIDDLSLTYQLKNNSLPAQHVNVEINQFVQKVLLQFINNPTLQNQNIEFVPSSNKIQYFIEEKWFQRIIENLLVNAVKHNNETTTVIVKLSQNANSFILSISDDGKGMDEKTKELLFERYYRGTNTEESNIGTGLGLAITKQLVHAHNGTISVDSALGKGTTIILVFPFRS				NA	NA	NA	NA	NA
AK009_04219	273			hypothetical protein	ATGATAGAAAGAGAATTAGAAGAAGGGGTTATTTGGACGTTAATAGGATTGAAGTTTCCAGATGAGAAAAGTTCGGAGTTAGTAATAAGCAATCACCCGGATATTAATTTTACGGAAGTCGAAGTATTAGTAGAAGATGTACAACAAACGTATGAAAGTTTAAAAGATAATAAAGATGTAAAGTGGATTCGCGAACCATTTCCAACAGAATCAGGACATGTTGCAGTAATGGAAGCACCTGATGAGAATGTATTTGTGTTAGTAGGGAAATAG	MIERELEEGVIWTLIGLKFPDEKSSELVISNHPDINFTEVEVLVEDVQQTYESLKDNKDVKWIREPFPTESGHVAVMEAPDENVFVLVGK				NA	NA	NA	NA	NA
AK009_04220	903	rhaS_1		HTH-type transcriptional activator RhaS	ATGGAAAGCTATGAAACACAAATTCAAAGGTCAATTGATTATATTGAGGAAGATGTAATGGAAAAACAGACGCTGTGTAATTTAGCACGTATTGCAGGTTTTTCTGAGTCGCATTTTCATCGTGTATTTCAGGCATTAGTAGGTGATACAGTAATGGAGTATGTTCGAAAGCGGAGGTTAGCCCGGGCAGCTTATCAACTTTCTCATACGGATGAAAAAGTTATTGATATCGCGTTTGAGCATGGCTTTCAATCTCACGAAACGTTCACGAGAGCCTTTAAGAAATTATTTCAAATGACACCGAGTGAATATCGAAAACAAGAAATTGAAACACCGATGTATTACAGAGTGAATGTAAAGCAAAGAAAATTAAATCCGTATTTAGGAGGCATACAAATGGAATATCGTATTGTAAATAAACCAGAATTTTTAATGGCAGGTTATGAACTGAAGACGACAAGTAAAGAAGGGAAAAACCATCAAGACATCCCAGCATTTTGGCAAGAATATTTACAAAAAGATCTTGGAACAACGATTCCGAATCGTAAAGATACGAGCCAATGGGTAGAGCTTGGATTATGTACTGATTTTAATTTAGAAACAGGGGACTTCACTTATATTATCGGAATGGAAGTTACAGACTTTGAAAATGTACCAAATGAAATTGCAAAGCGTACTTTCCCTGCAGCAACATATGCAGTATTTACAACGCCGAAAGTTCCTCATAAAGAAATGGTATCGTCTATTCACCAAACTTGGAATGCAGTATTCTCAGAATGGTTCCCGCATTCAGGATATGAACATTGCGGAGTTACAGAGTTTGAACTGTACGATGAGCGTTGCCACGAAGATAAGAGTGAGTTTGCACAAGTAGAGCTTTGGATACCGGTGAAGAAAAAATAA	MESYETQIQRSIDYIEEDVMEKQTLCNLARIAGFSESHFHRVFQALVGDTVMEYVRKRRLARAAYQLSHTDEKVIDIAFEHGFQSHETFTRAFKKLFQMTPSEYRKQEIETPMYYRVNVKQRKLNPYLGGIQMEYRIVNKPEFLMAGYELKTTSKEGKNHQDIPAFWQEYLQKDLGTTIPNRKDTSQWVELGLCTDFNLETGDFTYIIGMEVTDFENVPNEIAKRTFPAATYAVFTTPKVPHKEMVSSIHQTWNAVFSEWFPHSGYEHCGVTEFELYDERCHEDKSEFAQVELWIPVKKK				NA	NA	NA	NA	NA
AK009_04221	486	sigM_1	COG1595	ECF RNA polymerase sigma factor SigM	GTGAAACGCAAACAATCATTAGAAGACATTTACTCCGAGCATATGCAAGATTTATTTCGCTATCTTCTCTCCCTAACCGGAGATTCCCACTATGCGGAAGATCTCATGCAAGAAACCTTTTACCGAATGCTCGTCCATATTGATTATTATAAAGGAGAAGAAATTAGGCCGTGGTTATTTACAATTGCCTACAATGCCTTTATCGATTGGTATCGTAAAGAAAAGAAATATAAAACAACAGAAGTTGCAGAATTCCATTTACCAAACGTTCCAAGTACAGAACATGCATATTTCGTAAAATTTGAGATTGCTAGTTGGTTAGAAAGTTTATCCATTCTTCCGCTCGAACGACGAAATGCCCTGCTACTACGAGATTACTATGGATTCTCCTATAAGGAAATAGCAGAAATGACTGGTCTCTCATTAGCGAAAGTGAAAATTGAATTACACAGGGGACGAAAAGAAATAAAAAGCATAAAGGAGTGA	MKRKQSLEDIYSEHMQDLFRYLLSLTGDSHYAEDLMQETFYRMLVHIDYYKGEEIRPWLFTIAYNAFIDWYRKEKKYKTTEVAEFHLPNVPSTEHAYFVKFEIASWLESLSILPLERRNALLLRDYYGFSYKEIAEMTGLSLAKVKIELHRGRKEIKSIKE	PGPT0014960_12005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_04222	1125	yhdL		putative anti-sigma-M factor YhdL	ATGGGCTGTACAGAATTTAAAAAACTATGGAAGAAGTATGAAACCGGAACGCTCACACATGATGAACAAGAACTGTTAGAAAGTCATATTGAGTCTTGTGAAGAGTGTGAAGCTTACTTAGATGAGCTGTTAACAAAGACAGAACCAATTAAGAAAAAGTTACCTCCAAAAGATCTTAAAATTCCTTTTTGGAGAATTAAGTGGAAACATCGTTTACAAACGTTTGGTTTTATATTATCAATTTGCATCGTTATCTATATAATCGGCGGGGTATTATCAGCCTTTTATTTTCAAGCTAATAATGATAAAAGGCTAAAAGAAATTAGAGAGGTTCCTTCGCTGGCACTTGAAGCAACTATCCCAAATAGCCGCGTTATGGGAGGCGGAACAAGTGTAGAAGCTTTTTTCCGTACAAATAGCCAATTTGATTTAGTAAGAACCGTCGGTAAAAAAGAAATGCCACTTGGTACAATAGAAACAAAAAGCTTCTTATCATCTGTAGATATCACGAAGCAAACTTGGATGAATCCGTTCTATCAACCAAAACTCTTCTTTGTTCATCCCAAAACAGAGCAGGGTGATTATTTAAAGGATTCATCAAAAAAAGTATGGGATACACTTGCAAAAGTACATGATGGAACCGTTGCAGAAGTAGCAATTTCTTTTGATAAAGCTTACACTTTAAAAGAATTAGAACCGCTTTTATATAGCATATTCGAGGCACAAGAACTCCCTCCAACTCCTGTATGGTACGCTTTAGATACAGGACAAGAAAGAAAAAATGTAGATGACTATATCCTACATGGCGGAGAAGCTATAGGGTTTCCAGAACATGTAAGATTCCTCGATAATGAAACTGACGGGCGGAAAACGCAAGAAGACAAAGTAACCGAAATGATGCGCGTCCTTTCTATCCATAAAAAAACGGTAAGCAAAATAGCAGCGCTTTCTGAGAAAGAACTAAACTTAGATAAACGTTATCAATATGTAAAGGATAACGGTGTAAAAGTATACGGAATTGTTATTACTGGCCCATCGAAAGAGTTATTAAAATTACAAAACTCCCCGCACGTACGTTATGCGACTCTTGGAGATATTGAGATTTGGAATTGGTTTGATAATTAA	MGCTEFKKLWKKYETGTLTHDEQELLESHIESCEECEAYLDELLTKTEPIKKKLPPKDLKIPFWRIKWKHRLQTFGFILSICIVIYIIGGVLSAFYFQANNDKRLKEIREVPSLALEATIPNSRVMGGGTSVEAFFRTNSQFDLVRTVGKKEMPLGTIETKSFLSSVDITKQTWMNPFYQPKLFFVHPKTEQGDYLKDSSKKVWDTLAKVHDGTVAEVAISFDKAYTLKELEPLLYSIFEAQELPPTPVWYALDTGQERKNVDDYILHGGEAIGFPEHVRFLDNETDGRKTQEDKVTEMMRVLSIHKKTVSKIAALSEKELNLDKRYQYVKDNGVKVYGIVITGPSKELLKLQNSPHVRYATLGDIEIWNWFDN				NA	NA	NA	NA	NA
AK009_04223	978			hypothetical protein	GTGATCATATCAGATGTACTATACGGAGAATTTGAAGTGGATCAAGTAGTAGAAGAATTAATTTCAAGTAAGTCTATGCAAAGGCTAAAAGGTATTCATCAAAATGGCGCAAGTTACTTAATGAACGAGAAATGGAATGTAACGCGCTTTGATCATTCAGTTGGTGTTATGTTATTAGTTAAAAAATTAGGTGGTTCAGTAAAAGAACAGATTGCTAGTTTACTGCATGACGTATCGCATACTGCTTTTTCCCATGTGATTGATTACGTTTTTGATAATGAAGATGAAAGTTATCATGAAGAGATATTTAGTTCTGTTGTGAAAAACTCAGAAATTCCAGCGATTCTTGCGAAGTATGGTTATAACTATGAAGATATTTTGTTAGATGATTCGAAATGGACGTTACTCGAAAGGTCAGCACCAGAATTATGCGCAGACAGAGTGGATTATACATTACGAGATATGTATACATATGGGTATGTTTCTTTAGAAGAAGTTCACAGTTTTTTAGAAGATGTCATCGCTGTAGATGGGAAAATGGTTGTTCAAAGTGTCGAAATGGCAGAATGGTTTACAGAAACGTATTACAAGGAAGTAATCGATTTCTTTATGGAACCAATGAATATTTACGGAAATGATATGTTAGCGAAAACGTTAAAGGTAGCTCTTCATAAAAGGATTATTCATGCAGATGATTTTCTTCTTGAAGATGAGGAGCTTATTTCGAAATTGCAACAATGTAATGACCCCGAAGTAGAAGCTTTATTAAGCAAAGTTCATCGAAATGTAAAAGTAAAAGAAGATAGAAACGATTATGATTTACATCAGAAAAATAAAGTGCGTCTTATTGATCCGCCGTTACTTCGTGAAGGAAAAATCGTTCAGTCGTCTGTTGTGTCAGAAAACATAAGACAGATGAGTGATATTGCTTATGAAAAAGCGGTGAGAGGGATGTATGTGAAATTGATTTCGGAATAA	MIISDVLYGEFEVDQVVEELISSKSMQRLKGIHQNGASYLMNEKWNVTRFDHSVGVMLLVKKLGGSVKEQIASLLHDVSHTAFSHVIDYVFDNEDESYHEEIFSSVVKNSEIPAILAKYGYNYEDILLDDSKWTLLERSAPELCADRVDYTLRDMYTYGYVSLEEVHSFLEDVIAVDGKMVVQSVEMAEWFTETYYKEVIDFFMEPMNIYGNDMLAKTLKVALHKRIIHADDFLLEDEELISKLQQCNDPEVEALLSKVHRNVKVKEDRNDYDLHQKNKVRLIDPPLLREGKIVQSSVVSENIRQMSDIAYEKAVRGMYVKLISE				NA	NA	NA	NA	NA
AK009_04224	1107			hypothetical protein	GTGAAGAATCTTCGTTATCTCAATATATTTACGATATTAATTATATACACACTACTTATGTTTTACATTGGCTGGAACGGCTGGGTTTGGCTTCATGCGGTATTTGGCTGGGAATCTTGGGGATATTACGCTTTCGTAGTCGGATTTATTTCATATGCGTACATTCTCGTGCAAGTGTTTAAGTTTCTGCCATTTCTGCGAACGATAGGTTCGATTTGGTTTGCAGTTATACAATATGCGCTTATGTTGTTGCCATTAGCTAATATTATGGTCTTTCTTTTACAGTTTTCAGCAGAGAAAGAAGCGGCAATTATTTGGACAGGGGCGGCTGTGATAGCTGCATTTATCTTTATCTTTGCGTATGGAGTATTTAATGCGTATAGTCCGGTAGTAAGAAAGTACGAGGTGCACATACCGAAAAAGGTAGAGGGGCGTAAAAGTTTACGCATTGCGATGGCTTCTGATATGCATTTCGGTAAACTGTCTGGCGTTTCGCATTTAAAAAGACTTGTTCGTCATGTAAATGAGATGGAACCTGATATTATTTTACTGCCAGGTGATATTATCGATGATCATCCAGGTGTGTTCATTCAAAAGAATATGGGACCAATCATGAAACAAATGAAAGCACCATTAGGCGTATATGGCGTATTAGGAAACCATGAATACTACGGTAGAGCGGTTCCAGAGTTTTTACAAGAGATGGATAAGATTGATATTCGTATTCTTTTAGATGAAGTAATTACAATTGAAGATGACTTTTATCTCGTTGGAAGAAGAGATAAAACAGAGCGAGATCGTCAAAGCTTTGAACAATTAATGAGTACGGTAGATAAATCGATGCCTGTTATCGCAATGGATCACCAGCCATTTGAGTTGAAACAAGCAGCAGCGGCAGGTGTAGATTTATTATTATCCGGTCATACGCACCGCGGACAAATGGCGCCCAATCATATTGTAACGAGAAGAATGTACGAGCTAGACTGGGGATACGCACAAAAAGGCGCGTTCCACGCAATTGTTTCTTCTGGATTTGGGTTTTGGGGACCACCGCTTAGACTTGGTAGTAGGTCGGAGATTGTGCAGGTAGAAGTTACATTTGAATAG	MKNLRYLNIFTILIIYTLLMFYIGWNGWVWLHAVFGWESWGYYAFVVGFISYAYILVQVFKFLPFLRTIGSIWFAVIQYALMLLPLANIMVFLLQFSAEKEAAIIWTGAAVIAAFIFIFAYGVFNAYSPVVRKYEVHIPKKVEGRKSLRIAMASDMHFGKLSGVSHLKRLVRHVNEMEPDIILLPGDIIDDHPGVFIQKNMGPIMKQMKAPLGVYGVLGNHEYYGRAVPEFLQEMDKIDIRILLDEVITIEDDFYLVGRRDKTERDRQSFEQLMSTVDKSMPVIAMDHQPFELKQAAAAGVDLLLSGHTHRGQMAPNHIVTRRMYELDWGYAQKGAFHAIVSSGFGFWGPPLRLGSRSEIVQVEVTFE	PGPT0022365_1608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_04225	918	ycjY	COG1073	putative protein YcjY	ATGGCAGTTACGAAGGAAAATATAAGATTTTATGCAAGAGGTTTACAAGTTACAGGTATTTTGAACATTCCTGAAGGTGCTGAGGAAAAGAAACAAAATCCATCGATTGTTTGTGTGCATCCAGGTAGTAGCTGTAAAGATCAAACAGCAGGATTGTATGCCGAGAAGTTAGCGGAACAAGGATATGTAACGCTTGCGTTTGATGCGTCATATCAAGGTGAAAGTGAAGGTACACCGAGATATATTGAAGAGCCAGCTGCGCGAGTTGAGGATATTCGCTCAGCAGTAGATTATTTAACTACTCTTCCTTATATAGATGAAGAACGTATCGGTGTGTTAGGTGTTTGTGCAGGCGGTGGTTATGCGGTAAATGCTGCGATGACAGAGCGCCGCATTAAAGCGGTTGGTACAGTTGTTGGTGCAAATATCGGTCGTTTAAATCGTGAGTCTAACCCGATTGGTGTGTTAGAGGCAATTGGTAAACAACGTACTGCTGAAGTACGCGGAGCAGAGGAAATGATTACAAATTGGATTCCTAAAAATCAGGAAGAGTTAGTAGCAGCGGGTATGACCGATATAGATATTGTAGAAGCAGTTGAGTATTACACAACGCCGCGAGGGCAAAGTGTTAACTCTCCAAATAAGTTAAACTTTACGAGTATGGGATCGGTAATTGGTTTTGATGCGTTCCATTTAGCAGATACGTTATTAACGCAGCCGCTGCAAATTATTGTCGGCAGTAAGCAAGGTGCATTTGGTTCTTATAAAGATGGTCATGAGCTGTATGAGAAAGCAGCTTCAGAGAAAAAAGATTTACTTGTTGTGGAAGGTGTGAGTCATTACGATTTATACGATCAACCAGAACCAGTAAGAATTGCAGTTGAAAAATTAACAAGTTTTTATAAAGAGCATTTGTAA	MAVTKENIRFYARGLQVTGILNIPEGAEEKKQNPSIVCVHPGSSCKDQTAGLYAEKLAEQGYVTLAFDASYQGESEGTPRYIEEPAARVEDIRSAVDYLTTLPYIDEERIGVLGVCAGGGYAVNAAMTERRIKAVGTVVGANIGRLNRESNPIGVLEAIGKQRTAEVRGAEEMITNWIPKNQEELVAAGMTDIDIVEAVEYYTTPRGQSVNSPNKLNFTSMGSVIGFDAFHLADTLLTQPLQIIVGSKQGAFGSYKDGHELYEKAASEKKDLLVVEGVSHYDLYDQPEPVRIAVEKLTSFYKEHL				NA	NA	NA	NA	NA
AK009_04226	546			hypothetical protein	ATGGAGAAAATCGATAGAAGAATTATAAAATCACAAAACGCCATTCAATCGGCATTTATAGAAATGTTAATTACAGATGGATTTGATGAAATTACAGTTAAAAACATTACCGAAAAAGCAAACATCGGAAGAAAAACGTTTTACTTACACTATCTAGATAAGTACAATTTATTAGATAAAATTGTGGACGATCATTTAGACCAATTAAAAGAAATATGCTACGAGAAGCAAAACAAAGAATTTATAGAAGGAACAATCATATGGTTTGAATACTTCAAAGAACACAAACCATTTTTTGCGGCACTATTTAGAAGTAACAGCACCTTATCATTTCAAAAAAAATTACTAACTTTCATCATGGGTGAAATAGAGAAAAAGTTAAATACAGACACATCAGTAAATAAAAACATCGATAAACATATCATCTTAAAATTTTTAGGAACAGCTGTAATGGGCATTTTAGAGTCTTACGTGTTGGATGAAATTGATAGTGATGTTGCGTTTGTTGCGACGCAAGTTGGAGAATTGATTAGGAGGAATATATGA	MEKIDRRIIKSQNAIQSAFIEMLITDGFDEITVKNITEKANIGRKTFYLHYLDKYNLLDKIVDDHLDQLKEICYEKQNKEFIEGTIIWFEYFKEHKPFFAALFRSNSTLSFQKKLLTFIMGEIEKKLNTDTSVNKNIDKHIILKFLGTAVMGILESYVLDEIDSDVAFVATQVGELIRRNI				NA	NA	NA	NA	NA
AK009_04227	1011	hlgB		Gamma-hemolysin component B	ATGAAACGTTCTAAAACATACTTAAAATGTTTAGCATTATCCGCTGTTTTTGCTAGTAGCGCTGTAACTCTTTCAACACCTGCTGCTTATGCTCAAACAACATCGCAAGTTGTAACAGATATCGGACAAAACGCAAAAACACATACGAGCTATAATACATTTAATAATGATCAAGCTGATAATATGACAATGTCTTTAAAGGTAACTTTTATCGATGACCCAAGCGCTGATAAACAGATTGCCGTTATTAATACAACTGGTAGTTTTCTAAAAGCAAATCCTACTATAAGTGATGCACCTATTGATAACTACCCAATCCCTGGCGCTAGTGCAACATTACGTTATCCTTCACAATATGATGTTGCATTTAACCTTCAAGATAACAGCGCTCGTTTCTTTAACGTAGCACCTACAAATGCTGTAGAAGAAACGACTGTAACATCTAGCGTATCTTATCAACTTGGTGGCTCTGTTAAAGCTTCTGTAACGCCTAATGGCCCTAGCGGTGAAGCTGGTGCAACTGGTCAAGTCACTTGGTCTGACTCTGTAAGCTATAAACAAACTAGTTATAAAACAAATTTAATTGACCAAACAAACAAAAACGTAAAGTGGAACGTATTCTTTAACGGATATAACAATCAAAACTGGGGTATTTACACACGTGACTCCTATCATTCTTTATATGGAAACCAACTTTTCATGTACTCTCGCACATACCTATATGAATCTGATGCAAAAGGTAATTTAATACCGATGGATCAACTTCCAGCGCTAACAAATAGCGGTTTCTCTCCTGGTATGATCGCTGTTGTTATCTCTGAAAAAAATACAGATCAATCTAACTTACAAGTCGCTTATACAAAACACGCCGACGATTACCAACTTCGTCCAGGCTACACATTCGGAACTGCAAACTGGGTTGGAAACAACGTAAAAGACGTTGATCAAAAAACATTTAATAAATTGTTCACACTAGATTGGAAGAATAAGAAATTAGTAGAGAAAAAATAA	MKRSKTYLKCLALSAVFASSAVTLSTPAAYAQTTSQVVTDIGQNAKTHTSYNTFNNDQADNMTMSLKVTFIDDPSADKQIAVINTTGSFLKANPTISDAPIDNYPIPGASATLRYPSQYDVAFNLQDNSARFFNVAPTNAVEETTVTSSVSYQLGGSVKASVTPNGPSGEAGATGQVTWSDSVSYKQTSYKTNLIDQTNKNVKWNVFFNGYNNQNWGIYTRDSYHSLYGNQLFMYSRTYLYESDAKGNLIPMDQLPALTNSGFSPGMIAVVISEKNTDQSNLQVAYTKHADDYQLRPGYTFGTANWVGNNVKDVDQKTFNKLFTLDWKNKKLVEKK				NA	NA	NA	NA	NA
AK009_04228	120			hypothetical protein	ATGTCTTTTTATAAAAAGGAAATAAAAGGGGATAAATTGATTATAAGTGACGAAAGCATTGATATTTTAATGGATGCTTTTCAAAATAAAGGTGAAGAGATGCCTAAAAATATATCATAG	MSFYKKEIKGDKLIISDESIDILMDAFQNKGEEMPKNIS				NA	NA	NA	NA	NA
AK009_04229	408			hypothetical protein	ATGTTATGTCCGTCTATAAAAGAATTTGAGATTATTAGCGGGAAGAAAATTGCTTCATTAGTAAACTTTTTAATTGATGAAGCACCGAATCCTATCAAAGTTATGAGTAAATTAAATGCTGAACAAGTTATCAATGAAATAAAAGAATTTGAACGTGAATTAACTAGTTTATTGTCTAAGAAGATTATTCTATGGTATGCACATGAAAATTGGGACTTTGGTGTGCAATTAGAATTAGAAGATTTCATGTTATATACAAAAGAAGTATTACATTTCATTGGATATGATGATGCTCAAAGATCATTAATTTATTCTAGCCTTATTGTAGTAGATGAATCTATGAGAAGTGGTTTTACTTTTCTAAAGAATGAGTATGATCTTGAAATAGTACTATGGAAAGAAGGCTGA	MLCPSIKEFEIISGKKIASLVNFLIDEAPNPIKVMSKLNAEQVINEIKEFERELTSLLSKKIILWYAHENWDFGVQLELEDFMLYTKEVLHFIGYDDAQRSLIYSSLIVVDESMRSGFTFLKNEYDLEIVLWKEG				NA	NA	NA	NA	NA
AK009_04230	159			hypothetical protein	ATGAATTTTTTTCGAAAAGATAAATTAAGTGACATTCAGAAAAAGTACTATGAACATTTTGGAGAGCCGATTCAATTTGTTAATTATTATAGCTGTGGATCGGTTATGTATTTTCAAACGGATGATACGCTTTATTATGTTAATTTACTGAATGTATGA	MNFFRKDKLSDIQKKYYEHFGEPIQFVNYYSCGSVMYFQTDDTLYYVNLLNV				NA	NA	NA	NA	NA
AK009_04231	558			hypothetical protein	ATGGGATTAAGAGAGATTGAAAAAGTAACTGTCTTTTGTTTAGCTAACGAAAACACTGATATTTCATATGAAGTGAATAGAGCTTTGGGTGAAATTCGTATATATGTTCCATATGATTTTATGGATTTTTTAGCATTAAATTCAGTTGAAGAGAAATACAAAGAGTTTTGCAAATTAGTACGCCAATATGTTGTCCTTGGACTTGAAGAAAACTCTACTCTTTCATCATCTGTTGTTAAAAGGTATATAGAGGAATCTTTAGATGAAATTGTGAAGCAAAACTATGAAGGAATATTTTTAGTTGGGAAGACACCTAAGAAAAGCCCAAGCCGTAAGAAGATAGCGATATTAAAAGGAATTCATCGTGTTAAAGGTTTCCAGCTACGATGTGAAGTGTATGATGAAAAGGGATTAAAGATTCGAGATCAACTATTGGTGGAAGAGGTAGGGAATGAAATAGTATATTCTAGATTCTTAGGGACATTAAAATGGGAAAGTGAAAATCTAATAGTAGTTCAATCTAAATCCAGTAGTTGGAAAGAAGAAATCTATCTTTAA	MGLREIEKVTVFCLANENTDISYEVNRALGEIRIYVPYDFMDFLALNSVEEKYKEFCKLVRQYVVLGLEENSTLSSSVVKRYIEESLDEIVKQNYEGIFLVGKTPKKSPSRKKIAILKGIHRVKGFQLRCEVYDEKGLKIRDQLLVEEVGNEIVYSRFLGTLKWESENLIVVQSKSSSWKEEIYL				NA	NA	NA	NA	NA
AK009_04232	465			hypothetical protein	TTGGCAATGACGGATGAACAATTCGAAAATTATCTTGTTATGTGTTATGACAAATTAGAAAGTAAACAGCAAAAATTCATTTCAGATTATAATATCTATAACTTTGATGAGTATTGGTATGATCAAGATCAATGTATATTACAGTTTAAAAAAAATGGTCAAGTGTTACTTGAATTTAGTGTTGTTTTTATAGGGTCTTGGTCTGGAAAGAGTAACAGTTGGATGTGGTCTTGGGCTAATGAGAATGTGGCTGATTATGCAAGAAGTAAGTCTAACTGTTTGAAAGATTTACAAAAGATTACAGGAAGTGAGGTTTTTATAAATCCACTTTTTGAATGCGTTCAAGAAATGGCGTATGAGCTAGCAGCCTTTTCGATTGAATATTTAGATGCAGAAGGAATGTATATGGCACCAGGTGAGAGAAGTGATGTATTTATGGCTGTTATGTCACCGCGTGCATTGTGA	MAMTDEQFENYLVMCYDKLESKQQKFISDYNIYNFDEYWYDQDQCILQFKKNGQVLLEFSVVFIGSWSGKSNSWMWSWANENVADYARSKSNCLKDLQKITGSEVFINPLFECVQEMAYELAAFSIEYLDAEGMYMAPGERSDVFMAVMSPRAL				NA	NA	NA	NA	NA
AK009_04233	318			hypothetical protein	ATGAAATTCCCAAAAGATGAAGATGGACAAGTATTAAATATGTTATACAAGCAAGGTATAGATTTTAATAAAAAACATATAGTAGATTTCTTTATTGCAATTCCTGATCAAGGTAATGGAGAAAAAATAATTGGCAGACTACAAGAGCTGGGCTTAAATTGTGAATTAGATTATAATGAAGAATTTGAAGATTGGACATGTACTTGTTCTAAAGAGATGTACTTAGTTTATGAGGATATCGTAAAGATGCAAAAGGAATTGAATAAACTGGGTGAAGAGTTTGGTGGATATACAGATGGTTGGGGTGCATTTGTGTAA	MKFPKDEDGQVLNMLYKQGIDFNKKHIVDFFIAIPDQGNGEKIIGRLQELGLNCELDYNEEFEDWTCTCSKEMYLVYEDIVKMQKELNKLGEEFGGYTDGWGAFV				NA	NA	NA	NA	NA
AK009_04234	441			hypothetical protein	TTGTTCCAAACGATAATTTACGATAAAGCTAAATATCATTATGAAGGAGATTTCCCACAAGAACTACCGATGGAGCAAGCATTTGTACATACTGGAATGTTCTTAGGTTGGATTATTGATAATAATTTATTTAGTGATGAATTTTTAGAAGAGACTGAAGAGGAAATTAATAAATTTAAGCTTAGAAAAATGACTGGAACTCAAGTTTATATGTTCTGGGATGGGGTTTTAAGCGATGACATGTTAAATGATGAAGGGAATCAATTTGCAATAGATTATTTTGATTTTGAAAAAGGTTTATATTTAGATGATTATGATGATGTATTTTTAGAGTGTGATACATTATATCAAGTGCAAGATACTTGGGAAAATTACTTTAAATTAAAAGAAGTAATTGATATTAGGTATACAGAATGGAAAAAACTTAAAAATAACGGGTAA	MFQTIIYDKAKYHYEGDFPQELPMEQAFVHTGMFLGWIIDNNLFSDEFLEETEEEINKFKLRKMTGTQVYMFWDGVLSDDMLNDEGNQFAIDYFDFEKGLYLDDYDDVFLECDTLYQVQDTWENYFKLKEVIDIRYTEWKKLKNNG				NA	NA	NA	NA	NA
AK009_04235	636			hypothetical protein	ATGAATAAAAAAGAACTAAAATTAAAGTTATTGCAAGGTCTAGGTGAAGCATTAAAAGAAAAAGGTTATAAGACTAGAACTACACAACAAGACCTGGTGAAAAAATTTGATAAAGGAAAAATCAGTATACATTTAGCCTTTATCAATCACCCAGAAGATTTTCATGTGACGGTGGATGTGGGAATTCGGTTTGACGAATTAGAAAATATGAAAAATCAATGGGATGAAGGTTTAACAATTAAAGAGAAAAAGGAAACCTATACGATTGGGGTTGAGTTAGGGAATTTAGTCCATAGGGAGCAAAAAAGGTGGCGTGTTGAAAAGGAAGAAGATATTTTACCTGTTACTATGGATATTTTAAAAGAAGTTAAGGAATACTTCATTCCATATATTGATAAGTATGTAGATGTGGAAAATGTATTTGATTTATGTGTAAGAGATGATGATGAGGCTGGATTAATAGGGACAATATTTGATGGGGCTCGAGCACAAAATGCTATTGGATTAGCCTTGTTATTAAATAAAGAAGAGATGTTAGAACAAATCATTGAGAAAAAGAAAGAGTATTTAAAGACGAGGGATAAATTTGAATTGGAGTTATTTGAAAACTTTCTTTCTAATATGAATCTAGGATAA	MNKKELKLKLLQGLGEALKEKGYKTRTTQQDLVKKFDKGKISIHLAFINHPEDFHVTVDVGIRFDELENMKNQWDEGLTIKEKKETYTIGVELGNLVHREQKRWRVEKEEDILPVTMDILKEVKEYFIPYIDKYVDVENVFDLCVRDDDEAGLIGTIFDGARAQNAIGLALLLNKEEMLEQIIEKKKEYLKTRDKFELELFENFLSNMNLG				NA	NA	NA	NA	NA
AK009_04236	1329	wapA_2	COG3209	tRNA nuclease WapA	ATGTATTTATCTTTAAACTTCAATACGAAGATTAAACATGAAGGTGCGGGCGGAAAAGTAACAGAAACAAACTTTGTATATGACCCGATTAACCAATTATTAAATGAAGCACTACCAAACGGAACAACTAAATCATACACATATGATGGATTTGGAAACCGTACAAGTGTGAAAGTTGTAGAGAATGGAAAAGAAACAAAATCTATAGCGGCAACATTCAATGAAGGAAATCAGCTTGTAAAATTCGGAAACGAATCGTTAACGTATGATGCGAATGGCAATCGTACATCTGATGGAAAGTACAAGTATACATGGAATGAAGATGACCAACTTGTAGCGATTACAAAACAAGGTGAAAGCAATGCATTCGCAACTTATAAGTATGACGAGGATAATCGTCGTATTGAAAAGAGTGTAAATGGTCAAGTAACACGTTATTTCTATGATGGAGACAGCATTAACCCATTATATGAGACAGATGGTAGTGGAAATGTTCTTCGTCAATATGTATACTCAACAAGTGGCGCGCGTCTAGCGATGAAATCAAAAGGACAAACGTTATACTACCACTACAACCCTCGTGGTGATGTCATTGCGATGACAGATCAAAATAGAGAAGTTGTAGCAACGTATGAATATGATTCGTGGGGTAACGTATTAAAGAGTGATACAAAAGGTATCGCGACAGAGAATCCATTTGGATATGCGGGATACATGTATGATAAAGAAATTGGCATGTATTATTTAATTGCCCGTTACTATAATCCAGATCATGCGGTGTTCTTATCGGTGGATCCTGATCCAGGTGATGAAGATGATCCGGTTACAATGAATGGGTATACGTATGTAGATAATAATCCAGTAATGTTGATAGATCCAGATGGTAATATACCTGTTGCTCCACTTGTAATAGCGGGTGCAAGGATGGCTGCCCCTCATATAGCACGTTATGCAGCAAAACAAGCAGCAAAACAAGCAGCAAGAAAAGCGAAAAAAAGAGCTACATTAGCAGCTAATAAAAGAGCAGGAGCAAGGGCTGAGGAACTTGCAAAATCGGCATTAAAGAAAAAGGGATATGATGTATTAGGAAGTCAAGTTAGTGTTCGTACTTCTAAAGGTATTAGAAGGGTTGATCATTTAGTTAGAACACCTCGTGGCAAATTACTGGCGGTAGAAGTTAAAGCTGGTAATGCTAGAAGAACTGCGATGCAGTTAAAAAAGGATAAGCTAATGAGGAAACAGGGAGGAAAGATTATAGGGAAGAATGCCCCTCGTAGATTGAAAGACCAAGTTCGTAAAATACGAACCGTTGTTGTCACCCCTAAGTAA	MYLSLNFNTKIKHEGAGGKVTETNFVYDPINQLLNEALPNGTTKSYTYDGFGNRTSVKVVENGKETKSIAATFNEGNQLVKFGNESLTYDANGNRTSDGKYKYTWNEDDQLVAITKQGESNAFATYKYDEDNRRIEKSVNGQVTRYFYDGDSINPLYETDGSGNVLRQYVYSTSGARLAMKSKGQTLYYHYNPRGDVIAMTDQNREVVATYEYDSWGNVLKSDTKGIATENPFGYAGYMYDKEIGMYYLIARYYNPDHAVFLSVDPDPGDEDDPVTMNGYTYVDNNPVMLIDPDGNIPVAPLVIAGARMAAPHIARYAAKQAAKQAARKAKKRATLAANKRAGARAEELAKSALKKKGYDVLGSQVSVRTSKGIRRVDHLVRTPRGKLLAVEVKAGNARRTAMQLKKDKLMRKQGGKIIGKNAPRRLKDQVRKIRTVVVTPK				NA	NA	NA	NA	NA
AK009_04237	588			hypothetical protein	ATGATTGATAACAGAATTTCGAAAGATTATGACCATGAAATAGATGATTCTTTAAAAGAAATTACAGATACAACCATCTTACTTAATTTTCAAAAAGCGATTGTAAGTTTATATCCTCATCTAATACCAATTCATGCTTTTGCCTATGACGCATGGGATGATATTGTAATGCCATTGTTTTATGAAATGGTATATAAAACCTTTGCTTTTAAATACGGGATAGATATTAACTTTAAAGAAACTCATACCTATATGTTTTCGCTTAATAGTTATAAAGGGATACATCACATCGAGTGTGTTCCAAAGTGCACGACATTTAAGATTTATATTAACGAAGAATGGATTGAAATGGATAATAAAAGTTTGAAAGAAAATGTATTTGTATTTAAGTCATTTGGGGATGGATTGCATTTTCTAACTGGTGGAATTGAAATTGCAGATGCTTATCGTGTAGGATTTGACCTTGTTGAGGTTGATATTGTTTCTACCATAACAGGTCTTCCATCTAAAACAAGTATTTTTATTGATAAAGAGCATGTAGACTTTGTGTTTGTTGCAGAAACATATGATACAAATATCCAAAATTAA	MIDNRISKDYDHEIDDSLKEITDTTILLNFQKAIVSLYPHLIPIHAFAYDAWDDIVMPLFYEMVYKTFAFKYGIDINFKETHTYMFSLNSYKGIHHIECVPKCTTFKIYINEEWIEMDNKSLKENVFVFKSFGDGLHFLTGGIEIADAYRVGFDLVEVDIVSTITGLPSKTSIFIDKEHVDFVFVAETYDTNIQN				NA	NA	NA	NA	NA
AK009_04238	1533	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	GTGAATCTCGTTCAATCTTTGGCTGAAACGGCAAAAAAGAAGGGGGAAAAACCGGCTTATATATTTATGGATCAGTCGGTCTCATATGACCAATTAAACAAAATGGTCACAAGGTTTTCTAGCAATTTAGCAGAAATGGGCATTGGAAAAGGGGACAATGTCGCATTAGTTGTTGGGAACTCACCACATTTTTTGGTCGGTTTATACGGAACAATGAAAGCCGGAGCAACTGTTATTCCAGTTAATCCAATTTATACAGCAGACGAAATGCATTACATTTTACAAAATGGAGATGTAAAAACAATCATCGTACTCGACGTCTTTCTACCTGTTATACAATCTCTTACAACAAGACTTCCTTCATTAGAAAACATCATCATATGCGAAACCTCATCAGATTTTAACCATACAGAAACCGAAAAAATGAAAACGTTTACTAGTTTTGTGGGGGCTGGAGATTTACAATACGAAGGCCCTGAACTAGATGAAGAGGATGTAGCGGTTATCCTATACACTTCAGGTACAACTGGAAAACCGAAAGGCGCTATGCTCACACATAAAAATTTATATAGTAATGCGAATGATGTTGCGTCTTATTTACAATTTACTGCTGACGATCGCGTCGTTGCGGCACTGCCAATGTTCCATGTATTCTGTTTAACAGTTGCGGTAAATGCACCGATTGTGAACGGAGCAACGATTTTAATGTTACCGAAATTTAGTCCGAAAGAAGTATTCCGTATTTGTCGTACGTACGAACCAACGATCTTTGCTGGCGTACCGACGATGTACAATTATTTATATTTATTTGAAGAAGCAAGCGCAGAAGATGTGAAGACGCTTCGCCTTTGTATTTCCGGTGGTGCATCGATGCCTGTTGCTCTTCTGCAAAACTTTGAAAAACGTTTTAACGTTATTGTTTCAGAAGGATACGGTTTATCAGAAGCATCACCAGTTACTTGTTTCAACCCGCTAGATCGTCCTCGTAAACCAGGATCAATTGGCACAAATATTTGGCATGTAGAAAATAAAATTGTAAATGAACTTGGGGAAGAAGTACCTGTCGGCGCAGTCGGCGAATTAATCGTTCGCGGACCTAACGTTATGAAAGGATACTATAATGCACCAGAAGATACAGCTGCGACATTGAAAGACGGCTGGCTATATACAGGTGACTTAGCGAAAATGGATGAAGAAGGTTACTTCTATATCGTTGATCGTAAAAAAGATATCGTCCTAGTTGGCGGTTATAACGTATATCCTCGTGAAGTAGAAGAAGTATTATATACGCACCAATCAGTAGCTGAAGTTGTTGTAATCGGTGTTCCTGATGAAAACTTAGGAGAAGCTGTGCGAGCGTACGTCGTTTTGAAGCAAGCAAACGTAACAGAAGAAGAACTAATGCATTACTGTACGTTACATTTAGCGAAATATAAAGTGCCGAAAAGCATTGAGTTTTTAATAGAATTACCGAAGAATACGACGGGTAAATTGTTAAGAAGAGCATTGAGAGAGAAAGCGATGCAAGTGTAA	MNLVQSLAETAKKKGEKPAYIFMDQSVSYDQLNKMVTRFSSNLAEMGIGKGDNVALVVGNSPHFLVGLYGTMKAGATVIPVNPIYTADEMHYILQNGDVKTIIVLDVFLPVIQSLTTRLPSLENIIICETSSDFNHTETEKMKTFTSFVGAGDLQYEGPELDEEDVAVILYTSGTTGKPKGAMLTHKNLYSNANDVASYLQFTADDRVVAALPMFHVFCLTVAVNAPIVNGATILMLPKFSPKEVFRICRTYEPTIFAGVPTMYNYLYLFEEASAEDVKTLRLCISGGASMPVALLQNFEKRFNVIVSEGYGLSEASPVTCFNPLDRPRKPGSIGTNIWHVENKIVNELGEEVPVGAVGELIVRGPNVMKGYYNAPEDTAATLKDGWLYTGDLAKMDEEGYFYIVDRKKDIVLVGGYNVYPREVEEVLYTHQSVAEVVVIGVPDENLGEAVRAYVVLKQANVTEEELMHYCTLHLAKYKVPKSIEFLIELPKNTTGKLLRRALREKAMQV	PGPT0008380_14082	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_04239	429			hypothetical protein	ATGAAAAGGGTAATGTACGTTGTATTATTACTCAGCTTTGTCATCGGAATGACAGCGTGTAACAGTGGATCGCCCTCAAGTCGTACAATTTTGTCTATCGGAAAACCAGCGGAGGATAATGTTATATATTTTACGCATACAGATAACAAACGAAAGATACATGATATACAAGACATGTTTCAAAATAAGAAGTGGAAAAGAAATGAAACATTCAGCACTGTTAATAAAACGCCAGATGTCGTCTTATCAATAGATGAAAACAACAAAGGGTTACCGACGTTATATGTTACCGTGTATTTTCATGAAAATGGAGCGGACGTTTTGAATTTGTATGGGGAGTATACGAGCTTAAATAAAGAGGAACTTGAAAATCTTAGAAAAAAGATGAGTGCATATTATCCTAAAATGATTTTTGGTCTAGTGTTATAA	MKRVMYVVLLLSFVIGMTACNSGSPSSRTILSIGKPAEDNVIYFTHTDNKRKIHDIQDMFQNKKWKRNETFSTVNKTPDVVLSIDENNKGLPTLYVTVYFHENGADVLNLYGEYTSLNKEELENLRKKMSAYYPKMIFGLVL				NA	NA	NA	NA	NA
AK009_04240	990	lplJ	COG0095	Lipoate-protein ligase LplJ	ATGTTATTTATTGATAATAAAGGAATTACAGATCCTAGAATAAACTTAGCGATTGAAGAATATTGTGTGAAAAATTTAGATATTAACGAAACATATTTACTGTTCTACATTAACGAACCTTCGATTATCATTGGTAAAAACCAAAACACAGTAGAAGAAATTAATGCAGATTACGTAAAAGAAAAAGGTATTCATGTCGTTCGTCGTCTATCAGGCGGAGGCGCAGTATATCATGATTTAGGAAACTTAAACTTCAGCTTTATCACGAAAGATGATGGAGATAGTTTCAGCAACTTCAAAAAATTCACAGAGCCTGTAACGAAAGCGCTTGGTAAATTAGGTGTAAATGCAGAACTAAGTGGTCGTAACGACATTTTAGCTGAAGGAAGAAAAATTTCAGGTAACGCGCAGTTCTCAACGAAAGGTCGTATGTTCAGTCACGGTACGTTACTATTTGACTCTGAAATCGATCACGTCGTATCAGCACTGAAAGTAAAAATGGATAAGATCCAATCAAAAGGAATTAAATCAATCCGTAGCCGCGTTGCGAACATTACAGAGTTCCTAAACGAAGAAATGACGACAGAAGAGTTTAGACAACTTCTTCTAGAAACAATTTTCGAAGGAGAAACAGAAATCCCAACGTATGAATTAACAGAAGAGGATTGGAAAGAAATCCATAAACTTTCTGAAGAGCGCTACCGCAATTGGGACTGGAACTACGGAAAATCACCGAAGTTCAACTTACAACATTCACACCGCTTCCCAGTTGGACAAGTTGACGTTCGTCTGGAAGTGAAAAAAGGAACAGTAACAGAATGCAAAATTTACGGCGACTTCTTCGGTTCACTAGATGTTCATGATATCGAAGAGCGTCTAACAGGCGTTCAGTTCGATAAAGATACATTCACTGCAGCTTTAGAAGGCGTAGATATCGCACGCTACTTCGGTAACATTACAACTGAAGATTTCTTACATTTATTCTTCTAA	MLFIDNKGITDPRINLAIEEYCVKNLDINETYLLFYINEPSIIIGKNQNTVEEINADYVKEKGIHVVRRLSGGGAVYHDLGNLNFSFITKDDGDSFSNFKKFTEPVTKALGKLGVNAELSGRNDILAEGRKISGNAQFSTKGRMFSHGTLLFDSEIDHVVSALKVKMDKIQSKGIKSIRSRVANITEFLNEEMTTEEFRQLLLETIFEGETEIPTYELTEEDWKEIHKLSEERYRNWDWNYGKSPKFNLQHSHRFPVGQVDVRLEVKKGTVTECKIYGDFFGSLDVHDIEERLTGVQFDKDTFTAALEGVDIARYFGNITTEDFLHLFF	PGPT0003945_1631	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
AK009_04241	735		COG1234	putative protein	ATGAAAATGACTGTTGTCGGCTTTTGGGGCGGATTTCCAGAAGCGGGAGAAGCAACGTCGGGGTATTTGTTTGAACACGATGGTTTTCGTTTACTTGTAGACTGTGGTAGTGGTGTACTAGCACAGCTTCAAAAATATATAACACCATCTGATATAGATGCAGTTGTACTGTCACACTATCATCACGATCATGTTGCGGACATTGGGGTATTGCAATATGCGAGATTAATTACGAGTGCAACAACAAGGCAACTACCGGAATTACCAATATACGGTCATACGTTTGACGAGAATGGATTCCATTCTTTAACACATGAACCACATACGAAAGGAATCGCGTACAATCCAGAAGAAACACTTCAAGTTGGACCGTTCTCGATTTCGTTCTTAAAAACTGTTCATCCTGTTACATGCTTTGCGATGCGTATTACAGCTGGAGATGGTGCTGTAGTATACAGCGCTGATTCAAGTTATATTCCTGAATTCATTCCATTCACGAAAGATGCTGATCTTTTCATTTGTGAGTGTAATATGTATGCACATCAAGAGGCTGCAAAAGCAGGGCATATGAATAGTACAGAAGTAGCAAGTATTGCAAAAGATGCGAATGTAAAAGAACTTTTATTAACGCACTTACCGCATACAGGAAACCCATCTAATTTAGTAACAGAAGCAAAACAAATTTTCAGTGGCCATATTACGCTAGCGCATAGTGGCTACGTATGGAACTCATGA	MKMTVVGFWGGFPEAGEATSGYLFEHDGFRLLVDCGSGVLAQLQKYITPSDIDAVVLSHYHHDHVADIGVLQYARLITSATTRQLPELPIYGHTFDENGFHSLTHEPHTKGIAYNPEETLQVGPFSISFLKTVHPVTCFAMRITAGDGAVVYSADSSYIPEFIPFTKDADLFICECNMYAHQEAAKAGHMNSTEVASIAKDANVKELLLTHLPHTGNPSNLVTEAKQIFSGHITLAHSGYVWNS				NA	NA	NA	NA	NA
AK009_04242	129			hypothetical protein	ATGATCGATCAACCAATGGAGTTTTTCAGAAATTTACCGACGAAAACTTGTGCGCACTGTGGGAAAGAAATTGATGAGCAACACGAAGCATACCATAACAAATGTGATGACTGCGTTCACGAAGAATAG	MIDQPMEFFRNLPTKTCAHCGKEIDEQHEAYHNKCDDCVHEE				NA	NA	NA	NA	NA
AK009_04243	1017	cytR	COG1609	HTH-type transcriptional repressor CytR	GTGTCGACTATAGAGGACGTGGCGAAATTAGCGGGGTTATCAAGGACAACGGTTTCTAGGGTGATTAATAATCATCCATATGTTTCAGATGAGAAGAAAAAAAGGGTTCAATTAGCAATGAAGCATTTAGGCTTTGTTCCTAATTCTGCGGCGAGAAGGCTTCGTAAACAAAAAACGGAAACAATTGCGGTGCTAGTTCCAAGGATTACAAATCCTTTTTTCAGTAGATTTATTGAAGCAATCGAGATTGCAGCTTCTGAACATAAATATAAACTGATTATTTGTCAAACAAGATATTTACCTGAAAAAGAGATGGAGTATTTACAATTATTATCTACGAAACAAGTAGATGGGATTATTCTATGTTCACTAGAAAATCCGTGGGAAGATGTAGAGCCATACTTACAGCACGGTCCAATCGTGTTATGTAATGAATATATTGAGGAAGCAAATATTCCAACAGTGAAGTTTGATCATGCGCAAGGAGCATACATAGCTGCGAAGCATGTGTTAGATCAAGGATATCGCAATCTTATTTTTTGCCGTGGTAACGAAACCAAATTAGTTAGCCAGCAGCGAAAAATGGGCTTTTTACGTGCAATAACTGAGAAGAGCCGCCAAGTAGAAGCGATTGATTTTCTTGAAAACGCTTTCTCTTGGGAGGATGGAAAACGAATATTCCATGAAGTATTAAAGGACAAAAAAAATCCTACCGCGATTTTGGCAGGAGGCGATGAGGTAGCAGCTGGAATTATCTCAGAGGCGAAGCACCATAACTGGAGCATTCCAGATGATCTCGCTGTTATCGGTTTTGATAATCAAATATTATCACAGATTACAGAGCCAGGTATTACGACAATTGAACAGCCAATCGATGAGATGGCCCGAAAAGTTGTCGACCTGATGATGGATAAAATCCATACGAAAAATTATCGACAAAAAGAATTGTATGAGTTTGAACTGGAGCTCTTGGTGAAAGGTTCAACGATGAAGAAGGATACGATGTTATTAGCCTAG	MSTIEDVAKLAGLSRTTVSRVINNHPYVSDEKKKRVQLAMKHLGFVPNSAARRLRKQKTETIAVLVPRITNPFFSRFIEAIEIAASEHKYKLIICQTRYLPEKEMEYLQLLSTKQVDGIILCSLENPWEDVEPYLQHGPIVLCNEYIEEANIPTVKFDHAQGAYIAAKHVLDQGYRNLIFCRGNETKLVSQQRKMGFLRAITEKSRQVEAIDFLENAFSWEDGKRIFHEVLKDKKNPTAILAGGDEVAAGIISEAKHHNWSIPDDLAVIGFDNQILSQITEPGITTIEQPIDEMARKVVDLMMDKIHTKNYRQKELYEFELELLVKGSTMKKDTMLLA	PGPT0021075_1029	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK009_04244	510			hypothetical protein	ATGATACGGTTAGTAAAAGAGACTGATGCAGAAGCAATTATGAATATTAGAAAAGAAATTATATTATCGGAAACTACTACAAAATTTTTCATAGTATCCCCAAAGAAGTTACCGAATGATAGTAATGCAGAAAGAGAAAAGATACGGAAAAGCAATGAGAAAGGTAATCTCTATATCGTGTATGAAGTAGATAGGAAGGTAGTTGGCTTTTTACTTTTCAACCGATATGAACTAGAACGGTTACAACACGCAGGCACAATGGGAATGGGGATTAAAGAGGCGTATTGTAATCAAGGCATCGGCACGAAATTAATTGAATTTCTTATTAGTTGGGCTAAAGGGCAGAAAGGTTTAGAGAAAATTTGCTTAGGTGTAGTTTCTGTTAATGATCGGGCAATTAAAGTGTACAAACGTATGGGTTTTGTAGAAGAAGGGAGACAACGAAAGCAAATAAAGTATGAAGATGGATCATATGGAGACGATGTATTGATGGGCTTTTATATTGAATAA	MIRLVKETDAEAIMNIRKEIILSETTTKFFIVSPKKLPNDSNAEREKIRKSNEKGNLYIVYEVDRKVVGFLLFNRYELERLQHAGTMGMGIKEAYCNQGIGTKLIEFLISWAKGQKGLEKICLGVVSVNDRAIKVYKRMGFVEEGRQRKQIKYEDGSYGDDVLMGFYIE				NA	NA	NA	NA	NA
AK009_04245	354			hypothetical protein	ATGAACCCTATCTTAACAGATGCAAAACAACTATTACATAAAGAAGAAAAAATTTTATCTACTTTAAAATGTTCACTTACTGGCTATATGATTACGCATAAAGTCCCGTATCCTGGCATGTTACTTGCTACTAATCAAAGACTTCTCTTTTTTAGCCAATATAAAAACACATTCATTGCCGAATTTGATTATGAAAAAATTCTATCCATAGAAACGAAGAGAAGAATCTTTGACAAAAAAATAATATTTTACTATGAAGATGAATATATAACGCTTGGATACATTACAAGTTCGAATGTTGAAGCGTTCATAGACTTACTACAAAGAAACAGCAAGACTAGCACAGGCTTATAA	MNPILTDAKQLLHKEEKILSTLKCSLTGYMITHKVPYPGMLLATNQRLLFFSQYKNTFIAEFDYEKILSIETKRRIFDKKIIFYYEDEYITLGYITSSNVEAFIDLLQRNSKTSTGL				NA	NA	NA	NA	NA
AK009_04246	306			hypothetical protein	ATGACTGAAAGTGAGATGAAATTCCGTGATACGACCATTCGTAACTTTTTTGATAAAGAGAATCGTTTAAAATCGATTCCAGGTCAAAAGAAGAAAAAATTAGTATTGTTAGAGCATTTAATTAGCAAGTTAAATGCTGAAAATCAATATACAGAAAAAGAAATTAATACATTTATAAAACAATATCATGATGATTTTTGTACAATTAGACGTGAATTTATTGTACATAGGTTTATGGATAGAGAGGATAGTATGTACCGTATAAACGGGAGAGAAGTTTGGACGAAGTGGGAGGAGTTAAAATAA	MTESEMKFRDTTIRNFFDKENRLKSIPGQKKKKLVLLEHLISKLNAENQYTEKEINTFIKQYHDDFCTIRREFIVHRFMDREDSMYRINGREVWTKWEELK				NA	NA	NA	NA	NA
AK009_04247	216			hypothetical protein	ATGATGAAAGGCAATCCTACTTACTATTTTATCTTATATCCATTAATCTTCTTTCTCGTTTTCTCTCTTTCACCTATCTTGTTTCAGAAAAAAGAATATACGAGTATGAAAGATATACTAGGGATACTTTTATTTTACTATGTGCTAATTAGTGGATATTACTTTATGGATGTTGTAAGTGAAAGAATGAAGAAGGATAGTAAAGATAAACGATAA	MMKGNPTYYFILYPLIFFLVFSLSPILFQKKEYTSMKDILGILLFYYVLISGYYFMDVVSERMKKDSKDKR				NA	NA	NA	NA	NA
AK009_04248	2478	smc_7		Chromosome partition protein Smc	ATGAAATGGAATCAGTTACTTCGTAAAGAGTTTACTGAAATTATAAAAAGTAAAAAAATATTAATTCCAATTATCGCGGTTTTATTCGTGCCAATTTTATATGCAGGTATGTTTTTATGGGCCTTTTGGGATCCGTATAAACAGTTAGATGATTTACCAGTTGCGGTAGTCAATTTAGATAAAGGTGCAGTATTTGATGGGAAACCAATTGAGGTCGGAAAAGGGCTCGTTGATAACTTAAAAGATAATACAAGTTTCAAATGGGAATTTGTAAGTGAAAAAGAAGCGGAAAAAGGAATGGAAGGTAGAAAGTATTACATGTTAGTACGCATTCCAGATGACTTCTCAAGTAACGCTACAACGTTATTAAAAGATGATCCAAAACCATTAAATTTAGAATACATTCCAAACGAAAGCTTAAACTTCTTATCTTCACAAATTGGCGGAACAGCCATTGAAAAAATTAAAGGTGAAGTATCAAGTACGTTAACGAAAACATATGCAGAGAAAATGTTTGATTCTATTCAAGACGTCTCAAAAGGATTAGCAGATGGGGCGGAAGGAGCAAATAAACTACACGACGGATCAAGTGAGCTGCATGATGGTTCCAGTAAAGTGACGGATGGCCTTCATACACTTCAAGGGAAGTCTGGAGAGATGAAGGATGGAGCTCAGAAATTAGCAGATGGATCTAATAAATTAGTAGATGGATCAGGCAAAGTAACAAATGGTTTAAATACGTTAAATAGCAAAACAGGTGAGATGCAGACGGGTATAGGGAAATTGCAAGATGGATCTCAGAAAGTAACAGCGGGTTTGAATACGTTAGTAAATAAATCAGGTGAATTAAAAACAGGAACGAATGAATTAGCAGCTGGTATGGAACAGCTTGTTGGAGGACAAAGTCAATTAGAGGGGGTTTCTCAAAAAATTGAAAAGGGTTTGCAAGAATTAGATAGTAAAGTGAAAAGTTCCGCTGCAGGTTTAGAAGAAATGCAGGCGAAAGTTCCTACAATATTAAATAAAGTAAATGAGAAAATAGACGGAGCTGAAAAAAACGTAAATCAGTTAAATGGATTTACTCAATCAACAGCAGGAGATGCCAAAAATGCAGCGCAAGATGTAGCTAATTTACAAAAGCAAATTGAGAGTTTACCAAAAGAATATCAAGAGCAGTTACAACCGTATATAACAAATGCGGCAAAAAGTACAGCGACAGTTCAACAAAAAGTTGCTGTAGTATCGGGTGGAACAAAGACACTAAACGAAGAAGTAAATCAACTAAAAGGTGAAATAAATCAAAAGGCAAGTGAAATGCAAAACAAACTACCGAATTCAGGTGGGATTAATACTTTAACGGATGGTATTACGAAATTAATGAATGCGCAAAACCAATTTGTAAGTAAGTTTCACGGATTTGGTGAAGGATTAAATAATGCCAAAGTAGGTGTAAATAAATTAAATAAGGGGTCAGATCAATTAATTGATGGAGTAACTCAATTAGCGGACGGCTCAAGCAAAGTAACAGGTGGTTTAGGTACATTATCCGCAGGAGCAAATCAAATGTCAGGAGGAATAACACAATTAGTAGACGGTTCAAGCCAAGTAACAACTGGCTTAGGTACTCTAAATGGTGGTCTAAACCAAATGTCAACTGGCTCAACCCAGCTAATCGACGGTGTAAATAAACTAGCAGACGGCTCAGGAAAAGTAACTGATGGACTAGTGAAAGTAAACGATGGTTCAGGTGAACTTGCTGAGAAACTTGGGGAAGGGGCAGAGAAAACTGGGGAAGTAAAAGGGACAGATAAAACGTATGATATGTTTGCAAGTCCTGTAAAGGTGAAGACGGAGAAAATGGCGGAAGTTCCTAACTACGGAACTGGATTTACACCGTATTTCTTATCACTCGGTTTATTCGTTGGGGCATTACTATTATCAATCGTATATCCATTACGTGATACAGTTGGCGTTCCAAAATCAGGATTTAGTTGGTTTATTAGTAAGTTCGGCGTGTTACTATCAGTCGGTATTATTCAAGCGATAGTAGCAGATGTTATATTACTGTTCGGATTAGGTGTAGAAGTACAAAGTATTCCGTACTTCATACTCTTTAGCATCGTTACAAGTTTAGCGTTTATTGCATTAATTCAATGTTTAGTAACAGCATTCGGTGATGCAGGGCGTTTCATCGCCATCATCACATTAATTATTCAGCTTACAACAAGTGCTGGAACATTCCCGTTAGAGTTAATTCCGAAGTTTTTACAACCATTTAATGCTTGGTTACCGATGACATACTCTGTATCAGGATTGAAAGCAGTCGTATCAAGCGGAGACTTTAACTTCATGTGGCAAAACATAGGAATGCTCATGATCTTTATCGTTGTATTATCACTTGGAACAATCGCCTCCTTAACTTTGATGCACAAACGACAATTTAAAAATGTTGCTGAAAATCAATCGGTTGAAGCGTAA	MKWNQLLRKEFTEIIKSKKILIPIIAVLFVPILYAGMFLWAFWDPYKQLDDLPVAVVNLDKGAVFDGKPIEVGKGLVDNLKDNTSFKWEFVSEKEAEKGMEGRKYYMLVRIPDDFSSNATTLLKDDPKPLNLEYIPNESLNFLSSQIGGTAIEKIKGEVSSTLTKTYAEKMFDSIQDVSKGLADGAEGANKLHDGSSELHDGSSKVTDGLHTLQGKSGEMKDGAQKLADGSNKLVDGSGKVTNGLNTLNSKTGEMQTGIGKLQDGSQKVTAGLNTLVNKSGELKTGTNELAAGMEQLVGGQSQLEGVSQKIEKGLQELDSKVKSSAAGLEEMQAKVPTILNKVNEKIDGAEKNVNQLNGFTQSTAGDAKNAAQDVANLQKQIESLPKEYQEQLQPYITNAAKSTATVQQKVAVVSGGTKTLNEEVNQLKGEINQKASEMQNKLPNSGGINTLTDGITKLMNAQNQFVSKFHGFGEGLNNAKVGVNKLNKGSDQLIDGVTQLADGSSKVTGGLGTLSAGANQMSGGITQLVDGSSQVTTGLGTLNGGLNQMSTGSTQLIDGVNKLADGSGKVTDGLVKVNDGSGELAEKLGEGAEKTGEVKGTDKTYDMFASPVKVKTEKMAEVPNYGTGFTPYFLSLGLFVGALLLSIVYPLRDTVGVPKSGFSWFISKFGVLLSVGIIQAIVADVILLFGLGVEVQSIPYFILFSIVTSLAFIALIQCLVTAFGDAGRFIAIITLIIQLTTSAGTFPLELIPKFLQPFNAWLPMTYSVSGLKAVVSSGDFNFMWQNIGMLMIFIVVLSLGTIASLTLMHKRQFKNVAENQSVEA				NA	NA	NA	NA	NA
AK009_04249	573			hypothetical protein	GTGGCGATAGATCGAAAACGTTCTATTATTGAAGCTGCAACAAAGTCTTTTTCAGCGTTCGGTTATAAAGCAACAACGATGGATCAAGTAGCGAAGTTAGCGAATGTAGGAAAAGGAACGATTTATACTTTTTTCAAAAATAAAGAAGAGCTATTTGGTGAAATTATTTCTAATTTAATTACAGAAATGAAGCAAGTTGCAGAAAGTGCAATTCGTTCAGATGTTTCATTTTTTGAAAATGTACATAGAGCATTATATAGCATCTTGGAATTTAGAAAAGAACATCAGCTCATGATTAAATTAATTCAAGAAGAGCGCGATATGGGAACGAAAGAAGTACAAGAAGTCATGCAACAAGTTGATGTGGAAATTGTTTCTGTTATTCAATCGTATTTAAAGATTGCGATTGAAAAAGGTGAAATTAGCAAATGTGATCCAGAAATTACAGCATTTATTATGCTTCGTCTATATGTATCGCTTATTTTTGATTGGGAAAAAAATCATGAACCGCTAGAAAAAGAAAAAATTGCAGAGTTATTTGAACTTTATTTACTAAAAGGATTGTCAAACTAA	MAIDRKRSIIEAATKSFSAFGYKATTMDQVAKLANVGKGTIYTFFKNKEELFGEIISNLITEMKQVAESAIRSDVSFFENVHRALYSILEFRKEHQLMIKLIQEERDMGTKEVQEVMQQVDVEIVSVIQSYLKIAIEKGEISKCDPEITAFIMLRLYVSLIFDWEKNHEPLEKEKIAELFELYLLKGLSN				NA	NA	NA	NA	NA
AK009_04250	846			hypothetical protein	ATGATGCGTGCGCTTCGTTTAAATATAAAGCAAGCTTTTTGTAATCGTGTTTCTTTAATTATTATGTTTAGTGGACTAGCTCTTATTTTTATTTACCATTATTATTATGTAATTCGTTACATTGGGGATGGAACGGATGCGTTTGTAACAACAGCTTTTAAATGGATTGGATTTCGCGACAATGAAATGGATGTTTATTTATTATTAATGCCCGTTATTGCTAGTTTCCCCTTTAGTACAAGTTACAATTCGGATAAATCAGATGGTTTTAAACCGTTTGTAAGTAAAGGGATTTCTTTGTTCCCTTATTCAGTAACGAAATATATCGTTACATTCTTTTGTGGCGGACTTCTTTATACATTTCCATTCATCTTATCGTTATTATTTTGCAAATTAACCATTCCAGACGGAGAACCGACGGCTGGTTCAGGCATTATAAATGATAATGGGATGTTTGCAAACTTATATTACGAATCTCCCCTCACTTACATTACTGTATATATCGGAATTAATTTTTTATTTGCAGGTTTAATGGCCCTTTTAGGACTTGCAGCATCTGCGTGGTCACAAAAGGACTATATGGCGATTCTCTTCCCATTTGCAGTTGCCTCCATTCCATACGTCCTGCTAAATACGATATTCCCTACAATAGGCGGAGCGCCTTTTCATTTATATGACCCAAAACAACCGTTGCATGGCATGTCGCCGTATATTTTAACGATGCAATGCACTTTTTTCCTTCTCGTTAGTTTATTCATGTACATACAAGGAGTAAAGCGTGATAGAAAAAAATATAGAAGAAGGTTGCAAAGAAGAGAGCGGTGTAGAAAGGCTTTTCAAGTATAA	MMRALRLNIKQAFCNRVSLIIMFSGLALIFIYHYYYVIRYIGDGTDAFVTTAFKWIGFRDNEMDVYLLLMPVIASFPFSTSYNSDKSDGFKPFVSKGISLFPYSVTKYIVTFFCGGLLYTFPFILSLLFCKLTIPDGEPTAGSGIINDNGMFANLYYESPLTYITVYIGINFLFAGLMALLGLAASAWSQKDYMAILFPFAVASIPYVLLNTIFPTIGGAPFHLYDPKQPLHGMSPYILTMQCTFFLLVSLFMYIQGVKRDRKKYRRRLQRRERCRKAFQV				NA	NA	NA	NA	NA
AK009_04251	300			hypothetical protein	ATGCAAGCACGAATAAATGGAAAATTAATGAATCAGTTTGCAATTTTTTTTAGTACGATCGTCATGCTTCAGTTTGTAGCTGATATAACAGGACTTACAAGTAATTTAGACATTACGTATAACTTAATACATACAGCAACTTCTTATATAACATTTAGTTTGGCGGTTATTTTCACTTTAATAGGTGCAAGAAGAGAATTAAGTAAATATGCAATTGCTTCATTATGTTTAGTAGTGGCGATTAAAGCAATTTATTTTGTAGCGGTTGTTATTTTATGGGGATTGGCTGGTACACCGTAA	MQARINGKLMNQFAIFFSTIVMLQFVADITGLTSNLDITYNLIHTATSYITFSLAVIFTLIGARRELSKYAIASLCLVVAIKAIYFVAVVILWGLAGTP				NA	NA	NA	NA	NA
AK009_04252	2367			hypothetical protein	ATGGCTGTGAAGAAATTGTTAAGTGTCTTTTTATCATTCTTGCTATTGCTTTCATTTACTGGAACTTTAGCGCAAGCAGAAGAAACTGCTTCTATGTCAGTAGAAAAAGCAATTCAAGTATTTAAGCAGCAAGGGAAAACGAAGGGGATAGTGGAAGGGTACATTGTTGGATATACGCAAAGTTCTTCTAAATATACGAAGGATCCAGCTAAGTTTGATGATACAAACGTAGCAATTGCAGATTCGCCAAACGAAACGAATCCAGACAAAATCATGCCTGTTCAGTTGCCAAAAGGTGATGTGAGAACGGCAGTGAATGTAAAAGATCATCCTGAAAATATCGGGAAGAAAGTTAGTTTGACTGGGACTCTTGAATTATATTTTAGTAACCCAGGTTTAAAATCAGTAACAGCTTATAAGTTTCAAGGTGAAGGCCAAAACCGTGTTAGCGATGTAGTAGCTTCACCGAACGGTGGAGAAGTTGCTAAAGGAACAGCGGTAACATTAATGACGAATACAGAAGGGGCAACAATCTACTATACGTTAGATGGCTCTAATCCTACTAATAAAAGCGTTCGTTATAATGGACAAATTGTAGTGAATGAAAATAGTGTAGTGAAAGCAATCGCAGAAAAAGAAGGGCTTACTTCTTCAGCAATTTCGACGTTTTCGTTTATTATCGTAAATAATGAACAGGTTCGTATTCATGACATTCAAGGAAAATCACATATGTCTCCTTACAACGGGAAGAAAGTATACAATGTGGAAGGCGTTGTCACAGCGCTTGATAAAAACGGCTTTTATATAGAAGACAATCAGCTAGATAATGATCCAGCTACTTCAGAAGGTATGTACGTATACAAAAAAGATGCGAATGTAGCAGTAGGAGATCTTATTCAAGTTGATGGAGTAGTAGAAGAATATGTTGGACCAGGATATGCAGAGCGATTTGAAACAGACTTAACGACGACAGAAATTAAGGCGAGTCGCGTTGTTGTAATCGCAAAAGATCAATCTTTACCAGCACCGATTGTACTTGGGGAAAACGGTGTGAAAATCCCGGATCAGATTATTGATAATGATGCATTTGGTTTATTTGATCCAAATGAAGATGCAATCGACTTCTATGAAAGTATAGAAGGTATGCGTGTTACGATGCCAACACCAAAAATTATTGCACCTCAGAAAAACGGAAATTTATATGTAACAGTAAAAAATGGTGGAGATAAAATAGTAACACAATATGGCACACCTCTATTAGATGAAAATCAATTAAACCCAGAGCGTCTTTCTGTAAAAGTGCCTCGCGATTATGTAGCAAAAGTAGGAGATACTTTCACTGGAGATATAACAGGGGTAGTAGGATATGATTACGGTTCTTTCCGTATTTCGCCAATAACAGAATTGCCAGCTGTAGTGGATGGTGGATTTAAGCAAGTAGGGGCAAATATTCAGCCTCGTCTTGATAAGTTAACAGTTGCTACATATAACATTGAAAACTTCTCGGCGAATAAAAAAGAAACAACAGATGAAAAGGTAAAAGCGTTAGCGTATTCTATTAAATACAATTTAAAAATGCCAGATATTATCGGTGTAGAGGAAATGCAAGATAATAACGGATCAATTAATGACGGTACAACAGATGCGTCATTGAGCGCAAAACGTATCATTGATGCAGTTCTAGAAATTCGTGGACCGAAGTATGAGTATGTAGAAATTGCTCCAAACAATAATCTAGACGGAGGAGCACCAGGAGCGAATATTCGCGTCGGTTTCTTCTACAACCCATCACGCGTGAAATTAGCAGCAGTACCGAAGTTACTTGATAAAAATGTGGTTCGCATTGGAGACGAAAGTTCATTATTTGAAAGTACACGTAAACCGTTAGCGGCAGAATTTACGTTCCAAGGACAAAACGTTGTTGTCGTTGCAAATCACTTAAACTCAAAAATAGGGGATGCAACGCCATTTGGAAAAGTGCAACCGCTCGTATTAAAAAGTGAAGACAAACGAATTCAGTTAGCACAAGAAGTAAATCAATTTGTACAAGGAATTCAGAAAAAGAACACAAATGCACCAGTTGTTGTGTTAGGAGATATGAACGATTTTGAGTTTGCTAAACCACTAAAAGCACTAGAAGGAACAAACTTAAAGAATATGTTAAACACAGTGCCGAAAGAGAATCGTTACACGTACATTCACGAAGGAAATGCACAAGTGTTAGATCATATTTTAGTAACAAACAACATCGCACCGCACACAATTGTAGATCCAGTGCACTTAAACTCAAACATAATGAAAGAGCACGGACGTGTAAGCGATCATGACCCAGTACTTGCTCAAATTGATTTGAAGAAAGCTTCTTAA	MAVKKLLSVFLSFLLLLSFTGTLAQAEETASMSVEKAIQVFKQQGKTKGIVEGYIVGYTQSSSKYTKDPAKFDDTNVAIADSPNETNPDKIMPVQLPKGDVRTAVNVKDHPENIGKKVSLTGTLELYFSNPGLKSVTAYKFQGEGQNRVSDVVASPNGGEVAKGTAVTLMTNTEGATIYYTLDGSNPTNKSVRYNGQIVVNENSVVKAIAEKEGLTSSAISTFSFIIVNNEQVRIHDIQGKSHMSPYNGKKVYNVEGVVTALDKNGFYIEDNQLDNDPATSEGMYVYKKDANVAVGDLIQVDGVVEEYVGPGYAERFETDLTTTEIKASRVVVIAKDQSLPAPIVLGENGVKIPDQIIDNDAFGLFDPNEDAIDFYESIEGMRVTMPTPKIIAPQKNGNLYVTVKNGGDKIVTQYGTPLLDENQLNPERLSVKVPRDYVAKVGDTFTGDITGVVGYDYGSFRISPITELPAVVDGGFKQVGANIQPRLDKLTVATYNIENFSANKKETTDEKVKALAYSIKYNLKMPDIIGVEEMQDNNGSINDGTTDASLSAKRIIDAVLEIRGPKYEYVEIAPNNNLDGGAPGANIRVGFFYNPSRVKLAAVPKLLDKNVVRIGDESSLFESTRKPLAAEFTFQGQNVVVVANHLNSKIGDATPFGKVQPLVLKSEDKRIQLAQEVNQFVQGIQKKNTNAPVVVLGDMNDFEFAKPLKALEGTNLKNMLNTVPKENRYTYIHEGNAQVLDHILVTNNIAPHTIVDPVHLNSNIMKEHGRVSDHDPVLAQIDLKKAS	PGPT0013420_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693	NA	NA
AK009_04253	1353			hypothetical protein	ATGGAAGTGCAAACAGAAACATACCGCGCAGCTATGAATGGAACATTAGAACGTCATTTTTCAGATATGATTGCTGTTATACCAACTAGAATTACAATTGAGCAGTTAAAACAGCGGCTAGAGACTATCGCTACTAAAGTTGATGAGTTAAAAATTGTTTATAGTGATGAGACAAGCCTTATTTTTGAGTTACATATGGATGAAGCAATCATACCGTATGAACTGCATATTGATGAGGCGAATGACCCAGAAGAATACAAAATGTACAATAGACAAGATTCTACAATCGTAGATCGTAATTTTGAAGATGCGGCTTTCGGCACTGAAATTTTCACTCGTACGCTATTTGTAGGCGATGTACTGGACTGCTTTTTCCAGCAGTTACAGTTTTTATGGAATCTCGCCCCAGATTTGTTATTTGTAATCGATTCAAGTGCAGCAATGAAAGTGATATCTAGAAGCTATATTGAATATCACGTTGAAAATGAATTATTACCTGACATTCCTGACTTGTACGTTATTCATTCTGTTTATGAAGACGATAAAGATGATGAGCCTACGCAATATTGGTTTCATACACACGGTCTTTTAAGAGCAGGCGTAACTGAAATAGAGTTAATTATTCCAAATCGCATTTCTTCCTACTACGGCATTAGCGATCTCTTTCAAACATTTGCTAATAATGCGGTTGAAAATGGACAAGTCCCTATGAATGAGCCTATCGTTATCGCGCATAGTCAGCAAGGTTCTATACATACAGTCGCTGTTCCGTGGGAAAAAGGATTATCTTATATAGGGCATAAAACGAGTATGGACCAATTATCTTCAATCGAGGATGAAGAAGTGAAACTACAACCAATAGATGCACAAAATACATTCTTAGGCGGAATGGATGCCCGAGATGAATACCATCAATCTCCATCCGTTCTCTTATTCAAATTTAATACTTCAGAAGAATATATTGAAAGTTTTTTCAAAGAACAAGAGGAAGCTACAGGGCTCATGTTCTATAAAACAAATAGTGAAACCAATCGTATGGCTTACAATGCCAAAAATACTTTCGGGTATTTCAGCAACATTTTTCACATTGAACAATCAAATGAAGATTTTCGTTTCCTTGCTAAGTTTGGTGTCTCCTACGAAGAAGGAAAAAGTGAACATATGTGGTTTGAAATGCAAAACATTACGGAAGATTTCATTCAAGGAATACTCATTAATGAACCATATTTTATAGAAGATATGAGTGAAGGAAAAAGTTATTATTTAGATTTTGATAACTTAACAGAGTGGGTTATTTATGCAGGAGATGCCGTTATAAAGCCAAATAACTTATATATGTTTATTGGCGAATAA	MEVQTETYRAAMNGTLERHFSDMIAVIPTRITIEQLKQRLETIATKVDELKIVYSDETSLIFELHMDEAIIPYELHIDEANDPEEYKMYNRQDSTIVDRNFEDAAFGTEIFTRTLFVGDVLDCFFQQLQFLWNLAPDLLFVIDSSAAMKVISRSYIEYHVENELLPDIPDLYVIHSVYEDDKDDEPTQYWFHTHGLLRAGVTEIELIIPNRISSYYGISDLFQTFANNAVENGQVPMNEPIVIAHSQQGSIHTVAVPWEKGLSYIGHKTSMDQLSSIEDEEVKLQPIDAQNTFLGGMDARDEYHQSPSVLLFKFNTSEEYIESFFKEQEEATGLMFYKTNSETNRMAYNAKNTFGYFSNIFHIEQSNEDFRFLAKFGVSYEEGKSEHMWFEMQNITEDFIQGILINEPYFIEDMSEGKSYYLDFDNLTEWVIYAGDAVIKPNNLYMFIGE				NA	NA	NA	NA	NA
AK009_04254	1407	hemY_2	COG1232	Protoporphyrinogen oxidase	GTGATCGTCGGCGGAGGCATAACGGGATTAACAGCAATGTATAACTTACAAAAAAATATTCATGAAAAAAACTTGCCGATTGATACATTACTTATAGAAGCATCGGGTAAACTTGGCGGAAAAATTCAAACCGTTCGAAAAGATGGATTTACAATTGAACGCGGACCGGATTCTTTCTTAGCACGAAAAGAAAGTGCAGCTAGATTAGTGAAAGAATTAGGTCTTGGCGATGAACTTGTAAATAATCAAGCCGGTCAATCATTTATCCTCGTAAACAATCGGTTACATAAAATGCCGAGCGGATCAATGATGGGAATTCCAACGCAAATTACGCCGTTTCTATTTTCCGGGCTGTTCTCCCCAATTGGTAAACTAAGAGCTGGTTTTGATCTATTAATGCCGAGGTCAAAGCCAGTATCTGACCAATCACTCGGACAATTTTTCAGACATCGCCTCGGAAACGAAGTGGTTGAAAACTTAATAGAACCGTTACTATCGGGTATTTATGCAGGGGATATTGATGAAATGAGCTTAATGTCAACATTCCCGCAAATGTATCAGATTGAGCAGAAACATCGCAGTATTTCACTCGGTATGCGTACGCTCGCTCCGAAAGAAGAGAAAGCTAAACCGAAAAAAGGAATCTTCCAAACAGTGAAAACAGGTTTAGAATCTATCGTAGAATCTCTCGAAGTAAAGATGCATGAAGGTACGATAATAAAGGGAACTCGCATTGAAAAAGTTGCAAAACAGGGTGATGGTTATACAATTACTCTTAGTAATGGAAAAGAAATAGAAGCGGACGCCATCGTAGTGGCAACTTCGCATAAAGTATTGCCGTCCATGTTTGCTCAGTACAAGCAGTTTCGTTTCTTCCGTAATATTCCGGCCACATCCGTTGCGAATGTGGCACTTGCTTTCCAAAAGTCAGCAATCCGGCGCGATATTAATGGTACAGGATTTGTCGTATCACGAAATAGCGATTACACGATTACAGCATGTACGTGGACGCATAAAAAATGGCCACATACAACGCCAGAAGGAAAAACACTCCTTCGCTGTTACGTTGGACGTGCTGGTGATGAAGCGGTTGTAGAACAAACTGAAGAAGAACTCGTTCAGCTCGTACTAGAAGATTTAAGAAAAACGATGGATATTACAGAGGATCCAGAATTTACAATCGTAAGCCGCTGGAAAGAAGCGATGCCTCAATATACAGTAGGCCATAATGAGCGAATGAAAAAGCTCACAACATTTATGCAGAAAGAGTTGCCTGGTATATACTTGGCAGGTAGCTCCTATGCTGGTGCTGGACTTCCAGATTGTATTAATCAAGGTGAGGAAGCTGCAAAGCGTGTATTATCCCATTTGGAGAAAGTAATAGATGCTGAATTAATCGCACAATAA	MIVGGGITGLTAMYNLQKNIHEKNLPIDTLLIEASGKLGGKIQTVRKDGFTIERGPDSFLARKESAARLVKELGLGDELVNNQAGQSFILVNNRLHKMPSGSMMGIPTQITPFLFSGLFSPIGKLRAGFDLLMPRSKPVSDQSLGQFFRHRLGNEVVENLIEPLLSGIYAGDIDEMSLMSTFPQMYQIEQKHRSISLGMRTLAPKEEKAKPKKGIFQTVKTGLESIVESLEVKMHEGTIIKGTRIEKVAKQGDGYTITLSNGKEIEADAIVVATSHKVLPSMFAQYKQFRFFRNIPATSVANVALAFQKSAIRRDINGTGFVVSRNSDYTITACTWTHKKWPHTTPEGKTLLRCYVGRAGDEAVVEQTEEELVQLVLEDLRKTMDITEDPEFTIVSRWKEAMPQYTVGHNERMKKLTTFMQKELPGIYLAGSSYAGAGLPDCINQGEEAAKRVLSHLEKVIDAELIAQ	PGPT0008475_1123	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
AK009_04255	936	hemH1_2	COG0276	Ferrochelatase 1	ATGAAAAAGAAAATTGGTTTGCTTGTAATGGCATATGGAACGCCATATAAAGAAGAAGATATTGAACGTTACTATACACATATTCGCAGAGGAAGAAAGCCAAGTCCTGAAATGCTGGAAGATTTAACAGAGCGTTACCGTGCAATTGGTGGTATTTCTCCTTTAGCTACTATTACATTAGAGCAAGCTAAGAAGTTAGAGAAGCGTTTAAATGAAGTGCAAGATGAAGTAGAGTACCATATGTATCTTGGTTTAAAACATATTGAACCGTTTATTGAAGATGCGGTGAAAGATATGCATAACGACGGAATACAAGATGCAATCGCACTTGTTCTTGCACCTCACTATTCTACGTTTAGCGTGAAATCATACGTTGGACGAGCACAAGAAGAAGCTGAGAAACTTGGGAACTTAACAATTCACAGCATCGATAGCTGGTATAAAGAGCCGAAATTCATCCAGTACTGGGTTGATGCAGTGAAAGGTATATATAACGGTATGTCAGATGCAGAGCGTGAAAAAGCAGTATTAATCGTATCTGCACATAGCTTACCAGAGAAAATTATTGCAATGGGCGATCCATATCCAGATCAATTAAATGAAACAGCTGATTATATCGCGCGCGGAGCTGAAGTAGCAAACTATGCAGTAGGCTGGCAAAGTGCAGGAAACACACCAGATCCTTGGATTGGTCCAGATGTACAAGATTTAACGAGAGAACTAAATGAAAGGCACGGTTATACTTCATTCGTATATGCACCAGTTGGATTTGTTGCTGAACATTTAGAAGTTTTATATGACAACGACTTTGAGTGTAAAGTTGTAACGGATGAAATTGGTGCGAAATATTATCGTCCAGAAATGCCAAATGCATCGGACGCATTTATTGATTGTTTAACAGATGTTGTATTAAAGAAAAAAGAATCTGTACTGTAA	MKKKIGLLVMAYGTPYKEEDIERYYTHIRRGRKPSPEMLEDLTERYRAIGGISPLATITLEQAKKLEKRLNEVQDEVEYHMYLGLKHIEPFIEDAVKDMHNDGIQDAIALVLAPHYSTFSVKSYVGRAQEEAEKLGNLTIHSIDSWYKEPKFIQYWVDAVKGIYNGMSDAEREKAVLIVSAHSLPEKIIAMGDPYPDQLNETADYIARGAEVANYAVGWQSAGNTPDPWIGPDVQDLTRELNERHGYTSFVYAPVGFVAEHLEVLYDNDFECKVVTDEIGAKYYRPEMPNASDAFIDCLTDVVLKKKESVL	PGPT0008485_4575	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
AK009_04256	1047	hemE_1	COG0407	Uroporphyrinogen decarboxylase	TTGGTAAGAACTATAAATGAGACATTTTTAAAAGCATGTAGGGGGGAACGTACCGATTATGTACCAGCATGGTATATGCGTCAAGCAGGTCGTTCACAGCCGGAATATAGAAAGATTAAAGAAAAGTATTCTTTATTTGAAATTACACACAATCCAGAGTTATGTGCTTACGTTACAAAATTGCCGGTTGATCAATATAACGTAGACGCAGCAATTCTTTATAAAGATATTATGTCACCACTACCTGCAATTGGTGTGGATGTAGAAATTAAATCAGGTATTGGCCCAGTTATCGATAACCCAATCCGTTCTTTACAAGACGTAGAAAAACTAGGGGAAATCAATCCAGAAGATGATGTACCGTACATACTAGATACAATTCGTTTATTAACGACAGAAATGTTAGACGTACCGTTAATCGGTTTTTCAGGAGCTCCATTTACATTAGCGAGCTATATGATTGAAGGCGGTCCATCTCGTAACTACCATAATACGAAAGCGTTCATGTATGCAGAGCCAAAAGCTTGGTTTGCTTTAATGGATAAGCTAGCAGATATGGTTATTACATATTTAAAAGCGCAAATTAACGCAGGAGCAAAAGCAGTTCAAATTTTCGATTCTTGGGTTGGAACAGTAAATGTAGCAGATTACCGCGTATTTATTAAACCAGCAATGGAGCGTATTTTTGCAGAAGTTCGCCCTATGGGTGTACCGATGATTATGCACGGCGTAGGAGCTGCACACTTAGTGAATGAGTGGCACGATTTACCGCTTGATGTAGTCGGCTTAGACTGGCGTTTACCAATTGAAGAAGCACGTGCACGCGGCGTTCATAAGGCGGTACAAGGAAATATGGACCCTTCATTCTTACTTGCGCCATGGTCTGTTATTGAAGAACATGTAAAAGGTATTTTAGATCAAGGGATGAAAGAGCCTGGTTATATCTTTAACTTAGGACACGGTGTATTCCCAGAAGTAAATCCAGATACATTAAAACGTTTAACTACATTTATTCATGAATACTCTAAAGGGCAGTTAGCGAAGTAA	MVRTINETFLKACRGERTDYVPAWYMRQAGRSQPEYRKIKEKYSLFEITHNPELCAYVTKLPVDQYNVDAAILYKDIMSPLPAIGVDVEIKSGIGPVIDNPIRSLQDVEKLGEINPEDDVPYILDTIRLLTTEMLDVPLIGFSGAPFTLASYMIEGGPSRNYHNTKAFMYAEPKAWFALMDKLADMVITYLKAQINAGAKAVQIFDSWVGTVNVADYRVFIKPAMERIFAEVRPMGVPMIMHGVGAAHLVNEWHDLPLDVVGLDWRLPIEEARARGVHKAVQGNMDPSFLLAPWSVIEEHVKGILDQGMKEPGYIFNLGHGVFPEVNPDTLKRLTTFIHEYSKGQLAK	PGPT0008465_3351	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
AK009_04257	2118	pbpF_2	COG0744	Penicillin-binding protein 1F	ATGAAGAAAGTAAAGTGGACTTTATTAGGTGGCGTCGCAACGTTTATAGTAGCGATTGTACTCTATAAACTTATCGTGTTAGCTGGTGGCTATATGATGGATGAAAAGCAGCTCGTTTTCCACTCTTCATCACGTATCGTTGACCAGAAAGGGAAAGAAATTACGAAATTATACGTAGAAAATAGGGAGCTCGTACCGATCGAGCAAATTCCGAAGTATGTGCAGCAGGCGTTTGTTGCGGTGGAAGATTCTCGTTTTTATGAGCATCAAGGAATTGATTATCCGTCTATATTCCGTGCTCTTTATAAAGATACGTTAGCTGGAGAAAAGCTAGAGGGCGGTAGTACCATTACGCAGCAACTCGCTAAAGATGTCTTTTTAACTCGTGAAAAAACATTTACGCGCAAATTGAAGGAAGTCGCAATTTCTCTTCAATTAGAGCAAAAATATACGAAGCAACAAATTCTTGAAATGTATATGAATCATATTTATTTTGGTCATGGGGCTTACGGTATTCAAGCAGCAGCAAAGCTGTATTTTAATAAAAATGTTGAGGATTTAACAGTAGAGGAAGGGGCAATGCTTGCAGGTCTTCCGAAGTCACCAAACGGATATTCACCGTACTACTCTGCAGAGAAGAGTAAGGAACGCCGCGATCTCGTGTTGTCACTTATGCATAAACAAGGCTATTTGACTGCAGAAGAAAGCGTTCGTTATCAAGGGAAGATAATTGCTCTATATAAAAACTTAGATGAAAATGAGCTTGCATATATGCCGTATATTGATATGGTCATAGATGAAGCCGCTCGTTTATACGGGTTGTCTCATCAAGAAGTACTTCGCGGAGGATATACGTTTGTCGTACCTATGGATGAAAAAATTCAAAAGGTAGCGTATAACCAGTTTCAAGATGCAAGGAATTTTCCTGGGAAAGAAGAGGGGGCTCAAGGTGCATTTTTATTAATGGATAATCGTACGGGAGGGATTAAAGCGGCGATTGGGGGAAGAAAGTACGTCCCGAGAGGATTTAATCGTGTTTTTGCCAAAAGGCAGCCCGGATCTGTTTTAAAACCACTTATCGTTTATGCACCAGCACTAGAAACGAAAAAGTATAATCCGTATTCTTTATTAACGAATGAAAGAAATTCTTTTGAAGGGTATGAACCTCGAAATTATAATCATGAGTATTCAAAAGAAATGACGATGTATGATGCGATTTTAGAGTCGGCAAACGTACCAGCAGTTTCTCTATTAAATGAGTTAGGGGTAGAAGAAGGAAAGCAATATTTAGAAAAAGGAAATGTCCATATTGCAGATGCTGGTTTAAGTACAGCACTTGGCGGATTGAAAAATGGTGTTTCAACATTTGATCTTGTAAAAATGTATCGTTCATTTTTAGCGAATGGCAATATTATTGAGCCGCACGTTATTGATAAAGTATTAAATAGACACGGTGCAGTCATTGGGGAATCACCGAAAGTAGAGACGAAAATTTTTTCGAAACAGACGGCATGGTATATGACGAAAATGTTAGAAGGAGTTGTGAAGGAAGGGACAGCGAGAGCAGGTGTATATAACGGTGCGTTAGCTGGAAAAACAGGTACAACTTCATTGCCAAATGACGATAAGGGAGCAAGAGATATGTGGTTCGTCGGCTATACACCGAACTTAGTAGGCGCTGTTTGGATTGGTTATGACCGTACGGATAAGGAACATCAGTTGCAAGGAGAAAGTGCATCTGCGACAAAATTGTTTAAGAAAATTTTAACGAAGGCTAATGTAGAACATAAAGAGAAGTTTATGAAGCCTGAAGGTGTGGAAACAATCGGTGCTCCGATTCGGCTGCGTAGAATTGAAGATGTAAAAATGAAACTATCATTTAGCCCTTTCGGTTTATTTAAAGCAAAATTAAGTTGGACGCCACTTCCAGATAACAGAATTATGTACCGAATCTATAGAGTGGAGAATGGAATTCATACGCATGTTAGCACTGTAAATGGTGCTGGAGAATATGAGGAAAAGTTCGTTAACATATTTTCAAAACCGAGCTTTTACGTTGTACCATACAATACACAAACGAATCGCGAAGGAGAAAAGTCAAAAGTAGCTAAACCATAG	MKKVKWTLLGGVATFIVAIVLYKLIVLAGGYMMDEKQLVFHSSSRIVDQKGKEITKLYVENRELVPIEQIPKYVQQAFVAVEDSRFYEHQGIDYPSIFRALYKDTLAGEKLEGGSTITQQLAKDVFLTREKTFTRKLKEVAISLQLEQKYTKQQILEMYMNHIYFGHGAYGIQAAAKLYFNKNVEDLTVEEGAMLAGLPKSPNGYSPYYSAEKSKERRDLVLSLMHKQGYLTAEESVRYQGKIIALYKNLDENELAYMPYIDMVIDEAARLYGLSHQEVLRGGYTFVVPMDEKIQKVAYNQFQDARNFPGKEEGAQGAFLLMDNRTGGIKAAIGGRKYVPRGFNRVFAKRQPGSVLKPLIVYAPALETKKYNPYSLLTNERNSFEGYEPRNYNHEYSKEMTMYDAILESANVPAVSLLNELGVEEGKQYLEKGNVHIADAGLSTALGGLKNGVSTFDLVKMYRSFLANGNIIEPHVIDKVLNRHGAVIGESPKVETKIFSKQTAWYMTKMLEGVVKEGTARAGVYNGALAGKTGTTSLPNDDKGARDMWFVGYTPNLVGAVWIGYDRTDKEHQLQGESASATKLFKKILTKANVEHKEKFMKPEGVETIGAPIRLRRIEDVKMKLSFSPFGLFKAKLSWTPLPDNRIMYRIYRVENGIHTHVSTVNGAGEYEEKFVNIFSKPSFYVVPYNTQTNREGEKSKVAKP	PGPT0023895_412	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
AK009_04258	498	hmoB	COG2329	Heme-degrading monooxygenase HmoB	ATGAAGGCTATTATTTCATACGAAACACCTCTAGAACAATCACATTTCACTGCAAAAAATGATGAGAAAAATATGTTTTATAAAGAAAATACAGAAGAATCTGTAGAAGGCTCACTTCAGTATGACGTACTAGATGCTGTCGGTGAATTTAAAGGACAACCTGGCTATATCGTTTGTAACAATATTTCTGTAACAGACGAAGGTCGCCCAGTATTTGAAAACCGTTTTAAAAACCGTGCAGGCCTTATTGAAAACGAACCAGGATTCCAAGCGATCCGTGTTCTACGCCCATTAAGTAACGATACATATGTCATCTTAACGATGTGGGAAACGGAGCAAAACTTTAAAGACTGGACAGAATCACGTTCATTCGAAAACGCTCATAAAAAACGTCCTGCACAAGCAGAAGGACAAGCACAGGCGCATCCACATGCAGAACAGCAAAAGAGTATTTTCTCTCGTCCTTCTTTTGTGACTACTTTTGATGTGTTAGTTTAA	MKAIISYETPLEQSHFTAKNDEKNMFYKENTEESVEGSLQYDVLDAVGEFKGQPGYIVCNNISVTDEGRPVFENRFKNRAGLIENEPGFQAIRVLRPLSNDTYVILTMWETEQNFKDWTESRSFENAHKKRPAQAEGQAQAHPHAEQQKSIFSRPSFVTTFDVLV				NA	NA	NA	NA	NA
AK009_04259	1452			hypothetical protein	ATGTATAAGAGGCAACATCCGATCACGATATTGTTAGGTATTAGGGTTGCGAGTTTGTTGCCACTTATTATTCTTGTTTTATTTAAACCTGATGAACAAGTGGAACCTTGGTATTTATTTTATCTTTTCCTTCTGGTTGTTTTATTCATCATGGCTATTTTTTCAGCAATTAAATGGTATTTTAAAGTGTACTGGATTGAGAATAATATGTTACATGTAAAGCACGGTGTTTTTGTAAAGAAGGAAAGCTATTTAAATAAAGAGCGTGTACAAAATATTAGTACGTCTTCTAACTTCATTTATCAAATGCTCGGACTCATGAAGTTAAATATAGAAGTAGCCGGTGGTGGTAATGAACCAGAAGTGATGTTGGCTGGTATTAAAGAAGACGAGGCAAAACATTTAATCTCTGTATTACATAAGAAAGAAACTACTGTAAAAGAAGAAATAGAAGAGGAAGAAAGCAAGACGGTTTATCAGTTAACAGCGAAAGAGGTTTTAGCCGCAGCGATTACATCTGGTCGGTTCGGACTAGTGTTCTCTGGACTAGTACTTCTTTACACAAAGTTTGATTTTGTTCTTCCTGAAGGATTCACAAGTAAAGTAGAAGCGTATGTGATGGGAAACGGTGTTTATAAACTAATTGTAATTGCATTAATTTTAATGGCAATTTCATGGATTATTTCCACGGCTGGATATGTGTTGAAATATGCAAACTTTAAAATTGGGCGAAAAGGGGAAGAGATTCGTATCGTTCAAGGATTATTTGAAAAGAAAGAGTTTGTCTTAAAATTGCACCGCATTCAAGCGATTACTGTAAAAGAAGGTATGCTTCGCCAGCCGTTTGGCTATTGTGCTGTTGAAGTGGAAGCAATTCAAAGTATTGGAGCAGCAAGTAACGAAGTAATGTTGCATCCATTTATGAAGAAAAAAGATGTACAGCACCTGCTCACATATTTAGAGTTACCTTATGAAATCGAAGCGGAGATCGTTCACTTACCAAAAACAGCGTTGCGTCGTTATTTCATTATGGGCTGGTTAATAAGTATCATACTCACAGTTCTAATTGCCAGCGTGAGTATATATTTTAAACAATATATTGCGTTGTTTGTTATTTTACCGTTATTTATCGTGTTTTCGTTACTTGCGTATGCTAGATATAAAAGTGGTGGTTATGAATTAAGAGAAAATCAACTAACGGTTGTATATCGTAATTTTTCGAAATATACAGGAATAATGCGAAGAAGACATGTTCAAGCAGTAGGTTATAATCAATCGTATTTTCAAAGAAAAGATGAATTATGTACAACTCTTGTAGCGGTAGCCGGGCGCGGTTATGAAGTAAAGCATATGAGAAAAAAGATTCGCTTCGTATATATAATTGGTACAAAGAAAAAGGAAACACCGATGTGTAGTGGTGTTTCCTTTTTGTTATTAAATGGATACCTTTAG	MYKRQHPITILLGIRVASLLPLIILVLFKPDEQVEPWYLFYLFLLVVLFIMAIFSAIKWYFKVYWIENNMLHVKHGVFVKKESYLNKERVQNISTSSNFIYQMLGLMKLNIEVAGGGNEPEVMLAGIKEDEAKHLISVLHKKETTVKEEIEEEESKTVYQLTAKEVLAAAITSGRFGLVFSGLVLLYTKFDFVLPEGFTSKVEAYVMGNGVYKLIVIALILMAISWIISTAGYVLKYANFKIGRKGEEIRIVQGLFEKKEFVLKLHRIQAITVKEGMLRQPFGYCAVEVEAIQSIGAASNEVMLHPFMKKKDVQHLLTYLELPYEIEAEIVHLPKTALRRYFIMGWLISIILTVLIASVSIYFKQYIALFVILPLFIVFSLLAYARYKSGGYELRENQLTVVYRNFSKYTGIMRRRHVQAVGYNQSYFQRKDELCTTLVAVAGRGYEVKHMRKKIRFVYIIGTKKKETPMCSGVSFLLLNGYL				NA	NA	NA	NA	NA
AK009_04260	477			hypothetical protein	ATGCAGCCGTTAGAAAGGGAGATTCATTCTAATATGCTGAAAGTGTGGAGGATGCACGCTTTAATTGGGGCGGCAGTTATACTAACAGTCGTAATTGCATATTTCTTTTTCATGATTAACTTTAACTGGTGGGGGTGGTTGTTTGGACTATTAGTAACAGGAGCCATTACATTTATTCCACTTGATTATTTTGTGTTTCCAAATTTACGTCAGCGCTATTATAGTTACAGATTAAATGAAGAAGAGATTGAGATTCAAAAGGGAATGTTTGTTGTAGAACGCGTACTTATTCCGATGATCCGTGTGCAGCACGTAACGATTGAGCAAGGGCCGATTATGAGAAAGTATAATTTAGCAGAATTACACATTTCAACAGCCGCAACTTCTCATAGTATCCCAGGTTTAACGAAAGAAGAAGCAGAACAGCTGAAAAGACAAATTGGAGAACTTGCGAAAGTGAGTGATGAGGATGTATAA	MQPLEREIHSNMLKVWRMHALIGAAVILTVVIAYFFFMINFNWWGWLFGLLVTGAITFIPLDYFVFPNLRQRYYSYRLNEEEIEIQKGMFVVERVLIPMIRVQHVTIEQGPIMRKYNLAELHISTAATSHSIPGLTKEEAEQLKRQIGELAKVSDEDV				NA	NA	NA	NA	NA
AK009_04261	942			hypothetical protein	TTGTTTCAAAAAAGTTTTAAGCAAGAGAAAACGGTACCGGCCTTAAAGATGATAGCATCAATGGTTATCTTTGGATCAGTTGGATTTTTTTCTGTTCAAACAAACTTGCCTTCGTTTGAATTAGTGTTTGTAAGGTGTATTTTTGCGACAATATTTTTAAGTGTATGCTGGTTGCTTACAGGGCAATATAAACAAGATAAATGGGAACGAAAAGAAGTTATTCAAGTTTTAATATGTGGCTTTTTCTTAGTATTTAATTGGGTTTTCTTATTTAAAGCCTTTGAAAATATGTCAGTTACAATTGCTATCTCAGTTTATCATCTTGCACCAGTAATTGTACTGTTAATTGGAAGTATCGTCTTTAAAGAAAAATTAACATTAATATCTATCATTTCAATAATTGTGTGTTTTGTGGGAGCTTTATTAATTGCTGGTATCGATGGAAGCTTCTCTGTAGGCTCATTAATGTCTTCAGGTATGATATGGGGATTTCTTGCAGCTCTCTTTTATGCATTTACAACTTTATTTGGTAAAGGGATTAACAAAATGAGTGCGTATGCAATGACATTTTTACAAACATTCTTGGGGATATTTCTTTTAATACCATTTATAGATTTAGATGCTTTTAGTGGCCTCACTCAAAGTAATTGGACATATATTATAGCTACTGGTTTTATTCACACTGGGATAGTGTATTATCTGTTTTTTGATAGTTTACGCCATTTATCTACAAAAACAATCTCAATATTAGTTTTTTTAGATCCGGCAGTGGCAATATTATTAGATACTGTACTTACTGGATTCCGTCCAACTTTAATGAAAATAACAGGAATTCTTTTTATTTTTATTGGCATGACTTTAACATTAAAAAAATCTAAAGATAAAAAACTGAGTCAAAAAGAAAATCGAATTGAAAGCGATGCTAGTATATCTCAACAATGA	MFQKSFKQEKTVPALKMIASMVIFGSVGFFSVQTNLPSFELVFVRCIFATIFLSVCWLLTGQYKQDKWERKEVIQVLICGFFLVFNWVFLFKAFENMSVTIAISVYHLAPVIVLLIGSIVFKEKLTLISIISIIVCFVGALLIAGIDGSFSVGSLMSSGMIWGFLAALFYAFTTLFGKGINKMSAYAMTFLQTFLGIFLLIPFIDLDAFSGLTQSNWTYIIATGFIHTGIVYYLFFDSLRHLSTKTISILVFLDPAVAILLDTVLTGFRPTLMKITGILFIFIGMTLTLKKSKDKKLSQKENRIESDASISQQ				NA	NA	NA	NA	NA
AK009_04262	747	bacC		Dihydroanticapsin 7-dehydrogenase	ATGAGAGAGAATAAAATAATTATGATTTCTGGAGCCAATAGCGGTATAGGTCATGCTTGTATAAAATACTTTTTAGAAAAATCCTTTCATGTAATAGCTCTTGATATTAATAATAATAATTTAATAGATTATATGAAAACAGATATGCCTTTGAAAGTAGTGCAAATTGATTTAAGTAATAGTGAAGCGATTCGTAATCTTTTTACTCAATTAGATTTAGAAAAGCTTTCTCCTGATATATTAATAAATGCTGCTGGTATTCGAGAGATAACACCTGTTTTAAATTTATCCGATGACATGTTTAAAAAAGTAATTGATGTAAATTTAGTAGCCCCATTTATACTTTCTAGGGAAGTAGCGAAGCGATGGTGTGAATCGAAAATAAAAGGTTGTATTGTGAATATAGCATCGGTTTCTGGATTAATGGCTGAACCAGAGCGAGCTGCTTATGTGGCATCAAAGCATGCCTTAATCGGATTGACTAAACAGATGGCTATGGAATTTGGGAAGCAAAATATAAGGGTAAATAGCATTTCTCCCGGTGTTATTAGAACTGAACTTACAGAAGAATACTTTAGTAATAAAGCATTGATGTCTATGATAAAAAGTAATCAATCTTTAGATACTTGGGGATTGCCGCAGGATATTGTTTCATGTATTGAGTACTTGATTTCTGATCAGGCCCGCTTTATTACTGGTTCTAATTTTGTAATTGATGGTGGTTGGACTGCTGGGAAAAACTTGTAG	MRENKIIMISGANSGIGHACIKYFLEKSFHVIALDINNNNLIDYMKTDMPLKVVQIDLSNSEAIRNLFTQLDLEKLSPDILINAAGIREITPVLNLSDDMFKKVIDVNLVAPFILSREVAKRWCESKIKGCIVNIASVSGLMAEPERAAYVASKHALIGLTKQMAMEFGKQNIRVNSISPGVIRTELTEEYFSNKALMSMIKSNQSLDTWGLPQDIVSCIEYLISDQARFITGSNFVIDGGWTAGKNL				NA	NA	NA	NA	NA
AK009_04263	738	ido		L-isoleucine-4-hydroxylase	ATGACGTTTGTTCTTAGTAAAATGAGTGGCTTTAGCATAGAAGAAAAGGTACATGAATTTGAATCTAAGGGATTCCTTGAAATCTCAAATGAAATCTTTTTACAAGAGGAAGAGAATCATCGTTTATTAACACAAGCACAGTTAGATTATTATAATTTGGAAGATGATGCGTACGGTGAATGCCGTGCTAGATCTTATTCAAGGTATATAAAGTATGTTGATTCACCAGATTATATTTTAGATAATAGTAATGATTACTTCCAATCTAAAGAATATAACTATGATGATGGCGGTAAAGTTAGACAGTTCCATAGCATAAATGATAGTTTTTTATATAATCCTTTAATTCAAAATATCGTGCGTTTCGATACTGAATTTGCATTTAAAACAAATATAATAGATACAAGTAAAGATTTAATTATAGGTTTACATCAAGTAAGATATAAAGCTACTAAAGAAAGACCATCTTTTAGTTCACCTATTTGGTTACATAAAGATGATGAACCAGTAGTGTTTTTACACCTTATGAATTTAAGTAATACAGCTATTGGCGGAGATAATTTAATAGCTAATTCTCCAAGGGAAATTAATCAGTTTATAAGTTTGAAGGAGCCTTTAGAAACTTTAGTATTTGGACAAAAGGTTTTCCATGCCGTAACGCCACTTGGAACAGAATGTAGTACTGAAGCTTTTCGTGATATTTTATTAGTAACATTTTCTTATAAGGAGACAAAATGA	MTFVLSKMSGFSIEEKVHEFESKGFLEISNEIFLQEEENHRLLTQAQLDYYNLEDDAYGECRARSYSRYIKYVDSPDYILDNSNDYFQSKEYNYDDGGKVRQFHSINDSFLYNPLIQNIVRFDTEFAFKTNIIDTSKDLIIGLHQVRYKATKERPSFSSPIWLHKDDEPVVFLHLMNLSNTAIGGDNLIANSPREINQFISLKEPLETLVFGQKVFHAVTPLGTECSTEAFRDILLVTFSYKETK				NA	NA	NA	NA	NA
AK009_04264	6189			hypothetical protein	ATGCAAATGAAAAGTACTAAAAGGCATATTTCAATGGTTTCATTAGTTTTTCTAGTATTATTTTCAGTGCTGAATGTGTGGGCTCCAGTTATTCAAGCTGCTGTGATGAAAAGTCCAGTGGACGAAATTAATATTTCCCGTACTGATGGCACGACATCTGAACCGTATCAAGCCTCAGATGGTATGAAAGTAGAAGTGAAGTGGTCAGCTAAAGAAAAAATAAAAAGTGGAGATCAATTCACAATTGATATGCCAAAAGAGTTTCGAAAAGACCTTATGAATATGAGTTTTCCTTTAAAAGATGCTGAAGGAAAAACAGTTGGTACATGTGAGATGAAAAAGGGTCTATTAACGTGTACTATGGGTGATTACGTAGAAGGAAAGAATAACATTAAAGGCTCTTTATTCGTAGAATTCTACTTTGGTCTAGAAGCATATGATGGTGTTAAAGAAATTCCATTAGAATTTAACGTTGATGGTCAAATCGTCAATAAAGAAGTAAGTGTAAATAATACGACAGAGAGACCGAAGCCACAGCCCAATACGGAAAATTTATTGAAATGGGGTTCTTATAATCAAGAAGATCCTTCAATTGCTGATTGGCTTGTATACGTAAATGCAACTGGAACAGAAATGCAAGATCTTAAATTAACAGATACATTAGGACCTGGGCATGAGTTAATTACAGACAGCGTAGTATTAGAAGAGGCTGTATTTGAAGATGGTTATGCACCAACAAATATTAAGCCAGCAGATTTATCTAACATTAAAATAAATGCAACGAAGACTGGATTTACAATTGAGTTTCCAGACAGTTCAAAAGGTTATATTTTAAGATATAAAACAAAGGTTACAAATCCTGCTGCAAAGCCTCATAAAAATACTGTGAAATTAGAAGGTAAAAATATTAAAACTGAAGAAAAAGTAGGACAAGTATTTGTAAGTGGTGGAGGAGGATCCGGTTCAGGTGACAATAATCCACCTAGCATTGAAAAAAATATAGTTGATGAGAATGGCAAGCTTGTAGAGAATGAGCAGTTAACACAAATGGATCAAGTTATTCAATACCAAGTTGGTACACATATACCGAACGATCCTCCTAAATACACATCTATGGTAATTAGTGATGATTTAGAAGATGTTTTAGAAGTATTAGAGGCAAAAGTGTATGATCAAAATGGCCAAGATATTACTTCTAAAGGAACGTTAAATATAGATAAACAAAGAAGTGAAGTAACATTTACGTTTGGTGAGAGTTTTGACTATAAGTCATATGAAGACCAGATAATCAATCTCAGTATCAAGGCGAAAATAAAAAATAATGCAGACTTATCTTCTTACGTAGATAAGAAGATTCCTAATAAAGCGGAATTGCATTTTGATGATAAAACATTAACATCAAAAGAAGTAACTATTACGCCGCCTGAAGCTCCAAAAGATGGTACAGTACTGATTCATAAAACAGATTCTGAGAATCCGAATAAAGGGTTAAAAGGTGCCGAATTTGAAGTTCGAAATAGTGCAAATGAAGTTGTTGCAAAACTAAAAACGGACGAAAAAGGTTTTTCAGTACCTCAAACTTTAGCTCCTGGGACGTATAAAGTTTATGAAACAGTAGCACCAGAAGGATATCAAAAATTAACAAGCCCAGTAGAGGTTACACTTCAAGCTGGAGAAACAAAAACAATTGAAATTAAAAATACTATGCAAAAGGGTCAAATTGAAGTAAAGAAAATTGATTCGGAAAATGGTGAAAAACCATTGGAAAATGCAGAGTTTGATATAGTAAAAGACGGTGTAGTAGTCGAACATATTGTTACAGATAAAGATGGTAAGGCAATCTCTAAACCGTTAGCACCAGGAAAATATATTTTAAAAGAAACAAAAGCACCTGAAGGCTACCAATTAAAAGAAACAGAGTTGGAAGTAAATGTAACAGGGGACGGCATATTCCCAATACAAGTGGAAAATGCAATGGTAGACAAAGGGAATATAGAAATTACAAAAGTGGACAAAGAAAACGGGGCAGTATTAGCCGGTGTCGAATTTGAAGTCCAAGATGAGAAAGATGGCGTAGTAAGAAAAGTAGTAACAGATAAAGATGGAAAAGCAAACGTTTCAGATCTATCAGTAGGAAAGTACAAATTAGTAGAGACGAAAAGCTTACCAGGTTACAAAAATCTAGCAGAACCAGTACTATTTGAAATTACAAAAGGTATGACAAAAGCTTTATCAATAAAAGTAGAAAATGAGCAGTTAGACAAAGGCTCAGTAGAAATTACAAAAATAGATAAAGATAGTCAAAAAGTATTAGAAGGCGTAGTCTTCGAAGTGCAAGATGAGCAAGGAAAAGTAGTAACAGAAGTAAAAACAGATAAAGATGGTAAAGCAAAAATCTCAGATTTATCAGTAGGAAAGTACAAATTAGTAGAGACGAAAAGTTTACCTGGCTACAAAAAGCTAACAGAACCAGTATCATTCGAAATTACAAAAGGTATGACAACAGTCCTATCATTGAAAGTAGAAAATGAACAGTTAGATAAAGGTTCAGTAGAAATTACAAAAGTAGATAAAGACAACAAAAAAGCATTAAAAGGCGTAGTCTTTGAAGTGCAAGATGAAGCTGGAACAGTAGTAAAGGAAGTAAAAACAGATAAAGATGGTAAAGCAAAAATCTCAGATCTATCAGTAGGAAAGTACAAATTAGTAGAGAAAGAAAGTTTACCAGGCTATAAGAAACTAACAGATCCAGTATTATTTGAAATCAAAAAAGGCATGACTGAAGTTCTATCATTAAAAATAGAAAATGAAATGGTAGATACGGGAAATGTAGAGATAACAAAGATAGATAAAGATAATAAAGCACCGTTAGCGGGAGTAACATTCATCGTCCAAGATGAAAAGGGGAATGAAGTTACAAAAGTAACGACAGATAAAGATGGAAAAGCAAATGTTTCAGATTTACCTGTAGGAAAGTATGAATTAGTAGAGGTAGAAAGTTTACCTGGTTATAAAAAGCTAGAAAAACCAGTATCATTTGAAATCAAAAAAGGCATGACCGAGGTTCTATCATTAAAAGTAGAAAATGAAATGGTGGATACAGGGAATGTAGAGATAACAAAAATAGATAAAGATAGTAAAGCTCCATTAGAAAATGTTGTATTTGAAGTACGTGATTCAAAAGGAAAAGTAGTTACGAAAGTAACGACGGATAAAGAAGGAAAAGCAAACGTTTCAGATTTACCTATTGGGAAGTATGAGTTGGTGGAAGTAGAAACACCGGCAGGATACAAACCACTAGAAAAGCCAATTTCATTCGACATTGAAAAGGGTAGAGTAACAGCATTAAAGCTAACAGTAGAAAATGAATTAGTAGATACAGGAAATGTAGAAATTACAAAAGTAGATAAAGAAAATAAAGATGTTTTAGCTGATGCAGTCTTTGAAATTCAAGATGAAGCAGGACAAGTAGTCGCTAAAATAACGACAGATAAAAAAGGACAAGCACAAGTTACTAATTTATCAGTCGGCACATACAAGTTAGTAGAAGTAAAAGCACCAAAAGGATATAAACAATTAGTAGATTCGATTATTTTCCAAATTGAAAAAGGCATGACAAAATCTCTTGCTTTAACAGTAGAAAACGAAATGTTAGACAAGGGAAATGTAGAAATTACAAAGGTAGATAAAGATAGTCAAAAATTATTAGAAGGCGTAGTCTTCGAAGTTCAAGACGACAAAGGCAAAGTAGTAACAGAAGTAACGACAGATAAAGAAGGAAAAGCAACAATTTCAGATTTATCAGTAGGAAAGTATAAATTAGTAGAAAAAGAAAGCTTACCAGGTTACAAAAAATTAACAGAACCAGTATTATTCGAAATCAAAAAAGGTATGACGAAAGTTTTATCATTGAAAGTAGAGAACGAACTGTTAGATAAAGGTTCAGTAGAGATTACAAAAGTAGACAAAGAAAGTGGCGCGTTATTAGAAGGCGTAACATTCGAAGTGCAAGATGAAAAAGGCAAAGTAGTAACGAAAGTAAAAACAGATAAAGATGGAAAAGCAACAATTTCAGATTTATCAGTAGGAAAATATAAGCTAGTAGAAGTAGAAAGCTTACCAGGATATAAAAAACTAGCGAAGCCAGTATCATTCGAAATCAAAAAAGGTATGATAGAAGTCTTATCATTAAAAGTAGAGAATGAACTAGTAGATAAAGGTTCAGTAGAAATTACAAAAGTAGATAAAGATAGTAAAAAAGTATTAGAAGATGTAGTCTTCGAAGTGCAAGATGAAAAAGGCAAAGTAGTAACGGAAGTAAAAACAGATAAAAATGGTAAAGCAAAAATCTCAGACTTATCTGTAGGAAAGTACAAATTAGTAGAGAAAGAAAGCTTACCAGGTTACAAACAATTAACAGAACCAGTATCGTTTGAAATCAAAAAAGGAATGACAGAAGTTCTATCATTAAAAATAGAAAATGAAATGGTAGATACGGGAAATGTAGAAATTACAAAAATAGATAAAGATAATAAGGCACCGTTAGCAGGGGTAGTCTTTGAAGTTCAAGACGACAAAGGCAAGGTAGTAACGAAAGTAACGACAGATAAAGCTGGAACAGCAACAGTTTCAGATTTATCAGTAGGAAAGTACAAGCTAGTAGAAGTAGATAGTTTACCAGGCTACAAAAAATTAGAAAAGCCTGTACCATTTGAAATTACAAAAGGTATGACAAAATCTTTAACGTTCACTGTAGAAAATGAAATGGTAGATACGGGGAATGTAGAAATCACAAAAATAGATAAAGACAGTAAAGCACCATTAGAAAATGTTGTATTTGAAGTACGTGACTCAAAAGGAAAAGTAGTTGCGAAAGTAACGACAGATAAAGAAGGAACAGCAACAGTTTCAGATTTATCTATTGGAAAGTATGAGTTAGTAGAAGTAGAAACACCGGTAGGATACAAACCACTAGAAAAGCCAGTTTCATTCGAAATTGAAAAAGGTAGAGTTACAGCATTACAATTGAATGTAGAAAATGAATTAGTGGATGTAGGAAATGTAGAAATTACAAAAGTAGATAAAGAAAATAAAGATGCTTTAGCTGATGCAGTATTTGAGATTCAAGATGAAGCAGGACAAGTAGTCGCTAAAATAACGACAGATAAAAAAGGACAAGCACAAGTCACTAATTTATCAGTTGGCACATACAAGTTAGTAGAAGTAAAAGCACCAAAAGGATATAAACAATTAGTAGATCCAATTACTTTCCAAATTGAAAAGGGTATGACAAAATCTCTTGCTTTAACAGTAGAAAATGAAATGTTAGACAAGGGAAATGTAGAAGTAACAAAAGTAGATAAAGATAGCCAAAAAGCATTAGAAGCCGTAGTCTTCGAAGTACAAGATGAGCAAGGCAAAATAGTAACTGAAATAACGACAGATGAAGAAGGAAAAGCAAATGTTTCAGATCTATCAGTAGGAAAATATAAATTAGTAGAGACGAAGAGCTTACCAGGTTATAAGAAGTTAACGGAACCAGTATCATTCGAAATTAAAAAAGGTATGACGAAAGTCTTATCATTGAAAGTAGAGAATGAACAGTTAGACAAAGGTTCAGTGGAGATTACAAAAATGGCTGCTGAAAGCAAGGAAGTCTTATCAGGAGCTGTGTTTGAAGTTCATGATGAAGCGGGAAAAGTAGTAGTGAAAGTAACAACAGATAAAGATGGAAAGGCAAAAATCGCAGATTTATCTGTAGGTAACTACACACTAGTAGAAGTAGAAGCACCAAAAGGATATGAAAAATTAACTAATCCAATTCCATTTGAAATTACAAATGGAATGATAAATGCAGTTCAATTAGAAGTATTAAACAAATTGAATCATTTAGCACCACCAGTTCCAGAAACACCAGATCCAGAAAAGCCTGGAACACCAGATCCAGAGAAACCTGGAACACCAGATCCAGAGAAACCTGGAACACCAGATCCAGAGAAACCTGGAACACCGAATCCAGAAAAACCTGGAACACCAGGTCCAGAAAATCCTGGAACACCGGGTCCAGAAAAACCGGAAAAAGAATTACCAAAGACAGGGCAGAAAATGCCTGTGGAACCATATATGGGAGCACTTCTTGTAATGATGAGTTTTGGATTACTCGTATTAGGTAGAAAACAGCAGAGATAA	MQMKSTKRHISMVSLVFLVLFSVLNVWAPVIQAAVMKSPVDEINISRTDGTTSEPYQASDGMKVEVKWSAKEKIKSGDQFTIDMPKEFRKDLMNMSFPLKDAEGKTVGTCEMKKGLLTCTMGDYVEGKNNIKGSLFVEFYFGLEAYDGVKEIPLEFNVDGQIVNKEVSVNNTTERPKPQPNTENLLKWGSYNQEDPSIADWLVYVNATGTEMQDLKLTDTLGPGHELITDSVVLEEAVFEDGYAPTNIKPADLSNIKINATKTGFTIEFPDSSKGYILRYKTKVTNPAAKPHKNTVKLEGKNIKTEEKVGQVFVSGGGGSGSGDNNPPSIEKNIVDENGKLVENEQLTQMDQVIQYQVGTHIPNDPPKYTSMVISDDLEDVLEVLEAKVYDQNGQDITSKGTLNIDKQRSEVTFTFGESFDYKSYEDQIINLSIKAKIKNNADLSSYVDKKIPNKAELHFDDKTLTSKEVTITPPEAPKDGTVLIHKTDSENPNKGLKGAEFEVRNSANEVVAKLKTDEKGFSVPQTLAPGTYKVYETVAPEGYQKLTSPVEVTLQAGETKTIEIKNTMQKGQIEVKKIDSENGEKPLENAEFDIVKDGVVVEHIVTDKDGKAISKPLAPGKYILKETKAPEGYQLKETELEVNVTGDGIFPIQVENAMVDKGNIEITKVDKENGAVLAGVEFEVQDEKDGVVRKVVTDKDGKANVSDLSVGKYKLVETKSLPGYKNLAEPVLFEITKGMTKALSIKVENEQLDKGSVEITKIDKDSQKVLEGVVFEVQDEQGKVVTEVKTDKDGKAKISDLSVGKYKLVETKSLPGYKKLTEPVSFEITKGMTTVLSLKVENEQLDKGSVEITKVDKDNKKALKGVVFEVQDEAGTVVKEVKTDKDGKAKISDLSVGKYKLVEKESLPGYKKLTDPVLFEIKKGMTEVLSLKIENEMVDTGNVEITKIDKDNKAPLAGVTFIVQDEKGNEVTKVTTDKDGKANVSDLPVGKYELVEVESLPGYKKLEKPVSFEIKKGMTEVLSLKVENEMVDTGNVEITKIDKDSKAPLENVVFEVRDSKGKVVTKVTTDKEGKANVSDLPIGKYELVEVETPAGYKPLEKPISFDIEKGRVTALKLTVENELVDTGNVEITKVDKENKDVLADAVFEIQDEAGQVVAKITTDKKGQAQVTNLSVGTYKLVEVKAPKGYKQLVDSIIFQIEKGMTKSLALTVENEMLDKGNVEITKVDKDSQKLLEGVVFEVQDDKGKVVTEVTTDKEGKATISDLSVGKYKLVEKESLPGYKKLTEPVLFEIKKGMTKVLSLKVENELLDKGSVEITKVDKESGALLEGVTFEVQDEKGKVVTKVKTDKDGKATISDLSVGKYKLVEVESLPGYKKLAKPVSFEIKKGMIEVLSLKVENELVDKGSVEITKVDKDSKKVLEDVVFEVQDEKGKVVTEVKTDKNGKAKISDLSVGKYKLVEKESLPGYKQLTEPVSFEIKKGMTEVLSLKIENEMVDTGNVEITKIDKDNKAPLAGVVFEVQDDKGKVVTKVTTDKAGTATVSDLSVGKYKLVEVDSLPGYKKLEKPVPFEITKGMTKSLTFTVENEMVDTGNVEITKIDKDSKAPLENVVFEVRDSKGKVVAKVTTDKEGTATVSDLSIGKYELVEVETPVGYKPLEKPVSFEIEKGRVTALQLNVENELVDVGNVEITKVDKENKDALADAVFEIQDEAGQVVAKITTDKKGQAQVTNLSVGTYKLVEVKAPKGYKQLVDPITFQIEKGMTKSLALTVENEMLDKGNVEVTKVDKDSQKALEAVVFEVQDEQGKIVTEITTDEEGKANVSDLSVGKYKLVETKSLPGYKKLTEPVSFEIKKGMTKVLSLKVENEQLDKGSVEITKMAAESKEVLSGAVFEVHDEAGKVVVKVTTDKDGKAKIADLSVGNYTLVEVEAPKGYEKLTNPIPFEITNGMINAVQLEVLNKLNHLAPPVPETPDPEKPGTPDPEKPGTPDPEKPGTPDPEKPGTPNPEKPGTPGPENPGTPGPEKPEKELPKTGQKMPVEPYMGALLVMMSFGLLVLGRKQQR				NA	NA	NA	NA	NA
AK009_04266	537	mtrR	COG1309	HTH-type transcriptional regulator MtrR	ATGAGTATCAGCATAACGCGGCAAAAGATTTTGGCGGCCGCTTCTCAAATTGTGCAATGTAAAGGGGTTGCTAAATTAACCTTAGAAGCAGTGGCAAAAGAGGCGGGTGTAAGTAAAGGTGGATTATTGTATCACTTTGCAAATAAAGAAGCTTTAATAGAAGGTATGATAGTCAGAGGGATAGAGGATTATGAGGGCGCTATTTACAATAAAGTAGCGGAAGACTCAGAGAGGAAAGGGAGATGGGTTCGCTCTTTTGTAGAGGAAAGATTAAGTAATGAGAGAAGAACAGAAGAGTTGTCTAGTAGTATGATGGCAGCATTCATGTTAAAACCTGAATTACTTGAGCCATTACAACAATCATTTCAGCAACTGCAAAAGAATATAGAAAACGATGAGATAGATTCAGTTTGTGCAACAATTATTAGATTAGCAGCAGATGGATTATGGTATTCGGAATATTTAGGGGTTGGCAGACTAAGCCCCGAGTTAAGAGAAAAAGTGATTCAAGCTCTTATTGATAATTCATATAAATAG	MSISITRQKILAAASQIVQCKGVAKLTLEAVAKEAGVSKGGLLYHFANKEALIEGMIVRGIEDYEGAIYNKVAEDSERKGRWVRSFVEERLSNERRTEELSSSMMAAFMLKPELLEPLQQSFQQLQKNIENDEIDSVCATIIRLAADGLWYSEYLGVGRLSPELREKVIQALIDNSYK				NA	NA	NA	NA	NA
AK009_04267	426			hypothetical protein	GTGAGCAAATTTTTAATACCGTATTCATTTTCTATATTAAGTTTCTTTATTTCAGCAACAGCACTTGATTTATATGATAGGATGGGAAACGATAGTGAGCTGGTTTCGCCGAACATAATTGGAAAGATAATTCAATCTACTGCGCAAATGGGAGTCCTTACATTGTATTTCGGAGTACCTATTATTTTAGGTGGCTGTCTACTTGGTGAGCTATTGTTTAGAGGTATCATTTTACGATTTAAACTAAGCTATATTATATCTTTATTATTATATCTATTTTTAGCTTTTAGTATTGTTTTCGTAACGGTAGGCATTCCAACTACATATGAAGATTCTAATACATTTTTCATAGGGATAACTATGATTTGTGCTGTTACATTCTTTGTGAGTCGGAATATATGGGAAAACAAGTTAATAATGGAGTGA	MSKFLIPYSFSILSFFISATALDLYDRMGNDSELVSPNIIGKIIQSTAQMGVLTLYFGVPIILGGCLLGELLFRGIILRFKLSYIISLLLYLFLAFSIVFVTVGIPTTYEDSNTFFIGITMICAVTFFVSRNIWENKLIME				NA	NA	NA	NA	NA
AK009_04268	654			hypothetical protein	ATGATAAGTCAGTTGAAAAGAGAAGCACTTGATGCATTAAAAGGAAGATGGGGATTAGCGGTAGGGGCAACTTTATTAATTGGAATCCTTATTGGAGCTGTTGAAATGCTAACCACAGGTATTTTTTCGATATTTTGGGGTTGGGAAGAAGCAAGTGATTCACTCACAGTAAGTATTATTGTAATGCTTGTTATTGGTCCATTAACAATAGGTGCCTATTATCTTGTTTTAAATGCAATTCGTAGGACTGATGCTCGCATTGGTCATATATTTAGATGGTTTAGCGATGGAAGTAAGTTGATGAAGTCGTTTTTAACATATTTACTAATGTATGTATACTTGACTCTATGGACATTACTTCTTATTATTCCAGGTATTATTAAATCATTTTCTTATTCTATGACATATTTTATTTTGAATGATCATCCAGAATATACAGCGAATCAAGCGATTACTGAGAGTCGTCATATGATGAATGGACATAAAATGGATTACTTTTTACTATGCTTAAGTTTCTTAGGCTGGTTCATATTAAGTATTCTTACTATAGGAATCGGTTTCTTATGGTTAGTACCTTATTTCTACTCGACATCGGCAGCATTTTATGAAGAGATTTCAAAAGAATATTATAAAAAAGAGAGCACTACTTTCTAA	MISQLKREALDALKGRWGLAVGATLLIGILIGAVEMLTTGIFSIFWGWEEASDSLTVSIIVMLVIGPLTIGAYYLVLNAIRRTDARIGHIFRWFSDGSKLMKSFLTYLLMYVYLTLWTLLLIIPGIIKSFSYSMTYFILNDHPEYTANQAITESRHMMNGHKMDYFLLCLSFLGWFILSILTIGIGFLWLVPYFYSTSAAFYEEISKEYYKKESTTF				NA	NA	NA	NA	NA
AK009_04269	1443			hypothetical protein	ATGTATAAGAGGCAGCATCCAATCACGATGTTATTAGAATTGAAAATAACAGATTTTATACCACTCATTATTTTCATGTTTAGCTTAAACGGAAAATTCCCGTTTTGGTATTTAATTCCCGCAGCATTTGGTTTACTCACCGTTTTTTCAGCATTTGAAAAATGGTATTACACAACATATTGGGTTGAAAATAACGTATTACATGTGAAAAAAGGTCTCTTCGTGAAAAAGGAGAGCTACTTAAATAAAGAACGTGTTCAAACGATTAATACAAGTTCTAACGTACTATATCAAATGCTCGGTTTGAAAAAAATTCAGATTGAAACAGCTGGTGGGGGCGATGAAGCAGAAGTTAGCTTAGCTGGTATTACGGCAGAAGAAGCGGCGGAGCTTATTGCTTTGCTAAATGAGCCAACTCCAGAAGTGAAAGCAGAAGGAACGTTAGACGAAGCAACAGAAAATGTAGTAGAAAAAGCAATTGTTACAGAGGAAAAACAAACGACAGAATATAAATTAACTTGGAAAGAGATTTTATTAGCATCTGTTACATCTGGTCAATTTGGACTATTATTCTCTTTAATCTTTTTCGTTTATCACCAAGTAGATGAGTACATTCCGAAATGGATAGAGAATGGCGTAAAGTCGTATGTAATGGAACATGATATATATGGCTGGATTTTCATGGTAGCCATTTTACTCGTTCTTTCTTGGATTATATCTACAATCGGTTACGCGTTAAAACATGGCGATTTCACAGTGAATCGAAGAAATGACGAAGTTCGCATTTCACAAGGATTACTTGAGAAAAAAGAGCTCGTACTAAAATTGCATCGTATTCAAGGTATTACGATAAAAGAAAGTATTTTACGCCAACCATTCGGTTATTGTGCTGTGCAAGTAGAAGTCATTCAAAGTGAGGGAAAAGAAGAAAAAGTTACACTGCATCCTATCATTCGAAAAAATCGAGTGCAACAGTTACTCGCCCATTTACAATTACCATACGAACTGAATGCAAACATTATTGCATTACCAAAAGCAGCATTGCGCCGCTATCTCATTGATAGTTTTATCTTCTTCGCAATGCTAGCAATCCCGCTTCTTGGAATAAGTATATACTCTGAAAAGCACTTCATCATGTGGGCATTAATTCCGCTCGCAATCCTTATCTTTACACTTGGATACGCAACATTTAAAACAAATGGTTACAGTGTTAACGGAGAACAAATTACACTTGTCTATCGTAGCGTCGGAAAATACACAGGACTTATTAGAAGAAGACACGTCCAATCAATGGAGAAGACACAATCATATTTCCAGCGCCGCGCGGATTTATGTACGTATAAGTTTTCTAGTGCATCATCTAGTTATAAAATAGAGCATACGAGAGTAGAAGACGCGGAGAGAATGCAGGATTGGTATAAGAAGAGAATGAGGGAGGAATAA	MYKRQHPITMLLELKITDFIPLIIFMFSLNGKFPFWYLIPAAFGLLTVFSAFEKWYYTTYWVENNVLHVKKGLFVKKESYLNKERVQTINTSSNVLYQMLGLKKIQIETAGGGDEAEVSLAGITAEEAAELIALLNEPTPEVKAEGTLDEATENVVEKAIVTEEKQTTEYKLTWKEILLASVTSGQFGLLFSLIFFVYHQVDEYIPKWIENGVKSYVMEHDIYGWIFMVAILLVLSWIISTIGYALKHGDFTVNRRNDEVRISQGLLEKKELVLKLHRIQGITIKESILRQPFGYCAVQVEVIQSEGKEEKVTLHPIIRKNRVQQLLAHLQLPYELNANIIALPKAALRRYLIDSFIFFAMLAIPLLGISIYSEKHFIMWALIPLAILIFTLGYATFKTNGYSVNGEQITLVYRSVGKYTGLIRRRHVQSMEKTQSYFQRRADLCTYKFSSASSSYKIEHTRVEDAERMQDWYKKRMREE				NA	NA	NA	NA	NA
AK009_04270	477			hypothetical protein	ATGGATCCATTGAAAAATGAAATTAACCCTGACATGGTCAAAGTGTGGAAAATTCGTGCTGTAATTGAAGAAGGGATCGGTATACTCGTCATTTTAGCTTACCTTTTCCTCATGATAAAGTTTGATTGGTGGGCGTGGATTTTGTATGTGATGATTGGGCTAACAGTTGTGTTCGCGCCATTTTCGTACTTCTTATTCCCGAAACTACGTCAACGTTATTACAGCTACCAACTAAATGAAGAAGAACTTGAAATTCAGCATGGTCTTTTCGTCGTAAAGCGCGTATTAGTACCGATGATTCGTGTGCAGCACGTTACGATTGAACAAGGACCAATTATGAGAAAATACGGATTAGCAGAATTACACATTTCAACAGCAGCAACTTCTCACAGCATTCCAGGCTTAACGATGTATGAAGCAGAAATGTTGAAAACGAAAATCGCAGAATTAGCGAAAGTGAGTGATGAGGATGTATAA	MDPLKNEINPDMVKVWKIRAVIEEGIGILVILAYLFLMIKFDWWAWILYVMIGLTVVFAPFSYFLFPKLRQRYYSYQLNEEELEIQHGLFVVKRVLVPMIRVQHVTIEQGPIMRKYGLAELHISTAATSHSIPGLTMYEAEMLKTKIAELAKVSDEDV				NA	NA	NA	NA	NA
AK009_04271	168			hypothetical protein	ATGAAAATGCAAAAAAACTGGTGGCTCGGTTTTCTTGGATTCATTGGAGTTTATAAAATTCCAGGCATGATAGAGGCTTTTCAAGCAGATGGAAGTTGGATGAAGTTAATCGGTTTTATTTGGCTACTTTGGTTCGGATATTTTATTCCAGAGAGGAAAGAAGATTAA	MKMQKNWWLGFLGFIGVYKIPGMIEAFQADGSWMKLIGFIWLLWFGYFIPERKED				NA	NA	NA	NA	NA
AK009_04272	582			hypothetical protein	ATGACAAAGAATTTACAAACATCGCAAAACATTGTCGAGGCATCATTTAAACTCATGGCAGAGCACGGCATTGAGAAGATGAGCCTTTCCATGATTGCGAAAGAGGTAGGTATTTCAAAACCGGCTATTTATTATCATTTTTCTTCTAAAGAAGCGTTAGTCGATTTTTTATTTGAAGAGATTTTTTCTGATTATCATTTTGCAAATTACTTCGATAAAGAGCAGTATACGAAAGAAAATTTTGCAGAAAAGCTAATCGCAGATGGTTTACATATGCTCTCTGAGTATGAAGGGCAAGAAGGAATACTACGCGTTATCAATGAATTTATCGTAACTGCATCGCGAAATGAAAAGTATCAGAAACGATTATTTGAAATACAAGAGGATTTCTTACATGGTTTCCACGATTTATTGAAGCAAGGCGCGAGACTGGGCGTTGTGTCACAACATGCAACGGAAGAAAACGCTCATACGCTAGCGCTTGTGATCGATAATATGAGCAATTATATGCTCATGGGATTTCAGTTAAAATATAAAGAAATTTGGATTCGAAATGTGAAAAGCGTCATGAAGGAGGAGTAA	MTKNLQTSQNIVEASFKLMAEHGIEKMSLSMIAKEVGISKPAIYYHFSSKEALVDFLFEEIFSDYHFANYFDKEQYTKENFAEKLIADGLHMLSEYEGQEGILRVINEFIVTASRNEKYQKRLFEIQEDFLHGFHDLLKQGARLGVVSQHATEENAHTLALVIDNMSNYMLMGFQLKYKEIWIRNVKSVMKEE				NA	NA	NA	NA	NA
AK009_04273	708			hypothetical protein	ATGATTACATATGAAGAAAAGGTTATAAAAGAACTGGAGCAGTGGAAAGCTACATTCATGAAAGATTCTTCTATGATGACACGGTTCTCAAAGAAAGTGCAGACGAAAGTACAACAGCTTATTCCGGCGAAAGTGCAAAAAGTCTTAACAGAAACGATTCGGATGATGGTGCAAACGATCAGCGCCGGATCAAACTTTATAAAGCCGAAGCTAAAAGAGACGACATGGTCACTGCAAAGACGTGATGACGAAGTGCGTAAAAAAATGGATGAGTACAAAAAAATAGCTGCGGCAGAAGGAGCAGGGACGGGGGCTGGTGGTATTTTACTCGGTCTTGCTGACTTTCCGCTTTTACTTACGATTAAAATTAAATTTTTATTCGATGCAGCAACGTTGTATGGATTTGATACAAGTAAACAAGAAGAGCGTCTTTTTATTCTTCACGTTTTCCAACTCGCCTTTTCAAGTGACAATCACAGAAAAGAAATATGGAAAGCAATTGAAACGTGGGATACAGAAAAAGAAAATCATATGGACTGGGAAAAGTTCCAAACAGAATACCGAGACTATATCGATTTAGCGAAAATGCTTCAGCTCGTACCAGTAATCGGTGCCCCGGTAGGCGCATATGCGAACTATCAATTGCTGCAAAGACTTGGAGAAGTGACAATGAATTGTTATCGTATGCGATTGCTAAATAGAAAGTAA	MITYEEKVIKELEQWKATFMKDSSMMTRFSKKVQTKVQQLIPAKVQKVLTETIRMMVQTISAGSNFIKPKLKETTWSLQRRDDEVRKKMDEYKKIAAAEGAGTGAGGILLGLADFPLLLTIKIKFLFDAATLYGFDTSKQEERLFILHVFQLAFSSDNHRKEIWKAIETWDTEKENHMDWEKFQTEYRDYIDLAKMLQLVPVIGAPVGAYANYQLLQRLGEVTMNCYRMRLLNRK				NA	NA	NA	NA	NA
AK009_04274	1212			hypothetical protein	ATGAATAGCACAGCGTTATGGAAAGAACGATTTCGTCACTTTCTAAAAGAAGTTCGTACATATAGTAAATACGTATTTAATGATCATTTGAAATTTATTTTCGTGTTCATCATCGGTGCGGGAGCGTATTATTACCAGCAATGGTTACAAACGTTAACATCTTCCTTTCCAACTGCGCTCATAATGGCAGTATTAATTGGACTCGTGTTAACAGCTGGATCCATTCAAACGTTATTAAAAGAAGCGGATCTCGTTTACTTACTGCCAGTTGAAGAAAAGTTAAAACCTTACTTCACCAAGGCATTTCTTTTTACATTTATGATTCAGTTATACATAATCGCAATCGTAGCAGCTGCGCTTGCTCCGTTATACTTCCAACAAATGAAGCAAACCGGTGCTGGCTACATATGGATTGTCCTCGCATTTGTCATTGTAAAAGCGTGGAATTTATTCGTCGCGTGGGAAAAATCATTTTTAACAGATCAAAATATACAAAGAGTTGATTGGTTTATTCGTTTTATCTTAAACGGTTTATTTGTATATTTCCTTGTAGAACGTACTTCAGTTCTTGTTATTGGCGGAATCGTTCTGCTCATGGTGTTATATCTTGCTATCATGCATCAAATGGTAAAAGGAAAGCCGCTAAACTGGGAGTATTTAATTTCTGAAGAAGGTAAGAAAATGATGCTGCTGTACCGAATTGCAAATATGTTCGTTGATGTACCAGCATTAAAAGAAAGAGTATCTCGCCGAAAATGGCTGGATTTCATTCTGTCGATAATCGGCGAAAAGCGCACATATTTATACTTATATACGAGAACGTTTTTAAGATCAGGTAACTATTTTGGATTATATGTGCGTCTGCTCGCTCTTGGAGGAGTTATTCTTTACTTCATTCCATTTTTATACGGGCGATTTATCGTAAGTTTTATTTTCCTATACTTAATTGGCTATCAGCTATTAACTTTATGGAAACATCACCGCATGAAAATTTGGCTTGATTTGTATCCAGTAAAGGTAGATGAAAAGAAGAAAGATTTTCTTACTTTATTAAATGTGATTCTAATCATCGGGAGCGTAATCTTTACAGTTATATTTGCACTAGCAACGAAAGATTTCATGATGACAGGAATTTTACTTGTCGTAAGCATATTATTTAGTATCGGTTTCGTTTACCAATACGGTGCGAAGCGCATTGAACGTTTAAATTGA	MNSTALWKERFRHFLKEVRTYSKYVFNDHLKFIFVFIIGAGAYYYQQWLQTLTSSFPTALIMAVLIGLVLTAGSIQTLLKEADLVYLLPVEEKLKPYFTKAFLFTFMIQLYIIAIVAAALAPLYFQQMKQTGAGYIWIVLAFVIVKAWNLFVAWEKSFLTDQNIQRVDWFIRFILNGLFVYFLVERTSVLVIGGIVLLMVLYLAIMHQMVKGKPLNWEYLISEEGKKMMLLYRIANMFVDVPALKERVSRRKWLDFILSIIGEKRTYLYLYTRTFLRSGNYFGLYVRLLALGGVILYFIPFLYGRFIVSFIFLYLIGYQLLTLWKHHRMKIWLDLYPVKVDEKKKDFLTLLNVILIIGSVIFTVIFALATKDFMMTGILLVVSILFSIGFVYQYGAKRIERLN				NA	NA	NA	NA	NA
AK009_04275	744	ecsA_4	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGAGCGAGTTATTGCGTGTAGAAAATGTTACAGGAGGATATACGAAACGACCTGTATTAAAAGACGTTTCGTTCTCTGTTAATAAAGGCGAACTTGTCGGCTTAATCGGTTTAAATGGAGCTGGTAAAAGTACGACGATTAAACATATTATCGGTTTAATGGAACCGAAAAAAGGAACTGTCACAATTAATGGGAAAACAATTCGTGATGATATGACAGCGTACCGTTCTAGCTTTTCATTCATTCCAGAAACGCCGGTATTATATGATGAATTAACGTTAGAAGAGCATTTGAAATTAACAGCGATGGCGTACGGCGTCGATGAAAAACAATATGAAGAACGTGTAGGACAACTATTACATGAATTTCGAATGAAAAATCGTTTAAAATGGTTTCCATCTCATTTCTCAAAAGGGATGAAACAAAAAGTAATGATTATGAGCGCGTTTTTAGTTGAGCCATCTCTTTACATAGTAGACGAACCTTTCGTTGGATTAGATCCGTTAGCAATTCAATCTCTTCTTCAAATGATGGATCAAATGAAAAAGAGTGGAGCCGGTATTTTAATGAGCACACATATTTTAGCGACGGCAGAGCGTTATTGTGATTCGTTCATTATTCTGCATCAAGGTGAAGTAAGAGCGAAGGGAACATTAGCTGAACTGCAATCACAGTTTAATATGCCAGGTGCAACGTTAGATGATATTTACATCGCGCTAACAAAGGAAGAAGATTATGAATAG	MSELLRVENVTGGYTKRPVLKDVSFSVNKGELVGLIGLNGAGKSTTIKHIIGLMEPKKGTVTINGKTIRDDMTAYRSSFSFIPETPVLYDELTLEEHLKLTAMAYGVDEKQYEERVGQLLHEFRMKNRLKWFPSHFSKGMKQKVMIMSAFLVEPSLYIVDEPFVGLDPLAIQSLLQMMDQMKKSGAGILMSTHILATAERYCDSFIILHQGEVRAKGTLAELQSQFNMPGATLDDIYIALTKEEDYE	PGPT0006725_27934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_04276	435	hit_1	COG0537	Protein hit	ATGAATCATACAGCAGACAATTGTATTTTTTGTAAAATCATTGACGGGCAAATCCCTTGCTCAAAAGTATACGAAGATGAACATGTGCTTGCATTTTTAGATATTAGTCAAGTAACAAAAGGACATACTCTTGTTATTCCGAAAGTTCACAAACAAGACATTTTTGCGTTAACGCCAGAAATCGCATCACACATTTTTTCTGTCGTTCCAAAAATCGCAAATGCGATTAAAGCAGAGTTTAATCCAGTTGGCTTTAACCTACTTAACAATAACGGTGAAAAAGCTGGACAAACTGTGTTCCACTTCCACCTTCATTTAATTCCACGCTACGGTGAAAAAGATGGTTTCGGTGCTGTTTGGAAATCACACCAAAATGAATACACTATGGAAAATTTACAAAACATCGCAAGTACAATTGCAAATAGTGTGAAATAA	MNHTADNCIFCKIIDGQIPCSKVYEDEHVLAFLDISQVTKGHTLVIPKVHKQDIFALTPEIASHIFSVVPKIANAIKAEFNPVGFNLLNNNGEKAGQTVFHFHLHLIPRYGEKDGFGAVWKSHQNEYTMENLQNIASTIANSVK	PGPT0021690_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710	NA	NA
AK009_04277	363			hypothetical protein	ATGTCAAAAGCTAAATCCTTTATTACAGGTGTTATTTGCGGGGGAGCAGTTGCTGGACTAGCCGTTCTTTTCTCAACTCCTTCTTCTGGTAAAGACATGCGCGGCAAGTTAAAAGAAAAAGGAAATGATATTAAAAAGACTTTAGCTGATATTACAGCTGATACGAAATTATTAAAGCGTCAAATTGTTGAAACTGCTTCAGAAGGTAAAGAAGTGTTTCAAGAACTAAAAGATGACATGCAAGACACGCTTTCTAACTGGAAACAAGATCTTTCTCAAAACAAGCGCCATATTGAGAAAGAAATTTTGGACATCCAAAAGTCAATTGAGAAACTACAAGAAGCTGTTCCAGAAAAAGCGTAA	MSKAKSFITGVICGGAVAGLAVLFSTPSSGKDMRGKLKEKGNDIKKTLADITADTKLLKRQIVETASEGKEVFQELKDDMQDTLSNWKQDLSQNKRHIEKEILDIQKSIEKLQEAVPEKA	PGPT0015027_218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
AK009_04278	558	hpr	COG1846	HTH-type transcriptional regulator Hpr	ATGAAAAGTGGAGAAAAAGATTACTCGGTAAAAGAAGCGATGATTTTCAGCCAACGCATTGCTCAATTATCGAAAGCGTTATGGAAATGTGTAGAGAAAGATTGGCAGCAGTGGATTAAACCTTACGATTTAAATATTAATGAACATCATATTTTAACAATCGCTTATCATTTAAAAGGGGCTTCTATTTCTGAGATTGCTAAGTTTGGAGTTATGCACGTATCAACGGCGTTTAACTTCTCTAAAAAGCTTGAAGAACGCGGCTATCTTGTATTCTCAAAAAAGGAAGATGATAAACGAAATACGTACATTGAAATTACAGACAAAGGGGAAGAATTACTACTTCGCTTAATGGAGGAGTATGATCCTGAAAATAATTCAGTGTTTAATGGGGCTCTTGCACTTCGTAATTTTTATGGGAAGTTCCCAGAAAATATCGAACTGATTGCAATCCTGCGTAATATTTACGGACAAGACTTCATCGATATTTTTGAGAAATCATTAGAAGATATTGAAGAGAACTTTACAGAATCCGATCAAAAGTTAGTTAAGAAATAA	MKSGEKDYSVKEAMIFSQRIAQLSKALWKCVEKDWQQWIKPYDLNINEHHILTIAYHLKGASISEIAKFGVMHVSTAFNFSKKLEERGYLVFSKKEDDKRNTYIEITDKGEELLLRLMEEYDPENNSVFNGALALRNFYGKFPENIELIAILRNIYGQDFIDIFEKSLEDIEENFTESDQKLVKK	PGPT0012755_127	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012755-scoC|hpr-K09682	NA	NA
AK009_04279	336	yhaI		putative protein YhaI	ATGGACGTTGTTAGAAGATTAGAACAAGCTGAATACTACGTAGACCTACTATTTAAAATGATTGATGAAGAGAAGTGTCCATTTTATTCTTTGATCATAAAGAAAAAAGCTCGTAAAAAAGATATTGAACGTATACTAAATCTTTGTGAAAAACTGAACGAGCAATATGTAGTGGAGAAAGCAGAAGGGCTTCTTTTGTTCGATGCGCTGTTAGATCAATTTGAAAAAGCGCTTCCACATCAGCTCGAAGTAAACGAAACTGCGGAAGCGCTAGCAAAACAAGGTTTATTTAAGCCGCTTATGAATGAATTCTTAAGCATGATTGCGAAAAAATAA	MDVVRRLEQAEYYVDLLFKMIDEEKCPFYSLIIKKKARKKDIERILNLCEKLNEQYVVEKAEGLLLFDALLDQFEKALPHQLEVNETAEALAKQGLFKPLMNEFLSMIAKK				NA	NA	NA	NA	NA
AK009_04280	195			hypothetical protein	ATGACACTTATAACAGTTGTTTTTGTCGCATTCGCACTTCTTGTTATATTTTACACGAATTTCATGACACATACACTGTGTGAACGAAAACAAATAGCTGCGAGCCGCCAGCCCGGTGTCTTTCGGGTTATTAATGTATGTATAACAATTTTATTAATTTCTAGTTATATAGAAATTATATTTCATGGAAAGTGA	MTLITVVFVAFALLVIFYTNFMTHTLCERKQIAASRQPGVFRVINVCITILLISSYIEIIFHGK				NA	NA	NA	NA	NA
AK009_04281	870	prsA1	COG0760	Foldase protein PrsA 1	ATGAAGAAAGCTATGCTTGCCTTAGCCGCAACAAGTGTAATCGCATTATCAGCATGTGGAACATCATCATCAGACAAAATCGTTACATCTAAAGCTGGTGACATTACAAAAGAAGAATTCTACGATCAAATGAAGACACAAGCTGGTAAACAAGTACTAAACAACATGGTTATGGAAAAAGTTCTTATTAAAAACTACAAAGTTGAAGACAAAGATGTAGACAAAAAGTTCGATGAAATGAAAAAACAATACGGTGATCAATTCGATACACTAATGAAACAACAAGGTATTAAAGAAGAAACTATCAAAAATAGTGTGCGTGCTCAATTAGCTCAAGAAAAAGCGGTTGAACAATCGATTACTGATAAAGATGTAAAAGCAAAATTCGAGGATTATAAAAAAGAAATTAAAGCAAGTCATATCCTTGTAAAAGATGAAGAAACTGCTAAAAAAGTGAAAGATGAACTTGCTCAAGGTAAATCTTTCGAAGAATTAGCAAAGCAATACTCTGAAGATACAGGTTCAAAAGAAAAAGGTGGCGACTTAGGATTCTTCGGACCAGGGAAAATGGTAAAAGAATTTGAAGAAGCAGCTCAAAAGTTGAAAAAAGATGAAGTAAGCGAACCTGTAAAAACACAATTCGGTTACCATATTATTAAAGTAACTGATAATCACGCAGATGCAACTTTCGATAAATCAAAAGCTGATATTAAAAAATCACTAGCTCAAGAAAAAACGCAAGATGCTCAATTTATGAATGACTTAATGATGAAAGAAATCAAAAAAGCTGACGTAAAAGTTGACGATAAAGATTTAAAAGATCTTTTCAAAGAGCAAAAAGCTGACGATAAAAAAGAAGAAAAGAAATAA	MKKAMLALAATSVIALSACGTSSSDKIVTSKAGDITKEEFYDQMKTQAGKQVLNNMVMEKVLIKNYKVEDKDVDKKFDEMKKQYGDQFDTLMKQQGIKEETIKNSVRAQLAQEKAVEQSITDKDVKAKFEDYKKEIKASHILVKDEETAKKVKDELAQGKSFEELAKQYSEDTGSKEKGGDLGFFGPGKMVKEFEEAAQKLKKDEVSEPVKTQFGYHIIKVTDNHADATFDKSKADIKKSLAQEKTQDAQFMNDLMMKEIKKADVKVDDKDLKDLFKEQKADDKKEEKK				NA	NA	NA	NA	NA
AK009_04282	2337	helD_2	COG3973	DNA helicase IV	ATGAACAAAAAACTTGATCTAGAGCAAAAACGATTGGATACCGTAATCGAAACTATTACGCAGCAAATTGATAAGCTGGAAAACGAAACTGGCAGACGCCGGGCAGAAGTAATCAACATCCGTAAACACTTCTGGGATGACGTTAAAGTGAATACAGATACTTTTGATGATTACCTTGAAACAGTTATCAACTTAAGACAACAAGCTCAATCACTAGCTGTTACACAAATCACCCATAAACACACCTTTAATCGACTTGCCGCGCTGCGACGTATGCAAAAAGCACCTTACTTCGGACGCATCGATTTCACTGAAGAAGGCGAACCTTCCACAGAACAAATCTATATCGGTGTTTCTACCCTTACTGATGCAAGCGGAGAAAACTTTCTTATTTATGACTGGCGCGCCCCAATTTCAAGTGTTTATTACGACTACCCACCAGGACCAGCTGAGTACAACACACCAGGCGGCGTAATTCGCGGTAATGTGGAGAAAAAATTACAATACATTATTCAAAATGGCGAGATTGATTCCATGTTCGATACGAGCCTTACAATTGGCGATGAAATCTTGCAACAAGCACTCGGAAAAGGTACGAACAAACATATGCAAAGTATCGTCGCTACGATTCAGCGTGAGCAAAATGAAATTATCCGTCACGATGAAGGCCGACTCCTTATCGTTCAAGGAGCTGCTGGTAGTGGTAAAACATCTGCTGCCCTTCAGCGAATCGCCTACTTACTATATAAATATCGCGAATGGCTAAAAGCGGATCAAATTATTCTCTTCTCCCCTAACTCTATGTTCAATAGCTACGTATCTAACGTACTACCTGAACTCGGTGAAGAAAATATGCAGCAAGTAACATTCCAAGAATATTTAAACCATAGACTAAGTAAGTCATTTGATGTTGAAGACCCTTATGAGCCATTGGAATATATGTTAACTGAAACGAATAGCCCTACCTATAAAACGAGAAATGCGAGCATCCGATTTAAAGCATCCACTCAATTTTTCGAGATGATTAGAGCGTACAGACAATCTCTTGAATCTTCAGGCATGCTATTTAGAGGAATGAAATTTAGAGGAAAACTGATCGTCTCTGCAAAAGAGATTACAGAGCAATTTTATAATACTGACTCCTCCCTCCGCTTCCATAGTCGAATTGAAAAGTTAACGGATTGGCTAAATAAACAAATAGATGCACTCGAAAAAGCAGAACTGAAAAAGCCTTGGGTAGAAGAAGAAATTGAATTACTTAGTAAAGATGAATACCAAAAGGCTTATAAATATTTACAGAAAAAAGGCGAGTTTGACGACAACTCTTTTAATGACTATGAGAAAGAAACGAAAGTCCTGGGACGTATGATTGTCCGTAAAAAATTGAAGCCACTTCGTAAAGGCGTTCAAACACTGCGCTTCATCAATTTCACAGGAATCTATAAACAACTCTTCACAGACGCATCGTGGGTTACTGGAGAAAAACCGAAAGAATGGGATGACATTTGCTCTTTAACGGTAAACATGCTTGATGAAGGAAAGCTATATTACGAGGATGCGACTCCATTTTTACTTTTAAAAGAATTAATCGAAGGCTTCCAAACGAATAGATCGATTAAACACGTACTCGTAGACGAAGCGCAAGATTATTCGCCGTTCCAGTTCGAGTTTTTAAAACGTCTCTTCCCTGCCGCAAAAATGACGGTACTCGGAGACTTTAATCAAGCGATATTTGCCCATGCAAGTGAAGCAGTGAATTTCAATACACTTACTAGCTTATACGGACCGGATGAAACGAACGGTATTAACTTAACTCGTAGCTATCGCTCAACAAAACCGATTATTGAATTTACACGTGCTCTCGTACCGGAAGGCAAGAACATTCACGCCTTTGAACGTGACGGCGAGAAACCTACAGTGACGAAAGTAGCGAATGAGAGCGAACTGCACGAACATATTACTGCCAAAGTTGCTGAACTACAAAAAGAGCAACACAATACAATCGCAATTATATGTAAATCCGCAGCTGAAAGCGCCGCTGCATACGAAGCACTTAATCATATCGATAATATTAAACTCGTGAAGAGTAACTCAGCCGAGTATGAGCAAGGCATTGTCGTAATCCCTGCTTACTTAGCGAAAGGTATCGAATTTGACGCTGTTATTATTTACAATGCTTCTAAAGATGTGTACAGCGATGAGAGCGTTCGTAGATTGTTCTACACTGCTTGCACACGCGCGATGCATGAGTTGCACCTTTATAGCGTTGGTGAGGTTAGTCCTTTTGTGCTTGGGGCTGATTCGTATAGTTTTGAGCTAATAACTAAAACACCTTGA	MNKKLDLEQKRLDTVIETITQQIDKLENETGRRRAEVINIRKHFWDDVKVNTDTFDDYLETVINLRQQAQSLAVTQITHKHTFNRLAALRRMQKAPYFGRIDFTEEGEPSTEQIYIGVSTLTDASGENFLIYDWRAPISSVYYDYPPGPAEYNTPGGVIRGNVEKKLQYIIQNGEIDSMFDTSLTIGDEILQQALGKGTNKHMQSIVATIQREQNEIIRHDEGRLLIVQGAAGSGKTSAALQRIAYLLYKYREWLKADQIILFSPNSMFNSYVSNVLPELGEENMQQVTFQEYLNHRLSKSFDVEDPYEPLEYMLTETNSPTYKTRNASIRFKASTQFFEMIRAYRQSLESSGMLFRGMKFRGKLIVSAKEITEQFYNTDSSLRFHSRIEKLTDWLNKQIDALEKAELKKPWVEEEIELLSKDEYQKAYKYLQKKGEFDDNSFNDYEKETKVLGRMIVRKKLKPLRKGVQTLRFINFTGIYKQLFTDASWVTGEKPKEWDDICSLTVNMLDEGKLYYEDATPFLLLKELIEGFQTNRSIKHVLVDEAQDYSPFQFEFLKRLFPAAKMTVLGDFNQAIFAHASEAVNFNTLTSLYGPDETNGINLTRSYRSTKPIIEFTRALVPEGKNIHAFERDGEKPTVTKVANESELHEHITAKVAELQKEQHNTIAIICKSAAESAAAYEALNHIDNIKLVKSNSAEYEQGIVVIPAYLAKGIEFDAVIIYNASKDVYSDESVRRLFYTACTRAMHELHLYSVGEVSPFVLGADSYSFELITKTP				NA	NA	NA	NA	NA
AK009_04283	1254	mrdB		Peptidoglycan glycosyltransferase MrdB	TTGAATCAAAAAGGGGAGCGTTTTTTAAAAGAAGTTACGAATCATATTAAATCAAAAGAAGCGAAGGACTTAGTAGCAACGGAACTAGATTTTCACTTGAAACAGACGAAGAATATGTGGATAGAGAAAGGCTTAAGTGAGGAAGTTGCTGAAGATAAGGCTGTTGAACAAATGGGAAGTCCAATTAAGCTTGGCCAGGAACTTAATAAACTACATAAGCCAAAGGTTGATTGGTTCTTAATTGGTTTATTAGTGGCTGCGATGGGGCTAGGTTTTTTGCCAGTTATAGCGCTTGGACATGCTGACTTATTAATGAATAAGGTGATATTTGTAATTCTCGGTGTTACAACAGCGATTGGGATGATGCTATTTGATTATCGGAAGTTAGAGAGGCTTGGGTGGCTGTTTTATACAATTGGTGTACTTATCTTGTTAATGATAAAATGTTTTCCGACTGCTTCTTTGAATGGAGAACCATTACTAAAAATTGGTTCCGTCATAATTGATTGTTTAATGACAATACCATTCTTTTTTCTAGGCTGGGCTTCTTTTTTCAATAACAGTAGATTAAAGCTTATGCATCTTCTCATGTTGTACGTATTTTCTTTATATCTATTTTCAACTACATCAACTCTTTTACCACTGTTCATCTATATCACGATGGTATTTGTTATGCTTTGGTGGAGTAAGTTAGGAAAGAAAACGGCATGGCTCATTACGATTTTACCTATTGTACCATTGATTATTAGGGATCTACTTTCCTGGTCTGCTGTAAAAGAATACCGTATGGCCAGAATTTTAGGAATTTTAAATCCAGAGCATGATCTATGGTATTTACGTTTAAAAGAGGCGATGTCTTCAGCAGGTTGGTTTGGTACATATGAAAATATAAAGTCTATCCGTGCTGCCCATACTGATTTTGTATTTGCAAGTTTGACTTACTATTATGGATATGTACTTGCGCTAGTTCTTGTCGTGATTCTTTCTCTTTTTGCAGTAAGAATAATGAACATAGCTTATAAAATAAATGATGGTTATGGTAAATTGCTTCTCGTTGGCGGAGTGACTCTTTTTGTAATCCATTTTATTTGTAATGTTGGCATGACCCTCGGGATATTACCACGTGTTTCTATATCATTACCATTTATTAGCTACGGATTGATACCAACTCTGTTTCATGCATTTATAATGGGAATTGTGTTAAGTGTATATCGACGTAAAGATATTCCTTTTAGAATGAGAAAAACACCTTGA	MNQKGERFLKEVTNHIKSKEAKDLVATELDFHLKQTKNMWIEKGLSEEVAEDKAVEQMGSPIKLGQELNKLHKPKVDWFLIGLLVAAMGLGFLPVIALGHADLLMNKVIFVILGVTTAIGMMLFDYRKLERLGWLFYTIGVLILLMIKCFPTASLNGEPLLKIGSVIIDCLMTIPFFFLGWASFFNNSRLKLMHLLMLYVFSLYLFSTTSTLLPLFIYITMVFVMLWWSKLGKKTAWLITILPIVPLIIRDLLSWSAVKEYRMARILGILNPEHDLWYLRLKEAMSSAGWFGTYENIKSIRAAHTDFVFASLTYYYGYVLALVLVVILSLFAVRIMNIAYKINDGYGKLLLVGGVTLFVIHFICNVGMTLGILPRVSISLPFISYGLIPTLFHAFIMGIVLSVYRRKDIPFRMRKTP				NA	NA	NA	NA	NA
AK009_04284	408			hypothetical protein	ATGGAAGATCGATTAAAAGGCTTGCGAAAATCAATGGAGAACACAACGTTTAAACATTTGAGTTTTTCTGATCAACACCAGAAGCAGGTGCGCGAAAAAATCAAGCAATCGTCCGAAAAGGAAGAAGATATCCTTTTAGCAGTGTTACAACTTCTTATGAATGAAAAAACAGGTTACGAATTAATGCAGTTACTAAGAGGGAGAGGGATACGAAAATTTGAAGGCAATGAAGGGTCGCTATACACTGTATTACATCGTCTAGAACAGAATCGCTTTATCCAATCTAGCTGGGATCACGCAGGAGCTAAATATTATCAATTAAATGATAAAGGAAACAAGATGCTGCGAAAGGCAGAGAAGAATGCTACGAAGGCACGATTTATATTAAAAGGATTAGTACAGGAGTGA	MEDRLKGLRKSMENTTFKHLSFSDQHQKQVREKIKQSSEKEEDILLAVLQLLMNEKTGYELMQLLRGRGIRKFEGNEGSLYTVLHRLEQNRFIQSSWDHAGAKYYQLNDKGNKMLRKAEKNATKARFILKGLVQE				NA	NA	NA	NA	NA
AK009_04285	324			hypothetical protein	ATGGTTATGGAGAATTGCAATCAATGTAAGGACTATTTAAAAAGTTGGTATAACAAAAAAGTTATCGTGACAGAGGATGACTTTACGTATATGGAGAGTCAAAAAGAAAGTGTGGAACAAACTGTCATTCAAAATGCGGAGGATCGTGAACTGGCTTCTGCAGTAATGAGTTTACCGATAAAATATCGAGAAGTGATTTATCTATTTTATTATGAGGAATTATCAATTAAAGAGATTGCTACAGTAATAGAAGTAAAGGAAAACACGATAAAAACGAGACTGAAAAAAGCGAAGGAACTTTTGAAGGAAGGATTGGAGGAATAA	MVMENCNQCKDYLKSWYNKKVIVTEDDFTYMESQKESVEQTVIQNAEDRELASAVMSLPIKYREVIYLFYYEELSIKEIATVIEVKENTIKTRLKKAKELLKEGLEE	PGPT0014960_10538	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_04286	246	algU_2	COG1595	RNA polymerase sigma-H factor	GTGGATGAATTAACGATAGAAGCGTTTGAAATAGAAGATAAGGAGGACCTTATCGACGAAATAATGAACAAGTATGGACAAGAAGTCCTGCAGCTTGTGTATTCGTATGTGAATAATAAAGAGGTTGCGGAGGATTTAACGCAAGATATATTCGTGAAATGCTATAAATCTCTTCATACATATAAAGGGAATTCGAATTTGAAAACATGGTTATGGAGAATTGCAATCAATGTAAGGACTATTTAA	MDELTIEAFEIEDKEDLIDEIMNKYGQEVLQLVYSYVNNKEVAEDLTQDIFVKCYKSLHTYKGNSNLKTWLWRIAINVRTI	PGPT0014960_10481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_04287	165			hypothetical protein	ATGATCGCGATGTTTGTAATTAAATTAGTGTATGGTATCCTAACCGGAGCTGGCGTTGTCATCGGTAGAAGATACGTCGGTCCGTGGCTAATTTCTGTATACAAAAAAGCGAGAACCACCCTGCTTCGTGGAAAAGGTAAGGGCGGTTCTCGGCTAAAACGTTAA	MIAMFVIKLVYGILTGAGVVIGRRYVGPWLISVYKKARTTLLRGKGKGGSRLKR				NA	NA	NA	NA	NA
AK009_04288	777			hypothetical protein	ATGAGTGAATTTGATGAGTATATTAAGTCTATTTTAGCCTATTCAGAACTTAGTGATATTGAACAGGATGAGTTATTTCTAGAAATGTATGATCACTTGAACAGCTTGAAAGAAGAATATATGGAACAAGGTATGAATGAAAAAGAAGCGATTTATAAAGCAATTCAAAGTTTTGGAGAATCAAAATTTATTGGCGTAGAGATTAATAAATCGGTATACGAAGTTCCTAGGCCATTAAAGGTATTATCAAAAATTTTATGTATTCCTTATATAATCATTTGTTTTATTGTCTTTTTAGGAACGTTTATTTCAACTTCTACATTTGACTCTGTTCGCAGTTTGACAGGTGGTGGGACTGTCTATCATCCCATTGAATTTTGGCAGCAATTTTTACATATATCTGATTTAGAAACGTTATTACAACTTTTTGGAATAACACTTTGGCAAGTTAAAGATTTTATTGCACATCCAGGTCTTTGGGGAAACTCAACTTATTGGTTAAGCGTTTTACAACATATAATATTAGTAGTTCCATTCGGATTTTTCGTTCCAGTGCTGATTAATAAAGTGACTAACTATAAGAAAGCTCGTAAGTGGTATGTTATGACCTTTCTTGTTTGGGAGATATTACATTTACTAACTTTGTCTGATGTTTTTGATGTGTGGCGGATTGGTATAAATATGCTCGGTGCGTCGGTAGGATATCTTTTATTTATAAGCATGATACAAATAGATAATAAATTCAGGATAATGCGCAAGAAGATATTTGAAAATTAG	MSEFDEYIKSILAYSELSDIEQDELFLEMYDHLNSLKEEYMEQGMNEKEAIYKAIQSFGESKFIGVEINKSVYEVPRPLKVLSKILCIPYIIICFIVFLGTFISTSTFDSVRSLTGGGTVYHPIEFWQQFLHISDLETLLQLFGITLWQVKDFIAHPGLWGNSTYWLSVLQHIILVVPFGFFVPVLINKVTNYKKARKWYVMTFLVWEILHLLTLSDVFDVWRIGINMLGASVGYLLFISMIQIDNKFRIMRKKIFEN				NA	NA	NA	NA	NA
AK009_04289	399			hypothetical protein	GTGGTTTTTTTATGGGTTATTTTTCTAACTATGTTGTTATACTATGTATATAAGGTGGTGGTATTGTTGGACAAAGAAATCTTGAAGGGAAGTATAGATATTTTATTACTTTCTATCATTGCAAAACGTGATACATACGGCTACGAAATAGCTCAAAGTTTAAAGGATGCAAGTGAAGATTTGTATAGTATGGGACAGGGAACTTTGTATCCTGCTTTAAAGCGATTAGAGAAAAAGGAGTTTCTTGAATCTTATTGGAATGAATCTGAGAATGGGATGAAAAGGAAATTCTATACTATTACAGATAAAGGGAAAAAAGAATTGCAGAAGAAAGTGAACTCTTGGGAGAGTGTAACAGCATTAATTCAAGCTTGTCAGAAAGGAGTTATTTATGAGTGA	MVFLWVIFLTMLLYYVYKVVVLLDKEILKGSIDILLLSIIAKRDTYGYEIAQSLKDASEDLYSMGQGTLYPALKRLEKKEFLESYWNESENGMKRKFYTITDKGKKELQKKVNSWESVTALIQACQKGVIYE				NA	NA	NA	NA	NA
AK009_04290	1683	glpD	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	ATGAAATTTTCAAGTAAACAACGTAAAGACGTATTAAACGGAGTAAATAAACAAGAGTTAGATGTGATCGTAATTGGTGGAGGTATTACTGGTTCTGGTATTGCATTAGATGGAGCAACACGCGGGTTATCAACAATTGTGTTTGAAATGCAGGACTTTGCAGCAGGTACATCAAGTCGTTCAACGAAGCTTGTACACGGTGGTCTACGTTATTTAAAACAACTTGAAGTGAAAATGGTAGCAGAGGTGGGTAAAGAGCGTGCGATCGTATATGAGAACGGTCCCCATGTAACAACACCAGAGTGGATGTTACTTCCGTTCCATACAGGCGGTACGTTCGGATCATTTAGTACATCAATTGGTCTTCGTGTATACGACTTCTTAGCAGGTGTAAAACGAAGCGAGCGCAGAAAGATGTTTAACCGTGAAGAAACGCTAAACAAAGAGCCTCTTGTAAAAAAAGAAGGATTAAAAGGCGGCGGTTACTACGTAGAATATCGTACAGACGATGCGCGTCTTACAATTGAAGTAATGAAAGAAGCAATTGAGCATGGTGCGAAAGCTGTTAACTACGCAAAAGTAGACAGTTTCTTATATAAAGATGGAAAAGTATGCGGTGTACGTGTAATCGATTTACTAGACGGTGAAGTATATGAAGTTTACGGTAAGAAAATTGTAAACGCAGCTGGTCCTTGGGTAGATACACTTCGTGAAAAAGATAACTCGAAAAAAGGAAAAGTACTTCAGTTATCAAAAGGTGTTCACTTAGTAATTGATCAAAAACGTTTCCCACTCGGGCAAGCAATTTACTTCGATACACCAGATAAACGTATGGTGTTCGCGATTCCTCGCGGAGGAAAAACATACGTAGGTACAACAGATACGTTCTATGATAAAGACGCAGCTGTACCACAAATGACAACAGAAGATCGCACATACATCATTAATGCGATTAACTACATGTTCCCAAGCGTGAAAATTACAGAGAAAGACATTGAATCAAGCTGGGCTGGTGTACGTCCGTTAATTTATGAAGAAGGTAAGAATGCATCTGAAATTTCTCGTAAAGATGAAATTTGGACTTCTGAATCTGGTTTAATTACAATCGCAGGTGGTAAATTAACAGGATACCGCAAAATGGCTGAAATGGTAGTAGATTACGTAACGAACTTACTACAAAAAGAAGGTCATAGTGCATATCCGAAGAGTGATACGAAACATATGCCGATCTCTGGTGGACATGTAGATGGTTCACACGGATTCCCGGCATTCGTTGCGAAAAAAGCAGACGAAGGTACGAAATACGGTTTAACGACAGCGCAAGCAGAAGAATTCGCGAAATTCTATGGCTCTAACGTAGACGTACTGTTCGGCTTAGCGAAAAAACATAAAGACGAAGCGAAAGAATACAACATGCCGCTTGACGTTCTAATCCCACTTGTATACGCAATGGATTACGAAATGACAGCAAAACCAGTTGACTTCTTCGTACGCCGCAGAGGCGCTGTATTCTTCAACATCCACTGGGTATACGAGTGGAAAGAAGCAGTAATCAACTACATGGCTGCGAAACTAGGCTGGAGCAAAGAAGAACAAATGAAATATACAGCTGAACTAGAAAAATCATTAACAGACGCTGTAATTCCTGTAGATCAACAAGAACAGGCAGCTGCGTTAGCATAA	MKFSSKQRKDVLNGVNKQELDVIVIGGGITGSGIALDGATRGLSTIVFEMQDFAAGTSSRSTKLVHGGLRYLKQLEVKMVAEVGKERAIVYENGPHVTTPEWMLLPFHTGGTFGSFSTSIGLRVYDFLAGVKRSERRKMFNREETLNKEPLVKKEGLKGGGYYVEYRTDDARLTIEVMKEAIEHGAKAVNYAKVDSFLYKDGKVCGVRVIDLLDGEVYEVYGKKIVNAAGPWVDTLREKDNSKKGKVLQLSKGVHLVIDQKRFPLGQAIYFDTPDKRMVFAIPRGGKTYVGTTDTFYDKDAAVPQMTTEDRTYIINAINYMFPSVKITEKDIESSWAGVRPLIYEEGKNASEISRKDEIWTSESGLITIAGGKLTGYRKMAEMVVDYVTNLLQKEGHSAYPKSDTKHMPISGGHVDGSHGFPAFVAKKADEGTKYGLTTAQAEEFAKFYGSNVDVLFGLAKKHKDEAKEYNMPLDVLIPLVYAMDYEMTAKPVDFFVRRRGAVFFNIHWVYEWKEAVINYMAAKLGWSKEEQMKYTAELEKSLTDAVIPVDQQEQAAALA	PGPT0006775_1718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
AK009_04291	1491	glpK	COG0554	Glycerol kinase	ATGAAAAAATATATTCTTTCATTAGACCAAGGAACAACAAGCTCACGCGCAATTCTTTTCAATAAAAAAGGTGAAATTGTTCATTCAGCTCAAAAAGAGTTTACACAACATTTTCCAAAGCCGGGCTGGGTAGAGCATAATGCACAAGAAATTTGGGGATCTATTTTAGCAGTTATCGCAACTTGCTTAAGCGAAGCAGATGTAAAACCAGAACAAATCGCAGGTATCGGTATTACGAACCAACGTGAAACAACGGTTGTCTGGGATAAAACAACTAGTAAACCAATTTACAACGCAATTGTATGGCAATCTCGCCAAACAGCTGAAATTTGTGATGAGTTAAAAGAAAAAGGTTATAGCGAAATGGTTCGCGAAAAAACAGGTCTTTTAATTGATGCATACTTCTCTGGTACGAAAGTAAAATGGATTTTAGATAACGTTGAAGGTGCAAGAGAGAAAGCAGAAAACGGTGATCTATTATTCGGAACAATTGATTCGTGGCTTGTATGGAAACTATCTGGTGGTAAAGCACACGTAACAGATTATTCAAACGCATCACGTACGTTAATGTTTAATATTCACGACTTACAGTGGGATGATGAGCTTCTAGAAATGTTAACAGTACCAAAGAGCATGCTTCCAGAAGTACGTCCATCATCTGAAATTTACGGAGAAACAATTGATTACCACTTCTTCGGCCAAAATGTACCGATTGCAGGTGTAGCTGGTGACCAACAAGCAGCATTATTTGGACAAGCTTGTTTCGGTGAAGGTATGGCGAAAAATACTTACGGAACTGGTTGCTTCATGTTAATGAACACAGGTGAAAAAGCAGTAGCTTCTGAGCACGGTCTATTAACAACAATTGCATGGGGAATAGATGGTAAAGTAAACTACGCATTAGAAGGAAGTATTTTCGTAGCAGGTTCTGCAATTCAGTGGTTACGTGACGGAATGCGCATGTTTAAAGATGCAAGTGAGAGTGAAGTGTATGCGAGTCGCGTTGAATCAACTGATGGTGTATACGTTGTACCAGCATTCGTTGGACTAGGAACACCTTATTGGGATAGTGAAGTACGCGGCGCTATGTTTGGTGTAACACGCGGTACGACGAAAGAGCACTTCATTCGTGCAACGCTAGAATCTTTAGCTTACCAAACGAAAGATGTATTATGCGCAATGGAAGCAGATTCAGGTATTGAACTGAAAACATTACGCGTTGATGGCGGAGCAGTTAAAAATAACTTCTTAATGAAGTTCCAAAGTGATATTTTAGATGTTCCTGTAGAGCGTCCAGTGATTAACGAAACAACGGCTTTAGGTGCAGCATACTTAGCTGGTCTTGCGGTTGGATATTGGAAAAACCAAGATGAAATTAAATCACAGTGGCATATGGACAAACGCTTTGAACCAACGATGGAAGCGGAAACAAGCGAAGAGCTATATGCTGGATGGAAAAAAGCAATTGAAGCAACAAAAGCTTTCAAATAA	MKKYILSLDQGTTSSRAILFNKKGEIVHSAQKEFTQHFPKPGWVEHNAQEIWGSILAVIATCLSEADVKPEQIAGIGITNQRETTVVWDKTTSKPIYNAIVWQSRQTAEICDELKEKGYSEMVREKTGLLIDAYFSGTKVKWILDNVEGAREKAENGDLLFGTIDSWLVWKLSGGKAHVTDYSNASRTLMFNIHDLQWDDELLEMLTVPKSMLPEVRPSSEIYGETIDYHFFGQNVPIAGVAGDQQAALFGQACFGEGMAKNTYGTGCFMLMNTGEKAVASEHGLLTTIAWGIDGKVNYALEGSIFVAGSAIQWLRDGMRMFKDASESEVYASRVESTDGVYVVPAFVGLGTPYWDSEVRGAMFGVTRGTTKEHFIRATLESLAYQTKDVLCAMEADSGIELKTLRVDGGAVKNNFLMKFQSDILDVPVERPVINETTALGAAYLAGLAVGYWKNQDEIKSQWHMDKRFEPTMEAETSEELYAGWKKAIEATKAFK	PGPT0018435_4623	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
AK009_04292	822	glpF_1	COG0580	Glycerol uptake facilitator protein	ATGTCAGCATTTTTAGGAGAGTTAATAGGGACTGCGTTGTTAATCGTACTTGGTGGCGGCGTTTGTGCTGGTGTAAGTTTAAAGAAATCGTTTGCGAAAGATTCAGGTTGGATTGTTATTACAATGGGCTGGGGCTTAGCAGTAGCGGTTGCAGCGTATGCGGTTGGATCAATTAGTGGGGCACATTTGAATCCAGCTTTAACGATAGGACTAGCATTTAAGGGAGCGTTCCCATGGAGTGACGTACCAGGTTATATCGTAGCACAAATGATTGGGGCAATTATCGGGGCAGTTATCGTATATTTACATTACTTACCACACTGGAAAGAAACAGAAGATCCAGGAACAAAGTTAGGTGTATTTGCAACAGGTCCAGCAATTCCGAACACATTTGCAAACCTTTTAAGTGAAATGATTGGAACATTCGTTTTAGTATTTGGTATATTAGCAATTGGTGCAAATAAATTTGCAGATGGATTAAATCCATTTATCGTAGGTTTCTTAATTGTAAGTATTGGTTTATCATTAGGTGGGACAACAGGATACGCAATTAACCCAGCACGTGATTTAGGTCCGCGTATCGCACACTTCTTCCTTCCGATTGCAGGAAAAGGCGGTTCAAACTGGAAGTATGCATGGATTCCAGTAGTAGGTCCAATTTTAGGTGGATCACTTGCAGGTTTATTCCATCAAGTTGTATTTGAAGGAAAGCAAAATTCAGCACTTATTTATGTGATTATCGCAACTGTGATTGTACTAGCAATCTCTTATATGACAAGTAAAAAAAGCGGAAGCAATACAAATAGTAGAAAAGTAGCATAA	MSAFLGELIGTALLIVLGGGVCAGVSLKKSFAKDSGWIVITMGWGLAVAVAAYAVGSISGAHLNPALTIGLAFKGAFPWSDVPGYIVAQMIGAIIGAVIVYLHYLPHWKETEDPGTKLGVFATGPAIPNTFANLLSEMIGTFVLVFGILAIGANKFADGLNPFIVGFLIVSIGLSLGGTTGYAINPARDLGPRIAHFFLPIAGKGGSNWKYAWIPVVGPILGGSLAGLFHQVVFEGKQNSALIYVIIATVIVLAISYMTSKKSGSNTNSRKVA	PGPT0004760_622	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
AK009_04293	561	glpP	COG1954	Glycerol uptake operon antiterminator regulatory protein	ATGGAATTTCATGAACAGAAGATTTTGCCGGCAGTGAGGCAAATTAAAGATTTGGAAAAGCTATTACATAGTTCGTATGAATATATCGTTATTTTAGATATTCATGTCGGCCAATTGAAGAGTGTTATATCACTTGCGAAGCAATATTGTAAAAAGGTGTTTTTACATGTGGATTTAATTCATGGCTTGCAGAGTGATGGGCATGCGACGGAATATTTATGTCAGGAGTTTAGACCGTACGGGTTACTTTCGACAAAGGCGAGCGTTATTATGAAGGCGAAGCAAAAAGGTGTTGTGGCAATACAACGCATCTTTTTAATCGATTCGAGTGCGATGGAGAAGAGCTGCAATCTTTTAGATAAGACGAAACCGGATTATATTGAGGTGCTTCCAGGAGCAATGACGGATATTATCGCTGAAGTGAAAGAGCGTACTGGTGTACCGATTTTAGCAGGTGGTTTTATTCGTACTGTAGAAGATGTGGAAAGAGCTTTAAACGCTGGTGCGACAGCGATTACGACGTCAAAACGCGAACTATGGAAACATTACCAAAAAAAGTGA	MEFHEQKILPAVRQIKDLEKLLHSSYEYIVILDIHVGQLKSVISLAKQYCKKVFLHVDLIHGLQSDGHATEYLCQEFRPYGLLSTKASVIMKAKQKGVVAIQRIFLIDSSAMEKSCNLLDKTKPDYIEVLPGAMTDIIAEVKERTGVPILAGGFIRTVEDVERALNAGATAITTSKRELWKHYQKK	PGPT0022030_370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
AK009_04294	270			hypothetical protein	ATGAACTTCGGCCAAGCAATCGAAGCAGTTAGGGCAGGAGAAAAGGTTTCTCGTAAAGGTTGGAATGGTAAAAATATGTTTGTAGTTTATCAGAAGGGTTATCCTGATGGAATTCCTTGCAACAAACAGACCGCTGAAGCTTTGGGTATAAATGAGGGAGATTTATTTAAAGTTCGCCCATACTTACAGTTAAGATGTGCTGATGGAACTCATGCCATGTGGTCACCTAGCACTTCTGATGCTTTAGCTGAAGATTGGGTTGTTTTATAA	MNFGQAIEAVRAGEKVSRKGWNGKNMFVVYQKGYPDGIPCNKQTAEALGINEGDLFKVRPYLQLRCADGTHAMWSPSTSDALAEDWVVL				NA	NA	NA	NA	NA
AK009_04295	252			hypothetical protein	ATGACTTTTGGTCAAGCGCTTGAAGCATTGAAACAAGGTAAGACAGTGGCTCGTAAAGGTTGGAATGATGAAGGTATGTGGTTAAGACTCGTAAAGCAGGGGGAGTTTGATATCTCTTTTGAAGTGGTAGGTGGCAACAAATGCAAAGGACTCCTTCCCTGGATTGGTATGAAAACAGCTGATGATACATTTGTTCCTTGGTTAGCATCACAAACAGATATGTTAGCAGAAGATTGGGAGGTTGTTGAATAA	MTFGQALEALKQGKTVARKGWNDEGMWLRLVKQGEFDISFEVVGGNKCKGLLPWIGMKTADDTFVPWLASQTDMLAEDWEVVE				NA	NA	NA	NA	NA
AK009_04296	213			hypothetical protein	ATGAATTTTGGGAAAGCGTTTGAAGAAGTGAAAAAAGGTAAGGGTATGCGATTACCACATTGGAGTAACGATGTAGTAATTCGTGCACAGTTCCCTGATGAACATAGCAAAATGACCGCTCCATATTTGTATGTAAAATCTCGTTTTGGTAGAGTTCCGTGGAAGGAAACAAACATTGAATTATTTGCTGAGAATTGGGAGGTTGTAGAATAA	MNFGKAFEEVKKGKGMRLPHWSNDVVIRAQFPDEHSKMTAPYLYVKSRFGRVPWKETNIELFAENWEVVE				NA	NA	NA	NA	NA
AK009_04297	2124			hypothetical protein	TTGTTTGGTCTCAATAAACCAAAGGAACAAAAGCAAGAACAGAAACGCCCTGATGATTGGGTGTCTCTTGTGGAAGAACGTATTACCCAAGCCGAGGACTGGGAAGAGAAACGCCAAATGATGGCACAAGTAAACTATTATCGTGGGAACCAGTGGCTTGTGTGGAATCCGACAAGTAAGAAAATGATTACTGCACCTCTTGAAAATGGAGAACAGCGAATTACAGTGAACCAAATTCGACCACGTATGATGGTCAAGCTCGCGAAACAAATTAAAAATCGTGTGAAATTTGATGTTGTACCTGATAGTAACGATGAAACGCGCATTGAAATTGCGAAGGCAGCATCCAAATTTCTTAAATATTGGTGGGAACAAACAGGAATGGATCGGAAAACACGTGATATTTTCCTGAATAACGGTGTAAAAGGCTGGTGTGCCGCAAAAGTGTACTTTGATGCGGAAGCGGGTCAAGATATTACACCAGGGGAAGGGGAAATTGGATTCGCAGAAGATATGCAAAAGTTGTATACAGGTGAAATCCGTTGTCGTATTTGTGATCCACTCACAGTATACATTGACCCCGCCGCCGAAATGGACGAAGAGATTCGTTGGATTGTGGAAAGAAAGCCACGTGATATTGATTACATTCAAGAGCGCTACGGAAAAGATGTCGCTGCTGATGAAAATGTGGGATTTGCGGCCGCGTTTGATGTGACACCGCAAAATGGATTCAATTCTACAAGTAAAAAGCGTCCAAATATGGCGATGGTGGATGAAATGTGGGTAAAACCGTGTGGTAAGCATCCAAATGGATTGAAAGTTACGATTGCAGGTGGACAATTGCTGGATATAGACGAAAATGCTGGAGACATTCCGTTCTTTATCTTTGGTGATATTCCGATACCAGGAAGCGTAAAAGCGGAAGCATTTATTAAAGATATGTTGCCGATTCAGCGTGAAATCAATATTATGCGCTCTATGTTTGCCACACATGCAAGGAAAATGGGGAATAGCATGTGGCTTGTGCCCATGGGGTCAAGTGTGGATGAAGATGAAATTACGAATGAAGAAGGTGGAATTGTTCATTATACACCAATTGAGGGCGCGAGACCTGAAAGAGTTGGTGCGCCAGATATCCCGTCCTTCTATGATCGTATTTTAAATAATCATGATGCGGATATCGATGATTTATCAGGTGCACGTGAAATTTCACAAGGACGATTACCTTCTGGATTAGATACGTATAGCGGATTATCTCTTATGGTAGAACAGGAGAATGAGAAGCTTGCGGTTTCTTCTCAAAACTATGAGCATGGTATGAAACGTTTATTGCAACGTGTACTTATGCTGATGAAGAAACATTATACCGAAGAACGTATGGCCCGTATTCTTGGTCCTGATAATGATATTGAATTAATAAGCTTTACTGGATCTGATTTAAGTGGTGGAGAAGACATTAATATTATTCAAGGTTCTTCTCTTCCAGAAATGAAATCAGCGCAACAAGACCGCATTATGACCATGTGGGACAAAGGGGCAATTGTGAAGAAAGATGGTTCACCAGATACTCAGGGGTTTTTAAAGCTCATGGGTATGGGCGATAGTAATGAATTGTTTGAAATGCAACAGCTTGATGAAAACAAGGCGAAAATGGAAAATAAACAGTTTGAGCAAATTGGACAGCAACCAGAATCATTGCAAGCATTGCAACAATACAGCATCCAGCAACAACAGTTTGAGGAGCAAGCCCAAGCGATGCAAGCACAAGGTGTAGACCCCATGCAGGCTGGCATGCAACCACCACAACTACAACTAACGACACCGCAGGTACGTGACTTTTACGATCATGAAGTGCATATATATATTCATAATGCTTTTCGAAAATCAAGCTTATACGATGAATTACCACCTGAAGTGCAGCAGTTAGTTGATGACCATGTACAGCAACATATGGAGGCACTCAATGCGCCAATGGAAGCGGATAGAAGGCAGCAGATGGAACAAGAACAACACATGCAAGAAGAGCAGAAAGCTATGAAAGAACAAGACTTACAGCTACAACATCGGAAATTAGATATTGAAGAAAAGAAAGTAGAAAAAGAAGTGCAGAAGGGTGAGAGATAA	MFGLNKPKEQKQEQKRPDDWVSLVEERITQAEDWEEKRQMMAQVNYYRGNQWLVWNPTSKKMITAPLENGEQRITVNQIRPRMMVKLAKQIKNRVKFDVVPDSNDETRIEIAKAASKFLKYWWEQTGMDRKTRDIFLNNGVKGWCAAKVYFDAEAGQDITPGEGEIGFAEDMQKLYTGEIRCRICDPLTVYIDPAAEMDEEIRWIVERKPRDIDYIQERYGKDVAADENVGFAAAFDVTPQNGFNSTSKKRPNMAMVDEMWVKPCGKHPNGLKVTIAGGQLLDIDENAGDIPFFIFGDIPIPGSVKAEAFIKDMLPIQREINIMRSMFATHARKMGNSMWLVPMGSSVDEDEITNEEGGIVHYTPIEGARPERVGAPDIPSFYDRILNNHDADIDDLSGAREISQGRLPSGLDTYSGLSLMVEQENEKLAVSSQNYEHGMKRLLQRVLMLMKKHYTEERMARILGPDNDIELISFTGSDLSGGEDINIIQGSSLPEMKSAQQDRIMTMWDKGAIVKKDGSPDTQGFLKLMGMGDSNELFEMQQLDENKAKMENKQFEQIGQQPESLQALQQYSIQQQQFEEQAQAMQAQGVDPMQAGMQPPQLQLTTPQVRDFYDHEVHIYIHNAFRKSSLYDELPPEVQQLVDDHVQQHMEALNAPMEADRRQQMEQEQHMQEEQKAMKEQDLQLQHRKLDIEEKKVEKEVQKGER				NA	NA	NA	NA	NA
AK009_04298	201			hypothetical protein	ATGGCTAGAGTGTTTCATTTAACGTTAGGTAGTATTGAAAAATTCGCGGTAGCTGATGATTATGAGGAAATGTATGAAAAGAGAGCTGAAGTTGACCCGACATTTGCCTATACACCTGTAGAGATAAAAGAGTTGTGTGTGGAAGGGTATGAAATCAAAGCGGAAAAGAAAGTGTCGAAGTCGAGAGTGAAGAAATCTTAA	MARVFHLTLGSIEKFAVADDYEEMYEKRAEVDPTFAYTPVEIKELCVEGYEIKAEKKVSKSRVKKS				NA	NA	NA	NA	NA
AK009_04299	231			hypothetical protein	ATGACGTATGTTGTCTTTTTTATATTAGTTGCAGTCATTGTATTTCTTGGTGTGTTTGCATATGAAATGGAGCGTGTACATCAAGGTGAACGTGATGTGTGGAAGCAAGAGCGTAAGGAATTGTACGATCGTATCCAAGCACCATCTTTTGCTGAATATAAACAGGGTGAAGTGAAGATGGTAAAAGCACAAAAAGAAGAAAAGCCTGTACCAACATACCATTTAGAATAG	MTYVVFFILVAVIVFLGVFAYEMERVHQGERDVWKQERKELYDRIQAPSFAEYKQGEVKMVKAQKEEKPVPTYHLE				NA	NA	NA	NA	NA
AK009_04300	1494			hypothetical protein	TTGAAAGCCTCCTTAAAAAATCTTCCGACAGTTGATGAAATTCAAAGAGAAATAGCACGTCGTGATTACTATGAGTATGTGTGTTATGTACATGAAGGTAGATATAAGAAAGCACCGCATAGTGAGTTTGTTGGTGGTGTCATTCAGGAAGCGATTGATAAAAAGAAACAAATGAATGCAGGCGAGATTCCGACCACGAACCAATACATTGCAATTAATATGCCACCACGTCATAGTAAATCGATGACCATTACAGAGACGTTACCATCGTATTATTTGGGGAACTTTCCAGAGGAGAGAGTGATTGAGATAAGTTATAGTGATACATTCGCTCGTCGTTTTGGTAAGAAGAATAAAGAGAAGGTAAAACAGTATGGACCAGATTTATTTGATATCCAAATATCTAAAGAAAGCTCGGCACATGATGAATGGTTACTGGATAATGAAATAGGTGGCATGATCTCACGTGGTGTTTTATCAGGTATCACTGGTATGGGTGCGGACTTAATGATTATCGATGACCCGATTAAGAACCGTGAGGAAGCGGATAGTGAAACACATCGCGGTAAGATTTGGGATGAGTGGATAGATAGCTTCTCTACTCGTTTACATCCTGGTGCAATTGTCATACTGATTCTAACAAGATGGCACGAAGATGATTTACAGGGTCGGTTGTTAAGTAAGGAATATGGTGAACCTTTACCTTGGCAAGTATATAATCTTCCACTGGAAGCTGAGGAAGATGATGTAATAGGACGAGCAGTAGGTGAACCATTGTGGCCAGAACGATATGGGTTAGAGTTCATACAAGAACGGAAACGATATCCAAGTAGCTTTAACTCATTGTATCAAGGTAGACCAACCGCAGCGGAAGGGAATCTATTAAAGCGTAAATGGTGGCAGTATTATGATACGTTGCCAAAGATGGTGCACATCATCATGAGTATTGATGCAACGTTTAAAGATGAAGCAGATAGTGACTTTGTTTGTATTCAGGTATGGGGCAAGAATGGTGCGGATATGTATTTAATCGATAATCTCAAGGCACGTATGAATTTCCCAACTACCCTACAAGCCATTCGTAATATGGTAAGGAAGTATCCGAAAGCACACGCTAAATTAGTGGAGGATAAGGCGAATGGTCCAGCTATTATTTCGATGTTAAAGAATGAAATAGGCGGTATGATTCCAGTGAATCCACAAGGCGGGAAGGTTGCACGTGTAAATGCAGTCTCACCATATATTGAATCAGGAAATGTATATTTACCAAGGTATGCTCCATGGACACAGGACTTTGTGGAAGAGTGCGCATCCTTTCCACAAGGGAAAAATGATGACCAGGTAGATGCAATGTCACAAGCATTAAACCGATTTATCTATTATCATGCGAAGGAAAAATTCATTCCAAAAGAGCCAGTGACATTAGAAGAAAAGGTACATCGCCACATTATTAGACTATCGAGAGGGCGAAGGAAAGGAGGGCAACTACAATGA	MKASLKNLPTVDEIQREIARRDYYEYVCYVHEGRYKKAPHSEFVGGVIQEAIDKKKQMNAGEIPTTNQYIAINMPPRHSKSMTITETLPSYYLGNFPEERVIEISYSDTFARRFGKKNKEKVKQYGPDLFDIQISKESSAHDEWLLDNEIGGMISRGVLSGITGMGADLMIIDDPIKNREEADSETHRGKIWDEWIDSFSTRLHPGAIVILILTRWHEDDLQGRLLSKEYGEPLPWQVYNLPLEAEEDDVIGRAVGEPLWPERYGLEFIQERKRYPSSFNSLYQGRPTAAEGNLLKRKWWQYYDTLPKMVHIIMSIDATFKDEADSDFVCIQVWGKNGADMYLIDNLKARMNFPTTLQAIRNMVRKYPKAHAKLVEDKANGPAIISMLKNEIGGMIPVNPQGGKVARVNAVSPYIESGNVYLPRYAPWTQDFVEECASFPQGKNDDQVDAMSQALNRFIYYHAKEKFIPKEPVTLEEKVHRHIIRLSRGRRKGGQLQ				NA	NA	NA	NA	NA
AK009_04301	507			hypothetical protein	ATGACGAAAATCAAAAGATGGTTAACCAAAGAAGGCTTATTAAAAATGGAAGGCTGGGCACGTGATGGTCTTATCGATGAACAAATTGCTTATAACATGGGTGTTACTCGCGTTACACTTCATAATTGGAGAAAGAAACATCCAATCATGGATCAAGCTGTACGTCGTGGAAAAGAAGTAGTGGATCGTGAAGTAGAGAATGCACTACTAAAACGTGCATTAGGTTATACGTATGAGGAAGTAACGGTGGAAAAACAACAAGTTAGTGAAGACGATGACTTTCAAGATGTTGAAACAAAAAGGGTTAAGCGACAAGTCGCACCTGATACAACTGCCGTCATCTTTTGGTTAAAGAATAGAAAGCCTGATGCATGGCGTGACCGACGTGAGATTGACCATAGTGGTGAAATGAAACAAACGATTGTACAAAAGGCTGATTTAAGTAAGTACACGTCAGAGGAGTTGAAACAACTTGAAAGCCTCCTTAAAAAATCTTCCGACAGTTGA	MTKIKRWLTKEGLLKMEGWARDGLIDEQIAYNMGVTRVTLHNWRKKHPIMDQAVRRGKEVVDREVENALLKRALGYTYEEVTVEKQQVSEDDDFQDVETKRVKRQVAPDTTAVIFWLKNRKPDAWRDRREIDHSGEMKQTIVQKADLSKYTSEELKQLESLLKKSSDS				NA	NA	NA	NA	NA
AK009_04302	648	hin_2	COG1961	DNA-invertase hin	ATGTATCAAAAACTATTGATTTCGATACAGGTAATTGATACAATGAAACCATCAAAAGCAAAGGGTGATGGTTCAATGATATTTGGATATGCGCGTGTTTCAACGAAAAAGCAAAGTTTGGATATGCAATTAGATGAATTGAAACGCTTCGGTTGTGAGGAAATCGTCACAGAAAAAGAAAGTGGAGCTAAAAAAGACAGGGTTGAACTTCAATCACTTCTTGGAAAGCTTCGAAAAGGGGGTACATTAGTTGTTTATAAGTTAGATCGTTTAGGAAGAACAATGCATCAGCTTGTTAATTTGCTTCAAGAGTTCAATGAAAAAGGAATTCACTTTGTATCTATTAAAGATGGTATTGATACATCTACAACAATGGGAAGATTTTTATTCCATATATTTGGTGCAATGGCTGAAATGGAACGAGAAGTTATTAATGAACGTGTTATAAGTGGTGTAGCTGCTGCTAAAGCAAGAGGAAGAGAAGGTGGCAGAAAGAAAGCACATACACCACAACAGATTGAAGGTATGCTGAAAATGATAGAACAAGGTGAATCAAAAATATCAGTATGTGAGATGTTTAATGTTTCAAGAGCAACCTTGTACAGATACATTAGAGAAAATGAAAATAATAAAACAAATTTAAAGTAG	MYQKLLISIQVIDTMKPSKAKGDGSMIFGYARVSTKKQSLDMQLDELKRFGCEEIVTEKESGAKKDRVELQSLLGKLRKGGTLVVYKLDRLGRTMHQLVNLLQEFNEKGIHFVSIKDGIDTSTTMGRFLFHIFGAMAEMEREVINERVISGVAAAKARGREGGRKKAHTPQQIEGMLKMIEQGESKISVCEMFNVSRATLYRYIRENENNKTNLK				NA	NA	NA	NA	NA
AK009_04303	135			hypothetical protein	ATGATGTATACATCCGTTTTAAAGCGTGATTTGAGCTATTCTGATGCTTTAAATACATTGATGGTAGGTAAAGAGGGGATCCGTGCTAATACGTTATATCAAAGGGATATGTTGGCAAATGATTGGATGATTTAG	MMYTSVLKRDLSYSDALNTLMVGKEGIRANTLYQRDMLANDWMI				NA	NA	NA	NA	NA
AK009_04304	243			hypothetical protein	ATGAGTGAATATGAAACAACGGAGGGTTGTCCCATACTCCAATATATGCTTGTCTATATGAAAAGGTGCAAACGTAAGAGAGCACTCCCCAGCAAGTGCTCTCTCTTAAAAAATATAGGTAACTGTATTCTCAACCGTTCTATATTATTGTATGTTTATCCATTCTCATTATGTTTGAAATTGTTTGCTAAACACAAAAAGCACCCGTTTCAGCGAGTGCTCTTCAAAAAGGAGATTAAATGA	MSEYETTEGCPILQYMLVYMKRCKRKRALPSKCSLLKNIGNCILNRSILLYVYPFSLCLKLFAKHKKHPFQRVLFKKEIK				NA	NA	NA	NA	NA
AK009_04305	396			hypothetical protein	TTGTTTAACTGGTTAAAGGTATATCAAGAATTAGAAGGGGAAATTGAGTATATTGAATTTAACCTACAGCGTAGTCAAAGGGAATTAAAACGCTGGCGGGGTGGTGATTTATCGAAGTATAAATTAGCGCCTGACTCAGATGGTACCAAAGTAGAAGATCATATTGAACGGATTGAATATGAACTAGCCCATAAAATGAATGATTTACATGATTTGAAGAAGTTAATTCGTACCTTTAAAGGTTTAGAGCATAAGATTATGTACGGTAAGTATGTTGAAGGAAAAACATTAGAGTATCTTGCAATTGAATTCGGCTATAGTCGAAGTTACATTTATCAAAAGCATGCTGAGATTATGAGGAGAATTAAGTTTGCTGAAAAACTTACACTTTTTTAA	MFNWLKVYQELEGEIEYIEFNLQRSQRELKRWRGGDLSKYKLAPDSDGTKVEDHIERIEYELAHKMNDLHDLKKLIRTFKGLEHKIMYGKYVEGKTLEYLAIEFGYSRSYIYQKHAEIMRRIKFAEKLTLF				NA	NA	NA	NA	NA
AK009_04306	1875			hypothetical protein	GTGATTTCTTTGTATAAAGGGTACCTGAAGGGCAACGGAAAACATGCAGCTAGTAAATTTAAGGATGGCACGAAGTTATTATCGTATCATACAGCAAGAAAACATGACTCCTTCGTAGGTATTTTAGATGACGATTACATTATGGTTGATATTGACGATATAGATGAAGCTGAAATGCTTCTAGACATCATAGAAGATAAAAATATTCGATGCTCCGTATTAGAAACAACAAATGGTATGCATTTTTATTTCAAAGGCTATGACATTACAGCAAATAAAATAAAGTGGTTTTCCAATATCGGGCTACTTTGTGATTATAAATTAGGAATAAAAAACACTGCCGATCCACTTAAAATAAATGGTGAAACTCGTAGATGGTTACGAAAAACAAATGAACATGATCCATTACCAACTTGGTTATATCCGTACAATAAAAAAAATCCGAACCTCACCAAAATGACTGAAGGTGATGGGCGAAATGATAAATTGTTTACTTATATATTAAAATTGCAATCTCAAGGAATGGCTAAAAACGATATTAAAGAGACCATTTCCATTATTAATAATTATATTTTGGAAGAGCCTGTTGAACAAAATGAATTAAATATAATTTTACGTGATGAAGCATTCATGAAGGAGTCCTTTTACATAAAGGGCGCCTTCCAACATGAAAAATTCGGGGATTTTCTAATAAATGAACATCATATCTGTAAGATCACAAATATCCTACACATCTATAAAGACGGTGTATATTCGGACAAGCAAGAAGATATTGAAGAAGCCATGATTAAACATATTCCAGCTTTAAAAAGGATGCAACGTCAAGAAACATTGGCTTATTTACAGTTAAAAGCAAAGCATAAAAATTTTGCTTCTACCAAATATGTTGTTGTGAAGAACGGTGTATTTAATTTAGAAACGTGGCAATTAGAAGACTTTACACCTGAAATTATTACACGTAATAAAATTCCAGTCGCTTATATTCCAGATGCTTACTATAAAGTTACGGATAAAACATTAAATAAAATTGCGGTAAATGATAAAACAATTCGCTCTATTTTAGAAGAGATTCTTGGTTATATTTTATTTCGTCGTAATGAGTTTGCAGCTACGTTCATCTTAACGGGGAATGGTTCGAACGGAAAATCATCTTATTTAAAGATTATCCGTCAGTTAGTAGGAGAAGAAAACGCATCTTCATTAGATTTAAATGAATTGGACCAGCGATTTAAAACGGCTGAACTGTTTGGAAAGTTAGCAAACATTGGTGATGATATTGGCAAAGGGTACATTAAAGAATCATCGGTATTTAAAAAGCTTTCTACTGGTGAAACATTGAACGTAGAGAGAAAAGGTAAGGATCCATTCGACTTTACGAACTATGCAAAATTAATCTTTAGTGCAAATGAAATGCCACGTATTAATGATTTCACTGATGGATTAGGGCGAAGACTTCAAATTGTACCATTTAAAGCAAAGTTCACACCTGAAGGTGAAGATTATGATCCATTTATTACAGATAAGTTATTATCTGATGAATCCATGCAATATATATTGATTCTGGCTTTAAAAAGCTTGAAACGTTTGCTTGAAGAAAAGAAATTCACGAAATCAAAAGCAGTTGAAGAAGAGCTTGTGAAATACCAGGAAGAAAATAATCCGATTATTAGTTTCGTAAATAATGAAAATATTGAACTAGAACGGTCGGTCGTAGGAGATGTATATCTTCAGTATAAAGTGTATTGTGTGGAGAATGGCTTTCAATCGGTTAGTAATATTAATTTTAGTAAGCAAATTTCTCAGTTATTTGGCTATAAATCACATGTTCAAAAGGTTGACGGTAAGAATAAGCGCATTTTCATCAATAATGAATAG	MISLYKGYLKGNGKHAASKFKDGTKLLSYHTARKHDSFVGILDDDYIMVDIDDIDEAEMLLDIIEDKNIRCSVLETTNGMHFYFKGYDITANKIKWFSNIGLLCDYKLGIKNTADPLKINGETRRWLRKTNEHDPLPTWLYPYNKKNPNLTKMTEGDGRNDKLFTYILKLQSQGMAKNDIKETISIINNYILEEPVEQNELNIILRDEAFMKESFYIKGAFQHEKFGDFLINEHHICKITNILHIYKDGVYSDKQEDIEEAMIKHIPALKRMQRQETLAYLQLKAKHKNFASTKYVVVKNGVFNLETWQLEDFTPEIITRNKIPVAYIPDAYYKVTDKTLNKIAVNDKTIRSILEEILGYILFRRNEFAATFILTGNGSNGKSSYLKIIRQLVGEENASSLDLNELDQRFKTAELFGKLANIGDDIGKGYIKESSVFKKLSTGETLNVERKGKDPFDFTNYAKLIFSANEMPRINDFTDGLGRRLQIVPFKAKFTPEGEDYDPFITDKLLSDESMQYILILALKSLKRLLEEKKFTKSKAVEEELVKYQEENNPIISFVNNENIELERSVVGDVYLQYKVYCVENGFQSVSNINFSKQISQLFGYKSHVQKVDGKNKRIFINNE				NA	NA	NA	NA	NA
AK009_04307	252			hypothetical protein	ATGGAAAAGTGGCCGGAAGAAAGAATTGCAGCTTATAAAGATTATGTTAGGAATTATGAAAAAGATATGTTGGATTATGAAAACAGAATAACCGAGCATCAAAAGGGTTTGAGAAGTATGATTGAGGCGGTTTGTAGTGTGAGAGAAAAGAGACGTGAAACATTAACAGAATTATATAAGCAAGGTTGGCTATTAGATGATGATAGATGGGTGGAAGTGAACAAAAATAAAAGAGCAGCTAGCAAAAGCTAA	MEKWPEERIAAYKDYVRNYEKDMLDYENRITEHQKGLRSMIEAVCSVREKRRETLTELYKQGWLLDDDRWVEVNKNKRAASKS				NA	NA	NA	NA	NA
AK009_04308	1689			hypothetical protein	ATGCTCTTTTACGATTTCGAAGTGTTCCCACATGATTGGTTAGTAGTCATTACAAATACAGACGATCAATCAGAAGAAATTTTCGTGAATAATGAACAAGCTTTAATTGATTTTTATAACGAACATAAAAATGACATTTGGGTTGGTTATAACTCTCGTCATTATGACCAATACATTTTAAAAGCCATTATTTGCGGTTTTACACCTCAAGAAATGAACCATTGGATTATTGTAAAACGTGAACTGGGGTGGAAGTTTTATAAAGATTTTTGGAAGATACAGCTATTTAATTTTGATGTAATGACTAATAAATTTCGTTCTTTAAAGCAATTAGAAGGGTTTCAAGGTCATGATATACGTGAAACTTCAGTTTCATTCCATACACAACGTGAACTAACGGAACAAGAAATTGAGGAAGTAATCAAATATTGTCGCCATGATGTACATGAGACCATGCATATTTTCATAGAAACGATTACGGAATTTGAATCACAAGTTGAACTTTTAAAGATGTTTCATTTACCACTCAAACATATATCCAAAACAAAAGCGCAATTAAGTGCCTTTATTCTAGATGCTAAGCAACCCACTGTTCCAAGGGATGATGAATTTGATTTTACATTTCCAGCAACGTTGAAAATCAATAAGTACACCGAAGTCCTGGGTTTTTATAAAGAAAATAAAGATTACAATAAGGTTTTAGAACTCAATATTGCAGGTGTACCGCACCTTTTCGCATGGGGTGGTTTGCACGGTGCAAGAAGTAATTACGCTGGTACTGGTCACTTTCTGAATATAGACGTAGAAAGTTATTATCCTGCATTGATGATTGAGTATGGCTATTTATCTAGAAACGTAAAGAATCCTGGTAAATTTCGTAGCATTCGTGACACCAGGATTAAATATAAAGCTGTTAAAGATAAACGACAAGCCCCCTTGAAAATTGTAATTAATGGGACATATGGAGCGATGAAGGATAAGTACAATGGTCTTTATGATCCACTTATGGCCAACAATGTTTGTATTGGTGGAATGACATTACTTCTTGATTTAATTGAAAAATTGGAGCCACATTGCGAAATTATCCAATCAAATACGGATGGCGTTTTAGTTAAGCTGCAGCATTATAATGATTACGATGTGATTGATGATATTTGTTACGCATGGGAACATCGCACAAAAATGAAATTAGAATTCGAAGAGTTTGTCAAAGTGATTCAGAAGGACGTTAATAATTATATTTTAGTAGATGCGGAAGGGAAATATAAATCTAAGGGTGCTTATGTAAAAAAACTGAATCCACTTGATTACGATTTACCAATTGTAAATGAAGCAGTTGTTAATTATTTCGTAAAAGGCATTGATCCAGAGAAAACAATCTTTAATTGTACGGAACTAGTGAAGTTTCAAAAGATTGTAAAGATAAGTAGCAAATATGATTATGCAAGGTACGGCACAAGAAGGATGAATGAAAAAGTATTTCGTGTATTTGCAAGTGTTGATTTGAACGATAAAGAGTTACGGAAAGTAAAAGATGGGACCGCTGAGAAAATCGCCTATGTACCTGAACGATGTTTCATTGTAAATGATGAGATTAGTGATATGAAAATACCAGGTAAATTAGATTATTGGTGGTATTGGGAGTTAGCAAATAAAAGAATTGATGATTTTTTAGGGGAGGATAAATAA	MLFYDFEVFPHDWLVVITNTDDQSEEIFVNNEQALIDFYNEHKNDIWVGYNSRHYDQYILKAIICGFTPQEMNHWIIVKRELGWKFYKDFWKIQLFNFDVMTNKFRSLKQLEGFQGHDIRETSVSFHTQRELTEQEIEEVIKYCRHDVHETMHIFIETITEFESQVELLKMFHLPLKHISKTKAQLSAFILDAKQPTVPRDDEFDFTFPATLKINKYTEVLGFYKENKDYNKVLELNIAGVPHLFAWGGLHGARSNYAGTGHFLNIDVESYYPALMIEYGYLSRNVKNPGKFRSIRDTRIKYKAVKDKRQAPLKIVINGTYGAMKDKYNGLYDPLMANNVCIGGMTLLLDLIEKLEPHCEIIQSNTDGVLVKLQHYNDYDVIDDICYAWEHRTKMKLEFEEFVKVIQKDVNNYILVDAEGKYKSKGAYVKKLNPLDYDLPIVNEAVVNYFVKGIDPEKTIFNCTELVKFQKIVKISSKYDYARYGTRRMNEKVFRVFASVDLNDKELRKVKDGTAEKIAYVPERCFIVNDEISDMKIPGKLDYWWYWELANKRIDDFLGEDK				NA	NA	NA	NA	NA
AK009_04309	492			hypothetical protein	ATGGCAGAGAAAAAATTTAACTGGTCTAAATTTGATAAAAAAGTAGATTTAGAAGCGTTAGCAGCAGATGTACAAGAAGTAGAGGAAAACGGTGGTGGCGGAGACTTTGAAAAGGTTCCGGATGGTCAATATGAAGTAGCGGTTGAAAAAATGGAACTCACTGAATCTAAGAAAGGTGACCCAATGCTTATGATTTGGTTCAACATCGTTGATGGTGAATTTGAGGGTCAAAAGATTTTCTATTACAAAGTAATGCAACCTCAAAATGATAAAGCGTGGGGTTATCAAGTTCATCAAAATAATGAAATGTTACGTAAGCTTTGGGATTGCAAAGAAGAAGACGTTAAATTTACTAGCTTTGGAGAGTATGCAGATTTAATACTTGATATTCATGAAGACATCGACGGTAAATTTGAATATTTACTTGAAAAAGAAACGGACAAAAAAGGTTACGATCAATTTAAAATTGTCGAAGTGTTTGAAGTTGAATAA	MAEKKFNWSKFDKKVDLEALAADVQEVEENGGGGDFEKVPDGQYEVAVEKMELTESKKGDPMLMIWFNIVDGEFEGQKIFYYKVMQPQNDKAWGYQVHQNNEMLRKLWDCKEEDVKFTSFGEYADLILDIHEDIDGKFEYLLEKETDKKGYDQFKIVEVFEVE				NA	NA	NA	NA	NA
AK009_04310	318			hypothetical protein	ATGGCAGTAAAGGAACTGAATACAAAAGAACAGCATTATGCTGATACTCGTGAAGAAGCGGAAGGAATTGTGACAGAAGCAAAGGATAATGCATATCTAACATCATTCAAAATTAGTGAAAAACACAATAAATATGGTACTTACTTCTTAGTTGATCTAGCTTTCAGCTATAACACGCCACGTGAAATTATGGAAGATGCAGAGGCATCTCCAAAAGGTGATGAAGAATCTGGTGAAAAACATGAAGGTGTGGAATATAGTGTGAATCCAGATGGTACAGTTTCAGTTAATGACGATGAAGAAGGAGAAGATGAATAA	MAVKELNTKEQHYADTREEAEGIVTEAKDNAYLTSFKISEKHNKYGTYFLVDLAFSYNTPREIMEDAEASPKGDEESGEKHEGVEYSVNPDGTVSVNDDEEGEDE				NA	NA	NA	NA	NA
AK009_04311	1920			hypothetical protein	ATGACGCAATATAGTTATAGTCGAGTTTCACTGTATGAAGATTGTCCCTATCACTTTGATATAAGGTACAACAAACGTTTAACTGAAATTCAGGATTTAACAAATGCAGCAAATCCATTAATCATTGGTCATGCTTTGCATACAGGAATAGAAAATGATGTAGAAACAGCTTTAAATGAATACTACAATGCATTTCCAGTCATGAATGATGCCATTGTAGAAGAAGCGATGAAGCTAGAAATATTAATTCCAAAAGTACAAAACTTCTTAGAAGAAGCATTCGGGGAATTTGAGTTCATTCACGAATACAAGATTGATAAACCAAATTATGTTGGGTTTGTTGACCTTATTTTAAAAGCACCTGACGGTACATGTATGGTTATAGATTTTAAATATTCAAATCATGTTAAGAATTATATGAACAGCGGACAGTTGCACATTTATAAAGATTACTTGGAGCAAGACGGGTTTGATATAAAAAAATTAGCTTATCTATTTGTCCCGAAAACAAGTATTAAGCAAAAGAAAGATGAAGATTTACACACCTTTAGAAAACGTTTAGTACAAACAGTGGAGGAATCGCAAGTTGAATTTGTTCCAATTGAATTTGATGAAATGAAAACGGTGTATTTCTTAAATAGCATCAAAACGATTGAAAAAGCCAACAGCTTTTCAAAGAGAAATGCAAGTGGAAATTGCTTTGCTTGTAACCCACGTTTCAGACCTAACTATTTAGAAGCTATAGAAAATGAAAAGGGAGAGATTGAAATGGTATTACCTAAAAATGAACGTCGTGAAAGAAAAATTGATACAAAGCCAGACTTTTGGTTATATGCAGATAGTTACACTGGAAAGAGTACTTTCGTAGATCAAGTGGAAAATGTTCTTTTCTTAAATACGGATGGTAACACGGATAATACGACAGCACCTGTTATCCCAATTGTAGATGAAGTAACGAAAAAAGGACGTGTGACAAGTCGTAAATTAGCTTGGGATTTATTCCTGGATGTAGTTGCTGAATTAGAAGCCGCTGAAAATGATTATGAAGCTGTAGCAATTGACCTGGTCGAAGACCTTTATGAACATTGCCGTGTATATGTATTTGATAAAAACAGTTGGGAGCATGAGTCAGATGGTTCATATGGCAAAGGTTGGTCATTAGTAACAACTGAGTTTAATAACGCTATGAAGCGATTGAAGGCGTTAGGGTACCAAATTATTTATATCAGTAAGGAAAAAGTTGAGGAATACACCCTGAAAGGTGGAGCGAAGCGTACAACATTCAAACCAAATATCAATGACAAAGTAGCAAATTTCCTTTCGGGAACAGTTGATTTAACATTACGTGCTTATGTCGATTCGGATGATAAACGATTTTTACAACTTACGAAAAAACAAAATGTATTCGGTGGTGGTCGTTATGATTTCCAAGTAGATACAATTCCGCTTGATATGGAAGCATTTATTGAAGAACTTACGGCTGCACAAGAAGAAAAGACGAAAGAGAAAAAACCAAAACGCACAGGGCGTAAGCAAAAGGAAGGCACGTCTGAAGAAAATGTGGCCACAAAAACGATGTATTTCCAACATGAAGGTTCTGATGATTTCATTGTAGTTAAAAAGGGTGAGTCATTAGACTTCTTAGAAACAGATATTTTTGATGAACGTACGAAAAAAGAATATGAACAGTGGCTTGCTGAAAATGAAGATAAGTCTGCAGATGATGAACCAGAAGAGAAGTCAAAACGCAGTCGTCGTTCTCGTAAGGAAGAACCAGATGCACCTGTTGAGGAAGAAAAGCCAAAGCGTGAACGTCGTCAACGTAAAGCGGTTGAAGATGATACGCCACCAGGTGAAGCTGATGGGCCAACTGAAGAAGAAGCATCTAAACGTACGCGTAGATCAAGATCAAATAAATAA	MTQYSYSRVSLYEDCPYHFDIRYNKRLTEIQDLTNAANPLIIGHALHTGIENDVETALNEYYNAFPVMNDAIVEEAMKLEILIPKVQNFLEEAFGEFEFIHEYKIDKPNYVGFVDLILKAPDGTCMVIDFKYSNHVKNYMNSGQLHIYKDYLEQDGFDIKKLAYLFVPKTSIKQKKDEDLHTFRKRLVQTVEESQVEFVPIEFDEMKTVYFLNSIKTIEKANSFSKRNASGNCFACNPRFRPNYLEAIENEKGEIEMVLPKNERRERKIDTKPDFWLYADSYTGKSTFVDQVENVLFLNTDGNTDNTTAPVIPIVDEVTKKGRVTSRKLAWDLFLDVVAELEAAENDYEAVAIDLVEDLYEHCRVYVFDKNSWEHESDGSYGKGWSLVTTEFNNAMKRLKALGYQIIYISKEKVEEYTLKGGAKRTTFKPNINDKVANFLSGTVDLTLRAYVDSDDKRFLQLTKKQNVFGGGRYDFQVDTIPLDMEAFIEELTAAQEEKTKEKKPKRTGRKQKEGTSEENVATKTMYFQHEGSDDFIVVKKGESLDFLETDIFDERTKKEYEQWLAENEDKSADDEPEEKSKRSRRSRKEEPDAPVEEEKPKRERRQRKAVEDDTPPGEADGPTEEEASKRTRRSRSNK				NA	NA	NA	NA	NA
AK009_04312	279			hypothetical protein	ATGAAAGAGTCACAATTCCAAGCAAAAGTTATCAAATATTTAAAAGAAAAAGGTGTATGGCACGTAAAGTATTGGGCTGGTAGTCAGTATACCAAAGAAGGAATACCCGACATTTTAGCATGTATTGGTGGAATGTTTCATGGAATTGAGTTGAAAACGGATGTAGGTACACCTTCAAAGCTACAACTATATAACATTCGTAAAATAAAAGATTCAGGCGGACAAGCTTATATTTTAAGGCCAAAAGATTTTGAAGCATGGAAAGAACGGTGGTTTTGA	MKESQFQAKVIKYLKEKGVWHVKYWAGSQYTKEGIPDILACIGGMFHGIELKTDVGTPSKLQLYNIRKIKDSGGQAYILRPKDFEAWKERWF				NA	NA	NA	NA	NA
AK009_04313	318			hypothetical protein	ATGCCCAATGAAGTGCAAGCATTTGAAAATAAGCATTTGGCAATTATGACAGCAATTGCAATTCATACTCAACAGGAGAAAGCACTCGCTGAGAAGTCAAAAGAAATGAAAGCGGAGCTTGAAAAAGCAATGGATGAGCACGGTATCAAGTCCATTGATAACGATCTAATCAAAATTACAAGAGTTGATGAAAGTAAGACAACATCAATTGATACGAAAAAGCTAAAGGACAAAGAACCAAAATTATATGGTGAGCTTTTAGAAGATTATCCAAAGACATCTGTTCGAAAAGCTCATGTGAAATTTGTGGTGAAGTAA	MPNEVQAFENKHLAIMTAIAIHTQQEKALAEKSKEMKAELEKAMDEHGIKSIDNDLIKITRVDESKTTSIDTKKLKDKEPKLYGELLEDYPKTSVRKAHVKFVVK				NA	NA	NA	NA	NA
AK009_04314	1236			hypothetical protein	ATGCAACTCTTTCCACACCAAGATAGAGCGTTAAACGATACATACAAGCATAGTCGTGTGGCGTACTACCTTGATATGGGGCTAGGGAAGACCTTTGTAGGCTCTGAAAAAATGTGGGAGCTCAATACACCATATAACTTATTAATCTGTCAGAAATCCAAAATAGACGACTGGAAAGAGCATTTTGAACAACATTACGACTACAAAGTAATTGTGTTCGATAAGCAACAATTAGAACATATACCACCTGAAAGTGTTTTAATTATCAACTATGACAAGGTATGGCGTAGGGATGAACTAAAGAAGTTAAAGGATTTCACAATTATGCTGGACGAGTCTTCCATGATTAAAAATGAAAAGTCTAATCGAAGTAAATTTATCTTGGGATTAAACGCTGAAAATGTCATTTTACTATCAGGTACACCGACAGGTGGAAAGTATGAAGAATTGTGGTCACAATTGCATTTGTTAGGTTGGAATATTAGTAAAAAATTATTCTTAAAACAATTCGTAGTTCAGGAATGGGACGATAAAAACCAACAAATGAAAATTACAGGTTATAAAAACGTAGAGCGACTAAAAGCAAAGTTAAAGAAGCATGGTGCCGTATTTATGAAAACAGAGGAAGTCTTTGATTTACCCAATACCAATGAGATTCCAGTGAAGATACCTGTTACCAAGATGTACAACGAATTTAAGAAGCATCACATTATAGAAATTGGTGAAGAATTACTAATCGGCGATACACCAGCAGCAAAGAAGTTGTACTTAAGGCAACTTGCAGGGAGTTATAACGAACATAAATTACAATACATCAAGGACCTTATAGAAAGTACAAATGACCGCATCATCATCTTTTACAACTTTAAAAAGGAATATATGGCACTGGTCGATTTAATCGAACGACCAATTGCTACAATAAACGGTGATATTAAGGACCTTTCAGCCTATGAAAAACATGATAACTCGGTCACATTAATTCAATATCAAGCTGGCGCGATGGGATTAAACCTACAGAAAGCTAATAAGATTGTTTATTTTACGCTAACAGATAAAAGTGAGTTGTTTGAACAAAGTAAAAAACGCACGCATCGTATAGGGCAAAAACGACCTTGTTTTTACTATTACTTACTTACAGATGGATCGATAGAATGGCGCATGTTAGATGTTCTGAAAGAGCGTAGGGATTATACAGATGCTTTATTTGAAAAGGAGGAAGATGTAAATGCCCAATGA	MQLFPHQDRALNDTYKHSRVAYYLDMGLGKTFVGSEKMWELNTPYNLLICQKSKIDDWKEHFEQHYDYKVIVFDKQQLEHIPPESVLIINYDKVWRRDELKKLKDFTIMLDESSMIKNEKSNRSKFILGLNAENVILLSGTPTGGKYEELWSQLHLLGWNISKKLFLKQFVVQEWDDKNQQMKITGYKNVERLKAKLKKHGAVFMKTEEVFDLPNTNEIPVKIPVTKMYNEFKKHHIIEIGEELLIGDTPAAKKLYLRQLAGSYNEHKLQYIKDLIESTNDRIIIFYNFKKEYMALVDLIERPIATINGDIKDLSAYEKHDNSVTLIQYQAGAMGLNLQKANKIVYFTLTDKSELFEQSKKRTHRIGQKRPCFYYYLLTDGSIEWRMLDVLKERRDYTDALFEKEEDVNAQ				NA	NA	NA	NA	NA
AK009_04315	645			hypothetical protein	ATGAAACCTGAAGAGTTGTTCGAAGAAAAACAACATCTAGTATTTGCTGCGATCAAACAACAATTTGGTAGTTATCACATGGCGAAACGAATTGCTGAAAATAACAATATGGAATTTGATGATTTGGTGCAAGTGGGAAATATGTATCTTTGGGAGCGGTGTGTGAAACATAATCCAGAAAGAATAGGTACATTTAGCGCTTACGTGATGAGAGGATTGCGATGGTATTTGAGTAATGAAATTCACTTAAAAGGTACTTTATTTAAAGTTAGTCGATATGTCAGTGTGGACGAAAGAAACCAAATTGAGACGCGATCTATTGATTTACATCGAGATGGGGAAGTAATAAATGATTTTTTTGCAGTATCAGATATTGATGTGGAAGAAGAGGTAACAACACTTCTTGAATTTGAAGAAGTCACAGGTGTTCTAAACGGAAAAGAAAAAGCCATCATACTGCATATTGGTGAAGGGTATACCGCAGAAGAAATTGCAGTGAGACTTGGAATGGGTAAATCTACAGTACATCAAAAGAAAAATGCAGCTTTTCTAAAAATCAATCCAGATTATCAACCTGTGAAAAGATCATTCTTCCTTGGGAAATTACCATATAAGAGAAACCGCCAGTTGGGGCTGACGGTCTAA	MKPEELFEEKQHLVFAAIKQQFGSYHMAKRIAENNNMEFDDLVQVGNMYLWERCVKHNPERIGTFSAYVMRGLRWYLSNEIHLKGTLFKVSRYVSVDERNQIETRSIDLHRDGEVINDFFAVSDIDVEEEVTTLLEFEEVTGVLNGKEKAIILHIGEGYTAEEIAVRLGMGKSTVHQKKNAAFLKINPDYQPVKRSFFLGKLPYKRNRQLGLTV				NA	NA	NA	NA	NA
AK009_04316	189			hypothetical protein	ATGTATAAAAATCTATTTATCGCTCGAAAAGAGAAGCGTATGACACAAGAAGCGGCTGGGAAGTTAGTAAACATGTGTAAGCAAACTTATTATCTAAAAGAAAATTGTAAACGTGATTTCACCTTAAAAGAAGCCCAGAAGCTTGCAAAATACTTCAAAACAACAGTGGACGAGCTATTTGAAAAATAA	MYKNLFIARKEKRMTQEAAGKLVNMCKQTYYLKENCKRDFTLKEAQKLAKYFKTTVDELFEK				NA	NA	NA	NA	NA
AK009_04317	198			hypothetical protein	ATGAACATCCAGGAATACGGTGATCGTGAAAAAAAGCTTGTAAGGCTAATAGGTACATCAAAGCTGTGGAATTTTAATCAGTTTGTACTGGATTTGGTTGAAATACATGGGGTAGAAAAAACGCAAGAAATCGTTAGTGAGTTAGGGCGTCATGCTGTAGATACTGCTAAATTACACGAAGAAACAATTGCTAAATAA	MNIQEYGDREKKLVRLIGTSKLWNFNQFVLDLVEIHGVEKTQEIVSELGRHAVDTAKLHEETIAK				NA	NA	NA	NA	NA
AK009_04318	156			hypothetical protein	ATGAAAAATGGCAAAAAACCATCTAAACGTGAAAAAGTCCGTATTGCGTCGTATAAGTTGAATCCTGAAAACTGGTTGATCTTTAAGAAAACAGATGGACAACTTCACTTATTGCATCGAAATACATTTGCTACACGTGTAATTCCAAATTTATAA	MKNGKKPSKREKVRIASYKLNPENWLIFKKTDGQLHLLHRNTFATRVIPNL				NA	NA	NA	NA	NA
AK009_04319	321			hypothetical protein	ATGAAAAGAGATTGGCTTGTGAAAATAAGAAAACAACATGAGTTGACGCAAGCAGACATTGCGGAAGCTTTAAATATAAGTCCTACACACTATGCAGACATCGAGAGTGGAAGAAGAACACCCGGGGCATCTTTGGCTATGAAAATTGCAACATTTTTAGAGTTTCCAGTAGAGTGGCTTCTATTACCTTCTTATCTGCATAATGCGGAAAAATGGGTATTGAAACTAGCTATGCAAATGGATTTTCCTTCGGAAGAAATTTTTTTGAATGCATTTCCGCGAATTGCGGAAAAGATAAAATCTTGTAAGAAAACGAGTTAA	MKRDWLVKIRKQHELTQADIAEALNISPTHYADIESGRRTPGASLAMKIATFLEFPVEWLLLPSYLHNAEKWVLKLAMQMDFPSEEIFLNAFPRIAEKIKSCKKTS				NA	NA	NA	NA	NA
AK009_04320	339	immR_1	COG1396	HTH-type transcriptional regulator ImmR	ATGGATATAGGAGGAAACTTAAAGTTTCTACGCAAAAGATATGGGTGGACAACAGAACATGTGGCAAATCAATTAGAAGTCTCAATTTCAACCTACAATGGTTATGAAATAAACTACAGAAAACCAAATCCCGAAATGCTATGTAAATTAGCTGATGTGTTTAATTCCACAACTGATTTCATATTAGGGAGAATTGATAATCCAGATGGCTCCAAAGATAACCTACAAGATATTTTAGAAAACGGTACACTTAATTATGGTGGAAGAGAACTTACTATCGAGGAAACTGAAAAAGTAAGAGATTTTTTCAACATTGCTATAAAACGTATGTTGAGTTAA	MDIGGNLKFLRKRYGWTTEHVANQLEVSISTYNGYEINYRKPNPEMLCKLADVFNSTTDFILGRIDNPDGSKDNLQDILENGTLNYGGRELTIEETEKVRDFFNIAIKRMLS				NA	NA	NA	NA	NA
AK009_04321	177			hypothetical protein	ATGTTAGAAACTGTAGGGGTAGTAGAACAAACAAAATGTATGATTGGAAAACTCTTAGAGTCTAAAAAAGTCAGTTGTGATGTTGAATATGTGATAAATGAGTTATATAAAACAGGAATATATACGAAAAAGGAATTTGATGAAATCACGAATATATTGCAACAAAAAAAGGACTAG	MLETVGVVEQTKCMIGKLLESKKVSCDVEYVINELYKTGIYTKKEFDEITNILQQKKD				NA	NA	NA	NA	NA
AK009_04322	150			hypothetical protein	ATGAGAAAAATTGGTATACTATTGTTAGGCGTTGTTGGTGCGTTAGCATTAGCTTTAAACACAGGGGTAGCTGAGAAAGAGCATGTTGCTAGTAAGCAACTAAATAACGAATATGTACAATATATGAATTCGGAACCAGGTGGGTTATGA	MRKIGILLLGVVGALALALNTGVAEKEHVASKQLNNEYVQYMNSEPGGL				NA	NA	NA	NA	NA
AK009_04323	1254			hypothetical protein	ATGTTCGGAGAAGGGGGAAGTAAGTTTGTGAAGGAGTTAAAAGAAAAGACGAGAAAAAACTCTAAAAAACATCTACAAAAAGAATTTAAGCACAATTTGATGAAAGAACTAATGAAGAAGATAAAGCAAGATATGGATGATAAAGGATTTAAGATTCGTCCGTTAGCAAAGAAAGTCGGTGTAGATCGTTCGGTCATTACTGACGGAATTGTAACCGGTAAAACAGCTGAAATGAAATTAGACGCATTTATGAAAATCATGGATGTTGTCTATGAAAATTTAGAAGAACGGCAGGAAGTAATACGAAGTTTTATTAAACTTTCTCAAAATGATCTTAATATTCGTAAATCGCTAGTTTATTGTCAAGGTACTGGTGAGTATGAATTAATGGACTTTATAATAAAGGAAAACCAAGCTAATGAAGAGGTAAGAAAATATTTACGTGTATATGAAATATTTAATAAAAGAAATAAAAATGAAAAGAAAGGTCAGCCTTTATTAGATGAGATGAAGCAACAGACCTTTTCCACAGATGCTGAGTGCCAGATAATGTTGAATACTTTATATGCTTTTACTATGAATGACATATTTAATATAAGAGCAATGCATCCGTATACTGATAATGTGGAACAATATTTATTAGAAGTTACAGATAAATTTATAAATAGTTGGTTAACGATGTATTTTGATGAGCGGATGGCTTACATTCATATGTTTGATGATAAATTAGAATTGTGCCGTCAAAAATGCAATAAGATTTTAACGAGTGAAATTCTTATACCACTAATTAGGGCGACCAGCATGTGTTGTCTTGGAGAAAGCTATATGTTTGAAGACCAGCTTCTCTCGGAAAAGTGGATTTTGAATAGTATCAATTACCTAGATAAACATGGAGTATCTCGTGAAAGTAGAAAGTATAAAGCTTTTAATACTACATTAAATTACTTATATATTGAATTTGGTTTTAATTTAGACAAAATTAATTTCGATTACATTGATGTTTCAGAATTAGGTTACTATATAGGATTGTATGAAGATAAGGAAAAAGGATTAGAAATGATATATAATTTAGTTAAAGAACGTGGTGGCTCACCTTTTACTGATTACTACATTGCTAGGATAAATGAAGATTTAGAGGGCTTGGAAAAGGCACTTATGCGCTTTGAGCGGGTTGCAAATTACCATTATGCTAAAGCGGTACGACGTACAATTGAATTATTAAAAAAGAAACAGGGAGAGGTTGAGAGAGTATGA	MFGEGGSKFVKELKEKTRKNSKKHLQKEFKHNLMKELMKKIKQDMDDKGFKIRPLAKKVGVDRSVITDGIVTGKTAEMKLDAFMKIMDVVYENLEERQEVIRSFIKLSQNDLNIRKSLVYCQGTGEYELMDFIIKENQANEEVRKYLRVYEIFNKRNKNEKKGQPLLDEMKQQTFSTDAECQIMLNTLYAFTMNDIFNIRAMHPYTDNVEQYLLEVTDKFINSWLTMYFDERMAYIHMFDDKLELCRQKCNKILTSEILIPLIRATSMCCLGESYMFEDQLLSEKWILNSINYLDKHGVSRESRKYKAFNTTLNYLYIEFGFNLDKINFDYIDVSELGYYIGLYEDKEKGLEMIYNLVKERGGSPFTDYYIARINEDLEGLEKALMRFERVANYHYAKAVRRTIELLKKKQGEVERV				NA	NA	NA	NA	NA
AK009_04325	1062	intQ_3	COG0582	Putative defective protein IntQ	TTGGTAATCTATAAAGATGAACAACGCGGGACTTATTATTTTGTCACAAGGGTTCGACAATTAGACGGTACTTTAAAACAAGTAAAACGTCGTGGATTTAAAACAAAAAAAGAAGCTCGTGAAGCCGAAGCTAAAATGTTAGTTGAAAAAGTAACAACTTCTAGTCTTACTTTTTCACAAGTTGCAGATAGCTATTTTGATTGGTACTCACAAAGGAGAAAACAATCTTCTATAGTGACGATTAGAAACGTCATCTACAATCATCTAATAACCGAGTTTGGGAAATTAAAAATCGAGCAGATTACCCCCAAACATATTATGAATTATCAAAATAAGATTATTAATCAGTATTCAGCCAAACATTTAAAGAAGATCCACGCAGTCCTTTCTGCTATATTTAATTTTTCAATTAAATTCCATGGTTTAACCACTAATCCCGCAAGAATTACGGGGAATTTTGAGAAAGAATCAAATAAACGAATGAACTTTTGGGAATTTGAAGAATTTAAGCAATTTATTGCAGTTGTGGACGAGCTATTATACAAAGCATTTTTTTCAACACTTTATTATAGTGGAGCAAGAAAAGGAGAACTACTTGCTTTGACTTGGTCGGATATTAATTTTGAAGAAAAAACAATTGATATTAATAAAACAGAATTTGAAAGAAAAGTAACAAAACCAAAAACTAAAGCTTCTAACAGAATAATCATGTTACCAACGCATTGTATCGATTTATTAAAAGAGTTACATTGTGAAAAATCCAAAGAATTTCCTGTCAAAAATGATTATGTTGTATTTGGAGAATTTCGTAGCAGTATTGCCGTTTCCACTCTTAGTAGGAACTACCAAAAGTATTTGAAAATGTCTGACGTTAAAAAGATTTTAATCCACGAATTTAGGCATTCCCATGCATCTTATTTAATAAATAAAGGCGTCAGTCCACTTGTAGTAGCCCAACGCCTAGGTCATTCAAATGTGTCAACTACTTTAAATACTTATAGTCATTTGTATCCTTCTAAACAGGCGGAAGTGGTTGCATTTATGGAGAACGATTTGGTATAA	MVIYKDEQRGTYYFVTRVRQLDGTLKQVKRRGFKTKKEAREAEAKMLVEKVTTSSLTFSQVADSYFDWYSQRRKQSSIVTIRNVIYNHLITEFGKLKIEQITPKHIMNYQNKIINQYSAKHLKKIHAVLSAIFNFSIKFHGLTTNPARITGNFEKESNKRMNFWEFEEFKQFIAVVDELLYKAFFSTLYYSGARKGELLALTWSDINFEEKTIDINKTEFERKVTKPKTKASNRIIMLPTHCIDLLKELHCEKSKEFPVKNDYVVFGEFRSSIAVSTLSRNYQKYLKMSDVKKILIHEFRHSHASYLINKGVSPLVVAQRLGHSNVSTTLNTYSHLYPSKQAEVVAFMENDLV				NA	NA	NA	NA	NA
AK009_04326	1278			hypothetical protein	ATGAAGTGGAAACATATAATTGGTGACGTTGAAGTGAATCGGGATTTAGTGTTATTGCTCCTTATAGGAGGTTTATACACGCTCGCAATTTCTTTATCGAATACGTTTGTAAATATTTATTTATGGAAGCAAACACAAAATTATGTGAATCTTGGCTTGTATAATTTGGCCAGCGTTGTATTACAGCCTCTCACATTTCTTGTAGGGGGGAAATTAGCGAAACGTATCGATCGCTCGATTTTATTACGAATAGGAGTAGGAACGCTCGCAATTTTTTTTATAGTTGTTTTAGTGGCTGGAAAAAGTGCTTCTCAGTATATTTTATTAATGGGGGCTCTTTTAGGAGTAGGATACGGTTTTTACTGGTTGGCTTTTAACTTATTGACATTTGAAATTACAGAACCAGAAACAAGAGATTTCTTTAATGGATTTCTTGGACTTCTTACATCTTTCTCTGGGATGATTGGACCAATAGCAGCAGGATACACAATTTCACGCATGGAGAAATGGAGTGGTTATACTGTTATATTCTTTCTTTCATTAGTTTTATTTGCAATTGCTGTCGTCTTAAGTTTCTTTTTATCTAAAAGAGAATGTGAAGGGCGTTATGAAATTGTGCAAGTATTGAAAGAACGAAGAGTTGATAAAAATTGGGGAAAGATTACACGAGCTCATTTTTTCCAAGGATTGAGAGAAGGAACGTTTATTTTTGTCATTTCAGTATATGTGTATTTAGCAACTAATAGTGAGTTCGCATTAGGGAAATATAGTTTAGTGAACTCTGCTGTATCCTTTGTATGTTATTACTTGGTCGCTCGCATGTTAAAGAAAGAGTGGCGAAAAAAAGCAATTTTACTTGGGGGCATTATTTTATATGCTGTCGTCTTTTTAGTTATTTTCAATGTTACATACACGAAATTACTTATTTATGCGGCATGTATTGCGGTTGCATATCCTATTTTACTTGTTCCATACGGGTCAATGACATATGACGTAATTGGTAGAGCTAAAAATGCGAGAGAATGGCGTGTGGAATATGTCGTTGTCCGGGAGTTATGGTTAAATGCCGGAAGAATCTGTTCCATTTTAAGTTTTTTATGTGCTGTACTATTCTTTCCACCTGAAAAAAGTTTACCTTACTTATTATGTATTTTAGGTGCTGGACATTTTCTTATTTATTTTGCAGTTAAAAATGTCAAATATGATGGGGAAAATGCAGATAAAACAAGTGTTGTAACGCAAGGAACTACGCAGAATCAAACTGAACCAGAAGGTTAA	MKWKHIIGDVEVNRDLVLLLLIGGLYTLAISLSNTFVNIYLWKQTQNYVNLGLYNLASVVLQPLTFLVGGKLAKRIDRSILLRIGVGTLAIFFIVVLVAGKSASQYILLMGALLGVGYGFYWLAFNLLTFEITEPETRDFFNGFLGLLTSFSGMIGPIAAGYTISRMEKWSGYTVIFFLSLVLFAIAVVLSFFLSKRECEGRYEIVQVLKERRVDKNWGKITRAHFFQGLREGTFIFVISVYVYLATNSEFALGKYSLVNSAVSFVCYYLVARMLKKEWRKKAILLGGIILYAVVFLVIFNVTYTKLLIYAACIAVAYPILLVPYGSMTYDVIGRAKNAREWRVEYVVVRELWLNAGRICSILSFLCAVLFFPPEKSLPYLLCILGAGHFLIYFAVKNVKYDGENADKTSVVTQGTTQNQTEPEG				NA	NA	NA	NA	NA
AK009_04327	612	sodA1	COG0605	Superoxide dismutase [Mn] 1	ATGGCAAAACACGAATTACCAAATTTACCTTATGCGTATGATGCTTTAGAGCCTCACTTTGACAAAGAAACAATGAACATCCATCATACAAAACATCACAACACGTATATTACAAACTTAAACGCTGCTTTAGAAGGTCATGCAGAATTAGCTGACAAAAGCGTAGAAGAATTAGTTGCAAACTTAAACGAAGTACCAGAAGCGATCCGTACAGCAGTACGTAACAATGGTGGCGGACATGCTAACCATACATTCTTCTGGACAATCTTATCTCCAAACGGCGGAGGACAACCTGTAGGTGAACTTGCAACTGCAATTGAAGCGAAATTCGGTAGCTTCGATGCATTCAAAGAAGAATTCGCAAAAGCTGGCGCAACTCGCTTCGGTTCTGGTTGGGCTTGGTTAGTAGTAAACAATGGTGAGTTAGAAGTAACAAGCACTCCAAACCAAGATTCTCCTTTAACTGAAGGTAAAACTCCAGTTATCGGTTTAGATGTTTGGGAGCACGCTTACTACTTAAACTACCAAAACCGTCGTCCAGACTACATCGGCGCATTTTGGAACGTTGTAGATTGGAACGCTGCTGAAAAACGTTACCAACAAGCAAAATAA	MAKHELPNLPYAYDALEPHFDKETMNIHHTKHHNTYITNLNAALEGHAELADKSVEELVANLNEVPEAIRTAVRNNGGGHANHTFFWTILSPNGGGQPVGELATAIEAKFGSFDAFKEEFAKAGATRFGSGWAWLVVNNGELEVTSTPNQDSPLTEGKTPVIGLDVWEHAYYLNYQNRRPDYIGAFWNVVDWNAAEKRYQQAK	PGPT0004190_3750	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
AK009_04329	759			hypothetical protein	ATGTCCATATTTACCCAATTCGTAAAAAGCATATACTCGCCTAAAGATATGGCGCTATTCCGTTTTCAAAAAATCGGTAAAACCATTTTGTATATTATGCTACTTTGCTTAATTACTACTATTCCAAGAACTTTTTTGTACGGTAGTTTTATCCAAGATGGTGTAGGCATGGTAAATCAAGTCATCGATAAAGATTTACCTGACTTTAAGATTGAAAATGGCGAACTAAAAGCCGATATTGATCAACCCATTGAAAAAGAAGAAGGAAATGCACTTTTCGTATTTGATCCAAATTCAACAGACCTAGAAAAATATCAAAATAAAACAGGTTTATTTGTTTTAAAAGATAAAGTAGTCTCTATGGGAAATGGTCAAACACAAACGTATTCTTATAACGATTTGTTAGGTGCATCTCTTGAGAAAAAAGATTTACAAGAATTTATTTCTTTATTTGATAATATTTATCCAATTTTATTATTCGTTATCGGATTCTTAGTGTACCTATTCCAATTATTCATCACTTTTGTAGGCGTGACTTTACTTGCGTTCATCGGTTCTGCTATGAGCGGTCAACGTAAACTATCCTATAAACAAGTTTGGACACTAACTGCATACAGCTACACAATCCCAACCATTTTCTTCATGATTATGGATTTATTCAAAATCGTCGTACCTGGGGCAACATTCATTTATATCGCTGTTGTTTTAATCGTTCTATACTTAACGATTAAAGAGGTACCCCAACCGAAAGAAAAATAA	MSIFTQFVKSIYSPKDMALFRFQKIGKTILYIMLLCLITTIPRTFLYGSFIQDGVGMVNQVIDKDLPDFKIENGELKADIDQPIEKEEGNALFVFDPNSTDLEKYQNKTGLFVLKDKVVSMGNGQTQTYSYNDLLGASLEKKDLQEFISLFDNIYPILLFVIGFLVYLFQLFITFVGVTLLAFIGSAMSGQRKLSYKQVWTLTAYSYTIPTIFFMIMDLFKIVVPGATFIYIAVVLIVLYLTIKEVPQPKEK				NA	NA	NA	NA	NA
AK009_04330	366			hypothetical protein	ATGAAGAGGTTAGGTATATTCCTATTCGTGCTTGTTCTCGGTTATGTATTTTATTACGATATAAAAATCGGTACTTTACCGATGTTAAGTTCATATAAAAAAACAACCGCTGCCCAAACGATTAAAAAAGAGAACGCAGACAACCAACAAAATAAAGAGAATAAAACAGAAAAAGAAACGGATACATCTTATAAAACAATTGAAGTAAAAACTGGTGAGACAGTTCTTTCTATTACAGAACAAATTAACAAGAAAAAAATTCCTTCCATAGAAAAAGTCATTGACGACTTTAAACTATTAAACAAAAGTACATCTGCTACAAAAATCCAAATTGGAAAGTCTTATAAATTCCCGTTATATCAATAA	MKRLGIFLFVLVLGYVFYYDIKIGTLPMLSSYKKTTAAQTIKKENADNQQNKENKTEKETDTSYKTIEVKTGETVLSITEQINKKKIPSIEKVIDDFKLLNKSTSATKIQIGKSYKFPLYQ				NA	NA	NA	NA	NA
AK009_04331	1113	ispG_1	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	GTGAATGAAATGACTCATCGTACAAAAACACGTCCAGTTAAAGTCGGTAATTTAACAATCGGCGGTAATAATGAATTAATTATACAAAGTATGACAACAACAAAAACACATGATGTTGAAGCAACAGTTGCTGAAATCAAGCGTTTAGAAGAAGCCGGCTGTCAAGTCGTCCGCGTTGCCGTTCCAGATGAACGCGCAGCAGATGCTATTGCTGATATAAAAAAACAAATCAACATTCCACTTGTTGCTGATATTCATTTTGATTATCGCCTTGCTTTAAAAGCAATTGAAGGTGGCATTGATAAAGTACGTATCAATCCAGGTAATATTGGTCGTCGCCATAAAGTAGAAGCTGTTGTAAATGCAGCAAAAGAGCGCGGTATTCCAATCCGTATTGGTGTAAACGCCGGTTCATTAGAGCGTCACATTTTAGAAAAGTACGGGTACCCAACTGCAGATGGTATGGTTGAGAGCGCGCTACATCATATTAAAATTTTAGAGGACTTAGATTTCCACGATATTATCGTATCTATGAAAGCCTCTGATGTTAACTTAGCAATCGAAGCATACGAGAAAGCTGCTCGCGCTTTTGATTACCCATTACATTTAGGTATTACAGAATCTGGAACATTGTTTGCTGGAACTGTAAAAAGTGCCGCTGGTCTTGGAGCAATCTTAAGTAAAGGCATCGGAAATACACTACGTATTTCATTAAGTGCTGATCCAGTTGAAGAAGTAAAAGTTGCTCGTGAATTATTAAAATCATTCGGTCTTGCGTCTAACGCAGCGACACTTATCTCTTGTCCAACTTGTGGTCGTATTGAAATCGATTTAATTAGCATCGCTAACGAAGTGGAAGAATACATCTCTACACTTCAAGTACCAATTAAAGTTGCAGTACTTGGTTGCGCTGTAAATGGCCCTGGTGAAGCTCGTGAAGCTGATATCGGTATTGCTGGTGCACGTGGAGAGGGATTATTATTCCGTAAAGGGCAAGTCGTTCGTAAAGTACCAGAAGAAACAATGGTAGAAGAACTGAAAAAAGAAATCGACGTAATTGCTGCTGAAATGGCTGCTGAACGAGAAAAAGAAAAAGAGACACAAGAACAATAA	MNEMTHRTKTRPVKVGNLTIGGNNELIIQSMTTTKTHDVEATVAEIKRLEEAGCQVVRVAVPDERAADAIADIKKQINIPLVADIHFDYRLALKAIEGGIDKVRINPGNIGRRHKVEAVVNAAKERGIPIRIGVNAGSLERHILEKYGYPTADGMVESALHHIKILEDLDFHDIIVSMKASDVNLAIEAYEKAARAFDYPLHLGITESGTLFAGTVKSAAGLGAILSKGIGNTLRISLSADPVEEVKVARELLKSFGLASNAATLISCPTCGRIEIDLISIANEVEEYISTLQVPIKVAVLGCAVNGPGEAREADIGIAGARGEGLLFRKGQVVRKVPEETMVEELKKEIDVIAAEMAAEREKEKETQEQ	PGPT0007580_3212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
AK009_04332	414	zur	COG0735	Zinc-specific metallo-regulatory protein	ATGAATCTAACGGAAGCTTTACGCCTAATGAAAGAAAAAGGATACAAACATACTGGAAAAAGAGAAGAGATGCTCAGATTATTTGCAGCACATAATCGTTATTTAACTGCGAAAGACGTTTTAGAGCATATGAAAGACGACTATCCAGGGCTTAGTTTTGATACGATTTATCGTAACTTAACAGTTTTTGCTGAGATTGGTGTTTTAGAACAAACGGAATTAAATGGTGAAAAACATTTTCGTTTTACTTGTTCTATTATGGAACATCATCATCATTTTATTTGTTTGGATTGTGGGGGGACGAAAGAGATTACTTCCTGCCCAATGGATTTTATGAATAAAGATTTTACTGGTTATGAAGTAACGGGTCATAAGTTTGAAATATATGGTCGTTGTCCAAAATGTGCAAAGTAA	MNLTEALRLMKEKGYKHTGKREEMLRLFAAHNRYLTAKDVLEHMKDDYPGLSFDTIYRNLTVFAEIGVLEQTELNGEKHFRFTCSIMEHHHHFICLDCGGTKEITSCPMDFMNKDFTGYEVTGHKFEIYGRCPKCAK	PGPT0004295_331	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076	NA	NA
AK009_04333	834	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGATACAAGATTTTTTACAATATGACTTTTTACGTAATTCTTTATACGCAGGTATTTTAATTGGACTTGTTGCACCGCTAATTGGTGTGTTTGTTGTTATTCGTCGTTTATCTCTTATTGCGGATGCATTAAGTCATGTGACGTTATCAGGTATTGCAGCAAGTTTATTACTTGAAAAAACCATTTTTACAGGTGGATTTTTAAACCCCTTATATATGGGGATGATTTTTTCAATTGGTGGAGCGCTACTAATCGAAAAGTTAAGAACTGTATATAAGCACTATCAAGAATTAGCAATTCCGATTATCCTTTCGGCAGGGATGGGAGTTGGAGTTATTTTTATTTCACTTGCAAATGGATTTAACACAGACTTATTTAGTTATTTATTTGGTAGTGTTAGTGCTGTAACAAGTACGGATTTAATTATTATTGGGATTGTAGCAATTGTTGTTGTTGCGACAATTATTTTATTATATAAAGAGCTGTTTCTACTATCATTTGATGAGGAATACGCAGTATCAACTGGTTTAAGAGCGAAATGGATTCACTTTATTTTCATTATATTAGTTGCTCTTGTCATTGCAGTATCAATGCGTGTAGTAGGGGTTCTTCTCGTATCATCATTAATGACGTTGCCAGTTGCAGCGAGTATTCGTATTGCTAAAGGATTTAAACAAACAATTTTCTTTTCCATTTTATTTGGTGAAATTGCAGTTATTGGTGGAATGTTTGCTTCGTATCAACTTGATCTAGCACCAGGTGGTACAATTGTTATGATAGCAGTTCTTATTTTAATCGGTGCGATTTTATGGAAGAAGAAAAAAACTGCATAA	MIQDFLQYDFLRNSLYAGILIGLVAPLIGVFVVIRRLSLIADALSHVTLSGIAASLLLEKTIFTGGFLNPLYMGMIFSIGGALLIEKLRTVYKHYQELAIPIILSAGMGVGVIFISLANGFNTDLFSYLFGSVSAVTSTDLIIIGIVAIVVVATIILLYKELFLLSFDEEYAVSTGLRAKWIHFIFIILVALVIAVSMRVVGVLLVSSLMTLPVAASIRIAKGFKQTIFFSILFGEIAVIGGMFASYQLDLAPGGTIVMIAVLILIGAILWKKKKTA	PGPT0004225_1079	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
AK009_04334	771	znuC	COG1121	High-affinity zinc uptake system ATP-binding protein ZnuC	ATGAATAATATATTAGAGATTGAAGGTTTAACATTCCGATACGAAGATCGGAATGTGTTAGAAAATATTAATTTGCAAGTTCCGAAGGGAGCTTTTTTAGGTTTAGTGGGACCGAATGGTTCAGGTAAATCAACTTTACTTAAGTGTTTATTAGGCGTTTTAAAGCCAAAAGAAGGAAGCATTCGCGTGTTTGGCGTTGATAGTAAGAAGTTTAAGGAATGGAACAAAGTTGGTTATGTATCCCAAAAGGCAAATAGTTTCAATTCTGGTTTTCCAGCAACTGTTTCTGAAGTTGTGTCAATGGGACTTGTTTCGAAAAAAGGGCTTTTTCGCTTTTTCACAAAAGAAGATAAGAAAAAGGTAGAAAAAGCAATTGCTGATGTAGGGATGAGTGAGTTTCAAGGTCGTAACATTGGAGAGCTTTCTGGTGGACAGCAACAGCGTGTATTTATTGCTCGTGCGCTCGTTAGTGATCCTGAATTGCTTATTTTAGACGAGCCTACTGTTGGAATTGATGTAAAAAATGTGGAAAGTTTTTACGAAATATTAGAGGATTTAAACAAAAGATTGGGAATCACATTAATTCTTGTTACTCATGATATGGGAGCTGTTACCGAAAAAGTAACACATGTTGCATGCCTAAACCAACATCTACATTTCCATGGAAATGTAGAGAAGTTCCGAGAGTTAGAAGATGCAGAAATGTCGGTCTTATATGGACATCATGTTCATCGTTTAGAACACGAACATGAGCATCACGGGAGGATATAA	MNNILEIEGLTFRYEDRNVLENINLQVPKGAFLGLVGPNGSGKSTLLKCLLGVLKPKEGSIRVFGVDSKKFKEWNKVGYVSQKANSFNSGFPATVSEVVSMGLVSKKGLFRFFTKEDKKKVEKAIADVGMSEFQGRNIGELSGGQQQRVFIARALVSDPELLILDEPTVGIDVKNVESFYEILEDLNKRLGITLILVTHDMGAVTEKVTHVACLNQHLHFHGNVEKFRELEDAEMSVLYGHHVHRLEHEHEHHGRI	PGPT0004230_1054	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
AK009_04335	879			hypothetical protein	ATGGAGCAAAAGCAACATCGAAAAGAAAGTGTTATTCATCTCATTTATCGTTTAGTTATGATTATTTTTGGAGCAGCATGCGCGGCGGTAGCGATTGAACTATTTTTAATGCCAAATAAAATTATTGATGGTGGAATTATTGGTATTTCTCTTATATTAGATTATCTTACTCCTAACATTTGGTGGTTAAGTTTTTCTACTTTAGTCGTTGTTCTCAATATCCCATTTATGTATTCGGGTTATAAGCAAATTGGAAAAACATTTATGTTATCTTCGACATTTGGTATTGTAGCGTTAGCTTTCATTGAGTCAACGTTACATGCGGTGCCACCATTTACAACAGAACCTATTTTAGCGACAGTGTTTGGTGGGCTTATTTTAGGTCTTGGTGTAGGACTTGTAATTCGTCATGGTGGGTCGTTAGATGGAACTGAAATTATGGGGATTTTATTAACGAAGAAATTACCGTTCTCTGTTGGTGAATTCGTAATGTTTGTGAACTTATTTATTTTTGCATGGGCAGCATTTGTGTTTGGTGTGGAACAAGCGATGTATTCTGTTATGACCTACTATATTGCATTTAAAACGATCGATACAGTAATTCAAGGGCTAGATGAAACGAAGGCGGTTTTAATTGTATCTGATCAATACGAGGAAGTATCAAACGCGATTTTGCATCGTCTTGGCCGTGGAACTACAAAGCTGGTAGCAAAAGGTGGTTACACGGATAAAGAAAAAGAAGTTATTTATGCAGTTGTAACGCGTCTAGAAGTGACGAAGTTAAAATCAATTGTGCATGAAATTGATGAAAATGCGTTTGTGACGATTATGAACACGCAAGAGACAAATGGTGGTAAGTTTAAATCGGCTATTCACTAA	MEQKQHRKESVIHLIYRLVMIIFGAACAAVAIELFLMPNKIIDGGIIGISLILDYLTPNIWWLSFSTLVVVLNIPFMYSGYKQIGKTFMLSSTFGIVALAFIESTLHAVPPFTTEPILATVFGGLILGLGVGLVIRHGGSLDGTEIMGILLTKKLPFSVGEFVMFVNLFIFAWAAFVFGVEQAMYSVMTYYIAFKTIDTVIQGLDETKAVLIVSDQYEEVSNAILHRLGRGTTKLVAKGGYTDKEKEVIYAVVTRLEVTKLKSIVHEIDENAFVTIMNTQETNGGKFKSAIH				NA	NA	NA	NA	NA
AK009_04336	255			hypothetical protein	ATGAACCTCATAAAACAAATTGTTAATAAAAAATTAAATCATATTTCTACAAAAGAGTTATTAAAATATAGCAAAGAATATGAAGTTTCTATTACGACTGCACAAGCTGACCAAATCGTTTTACTTATGAAAGGTAAAAATATTAATATTTACGATAACAACGAGCGACTAGAACTCTTAAAACAGATCGCAAGAGTAACTTCCCCTGCCACTGCCCAACAAGTAAATACATTATTTCAGCAACTACTAAAATAA	MNLIKQIVNKKLNHISTKELLKYSKEYEVSITTAQADQIVLLMKGKNINIYDNNERLELLKQIARVTSPATAQQVNTLFQQLLK				NA	NA	NA	NA	NA
AK009_04337	897	nfo	COG0648	putative endonuclease 4	ATGTTAAAGATTGGATCTCATGTTTCCATGAGTGGTAAGAAAATGTTATTAGCAGCAAGTGAAGAGGCTGTTTCATATGGTGCAACGACGTTTATGATTTATACAGGTGCACCGCAAAATACACGAAGAAAACCAATTGAAGAATTGAACATAGAAGCAGGAAGAAAACATATGGAGCTGAATGGAATTGAGGAGATTATCGTCCATGCACCGTATATTATTAATGTTGGGAATACGACAAAGCCAGAAACATTCCAATTAGGTGTAGACTTCCTTCGTATGGAAATTGAAAGAACATCGGCATTAGGTGTAGCGAAACAAATTGTTCTTCACCCAGGAGCGCACGTTGGTGCTGGAGCAGATGCTGGTATTCAACAAATTATTAAAGGGCTTAATGAAGTATTAACGCCAGAACAGACGGTTAACATTGCATTAGAGACGATGGCAGGAAAAGGAACAGAATGCGGTCGTAGCTTTGAAGAAATTGCAAAGATTATTGATGGTGTAAAATATAATGAAAAGCTATCTGTATGCTTTGATACGTGCCATACGCACGATGCAGGATATGATATTGTAAATGACTTTGACGGCGTGTTAAACGAATTTGATAAGATCGTTGGTATAGATCGTTTACAAGTACTTCATATTAACGATAGTAAAAATGTACGCGGAGCAGGAAAAGACCGTCATGAAAATATTGGATTTGGTCACATTGGGTATAAAGCATTGCATCACGTTGTACATCATCCACAGTTAATGCATGTACCAAAAATTCTTGAAACACCGTATGTAGGGGAAGATAAAAAAGATAAGAAACCACCATACAAATTGGAAATCGAAATGCTGAAAAACGGTAATTTTGATGAAGGGATTCTTGAAAAAATTAAAGCACAATAA	MLKIGSHVSMSGKKMLLAASEEAVSYGATTFMIYTGAPQNTRRKPIEELNIEAGRKHMELNGIEEIIVHAPYIINVGNTTKPETFQLGVDFLRMEIERTSALGVAKQIVLHPGAHVGAGADAGIQQIIKGLNEVLTPEQTVNIALETMAGKGTECGRSFEEIAKIIDGVKYNEKLSVCFDTCHTHDAGYDIVNDFDGVLNEFDKIVGIDRLQVLHINDSKNVRGAGKDRHENIGFGHIGYKALHHVVHHPQLMHVPKILETPYVGEDKKDKKPPYKLEIEMLKNGNFDEGILEKIKAQ				NA	NA	NA	NA	NA
AK009_04338	1311	cshB	COG0513	DEAD-box ATP-dependent RNA helicase CshB	ATGACACAAAAAACTTTTACACAGTATGATTTTAAACCATTTTTAATAGATGCAGTTCGTGAACTACGCTTTACAGAGCCGACAGGAATTCAGCAGAAAATTTTCCCGGTCGTGAAAAAAGGTGTAAGTGTAATTGGGCAATCCCAAACAGGTTCTGGGAAAACACATGCATACTTACTTCCTACATTAAACAGAATTAATGCAAGCCGTGAAGAAGTACAACTTGTTATTACAGCACCTACTCGTGAGTTAGCACAACAAATTTACGAAGAGATTGTGAAATTAACAAAATTCTGTGCGGAAGATCAAATGATTACAGCGCGTTGTTTAATTGGTGGAACTGATAAACAACGTTCAATTGAAAAATTGAAAAAACAACCTCATATCGTAGTTGGGACACCAGGGCGTATTAAAGACTTAGTTGAAGAACAAGCATTATTTGTTCATAAAGCAAATACGATTATTGTCGATGAAGCAGACTTAATGCTTGATATGGGATTTATTCATGATGTAGATAAAATTGCAGCACGTATGCCTAAAAACTTGCAAATGCTAGTTTTCTCTGCAACAATTCCTCAAAAACTAAAACCGTTTCTGAAGAAATATATGGAGAATCCAGAGCATATTCATATCAATCCAAAACAAGTTGCAGCTGGAAACATTGAACACTATTTAGTGCCTTCTAAACATCGTAATAAAATTGATTTAGTGAATAAAATGCTACTTCAATTTAAACCTTATTTAGCAGTTGTTTTCACGAATACGAAAAAGATGGCGGATCAAGTTGCTGATGGATTAATGGAACGCGGCTTAAAAGTTGGACGAATTCACGGGGATTTATCACCACGTGATCGTAAAAAAATGATGAAACAAATTCGTGACCTTGAATTCCAATATATTGTTGCGACTGATTTAGCAGCACGTGGTATTGATATTGAAGGGATTAGCCATGTTATTAACTATGAGCTACCATCAGATTTAGATTTCTTCGTTCACCGCGTTGGAAGAACAGCACGTGCGGGGCATTCTGGTATTGCAGTGACGATTTATGATCCAGCAAACGAAGAAGCGTTAGATAGCTTAGAAAAACAACGTCATATCGAGTTTAAACATGTAGATTTACGTGGAGATGAGTGGGCGGATTTAGGTGAGCGTCGTCGTCGTAAGAGCCGTAAAAAACCAAATGACGAACTTGATGTTATGGCAACGAAAGTTATTAAAAAACCGAAAAAAGTAAAACCAAACTATAAACGTAAACTTGCAACAGAACGTGACAAAGTGAAGAGAAAATATAGCAATAAAAAAAGATAA	MTQKTFTQYDFKPFLIDAVRELRFTEPTGIQQKIFPVVKKGVSVIGQSQTGSGKTHAYLLPTLNRINASREEVQLVITAPTRELAQQIYEEIVKLTKFCAEDQMITARCLIGGTDKQRSIEKLKKQPHIVVGTPGRIKDLVEEQALFVHKANTIIVDEADLMLDMGFIHDVDKIAARMPKNLQMLVFSATIPQKLKPFLKKYMENPEHIHINPKQVAAGNIEHYLVPSKHRNKIDLVNKMLLQFKPYLAVVFTNTKKMADQVADGLMERGLKVGRIHGDLSPRDRKKMMKQIRDLEFQYIVATDLAARGIDIEGISHVINYELPSDLDFFVHRVGRTARAGHSGIAVTIYDPANEEALDSLEKQRHIEFKHVDLRGDEWADLGERRRRKSRKKPNDELDVMATKVIKKPKKVKPNYKRKLATERDKVKRKYSNKKR				NA	NA	NA	NA	NA
AK009_04339	720			hypothetical protein	ATGTTTCCGAAATCCCCTACAAGGCAAATGTATCCGAATCAAGGACAACAACCTTATACACCATATCCCATTCCACAACTACCACCAATGGCGCAAAAAAAGAAAGGTTTTCTTGCTAAGCTTTTTAAAAAACACGATCCAACCGAGCCTTTTATGCAAATGGTTCCGCCTTACCGACAAATGGAAGGCCCACCGATGATGCATCAGCAACCACCGCCGCAGCAATATCAACAGCAATACCAGCAACAATATCCTCAGCAACATCCACAATATCAACCATACATGCAGCAACATCCTGAGCAAATGATACCGCCTCAAATGTATGAATCAAATGAAACGCGCGGCGGGGCAGCAACTACAACTGCAGCAAGCAGTGGCATCGGCAGTTTTTTTTCGAATTTAATTTCGAATCCAACTAATATGATAAATAACATCGAAAAAGTATCCCAAGTCGTTCAATCTGTAGGTCCTGTCGTCGAACAGTACGGTCCTATTATGCGTAGTCTACCAAGCATTGTTAAAATCCTCACCTCTGGAAAAAGTACGGAAGAAAATCAAACGGAAAATGTAACAGAGCCAGTTGAGGTAAAAAGTCCGCCTCCTACACCTCAAAAAAAGAAACGAAAACGAAAGAAAATAGTGATTGAACCTGTAATAGAAAAAGAGTTACCGAAAGAACCAGTTCAACAAACAGCAACAAAACCAAAACTATATGTGTAA	MFPKSPTRQMYPNQGQQPYTPYPIPQLPPMAQKKKGFLAKLFKKHDPTEPFMQMVPPYRQMEGPPMMHQQPPPQQYQQQYQQQYPQQHPQYQPYMQQHPEQMIPPQMYESNETRGGAATTTAASSGIGSFFSNLISNPTNMINNIEKVSQVVQSVGPVVEQYGPIMRSLPSIVKILTSGKSTEENQTENVTEPVEVKSPPPTPQKKKRKRKKIVIEPVIEKELPKEPVQQTATKPKLYV				NA	NA	NA	NA	NA
AK009_04340	951	ispH	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGAAAATTGTTAAAATTTCCCCTCGTGGTTATTGCTACGGTGTTGTCGATGCAATGGTAATTGCACGTAATGCCGCATTAGATAAATCATTGCCGAGACCCATTTATATTTTAGGTATGATTGTTCACAATAAACATGTTACAGACGCTTTTGAAGAAGATGGAATCATCACATTAGACGGTCCAAGTCGCTTAGAAATTTTAGATAAAATTGATTCTGGTACTGTTATTTTCACTGCACACGGTGTTTCTCCAGAAGTTAAACAACGCGCAAAAGAAAAAGGTTTAACAACAATCGATGCCACTTGTCCAGATGTTACCAAGACGCATGACCTTATCGAAGCTAAGAAAGCGGAAGGGTATCATGTCATTTATATCGGTAAAAAAAATCATCCAGAGCCAGAAGGCGCAGTCGGTATTGCACCTGACATCGTTCACCTTATCGAAAGAGCCGATGATTTAAAAACATTAGAAATCCCAACAGATAAAATTTTAGTAACGAATCAAACAACAATGAGTCAATGGGATGTTCAACATTTGATGGAGGACATTCAAAAAAAATTCCCAACAGCAGAATTCCATAAAGAAATTTGTTTAGCAACCCAAGTTCGCCAAGAAGCTGTCGCTAAACAAGCTGATGTTGCAGACTTAACAATTGTTGTTGGTGATCCGAAAAGTAATAATTCAAATCGCTTAGCACAAGTATCACAAGAAATCGCAGGTACAAAAGCATATCGAGTTGCTGATGTAAGCGAAATCCAATTAGAGTGGCTACAAGGTGTAGAAAACGTAGCTGTTACAGCAGGTGCTTCTACTCCAACTCCAATTACAAAAGAAGTTATCGCTTTCTTAGATCAATATGACCCAATGAATCCCGCTACATGGGAGAGAGTTCGAAAAGTACCGTTACAAAAAATATTACCTCGTGTAAAAGTGAAAAAAGAACAATAA	MKIVKISPRGYCYGVVDAMVIARNAALDKSLPRPIYILGMIVHNKHVTDAFEEDGIITLDGPSRLEILDKIDSGTVIFTAHGVSPEVKQRAKEKGLTTIDATCPDVTKTHDLIEAKKAEGYHVIYIGKKNHPEPEGAVGIAPDIVHLIERADDLKTLEIPTDKILVTNQTTMSQWDVQHLMEDIQKKFPTAEFHKEICLATQVRQEAVAKQADVADLTIVVGDPKSNNSNRLAQVSQEIAGTKAYRVADVSEIQLEWLQGVENVAVTAGASTPTPITKEVIAFLDQYDPMNPATWERVRKVPLQKILPRVKVKKEQ	PGPT0007615_1202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK009_04341	1122		COG0327	GTP cyclohydrolase 1 type 2	ATGAGTAAAATTCCAAACGGCCATGAAATTATTTCTTTATTTGAAAGTATGTATCCGAAGCATTTGGCGATGGAAGGAGATAAAATTGGTCTGCAGATTGGAGCGCTTAATAAATCTGTACAACACGTATTGATTGCGTTAGATGTAACGAAGGAAGTTGTGGAGGAAGCGATTCAATTAGGAGCGAATGTCATTATCGCGCATCATCCTTTAATTTTTAATCCGTTAAAAGCGATTCATACAGATAAAGCGTACGGAAGAATTATTGAAACGTGTATTAAAAATGATATTGCCATTTATGCAGCGCATACAAATGTGGATGTTGCCAAGGGCGGAGTAAATGATTTACTTGCTGAGGCGTTAGGGTTGCAAAATACAGAAGTTCTAGCACCAACATATGCGGAAGAAATGAAAAAAGTTGTTGTGTTTGTGCCAGTAACTCATGCAGAAGAAGTACGAAAAGCATTAGGAGACGCAGGTGCTGGTCATATCGGCAATTATAGCCACTGTACGTTTAGTAGCGAGGGTACAGGTACGTTTGTACCTCAAGAGGGGACAAATCCTTATGTAGGGGAAACTGGACAGTTAGAGCGCGTAGAAGAAGTGCGAATCGAAACGATTATTCCAGTTTCACTACAACGAAAAGTGATTAAAGCGATGGTAACGGCACATCCATATGAAGAAGTAGCGTATGATGTGTATCCACTTGATAACAAAGGCGAAACATTAGGGCTTGGGAAAATAGGATACTTAAAAGAAGAAATGACACTTGGACAGTTTGCAGAACATGTAAAGCAATCATTAGATGTAAAGGGTGCACGAGTTGTTGGGAAATTAGATGATAAAGTGCGCAAAGTAGCTGTACTTGGTGGTGATGGTAACAAATACATCAATCAAGCTAAATTTAAAGGAGCGGATGTATATGTAACAGGTGACATGTATTATCATGTTGCTCATGATGCGATGATGCTCGGTTTAAATATAGTTGACCCAGGACATAACGTTGAAAAAGTAATGAAGCAAGGTGTGCAAAAGCAATTACAAGAAAAAGTGGATGCAAAGAAACTCAATGTACACATTCATGCTTCGCAATTACATACAGATCCATTTACATTTGTATAA	MSKIPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKSVQHVLIALDVTKEVVEEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGRIIETCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQEGTNPYVGETGQLERVEEVRIETIIPVSLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLKEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFTFV				NA	NA	NA	NA	NA
AK009_04342	708	trmK	COG2384	tRNA (adenine(22)-N(1))-methyltransferase	ATGAATGAAGTAAAGCTTTCAAAACGATTAGAAGAAGTTGTGCGTGAAATACCAGTAGGATCTACAGTTGCTGATATTGGATCGGATCATGCGTATTTACCGTGTTATACAATTATAAATAATATTGCTACAAAAGCAGTTGCAGGAGAAGTTGTAGATGGACCATTTCGTTCTGCACAAGCAACTGTAGCTGAAAGTGGCTTACAAGATAAAGTAGATGTACGTAAAGGGAATGGATTAGCTGTTATCGCGCCAGGAGAAGTAGATGTTATTACGGTTGCTGGAATGGGCGGAGCGTTAATTCGTGACATTTTAGAAAGTGGTAAAGAAAAATTAGAAGGTGTAACACGTTTAATTTTACAGCCGAATATTGCAGCACATCATATTCGTGAATGGTTTGTTGAAAATGGTTGGGAGCTTATCCATGAAAAAATCGTAAAAGAAGATGGGAAAATTTACGAGATTTTAGTAGGAGAGCGAGGAAATGTCGAAGCACCTTACTCGGAAAATAAACAAGCGGGATTGTTTATGGGGCCATTTCTAATAAAAGAGAAAAATGAAGCTTTTGGTGAGAAATGGGAAGGGGAATTGAAAAACTTCCAAAATATTTTAAAACAGTTAGAACGTGCGGCTAATTCTGAAGAAACAAAAGCGAAACGTGCAGAAGTAGAAGCGAAAATGAAAATGATAGGGGAGATTTTATCATGA	MNEVKLSKRLEEVVREIPVGSTVADIGSDHAYLPCYTIINNIATKAVAGEVVDGPFRSAQATVAESGLQDKVDVRKGNGLAVIAPGEVDVITVAGMGGALIRDILESGKEKLEGVTRLILQPNIAAHHIREWFVENGWELIHEKIVKEDGKIYEILVGERGNVEAPYSENKQAGLFMGPFLIKEKNEAFGEKWEGELKNFQNILKQLERAANSEETKAKRAEVEAKMKMIGEILS				NA	NA	NA	NA	NA
AK009_04343	357	cccA_1	COG2010	Cytochrome c-550	ATGAAACGTAATCCGCTGATTCCGTTCGCTCTTATTGCAGCATTAGGTATTATCGTTATGTTTGTATTTTCATTTCAGGGGCTAAATAAATCTAAAGAGTTAGCTGATGCAAAAAATGGCGGGAAGCCAGCACAAACAGCATCAAAACCAGAGGATATTGTGAAGCAAAGCTGTACGAGCTGCCACGGTGATCAGTTACAAGGGGCGGTAGGACCTAACTTACAAAAAATTGGTGGGAAACTTTCAAAGGATGAAATTAAAGAAATTCTTTCGAAAGGAAAGGGCAATATGCCTGCCAATATAGTTCCAGCTGATCAAGCCACTAAAGTAGCTGATTGGTTATCGAAGAAAAAATAA	MKRNPLIPFALIAALGIIVMFVFSFQGLNKSKELADAKNGGKPAQTASKPEDIVKQSCTSCHGDQLQGAVGPNLQKIGGKLSKDEIKEILSKGKGNMPANIVPADQATKVADWLSKKK				NA	NA	NA	NA	NA
AK009_04344	1128	sigA_1	COG0568	RNA polymerase sigma factor SigA	ATGGCTGACAAACCAGCTCGTTCTAAACAAATTGAAACTGAAATGACCCTTGAGCAAGTGAAAGAGCAACTCACTGAGCTCGGAAAAAAACGTGGCGTTCTTACATATGAAGAGATTGCAGAACGCATGAATGGATTTGAAATTGAATCCGATCAAATGGATGAATACTATGAATATTTAGGTGAACAAGGCATTGACTTAGTTGGTGATAATGACAACGAAGAAGGCCCTAATAATCGCCAAATTACAAAAACAGAAGAAGAGTTTGACCTCAATGATTTAAGTGTACCACCTGGGGTTAAAATCAACGATCCTGTTCGTATGTATTTAAAAGAAATTGGTCGTGTAGACCTACTATCTGCAGAAGAAGAAATTCGACTTGCAACGCGTATTGAAGAAGGCGATGAAGAAGCGAAACGTCGTCTTGCAGAAGCAAACTTACGTCTTGTAGTAAGTATTGCAAAGCGCTACGTAGGCCGTGGTATGCTTTTCTTAGACTTAATTCAAGAAGGTAATATGGGTCTAATTAAAGCTGTTGAAAAGTTCGATTATCGTAAAGGTTTCAAATTTAGTACGTATGCAACTTGGTGGATTCGCCAAGCTATTACACGTGCCATTGCAGACCAAGCGCGAACAATTCGTATTCCAGTTCATATGGTTGAAACGATTAATAAGTTAATTCGTGTACAACGTCAATTATTACAAGATTTAGGTCGCGAACCGTCTCCTGAAGAGATTGGTGAAGAAATGGATCTTGCTCCAGAAAAAGTACGTGAAATCTTAAAAATTGCACAGGAGCCAGTTTCTCTTGAAACACCAATTGGTGAAGAAGATGACTCCCATTTAGGTGACTTTATTGAAGACCAAGAAGCAACATCGCCTGCGGACCATGCAGCCTATGAATTGCTAAAAGAACAATTAGAAGATGTGTTAGATACACTAACAGATCGTGAAGAAAATGTTCTGCGTCTTCGTTTCGGTTTAGATGATGGACGAACTCGTACGCTTGAAGAAGTTGGGAAAGTATTCGGCGTAACGAGAGAGCGTATCCGTCAAATTGAAGCAAAAGCACTTCGCAAATTAAGACATCCAAGTCGTAGTAAGCGTCTTAAGGATTTCTTAGAATAG	MADKPARSKQIETEMTLEQVKEQLTELGKKRGVLTYEEIAERMNGFEIESDQMDEYYEYLGEQGIDLVGDNDNEEGPNNRQITKTEEEFDLNDLSVPPGVKINDPVRMYLKEIGRVDLLSAEEEIRLATRIEEGDEEAKRRLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLIKAVEKFDYRKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVQRQLLQDLGREPSPEEIGEEMDLAPEKVREILKIAQEPVSLETPIGEEDDSHLGDFIEDQEATSPADHAAYELLKEQLEDVLDTLTDREENVLRLRFGLDDGRTRTLEEVGKVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFLE	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
AK009_04345	1797	dnaG_3	COG0358	DNA primase	ATGGGGAACAGAATTCCCGAAGAAGTTGTTGAACAGATTCGGACATCATCCGATATTGTAGAAGTAATTGGTGAATACGTTCAACTTAGAAAACAGGGGCGTAACTATTTCGGCCTTTGTCCATTTCATGGTGAGAATTCTCCTTCATTCTCTGTTTCATCTGATAAGCAAATTTTTCATTGCTTCGGATGTGGAGAAGGCGGAAATGTATTTTCATTTCTAATGAAAATGGAAGGACTGGCTTTTACCGAGGCTGTTCAAAAGCTAGGCGAAAGAAATGGAATTGCGGTTGCAGAGTACACATCAGGGCAAGGACAACAAGAAGACATATCTGATGACACTGTCATCATGCAACAAGCTCATGAATTATTGAAAAAGTATTATCATCATTTATTAGTAAATACGGAAGAGGGAAATGAAGCACTTTCATATTTATTAAACCGTGGTATTACGAAAGAGATGATTGAGAAGTTTGAAATTGGTTATGCATCACCTGCTTGGGATGCAGCGACGAAAATTTTACAAAAAAGAGGTTTATCGCTGTCTAGTATGGAACAAGCTGGCCTTCTAATAAGAAGTGAGAAGGATGGTAGTCATTACGATCGCTTCCGTGGAAGAGTTATGTTCCCGATCTATACGTTACAAGGTAAGGTGATAGCGTTTAGTGGAAGGGCGTTAGGAGATGACACTCCAAAATATTTAAATAGCCCGGAAACGCCGATTTTTCACAAAAGTAAATTGTTGTATAACTTCCACCAAGCAAGACCGTTTATTAGAAAGCGTGGGCAAGTGGTTCTTTTTGAAGGATATGCCGATGTACTAGCTGCGGTAAAAAGTGGCGTGGAAGAAGCCGTTGCGACAATGGGAACGGCTTTAACTGAAGAACAAGCAAAACTTCTGCGACGTAACGTTGAAACTGTTGTTCTTTGCTATGATGGTGATAAAGCAGGGCGAGAAGCGACGATGAAAGCAGGGCAATTATTGCTAAAAGTTGGTTGCCAAGTGAAAGTCACATCCTTGCCAGATAAGCTTGATCCTGATGAATATGTGCAACAATATGGGACTACCGCTTTTGAAAATCTTGTGAAATCAAGTGTGAGTTTTGTTGGTTTTAAAATAAATTATTTGCGTTTAGGGAAAAATTTGCAAGATGAGTCTGGCAAAGAAGAATATGTGAAAAGTGTTTTAAAAGAGTTATCGTTGTTACAAGATGCGATGCAGGCAGAGTCATATTTGAAGTCATTATCGCAAGAATTTTCGTATTCAATGGAAACACTTTTGAATCAATTGCACCAATATCGCAAAGAACAAAAGGTACAGCAAAAACAAATAAAGCAGGTTGCTAAACCGTCTCAAGTCGTTCAAACAAAACCGAAGTTAACAGGTTTTGAAAGAGCGGAAAGAGAAATTATTTACCATATGTTGCAAAGTGCAGAAGTAGCTGTTCGTATGGAATCCCATATAGAAGATTTTCATACAGAAGAACATAAAGGGATTTTATATGAACTATACGCATATTATGAAAAGGGAAATGAACCTTCAGTCGGAACATTTTTAAGTTGGCTCTCTGATGAAAAGTTGAAAAATATTATCACTGATATTTCGACGGATGAATTTATTAATCCAGAATACACAGAAGAAGTGTTGCAAGGCCATTTGGAGACGCTTAGACGGCATCAGGAAAAACTTGAAAAGATGGAGATCATCTTTAAAGTGAAACAAATGGAAAAAACAGATCCTGTAGAGGCTGCTAAATATTATGTAGCATATTTACAAAATCAAAAAGCGAGAAAATAG	MGNRIPEEVVEQIRTSSDIVEVIGEYVQLRKQGRNYFGLCPFHGENSPSFSVSSDKQIFHCFGCGEGGNVFSFLMKMEGLAFTEAVQKLGERNGIAVAEYTSGQGQQEDISDDTVIMQQAHELLKKYYHHLLVNTEEGNEALSYLLNRGITKEMIEKFEIGYASPAWDAATKILQKRGLSLSSMEQAGLLIRSEKDGSHYDRFRGRVMFPIYTLQGKVIAFSGRALGDDTPKYLNSPETPIFHKSKLLYNFHQARPFIRKRGQVVLFEGYADVLAAVKSGVEEAVATMGTALTEEQAKLLRRNVETVVLCYDGDKAGREATMKAGQLLLKVGCQVKVTSLPDKLDPDEYVQQYGTTAFENLVKSSVSFVGFKINYLRLGKNLQDESGKEEYVKSVLKELSLLQDAMQAESYLKSLSQEFSYSMETLLNQLHQYRKEQKVQQKQIKQVAKPSQVVQTKPKLTGFERAEREIIYHMLQSAEVAVRMESHIEDFHTEEHKGILYELYAYYEKGNEPSVGTFLSWLSDEKLKNIITDISTDEFINPEYTEEVLQGHLETLRRHQEKLEKMEIIFKVKQMEKTDPVEAAKYYVAYLQNQKARK				NA	NA	NA	NA	NA
AK009_04346	813	yqfL	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	ATGGATAATAAAATCGTATATGTCGTATCTGACTCTGTAGGGGAAACGGCTGATTTGGTTGTTCGAGCAGCAATGGGGCAATTCCCGTTTGCTCCTGATATTAGACGTGTACCGTATGTAGAAGATACAGGGACATTAAAAGAAGTGATTTCGATTGCTAAGAGTAATCAAGCACTTATATGTTTTACGTTAGTTAAGCCTGATATGCGCCAGTATTTAGTGACGGAGGCTGCAAGAGAAGGGGTAGAGGCATACGATATTATCGGCCCTCTTATTGATCAAATTGAAGAAATTACGGGGCAAGTGCCGAGGTATGAGCCAGGTGTTGTCCGTAGGTTAGATGAAGAATACTTTAAAAAAATTGAAGCGATTGAGTTTGCTGTGAAGTATGATGACGGCAGAGATGCAAGAGGTATTTTAAAAGCAGATATCGTGTTGATTGGTGTTTCGCGTACATCAAAAACACCACTTTCTCAATATTTAGCTCATAACAAACGCTTGAAAGTTGCGAATGTACCACTCGTACCAGAAGTTGACCCACCTGAAGAACTATATCAAGTGGCAAAAGAAAAATGTTTCGGTTTGAAAATTACGCCAGATAAGTTAAATCATATTCGAAAAGAACGATTAAAATCACTTGGATTAAGTGATGGAGCAACGTATGCAAATATTAATCGTATTCAAGAAGAAATTGATCACTTTGAGGAAGTAATTAGTAAAATAAATTGCCAAGTAATCGATGTATCCAATAAAGCGATTGAAGAAACAGCAAATATTATTGTGAATGCAGTGCAAAACCAAAAAATGTTTTAG	MDNKIVYVVSDSVGETADLVVRAAMGQFPFAPDIRRVPYVEDTGTLKEVISIAKSNQALICFTLVKPDMRQYLVTEAAREGVEAYDIIGPLIDQIEEITGQVPRYEPGVVRRLDEEYFKKIEAIEFAVKYDDGRDARGILKADIVLIGVSRTSKTPLSQYLAHNKRLKVANVPLVPEVDPPEELYQVAKEKCFGLKITPDKLNHIRKERLKSLGLSDGATYANINRIQEEIDHFEEVISKINCQVIDVSNKAIEETANIIVNAVQNQKMF				NA	NA	NA	NA	NA
AK009_04347	636	ccpN	COG0517	Transcriptional repressor CcpN	GTGGTGATTATCATAGAGCTGAATAAACGGCAAGAACATATCATTCAGATTGTAAAAGATCACGGTCCTATTACAGGGGAATCAATTGCAGCGCAATTGGGTCTAACACGTGCGACGCTAAGACCAGACTTAGCAATTTTAACGATGGCTGGTTATTTAGAAGCACGTCCACGTGTAGGTTATTTTTATACGGGTAAAACTGGGGGACAGCTATTATCTGAAGCTGTTAAGAAAATTAAAGTACAAGATTATCAATCTAGACCGGTTGTAATTGATAAAAATGTTTCCGTATACGATGCAATTTGTACGATGTTTTTAGAGGACGTTGGTACATTGTTCGTTGTAGATCAGATGACTCTATTAGTTGGGGTTGTGTCTCGTAAAGATTTATTAAGAGCGAGCTTAGGAAAGCAGGATTTAACCTCTCTTCCGGTTAATATTATCATGACAAGGATGCCAAACATTGCGATGTGTCGTAGAGAGGATTCTTTATATGATATTGCGATGGAATTAATAGAAAGACAGATTGATGCAATGCCAGTTGTAAAAGATACGAAACAAGGTTTAGAAGTGATTGGGCGAATTACAAAAACAAATATTACACGTGCGTTTGTAAATTTAGTAAATAACGAATAA	MVIIIELNKRQEHIIQIVKDHGPITGESIAAQLGLTRATLRPDLAILTMAGYLEARPRVGYFYTGKTGGQLLSEAVKKIKVQDYQSRPVVIDKNVSVYDAICTMFLEDVGTLFVVDQMTLLVGVVSRKDLLRASLGKQDLTSLPVNIIMTRMPNIAMCRREDSLYDIAMELIERQIDAMPVVKDTKQGLEVIGRITKTNITRAFVNLVNNE				NA	NA	NA	NA	NA
AK009_04348	747	recO	COG1381	DNA repair protein RecO	ATGTTTCAAAAAGTTGAGGGCATCGTTATCCGTACGACAGATTACGGAGAAACGAACAAGATTGTTACAATATTCTCAAGAGAACTTGGTAAGATAAGTGCAATGGCAAGAGGGGCAAAAAAACCGAAAAGCCGGTTAGCATCTGTGTCGCAATTAATGACACATGGCCATTTTCTTATTCAAATGGGATCAGGGCTTGGAACATTGCAACAAGGCGAGATTATTTCAACTATGAAAGAAATTCGCGAGGATATATTTTTAACTGCTTATGCATCATTTATTGTTGAGTTAACTGATAAAGCAACAGAAGATAAAAAACATAATCCGTATTTATTTGAAATGTTATATCAAACGTTGCATTATATGTGTGAGGGTGTTGATTCAGAAGTATTATCATTAATTTATCAAACGAAAATGCTTCCGGTATTAGGGATGCGCCCGTACTTTGATACATGTGCGATTTGTCATCAAGAAACAGACTTTGTCGCCTTCTCCGTCAGGGAAGGCGGTTTTCTGTGCTCACGTCATGCAGAGCAAGACCCATATCGTATACCGGTAGGAGAAGCTGTTCATAAATTATTACGTCTTTTCTTCCATTTCGATTTACATAGGCTCGGAAATGTATCGGTAAAGGATAGCACAAAAAAACAAATGCGCTTAGTATTGAATACATATTATGATGAATATTGCGGAATTTATTTGAAATCAAGACGTTTCTTAGAACAACTTGATAAGTTTCAAATATAA	MFQKVEGIVIRTTDYGETNKIVTIFSRELGKISAMARGAKKPKSRLASVSQLMTHGHFLIQMGSGLGTLQQGEIISTMKEIREDIFLTAYASFIVELTDKATEDKKHNPYLFEMLYQTLHYMCEGVDSEVLSLIYQTKMLPVLGMRPYFDTCAICHQETDFVAFSVREGGFLCSRHAEQDPYRIPVGEAVHKLLRLFFHFDLHRLGNVSVKDSTKKQMRLVLNTYYDEYCGIYLKSRRFLEQLDKFQI				NA	NA	NA	NA	NA
AK009_04349	144			hypothetical protein	ATGCTAGATTTTACCTGGAAGTTTTTCTCCAAAACAGGAAGCATTGAAACGTACTTGCTTTTGAAAGAAATGGAAAAAGACGTAAACGATGAGATGGATCAACATGAAGAGGAGCTAGCGCATCTAGACTCTCCAATTTCTTGA	MLDFTWKFFSKTGSIETYLLLKEMEKDVNDEMDQHEEELAHLDSPIS				NA	NA	NA	NA	NA
AK009_04350	906	era	COG1159	GTPase Era	ATGAATAGAAAAGGTTATAAATCAGGTTTTGTCTCTATTATTGGCAGACCGAATGTTGGAAAATCTACATTTTTAAACCGTATTATCGGCCAGAAAATTGCTATTATGAGTGATAAGCCACAAACGACTCGTAATAAAATTCAAGGTGTATATACAGAAAATGATTCACAAGTTATTTTCATTGATACACCAGGAATACATAAACCTAAACATAAATTAGGCGACTTCATGGTAAAGATGGCTCAAACGACATTGAAAGAAGTTGATATTGTTCTGTTTATGGTCAATGCAGTTGAAGGATTTGGTCGTGGTGAGGAATTCATCATTGAGAAATTAAAAGAAACGAAACAACCAGTATTTTTAGTAATTAATAAAATTGACCAACTTCATCCAGAACAATTACTAGAGTTAATTGATCAATATCGTAAACTACATGAGTTTGCAGAGATTGTACCAATTTCTGCGTTAGACGGTAATAATGTGGATGCTTTAATTGGAACAATTAAAAAGTATTTACCAGAAGGACCACAATACTATCCAGATAATCAAGTAACGGATCATCCGGAGAGATTTATTATTGCGGAGCTTATTCGTGAGAAAGTACTACATTTAACACGTGAAGAAGTGCCGCATTCTGTGGCTGTTGTTATCGATGCGATTCAAAAGCGTGAGGGCGGCGCAGTTTATATAAATGCAACGATTGTTGTTGAACGTGCATCGCAAAAAGGAATCATCATCGGAAAACAAGGGAAAATGTTAAAAGAAGTTGGTAAGCGAGCTCGTTTTGATATTGAAGCGCTACTTGGTTCTAAAGTATTTTTAGAAGTATGGGTAAAAGTGCAAAAAGATTGGCGTAACAAGCTGTCACAGCTTCGAGACCTTGGTTTCCGTGAAGACGAGTATTAA	MNRKGYKSGFVSIIGRPNVGKSTFLNRIIGQKIAIMSDKPQTTRNKIQGVYTENDSQVIFIDTPGIHKPKHKLGDFMVKMAQTTLKEVDIVLFMVNAVEGFGRGEEFIIEKLKETKQPVFLVINKIDQLHPEQLLELIDQYRKLHEFAEIVPISALDGNNVDALIGTIKKYLPEGPQYYPDNQVTDHPERFIIAELIREKVLHLTREEVPHSVAVVIDAIQKREGGAVYINATIVVERASQKGIIIGKQGKMLKEVGKRARFDIEALLGSKVFLEVWVKVQKDWRNKLSQLRDLGFREDEY				NA	NA	NA	NA	NA
AK009_04351	399	cdd_2	COG0295	Cytidine deaminase	ATGAATAGTAAACAATTAATTTTAGAAGCAATCGAAGCGCGTAAACAAGCGTACGTACCATATTCTAAATTTCAAGTAGGTGCAGCATTATTAACGAGCGATGGAAAAGTATATCGTGGATGTAATGTTGAGAATGCATCATATGGCTTATGTAATTGTGCTGAAAGAACAGCTTTATTTAAGGCGGTTTCTGAAGGAGATAAAGAATTTGTAGCCATTGCGGTTGTAGCAGATACAAAGCGTCCAGTACCTCCTTGTGGAGCATGTCGACAAGTTATGGTAGAATTATGTAAACAGGATACGAAAGTATACTTATCAAATTTACATGGTGACGTTCAAGAGACGACAGTCGGAGAATTGTTACCAGGAGCATTTTTAGCGGAGGATTTACATGAATAG	MNSKQLILEAIEARKQAYVPYSKFQVGAALLTSDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAVVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGAFLAEDLHE	PGPT0021360_3289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK009_04352	354	dgkA	COG0818	Undecaprenol kinase	ATGAAAAAAGGAAAACTTATAGATAGTTTTGGATATGCTATAGCTGGTATGTTCTTTTGTCTTCGTCATGAACGAAATATGAAAATTCATTATTTAGCCGCAGTCATTGTTATATGCTGCGGCTTTTATTTCCATATTACGAAAATAGAGTGGATGATATTACTTATTGTAATAGGGAGTGTAATGAGTTTAGAAATGGTAAATACGGCTGTAGAAAAAACAGTAGATTTAGCGACTGCTGATATTCATCCGTTTGCAAAAATTGCAAAGGATGTTGCAGCAGGAGCGGTTTTATTGTTTGCAATTATAGCTGTTATAATTGGTGCTATTATCTTTTTACCGTATATGGTATAG	MKKGKLIDSFGYAIAGMFFCLRHERNMKIHYLAAVIVICCGFYFHITKIEWMILLIVIGSVMSLEMVNTAVEKTVDLATADIHPFAKIAKDVAAGAVLLFAIIAVIIGAIIFLPYMV	PGPT0024175_544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024175-dgkA-K00887	NA	NA
AK009_04353	471	ybeY	COG0319	Endoribonuclease YbeY	ATGAGTTTGTTAATTGATTTTATTGATGAAACAGAAGAAGTAAAAGAAGCGTATATGAGTTTAATTCGTGAAGTGTTAGAAAAGGCAGCTCAAATGGAAAATATCGAGGATGGCGCGGAGGTATCGGTGACATTTGTAGATAATGAGCGCATTAGAGAAATTAATCGTGATTACCGAGATAAAGATCAACCTACAGATGTAATATCCTTTGCCATGGAAGAGATGGGAGAAGGGGAAATGGAGATTGTTGGTGCAGAGATGCCGCGCATGTTAGGTGATCTTATTATCTCTATTCCAAGGGCGAAAGAGCAGGCTGAAGAGTACGGCCATTCTTTCGATCGTGAACTTGGATTTTTGGCGTTACATGGCTTTTTACATTTGCTTGGTTATGATCACATGACAGAAGAAGAAGAAAAAGAAATGTTCGGAAGACAAAAAGAAATTTTAGAAGCTTTTGGATTAGGACGATGA	MSLLIDFIDETEEVKEAYMSLIREVLEKAAQMENIEDGAEVSVTFVDNERIREINRDYRDKDQPTDVISFAMEEMGEGEMEIVGAEMPRMLGDLIISIPRAKEQAEEYGHSFDRELGFLALHGFLHLLGYDHMTEEEEKEMFGRQKEILEAFGLGR	PGPT0024340_2792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
AK009_04354	2145	pgpH		Cyclic-di-AMP phosphodiesterase PgpH	ATGTCAAGATCTCAAGAAATTTCTAAGTGGTTTCGTAATTTACAACATTCGAAAAAACTAAGTTGGATTTCTTACGTTGTATTAGGAGCAGTGCTGTTTTTTGCGCTTATGAATAATGTAAAACCAGAGCAATTAGATGTTAACATGTATTCTATTGCGAAAAAGACAATCCATTCTCCTATAAAAATTGAAGATAAAGTTACAACGGATAAAAAGAAAAAAGAAGCCTCTACAAAAGTTGAAGATCAATATACATATAAAAGTGAGTATAAACAAAATAAAGTTGATATTGTGAATGACGTCTTTGCTAAAGTGGATGAAGTGGTGCAAGAGATTAAAGCTGTTGGACCGGATGATCAAAAAAAGATGACTGATGCTGAGAAAGTGGACAAGTTAAAAAAGAAACTACCCGCTGACTTAACGAAAGAATTATCTGATTCAAACTTACTAAATTTGATTAATGCAGATTCGAGCCAATTAGTATTAGCGAAAGATGCTGCGGTCACAGCGATTAATAGTATCATGACTGAGCACATTAAAATGGACGAATTGAAAGATGCGAAAGAACGATATGTAAGTGAGATGAATAGTGTTAATGTTGATAATGGTTTAAAAGAGTCAATTAAGGCGCTAGGAAGATATGCAATTTCAGCGAATTATTTTTATGACCCGATCTTAACGAAAGAGAAGAGAAAAGCAGAGGAAGATTTAGTTCCACCTGTTTATATTCTTCAAGGACAAGTTCTCGTTAGAGAAGGTGAAACAATTTCAAGTGATGTGTATAATCAGTTGAAATTAGTTGGCTTGTTAGAAAAAGGGAACGGTTTTCAACCTTATGTTGGATTAGCGGTACTCATTGGTGTGTTACTATACTTTATGCATAAACAATTTGAATTATTTTTAAAGAGAAAAAGAGAAGATAGACCGTATGTTTTAGCGTATATCACAATTTTGTCTATCACAATCGTTTTAATGAAAATCATTAGTTTGTTTCAAAAACTTGAATATGCAGGGATTGCATATGTTGTCCCGGTTGCGATGGGAACAATACTTGTGAAATTAATGATTGGTGATCGATTTGTCTTTTTAACGAGTATGATTTTTTCTGTATGCGGAAGTATTATGTTTAATGAAGGAGTAACGAGTACATTAAATTATAGTGTAGGGATTTACGTATTGTTAAGTTCATTATCGGTTAGTATTTTCTTGAGAGAAAAAAATCGTCGTACAATGATTTTACAAGCTGGTATACTCGTTTCTGTATTAAATGTAGTCGTATTGGCGGCGCTCTTATTATTACGTAATGGGAATTTTTCGCCTCTTGAAATTGGTACGCAATTATTAATGGCTTCACTTTCAGGGATTATATCATCCGTTTTGGCTATGGGGATTTTACCATATTTAGAAAGTGGACTTGGAATCGTATCAAGTATGAAGCTTATGGAACTATCAAGTCCAAATCATCCGCTTTTACGCAGAATTTTGTTAGAAGCGCCAGGGACATATCATCATAGTGTAATGGTAGCGAATCTTTCTGAAGCTGCTTGCGAAGCAGTCGGGGCAAATGGTGTATTAGCGCGTGTAGGGGCATATTATCATGATGTAGGAAAAACAGTACAACCACAATTCTTTATTGAAAACCAAATGGGGATTGAAAACCCGCATGATAAATTAGATCCTGTAACGAGTAAAGATATTATAATTGCTCACGTAACGGATGGAGTAAGAATGCTCGAAGAATATCATATTCCACAAGAAATTATTGATATCGCGGGGCAACATCACGGTACAACGTTACTGAAATATTTTTATTATAAAGCGATTAAAGAAGATAAAGAAAAATATACAGAAGAGATGTTCCGTTATCCGGGTTCAAAAGCAACTTCGAAGGAATCGGCAATTGTTGGTATTGCTGATAGTGTAGAAGCTGCGGTACGTTCTATGAATCACCCAACGCCAGAACAAATTAATAATTTAGTGCAAAGCATTATTAAAGATCGATTGCAAGACGGTCAATTTAGTGAATGTGATTTGACGTTTAAGGAACTACAAATCGTTGGGAAAACGTTATGTGAAACGTTAAATGGTATTTTCCATTCGCGTATTACATATCCGGAAATTCCGGAAGAAAAGGAGAAAGAATGA	MSRSQEISKWFRNLQHSKKLSWISYVVLGAVLFFALMNNVKPEQLDVNMYSIAKKTIHSPIKIEDKVTTDKKKKEASTKVEDQYTYKSEYKQNKVDIVNDVFAKVDEVVQEIKAVGPDDQKKMTDAEKVDKLKKKLPADLTKELSDSNLLNLINADSSQLVLAKDAAVTAINSIMTEHIKMDELKDAKERYVSEMNSVNVDNGLKESIKALGRYAISANYFYDPILTKEKRKAEEDLVPPVYILQGQVLVREGETISSDVYNQLKLVGLLEKGNGFQPYVGLAVLIGVLLYFMHKQFELFLKRKREDRPYVLAYITILSITIVLMKIISLFQKLEYAGIAYVVPVAMGTILVKLMIGDRFVFLTSMIFSVCGSIMFNEGVTSTLNYSVGIYVLLSSLSVSIFLREKNRRTMILQAGILVSVLNVVVLAALLLLRNGNFSPLEIGTQLLMASLSGIISSVLAMGILPYLESGLGIVSSMKLMELSSPNHPLLRRILLEAPGTYHHSVMVANLSEAACEAVGANGVLARVGAYYHDVGKTVQPQFFIENQMGIENPHDKLDPVTSKDIIIAHVTDGVRMLEEYHIPQEIIDIAGQHHGTTLLKYFYYKAIKEDKEKYTEEMFRYPGSKATSKESAIVGIADSVEAAVRSMNHPTPEQINNLVQSIIKDRLQDGQFSECDLTFKELQIVGKTLCETLNGIFHSRITYPEIPEEKEKE				NA	NA	NA	NA	NA
AK009_04355	960		COG1702	PhoH-like protein	ATGGCAGAACAATTAGTAGAAATGAACCAACAATTGGAAAATACTAACGAAGCAATCGCTCTTTTTGGAGTCAATGATGCGCATTTAAAAGTAATTGAACGAGAACTGAATGTATCGATCGTAACTAGAGGAGAAACTGTTCACGTATCTGGGGCAGTTGAAACGGTGACACTCGTAGAAAAAATCTTACAGCAATTACTTGTTGTAATTCGTAAAAGTATATCAATTTCAGAGAGAGATGTTGCGTATGCAATTCAGCTCGCACAACAAGGGAAAGTTGCTCAATTTGAAGAGTTATATGAAGAAGAAATTTTCAAGACTGCAAAAGGTAAATCCATTCGTGTAAAAACAATGGGGCAAAGACGATATATTCATGCAATGAAGAAGAATGATATTGTCTTTGGGATAGGGCCTGCAGGAACTGGAAAAACATACTTAGCCGTAGTAATGGCTGTGAGAGCTTTAAAACAAGGATATGTAAAGAAAATCATTCTAACAAGACCTGCTGTAGAAGCTGGAGAAAATTTAGGTTTTTTACCAGGGGATTTGAAAGAGAAGGTAGATCCATACTTACGCCCATTATATGATGCCTTACATGATATTCTTGGACAAGAATATACGCAGCGTATGATGGAACGAGGAGTAATTGAAATCGCGCCGCTTGCTTATATGAGGGGGCGTACGCTTGATGATTCATTTGTTATTTTAGATGAGGCTCAAAATACAACGGGTGCTCAAATAAAAATGTTTTTAACAAGATTAGGTTTTAGTTCTAAAATGGTTATTACAGGGGACCCTTCACAAGTAGACTTGCCAAAAGGGGTAAAATCAGGGCTATCTATAGCTGCTAATATTTTATCTGGTGTATCAGGTCTGTCATTTATTACATTAGAACAAACAGACGTTGTCAGACATCCATTGGTGCAACGTATTATTGAGGCATATGATAAAATGGAATGA	MAEQLVEMNQQLENTNEAIALFGVNDAHLKVIERELNVSIVTRGETVHVSGAVETVTLVEKILQQLLVVIRKSISISERDVAYAIQLAQQGKVAQFEELYEEEIFKTAKGKSIRVKTMGQRRYIHAMKKNDIVFGIGPAGTGKTYLAVVMAVRALKQGYVKKIILTRPAVEAGENLGFLPGDLKEKVDPYLRPLYDALHDILGQEYTQRMMERGVIEIAPLAYMRGRTLDDSFVILDEAQNTTGAQIKMFLTRLGFSSKMVITGDPSQVDLPKGVKSGLSIAANILSGVSGLSFITLEQTDVVRHPLVQRIIEAYDKME	PGPT0002700_3576	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
AK009_04356	1200			hypothetical protein	ATGAAAAATAAATGGTTTATAAAGTGGCTTGGATATGTAAAAGTGCGAATTGAAGGTAGAGGAGCGGAACGGTTTGTTAATGAATGTGTACGGAGGAATTTATTAGTTTGGGATGTTAAGAAGATAGCTGATGAAACGTTAGTTTTTTGTATGTTGTTACGCGATGTGAAAAAAATAAAACCAATTTATAGAAAAAATGAATGTAAATTATACTTTATTGGACGTTATGGTTTTCCTTTTTGGAATAAGCGTTTAATTAAAAACAGTGGATTTTTAATTGGGTTTTTAATTTTCTTTTTTGGCGTGATTGCAATGTCCAATATGGTTTGGAAAATTGAAATTACAGGAGCAAAACCTGAAACAGAATATATATTGATGAAAGAATTGGATAAAATGGGTATTAAAAAAGGAAAACTACAGTTTCAAATGCCGAATGTAGAAGATGTACAACGCCATTTGACAGATAATATTAATGCCATTACTTGGGCGGGATTAGAAGTAAGAGGAACGACGTATCATTTTAAAATTGTTGAAAAAAACGAACCGAAAAAAGAAAAGGAACAAATGCCGCAAAATTTAGTAGCAAAAAAAGAAGCGATTATTACAAAAACGTTTGTAGAAGTTGGAAAGCCGGTTGTACTGAAAAATGATCATGTGGAAAAAGGGCAGATTCTCGTATCGGGAATATATGGTAATGAGGAAAGTCCAACGATTGTTTCAGCGAAAGGTATTGTGTATGGCGAAACGTGGTATACATCTAAGGTGGATGTCCCGTTAAAGACGCAATTCCAAGTGTATACTGGTAATGTATACAATGAACATTTTCTTAAATTTGGGGGTACGAAAATAAAAATATGGGGATTTCAACATGATAAGTATAAACGCTCTCGTACTGAAAGTGTAAAGCATGATGTGAAATTATTTGGTTTTACACTGCCGATTGCATATGAAAAAGATGTTGTGAGAGAAGAGGAAGAAGCGAACCGAGAATATACAGAAAAGCAAGCGCTGAAAGTAGCGAAAGAGATGGCCGAAAAAGAACTAAAGAAAAAATTGGATGAACATGCTATGATTGTAAGTGATAAGATTTTGAGTAAAGAGGTTGAGGCGGATCAACTAAAAGTCACATTGCATTATACTGTGATTGAAAATATTGCAGAGCCACAACCAATATCCGAATCCGATATTCAAGGAGACTGA	MKNKWFIKWLGYVKVRIEGRGAERFVNECVRRNLLVWDVKKIADETLVFCMLLRDVKKIKPIYRKNECKLYFIGRYGFPFWNKRLIKNSGFLIGFLIFFFGVIAMSNMVWKIEITGAKPETEYILMKELDKMGIKKGKLQFQMPNVEDVQRHLTDNINAITWAGLEVRGTTYHFKIVEKNEPKKEKEQMPQNLVAKKEAIITKTFVEVGKPVVLKNDHVEKGQILVSGIYGNEESPTIVSAKGIVYGETWYTSKVDVPLKTQFQVYTGNVYNEHFLKFGGTKIKIWGFQHDKYKRSRTESVKHDVKLFGFTLPIAYEKDVVREEEEANREYTEKQALKVAKEMAEKELKKKLDEHAMIVSDKILSKEVEADQLKVTLHYTVIENIAEPQPISESDIQGD	PGPT0024760_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024760-yqfD-K06438	NA	NA
AK009_04357	294			hypothetical protein	ATGAAGAAATTAGAACAAATGAAAAATTGGTTAACAAAACAAGTAGACCTACCAGTGGATGTATTAATGGATCTACCTCGGATTACTCTTGTTGGGCAAATACATATTTATATAGAAAATCATCGGGGACTATTAGTGTTTTCAGATAAAGAAGTGCGATTGCTTTTAAAACACGGTCAATTACTAATTAAAGGACAATCCTTTGTTATTAAAACGATTCTTCCAGAAGAGCTTTTGCTCGAAGGGATAATTGAGCAAGTAACATTTTTAGAAAATGAAAAAAAAGGTGATTGA	MKKLEQMKNWLTKQVDLPVDVLMDLPRITLVGQIHIYIENHRGLLVFSDKEVRLLLKHGQLLIKGQSFVIKTILPEELLLEGIIEQVTFLENEKKGD	PGPT0024765_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024765-yqfC-NA	NA	NA
AK009_04358	444	yqeY_2	COG1610	putative protein YqeY	ATGAGTCTTCTCGGTCGTTTAAACGATGATATGAAACAAGCGATGAAGAATAAACAAAAAGAAAAATTAACCGTTATTCGTATGGTTAAGGCTGCTTTACAAAATGAAGGTATTAAACTGCAACATACTCTTACTGAAGAAGAGGAAGTAACAGTTTTAGCTCGTGAAGTAAAACAGTATAAGGACTCCCTCCTTGAATTTAAAAAAGCTGGTCGTGAAGACCTTGTTAATAAACTGCAAAGTGAAATTCAGATTTTAAGCGCATATTTGACAGAGCAATTAACTGAAGAAGAACTAGTTGATGTAATCAAACAAGTTATTTCTGAAGTTGGTGCGACTTCTAAAGCAGATATGGGTAAGGTGATGACTGCTGTTATGCCGAAAGTAAAAGGTAAAACAGACGGATCACTTGTGAATAAGTTGGTTATCCAGCTATTAGCATAA	MSLLGRLNDDMKQAMKNKQKEKLTVIRMVKAALQNEGIKLQHTLTEEEEVTVLAREVKQYKDSLLEFKKAGREDLVNKLQSEIQILSAYLTEQLTEEELVDVIKQVISEVGATSKADMGKVMTAVMPKVKGKTDGSLVNKLVIQLLA	PGPT0030490_2964	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
AK009_04359	174	rpsU	COG0828	30S ribosomal protein S21	ATGTCAAAAACAGTCGTTCGTAAAAACGAGTCTTTGGAGGATGCACTTCGCCGTTTTAAAAGATCGGTTTCTAAAACTGGTACACTTGCTGAAGCAAGAAAGCGCGAGTTTTATGAAAAACCAAGTGTAAAACGTAAGAAGAAATCTGAAGCGGCAAGAAAGCGTAAATTCTAA	MSKTVVRKNESLEDALRRFKRSVSKTGTLAEARKREFYEKPSVKRKKKSEAARKRKF				NA	NA	NA	NA	NA
AK009_04360	1353	mtaB	COG0621	Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB	ATGTCAACTGTTGCGTTCCATACGTTAGGTTGTAAAGTAAACCACTATGAAACAGAAGCCATTTGGCAATTGTTTAAACAAGGTGGTTATGAAAGAACAGAATATGAAAAGAAAGCTGATGTTTATGTTATTAACACATGTACAGTAACGAATACTGGGGACAAAAAAAGCCGTCAAGTAATCAGACGTGCTGTGCGTCAAAATCCAGATGCAGTTATTTGCGTAACGGGATGTTATGCACAAACATCTCCAGCTGAAATTATGGCGATTCCAGGTGTAGATATTGTAGTTGGTACACAGGATCGTGAAAAGATGTTAGGTTACATCGAAGAATTCCGTAAAGAGCGTCAACCAATTAATGCTGTCCGCAATATTATGAAAACACGTGTGTACGAAGAACTTGATGTACCTTATTTCACGGATCGTACACGTGCGTCTTTAAAAATACAAGAGGGTTGCAATAACTTCTGTACATTCTGTATCATTCCTTGGGCGCGTGGTTTAATGCGTTCTCGTGATGGAAAAGAGGTTATTAAACAAGCACAACAATTAGTGGATGCAGGCTATAAAGAAATCGTATTAACGGGTATTCATACAGGTGGATACGGCGAAGATATAAAAGATTATAACTTAGCTGGATTACTTCGTGATATGGAAGCGGAAGTAGGCGGATTAAAACGTCTTCGTATTTCTTCTATTGAAGCGAGTCAAATTTCAGATGAAGTAATTGAAGTGTTAGATAAATCTGAAGTAGTTGTACGTCACTTGCATATTCCGTTGCAATCTGGTTCTAATACTGTATTAAAACGTATGCGTCGTAAATATACGATGGAATTCTTCCAAGAGCGTTTAGATCGTTTGAAAGAAGCGTTACCAGGCCTTGCGATTACATCTGACGTAATCGTTGGTTTCCCAGGTGAAACAGAAGAAGAATTCATGGAAACATACAATTTCATTAAAGAGAACCGCTTCTCTGAGTTACACGTGTTCCCTTATTCAAAACGTACAGGAACACCTGCAGCACGCATGGAAGATCAAGTTCCTGAAGATGTGAAGAACGATCGTGTTCATCGTTTAATTGAGCTATCTAATCAATTAGCGAAAGAATATGCATCAGCGTTTGAAGGTGAAGTGCTTGAAATCATTCCAGAAGAGCAATTTAAAGACGGCGACCGTGAAGGGTTATATGTAGGGTATACAGATAACTACTTGAAAATTGTATTTGAAGGATCAGAAGAATTAATTGGTAAGCTAGTGAAAGTGAAAATTACGAAAGCTGGCTATCCATATAACGAAGCGCAATTTGTTCGTGTTCTTGAAGATGATGTGAAAAAAGAATCAGCAAGCGCATAA	MSTVAFHTLGCKVNHYETEAIWQLFKQGGYERTEYEKKADVYVINTCTVTNTGDKKSRQVIRRAVRQNPDAVICVTGCYAQTSPAEIMAIPGVDIVVGTQDREKMLGYIEEFRKERQPINAVRNIMKTRVYEELDVPYFTDRTRASLKIQEGCNNFCTFCIIPWARGLMRSRDGKEVIKQAQQLVDAGYKEIVLTGIHTGGYGEDIKDYNLAGLLRDMEAEVGGLKRLRISSIEASQISDEVIEVLDKSEVVVRHLHIPLQSGSNTVLKRMRRKYTMEFFQERLDRLKEALPGLAITSDVIVGFPGETEEEFMETYNFIKENRFSELHVFPYSKRTGTPAARMEDQVPEDVKNDRVHRLIELSNQLAKEYASAFEGEVLEIIPEEQFKDGDREGLYVGYTDNYLKIVFEGSEELIGKLVKVKITKAGYPYNEAQFVRVLEDDVKKESASA				NA	NA	NA	NA	NA
AK009_04361	750	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCAACGTTATTTTGTAGAAGAAAAACATGTAAGTGAAGCAAAAGTTCGCATTGTAGGTGATGATGTACATCACATTGCGAGAGTAATGCGTATGACAGCTGGCGATCAAATTTATTGCTGTGTAAACGGAAAAACAGCAGTATGTTCAATTGATGAAATTACCAGTGAATTTATTAATACGGCTATTGTAGAATGGGTAGAGGCGTCAAGTGAACTTCCTGTTTTCGTGACGATTGCAAGTGGACTGCCAAAAGGAGACAAGCTAGAGTTGATTTTTCAAAAAGGAACTGAGCTTGGGGCAGCTGCATTCTTACCATTTCAAGCATCTCGCTCTATCGTAAAATGGGATGCGAAAAAAGCTGATAAAAAAGTTGAGCGTTTAAGAAAAATTGTGAAAGAAGCTGCGGAACAATCACATAGAAGTGAAATTCCGGAAGTACATGCTCCGGCATCATTTAAACAACTGCTTACAATGAGTGGTGAGTATGATGTTTGTCTTGTTGCTTACGAAGAGGAAGCAAAACAAGGCGAGAAATCTAATTTTGCGAAAGCTTTAACGACAATGAAACCAGGTCAAAAGCTATTGATTGTATTTGGCCCAGAAGGCGGTTTAGCTGAGGAAGAGATTACAGCGCTTCGTGAACATAAATTTGTACCATCTAGTTTAGGACCAAGAATTTTAAGAACAGAAACGGCGCCGTTATACGCGTTAAGTGCTGCTTCGTATCATTTTGAATTGATGGGGTGA	MQRYFVEEKHVSEAKVRIVGDDVHHIARVMRMTAGDQIYCCVNGKTAVCSIDEITSEFINTAIVEWVEASSELPVFVTIASGLPKGDKLELIFQKGTELGAAAFLPFQASRSIVKWDAKKADKKVERLRKIVKEAAEQSHRSEIPEVHAPASFKQLLTMSGEYDVCLVAYEEEAKQGEKSNFAKALTTMKPGQKLLIVFGPEGGLAEEEITALREHKFVPSSLGPRILRTETAPLYALSAASYHFELMG				NA	NA	NA	NA	NA
AK009_04362	939	prmA	COG2264	Ribosomal protein L11 methyltransferase	GTGAAATGGTCAGAAATTAGTATTCATACAACAGAAGAAGCAGTAGAAGCTGTCTCTCATATTTTACATGAAGCTGGTGCTAGCGGAGTTGCGATTGAGGATCCAGCGGAGTTAACGAAAGAGCGCGAGCAACAATATGGTGAAATTTATGCATTGAATCCAGATGAATATCCGGCGGAAGGTGTATTAATAAAAGCATATTTCCCACAAACGGATTCTTTACATGAAACGATTGCAGGTGTAAAATCATCTATTGATGTGCTTCCATCTTACGACATTGAAATTGGTACTGGAAATATTACCGTTAACGAAGTCAATGAAGAAGATTGGGCTACTGCTTGGAAAAAATATTACCATCCAGTACAAATTTCTGATACATTCACAATCGTACCGACGTGGGAAGAATATACACCATCTTCTCCTGATGAAAAAATCATTGAATTAGACCCAGGTATGGCGTTTGGTACAGGAACTCATCCAACAACAACGATGTGTATTCGTGCTTTAGAAAAAACAGTACAGCCAGGTGACGCTATCATTGATGTAGGAACAGGTTCTGGTGTGCTTAGTATTGCAGCGTCAAAATTAGGTGCGTCTTCTGTTCAAGCATATGATTTAGATCCGGTTGCAGTTGAAAGTGCAGAAATGAATGTGCGTTTAAATAAAACAGATGATATCGTGTCTGTTGGGCAAAATAGTCTTTTAGAAGGTATTGAAGGTCCTGTTGATTTAATCGTAGCTAACTTATTAGCAGAAATTATTCTTTTATTCCCTGAAGATGCAGCGAGAGTTGTGAAGTCAGGTGGATTATTTATTACATCGGGCATTATTGCTGCGAAGGAAAAAGTAATTTCTGAGGCGTTAGAACAAGCTGGATTTACAATTGAAGAAGTGTTACGAATGGAAGATTGGGTAGCAATTATTGCACGAAATGCGTAA	MKWSEISIHTTEEAVEAVSHILHEAGASGVAIEDPAELTKEREQQYGEIYALNPDEYPAEGVLIKAYFPQTDSLHETIAGVKSSIDVLPSYDIEIGTGNITVNEVNEEDWATAWKKYYHPVQISDTFTIVPTWEEYTPSSPDEKIIELDPGMAFGTGTHPTTTMCIRALEKTVQPGDAIIDVGTGSGVLSIAASKLGASSVQAYDLDPVAVESAEMNVRLNKTDDIVSVGQNSLLEGIEGPVDLIVANLLAEIILLFPEDAARVVKSGGLFITSGIIAAKEKVISEALEQAGFTIEEVLRMEDWVAIIARNA				NA	NA	NA	NA	NA
AK009_04363	1116	dnaJ_2		Chaperone protein DnaJ	ATGAGTAAACGAGACTATTATGAGGTCCTTGGACTTAGCAAGGGCGCTTCAACAGATGAAATAAAAAAAGCGTATCGTCGTTTGGCTAAAAAATACCATCCAGACGTAAGCAAAGAAGAAAATGCAATTGAAAAGTTTAAAGAAGTACAAGAAGCATACGAAGTGTTAAGTGATGATCAAAAGCGTGCGCAGTACGATCAATTTGGTCATGCTGGTGCAAATCAAGGATTCGGTGGATTTGGCGGCGGAGGAGACTTCGGCGGTGGCTTCGGTTTTGAAGATATATTTAGTTCTTTCTTTGGCGGTGGCGGCGGCAGACGCCGTGATCCAAATGCTCCGCGCCAAGGTGCTGACTTACAATATCAAGTCACTTTAGATTTTGAAGAAGCTATTTTTGGTAAGGAATTAAATGTGGAAATTCCAGTAGAAGATCCATGTGATACTTGTAAAGGTAGTGGAGCAAAACCAGGAACTTCAAAAGAAACATGTAAACATTGTTCAGGCTCTGGTCAAGTGAGTGTAGAGCAAAACACACCGTTTGGTCGTATCGTAAACCGTCAAGCTTGTGGTCATTGTTCAGGAACTGGACAAATTATTAAAGAAAAATGTACGACATGTCACGGTTCAGGTAAAGTTCGTAAACGTAAAAAAATCAATGTTAAAATTCCAGCGGGTATCGATAATGGTCAACAAATTCGTGTGTCTGGAAAAGGTGAAGCCGGCGTAAATGGCGGACCAGCAGGAGACTTATATGTTGTCGTTCATGTAAGAAATCATGAATTCTTCGAGCGTGAAGGAGATCATATTATTTGCGAAATGCCATTAACATTTGCACAAATGGCGCTTGGTGATGAAGTGGAAGTTCCTACTGTTCATGGTAAAGTGAAGCTGAAAATTCCAGCAGGAACACAAACAGGAACAGAATTCCGCCTAAAAGGAAAAGGTGCTCCGAACGTACGTGGATACGGTCAAGGAGATCAATATGTAGTCGTTCGCGTTGTTGTACCGACGAAATTGACTTCACAGCAAAAAGATTTATTACGTGAATTTGCAGGACAAGAAGAGCAGGATGATAGTTTATTCGGAAAGCTTAAACGTGCTTTCAAAGGGGAATAA	MSKRDYYEVLGLSKGASTDEIKKAYRRLAKKYHPDVSKEENAIEKFKEVQEAYEVLSDDQKRAQYDQFGHAGANQGFGGFGGGGDFGGGFGFEDIFSSFFGGGGGRRRDPNAPRQGADLQYQVTLDFEEAIFGKELNVEIPVEDPCDTCKGSGAKPGTSKETCKHCSGSGQVSVEQNTPFGRIVNRQACGHCSGTGQIIKEKCTTCHGSGKVRKRKKINVKIPAGIDNGQQIRVSGKGEAGVNGGPAGDLYVVVHVRNHEFFEREGDHIICEMPLTFAQMALGDEVEVPTVHGKVKLKIPAGTQTGTEFRLKGKGAPNVRGYGQGDQYVVVRVVVPTKLTSQQKDLLREFAGQEEQDDSLFGKLKRAFKGE	PGPT0014545_5453	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
AK009_04364	1836	dnaK	COG0443	Chaperone protein DnaK	ATGAGTAAAATTATCGGTATTGACTTAGGTACAACAAACTCTTGTGTAGCTGTTATGGAAGGTGGAGAACCAAAGGTTATCCCAAATCCAGAAGGAAACCGTACAACACCTTCTGTTGTAGCTTTCAAAAATGAAGAACGTCAAGTTGGGGAAGTTGCAAAGCGCCAAGCAATTACAAACCCAAATACAATCATGTCTGTTAAACGTCATATGGGTACAGACTACAAAGTAGAAGTTGAAGGTAAAGATTATACACCTCAAGAAATTTCTGCAATCATTTTACAAAACTTAAAAGCTTCTGCTGAAGCATACTTAGGTGAAACAGTAACGAAAGCTGTTATTACAGTACCTGCATACTTCAACGATGCAGAGCGTCAAGCAACGAAAGATGCTGGTCGTATCGCTGGTTTAGAAGTTGAGCGTATCATTAACGAGCCAACAGCAGCAGCACTTGCTTACGGTTTAGAAAAACAAGACGAAGAACAAAAAATCTTAGTATATGACTTAGGTGGCGGTACATTTGACGTATCTATCCTTGAGTTAGCAGACGGCACATTCGAAGTTATTTCAACTGCTGGTGACAACCGTCTTGGTGGCGATGACTTTGACCAAGTTATCATCGATCACTTAGTAGCTGAGTTCAAAAAAGAAAATAACATTGATTTAAGCCAAGATAAAATGGCGCTTCAACGCTTGAAAGATGCAGCTGAAAAAGCGAAAAAAGATCTTTCTGGTGTAACACAAACTCAAATTTCATTACCATTCATTAGTGCTGGAGCTGCTGGTCCATTACACCTAGAATTAACGTTAACAAGAGCGAAATTCGAAGAGCTTTCAGCAGGTCTTGTTGAAAGAACATTAGAGCCAACTCGTCGTGCATTAAAAGACGCTGGTTTTGCTCCAAGCGAATTAGATAAAGTTATTCTTGTTGGTGGATCTACTCGTATCCCAGCTGTACAAGAAGCTATTAAACGTGAAACTGGTAAAGAGCCATATAAAGGTGTAAACCCTGATGAAGTTGTAGCATTAGGTGCTGCAGTTCAAGGTGGCGTACTTACTGGTGATGTAGAAGGCGTTCTATTATTAGACGTAACTCCACTTTCTTTAGGTATTGAAACTATGGGTGGCGTGTTCACGAAATTAATCGAGCGTAACACTACAATTCCAACAAGTAAGTCACAAGTATTCTCGACAGCTGCTGATAATCAACCAGCAGTAGACATTCACGTATTACAAGGTGAGCGTCCAATGTCAGCTGACAACAAAACGTTAGGTCGTTTCCAATTAACTGACCTTCCACCAGCACCACGTGGTATTCCACAAATCGAAGTAACATTCGATATTGATGCGAACGGTATCGTTAACGTACGTGCGAAAGACTTAGGAACAAGCAAAGAGCAAGCTATTACAATCCAATCTTCTTCAGGTCTTTCTGATGAAGAAGTAGAACGTATGGTACAAGAAGCGGAAGCAAATGCTGACGCTGACCAAAAACGTAAGGAAGAAGTTGAACTTCGTAACGAAGCTGACCAACTTGTATTCCAAACAGACAAAGTTGTAAAAGATTTAGAAGGTAAAGTAGATGCAACTGAAGTTGCAAAAGCAACAGAAGCGAAAGAAGCATTACAAGCTGCAATTGAGAAAAACGAGCTTGAAGAAATTCGTGCGAAAAAAGATGCTTTACAAGAAATCGTACAACAATTAACTGTTAAATTATACGAGCAAGCTCAAGCAGCTGCTGGTCAAGCAGAAGGTGCGCAAGGTGCACAAGACGCTGGCACGAAGAAAGACAATGTAGTTGACGCTGAGTTTGAAGAAGTAAAAGAAGACAAGTAA	MSKIIGIDLGTTNSCVAVMEGGEPKVIPNPEGNRTTPSVVAFKNEERQVGEVAKRQAITNPNTIMSVKRHMGTDYKVEVEGKDYTPQEISAIILQNLKASAEAYLGETVTKAVITVPAYFNDAERQATKDAGRIAGLEVERIINEPTAAALAYGLEKQDEEQKILVYDLGGGTFDVSILELADGTFEVISTAGDNRLGGDDFDQVIIDHLVAEFKKENNIDLSQDKMALQRLKDAAEKAKKDLSGVTQTQISLPFISAGAAGPLHLELTLTRAKFEELSAGLVERTLEPTRRALKDAGFAPSELDKVILVGGSTRIPAVQEAIKRETGKEPYKGVNPDEVVALGAAVQGGVLTGDVEGVLLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFSTAADNQPAVDIHVLQGERPMSADNKTLGRFQLTDLPPAPRGIPQIEVTFDIDANGIVNVRAKDLGTSKEQAITIQSSSGLSDEEVERMVQEAEANADADQKRKEEVELRNEADQLVFQTDKVVKDLEGKVDATEVAKATEAKEALQAAIEKNELEEIRAKKDALQEIVQQLTVKLYEQAQAAAGQAEGAQGAQDAGTKKDNVVDAEFEEVKEDK	PGPT0014555_5852	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
AK009_04365	567	grpE	COG0576	Protein GrpE	GTGGAAGAGCGTAACGAACAAGTGGTAGAAGAAGTAAAAGAAGCGCAAGTTGAAGAAGCTGTCACGCCAGAAAACAGTGAAGAAACTGTAGAAGAAAAAAGTGAGGCTGCTCTTTTACAAGAAAAAGTAGATGAGTTACAAGCGAAACTAACGGAAACGGAAGGTCGCACATTACGTCTACAAGCTGATTTTGAAAATTATAAGCGCCGTGTCCAAATGGATAAACAGGCTGCTGAAAAATATAGAGCACAAAGTCTAGTTTCAGACATCTTGCCAGCTCTTGATAATTTTGAAAGAGCAATGCAAGTGGAAGCGACTGATGAGCAAACGAAATCCTTGTTACAAGGCATGGAAATGGTGCATCGTCAATTGTTAGAAGCGCTGACTAAAGAAGGTGTGGAAGTGATTGAAGCTGTTGGTAAACAGTTTGATCCTAATGAACACCAAGCTATTATGCAAGTGGAAGATAGTGAATTTGAATCAAACGCGGTTGTGGAAGAATTCCAAAAAGGTTATAAATTAAAAGACCGTGTGATTCGCCCATCAATGGTAAAAGTAAATCAATAA	MEERNEQVVEEVKEAQVEEAVTPENSEETVEEKSEAALLQEKVDELQAKLTETEGRTLRLQADFENYKRRVQMDKQAAEKYRAQSLVSDILPALDNFERAMQVEATDEQTKSLLQGMEMVHRQLLEALTKEGVEVIEAVGKQFDPNEHQAIMQVEDSEFESNAVVEEFQKGYKLKDRVIRPSMVKVNQ	PGPT0014650_4653	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
AK009_04366	1017	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGCTTACGGAACGTCAGCTCTTAATTTTACAAACAATTATTGATGACTTTATTGGATCAGCGCAGCCTGTTGGGTCTAGAACGTTGGCTAAAAAAGATGAAATTACATTTAGTTCAGCTACTATTCGAAATGAAATGGCGGACTTAGAAGAATTAGGTTTTATTGAAAAAACGCACAGTTCTTCTGGACGTGTTCCTTCTGAGAAAGGCTACCGATTTTATGTAGACCATCTTTTAGCGCCGCAAAACTTACCGAACGCTGAAATTGTACAAATTAAAGATTTATTTGCTGAAAGAATTTTTGAAGCGGAAAAAATTGCACAGCAATCTGCTCAAATTTTATCAGAACTTACGAATTATACGGCCATTGTTCTTGGACCGAAGTTAAGTACAAATAAACTTAAAAATGTACAAATTGTGCCGCTTGATCGTCAAACTGCAGTCGCTATTATTGTAACTGATACAGGGCATGTACAAAGTAAAACGATTACCGTTCCGGAATCTGTTGATTTATCAGATTTAGAAAAAATGGTTAATGTTTTAAATGAAAAGCTATCTGGCGTACCGATGGAAGAACTTCATAATAAAATCTTTAAGGAAATTGTTACAGTTTTACGTGGGTATGTTCATAATTACGATAGTGCAATAAAAATGTTAGATGGTACATTTCAAGTTCCGTTATCGGAAAAGATATACTTTGGAGGAAAAGCAAATATGCTTTCGCAGCCAGAGTTCCATGACATTCAAAAGGTTAGATCTTTGCTTACCATGATTGATAATGAAGCCGAATTTTATGACATTTTGCGTCATAAACAAGTCGGGATTCAAGTGAAAATTGGTAGGGAAAACACTTCGACGGCTATGGAGGATTGCAGTTTAATTTCTGCAACATATTCGATCGGCGAAGAGCAACTTGGAACAATTGCTATTTTAGGTCCGACAAGAATGCAATATTCTCGTGTAATTAGTTTGTTACAGTTATTTACGAGACAATTTACAGATGGACTTAAAAAGTAA	MLTERQLLILQTIIDDFIGSAQPVGSRTLAKKDEITFSSATIRNEMADLEELGFIEKTHSSSGRVPSEKGYRFYVDHLLAPQNLPNAEIVQIKDLFAERIFEAEKIAQQSAQILSELTNYTAIVLGPKLSTNKLKNVQIVPLDRQTAVAIIVTDTGHVQSKTITVPESVDLSDLEKMVNVLNEKLSGVPMEELHNKIFKEIVTVLRGYVHNYDSAIKMLDGTFQVPLSEKIYFGGKANMLSQPEFHDIQKVRSLLTMIDNEAEFYDILRHKQVGIQVKIGRENTSTAMEDCSLISATYSIGEEQLGTIAILGPTRMQYSRVISLLQLFTRQFTDGLKK				NA	NA	NA	NA	NA
AK009_04367	1140	hemW	COG0635	Heme chaperone HemW	TTGGTACAAGCTGCATATATTCATATCCCGTTTTGTCAGCACATTTGTCACTATTGTGATTTTAATAAAGTGTTTATTGAACGCCAACCGGTTGATCAATATTTAGATTATTTAGAGAAGGAAATAATAAATACGGTTCAAAGAGTTCCGTTTGATAGTATGAAAACGATTTTTGTGGGCGGTGGAACTCCGACAGCGTTAAATATGGAACAGACAAAAAAATTACTCGAGATTATTAATCGTCATTTGCGCCCGTTTGCTCCGAATTGTGAATTGACATTTGAAGCGAATCCAGGAGATCTACCGAAAGAGAAGTTGAATGTACTACTAGAAGGTGGAGTGAATCGAATTAGTTTTGGTGTGCAAACGTTCCGTGATGAACTGCTTGAGAAAATCGGGCGCAAGCATACGAGGGAAGATGCATTCCTAGCGATTCGAGAAGCTCAGGAAGTAGGCTTTAAAAATATTAATGTAGATATTATTTATGCTTTGCCAGGACAAACGATAGAAGATGTGAAGGAAACATTAGACATTGCTTTTACGCTTGGTGTACAACATTTCTCGGCATATTCATTAATTGTGGAACCTAAAACAGTGTTTTATAACCTAATGAATAAAGGGAAATTGCGTCTTCCGGGTGAAGACCATGAAGCGAAAATGTATGAAATGGTAATGGATGAAATGGAGAAACACGGTTATAACCAGTATGAAATTAGTAATTTCTCAAAAGGTGACAATAAAAGTAGACATAATCTCACATACTGGAATAATGAAGAGTATTATGGCTTTGGAGCTGGAGCTCATAGTTATGTGAATGGGGAACGTATTCAAAATGTAGGTCCGCTGAAGCAATATTTTAATAAAATTGATGAAACAGGATTTCCGTATTTAGATGTTCACGTGGTGACGGAGAAAGAAAAGATGGAAGAAGAGTTGTTCTTAGGACTTCGAAAAACAAAAGGTGTATCTAAAATAGCATTTCAAAAGAAATTTAATATGGAGATGGATCAAGTTTTCGCGAAGCAGTTACAAAACAACCAAGAACAAGGATTGCTTGAAGAGAGCGATGGATATGTTCGTTTAACGCGAAAAGGAAAATTATTAGGGAATGAAGTATTCCAATCATTTTTAATTGACTAA	MVQAAYIHIPFCQHICHYCDFNKVFIERQPVDQYLDYLEKEIINTVQRVPFDSMKTIFVGGGTPTALNMEQTKKLLEIINRHLRPFAPNCELTFEANPGDLPKEKLNVLLEGGVNRISFGVQTFRDELLEKIGRKHTREDAFLAIREAQEVGFKNINVDIIYALPGQTIEDVKETLDIAFTLGVQHFSAYSLIVEPKTVFYNLMNKGKLRLPGEDHEAKMYEMVMDEMEKHGYNQYEISNFSKGDNKSRHNLTYWNNEEYYGFGAGAHSYVNGERIQNVGPLKQYFNKIDETGFPYLDVHVVTEKEKMEEELFLGLRKTKGVSKIAFQKKFNMEMDQVFAKQLQNNQEQGLLEESDGYVRLTRKGKLLGNEVFQSFLID	PGPT0003200_3167	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
AK009_04368	375	hxlR_1	COG1733	HTH-type transcriptional activator HxlR	ATGTCCGAAAATATTCGAAAAGATATTCAAGATAAAATACAAAATGGCAATTTTAATTGTGAAAAGGAATTGACGCTTTCTATTATTAGTGGAAAGTGGAAAGTTGTGATACTGTGGCATCTTGGTGTGGAAGGGCCTCATCGTTTTAGTGAATTACAACGGTTATTCCCAAGCATTTCTCATAAAGTTTTGTCGAACCAATTAAAAGAGTTAATGGAAGATGGGATTGTTGATCGAACAGTATATCCCGAAATTCCTCCTCGTGTTGAGTATTATATGACGGAACTAGGCATGTCACTTTTACCGATCGTTGAAATGATGTATGATTGGGGAAAAATGCGAATGGAACAAATTCGTAATACGTTAGAGAAGTAG	MSENIRKDIQDKIQNGNFNCEKELTLSIISGKWKVVILWHLGVEGPHRFSELQRLFPSISHKVLSNQLKELMEDGIVDRTVYPEIPPRVEYYMTELGMSLLPIVEMMYDWGKMRMEQIRNTLEK				NA	NA	NA	NA	NA
AK009_04369	1824	lepA_1	COG0481	Elongation factor 4	ATGAACAAAGAAGAAAGAGCAAAAAGACAGTCCAAAATTCGTAATTTCTCTATTATTGCTCATATTGACCACGGAAAATCAACGTTAGCAGACCGTATTTTAGAGAAAACAAATGCGTTAACACAACGCGAAATGAAAGCTCAGTTGCTTGACTCTATGGATTTAGAGCGTGAGCGTGGTATTACAATCAAATTAAACGCAGTACAATTAAACTATAAAGCAAAAGATGGTGAAGAGTATATTCTTCATTTAATTGATACACCAGGACACGTCGACTTTACGTACGAAGTATCTCGTAGTTTAGCGGCTTGTGAAGGCGCGATTCTTGTAGTAGATGCAGCGCAAGGTATTGAAGCGCAAACGTTAGCGAACGTATACTTAGCGCTTGATAACAACTTGGAAATTTTACCAGTTATCAATAAAATCGATTTACCAAGTGCGGATCCAGAACGTGTACGTCAAGAGGTAGAAGATGTAATTGGTTTAGATGCATCAGAAGCGGTACTTGCTTCTGCAAAAGCTGGAATTGGTATTGAAGAAATTTTAGAACAAATTGTTGAAAAAGTACCAGCTCCGGCAGGTGATTCAGAAGAGCCGTTACAATGTATGATTTTCGACTCTTTATATGATCCGTACCGTGGTGTAATTGCTTATATCCGTGTTGTAAATGGAACGGTAAAAGTTGGCGATAAAGTACGTATGATGGCAACGGGTAAAGAATTTGAAGTAACAGAAGTAGGTGTATTTACACCGAAAACTACGCAACGTGACGAGTTAACAGTAGGTGATGTAGGTTTCTTAGCAGCATCTATTAAAAACGTAGGTGATACACGTGTTGGTGATACGATTACACATGCGAAACGTCCAGCTGCAGAGGCGTTACCAGGTTACCGTAAATTAAACCCGATGGTATTCTGTGGGCTGTATCCAATTGATTCTGCTCGTTATAACGATTTACGTGATGCGTTAGAAAAATTAGAGTTAAACGATTCTGCTCTTGAGTTTGAACCAGAAACATCTCAAGCGTTAGGATTTGGTTTCCGTTGTGGATTCTTAGGACTTCTTCACATGGAAATCATTCAAGAACGTATTGAACGTGAATTTAAGATTGACTTAATTACAACAGCGCCAAGCGTTATTTATAAAGTTTATTTAACAAACGGTGAAGATGTTATTGTTGATAATCCATCTAATATGCCAGACCCACAGTCTATCGATCGTGTAGAAGAGCCGTTTGTGAAGGCTTCAATTATGGTTCCGAATGACTATGTTGGAGCTGTAATGGAAATTTGCCAAGGTAAACGTGGAACGTTTATTGATATGCAATATTTAGATGAAACGCGTGTTACATTAACATATGAAATCCCGTTATCAGAAATCGTATATGACTTCTTCGATCAATTGAAATCAAATACGAAAGGGTATGCATCATTTGATTATGAGTTAATTGGTTATAAACCATCTAAACTTGTGAAAATGGATATTCTTTTAAATAATGAACAAGTGGATGCTTTATCATTTATCGTACACCGTGATTCAGCATATGACCGTGGTAAAGTAATTGTAGAGAAATTAAAAGAATTAATTCCGAGACAACAGTTCGAAGTGCCAATTCAGGCGACTATCGGAAATAAAGTTGTAGCACGTTCTACAATTAAGGCGATGCGTAAAAACGTACTTGCAAAATGTTACGGCGGTGACATTTCTCGTAAGCGTAAACTTCTTGATAAGCAAAAAGAAGGTAAAAAACGTATGAAGTCTGTTGGTTCTGTAGAAGTGCCGCAAGAGGCATTCATGGCTGTACTGAAAATGGATGACAACTAA	MNKEERAKRQSKIRNFSIIAHIDHGKSTLADRILEKTNALTQREMKAQLLDSMDLERERGITIKLNAVQLNYKAKDGEEYILHLIDTPGHVDFTYEVSRSLAACEGAILVVDAAQGIEAQTLANVYLALDNNLEILPVINKIDLPSADPERVRQEVEDVIGLDASEAVLASAKAGIGIEEILEQIVEKVPAPAGDSEEPLQCMIFDSLYDPYRGVIAYIRVVNGTVKVGDKVRMMATGKEFEVTEVGVFTPKTTQRDELTVGDVGFLAASIKNVGDTRVGDTITHAKRPAAEALPGYRKLNPMVFCGLYPIDSARYNDLRDALEKLELNDSALEFEPETSQALGFGFRCGFLGLLHMEIIQERIEREFKIDLITTAPSVIYKVYLTNGEDVIVDNPSNMPDPQSIDRVEEPFVKASIMVPNDYVGAVMEICQGKRGTFIDMQYLDETRVTLTYEIPLSEIVYDFFDQLKSNTKGYASFDYELIGYKPSKLVKMDILLNNEQVDALSFIVHRDSAYDRGKVIVEKLKELIPRQQFEVPIQATIGNKVVARSTIKAMRKNVLAKCYGGDISRKRKLLDKQKEGKKRMKSVGSVEVPQEAFMAVLKMDDN	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
AK009_04370	366			hypothetical protein	TTGAGGGAGAAAGATGATAATAGTTTGAGTCGTTTTGCGCTTTTGTGTATATGTAGTGTAGCTTTATGTTTACTTATGATGATAGCAGGAGTGTCACTTGCTAATCATGGTTTGAAAAGTATGAAAGGTTATCGGCAATTGTCGTATGAACAAATAGCTCATATGACAGGGACAGAGAGTACAGGTGCTGAATCAGAAATTTTGGGTAGTTCGTTTTCAGCTTCAGAAAAACAACAACAATTAGAACGTTTAAGAAGTTTTAATGTTGTAGAAGGAATTGGGATGGCGGTAGCAAGTGTAGCTTATGAAATGACGAAGTTCGGAACGGATATAGTTGTTGGGAAAATAAAGGGGATTTTTAGCTAA	MREKDDNSLSRFALLCICSVALCLLMMIAGVSLANHGLKSMKGYRQLSYEQIAHMTGTESTGAESEILGSSFSASEKQQQLERLRSFNVVEGIGMAVASVAYEMTKFGTDIVVGKIKGIFS				NA	NA	NA	NA	NA
AK009_04371	1104	gpr_1		Germination protease	ATGAAAGAACCATTGGATTTAAGTAAATATAGCGTTAGAACTGACCTTGCTGTAGAAGCTCATCAAATGTTGCAAGAAAGCCAAGAAGAACAAAAAGGGATACAGGGGGTAATTGTAAAAGAGAGGGAAGAAGAAGGTACTATAATTACAAAAGTAACAATTGATGAAGCTGCCTCTGAAGCGATGGGTAAAAAACCTGGAAATTATTTAACGCTTGAAGTACAAGGTATACGTCAGCAAGATACAGAACTTCAACAAAAAGTGGAGCGTATTTTCGCAAAAGAATTTTCTTATTTTTTAGAAGAGGTTGGTGTTACAAAAGAAGCGAGCTGTTTAATTGTAGGCCTTGGGAATTGGAATGTAACACCGGATGCTCTTGGGCCAATAGTTGTAGAAAATGTATTAGTAACGAGACATTTGTTTCAATTGCAGCCTGAAAGTGTAGAAGAAGGATTTAGACCTGTTAGTGCAATTCGTCCGGGGGTAATGGGGATTACAGGTATCGAAACGAGCGATGTTATTTATGGGATTATTGAGAAGACAAACCCAGACTTTGTAATTGCGATTGACGCATTAGCTGCCCGTTCTATTGAACGAGTAAATAGCACGATACAAATTTCTGATACTGGAATCCATCCTGGATCAGGGGTTGGGAATAAACGTAAGGAACTAAGTAAAGAGACATTAGGTATCCCTGTTATCGCAATTGGTGTTCCGACTGTGGTCGATGCCGTTTCGATTACAAGTGATACGATTGATTTTATTTTGAAACATTTTGGTCGAGAGATGAAAGAAGGAAACAAACCTTCAAGATCTTTGTTACCAGCGGGATTTTCATTTGGAGAAAAGAAAAAATTAACAGAAGAAGATATGCCAGATGAAAAGAGCCGAAATATGTTTTTAGGTGCTGTTGGTACGTTAGAAGAAGAAGAAAAAAGAAGGTTGATTTATGAAGTGCTATCGCCTCTTGGTCATAACTTAATGGTGACCCCAAAAGAAGTAGATACTTTTATTGAGGATATGGCGAATGTAATAGCGAGTGGTTTAAATGCAGCGTTGCATCATCAAATTGATCAAGATAATACGGGAGCGTATACACATTGA	MKEPLDLSKYSVRTDLAVEAHQMLQESQEEQKGIQGVIVKEREEEGTIITKVTIDEAASEAMGKKPGNYLTLEVQGIRQQDTELQQKVERIFAKEFSYFLEEVGVTKEASCLIVGLGNWNVTPDALGPIVVENVLVTRHLFQLQPESVEEGFRPVSAIRPGVMGITGIETSDVIYGIIEKTNPDFVIAIDALAARSIERVNSTIQISDTGIHPGSGVGNKRKELSKETLGIPVIAIGVPTVVDAVSITSDTIDFILKHFGREMKEGNKPSRSLLPAGFSFGEKKKLTEEDMPDEKSRNMFLGAVGTLEEEEKRRLIYEVLSPLGHNLMVTPKEVDTFIEDMANVIASGLNAALHHQIDQDNTGAYTH				NA	NA	NA	NA	NA
AK009_04372	258	rpsT_1	COG0268	30S ribosomal protein S20	ATGGCAAACATCAAATCTGCTATCAAACGCGCTAAACTTAGCGAAGAGCGTCGTGCACATAACGCTTCTATCAAGTCTGACATGCGTTCTGCTGTTAAAACTGTAGAAGCTTTAGTTACTAATAACGATCTTGAAAATGCTAAAGAAGCTTTCAAAACTGCTTCTAAAAAACTTGACAAAGCAGCTCGTAAAGGTCTTATCCACCAAAACGCTGCATCTCGTCAAAAATCTCGCTTAGCGAAACAAGTAAACGCGTAA	MANIKSAIKRAKLSEERRAHNASIKSDMRSAVKTVEALVTNNDLENAKEAFKTASKKLDKAARKGLIHQNAASRQKSRLAKQVNA				NA	NA	NA	NA	NA
AK009_04373	1011	yqeN	COG1466	putative protein YqeN	ATGAGTGATATACATAAAAAAATTAAAAAGAAACAGTTTGCTCCGTTATATTTACTATATGGGACGGAAGCTTTTTTTATAAATGAAACGATAAAGCTTATTACGACAGAAGCACTTGAAGAAGAAGATCGAGAGTTTAATGTTGTGACATACGATTTGGAAGAAGCGTATTTAGAAGATGTGGTTGAGGATGCGCGTACGCTTCCTTTCTTTGGAGAGCGGAAAGTACTGTTAATAAAATCACCGCTATTTTTGACTTCGCAAAAAGAAAAGTTAGAGCAAAATATAAAAATTTTAGAAGAATACATTGGTGAACCTTCTCCATTTTCTATTCTTGTTTTTGTTGCGCCTTACGAAAAACTTGATGAGCGAAAAAAAATTACAAAACTATTAAAGAAAACAGCAGATGTAGTAGAAGCGAATGCGATGCAAGTGCAGGATGTTCAGAAGTGGATTGTTGCTCGGGCAGATGAAGTGCATGTGCACATTGATAACGCGGCTGTTAGTTTGTTGCTAGAGCTGGTGGGAAGTAATGTAACGATGTTGGCGAAGGAAATGGACAAGTTAACGTTATACGTTGGTATGGGCGGAGAGATTACAACGAAACTTGTTGCAGAGCTTGTGCCAAAATCAGTTGAGCAAAATGTATTTGCTTTGACAGAAAAAGTGGTGAAAAAAGATATTGCAGGTGCGATGCAAATTTTGGATGGATTATTTACGCAGCAGGAAGAACCGATTAAATTGCTTGCATTATTAGTGAGTCAATTCCGTTTGTTGTATCAAGTGAAAGAGTTACAGCAACGTGGTTATGGGCAAAATCAAATTGCATCACATATTGGTGTACATCCGTATCGTGTAAAATTGGCAATGAATCAAACGAAATTTTTCTCTTTTGAAGAATTAAAAAAAGTGATTATAGAATTAGCGGAAGCTGATTATAGTATGAAGACGGGAAAGATGGATAAGAAACTTGTGCTCGAGTTTTTCTTAATGCGATTAAATCATATGTGA	MSDIHKKIKKKQFAPLYLLYGTEAFFINETIKLITTEALEEEDREFNVVTYDLEEAYLEDVVEDARTLPFFGERKVLLIKSPLFLTSQKEKLEQNIKILEEYIGEPSPFSILVFVAPYEKLDERKKITKLLKKTADVVEANAMQVQDVQKWIVARADEVHVHIDNAAVSLLLELVGSNVTMLAKEMDKLTLYVGMGGEITTKLVAELVPKSVEQNVFALTEKVVKKDIAGAMQILDGLFTQQEEPIKLLALLVSQFRLLYQVKELQQRGYGQNQIASHIGVHPYRVKLAMNQTKFFSFEELKKVIIELAEADYSMKTGKMDKKLVLEFFLMRLNHM				NA	NA	NA	NA	NA
AK009_04374	135			hypothetical protein	ATGAATGATTTTGAACAAAACGTTCAAAGTAAACGCAATGACGCTATTGATTCAGGGGTAGGATTTATCGTCTCATTTGGTTTTTTCGCAACACTTTTCATCATTGCAACTGTTATTAAATTTATCGGTTCTTAA	MNDFEQNVQSKRNDAIDSGVGFIVSFGFFATLFIIATVIKFIGS				NA	NA	NA	NA	NA
AK009_04375	2322	comEC	COG0658	ComE operon protein 3	TTGCAGGAACAATGGGGGTATGTTGCAATCTCGTTTATAATAGGGATTGCAATTGCCTTTTCCTCGTCACTTTTATTGATAGTTTTTTGCCTCTTTTTAAATATTTTCTTCTGTTTATATCGCACTTCGCGTAAAACCTTCTTTTTTTGCATTGTAGCGTGCTTTAGTGGCGCTATATACACTTCTTATGTTCAAGGGTGGAATAAGTCTCTAGGAGAGTCCTATGGAGTTACAAGAGGTGTTATACAAAATACACCGCTTGTTAATGGCGATCGCCTATCTTTTCAATTTGAAGATCACAATAAAAATATAGTGCAATTAAGTTATAGAATAAAATCAGCCTTGGAAAAGGAAAAAATGCAACAATTATACGCAGGGATATCATGTGTATTCGAGGGTGAGAGGAAAGAACCACAAACAGCTCGGAATTTTCATGGTTTTAATTACCGTGATTATTTATACAAGCAACATATTCATTTCACATTTGAGGCTACATATATTTCTGAATGCTATAAAACATCACTGTCGCTTATGCAATGGATTCTCCTTTTGAGGCAACAAGCAATCTCGAAAGTTACAGAAATGTTTCCAGAGCAATCAGGTGCTTTTATGAATGCGTTACTATTTGGTGATAGACAACAAATGACGTTTGAAGTGGAAGAGCAATATCAACAGTTTGGTCTTATACATTTGTTAGCAATTTCAGGTTCGCACATTGTATTGTTAATGGGGATAGTATATTTTATTTTGCTAAGAAGTGGTGCGACGAGGGAGGTAGCAACAATTTGCCTTATCGTCTGTATTCCTTTGTATATGGTTTTAGCAGGGGCGTCACCATCTGTTATAAGGGCTTCTATAGCAGGAGTTTTGATGTTGATTGCTTTTATGTGCTCGATTCGTTTATCTAGTTTAGATGCTTTAAGTGTAACAGCTATATGTATGCTTATATATGACCCTTATCTTGTTTTTAATATTGGATTTCAGTTTTCTTTTGTAGGTAGCTTCGCTTTACTTTTGTCTGCTCCGTTCTTATTAGGGAGTAGCAACGGAGTAATCCGAAATTCTATTTATATTTCTATCATTTCACAGCTCGTTAGTACTCCGATTTTGTTATATCACTTTGGTTATTTTTCTCCATATAGCATTTTCCTCAATCTCTTATACGTTCCGTTTTTATCTATCATTGTATTACCATGTAGCATTATTATTTTACTGTGTATGCCAATTGTCCCGTTTCTCGCAAAAGGATTTGCGAATGTATTATCAATAGGCTTGAGTATGTCTAATGATTTTCTAAGTTATTGTGAAAGTTTACCATTTACCCAGCTTGTTTTTGGGAAAACGCCCTTCAATCTTGTAGCTGTATATTGCGCGAGTATTGTCAGTATATTGATGGTTTGGGAAAGGAGAGCGCCGAAAAAAATGGTGTGTATAGTTGTGAGTGTATTTCTTTTTATTAGCACGTGTCATTATGTATATCCATATTTTAGAGGAAGCGGAAGTGTAACATTTATTGATGTTGGACAAGGTGATGCAATATTAATTCGCCTTCCGTATGATAAAGGGATTTATCTTATTGATACAGGTGGAACGCTTCGTGTTAATAAGGAAGAATGGCAACAAAAAAAGCATGAATTTTCTGTTGGAAATAATGTTTTAATACCCTATTTACAAAAAGAAGGTATTAAAACAATTGATAAATTAATCGTAACGCATGGAGATGCAGATCATATAGGTGCTGCGCAAGAATTATTATCATATATACCTGTAAAAGAAGTGGTATTTGGCCGAAAGGGAAAAGATGCAGTATTAGAAAAAGTAGTAAAGAAACAGGCATTAGAAAAGGAAATGAAAATAACTGAAGTGGGGGAAGGGGAGAGTTGGAGTGTAAATGAAGCTGAGTTTTTCGTTTTAGCTCCAAAAGGAAAAGAAAAAAGTGAAAATAATGCTTCAATTGTAATATGGGCAAAATTTGGAGGATTGACGTGGCTATTTACAGGCGATTTAGAAGAAGAAGGAGAGCAGTTTTTGGTATCTGCGTATCCAGATTTGCGAGTGGATGTTTTAAAAGTTGCTCATCATGGAAGTAATACGTCATCTATAGAGTCTTTTTTGAACGTTATACAGCCCCGTGTAGCGATTATATCTGTTGGTAAGCAGAATAGATATGGACACCCGCATAAAGAAGTAATAGAACGTTTGGAGAAGATGGGGAGTGCGATATGGCGCACGGACAAGCAAGGTGCTATTTCCTATGTTTTTAAAGGGGAAAATGGAACCTTTCAAAGTAAAATCACATATGATAAGTCATATAATAGGTGA	MQEQWGYVAISFIIGIAIAFSSSLLLIVFCLFLNIFFCLYRTSRKTFFFCIVACFSGAIYTSYVQGWNKSLGESYGVTRGVIQNTPLVNGDRLSFQFEDHNKNIVQLSYRIKSALEKEKMQQLYAGISCVFEGERKEPQTARNFHGFNYRDYLYKQHIHFTFEATYISECYKTSLSLMQWILLLRQQAISKVTEMFPEQSGAFMNALLFGDRQQMTFEVEEQYQQFGLIHLLAISGSHIVLLMGIVYFILLRSGATREVATICLIVCIPLYMVLAGASPSVIRASIAGVLMLIAFMCSIRLSSLDALSVTAICMLIYDPYLVFNIGFQFSFVGSFALLLSAPFLLGSSNGVIRNSIYISIISQLVSTPILLYHFGYFSPYSIFLNLLYVPFLSIIVLPCSIIILLCMPIVPFLAKGFANVLSIGLSMSNDFLSYCESLPFTQLVFGKTPFNLVAVYCASIVSILMVWERRAPKKMVCIVVSVFLFISTCHYVYPYFRGSGSVTFIDVGQGDAILIRLPYDKGIYLIDTGGTLRVNKEEWQQKKHEFSVGNNVLIPYLQKEGIKTIDKLIVTHGDADHIGAAQELLSYIPVKEVVFGRKGKDAVLEKVVKKQALEKEMKITEVGEGESWSVNEAEFFVLAPKGKEKSENNASIVIWAKFGGLTWLFTGDLEEEGEQFLVSAYPDLRVDVLKVAHHGSNTSSIESFLNVIQPRVAIISVGKQNRYGHPHKEVIERLEKMGSAIWRTDKQGAISYVFKGENGTFQSKITYDKSYNR	PGPT0029415_1526	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
AK009_04376	558	tadA_1		tRNA-specific adenosine deaminase	ATGGAACGAATTTCATGGGATCAATATTTTATGACGCAAAGCCATCTACTATCGTTACGTAGTACATGTACAAGGCTTGCGGTAGGAGCGACAATCGTTCGCGATAAACGAATTATTGCTGGTGGATATAATGGTTCGATTAAAGGTGGCGTACATTGTATAGATGATGGTTGTTACGTAATCGATAATCATTGTGTTCGGACAATTCATGCCGAAATGAATGCTTTATTACAATGTGCCAAGTTTGGTGCGAAAACAGAGGAAGCAGAAATTTACGTTACGCATTTCCCTTGTTTACAATGTTGTAAGGCAATTATTCAAAGTGGTATTACAGCGGTTTATTATGCGCAGGATTATAAAAATCATCCATACGCCATAGAGTTATTTGAACAAGCGAATGTAACAGTGAAGCACGTTCCGCTAGAATATGATATTGCTGCATTAGAGGAGCAAAAACGTTATACGGAGTTAAAAGAATTATTTGCGTCTTTAGAAAAAGATAATTTATCAATGGAAGAATTACAGCATGTATTCACGAAAGCAAAAATGATGCTATAA	MERISWDQYFMTQSHLLSLRSTCTRLAVGATIVRDKRIIAGGYNGSIKGGVHCIDDGCYVIDNHCVRTIHAEMNALLQCAKFGAKTEEAEIYVTHFPCLQCCKAIIQSGITAVYYAQDYKNHPYAIELFEQANVTVKHVPLEYDIAALEEQKRYTELKELFASLEKDNLSMEELQHVFTKAKMML	PGPT0021380_629	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
AK009_04377	600	comEA_1	COG1555	ComE operon protein 1	ATGATGTGGGATTTTCCGAAAAAGTGGTTAGGTTTAGTAGCTATTATTGGAACTTTACTTTTTCTTGTTTTTTGGAAAACGAATCAGAGTGTAGAACGAACGCCTATTACAATGAATGTGCAAGAGAAGGAGATAGAAAAAAAGGGTAAACCGAAAATATCGGATACAAAGGAACAGAAAAGAACAATTATAATTGATGTGAAAGGAGCGGTTAATAAAGAAGGGGTATATGAAATGAAGGAAGGAGATCGCGTAAAGGATGCGGTTCAAAAGGCTGGTGGTTTTTTATCAGAAGTAGATATCAAAAAAGTGAATTTAGCACAAATTGTACAAGATCAAATGCTTCTTTATATACCGAGTAAAAATGAGTCAGAACAAGGGATGTTTACTTCTTCTAAGGAAGATGGCAAGATTCGAATAAATACAGCAGCGAAGGAGCAATTGGAAAAGATTACAGGAATTGGCTCTCGAAAGGCAGAAAGTATTTTGAAATATCGAGAAGAACATGGTCCGTTTCAGAAAATAGAAGATTTATTAGAGATTGATGGGATTGGTGCGAAGTCTCTTGAAAAGATAAAAGATCAAATTATTATTCCGTAA	MMWDFPKKWLGLVAIIGTLLFLVFWKTNQSVERTPITMNVQEKEIEKKGKPKISDTKEQKRTIIIDVKGAVNKEGVYEMKEGDRVKDAVQKAGGFLSEVDIKKVNLAQIVQDQMLLYIPSKNESEQGMFTSSKEDGKIRINTAAKEQLEKITGIGSRKAESILKYREEHGPFQKIEDLLEIDGIGAKSLEKIKDQIIIP	PGPT0029410_1661	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
AK009_04378	828	proC_4		Pyrroline-5-carboxylate reductase	TTGAACATAGGAATTATAGGGACAGGAAACATGGGGAATATACTAATCGATGCATTTTTAGAAACCCGTGCTGTCAAACCTTCGTGCCTTACAATCATTAATCGGACGCCTGCCAAAGCATATCATATAAAAGAAAAATACCCTTCTGTTCATATAGCAAAAACAATCCCGGAAGTAATCGAACAATCACAACTTATTTTTATTTGCGTTAAGCCGATAGATATATACCCTATCCTAAAAAAATACGCTGAACATTTTTCTGATGAAACGTGCTTAGTTTCTATTACGAGTCCAATATCTCCATCACAATTAGAGACTCTCGTACCTTGTCACGTCGCGCGTATCATTCCAAGTATCACAAACCGCGCCCTCTCTGGCGCCTCACTATTTACATTTGGAGATAATTGCTCTGAAGAATGGCAACAAAAATTACTTCGTCTATTCAAAAACATTTCTACACCTCTTGTAATAGAAGAAGATATAACGCGCGTTTCATCTGATATAGCAAGTTGCGGTCCTGCTTTCTTTAGTTATTTACTACAATGCTTCATTAACGCTGCTGTAGATAAAACAAATATTACACACGAAGAGGCTACTACTTTAGTAAGTGAAATGGTCGTGGGGATGGGGAAATTACTTGAAAAAGAAATCTTCACATTACCTACCTTACAAGAAAAGGTTTGCGTGAAAGGCGGCGTTACTGGGGAAGGCATTCGGGTTTTAGAAGAACACGTTGGAGATATGTTCCATAAGTTAATCGAGCGAACACATGAAAAATTTGATGAAGATTTAGAATGCGTTGATCAGCAATTCAATAAACACACATAA	MNIGIIGTGNMGNILIDAFLETRAVKPSCLTIINRTPAKAYHIKEKYPSVHIAKTIPEVIEQSQLIFICVKPIDIYPILKKYAEHFSDETCLVSITSPISPSQLETLVPCHVARIIPSITNRALSGASLFTFGDNCSEEWQQKLLRLFKNISTPLVIEEDITRVSSDIASCGPAFFSYLLQCFINAAVDKTNITHEEATTLVSEMVVGMGKLLEKEIFTLPTLQEKVCVKGGVTGEGIRVLEEHVGDMFHKLIERTHEKFDEDLECVDQQFNKHT	PGPT0029420_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029420-comER-K02239	NA	NA
AK009_04379	750	COQ5_4		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAATACGAACAATTTGCATTGTTGTACGACGAACTAATGAATGATGTCCCTTATGATAAATGGGTGGAATTCACAGAGGAAAGCCTGCAGCAAGCAGATATGAAAGAGGCAAAAATTCTTGATGTAGCATGCGGTACGGGTAATGTAACCCTTCCGCTTGTGCAAAAGGGTTACGATTTAATAGGTGTCGATCTTTCAGAAGAAATGTTAACAGTCGCTCAGCAAAAACTGGGAGCAGAGGGATACTTTATTCCTTTTTATCAACAAGACATGCGAGAGCTTGATGTTCCAGGTGAGTTTGATTGTGTAACCATCTTTTGTGATTCATTAAATTATGTATTGCAAGAAGATGGAGTGCAAGAAACATTTAGAAGAGTATTTCACCATTTACGCCAAGATGGCTTGTTTTTATTTGATGTACATTCTTTATATAAAATACATCATGTATTTCAAAATGAAACGTATACAGTGAATGGAGAAGAAATATCTCTTATTTGGAATTGCTTCCCTGGTGAAGAATCAAATAGTGTAGAGCATGATTTAACATTCTTTGTTCAAGATCCAGAAGAAGATGTGTACCATCGGTTTGACGAATGTCACGTGCAACGTGCATATCAAGTGGAAGAGTTAACGAAATGGCTTGAAGAAGCAGGTTTTACAGTGCTTCGTGTAACAGGTGATTTTGAGCGACTTGAAGTTACAGAACAAACAGAGCGTATTTTCTTCATGGCGAAGAAAAACGGATAA	MKYEQFALLYDELMNDVPYDKWVEFTEESLQQADMKEAKILDVACGTGNVTLPLVQKGYDLIGVDLSEEMLTVAQQKLGAEGYFIPFYQQDMRELDVPGEFDCVTIFCDSLNYVLQEDGVQETFRRVFHHLRQDGLFLFDVHSLYKIHHVFQNETYTVNGEEISLIWNCFPGEESNSVEHDLTFFVQDPEEDVYHRFDECHVQRAYQVEELTKWLEEAGFTVLRVTGDFERLEVTEQTERIFFMAKKNG				NA	NA	NA	NA	NA
AK009_04380	357	rsfS_1	COG0799	Ribosomal silencing factor RsfS	ATGAACGATAAAGATTTATTAGTATTAGCGGCAAAAGCAGCTGATGATAAAAGAGCAGAAGATATGGTTGTCCTAAATATGCAAGGTATTTCACCAATTGCAGATTATTTCATTATTTGTCACGGTAATTCAGATAAACAAGTGCAAGCAATTGCACGTGAAATTAAATCAAAAGCACATGAGTTCCAAATCGACGTACAACGTATGGAAGGTTTTGACGAAGCACGTTGGGTATTAGTTGATCTTGGAGATGTAGTTGCTCATGTATTCCATAAAGATGAGCGTAATCACTATAATTTAGAGCGTCTATGGGGCGATGTGCCACGTGAAGATATTACAGAAGAGCTAGGCCAATGA	MNDKDLLVLAAKAADDKRAEDMVVLNMQGISPIADYFIICHGNSDKQVQAIAREIKSKAHEFQIDVQRMEGFDEARWVLVDLGDVVAHVFHKDERNHYNLERLWGDVPREDITEELGQ				NA	NA	NA	NA	NA
AK009_04381	570			hypothetical protein	ATGAATCGTGAGAATGCACTTCATATTGTTAAACAACAAATGCATGAAAAACGTTATACACACACAATTGGTGTAATGGAGACAGCGATTGAGCTGGCTAAGTTATACGGTGTGGACGAGAAAAAAGCAGAGATGGCAGCTATATTCCATGATTATGCGAAATGTAGAGCGATTTCAGAGATGGAAGAGATTATTAAACGTGAAGATTTGCCGAAAGATTTACTTTGCTATAATAAAGAGTTGTGGCATGCGCCTGTTGGGGCATACTTAGTAGAAAAAGAGGTAGGCATTACGGATTCTGAAATTTTGCAAGCTATTACATATCATACAAGTGGTCATGAGAACATGACAATGTTAGATAAAGTAATTTATGTAGCTGATTACATTGAGCCAGGGCGAAAGTTTCCAGGTGTGGAAGAGGCTCGTAAACTCGCATATACGGATATAAATCAAGCTTTATTATTTGCGTTAAAGAAAACAATTCAATTTTTAATGGAAAAAAATCAGACGATTTATCCATTAACATTCCAAACATACAATGCAGTTATCAAGGAGGAAATGAGTAAATGA	MNRENALHIVKQQMHEKRYTHTIGVMETAIELAKLYGVDEKKAEMAAIFHDYAKCRAISEMEEIIKREDLPKDLLCYNKELWHAPVGAYLVEKEVGITDSEILQAITYHTSGHENMTMLDKVIYVADYIEPGRKFPGVEEARKLAYTDINQALLFALKKTIQFLMEKNQTIYPLTFQTYNAVIKEEMSK	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
AK009_04382	570	nadD		putative nicotinate-nucleotide adenylyltransferase	TTGAGGAAAATTGGCATCATTGGCGGTACATTTGATCCGCCTCACTATGGACATTTGCTAATTGCAAATGAAGTATATCACGCTTTGGATTTGGAAGAAGTATGGTTCTTGCCAAACCAGATTCCGCCACATAAACAAGGACGTAATATTACAAGTATAGAAAGACGTTTACATATGTTAGAGCTCGCGACTGAGGCAGAAGAACACTTTTCTATTTGTTTAGAAGAGTTAAGCAGGAAGGGCCCATCTTATACGTATGACACTATGTTGCAATTGACGAAGAAGTATCCGGATGTGCAGTTTCACTTTATTATTGGTGGGGATATGGTTGAGTATTTACCGAAGTGGTATAACATTGAAGCTTTACTTAATCTTGTAACGTTTGTTGGAGTTGCGAGACCTGGGTACACATTGCATACGCCGTATCAGATTACTACAGTGGAAATTCCGGAATTTGCAGTTTCTTCATCCTTATTACGTGAGAGATATAAGGAGAAGAAAACGTGTAAATACTTACTTCCTGAAAAAGTACAGGTATATATCGAGAGGAATGGGTTGTATGAATCGTGA	MRKIGIIGGTFDPPHYGHLLIANEVYHALDLEEVWFLPNQIPPHKQGRNITSIERRLHMLELATEAEEHFSICLEELSRKGPSYTYDTMLQLTKKYPDVQFHFIIGGDMVEYLPKWYNIEALLNLVTFVGVARPGYTLHTPYQITTVEIPEFAVSSSLLRERYKEKKTCKYLLPEKVQVYIERNGLYES	PGPT0013435_4171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
AK009_04383	294		COG1534	RNA-binding protein	ATGTTAACAGGAAAACAAAAAAGATTTTTACGTGCACAAGCACATCATTTAACACCAATTTTTCAAGTAGGAAAAGGCGGAGTAAATGAAAATATGATTAAACAAATCGCAGATACTTTAGAAGCTCGTGAGTTATTTAAAGTAAGTGTATTACAAAACTGTGAATTTGATCGCCGTGAGGTTGCGGAAGAACTTGCAAAAGGTGCACGTGCTGAAATCGTTCAAGTAATTGGAAGCACAATCGTTTTATACAAAGAATCAAGAGAAAATAAACAAATTAAGCTTCCTCGATAA	MLTGKQKRFLRAQAHHLTPIFQVGKGGVNENMIKQIADTLEARELFKVSVLQNCEFDRREVAEELAKGARAEIVQVIGSTIVLYKESRENKQIKLPR				NA	NA	NA	NA	NA
AK009_04384	834	aroE	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAAACAATTATATGGTGTAATCGGAAATCCAATTGGACATTCATTATCACCCGTTATGCATAACAATGCATTTGAACACTTGAATATGAATGCCCATTATCATGCGTTTCTTGTTGAAGAGGAAGTGCTAGGGGAAGCAGTAAGAGGTTTAAAAGCATTAGGTATTTCAGGATTTAATGTAACAACTCCGCACAAGGTTGCTATTATGGAGTATTTGGATGAGATTGACCCATTGGCAAGGAAAATCGGTGCAGTAAATACAGTGGTTCATAAGAATGGAAGGTTAATTGGCTACAACACAGATGGGATTGGTTTTGTTCGAGCGTTGCAGTCAATTAGTCATGAACCACTTCAAGGGAAACGTATTTTGTTACTTGGTGCAGGTGGTGCTAGCCGAGCTATTTATTTTTCTCTTGCTGATGTAGGTGTAAAAGAGATTGATGTAGCCAATCGTACAGTAGATAAGGCGAAAGAACTTATTGCTGCACGTACGGCCGATGTTAATTCTGTTGCTTTGTCGTTAGAAAAAGCGACAGAAGAACAAGGGAATTATGATATTATCATTCAGACGACAACAATAGGTATGCATCCACACGTCGAACATACGCCATTACAAATTTGTTCGTTAAAAAAAGGAACGATTGTATCAGATATAATTTATAATCCATTTGAAACGAAAATTTTATGTGAGGCAAAAGAGCAAGGTGCAATCATTCAAAATGGTATTGATATGTTTGTGTATCAAGGAGCACTTGCATTTGAAATGTGGACAGGAAGTGTACCGAATATCGGGAGAATGAAACAATTAGTTATAGAAAAGCTTGGAGGCTAA	MKQLYGVIGNPIGHSLSPVMHNNAFEHLNMNAHYHAFLVEEEVLGEAVRGLKALGISGFNVTTPHKVAIMEYLDEIDPLARKIGAVNTVVHKNGRLIGYNTDGIGFVRALQSISHEPLQGKRILLLGAGGASRAIYFSLADVGVKEIDVANRTVDKAKELIAARTADVNSVALSLEKATEEQGNYDIIIQTTTIGMHPHVEHTPLQICSLKKGTIVSDIIYNPFETKILCEAKEQGAIIQNGIDMFVYQGALAFEMWTGSVPNIGRMKQLVIEKLGG	PGPT0012890_3234	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
AK009_04385	1107	yqeH	COG1161	putative protein YqeH	TTGACTGAAACAATTAAATGTATTGGTTGCGGTGTAGAAATTCAAACAGAAAATAAAAACGAAGTGGGGTATGCTCCTACCTCATCTTTAGAGAAAGAACAAGTTATTTGTCAACGTTGTTTTCGCTTGAAGCATTACAATGAAATTCAAGATGTATCGTTAACAGATGATGATTTCCTACGCATTTTAAATGGAATTGGAAAATCAGATGCATTAGTAGTCAAAATTGTAGATATTTTTGATTTTAATGGTAGCTGGTTACCTGGTTTACATCGTTTCGTAGGAAATAATAAAGTATTACTTGTTGGAAATAAAGCTGATTTAATTCCAAAGTCAGTAAAACATGATAAAGTAAAGCATTGGATGCGCTATAGTGCAAAGCAACTAGGATTAAAACCAGAAGATGTCTTTTTAATTAGTGCAGCGAAGGGACAAGGAATTGCTGAACTAGCAGATGCTATTGAGTATTATCGCGGCGGCAAAGATGTTTACGTTGTTGGATGTACGAATGTAGGGAAATCGACATTTATTAATCGTATGATTAAAGAATTTAGTGATGAGACTGAAAATGTAATTACAACATCTCATTTCCCAGGAACAACACTTGATTTAATTGATATTCCATTAGACGAAGAATCTTCTTTATATGATACGCCAGGTATTATTAACCACCACCAAATGGCTCATTATGTTGGAAAGCAAAGCTTAAAGCTTATTACACCAACAAAAGAAATTAAGCCGATGGTATTCCAATTAAACGAAGAACAAACGTTATTCTTTAGTGGATTGGCACGTTTTGATTATGTAAGTGGTGGTCGTCGTGCGTTTACTTGTCACTTCTCGAATCGCTTAACAATTCATCGTACAAAGCTTGAGAAAGCAGATGAATTATATAAAAATCATGCTGGGGATTTACTAAGCCCACCAACGCCAGAAGAATTAGCAAATATGCCTGAGCTAGTGAAATACGAATTTAATATTCGTGAACCTAAAACGGATGTTGTATTCTCTGGATTAGGATGGGTTACTGTGAACGAACCAGGAGCAAAAATTGTTGCACACGTACCAAAAGGAGTAAGTGTTTCACTACGTAAATCTTTAATTTAA	MTETIKCIGCGVEIQTENKNEVGYAPTSSLEKEQVICQRCFRLKHYNEIQDVSLTDDDFLRILNGIGKSDALVVKIVDIFDFNGSWLPGLHRFVGNNKVLLVGNKADLIPKSVKHDKVKHWMRYSAKQLGLKPEDVFLISAAKGQGIAELADAIEYYRGGKDVYVVGCTNVGKSTFINRMIKEFSDETENVITTSHFPGTTLDLIDIPLDEESSLYDTPGIINHHQMAHYVGKQSLKLITPTKEIKPMVFQLNEEQTLFFSGLARFDYVSGGRRAFTCHFSNRLTIHRTKLEKADELYKNHAGDLLSPPTPEELANMPELVKYEFNIREPKTDVVFSGLGWVTVNEPGAKIVAHVPKGVSVSLRKSLI				NA	NA	NA	NA	NA
AK009_04386	513			hypothetical protein	TTGAAACTATTTTTACCAAATGAATATGTGAAAAATGTATATCATGTTCAACCAGAAGATTTAAAAAAACGTGGGATTAAAGGTGTTATTACTGATTTAGATAACACTTTAATTGAATGGGATCGTCCAAATGCAACCCCGCAACTTGAAAAATGGTTCTTGAAAATGAAAGAGCACGGCATCCAAGTAACGGTTGTTTCAAATAATAATGAGCAACGTGTAAAAGATTTTGCTGACCCATTAGGCATTCCATTTATTCATAGTGCACGTAAACCATTTGTTCGAGCGTTTAAGCGTGCGATACAAGAGATGCGTTTACAGGCAGAGGAAGTTGTGGTAATTGGAGATCAGTTACTGACTGACGTGCTTGGTGGAAACCGAGTAGGGCTTCATACAATTTTAGTTGTACCGGTAGCACAAACGGACGGATTAGTGACGCGCTTTAATCGAAAAATTGAACGCAGAATTATGAAAAATATGAAGAAAAAAGGTTTAATTAACTGGGAGGAATAA	MKLFLPNEYVKNVYHVQPEDLKKRGIKGVITDLDNTLIEWDRPNATPQLEKWFLKMKEHGIQVTVVSNNNEQRVKDFADPLGIPFIHSARKPFVRAFKRAIQEMRLQAEEVVVIGDQLLTDVLGGNRVGLHTILVVPVAQTDGLVTRFNRKIERRIMKNMKKKGLINWEE				NA	NA	NA	NA	NA
AK009_04387	156			hypothetical protein	TTGAAAACAAAACATATGGAACAGTTATCCACTGAGTTACTCACTGAGTCTTATTATAAAGCAAAAGAACTAAAATTAAATCCCGACTTCATTTTACTTATAAAACAAGAAATCATTAGACGCTCATTAGAGGACAAGCTTGTCAAATCTTCTTGA	MKTKHMEQLSTELLTESYYKAKELKLNPDFILLIKQEIIRRSLEDKLVKSS				NA	NA	NA	NA	NA
AK009_04388	789	psd	COG0688	Phosphatidylserine decarboxylase proenzyme	TTGCGACGTACATTATATCGACTTATGATAGAACTTACAAATGGTCGCTTTACTTCTTATATATTACGTAAATTTGCACAATCTCGTTTGAGCTCTATCATTATTCCATCGTATGCGAAAGTTTTTCAAATTAATCAAGATGAGATGGAAAAGGGCTTGAAGGAATATAGAACATTGCATGAATTATTTACGCGTAAGCTAAAAGAAGGAAAGCGTAGTATTGATACAGATGCATCGAGTATCGTTAGTCCTGTTGATGGTGTTTTTGCAGATCATGGTCCTATTGAGGATACAAAAACATTTGATATTAAAGGAAAGCGCTATTCAATTGTGGATATGCTAGGTAATGAAGAACGTGCAACGCGATATGCAGGCGGTACATATATGGTAATTTATTTGAGTCCAAGTCACTATCATCGCATTCATAGTCCGCTTTCTGGTTCTGTGACTGAAAGATTTGTACTCGGTAGAAAATCATATCCGGTAAATGCAGCTGGTATGGAATACGGGAAAGAACCGCTGTCAAAAAATTATCGTTCTGTTACAGAAATAAGCAGTGATGGTGAGCATATGGCTCTTGTAAAAGTAGGTGCCATGTTTGTTAATAGTATCGAGCTTTTGCATGAGAGAGATACTGTTCAAAAAGGTGAAGAAATGGCATACTTTACATTTGGTTCAACAGTTGTGTTATTGTTTGAAAAAGATATGATAGAAGTAGTGCAGGAATTAAAGAGTGGACAAGAGCTTCGTCTTGGTGAAAAAATAGCTACTCGATTAGCTCATAAATAA	MRRTLYRLMIELTNGRFTSYILRKFAQSRLSSIIIPSYAKVFQINQDEMEKGLKEYRTLHELFTRKLKEGKRSIDTDASSIVSPVDGVFADHGPIEDTKTFDIKGKRYSIVDMLGNEERATRYAGGTYMVIYLSPSHYHRIHSPLSGSVTERFVLGRKSYPVNAAGMEYGKEPLSKNYRSVTEISSDGEHMALVKVGAMFVNSIELLHERDTVQKGEEMAYFTFGSTVVLLFEKDMIEVVQELKSGQELRLGEKIATRLAHK	PGPT0007700_3089	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
AK009_04389	714	sigK		RNA polymerase sigma-28 factor	TTGAGTCTATTCGCCGCAATTGGATATATGGTTCGAGAAGTGTTTGTCTTTGTTTCTTATGTAAAGAATAATGCGTTCCCGCAGCCGTTATCATCAGATGATGAGAGAAAGTACTTAGAGTTAATGGAGCAAGGTGATGCTCAAGCGAGAAATCTTTTGATTGAACATAATTTACGGCTTGTAGCTCATATCGTTAAAAAATTTGAGAACACAGGAGAAGATGCAGAAGATTTAATTTCAATTGGTACGATCGGGCTCATTAAAGCGATCGAGAGCTATTCTGCAGGAAAGGGAACAAAGCTTGCGACGTATGCAGCACGCTGTATTGAAAATGAAATTTTGATGCATTTACGTGTACTAAAGAAAACGAAAAAAGATGTTTCACTTCATGATCCGATTGGGCAAGATAAAGAGGGCAATGAAATATCGCTTATTGATATATTAAAATCAGAGTCTGAAGATGTAATTGATATGATTCAGCTTAGTATGGAGTTAGAAAAAATTAAAGAGTATATCGATATTTTAGACGAAAGAGAAAAAGAAGTGATTGTGAAACGTTTTGGACTTGGGCTAGATAAGGAGAAAACACAGCGGGAAATCGCTAAGGCGCTTGGTATTTCTAGAAGCTACGTATCAAGGATTGAAAAGCGTGCTTTAATGAAGATGTTCCACGAGTTTGTAAGGGCAGAGAAAGAGAAAAAAGCGAAAGAGTAA	MSLFAAIGYMVREVFVFVSYVKNNAFPQPLSSDDERKYLELMEQGDAQARNLLIEHNLRLVAHIVKKFENTGEDAEDLISIGTIGLIKAIESYSAGKGTKLATYAARCIENEILMHLRVLKKTKKDVSLHDPIGQDKEGNEISLIDILKSESEDVIDMIQLSMELEKIKEYIDILDEREKEVIVKRFGLGLDKEKTQREIAKALGISRSYVSRIEKRALMKMFHEFVRAEKEKKAKE	PGPT0014795_1198	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
AK009_04390	924			hypothetical protein	ATGAATATGCTATTAAAGGGGACACTATTCATGATTACATTAGATCGATTATTAAATGTAACAATTTATTTAGGGGGATTTTTACTTTTCATTTCGTTCATTACTTTTGTTATTAAAAGAGGGCCTGATTTATTATTTTTTCAATTTGGAATTTCTTTATTTTTTGGAGCTCAAATTATAACTGGAATGAAATTTTTTCATAACTATGGTTTTTCCTTTCACTCAAAACTAGAACTACTTATCTTTATTCTCTATGTAATTGGAATTATTACATGTATACTATTTTTCTTTCACTTTCAAAATCCGTATCGAATTTTTTTATTAATTTGTAGTTGTTTATTTTTGACTGGATCCAATTATTACTTTAAAGAAACATTAAAGTTTAATAAAAAATTTCCAAAGCAACATAAAACCTTTTTAAATACACAAGAAGAAGACTCTTTTCCAAAAGAAGTTCGTAAATTTTCAGAAGACTACAATACTATAATAAAAAATGAGTTTTATGAAATACCCATGATTCCTACTGAATTACATATTACAAGCAAAACAGATTCTTCCCGTAGTACATCTTTCTTAGTTGAACTTCAAACTAACGAGAATGAAATTACCGATGACTCTGTACAATTAACTCAATCAGACCGTTTTTATGTAGTGTTAAATACACCAAAAACAAAAATAGCAAGGATAGTATATGAAGGGCAGAATTTTTTCACATTTACAGTCACACTAAAGGCTCTTAATTTACAGCAAGAACCGGAAATTCATAATATGTTTTTAGAAATAGATAAACGTAGAGCAATGAATCTTCTTAATTTTGAAATTAAAGCCCATACTAAAGAATGGAAAGTAACATTTAAAAACGATAGTTCTCATTCCGATCTTCCTATCACATTTACTTTTGAAAAACGAACAGGCAAATTATAA	MNMLLKGTLFMITLDRLLNVTIYLGGFLLFISFITFVIKRGPDLLFFQFGISLFFGAQIITGMKFFHNYGFSFHSKLELLIFILYVIGIITCILFFFHFQNPYRIFLLICSCLFLTGSNYYFKETLKFNKKFPKQHKTFLNTQEEDSFPKEVRKFSEDYNTIIKNEFYEIPMIPTELHITSKTDSSRSTSFLVELQTNENEITDDSVQLTQSDRFYVVLNTPKTKIARIVYEGQNFFTFTVTLKALNLQQEPEIHNMFLEIDKRRAMNLLNFEIKAHTKEWKVTFKNDSSHSDLPITFTFEKRTGKL				NA	NA	NA	NA	NA
AK009_04391	1494			hypothetical protein	ATGGTGAATCAAAAAGATAAAGAAAGAAAAGAGCACGTAGCTCATATTATTGAAATTCCAGATGAATATAGGCTTGTTGTAGATGATCAAGAAGGGGTTGATGACCCGTATCATCTATTATGGTGGGGACATAAAGATGATGAGGAGAAACAGATACAAATTACATTAAATAGACATACTGGTAATTTAATTGAATTTAGGATAGATGATGGAAATTCTTTTTCGAGTGATAAGGGAGCGATAGAGGAGAATAAAGCAAGAGAGGTTGCAAATACATTCTTAAAAAAATATACAAAAGAAGGATATGAATTCTATACATATGTAACGGTTAAGGACGACAGGCGCGGTTGGAAAGAAGTAAATTATATGCAAGAAGTGAATAGCTATCCATTGCCGAATACTGGGTGTGTTGTGCGAGTGCACCCTTCAGGTAATGTTGTGCATTTTCATTACAATGGACAAAAAGCCATAGAGAAAAAAACGTTATGGCCAAGTGAAATTGTTGGGGAGAATATCGTTTTAGAAAATTTGAAAGCTAGACAAGATATGAGACTTGTATTTGTAGATTTAACATACTCTTCATGTGAGTATGAAAACGGGGAAGAAGTAAAAGGGTACCATCTTGTATATGAACCAGAGCCTAGTCATGCGTTTATTGATGCAAGTACAGGTAAAGATTTATATGGGCCAGAACACTATAAATTACCTTCTACAGTACTTGTTGATAAACCGCTAAAGAGTAGTCAAAAAAAAGATGTGTTTGATTTATTTGATTGGGACAAGGGGAAGTTTGTCAAAATAGATGAAAAAGTAGATGAGGATGAAGTCCGGATAAAATTTGTATTAAAAGAAGAATTACAAAAAGAAATAGAAGAGAAGGATTCATATTCAATGGATGAGTTTTATAAAAAACATTTTCCAATGTTGAAACATAATGAATTCGTTGTAATTACTCTAGATAAAGAAACAAATCAATTGCTTTCTTTTTTTATGTGGAAGGATGAGAAAAAAAGGAAAACAATCTTATCAAGAGAGCAATGTTTAAGCAAGGCACTTCAATTTTTAGAGCATATTATCCGAGATGCGACAAAGTATGTTCAACTTTGGGATAATTATGAGGAGGAAGAGGGGATAGAGAGGTTTTCCTTTTCAATCTATGTAAATGACATTCACGTAGAGCGGAAATATATTATGATCAACATCAATGCAGAAAATGGAGCTGTGATGCACTACTCTGGAGAGTCTGGCAACTTTATAAAAGAATTACTTACATATGAAACAACACCAAAAGTAACAAAAGAAAAAGCGTTAGAAATATACAGAGAGGCTATCCGAGTTAAATTAGAATGGTTTTTAGATCATGATGCAGAGGAAACCCAGTACAAACTACTGTACAAACAAACGACAGATGAAAAACATAAAGAACCTTTTGATTGTAGTCGGGAAATTCGTTATATTGATGCTCAAACTGGGAGAAAGATTTGGAGTAAGTAA	MVNQKDKERKEHVAHIIEIPDEYRLVVDDQEGVDDPYHLLWWGHKDDEEKQIQITLNRHTGNLIEFRIDDGNSFSSDKGAIEENKAREVANTFLKKYTKEGYEFYTYVTVKDDRRGWKEVNYMQEVNSYPLPNTGCVVRVHPSGNVVHFHYNGQKAIEKKTLWPSEIVGENIVLENLKARQDMRLVFVDLTYSSCEYENGEEVKGYHLVYEPEPSHAFIDASTGKDLYGPEHYKLPSTVLVDKPLKSSQKKDVFDLFDWDKGKFVKIDEKVDEDEVRIKFVLKEELQKEIEEKDSYSMDEFYKKHFPMLKHNEFVVITLDKETNQLLSFFMWKDEKKRKTILSREQCLSKALQFLEHIIRDATKYVQLWDNYEEEEGIERFSFSIYVNDIHVERKYIMININAENGAVMHYSGESGNFIKELLTYETTPKVTKEKALEIYREAIRVKLEWFLDHDAEETQYKLLYKQTTDEKHKEPFDCSREIRYIDAQTGRKIWSK				NA	NA	NA	NA	NA
AK009_04392	150	rpmG2		50S ribosomal protein L33 2	ATGCGTGTAAATATTACATTAGCTTGTACGGAGTGCGGTGATCGTAATTATATTTCTAAAAAAAATAAACGAAACAATCCAGAACGTATCGAATTAAAAAAATATTGTCCACGATTAAAGCGAGTAACGTTACATCGTGAGACGAAGTAG	MRVNITLACTECGDRNYISKKNKRNNPERIELKKYCPRLKRVTLHRETK				NA	NA	NA	NA	NA
AK009_04393	627	mhqN	COG0778	Putative NAD(P)H nitroreductase MhqN	ATGGTGAACTTTGAAGAATTAGCAATTGCTAGACGTTCTGCAATGAAATTTATACAAGGTATAGAAATCCCTGATGAGGATTTTAAAAAAATATTTGAGTTAACTAAGCTTTCTCCATCTTGCTATAATTTGCAGCACACACATTATGTTGTAATTCGTGATCAAGAGCGAAAAGAAAGATTAAAAGAATTAGCGTTCGGTCAATATAAAGTATCGAGTGCATCAGCGGTAGTGCTCGTTTGTGGTGATAAAAGAGCATACCAAAATGTTGAAAATATTTACTTCGGTATGAAAGTTTTAAAAATGATTGATGAATGCGAATATGAAGATACCATTAGGCAAACGAAAGGTTTATATGAAGGAAAAGGAGAGCGTTTCATGGAGGATGAAGCGATTAGAAATGCTTCGTTAAGTGCGATGACTTTTATGTACGCAGCTAAATATTATGGCTATGATACATGTCCAATGATTGGTTTCGATGAAAAAGCAGTACAAAGTGAATTAAATATGCCAGAGCATGTAATACCTGTTTTAATGATTACGATAGGGAAAAGTGATACGACTAAAGTTCGTCCAAGAGGATATCGAAAGCCAATTAGTGAGTTTGTTACATACGAATCGTTTTAA	MVNFEELAIARRSAMKFIQGIEIPDEDFKKIFELTKLSPSCYNLQHTHYVVIRDQERKERLKELAFGQYKVSSASAVVLVCGDKRAYQNVENIYFGMKVLKMIDECEYEDTIRQTKGLYEGKGERFMEDEAIRNASLSAMTFMYAAKYYGYDTCPMIGFDEKAVQSELNMPEHVIPVLMITIGKSDTTKVRPRGYRKPISEFVTYESF	PGPT0028520_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028520-mhqN-K15976	NA	NA
AK009_04394	651	ywaC	COG2357	GTP pyrophosphokinase YwaC	ATGGAATATAATCAATCAACAGTTAACTACTGGAAAGCTTTTGTATTACCATATACATTTGCTTTAGAAGAGTTAAAAACTAAATTTGAAATTATGAACCGGGAAGCTCAATTCCTAGAGGATTACAACCCGTTTGAACATATAAAAACAAGACTAAAACAACCTGAAAGTATTATTAAAAAGCTAGAACGCAAAAGCTTATTACCAACAGTTGAAAACGCTCAAACACATTTACAAGATATTATTGGTATTCGTATTACATGTTGCTTCGTAGAAGATATTTATCATTTGAAAGAAGTCATTCAAAAACGCGAAGATATGGAAGTCATTGAAGTAAAAGATTATATCGCTAACCCAAAACGAAACGGATATAAAAGTTTACACATGATTATTAAATATCCTTTATCACTAAATTCTGGTACAAAAGATGTATTTGCAGAAATTCAGTTACGTACACTGGCAATGGACTTTTGGGCAAGTTTAGAACACAAACTTTATTATAAATATGAAGGGAAAATACCGGAGTATTTAAAAGATGAACTACATGATGCAGCAATGAAAGCTGAAGATCTTGATAATAAAATGGCCACAATTCGTCAAGATATTGATGATATTGAGGCATGCTCAAATCAAATTATGCTACCACTATAA	MEYNQSTVNYWKAFVLPYTFALEELKTKFEIMNREAQFLEDYNPFEHIKTRLKQPESIIKKLERKSLLPTVENAQTHLQDIIGIRITCCFVEDIYHLKEVIQKREDMEVIEVKDYIANPKRNGYKSLHMIIKYPLSLNSGTKDVFAEIQLRTLAMDFWASLEHKLYYKYEGKIPEYLKDELHDAAMKAEDLDNKMATIRQDIDDIEACSNQIMLPL	PGPT0014825_1247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK009_04395	468			hypothetical protein	ATGAAAAAATTATTTAGGGAATTAAGATTCCTTCTAGTATTTGTAGTATTACTAGTTGGATGTCAACAAGAAGAGAATAACGTAGAACAAAAATCTATTATTAAAAAAACTGAGGAAAAGGTACAAATAACAAAAGAAGAAGAGAGATCTATTCAAGATGTTATGAATACATTTGTGCGAACGACGAATGAAAAAAATCTTGCAGAACATATGGAGTTATTTTCAAAGAAGATGCCTAGTGCTGAAGACTTAAAAACACAAAAAGAAGCCGCATTTCAAAAGGGAAATAAGAAAATTGAATTGGAACATATAGATATGAAAGCTAGTAAAGTAGGGTATGTTATTGTTGAAACGAAAGAAAAGGAAGTAGATGACAGTATCACTCTTCAAAAGAAAGTACAGTATGCTCTTGGAAAAGAAGATGATAAATGGAAGATTGAAGAGGTTCGAACAATAGAGAAAAAATAA	MKKLFRELRFLLVFVVLLVGCQQEENNVEQKSIIKKTEEKVQITKEEERSIQDVMNTFVRTTNEKNLAEHMELFSKKMPSAEDLKTQKEAAFQKGNKKIELEHIDMKASKVGYVIVETKEKEVDDSITLQKKVQYALGKEDDKWKIEEVRTIEKK				NA	NA	NA	NA	NA
AK009_04396	1386	phoB_2	COG1785	Alkaline phosphatase 3	GTGAAAAAGTTTGTGAAAAAAGCATGGCCATTTGCAGTTGTGGCATCATTAGCAGTTACTTCGGTAGCAACATGGAATTTTACTCGTTCTAGTGAGGTTAATGCAGATGAGAACGGAAGCAATGCAAAGATTAAAAATGTTATCGTATTAATTGGGGATGGTATGGGCCCTTCATATATGACGGCTCACCGGTATATGAAAGATAATCCAAAAACTTTTGAAATGGAATCTACAGAATTTGATAAGCATCTTGTAGGAACACAAAAAACATACCCAGAAGATGAACATGAAAATATTACAGACTCTGCATCAGCAGCAACAGCTATGTCAGCAGGGATTAAAACATATAATGCTGCAATTGCAGTTGATAATGATAAAGCGGAAGTGAAAACGGTTCTTGAGCAAGCGAAAGAAAAAGGGAAATCAACGGGACTTGTTGCAACTTCTGAAATTACACATGCAACACCAGCTGCTTTCGGTGCGCATGACATTAGCCGTAAAAATATGGACGCAATTGCAAATGATTATTTTGATGAGAAAATTAAAGGGAAGCATAAAGTAGATGTTATGCTTGGCGGCGGCGTAAAGAACTTTGTTAGAAAAGATCGTAATCTTACAGAAGAGTTTAAGAAATCTGGTTATAGCTATGTAACGGATCGAGATCAATTGTTAAATGATAAAAATGATCAAATTCTTGGTTTATTTGCACCAGGTGGATTAGATAAAATGATTGACCGTAATGATAAAACACCTTCATTAGAAGAAATGACTAATGCAGCAATTGAGCGTTTGAACAAAAATAAAAATGGTTTCTTCTTAATGGTGGAAGGAAGTCAAATCGACTGGGCTGGACATGATAATGATATCGTTGGTGCAATGAGTGAAATGGAAGACTTCGAAAAAGCTTTCAAAGCAGCGATTGAGTTTGCGAAAAAAGATAAAAATACGTTAGTTGTTGCAACGGCAGACCACGCTACAGGTGGATTATCTTTAGGTGCCAATGGCGAGTATAACTTTAAAGTAGATCCAATTAAAGCTGCAAAACGCACACCAGACTTTATGGCAAATGAGATTGCAAAAGGTGCAAATGTAGAAGAAACATTAAAAAAATATATTGATTTACAATTAACTCCAGAAGAAATTCAAGCTGTAAATGATATAGCTCCGTCAAAAGATGTAACAAAGATTGATAATGCAATTGAAGATATTTTCAATAAACGCTCGGTTACAGGCTGGACAACAGGCGGGCATACAGGGGAAGATGTAAACGTGTATGCATTTGGTCCAGGTAAATACTTATTCTCTGGCGTTCAAGAGAATACAAATATAGCGAAACGTGTCTTTGATATTGTTGGCGGCGGCGATCCGAATAAAGGAAGACGATAA	MKKFVKKAWPFAVVASLAVTSVATWNFTRSSEVNADENGSNAKIKNVIVLIGDGMGPSYMTAHRYMKDNPKTFEMESTEFDKHLVGTQKTYPEDEHENITDSASAATAMSAGIKTYNAAIAVDNDKAEVKTVLEQAKEKGKSTGLVATSEITHATPAAFGAHDISRKNMDAIANDYFDEKIKGKHKVDVMLGGGVKNFVRKDRNLTEEFKKSGYSYVTDRDQLLNDKNDQILGLFAPGGLDKMIDRNDKTPSLEEMTNAAIERLNKNKNGFFLMVEGSQIDWAGHDNDIVGAMSEMEDFEKAFKAAIEFAKKDKNTLVVATADHATGGLSLGANGEYNFKVDPIKAAKRTPDFMANEIAKGANVEETLKKYIDLQLTPEEIQAVNDIAPSKDVTKIDNAIEDIFNKRSVTGWTTGGHTGEDVNVYAFGPGKYLFSGVQENTNIAKRVFDIVGGGDPNKGRR	PGPT0002570_3012	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
AK009_04397	834			hypothetical protein	ATGAAAATAGTAAAGCTAAATGAATCTTTTATTTTTGAATTACTTAATCTTTGCAAATCTGTTGGATGGTTACACGATGAAATTTTTATGAAAAAACAATTCGAAATGTATCTTTCTATCGGCACACTTGTAGGTTACATTCATGAAAACAAACTCATTGCGACTGGAGGAGTATTTCCCTTTACAAGTAACTTCACTTCCATTGGTATGTTAATCGTTCACCCTAATTTTCAAGGACGCGGAATCGGGCGCATGTTGCTAAATCATTGCTTGGAACAAATTCATCCAAAACAACCCATTGCACTTATTGCGACAAAAGCTGGCGAACCTCTATACACATCATGCGGATTTCAAACAGCAACAACGATTCATCGTTTTGAAAAGCAAACTATTAAGACGTACCCTTCTCACTTACAACAAGTACAAGAAGAAGACCTTATATCTCTTACTTCTCTCGATCAAATTGCAACTGGTATGAATCGTTCTCTACTTTACTCTTTGCTATTACCAAGGGCCGTACACTCTTTTAAAATTGAAAGAAATAACTGTATAGAAGCTTTTTCATTATGCATACGAAAGGGCAATATATTATGTATCAATCCACTTATCGCCAAGCAAGAAGAAGATTCTATTCAATTATTAAAAAAGATATGTGAATGTTGGAATGGTATAGTACGAATTGATGTCCCACACTCACAATTTACATTTCGTCAATTTCTTCAAACAGAAAATTTCCAAGAAACGCTCCTTTCACCTCTTATGATAAAAAATGGTAGCCAACTTCCTGGAAATCGTAATATGCTATTTGCTATGATAGATACAGCGTTATGTTAG	MKIVKLNESFIFELLNLCKSVGWLHDEIFMKKQFEMYLSIGTLVGYIHENKLIATGGVFPFTSNFTSIGMLIVHPNFQGRGIGRMLLNHCLEQIHPKQPIALIATKAGEPLYTSCGFQTATTIHRFEKQTIKTYPSHLQQVQEEDLISLTSLDQIATGMNRSLLYSLLLPRAVHSFKIERNNCIEAFSLCIRKGNILCINPLIAKQEEDSIQLLKKICECWNGIVRIDVPHSQFTFRQFLQTENFQETLLSPLMIKNGSQLPGNRNMLFAMIDTALC				NA	NA	NA	NA	NA
AK009_04398	885	menH_4		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	TTGAAGCGATTTAGCTATTTTATGGTAGGTTGTCTTACTCTTACACTATTAGTAGGATGTAGTGCAGCAGAAAAGCCAGTAGAACAAGTAAAGCAAGTTAAAAATACAATTACAGCGAAACTAGCTACCGAGGAAAAAATGGTAGAAATAGATGGTCAAACCATTTACTTTAAAAAGATTGGTAATGAAAAACCACCTTTACTTATGATTCATGGCTTTGGAGGGTCATCAGATGGTTTTCAAAAGATCTACTCCGATTTAGCAAAAGATCATACAATTATTTCTGTAGATGCTTTGGGATTCGGGCGCTCATCTAAGCCAATGGATTTTTATTATTCTTTTCCAACTCATGCAAATTTGTATTATAAATTAATGAAAAAACTAGGATATGATTCATTCGCAATACTGGGGCATTCCATGGGGGGAGAAATTTCTCTAAATTTAACATATTTATATCCTGAAGCAGTTACTCACCTTATTTTAACTGATGCTACAGGTGGCCCTCATACATTCGTTAATAAACAAGGCTCACCAAAACCACAATTGTCGACTGATTTAAATGCCGTTTCTTCTATTACAGATTATGATGAGAGCAAAGTGAAATTCAAACGTAATGATGAAGAACATTATAACAAAATGAAACTATGGCCTAGACGTCTTAAAATTAATGCGAATGAAATGAAACAGCCAACTTTAATTATATGGGGCAGAAATGATAGTAGCGTTTCTTGGAAAGAAGGAGAAACGTATCATCAATTCTTAAAAAATAGCACTTTACATATTATTGAAAAAGGTTATCATGCACCATTTCGCCAAGAACCACAAGAATTTGTCGGGTATGTACAAGACTTCTTTAAGAACAATCCGATCAAAATTGAAAAATAA	MKRFSYFMVGCLTLTLLVGCSAAEKPVEQVKQVKNTITAKLATEEKMVEIDGQTIYFKKIGNEKPPLLMIHGFGGSSDGFQKIYSDLAKDHTIISVDALGFGRSSKPMDFYYSFPTHANLYYKLMKKLGYDSFAILGHSMGGEISLNLTYLYPEAVTHLILTDATGGPHTFVNKQGSPKPQLSTDLNAVSSITDYDESKVKFKRNDEEHYNKMKLWPRRLKINANEMKQPTLIIWGRNDSSVSWKEGETYHQFLKNSTLHIIEKGYHAPFRQEPQEFVGYVQDFFKNNPIKIEK				NA	NA	NA	NA	NA
AK009_04399	501			hypothetical protein	ATGGTTATTCAATTTTTAAGAGAAAACAAAGCAGTTTCTTTTGCATTAGCAGTAATTCGAGTATATCTTGGTTACACATGGTTAATGGCTGGAATCGGTAAACTACAAGGAAAAGGATTCGATGCAACAGGTTATTTGCAAGGCGCAATTGAAAAATCTAAAGGCGCACAACCGGCTGTTCAATCTTGGTGGGCATCATTCTTACAAGAGTTTGCAATTCCAAATGTAGATTTGTTTAATACGCTTGTAACATGGGGAGAAATTTTAGTCGGAATTGGTTTAATTGTAGGCTGTTTAACAAAAACAGCGGTCTTTTTTGGTCTTGTAATGAACTTTTCCTATATGTTTAGTGGGTCAATTGGTGTGAATCCTGAGATGGTTATCTTATCTATGTTTGTTCTTGTTGCCGGTATGAACGCTGGGAAATTTGGAATGGATGGCTTCGTTATCCCGAAAGTATTAGGATCAAAAACTCAAAAACGCCAAAAGCAAGCTGCTTAA	MVIQFLRENKAVSFALAVIRVYLGYTWLMAGIGKLQGKGFDATGYLQGAIEKSKGAQPAVQSWWASFLQEFAIPNVDLFNTLVTWGEILVGIGLIVGCLTKTAVFFGLVMNFSYMFSGSIGVNPEMVILSMFVLVAGMNAGKFGMDGFVIPKVLGSKTQKRQKQAA				NA	NA	NA	NA	NA
AK009_04400	537			hypothetical protein	ATGTTGAATATTGCATTAGTAATTGGTTTTAATTCGGATTTAGAGGCGCAATCAATCCGAGCATCTCTTGAATATTTTGGTGCAAGGGTTGTGACATATTGGATTGGTAGACCGAAAGATTTTGTGGAAGTTCTTTCTGGAAAGAACTTATTTAACAATATTAATTATATTATTTTTTGCTTTCATGGTGAAGAAGGGAAGTTTGTCATGGAAGAGTTAGGCGAAGAAGTATATGAACAAGATGAACCGAGAGGGTATTTTGGTGCAGCAGAAATTTATAAATATGCAAAATTGCATAATACACATATTGTAAATAGTGGGTGCACGTTAGGGGAGCAAAATCTAGCAAAATCTTTTTTACATAGTGGTGCGAAATCATATATTGGATCGATTAATTATGTAGATGGAAATGCAGCACTTATGTTTACTATACGCTTATTTTATGGGGTTATTAACCATGGGAAAACGTTAGAAGAAGCGTTTCAAGAATCGAGTTTAATTGATGAGGAGACACATACATTTCGATTCTATAATTAG	MLNIALVIGFNSDLEAQSIRASLEYFGARVVTYWIGRPKDFVEVLSGKNLFNNINYIIFCFHGEEGKFVMEELGEEVYEQDEPRGYFGAAEIYKYAKLHNTHIVNSGCTLGEQNLAKSFLHSGAKSYIGSINYVDGNAALMFTIRLFYGVINHGKTLEEAFQESSLIDEETHTFRFYN				NA	NA	NA	NA	NA
AK009_04401	603			hypothetical protein	ATGAAAATTGTCTTTGTTCGGCACGGGGAAGGGGAACATACAAGGGATTTGCCATCAAGTTTACAAGTGCTGCATCCGTCATTGACGGATGAAGGAAGGAATCAGGCTAATTTAATTCAATGCGATGTACCATTGCAGGAAACGGATATATTAATTGTTAGTCCTACACTTAGAACTTTACAAACGGCGACAATATGGAGTGCGAAAGTAGCTTGTCAAAAAATCGTCCATCCATATGTATCTCCGCGTATTTTTCCTTATCGAGAAGAAGCGAAAACATTACCGTGCGATTATATAGTAGAGCAGGGAATGATAACAAAGTTATTTCCGCATTTTTCGATAGAGAAAAGCTCAAATAATCAGTTATGGAAGGAAGGTATAAACACTATTTCAGAGAATAGTTTTCAGCAAATAGTAGATGAATTTCTTCTTTGGTGTTATGAACTGAGTGCTGAAAGAATTTGCATTGTATCTCATGATGGAACAATTACAGCATATAGACAATATTTACAGAAAGTCGTTTTAACTAGATCAGATTTTTTGAAAGAAACAGGTATATATGAAATGGCTTTATCCCATAAAAGTCTGATTGATAAGGGCTGA	MKIVFVRHGEGEHTRDLPSSLQVLHPSLTDEGRNQANLIQCDVPLQETDILIVSPTLRTLQTATIWSAKVACQKIVHPYVSPRIFPYREEAKTLPCDYIVEQGMITKLFPHFSIEKSSNNQLWKEGINTISENSFQQIVDEFLLWCYELSAERICIVSHDGTITAYRQYLQKVVLTRSDFLKETGIYEMALSHKSLIDKG				NA	NA	NA	NA	NA
AK009_04402	339			hypothetical protein	ATGAAATGGATAATTGTCTTTATTGGAATGATTGTATGGGGATATATAAACGGCTTCTTTAGTAGTGATAAAACTGCTAATCCTTGGATTACAGATGATGAACGTGAAACAAAAATTAAACAAAAAGCAATTACGGCAAGCTGGTCCGGTGTTTTTATGTTTTGTACCATTAGCCTCTTAAATAAATGGTTAGGTTTAAGCACAAACGATAAATCACCATACTTACCAGACCCTATCGCAGCTATTTTAAAGGAAAATGTAGAGTTACAAGTTTTACTCATGCTATTTGTTATGTATGGAATATTTTACTTACATTATCGAGGAAAATTAAGTGCCTAA	MKWIIVFIGMIVWGYINGFFSSDKTANPWITDDERETKIKQKAITASWSGVFMFCTISLLNKWLGLSTNDKSPYLPDPIAAILKENVELQVLLMLFVMYGIFYLHYRGKLSA				NA	NA	NA	NA	NA
AK009_04403	123			hypothetical protein	ATGAGTAACTCGAATGAATTTTTAGATACACTACATGAAAAACAAGCAAAAGATGAACAAAATAGAAAGCGCCAAGGGAACGGAAACCCAGCGAAAAAAAAGCCAAATAAAACACATAAATAA	MSNSNEFLDTLHEKQAKDEQNRKRQGNGNPAKKKPNKTHK				NA	NA	NA	NA	NA
AK009_04404	1239			hypothetical protein	ATGAAAAGGCTAATAGTAAGTGGTAGTGTAGTGTTGTTTATGTTTGTATGTTCTATCACTATTACTAGCGCAGAAAATAATAGTGTGAAAGTTGCTTTTATTCGTCATCATAACCTTTGGATTAAAGTTGATGGGAAAGAAAAACAACTTACAAAAGGAGAGAACATAACAGGGCCAAAGTGGTCACATGATGGAGAATGGCTGGCATATGTAAAAGGGAAGAAACAAAATATTCTTGAGTTATATCGGCTGAAAGATGGAAAGAAAGTTACACCGTTTCACTCAGAAGCATCGAATTATCAATGGTCACCAACAGAAAATATAATTGCATTTATATTTACAGGTACATTGAATACATTTGATGTAGAAAAAAAGAATGCAGATTTTGAAAATGTATCGGCTGGTGTGGGTGATTATGCATGGTATCCTGATGGAAAGAACTTTCTTGTATCCTCTGAAGCGCACTTACTTCCAACAGGATGGACAGGGGCTCAGCTATATGAAGTGCAAAAAGATGCACATATGAATCCTCACAAAATGAAGCATTTGTATGCATTGCCAAATGAACATGATGATTTTCTAGCGCTAGTAGCAAGTGGCTTTAAGTGGTCACCAGATCAAAAGTGGATTTCATTTTTAGCGGTACCGACAGCTTCATGGTCAGCTGATAGTAATACGCTTTGCTTAGTTCGAGCAGATGGAAGTCGGTTTGAAAAAGTAGATCAAATGTTATTAAACGAACAATGGTTTCAATGGTCACCATCAAAAAATATATTAGCTTATATTGAAGGGAGCGGAAGAGTGGCATTAGAAAATAAACATTTAAAAGTAAAGGAATTGCCAGCACTTCAGCAGAACATATTTACGCCGAAAGGATATGTTGATTGGGATTTTGTATGGAAGAACGATAGAGTAATTATCGTTTCACGAGCAAAAGAGGCAGGAATAGAAACTCCACCAGAAAAAAGGCCACTACCATCTTTATATGAGGTCGATAGTACAAGTAATGCACAGCATCAAATCACAAAGAAAACGAACAAGCAAGGGGATTACCACCCGATCTTCATGAAGAAGAGTAATCAATTAATTTGGATACGTTCAGACCGTAAGAAAGCGGATGTATGGCTTGCTCATAAAGATGGGAAACAGGAAAAGAAGTGGATTGAAAATATAGATGTACCAGAGTGGTATTATGAGAAATGGAATTGGGAAAATGTTATCTCGGTGAAAGAAGAATAA	MKRLIVSGSVVLFMFVCSITITSAENNSVKVAFIRHHNLWIKVDGKEKQLTKGENITGPKWSHDGEWLAYVKGKKQNILELYRLKDGKKVTPFHSEASNYQWSPTENIIAFIFTGTLNTFDVEKKNADFENVSAGVGDYAWYPDGKNFLVSSEAHLLPTGWTGAQLYEVQKDAHMNPHKMKHLYALPNEHDDFLALVASGFKWSPDQKWISFLAVPTASWSADSNTLCLVRADGSRFEKVDQMLLNEQWFQWSPSKNILAYIEGSGRVALENKHLKVKELPALQQNIFTPKGYVDWDFVWKNDRVIIVSRAKEAGIETPPEKRPLPSLYEVDSTSNAQHQITKKTNKQGDYHPIFMKKSNQLIWIRSDRKKADVWLAHKDGKQEKKWIENIDVPEWYYEKWNWENVISVKEE				NA	NA	NA	NA	NA
AK009_04405	2754	vpr	COG1404	Minor extracellular protease vpr	ATGAAAAAAACTACATCTACACTATTAAGCATGGCGCTTGTCTTTTCTAGTTTTGGAGCTTTAAGCGCTCATGCTGAATCACTACAAAAGGAGAAGCAATTTAGTCCACAATTAAAAACAACGATTGAACAGTGGGGAGAACATAAAATTGCTCAAAATGTTGAAACGAAAACAACAAAAGAAATATCAGTAATTGTAGAATTGCAACATGCACCTCTCGCTGCTCAAAGTAATATTCAGCATGCTCCAGATTTACAAAATAGTAATGCGCAGTCTTATCATGCTGAGCTAAAAAAAGCACAAGAAGATACGACTAAGAAAATAAAAGAAAAAGCACCTGGTGCAAAAATTAAAGAAGTGTATAATACGTTATTTTCCGGATTCTCTATTTCAGTTCCTGGAGATCAAATTACCTCTCTTGCCTCTTTACCTGAAGTAAAAGCAGTCTATCCGAACTTAACATATAAATTGCATGAAACATCAAAAAGTACTACTAACGAAGAAGCACCAAATATCGGTGGACCGACAATTGGTGCACCTGACGCGTGGAATTTAAAAGATCCATCTGGCAAACCGCTTGATGGAAAAGGCATGAAAGTAGCCATTATCGACTCTGGCGTAGACTATACACACCCTGACTTAAAGGCAAATTATATCGGTGGATATGACACGGTTGATGAAGATAGCGATCCAATGGATGGTAACGTACATGGTACTCATGTAGCTGGAATTATTGCGGGTAATGGAAAAATTAAAGGCGTTGCTCCAAACGCTTCTATTCTAGCCTATCGTGTAATGAATGACGGTGGAACTGGTACAACAGATGATATTATCCAAGGGATTGAGCGAGCGATTCAAGATGGTGCGGATGTGTTAAACCTCTCCCTTGGGCAGGATTTAAATGTACCTGATCAGCCTGTAACATTAACGTTAGAACGAGCAGCGAAACTTGGTGTTACTACTGTCGTTTCAAATGGAAATGACGGACCAAAACCTTGGTCTGTTGATGCTCCCGGTAACGCAAGTAGTGTCATTTCTGTTGGAGCATCTACGGTTTCTATCCCGTTTCCAACATTCCAAGTAGCTGGTTCCAGCAAAACATATCAAGGGTTACCGTTATCAAAATCCGATTTTCCAATAGGAAATGATCCCCCTCTTGTATACGTTGGTTATGGCAATCCAAGTGATTATGCAAAACAAGATGTGAAAGGGAAATTCGCACTTATTTTACAAGGTACTTCTAGTACATTAGTAAAGGCAGAACAAGCGAAACAAGCTGGTGCACTTGGTGTGTTATTAATCTCTAGCGAAAAAGAAATTAATATGATGCCGGAATATTTTTCACGTGAACATCTAGCTGTCCCAGTAATGCAATTATCAAATACAAATGGGGAAGAATTAAAAACTTTAATTACAAAACGAAAGAAAAATATAAAAATTGGACAACCAAAGCAAACAGAACTTATCGGTAACTTTAGTTCAAGAGGACCATCACAAGGAAGTTGGCTAATAAAGCCTGATGTTGTTGCACCTGGAGTACAAATTACTAGTACAGTACCGCGAGGCGGCTATGAATCGCATAACGGAACAAGTATGGCTGCTCCGCAAGTAGCTGGAGCGGTTGCCCTCTTGCGTCAAATGCATCCTGATTGGACGACAGAACAATTGAAAGCGGCTCTTGCTAACAATGCAAAAACATTACATGATGTCAATGAAAATACATACCCTGTTATGGCACAAGGATCAGGTTTAATTAGCATTCCGAAAGCAGCTCAAACAAATGTATTAGTAAAACCTAACAATGTCAGCTTTGGTCTTATTAAGCCAAATAGCGGAAAAGTAAAACTGACGCAAAATGTTACATTACAAAACCTTTCTAGTAAAAAGAAAAGTTTTTCAACTCGTGTGGAGTTACTAGATGCAAACACAAACACAAAAGTAAAAGCTTCTGTCCCTTCATCGATTAGCATTCAACCGAATAGTAGTACCGAAAAACCATTTACTATCACTGTAGATAGCTCACTACCACAAGGTGTGTATACTGGAAATGTATATGTAAAAGAACAAGGGGCAAAAGAAGAAATTCGAATTCCATTCACATTTAGTATCGAGCCTAAAGATTATAAACGTATCGATGGACTTGAAATTATTAATTCTACTTTTAGCCCAAATGGCGACCACGTACTAGATGATAATCTCATCAACTACTATTTAGTTGCGCCTGTGGATGATGTAACATTGCATGCAAATTTAGTTACGAAAGAACGTGTAACGTATCAAGGGATTATCCATCAAGCTAAAAATGCAACTCCTGGATACAAACCTTTCAAATGGAATGGTACAAAAACCGATGGCACTCCTTTAGCTGACGGGCTATATCAAATCGAAGCAGTTGCTTCTAATTCTGGCGGAGAAACAAAACAAACAGCTGCTGTATTTCTTGATCGAACTGCACCTAAGTTAACATACGAAGTTGACCAAGAAAATCTCGTAATTAGAGGAAAAGTTGATGATATTCTACTAGATTGGATGTCAGAATCTGGTTGGATAGCACCTGGTATTCCAGTGAGAATGCAATATGAAATTAACGGAAATGGTGTATGGGACCAGGCATTCCTGAACCCTTGGGAGAAAAGCTATGACATTTATTTCGATCGCACTCAATTACAAGAAGGGAAAAATACTATTCACATTGTAGCAACTGATGCAGCTGGCAATACCTCTAATTTAACTGTTAGTTTAGAAGTGAAATAA	MKKTTSTLLSMALVFSSFGALSAHAESLQKEKQFSPQLKTTIEQWGEHKIAQNVETKTTKEISVIVELQHAPLAAQSNIQHAPDLQNSNAQSYHAELKKAQEDTTKKIKEKAPGAKIKEVYNTLFSGFSISVPGDQITSLASLPEVKAVYPNLTYKLHETSKSTTNEEAPNIGGPTIGAPDAWNLKDPSGKPLDGKGMKVAIIDSGVDYTHPDLKANYIGGYDTVDEDSDPMDGNVHGTHVAGIIAGNGKIKGVAPNASILAYRVMNDGGTGTTDDIIQGIERAIQDGADVLNLSLGQDLNVPDQPVTLTLERAAKLGVTTVVSNGNDGPKPWSVDAPGNASSVISVGASTVSIPFPTFQVAGSSKTYQGLPLSKSDFPIGNDPPLVYVGYGNPSDYAKQDVKGKFALILQGTSSTLVKAEQAKQAGALGVLLISSEKEINMMPEYFSREHLAVPVMQLSNTNGEELKTLITKRKKNIKIGQPKQTELIGNFSSRGPSQGSWLIKPDVVAPGVQITSTVPRGGYESHNGTSMAAPQVAGAVALLRQMHPDWTTEQLKAALANNAKTLHDVNENTYPVMAQGSGLISIPKAAQTNVLVKPNNVSFGLIKPNSGKVKLTQNVTLQNLSSKKKSFSTRVELLDANTNTKVKASVPSSISIQPNSSTEKPFTITVDSSLPQGVYTGNVYVKEQGAKEEIRIPFTFSIEPKDYKRIDGLEIINSTFSPNGDHVLDDNLINYYLVAPVDDVTLHANLVTKERVTYQGIIHQAKNATPGYKPFKWNGTKTDGTPLADGLYQIEAVASNSGGETKQTAAVFLDRTAPKLTYEVDQENLVIRGKVDDILLDWMSESGWIAPGIPVRMQYEINGNGVWDQAFLNPWEKSYDIYFDRTQLQEGKNTIHIVATDAAGNTSNLTVSLEVK	PGPT0020990_164	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
AK009_04407	144			hypothetical protein	ATGGTTGGTGCGAATCAGTACATATACAAGCGTGAATTACAATTCTGGAGCTTCTTTCCCGTAATGCTTTTTATGCATGAAGAGAAAGACGGATCTTTCCGTTATCGTAAAGTGAGTGGTAAACAATTAGTTGTTTACAAATAG	MVGANQYIYKRELQFWSFFPVMLFMHEEKDGSFRYRKVSGKQLVVYK				NA	NA	NA	NA	NA
AK009_04409	1755			hypothetical protein	ATGACAAAGAAAACAGAAATTCCATCGCATTTAAAACCATTTGTATCCACACAACATTATGATCAATACACACCGGTGAATCACGCTGTGTGGCGTTATATTATGAGACAAAATCATAGCTTCTTAAAAGACGTTGCTCATCCAGCCTATGTGAACGGACTACAATCATCTGGTATTAATATAGATGCAATTCCAAAAGTAGAAGAAATGAATGAGTGTTTGGCACCAAGCGGCTGGGGCGCTGTAACAATTGACGGACTTATTCCTGGCGTAGCATTCTTCGATTTTCAAGGACACGGATTACTACCGATTGCAACAGATATCCGGAAAGTAGAAAATATCGAGTACACACCAGCTCCAGATATCGTACACGAAGCCGCAGGACACGCACCGATTTTACTTGATCCTACATATGCAAAATATGTGAAACGTTTTGGGCAAATTGGTGCAAAAGCTTTCTCTACAAAAGAAGAACATGATGCATTTGAAGCTGTTCGTACATTAACGATAGTAAAAGAAAGCCCTACTTCTACTCCTGATGAAGTTAAGGCTGCTGAAAATGCTGTAATTGAAAAACAAAACTTAGTTTCTGGTTTATCGGAAGCTGAACAAATTTCACGTCTTTTCTGGTGGACAGTAGAATATGGATTGATCGGAAATATAGATGATCCAAAGATATATGGTGCTGGTCTCCTTTCTTCTGTTGGCGAAAGCAAACATTGCTTAACAGACGCTGTAGAAAAGGTTCCATTTTCTATCGAAGCATGTACAGGGACAACTTATGACGTAACAAAAATGCAACCACAACTATTTGTTTGTGAATCCTTTGAAGAATTAACAGATGCGCTTGAAACATTTTCTAAAACAATGGCCTTTAAAACAGGTGGAAAAGAAGGTTTAGAAAAAGCAATTCGCTCTGAGAACTATGCAACAGCTGAGCTAAATAGTGGATTACAAATTACAGGTACATTTAGCGAGACAATTGAAAACGATGCAGGTGAATTAATTTACATGCGAACAAATTCGCCAACGGCATTAGCGCTTCATAATAAACAGTTAGCGAATCATTCTACTTCTGTACACAGTGACGGATTTGGAACACCGATTGGATTACTCACTGAAAATATTGCATTAGAAAATTGTACAGACGAACAACTACAATCATTAGGAATTACAATTGGAACTATCGCTGAGTTTACTTTCGCAAGTGGTATTCATGTAAAAGGAACAGTAACAGATATTGTGAAAAACGATAAGAAAATTGCTCTTATTTCCTTTATCGATTGCACAGTTACTTATAACGCCCGCGTTTTATTTGATGCTTCATGGGGCGCATTTGATATGGCTGTTGGCTCACAAATCACTTCAGTATTCCCAGGTGCCGCAGATGCCGCAGCATTTTTCCCAATGGATGAAGAAGTTCAAGGACTTCCTGCTCCACTTGTACTGAATGAACTTGAACGTATGTATCAAACAGTGCGAGATATTCGAAGTGAGGGGATTTTACACAACGCGCATATCGATCAATTAGTAGCAATTCAAGAAGTATTAAATAAATTTTATGCGAAAGAATGGTTGCTGCGCCTTGAAATATTAGAGTTACTTTTAGAGCATAACAAAGGGCATGAAGCATCGGCAACTTTACTACAACAACTTTCTACTTTCACAACTGATGAAGCTGTAACACGCCTTATTAACAATGGTCTTGCTTTACTTCCAGTAAAGGATGTGAAAAATGATGCTAAGATTAACTGA	MTKKTEIPSHLKPFVSTQHYDQYTPVNHAVWRYIMRQNHSFLKDVAHPAYVNGLQSSGINIDAIPKVEEMNECLAPSGWGAVTIDGLIPGVAFFDFQGHGLLPIATDIRKVENIEYTPAPDIVHEAAGHAPILLDPTYAKYVKRFGQIGAKAFSTKEEHDAFEAVRTLTIVKESPTSTPDEVKAAENAVIEKQNLVSGLSEAEQISRLFWWTVEYGLIGNIDDPKIYGAGLLSSVGESKHCLTDAVEKVPFSIEACTGTTYDVTKMQPQLFVCESFEELTDALETFSKTMAFKTGGKEGLEKAIRSENYATAELNSGLQITGTFSETIENDAGELIYMRTNSPTALALHNKQLANHSTSVHSDGFGTPIGLLTENIALENCTDEQLQSLGITIGTIAEFTFASGIHVKGTVTDIVKNDKKIALISFIDCTVTYNARVLFDASWGAFDMAVGSQITSVFPGAADAAAFFPMDEEVQGLPAPLVLNELERMYQTVRDIRSEGILHNAHIDQLVAIQEVLNKFYAKEWLLRLEILELLLEHNKGHEASATLLQQLSTFTTDEAVTRLINNGLALLPVKDVKNDAKIN	PGPT0020295_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0020295-phhA-K00500	NA	NA
AK009_04410	315	phhB	COG2154	Putative pterin-4-alpha-carbinolamine dehydratase	ATGATGCTAAGATTAACTGAAGAAGAAGTTCACGAAGAATTATTGAAGGTAGATAAATGGATGGTAAAAGATGAGAAATGGATTGAACGAAAATATATGTTTTCCGACTACTTAAAAGGAGTCGAATTTGTCTCTGAAGCCGCCAAACTATCAGAAGAACATAATCACCATCCATTTATCCTTATCCAGTATAAAGCAGTTATTATTACTTTGTCATCTTGGAATGCAAAAGGTTTAACGAAACTAGATTTTGAGCTTGCAAAACAATTTGATGAACTATTTTTACAAAACGAAAAAGCAATTATAAGAAAATAA	MMLRLTEEEVHEELLKVDKWMVKDEKWIERKYMFSDYLKGVEFVSEAAKLSEEHNHHPFILIQYKAVIITLSSWNAKGLTKLDFELAKQFDELFLQNEKAIIRK				NA	NA	NA	NA	NA
AK009_04411	858	catE_2	COG2514	Catechol-2,3-dioxygenase	ATGAGTTTTCAACTTCATCCCGATACAACACTTGATGTTGTTCATTTATACGTATCTAATGTAAAGAAATCACTAGAGTTTTATACGGAAGTACTAAGTATGAAGGTGCTAAAAGAAGAAGAAGCAGTCGTTACATTTGGGAATGAAAATGGTGAACCACTTCTTATCATTGAAGAAAAGAAAGAAGCTTTTCCGAAGCAAAGAGGAAGAACAGGGTTATATCATTACGCAATTTTATTACCAAGTAGGCAGGATTTAGCGAATGTTCTTCATCATCTTGTAGAGATGGTATATCCACTACATGGCGGAGCCGATCATTACTTTAGTGAAGCTCTTTATTTAGCTGATCCAGATGGAAACGGGATTGAAATTTATCATGATCGACAAAAAGAAGTTTGGCGTGATGAGAATGGAGAACTCCCATTTGTTAGTAACCCGTTAGCTGGTGAAGAATTATTACAACAAGGAAGTACATGGAATGGCTTTCCAGCTGGTACTGTGATGGGGCATATTCATTTCCATGTAGCTGATTTAGAGGAAGCGAAACGTTTCTATGTTGATGGTCTTGGTTTTGAAGTAACGATCCCAGCTCGTAATGGAGCGTTGTTCGTATCTGCAGGTGGTTATCATCACCATATCGGTTTAAATACATGGCAAGGTGAAGGGGTACCACCGCAAATGCCAGGTTCTGTTGGTTTAAAATATTTCACAGTTGTACTAGCGAATGAAAAACAAAAAGAGCAAGTATGTGAAAGCTTAAAAAATATTGGCAAGATTGCTACGTACAAAGATGGAATATTACAAGCCCAGGATCCATTTGGACATTGTATCCATTTCAAAATAAAAGGAGAAGCCTAA	MSFQLHPDTTLDVVHLYVSNVKKSLEFYTEVLSMKVLKEEEAVVTFGNENGEPLLIIEEKKEAFPKQRGRTGLYHYAILLPSRQDLANVLHHLVEMVYPLHGGADHYFSEALYLADPDGNGIEIYHDRQKEVWRDENGELPFVSNPLAGEELLQQGSTWNGFPAGTVMGHIHFHVADLEEAKRFYVDGLGFEVTIPARNGALFVSAGGYHHHIGLNTWQGEGVPPQMPGSVGLKYFTVVLANEKQKEQVCESLKNIGKIATYKDGILQAQDPFGHCIHFKIKGEA	PGPT0005050_562	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
AK009_04412	405	catD_1	COG2259	Putative oxidoreductase CatD	ATGAATCAACATATTGGTAACTTAATTATTCGTATCGTGTTAGGGGTAACATTCTTCATGCACGGTTTAACAAAATTCCAATCAGGAATTGACAATATTGCAGGATGGTTTACAAGCATTGGTTTACCAGGAGGACTTGCATACGGTGTAGCAACGTTTGAATTAGTTGGAGGTCTATTATTAATTCTAGGTTTAGGTGTAAGATATATTGGATTATTATTTGCACTTGTTATGGTTGGAGCAATCGTAAAAGTGAAATGGTCAGCTGGTTTATTGGGAGATGGAAAAAATCCTGGTTTCGAATTAGAACTTGCATTATTAGCAATGGGTGCATACTTATTTGTTGCAAAAGCTGATGGTTTTGTAGATAATTTCTTAAAAGAAAAAATGTCAAAGAAGAATTAA	MNQHIGNLIIRIVLGVTFFMHGLTKFQSGIDNIAGWFTSIGLPGGLAYGVATFELVGGLLLILGLGVRYIGLLFALVMVGAIVKVKWSAGLLGDGKNPGFELELALLAMGAYLFVAKADGFVDNFLKEKMSKKN	PGPT0028505_4861	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
AK009_04413	546	sutR_3	COG1396	HTH-type transcriptional regulator SutR	ATGAATATTGGTTCTGCAATACGTGAAATTCGTCAACGTAGAGGCATAACAATTGCACAAATTTGCGAGGGAACAGGTCTTTCTAAAGGATTTATGAGTCAGGTTGAAAATAATAAAACATCACCATCTATCTCAACTTTAGAAACGATCTCCAATTTTTTAAACGTTCCCCTTCCCTATTTATTGTTAGAGCAAAAAGATCGATTAAAAATTGTCAAAAAAGAAGAACGGAAATACAGTGTATACGGCAAAGATGAGCAAAGAATTGAACATGTTGCGGAGCAAGGGGGCCTTCGCCTATCTTTAGTAGAAATCCCTACTGGATTCCCGAAAGAAAACTCACCAAATGCCCATGAAGGGGAAGAATGTCACCTTGTATTACGCGGAAAACTAGAAGTTCAGCACGGTGAAGATATTGCAATTGTAGAAGAAGGTGATTCTTTCTCATGGAATGCATGCGTTCCTCATATTGTTCGTAATATAGGAGAAGAAACTGCATTATTACTCATCTCGAGTTATGCGGAAAATCGAAAACGTGTTTATTAA	MNIGSAIREIRQRRGITIAQICEGTGLSKGFMSQVENNKTSPSISTLETISNFLNVPLPYLLLEQKDRLKIVKKEERKYSVYGKDEQRIEHVAEQGGLRLSLVEIPTGFPKENSPNAHEGEECHLVLRGKLEVQHGEDIAIVEEGDSFSWNACVPHIVRNIGEETALLLISSYAENRKRVY				NA	NA	NA	NA	NA
AK009_04414	378			hypothetical protein	ATGAGTGTAAAAGCTGGGGATGTATTTAAATATGAAAGAAGATTTACTGAGGAAGAAGTTTTTGAATTTGCAAATATTACCGGTGATAAAGGTAGACACCATGTGGAATACGATGAAAATGGAAGATTAATGGTTCATGGTTTATTGACTGCTAGCATTGGGACGAAAGTGGGAGAAGAGTTACATTACATAGCAAGAGAATTAGTAAGTGAGTTTATTAGACCAGTTTTCACAGGAGATACGATCACTTGTGAACTAACTTTAACAAATGTTGAGCAAATGGAAGGCTATAAAAAAGTTTCAATCGAGTCAGTTTATCGCAATCAGCATGAAAAGACTGTACTAGTTGGGACAAGTTATGGAATTATAAGGGGATAA	MSVKAGDVFKYERRFTEEEVFEFANITGDKGRHHVEYDENGRLMVHGLLTASIGTKVGEELHYIARELVSEFIRPVFTGDTITCELTLTNVEQMEGYKKVSIESVYRNQHEKTVLVGTSYGIIRG	PGPT0014741_1146	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
AK009_04415	459			hypothetical protein	ATGTACATTTATCATAATGGACTTATTATTCGTGAGGGAACGAGTAGCGTACCAGCATATGCAATTAAAGCATTGTTTGAAGATGCCGGTTGGAGTAATGATAATATCCCTTCTTGGCAAATTGAAAAATTTACGATAGCATTCGAAAATTCAACATGGGCTTTCACAATTTGGGATGAGGAAGAGATGGTTGCGATGGTTAGAGTCATTTCTGATGGAATTATGATTGCGAACATAGTAAATTTAGTTGTGAAGTGTGAATATAGAGGGAAGGGATTAGGTAAGAAGCTTGTAGCTCTTTGCCTGCAAAAACTTCCCCACGGTGATTGGTTTGCGCATACATCAGCGAACAATTTTGATTTTTATAGAAGTTGTGGATTTGAAGTTAGAGAGCTATCGAGAAATGGAACATGTGCGTATTATGGATACCAAGTCGCGAAAAGAGATGGTCACCGATAA	MYIYHNGLIIREGTSSVPAYAIKALFEDAGWSNDNIPSWQIEKFTIAFENSTWAFTIWDEEEMVAMVRVISDGIMIANIVNLVVKCEYRGKGLGKKLVALCLQKLPHGDWFAHTSANNFDFYRSCGFEVRELSRNGTCAYYGYQVAKRDGHR				NA	NA	NA	NA	NA
AK009_04416	507		COG1670	Acetyltransferase	ATGTTTCATACAGATCGTTTACAAATTCGCAAATATACAATGGATGATTTACAGTTCTATGCTTCACTATGGGGGAACGAGAAGGTAATGCGCTATATTGGAAATGGGACGTTAAAAACATATATACAGTGTAAAAAAAGTTTGGAGGAGTGGGTCATTCCTAGCTATAAAAACGGTCTCGGTTTATTTGTATTGATTGAAAAGGAAACGGGAACAAGAATTGGTCATGCAGGGCTGGTAAAGCAGCAGATTGATGGAAAAGAGGAAATTGAAATTGGTTATTGGTTACTTCCTCAGTATTGGGGAAAAGGGTATGCAAAAGAAGCGGCGGCAGCATTTCGAGACTACGGTTTCCAAGCATTACGAATGAATAAATTAATTTCTCTCATTAACCCGAATCATCCCGCCTCAATATTTGTTGCTAGAAAGACAGGGCTCAGCTATGAGAAAACAACTTTATTTCATGGGATGGATGTTCTTGTTTATTCCATTAAACGTGTTGGATGA	MFHTDRLQIRKYTMDDLQFYASLWGNEKVMRYIGNGTLKTYIQCKKSLEEWVIPSYKNGLGLFVLIEKETGTRIGHAGLVKQQIDGKEEIEIGYWLLPQYWGKGYAKEAAAAFRDYGFQALRMNKLISLINPNHPASIFVARKTGLSYEKTTLFHGMDVLVYSIKRVG				NA	NA	NA	NA	NA
AK009_04417	396			hypothetical protein	ATGCAAACAGAAGAGCGTATTACCACTGAATTAGTAAGAGAATTTGTTATGGCAGCTCACGGGGATTTAGAGAAAGTACAAGAGCTATTGGTTGAATCGCCAAGCTTACTTCACGCCTCTTATAATTGGGGTGGATCAGATTGGGAAAGTGCGTTAGGGGCATCGGCACATGTAGGTCGTAAAGATATTGCTCTTTATTTACTAGAAAAGGGTGCTCGGATGGATATTTTTGCAGCAGCTATGCTTGGTGAATTAGAAGTTGTACAAGCTATTTTAGTAGCTCAACCAGAAGCATTGCGTGCATCTGGTCCTCATGGCATTTCTCTTCTTCAGCATGCACGAATGGGTGGAGAGAAATCTAAGCGTGTATATGATTATTTAGCAATACTATCTTAA	MQTEERITTELVREFVMAAHGDLEKVQELLVESPSLLHASYNWGGSDWESALGASAHVGRKDIALYLLEKGARMDIFAAAMLGELEVVQAILVAQPEALRASGPHGISLLQHARMGGEKSKRVYDYLAILS				NA	NA	NA	NA	NA
AK009_04418	819	fpuC	COG1120	Petrobactin import ATP-binding protein FpuC	GTGATTTCCGTTAACAAAGTGTTTTATGCACACTCTGAAAGATTTCAAATGCAAAATATGAATGTACATATTAAGGCTGGAGAAATCGTTAGTTTAATTGGTCCGAATGGATCGGGAAAATCTACTTTGCTTCGTTTAATAGCAAGGCTACTGAAACAAAGCGAAGGGGACATCATTTTAGATGGGAAAAACATTCATATGATGAAGAGTGCTGATGTGGCGAAGCAATTAGCAATGTTACCACAAATGCATGATCATCAATTAGATTTAACAGTGAAAGAACTAATTGAGTTCGGAAGAGGTCCACATAAATCATGGAGTAGCCGCTTAAATAAAGAAGATGAAGAAATTGTTGATTGGGCATTGTCTGTTACAAATCTTGAAGGGTATGAATATCGTCTTTTACATTCTTTATCAGGAGGGGAACGGCAACGTGCTTGGATTGCCATGACGCTAGCGCAACGTACAAATGTCTTACTATTGGATGAACCAACAACCTTTTTAGATATCGTTCACCAGTTGGAAGTAATGGAACTTGTGAAACGATTAAATGAGGAGTATGGAATGACAATTATAATGGTTTTACATGACATTAACCAAGCTGCTCAATATAGCGATCGTTTACTCGTATTAAAGCGAGGAAAGATTCAGTATGATGGTATACCAGAAGAAGTGCTATGCCATGAAATGTTTCAACATGTATTTGGCATAGATGTAGATATCTTTCAAGGAAGTGACAAGCCGTTTTTTACACCGAAACGAATTTCTAAAAGGGGAGAAGAGCGATGCAAACAGAAGAGCGTATTACCACTGAATTAG	MISVNKVFYAHSERFQMQNMNVHIKAGEIVSLIGPNGSGKSTLLRLIARLLKQSEGDIILDGKNIHMMKSADVAKQLAMLPQMHDHQLDLTVKELIEFGRGPHKSWSSRLNKEDEEIVDWALSVTNLEGYEYRLLHSLSGGERQRAWIAMTLAQRTNVLLLDEPTTFLDIVHQLEVMELVKRLNEEYGMTIIMVLHDINQAAQYSDRLLVLKRGKIQYDGIPEEVLCHEMFQHVFGIDVDIFQGSDKPFFTPKRISKRGEERCKQKSVLPLN	PGPT0003760_2072	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
AK009_04419	1029	fpuB_2	COG0609	Petrobactin import system permease protein FpuB	ATGGAAAGTAGTGAAGTAGTAAGAGAAAAGGAACATCCTTTTGCGAAAAAAAGATGGATAATAGCAGTTACTTTAGTTGTATTAACAATTCTAGGCCTCTTTTACGGTCTTTTCGCAGGAAGTTTATCCTTTTCTGTACGAGACATTCTAACAGGTATACAAGATGAGGGTTCGACAGTACATCGAATTGTATGGGATCTTCGCATACCGAGAGTGCTCGTTGGGTTTATAGTAGGAACATGTTTAGCTGCATCTGGTACACTGCTGCAAGGGGTTATGAGAAACCCTCTTGCAGATCCTGGTATTATCGGAGTTTCATCTGGGGCAGGCCTTGTAGCAATTGTCATCATGATTTTATTCCCACAGCATCTAGCTTTTTTACCACTAGGGGCGTTTTTAGGAGCTTTCATAACAGCGATGGTTATTTATGCTTTATCATGGCAAAAAGGGGCACCACCTTCAAGAATCGTCTTAGTAGGGGTGTCGATCAATGCATTAATTGGTGCAGCAACGTCAGCATTAATGTTATTACATAGTGACAAAGTACAATCCGTGTTACCGTGGCTAGCGGGTGGTATTGGTGGTGTAAGTTGGGCACATTTAAACATGATTATTTATTATGCAATATTCGCCATTATATTAGCTTTCTTTGGCATTAAGCATATTCGAGTGTTAATGCTTGGAGATGAAATGGCAAAGTTATTAGGACATAACGTGGAAAAAAGTCGGTTTTATTTAATCGTAGTAAGTACATTATTAGCTGGAATTGCAGTAAGTGTATCTGGTCTTATTGGATTTGTCGGTCTTGTCGTACCACATATGCTACGTTTATTAGTTGGAAATGATTATAGATATTTGCTACCTTTATCATGCCTTGGCGGCGGTGTATTACTTGTTTTTGCGGATGCAATAGCTCGAAGTTGGTTCGATCCAATCGAATTGCCTGTTGGTATTTTACTGTCCTTCTTAGGTGGTCCGTTCTTCTTATATTTAATTCATAGAGGAGGAAAACAACGTGATTTCCGTTAA	MESSEVVREKEHPFAKKRWIIAVTLVVLTILGLFYGLFAGSLSFSVRDILTGIQDEGSTVHRIVWDLRIPRVLVGFIVGTCLAASGTLLQGVMRNPLADPGIIGVSSGAGLVAIVIMILFPQHLAFLPLGAFLGAFITAMVIYALSWQKGAPPSRIVLVGVSINALIGAATSALMLLHSDKVQSVLPWLAGGIGGVSWAHLNMIIYYAIFAIILAFFGIKHIRVLMLGDEMAKLLGHNVEKSRFYLIVVSTLLAGIAVSVSGLIGFVGLVVPHMLRLLVGNDYRYLLPLSCLGGGVLLVFADAIARSWFDPIELPVGILLSFLGGPFFLYLIHRGGKQRDFR	PGPT0003770_5321	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
AK009_04420	948	isdE_2		High-affinity heme uptake system protein IsdE	ATGAAAAAATCTATTACGCTATTTACAGCGATTTTATCTATTTTTTTCTTGTTAATAGGTTGCAGTGCCAAAGGGGACGAAAAAGCGTCTGCAACCAAAACAGAAAAAGGAAAAGAAAAAATCGAAATTACCGACCTGTCAGGGAGAAAGGTAACATTCGATAAAGTACCAGAAAGTTTTGCAACATTAAGTATGGGAGACATGGATATTATTCATGCTTTAGGTGGAAAAGTAGTAGGTCGTCCGGATACGAAATTAACTCTTCCAGAGGAGTTAAAGAAAGCAAAAGTAATCGGGAATGCACATCAACCGAACTTTGAGCAAATTGCTAGTTTAAAGCCCGATGTACTTGTTGCTAACAATGGATTCCAAAAGAATGTGCCAACGGTTGAAGGACAGGGAACGAAAGTAATCATTTCTTCTGCGAATTCTGTACAAGATATTCAAAAGAATATTGAATTATATGGAACGGCAATGAAGAAAGAAGATAAAGCAAAAGAACTTAATCAAAAAATCAATAATCAAATGAAGAAATATGAGAAAAAGAGCGATGTGAAAGCATTGCTAGTGTATGGCGCACCAGGTACTTATTTAGCGGCATTACCAACATCTTTATCAGGTGATATTTTAGAAAAAACAGGCGGAAAAAATATTGCTTCTGATTTTCCAGAAATGAAAGAATATCCGCAATATGCACAGCTAAGTGTAGAACGTATTATTGAGGCGAATCCAGATGTGATTTATTTAATTACACACGGAGATCCAACAAGTGTGAAAAAAGCATTCGAAGGCGAAATGATGAAAAATGAAGCGTGGAAAAATTTAGATGCAGTAAAACAAAACCGCGTAGTTATTTTGCCACCTGATTTATTTGGATCTAATCCTGGGACAAAAGTTACAGAAGCAATGGACTTTATGTATAAAAGTATACAAGATGTAAGGAAATGA	MKKSITLFTAILSIFFLLIGCSAKGDEKASATKTEKGKEKIEITDLSGRKVTFDKVPESFATLSMGDMDIIHALGGKVVGRPDTKLTLPEELKKAKVIGNAHQPNFEQIASLKPDVLVANNGFQKNVPTVEGQGTKVIISSANSVQDIQKNIELYGTAMKKEDKAKELNQKINNQMKKYEKKSDVKALLVYGAPGTYLAALPTSLSGDILEKTGGKNIASDFPEMKEYPQYAQLSVERIIEANPDVIYLITHGDPTSVKKAFEGEMMKNEAWKNLDAVKQNRVVILPPDLFGSNPGTKVTEAMDFMYKSIQDVRK	PGPT0003765_8592	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
AK009_04421	228			hypothetical protein	ATGAAAGAATTACAAGGGAAAATAGAAGATTATACTAGGTTCGGACAAATTCTTCTCGCTGTAAGTACATTGTTAATGGTTGGCTTGTTGATTCCGGATGGAGCAAAAGAGACAATCCAATTTTTTGTTATGATGGGGAGTATCGTTATATTTTTAAGTTTATCGTTCTTTTTCTTTCAGCGTGTGAAAGTGATGCGTGACCAGTTAGAGGAAAATGAATGTGAATAA	MKELQGKIEDYTRFGQILLAVSTLLMVGLLIPDGAKETIQFFVMMGSIVIFLSLSFFFFQRVKVMRDQLEENECE				NA	NA	NA	NA	NA
AK009_04422	2604	adhE_1	COG1012	Aldehyde-alcohol dehydrogenase	ATGGTAGTCAAAGAGAAAGTTGTAAATGAAATGCAAGAGGTAAAAGAGATGATTGATACGTTAGTAAATAACGGTCAACAAGCTTTACAAGCATTAGAAAGTTTTACACAAGAGCAGATTGACAACATTGTTCATGAAATGGCATTAGCAGGTGTTGATCAACATATGCCACTTGCAAAATTGGCTGTTGAAGAAACAGGCCGTGGTGTCTATGAAGACAAATGCATTAAAAATATTTTTGCCACTGAATATATTTGGCATAGTATAAAGCAAGATAAAACGGTAGGAATTATTCACGAAGATCCTCATGAAGAAATAATAGAAATTGCAGAACCTGTCGGTGTAGTAGCTGGGGTAACACCAGTAACGAATCCAACGTCGACAACAATGTTTAAAGCGTTGATTGCGATAAAAACGAGAAATCCAATTATTTTCGCATTTCATCCTTCTGCACAAAATTGTTCGGTGGCAGCAGCGAAAACCGTATATGATGCAGCAATGAAAACTGGTGCACCAAAACATTGTATTCAATGGATTGAAAGACCGTCTGTCGAAGCGACGAAACAATTAATGAACCATGATGGTGTGGCACTCGTTCTAGCAACTGGAGGCGCTGGTATGGTGAAATCAGCTTACTCTACTGGAAAACCAGCGCTAGGTGTAGGTCCTGGTAATGTACCGTGTTATATAGAAAAATCAGCACATGTAAAACGAGCTGTTAATGATTTAATTTTATCGAAAACATTTGATAACGGTATGATTTGTGCATCGGAACAAGCAATCATTGTCGATAAAGAAATCTATGATGATGTTAAAACAGAAATGATCGAAAACAATTGTTACTTTGTAACAGAAGAAGAAAGAAAAAAATTAGAAAAGCTCGTTATAAATGAAAATACATGTGCAGTAAATAGTGATATTGTAGGAAAATCAGCACAGTATATTGCCGAATTAGTTGGGATTACTGTTCCTGAACATACAAAAATGCTTGTAGCTGAAATTCAAGGTATCGGAGCAGCATACCCGTTATCTCGTGAGAAACTGAGCCCAGTATTAGCCTGTGTGAAGGCGAATTCATTAGAAAAAGGATTTACATATTGCGAAGAAATGTTGAACCTCGGTGGTTTAGGACATTCAGCAGTTATTCATTCTACAAATAAAGAAGTGCAAAAGCAATTTGGATTACGTATGAAAGCTTGCCGTCTCATTGTAAATGCACCTTCATCACAAGGTGGAATAGGGGATATATATAACGGATTTATTCCATCACTTACACTTGGTTGTGGTTCTTACGGAAAAAATTCAGTTTCCCAAAATGTAACAGCGACTCATTTATTAAATATAAAAAGGCTGGCAAATAGAAAAAAGAATATGCAGTGGTTCAAATTGCCACCAAAAATTTATTTTGAAAAACATGCTACAGCGTATTTAGCAAATATGCCTAACATTTCACGTGCATTTATTGTAACGGATCCTGGAATGGTTGAACATGGCTATGTGGATACAGTCACGCACTATTTAAACAAGCATGCAAATGATGTGAAAATTGAAGTTTTCTTTGAGATCGAACCAGATCCATCAGATGAAACTGTCTTTAAAGGTGCGGAAATGATGAGAAGCTTTAAGCCAGATGTAATTATCGCACTTGGTGGTGGTTCAGCTATGGATGCAGCAAAAGGAATGTGGTTATTCTATGAGCATCCAGAAACGACATTCTATGGCATTAAACAGAAGTTTTTAGATATAAGAAAACGTACATGTAAATATCCGGAATTAGGAAATAAGGCACAGTTTGTTGCGATTCCAACAACATCAGGAACAGGATCAGAAGTGACACCATTTGCGGTTATTACAGATAAGAAAAATAATATAAAGTATCCGCTCGCAGATTATGAATTAACACCAGATGTAGCAATTGTTGATCCACAATTTGTAATGACAGTACCACCACATGTAACAGCAGATACTGGTATGGATGTTTTAACACATGCAATTGAGGCGTATGTTTCTGTTATGGCAAATGACTATACAGATGGATTAGCATTAAAAGCTATTGATCTCGTATTCAAATATTTACCAAGAGCATATAAAGATGGAAATGATGAAGAAGCACGAGAAAAAATGCATAACGCTTCTGCAATTGCAGGGATGGCATTTGCAAATGCTTTCCTCGGTATTAATCACAGCTTAGCACATAAGATTGGACCAGAATTCCATATTCCGCACGGACGTGCAAATGCCATTCTAATGCCGCACGTAGTCCGCTATAATGCTATTAAGCCAAGAAAACACGCATTGTTCCCAAAATATGAGCACTTTGTAGCAGATGAACGCTATGCACATATTGCGAGAATGCTCGGGCTTCCAGCAAGCTCAGTAGCAGAAGGTGTGGAATCACTCGTCAAAGCAATTACTGAGCTTGGAAAAAGCTTAAATATTAATATGAGTATTGCAGGACAAGGGGTAGATAAAGAGCAATTTGAAGAGGTTGTTGGAGTATTAGCAGAAAGAGCTTTTGAAGATCAATGTACAACTGCTAATCCAAAGTTACCGCTTATTTCAGAGCTGAAAGAAATTTATATGGAAGCATATAAAGGTGAATAA	MVVKEKVVNEMQEVKEMIDTLVNNGQQALQALESFTQEQIDNIVHEMALAGVDQHMPLAKLAVEETGRGVYEDKCIKNIFATEYIWHSIKQDKTVGIIHEDPHEEIIEIAEPVGVVAGVTPVTNPTSTTMFKALIAIKTRNPIIFAFHPSAQNCSVAAAKTVYDAAMKTGAPKHCIQWIERPSVEATKQLMNHDGVALVLATGGAGMVKSAYSTGKPALGVGPGNVPCYIEKSAHVKRAVNDLILSKTFDNGMICASEQAIIVDKEIYDDVKTEMIENNCYFVTEEERKKLEKLVINENTCAVNSDIVGKSAQYIAELVGITVPEHTKMLVAEIQGIGAAYPLSREKLSPVLACVKANSLEKGFTYCEEMLNLGGLGHSAVIHSTNKEVQKQFGLRMKACRLIVNAPSSQGGIGDIYNGFIPSLTLGCGSYGKNSVSQNVTATHLLNIKRLANRKKNMQWFKLPPKIYFEKHATAYLANMPNISRAFIVTDPGMVEHGYVDTVTHYLNKHANDVKIEVFFEIEPDPSDETVFKGAEMMRSFKPDVIIALGGGSAMDAAKGMWLFYEHPETTFYGIKQKFLDIRKRTCKYPELGNKAQFVAIPTTSGTGSEVTPFAVITDKKNNIKYPLADYELTPDVAIVDPQFVMTVPPHVTADTGMDVLTHAIEAYVSVMANDYTDGLALKAIDLVFKYLPRAYKDGNDEEAREKMHNASAIAGMAFANAFLGINHSLAHKIGPEFHIPHGRANAILMPHVVRYNAIKPRKHALFPKYEHFVADERYAHIARMLGLPASSVAEGVESLVKAITELGKSLNINMSIAGQGVDKEQFEEVVGVLAERAFEDQCTTANPKLPLISELKEIYMEAYKGE	PGPT0006360_1058	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072	NA	NA
AK009_04423	1134	mccB	COG0626	Cystathionine gamma-lyase	ATGAGAGCAAAGACAAAGTTAATTCATGGTATTCGCATAGGAGAACCTTCAACTGGATCTGTAAACGTACCGATCTATCAAACAAGTACGTACAAACAAGAAGCGGTTGGTAAGCATCAAGGATATGAATATTCACGTACAGGTAACCCAACACGTGCAGCTTTAGAAGAAATGATTGCCGTATTAGAAAATGGTCATGCTGGATTTGCATTCGGTTCTGGAATGGCTGCTATTACAGCGACAATTATGTTGTTCTCAAAAGGTGACCACGTTATTTTAACAGATGATGTTTATGGTGGAACGTATCGTGTTATTACGAAAGTATTAAACCGCTTCGGTATTGAACATACATTTGTAGACACAACAAACTTAGAGGAAGTTGTAGAAGCAATTCGTCCAAATACGAAAGCGATCTATGTGGAAACACCAACGAACCCATTACTAAAAATTACTGATATTAAGAAAATATCTACTCTTGCTAAAGAGAAAGATTTATTAACAATTATTGATAATACATTCATGACGCCATATTGGCAGTCGCCGATTTCTTTAGGAGCAGACATTGTACTTCATAGTGCAACGAAATATTTAGGAGGTCATAGTGACGTAGTTGCAGGTCTAGTAGTGGTAAATAGCCCACAACTAGCAGAAGACCTTCACTTTGTACAAAACTCAACAGGAGGTATTCTTGGACCACAAGATAGCTTCTTACTACTTCGCGGTTTAAAAACATTAGGAATTCGTATGGAAGAACATGAAACGAATTCACGCGCTATTGCTGAATTTTTAAATAATCATCCAAAAGTAAATAAAGTATATTACCCAGGTCTTGAATCACATCAAAACCACGAATTAGCAACAGAACAAGCAAATGGATTTGGTGCTATTATTTCGTTTGATGTAGATAGTGAGGAAACATTAAATAAAGTACTTGAGAAACTGCAATACTTTACACTTGCTGAAAGCTTAGGAGCAGTAGAAAGTTTAATTTCTATCCCATCTCAAATGACACATGCATCAATCCCAGCAGATCGCCGTAAAGAATTAGGAATTACAGATACATTAATTCGTATTTCTGTCGGTATTGAAGATGGTGAAGATTTAATTGAAGATTTAGCACAAGCGCTAGCGTAA	MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVVEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHASIPADRRKELGITDTLIRISVGIEDGEDLIEDLAQALA	PGPT0001985_216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001985-mccB-K17217	NA	NA
AK009_04424	924	mccA	COG0031	O-acetylserine dependent cystathionine beta-synthase	ATGAATGTATATCGTGGAGTTCATGAGTTAATTGGTCATACACCAATTGTAGAAATTACTCGTTTTTCACTTCCGAAAGGGGTCCGCTTATTTGCAAAGCTTGAATTTTATAACCCAGGCGGAAGCGTTAAGGATCGTTTAGGAAGAGAATTAATCGAAGATGCGCTAGAAAAAGGGCTTGTTACCCAAGGTGGAACAATTATTGAACCGACTGCTGGGAATACTGGTATTGGACTGGCACTTGCAGCATTAGAACATGATTTACGTGTTATCGTTTGTGTACCAGAGAAATTTAGTATTGAAAAACAAGAATTAATGAAAGCACTAGGTGCAACGATCGTGCATACACCGACTGAGCAAGGAATGACCGGTGCAATTGCAAAAGCAAAAGAATTAGTAAATGAAATACCGAATTCATACTCTCCAAGTCAGTTTGCGAATGAAGCAAACCCGCGTGCTTATTTCAAAACACTAGGTCCTGAACTTTGGGATGCACTGAATGGAGAGATTAACATATTTGTTGCTGGAGCAGGAACTGGCGGTACGTTTATGGGGACTGCATCTTATTTGAAAGAAAAAAATATAGATATTAAAACAGTTATCGTAGAGCCAGAAGGATCTATTTTAAATGGTGGTAAGGCTGGTTCACATGAGACCGAAGGAATTGGACTGGAATTTATCCCGCCATTTTTGAAGACATCTTATTTTGATGAAATTCATACGATTTCTGATCGAAATGCATTTTTACGAGTGAAAGAATTAGCGCAAAAAGAAGGACTTCTCGTTGGGAGCTCTTCAGGAGCAGCATTTCATGCGAGCTTACTTGAGGCAGAGAAGGCAGCACCAGGTACAAATATTGTAACCATTTTTCCTGATAGTAGTGAGCGCTATTTAAGTAAAGACATATACAAAGGATGGGAATAA	MNVYRGVHELIGHTPIVEITRFSLPKGVRLFAKLEFYNPGGSVKDRLGRELIEDALEKGLVTQGGTIIEPTAGNTGIGLALAALEHDLRVIVCVPEKFSIEKQELMKALGATIVHTPTEQGMTGAIAKAKELVNEIPNSYSPSQFANEANPRAYFKTLGPELWDALNGEINIFVAGAGTGGTFMGTASYLKEKNIDIKTVIVEPEGSILNGGKAGSHETEGIGLEFIPPFLKTSYFDEIHTISDRNAFLRVKELAQKEGLLVGSSSGAAFHASLLEAEKAAPGTNIVTIFPDSSERYLSKDIYKGWE	PGPT0002810_7255	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
AK009_04425	696	mtnN_3	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	TTGAGAATTGCTGTAATTGGAGCAATGGAAGAAGAAGTACGTATTTTACGTGACAAATTAGAACAAGCAGAGACAGAAACGGTTGCAGGTTGTGAATTTACGAAAGGACTATTAGCAGGACATGAAGTAATCTTGTTAAAGTCTGGTATTGGTAAAGTAAATGCAGCGATGTCAACGACAATTTTATTAGAAAAATATAAGCCTGAAAAAGTAATTAATACTGGTTCAGCTGGTGGATTCCATCATTCTCTAAACGTTGGTGATGTAGTTATTTCCACTGAAGTTCGTCACCATGACGTAGATGTAACAGCATTTAACTATGAATATGGTCAAGTACCAGGAATGCCGCCTGGATTTAAAGCTGATGAGGCGTTAGTTGCATTAGCTGAGAAATGTATGCAAACTGAAGAAAATATTCAAGTTGTAAAAGGCATGATTGCAACAGGCGATTCATTTATGAGTGATCCGAACCGCGTTGCAGCCATCCGTGATAAATTTGAAAATCTTTATGCGGTAGAAATGGAAGCAGCAGCTGTCGCACAAGTATGCCACCAATATGAAGTTCCGTTTGTTATCATTCGCGCACTTTCTGATATTGCTGGTAAAGAATCAAATGTTTCATTTGATCAGTTTTTAGATCAAGCAGCTCTTCATTCTACAAACTTTATCGTAAAAGTGTTAGAAGAGTTAAAGTAA	MRIAVIGAMEEEVRILRDKLEQAETETVAGCEFTKGLLAGHEVILLKSGIGKVNAAMSTTILLEKYKPEKVINTGSAGGFHHSLNVGDVVISTEVRHHDVDVTAFNYEYGQVPGMPPGFKADEALVALAEKCMQTEENIQVVKGMIATGDSFMSDPNRVAAIRDKFENLYAVEMEAAAVAQVCHQYEVPFVIIRALSDIAGKESNVSFDQFLDQAALHSTNFIVKVLEELK	PGPT0014320_1857	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
AK009_04426	639			putative methyltransferase	ATGGGCACAGAATTTAATGGTTTATTTGATGAGTGGGCTCATACGTACGACTCATTCGTACAAGGCGAAGATATACAATATAAAGAAGTTTTCGCCCATTATGAGGATATTCTAGAGGATGTAGTTAACAAGTCATTTGGTAATGTATTAGAATTTGGTGTCGGTACAGGTAATTTAACAAATAAATTATTACTTGCTGGCCGCACAGTTTACGGTATAGAACCGTCGCGTGAAATGCGTATGATTGCAAAAGAGAAATTGCCAAAAGAATTTTCGATTACAGAAGGTGATTTTCTTTCGTTTGAAGTCCCAAATTCAATTGATACCATTGTAAGCACCTATGCATTTCATCATTTAACAGATGATGAAAAAAATGTAGCGGTTGCGAAGTATAGTCAATTGCTAAACAAAGGTGGTAAAATAGTGTTTGCTGATACGATATTTGCAGATCAAGATGTATATGATAAAACTGTTGAAACAGCAAAACAAAGAGGTTTTCACCAGTTAGCAAACGATTTGCAAACGGAATACTATACACGTATTCCAGTTATGCAGACTATTTTTGAAAACAATGGCTTCCATGTAACGTTTACGAGATTAAATCATTTCGTTTGGGTAATGGAGGCAACTAAGCAATAG	MGTEFNGLFDEWAHTYDSFVQGEDIQYKEVFAHYEDILEDVVNKSFGNVLEFGVGTGNLTNKLLLAGRTVYGIEPSREMRMIAKEKLPKEFSITEGDFLSFEVPNSIDTIVSTYAFHHLTDDEKNVAVAKYSQLLNKGGKIVFADTIFADQDVYDKTVETAKQRGFHQLANDLQTEYYTRIPVMQTIFENNGFHVTFTRLNHFVWVMEATKQ	PGPT0002810_18	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
AK009_04427	216			hypothetical protein	ATGTCATTTACCTTTGAAATGTTAGAAGATAAAGTAGAATTTTTTGAAGCGGGAGACTTAGCTTCTTTAGAACGAAAAATTAGTGAACAAATCGATAATAATAAAGCACTTATGCTTGAAGTTCATCACATCTCACATCAAATGGTTATGGATCCTGAAAGCAAAAGACCGTATTATAGCGCGGTTGTTCATTTTAAATTAAAGAAATTGCGTTAA	MSFTFEMLEDKVEFFEAGDLASLERKISEQIDNNKALMLEVHHISHQMVMDPESKRPYYSAVVHFKLKKLR				NA	NA	NA	NA	NA
AK009_04428	657			hypothetical protein	ATGGCAGGAGGATCAAGATTCCAACAGAAACAACAAAAACGTCGTCAAAACGGTGTTTTAAATATTGCAATCGCTATTGTATTACTATTAGTAGCTATTGTAGCATATCAATTGTTCGTTCCTAGTACGAAAGAGCAAGCATCTTCTACTGATAAGAAAGTCTCTCAACAAACAACAAAGAATGAGAAAGCTGGAAAATCAGAAGATAAAGAATCTGCTAAGAAAAAAGAAAAAGAGCAAGCAGAAGCTAAGCAAAAAGCTGAAGAAGAGAAGTTAAAGGCTGAGGAAGAAAAGAAAAAAGCTGAAGAAGAAGCGAAAGCTAACGAGAAAGTATCAGCTGAAAAAACTGTATCCAAGGCAAAAGAGGCTTATACAAAACCTTCTTGGAAAGCTGTAGGAACAGAACAAGGTTCATCACCAGCGATGACGTTTAAACAGGGGTCATCAGATTGGAATGAGATGCAAAGTGCAATTGCTGCAGGTATTGAAGTACCGAAGGAGCAATTAGTATTCCATTTTGTTGGAAGAGACAAAACTGGAAAGAGTAAAGCTTATGGTGACGTTCAAGATAAGCAAAGTGGAAAAAGATATTACGTAAATATTGATTGGGTAGATAATGAGGGCTGGAAACCAGTACTTGTTCAAACTCTAAACTAA	MAGGSRFQQKQQKRRQNGVLNIAIAIVLLLVAIVAYQLFVPSTKEQASSTDKKVSQQTTKNEKAGKSEDKESAKKKEKEQAEAKQKAEEEKLKAEEEKKKAEEEAKANEKVSAEKTVSKAKEAYTKPSWKAVGTEQGSSPAMTFKQGSSDWNEMQSAIAAGIEVPKEQLVFHFVGRDKTGKSKAYGDVQDKQSGKRYYVNIDWVDNEGWKPVLVQTLN				NA	NA	NA	NA	NA
AK009_04429	1755	pbpI	COG0768	Penicillin-binding protein 4B	ATGAAAATAAAACGGAGAATTGCAATTGTTTTAATTTGTTTTATGGGCATTATGTTTTTATTGCTTTGTCGTTTAATTCAAATCCAAATTATAGATACAGAATCATTTACTAATCGCAAAATAAATTTAATTGAAAAAAGTGTTACGCAACGTACGCAATCCATTGCAGTAGACGATGGACGTGGGCAGTTTATAGATCGTAATGGTAAAGAAATAGGGGAGGAAAAGTATCCTGTTTTAATTGTTTTTCCATTTTTACAAATAAAAAATGACATGTTAGAGAAAATCGCGCATATCATTGGTGTGTCGAGACAAGAGATCAGAAGACAAATGAAAAATAAAAAAAATGCATTTATACTGCAAGGGGAAACTGCTCCATTTCGAGTGACACGAGAGCAGATGGAGAAGGTGAATCAATTACATGTATTAGGTATTGTAGCAGCTGAAGTGCGATTAAAACAAACTGGGGAGATAAATCATTTAATTGGTGATGTAGGGGAGAACGAAAGAGAATTTCAAAAGCGATATGGAGAAGTGAAAAAAATTTCAAAACAAACGCCGATAGGTATTTCAGGATTACAGCAATCATTTGATGAATTTTTATTGACTGATGGAGAGGCAAAAGTATTGTATCAAGTAGATCGGCAAGGAGAACCAATTTTCGGAAAGCAAGCGAAATATACTTCACCAGGAAATCCATTTTACCCAGTTAGGATTCAAACTACTTTACATAAAGGGTTGCAGCAAAAAGCAGAAGAAGTGATTGAAGCAAATGAAATAAAGAAGGGGGGATTAGTATTACTTGATGTAAAGACAAATGAAATATTAGCGATGGTCAGTAAGCCGTCTTTACAAGTAAGAGATAAGAATTTATATAAGACTACACTTGAAAATCAAATGTTAACGCCGCATTTTCCAGGCTCTGTTTTTAAAACAGTAGTTGCAGCTGCAGTCATTGATCAAAAAGTAAATTTGTTTAATCGGACATTTAATTGTAATAAAGATTTATATGGTGAAAACGACCCACAAGTTATGATGGGTACACTTAACTTCAAAGAGAGCTTTGCTAGGAGCTGTAACAGGACATTTTCCGAGTTAGGTAACGAGCTATTACAAAAGGATAGGACGGTGCTAGAAACATACGTAGCAGCTTTAGGAGCAAATGAAAAGGTCGGATGGAAAGGTTCTGTATTTCATACACCTCATTTCGAGCAAATGCCAGAAGAAAAAGGCTCTACTATTTGGGGGAATGAAGAAAACAAAAATAGTAAAAAAGCGGTAGAGCAAACAGCGATTGGACAGAAAGATGTACGTATATCACCTCTAGCAATTGCTAATATGATGGCGACGATTGCGAGGAATGGAAAAAAGATGGAAGTGAAAGCTGTTGAAAAAATAGTATATAAAAATGGAGCGGATTTTTTTACATTTGAGAACCATACGTTACATGGAAAACAGCTTTCGTATGAAACAGTGAAAACATTACAAGAGTTATTAAGAGGCGTTGTAACAAGGGAGAAAGGAACAGGAACGGCATTCCGCTCGTTGCCGCTCAGTGTCGCTGGAAAATCCGGGACAGCGCAAACAGGGAAAGGGACGAGGGTGAATCGCTGGTTTGCAGGTTATTTTCCGTATGAGAATCCAAGATATGCTTTAGTTGTTGTTGATCTAGAGACTGATAACAAAGTGAATAAAGTCACACCTATTTTTAAAGATATGGTAGGAGCAATCTATCAATTGGAGAATGAAAAGTAA	MKIKRRIAIVLICFMGIMFLLLCRLIQIQIIDTESFTNRKINLIEKSVTQRTQSIAVDDGRGQFIDRNGKEIGEEKYPVLIVFPFLQIKNDMLEKIAHIIGVSRQEIRRQMKNKKNAFILQGETAPFRVTREQMEKVNQLHVLGIVAAEVRLKQTGEINHLIGDVGENEREFQKRYGEVKKISKQTPIGISGLQQSFDEFLLTDGEAKVLYQVDRQGEPIFGKQAKYTSPGNPFYPVRIQTTLHKGLQQKAEEVIEANEIKKGGLVLLDVKTNEILAMVSKPSLQVRDKNLYKTTLENQMLTPHFPGSVFKTVVAAAVIDQKVNLFNRTFNCNKDLYGENDPQVMMGTLNFKESFARSCNRTFSELGNELLQKDRTVLETYVAALGANEKVGWKGSVFHTPHFEQMPEEKGSTIWGNEENKNSKKAVEQTAIGQKDVRISPLAIANMMATIARNGKKMEVKAVEKIVYKNGADFFTFENHTLHGKQLSYETVKTLQELLRGVVTREKGTGTAFRSLPLSVAGKSGTAQTGKGTRVNRWFAGYFPYENPRYALVVVDLETDNKVNKVTPIFKDMVGAIYQLENEK	PGPT0023965_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023965-pbpI-K21468	NA	NA
AK009_04430	681			hypothetical protein	ATGAAACATAAAATCTTTACAGGATTGGTGTGTAGTATATCCATATTAGGACTTGCTGCATGCGGAACGAATGAAGAAACTACATCATCAAAGGGAGAAAAAGTAAAGCAAGAAGAAAAAAAGGATATTAAAGCAACTGAGAGTTCAAAAGCCTTAGAAAATCCACAAGATAAAAAGGAATTTAATGATTTTGATGTAGCGTATCAATTAGCTATTGTCATGAAAATATTTCAAGATGTAACGATTAAGTATGATTACGCAATTGGAAATCCAGATTATTTATTGCGAGATTCGATGGATCAAAAAACAATAGATGATATGAAGAATATGTTACAAGAACAGGCGAAGAATAATGATAAAATTTTAAAAGATGAAGTGAATCAAGCGTATACATATTTAAAACAATCGAAAGTAAGTAATAAAGATGATATTCAAAAAATAATAGATGCACAAAATAATTATTTACATATTGTAGATAAGATGATTACTTGTATTGATTCTGTAACAGTTGAGAATGCAAAAGAAAAAAGAAATGAAATGGATAATCTTAGTAAGGATTATTTAAAAATAGCGGCTAATGTAACAACCACTGTAATTGAAGTTGCTAAAAACACTGGAGTGAATGAAACTGAATTTAGATCGCTTCTTATGAAATTTTTAGAGAAGCCAAAGAAACAATAA	MKHKIFTGLVCSISILGLAACGTNEETTSSKGEKVKQEEKKDIKATESSKALENPQDKKEFNDFDVAYQLAIVMKIFQDVTIKYDYAIGNPDYLLRDSMDQKTIDDMKNMLQEQAKNNDKILKDEVNQAYTYLKQSKVSNKDDIQKIIDAQNNYLHIVDKMITCIDSVTVENAKEKRNEMDNLSKDYLKIAANVTTTVIEVAKNTGVNETEFRSLLMKFLEKPKKQ				NA	NA	NA	NA	NA
AK009_04431	528	greA	COG0782	Transcription elongation factor GreA	ATGGAACTCCTCTTTTTTTCGGGGGATTGGTATATAAAAGGAGTGGAAAATATGTCAACAGAAAAAACATACCCTATGACGCAAGAGGGTAAGCAAAAACTAGAGAACGAACTTGAGCAATTAAAAACAGTAAGACGTAAAGAAGTAGTAGAACGTATTAAAATCGCACGTAGCTTCGGGGACCTTTCTGAGAACTCTGAGTACGATGCAGCAAAAGATGAGCAAGCGTTCGTAGAAGGACGTATTACACAATTAGAAAATATGATTCGTAACGCAGTTATCATTAAAGATAATGGCGAAGTATCTACTGTTGTTACATTAGGTAAAACAGTAACATTTAAAGAATTACCAAACGGAGATGAAGAAGCGTACACAATCGTAGGTAGCGCGGAAGCTGACCCATTTGAAGGAAGAATTTCTAACGATTCTCCAATCGCAAAAAGCTTATTAGGTAAGCAAATTGGTGAGAAAGTAACAATCCAAACACCAGGCGGAGAAATGCAAGTAGAGATTGTCTCTGTAAAATAA	MELLFFSGDWYIKGVENMSTEKTYPMTQEGKQKLENELEQLKTVRRKEVVERIKIARSFGDLSENSEYDAAKDEQAFVEGRITQLENMIRNAVIIKDNGEVSTVVTLGKTVTFKELPNGDEEAYTIVGSAEADPFEGRISNDSPIAKSLLGKQIGEKVTIQTPGGEMQVEIVSVK	PGPT0030495_94	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
AK009_04432	639	udk_3		Uridine kinase	ATGGGGACGAATAAGCCTGTTGTAATTGGAATTGCTGGTGGTTCGGGATCAGGTAAAACGAGTGTAACGAAAGCGATTTTTGACCATTTTAAAGGTCATTCTATTTTAATCTTAGAGCAAGATTATTATTACAAAGATCAAAGCCATTTACCAATGGAAGAGCGTTTAAAAACAAATTATGATCATCCGCTTGCGTTTGATAATGATCTGTTAATTGAACATTTGCAGCAGTTGCTTGCATATGAGCAAATTGATAAGCCTGTATATGACTATACATTGCATACACGTTCAGAAGAAATTATTCCAGTTGAGCCGAAAGATGTAATTATTTTAGAAGGAATTCTTATTTTAGAAGACCCACGTCTTTGCGAGTTAATGGACATTAAATTATTCGTTGATACGGATGCTGACCTTCGTATTCTGCGCCGCATGCAGCGTGATATTAAAGAGCGCGGTCGTACGATGGATTCAGTTATTGATCAGTACGTAACTGTTGTACGTCCAATGCACAATCAATTTATTGAGCCTTCTAAGAAATTTGCGGATATTATTATCCCTGAAGGTGGACAAAACCATGTTGCAATTGATATTATGGTGACAAAAATTGCAACAATTCTTGAACAAAAAGTAAATTTGTAA	MGTNKPVVIGIAGGSGSGKTSVTKAIFDHFKGHSILILEQDYYYKDQSHLPMEERLKTNYDHPLAFDNDLLIEHLQQLLAYEQIDKPVYDYTLHTRSEEIIPVEPKDVIILEGILILEDPRLCELMDIKLFVDTDADLRILRRMQRDIKERGRTMDSVIDQYVTVVRPMHNQFIEPSKKFADIIIPEGGQNHVAIDIMVTKIATILEQKVNL	PGPT0021230_2892	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK009_04433	1281			hypothetical protein	ATGACTGTACAAGAAATTTCACGAGTGATCGATGGCAAACGTGTTATTGTGAAGAAACCTGAACTGTTAATCCCTGCGGGTAACTTAGAAAAATTAAAAGTAGCTATCCATTACGGGGCAGATGCTGTATATTTAGGTGGACAAGAATTTGGTCTTCGTTCGAATGCAGGTAATTTTACGCTAGAAGAAATGGCAGAAGGCGTTGAGTTTGCAAAGAAGTATGGAGCAAAAATATACGTAACAACAAATATCTTTGCACATAATGAAAATATGGACGGGCTAGAGGAATATTTAAAAGGGATTGAAAAAGCTGGCGTAACGGGGATTATCGTTGCTGATCCGCTTATCATTGAGACTTGTAAACGTGTAGCGCCTTCTGTTGAGGTGCATTTAAGCACACAGCAATCACTATCCAACTGGAAAGCAGCACAGTATTGGAAAGAAGAGGGTTTACATCGTCTTGTATTAGCTCGTGAAGCAAGCTATGAAGAAATGAAAGAAATCAAAGAAAAAGTGGATATTGAAATTGAAGCATTCGTCCATGGTGCAATGTGTATCGCATATTCAGGAAGATGTACATTAAGTAACCATATGACAGCGCGTGACTCTAATCGTGGCGGTTGTTGCCAATCTTGCCGCTGGGATTATGATTTAGTTCAAACAGTATCACAACATAAAGATGCAAAAGAGCTTCCTCTATTCCAAGAAGAAGATGCTCACTTTGCGATGAGTCCAAAAGATCTAAATTTAATTTTATCAATTCCGAAAATGATTGAAATTGGAATCGATAGCTTAAAGGTAGAAGGACGTATGAAATCAATCCATTACGTAGCGACTGTAGCAACCGTATATCGTAAAGTAATTGATGCTTATTGTGCGGATCCAGATAACTTTGAGTTTAAACAAGAATGGTTAGATGAGCTTGATAAATGTGCAAATCGTGATACAGCTCCTGCATTCTTTGAAGGGGTTCCAGGACATCAAGAGCAAATGTTTGGAAATCATAGTAAGAAAACAACGTATGATTTTGCTGGTTTAGTGTTAGATTATAATGAAGAAACGGACATCGTAACGATTGAGCAACGTAATCATTTCAAACCAGGACATGAAGTGGAGTTCTTTGGACCAGAAATAGAAAACTTTACGCAAACGGTGGAGAAAATTTGGGATGAGGATGGAAACGAATTAGATGCAGCGAGACATCCGTTGCAAATCGTGAAATTCAAAGTGGATCAACGAGTGTATGTGAATAATATGATGCGCAAAAGCATACTTCAATAA	MTVQEISRVIDGKRVIVKKPELLIPAGNLEKLKVAIHYGADAVYLGGQEFGLRSNAGNFTLEEMAEGVEFAKKYGAKIYVTTNIFAHNENMDGLEEYLKGIEKAGVTGIIVADPLIIETCKRVAPSVEVHLSTQQSLSNWKAAQYWKEEGLHRLVLAREASYEEMKEIKEKVDIEIEAFVHGAMCIAYSGRCTLSNHMTARDSNRGGCCQSCRWDYDLVQTVSQHKDAKELPLFQEEDAHFAMSPKDLNLILSIPKMIEIGIDSLKVEGRMKSIHYVATVATVYRKVIDAYCADPDNFEFKQEWLDELDKCANRDTAPAFFEGVPGHQEQMFGNHSKKTTYDFAGLVLDYNEETDIVTIEQRNHFKPGHEVEFFGPEIENFTQTVEKIWDEDGNELDAARHPLQIVKFKVDQRVYVNNMMRKSILQ	PGPT0021005_2149	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
AK009_04434	930	rlhA	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGAAGAAACCTGAATTGTTAGTAACGCCAAGAGCGGTGGCGGATATCGAACTTCTTGCGAAAGCAGGAGCAGATGCGGTAATGATCGGTGAGCAAAAGTTTGGTTTACGTTTAGCAGGGGAGTTTTCACGTGAAGATGTAAAACAAACTGTGAAGATTGCACATGAAAATGGTGTGAAAGTATACGTAGCCATGAACGCTATGTTCCACAACGATAAAGTAGAAGAATTAACAGATTACGTTTCATTTTTAAATGAAGTAAATGTAGATGCAATTGTTTTCGGAGATCCAGCAGTATTAATGGCTGTTCGCGAAGTAGCGCCAAATATGCAGTTGCACTGGAATACAGAAACGACAGCAACAAACTGGTTCACTTGTAATTACTGGGGACAAAGAGGAGCGAAGCGCGCTGTATTAGCTCGTGAGCTGAGCTTAGATGAAATTGTTGATTTAAAAGAAAATGCTGAAGTGGAACTAGAAGTACAAATTCACGGTATGACTTGTATGTTCCAATCGAAGCGTTCATTAGTAGGAAATTACTTTGAGTATCAAGGACGTAATCTTGACATTGAAAAGAAAAAATATGAAGAGAATATGTTCTTATATGACCCAGAGCGTAACAATAAATATCCAATTTATGAAGATGAAAATGGTACTCATATTATGAGTCCGAACGATATTTGTTTCATCGATGAATTAGAGGAACTAATCGAAGCTGAAGTTGACAGCTTAAAAATCGATGGTGTACTAAAAAGCTCTGAATACATTATTGAAGTAACGAAGAAATATCGTCAAGCGATTGATTTATGTGTGGAAGATCGTGATGCATATTATGACTTGAAAGATGCTCTATATAAAGAAATAGAAGAAATGCAACCAGTAAATCGTCCGTTAGACACAGGATTCTTCTTTAAAGAAACGGTTTACTAA	MKKPELLVTPRAVADIELLAKAGADAVMIGEQKFGLRLAGEFSREDVKQTVKIAHENGVKVYVAMNAMFHNDKVEELTDYVSFLNEVNVDAIVFGDPAVLMAVREVAPNMQLHWNTETTATNWFTCNYWGQRGAKRAVLARELSLDEIVDLKENAEVELEVQIHGMTCMFQSKRSLVGNYFEYQGRNLDIEKKKYEENMFLYDPERNNKYPIYEDENGTHIMSPNDICFIDELEELIEAEVDSLKIDGVLKSSEYIIEVTKKYRQAIDLCVEDRDAYYDLKDALYKEIEEMQPVNRPLDTGFFFKETVY	PGPT0021005_3272	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
AK009_04435	642	trmR_2	COG4122	tRNA 5-hydroxyuridine methyltransferase	ATGGAGGATGCAGTTAACGAGTACCTATTATCATTTATTGATCCGAAAGATAAATTAATTCTTGAAATGGAAGAATATGCAACAGAAAATCATGTGCCGATTATGGATCGACTTGGAATGGAATTTATGCTGCAATTTTTACGTTTAATTGGACCGAAAAGCATTTTAGAACTTGGAACAGCAATCGGTTATTCTAGTATTCGTATGATGCAAGCTATTTCAAATTCACGTATTGTGACAGTTGAGCGCAATCGTGAGCGATATGAAAAAGCACTTGAATATATAGAACGTTCCCCAGTAACAGATCGTATTTCAGTTATTTACGGTGATGCGTTAGAGACAGGTGAACAAGTAAAAGAACACGGGACATTTGACGTTATTTTTATTGATGCAGCAAAAGGACAGTATCGTCGCTTTTTTGACTTATATGAACCGTTATTAAATCCTGGTGGCGTAATTATTTCAGATAATGTTATGTACCATGGTCTTGTAACGACAAAAGAGAAAATTGAAAACAGACGTACACGTGGTTTAATCCGTCGTATTAAGACGTACAATGAGTGGCTTATGAACCATGAAGGATACGATACAACGATTTTCCCAATTGGTGATGGAGTAGCTGTTAGTAAAAAGAGAGGGTGA	MEDAVNEYLLSFIDPKDKLILEMEEYATENHVPIMDRLGMEFMLQFLRLIGPKSILELGTAIGYSSIRMMQAISNSRIVTVERNRERYEKALEYIERSPVTDRISVIYGDALETGEQVKEHGTFDVIFIDAAKGQYRRFFDLYEPLLNPGGVIISDNVMYHGLVTTKEKIENRRTRGLIRRIKTYNEWLMNHEGYDTTIFPIGDGVAVSKKRG				NA	NA	NA	NA	NA
AK009_04436	1071	mltG		Endolytic murein transglycosylase	TTGATAGAGAATCAAGTGAAAAAGAAGCGTAGACGCATCTTTTTATTTTCGATTATTGCACTGCTTTTAGTTTGTGGTTCAGTCTATGCGTATATTTCATCCGCATTAGGACCAGTTGATAGCGGGAATAAAAAAGAGATTGAAGTAGAAATTCCGAAAGGATCATCTACAAGTAAAATTGGAGAAATTTTAGAAGAAAAAGGCGCTGTGAAAAACGGTACAGTTTTTAGTTTTTATACAAAGGCTAAATCGAAAAGTTTACAAGCAGGTACATATTTATTAAATCCTTCGATGAATGCTAAAGATGTTATCGAACAAATGTCATCTGGCAACGTGCATCGTCCAGCTCTTTATAAAGTGACGATCAAAGAAGGAGCTCAAGTAACTGAAATTGCAGAAACGATTGCGGCAGAACTAAAGTGGAATAAAGATGATGTTACGCGTCAATTAAACGATAAAGCATTTATTCAAAAAATGCAGCAAAAGTATCCGAAGTTATTAACGGATAAAATCTTTGATAGTAATATTAAATACCCATTAGAAGGTTATTTATATCCTGCGACGTATTCATTTTATAAGAAAGATACGACGTTAGAAGAAATCGTAATTCCGATGCTTGAGAAAACAAATGCAATCATTGTTCAAAATGAGGCAAAAATGAAAGCAAAGAACTGGGATGTTCATCAGCTTTTAACATTATCTTCACTTATTGAAGAAGAGGCAACTGGTTTTACAGATCGTCAAAAGATCTCTAGTGTCTTTTATAATCGTTTAGAGAAAGGTATGCCGCTTCAAACGGATCCAACGGTATTATATGCACTTGGAAAGCATAAACAACGTGTATTATACGAAGATTTAAAGGTCAACTCACCGTACAATACGTATGTTGTAAAAGGATTGCCGGTAGGGCCGATCGCAAACTCTGGTAAACATTCAGTGGAAGCTGCGTTAGAACCTGCGCAAACAGATTATTATTATTTCTTAGCTGCACCAAGTGGTGAAGTGTACTATGCGAAAACATTAGAAGAGCATAATGCATTAAAGCAAAAATACATTACGAAAAAACAGTGA	MIENQVKKKRRRIFLFSIIALLLVCGSVYAYISSALGPVDSGNKKEIEVEIPKGSSTSKIGEILEEKGAVKNGTVFSFYTKAKSKSLQAGTYLLNPSMNAKDVIEQMSSGNVHRPALYKVTIKEGAQVTEIAETIAAELKWNKDDVTRQLNDKAFIQKMQQKYPKLLTDKIFDSNIKYPLEGYLYPATYSFYKKDTTLEEIVIPMLEKTNAIIVQNEAKMKAKNWDVHQLLTLSSLIEEEATGFTDRQKISSVFYNRLEKGMPLQTDPTVLYALGKHKQRVLYEDLKVNSPYNTYVVKGLPVGPIANSGKHSVEAALEPAQTDYYYFLAAPSGEVYYAKTLEEHNALKQKYITKKQ				NA	NA	NA	NA	NA
AK009_04437	279			hypothetical protein	ATGGAAGAAAATCAAATTACAATTGTAGACGAAAAAGGTAACGAACATTTATGTGAAATTATTTTCACTTTTGATGCTGAAAAATTTGGTAAAAAATCATACGTAGTCTTCTCTCCAATCGGTGAAGTAGACGAAGATGGAGACCAAATTTATGATGCAATGGCTTATGAGCAAAATGAAGAAGAGGGCGGAAGTTTACTTCCAATCGAATCTGAAGAAGAGTGGGAAATGGTACAAGAAATGTTCAACACTCTTGCTGATGAGCAAGAAGCTGAATAA	MEENQITIVDEKGNEHLCEIIFTFDAEKFGKKSYVVFSPIGEVDEDGDQIYDAMAYEQNEEEGGSLLPIESEEEWEMVQEMFNTLADEQEAE				NA	NA	NA	NA	NA
AK009_04438	414	yrrK	COG0816	Putative pre-16S rRNA nuclease	ATGCGGATATTAGGTTTAGATGTAGGTACAAAAACAGTCGGAGTTGCAATGAGCGACGAAATGGGCTGGACAGCACAAGGATTAGAAACAATTAAGATTAACGAAGAACGAGGTCACTTTGGTTTTGATCGTATTTCTGAGTTAGTAAAGCAGTACAATGTGGACAAAATAGTAGTAGGTTTACCTAAAAATATGAATGGTACAATTGGCCCACGTGGTGAAGCGTGCCAACAATTTGCAGAAAACCTACGAGAGCTGTTACAATTAGACGTTGTAATGTGGGACGAGCGTTTGTCGACGATGGCAGCGGAACGTCTACTCATTTCAGCGGATGTAAGCCGTAAGAAGCGAAAACAAGTAATCGATAAGATGGCTGCAGTCGTAATCTTACAAGGATTTTTAGATAGTAAATAA	MRILGLDVGTKTVGVAMSDEMGWTAQGLETIKINEERGHFGFDRISELVKQYNVDKIVVGLPKNMNGTIGPRGEACQQFAENLRELLQLDVVMWDERLSTMAAERLLISADVSRKKRKQVIDKMAAVVILQGFLDSK				NA	NA	NA	NA	NA
AK009_04439	267			hypothetical protein	ATGGACGGTTTTGATAAAACAATGAAGTTTAGCATTCAAGATGAAAAACAGAGTGTCCATGTAAATGATGTACTTTTAACTGTGTATGATGCACTTCAAGAAAAAGGCTATAATCCGATTAACCAAATCGTCGGTTATTTATTAAGTGGAGACCCAGCATACATACCTCGCCATAAAGATGCACGAAGCATCGTTCGTAAGCTTGAACGTGATGAGATCATTGAAGAGCTTGTGAAGTCTTACTTGAAACATCATCGTGAGGAGTAG	MDGFDKTMKFSIQDEKQSVHVNDVLLTVYDALQEKGYNPINQIVGYLLSGDPAYIPRHKDARSIVRKLERDEIIEELVKSYLKHHREE				NA	NA	NA	NA	NA
AK009_04440	2643	alaS_3		Alanine--tRNA ligase	ATGAAACAACTAACAGGCGCACAAATTCGTCAAATGTTTTTAGACTTTTTCCAAGAAAAAGGACATGCAGTAGAACCTAGTGCATCACTAGTTCCACATGAAGATCCATCTCTTCTATGGATTAATAGTGGTGTAGCTACATTAAAAAAATATTTTGATGGACGTGTAATCCCACAAAATCCACGTATTACAAATGCTCAAAAATCAATTCGTACAAACGATATTGAAAACGTAGGGAAAACAGCTCGTCACCATACATTCTTTGAAATGTTAGGAAACTTCTCAATCGGTGATTACTTCAAAGAAGAAGCAATTACATGGGCTTGGGAATTCTTAACGAGCGACAAATGGATCGGATTCGATAAAGAATTACTATCAGTTACAATCCATCCAGAAGATGAAGAAGCATTCACAATTTGGAATGAAAAAATGGGCGTTCCAAAAGAGCGTATTATCCGCTTAGAAGAAAACTTCTGGGATATTGGTGAAGGACCAAGTGGACCGAATACAGAGATTTTCTATGACCGCGGGGAAGCTTACGGTAATGACTTTAGTGACCCAGAATTATATCCAGGCGGAGAAAACGAGCGTTACTTAGAAGTATGGAACCTTGTATTCTCTCAATTTAACCATAATCCAGACGGTTCATATACACCACTTCCTAAGAAAAACATTGATACAGGGATGGGTCTAGAACGTATGACATCTATCGTTCAAGATGTGCCTACAAACTTTGATACAGACCTATTCATGCCGATGATTGGTGCAACAGAATCAATTTCTGGTGAGAAATATCGTAATGGCGATTTAGAAAAAGATATGGCATTCAAAGTAATTGCTGACCATATCCGTACAGTAACATTCGCTGTTGGTGACGGTGCTCTTCCATCTAACGAAGGTCGTGGTTATGTATTACGTCGCTTATTACGCCGCGCTGTTCGTTATTCGAAGAAATTAAACATTAACCGTCCATTCATGTTTGAATTGGTACCGGTTGTTGGAGAAGTAATGAAAGACTTCTATCCAGAAGTACTTGAAAAGAAAGATTTCATTGCGAAAGTTGTGAAAAATGAAGAAGAGCGTTTCCATGAAACACTTCATGATGGTGAAGCAATTTTAGCTGAAGTTATTGCAAAAGCAAAAGAAGAAAAAACAACTGTTATTTCTGGAGTAGATGCGTTCCGTCTATATGACACATACGGTTTCCCAATCGAATTAACAGAAGAATATGCAGAAGAAGCTGGTATGACAGTTGACCAAGAAGGCTTCGAAAATGAAATGGAAAAACAACGTGAGCGTGCACGTGCTGCTCGTCAAGACGTTGACTCAATGCAAGTTCAAGGCGGTGTACTTGGAGAAGTTAAAGTAGCGAGTGAGTTCGTTGGTTACGGTACAGTTGCAACGGAAAGTAACGTTGTTGCACTTGTGAAAAACGGTGAGTACACAGATAGCTTACAAGCAGGGGAAGAAGGACAGTTAATTCTTGACGTAACACCATTCTACGCTGAGAGCGGTGGACAAATTGCTGACCGTGGTTACCTTCTTGCTGACGGCGTGAAAGTTCTTGTAAAAGACGTACAAAAAGCACCAAATGGTCAAAACTTACACAAAGTAGCTGTGGAAGAAGGCACGTTAACGAAAGATGCAGCTGTGAAAGCTGTTATCGATACGAAAAACCGTAGTAGCGTTGTGAAAAATCATACAGCAACTCACTTACTACACCAAGCATTAAAAGACGTACTTGGAACGCATGTTAATCAAGCAGGTTCTCTTGTAACTTCTGAACGTCTACGCTTTGACTTCTCTCACTTCGGTCAAGTGCAAGCTGACGAATTAGAAAAAATTGAGCGTATGGTAAACGAGAAAATTTGGGAAAGTATTAACGTTGAGATTTCTCAAAAATCAATCGGAGAAGCAAAAGAAATGGGCGCAATGGCATTATTCGGTGAAAAATACGGAGATGTTGTACGCGTTGTACAAGTTGGCGATTACAGCTTAGAGCTTTGCGGTGGTTGTCACGTTGATAATACAGCTTCTATCGGTATTTTCAAAATCGTTGCTGAGTCTGGTATCGGTGCAGGAACTCGTCGTATTGAGGCGGTAACTGGTAAGTCTGCATACGAATTAATGAACGATCAAGTAGGTTTATTAAAAGAAGCAGCAGGAAAAATGAAAACAAATCCGAAAGATATTTTAACAAGAGTTGATGGTCTATTTGCTGAAGTGAAACAACTTCAAAAAGAAAACGAATCTCTTGCTGCGAAATTAAGCAATATTGAAGCTGGAAACTTAACTGATTCTGTAATGACAGTTGATGGTGTGAATGTATTAGCAGCGAAAGTAAATGTTGCAGATATGAACAACTTACGTACGATGATGGATGATCTAAAAAATAAATTAGAGTCAGCAGTTGTTGTATTAGCGTCTGTTAATGACGATAAAGTAAACATCCTAGCAGGTGTAACGAAAGACTTAATTAGCCAAGGTTACCATGCTGGTAAACTTGTGAAAGAAGTAGCTTCTCGTTGCGGCGGTGGCGGTGGTGGCCGTCCTGATATGGCACAAGCAGGTGGTAAAAACCCAGCTCAAGTCGAAGAAGCTTTAGCATTTGTACAAGAGTACGTTAAATCTGTTTCAAAATAA	MKQLTGAQIRQMFLDFFQEKGHAVEPSASLVPHEDPSLLWINSGVATLKKYFDGRVIPQNPRITNAQKSIRTNDIENVGKTARHHTFFEMLGNFSIGDYFKEEAITWAWEFLTSDKWIGFDKELLSVTIHPEDEEAFTIWNEKMGVPKERIIRLEENFWDIGEGPSGPNTEIFYDRGEAYGNDFSDPELYPGGENERYLEVWNLVFSQFNHNPDGSYTPLPKKNIDTGMGLERMTSIVQDVPTNFDTDLFMPMIGATESISGEKYRNGDLEKDMAFKVIADHIRTVTFAVGDGALPSNEGRGYVLRRLLRRAVRYSKKLNINRPFMFELVPVVGEVMKDFYPEVLEKKDFIAKVVKNEEERFHETLHDGEAILAEVIAKAKEEKTTVISGVDAFRLYDTYGFPIELTEEYAEEAGMTVDQEGFENEMEKQRERARAARQDVDSMQVQGGVLGEVKVASEFVGYGTVATESNVVALVKNGEYTDSLQAGEEGQLILDVTPFYAESGGQIADRGYLLADGVKVLVKDVQKAPNGQNLHKVAVEEGTLTKDAAVKAVIDTKNRSSVVKNHTATHLLHQALKDVLGTHVNQAGSLVTSERLRFDFSHFGQVQADELEKIERMVNEKIWESINVEISQKSIGEAKEMGAMALFGEKYGDVVRVVQVGDYSLELCGGCHVDNTASIGIFKIVAESGIGAGTRRIEAVTGKSAYELMNDQVGLLKEAAGKMKTNPKDILTRVDGLFAEVKQLQKENESLAAKLSNIEAGNLTDSVMTVDGVNVLAAKVNVADMNNLRTMMDDLKNKLESAVVVLASVNDDKVNILAGVTKDLISQGYHAGKLVKEVASRCGGGGGGRPDMAQAGGKNPAQVEEALAFVQEYVKSVSK				NA	NA	NA	NA	NA
AK009_04442	345			hypothetical protein	ATGACAACCTTACTTAGCAAAGCTAAAAACATATTAGCGACTAACGAAACAATATTACTTTACGCAGCATGTTCATTAGACATATTTATTTATCGTTCCGTCGCGAGACCAGGCCTATTGATTTTAACGAACAAAAGGCTATTCTTTTATGGACCAGATGTAAGTAACAATCCAATATTTGAAGAGTACTCTTTCGCAAAAATTTCTAATCTAAAAGAACAAAAGCGTCTTTTCAACAATCAAATTGTATTTATATATGATAACGAATGGAAAAAAATAAAACATATTCAAACAAATGATGTGAGCTCCCTCGTTCAAAAGATACACGAGCAGATTTCTAAATAA	MTTLLSKAKNILATNETILLYAACSLDIFIYRSVARPGLLILTNKRLFFYGPDVSNNPIFEEYSFAKISNLKEQKRLFNNQIVFIYDNEWKKIKHIQTNDVSSLVQKIHEQISK				NA	NA	NA	NA	NA
AK009_04443	1068		COG0628	Putative transport protein	GTGAAGAATCTTAAAATCATTTGGATATATCGTTTAGGATTATTATTACTTGTTTTTCTTTGTTTGCTCGTCTTTTTAAAAATTAAGCCACTATGGGCACCGATTATTTTTGTATTTAAAGTAGCAATCACGCCATTTCTTATCGCTTGTTTTATTGCGTATTTATTGCACCCTTTAATTGAAAAAATCCATAAGGAAGGGATGCCCCGTACACTTGCCATTTTGCTTATTTATATCCTTTTCTTTGGCGGAATTGGTTGTGGGATTTATAAAGGAACGCCAGTCGTTATTAAACAGTTACAAGAGATTAATGAACAATTTCCGCAGTTTACAAAGATGTACGATTCGTGGATGGATGGCGTTACAGAACAAACAGCGAATTTCCCTTCGTTCATTCATGAAAAGGTGAAACAACTTTTTGTGGGTGTGGAAACGAAGATTCAAGCGCTTTTAAATAAAGTGATGAGTACAGCTCGTGGTGTACTCGATTCATTGCTCATTATTTTCTTAATACCGTTCATTGTATTTTACATATTAAAAGATTATGGTGAGTTTTATCATATCTTTTGGAAACTAGTCCCAAGTAAATGGCGAGGTACGGGGCAAATGCTTGCGAAAGAAATTGATAAGTCACTTGGAAGTTATATTCGAGGACAGTTATTTGTTTGTTTGGTATTAGGGGGAGTATCAGCTCTTTCTTTTTGGTTTATCGGTATGAAATATCCATTATTGCTTGGTATTATTATTGGGGTAACGGATATAATCCCGTACTTCGGCCCTATTTTAGGAGCGATCCCGACGTTAATGATTGCAGCAACAGTATCAACGAGCTTACTTATTAAGGCGGGTATTACGATTGCTATTTTGCAATTTGTGGAAAGTAACATTTTATCGCCTTACATTGTTGGTAAGTCACTTCGTATGCATCCCGTTATTATTATGCTTGCATTACTAGTTGGAGGGGAAGTAGCTGGTATTGTAGGGTTACTAATATCGGTTCCCATCTTAGCAGTTATTCGCACCGTCATTGTTCATGTGAAGCCTCTCTTGAAAAAAGAAGATGTGTAA	MKNLKIIWIYRLGLLLLVFLCLLVFLKIKPLWAPIIFVFKVAITPFLIACFIAYLLHPLIEKIHKEGMPRTLAILLIYILFFGGIGCGIYKGTPVVIKQLQEINEQFPQFTKMYDSWMDGVTEQTANFPSFIHEKVKQLFVGVETKIQALLNKVMSTARGVLDSLLIIFLIPFIVFYILKDYGEFYHIFWKLVPSKWRGTGQMLAKEIDKSLGSYIRGQLFVCLVLGGVSALSFWFIGMKYPLLLGIIIGVTDIIPYFGPILGAIPTLMIAATVSTSLLIKAGITIAILQFVESNILSPYIVGKSLRMHPVIIMLALLVGGEVAGIVGLLISVPILAVIRTVIVHVKPLLKKEDV				NA	NA	NA	NA	NA
AK009_04444	213			hypothetical protein	ATGGTTTTGTTTATGCTTGGATTATCAGCACTTTTTATGATTCTTGAATGGATTTGTATCGGGTTTGGTATTTGGAAGGGGTTCTTTATTCGTTCCTCACGTAAAGAAAAAGCGAAGCAATTATGGCAGTATGGAATACTCGGCGTTGGCTGCTACGGTCTATCTTATCTTTTCTCAGAAATCGGACTTTTTTATTTGCATATGAGCGCATAA	MVLFMLGLSALFMILEWICIGFGIWKGFFIRSSRKEKAKQLWQYGILGVGCYGLSYLFSEIGLFYLHMSA				NA	NA	NA	NA	NA
AK009_04445	129			hypothetical protein	TTGAATCTACGCAATTCATTAATCGCATTAGGTGTTGGAGCTGCAGCATATCAATATGCTCGTAAGCAAGATGTATTTTCAAAACGCAATATGAAAAAAGCACGTAAGATGATTAAATCTTACTTATAA	MNLRNSLIALGVGAAAYQYARKQDVFSKRNMKKARKMIKSYL				NA	NA	NA	NA	NA
AK009_04446	189			hypothetical protein	ATGTTCATTTGTCCAAATTGCAAAGGGAAAGACATTGGAAAAATAGGTGTCAACCAATTTTATTGCTGGAATTGTTATATCGAATTATCGGTTTCAAAGGGGAAAATCCATACGCATCAAGTTGAGGAAGATGGTTCATTAAGCTCTCTTGATGATTTATTTGATGAGAATGAAAGAACGATCGGATAA	MFICPNCKGKDIGKIGVNQFYCWNCYIELSVSKGKIHTHQVEEDGSLSSLDDLFDENERTIG				NA	NA	NA	NA	NA
AK009_04447	2337	recD2_2	COG0507	ATP-dependent RecD-like DNA helicase	ATGGGAAATCAACATGCAATGGATTTGTTTGAGGAAGAGAAAAAGTTTATAAAAGCGCAAGTTCTTCATACCATTTTCCACAACGAAGAAAACCTCTATTCCGTTGTCAGTATGAAAGTCATTGAAACGAATGAAACATATGACGAAAAGAAAGTAATGATAAACGGTCATTTTCCCCGCATGCATGAAGATGAAGTGTTTACATTGACAGGTCACTTTAAGGACCATCCAAAGTATGGAAAACAATATATGGTTGAAACATTTAAAAAAGAATTGCCGCAAACAAAAGCAGGTATGGTGCAATATTTAGCGAGTGATTTATTTAAAGGGATAGGAAAGCGTACAGCGGAAAAAATTGTGGATCATCTCGGGGAACATGCTATTTCTAAAATTATGGATGACCCTGAGGCGTTAAATGGTGTTGTTAACAAACAAAAGGCTCAGGAAATATATGAGACAATTGTTGAACATCAAGGATTAGAGAAAGTAATGAGCTTTTTAAATGGTTACGGTTTTGGAACGAAACTTTCTATTAAGATTTACCAGCAATATAAAGAGATGACATTAGAAGTGATTCGTAATAATCCGTATCAACTTATTGAAGAAGTGGACGGGATTGGTTTTGGACGAGCGGATGATATAGGGCGTGCGTTAGGAATATCGGGTAATCACGACGACCGTGTACGAGCGGGATGTTTTTACACATTAGAGAATGTCTCATTGCAACTTGGTCACGTTTATATGAGGAAAGATCAACTTGTAAGAGAAACGATGTCACTTTTAAACAATCAAGAAGGAAGAGTGACTGAGGAAGATATTATAGGTTGTATTGAAACGATGCAAAGTGAAGGGAAAGTCATCATAGAAGAAGAACGAGTGTATTTAGCAACTTTATTCTACTCTGAAAAAGGTGTTGTAAAGTCTATTCGTCGATTGATGAATCAAGAGGAAACACCTTCATTTCCTGAAGCAGAAGTGTTAAAAACATTAGGTGAAATTGAAGAACAGTTAAACGTGCAGTATGCACCGTTTCAGCAAGAAGCGATTCAAACGGCACTTCATAAGCCAATGATGTTATTAACAGGTGGACCAGGAACGGGGAAAACAACTGTTATTAAAGGGATTGTTGAAATGTATGCGTCACTTCACGGATTATCGTTAAATCCGAATGAATACAGTGATGATAATCCATTTCCAATACTATTAACAGCTCCAACAGGAAGAGCAGCGAAGCGGATGAGTGAATCGACAGGACTTCCAGCTTGCACAATTCACCGTTTGCTTGGCTGGACGCCAGAAGGATCTTTCCAGCGTAATGAAACGGATCCTGTCCAAGGTAAGCTCCTTATTATTGATGAATTTTCAATGGTTGATATTTGGCTTGCGAATCAGCTATTTAAGTCGCTACCGACGAACATTCAAGTTATCGTTGTAGGTGATGAAGATCAGTTGCCATCTGTAGGACCTGGACAAGTATTAAAAGATTTATTAAATGCAGGCGCAGTTCCGACAGTGAAGCTTACTGAAATTTATCGTCAAGCAGAAGGCTCATCTGTTATTCAACTTGCCCATGCAATCAAAGACGGCACGCTCCCGCCAGATTTAGCACAAAATAAAAAAGATCGTTCATTTATCAGCTGTACAGGGGCTCAAATTGTTGAGGTTGTGAAAAAAGTTTGCGAAAATGCTAAAACAAAAGGATTTAGTGCAAGGGATGTCCAAGTATTAGCGCCGATGTACCGCGGGCCTGCTGGTATTAATGTATTAAACGAAGCATTGCAACAAGTATTTAATCCGAAGAGGGAAAAGAGTAAAGAAATTGCTTACGGTGATGTTGTGTACCGAAGAGGCGATAAAGTACTGCAACTCGTTAATCAGCCAGAGAGCCAGGTGTTTAATGGTGATATTGGAGAAATTGTTTCGGTGTTTTATGCGAAAGAAAACGTTGAGCAACAAGATATGATTATCGTTTCATTTGATGGAATTGAGGTAACGTATACAAAGCCCGATTTAAATCAAATTACGCATGCATATTGTTGTTCCATTCATAAATCACAAGGTAGTGAATTTCCGATTGTTATTATGCCGATCGTGAAAAGTTACAACCGTATGTTACGTCGTAATTTAATTTACACGGGCATTACAAGAAGTAAGAAGTTCCTTATTATTTGCGGGGAGGAAGCAGCTTTCAAATCCGGTGTAAATCGCCTTGATGATGCAATGCGTCAAACAACTTTGGCTAGTCGCTTGCAGGAATCACAAGGAGAAGTACAGATGGTCACAGTTAATGGCGAAGAAATGGACGTGGAAAACATTTCACCGTATGATTTCATGTAA	MGNQHAMDLFEEEKKFIKAQVLHTIFHNEENLYSVVSMKVIETNETYDEKKVMINGHFPRMHEDEVFTLTGHFKDHPKYGKQYMVETFKKELPQTKAGMVQYLASDLFKGIGKRTAEKIVDHLGEHAISKIMDDPEALNGVVNKQKAQEIYETIVEHQGLEKVMSFLNGYGFGTKLSIKIYQQYKEMTLEVIRNNPYQLIEEVDGIGFGRADDIGRALGISGNHDDRVRAGCFYTLENVSLQLGHVYMRKDQLVRETMSLLNNQEGRVTEEDIIGCIETMQSEGKVIIEEERVYLATLFYSEKGVVKSIRRLMNQEETPSFPEAEVLKTLGEIEEQLNVQYAPFQQEAIQTALHKPMMLLTGGPGTGKTTVIKGIVEMYASLHGLSLNPNEYSDDNPFPILLTAPTGRAAKRMSESTGLPACTIHRLLGWTPEGSFQRNETDPVQGKLLIIDEFSMVDIWLANQLFKSLPTNIQVIVVGDEDQLPSVGPGQVLKDLLNAGAVPTVKLTEIYRQAEGSSVIQLAHAIKDGTLPPDLAQNKKDRSFISCTGAQIVEVVKKVCENAKTKGFSARDVQVLAPMYRGPAGINVLNEALQQVFNPKREKSKEIAYGDVVYRRGDKVLQLVNQPESQVFNGDIGEIVSVFYAKENVEQQDMIIVSFDGIEVTYTKPDLNQITHAYCCSIHKSQGSEFPIVIMPIVKSYNRMLRRNLIYTGITRSKKFLIICGEEAAFKSGVNRLDDAMRQTTLASRLQESQGEVQMVTVNGEEMDVENISPYDFM				NA	NA	NA	NA	NA
AK009_04448	660	yrrB		TPR repeat-containing protein YrrB	ATGTCAAACAAACTTGAAACAGGTATTCAATATATGCAAGAAGGAAATTGGGAAGAAGCAGCTAAAAATTTTACAGAAGCAATCGAAGAAAATCCAAAAGATGCGCTTGGATACATTAATTTTGCAAATTTATTAGACGTATTAGGTGATAGCGAACGAGCGATTTTATTTTATAAACGTGCACTAGAGTTAGATGATAAATCTGCAGCTGCCTATTATGGTTTAGGAAATGTATATTATGGCCAAGAGCAATTTACTGAGGCGAAAGCTGTATTTGAACAAGCAATGCAAGCTGGATTACAATCAGCTGATGTAACATTTATGTTAGGTATCACACATGTACAGCTTGGAAATGATCGTCTTGCACTACCATTCTTACAAAGAGCAACAGAATTAGATGAAAACGATGTGGAAGCTGTATTCCAGTGCGGACTTTGCTTCGCTCGACTAGAACACATTCAAGAGGCGAAACCTTATTTTGAAAAGGTATTAGAAATGGATGAAGAGCATGCAGATGCGTATTACAATTTAGGTGTTGCGTACGTATTTGAGGAAAATAATGAGAAGGCTCTCGCTTTATTTAAGAAAGCAACTGAAATTCAGCCAGATCACTTTTTAGCGGGTAATGGCGTTCGTTTATTAGAGCAAGAAGCTGAATAA	MSNKLETGIQYMQEGNWEEAAKNFTEAIEENPKDALGYINFANLLDVLGDSERAILFYKRALELDDKSAAAYYGLGNVYYGQEQFTEAKAVFEQAMQAGLQSADVTFMLGITHVQLGNDRLALPFLQRATELDENDVEAVFQCGLCFARLEHIQEAKPYFEKVLEMDEEHADAYYNLGVAYVFEENNEKALALFKKATEIQPDHFLAGNGVRLLEQEAE				NA	NA	NA	NA	NA
AK009_04449	1116	mnmA		tRNA-specific 2-thiouridylase MnmA	ATGAACAAACTACCTCACGAAACACGCGTTGTCATCGGAATGTCCGGTGGCGTCGATTCATCTGTAGCAGCACTTTTATTAAAAGAGCAAGGTTATGATGTAATCGGAATTTTTATGAAAAACTGGGATGATACAGATGAGAATGGTGTCTGCACAGCAACTGAAGATTACAATGATGTAATTGAAGTGTGTAACCAAATCGGTATTCCGTATTATGCAGTAAACTTTGAAAAACAATACTGGGATAAAGTATTTACGTACTTCTTAGATGAGTACCGAGCTGGTCGTACACCAAATCCAGATGTAATGTGTAATAAAGAAATTAAATTTAAAGCATTTTTAGAGCATGCAATTGCGCTTGGTGCTGATTATGTAGCAACAGGCCATTATGCACGCGTTGCTTATATGGACGGCGAATATAAAATGCTTCGCGGCGTTGATGACAATAAAGATCAAACATACTTCTTAAATCAATTAAGCCAAGAGCAATTATCAAAAACAATGTTCCCGTTAGGTGAATTAAAGAAACCGCAAATTCGTGAAATGGCGAAAGAAGCTGGCTTAGCGACAGCGGCGAAAAAAGATAGTACAGGTATTTGCTTCATTGGTGAGCGTAACTTTAAAGATTTCTTAAGTAACTACTTACCAGCGCAACCAGGTGTAATGCAAACATTATCTGGTGAAGTGAAAGGAAAGCATGACGGTTTAATGTACTATACAATTGGACAACGTCATGGACTTGGAATTGGTGGTAACGGTGATCCGTGGTTTGCTGTTGGGAAAAACTTGAAAGAAAACATTTTATATGTTGATCAAGGATTCCATAACGAACTTCTATATGGTGATGAAGTTATTGCTACGAATGTAGGATGGGTAAGTAACAAAGTAAAAGAAACAGAATTTAAGTGCACTGCGAAATTCCGTTATCGTCAAGAAGACAATAAAGTAACGGTTCAAATCGTTGATGAAAATACAGTTCGTATTCTTTGTGATGAGCCAATTCGTGCAATTACACCAGGACAAGCAGTTGTGTTCTATGATGGAGATGAGTGCTTAGGCGGTGCTACAATTGATGAAGTATACCGTAGTGGTAAGAAATTGGATTATTTAGGATAA	MNKLPHETRVVIGMSGGVDSSVAALLLKEQGYDVIGIFMKNWDDTDENGVCTATEDYNDVIEVCNQIGIPYYAVNFEKQYWDKVFTYFLDEYRAGRTPNPDVMCNKEIKFKAFLEHAIALGADYVATGHYARVAYMDGEYKMLRGVDDNKDQTYFLNQLSQEQLSKTMFPLGELKKPQIREMAKEAGLATAAKKDSTGICFIGERNFKDFLSNYLPAQPGVMQTLSGEVKGKHDGLMYYTIGQRHGLGIGGNGDPWFAVGKNLKENILYVDQGFHNELLYGDEVIATNVGWVSNKVKETEFKCTAKFRYRQEDNKVTVQIVDENTVRILCDEPIRAITPGQAVVFYDGDECLGGATIDEVYRSGKKLDYLG				NA	NA	NA	NA	NA
AK009_04450	1146	iscS_2		Cysteine desulfurase IscS	ATGGAACGCATTTACTTAGATCATGCTGCGACATCTCCGACTCACCCAGAAGTGGTCGAAAAGATGATTCCATATATGACAGAAATATTCGGGAACCCGTCTAGTATTCACTTTTATGGACGTCAAACTCGTCACACAGTAGATGAGGCGAGACGAGTGTGTGCACGCAGTATTCATGCGAATCCGAATGAAATTATATTTACGAGCGGTGGTACAGAAGCTGATAATTTAGCGCTTATAGGTGTAGCACGTGCGAACCGTCATAAAGGTAATCACATTATAACGACGCAAATTGAACATCATGCGATTTTGCATACGTGCGAATTGTTAGAGCGTGAAGGGTTTGAAGTGACATATTTACCTGTCGATGAAACAGGGCGCATTCAAGTTTCTGACATACAAAAGGCATTAACCGAAGAGACGATTCTTGTATCTGTTATGTTTGGGAATAATGAAGTAGGGACAATGCAACCAATTGTAGAAATAGGAAAGCTACTAAAGGAGCATCAAGCTTATTTCCATACAGATGCGGTACAAGCTTATGGTTTGGTAGAAATTGATGTGAAAGAGTTTGGTATTGATTTATTATCCATTTCAGCCCATAAAATTAACGGACCAAAAGGTGTAGGGTTCTTATACGCTGGTGCAAATGTGAAATTTGAGCCGTTATTAATAGGCGGAGAGCAAGAAAGAAAACGCCGTGCTGGTACGGAAAATGTGCCTAGTATTGCTGGGCTTCAGCATGCAATTCTTATTGCTGAAAAAACTCGTGAGCAAAAAAATGCCCAATATGAAGAGTTTAAAGATATAATGGTATCTGTCTTCAAAAATGAAGGCATTACTTTCGAGGTAAACGGAAACTTAGAACATCGCTTACCGCATGTGCTTAATGTAAGTTTTACAGGAATGAACATTGAACCGTTTCTTGTGAACTTAGACCTAGCTGGCATTGCAGTATCAAGTGGTTCTGCTTGTACAGCTGGTTCGATTGATCCATCACATGTATTAGTAGCGATGTTTGGAAAAGACTCCGATCAAATACGTTCATCCGTACGCTTTAGTTTTGGGCTTGGAAATACGAAAGAGCAAATTGAAAAAGCGGCGTACGAAACAGTGAAAATCGTGAAGCGATTAACACAAAATTAG	MERIYLDHAATSPTHPEVVEKMIPYMTEIFGNPSSIHFYGRQTRHTVDEARRVCARSIHANPNEIIFTSGGTEADNLALIGVARANRHKGNHIITTQIEHHAILHTCELLEREGFEVTYLPVDETGRIQVSDIQKALTEETILVSVMFGNNEVGTMQPIVEIGKLLKEHQAYFHTDAVQAYGLVEIDVKEFGIDLLSISAHKINGPKGVGFLYAGANVKFEPLLIGGEQERKRRAGTENVPSIAGLQHAILIAEKTREQKNAQYEEFKDIMVSVFKNEGITFEVNGNLEHRLPHVLNVSFTGMNIEPFLVNLDLAGIAVSSGSACTAGSIDPSHVLVAMFGKDSDQIRSSVRFSFGLGNTKEQIEKAAYETVKIVKRLTQN	PGPT0000065_6035	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
AK009_04451	417	cymR		HTH-type transcriptional regulator CymR	ATGAAGATTTCAACAAAGGGCCGCTATGGCTTAACAATTATGATCGATCTTGCAAAAAAGTTTGGTGAAGGTCCGATTTCATTAAAATCAATTGCGCAGGCGCATGACTTATCGGAGCATTACTTAGAGCAATTAATTTCACCACTTCGTAACGCTCGTCTAGTGAAGAGTACGCGAGGTGCATATGGCGGATATGTATTATCTGATCAACCAGCTAACATTACAGCTGGGGATGTGATCCGTGTATTAGAGGGACCGATTAGTGTTGTAGAAATGATAGAAGAAGAAGAGCCAGCACAGCGCCAGTTATGGATGCGTGTTCGTGATGCGGTGCAAGAAGTGTTAGATAGTACAACGTTAGAAGATTTAGTACGTTATGAGGAAGAAAATCACGGGGGCTATATGTTTTACATTTAA	MKISTKGRYGLTIMIDLAKKFGEGPISLKSIAQAHDLSEHYLEQLISPLRNARLVKSTRGAYGGYVLSDQPANITAGDVIRVLEGPISVVEMIEEEEPAQRQLWMRVRDAVQEVLDSTTLEDLVRYEEENHGGYMFYI	PGPT0004960_1460	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
AK009_04452	1287		COG2256	putative AAA domain-containing protein	ATGAAACAACCACTCGCACATCGAATGCGCCCTACAAATATTCAAGAAATTATTGGGCAACAGCATTTAGTTGGTGAAGGAAAGATTTTATGGCGAATGGTCCAAGCAAATCATTTTCAATCTATGATTTTATACGGTCCTCCAGGTACAGGAAAAACATCCATTGCCAGTGCAATTGCAGGAAGTACCGGTACCCCGTTTCGTCTATTAAACGCTGTTACTCACAATAAAAAAGATATGGAAGTTGTCGTACAAGAAGCGAAGATGCATCGACACCTCGTTTTAATTTTAGATGAAGTTCACCGTCTAGATAAAGCAAAGCAAGACTTTCTATTACCTCATTTAGAAAGCGGACTTCTTACTTTAATTGGTGCAACGACAAGTAATCCATTCCATGCAATAAACTCCGCTATTCGAAGCAGATGTCAAATTTTCGAATTACACGCACTAACAGAAGATGATATTTTAATTGGGTTAAAAAGAGCTTTAGAAGATAAAGAAAAAGGCCTTGGAGAATATGCTGTAACGATAACAGATGAAGCACTACATCACTTTACAAACGCCTCTGGTGGTGATATGCGTTCCGCTTATAACGCACTTGAGCTTGCTGTATTATCCAGCTTTACTACAGACGATCAAGCGGCTGAAATCACACTCGAGATTGCAGAAGAATGCTTACAAAAGAAGAGCTTCGTTCACGACAAAGGCGGCGATGCTCATTATGACGTATTATCAGCATTTCAAAAATCAGTGCGCGGAAGTGATGTAAATGCAGCGCTCCATTATTTAGCACGCCTTATTGAAGCAGGTGATTTACAAAGTATTGGCAGACGCCTTCTTATTATGGCTTATGAAGATATTGGACTTGCTAGCCCACAAGCTGGACCGCGTACACTAGCTGCAATTGAATCAGCTGAACGAGTCGGATTCCCAGAAGCACGCATCCCACTTGCAAATGCCGTTATCGAGCTATGCTTATCACCAAAATCAAATTCAGCTTATAAAGCACTCGATGCAGCACTACATGATTTACGTAACGATCAAACAGGTGATATTCCAAGCCATTTAAAAGATAGTCATTACAAAGGCGCAGAATCACTTGGAAGAGGCATTGGATATTTATATCCACACGACCATCCAAACGGCTGGGTAAGGCAACAATACTTACCTGATAAAATAAAAAACAAGCAATATTATAAACCGAAAACGACAGGAAAATTTGAGCAAGCACTTTCTACTGTTTATGAAAGATTACAAACTTCGAATAAAACGAAAAATAAAGGGTAA	MKQPLAHRMRPTNIQEIIGQQHLVGEGKILWRMVQANHFQSMILYGPPGTGKTSIASAIAGSTGTPFRLLNAVTHNKKDMEVVVQEAKMHRHLVLILDEVHRLDKAKQDFLLPHLESGLLTLIGATTSNPFHAINSAIRSRCQIFELHALTEDDILIGLKRALEDKEKGLGEYAVTITDEALHHFTNASGGDMRSAYNALELAVLSSFTTDDQAAEITLEIAEECLQKKSFVHDKGGDAHYDVLSAFQKSVRGSDVNAALHYLARLIEAGDLQSIGRRLLIMAYEDIGLASPQAGPRTLAAIESAERVGFPEARIPLANAVIELCLSPKSNSAYKALDAALHDLRNDQTGDIPSHLKDSHYKGAESLGRGIGYLYPHDHPNGWVRQQYLPDKIKNKQYYKPKTTGKFEQALSTVYERLQTSNKTKNKG				NA	NA	NA	NA	NA
AK009_04453	642	rsfA_2		Prespore-specific transcriptional regulator RsfA	ATGAAAACACGTCAAGATGCATGGACAAAAGAAGATGATCTCCTTTTAGCAGAAACTGTTTTACGACATATTCGCAGCGGAAGTACACAAATAAAAGCATTTGATGAAGTCGGCGATGCGTTGAACCGCACTTCAGCAGCTTGTGGCTTTAGATGGAATGCTGAAGTACGAGCGAATTACGAAGATGCAGTGCAGATTGCAAAAAAACAACGTAAAGAATTAAAACGTTCTGAAGCTAAAATAGAAAAAGATCAGTTCACGAAAACGAAACAACTCGTAATCGATGCTGAGTTTTCAGAAGATATTACGCCAAGTAAACAGGAACTTACAATGCAAAATGTCATCTCATTTTTGCAAAACATGGAACATAATAACCCTTCAATCGCAAAGTTGCAAACTGAAAATGATGTATTACAAAATCAGCTCACTTCCCTACAAAAAACGAATAATGAACTTGAAGCAAAATTAGCGGTACTCACAAAAAAACAACAAGCAATCGAAGAAGATTACGCGATGCTTGTTAGAATTATGGATCGTGCTCGAAAACTTGTTTCAGTCGAAGAGCAAGAAGATCAAATTGCCCCGATTTTCAAAACCGATCAAAACGGGAATTTAGATATTATTTATTCTGCAGAGAATTAA	MKTRQDAWTKEDDLLLAETVLRHIRSGSTQIKAFDEVGDALNRTSAACGFRWNAEVRANYEDAVQIAKKQRKELKRSEAKIEKDQFTKTKQLVIDAEFSEDITPSKQELTMQNVISFLQNMEHNNPSIAKLQTENDVLQNQLTSLQKTNNELEAKLAVLTKKQQAIEEDYAMLVRIMDRARKLVSVEEQEDQIAPIFKTDQNGNLDIIYSAEN				NA	NA	NA	NA	NA
AK009_04454	768			hypothetical protein	ATGTTACATCAATTTTCACGTAATGAATTAGCCTTCGGTAAAGAAGGACTTGAAATATTAAAAAATAGTACAGTCGGTATTTTAGGAATTGGTGGCGTAGGGTCATTTTCGGCAGAAGCGTTAGCACGTTCTGGCGTAGGACGTCTCGTATTAGTTGATAAAGACGTTGTAGATATTACAAACGTAAACCGTCAAATTCATGCTTTAGTATCTACTGTAGGACGTTCAAAAGTAGAATTAATGAAAGAGCGTATTGCAGACATTAATCCGGAATGTGAAGTAATTGGACTAGAAATGTTTTATACAGATGAAACATATGAAGAGTTCTTTAAACACGGTTTAGATTTCGTAGTGGATGCATCTGATACAATTACGTTCAAAATCCATTTAATTAAACAATGTTTACGTCGTAAAATTAAAATTATCTCATGTATGGGTGCAGCAAATAAAATGGACCCAACTCGTTTCCGTATTGCGGATATCTCTAAAACACATACAGATCCAATTGCGAAAGTAATTCGTACGAAGCTTCGTAAAGAGGGTATTAAAAAAGGTGTAAAAGTTGTCTTCTCTGACGAGAATCCAATCGTAATTCGTGAAGAAGTACGTAAAGAGATCGTACCAGACGAAAATGCAAAAATTCGTAAAGCGAAATTACCACCTTCATCAAATGCATTCGTACCATCTGTGGCAGGCTTAATTATGGCAAGTCACGTTGTACGTGAACGTATTAAAAACGTAGAAGTGAAACGTGTGGGGCAAGAATAA	MLHQFSRNELAFGKEGLEILKNSTVGILGIGGVGSFSAEALARSGVGRLVLVDKDVVDITNVNRQIHALVSTVGRSKVELMKERIADINPECEVIGLEMFYTDETYEEFFKHGLDFVVDASDTITFKIHLIKQCLRRKIKIISCMGAANKMDPTRFRIADISKTHTDPIAKVIRTKLRKEGIKKGVKVVFSDENPIVIREEVRKEIVPDENAKIRKAKLPPSSNAFVPSVAGLIMASHVVRERIKNVEVKRVGQE				NA	NA	NA	NA	NA
AK009_04455	1776	aspS_1		Aspartate--tRNA ligase	GTGGCTGAAAGAACACATGCATGTGGAAAAGTAACAGTAGAAGCTGTTGGACAAACAGTTCAATTAAAAGGTTGGGTACAAAAACGCCGTGACTTAGGTGGATTAATCTTTATCGATTTACGTGACCGCACAGGTATCGTACAAGTTGTATTTAACCCAGAAACATCAAAAGAAGCGTTAGAAGTAGCAGAAACAATTCGTAGTGAATACGTATTACACGTAGAAGGTACAGTTGTTGAACGTGGTGAAGGCGCAATTAATGACAATATGGCAACTGGTCGTATTGAAGTACAAGCAACAAAAGTAAATGTACTAAATGCAGCGAAAACAACGCCAATTATCATTGCTGATGATACAGATGCATCAGAAGATGTGCGTTTAAAATATCGTTATTTAGACTTACGTCGTCCTGTAATGTTCAACACATTCAAAATGCGTCACGACGTAACAAAAACAATTCGTAATTTCTTAGATACAGAAGAGTTTTTAGAAGTCGAAACACCAATTTTAACGAAAAGCACGCCAGAAGGAGCTCGTGACTATTTAGTACCAAGTCGTGTACATGATGGTGAATTCTATGCATTACCACAGTCACCACAGTTATTTAAACAGCTTCTTATGGTCGGCGGATTTGAGCGTTACTATCAAGTAGCACGTTGTTTCCGTGACGAAGATTTACGTGCGGATCGTCAACCAGAATTCACGCAAATCGATATCGAAGCTTCATTCTTAACACAAGATGAAATTTTAGATATGATGGAGCGTATGATGACGAAAGTTATGAAGGATGCAAAAGGTGTAGAAGTTAGTGCACCATTCCCTCGTATGAAATATGCTGATGCAATGGCTCGCTACGGTTCTGATAAGCCAGATACACGCTTTGAAATGGAACTAACAGACTTATCTGAGTTTGCAGCAGGTTGTGGATTTAAAGTGTTTACAAGTGCTGTAGAAAGCGGCGGACAAGTAAAAGCAATTAATGCAAAAGGTGCTGCAAGTAAATACTCTCGTAAAGACATCGATGCATTAACTGAATTTGTGAAAGTATACGGTGCAAAAGGTCTAGCTTGGCTTAAAGTTGAAGAAGACGGCCTAAAAGGACCGATTGCGAAATTCTTCGGTGAAGAAGATGCAAACGTGTTAATGACTACATTAGAAGCTACTGCTGGCGACTTATTACTATTTGTAGCAGATAAGAAGAGCGTTGTTGCAGATAGCTTAGGCGCACTTCGTTTACGTCTAGGTAAAGAGCTTGAGTTAATTGACGAAAGTAAATTTAACTTCCTATGGGTAACTGATTGGCCACTTCTTGAGTACGATGAAGATGCAGATCGTTACTTCGCAGCTCACCACCCATTCACAATGCCATTCCGTGAAGATGTTGAGCTACTAGAAACAGCACCAGAAAAAGCACGTGCACAAGCATATGACCTTGTATTAAACGGTTATGAGCTTGGTGGCGGATCACTTCGTATTTACGAGCGTGACGTACAAGAAAAAATGTTCAAAGCACTTGGATTCTCACAAGAAGAAGCGCAAGAGCAATTCGGATTCTTATTAGAAGCATTCGAATACGGTACACCACCACACGGCGGAATCGCATTAGGTTTAGACCGTCTTGTTATGTTACTTGCAGGCCGTACGAACCTTCGTGATACAATTGCATTCCCGAAAACAGCAAGCGCAAGCTGCTTATTAACAGAAGCTCCAAGCCCAGTTGCAGAAGCACAGCTTGAAGAACTGAACTTAAAATTAAGCTTGAAAGAAGAGAAGTAA	MAERTHACGKVTVEAVGQTVQLKGWVQKRRDLGGLIFIDLRDRTGIVQVVFNPETSKEALEVAETIRSEYVLHVEGTVVERGEGAINDNMATGRIEVQATKVNVLNAAKTTPIIIADDTDASEDVRLKYRYLDLRRPVMFNTFKMRHDVTKTIRNFLDTEEFLEVETPILTKSTPEGARDYLVPSRVHDGEFYALPQSPQLFKQLLMVGGFERYYQVARCFRDEDLRADRQPEFTQIDIEASFLTQDEILDMMERMMTKVMKDAKGVEVSAPFPRMKYADAMARYGSDKPDTRFEMELTDLSEFAAGCGFKVFTSAVESGGQVKAINAKGAASKYSRKDIDALTEFVKVYGAKGLAWLKVEEDGLKGPIAKFFGEEDANVLMTTLEATAGDLLLFVADKKSVVADSLGALRLRLGKELELIDESKFNFLWVTDWPLLEYDEDADRYFAAHHPFTMPFREDVELLETAPEKARAQAYDLVLNGYELGGGSLRIYERDVQEKMFKALGFSQEEAQEQFGFLLEAFEYGTPPHGGIALGLDRLVMLLAGRTNLRDTIAFPKTASASCLLTEAPSPVAEAQLEELNLKLSLKEEK				NA	NA	NA	NA	NA
AK009_04456	1272	hisS_2	COG0124	Histidine--tRNA ligase	ATGTCTATTCAAATCCCACGCGGAACGCAAGATATTCTTCCAGGCACTGTTGAGTTATGGCAGTATATCGAAGGGCAAGCACGCGAAATTTGCCGTCGTTACAATTATAAAGAAATTCGTACACCAATTTTTGAGCACACGGAGCTATTTTTACGTGGTGTTGGTGATACGACAGATATCGTACAAAAAGAAATGTACTCATTCCAAGATCGTGGAGAGCGCAGCTTAACATTACGTCCAGAAGGTACTGCACCTGTTGTACGTTCTTACGTTGAAAATAAAATGTTTGGTGATGCAACACAACCAACGAAATTATACTATATCGGTCAAATGTTCCGTTATGAAAGACCACAAGCAGGTCGCTATCGTCAATTCGTACAATTCGGTATCGAAGCAATCGGCAGTAATGATCCTGCAATTGATGCAGAAGTAATTGCACTTGCTGTTGAATTTTACCGCGGCATGGGCTTAAAAAATATTAAAGTTGTATTAAACAGTTTAGGTGATGCAGCGAGCCGTCAAGCACACCGTGATGCATTAATCGCACACTTTGAGCCACGTATCGGCGAATTCTGCTCTGACTGTCAATCTCGCTTAGAAAAGAACCCACTTCGAATTTTAGACTGTAAGAAAGACCGTAACCATGAATTAATGGGAACAGCACCATCTATTACAGAATACTTAAACGAAGATTCAGCAGTATACTACGACAAAGTTCAAGAACTATTAACGATGATGGATGTTCCATTTGAAAAAGATCCGAACTTAGTACGTGGTTTAGACTACTATCAACACACTGTTTTTGAAATTATGAGTGAGGCAGAAGGTTTCGGTGCGATCACTACATTAAGCGGTGGTGGCCGTTATAACGGACTTGTACAAGAAATCGGTGGACCAGAAATGCCAGGTATCGGTTTTGCAATGAGTATTGAACGTTTAATTATGGCGCTAAAAGCTGAAAATATTGAATTACCACTTGAACATAGCATTGATTGTTACGTTGTAGCGCTCGGTGAAAAAGCGAAAGACCATGCTGCAAAAGTTGCGTTCAATCTTCGTAAAGCTGGATTGTCAGTTGAAAAAGATTATTTAGATCGCAAAATGAAAGCACAATTTAAATCAGCAGATCGTCTAAAGGCGAAATTTGTAGCTGTATTAGGAGAAGATGAGCTGGATAAAGGTATCATTAACTTAAAAGATATGGCAACAGGTGAACAAGAAGAAGTAGCGTTAGATGTATTTGCTTCATACGTAGCAGAGAAATTAATATAG	MSIQIPRGTQDILPGTVELWQYIEGQAREICRRYNYKEIRTPIFEHTELFLRGVGDTTDIVQKEMYSFQDRGERSLTLRPEGTAPVVRSYVENKMFGDATQPTKLYYIGQMFRYERPQAGRYRQFVQFGIEAIGSNDPAIDAEVIALAVEFYRGMGLKNIKVVLNSLGDAASRQAHRDALIAHFEPRIGEFCSDCQSRLEKNPLRILDCKKDRNHELMGTAPSITEYLNEDSAVYYDKVQELLTMMDVPFEKDPNLVRGLDYYQHTVFEIMSEAEGFGAITTLSGGGRYNGLVQEIGGPEMPGIGFAMSIERLIMALKAENIELPLEHSIDCYVVALGEKAKDHAAKVAFNLRKAGLSVEKDYLDRKMKAQFKSADRLKAKFVAVLGEDELDKGIINLKDMATGEQEEVALDVFASYVAEKLI				NA	NA	NA	NA	NA
AK009_04458	177			hypothetical protein	ATGCGCATGAATGAAAAAGGGCATTCTGTTACAAATGGTGCAAATCAACTATTTAACGTGAATTTTCATGATTTTATTTCAAAAGAGCAAAACAATACTTCAATGGAGCTTGCTTCCGAGTTTGGGATTTCTCTTCAAGATGTAAAGCGTCTAAAGAAGCAGATTGAACGTTCTTAG	MRMNEKGHSVTNGANQLFNVNFHDFISKEQNNTSMELASEFGISLQDVKRLKKQIERS				NA	NA	NA	NA	NA
AK009_04459	333			hypothetical protein	ATGCTTCAAGAATTTAATATAGCTTTACGTTTTATGCTAGAGTTATGTATTCTTGGGATTGTTGGATACTGGGGGTTTCGAGTAGGAACAACAACAGCTATAAAAATTACACTTGCTATTATTATTCCGATTGTTGTTACTGCCATTTGGGGGTTATTTGGAGCTCCACATGCAGAATGGGAAGTAAAAGGTATATTACATGTATTATTAGAAATTATCGTATTTGGAGTAGGTGTTGCAGCATTATATCATTTGAAGCATCATATGCTAGCAAGTGGACTGGCTATTGTTATTGTTATAAATCGAATACTAATGTTTATTTGGAATCAATAG	MLQEFNIALRFMLELCILGIVGYWGFRVGTTTAIKITLAIIIPIVVTAIWGLFGAPHAEWEVKGILHVLLEIIVFGVGVAALYHLKHHMLASGLAIVIVINRILMFIWNQ				NA	NA	NA	NA	NA
AK009_04460	441	dtd_1	COG1490	D-aminoacyl-tRNA deacylase	ATGAGAGTTGTTTTACAACGATCAAAGAAAGCGTCTGTCACGGTAGACGGTGAGATCGTAGGACAAATTCCGTTCGGTTTAACATTACTAGTTGGCATTACGCACGAAGATACAGAAAAAGATGCAACTTACATTGCGGAAAAAATTTCAAACTTACGTATTTTTGAAGATGAGAGCGGAAAGATGAATCATTCTGTACTTGATGTAGAAGGACAAGTTCTATCTATTTCGCAATTCACATTATACGGAGATTGTCGCAAGGGGAGACGTCCAAACTTTATGGATGCTGCGAAACCTGACTATGCAGAGCGTTTATACGATTTCTTTAATGAAGAAGTTCGCAAACAAGGATTGCATGTAGAAACAGGGAAATTCGGAGCAATGATGGACGTTTCTTTAATCAATGATGGTCCGGTGACCTTAATTGTAGAAAGTAAATAG	MRVVLQRSKKASVTVDGEIVGQIPFGLTLLVGITHEDTEKDATYIAEKISNLRIFEDESGKMNHSVLDVEGQVLSISQFTLYGDCRKGRRPNFMDAAKPDYAERLYDFFNEEVRKQGLHVETGKFGAMMDVSLINDGPVTLIVESK				NA	NA	NA	NA	NA
AK009_04461	2184	relA	COG0317	GTP pyrophosphokinase	ATGGCAAATGAGCAGGTACTAACAGCTGAACAGGTACTCGAGAAAGCAAGTCAATATTTAGCGGATGAAGATATTGAGCTAGTGGCACGTGCCTATGAATATGCACGTGATGCGCATAGCGAACAATATAGAAAATCGGGTGAACCGTATATTATTCATCCGATTCAAGTTGCAGGTATTTTAGTTGATTTACACATGGATCCAGCTACGGTATCAGCAGGTTTCTTACATGATGTAGTGGAAGATACAGAGATTACGTTAGAAGATATTGAACGGGAATTTAACAAAGAAATTGCTATGCTTGTTGATGGTGTTACAAAGCTTGGGAAAATCAAATATAAATCTCACGAACAACAACAAGCAGAAAACCATCGCAAAATGTTTATTGCAATGGCTCAAGATATTAGAGTTATTTTAATTAAACTAGCTGATCGTCTTCATAACATGCGTACATTGAAACATTTGCCTCAAGAGAAGCAGCGTCGCATAGCGAATGAAACGTTAGAAATCTTTGCACCTTTAGCACATAGACTCGGAATTAGTACTATTAAATGGGAGCTAGAGGATACGTCACTTCGCTATTTAAATCCACAGCAATATTATCGTATTGTAAATTTAATGAAGCGTAAACGTGCAGAACGTGAAGAATATTTAGACGAAGTAATGACTGGTATTCGTGAGAAATTAAAAGAAGTTGCAATTCAACCTGAGATTTCTGGAAGACCGAAACATATTTACAGTATTTATCGTAAAATGGCACTGCAAAATAAGCAGTTCAATGAAATTTACGATTTATTAGCTGTACGTGTTGTTGTAAATAGTATTAAAGATTGTTATGCGGTGCTTGGAATTATTCATACGTGCTGGAAGCCGATGCCAGGTCGTTTTAAAGATTATATTGCAATGCCAAAAGCAAATCTATATCAATCTCTTCATACGACCGTAATTGGACCGAAAGGTGACCCACTTGAAGTGCAAATTCGTACGAAAGAAATGCACGAAATTGCAGAATTCGGGATCGCGGCACACTGGGCGTATAAAGAAGGAAAAACAGCAGAAACAACAGGTACATTAGAGAAGAAACTCACATGGTTCCGTCAAATATTAGAATGGCAAAATGAAGCTTCTAATGCAGAAGAATTTATGGAGTCATTAAAAATTGATTTATTCTCTGACATGGTATTCGTCTTTACACCGAAAGGCGATGTAATGGAATTACCACTTGGATCGGTTCCGATTGATTTCGCGTATCGTGTCCATTCGGAAATTGGGAATAAAACAATTGGTGCAAAAGTAAACGGTAAAATGGTGACGCTGGATTATAAATTAAAAACAGGCGACATCATTGAAATTTTAACGTCGAAACATTCCTATGGCCCAAGTCAAGATTGGGTAAAACTTGCTCAAACATCTCATGCAAAAAATAAAATTCGTCAATTCTTTAAGAAACAACGTAGAGACGAAAATATTGAAAAAGGCCGTGAACTTGTTGAAAAGGAAGTACGTGGTCTAGAGTATGAGATGAAAGAAGTATTAGCGCCTGATAACTTAAAACGCGTCGCTGAGAAATTTAACTTTGCAAATGAAGAAGATATGTTTGCAGCAGTTGGATATAGCGGAATTACAGCTTCGCAAATTGTTACGCGACTAACGGACAAGTTCCGCAAACAACGCGAAGAAGAAGAGATTGTTGAAGTTAAAGAAGTTCGTAAACCGATGAAAATTCGAAAATGGGATTCTGGTGTAAAAGTAAGCGGTGCTGATAATTTATTAATCCGTTTATCGAAATGCTGTAACCCAGTTCCGGGCGATGATATCGTTGGATATATTACAAAAGGCCGAGGCGTATCGATTCACCGCCGTGATTGTGTAAATGTTCATACAGAAGAAGCTGTAGAAAGATTATTAGAAGTAGAGTGGGAAGGTAGCCCTGAAAAAGAAATTGAGTATAACGTTGATATTGAAATTTCAGGTTACGATCGCCGTGGTTTATTAAATGAAGTACTGCAAGCTGTTACAGAGACGAAAACGTACATTTCAGCTGTTTCTGGTAGAAGTGACCGTAATAAGATGGCGACAATTAATATGTCAATCTCAATTCGTAACTTACAACATTTGAAAAAAGTAGTAGAACGCATTAAACGTGTTCCGGAAATTTATGCAGTACGACGCATGATGCATTAA	MANEQVLTAEQVLEKASQYLADEDIELVARAYEYARDAHSEQYRKSGEPYIIHPIQVAGILVDLHMDPATVSAGFLHDVVEDTEITLEDIEREFNKEIAMLVDGVTKLGKIKYKSHEQQQAENHRKMFIAMAQDIRVILIKLADRLHNMRTLKHLPQEKQRRIANETLEIFAPLAHRLGISTIKWELEDTSLRYLNPQQYYRIVNLMKRKRAEREEYLDEVMTGIREKLKEVAIQPEISGRPKHIYSIYRKMALQNKQFNEIYDLLAVRVVVNSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKANLYQSLHTTVIGPKGDPLEVQIRTKEMHEIAEFGIAAHWAYKEGKTAETTGTLEKKLTWFRQILEWQNEASNAEEFMESLKIDLFSDMVFVFTPKGDVMELPLGSVPIDFAYRVHSEIGNKTIGAKVNGKMVTLDYKLKTGDIIEILTSKHSYGPSQDWVKLAQTSHAKNKIRQFFKKQRRDENIEKGRELVEKEVRGLEYEMKEVLAPDNLKRVAEKFNFANEEDMFAAVGYSGITASQIVTRLTDKFRKQREEEEIVEVKEVRKPMKIRKWDSGVKVSGADNLLIRLSKCCNPVPGDDIVGYITKGRGVSIHRRDCVNVHTEEAVERLLEVEWEGSPEKEIEYNVDIEISGYDRRGLLNEVLQAVTETKTYISAVSGRSDRNKMATINMSISIRNLQHLKKVVERIKRVPEIYAVRRMMH	PGPT0014310_2890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
AK009_04462	513	apt		Adenine phosphoribosyltransferase	ATGGATTTCAAGCAACATATCGCAATTGTACCGGATTATCCGAAAGAAGGTATTGTGTTCAAAGACATTACACCTTTAATGAATGACGGTAAAGCATACAAAGCAGCAACAGATGCAATCGTTGAGTACGCAAAAGAAAGAGATATCGATGTTGTAGTAGGACCAGAAGCTCGTGGTTTCATTATCGGTTGCCCAGTTTCTTATGCGTTAGAAGTAGGATTTGCACCAGTTCGTAAATTAGGGAAATTACCACGTGAAGTAATTACAGTTGACTACGGTAAAGAATATGGTAAAGATGTTTTAACAATCCATAAAGATGCAATTAAGCCAGGTCAACGCGTATTAATTACAGATGATCTATTAGCTACAGGTGGAACAATCGAAGCGACAATTAAGTTAGTTGAAGAGCTAGGCGGAGTTGTAGCAGGAATTGCATTCTTAGTAGAGCTTACTTACTTAGATGGTCGTAAAATGTTAGATGGTTACGATGTATTAGTATTAGAAAAATACTAA	MDFKQHIAIVPDYPKEGIVFKDITPLMNDGKAYKAATDAIVEYAKERDIDVVVGPEARGFIIGCPVSYALEVGFAPVRKLGKLPREVITVDYGKEYGKDVLTIHKDAIKPGQRVLITDDLLATGGTIEATIKLVEELGGVVAGIAFLVELTYLDGRKMLDGYDVLVLEKY	PGPT0021455_4899	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
AK009_04463	2340			hypothetical protein	GTGTTACAACCGAAGACGCGTTGGAAAGAAAAAGAATATAATGACGAGCGAGTGAGTGAATTAGCAAGTAAATTACAGTTATCGCCACTTGTCGTTTCATTATTCCTCGGTAGAGGACTAGATACAGAAGATAAGATTTTAGATTTTTTAAATACAGAAAATCAAGAATTTCATGATCCATTTTTATTAGAAGGAATGGATAGAACGGTAGAACGTGTAAATAAGGCGATTCAAAATGGAGAGCAAATATTAATATTTGGTGATTACGATGCGGACGGAGTAAGTAGTACGACGGTTTTATATCTTGCTCTTCAAGAATTAGGTGCAGAAGTAGAATTTTACATTCCAAATCGTTTTACAGAAGGGTATGGACCGAACGAAGAAGCGTTTCGTTGGGCGCATAGCGCAGGGTTCTCACTGATTATTACTGTTGACACTGGCATCGCAGCAGTACATGAAGCGAATGTAGCAAAGGAGCTTGGAATAGATCTAATTATTACAGATCACCATGAGCCACCGCCAGAATTGCCAGAAGCACTTGCGATTATACATCCGAAATTAGAAGGTGGCCTATATCCGTTTCACTATTTAGCTGGTGTAGGTGTTGCGTTTAAAGTTGCGCATGCACTATTAGGCCGTGTACCAGAACATTTATTAGAGATTGCAGTAATCGGTACAGTAGCCGATTTAGTTTCACTTCATGGTGAAAATAGGTTGCTAGTGAAACGCGGTTTAAAACATATGCGTATGACGAAAAATATTGGTTTGAAGGCATTGTTTAAAGTTGCTAACGTTTCGCAAAGTGAAATTACAGAAGAGAGTATTGGCTTCTCAATTGCACCGCGTATTAATGCGGTCGGGCGTTTAGAAGATGCAACGCCGGCTGTACACCTTTTATTATCAGATGATCCTGAGGAAGCGAAAGAGTTGGCCGAAGAAATTGATGAGCTGAACAAACTGCGAAAAGATATTGTAAAGCAAATTACCGAAGAGGCTATCGCTGAAGTTGAAAATAACTTTCCGCCAGAAGAAAACAAAGTATTAGTACTTGCAAAAGAAGGTTGGAATCCAGGTGTAATTGGGATTGTCGCTTCTAAATTAGTTGAACGTTTTTATCGTCCGACTATTGTATTATGCATTGATCCTATAAAAGAAACAGCAAAAGGCTCAGCGCGTAGTATTGCAGGATTTGATTTGTTTGCAAATTTATCAGATTGTAGAGAGTTATTGCCACACTTCGGAGGGCATCCGATGGCAGCTGGGATGACGCTACATATGAATGATGTAGATGAATTACGCCGTCGCTTAAATGAACAGGCAGATGCAATTTTAACAGAAGAAGATTTTATTCCAATTACAGCAGTTGATGTTTTTTGTAAAGTGGAGGATGTAACGCTAGCGGCAATTGAAGATATGCAGAAGTTAGCACCATTTGGTGTTGGAAATCCGAAACCACGTATTGCAGTGAAAGATGCAGAGTTAGAAAGTATTCGCGCAATCGGATCAGATGGCTCTCATTTAAAAATGGCTCTTCGTGATGGACAAGCAACACTGGATACAATTGGATTCGGTTTCGGTGCATATGCGAAAGAAATCTCTCCAGTTGCAAAAGTATCTGTAATAGGAGAAGCATCTATCAATGAATGGAATAATTTTAAGAAGCCGCAATTAATGGTACAAGATATTGCTGTAGAGGCGTGGCAACTATTTGATTGGCGTAGTATGCGTAATGCAGAAGCAAATTTAGCAGAACTTCCGAAAGAAAAAATAACAATGGTGTATTTTTCTGAAGAGGTATTGAATAAATTTTCTTTAGAGGACTATAAAGAAAAGCTTATGCATGCGTCAGAAGTAACGCATTTAGATGATCAATACATCGTGTTACTCGATTTGCCAAACGGAACAGATGAATTACGTGAGTTATTTAAAGTAGGATTCCCAGCGCGAATTTATACGCTGTTTTATCAAGAAAATAACCATCTATTTAGTACAGTTCCTACGAGAGAACACTTTAAATGGTACTATTCTTTCTTAAGCCAAAAAACACCATTTTCTTTAAGACAATATGGAGAACAACTATGTCGTCATAAAGGTTGGTCAAAAGATACAGTAAATTTCATGACACAGGTGTTTTTTGAGTTAGAATTTGTTACAATAAAAGATGGCGTCATTTTTATGGCAGACAAAAAACAAAAGCGTGATTTAATTGAATCGAACACATATCGTGAGAAAATGAACCACTTACAATTAGAAAAAGAATTGGTTTATAGCACATATCAGCAACTATATACATGGTTTGAAACGATTCGTAATCATAAAGAAGTAGAACAGTTAGGGTAA	MLQPKTRWKEKEYNDERVSELASKLQLSPLVVSLFLGRGLDTEDKILDFLNTENQEFHDPFLLEGMDRTVERVNKAIQNGEQILIFGDYDADGVSSTTVLYLALQELGAEVEFYIPNRFTEGYGPNEEAFRWAHSAGFSLIITVDTGIAAVHEANVAKELGIDLIITDHHEPPPELPEALAIIHPKLEGGLYPFHYLAGVGVAFKVAHALLGRVPEHLLEIAVIGTVADLVSLHGENRLLVKRGLKHMRMTKNIGLKALFKVANVSQSEITEESIGFSIAPRINAVGRLEDATPAVHLLLSDDPEEAKELAEEIDELNKLRKDIVKQITEEAIAEVENNFPPEENKVLVLAKEGWNPGVIGIVASKLVERFYRPTIVLCIDPIKETAKGSARSIAGFDLFANLSDCRELLPHFGGHPMAAGMTLHMNDVDELRRRLNEQADAILTEEDFIPITAVDVFCKVEDVTLAAIEDMQKLAPFGVGNPKPRIAVKDAELESIRAIGSDGSHLKMALRDGQATLDTIGFGFGAYAKEISPVAKVSVIGEASINEWNNFKKPQLMVQDIAVEAWQLFDWRSMRNAEANLAELPKEKITMVYFSEEVLNKFSLEDYKEKLMHASEVTHLDDQYIVLLDLPNGTDELRELFKVGFPARIYTLFYQENNHLFSTVPTREHFKWYYSFLSQKTPFSLRQYGEQLCRHKGWSKDTVNFMTQVFFELEFVTIKDGVIFMADKKQKRDLIESNTYREKMNHLQLEKELVYSTYQQLYTWFETIRNHKEVEQLG				NA	NA	NA	NA	NA
AK009_04464	894	mneP	COG0053	Manganese efflux system protein MneP	ATGGAAAAAGATGAACGTTTTAAACAGGCCGAGTTTGGTGCTATTGTCGGGATCGTTGGTAATATTATATTAGCAATTGTAAAGGCGGTAATTGGTTATATTGGGAACAGTAAAGCACTGTTAGCAGATGCGGTGCATTCTGCATCAGATGTAATTGGTTCGCTAGCTGTACTTTTTGGATTGCGAGCGGCAAAGCAGCCACCTGATGAAGATCATCCGTATGGTCATGGTAAAGCGGAATCGATTTCAGCGATTATTGTTGCGGTATTATTATTTATTGTGGGACTCGAGATAGCGATTTCGTCTATAAAAGCTTTTTCGCAGGAACTAGAACCACCGAAAGGAATTACGATTTTTGCTGTTGTTCTTTCGATTATCGTGAAAGAAGGAATGTTCCAATATAAATTCCGATTAGGGAAGAGGGTAAATAGTGATGCAATTATTGCAAATGCATATGAGCACCGTTCGGATGTATTTTCTTCAATTGCAGCTTTAATCGGTATTTGTGCAGCTATAATCGGTGGTAAGCTTGGTATAGACTGGCTTGTATACGCTGATCCGATTGCAGGATTAGCTGTTTCACTTCTTGTTGTAAAAATGGCATGGAGCATTGGAGCGGAAGCAATTCATGCAACGCTTGACCATGTTCTTCATGAGGAGGATGTTATTCCGCTTAGAGAAGCAGTTCTTCAAGTAGATGGTGTGAAAAAAATTGGTTCTTTATATGCACGGGAGCATGGTCATTATGTTATTGTCGATATTAAAGTGTCTGTAGATCCATACATTACTGTAGAAGAAGGACACCGCATTGGAAAACATGTGAAAGAAATACTTATGAAACAAGAGAATGTACAAAATGTATTCGTACATATAAATCCGTATTCTCCAAATTAA	MEKDERFKQAEFGAIVGIVGNIILAIVKAVIGYIGNSKALLADAVHSASDVIGSLAVLFGLRAAKQPPDEDHPYGHGKAESISAIIVAVLLFIVGLEIAISSIKAFSQELEPPKGITIFAVVLSIIVKEGMFQYKFRLGKRVNSDAIIANAYEHRSDVFSSIAALIGICAAIIGGKLGIDWLVYADPIAGLAVSLLVVKMAWSIGAEAIHATLDHVLHEEDVIPLREAVLQVDGVKKIGSLYAREHGHYVIVDIKVSVDPYITVEEGHRIGKHVKEILMKQENVQNVFVHINPYSPN				NA	NA	NA	NA	NA
AK009_04465	2265	secDF	COG0341	Protein translocase subunit SecDF	ATGGCAAAGCGTGGTACGAGAATTGCCGCCTTTTTCCTCATCGTCTTATTAATCGGTGGAGTAATTGGTGCGGCGGGAAAAGACATAGCAAAAGGAATTAGTCTAGGACTAGACCTTCGCGGTGGTTTTGAAATTCTGTATGAAGTAAAACCAGCCAAAAAAGGTGATAAAATCGATCGAGACGTACTTGTAAGTACAGTAGGTGCTCTTGAAAATCGTGTCAATGTTCTCGGTGTAAGTGAGCCGAACATTCAAATCGAAGGGCAAGATCGAATTCGTGTACAGCTTGCTGGTGTACAAGATCAGCAAAAAGCACGTGAAATGTTATCAACACAAGCGAAATTAACATTCCGTGATGTGGATGATAACCTTCTTATGGATGGAACGGATTTAAAAGGCGGCGGAGCGAAGCAAACATTTGATGAGCAAGGCCGTGCGAGCGTAGGTCTTACACTAAAAAGCGCTGAAAAATTCCGTGAAGTAACTGAAAAAATTTCAAAAATGCCACCACCAACGAATTTAATGGTGATTTGGCTGGACTTTGAAGAAGGAAAAGATTCATATAAAGCAGAATCTGCAAAACCGAATCCGAAGTTCTTATCAGCAGCAACAGTAAGCCAAGTATTTAACCAAGCTGAAGTATCTATCGTAGGTGGAAACTTCACAGTTGAAAGTGCGAAACAACTTTCATCTTTATTAAATGCAGGTGCACTTCCTGTTGATTTAAAAGAAATGTATTCAACATCTGTTGGAGCGAAATTTGGTCAACAAGCATTAGATCAAACAATTTTCGCTAGTGCGATTGGTATCGCTCTTATTTTCTTATTTATGCTTGTGTATTACCGTTTACCAGGGCTTGTAGCTGTAATTATGTTAGGTCTATACATTTTCGTTACATTACTTGTCTTTAACTGGATGCATGCAGTTCTTACGTTGCCAGGTATTGCGGCGTTAGTGCTCGGGGTAGGTATCGCAGTTGATGCGAATATTATTACTTACGAGAGATTGAAAGAAGAGCTGAAAATTGGTAAGTCCATGATGTCAGCATTCCGAGCTGGTAACCATCGTTCATTAGCAACAATTCTAGATGCGAACGTTACGACTCTTGCAGCTGCAGGTGTGTTATTTGTATATGGTACAAGCTCAGTCCAAGGGTTTGCAACAAGTTTAATTGTAAGTATTTTAGTCGGTTTCATTACGAACGTATTCGGTACTCGTTTCTTACTAGGTTTACTTGTAAAGAGCCGTTACTTTGATAAAAAACCAGGATATTTTGGTGTGAAACAAAAGGATATTATTCCTTTAACAAAAGGTGTAGTACATCCACCAACGAAATTTGATCGTATTAACTTCGTAAATATCGGTCATAAATTCCTTATCTTCTCAATTGTAGTTGTAATTGCAGGTGCAATTATCCTGCCAATTTTCAAGTTGAATCTTGGTATTGACTTTGCAAGTGGTACACGTATGGACTTGCAATCAAAACAAGCAGTTACTGTGGCTGATGTTCATAAAGATTTTAAAGAGTTGAACATTGATGTGAAGGAAGAAAATATTGTACCGACTGGGGATGACAATAAAGGTTTCGCAGTTCGTACATTAGGTGTTTTATCAAAAGATGAAATTGCGAAAACAAAAACATTCTTCCATGATAAATATGGTACGGATCCAAACATAAGTACAGTTTCACCGACAATCGGTAAAGAGATTGCACGAAATGCATTTATCGCTGTACTAATTGCTTCTGCAGTTATCATTTTATACGTAAGTATTCGATTCCGATTTACGTATGCGTTATCTGCAGTGCTTGCGTTACTACATGACGCATTCGTTATGGTTGTTATGTTTAGTATTTTCCAATTGGAGGTAGACTTAACGTTTATCGCTGCAGTACTAACAATCATCGGTTATTCTATTAATGACTCGATTGTTACATTTGATAGAAACCGTGAATTATACAAACAGAAAAAACGAGTGCGCGATATAAAAGACCTAGAAGAAATCGTAAATGCAAGTATTCGCCAAACGCTTGGTCGTTCGATTAACACCGTATTAACAGTGTTACTCCCAGTAATTGCACTGCTTATCTTCGGTAGTGAGTCACTACGTAACTTCTCGTTTGCGTTGCTTGTTGGATTAATTGTAGGTACGTACTCTTCTGTTTTCGTTGCCTCTCAAATTTGGTTAATGCTTGAAAACCGTCGTTTGAAAAGAGGTAAAAACAAGAAGAAGGTTGAGAAAGTAGAATCTGAACCGCAAGTATAG	MAKRGTRIAAFFLIVLLIGGVIGAAGKDIAKGISLGLDLRGGFEILYEVKPAKKGDKIDRDVLVSTVGALENRVNVLGVSEPNIQIEGQDRIRVQLAGVQDQQKAREMLSTQAKLTFRDVDDNLLMDGTDLKGGGAKQTFDEQGRASVGLTLKSAEKFREVTEKISKMPPPTNLMVIWLDFEEGKDSYKAESAKPNPKFLSAATVSQVFNQAEVSIVGGNFTVESAKQLSSLLNAGALPVDLKEMYSTSVGAKFGQQALDQTIFASAIGIALIFLFMLVYYRLPGLVAVIMLGLYIFVTLLVFNWMHAVLTLPGIAALVLGVGIAVDANIITYERLKEELKIGKSMMSAFRAGNHRSLATILDANVTTLAAAGVLFVYGTSSVQGFATSLIVSILVGFITNVFGTRFLLGLLVKSRYFDKKPGYFGVKQKDIIPLTKGVVHPPTKFDRINFVNIGHKFLIFSIVVVIAGAIILPIFKLNLGIDFASGTRMDLQSKQAVTVADVHKDFKELNIDVKEENIVPTGDDNKGFAVRTLGVLSKDEIAKTKTFFHDKYGTDPNISTVSPTIGKEIARNAFIAVLIASAVIILYVSIRFRFTYALSAVLALLHDAFVMVVMFSIFQLEVDLTFIAAVLTIIGYSINDSIVTFDRNRELYKQKKRVRDIKDLEEIVNASIRQTLGRSINTVLTVLLPVIALLIFGSESLRNFSFALLVGLIVGTYSSVFVASQIWLMLENRRLKRGKNKKKVEKVESEPQV	PGPT0025710_1144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257	NA	NA
AK009_04466	285	comN		Post-transcriptional regulator ComN	ATGTTAGATAAAGAGGCTTTGGTAGAATCATACCGCGGACAGTTACAAGTCGTTTTAGAAAGTAAAGTAGAAGAGTTTCACATGTTCGGTTACGACCGAGTGACAGATGATGATATTTGGAAGTTTCTCAAAGTGAAAAAGTGGAAAAAGATAGACAGTGATGTTAGATTATATGAATTGGTAAATGATGTATTAAGAGTAAGTGCTAATGAGTATATGACATATTTAACTGTTGAAGCGTACCAAGCGCCACTTTGGTCATTTGATGAGTACGAAAATAAATAA	MLDKEALVESYRGQLQVVLESKVEEFHMFGYDRVTDDDIWKFLKVKKWKKIDSDVRLYELVNDVLRVSANEYMTYLTVEAYQAPLWSFDEYENK				NA	NA	NA	NA	NA
AK009_04467	1560	spoVB	COG2244	Stage V sporulation protein B	ATGACGAGACAAAGCTTTTTAAAAGGCGCATTTATTTTAATGATAGCCGGATTTATTACAAAAATACTCGGTTTCATCAATCGTATAGTAATGGCACGTATTTTAGGTGAAGAAGGCGTTGGTCTTTATATGATGGCCGTTCCTACATTCATTTTAGCAATTACATTAACACAAATCGGTCTTCCTGTCGCAATCGCAAAATTTGTAGCAGAAGCGGAAGCTGTGAACGATAAACAAAGAGTTAAAAAAATATTAACTGTATCACTAGCTGTTACATCCGTTATTAGTATCATATTAACAATCGGAATTATGTTCCTCACACCTATTTTAGCAAAAACATTATTAACCGACGAAAGAACATACTATCCATTAATAGCCATTTTGCCCGTTGTTCCTGTTATTGCCATTTCTTCTGTTTTGCGCGGTTACTTTCAAGGGAAACAAAATATGAAACCTAGCGCTTATGCACAAGTTCTAGAACAAGTTGTCCGCATTACCATTATCGCTATATGCATTCAATTATTTTTACCTTACGGCGTAGAATATGCTGCAGCCGGTGCTATGTTATCAGCTGTTCTCGGTGAAGTTGCATCCTTATTATTTTTACTCACGTTATTTCAGCGCGAAAAACATTTATCAATACGCTCTGGATTTTTCACTACTGTAAAGGAGAGCAAAGGAACATTTTATTCCCTTATGGATATAGCTCTTCCCACTACAGGAAGTCGTTTAATCGGCTCCGTTTCATATTTTTTTGAACCTATTGTCGTTATGCAAAGCTTAGCAATCGCTGGTGTCGCTGCTTCTGTTGCAACCCAGCAATACGGCATGTTAAACGGTTATGCATTCCCGCTCCTATCACTACCCGCCTTTATTACATACGCTCTTTCTACAGCGCTCGTCCCTTCTATTAGTGAAGCGATGGCAAAAAGACAACATAAATTAGTGGAGCACCGCTTACAACAAGCACTTCGAATTTCATTAATTACCGGGGGATGGTCTGTCGTTATATTATATGTATTCGCTTCTCCTGTTTTAACTCTTATGTACGGATCAGACAGCGCAACAGCATTCATTCAACTTCTTGCACCTTGCTTTTTATTTCATTATTTCCAAAGTCCACTGACCTCTGTTTTGCAAGCTTTAAACTTAGCAAGAGCTGCAATGATGAATACATTTATTGGCGCCACCGTGAAATTAATTGTTATTTTTGTACTAGCCTCAAGGCCAGAATTTCAAATGATGGGAGTTGCTCTCGCTATCGCTGCAAATATTGTAACAGTAACATTTCTTCACTACGCTACTGTTTTAAAAAAGATTACATTTACCATTTACGCAAAAGACTATATTTTCGGCGGACTTGCCATCGGTATCGCAGGCGCCTTCGGTTTTTATATTCATAAATATATTATTTTCTCTCATTCCCTCGGCATACAAACATTATGGGAAATCACTTTAACAACAATTGTTTATATCGTACTTCTCTTCACCTTCAAACTCATTCGAAAAGAAGAGTTAAGTCGTCTCCCTATCATTCGTAAACTTTCATTTTTGAAATAA	MTRQSFLKGAFILMIAGFITKILGFINRIVMARILGEEGVGLYMMAVPTFILAITLTQIGLPVAIAKFVAEAEAVNDKQRVKKILTVSLAVTSVISIILTIGIMFLTPILAKTLLTDERTYYPLIAILPVVPVIAISSVLRGYFQGKQNMKPSAYAQVLEQVVRITIIAICIQLFLPYGVEYAAAGAMLSAVLGEVASLLFLLTLFQREKHLSIRSGFFTTVKESKGTFYSLMDIALPTTGSRLIGSVSYFFEPIVVMQSLAIAGVAASVATQQYGMLNGYAFPLLSLPAFITYALSTALVPSISEAMAKRQHKLVEHRLQQALRISLITGGWSVVILYVFASPVLTLMYGSDSATAFIQLLAPCFLFHYFQSPLTSVLQALNLARAAMMNTFIGATVKLIVIFVLASRPEFQMMGVALAIAANIVTVTFLHYATVLKKITFTIYAKDYIFGGLAIGIAGAFGFYIHKYIIFSHSLGIQTLWEITLTTIVYIVLLFTFKLIRKEELSRLPIIRKLSFLK	PGPT0024825_365	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
AK009_04468	648			hypothetical protein	ATGGAATGGATATCAATAATTGGACGGACAATGCTTTTGTATACCATCATCTTAATTATTTTTCGTCTTATGGGTAAACGTGAGATAGGAGAGCTAAGTGTATTAGATTTAGTCGTATTTATTATGCTTGGAGAAATGGCTGTAGTAGCAATTGAAAATACCGATAAATCACTTTGGCATCAATTAATTCCGATGACTTTTCTTATGTGCATCCAAATTATTTTGTCAGTCATTTCCCTAAAGTATCAACGCTTTCGGCATTTAATAGAAGGTGAGCCGGCTATTCTTGTAAACGCGGGGAAGATTGATGAAAAGAAGATGAGAAAGCAACGTTATAATATAGATGATTTAATGATGCAATTAAGGGAGCAAGGAGTTGGAGATATTCGGGATGTAGAATATGCTATTTTGGAACCGTCTGGGAAGTTATCTGTCTTTCAAAAACAAAAAAATAAACAGGATGTATTGCAGTTTACTCTTCCTCTTATTATTGATGGAGAAATTCAATCTAGTCATTTACAAATGATTGAACATACAGATGAATGGCTTATTGAGAAATTAAAAAACTTAGGTTATAACGATGTGACACAAATTTTATACTGTAGTTTTCAAAACGGAAAATTTTTTGTTGATGTAAAAGAAAATTAG	MEWISIIGRTMLLYTIILIIFRLMGKREIGELSVLDLVVFIMLGEMAVVAIENTDKSLWHQLIPMTFLMCIQIILSVISLKYQRFRHLIEGEPAILVNAGKIDEKKMRKQRYNIDDLMMQLREQGVGDIRDVEYAILEPSGKLSVFQKQKNKQDVLQFTLPLIIDGEIQSSHLQMIEHTDEWLIEKLKNLGYNDVTQILYCSFQNGKFFVDVKEN				NA	NA	NA	NA	NA
AK009_04469	384			hypothetical protein	ATGGATGGAACGAAAAAATTATCCACTGCAATCGGATTCGGTATTACTACACTATTAATTCTCGCATCTCTTACTAGCATGATTATGGCTCTTTTATTAAAGTTTACGAATATAAACGAAGGGACATTAGCCGTTACTATTTTTATACTCGCTCTTTTATCTATGCTTATGTCTGGTTTTATTGCTGGCAACAAAGCACAGGGGAAAGGGTGGCTAGTAGGTCTCACAACAGGTCTCACGTTCACTATACTCGTTTTTCTAGTTAACTATTTAGGCTTTTCTCAAACTTTATCGAACTCACAATTACTTTATCAATTAGCATTAATGGGGGCGAGTACACTCGGTGGTATTTTCGGTGTAAATATGTCAAAGCAAAGTAACTAA	MDGTKKLSTAIGFGITTLLILASLTSMIMALLLKFTNINEGTLAVTIFILALLSMLMSGFIAGNKAQGKGWLVGLTTGLTFTILVFLVNYLGFSQTLSNSQLLYQLALMGASTLGGIFGVNMSKQSN				NA	NA	NA	NA	NA
AK009_04470	261			hypothetical protein	ATGAATGCAGGTATGATGAATATCGTTATGATTGTTGCGATGTTTGCGATTTTCTATTTCTTATTAATTCGCCCGCAACAAAAGCGTCAAAAAGCAGTTGCTCAAATGCAAAACGAATTAGCAAAAGGTGATGCTATCATAACAATTGGTGGCTTACACGGTACAATCGAATCAGTAGATGACACGAAAATTGTTATTAAATCTGGTGGTTCACACTTAACTTTCGATCGCAATGCGATTCGTGAAGTTGTGAAAAACTAA	MNAGMMNIVMIVAMFAIFYFLLIRPQQKRQKAVAQMQNELAKGDAIITIGGLHGTIESVDDTKIVIKSGGSHLTFDRNAIREVVKN	PGPT0025730_4013	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
AK009_04471	1140	tgt		Queuine tRNA-ribosyltransferase	ATGACAGCAATTCGTTATGAATTTATTAAGACATGTAAACAAACGGGTGCCCGTTTAGGTCGTGTGCATACACCGCACGGTTCATTTGATACACCAACATTTATGCCAGTTGGTACACTTGCGACAGTTAAGACAATGTCACCAGAAGAATTAAAAGCAATGGATTCTGGCATTATTTTAAGTAATACGTATCATTTATGGCTACGTCCAGGTCATGAAATTATTCGTGAAGCAGGCGGCTTGCATAAATTTATGAACTGGGATCGTGCAATCTTAACAGACTCTGGTGGTTTCCAAGTATTCAGTTTAAGTGACTTCCGTCGTATTGAAGAGGAAGGCGTTCACTTCCGTAACCACTTAAATGGAGATAAATTATTCTTATCACCAGAAAAAGCGATGGAAATTCAAAATGCATTAGGTTCAGATATTATGATGGCATTTGATGAGTGTCCACCATTCCCAGCTACTTTTGAATATATGAAGAAGTCTGTAGAACGTACAAGCCGTTGGGCAGAACGTTGCTTAAAAGCGCATGAACGTCCACAAGATCAAGGTTTATTCGGTATTGTACAGGGCGGGGAGTACGAAGAGCTTCGTCGTCAAAGTGCAAAAGACCTTGTTTCAATGGACTTCCCTGGTTACGCTGTAGGTGGTTTATCTGTAGGTGAGCCGAAAGATATTATGAACCGTGTACTTGAGTTTACAACACCACTTCTTCCAGATAATAAGCCACGTTACTTAATGGGAGTAGGTTCTCCTGACTCATTAATCGATGGTGCAATTCGTGGTATTGATATGTTTGACTGCGTACTTCCAACTCGTATCGCTCGAAATGGTACATGTATGACAAGTGAAGGTCGTCTAGTTGTAAAAAATGCGAAATTTGCAAGAGACTTCGGTCCGCTTGATCCAAATTGTGATTGCTATACATGTAAAAATTACTCTCGTGCGTACATTCGTCACTTAATGAAATGTGATGAAACGTTCGGAATTCGTTTAACGTCTTATCACAACCTTCATTTTCTGTTAAACTTAATGGAGCAGGTGAGACAAGCTATTCGTGAAGACCGTCTTGGCGATTTCCGCGAAGAATTCTTTGAACAGTATGGCTTTAATAAACCGAATGCTAAAAACTTCTAA	MTAIRYEFIKTCKQTGARLGRVHTPHGSFDTPTFMPVGTLATVKTMSPEELKAMDSGIILSNTYHLWLRPGHEIIREAGGLHKFMNWDRAILTDSGGFQVFSLSDFRRIEEEGVHFRNHLNGDKLFLSPEKAMEIQNALGSDIMMAFDECPPFPATFEYMKKSVERTSRWAERCLKAHERPQDQGLFGIVQGGEYEELRRQSAKDLVSMDFPGYAVGGLSVGEPKDIMNRVLEFTTPLLPDNKPRYLMGVGSPDSLIDGAIRGIDMFDCVLPTRIARNGTCMTSEGRLVVKNAKFARDFGPLDPNCDCYTCKNYSRAYIRHLMKCDETFGIRLTSYHNLHFLLNLMEQVRQAIREDRLGDFREEFFEQYGFNKPNAKNF	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
AK009_04472	1053	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGGATATAAATCTGTTTGATTTTCATTTACCAGAAGAACTTATTGCACAAGTCCCGTTAGAAGAGCGTGAAACATCAAGATTAATGGTGTTAGACCGTGAAACAGGTGATATTGAGCATAAACATTTTACGGACATTCTTTCCTACTTACATGAGGGGGATTGTTTAGTTTTAAATGAAACGAAAGTTATGCCTGCTCGTTTGCATGGTGTGAAAGAAGATACAGGCGCACACATTGAAGTACTTCTTTTAAAACAAGAAGAGGGCGATAAGTGGGAAACGCTTGTAAAGCCAGCGAAACGTGTAAAAGAAGGAACTGTTATCTCTTTTGGCGAAGGAAAATTAAAAGCAACTTGCACAGGAACTGCAGATCAAGGTGGACGTCAGCTTGAATTTTCATATGACGGCATCTTCTATGAAATTTTAGATGAACTTGGGGAAATGCCACTTCCTCCATATATTAAAGAGACGCTAGAAGATCGCGATCGCTATCAAACAGTATATGCGAAAGAAATTGGTTCAGCAGCAGCGCCGACTGCGGGACTTCACTTTACAGAAGAGTTACTTGAGAAGTTAAAGCAAAAAGGCGTTCAGTTAGCATTCATTACACTTCACGTAGGACTTGGAACATTTAGACCAGTTTCTGCAGATACGATTGAAGAACACCATATGCACGCAGAATATTACCATATGTCTGAAGAGACAGCGGCATTATTAAATCGTGTAAAAGAGAATGGTGGACGTATTATTACTGTAGGTACGACATCAACTCGTACGTTAGAAACAATTGCAACAGATCATAACGGTAAGCTTTGCGCCGCTTCTGGATGGACAGATATTTTCATGTATCCGGGATATGAATTTAAAGCAATTGATGGTTTAATTACAAACTTCCACTTGCCGAAATCAACATTAATCATGCTTGTAAGTGCATTTGCAAATAGAGATAATGTGCTTCATGCTTACAATGAAGCAGTAAAAGAAAAATATCGTTTCTTTAGCTTCGGTGATGCAATGTTCGTTGCATCTCACGCTAAAATGAGAAACAAATAA	MDINLFDFHLPEELIAQVPLEERETSRLMVLDRETGDIEHKHFTDILSYLHEGDCLVLNETKVMPARLHGVKEDTGAHIEVLLLKQEEGDKWETLVKPAKRVKEGTVISFGEGKLKATCTGTADQGGRQLEFSYDGIFYEILDELGEMPLPPYIKETLEDRDRYQTVYAKEIGSAAAPTAGLHFTEELLEKLKQKGVQLAFITLHVGLGTFRPVSADTIEEHHMHAEYYHMSEETAALLNRVKENGGRIITVGTTSTRTLETIATDHNGKLCAASGWTDIFMYPGYEFKAIDGLITNFHLPKSTLIMLVSAFANRDNVLHAYNEAVKEKYRFFSFGDAMFVASHAKMRNK	PGPT0023660_1882	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
AK009_04473	201			hypothetical protein	ATGACGGAGATGCCAAAGCTGCTTATTACAGCGGGGATCTTACTCATTGTTGTTGGATTAGCTTGGAAGTTCATTGGAAGGCTTCCAGGCGATATTTTTGTTAAAAAAGGAAACGTTACCTTTTATTTTCCTATCATTACATGTATTGTGTTAAGTATTGTATTATCTTTTATTATGTATATAATAAATCGATTCAAATAA	MTEMPKLLITAGILLIVVGLAWKFIGRLPGDIFVKKGNVTFYFPIITCIVLSIVLSFIMYIINRFK				NA	NA	NA	NA	NA
AK009_04474	1002	ruvB_1	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGGACGAACGTCTCCTTTCAGGGGAATCTGCATATGAAGATTCGGATTTAGAATATTCATTACGGCCACAGACGCTCCGTCAGTATATTGGCCAAGATAAAGCGAAACATAATTTAGAAGTATTTATTGAAGCGGCGAAAATGCGTGAAGAAACGTTAGATCATGTGCTTTTATATGGACCACCAGGTCTTGGTAAAACGACGCTTGCGAATATTATTGCTAATGAAATGGGCGTTAATGTTAGAACAACTTCAGGTCCGGCAATTGAAAGACCAGGAGATTTAGCTGCTGTATTAACAGCGCTTCAGCCAGGAGATGTATTATTTATTGATGAAATTCATCGTTTGCATAGATCAATTGAAGAAGTATTGTATCCTGCAATGGAAGACTTTTGCCTTGATATCGTAATTGGAAAAGGGCCTTCAGCACGTTCTGTACGCCTAGATTTACCGCCATTTACATTAGTTGGAGCAACGACACGCGCCGGAGCATTATCGGCGCCGCTTCGTGACCGATTCGGTGTACTTTCAAGGTTAGAGTATTACACAGTAGATCAGCTTTCTGCGATTGTTGAACGTACAGCAGAAGTATTCGAAGTTGAAATTGATTCGTTAGCTGCACTAGAAATTGCAAGGCGTGCTCGTGGTACACCTCGTATTGCAAATCGTCTTTTAAGACGTGTACGTGATTTCGCGCAAGTTCGTGGTAACGGAACGGTTACGATGGAAATTACACAAATGGCATTAGAGCTACTGCAAGTAGATAAATTAGGTTTAGATCATATTGATCATAAATTACTGCTTGGTATTATTGAGAAATTCCGTGGTGGTCCAGTTGGATTAGAAACGGTTTCAGCAACAATTGGAGAAGAATCTCATACGATTGAAGATGTGTATGAGCCGTATTTATTACAAATTGGCTTTTTACAACGAACGCCAAGGGGCCGAATTGTAACGCCGCTTGCGTATGAACATTTCGGAATGGAGATACCAAAAGTATGA	MDERLLSGESAYEDSDLEYSLRPQTLRQYIGQDKAKHNLEVFIEAAKMREETLDHVLLYGPPGLGKTTLANIIANEMGVNVRTTSGPAIERPGDLAAVLTALQPGDVLFIDEIHRLHRSIEEVLYPAMEDFCLDIVIGKGPSARSVRLDLPPFTLVGATTRAGALSAPLRDRFGVLSRLEYYTVDQLSAIVERTAEVFEVEIDSLAALEIARRARGTPRIANRLLRRVRDFAQVRGNGTVTMEITQMALELLQVDKLGLDHIDHKLLLGIIEKFRGGPVGLETVSATIGEESHTIEDVYEPYLLQIGFLQRTPRGRIVTPLAYEHFGMEIPKV				NA	NA	NA	NA	NA
AK009_04475	618	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	TTGTTTGAATATGTTACAGGTTACGTGGAGTATGTAGGGCCGGAATATGTCGTAATTGATCATAATGGAATTGGTTATCAAATTTTCACACCGAATCCGTATGTATTTCAAAGAAGTAAGCAAGAAATCCGTGTCTATACATATCATTATGTGAGAGAAGATATTATGGCACTTTACGGGTTTAAAACACGTGAAGAGCGTTTATTATTTACAAAGTTGTTAGGCGTGTCTGGCATTGGGCCAAAAGGCGCTCTTGCAATTTTAGCTTCTGGTCAAACAGGACAGGTCGTTCAAGCGATTGAGCATGAAGATGAGAAGTTTTTAGTGAAATTCCCAGGCGTCGGAAAGAAAACAGCACGCCAAATGATTTTAGATTTAAAAGGAAAACTAGCAGATGTCGTACCAGATGCATTTGTTGATTTATTCTCAGACACAGAACGTTTTGATGAGAAGAAAGGTACATCAGCTGAGCTTGATGAGGCACTGGAAGCTCTGCGCGCACTTGGATACGCAGAACGCGAAGTTTCTCGCGTTGTACCAGAGTTATTAAAAGAATCATTAACGACGGATCAGTATATTAAAAAGGCACTTAGTCTTTTACTAAATGGTAAGAGGTGA	MFEYVTGYVEYVGPEYVVIDHNGIGYQIFTPNPYVFQRSKQEIRVYTYHYVREDIMALYGFKTREERLLFTKLLGVSGIGPKGALAILASGQTGQVVQAIEHEDEKFLVKFPGVGKKTARQMILDLKGKLADVVPDAFVDLFSDTERFDEKKGTSAELDEALEALRALGYAEREVSRVVPELLKESLTTDQYIKKALSLLLNGKR				NA	NA	NA	NA	NA
AK009_04476	945	yfiY_2	COG0614	putative siderophore-binding lipoprotein YfiY	ATGAAACGTAAGCTATTTATTTTATTTACTATTATGCTTGTTGTTCTTTCTATCGTTGGCTGCTCTTCTCAAAAAGAAGAATCGAAAGCAAAAGAACAACCGAAAACAAAAGTTGTAAAACATGCTAAAGGTGAAGCAACAATTCCAGTAAATCCAAAGAGAATTGTTGACTTATCTGGATCAACAGAAGAACTATTACTTCTTGGACACAAACCTGTTGGTACAGCAAATACATATAAAGATAAAATCCAAAATCACTTAACAGATAAGTTAGATGGAGTAAAAGCAGTAGGTTGGTACTGGGCACCTAAAGTTGATTTAGAAGCTGTTACTGCTTTAAAACCAGACTTAATTATTTTAAACAACCGTCAATTAAAAATTTATGATCAACTAGAAAAGGTTGCACCTACAGTTGTTCTAGAAACAAACTTAGAAGACTGGCGTGGTAAATTTAAAGAAGTAGGTAAGCTATTTGGCGAAGAGAAGAAAGCAGACAAATGGATTGCAGACTACGATAAGAAAGCAGACTCTTTATCTAAAAAAATTAAAGAGAAAACAAAAGATGAGAACTTTATGTTCGTTGCAGTTACACCACAAAACTTCCGCGTATACGGCAGCTTCGGATACGGTGACATCATCTTTAATGACTTAAAACTTCCAGCAACAAAAGGTACAGATTTAAAACAAACAATGGCGCAAGTATCGCTAGAAGGTCTTGTTGCATTCCAACCTGATCAAATGTTTATTGTAAACTTTGGCGGCGAAGCTGATAAAGTTTACGAAGACTACAAAAACAGTGCCGTTTGGAAAGACAATAAAGCTGTGAAAAACAATCATGTATATGAAGTATCAAACGAAATCTTCAATACGAAAGCATTCAATCCAATCGGAAAAGATATGCTAATCGATGAAATCGCAAAAGAAATTTTAGCTAAGAATAAGTAA	MKRKLFILFTIMLVVLSIVGCSSQKEESKAKEQPKTKVVKHAKGEATIPVNPKRIVDLSGSTEELLLLGHKPVGTANTYKDKIQNHLTDKLDGVKAVGWYWAPKVDLEAVTALKPDLIILNNRQLKIYDQLEKVAPTVVLETNLEDWRGKFKEVGKLFGEEKKADKWIADYDKKADSLSKKIKEKTKDENFMFVAVTPQNFRVYGSFGYGDIIFNDLKLPATKGTDLKQTMAQVSLEGLVAFQPDQMFIVNFGGEADKVYEDYKNSAVWKDNKAVKNNHVYEVSNEIFNTKAFNPIGKDMLIDEIAKEILAKNK	PGPT0003765_8691	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
AK009_04477	531			hypothetical protein	ATGAAATGGATACTGATTGCGGTGCAAGCTTTCGTTATGATGTTTTGTTTCGTTTATGAAACGAATGTGAAGGCGGAAGGGCCAGTACCAGAAGTAACGAAAAAAGAACCCGAAGTTACAATTTTATTAGAGCGTATGTATGTTGATGGAGAAGTAAGTGAGGAAATACTTACAGAAAAAGTGGTGGATTTAGAAAAGTTTTTACAGCAGTATAAAGAATGGCAGCTCGTTGATCGTGATGATGTACAAATTGTATTGCAAAAGAAAGTTGATGATATTTCTCCGTTATTAAAAACGAGCGGTTATTTTGGCGTGTCAGAGGAAGGGATATTACAAATTTTCAAAGGTGTACCGAAAAGTGATAATGCGATTCACTCCTTCTTCCAAATTGATATGAAAAAGCTTGAGAGTTATGAGCGTGCGAAATTGAAGCGTGGTATTCGGATTAAATCAAAAGAAGGTTTTGTGAGAACGATTGAAAAAATGAAGCAATACGCAGTGCAAAATAAGAAAAAAAGCAGCTCATGGTGA	MKWILIAVQAFVMMFCFVYETNVKAEGPVPEVTKKEPEVTILLERMYVDGEVSEEILTEKVVDLEKFLQQYKEWQLVDRDDVQIVLQKKVDDISPLLKTSGYFGVSEEGILQIFKGVPKSDNAIHSFFQIDMKKLESYERAKLKRGIRIKSKEGFVRTIEKMKQYAVQNKKKSSSW	PGPT0014765_97	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014765-bofC-K06318	NA	NA
AK009_04479	381			hypothetical protein	ATGGCCTTTCTTTTTCAATACATTGGGGTAGTTGAGATTTTAGGCTATATCGGATTCACTGAAGGAATTGATCAAATTACGAAATCTCCATTATGGCTATTATTTATGCTTACGAGTATTTTACTTGCTTATTTACAGTTAAGTGTTTCAATCGATGTAGAAGAAGGCGAAAAGGAAATAAAATTAACCCCTTATTACAAGCTTGTTTTACGCTCTCTTCTTATTGGAATTATTATTACTATTATTTATCTCATTTTCATTCCTGAAAGACCTCTATTTAAAGCTATTCTAACAGGTAGTGTTTTCCTCATATGCTTTTTAGTTTCTTACTCCGTTAGTTATTTTATTAAAAAACGTCGTTTACAAGACAACGATGAATGA	MAFLFQYIGVVEILGYIGFTEGIDQITKSPLWLLFMLTSILLAYLQLSVSIDVEEGEKEIKLTPYYKLVLRSLLIGIIITIIYLIFIPERPLFKAILTGSVFLICFLVSYSVSYFIKKRRLQDNDE				NA	NA	NA	NA	NA
AK009_04480	648			hypothetical protein	TTGAATACGAAAGTAAAAGTGATTGCTGCTTCTTTGTTAGTTACCAGTGCATTAGCTGCATGTGGTACACCAAAAGATAACAATGCAATGGATGGACGTAACTACAATTACGAGCGTACATCTTATAATGATACACACCAGTATCGTGATAATGTAACGCGTAATGATCGCTATACAGATTATGTAACATATAGAAATGGTCGTAACGATACAGGATATAACAATTATTACCGAGATGTAAATTACAACGGTCAAATTGCTAATCCACATCCAACACGTAATATTACAATGAACAATTCATACATTAACAATGATGGTAAAACAGCAGAAAAAATTACAAATCGTGTGAAACGTATGAATAACGTGGACCGTGTGTCTACAGTTGTATATGGAAACGATGTGGCGATTGCGGTAAAACCGCGTAATACAGTGACAAATGAAACGGCGATGGCGAACGAAATTCGTCAAGCTGTTGTAAATGAAGTTGGAAACAGAAATGTCTATGTTTCTGTAAGAAATGATATGTTTACTCGTGTCGATGCAATGAGCACACGCCTACGTAACGGTACAGTTACAAACGATTTTAATCGTGATATAGGAAATATGTTCCGAGACATTCGTTACGGTTTAACTGGTACTATGCGATAG	MNTKVKVIAASLLVTSALAACGTPKDNNAMDGRNYNYERTSYNDTHQYRDNVTRNDRYTDYVTYRNGRNDTGYNNYYRDVNYNGQIANPHPTRNITMNNSYINNDGKTAEKITNRVKRMNNVDRVSTVVYGNDVAIAVKPRNTVTNETAMANEIRQAVVNEVGNRNVYVSVRNDMFTRVDAMSTRLRNGTVTNDFNRDIGNMFRDIRYGLTGTMR				NA	NA	NA	NA	NA
AK009_04481	747	exsA		Spore coat assembly protein ExsA	ATGCCGAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATAATGCCAATTATGGATAACAACCAACCACCGAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATGATGCCAATCATGGATAACAATCAACCACCAAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATGATGCCAATTATGGATAATAATCAAATGCCGAATATGATGCCAATCATGGATAACAATCAAATGCCGAATATGATGCCAATTATGGATAACAATCAACCACCGAATATGATGCCATATCAAATGCCGTATCAACAGCCTATGATGCCGCCGAATCCATATTATCAACAACCAAATCCATATCAAATGCCATATCAGCAAGGGGCGCCGTTTGGACCGCAATATACGTCTATGCCAAACACGAATATGATGCCAATGGATAATAATATGCCGCCGCTTGTGCAGGGTGAGGAAGATTGTGGATGCGGAGGAGAAAGTAGACTATATAGTCCACAACCAGGCGGTCCGCAATATGCGAATCCTTTATATTATCAACCAACTCAATCTGCATATGCACCACAGCCAGGAACGATGTATTATCAACCAGATCCACCAAATGTATTTGGAGAGCCCATTTCAGAAGAAGAGGCCGAAGAAGAAGTTTAA	MPNMMPIMDNNQMPNMMPIMDNNQMPNMMPIMDNNQMPNIMPIMDNNQPPNMMPIMDNNQMPNMMPIMDNNQPPNMMPIMDNNQMPNMMPIMDNNQMPNMMPIMDNNQMPNMMPIMDNNQPPNMMPYQMPYQQPMMPPNPYYQQPNPYQMPYQQGAPFGPQYTSMPNTNMMPMDNNMPPLVQGEEDCGCGGESRLYSPQPGGPQYANPLYYQPTQSAYAPQPGTMYYQPDPPNVFGEPISEEEAEEEV				NA	NA	NA	NA	NA
AK009_04482	1107	nadA_1	COG0379	Quinolinate synthase A	ATGAGTATTTTAGAAAAAGTGCAACCAATTGAAACGATGTTACCGGAGCGTTATCACAAGATGTCAAAAGAAGATATGGAAAAGCGTGTTCATGAAATTAAAGAAAAAATGGGAAAAATGTTATTCATTCCAGGACATCATTACCAAAAAGATGAAGTGGTACAATTTTCAGATGCAGCAGGGGATTCACTTCAGCTTGCGCAAGTTGCAGCGAGCAATAAAGACGCAAAGTATATTGTGTTTTGCGGGGTGCACTTTATGGCGGAAACAGCAGATATGTTAACGACAGATGATCAAATCGTTATTTTGCCAGATATGCGTGCAGGATGTTCGATGGCAGATATGGCAGATATTGAACAAACAGAAAGAGCGTGGAAAGAGCTCACGAAATTATTTGGAGATACGATGATTCCGTTAACGTATGTGAACTCTACAGCTGCAATTAAAGCGTTTTGTGGTCGTAACGGAGGAGCAACAGTAACTTCTTCTAATGCAAAGCAAATGGTATCTTGGGCGTTTACTCAAAAAGAACGTCTCGTCTTTTTACCGGATCAACATTTAGGAAGAAATACAGCGTACGACTTAGGTATCCCGTTAGATAAAATGGCAGTATGGGATCCGCATACTGATTCTTTAGAGTACGATGGAGATATAGAAGAAATTCAAGTGATTTTATGGAAAGGTCATTGTTCAGTTCATCAAAACTTTACAGTGAAAAACATAGAGAATGTACGAAAAAATCATCCGGATATGAATATTATTGCACATCCAGAATGTTGCTATGAAGTTGTAGCTGCTTCAGATTATGCAGGGTCAACGAAATATATTATTGATATGATTGAATCAGCGCCATCTGGTAGCAAATGGGCGATTGGTACAGAAATGAATTTAGTGAACCGAATTATTCAGCAACATCCAGATAAAGAAATTGTTTCACTTAATCCATTTATGTGTCCATGTTTAACGATGAACCGAATTGATCTGCCTCACTTATTATGGGCACTTGAAACGATAGAAAGAGGAGAAGAAATTAACGTTATTAGTGTAGATAAACAAGTAACCGCAGAAGCGGTTCTTGCATTAAATCGTATGTTAGAGCGTGTGTAA	MSILEKVQPIETMLPERYHKMSKEDMEKRVHEIKEKMGKMLFIPGHHYQKDEVVQFSDAAGDSLQLAQVAASNKDAKYIVFCGVHFMAETADMLTTDDQIVILPDMRAGCSMADMADIEQTERAWKELTKLFGDTMIPLTYVNSTAAIKAFCGRNGGATVTSSNAKQMVSWAFTQKERLVFLPDQHLGRNTAYDLGIPLDKMAVWDPHTDSLEYDGDIEEIQVILWKGHCSVHQNFTVKNIENVRKNHPDMNIIAHPECCYEVVAASDYAGSTKYIIDMIESAPSGSKWAIGTEMNLVNRIIQQHPDKEIVSLNPFMCPCLTMNRIDLPHLLWALETIERGEEINVISVDKQVTAEAVLALNRMLERV	PGPT0013365_976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
AK009_04483	834	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGAACACGATAAAAGTGAAAGAAGCATTAAATCGATTTTTTTTAGAAGATATAGGAGAAAGAGATGTAACATCTCAGCTTATTTTTCCAGATAACTTGCTTTCAAAAGGAACGTTTCTTTCGAAGGATACAGGGGTCTTTGCAGGACGTTTAGTAATTGAATCGGGATTTAAATTAATTGATGAGAGAATTGAAGTAGAGCTTCATAAAAAAGATGGGGATCTTGTAGAAAAAGGCGAAATCATTGCAACTGTGCAAGGTCCAATTGCATCGTTATTAACAGCAGAGCGCGTTATATTAAATGTTATCCAGCGTATGAGCGGAATAGCGACGATGACGCGTAAAGCGGTTCTTGCTTTAGATAGCAGCCATACACGTATTTGTGATACGCGAAAAACAATGCCGGGGCTACGTATGTTTGATAAGTATGCAGTCGTGTGCGGAGGAGGATTTAATCACCGTTTCGGTTTATATGATGGTGTCATGATCAAAGACAATCATATTGCCTTTGCGGGTTCTATTACGAAAGCTGTTACATCGCTGAAAGAAAAATTAGGACATATGGTGAAAGTAGAAGTGGAAACAGAAACGGAGGAGCAAGTGAGAGAGGCTGTAGCGGCTGGTGCGGATATTATTATGTTTGATAACCGTACGCCAGATGAGATTAGAGAGTTTTCAAAGATTGTACCAAGTGCCATCGTTACGGAAGCATCAGGAGGCATTACAATTGAAGATTTATCGAAATACGGAAAAACAGGGGTAGATTATATTTCACTTGGAGCGTTAACACATTCAGTGAAAGCACTTGATATTAGTTTCAATATTGAAGGGTAA	MNTIKVKEALNRFFLEDIGERDVTSQLIFPDNLLSKGTFLSKDTGVFAGRLVIESGFKLIDERIEVELHKKDGDLVEKGEIIATVQGPIASLLTAERVILNVIQRMSGIATMTRKAVLALDSSHTRICDTRKTMPGLRMFDKYAVVCGGGFNHRFGLYDGVMIKDNHIAFAGSITKAVTSLKEKLGHMVKVEVETETEEQVREAVAAGADIIMFDNRTPDEIREFSKIVPSAIVTEASGGITIEDLSKYGKTGVDYISLGALTHSVKALDISFNIEG	PGPT0013370_3965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
AK009_04484	1530	nadB	COG0029	L-aspartate oxidase	ATGCCAAGTGCAGATGTCTTAATTATTGGAAGTGGCGTTGCGGCACTTCGTGTTGCAAAAGAGATTTGTCACGAAAAGAATGTGATTATTATCACAAAGGAGACGAAACGTAATAATAATACACATTTAGCTCAAGGTGGAATTGCCGCAGCGGTAGCTACATATGACAATCCTAATGATCATTTTGAAGATACGTTAGTAGCAGGGTGTCATTATAATAATGAAGAAGTGGTCCGTTATTTAGTCGAGGAAGGGCCGAAAGAAATTAATAACCTTATTGAAAGAGGAATGAAATTTGATGGAGATGAAACAGGTCCTCATCTTGGAAAAGAAGGAGCGCATCGAAAACGTCGTATTTTACATGCAGGTGGCGATGCAACAGGAAAGAATTTATTAGAGCATCTTATTCAAGAAGTAGCTCCATACGTTACGGTAGTGGAACAGGAAATGGTGCTCGATTTTATTATAGAAAAAGATAAATGTGTTGGGGCTTTAACTCGTAACAATAAAGGAGAACTGAAACGTTACAATGCAGATTATACGGTGTTAGCTTCAGGCGGTATTGGCGGTTTATACGCCTTTACTTCTAATGATGAGACAATTACAGGCGATGGACTTGCAATGGTGTACCGTGCAGGCGGAGAGCTTGTAGATTTAGAGTTTATACAATTTCATCCGACGATGTTATACGCGGGTGGGCGTTGTTCCGGCCTCGTGTCCGAAGCTGTTCGCGGAGAAGGAGCTGTTCTTATAAATGGAAAAGGGCAGCGTTTTATGATGGATATACATTCCGAACAGGATCTAGCGCCTCGTGATGTAGTCGCAAGGGCTATTCATGAACAGCTACTTGCGGGTGAAAAAGTGTACTTAAACATCGAAATGATTCAAAACTTTGAACAACGCTTTCCGACCGTGTCATCGATATGTAAAACAAATGGAGTCGATATAAATAAAAAACTTATTCCAGTCGTGCCCGGTACTCATTTTCACATGGGCGGCGTGAAAACGAACTGTGATGGAGAGACGTCTATTCCGAACCTATACGCAGTCGGTGAAGTAGCTTGTAATGGGGTTCATGGTGCAAATAGATTAGCGAGTAATTCATTATTAGAAGGTCTTGTGTTTGGAAAAAGAATCGGACGACACATTTTATCTAGAGAGACAAAAGAAAAGGTGAGCATGCTAGCCGAAAAGGAAGCGAAGTTTATCGTTCTGAATCATTTACCGACGAAAGAAGAAATACAAAAATGCATGATGAAATATGTTGGGATTGTGCGAACAGAGCAAAGTTTATCTTATGCGAAGAGATGGCTTAGTAAGTACGGTGTTCGAAATATGATATTACAACATGATGTTCTTACGAATGAAGAGATAACACTTATTAATATGTTAACGGTTTGTGAGCTTATAGTTGTGTCAGCTCTGCAAAGAGAAGAAAGTATTGGTGGGCATTACCGGAGTGATTATCCAGATAGAAATGTAGGAAAGAAAGAGATTGTTCGAGTAAAGAGAAAACTACAACTTGTGTGA	MPSADVLIIGSGVAALRVAKEICHEKNVIIITKETKRNNNTHLAQGGIAAAVATYDNPNDHFEDTLVAGCHYNNEEVVRYLVEEGPKEINNLIERGMKFDGDETGPHLGKEGAHRKRRILHAGGDATGKNLLEHLIQEVAPYVTVVEQEMVLDFIIEKDKCVGALTRNNKGELKRYNADYTVLASGGIGGLYAFTSNDETITGDGLAMVYRAGGELVDLEFIQFHPTMLYAGGRCSGLVSEAVRGEGAVLINGKGQRFMMDIHSEQDLAPRDVVARAIHEQLLAGEKVYLNIEMIQNFEQRFPTVSSICKTNGVDINKKLIPVVPGTHFHMGGVKTNCDGETSIPNLYAVGEVACNGVHGANRLASNSLLEGLVFGKRIGRHILSRETKEKVSMLAEKEAKFIVLNHLPTKEEIQKCMMKYVGIVRTEQSLSYAKRWLSKYGVRNMILQHDVLTNEEITLINMLTVCELIVVSALQREESIGGHYRSDYPDRNVGKKEIVRVKRKLQLV	PGPT0013355_3077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
AK009_04485	1143	nifS	COG1104	Putative cysteine desulfurase NifS	ATGATGATATATCTTGACTATGCAGCTACTACACCTATGAGCGAGGAAGCGTTACAAACATATATGAAAGCAGCTTCTCAATACTTTGGAAATGAACAAAGTTTACATGACATTGGAGGAACGGCTTCTTCTTTATTACAAGTTTGCCGAAAAACATTCGCGGAAATGATTGGTGGAAAAGAACAAGGAGTATTCTTCACAAGCGGTGGCTCAGAATCAAACTATCTTGCGATCCAATCACTTCTAAATGCCCGAAATAAGAAGCATATTATTACGACACCTATGGAACATGCATCCATTCGAAGTTATTTTCAATCTCTAAAATCAAAAGGCTATACGATCACTGAAATTCCTGTTGATAAAAGCGGACTCATTTGTTTAGTAGATTTAGAGGCATCTATTACAGAAGATACTGTGCTAGCAAGTATACAGCATGGAAACTCTGAAATCGGAACCGTTCAAAACATTACAGAAATCGGGGCAATTTTGAAAAAATATAATGTTTTATTTCATACGGATTGTGTGCAAACGTTTGGTAAACTGCCTATCCATGTTTTTGAGATGGGGATTGATAGTCTTTCTGTTTCAGCACATAAAATATACGGACCAAAAGGTGTCGGCGCTTGCTACATAAATCCGCAATCTCGCTGGGAACAAGTATTTCCAGGAACTTCTCACGAAAAAGGATTTCGCCCAGGTACAGTTAACGTTCCCGGCATCGCATCTTTTTTAACAGCTGCTGAAAATATATTAAAAACTCAATGGGAAGAAAGTTTACGTTTTAAAGAGTTACGATCCTACTTTTTAGAGCAAATACAAACACTTCCGCTAGAAATTGAAGTAGAAGGTCATTCTACTTCTTGTTTACCACATATTGTTGGGGTTACAATAAAAGGAATAGAAGGTCAATATACTATGCTAGAATGTAATCGTCATGGTATTGCCATTTCCACCGGAAGTGCTTGCCAAGTCGGTAAACAAGAACCTTCGAAAACCATGCTTGCAATTGGAAAAACGTATGAAGAGGCCAAACAATATGTCCGCTTCTCTTTCGGACAACAAACAACGAAAGATCAAATTGATACTACTATTCATGCACTACACACAATTGGAAATCAATTTTATAGAGGTGTTAAATCATAA	MMIYLDYAATTPMSEEALQTYMKAASQYFGNEQSLHDIGGTASSLLQVCRKTFAEMIGGKEQGVFFTSGGSESNYLAIQSLLNARNKKHIITTPMEHASIRSYFQSLKSKGYTITEIPVDKSGLICLVDLEASITEDTVLASIQHGNSEIGTVQNITEIGAILKKYNVLFHTDCVQTFGKLPIHVFEMGIDSLSVSAHKIYGPKGVGACYINPQSRWEQVFPGTSHEKGFRPGTVNVPGIASFLTAAENILKTQWEESLRFKELRSYFLEQIQTLPLEIEVEGHSTSCLPHIVGVTIKGIEGQYTMLECNRHGIAISTGSACQVGKQEPSKTMLAIGKTYEEAKQYVRFSFGQQTTKDQIDTTIHALHTIGNQFYRGVKS	PGPT0000065_6323	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
AK009_04486	543	nadR	COG1827	Transcription repressor NadR	ATGAAACAAAATGAACAAAAAAAGATTTTAGGTGAAGAAAGACGACAGCTTATCCTCCAGTGGCTTCTCGCTGCAAATGAGCCGTTATCTGGGAATGAACTATCGAAGAAGACAAACGTAAGTAGGCAAGTTATCGTGCAAGATATTTCCTTACTTAAAGCACGAAACGAACCAATTATTGCGACTGCTCAAGGCTATTTATATTTAAAGCCACAAGAGAAACAACAAGCTTTTGAACGCGTAATCGTATGCCAGCACAAACCAGCAGAAGTACGTCAAGAACTTACAATGCTTGTTGATCACGGTGTTACGATTAAAGACGTAAAAGTTGAGCATCCTGTATACGGCGATTTAACAGCATCTATTATGGTAAGTAATCGCTTTGATGTAGAACAATATTTACAAAAAATAGAAAACACAAATGCTTCTTACCTTTCGCAACTAACAGATGGTATTCACTTACATACAATTGAGGCCGATTCTAAAGAAAAGTTAGATGCTGCTTGCAAGGCACTGGATAAAGCAGGATTTCTCGTTTATTAA	MKQNEQKKILGEERRQLILQWLLAANEPLSGNELSKKTNVSRQVIVQDISLLKARNEPIIATAQGYLYLKPQEKQQAFERVIVCQHKPAEVRQELTMLVDHGVTIKDVKVEHPVYGDLTASIMVSNRFDVEQYLQKIENTNASYLSQLTDGIHLHTIEADSKEKLDAACKALDKAGFLVY				NA	NA	NA	NA	NA
AK009_04487	648	yiiM_2	COG2258	Protein YiiM	ATGGGAATTAAACTCGTTCACTTTAGCATTGGCAAACCGAAACAAATGAAATATAGCGAAGATAAAGAAATGATTACTGGTATATGTAAGGAACTTACAGAAGAAGCTTTCCTCTCAAAAGATGGATTCCTCGGCGATGACGTAGCAGATTTAAAACATCATGGCGGTCCTGATCGCGCTGTTTGTGTATACCCACACGAGCATTACGCACTATGGGAAGAGGAATTTCAAACTACGCTTCCAGCTTCCACATTTGGCGAAAACATTACCGTAACAAATATGTTAGAGCGTGATGTTTGCATCGGAGATACATATCAACTAGGTGAAGCAATCATTCAAGTGACACAAGCAAGAGTACCTTGTAGCACTATTTCAAAACGCCTCGGTATTCCTGGCATTTTGCCGCGCATTGTAGCAACTGGATTTACTGGCTACCTATGCCGTGTTCTTCAAGAAGGTACTGTACGTAAAGATTCTAAAATTACATTACTAGAACGTCAACCGAGCAATATTTCTGTGTTGTTCTCTAACGAAATCTATTTTCATAATAGAAAAGATAAAGATGGCATAGAAAAAATTCTTGCTGTTCCAGAACTAGCTGATATTTGGCGTGGTCAGTTAGAAGAGCGTCTTGTGAAGTTAAAATAA	MGIKLVHFSIGKPKQMKYSEDKEMITGICKELTEEAFLSKDGFLGDDVADLKHHGGPDRAVCVYPHEHYALWEEEFQTTLPASTFGENITVTNMLERDVCIGDTYQLGEAIIQVTQARVPCSTISKRLGIPGILPRIVATGFTGYLCRVLQEGTVRKDSKITLLERQPSNISVLFSNEIYFHNRKDKDGIEKILAVPELADIWRGQLEERLVKLK				NA	NA	NA	NA	NA
AK009_04488	471			hypothetical protein	ATGGCAGATTACTTCTTAAAAAATGGAAAAAAATATTATAAGAAAAATGATCATCCATGTAATTCTTCAAATTCAGATTCAACTAACTGTTTTATACAGAACTATACTATTTTCGGTACGGAAGATACCCCTCAAGATCTTGATATAACAACTGGAATTCCTCGAACTGTATTTGAAAACTTCACTAAAAATCATAATAAGACACTTATTAAATTTAGTTTCAGTCCTGCATTTGCAACAACGATTAGATTAACAATTGCAAGATTAAACCATCGCTCTCCACTTACATTTACCTTAACACCAGGAGATATTAAAACATTTTTAGTAGAAGATGTTTTGAGTATTACTTTCTCAGATACTGTAGCTCCATCTACACTTAATCTATTAATACAACAAACGAATTGTATTTGCTGCAGTAATTCGAACAATGATGAATCCTATTATTATAATAGTTGTAATGATGCGTACTAA	MADYFLKNGKKYYKKNDHPCNSSNSDSTNCFIQNYTIFGTEDTPQDLDITTGIPRTVFENFTKNHNKTLIKFSFSPAFATTIRLTIARLNHRSPLTFTLTPGDIKTFLVEDVLSITFSDTVAPSTLNLLIQQTNCICCSNSNNDESYYYNSCNDAY				NA	NA	NA	NA	NA
AK009_04489	852	pheA_1		Bifunctional chorismate mutase/prephenate dehydratase	ATGATTCGAGTAGGATATTTAGGACCAGAAGCAACATTTACAAATATGGCGGTGAGTCGTTTTTTTCCGGAAGCAGAGCATGTACCGTATCGAACGATTCCAGATTGTATAGATGCAGCTGCAAATGAAAATGTAGACTTCGCAGTTGTACCGTTAGAAAATGCAATAGAAGGTTCAGTGAATATAACGGTTGATTACCTTGTACATGAGCAGCCGCTTTCCATTGTAGGAGAAATTACAGTACCAATTCAGCAGCATTTACTTGTACATCCGCAGTATGCAGAAGTGTGGGATGAAGTATATGCGGTGCATTCTCATCCGCATGCCATTGCACAGTGCCATAAATTTTTAAATGAAGAATTAAAAGGAGTAACTGTTCGAGATATGACATCCACAAGTGCCGCTGCGCAATATGTGAAAGAACATCCTGAAGAGAAAATTGCCGCTATTGCAAATGAAGCAGCTGCAGAAAAATATGGATTAACAATTGTGAGGCGTAGCATTCATACGCATAAAAATAATCACACACGTTTCCTAGTACTCCATAAGAAAAAGAAAGCAGTACTCCCGAATAACGGAGAGAACCGCGGAGAGAAAACGACGCTTATGATAACGTTACCTGCAGATTATGCAGGTGCCCTATATCAAGTGTTATCAGCTTTCGCATGGAGAAAATTAAACTTATCAAAAATCGAATCGCGTCCGATGAAAACAGGTCTTGGAAATTACTTTTTCTTAATCGATGTCGATAAAGCGTATGATGACGTATTATTGCCAGGCGTAACGATGGAACTTGAAGCACTCGGTTTTTCTGTTACTGTGCTGGGGAGTTATTCTTCTTATTGGTTGTAA	MIRVGYLGPEATFTNMAVSRFFPEAEHVPYRTIPDCIDAAANENVDFAVVPLENAIEGSVNITVDYLVHEQPLSIVGEITVPIQQHLLVHPQYAEVWDEVYAVHSHPHAIAQCHKFLNEELKGVTVRDMTSTSAAAQYVKEHPEEKIAAIANEAAAEKYGLTIVRRSIHTHKNNHTRFLVLHKKKKAVLPNNGENRGEKTTLMITLPADYAGALYQVLSAFAWRKLNLSKIESRPMKTGLGNYFFLIDVDKAYDDVLLPGVTMELEALGFSVTVLGSYSSYWL				NA	NA	NA	NA	NA
AK009_04490	1911	yxdM_6		ABC transporter permease protein YxdM	ATGAACATTCGGCAACTAGCGCTGCAAAATATAAAAGGAAATTGGCGTAATTATAAAGTGTTTTTCTTAAGTAGTTGTTTTGCAATATTTGCTTCTTACGCATATATGTCTGTCATTGTGCATCCATATATGCAAGAGACGATGTGGTATCAAAACGTACGCTGGGGACTTATCATATGTAATGTTATAATCATTTCTTTTTTCGTCATATTTATTTTGTACTCTACTTCTATTTTCATAGAAGCACGTAAGAAAGAATTAGGGTTATATATGTTAATGGGAGCAACGAAGTCTAACGTAATAGGAGTGATTATGACCGAGCAAATTTTAATTGGGGTCTTCGCGAATATTTTCGGTATTGGGCTTGGTATGATATTTTTAAAACTCTTTTTTATGGTATTTAGTATGTTACTGGGGCTTCCGAAAGAACTGCCTGTCATATTTGACGTAAGGGCGATTGGTGTAACATTTATTACATATATAGTCGTTTTTATTCTATTATCTTTTATAAGTGCTTTACGTATATGGAATATAAAAATCATTCGGTTATTGAAAGAATTTCGAACAGATAAAAAAGAGAAGAAAACATCAAAGTGGCTCTGTTTATTCGGTTTTGCTTGTTTAGTGGGCGGGTATGCGTTGGCGCTACAAGTGACGATGGCTACGATAGCGATATACTTTTTCCCTGTGTCTATACTTGTCTTTTTTGGAACGTACTTTTCTTTCGCGCATGGTGCTACCCAAGTGTTAGAAATGATAAAGCGAAATAAAAAGATTATGTATACATATCCGTATTTATTTATAGTGAATCAATTGTCACATCGAATGAAGGAAAATGGTCGCTTTTTCTTTCTGATGTCTATGGCAACGACGTTTGTAGTTACAGCAACAGGTACGGTGTTCTTATATTTTTCTAGCATGCAAGATATGTGGCGAACTGGAGGGATACACTCGTTTTCGTACATAGAAAAAGGTATTTCTACTCATGAAGTCTTTGAAGAAGGTGCGGTTGAAAAATTACTGCATCAATATGAGTATGATGATTTTCAATATATGAGTTTTATTGGAGTGTATGCATCCTTTCAGTCTAATAAGGGAGAAACAACAATAGCACCGCTTATAAAAGAAAGTGAATATAACCAAGAAGCGAGGAAACAAAAACAGAAAACGTATCGTCCTAAAAAAGGTACAGTGACACTCGTTTATTATAATAAATACAATAATTCGAATGTATATAATCAAAAAGAGATTCAATTGCGAGTAATGAATCAACCATATCAATTCGTATTTAACGGTCAGAAAGAAGGTGTTCAATTTAACCATCATCCCTCGTACATTAATGGTCTGTTCTTCGTTATGAATGATGAAGATTTTGACAGTATAGCAAATCAGGTTCCTGATTCTGAAAAAATGATATATAGAGGCTACACATTACCAAATATCGAAAAGACGAAGAAATTAAATGAAGATTTACGGAAACATATGAAACAAGATAATAATGCATTTCGAAGCAATATGGAGTTATATGTAAATATGAAAGAAGGCGGCGATATTACTCTATTTGTAGGCTCATTTATTAGTATATTATTTTTTCTTACTTCATGTAGTATCGTGTATTTTAAATGGTTCCATAATATTGCATCGGACCGAAAGCAGTATGGTGCACTCTCTAAACTTGGAATGACGAAGGAAGAAGTATGGAAAATTTCTCGTTGGCAATTATGTATGCTATTTTTTGCGCCAATTATAGTAGGGAGTATGCATAGTGCAGTTGCGTTATATACGTTTCATAATACGCTTTTTATGGATGGATCATTAAGAAAAGTAGGTTTGTTCATTCTGTTTTATATCGCAGCATGTATCATTTATTTCTTCTTCGCTCAAAGAGAATATAAGAAACATTTAGACTAG	MNIRQLALQNIKGNWRNYKVFFLSSCFAIFASYAYMSVIVHPYMQETMWYQNVRWGLIICNVIIISFFVIFILYSTSIFIEARKKELGLYMLMGATKSNVIGVIMTEQILIGVFANIFGIGLGMIFLKLFFMVFSMLLGLPKELPVIFDVRAIGVTFITYIVVFILLSFISALRIWNIKIIRLLKEFRTDKKEKKTSKWLCLFGFACLVGGYALALQVTMATIAIYFFPVSILVFFGTYFSFAHGATQVLEMIKRNKKIMYTYPYLFIVNQLSHRMKENGRFFFLMSMATTFVVTATGTVFLYFSSMQDMWRTGGIHSFSYIEKGISTHEVFEEGAVEKLLHQYEYDDFQYMSFIGVYASFQSNKGETTIAPLIKESEYNQEARKQKQKTYRPKKGTVTLVYYNKYNNSNVYNQKEIQLRVMNQPYQFVFNGQKEGVQFNHHPSYINGLFFVMNDEDFDSIANQVPDSEKMIYRGYTLPNIEKTKKLNEDLRKHMKQDNNAFRSNMELYVNMKEGGDITLFVGSFISILFFLTSCSIVYFKWFHNIASDRKQYGALSKLGMTKEEVWKISRWQLCMLFFAPIIVGSMHSAVALYTFHNTLFMDGSLRKVGLFILFYIAACIIYFFFAQREYKKHLD	PGPT0013350_10702	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_04491	1923	yxdM_7		ABC transporter permease protein YxdM	ATGAACTTTCGCCAGCTCGCGCTTAATAACGTAAAAGGGAATTGGCGTAACTATAAAGCGTTTCTTATAAGTAGTTGTTTATCGATTGTCGTATTTTTCATGTATGCTTCTTTTATTTATCATCCAGATGTCGTAAGCGGTAATATTAGTATGAGAAAGATGATTACAAAAGGATTAGAATCGATGAATTATATTGTGGTCATCTTCTCGGCACTCTTTATTTTATATGCAAATTCAACGTTTTTACGAGCAAGAAAAAAAGAGTTTGGTCTACTAACATTAATAGGCGGAACGAAATCGCAGCTCGGCCGAATGATTATATTAGAACAACTGATGTTAGGTGGTATTGCAATTGTAGTTGGTATTGGGGTTGGAATGCTTTGTTCAAAATTATTTTTCCAAGCGTTAAGCGTATTATTGAAAATAGATAAGACACTTCCACTCGTTTGGAATAGTAAAGCAGTTCTTATTACAGCTGGTGTATACTTTATTCTATTTTTAATCCTATCATTATTTAGTGTTTGGACAGTAGGACGCTTGCAAATTATTGATTTATTAAGAGAAGCAAGAAAGCAAAAAGTAGAGCCGTTTGCATTTACATGGTTAAGTGTAGTTGGTATAGGATGTATTATTGCTGCATATGTACTTAGCTTCCAAGTAACGTTTCTGAATTTCATCATCCTCTTTTTACCGGTGGTAGGACTGACAATTGGCGGAACGTATTTACTATTTACACAAGGTAGTACAGTTGTATTAAAAGCATTACAAAAAAGAAAGCAATCTTTCTATACGTATCCAAATATGTTTGTTCTTAGCAACCTTATTTATAAAATGAAAGATAATGCTCGTTTTCTATTTGTAATTTCTATTATTACGGCGATTGTATCCTCGGCAGTTGGCACGCTTTACGTATATTTTGAAAATTTGAGTGCGAAAACGGTAGAACTTACACCACATGCTATCTCATATGAGGAAAAGGGGTTAAATACATATAGCCTTATTAATGAAGAAAAGGTACAGGAGCTTGTGAAGAGACACGGGTTTGAAGATGCGCGAAAAGTAACATACATAAAACTACCAGCAACACAGAAAATAACGTTGTTTAATAGTGAACATGAAGTACCGATGACGATTATTTCAGAAAAAGAATATAATGCGGAAGTGCGTAAACAAAAGAGAGAGCAACCTTCAGAAATTCATAATGCAATGGGTAGTGCAACGATGGTTATGGTTGATATGTCAAATGAACTGATGAAGATAGATCGTACGAAACCGTATGAATTTACAATTAACGGACAAAAGCAGTCTGTTCAATTAAATGCCCCAACGCAGTATTCTGTTTTTAATGATAGTGAATATCTCGTTGTAAATGATCAAGATTTTGAGAAATATGCAAAACTCGTACCAGATGAAGAAAAGAGGAAATATTACGGTTATTATATTGAGGATTGGAAAAGTACAGAAGATCTTGTATTAGATTTGAAAAATGAAATTGCACCAGAAAAGCAAGGAGAATTGAGAAATTCAGTGTTTGCGTATAAGGATATAAGAGAAGGTGGAGCAATTACAATGTTCATCGGTTTCTTCGTAGCAGTACTGTTCTTCTTCTTCGCTTGTAGTATGACATACTTTAAATGGTTTAACGATAAAGAACAAGATCGTATTCAATTTAAATCGTTAAAGAGAATCGGTATGACAGATAAAGAAATTCGCAAAATTGCGATTCGACAAATGGGAGTTATCTTCTTTATCCCAATTTTAATCGGTTCCATTCATAGTGGAGTTGCTCTTCATACGTTAGGGAAAATGCTTTATATTGATTTGTGGAAATCAGGTGCGCTTGTAATTGGAGCATACATTTTAGCTTCTGCCATTTACTTTATGATCGCGCAAAGAGGATATTTAAAACACGTAAAAAGCTAG	MNFRQLALNNVKGNWRNYKAFLISSCLSIVVFFMYASFIYHPDVVSGNISMRKMITKGLESMNYIVVIFSALFILYANSTFLRARKKEFGLLTLIGGTKSQLGRMIILEQLMLGGIAIVVGIGVGMLCSKLFFQALSVLLKIDKTLPLVWNSKAVLITAGVYFILFLILSLFSVWTVGRLQIIDLLREARKQKVEPFAFTWLSVVGIGCIIAAYVLSFQVTFLNFIILFLPVVGLTIGGTYLLFTQGSTVVLKALQKRKQSFYTYPNMFVLSNLIYKMKDNARFLFVISIITAIVSSAVGTLYVYFENLSAKTVELTPHAISYEEKGLNTYSLINEEKVQELVKRHGFEDARKVTYIKLPATQKITLFNSEHEVPMTIISEKEYNAEVRKQKREQPSEIHNAMGSATMVMVDMSNELMKIDRTKPYEFTINGQKQSVQLNAPTQYSVFNDSEYLVVNDQDFEKYAKLVPDEEKRKYYGYYIEDWKSTEDLVLDLKNEIAPEKQGELRNSVFAYKDIREGGAITMFIGFFVAVLFFFFACSMTYFKWFNDKEQDRIQFKSLKRIGMTDKEIRKIAIRQMGVIFFIPILIGSIHSGVALHTLGKMLYIDLWKSGALVIGAYILASAIYFMIAQRGYLKHVKS	PGPT0013350_10650	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_04492	777	yxdL_4	COG1136	ABC transporter ATP-binding protein YxdL	ATGAGTGTTCTTGAAGTAAAAGGATTAACGAAGGTGTACCAATCAAAAGGTTCAGTAGCGACGACTGCTTTAAACGATATAAATTTTAAAATAGAAGAAGGCGAATTTGTAGGGATTATGGGTCCTTCGGGAAGCGGGAAAACAACGCTTTTAAATTTATTGGCGACAATTGATAAGCAAACTTCAGGTCATGTGCTTGTAAATGGGGAAGAAATTAATCAAATGCGTGCTGCAAAATTAGCGGAGTTTCGCCGTACACATTTAGGGTTCATCTTCCAAGATTTTAACTTACTTGATACGTTATCTATTAAAGAAAACATTATTTTACCACTTGTAATGGCGAAGAAATCTGTAAATGAAATCGATGCGAAAGTACTGGAAATTGCGAAGTTTTTAAACATCGAAGAAATTTTAAATAAAAAAGTATACGAAGTATCAGGCGGACAACAGCAACGTGCAGCAGCTGCGAGAGCGATTATTCATGAGCCTACGTTAATTTTAGCAGATGAGCCGACTGGAAACTTAGATTCGAAGTCAGCAAAATCATTAATGAGCGCGTTGCAAGACTTACATGAACAAAAGAAAGTGACAATTGCAATGGTAACGCATGATCCAGTAGCAGCGAGTTATTGCGAACGTATTCTATTCATTCGCGACGGAGAAATTTTCTCAGAAATACATAAAGGAAGAACGAAACAAGCCTTTTTCCAAGAAATTCTGGACGTACTTGCGATGCTAGGAGGAGAATATCATGAACTTTCGCCAGCTCGCGCTTAA	MSVLEVKGLTKVYQSKGSVATTALNDINFKIEEGEFVGIMGPSGSGKTTLLNLLATIDKQTSGHVLVNGEEINQMRAAKLAEFRRTHLGFIFQDFNLLDTLSIKENIILPLVMAKKSVNEIDAKVLEIAKFLNIEEILNKKVYEVSGGQQQRAAAARAIIHEPTLILADEPTGNLDSKSAKSLMSALQDLHEQKKVTIAMVTHDPVAASYCERILFIRDGEIFSEIHKGRTKQAFFQEILDVLAMLGGEYHELSPARA	PGPT0013345_2433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_04493	1113	rcsC_9		Sensor histidine kinase RcsC	ATGCGCTTCTTACGGAGTGGGGCGAAGGGCATGAAGGTTAAAAATTACCTCGTGGATCGCTTTCCTTTAATTCTTTCTTATATTGTTAGCCTTTGTTTATTTGGGCTCGTTTTGCAGTTGCAAAGTCTTTTAGAAAAGAAATCCATTGATTGGAGTACGTGGTTATATGGACTTTTATTAGGAACAGTTGTGTTTACTGTATACCTCATTTACGATTATCGAAAACGGAGTGTGTTTTTAAAGAGGATCGAAAAGTACGTTACTGGCGGAAATACATTACATGACTCTTTACTTATTGATGAATCTTATACATCAGAGCAAGAAATGGTCGTTGAATCTTTTACGTTATTAAGACAGCAATATATGAATGAAATTCATAAACAGCATGCGAAAGAGCAACAGCAAATGATATTTATGAACCAATGGATTCACCAAATGAAAACACCAGTATCTGTTATTGAATTATTGTTGCAGAAGTTTGGCAAAGAGCATCGTGAGGCAAGAGTAACAGTTGAAAGTATCCGTGAAGAAAATAACCGTATACTAAATGGGTTAGATTTAGCGTTACATATGGCAAGACTAGAGCAGTTTGCGAAAGATTATAAGGTAGAAGTAGTAAATGTTATAGATATCGTGCGAGGTATTATTAATGAAAACCGAAAATCCTTCATTCAATCGTCTGTATTCCCGAAAGTGATGTTTGAAGAAGATACTTGTATGGTTGCATCTGATAGAAAATGGCTGAGCATTGCTATAGGTCAAATTGTTGTAAACGCAATCAAGTATACCAAAATTTCAGCGGTAGAGAAAAAAGAAATTCAATTTCAAATTGAAGAGAAAAATCAAAAGGTGTTATTACATATTAAGGACAATGGAATTGGTATTCCAGAGCAAGACGTAAAGCGCATATTTGACCCATTCTTTACGGGAATAAATGGACGTAAAACGAGAGAAGCGACTGGGATGGGCTTATATATTACGAAGGAAATTTGCGATAATTTACATCATGGAATGTATGTTCAATCGGCTGAAGGAGAAGGGACAACATTCACGTTCCAATTTGCAAAAGATGAAGAATATCATACATTGATGAGAAAAATGACAAAACTGTAA	MRFLRSGAKGMKVKNYLVDRFPLILSYIVSLCLFGLVLQLQSLLEKKSIDWSTWLYGLLLGTVVFTVYLIYDYRKRSVFLKRIEKYVTGGNTLHDSLLIDESYTSEQEMVVESFTLLRQQYMNEIHKQHAKEQQQMIFMNQWIHQMKTPVSVIELLLQKFGKEHREARVTVESIREENNRILNGLDLALHMARLEQFAKDYKVEVVNVIDIVRGIINENRKSFIQSSVFPKVMFEEDTCMVASDRKWLSIAIGQIVVNAIKYTKISAVEKKEIQFQIEEKNQKVLLHIKDNGIGIPEQDVKRIFDPFFTGINGRKTREATGMGLYITKEICDNLHHGMYVQSAEGEGTTFTFQFAKDEEYHTLMRKMTKL				NA	NA	NA	NA	NA
AK009_04494	759	graR_2	COG0745	Response regulator protein GraR	ATGGAAAAAGGAGTAAATGTAGAAGAATTCTTTTATGGGGAGAAAAAGAACATGTATAAAATATTAATTGTAGAAGATGATGAGAAAATTGCGGGAATATTAGAGGAGCATTTAGAAAGGTATGGCTATCAATCATTTAGAGCAAGTGATTTACGTCATATAAAAGATGAGTTTGTAAAAATAAATCCTCATCTTGTGTTACTTGATATTAACTTACCGTACTTTGACGGTTTTTATTGGTGTCGTCAAATTCGTACTGTATCGAATGCGCCGATTATTTTTGTTTCTGCAAGAACAGGGGAAATGGATCAAGTGATGGCGATTGAAAATGGCGGCGATGATTATATTACGAAGCCATTCCATTTAGATATCGTAATGGCAAAGGTGAAGAGTGCGCTTCGCCGTGGCTATGGAGAGTATGCCTCTGCTGCTGAGAGTGATTGTTTAGGTGTAAATGGACTGTTGTTATTCCCGTCCCAGCATATCGTTGAGTGGCAGGGACAACAAACTGAACTGACAAAAAATGAGTTTTACTTATTAGAGTGTTTAATGAAACAGGTGAATCAATATGTAACGCGTGAAGAACTGTTAGAAGCTCTATGGGATGAAGTAGCATTTGTGGATGATAATACATTAACCGTAAATGTAAAACGTGTAAGGAAGAAACTAGAAGAGCTAGGCATTAAAAATGCAATTGTAACGAAACGTGGATATGGTTATGCGCTTCTTACGGAGTGGGGCGAAGGGCATGAAGGTTAA	MEKGVNVEEFFYGEKKNMYKILIVEDDEKIAGILEEHLERYGYQSFRASDLRHIKDEFVKINPHLVLLDINLPYFDGFYWCRQIRTVSNAPIIFVSARTGEMDQVMAIENGGDDYITKPFHLDIVMAKVKSALRRGYGEYASAAESDCLGVNGLLLFPSQHIVEWQGQQTELTKNEFYLLECLMKQVNQYVTREELLEALWDEVAFVDDNTLTVNVKRVRKKLEELGIKNAIVTKRGYGYALLTEWGEGHEG	PGPT0027850_82	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
AK009_04495	1287	obg	COG0536	GTPase Obg	ATGTTTGTAGATCAGGTCAAGATATATGTAAAAGGCGGCGACGGTGGTAACGGTATGGTTGCGTATCGTCGTGAGAAGTATGTTCCTAAAGGTGGCCCAGCAGGTGGCGACGGCGGTAAAGGTGCAGATGTTGTTTTCGTAGTTGAGGAAGGCTTACGTACATTAATGGACTTCCGCTACCAACGTCATTTCAAAGCTGATCGCGGTCAGCACGGAATGAGTAAAGGTCAGCACGGACGTAAATCTGAAGATTTAATCGTAAAGGTTCCACCAGGAACAATAGTAAAAGATGAAAAAACTGGTCAAATTCTTGCCGATTTAGTAACGCATGAACAAACTGCTGTAATCGCAAGAGGTGGCCGTGGTGGCCGTGGTAACTCACGTTTCGCAACAGCTACGAACCCAGCACCAGAAATCGCTGAGAACGGAGAACCAGGTCAAGAACGTGATGTCATTCTAGAACTTAAAGTACTAGCAGATGTTGGACTTGTTGGATTCCCAAGTGTAGGTAAATCTACATTATTATCTGTTGTATCATCAGCACGTCCGAAAATTGCAGAGTATCACTTTACAACAATCGTTCCGAATCTTGGTGTTGTTGAAACTGGTGATAACCGCAGCTTCGTGATGGCTGACCTTCCTGGACTAATTGAAGGCGCACATGCTGGCGTTGGACTTGGACACCAATTCTTACGTCATATCGAGCGTACACGTGTAATTGTACATGTTATTGATATGTCTGGTTTAGAAGGCCGTGAGCCATATGAAGATTATGTTACAATTAATAATGAATTAAAAGAATACAATATGCGTTTAACAGAGCGTCCGCAAGTTGTTGTAGCAAACAAAATGGATATGCCAGATGCAGAAGAGAACTTACAAGCATTTAAAGAGAAAGTGGGAGACGAAGTAAAAATCTTCCCAATTTCAGCTGTAACGAAACAAGGTGTTCGTGATTTACTATTTGAAGTAGCGAACTTATTAGAAACAACACCAGAATTCCCAATGTACGATGTTGTCGAAGAGTCTGAAGCAAGTGTAATGTATAAATTTGATGCTGAAAGTCTTAAATTTGAAATTACACGTGAAAGTGACGGCACATTTGTTATTTCTGGTTACGATATCGAGAAGACATTCAAAATGACAGACTTCTCACGTGATGAATCTATACGTCGTTTCGCTCGCCAAATGCGCGGAATGGGTATTGATGAAGCGCTTCGTGCACGTGGTGCAAAAGACGGAGATATTGTAAAAATTCTTGAATATGAATTTGAATTTATCGATTAA	MFVDQVKIYVKGGDGGNGMVAYRREKYVPKGGPAGGDGGKGADVVFVVEEGLRTLMDFRYQRHFKADRGQHGMSKGQHGRKSEDLIVKVPPGTIVKDEKTGQILADLVTHEQTAVIARGGRGGRGNSRFATATNPAPEIAENGEPGQERDVILELKVLADVGLVGFPSVGKSTLLSVVSSARPKIAEYHFTTIVPNLGVVETGDNRSFVMADLPGLIEGAHAGVGLGHQFLRHIERTRVIVHVIDMSGLEGREPYEDYVTINNELKEYNMRLTERPQVVVANKMDMPDAEENLQAFKEKVGDEVKIFPISAVTKQGVRDLLFEVANLLETTPEFPMYDVVEESEASVMYKFDAESLKFEITRESDGTFVISGYDIEKTFKMTDFSRDESIRRFARQMRGMGIDEALRARGAKDGDIVKILEYEFEFID				NA	NA	NA	NA	NA
AK009_04496	543			hypothetical protein	ATGAATGAAAAATGGACAATTATAGATGCATTGCGCCATTCAAGACATGATTGGCTCAATCGTATGCAGATGGTGAAAGGAAACCTTTCCCTTGGAAAAGTGGAAGAAATTCATAGTCTCATCGATCGTTTTGTCCAAGAAGCGAGACAAGAATCCAATCTGATGGGGCTATCAATGCCTTTATTTTCAGAGTGGATTTTAACATATAATTGGAAACAGCAGCCGTGCTTATTGGAGTACGAAGTATTAGGGAAATTACATAACTTATCTCACTTAGATGAGACTGTATGTACATGGACGAATCAATTTTTCTCGATGCTTCAGCATAGTTTAGACGTATATGTTGAAAATTATGTTTGTATCACAATTGAATGTGACGCGGATAATGCTCGTTTCTTTTTTGATTTTCGTGGTAAGCTAACGAGTGTAGAAGAACTACAGAATTGGCTTGCGACCCAAAACAATAAATGGTATTCCATTTCTTATACAGTGCGAGACGAAGAAGTCTCAGTTATATTACAACCAATTGAAAAAGTGTGGTGA	MNEKWTIIDALRHSRHDWLNRMQMVKGNLSLGKVEEIHSLIDRFVQEARQESNLMGLSMPLFSEWILTYNWKQQPCLLEYEVLGKLHNLSHLDETVCTWTNQFFSMLQHSLDVYVENYVCITIECDADNARFFFDFRGKLTSVEELQNWLATQNNKWYSISYTVRDEEVSVILQPIEKVW	PGPT0024635_131	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
AK009_04497	291	rpmA	COG0211	50S ribosomal protein L27	ATGTTAAGATTAGATCTTCAGTTTTTCGCATCTAAGAAAGGTGTAGGTAGTACAAAGAACGGTCGTGACTCTCAGTCAAAACGTCTTGGTGCTAAACGCGCAGATGGTCAAACGGTTTCAGGTGGTTCAATTCTTTACCGTCAACGCGGTACAAAAATTTATCCAGGTGTTAACGTTGGTCGTGGTGGCGATGACACTTTATACGCGAAAGTTGACGGCGTAGTACGCTTTGAGCGTCTTGGCCGTGACCGCAAACAAGTGAGCGTATATCCTGTTGCTCAAGAAGCATAA	MLRLDLQFFASKKGVGSTKNGRDSQSKRLGAKRADGQTVSGGSILYRQRGTKIYPGVNVGRGGDDTLYAKVDGVVRFERLGRDRKQVSVYPVAQEA				NA	NA	NA	NA	NA
AK009_04498	345			hypothetical protein	ATGATTAAAATTACGATAAGTCGCACGAAATTAGGAAGTATCCAATCATTTAAAATGACTGGACATGCCGATTATGCGCCACATGGACAAGACCTTGTCTGTGCTGGAACTACAGCGGTTGTGTTTGGTTCTATAAATGCAGTGGAAGAACTTTGTAATGTGCAGGCAACTATTGAACTCGGAAGTGATGGCGGATTCTTAACGTATGAATTGCCTAATGATTTAGACGTTCATACAGTAGAAAAAGCACAGATACTTTTGGAAGGATTGGTTGTTTCGCTTAAGACGATCGAACTTGATTACGGAAAGTATATCCGTTTAATAGAAAAAGTGCAGGAGGTGTAA	MIKITISRTKLGSIQSFKMTGHADYAPHGQDLVCAGTTAVVFGSINAVEELCNVQATIELGSDGGFLTYELPNDLDVHTVEKAQILLEGLVVSLKTIELDYGKYIRLIEKVQEV				NA	NA	NA	NA	NA
AK009_04499	309	rplU_1	COG0261	50S ribosomal protein L21	ATGTACGCAATTATCGAAACAGGTGGAAAACAAATTAAAGTTGAAGCTGGTCAAGCAATCTACATTGAAAAATTAGATGTTGAAGCTGGTGAAACTGTTACTTTTGACAAAGTTCTTTTCGTTGGTGGCGAAAACGTTAAAGTTGGTAGCCCAGTTGTAGAAGGTGCAACAGTTACTGCGAAAGTTGAAAAACAAGGTCGCGCTAAGAAAATTATCGTTTTCAAATACAAAGCGAAAAAGAACAATCGTAAGAAACAAGGTCATCGTCAACCTTACACTAAGCTAGTTGTTGAAGCTATCAACGCTTAA	MYAIIETGGKQIKVEAGQAIYIEKLDVEAGETVTFDKVLFVGGENVKVGSPVVEGATVTAKVEKQGRAKKIIVFKYKAKKNNRKKQGHRQPYTKLVVEAINA				NA	NA	NA	NA	NA
AK009_04501	1392	rng	COG1530	Ribonuclease G	TTGAAAACGTTATATGTGAATTACGCTGGATCGGAAAAGCGCGTTGCAATTGAAGAGAAGAAAAAAATTGTTGAGTTTTTATGGAAACGTAATGAAGAGCAAGAGATTGTTGGGCATATTTATGCCGGACGTATCGTAAGAACAATCGCTGGAATGAACGCAGCATTTGTAAACATCGGTTTAGAAAAACATGCGTATCTTTCATACGATGATGTACCATCTTGTTATCGTATACATGAAGGGCAAGCGATTCTCGTACAAGTTGTGAAAGAGGCAATTGATACGAAAGGGCCTAAATTGACAGCGAATATAGAATTTACCGGGAAATATGTCGTTTATATGCCGTTTGATGAGATGCGCGCTGTTTCTCGGAAAATAAAAAATAATAAAAAAAGACAACAGTTACTCCAAATTGAGGTAGAAGGAACAGGGGGTTACATTTTCCGCTCTGCTTCTGAAAAAGGAGCGATTGAAGAAATACAAGCTGAAATGCAAATGTTACAGCAGTTATATGAAGAGCTAAAAAGAAAAGAGGGCCAAGGAAAGGCGCCGTTATTACTTCATCGACCGGCCACCTTTTTAGATCGTGTATTCCAAGAGAATCCGATTGAAACAATTGAAAAAGTAGTTGTAGATACAAGAAGTATAGTAAAAGAATTAGAGGAAAATATCGGAAAAGAAAAAGTATCTTTTTATAATGAAAAATCTTCAATGTTTAACCATTTTGGAATAGAGCGTGAAATCGAGAAAGCACTTCAAAAAATTGTATGGCTCCCGAATGGTGCTTATTTAATTGTGGAACAAATGGAGACGATGACTGTAATTGATGTGAATACGGGCAAGTTTACTGGAAAACAGAATTTACAAGATACAGTCCTTCGTACAAATGAAGTGGCAGCTGAAGAGATTGCACGTCAATTAAGACTGCGTGATATCGGTGGTATGATATTAATTGATTTTATTAATATGAAAAGAAGAGAAGATAAAGAAATGGTAAGAGAATGTCTCATGGCTGCTATGCAAAATGATCGCACATATACAAGAGTGCTTGGGTTTACAGAGTTAGGGATTTTAGAGATGACACGTAAACGTAAGAAACATTCTTTACGCGACGTATTACTAGAAGAATGTGTACCGTGCAAAGCGACGGGGTATATGATGTCATATGAGACAATTGCGTATGAGTTAGAGAGAGAGCTAATTACATATGGCAATATAGAGGATGAGGCAGTATTAATCGCTGCACCTAAAGACTTGCAAAAACAATTTTTGCAAAAAGAATTACAAAAAAATATTCCATTTGAAATTTATTTCAAAGATGATATGATCGAAAAGTATGCAATTGTCCGTTTTGGAAGTAAAACAGAAATTGTAGAGCGGAAAAATAGTTAG	MKTLYVNYAGSEKRVAIEEKKKIVEFLWKRNEEQEIVGHIYAGRIVRTIAGMNAAFVNIGLEKHAYLSYDDVPSCYRIHEGQAILVQVVKEAIDTKGPKLTANIEFTGKYVVYMPFDEMRAVSRKIKNNKKRQQLLQIEVEGTGGYIFRSASEKGAIEEIQAEMQMLQQLYEELKRKEGQGKAPLLLHRPATFLDRVFQENPIETIEKVVVDTRSIVKELEENIGKEKVSFYNEKSSMFNHFGIEREIEKALQKIVWLPNGAYLIVEQMETMTVIDVNTGKFTGKQNLQDTVLRTNEVAAEEIARQLRLRDIGGMILIDFINMKRREDKEMVRECLMAAMQNDRTYTRVLGFTELGILEMTRKRKKHSLRDVLLEECVPCKATGYMMSYETIAYELERELITYGNIEDEAVLIAAPKDLQKQFLQKELQKNIPFEIYFKDDMIEKYAIVRFGSKTEIVERKNS				NA	NA	NA	NA	NA
AK009_04502	861	spoIVFB	COG1994	Stage IV sporulation protein FB	TTGATTAAATATAGGGACGTTTTAACGAAAATTTCCGTGCATCCATTATTTTGGGTTATCATTGTCATTGGTATTTTTACTGCACGTTTTAAAGAATTAATACTGTTATTTTGTATTGTTCTTATTCATGAACTTGGGCATGCTCTTGCAGCAGCGCACTATAATTGGCGTATAAAAAAAATTCAGCTTTTGCCGTTTGGTGGCGTGGCTGAGCTTGAGGAACATGGTAATAAGTCGTTGAAAGAGGAACTTGTTGTCGTAATTGCAGGACCGATTCAACATGTTTGGATGATGCTAGTAGGTTATATATTATTTGAAGCCGGTTGGCTGAACGCGGATTTATATTATTTCTTTATGTGGAATAATATAATTATTTTAGCGTTTAATTTACTCCCTATTTGGCCGTTAGATGGCGGGAAAGTATTGTTTAATATACTATCATATCGTTTTCCTTATTTACAAGCACATGGAAAGATGATGAAATTGTCATGTGTTTTTTTTGGTGTAATATTAGGATGGCAGTTACTCTGGAATAGCAATAATATTATGATGTGGGTACTACTCATGTTTTTGGCAGTGTCGTTATATCAAGAGTGGAAACAAAGACGGTATGCCTTTATGCGTTTTTTATTAGAACGTTATTATGGGAACAAAAGAGGAATTGAAAAGATTGCACCTATTGAAGTGCAATCAGAAGATCATTTATATAAGATATTCACAAAATTTCGTAGAGGATATAAGCACTCTATTATCGTCCATGGAAAATATAAAGAACATTACACATTAGATGAAAATGAACTGCTCTATGCATATTTTACTGAAAAACGAACAACTTCATCAGTTGAAGAATTAATCGGTTAG	MIKYRDVLTKISVHPLFWVIIVIGIFTARFKELILLFCIVLIHELGHALAAAHYNWRIKKIQLLPFGGVAELEEHGNKSLKEELVVVIAGPIQHVWMMLVGYILFEAGWLNADLYYFFMWNNIIILAFNLLPIWPLDGGKVLFNILSYRFPYLQAHGKMMKLSCVFFGVILGWQLLWNSNNIMMWVLLMFLAVSLYQEWKQRRYAFMRFLLERYYGNKRGIEKIAPIEVQSEDHLYKIFTKFRRGYKHSIIVHGKYKEHYTLDENELLYAYFTEKRTTSSVEELIG	PGPT0024785_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024785-spoIVFB-K06402	NA	NA
AK009_04503	747	spoIVFA	COG0739	Stage IV sporulation protein FA	ATGAAGAATAGACGCGTAGAAGAAATTAAAAAGCGGATTGCGAAAAGGAAGGCCGAGCAAGAAAGGATGGAGGAAGAGCAGTATTTTACCGGAGGGAATTTTGGTAGCGAAACAGTATTTATTGAAGAAGGAGAAAAGGAAATTCACCCTTTATTTCGAAAGGAAGTCTTTTTCTTCAAAGTTTTATTATCAGCAATATTAGTTCTTTCGGTTGCTATTTTATATAAGAATGCCCCGTCTTCGTTCGATGGTGCTAAAGCTGTTACAGAAAAAGTGATGAAAGAGGAATTTCAGTTTGCTACTGTAGCGAAATGGTATGAAAAGCAATTTGGAAAACCGCTTGTATTTTATTCACCGAATGAGAAAAAAGAAGGAAGTATTCAGCAAAAAAATTATGCAATTCCTGCTTCTGGAAAAGTAATGCAAGGGTTTCAAAAAAATGGTCAAGGTGTATTTGTCCAAACAGCTACAAATGCAACAGTTGAGTCAGTGAATGAAGGATTAGTTGTTTTTGCGGGTAAGAAAGAGGAACTTGGAAATACAGTTCAAATTCAACATGCAGATGGTACGGAGTCATGGTATGCAAACTTAAACGATATGTCAGTGAAATTATATGATTACGTTTCAAAGAAACAAAAAATTGGAACGGTGAGTAATGATACAAATGATAAAAATGGAAAGTTTTATTTCGCGATAAAAAAGAATGAAAAATTTATTGATCCGATCCAGGTGATATCATTTGATTAA	MKNRRVEEIKKRIAKRKAEQERMEEEQYFTGGNFGSETVFIEEGEKEIHPLFRKEVFFFKVLLSAILVLSVAILYKNAPSSFDGAKAVTEKVMKEEFQFATVAKWYEKQFGKPLVFYSPNEKKEGSIQQKNYAIPASGKVMQGFQKNGQGVFVQTATNATVESVNEGLVVFAGKKEELGNTVQIQHADGTESWYANLNDMSVKLYDYVSKKQKIGTVSNDTNDKNGKFYFAIKKNEKFIDPIQVISFD	PGPT0024780_187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024780-spoIVFA-K06401	NA	NA
AK009_04504	798	minD	COG2894	Septum site-determining protein MinD	GTGGGAGAGGCAATAGTAATTACATCTGGAAAAGGCGGAGTAGGTAAAACTACAACGTCTGCGAACATTGGTACGGCCCTAGCGTTATCTGGAAAGAAAGTGTGCTTAATTGACACAGATATCGGTCTTCGAAATTTAGACGTAGTAATGGGGCTGGAAAATCGTATTGTATTTGATCTTGTTGATGTCGTTGAAGGGCGTTGCCGTTTACCTCAGGCTCTTATTAAAGATAAACGTTTTGATGATCTTTATTTATTACCTGCAGCACAAACGAGTGATAAATCAGCGGTAACACCTGAACAAATGGATGAATTAATACAAGTATTACGTCAAGATTATGATTACATATTAATTGATTGTCCTGCGGGGATTGAGCAGGGATTTAAAAATGCGGTAGCTGGTGCGGATAAAGCAATCGTTGTTACGACGCCAGAAGTATCCTCAATGCGCGATGCGGATCGTATTATTGGGCTTTTAGAAAAAGAGGATATTGAACCACCAAAACTTGTTATTAACCGTGTACGTAGTCATATGCTTCATGAACAGGATATGTTAGATGTTGATGAAATTGTACGTACATTGTCAATCGAGCTTCTTGGTGTTGTCGAAGATGACGATGAAGTTATTCGAGCTACAAATACAGGTGAACCTGTGGCGTTGCAACCAAGCGGAAAAGCAGCGTTGGCTTATCGTAATATCGCAAGACGCTTGTTGGGTGAGAATGTACCATTACAAGCATTTGAACAAGAAAAGGTATCGGTATTTGCAAAGGTAAAAAACTTCTTTGGAATCCGTTAA	MGEAIVITSGKGGVGKTTTSANIGTALALSGKKVCLIDTDIGLRNLDVVMGLENRIVFDLVDVVEGRCRLPQALIKDKRFDDLYLLPAAQTSDKSAVTPEQMDELIQVLRQDYDYILIDCPAGIEQGFKNAVAGADKAIVVTTPEVSSMRDADRIIGLLEKEDIEPPKLVINRVRSHMLHEQDMLDVDEIVRTLSIELLGVVEDDDEVIRATNTGEPVALQPSGKAALAYRNIARRLLGENVPLQAFEQEKVSVFAKVKNFFGIR				NA	NA	NA	NA	NA
AK009_04505	687	minC	COG0850	Septum site-determining protein MinC	GTGGAAGAAAAAAAGCAACAAAATGTAACGATAAAAGGGACAAAAGATGGGATAACGCTTCATTTAGATGATTGTTGTTCATTCTCTGAATTGTTGATAGAATTAGACGAAAAACTTTCTACACATTACTACGATGGTGATGGACGCTCTTTAATTGAAGTGCATGTGAAAGTAGGAAATCGTTATTTAACAGAAGTCCAACAAGAAGAGATTCGTACGTTAATTCGTAATAAAAAGAATCTTGTTGTGGATTCAATTAAAAGTGATGTTATCACTAAAGCAGAAGCAATAGCTTGGAAAGAAGAAACAGAAATTGTCCCTATTTCCAAAATTGTTCGCTCTGGACAAGTTTTACATGTAAAAGGAAATTTGTTGTTAATTGGAGATGTTAATCCAGGCGGAACGGTTATCGCTGGGGGGAATATTTTTGTTGTAGGATCATTAAGAGGAATTGCACATGCTGGGTATTATGGGGATTCGGATGCTGTAATCGCTGCATCTGTTATGAACCCGATGCAACTTCGAATTAGTGATGTGGCAATGCGGGCTCCGGAAGAGAAAGAAGACGGAGCGGAGGCGGCAGAATGTGCGTATATTAATGAGAACAATCACATTGTTGTCGATCGCCTGCAACTTCTCACTCATCTTAGACCTAATTTAACAAAGTTAGAAAGGGGAATTGTATAG	MEEKKQQNVTIKGTKDGITLHLDDCCSFSELLIELDEKLSTHYYDGDGRSLIEVHVKVGNRYLTEVQQEEIRTLIRNKKNLVVDSIKSDVITKAEAIAWKEETEIVPISKIVRSGQVLHVKGNLLLIGDVNPGGTVIAGGNIFVVGSLRGIAHAGYYGDSDAVIAASVMNPMQLRISDVAMRAPEEKEDGAEAAECAYINENNHIVVDRLQLLTHLRPNLTKLERGIV				NA	NA	NA	NA	NA
AK009_04506	546	mreD	COG2891	Rod shape-determining protein MreD	ATGATGAAGATTTTAAAAAGAGCAGCTCTTCCTCTTTTGCTCCTTTTTGTGTTTCTATTTGAAAATATGTTTGCTACCATTGTTCCAACAAATGTGTTTTGGAAAGAGAGTATAGCAGCACCGCATTTCTTTATAATCGTCTTATGTTTTATTACAGTGTATTATAGTCCGGTCCAAGGGATTTATTACGGACTATTATTTGGTTTCTTATTTGATACCGTATACACAGAACTTGTCGGTATATATATTTTTGCTTATCCGATTTTAGCTTATTTAGTTTATAGTGTGATGAAAGTACTGCAATTGAATTTATTTATTGTTGTTTCCATCATATTAGCTAGCGTTGTAGCACTAGAGTATTATGTGTATGGATTTTTAACTTTGTTGGGACGTACTCATATGCCAGCGTATGTCTTTTTCACAGATCGTCTCCTTGCTACTTTATTGTTAAATGCTATTTTCTTGTTGATAGTTTGTTTCCCACTGAGACGATATATATTGCGTCTTTCAAAAGCGATGGAAGAAAAAGAAAAAAGGATTTTCTAA	MMKILKRAALPLLLLFVFLFENMFATIVPTNVFWKESIAAPHFFIIVLCFITVYYSPVQGIYYGLLFGFLFDTVYTELVGIYIFAYPILAYLVYSVMKVLQLNLFIVVSIILASVVALEYYVYGFLTLLGRTHMPAYVFFTDRLLATLLLNAIFLLIVCFPLRRYILRLSKAMEEKEKRIF				NA	NA	NA	NA	NA
AK009_04507	852	mreC_2	COG1792	Cell shape-determining protein MreC	GTGCCACAGTTTTTCTTAAACAAAAGATTAATTGTTTTGTTAGTTAGTATTATTCTTCTCGTGGCATTGATTGGAATCTCATTGAAAGAACGGAACAGTTTAACATGGCCAGAGCAGTTTGTTAAAGACACTGTCGGTGTTGTAGAACGTGTATTCCAAAAGCCAGCGAAATACGTAGCTGGATTCTTCGAAAATGTAGAGGATGTAAAGCGCACGTATGAAGAGAATAAAGAATTAAAAGCAAAATTAGATAATTATGCAGGTCTATCAGGGAAAGTAAAACAATTAGAAGATGATAACAAGAAGTTACAAGAGTTAACTGGAAAAAAGGAGTTGCTGAGCGATTATACTGAGATTCCAGCTACTGTTGTTTCTCGTAGTTCAGATAAATGGTACGATTTAATTGGAATTGATAAAGGGGCACAGCAAGGAATTAAAAAAGATATGGCTGTTATGACTTCACAAGGTTTAGTTGGACGTGTGAAAAGTGTATCTCAGTTTACATCATCAGTAGAGTTATTAAGCTCTATGAGCCGAACAAATCGTGTATCTGCTATTGTACAAGGGCAAGAAAATATCTTTGGTTTAATTGAAGGTTACGACAAAGAAAAACACTTACTTCTTTTCACAAAGATTGGTTCTGATGCAAAAGTAGAAAAAGATCAAATGGTTGTAACATCTGGACTAGGTGATATTTTCCCGAAAGGTCTTGTAATTGGGAAAATCGTTGATGTACAACCAGATGCATACGGCTTAACAAAAACAGCTTATGTAAAACCTGCCGCTGATTTAAATGACGTAGAGCATATTATGGTTGCTAAACGTAAAAAGCCTTCAGCGCCATTAGAATAG	MPQFFLNKRLIVLLVSIILLVALIGISLKERNSLTWPEQFVKDTVGVVERVFQKPAKYVAGFFENVEDVKRTYEENKELKAKLDNYAGLSGKVKQLEDDNKKLQELTGKKELLSDYTEIPATVVSRSSDKWYDLIGIDKGAQQGIKKDMAVMTSQGLVGRVKSVSQFTSSVELLSSMSRTNRVSAIVQGQENIFGLIEGYDKEKHLLLFTKIGSDAKVEKDQMVVTSGLGDIFPKGLVIGKIVDVQPDAYGLTKTAYVKPAADLNDVEHIMVAKRKKPSAPLE				NA	NA	NA	NA	NA
AK009_04508	1020	mreB	COG1077	Cell shape-determining protein MreB	ATGTTTGGATTTGGTGGATTTACTCGCGATCTTGGAATAGACTTAGGAACTGCGAACACGCTTGTATATGTAAAAGGAAAAGGTGTAGTTTTACGTGAACCTTCAGTAGTTGCGTTACAAACTGATACGAAACAAATCGTTGCTGTAGGTAGCGACGCAAAACAAATGATTGGTCGTACACCAGGGAACGTTGTGGCACTTCGCCCGATGAAAGACGGTGTAATTGCTGATTATGAAACAACTGCAACAATGATGAAATATTACATTCAACAAGCTCAAAAATCAAACGGTTTCTTCTCACGTAAGCCGTATGTAATGGTATGTGTACCATCTGGTATTACAGCTGTAGAAAGACGTGCAGTAATCGATGCGACTCGTCAAGCGGGTGCTCGTGATGCTTATCCTATCGAAGAGCCATTTGCAGCAGCAATTGGTGCAAACTTACCTGTTTGGGAACCAACTGGTAGTATGGTAGTTGATATCGGTGGTGGTACAACAGAAGTTGCAATTATTTCTTTAGGAGGTATTGTAACAAGTCAGTCAGTTCGTGTTGCTGGTGATGATATGGACGATTCAATCATTCAGTACATTAAGAAAAGCTATAACTTAATGATCGGTGAAAGAACAGCTGAAGCATTAAAATTAGAAATCGGTTCTGCAGGCGAGCCAGAAGGTATCGAGCCTATGGAAATTCGCGGTCGTGATTTAGTAAGTGGTTTACCAAAAACAGTACTAATTCAGCCAGAAGAAATTGCAGATGCATTAAAAGATACAGTAGATGCGATTGTAGAATCAGTTAAAAATACACTAGAAAAAACTCCACCTGAATTAGCAGCTGATATTATGGACCGCGGTATTGTATTAACAGGTGGCGGGGCATTACTACGTAATTTAGATAAAGTAATTAGTGAAGAAACAAAAATGCCAGTTCTTGTTGCAGAAGACCCATTAGATTGCGTAGCAATTGGAACAGGTAAAGCATTAGACAATATCGATCTTTTCAAAACTGCTGCTCGATAA	MFGFGGFTRDLGIDLGTANTLVYVKGKGVVLREPSVVALQTDTKQIVAVGSDAKQMIGRTPGNVVALRPMKDGVIADYETTATMMKYYIQQAQKSNGFFSRKPYVMVCVPSGITAVERRAVIDATRQAGARDAYPIEEPFAAAIGANLPVWEPTGSMVVDIGGGTTEVAIISLGGIVTSQSVRVAGDDMDDSIIQYIKKSYNLMIGERTAEALKLEIGSAGEPEGIEPMEIRGRDLVSGLPKTVLIQPEEIADALKDTVDAIVESVKNTLEKTPPELAADIMDRGIVLTGGGALLRNLDKVISEETKMPVLVAEDPLDCVAIGTGKALDNIDLFKTAAR	PGPT0027700_3125	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
AK009_04509	678			hypothetical protein	ATGAACGGTATTCGTGATGTTGTAAGAGAAGAACAGCCACGGGAGCGTTTATTGTTAGAAGGTGCCGGAAGTTTATCAAATCGAGAGCTTCTCGCAGTATTACTCAGAACAGGTTCTAAAGAAGAAACAGTGTTAAAGTTATCAGATAAAATTTTACACCAATTTGATGGCTTACGTATGTTGAAAGATGCAACATTAGAAGAGCTAATTAGTATACATGGTATTGGGATTTCAAAGGCATCGCAACTTATGGCAGCCTTTGAACTAGGCAGAAGAATGGTGCGTTTAGAATATCAAAATAGATATAGTATTCGAAGTCCAGAAGATTGTGCGAAATACATGATGGAAGAAATGCGTTTTTTACAACAAGAGCATTTTGTTTGTTTATATTTAAATACAAAAAATCAAGTTCTACATAGGCAAACGATTTTTATTGGAAGTTTAAACACGTCAATTGTACACCCCAGGGAAGTTTTTAAAGAAGCCTTCCGTCGTGCAGCAGCCTCTATTATATGTCTTCATAACCATCCCTCAGGAGATCCCACGCCGAGCCGTGAAGATATTGAAGTAACAAAACGTTTAGTAGAATGCGGCCAGATTATCGGAATTGAAGTGCTAGATCATATTATAATAGGTGACCATAAATTCGTGAGTTTAAAGGAAAAAGGTCATATTTAA	MNGIRDVVREEQPRERLLLEGAGSLSNRELLAVLLRTGSKEETVLKLSDKILHQFDGLRMLKDATLEELISIHGIGISKASQLMAAFELGRRMVRLEYQNRYSIRSPEDCAKYMMEEMRFLQQEHFVCLYLNTKNQVLHRQTIFIGSLNTSIVHPREVFKEAFRRAAASIICLHNHPSGDPTPSREDIEVTKRLVECGQIIGIEVLDHIIIGDHKFVSLKEKGHI	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
AK009_04510	576	maf	COG0424	dTTP/UTP pyrophosphatase	ATGAAAAAAATAATTTTAGCTTCAGGATCACCTCGGAGGAAGGAATTGCTTGAGTTAGCTAGCATACCATTTGAAATCGTTGTAAGTGAAGTAGAGGAAACAATTGGTGCATATTCATCGCCTTCTGATATTGTAATGTCGCTTGCCTTGCAAAAAGCATCAGCGGTGGCAGAAAATAATAGTGATCACATTGTGTTAGGTGCAGATACAATTGTTACATATGAGTCGCGTATTCTTGGTAAGCCTTCTAATGAGGATGAGGCGAAAGAGATGTTACAATTACTATCAGGGAAAACACATGAAGTGTATACAGGTGTTGCGATTATATCAAAAGAAAAAACGGTTACTTTTTATGAGCGTACAGAAGTTACGTTTTGGGAGCTAACAGAAGAGGAAATTGATACATACGTCACGTCGAAAGAACCTCTTGATAAAGCCGGTAGTTATGGGATTCAAGGTAAAGGATCTATTTTCGTTCAAAATATTCAAGGGGACTACTATAGTGTAGTTGGCTTACCAATTGCACGTCTCGTTAGGGAATTAAAACAATTTGATATTGATGTAACCCATGCGTAA	MKKIILASGSPRRKELLELASIPFEIVVSEVEETIGAYSSPSDIVMSLALQKASAVAENNSDHIVLGADTIVTYESRILGKPSNEDEAKEMLQLLSGKTHEVYTGVAIISKEKTVTFYERTEVTFWELTEEEIDTYVTSKEPLDKAGSYGIQGKGSIFVQNIQGDYYSVVGLPIARLVRELKQFDIDVTHA				NA	NA	NA	NA	NA
AK009_04511	951			hypothetical protein	ATGGACAAGCAATCACGAACGATCTCAGTGAAAGTGAATGGAACAGAAGCGAAGTATGAGGAAAAGAAGAAAGATGAATTTGAATGGATGGTAGTAGAAGGTGAACGACCGAGAAATGTTGTTCCGTTTCAAAAAGCGAAATCGATGTCTGTGGAAAAATACCGAAAGAAGTGGAGTAATACATTAATTGCAATCGTTGCAACCGCAATTATTATCGGTACGGCGTTTGGAATGGGGATGCTTCATTTACTCACCGGACAAGGAACGACAGGAGGAAGTGAAGTAACAGCTTCCAAGCCGACTGGGAATGGAGAATCAAAGGTGGGTGGAACGGCAGGACAAACATCAGAACCAAAAGAAGAAAAACAAAAAGCACAGGCAGGAGTGTCATTGGATCCGATGAAATTATTTTTTGTTCAAGGGGGGCTTTATTCTTCTGAAGAAAAGGGACGAGCAGCTCTTGAAGAATGGAAAGGCAATGGGGGCATTGGAGCTTTGAGACCGAGCGGGGATAAGTATGCAATAGTTGTTGGTATTGCTAGCGATGAACAGGCTATAAATCAATTAATGACTCAGTATAAAAATGATGGTGTCTCCGTTTTAAAAAAGAACTGGGATATAACAGATAAAGCGTTGCTGAAAGATGATAAAGAAGTAGGAATATTTTTAACAAAAGTGCAGCCATTATACACTCATTTAGCAAAATATGCTTCTAGTGTACAAGTTGGTGGAAAAAGCAGCGCAAAAGATATAGAAGCGATTGAAAAAGAATGGAAAGCGATTGAAAAAGAGGGGAAAAGTATGAAGCAAGAAGAAGCAAAGAAACTGTATATGTATACGTCGGTAGCTGTACAAACAGTAAAAGATGGGAAAATGGATAAGGAATCTTTGGTGAAATTAAATCAAGTTATTATTGATGGCCTACTTTCGTATGAAAAAATTGTTTCGTAG	MDKQSRTISVKVNGTEAKYEEKKKDEFEWMVVEGERPRNVVPFQKAKSMSVEKYRKKWSNTLIAIVATAIIIGTAFGMGMLHLLTGQGTTGGSEVTASKPTGNGESKVGGTAGQTSEPKEEKQKAQAGVSLDPMKLFFVQGGLYSSEEKGRAALEEWKGNGGIGALRPSGDKYAIVVGIASDEQAINQLMTQYKNDGVSVLKKNWDITDKALLKDDKEVGIFLTKVQPLYTHLAKYASSVQVGGKSSAKDIEAIEKEWKAIEKEGKSMKQEEAKKLYMYTSVAVQTVKDGKMDKESLVKLNQVIIDGLLSYEKIVS	PGPT0024665_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024665-spoIIB-K06380	NA	NA
AK009_04512	1302	fpgS		Folylpolyglutamate synthase	GTGATACATACATACGAAGAAGCGATAGGGTGGATTCATAGCCGATTGAAATTTGGAATTAAGCCAGGATTAGAAAGAATGAGATGGATGCTAGAAGAACTCGGAAATCCAGAGCGTCATATAAAATGTGTTCATCTTGCTGGTACAAATGGAAAAGGTTCAACGTTAACATATATGCGCTACATGTTAGAAGGCGCGAAATATAAGGTAGGAACGTTCACCTCTCCTTATATCGAAACATTTAATGAACGCATTAGTGTGAATGGGGCACCAATTGCAGATGAAGAGATTACTGAACTTGTAAAGATGGTAAAACAAGTCGTGGAAAAACTAGATGAGACGGATTTAGGGGAAGCGACGGAGTTTGAAATTATTACTGTTATGGCAATTTGTTATTTCGGTAAAGTCAATTTCTGTGATGTTGTTTTATTTGAAACAGGGCTTGGTGGACGTTTTGATTCTACAAATGTTATACACCCTGTTCTCACGATTATTACGAATATCGGTCACGATCATATGCATATTTTAGGGAATACACTAGGAGAAATTGCATATGAAAAGGCGGGGATTATTAAATCTGGTGTGCCGGTAATTACTGGTGTGCAGGACGAAGAAGCTTTGGAAGTCATTCAAAATGTTGCAAAGGAAAACCATGCAAACCTATACGAACTTGGCAAGCATTTTACAGCGTTACATAAGCAGTCTAAAGAAGATGGGGAACAGTTTGATTTTACTTGTCCTTTTGCCGCATTTGAAGATTTGCAAATCTCAATGAAAGGCATTCATCAAGTAGGAAATGCAGCGCTAGCACTTATGGCAGTCATGTATGTAAAAACATATCTATCATTTTTAATTGAGGAAGAGGAAATAAGAACGGGATTACGGGAAGCGTATTGGATTGGGCGCTTTGAAAAGCTGCAAAGTAACCCGGATATTATTATAGATGGTGCCCATAATCCAGAAGGTATTGAAAGCCTTGTGAAAACAGTAGAAGCGCATTACAAAGATAAAAATGTAATAGTTTTATTTACTGCCCTTGGTGATAAACAATTGCATAACATGGTAGGCCAATTAGAAACCATTGCAGATGAAATTATTTTTACAACATTCGCCTTTGATCGTGCTATCTCTGCTGATAAACTTGCATCATATTCACAAAAAGAATCAAAATTAGTTTTTGAAAATTGGAAAGAGGCAATTGATACAAAAGTTGAAATGATAGGAGAAAATGATGTTTTCATCATAACAGGTTCTCTTTATTTCATTTCTGAAGTTCGAAAATATATTCGCGAGAAAAACTAG	MIHTYEEAIGWIHSRLKFGIKPGLERMRWMLEELGNPERHIKCVHLAGTNGKGSTLTYMRYMLEGAKYKVGTFTSPYIETFNERISVNGAPIADEEITELVKMVKQVVEKLDETDLGEATEFEIITVMAICYFGKVNFCDVVLFETGLGGRFDSTNVIHPVLTIITNIGHDHMHILGNTLGEIAYEKAGIIKSGVPVITGVQDEEALEVIQNVAKENHANLYELGKHFTALHKQSKEDGEQFDFTCPFAAFEDLQISMKGIHQVGNAALALMAVMYVKTYLSFLIEEEEIRTGLREAYWIGRFEKLQSNPDIIIDGAHNPEGIESLVKTVEAHYKDKNVIVLFTALGDKQLHNMVGQLETIADEIIFTTFAFDRAISADKLASYSQKESKLVFENWKEAIDTKVEMIGENDVFIITGSLYFISEVRKYIREKN	PGPT0007975_2461	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
AK009_04513	2646	valS		Valine--tRNA ligase	ATGTCAAACACGGAAAAGAATTTACCAACTAAATATGATCATATGTCCGTTGAAGAAGGCCTTTATCAATGGTGGCTTGAAGGCAAATATTTTGAAGCAACAGGAGACGAGAAGAAACAACCGTATACAATTGTAATTCCACCTCCGAACGTAACTGGTAAGTTACACTTAGGTCATGCTTGGGATACAACTCTTCAAGATATTTTAACTCGTACGAAGCGTATGCAAGGATACGATGTACTATGGCTTCCAGGAATGGACCATGCTGGTATCGCAACACAAGCGAAAGTAGAAGGAAAACTTCGTGAAGAAGGTATTTCACGTTACGATCTTGGCCGTGAAAAATTCCTTGAAAAAGCTTGGGAGTGGAAAGAAGAGTACGCTTCTCACATTCGTCAACAATGGGGGAAAGTTGGTTTAGGACTAGACTATTCTCGTGAACGCTTCACATTAGACAAAGGTTTATCAGATGCGGTTAATAAAGTATTCGTTCAATTATACGAAAAAGGCTTAATTTACCGTGGTGAATATATTATCAACTGGGATCCAGCAACACGCACAGCTCTTTCTGATATTGAAGTAATTCATAAAGAAGTTCAAGGTGCATTCTACCATATGAACTATCCGTTAACAGACGGTTCAGGTCACATTCGTCTTGCTACAACTCGTCCAGAAACGATGCTTGGTGATACAGCAGTAGCAGTTCATCCAGAAGACGATCGTTACAAACATTTAATCGGAAAAACAGTTACACTTCCAATTGTAGGCCGTGAGATTCCGATTATTGCTGATGAGTACGTAGAAAAAGACTTCGGAACAGGTGTTGTAAAAATTACACCAGCTCATGACCCGAATGATTTTGAAGTAGGTAACCGTCATGACTTACCACGCATCTTAGTAATGAATGAAGATGGATCGATGAACGAAAAAGCTGGTAAGTATAACGGTATGGATCGTTTCGAATGCCGTAAAGCATTAGTGAAAGACTTACAAGAGGCTGGCGTATTAGTAGAAATCGAGCCTCATATGCATTCAGTAGGTCATAGTGAGCGTAGCGGTGCAGTAGTTGAGCCTTACTTATCAACACAATGGTTCGTAAAAATGGCTCCACTTGCAGAAAAAGCAGTAGCACTTCAACAAAAAGAAGAAGAAAAAGTAACGTTCGTACCAGAGCGTTTTGAAAACACATACTTACGCTGGATGGAAAACATTCATGACTGGTGTATTTCTCGTCAATTATGGTGGGGACACCGTATTCCAGCTTGGTATCATAAAGAAACTGGTGAGGTATACGTAGGTACAGAAGCACCAGCAGATATTGAAAACTGGAATCAAGATAACGATGTACTTGATACATGGTTCAGTTCAGCGTTATGGCCATTCTCAACACTTGGTTGGCCGGATGAAGATTCAGCAGACTTTAAGCGCTACTATTCAACAGATGCATTAGTAACTGGTTATGACATCATCTTCTTCTGGGTATCTCGTATGATTTTCCAAGGTTTAGAGTTTACAGGCGAGCGTCCATTTAAAGATGTATTAATTCACGGTTTAGTTCGTGATGAGCAAGGTCGTAAGATGAGTAAATCTCTTGGTAACGGTATTGACCCAATGGATGTTATCGAGAAGTACGGTGCAGATGCAATGCGCTATTTCTTATCAACAGGAAGTGCACCAGGTCAAGATTTACGCTTCAGCATGGAGAAAGTAGAATCTACTTGGAACTTCATTAATAAAATTTGGAATGCATCACGTTTCGTATTAATGAACATGGATGATATGAAGTATGAAGAAATCGATTTAACTGGTGAAAAATCAGTTGCAGATAAGTGGATCTTAACTCGCTTAAACGAAACAATCGAAAGTGTAACACGTAACATGGATAAATATGAGTTCGGTGAAGCTGGACGTTCATTATACAACTTCATTTGGGACGATTTCTGTGACTGGTACATTGAAATGGCGAAGCTTCCACTATACGGTGAAGATGAAGCAGCTAAGAAAACAACTCGTTCTATTTTAGCTTACGTATTAGACCAAACAATGCGTCTATTACATCCATTCATGCCATTCGTAACAGAAAAAATTTGGCAACATTTACCACATGAAGGCGAATCTATTACAGTAGCTGCGTGGCCAACAGTTCGCGAGGATTTACAAGATACGGAAGCTGCGGCAGAAATGCACCTTCTAGTTGATATCATTCGCTCTGTTCGTAACATCCGTGCAGAAGTAAATACGCCAATGAGCAAAAAAGTTCAAATGCAAATTAAAGCAAAAGATGAGGCTGTACTTGCTCAACTTACGAAAAACAGCTCTTACATTGAGCGTTTCTGTAATCCAAGCGAATTAACAATTCAAACGGATTTACAAGCGCCAGAAAAAGCAATGACTGCAATCGTATCAGGTGCAGAGTTATTCTTACCATTAGCTGATCTTATCAATCTTGATGAAGAGAGAGCTCGTCTTGAGAAAGAACTTGAGAAGTTCGATAAAGAAGTAGAACGTGTACAGAAGAAACTTTCTAACCAAGGTTTCGTAGCGAAAGCTCCTGCGGCAGTTATTGAAGGAGAGCGTGCGAAAGAGCAAGATTACCTAGAAAAACGCGAAGCAGTTCGTCAACGTCTAGTAGATCTTGAAAAGTAA	MSNTEKNLPTKYDHMSVEEGLYQWWLEGKYFEATGDEKKQPYTIVIPPPNVTGKLHLGHAWDTTLQDILTRTKRMQGYDVLWLPGMDHAGIATQAKVEGKLREEGISRYDLGREKFLEKAWEWKEEYASHIRQQWGKVGLGLDYSRERFTLDKGLSDAVNKVFVQLYEKGLIYRGEYIINWDPATRTALSDIEVIHKEVQGAFYHMNYPLTDGSGHIRLATTRPETMLGDTAVAVHPEDDRYKHLIGKTVTLPIVGREIPIIADEYVEKDFGTGVVKITPAHDPNDFEVGNRHDLPRILVMNEDGSMNEKAGKYNGMDRFECRKALVKDLQEAGVLVEIEPHMHSVGHSERSGAVVEPYLSTQWFVKMAPLAEKAVALQQKEEEKVTFVPERFENTYLRWMENIHDWCISRQLWWGHRIPAWYHKETGEVYVGTEAPADIENWNQDNDVLDTWFSSALWPFSTLGWPDEDSADFKRYYSTDALVTGYDIIFFWVSRMIFQGLEFTGERPFKDVLIHGLVRDEQGRKMSKSLGNGIDPMDVIEKYGADAMRYFLSTGSAPGQDLRFSMEKVESTWNFINKIWNASRFVLMNMDDMKYEEIDLTGEKSVADKWILTRLNETIESVTRNMDKYEFGEAGRSLYNFIWDDFCDWYIEMAKLPLYGEDEAAKKTTRSILAYVLDQTMRLLHPFMPFVTEKIWQHLPHEGESITVAAWPTVREDLQDTEAAAEMHLLVDIIRSVRNIRAEVNTPMSKKVQMQIKAKDEAVLAQLTKNSSYIERFCNPSELTIQTDLQAPEKAMTAIVSGAELFLPLADLINLDEERARLEKELEKFDKEVERVQKKLSNQGFVAKAPAAVIEGERAKEQDYLEKREAVRQRLVDLEK				NA	NA	NA	NA	NA
AK009_04515	1026			hypothetical protein	ATGGATATTGAATTGCGAAATCACTATGAACCTATCGTGAGGCAATATAGATTGGATACGCAGCATATGGAAGAGCACGGAAATGTAATGAAAATTTATACGAATCAAGGTCCATATGCACTTAAGAAAATAGAAGGCAGAAAGTTAGAGCGGAATAACTTTCTGCATCATATTCAATATTTGAAGGAGAAAGGTTTTTCAAATTATGTACCTATATACCATGCGACGGATGGAAATTATATTTTAAGTGACGGGACGTATAATTATTATTTAATGCCTTGGTTAGAACGTGCAGAAGGAAATGGTGAGGACAATGATCAATACCATAAAATGTTTCAGACACTCGGAACGTTGCATCAAAAAACTGTGAAGGAAGAAACGTATACGGAAGAAGATTTAGAAAAACATTATACAACTATATCCAATCGCTGGGAAAATGATGGTGAGATGTTAGAAGAGTTTCTCGTAGAATCTGAATCAAAATGGTATATGTCCCCGCTTGAATTGCAATATTGTACGTACTATCATCATGTAATGAGAGCGCGTGAATTTGCAACGAAGCAATTAAATGAGTGGAACGATGCGATGAAAGAAAAAGATAAAACGCGTATTACTTTTGTACATGGTAACGTGTCACTTAATCATTTTTTATTTGACTATGAGCGGAATGGCTATTTTATTAGTTTGGAAAAATCGAAGTTTGCAACGCCTGTGCAAGATATAGTAGGTTTTTATTCACGGTCTTTAGACACATATCCGATCGCAAGAAGTGATCGGTTTGAATGGTTTCAAATGTATCAAAAAAATTTTCCGTTTACGAAAGAAGAGCAACTTCTCATGTTTGCTTATATGACGTACCCATCACAATTTATTCGACAAATCGGTTCGTATAGAAAAAGAAAAGATAATCGCAACGAGGAAAATGAATTGCTGGAAGTAAAGAGTTTGCAACAATCGCATTGGCTCGTTAGCAATATAGAATATTTCCTATCACAATTACAAGCTGCCCAGCAAGGGAACGGGTAA	MDIELRNHYEPIVRQYRLDTQHMEEHGNVMKIYTNQGPYALKKIEGRKLERNNFLHHIQYLKEKGFSNYVPIYHATDGNYILSDGTYNYYLMPWLERAEGNGEDNDQYHKMFQTLGTLHQKTVKEETYTEEDLEKHYTTISNRWENDGEMLEEFLVESESKWYMSPLELQYCTYYHHVMRAREFATKQLNEWNDAMKEKDKTRITFVHGNVSLNHFLFDYERNGYFISLEKSKFATPVQDIVGFYSRSLDTYPIARSDRFEWFQMYQKNFPFTKEEQLLMFAYMTYPSQFIRQIGSYRKRKDNRNEENELLEVKSLQQSHWLVSNIEYFLSQLQAAQQGNG	PGPT0025260_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025260-ysxE-NA	NA	NA
AK009_04516	972			hypothetical protein	GTGGCTGCAGATCATTCGTTACGATTTTCATTAAAAGAATCTGTTTGGTTCCAAAAGGGACAGGAAGTCGATGAACTTTTGTCAATTTCGTTAGATCCAGACGTTGAGATAGAAGAGCTTGATCATGAAGTAATCGTGAGAGGGCAATTAGATTTAACGGGAGAGTATGTTGCAAGGCAAGATGATTCGGCGTATTCACTAAGAGAACTATCGCCAGCAAAGTCAATTGATTATGTAGAAACAAGGGAAGATGGGGTTAATGAACTTGTTCATTCCTTTCCGCTTGAAATATCAATTCCGAGAAATCGCGTGAAAGTAATTGAAGAACTATATGTATCAATTGAGGAATTTGATTATGAATTAAAGGAAAATGGTTGCTTACAATTATTAGCGGATATATCTATTACTGGTTTATGTGATGAAGAGAGAAGCGAGGATGAAGAAGAAACGGTGTATGCTGATTTAGAAGAAGATTCAGCGCAAGAGGATGAGAATAGACCGGCGCCCCATGTAGAAGAACCAACATACAAGGAATCAGATGAGTGGGAAGATTACGCATTTGAACCGTTCCAATTAGAGGAAAGAAAAGAGCAGGAATTAGAAGAAGAGAAAATAGAAGAACATGAATTTGTGGAACGTGAAGAGGAGCAAGAAACAACGCCGCAATTTGAATTGTTCGGACGAAAAGATTTCAAGAAAGAAAAAGCGAAAAAGCAGGAAGAACAAGAAGAAGAGTACTCACAGCGAGATGAAAATGCGCTTTATTTAACAAAACTATTTACGAAAGAACCGGAAGAGGAATTTACAAAGTTAAGAATGTATTTCGTACAAGAAGGGGATACAATTGAATCTATTGCAGACCGTTATGAAACATCGGTACAAAATTTGTACCGTGTCAATCAAACAGAAGATATATTTTTAAATACGGGGCAAATTATTTATATTCCCGTTTCAAGAGTAAAGGCGAAATAA	MAADHSLRFSLKESVWFQKGQEVDELLSISLDPDVEIEELDHEVIVRGQLDLTGEYVARQDDSAYSLRELSPAKSIDYVETREDGVNELVHSFPLEISIPRNRVKVIEELYVSIEEFDYELKENGCLQLLADISITGLCDEERSEDEEETVYADLEEDSAQEDENRPAPHVEEPTYKESDEWEDYAFEPFQLEERKEQELEEEKIEEHEFVEREEEQETTPQFELFGRKDFKKEKAKKQEEQEEEYSQRDENALYLTKLFTKEPEEEFTKLRMYFVQEGDTIESIADRYETSVQNLYRVNQTEDIFLNTGQIIYIPVSRVKAK	PGPT0024855_229	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_VI_SPORULATION,PGPT0024855-spoVID-K06417	NA	NA
AK009_04517	1287	hemL2	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase 2	ATGAAAAAGTTTGATAAGTCAATTGCAGCGTTTGAAGAGGCGCAAGATTTAATGCCTGGTGGCGTAAATAGCCCAGTTCGTGCCTTTAAGTCTGTTGGGATGAATCCGTTGTTTATGGAGCGTGGTAAAGGCTCTAAAGTATATGATATTGATGGAAATGAATACATCGACTACGTATTATCATGGGGGCCTTTAATTCATGGGCATGCAAATGATCGTGTTGTTGAAGCGTTAAAATCTGTTGCTGAAAGAGGTACAAGCTTCGGTGCACCGACAGAAATCGAAAATAAATTAGCGAAACTTGTTATTGAGCGTGTACCATCGATTGAAATTGTCCGCATGGTTAACTCTGGAACAGAAGCGACAATGAGTGCACTACGTTTAGCTCGTGGTTATACAGGCCGTAATAAAATCTTGAAATTCATCGGTTGTTACCACGGTCATGGTGATTCGTTATTAATTAAAGCTGGTTCTGGTGTGGCGACTCTAGGTTTACCAGATAGCCCTGGCGTACCAGAAGGTGTAGCGAAAAATACGATTACAGTAGCTTATAATGATTTAGAAAGTGTGAAATACGCTTTTGAACAATTCGGTGATGATATTGCTTGTGTAATTGTAGAACCAGTGGCAGGGAATATGGGTGTTGTTCCTCCGCAACCAGGATTTTTAGAGGGACTTCGTGAAGTAACAGAACAAAACGGTGCACTGCTTATTTTTGATGAAGTAATGACAGGATTCCGTGTTGCTTATAACTGTGGACAAGGTTACTACGGTGTAACACCTGATTTAACTTGTTTAGGTAAAGTAATCGGTGGTGGCTTACCAGTAGGAGCGTACGGTGGTAAAGCAGAAATTATGCGCCAAATTGCGCCAAGCGGACCGATTTATCAAGCTGGTACTTTATCAGGTAACCCACTTGCAATGGCAGCAGGTTATGAAACGTTAGTACAGTTAACGCCAGAATCGTATGTAGAATTTGAGCGTAAAGCTGAAATGTTAGAAGCTGGATTACGTAAAGCAGCTGAAAAACATGGCATTCCACATCATATTAATCGTGCAGGTTCTATGATTGGTATTTTCTTTACAGATGAGCCCGTTATTAATTACGATGCAGCAAAATCTTCAAACTTAGAGTTCTTTGCGGCTTACTATCGTGAAATGGTAGAACAAGGTGTATTCTTGCCACCATCTCAATTCGAAGGTTTATTCTTATCGACAGCACATAGTGACGCAGATATTGAGGCGACAATTGCAGCGGCTGAAATTGCAATGTCAAAATTAAAATAA	MKKFDKSIAAFEEAQDLMPGGVNSPVRAFKSVGMNPLFMERGKGSKVYDIDGNEYIDYVLSWGPLIHGHANDRVVEALKSVAERGTSFGAPTEIENKLAKLVIERVPSIEIVRMVNSGTEATMSALRLARGYTGRNKILKFIGCYHGHGDSLLIKAGSGVATLGLPDSPGVPEGVAKNTITVAYNDLESVKYAFEQFGDDIACVIVEPVAGNMGVVPPQPGFLEGLREVTEQNGALLIFDEVMTGFRVAYNCGQGYYGVTPDLTCLGKVIGGGLPVGAYGGKAEIMRQIAPSGPIYQAGTLSGNPLAMAAGYETLVQLTPESYVEFERKAEMLEAGLRKAAEKHGIPHHINRAGSMIGIFFTDEPVINYDAAKSSNLEFFAAYYREMVEQGVFLPPSQFEGLFLSTAHSDADIEATIAAAEIAMSKLK	PGPT0003680_3871	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK009_04518	990	hemB_1		Delta-aminolevulinic acid dehydratase	ATGAACTCTTTACAATTTAATCGTCATCGTCGTTTAAGACAAAGCGGTAGTATGCGTGCACTTGTGCGTGAAACGTTTTTACATACGGAAGATTTTATTTACCCTATTTTTGTATTAGAAGGTGAAAATGTTCGTAATGAAGTTCCTTCTATGCCAGGCGTATATCAAATGTCTTTAGATTTATTGCAAGCTGAAATGCAAGAAGTTGTTGATTTAGGTATTCGTTCTGTTATTGTATTTGGTTTACCTGCTGAAAAAGATGAAGTTGGATCATCAGCATATTGTGATCATGGAATTGTACAACGTGCTATTCAACAAATTAAAGGCGATTTCCCTGAGCTAGTAGTAGTTGCAGATACATGTTTATGTCAATTTACAAGTCATGGTCATTGCGGTGTAATTGAAGATGGTATTATTTTAAATGACGAGTCTCTTGCAGTTCTTGCGAAAACAGCTGTAAGTCAAGCGAAGGCAGGAGCGGACATTATTGCGCCATCAAACATGATGGACGGCTTCGTAACAGCAATTCGCCATGCATTAGATGAAAATGGTTTTGGACACGTGCCAGTTATGTCGTACGCTGTGAAATATTCATCAGCGTTTTATGGGCCCTTCCGTGATGCTGCGCACGGTGCGCCGCAATTTGGTGACCGTAAAACATATCAAATGGACCCAGCGAACCGTATGGAAGCATTCCGTGAAGCAGAATCAGATGTAATGGAAGGGGCTGATTTCTTAATTGTAAAGCCAGCTCTTTCTTACTTAGATATCATTCGTGATGTGAAAAATAACTTTAATTTACCAATCGTTGCTTACAACGTAAGTGGTGAATATTCAATGATTAAAGCGGCAGCGCAAAATGGTTGGATTAATGAAAAAGAAGTTGTGCTTGAAAAATTAATTAGCATGAAACGTGCAGGAGCAGACTTAATTATTACGTATCATGCGAAAGATGCAGCAAAATGGTTGCAAGAAGGAGGCGTTAAATAA	MNSLQFNRHRRLRQSGSMRALVRETFLHTEDFIYPIFVLEGENVRNEVPSMPGVYQMSLDLLQAEMQEVVDLGIRSVIVFGLPAEKDEVGSSAYCDHGIVQRAIQQIKGDFPELVVVADTCLCQFTSHGHCGVIEDGIILNDESLAVLAKTAVSQAKAGADIIAPSNMMDGFVTAIRHALDENGFGHVPVMSYAVKYSSAFYGPFRDAAHGAPQFGDRKTYQMDPANRMEAFREAESDVMEGADFLIVKPALSYLDIIRDVKNNFNLPIVAYNVSGEYSMIKAAAQNGWINEKEVVLEKLISMKRAGADLIITYHAKDAAKWLQEGGVK	PGPT0003655_2771	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
AK009_04519	753			hypothetical protein	ATGAACGCTCTCGCTGGAAAAACGGTATTGATTACACGTGCCCAGCATCAAGCGAAACAAATGAGTGTAGCAGTGAAAGAAAAGAGCGGAATTCCATTGGAAATTCCGCTTTTGCATATGGAAGGTATGTCTCATAGGCAAATTCAACATATTGAAGGGCAGCTACATTCGTATGACTGGGTTATTTTTACGAGCAGAAATGGTGTAGCTTTTTTTCTAGATAGTTTGAACAAGAAACTACCGCTAACCATTAAAATCGCTGCGGTAGGTGTGAAAACAAAATTAGAGTTAGAAAAAAGGGGCTATCAAGTTCATTTTGTTCCAACTTCATTTGTTGCAGAAGCATTTGCAGAAGAGTTTCTAAAAGAATTAAGTGGAAACGAACGTATTTTATTTCCGAAAGGGAATATAGCAAGAGAGGTAATTCCGGTTGCACTTCGGGAAATTGGTGTTTCTCTAGATGAGCTAATCGTATACGGTACGAAAGTGAATATAGAAAAAAAGCAAGAGCTTATAGCGGCATTGAAGTTAGGGAAAGTAGACATTATTACATTTACGAGCCCTTCAACTGTTACTAGTTTTGTTCGTTTACTTGAGGGTGCAAACTGGAGAGAATGGACAAAAAAATGTACAATTGCTTGTATAGGACCTATTACGGAAAAAGAGGCAAGTCGTTATTTTCCGTCTGTTATTGTGCCGAAAGAGTACACTGTAGAAGCATTACTACAATGTGTTTGTGAATCTATAAAATGA	MNALAGKTVLITRAQHQAKQMSVAVKEKSGIPLEIPLLHMEGMSHRQIQHIEGQLHSYDWVIFTSRNGVAFFLDSLNKKLPLTIKIAAVGVKTKLELEKRGYQVHFVPTSFVAEAFAEEFLKELSGNERILFPKGNIAREVIPVALREIGVSLDELIVYGTKVNIEKKQELIAALKLGKVDIITFTSPSTVTSFVRLLEGANWREWTKKCTIACIGPITEKEASRYFPSVIVPKEYTVEALLQCVCESIK	PGPT0003665_2736	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
AK009_04520	930	hemC_1		Porphobilinogen deaminase	ATGCGCAAAATTATTGTAGGGTCACGAAAGAGTAAGCTAGCATTAACACAAACAAACTGGTTTATTGATCAGTTAAAAGCACTTGGTTTACCATATGAATTTGAAGTGAAAGAAATTGTCACCAAAGGTGATGTGATTTTAGATGTTACTCTTTCAAAAGTAGGCGGAAAAGGTTTGTTCGTTAAAGAAATTGAGCATGCGTTACTTACGAAAGAAATCGATATGGCTGTACATAGTATGAAAGATATGCCAGCCGTACTTCCAGAAGGGTTAATGATTGGCTGTACACCAAAGCGTGTTGACCCTCGTGATGCTTTTATCTCAAAAAATGGAGCATCGTTTAAAGAGTTAGCGGAAGGTGCTATTTTAGGTACGAGTAGTTTAAGACGTAGTGCACAGCTACTCGCTGCGAGACCAGATTTACAAGTGAAGTGGATTCGCGGAAATATCGATACACGTTTACGTAAATTAAAAGAAGAGGATTACGATGCGATTATTTTAGCGACAGCTGGATTACAAAGAATGGGCTGGGATGATGAAGTTATTACAGAACATTTAGATGAAACGTTATGTGTACCTGCTGTAGGACAAGGTGCATTAGCGATTGAATGTCGTGAGGATGATAAGGATTTATTGCAGTTGTTAGCGCATATGAATGATGCGATAACAGAAAGAACAGTGGCAGCGGAGCGAGTATTTCTTCATAGACTTGAAGGTGGATGTCAAGTTCCAATCGCTGGATATGCAACCCTTAAAGAAAACGATACAATCGAATTAACAGCTCTTGTTGGCTCTATGGATGGCTCTGTTTTATTAAAAGAGACAGTAGTAGGTACTAATCCTGAGGAAGTAGGATTAGAAGCCGCGGGCCGTTTAATTAAACAAGGCGCCAAAGAACTCATTCTTGCTGCAAATAAGGAGCAACAATAA	MRKIIVGSRKSKLALTQTNWFIDQLKALGLPYEFEVKEIVTKGDVILDVTLSKVGGKGLFVKEIEHALLTKEIDMAVHSMKDMPAVLPEGLMIGCTPKRVDPRDAFISKNGASFKELAEGAILGTSSLRRSAQLLAARPDLQVKWIRGNIDTRLRKLKEEDYDAIILATAGLQRMGWDDEVITEHLDETLCVPAVGQGALAIECREDDKDLLQLLAHMNDAITERTVAAERVFLHRLEGGCQVPIAGYATLKENDTIELTALVGSMDGSVLLKETVVGTNPEEVGLEAAGRLIKQGAKELILAANKEQQ	PGPT0003660_3590	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
AK009_04521	834			hypothetical protein	ATGAGTTTTTTAAATAACAGTATTATTTATCATATTGCAATTATTTTATATGCTTGTAGCATTAGTTTATATTTTATAGATTATTTCCAAAGTAACCGAAAGGCGAACCGATTTGCTTTTTGGTTACTTTCGATTGTATGGGTATTGCAGTCTATTTTTATGTTGCTTAGGGCGACAGATTCAGAAACGAACCCCATTTTAACTTTATTATCAGGGATTTATTTTTATGTTTGGTTATTGATTACGATGTCGTTAGTCATAAATCGATTTATGCGCGTTGACTTTTTAGTCTTCTTTACAAATGTTGTTGCATTTGGCGTAAGCGCTTTTTCTATTTTTACACCGCTCGGAAAGATGTCGCCAGTACTTGCAGAGCAATTAGTTTCAGAACTTGTATACGTGCATGTTGGAATGGCGATTATTTCTTATGCAACGTTTACGGTATCATTTATTTTTTCTATTATGTATTTACTGCAATATCGCCTATTAAAAAAGAAAAAGTGGAATGCGAGATTAAGAAGGTTAGGGAATTTACCGAAGCTTGAATCTACGTCTTACGGATTAAATTTATTTTCTGTTCCATTTTTCTTACTAGCAATTTTATTAGGATGTATATGGGGATATACAAAATTAGATAATTTTCATTGGTATGATACGAAAGTAATTGGTTCGTTTGTCGTTCTATTTGTATACTGTGCGGGCTTGTATTTAAGAGCGGCAGATGTATTGCAAGGGAAGAAAATTGTACTGTGGAATGTAGGGGCCTTTCTCGTAATGCTAGTTAACATTTTTTTATTAAGTAGTTTATCTAATTTCCACTTTTGGTATTTATAA	MSFLNNSIIYHIAIILYACSISLYFIDYFQSNRKANRFAFWLLSIVWVLQSIFMLLRATDSETNPILTLLSGIYFYVWLLITMSLVINRFMRVDFLVFFTNVVAFGVSAFSIFTPLGKMSPVLAEQLVSELVYVHVGMAIISYATFTVSFIFSIMYLLQYRLLKKKKWNARLRRLGNLPKLESTSYGLNLFSVPFFLLAILLGCIWGYTKLDNFHWYDTKVIGSFVVLFVYCAGLYLRAADVLQGKKIVLWNVGAFLVMLVNIFLLSSLSNFHFWYL				NA	NA	NA	NA	NA
AK009_04522	1335	hemA_1	COG0373	Glutamyl-tRNA reductase	GTGCATATTCTTGTTGTTAGTGTAAATTATCGAACAGCCCCTGTAGAATTTCGTGAGAAACTCACATTTCAGGCAGCAGAGCTAGAGCGAGCGATGAATACATTACAAAATCAAAAGAGCGTGTTAGAGAATGTCATTGTATCAACTTGTAATCGCACTGAGATTTATGCTGTTGTCGATCAATTACACACGGGACGGTATTATATTAAGAAGTTTTTAGCTGATTGGTTTCAGCTTGAAATAGAAGAAGTCGCGCCATATTTAACTATTTTTGAACAAGATGGTGCAATAGATCATTTATTCCGCGTAACGTGCGGTTTAGATTCGATGGTAGTCGGAGAAACGCAGATTTTAGGTCAAATAAAAGATAGCTTTTTAGAAGCGCAACAAGTTAAAGCAACAGGCACAATTTTTAATGAATTGTTTAAGCAAGTCATTACATTAGCAAAACGTGCCCACTCAGAAACAACAATCGGGGAAAGTGCAATGTCTGTTAGTTATGCTGCTGTTGAGCTTGGAAAGAAAATATTTGGCGAGTTAACAGATTGTCATGTGCTTATTCTTGGTGCTGGTAAAATGGGCGAACTTGCACTGCAAAACTTATATGGAAGTGGTGCTCGTAAAGTAACAGTTATGAATAGGACACTTTCGAAAGCAGAAGTAATGGCTGAGAAATATATGGGACATGCAAAATCGTTAAGCGAATTGCAATGTGCATTATTAGAAGCAGATATTTTAATTAGTTCAACTGGTGCATCTGAGTATGTCATTACGAAAGAGATGATGACAAAGGTGGAGAAAATGCGCTCTGGTCGCCCTTTATTTATGGTTGATATTGCAGTACCACGTGATATTGATCCAGCGATTGATGAGTTAGAAGGTTCTTTTTTATATGACATTGATGATCTGCAAGGAGTAGTGGAAGCAAATCGTGCTGAGCGTTTGAAAGAAGCGGAGAAAATTCAATTTATGATTGAAGAGGAAATTGTTCTATTTAAAACGTGGTTAAGTACACTTGGTGTTGTTCCATTAATATCAGCTCTTCGTGATAAGGCACTTGCAATCCAAAGTGAAACGATGGTAAGCCTAGAGCGAAAAATACCAAACCTTAGTGATCGTGAGAAAAAAGTCATTAGTAAGCATACGAAAAGTATTATTAATCAATTATTAAAAGACCCAATTTTAGTAGCGAAAGAAATAGCTGCTGAAGAGGGAGCGAGCGAAAAATTAGCGTTATTTGCGAAGATTTTCGATTTAGAAACGGAAGAAGTAGAGAGTCGTGCGGAAGAAGTAGAACATAAAAGAGTGTGGACACCATCCGTTCCATCTTTATAA	MHILVVSVNYRTAPVEFREKLTFQAAELERAMNTLQNQKSVLENVIVSTCNRTEIYAVVDQLHTGRYYIKKFLADWFQLEIEEVAPYLTIFEQDGAIDHLFRVTCGLDSMVVGETQILGQIKDSFLEAQQVKATGTIFNELFKQVITLAKRAHSETTIGESAMSVSYAAVELGKKIFGELTDCHVLILGAGKMGELALQNLYGSGARKVTVMNRTLSKAEVMAEKYMGHAKSLSELQCALLEADILISSTGASEYVITKEMMTKVEKMRSGRPLFMVDIAVPRDIDPAIDELEGSFLYDIDDLQGVVEANRAERLKEAEKIQFMIEEEIVLFKTWLSTLGVVPLISALRDKALAIQSETMVSLERKIPNLSDREKKVISKHTKSIINQLLKDPILVAKEIAAEEGASEKLALFAKIFDLETEEVESRAEEVEHKRVWTPSVPSL	PGPT0003650_1258	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
AK009_04523	453	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGACAGAGGACTCTTTGCATCTAGATAACCAACTTTGTTTTTCTATTTATGCCTGTTCTAGAGAGGTTACTCGTTTTTATCGACCTTATTTAGAAGAGATGGGTATTACGTATCCCCAGTACATTACTTTACTCGTACTATGGGAGCAAGATGGACTAACAGTAAAAGAAATTGGAGAACGTCTATTTTTAGATTCCGGTACGTTAACACCTATGTTAAAACGAATGGAATCATTAAAACTTGTAAAACGTGTTCGTTCCAAAGAAGACGAGCGAAAAGTTTGTATTGAATTAACAGAACAAGGCAAAGATTTAAAGGAAAAGGCTTGTTCATTACCGACAACGATGGCTACAAATTTAGGAATTACAGAGCAAGAATATCGCTCTTTATTAATTGAGCTAAATAAACTAATTGAAACAATGAAAACAATTAATGATGGAAAAGGGGAATAA	MTEDSLHLDNQLCFSIYACSREVTRFYRPYLEEMGITYPQYITLLVLWEQDGLTVKEIGERLFLDSGTLTPMLKRMESLKLVKRVRSKEDERKVCIELTEQGKDLKEKACSLPTTMATNLGITEQEYRSLLIELNKLIETMKTINDGKGE	PGPT0013155_3062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK009_04524	417	ohrA	COG1764	Organic hydroperoxide resistance protein OhrA	ATGGATAAATTATATACTGCTTCAGTAACAGCAACAGGTGGAAGAAATGGGAAAGTAGTTTCAGATGATGGCATATTAAATCTTGATGTAAAAATGCCGAAAGCACTAGGTGGTGCAGGCGGAGAAGCAACAAATCCAGAACAACTATTTGCAGCTGGTTATGCAGCTTGTTTTGATAGTGCATTACAACTTGTCATTCGTACAAAACGTATGAAAGTAGAAAGTACAGAAGTAACCGCTCACGTTTCTATCGGAAAAGATACAGATGGTGGTTTTGGCCTATCTGCCGTGCTTGATGTACATGTCGCTGGCGTTTCACATAGCGAAGCAAAAGAACTTGTAGAAGCGGCTCACGGTGTATGTCCTTACTCTAAAGCAACACGAGGTAATATTGAAGTTACATTAAACGTACGTTAA	MDKLYTASVTATGGRNGKVVSDDGILNLDVKMPKALGGAGGEATNPEQLFAAGYAACFDSALQLVIRTKRMKVESTEVTAHVSIGKDTDGGFGLSAVLDVHVAGVSHSEAKELVEAAHGVCPYSKATRGNIEVTLNVR	PGPT0013160_3752	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
AK009_04525	597	engB	COG0218	putative GTP-binding protein EngB	ATGAAAGTAACAAAAGCAGATATTGTAATTAGTGCTGTTAAACCAGAACAATATCCAGACAGTGATTTACCAGAAATTGCATTAGCAGGTCGTTCAAATGTCGGGAAGTCTTCCTTTATTAATAAAATTTTAAATCGTAAAAAGTTAGTGCGTATTTCTTCTAAACCAGGAAAAACGCAAACACTGAACTTTTTCTTAATCAATGAGATGATGCATTTTGTTGACGTTCCAGGTTATGGATATGCGAAAGTGTCTAAATCGGAGCGCGCGGCATGGGGGAAAATGATTGAAACGTACTTTACAACGCGTAAGCAATTAGACGCAGCTGTATTAGTAGTTGATTTACGTCACCAACCAACAAGTGATGACGTGATGATGTATGATTTCTTAAAGCATTATGAAATCCCAACAATTATTATTGCGACGAAAGCCGATAAAATCCCGAAAGGGAAATGGCAAAAGCATTTAAAAGTTGTAAAAGAAACGCTTGCTGTTGAAATTGGCGATGAAATCGTTCTATTCTCTTCTGAAACAGGACTTGGAAAAGAAGAAGCGTGGAAGGCAATTCATAAAATGACAAAAACAAAAAACGCGTGA	MKVTKADIVISAVKPEQYPDSDLPEIALAGRSNVGKSSFINKILNRKKLVRISSKPGKTQTLNFFLINEMMHFVDVPGYGYAKVSKSERAAWGKMIETYFTTRKQLDAAVLVVDLRHQPTSDDVMMYDFLKHYEIPTIIIATKADKIPKGKWQKHLKVVKETLAVEIGDEIVLFSSETGLGKEEAWKAIHKMTKTKNA				NA	NA	NA	NA	NA
AK009_04526	2331	lon1	COG0466	Lon protease 1	ATGTCTAGTATGAATACGAACGAAAGAATCGTGCCCCTCCTACCATTAAGAGGCGTTCTCGTATATCCAACGATGGTTTTGCATCTTGATGTAGGACGTGATAAATCGATACAAGCACTAGAGCAGGCGGCAATGGATGAAAATATCATCTTTTTAGCAATGCAAAAAGAAATGAATATCGATGATCCGAAAGAAGATGACATATATAGTGTAGGTACAGTGGCGAAAGTCAAGCAAATGTTAAAATTGCCGAACGGTACGCTTCGTGTCCTTGTGGAAGGTTTACATAGAGCAGAAGTAATAGAGTTTATCGAAGAAGAAAATATAGTACAAGTGTCTATTAAAACGGTAACTGAAGAAGTAGAAGATGATTTAGAAGAGAAAGCTCTTATGCGTACGTTACTGGAGCATTTCGAACAATATATTAAAGTTTCGAAAAAAGTTTCAAATGAAACATTTGCAACGGTAGCTGATGTAGAAGAACCAGGGAGATTAGCTGATCTAATTGCTTCTCACTTGCCGATTAAAACGAAGCAGAAACAAGAGATTCTAGAGATTGTATCTGTAAAAGAACGATTACATACACTTATTTCAATTATTCAAGATGAACAAGAGTTACTTAGCCTAGAAAAGAAGATTGGACAAAAAGTGAAACGTTCAATGGAGCGCACGCAAAAAGAATATTTCTTACGTGAGCAAATGAAGGCGATTCAAACTGAACTTGGCGACAAAGAAGGTAAGGGCGGAGAAGTAGAAGAACTTCGTGAAAAAATTGAACAGTCAGGAATGCCTGAAGAAACAATGAAGGCTGCGCTGAAAGAATTAGATCGTTATGAAAAGTTACCAGCAAGTTCTGCGGAGAGTGGTGTTATTCGCAATTATATTGATTGGTTATTAGCGCTTCCGTGGACAGAGGCAACAGAAGATATAATTGATCTTGCTCATTCAGAAGAGATTTTAAATAACGATCATTACGGTCTTGAAAAAGTGAAAGAGCGTGTACTTGAATATTTAGCTGTACAGAAGTTAACGAATTCATTAAAAGGACCTATCCTTTGTTTAGTAGGCCCTCCTGGGGTCGGCAAAACTTCGTTAGCGCGTTCAATTGCAACATCATTGAATCGTAAATTTGTCCGTGCATCTCTTGGTGGTGTGCGTGATGAATCTGAAATTCGTGGTCACCGCCGTACATATGTTGGAGCAATGCCAGGACGCATTATTCAAGGTATGAAAAAGGCGAAAACAGTTAATCCAGTCTTCTTATTAGATGAGATTGATAAAATGTCTAACGATTTCCGTGGAGATCCATCAGCGGCATTACTTGAAGTATTAGATCCAGAACAAAACCATAACTTCAGTGATCATTACATTGAAGAACCATATGATCTATCGAAAGTTATGTTTGTAGCAACCGCTAATACACTTTCAAGTATTCCAGGTCCATTACTTGACCGTATGGAAATCATTTCGATTGCTGGCTATACAGAACTTGAAAAAGTACACATTGCTCGTGAGCATTTATTGCCGAAACAATTAAAAGAGCATGGCTTACGAAAAGGTAATTTACAAGTGCGTGATGAGGCGCTTCTTGAAATTATTCGTTATTATACACGTGAGGCTGGTGTTCGTACGCTAGAACGCCAAATTGCAAAAGTTTGCCGTAAAGTAGCGAAAATTATCGTTACAGCAGAACGTAAACGTATCGTTGTGACAGAGAAAAAGATTGTTGATTTACTTGGTAAACACATATTCCGTTATGGGCAAGCTGAAAAAACAGACCAAGTTGGTATGGCAACAGGTCTAGCTTACACAGCAGCAGGCGGCGATACACTTGCAATTGAAGTTTCTGTAGCGCCAGGAAAAGGGAAACTAATTTTAACGGGGAAACTTGGGGATGTTATGAAAGAATCAGCACAAGCTGCGTTTAGTTATATACGCTCTCGTGCAGAAGAGCTTCAGATTGACCCGAATTTCCATGAGAAAAATGATATTCATATTCATGTTCCAGAAGGAGCAGTTCCAAAAGATGGACCGTCAGCAGGTATTACGATGGCAACGGCACTTATTTCTGCACTAACAGGTATTCCTGTAAGTAAAGAAGTAGGTATGACAGGTGAAATTACACTTCGTGGTCGTGTATTACCAATTGGTGGCTTAAAAGAAAAAACATTAAGTGCTCACCGCGCAGGCTTAACAAAAATTATTTTGCCAGCAGAAAACGAGAAAGATTTAGATGATATTCCAGAGAGCGTAAAAGAAAACCTTACGTTTGTGCTTGCATCTCATTTAGATGAAGTATTGGAGCACGCATTAGTAGGAGTGAAACAATGA	MSSMNTNERIVPLLPLRGVLVYPTMVLHLDVGRDKSIQALEQAAMDENIIFLAMQKEMNIDDPKEDDIYSVGTVAKVKQMLKLPNGTLRVLVEGLHRAEVIEFIEEENIVQVSIKTVTEEVEDDLEEKALMRTLLEHFEQYIKVSKKVSNETFATVADVEEPGRLADLIASHLPIKTKQKQEILEIVSVKERLHTLISIIQDEQELLSLEKKIGQKVKRSMERTQKEYFLREQMKAIQTELGDKEGKGGEVEELREKIEQSGMPEETMKAALKELDRYEKLPASSAESGVIRNYIDWLLALPWTEATEDIIDLAHSEEILNNDHYGLEKVKERVLEYLAVQKLTNSLKGPILCLVGPPGVGKTSLARSIATSLNRKFVRASLGGVRDESEIRGHRRTYVGAMPGRIIQGMKKAKTVNPVFLLDEIDKMSNDFRGDPSAALLEVLDPEQNHNFSDHYIEEPYDLSKVMFVATANTLSSIPGPLLDRMEIISIAGYTELEKVHIAREHLLPKQLKEHGLRKGNLQVRDEALLEIIRYYTREAGVRTLERQIAKVCRKVAKIIVTAERKRIVVTEKKIVDLLGKHIFRYGQAEKTDQVGMATGLAYTAAGGDTLAIEVSVAPGKGKLILTGKLGDVMKESAQAAFSYIRSRAEELQIDPNFHEKNDIHIHVPEGAVPKDGPSAGITMATALISALTGIPVSKEVGMTGEITLRGRVLPIGGLKEKTLSAHRAGLTKIILPAENEKDLDDIPESVKENLTFVLASHLDEVLEHALVGVKQ	PGPT0014315_4554	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
AK009_04527	1671	lon2	COG1067	Lon protease 2	ATGAGCTGGACAAATATATTTTTAGTTGTTCAACTTGTTTTTGGTGTAATTGTCGGATTATATTTCTGGCATTTACTTCGAAATCAACGAACACAAAAAGTTTCAATTGATCGAGAATCGAAAAAAGAATTAGAACAGCTTCGTAAAATGCGTGAGATTTCTTTAACAGAGCCGCTAGCAGAAAAGGTGCGTCCTACAACCTTTTTAGATATTGTAGGGCAAGAGGACGGGATTAAGTCGTTAAAAGCGGCTCTTTGTGGTCCGAATCCGCAACATGTAATCATATATGGCCCGCCAGGTGTTGGGAAAACAGCGGCAGCACGTCTTGTATTAGAAGAAGCGAAACGAAATCCTAAATCTCCATTTCGTACGAATGCAACATTTATTGAACTTGATGCGACGACAGCTCGGTTTGATGAACGTGGTATCGCAGACCCTTTAATTGGTTCGGTGCATGATCCGATTTATCAAGGTGCTGGGGCGATGGGACAAGCAGGTATTCCGCAACCGAAAAAAGGTGCTGTAACAGATGCGCATGGTGGTATTTTGTTTATTGATGAGATTGGCGAACTCCATCCGATTCAAATGAACAAAATGTTAAAGGTGTTAGAAGATCGAAAAGTATTTTTAGAAAGTGCGTACTATAGTGAAGAAAATACGATGATCCCAACATATATACATGATATTTTCCAAAAAGGCTTACCGGCAGATTTTCGCTTAGTTGGAGCAACGACACGTTCGCCAGAGGAAATTCCTCCTGCTATTCGGTCACGTTGCTTAGAAGTATTTTTCCGTGAATTAGATACGGAAGAAATTCAAAAAGTAGCGAAAAATGCTGCGGAAAAAGTAGAAATGCAAATAGGCGAAAATGGTATTGAAATGATTGGGATGTATGCAAGAAATGGACGAGAAGCGATTAATCTCGTGCAAATCTCTGCTGGTATGGCGATAAATGAAGAACGTTCTTTCATTAAAGATGAAGATATAGAGTGGGTTGTTCACTCAAGTCAGCTTACACCGAAATACGAAAAGCACATTTATCCGATTCCAAGGATTGGTCTTGTAAATGGTCTTGCTGTATACGGACCAAATACAGGTGCGTTATTAGAAATTGAAGTAACAGCAATTCCGGCGAAAGATAAAGGGTCGGTAAATGTTACCGGAATTGTAGAAGAAGAAAGTATTGGTAGTCAAACGAAATCGATTCGCCGTAAAAGTATGGCAAAAGGCTCTGTTGATAATGTATTAACAGTACTTCGTTCTTTAGATGTGTTGCCAGAAGGATACGATATACATATTAATTTTCCAGGTGGTATCCCAATTGATGGACCTTCTGCAGGAATCGCTATGGCAACAGGTGTATATTCTGCGGTGCATCGCACATATGTAAATAATGAAGTAGCGATGACAGGTGAAATAAGTATACACGGAGAAGTAAAGCCTATTGGTGGCGTGTACGCAAAAATAAAAGCTGCGAAAAAAGCGGGAGCTAAGAAAGTCATTATTCCTGCTGAAAATATGCAACCATTTTTGTATACTATAAAGGGAATCGAAATTATTCCTGTCCGTAAGTTAAAAGAAGTATTTGAGTTAACATTTATGCAAGAAAATGCGCATAGAGAGCTAGATGTACATACTAACGTAGACGAAACAGATGCACAATCTATGTAA	MSWTNIFLVVQLVFGVIVGLYFWHLLRNQRTQKVSIDRESKKELEQLRKMREISLTEPLAEKVRPTTFLDIVGQEDGIKSLKAALCGPNPQHVIIYGPPGVGKTAAARLVLEEAKRNPKSPFRTNATFIELDATTARFDERGIADPLIGSVHDPIYQGAGAMGQAGIPQPKKGAVTDAHGGILFIDEIGELHPIQMNKMLKVLEDRKVFLESAYYSEENTMIPTYIHDIFQKGLPADFRLVGATTRSPEEIPPAIRSRCLEVFFRELDTEEIQKVAKNAAEKVEMQIGENGIEMIGMYARNGREAINLVQISAGMAINEERSFIKDEDIEWVVHSSQLTPKYEKHIYPIPRIGLVNGLAVYGPNTGALLEIEVTAIPAKDKGSVNVTGIVEEESIGSQTKSIRRKSMAKGSVDNVLTVLRSLDVLPEGYDIHINFPGGIPIDGPSAGIAMATGVYSAVHRTYVNNEVAMTGEISIHGEVKPIGGVYAKIKAAKKAGAKKVIIPAENMQPFLYTIKGIEIIPVRKLKEVFELTFMQENAHRELDVHTNVDETDAQSM	PGPT0014315_5396	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
AK009_04528	1260	clpX_1	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGTTTAAATTTAATGATGAAAAAGGGCAATTAAAATGTTCTTTCTGTGGTAAAACACAAACGCAAGTTCGAAAGTTAGTGGCAGGTCCAGGTGTTTACATTTGTGACGAGTGTATCGAACTTTGTACTGAAATTGTACAAGAGGAGCTTGCGAAGGACGAAGAAGTAGAATTCAAAGATGTACCGAAACCGGTAGAAATTCGTGAAATCTTAGATGAGTATGTCATCGGGCAAGATAGCGCGAAAAAAGCACTAGCGGTAGCGGTATATAATCATTACAAACGCATTAATTCTAACAGCAAAATTGATGATGTAGAATTAGCGAAGAGTAATATCGCACTTATCGGGCCAACAGGTAGTGGTAAAACATTACTGGCACAAACGTTAGCGCGTATTTTAAATGTTCCATTTGCAATCGCGGACGCAACATCTTTAACAGAAGCTGGATATGTTGGGGAAGATGTAGAAAATATCTTACTAAAATTAATTCAAGCAGCTGATTATGATGTAGAGAAAGCGGAAAAAGGAATCATTTATATTGATGAGATTGATAAAGTGGCACGTAAGTCCGAAAATCCATCAATTACACGTGATGTATCTGGTGAAGGTGTGCAGCAGGCACTTCTGAAAATTTTAGAAGGTACTGTAGCAAGCGTTCCACCTCAAGGTGGTCGTAAGCATCCGCACCAAGAGTTCATTCAAATTGATACAACGAACATCTTATTCATTTGTGGTGGAGCGTTTGATGGCATTGAGCCGATTATTAAACGTCGCCTTGGTGAGAAAGTAATTGGATTTGGTTCTGAGAAGAAAAATGCTGATGTAAATGAGAAGCATGTTTTATCTCACGTATTACCAGAGGATCTTTTAAGATTTGGTTTAATTCCAGAGTTTATCGGTCGTCTTCCAGTTATTGCGAACCTAGAGCCACTTGATGAAGATGCTCTTGTTGATATTTTAACGAAACCGAAAAATGCACTTGTTAAGCAATTCCAAAAACTATTGGAGCTTGACGATGTTGAGTTAGAGTTTGAAGAAGGTGCACTAATCGAAATTGCGAAAAAAGCAATTGAACGTAAAACGGGTGCTCGTGGACTTCGTTCTATTATTGAAGGCTTAATGCTTGATGTAATGTTCGAACTTCCATCTCGTAAAGATATCGAGAAGTGTATTCTTACAAAAGAAACAGTAGCTGATAATGAACCGCCAAAATTGGTGTTACAAGACGGTACTGTACTTGATACAAAAACATCTGCATAA	MFKFNDEKGQLKCSFCGKTQTQVRKLVAGPGVYICDECIELCTEIVQEELAKDEEVEFKDVPKPVEIREILDEYVIGQDSAKKALAVAVYNHYKRINSNSKIDDVELAKSNIALIGPTGSGKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQAADYDVEKAEKGIIYIDEIDKVARKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNILFICGGAFDGIEPIIKRRLGEKVIGFGSEKKNADVNEKHVLSHVLPEDLLRFGLIPEFIGRLPVIANLEPLDEDALVDILTKPKNALVKQFQKLLELDDVELEFEEGALIEIAKKAIERKTGARGLRSIIEGLMLDVMFELPSRKDIEKCILTKETVADNEPPKLVLQDGTVLDTKTSA	PGPT0014600_4026	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
AK009_04529	1278	tig	COG0544	Trigger factor	ATGTCTACAAAATGGGAAAAATTAGAAGGTAACGTTGGCGTTTTAACAATCGAAGTTGATGCTAAAGAAGTAAACAACTCTATCGACGCTGCGTTCAAAAAAGTAGTAAAAACAATTAACGTACCAGGTTTCCGTAAAGGAAAAATGCCTCGTCCATTATTCGAACAACGCTTTGGTATTGAATCTTTATACCAAGATGCTTTAGATATCATTTTACCAAAAGCATACGGTGAAGCGATTGAAGAAGCTGGTATCTTCCCAGTTGATCATCCTGAAATCGACATCGAGAAGTTCGAAAAAAATGCTAACCTTATCTTCACTGCAAAAGTTACAGTGAAACCTGAAGTTAAATTAGGTGAGTACAAAGGTTTAGCAGTAGAAAAAGTTGAAACAACTGTAACTGACGAAGATGTAGAGAACGAATTAAAATCTTTACAAGAGCGTCAAGCTGAACTAGTTGTTAAAGAAGAAGGAACTGTTGAAAACGGTGATACAGCTGTAATCGACTTCGAAGGTTTCGTTGATGGCGAAGCATTTGAAGGCGGAAAAGGCGAAAACTACTCTCTAGCAATCGGTTCTGGTACATTCATCCCAGGTTTCGAAGAGCAAGTAATCGGTCTTAAATCTGGTGAGTCTAAAGACGTTGAAGTATCATTCCCAGAAGAGTACCATGCTGCTGAATTAGCTGGCAAACCAGCAACATTTAAAGTAACAATTCACGAAATCAAAACAAAAGAACTTCCTGAGTTAAACGACGAGTTCGCTAAAGAAGCAGACGAAGCGGTTGCAACTCTTGATGAATTAAAAGCAAAACTTCGCACAAACTTAGAAGAAGGCAAAAAGCACGAAGCTGAGCACAAAGTACGTGACGAAGTAGTAGAATTAGCTGCTGCTAACGCTGAAATCGAAATTCCAGAAGCTATGATCAACACTGAGTTAGATCGTATGGTTCGTGAATTCGAGCAACGTTTAAGCCAACAAGGTATGAACCTTGAGCTTTACTACCAATTCACAGGTACTGACGCTGACAAATTAAAAGAGCAAATGAAAGAAGATGCACAAAAACGTGTAAGAATCAATCTTGTTCTTGAAGCTATCATTGAAGCTGAAAACATCGAAGTTACTGAAGAAGAAGTAACTGCAGAAGTTGAAAAAATGGCTGAAATGTACGGTATGCCAGTAGACGCTATCAAGCAAGCTCTTGGAAGCGTAGACGCTTTAGCTGAAGATCTTAAAGTGCGTAAAGCTGTAGACTTCTTAGTAGAAAACGCTGCATAA	MSTKWEKLEGNVGVLTIEVDAKEVNNSIDAAFKKVVKTINVPGFRKGKMPRPLFEQRFGIESLYQDALDIILPKAYGEAIEEAGIFPVDHPEIDIEKFEKNANLIFTAKVTVKPEVKLGEYKGLAVEKVETTVTDEDVENELKSLQERQAELVVKEEGTVENGDTAVIDFEGFVDGEAFEGGKGENYSLAIGSGTFIPGFEEQVIGLKSGESKDVEVSFPEEYHAAELAGKPATFKVTIHEIKTKELPELNDEFAKEADEAVATLDELKAKLRTNLEEGKKHEAEHKVRDEVVELAAANAEIEIPEAMINTELDRMVREFEQRLSQQGMNLELYYQFTGTDADKLKEQMKEDAQKRVRINLVLEAIIEAENIEVTEEEVTAEVEKMAEMYGMPVDAIKQALGSVDALAEDLKVRKAVDFLVENAA				NA	NA	NA	NA	NA
AK009_04530	999			hypothetical protein	ATGGATAAAAAAGAAAATACGGTCGTATTGTTTCCACAACTATCAGAGCGCTATATTGATGAAGGTTTTTTAGCGCTGAAAGAGCGGAAATTCGAAGATGCATTGCGTTGCTTTGAAATATTACGTCAGTATAATGCGGAAACGGAACAAACGGAATTAGCTTCAGTTATTTGTTTACTCGAATTAAAACGTATGGAAGAAGCGAAAGATAAATGTGAACAGTTGCTTAAAACAGGAGTTGTCTTATTTGGTGATATTCTTGAAACGTACGTAACAATTTTAGTTCAAACAAATGATTATGAAGGTGTTATTGAAACTGTTGAAAAGGTTTTACAAACGAAAGATATAATGCCTGATCAAAAGGAAAAATTAGCGCAGCTTGCTTTATTTGCAGAAGGTATGCTAAATGAGGGAGACGCATCGCTAGTGGATTCAAACTTTGAATTGGATGAGTTTACTAATGAAATTTTTGGAGAAAACTTTGGACAGAAGCTAAGAGCGATTCAGCGACTTTCGTTAAAAGATTTAGATCTTGCATTACCTGTTTTAAAGAAATTTTTAATAGACGAAGAGCAGCACCCCTATTTGAAAACTTCTATTTTGTATAAAATGATAGAAAGTCAGGTAGAAGAAGAAATAGAGGTAGAAAAGTTTGGAAATACGATTAAGGTGATTCCAGCATTTACAGGTCATAATGAGGAGCAATCCAATAACATTATACATAAATTATCAAGCCGATTAGAGCAAAATTATCCCGATATATTTGAAGCGATGGTTACATATTGGAAAGAGTTGCAAATTAGCGTTTTCCCATTCGCTCTATTAATGGATAAAGAAGAGATTTGGTCAGCTGTTTTAGAGAGAATTGGAAGAAAGCGTTTCGGATTGGCTATTGATGAAGAAGAGCTTATGGCAGCATATAATATCGAATTGGAAGAGTTTCATATTGCCTATCAATGGTTATTACGTGTTGAAAGAGAAGGATATTTGCCCGTATAA	MDKKENTVVLFPQLSERYIDEGFLALKERKFEDALRCFEILRQYNAETEQTELASVICLLELKRMEEAKDKCEQLLKTGVVLFGDILETYVTILVQTNDYEGVIETVEKVLQTKDIMPDQKEKLAQLALFAEGMLNEGDASLVDSNFELDEFTNEIFGENFGQKLRAIQRLSLKDLDLALPVLKKFLIDEEQHPYLKTSILYKMIESQVEEEIEVEKFGNTIKVIPAFTGHNEEQSNNIIHKLSSRLEQNYPDIFEAMVTYWKELQISVFPFALLMDKEEIWSAVLERIGRKRFGLAIDEEELMAAYNIELEEFHIAYQWLLRVEREGYLPV				NA	NA	NA	NA	NA
AK009_04531	249			hypothetical protein	ATGGAATGGTTATTTGGAATTATAGGTACTTGTAGTGTAGTGTTATTGTTCTTTGTCCCAAGTGGTATACTTAGTTCGACAACAAGTTTGTTCTTCTTAAGTTTGTTTGCTTGTACGATGCTTATTATTATGTTTTTAATGAAGCGAAGTAAACCAATCTTCTATTTTAGCATGATTGTTATGGCAATTATTGTTCTCCAAATTATTACCCTTGTAATATACCCCACAATTATAAAAGCTTTCCATTAA	MEWLFGIIGTCSVVLLFFVPSGILSSTTSLFFLSLFACTMLIIMFLMKRSKPIFYFSMIVMAIIVLQIITLVIYPTIIKAFH				NA	NA	NA	NA	NA
AK009_04532	105			hypothetical protein	ATGATGAAAGGGTTAGTTGTAACGGGCTTAACGGTTGCTTTTGGATTTGTAGCGTATGAGAAATTAACGTATGTAGTCGATGTTGTGAAACATTTGATTGCTTAG	MMKGLVVTGLTVAFGFVAYEKLTYVVDVVKHLIA				NA	NA	NA	NA	NA
AK009_04533	615			hypothetical protein	ATGTTCAAAAAAGTAGCTGCTGATGTTTTAGGGTTAAGCGATGTAGGTTCTGTCATTACACCGAAAGATTACGATAAAGTTGATGCTGATGATTACGTGATGCACGAAGATGGAGAGAAAATTTATTTTCTAATTAAATCCAAATCAGATGAATATTGCTTCACAAACAAAGGATTACTCCACCTAGATGGTACAAGCGCAACAAGTAAAAAACGCACACTGCGCCGCTATAGCTATAGTAAATATCAAATTAAAAACGTAGCACTTGAAACTGCAGGAACGATTGATTTAGATATAGAAATTAAGTTTCAAATGGGAGATGAGCATTACTCAATTGATGTTCATAAAAAACATATTGAAGAATTAAAAGATTTATATAAGGCTTTACTTAAAATTGAAGAAATTTCATACGACAACGACATTACATTACAATATGCACATAAAAGTTTAGATATGGCATCTAATGCTTTCAGCCGTATTTCAAACGCACAAGTAAACTTAGCAGAGCAATTTAAAGAGATGAACGAGATTGCCTTTAACTGGCTTGTTGATACGAAGAAACAATACAATGTGAAAGATTATGGTTTTGTATTTGAGAAGTTTATTAATAACTAA	MFKKVAADVLGLSDVGSVITPKDYDKVDADDYVMHEDGEKIYFLIKSKSDEYCFTNKGLLHLDGTSATSKKRTLRRYSYSKYQIKNVALETAGTIDLDIEIKFQMGDEHYSIDVHKKHIEELKDLYKALLKIEEISYDNDITLQYAHKSLDMASNAFSRISNAQVNLAEQFKEMNEIAFNWLVDTKKQYNVKDYGFVFEKFINN				NA	NA	NA	NA	NA
AK009_04534	621	ppaX_2	COG0546	Pyrophosphatase PpaX	TTGATAACATCTCTTGTTTTTGACGTAGACGGCACAATTTTAGACACAGAAAAAGCAATACTAAAATCCTTACAAAAAGTTTTAAAAGAAGAACTAAAGGAAGATTATGCGTTACAAGATTTAAGATTTGCATTAGGGATTCCTGGAAAAGAAACCTTAAAAAAATTAAATGTACAAAATATAGACGTTGTTCATCCGAAATGGGCCAAATCTGTATTAGATTTTTCTCATGAAGTTTCCGTGTTTGAAGAATTAGAAAGCATTATTAAAGAGTTATCACTTAGTAAATTAAAGCTTGGTATTGTTACATCAAAAACTAAGCAAGAATTAATAGATGAGTTCGAGCCATTTGGTCTAAGCGGTCATTTTGAACATACAATTTGTGCGTGTGATACGGATAAACACAAACCACACCCTGAACCATTATTAGCTTGTTTGAAACAATTAGATGTTTCTAATAATGAGGCAGTATACATTGGAGACTCTGTATACGATATGCAATGTGCGGAAAGTGCTGGTGTTAAATTCGCACTCGCTTTATGGGGCTCAAAGACAAAAGAAGGTTTTGAAAAAGCTGATTATGTATTAAATACCCCAAAAGATATTTTGGATTTAATTTAA	MITSLVFDVDGTILDTEKAILKSLQKVLKEELKEDYALQDLRFALGIPGKETLKKLNVQNIDVVHPKWAKSVLDFSHEVSVFEELESIIKELSLSKLKLGIVTSKTKQELIDEFEPFGLSGHFEHTICACDTDKHKPHPEPLLACLKQLDVSNNEAVYIGDSVYDMQCAESAGVKFALALWGSKTKEGFEKADYVLNTPKDILDLI	PGPT0019045_1022	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019045-mupP-K22292	NA	NA
AK009_04535	159			hypothetical protein	ATGAGTTATTTAGTAAGGTACATCCGAAGCAATGTAAGATACAAAGAGGACATAGGGAGCTTCTTCGGAAATAACATAGTTATGAAAACAAAACCACTTGAAGGTAGCCCATGTGTATCTAAAACATTGGCAAAACAAATAGATGATTTTAGGATGTAG	MSYLVRYIRSNVRYKEDIGSFFGNNIVMKTKPLEGSPCVSKTLAKQIDDFRM				NA	NA	NA	NA	NA
AK009_04536	327			hypothetical protein	ATGCTTACTAAAAAAGGAGAAGAGATTATGTCAGAAGCTTTTTATATAAATATTGGTGATTACGAGAGACCTGCAGATATATTGCGGATGCTTGGACATCCTATGCGTTTGATGATAGTTCGAGAATTAATTTCGAAAGGGCCATTAAATGTATCCGAGTTACAGAAGTTACTACGTGTTCCACAATCTACAATGTCACAACAATTAGCAAAGTTAAAACAGTTTAAGATGGTTTCCTATGAGCGAAAGGGAAATGAGATATATTATATAGTGAGTGATGAGAAAGTGATTGAGAGCATGAAGGGAATAGAACGTTTGCATCAATGA	MLTKKGEEIMSEAFYINIGDYERPADILRMLGHPMRLMIVRELISKGPLNVSELQKLLRVPQSTMSQQLAKLKQFKMVSYERKGNEIYYIVSDEKVIESMKGIERLHQ	PGPT0004300_342	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_04537	102			hypothetical protein	ATGAAAGTAAGAAGACATGGAAAACCTCATAACGGTATGAGAAGAATAGGGGGTGAACTCGTTGGAAACAAAATTTCAAGCATTTCAAAAGGACAGAGGTAG	MKVRRHGKPHNGMRRIGGELVGNKISSISKGQR				NA	NA	NA	NA	NA
AK009_04538	234	hfq_3		RNA-binding protein Hfq	TTGGAAACAAAATTTCAAGCATTTCAAAAGGACAGAGGTAGAAACATACTATTTTTCCAGGAACAATTGTTACAAGAAGCATTTCAAAAGAGGAAGGATATCACATTAATTCTGGTCAAAGGATTACATATAAAAGGAATAATAAGAGGATATGATACTTTTTCTATTTTAATAGAATTTGAAGGGAAGCAACAGCTTGTATATAAACATGCAATCTCCACGATTCGATTCTAA	METKFQAFQKDRGRNILFFQEQLLQEAFQKRKDITLILVKGLHIKGIIRGYDTFSILIEFEGKQQLVYKHAISTIRF	PGPT0025560_1816	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
AK009_04539	786			hypothetical protein	GTGGACTACATAGTGCAACAGCTAAAAAAAATTGGTTTCAATGAATATGAAGCTAAATCTTATGTATCTCTTGTTAAACAGGGGCCTGTCACAGCCTACCAAGTAAGTAAAGATTCAGGTGTCCCAAGAGCGCGAATTTATGAGATTTTAGGTAACCTTGTAGAAAAAGGAATTGTCATGAAGGAAGAAATAAATGACACCACTCGCTATTCACCTCTGCCTGTTGAAATCTTTTTACAGAAGGCGCAATCAGAATGGAAGTCTACTTATGAAGGAATCAGTGATTCATTAAAAAGACTAGAAACTTCTGAGGAAAAAACGGATAATCGAGTGATTACTTTAAAAGACAATAAAACAATCATTAGCTATTGTCAGGCATTAATAAAAAAAGCAGAACGACGTATTGTCATTTCAATGTGGGATGAGATGTATGAAGCGTTAAAAGAAGATCTATCTGAAGTAGCTGATAAAGTTACAATACAAGGTATTACCCTGCATGTTGAAAATCCCATTAAAAATCTAGAAGCCCATCGCATAACAACTTATACAGAAACCCTGTCTACAGAACATTGGTTTATTTTATCGATAGATTCTAAAGAGATGATTTATGGACCATCACTTGAAAAGCGTAATATTGCTTTTTATACAGATGACCCCGTTCATATATACTTATTAGAGGATTATGTATGGCATGATGTTTTAGTGAATCGACTTGTCCGACGTAGCCAAGACAATTTGGAGAATTGGATTGCTACAGAGCGAAAAGCATTCTTTACGGAAGAATAA	MDYIVQQLKKIGFNEYEAKSYVSLVKQGPVTAYQVSKDSGVPRARIYEILGNLVEKGIVMKEEINDTTRYSPLPVEIFLQKAQSEWKSTYEGISDSLKRLETSEEKTDNRVITLKDNKTIISYCQALIKKAERRIVISMWDEMYEALKEDLSEVADKVTIQGITLHVENPIKNLEAHRITTYTETLSTEHWFILSIDSKEMIYGPSLEKRNIAFYTDDPVHIYLLEDYVWHDVLVNRLVRRSQDNLENWIATERKAFFTEE				NA	NA	NA	NA	NA
AK009_04540	768	yfcA_2	COG0730	putative membrane transporter protein YfcA	ATGGATTTTTACTTAGACCCATCAGTATTAATTATTTTGATTGTTTTTGGATTTTTAGCTTCATTTATTGATTCGGTTGTAGGTGGTGGTGGACTCATTGCTTTGCCAGCTTTATTATTTACAGGGCTGAATCCAGCAAGTGCAGTAGCCACGAATAAATTAGCATCGACAATGGGGTGTGTAACTAGTAATATTGTGTTTTATCGTTCTGGTAACCTGGATTTGAAATCAGGGTTTAGATTATTCCCACTCACTTTTATAGGTTCCATAATAGGTGCATGGACCGTTCATTTAATGAACCCAGAGGTACTGAAGCCATTGATGCTGATCATGCTTGGTGCTGTTGCTATTTATACGATATTCAAAAAGGATTGGGGTAGTATTTCCACTCATAAGAAATTGTCCGGTCGACACTTCATTATTTTTACTGTTTTTGTTTTTGTTATTGGTTTTTATGATGGATTTCTAGGTCCTGGCACAGGTTCATTCTTAATGTTTTCGCTTTTATTTATTGGATATGATTTTTTAAAAGCGGCAGGTAATGCGAAGTTGCTTAATTTAGGAAGCGATATTGGTGCATTGTTAATGTTTATGTATGTAGGACAAGTAAACTATGCGTATGGTTTCATAATGGGAATTGCACAAATTGCTGGAGGGATTATCGGATCCAAGTTTGCTATAAAAAAGGGAAGTGGGTATGTTCGTGCCCTTTTCATAACAGTAACTTGTTTATTATTAGCAAAAAATATTTATGATTATATTCAATAG	MDFYLDPSVLIILIVFGFLASFIDSVVGGGGLIALPALLFTGLNPASAVATNKLASTMGCVTSNIVFYRSGNLDLKSGFRLFPLTFIGSIIGAWTVHLMNPEVLKPLMLIMLGAVAIYTIFKKDWGSISTHKKLSGRHFIIFTVFVFVIGFYDGFLGPGTGSFLMFSLLFIGYDFLKAAGNAKLLNLGSDIGALLMFMYVGQVNYAYGFIMGIAQIAGGIIGSKFAIKKGSGYVRALFITVTCLLLAKNIYDYIQ				NA	NA	NA	NA	NA
AK009_04541	168			hypothetical protein	ATGTTAAATAAACAAGATACATTGACTTCCGCTTTCGAATTTTATGTAAATAAGCTGTCCACATGGACAGCTTATTTACATAATGATCGATATAGGAAGTTAATTTTAGAAGCTATTGAATATAATCATAAATATTTTTTGCTAATAATAAACAAGTTACTGTTATGA	MLNKQDTLTSAFEFYVNKLSTWTAYLHNDRYRKLILEAIEYNHKYFLLIINKLLL				NA	NA	NA	NA	NA
AK009_04542	837	ntdB	COG0561	Kanosamine-6-phosphate phosphatase	ATGGACTACAATCTATTTAGAACTTTACCAGAAATACCAAATCCTAAGTACATTGTATTTAGTGATTTTGATGAAACGTACTTTCCTCACCAATTAACCGCCGAACGAAAAAGTCAAATACAAGCATTAGAACAGACTATCGTAGAAAAAAGTAGGATTTCTGGTTTACTTTTTGGCTTGGTAACAGGTAGTAACATTGAGGCTGTTCTTGAAAAAATGAAGAGGGGTGGATTTCAGTATCTTCCTCATTTTATTGCAAGTGATTTGGGAACAGAAATTCATTATTTCAACAAATTAAAACAAGGTGAAATTGATAAAGAATGGCTTAGCAGGTTTGATAATGGCAATTACCATCCCGATAAAATAAAAGAGATAGTTGATTTGTTAGCTTCTAAAAATATTGCTTTAGATAGCCAATCACAGATGGGTGCATCAAAATACAAAAGCAATTACTACTATTTCAGCAAGAATGAAAAGGACGATCAATTAAACCTTAACCATATTAGACAAGTTGCTAGTGATTTTAAAATTAGTATAAACATCAATCAATGTAATCCTTTGGCTGGAGATCCAGAGAATGCATATGATATTGATTTTATCCCTTTAGGGACTGGAAAAGACGAGATTGTGAGATATATATTAGCAAAATTTAAGATAGACCGACAAAATGCAATTGCCTTCGGTGATAGTGGTAATGACTTAAAAATGTTACAGGCTGTAAAATTCGGTTATTTACTTGAGAATGCTACAAGTGAGGCAAAAAATGGACATGAGCGTTTAACCATAGGTTCTTATTCAGAAGGGATACTTAACACCATTAAAGAACTAGTTGTGTAG	MDYNLFRTLPEIPNPKYIVFSDFDETYFPHQLTAERKSQIQALEQTIVEKSRISGLLFGLVTGSNIEAVLEKMKRGGFQYLPHFIASDLGTEIHYFNKLKQGEIDKEWLSRFDNGNYHPDKIKEIVDLLASKNIALDSQSQMGASKYKSNYYYFSKNEKDDQLNLNHIRQVASDFKISININQCNPLAGDPENAYDIDFIPLGTGKDEIVRYILAKFKIDRQNAIAFGDSGNDLKMLQAVKFGYLLENATSEAKNGHERLTIGSYSEGILNTIKELVV	PGPT0011885_46	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-KANOSAMINE_METABOLISM,PGPT0011885-ntdB-K18654	NA	NA
AK009_04543	309			hypothetical protein	TTGTATCTAAAATTTACAAATAAAAAAGATAAAATCGGCGAATACGATCTCATCTTAAGCATAAGGGAAAAACAAGTGACAGAAAACATCTTAATTTTTATGATGTTATATTTTTTGTTAATTTTAGATATAAAACCCATATTTAACATCTATATCAATATCGAGAGATTTATTACAAAATTAGCTATAAATGATTTAAAACCCCAAAGTAAACTTTTAGCCAAAAGTTTACTTTGGTTTTATTTCAATCTCGAGATTAACAGAGCTACATTTAAATTAATAGGCGAGTTAATAATGCGGTCTCGCTAA	MYLKFTNKKDKIGEYDLILSIREKQVTENILIFMMLYFLLILDIKPIFNIYINIERFITKLAINDLKPQSKLLAKSLLWFYFNLEINRATFKLIGELIMRSR				NA	NA	NA	NA	NA
AK009_04544	381			hypothetical protein	ATGGAAATTGAGTTTTCTCCTAATATCCCGATTTATATTCAGGTAATGGAATACATAAAAAAGGAAATTGTAACAGGTCGTTTAGCACCGGGGGATAAAATCCCAGCTGTACGTGAACTAGCCAGTGAATTACAAGTGAATCCCAATACGATTCAACGTACATTTCAAGAGCTAGAACGAGAAGGTATTGCTGTGACACGAAGAGGGACAGGGAGATTTGTAACGAGTGAAGGAGAAAAGATTATTGAACTACGCAAAGAAATGGCAACAGAGTTGCTTGATAATTTTATAAATGGAATGGACAATTTAGGATTTACGAAAGAAGAAATTCTTCCAATCCTCCATTCTGCATTAGAACAGAAAAGGAAGGGAAATGAATGA	MEIEFSPNIPIYIQVMEYIKKEIVTGRLAPGDKIPAVRELASELQVNPNTIQRTFQELEREGIAVTRRGTGRFVTSEGEKIIELRKEMATELLDNFINGMDNLGFTKEEILPILHSALEQKRKGNE				NA	NA	NA	NA	NA
AK009_04545	699	ytrB_2	COG1131	ABC transporter ATP-binding protein YtrB	ATGACAGAGTTATTAAAAATTGAAAATCTGTGGAAAAGATATAACTTAAAAACAGTGCTTGAAGATTTAAGTGCAACAATTTCTGAAGGGAAAATTATTGGTCTTGTTGGTGATAATGGTAGCGGAAAAACGACATTATTAAAAATGATTGCTGGTTTGCGTTATCCTTCTAAAGGAACTATCACAATTGAAGGTCAGAAGGTAGGAATAGAAACAAAGAAAACTGTTTCATTTATGCCTGATAGTCCTGTTTTTGACGAGTGGATGACGATAAAAGATGCTGTAGTTTTCTATCGGGATTTTTATAGTGATTTTGATTTACATCAAGCAATGGACTTAATAGCGGAGTTTAAAATGCCATTAGAAGAGCATATAGTTGCTTTATCAAAAGGTGAAGTGGAAAAATTACAACTTATTTTAACTTTCTCCAGGAAAGCAAAGTTATATATATTAGATGAGCCATTGGGTGGAATTGATCTTGTTTCTAGAAAACATGTACTAGATTTAATTCTTAAATTTTACCGAGAAGATTGTACCATTCTCATTTCAACTCATTTAATAGAAGAAATCGAAAATATATTTGATGAAGTAATCTTTTTAAAAGACGGAACTATTATATTACATGAAAACGTAGAGGAAATTCGTTTTCATCACGGGAAAGCAGTACATGAGTTGTTTAGGGAGGTGTTTGAGCAATGA	MTELLKIENLWKRYNLKTVLEDLSATISEGKIIGLVGDNGSGKTTLLKMIAGLRYPSKGTITIEGQKVGIETKKTVSFMPDSPVFDEWMTIKDAVVFYRDFYSDFDLHQAMDLIAEFKMPLEEHIVALSKGEVEKLQLILTFSRKAKLYILDEPLGGIDLVSRKHVLDLILKFYREDCTILISTHLIEEIENIFDEVIFLKDGTIILHENVEEIRFHHGKAVHELFREVFEQ	PGPT0006725_27129	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_04546	831			hypothetical protein	ATGAACCCACTTTTTCTCTATTTATATAAGTGCAATAGAAAAAAAATAGCAGTCTTTTATTCTGGTTTTATTATTATTTCTTTACTTCTTTTATTTAGTACGATAGGACTCTCAAGGGTACTACCTCCGTTTATAAAGGATTTAGTATTAATCATATACCTAATAATAATTGGTATATCTGCATTTTTACTTCTTCTAATAGCGCTGCCTTCTTTTAATAAAATATTAAAAAATTCTATGATTCGTTATACAGCCATCACAACCCAAATATATACATATACGAATTTATTATTTTTCACATTAATGTTTATTATTTTATTAGGTATAGGCTTAATTTTTTCATATTATTTTTCACAAAGTCTCTATGATGGAAAAGTAATTGGTTATAATCCGAGTCTTTATGGTGAGGAAGTAACCGGAGAATTTCGACAAGAATATCACAAGTTGTATAGTTATGGAATCTTCCAACACATATTTGCCTTTCTTTTATGGGGGATCGATTTCATGAGTATCCTTATTTCTTGTTATTTTATCATAGCCATTATAAGGCTGTTTCCAGTGAAGTCATGGATGAGTAAAATAATTTTATTCATCATTTTCGTTGCTATCTTTTCAACAATACAAACAATAGTAATGGATGTGTTAAGTAAATTAGAGAAATATGCAGTTACTATTAAAAGTTCTGGGTTCATGGATAAGAATGATTTTTTTGATACATCATTTTACCCTATTGAAGATTTCACTATTTTGGGTCTATGTTTTACTTGCTTGTTAATAATTGTACTCGTAGCGATTACAGGTCGCATTATCAATAAGAAATTAGAGATATAA	MNPLFLYLYKCNRKKIAVFYSGFIIISLLLLFSTIGLSRVLPPFIKDLVLIIYLIIIGISAFLLLLIALPSFNKILKNSMIRYTAITTQIYTYTNLLFFTLMFIILLGIGLIFSYYFSQSLYDGKVIGYNPSLYGEEVTGEFRQEYHKLYSYGIFQHIFAFLLWGIDFMSILISCYFIIAIIRLFPVKSWMSKIILFIIFVAIFSTIQTIVMDVLSKLEKYAVTIKSSGFMDKNDFFDTSFYPIEDFTILGLCFTCLLIIVLVAITGRIINKKLEI				NA	NA	NA	NA	NA
AK009_04547	735			hypothetical protein	ATGAGAACATCTAATCCAATGTTAAAAAAAGACAAATTCCATAAAGAAAAGACAAGCGCTTCAACAATGACAATAGGTGGAACGATAGGAAAAACATTCATTTTGCTTATCTTACTTCTTGCAGCGTCTGTCTATTCATACGTACAGATGACACAAGAGACAATGAAAATACCCGTGTTAATTGGAATTATAATAGTTACTCTAATTGTCGCTTTTGTGGTTATATTCGTTCCGCGCATATCCCCAATTTGCGCACCGATTTACGCAATATTACAAGGGGTTTTATTAGGAAGTATTTCAGCATATTATACAATGCGCTTTGGTGATTCTATCGCTTTAACTGCCGTATTACTAACAATTTCGATTTTATTTTCCATGTTAGTGTTATACGCAACTCGAATAGTAAAAGTAACTAAAAAGTTTCGTGCGGTTGTAACGGTTGCAACACTTGGAATTTTTATTATGTATTTTATTGTTTTCTTATTGAGCATCTTAGGGGTGACTGTTCCATATATTCATCAAGGTGGGACAATTAGTATTATCATAAGTGCAATTGTAATTGTTGTTGCTGCATTAGATTTATTACTAGATTTTGATTCAATTGAACATGGTACTCATAGTGGAGCACCAAAGTATATGGAATGGTACAGTGCAGTAGGACTTATGATGACATTAGTATGGTTATATCTAGAGATCCTTCGTCTGGTTTCTTACATTATGAAAAACAAAGACTAG	MRTSNPMLKKDKFHKEKTSASTMTIGGTIGKTFILLILLLAASVYSYVQMTQETMKIPVLIGIIIVTLIVAFVVIFVPRISPICAPIYAILQGVLLGSISAYYTMRFGDSIALTAVLLTISILFSMLVLYATRIVKVTKKFRAVVTVATLGIFIMYFIVFLLSILGVTVPYIHQGGTISIIISAIVIVVAALDLLLDFDSIEHGTHSGAPKYMEWYSAVGLMMTLVWLYLEILRLVSYIMKNKD				NA	NA	NA	NA	NA
AK009_04548	855	rdmC_2		Aclacinomycin methylesterase RdmC	ATGAATGAAAAAATTATTAAAATTAATGAAATTGATATATGTACAGAGAGCTTTGGCAATTCAGAAGATCCAGCAGTACTACTGATTATGGGAGCCATGTGTTCAATGGTTTATTGGGATGAAGAATTTTGTCAACAATTAGCTGATACGGGCCGTTATGTTATTCGTTATGATAATAGAGATGTGGGACGGTCAACTACTTATGAGCCGGGGAGTTCCCATTATACTGTGGTAGATATGGCTGATGATGCGGTTGGGGTACTCGATGCATATCATATTGACGAAGCACACATTGTTGGAATGTCATTGGGTGGAATGATTGCTCAAATTATAGCCTTAAGAAACCCACAGAGAGTTCTAAGTATAACTTTGATTGCATCAGGTATTTTTGGTTCTGAAGACAACAACCGTAATTTGCCTCCGATTGACGAGAAGATACTCGCTTACCATGCTAATGGGGCCAAACTAAATTGGTCGGATGAAGAATCTGTTGCAAATTACTTGGTTGCAGGATCAGCGTTACTCTGTGGTTCAAAGAATAAATTTGATGAGAAGAGGACTTATAAGCAGGTAGAAAAAGAAATAAAACGAGCAAATAACCTACTTAGTATGTTTAATCACTCCCTTCTTAAAGGCGATGATTCTTATGAGGGGAAGTTAAAAGGAATTAATATACCAACTTTGGTTATCCATGGTACAGAAGATACAGTGCTTCCATATGAGCATGGCCTTGCTCTTGTTAATGAAATTCCGCATGCTTTGTTACTACCCTTAGAAGGATCGGGGCACGAAATTCATTGCGATGATTGGGTTCATATAATCAACGCTATTTCGAACCATACTTCTGTCTTGTAA	MNEKIIKINEIDICTESFGNSEDPAVLLIMGAMCSMVYWDEEFCQQLADTGRYVIRYDNRDVGRSTTYEPGSSHYTVVDMADDAVGVLDAYHIDEAHIVGMSLGGMIAQIIALRNPQRVLSITLIASGIFGSEDNNRNLPPIDEKILAYHANGAKLNWSDEESVANYLVAGSALLCGSKNKFDEKRTYKQVEKEIKRANNLLSMFNHSLLKGDDSYEGKLKGINIPTLVIHGTEDTVLPYEHGLALVNEIPHALLLPLEGSGHEIHCDDWVHIINAISNHTSVL				NA	NA	NA	NA	NA
AK009_04549	273	pbuE_1	COG2814	Purine efflux pump PbuE	ATGTGGGGAGTAGCAACTTGGACAACGACACCAGCAAAGCAGTTTTATCTGATTTCACTGAAACCACAATCCTCTGAAACAGTACTCAGTTTTAATACCGCCTTAATGAATGTGGGAATGATGCTTGGCTCTGCATTAGGAGGAATCATTATTCAATATACTAATATAGAAAATTTAAGCTGGATTGGTGGATTATTCGTTATACTTGCACTTATTTTTATCAGATATTCTTTCTACCTAAATAAAAAAGTTATGAAGCACCATCGACTTTAA	MWGVATWTTTPAKQFYLISLKPQSSETVLSFNTALMNVGMMLGSALGGIIIQYTNIENLSWIGGLFVILALIFIRYSFYLNKKVMKHHRL	PGPT0021080_268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
AK009_04550	276			hypothetical protein	ATGAAAGTAGAGTTGTTTATAAATTTAAAAGAACGAATTTCAGATATGATTAAAGAGGGTTATACGGAAGAAGATGCCTTTAAAAAGGGAGTCATTTCAATAGGAGATTTGAGTGACCTAGTGGAAGAAATGCAATTGTATGGGCGAGATAAAATGAACCAATCTATTGATTCTAAAGAAGCGCAACATATTTCAACAAAAGGAATGATTGGTGGAATATTATTATTTCTATTTGGGGTCCCTCCACATGCCCATCAAGCTAACCAAGTAATTTAA	MKVELFINLKERISDMIKEGYTEEDAFKKGVISIGDLSDLVEEMQLYGRDKMNQSIDSKEAQHISTKGMIGGILLFLFGVPPHAHQANQVI				NA	NA	NA	NA	NA
AK009_04551	1044		COG3385	IS4 family transposase ISBth5	GTGTTTCAACTACCTGATCAATTCGCTACTGACTATCAAGGTTCAGGTGGGAGTAGTAATAAGGCAGGCGTGAAAATCCAATTAGAATACGATTTACTTAGTGGTCAATTTCTTAACGTGCAGCTTGGGCCAGGAAAGAATAATGATAAAACATATGGTACCATCTGCCTTGAAACCGTAGAAGCAGGCGATTTGTGTTTACGTGATCTTGGTTACTTCGATTTAGGAGACTTACAAACCATTCATGATAAAAAGGCTTACTATATCTCTCGGTTGAAGCTGAATACACGCATTTATACCAAGAACCCTGAACCCGAATACTTCAACAATGGTACGTTAAAAAAGCAGACAGAATACATCCAGCTTGATATGACACAAATGATGTCTGATCTAATCCCTGGTGAAACGATAGAAATCCCTGAGGCATACATTGGCCAAAATCAGAAACTTCCAGCACGTGTTATTATCCATCGTTTAACCGATAATCAAACGCAAACACGTCTTAAAAACCAAGCGATACGTGAAAAGAAGAAAGGCATTGTCATGAAGGATAAAAGTAAACGTTTAATGGGCATGAATGTATATATCACGAACACGTCGCTAGAAGAAGTACCGACGAACTACGTGCATCCATTATATTCACTTCGTTGGCAGATTGAAATTTTGTTTAAAACGTGGAAGTCATTCTTTGAAATTGATGAATGTCAAAATATAAAAAGAGAACGCCTAGAGTGCCATTTATATGGACAACTCATCGGCATTCTCCTCTGTTCTTCTACGATGTTTCAAATGCGTCAGCTTCTGCTTGAAAAGAAAAAGCAGGAGCTGAGTGAATACAAAGCGATTTATATGATTAAAGATTACTTTCCATTACTGTTTCAAGCGATAGCCGTTGGCACAGAAGAACTTTTAAAAATTCTGCATCGCCTTTATCAGCTGCTCAAAAAACACGGTCGTAAATGTCATAGGTATAAGAAGATGACCGTCTTTGATATTCTAGGGATTGTGTATAAAACGGCGGTGAAGCATAGACAAGCTGCCTAG	MFQLPDQFATDYQGSGGSSNKAGVKIQLEYDLLSGQFLNVQLGPGKNNDKTYGTICLETVEAGDLCLRDLGYFDLGDLQTIHDKKAYYISRLKLNTRIYTKNPEPEYFNNGTLKKQTEYIQLDMTQMMSDLIPGETIEIPEAYIGQNQKLPARVIIHRLTDNQTQTRLKNQAIREKKKGIVMKDKSKRLMGMNVYITNTSLEEVPTNYVHPLYSLRWQIEILFKTWKSFFEIDECQNIKRERLECHLYGQLIGILLCSSTMFQMRQLLLEKKKQELSEYKAIYMIKDYFPLLFQAIAVGTEELLKILHRLYQLLKKHGRKCHRYKKMTVFDILGIVYKTAVKHRQAA				NA	NA	NA	NA	NA
AK009_04552	132			hypothetical protein	ATGACTCTATCGATTCAAGATGAGTTTCATTTATTCGCTGAAGAATTACAGCGATATCTATCCCCAAGTATCCTTCAACAGCTCGCACAGGAGACGGGTTTCGTAAAACGTAAAAGTAAATATGGCGCATGA	MTLSIQDEFHLFAEELQRYLSPSILQQLAQETGFVKRKSKYGA	PGPT0030625_3449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
AK009_04553	597	comR_2		HTH-type transcriptional repressor ComR	TTGAATAAACGCGGCAGACCTCGAGAGTTTGATTATTCCTCAATTGTAGATGTTGCAATGAAAACATTTTGGTTAAGAGGATATGAAGGGTGTTCTACACAAGATTTATGCAGTGATACAGGACTTGGAAAAGGAAGTTTATACAATACTTTCGGTAGTAAACATGAACTGTATAAACAAGTATTAGAACGCTACCATGAAATTGGGATTAGGGAACAAAGGAAATTGTTAGATACTCCAATTCCAGTTAAAGAACGATTAAGTAATTTTTTTGAATGGGCATTGAAAGAAGACTTTGAGAATATTGATCAAAAAGGATGTTTATTGATTAATGCCAGTATAGAACGTGCTAAAAACGATTTAATGGTACAAGAAATTTTCTCGAAGCATGTTGAACTTCTTAAACAAGCTATTGAAGCAGTGATGGAGGAAGGATTGCAAACAGGTGAAATTTCAAAGAAGCAATCAGCTGAGGAATTAGCTAGTCTGCTTTTAAGCAGTTATTACGGATTCCGTGTTCTTAATGTATCGATGCAAAATCGGATGTTGTCTGAACAAGTTATCAAAGGAACAATGGAGTCTATTTGTGGCGCTTAG	MNKRGRPREFDYSSIVDVAMKTFWLRGYEGCSTQDLCSDTGLGKGSLYNTFGSKHELYKQVLERYHEIGIREQRKLLDTPIPVKERLSNFFEWALKEDFENIDQKGCLLINASIERAKNDLMVQEIFSKHVELLKQAIEAVMEEGLQTGEISKKQSAEELASLLLSSYYGFRVLNVSMQNRMLSEQVIKGTMESICGA				NA	NA	NA	NA	NA
AK009_04554	1143	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGCCATCGATTATTTATTTATTAGCTTTAGCAATCTTTTGTATGACTACATCAGAATTTATGGTTGCAGGTATGATGAATGAACTTGCTGTTGCATTCCAGGTTTCTGTATCATCTATTGGGTATTTAATTTCAGCTTATGCAGGAGCAATGGTAATAGGAGGCCCCATTTTAACTGCAATCCTCTTACGAATGCGCAGCAAACAAGCATTATTGTTTTTAATGTTCGTATTTTTAATTGGTCAATCGCTCGGAGCTATTGCTTGGAACTATGATATTATGATGATTTCACGTATTATAACTGGTATTGCTTCAGCTTCATCTTTTGGAGTTGCGATTTCCTTTTCTGCAACATTGGTTCACTCTGATTCAAGGGGAAAAGCTGCATCAATTGTACTTGCAGGTTTAATGTTCGCAACTGTATTAGGTTTACCTATAACAACCGTTGTTTCGCAATATTTTGGCTGGCGTATTAGTTTTGGGGCTGTTTCTGTTCTTGTGCTAGTATCAGGGATTATGATTCAATGGTTGTTACCATCATCTTCAAATAAAGAGCAATTGAATTGGAAAAACGAACTTCTGCGATTTAAGAATATTCATCTTTGGGCAGCGTACGTAACAAGTATGTTCATTATTGGTGGTACGTTTGCAGCATTTAGTTATTTCACTCCTATCTTTACAAATGTCACAGGCTTTTCAAGTGCAAGTATTCCATATTTACTTGCTCTCTATGGTAGTGCGACGGTAGTTGGGAATATAGTGATTGGCAAGTTTGCTGATAAATATACAATGAAAATACTGGTGAGCGGATTGATTATATTAATAGTAGCATTGTCTTTATTTGCTTTAGGTGCAGAGAATAAATACATTGCGGTTATTTCTACGATTTTTATTGGTTTAACTGGTGTAGCATTGAATCCGGCTATGGTTGCGAGAGTAATGAAAACAGCTAGTAATGGAACAATGATAAATACCGTTCATAGTTCTTTTATTACGCTGGGTATTGTTATTGGTTCCTCACTAGGTGGTCTTGGAATCAGTAAAGGATATGGTTTTGTATCTCCGCTATGGATTGGAGCTTGTTTAGCTATCCTTGGGGTAATTTCATTATTCCCATATTTACATAAAGGAAAGGCAGATTAA	MPSIIYLLALAIFCMTTSEFMVAGMMNELAVAFQVSVSSIGYLISAYAGAMVIGGPILTAILLRMRSKQALLFLMFVFLIGQSLGAIAWNYDIMMISRIITGIASASSFGVAISFSATLVHSDSRGKAASIVLAGLMFATVLGLPITTVVSQYFGWRISFGAVSVLVLVSGIMIQWLLPSSSNKEQLNWKNELLRFKNIHLWAAYVTSMFIIGGTFAAFSYFTPIFTNVTGFSSASIPYLLALYGSATVVGNIVIGKFADKYTMKILVSGLIILIVALSLFALGAENKYIAVISTIFIGLTGVALNPAMVARVMKTASNGTMINTVHSSFITLGIVIGSSLGGLGISKGYGFVSPLWIGACLAILGVISLFPYLHKGKAD	PGPT0028991_4263	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
AK009_04555	102			hypothetical protein	ATGTTTAAAATTTCTTTATATGGGGTCACCATACATGCCCATCAACTTAAGAAATTGGTAGTTCCCCAAAACGAAGAAATTTTCGTTCTGGGGGTATTATAA	MFKISLYGVTIHAHQLKKLVVPQNEEIFVLGVL				NA	NA	NA	NA	NA
AK009_04556	663		COG4122	Catechol O-methyltransferase	ATGCTGAATAACGTTTGGAAAGATGTAGATGAATATTTTATTGATAAACTAATACCATCTGATGTAACACTTGAAGGAGTATTACAAGCTAATAAAGAGGCTGGTATTCCAGAAATTGATGTCTCACCAACACAAGGTAAACTCCTGTACCTATTAGCTAAAATTAAAGGGGCTAAAAACATATTAGAAATCGGTACCCTAGGTGGATATAGTAGTATATGGCTTGCACGTGCACTCCCTGAAACTGGTAAAGTATATACACTTGAAATTGAACCGGAGTATGCAAAAATAGCTAAAAAAAATATTCAGAACGCAGGTTGTACAAGTAAAGTCGATGTCATAGTAGGAAAAGCATTAGAAACCTTACCTACCCTTAAAGAAAAAGGTACATTTTTTGACTTAATTTTTATTGATGCAGATAAACCCAATAATCCTCATTACTTAAAATGGGCATTAGAATTAGCTAATAATGGGGCACTGATAATCAGTGATAATGTCGTTCGAAACGGTGAAGTTATTGACGAAAGAAGTGATGATGACCGCGTACAAGGTGTACGTAAATTTATGGATATATTAGAAAAAGAACCTCGTATTGAATCTACAGCCATACAAACAGTTGGCAATAAAGGGTACGATGGTTTTGTGATAAGTATCGTAAAATAA	MLNNVWKDVDEYFIDKLIPSDVTLEGVLQANKEAGIPEIDVSPTQGKLLYLLAKIKGAKNILEIGTLGGYSSIWLARALPETGKVYTLEIEPEYAKIAKKNIQNAGCTSKVDVIVGKALETLPTLKEKGTFFDLIFIDADKPNNPHYLKWALELANNGALIISDNVVRNGEVIDERSDDDRVQGVRKFMDILEKEPRIESTAIQTVGNKGYDGFVISIVK				NA	NA	NA	NA	NA
AK009_04557	816	cmpR_2		HTH-type transcriptional activator CmpR	ATGTGTATTAGTCAACCTGCAGTTTCTAGCCAAATTAAAAAATTTGAACATGAAATTGGAGTTCCGTTATTTAAGCAACAGGGGCGAGGTGTTGTATTAACTGATTTCGGGATAGTATTAGCAGAAAAAGCAAAAAATCTTGTTACTCTTGAAGAGCATATTGAATCTTTTATTGAGGATTATCGACTTGCCAAGACAGGAACAATTCAAATTGTTGCTACGTATCTACCTGCAAATTTTTTAATACCTAAATGGGCAGCTACGTTTAAAAGTGCAAATGAAGATGTTAATTTAGTCATTACAACTGCCAATACGAAAGATGCATTTGAGCAGCTCATACATTATAAAGCCGATATTGCAATTTATGGGGGTGGAGTATCGGAAAGACCAAAGGAAGTAACGTGGGAAGAGTTATTTGAAGATGAACTTTGGTTTGTAGTATCTACTGCTCATCCGTTTGCTAATAAAACTATTTCGTTAGTGGAGATGGTTAAAGAATCATTTATTATGCGTGAAGAAGGAAGTTCGATGAGAGAACACCTTTTTTCTTTATGCCAAACTCACCAAGTAAGACCACCAAAAATCTCACTTCAATTTAGTGGGATTAATGAAACAATTCGTTCTGTAATGGCTGGATATGGTGCAAGTTTTATTTCATCGCTAGCTGTGAGTGAGTATGTAGATAATGGCCAATTGGCGAGAGTGTATGTACAGGATATACACATTAAACATAAAATCGCTATTTGCACAAGAAAAGCTGAGAAGCATAGCTTACTTGTGCAAAAATTCATAGAAATTGTTAAAAATAGTCTGTGA	MCISQPAVSSQIKKFEHEIGVPLFKQQGRGVVLTDFGIVLAEKAKNLVTLEEHIESFIEDYRLAKTGTIQIVATYLPANFLIPKWAATFKSANEDVNLVITTANTKDAFEQLIHYKADIAIYGGGVSERPKEVTWEELFEDELWFVVSTAHPFANKTISLVEMVKESFIMREEGSSMREHLFSLCQTHQVRPPKISLQFSGINETIRSVMAGYGASFISSLAVSEYVDNGQLARVYVQDIHIKHKIAICTRKAEKHSLLVQKFIEIVKNSL	PGPT0001160_1200	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK009_04558	276			hypothetical protein	ATGAACTCAAACACAAAACAGTTTATTTATGATATCCAGCAAAGAAAGAACAATTATATAGAAAATGCTCTAATAGCAATACAACACCCTCAAAAAGAGCAATCTGAACAAGTCATTCAAAATATAGTAGAGAAGATGGATATGATGATTAGTTTAGTTACTACTTACATGGCTATTGAATCTGAATCTACAAAAGAATTAAAAGAGCTTCAGGAAGAACTTATTCATGCTCAAGCATATATTCAAAAACGGAAATTTGAAGAAACACAGAGATAA	MNSNTKQFIYDIQQRKNNYIENALIAIQHPQKEQSEQVIQNIVEKMDMMISLVTTYMAIESESTKELKELQEELIHAQAYIQKRKFEETQR				NA	NA	NA	NA	NA
AK009_04559	234			hypothetical protein	ATGAGTTATTCGAAAGGAAATGACTTGAGTGAACAACATATGGTAAGTGTGCCTAATCCCTATGTATATCAGACATTACAATCAGTAATTGGTAAACATGTGGTTATTGAAACTGTAAGAGGCAATATAAGAGGTAAATTAAAGGATGTGAAACCAGATCATTTGCTCATTGAAGATACGGCGCCATATATTGTACGCATTCAACAAATTGTATGGATTATGCCAAAGCAATAA	MSYSKGNDLSEQHMVSVPNPYVYQTLQSVIGKHVVIETVRGNIRGKLKDVKPDHLLIEDTAPYIVRIQQIVWIMPKQ				NA	NA	NA	NA	NA
AK009_04560	234			hypothetical protein	ATGAATGCAAGGAAAGAACGCATAAAATACGAAAAGATGTCAAAGAATTATGACCGTATTTATTCAGTTTCGTTTATCCTACTAATTATACTTGTTTGTAGTAGTGTGATTATCATAGGAGCTACAGTAGGAAAATATGGAGTGTTTTTATTATTAGCAATTTTACTTAACGCACGTATTACGAAAGAATCTCAAAAAAAGTATGAGCACTATTCTAATAAAGGGCGTATTTAA	MNARKERIKYEKMSKNYDRIYSVSFILLIILVCSSVIIIGATVGKYGVFLLLAILLNARITKESQKKYEHYSNKGRI				NA	NA	NA	NA	NA
AK009_04561	165			hypothetical protein	ATGAAACGCATGCCAACGCAAGAATTAAGTAACGAGTTAAAGAAGCGGAAAGGGATTACTTCTATTAAGATTGAACCTTATGAAAAAATTGAAGTTGGTGGAATTGTTGTAGATGGACCGGCTGTTATTTTAATTAATCAAGAATACCTGAAAATTGTTGAATGA	MKRMPTQELSNELKKRKGITSIKIEPYEKIEVGGIVVDGPAVILINQEYLKIVE				NA	NA	NA	NA	NA
AK009_04563	462	carD_4	COG1329	RNA polymerase-binding transcription factor CarD	ATGTTTCAAATTGGCGATAACATTGTTTATCCAATGCACGGAGCAGGTATAATTGAAGCCATAGAAGAAAAAGAATTCTCAGGAAAAAAACAACAGTATTTTGTCATAAAAATGTCGATCAGTAATATGCAAGTCATGATTCCTACGGGTAAAATATTGAATTCGAATATACGCCCAGTTATTGATATACTTGCATTAAAGCACATTATACACATTTTTCACCATGAAGAATCCTGTAAATTACTGCCGTGGAAACAAAGACATAAAGTGAACACAGACAAAGTAAAAACGGGTGAAATACAAGAAGGTGCTGAAGTTGTACGGGATTTAATGCGTATGAAGAAAGAAAAAGCACTCAATACAAGCGAAAAAAAATTGTTGGATGATGCATATAGATTTTTGGTCAGTGAACTAGAATTAATTAAAGGAATCACTGAAAATCAAATAAAAAGTTTCTGTTAA	MFQIGDNIVYPMHGAGIIEAIEEKEFSGKKQQYFVIKMSISNMQVMIPTGKILNSNIRPVIDILALKHIIHIFHHEESCKLLPWKQRHKVNTDKVKTGEIQEGAEVVRDLMRMKKEKALNTSEKKLLDDAYRFLVSELELIKGITENQIKSFC	PGPT0014830_1506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
AK009_04564	900			hypothetical protein	ATGCTAACAAATGATTTAGATTTCCGATTAGAACCACGTTTAAAAGAACTATATGAACAACATAAAATTAGAGCGCAGAAGATAGACTGGGGTTATCATGAGTTTTTACCATGGGATAAGGGAATGGACTTTAAAAGAGTTCCTTGGGATGAAAGTCAAGTTACTCTTCCTACTGGTGTAATTACAGCCATTGAAACAGCTTTATTAACAGAAGTGAATTTACCTTGGTTTACCACGTATTTATCTGCGACTTTTAAAGGGTCCCTCTCTGTTATTACAGACTTTATTCATACTTGGACATCAGAAGAGGATCAACATTCGAATCTATTGGAGACATATTTACTACTCACTCGAAGTGTGAATCCTAAACGAATACATGAATTAAGAAAGTCAGTCGTTGAGGGGGGATTTGAACCTGATTTTCATACACCAATCGAAGCTATGACGTATACGACGCTACAAGAACTTGCAACGATGGTGTTTTACAATAATGTAGCTAAGGTTGCAAGTAAGCACGATCCAGATCTTGCTACATTATTACGTCGTCTTGCCAAAGATGAGACTCTTCATTATGCTTTTTATCGAGACGTCATTCGAACACATTTGGAATTAGAACCTAATTATTGCTATCATATTGCCAATGTAATTAAGAATTTTAAAATGCCAGGTGCCGTCATGCCTGATTTTGAAAATAGAATGGCTGTAATTGCAAAAGAAGCGAACTATGGACCACTACAATATTTTGATCAAGTACTTGATGTAGTGATTGAGTATTGGGGGTTAAAAGCCTTACGACCAATTGCACCTCTAGCTGAAAAAGCAAGAATTGAGATTTTGGAGTACCACACAAGATTGAAAAAAATAAGGGATCGATTTGGTCGTTTTCAAGGGAAAAACTGA	MLTNDLDFRLEPRLKELYEQHKIRAQKIDWGYHEFLPWDKGMDFKRVPWDESQVTLPTGVITAIETALLTEVNLPWFTTYLSATFKGSLSVITDFIHTWTSEEDQHSNLLETYLLLTRSVNPKRIHELRKSVVEGGFEPDFHTPIEAMTYTTLQELATMVFYNNVAKVASKHDPDLATLLRRLAKDETLHYAFYRDVIRTHLELEPNYCYHIANVIKNFKMPGAVMPDFENRMAVIAKEANYGPLQYFDQVLDVVIEYWGLKALRPIAPLAEKARIEILEYHTRLKKIRDRFGRFQGKN				NA	NA	NA	NA	NA
AK009_04565	144			hypothetical protein	ATGTTAGTTAGCCTAAATAAAGAAACTAACCTCAGTAAATTCAGAATAACATTCATGGATGAAGATACTCGTCATGTTATAAATCTTCGTGAGTGTAAAAAGGTGCATGCTTATAAAGAATCATTTTATAATAAAGATAGATAG	MLVSLNKETNLSKFRITFMDEDTRHVINLRECKKVHAYKESFYNKDR				NA	NA	NA	NA	NA
AK009_04566	300			hypothetical protein	ATGCAGTCAACAGAAGCGCATATGAAGGAAAAACAGCGTAGAGAAAAAATAGAAATTATATTTAGTCACAGGGTAAAAGGGGAGAGTTATTTTCACGGCTCTTCCTATCAATGGAAAAACATTGTATATCAAAATTATGATAGAATACAACAAAAAGAGATGGAAGTTGAACAACTCATTTCGAAAATGGAAAAAGCAGGGGTTCGTTTTACGCAGCACCGTTCACTCATATACTATCCCGTCATTGATTTTGTAAAATATATAGCTAAGATTTATAAGGAACCCCTCGAAATACAATAA	MQSTEAHMKEKQRREKIEIIFSHRVKGESYFHGSSYQWKNIVYQNYDRIQQKEMEVEQLISKMEKAGVRFTQHRSLIYYPVIDFVKYIAKIYKEPLEIQ				NA	NA	NA	NA	NA
AK009_04567	204	cspLA_1	COG1278	Cold shock-like protein CspLA	ATGGAAAAAGGTAATGTAAAATGGTTTAATGGCGAAAAAGGCTTCGGATTCATCGAACGTGAAGGTGGAGACGATGTATTCGTTCATTTCTCAGCGATTCAAGGCGAAGGTTACAAAACTTTAGAAGAAGGTCAAGCAGTGACTTTTGATTTAGAGCAAGGTCAACGTGGACCTCAAGCTTCAAACGTACGTAAAGCTTCTTAA	MEKGNVKWFNGEKGFGFIEREGGDDVFVHFSAIQGEGYKTLEEGQAVTFDLEQGQRGPQASNVRKAS	PGPT0014675_8292	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_04568	195			hypothetical protein	ATGATGAAACTACATTTGAATGCCTTCCGTTATAATGGTTTACTAGAATTTTATCATATAGAAGAAACTTACCCAAAGTGGAAAAATAGAGAAATAACAGGAGTTAAGTTTATGGAGCTATTAGAACTGAAGAAAAATACTTTTTATAAAATAGTGAAAGAATATGAAGAAAACAAAGTAGTAACTAACTTATAA	MMKLHLNAFRYNGLLEFYHIEETYPKWKNREITGVKFMELLELKKNTFYKIVKEYEENKVVTNL				NA	NA	NA	NA	NA
AK009_04569	771	yxdL_5	COG1136	ABC transporter ATP-binding protein YxdL	ATGAAAATAGTAAAAGTAAAAGATCTTAGTAAAGAATACACAGGAAAGGTTTCACATACAGCACTTTCAAATATTAATTTAACAATTACAGAAGGGGAATTTGTTGGGATCATGGGTCCTTCTGGTAGTGGGAAAACAACGTTATTGAATATGATTTCTACTATTGACTCGGCAACATCAGGCAGTGTATTCATTAATAGTAAAAATCCTTATCAACTCTCACCCAATGATTTGGCCGTATTTCGCAGACAGGAATTAGGATTCGTCTTTCAATCCTTTAACCTACTGCATACATTAACAGTAAAAGAGAATATGGTTCTTCCGCTCGTATTAGATGGCATGAATGTGAAGAGAATAAATAAACGAGTAGAATCTATTTCAAAAAAATTAGGAATCAGTGAAATTTTAAATAAACGAACATATGAAATATCAGGAGGACAAGCACAACGAACAGCGATTGCCCGTGCACTCATTCATGCTCCTAAATTGGTTCTTGCCGATGAACCAACAGGAAACTTAGATTCTAAAGCTTCCCAAGATGTAATGGAGATATTAACACATTTAAATAAAGAAGAAAAGGCAACAATGATGTTAGTAACACACGATCCGGTTGCTGCAAGTTACTGTGACCGCGTTATTTTTATTAAAGATGGACAATTATATAATGAAATTTTCTACAATGACAATCGTTCGTTATTTTATCAAAATATTATAGATAGTCTTTCTATGTTAGGCGGGAACAAAAATGACTTTTCGACAGCTCGCATTTAA	MKIVKVKDLSKEYTGKVSHTALSNINLTITEGEFVGIMGPSGSGKTTLLNMISTIDSATSGSVFINSKNPYQLSPNDLAVFRRQELGFVFQSFNLLHTLTVKENMVLPLVLDGMNVKRINKRVESISKKLGISEILNKRTYEISGGQAQRTAIARALIHAPKLVLADEPTGNLDSKASQDVMEILTHLNKEEKATMMLVTHDPVAASYCDRVIFIKDGQLYNEIFYNDNRSLFYQNIIDSLSMLGGNKNDFSTARI	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
AK009_04570	1944	yxdM_8		ABC transporter permease protein YxdM	ATGACTTTTCGACAGCTCGCATTTAATAATGTACTACGGAATAAACGAATATATCTTGGCCATTTTTTTAGTAGTACATTTGCGGTAATGATTTTCTTTACTTATGGGCTACTTGTCTTTCATCCGAATCTACAAGGCGAACTGACTCATGCAAGTACCATAATGAATGCATTTGGGAAAATAGGATTTCAAGTATCGTATTACTTAATTTTTGTTTTCTCTTTCTTATTTATTTTCTATTCTGTTAGCGCATTTTTAAAAAATAGAAAAAAAGAGTTTGGATTATTAATGTTACATGGAATGTCTCATCAACAGCTTCATCGATTAATTTTTTTCGAAAACATGTTGATTGGAATCCCTTCTATACTAGCAGGCATTGGGCTTGGGATGGTTTTTTCTAAATTATTTTTACTAGTTAGTGGGTCTTTATTGGCAATAGAGCATACGTTATCATTTTACTTCCCATTAAAGTCTATGGGAGTAACAGCTATTGCCTTTTCTGTTTTATTCCTACTCATTTCATTGTTTACATCAAAAATGGTGAAAATGAATGAGCTTGTAGAACTTATAAAATCAGAGGAAAAACCAAAACCTGAGCCGAAAGCGTCCGTTTGGATATCCTTGTTGGCAATGATCTTAATTGGAGCAGGTTACTCCGTCGTCCACTACTGTATCGTCGCGGTGCATTACGTGAGTAGTTTGAATCAATTATTCCTACTCGTAGGTGTAGGTGTCTTATTAATTGTATGTGGAACCTATTTTTTCTTTACTCAATTGTGTGTATATGTGATATACACTTTAAAAAATAGAGAAACTACATTCTTTAAAAGAACCAATCTCCTTGTTATTTCAGAATTAGCGTTCCGAATGAAAGATAATGCGAGAACGTTCTTTATCGTTACAATTATATCAGCTGTATCTTTTACAGCAATTGGAGTTTGTACGGCAATCGCAAATCCTGAATTGGCAAAAAATGAGACCCCGTATGCATTTACCTATCAATCGGATAAGGGGAATACACAAGAAAAATCCCATATTGAAGAGATAAAAAAGCAATTAGAAGAATCTGGATTTTCTTATGAACTTGTAGCAACAAAATTTAAAATGGCACAAAACGAGGTGTTAATTAATCTTTCTACGTATAATGAATACGCTAAAAAATTAGGGTATGAAATAGAAGAATTAACAAATGAAAATGAAAGTATCGATATACTACCAAAGAAAAATCACACAAGTGCAGAGCATCGAAAAACATTTGAATTAAAATATGATGAACTAGAAGTACCACTTTCTGTTCAAAAAACAATTTATATCCCAGAATTCGCCAAGATTTATAACCCCGTTATTGTCTCTGATGCTGTTTACAGTAAGGTTCTAAATGTTCAACAAGAAAGTGTACTCCGGGATTACACCATATACGGTTTTATCATAAAAAATTGGTCTGAAACAAGTGAAATCTCTTCAAAACTTATTAAGCTCATTGGTACGAGTCAAGATGATTTTTATGACTTTTCATCTTTGTATTTAAAATGGCTTGATCTGAAACAACAAAATGGATTACTTTCTATTTCAAGTGTATTGGTGGGGATTGTATTTTTCGTATTTACGTTAAGCTTTTTATATTTCCGTCTATTTACTGATTTAGAACGTGATCAAGAGCAATATCAGATGCTTTCAAAATTAGGTTTAAGCCAAAAAGAGTTAAAGCAAATTGTGACAAGACAAATGATGATTCTATTTTTCTTACCGATTGTAGTAGCTATGGTTCACAGTAGTTTTGCATTTCTAACTCTGCACCAATTAGGACAAACAGTAAGTAGGGAGCTGTCCGTTATTCAAAGCTCAATTGTTGTATTAGTAAGCTTTATTGGTATGCAAATTATTTATTTCCTTATTATTAGAAATCACTATATAAAACGCATATGTACAAAAATATATTCATAA	MTFRQLAFNNVLRNKRIYLGHFFSSTFAVMIFFTYGLLVFHPNLQGELTHASTIMNAFGKIGFQVSYYLIFVFSFLFIFYSVSAFLKNRKKEFGLLMLHGMSHQQLHRLIFFENMLIGIPSILAGIGLGMVFSKLFLLVSGSLLAIEHTLSFYFPLKSMGVTAIAFSVLFLLISLFTSKMVKMNELVELIKSEEKPKPEPKASVWISLLAMILIGAGYSVVHYCIVAVHYVSSLNQLFLLVGVGVLLIVCGTYFFFTQLCVYVIYTLKNRETTFFKRTNLLVISELAFRMKDNARTFFIVTIISAVSFTAIGVCTAIANPELAKNETPYAFTYQSDKGNTQEKSHIEEIKKQLEESGFSYELVATKFKMAQNEVLINLSTYNEYAKKLGYEIEELTNENESIDILPKKNHTSAEHRKTFELKYDELEVPLSVQKTIYIPEFAKIYNPVIVSDAVYSKVLNVQQESVLRDYTIYGFIIKNWSETSEISSKLIKLIGTSQDDFYDFSSLYLKWLDLKQQNGLLSISSVLVGIVFFVFTLSFLYFRLFTDLERDQEQYQMLSKLGLSQKELKQIVTRQMMILFFLPIVVAMVHSSFAFLTLHQLGQTVSRELSVIQSSIVVLVSFIGMQIIYFLIIRNHYIKRICTKIYS	PGPT0027860_373	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
AK009_04571	1215			hypothetical protein	ATGAGTAAGAGAATAAACGAATTAGATTCAATACGAGGACTAGCGGCTATCACAGTGGTATTTGGACACTTTTGTTTAATGCTACCATCGTTGCCTAATTCTATTAAATTTTCCCCGCTTAGGTTTTTATGGGCTGGTGGGGAAGCAGTAATCGTTTTTTATGTACTCAGTGGTTTTGTGCTATCTATGGCACTCTATCATTCAAAAACAAATTATTGGGGATATTTAATTAAACGATTTGTACGAATCTATATCCCTTATTATTTCTGGATATTCATCACCTTTGCTTTATTTATTTTGTTTTCACCATATGAAGTTACGGGACTACGAGATTGGTTCTATGATAAGTGGCAAGGGCCAATAACAAACTTAGATATTATGAATCACTTTGTACTTCTTAATAACTTTTTTACGGATAATTATAATCCGGTTATCTGGTCATTAGCTCAAGAAATGCGTATATCTATCGTGTTTCCGTTGTTATTCCTTCTGTTTTATAAACTGAGTTGGAAGAAAACGATACTGTTTGCTATGAGCTTTTCTTTAATTGGTATTGTCCTTAACATGTTGCATATTGGGAAAGCTGAGGGGTTTTATAATGGTTATGCCGATACATTGCATTTCACATCTATGTTTATGGTTGGAATGCTACTTTTTAAACATCAGGAAGAACTTACTCAATTATATAGAAGTATGAAAAACTTAAACAGAAAACTTCTTATCGCATTAGGGGTCTTTCTATATCTATATTCCATTATGATTTATGGGCTTTCTAGTAATGCTACTACTTTCTTATTAAAAGATTGGGGTGTCGTAATTGGTGTTAGTATAATAATCATTATGGCAATGAATAACCTAAAGGTAAAAGCTATTTTAAATAGGGGTGTATTTGTATATTTAGGGGAAATTTCATATAGTATCTATTTATGTCATTTTCCAATCACGATGGTACTCTTTAAACTTTTGTATGCAAAGATACCCACCCTTTTTCTTCTTATCTTATGTATTACAGCGACAATACTTTGTTCTATATTATCGTATCATTTAATTGAAAAGAAATGTATCAATTGGGCAAAACAAAGAACAGCAAAGTTCAAAAAAAAGTGTGACATTTGTAGGGGTACGGAAACGATTCAAAGAATAACCCGCTTTGAAAAACCCTCCAATTCAGGCGGCTGTTTTTCTTTAAATTGCTATATTAAACTTTGCACTTAA	MSKRINELDSIRGLAAITVVFGHFCLMLPSLPNSIKFSPLRFLWAGGEAVIVFYVLSGFVLSMALYHSKTNYWGYLIKRFVRIYIPYYFWIFITFALFILFSPYEVTGLRDWFYDKWQGPITNLDIMNHFVLLNNFFTDNYNPVIWSLAQEMRISIVFPLLFLLFYKLSWKKTILFAMSFSLIGIVLNMLHIGKAEGFYNGYADTLHFTSMFMVGMLLFKHQEELTQLYRSMKNLNRKLLIALGVFLYLYSIMIYGLSSNATTFLLKDWGVVIGVSIIIIMAMNNLKVKAILNRGVFVYLGEISYSIYLCHFPITMVLFKLLYAKIPTLFLLILCITATILCSILSYHLIEKKCINWAKQRTAKFKKKCDICRGTETIQRITRFEKPSNSGGCFSLNCYIKLCT				NA	NA	NA	NA	NA
AK009_04572	657			hypothetical protein	ATGAAGGATACGATTAAAACACGGTTTATTATATTATTCTATATTGGTATTTTAGGTTTAGGAACCATGCTTGGAATATTTTATGTTAAGCATAAAAGCAATATTCAAAAAAAACAAGTGATTGCTGCCGAAAAACGTTTATTGCAATATGAGCTCACCTTGAAAAAAGAATTAGAAAAATATAATTTAGGAGAGAAAACAGCAGTTTTATTAGGAATTATGTACCAAGAGAGTAGAGGTGAGGGAAACGACCCTATGCAGTCTTCTGAATCACTTGGATTAAAGCCAAATGAAATTCAAGAGACAAGCCTGAGCATTAAACAAGGGGTAAAACACCTTGCTCAAATGTACAAATATGGAACGGAAAAAGATGTTAGCATGGATACAATTATTCAAAGCTATAATATGGGACCAGGGTATATTGATTTTATTGCGAGTCAAGAAGTTAAACAACACTCGGAAGATTCGGCCAAAAAATTTTCTAAGATGAAAGTTGATCAAAATCCAGAGATGTATACTTGTGGTGGAAATAAAAATAATTTTAGGTATCCATATTGTTATGGTGATTTCACATATGCAACAAAGGTGAATGAAAAAGCAAAACTTATTGAAGAACTTCTCCGAAAAAATTCGAAATATAGTTCAGAAAATTTTTAA	MKDTIKTRFIILFYIGILGLGTMLGIFYVKHKSNIQKKQVIAAEKRLLQYELTLKKELEKYNLGEKTAVLLGIMYQESRGEGNDPMQSSESLGLKPNEIQETSLSIKQGVKHLAQMYKYGTEKDVSMDTIIQSYNMGPGYIDFIASQEVKQHSEDSAKKFSKMKVDQNPEMYTCGGNKNNFRYPYCYGDFTYATKVNEKAKLIEELLRKNSKYSSENF	PGPT0023801_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023801-yocA-NA	NA	NA
AK009_04573	1185	rodA_4	COG0772	Peptidoglycan glycosyltransferase RodA	ATGGTGGGGAAAATAGTTTTTTTAAAAAAATTAGATAAGAAACTAATCTTTATTTTATTCATATTATGTATCACCAGTATTGTTGCAATATACAGTAGTCAGCAAACCGGGCAATATGGTAACCAAAATTTTGCTGTGAAACAAATAGTAAATTACGCCATAGGTTTTGTTCTATTATTAATTGTTGCCAATATCGATTTAGATCAATTACAAAAATTAGCTTGGCCGATTTATATTGTGGGGTTCATCTCAATTATTATTTTAAAGGTATTACCAGTGTCAAGTTTTACACCTGAAATATTAGGGGCAAAAAGATGGTTTAGATTTCCAATTATTGGTGCTATTCAACCAGCTGAATTTTTTAAGCTTGCCTTAATTCTTCTGGCCGCAAGTTTAGTCGTAAAACATAATGCACAGTATATGGCACGGACATTTCAAACTGATTTACTTTTGATTGGTAAAATATGTTTGATAACTATTCCACCTGCGTTACTTGTATATAGTCAACCCGATACGGGAATGGTGTTCCTATATATAGCAGCCATTGCATGCATTATATTTATGTCAGGAATTCAAAAAAAGTTAATCATACTATTTGCAGGGATTCCGATGACTGTATTGTCTGCTTTAATATTTATATACGTAAAATATCCAGATATTTTCTTCAATAAGTTAGTTACTTTATTAAAGCCCCACCAACAATCGCGAATTTTAGGCTGGTTAGATCCATTTCAGTATACAGATCAGGGATATCAAACTCAACAAGCACTTTTAGCAGTAGGTAGTGGAGGGATAGAAGGAAAAGGCTTCAGTTCTGGAAATGTTTATATTCCAGAAAAACATACTGATTTTATTTTTGCCACAATTGCCGAAGAAGGCGGTTTTATAGTTGCCACTTTTATAATATGTATATTCTTCTTAATGCTTTCCCGAATACTTATAATTGGTAATTCCGCAGATAATTTATTCGGTACCTTACTATGCGCAGGAATTGTAGGCGTTCTAATGTTACAATTTTTTCAAAATATCGGTATGATTGTGGGATTAATGCCTGTCAAAGGTATTGCACTTCCATTTTTATCATATGGCGGAAGCTCTTTATTTTCGAACATGCTAATGATGGGGCTTATTCTATCCACACGAAAAACATACAAAGAATATATGTTTTCAGTGAATCAGCACTAA	MVGKIVFLKKLDKKLIFILFILCITSIVAIYSSQQTGQYGNQNFAVKQIVNYAIGFVLLLIVANIDLDQLQKLAWPIYIVGFISIIILKVLPVSSFTPEILGAKRWFRFPIIGAIQPAEFFKLALILLAASLVVKHNAQYMARTFQTDLLLIGKICLITIPPALLVYSQPDTGMVFLYIAAIACIIFMSGIQKKLIILFAGIPMTVLSALIFIYVKYPDIFFNKLVTLLKPHQQSRILGWLDPFQYTDQGYQTQQALLAVGSGGIEGKGFSSGNVYIPEKHTDFIFATIAEEGGFIVATFIICIFFLMLSRILIIGNSADNLFGTLLCAGIVGVLMLQFFQNIGMIVGLMPVKGIALPFLSYGGSSLFSNMLMMGLILSTRKTYKEYMFSVNQH				NA	NA	NA	NA	NA
AK009_04574	231			IS6 family transposase ISBwe2	ATGCAACTTAGACAACAAAAGTACTTAAATAATATAGTAGAACAAGATCATCACTTTATAAAGAAGCGTATCCGTTCTATGTTGAGGCTCAAATCTTTTGACACAGCTATATCTATTCTTTCTGGAGTAGAAGCCATGCATATGATTAAAAAAGAACAGATTAATTTACGGAACCAGTCTATCCAAAATCAGAAAGAATTCGTCCATCAATTGTTTGGACTTGTAGCATAA	MQLRQQKYLNNIVEQDHHFIKKRIRSMLRLKSFDTAISILSGVEAMHMIKKEQINLRNQSIQNQKEFVHQLFGLVA	PGPT0030615_259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_04575	498			IS6 family transposase ISBwe2	ATGAAAAAGGAAAGTTTGTTCAAATGGAAGCATTATCAGCCTGATTTCATTTTGTTAACGGTAAGATGGTACCTACGGTATAACCTCAGTTTTCGTGAGTTGGTGGAAATGATGAAGGAACGGGGCTTATCTATTTCTCATACCACGATTATGCGTTGGGTTCATCAGTATGGCCCTGAATTGGACAAACGAATTCGTCGTCACCTGAAGCAAACCAATGATTCTTGGAGAGTTGATGAAACATATATAAAAGTTCAAGGGCAATGGATGTACCTGTACCGTGCTGTTGATTCGAAAGGAAACACAATCGATTTTTGTCTAAGCAAAACAAGAGACCAAAAGGCTGCAAAGCACTTTTTCAAGAAAGCTTTGCGGTCTTTTCATGTTTCAAAGCCACGTGTGATAACAGTCGATAAGAATCCGGCTTATCCTATAGCAATTGAAGAGTTGAAAAAAGCATACCCGATGGTATGCAACTTAGACAACAAAAGTACTTAA	MKKESLFKWKHYQPDFILLTVRWYLRYNLSFRELVEMMKERGLSISHTTIMRWVHQYGPELDKRIRRHLKQTNDSWRVDETYIKVQGQWMYLYRAVDSKGNTIDFCLSKTRDQKAAKHFFKKALRSFHVSKPRVITVDKNPAYPIAIEELKKAYPMVCNLDNKST	PGPT0030615_261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_04576	2241			hypothetical protein	ATGAAAAGGGGACAGAAACGAAAAACACAAAATTTAATGATGGTAACCGCCACATTATCTATGTTTACTATTGGAATAACGCCCTCATTAGAAATCTTTGCGGAAGAACAAGCGCAGCAACAAAAAGTATCCGTGTTAAAAAATGAGGAATCAGTGAAAGTGGAAAATCGGGTGTTTACTGTTCAAGGGAAAGGTGACGTTAAAGCACTGTCGCATCTGGATAGAAGAGCTGCTTCTTTTAGTCCTTTTGAACCTACGGGTTTGTATGCGAAACCAAATGAAGAAATTACTATTGATGTAGAAGGAAATAATGAGATTACCGCATATATTGGAGCGTTTTCATACAATAGAAATTCACAAGGAGAAGAGTTAGTAAAATCATTTACTCTAAAACCTGGTACAAATACGATTCGATACGAAGGCGGAGGAATGATATATTTCTATAACAAACAAGAAAATGGGACAATTCGAACAACTATTCAAAAGGGAGGTACCCCCGTTCCTTACTTTGAACTTGGAAAACATACAAAACAAGATTTAATTGATATGCTTAATCAAAATCCGGATTCATTTGCAGTCGAATTAAAAGGAGAGCGTGTATTGATTACTGCTACTCCGGAACGTGTAAAAAAATACTTGCTAGGTTCTAATACAGACCCGGCACAATTATTAAAAAAAATGGATGAAGCCACTAGGATTCAAGATCGAATGTCTGGATTAACGGAAGAACAAGTAGATAAACATTATATTCATTATGTAGAAGATAAAGATAATAAATCTGGCTTTATGTACGCAACTGAATATAGAACAGCTTATGTAGGAGATGCCATTCAATATGTATTAGATATCAATAAATTTACTACTGATGGATGGGGACCTTGGCATGAAGCTGGACATTTGAGACAACAGGTTCCTTGGAGATTCTATAATATGGGCGAGGTTCAAAATAATATTTACAGTCTCGCTGTAGAAAAAGCATTTGGGCAACCATCCCGTTTAGAAGAAGAAGGGGTTTATCCTAAGGTATCTAGATATTTAGTACAAGAAAATAAGAATTATGATGAAATTAGTGATGTTTTTGTAAAACTTGCTATGCTATGGCAATTACATCTAGCGTATGGAGAAGAATTTTATCCGAAGTTGCATCAGCTGTATAGAGACATGCCTTCAAATGAGATTCCACAAACTGATGAAACGAAAAAACAATTATTTATGATTACAGCATCAAAAGCAGCAAAACAAAATTTAATTCCGTTTTTTGAGAAATGGGGATTACGCCCAAATAATGATACAATCCAAAAAATAGCGTCACTAGGGTATCAAAATTTAACGGCTGAAATTTGGGAAAGTACAGATTCTAATCCGATTAAACCGGATACACCGTATTCTTCGAATGTTTTAGAAGGAAGCCAGTTTGCATGGTCGCTGAAAGGGATTGGGGATTTTGAATTCGCAAAAGTAAATTTAAATAAATCAACAGAAGAAATGCAAATTGATCTAAGAGCAGGTGTACCACATAACTACTTTGATAGTACATATGCAAGTATTAAAGTGCAAAACACATCAGGTAAAGTGGTCTATAACAAAGAGGTTTATGGGAATAAACAGCAAAATGCTGAGCAAGCAAAATTCCAGGTAAAAGTAGGTGATTTTATTGAGTTCACACATTTAGAAGGTGCGGATAGAGCTATTATTACAAATATGGAAAAAAACATTCAGGAAAGTTTTGGGAATAAAGCGGTCTATGAGATTACAAAAGAGGGATTGAAGAAAGTAGATAAAATTATTAATCCGAAACCAGATACAGAAGCTCCCACACAGCCACAAGGATTATATGCAAGTAACGTTACTTCTACCAGTGTAGAGCTAAAATGGAATTCTTCTACAGATAATGTAGGTGTAAAAGAATATCAGGTATTACGTGATGGACAACTAATTCAAACGGTACAAGGAACGACGTTTACTGATCAAAACTTAACAGCTAACAAGGAATATAAATATGCAGTGAAGGCTGTAGATGCAGCTGGAAATACATCAATTCAAAGTAACATTCTTCCGGTAAAAACAAAAGATCAAAATGTATCTTATGAAAAATGGAATCCGAAGAAGGCATATACAAAGGGTGACAAAGTAGAACATCAAGGGACAGTGTATGAAGCTGTTCAAAATCATCAAGGAAATGGTGATCCGAATTGGATATTCGCTTTATCGTTATGGAAACCGCTTATTTTGAATTTTTAA	MKRGQKRKTQNLMMVTATLSMFTIGITPSLEIFAEEQAQQQKVSVLKNEESVKVENRVFTVQGKGDVKALSHLDRRAASFSPFEPTGLYAKPNEEITIDVEGNNEITAYIGAFSYNRNSQGEELVKSFTLKPGTNTIRYEGGGMIYFYNKQENGTIRTTIQKGGTPVPYFELGKHTKQDLIDMLNQNPDSFAVELKGERVLITATPERVKKYLLGSNTDPAQLLKKMDEATRIQDRMSGLTEEQVDKHYIHYVEDKDNKSGFMYATEYRTAYVGDAIQYVLDINKFTTDGWGPWHEAGHLRQQVPWRFYNMGEVQNNIYSLAVEKAFGQPSRLEEEGVYPKVSRYLVQENKNYDEISDVFVKLAMLWQLHLAYGEEFYPKLHQLYRDMPSNEIPQTDETKKQLFMITASKAAKQNLIPFFEKWGLRPNNDTIQKIASLGYQNLTAEIWESTDSNPIKPDTPYSSNVLEGSQFAWSLKGIGDFEFAKVNLNKSTEEMQIDLRAGVPHNYFDSTYASIKVQNTSGKVVYNKEVYGNKQQNAEQAKFQVKVGDFIEFTHLEGADRAIITNMEKNIQESFGNKAVYEITKEGLKKVDKIINPKPDTEAPTQPQGLYASNVTSTSVELKWNSSTDNVGVKEYQVLRDGQLIQTVQGTTFTDQNLTANKEYKYAVKAVDAAGNTSIQSNILPVKTKDQNVSYEKWNPKKAYTKGDKVEHQGTVYEAVQNHQGNGDPNWIFALSLWKPLILNF				NA	NA	NA	NA	NA
AK009_04577	2292			hypothetical protein	ATGCAGCAGTCAAAGGTCAAAAACAAAAAAAGGGAGGGAATTATTTTGAAAAGGATTTCATCTTTATTATTAACTATGCCGATTATTTTAGGAAGTATTGCTACGATTCCGCATACAAAGGTTTCAGCTGAAACAATGTCATTCAATCAAGAAACATTCACTTTAGAAACATTGAATCAACAGACAGATCAAGCCATTGCAAATGGTAATTTTGAAGCACATTTGAATAATCTCACAGCATATTTGAATGGAAATGTCGGGGGTATGACTGAAGAGAACCTGAAAAAGAAGCTTGCAGACCCAGTATTTGCAGCAGCTTTGGCTCAGTGGCAATTCATATCACAAACAGGTGCTGCAACAATGGCTACATTTGCTAAAAAAGATGCTGACCATCAGAATTTTCTTGGCTGGGCTATGAAAAATACAGATGTGATGAATACCTATCTTGAAGGTGGTAGTCCAACTGGAAAAAATCCTGTAAATGCACTTGAGATATGGAATACAATCTGGAATGCGGATGCAAATTCTCACGAAGGATTGTATTTAAAATTAGCGATAGCTACATCGTTAGCTCATGCTGAACCTATAAAATATTGGACAAACAATCAACCTATTAATCCATTAACAAGGTACCAACATTATAAATCAGCAGATCAAAATAATGAGTTACTTCCTTGCTTTAGAACATATGATGTTTGGCATTTAAGATTAGTAGTGAATACTTGGTCACCAGAAGAAGATTTAACTTGGGCAAGAAATATGATTAATACGGAACATCCAGAACTTAAAAATCAAGATAAGGTAGGGGAAAGTGCATATTTGGTTAATTATGTAACCCATAACAAAGATGGAGTTAGCATTCACGCTGGAAATGATGCATTCTACGGTTTAGGTTGGAATCTTTCTTCCATTTACAGATTTGGCGGGGTATGCGGTAATATTTCGAAGTTTGGTACGCAAGTAAGTCAAGCATTTGGAGTGGCAGCTATGCCTGTTGGACAACCTGGACATTGTGCACTTATATGGAATAACAAGCCATCTTCTTGGAATTTAGGAAACGATATATCTGGATGGGGTGGATCGAGCCGTCATGATGCAACTGTTATTCCTTGGTCAGATAATAGCCCTACAAATCAAGTGCCGTATATGCTACTATTTGAAAATGCTGAACGTGACCCAGTAAAACTAGATCAATCAGAGCGATTACGCTGGTTAGCGAAAGCGATGACTTCAGCAGATAATAAAATTGCAATTTATAAAATATCCACCAATATTTTACCAATCAATTTTTTAGTATGGGAAGATTACGTTTCTCTTATGTTACAAAATCCAAATGTAACAGATGCTGAGTGGAGAGAATTAAATAACAGTATCATTTCTGCTTTTGCGAATGAACAGCGACCGTTGAAGGATCTTCTTACTCAAATAAAAAGCCATGTACCAAATGCAGATGATATCTTGGAAGGAAAACAGTTTTCATGGTCACTGAAAGGGATTGGAGATTTTGAATTCGCAAAAGTAAATTTAAATAAATCAACAGAAGAAATGCAAATTGATCTAAAAGCAGGTGTACCACATAACTACTTTGATAGTACATATGCAAGTATTAAAGTGCAAAACACATCAGGTAAAGTGGTATATAATAAGGAAGTTAATGGGAAAAATCAACAAAATGCTGAGCAAGCCAAAGTTTCGGTAAAAGTAGGCGACTTTATTGAATTCACACATTTAGAAGGTGCGAACAGAGCTATTATCAAAAATATGGAAAAGAACATTCAGGAAAGCTTTGGGAATAAAGCAGTCTATGAGATTACAAAAGAGGGATTGAAGAAAGTAGATAACATTGTTAATCCGAAACCAGATACAGAAGCTCCCACACAGCCACAAGGATTATATGCAAGTAACCTTACTTCTAACAGTGTAGAGCTAAAATGGAATCCTTCTACAGATAATGTAGGTATAAAAGAATATCAGGTACTACGCGATGGACAATTGATTCAAACGGTACAAGGAACGACATTTACTGATCAAAACTTAACAGCTAATAAGGAATATAAATATGCAGTGAAGGCTGTAGATGCAGCTGGAAATACATCAATTCAAAGTAACATTCTTCTGGTAAAAACAAAAGATCAAAATGTATCTTATGAAAAATGGGATTCGAGGAAGGCATATACAAAGGGAGATAAAGTAGAACATCAAGGGAAAGTGTATGAAGCGGTTCAAAATCATCAAGGAAATGGTGACCCAAATTGGATATTCGCTTTGGCATTATGGAATCCATTGACATAG	MQQSKVKNKKREGIILKRISSLLLTMPIILGSIATIPHTKVSAETMSFNQETFTLETLNQQTDQAIANGNFEAHLNNLTAYLNGNVGGMTEENLKKKLADPVFAAALAQWQFISQTGAATMATFAKKDADHQNFLGWAMKNTDVMNTYLEGGSPTGKNPVNALEIWNTIWNADANSHEGLYLKLAIATSLAHAEPIKYWTNNQPINPLTRYQHYKSADQNNELLPCFRTYDVWHLRLVVNTWSPEEDLTWARNMINTEHPELKNQDKVGESAYLVNYVTHNKDGVSIHAGNDAFYGLGWNLSSIYRFGGVCGNISKFGTQVSQAFGVAAMPVGQPGHCALIWNNKPSSWNLGNDISGWGGSSRHDATVIPWSDNSPTNQVPYMLLFENAERDPVKLDQSERLRWLAKAMTSADNKIAIYKISTNILPINFLVWEDYVSLMLQNPNVTDAEWRELNNSIISAFANEQRPLKDLLTQIKSHVPNADDILEGKQFSWSLKGIGDFEFAKVNLNKSTEEMQIDLKAGVPHNYFDSTYASIKVQNTSGKVVYNKEVNGKNQQNAEQAKVSVKVGDFIEFTHLEGANRAIIKNMEKNIQESFGNKAVYEITKEGLKKVDNIVNPKPDTEAPTQPQGLYASNLTSNSVELKWNPSTDNVGIKEYQVLRDGQLIQTVQGTTFTDQNLTANKEYKYAVKAVDAAGNTSIQSNILLVKTKDQNVSYEKWDSRKAYTKGDKVEHQGKVYEAVQNHQGNGDPNWIFALALWNPLT				NA	NA	NA	NA	NA
AK009_04578	204			hypothetical protein	ATGATTAAAACATTATTAGCAGGGACACTTTTAAGTACAGGATTATTAGCGGGAGGTGCAGTAGGTGCAGAAGATGTAAAAACGGATGAAAAATTACAAGTTGTTGTTGCAGATAAAAGCGGAAATATGACACATAAAGAAATTGATAAAAGTGAAATTCCGAAAGATGCAGAACCAGCAACTCCTAAAGAAGATGTAAAATAA	MIKTLLAGTLLSTGLLAGGAVGAEDVKTDEKLQVVVADKSGNMTHKEIDKSEIPKDAEPATPKEDVK				NA	NA	NA	NA	NA
AK009_04579	534	sigM_2	COG1595	ECF RNA polymerase sigma factor SigM	ATGGAACAAAAGTTTATTGAAAAATGTAATCATGATGAGCTGGACTATGTTATAAAAGACTATTGGCAAGATGTATGGAATTATTCATTTATTATTACGAAAGATCCACATTTATCAGATGACATCACACAAGATGTCTTTATAAAGGTTTTTAAACATTGGCACTTGTTTCGAAAGGAGTCATCTATTAAAACGTGGATATTAAAAATCACAAGAAATACGGCAATAAACTATTTGAAATCCGCTTATTTTAAAAGGATATCTTTAATGGGATTTTTTAGTGACGATAAACAATCTCCATCGGCAGAACAAGAATTTTTTAAGCAAGAGGAAATGAATGAAGTGTGGGATGTAGTATTAAAACTACCTAAAAAATACCGTGAAATACTAATATTGGACGCGAAATATGGATTATCTTATGAAGAAATGGCTGAAACATTAGGTGTATCAATTGGAACAGTCAAATCTAGATTAAGCCGAGCGAGAAGTAAAGTTTCAAAATTAATAGGGGAGGGTAGAAGTGATGAACAGTAA	MEQKFIEKCNHDELDYVIKDYWQDVWNYSFIITKDPHLSDDITQDVFIKVFKHWHLFRKESSIKTWILKITRNTAINYLKSAYFKRISLMGFFSDDKQSPSAEQEFFKQEEMNEVWDVVLKLPKKYREILILDAKYGLSYEEMAETLGVSIGTVKSRLSRARSKVSKLIGEGRSDEQ	PGPT0014960_9622	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_04580	828			hypothetical protein	ATGAACAGTAAAAATAATCCTGACTGGTATAGTAAAATAAAAAACGGCCCAATGGGGCATCGGAAAGATGAAGAAGAATTTATTTATAGAATAAAGCAATCTATATACCTAAATAGTGAAGTAGATTCTATAACATATAAGAAACCATCTCGTAAAAAAGCATTGCCCATTGTAGTTGTGTTGGTTTGTACAATGTTATTTTTTATTGTTCAACAACCTGGGCTTGATGATAATAAATCGCCGGTACAAAGTAGTACACAAATTAAGCTGAAAACAAAAGATGAGTCTGCTCAAGAGCTATCATTAAAACAGTTTATGAATGATTTATCTCGAAGTACAAATTCAAAAAATGAAAATGACTTGTACAAAGCGTTAAATGATGAAGTTCTATTTAAAGGGAAGAGTTATAAGAAGGATGAATTGAAATTTGATGAAGATTTGTTTCATGAGTTGCAAGTCGCTCTTACAATGGGGGGAGAATTTGCAAATGATACAAAAAAGGTATATAAAGTACCAAGTGGAATGACAGACAGTAACCAATCAAAGCGAGAACATTTTATATATGTAACTGTTACTGGAAATAAAACGAAAATTTTAGCTGAACCAAAACGAGAATCACAAGTTTTATATGAAGTATCTAATGAGGTGGTAAAAGCTTGGATTCCAGAAAAAGTGCAGAATGATGGATATATAAAAATATCGACATTTAACGGCAATACTGGGTATGTACAAAAAGAGTATGTTTTAACGGATATTAAATATTCATTCTTGTTCGAAAAGGATCATGAAGGTGTATGGAAAATAATAGGTGTAGATTCTATATGGTAA	MNSKNNPDWYSKIKNGPMGHRKDEEEFIYRIKQSIYLNSEVDSITYKKPSRKKALPIVVVLVCTMLFFIVQQPGLDDNKSPVQSSTQIKLKTKDESAQELSLKQFMNDLSRSTNSKNENDLYKALNDEVLFKGKSYKKDELKFDEDLFHELQVALTMGGEFANDTKKVYKVPSGMTDSNQSKREHFIYVTVTGNKTKILAEPKRESQVLYEVSNEVVKAWIPEKVQNDGYIKISTFNGNTGYVQKEYVLTDIKYSFLFEKDHEGVWKIIGVDSIW				NA	NA	NA	NA	NA
AK009_04581	1761	mrdA_2	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGTTACATACAAAAAGATGGAGATTTTTTGCGGTTCTTTCTATTGTAGGTTTGATTTTACTAATTTTATTAAAAATCAAATTCATTTCAATTACTATCGCAACTTCTTCAGCTGAAAGAGGAAAGATTTTTGATCAAAATGGTGTAATACTAGCTACAAATAAGAAAGTTAAGTCTCTATATTGCACTTCTAATGATGAAAAGCTATCGAAACAAGATATATCAAACACATTAGCTTTTTTTAATCAATTTTCAAGCGAGTTTCAACATGATATTTCTACAGAGAACATAAAATCTCAATTACAACAATCTTGTAAAAAGCAGACTATGAATGATATACCGTTATACTCTGATATAACTGAGAATGAACTTGCATTCATAAACAAAAACAAACCCAATAATGTAATAATTAAAGATGAATGGATTCGATATTATCCTAAACACGAAATTGGTTCACAGGTAATTGGGTATGTAGAAAATGACCTTAATTCAAAGCATATGGCTGTTGGAAAAAGCGGGATTGAGCTGCAATATGAAAATGATTTAAAAGGAAAACCAGGTAAAACTCTTATTTTTAAATTGAATAATAAAAAGTTCTTATGGAACATTCAAAACGTACAAAAAGGTAAAGATGTACGGCTAGCTTTAGACTCTGAGTTGCAGCAAAAGGCAGAAGAAGCATTAAGATCGCAAATTAAGAAAACACCTGATGCTAAAGCTGGTTATGCTGTAGTGAGCGATGCAAAAACTGGCGCGATTTTAACTATGGTCAACTCGGCAGTTTTTGATCCAAATATATTAAATACACATGTATCTTCTAGAAAAGAAAATATTAAATCTCTTTCGCAAAATAAAGCAATTCAAAAATTAAAGTATGGTGAATCTTATGTAAATATGGCTTCTACTATAAAACCACTTACTATTTTAATTGGATTAAACGAAAAGCTTTTCCAACCCGAAGATACTTATTTAGATAAAGGTACTTTTCAGTATGATAGTCAAAATAACATTACGAATGCGCCTGGAACACCAACAGGGGAGATTACACCGAGGCAGGCTATCATTAATTCATCTAACACATTTATGACAGCAAAAGTAGCTCTGCCCTTATTCAACCAAAATAATGGAAATATAGAAAAAGTGGCCCATATATGGACAGATTATTTAATGCAATTCGGCCTACGTTCTAAAACCGGGATTGATTTGCCCTTTGAAGAAGACGGACAATATGAATTTCAGCCATCTAATAAATTTGAAAATGGGATTTCAGCTTTATTAAATGCCTCTTGGGGAGGAAATGAAGTGCATACTCCTCTTCAACTCGCTCAATATGCAGCAACTTTGGCAAGTAAAGGCGACAAATATAAACCTCAAATCGTAAGTGCGATTATTGGTCAAGATGGTAAGGAAACCAAAAAGTTTGAACCCATTTTAGAAAGTTCAAATCGTTACCCGATGAACTTTTGGAGTGTCGTGCACGGTGGAATGAGTCAAAATATAGAGGAGATTAAAAATTTACCCTTTCATGTCGCAGGTAAAACGGGTAGTACAGGTTCTCCGAATAAGCAAGAAAGAATGATAAATCATTCTCTTTTCATTGCATATGCTCCTACCGAAGATCCACAAATCGCCATTTCTGTCGTTATTCCTGGTAGTAATCCAGAAAAAAACATCGCTGCTCTCGTTACATCAGAAATTTTAGAGTCCTGGCATACACTTCAAAAAGAAAATAATAACAAAGAGGAAGGTTCATTAAAGTGA	MLHTKRWRFFAVLSIVGLILLILLKIKFISITIATSSAERGKIFDQNGVILATNKKVKSLYCTSNDEKLSKQDISNTLAFFNQFSSEFQHDISTENIKSQLQQSCKKQTMNDIPLYSDITENELAFINKNKPNNVIIKDEWIRYYPKHEIGSQVIGYVENDLNSKHMAVGKSGIELQYENDLKGKPGKTLIFKLNNKKFLWNIQNVQKGKDVRLALDSELQQKAEEALRSQIKKTPDAKAGYAVVSDAKTGAILTMVNSAVFDPNILNTHVSSRKENIKSLSQNKAIQKLKYGESYVNMASTIKPLTILIGLNEKLFQPEDTYLDKGTFQYDSQNNITNAPGTPTGEITPRQAIINSSNTFMTAKVALPLFNQNNGNIEKVAHIWTDYLMQFGLRSKTGIDLPFEEDGQYEFQPSNKFENGISALLNASWGGNEVHTPLQLAQYAATLASKGDKYKPQIVSAIIGQDGKETKKFEPILESSNRYPMNFWSVVHGGMSQNIEEIKNLPFHVAGKTGSTGSPNKQERMINHSLFIAYAPTEDPQIAISVVIPGSNPEKNIAALVTSEILESWHTLQKENNNKEEGSLK				NA	NA	NA	NA	NA
AK009_04582	255			hypothetical protein	ATGTTAGGATTGAGATCTTATCAAACTACAATCCATTGTACAATCAAGCATTTAAACAATCTAATTGAACAAGATTATAGGCATGTAACGAGACGTTTTGCCAAATCTGCAGGGTTTCAAAATCTTCGTCATGCTTCACGTACGATAAAAGGTATTGAAACCATTCAGGCTCTATATAAACAAAGGCTAAGTATTCAAAGAGACTCCACCTTTTCGACGTACAATGAACTTCAACAATTATTAGCTAATTCTTAA	MLGLRSYQTTIHCTIKHLNNLIEQDYRHVTRRFAKSAGFQNLRHASRTIKGIETIQALYKQRLSIQRDSTFSTYNELQQLLANS	PGPT0030690_1412	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_04583	621	gph_4	COG0546	Phosphoglycolate phosphatase	TTGATTACATCTCTTGTTTTTGACGTAGACGGCACAATTTTAGACACAGAAAAAGCAATACTAAAATCCTTACAAAAAGTTTTAAAAGAAGAACTAAAGGAAGATTATGCGTTACAGGATTTAAAATTTGCATTAGGGATTCCTGGAAAAGAAACCTTAAAAAAATTAAATGTTAAAAATATAGATGTTGTTCATCCTAAATGGGCCAAATCTGTACTAAATTTTTCTCATGAAGTCTCCGTGTTTGAAGAATTAGAAAGCATTATTAAAGAGTTATCTTTTAGTAAATTAAAGCTTGGTATTGTTACATCAAAAACTAAGCAAGAATTAATAGATGAGTTCGAGCCATTTGATCTAAGCGGTCATTTTGAACGTATAATTTGTGCGTGTGATACCGATAAACACAAACCACACCCTGAACCATTATTAGCTTGTTTGAAACAATTAGATGTTCCTAATAATGAGTCAGTATACATCGGAGACTCTATATACGATATGCAATGTGCGAAAAGTGCTGGTGTTAAATTCGCACTCGCTTTATGGGGTTCAAAGACAAAAGAAGGTTTTGAAAAAGCTGATTATGTATTAAATACACCAAAAGATATTTTAAATTTAATTTAA	MITSLVFDVDGTILDTEKAILKSLQKVLKEELKEDYALQDLKFALGIPGKETLKKLNVKNIDVVHPKWAKSVLNFSHEVSVFEELESIIKELSFSKLKLGIVTSKTKQELIDEFEPFDLSGHFERIICACDTDKHKPHPEPLLACLKQLDVPNNESVYIGDSIYDMQCAKSAGVKFALALWGSKTKEGFEKADYVLNTPKDILNLI	PGPT0019045_1026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019045-mupP-K22292	NA	NA
AK009_04584	765	glcR_2	COG1349	HTH-type transcriptional repressor GlcR	ATGAATCAAGAAGAACGATTGATACGAGTCCTTAATTATTTAGAAACAAATAAAACTATGAATATAAAAAAAATGTGTGAAATGTTTCATATCTCAAGAGATACTGCAAGAAGAGATATAGTAAAACTTTCAAAAAACAAAGCAATAGTTAGAACTTATGGCGGAGTGGCTTTAGCTACTTTTCATAAGAAAATTGATACTTATCAAGTGCGGTCACAGACTGAATTAGAAACGAAAAAGTCGATTGGAATGAAAGCTGCAAATATAATTGCAAACAATGACATGATTTATTTAGACGTTTCAACAACAGTCAACTTTGTAGCGCAACATTTGCAATCAAAGAACGTAACTATTGTGACGAATTCAATTGATACTGCTTATATGTTAGCTCAATCTGAAGATACGACAATTCACCTTTTGGGAGGAACTTTAAATAAGGTTTCTCGACATACTACGGGGACTTCGACCACTGAAAAACTCAAAGATTATCACTTTGACAAGGTGTTCATTGGAACCGCAGGTATTACTGAAGACGGGATATACTATGGTTTTGAAGAAGATATTTATTTCAAGCGTGAATTAATCAAACATGCTGATCAAGTTATTTTAGTGGCAGATCACACTAAATGGAACCAGCGACGAAATTATAAGGGTTTAACGCTTGAATCTATAGACACATTCATTACAAATCAAGTTATGTCTAATGAATTATATAATACTTTGAAAGAAAATGGTGTTGAGGTAGTAATTGCAAGTGAAGATTAA	MNQEERLIRVLNYLETNKTMNIKKMCEMFHISRDTARRDIVKLSKNKAIVRTYGGVALATFHKKIDTYQVRSQTELETKKSIGMKAANIIANNDMIYLDVSTTVNFVAQHLQSKNVTIVTNSIDTAYMLAQSEDTTIHLLGGTLNKVSRHTTGTSTTEKLKDYHFDKVFIGTAGITEDGIYYGFEEDIYFKRELIKHADQVILVADHTKWNQRRNYKGLTLESIDTFITNQVMSNELYNTLKENGVEVVIASED				NA	NA	NA	NA	NA
AK009_04585	1353			hypothetical protein	ATGAATTTTATCAAACGATCATTTTTGAGTTTACAATCAAGAAAGGGAAAGTCACTTATATTACTTGCTATTTTTCTAGTTGTTATTAATTTAGTATTTGCTGGTTTTACGATTCAAAGTGCATCCAGTAAAGCAACAGATTTGGCTAGGCAACAATTAGGAGCTGATATCAACTTAAGAATCGATATAAATAAGTATTTGGAAGAACAAAACAATAATCAAAATGCTAATGAAGCGATAAAGGTACCAAGTATCGAAAAAAAAGAAGCTGATAAATTAAAGAACTCTAAGTATTTAGATCACTATAATTATCTAAAAAGTGCTATTGCTGAGCTGAAAGAGCTTCATAATGTCGAACCATCTGGAGGAGCTCAATCATTTGGTCCAAATAATAATTTAAATTTCACTTTACAGGGTGTTAGAGACTTTTTTTCATTAGAAGCTGCTCAAGACAAAAAATTAAAACTTATTGAAGGAGAGGGAATTACGTCAAAAACAATAGGAAAAAACGTTGCTATGATTGAAAAAAAACTAGCTGAAAAAAACAATTTAAAAGTGGGTGATAAATTACAGATAGGTGAAGTAATGGATGAGGAACTTACCACGAAAGAGCTAGAAATTATAGGTATATATGAGTCTAAAGAAGAGGCTCCATCTTTTGGAGGACAATCTTTTGCTTTATTAGAGCCTGCTAATCAAATATATGTACCGTATTCTGTTATGAATTCACTGGAAAATGCAATCTATTCATTAAAGGATCCTAAGGATATTGATGCATTTAAAGAAGAAGCAAAAAAATTGGGGTTACCAGCGTACTATGAATTAGATGCACAAGATAACGTTTATAAACAGATGATTGGTCCAATCGAAAATATTGCATCTTTTTCGAAAACGATTGTAATTATGGTGTCTATTGCAGGTGCAACAATTTTAGGATTAATAATTACGCTCTCTATTAAGGAACGTAGAAAAGAAATTGGAATTTTGTTATCTATAGGCGAGAAAAAGTGGAAGTTAATGGGTCAATTACTAGTTGAGGTATTATGTATTGCTGTATTAGCTTTTGGTTTATCTTTAGCAACAGGAGAGAAAGTTTCTCAAAAAGTGGGTGATAATCTTTTATCTAGTGAAATAGCAAAGAATGAAGATAAACCGGAAGATCCTATAGCAAAATTAAGTGGTAACCCTGCTGCAGACGTAGATCCGGTTGATAATATCCATGTAAGTATTTCAACTGAAGATTTAGGAAAAGTAGGGGGGATTGGATTAGGAATTGCTATGCTAGGAACGATTCTTCCGGCATTATACATTCTTCGTTTAAATCCAAAACAGATTTTATTAAAAGACGAATAA	MNFIKRSFLSLQSRKGKSLILLAIFLVVINLVFAGFTIQSASSKATDLARQQLGADINLRIDINKYLEEQNNNQNANEAIKVPSIEKKEADKLKNSKYLDHYNYLKSAIAELKELHNVEPSGGAQSFGPNNNLNFTLQGVRDFFSLEAAQDKKLKLIEGEGITSKTIGKNVAMIEKKLAEKNNLKVGDKLQIGEVMDEELTTKELEIIGIYESKEEAPSFGGQSFALLEPANQIYVPYSVMNSLENAIYSLKDPKDIDAFKEEAKKLGLPAYYELDAQDNVYKQMIGPIENIASFSKTIVIMVSIAGATILGLIITLSIKERRKEIGILLSIGEKKWKLMGQLLVEVLCIAVLAFGLSLATGEKVSQKVGDNLLSSEIAKNEDKPEDPIAKLSGNPAADVDPVDNIHVSISTEDLGKVGGIGLGIAMLGTILPALYILRLNPKQILLKDE	PGPT0013350_11970	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_04586	681		COG1136	putative ABC transporter ATP-binding protein	ATGGAGACAATTTTACAGTTTAAAAATATCAATTATTATTATGAAAGTAATAATAAGAGAACTACAATCTTAAAAAATGTAAATTTTTCTTTTCAAACTGGAAGTTTTTATACTATCTTAGGGCCATCTGGTTCAGGAAAAACAACAACTCTTAGTTTAGCCAGTGGATTAGACGTTCCAAAAAGTGGATATGTCTTATATAAAGGAACGGATATACGTAAAATTGGTCTCGACTCCTATCGAAATCAGTATGTATCAATTATTTTTCAATCTTATAATCTCATTACTTATATGACCGCACTTCAAAATGTTATAACAGCAATGGAAATAACAGGAGTCGATGTAAAAGATAAAAAGATAAGAGCATTGGAGCTACTAAAAAAAGTAGGATTGACAGAAATAGAAGCAAAAAGGAATGTGTTACAGCTTAGCGGTGGTCAACAACAACGTGTCGCAATCGCTCGTGCATTATCTTGTAATGTAGATTTGTTAATTGCAGATGAACCGACTGGAAACCTAGATCAAGAAACGTCTATGGAAATTATTGAGTTGTTTAAAGAGTTAGCACATAAAGAAAATAAATGTATTATTGTTGTGACTCATTCACAAGACGTAGCCAAACAGTCAGATAAAGCTGTTTATCTACAAAAACAGAATTTAGTTGTACAAGATGTTTCTTGA	METILQFKNINYYYESNNKRTTILKNVNFSFQTGSFYTILGPSGSGKTTTLSLASGLDVPKSGYVLYKGTDIRKIGLDSYRNQYVSIIFQSYNLITYMTALQNVITAMEITGVDVKDKKIRALELLKKVGLTEIEAKRNVLQLSGGQQQRVAIARALSCNVDLLIADEPTGNLDQETSMEIIELFKELAHKENKCIIVVTHSQDVAKQSDKAVYLQKQNLVVQDVS	PGPT0013345_14415	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_04587	255			hypothetical protein	ATGAAGAGAACATGGATTAAGGTAGTTGTTTGCAGTGTCCTGGTTATAATTGGTATTTTAATAGGATATGTAACACATGTTTTTATTCAAGAAGACATAAGTGAGTCTAGCCAAAATCAAGTAAATACTTTTCAAGATGAGATAGGATCGAATCAAAGACAACCCTCATTTATTGAAGGTGGGAATTCAGGATTCGGTACTACTAAAGAATATAATGAAGGAGAAGTGGAATCTAAAGACCCAGAAAGTAATTAA	MKRTWIKVVVCSVLVIIGILIGYVTHVFIQEDISESSQNQVNTFQDEIGSNQRQPSFIEGGNSGFGTTKEYNEGEVESKDPESN				NA	NA	NA	NA	NA
AK009_04588	147			hypothetical protein	ATGTCACTTGAAACAAACATTATTCTTTCTTTATTAGATGTACAACTGTGGATTGCTCATCATCGGGATAATAGTCACATACAAGTAAAAAAACAAAAATTAAATTCATCACCTTACTCAAATAAGTACGCAAGTGTAAATAAATAA	MSLETNIILSLLDVQLWIAHHRDNSHIQVKKQKLNSSPYSNKYASVNK				NA	NA	NA	NA	NA
AK009_04589	174			hypothetical protein	ATGAGCATGTATTTAAAAATACAAGAAAGTGCGAAGCGTATAAATGAATTGACTAAGCATCAAAAGAAACTAGAGCGCGAAAAAAATATATTAAAAAGTGAGTTTTATAGATTGTTGAAAGAAAATAAAAAATACAAAGATACTCCCGAAGAGATAAGAACATTGGATAATTAG	MSMYLKIQESAKRINELTKHQKKLEREKNILKSEFYRLLKENKKYKDTPEEIRTLDN				NA	NA	NA	NA	NA
AK009_04590	168			hypothetical protein	ATGATTTCATCGTATTTGGTAAGTTATATTTTAGTCACGGGTAATACTGCTATAAAAAAGGTAGCTAGAGTTCATGCATCCTCAGAAGTTTTTGCTGTTAATAAAATTAAAAGAGAATTAGAACGTCGGTTTTCACATCCAACAAAAATTGAAGTTTATCCAGTTTAA	MISSYLVSYILVTGNTAIKKVARVHASSEVFAVNKIKRELERRFSHPTKIEVYPV				NA	NA	NA	NA	NA
AK009_04591	879		COG3385	IS4 family transposase IS231S	ATGAATATGAATCAAAAACAAGAATTATCTTTATTCGCTGAAGAGTTATATCGATATATGTCTCCCGCTACACTTAATCAATTAGCCATAGAAGCAGGCGGAATGAAACGAAAACGTAAGTGCCACGGGCACCATTTCTTATCTTTGTGTGTATGGCTAAATCAACAAGTCGCTACTACCTCTCTTACTCAACTATGTAGTCAATTAGAAACTTCAACAGGAGTTTTATTAAGTCCGGAAGGACTTAATCGGCGATTTAACTCTGCTTCTGTAGCCTTCTTTCGAACTGTATTTACTACACTTCTACAAGCTAAAATTGGAGGCGTATCTAAGATTTCTCATTCTCTTTCTTCCTACTTTGAGCGCATTCGCATCCTTGATTCTACAACCTTTCAGGTTCCAGATCGATTCGCATCTACCTATCCTGGTGCCGGAGGATGTAGTCATAAAGCTGGTGTGAAAATTCAACTAGAGTATGACTTGTTAAGTGGGGAATTTTCTGATGTGAAAATTGAACCAGGAAAACGAAGTGATCAGGCGTATGGTGCGACTCGAACAGGCATGATACAAAAGAATGAGCTGTATATTCGTGACTTAGGATATTTTCGTCTACAAGACTTTAAGTCTATTCAAGACAAGCAGGGGTATTATTTATCTCGTCTTAAGTTACCAACTAAAATATATAGAAAAGAGTTCGAAACAGTGGTATTTAAAACAAAACCCTCTCAATTGAAACCAGTATATATACAAATTCATTTGGAAGACATTATGAAACAACTACAACCTGGCCAAGTGTATGAATTACACGATGTATATGTAGGGAGTAAGGACAAATGGTTCTGGTGCAAAAAATATAACACTTGTGCAATGAATCTGTAA	MNMNQKQELSLFAEELYRYMSPATLNQLAIEAGGMKRKRKCHGHHFLSLCVWLNQQVATTSLTQLCSQLETSTGVLLSPEGLNRRFNSASVAFFRTVFTTLLQAKIGGVSKISHSLSSYFERIRILDSTTFQVPDRFASTYPGAGGCSHKAGVKIQLEYDLLSGEFSDVKIEPGKRSDQAYGATRTGMIQKNELYIRDLGYFRLQDFKSIQDKQGYYLSRLKLPTKIYRKEFETVVFKTKPSQLKPVYIQIHLEDIMKQLQPGQVYELHDVYVGSKDKWFWCKKYNTCAMNL				NA	NA	NA	NA	NA
AK009_04592	708			IS6 family transposase IS240C	ATGAAAAAGGAAACTTTGTTTAAATGGAAGCACTATCAGCCAGATATTATTCTATTAACTGTACGTTGGTACCTACGGTACAATCTTAGTTTTCGTGATTTGGTAGAAATGATGGAGGAAAGAGGACTATCCTTGGCTCATACAACGATTATGCGGTGGGTCCATCAATATGGGCCGGAGTTAGATAAGCGAATTCGACGTCATCTCAAACAAACGAATGACTCCTGGAGAGTAGATGAAACGTACATAAAAGTAAAAGGACAATGGATGTACCTATATCGTGCCGTTGATTCTGAAGGGAACACGATTGATTTTTATCTCAGTAAATCTAGAAATCATAAGGCTGCAAAGCGATTCTTCAAGAAGGCTTTGCGGTCTTTTCATGTTTCAAAACCTCGTGCAATTACAGTTGATAAAAATCCCGCCTATCCCATTGCTATCAGCGGGTTGAAGAAAGAGAAAAAAATGCCGTTAGGCATTCAAATCAGGCAGATAAAATATCTAAATAACATCGTAGAGCAAGACCATCGTTTCATTAAAAAACGTATACGCTCTATGTTAGGACTTAAATCTTTTCGCACAGCTACATTTATTCTTGCAGGAGTAGAAGCCATGCATATGATACAAAAAGAACAGATTGATTTACGGGATCAGTCTGTTCAAAATCAAAAACAATTCATTCATCAATTATTTGGATTAACAGCGTAA	MKKETLFKWKHYQPDIILLTVRWYLRYNLSFRDLVEMMEERGLSLAHTTIMRWVHQYGPELDKRIRRHLKQTNDSWRVDETYIKVKGQWMYLYRAVDSEGNTIDFYLSKSRNHKAAKRFFKKALRSFHVSKPRAITVDKNPAYPIAISGLKKEKKMPLGIQIRQIKYLNNIVEQDHRFIKKRIRSMLGLKSFRTATFILAGVEAMHMIQKEQIDLRDQSVQNQKQFIHQLFGLTA	PGPT0030615_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_04593	108			hypothetical protein	ATGAAAGAGCAAGAAATGTATGTACAAGAAAGTGGAGAACTTGCAACATCATTAAGTTGCCTATTACAAGAGTTAAAAGAATTAATTAGAGAGTTTAAAATTCAATAA	MKEQEMYVQESGELATSLSCLLQELKELIREFKIQ				NA	NA	NA	NA	NA
AK009_04594	216	sspC		Small, acid-soluble spore protein C	ATGCAAATACGAGAAAATAATAATTCAAACGAGATTTTGGTAGCAGCGGCAGCAAGTGCAATTGAGCAAATGAAGTATGAAATTGCTCAGGAGTTTGGTGTTACACTTGGACCAGATTCAACATCACGAGCAAATGGTTCAGTAGGTGGAGAGATTACGAAACGTTTAGTTCGTATGGCGCAAGAGCAGTTATCTGGTCAATATAAAATTCACTAA	MQIRENNNSNEILVAAAASAIEQMKYEIAQEFGVTLGPDSTSRANGSVGGEITKRLVRMAQEQLSGQYKIH	PGPT0024865_134	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
AK009_04595	420			hypothetical protein	ATGAAAAAAGCTATTTTAGCAGGGGCACTAGGAATTGCAGTACTATCAGGTATGAATTTACCAGGAGCAGAGGCACTAAAAGCGAGTGCGGCAACTACGAATTTAGAAATTCAAGAAGTTACAAAATATTACTCTATGAATTCCTATGAAGTTTCTCAAAAAGAATCATTTAATCTTAGTAAAGGGGAAGAACTTACAGTCTTTGTACAAAATTCCGGGTTCCCCATTTCTTATACAGTCTTTGATGCAGATAATCAAGTAATTGGCACATACAATGCTAATTCACCATATGGTCGCGTATTCAAAGCACAAAAAGACGGTAATATTTCTGTTCAATTTCAAGCAGGAGTAAATTCTTCTTACATGAAGAAAATGAATTTCACAGCTAAATTTGCAGTTTCTAAACTTAACCAACAATAA	MKKAILAGALGIAVLSGMNLPGAEALKASAATTNLEIQEVTKYYSMNSYEVSQKESFNLSKGEELTVFVQNSGFPISYTVFDADNQVIGTYNANSPYGRVFKAQKDGNISVQFQAGVNSSYMKKMNFTAKFAVSKLNQQ				NA	NA	NA	NA	NA
AK009_04596	264	nlpD		Murein hydrolase activator NlpD	GTGCATAAAGGTATTGATTTCTCAGCGGCAAAGGGTACACCAATAATGGCATCTAAATCAGGAACTGTAGAATTTGCTAGTTTTGGTGGATATGGAAATGCGGTGGTTATTAGGCATGAAGACGGACTTTGGATATTATACGGTCATATGGACTCAATTTTAACTACTGTAGGGGCACATGTACAACAAGATCAAGTAATAGGGAAAGTAGGTAGTACAGGCGATTCTACTGGGAACCATTTGCACTTCGAAATTAAGAATTAG	MHKGIDFSAAKGTPIMASKSGTVEFASFGGYGNAVVIRHEDGLWILYGHMDSILTTVGAHVQQDQVIGKVGSTGDSTGNHLHFEIKN	PGPT0023860_1633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023860-nlpD-K06194	NA	NA
AK009_04597	369			hypothetical protein	ATGTTCAAAAAAATAGTAGTCGGTGTATTAACTACAGGCATTTTATTCTCTGGATCAGTTGGAGTATTTGCAGCAGATAATAGCCAACAATTACCCACAAGTAAATTAGCTAAAAAAGAAGCATGTCCAAATAATACCGTTTGTTATCGAATAAAGGAATTTCAGTATTATAATTTACCTGTAAAATATAATAAAAATACAGGTAGTAACGAATATTACTATAAATTATCTGGTGAAACCGGACATTGGGAAGTTGATTCTCATAAAGGGAGATTAACTAATTTAAGTGCTGGAAAAATAAAAGTTAAAGTGTATGAAGGCGGTGTATTATTAAAAGAGTTTATGGTAATAGCTGATAGCTATAATTAA	MFKKIVVGVLTTGILFSGSVGVFAADNSQQLPTSKLAKKEACPNNTVCYRIKEFQYYNLPVKYNKNTGSNEYYYKLSGETGHWEVDSHKGRLTNLSAGKIKVKVYEGGVLLKEFMVIADSYN				NA	NA	NA	NA	NA
AK009_04598	201			hypothetical protein	ATGCACATTAAAGTGGGGAAACCTTGGTCAATGACGCCAAGCGGAAATCAATACAAATATGTCTTATTTAGTAAAAATAAAATTTATGTCAACCCTAAAACTGGTGTTGTAACAGCATATGAAGAAGGAGCAGCTGAAGGCAGAGTACTTGATAAAAATGGAAATGTAATTGCTATTTGGTATATTACAGCTTTTAAATGA	MHIKVGKPWSMTPSGNQYKYVLFSKNKIYVNPKTGVVTAYEEGAAEGRVLDKNGNVIAIWYITAFK				NA	NA	NA	NA	NA
AK009_04599	645	walR_4	COG0745	Transcriptional regulatory protein WalR	ATGAAAAAAATATTAATTGTTGATGATGACAAAGATATTGTTGATCTTTTAAAGCTTTTTTTAGAAATGGAGAATTTTTTTGTTGATATTATGATGCCTAAAATGGATGGTTATCAATTAATTAAAAAGATTCGTGAGACGTTACAATTCCCAATACTTATATTGTCAGCTAAATCTCAAGAAGTAGATAAAATTATAGGTTTAGGGATTGGAGCAGATGACTTCATTACAAAGCCATTTAGTGCTTTAGAAATTATAGCTAGAGTTCAAGCTCACCTTAGAAGGTCCTATGAATTTAATGATAAGGCTGTAGAAGGTAAGGAGAAGCAAATTCATATGGGTGATTTAGTATTAGATCATCATTCTTGTACACTCTATAAATCAAGCGAAACCATTACTCTTAGTGCTACGGAATATAAAATCTTAACACTTTTTATGGGGGATCCAGGGAGAATATTTACTAAAAAACAAATTTTTGAAAGTGTATGGTCTGATTATTACTGTGCAGATGATAATACAATTATGGTTCATATTAGTAGACTACGAGAGAAATTAGAGGATTCTCCTAAGAATCCAGTTTATATAAAAACGATCCGGGGGCTTGGGTATAGATTTGCTAGGAAGGAAGAACTTTATGAAAAATAA	MKKILIVDDDKDIVDLLKLFLEMENFFVDIMMPKMDGYQLIKKIRETLQFPILILSAKSQEVDKIIGLGIGADDFITKPFSALEIIARVQAHLRRSYEFNDKAVEGKEKQIHMGDLVLDHHSCTLYKSSETITLSATEYKILTLFMGDPGRIFTKKQIFESVWSDYYCADDNTIMVHISRLREKLEDSPKNPVYIKTIRGLGYRFARKEELYEK	PGPT0028485_16	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
AK009_04600	1398	sasA_16		Adaptive-response sensory-kinase SasA	ATGAAAAATAAAGTTTTATATATCTTAATTAAAAATTACGTTATATTTGCACTAGCAATAGGTTTCACGGTGATAATTTTATTTATATTTTTGATGTACCAAACAGAGAAGCAACTAGGAAAGCTAAATAATTTAAAAGCAAGTGAAGTAGTGCGTGAAAACTTTGAAACTATTAATTCAGAATCAATAGTTTCATTTGGTGGTTGGGTAGAAATTCTTAATGAAAATTTACAAGTTATCTATACCAAAGGGGAAAAGAAGGATCAGCTTTTATCATATTCACAAAGAGAATTTGCTACTTTATTTTTTGATAATGATAAGCTTCCTTATTATTCATCTGTAGCAACATTTGTAACGAAAAAAGGTGAAACATTATATTGCCTTGTTAAGGTTCCTAAAAAAGCAATAAAGTATGAATATACGTTTTCTGATAAAAATGAGGAATACGTATATGTTTTTTATAAGATATTTTTTTCTACAATCTTTTTATTTTTTGTATTTTTCTCTATGAATGTATATATATTTAGTAGGCAAATTGCTAGGAAAATAACCAGGCCATTGGATAAACTAGCAACTGGATTTGAGGAAATTGCTAGTGGGAAATATGATAAAAGGTTAAACTATGAAACATATTTTGAGTTAATGCAAATACAGCATTCGTTTAATGTTATGTCGGAAAAACTCGATAAAATAGAGAAAGAGAAGAAGAGGTTGGAAGAAACCAAGCAGAAGATGCTTGTAGATTTGTCTCATGATTTAAGGACACCAATTACAACCGTTCAAGGTTATGTTGAAGCATTACAACTAGGGATCATTACAGAAAAAGGTGAAAGAGAAAGAACTTTGAATGTAATATATAATAAGATTCGAATCATTGCGGTATTAACTGAAGATATTTTTGAACTATCTAAATTAGAGCATTCTGATTACCCTTTTGAAGTACATCCAACTGATGTATCTGAGTTTATTCGTGAATTGCTTGCAGAATATTATGATTTATTTCAAGCGAAGCGCTTAATTCTTCAATATGAAATACCCCCTAAAGAAGTGATTGCTCCAATTAACAACAGGTTACTATACCGTGCTATCTCTAATATAATATCTAATGCTCTACAGTATAATACGGCAGGTACGACCGTGTTTATATCGTTAATTGAGGATGAAAGCAAAGTATATATAAACATTATAGATAATGGAATTGGAATACCTGAGGATATGAAACAAAGTATTTTTGATGCATTTGTTCGAGTAGATGATTCTCGAGAAAATAATGGGGGATCAGGTCTTGGATTAACTATTGCTAAGCATATAGTAGAAAAACATGGAGGGAGCATAAATTTAGATAGTACAAAGAAAAAAACACATTTCTGTATTTCTTTACCTAAATGCAGTGTGTAA	MKNKVLYILIKNYVIFALAIGFTVIILFIFLMYQTEKQLGKLNNLKASEVVRENFETINSESIVSFGGWVEILNENLQVIYTKGEKKDQLLSYSQREFATLFFDNDKLPYYSSVATFVTKKGETLYCLVKVPKKAIKYEYTFSDKNEEYVYVFYKIFFSTIFLFFVFFSMNVYIFSRQIARKITRPLDKLATGFEEIASGKYDKRLNYETYFELMQIQHSFNVMSEKLDKIEKEKKRLEETKQKMLVDLSHDLRTPITTVQGYVEALQLGIITEKGERERTLNVIYNKIRIIAVLTEDIFELSKLEHSDYPFEVHPTDVSEFIRELLAEYYDLFQAKRLILQYEIPPKEVIAPINNRLLYRAISNIISNALQYNTAGTTVFISLIEDESKVYINIIDNGIGIPEDMKQSIFDAFVRVDDSRENNGGSGLGLTIAKHIVEKHGGSINLDSTKKKTHFCISLPKCSV				NA	NA	NA	NA	NA
AK009_04601	165			hypothetical protein	ATGTCCCGTAAGGACAATTGTTTAGACAATGCACCAATGGAATCCTTTTTTGGTCATATGAAAGATGAATTAGATTATAAATATCCCCAAATATTTGAATCCCTTGAGCTCAACATAAAGGATTATAAGTATAATCGTTATCAGTGGACATTAAAAAATGGCTAA	MSRKDNCLDNAPMESFFGHMKDELDYKYPQIFESLELNIKDYKYNRYQWTLKNG				NA	NA	NA	NA	NA
AK009_04602	597			IS3 family transposase ISBsp3	ATGTTGCGTTACCTTTGCACACTGGCTGGGGTAAGTCGGAGTGGATATTATGCGTGGCTTCATCAGTCAGATAAACATCTAGAAAAGGAACGTAATGATGAAACAGACTATGAATGGATCCAAGAAATTTTTAATCGAAAAGAAAAAATATGTGGTGGTCGTTCTATCAAAATGGTATTGGAAAAGACAAAAGGAATTTGTATGAATCTCAAGCGTATTTACCTTATTATACGTAAATATAATCTTGTAACAAAGATTCGCAGAGCGAATCCTTATAAACACATCGCAAAAGCGACACAAGAACATAAAACATGTCCGAATCTTTTAAAGCGCCAATTCAATCAAGAAGAGCCTGAAAAAAGTATGTTAACCGATATTACCTATTTATTTTATGGACAAGGAAAGAAAGCTTATTTATCATGTGTAAAAGACAGTACAACACGAGAGATTTTAGCCTATCATGTCTCCTCTTCTTTACAAATGGATATCGTCTATCGAACATTAGATAACTTGAAAGAGAGATTAGGAGAAGTCATCCATCCTGAAGCGCTTCTACATTCAGACCAAGGTATTCATTATACACACCCTGAATTTTAG	MLRYLCTLAGVSRSGYYAWLHQSDKHLEKERNDETDYEWIQEIFNRKEKICGGRSIKMVLEKTKGICMNLKRIYLIIRKYNLVTKIRRANPYKHIAKATQEHKTCPNLLKRQFNQEEPEKSMLTDITYLFYGQGKKAYLSCVKDSTTREILAYHVSSSLQMDIVYRTLDNLKERLGEVIHPEALLHSDQGIHYTHPEF				NA	NA	NA	NA	NA
AK009_04603	429			IS3 family transposase ISBsp3	ATGATTAAAATTATTTTTAACGAGATTCAAATGAAACAGCTAGAAAAAAATAAAAATGTATTAAAAGCGTCGGAACGTTCGATTAGCTATTGTCCAGATTTCAAAATAAGAGCGGTAAAAGAAAATCAACAAGGAAAAGGTCATAGCCAAATCTTTTCAGAGAATGGGTTTAACTTAGCTGTGATTGGTGAGAAGAAACCAAAACAATGCTTGAAACGTTGGCGAAGAACCTTTGAACAATTTGGTGAAGAAGGCTTTTATACAGAACGCCGCGGGAAAGGAAGCACGGGACGCCCCTTGGAAAAACCGCTCTCTTCTGATGAAAAATTAAAAAAAGCGGAAGTACGTATTGTGTTTTTAGAAGCGGAATTGACATTCCTAAAAAAGTTAGACGAACTCGAAAGGCATGCGTTACAGAAGAAGCGTTAA	MIKIIFNEIQMKQLEKNKNVLKASERSISYCPDFKIRAVKENQQGKGHSQIFSENGFNLAVIGEKKPKQCLKRWRRTFEQFGEEGFYTERRGKGSTGRPLEKPLSSDEKLKKAEVRIVFLEAELTFLKKLDELERHALQKKR				NA	NA	NA	NA	NA
AK009_04604	300			hypothetical protein	ATGGATCTAGATACCAAGAGATTTGTCTATATTTTAGAACAAAAAATGACTACTTGTATGGAAAAAGTATCAAAAGCAATTTATTGTAGTGAGCAAAAACAGTTCGATCGAATTATTCAGAATGCTTTGAGTGATATTAAGATAATGATTAGTTTGACCCAAGTTTATATGTTAATAGACAAAGAATCTTCAAAAGACTTAAGACAACTTCAGAATAAACTAATTCAAGCGCGTATATATATTGAGAAGGAAGCTACTACATTAAAAGTGGAGATTCGAAGAATGGTTAACACAATTTAA	MDLDTKRFVYILEQKMTTCMEKVSKAIYCSEQKQFDRIIQNALSDIKIMISLTQVYMLIDKESSKDLRQLQNKLIQARIYIEKEATTLKVEIRRMVNTI				NA	NA	NA	NA	NA
AK009_04605	774			hypothetical protein	ATGATATTAAGAGGTAGTGTTTATTCTAGTATGCTAGAAATGGAAACTGGTATAACAGTTATTATTCCAAACAAATTTAATATGGAGCAAAATTATCAAGTGGTATATCTGCTTCACGGTCTTTGCGGAGGTAATGGTGATTGGGCAAATTATACGATGCTGCCTGTTTATGCAAATGACTATAATGCAATATTTGTAATGCCAGAAATATCCAGAAGTTTTTGTTCGGATATGAAATTTGGATTTAAATTTTTTAGCTACGTTTCCGAAGAATTGCCAATTATATGTAAAAGTGTCTTTAACATATCTTCAGAAAGAGAGGATACGATAATTATTGGTGATTCAATGGGAGGATACGGGGCTTTGAAATGCGCATTATCAAAGCCAGAGCAATATGGGTATTGTTGTGCATTTTCATCACCATGCTTATTTTTGAAGGAGGATTTAGATGAGCATGGAGAGATTGAAAGATTTAGAATGGTTTATGGAGAACAGATGCTCAAGGATTTTCAAGGGATTTTAGGAGGTGACTTGAATTGGAGTGATGAGCACGAGATATTGGACCTAGCTAACAAGATCAAAGATCAGTCAGTCAGACCTGAAATATATATCGCATGTGGAACTGAAGATTTTATGCGTGATATTAATGTAAGATTCAACAATGAAATGCGGAATCTTAACTTTGACATTGAGTATGAAGAATGGTCAGGCAATCATGACTGGTATTTTTTCGATCAAGCATTAAAAAAAGCATTAAAGAAAGTTCTGAAATAA	MILRGSVYSSMLEMETGITVIIPNKFNMEQNYQVVYLLHGLCGGNGDWANYTMLPVYANDYNAIFVMPEISRSFCSDMKFGFKFFSYVSEELPIICKSVFNISSEREDTIIIGDSMGGYGALKCALSKPEQYGYCCAFSSPCLFLKEDLDEHGEIERFRMVYGEQMLKDFQGILGGDLNWSDEHEILDLANKIKDQSVRPEIYIACGTEDFMRDINVRFNNEMRNLNFDIEYEEWSGNHDWYFFDQALKKALKKVLK				NA	NA	NA	NA	NA
AK009_04606	258			hypothetical protein	TTGCAAGAGATAAAAGAAATCAAAAATGAAATTCGAAGTTATATGAAAGAAAACTTTTTATTTGGCTATAAGGACGATGAACTTCTTGATGATACATCATTTTTAGAGATTGGTGTGTTGGATTCCACTGGTATCATGGAGTTGGTTGCATTTCTCGAGCGTGAATTTAAAATATCAGTCTTAGATGAAGAAATCATTCAAGAAAATCTTGATTCGATCGATTTGATTTCAGATTATTTATTAAAAAAGCTTGCATAA	MQEIKEIKNEIRSYMKENFLFGYKDDELLDDTSFLEIGVLDSTGIMELVAFLEREFKISVLDEEIIQENLDSIDLISDYLLKKLA	PGPT0011375_2535	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK009_04607	972			hypothetical protein	ATGAAGTATTGTTCTAAATGTACTTTATCAGATAAACTTTTTTCCGTTACAATAGATGATGATGGCGTGTGTAATTTTTGTAAAACTCAAACATATACATCCGATTATAAAAAGCCGCAGGACCTCGGCTTAAAAACAAATGGGAAAAACTATGATATTGTATTAGCTTATAGCGGAGGAAAAGACAGCACATATACTTTATATTTATTAAAAGAAAAATACAAATTGAATGTTTTAGCTGTTACATTTGATAATGGATTTTTAGCAGAGGAAACATACAGTAATATTAGAAATGTTTGTGCCAGTCTTAATGCAGATAGCTTAATCATTGCTCCTTCTACCAAGAAAATAAATGCAATATATAAATATTCAAATGAAGATGAATCTTTACCAAAAAAATCCCTTGAGCGAGCTAGTGCTATCTGTACTTATTGCATTGGTTTGGTAAAAATGTATGTTTACAAAGAAGCAATTTTAAGAAAAATTCCATATATCACATTTGGCTTTACACCTGGACAGATTAATATCAATAAGCAAGTCGTTAAATTAGATTATAGAACTCTGAAATCTAACTTTGCTGGAATCAAAGGCAACATAATAAAGGAATTTGGAGAAAGTTATAGCTCAATTTTACTGATGGATGATTTGGTGGATGAAAATAAAGACAATATACCTGCTTTGTTTTATCCATTTATGAATGATAATTATAATGAAAATCAAATTCTTGATAAAATTTCAGAATTTGGATGGGTCAAGCCTACAGATACTGATGGAAATAGTACCAACTGCCTTATGAATGCATATGCCATTCATAAGCATAAAGAAAAGTATGGATTTCATCCATATGCATTAGAGCTAGCCCATTTGGTTAGAAGCAATTCAATGGATAGAGAAGAAGCTCTAAGCAGAATTATGGAAGATGATAATAAGGAAATTATTAAGTATGTTGAACAAAAGTTAAATAATTGCTAA	MKYCSKCTLSDKLFSVTIDDDGVCNFCKTQTYTSDYKKPQDLGLKTNGKNYDIVLAYSGGKDSTYTLYLLKEKYKLNVLAVTFDNGFLAEETYSNIRNVCASLNADSLIIAPSTKKINAIYKYSNEDESLPKKSLERASAICTYCIGLVKMYVYKEAILRKIPYITFGFTPGQININKQVVKLDYRTLKSNFAGIKGNIIKEFGESYSSILLMDDLVDENKDNIPALFYPFMNDNYNENQILDKISEFGWVKPTDTDGNSTNCLMNAYAIHKHKEKYGFHPYALELAHLVRSNSMDREEALSRIMEDDNKEIIKYVEQKLNNC				NA	NA	NA	NA	NA
AK009_04608	1482	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	TTGGAGAATTTGTATGAGTATTTTCATAATAGCTACAAAACATATCCAAATAACTATTATGTTTTTGACCAAAAATATTGGACATATAACGAAGTGAATCAATATATAAAAGCCATGACTGTTAAAATTAAAAATAATGGTATTGGTGTTAATGACAAAGTAATTTTATATATGGAAAATTCAATTGAATATATCATATCTTATTTTGCGATTTTATATTTGGGTGCAACAGTTGTTCCTATCACGACATCATCAACCATTGAGAATATAAATGATATTGTAGAGGACTGTAAGCCTGCGCTTCTATTAACTTCTTCAAGTATTTTTTCGAATATTAAAAATACAGAGTTGGCAAAAAAAAACAATGTTCAATCAATTAGTATAAAAGAAATTGATAGCACAGTTTGTGTTGAGAGCCAGCAATGTAGGACAGGGCAGCTTGCAATGATTATTTATACTTCAGGGACAACCAGTAAACCAAAGGGGGTTATGCTGACTCACAAAAATCTAATTACAAATACAGATTCTATTTTAGATTATTTGTGTCTAGATCATTCTGATAGTATTTTGGCTACGCTGCCATTTACTTATTCGTATGGTAATTCCATATTATTAACGCATACAAAAGCGAGCGGTTTATTATATATATTTAGAGCAACCTATCCACAAGAAATTCTTAATATACTAAAAAGAGAAAATATAACAGGCTTTTCTACGGTAGGTTCCCATCTAAATATAATGCTGAAACAGGGGAACTTTACAGCGGAGAGCTTTGGAAAACTTAGATATATTACACTTGCAGGGGAGCAGACGGTGAAGTCAAATTTAATCAAGCTGAATAACATGAACAAGGACTTAAAAATATATGTTATGTATGGACAAACCGAAGCAAGTGCAAGATTAACCTATTTAGAACCAAGTATGCTTGAGCAAAAGCTTGGTTCTGTCGGAAAACCGATTAAGGGCGTTACGCTTAAAATTGTTGATGAAGAGGGTATAGAGGTTGAACATGATGAAAATGGTGAGATTATTGTAAAGGGAGATAACATAATGTCGGGCTACTTAAATATGCCTGATGAAACCGAGAAAGTGCTAAAAGACAGATGGCTTTATACAGGGGATATCGGCTACAAGGATTCCGATGGATATATTTATATTATAAGGCGGAAAAATGACATTATAAAATATCTTGGGTACCGAATTAGTCCAGTGGAAATAGAAAATTACATCAATATGCATGATAATATTTTGGAATCCGCCGTTGTTGAGTGCCGTAAGGAAGAGAATGTGAAAATTGCAGCTGTAATAGTTTTGAAAAATGAAAAGCTGGATATCAATGACTTATCTCAAATTTTAAGGAGAAAATTACCATCATATAAAATACCTAGTATTTTATATACTGTGGATAAACTGCCTAAAACTTCAAATGGGAAAATTAAGAGAAGCGAGTTAAAAGAAATGCTAAAACAATCATTTTTATAA	MENLYEYFHNSYKTYPNNYYVFDQKYWTYNEVNQYIKAMTVKIKNNGIGVNDKVILYMENSIEYIISYFAILYLGATVVPITTSSTIENINDIVEDCKPALLLTSSSIFSNIKNTELAKKNNVQSISIKEIDSTVCVESQQCRTGQLAMIIYTSGTTSKPKGVMLTHKNLITNTDSILDYLCLDHSDSILATLPFTYSYGNSILLTHTKASGLLYIFRATYPQEILNILKRENITGFSTVGSHLNIMLKQGNFTAESFGKLRYITLAGEQTVKSNLIKLNNMNKDLKIYVMYGQTEASARLTYLEPSMLEQKLGSVGKPIKGVTLKIVDEEGIEVEHDENGEIIVKGDNIMSGYLNMPDETEKVLKDRWLYTGDIGYKDSDGYIYIIRRKNDIIKYLGYRISPVEIENYINMHDNILESAVVECRKEENVKIAAVIVLKNEKLDINDLSQILRRKLPSYKIPSILYTVDKLPKTSNGKIKRSELKEMLKQSFL	PGPT0008380_14704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_04609	1488	lcfB_3	COG0318	Long-chain-fatty-acid--CoA ligase	ATGGTCTATCAATTTCTCGAAAAGAATAAAAACTTATCTACAGAGGCTGTTATATACGGAGAAGATAAAATTACTTATAAAGAATTATTCCGAAAAAGCAGTTTGCTAGGCAGGAAGCTTTCTGGTGAAGCTACAGACACTATCATTATATGTATACCGAATAATATATATTATGTCGTTTCATACTTTTCAATATTAGCTTGTGATAAAATCGTATATCCGATTTCAAGTTTAAGTAAACAAGATGAAGTAATTAGTGCAATAGAACGTACAGGCTCTAATGTCATTTTATGCACTCATGATTACTATGAACAATTAAAGGCAATGTGCCAAAACAGCAATATCAAGATTATTTGTGTAGATAATGAAACGCTATATGACTCAAATACAGATGATTTGGAAAGCATTTGTTACGTTGAAAGCAAAATAAATGATACTTGTGTGCTTCTAAATACTTCAGGTTCAACGGATATACATAAAATTGTGATGCTGACTCAGAAAAATATCATGACGAATTGCACAGACTGGGTTGAGGGTGCCTTAGATACATCAACTCATGGTAAAGTATTGATTGCTATGCCAGCCTGTACCTCCTTTGGTACTGTCGTAATAACCACATGCGTCTTGCTAGGCTGGACCATTGTGTTTATGCCATCATTTTTCAATAGCGCAACTCTTTTACAAACAATTGGAAAAGAAGAAATAACGCATCTTATTTGCATTGGAAGTATGCTGAATATTTTAGCTTCGGATGTGGCTAAACTTGGACCGAGTAATTATAATTCACTCAAATTCATAGGAATTGGTGGGAATAAGGCAGTTCCGGAAACAATGAAAATCATGATGAAGTATTTTCCGGAGGTTGGACTCAGTCCGGGATACGGAATTACGGAAGCAACTTGTATTGTATCGGGCATCCATCCTGATATATCCAGAAATAATAAGGAACTATTTTATGAAAAAATCCATTCTGCGGGAAAGCCCTATAGAAATAGCAATGTCAAAATTGATAATAGGGAAGGTATGCCGAATTCTACTGGAGAAATTTTAATAGGTGGTTCTATTGTAATGAAAGGATATTACAATAATACTCAAGCCACAAAAGCAGCACTGAACAACGGTTATTTACATACTGGCGATATTGGCTATTTTGATGAAGATGGTTATTTATACGTAGTTGGCAGAATAAAAAATATTATTAAATCTGGAGGCTATACTGTTTTTTCGGAAGAAATTGAAGCTGCTTTGCAAAATAGCGGAATGGTTAAGGAAGCTTATGCATATGGAATTCCGGATCCAATTTTAGATGAGAAAATTATAGTTGATGTTATACCTATAGATGGCGCAATAAATGTTTTAGATATTGAGGAGTATTGTTTACAGCATTTAGCAAAATATAAGATTCCATCAAAAATACAATTTGTAAGCGATATCAAGAAAACAAAGAATGGAAAAATACAAAGAAAGGTTTATACACTAAATGAATAG	MVYQFLEKNKNLSTEAVIYGEDKITYKELFRKSSLLGRKLSGEATDTIIICIPNNIYYVVSYFSILACDKIVYPISSLSKQDEVISAIERTGSNVILCTHDYYEQLKAMCQNSNIKIICVDNETLYDSNTDDLESICYVESKINDTCVLLNTSGSTDIHKIVMLTQKNIMTNCTDWVEGALDTSTHGKVLIAMPACTSFGTVVITTCVLLGWTIVFMPSFFNSATLLQTIGKEEITHLICIGSMLNILASDVAKLGPSNYNSLKFIGIGGNKAVPETMKIMMKYFPEVGLSPGYGITEATCIVSGIHPDISRNNKELFYEKIHSAGKPYRNSNVKIDNREGMPNSTGEILIGGSIVMKGYYNNTQATKAALNNGYLHTGDIGYFDEDGYLYVVGRIKNIIKSGGYTVFSEEIEAALQNSGMVKEAYAYGIPDPILDEKIIVDVIPIDGAINVLDIEEYCLQHLAKYKIPSKIQFVSDIKKTKNGKIQRKVYTLNE				NA	NA	NA	NA	NA
AK009_04610	276			hypothetical protein	ATGAATAGTGAAGAAATTAAAATAATTATTAAAGACACAATATTGGAATGCGTAGGCAAAAAAAAAGACATTACAGAGAATACCGATTTGTTAGCTATAAATATATTTGATTCAATCACATTTGTGAAATTAGTTAAACAATTAGAAAAAATATTTCAAATTGAGTTTGATATTTTTGATCTATCTATCAATAATTTTAAGAATATTGAATTAATATCGGCAAATGTAAGAGAAAAATTAGAGCTTTCTAACAAAGAAGTAACGGAAGAAAAGTAA	MNSEEIKIIIKDTILECVGKKKDITENTDLLAINIFDSITFVKLVKQLEKIFQIEFDIFDLSINNFKNIELISANVREKLELSNKEVTEEK				NA	NA	NA	NA	NA
AK009_04611	276	acpP_1		Acyl carrier protein	ATGGAAAATTATCAATTAGAAGCGCAGGTATTGGAAAGTATTATTAAAAGACTGGGAATTGAAAATATAACTGACGATGTTTATACACAATATTATAATGTGCCAATTTTTTCAGCAGATGATGAGAAAGGTATTGGACTAGGCTTAGATTCCATTGATGCGATAGAGATTATTATAGCCATTAAGGAAGATTTTGATGTAAAAATTGGGGATGAAGATATGGAAGCTTTGCAAAATGTATCTTCCATTGCTGATTTTATAAAAAATAAGAAATAA	MENYQLEAQVLESIIKRLGIENITDDVYTQYYNVPIFSADDEKGIGLGLDSIDAIEIIIAIKEDFDVKIGDEDMEALQNVSSIADFIKNKK	PGPT0011375_976	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK009_04612	1206	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	GTGTTGAGTCCTAGAGTAGTTGTAACTGGAATTGGGCTTATAGCGGGGAATGGTAATAATAAAGATGAATTTTTCGAAAATTGTTGCAATGGTGTGTCAGGTTTAAAAAAGTGTTCTTTGTTTGATGCTTCTATATTTAGTACAGAATACGTTGGACAGATTGAAGAAGAATTTCCGTATTTAACAGAGCTGCCTAGCGATAAAGAAAGAATACAGTTAATCATTGAAAAATGTTTGGTAGAGATGATGAAAGATAGTAACTTAACAAAAGAATATATTTCAAAGTTGGGAAACAAAGCATATCTTTCTTTTGCAACTTCTCTTGGGAATAATGGTAAAATAATGAAATATATGGAAAGTAAATTGAAAGGAAAGCTTGAGCCGGAGTGGTTAATACAAATTCCAAGCCTTTTACCGTGGATAAAGGATTTTATAGGTATAGAAGGCGGTTGTTACACCACAACAACTGCCTGTGCAGCTTCTACTACTTCGGTGGGCATCGCACTTGACTTAATTAAAAGCAAGAAAGCAAGTTTAGTTGTAGTGGGAGGAGCTGACCCACTTAGTGAATTTAGCTGTTACGGCTTCAATTCCTTGAGAGCATTAACTAAATCAGTATGTAAGCCGTTTGATGAGGAGAGAGACGGCATTAATATAGGGGAGGGTGGAGCATTTTTAGTATTAGAATCGCTTGAAAGTGCAAAGGAAAGAAATGCTAAAATCTATGCTGAGATATTGGGATATGGAATTAATAATGATGCATACCATATAACCAGTCCTGATCCGAAAGGAGAAGGTGCGTTTTTATCCATGAATATGGCTATTGCAGATAGTAATAAAGAGCTTGAGAGTATTGATTACATTAATGTGCACGGAACAGGTACAGTACTGAATGACAAAATGGAGCTTAGAGCAATTCAAAATTTGTTTCAGGATACGAATAAAAAGGTATTGGTATCATCTACAAAATCCTTGATTGGACATTGTCTGGCTGCGGCAGGAGTAATTGAACTGGCAGTTACAATATTATCAATTCATAAGGGAATATGTATAAAAAATATAAATTTGTATAACGAAATGAATGGATATAAAAATATAGAGTTATTAAAGGAAAATAAAAACATAAAAATCAGGACCGCTTTATCAAATAATTTTGCATTTGCTGGAAATACAGCCAGTATATTAGTTGGTTCTTACTGCGAATAA	MLSPRVVVTGIGLIAGNGNNKDEFFENCCNGVSGLKKCSLFDASIFSTEYVGQIEEEFPYLTELPSDKERIQLIIEKCLVEMMKDSNLTKEYISKLGNKAYLSFATSLGNNGKIMKYMESKLKGKLEPEWLIQIPSLLPWIKDFIGIEGGCYTTTTACAASTTSVGIALDLIKSKKASLVVVGGADPLSEFSCYGFNSLRALTKSVCKPFDEERDGINIGEGGAFLVLESLESAKERNAKIYAEILGYGINNDAYHITSPDPKGEGAFLSMNMAIADSNKELESIDYINVHGTGTVLNDKMELRAIQNLFQDTNKKVLVSSTKSLIGHCLAAAGVIELAVTILSIHKGICIKNINLYNEMNGYKNIELLKENKNIKIRTALSNNFAFAGNTASILVGSYCE	PGPT0008360_8128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK009_04613	408		COG0824	Putative esterase	ATGAAATATAGATATAATTTTAAAATTCGTTTTGGCGATACAGATGCATATGGGATTGTTCATCATAGAAATTATTATAATTACTTCGAAGAAGCAAGATTTCAATTTTCAGCAGATATATTTGGATTTAATGTGGAATCAGATGTTAAATTTCCTGTTATAGAGTCATCTTGTATTTATAAAAATCCTCTTAAATTTTCTTTGGATTATCATATTTTGGAGGTGGAGTGCAGAATCATTGAAAATGCTAAGCTGGAATTTAATTATATCATTAAAGATAAAACTTCAAAAAAGAAATATGCTTATGGTAAAACGGTTCATGTATTTGTAAATGAAAAGAATAAAATGTGTGTAGAAATACCAGAATGGATAAGCAAAAAATTAGTGGATTCTTCTTTTGTGGTTTAG	MKYRYNFKIRFGDTDAYGIVHHRNYYNYFEEARFQFSADIFGFNVESDVKFPVIESSCIYKNPLKFSLDYHILEVECRIIENAKLEFNYIIKDKTSKKKYAYGKTVHVFVNEKNKMCVEIPEWISKKLVDSSFVV	PGPT0001850_3177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK009_04614	432	fabZ_2	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGGAATTAGAAAAAATCTTAGAAGTGGTACCAATTCGCAAACCAATGTTATGTATTGATAATATTTGTGAGATAATATATGGTCAATCTGCAAAAGGATATAGAAATATAAAAAGGGATGAAGATTGGGCAAAAGGACACTTTATTAATGATCCTATTTTTCCGGGGACATTGATTATTGAAACTATGGCTCAAATTGGAGCATTTATTTTCTATAATGAAGAAAATCCTCAATTGTTAAAGTCTTACTTAGGAAAAGTAAATGATGTTAAATTTCTTCAAAAAGTCATTCCTGATTGCAGAATGTACATTAACGCTGAAATTGTTATGAAAATAAAAAAAATGGCACGGATTCGATGTGAAGCTCTTGTAAATGATGAAATAGTCGCACAAGGTGAATTAACTTTATATTATATGGAAGATTTATTGTAA	MELEKILEVVPIRKPMLCIDNICEIIYGQSAKGYRNIKRDEDWAKGHFINDPIFPGTLIIETMAQIGAFIFYNEENPQLLKSYLGKVNDVKFLQKVIPDCRMYINAEIVMKIKKMARIRCEALVNDEIVAQGELTLYYMEDLL	PGPT0008365_2701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK009_04615	1041	fabF_3		3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGATGAAATATCAATAATCGGAATTGGTGTAATAAGCAATTTAGGTAATGATGTAGAAACGATTTGGGAAAAATTAATGCAAGAGGGTGAAACCCTTAATAGTGGAGATGAAATTCTGTTTGAATCAGGATTATCCTTAAGCCAAAGAAAAAAAGCAAACCGTTATTCCGAAATGGGCTTCTATGTTTCAAAGATGGCTCTTAAGGATTCCAAAATCAATGTAGACAATATAGATAAGAAAAGGGTCGGTACTGTTTATACTACCGGCTATGGGCCGATAGTGTCTTCATTAAAATTTAGTGAAAGTGTAGTCGAAGGTGATTATGAATTTTGCAGTCCGACAATATTTGCCAACACGGTAAATAACACTTGTGTAGGACACATATGCATGCTACTTGGCCTCAAAGGTGTTAGTACTGTTTTAATGGGGAGTAATAATCTAACCTATTCACAGATTTTGATGAATAAGGAGCATACAGACTATATTCTGACTGGAGCGATTGAAGAATATTGTAAAGAATTACATGATACCTTTCAGGTACATGAAAATTCTAAGAATATTTTCATAAAAGAGGGAGCAGTTTCATTATTAGTGAAAAATAAGGATGATTCAGGCTTAGCATACTGCAATATAGTTGATGGTTTCGAATGCAATATTGACAAATACCCTATCACTGACAGAGTAGAGGGAAATAAAGTTAGGGGGAAAATTAAACAATTAATCAGTGAAGCGGTAAAGCAATATGATATTGATGTCTTTTTTAGCTCCTGTAATAATTCATATTTTGATTGTGTAGAGTTAGAAGCTGCTCAAGAAGTATTAAACAAAGATACCTTATATGTCAATCATGTGAAAAATTTATTTGGTGAAACCTTAGGGGCGGCATTTAATATGAATGTTATGGTAGCAGCATTATGTATTAAAAATAGCAGGCTACCATTGAAGTTAGATTCACTTCAGAGGAAGGTCAATTGTGCGCTGGTTTCAGGTTATGATATATCTGGAAATTATATGCTTGCAGTGCTTAAATCAGCTTAA	MDEISIIGIGVISNLGNDVETIWEKLMQEGETLNSGDEILFESGLSLSQRKKANRYSEMGFYVSKMALKDSKINVDNIDKKRVGTVYTTGYGPIVSSLKFSESVVEGDYEFCSPTIFANTVNNTCVGHICMLLGLKGVSTVLMGSNNLTYSQILMNKEHTDYILTGAIEEYCKELHDTFQVHENSKNIFIKEGAVSLLVKNKDDSGLAYCNIVDGFECNIDKYPITDRVEGNKVRGKIKQLISEAVKQYDIDVFFSSCNNSYFDCVELEAAQEVLNKDTLYVNHVKNLFGETLGAAFNMNVMVAALCIKNSRLPLKLDSLQRKVNCALVSGYDISGNYMLAVLKSA				NA	NA	NA	NA	NA
AK009_04616	741	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGGGATTAGAAAATAAAAGAATCATAGTCACAGGTGGCTGCAAAGGTATTGGCAGAGCGATTGTCGAGAAATATTTACAGGAGGGTGCTGTTGTTGCCGCTACTTATTATAAGTCAAAGGATTCATCTGATCAAATGAAAAGCGAATTAGAAAGCTATTCAGACAGGCTGGCTATTTATAACATGGATGTAAGCGATGCAGAACAGGTGAATAAAGTAATGGAGCAAATACAAGATGATTTAAAAGGAATTGATATATTAGTGAATAATTCAGGGATAACCCAGGATAGCCTATTATATTCCATGAAAAATAGTGATTGGGATAAAGTAATAAAGACCAATCTTTATGGACCGTTTTATACTTGCAAAAGTGTCTTATTAAATATGATTAAGCAAAAGTACGGAAGTATTATTAATATAGCATCGGTATCAGGTATAGTTGGGATACCGGGTCAAAGTAATTATTGTGCTTCAAAGTTTGGATTAATTGGATTAACAAAATCGCTTGCTAAGGAATTGGCGTCAAAAAATATAAGAGTAAATGCAATAGCACCTGGATACGTTGATACCGAAATGATAGATAACGTAAAGATTACGAATGAATTGATGCGAAACAAACATTCGCTGGGGAGGATTGGAAGCCCAGACGAAATTGCTAATATAGCTCTTTTTTTGGCAGGTGATGCATCTAGTTATATAACAGGACAAGTTATAGTAGCGGATGGAGGCTTTATTTAG	MKGLENKRIIVTGGCKGIGRAIVEKYLQEGAVVAATYYKSKDSSDQMKSELESYSDRLAIYNMDVSDAEQVNKVMEQIQDDLKGIDILVNNSGITQDSLLYSMKNSDWDKVIKTNLYGPFYTCKSVLLNMIKQKYGSIINIASVSGIVGIPGQSNYCASKFGLIGLTKSLAKELASKNIRVNAIAPGYVDTEMIDNVKITNELMRNKHSLGRIGSPDEIANIALFLAGDASSYITGQVIVADGGFI	PGPT0003180_18908	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
AK009_04617	1908	asnB_2	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGTATTGCAGGGGTCATTGGTGATAATAAAAATTATTCAACTACTATGCTTAATATGATAGAATCCTTGTCCCACAGAGGAAAAGATTCCTTAGGCAGTTACAAAGATGATAATGCTTTATTATACCATACGAGGCTGGCTATTTTGGGAATTGAAGATGGACATCAACCGGTTTTAAATCAAACAAAAACAATTGTTTCTGTAGCAAATGGTGAAATATATAATTATCGAGAGTTAACTGCATCCTTAAAAAAACTCGGATATGTTTTTTCAGATGCCTGTGATACAAATATAATTCCTCATTTGTATGAGGCATACGGAACGGATATGTTTAAAATGATTAATGGACAGTTTGCTATAGCAATTTGGGACAAAAATAATGAAAAGTTAATCTTAGCAAGAGATAAATTTGGTGAAAAACCACTGTATTACAGAAAGATAGAGAATAATATATTTTTTTCTTCTGAGATTACGCCTTTATTAATACCTAAAAAAAGCTATGAGATAAATGCAAAATGCTTAAAAGATATTTGTACGACCTGGGTACCGATTCGGGGAAAAACCTTATATAAAGATATTAATTCGGTTGACAGTGGTCAATATTTGATAATTGAGAAGCATAGGATAACATCGAAGTATTATTACGCTCCGACCTTTCTTACTGATAGCTTTAACAATAAAAGTAAAACGGAGCTATTGGAAGAATTAGATACTTTGCTGAAAAGATCAGTATCGAAACGTATCAACACAGATGTACCGATATCGTTTTATTTAAGCGGTGGACTTGACTCAAGTCTGATTGCAGCAATTGCCTCAGAATATATAGAGGAAAAAATGAATACGTTTTCCATATCGTTCAGCGATAATAATCTTGACGAGGCAGAATATCAGAAGGTTATGTCTGAAAAACTAAACAGTAAGCATCGTCAATTGAAAATTACGGATACGATGATAATTGACAACTTGTATAACGTAATATTACATTTGCAAACTCCGATATTAAGATTAGGTGCCATACCGATGTATTTGTTGGCAGAATTTGTACATAATAACGGTTTTAAGGTTGCGTTATCGGGGGAAGGAGCCGATGAGCTGTTTGGCGGATACGATATATTCAAAGAAGCTAAAATCCGCGCCTTTTGTGAAAGAGATCCCAAATCAAAGTTAAGACCATTGTTGTACAAAAAGACAAATTCCTATATTAATAATTTTAATAATAATAATTCTGCTGCACTGGCAACCTTTTTTAATCAGGTAAAATCAAGTGAGTTGTTTTCAAGCCATGCAATCCGCTTTCAATTTGGGGAATATTGCTCTCAATTTTTTTCGGATACTATGAAAAAAATATTGAAAGATTACTCGGTTAAAGAGGATTTAGCAATTGATCTGCCAAGCGGCTTCGAAAATTATACAAATATATCGAAGGCTCAATATTTAGAAATAAAAACATTTATGAGCAACTATTTATTATCCACACAAGGAGACCGCGTTTCAATGGCACATAGTATGGAATGCAGATATCCGTTTTTAGATAATGATGTCGCTGCCTTTGCATTTAGTTTAAACGATAGATACAAAATAAATGTTTTAAATGAAAAATATATTTTGAAAGAGCTTGCAAAAAAATATTTACCGGATGAGATTATTAACAGAAAAAAATTCCCATATAGAGCTATGATTAGTGGCAACAGTTTATTAAATAATGAAAAAGTCAGTATGGCAGTTTCGGAGGAGAGTCTGAAAAAATATGATGTTTTTAACAGCATTGCAGTAACCCGTTTTTTTAATAAAGTTAGAAGCAAAAATCATACAACCGAAAAGGAGATGATGCTTTTATTGTTTATCATTAGCACACAGATCTTACTGAACCAAAATGATACTGTTATTCATCTAGTCAGCTAA	MCGIAGVIGDNKNYSTTMLNMIESLSHRGKDSLGSYKDDNALLYHTRLAILGIEDGHQPVLNQTKTIVSVANGEIYNYRELTASLKKLGYVFSDACDTNIIPHLYEAYGTDMFKMINGQFAIAIWDKNNEKLILARDKFGEKPLYYRKIENNIFFSSEITPLLIPKKSYEINAKCLKDICTTWVPIRGKTLYKDINSVDSGQYLIIEKHRITSKYYYAPTFLTDSFNNKSKTELLEELDTLLKRSVSKRINTDVPISFYLSGGLDSSLIAAIASEYIEEKMNTFSISFSDNNLDEAEYQKVMSEKLNSKHRQLKITDTMIIDNLYNVILHLQTPILRLGAIPMYLLAEFVHNNGFKVALSGEGADELFGGYDIFKEAKIRAFCERDPKSKLRPLLYKKTNSYINNFNNNNSAALATFFNQVKSSELFSSHAIRFQFGEYCSQFFSDTMKKILKDYSVKEDLAIDLPSGFENYTNISKAQYLEIKTFMSNYLLSTQGDRVSMAHSMECRYPFLDNDVAAFAFSLNDRYKINVLNEKYILKELAKKYLPDEIINRKKFPYRAMISGNSLLNNEKVSMAVSEESLKKYDVFNSIAVTRFFNKVRSKNHTTEKEMMLLLFIISTQILLNQNDTVIHLVS				NA	NA	NA	NA	NA
AK009_04618	696	sfp_2	COG2091	4'-phosphopantetheinyl transferase Sfp	ATGGTGGTGATATATAGAATTAATATAAATGAGAGTATTAAGAAGAATAATATTCAAAATTTATTACAATATATATCTTCCCCTAGAAGAAAAAGAGCAATGAGATTTTGGAATGTTCGTGACTCCTATCGAAGCGTACTGGGAGAAATGCTGGCTCGTTATGCAATATGCCGTCAAAGCGGCTGCTTGAATGAAAGCATTGAAATACAGTTTGATCCAGGGAGTAAACCAAGGTTGTTATTTCCAGCGGGACTTTTTTTCAATATATCACACTCGGGTGATTGGGTATTATGTACAATATCCAATAATTCAGTTGGCATTGATGTAGAGTATATGAAAGAAGTTAATTTACAAATTGCGGAGTCTTTTTTTTCAACGAGTGAATATCAATTCATTTTGAATCATCATTCAGAAGAGGAGTTAAAAAAGAGATTCTATCAGATATGGACTTTAAAGGAAAGCTATGTCAAAGCGGATGGGCGGGGGTTGCGATTGCCCATGAAATCTTTTTCGATGCTTATTAAGGAACACCATATATCAATTCATACTGAAAATGCTTTAAGAAATTGTCAGTTTAAGACGTTTCAAATGGATGAGCAATATATAGTTTCAGTATGCTCAGTACAAGATCCTATAGGTGACAGCATGGAGGATTTAAATATAAAAGATGTGGTTAGCCTCCTTCAGAGTACCTGA	MVVIYRININESIKKNNIQNLLQYISSPRRKRAMRFWNVRDSYRSVLGEMLARYAICRQSGCLNESIEIQFDPGSKPRLLFPAGLFFNISHSGDWVLCTISNNSVGIDVEYMKEVNLQIAESFFSTSEYQFILNHHSEEELKKRFYQIWTLKESYVKADGRGLRLPMKSFSMLIKEHHISIHTENALRNCQFKTFQMDEQYIVSVCSVQDPIGDSMEDLNIKDVVSLLQST	PGPT0008845_1456	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
AK009_04619	1158			hypothetical protein	ATGGAAATTCGCGAAAAAAAACAAAATAAAGTAGTAGTAGCAAAAAAAAGTATAGTAAGTTATATGAGGGAATTAAGAAGTAGAGTATCTGAAGAAAAAAAAGATGTCGATAGATTTTCGGAGCAGGTAGTATCTACTGATCGACGTAGGGGGGTATTAAATGGAAAATATGTAGATCGACTTGTAGTTTTTTTAAAGGGAACTGGATGCAGCATTATTAAAAAGAATGGCGGGTGTACTTGCTGTGGCTTTTATTCTATTTCCAATCTAGGTGATAAAATAGAAGATTCCTTTTATATTAAGGAGATTCACGACATAATTAATGATCAAGATAACAAAATATCAGATTTTAATATAGTTTGTTTATATAATGACGGAAGCTTGCTCGTTGAGGAGGAATTAAGCTTTAAGGTATTAATCTATATGATTCAAACCTTAAATTCAATTGATTCAATAGAAAAAATAGTAATTGAAGCAAAGGTAAATGACATTACGGAAGAAAAGTTGAAAAAAATCAGAGAAGTTACGGATAAAGCGTTTGAAATTACAGTTGGCTTTGAATCAGCCAATCAAAAGGTAAGAGAATTATGTGTCAACAGACCGTTTACCAATGAAAGCTTTGAAAAAAAGGTAGAGCTGGCTAAGGCTTATAATATCAGTATAGTGCCGCTGTTAATGGTAAAACCAGCCTTTTTGTCGGAAATTGAAGCAGTTGAAGATTTTGTATCAAGCTTAGTATATCTGGAAAAATTCAATCTGGAAAGGATTGATATGGAATTACCAACCGTTGTAAGAGATACACTCAACTATGACTTATGGGCTAAGGGGATGTATAAGCCTATTACGTTTTGGTCTGTTATAGAAATATTACAGCGAAGAGCCAAACTTGATTTAAAAGTGCCTCTTTATATCAGCCCAATGGTTTATTCGGTAGAAGCTGTTGATAAAGCTGGTAATTGCGATAAGTGCAATGAATCCATTTATAAAATGTTTGAGCAGTATAACGAAAGCGGAGAGGTATCAATTTTTGATAAGGTTGATTGCGGTTGTAAAGAGAATTGGAAGCAAATGATGAATGAAACAAGTAGTATTAACAATCTTGAGGACAGAGTAATTGATGTATTAAATGAATTAAAAAGTAATCCTGTAAACTCTTAA	MEIREKKQNKVVVAKKSIVSYMRELRSRVSEEKKDVDRFSEQVVSTDRRRGVLNGKYVDRLVVFLKGTGCSIIKKNGGCTCCGFYSISNLGDKIEDSFYIKEIHDIINDQDNKISDFNIVCLYNDGSLLVEEELSFKVLIYMIQTLNSIDSIEKIVIEAKVNDITEEKLKKIREVTDKAFEITVGFESANQKVRELCVNRPFTNESFEKKVELAKAYNISIVPLLMVKPAFLSEIEAVEDFVSSLVYLEKFNLERIDMELPTVVRDTLNYDLWAKGMYKPITFWSVIEILQRRAKLDLKVPLYISPMVYSVEAVDKAGNCDKCNESIYKMFEQYNESGEVSIFDKVDCGCKENWKQMMNETSSINNLEDRVIDVLNELKSNPVNS				NA	NA	NA	NA	NA
AK009_04620	138			hypothetical protein	ATGATAACTCCCCAACATCTGACAAGATCAAGTGCCGGTCGTCAAGGTACTAGTTTATTATCAGATGTTGGGGACCTTTCACGTTATTCTCATCCTCGACAAATTCAAAAACCGGATGGTTTTTTTGGGAAAACATAA	MITPQHLTRSSAGRQGTSLLSDVGDLSRYSHPRQIQKPDGFFGKT				NA	NA	NA	NA	NA
AK009_04621	1701		COG1132	Putative multidrug export ATP-binding/permease protein	ATGATGTCAATCATTCAAAACATAAGAATATATTTTAAAGAATACTTGGCAGATTATAAAAAAGAAATAGTACAAATATTCTTTCTTCTTGCTGTAGGAATAGGTATCAGCATTACTCTTCCTATTATAGTTAGTATTTTTATTGATAGTCTAGATAATAGCAGCTATCAAAGTGACTTTTTTATAAGTCTTGCCGGTATCTATCTAGCTATGCTTTTTGTAAAAATAATAGTTGAAACAATTAATTCTTATATCAGTGAACGTTTGGGATGGACGATTAGTAATAAATTAAGAGTCAATTTGGTAAGGCATAGTATTGATCTGGACTTTAACTTTCATAAGAAGTATAAAACAGGAGAGATGATCGAAAGAGTGGACGGAGATGTTACTTTTCTATCAAATTTCTTTTCTATGTTTTTGGTTAATATAATCGGTAATTCCATATTTGTACTGCTCATTATTACTATGTTTTATATAAAAAGCGGACTGATAGGCATATGTTACAGCATAATAGCTATTTTTGCATATTTTGTATTCTTATCTTTACAAGAGAAAATTGTGAAACTATGGACTGCATATAGAGAAGATGAAGCCCAATTATATGGTTATATACAAGAAAGTATTTCTGCAAGAGAAGATATACTTGGGATAGGGGAAAAAAATTATTTTAAAAGCTTATTAAAAAAATATTTACATAAAACAAAAGTAGATTTCAGAAAAGCTGTTGTTATAAGTAATATTCCGACTTCTGGTTTTTTTGCGCTTCTAAACGTTGGAGATTTAATAGCAATTGGTATCGGAGTCTATTTGTTTTATAAAAATGAAATGACAATGGGGACTATTTATCTAATAAGCACTTATGTAGGCTTGCTGAATAGACCTTTTATAGCGCTTCGATATGAGTTAGAAAATTTGCAAAAAATAGGAGCATCTTTAAACAGAATTTCAGAATTATTTGCTTTTCAAAGTAAAATAAGTACCGGAAATATAAAGCTGAATAAAGAAAAACTTTCCATTGATGTTAAAAATGTATCCTTTTCGTATGGAGATACTCCAGTTTTAACAGATATTTCGTTTCAGGTAAAGCAAGGGGAAACAATCGGCATCGTTGGTAAGACAGGCAGCGGGAAAACAACATTAATTAAATTGCTTGCGAAAATGTACGACATAGAAACAGGAAGCATATTGATCAATGACAAGAATATAAAGGAATTAGATGTAAAGGATTTTTACAAGCATATATGTTTTATATCCCAAAACAGTAGAATTTTTAACGGCACTGTCTATGAAAACTTAACATGCTTTGATTCCTCTGTCAGCCATAAAGAAGTAAATGATGTAATAGAAAAAATTGGGCTGACTGACTGGGTAGCTAGTTTGCCAGAGGGCATTCATACAGTCATCAATCATTCTATGCTTTCGGCAGGACAGGAGCAGCTTTTGTACATTGGAAAAGCATTTCTCAATGAAGCGCAGCTCTACATTTTTGATGAAGTAAATTCGAAATTGGACGAAAAATCGGAAGATAAAATTTTCCAAGCATTAAAAAAGTTAACGTATGATAAGACCGTTTTTATTATAGCTCACAAACTGAAATTGCTTGAACTAGTTGATAAAGTGCTAATACTTGAAAATGGAAAAATTAAACTTTACGATGAACGCAAACATGTATCAAACAGAATTATAGAAGGGAATCTGTAA	MMSIIQNIRIYFKEYLADYKKEIVQIFFLLAVGIGISITLPIIVSIFIDSLDNSSYQSDFFISLAGIYLAMLFVKIIVETINSYISERLGWTISNKLRVNLVRHSIDLDFNFHKKYKTGEMIERVDGDVTFLSNFFSMFLVNIIGNSIFVLLIITMFYIKSGLIGICYSIIAIFAYFVFLSLQEKIVKLWTAYREDEAQLYGYIQESISAREDILGIGEKNYFKSLLKKYLHKTKVDFRKAVVISNIPTSGFFALLNVGDLIAIGIGVYLFYKNEMTMGTIYLISTYVGLLNRPFIALRYELENLQKIGASLNRISELFAFQSKISTGNIKLNKEKLSIDVKNVSFSYGDTPVLTDISFQVKQGETIGIVGKTGSGKTTLIKLLAKMYDIETGSILINDKNIKELDVKDFYKHICFISQNSRIFNGTVYENLTCFDSSVSHKEVNDVIEKIGLTDWVASLPEGIHTVINHSMLSAGQEQLLYIGKAFLNEAQLYIFDEVNSKLDEKSEDKIFQALKKLTYDKTVFIIAHKLKLLELVDKVLILENGKIKLYDERKHVSNRIIEGNL				NA	NA	NA	NA	NA
AK009_04622	1563	lmrA	COG1132	Multidrug resistance ABC transporter ATP-binding and permease protein	ATGTATAAAATATTAAAAATTGCGCTAAAGCATACATTATTAATTTACTTGTTTGTTGTATTATTTGATGCTATTTCCTATTCAGTTATTTTTACTATTACTGGGATAGCAAGGCGGGATATTTTTAACGAATTGCAGGGCTTGGAAACCATTATCAATCTTAATATAGTAGCATTAGTTATTTTGTCTACCTTAGCACCTCTCGTTGTTAACGTTACGAAGCAAATAAATGGATATTTATTTTCCACAGCACAGCAAAATATAAGTAATAACTTAAAGGAATACATATATAAAATCATTTATAAGTTACCAATAAATAAAAAGTTTAATGATACTTCAGGAGAAGTTATTACCCGTTTTCGTGATGACAACGCAGATATAGTCAATTTTTTTACTGAAATATATAATCAAACTCCAAAATTAATGATGTCAGTTATTACTCTAATCATAATGTTTAAAATAAACACATTCTTAACCATTATCAGCGTAGTACCGTTGCTTATCGTAATATTTACAATACATCTTATTCAAGGAAGGCTTGTTAAAAATAAAAGGCTGGCACGTCAGTCTACGGATAAAGCAACACAGTTTTTGGGTGATATATTTAGTTCCTTGGATACAATAAAAGTATCGGATAAAACAGAGGAATATGTGAAGCATTACAAGGGATTATGTGAGTCCAGAGGAAGATATTCCATTAAGGATGCATTTTTACAAAATCTATTATCACTTTTTTCTTTGAATCTAATGTTTTTCGCTTTGGCTGTGATTCTTTTCTTTGCTTATAATGCGATTAAAGCTGGTACTTTTACGATTGGTGATTTTATTTTATTTGAGTATTATTTCTGGTTCTTAACAGATTTACCAGGAGTATTTAGCAGTGTATACAGCAAATATAAGCAATTGGCTGTTGCTAAGCAGAGGATACAGGAATTTGACCTATTAGCAGATACAGAAAATAATACTATGAAGCACAGTGACAGCGTTAATGGAATCTTTATTCAAAACAAATATGAGATAAAGAAAAATGAATTGTGCTTAATAAAGGGGGAAAATGGTAGTGGAAAAAGCCTGCTTTTAAAGAATATTTTTACGAATCAATCGAATGAAATTTGTTGGCTGACAAAGGATGGATATGCCAATAATATATCAATGAAACCGCCGCAAATATGCTATCTTTCTCAAACGACACGCTTATTTTCAGATACAATAAAAAATAATATCTGCATGGGATTAGAATACGATGAAAAGAAGTTTTTGGAAGTATTGAAAGTGGCAAGCTTAGAACATGAATTTCAACAAGGGAAGCTGGGGTTAAACACCCATGTGGGAAATAGTGGAGATCAACTGTCAGGCGGACAGATTAAAAGACTAGCATTAGCCAGACTGCTTTATAGGGAACCAGAGGTTATTTTATTGGATGATTTAACAAGTGGATTAGACGTAGTGACGGAACAAAGAATAATGGAAAATTTAAAGACGTTAAAAAACAAGATTATTATTATAGCGTCTAACAGCGTTCAATTAAATCAATATGCAGATAAAGTTATTTCAATTGATTAA	MYKILKIALKHTLLIYLFVVLFDAISYSVIFTITGIARRDIFNELQGLETIINLNIVALVILSTLAPLVVNVTKQINGYLFSTAQQNISNNLKEYIYKIIYKLPINKKFNDTSGEVITRFRDDNADIVNFFTEIYNQTPKLMMSVITLIIMFKINTFLTIISVVPLLIVIFTIHLIQGRLVKNKRLARQSTDKATQFLGDIFSSLDTIKVSDKTEEYVKHYKGLCESRGRYSIKDAFLQNLLSLFSLNLMFFALAVILFFAYNAIKAGTFTIGDFILFEYYFWFLTDLPGVFSSVYSKYKQLAVAKQRIQEFDLLADTENNTMKHSDSVNGIFIQNKYEIKKNELCLIKGENGSGKSLLLKNIFTNQSNEICWLTKDGYANNISMKPPQICYLSQTTRLFSDTIKNNICMGLEYDEKKFLEVLKVASLEHEFQQGKLGLNTHVGNSGDQLSGGQIKRLALARLLYREPEVILLDDLTSGLDVVTEQRIMENLKTLKNKIIIIASNSVQLNQYADKVISID				NA	NA	NA	NA	NA
AK009_04623	1020			hypothetical protein	ATGTTAAATGAGATAAAGCCATTTTACAGCAAAAAGAATGTATGTATCGAAAATCTTTACACTTCAATGTGTAAAGCATTGAATAGAAATGATAAAGATATTTATGCATATTCGTGGAATTTTGGTTATATACAACACAATGAAAGTTTTGCCAGAAAAATTAAGTTTAGCCGGGATGGTCAAGCAATCAATACGGAACAAAGCTATGCATTTGAGAAATATTGCGGGATAAAACCGATTTGGCATATGAATTGTGATATGGAATATTTTATTGATATCGTTAAAAAAGAGTTGGAGGCAAATCGGCCTATCGGTTTAGGGATAGATATTTTTTCCTGTAATTGGCATGTGTTTGCAAATAAATATCATTTTGTGCATTATTGCTTGATAGTTGGGATAGATGACCAAGGTTTCATATGCATTGATGATACTTTGGCTAGTAATGATGGTGTTTTAGCTGTATCACCAAGGCCAGAGAATGTAAGAATTGATTTTAATACATTTAAAAAGTATAACTTTGGTTTTGTAACGTTTGAAATCACACCTGATATTCCGTATGTTTCCTGTGATGAGCTGATTTACTTATCTGTGCTTAAAACAATGACTGGATTTAATGGAATTAGTGATTTTGATAATATGAGAAGTCTTCTGTTGGATATCGAACAGCATTTCGATATTGATAAAGAAATAGGAGAAACGAATGATATAAGAGCAATAGAAGTGATTCGTTCGTTCGGATGCATTGCATGGAGTAGGAATAATTATAGTATGTTCTTAATGGATAAAAAAGACCACAGCGATTTTGACATTATATATATAGCAGGCAAAATGACCGAAGCAGCAGCTTTATGGGAAGCAATAAGTAATTATATTTTGAAATATGCCCTTGATGGAAAGGACGGTAAGTTTAACAAAAAGCTGGTATGTGATCAATTGAATAAAATTATTACACTAGAGGAAAATTTGGCAAAATATATAGTAAAGGAATATGAAACAAAGAAATATTTACAAAATATTTAG	MLNEIKPFYSKKNVCIENLYTSMCKALNRNDKDIYAYSWNFGYIQHNESFARKIKFSRDGQAINTEQSYAFEKYCGIKPIWHMNCDMEYFIDIVKKELEANRPIGLGIDIFSCNWHVFANKYHFVHYCLIVGIDDQGFICIDDTLASNDGVLAVSPRPENVRIDFNTFKKYNFGFVTFEITPDIPYVSCDELIYLSVLKTMTGFNGISDFDNMRSLLLDIEQHFDIDKEIGETNDIRAIEVIRSFGCIAWSRNNYSMFLMDKKDHSDFDIIYIAGKMTEAAALWEAISNYILKYALDGKDGKFNKKLVCDQLNKIITLEENLAKYIVKEYETKKYLQNI				NA	NA	NA	NA	NA
AK009_04624	828	prmC_1	COG2890	Release factor glutamine methyltransferase	ATGGTAGTGAATACGAAGGAAATAGATAACGAAAATGTATATGCGGGGTTAGTGGAAACTTATTTAGTGAAGAACGCCTTTCAAGAGCCTAAGCTAGAAATTAAGATAATTGGTGAAGTTTTAGAAAATAAATTAAATGAAAACAGATATGAAGAAGTTATGAAATGGTTAAGTGAAAAAAGACCAATTCAATATTATGCGGGCTATACTTATACCTTCGATAAAAAAATTATTATAGATAGAAATGTAATGATACCGGGCCCAGAAATGGATATTTTTATCAATACAGCAAAGAAATATATGACGAATTGTCATAAGGTTATGGAATTATGTACAGGAAGTGGGGTTATTCCTGTTATGCTAGGAATGGAATATCCAGATGTAGATTTTTATGCATCTGATATATCAGATAAAGCATTAAAAGTTGCACAGGAAAATATTAATTTTTATCAATTAAAAAATGTTCATTTGTTAAAAGGAAGTATGTTTGAACCGTTTGAAGAACAAAATAAAACAGGATTTGATATGCTGATATCAAATCCGCCTTATGCTAAAACAGGAATTATAGGAGATTTAATCCCGCAATTGAAGGATAATGCTCCTAGAATATCTCTTGATGGTGGAGAGGACGGCTTAGATTTTTATAGAATCATACTTGCAAATGCGCATAAATTCTTAAACAAGAATGGATATATTATTTTTGAAAACGGAGAAGACCAATCAGAAAAGATACAAGAATTATTTATTCAAAACGGCTTTAAGGTAGTTGAAGTTGTTAAGGATTATATTAATATAGAAAGATTTATTGTAGGCAGGCTAGAAATCTAG	MVVNTKEIDNENVYAGLVETYLVKNAFQEPKLEIKIIGEVLENKLNENRYEEVMKWLSEKRPIQYYAGYTYTFDKKIIIDRNVMIPGPEMDIFINTAKKYMTNCHKVMELCTGSGVIPVMLGMEYPDVDFYASDISDKALKVAQENINFYQLKNVHLLKGSMFEPFEEQNKTGFDMLISNPPYAKTGIIGDLIPQLKDNAPRISLDGGEDGLDFYRIILANAHKFLNKNGYIIFENGEDQSEKIQELFIQNGFKVVEVVKDYINIERFIVGRLEI				NA	NA	NA	NA	NA
AK009_04625	1128			hypothetical protein	ATGAATAATAAATGGCCTATTACAGGATATGCAATGCATACAGCTGCGGGTACAGAGTGCAATTTTAATTATGAAAGAAATATTGGCTTTACAGAGTCAAAGAATTCTGATTGGACAAATTGCGTTAATCAAAGTAACATTCAGAATGTTTGTGAAATTATAAAAAAAACAATAGACCGTGCAATTCATAATGCAAGGCTTAATATAAGCTCAGATTATATTATAAGTTTAATCATTGCATCTAATTTTTTTGAAAATACTTTTTGGGAAAAAGATGAAATGAAGACAATGAAAGATGAAAATTATATTACCACATATTTAAAAGATATTTATCCTATTAATGGGGTAATTGTATGCAATTCTACTGCGTGTTCCTCTGGTGGAAATGCCATTGTTACAGCGTGTCAAATACTTGATGATAATAAAACGGATGTTGTTATTGTATTAGGCTATGATATCGAATCGGAAATTCCTAAAAATGGAATGAGGAGAGTAGGAGCGTTGTCAAAGCATAAAATTGCACCCTTTTCTTTGGGGCGAACAGGTACAGACTTAGCGGACGGAATTGGTGTAATGATTATTGAAAGCTCCGAAACGGTAAAGGCAAGATCTGCCACAGTACATGCTAGTATTGTGGGGTACGGTGTGAATAGTGATGCTTATAATATTACTTCTCCTGAACCATCTGGTACTGCATTATTAAAAGCAATGAAAGGTGCCATCAATATGGCTGGGATACCCATAAATGAAGTTGACTATATTAATGCACATGGATCCGGAACAAAGCTAAATGACATCATAGAAACAAAAGTGACTAAGGAGCTTTTTAAAGAGCATGCGTATGAGTTGTATATTAATTCCTCAAAATCAATGATTGGACATACATTAGGAGCAGCCGGTGTAATAGAAGTAATCATTACCATTATGCAAATGGATCAGGGGATTATTCATCCGACAGCTAATTTTTTAGGTAATGACGTAGAATGTGATTTAAATTATTGTTTTGAGGAGAAAATAGACTGTTACATAAAATATGCAATTTCGAGTTCAATCGGTTTTGGGGGTACCAATGTTTGTATTTTGTTAGAAGGGGGTAGGAGTTATGCAGAAAAGTGTTGTTATAACTGA	MNNKWPITGYAMHTAAGTECNFNYERNIGFTESKNSDWTNCVNQSNIQNVCEIIKKTIDRAIHNARLNISSDYIISLIIASNFFENTFWEKDEMKTMKDENYITTYLKDIYPINGVIVCNSTACSSGGNAIVTACQILDDNKTDVVIVLGYDIESEIPKNGMRRVGALSKHKIAPFSLGRTGTDLADGIGVMIIESSETVKARSATVHASIVGYGVNSDAYNITSPEPSGTALLKAMKGAINMAGIPINEVDYINAHGSGTKLNDIIETKVTKELFKEHAYELYINSSKSMIGHTLGAAGVIEVIITIMQMDQGIIHPTANFLGNDVECDLNYCFEEKIDCYIKYAISSSIGFGGTNVCILLEGGRSYAEKCCYN				NA	NA	NA	NA	NA
AK009_04626	1089			hypothetical protein	ATGCAGAAAAGTGTTGTTATAACTGATACAGAAGCACTATCACCTTTTGGCAATACAATCAATGAAACTTTTAATAGCTGGATGCTTGAGAAGAATATTTTAAAAGAAAAGTTTAATGTTATATCAAATTTTGACTTTTACAGCTATTCTTACAAAGTGAAGACTCGGATTGATAGGTGCGGACAGTTATGTATTCGAACAACTGCCCAGCTTATCAAGGAAAAATCCTTGTGTGATAAGGATAGAATCGGCCTGATTACAGTATCAACTTATGGATGCTCTGAATCAAGGAATAATTATTTCAGCCAATTAAAAACCCTGGAGAATACACAATATGCCAGTCCTAAGGATTTTGTTCAGTCGATATGCAATATACCAAATTCCTTAGCAACTATTGAATGTGGTATCAGAGGACTTACCAACCATTATGTAGGAGCATCAGATGCTTCATTGACAGCACTTTGGCAGGCAGCTAAATGCGTGAAGGATAATATCGCAGATGAAATAATAATCAGTTCATTTGAAACAATCACAGAGGCACAAAAAGGGTTTCTAGTCGAGAATCAGCTTGAAGAGGTTAAGTTTAGTGAAGCAGCAGCAAGTGTTAAAGTGCAATTAGGAGAGAATATTGATAAGAAGCTGGTATTATTTGAAGTATTAGGAATTGGTTTCGGAGTTGGTCCTAAAACAGAGAAGGCAGTGGAAATTGCGATAAACAATGCTATGAAAGACAGCAAGATTAGTGAACAAGACGTTTCTTTTATCGTATCGAATTCTAATTCCATCAGTGAATTTAACAAAAACGAAAAAAGAGGAATTGAACATTTATTTAGTAATTCCGTACCCACTTTTATGATGAAAGCTTATATAGGCGAATGCTTTGCTCCTTTTTCATTTTTAGCTATGGCAATATTAAGTAAGATGGCTGGTTACTATTTACCTAATAATTTGTTTTTGGAAGCGGATGCTGGGAATGCAAGCTATTTGTATTATGATAACGTTTTAATAAAAAAGGGAAGCATCCTGTTATTAATAGGATATAATGAAATGGGTAGTGCAGCAGCAGTATGCTTAAAATATGGACAGTAA	MQKSVVITDTEALSPFGNTINETFNSWMLEKNILKEKFNVISNFDFYSYSYKVKTRIDRCGQLCIRTTAQLIKEKSLCDKDRIGLITVSTYGCSESRNNYFSQLKTLENTQYASPKDFVQSICNIPNSLATIECGIRGLTNHYVGASDASLTALWQAAKCVKDNIADEIIISSFETITEAQKGFLVENQLEEVKFSEAAASVKVQLGENIDKKLVLFEVLGIGFGVGPKTEKAVEIAINNAMKDSKISEQDVSFIVSNSNSISEFNKNEKRGIEHLFSNSVPTFMMKAYIGECFAPFSFLAMAILSKMAGYYLPNNLFLEADAGNASYLYYDNVLIKKGSILLLIGYNEMGSAAAVCLKYGQ				NA	NA	NA	NA	NA
AK009_04627	366			hypothetical protein	ATGGGCACATTACAATTATTTAATTTATTACAATTTATTGGTGGTATTATTCTATCAGTGGGCTACATTCCACAAATCATTAAAATTTTAAAAACAAAATCAGTACAGGACTTTTCAAGAATTTATGTAGGTGGAATCTTCACAGGGGTACTATTCATGGAAGCTTACGCTGTTTACATGTGGTTCGTAATGCATACTGCTGGCGCGTTTATGATTACAAATACAATCTCTTTACTTCTATCAGGTTTAGAGTTCTTCTTAATTTTCCTGTACTACAATAAAAGTAATAACAACGGACTAGGGGTAAAGCCGCATGCCCATCAACTTAAGAGTGGAAACGCCATAAACTCTCATTTATATAAATGA	MGTLQLFNLLQFIGGIILSVGYIPQIIKILKTKSVQDFSRIYVGGIFTGVLFMEAYAVYMWFVMHTAGAFMITNTISLLLSGLEFFLIFLYYNKSNNNGLGVKPHAHQLKSGNAINSHLYK				NA	NA	NA	NA	NA
AK009_04628	405			hypothetical protein	ATGTTTAACAAAAAACAAACATTCGTAACAACGGTAACAGCTTTAACATTAGGATGTGGATTTACATTCGGATTAACACCGGCCTTTGCAGATTCTAACAAGATTTCCGCCAATAATATTCCTGTTCATACTATTCAGAACCAAGAACAAGAACCTTTTACCGGATATGTCATTTCAGTAGAGAACAATTATTTAGTAGTTGCTGCTACGTCTACAAAAGATGAAGCTCTTGCTTATCAACATGATTGGTGGGATCTGGTTTCTCAAAATAAGATTTTAAGGGTCCCTATTTCAGATGGTGAAAACTATACATTAGGTGAGAAATTAAATGTATATGCAGCTGCATGGACTAAATCTCTACCACCAATAGCTGTTATGCCTACAATTGAAAAAGTATTTCAGTAG	MFNKKQTFVTTVTALTLGCGFTFGLTPAFADSNKISANNIPVHTIQNQEQEPFTGYVISVENNYLVVAATSTKDEALAYQHDWWDLVSQNKILRVPISDGENYTLGEKLNVYAAAWTKSLPPIAVMPTIEKVFQ				NA	NA	NA	NA	NA
AK009_04629	294	pagR_3		Transcriptional repressor PagR	ATGATAACATTAATATCTGAAAGAAATCTAGCTGAAATCCACGAAGACGATGTAGATGTATTAAAAGTAATGGCACATCCTGTTCGATTACAAATTGTAAATGAATTAATGCACCATAAAATGTGTAATGTTACACAGTTAACGGAAATATTAAGAATCCCCCAATCCACTGTTTCACAACATCTATCAAAATTAAGGGGAACCGTACTCCGTTCAGAAAGAAGAGAGTTAGAGATGCATTATTATATAGATAATGCTAAGGCACGTCAGATTGTTGAAATTTTAGGTTTGTAG	MITLISERNLAEIHEDDVDVLKVMAHPVRLQIVNELMHHKMCNVTQLTEILRIPQSTVSQHLSKLRGTVLRSERRELEMHYYIDNAKARQIVEILGL	PGPT0004300_314	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_04630	105			hypothetical protein	ATGAAGGGAAAAGAAGTAGCAAGCTGCTCAAGTGATAGAAAAGTAGTAGAAGAAAACCCAATAGCATTTAACGAGCAAACTTTAGAGTTAGTAAACCATTTGTAG	MKGKEVASCSSDRKVVEENPIAFNEQTLELVNHL				NA	NA	NA	NA	NA
AK009_04631	360			hypothetical protein	ATGAAGAAAACTCTTAGTGAAATTATTAAAAATTATCGTTTAACAAATAAACTATCCTTGCGCGATTTTGCTCAAAAATGCGATGTTAGTCATACTTATATAGACAAACTTGAAAAAGGCGTAGATTCCAGAACAGGAAAACCTGTAGAACCAACACTATTAGTAATTGAAAAAATAGCAAACGCCATGAATATAAGTACTAAATCCTTATTAGAAGAAATAGGATTCATTGCAAAAGATAGTACCGAAGTACATAATACAGAATTAGAGAAATGGTTTATATCAATTAAAAGTGCCTCTCCCCAAAAGCGAGAGGAATTAAAGAAGTTTTGGGAATTTATAATACAGAAAGAAAATTAA	MKKTLSEIIKNYRLTNKLSLRDFAQKCDVSHTYIDKLEKGVDSRTGKPVEPTLLVIEKIANAMNISTKSLLEEIGFIAKDSTEVHNTELEKWFISIKSASPQKREELKKFWEFIIQKEN				NA	NA	NA	NA	NA
AK009_04632	198			hypothetical protein	GTGAATAAGATAGCTGAATTACGGAAAGAAAAACTAATATCACAAGAAAAATTAGCGGAACAAGTTGGTTTATCGCGCACTTATATTTCTGAGATAGAGAATAATAAAAAACAACCCAATGTTAAGTTAGCTATAAAAATAGCAAAGGTTTTGGGAACAAGCGTTGAATCTATTTTTGGAACCACTTGTAAACTATAG	MNKIAELRKEKLISQEKLAEQVGLSRTYISEIENNKKQPNVKLAIKIAKVLGTSVESIFGTTCKL				NA	NA	NA	NA	NA
AK009_04633	411			hypothetical protein	ATGAACATGAAAACATTTGAAATGCGTGAAAAACGTTTAGCAGAACTACTAGGTGCAAAAGTACTATGGGAATTTATTAGTGCCGTCACAGAGGAAATTGAAAAGCAGGAATTAGAGTCTACACCAGGTTTGTTAGAAGATCTATTCATACATGTGAAAGAAACCATTCAAATTCAAAATATGAATCAACGCATAACAAAAGCCCCTGTAAAAACAGAGGCTGGTAGTATAGATAAAGAGACATTATATATGGAAGCATATGTAGAATTAATTAATCATAAGTTTGTTATTTCTGAATTAGCTGTAGAGCTTTCATCTGTTCTAAAAGAATTAAATTGTTTTGTTCAATCATCTTTGCCACAGCTTCAAAGTAAGCTTGATTCTCAAGAACCTCGAGCTGCTTCTCTTTAG	MNMKTFEMREKRLAELLGAKVLWEFISAVTEEIEKQELESTPGLLEDLFIHVKETIQIQNMNQRITKAPVKTEAGSIDKETLYMEAYVELINHKFVISELAVELSSVLKELNCFVQSSLPQLQSKLDSQEPRAASL				NA	NA	NA	NA	NA
AK009_04634	267			hypothetical protein	ATGGAAATTCTAGGATTAGATCCTCGCGCATTAGCGACTTTAGGTGCACTTGAATACACCAATCGTCGCAATAAATTAATTGAAGACTCGGAGAATAACATTTACGAGTGTAAAGAAATAAAAGAAATACTTCAATCACTCCCTAAAGAGAAGCAGCTCGAGGTTCTTGAGAATCAAGCTTACTTTGAAGCTGTGGCAAAGATGATTGAACAAAACAATTTAATTCTTTTAGAACAGATGAAAGCTCTACAGCTAATTCAGAAATAA	MEILGLDPRALATLGALEYTNRRNKLIEDSENNIYECKEIKEILQSLPKEKQLEVLENQAYFEAVAKMIEQNNLILLEQMKALQLIQK				NA	NA	NA	NA	NA
AK009_04635	297			hypothetical protein	ATGACTTGGTTCATTATTTTAGGATTTATGCTTATTTTAATAATAAGCGGTTTTCATGCACATAGTATTCATATCATTTTCAAAATAGGTTCAGATACAAAAGCTGTGCCAAGTTGGTCTTTCGTTAATAAAATAAACTTCCAAACATTAAAAGAATTAATAAAAGGACTAAATAAGGATAAACTTAAAATCCTTACAATAGGAGAACTTGTTATTCCTTTAAGTTTCTTTAATAGATTATTTAGCAAAACATTAATTTTTCTATTCCTATTCTTTTACTCTCAATACTTAAACTAA	MTWFIILGFMLILIISGFHAHSIHIIFKIGSDTKAVPSWSFVNKINFQTLKELIKGLNKDKLKILTIGELVIPLSFFNRLFSKTLIFLFLFFYSQYLN				NA	NA	NA	NA	NA
AK009_04636	243			hypothetical protein	ATGAAAGAGATAGAAATTATAAAATCAATAGAAAAAATAACCATTACATGGCAAAGTGCAACAATAAGTATTCCATTAGAAGATATAATTGAGATTAATAATACGTGTAAGAATACTAACAAAGCAGTGGAAATCGGTAATAAGTTCAAGCATTCAGAAACTATCTTTATTAGAACAAAAAAATTGGATTATATATTATTTACAACTAATAAATTAACGCTTCTAAATAAAATTAAGTTCTAA	MKEIEIIKSIEKITITWQSATISIPLEDIIEINNTCKNTNKAVEIGNKFKHSETIFIRTKKLDYILFTTNKLTLLNKIKF				NA	NA	NA	NA	NA
AK009_04637	1161	xerC_7		Tyrosine recombinase XerC	TTGAAATTTGAATTAGATATTGTTCATAGTCAGACTTCTTTAAATAACATAGAGAAACAAAAACAAAATTTTACAAATCTAATTGCATTATGGAACCCTGATTATATAAATGAAGCGGAATTAAAAAAGGAAAATAATGAAAGAGAAGATTCATATACATATGAAGGATTTTCAGATGAAGAAATACTGTACTACTACTTGAATCGACAAACACATTTTGACCAAGGAAAACGAATCAAGGATGCATCAAGAATTCTATATGCACGTGATTTAAGTCAGTTTTATTTCTTCATTAAACAAAGTGAGGAATTTCTACAGAAAGATGTAAAGGATTATAAATTTGGTCAAGTATGGAGAAACCTTAGAAAACGACATATCCGTAATTATCAAAAATGGTTATCTCAAGAGGCAATATCCTATCAGTCAAAAGATAAATACAAGCCATCTACAATTAGTAGAAAGCTTGGAGTTATTCGTTCATATTTGAAATGGCTATATGAAATCCAATATATTCAGGATCCTCTACATGTTGAAATACTAAGTACAACTGTAAATAAACAACATAAACCTAAACGTGAGTTATCATATGAGGAAGTAAAACAGTTACTTCATTACTACAAGGATAATGAAATCAATTACGCTTTATTGTCAGTTCTAGCTACTACAGGATTACGTGTTGCAGAAGTAGCACATGCAAAGTGGGAAGATCTTGAGTATGATGCTATAAGAGGTCGATACTATTTAAAGGTTGATACAAAGGGGGATAATGAACGGATTGTTTCTATTAATAAGGAGATTTTTAATCGGATTGTAGCATTTCGAATTCGGCGAAGATTACCAATAGACATTGGGAATGGAAATGGTGGAACAGTATTTCAAACTAAAAACCATACTCCTTATAGAGAGAATTATTTGTCACAATATATTTCTAAAATCATTAAGGATACCCAGCTATCCTTTACAGTGAATATTGGAATTACTCCCCACTTCTTTAGACATTTTTATGTGCAGTACTTATATGATTACAAAAGATTACCACCTCATATTATTGCAGCAGCAGTAGGTCATAAAAATGATCGGACTACAAAAGAAAATTACCTAAATCAGCGATTGACGAAAGATAATGATGCCGGTAATTTAATTTTAGAAGATGAATTTTAA	MKFELDIVHSQTSLNNIEKQKQNFTNLIALWNPDYINEAELKKENNEREDSYTYEGFSDEEILYYYLNRQTHFDQGKRIKDASRILYARDLSQFYFFIKQSEEFLQKDVKDYKFGQVWRNLRKRHIRNYQKWLSQEAISYQSKDKYKPSTISRKLGVIRSYLKWLYEIQYIQDPLHVEILSTTVNKQHKPKRELSYEEVKQLLHYYKDNEINYALLSVLATTGLRVAEVAHAKWEDLEYDAIRGRYYLKVDTKGDNERIVSINKEIFNRIVAFRIRRRLPIDIGNGNGGTVFQTKNHTPYRENYLSQYISKIIKDTQLSFTVNIGITPHFFRHFYVQYLYDYKRLPPHIIAAAVGHKNDRTTKENYLNQRLTKDNDAGNLILEDEF	PGPT0022000_710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_04638	978			hypothetical protein	ATGATTAGCGCATATGAAATGACTATGACTACAAATGAAGTAAAAGATTATTTAGATATAAGTCACTTTATTTTTAATAATTTAATGAAGCAAGGAAAACTAACACCAATCAATAAGGATACGTGGCGTTTAGATGGCAGTTTTTTATTTAGTAGAGAAGAAGTAGAAAAAGTAAAAGAAGAACGTAAAATTGAGGGGATTACTTTATACCAAGCAAGTAAAGAGTATCATATTAGTATGAATCAGCTTGAAAAATGGATAGAAGAAGGAAAGTTAGTTTATTTTTTAATAGAACATCGTAATAGACAAACGAAATTTGTGAAGGAGGAGGATGTTCGTGAACTTGTTCAGCAAGTAGAACAAGCTAATCATATATATACATTTTCGCAGAAATATAATGTAGTATTATTTCAAAAGTTTGTAAAAGGCAATACATTGGCACGTGTTATTTCTATTCCAAAACGTGGTGATATTATAGTTCTTGATGAATTTGGAACTAATATGACACTTAGTGAGGCGTTAAAAGCAGGATATGAGTCCGCTTATAAACTGTCGGATAAACCTAGAAGTCATCATCAAAGGTTTGTTAAGTTTCGTTTTCCTAAATCTGCGCAATTACGAAACAACATTTTTCATATAATCGATAATATATTACAGTACGTATCTCCAAGAAATATAAAGATTTTAGAAGAAGAGACATTTTGGTATTTTGAAATTCGTCAATCATTAATTACATTACCACCAGGAATTCAAATGGAATGGATTGAGGAGCTAACGCCTTATATAATAGAAGGGAAAATTGTTCCAAGAATGAATCATAGCGTATATTTGGATAGTAATACAGTAACGAAGCCTGTCATACTTACAAGTAAGGAATACAAATACTTGAAAGAAATTACAAATGAAACAAATAGCTCTATTGAAGAATTTATAGCTATTGCTATTAGAGACAAGATTAATCAGCACTTACTTAAGTGA	MISAYEMTMTTNEVKDYLDISHFIFNNLMKQGKLTPINKDTWRLDGSFLFSREEVEKVKEERKIEGITLYQASKEYHISMNQLEKWIEEGKLVYFLIEHRNRQTKFVKEEDVRELVQQVEQANHIYTFSQKYNVVLFQKFVKGNTLARVISIPKRGDIIVLDEFGTNMTLSEALKAGYESAYKLSDKPRSHHQRFVKFRFPKSAQLRNNIFHIIDNILQYVSPRNIKILEEETFWYFEIRQSLITLPPGIQMEWIEELTPYIIEGKIVPRMNHSVYLDSNTVTKPVILTSKEYKYLKEITNETNSSIEEFIAIAIRDKINQHLLK				NA	NA	NA	NA	NA
AK009_04639	1047			hypothetical protein	ATGTCGTTTTTTGGCGAAAAATTCACAAATTTATTGGTAAATTTAGATGTAGCAAGCCTAATTGGAAAAATAAAGCAATACCAAGGGAGATTGGAGGTCTATGAGAAGGAATTTCCATGTACATTAGAAAAGTTGCAAATATCTACTCAACTTCAACATACCAAAGATTTTGTCGCAATGTATAAAAACTTAAAAATAACAAATAAAAGGTTAAAAGAATTAATTACATATGATCTGTCGCCAAAAACAATGATTGAAGATGAAATATCTTGTTACGTTGATGCGCTATCACTCATTCATAATAACTATGAAAGGCTTACTATTGATCCAAGCACAATCTTAGAAATACATTTTCAACTTTTTAAATATGCTACTTCGGATAGTGGAACGTGGAGAAAACAGGACATCTTACTTGAAGAACATGAGCAACTTAATTTCTCATTTTATTGCTATCGCCCTTTAACAATTAAAGAAATCCCAGAAGCAGTAAAAAATTTATGTGAAGAATATAATTATTTATTAAATCAAAAAGATATTGATCCACTAATTTTAATTTGTAATTTTGTACTTAATTTTATATGTATTTTTCCTTTTGAATCTGGAAATGGAAGAATGGTACGTCTACTTATATCTTTATTACTATTACAAAGTAAACATTCACTAGTGAAATATATTTCACTAGATAAAATAATAAAAAAATATGAGAGAGATTATTATGATGCCCTATATAAATCTTCAGCAAATTGGCATTTTCAAGAGCACAATGTATCCTTTATATTAAAATGTCTATTACATATTATTCTAGAAGCATATAAAGAACTAGACGTACATATTACAAGTTACCAACTGAAAGGGAACAAAAGCTTTAAAATTAAAGAGTATATATTAAAACAAGAACTCCCTTTTACAAAAGAAGCAATACGGATGGTATTTTCAGATGTTTCACCAAGCACAATCAATAAAGCATTTGCTTGTTTACAAGAAGAAAAATTAATTAAACTAATATCAAAAGGCCGTAATGCAGTTTGGACTAAAACAAAAATATAA	MSFFGEKFTNLLVNLDVASLIGKIKQYQGRLEVYEKEFPCTLEKLQISTQLQHTKDFVAMYKNLKITNKRLKELITYDLSPKTMIEDEISCYVDALSLIHNNYERLTIDPSTILEIHFQLFKYATSDSGTWRKQDILLEEHEQLNFSFYCYRPLTIKEIPEAVKNLCEEYNYLLNQKDIDPLILICNFVLNFICIFPFESGNGRMVRLLISLLLLQSKHSLVKYISLDKIIKKYERDYYDALYKSSANWHFQEHNVSFILKCLLHIILEAYKELDVHITSYQLKGNKSFKIKEYILKQELPFTKEAIRMVFSDVSPSTINKAFACLQEEKLIKLISKGRNAVWTKTKI				NA	NA	NA	NA	NA
AK009_04640	1023			hypothetical protein	ATGAAGACTATTGCTTTTTATTTACCACAATTTCATGAAATACCTGAAAACGATTTATGGTGGGGAAAGGGTTTTACAGAATGGACCAATGTAAAAAAAGCAAAACCACGTTTTCTTGGACACTATCAGCCTAGGGCTCCATTAAGGGATTATTATTACAATTTGTTAGATTTAGATGTACATAAGTGGCAGATAAATTTAGCAAAACAGTATGGTTTAGATGGTTTTTGCTATTATCACTATTGGTTCAAAGGGAAAAAATTACTAGAAAAACCAATAGAATTGAGAAATCAATGTAAGGAAATTGATTTCCCATATTGCTTATGTTGGGCAAATGAATCTTGGACAAGATCTTGGGATGGGAAAGACCAAGAAGTATTAATGCGACAAGAATATGGGGATGAGTCTGATTGGAAAGAACACTTTAATTATCTATTGCCATTCTTTAAAAACAAAAACTATTTAAATATTAAAGATAAACCGATATTTGTAATTTACCGACCAGCTTCTATACCAAACCTAAATAAAATGTTGAGTCTATGGAATGAATGGGCTCAATCTGAAGGGTTTCTAGGGATACACTTTGTAGAAATGTTAACAATTTTTGAAGATAAATCAGACTTTCCTTTTGATGCTGCTATAGAGTTTGAACCTATGTACACTTTAAAAAAACTAATAGGTAATACAACTTCACTACATCAAGAAAAAAAAGATTTTCACTTAAGTTATGATTTTGTATGGAAAAGAATATTAAACCGTCAAATTAAAGAATGTGAAAACATATATAAAGGAGCTTTTGTAGATTGGGATAACTCTCCAAGAAAAAAAGAAAGCGCTTTAATTATGAAAGGGGCTAATCCCGATAAGTTTAAGAAGTATCTTTTACAACATAGTAAGGACACTGATTTTTTATTTATTAATGCTTGGAATGAGTGGGCAGAAGGCACATACCTAGAACCAGATGAAAAGTATGGATATAAATACCTTGAAGCTTTAATGGAGATAAAGAAGAGTCACTTCTAA	MKTIAFYLPQFHEIPENDLWWGKGFTEWTNVKKAKPRFLGHYQPRAPLRDYYYNLLDLDVHKWQINLAKQYGLDGFCYYHYWFKGKKLLEKPIELRNQCKEIDFPYCLCWANESWTRSWDGKDQEVLMRQEYGDESDWKEHFNYLLPFFKNKNYLNIKDKPIFVIYRPASIPNLNKMLSLWNEWAQSEGFLGIHFVEMLTIFEDKSDFPFDAAIEFEPMYTLKKLIGNTTSLHQEKKDFHLSYDFVWKRILNRQIKECENIYKGAFVDWDNSPRKKESALIMKGANPDKFKKYLLQHSKDTDFLFINAWNEWAEGTYLEPDEKYGYKYLEALMEIKKSHF				NA	NA	NA	NA	NA
AK009_04641	948	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGACTGATATAAATACTATGATTTCCATTCGAAACATTAAGAAATCATATGGAGATTATACAGTTATTAAGAATTTAAGCATAGATATCCGTAAAGGTGAAATTATAGGATTACTAGGACCGAATGGAGCTGGAAAGACAACACTTATATCGATTTTATCTACTCTTACTCTGCCAGATGAAGGGTATGGTACAGTATGTAACTACGACTTGTATACGGAACGGAATAAGATTAAAAAAAATGTGAGTGTAGTACCTCAAGATTTAGCGCTATACCCGACTTTAACTGCATATGATAACTTATCTTTTTATGCTGATTTATATGGATTAAAGGGAAATAGGAAAAAAAGCCGCATAAAAGAAGCTTTGCAATTCGCACAGCTTGAGGATTGGGCACATAAGAGAATTGATACATTTTCAGGTGGCATGAAAAGAAGAATTAATTTAGTGATCGGTTTGTTAAATAAGCCAAAAGTTATTTTCTTAGACGAACCAACAGTGGGAATTGATCCACAATCAAGAAACCATATTTTTAATTGTATTCGCCATCTCGTAGAAGAACTAGAAATCACTGTCATATATACAACTCATCATATGGAAGAAGCTGAGATGTTATGCCATCGTGTAGCAATTTATGATAAGGGTGAAATATTAGATATTGATACCCCAAAAAATTTAATAACAAAGTATGGGGAAAATTATTTAGAGATTGCAATATCAAATATTCCGGAAGAATTTATACATAAAACAAAAATGATTGCTGATGTGAAGTCCTGCACTTTGGTAGATAAAAAAGTCATCATTCAATGCGTAGATAGTTTTAATGTTACAAGAGAAGTTATGAAATTGATTCAAAAGTATAATTTAAAAATCGAATTATTTAATGTTAAAAATTCTAATTTAGAAAATGTATTTTTACATTTAACGGGAAAAAATTTAAGGTCTTAA	MTDINTMISIRNIKKSYGDYTVIKNLSIDIRKGEIIGLLGPNGAGKTTLISILSTLTLPDEGYGTVCNYDLYTERNKIKKNVSVVPQDLALYPTLTAYDNLSFYADLYGLKGNRKKSRIKEALQFAQLEDWAHKRIDTFSGGMKRRINLVIGLLNKPKVIFLDEPTVGIDPQSRNHIFNCIRHLVEELEITVIYTTHHMEEAEMLCHRVAIYDKGEILDIDTPKNLITKYGENYLEIAISNIPEEFIHKTKMIADVKSCTLVDKKVIIQCVDSFNVTREVMKLIQKYNLKIELFNVKNSNLENVFLHLTGKNLRS				NA	NA	NA	NA	NA
AK009_04642	1158	lnrN_3	COG0842	Linearmycin resistance permease protein LnrN	GTGAAAGCTTGGTATATAGCTAAGAAAGATTTACTTATTCTTTTAAAGGATATTCCTGGTCTAATCTATTTATTTATTACACCTATTATAGTTATTGCAGTTGCTAGTTTTGCATTATCAAATGTATTTGATAGTAAGACAGAAAAATTCAAGATTCCTATAGTAGTAAATGATAATGGAGAACTTTCTAAAAGGGTTATTGAGGAATTGAAAAAAATCCCTGCCCTTGAGATAGAAGAAACTTATGAACTAAATGGTAAAAAGAAAGCATATACAGAAGAACAAGTGAAAAAGGAAGTTCAAACTAAAAAAGCGGCAATCGTTATTCCTAAGGATTTCACACAAAATGTATATTCAGGGACAGAGGCCAAAGTCATCATCATAGAAGATGAAGTTGATCGCATTATTCCAAGTGTTGTTTCAAATGCTGTAACTCAAATTGTGTCAGAAATACAAAGAGATATGACTAAAGAGATTGTAAAACAAGCCTCTGCCCAAATGGAAGTAAGTGTGAAAGTAGAGTTTAAAAAATTAGCATCAGATAATGAACATAAACCTACTCCATTTGAATCTAATGTACCAGGATATGCCGTAATGTTTGTACTTTTAGGTACTGCTGCAGCTGCAGGTGCATTAGTAGAAGAGAGAGAGAATGGAACGTTAAGAAAAATTCTTACTTTACCTATTAATACATTATCAATCATTTTTGGAAAGATGCTCTCATGCTTTATAACAGCTATTGTTCAATGTGCAGTCCTTTTTAGCGTAGGACATTTTGTATTTGGAATGTGGCTAGGGAAAAGTGTATTAGGAATTATATTGCTAGTGGTATGTACTGCATTTGCAGCTTCAAGCCTAGCAATTTTATTAGCTTCTATATGTCAAACAAGATCACAAGCAAATGGTATTTCTATTTTAATCGTGTTAACTATGTCTGCTTTAGGTGGATCTTGGTGGCCACTCTATATAGAGCCTGAATGGATGCAAAACCTAGCGCATATTACGATTACAGCCTGGGCAATGGGAGGCTTTAACGATTTATTAGTATATAACAAAGAATTCTCCTCTGTTCTTATTCCATCAGCTGCATTAATTGGTATGGGAATTTTATTTTTAACAATCTCCATACAAAAATTTCGACGCTCTTATGAAAAGTAG	MKAWYIAKKDLLILLKDIPGLIYLFITPIIVIAVASFALSNVFDSKTEKFKIPIVVNDNGELSKRVIEELKKIPALEIEETYELNGKKKAYTEEQVKKEVQTKKAAIVIPKDFTQNVYSGTEAKVIIIEDEVDRIIPSVVSNAVTQIVSEIQRDMTKEIVKQASAQMEVSVKVEFKKLASDNEHKPTPFESNVPGYAVMFVLLGTAAAAGALVEERENGTLRKILTLPINTLSIIFGKMLSCFITAIVQCAVLFSVGHFVFGMWLGKSVLGIILLVVCTAFAASSLAILLASICQTRSQANGISILIVLTMSALGGSWWPLYIEPEWMQNLAHITITAWAMGGFNDLLVYNKEFSSVLIPSAALIGMGILFLTISIQKFRRSYEK	PGPT0006730_5266	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_04643	420		COG0824	Putative esterase	GTGTACTTAGTAAAAAATGAGGTGAATGTTCGTTTTGGGGAATGCGATCCTATGGGAATTGCTCACCATTCTCATTATTTTCATTGGTTTGAGCTGGGTAGGTTTCAAATGCTAGATAAGACTGGTATAAACCAGTATTTAAAACAGGAAAAATTGTATTTTCCAATTATTGATATAAGATGTACCTACAAAAAATCAGCTCGTTTTCAAGACGACTTAATTGTAGAAACCTATCTTAAGAATGAAAGTAAAGTTTATATAGAATTTGTTTATAAATTATTCCGCAAGAGATGCCGAGTTTTGTTAGCGGAGGGATTTTCAAAACACGTTTTAACACGGTCGAATGATCAATTAATCAGTAGATTACCAGAAGAAATTTTAGAAAAGCTTCAATTTGAAAATAGCGGGGGTGTCATATGA	MYLVKNEVNVRFGECDPMGIAHHSHYFHWFELGRFQMLDKTGINQYLKQEKLYFPIIDIRCTYKKSARFQDDLIVETYLKNESKVYIEFVYKLFRKRCRVLLAEGFSKHVLTRSNDQLISRLPEEILEKLQFENSGGVI	PGPT0001850_6042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK009_04644	951	baeC	COG0331	Polyketide biosynthesis malonyl CoA-acyl carrier protein transacylase BaeC	ATGATTACATTTATTTTTCCAGGACAAGGGTCTCAATCCGTAGGGATGTGTAAAGGGTATTTAGATAAATACCCAAACATATTTGTCCCATTATTTGAGGAAGCAAATGATACGCTAGGATTTGATTTAAAGCAACTATGTTTATATGGGCCAAGTGAAAAATTAATAGAAACCAGTGTTACACAACCAGCTATTCTTACGGTAAGCACAGGGATATCACGAATTTTACATTTGTACGGCATAAAGCCATCTAAAGTGGCGGGTCATAGCTTAGGACAATTCTCTGCACTGGTAGAAGCAGGGTCTTTACAATTTTCGGATGCTTTATCCATTGTACGGAAGCGTGGCCAGCTGATGAGTAATGTAAAGCAAGAGGGATGTATGTTAGGGATTGTGTCGAACACATATCAAACATTATTTGAAGTTGTAGAGGAATCTAAACAATATGAAATTGATATCGCTGCCTATAATTCCCCTACACAGGTTGTATTTTCTGGTGAGAGTAAGAGCATTCTTAAATTTCAAAAGGTACTAGATCAGAAAAATGGTATAAAAACTAAAATACTCTCAACTAGTCATGCATTTCACTCACGTTTAATGGGAGAAATGGTTCTTGAGTTTAAGGAGTATTTAAATTTATTTTCGCTAAAAAGTGCTCAAATACCAATTGTTTTAAACTGTTCAGGGAAACCAAATATAGATAGAATCAATATTTTACAAGATATAGAAAGACAATGCGTAGATCCAGTTATGTGGCAAGACACTATCTACACTTTATTGAATAATGGTACGAAACACTTTATAGAAGTAGGTCCCAGAAATACTTTAACCAAGTTATGTCACTCCTTTAAGCAGAACATATCTGTATCCTCTACAGAAACACCGATGTATTTAAAAAGAAGTCTTACTACAATAGAGAAAGAATTTAAGGAGGAATGGGTCTATGTTTAA	MITFIFPGQGSQSVGMCKGYLDKYPNIFVPLFEEANDTLGFDLKQLCLYGPSEKLIETSVTQPAILTVSTGISRILHLYGIKPSKVAGHSLGQFSALVEAGSLQFSDALSIVRKRGQLMSNVKQEGCMLGIVSNTYQTLFEVVEESKQYEIDIAAYNSPTQVVFSGESKSILKFQKVLDQKNGIKTKILSTSHAFHSRLMGEMVLEFKEYLNLFSLKSAQIPIVLNCSGKPNIDRINILQDIERQCVDPVMWQDTIYTLLNNGTKHFIEVGPRNTLTKLCHSFKQNISVSSTETPMYLKRSLTTIEKEFKEEWVYV	PGPT0010115_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010115-baeC|pksC|mlnA-K15327	NA	NA
AK009_04645	747	fabG_10		3-oxoacyl-[acyl-carrier-protein] reductase	ATGTTTAATGGAAACGAAGTGGCATTAGTTATCGGAGGATCACGAGGCATTGGTAAAGCAATAACAATGGACCTAGCCAATCAGGGCTTAATTGTTTACTTTACGTTTCAAAGTAATCAAAAATCAGCAAATGAAATAGCAAATACTATAGGTGAAAAAGGTGGACAAGCGTTTCCTATGCATGTAGATATTACAAATGAAGACTCTATTCATAAATTGTTTCAACACATACGCTCAAAGGAAAAAAGAATAGATATTTTAGTAAATAATGCAGGAGTTATAAATGATGGATTTGCTGCAATGATGAGCGAGGAAAAGTGGGATCATGTGGTTGATTTAAATTTAAAAGGAACATTTCTTTGTTGCCGGCAAGCATTAAGAATAATGATGAGACAGAAAAGAGGTTCTATTGTAAATATTACGTCGACAAGTGGAATAACGGGTGCAAGAGGTCAATGTAATTACTCTGCCTCAAAGGGTGGGGTTATTTCCTTAACCAAGACTTTAGCATTAGAAGGTGGGGAATACGGGATTAGGGTTAATGCTGTTGCACCTGGTTTTATACAAACAGATATGACAAAAGGAATGGATCAACAGACTTTAAAAAGGATGTTAGAACTGGTGCCGCTTGGCAGAATTGGAGATCCTAAAGAGGTAGCACATTTAACAACATTTTTATCCTCTAACTATGCGAGTTATATAACCGGGAAAGTTTTTACAGTGGATGGTGGATTAGTTAATGGCTAA	MFNGNEVALVIGGSRGIGKAITMDLANQGLIVYFTFQSNQKSANEIANTIGEKGGQAFPMHVDITNEDSIHKLFQHIRSKEKRIDILVNNAGVINDGFAAMMSEEKWDHVVDLNLKGTFLCCRQALRIMMRQKRGSIVNITSTSGITGARGQCNYSASKGGVISLTKTLALEGGEYGIRVNAVAPGFIQTDMTKGMDQQTLKRMLELVPLGRIGDPKEVAHLTTFLSSNYASYITGKVFTVDGGLVNG	PGPT0003180_13624	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
AK009_04646	297	acpP_2		Acyl carrier protein	ATGTTTACGTATGTAGAAACAAAAATTATTGCTGAAAAAAGAAAACAATTAACTACTAGAATTAAAGAAATTATTACTGAGAGATTAGATTTAGAAATCGAACCGCATTTCATTACTGATGATCAGCCATTATTCGGAAGAGGCTTAGGGGTTGACTCCTTGGATGCATTAGAGCTATTTCTGGCAATTGAAGAGGAATTTGGCGTTGCGGTATATGACGAGAATATGGCAGTACTGGGTTCTATTAATAAAATTGCCGATTTTATTGAAGAAAATAGGGAGGATGATGTGCAGTGA	MFTYVETKIIAEKRKQLTTRIKEIITERLDLEIEPHFITDDQPLFGRGLGVDSLDALELFLAIEEEFGVAVYDENMAVLGSINKIADFIEENREDDVQ	PGPT0011375_614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK009_04647	486	fabZ_3	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	GTGAGACCGATATTAAATGCAGATCAAATCCGAAATATCTTACCGCATAAATGGCCATTCCTTTTCTTAGATAAAGTTATTCAACTTGAGCCAGGAAAGAGTGGAATTGGTATTAAAAATGTAACAGTAAGTGAACCTTTTTTTGAAGGGCACTTTCCAAATGAATCAATTATGCCTGGAGTGTTAATTATTGAAGCTTTGGCACAGATGACGGCTGTTGTTTATGTTACAGGGGAACTAGCAAAAATAGATACACTTGGTGCATGTTCACCTAAAATAGATCCGAGTTCATATGTGGGTTATTTAGTTTCTGTACGTAATATGAAATTTTTAAAACCTGTAGTACCAGGAGACCAGCTAGAATTACATGTCCAAATTGGAAGGTCTCTTGGATTAATCTCACAAGTGGAAATTACGGCTTATGTAGATAAAAAGAAAGTTGCTACTGGTAGTATCCAAGTTTCTAAAAGAGTTGAGGAAATATGA	MRPILNADQIRNILPHKWPFLFLDKVIQLEPGKSGIGIKNVTVSEPFFEGHFPNESIMPGVLIIEALAQMTAVVYVTGELAKIDTLGACSPKIDPSSYVGYLVSVRNMKFLKPVVPGDQLELHVQIGRSLGLISQVEITAYVDKKKVATGSIQVSKRVEEI	PGPT0008365_675	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK009_04648	3117			hypothetical protein	ATGATCCATGGTATGGATGTTCAAGTTCGTGAGTGTACAGAGGCAGATAGTGAGAAGTTAGCTCACTTTTATAATAAATATCAGTATGGTCCCATTAAATATGGGTATCCCTTAAATACGCAAGACATCAAGCAATTATTTCGAGAGCGGAAGATACAGTTATATTTAATTGCTGAATATGAAAATGAAATTATAGCCAGCTTATTATTTTCCAGTTTATCAGGTCAAAGAGCAGCAACTCCAGATGGAACCTGGGCAGGATTCTTTTTAATCCACCCAGAATTTCGTTCGGGAAATATACCAGATAAATTATTTGCTTATGCGATTAAAAATCTTATCCAACAAGATATTAAGTATATTGATACAGAAGTGAATCCGGAAGATAAAGTAGCCATGGCACTCTATAAAAGAGTGGGGTTATATCAAACAAGTAGGTCGTATATAGACTATGATGGCTACTTAAATTTAAGGAGCTATTTACCTTATGTTATTACTTATCTGTTAGAGGCATTTGAACCAATTATTTCAAAAAGTGACCAAGAGATATGGCTATCTAGAGGTTGGAAAACAGTTAGGGGATTGAAATCCCTACGTTCTATTCAGAGTAACGCCATAACAAGAAATGGAATTGAAGTTGTAAAGTATGCTATTAATCTTGGAGCAAAAGATGTAAATTGTTGGGTTGATATAAAAAGTGAAAAAATTACTGAGGTAGAAACCGAACAAGTACGATTCACTAGTTATATTTTAGAAGGAAACAATTTAATTGTTGGAGAGAAGATTCGTATCTGTTATGTATATGAACACCATTTTCCAAATCCTATTGAAACTAGTATTAAATCGACGATAGGGAACGATTACTTAATTGATTTCAAGAAAATTTTTTATCCAAATAAAAAGTACGAGTGGGAAGAAGTTATAACAGTAAATAAGAAAATTGAGGGAGAGCTTGTTACAAAGTTAAAAGCAAAAGAACTAGAACTAATTGTTCATTTTGGAGTAACCATAGCAAAACCGTTAGAAATAAATGTTGCTAATTATCCTAAGTTAATTAATGGAAAAGAATCTGCATGTATCGTTAATATAAAAAATAATTCTTTAGATAGATTAATTTACAAACTACTTATTCAACAAGGAAACTCGAAAATACTAGATTTCAAACTGCTAGAAAAACACCAAATCTGTATCATAGAACCGGGTGAAATAAAGAATCATCCTATTTTATTGAATCCTAAAAAAATTGGTATCACTAATATGACACTTACGGCTGTTAGTCATCAAAATAAAAATATTGGGGAATTAAAGACAATAATTCCGATTCATGCGTATGGGAAAAATCCTGTTTATGAAACAAAAGAATACTTAGTTCTAGAAAATATGTATATAACTGTACAAATAAGTAAAAGTACTGGTTGTTTATATATATATGACCTTAGAAAGCAACAATTATTGGCAAAAGAAGCATGGCCAGATCTAGATTATCCATTTTTAAATGCAGTAAAAGAACCGAAAGTAAATGAGCTGTCATGGGAAATAAAATCTGATTCATGTTTTGAAATTATTCATGAGGCCACAAAATTAAAGAGAAGCATTTGTTTTTTGTCAGATAAGATAGTTCAAATAAATGATTTCGCACAGGAAGGGAAATATATAAAGATATATCCTTGGTGCATGTTATATGATGCGAAGATGACGGTACCATTAAAGAGTGGGTTAGTTTCTAAACCTATGGTATATGGTGAGTATCCATATGCACTACATGACTATGAATTTGTAAATCAATTCGATCTACCTAGTCATCCAAACATGTATGAGCGAAATTATACATTGTTTGAATCACAAAATATTAATATTGGATTTATATGGAAAGGAAATATAGAGCGTATCCTATTTGGATTAAGGTGGATGCCAGCGGTAATATTTAAACGGAGTGAAAAAGAAAAATGTATAACAAAAACTCACTATTATACTTTATGTTCTCATGATAGCAAAGATGAAGTGGAAGAAATCTATAACGATATTACTAATCATACATCCAAATTTATATCTAATAAGATTCCGTACTCAATTGAGACTGACCAATTTCATATTATAAATGAAAACGGGGAATTTCATATTCATGGAAGTCTAAAAAACTTATTTTCTTCCATATTAAAGGGGAAATTAACATTGTTTTTCCCTCAGACATCTTACGAACAACAATTGTTTATACAAGACATAGAATCTATAAGCAATTTTAATTTTGAATTTAGTGGAAAGGTCAATTGGTCAAAAGCACATTATGCCGTACTCACGTATCAAGATGAATTAAATAGAAATGCGATAACTAAAAAAATATATCTATTCCTTAAAGGAAGAAATAAATTAACATATAGCGAAAAAAAACAAGAATATCTAGTTCAAAATAATGTACTAAATTTAAAGATTAAAGTAAACCAAAGTAGTAAAATAACAGAATTTATGTATAAAGATAAAGAGATTTTAAAAGAAAACTCAGTATTAAGTTCTTATAATTTTTTACCCGGTGTAATGATACCAACAGCTAATTCTTATACCCCAGATTGTAGGAAAGATTTGAGCATTAATTCAATATATCTCAATAAAAGTAATCAATCAGTAGTAGCGACGGAAAATACATATAAGGAATTTATTAATCGGATTTTCTGTCAATCTGACGAGTGGAAAGTTGAATATACAACTGTATATGATCTACCTGTCTTACAAATACAATTGAAAAGTCTACAGAAAGATAAAATGAAAACTAGTGTCTTTCACTTATTCTGGGAGAAAAAAGGAAAAACAAAAATTAAAAAGATGTATTATTGGCAGAATGGAGAGCAAAACACGTTAATACCAAATGGCAAACAAAGAAAGATTTATTTAGATAATAAGATAATTCTCGAATTATCTAATGGGTTATTTGTATCTATTTTAGCATTATCACATAGTACAAAATGTTTTATATACGAATGGCCCAAAAAAGGGATGCAAATCGGAATATATGGTAATCAGAATGAATTTAATGATGGAGATATTCGCTTTAATATTGCAGTTGGAGAAACTTTACTTGATAGTGAATACTTTTCGCAAATTTTAGTAGAGGGGAATAAGACATGA	MIHGMDVQVRECTEADSEKLAHFYNKYQYGPIKYGYPLNTQDIKQLFRERKIQLYLIAEYENEIIASLLFSSLSGQRAATPDGTWAGFFLIHPEFRSGNIPDKLFAYAIKNLIQQDIKYIDTEVNPEDKVAMALYKRVGLYQTSRSYIDYDGYLNLRSYLPYVITYLLEAFEPIISKSDQEIWLSRGWKTVRGLKSLRSIQSNAITRNGIEVVKYAINLGAKDVNCWVDIKSEKITEVETEQVRFTSYILEGNNLIVGEKIRICYVYEHHFPNPIETSIKSTIGNDYLIDFKKIFYPNKKYEWEEVITVNKKIEGELVTKLKAKELELIVHFGVTIAKPLEINVANYPKLINGKESACIVNIKNNSLDRLIYKLLIQQGNSKILDFKLLEKHQICIIEPGEIKNHPILLNPKKIGITNMTLTAVSHQNKNIGELKTIIPIHAYGKNPVYETKEYLVLENMYITVQISKSTGCLYIYDLRKQQLLAKEAWPDLDYPFLNAVKEPKVNELSWEIKSDSCFEIIHEATKLKRSICFLSDKIVQINDFAQEGKYIKIYPWCMLYDAKMTVPLKSGLVSKPMVYGEYPYALHDYEFVNQFDLPSHPNMYERNYTLFESQNINIGFIWKGNIERILFGLRWMPAVIFKRSEKEKCITKTHYYTLCSHDSKDEVEEIYNDITNHTSKFISNKIPYSIETDQFHIINENGEFHIHGSLKNLFSSILKGKLTLFFPQTSYEQQLFIQDIESISNFNFEFSGKVNWSKAHYAVLTYQDELNRNAITKKIYLFLKGRNKLTYSEKKQEYLVQNNVLNLKIKVNQSSKITEFMYKDKEILKENSVLSSYNFLPGVMIPTANSYTPDCRKDLSINSIYLNKSNQSVVATENTYKEFINRIFCQSDEWKVEYTTVYDLPVLQIQLKSLQKDKMKTSVFHLFWEKKGKTKIKKMYYWQNGEQNTLIPNGKQRKIYLDNKIILELSNGLFVSILALSHSTKCFIYEWPKKGMQIGIYGNQNEFNDGDIRFNIAVGETLLDSEYFSQILVEGNKT				NA	NA	NA	NA	NA
AK009_04649	1305			hypothetical protein	ATGAAAGTATTGTTTATTGCACCTAGTCATTTTAGCATTGGTGAGTTGCATAATGCCTTATGTCTAGCTAAACAAATTCAAAAAGATGGGGAAGTTTATTTTTTAACAAGCGAAAAATTCTCATGGTATGCCAGTAAAATTGTAGCCAATGTTACATCACTAACAAAGGGGCTAAGACAAAAAGAGGTTATAAAACAAATCACTAATTCATTTCAACCTGATGCTATTGTTTTAGCTGATTACCATAATTTATTTTTAGAGTCTCCAATTATTGATCTTGATTATCTATTAAACCTACACATACCTTGTTTCTCTATTGATTCTTTGGCTTGGGGTAGTGAGGATAGATTATTAGAAAATAAACTTTTTAAAAACGCAAACTACAATAGCTTAAAGAAAAGGTCATTGATAAAACTACCTAAAATTCCGTCTCAATTTAAGTTAATTAGAACGTGCCCAGTAAATAGTTATAAAGAAGATAATGAGAAGATTATTTCCGTCAAGTTGTATAAAGAGGCTTTACAAGTAGATGAAGAAAGAAAAATGAGAATACGAGCACAACTTGGTTGTAGAGAGCAAGATAAATTAATTATGATTGCGAAATCATCATGGGCCAACCTATTAGTAAAAATGAGGCTCATGGAGAAGAAACAGTACAATGATGCAAGGTTTAGCTATGAATATATATTACAAGAACTATTAAGTCTATATCTTCAGGACTTTCCAAGCGATACATGTATTAAATTAATTGGGGTTTCAGATGAGACTAAATTTGTTTCTATGAAAAATGGAGGGAAAATAGAATTTGTTTCACTACCATTTCTTCATTTGGAAGAATACGAGCAACTATTATTATCGTGTGATTTATTTATCACTGATAATATAACATCTTGTTCAATGGGAAAAGCAGTATTTGGAAAAATACCTGTGATTAGCCTTGTAAATCATATGGGATATGAAGAATTAAAAGCTCAAGGATACAGCCTTAATCCTACATTAAAAAGCATTATAGAAAAATGGAATTATATAATGCCTAATGGACTTTATCCATTTCTTGTATTCCCAAATGGTTGGCATAAAGAACTAGCTCCATTGATGGAGAAAAATGATTATTTTAATTGTGTGCATACTTGTGAAATTTTTGATTTAAGGAACACCAGTAAAACGATATTCAATATGCTATATAGCAAAACTGAGATTGAAAAATTAAAGAAAATGCAACAACTATATATAGATAATGTCTGTAATTTACCGACAATAAATGATGTGATAAAGAGAGAATTGGGGGCACTTAATCATGAGTAA	MKVLFIAPSHFSIGELHNALCLAKQIQKDGEVYFLTSEKFSWYASKIVANVTSLTKGLRQKEVIKQITNSFQPDAIVLADYHNLFLESPIIDLDYLLNLHIPCFSIDSLAWGSEDRLLENKLFKNANYNSLKKRSLIKLPKIPSQFKLIRTCPVNSYKEDNEKIISVKLYKEALQVDEERKMRIRAQLGCREQDKLIMIAKSSWANLLVKMRLMEKKQYNDARFSYEYILQELLSLYLQDFPSDTCIKLIGVSDETKFVSMKNGGKIEFVSLPFLHLEEYEQLLLSCDLFITDNITSCSMGKAVFGKIPVISLVNHMGYEELKAQGYSLNPTLKSIIEKWNYIMPNGLYPFLVFPNGWHKELAPLMEKNDYFNCVHTCEIFDLRNTSKTIFNMLYSKTEIEKLKKMQQLYIDNVCNLPTINDVIKRELGALNHE				NA	NA	NA	NA	NA
AK009_04650	1044	gcvT_1	COG0404	Aminomethyltransferase	ATGAGTAATCAAATTAATATACAAAAAGAAAAAAATGAATCATATGATGCAGTACGTAGCGGAATAGGTGTAATAGATTTATCGGAAACAGGAAGAATTGTTGTAAAAGGGGAGGACCATGTAGAGTTCCTAGATCGTTTAGTTACGAAAGATATTATGTTTATGGAAGAAGAAACTACACTCTTTACCTTATTGTTAAAAGAAGATGGGACTGTAATCGATATAATCAATCTATTTAAAAATGAGGATTCTATTACAGTTATTACTACACCGCATAAAAAGGACACTGTACTAGCTTGGTTAGAAAATCAAAAGACGAATGGCATTGAGATTATAGATATAAGTCAAACACATTCTCTCCTTGGATTTGAAGGCCCTTATGCATGGAGATTAGCTCAACAATTTTTAGATTTCGAAATATCATCACTACCATTTCAATCATTTGTGTTAAATCAATTATTTGGAAAGGAAATTCTATTGGCAAGAACAGGTGTAACAGCAGAGTATGGTTATCAATTATTGTTTGAAAAATACTTAGAACCAATAGTGTTTGAAACCATAAATTCTTTTAAAGATGACGATATTAACTTGAAAAAAGTGGATTGGGAAACATTAGAGACGTTAATGTTAGAAATTCGACATCCATATTTTGAATTTAAACATTTAGAAGAACTAAATATTTTCGAAGCTAGTTTAGAATGGTTTATTGATTTTTATAAAGATGAATTTTATGGAAGAGACTCCTTAGAACAGCAATCGGAAGCTGGAGTAAATAAAAGAATTGTGGGATTCACGACAGGAATAGAGAGTCAAATTACAGTTAATGATGAGATTTTTATAGAAGAACAATTAATTGGTAAAGTTATTGAACTTAAAGAAAGTCCTGTATTAAATATGAGACTCGGGGTTGCTTTATTAGAGGAACCATTTGCTGTTTCAGGAATTGGATTTTATGTGAAAAATAAAGAAAATGCTTTGTATGAGGCACATACTCAGTCCTCACCATATATTCTACCTAAATCATGGTCAATCAAAATACTGTAA	MSNQINIQKEKNESYDAVRSGIGVIDLSETGRIVVKGEDHVEFLDRLVTKDIMFMEEETTLFTLLLKEDGTVIDIINLFKNEDSITVITTPHKKDTVLAWLENQKTNGIEIIDISQTHSLLGFEGPYAWRLAQQFLDFEISSLPFQSFVLNQLFGKEILLARTGVTAEYGYQLLFEKYLEPIVFETINSFKDDDINLKKVDWETLETLMLEIRHPYFEFKHLEELNIFEASLEWFIDFYKDEFYGRDSLEQQSEAGVNKRIVGFTTGIESQITVNDEIFIEEQLIGKVIELKESPVLNMRLGVALLEEPFAVSGIGFYVKNKENALYEAHTQSSPYILPKSWSIKIL				NA	NA	NA	NA	NA
AK009_04651	2457			hypothetical protein	ATGAACATAAATAATCAACGAATCGTCGTGACTGGCATGGGAATTATTTGTTCAAACGGAAATAGTGTAAAGGAATTTTGGGACAATATTAAATCCGGGAAATCTGGTATTAAGGTAATTCAAAATATCGATATGGCAGAAATGGTAACAGATTATGGCGGGGAGATTGAAAACCTTCAGGTAGATGATTACTTCTTTAAAGATGAAATAAAGGATATGGATCGATGTGGAAAAATAGGTGTCATGGCGGCAAGGGAAGCGGTTGAAAATGCAAAATTAAAAATAGAAAACTTTAATCCATACCGAATTGGAATATCATTAGGCACCTCTTTAGGAGGGATGTTGAGCGGAGAAGAATTTCATAATCAGTGGATCAAAGATGGCATTGAAAAAGCAGATGAAACGTTACTTTTTAAGTATCCAATCCATACTCCCTGTGACAATATTACTCGAGACTTAAAAATAAAAGGACCAAAAATGATTATTTCCAATGCATGTGCCGCTGGTACAAATTCAATTGGTTTTGCGCTGGATACAATTCGAAATAACAAAGCAGATATAATGATAACCGGTGGTGTAGATCCCTTATCTAAATTGTCAATGAGTGGTTTTAATAGTTTACAAGCACTAGCACCAACGCCACCATCGCCCTATAGCAAGAGTAATGGCGTGGTAATCGGAGAAGGTGCAGCTATTCTTGTTTTGGAATCCTTAGATCATGCGGTTGAAAGAGGTGCAAATATCCTAGCTGAAGTAGTGGATTACGATTTATCTTCAGATGCCTATCATCAGACGGCACCAGATCCGGGCGGGGAAGGTGCTTTGAGATCCATGCGAGGTGCTTTAAAGAAAGCCAATATAGATGCTAAGGAAGTAAGCTATATCAATGGACATGGTACAGGTACACCAGCAAATGATGTATCAGAGCCAAAAGCAATTCGTACATTAATTAATGAAAATAAGACACCAGTTTCTTCAACTAAATCAATGATAGGGCATATGTTAGGAGCCGCAGGGGCGGCGGAAGCAGTAACAAGTATTCTTGCTATTCAACATGGATATTTACCTCCAACTATAAACTTTGAAGTTGAAAGCCAAAAGTTTAATCTAGATTTTGTACCTAACATAGGTAGGGTAAGTGATTTGAGTTATGTACTATCAAATTCATTTGCTTTCGGTGGAAACAATGCAAGTATCTTATTCTGTAAGTACAATGAGAACCTTGAGTTATCAGCCGCAAAGGAAAAGCTAATTAAAGAAAAAAAAGTCGTAATTACTGGTGTAGGGGGACTTGCTGGGAATTCTTCAAATCTTCAAGAAATTAAAGATTGTATGTTTAAGGGAAAGAGTGGTACCTCAAAGATTAAACAGTGGAACGACAATCCTAAGTGCATACAAGCCGGAAAAATACCAGAACAAAACTATCGAAGGCTAATACATCCTAATTTATTAAGGAAGATGGATTCAATTAGCAAACATGCAGTATTGTCAGTGAAAATGGCTATAGAAAACGGGAACTTAAAGATAGATAAAAATAATAGGGACAAGATAGGAATTATTTTTGCAACTGGTACAGGACCAGTTGCAACGGTAGAATCATTTAACCGAAATATTATCCAAGAGGGTGTTAAGGCCGCCAATGCTAAATTATTTCCAAACACAGTTATGAACGCAGCAGCTGGACATATTTCATTAAACTTTAAAATAAAAGGGCCTACTTCAACTATTTCATGTGGCGGGGTTTCTGGTATTAGTGCACTATACTATGCCTATGCCATGATTCAATCTAGTGATTATGACACATTCATTGTGGTAACGGCAGATGAAGTAAATAATCCAATAATAGAGGGACACTCAAAAATAAAAAGATACTTAACAACTGAGAATATAAGTCCTTTTGATTGTAATAATAGCGGTACCATACTTGGTGAAGGGAGCGTTGCCTTTATTGTAGAAAGTGAGGAGGCAGCGTTAAAAAGAAATGGTAATATTTTAGCTGAAATTAAAGGTTTTGGGTTAACATCTGATGATAGTAAAATAGGGGACTTAAATCATCTAGGAAAGGCATGGGAGGAATCTATGCGTTTAGCAATGAAAGAGGCGATGATTTCTCCAGGAGAGATAGAATATATTTGTGCAGCTGCCAATGGTCATACATATTTTGACCGTATTGAAGAGAGAGTTATAGAACGTATATTCGGAAATGGAGCTCCTGTTAGTGCCACAAAATCTATCTTTGGGGAAACTCATGCAACTGCAGGCCTTCTTTCTCTTATTAGTGTAATATGTGCATTTGACGGTGAAATACCAGCTACGCAAAATGTAAAGAGTCATAGAGGAAGAATCGATCTTGTCACAGAAAACGCTCGTAAGACACCGGTAAGCAATGCCTTAATTAGTACATATTCTTACGGTGGTAATTATAATTCTATTGTAATAGGAAAATATTTAAATTAA	MNINNQRIVVTGMGIICSNGNSVKEFWDNIKSGKSGIKVIQNIDMAEMVTDYGGEIENLQVDDYFFKDEIKDMDRCGKIGVMAAREAVENAKLKIENFNPYRIGISLGTSLGGMLSGEEFHNQWIKDGIEKADETLLFKYPIHTPCDNITRDLKIKGPKMIISNACAAGTNSIGFALDTIRNNKADIMITGGVDPLSKLSMSGFNSLQALAPTPPSPYSKSNGVVIGEGAAILVLESLDHAVERGANILAEVVDYDLSSDAYHQTAPDPGGEGALRSMRGALKKANIDAKEVSYINGHGTGTPANDVSEPKAIRTLINENKTPVSSTKSMIGHMLGAAGAAEAVTSILAIQHGYLPPTINFEVESQKFNLDFVPNIGRVSDLSYVLSNSFAFGGNNASILFCKYNENLELSAAKEKLIKEKKVVITGVGGLAGNSSNLQEIKDCMFKGKSGTSKIKQWNDNPKCIQAGKIPEQNYRRLIHPNLLRKMDSISKHAVLSVKMAIENGNLKIDKNNRDKIGIIFATGTGPVATVESFNRNIIQEGVKAANAKLFPNTVMNAAAGHISLNFKIKGPTSTISCGGVSGISALYYAYAMIQSSDYDTFIVVTADEVNNPIIEGHSKIKRYLTTENISPFDCNNSGTILGEGSVAFIVESEEAALKRNGNILAEIKGFGLTSDDSKIGDLNHLGKAWEESMRLAMKEAMISPGEIEYICAAANGHTYFDRIEERVIERIFGNGAPVSATKSIFGETHATAGLLSLISVICAFDGEIPATQNVKSHRGRIDLVTENARKTPVSNALISTYSYGGNYNSIVIGKYLN	PGPT0008360_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK009_04652	867	rmlA_2	COG1209	Glucose-1-phosphate thymidylyltransferase	ATGAAAGGTATCATTCTTGCAGGTGGGAGCGGTACTAGATTGTACCCCCTTACCCAAATTGTATCAAAGCAATTATTACCTATCTATGATAAACCCATGATTTATTATCCTTTATCAGTACTAATGTTGGCGGGGATAAGAGAGATACTAATTATTTCAACACCACAAGATATTAATAAATTTGAGCAAATGTTAGGTGATGGTTCAAAATATGGAATTACTCTTTCATATACTGTTCAGCCTTATCCAGAAGGTATAGCACAAGCATTTATAATCGCTGAGGAGTTTATTGGAAATGATAATGTAGCTTTAATTCTTGGCGATAATATCTTTTATGGTCATGGACTAACAGAATTACTAGAAAAGGCTGTTAAGAAGAAAAGGGGAGCTACAGTTTTTGGTTATTATGTCAATGATCCAGAGCGTTTTGGAGTAGTAGAGTTTGATTCTAAAAAGCATGTAATTAATATCATGGAAAAGCCAAAGGAACCAAAATCAAACTATGCAGTAACTGGTCTGTATTTTTATGATAAACGTGTGATAGAAATAGCAAAAACCATAAAACCGTCTAGTCGTGGAGAATTAGAGATAACAGATATAAACAAAGAATATCTTAAGATGGGAGAATTAGAAGTTGAATTATTGGGAAGAGGCTATGCATGGCTGGATACAGGCACACACGAATCATTATTAGAAGCAGCACAATTTATAGAAACGATTGAAAAAAGACAGAGTTTAAAAGTAGCCTGTTTAGAAGAAATTGCATTTAAAAAGAAATATATAACCAAGCAACAACTATTAAAAATAGCAAATTCGGTAAAGGAAAATCAATACAGCCGATATTTATTAAGGGTTGCCCATCAATAG	MKGIILAGGSGTRLYPLTQIVSKQLLPIYDKPMIYYPLSVLMLAGIREILIISTPQDINKFEQMLGDGSKYGITLSYTVQPYPEGIAQAFIIAEEFIGNDNVALILGDNIFYGHGLTELLEKAVKKKRGATVFGYYVNDPERFGVVEFDSKKHVINIMEKPKEPKSNYAVTGLYFYDKRVIEIAKTIKPSSRGELEITDINKEYLKMGELEVELLGRGYAWLDTGTHESLLEAAQFIETIEKRQSLKVACLEEIAFKKKYITKQQLLKIANSVKENQYSRYLLRVAHQ	PGPT0022600_2225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022600-rfbA|rmlA|rffH-K00973	NA	NA
AK009_04653	567	rfbC_2	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGCGTAAAATTCATACAGCATTAGATGGTGTTTTTATTATAGAGCTTGATAAATGCAGTGACAAACGTGGTTACTTCATAGAAACATATAATAAGAAAAAATTTGAACTTTTAGATTTACAGGGAGAATTTGTACAAGATAATCAATCATTATCTGTTCACACAGGCACGATACGTGGGCTGCATTATCAGTTGAATCCTAAAGCCCAAATGAAGGTAGTGAGCTGCATTTCTGGTTCTATTTACGATGTAGTGGTAGATATTCGAAAGGGATCCCCCACGTACGGGCAATGGTTCGGAACAATTTTAAGTGAGTATAATAACCGTCTACTTACCGTTCCTAAAGGGTTTGCACATGGTTTTTGTACAATAGAACCTAATACTATCGTCCAGTATAAAGTAGATGAGTATTATTCCCCTAACCATGAAGAGGGAATTCTATGGAATGATGAAACGATAGGAATATTTTGGCCAACTAATCAACCAATTTTATCAGAAAAAGATAGAAAACTGCCTAGATTAAAAGATACTAATATCAACTTTGTTTATGGAGATGATTTTAATTGA	MRKIHTALDGVFIIELDKCSDKRGYFIETYNKKKFELLDLQGEFVQDNQSLSVHTGTIRGLHYQLNPKAQMKVVSCISGSIYDVVVDIRKGSPTYGQWFGTILSEYNNRLLTVPKGFAHGFCTIEPNTIVQYKVDEYYSPNHEEGILWNDETIGIFWPTNQPILSEKDRKLPRLKDTNINFVYGDDFN	PGPT0014300_544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790	NA	NA
AK009_04654	957	rfbB	COG1088	dTDP-glucose 4,6-dehydratase	TTGAAATTATTAATAACGGGTGGGGCAGGTTTTATTGGTAGTAATTTTATTCGTTACATTTTAAAGAAATATCCTCAATACCAAATTGTAAATGTAGATTTATTAACATATGCAGGAAATTTATCTAATCTCAAGGAAATATCATCAAATCAGAATTATAAATTTATCAAAGGGGATATTTCAAATGAAATATTCATAGATAAGTTATTTAAAAAAGAGAAATTTGATTATGTATTAAATTTTGCAGCAGAATCTCACGTTGATAGAAGTATTAAAAGTCCCCATATCTTTGTTCAAACTAACATATTAGGTACACAAGCCTTATTACAATCAGCATATAAAACAAAAGTGAAAAAGTTTGTACAAATTTCTACAGATGAAGTATATGGAACATTATCTCAAACAGGTGCGTTTACAGAGCATTCAATAATAGCTCCTAATAGTCCTTATAGTGCAAGTAAAGCTAGTGCGGACTTAATGGTACGAGCGTATCATGAGACATTCGGTTTACCTATGAATATCACTCGTTGTTCCAATAATTATGGTCCCTATCAGTTCACGGAAAAATTAATACCATTAACAATAACTCATGCGTTAAATAATAAAGATATTCCTCTATACGGTGATGGATTACATATAAGAGATTGGCTTCATGTAGAGGATCACTGTGTAGCTATTGATTTAGTTCTTCATGATGGAGCAGATGGGCACATTTATAACATCGGAGGAGATAATGAATATACAAATCTAGATATTGTACAAAAAATAATCAAATTCCTAAATAAAGATCAATCGCAAATTACATTTATCTCAGATCGCTTAGGACATGATCGACGTTACGCCATGGATGCTACTAAGCTGAAAGAAGAATTAGGTTGGAAACCAAACTATCTATTCGATGCTGGACTCACTCAAACAATTAAGTGGTATATAGATAACCCTACTTGGTGGGAATGA	MKLLITGGAGFIGSNFIRYILKKYPQYQIVNVDLLTYAGNLSNLKEISSNQNYKFIKGDISNEIFIDKLFKKEKFDYVLNFAAESHVDRSIKSPHIFVQTNILGTQALLQSAYKTKVKKFVQISTDEVYGTLSQTGAFTEHSIIAPNSPYSASKASADLMVRAYHETFGLPMNITRCSNNYGPYQFTEKLIPLTITHALNNKDIPLYGDGLHIRDWLHVEDHCVAIDLVLHDGADGHIYNIGGDNEYTNLDIVQKIIKFLNKDQSQITFISDRLGHDRRYAMDATKLKEELGWKPNYLFDAGLTQTIKWYIDNPTWWE	PGPT0022625_5126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022625-rfbB|rmlB|rffG-K01710	NA	NA
AK009_04655	849	rmlD_2	COG1091	dTDP-4-dehydrorhamnose reductase	ATGAAGATACTGATAACGGGAGTAGATGGACAACTAGGACAAACTTTAATGCAAGTACTCAGCAGAACACATCATGAGCTATATGGTGTGAATCGAACCACGTTAGATATTACAAATAAAATAAAAGTTAGCTCTTATCTTGATAGGTTAAAGCCAGATGTAATTGTACACTGTGCAGCATTTACAAATGTAGATGGGGCAGAGAAAAATAAAGGGCTGGCATATGAAGCGAATGTATTAGGTACCAAGTATATTGCTGAAGCTGCAGGGAGAATAAAATGTAAATTTGTATATATTAGTACGGATTATGTATTTGATGGCGAAAAGCATACACCATACAATCTTGAAGATCGTCCTAATCCATTAAATATATATGGAGAAACGAAATTGGCTGGAGAACATTTCGTAAAAAAATACACGAAGAAACATTTTATTATTAGAACGTCCTGGATATTTGGAAAGGGCGATGGTCACTTTATCGCTAAGATAAGAAAAATAGCAAATCTATACGGTGAAGTTCGCGTGGTATCTGACCAGTTTGGTTCACCTACCTATGCACTAGATTTAGCAAATTTTATTGCAGAGTTAATAAAGACGGATCAATACGGTTTATATCATGTGACAAACGAAGGAATATGTTCATGGCATGAGTTTGCAGTTGAATTTTTTAAAGACTTCAATACAGATATCAATATAATTCCTTTAACGACAGAAGAATTCCCGCAAGCAGTCAACCGACCTAAATATTCAGTGTTAAGCAAAGATTGCATTATCCTGAATGGTTTAAAACCATTAAGACATTGGAAAGAAGCATTAAAAGAGTATAAGGACCAACTTAATAGTAGATAA	MKILITGVDGQLGQTLMQVLSRTHHELYGVNRTTLDITNKIKVSSYLDRLKPDVIVHCAAFTNVDGAEKNKGLAYEANVLGTKYIAEAAGRIKCKFVYISTDYVFDGEKHTPYNLEDRPNPLNIYGETKLAGEHFVKKYTKKHFIIRTSWIFGKGDGHFIAKIRKIANLYGEVRVVSDQFGSPTYALDLANFIAELIKTDQYGLYHVTNEGICSWHEFAVEFFKDFNTDINIIPLTTEEFPQAVNRPKYSVLSKDCIILNGLKPLRHWKEALKEYKDQLNSR	PGPT0022630_3849	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
AK009_04656	921			hypothetical protein	ATGGTTAAACTAAGTGAAATAGTGTCTAAACTGGACATTGAACTTGATATAAAATCATTTGGGAAGGATTCTGCTTTCAGTCAATTCATACCAATGGTCTATGAACCTTTAAAGTTTGACTGGAAATCAGTTTTTGAAAAAGACTTTGTGGAATTATTTAATGGTCTAATGTTAAAAGGAGATGCAAATGTAAAGAAAATTTTTCTTGCCGTCTTCCCTACAGATGAAGTGTTGGAACGTTTTATAGAAGAAAGTAATAGCGGAGACTTACTTTTTATGCACCATCCCTTATTGATGGAATGTGGAGATCCAAAAGGAGTATGGGGCAAAGGTTTTGTTCCTATAAAAGAAAAATACATTAAACAAATAAAAGAAAAGAAATTATCATTCTATACATGCCATGTACCGATGGATTATCATGCCAATTTAGGTACAAGTGTAGCTATTGCTAAACAATTAAATGCAGAAATTATTGATGGGTTTTTAACAAGTTCTATAAATAATGAAGACCTAGTTCTAATTTGTAACATTGAAGAAAAGAGTACAAGTGAGCTAACTTCTCACTTAAAAGAAATATTCGATATTCCATATGTTGATTTTGAAGGTAAGAACATAAATAACGTAAAGAAAATTGCTATCGTTGCAGGTTGTGGCGACAAAGTAAGTTGGATGGAGGAAGCTGAAAAGAGAGGAGTTCAAGCCTATATCACTGGCGAAATCCATTGCCATATTGATAACGAATATGGTAAACAAAGATACAAACAAATGATGGATTATGTTTCTAATACTTCGATGTCTTTAATCGGCGTTTCCCATTCTGCATCAGAATATCTGGTCCATAAAACATTGATGAAGGAATGGTTTGAGAATAACTTTGATATTGAAACAGTTTTAATTCCACAGGAAAAATGGTGGTTATAA	MVKLSEIVSKLDIELDIKSFGKDSAFSQFIPMVYEPLKFDWKSVFEKDFVELFNGLMLKGDANVKKIFLAVFPTDEVLERFIEESNSGDLLFMHHPLLMECGDPKGVWGKGFVPIKEKYIKQIKEKKLSFYTCHVPMDYHANLGTSVAIAKQLNAEIIDGFLTSSINNEDLVLICNIEEKSTSELTSHLKEIFDIPYVDFEGKNINNVKKIAIVAGCGDKVSWMEEAEKRGVQAYITGEIHCHIDNEYGKQRYKQMMDYVSNTSMSLIGVSHSASEYLVHKTLMKEWFENNFDIETVLIPQEKWWL				NA	NA	NA	NA	NA
AK009_04657	1431		COG3385	IS4 family transposase ISBce11	ATGAATCCTATCATTTCAAATAGATTGAATCTTTTCGCTCAAGAGCTACAATACTTTTTATCTCCAGTGGTCCTACAAGATATTGCCAAACAAGTTGGCTTTGTACAACGATCTAGTAAGTATCAAGCAAAAGAACTCATTGCCCTTTGCGTATGGCTTAGTCAAGAAATTGCTAGCACATCACTTACACAATTGTGTAGTCAGTTAGAAGTTTCCACTGGGGTACTTATGAGCTCAGAAGGACTGAATCAACGCTTTAATCCAGCAGCTGTCGCATTTCTTCGAGAAGTCTTTACTTCTCTTCTCAAACAAAAACTCTGTTCAAATCACTCACTTTCTGCACACATGATATCTACTTTCAATCGTATCCGTATTTTGGATGCAACAGTGTTTCAACTGCCTGATCATTTCGCCACTGACTATCAAGGTTCAGGTGGAAGTAGTAATACGGCAGGCGTAAAAATCCAATTGGAATATGATTTACTTAGTGGTCAATTTCTTAACGTGCAGCTTGGACCAGGAAAGAATAATGATAAAACATACGGTACCATCTGCCTTGAAACCGTAGAGACCGGCGATTTGTGTTTACGTGATCTTGGTTACTTCGATTTAGGAGACTTACAAACTATTCATGATAAAGGAGCTTACTACATCTCGCGGTTGAAGCTGAATACGCGGATTTATATCAAGAACCCTGAGCCAGAATACTTCAACAACGGCACGTTAAAAAAGCAAACAGAATACATCCAGCTTGATATGACACAAATGATGTCAGATCTAATCCCTGGTGAAACGATAGAAATTACCGAGGCATACATTGACCAAAATCAAAAACTTCCAGCACGTGTCATTATCCATCGTTTAACCGATAATCAAACGCAAACACGCCTAAAAAACCAAGCGATACGTGAAAAGAAAAAAGGCATTGTCATGAAGGATAAAAGTAAGCGTTTAATGGGGATGAATGTATATATTACGAACACGTCTTTAGAAGGAGTACCAACGAACTACGTGCACTCACTGTATTCACTTCGCTGGCAGATTGAAATTTTGTTTAAAACGTGGAAGTCATTTTTTGAAATTGATGAATGTAAAAATATTAAAAGAGAGCGCCTAGAGTGCCATTTATATGGACAACTAATTGGTATTCTCCTCTGTTCTTCTACGATGTTTCAAATGCGACAGTTTCTGCTTGAAAAAACAAATCAGGAGCTAAGTGAATACAAAGCGATTTATATGATTAAAGATTACTTTCCGTTACTTTTTCAAGCGATAGCCATTGGCACAGAACAACTTTTAAAAATTTTGCATCGTCTTTATCTATTGCTCAAAAAGAACGGTCGTAAATGTCATCGGTATAAGAAAATGACCGTCTTTGATATTCTAGGGATTGTGTATAAAACGACGGTGAAGCATAGACAAACTGCCTAG	MNPIISNRLNLFAQELQYFLSPVVLQDIAKQVGFVQRSSKYQAKELIALCVWLSQEIASTSLTQLCSQLEVSTGVLMSSEGLNQRFNPAAVAFLREVFTSLLKQKLCSNHSLSAHMISTFNRIRILDATVFQLPDHFATDYQGSGGSSNTAGVKIQLEYDLLSGQFLNVQLGPGKNNDKTYGTICLETVETGDLCLRDLGYFDLGDLQTIHDKGAYYISRLKLNTRIYIKNPEPEYFNNGTLKKQTEYIQLDMTQMMSDLIPGETIEITEAYIDQNQKLPARVIIHRLTDNQTQTRLKNQAIREKKKGIVMKDKSKRLMGMNVYITNTSLEGVPTNYVHSLYSLRWQIEILFKTWKSFFEIDECKNIKRERLECHLYGQLIGILLCSSTMFQMRQFLLEKTNQELSEYKAIYMIKDYFPLLFQAIAIGTEQLLKILHRLYLLLKKNGRKCHRYKKMTVFDILGIVYKTTVKHRQTA				NA	NA	NA	NA	NA
AK009_04658	1017			hypothetical protein	ATGAAAAGCATGAAAAATGTAATATTGCTAGTAGTATGTTTCATATTTTTAAGTGGTTGTAATCAAGTTAATGAAGATGAGGTACAAAAATATATAAAAGAAAAACACGGAATCGATGTTGTTGTAACACATATGAGCCCTTTAAATGAAAATAATATGGGACATGCATACCATACTGTGCAAGTAAAGAATAATAAAAATATTCAATTTCGAGTAGAGGTAGATGGTCTCTTCTATTCATCCATAAAAAGTGATGAATACAAATATGGAAAAAAAACATATGAGGCATATCAGAAATTCCAACCAACTCTAGAAGAAATAAAAAAGTTAGGGTACGTGGAAACTAAAACTGATAACACTCTTCAATATTTGTCAGAGGATAGAAGGTCAGATGAAGGAAAACCAACTAATGAATTATTATTAACTTTGCAAATGAGTAACGAGATTGACTTTAGCCAATTTGAATCAGTAGAATTAGATCGTTTATATACTCTATTTCAACTCATCCAGAAAAATAATAAAAAGATAACAGAACTTGAAATTAAGGATTATAATGGAAAATCTTTAGGTGGACCTTTTAAAAATGTGCAAAAAATGATAACAAAAGAAGAGCTGTTATTAACAATGAAAAAAACGATGAACAATACGATAGACATTTATTTGGAAAATTGGATTAAAAATCATACAAAAATAGAAGAGAGATTAATTGCAATCCAAAACAATCGTTTTGAATTACAAGGTATTACTTATGCGAATTTGGAATATATGGATGTTCGAGGATATAAGGTGAATTTAATTATTAATACCGGTAGTAATGAATTTGAAAATAATCCCCTTGTAATTAAAGATTTAATCAAGATAACCACAATCCTTAAAGAAGAACTATATAATAAAAAATTTCAGATATACTTACAAACTAAGAATGGAACAAGATATACACCTTGGTTATCATCAGAAGAAATTAAAAAAACTATTAACATCGAAGAACTTGTAAAAGAGCGATATCCTAAGAATTAA	MKSMKNVILLVVCFIFLSGCNQVNEDEVQKYIKEKHGIDVVVTHMSPLNENNMGHAYHTVQVKNNKNIQFRVEVDGLFYSSIKSDEYKYGKKTYEAYQKFQPTLEEIKKLGYVETKTDNTLQYLSEDRRSDEGKPTNELLLTLQMSNEIDFSQFESVELDRLYTLFQLIQKNNKKITELEIKDYNGKSLGGPFKNVQKMITKEELLLTMKKTMNNTIDIYLENWIKNHTKIEERLIAIQNNRFELQGITYANLEYMDVRGYKVNLIINTGSNEFENNPLVIKDLIKITTILKEELYNKKFQIYLQTKNGTRYTPWLSSEEIKKTINIEELVKERYPKN				NA	NA	NA	NA	NA
AK009_04659	1431		COG3385	IS4 family transposase ISBce5	ATGTCTGTTTCTGTGTCTAACGAATTACAACTATTTGCTCAAGAGATTCAAAGTGCCCTATCTCCAAATGCCTTACGAAATCTTGCTAGAGATGTTGGCTTTGTACAACGAACCAGTAAGTACCGAGCAAAAGATTTAGTCGCTTTATGTATATGGATGAGTCAAAATATCGCTACAACCTCTTTAGCTCAGTTATCTAGCTGTTTAGAGGCATCAACAGAAGTACTCATCAGTCCGGAAGGACTGAATCAAAGGTTTAATAGATCAGCCGTTCAATTTTTACAACACATATTGACTAACCTTCTAAATAAAAAACTAACTTCATCTATGCGAATTTCTTCTCCATACACCTCTGTTTTCAAGCGTATTCGTATTTTAGATTCAACTGCATTTCAACTTCCAGATCTTTTTTCTTTTGTTTATCCAGGTGCAGGAGGATGCAGCCATACAGCGGGAGTAAAGATACAGCTTGAGTATGATTTATTAAGTGGACAATTCCTTCATATTCATACAGGTCCAGGTAAACAACATGATCGAACCTACGGTTCTTTGTGTGTCCCAACTGTGGCAGCGAATGATCTATGTATCCGAGATTTAGGGTATTTTCATTTGAAAGATCTTCAATATATACAAGATAAAAAGGCTTACTATATCTCTCGTATCAAATCGAATACACGTATTTATCAAAAAAATCCCAATCCTGATTATTTTCAAGATGGCAGAATCAAGAAAGGTACAGAGTATATCCAAATAGATATGGAGGTTGTAATGAACTCTCTTCAACCAGGACAAACATATGAAATATCCAACGCTTATGTAGGAATGACGGATAAAGTCCCAACTCGTGTGATTATTCATCGACTAACAAAAGAACAACAACAAAAACGATTACAAGATCAAACGGTAAGAGAAAAAAAGAAAGGAATGAAGTATTCTGCTCGTAGTAAACGACTTAGCGGTATCAATGTATATATGACAAATACCCCTACAGATATTGTCCCGATGGGGCAGGTGCATGATTGGTATTCTTTACGTTGGCAAATCGAGATTTTATTTAAAACGTGGAAATCATTCTTTCATATTCATCATTGTAAAAAGATAAAACGAGAACGATTGGAATGCCATTTGTATGGAAAACTGATTGCCATTCTACTCTGTTCTTCTACCATGTTTCAAATGCGGCAATTACTTCTTATGAAAAAGAAACGAGAACTGAGTGAATATAAGGCCATATATATGATTAAAGATTACTTTCTTCTTCTTTTCCAAGCTATACAGAAAGACACCCAAGAGCTATCAAAGATTCTAATTCGCCTGTTCAACCTCCTACAGCAAAACGGGAGAAAATCTCATCGATATGAGAAGAAAACAGTCTTTGATATATTAGGTGTCGTTTACAATTGTACCATGTCTGATAATCAAGCGGCTTAA	MSVSVSNELQLFAQEIQSALSPNALRNLARDVGFVQRTSKYRAKDLVALCIWMSQNIATTSLAQLSSCLEASTEVLISPEGLNQRFNRSAVQFLQHILTNLLNKKLTSSMRISSPYTSVFKRIRILDSTAFQLPDLFSFVYPGAGGCSHTAGVKIQLEYDLLSGQFLHIHTGPGKQHDRTYGSLCVPTVAANDLCIRDLGYFHLKDLQYIQDKKAYYISRIKSNTRIYQKNPNPDYFQDGRIKKGTEYIQIDMEVVMNSLQPGQTYEISNAYVGMTDKVPTRVIIHRLTKEQQQKRLQDQTVREKKKGMKYSARSKRLSGINVYMTNTPTDIVPMGQVHDWYSLRWQIEILFKTWKSFFHIHHCKKIKRERLECHLYGKLIAILLCSSTMFQMRQLLLMKKKRELSEYKAIYMIKDYFLLLFQAIQKDTQELSKILIRLFNLLQQNGRKSHRYEKKTVFDILGVVYNCTMSDNQAA				NA	NA	NA	NA	NA
AK009_04660	396			hypothetical protein	ATGAAAAAGGCACAAGAATTAGGGAAAGCTAATAATGAAGAATCCTACACTTATTATCTAAAAGAAATCGAACCTAATATGCAAAAAACAATTCAGTCCATTCGTGAACTAATGGTATATAACAGTAATAATGCAGAGCAGTTACAACAAGTTAATAATAACAATGCTCAAAATACAATGATAATGTTTGTAGTCCTTTCAATTTTAGCGATTATCATAGTAATATTCATCGGATATCTTATTAAGTTAACCATACGACAAGCACTATTATTATTGCAAAATGATATGAAGAAAGTAGCTGCAGGTAATTTAACAATACGTACTTCTTATAAAGCAAATAATGAGATAGGAAATATTGTACAGTCTTTTAATAGTATGTTAGATAATCTACAATAA	MKKAQELGKANNEESYTYYLKEIEPNMQKTIQSIRELMVYNSNNAEQLQQVNNNNAQNTMIMFVVLSILAIIIVIFIGYLIKLTIRQALLLLQNDMKKVAAGNLTIRTSYKANNEIGNIVQSFNSMLDNLQ	PGPT0015710_22824	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
AK009_04661	261			hypothetical protein	ATGGATGAAATAACAATTGGTGTGCAAACAGTAGCTGAGTCTTCAGCTGTAGTTGCTGAGGTAGCAGTAACTACTACAGAAAAAATACACATTGGTAGTGATGTAATAAAGCACTCAATTCTTCAAATGAACAGTGTTCATGATGTGGTGGAGGAAACATCAAAAGTAATAGATAGACTTGTTACACGTACACAACAGATTGATACAGCTTTGGATGCAATTACTAATATTGCCGAGCAAACACTAACCTTCTTGCCTTAA	MDEITIGVQTVAESSAVVAEVAVTTTEKIHIGSDVIKHSILQMNSVHDVVEETSKVIDRLVTRTQQIDTALDAITNIAEQTLTFLP				NA	NA	NA	NA	NA
AK009_04662	468	yoaH	COG0840	Putative methyl-accepting chemotaxis protein YoaH	GTGGTTGCAGCAGAAGTGAGGGATTTAGCTGAAAAGTCTAAAGAATCCGCGAATGAAATTAACCATTTAGTCAAATCTATTCAACAAGATACTCAAGACACAGTTCATGTCATGCAAAAAGGAGAACAAAAGGCAGCAGAAGGAAAGGAAGCAGCCCACCAAGCAGATCAAACATTCTCATCTATTATGAGAGATATTGACAAAATCACAAGTCAAATTCAAGAAGTCTCTGCAGCAACAGAAGAGATGTCTGCCGGTACAGAAGAAGTAAATGCGTCTCTTTCACTAGTATCTGATACTTCAACACAAATAGAAAGAGAAACAATTCAAACAGTACAATCAATTCAATTACAAGCAGTTTCAATTCAAGAAATTTCAAATCAATCTAACAAGATGAAAGAAAAGGTGAATGCATTAACAGAATTGCTTTCTAAATTTATTATTGAAGAGCAAAAAAACGAGAAATAA	MVAAEVRDLAEKSKESANEINHLVKSIQQDTQDTVHVMQKGEQKAAEGKEAAHQADQTFSSIMRDIDKITSQIQEVSAATEEMSAGTEEVNASLSLVSDTSTQIERETIQTVQSIQLQAVSIQEISNQSNKMKEKVNALTELLSKFIIEEQKNEK	PGPT0015710_15007	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
AK009_04663	720	yvmC		Cyclo(L-leucyl-L-leucyl) synthase	ATGACGAATGCTATAGCGGTAAGAAATGTACGAAAGTTTAGTTCTCAACCCTTATCTACTAATTGTGCTGAAATATTAAAACGTAGTAAGCATGCAATAATAGGTATTAGTCCGTTTAATAGTAGATTTTCTGATGAATATATTAATAGACTCATTGAATGGGCATTACATACTTTTGATGATGTTAGTGTTTTATTAGCTGGAAAAGAAGCTGCAAATTTACTTGAGGCTCTAGGAACACCAAAAGGTAAAGCGGAAAGAAAAGTTAGGAAAGAAGTATCTCGAAATAGAAGATCAGCTGAAAAGGCACTTAAAGAGCATGGTGGTAATGTAAATGCTATCCATACTTTTTCTGATTTTAATGACAACAATGCATATAGCTGCATGAGGGCAGAAGCAGAACATATTTTTTTAAGCGAAACTGTTTTTCGAAATGCTTGCTTAGAAATGTCACATGCAGCCATTTTAGGTAGGGCAAGGGGTACTAATATAGATATTGATCAAATATCAAATGACATGCTAAATATTGCAGTAGAATATGTAATTGCAGAACTCCCATTTTTCATTGGTGGAGCTGAAATTTTAGGAACTCAAGAAGCTGTACTTATTTATCATAAACCATGGGAGCTTGGTGAACAGATAGTTAGAAATGATTTTTCTATCAGGATGAAACCAAATCAAGGATATTTAATGGTACAAGAAATGGAAAATTTATCTTAG	MTNAIAVRNVRKFSSQPLSTNCAEILKRSKHAIIGISPFNSRFSDEYINRLIEWALHTFDDVSVLLAGKEAANLLEALGTPKGKAERKVRKEVSRNRRSAEKALKEHGGNVNAIHTFSDFNDNNAYSCMRAEAEHIFLSETVFRNACLEMSHAAILGRARGTNIDIDQISNDMLNIAVEYVIAELPFFIGGAEILGTQEAVLIYHKPWELGEQIVRNDFSIRMKPNQGYLMVQEMENLS				NA	NA	NA	NA	NA
AK009_04664	1221	cypX_2	COG2124	Pulcherriminic acid synthase	ATGTCAAATACTATACAAACGGTAAATATATTAACAGAGGAATTTCAAGAAAATCCATATAAGTATTTTTCATACCTACGTCAGAATGACCCAGTACATTATGAACCTGAGATTGATAGTTATTTTATTAGCAGATATCAAGATGTCCGTAATATATTGAATGATACTGAAACATTTACAACAAAATCATTAGCTGAACGTGCTGAGCCAGTAATGCGTGGACCAGTATTAGCACAAATGCGTGGAAAAGAGCATGTTGCGAAAAGAAAAATTGTTCTAAGAAGTTTTATGGGAGATGCTTTACAAAAATTAATGCCTTTAATTAAAAAGAATGCAGAAGATTTACTATTTCCACACCTTCCAAATGGAAAGATAGATTTAATTAATGATTTTGGCAGAACATTTGCTGTTTATGTAACAATGGATATGATTGGATTAGATAAGAAAGATCATAAGAAGATAGGAGAATGGCATAGCGGTGTAGCTGACTTTATTACCAGTATAAATCAACCACCAGAGGCAAAAAAACATTCTCTTTGGTGCAGTGAACAGTTAGCTAATTATTTAGAACCAATTATTAAAGAGCGAAGATTAAACCCACAGGAAGACTTAATTTCTAAATTATGCAGTGCAAAATATGAAGGAATAGCTATGACTAATACTGATATTCTAGCATTGATTTTAAATATATTATTAGCTGCAACAGAACCTGGTGATAAGACTCTTGCTTTATTAATCTATAATTTAATTAACCAACCGAAACAACTGCAAGATGTATTAAGTGATCGTTCATTAGTACCATTAGCTATTGCAGAAACTTTACGTTACAATCCACCAGTGCAATTGATCCCACGTCAATTGTCAAAAGATACGGACATAAGTGGTATCCAACTATCCAAAGGAACTACGGTATTTTGTATGATTGGTGCAGCGAATCGTGACCCTAATGCATTTGAAAGACCTGATGAATTCAACATTTATCGTCCGGATCTTGATATTAAAAAGGCATTTAGTGGTGCTGCAAGACATCTTGCATTCGGATCAGGTATTCATAATTGCGTAGGAGCAGCGTTTGCAAAATCAGAAATTGAAATAGTTGTAAATGTAGTCTTAGATAATATGAAAAATATTAAATTAGAAGAAGATTTTCAATATGTTGAAAAAGGACTTTATACACGTGGACCTATTTCCATGCCTATTCTTTTTGATAAGTTAGTTTAA	MSNTIQTVNILTEEFQENPYKYFSYLRQNDPVHYEPEIDSYFISRYQDVRNILNDTETFTTKSLAERAEPVMRGPVLAQMRGKEHVAKRKIVLRSFMGDALQKLMPLIKKNAEDLLFPHLPNGKIDLINDFGRTFAVYVTMDMIGLDKKDHKKIGEWHSGVADFITSINQPPEAKKHSLWCSEQLANYLEPIIKERRLNPQEDLISKLCSAKYEGIAMTNTDILALILNILLAATEPGDKTLALLIYNLINQPKQLQDVLSDRSLVPLAIAETLRYNPPVQLIPRQLSKDTDISGIQLSKGTTVFCMIGAANRDPNAFERPDEFNIYRPDLDIKKAFSGAARHLAFGSGIHNCVGAAFAKSEIEIVVNVVLDNMKNIKLEEDFQYVEKGLYTRGPISMPILFDKLV				NA	NA	NA	NA	NA
AK009_04665	471			hypothetical protein	ATGACAAATTTTGTCCATGAACAAACCTTAAAAGCTATTGAAGACTTTGTCATAACAAGAGAAAAGAAAAAATATGCATCTCAAGAGATGATAAAAGAATTAGTTAGTGAATATGAAAATATAAATAAAAATTGGACTCTAACGCAACTACATATTGTTTCGGTTATTCATGAGAGTAAACAACAAATGAATAACACTCTACTATCTATGGAACTTAATATTTCTAAAGCAACCATCTCTAAAGCTATTCGCGTTCTTATTGATAATAAAATTTTATTGACGCATCAAAATACAGATAATAAGAAGGAAATCTTTTATACTTTAACTGATAAGGGAATACAGTTAGCCATTGTTCATAAAAAGTTACACAAAATTGCACATGAGCGTTACAGTGAGTTATTCCAACAATTTAATGATTCCGAGTTACAAATTGTAACAAAATTTTTAGAAGCATGGAAACAATGTATTTAA	MTNFVHEQTLKAIEDFVITREKKKYASQEMIKELVSEYENINKNWTLTQLHIVSVIHESKQQMNNTLLSMELNISKATISKAIRVLIDNKILLTHQNTDNKKEIFYTLTDKGIQLAIVHKKLHKIAHERYSELFQQFNDSELQIVTKFLEAWKQCI				NA	NA	NA	NA	NA
AK009_04666	477	pchR_2		HTH-type transcriptional regulator PchR	ATGAATAAGGGCATAAAACAGAAAATTTACGATAATTATCTACATTTGTTACATCTCAATGAACAAAAGGCAGATAAGGATATTGAGACTTTTTTTAAGCAAGCAAAAATGGAAGAAATAGAACATGTACCGACAAATATGACAAGTATACACGTAATTGCCTGTATTGGTGAAAATCAGCCAATAAATAATATTACAATTGCAAGGAAAATGAATTTATCTAAAGCGAATATCACAAAAATTAACACCAAATTAATAAAAGAAAATTTAATCACTCGTTTTCAGTCAGTTGATAACAAAAAGGAGGTATATTATCAACTTACTCCGGCAGGACAATCACTTTGTGAATTACATCAGAAAATTCATGACCAGAAAGAAAATGAATTTTATCAGTTCGTTGATTCATTTTCTGAAATTGAACAAAACGCAATATTGAAGTTTTTACAAAATATAAACGATAAAATGTTGGAGAAATAA	MNKGIKQKIYDNYLHLLHLNEQKADKDIETFFKQAKMEEIEHVPTNMTSIHVIACIGENQPINNITIARKMNLSKANITKINTKLIKENLITRFQSVDNKKEVYYQLTPAGQSLCELHQKIHDQKENEFYQFVDSFSEIEQNAILKFLQNINDKMLEK				NA	NA	NA	NA	NA
AK009_04667	1215	ymfD_2		Bacillibactin exporter	ATGAACCGTGTTAAATCAAGTGCTTCTTTTCTTTTATATTTGTTGTGTATTAGTGCTTTTTTCGCTTCTTTAAATCAAAATATATATTCTCCAATAATCCCCATAATTCGGGATTCATTCCAAGTATCTATAACAATGGTTAACCTTTCCGTTTCCATATTTATTTTTATTACGGCAATTATGCAAATTGTTTTTGGTTCTATAATTGATTTTAAAGGTGCTAGGACTATTCTCATTCCGAGTATTATTTTAACAATTATAGCGAGTATTGGTTGTGCAATTACAAGTAACTTTACAGTATTTTTAATATGTAGAATTTTACAGGCTGTAGGGACAGCTGCAATACCACTTATTGCTGCAACTACAATTGGTACTGTATTTCAAGGAGAACAACGAGGAAGTGCAATGGGTACATATCAAACCATGTTATCCATTGCACCTGCTGTTGCACCTGTGCTAGGAGGTTTTATTGGGGAAAAATATAATTACCCAGGTGTTTTCTGGCTACTTGTGGCAGTATCTTTAATTCTATTTGTAACTAATTGGATATATTTCCCTAAGGATCGTGTAGGAAGTAAAAAAGAATTGAGTGGGAAAACACTTATGTCTCACTATGCTTCTATATTTAAAAGCAAAGTGGGCAGTTCCATATTAATATTAAGTTTCTTTGCATTTTTTCTTTATTTCTCCTTCATTGTTTACTTACCAATTTTATTAACTGATCATTATCAATTAAGTTTACAGGTAGTGGGTTTACTTTACTTACCAATGGCTGTTAGTTTAATGATTGGCAGCATGACTTTTAAAACAATTCAATCAAGAATTTCACAAAAAAAGTTTTTTATAACTGGAAATGTAGTCTTAGCTTTGAGCGTTATATTATTTGCTGTGACACACTCGAATACTTTAATTGGCGTAACAGTTGCTTTAATTCTTCACGGAATATCAATTGGTATCCTTACTCCTTTATTTGCTACTATGATTGCAAATGAATTTGAACATAATAGAGGAAGTGCAATGGGAATGTTTAACTTTATTAGATATATGGGAATGGCTGTAGGACCTATTGTTTCGGGGGTATTATTAGCACATTTCAAGCCTACAATTGTATTTGCTCTTTTTGGCGGATTTTGTATCTTTCTCTCTTTTGGTATGCTTATACGGATTAGTAAGAGATCTATTAAAATTGTACCAAAACAAGAAAACCTAAAATAA	MNRVKSSASFLLYLLCISAFFASLNQNIYSPIIPIIRDSFQVSITMVNLSVSIFIFITAIMQIVFGSIIDFKGARTILIPSIILTIIASIGCAITSNFTVFLICRILQAVGTAAIPLIAATTIGTVFQGEQRGSAMGTYQTMLSIAPAVAPVLGGFIGEKYNYPGVFWLLVAVSLILFVTNWIYFPKDRVGSKKELSGKTLMSHYASIFKSKVGSSILILSFFAFFLYFSFIVYLPILLTDHYQLSLQVVGLLYLPMAVSLMIGSMTFKTIQSRISQKKFFITGNVVLALSVILFAVTHSNTLIGVTVALILHGISIGILTPLFATMIANEFEHNRGSAMGMFNFIRYMGMAVGPIVSGVLLAHFKPTIVFALFGGFCIFLSFGMLIRISKRSIKIVPKQENLK				NA	NA	NA	NA	NA
AK009_04668	240	rox_2		Rifampicin monooxygenase	ATGGAAAATTATTATGATGTAGCGGTAGTTGGTGGTGGTCAGGTTGGACTTATGACAGCATGTGAATTAGCTATTCAAAGTGTAAAAGTTGTCGTTTTAGAGAGAAGATTAAATCGGATAAGAAATTCTAGAGCACTCACACTTCACCCTCGCTCCTTAGAATTAATGGCTATGAGAGGTATTGAAAATCGCTTTTTATCTAGAGGTAAGAAATCAGATACAAGCCTTTTGCTGCCTTAG	MENYYDVAVVGGGQVGLMTACELAIQSVKVVVLERRLNRIRNSRALTLHPRSLELMAMRGIENRFLSRGKKSDTSLLLP	PGPT0028535_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RIFAMYCIN_RESISTANCE,PGPT0028535-iri|rox-K21267	NA	NA
AK009_04669	1047	pbpE_2	COG1680	Penicillin-binding protein 4*	GTGATTGAGATGAATAATGCATATAATGAAAAGACACATACATTAATTAAACAATTATTGAACAAGTTTTCCACAAAAGCTCCTGGCTTTGCATATATTGCTAGTTTTGATAGCGGGGTAACATATAAAGGTGCGGTTGGCTTAGCTTCTATAGAGAAAAATTCACCTATAAACACAAAAAATATTTTTAATATTGCTTCAGTTTCTAAGCAATTCACAGCATTTTCTATATTACTCTTAGAACAAGAGGGAAGATTGAGTTTAGATGATTCAATTGTAAGGTTCGTCCCTTCTATAGGAACATATGCTGAACCAGTAACATTGAAACATCTAATTCATCATACTGGTGGACTAGTTGATTATATGGCATTAGCTGAAGCAGCAAATATTAAATTTACTGATTCATTAACTGTGGAAGAATCGCTAAACCACCTTAATAGTCATCAAATTGCAAGGTTCGCAGCTAGTACAAAATTTGAGTATAGCAATACAGGATATTTTTTATTATCACAAGTGGTAGAGAAGGTAAGCGGCAAGTCTCTACGTCAGTTTACAAAGGATTGTATTTTTGACCCTTTAAATATGAGAGACACAACAATTATAGATTACTACCCAACTACTGTACCAATTACTAGTGGGTATTCGAAGAATGAGCAAGGAACATATAAAATCTATGAAAGCCCTTGGGAACACACAGGGGATGGGGCAGTTCATGCAACAGTTGAAGACCTGGTAAAATGGGGGGAGAATTTAACTACAGGTACCGTTGGTGGAAAAGAACTTGTTAAAAGAATGAGCGAAATAGGTCCGAAAATTTCTCCAACTGGGAAGACGATTATTGACAATGAAGATTATGCTTTTGGACTAAGGCTTGCTGAAGGTTTTAACTGTCGGTACTTGGAACATTCAGGAAGTTGGGCGGGTTATCGTTCACACTTCATGCGGTTTCCACAAGAATATTTGTCTGTTGTAGTCCTAAGTAACTATGATGGATTTGATTCTAAAAAATATGCTAATGAAATAGCAGGAATTGTTTTAGAAAAGTAA	MIEMNNAYNEKTHTLIKQLLNKFSTKAPGFAYIASFDSGVTYKGAVGLASIEKNSPINTKNIFNIASVSKQFTAFSILLLEQEGRLSLDDSIVRFVPSIGTYAEPVTLKHLIHHTGGLVDYMALAEAANIKFTDSLTVEESLNHLNSHQIARFAASTKFEYSNTGYFLLSQVVEKVSGKSLRQFTKDCIFDPLNMRDTTIIDYYPTTVPITSGYSKNEQGTYKIYESPWEHTGDGAVHATVEDLVKWGENLTTGTVGGKELVKRMSEIGPKISPTGKTIIDNEDYAFGLRLAEGFNCRYLEHSGSWAGYRSHFMRFPQEYLSVVVLSNYDGFDSKKYANEIAGIVLEK				NA	NA	NA	NA	NA
AK009_04670	1119	ftsW_3	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAAAAAAATATTAAAACTCGATTATCTATTGCTCCTCCCTCTATTCATAACATGTACTTTAGGTATTATCATGATGTATAGTGCGAGTTCCATTGTAGCTGTCCAGCATTACGGTTATAAAAGTAGACACTTTGTTGATTCTCAATTAACAAAGCTACTTTTAGGAACAATAGGGTTAGTAGTTTGTGCTATACTCCCATATGAAATATGGAAAAAACGAATAGTCTCAATCTTTATTATGGTTGGGGGGATTTTTTTATTAATTATGGTTTTATGGAAAGGAAAAGTGGTAAATAATGCTCAATCATGGATCTTTGGAATACAGCCAGCTGAATTTCTTAAATTAGGAACAATACTCGTAACAGCCCGTTTTTTTGCATTACGACAAGAACAAGCTAAAAATAGCTGGAGTGGTAGCGGAAAACTTTTATTTTTTTTAGCTACAATTTTTTTTCTTATCTTTAAACAACCAAATTTAGGATCAGCACTTTTAATATTAGGTATAGGTTTTAGCATATTTCTTTGCTCAGGAATAAATATAAATCTACTAATCAAAAGAACTTCCATCGGTTCTATTTTGTGGTTACCTATTTTATATTTTTTAATTCAATATAGTTTGTCAGAAGTTCAAAAGACACGTATTACTACGATTTTCAATCCCTTTTTTGATGCACAAGGAAATGGATACCAGCTTGTAAATTCTTTTATTGCCATTGGCTCTGGAGGAATTACTGGTCGTGGATTTGGAAATAGCATACAAAAAACAGGTTATCTTCCGGAACCACATACTGATTTTATAATGGCAATAGTTTCTGAAGAACTAGGATTTATTGGTGTATTTATTCTATTGGCTGGAGTTTTGACTATAGTACTTCGCTCTTTAAAAATTGCACAATTATGTGTAGATCCATTCGGCAGTTTTATAGCAATTGGTATAGGATGTATGATTGGTATGCAATCTGTTGTAAATTTAGGTGGTATTACGGGACTATTTCCTCTTACAGGTACTCCATTTCCATTTGTAAGTTTTGGTGGAAGTTCTTTAATGGTCAATTTAATAGCAATAGGTATATTACTTAATATTTCAATTTTCAATAAAATTGAGTTTGATAATTAG	MKKILKLDYLLLLPLFITCTLGIIMMYSASSIVAVQHYGYKSRHFVDSQLTKLLLGTIGLVVCAILPYEIWKKRIVSIFIMVGGIFLLIMVLWKGKVVNNAQSWIFGIQPAEFLKLGTILVTARFFALRQEQAKNSWSGSGKLLFFLATIFFLIFKQPNLGSALLILGIGFSIFLCSGININLLIKRTSIGSILWLPILYFLIQYSLSEVQKTRITTIFNPFFDAQGNGYQLVNSFIAIGSGGITGRGFGNSIQKTGYLPEPHTDFIMAIVSEELGFIGVFILLAGVLTIVLRSLKIAQLCVDPFGSFIAIGIGCMIGMQSVVNLGGITGLFPLTGTPFPFVSFGGSSLMVNLIAIGILLNISIFNKIEFDN	PGPT0014810_4255	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK009_04673	1329		COG2239	Magnesium transporter MgtE	ATGAAGAAATTATTAAATGAATTACTTGTAACCCCAAAAAATTTAGATGCAGAGAAGGTTTTACGTCTTCCTTCGTATGATGTTGCGCAAGAAGTAAAACGGTTTTCAATTGAAGATCAAGTCATATTACTAAATACAATACCTGTATTAAAAAGCTCTAAAATTCTTCAATATATGAGTGCAGAAGAAAAATATAATATCTTAATTCACTTATCTGAAAATAAAGCCAAAAAGTTGCTAAATTTACAACCGATTGATGAATTAGTAGATTTACTTCTAGCGGTTCATCCGGAAAAACAGGCTAAATTAATGGCGTATCTAGATAAAATTACAAAACATAACGTGAAAAAATTGATGACTTTCAAACCTGAAACGGCGGGAAGTCTTGTAACAAGTGATTTTGTTGCAGTTAGAGGAAATTGGTCAGTAAAAATGACATTAAAGTACATTAGGGAAAATTCTAAAAATGTAGAATCAATATCTTATAGTTATGTTCTTGATAATCACGGTTATCTTAAGGGAATCGTTTCCATACATGAGTTATTACTAGCACCAGATGAAGAGATATTATCTACTATCATGATTCAAGAGGTAATTTCAGTACAAGCTGAAATTGATCAGCAAGAAGTTGTAAAAAAGCTACTCAATTATAATTTAGCAGCAATACCTGTCACAACAGCAAATAATAAAATGATTGGTATTATAACATTTGATGACGTAATGAATGTTATGGAAGCAGAAGCTACAGAAGATATTCAAAAGTTAGGCGGAAGTGAACCATTAAATCAATCTTACTTTGAAGCTAGCATTTGGAGCATTTTCTTAAAACGTCTACCATGGTTATTACTTCTTTTTGTTGCTGAGGCATATACAGGTACAGTATTAAAGTATTTTGAGGACGAAATTGAAACTGTAGTTGCCCTTGCTTTCTTTGTTCCATTATTAGTAGGTACTGGAGGGAATACAGGAACACAGGTTGTAGCAACAATTACTCGTGCAATTGGTATTGGAGAGATGAAATTTAAAGACATTTTCCGTGTAATGAAAAAGGAACTTGCAATTGGTATGCTTCTTGGACTTGCACTTGCGGTAGCTGGGCTCACTCGTGCTTATATGTTAGGTGTTGGAACAGAAGTTGCACAAGTTGTAGCAATCACTTTATTATTTATTGTTATTTGGGCCTCTCTTGTTGCAGCTGTTTTACCTTTAATTCTAAGAAAATTAAAACTGGATCCTGCAGTTGTTTCAGGTCCATTTATTACAACATTTGTTGACGGAACAGGATTAGTAATTTATTTCATGGTTGCAAAAACGTTATTAAATTTGTAA	MKKLLNELLVTPKNLDAEKVLRLPSYDVAQEVKRFSIEDQVILLNTIPVLKSSKILQYMSAEEKYNILIHLSENKAKKLLNLQPIDELVDLLLAVHPEKQAKLMAYLDKITKHNVKKLMTFKPETAGSLVTSDFVAVRGNWSVKMTLKYIRENSKNVESISYSYVLDNHGYLKGIVSIHELLLAPDEEILSTIMIQEVISVQAEIDQQEVVKKLLNYNLAAIPVTTANNKMIGIITFDDVMNVMEAEATEDIQKLGGSEPLNQSYFEASIWSIFLKRLPWLLLLFVAEAYTGTVLKYFEDEIETVVALAFFVPLLVGTGGNTGTQVVATITRAIGIGEMKFKDIFRVMKKELAIGMLLGLALAVAGLTRAYMLGVGTEVAQVVAITLLFIVIWASLVAAVLPLILRKLKLDPAVVSGPFITTFVDGTGLVIYFMVAKTLLNL	PGPT0013995_3596	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
AK009_04674	1095			hypothetical protein	ATGAAACATCTAAGGAAAATCTTCAAAAGAATCTTGCTTCTATTTTCTATTTTAATGATTATTGGCATAGGAATATTATTTGGTACTAGCTATGGCCGAGAGCTTCGTATAACAATCGCTGGGAGTATACTAACTTCTCAGCATCCACAATATGCGAAATATACATTCCTATCCCAAAAGGAACTAGATAAACTGCAAGATAGAATTAATCATCCGAAATGGTCAAACAGTGATGAGCATATTTATAAAAAAATAGTAGGAAAAAGATTAGAAGAATTAAAAAGTCAGCCATTAGAAATTGATGTAGAAACAATTAAAAGTAATAAAGATAGTCGCTTTCTATTCGAAGGAAAGTTAGTCACTATTAGTAATCCTTTCAATGTTAAACTTGTTAGCCATCAAGGAACACAGGGTGCTAACAGGGGAGAAAAAATTAGTGTAATGGCAAAACGTAATCATGCACTTGTTGCTGTGAATGCAAGTGGATTTGCTGATGAAACAGGAAGGGGTGGAGGAAATGTTGCAACTGGCATAGTAATAGAAAATGGGAAAGCTATTGATACGAATATGGATAGAAATACCCCTACAATTATTACGGGTTTAACAAAGTTTGGGCAAATGATAACAGGAAATTATTCTACCCAACAACTTCTGGATAAACAAATCGTTTCAGCAGCAGGATTTATGCCACAGTTAATTGTAAATGGAGAAAAAATGATTACAGAAGGAGACGGTGGTTGGGGTTCTGCTCCGCGAAGTATTATGGCCCAAAAAGAAGATGGTACAATTATGTTTCTAGTCATTGACGGTAGACAGACGCATAGTATAGGGGCTACGTTAAAAGAGTGTCAAGATATTCTATATGAAAAAGGAGCAGTAAATGCAATGGCTATGGATGGAGGTTCTTCTGCTACGCTATATTTAGGAGGAAAGGTTATAAATTCACCTTCTACATTATCACATGAAGATCGTTATTTACCGAATGCTTGGGTGGTAACAGCAAATCCGAAACAGAAAATAAATATGACGATAGATGGAGAAAAAGTAAATTCCGAAACATTTGATAAATTTGATACAAATATTATATCTAATTAA	MKHLRKIFKRILLLFSILMIIGIGILFGTSYGRELRITIAGSILTSQHPQYAKYTFLSQKELDKLQDRINHPKWSNSDEHIYKKIVGKRLEELKSQPLEIDVETIKSNKDSRFLFEGKLVTISNPFNVKLVSHQGTQGANRGEKISVMAKRNHALVAVNASGFADETGRGGGNVATGIVIENGKAIDTNMDRNTPTIITGLTKFGQMITGNYSTQQLLDKQIVSAAGFMPQLIVNGEKMITEGDGGWGSAPRSIMAQKEDGTIMFLVIDGRQTHSIGATLKECQDILYEKGAVNAMAMDGGSSATLYLGGKVINSPSTLSHEDRYLPNAWVVTANPKQKINMTIDGEKVNSETFDKFDTNIISN				NA	NA	NA	NA	NA
AK009_04675	1077	xerS_2	COG0582	Tyrosine recombinase XerS	ATGGATTACAGCAAGCAACGTCAAAAATCCGTACATCGGAAAAAATTATACGAAAATTTAAATGAAATGCCCTTTTACATAGAAGAATTTGTGGAGTATAAAGAATTGCATGATGCCTCTCCCTCCACCCTACTGAATTATGTATATGATTTTAGAGTCTTCTTTAATTGGCTATTATCTGAACAAATTATTGAATTTAAGCCCATTAAAGACGTATCTTTCTCTGATTTGGAGAATTTAAAGAAAAAAGATGTTGAGAACTTTATGAGGTTTCTAAAACTACAACAAAACATGCAGAATTCCTCTGTTAACAGAAAAATTTCAGCCTTAAAATCTTTATTTAAGTACCTCACCTCCCTATCAGAGAATGAAGATGGAGAATGCTATTTTTATAGAAATGTAATGGCTAAAATTGAAATACATAAAGATAAAGAAACATTAAATGCTCGTGCAAAACGTATGAGGTCTAAAATATTCCATAATGATGATGATCAAGAATTTCTGAATTATATTAAGTACGAACATGAAAAATCTTTAACAAGACATCAGTTATTCTATTTCTTAAGAGATAAGGAGCGTGATGTAGCTATTCTTTCCCTCTTTCTTGGTAGTGGTATTCGTGTAAGTGAATTGGCCGATCTCCGCATGGAAGATATAAACTTAAAAGAAAGACTAATTGACGTAATACGAAAAGGAAACAAAGAAGATTCCGTTTGGATTACCCCCATTGCATTAAATGATCTTGAAAAATATATGGAGATTAGAGGTAACAAATATGCTCCAGGGAAAGAATTACAAAATGTATTCTTATCGAAGTATAAACATACTGCACAGCCTCTTTCCGTTAGGGCTATCCAAGATATAGTAGAAAAATATACTAAGGCCTACGGTAAAAGAATGTCTCCCCATAAATTAAGACATACATTGGCAAACAAATTATATATGGAAGAAAAGGATTCATTACAAGTGATGCAGCAACTTGGGCATACCAGTCAAGATACAGCTTTGCTATATACACAACTTGGGGAAACAACTATTAAAGATAGTTTAGGCAGAATAGGAAAGAATAAAGAATAA	MDYSKQRQKSVHRKKLYENLNEMPFYIEEFVEYKELHDASPSTLLNYVYDFRVFFNWLLSEQIIEFKPIKDVSFSDLENLKKKDVENFMRFLKLQQNMQNSSVNRKISALKSLFKYLTSLSENEDGECYFYRNVMAKIEIHKDKETLNARAKRMRSKIFHNDDDQEFLNYIKYEHEKSLTRHQLFYFLRDKERDVAILSLFLGSGIRVSELADLRMEDINLKERLIDVIRKGNKEDSVWITPIALNDLEKYMEIRGNKYAPGKELQNVFLSKYKHTAQPLSVRAIQDIVEKYTKAYGKRMSPHKLRHTLANKLYMEEKDSLQVMQQLGHTSQDTALLYTQLGETTIKDSLGRIGKNKE				NA	NA	NA	NA	NA
AK009_04676	222			hypothetical protein	ATGTGGAAAAAAATTAATAATTATAAGTTTCATCTAAAAGATTTGAAATTTATGACTTGGCTATTCCCGATTGTCGGTTTATTATACGCTTATGAATTCTTCTCTGGTCTAATGTTCCACCAGGAGGTTCGTTGGCTCAAGTTAATATGCATGATAATAATGATTATAGGATTTATTGATATTAGAAAGAAGCTTAAAAACAAAGATTATAGAGCGGCATGA	MWKKINNYKFHLKDLKFMTWLFPIVGLLYAYEFFSGLMFHQEVRWLKLICMIIMIIGFIDIRKKLKNKDYRAA				NA	NA	NA	NA	NA
AK009_04677	198			hypothetical protein	ATGCGACATGAAAAGGATTTGTTGAAACAATGGAAGACGGATTTGCAAGCTATTCAAGAAGAAAAAAGGCTGAAGAAGAAGGCTAAGAAAAAGAATAAGAATAGGAAATATAGCATTCCGGGTAATACGGCTGACTTCATGGATGGTAAGAATACTTATCGTAAAGATAATGGGGTATGGAAGCAAAGAAATAAATAA	MRHEKDLLKQWKTDLQAIQEEKRLKKKAKKKNKNRKYSIPGNTADFMDGKNTYRKDNGVWKQRNK				NA	NA	NA	NA	NA
AK009_04678	297			hypothetical protein	ATGACTTGGTTCATTATTTTAGGGTTTATGCTTATTTTAATAATAAGCGGTTTTCATGCACATAGTATTCATATCATTTTCAAAATAGGTTCAGATACAAAAGCTGTGCCAAGTTGGTCTTTCGTTAATAAAATAAATTTCCAAACATTAAAAGAATTAATAAAAGGACTAAATAAGGATAAACTTAAAATCCTTACAATAGGAGAACTTGTTATTCCTTTAAGTTTCTTTAATAGATTATTTAGCAAAACATTAATTTTTCTATTCCTATTCTTTTACTCTCAATACTTAAACTAA	MTWFIILGFMLILIISGFHAHSIHIIFKIGSDTKAVPSWSFVNKINFQTLKELIKGLNKDKLKILTIGELVIPLSFFNRLFSKTLIFLFLFFYSQYLN				NA	NA	NA	NA	NA
AK009_04679	165			hypothetical protein	ATGGGAAATACAAAATCAAAGTTAGTTAATGCATCTATTGAAGGGATGATAGAGGCATTAAAAGATGAAAATGAATGTTTACGTATGGAAGTCGATTATTTAAAGAAGTTAAAGGACTTCGTTCAAAAAGAGATGGAATTACAGAACAAGACAAAGCAAAAGTAA	MGNTKSKLVNASIEGMIEALKDENECLRMEVDYLKKLKDFVQKEMELQNKTKQK				NA	NA	NA	NA	NA
AK009_04680	675			hypothetical protein	ATGAATCAAGTATTTAGAAAAAGTAAGAAAAAAATGATGTATCTAGTTGGTTCACTTCTAATTTCACTATCAATGTTTTCAACTACTAGTTTTGCAGCTACAGAAGGTGCTGTAAAAAGTGTTACAAATAGTAGTTATACCGGGATTGCAGCTGATATAAATCTACCACAATCAGTTGTTGTTAAAGATGGATATGTGAATTGGTATTTAGGTATTGGAGCATCTAAAGTTGAGGGTGGTATTTCAAAAACACCAAGTGGATATAAAGTATTTCTTAATTCAGGATATAATGAATCAGGTCAAAACAGTAAGTATTGGAACACACAATATGATACATCAATTAAAGATGGTGATCGGGTAAACCTTAAAATAATTAATAACGGAAATGGTACGGTTACTATGTATGTAAATGGAAGCCCTAGATATGCAAATCAGCCTGTATATGGCTCATTTTCTCAATACGAACCAATAAAAATGGTTCAGGGTGTTGAAGATGCTGGACGTAATTCTTTTAGCCAGGCTAGCTTTTCAAACGTACTTCTAAGAGCAGATACATCAGGATCTACCTACAAAAGTTGGAACGGTTCAATTTCTTCCTCATTTTCTAAACACGGTACTTATGGTAACAATTTCACAGTTTATTCCCAAGTACCATTAAGCGCAAGTCTACGCTAA	MNQVFRKSKKKMMYLVGSLLISLSMFSTTSFAATEGAVKSVTNSSYTGIAADINLPQSVVVKDGYVNWYLGIGASKVEGGISKTPSGYKVFLNSGYNESGQNSKYWNTQYDTSIKDGDRVNLKIINNGNGTVTMYVNGSPRYANQPVYGSFSQYEPIKMVQGVEDAGRNSFSQASFSNVLLRADTSGSTYKSWNGSISSSFSKHGTYGNNFTVYSQVPLSASLR				NA	NA	NA	NA	NA
AK009_04681	390			hypothetical protein	ATGAAAGTAACTTGTTTGTACAACACTGGAGATTATCTAACAAAGGAAACCGAGGAAATATTTAACTTAGTTATTAAAAAGAAGTATATTGTTTATGGCATATGCAAGTTACAAAGTGGTGAGTTGACATATTTAATTTTAGGAGAACGTGAAAATATGCCATCATGGTATCCAGCAGAATTATTTAAAATATCCGATGCGTTACAACCTATAGAATGGTATTGTGGAGAACACAGACATGTCAAAGATACAACTATAGATTATATATGGGGATATAAAGAGTTAGCCTTGGATGATACACATGCTCTTGGTTTAATAGAAAGAGAGAATAAAGATATGGAACTATTTTTAAAGCGTAAAGCTGAAATTAATGAATTTGAAGAATTGTAA	MKVTCLYNTGDYLTKETEEIFNLVIKKKYIVYGICKLQSGELTYLILGERENMPSWYPAELFKISDALQPIEWYCGEHRHVKDTTIDYIWGYKELALDDTHALGLIERENKDMELFLKRKAEINEFEEL				NA	NA	NA	NA	NA
AK009_04682	468			hypothetical protein	ATGGGGAAACAGATTTTAAAACAATTAGGGATTATATTATTAGGAACCGTAACACTTGTGTTTAGTAGTACAAATTTTGTGGACGCTGCTAGAAAACAGAAAGAATTTAGAGATACGGAGCCAAATAATACTCTTGAAACAGCCAATAGACTAGATTTAGGGTATGATTGTGTGGTTTATGGCAATTTAAATTTAGACGATAAAGACGGTATAGATATCTTTAAATTTTCTCCAAGTGATACCATGAAAGTTGAAGTTACTTTGCAGGGAATGCATAATGATTTTGATCTATTTGTACGAAATTCGAAAGGTAAAATAATAAAAAAATCTTTGAACCTTTCTAATGATATGGAAAAAATTGTTTTTGGAGCGGAAGAATGGGAAGACTATTATATTGAAGTAAGTTCATCGGTAAGAGGGAATGAAGATAATAACTTTGATTATATTTTAGTAGCAGAAAAATATTAA	MGKQILKQLGIILLGTVTLVFSSTNFVDAARKQKEFRDTEPNNTLETANRLDLGYDCVVYGNLNLDDKDGIDIFKFSPSDTMKVEVTLQGMHNDFDLFVRNSKGKIIKKSLNLSNDMEKIVFGAEEWEDYYIEVSSSVRGNEDNNFDYILVAEKY				NA	NA	NA	NA	NA
AK009_04683	255			hypothetical protein	ATGTATGAAATTGTTACCGTAGAGCAAAAAGGAACCTTCGTGCGAAATGGGGAAAGAAAAATCCTAGGCGTAAATGGTCAACAAATGAATTTCCTAATCAAACAGTGGAAAATTATAACTGTGATAAAATTATACAAGGTTAGATTATCTCTTCGAGAGGATATTAAGGAGAAGTGTAAGGAAATCGAAGGATTAAGAGAGAAATACAAGCCATTTAATACATCTAAAAAAGAAGAAATAGGCTACCATGACTGA	MYEIVTVEQKGTFVRNGERKILGVNGQQMNFLIKQWKIITVIKLYKVRLSLREDIKEKCKEIEGLREKYKPFNTSKKEEIGYHD				NA	NA	NA	NA	NA
AK009_04684	627			hypothetical protein	ATGAAAAAAATCATTTTAGCTGGTGCATTAGGAATTGCAGCTCTTGCAGGCACAAATCTACCAGGATTAGAAGTAACAAAAGCAAGTGCAGCTTCTATCGAGTCAAATTTATCAACAATTGAAGGGCGTGTAGTTGAGGTTACTGATAATGTTATCTCTGTTGAGTCAACAAAGTATTCAGAACCTATTAGTATCTATTTAAACTCTACACCAAATGTAAAAGTTGGTGATCAAATAAAAGCTACTGGTGCAATGATGCGTAATTTTACGGACTATATGATTGCAGAGTCAATTGAAAAGGTTCAAGGTACTGATACATTACACCAGGGAAGTTATTTAAAACATGTTTTTGCATACGAATATGAAATAGGACATGTTACAAAAGTAGATAAGTTTAAATCTGGAATAGAAGAATATAATTATGTAATTGTTCAATATACTGGAAATGACGGAAGTAAACGTAATGTTACAGTTTATTTAACACACGGGCAGAAATTTAATGTAGGTGAAAAGGTCAAAGTTCATATGGCGAACGCTGAAAGAAGTAATGAGTGGTCGATAACAGATGAGATTGAAAAAGTTAATGATTCTCAAGCATTAACTGATGATCGATGGATTTGGTCTTAA	MKKIILAGALGIAALAGTNLPGLEVTKASAASIESNLSTIEGRVVEVTDNVISVESTKYSEPISIYLNSTPNVKVGDQIKATGAMMRNFTDYMIAESIEKVQGTDTLHQGSYLKHVFAYEYEIGHVTKVDKFKSGIEEYNYVIVQYTGNDGSKRNVTVYLTHGQKFNVGEKVKVHMANAERSNEWSITDEIEKVNDSQALTDDRWIWS				NA	NA	NA	NA	NA
AK009_04685	7608	tycC_2		Tyrocidine synthase 3	ATGAAGGAAATACAAAAGAAATATGAAATTGTAGAAGAATTGGATGCAACGGTAGGTCAAGAAGCATTATGGATAGCTCATCAAATGGAAATAGAAAAAGGAATGAACAATGAACCGATTATAATAAAGTTAAAAGGAAAACTTCAAATAGAGGTCTTGAAGAAAGCGCTTACATTAATGGTGCAATCACATCCGGCGCTACGTACAATATTTAAGAAGAGGGATGAAAAAATAAAGCAATTAATTCAAAAGAATGTAGAATTTGATGTACCAATTAAGGATTTAACGGCTTTTAAAAACACAGAACAAAAATCTATTTTAAAAAATTTCTTAGAATCTATAGTGAATGAGAAATTTAGTTTAGAAGAGGGACCTTTGTTTAAATTCCACATCATTAAATTCAGTGAAGATACATTTATTTTACATTTAATGTTTCATCACATTATTTACGATGGATGGAGTTTAGGAATTTTCATCCGACAATTATCCAATACGTATGGTGAATTACTTCAAGAGAAGACGAATGTAGAATTTGAATCTCCTTATAAGAACCTTGTAGAGTATGAGGAGGGTTTTATTGATAGTGCAATATATAAAGAAGGATCATCGTATTGGAAAGATTATTTACAAGGTGAATTAGCCTCTACAGAGTTTCCTATTGATTTTAATAAAATGAATGAAAAGAGATATACAGATAAAAATATAAGCAAGAATATTAATTCGGATCTATTTTATCGAATACAATGTTTTGCTAAAAAAAATAATATAAGTATTTATCGAGTAATGTTAAGTACTTATTGTACCTTACTTCATCAAATGACAAATGCTGAAGAGATAATTGTTGGTATTCCAATTAATACTAGACCACATACAGAAGAACGAAATACTTTTGGTTATTTTGTTAATACATTACCTATACGTATAACAATAGAAAAGGGAGAGACATTTAAAGGGATACTTAATAAAGTGAATAAATCTATTCATCTAGCTATTACGTATAAACATAATCCTTACTCACATATAGTAAAAGATTTAAATCTAAATAAAAATACAAATGATAATATGGTATATTCCACAGCATTTAATACAATGAAGATACCGGAATTAAAAATTCCTGATATTGATTCAACAGTTTTAACAGATTGTAAAAGAGTAAATCCTTTTAATATGACTTGGAGAATAATGAGATATGAAGGGGAAACAGAGAATAAAATTGAGGTTGACTATAACTCAGCATTATATAAACCAGAGAGTATTAGTGATTTAGTAGAAAGGTATATATATTTGTTACAAAAATTAATGAAGAATGTGAATGAACCTATTCATTCATTGGATTTGCTTTTAGAAAAAGATCATCGTCTATACAAAGAGATGAACTCAAATGCTCTTACATATCCTAATTCAAAAACACTAGATCAATTAATTGATTTACAAGCATTAAAATCGCCAAATCAAATAGCAATTTCAATGGGGGACAAATCTATTACCAATTATGAATTACAGCAAAGGTCCAACCAAATTGCGAATTATTTACGTAAAAATGATATAAAAAAGGGACAACGTGTAAGTATTACTATGGAAAGAGAGATTGATACCATTGTATGGATTCTAGGTATCCTAAAATCAGGTGGAGTTTATGTACCAATCGATCCAAAGTTTCCTGAAAAAAGAATAAAATACATCTTAAAAGATAGCGAAAGTCAAATGATTATTACGAAGAAAGAATACAGGGGATTGGTTGAAAGTTTTGCGATTCATACAATTTATCTAGAAGATTTTCATTACGCTAATTCTATAGAAAATATTGCGCCTACACATACCATAGAAGATGCAGCTTATATTATCTACACGTCAGGTTCAACAGGTTTGCCAAAAGGAGTCGTTGTACCACATAAAGGCGTAATTAATTTATCATATTCAGTAATTAATACATTTCATTTAGGAAAAGAAGATGTGTTTTTACAATTTGCAACGATTATTTTTGACGCCTCCATTATGGAAATATTTCCGATTTTGCTATGTGGAGGAAGAATGCATTTAATTTCTGAAATCGAAAAACGTTCAACAGAGGAATTTATAAATGTAATTCAAAAGAATGGTATTACATATGTGGTTTTACCAACTGCATTTTTTAAATTAATAGCTGATATGCCAAAAGAAATGTTACTTAAATTAAAATCTGTAAAACGTTTATTTGTGGGAGGGGAAACCTTACCTGCTGAATCAGTTCGTAAATGGCAAAGTAAATTAGGTTTAAAGATTCCAGTTCTTAATGCATATGGTCCTACTGAAACTACTGTGTGTGCAACCATGTATGAAGTAAATGGTGAGATACAAAAAGAAATTTCTAGTATCCCAATAGGTAAACCAATTGCTAATAGTGAAGTTTTCGTGGTTAGCCCGTTCAGTACGTTATGTCCGTCAGGTGTAGTAGGTGAGTTATTTATTGGCGGTGATGGAGTTGCTAACGGATATTTAAATCAAAAGGAAAAAACAGAAGAGGCGTTCATTTCTTTCTGTAAATCCTATAATCGTGATAAAAGGATGTATTGTACTGGGGATTTAGTTCGTCTTTTACCAAATGGAAATTTAGAATTTATCGGAAGGAAAGATAATCAAGTAAAAATACGTGGATATCGCATTGAGCTTGATGAAATCGAAGGAACATTATTTAAACATCCAGAAGTGAGAGATGCTGTAGTATTCACTTACCAAAACGATAAAATCGTTAGTTTTTATTTATCAAAAGACAATAGAGAACTTAAACAAGAGGAATTAAAAACATTCTTAAGTGAAAGTTTACCAGATTTTATGATACCGAATTATATATTTCATCTTAAAAGTTTTCCTTTATCACCAAGTGGGAAACTTGATAGAAAAAAATTAGAATTACAAATCCCATCTTTACTTGAAAACATGCAGAAGCAATATGTATCACCGATAAGTGAAACGGAAAAAAGGTTGGCAAAAACATGGGCAGAGATTTTAAATTTAGGGAAATATAGAATCAGCAGAGAGGATGACTTTTTTAAACTTGGGGGACATTCATTAATTGCTGTGCAAGTTTTAAATCAAATTCAAAAAGAGTTTCATCTAAAAATTGAAATTAGAGATATTTTTGAGCATACAACGATTGCTAGTCTATCTGCTTACATCGACAAATCAATGACAGTAAATCATGATAGGGAAGAACAGGAGATGCAAGTATTAAAAGTTGCAGATAAGGAAAGTTATCAGTTATCAAGTGCTCAAAAAAGAATCTGGTTTTTAAATAAGTATAACGCCATTAATAGAGTGTATGATACACCACTACACATATATATTGAGCCGAGTTTAAATAAGGATATTTTACAAGACACCATAAGATTTTTAGTTGAACGACACGAGATGCTACGAACAGTGTTTATTGAAAGAAATGGAGAGCCTAGACAAGTCATTTTAAACTCAATAGCGATTGACCTGATTCACGATGAGATTGAATACATGTCTAAAAAAGAACAACAAGAATATATACGTACAACAATAAATCAAACGGATCATACACCATTTGATTTAGAAAAGGGCCCTCTTTTTAGGATTAGAATTTTTAATCTGGATAAGAAAAAGTCTTATTTCTATATCAATTTACATCACATTATTACAGATGAGTGGAGTGTAAGGAATTTATTAGATGAATTAATGAAGGTATATAGTGCCTTTGCTAAACGTAGAAATCCTGTGTTTCCAACTATTTCTAATCGATATGTAGATTATGCAGAGTGGGAACAGGCGCAGTTAAATTTAGGTCGATGGGATACAGAAAAATCTTATTGGATGGCCGAACTTGCAGCACCTCTTCCTATATTAAATCTTCCTTTAGATTTTAGTAGGAATCGTCAAAGTACAAATAAAACAAATAAAGGTACAGTATTTGAAATGAAGTTAGATAATGAAATGAAAGAGTCTTTAAAACAAGTATGTGAACAAGAGAATGTTTCTATGTATATGCTATTTTTGGCAGCGTATATTCAATTGTTACATTATCTAACGGATCAAAAAGATATTATTGTAGGTACACCGGTTGTTGGAAGGAATCATCAAGAATTTGAAAAAATACAAGGATTTTTTGTAAATACTTTAGCGATTAGAACACAATTGAATGATGTGAAAAATTTAACACAGCTATTAAAAATAGTAAGAGAGAAATGTTTGAATTCATTCCAAAACCAATCGTACCCATTTGATAAAGTAATTGAACAAATAAATCCTGATAGAAGCTTTGGAAATAACCCGATTTTTTCTACTATGTTTAGTTATCAAAAAGATATTCTGCAGCAACATGATGCATACAAGCTTCAGTTGTTACCTAATAAACAAGATATTAGTAAGTTTGACATTTCTTTAGCTGTTGAAGAAGGATTGGATTATGTAGGGGTTTCATTTGAATATGATATTAATCTTTTCAAGGAAGAGTCAATTAATGGGTTTACTCAAAATTTACTTAATATACTGGACGCCTTTATTCATCGACGAACGGTGGCATATGAAAATCTTTCATTTCTATCACAGGAAGAAGAATCTTTATATAAAAACGTAAATCATACAGAAAGACCATATCCTTATTTTCAAAATATACAAGAGCAATTCTATATGCAAGTAGATAGACAACCCGATCGGATTGCTATAGCGACTGCAACGGAATCTTTAACATATAGACAATCAAATATGAGCTCTAATCAAGTAGCTCAACATTTACTCGAAAAAGGTATAAAAAGAGGTGATAAGGTAGCCATATTTTTAGATAGAAGTATAAATAGTATTGTTTCTATGCTTGGAATATTAAAAGCCGGCGCTGCCTATATACCAATAGATGTAAAATACCCTGAGGATAGAATAAATTATATAGTTCGTGACAGTGAGGCATGTAGAATTATAACGAGTAACAAATTTAAAAGTCATTTGAATGTAAGTGATTATAAGGTTTCAATAATAGAGGATATATATCGTACGACTATAAATGATGATGTAAAAATTTTAAATAAACCAGATGACTTGGCATATGTAATTTATACTTCAGGCTCAACAGGAAAACCAAAAGGTACATTATTAACGCATAAAGGAGTATTAAATTTAGTTGAATGGAGACATGAAGTGTTTCAGATCTCTCCAAATGATAAAGTAACACAGTTTTATTCCCATAGTTTTGATTCTTCAGTATCAGAAATTTTTTCTACCTTGTTAAATGGGGCAGAACTATATTTATTAAGTGATGAACAGCGCTATTCAACTGTCGCATATGCTCAAGCCATTCAAGAAACTCAAGCAACTATTTCGGACTTACCAACAGTATTTTTCAATGAATTATCGACTTCATTAACAAAACTGGATAGCGAAAAGATACGTTCTTTAAGATTTATAATAATGGGAGGGGAAGCTGCATCAACAAATGCTATTAGAAGTTGGCAAAGTACTTTTAAAAACCAAGTACAACTGGTAAATGAGTATGGCCCTACTGAAGCAACCGTTTCAGCAATGTATTATTTCATACCAGTTTTAGAAGGCGAAAATAACCTTTTAGTAAGCGTACCGATTGGTATACCAATTTCTAATACAAAAGTTCATATATTGAATTCATATATGCAACATTGTCCGGTAGGGTGCATGGGTGAATTATATATTGAAAGTTTAGGATTGGCCCAAGGGTATTGGAAGCAGGAAGAGAAAGTAAAACAGGCATTTATTTCAAACCCATTTTCAGAAGACAATAGTAAAAGATTATATCGAACAGGTGATTTAGCAAGATGGTTACCAAATGGAAATATAGAATTTATGGGAAGAAAAGATAAGCAGGTTAAAATTAGAGGGCACAGAATTGAATTAGGAGAAATAGAAGATGCAATGTTACAACTTGAGGGGATAAGTCAGGCTGTAGTAACACAAACGGAAGATGGAATGTTATTGCAAGCTTATTATAAAACAGTGGCAGGTATAGGGATAGAGAAAAATAAGTTAGCAATACATTTATCAAATGTATTGCCAGAATATATGGTCCCTAAATATTACTCTCATGTGTTAGAAATACCAAAAACGGCGAACGGTAAAATTGATTTTGAAAAGCTGCCAAAAATAGAGTTTGGTCATGAGCAAAAAGATGAGTGTAAACCTAAACCTCAAACTAAAGTGCAAAAAGACATTGCAAAGGTATGGTCTGAAGTTCTAAACGTAAAATCTATAGGGTTAAAAGATGATTTCTTTAATTTGGGTGGACATTCTTTAAAAGTTATGCCGGCATTAGTCAAATTAAAACCGTTATACCCTAACTTGAAAATTCAAGATTTCTTTAAGTATAGAACAATAGAAAAATTAGCCTCTCATATTGAAGAGATGGAAGATATGTTGTTCAAGAAAGAGAAAAATATGAATGTAGCATGTATGGAAAATGAAACGAAAACGACTCCTGTTTATGAAACAACTAAATTAGAAGAATATGAGTTAGATATGGTGAATTATCCAAAAACAGTTTTCCTTACAGGGGCAACAGGATATTTAGGAGCACATATTTTAGAACGGTTATTACAGTTGCCATCTACGACTATTTACTGTTTAGTAAGAAAAAATGAGAATCAAGTAATTGGTGCAAAGTTAAAAGAAAGAATGGAGTTTTATTTCGGTAAAGAAATCCTCCAAAAGTTGAAGGAGAGAGTAGAATTAATTGAAGGAGATTTATCTTTGATGAATCTAGGTCTAGATTTAAAGCAATTGGACCATTTAAAGAATAGGATAGAGTCAATCATACATTGTGGTGGAGAAGTTAGACACTATGGAGAACGTGAGCATTTTCAAAAGGTAAATGTTCAGTCTACAAAATACTTATTGGAATTAGCTAAGAACACAAATGCACGTTTTCATTATATATCGACTTTAAGTGTAGTAGGTCAGGCTGAAAGCGATCCAAAAGAATTTGAATTCTGTGAGTCTAATTTTGATAGAGGGCAAAATTTAGATAATCTGTACCTAGAAAGTAAGTTTCAAGGCGAGAAAATGGTCAGAGAAGCAATGGAAAAAGGAGTTCGTGCCACAATATACCGTGTGGGGAATTTAGTGGGTAACTCTAAAACAGGTAAATTTCAATACAATATTAATGAAAACGCATTTTATAGATTATTAAAAGGGATATGCCTATCTAGCATAGCTCCTGACGTCAATACGTATGTAGATTTAACGCCTGTAGACTATGGAAGTTTAGCTATTACTGAATTATCTTATAAGGCCAATACAGTAAATAAAACCATGCATATCTGTAATCCAAATCAGCTTAAATGGGATCAATTTATTAATAGTTTACAAGCTTTTGGATACGATATCCTGTTAATGAAACAAGAGAAGTATATAGAGAAGTTTTTTAATACAAATCTAACTACTGATGAACAGAAAGCTTTAGAGCTCATAATGCCTTTATTAGAATCTGTAGAAGAGCTATCAGTAGCTATACCATCTTGTTTATACACGCAAGGATATTTGAAGAATGTACATTGTTTAGAGCCAAATCAAGAGTATATCAATTTGTTACTAAATTATGCTATGAGTATCGAGTTTTTACCAGCCATTAAAGAACCAATATTGCTATAG	MKEIQKKYEIVEELDATVGQEALWIAHQMEIEKGMNNEPIIIKLKGKLQIEVLKKALTLMVQSHPALRTIFKKRDEKIKQLIQKNVEFDVPIKDLTAFKNTEQKSILKNFLESIVNEKFSLEEGPLFKFHIIKFSEDTFILHLMFHHIIYDGWSLGIFIRQLSNTYGELLQEKTNVEFESPYKNLVEYEEGFIDSAIYKEGSSYWKDYLQGELASTEFPIDFNKMNEKRYTDKNISKNINSDLFYRIQCFAKKNNISIYRVMLSTYCTLLHQMTNAEEIIVGIPINTRPHTEERNTFGYFVNTLPIRITIEKGETFKGILNKVNKSIHLAITYKHNPYSHIVKDLNLNKNTNDNMVYSTAFNTMKIPELKIPDIDSTVLTDCKRVNPFNMTWRIMRYEGETENKIEVDYNSALYKPESISDLVERYIYLLQKLMKNVNEPIHSLDLLLEKDHRLYKEMNSNALTYPNSKTLDQLIDLQALKSPNQIAISMGDKSITNYELQQRSNQIANYLRKNDIKKGQRVSITMEREIDTIVWILGILKSGGVYVPIDPKFPEKRIKYILKDSESQMIITKKEYRGLVESFAIHTIYLEDFHYANSIENIAPTHTIEDAAYIIYTSGSTGLPKGVVVPHKGVINLSYSVINTFHLGKEDVFLQFATIIFDASIMEIFPILLCGGRMHLISEIEKRSTEEFINVIQKNGITYVVLPTAFFKLIADMPKEMLLKLKSVKRLFVGGETLPAESVRKWQSKLGLKIPVLNAYGPTETTVCATMYEVNGEIQKEISSIPIGKPIANSEVFVVSPFSTLCPSGVVGELFIGGDGVANGYLNQKEKTEEAFISFCKSYNRDKRMYCTGDLVRLLPNGNLEFIGRKDNQVKIRGYRIELDEIEGTLFKHPEVRDAVVFTYQNDKIVSFYLSKDNRELKQEELKTFLSESLPDFMIPNYIFHLKSFPLSPSGKLDRKKLELQIPSLLENMQKQYVSPISETEKRLAKTWAEILNLGKYRISREDDFFKLGGHSLIAVQVLNQIQKEFHLKIEIRDIFEHTTIASLSAYIDKSMTVNHDREEQEMQVLKVADKESYQLSSAQKRIWFLNKYNAINRVYDTPLHIYIEPSLNKDILQDTIRFLVERHEMLRTVFIERNGEPRQVILNSIAIDLIHDEIEYMSKKEQQEYIRTTINQTDHTPFDLEKGPLFRIRIFNLDKKKSYFYINLHHIITDEWSVRNLLDELMKVYSAFAKRRNPVFPTISNRYVDYAEWEQAQLNLGRWDTEKSYWMAELAAPLPILNLPLDFSRNRQSTNKTNKGTVFEMKLDNEMKESLKQVCEQENVSMYMLFLAAYIQLLHYLTDQKDIIVGTPVVGRNHQEFEKIQGFFVNTLAIRTQLNDVKNLTQLLKIVREKCLNSFQNQSYPFDKVIEQINPDRSFGNNPIFSTMFSYQKDILQQHDAYKLQLLPNKQDISKFDISLAVEEGLDYVGVSFEYDINLFKEESINGFTQNLLNILDAFIHRRTVAYENLSFLSQEEESLYKNVNHTERPYPYFQNIQEQFYMQVDRQPDRIAIATATESLTYRQSNMSSNQVAQHLLEKGIKRGDKVAIFLDRSINSIVSMLGILKAGAAYIPIDVKYPEDRINYIVRDSEACRIITSNKFKSHLNVSDYKVSIIEDIYRTTINDDVKILNKPDDLAYVIYTSGSTGKPKGTLLTHKGVLNLVEWRHEVFQISPNDKVTQFYSHSFDSSVSEIFSTLLNGAELYLLSDEQRYSTVAYAQAIQETQATISDLPTVFFNELSTSLTKLDSEKIRSLRFIIMGGEAASTNAIRSWQSTFKNQVQLVNEYGPTEATVSAMYYFIPVLEGENNLLVSVPIGIPISNTKVHILNSYMQHCPVGCMGELYIESLGLAQGYWKQEEKVKQAFISNPFSEDNSKRLYRTGDLARWLPNGNIEFMGRKDKQVKIRGHRIELGEIEDAMLQLEGISQAVVTQTEDGMLLQAYYKTVAGIGIEKNKLAIHLSNVLPEYMVPKYYSHVLEIPKTANGKIDFEKLPKIEFGHEQKDECKPKPQTKVQKDIAKVWSEVLNVKSIGLKDDFFNLGGHSLKVMPALVKLKPLYPNLKIQDFFKYRTIEKLASHIEEMEDMLFKKEKNMNVACMENETKTTPVYETTKLEEYELDMVNYPKTVFLTGATGYLGAHILERLLQLPSTTIYCLVRKNENQVIGAKLKERMEFYFGKEILQKLKERVELIEGDLSLMNLGLDLKQLDHLKNRIESIIHCGGEVRHYGEREHFQKVNVQSTKYLLELAKNTNARFHYISTLSVVGQAESDPKEFEFCESNFDRGQNLDNLYLESKFQGEKMVREAMEKGVRATIYRVGNLVGNSKTGKFQYNINENAFYRLLKGICLSSIAPDVNTYVDLTPVDYGSLAITELSYKANTVNKTMHICNPNQLKWDQFINSLQAFGYDILLMKQEKYIEKFFNTNLTTDEQKALELIMPLLESVEELSVAIPSCLYTQGYLKNVHCLEPNQEYINLLLNYAMSIEFLPAIKEPILL				NA	NA	NA	NA	NA
AK009_04686	927	yhdN	COG0667	Aldo-keto reductase YhdN	ATGGAATATAGATTATTAGGTAACACCGGGTTAATAGTTTCAGAGATAGGATTCGGTTCGTGGGCGATTGGTGGAGATGAATGGGGAGCAGTAAAAGATAATGAATCACTTGATGCAATTGAGAAAGCAATTGACCTAGGGGTCAATTTTATTGACACTGCTGATGTTTATGGATTAGGTCATAGTGAAACACTCGTTGCAAAAGCTATAAATAATCGCAGGCAGGATATCATTCTTTCTACAAAAGGTGGATTAATTGGTCATCATTATGACCCAAATCAACCAGCTATTTATGGAGATCCTCAAAAGATCATTGATGCGTTTGAGGCTAGTTTACTGCGCCTTAAAACGGATTATATAGATGTGTACTTTTGTCATATTTGGTGGGATAAACATGAAGAAACAGAAGCCTTTCTACAAGCTTTCCAAACCTTAAAAAAATCTGGCAAAGTGAGAGCCGTTGGTGTTTCTACTAATGATTTAGATTATATAAAACATTTTAATCAAGATAATGATTTAGATGTCGTACAATTCGATTATAGTATTTTGAATAAAGAGCCTGAGAAAGACATCCTTCCTTATATTGAAAAACATAATTTAGGTGCTGTGATAAGAGGTCCACTTAAGATGGGGATTTTAACTGGAAAATTTAAACATAAAACTCAATTTCCAGACGATGATTTAAGAAAAGATTGGCCAAAAGAAAAGTGGTTTAAAGATAGCTTAAACAAAGTAGAGAAATTACGTTCACTTGTACGCTCAAATCGAAGTTTAGCGCAAGTTGCTTTACGTTATGTTTTAAGTCATCCTGCCGTTTCAGTTGCTATTCCTGGTGCAAAAAATTCTACCCAGGTTGAAGAGAACTCTTCCCACTTAACTCGTCCATTATTATTAGATAATGAAATTGAATTCATTAAACAACTTTGA	MEYRLLGNTGLIVSEIGFGSWAIGGDEWGAVKDNESLDAIEKAIDLGVNFIDTADVYGLGHSETLVAKAINNRRQDIILSTKGGLIGHHYDPNQPAIYGDPQKIIDAFEASLLRLKTDYIDVYFCHIWWDKHEETEAFLQAFQTLKKSGKVRAVGVSTNDLDYIKHFNQDNDLDVVQFDYSILNKEPEKDILPYIEKHNLGAVIRGPLKMGILTGKFKHKTQFPDDDLRKDWPKEKWFKDSLNKVEKLRSLVRSNRSLAQVALRYVLSHPAVSVAIPGAKNSTQVEENSSHLTRPLLLDNEIEFIKQL	PGPT0018520_305	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
AK009_04687	1656			hypothetical protein	ATGCAAGATATTTTAAAACTATTTCCGAGCGTTGACGGAAATGAAGAAAAACAACAACTTTTATTAGAATCTATGCAGAAAATAATTAAAAATCTTGACCAATTAAAAAATGAAGAGCGAGCTACTTTAGGTAAATGTGAGGAAAAATCAGAAGGATACTACAATGGCTTAATTCACCAAAGTCATATTCCACTAGCTGGAATCACTATGTCTGAGGTTATAGAAGAGCTAAACCAATTTATGAATGGACATCCGTATCCAAATAAATATTACTTGTCTAACGCTGTACCACTACCAAGTATACCTTCACTATTAGGGGTAATGACAATGGCACTTTTAAATGGTAATGGTGTTTGGGATGTATATGGTCCAGGGGCAGCTGAAGCAGAAGTGAAAGTGGTATCCATGCTTTCAAAACTGATAGGTTATAATCCACATAATAGCGGCGGCTATACAACATGGGGTGGACAAGGATGCGTGTTTTCTAGCCTGCGCTTAGCAATTTCTAAACAATTTCCATCGGCAAAAGAACATGGTGCTCCACAAAATGTATATTGCTTTGCTTCTGAAAATGCACATTATAGTTTATTAAAGTCAGCTGAAGCAACTGGTATTGGGTCAAATCACTTAATAAAAGTGAAAACTGATCCTTATACAAGTTCTATGGATATAGAAGATTTAGAGGCTAAAATGATACAAGTTATTAACAATGGCGGTATCCCCCTTTATATTCTAGCTACCATGGGATCAACAGACACATTTACTATTGATGATATAAGAAAAATTAAAGAGAGCGCTGAAGCAATACAGAAAAAATATAAATTAAAACCGATTTATATCCATGCTGATTCTGCAATGGGCGGATTCTATAGTTTCTTTAATAATTATAGTTTTGAAGAAAATTCACTCTCATTTGAACCTAATGTGAAAAATGCCTTACAATACGTACAAGATAAAATGCAATATATGTCCCTTGCAGATAGTGTATGTTTTGATTTTCATAAATTAGGACAAACACCTTATGCTTCAAGTATTTTAATCGTAAAAAATCATACTGATTTACAACTGATGGACATTGAACAAGATGACACACCTTATCTTGGTAATAGGTCATATGGAAGTTATCATACAGGCTATACCTTAGAATGTTCACGATCTGGCAGTGCTATTCCAATGTATATCAATCTATTAGCCTTCGGAATTGAAGGTTATCAAAAAATATTAGCAAATTATATTCGTGTAAATCTATTATTTAGAGAGAAGTTGCGCAAGGCCCTACCCCAAGTCGCAATCACAAATGATTTTACATATGGACCAATTACAACTTTCCGCTTCTATCTGAATGGAGATGGCCAAGAAAATTGGGAAAAAGAACGAATAGGCCTTGCAACAAAAGAAGAAATTGAGGATACAAACCGATTAAATATAGAACTATTTAATTACCTAGGAAAAAATCGCGATCAAGTATTTTTTGGTGATACAACTCGTTCTTGTGTAGTAGATGTAATAAACAGTTATGATAGAAATCCGATTTCTACATTAAAATTCTTTTCTATCTCTCCATATACAACTGTTGAATGTATAGATGAGATCGTAGAATTTCTTTATAAACATATTTCGATTGCTACTAAACAGATTCATTCATATGTTTCATAA	MQDILKLFPSVDGNEEKQQLLLESMQKIIKNLDQLKNEERATLGKCEEKSEGYYNGLIHQSHIPLAGITMSEVIEELNQFMNGHPYPNKYYLSNAVPLPSIPSLLGVMTMALLNGNGVWDVYGPGAAEAEVKVVSMLSKLIGYNPHNSGGYTTWGGQGCVFSSLRLAISKQFPSAKEHGAPQNVYCFASENAHYSLLKSAEATGIGSNHLIKVKTDPYTSSMDIEDLEAKMIQVINNGGIPLYILATMGSTDTFTIDDIRKIKESAEAIQKKYKLKPIYIHADSAMGGFYSFFNNYSFEENSLSFEPNVKNALQYVQDKMQYMSLADSVCFDFHKLGQTPYASSILIVKNHTDLQLMDIEQDDTPYLGNRSYGSYHTGYTLECSRSGSAIPMYINLLAFGIEGYQKILANYIRVNLLFREKLRKALPQVAITNDFTYGPITTFRFYLNGDGQENWEKERIGLATKEEIEDTNRLNIELFNYLGKNRDQVFFGDTTRSCVVDVINSYDRNPISTLKFFSISPYTTVECIDEIVEFLYKHISIATKQIHSYVS	PGPT0013725_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
AK009_04688	645			hypothetical protein	ATGAATATAGAGCTACTTGATACACACCACGTGAAAGATGCAGCACATTTACTTGCACATTCTTTTGTGAATAATGAACCTCTTGTAAGCAGTTTACAAATTCCTTTTGCTCCTTTTCACAAAATGTGCGAAGAAATGATGAAACAAGCTGTATCTCAAGCTATGTCATTTGTAGCAATAGAAAATTTTCAAATTGTTGGAGTTCTTTTAACAAAAAAAGTAACCCAGCCACTAATAGATACAGATAAAGCGATTGAACTATGCCCACAAATGGAACCTATTTTTCAACTTTTAGATACATTAGAGACAGAATCTATTGAGTTTTCTCATTTAGATAAAGAAAAACTGGTCTATCTAGATATGGGCGCTTGTCATCCAGATTGGATGGGAAGTGGTATAGTCACTACCCTTCTTTCACATGCCATTCAAGAAATAAGTAAAAGAGATTATGATTTTATTGCCGCTTGTACAAATAAAATTTCTCAAAAAATCCTAAAAAAACTGTGTACGACCTATGAAATGAATGAAATAGTGTATAGTAATTTTCTTTATAAGGAAGCATACCCATTTGCTAATACAACAACTTCCTTAGCAGCCCAATTACTATATATACCTCAATCCCAATTTGTCATCGAGGCCATATAA	MNIELLDTHHVKDAAHLLAHSFVNNEPLVSSLQIPFAPFHKMCEEMMKQAVSQAMSFVAIENFQIVGVLLTKKVTQPLIDTDKAIELCPQMEPIFQLLDTLETESIEFSHLDKEKLVYLDMGACHPDWMGSGIVTTLLSHAIQEISKRDYDFIAACTNKISQKILKKLCTTYEMNEIVYSNFLYKEAYPFANTTTSLAAQLLYIPQSQFVIEAI				NA	NA	NA	NA	NA
AK009_04689	297			hypothetical protein	ATGACTAAATTTACTTCAGGTGACAAAATGAATGCAGTTATACGTTATCAGGATGGAAGTGAAAGTATAAAAGATATTGCTAAATCATTGAGAGCAAATCATGAAGTAGTACGTATGTGGATAAAACAATTTGAATACCATGAAATCCAAGCATTTGAAAAAGGCTATACAACGTATTCTTCACAGTATAAACTAGACGTACTAAATTATATGATCGAACATGGAACGTCTCCAAACGAAGCGGCAGTTATTTTTAATATTTCTTCACCTGGACTTATTAGAAAATGGCGCATTTAG	MTKFTSGDKMNAVIRYQDGSESIKDIAKSLRANHEVVRMWIKQFEYHEIQAFEKGYTTYSSQYKLDVLNYMIEHGTSPNEAAVIFNISSPGLIRKWRI				NA	NA	NA	NA	NA
AK009_04690	339			IS3 family transposase ISBth10	GTGAAGGCACTTTTAAAATTAGCAGAACTCCTACGAAGTACATATTATTACTGGATACAAAATTCTAATCGGCCAGATAAAGATAAAGAGCTAAAGATCTTAATTCAAAACATTTACGATGAACACCAAGGTCGTTATGGATATCGCCGTATTCGCGATGAGTTAATGAACCAAGGACACAAAATCAACCATAAAAAAGTTCAACGAATTATGAAAGAGTTAGGTTTAAAGAGTCTAGTTCGTATGAAAAAATATCGCTCCTATAAAGGAAAAGTAGGCAAGATTGCGCCAAATATTTTAGAACGTAATTTTAAAGCTGAAAAGCCGAACGAAAAATGA	MKALLKLAELLRSTYYYWIQNSNRPDKDKELKILIQNIYDEHQGRYGYRRIRDELMNQGHKINHKKVQRIMKELGLKSLVRMKKYRSYKGKVGKIAPNILERNFKAEKPNEK	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
AK009_04691	513			hypothetical protein	ATGAACATGAAACCAGTTTTAAAATATATAATTATTTCCCTTGTTTTTTCAATAGTAGGGGCGTGTTGGGCGCTGTTTGACATCTTTATGTTAGATGCAGACTGGCTATTGATTTGGATAGGTGTATTAATGGCGTATCTATCGTTGTATATTGTGATAGGTCTATATAGTAGAAATACATACGACACAAAATTGGCTAAAGTGCTTCTAAAAACAATAATTACAACCTTTAGTTTTGGAGCATTAGGAATATCATTCGGAGTTGTACACATGATATTAGGACCATTGAGTCTTACTTTAATGACATGGTATTGGTTTATAATGCTATTTTTATATTTAATACCCATAATATTATTAGTGATTTTAGTATTGGTAAATTGTAAAAATCATAATTTCCCTGGGGTATATAGTATACTTATACTTGTAAATATACTTCTTACGTTATGGCCGTTATTATGGCCGTTATTTATTACTTTTATGGGATCTGGTATGAATGCAAGTGCAGGATGGTAG	MNMKPVLKYIIISLVFSIVGACWALFDIFMLDADWLLIWIGVLMAYLSLYIVIGLYSRNTYDTKLAKVLLKTIITTFSFGALGISFGVVHMILGPLSLTLMTWYWFIMLFLYLIPIILLVILVLVNCKNHNFPGVYSILILVNILLTLWPLLWPLFITFMGSGMNASAGW				NA	NA	NA	NA	NA
AK009_04692	279	dsdA_3	COG3048	D-serine dehydratase	TTGAAACATCATTTATTAACTAAACAAGATGATTATTTCGTATTAGATAGTGACAGGTTTAGAGCATTCTTTTCAAATTATTCAATTGCAGTAGGTTTGACTAGAAATTTAGGGTTAAGCATTGGAATTATGAGTGTAAAGTTAGGATTCAATATAACTGCCCATATGTCAACTGATGCGAAAACGTGGAAAAAGAATCTACTTACAAGTAAAGGGATTACTGTTATTGAATATACAACAGGCTATAGTAAAGCGGTAGAAAAAAAGGATACAAGCTAA	MKHHLLTKQDDYFVLDSDRFRAFFSNYSIAVGLTRNLGLSIGIMSVKLGFNITAHMSTDAKTWKKNLLTSKGITVIEYTTGYSKAVEKKDTS	PGPT0001970_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
AK009_04693	123			hypothetical protein	TTGATTCAAAAATTAATTGAAACCGAGGAATTTATTTTGCTTAATTTAAATAAAACGAATTTTGAATATTTTATTCAAAATAGTACTTTAACTAAAGTTGATGTTATAGATGCAGAAGATTGA	MIQKLIETEEFILLNLNKTNFEYFIQNSTLTKVDVIDAED	PGPT0001970_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
AK009_04694	555	puuR_4		HTH-type transcriptional regulator PuuR	ATGAACAATATTAATGTTGGTCAAAAAATTATGGCATTTAGAAAAGGTGCAGGATTAACTAGTAAACGTTTAGCTGAATTGGCTGATATAACACCTTCCATGTTAAGTCAGATTGAGAAAGGGATCACGAATCCATCATTACAAACACTAAAGTTAATTTCTGTAGCATTAAATATTCCTTTATTTAATTTTTTCTTGGAAGATACCAATACAGAAGAATTAGTTGTAAGAGCGGATCAAAGAAAAAAAATGACTTTCCCTGAAAGCGGTAATGTTTCGTATGAGTTATTATCTCCTAATTTAGATGGATCACTGGAATTGGCTTTAATGAATCTGCTACCTCAAACCGCTTCATCTATGGAGCCTGTGGCACATAAAGGTGAAGAAATAGCATTTATTATGGAAGGACAAGTAAAACTATATCTAAATGATGAGGTTTTACTTCTCAATCAAGGTGATAGTGTTAAAATACCATCATACGCAAAACATAAATGGGAAAACACTTCTCTACACAAAGTCACTGTTATATTTGGAGTAACCCCACCATCTTTTTAA	MNNINVGQKIMAFRKGAGLTSKRLAELADITPSMLSQIEKGITNPSLQTLKLISVALNIPLFNFFLEDTNTEELVVRADQRKKMTFPESGNVSYELLSPNLDGSLELALMNLLPQTASSMEPVAHKGEEIAFIMEGQVKLYLNDEVLLLNQGDSVKIPSYAKHKWENTSLHKVTVIFGVTPPSF				NA	NA	NA	NA	NA
AK009_04695	294	pagR_4		Transcriptional repressor PagR	ATGACAAGCACTGTACTCGAATCAAAAAAAACTAATATTACAGAAGAAGATGTTGAAATTTTAAAAATAATGGCGCATCCAATTCGTTTACGTATTGTAAACGAGCTAAGCAAGCATAATACTTTTAATGTTTCTCAGCTAACAAAAATTTTAGAGATACCCCAATCATCTGTTTCACAACATTTATCGAAAATGAAGGGTAAAGTACTAAAAGCTGAACGTAAAGGCTTAGAAATTTATTATTCCATTCGTAATAACAAAGCAACTCAAATTGTCGGCATACTTGGATATTAA	MTSTVLESKKTNITEEDVEILKIMAHPIRLRIVNELSKHNTFNVSQLTKILEIPQSSVSQHLSKMKGKVLKAERKGLEIYYSIRNNKATQIVGILGY	PGPT0004300_295	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_04696	978	mmuM	COG2040	Homocysteine S-methyltransferase	ATGTCGAACAAAATCAATCCAATTGATGATATTTTATCCCAACAATCCATTATGCTTCTTGACGGAGCATTAGCTACAGAATTGGAGGCGCATGGATGTAATTTGGACGATCCTCTTTGGTCGGCACGTGTGTTACTAGAAAATCCGGAACTAATTTATCAGGTTCATTCAGACTATTTTCGTGCTGGAGCGGACTGTGCCATAACAGCAAGCTATCAAGCTACTATTAGTGGTTTTTCCACGCGTGGAATACAAGAACAGGAAGCTTTGGAGTTAATTAAGAAAACGGTGTTACTTGCAAGAAGGGCAAGAGATGATTTTTGGAAGGAAAATACGCAAACGAATAGGCCTAAACCTTTGGTTGTTGCATCAGTTGGGCCGTACGGCGCTTACCTTGCAGATGGTTCAGAGTATGTAGGCAACTATGGTGTGACAGATAAAACATTAGCAGACTTTCACCGTTCGAGAATGTCTGCGTTAATCGAAGCAGGTGCAGATCTATTGGCATTTGAAACGATCCCTTCCCTGCAAGAAGCAAGAGTATTAGATACATTATTGCGTGAGTTTCCAGAAACATATGCGTGGCTTTCCTTTTCACTAAAAAATGAGAAAGAGATTAGTGAAGGTATGAAACTCGTGGAGTGTGCACGAGTTTTTGAGAAAAGTGAACAAATTGTAGCGATAGGCATCAATTGTGCGCCAGTAACCGTTGTGACTGGTGCAATCCAAGAGTTGAGGGCAAACACCAAAAAACCGATTATTGTTTATCCAAACTCTGGTGAAACTTATAATCCAGAAACAAAAACATGGCATGGTCATGAACAATGTAACGCGTTGAATATTCAATCTGAAGAATGGTACCAAGCAGGTGCACGTTTAATAGGTGGATGCTGCAGAACGACACCTTATCACATTGAGGAGATATCTAACAAGTGGCGTTCTTCCGAGTTTTTCTATTCAAACGAAGCAAAACAGTAA	MSNKINPIDDILSQQSIMLLDGALATELEAHGCNLDDPLWSARVLLENPELIYQVHSDYFRAGADCAITASYQATISGFSTRGIQEQEALELIKKTVLLARRARDDFWKENTQTNRPKPLVVASVGPYGAYLADGSEYVGNYGVTDKTLADFHRSRMSALIEAGADLLAFETIPSLQEARVLDTLLREFPETYAWLSFSLKNEKEISEGMKLVECARVFEKSEQIVAIGINCAPVTVVTGAIQELRANTKKPIIVYPNSGETYNPETKTWHGHEQCNALNIQSEEWYQAGARLIGGCCRTTPYHIEEISNKWRSSEFFYSNEAKQ	PGPT0017810_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK009_04697	1410	rocC_2	COG0833	Amino-acid permease RocC	ATGGAGAACAAAAATGGGCAAGAATTTCAAAGGAAAATGCAAGCACGTCATTTAGTCATGCTATCACTTGGTGGGGTGATTGGAACTGGCTTATTCTTAAGTTCGGGTTACACTATTCAACAAGCTGGCCCATTTGGAACAATTCTATCCTATCTGATTGGTGCGCTAGTGGTTTATCTAGTTATGCTATGTTTAGGAGAGCTTTCCGTACATATGCCTGAAACGGGTGCATTTCATAGTTATGCAGTTAAATACATTGGACCGGGTACAGGGTATACAGTAGCCTGGTTGTATTGGTTAACTTGGACTGTTGCTTTAGGTTCTGAATTTACAGCCGCAGGATTACTTATGAAGCCATGGTTTCCATCGATTAATGTTTGGGTATGGAGTGCTCTTTTTGCCATTTTGATCTTTTTATTAAATGTCCTGACTGTTAAATTTTTTGCCGAATCCGAATTTTGGTTTTCATTGATAAAGGTTATAGCTATTGTAATTTTTATTGTTTTAGGAGTAGCCGCAATGTTAGGGTTTCTTCCGATGACTCATTCAAAACCAGCACCATTCTTTTCTAATTTTACAAGTGGAGGTTTATTTCCTCATGGTGCTACGGCCATTATGATGACCATGCTTGCGGTTAATTTTGCTTTTTCGGGAACAGAATTAATAGGCATTGCAGCTGGAGAAACAGCGAACCCGGAAAAAATGATACCGAAGGCCATTCGAACTACTCTGTGGAGATTGATCATCTTTTTTGTAGGAACGATTGTTGTTTTATCTGCGTTATTGCCTATTTCCGATGCAGGGGTATTAGAGAGCCCTTTTGTTGCAGTTCTAGAACGAATTGGGGTGCCATATTCAGCTGACATAATGAATTTTGTTATCTTAACAGCCATTTTATCTGCGGCAAACTCAGGCCTTTATGCCTCTTCTAGAATGCTTTGGTCGCTTGCTAATAAGAATACGATATCCCCGATTTTTGGGAAAATGACGAAGCAAGGTGTTCCAATCAACGCCGTCATTTTCAGTATGGTGGGTGGAGCTTTGGCTTTGCTCTCAAGTATTGTGGCACCAGATACTGTCTATATCGTACTTGTTTCCATTTCCGGTCTAGCAGTAGTTATAGTTTGGATGAGTATTAGTGCTTCCCAGTTCCTATTTCGCAGACAATTTTTGAAAGAAGGAAATTCTGAAAAGGATTTGATTTATCGCACACCACTATATCCATTAGTACCAATTGCTTCTTTTAGCCTTTGTCTGGCATCGTGTATTGGAATTGCATTCGATCCAACACAGAGAATTGCCTTATATTGCGGCATACCGTTTATTTTGTTTTGCTATGGAAGTTATTATCTAACAAAAAATCTAAAAAAGAGGGGCTTAGATTATGTCGAACAAAATCAATCCAATTGA	MENKNGQEFQRKMQARHLVMLSLGGVIGTGLFLSSGYTIQQAGPFGTILSYLIGALVVYLVMLCLGELSVHMPETGAFHSYAVKYIGPGTGYTVAWLYWLTWTVALGSEFTAAGLLMKPWFPSINVWVWSALFAILIFLLNVLTVKFFAESEFWFSLIKVIAIVIFIVLGVAAMLGFLPMTHSKPAPFFSNFTSGGLFPHGATAIMMTMLAVNFAFSGTELIGIAAGETANPEKMIPKAIRTTLWRLIIFFVGTIVVLSALLPISDAGVLESPFVAVLERIGVPYSADIMNFVILTAILSAANSGLYASSRMLWSLANKNTISPIFGKMTKQGVPINAVIFSMVGGALALLSSIVAPDTVYIVLVSISGLAVVIVWMSISASQFLFRRQFLKEGNSEKDLIYRTPLYPLVPIASFSLCLASCIGIAFDPTQRIALYCGIPFILFCYGSYYLTKNLKKRGLDYVEQNQSN	PGPT0020525_325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
AK009_04699	165			hypothetical protein	ATGATTGGCAAGGCATTAATGTCTTATCTTATCGATTATAATATTAGATTACCTGTAATTTTTAGAGTGAAATATAAAGGGATTGTAAAAGAAGGTTATACAAAGTTAAAGCTTTATCAAGAGAAAGTAATTTCTTCTCTTGGTAAGCTTTTTTTAATGAGATAA	MIGKALMSYLIDYNIRLPVIFRVKYKGIVKEGYTKLKLYQEKVISSLGKLFLMR				NA	NA	NA	NA	NA
AK009_04700	162			hypothetical protein	ATGCCTGCAATTCTTGTAGAACTTGCCGTCATTGATAATAAAGAGGAAAATGAAAAGTTAGGTTCAGAATATTGGAGACAGCGTTTGCCTGAAGCGACTTATTCAGGAATATTAGTTTATTATGATTGGCAAGGCATTAATGTCTTATCTTATCGATTATAA	MPAILVELAVIDNKEENEKLGSEYWRQRLPEATYSGILVYYDWQGINVLSYRL	PGPT0024160_1136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_04701	2469			hypothetical protein	TTGATTCATAGTTACAAACAGTTAAGCCAAAAATATCTCAGAAGTAATATAAAACGTACTTTGCTAACATTAACAGGTATTATTCTAGCATTGGCGCTAATAACAACGATTGGACTGTTTTTTAATAGTGGATACACTTCGGGAATTGAAAATGCTAAAAAAGGTTCTATGGGTTCCGCAAATATTTCAGTTGAAAATTATAATCAAAAGCTTTTCAATATGATAAAAAGTAATCCAAATATATCTTCTTATGGCATTATAACTCCAGGAGAGGTGCTCCATATTCATGAGATAGCTGTCTCTTATATGTATGCAGATCATCAAGCATTGAAGCTGTTAAAGTCTAGTATTCCTGTACATGGTAAGCTACCTTCAAATGAAAACGAGGCTGTTTTGGAAAAATGGATGCTACCTTACTTCGGGCCCAATCTTAAATTAGGCGATATGTTTATTATTCATGAAAAGAAATATAAACTTGTTGGTGTGTTAAATAAGTCTAGTGGTACTCAGGAAAATAAAACAGGTCAATTATTAACATATAAAAATAAGTTTAAAGTTGGAGAAGGTAGCGTATTAATTGAATTGCATAAGTACGCAAACTTTGATGAAGTTGAAAATCAATTTAAATTATTGACGAATAAAGAAAATATAAGAGTGAATAACGAATTAAAGAGAGCCTTAAAGCCTAGTGTGGAGATAATGGTGGCAGCCGCTATTAGTATTGGGATTGTTGTGATTTCTACAATTGTTATTATTTACAATGCATTTCAAATTAGTATAGTAGAGCGAATGAAACAGTTTGGTTTATTGAGGAGTATAGTAGCTACAAAAAAACAAATCAGAAAAATTGTGATAAGAGAAGCAACATTTCTTTCTATTATTGCTATATTCTTTGGGATTTTGTGCAGTGTATTAGTAGTCTTTTTACTTAATCAAGTACTGATAAACGTACTTAAAAACTCTATGGGATATACAATTAAATTAGATTGGTTAATTATATGTGTAAGTTCTTTAATTACGTTGATAACTGTCTATATTTCAAGCTATTTTCCTGCTTTTTTTGCAGGTAGAATTTCACCGTTACTGGCCGTAAGTAGCCGATTAGCTATAAAAAAAGAAAAAATAAAGAAAAAAAAGAGAACAAAACTAAAGAAACCACTATCTTTTCCGTTAAGTATGGCATTAAAAAATATCCAAAGGAATCCAAATAGATATACAGTTACAATCTTGTCTATTATTATAAGTAGTGTACTGTATATCACGTTTACGTTTCTCATAGATACTGTCATTCAGCGTAAACAACCGGAAATTCAAGCTCTAAAATCGGATATATCAGTTACGGTTAATTCAAATTTAGACAAGACTAGCATAGATCATATGAGTCGAAATATTTATAAAGTTAATAACGTAGAAAAGCTGTACAAGCAATATCAGGCAAATGATTTTTATACGAAAGTACCAAAAAATAAACAAATTAAAGAATTACAAGGAAATGAATCGCTGTATCAAAAAGTAAAATATAATAATCAAACTGTAGAAATTGTGAAAACACAAATAAAAGCATACGATGAGAATAGTTTAAAGAAACTAGCTGAAAATGTAACTAGTGGAAGAATTGATATTTCAAAATTAAATCGTGAAAAAGAGGTTATTTTAGTAAAACAAGCTGCATCAAATGATATGAATACAAGTAAAAAATATATAGGTTCTCTAAGCACTTTTCAGGTAGGGGATGAAATCCAAATAACAAGTCAGCAGGAAAGAAAATCTACAGAGGAAATCTCCTACAATGAAGAAAAACTAGAAACTTTAAAAATAGCTGCAATTGTAGAATTGGATATTTTTAATATGAGCAGAGTGATGGATACCATAACTTTTATTACTAGTGAACAAATAGCCGAATATATTACACCATCTCCACAAAAATTAACAAGTTTTGAAATTGATTTAGAGAATCAATCTCAGGCTGATGCTACAATTTTAGATATACAAAAGAAACTCGGTGGAGATGCATCTATAGATGTAAAAAATAATATCGTTCAAAGTAATTTCCATACAGATAATATAATTTATATAAAAATATTAGGGTACGGATTTATAGCTGTTATTACACTGATTGGTTGTGTGAATATTTTAAATACCATTACAGTCAGCATCATTATGAGAAGAAAAGAATTAGCTGCTTTAAAATCGATTGGTATGTCGCAAAAGGATTTGAAAAAGATGATTACTTATGAAGGGCTCCTGTACGGTCTCTTTGGAAGTATACAAGGAATCTTTTTCGGCTGTATGCTTTCATATATTCTTTATGTAGCACTTTCGAATATGGTGTCTTTTGAATGGATTATTCCTTATCAATCTATCTTTATCACATTTATAACTGCACTGTTGATTAGTTATGTAGCGGTACTAATACCACTTCGGAAAATTCAAAAGGATAATGTTATAGATGTAATTAGAGAAGAATAA	MIHSYKQLSQKYLRSNIKRTLLTLTGIILALALITTIGLFFNSGYTSGIENAKKGSMGSANISVENYNQKLFNMIKSNPNISSYGIITPGEVLHIHEIAVSYMYADHQALKLLKSSIPVHGKLPSNENEAVLEKWMLPYFGPNLKLGDMFIIHEKKYKLVGVLNKSSGTQENKTGQLLTYKNKFKVGEGSVLIELHKYANFDEVENQFKLLTNKENIRVNNELKRALKPSVEIMVAAAISIGIVVISTIVIIYNAFQISIVERMKQFGLLRSIVATKKQIRKIVIREATFLSIIAIFFGILCSVLVVFLLNQVLINVLKNSMGYTIKLDWLIICVSSLITLITVYISSYFPAFFAGRISPLLAVSSRLAIKKEKIKKKKRTKLKKPLSFPLSMALKNIQRNPNRYTVTILSIIISSVLYITFTFLIDTVIQRKQPEIQALKSDISVTVNSNLDKTSIDHMSRNIYKVNNVEKLYKQYQANDFYTKVPKNKQIKELQGNESLYQKVKYNNQTVEIVKTQIKAYDENSLKKLAENVTSGRIDISKLNREKEVILVKQAASNDMNTSKKYIGSLSTFQVGDEIQITSQQERKSTEEISYNEEKLETLKIAAIVELDIFNMSRVMDTITFITSEQIAEYITPSPQKLTSFEIDLENQSQADATILDIQKKLGGDASIDVKNNIVQSNFHTDNIIYIKILGYGFIAVITLIGCVNILNTITVSIIMRRKELAALKSIGMSQKDLKKMITYEGLLYGLFGSIQGIFFGCMLSYILYVALSNMVSFEWIIPYQSIFITFITALLISYVAVLIPLRKIQKDNVIDVIREE	PGPT0013350_5335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_04702	714	yknY_2	COG1136	putative ABC transporter ATP-binding protein YknY	ATGGAGGTTGTTAGATTAGAAAATGTAGTAAAAACATATGGAGAGGGAGAAACCCAAGTACAGGCGTTAAAAGGAATTAATCTTTCCATTCATAGGGGGGAATTCGTAACCATAGTTGGAGCATCAGGTTCTGGTAAAAGTACCTTATTGCATATTTTAGGAGGGCTGGATCGTCCGAGTTCGGGAAATGTGTTTATAGGTGATGAAAATATCTACAATTATAAAGATAATGAACTCTCTATTTTTCGCCGAAGAAAAGTTGGCTTTATATTTCAGTTTTTTAATTTAATTCCTGTCTTGAATGTACAAGAAAATATTGCTTTGCCAGCTCTATTGGACGAAGAACAGGTAGATGATCATTACCTGGATGAAATTATAAAAACCCTTGGGTTAAATGAAAGACGAGATCATTTGCCTTCTGAATTATCGGGTGGTCAACAACAAAGGGTATCTATTGGTAGATCTCTTATAAATAAACCCGATATTATCTTAGCGGATGAACCAACCGGAAATCTAGATACAAAAAATACAAAAGAAGTTCTGAATTTATTAAAAGTAACAGCTAAAAAATATAATCAGACGGTGATTTTAATTACCCATGACCCTGCTATCGCATCAAACTCTGATCGAATTATAACCATTACAGATGGCATGATTATTTCAGATAAACAATTAGTGCAAAATCAAGAAAAATGTGGAGGGGAGGAGTATTGA	MEVVRLENVVKTYGEGETQVQALKGINLSIHRGEFVTIVGASGSGKSTLLHILGGLDRPSSGNVFIGDENIYNYKDNELSIFRRRKVGFIFQFFNLIPVLNVQENIALPALLDEEQVDDHYLDEIIKTLGLNERRDHLPSELSGGQQQRVSIGRSLINKPDIILADEPTGNLDTKNTKEVLNLLKVTAKKYNQTVILITHDPAIASNSDRIITITDGMIISDKQLVQNQEKCGGEEY	PGPT0013345_7568	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_04703	525			hypothetical protein	ATGACTGAAGAAGAGATAGACAAGGAACTTGATAAACCATCTGTTAGAAAGAAACAATATGTGGTTATTACAAAATCAACAGCTGAAAAATTCTTAAAAAAAGGAATTGTAAGAACACCCTTATCAAAAGAAGATAGTTCAATGACTTCAACCCCAGTAAAAGAAATAAAAGAATTAACGAGTGAAAAAAACTTATTTTATAGAAAAAATGCAGAAGATGAGGAAGTTAAGGATGGAAATTTAAATTTAAATGGACAAATGATACCTGTTCAACATATTGAACAAAATAATTGGATTGGCTATTTTTCATCACCGATAGTAATTGTTAATGAGGAAACATATAAACAATTAGAAGAAAAAGAAGTAAGCCTTTCTTTAATTCAGTTTGCAAAAGAAAATTTTGATTATAAAAATAAAAACAAGGTAAAAAAGGTGGTCGAATACGTTTCGAAAGTGTATGCAGTGAAAGACGAGAATGGTGAGTACGATAAGGATAAAATCTATTTTGTAGAGGTTCAAAATTAA	MTEEEIDKELDKPSVRKKQYVVITKSTAEKFLKKGIVRTPLSKEDSSMTSTPVKEIKELTSEKNLFYRKNAEDEEVKDGNLNLNGQMIPVQHIEQNNWIGYFSSPIVIVNEETYKQLEEKEVSLSLIQFAKENFDYKNKNKVKKVVEYVSKVYAVKDENGEYDKDKIYFVEVQN				NA	NA	NA	NA	NA
AK009_04704	255			hypothetical protein	ATGAAAAAGATAATAGGATTTCTAGTAGTAACAGCAATTTTTATAGGTATAGGGTTTGCTGTAAATAGGTATATAAATGGTCCCTCACAACCAGTAAACGGTATCATAGTATCTGGAACAAAAGAAAATATATCAGCTGTTAAAAATCTGTATAAAGATCAAAACGTACGAACAGCAGATTATAGTTATAAATTGGTCACAGAAATAATAAAACAAGAACTCACTACCGAACAGAAAGAAGATATTAAGAAATAA	MKKIIGFLVVTAIFIGIGFAVNRYINGPSQPVNGIIVSGTKENISAVKNLYKDQNVRTADYSYKLVTEIIKQELTTEQKEDIKK				NA	NA	NA	NA	NA
AK009_04705	693	walR_5	COG0745	Transcriptional regulatory protein WalR	GTGGATAAAGTATTATTCGTTGAAGACGATAACGATCTAGGAATGGCTATTGAGTTTACTCTAAAAGGAGAAGGACTTGAGGTTATAAGAGTTTCTACTGTACAAGATGCAAAAGACCAATACGAAAATAATCAATTTGACTTAGCTATATTGGATGTTGGACTCCCAGATGGAAATGGGTATGATTTATGTACCTATCTTAAAAGAAAAGGTGATATACCTATTATTTTTCTTACCGCACTAGATGAGGAGGCAAATGTAGTAATGGGCCTTGAAATTGGTGGAGATGATTATATAACAAAACCCTTCAGGGTAAAAGAGCTATTATCTAGAGTAAAGGTACAATTAAGAAAAAAAATTAAAACAGCTTCTAATACTATATTGAGGTCTGGAAATATACAGCTTGAAGTTGAAGCGGCCAGAGCTTTTAAGCATGAGAAAAGTATAAATTTAACACATTTAGAATACAAACTCTTATTAACGTTAATGCTAAATCCTCATAAAGTGTTAAAAAGAAATGAGATATTGAAAAAAATAGTAGATGAAAGTGAAGTGTTTTTCGATGAAAATACTCTTTCTGTTTATGTAAAAAGATTAAGAAGTAAAATTGAGGATACTCCACAAAATCCTAACTGTATAATCACACAAAGAGGTGTCGGATATTTCTGGAATAAAGACGTCAGTAAGGAGTAA	MDKVLFVEDDNDLGMAIEFTLKGEGLEVIRVSTVQDAKDQYENNQFDLAILDVGLPDGNGYDLCTYLKRKGDIPIIFLTALDEEANVVMGLEIGGDDYITKPFRVKELLSRVKVQLRKKIKTASNTILRSGNIQLEVEAARAFKHEKSINLTHLEYKLLLTLMLNPHKVLKRNEILKKIVDESEVFFDENTLSVYVKRLRSKIEDTPQNPNCIITQRGVGYFWNKDVSKE	PGPT0013765_460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK009_04706	1233	sasA_17		Adaptive-response sensory-kinase SasA	ATGATAAATAGAGAAATAAAAATTAATATACTTACATTAGCATTAATCTCTTTTTTATTTATTATATATCAAGTTATCACAGTTCATATTCTATATGACCATTTAAAAAATGATTATATTACTATTTGGAGTGAAATTACCGGAAAACTAGTTGCACAAAACCCAGAAAATGAATACGAAATTATACAAGCACTTACAAATGATACAGCGAATAAAAAAGATTATTCCAGTGATGGAGAAATGCTATTAAATCAATATGGTCTATCTGCTGAATTGGATTCAAGACTTTTTCCTTATTTAAATAAACATATATCCCAAAACAACATAAACATGTTCCTTGGAGCAATAGGGTTCAGTTTAATCCTAATTTTTCTAAATTACTTACAATATAAATCTTTTTTCTTAAAAATTAGAAATGTAACAGCTGCAGCGAATAAAATTATTGAAGGTAATTACACAATTGATATCAAGGAAAATAGAGAAGGAGATCTAGCTAAACTTGCTAATTCTTTTCATAAACTGAAAAATGTTATTAGAAAAAGTATGCATAATTTAATGGAAGAGAAACAATTTTTAATTCAAACTTTACAAGATATTTCTCATCAACTAAAAACACCACTCTCCACACTAACAGTGAACAACGATATCTTATTACAAGATAAATTAAATGAACAGCAATATCATTTTTTACACAATAATGAGGTTCAAATTTCAAGAATCAGCTTTTTAATACAGAATTTATTAAAAGTTTCAAAAATAGATGCTAGGGCAATACTATTTGAAAAAGAAAACTCTGATATTATTGATACAATTTATGAGGTCATTGCTAGTTTGAACAGTAAATTAGATAAAAAAAATATGAACATACATTTAAAAACCAATGAAAAAATATCACTTTTACATGACAGTATTTGGATGCAAGAAGCTTTATTAAATATTTTAAAGAATTCCATTGAACATTCAAATGATAATAGTTCTATATATATTGAAGTCACAAACTCTCCTATTCATACTGAAATTATAATTCAAGATTTTGGTGAAGGTATTGCATCAGAAGATTTGCCATATATATTCGATAGATTTTACAAGGCAAAAAATTCTAAAAAAGAAGGATCAATTGGAATTGGCTTAGCACTAGCAAAATCAATTATCGAAGCTCATCATGGATTTATTAAAGTAGAAAGCCAAAAACATTCATTCACAAAGTTTACAATAACTTTTATGAAGTATTAA	MINREIKINILTLALISFLFIIYQVITVHILYDHLKNDYITIWSEITGKLVAQNPENEYEIIQALTNDTANKKDYSSDGEMLLNQYGLSAELDSRLFPYLNKHISQNNINMFLGAIGFSLILIFLNYLQYKSFFLKIRNVTAAANKIIEGNYTIDIKENREGDLAKLANSFHKLKNVIRKSMHNLMEEKQFLIQTLQDISHQLKTPLSTLTVNNDILLQDKLNEQQYHFLHNNEVQISRISFLIQNLLKVSKIDARAILFEKENSDIIDTIYEVIASLNSKLDKKNMNIHLKTNEKISLLHDSIWMQEALLNILKNSIEHSNDNSSIYIEVTNSPIHTEIIIQDFGEGIASEDLPYIFDRFYKAKNSKKEGSIGIGLALAKSIIEAHHGFIKVESQKHSFTKFTITFMKY				NA	NA	NA	NA	NA
AK009_04707	948	manA_1	COG1482	Mannose-6-phosphate isomerase ManA	ATGACTGAACCATTATTTTTTGCACCTGTTTTTAAAGAAAGAATTTGGGGTGGAACACATTTAACTTCTTTTGGATATGAGATTCCATCAAATCAAACTGGAGAGTGTTGGGCTTTTGCTGCACATCAACATGGACAAAGTATTGTTAAGAACGGAAAGTATAAAGGGCTATCTTTGGGTGAATTGTGGGATAACCATCGAGATTTATTTGGAAATATGGAGGGGGAGCGTTTCCCTCTTCTTACAAAAATTTTGGATGCCAATCAAGATTTATCTGTTCAAGTTCATCCCAACGATGAGTATGCCAGCGTACATGAAAATGGAGAACTAGGAAAAACAGAATGCTGGTATGTAATCGATTCCATAAAAGACGCGGAAATTATTTATGGACATCATGCGAAAACAAAAGAAGAATTCATGGCTATGATTGAAAAGAAAGAGTGGAACCAACTGTTGCATCGCGTGAAGGTGAAACCTGGAGATTTCTTCTATGTGCCGAGTGGAACTGTTCATGCAATTGGTAAAGGGATTTTGATATTAGAAACGCAGCAAAACTCTGATACAACCTATAGATTGTATGATTATGATAGAAGAGATTCAGAAGGTAATTTACGGGATCTTCATCTTGAAAGCAGTATTGATGTAATAGAAACTCCATGTATTTCGAATCAGTTAACATTTAAAAATGAAAAAGTAGATGATTTGAGTATAACTAATTTTATTAAATGTCCGTATTTTTTAGTGGAAAAATGGGAGTTAGATGGATCAGCTAGTTTGGAACAACAAAAAGCCTTCCTTCTTGTTAGTGTAATACATGGTGAAGGTGAGTTAATTAAAGAAGGGGAGCACTATTTCTTTAAAAAAGGAGACCACTTTATAATACCTAATTACTTTGGAAGATACGATTTGGTAGGTAACTCTATATGTATTGTTTCAAGTAAATATTAA	MTEPLFFAPVFKERIWGGTHLTSFGYEIPSNQTGECWAFAAHQHGQSIVKNGKYKGLSLGELWDNHRDLFGNMEGERFPLLTKILDANQDLSVQVHPNDEYASVHENGELGKTECWYVIDSIKDAEIIYGHHAKTKEEFMAMIEKKEWNQLLHRVKVKPGDFFYVPSGTVHAIGKGILILETQQNSDTTYRLYDYDRRDSEGNLRDLHLESSIDVIETPCISNQLTFKNEKVDDLSITNFIKCPYFLVEKWELDGSASLEQQKAFLLVSVIHGEGELIKEGEHYFFKKGDHFIIPNYFGRYDLVGNSICIVSSKY	PGPT0017860_3069	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
AK009_04708	1956	manP	COG1299	PTS system mannose-specific EIIBCA component	ATGAAATTGTTAGCGGTTACATCATGTCCGAATGGGATTGCCCATACCTATATGGCAGCTGAAAATTTACAAAAAACAGCGGATAAATTAGGAGTCCAAATGAAAGTTGAAACCCAAGGTGGAATAGGGGTAGAAAATGAGTTAACTGAACAAGATATTCGCGAGGCGGACGGCATTATTATAGCTGCGGATAGAGTCGTAAATAAAGATAGATTTGTAGGGAAAAAATTGTTGGTTGTTGGAGTGCAGGATGGTATTCGTAAACCAGGAGAATTAATTGAGAAAGTAATCAGCGGGAATGTATCTATTTATCATTCACAGTCAAAAAAAGTAGAAAGTAACCAACAGGAAAAAAAGCAAAATCCGATATATCGTCATTTAATGAATGGTGTATCTTTTATGGTCCCATTTATCGTAGTTGGAGGATTATTAATTGCAATTGCGTTAACACTTGGGGGAGAAAAAACTCCTGGGGGGCTAGTGATTCCAGAGGGTTCTTTTTGGAAAACCATTGAACAAATTGGTGGTGCATCATTTACGTTCATGGTTCCAATACTTGCTGGATATATTGCATATAGTATAGCGGATAAACCTGGACTTGTTCCTGGAATGATTGGTGGATATATTGCAGCAACAGGAAGATTTTACGGAAGTGAAAGTGGTGCTGGTTTTCTCGGTGGAATTATCGCTGGTTTCTTAGCTGGTTACATAGCATTAGGAATCAAAAAATTAAAAGTTCCAAAAGCGATTCAACCAATTATGCCGATTATTATTATTCCGGTATTTACTTCCCTTATTGTAGGTTTAGCATTTGTATTTATTATTGGTGCCCCTGTCGCACAAGTTTTCGTATCATTAACAGCTTGGTTAGCAGGTATGCAAGGGTCAAGTTCAATTCTCTTAGCATTAATTTTAGGTGCAATGATTTCATTTGATATGGGTGGTCCAGTCAATAAAGTAGCATTCTTATTTGGTTCAGCAATGATTGGAGAAGGAAACTATGAAATTATGGGTCCAATTGCTGCAGCAATTTGTATACCACCAATTGGAATGGGACTGGCTACTTTCATAGGTAAGGGGAAATTTCAAGATTCAGAGAGAGAAATGGGTAAAGCATCATTTACAATGGGGCTATTTGGTATTACGGAAGGTGCGATTCCCTTTGCAGCACAAGATCCACTTCGGGTTATTCCAAGTATAATGGCTGGTTCGATGACGGGTGCTGTGATTGCGATGATTGGTCATGTAGGAGACAGAGTAGCACATGGTGGTCCAATTGTTGCTGTGTTAGGAGCAGTAGATAATGTATTTATGTTTTTTGTGGCTGTAATTGTAGGCTCTATTGTGACAGCTGTTGTAGTAAATGTATTGAAAAAAGACGTTTCAAAGTTAGAAAAACAAGAAAATGAACAAATAAAAGAAGTTTCAGCAACAATAGAAGTGCAACAACTGGAACAAGAAACTCAAGCAAGAGGCGAACAAGTAGATAAGGTAGAGATAAAAAAATTAACAGATATTACAAGTTTAGAATTAATTGAAACGGACTTAAAAGGGGAAACAAGAGATGACATCATTGATGAAATGATTCAAAAATTAAAGCATGTAGGTGCATTACATTCAGTGACAGAATTTAAACAGGCTATTATGAACCGTGAGCAAGAAAGTACTACAGGTATTGGCATAAACATTGCGATTCCACATGGGAAATCAGCTGCCGTAAGGAAACCGAGTGTGGTATTTGGAATTAAACAATCGGGCATAGATTGGAAAAGCCTTGATGGAACGGAAGCGAAGTTAATATTTATGATTGCGGTACCAAAAGGAAATGAAGGGAATGAACATTTAAAAATCCTTCAAATGCTTTCTCGAAAACTTATGGATGACAGTTTTAGAGAGCGGTTATTATCTGTTCGAACAAAAGCAGAAGCATACAAACTACTAGATGAAATAGCATAG	MKLLAVTSCPNGIAHTYMAAENLQKTADKLGVQMKVETQGGIGVENELTEQDIREADGIIIAADRVVNKDRFVGKKLLVVGVQDGIRKPGELIEKVISGNVSIYHSQSKKVESNQQEKKQNPIYRHLMNGVSFMVPFIVVGGLLIAIALTLGGEKTPGGLVIPEGSFWKTIEQIGGASFTFMVPILAGYIAYSIADKPGLVPGMIGGYIAATGRFYGSESGAGFLGGIIAGFLAGYIALGIKKLKVPKAIQPIMPIIIIPVFTSLIVGLAFVFIIGAPVAQVFVSLTAWLAGMQGSSSILLALILGAMISFDMGGPVNKVAFLFGSAMIGEGNYEIMGPIAAAICIPPIGMGLATFIGKGKFQDSEREMGKASFTMGLFGITEGAIPFAAQDPLRVIPSIMAGSMTGAVIAMIGHVGDRVAHGGPIVAVLGAVDNVFMFFVAVIVGSIVTAVVVNVLKKDVSKLEKQENEQIKEVSATIEVQQLEQETQARGEQVDKVEIKKLTDITSLELIETDLKGETRDDIIDEMIQKLKHVGALHSVTEFKQAIMNREQESTTGIGINIAIPHGKSAAVRKPSVVFGIKQSGIDWKSLDGTEAKLIFMIAVPKGNEGNEHLKILQMLSRKLMDDSFRERLLSVRTKAEAYKLLDEIA	PGPT0017120_741	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
AK009_04709	1947	manR	COG1762	Transcriptional regulator ManR	ATGAATACAAGACAAAAAGAAATTTTATTTCTACTATTATCTGAATCTAACGACTATTCATTAGTACAAGACCTTGCCGATAAGGTGAATTGCTCTGAAAAAACAATTCGTAATGACTTTAAAATAATTGAGGAGCATCTTGCGAATTATTCAAGTGCGATTCTTGTTAGAAAACCGGGATTAGGCGTGTACTTAGAGATTGAGGAATATGAAAAGGTGGACTTGTTTAATAAACTTTATTGTATTAATAATCGCACAAAGTATGAATCAGATGAAGAAAGGATTCTACAAATTGCATACAACTTATTAATGAATGTAAAGGCAGTTACTGCACAGGATATGGCATCCCAACATTTTGTAAGTCGAACGACTATAAAAAAAGATCTAGATAGAATTGAAAAATGGTTACATCAATTTGATTTAACCATTGTTTCAAAACAGCGAGTTGGACTTATTATTGATGGAAATGAAAAGAAAAAAAGAAGAGCATTGGCTAGATTATCAGATTTGATTCGTAATTCTGATCTTACGAATCAATTTATTAAAGAACAATTTCAATATCATGAGGTTGAATTTGTTACGAACGAATTGAAAGCGTTACAAAAACGAAATGCATTGTTTTTTACAGATGATACATTTGAAAGTTTATTAGTGCATACATTGCTCATGGTACGGAGAATGAAACTTAAACAACCTATTTTAAATGCTGAAAAGGAAATTAAAATACTGAAAGAAACAAAAGAATATATATGGACATTGGAATTTTTAAAACAGTTGGAATGTGTTTTTTCAGTTCATTTTACAGAAGAAGAAGTTACGTATTTAACAGCTCATATTTTAGGTGGGAAAATCCGTTATCAAGATAAACCAATGCAGGATAGCACGCTTACTGAAAGTAATCCAATCCTTTCTATGGTTATTCAGCAATTAGTTAAACGTATGTCGCAGTTGTATGAAATTGATTTCAGTAAAGACAAAATTTTAATTGAAGGGTTAACGATTCATCTATATACCGCATTGAATCGCTTAAGCTATGATCTTTCTGTCTCTAATCCGATGTTACACGATATAAAGAGAATGTATCCCTATGTGTTTAATGTATTGATACAAGTATTAGAAGAGATAAACGAATCTCTAAATATATATATTCCAGAAGAAGAAGCGGCTTATCTTACTCTACACTTTGAAGCATCTGTTGAACGGTTAAATCACCAGGAAAAATCTAAAAATGTAATTATTGTTTGCCATATGGGCATTGGCATGTCGCAGTTGTTACGTACAAAAATTGAGCGTAAATTTCGTCATATCCATGTGATGGACTGTATTTCAAAAGCTGATTTAAAAAGTTATATAATGAAACATCGTGATGTGAATCTCGTTATTTCAACTACTAGTCTTTCAAGATTAGACATTCCTCATATAGTAGTATCCCCATTATTAGAGGGACCAGAAGAAAAGAAGCTAGGGAACTTTATACAAAATTATGATGAGCCAAGTTATAAAGAACAAAAAGACTTTGTTATGCTCAATTATACATCTCCATTTTTAGTGTTTTTACAACAAGATATACAACATCCATATGAGTTAATTGAAAAATTAGCATATGCTTTGCATAGTAAGGGTTATGTAGATAAAGAGTATGCAGAAAATGCAATTATAAGAGAAAAAATGTCAGCAACAACAATTGGGGGAGGAATTGCAATTCCTCATGGAAACCCGAAATTTATTCAAGAGTCAGTAATTGCAATCGCTACATTAAAAGAACCAGTTGATTGGGGAGCAGAGAAGGTATCACTTGTATTTATGCTAGCAGTTAAAAGTGATGGACAAGAGGTAACGAAACAATTGTTTCGGGAACTATCCTTTATAAGTGAGCAACCATCCTTTATTCAAAAACTTACGAAAGAAACAAACGTAATGAAATTTTTGTCCTTTTTACATACTTAA	MNTRQKEILFLLLSESNDYSLVQDLADKVNCSEKTIRNDFKIIEEHLANYSSAILVRKPGLGVYLEIEEYEKVDLFNKLYCINNRTKYESDEERILQIAYNLLMNVKAVTAQDMASQHFVSRTTIKKDLDRIEKWLHQFDLTIVSKQRVGLIIDGNEKKKRRALARLSDLIRNSDLTNQFIKEQFQYHEVEFVTNELKALQKRNALFFTDDTFESLLVHTLLMVRRMKLKQPILNAEKEIKILKETKEYIWTLEFLKQLECVFSVHFTEEEVTYLTAHILGGKIRYQDKPMQDSTLTESNPILSMVIQQLVKRMSQLYEIDFSKDKILIEGLTIHLYTALNRLSYDLSVSNPMLHDIKRMYPYVFNVLIQVLEEINESLNIYIPEEEAAYLTLHFEASVERLNHQEKSKNVIIVCHMGIGMSQLLRTKIERKFRHIHVMDCISKADLKSYIMKHRDVNLVISTTSLSRLDIPHIVVSPLLEGPEEKKLGNFIQNYDEPSYKEQKDFVMLNYTSPFLVFLQQDIQHPYELIEKLAYALHSKGYVDKEYAENAIIREKMSATTIGGGIAIPHGNPKFIQESVIAIATLKEPVDWGAEKVSLVFMLAVKSDGQEVTKQLFRELSFISEQPSFIQKLTKETNVMKFLSFLHT				NA	NA	NA	NA	NA
AK009_04710	450	argR_1	COG1438	Arginine repressor	ATGAGAAAAGAGAAAAGACAAAGGCTAATTAAACAAGCGGTGAGAGAGCATGAAATAGATACACAAGAAAAGTTAGTAGAGCTGTTAGCAAAAAAGGGGGAAATTGTAACACAAGCTACTATTTCGCGAGATATTCGCGAATTAAATATAATAAAGACAGTTTCTTCAAACGGTTTAACTATATATAAAAACTTCACAGGAGATAATATACAAACTGATATGATGTTAAAGAAAAAGTTTGGAGAAGTTGTCGTAAAGATTGATTATATAAATCAATTAACCATTATTAAAACTTTACCGGGTAATGCACATGTTATAGGTGTGTTATTAGACTCTGTAGACTGGAAAGAAAAAGTAGGGTGTATTTGTGGGAATGATACATGTCTTGTAATTTCAAAATCACAATCAGATAGGGAGATTCTAGAAGAGAGATTAAAATTAATTATGTAG	MRKEKRQRLIKQAVREHEIDTQEKLVELLAKKGEIVTQATISRDIRELNIIKTVSSNGLTIYKNFTGDNIQTDMMLKKKFGEVVVKIDYINQLTIIKTLPGNAHVIGVLLDSVDWKEKVGCICGNDTCLVISKSQSDREILEERLKLIM	PGPT0020105_1877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
AK009_04711	984			hypothetical protein	ATGAATAAAATAAAAAGGTTACTAAAACGTAAAACGACTTGGATAATTCTTATCCTATTCGCATTTGTTTATGTAAATAACAGTTCTTTTTTTGCTGAGAGGGCCGATGGGACTCCTCTTCTTCTTGCTCACCGAGGGCTTTCGCAAACATTTAGCATGGAAGGGATTGAGGGTGATACATGTACAGCTGAACGTATAAATAAACCTGAATATCCTTATTTAGAAAATACAATTCCATCTATGGAAGCAGCATTTAAAGCTGGGGCTGATCTAGTAGAGTTTGATGTTCAACCAACTAAAGATAATAATTTTGTTATTTTTCATGACTGGACTCTTGATTGCCGTACTAATGGTAAAGGTGTTACAAGAGATTTTACAACAAAAGAATTACAAGCACTTGATATTGGTTACGGTTATACAGCTGATGGGGGTAAAACATTCCCATTTCGTGGTCAAGGGATTAATCTTATGCCAACACTTGATGAAGTACTTAACCATTTTTCAGATCGCTCTTTTCTTATTCATATTAAAAGTGATGATGAAAATGAAGGAATCCAATTGGCTGCTTACCTTAAGAAACTACCAGCAAAACGTCTTGAGCAACTAACTGTATATGGTGGCGATAAACCAATTGCTGCGATAAAAGAGCGCATCCCTAGTTTACGATTAATGTCTAAAGCGACCATGAAAAAGGATCTTCTTACTTATATGGCGTTAGGATGGACTGGTTACATGCCTTCAAGCCTGAAGCATGGGGAGTTACATATACCAGACAAAGTAGCTCCTTGGCTTTGGGGATGGCCAAATCGTTTTCTTAATCGAATGGATAAAGCTGATACTCGAGTTATCGTTGTAGGAGGAAATGGATTTGGATTTTCAAGTGGATTTGACTCGCTTGAAGATATAAAACGTCTTCCTGACGATTATACAGGTGGAATTTGGACAAACCGCATTGATAAAATAGCGCCTGTATTTCAAAAATAA	MNKIKRLLKRKTTWIILILFAFVYVNNSSFFAERADGTPLLLAHRGLSQTFSMEGIEGDTCTAERINKPEYPYLENTIPSMEAAFKAGADLVEFDVQPTKDNNFVIFHDWTLDCRTNGKGVTRDFTTKELQALDIGYGYTADGGKTFPFRGQGINLMPTLDEVLNHFSDRSFLIHIKSDDENEGIQLAAYLKKLPAKRLEQLTVYGGDKPIAAIKERIPSLRLMSKATMKKDLLTYMALGWTGYMPSSLKHGELHIPDKVAPWLWGWPNRFLNRMDKADTRVIVVGGNGFGFSSGFDSLEDIKRLPDDYTGGIWTNRIDKIAPVFQK	PGPT0018470_2878	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_04712	348		COG3385	IS4 family transposase ISBth5	GTGTTTCAACTACCTGGTCAATTCGCCACCGACTATCAAGGCTTAGGTGGGAGTAGTAATAAGGCAGACATGAAAATTCAATTGGAATATGATTTATTTAGCGGTCAATTCATTAACGTGCAGCTTGGACCAGGAAAGAATAATGATAAAACATATGGTACCATCTGTCTTGAAACCATAGAAGCAGGCGATTTGTGTTTACGTGATCTCGGTTACTTCGATTTAGTAGACTTACAAACCATTCAGGATAAAAAGGTTTACTATATCTCACGGTTGAAGTTGAATACACACATTTATATCAAGAACTCTGACCCAGAATACTTCAATAATGGTACGTTAAAAAAGTAA	MFQLPGQFATDYQGLGGSSNKADMKIQLEYDLFSGQFINVQLGPGKNNDKTYGTICLETIEAGDLCLRDLGYFDLVDLQTIQDKKVYYISRLKLNTHIYIKNSDPEYFNNGTLKK				NA	NA	NA	NA	NA
AK009_04713	165			hypothetical protein	ATGACACTATCGATTCAATATGAGTTTCATTTATTCGCTAAAGAACTCCAGCGATATCTATCTCCAAGTATCCTTCAACAGCTCGCACAGGAGAAGAGTTTCGTAAAACGTAAAAGTAAGTATGAAACAAGAGATTTGGCCGATTTATGCATTTGGATTAGTTAA	MTLSIQYEFHLFAKELQRYLSPSILQQLAQEKSFVKRKSKYETRDLADLCIWIS	PGPT0030625_3449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
AK009_04714	2490	mtgA_2		Biosynthetic peptidoglycan transglycosylase	ATGTCAGAAAATTATCGTTCTCGAGAGGAGCGACGACAAGTTAAAAAGAAAAAACAGCCTGCTGCTAAGAAACAAAAAGCAAAAGGTAAAACATCGTTTTTTCGTAAGTTTTTAGTTAGTTGTTTATTACTTGGTATTGTGGGGTTAGTCGCAGGGGTTACTACCTTTTTCGTTATGATCAAAGATGCTCCAAAACTTGAGAAAGCAAAACTTGTTAATCCGTTATCCTCAAAAATTTATGATAAAGATGGTAAATTGATATATGAATATGGAAAAGAAAAACGAACGAATATTATGTATGATCAGATTCCTAAGTTAGTAGAAAATGCGTTTTTAGCAACAGAAGATGCACGTTTTTACGAGCACAGTGGCGTAGACTATAAAGGTACTGCACGTGCAGCCTTAGTCAGCCTAAAAGGGGATTACGGCTCTCAAGGTGGAAGTACGATTACACAACAAGTTATAAAAAATTACTTCTTATCAATGGAAAAAACGTCAAAGAGAAAGGCGCAAGAAATATATTTAGCATATAAACTAGAACAACAGTATTCAAAACATGAAATTTTAGAAATGTATTTAAATAAAGTTTACTTAGGTAACCGTTCATACGGAATCGCAACTGCAGTCCAAAATTACTATGGTAAGGAATTAAAAGATTTAACACTACCAGAAGTTGCAATGCTTGCTGGTTTAATGAAAGCTCCTAATAATTATGATCCAACGAAAGAACAAAATATCAAAAAAGTAACAGAAAGAAGAAATGTTGTACTTAAATTAATGAATCGACATGGTTATATTACAAAAAAAGAAATGGAAGAAGCATCAAAAGTTCCAGTAACAGAAGGACTTAAGAAAGCAACTGAACAAAAAGAAATGCCCTATCCAGCTTTTATGGATGCGGTTGTGAAAGAAGTTGAAAAAGAGTTGCCAGATGTTAATATTGGATCTGACGGTTTAGAAATTTATACAACATTAGATCCAAAGGCACAGGATTTTGCGGACAAGCTTCTAAATAAAGATATTATTAATTATCCAAATGAGAAATTCCAAGGGGCTTTCACATTTATGGATACGAAAACAGGAGAAGTACGTGCAATTGGTAGTGGGCGTGGTGAAAATAAAGCTGTTTTTAAAGGACATAATATTGCAATTGAATTAAATCGCTCAGCAGGTTCAACGATGAAACCAATTTTTGATTACGCTCCTGCAATTGAATATTTAAAATGGGCTACTTACCATCAAATTGATGATTCTCCATTTAAGTACTCAACGGGACAAGAAGTTAGAAATGCTGATAGAAAGCATTTAGGACTAATTACAATGCGTGATGCATTGAAGACGTCGCGAAATATCCCGGCAATAAAAACTGCAAAAGAAGTAGGAATTAATAGATCAAAAGGTTTCTCTGAAAAGCTAGGTATTACATTTAATGTAGCACCGACCGAATCAACAGCGATTGGTACAAATGAAGCGTCACCGACTGAAATTGCAGGTGCTTATGCGGCATTTGGTAATGATGGTAAGTATACGAGGCCACATTTTGTTAAGAAAGTCATTTATTCAGATGGTAAATCAAAAAGCTTTGAGCAAAAGTCAAAACGAGTTATGAAGGATTCTACAGCATATATGATTACTGATATGCTTCGTACTTTTGTTTCATCTGGATTAGGTACAACAGCTAATATAAGTTCTTTAGATATAGCGGGTAAAACAGGTACAACAAACTATTCTTTAGAACAAATAGCACAATATAATCTACCAGAAAGTGCAACTCGTGATAGTTGGTTTGCTGGTTATACACCACAATATACGATGGCAGTATGGACCGGATATACAAAGGATAGTAAAGATGATTATATTAGTAGTAAAAATACGAAAATAGCTCAATTGATTTTTAAAGAAATGATGAGTAAGTTTGCTACAGATAAGTCACAATTTAAAATGCCGAACAGTGTAGTTCAAGAAGGTAGCGAATTACGTATTAAAGGTGAGAAGCGTGATTCTTCTCCAAATACGAAAATAGAAAATACGACTGAACAGCCGAGTGAAAATAAGCAAAAAGAAAAGCAAAAGAAACAAGAAGAATTAAAAAAACTAGAAGAGAAAAAGCAAAGTGAACCAAAAAGTGGTAGTGACCAAGGAAATACAACACCACCAAACAATGGTAATGGCCAAGGAAATACAACGCCGCCAAAAAGTGGTAGTGACCGGGGAAATACAACACCACCAAACAATGGTAATGGCCAAGGAAATACAACGCCGCCAAAAAGTGGTAGTGACCAAGGGAATACAACGCCGCCAAAAAGTGGTAGTGACCAGGGAGATACAACACCACCAAACAATGGTAATAGCCAAGGAAATACAACGCCGCCAAAAAGTGGTAGTGACCAGGGAAAAACAACACCACCAAACAATGGGGATGACCATGGTACGCCACCGCCACCAAGTGATGATGGGAATATAGGAGAGGATCCAGCTAATAATGAATAA	MSENYRSREERRQVKKKKQPAAKKQKAKGKTSFFRKFLVSCLLLGIVGLVAGVTTFFVMIKDAPKLEKAKLVNPLSSKIYDKDGKLIYEYGKEKRTNIMYDQIPKLVENAFLATEDARFYEHSGVDYKGTARAALVSLKGDYGSQGGSTITQQVIKNYFLSMEKTSKRKAQEIYLAYKLEQQYSKHEILEMYLNKVYLGNRSYGIATAVQNYYGKELKDLTLPEVAMLAGLMKAPNNYDPTKEQNIKKVTERRNVVLKLMNRHGYITKKEMEEASKVPVTEGLKKATEQKEMPYPAFMDAVVKEVEKELPDVNIGSDGLEIYTTLDPKAQDFADKLLNKDIINYPNEKFQGAFTFMDTKTGEVRAIGSGRGENKAVFKGHNIAIELNRSAGSTMKPIFDYAPAIEYLKWATYHQIDDSPFKYSTGQEVRNADRKHLGLITMRDALKTSRNIPAIKTAKEVGINRSKGFSEKLGITFNVAPTESTAIGTNEASPTEIAGAYAAFGNDGKYTRPHFVKKVIYSDGKSKSFEQKSKRVMKDSTAYMITDMLRTFVSSGLGTTANISSLDIAGKTGTTNYSLEQIAQYNLPESATRDSWFAGYTPQYTMAVWTGYTKDSKDDYISSKNTKIAQLIFKEMMSKFATDKSQFKMPNSVVQEGSELRIKGEKRDSSPNTKIENTTEQPSENKQKEKQKKQEELKKLEEKKQSEPKSGSDQGNTTPPNNGNGQGNTTPPKSGSDRGNTTPPNNGNGQGNTTPPKSGSDQGNTTPPKSGSDQGDTTPPNNGNSQGNTTPPKSGSDQGKTTPPNNGDDHGTPPPPSDDGNIGEDPANNE	PGPT0023875_1487	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
AK009_04715	1002	tdcB_2		L-threonine dehydratase catabolic TdcB	ATGAGTAATGAAATTTTACCACTCAACATTGGGAATATAAAAAATGCACAAAAAATTTTAGATGGAAATGCTAGAAAAACGCCTTTGGTTAAATCTTTCTATTTAACCAGTAAAACCGGTGGAGAAATTTATTTAAAGTTGGAAAACATGCAGTTAACAGGTTCGTTCAAGTTTCGTGGTGCATTTAATAAAATTTCTCAACTTACAAATGAAGAAAAAGAACGTGGTGTAATCGCCTGCTCAGCTGGAAATCATGCACAAGGTGTCGCATTATCTTCTCATTTACTTGGTATCAAAAGTAAAATTGTGATGCCAACCTCTGCACCGCAAGCTAAAGTGGATGCGACGAGAGGATATGGTTCTGAAGTTATTTTATACGGTGATACATTTGATGATGCAAAAGCAAAATGTGAAGAGATTATAAAAGAAACAGGCGAAACATACCTACATCCATATGATGATGTAGAAGTAATGGCTGGCCAAGGGACAATTGGGTTAGATATTCTGGATGATATGTGGGATGTTGATACTGTTATTGTACCTATTGGTGGAGGAGGAATTATTTCAGGGATTGCTGTAGCACTGAAATCATTTAATCCCTCCATTAATATTATTGGAGTTCAAGCTGAAAACGTACACGGTATGAAAGCTTCTTATGATGCTGGAGAAATTGTATCACATTATAAAGCTCCAACAATAGCGGATGGTTGTGCAGTTAAAATACCTGGAAATTTAACCTTTGAAATTGTAAAAAACCTAGTAGATGAAATTGTAACTGTATCGGAAGAAGAATTAGAAGTAGCGATGAAAGACTTATTGCAACGCGGAAAGGCTGTCGTAGAAGGAGCAGGAGCGTTAGCCACAGCCGCTCTTCTTGCAGGCAAGGTTGATAAATATGTACAGGGTAAAAAAGTAGTAGCGGTTATTTCAGGTGGCAATGTGGATTTAAAACGTATTTCAAGTGTATGTGAGCATTTCTTTATTGCCAATGAAGTAAAATAA	MSNEILPLNIGNIKNAQKILDGNARKTPLVKSFYLTSKTGGEIYLKLENMQLTGSFKFRGAFNKISQLTNEEKERGVIACSAGNHAQGVALSSHLLGIKSKIVMPTSAPQAKVDATRGYGSEVILYGDTFDDAKAKCEEIIKETGETYLHPYDDVEVMAGQGTIGLDILDDMWDVDTVIVPIGGGGIISGIAVALKSFNPSINIIGVQAENVHGMKASYDAGEIVSHYKAPTIADGCAVKIPGNLTFEIVKNLVDEIVTVSEEELEVAMKDLLQRGKAVVEGAGALATAALLAGKVDKYVQGKKVVAVISGGNVDLKRISSVCEHFFIANEVK	PGPT0001960_5413	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
AK009_04716	1113	ald1_1		Alanine dehydrogenase 1	GTGAGAATTGGAGTAGTTAAAGAGATAAAAAAGGGAGAAGCACGTGTAGGAATGACCCCTGAAAATGTTCGGAAGTTAGTTGAAGAAGGGCATCAAATCTTAGTAGAAAAAGATGCAGGTATTGGATCAGGATATACAAATGATGAATATACAGGCGCAGGTGCAAATTTAGTAGCACAAGGAGAAGCTTGGGAAGTTGATATGGTAGTTAAAGTAAAAGAACCATTACCTGAAGAATATCGTTACTTTAAAAAAGATCTTATAATCTGGGGTTTTTTACATTTGGCTGCGTCGAAAGAATGCGTAGAAGCAATGAGAAATGCTGGTACTACTGCAATTGCAGGAGAAACAATTAGCGAAGATGGTGTTTTGACATTATTAAAGCCAATGAGTGCAATTGCTGGGCGTCGTGCTGTATTTATGGGAGCATATTATTTAGAAAAACAACATCAAGGAGAAGGGATCTTATTATCAGGTATTGAGGGAATCCCTGCCGGAGATGTAGTTATTTTAGGTGGAGGAAATGCTGCAACTAATGCCTGTGATATGGCAATTGGAATTGGATGTAGTGTTACAATCCTAGAGGTTAATCAAGAAAGAATTGCATATTTAAGAAAGCAATACGCAACAGAAGAAGTAAATATAATTGAATCTAATACTGAAAATCTAGAGCGAACGATTAAAGAAGCAGATTTATTTATTTCAACAATTTTAATACCAGGATCTCGCCCTCCTAAAATTGTTAAAGAGTATATGGTTCAATCTATGAAGCCAGGAAGTGTCATTGTGGATATTGCAATAGATCAAGGTGGTACGGTAGAGACAGTCGATCATTATACAACTCATGATAATCCTGTATTTATTAAACATGATGTAATCCATTATGCAGTACCAAATATGCCTGGTGCTACTCCACGTACTTCTACTATGGCCTTAGCAAATGGAAATATTGAGTATTTACTAGAAATAGCTAAAAATGGATTAGAGAATGCAATCCAAAATAAACCGGCTTTAGCAACGGGGATAAATATTTACAAGGGTACGATAACTTATGAGAATTTAGGCGCAACACTAGAGTTAGATTATAAGCCATTGAAAGAAGTGTTAATATGA	MRIGVVKEIKKGEARVGMTPENVRKLVEEGHQILVEKDAGIGSGYTNDEYTGAGANLVAQGEAWEVDMVVKVKEPLPEEYRYFKKDLIIWGFLHLAASKECVEAMRNAGTTAIAGETISEDGVLTLLKPMSAIAGRRAVFMGAYYLEKQHQGEGILLSGIEGIPAGDVVILGGGNAATNACDMAIGIGCSVTILEVNQERIAYLRKQYATEEVNIIESNTENLERTIKEADLFISTILIPGSRPPKIVKEYMVQSMKPGSVIVDIAIDQGGTVETVDHYTTHDNPVFIKHDVIHYAVPNMPGATPRTSTMALANGNIEYLLEIAKNGLENAIQNKPALATGINIYKGTITYENLGATLELDYKPLKEVLI	PGPT0020070_2374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK009_04717	561			hypothetical protein	ATGTCTCGTGATGACATTATTGATTTGCATTTTCAAGGATTAAAGAACGCGGTTACATGCTGTAATACGGTGATGAAGCGATTAAGAAGAGATGGTCATGTGGATGCCAATATCTCGCAACAGCCATACATTTACTTCCCTCAATCCAGCACACTTCGCAAAACTAGCCAAAAGATTCCCCACTTTCTAGGCATATTAGATGTATATAAACAGCTTATCTATTATGAAAAACCTAAACTGTTTAAAGTGGAGCCAAAGTACGGTAAAGAATTCATGGAACCTGATGCATTTACAATTTGGCGTAGATCTCCATTCTTCATTGAAGTCCAGAGGTCAGTTTACAGCAAAAAAGTTATGCAAGATAAAATAAATAGGTATGAATTATACTTCCACAGTCAGGAATGGCATAACGAATCTTGGCAGCCAAAAGAATCTAAATACTTTCCATCAATACTTATAATTACTGAAAAGTATTATAATATCAGCTCTTTTAGCCTACGTATTTTTCAAGCTTCTTCAATTAGTAATTTCTTGAATAGCCTTGTTGTAAAAGCACAGTAA	MSRDDIIDLHFQGLKNAVTCCNTVMKRLRRDGHVDANISQQPYIYFPQSSTLRKTSQKIPHFLGILDVYKQLIYYEKPKLFKVEPKYGKEFMEPDAFTIWRRSPFFIEVQRSVYSKKVMQDKINRYELYFHSQEWHNESWQPKESKYFPSILIITEKYYNISSFSLRIFQASSISNFLNSLVVKAQ				NA	NA	NA	NA	NA
AK009_04718	1167			hypothetical protein	ATGGGGATTTTAAAGGATTGGCTTCATAAACAAAGTTTGAAGAATCGACTTATAGAGGTATTTGTAAAGGCAGGTTTATATGTAGACCATCAAACAAGAGGTGGAAAAGTACCCATTTACCCGAAGATACATGACATTTTTTCCTCGAAAGAAAAGGTTCGATACATATTTACCATTCCAAACGGATTAGATCCGAAAAACATTGAAAAGAAGTGGTTTTGCTTTCAACAAATATTAGGGCGTAATGTAGCAATTGAAGGTGATATTAAAAGGTTTGTACTTAATGTGTTTCATTCGGATGCTGGGCTACAAGCATACAATTACAGTTATAAGAAGTGGCAACCATTACTTATACAACATCATCTTCCCGTAATTGTAGGGCGTGACCAATTTGGAAATATGATTACGTATGACATGATTGCTTCAAACACGCCGCATCTTCTAATTGCAGGAGAGACAGGGAGCGGAAAAAGTAGTATGGTACGCGTTGTACTGTCCACACTCATTCAATATATGTCTCCTGATAAATTACATTTGTACCTGGGTGATTTGAAGAATTCCGAATTTCATTTCTTGCGAAGGGTGAAACACGTAAAAGAGGTTTGCATGGAAGAAATAGAAATGAAGATTATGCTGCAGAAAGTGTGGAAGGAAATACGCGAACGTAGAAAATTGATGGAAGAGTATGAAGTAGATCATATTGACGAATACAACAAATTAAATCCTGATAATCAGAAACCATATATCTTACTTGCTATCGACGAAGTGGTCATGTTGCAAGATGAAAAAGAATGTATGTCTATAGTTGAAAAAATATCGGCAGTCGGAAGGGCACTTGGAGTTTTTTTAATGCTAAGTATGCAACGCCCTGATGCAAAAGTACTGGATGGTAAGTTAAAGCTCAATATGACGGTTAGAATGGGCTTTAAATGTGATAGTACAATTAACAGTAATATTATGGGTACTCCTGGTTCAGAACGCTTGGAGCAATCTGGCCAAATGATATTAAAGTTAAATGGATTAAAGAAAGTACAATCTCCTTATTTAGAATTAAGTAAAGCCAAGAAGATAGTTGAACCTTATCGCGTTCCGAAAGAGAATATAAAGTTGCAAAACCTACCACAAGAAGAAAATCAATTATTCGGGGTGTTAGATTATGAGGAATAG	MGILKDWLHKQSLKNRLIEVFVKAGLYVDHQTRGGKVPIYPKIHDIFSSKEKVRYIFTIPNGLDPKNIEKKWFCFQQILGRNVAIEGDIKRFVLNVFHSDAGLQAYNYSYKKWQPLLIQHHLPVIVGRDQFGNMITYDMIASNTPHLLIAGETGSGKSSMVRVVLSTLIQYMSPDKLHLYLGDLKNSEFHFLRRVKHVKEVCMEEIEMKIMLQKVWKEIRERRKLMEEYEVDHIDEYNKLNPDNQKPYILLAIDEVVMLQDEKECMSIVEKISAVGRALGVFLMLSMQRPDAKVLDGKLKLNMTVRMGFKCDSTINSNIMGTPGSERLEQSGQMILKLNGLKKVQSPYLELSKAKKIVEPYRVPKENIKLQNLPQEENQLFGVLDYEE	PGPT0030468_8268	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
AK009_04719	195			hypothetical protein	ATGTTAACTACATTTATCTCTTTAGGAGCTTTAGGAGTAACGACAATTGGAGGGGCGTTGTTAGAAAAGCATCTTGTGAAAAATGATCATGTTGCAGCAGCGAAACTTTTAAGTGATGGAATATATTATGGAATGAGGATAGGTGGAGTTTGTTTCATTGGTTATGTATTCATTCAAATTGTGGAGATGTTTTAG	MLTTFISLGALGVTTIGGALLEKHLVKNDHVAAAKLLSDGIYYGMRIGGVCFIGYVFIQIVEMF				NA	NA	NA	NA	NA
AK009_04720	231			hypothetical protein	GTGTGGGGTAGAGGTATTGGGAGACATAGAACAAAGCTAGCTAAATTTTTAGCTAGCTACGATTACTCAATTCAGGATTTTTCTAAAGCTAGTAAAGTAAACAGAAATACATTAGGCCAACTGTGTAATGACAAGGATTATGTACCATCACCAAATACAATGCAAAAAATAATGAAGATTGTTAGAAAACATGATTCTCGAAAACAAGTAACTGACTTTTGGCATATATAA	MWGRGIGRHRTKLAKFLASYDYSIQDFSKASKVNRNTLGQLCNDKDYVPSPNTMQKIMKIVRKHDSRKQVTDFWHI				NA	NA	NA	NA	NA
AK009_04721	237			hypothetical protein	GTGGAACTAACTAAATTGGAAAAGGTAATTGTTATTAGTACATTTGTTCAAGGGTTAGGTGAAGAATTCCTGGAAAATAGCAAGGAAAACCATTCTTTAAAACAACTACTTAGGGAGATAGAAAAGGTGTTTAATGATTCAACACCGGATCAAATGCGAGAAGCAGCTGAAAGTGTATTAGAAAAATTCATTTATGATTTAATAAAAGAAAACAATCTTCCACTACTAAAAAATTAA	MELTKLEKVIVISTFVQGLGEEFLENSKENHSLKQLLREIEKVFNDSTPDQMREAAESVLEKFIYDLIKENNLPLLKN				NA	NA	NA	NA	NA
AK009_04722	1980			hypothetical protein	ATGTTCAATCAAAGAACAAGAAATGGCGTCAAAAAAATCCTAGCAATTACAGCAGCTAGTACGGTGTTTTCGATGTTTGGATCATCAATTTCTATCATAGAGGCGGCGTCTGCTCCAGGAGTTTATGTTACACCTAAAAATAGTGTTTCTTCAGATATTATTAGTATAGACTGGTCTCCTGTTCAAACAGCACCTTATACATATTGGGCTGTACATAACTGGAACCAGGGGGGAGAAGCTGGTGGGTATGCTGGATTCCAACAACAAAGCGGTTTTGATGAAAATGGAAAGCGTACTTTACACTTTGCAGTTTGGGATCCTATTTCTTCTAAGGAAGCAATAAAAGCAGAATATGTATCCCCTACATCAGTTGCAAGTAATTTTGGTGGAGAAGGAACAGGTCTTAAAATTCAGACGACATATGATTGGAAGAATTATAATTGGTATCGCATGACAATGCGTTCTTGGCAAGAGAATGGACACACAAAATTTGGACAGTGGTTAAAAGATGTTTCAAAAAACCAATGGAAGCTTATTGGGATTATGGACTTTCCAGTTCCTAACGTTACATTTAACTATGGACAAACGCTGTTTCAAGAAGACTGGCTTGGTAATGGACAAGATGTAAGAGAGGCACGTGTAAAAAATGGATATGGAAGAAATATCTCAGATAAAAAATGGACATCTTGGAATACTCAATCAATAGAGGGGCAAGAGCCATTGAATAATAATTGGGATGGGGGAGCTACTTCAGAATATCTTTGGTTTAAGGCTGGGGGAGACTCTCGATCAACTATTGGAACAGGAAAAACATTTACGTTAAATCAACCTAGCCAACCTGAAATAGGAAAACTAGATTATGATGTAAAGTCTATGTATTATGAAAATGAAAAATTAAATATAACTTGGCAATTAAAAGATAGTAGTACCCCTCAATTTAAGGGGAAAATTGAAATTTATAATAATGAAAATATGACGGGCCAACCGATTAACGTAATTAATGATATTAAATCTTACCAAAATGGAATCAGTCAATCTATATCATTACCAACAAATACTTATGCAAAAATTGTATTAACAGATATATTTGATCAAACTGTGGAAAAAAAGGTGAAAATCAAAAATGAATCTCCAAACATTTTAGAAGGGGATCGTTTTGCATGGTCGATGAAGGGTATAGGAGATTTTGAATTTGCAAAACTTGATTTAAATAAATCAACAGAAGAATTGCAAGTTAGTTTAATAGCAGGTACACCACACAATTATTTTGATAGTACGTATGCAAGTATTAAAGTACAAGATACATCAGGTAAAGTGGTATATAGCAAAGAGGTTTATGGGAATACCCAACAAAAAGCTGAATCAAAAACAGTCCCAGTAAAAGTGGGCAATTTTATTGAACTTACACACCTAGAAGGTGAAGAGAGAGCAATATTAACAAATTTAGATAATAATAAACGCGAAAGTTTTGATAAAAAAGTAATATATGAAGTTACAAAGGATGGTCTGAAGAAAGTAAATCAAATTGTTATTCCTAAACCGGACACAGAAGCTCCTACACAGCCATTAGGATTATATGCAAGTGATGTTACAACAAACAGTGTAGAGTTAAAATGGAATCCTTCTACAGACAATGTGGGTGTAAAAGAATATCAAGTGTTACGTGATGGACAATTGATTCAAACTGTACAAGAAACACAGTTTACTGATCAAAACCTTACAGCTAATAAAGAATATAAATATACTGTAAAGGCTGTAGATGCGGCTGGAAATATCTCAGTTCAAAGCGATATCCTTCCAGTAACAACAAAGAGTCAAAATGTAACGTATGAAAAATGGGATCCCAAAAAGGCATATACAAAAGGAGATAAAGTAGAGTATCAAGGGAAATTTTATGAAGCGGTTCAAAGCTATCAAGGAAATGGAGATCCTACTTGGATATTTGCCCTATCTTTATGGCAACCATTTAAAATGATATAA	MFNQRTRNGVKKILAITAASTVFSMFGSSISIIEAASAPGVYVTPKNSVSSDIISIDWSPVQTAPYTYWAVHNWNQGGEAGGYAGFQQQSGFDENGKRTLHFAVWDPISSKEAIKAEYVSPTSVASNFGGEGTGLKIQTTYDWKNYNWYRMTMRSWQENGHTKFGQWLKDVSKNQWKLIGIMDFPVPNVTFNYGQTLFQEDWLGNGQDVREARVKNGYGRNISDKKWTSWNTQSIEGQEPLNNNWDGGATSEYLWFKAGGDSRSTIGTGKTFTLNQPSQPEIGKLDYDVKSMYYENEKLNITWQLKDSSTPQFKGKIEIYNNENMTGQPINVINDIKSYQNGISQSISLPTNTYAKIVLTDIFDQTVEKKVKIKNESPNILEGDRFAWSMKGIGDFEFAKLDLNKSTEELQVSLIAGTPHNYFDSTYASIKVQDTSGKVVYSKEVYGNTQQKAESKTVPVKVGNFIELTHLEGEERAILTNLDNNKRESFDKKVIYEVTKDGLKKVNQIVIPKPDTEAPTQPLGLYASDVTTNSVELKWNPSTDNVGVKEYQVLRDGQLIQTVQETQFTDQNLTANKEYKYTVKAVDAAGNISVQSDILPVTTKSQNVTYEKWDPKKAYTKGDKVEYQGKFYEAVQSYQGNGDPTWIFALSLWQPFKMI				NA	NA	NA	NA	NA
AK009_04723	807	nhoA_4	COG2162	Arylamine N-acetyltransferase / N-hydroxyarylamine O-acetyltransferase	ATGTTAACTGAATTACAAAAAAAGTTTTTCTCAAAATTAAAAATGCCCCCAAGAGAAAATGTGAAATTTGAAGATTTATATACAATTCTTTTGCAGATGGGGCACTTATTACCTTATGAAAACATAGACATCATGGAAGGAAATACGAAAGAATTTTCTAGAGAAAATATTGAAGAAAAGCTGCTTTTAAAGAATCGTGGCGGATTATGCTATGAAATTAATTCTTTATTATATTATTTTTTGTGTGATTGTGGATTTAATGTGTATCGAATAGCTGGAACTCTATATGATCCAAAAACAAGAAAGTGGAACCCTGATGATGGCCACGCACTTATCGTTTTACAACACAAATATGAAAACTATATTATAGACGCCGGTTTTGCATCCTATCTCCCTTTACATCCTGTTCCTTTTCACGGTGACAGTGTGACTTCTGTAACGGGCGAATATCGTGTTCGCAAACAAAATACGGAGAAAGGAACGCATGTATTAGAAATGAAAAAAGGGGAAAATGGAGAAACTTCACATTTTTTTGATTCTGATCTTAGTGATACCTGGTCTATCGGTTATGCTTTTTATTTAAATGCCATTAATGAAAAGAAAGTGAATGCTATACAAAACATGGTTATAGAGCATCCAGAATCACCAGTAAATAAGGCGAATATTATTTGCAAATTAATTGAACACGGGCATATTGCACTTACTAAGCAAAGTTTTACAGAAACCCGGCATGGAAAGAAAATTAAAAAAGAAATAACAGAGAAACAATATCATCAAATACTTAAAAATGAATTCAATATTTTTTAG	MLTELQKKFFSKLKMPPRENVKFEDLYTILLQMGHLLPYENIDIMEGNTKEFSRENIEEKLLLKNRGGLCYEINSLLYYFLCDCGFNVYRIAGTLYDPKTRKWNPDDGHALIVLQHKYENYIIDAGFASYLPLHPVPFHGDSVTSVTGEYRVRKQNTEKGTHVLEMKKGENGETSHFFDSDLSDTWSIGYAFYLNAINEKKVNAIQNMVIEHPESPVNKANIICKLIEHGHIALTKQSFTETRHGKKIKKEITEKQYHQILKNEFNIF	PGPT0019890_895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK009_04724	402			hypothetical protein	ATGAAAGTAATTACGAAAAAAGCACAAATGATACGCTCAGAGGGAGGGGAATATTGTAATCGTCAAGCGGACGCAGACCAGTATAATGTGGAGAAGTGTAATATAGAAAGCGAGTGTATCAAGCTAGAAAAAAAATCAGTTAAAAATCGAACGACAGAAGAAAAATGGGATGAAAGATGCAAACAAGCAGTTCAATTATTTAATCAAGGGACCGAATATCCAGATATTGCGAAAATAGTAGGGTGCAAAGTGAGTAGTTTGTATAGAGAGCTCAAGAAACGTGGAGTATTAGAAATGCCAAAGCAAGCAGCACCCGCTAAAACATTAAGATCACCCATAATAAAAGCAAAAACAAAAAAATCGAGGTTTGAACGATATAAAGAGTATTATATGTATAAATAG	MKVITKKAQMIRSEGGEYCNRQADADQYNVEKCNIESECIKLEKKSVKNRTTEEKWDERCKQAVQLFNQGTEYPDIAKIVGCKVSSLYRELKKRGVLEMPKQAAPAKTLRSPIIKAKTKKSRFERYKEYYMYK				NA	NA	NA	NA	NA
AK009_04725	186			hypothetical protein	ATGAATAATAGAGAAACGAGAATTTGTATTTTAGATTTGCAAGGCCATCATACTAGTAGGGTACATAAATATTATATTGATGATTGTAAATTTGGAAAAGCAGTATGTCGAATAGGAACGGAATTGATTTTTGATGAAAAGGCCGCTAAAAGAAAAATAAAATTGAAGTGGGATTACATTTTCTAG	MNNRETRICILDLQGHHTSRVHKYYIDDCKFGKAVCRIGTELIFDEKAAKRKIKLKWDYIF				NA	NA	NA	NA	NA
AK009_04726	351		COG0640	putative HTH-type transcriptional regulator	ATGGGGACCGAAATGCAACAATTTAAAGCAGATTTCTTTAAAGCTTTATCTCATCCTTTACGAATAGGTATTTTGGAAGTTCTATCAGAAGGTGAAAAAAGTGTAAATGAAATTCAAAGCATTCTTAAAAAAGAAGGTTCTGCAGTTTCTCAACAATTAAGTGTATTACGCGCTAAAAATATTGTTGTTGGCACTAAAGATGGAAAACGAGTATTATACTCCCTTCGAGATCCTATGATTATGAATTTATTGGTGGTTGCGCGGAAAATTTTTAACAATCATTTAATTGATACTATTTCTATGTTAGAAGAGCTAGATGAAGCAGAAAGTGAAATGATAAAGGAGGAATAA	MGTEMQQFKADFFKALSHPLRIGILEVLSEGEKSVNEIQSILKKEGSAVSQQLSVLRAKNIVVGTKDGKRVLYSLRDPMIMNLLVVARKIFNNHLIDTISMLEELDEAESEMIKEE	PGPT0004735_2907	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_04727	441			hypothetical protein	TTGAGCAATGAGGCTAAAAGAGAAGATATCATCCAACATGGAATTGAGATATTTCACTCTATAGGAGCTCATCACGTTTGTAATGTTTGCATTAAAAGTGGATATTCTTGTTGCTTTTCATGTCAACATTTACAAGATGGTATTGGATGTCAAAAAAGGAATACAGCTTGTACAGCATGGTTATGCGGCATTCAGAACTTTTTGTTTGATCAAATAGGTTTATTAGAAGAATGGAATAGTTTTTGGGCTGATATTCCAGGACAGATGTTTCGTAGAGATATTACCCCAGATAAAGTAAAAGTCACATCATTTATTGATACGAAAAAGCTAGATAGTCGGGCTGGAGAACTTCTAGCGGAAAAATTACAATTCCATGTACAACAAGGTGGAGATATAGGGAAACTAGAACGTCATTTAAGCAAAACCTATAGTAAATATTAG	MSNEAKREDIIQHGIEIFHSIGAHHVCNVCIKSGYSCCFSCQHLQDGIGCQKRNTACTAWLCGIQNFLFDQIGLLEEWNSFWADIPGQMFRRDITPDKVKVTSFIDTKKLDSRAGELLAEKLQFHVQQGGDIGKLERHLSKTYSKY				NA	NA	NA	NA	NA
AK009_04728	1764	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	ATGAGAGGTTTATTTACGGGAAGGTTTGAAGGATATTCCTTAGGGCATTTTCAAAAAGATCTTCTTTCAGGACTGATTGTTGGAGTTGTTGCGATTCCTCTTGCTATGTCTTTTGCTATAGCTTCTGGTGTAAAACCAGAGTATGGAATATATACAACATGTATTGCAGGAATACTTATTTCTCTATTTGGTGGTTCAAGGTATCAAATTGGAGGACCTACAGGTGCTTTTGTTCCCATACTTTTAGGAATTGTCATTACTTATGGGTATGAAGATTTACTACTTGCTGGTTTACTTGCTGGAATTATCTTATGCCTTATGGGAATTTTCAAATTAGGTTCGCTGATTAAGTTCATCCCACGTCCTGTAACAATTGGTTTTACTTCAGGTATTGCTGTTATTATATTCACTGGACAAATTGCTAGTTTTTTAGGTTTAACAGGCATAAAAAAACATGAGGACTTTATAGCAAATTTGAAAGAAATATTTACTCATATCGGTACCACTAATTTTTATAATGTAGTAACTGCTTTGATTTGCTTTTTCGTTATACTCGTAACACCAAAAATTTTGCCAAAAGTACCGGGTTCATTAGTAGGTGTTTTGATTTCAACTATAATTGCAACTATATTTTTCTCAGGTCATGTACCTACTATTGGTACAGCATATGGTACGATTCCAAATACACTACCTCAGTTTGATATACCAGAGATCACAATAGAGCGTATCCAACATTTAATTGGCCCTGCATTTGTTATTGCTATGTTAGGTGGTATTGAGTCTCTTTTATCTGCTGTCGTCGCGGATGGTATGACAAATAGTAAACACCACAGTAATAAAGAACTTATTGGTCAAGGAATTGCTAATATTGTTACCCCGTTATTTGGAGGAATTCCGGCGACTGGAGCGATTGCTCGAACAGCAACGAATATTAAAAGTGGCGCTGTTTCACCCATGTCCGGTGTGATTCACGGAGTATTTGTGTTATTTACGCTTCTACTGCTAGCTCCATACGCCTCGCACATCCCACTTGCTAGTATGGCTCCTATTTTAATGGTTGTAGCGTGGAATATGAGTGAGCAACAGCATTTTGTTCATATACTTAAAATGAAGACCGGAGATTCTCTTGTATTACTAGTAACATTTTCCCTTACTGTATTTACAAGTTTGACAACGGCTGTGGAAATCGGTCTTATTTTAGCTATTATTTTGTTTACAAAACGTATGAGTAATATGCTTGTGATGTCAAAAGTGCTTCCTGATCATACAACAAAGAATGAAAAATTATTACCGCATGTGGTAAATAATGCTCATGATTGCCCTCAAATTAGTATTTACACAATAGAAGGTCCATTATTTTTTGGAGCTGCGCAAACATTCGAACAAAACATTTTAGCGACAATTCATTATAGACCCAAAATTCTAATCTTACGTATGGGCAAGGTTCCTTTTATTGACACAACAGGCGAAGCCTACTTTAGGAATATTGGCCAACATTTTAAAAACCAAGGTGGCGTACTTCTCATTTCAGGGGCTCAATCAGAGTTGAAAACAACTCTAATTAAAAATGGATTATACGCTGAGATTGGAAAAGAGAACTTTTTTGATCATACAGGAGAAGCAATTAACTGTGCTTTAAGACATTTGAATAAAGCGAAATGTGTAGGGTGTAAACATTTTGCTTTTCATGAATGTGCCCAGCTCTCCCAACAATGCCAGGATATTAATAAAATAAAAAATAAATCAAAAGCATTAGAATTTTAA	MRGLFTGRFEGYSLGHFQKDLLSGLIVGVVAIPLAMSFAIASGVKPEYGIYTTCIAGILISLFGGSRYQIGGPTGAFVPILLGIVITYGYEDLLLAGLLAGIILCLMGIFKLGSLIKFIPRPVTIGFTSGIAVIIFTGQIASFLGLTGIKKHEDFIANLKEIFTHIGTTNFYNVVTALICFFVILVTPKILPKVPGSLVGVLISTIIATIFFSGHVPTIGTAYGTIPNTLPQFDIPEITIERIQHLIGPAFVIAMLGGIESLLSAVVADGMTNSKHHSNKELIGQGIANIVTPLFGGIPATGAIARTATNIKSGAVSPMSGVIHGVFVLFTLLLLAPYASHIPLASMAPILMVVAWNMSEQQHFVHILKMKTGDSLVLLVTFSLTVFTSLTTAVEIGLILAIILFTKRMSNMLVMSKVLPDHTTKNEKLLPHVVNNAHDCPQISIYTIEGPLFFGAAQTFEQNILATIHYRPKILILRMGKVPFIDTTGEAYFRNIGQHFKNQGGVLLISGAQSELKTTLIKNGLYAEIGKENFFDHTGEAINCALRHLNKAKCVGCKHFAFHECAQLSQQCQDINKIKNKSKALEF	PGPT0003020_885	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK009_04729	540			hypothetical protein	TTGGCGAATGCGAAGAAGATTTTTATAAAGTTTCAACAAGAAGGATTTTCATACATTCAAAAAATGATCATTACACAGCAAGAAGAGAATATATTCCTTACATTTCAATGCAAAAAAAATTGTACAAATAGTGCCCTTTCAATAGATGATAAAAAGAATTACGAAAAAAGTATATCGTTTTTTTCTCATGCTTCTGGTGGTGTAATTATATGGGGAATAGCTTCAAATAAAACTAATAATGTTGTTCACAAAGCTAAAAAAATTCAACCTATCTCTAATGGAAAAGAATTTTTTAGTAATCTAAATGATTTATTATTTAAAAATCCCAACACTACAAACCAGGATGTTAAAAATATATATATTCCTTTTCCTAAAGAAATAAACCGTGGATTTGTAATCACCTATGTCCCCAGGAAAGACTATCTTTTAAAACTTAATGACTACTATACAAAAACCAGGGATAACTTTGCAATGATGATGGGACAGATTCTATTAAATGATATGTTAGAAAATAGAAAATTATTAAGGGAATCACTATAA	MANAKKIFIKFQQEGFSYIQKMIITQQEENIFLTFQCKKNCTNSALSIDDKKNYEKSISFFSHASGGVIIWGIASNKTNNVVHKAKKIQPISNGKEFFSNLNDLLFKNPNTTNQDVKNIYIPFPKEINRGFVITYVPRKDYLLKLNDYYTKTRDNFAMMMGQILLNDMLENRKLLRESL				NA	NA	NA	NA	NA
AK009_04730	474			hypothetical protein	ATGAATAGATTGATGATTTCTTATATGATTAATGTAATTATTATGGCATTAGCGTGTTGGGTATTCATTGAACTTTATTACGGCATTATAGAACTTGCCAATATTATTGACGCTAAGAAAGTAACTTTTGAAGTATCATTAAATATTACACCAGTCTTATTTTTATTAGTTATAGGTATTGTAATAACAATTTTTTATAAAATACAGAAAAAGAAATATAACGCCCTTTCATATCTGATGTATCCACTATTGTTTCCCCTAGAAGACGAACGTGAAAAGTTAATTACTGAAAGAGCTTGTCGTACAGCATTTGTTTCACTGTGGTATGTGTTAATCATTGCAATTGGATTTTTAGTGCTTTCTCCTATTTTTAATATATATATTCCAGAATATCCCTTATACATTGTATTTAGTGTTTTCTTTATTCAAATGACAGTTTTTTATTTATCTTTATACCGAAATAAAATAATGTAA	MNRLMISYMINVIIMALACWVFIELYYGIIELANIIDAKKVTFEVSLNITPVLFLLVIGIVITIFYKIQKKKYNALSYLMYPLLFPLEDEREKLITERACRTAFVSLWYVLIIAIGFLVLSPIFNIYIPEYPLYIVFSVFFIQMTVFYLSLYRNKIM				NA	NA	NA	NA	NA
AK009_04731	219			hypothetical protein	TTGACTATTTTTAACAAAGTAAAGGAAATTAGAGCTCGTTTTAATTTCACACAAAGTGTATTAGCTGAAAAAGTTGGAGTGACGAGGCAAACGATCGCAGCAATTGAAAAAGGGGATTACGTCCCTTCATTATTACTAGCATTGTCAATTTGTGATGTGTTTGATTTGAAGATGGAAGAAGTGTTTGTATTAAATAAGGAGGAAGAAGAGGATGAATAG	MTIFNKVKEIRARFNFTQSVLAEKVGVTRQTIAAIEKGDYVPSLLLALSICDVFDLKMEEVFVLNKEEEEDE				NA	NA	NA	NA	NA
AK009_04732	354			hypothetical protein	ATGAATCGAATTGAACGTGAAGAGAAAACAATTAGCATTATGATTGATATGTATTGTAAAAACGAACATAAACAAGATACTATATGTGAAGAATGTCAAAAATTAAAAGATTATGCTTATTTCCGTTTATCAAAATGTCCATTTCAAGAAAAGAAACCAGCATGCCAGAATTGCAAAATTCATTGTTATAAACCAGATATGAAAGGTTTAGTTAAGGAAGTTATGAAAAAGAGTGGACCAAAAATGATTTTAAGACATCCATATTTCACGCTCATGCATGCTGTTGACATAATGAAGAAGTCTCCTGACTTACCAAAAAGAAAAAAATATAAAAAGAAAAAGCGGTTTGTCTAA	MNRIEREEKTISIMIDMYCKNEHKQDTICEECQKLKDYAYFRLSKCPFQEKKPACQNCKIHCYKPDMKGLVKEVMKKSGPKMILRHPYFTLMHAVDIMKKSPDLPKRKKYKKKKRFV				NA	NA	NA	NA	NA
AK009_04733	249			hypothetical protein	TTGGAAGATTTTGATGATGAGCTATGCCAAATTGATATAGATCAAAAAGACGCAATACTAGTTGTGAGGGCTTACAAGAGGTATTTAGCAAAAACAGATGAGGATAGGGAATATGGAACAGAAGTAATTGAACGTATTAGCAATAGTGATACTACTCGTGAGGATGCGGATTTTATTATAAGATGCACGGAAGTTATTGATAATCTTATCGATAAAGTTTTCGAGGAGAAAGTAGCAAATAAAAGCTAA	MEDFDDELCQIDIDQKDAILVVRAYKRYLAKTDEDREYGTEVIERISNSDTTREDADFIIRCTEVIDNLIDKVFEEKVANKS				NA	NA	NA	NA	NA
AK009_04734	408			hypothetical protein	GTGAGTTTATCTCAGGAAAAAAAACTAAAATTAATGATGCATACTATTACTTTACTATCTTTCATCATTCTCACTTTTTTTAGCATTACAATTTTTTATATACCCTTAATTTTTTATTTGATATTTAAATCAAAAGAACTTCGTATCATTGCTATTGAAACAGCTGTTTATCAGCTATTCACTTGGATTATTGTATTGATATGGAATACTTTTGTAATGAGGACTTTAATGCTTTCTATGTTCCATTCTGATATGAATGTGAGTAATATGTCCATGATATTGTGGACAGCCCCAATTTATATAATCCTAACTATTTTATTAGGTTTCGGGCCCCTTAAAGGAATTTTATATGTATTACAAGGAAAAGATTTTCATTATCCTATTATCTCCAAATGGATTAGCAAGTAA	MSLSQEKKLKLMMHTITLLSFIILTFFSITIFYIPLIFYLIFKSKELRIIAIETAVYQLFTWIIVLIWNTFVMRTLMLSMFHSDMNVSNMSMILWTAPIYIILTILLGFGPLKGILYVLQGKDFHYPIISKWISK				NA	NA	NA	NA	NA
AK009_04735	837	yhdG_2	COG0531	putative amino acid permease YhdG	ATGAGTAAGTTGTTTAAAAAGAAATCTGTTACACAATTATTAGAACCTAGTAAGAGTAAAACCTTAATGAAAACATTGGGTTCATTTGATTTAGTTATGTTAGGATTAGGTTCAATAATTGGAACGGGAGTTCTTGTATTAGCAGGATTAGTAGCAGCAAGAGACGCCGGACCAGCAGTTGTTTTTTCATTTGTATTGGCGGCAATTGTGTGTGGATTTATAGCTTTATGTTACGCAGAGATTGCTTCTATACTTCCGGTTTCAGGAAGTGTATATACGTATGCCTATGCAACAATTGGTGAATTAGTTGCACATTTAGTAGGTTGGATGCTACTTTCAATATATATTTTAGCAACAGCAGCGGTTGCTAGTGGTTGGACAGGTTATTTTCACACTTTAATAAGTGGATTGGGTTTGGAGATGCCCAAATCACTGTTAATGATTCCATCTCAAGGTGGTATGATGAATCTACCAGCGATAGTCATTACATTGATTATTACATTGATTATTACATGGATGTTATCGCGTGGTACAAAAGAAAGTAAACGTATCACTAATATAATGGTGTTAATTAAAATTGGAATGGTTATATTGTTTATTATAGTCGGTGTATTCTATATAAAGCCGGGGAACTGGGTACCGTTTACACCATATGGTGTAAGTGGCCTTTCAGCTAGTTGGGCAGCTGCATTCTTTACTTTTATGAGATTTGATATATTAGTAACTTCGGCAGAAGAAGTAAAAGATCCACAACGCAAACTTCCTATTGGTATTATTGTATCGTTAATCATAGTTACAGCAAATTCAACGGTTAGGATATTTCATATTTCAAAATAA	MSKLFKKKSVTQLLEPSKSKTLMKTLGSFDLVMLGLGSIIGTGVLVLAGLVAARDAGPAVVFSFVLAAIVCGFIALCYAEIASILPVSGSVYTYAYATIGELVAHLVGWMLLSIYILATAAVASGWTGYFHTLISGLGLEMPKSLLMIPSQGGMMNLPAIVITLIITLIITWMLSRGTKESKRITNIMVLIKIGMVILFIIVGVFYIKPGNWVPFTPYGVSGLSASWAAAFFTFMRFDILVTSAEEVKDPQRKLPIGIIVSLIIVTANSTVRIFHISK	PGPT0020810_3468	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
AK009_04736	126			hypothetical protein	ATGAGACAAGGAAACCGCGGAATGGCGTTTGAAAAGCTTATTAACCTATCGAATGAATGGAATAGTGTTTATGGAATCGATTTCTATAATTTTTCACAGAAATATATCTTTGATTTTTTTGCATAA	MRQGNRGMAFEKLINLSNEWNSVYGIDFYNFSQKYIFDFFA				NA	NA	NA	NA	NA
AK009_04737	204			hypothetical protein	ATGGATATAAATTTATTAGAGCAATACATTGAAGAAGTGATCAGTGAGGAACCGTACACTGAGGAATGGACAAAAGATTTTGATAAAAAATTTGTAAAGGTAAAGTTGGTTACCAATTGCTATGTTCGGAAACGCAATGAAGACCCAATTTTTGATGTTGATAAATGGGAAAAGGTAAAAGAACAAGGTTATTACATGGGATAA	MDINLLEQYIEEVISEEPYTEEWTKDFDKKFVKVKLVTNCYVRKRNEDPIFDVDKWEKVKEQGYYMG				NA	NA	NA	NA	NA
AK009_04738	393			hypothetical protein	ATGACACGAATTATACTTTTTGATGGGGACTGCAACTTATGTAATCAAAGTGTTCAGTTTATTATTAAAAGAGATCCTAAAGAATATTTTAAATTTGCATCACGCCAAAGTAGTATTGGCATTCAGTTATTAAATCAATACAACATTAGCGAAACAATAGATAGTGTGATTTTAATTGATAATAATAGGGCTTATACAGAATCCGATGACATACTGAATATTTGTAAATACTTAAAAGGAAGTTGTAAATTATTATTTATCCTTTTAATAATTCCAAAACCTATTCGAAACTTTTATTACAAAAAAGTTGCAGAAAATAGATACAAATGGTTTGGCAAACAAAACCAATGTCTTATTCCTACTCCGGATATCAAGAAAAGATTTTTAAGATAG	MTRIILFDGDCNLCNQSVQFIIKRDPKEYFKFASRQSSIGIQLLNQYNISETIDSVILIDNNRAYTESDDILNICKYLKGSCKLLFILLIIPKPIRNFYYKKVAENRYKWFGKQNQCLIPTPDIKKRFLR				NA	NA	NA	NA	NA
AK009_04739	1089			IS200/IS605 family transposase ISBth17	ATGATGAATAAAGCCTATAAGTTTCGTATCTATCCAAATCAAGCACAAGCAATTCTAATCAACAAAACGATTGGGTGTTCTCGCTTTGTATTCAATCATTTCCTATCCTTATGGAATCACGCATACAAAGAGACAGGAAAAGGCTTGACCTATGGTATATGCTCTGCCAAACTACCTGCCATGAAGAAAGAGCTTGTTTGGCTAAAAGAAGTGGATAGTATTGCGATTCAGTCGTCTGTTCGCAACCTTGCGGATGCTTATACGCGCTTTAAATCTAAGAAGAACAACGTACAATCTTATACCACAAAACAAACAAATGAAAATATTGCCGTTGTAGGGAACAAAATAAAGTTGCCGAAACTAGGCCTTGTTCGATTTGCCAAAAGTCACGAAGTAGAGGGGCGTATTGTAAATGCTACAGTTAGACAGAACCCTTCTGGTAGATATTTTGTGTCACTATTAGTTGAAACAGAAGTACAAAAACTTCCGAAAACACATTCTTACATTGGAATAGATGTAGGACTAAAAGATTTCGCTATTTTGTCAGATGGAACACACTATGAAAATCCGAAATTTTTCCGATCATTAGAAGATAAGTTGGCGAAGGCACAGCGTGTTCTTTCTAGAAGAATGAAAGGATCTTCTCGCTGGAATAAACAACGAGTAAAGGTAGCTAGAATTCATGAATACATATCAAATACTAGAAAAGATTACTTGGACAAAATTTCAACTGAAATCATCAAAAACCACGATGTTATCGGTATAGAGGATTTGCAAGTATCGAATATGTTAAAGAATTATAAGTTAGCAAAAGCAATTAGTGAGGTATCTTGGTTGCAATTTCGATCCATGTTAGAATACAAAGCAAAATGGTATGGCAAACAAGTCATTGTCGTATCGAAAACATTTGCTTCCAGCCAATTATGTTCTTGCTGTGGATATCAAAATAAAGACGTTAAAAATCTAAACCTACGTGAATGGGACTGTCCTTCTTGTCGTACACACCATGATAGGGATATTAACGCAAGCATCAATCTAAAGAATGAAGCGATAAGGCTTCTAACCGCAAGGACTGCGGGGTTAGCCTAA	MMNKAYKFRIYPNQAQAILINKTIGCSRFVFNHFLSLWNHAYKETGKGLTYGICSAKLPAMKKELVWLKEVDSIAIQSSVRNLADAYTRFKSKKNNVQSYTTKQTNENIAVVGNKIKLPKLGLVRFAKSHEVEGRIVNATVRQNPSGRYFVSLLVETEVQKLPKTHSYIGIDVGLKDFAILSDGTHYENPKFFRSLEDKLAKAQRVLSRRMKGSSRWNKQRVKVARIHEYISNTRKDYLDKISTEIIKNHDVIGIEDLQVSNMLKNYKLAKAISEVSWLQFRSMLEYKAKWYGKQVIVVSKTFASSQLCSCCGYQNKDVKNLNLREWDCPSCRTHHDRDINASINLKNEAIRLLTARTAGLA	PGPT0030680_5717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
AK009_04740	249			hypothetical protein	ATGACTTTTGAAGACAATCGTAAATTAGGCATTCAACAAGGGTGTATAGTAATAACAGATCAATCGAAATATCTTGTTGTTAAAAAGAATGAAAATTATTCTTTATTAAGCATCGCAACTGCGGAATGCATAAACTTTGAAGTTTCACTTGAACATCTTGAAGAAATGGTCCAAGTAGATTTAAAAGAAAAAATTCGAGATATCATTCCACCAGAGAACATTAAAATCGTAGCTCAAAACAGAATATAA	MTFEDNRKLGIQQGCIVITDQSKYLVVKKNENYSLLSIATAECINFEVSLEHLEEMVQVDLKEKIRDIIPPENIKIVAQNRI				NA	NA	NA	NA	NA
AK009_04741	504			hypothetical protein	ATGCGGTATTCTATTACAATTAATTTTTATGTTATAGTTATCTATAGCATATATATTAATAAGCACAACAAATCTCATACATATAGGAGGACCTTAATAATCCTAACTCAAGAAAAGAACATAAAATTAATTATGCATTTTCTTACCCTATTATCTTTTTGTCTTCTTATTTTCTTTAGCGTCACAATTTTTTATATACCATTGATTTTTTATTTCATATGCAAATCACAAGACATTCGAAAAAATATCCTTGAAGCTGTTTTTTACCAACTATTCATTTGGGTAATTACAATGATTTGGAATCTATTCATAATAAGAATCTTAATGTTATCTTTGTCTAATTTAGACTTAACGCCAAATAACGCTTTGATTATTTTCGGTATACCTCCTTTATATCTAATACTGTTTCTTTTGTTAATTTTCGGACCTATAAAAGGAATTTTATATGTGCTACAGGAAAAAGACTTTCATTATCCTATTATTTCTAAATGGATTAACAAATAA	MRYSITINFYVIVIYSIYINKHNKSHTYRRTLIILTQEKNIKLIMHFLTLLSFCLLIFFSVTIFYIPLIFYFICKSQDIRKNILEAVFYQLFIWVITMIWNLFIIRILMLSLSNLDLTPNNALIIFGIPPLYLILFLLLIFGPIKGILYVLQEKDFHYPIISKWINK				NA	NA	NA	NA	NA
AK009_04742	183	dut_2		Deoxyuridine 5'-triphosphate nucleotidohydrolase	GTGTTGGTAGATAACACTGAAAGACCAATAAGTTTAAATATGAAAGCTCATGTAATCAAAAAAGGTACACGCATCGCTCAAGGCGTCATAGCGTCAGTAGTAACAGCTCATTTTGTTGAGGTGGACGAGCTATTGGTTAGTGAACGAGGTGTTGGCGGATTTGAATCTACGGGAACGAAGTAA	MLVDNTERPISLNMKAHVIKKGTRIAQGVIASVVTAHFVEVDELLVSERGVGGFESTGTK	PGPT0021355_3554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
AK009_04743	852			IS3 family transposase ISBce14	ATGGTCAGTTATTTGTGTAAAGTAGCTGGTGTATCCCGTTCGGGATACTATAATTACTTTTCAATTTCAGCTCAAGAACAACGGAAACAAAAGAATGATCGAGATGAAATATTGAAGAAAACCATATTAAAAGCACTTCGATTTAGAAATAGAAAGAAGGGGGCTCGTCAGATAAAGATGACATTGGCGGGTCAGTTTCAAGTTGTCTACAATTCAAAGCGTATCCGTAGAATCATGAAAAAATATGAGATTGTCTGTCCGATTCGGAAAGCAAATCCTTATAAAAGAATGCTGAAAGCTTCAAAAGAACATCGAGTAGTGCCGAATCAATTAAATCGAGAATTTAAACAAAATATCCCAGGAAAAACGCTTCTTACAGATATCACTTATTTAATTTACGGTAAGAATAAAAGAGCTTATTTATCTACAATTTTAGATGGCTCAACCAATGAAATTTTAGCTTACCATGTTTCAGAACAGATGACATTAGACCTCGTAACAACAACTCTTCATAAACTACAACGGAATAAGAGGATTCCATTGACTGAAGGCGCATATATTCATTCAGATCAAGGAGCCCACTACACAAGCCCTACCTACCAAAAATTAGTCAAAAAGCTAAAGCTCGGACAATCTATGTCAAGAAGAGGGAACTGTTGGGATAACGCTCCACAAGAATCATTTTTTGGTCATCTGAAAGATGAAGCACATATAAAACCTTGCGAGTCTTTTACTGAGTTGAAACAAGAGATTAAGAAATATATGAAGTACTATAATCACTATAGATATCAATGGAACTTAAAAAAGATGACTCCTGTTGGATACAGAAATCATCTTCTTGATGTTGCCTAA	MVSYLCKVAGVSRSGYYNYFSISAQEQRKQKNDRDEILKKTILKALRFRNRKKGARQIKMTLAGQFQVVYNSKRIRRIMKKYEIVCPIRKANPYKRMLKASKEHRVVPNQLNREFKQNIPGKTLLTDITYLIYGKNKRAYLSTILDGSTNEILAYHVSEQMTLDLVTTTLHKLQRNKRIPLTEGAYIHSDQGAHYTSPTYQKLVKKLKLGQSMSRRGNCWDNAPQESFFGHLKDEAHIKPCESFTELKQEIKKYMKYYNHYRYQWNLKKMTPVGYRNHLLDVA				NA	NA	NA	NA	NA
AK009_04744	417			IS3 family transposase ISBce14	ATGACAAAAAAGCTATTTACAGAAAGAGAAATTCAAATTCTATCAAATAACCTATACGTAAAATCTGTAAGTCAGAAAGGTATCACTTATACAGAGGAATTTAAGCATATTTTTATTGAGGAAAATGAAAAAGGAAAGCTACCTCGAAATATTTTTGAAGAATGTGGTTTTGATATAGATATGATTGGAATGAAACGGGTTATGTCATCGGGAAGTAGATGGCGTGCTGCTTATAGAAAAAATGGTGTTTTGGGTTTAAGGGATACACGTATCGAAAACGCTGGAAGAACTCTTGAGAGAGAGCTTACGTTAGAAGAAAAGTATGCCCGTTTAGAAGCCGAACGAAACTTACTAAAGGCGGAAAATGAATTGCTAAAAAAAATCAAACTTATGGAAGGGAGGGTGAAAAGGAAATAA	MTKKLFTEREIQILSNNLYVKSVSQKGITYTEEFKHIFIEENEKGKLPRNIFEECGFDIDMIGMKRVMSSGSRWRAAYRKNGVLGLRDTRIENAGRTLERELTLEEKYARLEAERNLLKAENELLKKIKLMEGRVKRK				NA	NA	NA	NA	NA
AK009_04745	306	dinB_2		DNA polymerase IV	GTGTGCTTTCTAGACATACAACAAACAGCGCATCTTTTCGGACATGATCCAATTGTAATTCCTAAAATAATTCAAAAAGAGATATATGATATAACGGGTATAACCGCATCTATTGGAATTGCACCTAACTTATTTCTTCCAAAGGTGGCTCTAGATGTGGAAAGTGAACATTCAAATTCTAGAATTGCAATGTGGTCATACGAAGATGTTTCAAAAAAGTCATGGGAAATTAAGCTCCTTCGCAAAGTATGGGAATCTAAGAGAGAGAACGATGGAAAAGTTCTTGCAATAAAAATGATTTTTTGA	MCFLDIQQTAHLFGHDPIVIPKIIQKEIYDITGITASIGIAPNLFLPKVALDVESEHSNSRIAMWSYEDVSKKSWEIKLLRKVWESKRENDGKVLAIKMIF	PGPT0014882_1368	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
AK009_04747	594	tasA_3		Major biofilm matrix component	ATGTCATTGAAAAAGAAATTAGGTGTTGGAGTGGTTTCAGCCGCTCTGGGTTTATCTTTAATTGGTGGGGGAACATATGCATATTTTAGCGATCAAGTTGTAACAAATAATTCATTTGCTGCAGGTACATTGGATTTAGCTATGCAACCAACTACTTCACTTAACTTAGAAAATTTAAAACCTGGGGACAAAATATTAAAGAAATTCAATTTAAAAAATAGTGGTACATTAGATATTAAAGATTTAATGATGAAAATAGACTATACTGTAAACGACTTAAAACAAAATAATACTACAGAAGATTTCGGTAAACATATTAAAGTACAATTTCTTTGGGATTGGGATCCTGCAAAAAGCCCTGCATACGAGACAACCCTTGCAGAACTAAAATCACAAAGTTCAGAGATTGTCTCCAAAAAAGTATTTCATTCTAAGTGGACTGAAACAGGGGGATTAAAACCTGGGAAAATGGATTGGTTTTGGATAAAGTTTATATTTGAGGACAACGGAACAGATCAAAACGTTTTCCAAGGGGATAGTATTGCGCTAAAAATGGAGTTCCAAGCCAATCAAACAGAGGGAAAAGAAAGATAA	MSLKKKLGVGVVSAALGLSLIGGGTYAYFSDQVVTNNSFAAGTLDLAMQPTTSLNLENLKPGDKILKKFNLKNSGTLDIKDLMMKIDYTVNDLKQNNTTEDFGKHIKVQFLWDWDPAKSPAYETTLAELKSQSSEIVSKKVFHSKWTETGGLKPGKMDWFWIKFIFEDNGTDQNVFQGDSIALKMEFQANQTEGKER	PGPT0025195_160	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
AK009_04748	513			hypothetical protein	ATGAACATGAAACCAGTTTTAAAAAATATAATTATTTCCCTTGTTTTTTCAATAGTAGGGGTGTGTTGGTCGCTGTTTGTCTTCTTTATGCTAGATGCAGACTGGTTATTGACTTGGATAGGTGTATTAATGGCCTATATATCGTTGTACATTGTGATAGGTCTATATAGCAGAAAAACGTACGACTCAAAATTCGCTAAAGTGCTTGTAAAAACAATAATTACAACCTTTAGTTTTGGGGCATTAGGAATATCATTCGGAGTTGTACACATGATATTAGGACCATTAAGTCTTACTTTAATGACATGGTATTGGTTTATAATGCTATTTTTATATTTAATACCCATAATATTATTAGTGATTTTAGTATTGGTAAATTGTAAAAATCATAATTTCCCTGGGATATATAGTATACTTATACTTGCAAATATACTTCTTACGTTATGGCCGTTATTATGGCCGTTATTTATTACTTTTGTGGGAGCTGGTATGAATGCAAGTGCAGGATGGTAG	MNMKPVLKNIIISLVFSIVGVCWSLFVFFMLDADWLLTWIGVLMAYISLYIVIGLYSRKTYDSKFAKVLVKTIITTFSFGALGISFGVVHMILGPLSLTLMTWYWFIMLFLYLIPIILLVILVLVNCKNHNFPGIYSILILANILLTLWPLLWPLFITFVGAGMNASAGW				NA	NA	NA	NA	NA
AK009_04749	279	dsdA_4	COG3048	D-serine dehydratase	TTGAAAGATTATTTATTAACTAAACAAGATGATTATTCCGTATTAGATAGTGACATGTTTAGAACATTCTTTTCAAATTATTCAATTGCAGTAGGTTCGACCGGAAATTTAGGGTTAAGCATTGGAATTATGACTGTAAAGTTAGGATTCAATGTAACTGTCCATATGTCAACTGATGCGAAAACGTGGAAAAAGAATCTACTTAGAAGTAAAGGGATTACTGTTATTGAATATACAACAGACTATAGTAAAGCGGTAGAAAAAAAGAATATAAGCTAA	MKDYLLTKQDDYSVLDSDMFRTFFSNYSIAVGSTGNLGLSIGIMTVKLGFNVTVHMSTDAKTWKKNLLRSKGITVIEYTTDYSKAVEKKNIS	PGPT0001970_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
AK009_04750	555	puuR_5		HTH-type transcriptional regulator PuuR	ATGAACAATATTAATGTTGGTCAAAAGATTATGGCATTTAGAAAAGATGCAGGATTAACTAGTAAACGTTTAGCTGAATTAGCTGATATAACACCTTCCATGTTAAGTCAGATTGAGAAAGGGATTACGAATCCATCCTTACAAACACTAAAGTTAATTTCTGTAGCATTAAATATTCCTTTATTTAATTTTTTCTTGGAAGATACCAATACAGAAGAATTAGTTGTAAGAGCGAATCAAAGAAAAAAAATGACTTTCCCTGAAAGCGGTAATGTTTCGTATGAGTTATTATCTCCTAATTTAGATGGATCACTGGAATTGGCTTTAATGAATCTGCTACCTCAAACCGCTTCATCTATGGAGCCTGTGGCACATAAAGGGGAAGAAATAGCATTTATTATGGAAGGACAAGTAAAACTATATGTAAATGATGAGGTTTTACTTCTTAATCAAGGTGATAGTGTTAAAATACCCCCATATGCAAAACATAAATGGGAAAACACTTCTTTACACAAAGTCACTGTTATATTTGGAGTAACCCCACCATCTTTTTAA	MNNINVGQKIMAFRKDAGLTSKRLAELADITPSMLSQIEKGITNPSLQTLKLISVALNIPLFNFFLEDTNTEELVVRANQRKKMTFPESGNVSYELLSPNLDGSLELALMNLLPQTASSMEPVAHKGEEIAFIMEGQVKLYVNDEVLLLNQGDSVKIPPYAKHKWENTSLHKVTVIFGVTPPSF				NA	NA	NA	NA	NA
AK009_04751	264			hypothetical protein	ATGAAAAAGGGGTTAACAATTCATCAGCGACAAGCGGAAGGGCTTGCTGTAGCTAAATCTCAAGGAAAGCACTTAGGACGTCCTCAACTTAACCTTTCGACATTAAGCAAAAAGCAACTATTTATAATAGAAGAAACTTACCCAAAGTGGAAAAACAGAGAAATAACAGGAGTTAAGTTTATGGTGCTATTAGAACTGAAGAAAAATACTTTTTATAAAATAGTGAAAGAGTATGAAGAAAACAAAGTAGCAACTAACTTATAA	MKKGLTIHQRQAEGLAVAKSQGKHLGRPQLNLSTLSKKQLFIIEETYPKWKNREITGVKFMVLLELKKNTFYKIVKEYEENKVATNL				NA	NA	NA	NA	NA
AK009_04752	732			hypothetical protein	TTGGTATTGGCATTGGGATGGAGTTTTGCTGCTTGTAGTGGAAAACAAATATCTCAGGAAACTACTAATAATAACAATAAAAATAAAATTGAGATAAATGCGAATAAAAACGATGTTTTACCTATCACTGATCTTAATGATTGGAGAATTCTTCTTGTAAATAGAGAGCATATGTTACCAAAGGAACTAGGGATTGAATTAACAAGTATCAACCAAAATGCTAAGCCCAATATGAAAATAGATAGCAGAATTTCAACTTCCTATCAGGATATGGTAACAGCTGCAAAAAAAGAGGGGATCAACCTTTATTTAAGATCAGGTTATCGAGCTATAAAATTACAACAAACTTATTATGATGCCTCAATTAAAAGCTATAAATCTCAGGGTTTGTCGGATAAAGAGGCTAGTGCTAAGGCATTGGAATATCTTCAGTATCCTGGTGCAAGTGAACATCACACTGGATTAGCGTTAGACATTATTTCAGTTGAATGGCAGAATACTGTAGAAGATTTAAATGCAAACTTTGATACTACCGATGCATTCAAATGGCTAGATAAGAATGCTGCAGAGTATGGGTTTATTCTCCGCTATCCAAAAGATAAAGAGAATATTACAGGCATTAAGTATGAGCCATGGCACTATCGTTATGTAGGAAAAGAAATTGCTATTTATCTAAAAGAAAAGGGGTTAACTTTAGAAGAGTATTGTCAAAAAATTAAGCCTAACAAGTAA	MVLALGWSFAACSGKQISQETTNNNNKNKIEINANKNDVLPITDLNDWRILLVNREHMLPKELGIELTSINQNAKPNMKIDSRISTSYQDMVTAAKKEGINLYLRSGYRAIKLQQTYYDASIKSYKSQGLSDKEASAKALEYLQYPGASEHHTGLALDIISVEWQNTVEDLNANFDTTDAFKWLDKNAAEYGFILRYPKDKENITGIKYEPWHYRYVGKEIAIYLKEKGLTLEEYCQKIKPNK	PGPT0024055_1310	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
AK009_04753	1179			hypothetical protein	GTGCTTTTAACCGCTTGTGGTAATACAGATGTTAAGACATCTAAAGCTTCATTACCACCAGCTCAATCAAATACAGATAAATCATTAAAAGCACCAAATTGGGTAGATAAAAGTCCTATTCAACAGTCTCCTAATTTTATTGAAGATAAAAAAGTAAAATCGGTTGTGAATTTAATAGCAACGGGTGATAATTTATATCATGACGCAGTAATTAAAGATGGCAAACAAAAAGACGGTTCATATGATTATCACTATATTTATGAAAATATAAAAAAAGCTGTTCAATCAAGTGATCTTGCTATAGTGAATCAGGAGACTCCAATTGCAGGGAATAATCTAAAAGTACAGGGATATCCGACTTTCAATACACCTGAAGAAGTAGGCCAATCTTTAGTGGACACTGGATTCAATATAGTGACTCAAGCGACAAATCACGCTATGGATATGGGGATTAAAGGTGTTGCGAATACAAGAGAATACTGGAAGAAATATCCGGATGTTATCTCATTAGGCATTAATGAGAGTCAAAACGAGCGTAATGAAATAAAAATGATTACAAAAAATGGTATTCGCTTTGCGTTACTCAATTATACATATGGTACGAATGGAATTAAAATTCCAGCTGATAAGTCTTGGGCTTTAAATTTAATTGATAAAAAAGCGATACAAAATGATGTGGAAAAGGCAAAGAGTAGCTCTGATATGGTGATTGTTATGGTGCATTGGGGAGTAGAATATACCTTTACACCTGCAAATCAACAAAAAGAAGTTGCTCAATATTTAACAGATTTAGGTGTAGATGTAGTAATTGGAAATCATCCACATGTAATTCAACCAATTGAGTGGAAACAAAACAAAGATGGACATCAAACGCTAATCTATTATTCTCTTGGAAATCTTATTTCTGCTCAAGAGAAATTAGAAACATTGGTTGGAGGACTATCCTATATACAATTTGTCAAATATGAAGATGAAACTTTTGGTATACGACAAGCTGCAGTCGTACCGACAGTAACCGACTATGCTGATGGTAAGAAACATTTTAAAATTCAATTTTTAAAAGATTATTCGGATGAAAATTCTAAAAATCATGGAATTAAAGAATTTGTTGGCCCCGTTTCTTTGAAGAATTTCAAGGATATTCCTAGAGATGTGTTGGGAAATTGGTATAAAGACTAA	MLLTACGNTDVKTSKASLPPAQSNTDKSLKAPNWVDKSPIQQSPNFIEDKKVKSVVNLIATGDNLYHDAVIKDGKQKDGSYDYHYIYENIKKAVQSSDLAIVNQETPIAGNNLKVQGYPTFNTPEEVGQSLVDTGFNIVTQATNHAMDMGIKGVANTREYWKKYPDVISLGINESQNERNEIKMITKNGIRFALLNYTYGTNGIKIPADKSWALNLIDKKAIQNDVEKAKSSSDMVIVMVHWGVEYTFTPANQQKEVAQYLTDLGVDVVIGNHPHVIQPIEWKQNKDGHQTLIYYSLGNLISAQEKLETLVGGLSYIQFVKYEDETFGIRQAAVVPTVTDYADGKKHFKIQFLKDYSDENSKNHGIKEFVGPVSLKNFKDIPRDVLGNWYKD				NA	NA	NA	NA	NA
AK009_04754	1137	blaR1		Regulatory protein BlaR1	ATGTTTCATCCGTTATGGAATAGTTACCTTTCTTCTATCTTTGATTGGGTAATAGAAACTTCTATCCTTGCGAGCGTGTTAGTTGGTTTTATTTTATGCATAAAAATTGTATTAAAAAATTGGCTAACTCCTCGATGGAAATACGCATTATGGCTTATCCTTATTGTAAGACTTATACTACCTTGGCTTCCTGAAAGTTCTTTTAGCATATATTCAATACTTTCAAAAGGTTATGAGTCTTCCCAGTTCTTTATTCAGGAAAATACAAGCATTTGGCATGTAAAAGAAAACATACATGAACCAAAAACATCAATTTCAACTCAAAAAATAACTAAGGAAGTTCCTACGGGAGGCAAAAACAACAACTGGAACCTATCCGTATATAATATCCTGTTGTTGTTTTGGATTCTAGGAGTCTTGGTATCTGTATTTTTCATGATACTGATAAATAGACGGTTATACATTTATGTAGGCAAACAACCAGCTATAACAGAGAAAAGAGTTTTGGACATTTTTGAAAAATGTAAAAAAGATATGTTAATAAAGAAGGACATCTCTTTATCTCTTTCTGGAAAGATTTCAAGTCCTACACTTTTTGGGATTAGAAACCCTAGAATTTTACTTGATGAAAACCACGTGAAATACTTAAATGATAACCAACTAAGATATATTTTTTATCATGAATTATCTCATTTTAAGAGAAAAGATATAATTATTAATTTACTTATGCATTGCTTACTTATTTTAAATTGGTTCAATCCTATTCTTTGGTATGCATATTATGCAATGCGTGAAGACCAAGAAATAGCATGTGATAATTTGGCTCTCACTTTTATTAATCCTGAAGAAAAAATTGCATATGGACAAACCATTATTACACTATTAGAACAATATTCTACTTATTATCGAACACCTACATTAGCTAATTTCAGTAGAAATAAAGCAATATTGAAAAGGAGAATTATAATGATTAAAAAATTTAATAAAAACTCGTACCGTTGGTCTGCAGTAGGATTGGCTACTATTTTAGGATTATCTACATTATCTTTAGTGAATATAAACGCTGAAGAAACTTCTTATAAGAAAAACATAGTAGAACAGCCTAAAAAAGAAGTAGAACAACCTAAAGAAATATAA	MFHPLWNSYLSSIFDWVIETSILASVLVGFILCIKIVLKNWLTPRWKYALWLILIVRLILPWLPESSFSIYSILSKGYESSQFFIQENTSIWHVKENIHEPKTSISTQKITKEVPTGGKNNNWNLSVYNILLLFWILGVLVSVFFMILINRRLYIYVGKQPAITEKRVLDIFEKCKKDMLIKKDISLSLSGKISSPTLFGIRNPRILLDENHVKYLNDNQLRYIFYHELSHFKRKDIIINLLMHCLLILNWFNPILWYAYYAMREDQEIACDNLALTFINPEEKIAYGQTIITLLEQYSTYYRTPTLANFSRNKAILKRRIIMIKKFNKNSYRWSAVGLATILGLSTLSLVNINAEETSYKKNIVEQPKKEVEQPKEI	PGPT0028100_587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028100-blaR1-K02172	NA	NA
AK009_04755	402	blaI_1	COG3682	Penicillinase repressor	ATGAATAGTTTACCTAAGATATCAGAAGCAGAATTAGAGGTCATGAAAGTTCTTTGGGATACAGCATCCCCACTTACTGCAAATGAAGTAATCCAAGCTCTTGAGAAGACAAATGATTGGAGTCCTAAAACTGTTCGAACATTGCTCAACAGATTAGTACGCAAAAAAGCCATTTCTTCTCATCAAGAAAAAGGAAAAATGTATACATACATTCCTTTAATTTCTCAAGATAAGTATTTACAAGTAGAAACACAGTCTTTTCTAAAACGTTTTTACGGCGCAGCATTAAAACCATTACTTGTAAATTTTATAAAAGAAGAAAAGTTTTCTTCAGAAGATATTGATGAATTGAAACAACTTTTAAATGATAAAGTCGAATCAAATCACAGAAAGGATAGATAA	MNSLPKISEAELEVMKVLWDTASPLTANEVIQALEKTNDWSPKTVRTLLNRLVRKKAISSHQEKGKMYTYIPLISQDKYLQVETQSFLKRFYGAALKPLLVNFIKEEKFSSEDIDELKQLLNDKVESNHRKDR	PGPT0028105_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028105-blaI-K02171	NA	NA
AK009_04772	321			hypothetical protein	ATGACACATTCAAATGAGAAAAAATCACATGCTTTTAAAGGAATAGGAGAGAAGTTAAACCCAACTATCTATCAAGTAAGATTCATGAAATTAGATGAACCAATCCAATTTGAGGCGTTTCCTGAATTGAAGGAATTAGGGGACTGGTTGAGTACTTCAACGCACATGTGGTCGTGCCACTCAACTATGTACAAATACAACAGAGAAAAGTTTGAAAAGAAGTTTTTAGAAATTACGAAATTAACAGCTGATCATGTACTAATATCTACTGGTGGTGTCGGATTTAACTTCATGTCACCGGGGTGGAGAAATTCTCTCTAG	MTHSNEKKSHAFKGIGEKLNPTIYQVRFMKLDEPIQFEAFPELKELGDWLSTSTHMWSCHSTMYKYNREKFEKKFLEITKLTADHVLISTGGVGFNFMSPGWRNSL				NA	NA	NA	NA	NA
AK009_04773	720			putative transcriptional regulatory protein	ATGGGCCGTAAATGGAACAATATTAAAGACAAAAAAGCATCGAAAGATGCAAATACAAGCCGTATATACGCGAAATTTGGACGTGAAATTTATGTGGCGGCAAAACAAGGAGAGCCAGATCCAGAATCAAACCAAGCGCTTAGAGTCGTATTAGAACGTGCGAAAACATACAATGTACCAAGAACAATTATTGATCGTGCAGTTGAAAAGGCAAAAGGCGGTTCAGAGGAAAATTATGACGAGCTTCGTTATGAAGGATTTGGACCAAATGGAGCTATGGTTATTGTAGATACACTTACAAATAACGTAAACCGTACTGCAGCAGATGTACGAGCTGCATTTAGCAAAAACAGTGGTAACATGGGTGTAAACGGTTCTGTAGCTTACATGTTTGATGCGACAGCTGTTATCGGCCTTGAAGGTAAAACATCAGATGAAGTTCTTGAAATTTTAATGGAAGCAGATGTTGATGCACGTGACATTCTAGAAGAAGAAGATTCTGTTATCGTGTATGCTGAACCTGATCAATTCCATTCAGTACAATCTGCACTTAAAGGTGCTGGTGTTGAAGAATTTACAGTTGCAGAATTAACAATGCTTGCACAAAGTGATGTTACACTTCCCGAAGATGCTCAAGTACAATTTGAGAAAATGGTTGATGCATTAGAAGATTTAGAAGATGTGCAACAAGTTTACCACAACGTAGACTTAGGAGAATAA	MGRKWNNIKDKKASKDANTSRIYAKFGREIYVAAKQGEPDPESNQALRVVLERAKTYNVPRTIIDRAVEKAKGGSEENYDELRYEGFGPNGAMVIVDTLTNNVNRTAADVRAAFSKNSGNMGVNGSVAYMFDATAVIGLEGKTSDEVLEILMEADVDARDILEEEDSVIVYAEPDQFHSVQSALKGAGVEEFTVAELTMLAQSDVTLPEDAQVQFEKMVDALEDLEDVQQVYHNVDLGE				NA	NA	NA	NA	NA
AK009_04774	462	nudC_4		NADH pyrophosphatase	ATGGAACATAAAACACCAAAGCATATCGTTGCTGTAGCAGGTTATTTAACAAATGAAAAAGATGAAGTGTTATTAGCTAAAGTACATTGGCGATCGGATACGTGGGAGTTGCCAGGAGGACAGGTGGAAGAAGGAGAAGCGCTCGATCAAGCAGTTTGTAGGGAAATGTTTGAGGAAACCGGTTTAACTGTGAAGCCGGTTGGAGTTACAGGTGTTTACTATAATGCTTCTATGCATATTTTAGCTGTTGTTTTTAAAGTGGCATATGTGAGCGGTGAAATAAAAATTCAACCTGAAGAAATACAAGAGGCTAAATTTGTTGCTTTAAATGAAGAGAATATAGATGAGTATATAACGCGTCCTCATATGAAATCCAGAACGCTTGATGCGATGAGAGCAACACATTATATTCCGTACGAAACGTGGGAAGTACAGCCGTATAGTTTAATAGGAAGATTGTAA	MEHKTPKHIVAVAGYLTNEKDEVLLAKVHWRSDTWELPGGQVEEGEALDQAVCREMFEETGLTVKPVGVTGVYYNASMHILAVVFKVAYVSGEIKIQPEEIQEAKFVALNEENIDEYITRPHMKSRTLDAMRATHYIPYETWEVQPYSLIGRL	PGPT0013440_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
AK009_04775	777	mgt		Monofunctional glycosyltransferase	ATGAAAGAACGAGTATTATCTAGGGTGAACTATCATCAAAAAGTTGCATTAAATCCAATGACTAAACTTTTTTATAAAGCCATTATATTATTATTATTGTTAAGTTGTACGTTATTATTCATTGGAAATGTAATGATTGAGCAAAGTGATATTAGTAAATTACATGTGCCGTCTAAGTTAGAGGTACCAGAATCATTAACACATGCATTTATTGCGACAGAAGATAAAAGATTTTATCATCATAACGGTTTAGATTATATAGCAATTATTAGGGCCTCTGTTGAGAATATAAAGGCTGGTGGTGTCGTACAAGGAGGAAGCACGATTACACAGCAGCTATCTAAAAATGCTTTTTTAACGAATGAACGTACATTTTCTCGTAAGTGGAAAGAGATTTTTTATACGAAAAAAATTGAACGTACATTTACGAAGGATGAAATTTTAAAATTATATGTAAGTAACATTTATTATGGAGAAGGAGCATGGGGAATTGAAAAAGCAGCAAACCTTTACTTCGGTAAAAAGGTGAACCAATTAACGTTGGCTGAAAGTGCAATGATGGCTGCTGTAGTAAAAGCACCTGCTTATTACTCACCTGCCCAAAATTATGATAAAGCAGTAGAGAGACGAAATGTCGTTTTGAGACTAATGGAGAAAGAAGGCTATATAAGCCATGATGAGTATGTTCAAGCAGTTAGTGAGAAATTGGTAATTCGTCATGATATAAAAATAGAGCAGTCGATGTTAAATAGCGCGCGTAAAAAAGCAGTAAGTTAA	MKERVLSRVNYHQKVALNPMTKLFYKAIILLLLLSCTLLFIGNVMIEQSDISKLHVPSKLEVPESLTHAFIATEDKRFYHHNGLDYIAIIRASVENIKAGGVVQGGSTITQQLSKNAFLTNERTFSRKWKEIFYTKKIERTFTKDEILKLYVSNIYYGEGAWGIEKAANLYFGKKVNQLTLAESAMMAAVVKAPAYYSPAQNYDKAVERRNVVLRLMEKEGYISHDEYVQAVSEKLVIRHDIKIEQSMLNSARKKAVS	PGPT0023810_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0023810-sgtB-K04478	NA	NA
AK009_04776	651	bdbD	COG1651	Disulfide bond formation protein D	ATGAAATCAAATAAACTCATGGCTCTTGGTATAGTTTTTTCTATCGCAGTATTGATTGTAATTGGAACAATTGCGTATAGCATCATAAATGACAAAAAAGATAAAGGGAATGAGATGTTTGCTTATTCCACGCAACAATCTTTAGGGAAAGATGATGCTCCAGTTAAGGTAGTTGAATTTGGAGACTTCAAATGTCCTGCTTGTCGTACTTGGGATGTAACAGTATTACCTCGATTAAAAGAAGAGTATATTGATAAAGGCAAAGTGCAGTTATATTTTATTAACTTCCCATTTATCGGAAAAGACTCGGATTTAGGTGCAGCAGCTGGTGAAGCAATTTATAAACAAGATAAAGATTCATTCTGGATTTTCTATGATGAGATTTATCAAAATCAAAAGAAAGATACGGAAGAATGGATTACAGAAGATTTGCTTCTTAGCATTGTGAAAGAGAAACTTCCAAAAGTTGATGTAGAGCAATTTAAGAAAGATTTACACAGTAAAGAAATTACAGAAAAAGTACGTAAAGATTCAGATCGTGCTCAAAAATTAAAAGTTCAAGGTGCTCCTTCAGTATATGTAAACGGAAATCTTGCAAACCCTGATTTCGATAGTATGAAGAAGGCCATTGATAAAGAATTGAAAAAGTGA	MKSNKLMALGIVFSIAVLIVIGTIAYSIINDKKDKGNEMFAYSTQQSLGKDDAPVKVVEFGDFKCPACRTWDVTVLPRLKEEYIDKGKVQLYFINFPFIGKDSDLGAAAGEAIYKQDKDSFWIFYDEIYQNQKKDTEEWITEDLLLSIVKEKLPKVDVEQFKKDLHSKEITEKVRKDSDRAQKLKVQGAPSVYVNGNLANPDFDSMKKAIDKELKK				NA	NA	NA	NA	NA
AK009_04778	1143	queG	COG1600	Epoxyqueuosine reductase	GTGGGTTTTGAACAATTAAAGCAAGATGTAATTGCGTATAGTAAAACAATTGGCATAGATAAAATAGGCTTTGCGAGTGCTTCTCCTTTTGAGGAATTAAAGCAGCGCTTAATCCAGCAACAACAATTAAATTATCAATCTGGATTTGAAGAGCCTGATATAGAGAAGAGAACGAATCCGCAACTTTTATTACCGGGTGCTAAATCAATTATTGCGATTGCTTTAGCATATCCTTCAAAATTAAAAAATGCACCATTAAGTAAGCGTGGAGAACGCCGTGGAATTTTTTGCCGTGCTTCTTGGGGACAAGATTATCATCTTGTTTTACGAGATCGTTTGCAAAAATTAGAAGCATATTTAATTGAAAAACTTCCGGATATAGAAGTGAAGTCCATGGTTGATACAGGTGAATTAAGTGATCGAGCTGTATCAGAGCGTGCAGGCATTGGCTGGAGTGGGAAAAACTGTGCTATTATTACACCTGAATTCGGTTCGTACGTATACTTAGGGGAAATGATTACAAATGTTCCATTCCCGCCAGATAAGCCGATAGAAGATCAATGCGGGGGCTGTACGAAATGTATCGATATTTGTCCTACAGGTGCTTTAATACAGGGGGGACAGTTAGATTCGAAGAAGTGTATTGCGTTTTTAACACAGACGAAAGGATTCCTACCTGAAGAATATCGCGATAAAATAGGAAATCGTATATATGGATGTGATACGTGTCAGACTGTTTGCCCGAAAAACAAAGGAATGGATTTTCATAATCATCCTGAGATGGAGCCGGACCCTGAGCTAGTTAAACCATTATTAACGCCACTTTTAACAATTAGTAATCGTGATTTTAAAGAGAAATATGGGATTATGTCAGGGTCATGGAGAGGGAAAAAGCCACTGCAAAGAAATGCGATTTTAGCATTAGCACATTTTAAAGAAGCATCGGCAATTCCTGATTTAATTGGTGTTATGAAAGATGACCCAAGACCGGTATTGCGCGGAACGGCAGCATGGGCACTTGGGAAAATTGGGGGAGATGGAGTAGGCGAAGCGATTGAGAAAGCGATGGAACGTGAGAAAGATGAAGAAGTACTTCATGAAATGAAGCGCGGGCTTGAATTGTTAGCACAGAAAAAAGAGTAG	MGFEQLKQDVIAYSKTIGIDKIGFASASPFEELKQRLIQQQQLNYQSGFEEPDIEKRTNPQLLLPGAKSIIAIALAYPSKLKNAPLSKRGERRGIFCRASWGQDYHLVLRDRLQKLEAYLIEKLPDIEVKSMVDTGELSDRAVSERAGIGWSGKNCAIITPEFGSYVYLGEMITNVPFPPDKPIEDQCGGCTKCIDICPTGALIQGGQLDSKKCIAFLTQTKGFLPEEYRDKIGNRIYGCDTCQTVCPKNKGMDFHNHPEMEPDPELVKPLLTPLLTISNRDFKEKYGIMSGSWRGKKPLQRNAILALAHFKEASAIPDLIGVMKDDPRPVLRGTAAWALGKIGGDGVGEAIEKAMEREKDEEVLHEMKRGLELLAQKKE				NA	NA	NA	NA	NA
AK009_04779	888			hypothetical protein	ATGGCTGTAAAAATGAATATTGAAAAGCAAGTACAACAGTTTTTAGCATATATCACAGAGAAACGAACAGACGTGGATGGTATTGCTGAGGATTTACTACAAATGGCACAGAGAAAGAAACAATTGTTTCAAAGGCGTAGTGCACATATAGTGAAAGCAACTGCGGATGTTTCTTTCATTAGACAATTAAATAGTAATGACCATCAAGAAATTGATTATCAAATACATTTTAAATATTTAATTAAGCATAAAGAATTATTTTATATTGAAGAGGAACAATTAAAACGAAGAGTTTGTTTAAATAATAGTCGGATTATAGGCGATTATGATATTGAAGTGTCAGAAGAAATTAGAATGGGTGAGACATTAGAAAGGGAAATTACGAAAGAGAAGTACGGTTCTTATCAGTATAATCGTTTAGAGGCAGTGAAATATGCAGAGCGTTGGTGGGATGACCGAAATCCTATGTATCGTAATTTCCCTGATAATTGTACGAATTTTATTTCTCAATGTCTTCATACTGGAGAAGTACCTATGAACGGATATCCTAATATTCGTAAAGGATGGTGGCAAAGGGAGAATCAGTGGAGTTGGAGCTGGGCTGTTGCACATTCTTTTTATTGGTATTTGTCAGGTGCTACAACAGGACTTCGAGCAGAGGCGGTAGAGAGGCCAGAAGAACTTATTCTTGGAGATGTTATTGCTTATGATTTCGAGGATGACGGAAGATGGAATCATACGACGATTGTAGTAGCAAAAGATGCAGATGGTATGCCGCTTGTAAATGCACATTCAGCGAATAGCCGTCGACGTTATTGGAACTATGAAGACTCTAGTAAATATACACCACAAATGAAATATAAATTCTTTCATATTATTAATGGGTAG	MAVKMNIEKQVQQFLAYITEKRTDVDGIAEDLLQMAQRKKQLFQRRSAHIVKATADVSFIRQLNSNDHQEIDYQIHFKYLIKHKELFYIEEEQLKRRVCLNNSRIIGDYDIEVSEEIRMGETLEREITKEKYGSYQYNRLEAVKYAERWWDDRNPMYRNFPDNCTNFISQCLHTGEVPMNGYPNIRKGWWQRENQWSWSWAVAHSFYWYLSGATTGLRAEAVERPEELILGDVIAYDFEDDGRWNHTTIVVAKDADGMPLVNAHSANSRRRYWNYEDSSKYTPQMKYKFFHIING				NA	NA	NA	NA	NA
AK009_04780	489	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	GTGGGAGTACATGTTGTTTTATATCAGCCAGAAATTCCAGCAAATACAGGGAATATTGCTCGTACTTGTGCAGCAACTGGAACAGAATTACATTTGATTAGACCGCTTGGATTTTCAACGGATGATAAAATGTTAAAGCGTGCCGGATTAGATTATTGGCAGCACGTGAAAATTACGTATTATGATTCAATTGAAGAATTTTATGAAAAAAATAAAGATGGTGAATTCTTCTATTTAACGAAGTATGGCGAAAAAGCTCATACAGCGTTTGACTATAGCAAGCGCGAGAAGGATTACTATTTTGTATTTGGAAGAGAAACAAACGGCTTACCAGCTAATGTAATCGAAGAAAACTTTGATCATTGTTTACGTATTCCAATGACAGATAAAGTACGTTCATTAAATTTATCTAATACAGCAGCAATTTTAATTTATGAAGCGTTCCGTCAACAAAATTACCCTGGATTAGATTTAGAAATCGTTTATTAA	MGVHVVLYQPEIPANTGNIARTCAATGTELHLIRPLGFSTDDKMLKRAGLDYWQHVKITYYDSIEEFYEKNKDGEFFYLTKYGEKAHTAFDYSKREKDYYFVFGRETNGLPANVIEENFDHCLRIPMTDKVRSLNLSNTAAILIYEAFRQQNYPGLDLEIVY	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
AK009_04781	2070			hypothetical protein	ATGAAGGAAGAATATAGTAATCAAAATACCTTTTTAAGTATGATAGATATGGATTTAATTAGACAAGGATTATTACATGCTATTCAAGATTTAGTATTTATTTTGAAAGTTATTGATGATGAAACGTTTAAATATATGTATGTGAATAGAATAGGAATGGATTATGCTAGGTTAAGCGAAGAGTGCTATGGAAAAACTTTTGCAGAAGTATTACCAAAAGATATAGCGGGGATATTGCAAAGGCAATATGAAAAAGTAGTGAGAGAAGCGAAAGCACACACATTTTGTGATGTAGTCAAATTACAAAAAGGTGAGATACATTATGAATCTTCACTTAATCCTGTCTGCGATGAAGAAGGAATATGTCAATTTGTTATTTGTATTACAAGAGATATTACAGCTCAAATTGAGGAGAAGACAGAGATAGAGGAAAAACAAATGTTATTTAAGTCGTTACTAGAATATAATAATGACTCAATTATATCTATAGATTCTATAGGGAGAGTTACATATGCAAACCCGGCAACGTATGAAATATTTGGATACCGGTATGAAGAGTTAAATAATAAATTTATTTTTGAATTCATTAATAAAGAATATGAAAAAGACTTTCAAATTCTATTTAAAGGAGCTCTGCAGGGAAGAGCAAAACAAATTGTTTCAAAGAAATATGTTCATAAAGAAGGGTACGAGCTATATATTTCTTTGAGAACTATCCCGATTATTGTGAACGGTGAAATTGTTGGAGTTTATATTGTTACGAGAGATGTTACAAGGCAAGTATTAAACGAAATGCGAACAGAATATTTAGCCTACTATGACCAGTTAACGGGATTAATGAATAGAATTTCATGTACAAATAAGTTAAATACTTTTTTAAAAGAGAGTATAAATTTTGCGCTTGTATTTATAGATTTAGATGAGTTTCATCGTATTAATGATACATTTGGTCATAAAGAGGGAGATAAAGTATTACAAAAAGTTACAGAATGTTTAAGCAATCTAAAAATAGAAGGTATGCACTTATTTAGAGAACACGATGATCAATTTGTTATGTTAATAGAAAATATAACGAAAGAATGTGTAGAGGAAATTGCAAAAGGCATACTGAAAAATATTAGTGAATATTTTGTAATCGAGGAAGAAGATGTATATTTAAGTGCGTCAATTGGAATTGTAATGGCTCCAGCAGATGGAGAAGATGAAAAAATACTATTTCAGAGGGTCGATGCTGCTTTAGAAAAAGCAAAAGAAAAAGGAAAAGGACATTATCATTTTTATTGTAGTGGATTAGACTGTGAGCGTGAACAAAGGTTTATAATAGAAAACCAGTTACATCGTGCTATAGAAAAAAATGAGTTTTTCTTATATTATCAGCCACAAATTAATATTGAAACGAAAAAAATAGCTAGTATGGAAGCTTTAATAAGGTGGGAGAATAAGGAATTAGGATTTGTTTCTCCAAATCAATTTATTCCGTTGGCAGAAAGAACAGGATTTATTATTAAGCTCGATGAATGGGTAGTAAATCAAGTGTGTCAGCAACTGCGCGAATGGTTAAATAAAGGATATGAAGTGGTCCCAATTGCAGTTAATATTTCAGCTAGACACTTTCGCTCTATTACATTAATAGAGATGATTACACGGGCTTTAAATAAGTACAATGTACCAGCTTATTTATTAGCGATAGAGGTTACAGAAGGAGCTCTTATACATAAAGATATATCGAAGAGAGTGTTACTACAATTAAAAGAACAAAATTTAAAGATTCATTTAGATGATTTTGGAACAGGCTATTCATCTTTAAGTTACTTGAAAACATATCCAATTGATACTTTAAAAATTGATCGTTCTTTTATGGAAGGTATACATATAGATGAACGTGATACGAATATTACAGCTGCAATTATTCATTTAGCTCATACTTTAGAACTGAATGTAATTGCAGAGGGAGTAGAAAAAAAGGAGCAAATACAGTTTTTGAAAGAAAAGAATGTGAAGCTTGTACAAGGTTATTATTATAGTCGACCATTATCCAAATATGATATGGAAAATATGTATTATAAATAA	MKEEYSNQNTFLSMIDMDLIRQGLLHAIQDLVFILKVIDDETFKYMYVNRIGMDYARLSEECYGKTFAEVLPKDIAGILQRQYEKVVREAKAHTFCDVVKLQKGEIHYESSLNPVCDEEGICQFVICITRDITAQIEEKTEIEEKQMLFKSLLEYNNDSIISIDSIGRVTYANPATYEIFGYRYEELNNKFIFEFINKEYEKDFQILFKGALQGRAKQIVSKKYVHKEGYELYISLRTIPIIVNGEIVGVYIVTRDVTRQVLNEMRTEYLAYYDQLTGLMNRISCTNKLNTFLKESINFALVFIDLDEFHRINDTFGHKEGDKVLQKVTECLSNLKIEGMHLFREHDDQFVMLIENITKECVEEIAKGILKNISEYFVIEEEDVYLSASIGIVMAPADGEDEKILFQRVDAALEKAKEKGKGHYHFYCSGLDCEREQRFIIENQLHRAIEKNEFFLYYQPQINIETKKIASMEALIRWENKELGFVSPNQFIPLAERTGFIIKLDEWVVNQVCQQLREWLNKGYEVVPIAVNISARHFRSITLIEMITRALNKYNVPAYLLAIEVTEGALIHKDISKRVLLQLKEQNLKIHLDDFGTGYSSLSYLKTYPIDTLKIDRSFMEGIHIDERDTNITAAIIHLAHTLELNVIAEGVEKKEQIQFLKEKNVKLVQGYYYSRPLSKYDMENMYYK	PGPT0023624_2660	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
AK009_04782	96			hypothetical protein	ATGAAATTATTATTAATTTTAGGTGTATCACTCACATTTCTTACAGCTATTTTTACATCTGGTTACAATGACAAACCAGGTACACATAAAAAATGA	MKLLLILGVSLTFLTAIFTSGYNDKPGTHKK				NA	NA	NA	NA	NA
AK009_04783	1896			hypothetical protein	ATGGATATTCTAAAAAAGATTGAACAGCATCGAGCAGCAGAAGAACGGTTACAATGGGAAGGTACGTTTGCGGAGTATTTGGAGCTTGTGAAAGAAAGACCATGGGTGGCTCAAACAGCACACTCTCGCATTTACAATATGATAAAAGATGCTGGAATTGAAGAAGTTGATGGTAGAAGAAAGTATAACTTCTTTAGTAATCAGCTCTTTGGATTAGAGGATGCTCTAGAACGTCTTGTAGAGGAATATTTTCATCCATCCGCAAAACGATTAGATGTTAGAAAAAGAATTTTATTATTAATGGGTCCTGTTAGTGGAGGGAAATCAACGTTAGTTACGATGTTGAAACGAGGATTAGAAACATATTCACGAACAGATCGTGGAGCAATTTTTGCAATTAAAGGATGCCCAATGCATGAGGATCCACTGCATTTAATTCCACATCATTTACGAGATGATTTCTTTGATGAGTATGGGGTTAGAATTGAAGGAAATTTATCACCACTAAATGTCATGCGTTTAGAGCAAGAATACGGATCAAGAATTGAGGATGTAGTTGTAGAGCGTATTTTCTTCTCTGAAGATCGCCGTACAGGGATTGGTACATTTAGCCCGTCTGATCCAAAATCACAGGATATTGCAGATTTAACAGGTAGTCTGGACTTTTCTACGATTGCAGAATATGGTTCAGAATCAGACCCGCGTGCGTATCGATTTGATGGAGAATTAAATAAGGCGAACCGAGGAATGATGGAGTTCCAAGAGATGTTAAAATGTGATGAGAAGTTTTTATGGCACTTATTATCGCTTACGCAAGAAGGGAATTTCAAAGCGGGAAGATTTGCGCTTATTTCAGCAGATGAATTAATTGTAGCGCATACGAATGAAACAGAGTATCGCTCATTTATAGCAAATAAGAAAAATGAGGCATTGCACTCAAGAATTATTGTAATGCCAGTTCCTTATAATTTACGAGTAAGTGAAGAAGAACATATTTATGAAAAAATGATTCGTGAAAGTGATGTGTCGAATGTTCACATTGCACCACACACACTTCGCGTTGCAGCAATGTTCACTATTTTAACTCGTTTAAAAGATCCGAAGCGTCCGGATATTGATTTAATTAAAAAGATGCGTTTGTATGATGGAGAAACGGTAGAAGGTTATAATGCGATTGATGTAGAGGAGCTACAACGAGAATATCAAGATGAAGGTATGAAGGGTATTGATCCTCGTTATGTCATTAACCGAATTTCGTCTACAATCATTCGAAAAGAGGTACCATCTATTAACGCGTTAGATGTACTTAGATCTTTAAAAGATGGGCTGGATCAGCATCCATCGATTAGTAATGAAGACCGTGAACGTTATATGAATTTCATCTCATTAGCGAGAAAAGAATACGATGAAATCGCAAAGAAAGAAGTACAAAAGGCGTTTGTTTATTCATATGAAGAATCGGCTAAGACACTTATGGATAATTATTTAGATAACGTCGAGGCGTACTGCAATAAATCGAAATTACGTGATCCGTTAACAGGAGAAGAAATGAGTCCAGATGAAAAATTAATGCGCTCAATTGAAGAGCAAATTGGGATTTCAGAAAATGCTAAGAAAGCGTTCCGTGAAGAGATTTTAATTCGCATTTCTGCTTATGCCCGTAAAGGAAAACGCTTTGATTATAATTCACATGAACGTCTTCGTGAAGCGATTCAGAAAAAACTATTTGCTGATTTAAAAGATATAGTGAAAATTACAACATCAACGAAAACGCCAGACGAAAATCAGCTTAAGAAAATCAATGATGTTGTTGCGCGTTTAATTGATGAGCATGGCTATAATTCTTCTTCAGCAAATGAATTATTACGCTATGTAGGTAGCTTGTTAAACCGATAG	MDILKKIEQHRAAEERLQWEGTFAEYLELVKERPWVAQTAHSRIYNMIKDAGIEEVDGRRKYNFFSNQLFGLEDALERLVEEYFHPSAKRLDVRKRILLLMGPVSGGKSTLVTMLKRGLETYSRTDRGAIFAIKGCPMHEDPLHLIPHHLRDDFFDEYGVRIEGNLSPLNVMRLEQEYGSRIEDVVVERIFFSEDRRTGIGTFSPSDPKSQDIADLTGSLDFSTIAEYGSESDPRAYRFDGELNKANRGMMEFQEMLKCDEKFLWHLLSLTQEGNFKAGRFALISADELIVAHTNETEYRSFIANKKNEALHSRIIVMPVPYNLRVSEEEHIYEKMIRESDVSNVHIAPHTLRVAAMFTILTRLKDPKRPDIDLIKKMRLYDGETVEGYNAIDVEELQREYQDEGMKGIDPRYVINRISSTIIRKEVPSINALDVLRSLKDGLDQHPSISNEDRERYMNFISLARKEYDEIAKKEVQKAFVYSYEESAKTLMDNYLDNVEAYCNKSKLRDPLTGEEMSPDEKLMRSIEEQIGISENAKKAFREEILIRISAYARKGKRFDYNSHERLREAIQKKLFADLKDIVKITTSTKTPDENQLKKINDVVARLIDEHGYNSSSANELLRYVGSLLNR	PGPT0014345_1251	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
AK009_04784	1176			hypothetical protein	ATGGGCGAAGAAAATCAACCAAATTATACGATTTCACAGGAAAACTGGTCCCTCCATCGCAAAGGATATGACGACCAACAACGCCATCAAGAAAAAGTACAAGAGGCAATTAAGAATAATTTACCCGATCTTGTAACAGAAGAAAGTATAGTTATGTCTAATGGCAAAGATGTTGTAAAAATACCAATTCGTTCTCTAGATGAATATAAGATTAGATACAATTATGATAAAAATAAACATGTTGGGCAAGGAAACGGTGACAGTAAAGTTGGTGATGTCGTTGCGAGAGATGGATCAGGTGGTCAAAAACAAAAAGGGCCAGGAAAAGGGCAAGGAGCAGGAGATGCAGCTGGGGAAGATTACTATGAAGCTGAAGTCTCTATTTTAGAATTAGAGCAGGCGTTTTTCAGAGAGTTAGAGCTGCCTAATTTAAAGAGAAAAGAAATAGATGAAAATCGGATTGAACATGTTGAATTTAATGACATTAGAAAAACAGGATTATGGGGAAATATCGATAAGAAACGAACAATGATATCTGCATATAAACGAAATGCGATGCGTGGTAAAGCATCTTTCCATCCAATTCATCAAGAAGACTTAAAGTTCCGCACTTGGAATGAAGTATTAAAGCCAGATTCAAAGGCTGTTGTGTTAGCGATGATGGATACGAGTGGATCGATGGGAATGTGGGAGAAGTATATGGCACGTAGCTTCTTTTTCTGGATGACAAGATTTTTACGAACAAAGTATGAAACAGTTGATATTGAATTTATTGCTCACCATACAGAAGCGAAAGTCGTCACAGAAGAAGAATTTTTCTCAAAAGGAGAAAGTGGCGGAACAATATGTTCTTCCGTATATAAAAAGGCATTAGAACTGATTGATAATAAATATTCACCAGACCGCTATAATATTTATCCATTCCATTTTTCAGATGGTGATAATTTAACATCAGATAACGCTAGGTGTGTAAAGCTTGTGGAAGAATTAATGAAGAAATGTAATATGTTTGGATATGGGGAAGTGAATCAGTATAATCGCCATAGTACACTCATGTCAGCCTATAAAAATATTAAAGATGAAAACTTTAGATACTATATTTTAAAGCAAAAAGCAGACGTATTTCATGCGATGAAAAGCTTTTTTAGAGAAGAATCAGGTGAGAAAATGGCATAA	MGEENQPNYTISQENWSLHRKGYDDQQRHQEKVQEAIKNNLPDLVTEESIVMSNGKDVVKIPIRSLDEYKIRYNYDKNKHVGQGNGDSKVGDVVARDGSGGQKQKGPGKGQGAGDAAGEDYYEAEVSILELEQAFFRELELPNLKRKEIDENRIEHVEFNDIRKTGLWGNIDKKRTMISAYKRNAMRGKASFHPIHQEDLKFRTWNEVLKPDSKAVVLAMMDTSGSMGMWEKYMARSFFFWMTRFLRTKYETVDIEFIAHHTEAKVVTEEEFFSKGESGGTICSSVYKKALELIDNKYSPDRYNIYPFHFSDGDNLTSDNARCVKLVEELMKKCNMFGYGEVNQYNRHSTLMSAYKNIKDENFRYYILKQKADVFHAMKSFFREESGEKMA	PGPT0025005_1165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
AK009_04785	3072	smc_8		Chromosome partition protein Smc	ATGATTACATTTCGAATTATATATTTTGGAGGAGATGTAAAGTTGAAACAAAATAAAAGAAAACGTATAAATGCAATGATTATAGCGGCGGCGTTATCACTTCCGTTTGCTGTTTATTCAACACCTGCTTTAGCGGCAGTGGCAATTGAGGCGAATAAAACGGGACAAGGTTTAGAAGATGGTACATATGATGCTGTTATTAAAGCGTATAAAGATAAAACGAATGAAGAGTCTATGGCAGCTGTTTATATAAAGGATCCGAAATTAACAATTGAGAATGGAAAGAAAATTGTAACAGCAACGTTAAGTGATAGTGATTTCTTCCAATACTTGAAAACAGAGGATATTCATACGCCAGGTGTGTTTCATGATGTAAAGGTCCTATCAGAAGACAAAAAGAAAAATGGGACGAAGGTTATTCAATTTGAAGTTGGAGAATTAGGAAAAACATACAATATGCAAATGCATATTTATATTCCAACGATGGCCTATGATAATAAATATCAAGTGCAGTTTGAAGTAAATGCTATAAATTTAGAAAACAATGTTTCAGAAAAACAAAAGGAAAATAAAGAGGAGCAACAAGATGAAAACGGAAATGTAATATTAGATAAGCAATTACAAAAATATATTAATAAATATAACTTAGATAGAGATAATGTAGATGCGCCAATCACAAAGAAAGATTTATTACAAATTAAAACATTATCCATTTATTCAGGTAAAGGGATAAATGAAATAGCTGGTTTAGAGTATATGACAAATTTAGAGAAGTTGACGTTACGAGAGTCTAATGTAACAGATATATCAGCTATCTCGAAATTGAGAAGTTTGAAGTACGTTGATTTAACTTCTAATTCAATTGAAAGTATTCATCCAATTGGGCAATTAGAGAATATTAATATGCTTTTTTTAAGAGATAATAAAATTTCTGATCTTACACCATTAAGTAAAATGAAAAAAATCAAAACATTAGATTTAATCGGTAATAACATTAAAGATATCCAGCCATTATTTACATTATCAACTATGAAACAATTATACTTAGCAAATAATCAAATCAGTGATCTTAATGGAATTGATCGATTAAATAATGTGGAACTATTATGGATAGGGAACAATAAAATTAATAATGTTGAATCTATTAGTAAAATGAGTAATCTTATTGAACTAGAAATTGCTGATAGTGAAATAAAAGATATATCACCATTATCTCAATTAGGAAATTTACAAGTGCTGAATTTAGAAGAGAATTATATCTCTGATATATCGCCGTTGAGCACTTTAACAAATTTACATGAGATAAATCTTGGAGCAAATGAAATTTCTGACGTAAGGCCTGTTGAGGAATTAGGTAAGCGAATTTCAATTGACATTCAAAGACAAAAAATCTTTTTAAATGAAGCAAGCGTAGATGAGGAATTAAAAATCCCAGTATACAACCTTAAGGGAGAACCACTTCAAAATATTAATGTAAAAAGTGAGGGGGCTACTCTGAATAACGGATTTATAAAATGGAATAGTCCTGGAGAAAAAATATATGAATTTAAACTAGATACTAATTCTACTGAAAGTAAAATAAGATTTAATGGTACGGTTATACAGAATATAGTTGAAAAACAAAAAGAACGTGCAAATGTAATTCTCGATAAAACTTTACAACAACATATTAATAAAGAGAATTTAGGTAGAGAGAACTTAAACGCTCCTATCACAAAAGAAGATTTATTACAGGTTAAAAAATTAGAGATACTTAAAGAAAAAGGAAATGAGATAAAAGATATAACAGGTTTAGAGTACATGACGAACTTAGAAAACCTTACTTTAGAAGGAGTAGGCCTGAAAAATATTGATTTCATCTCAAACTTGAAACGATTGAATAATGTGAATGTATCTCATAATCAAATTGAAGATATAACACCGCTATCTTCATTGAAAAATTTACAGTGGTTAAATCTTACTGAGAATCGTATTACAGATGTAACGGTTCTTGGCTCAATGTTAGACTTACTTAGTTTAAAATTAGCTGAAAATGAGATTCGTGATGTAAGGCCATTAATACAATTAGGTCAGTGGGTAACAATTGATGTTAGAAGGCAAAAGGTCATTTTGGATGATGCAGAAATAAATAAAGAAGTGAAAATACCTGTATATGATTTAGAGGGAGAGCCAATTGAAAAGATTACACTAAAGAGTGAAGGTGGAACTCTTACTGATGAGGGAATCATTTGGCGTACTTTAGGAGAAAAAATATATGAATTTGATTTAGATGCAGATCATTATGAGACTGGCATATTATATAGTGGCATTGTAATGCAGAATATAGTAGAAAAATTAATACCAAAAGAAGAAGTGAAAGAACCAACAAAGGAAGTGGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAAGAAGTGAAAGAACCAACAAAGGAAGTGAAAGAACCAACAAAGGAAGTTGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAGGAAGTGGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAAGAAGTGGAAGAGTCAAAAGAAGAAGTAAAAGAACCAACGAAAGAAGTTGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAAGAAGTTGAAGAGTCAAAAGAAGAAGTAAAAGAACCAACGAAAGAAGTTGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAGGAAGTGGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAAGAAGTTGAAGAAGCGAAAGAGGAAGTAAAAGAGCCAACAAAGGAAGTGGAAGAGTCAAAAGAAGAAGTGAAAGAACCAACAAAAGAAGTTGAAGAAGCGAAAGAGGAAGTAAAAGAGCCAAAAGGAAATAATCAGGTTGTTGAAAACGAAGGCAGAACAGCAGATACTTTAAATACACAACATGTTAATAAGACGGAGGAAGGAAAGAAATCTTTACCATCAACAGGCGGTGAAGCTAGCACATCGACTTTACTTTCTGGAATAACACTTGTTCTTTCCGCACTAAGTATGTTCGTATTTAGAAAGAGGTTATTTAAGAAATAA	MITFRIIYFGGDVKLKQNKRKRINAMIIAAALSLPFAVYSTPALAAVAIEANKTGQGLEDGTYDAVIKAYKDKTNEESMAAVYIKDPKLTIENGKKIVTATLSDSDFFQYLKTEDIHTPGVFHDVKVLSEDKKKNGTKVIQFEVGELGKTYNMQMHIYIPTMAYDNKYQVQFEVNAINLENNVSEKQKENKEEQQDENGNVILDKQLQKYINKYNLDRDNVDAPITKKDLLQIKTLSIYSGKGINEIAGLEYMTNLEKLTLRESNVTDISAISKLRSLKYVDLTSNSIESIHPIGQLENINMLFLRDNKISDLTPLSKMKKIKTLDLIGNNIKDIQPLFTLSTMKQLYLANNQISDLNGIDRLNNVELLWIGNNKINNVESISKMSNLIELEIADSEIKDISPLSQLGNLQVLNLEENYISDISPLSTLTNLHEINLGANEISDVRPVEELGKRISIDIQRQKIFLNEASVDEELKIPVYNLKGEPLQNINVKSEGATLNNGFIKWNSPGEKIYEFKLDTNSTESKIRFNGTVIQNIVEKQKERANVILDKTLQQHINKENLGRENLNAPITKEDLLQVKKLEILKEKGNEIKDITGLEYMTNLENLTLEGVGLKNIDFISNLKRLNNVNVSHNQIEDITPLSSLKNLQWLNLTENRITDVTVLGSMLDLLSLKLAENEIRDVRPLIQLGQWVTIDVRRQKVILDDAEINKEVKIPVYDLEGEPIEKITLKSEGGTLTDEGIIWRTLGEKIYEFDLDADHYETGILYSGIVMQNIVEKLIPKEEVKEPTKEVEESKEEVKEPTKEVKEPTKEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEESKEEVKEPTKEVEEAKEEVKEPTKEVEESKEEVKEPTKEVEEAKEEVKEPKGNNQVVENEGRTADTLNTQHVNKTEEGKKSLPSTGGEASTSTLLSGITLVLSALSMFVFRKRLFKK				NA	NA	NA	NA	NA
AK009_04786	1551	opuD_1	COG1292	Glycine betaine transporter OpuD	ATGATAAAAAAAGAGAACAGTGTATTTTATATCTCCATCTTGCTTACAACCTTATTTATTATATGGGGTGTCATACCAGCAAGCTGGATACAAGGCCATGATTTACAAAGTATCACATCTTCTTTAAACTCATTTATCCTCAATAAATTTGGATGGTTTTACTCTCTACTTATGACCACAATGCTTGTTTTAGCTACTTATTTAGCCTTTTCAAAATACGGTTCTATTCGTCTTGGTAAAGATGGAGAAAGACCAAAATACAGCTATTCATCTTGGTTATCCATGTTGTTTGGAGCAGGAATGGGGATTGGACTCCTCTTCTATGGAATCGCTGAACCGATTTCACATTTTACAGATCCATTAACAGGAAAAGCAGGTACAGAGGAAAGCGCCAAACTCGCTATGCAATATTCATTTTTCCACTGGGGACTCTTTCCGTGGTCACTATACGCGATGGTTGCTTTAACAATTGCATATTTCACATTCCGCAAACAAAAAGGTAGCACAATTGGGGCTACAGTTACTCCATTATTTAATCGATCGAAAAATTCTCCTATCGGAAAAACAGTCGATATTTTGGCTGTTTTAGCCACAGTATTTGGCATTGTGCCATCTGTTGGGATTGGTGCTCAACAAATTGCCGGAGGATTAAGCTATTTATTCCCTTCTATTCATAACACTTTACTTACTCAGCTCGTACTTATAGCTATCTTCGCTGTTTTATATTTAACAAGTGCGCAAACTGGCTTAGATCGTGGGATTAAATATTTGAGTAACTTGAATTTCTCTCTCGCAGGTATTTTACTCGTCTCCTTTTTAATTTTAGGACCAACTGTATTTATTATGAAATATTTCACATCTACACTCGGTTCTTATATCGGCGCTTTACCTAGTATGGGATTAAATTTAGGAGCATTTAGTGAAAAATCTTCTTCTTGGATTGAAAACTGGACTATTTTCTATTGGGGATGGTGGATCTCTTGGTCTCCATTCGTCGGTACATTCATTGCTCGTATTTCTAAAGGGCGCACAATAAAAGAATTTATTATTGGAGTTGTATTAGTCCCAACTCTTATCTGTACATTTTGGTTTGCAGTATTTGGCGGTACCGCTATCCATATGGAAATGTTCCAATCGCTTGGGATAGCTGATGAAATCGCAAAAAATGGTACAGAGATTGGATTATTTGCTGTTATTTCGCACCTACCATTCTCTACATTTTTAACGGTTATCGGGTTAATTTTAGTAGCCACATTTTTCGTTACTTCTGCCGACTCGGCAACATTTGTTGTTTCAATGCAAACGAGTAACGGAAGCTTATCACCGAAAAATAGTTTAAAACTTATATGGGGATTAACAATCGCGATCATTGCAGCACTTTTATTACAAGCTGGAGGATTAAATGCACTACAAATTGCAGCTATAATCGCAGCACTACCATTTTCTATCGTAGTCGTTCTTATGGTTGCTTCGCTATTTAAAGAGCTGCGAAAGGAAGATGTTAATTCGCAAACGAAAGAAGTTCCGCAAAAAATAAAAAAGATTATGTAA	MIKKENSVFYISILLTTLFIIWGVIPASWIQGHDLQSITSSLNSFILNKFGWFYSLLMTTMLVLATYLAFSKYGSIRLGKDGERPKYSYSSWLSMLFGAGMGIGLLFYGIAEPISHFTDPLTGKAGTEESAKLAMQYSFFHWGLFPWSLYAMVALTIAYFTFRKQKGSTIGATVTPLFNRSKNSPIGKTVDILAVLATVFGIVPSVGIGAQQIAGGLSYLFPSIHNTLLTQLVLIAIFAVLYLTSAQTGLDRGIKYLSNLNFSLAGILLVSFLILGPTVFIMKYFTSTLGSYIGALPSMGLNLGAFSEKSSSWIENWTIFYWGWWISWSPFVGTFIARISKGRTIKEFIIGVVLVPTLICTFWFAVFGGTAIHMEMFQSLGIADEIAKNGTEIGLFAVISHLPFSTFLTVIGLILVATFFVTSADSATFVVSMQTSNGSLSPKNSLKLIWGLTIAIIAALLLQAGGLNALQIAAIIAALPFSIVVVLMVASLFKELRKEDVNSQTKEVPQKIKKIM	PGPT0013600_749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK009_04787	2898	colG		Collagenase ColG	ATGAACAAGAAATCAAAGATCAATAAAGTGATGCTTAGCATTAGTACAATGGCTTTATCGTTAGGGGCACTTCAAACTCATGCAGTAGCGGAAGAAAAAGTACCGTATAATGTGCTAAAAACGAAACCGGTTGGAATTGAAAAGCCAGTAGATGAAGTTGGGCATGTTTCAAAAGTTGATGAAACCTTATCATTTCAAGAACGTTTAAAAGTAGGCGATTTTTCACAGCGACCAGCATCTATTACGAAGAAAACGGCAGTAAAGCAAGTTAAAGAAAGCTATTCAATGGCTGATTTAAACAAAATGAATAATCAAGAATTAGTTGAAACATTAGGCAGTATTAAGTGGCACCAAATTACAGATTTATTCCAGTTTAATGAAGACACAAAGGCCTTTTATAAAGATAAAGGAAAAATGCAAGTCATTATAGATGAATTAGCTCATAGAGGTAGTACATTTACGAAAGATGATTCAAAAGGAATTCAAACGTTTACTGAAGTGTTGCGTTCCGCTTTTTATCTGGCATTTTATAATAACGAATTAAGTGAATTAAATGAAAGAAGCTTCCAGGATAAATGTTTACCTGCTTTAAAAGCAATCGCAAAAAATCCAAACTTTAAGCTTGGTACAGATGAACAAGATACAGTCGTATCTGCATACGGAAAATTAATTAGTAATGCATCAAGTGATGTTGAAACAGTTCAATACGCATCAAATATTTTAAAGCAATACAATGATAATTTTACTACTTATGTAAATGATCGAATGAAGGGACAAGCAATATACGATATTATGCAAGGGATTGACTATGATATACAGTCGTATTTAGTTGAGGCCCGTAAAGAAGCGAATGAAACGATGTGGTATGGAAAAGTAGATGGGTTTATTAATGAAATAAATCGTATTGCTCTTTTAAATGAAGTAACGTCAGAAAATAAATGGCTCGTTAATAATGGTATTTATTTTGCAAGCCGTTTAGGGAAATTTCATAGCAATCCGAATAAAGGATTAGAGGTTGTTACACAAGCAATGCATATGTACCCACACTTAAGTGAACCATATTTTGTTGCGATAGAACAAATTACAACAAATTATAATGGTAAAGATTATAGCGGGAATACAGTAGATTTAGAGAAAATACGTAAAGAAGGAAAAGAGCAGTACTTACCAAAAACGTATACATTCGATGATGGATCAATTGTGTTCAAAACAGGAGATAAAGTATCAGAAGAAAAAATTAAGAGATTATATTGGGCTGCGAAGGAAGTAAAGGCACAGTATCACCGTGTAATTGGAAATGACAAAGCATTAGAGCCAGGAAATGCGGATGATGTGTTAACAATCGTAATTTATAATAGTCCAGATGAATATCAGTTAAATAGACAATTGTATGGGTATGAAACAAACAACGGTGGAATTTATATCGAAGAAACAGGAACATTCTTTACATATGAGCGTACACCAGAGCAAAGTATTTATAGTTTAGAAGAGTTATTCCGTCATGAATTTACTCATTATCTGCAAGGGAGATATGAAGTTCCTGGTTTATTTGGAAGAGGAGATATGTATCAAAATGAAAGGTTAACTTGGTTCCAAGAAGGAAATGCAGAGTTTTTCGCAGGCTCTACTCGTACGAATAACGTTGTACCAAGAAAGAGTATAATTAGCGGATTATCATCTGATCCTGCAAGCCGTTATACTGCAGAGCGCACACTATTTGCTAAATACGGTTCTTGGGATTTCTATAATTACTCGTTCGCATTGCAGTCTTACTTATATACGCATCAGTTTGAAACATTTGATAAAATTCAAGATTTAATTCGTGCGAATGACGTGAAAAATTATGATGCATATCGTGAAAATCTAAGTAAAGATCCTAAGTTAAATAAAGAGTATCAAGAGTATATGCAGCAGTTAATTAATAATCAAGATACATACACTGTACCAGAAGTAGCTGATGATTATTTAGCTGAACATGCAACGAAGTCGTTAACAGCGGTGAAGAAAGAAATTAGTGATACGTTGCCTATGAAAGATACAAAAATGACAAAACATAATTCTCAATTCTTTAATACATTTACATTAGAAGGTACGTATACAGGTAGTGTCACAAAAGGTGAATCAGAAGATTGGAAAGCAATGAGTAAAAGAGTAAATGAATCTTTAGAACAATTGGCGCAAAAAGAATGGAGTGGCTACAAAACTGTTACAGCATACTTCGTCAATTATCGTGTGAATAGCTCAAATGAATTTGAATATGATGTAGTCTTCCATGGAATCGCAAAAGATGATGGAGAAAATAAAGCTCCGACGGTTAATGTAAACGGGCCTTATAATGGAGTTGTAAAAGAGGGAATTCAATTTAAAAGTGATGGCTCAAACGATGAAGATGGAAAAATTGTTTCTTATTTATGGGAATTTGGAGATGGAAGCACAAGTGCAGAAGTGAATCCAGTACATGTATATGAAAGAGAAGGTTCTTATAAAGTATCGTTAAGAGTAAAAGATGATAAAGGAAAAGAGAGCAGAAGCGAAACAACTGTTACGATTAAAGATGGAAGTTTAACAGAATCAGAACCAAATAATCGTCCAGAGGAAGCAAATCGTATCGGGCTAAATAGTACGATAAAAGGTAATCTTATTGGCGGGGACCACACTGATGTTTATACATTTAATGTAGCATCAGCGAAAGATATCGACATTTCTGTTTTAAATGAGTATGGAATTGGGATGACATGGGTACTTCACCATGAATCAGATATGCAAAATTATGCGGCTTACGGTCAAGCTAATGGGAATCATATAGAAGCAAAATTTAATGCAAAACCAGGTAAGTATTACTTGTATGTATATAAATATGATAATGGCAATGGAACATACGAATTGTCAGTAAAATAA	MNKKSKINKVMLSISTMALSLGALQTHAVAEEKVPYNVLKTKPVGIEKPVDEVGHVSKVDETLSFQERLKVGDFSQRPASITKKTAVKQVKESYSMADLNKMNNQELVETLGSIKWHQITDLFQFNEDTKAFYKDKGKMQVIIDELAHRGSTFTKDDSKGIQTFTEVLRSAFYLAFYNNELSELNERSFQDKCLPALKAIAKNPNFKLGTDEQDTVVSAYGKLISNASSDVETVQYASNILKQYNDNFTTYVNDRMKGQAIYDIMQGIDYDIQSYLVEARKEANETMWYGKVDGFINEINRIALLNEVTSENKWLVNNGIYFASRLGKFHSNPNKGLEVVTQAMHMYPHLSEPYFVAIEQITTNYNGKDYSGNTVDLEKIRKEGKEQYLPKTYTFDDGSIVFKTGDKVSEEKIKRLYWAAKEVKAQYHRVIGNDKALEPGNADDVLTIVIYNSPDEYQLNRQLYGYETNNGGIYIEETGTFFTYERTPEQSIYSLEELFRHEFTHYLQGRYEVPGLFGRGDMYQNERLTWFQEGNAEFFAGSTRTNNVVPRKSIISGLSSDPASRYTAERTLFAKYGSWDFYNYSFALQSYLYTHQFETFDKIQDLIRANDVKNYDAYRENLSKDPKLNKEYQEYMQQLINNQDTYTVPEVADDYLAEHATKSLTAVKKEISDTLPMKDTKMTKHNSQFFNTFTLEGTYTGSVTKGESEDWKAMSKRVNESLEQLAQKEWSGYKTVTAYFVNYRVNSSNEFEYDVVFHGIAKDDGENKAPTVNVNGPYNGVVKEGIQFKSDGSNDEDGKIVSYLWEFGDGSTSAEVNPVHVYEREGSYKVSLRVKDDKGKESRSETTVTIKDGSLTESEPNNRPEEANRIGLNSTIKGNLIGGDHTDVYTFNVASAKDIDISVLNEYGIGMTWVLHHESDMQNYAAYGQANGNHIEAKFNAKPGKYYLYVYKYDNGNGTYELSVK				NA	NA	NA	NA	NA
AK009_04788	549	yuaF		putative membrane protein YuaF	ATGGCTTTGTTTGGTTATCCACTTGAAACAATTTATTTATATGGATTTATTATTGCTACTATACTCACTGTAATTTATATCTTTTTTGGAGATATATTTGAATCCATATTTAGTTTTGGAGGCGGATCTGTATCCGTTGTTACTTTATTACTTAGTTTTTTCGCCATGTTATGTGGACTTAGTTATATAGGAGAATATTTATTTTCCTTTAATAGTATTCTTATTTTTGGGGCTGCATTTGCTATATCTTTTATCGGTGTATTCATCATGAAAATACTAATTTTAAAACCGATTGCAGAAGCAGAACAAAACACGGTGCAACGTATGGATGAATTCATCGGTTGCAAAGGAGAGGTCATTACGACTATTCCTACAGAAGGGTTTGGTGAAGTATTAATTTCCTCCCAATTTGGAAACAATGCAATCCTAGCTAAAACAGTTGGAAAGAAAGATATTTCGCAAGGAACAGAGGTTATTATCGAGGGAGTCCAAGATGGTGTTTTACTTGTACAGAACATCGCTTATTCTTTAAAGAAACCAAAATTATAA	MALFGYPLETIYLYGFIIATILTVIYIFFGDIFESIFSFGGGSVSVVTLLLSFFAMLCGLSYIGEYLFSFNSILIFGAAFAISFIGVFIMKILILKPIAEAEQNTVQRMDEFIGCKGEVITTIPTEGFGEVLISSQFGNNAILAKTVGKKDISQGTEVIIEGVQDGVLLVQNIAYSLKKPKL				NA	NA	NA	NA	NA
AK009_04789	1575	yqiK	COG2268	Inner membrane protein YqiK	ATGACGATTCCATTAATTATCGGTGGAGTATTACTCGCAATTTTAATTCTACTCATTTTAGTATTCATTACAAAGTATCGAACAGTTGGACCAGATGAAGCATTAATTGTTACTGGAAACTGGCTTGGTGGCGGGAAAAATGTAGTTACCACTGATGATGGAAAGAAGATTAAGATTATTCGTGGTGGCGGTACTTTCGTAGTTCCGATTATGCAAAGAGCAGAGCCTTTAAGTCTATTAAACTACAAATTAGAAGTGGGAACACGTGATACGTATACGAAACAAGGTGTACCGATTACAGTAAATGGTGTTTCTATTATTAAAGTAGGATCTACCATTGAAGAAGTTTCTACAGCAGCTGAACAATATTTAGGAAAAGAAACAGAAGAGTTGAAAATAGAAGCAAAAGAAGTTTTAGAAGGTCATCTACGTGCTATTTTATCTTCTATGACAGTAGAAGATGCCTATAGTAATAGAGAGCAATTCGCTCAAAAGGTACATGAAGTAGCTTCTACAGATTTAAAGAAGATGGGACTTCGCATCGTTTCCTTTACAATTAAAGAAATCATGGATAAGAACGGTTACTTAGATGCACTTGGTCAGCCACAAATTGCGATGGTTAAGCGTGATGCAACAGTTGCAAATGCAGAGCGTGAAAAAGAGGCACGAATTGAAAAAGCTCGTGCTGAGAAAGAAGCAAAAGAAGCTGAGTATCAACGTGATGCACAAATCGCTGAAGCTGAAAAACATAAAGAGTTAAAAGTACAATCTTATAAGAGAGATCAAGAACAAGCTCGCGCAGATGCAGATCTTTCCTATGAATTACAACAAGCAAAAGCGCAACAAGGTGTTACAGAAGAGCAAATGCGCGTTAAAATCATTGAACGTGAAAAGCAAATTGAATTAGAAGAAAAAGAGATTGCGCGTCGTGAAAAGCAATATGATGCAGAAGTAAAGAAAAAGGCAGATGCAGATCGCTATGCTGTTGAACAATCAGCAGAAGCGGAAAAAGTAAAACAAATGAAAAAAGCAGATGCAGATCAATATAAAATTGAAGCGGAAGCAAGAGCACGTGCAGAAGAAGTTCGTGTAGAAGGTTTAGCGAAGGCGGAAATCGAAAAAGCGCAAGGTCAAGCAAAAGCAGAAGTACAAAAAGCACAAGGTACAGCGGAAGCAGATGTTATCAGATTAAAAGGTTTAGCAGAAGCGGAAGCGAAACAAAAAATTGCAGAGGCATTTGAGTTATATGGCCAAGCGGCGATTATGGATATGGTTCTTAACATGCTTCCAAGTTATGCGAAGGAAGTTGCAAGCCCACTTAGCAACATTGATAAAATTACAGTTGTCGATACAGGTGGCGGTGGTAAAAATAGCGGCGCCGGAAAAGTTGCAGGTTATGCGACTGATTTAATGGCAACGATGCAAGAAACATTAAAAGCTTCTTCTGGCATTGATTTAAAAGAGTTATTAGAAGGATTTGCTGGAAAAGGAGCAGTACAACAATTATCAAACGATAAACCTGTTGTATCTGTAGTAGAAGATGCGAAAAAAGAAGTAGAAAAAGATAAAGAATAG	MTIPLIIGGVLLAILILLILVFITKYRTVGPDEALIVTGNWLGGGKNVVTTDDGKKIKIIRGGGTFVVPIMQRAEPLSLLNYKLEVGTRDTYTKQGVPITVNGVSIIKVGSTIEEVSTAAEQYLGKETEELKIEAKEVLEGHLRAILSSMTVEDAYSNREQFAQKVHEVASTDLKKMGLRIVSFTIKEIMDKNGYLDALGQPQIAMVKRDATVANAEREKEARIEKARAEKEAKEAEYQRDAQIAEAEKHKELKVQSYKRDQEQARADADLSYELQQAKAQQGVTEEQMRVKIIEREKQIELEEKEIARREKQYDAEVKKKADADRYAVEQSAEAEKVKQMKKADADQYKIEAEARARAEEVRVEGLAKAEIEKAQGQAKAEVQKAQGTAEADVIRLKGLAEAEAKQKIAEAFELYGQAAIMDMVLNMLPSYAKEVASPLSNIDKITVVDTGGGGKNSGAGKVAGYATDLMATMQETLKASSGIDLKELLEGFAGKGAVQQLSNDKPVVSVVEDAKKEVEKDKE				NA	NA	NA	NA	NA
AK009_04790	1977	mcpA_2	COG0840	Methyl-accepting chemotaxis protein McpA	ATGTTTCAAGGGAAATTAAGGAGTAGTAGTTTAAAAACAAAGTTACTTGTATCATTTATTATTATTTTAATTCTTCCAAGTATTGTAATTGGTTGGACGTCTTATCAACAGGCGAAGACGAATTTTAATGAAACGATTTTGAACTCGGCGAAAGATAATATAAAAATTTTGGATAATGTAATTAATAAAGAATTGGATAGTAAAAAAATAGATGCAACTTATTTTACAAAATTATTCACACAATCAAGTTACCAAGCAGATCAAATTCAAAACATACAAAATAAACTAGAAGAATACAATAAACTGCATCCAGAAATGGAAGCAATCTATACAGGATCTAGTAATGGACAGTTTATTCAATCACCAGCTATTCAGATGCCAGATGGATATAATCCTACAGAAAGAGATTGGTATAAAGAGGCAGTGAAGAAAAGCGGAGAAGTAATTGTAACTGCTCCATATAAGTCAAAAACGACAGGTAATATTGTTATTACACTAGCAAAACAAAATGAGGATAAAAGTGGCGTTCTTGGGATTGACTTAATCATTAATGATATTGTTACTACTTCCAAGATGGTTAATATCGGTAAGGAAGGGTATGTAGCAATATTTGATCAAGATAAAAATGTAGTAGCGCACCCGACACTGAAGCCAGGAGAGAAATTAGAAGAGAAACTTAGTAAAGAATTGTATAAACAGGAAGCTGGGGGTGTTCATTATTCGTTAGATGGTGAAGATCGTAATATCACTTTTAAAACGAATAAGAAAACTGGATGGAAAATAGCAGGAATTATGCCTTCCAAAGAAATTATCGAAGCGGCTGAACCTATTTTCTATAAAACAATAACTGTTCTTGGAATTTCGCTACTAATCGGTGGGATTGGAATTTACTTCATTATTGCGTCTATTATTAAACCGTTAAAACAACTTGTTATATCATCGAAGAAGATTAGTGAAGGCGATTTAACAGAATCAATTACAGTTCATTCTAAAGATGAAATTGGACAGCTAGGAGAAAGCTTTAACGAGATGGCTACATCGTTACATAGTGTCATTTCCAATATAAACATTTCAGCAAGTCATGTAGCAGCATCTTCAGAAGAATTAACAGCTAGTATGAAGCAGACAAGCGAAGCAACGGAACAAATTACACAGGCGATAGAGCAAGTATCGAGTGGTGCAGAAATACAAACGAAAGAAGTTGAAGAAGGAGCAACATTGTTAGAAGAAGTTACAGAAGGAATTCAGCGTGTTGCAGATAGTTCTTCATTAGTATCTACAGCCTCTATGTATACGAAGAAAAAAGCTGAAAATGGTGGGACGTTAGTTGAAAAAACTGTGAATCAAATGCAATTAATTCATGATTCTGTTTCACAGTCAGACAAAATCATTGGTTTGTTAGACGATAAGTCGAAACAAATTGGAGCAATTCTTGAAGTGATTCAACATATTGCAGAACAGACAAATTTATTAGCGTTAAATGCGGCAATTGAGGCTGCGAGAGCTGGAGAGCAAGGAAGAGGATTTGCAATTGTAGCAGATGAAGTGCGAAAGCTAGCAGAACAATCAGGAAAGTCTTCTACGGAAATTGGAAAACTAGTGAAAGAGATTCAATTTGATATAAAAGAAACAGTAAGCTCTATGAATCAAGTTGGAACAGAAGTACAATCAGGACTTGTAGTTGCAAATGAAACGAAGCAAAGCTTTGCCGAAATATTGAAGTCTACAAATGATACAGTTGTACAAATTGATAGCATGGTAGATGTAGCAAAACAAATGACGGTAGATGCAAAGCAAGTAAGTGCATCTATTAATGAAATTGCAGCTACGATTGAAGAAAATGCGGCAAGCGTTCAAAATATTGCTGGTTCCTCTGAGGAACAATTAGCTTCAGTAGATGAAATAAATGCAGCAGCAGTTCATTTATCACAAATGGCAGAAGAATTACAAGAGATGATTGGTAAGTTTAAAATATAA	MFQGKLRSSSLKTKLLVSFIIILILPSIVIGWTSYQQAKTNFNETILNSAKDNIKILDNVINKELDSKKIDATYFTKLFTQSSYQADQIQNIQNKLEEYNKLHPEMEAIYTGSSNGQFIQSPAIQMPDGYNPTERDWYKEAVKKSGEVIVTAPYKSKTTGNIVITLAKQNEDKSGVLGIDLIINDIVTTSKMVNIGKEGYVAIFDQDKNVVAHPTLKPGEKLEEKLSKELYKQEAGGVHYSLDGEDRNITFKTNKKTGWKIAGIMPSKEIIEAAEPIFYKTITVLGISLLIGGIGIYFIIASIIKPLKQLVISSKKISEGDLTESITVHSKDEIGQLGESFNEMATSLHSVISNINISASHVAASSEELTASMKQTSEATEQITQAIEQVSSGAEIQTKEVEEGATLLEEVTEGIQRVADSSSLVSTASMYTKKKAENGGTLVEKTVNQMQLIHDSVSQSDKIIGLLDDKSKQIGAILEVIQHIAEQTNLLALNAAIEAARAGEQGRGFAIVADEVRKLAEQSGKSSTEIGKLVKEIQFDIKETVSSMNQVGTEVQSGLVVANETKQSFAEILKSTNDTVVQIDSMVDVAKQMTVDAKQVSASINEIAATIEENAASVQNIAGSSEEQLASVDEINAAAVHLSQMAEELQEMIGKFKI	PGPT0015710_7984	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
AK009_04791	1608	citA	COG3290	Sensor histidine kinase CitA	ATGGTTTTGACATTGAAAAAATTAAAACTACAACCGAGAATTACATTAACTATTAGTACACTTATTCTTGTTGTACTTTTGCTAACAAGTTATTTATTTTTTTACATATTATCTGAAACAGTAGAAGAGCAAATTGGTAAAAGGGCCTTGCATGTTGCGAAAACAGTTGCTGCGATACCAGAAATTCAGGAAGCTTTTCAAAAAGAAAATCCAGCTTCTATTATTCAGCCAATCGCAGAAAAAATTCGAATTGATACAGAAGCTGACTTTATTGTAGTTGGAAACAAAGAGGGGATTCGTTATGCGCATCCTGAGCGAGATAAAATAGGAGAAAAAATGGTTGGCGGAGATAATAAAGGCGTTTTATTAGAAGGGAAATCTTATGTTTCGAAAGCTAATGGATCGTTAGGCCCTTCATTGCGTGGGAAAGTCCCAATCCGTAACCAGGAAAATGAAATTATCGGTGTGGTGTCTGTTGGGTTTTCAATGGCTGATATTCATGGAGCAGTAGAAGTGTATGGAAAGCGTGTATTTTGGATTACAGTAATAGGTCTTTTAATTGGGGTAATCGGCTCTATATATTTAGCGGGAAGTATAAAAAGAATGATGTTCGGGATGGAGCCAGAAGAAATTTCATCTTTATATGAAGAGCATAGTACAGTGATTCAATCTGTACGTGAAGGGATTATTGTAATCGATAAAAATGGCATGATTAGTTTAGTCAATCAAGCAGCTTATGATATTCTTTCGCTAAATAAACAACAAAATATTATTGGGGAATTTATTTTAAATGTAATTCCTAATTCAACGATACTAGATGTACTTCAAACTGGTGAAGAACAGTTTGACCGCCAATTAAATATAAAAGGACAGGCTGTTATTGCGAACCGTCTACCTATTAAAGTAAAGAATAAAGTAACTGGCGTTGTATCGAGCTTACGTTTGAAATCTGAAATGGATCAGTTAACAGCAGAATTGTCCCAGACGAAGCAATATACAGAGGCATTGCGGGCGCAAACGCATGAATATAATAATTTATTGTATACGCTTTCGGGTCTTATCCAATTAGAATCATATGAAGATGCTTTAGAGCTTATTCATAAGGAAACAGCGGTATATCAAGATTTTGTTCAATTTATTATGAAGCGGATTCAAAATCCATGGCTAGGTGGAATTTTAATTGGATTTTATAATAGAGCACGAGAGTTGAAGATTGATTTTATGCTAGATAGAGAAAGTGGTTTAGACAAATTAAGTCCACATATTGAGAGTAATTATGTCGTTTCTATTTTAGGGAATTTAATTACGAATGCATTTGAAGCAATTGAAAAAAATGAAGAGAATGATAGGAAAGTAAGGATGTTTGTAACTGATATTGGAGAAGAAATATTAATTGAAGTGGAAGATTCAGGGCAAGGGATTCATGATGAAATAATTACTAGCATATTCTATAAAGGCTTTTCGACGAAAGAAGGAGGAGAGCGAGGATATGGATTAGCAAAAGTGAAAGAGTTAGTAGAAGATTTAAATGGAAGTATTGCAATTGAAAAAGGGGATTTAGGTGGTGCGTTATTTATTATTGCACTACCGAAAGAGAGAGGCGAATAG	MVLTLKKLKLQPRITLTISTLILVVLLLTSYLFFYILSETVEEQIGKRALHVAKTVAAIPEIQEAFQKENPASIIQPIAEKIRIDTEADFIVVGNKEGIRYAHPERDKIGEKMVGGDNKGVLLEGKSYVSKANGSLGPSLRGKVPIRNQENEIIGVVSVGFSMADIHGAVEVYGKRVFWITVIGLLIGVIGSIYLAGSIKRMMFGMEPEEISSLYEEHSTVIQSVREGIIVIDKNGMISLVNQAAYDILSLNKQQNIIGEFILNVIPNSTILDVLQTGEEQFDRQLNIKGQAVIANRLPIKVKNKVTGVVSSLRLKSEMDQLTAELSQTKQYTEALRAQTHEYNNLLYTLSGLIQLESYEDALELIHKETAVYQDFVQFIMKRIQNPWLGGILIGFYNRARELKIDFMLDRESGLDKLSPHIESNYVVSILGNLITNAFEAIEKNEENDRKVRMFVTDIGEEILIEVEDSGQGIHDEIITSIFYKGFSTKEGGERGYGLAKVKELVEDLNGSIAIEKGDLGGALFIIALPKERGE	PGPT0019555_185	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
AK009_04792	693	citT_1	COG4565	Transcriptional regulatory protein CitT	ATGGGTGAGGAGATTGAAGTATTAATTGTAGAAGATGATATTCGGATTGCTGACATTCATCGTCGTTTTACTGAAAAAATTGAGGGATTTAAAGTAATTGGAACGGCAACGACTGGAGAACAAGCGAAAGAATGGCTAGAGCTTGTGAAGCCACAGCTCGTGTTATTAGATGTGTACTTACCTGATATGCAGGGAACGGAACTTGTCACATATATTAGGAATCATTTGCACGATACAGATATCATTATGATTACAGCGGCATCGGAAACAGATGTAGTGAGGCACGCCCTGCGGGGCGGAGTAACAGATTATATCGTAAAGCCACTAATGTTTGATCGATTTAAAGCAAGTCTAGAAGGCTATCAAAAAAAGATTATACAGTTAAAGAAGAACAATCAATTATCTACGGAACAAATTGAATATTTATGGTCTCAAAGAGGTGTGAAGGGAGATCAAATAGAATATGCCCCGAAAGGGATAGATCCTTATACTTTAGCGAAAGTAAAAAAGCATATGTTAACAGTTAATGAAGAAGGGATTACAGCAGAAATGTTAAGCTCAATGATTGGAGTAAGCCGATCAACGGCAAGGCGCTATTTAGAGTATTTGATATCTGGGAAGAAAGTCCACGCAGAGCTAATATATGGAAGTGTTGGGAGACCGGAGAGACGTTATTTTCTTGCTTCTTCATAA	MGEEIEVLIVEDDIRIADIHRRFTEKIEGFKVIGTATTGEQAKEWLELVKPQLVLLDVYLPDMQGTELVTYIRNHLHDTDIIMITAASETDVVRHALRGGVTDYIVKPLMFDRFKASLEGYQKKIIQLKKNNQLSTEQIEYLWSQRGVKGDQIEYAPKGIDPYTLAKVKKHMLTVNEEGITAEMLSSMIGVSRSTARRYLEYLISGKKVHAELIYGSVGRPERRYFLASS	PGPT0001490_13	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
AK009_04793	1305	citN	COG2851	Citrate transporter	ATGTTAGCACTACTTGGATTTGCGATGGTATTTGTCTTTATGTTTTTAATTATGACGAAACGTATGTCAGCGCTAGTAGCATTAATATTAATTCCGAGTGTTTTTGCATTAATTGGCGGATTCTATGCCAATATGGGGCCTATGATGTTAGAGGGGATTCAAAAATTAGCACCTACTGGTATTATGCTTATGTTCGCTATTTTATATTTTGGGATTATGATTGATAGCGGTTTATTTGATCCTGTCATTAGTAAGATTTTAAAATTTGTAAAAGGAGATCCTTTAAAAATCGTTGTCGGAACGGCTATATTGACTATTATCGTTTCTTTAGATGGTGATGGTACAACAACATACATGATTACAGTTTCTGCAATGTATCCACTATATAAGCGCCTTGGAATGAATCCACTCATATTAGCTGGAGTTGTTATGTTAGGAGCGGGAGTAACAAATCTTACACCTTGGGGTGGACCCACAGCTCGTGTTATGAGCGCACTTGGACTTGAGGCTTCCGAATTATTTACACCTCTTATTCCAGGAATGATTGCTGGTGCAATTTGGGTTGTTTTCGTTGCCTACTATCTTGGAAAAAAAGAAAGAAAACGTTTAGGAATTATGGATGTACAGTATTTAAAACAAATGCAAACAATGGATGAGCAAGCTGCAACTGTCGAAGCAGCAGTGCATAAACGTCCTAAACTTCTATGGATTAACTTTTTATTAACCGCCACATTACTTGTCTGTCTCATACTAGAAGTTATGCCGTTACCTGTTTTATTTACAGTCGCTTTTGCTATTGCTGTTATGATTAACTATCCAAACTTAGAGCAACAGAAAGAACGTATTGCTTCTCATGCAGGGAATGTATTAGCAGTTGTTTCTCTCGTATTTGCTGCCGGTATTTTCACTGGTATTTTATCTGGAACAAAAATGGTAGATGCAATGGCTAACAGTGTAGTAACTCTTATACCAGATGCACTTGGACCACAACTACCAATTATTACAGCACTTCTCAGTATGCCATTCACATTTTTCATGTCTAATGATGCATTTTACTTCGGGGTATTACCTATTTTGACGAAAGCTGCTGCTACTTACGGAATTAGTGCAGCTGAAATGGGACGCGCTTCCTTACTTGGGCAACCCGTTCACTTATTAAGTCCTCTTGTCGCTTCCACTTATTTATTGGTCGGAATGGCCAAAGTTGATTTCGGTGAACATCAACGCTTCACTTTATTGTGGGCCGTTGGAACGACAATGGTTATGTTAATTACCGGAATTGTAATTGGGATTATTCCAATATAA	MLALLGFAMVFVFMFLIMTKRMSALVALILIPSVFALIGGFYANMGPMMLEGIQKLAPTGIMLMFAILYFGIMIDSGLFDPVISKILKFVKGDPLKIVVGTAILTIIVSLDGDGTTTYMITVSAMYPLYKRLGMNPLILAGVVMLGAGVTNLTPWGGPTARVMSALGLEASELFTPLIPGMIAGAIWVVFVAYYLGKKERKRLGIMDVQYLKQMQTMDEQAATVEAAVHKRPKLLWINFLLTATLLVCLILEVMPLPVLFTVAFAIAVMINYPNLEQQKERIASHAGNVLAVVSLVFAAGIFTGILSGTKMVDAMANSVVTLIPDALGPQLPIITALLSMPFTFFMSNDAFYFGVLPILTKAAATYGISAAEMGRASLLGQPVHLLSPLVASTYLLVGMAKVDFGEHQRFTLLWAVGTTMVMLITGIVIGIIPI	PGPT0001500_782	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
AK009_04794	255			hypothetical protein	ATGAAAACGAGAATTGAAGAGATTTATAGCTCTTATGAAGGAAAAGTAGAGGAGATTTTTATTAATGAATCTTCTTACGTATATGAATGGGAAAAATTACTGATGATCCGAAAAAATGACGGTGAGCTTAAAAAAATTACAGTCGGGATTAGTGGAAATATAAGATTGGTAAATGTAGAAGTTGGACAGGAAATTAGTGCCGATACATTATTAGTTAAGTTAGAAGATGATTTGTTAATTACAGGCTGCGAGTGA	MKTRIEEIYSSYEGKVEEIFINESSYVYEWEKLLMIRKNDGELKKITVGISGNIRLVNVEVGQEISADTLLVKLEDDLLITGCE				NA	NA	NA	NA	NA
AK009_04795	504			hypothetical protein	ATGAAAGTCAAATATGTTGTACTTGCTATATGTTTATGTTTCGTATTTACGGTAGTCGGGTGTGGGAAAAAGGAAACAGCAGCTGTTGCTATTGATGAGAAACATGATAAATGTGATATTTGCCAAATTGGGGTAACAGATAATCAATTTGCAACAGAAATCATTTTAGAAAATGGAAAAGCGTTAAAGTTTGATGATATCGGTTGTATGTATAAATGGATGGAGATCAACTCAGATGAAAAGACGAAAGAGAAATTTGTTCGAGATTATGATTCGAAAGATTGGATTTCGTTAGAAGACGCTACTTACGTATATGATAAAACAATAACGACACCGATGGCTTATAATGTCATTTCATTTAAAAATAAAAAAGATGCAGAGAGCTTTGTATCTAACTATAAGGGCAAAGTTCTTTCGTATAAAGAGTTAGCAGAGCATAAATGGGAAATGAATAAAGAGATGATGGGGAAACCGAAAGCAGGAAATCATGGTGGACATCATTAA	MKVKYVVLAICLCFVFTVVGCGKKETAAVAIDEKHDKCDICQIGVTDNQFATEIILENGKALKFDDIGCMYKWMEINSDEKTKEKFVRDYDSKDWISLEDATYVYDKTITTPMAYNVISFKNKKDAESFVSNYKGKVLSYKELAEHKWEMNKEMMGKPKAGNHGGHH	PGPT0000420_577	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000420-nosL-K19342	NA	NA
AK009_04796	870			hypothetical protein	ATGTACTCAAGAAGAGTTATTGTATGTGATGGAGGAATGGTTAAGAAAACATTATCTTTCATAGGAGCTGTAGTTGTGAGAAAACAAAAAATTTTATTATGTATTTTATTAGGACTTTTAATGACGGTAGTGGCTTGCGATAAGCAAGAAGAACCAGAATCGAAACCGGTTCATGTGAAAAATGAAAAGAAAAAAGAGAAGCATAAAGAACAGGAAGAATCTAAAGAAGAGAAAAGTATAAATTTAATGGACAAACAGTTGTTACTTTCAGCTACTCTTGGAGACACAGAGACAGCTATGAAGTTGATTCAGGATGGAGCGAATATAAACGTAGAAGGTGACAACGGAGAAACGCCTGTCCTTGCAGCGACGTACCAAAATCATGTAGAGACAGTTAAAGCATTAATTGGTGCAGGTGCTAATATTGAAATTAAAGATGAGAAAAAAAGTAATCCACTTCTTTATGCAAGTAGAGAAGGATATACGGATATTGTAAAAGTATTAATTAATGCAGGAGTTAATACGAAAGAAACGACTAAGTCAGGTGGAACAGCACTTATTTCTGCATCTGAGCGTGGCCATGTAGAGGTTGTTAAAGAATTATTAGAGCATACAGATATTGATGTGAATTATAAAAATGAACGTGGTGGAACAGCGCTATTAGAAGCAATTGTATTAGGAAATGGTAGTGAAAACCATAAGAAAGTAATTCAATTGCTTATTGATCACGGTGCAGATGTAAATATGGCTAACAAGGAACATCTGACGCCACTGCAATACGCTGAAAAAAGAGGTTTTAAAGATATTGTAAATATGTTGAGGGTAGCTGGAGCGAATGAAGTAGTACAGCCACAACAACCAGTAGAGTAA	MYSRRVIVCDGGMVKKTLSFIGAVVVRKQKILLCILLGLLMTVVACDKQEEPESKPVHVKNEKKKEKHKEQEESKEEKSINLMDKQLLLSATLGDTETAMKLIQDGANINVEGDNGETPVLAATYQNHVETVKALIGAGANIEIKDEKKSNPLLYASREGYTDIVKVLINAGVNTKETTKSGGTALISASERGHVEVVKELLEHTDIDVNYKNERGGTALLEAIVLGNGSENHKKVIQLLIDHGADVNMANKEHLTPLQYAEKRGFKDIVNMLRVAGANEVVQPQQPVE				NA	NA	NA	NA	NA
AK009_04797	681			hypothetical protein	ATGACTCTCTCAGAACTTGATTTAATAGTAATTCAGGTAGAGGTTTTATTTGTTCATAATCAAGTAGGAAAAATGAAATATGTAAATGAACAAGGAAATCCGAAAGCACCACGTTTTTTTCTTGGCAGAACTCGTGAAGGGGGTATAACGGGATATCATTGTAATGTGGATGATGAAACGGTAAGTAAGATTGAGAAGTTAATTCGAGAACCTTCAAAGCATATAGAGATAGCAAAGATTATTAATGTATTAAATGAAGAAAGAACAGTGGAAAATGTTTGGATGGGCCCTGCTTTCATGTTTACTAGTAATTTACATAAGCCGACTAGAACAATACAAATAACGGAGAAGAATAGAGAGCTTTTACGAGAAAATTTTCCTAATCTAATAGAACAGATGGAATGGAGGAAACCTTATTTTGCAATTGTAAAAAATGAAAAGGTGGTTTCTGTTTGTTGCAGTGCCAGAAGTACCCCCGTAGCTGCTGAGGGAAGTGTGGAAACTTTAACCGAGTTTCAAGGGAATGGATATGGTACTGATGTTGTTACAGCTTGGGCCATAGCAATACAAGAGGAAAAGCGCATTCCACTTTATAGTACTTCCTGGGATAATTATGCCTCACAAGCAGTTGCGAGAAAACTAAAACTGATTGACTATGGAATGAATTTGCATATCACTTGA	MTLSELDLIVIQVEVLFVHNQVGKMKYVNEQGNPKAPRFFLGRTREGGITGYHCNVDDETVSKIEKLIREPSKHIEIAKIINVLNEERTVENVWMGPAFMFTSNLHKPTRTIQITEKNRELLRENFPNLIEQMEWRKPYFAIVKNEKVVSVCCSARSTPVAAEGSVETLTEFQGNGYGTDVVTAWAIAIQEEKRIPLYSTSWDNYASQAVARKLKLIDYGMNLHIT				NA	NA	NA	NA	NA
AK009_04798	567			hypothetical protein	ATGTTTAAAGAACCTTATATTGCGATGATAAAGGATTGGAAAGGATACAAAGCATACAAACAATTGCCGAAAACAGTTTTTCTTATGACGGGTTCAATGCTGGAATTACCAGAGCGTGTATACGAATTGCAGAAACATGGACATGATGTATTTCTTCATTGTGATTTTATACAAGGCTTAAATACGAATACAGAGGAAGCGCTTTTGTATATTCAAGATGTTATCGGGGCACAAGGTATTATTTCAACAAAGGGTTCGACAATTCGAAATGCTAATAAAATTGGATTGAAAACAATTCAACGTATTTTTATTGTAGATACTTTATCCCTTACTAAATCAATTGAAAATTGTAAAACGACTAAACCAAATGCAGTAGAGATTATGCCGGGGATTATGCCGTCTATAATTAAACAGCTAGCAGAGGAAATAGAGTTTCCTATTATTGCAGGCGGGCTGATTCAAACGCGAGAAGATGCGGAAATTGCAATTCGTGCAGGAGCAAGTGCGATTTCAACAAGTCATTATGAAGTATGGATACAAGAAGAAAAAAGGAGTGCAACCTTGTGA	MFKEPYIAMIKDWKGYKAYKQLPKTVFLMTGSMLELPERVYELQKHGHDVFLHCDFIQGLNTNTEEALLYIQDVIGAQGIISTKGSTIRNANKIGLKTIQRIFIVDTLSLTKSIENCKTTKPNAVEIMPGIMPSIIKQLAEEIEFPIIAGGLIQTREDAEIAIRAGASAISTSHYEVWIQEEKRSATL	PGPT0022030_306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
AK009_04799	1098	msmX_2	COG3839	Oligosaccharides import ATP-binding protein MsmX	GTGATTGAATTGAAAAATGTTTCAAAGGTATATAAAAATGCAAAAGAGACGGCGGTTAAAGGCGTATCGGTTCATATTAAGAAGGGCGAATTTTTTGTTTTAGTTGGACCTTCGGGATGCGGGAAAAGCACATTATTACGAATGATTGCTGGCTTAGAAGAGATTTCTTCGGGAGATTTAATTATTAATGAACGTGTTGCAAATGATATAGAGCCGAAAGACCGTAATCTATCAATGGTATTTCAAAATTATGCATTATATCCACACTTATCTGTAGAAGAAAATATTTTATTTGGACTTAAGGTAAGAAAAGTACAAAAAGAAGAGCGACAAAAGCGATTAATGGAAGCTATTGAAATGGTAGGACTGAAAGAGTATGTGAAAATGAAACCAGGCCAATTATCAGGCGGACAAAGACAGCGTGTTGCACTTGCCAGGGCAATTGTGAGTCAAGCACCAATCTGTTTAATGGATGAACCACTTTCGAATTTAGATGCAAAATTACGTGCGCAAATGAGAATTGAAATTAGAGAAATTCAGCAGCGATTAGGAATTACGATGATTTACGTTACCCACGATCAAATAGAAGCGATGACTATGGGAGATCGTATCATGGTTTTAAATAAAGGAAGTATACAGCAAGTTGGAACACCACTTGACATATATAACGAACCAGCAAACGAATTTGTTGCAAGCTTTATAGGTTCTCCTTCTATGAATATAAATGATGGAGAAGTAGATAAAGAAAAAGGTGTATTACATATAGGGCAATTGCAAATTCCATTATCTATTGGACAGTTAAAGCAATTACCAGAAGGAATAATTCGTATAGGCATGCGTCCTGAGCATATTGCACTGTCTGAGGAAGGACAAGAAGTGACGCTGCAATCTGTAGAAGTATTAGGGAATGAATCTATATTAAATTTTGCGGTAAATGGAACAACTTGGAGTGCGAAAGTCATCGGACAGTTACTCCTGAACAAAGGTGACAAAGTAAAATTATTATTCTCGCAAGAAAAGTTATGCTTCTTTAACGAAAACACGAATGAACGCTTAAAAGTGGTAGCTGAAGAAGAGTTGAAAGTGGTGGCGAAATAA	MIELKNVSKVYKNAKETAVKGVSVHIKKGEFFVLVGPSGCGKSTLLRMIAGLEEISSGDLIINERVANDIEPKDRNLSMVFQNYALYPHLSVEENILFGLKVRKVQKEERQKRLMEAIEMVGLKEYVKMKPGQLSGGQRQRVALARAIVSQAPICLMDEPLSNLDAKLRAQMRIEIREIQQRLGITMIYVTHDQIEAMTMGDRIMVLNKGSIQQVGTPLDIYNEPANEFVASFIGSPSMNINDGEVDKEKGVLHIGQLQIPLSIGQLKQLPEGIIRIGMRPEHIALSEEGQEVTLQSVEVLGNESILNFAVNGTTWSAKVIGQLLLNKGDKVKLLFSQEKLCFFNENTNERLKVVAEEELKVVAK	PGPT0016850_454	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
AK009_04800	933	ugpA	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGATCGAAGTAAGTAAGTTACCAGTTCAAACAAAGGTGTCAAAAAAGAAAAAATTATGGGAGAGAACGAAAGATTTAAGAATAGGATTATTGTTTTTGGCGCCATCTATTTTGCTATTTTCGATTTTTCTGTTCTATCCATTGTTTAGGACGATTTATTATAGTTTTTATTTAACCAATATACATGGAGAAGCTAATCTCTTCGTTGGCTTAGAAAATTATCAATATTTATTCTCTGATCCAGCCTTCTACAAAAGTATAAAATCAACTTTATTATTTGTTTTATATACAGTTCCTACGAGTATTATATTTGCTTTGTTTCTTGCATTGATTGCAAATGGAAAGGTAAGAGGTATTGGGTTATTCCGAGTTCTGTTTTCTTCGACGATGGGAATATCAGTAGCTGCTAGTGCAGTGATTTGGCTATTTTTATTTCATCCAAGTGTAGGATTATTTAATAATATATTAGCCTCTATGAACCTTCCTGCAATCGCATGGTTAACGAGTCCGGACTGGGCACTATTCTCTGTATCAGTTACAACAGTTTGGGTGAATACAGGTTTTGCATTTTTAGTTATATTAGGTGGTTTACAAAATATTGATACGTCTTTATATGAGAGTGCATCTATAGATGGTGCTAGTTATTTATATAAGCTTCGCCGTGTTACATTACCGATGCTATCGCCAACTTTATTCTTTATTGTAACAGTAACATTAATTAGTGCGTTCCAAAGCTTTGGACAAATTGATATTTTAACGCACGGTGGACCAAATGATGCAACGAATTTAATTGTGTACTCGATTTACAAAGAGGCGTTTGTGAATCATCAATTTGGAACAGCAAGTGCACAAGCGATGGTATTATTTGTTTTCATTTTCGTTGCTACATTACTTCAATTTAAGTTTGCTGAGAGAAAGGTGCATTATAAATGA	MIEVSKLPVQTKVSKKKKLWERTKDLRIGLLFLAPSILLFSIFLFYPLFRTIYYSFYLTNIHGEANLFVGLENYQYLFSDPAFYKSIKSTLLFVLYTVPTSIIFALFLALIANGKVRGIGLFRVLFSSTMGISVAASAVIWLFLFHPSVGLFNNILASMNLPAIAWLTSPDWALFSVSVTTVWVNTGFAFLVILGGLQNIDTSLYESASIDGASYLYKLRRVTLPMLSPTLFFIVTVTLISAFQSFGQIDILTHGGPNDATNLIVYSIYKEAFVNHQFGTASAQAMVLFVFIFVATLLQFKFAERKVHYK	PGPT0016840_314	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
AK009_04801	822	lacG		Lactose transport system permease protein LacG	ATGATTGTTAAACAGTGGAAACAAAATTTCCTATTATACATGCTACTCATTATTAGTGCAGTGATGGTGTTTTTTCCTGTACTGTATGCATTTTTAATAAGCTTTATGACACCAGACGATATTCAAATGAGAAGGTTATTTCCGACCCAGTTTACTTTTGATAATTTCATTAATATTTTTCAAAAAGTACCGCTTTTTACATACTTATATAACAGTTTAATTGTATCGACAGTCGTTATGATTGGACAACTTATCGTATCAAGTTTAGCAGCTTATGCTTTTGTTTTTCTTCAGTTTAAAGGGAGAAACTTAATTTTCTTCCTGTTTATTTCAACGATGCTTATTCCGTGGGAAGCAACGATGGTGCCTAACTTTTTAACGATTCAAAACTTTGGCTGGATCAATAGTTTCGCCGGGATGACAGTGCCGTTTTTTGCAACAGCTTTCGGTATTTTCTTGTTACGCCAACATTTTATGACACTCCCGAATGAACTGAAAGAAGCTGCTTTTATTGAAGGGATTGGAAATATAAGATTTTTATTCAGCGTTGTAATACCGTATTGTAAAACGAGTTTTATTACGCTTGGAGTATATAGCTTTTTAACAACATGGAATATGTATTTATGGCCACTTTTAGTGACCACTGATGAAAAAGTAAGAACAGTGCAAATCGGTGTAAAGCAGCTTCAGTCTCAAGAAGTTGCAACTGATTGGGGAAGTGTAATGGCCGGTGTTACGGTTATCGTTATTCCAACATTGATTTTACTATTTTTAGGACAAAAACAATTACAACAAGGATTAACAAAAGGTGCAATTAAATAA	MIVKQWKQNFLLYMLLIISAVMVFFPVLYAFLISFMTPDDIQMRRLFPTQFTFDNFINIFQKVPLFTYLYNSLIVSTVVMIGQLIVSSLAAYAFVFLQFKGRNLIFFLFISTMLIPWEATMVPNFLTIQNFGWINSFAGMTVPFFATAFGIFLLRQHFMTLPNELKEAAFIEGIGNIRFLFSVVIPYCKTSFITLGVYSFLTTWNMYLWPLLVTTDEKVRTVQIGVKQLQSQEVATDWGSVMAGVTVIVIPTLILLFLGQKQLQQGLTKGAIK	PGPT0016845_1459	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
AK009_04802	1377	ugpB	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGAGTTTAGTAAAAAAAGGTGCTGCCCTATTAATGGCAGCAACAATGGCATTATCTAGTGCCGCTTGTTCAAATAGTAAAACAGAGGGAAAACCTGAAGCGCAGGCAAAAGTAGCACCAGTTGAAAAAAATGGTGATAAAACTGTAATTCGCTTCTGGCATGCGATGGGTGGAAAAACACAAGGTGTACTAGATAGTCTTGTTGCAGACTATAATAAGTCACAAAGTAAATACGAGATAAAGGCAGAGTTCCAAGGGACATATGAAGAGTCTTTAACGAAGTTTAGAACGATGTCTGCAACGAAAGAAGCGCCAGCTCTTGTTCAATCGAGTGAAATTACAACGAAATATATGATTGATAGCAAAAAAATCACACCAATTGATAGCTGGATAAAAAAAGATAAGTACGATACGTCAAAATTAGAAAAAGCAATTACAAATTATTATTCAGTTGATGGAAAAATGTATTCTATGCCATTTAATTCATCTACACCAGTATTAATTTATAATAAAGATGCTTTCGCAAAGGCGGGCTTAGATCCAGAGAAAGCTCCAAAAACATATGTGGAATTACAAGAAGCAGCGAAAAAGTTAACGATTAAAGAAGGCGGAAATGTAAAACAATATGGATTCTCCATGCTTAACTATGGTTGGTTCTTTGAAGAGTTGTTAGCGACACAAGGTGCTTTATATGTAGATAATGAAAACGGCCGTAAAGATGCTGCAAAGAAGGCGGTATTTAACGGTAAAGAAGGACAGAAAGTATTTGGAATGTTAGATGATTTAAATAAAGCTGGCGCACTTGGAAAGTATGGAGCAAGTTGGGATGATATTCGTGCTGCGTTCCAGTCTGGACAAGTTGCTATGTATTTAGATTCTTCAGCAGGTGTTCGCGATTTAATTGATGCATCTAAGTTTAATGTAGGTGTTTCATATATTCCATATCCAGAGGATTCGAAACAAAATGGTGTTATCATTGGAGGCGCATCATTATGGATGACGAATATGGTTTCAGAAGAAACGCAACAAGGTGCTTGGGACTTTATGAAATATTTAACGAAGCCAGACGTACAAGCGAAATGGCATACGGCAACAGGCTATTTCTCAATTAATCCAGATGCATATAATGAGCCGTTAGTAAAAGAGCAATATGAAAAATATCCACAGTTGAAAGTAACAGTAGATCAACTGCAAGCGACGAAGCAATCTCCAGCAACACAAGGTGCTTTAATTAGTGTATTCCCAGAATCACGAGATGCAGTTGTAAAAGCATTAGAAGCAATGTATGACGGAAAGAATAGTAAAGAAGCGTTAGATGAAGCTGCCAAAGCAACAGATAGAGCAATTAGCATTTCATCTCGTACGAGTCAAAAATAA	MSLVKKGAALLMAATMALSSAACSNSKTEGKPEAQAKVAPVEKNGDKTVIRFWHAMGGKTQGVLDSLVADYNKSQSKYEIKAEFQGTYEESLTKFRTMSATKEAPALVQSSEITTKYMIDSKKITPIDSWIKKDKYDTSKLEKAITNYYSVDGKMYSMPFNSSTPVLIYNKDAFAKAGLDPEKAPKTYVELQEAAKKLTIKEGGNVKQYGFSMLNYGWFFEELLATQGALYVDNENGRKDAAKKAVFNGKEGQKVFGMLDDLNKAGALGKYGASWDDIRAAFQSGQVAMYLDSSAGVRDLIDASKFNVGVSYIPYPEDSKQNGVIIGGASLWMTNMVSEETQQGAWDFMKYLTKPDVQAKWHTATGYFSINPDAYNEPLVKEQYEKYPQLKVTVDQLQATKQSPATQGALISVFPESRDAVVKALEAMYDGKNSKEALDEAAKATDRAISISSRTSQK	PGPT0016835_135	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
AK009_04803	705	pphA	COG0639	Serine/threonine-protein phosphatase 1	ATGAAAAGAATTCTTGTTATTAGTGATATTCATGGAGAAATAGAAAAGTTCGAACAGTTGTTGAAAGAAGCTCAATATAATGCGAAAAAGGATCAATTAATCTTACTGGGAGATTATGTAGATCGTGGTCCAAATGCGCGTGCTGTAATTGAAAAGGTAAAAGAATTGAAAGAAGAGGGAGCACTCATTTTAAAAGGAAATCATGAAGATATGATGATTAAGGCGTTAACGACAAATGAGGAACGTTCATGGAACCATTGGGTAAAAAGAAATGGTGGAGATAAGACATTATATAGTTATGGATTTGTAGAAGAAGATATTGCGGTTAATGAGAAAGACTTCCAAAAACCGATTTTACAATCTTCTGTATTAGAGGAACATATAAAGTTTATTCAAGAATTAGATCATTACATTGAAACAGAAGAGTATATATTTGTACATGCTGGGGTTGAGCCGATGAAACGAGTTTCTGAATCTGAACCATATACGTTAATGTGGATCCGTAATGAATTTCATAATGGATATAGCGGTGAAAAGGTTGTTGTATTTGGGCATACGGAAACAAAAACGCTTCATAGTAGTGAGGATTGCGGAGTGTATTTTGGTAGTAATCGTATTATTGGAATTGATGGCGGGGCTGTGTATGGTGGTCAGCTAAATTGTTTGGAGTTGCCAAGTAAAAAGGTATATGTAATAAAAAATTGA	MKRILVISDIHGEIEKFEQLLKEAQYNAKKDQLILLGDYVDRGPNARAVIEKVKELKEEGALILKGNHEDMMIKALTTNEERSWNHWVKRNGGDKTLYSYGFVEEDIAVNEKDFQKPILQSSVLEEHIKFIQELDHYIETEEYIFVHAGVEPMKRVSESEPYTLMWIRNEFHNGYSGEKVVVFGHTETKTLHSSEDCGVYFGSNRIIGIDGGAVYGGQLNCLELPSKKVYVIKN				NA	NA	NA	NA	NA
AK009_04804	672	arlR_1	COG0745	Response regulator ArlR	ATGCGCTTACTTGTAGTAGAAGATAATACTTCGTTATTAGAATCTATCGTACAAATTTTGCGTGATGAATTTGAAGTGGATACAGCATTGAATGGAGAAGATGGATTGTTTTTAGCGCTTCAAAATATATATGATGCAATTTTGTTGGATGTGATGATGCCAGGGATGGACGGATTTGAAGTGATTCAAAAAATACGTGATGAAAAGATTGAAACACCAGTCCTGTTTTTGACAGCGAGAGATTCTTTAGAAGATCGGGTGAAGGGATTGGACTTTGGTGGAGATGACTATATCGTTAAGCCATTTCAGGCCCCTGAATTAAAAGCGAGAATTCGCGCTTTACTACGCAGAAGTGGTAGTTTAACAACGCAGCAAACGATTCGCTATAAAGGGATTGAATTGTTCGGAAAAGATAAAGACGTTCAAGTAGATGGACAAGGTATTAAGTTGACATTGAAACAATATGAGCTACTAGAGTATCTCATTCAAAATAGCGGGAAGATTTTAATGCGTGAACAAATTTTTGATCGTGTTTGGGGATTTGATTCAGATACGACAGTAGCGATTGTAGAAGTGTATGTGCATCATTTACGTAAAAAATTAGAGCCATTCGGTTATCAGAAAGATATTCAAACCGTTCGAGGTATTGGATATATATTAAAAGAACAATGA	MRLLVVEDNTSLLESIVQILRDEFEVDTALNGEDGLFLALQNIYDAILLDVMMPGMDGFEVIQKIRDEKIETPVLFLTARDSLEDRVKGLDFGGDDYIVKPFQAPELKARIRALLRRSGSLTTQQTIRYKGIELFGKDKDVQVDGQGIKLTLKQYELLEYLIQNSGKILMREQIFDRVWGFDSDTTVAIVEVYVHHLRKKLEPFGYQKDIQTVRGIGYILKEQ	PGPT0004105_597	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
AK009_04805	1236	sasA_18		Adaptive-response sensory-kinase SasA	ATGTTTCAAAAGACACGCATTCGTTTGACTATAGTGAATTCATTAGTATTTATCCTATTAATAGGTATATTAGGCAGTATTATTTATTCATACACATATAAGCGTATTTATAATGAAGTGGATCAATCTATAAAAATGATGGCTCAGTATAGAGAAAAATTAGATGTTAAAATACCACCAAGAAAACGCATAGAGAATATCCAGATTGGAGATCCGCGAGTAACTAGAATAACTTGGAATGGGAAAATAGTGAAAATAGAGGGCGATAACCGTAAATTCCGTTCTATTTTTGAAGAGAATTTGGAAAAGTTTTCTCCAAAAAAATTAGGGGAGTTACAAGATATTGAAGTACAAGGACGATATTTTAGAGCATTTTCGCTTCAAAAAGATGGAGAAATAGTTCAAATCGTGCGAGATATAACAGCGGAAGAAAGAATGTTAAATACTTTATTTTTAATCCTCGTTATAGGTTGTAGCATAGGAAGCCTCTGTGCGATAGGTATCGGCTTTTTCCTAGCTGGCAGAGCACTTGTACCTATTCAAAATTCATGGGAGAAACAGCAGCAATTCGTTTCTGATGCATCACATGAACTAAGGACACCGCTTGCAGTTATTCAATCAAAAACGGATGTGTTATTCCAATCACCATCCGCTACGATAGAAGAAAAAGCGATGGATATTTCTACAATTTCAAAAGAATGTAGGCGGTTATCGAAACTCGTTAGTAATTTATTATTGCTAGCACGTTCTGATTCTAATCAAATTGAGATGGATAAGAAAACATTTGAACTTGATAAATTGTTAGAAGAAATAGTAGCTCCATATAAAGAGATTGCTTCTTATCAGGAAAAAGAAATGATACTAAAAGTAGAACGTGGTGTATCTTTTATGGGGGATAGAGAGCGGATTCATCAAATGATGGTCATACTGTTAGATAATGCGATGAAGTATACAAACGAAGGTGGGCATATTCAAATAGATTGTACGCAAATGAGTAGTTCAATTCGTATACAGGTGAAGGATGACGGGATAGGAGTGAAAGAAGAAGATATTCCGAAATTATTTGATCGTTTTTATCAAGGGGATAAAGCAAGAAGTACGTCAGAAGGAGCTGGATTAGGTCTTTCAATCGCAAATTGGATTGTAGAAAAGCATTATGGAAAAATATCAGTAGAGAGCAGATGGGGAAATGGCACTTGTTTTGAAGTGATTTTCCCTAAAAATCAAAAAATATAA	MFQKTRIRLTIVNSLVFILLIGILGSIIYSYTYKRIYNEVDQSIKMMAQYREKLDVKIPPRKRIENIQIGDPRVTRITWNGKIVKIEGDNRKFRSIFEENLEKFSPKKLGELQDIEVQGRYFRAFSLQKDGEIVQIVRDITAEERMLNTLFLILVIGCSIGSLCAIGIGFFLAGRALVPIQNSWEKQQQFVSDASHELRTPLAVIQSKTDVLFQSPSATIEEKAMDISTISKECRRLSKLVSNLLLLARSDSNQIEMDKKTFELDKLLEEIVAPYKEIASYQEKEMILKVERGVSFMGDRERIHQMMVILLDNAMKYTNEGGHIQIDCTQMSSSIRIQVKDDGIGVKEEDIPKLFDRFYQGDKARSTSEGAGLGLSIANWIVEKHYGKISVESRWGNGTCFEVIFPKNQKI				NA	NA	NA	NA	NA
AK009_04806	822			hypothetical protein	TTGAAAAAGAAAATGATGACGGTATTCACTATTGGAGTAATGAGTTTAAGCATATTAGGGGGTGCCTCTCCTTCTGAAACACAAAAAGGAAAGACAGATTACACGCAGCGCAGTAAAGAACAATTGAACAATGGTAAGATACATGCAGTGCATACAGAAGAAAAAGCAGAGGAACTAGGTATTGAAACGGAAGGAAAAGAACAAATTACATTAGAAAAAGAAATTCATGAAACAGAAGTAGGAAGGGAAGCAGAGCAGTTAGGTATTTCGATTGAAGGAAAAGATGTTGGGACGCTGTCAGAAGAAATCTATGAAACAAAAGTAAAGCAAGAAGCGTTAAAGCTAGGTATATCTATAGAGAATACATCAATTGTAGATTTAATTACTCAAATTAATACGATCAAAATTAAAGATGAAGCAGATAAATTAGGCATTTCTACAGATGGAAAAGAAATTGAAGACATCGCGGAAGAAATCTACGGAACGAAAGTAAGAGAAGAAGCAGGAAAGTTAGACATTTCTCAAAAAGGAAAAGAAATTGAAGAGTTAGCACAACAAGTGTACGAACAAAAAGTACAGGAAGAAGCAAAAAAATATCATATTGATTTGTACGGTAAAGATATATATCAAATATTAAAAGAAATTAATGAACAAAAGGTGCTACAAATGGCAGATGAGCTTAATATGGATAAAATGAATATGAATATTCAAGAGTTAGCGGAAAAGATAAAAAAAGATCAGCCTGAAAAAGGAAAAGAACTAAATTTTGTACCGATGATTAGAACGGATGCTGACGCATTTTATTCTTATTTAACGAATTAA	MKKKMMTVFTIGVMSLSILGGASPSETQKGKTDYTQRSKEQLNNGKIHAVHTEEKAEELGIETEGKEQITLEKEIHETEVGREAEQLGISIEGKDVGTLSEEIYETKVKQEALKLGISIENTSIVDLITQINTIKIKDEADKLGISTDGKEIEDIAEEIYGTKVREEAGKLDISQKGKEIEELAQQVYEQKVQEEAKKYHIDLYGKDIYQILKEINEQKVLQMADELNMDKMNMNIQELAEKIKKDQPEKGKELNFVPMIRTDADAFYSYLTN				NA	NA	NA	NA	NA
AK009_04807	750			hypothetical protein	GTGATAAGAAAATTGAAGTGGTATATATGTACAGCTTTACTAGGTGCAGCAATATGGAGTGTATATACAAATGGAATTCCAAAGTATGTAGAGAAGTTTACATTCTCAAATATACAAAGAGGAAAAGAAACGGAGTTTAGTAATAACGATGAAAAAGTCATCTTATCAAATGTTCCATTAATTCAGCAGTTACCAGAATTGGATAGAGGCTGTGAAGTGACAAGTTTAGCAATGATGTTACAATACGCTGGTGTTTCAGTGGATAAGATGACATTAGCAAATGAAATAAAAAAAGTTGATTTTATAGACGATGGTGTGCGCGGGAATCCGAATGAAGGATTTGTAGGTAATATTTATACATTCTCTGAATCAGGATATGGTGTATATCATGGGCCACTTTTTCAGTTAGCAGAAAAATATTTACCTAATAAAGCTGTAGACTTAACTGGGAAGAATATAGAAGAGATTTATAAGAGTGTAAAAGCAGGGAAACCGGTAGTCATGATTACGAATGCAACATTTGCACCATTAGATGAAGATGAATTTACTACATGGGAAACAAATAGTGGAGATGTTTCTATTACGTATAATGAACATTGTATTGTACTTATTGGGTATGATCAGGAATCTGTATATATTCGAGATCCACTTGAGGATAGCTTAGATGTAAAAGTACCGAGAGAAAGCTTTGAACAGGCATGGGTGCAAATGGGGAGTCAGGCAATTAGTTATGTAAAGAGCTCCAAATAA	MIRKLKWYICTALLGAAIWSVYTNGIPKYVEKFTFSNIQRGKETEFSNNDEKVILSNVPLIQQLPELDRGCEVTSLAMMLQYAGVSVDKMTLANEIKKVDFIDDGVRGNPNEGFVGNIYTFSESGYGVYHGPLFQLAEKYLPNKAVDLTGKNIEEIYKSVKAGKPVVMITNATFAPLDEDEFTTWETNSGDVSITYNEHCIVLIGYDQESVYIRDPLEDSLDVKVPRESFEQAWVQMGSQAISYVKSSK				NA	NA	NA	NA	NA
AK009_04808	1977	mcpA_3	COG0840	Methyl-accepting chemotaxis protein McpA	ATGCAAAAAATATTTAACTGGGTTAAATGTATGAGTATCAAGAAAAAATTAATCATTTCATTTTTTATTATTTTAACTATACCAGGAATTATTATCGGTGGTGTTTCATATCAAACTGCCAAAACAAATTTTGAACATCAAATGACAGATAAAGCAAAGGAGAATATTTCAGTTTTAAATACTGTTATTTCTCAAAATATAGAAGAGAAATTTGTTGATGCGACGTATTTTGCAGACATCTTAACAGAGGATACATATCCAAATGGACAAGAAGAGATAGTGAGAACGAAGTTAGCACAATATATAAAGCTTCATCCAGAAGTAGAAGGTATTTATATTGGAACGCAGACGGGAAAGTTTATAAGAGAACCATTTATCCAAATGGCTGATGGGTATAATCCAACAGATAGATCTTGGTATAAAGAAGCACATGAAAATAAAGGGAAAGTAATTGTTACTGCACCATATCAATCAGCATCTACAAAAAATATGGTAGTGACCATTGCGAAAGAAGTAAAAGATGGTAAAGGTGTTATAGGAATTAACTTAAATTTAGATAACATCTTAAAAATTTCCAAAATGATTAACATTGGTGAAAAAGGTTATGCAGTTATTTTAGATCAAAATAAGCAAATTGTTAGTCATCCATCTAGAAAACCAGGTGCGAAAGTTACTGATCCTTGGGTTAAACCAATTTATGAAGATAAACAAGGAAATGTGTCTTATACAGAACAAGATGATAAAAAGAATTTAATCTTTGCAACAAATGAAAAAACCGGCTGGAAAGTAGTTGGAGTTATGTTCGATGAAGAAATTACCCAAGCTGCCAGTCCAGTGTTTTATAAGACTTTAATTGCTATCGCTATTGCATTTGGTAGTGTATTAATTTATTTCATTACAAGGTCTATTACAGGGCCATTACGAAAAATAGCTGAATCAGCATATAAAATTAGTAAGGGAGATTTAACAGAGAAAATTACAATCCATTCTAAGGATGACATAGGGAAATTAGGGACTTCATTTAATGAAATGTCTACGTCTTTACAAGATGTTATTACCCAAATTAGCTTTTCAGCAGAACATGTCGCGGCATCGGCTGAGGAGTTAACAGCGAGCGTACAGCAAGCAAATGATGCGACAGATCAAATTACAATTGCAATGGAACAAGTATCAGGTGGGGCTGAATCACAAAGTCAAGGTGTTGAAGAAGGTGCGGCTACATTACAACAAGTAAATACAGCAATTCAAGATGTAACCGGAAGCGCAGAGTCAATTTCTATTTCCTCATTACATGCGAGAGAAAGAGCTGAAGAGGGAGAAGATTTAGTTGAACAAACTGCAAAACAAATGCAGTCTATTTCTAGGTCGGTATCCGAGTCAGATGCTATTATTAAACTTCTTGATGAGAAATCAAAGCAAGTAGGAGCTATTTCTGAAGCAATTCAAAACATAGCTACTCAAACGAACTTATTAGCTTTAAATGCGGCTATTGAAGCAGCAAGAGCAGGTGAACAGGGTCGAGGATTTGCTATTGTAGCAGATGAGGTTAGAAAATTAGCAGAGCAATCAGGAGAGTCATCTGGAGAGATTGCAAATTTAATTGCAGAAATTAAGGCGGATATTGAACATACTGTTAAGGCAATGGATAATGTGAATGGAGAAGTTCAACAAGGCCTTGATGTTGTAACAAAAACGAAAGTAAGTTTTACGGAAATTTTAAGTTCTACTACACATATTGTTTCTCAAGTTAATCAAATGGTAGAAACAACGAAGAGAATTGCTGGAGATGCAAATGAAGTGACAAATGCTATTGATGAAATTGCAGCGGCTGCAGAAGAAAATACAGCTAGTATGCAAAGTGTTGCAGCTTCAACAGAAGAACAGGTTAATTCAATGGAGGAAATTAGTTCAGCTTCGCAAAACTTAGCTGGGATGGCCGAAGAACTACAAGCGATGACTAGTAAATTTAAAGTATAA	MQKIFNWVKCMSIKKKLIISFFIILTIPGIIIGGVSYQTAKTNFEHQMTDKAKENISVLNTVISQNIEEKFVDATYFADILTEDTYPNGQEEIVRTKLAQYIKLHPEVEGIYIGTQTGKFIREPFIQMADGYNPTDRSWYKEAHENKGKVIVTAPYQSASTKNMVVTIAKEVKDGKGVIGINLNLDNILKISKMINIGEKGYAVILDQNKQIVSHPSRKPGAKVTDPWVKPIYEDKQGNVSYTEQDDKKNLIFATNEKTGWKVVGVMFDEEITQAASPVFYKTLIAIAIAFGSVLIYFITRSITGPLRKIAESAYKISKGDLTEKITIHSKDDIGKLGTSFNEMSTSLQDVITQISFSAEHVAASAEELTASVQQANDATDQITIAMEQVSGGAESQSQGVEEGAATLQQVNTAIQDVTGSAESISISSLHARERAEEGEDLVEQTAKQMQSISRSVSESDAIIKLLDEKSKQVGAISEAIQNIATQTNLLALNAAIEAARAGEQGRGFAIVADEVRKLAEQSGESSGEIANLIAEIKADIEHTVKAMDNVNGEVQQGLDVVTKTKVSFTEILSSTTHIVSQVNQMVETTKRIAGDANEVTNAIDEIAAAAEENTASMQSVAASTEEQVNSMEEISSASQNLAGMAEELQAMTSKFKV	PGPT0015710_8002	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
AK009_04809	1605	dcuS	COG3290	Sensor histidine kinase DcuS	ATGAAAAAAAGAAAAAGACTATGGAATTTGTGGAAAACGATTACATTGTTAGTTTGTACAGTTGTAATTTTTTCTTTACTTGTGACAGATATATTAATTAGTCATAATGTAGAACGGGCGACGGAGGATAGCCAAGCAGAGAAAGCAAAAACAATTGCACACATTGTGGCGAATGATTCAATTGTAATCAATGGCTTGGTTGGGAAAGCGGATACTCCTGCAATCCAAACGTATACAAATAGGATATTAAAAAACACAGGTGTTCAATTTATTGTAGTTATGGACATGGATGGAATAAGAAAATCTCATCCAGATCCTCAAAAAATAGGTCGTCATTTCATTGGTGGGGACGAAGGGCCTGCATTGAAAGGAAAAGAACATGTATCGTTAGCAGAAGGAACTTTAGGTATTTCCATGCGAGTGTTTGTACCAATATTTTCTGAAACAGGTGAACAACTTGGAGCAGTGGCCGTTGGTATTTCAGCAGATAATGTAAAAGAGAGAGTTAAGGAAAGTAGACATATCATTTATATTGGTGTCGGAGTTGGAGTATTAGTCGGAATTATAGGAGCAATATTGCTAGCTAGACATATCAAGAAAAGTTTATTCGGTCTTGAGCCGCACAGGATAGCAAAAATTCTTGAAGAAAGAAATACGATGCTACAATCTGTAAAGGAGGGGATCATTGCTGTAGATAAAGAGGCTAGAGTAACGTTAATTAATAATGAAGCAAAACGTCTATTTAAAAAAAGTGGACTTGAAGAAAATTTTATCGGTAAAGATGTTGAGTTGTATATGCCAAATTCACGTATAAAAGAAGTATTGCAAACGGGAGAAGTACAATTAAACGAAGAACAAAATATTTATGGAATTACGATTGTGACGAATCGAGTTCCTTTATATGTAAAAGGAGAAATAGTGGGTGCAATTGCAACATTTCGTGATAAAACAGAGATTAGAAAACTAGCAGAGGAACTAACTGGTATTAGACTATATGCAGAAGCATTACGGGCACAATCTCATGAGTTTATGAATAAGATGCATGTCGTATTAGGGCTTACACATATGAAACAGTATGAAGAATTACAGAAGTATATAAGCGGTATGGTATCAGAGCATCAATATGAAATTGGTGGAGTTATGAAAAGAATAAAAAGTCCAGTATTTGCTGGTTTTTTACTAGGTAAGCTCAGCTATGCTAGAGAGAAAAATATAAAATTAATTATAAGTGAAGATTCTTATATGCCGGAAATAGATGATGAAAGTATTACTCATGAACTTATTACGATTGTCGGAAATTTAATTGATAATGCATTAGAAGCAGTGACGAATTGTGAAAAGAAGCAAGTTGAAATTGAGATACAACATGGGGATATATTAACTATTACAGTACAAGATACGGGAAAAGGTATACAAGAAAAAGAAATAGAGGAATTATTTACGAAAGGTTATTCCACAAAGGGAGATAACCGGGGTTATGGTTTGTATCTTGTAAAAGAAAGTATACAGCGAATAAATGGGGAAATTCATATGCATTCATTAGTAGGAAAGGGAACAACGATAACAATTGAAATACCTAAAGGTAGGGATGAGAGGCAAATATGA	MKKRKRLWNLWKTITLLVCTVVIFSLLVTDILISHNVERATEDSQAEKAKTIAHIVANDSIVINGLVGKADTPAIQTYTNRILKNTGVQFIVVMDMDGIRKSHPDPQKIGRHFIGGDEGPALKGKEHVSLAEGTLGISMRVFVPIFSETGEQLGAVAVGISADNVKERVKESRHIIYIGVGVGVLVGIIGAILLARHIKKSLFGLEPHRIAKILEERNTMLQSVKEGIIAVDKEARVTLINNEAKRLFKKSGLEENFIGKDVELYMPNSRIKEVLQTGEVQLNEEQNIYGITIVTNRVPLYVKGEIVGAIATFRDKTEIRKLAEELTGIRLYAEALRAQSHEFMNKMHVVLGLTHMKQYEELQKYISGMVSEHQYEIGGVMKRIKSPVFAGFLLGKLSYAREKNIKLIISEDSYMPEIDDESITHELITIVGNLIDNALEAVTNCEKKQVEIEIQHGDILTITVQDTGKGIQEKEIEELFTKGYSTKGDNRGYGLYLVKESIQRINGEIHMHSLVGKGTTITIEIPKGRDERQI	PGPT0019555_83	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
AK009_04810	708	dcuR	COG4565	Transcriptional regulatory protein DcuR	ATGATTAAAGTTTTAATTGTAGAAGATGACCCGATGGTAGCAATGTTAAATACGCACTATTTAGAGCAAGTAGGAGGGTTTGAACTTGTTCAAGCAGTTAACTCAGTAAAGTCGGCGATAGAAGTATTAGAGACATCACGAGTGGATTTAGTATTACTTGATATTTTTATGCCTGAAGAGACTGGGTTTGAGCTTTTAATGTATATCCGGAACCAAGAAAAAGAAATCGATATAATGATGATTTCAGCTGTACATGATATGGGGAGTATTAAAAAAGCATTACAATATGGAGTTGTAGATTATTTAATTAAACCATTTACATTTGAACGATTTAAAGAGGCATTAACTATATATCGAGAAAAATTTACTTTCATGAAAGAACAACAAAAAATTAGTCAATCGGAATTAGATTCGTTAATTTTACAAAAAGAAAAAAGAGAGCCTACTGTCACTAAAGAGCTTCCGAAAGGGTTAACGAAGCAAACGTTGCAATTAATTTGGCAGAAGATCGAGTCGCTGAATGGAAGAGTGTTTACAACAGATGAAATGGCACAATTAGTTGGAATTTCAAGAGTTTCTATTCGAAAATATGTAATGTTTTTGACTGACATTGGGGTGTTAGAAAACGAAATGATGTACCAACATGTGGGAAGACCTGTAAGTAAATTAAGATGTGTTGATCAAAAGAAAATAGAGTTTTACGTATAA	MIKVLIVEDDPMVAMLNTHYLEQVGGFELVQAVNSVKSAIEVLETSRVDLVLLDIFMPEETGFELLMYIRNQEKEIDIMMISAVHDMGSIKKALQYGVVDYLIKPFTFERFKEALTIYREKFTFMKEQQKISQSELDSLILQKEKREPTVTKELPKGLTKQTLQLIWQKIESLNGRVFTTDEMAQLVGISRVSIRKYVMFLTDIGVLENEMMYQHVGRPVSKLRCVDQKKIEFYV	PGPT0019560_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019560-malR-K11615	NA	NA
AK009_04811	1347	cimH	COG3493	Citrate/malate transporter	ATGGGAATTCAAAAGAATGTGGAAGCGGTATCATTTTCTGAAGGAAATGAAGTACAAAGAGAATCTTTCGCTTCTAAAATTATGAATGTAAAAATCGGTGTTATACCTTTACCGTTATATGTAGTATTGGCTGCTATTATTTATGGGGCATCTGTATATAATAAATTGCCAGCAGATATGATTGGTGGATTTGCAGTTATTATGATCATGGGGATTTTCTTAGGCGATATTGGGATGAGAATTCCAATTTTAAAAAATATCGGCGGTCCAGCAATACTTTCGTTATTTATTCCATCATTACTTGTATTTTTTAACTGGATGAATCCAGCTTCAATGGAAGCTGCGACAATGTTAATGAAAAAATCGAACTTTTTATATCTATATATTTCTTGTTTAGTAGTCGGAAGTATTTTAGGAATGAACCGTAAAGTGTTAGTACAAGGTTTCGTTCGTATGTTTATTCCTTTAGTAGTAGGGACGTTAGCTTCTGTAGCAGTAGGATTATTGGTCGGTTCACTATTTGGATTTGAAATGAAGCAGACATTCTTCTTTATCATCGTACCAATTGTGAGTGGTGGTATCGGGGAAGGAATTTTACCATTGTCGCTAGCTTATAGTGATATTTTAAATGAATCATCAGCAACGTTTGTATCACAGCTTATTCCAGCAGCTATTATTGGAAATATGTTCGCAATTGTAAGTGCAGGGTATATGAAGCGTTTAGGTGAGAAGAAACCGGAGCTTAGTGGTAACGGTGTATTAGTGAAAACGGACAATCAAGCAGAATTATTAAAAGAACAAAATACAGAGAAGCCAATTGACTTCTCATTAATGGGAGCAGGTTTATTAATTGCGTGTACGTTCTTCATCTTCGGAGGATTTGCTTCTAAGTTCATCGGTATTCCTGGGGCAATCATTATGATTTTCTCAGCAGCACTTGTGAAATACTTTAAATTAATGCCAGCGAAAATGGAGCAAGGAGCATTCCATTTATATAAATTTATTTCAAAAAATTTAACTTGGCCTTTAATGGTTGGATTAGGATTGCTATATATTCCGTTAAAAGACGTAGCAGCAGTTCTTTCAGTAGGATATGTTGTTGTGTGTGCATCGGTTGTTCTTACAATGGTAGCATCAGGTTTTCTTGTAGGGAAAGTGATGAAAATGTATCCAGTTGAATCAGCGATTGTAACTGGATGTCATAGTGGTTTAGGTGGAACTGGAGATGTCGCTATTTTATCGGCTTCAAATCGTATGGAATTAATGCCGTTCGCGCAAATTTCTACTCGTTTAGGCGGAGCGGCAATGGTTGTAACAGCGACAATATTATTAAAGATGTTTTCATGA	MGIQKNVEAVSFSEGNEVQRESFASKIMNVKIGVIPLPLYVVLAAIIYGASVYNKLPADMIGGFAVIMIMGIFLGDIGMRIPILKNIGGPAILSLFIPSLLVFFNWMNPASMEAATMLMKKSNFLYLYISCLVVGSILGMNRKVLVQGFVRMFIPLVVGTLASVAVGLLVGSLFGFEMKQTFFFIIVPIVSGGIGEGILPLSLAYSDILNESSATFVSQLIPAAIIGNMFAIVSAGYMKRLGEKKPELSGNGVLVKTDNQAELLKEQNTEKPIDFSLMGAGLLIACTFFIFGGFASKFIGIPGAIIMIFSAALVKYFKLMPAKMEQGAFHLYKFISKNLTWPLMVGLGLLYIPLKDVAAVLSVGYVVVCASVVLTMVASGFLVGKVMKMYPVESAIVTGCHSGLGGTGDVAILSASNRMELMPFAQISTRLGGAAMVVTATILLKMFS	PGPT0001690_145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001690-maeN-K11616	NA	NA
AK009_04812	1200			NAD-dependent malic enzyme	ATGTTAGCAAATCAAATTAATGAAAGATCATTGTTATTGCATAAAGAGTTAGTAGGGAAAATTGAAATTACAAGTAAAGTGGAGGTAAATTCAGCGGATGATTTAAGCCTGACGTATACACCAGGTGTAGCGGAGTCTTGTAAAGCAATTGCGGCAGATGAAGAAACGGTGTATGACTATACAGCACGTGGTAATATGGTGGCGGTTGTCTCAGATGGAACAGCGGTACTTGGTTTAGGAAACATTGGACCAAAAGCGGCTATGCCTGTTATGGAAGGAAAAAGTATTTTGTTTAAGAAGTTTGCGAATGTAGATGCTTTCCCATTATGTTTAGGCACAACGGATGTAGATGAAATCGTTACCCTTGTAAAAAATTTAGAGCCTACATTTGCAGGGATTAATTTAGAAGATATTGCAGCACCACGTTGTTTTGAAATTGAAAAGCGATTAAAAGAAGAAACGAATATTCCTATATTCCATGATGATCAACATGGAACAGCTATTGTCGTTTTAGCAGCTGTTATTAATGCATTAAAAGTTGTTAGCAAACAAATGGATAATGTAAAAATCGTTATTAACGGTGCGGGTTCGGCAGGAATTGCAATTGGAAAATTATTATTAAAGGCTGGTGCAAAGTACATTACATTAGTTAGCTTAGAAGGTATTGTTTGTGAAGGTGAAACATGGATGAACGAAGCGCAAATTGAAGTTTCAAAAAAGACAAATCGTGAACATGTGCGTGGAACGTTAAAAGAAGCGATTCACCAAGCTGATATTTTTATTGGCGTATCTGCTCCTAACGTATTAACGAAAGAACTTGTACAGACGATGAATGAGAAAGCAATTGTGTTTGCAATGGCGAATCCAATTCCAGAAATCTTCCCTGAGGATGCATTAGAGGCTGGGGCAGCTGTAGTAGGAACTGGGCGCTCGGATTATGCGAATCAAGTAAATAATGTATTGGCGTTTCCCGGAATATTCCGCGGTGCGTTAGATGTGCGCGCGACTGATATTACAGAAGAGATGAAATTAGCGGCAGCATATGGGATCGCTAACATCATTACGGACGAAGAACGTAATGCGAATTATGTAATCCCGAATCCATTAGATAAAAGAGTTGTTCCAAGTGTTGCAGAAGCAGTAGCGAAAGCAGCTATTGATTCAGGCGTGGCGCAAATTACGAAAATAACAAGTTATTAA	MLANQINERSLLLHKELVGKIEITSKVEVNSADDLSLTYTPGVAESCKAIAADEETVYDYTARGNMVAVVSDGTAVLGLGNIGPKAAMPVMEGKSILFKKFANVDAFPLCLGTTDVDEIVTLVKNLEPTFAGINLEDIAAPRCFEIEKRLKEETNIPIFHDDQHGTAIVVLAAVINALKVVSKQMDNVKIVINGAGSAGIAIGKLLLKAGAKYITLVSLEGIVCEGETWMNEAQIEVSKKTNREHVRGTLKEAIHQADIFIGVSAPNVLTKELVQTMNEKAIVFAMANPIPEIFPEDALEAGAAVVGTGRSDYANQVNNVLAFPGIFRGALDVRATDITEEMKLAAAYGIANIITDEERNANYVIPNPLDKRVVPSVAEAVAKAAIDSGVAQITKITSY	PGPT0001350_2742	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
AK009_04813	525			hypothetical protein	ATGAAAAAAATCGGAACTATGCTACTTCTCTCCTTCCTCATCACTGGATGCACACAAGCACAACCTGATTCAAAAGTACCTAAAACAGAAGCTGTCACAACATCATCCACTCAAGTGAACGCACCTTCCTTCTTTCACCTTAGTGTTTTAAAAGATGTAAATTGGGAAGAAGCACCCTCATTCATAGACGGAAAAATACCTTTAAAAGGCATCGAAAAAAAAATCGCAATGGCTGATAGTCCTATTATCGCAAATGAACAAAATGAAATAATGTGGTACTTTCTAGATTCTGAAATACCAACTGGAAAATTGTCTATTATTGCGCTAAAACAAGGATCTGTAACTCCAACACCAGTACTCTTTCAAAAAGAAACTTCCAAACAAACTTGGACTACTTCAAATACAATCGATTCTACTACAAGCGAACTCCCTCTCGCTATGTCACTACCTTCATCTGGATTATGGTTATTAAATATATATGTGAATGAAAAATATTATGATCAGTTTGTAATCACCGCTGAGTAA	MKKIGTMLLLSFLITGCTQAQPDSKVPKTEAVTTSSTQVNAPSFFHLSVLKDVNWEEAPSFIDGKIPLKGIEKKIAMADSPIIANEQNEIMWYFLDSEIPTGKLSIIALKQGSVTPTPVLFQKETSKQTWTTSNTIDSTTSELPLAMSLPSSGLWLLNIYVNEKYYDQFVITAE				NA	NA	NA	NA	NA
AK009_04814	927	yicL	COG0697	putative inner membrane transporter YicL	ATGAACAATGGTAGACGTATCGGACTTATTATGATTATTACAGGGGCTACATTATGGGGATTATCTGGTCCAATGATTCAATGGCTATTTCAGCATACTAATGTATCCTCAATTGATTTTTTAACAATTCGCTTGTTGCTTGCAGGAATATTTATTTTGTCTTTCTTACTTACAAAGAAACAAAACATATTTCAAATTTGGAAACACCCTAGATATTCTATACAACTTATTATTTTCTCTATTCTCGGCATGCTCGGTGCACAATACGCCTTTATCGAAACGGTTCATATTAGTAACGCGGTCACAGCAACGCTATTTCAATTTCTAGGTCCTGTTCTTATTACCATGTATGTTGCATTTGAACAAAGAAAATTCCCTGCTTCTATGCAACTATTCGCAATTATAACTGCGCTAACAGGGACATACTTCATTATTACAAATGGCTCAATTGAAAATGTTGTTTTATCTAAAGAAGCTATTATTTTTGGACTATTAACAGCAATCGGATTTGCATTTTATACCCTCCATCCAGCTTCGCTTATTAAAGCATGCGGAACAACCATAGTAATTGGCTGGGGGATGTTAATCGGCGGCATCGCCCTGCTTATTTGTAATAGTTCGTTTGGATGGAGTCAGCTTTCACAAACCTTTACACCAAAAACTTTTTCTATGCTTATTCTTATCATTATAAGCGGCACTCTTTCTTTCCTTCTTTATATCGGTAGTCTGAAATATTTAGCCGCAACAGAAACAAGCATTTTATCTAGCATTGAACCCCTTGTAGCTGCCATCGTTTCAATCACTTGGCTAAATGAATCTTTTGGAACATATCAATTATTAGGCGGCGTATGTATCGTTCTGTCCGTTATTTTTTTGACGATGCCTCAAAAAGAAACCGAACCAACCTATACAACCGAACAAATATAA	MNNGRRIGLIMIITGATLWGLSGPMIQWLFQHTNVSSIDFLTIRLLLAGIFILSFLLTKKQNIFQIWKHPRYSIQLIIFSILGMLGAQYAFIETVHISNAVTATLFQFLGPVLITMYVAFEQRKFPASMQLFAIITALTGTYFIITNGSIENVVLSKEAIIFGLLTAIGFAFYTLHPASLIKACGTTIVIGWGMLIGGIALLICNSSFGWSQLSQTFTPKTFSMLILIIISGTLSFLLYIGSLKYLAATETSILSSIEPLVAAIVSITWLNESFGTYQLLGGVCIVLSVIFLTMPQKETEPTYTTEQI				NA	NA	NA	NA	NA
AK009_04815	276			hypothetical protein	ATGTTAGAATTAACGCCTAATTTAAATGTGAATAGTAAAAAGGCATTATATGTGCAATTGTATGAGTATATAAAAAAAGAAATTAAAGATGGATCGATTGTACCTTTTACGAAATTACCAGCTAAGCGAAAGTTAGCGATACATTTACAAGTAAGTAAAAATACAGTAGAGGCAGCGTACGAACAATTACTTGCAGAAGGTTATATTGAGTCGATATCGAGAAAAGGTTATTTTGTATGCAAGATTGAGCAAATGTTATTTTGTATGCAAGATTGA	MLELTPNLNVNSKKALYVQLYEYIKKEIKDGSIVPFTKLPAKRKLAIHLQVSKNTVEAAYEQLLAEGYIESISRKGYFVCKIEQMLFCMQD	PGPT0016790_4249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
AK009_04816	1149	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGTTCATGTAGAGGATTGCGGAGAGAGAATAGAAGAAGTACCGTTTCAGGAGAAGAGTTATAAATTTGACTTTACACAAACAGGAATTGATACAAATGCTTTTCCATTCAATATGTATCGGAAAATTGTAAATGAAGTATGGCAGCCGCATAATAACGAACTTCTCTTTCTAGGACACCCTCAAGGGGAAGCGAGCTTAAGAGAAGAGATTACGAATTATTTGTATGAATCTAGAGGTGTGCGTTGTTCAGCTAGTCAAATTGTATTAGGAGCGGGAACACAAATATTAGTGAAACTATTGTTTCAATTGTTAAAGGGAAGCAATTATGCAGTTGAAAACCCAGGGTATCATAGGAAGATGGTTGTTTTTGAACAGGGAGAAGCAAGAGTCCAAATGTTATCTTTAGATAGAGATGGAATTTGTATTGCAGATTTAGAAAATAGCAATGCGAATGTTGTATTTGTTACACCTTCCCATCAGTTTCCATATGGAATGATTATGCCTATTACGAGAAGGATGCAGCTCTTACAATGGGCAAAGAAAGAAGAGGGCAGGTATATGATTGAAGATGATTATGATAGTGAATTTCGCTATTCTGGAAAGCCTATACCGGCGCTACAAGGGTTAGATACAGAGGGGAAAGTTATTTATATGGGGACGCTATCTAAAGCATTATTGCCATCGCTACGGATGAGCTATATGGTGTTGCCGAAGAAATTAATTAAAAAGTATCAACAGCAATATTTATTTTATACACAAAGTGTTTCAAGAATGGACCAAGAAGTGATTAGAAGATTTTTAAATGAAGGCTATTGGGAAAAACATATTCATAAAATGCGTGTCGTCTACCGAAAGAAGAGAGATCGACTTGTTTTTGAAATAGAGAAGTATTTCTCTAATCGTGTTGAAGTGATAGGAGAAGATTCGGGATTACACATTTTATTAAAAGTGCATAACGGAATGCGGGAAGAAGAATTAATTCAAGAAGCTGCGAAACATAGTATCAAAATATATCCTGTGTCTACGTACTATAAAGACGGTACGGCGCCTGAGAGTGTAGTTTTACTTGGGTTTGCGATATTATCAGAGGAAGAAATTGCGAAAGCGATTCAATTATTACACACGGCATGGTTTACCAGAAAGTAA	MVHVEDCGERIEEVPFQEKSYKFDFTQTGIDTNAFPFNMYRKIVNEVWQPHNNELLFLGHPQGEASLREEITNYLYESRGVRCSASQIVLGAGTQILVKLLFQLLKGSNYAVENPGYHRKMVVFEQGEARVQMLSLDRDGICIADLENSNANVVFVTPSHQFPYGMIMPITRRMQLLQWAKKEEGRYMIEDDYDSEFRYSGKPIPALQGLDTEGKVIYMGTLSKALLPSLRMSYMVLPKKLIKKYQQQYLFYTQSVSRMDQEVIRRFLNEGYWEKHIHKMRVVYRKKRDRLVFEIEKYFSNRVEVIGEDSGLHILLKVHNGMREEELIQEAAKHSIKIYPVSTYYKDGTAPESVVLLGFAILSEEEIAKAIQLLHTAWFTRK	PGPT0016790_4249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
AK009_04817	513	mshD_3		Mycothiol acetyltransferase	TTGGATATCCATGTATTAACAAAAGACGAAGCAGAAATTTACTTAGAACTTCGCGTAGAAGGATTAAAGCAAAACCCTGAAGCATTCAGCTCTTCTTATGAAGATATTATTAATAAAGAGTGTGCGATTGAATATAAAGCACAAAAATTAGCACAAGATGAAAACTATACGCTAGGTGCATTTAAAGATGGAAAATTAATCGGGGTTGCAACACTGGAAACGAAACCATATGTAAAACAAGAACATAAAGCTAAAATCGGTTCTGTATATGTATCTCCAAAAGCACGTGGACTTGGAGCAGGAAAAGCACTTATTAAAGAATGTCTTGAGCTTGCTAAATCTTTAGAAGTAGAACAAGTTATGCTTGATGTTGTTGTTGGCAACGATGGAGCGAAAAAACTTTATGAATCATTAGGTTTTAAAACATTCGGTGTACAAGAACGTTCATTAAAATATAACGGACAATATTGGGACGAAGAGCATATGGTCTTATTCTTAGATGAAAATAAATAA	MDIHVLTKDEAEIYLELRVEGLKQNPEAFSSSYEDIINKECAIEYKAQKLAQDENYTLGAFKDGKLIGVATLETKPYVKQEHKAKIGSVYVSPKARGLGAGKALIKECLELAKSLEVEQVMLDVVVGNDGAKKLYESLGFKTFGVQERSLKYNGQYWDEEHMVLFLDENK				NA	NA	NA	NA	NA
AK009_04818	1455	sasA_19		Adaptive-response sensory-kinase SasA	ATGAGTAAACTTTCCCTTAAAATTGGGACATACTTTTTAATATTAGCTTTATGTATTGAAACAATTGCTTTCGTATCTTTTTATAAAAGCCTTTCAAAAATGCGTATTGTAGAGGAAACAGATGCTCTTTTAGAGAAAGGTAATCGCTATAGTAAAAAAATTAAAAGCCGCGAGAGACGGGATGAATATTATAAAGAAATGAAACACGCTGAACATAATAAAAATCCTAAACGTCCTGTGTATCCTGAGTTCGATATTACGAATGAGGCTGCACACTTAGTTGAATCGGAATCAATTTCTAACTCCGATATAGCTATCATTATTACTGACCATAACGGCAAAATTATTTCCACCTCAGAACCCGTAACAAAAGATATGCAAAAACAACTTACTTGTAAAACAGAAACTGTCCCAGACGGCGGATTGGTCGTTGAAAGAAACTGGAAAAAATCAAAGTTCATCACAACAGTAAGCCCACTTAACACAACAAAGTTTCAAGGAAAGCTATATATGCTATTAAAAACATCTTTCCTAGAAAATATGTTACTTAAACTCATGAACCAATTTCTTATCATTAGCGTTTTAACAATTATTTTAACAACAATTTCTGTCTTTGTTTTTTCACGCGTTATTACAGAACCACTTGTAAAAATGAAGAGAGCGACAGAAAAAATGTCAAAATTAAATAAACCAATTCAATTAGGTATTAAACGGAATGATGAACTCGGAAGTTTAGCAAAAACAATTGAAGATTTATCGAGTGAACTTACGTATATGAAAAAAGAGCGCAATGAATTTCTCGCTAGTGTCGCTCATGAACTATTAACTCCATTGACCTATATGAAGGGTTATGCAAAGGTAGCAAAGAGAGACTCTTTAACAAAAGAGGAGCGAGAAGAATACTTACAAATCATTGAGGATGAAACGGATAGTGTAACCGATCTCGTCCAAGATTTATTTATGCTTGTACAATTAGAACAACACCAATTTGTTATAAAAAAACAAAAAGTGCTTCTTCAGCCATTTTTAGAACGAATGGTTGAAAAAACAAAAACAACATTAACGAATAAGCAAATGCAACTTCATGTATATTGCAAAGATGATTTAGAAGTTTGTATAGACGAAAGACGTATGGAACAAGTTATGTTAAATTTATTACACAACGCTTATCAACATTCGCCAGAAAACACATCTATTACGATACGTGTACTCATGGAAACAGATTCTTTTACAATAAGTGTACAAGATGAAGGTGAAGGTATTCCTGAAGAAGATATCCCGCATATTTTTGACCGCTTTTATCGTGTCGATAAATCTAGAACACGAGCTACAGGCGGAAAAGGTATCGGGCTAGCTGTTGCAAAGGAAATTGTAGAATTGCATAACGGTTCTATTCTAGTAACAAGCCAATTAGGAGCGGGAACAAACTTTATAATCGAGCTACCTTTTGAATAA	MSKLSLKIGTYFLILALCIETIAFVSFYKSLSKMRIVEETDALLEKGNRYSKKIKSRERRDEYYKEMKHAEHNKNPKRPVYPEFDITNEAAHLVESESISNSDIAIIITDHNGKIISTSEPVTKDMQKQLTCKTETVPDGGLVVERNWKKSKFITTVSPLNTTKFQGKLYMLLKTSFLENMLLKLMNQFLIISVLTIILTTISVFVFSRVITEPLVKMKRATEKMSKLNKPIQLGIKRNDELGSLAKTIEDLSSELTYMKKERNEFLASVAHELLTPLTYMKGYAKVAKRDSLTKEEREEYLQIIEDETDSVTDLVQDLFMLVQLEQHQFVIKKQKVLLQPFLERMVEKTKTTLTNKQMQLHVYCKDDLEVCIDERRMEQVMLNLLHNAYQHSPENTSITIRVLMETDSFTISVQDEGEGIPEEDIPHIFDRFYRVDKSRTRATGGKGIGLAVAKEIVELHNGSILVTSQLGAGTNFIIELPFE				NA	NA	NA	NA	NA
AK009_04819	672	arlR_2	COG0745	Response regulator ArlR	ATGGTAAAAATTTTATTAGTAGACGATGAAGAACGTATGTTACGATTATTAGATCTGTTCTTAAGCCCTCGCGGCTATTTTTGTATGAAAGCTACCTCTGGCCTTGAAGCACTAAAATTAATCGAACAAAAAGAATTCGATATTATTTTATTAGATGTTATGATGCCAAGTATGGATGGATGGGATACTTGCTATCAAATTCGTCAAATTTCCAACGTTCCTATCATTATGTTAACAGCTCGCAACCAAAACTACGATATGGTGAAAGGCCTCACGATGGGCGCAGATGATTATATTACAAAACCATTTGATGAGCATGTATTAGTCGCACGAATCGAGGCTATATTACGCCGTACAAAGAAAGATGGCTTTGTTAGTTTCAATGGTATTGAGTGGGATAAAACGAAACATACTGTCACAGTTTATGATGAAAAAATCTCATTAACTCCTATCGAATTTTCGTTACTCGGACTATTTTTGCAAAATACAAACCGTGCTTATAGCCGAGATGATTTAATCGAAAAAATTTGGGGCTATGAAACAGATATCGAATATAGAACAATTGATTCACACATTCGTAATATCCGTGATAAACTACGCAAAAAAGGATTTCCAATTGAAGATTACCTAGAAACGGTCTATAAAGTCGGATATAAATGGAAAAGTGAATAA	MVKILLVDDEERMLRLLDLFLSPRGYFCMKATSGLEALKLIEQKEFDIILLDVMMPSMDGWDTCYQIRQISNVPIIMLTARNQNYDMVKGLTMGADDYITKPFDEHVLVARIEAILRRTKKDGFVSFNGIEWDKTKHTVTVYDEKISLTPIEFSLLGLFLQNTNRAYSRDDLIEKIWGYETDIEYRTIDSHIRNIRDKLRKKGFPIEDYLETVYKVGYKWKSE	PGPT0014763_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
AK009_04820	1356			hypothetical protein	ATGGTTAAAAAGAAAGCAGTGAAAGTATTACGCAAACAAAAGAAAAGAGAAAACATGCAACGATTCACGCAGAAACAAAATATCGGACGAGCTAGTCTGACTGCAAAAGAATTCCGCTTACTGCAACGCATGTCACATAGTTCAAAAGCATTGCGAAATGTTGGATTGTACACGATGAAACAAAGTTATTTGAACCATAATAAAATGGCTACTGTAAAAGAAGTAGATACCGCCATGCAAGCCGATATGAACTACTGGGGCGTGCAATCAAACTCTGTGCAGGCTATTCGTAGAGCCTTATATGCAGAAGTGAAGAGCTTTTTTAAGGCATTGGAAACGTGGAAGAAAAATCCTGAAGCATTCACAGGGCGTCCTAATTTTCCGAATTATTCTCATTCAACTGACAAACGAATCATTGAAATCTATCAAGTGCCAAAAGTGGATGATAACGGGTATTGGCTGATTCCGATGAGTGTTGCATTCAGAAAAAAATTCGGTTCCATTAAAATACGTATGCCGAAAAACTTAAGACATAAAAAAATCTCCTACATTGAGCTTGTACCGAAGCAAAAAGGTCGGTTCTTTGAGGTGCATTACACATATGAGATGCACGTTTCTCAAATGAAGAAAACATCCACGACTACGAATAACGCTTTGAGTTGCGATTTAGGTGTAGACAGATTAGTAAGTTGCGTAACCAATACAGGTGATACATTTTTAATTGATGGTAAAAAACTAAAAGCCATTAACCAATACTTCAATAAAATGATACGTAGTCTGCAACAGAAAAATGTTGAAAACGGAATTTCAAAACGAGTTGTAACGAACAAAATGGCTGCACTTTGGCATAAACGGGAAAGGCAAATAAATGGTTACATTTCACAAACTGTAGGCTTGTTGTTTAAAAAAGTGAAAGAATGTAGTGTAGATACGGTTGTAGTAGGTTATAACGCTGGTTGGAAACAAAAATCAGATATGGGAAAAAAGAATAATCAACAATTTGTTCAAATCCCGTTTCATAAACTGATTGCGGCAATTGAGAATAAATGTATAAAAGAAGGCATCCGGTTTTTCAAACAAGAAGAAAGCTATACTTCAAAAGCTAGTTTTCTTGATAAAGATCCGGTTCCAGTTTGGACTAAGGATGATAGGACACACTATCACTTTAGTGGCAAACGAATGACTCGTGGTCTGTACCAAAGTAAAGCAGGAACATGTATCCACGCTGATATTAATGGTGCGCTGAATACATTGCACAAATCAAAAGTGGTAGTATTGAAAGAGAATCTTAAAGTGAAAACGCCGATTCTATTAGAAGTGCAAAAACGTAAGGCTGTTGCTTCGCGCATAGCTTAG	MVKKKAVKVLRKQKKRENMQRFTQKQNIGRASLTAKEFRLLQRMSHSSKALRNVGLYTMKQSYLNHNKMATVKEVDTAMQADMNYWGVQSNSVQAIRRALYAEVKSFFKALETWKKNPEAFTGRPNFPNYSHSTDKRIIEIYQVPKVDDNGYWLIPMSVAFRKKFGSIKIRMPKNLRHKKISYIELVPKQKGRFFEVHYTYEMHVSQMKKTSTTTNNALSCDLGVDRLVSCVTNTGDTFLIDGKKLKAINQYFNKMIRSLQQKNVENGISKRVVTNKMAALWHKRERQINGYISQTVGLLFKKVKECSVDTVVVGYNAGWKQKSDMGKKNNQQFVQIPFHKLIAAIENKCIKEGIRFFKQEESYTSKASFLDKDPVPVWTKDDRTHYHFSGKRMTRGLYQSKAGTCIHADINGALNTLHKSKVVVLKENLKVKTPILLEVQKRKAVASRIA				NA	NA	NA	NA	NA
AK009_04821	123			hypothetical protein	ATGAATCCAAAAGAAGAAATTTCAAAAAAAGAAAAGCAAGATCGTAATACGGTTGTCATGTGTGTTGCCGTATCTATGGTTATTATTATAAGTTGCGTAAATAAAATTTTAGGGATTTTATAA	MNPKEEISKKEKQDRNTVVMCVAVSMVIIISCVNKILGIL				NA	NA	NA	NA	NA
AK009_04822	114			hypothetical protein	ATGATAAACCAAGGTAAAATTGCTAAACCAGAAGTTACAATTGCTGTAGTAAATATTAAAAGAACAGCTCGTTTGTTTTGTTTTATGTCACATTCTCCTCTACATATCAATTGA	MINQGKIAKPEVTIAVVNIKRTARLFCFMSHSPLHIN				NA	NA	NA	NA	NA
AK009_04823	507	aaaT_3	COG0454	L-amino acid N-acetyltransferase AaaT	ATGGAAATTCGCTTATTAACAACAGAGGACGCAGAAATATATTTAAAAGTTTGTATGGAAGGTTTAACGAAAAATCCGGAAGCTTTTAGCTCTTCTTATGAAGATGTTTTGAAACATGAGGATCCTGTAGCTGCTATGGCTAAACGATTAAGCAATCCGGATAAGTATACTCTAGGTGTCTTCAAAGATAATGATTTAATTGGTATCGCTACTTTAGAAACAAAACCATTTATTAAACAAGAACATAAAGCAAAAATTGGCTCCGTTTTTGTTTCTCCAAAAGCACGTGGTCTCGGAGCAGGACGAGCTCTCATTAAAGCCATTATTGAAAACGCCGATAAATTACATGTAGAACAACTTATGCTCGATGTTGTAGTTGGTAACGCTGGTGCCAAAAAATTATATGAATCATTAGGTTTCCAAACTTACGGCGTACAAGAACGTTCATTAAAACATAACGGTCAATATTGGGACGAGGAACATATGGTTCTGTTCTTAAATGATTAA	MEIRLLTTEDAEIYLKVCMEGLTKNPEAFSSSYEDVLKHEDPVAAMAKRLSNPDKYTLGVFKDNDLIGIATLETKPFIKQEHKAKIGSVFVSPKARGLGAGRALIKAIIENADKLHVEQLMLDVVVGNAGAKKLYESLGFQTYGVQERSLKHNGQYWDEEHMVLFLND				NA	NA	NA	NA	NA
AK009_04824	807	fdhD_2	COG1526	Sulfur carrier protein FdhD	ATGGGGCCTACGCAAGAGACTTATACAATTGTACGTTATCAATCTGGTACATTTTCAAAACAACTTGATGAGATTGTCACAGAATCTCCTATTACTATTAAATTGAATGGTGAAGAATATGTAACAGTCGTATGCACACCAAATTATATTGAAGATATGGTAATTGGTTTTTTAATTTCTGAGGGGATTATTTCTTCCTATAAAGATGTTGAAGAACTATGGGTTCAAAAAGATAACGGAATTGTCCATGTAAAATCATCAAAAGTGAATCCGCTCTATCAAACTTTATATAATAAACGATACATCACTTCTTGCTGCGGAAAAGGTAGACAAGGTTTTATTTTCGTAAACGACGCAGCAAAAGCAAAAGACTTACATGATATACATGTAAAAATTACTCCTGAAGAATGCTTTCATTTAATGAATACCTTGCAACAATCTTCTACTACATTTCGCCAAACTGGCGGTGTTCACAATACCGCGCTATGTGATCGAAACAATATCCTCCTATCAAGAATGGATATTGGAAGACATAATGCATTAGATAAAATATATGGTCATTGTTTGCGTAACGATATATCCATTAAAGGAAAAATCATCGCATTTAGCGGACGTATTTCATCCGAAATTTTACTCAAAGTTTCAAAAATCGGATGTGAAATTGTTCTATCTAAATCCGCTCCAACAAAACTGGCATTGCAACTTGCCCATGATTTAGGCATTACAGTCGTAGGGTTTATTAGAAATGAATCTTGTAATATTTACACACATCCAAAACGAATTGATGGCTATCAATCCAATGTTTAA	MGPTQETYTIVRYQSGTFSKQLDEIVTESPITIKLNGEEYVTVVCTPNYIEDMVIGFLISEGIISSYKDVEELWVQKDNGIVHVKSSKVNPLYQTLYNKRYITSCCGKGRQGFIFVNDAAKAKDLHDIHVKITPEECFHLMNTLQQSSTTFRQTGGVHNTALCDRNNILLSRMDIGRHNALDKIYGHCLRNDISIKGKIIAFSGRISSEILLKVSKIGCEIVLSKSAPTKLALQLAHDLGITVVGFIRNESCNIYTHPKRIDGYQSNV				NA	NA	NA	NA	NA
AK009_04825	2937			Putative formate dehydrogenase	ATGGCAGAACAGACAGTCCGTGTAACCGTCGATGGTAAAGAATTTTCTGCATCAGGTGAAAAGACGATACTACAATTATTTAACGAGAGTAATTTGGAACATCCTCAAATTTGTCATGTACCAGAAGTAGATCCAATTCAAACTTGTGATACGTGTATTGTAGAAGTAAATGGAAAGTTATTGCGTGCTTGTTCAACGAAATTAGAGAACGGTATGCATATCGAAAGACAGTCCCAGCGTGCAAAAGAGGCACAGACTGAGGCAATGGATCGAATATTAGAGAATCATCTATTGTATTGTACCGTTTGTGATAACAATAATGGTAACTGTAAAGTCCATAATACAGTACATATGATGGGAATTGAGGAACAGAAATATCCGTATGAGCCAAAAGTAAGTGCGTGTGAAGTGGATATGTCACATCCATTTTATCGATATGATCCAAATCAATGTATTGCTTGTGGGCAGTGTGTAGAAGTATGTCAAAACTTACAAGTGAATGAAACTATATCAATTGATTGGAGCTTAGACCGTCCACGTGTTATATGGGACAATGGTGTAAGTATAAATGACTCATCTTGTGTAAGTTGTGGGCAGTGTGTAACAGTATGTCCATGTAATGCGTTAATGGAAAAAACAATGCTGGGTGAAGCTGGATTCATGACAGGATTGAAACCGGATGTGTTAGATCCGATGATTGATTTTGTAAAGGATGTAGAGCCGGGATATAGTAGTATTTTAGCAGTTTCAGAAGTAGAGGCTGCGATGCGTAAGACGAAAGTGAATAAAACAAAAACAGTTTGTACATTTTGTGGTGTAGGTTGTTCATTTGAAGTATGGACGAAAGACCGCCACATTTTGAAAGTGCAGCCTGTTTCAGATGCGCCGGTTAACGGTATTTCCACATGTGTAAAAGGCAAATTTGGATGGGATTTTGTAAACAGTGAAGATCGTATTACAAAGCCATTAATTCGCCAAGGAGATATGTTTGTTGAAGCTTCATGGGAAGAGGCTCTGGAAGTTGTTGCATCCAATATGCAGCATATTAAATCAGAATATGGAAGTGATGCATTTGGGTTTATTTCTTCTTCGAAAGTAACGAATGAAGAAAATTATCTTATGCAAAAACTAGCCCGTCAAATATATGGAACGAATAATGTAGACAACTGTTCCCGTTATTGTCAATCTCCAGCAACAGACGGTTTATTTAAAACTGTCGGTATGGGCGGGGACGCTGGAACAGTGAAAGATATTGCGGAAGCAGGCCTTGTCATTATCGTTGGAGCAAATCCAACAGAAGGACATCCTGTACTTGCAACGCGTGTAAAACGTGCTCATAAATTACATGACCAAAAATTAATTGTGGCAGACCTTCGTAAACATGAAATGGCAGAGCGTGCGGATTTATTCATTCATCCGCGCCAAGGAACTGATTACGTATGGCTCGCTGGTATTACGAAATATATTATTGATCAAGATTGGCACGATAAAAAGTTCATAGCTGAAAATGTGAAGAATTTTGATGAATATAGCAAAATGGTAGAAAAGTATACGCTTGATTATACAGAAGAAATTACGGGGATTTCGAAAGAAAATCTGAAAGAAATGGCTCGTATGGTATATGAAGCAGATGGTACTTGTGTACTTTGGGGAATGGGTGTAACTCAAAATACTGGAGGAAGTACAACTTCAGCAGCAATTTCAAATCTATTGCTTGTTACGGGTAACTATCGTCGTCCTGGTGCAGGAGCATATCCATTACGCGGACATAATAACGTACAAGGCGCTTGTGATATGGCAACATTACCAAACTGGCTTCCAGGTTACCAAGCAGTTTCAGATGATGCGCTCCGTGCGAAATTTGAAAAAGCATACGGTACTACAATTCCGAAAGCACCAGGCTTAAATAATATTGCAATGTTACTGGCGGCAGATGAAGGGAAACTGCGTGGTATGTATGTTATGGGTGAAGAAATGGCTTTAGTAGATTCGAATGCCAACCATGTACAACATATTTTAGCGAATTTAGATTTCCTTGTTGTTCAAGATATGTTCTTATCGAAAACAGCTCGTTTTGCTGATGTTATTTTACCGGCAGCACCAAGCTTAGAAAAAGAGGGAACATTTACGAATACAGAGCGCCGTATTCAAAGATTATATGAAGTATTGAAGCCGCTTGGTGATTCAAAGCCAGACTGGTGGATTTTACAAAAAGTAGCTCGTGCACTTGGCGGGGACTGGAATTATGAAAGTCCAAGTGAAATCATGGATGAAATCGCATCGCTTGCACCTTTATATTCTCAGGCAACATACGATCGTTTAGAAGGATGGAATAGTTTATGTTGGGGTAGCCATGATGGCAGTGATACACCGCTATTATATGTGGACGGATTTAACTTCCCGGATAAACTAGCTCGTCTATCATTAGATGAATGGGTACCACCAGTTGTAGCACCAGATGAGTATGATTTACTTTTAAATAATGGTCGTATGTTAGAACATTTCCATGAAGGGAATATGACGAATAAATCGGCTGGTATTTTATCTAAAGTATCTGAAGTGTTCGTTGAAATCTCGCCTGAACTTGCCCTAGAGCGCAATGTGAAAGATGGTGGTCTTGTAGAATTAGCATCACCATTTGGGAAAATTAAAGTACAGGCACTTGTTACAGATCGTGTAACGGGGAAAGAGCTATATTTACCGATGCATGCAACGGTAAATGAAGAGGCAATCAATATTTTAACTGGAACGGCGACAGATCTTTATACATGTACACCAGCGTACAAACAAACGATGGTAAAGATGCGTGTACTACGTGAAAAAGGGAATCGTCCGTTACCATCTTCAAACCCGAGAGATAAAAAGCGTAATCCGCAAAACGGTGTTGAAATCGAGCAAAAATGGCAAAGAAAACAATACGTATCACTTGTGGACTAG	MAEQTVRVTVDGKEFSASGEKTILQLFNESNLEHPQICHVPEVDPIQTCDTCIVEVNGKLLRACSTKLENGMHIERQSQRAKEAQTEAMDRILENHLLYCTVCDNNNGNCKVHNTVHMMGIEEQKYPYEPKVSACEVDMSHPFYRYDPNQCIACGQCVEVCQNLQVNETISIDWSLDRPRVIWDNGVSINDSSCVSCGQCVTVCPCNALMEKTMLGEAGFMTGLKPDVLDPMIDFVKDVEPGYSSILAVSEVEAAMRKTKVNKTKTVCTFCGVGCSFEVWTKDRHILKVQPVSDAPVNGISTCVKGKFGWDFVNSEDRITKPLIRQGDMFVEASWEEALEVVASNMQHIKSEYGSDAFGFISSSKVTNEENYLMQKLARQIYGTNNVDNCSRYCQSPATDGLFKTVGMGGDAGTVKDIAEAGLVIIVGANPTEGHPVLATRVKRAHKLHDQKLIVADLRKHEMAERADLFIHPRQGTDYVWLAGITKYIIDQDWHDKKFIAENVKNFDEYSKMVEKYTLDYTEEITGISKENLKEMARMVYEADGTCVLWGMGVTQNTGGSTTSAAISNLLLVTGNYRRPGAGAYPLRGHNNVQGACDMATLPNWLPGYQAVSDDALRAKFEKAYGTTIPKAPGLNNIAMLLAADEGKLRGMYVMGEEMALVDSNANHVQHILANLDFLVVQDMFLSKTARFADVILPAAPSLEKEGTFTNTERRIQRLYEVLKPLGDSKPDWWILQKVARALGGDWNYESPSEIMDEIASLAPLYSQATYDRLEGWNSLCWGSHDGSDTPLLYVDGFNFPDKLARLSLDEWVPPVVAPDEYDLLLNNGRMLEHFHEGNMTNKSAGILSKVSEVFVEISPELALERNVKDGGLVELASPFGKIKVQALVTDRVTGKELYLPMHATVNEEAINILTGTATDLYTCTPAYKQTMVKMRVLREKGNRPLPSSNPRDKKRNPQNGVEIEQKWQRKQYVSLVD	PGPT0019635_1253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
AK009_04826	483			hypothetical protein	GTGGCGAAAGAAATTACTGTAATTAAAAAGAAAGTTGTAACAGAGGAAGAACAGAAACAGCAAGTAGCAGATGAACTTCTAAATGAGCTATCTAATAATCGTGAAGCAGTAGAAGAAACGATGCAGCTTTTAGCACAGTTGCAGAAGGCTGGTATATTAGATGCGGCAATTAGTTTACTTGCTGCGAAGGAAGATGTTTCAAAAATCGCTGTGGAGCAATTAAATCGTGAACCCGTTAAAAATGCGTTAAATAATATGATGGGGGCAGGAGAAGCGTTATCTTCAGTTGACCCAGAAATAACGAAGCAAATTACGTCAAGTTTAGTTACAGGATTGCAATTTGCAACAGATGAATTAAATTGTGGTAAAAAAACAAAAGTGATGGATTTCTTTAAAGTATTAAAAGATCCAGATATCAATAGAGCTATTACATTCGGTTTTAGCTTCTTGAAAGCATTTGGACAAGGGCTAGAGAAAAAATAG	MAKEITVIKKKVVTEEEQKQQVADELLNELSNNREAVEETMQLLAQLQKAGILDAAISLLAAKEDVSKIAVEQLNREPVKNALNNMMGAGEALSSVDPEITKQITSSLVTGLQFATDELNCGKKTKVMDFFKVLKDPDINRAITFGFSFLKAFGQGLEKK				NA	NA	NA	NA	NA
AK009_04827	1872			hypothetical protein	ATGCAACACCGTAAAAAACTATCTATACCAGGAGTAATGAGACATTCCTTTCAAACAGTTAAATTTGCTTTTTGGAATGTATTAACTTTTCAACTTGCTTATAAATTATTAGCAGCGATTGTGTTTGTTCCACTATTTGGAATCATTTTTAATAAATTATTGTATTTTGGTGGTTATGCAAATGCGACAAATGATGAATTATTAGCGTTTTTAAAGACGCCTTATGGCATCTTAGCAATCGTAATTTTGTCATTGTTAGCACTGTTTCTTATCTTTACAGAATTTGCGGTGCTTATTATTATTTCGTATTTCGCTCATAAAAGACAGAAGGTGAAATTACGTCCGATTTTATATAAAACGGTAACGTATTTACCTACTCTTTTCACATATTGCTTACCAGGATTTATTTTATATGCTGTCGTATTGTTGCCTCTTTTAAATATGGGATATGAAACGGCATTAATCCCGCAAATTCAAATTCCTAACTTCATTACAGGAGAACTGTTTAAGACAACGATGGGACAAGTTGGTTATTACACGTTCTTTGCTGTAGTCGCGTATATAAATCTTCGATGGATTTTCGTTCTACCTATTGTTGTTTTAGAGCAAAAATCATTTCGCGTGGCAGCACGTAAAAGTGCAACTTTAGTAAAGGAAAGCTTTTTTAAAGTACTGCTCTTTTTAGTAGGATTTTTTATTTCAATTGGAATTGTATATGTCGTATTTTTGGGAATATATTTATTGTGCCTATGGGGTATTTATGAATTTACAAATCCGAAAGGAACATTTGCATTATTAGCAGAATCAACGATTTCTGTATTTTTAACGAGTACATTGTATTTATTTAGTTTTATCGTGACGCCATTTTATATTATGGCGATTACGCGATTATACTTACAAAAGGTACCGGTTGAAGATGTTTTATTAGAAGAAGGATTAGATTATTCGAAAACGAAAGCAGATAAATGTTTCTTCCAAAAACATCGTTGGAAATTTATTGGCGTATATATTGTGGGGATTATTACTGCTGGAATGGTTGTTGCCTTCATTGTAACGTTTATTTCAAATTCGTATAAAGAACCAATTATTATGGCGCACCGCGGGTATATATCAAAAGGCGTAGAAAATACGAAAGAAGCTGTGCAAGGTGCTATTGATGCAAAAGCAGACTACGCTGAAATAGATGTATTACAAACGAAAGACGGTGAACTAGCGGTTATACATGATTTGAAGCTGAAGCGTCTTGCCAATGCCAATGTGCATGTGTCAGATTTAACGATGGCTGAGTTAAGGCAGCTTACCCTTAGTCAAGATGGACTTTCAGGACAAATAAGTACACTTGATGAAATCATTAAGCTAGCAAATGGCAAAATCAAACTTAATATAGAAGTGAAGCTTCATGGGGGCGAAAAAGATTTTGTAAACAAAGTCTTAAAAACGATTAAAGATAATGAATTTGAGAAGCAATGTGTAATTCAAACGTTACACTATCCACTTATTAAAGAGTTTAAACGTGCAAATCCAGATATAAAAGTAGGGTATATATTGTATGCAAGTAGAGCTAACTTAAAGAATGTGAAGGCTGACTTTTACGTAGCAGAAGAATATATGTTAAATAAGAAATTAGTAAAAGAAGCAAGGAAGTTAAACAAACCAATTTACGTATGGACAGTAAATGATATGGAAAATTTAAAGGCATATTATAAGTTAAACGTAGATGGTATCATAACCGATTATCCTGAAGATGCACGTGAAACAATTAAGATGTTAAAAGAGCAAGAAGCGGAAGAAAGTGATCTGTTTGATAAAATTACTGAAACGACAGATGATTTATTTTCTAAGTTATTTATAAGTTACCCAGCTGCTAGCTAA	MQHRKKLSIPGVMRHSFQTVKFAFWNVLTFQLAYKLLAAIVFVPLFGIIFNKLLYFGGYANATNDELLAFLKTPYGILAIVILSLLALFLIFTEFAVLIIISYFAHKRQKVKLRPILYKTVTYLPTLFTYCLPGFILYAVVLLPLLNMGYETALIPQIQIPNFITGELFKTTMGQVGYYTFFAVVAYINLRWIFVLPIVVLEQKSFRVAARKSATLVKESFFKVLLFLVGFFISIGIVYVVFLGIYLLCLWGIYEFTNPKGTFALLAESTISVFLTSTLYLFSFIVTPFYIMAITRLYLQKVPVEDVLLEEGLDYSKTKADKCFFQKHRWKFIGVYIVGIITAGMVVAFIVTFISNSYKEPIIMAHRGYISKGVENTKEAVQGAIDAKADYAEIDVLQTKDGELAVIHDLKLKRLANANVHVSDLTMAELRQLTLSQDGLSGQISTLDEIIKLANGKIKLNIEVKLHGGEKDFVNKVLKTIKDNEFEKQCVIQTLHYPLIKEFKRANPDIKVGYILYASRANLKNVKADFYVAEEYMLNKKLVKEARKLNKPIYVWTVNDMENLKAYYKLNVDGIITDYPEDARETIKMLKEQEAEESDLFDKITETTDDLFSKLFISYPAAS	PGPT0018470_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_04828	1134	ald_2		Alanine dehydrogenase	ATGCGTATTGGGGTACCAGCAGAAATTAAAAACAACGAAAACCGTGTGGCAATGACACCAGCAGGTGTTGTACATTTAATTCGTAACAATCACGAAGTATTCATTCAAAAGGGTGCAGGTTTAGGATCTGGTTTCACAGACGCTCAGTATGTTGAAGCGGGAGCAAAAATTGTTGATACAGCTGAAGAAGCTTGGAACATGGAAATGGTTATGAAAGTTAAGGAACCAATTGAAAGCGAATACAAACACTTCAGTGAAGGCTTAATCTTGTTCACATACTTACACTTAGCTCCAGAGCCAGAATTAACAAAAGCTTTAATCGAGAAAAAAGTTGTTTCTATCGCATATGAAACAGTACAATTAGAAAACCGTTCATTACCATTACTTGCACCTATGAGTGAAGTAGCTGGTCGTATGGCTGCACAAATTGGTGCACAATTCCTTGAGAAAAACAAAGGCGGTAAAGGTATCTTACTTGCAGGTGTTCCAGGGGTTAAACGTGGTAAAGTAACAATCATCGGTGGTGGACAAGCTGGTACAAATGCTGCTAAAATTGCAGTTGGACTAGGTGCGGATGTAACAATCATCGACTTAAGCGCAGAACGTCTTCGTCAATTAGATGACATTTTCGGAAACCAAGTAAAAACTTTAATGTCTAATCCTTACAATATTGCAGAAGCTGTTAAAGAGTCTGATCTTGTAATCGGTGCAGTATTAATCCCAGGTGCAAAAGCTCCAAAACTTGTAACAGAAGAAATGATTAAATCAATGGAACCAGGTTCTGTTGTTGTAGATATCGCGATTGACCAAGGTGGTATTTTCGAAACAACTGACCGTATTACAACTCATGATAACCCAACTTACGAAAAACACGGCGTTGTTCATTATGCAGTTGCAAACATGCCAGGTGCGGTTCCACGTACATCAACTCTTGCATTAACAAACGTAACAGTACCATATGCAGTACAAATTGCTAACAAAGGCTACAAAGAAGCTTGCCTAGGTAACTCTGCATTACTAAAAGGTATTAACACATTAGATGGCTATGTAACATTCGAAGCAGTTGCAGAAGCTCACGGTGTAGAGTACAAAGGTGCTAAAGAATTATTAGAAGCAAAGACAGTATCTTGCTAA	MRIGVPAEIKNNENRVAMTPAGVVHLIRNNHEVFIQKGAGLGSGFTDAQYVEAGAKIVDTAEEAWNMEMVMKVKEPIESEYKHFSEGLILFTYLHLAPEPELTKALIEKKVVSIAYETVQLENRSLPLLAPMSEVAGRMAAQIGAQFLEKNKGGKGILLAGVPGVKRGKVTIIGGGQAGTNAAKIAVGLGADVTIIDLSAERLRQLDDIFGNQVKTLMSNPYNIAEAVKESDLVIGAVLIPGAKAPKLVTEEMIKSMEPGSVVVDIAIDQGGIFETTDRITTHDNPTYEKHGVVHYAVANMPGAVPRTSTLALTNVTVPYAVQIANKGYKEACLGNSALLKGINTLDGYVTFEAVAEAHGVEYKGAKELLEAKTVSC	PGPT0020070_568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK009_04829	1416	yhdG_3	COG0531	putative amino acid permease YhdG	GTGGCCAACCTATTTAAAAAGAAATCCGTTACGCAATTGTTAGGGGAAAGTAAAAGTAAAACTTTGACGAAAACGCTAGGGGCATTTGACCTAACAATGCTAGGGATTGGTGCGATAATTGGTACAGGAGTTCTAGTATTAACTGGATTAGTAGCAGCAAGAGATGCTGGTCCAGCAGTTATTTTTTCATTTATGATTGCAGCAATTGTTTGTGGATTTGCAGCATTATGTTATGCAGAAGTTGCATCTACACTTCCTGTTTCAGGTAGTGTGTACACATATTCGTATGCAACAATTGGTGAGTTTGTTGCTCATTTAATGGGATGGACATTGTTATCCGTATATGTCGTAACGACTGCCGCAGTAGCTGGCGGATGGACGGGTTATTTCAATAATTTAGTGAGTGGGCTGGGACTAGAAATTCCGAAAGCGTTGCTAACGATTCCAGCGCAAGGTGGTATGGTAAACTTACCAGCAGTTATTGTTACGTTAGTGATAACTTGGTTATTATCACGAGGTACGAAAGAAAGTAAGCGTGTGAATAACATAATGGTATTAATTAAAATTGGTATTGTTGTTTTATTCATTGCAGTTGGTGTATTCTACGTGAAACCAGAAAACTGGATACCATTTGCACCTTACGGTTTAAGTGGAGTGTTCGCAGGGGGAGCAGCAGTATTCTTTGCTTTCTTAGGATTTGATGCATTAGCAACTTCTGCTGAAGAAGTAAAAAATCCGCAACGTGATCTACCAATTGGTATTATTGCTTCGTTAGTTATTTGTACAATTATTTATGTTGTAGTTTGTCTCGTTATGACAGGTATGGTTTCTTATAAGGAATTAGATGTACCTGAAGCTATGGCGTATGTGTTAGAAGTTGTAGGACAAGATAAAGTGGCTGGTGTAATTGCAATTGGAGCTGTAATTGGTATTATGGCTGTAATTTTCGCTTACATTTATGCGACAACACGTGTATTCTTCGCAATGAGCCGTGATGGTTTATTACCAAAATCTTTTGCGAAAATTAACAAGAAGACTGAAGCGCCAACATTTTCAGTTTGGTTAACAGGAATTGGTAGTGCTTTAATTGCTGGATTTATCGATTTAAAAGAATTGTCGAATTTAGCGAATATTGGAGCGTTATTAACATTCGCCATGGTTGGTGTAACTGTTATCATTCTTCGTAAAACGCATCCGAAATTACAACGTGGATTTATGGTACCACTTGTACCGATCTTACCGATTATTTCAATTGCATGTTGTCTATTCTTAATGGTAAATTTACCGTTAACAACATGGATATACTTTGGTATTTGGTTAGCAATTGGAGTAGTTGTATACTTTGTTTATTCGAAAAAACATAGTCATTTAAAAGACGATAGCAGTTCGCAGGATAATTTAGATCAAGCTAATTAA	MANLFKKKSVTQLLGESKSKTLTKTLGAFDLTMLGIGAIIGTGVLVLTGLVAARDAGPAVIFSFMIAAIVCGFAALCYAEVASTLPVSGSVYTYSYATIGEFVAHLMGWTLLSVYVVTTAAVAGGWTGYFNNLVSGLGLEIPKALLTIPAQGGMVNLPAVIVTLVITWLLSRGTKESKRVNNIMVLIKIGIVVLFIAVGVFYVKPENWIPFAPYGLSGVFAGGAAVFFAFLGFDALATSAEEVKNPQRDLPIGIIASLVICTIIYVVVCLVMTGMVSYKELDVPEAMAYVLEVVGQDKVAGVIAIGAVIGIMAVIFAYIYATTRVFFAMSRDGLLPKSFAKINKKTEAPTFSVWLTGIGSALIAGFIDLKELSNLANIGALLTFAMVGVTVIILRKTHPKLQRGFMVPLVPILPIISIACCLFLMVNLPLTTWIYFGIWLAIGVVVYFVYSKKHSHLKDDSSSQDNLDQAN	PGPT0020810_3409	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
AK009_04830	378	ziaR		Transcriptional repressor SmtB	ATGGCTGGAAATAAAGTAGAAACACCACAAGAGACATGTTCTCAAACGATAATTCATGAAGAAGTTGTTGAGCAAGTAAAACAAACAATTCCAACTGATGAAAGTTTAAGTAAAGTAGCAGAACTATTTAAAGTATTAGGTGACCGTACACGTACGAGAATATTACATGCGCTATTTGAAGCTGAGATGTGCGTTTGTGATTTAGCTTATTTATTAGGAATGACACAATCATCTATTTCGCATCAGCTTCGTGTGTTAAAGCAAGCGAAACTTGTAAAGAATCGTAAAGAAGGAAAGGTTGTTTATTATTCGTTAGCTGATCAGCACGTAATTCATATCTTCGAGCAAGCGTTTGAGCACGTAAACGAAGAAGAATAA	MAGNKVETPQETCSQTIIHEEVVEQVKQTIPTDESLSKVAELFKVLGDRTRTRILHALFEAEMCVCDLAYLLGMTQSSISHQLRVLKQAKLVKNRKEGKVVYYSLADQHVIHIFEQAFEHVNEEE	PGPT0004290_461	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903	NA	NA
AK009_04831	2367	cadA	COG2217	Cadmium, zinc and cobalt-transporting ATPase	ATGGCTGAAGCATTAGTGAAAAAGAAATTGATGTTAGAAGGTTTAGATTGTGCGAACTGTGCAATGAAAATTGAAAAAGGTGTTGGGAATATAGAAGGAGTAAATTCTTGCTCTGTAAACTTCGCAACAAAGACAATGATCTTAGAAACAGCACAAAATAAAGAAAACGAAGTTGTTACAGAAGCAAAACAACTCGTTACAAAATTAGAACCGCATATTAAAGTGCAAGAAGAACAAAAAAATAAAATTGCTAAAGAAGTATTTATATTAGAAGGTTTAGATTGCGCGAACTGTGCAATGAAAATTGAAAATAAAGTTAAGGAAATGCCCGCTGTCTCAGAAGCAACTGTTGATTTCGTATCGAAGAAACTACGAGTAGAAGTTGCGAATAAAAGAGAACTAGAAGCGACTGTAGCAAATATAACAAATGTCGTTCAAAAGTTAGAGCCAGATGTGAAAGTTGTTCGTGAAGAGAAGAACGGTCATGACCACGGACATAGTCACGATCATGGTGAAGCAAATGTGAAAAAGATGGTAGGGAGATTAGTGGTTGGCGGAATTTTGACGGCAATTGCTGCATTAGCGGGCTTACCACAAATGGTAACAATTCCGTTATTCGTCCTTGCTTATTTATTAATAGGTGGAGATATCGTTTGGAGAGCGGTAAAAAACATAACTCGTGGCCAAGTATTTGATGAAAACTTCTTAATGGCAATTGCAACTGTAGGAGCTTTTGCAATTCAGCAATATTCAGAAGCTGTAGCAGTAATGCTATTTTATCAAGTAGGAGAACTATTCCAAAGCATTGCGGTAAACCGCTCTCGAAAATCAATTACTTCATTAATGGATATTCGTCCTGATTATGCGAATGTAAAGGTTGGAAATGAAACGAAACAAGTATCACCAGAAGATGTACAAATTGGCGATTATATTATCGTTAAGCCAGGTGAGAAAGTACCATTAGACGGAAAAGTAATTGAAGGAACATCAATGGTAGATACTTCAGCATTAACTGGTGAATCTGTACCACGTGAAGTTGAAGTTGGAAATGATGTATTAAGTGGCTTTGTGAACCAAAACGGCGTGTTGACAATTGAAGTTACAAAAGAATTTGGTGAATCAACTGTATCGAAAATTTTAGATTTAGTTCAAAATGCAAGCAGTAAAAAAGCACCAACAGAAAACTTTATTACGAAGTTTGCGCGTTACTACACTCCAGTTGTAGTTATTACAGCGGCGATCATGGCGTTTATTCCACCGCTTATTTTAGAAGGGGCTACATTCTCTGAGTGGATTTATAGAGCTTTAGTGTTCTTAGTAATCTCTTGTCCATGTGCGTTAGTTGTATCCATTCCTCTTGGATTCTTTGGAGGTATCGGTGGTGCATCTAAAAGTGGTGTGTTAGTAAAAGGTAGTAACTATTTAGAAGCTTTAAATGATGTAAAATATATTGTTTTTGACAAAACAGGAACATTAACAAAAGGTGTTTTCAAAGTTACAAAAATGGAACCGAGCGAAGGTACTACAAGCGAAGAGTTATTAGAGTATGCGGCATTTGCTGAAGTGTATTCTAACCATCCAATTGCCCAATCTATTCGAAAGGCATATGGAAAATCAATTGATGAAAAAATAATCGATGATTATAACGAAATTTCTGGTCACGGTACAGTCGTAAAAGTACAAGGAAAAGAAATTTTTGCAGGTAATGCAAAATTAATGAGAAAAGAAAATATTGAATTTAAACAACCAGAAACAGTAGGTACATTAGTTCACGTTGCTATAGATGGAAAATATGCAGGTTATATTGTTATTTCTGATGAGGTAAAAGAGGATTCGAAACAAGCGATTCAAAAGTTAAAAGAACTAGGTATTAAAAAGACAGTAATGTTAACTGGTGATGCAAAAACAGTTGGTGAAGCTGTCGGTAAAGAATTAGGCTTAGATGAAGTTCATGCGGAATTACTACCGCAACAAAAAGTAGAAGAGATTGAAAAAATTGATGCAGCGAAGCATGGAAAAGAAAAAATTGCCTTCGTTGGTGACGGTATTAACGATACACCAGTATTAGCCCGTGCAGACGTTGGTATTGCGATGGGTGGTTTAGGATCAGATGCAGCAATTGAAGCGGCAGACATCGTTATTATGACTGATGAGCCTTCAAAAATTGCGACAGCTGTAAAAATTGCAAAACGCACAAGAAGTATAGTGTGGCAAAATATCATCTTTGCTTTAGGTGTAAAAGGGATCGTTCTATTACTTGGTGCCTTTGGTATTGCAACAATGTGGGAAGCTGTTTTCTCAGATGTTGGTGTGACACTACTTGCAGTGTTAAATGCAATGCGTGTATTACGAGTGAAAGATTTATAA	MAEALVKKKLMLEGLDCANCAMKIEKGVGNIEGVNSCSVNFATKTMILETAQNKENEVVTEAKQLVTKLEPHIKVQEEQKNKIAKEVFILEGLDCANCAMKIENKVKEMPAVSEATVDFVSKKLRVEVANKRELEATVANITNVVQKLEPDVKVVREEKNGHDHGHSHDHGEANVKKMVGRLVVGGILTAIAALAGLPQMVTIPLFVLAYLLIGGDIVWRAVKNITRGQVFDENFLMAIATVGAFAIQQYSEAVAVMLFYQVGELFQSIAVNRSRKSITSLMDIRPDYANVKVGNETKQVSPEDVQIGDYIIVKPGEKVPLDGKVIEGTSMVDTSALTGESVPREVEVGNDVLSGFVNQNGVLTIEVTKEFGESTVSKILDLVQNASSKKAPTENFITKFARYYTPVVVITAAIMAFIPPLILEGATFSEWIYRALVFLVISCPCALVVSIPLGFFGGIGGASKSGVLVKGSNYLEALNDVKYIVFDKTGTLTKGVFKVTKMEPSEGTTSEELLEYAAFAEVYSNHPIAQSIRKAYGKSIDEKIIDDYNEISGHGTVVKVQGKEIFAGNAKLMRKENIEFKQPETVGTLVHVAIDGKYAGYIVISDEVKEDSKQAIQKLKELGIKKTVMLTGDAKTVGEAVGKELGLDEVHAELLPQQKVEEIEKIDAAKHGKEKIAFVGDGINDTPVLARADVGIAMGGLGSDAAIEAADIVIMTDEPSKIATAVKIAKRTRSIVWQNIIFALGVKGIVLLLGAFGIATMWEAVFSDVGVTLLAVLNAMRVLRVKDL	PGPT0004200_986	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK009_04832	1464	pncB		Nicotinate phosphoribosyltransferase	ATGACTCATTATAAAGACGATAGTTATGCCTTACATACAGACCTATATCAAATCAACATGGCTTATACATATTGGAAAGATGGTATTCATAATCGCCGTTCCGTGTTTGATTTATACTTTCGAAAGCTTCCATTTGAGAACGGCTACGCTGTTTTTGCTGGCCTTGAGAAAATTGTAGAGTACATAGAAAATTTCAGCTTTACTGAAAGCGATATCGCTTATTTAGCAGAATTACAATTTGAAGAAGAATTCCTTCATTATTTACAAAATATGAAATTCACTGGGACGATTCGTAGTATGCAAGAAGGTGAAGTTGTATTTAATAACGAGCCTTTATTACGCGTTGATGCACCACTGGGTGAAGCACAAATTATTGAAACCGCTCTCTTAAATATTGTGAATTACCAAACATTAATTGCAACAAAAGCAGCCCGTATGAAACATGCTGCAAATAATGATGAGCTTTTAGAGTTCGGCACAAGACGTGCCCACGAGTTCGACGCTGCCCTTTGGGGGACGCGTGCTGCCTTTATTGGTGGTTTCTCCTCTACAAGCAATGTTCGTGCTGGGAAACGCTTTGGGATCCCTGTAGCTGGCACACACGCTCACTCTTTCGTTCAAGCATATCGCGATGAATACGTCGCGTTTAAGAAATACGCTGAAACTCATAAGAAGTGCGTCTTTCTCGTTGATACATATGACACATTGAAATCTGGTGTTCCAAATGCAATTCGTGTTGCAAAAGAATTTGGGGATCGTATTGATTTCTATGGTATACGTCTTGATAGTGGTGATATGGCTTATTTATCGAAAAAGGCACGAAAACTACTAGATGAATCAGGGTTTACAAATACAAAAATTATCGCTTCTAGCGATTTAGATGAATACACAATTATGCACCTTAAATCTCAAGGGGCAAAAATTGACGTATGGGGTGTTGGGACAAAATTAATTACGTCCTTTGAGCAACCTGCATTAGGGGCTGTTTACAAACTAGTTGCGATTGAAGATACTGACGGAAAATTAAATGATACGATTAAAATTTCATCTAATCCTGAAAAAATTACCACTCCAGGACTGAAACGAATTTATCGTATTATCAATCGGGTTAACGATCATGCAGAAGGCGATTATATTGCGTTAGATTCTGAAGAACCTGGAAAAGAAGAGCGCTTAAAAATGTTCCATCCAGTTCACACATATATAAGTAAATTCGTAACAAACTTTGAAGCCCGTGAACTCCATAAAGACATTTTCGTTAACGGTGAAAGAACATATGAACTACCAAGTATATTAGATATTCAGCAATATAATGAACAGAGTCTCGCTCTATTTTGGGAAGAATACATGCGAACTTTAAATCCCGAAGAGTATCCTGTCGATTTAAGCCAAGAATGTTGGGATCATAAAATGAATTACATTCAAACTGTTCGAGAACAAGTTGAAAAAAACATACAAAAGTAA	MTHYKDDSYALHTDLYQINMAYTYWKDGIHNRRSVFDLYFRKLPFENGYAVFAGLEKIVEYIENFSFTESDIAYLAELQFEEEFLHYLQNMKFTGTIRSMQEGEVVFNNEPLLRVDAPLGEAQIIETALLNIVNYQTLIATKAARMKHAANNDELLEFGTRRAHEFDAALWGTRAAFIGGFSSTSNVRAGKRFGIPVAGTHAHSFVQAYRDEYVAFKKYAETHKKCVFLVDTYDTLKSGVPNAIRVAKEFGDRIDFYGIRLDSGDMAYLSKKARKLLDESGFTNTKIIASSDLDEYTIMHLKSQGAKIDVWGVGTKLITSFEQPALGAVYKLVAIEDTDGKLNDTIKISSNPEKITTPGLKRIYRIINRVNDHAEGDYIALDSEEPGKEERLKMFHPVHTYISKFVTNFEARELHKDIFVNGERTYELPSILDIQQYNEQSLALFWEEYMRTLNPEEYPVDLSQECWDHKMNYIQTVREQVEKNIQK	PGPT0013375_1004	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
AK009_04833	1272			hypothetical protein	ATGCAACAAACATTAGAAAAAATAGGCAAACAAGTCTTTTACAAACGGCTTCAGCAAAAAATGACACAAGAAGAATTATGTCAGGGCATTTGTTCTGTCTCATACTTAAGTAAGATTGAAAATGGAAAGATCGAAGCATCAGAAGAAATTCTACAATTGCTCTGCACAAGACTGGAAATTGCCGTGACGGATTTGAGAGATGTAGAAGAAGATGTGAAGGGGAAGCTGGATGAATGGTTGAATGCACTAGTTCATTTGGACAAGCAACAAGTAGAACGTATATATGAAGAGTTGCAAGGTGAAATGAAGCATGTGTTGGATTTTGAAATTATAAATTATTATAAACTGCTGTATACACGTTATTTAATTATGAAAAGGGATTTTCCTGCACTCGAAGAAGAATTAGATAAGTTGAAGAAGGTATATAAAAAATATTCTCCATTTCAGAAGTTATTATATATGTATAGTAGAGGGTTATTGTGCTGTTTACAGTATAGATGGAAGGATGGGCTAGATTACTTATTAAAAACAGAAGTAATGGCCAAGGAACAAGGGTATCATGAAACAGGCTTGTATTATAATATAGCGCTTGCATATACTCATTTAGATATTCATCATCTTGCGATTCATTTTGTAAATATGGCATTAGAAGGATTTCGTAGTGAATATAAGTTTAGAAACATAATTAATTGCCAAATCCTTATTGCGGTAAGTTATACAGAAAAAGGTCAGTATGAAGAAGCTTTAAAAATGTATGAAAGTATATTGAGAGAGGCCACATCTTTTGCTGATAAGGATGTACTATTAGCTATTACTTTAAGTAATATGGGAAGTATCTATTATAAAAAAGGAAAATATCAGCAAGCGAAAAAATATTATTTAGATAGTCTACAACTTCAAAAACAAATAGATTTAAACTATTTAGATACAATATATGAAATGGCATTAGTATGCATTAAATTAGAAGAGTTGGATGAGGCAAGGGCATTAATTGATAAGGGAATTGATGCAGCAAAACAAGAAGAGAGATTTAATGCAAAATTATACTTGCTTTTAATGCTTAGATATAAATATTTTGAAGAAGCAAAAGATTATAAATTATTTTTGGAAAATGAGGCTATCCCGTTGTATAAATCTGCAGGAAATAAAATAGAATTAAAGAAAGTATACGTTGAACTAGCAGAACATTTTTCAAATTTATCCAGATTTGAAGAAAGTAATCGATATTATAGGTTAGTTATTGATTTGATGAATGATAATAAGGAGGAATAA	MQQTLEKIGKQVFYKRLQQKMTQEELCQGICSVSYLSKIENGKIEASEEILQLLCTRLEIAVTDLRDVEEDVKGKLDEWLNALVHLDKQQVERIYEELQGEMKHVLDFEIINYYKLLYTRYLIMKRDFPALEEELDKLKKVYKKYSPFQKLLYMYSRGLLCCLQYRWKDGLDYLLKTEVMAKEQGYHETGLYYNIALAYTHLDIHHLAIHFVNMALEGFRSEYKFRNIINCQILIAVSYTEKGQYEEALKMYESILREATSFADKDVLLAITLSNMGSIYYKKGKYQQAKKYYLDSLQLQKQIDLNYLDTIYEMALVCIKLEELDEARALIDKGIDAAKQEERFNAKLYLLLMLRYKYFEEAKDYKLFLENEAIPLYKSAGNKIELKKVYVELAEHFSNLSRFEESNRYYRLVIDLMNDNKEE	PGPT0011700_137	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
AK009_04834	132			hypothetical protein	ATGAAAAAGATGGTATTTGGAGTATTAGCATTTATAGTGACTCTTACAGTTGCTGGAGGAATACATCAGTATAGCAGTAAACCTGATATTGTTGGTCAACAAGCTAAAACTGTTGAACAAGTTAATTCATAA	MKKMVFGVLAFIVTLTVAGGIHQYSSKPDIVGQQAKTVEQVNS				NA	NA	NA	NA	NA
AK009_04835	1701	npr	COG3227	Bacillolysin	ATGAAAAAGAAAAGTTTAGCGTTAGTGTTAGCGACAGGAATGGCAGTTACAACGTTTGGAGGGACAGGCTCTGCATTTGCGGATTCTAAAAATGTACTCTCTACGAAGAAGTACAATGAGACAGTACAGTCACCTGAGTTTATTTCTGGTGATTTAACTGGAGCGACTGGTAAGAAAGCAGAATCTGTTGTGTTTGATTACTTAAACGCAGCAAAAGGTGATTACAAGCTAGGGGAAAAGAGTGCGCAAGATTCTTTCAAAGTGAAACAAGTGAAGAAAGATGCTGTAACTGATTCAACAGTAGTACGTATGCAACAAGTTTACGAAGGAGTACCTGTATGGGGTTCTACTCAAGTAGCTCACGTAAGTAAAGACGGTTCTTTAAAAGTATTGTCTGGAACAGTTGCACCTGATTTAGACAAGAAGGAAAAGTTGAAAAATAAAAATAAGATTGAAGGCGCAAAAGCGATTGAAATCGCGCAGCAAGACTTAGGGGTAACACCGAAATATGAGGTAGAACCAAAAGCGGACTTATATGTATATCAAAATGGTGAAGAAACAACATATGCATACGTTGTAAATCTAAACTTCTTAGATCCTAGTCCAGGAAACTACTACTATTTCATTGAAGCAGACAGCGGTAAAGTATTAAATAAATATAATAAATTGGATCATGTAGCAAATGAAGATAAGTCACCAGTTAAGCAAGAGGCTCCTAAACAGGATGCGAAAGCAGTAGTAAAACCTGTAACAGGAACAAATAAAGTAGGAACTGGTAAAGGTGTATTAGGAGATACGAAATCACTTAATACAACATTATCTGGTTCATCTTACTACTTACAAGATAATACGCGCGGAGCAACGATTTTCACATACGATGCGAAAAACCGCTCAACATTACCAGGAACATTATGGGCAGATGCAGATAATGTTTTCAATGCAGCGTATGATGCAGCGGCAGTAGATGCTCATTACTATGCAGGTAGAACATATGATTATTATAAAGCTACATTTAACAGAAACTCTATTAATGATGCAGGAGCACCATTAAAATCAACAGTTCATTACGGAAGTAAGTATAATAATGCATTCTGGAACGGTTCACAAATGGTATACGGGGATGGTGATGGTGTAACATTCACTTCATTATCTGGTGGAATTGACGTAATTGGTCACGAATTAACGCATGCTGTTACGGAAAATAGCTCGGACTTAATTTATCAAAATGAATCAGGGGCGTTAAATGAAGCGATTTCTGATATCTTTGGTACTTTAGTAGAATTCTATGATAACCGTAACCCAGATTGGGAGATTGGTGAAGATATTTACACGCCTGGTAAAGCAGGAGACGCGCTTCGCTCTATGAGTGATCCAGCGAAATATGGTGACCCAGACCACTATTCTAAGCGTTACACAGGTTCAAGTGATAACGGTGGCGTTCATACAAACAGTGGTATTATTAACAAACAAGCTTATTTATTAGCAAATGGTGGTACGCATTCTGGTGTAACTGTAACTGGTATTGGTAAAGATAAATTAGGTGCGATTTACTACCGTGCAAATACACAGTATTTCACGCAATCTACTACATTTAGTCAAGCTCGTGCTGGTGCAGTACAAGCTGCTGCGGATTTATATGGTGCTAGCTCTGCAGAAGTAAATGCAGTGAAGCAATCATTTAGTGCTGTTGGTGTAAATTAA	MKKKSLALVLATGMAVTTFGGTGSAFADSKNVLSTKKYNETVQSPEFISGDLTGATGKKAESVVFDYLNAAKGDYKLGEKSAQDSFKVKQVKKDAVTDSTVVRMQQVYEGVPVWGSTQVAHVSKDGSLKVLSGTVAPDLDKKEKLKNKNKIEGAKAIEIAQQDLGVTPKYEVEPKADLYVYQNGEETTYAYVVNLNFLDPSPGNYYYFIEADSGKVLNKYNKLDHVANEDKSPVKQEAPKQDAKAVVKPVTGTNKVGTGKGVLGDTKSLNTTLSGSSYYLQDNTRGATIFTYDAKNRSTLPGTLWADADNVFNAAYDAAAVDAHYYAGRTYDYYKATFNRNSINDAGAPLKSTVHYGSKYNNAFWNGSQMVYGDGDGVTFTSLSGGIDVIGHELTHAVTENSSDLIYQNESGALNEAISDIFGTLVEFYDNRNPDWEIGEDIYTPGKAGDALRSMSDPAKYGDPDHYSKRYTGSSDNGGVHTNSGIINKQAYLLANGGTHSGVTVTGIGKDKLGAIYYRANTQYFTQSTTFSQARAGAVQAAADLYGASSAEVNAVKQSFSAVGVN	PGPT0020995_246	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
AK009_04836	549	ydjZ_2	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGGCTGAAACGATTCAAAATTTCTTAACAGAATACTATTCAATCGCAATTCCACTTAGTATCTTAATTAACATCATCATTAGTCTTTTAGGTGTTATTCCTAGCATCTTTTTAACCGCCATTAATATACAGCTCTTCGGTGTAACAAATGGCACAATCATTTCGATCGCAGGTGAGGCCTTAGGGGCTATTATCTCGTTTTATATTTATCGCATAGGCCTTCAAAAGTTCACTCACGATAAAGTAAATAAGTACCCAAAGGTAGAGCGTCTTCTTTATGTAGAAGGTATAGAGGCCTTTCTACTCGTTCTATCGTTTCGATTGATACCTTTCATCCCATCAAGTATCGTGACTTTATTTGCAGCTCTAGGGAAAATGTCATTACTCTCCTTCAGTATTGCCAGTACAATAGGTAAAATACCGGCCTTATGGATTGAAGTATATTCGGCATATCATGTTATGAACGGAACAAATGAAGCGAAGTGGATTGTAACAATCGCAGGCGCTATTGGATTGTTTTATTTGTGGAAAAAATGGAGAAAAAAATAA	MAETIQNFLTEYYSIAIPLSILINIIISLLGVIPSIFLTAINIQLFGVTNGTIISIAGEALGAIISFYIYRIGLQKFTHDKVNKYPKVERLLYVEGIEAFLLVLSFRLIPFIPSSIVTLFAALGKMSLLSFSIASTIGKIPALWIEVYSAYHVMNGTNEAKWIVTIAGAIGLFYLWKKWRKK				NA	NA	NA	NA	NA
AK009_04837	519			hypothetical protein	ATGAAACGAATAAGTAGTCTTTTCTTGAGTGGTTTATTGGCACTAATGCTGATCTTAAGTGGATGTGCAGGAAAAGAACAAAAAACAGAGAAACAAACAGGGAATCAATCGACATCAGTAGAAAAAATTAGTGATAATATTTTAGATGAAATGGAAGGGCCACCTAAAAATGGTCATACGATTGAAAGACATGTAGGCAAATCAGAAGAAGATTTGAAGAATCGCTTGAAGACAGATAAAGTATCAGCAGCAAGTACATACTATGACAAGGAAACAGCAACGAAAGCTGTAAAAGATAGTTTGAAGCAGCATGATAAGGAAATTCAAGACTGGTTAAAAAATTCTAAAGAGGCTCGTCTCGTATTAAATACAACACATTCATTCCCGGTTGGAAAAACGGTAATAAAGAAAAATATGAGTGTAAAAGACAAGTTGGTAAAAACTGTTACTGTTTTAGCAAGAGATAAGTCAGGAGAATTAGGGTTTAAGATTATTACTTCTTATCCATCTGATAAATAA	MKRISSLFLSGLLALMLILSGCAGKEQKTEKQTGNQSTSVEKISDNILDEMEGPPKNGHTIERHVGKSEEDLKNRLKTDKVSAASTYYDKETATKAVKDSLKQHDKEIQDWLKNSKEARLVLNTTHSFPVGKTVIKKNMSVKDKLVKTVTVLARDKSGELGFKIITSYPSDK				NA	NA	NA	NA	NA
AK009_04838	273			hypothetical protein	ATGTATACGACATTACAATACTTTCTTAAATCGTACTGTACGTTAAGTATTCATGAGGATGAAATAGTAAGCGTGATGGAAGAGTTTATTGAACAAGAAGACGAAGAAATTGTTTTGAAATTACGTGATGAATTAATAAATATGAAGAAAAAGAACGCGTGGGAAGAGGCGTGTGTATTAGCTGCGAAGCAAGGCAATCGTATGTGGTCTTTAGAAGAAACGAAAGACCATCTTGAAACTTTTTTACTATTACTGCAAAAGAAAAAGGCGTGA	MYTTLQYFLKSYCTLSIHEDEIVSVMEEFIEQEDEEIVLKLRDELINMKKKNAWEEACVLAAKQGNRMWSLEETKDHLETFLLLLQKKKA				NA	NA	NA	NA	NA
AK009_04839	1263			hypothetical protein	ATGAAGCTAAGTAAAATACTGATCGGTTCTGCAATTGCTGGGGGCATATTACTTTGTGTAGGCGGTGTTGGGGGATATCAATATGTCTCCAAATTAAATAATCAATTAGATACTAGTGCATTACCGAATACTACATTTGAAGGTATTTCTCTCGATGGAAAAAATAAGAAAGATATTCAAGCAATTATTAATCAAAAGGTAACTGAATTAGATCAAAAATCCCTTACCTACATATTCCAAAACGATAAACAAACTTACACATGGAAAGATTTAGGGATAAATTATAAAGAGAAAGATATTATTGACAAAATCTTTAAAGAACAAGAAGGAAACGTAATGAATCGTTACAAAATGCGTAAGCAAGCTGAAAACGGTGAATTAAAACGTGACTATAAATTAACACCACAATTAAATGCAACAGCTTATGAAACCTTTATAAAAGATAAATATAATGAAACATTAAAAAATCCTATTAATGCAGAATTCAGTATTGAAGGCTCAACAGTAAATGTTAGTCAAAGCCAAAACGGAGAAAAAATTGATAAAGGGAAACTAAACGGTTTAACAAACGAAGCTATTACTACCGGTAAATCAGATGTCACATTGCCAGTCACATTCATAAAACCAGAACGCTCTACAGAAGACATACAGAAAATGGGGATTAAAGAAGTCATCGCTGAATATTCTACTCCAATGGCCGGCCGTAACGGAAATCAATCATTTAACGTAAATAAGTCAGCCAATACTTTAAGTGGGGTTATTGTCGCACCTGATGAAACGTTTAGTTTTAACGGCCGCGTTGGCGTAACTGATGCTGCACATGGTTACAAATCTGCAGCAGTATATTCACAAGGTAAAGTAATACAAAGTGCAGGCGGAGGAGTTTGCCAAGTCAGTAGTACATTATACAGCGCAGCTTTAAGGGCAGATTTAGGCATTGTTTCTCGAAGCAATCATTCTATGCCGGTAAATTATTTACCACTTGGGCAAGATGCAGCAGTAGCAGATTATGGTCCAGATTTAAAATTTAAAAATAATACGGGCAATCATATTTATATTCAAGCATTTTCAAATGGAGGTAGTATTACTACACGCATTTTCGGTACAAATACTGGTAAAAATGTTGAAGTTTCTTCTCAAGTAATTAGTAGGACTAGTGATAAAATCACAGCGGTTACGTATAAAAAAGTAACACAAAACGGGGAAGTAATATCAAATGGACAAATTTCAAAAAGCGTATATAAAAGCGCTCCAAAAGAATAG	MKLSKILIGSAIAGGILLCVGGVGGYQYVSKLNNQLDTSALPNTTFEGISLDGKNKKDIQAIINQKVTELDQKSLTYIFQNDKQTYTWKDLGINYKEKDIIDKIFKEQEGNVMNRYKMRKQAENGELKRDYKLTPQLNATAYETFIKDKYNETLKNPINAEFSIEGSTVNVSQSQNGEKIDKGKLNGLTNEAITTGKSDVTLPVTFIKPERSTEDIQKMGIKEVIAEYSTPMAGRNGNQSFNVNKSANTLSGVIVAPDETFSFNGRVGVTDAAHGYKSAAVYSQGKVIQSAGGGVCQVSSTLYSAALRADLGIVSRSNHSMPVNYLPLGQDAAVADYGPDLKFKNNTGNHIYIQAFSNGGSITTRIFGTNTGKNVEVSSQVISRTSDKITAVTYKKVTQNGEVISNGQISKSVYKSAPKE				NA	NA	NA	NA	NA
AK009_04840	1017	tagU_2	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGATGAAATCCGACCCGAACAACAATACGCGAGCCAGAAAAGGACGCTCAAAGAAAAAACGCCTACTTTGGTGCCTTCTTATTCCATTACTAATTGTAGCACTTGGAGCAGGAGGCTACTCCTTCCATATATACAGTAAAGCAAAGTCCGTCTTAAATAATGCTTATGCTGAACTAGGTCGAGGAGATAAGTCCAGTAAACGTGAAAAAGCTGTTAAACCTATGACCGACAACATTTCTGTACTAATTATGGGTGTTGATGAAAGTGATATTAGGGAAAAAGGTTATGGAAAAGCAACTCGAACAGATGCGTTATTACTTGCAACAATTAATAAAAACGATAAATCCGTTAAACTTGTAAGCATTCCACGTGACTCACGCGTCTACATTAAATCACGTGATAAATACGATAAAATCACACATGCGCACGTATTCGGTGGTGTAGACAGCACAATTGATACGGTAGAGAACTTTTTAGATGTTCCAGTTGACTACTATGTAAAATTCAACTTTAAATCATTTATTAAAATTGTTGATTCCCTTGGTGGTATTACTGTAGACGTTCCAGTTGAGTTCACAGAGCAAAATAGTAAAGATGAAGCAGATGCAATTCATCTAAAAAAAGGACGTCAACATTTAAATGGAGAAGAGGCACTGGCACTGGCTAGAACTCGTCATATCGATAGTGATTATATGCGTGGTCAACGCCAACAGCTTGTATTAGAGGCCATTGCTGAAAAGGCACTATCTCTTAATTCCATTAATAAAATCGGAGGCCTACTAGACGCTGTCGATAAAGACTTAAAAACCAATTTAACTTTTGATGATATGATGACAATTACAAAAAATTCAATGGATTCAAATTTAAAGATGGAAAAAATGCAAGTAGAAGGTACAGATAAATATATAGGCGGTATTTATTATTACGTTCCAAATGAAAAAAGCGTCAATAATATTTCGACAAAACTACAAGAACATCTCGGTGTTACGAATAAAAATGAGCATAAAAAATTATAA	MMKSDPNNNTRARKGRSKKKRLLWCLLIPLLIVALGAGGYSFHIYSKAKSVLNNAYAELGRGDKSSKREKAVKPMTDNISVLIMGVDESDIREKGYGKATRTDALLLATINKNDKSVKLVSIPRDSRVYIKSRDKYDKITHAHVFGGVDSTIDTVENFLDVPVDYYVKFNFKSFIKIVDSLGGITVDVPVEFTEQNSKDEADAIHLKKGRQHLNGEEALALARTRHIDSDYMRGQRQQLVLEAIAEKALSLNSINKIGGLLDAVDKDLKTNLTFDDMMTITKNSMDSNLKMEKMQVEGTDKYIGGIYYYVPNEKSVNNISTKLQEHLGVTNKNEHKKL	PGPT0023440_2356	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
AK009_04841	1179	nupC_3	COG1972	Nucleoside permease NupC	ATGAAATTCATTACTTTTTTCGTCGGACTAATTGTTGTTTTCTTACTCGCTTATATTGCTAGCAACAATAAGAAACATATTAAGTTTAAACCAATTTTCATCATGCTTATTATACAGTTAATTTTAACCTACCTATTATTAAATACAGAAATCGGTCTCATACTTATTCGTGTCATTTCCAGTCTGTTTACAAAGCTACTCGAGTATGCTGCTGATGGAATAAATTTCGTATTTGGTGGTATTGCAAATAAAGGTGAAATGCCATTTTTCCTTACTGTATTATTACCAATCGTCTTTATTTCTGTTTTAATTGGTATATTACAACATTTCAAAATACTACCATTTTTTATTCATTGGATCGGGTACTTTCTTAGTAAAATAAATGGTCTTGGGAAATTAGAATCTTACAATGCTATTGCCTCTGCCATTGTCGGTCAATCAGAAGTTTTTATTACAGTGAAAAAGCAATTAGCTCAAATTCCAAAACACCGTCTTTATACACTTTGTGCCTCTGCTATGTCAACCGTATCTATGTCTATCGTAGGTGCCTATATGACAATGATTGAACCTAAATATGTAGTAACTGCACTCGTTCTCAATTTATTTAGCGGTTTTATTATCGTACTCATCATTAACCCTTACGACGTTAAAGATGACGAAGATATTTTAGAAATCAAAGGTGAAAAACAAAGCTTTTTTGAAATGCTTGGAGAATACATTCTTGATGGTTTTCGTGTAGCCATTGTTGTCGGCGCTATGCTCATCGGATTTGTCGCATTAATTAGTTGTATTAATGACCTGTTCCTCATTATATTCGGTATTACGTTCCAACAATTAATCGGCTATGTATTTGCACCTATCGCATTCCTTATCGGTGTACCAAGTTCTGAAATTGTCGCAGCTGGCAGCATTATGGCAACGAAGCTTGTAACGAATGAATTTGTCGCAATGATGGACCTTAGTAAAATTTCTAATAGCCTTTCTCCCCGTACAGTTGGGATTATTTCTGTTTTCCTTGTGTCTTTTGCCAATTTTTCTTCCATTGGTATTATTTCAGGTGCGGTAAAAGGACTAAACGAAGAACAAGGAAACGTTGTTGCGAGGTTTGGCCTTAAATTACTATATGGAGCTACTCTCGTTAGCATTTTATCCGCAATTATCGTAAGCATTATGTTGTAA	MKFITFFVGLIVVFLLAYIASNNKKHIKFKPIFIMLIIQLILTYLLLNTEIGLILIRVISSLFTKLLEYAADGINFVFGGIANKGEMPFFLTVLLPIVFISVLIGILQHFKILPFFIHWIGYFLSKINGLGKLESYNAIASAIVGQSEVFITVKKQLAQIPKHRLYTLCASAMSTVSMSIVGAYMTMIEPKYVVTALVLNLFSGFIIVLIINPYDVKDDEDILEIKGEKQSFFEMLGEYILDGFRVAIVVGAMLIGFVALISCINDLFLIIFGITFQQLIGYVFAPIAFLIGVPSSEIVAAGSIMATKLVTNEFVAMMDLSKISNSLSPRTVGIISVFLVSFANFSSIGIISGAVKGLNEEQGNVVARFGLKLLYGATLVSILSAIIVSIML	PGPT0021065_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_04842	387			hypothetical protein	ATGAATATATGTAGAGTGCATCACGTTGCAATTATTTGTTCGAATTATGAGAGGTCAAAGAATTTTTATACTAGAATATTAGGGTTTAAAGAGATAAATGAAGTATATAGAAAGGAACGAGATTCTTATAAATTAGATTTATGTGTAGGAGAAGAGTATCAAATCGAATTATTTTCATTTCCAAATCCGCCTGAGCGCAAAAGTTTTCCAGAAGCAGCCGGTCTTAGACATTTAGCATTTGCTGTTACAAATATAGAAGAAGCTGTGAAGCATTTAAACCAATGTGGTGTTAAGACAGAACCAATCCGTATTGATGAAATAACGGGGAAGAAATTCGTCTTTTTCCAAGACCCTGATGGTTTACCTTTAGAATTGTATGAGGTTTGA	MNICRVHHVAIICSNYERSKNFYTRILGFKEINEVYRKERDSYKLDLCVGEEYQIELFSFPNPPERKSFPEAAGLRHLAFAVTNIEEAVKHLNQCGVKTEPIRIDEITGKKFVFFQDPDGLPLELYEV				NA	NA	NA	NA	NA
AK009_04843	1299			hypothetical protein	GTGGATATTTTAAAATTATTGATGGTAGTCATTCTTATTGGGTTAACAGCATTTTTTGTGGCTGTTGAATTTGCAATTATTAAGGTACGTAGCAGTCGTATTGATCAACTCGTTAGTGAAAAAAGACGAGGTGCACTGGCAGCTAAAAAGGTAACTTCAAATTTAGACGAGTATTTATCGGCCTGTCAGCTAGGTATTACAATTACTGCTTTAGGGCTCGGGTGGTTAGGGGAACCAACTATTAAACATTTACTCGAGCCGTTGTTTTTAAAATTACAATTCTCACCTGCAATTTCCAGTACAGTTTCATTTATTATTGCCTTTGCAGTAATTACATTTTTACATGTTGTCATTGGGGAACTTGCTCCAAAGACATTTGCTATACAAAAAGCAGAACAAGTTAGCTTATTGTTATCGAAACCACTTATTTATTTTTACCGAGTTATGTACCCGTTTATTTGGGCTTTAAATGGTTCAGCGAGGGTTGTAACTGGTTTATTCGGATTACATCCAGCTTCTGAACATGAAGTAGCTCATTCAGAAGAAGAATTAAGGTTAATCTTATCTGAGAGCTATGAGAGCGGAGAGATTAACCAAAGGGAATTTAAATATGTAAATAATATTTTTGAATTTGATAATAGAGTAGCAAAAGAAATTATGGTACCTCGTACGGAAGTTGTAGGCTTATATGAGGACGAACCATTTGAAACACATATTAAAGTCATCGCACAAGAAAAGTACACGAGATATCCTGTATTTGGTGAAGATAAAGATGAAATTATTGGGATGGTAAATGTAAAAGATTTATTTATTCGTTATATGGATGGTAATCGGGACGAGGAGTGCTCAATTATGCCATATACAAGGCCAGTTATTGAAGTGCTAGAAAATATTCCAATTCATGATTTACTGTTACAAATGCAAAGAAAACACATTCCATTAGCTGTATTATATGATGAATATGGTGGTACAGCAGGGATTGTTACACTAGAAGATATTTTAGAAGAAATTGTTGGAGAAATTCGAGATGAATACGATGAAGATGAGAATCCACCTATAGAGCATGTAAGTGAAGGATATAAAATCGTAGAGGGAAAAGTGCTTATTAGTGAAGTAAATGATTTGCTTGGCATACATTTAATTGCTGATGATGTAGATACAATTGGTGGCTGGATTATGGTACAAAAACAAATCGTTGCTGAAGGAGATGTTATTGAGAAACACGGTTTTTATTTTAAAGTCCTTGAAAAGGATATGCATCAAATTAAACGAGTGGAAATAAGGAAAGTAGAAGAATGA	MDILKLLMVVILIGLTAFFVAVEFAIIKVRSSRIDQLVSEKRRGALAAKKVTSNLDEYLSACQLGITITALGLGWLGEPTIKHLLEPLFLKLQFSPAISSTVSFIIAFAVITFLHVVIGELAPKTFAIQKAEQVSLLLSKPLIYFYRVMYPFIWALNGSARVVTGLFGLHPASEHEVAHSEEELRLILSESYESGEINQREFKYVNNIFEFDNRVAKEIMVPRTEVVGLYEDEPFETHIKVIAQEKYTRYPVFGEDKDEIIGMVNVKDLFIRYMDGNRDEECSIMPYTRPVIEVLENIPIHDLLLQMQRKHIPLAVLYDEYGGTAGIVTLEDILEEIVGEIRDEYDEDENPPIEHVSEGYKIVEGKVLISEVNDLLGIHLIADDVDTIGGWIMVQKQIVAEGDVIEKHGFYFKVLEKDMHQIKRVEIRKVEE	PGPT0014013_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014013-yrkA-NA	NA	NA
AK009_04844	1434	aspA_3	COG1027	Aspartate ammonia-lyase	ATGATAGCAACGAAGGATATACGTATAGAAAAAGATTTTTTAGGTAAAAAAGAAGTACCAAGTGCAGCTTATTATGGTGTACAAACATTACGTGCCGTAGAAAACTTCCCAATTACAGGATACCGCATTCATCCATCACTCATTACAGCAATGGCAATTGTGAAAAAAGCAGCGGCACTTGCGAATATAGATACTGGTTACTTAGCTAAAGACATTGGACATGAAATTGCAGAAGCAGCGCAAGAAATTGTTGATGGAAAGTTTCATGATCAATTTATCGTGGATCCTATTCAAGGCGGAGCCGGAACTTCTATTAATATGAATACAAATGAAGTAATTGCGAATAGAGCGTTAGAGCGTATGGGATATGAAAAAGGGGAATATGCGAAAATTAGCCCAAACACTCATGTGAACATGGCCCAATCAACGAACGATGCGTTTCCAACAGGGATTCATATTGCAACTCTTATGATGTTAGAAGAGCTTCTTATTACAATGGAAGAACTTCATTCTGCTTTTCGTAAAAAAGCAAAAGAGTTTGATCACGTTATTAAAATGGGACGCACACATTTACAAGATGCAGTTCCAATTCGCCTTGGACAAGAATTTGAAGCGTATAGCCGAGTGCTTGAGCGTGATATAAAAAGAATTAAACAGTCTCGTCAACATTTATATGAAGTGAATATGGGGGCGACAGCTGTTGGTACAGGATTAAATGCAAATCCTACGTATATTGAACAAGTGGTAAAACATTTAAGAACGTTTAGTGGATTCCCACTTGTTGGTGCAGAGCATTTAGTTGATGCAACGCAAAATACAGATGCATACACAGAAGTATCTGCAGCGCTTAAAGTATGTATGATGAACATGTCTAAAATTGCAAACGATCTTCGTATTATGGCGTCTGGTCCACGTGTTGGGTTAGCTGAAATTCAATTGCCAGCACGTCAGCCAGGTTCATCCATTATGCCAGGAAAAGTAAATCCAGTTATGGCAGAAGTAATTAACCAAGTCGCATTCCAAGTAATCGGAAACGATCATACAATTTGCTTAGCATCAGAAGCAGGACAATTAGAGTTAAACGTAATGGAGCCTGTGCTTGTATTTAATTTAATTCAATCTATAAGCATTATGAATAATGGATTCCGTGTATTCCGTGAATATTGTATTGAAGGAATTACAGCAAATGAAGAATTGCTGAAGCAATATGTTGAGAAAAGTGTTGGAATTATTACAGCAGTTAATCCTCATATTGGTTATGAAGCAGCATCTCGTATTGCACGTGAAGCAATTGAAACAGGAAAATCTGTTAGGGAGTTATGTTTAGAACATGGTGTACTGACAGAAGAGGAATTGGATATTATTTTAGATCCATTCGAAATGACTCATCCTGAAATTGCTGGAGCTTCTTTATTAAAAAATAAAAAAATATAA	MIATKDIRIEKDFLGKKEVPSAAYYGVQTLRAVENFPITGYRIHPSLITAMAIVKKAAALANIDTGYLAKDIGHEIAEAAQEIVDGKFHDQFIVDPIQGGAGTSINMNTNEVIANRALERMGYEKGEYAKISPNTHVNMAQSTNDAFPTGIHIATLMMLEELLITMEELHSAFRKKAKEFDHVIKMGRTHLQDAVPIRLGQEFEAYSRVLERDIKRIKQSRQHLYEVNMGATAVGTGLNANPTYIEQVVKHLRTFSGFPLVGAEHLVDATQNTDAYTEVSAALKVCMMNMSKIANDLRIMASGPRVGLAEIQLPARQPGSSIMPGKVNPVMAEVINQVAFQVIGNDHTICLASEAGQLELNVMEPVLVFNLIQSISIMNNGFRVFREYCIEGITANEELLKQYVEKSVGIITAVNPHIGYEAASRIAREAIETGKSVRELCLEHGVLTEEELDIILDPFEMTHPEIAGASLLKNKKI	PGPT0020125_846	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
AK009_04845	1620	glcA_1	COG1620	Glycolate permease GlcA	ATGAGTACTTGGACACAAATTTATGATCCATTAAACAATATTTGGTTATCTGCACTAATCGCAGCACTTCCAATTTTCTGCTTCATCATTTGTTTAATGGGACTGAAAATGAAAAGTTATATCGCTGGTCTTTACAGTGTGATTGTCGCTATTATTCTTGCAATATTTGTTTATAAAATGCCAGCAACAGTAGCTGTAGCATCTGCTGGATTCGGTGTTTTATCTGGATTTTATCCAATTTGTACTATCGTTATCGCCGCAATTTTCCTTTACAAATTAACTGTTAAAACAGAGCAGTTCAATATTATTCGCGATAGTATTTCAAGCATTACAAATGATCAACGTTTACAAGTATTATTAATTGCTTATTCTTTCGGTGCTTTCTTAGAAGGCGCAGCTGGTCTAGGGGTTCCAGTTGCTATTACAGCTGCACTACTTGTGGGTATGGGCTTTAATCCATTAAAAGCAGCAGGTATTTGTTTAGTAGCTAATATTGCTGGTGGTGCTATGGGTGCTATGGGTATTCCAGTTACAGTACCGGCACAATTAACTGAACTTGACGCATTAACTATTGGTCGTCAAACTGTTCTTATTTTACCTTTCATTAGTATTATCTTACCTTTCTTACTTGTTTCAATGGTCGATGGAGTTAAAGGTATTAAAGAAACTTGGCAAGGTATTCTTGTAAGTGGTGTTTCTTTCGCTATTACTCAATTCGCTGTAACTTACTTCTTAGGTGCAGAACTTACTAATATTTTCGCAGCCGTTGTAAGTATGATTGCTCTTGCATTATTCTTACGTGTTTGGCAACCAAAATCTTCTACTAAAGAAGAAAAACAAGAAACTAAAGTATCACATACATTCAATCAAATTTTATATGCTTGGTCTCCATTCGTATTCTTAACTGCATTTGTAACAATCTTTAATTTAAAACCAATTAAAGCTTTATTTGCTCCAGATGGTGCGTTAGCAAACTTAGTATTTAACATTCAGTTCCCTGGTCTTCATAATGCTGTTATGAAAACTACACCAATTACAAAAGCTGATACACCTTTCGCAGCTGTTTTCAAATTTGATGTATTTTCTTCTACAACTACTGCGATTGTACTAGCAATTATCGTTTCACTTATCGTTTACCGCGTAAAAGGTAAAATGGTTAAAGAATTAATGATTGAAACAATGAAAGAATTAAAAGCTCCAGTATATACAATTTGTAGCGTTATCGCTTTAGCTTACGTAGAGAACTACTCTGGTATGTCATCTACACTTGGACTTGCATTCTCATCTACTGGTAATGCATTCCCAATTCTTTCTCCAATCTTAGGATGGATTGGCGTATTCATTACAGGTTCAGTAGTTTCAAGTGGTTCTTTATTCGCACCACTTCAAGCAGTAACAGCAGACCAATTAAACATCGTTCCTTCTACACTCGTTGCCTTAAACGTGGTAGGTGGTACAATGGCAAAAATGGTTTCACCACAATCTGTAGCAGTTGCTTGTGCCGCAGTTGGACTAGTTGGTAAAGAATCTGCTCTATTTAAAACAGCAATGAAATACAGTTTAATCTTCTTAGCTGTTATTAGCTTACTTCAATTAAACGCTGTGTTTAATATCTTTTAA	MSTWTQIYDPLNNIWLSALIAALPIFCFIICLMGLKMKSYIAGLYSVIVAIILAIFVYKMPATVAVASAGFGVLSGFYPICTIVIAAIFLYKLTVKTEQFNIIRDSISSITNDQRLQVLLIAYSFGAFLEGAAGLGVPVAITAALLVGMGFNPLKAAGICLVANIAGGAMGAMGIPVTVPAQLTELDALTIGRQTVLILPFISIILPFLLVSMVDGVKGIKETWQGILVSGVSFAITQFAVTYFLGAELTNIFAAVVSMIALALFLRVWQPKSSTKEEKQETKVSHTFNQILYAWSPFVFLTAFVTIFNLKPIKALFAPDGALANLVFNIQFPGLHNAVMKTTPITKADTPFAAVFKFDVFSSTTTAIVLAIIVSLIVYRVKGKMVKELMIETMKELKAPVYTICSVIALAYVENYSGMSSTLGLAFSSTGNAFPILSPILGWIGVFITGSVVSSGSLFAPLQAVTADQLNIVPSTLVALNVVGGTMAKMVSPQSVAVACAAVGLVGKESALFKTAMKYSLIFLAVISLLQLNAVFNIF	PGPT0001800_1445	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK009_04846	288	pagR_5		Transcriptional repressor PagR	ATGAACCAAAATCAATTCGAATGTCGTATTTCAGAAGAAGATGTACAAATGTTAAGAGCGTTAGCTCACCCACTTCGTCTACGTCTAGTAATGGAACTTATGCAAAGAGGAACATGTAATGTAACACAACTACAGGAAGTGTTAGAAATTCCGCAATCAACGGTTTCACAACATTTAACGAAGTTAAAGCAAAATAAAGTAGTGCGCTTTGAAAGACGAGGATTAGAAGTGTATTATCAAATCCATAATGATAAAGTAAGTGCGGTAGTAAAAACATTATTTTCTTAA	MNQNQFECRISEEDVQMLRALAHPLRLRLVMELMQRGTCNVTQLQEVLEIPQSTVSQHLTKLKQNKVVRFERRGLEVYYQIHNDKVSAVVKTLFS	PGPT0004300_341	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_04847	180	sspH_2		Small, acid-soluble spore protein H	ATGGATGTGAAACGTGTGAAACAAATCTTATCTTCTTCAAGTAGAATTGACGTTACATATGAGGGCGTACCAGTATGGATTGAGAGCTGTGATGAGCAGAAGGGGAGTGCTCAAGTGTATGATGTATCTAATCCTGGTGAGAGCGTTCATGTGGACGTGACAGCTTTAGAGGAGAAATAA	MDVKRVKQILSSSSRIDVTYEGVPVWIESCDEQKGSAQVYDVSNPGESVHVDVTALEEK	PGPT0024895_210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
AK009_04848	1350	dtpT	COG3104	Di-/tripeptide transporter	ATGGATGCAGCTTTAAAATTAGACAAAGCTGGAGAGCAACAATCACCAAAAAAACATCCACCAGGGTTATACTTGTTGTTCTTTACAGAGGCATGGGAAAGATTTAGTTATTACGGAATGCGTGGCTTATTAGTTCTTTATTTAACAACGAGCTTAGTAAGCGGCGGTTTAGGATTTGATAAAGCAGTTGCAGTTCAAATTTACGGTATTTTCACAATGCTTGTATATTTCACACCTATTATTGGTGGTTGGTTAACTGACCATTTCATTACGAAGCGACATGCCATTACTATTGGTGGTATCATCATGGCAATTGGTAACTTCGTACTATTTTCAATGAATACGAAAACTGGACTATTTTTAGGATTAGGATTATTAGTTATCGGTAACGGATTCTTCAAACCGAATATTTCGACTTTATTAGGTCAATTATATAGTGACAACGATTCTCGTCGTGATAGTGCCTTCACTATCTTCTACATGGGGATTAACTTAGGAGCTCTTATCGCTCCATTCATTTGCGGTTACTTCGCAGATTATAGATACGGTTTCTTAACAGCTTGTATCGGTATGATTATTGGACAAATTGCATTTAACTTATTAGCACCTCGTTACTTAGGATCAGCTGGAACAACAGTTGTGGGTAAAAAATCTAAAGAACAAAATGCAAAAGCTGTTGAGAAAAAACCTTTAACACCACAAGAGAAAAAACGTACTGTTGCAATTTTAATTTTAACTTGTTTCGTTGTATTCTTCTGGGCAGGATTTGAACAAGCTGGTAGCTCTTTAACACTTTACACAGATAAGTTCGTAGATCGTACAATTGGTGGATTTACAATTCCAACACCTTGGTTCCAATCTGTAAACCCACTATTCATTATCTTACTAGCATTACCTGTTTCTGCGTTATGGATTAAGCTTTCAAAAACAAAAAATGGTGATTTGAAAATCCCAACAAAAATGGCATTAGGTATGATTTTACTAGGGATTGGATATTTAGTTCTAACTTTAGCTGTTTTAAAAACTGGTAGCGATGAAGGTAACATTACAATGAAAGCAAACTTACTATTCATTGTATTCACTTACATGTTCCACACAATCGGTGAGTTATTCTTATCACCAATCGGATTATCTATGGTAAGTGCAATCGCTCCTGTTAAACTAGCATCATTATTAATGGGTGTATGGTTAGCTGGTACTGGCTTCGCAAACTTATTAGCAGGACAATTAGCCGCTTTCACTCAATCTTTAGGATATTTAGAAGTATTCGCAAGCATCGGTATTATCGTAATTGTACTGGGATTAGTACTTCTTATGTTCTCTAAGAAAATTGCACATATGATGGAATAA	MDAALKLDKAGEQQSPKKHPPGLYLLFFTEAWERFSYYGMRGLLVLYLTTSLVSGGLGFDKAVAVQIYGIFTMLVYFTPIIGGWLTDHFITKRHAITIGGIIMAIGNFVLFSMNTKTGLFLGLGLLVIGNGFFKPNISTLLGQLYSDNDSRRDSAFTIFYMGINLGALIAPFICGYFADYRYGFLTACIGMIIGQIAFNLLAPRYLGSAGTTVVGKKSKEQNAKAVEKKPLTPQEKKRTVAILILTCFVVFFWAGFEQAGSSLTLYTDKFVDRTIGGFTIPTPWFQSVNPLFIILLALPVSALWIKLSKTKNGDLKIPTKMALGMILLGIGYLVLTLAVLKTGSDEGNITMKANLLFIVFTYMFHTIGELFLSPIGLSMVSAIAPVKLASLLMGVWLAGTGFANLLAGQLAAFTQSLGYLEVFASIGIIVIVLGLVLLMFSKKIAHMME	PGPT0021010_4144	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
AK009_04849	969	yfiY_3	COG0614	putative siderophore-binding lipoprotein YfiY	ATGAATTTCATGCGGAAGAAATCGTTTACAGTATTTGTATTTTTACTAGCATTTTCAATGCTTTTAAACGCTTGTGGAAAATCAAGTAACAAAGAAGAATCTACAAAAGAAGATAATAAAAAAGAAGTGGTTACTGTAGAACATGCAATGGGTAAAACAGAAGTTCCTGCTAATCCAAAACGTGTAGTTATCTTAACAAATGAAGGAACTGAAGCTTTACTTGAATTAGGTGTGAAACCAGTTGGTGCTGTAAAGTCTTGGACTGGTGACCCATGGTATCCACATATTAAGGATAAAATGAAAGATGTAAAAGTTGTTGGTGATGAAGGACAAGTTAACGTTGAAACAATTGCTTCTTTAAAACCAGACTTAATTATCGGTAACAAAATGCGTCACGAAAAAGTGTACGAACAACTAAAAGCAATTGCACCTACTGTGTTCTCAGAAACATTACGTGGTGAATGGAAAGATAACTTCAAATTTTATGCAAAAGCATTAAATAAAGAAAAAGAAGGTCAAAAAGTTGTAGCTGATTACGAATCACGTATGAAAGATTTAAAAGGCAAACTTGGCGATAAAGTAAATCAAGAAATCTCTATGGTTCGTTTCATGCCTGGTGATGTTCGTATTTATCATGGTGATACATTCTCTGGTGTTATTTTAAAAGAACTTGGATTTAAACGTCCTGGAGATCAAAACAAAGATGATTTTGCAGAGCGTAACGTATCTAAAGAGCGTATTTCTGCAATGGATGGTGACGTATTATTCTACTTCACATTCGATAAAGGAAATGAGAAAAAAGGATCTGAATTAGAAAAAGAATATATTAATGATCCGCTATTTAAAAATTTAAATGCAGTAAAAAATGGTAAAGCATACAAAGTTGATGACGTTATTTGGAATACAGCTGGTGGCGTAATGGCCGCTAACCTACTATTAGATGACATCGAAAAACGCTTTGTTAAATAA	MNFMRKKSFTVFVFLLAFSMLLNACGKSSNKEESTKEDNKKEVVTVEHAMGKTEVPANPKRVVILTNEGTEALLELGVKPVGAVKSWTGDPWYPHIKDKMKDVKVVGDEGQVNVETIASLKPDLIIGNKMRHEKVYEQLKAIAPTVFSETLRGEWKDNFKFYAKALNKEKEGQKVVADYESRMKDLKGKLGDKVNQEISMVRFMPGDVRIYHGDTFSGVILKELGFKRPGDQNKDDFAERNVSKERISAMDGDVLFYFTFDKGNEKKGSELEKEYINDPLFKNLNAVKNGKAYKVDDVIWNTAGGVMAANLLLDDIEKRFVK	PGPT0003765_37	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
AK009_04850	1005	yfiZ	COG0609	putative siderophore transport system permease protein YfiZ	ATGTTATTAAAAACAAATCGAGCAAAAGGGATTGGATTATTTGTTGGAATCATTGCAGTCGTTATTTGTATTTGGGGAAGTATTATTTTCGGATATACAAATACGAGTTGGAAACTAGCATTGGATGCTTTTTTCCATTTTAACGGTTCCAATGAACATATTATTATTCAAAATGTACGTCTGCCTAGGGCGTTAATTGCAGCTAGTGTTGGTGCTAGTTTAGCCATTGCTGGTTGTCTTATGCAAACTTTAACTAAGAATCCACTTGCTTCTCCAGATTTTATTGGATTAAATTCAGGTGCTGCGTTCTTCATAGTTGTAGCAATTGTAATCTTTTCAGTAACATCATTATCAGCTTTCACATGGATCGCCTTTTTAGGAGCGGCGGTTGCAGCTGTACTTGTATTTGCTTCTAGTTCTTTAGGAAAAGAAGGGACTACTCCTCTTAAGTTAACGTTAGCAGGGGTCGCAATTAGTGCGTTATTTTCATCATTAACACAAGGATTACTTGTGTTAAATGAAAAAGCACTTGAAGAGGTATTATTTTGGCTTGCTGGATCTGTGCAAGGGCGAAAGTTAGAAATTTTACAATCTGTATTCCCATATTTATTAATAGGATGGATTGCATCTCTTATTATGGCAGGAAAAGTAAATACATTGATGATGGGAGAAGACGTCGCGAAAGGACTTGGACAACGAACAATTTTAATGAAATCATTCGTGTTACTTATTATTGTACTGTTGTCTGGTGGTTCAGTTGCGGTTGCTGGCCCAATTGGATTTATTGGGATTATTACTCCGCATTTTGCTAGATTTCTTGTTGGAGTTGACCACAGATGGAGAGTGCCTTATAGCGGATTGTTAGGTGCAATACTACTAATATTGGCTGATATAGCAGCAAGATATGTCATTATGCCACAAGAAGTACCAGTAGGAGTTATGACAGCATTTATTGGAGCACCGTTCTTTATTTATATTGCACGTAAGAGAGGGCTTAGCAAATGA	MLLKTNRAKGIGLFVGIIAVVICIWGSIIFGYTNTSWKLALDAFFHFNGSNEHIIIQNVRLPRALIAASVGASLAIAGCLMQTLTKNPLASPDFIGLNSGAAFFIVVAIVIFSVTSLSAFTWIAFLGAAVAAVLVFASSSLGKEGTTPLKLTLAGVAISALFSSLTQGLLVLNEKALEEVLFWLAGSVQGRKLEILQSVFPYLLIGWIASLIMAGKVNTLMMGEDVAKGLGQRTILMKSFVLLIIVLLSGGSVAVAGPIGFIGIITPHFARFLVGVDHRWRVPYSGLLGAILLILADIAARYVIMPQEVPVGVMTAFIGAPFFIYIARKRGLSK	PGPT0003770_5288	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
AK009_04851	1059	yfhA_1	COG0609	putative siderophore transport system permease protein YfhA	ATGAAGAAATATATTCCGTTTCGTATAGGAAAAGGCGAGCTCTCGTTTTTAATGTATAAACGAGCTTGTCTCGTCTTGTTAAGTTTACTACTTGTTTTAATAGGATTATTCTTTGCGAGCGCAGGTATGGGAGACATGAAAATTGCTCCTTATGACGTATGGCAAGCAATTACCGGAAATGGCGATGCGATGTCAAACATGGTTGTAAATAAGTTTCGTATGCCGCGTATTTTAATTGCTATCCTCGTAGGAATTGCGCTCGCGGTAGCGGGCTGTATTTTACAAGGGCTTGTTCGAAATCCACTTGCTTCTCCTGATATCATCGGGATTACGGGCGGGGCAAGTGTTGCAGTTGTATTATTTTTAGCGCTATTTAGTGATAAAAATAATGCACTAACGGTAAGTATTCATTATATGCCGCTCGCAGCTTTTGCAGGAGCAACGATTGTAGCGGTTTTTGTATACTTATTTGCATGGCAAAATGATGGATTATCACCAATTAGCCTCGTTTTAATTGGTGTTGGATTCTGGGCATTAACGAAGGCTGCGACAACATTATTTATGTTGCTAGCACCAATTTATCAAGCGAGCCAAGCAAATGTATGGATTACGGGTACCGTTTATGGCTCTTCTTGGCAAAATGTTATGGTACTTGCGCCTTGGGTTCTCATTTTAACAGTAATATCATTTATCGCAGCTAGGCATTTAAATGCACAAGAGCTAGGGGATGATATAGCGGTAGGACTTGGGGTTCCTTTAACGAAGTCGCGTGTATTTATGCTATTACTTAGTACAGCTTTAATTGGTGGTGCGGTAGCTTTTGCCGGAGGGATTGGATTTGTCGGTTTAATGGCACCTCATATTTCACGAAGATTGGTTGGTTCTTTATACGGTGCATTACTCCCAGTTGCAGCTATTGTCGGTGCAATTCTAGTACTTGCTGCAGATTTAATAGGGCGTACAATTTTCACGCCACTTGAAATTCCAGCAGGGGTATTTACATCAGCAATTGGTGCACCTTATTTTATTTATTTACTTTATAAAAGTCGGAATTCATAA	MKKYIPFRIGKGELSFLMYKRACLVLLSLLLVLIGLFFASAGMGDMKIAPYDVWQAITGNGDAMSNMVVNKFRMPRILIAILVGIALAVAGCILQGLVRNPLASPDIIGITGGASVAVVLFLALFSDKNNALTVSIHYMPLAAFAGATIVAVFVYLFAWQNDGLSPISLVLIGVGFWALTKAATTLFMLLAPIYQASQANVWITGTVYGSSWQNVMVLAPWVLILTVISFIAARHLNAQELGDDIAVGLGVPLTKSRVFMLLLSTALIGGAVAFAGGIGFVGLMAPHISRRLVGSLYGALLPVAAIVGAILVLAADLIGRTIFTPLEIPAGVFTSAIGAPYFIYLLYKSRNS	PGPT0003770_7253	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
AK009_04852	822	fpuD_1	COG1120	Petrobactin import ATP-binding protein FpuD	ATGCAAAAAGCATTGGAGACGAAACGCTTGACGTTGTCTTATGGTGAAACAAGTATTATTGATGAGTTGAATTTAGAAATTCCAAAAGGCGAAATTACAATCTTTATCGGCTCTAACGGTTGCGGGAAATCAACTTTATTACGTTCACTAGCTAGATTATTAAAACCAACAACTGGTGATATTTTGTTAGATAATCAAGCCATTCAAAGTATGCAAACGAAGCAAATCGCTCGTCAAATGGCGATTTTACCGCAAGGACCACAAGCACCAGAAGGACTTACAGTATTACAACTTGTAAAGCAAGGGCGTTATCCATACCAAACATGGCTGAAGCAATGGTCAGAAAAAGACGAGGAAATGGTACAGAAAGCACTTGCAGCGACAGGTATGACAGAATTTGCTGAGCGTGATGTGCATGCTCTTTCAGGTGGGCAACGTCAACGTGCTTGGATCGCAATGACACTTGCACAAGATACAGATATCATTTTACTGGATGAGCCCACTACATACTTAGATATGACTCACCAAATTGAAGTGCTGGATTTATTATTCGAATTAAATGAAACAGAACAAAGAACAATTGTTATGGTATTACATGATCTAAATTTAGCATGCCGCTATGCAGATAACATTGTAGCAATTCAAGATAAACAAATATATGCACAAGGTAAACCTGAAGAAGTGGTAGATGAGAAACTAGTACGTGATGTATTCCGAATGGAGTGTCAAATTAGTACGGATCCGTTGTTTGGAACACCGCTTTGTATCCCGCATGGAAGAGGAAGACGTGTAGTTAAAGAAGTTGCTCAGGCGATAAGATAA	MQKALETKRLTLSYGETSIIDELNLEIPKGEITIFIGSNGCGKSTLLRSLARLLKPTTGDILLDNQAIQSMQTKQIARQMAILPQGPQAPEGLTVLQLVKQGRYPYQTWLKQWSEKDEEMVQKALAATGMTEFAERDVHALSGGQRQRAWIAMTLAQDTDIILLDEPTTYLDMTHQIEVLDLLFELNETEQRTIVMVLHDLNLACRYADNIVAIQDKQIYAQGKPEEVVDEKLVRDVFRMECQISTDPLFGTPLCIPHGRGRRVVKEVAQAIR	PGPT0003760_3126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK009_04853	732	tam_2		Trans-aconitate 2-methyltransferase	ATGGCATTTACAGAATCTGATGTATACAATAACACAGCATTTTTCGAACAATATATGAAACGAAGATACCGAGAAAATAGCCCAAATGAATCCATTGAAAAACCAGTATTCTTTCAGCTCATTGGTCATGTGCAAGGAAAACAAATTCTCGATTTAGGCTGTGGTGACGCTAAGTTTGGTGCGGAATTATTAGAAAAGGGATGCTACTCTTACACTGGCATTGAAGGCTCCGAACTTATGTATGAAAAAGCTAAAAATCAACTAGAAAATAAAAATGGATCTGTTCATTTTTTAAACCTCAAAGATTATACCTATCCCTCTTCCACTTTTGATTTAGTAACATCTAGACTCGCCTTACATTATATTGAACATCTTGATACCATTTTTCAAAATGTGTTTCAAACTTTAAAAACAAATGGCACCTTTACCTTTAGCGTTCAACATCCCGTTATTACTTCTTCATTTGAAAGCTTACAAACAAGTGGTAAAAGAACGAGTTGGCTCGTCGATGATTATTTTAAACTAGGCAAACGGGTTGAACCATGGATTGACCAAGAAGTTATTAAATATCATCGTACAACGGAAGAGTATTTCACATTATTACAGCAAGCTGGATTTACCATTACATCATTAAAAGAAGCTACACCAAATCCAATCTATTTTCAAAATGAAGAAGAGTATAAACGTCGCTTACGAATTCCTCTCTTCCTCTTATTTTCTTGTACCAAATAA	MAFTESDVYNNTAFFEQYMKRRYRENSPNESIEKPVFFQLIGHVQGKQILDLGCGDAKFGAELLEKGCYSYTGIEGSELMYEKAKNQLENKNGSVHFLNLKDYTYPSSTFDLVTSRLALHYIEHLDTIFQNVFQTLKTNGTFTFSVQHPVITSSFESLQTSGKRTSWLVDDYFKLGKRVEPWIDQEVIKYHRTTEEYFTLLQQAGFTITSLKEATPNPIYFQNEEEYKRRLRIPLFLLFSCTK				NA	NA	NA	NA	NA
AK009_04854	1191			Putative pyridoxal phosphate-dependent acyltransferase	ATGTCTAGTAAAACACTTGCAAAATTTTTAGAAGAAAATTTAGAGGATTTAAAATCAAAGGGGCTTTATAACGTAATTGATCCGCTTGAGAGTTCAAATGGACCAATCATTACAATTGGCGGAAAAGAATATATTAACTTATCTTCAAACAACTATCTTGGATTAGCAACAGATAGCCGTTTGCAAGAAGCAGCAATTGGTGCAATTCATAAGTACGGTGTTGGGGCAGGAGCTGTTCGTACAATTAACGGTACTTTAGATTTGCATATTAAATTAGAAGAGACAATTGCAAAGTTTAAACATACAGAAGCGGCAATTGCTTACCAATCAGGATTTAACTGTAATATGGCAGCGATTTCAGCTGTTATGGATAAAAATGATGCAATTCTTTCAGACGAATTAAACCATGCTTCTATTATTGATGGTAGTCGTCTATCAAAGGCAAAAATTATTGTTTATAAACATTCTGATATGGAAGATTTACGCCAAAAAGCAATCGCGGCGAAAGAATCGGGTCTTTACAATAAATTAATGGTAATTACAGACGGTGTCTTCTCAATGGATGGAGATGTTGCAAAACTAACAGAAATTGTTGAGATTGCAGAAGAATTAGATTTAATGACATATGTAGACGATGCACACGGTTCAGGTGTACTTGGAAAAGGTGCAGGAACTGTAAAGCACTTCGGTCTATCTGATAAAGTTGATTTCCAAATTGGTACATTATCAAAAGCAATTGGGGTAATTGGTGGATATGTAGCAGGGAAACAAAACTTAATTGACTGGTTAAAAGTTCGTTCACGTCCATTCTTATTCTCTACAGCATTAACACCAGCTGATGCAGCAGCTTGCATGAGATCAATTGAAATCTTAATGGAAAGCACAGAGTTACATGATCGTTTATGGGAAAATGGCCGCTACTTAAAACAAGGATTAAAAGAACTTGGCTTTAACATTGGGGAAAGTGAAACGCCAATTACACCTTGTATTATTGGGGACGAAGTGTTAACACAAGAATTTAGTAAGCGTCTAAATGAAGAAGGTGTATACGCAAAATCTATTGTGTTCCCAACTGTAGCAAAAGGAAAAGGTCGTGTTCGTAATATGCCTACAGCAGCTCATACGAAAGAAATGTTAGATGAAGCAATTCGTAAGTATGAAAAAGTAGGAAAAGAAATGGGCATCATTTAA	MSSKTLAKFLEENLEDLKSKGLYNVIDPLESSNGPIITIGGKEYINLSSNNYLGLATDSRLQEAAIGAIHKYGVGAGAVRTINGTLDLHIKLEETIAKFKHTEAAIAYQSGFNCNMAAISAVMDKNDAILSDELNHASIIDGSRLSKAKIIVYKHSDMEDLRQKAIAAKESGLYNKLMVITDGVFSMDGDVAKLTEIVEIAEELDLMTYVDDAHGSGVLGKGAGTVKHFGLSDKVDFQIGTLSKAIGVIGGYVAGKQNLIDWLKVRSRPFLFSTALTPADAAACMRSIEILMESTELHDRLWENGRYLKQGLKELGFNIGESETPITPCIIGDEVLTQEFSKRLNEEGVYAKSIVFPTVAKGKGRVRNMPTAAHTKEMLDEAIRKYEKVGKEMGII	PGPT0020495_2096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
AK009_04855	966			putative epimerase/dehydratase	ATGAAAAAAATTCTAGTAACCGGTTCTTTAGGGCAAATTGGTTCTGAACTAGTAATGAAACTTCGTGATGTATACGGCGCATCAAATGTTATTGCAACAGATATTCGTGAAACAGATAGTGAAGTAGTAAAGTCTGGTCCGTTTGAAACGTTAGATGTAACAGATGGACAAAAATTACATGATATTGCAAAGCATAATGAAGTAGATACAATTATTCATTTAGCAGCTTTACTTTCAGCAACAGCAGAAAAAAATCCGTTATTCGCATGGAACTTAAATATGGGCGGACTTGTAAATGCATTAGAAGCAGCTCGTGAATTAAACTGTAAGTTCTTCACGCCAAGTTCGATCGGTGCATTCGGTCCATCGACGCCAAAAGATAATACACCGCAAGATACAATTCAGCGTCCTACTACGATGTATGGGGTAAACAAAGTAGCAGGAGAATTACTATGTGATTATTATCATCAAAAGTTTGGCGTAGATACGCGCGGTGTCCGTTTCCCAGGTTTAATTTCTTACGTAGCTCCTCCAGGAGGCGGAACGACTGATTATGCAGTTGAAATTTATTATGAGGCGATTAAAAAAGGTGCATACACCTCATACATTGCTGAAGGAACGTACATGGACATGATGTATATGCCTGATGCTTTACAAGCGATCATTTCATTAATGGAAGCTGATCCAAGTAAGCTAGTGCATAGAAATGCATTTAACATTACGGCAATGAGTTTTGAGCCAGAGCAAATTGCAGCATCAATTCGTAAACACATTCCGACGTTTACAATGGATTATGCAGTAGATTCAGCTCGTCAAACAATCGCTGATAGTTGGCCAAACTCTATTGACGCAACTGCAGCAATGAAAGAGTGGGGCTTTAAAGCAGAATACGATTTAGACAAAATGACAACGGACATGTTGGCTAAGTTAAAAAAAAAGCTCACAGCTGAGTTAGTGATGAATTAA	MKKILVTGSLGQIGSELVMKLRDVYGASNVIATDIRETDSEVVKSGPFETLDVTDGQKLHDIAKHNEVDTIIHLAALLSATAEKNPLFAWNLNMGGLVNALEAARELNCKFFTPSSIGAFGPSTPKDNTPQDTIQRPTTMYGVNKVAGELLCDYYHQKFGVDTRGVRFPGLISYVAPPGGGTTDYAVEIYYEAIKKGAYTSYIAEGTYMDMMYMPDALQAIISLMEADPSKLVHRNAFNITAMSFEPEQIAASIRKHIPTFTMDYAVDSARQTIADSWPNSIDATAAMKEWGFKAEYDLDKMTTDMLAKLKKKLTAELVMN				NA	NA	NA	NA	NA
AK009_04856	423			hypothetical protein	ATGCAAAGAGTAGATGTCGTATACGCACTAATACATGACGAGGAAACAGATAAAATATTAATGGTACATAATGCAGAACAAAACGTTTGGTCATTGCCAGGTGGGGCTGTGGAAAAAGGTGAAATATTAGAGGAAGCACTAATAAGAGAAGTGAAAGAAGAGACAGGTTTAATTGCTACGTTAGGTGGACTTGTTGCGATCAATGAAAAATTCTTTGAGGAATCAGGGAATCATGCACTATTTTTTACATTCCGAGCGAATGTAGTAAAAGGTGAACTTATTGCGGAAGATGAAGGTGAAATTTCTGCAATAGAGTGGGTGGATCGAACAATTGCGAATGAGCGCTTCCCATACTATGACGGAGGATTTGAATCCTTATTAGAAGTAGCCATTCCATATAAGTTTCAACCAGAAACAAAGTAA	MQRVDVVYALIHDEETDKILMVHNAEQNVWSLPGGAVEKGEILEEALIREVKEETGLIATLGGLVAINEKFFEESGNHALFFTFRANVVKGELIAEDEGEISAIEWVDRTIANERFPYYDGGFESLLEVAIPYKFQPETK				NA	NA	NA	NA	NA
AK009_04857	1884			hypothetical protein	ATGAGACAAATTTTTAGTGACAAAAAAATTGATGCGTCGCTGTTTCTACAAATGGAAAACTTAATGTATGCCCTTCTAAAAGAAGACGATGCCTATCTTGAATATGGCTATAAAGCATACTACGACGAAATTGAAAAGAAAGTTGTCATTAGTCACTTTTGGGATGATCGAAAAGAAGAAGATACAGTAATCGGATTAAAAAGCGAAGTGTTCTTAAAAGCACTTGGTAATAAACATTACTCGGACATGACTTTAATTCGTTCTTATGCGATTGAATTGCAAGAATCGCCCCTAAAAAAGTTTTTAACACAATTATTTGTTCTATTAGAAGATTTACGCGTTGAGGAAATCGTAAAGAACTTACGTCCTGGCACGAAGCATATTTTTAAACGCCGAAAAGAAATGTACCGCAATTATTTCGGCTCTCAAAATGAAATAAACCGCGTTCGTAATTATCACGGTGATCGTTTGTTTTGCCTATGCTATCTTTCATTAACGAGCGATAAATATGAAATGTTTAATAATGAATATTTTGAGCAAATTGAAGCGATTTTACATGAAACATTCCAAGCACGTAATACAGAAGATATTATGTATGTCGTTGAGAAAATTCGCTATCGCTTAGAGGCGCTTCTTGAAAGTGATATGCTTAACAACTATTTCGGACATGCTCCACTTTACTTATCTGTTCTTGCAGACGAAAAGAACTGTCGCGTCGAAGATTTAGCAAATGATGATACACAGCTTATAGATGACGATGAAAATAAAAACAAAATGGATGAAAGTTTCTCCACATGGCATCGTGAAAATAAAAATAACGAAAACGAGAACTTTTTACGCTTTGAATTAGAAAGCGGAACAAAAACAAACATGATGGGCGATACTGCTCGTGAATCAGAAGATGGCGACCAAGCACTTGGTTCTGTACAAGGTACTTCTCAAAAAAGTACACAATCCAACTTTGATGGCGCTGATACAGAAGAAGCAAGAGCTTCACACGCTTCTAGCCAGCACGACGGTGCATACGGTAAGTATAATGTAGGTGCTTCTCATACATTTAAAGAAGCTCGCAAAGCAAATATCGATGAGAAAAAAGATTACCAAGCTATCAAATCAGTCGTCAATAAAGATGTAAAAGAATTAAAGAAAATTATCGAAAAAACGATTGAAAATAAAACGAATGCGAATAATGATAAATATTACGGAAGGCTTCGCAAAAAATTCCTTCGTATTTATACCGAAAAACAACCGCGTATGTTTTATAAAAAAGGACAAGAGTCACAAGAACTCGATGTTGCATTCCAACTGTTAGTTGACTGTTCTGGTTCTATGTATAACAAAATGGAAGAGACGAAGAAGAGTGTTGTACTATTCCATGAAGCTTTAAAATCTTTAAAAATCCCGCACGCTATTAGCGGATTTTGGGAAGATGCCTCTAGCGCTAAACCTGAAGATAAGCCGAACGTTATCCATGAAGTTGTAAATTATAAAAACTCAACGTTACCAAACGTTGGTCCGGAAATTATGCAACTTCGTGAAGAAGAAGATAACCGCGACGGATATATTATTCGTATCGTTTCTGAAAAACTTGCAAAAAGACCTGAGAAACATAAATTCTTACTAGTCTTCACAGATGGTGAGCCTTCTGCGCTAGACTATCAACAAGATGGAATTTTAGATACGCATGAAGCTGTTAAACTCGCGCGTAAAAGTGGCATGGAAGTAATCGGTATCTTCATCGAAGAAGGCGAGGCAAAAGAAGCAACTTATCAATTGATGAAGAACATTTATAACCATCACTTCTTAGTTGCAAATCATGCTGAAGATTTACGATTGAAGATTAAACCATTACTGAAAAAATTATTACTGAAGACGATTGAATAG	MRQIFSDKKIDASLFLQMENLMYALLKEDDAYLEYGYKAYYDEIEKKVVISHFWDDRKEEDTVIGLKSEVFLKALGNKHYSDMTLIRSYAIELQESPLKKFLTQLFVLLEDLRVEEIVKNLRPGTKHIFKRRKEMYRNYFGSQNEINRVRNYHGDRLFCLCYLSLTSDKYEMFNNEYFEQIEAILHETFQARNTEDIMYVVEKIRYRLEALLESDMLNNYFGHAPLYLSVLADEKNCRVEDLANDDTQLIDDDENKNKMDESFSTWHRENKNNENENFLRFELESGTKTNMMGDTARESEDGDQALGSVQGTSQKSTQSNFDGADTEEARASHASSQHDGAYGKYNVGASHTFKEARKANIDEKKDYQAIKSVVNKDVKELKKIIEKTIENKTNANNDKYYGRLRKKFLRIYTEKQPRMFYKKGQESQELDVAFQLLVDCSGSMYNKMEETKKSVVLFHEALKSLKIPHAISGFWEDASSAKPEDKPNVIHEVVNYKNSTLPNVGPEIMQLREEEDNRDGYIIRIVSEKLAKRPEKHKFLLVFTDGEPSALDYQQDGILDTHEAVKLARKSGMEVIGIFIEEGEAKEATYQLMKNIYNHHFLVANHAEDLRLKIKPLLKKLLLKTIE				NA	NA	NA	NA	NA
AK009_04858	894			hypothetical protein	ATGTTAGAACAATTTCATATACATTCTGATTTAAAACAGCAGCTTTCTACGATTCATGAAAAGAATAAACAAGAAGCTGGTGAAAATGCTCATTTAATCGGTACTAAAATATATAAAGCATCTGATAACAGCATTATCGAAGATGCGATTACAGCACTTCTTCTTGGCAAGAACATTCTATTAAAAGGACCGACTGGTAGTGGTAAAACAGTACTAGCGGAAACTCTTTCTTCTTTATTTCAAAAACCAATGCATAGCATTAACTGCTCTGTCGACTTAGATGTAGAAGGTATTTTAGGATACAACACACTACAAACGAAAGATGGTGCATCTGAAGTTTCATTCGTTAACGGTCCTCTTATGAAAGCAATGAAGAACGGTCACTTCCTATATATTGACGAAATCAATATGGCAAAACCTGAAACTTTACCGCTACTTCACGGCGCATTAGATTACCGTAAAATGATCACAAACCCATTTACACAAGAGGTTGTATACGGTGATGAAGAATACCGTGTAATTGCTGCGATTAACGAAGGTTACGTTGGAACAAGTGAACTAAATGAAGCATTAAAAAACCGTTTCGTTATTATTGAAGTTCCTTACATTCAAGGTGACACATTAAAAGAACTATTATTAGCAGAATCAAAATTAAATGATGTTGCAACAATTGAAAAGTTTGTTGCATTTGCAAGCGACCTTATGCCTTTAGCTCGCGATGGACGTGTAAGTGAAGAAGCAGCAAGTATTCGTGGTATTATCGACGCATGTGATTTAGGTGTATATATTCCTGTTATGCGCGCTATTGAACGAAGCATAATTGCAAAACTTAATGATGAAACAGAACAAATGACTGTCCGTGAATTAGCAGAAAGTTATTTCTTTGAGGGATAA	MLEQFHIHSDLKQQLSTIHEKNKQEAGENAHLIGTKIYKASDNSIIEDAITALLLGKNILLKGPTGSGKTVLAETLSSLFQKPMHSINCSVDLDVEGILGYNTLQTKDGASEVSFVNGPLMKAMKNGHFLYIDEINMAKPETLPLLHGALDYRKMITNPFTQEVVYGDEEYRVIAAINEGYVGTSELNEALKNRFVIIEVPYIQGDTLKELLLAESKLNDVATIEKFVAFASDLMPLARDGRVSEEAASIRGIIDACDLGVYIPVMRAIERSIIAKLNDETEQMTVRELAESYFFEG	PGPT0000370_157	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000370-norQ-K04748	NA	NA
AK009_04859	1530	clsA	COG1502	Major cardiolipin synthase ClsA	ATGAAGAAGCCTATCGTTCAGTTACTATTAATATTTACAATTGTATCTATCGTTCTGTTCCTATTAAATACATCGTATATTTCGTTATATACATTTGTCGGTGCTCTATGGTCCATCACAATCGTAGGAATTTCATTCGTTATCTTTATAGAAAATAGATCTCCACAAAGCACATTGGCATGGTTTTTAGTATTAGCACTTCTTCCTATTATAGGTGTGCTTTTATACGCTATTTTCGGGCGCAGCCGCTGGAGAAGAAAAAAACATCTCCATCGTTCAGAAGAACAAAGAAAATTATTCCGTGAAATATTAGAAGGAAGAAGACTAGAGTTATTACTCACAGTCCCACTAAATGAACGTTCCATACATTTAACAGAAGTCATACAAAAATTTGGAGGCGGTCCTGCCGCAGATAAAACAACTACAAAACTTTTAACAAACGGAGATCAAACATTTTCAGAAATTTTGCGAGCTATAGAGCAGGCAAAACATCATATACATATTCAATACTACATTTATAAATCTGATGAAATTGGTACAAAAGTTCGAGATGCTTTAATACAAAAAGCAAAAGATGGTGTTATTGTACGCTTCCTTTATGATGGTCTTGGAAGTAACACGTTAAGAAGACGATTTTTGCAACCTATGAAAGAAGCTGGGATTGAAATTGTAGAATTTGACCCTATTTTTTCAGCTTGGTTACTTGAAACTGTCAATTATCGTAACCATCGAAAAATTGTTATTGTAGATGGAGAAATTGGTTTTACCGGAGGACTCAATGTCGGTGATGAATATCTTGGCCGTTCAAAGAAATTTCCTGTTTGGCGTGATAGTCATCTAAAAATAGAAGGAAAAGCATTATATAAATTACAAGCAATCTTTCTAGAAGACTGGCTCTATGCCTCTAGTGGTTTAAATACTTATTCCTGGGATCAATTCATGAATAGACAATACTTCCCAGGTAAAGAGATTTCACATGCAGAAGGTGCTGTTCAAATCGTAGCAAGCGGACCAAGCTCCGATGATAAAAGTATTCGTAATACATTATTAGCTGTTATGGGCTCTGCAAAAAAATCCATTTGGATCGCTACACCCTACTTTATTCCAGATCAAGAAACTTTAACATTATTACGCTTAAGTGCAATTGCCGGAATAGATGTACGGATTTTATATCCAGGTAAAAGTGATAGCATCATTAGTGATCAAGCATCTCAATCCTATTTCACTCCACTTTTAAAAGCTGGTGCTTCTATTTACAGTTATAAAGATGGTTTTATGCATGCAAAAATTGTACTCGTTGATGATACAATTGCAACTATCGGAACAGCGAACATGGATGTACGTAGCTTTGAATTGAATTACGAAATTATTAGCGTACTTTATGAATCAAAAACAGTTCACGATATTAAACGTGATTTTGAAAAAGATTTTAAACATTCAACTGAAATTAAATGGAACTCTTTCCAAAAAAGAAGTATAAAAAAACGCATATTGGAGTCTTTCATGAGGCTCATTTCTCCTTTACTGTAA	MKKPIVQLLLIFTIVSIVLFLLNTSYISLYTFVGALWSITIVGISFVIFIENRSPQSTLAWFLVLALLPIIGVLLYAIFGRSRWRRKKHLHRSEEQRKLFREILEGRRLELLLTVPLNERSIHLTEVIQKFGGGPAADKTTTKLLTNGDQTFSEILRAIEQAKHHIHIQYYIYKSDEIGTKVRDALIQKAKDGVIVRFLYDGLGSNTLRRRFLQPMKEAGIEIVEFDPIFSAWLLETVNYRNHRKIVIVDGEIGFTGGLNVGDEYLGRSKKFPVWRDSHLKIEGKALYKLQAIFLEDWLYASSGLNTYSWDQFMNRQYFPGKEISHAEGAVQIVASGPSSDDKSIRNTLLAVMGSAKKSIWIATPYFIPDQETLTLLRLSAIAGIDVRILYPGKSDSIISDQASQSYFTPLLKAGASIYSYKDGFMHAKIVLVDDTIATIGTANMDVRSFELNYEIISVLYESKTVHDIKRDFEKDFKHSTEIKWNSFQKRSIKKRILESFMRLISPLL	PGPT0007725_452	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
AK009_04860	354			hypothetical protein	ATGAATTATATAGAAAATAATGGATTGTATTATCGGAATCATCATCATGGAGGACACAATCATGGTGGGCACAATCATAACGGCGGACATCATCACCATGGAGGACACAATCACCATGATCACCATCATCATCACGGAGGCGGATGGGGCTGGGGGGGTAGTTCATGGGGAGGCGGATTTTTCCCTGGAAGCTTTGCAGGAGGAGTGTTAGGTGGACTGACAGCTGGCGCATTAACGGGTGCAGCAAGTGGAGGGTATTATCCAGCGCCATATCCAGTAACTTATCCATCACCATACCCTGTAACGTATCCAATGCCATACCCAGGTTATCAGCAAATACCATATTCGTATTAA	MNYIENNGLYYRNHHHGGHNHGGHNHNGGHHHHGGHNHHDHHHHHGGGWGWGGSSWGGGFFPGSFAGGVLGGLTAGALTGAASGGYYPAPYPVTYPSPYPVTYPMPYPGYQQIPYSY				NA	NA	NA	NA	NA
AK009_04861	1704			hypothetical protein	ATGCTAGAACAGAGAGGTCATGCATTATATGACTCTTCATTGCGAGATTTAAAGTTAGCATTAGATGAGTCTTCAATTGTTGCAATTACAGATCGAAAAGGTCTTATTACATATGTAAATGATAAATTTTGTGAAATCTCTAAATACAAAAGAGAAGAATTAATTGGAAAAGATCACCGTATTTTAAATTCAGGACATCATCCGAAAACCTTTTTTCAAAACTTATGGAAACGTATTTTGAATGGGAAAGTATGGACAGGTGAGATTCGGAATCGAGCAAAAGATGGTACATATTATTGGGTCAAAACAACAATTGTTCCATTTTTAAATGAAAAAGGAGAGCCATACCAGTTTATCGCAATTCGAAATGATATTAGTAGTAGAAAAGAAGCAGAACATAGATTGCGGCTAAGTGAAAGTCGTTATAGGGAACTTGCCTATCATGATGCTTTAACCAGTTTGCCGAACCGTTTGCAATTAATAACAACCGTTAATAAATTGATTGCAGATAAAAAAGAATTTGGTATGATTTACTTTGATTTGGACCGTTTTAAATTAGTAAATGATACGTTAGGTCATATGATAGGGGACTTACTTTTAAGCGAAGTCGCTTCACGGTTGCATTATGTACTAGGAGAGAAAGATGTTCTGGCTAGGCTAGGTGGCGACGAATTTGTGCTGTTAACAAAAAATCATAGGCAAGATGATATGAGTCAGTTAGCGACATCTGTGTTGTCATGTTTTCAGGCACCATTTATGTTGGAAGGCCATGAAGTATACATTTCAGCTAGTCTAGGACTTTGTTCTTATCCACAAGACGGACTAGACGTGGAAACGTTATTGAAAAACTCTGACTTAGCTATGTATAGTGCAAAAGAACAAGGTAGAAACGCTGCATGTTTCTTTACAGATGAGCTACGGGCGAAAATAAATCGTAGAATGAAAGTTGAGTTTGCTTTGCAAAAGGCAATTCGTGATGAAGAGTTAGATGTAGCATTGCAGCCTATTATTGATTTGAAAACGAAGAGATATTCTGGTATAGAAGCTTTAGTACGCTGTATGACAGAAGACGGCCCCATTGCACCAAGCGAATTTATCCCGGTAGCTGAAGAGTCTGGACTTATTATAAAGCTAGGAGACTGGGTATTAGAAAAATCGTGCCGATTGTTTAAAACATTGCCAAATTATCAAGAAGGACTAAAGTTATCTGTGAATTTATCTATACAACAATTAATGCAGAAACGTTTTATTTTGTCTGTACGTAGCATTTTAAAGAGAACTGGTTTTCCTCCGAACCGTTTAATATTAGAAATAACGGAAAGCATTGCAGTCCGCCATTTTGATTATATTATTGCTACATTACAAGAATTAAGAAATATGGGTGTTTTAATTGCTTTGGATGATTTCGGAACTGGCTATTCTTCCTTATATTATTTAAAACAACTACCACTGGATATTGTGAAAATTGATCGTAATTTTATTCGTGAATTTCATTATGATCACGCGCAACCAGAACGAACAATTGTAAAATCTGTTATTGAAATTGCTCATAGTTTAAATTTAGCAGTAGTTGCTGAAGGGGTAGAAACAGTAGAGCAAGAGAGTTTGTTACAATCAATGAGCTGTGATTATGTACAGGGATTTTATTATGCGAAACCTTTATCTGTAGGAGAGTTAAAAGAAAAGTTAATTACAGATTTTTAA	MLEQRGHALYDSSLRDLKLALDESSIVAITDRKGLITYVNDKFCEISKYKREELIGKDHRILNSGHHPKTFFQNLWKRILNGKVWTGEIRNRAKDGTYYWVKTTIVPFLNEKGEPYQFIAIRNDISSRKEAEHRLRLSESRYRELAYHDALTSLPNRLQLITTVNKLIADKKEFGMIYFDLDRFKLVNDTLGHMIGDLLLSEVASRLHYVLGEKDVLARLGGDEFVLLTKNHRQDDMSQLATSVLSCFQAPFMLEGHEVYISASLGLCSYPQDGLDVETLLKNSDLAMYSAKEQGRNAACFFTDELRAKINRRMKVEFALQKAIRDEELDVALQPIIDLKTKRYSGIEALVRCMTEDGPIAPSEFIPVAEESGLIIKLGDWVLEKSCRLFKTLPNYQEGLKLSVNLSIQQLMQKRFILSVRSILKRTGFPPNRLILEITESIAVRHFDYIIATLQELRNMGVLIALDDFGTGYSSLYYLKQLPLDIVKIDRNFIREFHYDHAQPERTIVKSVIEIAHSLNLAVVAEGVETVEQESLLQSMSCDYVQGFYYAKPLSVGELKEKLITDF				NA	NA	NA	NA	NA
AK009_04862	1398	arcD_2	COG0531	Arginine/ornithine antiporter	ATGGAAACGAAAAAATGGGGATTATGGGTTTTAACAGCATTTGTTATCGGGAATATGGTTGGCGGTGGCGTATTTATGCTTCCAGCAAATTTAGCACAAGTATCAGGGCCAATGGGTTCTACACTCGCATGGAGTATTACAGGCCTTGGCGTATTTATGATTGCACTTGTATTTGGAAATTTAGCGATTCGGAAACCAGAATTAAAAGCTGGACCACAAAGCTACGCTCAAGCGATGTTTCCTTCAAAAAAAGCTGGTAAAGTTGCGGGATATAGTATGGCATGGGGATATTGGGCTGCTAACTGGGCTGCAACAGCATCTGTTATTATTTCCTTTGCTGGATATTTATCAACATTCTTTCCAGTTTTACAAAGTAAGCAAATTCTTTTTTCAATAAACGGATTTTCACTAGAACTCGGAAAAGGATTAACTTTCCTCGTATGTAGCCTTATGCTGTGGGGAATTCAATATATTCTTTCTCAAAATATTGATCGAGCTGGAAATATGAATCTACTTGCTACCATTGCAAAAATTATCGGATTTACAATGTTTATTGTAATTACATTATTCATTTTCAATGCCTCTAATTTCGGAGACGGTCAAACCTTTATGAATGAAGCAGGACAATCCATCTCGTTAGGTGGACAAATCAATTCAGCTGCTATTGCAACACTCTGGGCATTTATCGGTATTGAATCAGCAGTTATGCTTTCTAATCGTGCAAAATCACAGCGCGATGTAAAAAAAGCTACGATTTTCGGATTAATTATCGCTCTTCTTATTTACATGTCAATTACTTTACTTACAATGGGAGCTCTTCCGCAAGATGCTTTAAAAGAGTCTCAAAAACCATTAGTAGACGCATTAAATTTAGCAATTGGAAATAAAGGCGCATATATCATGGCTTTACTCGCTCTTATATCTTTATTTGGATCTACAGTTGGTTGGATTGTTGTTAGTTCAGAAGTACCTTACCAGGCAGCAAAGAATGGACTTTTCCCTAAGTTTTTCGGGAAAACAAATAAAAAAGGTAGTCCTTCAAAATCATTATTGATTACAAATGTAATGACGCAAATTTTCTTATTTTCAACGATTTCTGGTACTGTTTCAGAAGCGTATAGTTTCGCTATTGTCGTAGCAACATTAGCCTATTTAATTCCATACCTAGTTTCTACTCTGTACCAATTCAAACTGGTTATTACAGGAGAAACGTATGATATAATGCCTGGTTCTCGAATAAAGGACGGGATCATCACTACATTAGCATTTGTATACTCAATTTGGGTTATCAAAACGGGAACTGCTGATTTAAAAACGTTCTTCTTAGGAATTGGATTGTTCGTATTAGGTCTTATTCTTTATCCAGTACTAATGAAAGACTCACAAAAAACGGATTAA	METKKWGLWVLTAFVIGNMVGGGVFMLPANLAQVSGPMGSTLAWSITGLGVFMIALVFGNLAIRKPELKAGPQSYAQAMFPSKKAGKVAGYSMAWGYWAANWAATASVIISFAGYLSTFFPVLQSKQILFSINGFSLELGKGLTFLVCSLMLWGIQYILSQNIDRAGNMNLLATIAKIIGFTMFIVITLFIFNASNFGDGQTFMNEAGQSISLGGQINSAAIATLWAFIGIESAVMLSNRAKSQRDVKKATIFGLIIALLIYMSITLLTMGALPQDALKESQKPLVDALNLAIGNKGAYIMALLALISLFGSTVGWIVVSSEVPYQAAKNGLFPKFFGKTNKKGSPSKSLLITNVMTQIFLFSTISGTVSEAYSFAIVVATLAYLIPYLVSTLYQFKLVITGETYDIMPGSRIKDGIITTLAFVYSIWVIKTGTADLKTFFLGIGLFVLGLILYPVLMKDSQKTD	PGPT0020620_1129	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
AK009_04863	711	treR	COG2188	HTH-type transcriptional regulator TreR	ATGATGAGTAAGTATGAACAAATTTATACAGAAATCAGTAAATCTATTGATAATAAACAATTAAAAGAGGGATGCAAAATCCCATCAGAAACAGAATTAATGAAGCAGTATGAGGCAAGCCGAGGCACGGTAAGAAAAGCTGTAGATTTACTGCAAGAGCGTGGATATGTGCAAAAAATTCATGGAAAAGGTGTTTTTGTTTTAAAGCGAAAAAATATTGAATTTAATTTTGGCGGTATTGTAAGTTTCCAAGAAGAAAATGAACGTTTAGGACGTCATTGTATTACGGAAGTTGTGGAAATGGACAAAGAAAAAGCCACAAAAGAAATTGCGAAATTATTAAATGTAAAAGAAAAAACAGAGATTGATCATATTAAACGTGTACGAAATATTGATGGAGAAAAAGTAATTTTAGATATAAATCATTTTGTATCTGAGTTTATTCCAGGATTAACGAAAGAAATTGCAACTGCATCGATTTATAAATACATTGAGAAAGAGCTTGGGCTACATATTAGTTATTCGCAGAGGGTAATTGAAGTACAGCCGTGTACAGAGGATGACAGAAAGTATTTAGATTTAAATGGAACAGACTATGTTGTCGTTGTGAAAAACTTTACACATTTGTATGATGGAAGTCAGTTTGAATACACAGAATCACGCCACCGTTTAGATATTTTTCACTTTTCGGATGTGGCACGCAGGAAGTAA	MMSKYEQIYTEISKSIDNKQLKEGCKIPSETELMKQYEASRGTVRKAVDLLQERGYVQKIHGKGVFVLKRKNIEFNFGGIVSFQEENERLGRHCITEVVEMDKEKATKEIAKLLNVKEKTEIDHIKRVRNIDGEKVILDINHFVSEFIPGLTKEIATASIYKYIEKELGLHISYSQRVIEVQPCTEDDRKYLDLNGTDYVVVVKNFTHLYDGSQFEYTESRHRLDIFHFSDVARRK	PGPT0014110_451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014110-treR2-K03486	NA	NA
AK009_04864	1428	treP	COG1263	PTS system trehalose-specific EIIBC component	ATGGGGAAAGACTATCGTAAAACAGCAGAGGAAGTGTTGCAGTATATTGGTGGGAAAGACAATATTGAACAAGCTGCACATTGTGTGACGAGGCTCCGTATCGCTTTAAAAGATGAAAGTAAAATAGATAATGATAAATTACAGTCTGTTTCATTAGTGAAAGGAGCGTTTCATAACGCTGGTATATTTCAAGTTGTAATTGGTCCAGGGGATGTAGATCGTGTTTACGCTGAATTGATAACGCTTGCAGGTATGGAAGAATCGACTGTAGCTGACGTAAAAGATTCTGGAAATCAGAAGTTAAATCCAGCTCAAAAGTTTGTGAAAATATTTTCGGATGTATTTATGCCGATATTACCAGCGATCGTAACAGCTGGTTTACTAATGGGTATTAACAATCTATTAGGGGCAAAGGACTTATTTTTTGATGGGAAAAATTTATTAGATGTTTATCCGAACTTAGGCGGGCTTTGGGATTTAATTAATATGATGGCCAATACAGCATTCGTATTCTTACCAGCACTTGTCGGGTGGTCAGCAACGAAGCGTTTTGGTGGTAGTCCAATACTAGGGATTGTTATGGGATTAATGCTTGTGCACCCGGCCTTATTAAACGCTTGGGACTATGGAAAAGCAGCGACTGGTTTAGAGGGTCAAAAGATTGAGTACTTCAATATTTTAGGACTGTTCCAAATTGAGAAGGTAGGATATCAAGGACAAATTTTACCTGTTTTAGTAGCAGCTTTTGTATTAAGTAAAGTGGAAATTTTCTTAAAGAAACATGTACCAAATGCAATTCAATTATTAGTTGTACCAATTACAACAATCGTTGTGACAGGTGTGTTAGCATTAGGAATTATCGGTCCGGTTACACGTCATATTGGAGATTTATTAACAGTAGGATTAGTAGGTGTATATGAAACAGTACCAGTAGTTGGAGCAGTATTGTTTGGAGCATTATATGCACCGCTTGTAATTACAGGTATGCATCATATGTTTATTGCAATTGATTTACAATTGATTGCACAGCACGGTGGCACATTCATTTGGCCAATGATTGCTCTTTCTAACATTGCGCAAGGTAGTGCGGCACTTGCAATGTTCTGGATTTCTAAAAATCAAAATGATAAAAGTATGGCATCAACATCAGCCATTTCAGCATACTTCGGTATTACAGAACCAGCGATGTTTGGTGTGAATTTACGAAATAAGTTCCCGTTCTATGCAGCGATTATAGGGTCTGCTGTGGCAGCGATATTCATTACATTAAATGGTGTATTAGCACCTGCTATCGGAATTGGCGGATTGCCAGCATTTATTTCTATCATTCCGAAATCGATTCCAATGTTTATTGTAGGAATGATTATTGCAGTTGTAATCCCATTTACTTTAACATGGTTATTTGCAAAAAGAGTCAAACAGAAGTAG	MGKDYRKTAEEVLQYIGGKDNIEQAAHCVTRLRIALKDESKIDNDKLQSVSLVKGAFHNAGIFQVVIGPGDVDRVYAELITLAGMEESTVADVKDSGNQKLNPAQKFVKIFSDVFMPILPAIVTAGLLMGINNLLGAKDLFFDGKNLLDVYPNLGGLWDLINMMANTAFVFLPALVGWSATKRFGGSPILGIVMGLMLVHPALLNAWDYGKAATGLEGQKIEYFNILGLFQIEKVGYQGQILPVLVAAFVLSKVEIFLKKHVPNAIQLLVVPITTIVVTGVLALGIIGPVTRHIGDLLTVGLVGVYETVPVVGAVLFGALYAPLVITGMHHMFIAIDLQLIAQHGGTFIWPMIALSNIAQGSAALAMFWISKNQNDKSMASTSAISAYFGITEPAMFGVNLRNKFPFYAAIIGSAVAAIFITLNGVLAPAIGIGGLPAFISIIPKSIPMFIVGMIIAVVIPFTLTWLFAKRVKQK	PGPT0014075_435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014075-treB-K02819	NA	NA
AK009_04865	1662	treA	COG0366	Trehalose-6-phosphate hydrolase	ATGAAGGATTGGCATAAAAGTGTAGTCTATCAAATTTATCCGAAGAGCTTTAATAGCTATTACAATAAAGAAACCGGTGATATAAAAGGGGTTACAGAGAAACTAGATTATTTAAAAGAACTCGGAGTGGATTATATTTGGTTAACACCGATATACCAATCACCACAAAATGATAATGGATATGATGTAAGTGATTACTACAGCATTGATCCATCTTACGGAACGATGGAAGAGTTTGAGGAACTTTTAGCAGAAGCGAAAGTACGTAACATTGAAATTATGCTTGATATTGTTGTAAATCATAGTTCGACTGAACATAAGTGGTTTAAAGAAGCGAAGGAAGATAAAAATAGTCCATATCGTAATTACTATATTTGGCGTGATGAAAAAAATAATTGGCAGTCTAAGTTTGGTGGATCTGCTTGGAAATATGATGAGAAGACGGAGCAATATTATTTACATTTATTTGATGAAACACAAGCTGATTTAAATTGGGAAAATGAACAACTTCGCGAAGAAGTATATGATATGATGCGTTTTTGGCTGGATAAAGGGGTAACAGGATTCCGATTAGATGTCATTAACTTAATTTCAAAAGACCAATGTTTCTTAAACGATGAAGGTAATACTGCGACAAGTGATGGACGCAAGTATTATACAGATGGTCCGCGTGTTCATGAATATTTACAAGAGATGAACCGAAAAGTTTTTGCAGGAAAAGATGTAATTACAGTTGGAGAAATGTCATCTACGACAATTGATAATTGTATTAAATATTCTAATCCTGAGCGTAATGAACTGAGCATGACGTTTAGTTTCCATCATTTAAAAGTAGATTATCCGAATGGTGATAAGTGGACGAAAGCAGAGTTTGATTTTATTAAATTAAAAGAGATTATGTCTAACTGGCAAATTGAAATGCAAAAGGGCGGAGGATGGAATGCGTTATTTTGGTGTAATCATGACCAACCTCGCATAGTGTCACGCTTCGGTGATGATAGAAAGTACCGAAATGAATCTGCGAAAATGTTAGCGACAGCTATGCATATGTTGCAAGGAACACCTTACATTTATCAAGGCGAAGAAATCGGTATGACGAATCCTAAATTCGAGTCCATCGAGCAATATCGCGATGTGGAATCGTTAAATATATACGATATCAAGCGAGAAGAAGGATTATCAAAAGAAGAGATTATCGGGATTTTAAAACAAAAATCTCGTGACAACTCTCGTACTCCGATGCAGTGGAATGAAGAGATGAACAGTGGTTTTACAACAAGTACACCTTGGATTTCAGTGGCTGAAAACTTTACAGAAATAAACGTAGAGAAGGCATTAGAAGATAAAGAGTCTGTATTTTATCATTATAAAAAGTTAATAGAACTTAGAAAAACGTATGATGTAATTACAGAAGGAGAATATGCTATTTTGGATAAAAATGATCCTAAAATTTGGGCATATACTCGTACTACAGAAAGTGAAGTACTACTTGTTATAAATAACTTCTATGGAGAAGAAATAACGTACTCTGTACCAGCGCACGTTCAATTAGATGGAATGAAACAAGAAGTACTACTGTCGAATTATAAAGATGCCAGCAAGGATATTGCAAAACTTAACTTAAGACCATATGAATCAATTGTGTATCGATATACGAAATAA	MKDWHKSVVYQIYPKSFNSYYNKETGDIKGVTEKLDYLKELGVDYIWLTPIYQSPQNDNGYDVSDYYSIDPSYGTMEEFEELLAEAKVRNIEIMLDIVVNHSSTEHKWFKEAKEDKNSPYRNYYIWRDEKNNWQSKFGGSAWKYDEKTEQYYLHLFDETQADLNWENEQLREEVYDMMRFWLDKGVTGFRLDVINLISKDQCFLNDEGNTATSDGRKYYTDGPRVHEYLQEMNRKVFAGKDVITVGEMSSTTIDNCIKYSNPERNELSMTFSFHHLKVDYPNGDKWTKAEFDFIKLKEIMSNWQIEMQKGGGWNALFWCNHDQPRIVSRFGDDRKYRNESAKMLATAMHMLQGTPYIYQGEEIGMTNPKFESIEQYRDVESLNIYDIKREEGLSKEEIIGILKQKSRDNSRTPMQWNEEMNSGFTTSTPWISVAENFTEINVEKALEDKESVFYHYKKLIELRKTYDVITEGEYAILDKNDPKIWAYTRTTESEVLLVINNFYGEEITYSVPAHVQLDGMKQEVLLSNYKDASKDIAKLNLRPYESIVYRYTK	PGPT0014095_401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PHOSPHOTREHALASE,PGPT0014095-treC-K01226	NA	NA
AK009_04866	870			hypothetical protein	GTGACTGGAAATATTCGCTATTTCAAATACGGTGTGCAACTATTGGGAACAAAAATTCAAAAAAAGGGGATATTACCTTATTTAGATATTAGTTTTCGGGACCCTACAAACCCCACTGCTCTGGTAAAACTTATTTCAGTAGATGGTGAAACAGCTGCAATACTAGAAAAAAAGAAAGTAGGAAATTTACTAATTGGAGATTTTCTAAAGAAAAAAATTAAAAGCTTAGAGGACATGAGCATATTTCCAAATGAAACTTTGGAAACAGCCGCTACAAAAATGTTAGATCCCGGCAAAGATTTCACCCTCCCATCTATAAAGCTAAAAGGAAAAGAAGTTGTAACCAATGGGATAGCTCTATTTAATAAGGATAAATTAACTGGGCTTTTACCTTCACGACAATCGGTACTCTTCGTATTACTAACTGATAAAATGGGAACGAGCGCTCGCATAACCCAAAAGCTTACAAATAGCGATTCATCTAATACGTCTGACTACATTACCATTGACGTGAGCAATCAGAAATTAAAACGAAACTTAAAAATAACAACAGATAAAAAAGGAAATGTTTATGCTCACATTAAGCTCCAACTAAAAGTTATAGCAATTGAATCTCCAAGAGATAATCTGTATACAATGGACGACAGAGAAAAACTAAATAAAGAACTGTCTAAACCGCTCACGAAAGAGGCGAAAAAAATAATAAACAAACTCCAAAAAGCAAACTGTGATGCTTTCGGTATCGGCAGACACCTTATCGCTTATCACCCTGAGTTATGGAGGAAAAAAAATTGGGATAAAGATTATGCAAAAGTAAAGTTTAAACCTGAAGTAGAAGTAAGCATTTTGTATAGTGGTGTCTTAAAATAA	MTGNIRYFKYGVQLLGTKIQKKGILPYLDISFRDPTNPTALVKLISVDGETAAILEKKKVGNLLIGDFLKKKIKSLEDMSIFPNETLETAATKMLDPGKDFTLPSIKLKGKEVVTNGIALFNKDKLTGLLPSRQSVLFVLLTDKMGTSARITQKLTNSDSSNTSDYITIDVSNQKLKRNLKITTDKKGNVYAHIKLQLKVIAIESPRDNLYTMDDREKLNKELSKPLTKEAKKIINKLQKANCDAFGIGRHLIAYHPELWRKKNWDKDYAKVKFKPEVEVSILYSGVLK				NA	NA	NA	NA	NA
AK009_04867	135			hypothetical protein	ATGCACAAAAAAACAGTTAAATTATGTAGTATCTTATGTGCTAGCTCACTTCTTTCTGGTTGCTGGGATCAAGAGCCTTTAAGAGAGGCTAGATTAGCTTATAGTATTGGATTTGATATTACAGAAGAAAATTAA	MHKKTVKLCSILCASSLLSGCWDQEPLREARLAYSIGFDITEEN				NA	NA	NA	NA	NA
AK009_04868	1107	gerBB		Spore germination protein B2	GTGACAAACACGCAAAGTAAAATTTCACTTGTTCAATTGACCTTTTTCGTTATCCAATGTCAAATCGGGGTTGGTATACTTTCTCTCCCAAACCGTCTTCACCCAATAGCAAAAGGTGGTGGATGGATTTCTGTTCTCATTGCGGGGCTGGCAACTCAACTTATCATTTTACTCATGTGGTTTTTATTAAGAAGGTTTCCTGATGCAAATATGTATGAAATTGCTTGTATGATGTTTGGTAATAAATTTGGAAAACTATTAGGGTTTTCTTATGTTTTTTATTTTACTCTTATCGGTATGACCGTTATGTTAAATGCATGTACCGTCATTAAAATATGGATTTTACAAGCAACTCCTTGGTACGCAATTCTCCTATTATTTACAATAGCTTGTTGCTACGTAGCCTATAATACCTTTAAAGTAATTGTACGATTTTATGTCATGGCCTCTATTCTCATTTTACCTATGGCGCTTTTAATTGGACTTGGGCTCTCACGGGCTGATTTTTCTTATATTTTTCCCATTACAGAGGCTGGATGGTGGAATATTATTAAAGCATCGAAAGAAACAATTACAGCTATGTATGGTTTTGAAATCTTTCTCATCGCATTTCCTAAAGTAAATGGGACTGCTGTTGCAAAACTAAAGGCAATTTCTATCGCTAACGGATTCGTAACTCTTTTTTATGCTTTTACTGTTTGGATTTGCTTTATCGTATTTAGTCCAAAGCAAGTTGAGCTTATTCCAGAGCCAGTTGCTTACTTATTGCGCTCCTTACATATTGGGATTGTAGACCGTACTGATTTAATATTCATACCAATTTGGATGATAACTGTCGTAGCTTCTATTGCTAGTTGTTACGCTGCTGCTTCTATAGGTATTGGGCATATATTCAACCTTGCTAATCATAAAAAATCTGTTCCAATTGTTGGAGTTATTTCTTTTAGTATCGCCTTATTTATAGATACACCTGAAGAATTAAAATTGATTGCAAATTTCACTGATAAATTCACTTATATTTTCATTATCGTTCTTCCTTTTTTATTTCTTCTTTATTCCTTATTAAGAAATAAGAAAGGAGCTCCATATGCACAAAAAAACAGTTAA	MTNTQSKISLVQLTFFVIQCQIGVGILSLPNRLHPIAKGGGWISVLIAGLATQLIILLMWFLLRRFPDANMYEIACMMFGNKFGKLLGFSYVFYFTLIGMTVMLNACTVIKIWILQATPWYAILLLFTIACCYVAYNTFKVIVRFYVMASILILPMALLIGLGLSRADFSYIFPITEAGWWNIIKASKETITAMYGFEIFLIAFPKVNGTAVAKLKAISIANGFVTLFYAFTVWICFIVFSPKQVELIPEPVAYLLRSLHIGIVDRTDLIFIPIWMITVVASIASCYAAASIGIGHIFNLANHKKSVPIVGVISFSIALFIDTPEELKLIANFTDKFTYIFIIVLPFLFLLYSLLRNKKGAPYAQKNS				NA	NA	NA	NA	NA
AK009_04869	1503	gerAA_3		Spore germination protein A1	ATGACACAACAAGAAGAACAGCAAAAGAGTAAGAATCAAAAGCATATGTTTCCATCACTTCCGGAAAATATTAATTACATTGAAAATAAGCTCTGTCATTCAGATGATATAAAAAAATTAGATATCCCTTTTCAAAACGGAAAAGGAATAATTTTATATATCGAATCTTTAGCAGACCCAAATTTAATTCATCAATTAGCTCTTGAACCCTTATTAACTCGATCTGATCTATCTTTAGATAAAGCATTTTCTACATTAAATATGAAAAAAGAAACGAATTTAAATTACGGTGTACAACTTTTATTACAAGGTAAATCTTTATATTTCCATGAACATGTCGAAAGCTTTTGTACTTTTGAAACAGCATTATCTTTAAAAAGAGCTATAACAGAACCTGATAATGAAGGGATTGTACGCGGACCACATACTGGTTTCGTAGAAGATTTAGCAACCAATTTAGCGTCTATTCGTAAACTCATAAAAAGTCCAAATGTCGTCGTTAAATATTTCACACTTGGTGAAGAAATGCACACGAAAGTGGCAATTACTTATATTCAAAATATAGCTAATGACGATCTCGTTGCAGAAGTGAAAAGAAGATTAGAAATGATTAAGACAGACGCACTCATGCCACCAGGCTACATACAAGAATTTATAGAAGATACGTCTTTCTCACCATTCCCACAGCAATTAAATACAGAGCGCCCAGATAGAACTGCTGCTAATTTAATGGAGGGACGAGTCGCTATTTTATCAGATGGAGATCCAACAGCACTTATCGTTCCTGTTACACTCTTTGCCTTCTATCAATCACCAGATGATTATAATAACCGCTGGATCGTCGGTTCTTTCGTCCGAATGATTCGCTTAGTAAGTTTCTTAATCGCCTTTCTCTTACCAGCTATATATATCGCAACCGTCGCTTTTCATCCAGATGTGTTGCCACTCGAACTCGTCTATACAATTAAAGCCTCATTAGAACAAGTGCCACTTCCTCCTATTTTTGAAGCTCTCTTAATGGAATTGATCTTCGAATTATTACGAGAAGCTGGTATTCGTTTGCCGAGCCGCGTTGGACAAACAATCGGTATTGTAGGCGGTTTAGTAATTGGGGATGCAATTGTAAAAGCTGGACTCGTTTCTTACACAATGATTATCGTTGTAGCTTTAACTGCAATTGCTTCTTTTCTCGTACCATCAAATGATATGAGTTCAGCAGTTCGGATTCTGCGTTTCCCGTTAATGGTTCTTGCTGCTATATTCGGCTATGTAGGGATTTCATTCGGCATAATTATAACTTTCGTTCATTTATGTCAACTTCATTCTTTTCATACACCATATCTTTCTCCTCTTGCACCAATGCGGATAAAAGATATGAAAGATTCCTTTGTAAGATTTCCAATTTGGTCATTTTGGGAACGACCACATGATTCAAAACCAAAAAAAATGCAACGACAACATGTAACGAGAGAGGATGAGAACGGTGACAAACACGCAAAGTAA	MTQQEEQQKSKNQKHMFPSLPENINYIENKLCHSDDIKKLDIPFQNGKGIILYIESLADPNLIHQLALEPLLTRSDLSLDKAFSTLNMKKETNLNYGVQLLLQGKSLYFHEHVESFCTFETALSLKRAITEPDNEGIVRGPHTGFVEDLATNLASIRKLIKSPNVVVKYFTLGEEMHTKVAITYIQNIANDDLVAEVKRRLEMIKTDALMPPGYIQEFIEDTSFSPFPQQLNTERPDRTAANLMEGRVAILSDGDPTALIVPVTLFAFYQSPDDYNNRWIVGSFVRMIRLVSFLIAFLLPAIYIATVAFHPDVLPLELVYTIKASLEQVPLPPIFEALLMELIFELLREAGIRLPSRVGQTIGIVGGLVIGDAIVKAGLVSYTMIIVVALTAIASFLVPSNDMSSAVRILRFPLMVLAAIFGYVGISFGIIITFVHLCQLHSFHTPYLSPLAPMRIKDMKDSFVRFPIWSFWERPHDSKPKKMQRQHVTREDENGDKHAK	PGPT0025050_702	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK009_04870	822	srkA		Stress response kinase A	ATGGAAATAGCTGTAGAACGTGTTTTTACGAAAGAGATCTTAAGAAGAGCGGCAAAGGCATTTCATGTAACAGTGGAAGAGAAGCCGCTTGGAGATTTTGAAAATTATATTTTTAAGGCGAAGGGAGATAATGATGAGGACTATGTATTACGTTTAACGCATTCTTCGCATCGCTCTAAAAAAGAAGTTGAAGCTGAACTAGATTTTTTACGATATGTTGCGGAGCATGGGGCAAAGGTAGCAGGACCTCTTAACTCAACTTCTCAAAATCTTGTAGAAGAAATTGGAGCGGAAGATAGCACTTTCTTTTTTGCTTCTTTATTTACATATGCAAAAGGTGAGCAAGTAAAAGGGGAAGGATCGCCTTATTGGGGAGATGATTATTTTGAAGCATGGGGAAAAGCGATTGGACAACTGCATCGCCTAACAATGAGCTATCCTAAAACAGACTATCGTGATACGTGGGAAGAAGACGAAAGTGGAATTGTTAATGAATTAGAAGATGATCAAGTGAAAAAGATTGCAGCGGTATTAATGGATGAGATTAAGGCCCTTCCAGTTGAAAGAGAAACGTTCGGTCTTATGCACGGTGATATCCATCCCGGTAATTTTCATTATGATGGTAAAGAGCTAACAATCTTTGATTTTGATGATGCGGCTTATAATTACTTTATACATGATTTAGCGATGGTTCTCTATTACTCTATTCTATTTACACCATGGACAGCGGAAGAGAAGACAGACTTTGCTCGTAAACAGCTACAAGTGTTACGAAAAGGCTATGAGCATGAGCACAGACTGGCGGATAGTTGGTATGAATAG	MEIAVERVFTKEILRRAAKAFHVTVEEKPLGDFENYIFKAKGDNDEDYVLRLTHSSHRSKKEVEAELDFLRYVAEHGAKVAGPLNSTSQNLVEEIGAEDSTFFFASLFTYAKGEQVKGEGSPYWGDDYFEAWGKAIGQLHRLTMSYPKTDYRDTWEEDESGIVNELEDDQVKKIAAVLMDEIKALPVERETFGLMHGDIHPGNFHYDGKELTIFDFDDAAYNYFIHDLAMVLYYSILFTPWTAEEKTDFARKQLQVLRKGYEHEHRLADSWYE				NA	NA	NA	NA	NA
AK009_04871	1464	acp_2		Sodium/proton-dependent alanine carrier protein	ATGTTGGAAGCTTTCGTGAATTGGTTAAATAATATTGTTTGGAGTCCAGCACTTGTTTATTTATGTTTAGGAGTAGGTTTATATTTTTCCATTCGAACGAGGTTTTTACAAGTAAGGCATGTAGGAGAAATGGTGAAGCTGACATTTCAAGGTGAAAAATCAGAGGCTGGTGTTTCTTCATTTCAAGCGTTAGCACTTTCGTTATCAGGACGCGTTGGGACGGGGAATATAGCTGGGGTAGCAACAGCGGTTGCCTTCGGTGGACCAGGAGCTGTATTTTGGATGTGGGCAGTGGCCTTTTTAGGAGCAGGATCAGCTTATATAGAATCTACATTAGCGCAAATATATAAGACGAAACATCAAGGACAGTTTCGTGGTGGACCTGCTTATTACATTGAAAAAGGTTTAGGTGTGAAATGGTATGCATTAGTATTCGTTGCAGCGACAATTCTTGCAACGGGGCTTTTACTGCCAGGTGTGCAGGCAAATAGTATTGCTGTAAGTTTAGAAACAGCTTTTGGAATTAACACTACCGTATCAGGGGTTTTATTAGTTGTTGTACTAGCTATTATCATCTTCGGTGGAGTAAAGCGAATTGTTAACGTTGCACAAGTTGTCGTACCGTTTATGGCAGTTGGTTATATTTTAGTAGCTTGCGTTATTGTTGCTATGAATATTGAAAAGTTGCCAGAAGCATTTATGCTAATTATAAGAAGTGCTTTTGCATTAGAAGCGGCTTTCGGTGGTATTATCGGTTTAGCAATTTCTTGGGGAGTAAAACGAGGTATTTATTCCAATGAAGCAGGGCAAGGAACTGGACCACATGCAGCAGCAGCAGCTGAAGTATCACATCCAGCTAAGCAAGGTTTAGTGCAAGCATTTTCCGTTTACATTGATACATTATTTGTTTGTTCAGCAACAGCATTTATGATGATTATTACAGGCATGTATAACGTATTTGATGCAAGCGGAAAAAACTTTATCGTTAATAAATTAAATGGCGCTCAGCCAGGACCAGGATATACACAGGCGGCGGTAGAATCTGTTTTTCCTGGATTTGGAAACGGTTTCGTTGCAATCTCGTTATTATTCTTCGCGTTTACAACAATTATGGCGTATTACTACATTGCAGAAACGAATATCGCGTACTTAAATCGTGATAAAGACCGTCCTTGGTTGTCTATTGTACTAAAATTTGTTTTTTTAGGAGCTGTATTCTACGGCTGTATTAAAACAGCAGCAACGGCGTGGGCTTTAGGTGATATCGGTGTAGGAATTATGGCATGGGTAAATATCATTGCGATTTTATTATTACAAAAACCTGCATTAGTCGCATTAAAGGATTATGAAAAACAGAAAAAAGAAGGAAAAGATCCAGTATTCGATCCGCAGCCATTAGGAATTAAAAATGCTGATTTTTGGGAGCATGAATACGGGAAAGATAAGAAAGAAGAAGTATCTTAA	MLEAFVNWLNNIVWSPALVYLCLGVGLYFSIRTRFLQVRHVGEMVKLTFQGEKSEAGVSSFQALALSLSGRVGTGNIAGVATAVAFGGPGAVFWMWAVAFLGAGSAYIESTLAQIYKTKHQGQFRGGPAYYIEKGLGVKWYALVFVAATILATGLLLPGVQANSIAVSLETAFGINTTVSGVLLVVVLAIIIFGGVKRIVNVAQVVVPFMAVGYILVACVIVAMNIEKLPEAFMLIIRSAFALEAAFGGIIGLAISWGVKRGIYSNEAGQGTGPHAAAAAEVSHPAKQGLVQAFSVYIDTLFVCSATAFMMIITGMYNVFDASGKNFIVNKLNGAQPGPGYTQAAVESVFPGFGNGFVAISLLFFAFTTIMAYYYIAETNIAYLNRDKDRPWLSIVLKFVFLGAVFYGCIKTAATAWALGDIGVGIMAWVNIIAILLLQKPALVALKDYEKQKKEGKDPVFDPQPLGIKNADFWEHEYGKDKKEEVS	PGPT0014405_1530	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
AK009_04872	729	glnQ_2	COG1126	Glutamine transport ATP-binding protein GlnQ	TTGATAGAATTTCGTAATGTAAATAAATATTATGGTAATTTTCAAGTTTTGAAAAATATTAATGTGCAAGTGAAAAAAGGAGAAGTGGTAGTAGTTGTCGGGCCTTCAGGATCAGGAAAAAGTACATTGCTTCGATGTATAAATCAATTAGAGGCAATTACAGATGGAGGATTAATTGTACAAAATACAGAGGTACACAATAAAAAGACGGACATGAATGAATTGCGGCGAAATATTGGGATGGTCTTTCAACATTTTTATTTATACCCACATAAAACAGTTCTGCAAAATATTACACTAGCACCGATTAAAGTAAATAAAGTTTCCAAAGAAGAAGCAGAGAAAACAGCAATGTTTTATTTAGAGAAAGTAGGAATCCCGGAGAAGGCTAATGTATATCCACATCAATTATCCGGAGGACAACAGCAAAGAGTAGCAATTGCTAGAGGACTTGCGATGCAGCCGGAAATTATGCTGTTCGATGAGCCTACGTCTGCTCTTGATCCGGAGATGATCGGGGAAGTACTTGATGTTATGAAAACGCTAGCTAAAGAAGGGATGACAATGGTCGTTGTCACGCATGAAATGGGATTTGCGCGAGAAGTAGCAGATCGGATTTTATTTATGGATGATGGTCAAATTATTGAAGATACGACACCGGCGCAATTTTTTGCAAATCCTGAACAAGAAAGAGCTCGTTTATTTTTAAGTCGGGTGCTAAATCATTAG	MIEFRNVNKYYGNFQVLKNINVQVKKGEVVVVVGPSGSGKSTLLRCINQLEAITDGGLIVQNTEVHNKKTDMNELRRNIGMVFQHFYLYPHKTVLQNITLAPIKVNKVSKEEAEKTAMFYLEKVGIPEKANVYPHQLSGGQQQRVAIARGLAMQPEIMLFDEPTSALDPEMIGEVLDVMKTLAKEGMTMVVVTHEMGFAREVADRILFMDDGQIIEDTTPAQFFANPEQERARLFLSRVLNH	PGPT0000710_283	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000710-peb1C|glnQ-K10041	NA	NA
AK009_04873	831	glnH_1	COG0834	ABC transporter glutamine-binding protein GlnH	ATGCTTAAAATGAAAAAGTTATTTACTTTAATCGTATTTTCATGTTTATTCGTGCTTGTTGTTGCTGGATGCGGAAGTAAGAAAGATGAGGCAAAGGAAACAAATACGAAGCAAGGCGGGGCTGTTGAGCAAATTAAGAAACGAGGAAAATTAGTAGTCGGGGTGAAGAATGATACGAATTTATTTGGATTAAAAAATCCTTCAACAGGGCAAGTAGAAGGATTCGATGTTGATGTTGCGAAGGCACTTGCGAAAAAAATTCTTGGAGATGAAAAGAAGCTAGAGCTGAAAGAAGTAACGTCTAAAACACGTATTCCAATGCTGAAAAATGGTGATATTGATGCAATTATTGCGACAATGACAATTACGGAAGAGCGCAAAAAAGAAGTGGATTTCTCAGATGTATATTTTAAAGCCGGACAATCGTTACTTGTGAAAAAAGGAAGCAATATTAAGAGCATCGATGATATAAAACAAGGCGTTAAAGTATTAGCTGTAAAAGGATCAACATCTACAAATAACATTCGTCAAAAGTCACCAGAAGCGACTGTATTAGAATTTGAAAATTATAGTGAGGCATTTACAGCGTTAAAGGCAGGTAAAGGTGATGTGTTAACGACAGATAATGCAATCCTTTACGGAATGGCAAAACAAGATTCTAATTATGAAGTAGTAGGAAAAATTTTTACAGATGAACCGTACGGAATTGCAGTGCAAAAAGGTGCAGACGATTTAACGAAAGAGATTAATAACTTACTAAAAGATATGAAGGCGAGCGGGGAATACGATAAATTGTATGAAAAATGGATCGGTCAAAAACAAGAGAAGTAA	MLKMKKLFTLIVFSCLFVLVVAGCGSKKDEAKETNTKQGGAVEQIKKRGKLVVGVKNDTNLFGLKNPSTGQVEGFDVDVAKALAKKILGDEKKLELKEVTSKTRIPMLKNGDIDAIIATMTITEERKKEVDFSDVYFKAGQSLLVKKGSNIKSIDDIKQGVKVLAVKGSTSTNNIRQKSPEATVLEFENYSEAFTALKAGKGDVLTTDNAILYGMAKQDSNYEVVGKIFTDEPYGIAVQKGADDLTKEINNLLKDMKASGEYDKLYEKWIGQKQEK	PGPT0000670_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000670-peb1A|glnH-K10039	NA	NA
AK009_04874	657	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	GTGCCTGATTTTTCTATATTAACGAATAACATTGATATGTATTTAGAAGGATTTAAATATACAGTTATGTCTAGTGTAATTGCATTGATAGGCAGTTTTATTTTAGGAGTAATTTTGGCAGTAATGCGCATCGCACCGATTCGTATTTTAAATTGGGTAGGTTCAGCTTTTGTAGAGTTTGTAAGAAATATTCCACTCGTATTAATTGCATTTATATTTTATTTCGCGTTACCTGTAATAGGAATTACTTTAAATGGTTTTGTAGCAGGAACAGTTACGCTTACCGTATATACAGCAGCGTTTATTGCGGAAGTTATTCGCGCTGGTATTCTATCAGTCGAGAAAGGTCAGATGGAAGCAGCACGTTCCTCAGGATTGACTTATACGCAAGCAATGTACCATGTCGTTTTACCTCAAGCTATGAAAATTGTAATTCCCCCTTTAGGAAACCAGTTTCTCAATTTAGTTAAAAACTCCTCAATACTTGGAATTATTGCTGGTGCTGATTTAATGTATCAAGGAGATTTAATTTCAACGAAGACGTTTGTTACGTTTGATGTATATATATTTGTCGGGATGTTTTATTTAATATTAACAATTCCGCTCAGTATGCTAGTGCGTTATTTAGAAAAACGCTTAGCAAAGGAGGCGGTGTAA	MPDFSILTNNIDMYLEGFKYTVMSSVIALIGSFILGVILAVMRIAPIRILNWVGSAFVEFVRNIPLVLIAFIFYFALPVIGITLNGFVAGTVTLTVYTAAFIAEVIRAGILSVEKGQMEAARSSGLTYTQAMYHVVLPQAMKIVIPPLGNQFLNLVKNSSILGIIAGADLMYQGDLISTKTFVTFDVYIFVGMFYLILTIPLSMLVRYLEKRLAKEAV	PGPT0000705_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
AK009_04875	645	glnP_1	COG0765	putative glutamine ABC transporter permease protein GlnP	ATGGATTTTAAGGGAGCAATTACAGGGGATCATATTCTATTTTTATTAAAAGGATTACTTATAACGTTAGAGGTAGCGCTCGTAGCAATTGTACTTAGCTTTATTATTGGTAGTGTAATAGGGATATTGCGCTACATGAAAATACCTGTCGTCTCACAAGTATTAGGAATTATCGTTGAAGTAATTCGAAATTTACCACTACTTTTGATTATATTTTTCACGTATTTTGCACTACCAGAAGCAGGCTTGAAATTAGAAATTATAACAGCTGTAATTGTTGCTTTAACAATATTTGAAGCAGCAATGATATCTGAAATTGTTCGAAGTGGTCTATTATCGATTGAAAAAGGACAAATTGAGGCCGCAAGATCTTCAGGATTAACGTATGTGCAAGCGCTTTGGCATATCATTTTACCACAAGCATTAAGGAGAATGGTTCCACCGCTTGTCAGTCAATTTATTTCATTGCTGAAAGATACAGCATTAGCAGTTGTTATATCACTGCCAGAGCTTATGCATAATGCTCAAATTATTAGCGGACAAAATGTGAATTATATGATTCCAACGTTTATGGTAGTAGCTTGTATGTACTTTATCGTAAATTATAGTTTATCAATTTTATCCAGAAGATTAGAACTTCGTTAA	MDFKGAITGDHILFLLKGLLITLEVALVAIVLSFIIGSVIGILRYMKIPVVSQVLGIIVEVIRNLPLLLIIFFTYFALPEAGLKLEIITAVIVALTIFEAAMISEIVRSGLLSIEKGQIEAARSSGLTYVQALWHIILPQALRRMVPPLVSQFISLLKDTALAVVISLPELMHNAQIISGQNVNYMIPTFMVVACMYFIVNYSLSILSRRLELR	PGPT0000705_661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
AK009_04876	1437	rocE_1	COG0833	Amino-acid permease RocE	ATGCAGCAACCAACGAATGAGAAATTACATCGTACGATGAAGAGTAGACATTTATTTATGATCGCACTTGGTGGTGTAATTGGAACTGGTTTTTTCTTAGGTTCGGGTTACACTATTAATCAGGCTGGACCAGGGGGGGCCATCCTTTCATATTTAGTAGGCGGATTTATTATGTATTTAACAATGCTTTGTCTTGGAGAGTTAACGGTAGCAATGCCGGTTTCGGGATCTTTCCAAAAGTATGCAACGAAGTTTATTGGACCAGGAACAGGCTTTATGATTGGTTGGTTATACTGGCTCGGCTGGGCAGTAACAGTGGGTCTAGAATTAACGTCAATAGGTTTAATGATGAAAAGATGGTTTCCAAATGTTGATGTTTGGGTATGGTGCCTTGTATTCGGCGTTATTCTATATGCGTCAAATGCTATCTCAGCGAAAAGCTACGCTGAATTAGAATTTTGGTTTTCTAGTATTAAAGTAATTACAATCCTTGCATTTGTTGTTCTTGGTGGTAGTGCATTATTAGGATTTATATCATATGACGGAAAAGAAGCAGCACCTCTTTTCTCTAACTTTGTAAGCGATGGTGGACTTTTCCCGAATGGACTAGCTGCCGTATTACTTACAATGATTACAGTTAACTTCTCGTTCCAAGGAACAGAGTTAATCGGGATTGCAGCGGGAGAAAGTGAAAATCCAGAAAAAACAATTCCACGTGCGATCCGTAATACAGTATGGCGCATTATGTTATTCTTCATTTTAACAATGACAATTTTAGTAGGATTAATTTCTTGGAAGGAAGCAGGCGTAATTGAAAGTCCATTCGTAGTTGTATTTGATAAAATCGGTATTCCATATGCAGCTGATATTATGAACTTTGTTATTATTACTGCGTTATTATCTGTAGCGAACTCTGGATTATATGCAGCGACACGTATATTATGGTCACTTGCAAATGAAGGAATGGCACCAACTTCTTTCAAGAAAGTAAATAAACGTGGTATTCCAATTACAGCGCTAGTCGTAACGATTGCGGTAGCTGGATTATCCCTATTCACAAGTTTCCTTGCAGAAGATACAGTATACATGTACTTATTATCGATAGCTGGTTTATCGGCTGTTTCAAGTTGGATCATTATTGCTCTATCGCAACTTCGCTTTAGAAGTCAGTATATAAAAGGTGGAGGAAAGTTAGAGGACTTAAAGTATAGAACACCACTATATCCGATTGTTCCAATTTTAGCTTTAATTACAAATAGCATCGTTGTTATTAGTTTAGCGTTTATTCCTGAACAAAGAATGGCGTTATACTGCGGTATTCCATTTATCATTTTCTGCTATATATATTATTATTATTATTATATGAGTAAGAAACAGCAGAAACCGATGAAAGTGGAGATGGACAAAACAAATGAAACTAACAATCAAACACGATGA	MQQPTNEKLHRTMKSRHLFMIALGGVIGTGFFLGSGYTINQAGPGGAILSYLVGGFIMYLTMLCLGELTVAMPVSGSFQKYATKFIGPGTGFMIGWLYWLGWAVTVGLELTSIGLMMKRWFPNVDVWVWCLVFGVILYASNAISAKSYAELEFWFSSIKVITILAFVVLGGSALLGFISYDGKEAAPLFSNFVSDGGLFPNGLAAVLLTMITVNFSFQGTELIGIAAGESENPEKTIPRAIRNTVWRIMLFFILTMTILVGLISWKEAGVIESPFVVVFDKIGIPYAADIMNFVIITALLSVANSGLYAATRILWSLANEGMAPTSFKKVNKRGIPITALVVTIAVAGLSLFTSFLAEDTVYMYLLSIAGLSAVSSWIIIALSQLRFRSQYIKGGGKLEDLKYRTPLYPIVPILALITNSIVVISLAFIPEQRMALYCGIPFIIFCYIYYYYYYMSKKQQKPMKVEMDKTNETNNQTR	PGPT0000815_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_04877	378			hypothetical protein	ATGAAACTAACAATCAAACACGATGATATAAAGGCAGATTTATCGTACGCTCAATTAGCGATTGGAAAAGAAAACGGGTATTCACCGTTACAATTACTCGTTTCTTCTATCGCAGGATGTAGTGCAATTGTCTTTCGAACAATTTTAGAAAAGAAACGTATTACATACGATACGTTTACGATCGAAACTGAAATTGGTAGAAGTGAAGCTTTATCCAAACCAGTTGAAAGTGTTCATTTGCAATATAAAATTAAAGCGGAAAACATTACAGAAGAGCAGTTGGACAAAGCATTGCAGCTTGCAGTGAAAAATTGTACGATTGTTCAATCTGTAAAAGATAGTATAAAGGTTACGGAAACAATTGAACTAATAAAATGA	MKLTIKHDDIKADLSYAQLAIGKENGYSPLQLLVSSIAGCSAIVFRTILEKKRITYDTFTIETEIGRSEALSKPVESVHLQYKIKAENITEEQLDKALQLAVKNCTIVQSVKDSIKVTETIELIK				NA	NA	NA	NA	NA
AK009_04878	462	hit_2	COG0537	Protein hit	ATGTTTTTAGAAAGAGGGGAAAGTGTAGTGGACTGTTTAGGTTGTAAATTAGCAAACGAAGAGGAAAAAATATATAAAGTATATGAAGATGATTATGTAACTTGCTTTTTAGATCATGCGCCTTTCTACCCAGGACATACTTTAATTGTGCCAAAGCAACATGTTGTAGAAGTAGAAGAATTAGATGACGTTGTAGCAAGATCAATTATGGATGCTTCTAAGCTGATTGCAAAAGCGATTAAGGCATTATATAAACCAGATGGAATTACAGTTTGTCAAAATGGTGGAGTATTTAACGAGTTAACACATTACCATATGCATGTCGTACCAAGATATAAAGAGCGTTCGTTTGCTGAGTTTTATACGGTGCAACCGGAGGAAAAGAAGAATCATAACTTTGAAGAGACAAAGAATTTGTTAAAAGAAGCGATAGAGCAAATACTGCATATTGAAAAGGTGTAA	MFLERGESVVDCLGCKLANEEEKIYKVYEDDYVTCFLDHAPFYPGHTLIVPKQHVVEVEELDDVVARSIMDASKLIAKAIKALYKPDGITVCQNGGVFNELTHYHMHVVPRYKERSFAEFYTVQPEEKKNHNFEETKNLLKEAIEQILHIEKV				NA	NA	NA	NA	NA
AK009_04879	558	sigM_3	COG1595	ECF RNA polymerase sigma factor SigM	ATGAAAGTTACAAATAACGATTATGAAAAGATGGAAGAGCTATACGAGTTGTACGAACAAAAAATTTATTATGTAGCGTATTCTATTTTAAATAATATTCAACAGGCTGAAGATGCGGTTCAAGAGACGTTTATTACTCTTTATAAGAACTTGGAAAAGCTCCATAGCTTGAGCACTGAAGAGCTTAAACGCTATATTTTGAGGATCGCGAAAAACAAGGCGATTGATAGTTACCGGAAAAATAAACGACATGAAACATTTTTAGAAGAATATGAAAGAGAATCAATAGAAGCAGTAGATGAAAATATTGAAGAGTGGGAAAAACGTAAAATGTCTGAGGTTCAAATTGATACATTGCTAAAAGAGTTAAATGAATCTAACAGACAGGTGTTTAAGTACAAAGTCTTCTATAACTTAACGTATCAAGAAATTTCAAGTGTAATGGGGATTACGGAGGCTAATGTCCGCAAGCAGTTTGAACGCGCTCGAAAACGAGTCCAAAATATGATAGGAGGTATACAACATGACGAATTCAAAGAACTCCAAAGAAATATATGA	MKVTNNDYEKMEELYELYEQKIYYVAYSILNNIQQAEDAVQETFITLYKNLEKLHSLSTEELKRYILRIAKNKAIDSYRKNKRHETFLEEYERESIEAVDENIEEWEKRKMSEVQIDTLLKELNESNRQVFKYKVFYNLTYQEISSVMGITEANVRKQFERARKRVQNMIGGIQHDEFKELQRNI	PGPT0014960_8756	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_04880	1425			hypothetical protein	ATGACGAATTCAAAGAACTCCAAAGAAATATATGAACTTGCTGAAAAAATTGCTTTAGATGATTTTGATAAATCCGAAGAACAACATGAATTTTCACATACATATACGCGCAAAAAGAAACTGTTTATGGAGGAAATGAAGCTGAAGGACGAGCGACCACAGAAAAAGAGTAAAAGACATCGTATGTTAATCGCTGCTGCCTGCTTATTGATTGGTATGCCGACAACCGTTTTTGGTGCAGTAAAAGTCTATAATATGATTGTTCAAAAACAAAATTATGAAGTAAATGTGTCGGTAACAAATAAGGACACGAAAAAGGCTGATAAGTGGTATAAGCTGAAAATTGATAAATTACCAGAAAATATGGAAGCAATTGATGACTCTGCTATGAAATATTCATTTAAAGATAACGACGCAAATGGAGGCTTTTCATTTAGTCTTTGGAGAGTAGGGGAAAATGCGGACTTTCAAACTTTATATTCAAAAAGCTACGAAGAAAAAGAGATAGGTGGCAAGAAAGCAGTAATTGTTCATAAAGAAACTGGAAACAACAATGTAATGTTTGATAGGAAGGTCTTTCTCTTTTTTGAGAAAGAAGGGATTATGTTAGAAAGTTTTATTGGATCAGATATAAATGAAGAACAAATGATAGATGTCTTAGGGAATATTTCACTTGAGCCCACGTCAAAAGAAAAGGCATCACATATATCAAATTATGATAAAAAGTATTTTAGCCAAGCAGATGAACCTAAAAAATCTAAAGTGATTCCTTTGAAAAAAGATAGCAAACGACTATTTCATATAGGGCAAAAGGTTCCAGTAACGATATCTATGGATAACAGCCAAATTGAATATGTGATAGAAAAAGTTGAAGTTTTTGATTCGATTAAAGATTTTAAACAAGAGAACTTTAATGAACTTGGCCTAGGGATATTAAGCAAGAAGAAGGCTTTAGATCAGACGGGAAAACTGCTATCGTACAGACGGGATGTATATAAATTAGGGAATGGTAAAGATTCAATTGATACATTAGTAGATTCGCAATTAGTTAATGTTAAATTTGTCTACTTGACAACAACAGTGAGAAATATTGGTAAACAGGCGACAGAAGAAATCTATATGCATCCATCCATAAAGCAGCTTAAATTTGAAGGGAATGCATGGAAATACGCTAAAGAAGAGGGAATGGATGCAACGCGTATTATGACGGGAGAAGTTGATTATTTAGAGCCTCACGGAGATGGGAAAAGCTTCTACAATATTGGCAGTATCCTACCTGGCCAAACGATGAAAGTTAATTTAGGTTATTTTGTGGATGAGGATAAACTAGATTCAATTTTCCTTGATGCTTTCCGTTACAGTGGTTTTAGTGGAACTGAGAATATGAATTCGAAAAATCGTTGGTGGTTTGACATTCGTCAATAA	MTNSKNSKEIYELAEKIALDDFDKSEEQHEFSHTYTRKKKLFMEEMKLKDERPQKKSKRHRMLIAAACLLIGMPTTVFGAVKVYNMIVQKQNYEVNVSVTNKDTKKADKWYKLKIDKLPENMEAIDDSAMKYSFKDNDANGGFSFSLWRVGENADFQTLYSKSYEEKEIGGKKAVIVHKETGNNNVMFDRKVFLFFEKEGIMLESFIGSDINEEQMIDVLGNISLEPTSKEKASHISNYDKKYFSQADEPKKSKVIPLKKDSKRLFHIGQKVPVTISMDNSQIEYVIEKVEVFDSIKDFKQENFNELGLGILSKKKALDQTGKLLSYRRDVYKLGNGKDSIDTLVDSQLVNVKFVYLTTTVRNIGKQATEEIYMHPSIKQLKFEGNAWKYAKEEGMDATRIMTGEVDYLEPHGDGKSFYNIGSILPGQTMKVNLGYFVDEDKLDSIFLDAFRYSGFSGTENMNSKNRWWFDIRQ				NA	NA	NA	NA	NA
AK009_04881	954			hypothetical protein	TTGTCAAAAGCTAAACGCTTATTAGATATTCTTATATTTGCTTCTGCAAAAAAAGCATTTACAGCTCAAGAAATAGCTGATGAATTTAATATTTCCGTTCGTACTGTCCACAGATACATTTTAGATTTAAGTGATATGGGATTACCTATTTATGCAGAACAAGGTCGTAATGGAGGATATAAAGTATTAACGAATAAAGTCATTCCCCCTATTTTATTTACTGAAGAAGAAGCGGTATCCATCTTTTTTGCTTTTCAATCTTTAAGTTACTATCGAGACTTACCTTTTAACACAGAAATCAATTCCGTTACGCATAAACTGTATAGCTCTCTACAACATGATGCGAAAGTGAAAGTTAATAAAATACGTTCTTATATCGCTTTTTGGAATCCGAAGAGAACAATTGATACACCTCTATTAAACGCAGTGTTAAGTGCGGCTATTGAAAATAAAAATTTACACTTTCAATACGAATCTAAATCGGGGATAAAAACAAAACATGTTCATCCTATCGGTGTATACGCTCATGATGGGCTATGGTACTTACCATCCTATGACTTCAGGAGAAAAAAAGTATTACTGTATCGTGTTGATCGTATTCTTTCTATATTATCAACAGAAAAAAATGAAAGTACGTTCATGAATTTAGAAGAATGGTTTACCTCTAGCTCTAACGTAGTGCACATTCCTACCCAATTACATGTTTTACTAACGACAGAAGGCGTGCGCCAATGTAAAAGTGTTCCTTACCTTGAAGAATTCGTGGTAATAAACGAAGACGGGACAGGATATATACATTCAACAATTGATAAAGGCGAAATCAACTTTATTACCCCTTTATTTTATAGACTTGGAAAAGATGCACGAATTTTAGAACCGAAAGAATTGATAGATGGTTTACTTATGCGTGCGAAAGAAGTTTTACATATGTATGAAGACGAAAAAAGCTGCTAA	MSKAKRLLDILIFASAKKAFTAQEIADEFNISVRTVHRYILDLSDMGLPIYAEQGRNGGYKVLTNKVIPPILFTEEEAVSIFFAFQSLSYYRDLPFNTEINSVTHKLYSSLQHDAKVKVNKIRSYIAFWNPKRTIDTPLLNAVLSAAIENKNLHFQYESKSGIKTKHVHPIGVYAHDGLWYLPSYDFRRKKVLLYRVDRILSILSTEKNESTFMNLEEWFTSSSNVVHIPTQLHVLLTTEGVRQCKSVPYLEEFVVINEDGTGYIHSTIDKGEINFITPLFYRLGKDARILEPKELIDGLLMRAKEVLHMYEDEKSC				NA	NA	NA	NA	NA
AK009_04882	522			IS1595 family transposase ISCac2	ATGTCACGTGAAATAGTTTTATTTATAGCCGCTAGCTTGGATGGATATATTGCGAAAGAAGATGATGATTTACAGTGGTTAATGGAAACCGAAGGAGAGGGAGATAACGGTTATACAGAAATGTACGAAACGATTGATACAATAATTATGGGAAAAAGAACGTACGATTATGTAGTAGAGCATATGGAAACATTCCCGTATTTAGATAAAAAATGTTATGTTTTTTCTAACTCACAAAAAGGTTCAAATGAACACGTGGATTTTGTAAATGAAGAGGTAGTGGAGTTTACGAAAAGGTTGAAAGAGCAAGAAGGATCTAAAATATGGATGGTCGGTGGAGGGAGTCTACTGAGAGAGTTCTTTAAGAATAATTTAATTGATGAATATGTTGTTACAATTACACCGCATATATTAGGTTCTGGAGTTCCGTTATTTCAAGACAAGAATCCAGAAATTAATTTAACTTTAACGGATACGAAACGTTTTGGGCAATTTGTAAATTTATATTATAAAGTAAAATGA	MSREIVLFIAASLDGYIAKEDDDLQWLMETEGEGDNGYTEMYETIDTIIMGKRTYDYVVEHMETFPYLDKKCYVFSNSQKGSNEHVDFVNEEVVEFTKRLKEQEGSKIWMVGGGSLLREFFKNNLIDEYVVTITPHILGSGVPLFQDKNPEINLTLTDTKRFGQFVNLYYKVK				NA	NA	NA	NA	NA
AK009_04883	1392	sasA_20		Adaptive-response sensory-kinase SasA	ATGAAACGAATCTCTATTCAATTCGGATTTTATTTTTTAATTGTCACACTTTTAATTGAAAGTGTTCTATTTGTATTGCTCTATTATAGTCTCGTAAACACTAGAGTAAATGAAGAAATGACTGCTTTATTAAAACGTGGAAACAGTCATCGTGATGTACTTGAAAAATATTATGATAAGCAAACAATCTCTCACGTAGCACTAATGGAATCTGAAGCTGAAACAACTGTCGTTATTACAAATACAAATAAAGAAATACTAGCTAAATCTAACGAAATAAACACGACTATAAACGATCATATTAGTAAAATGCAAACTCGAACAGACCATAATGGAGCGATTATAGAAAATCATTGGAAAACATCTAATTATATATGTACAGTTAGCCCTATTGTAGTCGATGGAAAACATGAAGGCTATGTGTACATGTTTCTTGGAACAGAATCAATTGAAAAGTTGGTTAATGGATTAACGAAACAATTCATTATTGCTGGTGCCATCACGTTTCTACTCACAGTCATCACAATTTTCCTATTATCACATTTATTAACAAAGCCATTGTTACACATGAAACATGCAACTGAAAAAATGAGTAAAGGCGATTTGTCCGTTTCATTAACGACTACTCGAAATGATGAAATTGGTGAACTAGCATCATCTATTCAAACGCTCGCAAATGATTTACATTATATGAAAACAGAGCGAAGTGAATTTCTAGCAAGTGTTGCTCACGAATTACGAACACCGTTAACATACGTACGAGGTTATGCTGACATTGCTTTAAAAGAAAGCACCCCTCCTGAACAACGTTTGCGATATTTATCAATTATAAAAGACGAGTCTGATTACATTACAAACTTAGTTCAAGATTTATTTTCACTTGCACAAATAGAACAACATAGCTTTTCTATTCAAGTAAAGGAAGTGCATTTACACACCTTCCTTACTCGCATAGCTGAAAAAGTAAACGCCATGTATAAAGAAAGATACATTAAAGTTTCTTTCTCTTGTTCTCCTACATTGCTAGTAAACTTAGATGAACAGCGATTCGAACAAGTGATAGTGAACATTTTAAATAACGCTTATAGACATTCAAAAGAACATTCTCATATAAACATTTCTATTACAGACGAACATAAACGTATCTCCATTACAATTGAAGATGAAGGCGAAGGTATTCCACCTGAAGACCTCCCTCACATTTTTGACCGCTTTTACCGTGTCGATAAAGCAAGATCACGATCTACAGGCGGAACTGGTTTAGGACTCTCTATCGTGAAGGAAATTGTAGAACTACACGGCGGAAATATTACTGTAACGAGCGAAGTCGATTACGGGTCTTGCTTTATAGTTTCATTACCATCCATAAAGAAACACGACTATCATCAATAG	MKRISIQFGFYFLIVTLLIESVLFVLLYYSLVNTRVNEEMTALLKRGNSHRDVLEKYYDKQTISHVALMESEAETTVVITNTNKEILAKSNEINTTINDHISKMQTRTDHNGAIIENHWKTSNYICTVSPIVVDGKHEGYVYMFLGTESIEKLVNGLTKQFIIAGAITFLLTVITIFLLSHLLTKPLLHMKHATEKMSKGDLSVSLTTTRNDEIGELASSIQTLANDLHYMKTERSEFLASVAHELRTPLTYVRGYADIALKESTPPEQRLRYLSIIKDESDYITNLVQDLFSLAQIEQHSFSIQVKEVHLHTFLTRIAEKVNAMYKERYIKVSFSCSPTLLVNLDEQRFEQVIVNILNNAYRHSKEHSHINISITDEHKRISITIEDEGEGIPPEDLPHIFDRFYRVDKARSRSTGGTGLGLSIVKEIVELHGGNITVTSEVDYGSCFIVSLPSIKKHDYHQ	PGPT0003985_899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK009_04884	678	regX3_3	COG0745	Sensory transduction protein regX3	ATGATTGATATACTGCTCGTAGACGATGAACCGAGAATGCTTGAATTATTAACGCTTTATCTTACTCCAATTGGATATAACTGCGTATGTGCGACTTCCGGAGAAGAAGCTATTTTACATATAGAAAATCGAAACTTTAAATTTGTTTTACTCGATATTATGATGCCAAAGATGGACGGATGGGAAACGTGCAAAAGAATCCGTTCATTTAGTAACGTTCCTATTATTATGGTTACCGCTCGTGATCAAACAGTAGATGTCATCCAAGGATTAAAACTCGGAGCGGATGATTACGTAACGAAACCTTTCCATGAAGAAGAACTTTTCGCAAGAATTGAAGCCGTTTTAAGACGTACAAATGAACATAAACAAATCCAATATCACGGTATTGTATGGGATGAAACAAAACACTTCGCTTCTGTACATAATGAAGAACTTCTTCTCACACCGATCGAATTCTCTTTACTCGGGTTATTTTTACGCCATGTGAATTATGTATTAAGCCGTGATCAGCTCATTGAACGAATTTGGGGATTAAACACAAATACAGAAGATCGCACAGTCGATTCACATATTCGTAATTTGCGTGATAAATTGCGAAAAGCAAATTTCCCTATTGATCATCATTTAAAAACCGTGTATGGAGTAGGTTATCGATGGATTGATACCGAACATTAA	MIDILLVDDEPRMLELLTLYLTPIGYNCVCATSGEEAILHIENRNFKFVLLDIMMPKMDGWETCKRIRSFSNVPIIMVTARDQTVDVIQGLKLGADDYVTKPFHEEELFARIEAVLRRTNEHKQIQYHGIVWDETKHFASVHNEELLLTPIEFSLLGLFLRHVNYVLSRDQLIERIWGLNTNTEDRTVDSHIRNLRDKLRKANFPIDHHLKTVYGVGYRWIDTEH	PGPT0014763_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
AK009_04885	1248			hypothetical protein	GTGAAAAAAATGACCCGAATTTTTGGGATAACAATAATTACAGCAGTTGGTCTTGCTGCATGTGGGCAAACGAATACAGACCATAAAAATCATGAATCTACAAAAGAGAAGAAAACAGAGCAAAAGGAAATGAAAATGAATCAGGAAGTAACCGCGCCAAAAGAAATGAACGAAGGGGCATCGAATGATTTATTAACGACAAGTCTAAAAAATGTAACGAGGTTAAATACAAATGACCCCCTAAAAATGGCAGTGTTAACTTCGCAAACGATATGGCCAGCAACCCATAAAGAGAACCAGCCAGGTGCTGTTATTTTAGTACCAGCAAGCGAGTGGCAATTAGGTATTGCGAGTGCAGACCTTATTCATCATCCGAATAACGGGCCGATTTTATTTATAGAAAAAGAAAAGATACCGGAAATGACGTTAAAAGAAATAAAACGATTAAATCCAATCGGAACGAAAGATGGAACACAAATTATGGTGATGGGAGATGTAGGTACTAGCGCGCTTGAACAATTGAAAGGTTATAAAGTAAAACAAATAAAAGAAACGGACCCAGCTATATTTGCGAAGGATGTTGATAAGGAGTATGCCGATATAACAGGAAGCTACCCAAATAGTGTTATTATCGGTTCGTCTGCAGAAGAAGGACGTTTATATACAACACCCGCTGTAAATTGGATTTCTCATATGCCGGAACCACTACTCTATACAGAAAAGAATAAAGTGCCAGAAGCGACAATAGAGGCATTAAAAATGAGAAAAGATAAAGCAAATATATATGTATTAGGGCCAGAAAAAATTGTTTCAAAAGAAGTAGAAAAAGAGTTAAGCAAATACGGGAAAGTAACGCGTATTAGTGGAGAGACCCCTACAGAAAACTCGATTGCGTTCGCTAAATTTAAAGATGAAAAAACAAAATTTGGCTGGGGATTCACAAAACCTGGTCACGGTTTATCATTTGTTTCAAGCAAAACACCAGATTTAGCAGTTGCTGGAGCACCTTTTTCACATATGGGTAAACACGCACCTGTTGTCTTGTTAGAAGAAGGGAAAGCTTCACAACCAGTGTATGACTTCCTTGCTACTATTCAGCCGAAGTTTAAAGATGATCCAACACTTGGACCATATAATCATGGCTTCTTATTAGGAAGTACGAGTGATATTTCATTTGAAACACAAGGAATACTAGATGAGAGGTTAGAAATTGTTCAGGAAAGTGGTCAAGGACACGGTGGACATTAA	MKKMTRIFGITIITAVGLAACGQTNTDHKNHESTKEKKTEQKEMKMNQEVTAPKEMNEGASNDLLTTSLKNVTRLNTNDPLKMAVLTSQTIWPATHKENQPGAVILVPASEWQLGIASADLIHHPNNGPILFIEKEKIPEMTLKEIKRLNPIGTKDGTQIMVMGDVGTSALEQLKGYKVKQIKETDPAIFAKDVDKEYADITGSYPNSVIIGSSAEEGRLYTTPAVNWISHMPEPLLYTEKNKVPEATIEALKMRKDKANIYVLGPEKIVSKEVEKELSKYGKVTRISGETPTENSIAFAKFKDEKTKFGWGFTKPGHGLSFVSSKTPDLAVAGAPFSHMGKHAPVVLLEEGKASQPVYDFLATIQPKFKDDPTLGPYNHGFLLGSTSDISFETQGILDERLEIVQESGQGHGGH				NA	NA	NA	NA	NA
AK009_04886	531			hypothetical protein	ATGTATAAAAAATTGGGTACTATCGCTTTAACAGGTGCACTTGCTTTTAGTTTAGCTGCTTGTGGTGAAACTGAAGTTAAAGAAGTGAGTAAAAACGATGCTCCTAAACAGGCTGAAAAGAAAGATAAAAAGGAAAAAGCTGAAAGCAAGATTTATAAAATTGGAGATACGGTAGAAGTTAATGGCCTACAACTTACTTTCAGTTCAGCTAAATTCGTTGAGCCTAACGAATACGTAAAAGCTGAAAAAGGGAAAGTACTAGAAATCGCTTTTAATGCTAAAAATAATGGCAAAAAAGATATATATTTTGGAACTTCTGAATTAAAAATTGCTGATACTAACGGCAACCAATTCAAAGAGTACTTTGGTGGGGAAAATACGTTTATAAACGAAAATATTGCGCCAGGTAACCAAATTACAAACAAAATGTTATTTGATGTACCAGAAGGCGATAAGTTTGTTGGTACATTTAAACCTACATTTACATTTGACGAGAAATCAGTGAAAGTTGAATTTGAAGTTGCTAAATAA	MYKKLGTIALTGALAFSLAACGETEVKEVSKNDAPKQAEKKDKKEKAESKIYKIGDTVEVNGLQLTFSSAKFVEPNEYVKAEKGKVLEIAFNAKNNGKKDIYFGTSELKIADTNGNQFKEYFGGENTFINENIAPGNQITNKMLFDVPEGDKFVGTFKPTFTFDEKSVKVEFEVAK				NA	NA	NA	NA	NA
AK009_04887	345			hypothetical protein	ATGAAAAGAACAGCTGAATTTGTATTAGGTCTTATTGGAGGTATTTTTGGTATTATTTGTGCATTTGTTGCTTTATTAATCGGCGGTATGGGAGCTGCTTTTGAAGCTGATGGAGCAAATACTGTTATTGGCTTAGGTTGGGGAGCTGTGGCTCTATCAATCTTAGGAATTGTTGGATCTGTTATGGTAAGAAGTAAAGCGAAGGTTGGCGGTATTATGATGACTGTGGCTGCTATCGGTGGATTTATTTGTATTTCTATAATTTACTTATTACCAGGCGTATTATTATTAATCGGTGGATTAATGGGCATATTCCGTAAGGATAAAGCAACTGTATCTGCATAA	MKRTAEFVLGLIGGIFGIICAFVALLIGGMGAAFEADGANTVIGLGWGAVALSILGIVGSVMVRSKAKVGGIMMTVAAIGGFICISIIYLLPGVLLLIGGLMGIFRKDKATVSA				NA	NA	NA	NA	NA
AK009_04888	1452			hypothetical protein	TTGTTTCAAACGATAAAAAATGACTGGTTTTCTAATGTGAGAGGGGACGTGTTATCAGGAATTGTCGTTGCTTTAGCATTAATCCCTGAAGCGATAGCCTTCTCTGTTATTGCAGGCGTGGATCCGACAGTTGGACTATACGCAGCCTTTTGTATTGCGGTTACCATTTCATTTGTTGGCGGAAGAACTGGAATGATTTCAGCTGCAACAGGTGCAATGGCATTATTAATGGTAACGCTTGTTAAAGATCATGGTTTGCAATATTTATTTGCTACAACAATATTAACAGGTATCGTCCAAATTATTTTTGGCGTGTTCAAACTGAGCTCATTTATGAAGTTTGTTCCGAAATCTGTTATGAGTGGTTTTTTAAATTCACTTGGAATTTTAGTTTTTACAGCGCAATTACCGCATTTTAAAAATGCAACTTGGCAAATGTATGCACTCGTTGTATTAGGACTTGCAATTATATATTTATTTCCACGTATTACAACGGCTGTACCTTCTACGCTTATTTCAATTATTATTGTGACGAGTATTGCACTTATGAGCGGATTACAGTTGAAAACAGTAGGGGATATGGGAAGCCTACCGAAAGAATTACCGTTCTTTAGTATTCCTGATGTGCCATTTACATTAGAAACATTAGGGATTATTTTACCTTATGCAGTTATGCTTGCAATCATTGGTTTACTAGAGTCTTTATTAACAGCTTCAGTTTTAGATGATATGACGCATACAGAAAGTAATAAGCATAAAGAGGCACGCGGACAAGGGATCGCAAACATCGTTGCTGGATTTTTCGGAGGAATGGCAGGATGTGCAATGATCGGTCAATCTGTTATTAATATTAAATCAGGTGGACGAGGTCGCCTATCAACATTTGTAGCGGGCGGATTTTTAATCGTATTACTATTCGTTTTAGGGAATTATGTCGTTCATATTCCGATGGCAGCTTTAGTTGCGGTTATGATTATGGTTTCAATCGGAACGTTTGATTGGAACTCTGTAACAACGATTCATAAAGTACCAAAAGGAAACGCATTTGTTATGATTGTAACAGTTGTGATTGTCTTAATTACACATAATTTAGCATTAGGTGTAATTATCGGAACAGTAATTAGTGCGGTGTTATTTGCATTCAATATGGCAAAGATTCACGTGAAACATTTATATATTGAAAATAAAAAAATATACGAAATTCACGGTCAACTTTTCTTTGCATCTACAGCCGATTTCATAAATAATTTTTCATTTAATGAAGATGTAAAAGAAATTGAAATGAATTTTACTCATGCGCACGTATGGGATGATTCAGCAGTGGCATCAATTGATAAAGTTATCATGAAGTATGAGCAAAGTGGTGTGAAAGTAAGTATAACAGGATTAAATGAACGTAGCTCAAAACTTGTTGCAAATTTGGCTACTTATAATAAAAGAATTGCTAGTTAA	MFQTIKNDWFSNVRGDVLSGIVVALALIPEAIAFSVIAGVDPTVGLYAAFCIAVTISFVGGRTGMISAATGAMALLMVTLVKDHGLQYLFATTILTGIVQIIFGVFKLSSFMKFVPKSVMSGFLNSLGILVFTAQLPHFKNATWQMYALVVLGLAIIYLFPRITTAVPSTLISIIIVTSIALMSGLQLKTVGDMGSLPKELPFFSIPDVPFTLETLGIILPYAVMLAIIGLLESLLTASVLDDMTHTESNKHKEARGQGIANIVAGFFGGMAGCAMIGQSVINIKSGGRGRLSTFVAGGFLIVLLFVLGNYVVHIPMAALVAVMIMVSIGTFDWNSVTTIHKVPKGNAFVMIVTVVIVLITHNLALGVIIGTVISAVLFAFNMAKIHVKHLYIENKKIYEIHGQLFFASTADFINNFSFNEDVKEIEMNFTHAHVWDDSAVASIDKVIMKYEQSGVKVSITGLNERSSKLVANLATYNKRIAS	PGPT0003020_5681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK009_04889	423	nhaX	COG0589	Stress response protein NhaX	ATGTACAAACAAATTATATTAGCATGTGACGGTTCTGAACATGCACTTCGAGCAGCGGAACATGCAACATATATTGCGAAATGTAGCGAAGAAACAAATGTTGAAGTTGTGTACGTAGTAGATAATAGAACGGCAAAATCAGATATTATACAAGGTCAAACAGACTTAGAAACAATATCAGCTAGTCGAAAAGATAAATTAAAAGAGATTGAAGGTCTATTAAAGAAAGAGAACATTTCTTATACAATTACGATATTACATGGTGATCCTGGAGATACAATTGTTCAATATGTAAATACAGGAGATATAGATCTTGTTATCGCTGGAAGCAGAGGGCTAAATACACTGCAAGAAATGGTGCTTGGTAGTGTCAGTCATAAAATAGCAAAACGAGTGAAATGTCCGGTGATGATTATAAAATAA	MYKQIILACDGSEHALRAAEHATYIAKCSEETNVEVVYVVDNRTAKSDIIQGQTDLETISASRKDKLKEIEGLLKKENISYTITILHGDPGDTIVQYVNTGDIDLVIAGSRGLNTLQEMVLGSVSHKIAKRVKCPVMIIK	PGPT0002681_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
AK009_04890	117			hypothetical protein	ATGAAATCATTTCAAAATTTGTCATATAGTCAAGGGGTAAGCTTAATTTGTCTAGGGGGATTTGCTGCATCTGTTACGTTAGCTGTTTTAATAAAGGTGTTTCATCAAATTTTTTAA	MKSFQNLSYSQGVSLICLGGFAASVTLAVLIKVFHQIF				NA	NA	NA	NA	NA
AK009_04891	1350	glpT	COG2271	Glycerol-3-phosphate transporter	ATGTTTTTCACACAATTATTTAAACCTGCGCCCCACGCGGAACGCTTACCAGCTGATCGCGTTGATAGCGAATACCGTAAATTACGTTTACAAGTATTCTTAGGTATCTTCATTGGTTATGCAGGTTACTACTTTGTTCGAAAAAACTTTTCACTAGCAATGCCATACTTAATCGAGCAAGGATTTAGTAAAGGGGAACTTGGGGTTATCCTTTCAGCAGTATCTATCGCTTACGGATTAAGTAAATTTCTTATGGGTATCGTATCCGACCGTTGTAATCCTCGCTACTTTTTAGCAGCTGGGCTATTTTTATCAGGTATCATTAATATTATTTTCGGCTCATTTTCTTTCATTACAACGAGCATTATACTTATGTTTGTACTTCAGTTTTTAAATGGATGGGTACAAGGCATGGGATGGCCTCCTTGTGGTCGTACGATGGTTCACTGGTTCTCTATTAGCGAACGTGGTACAAAAATGTCTATTTGGAACGTCGCTCATAATGTCGGCGGCGCGCTGATGCCTTCTCTTGTAACATTAGGCTTATACTTCTTTGCAAATGACTGGCATAGTATTTTTTACTTCCCAGGTATTCTTTCAATTTTAGTTGGTATTTATGTACTAATTACAATGAAAGATACACCTCAATCTTGTGGACTACCTTCTATTGAAGAGCATACTGGAGAATATCCACCAGATGAGAAAATAAAAGATCGCGAACGCGAACTTTCGGCAAAGGAAATTTTATTTAAATACGTACTAAACAATAAATTTTTATGGTACATCGCTATTGCGAACGTTTTCGTGTATTTCGTACGTTACGGCGTTGTAGACTGGGCTCCTACTTATTTAGTAGAAGAAAAAAGCTTTACTCATAGTAGCTCACGTACTGCTTACGCTCTATATGAATGGGCTGGTATTCCAGGTACACTTCTTTGCGGATGGATGAGTGATAAACTATTTAAAGGACGTCGTGCACCTGCTGGTATTTTATTTATGATTGGTGTATTTATCGCAGTTCTTGTTTACTGGTTAAATCCTCCTGGTAATCCAATGGTTGATAGTATCGCTCTTGTCGCAATTGGATTTTTAATTTACGGACCGGTTATGTTAATTGGTCTACACGCTCTTGACTTAGCACCAAAGAAAGCTGCTGGAACTGCAGCAGGCTTAACTGGATTCTTCGGTTACTTAGGCGGAGCTGCTTTCGCTAGTGCCGCTATGGGCTTTATCGTAGATGCATTCGGGTGGGATGGCGGATTCATCTTATTACTTGCATCTTGCATACTTGCAATGTTCTTCCTTGCCCTTACTTTAAATACAGGGTCAGTAAAATCAAAACAAGCTTAA	MFFTQLFKPAPHAERLPADRVDSEYRKLRLQVFLGIFIGYAGYYFVRKNFSLAMPYLIEQGFSKGELGVILSAVSIAYGLSKFLMGIVSDRCNPRYFLAAGLFLSGIINIIFGSFSFITTSIILMFVLQFLNGWVQGMGWPPCGRTMVHWFSISERGTKMSIWNVAHNVGGALMPSLVTLGLYFFANDWHSIFYFPGILSILVGIYVLITMKDTPQSCGLPSIEEHTGEYPPDEKIKDRERELSAKEILFKYVLNNKFLWYIAIANVFVYFVRYGVVDWAPTYLVEEKSFTHSSSRTAYALYEWAGIPGTLLCGWMSDKLFKGRRAPAGILFMIGVFIAVLVYWLNPPGNPMVDSIALVAIGFLIYGPVMLIGLHALDLAPKKAAGTAAGLTGFFGYLGGAAFASAAMGFIVDAFGWDGGFILLLASCILAMFFLALTLNTGSVKSKQA	PGPT0016821_540	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
AK009_04892	459			hypothetical protein	ATGCCAAATGATATGACGCATATCGATAAAATTCAAGCTCTAGCCTTTTCGATTGGAAAGAAAATGCAGACGGAGTTATTAGAACAAATGCAAGCAACAGGACTTACACCACCGCAGTTTTATATTTTAAAGATTCTAGATCATTATGGGGCTTCAAGAGCGACAACATTAGCAAAAAAGATGTACGTGAAGCCTAGCGCAATTACAGTGATGATTGATCGTCTAATCGATCAAGAACTTGTAGAACGCTATCACGACAAAGATGACCGTCGTGTTGTCATCATCGAGTTAACGAAAAAGGGGAAATCTAGAGTAGAAGAGGCAATGACAGCTCGCAACGAGCATATTGCAAAATACTTTTCACATTTAGAGTTGCAAGAAAGAGAAGATTTATTACGTCTCTTTGAGAAGTTAGAAACCATTATTTGCGGGACACAAGAGAAAAAAGAGAATAACTAA	MPNDMTHIDKIQALAFSIGKKMQTELLEQMQATGLTPPQFYILKILDHYGASRATTLAKKMYVKPSAITVMIDRLIDQELVERYHDKDDRRVVIIELTKKGKSRVEEAMTARNEHIAKYFSHLELQEREDLLRLFEKLETIICGTQEKKENN	PGPT0013155_3862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK009_04893	1614	bmr3_4		Multidrug resistance protein 3	ATGGAACAACAAGAAAATCAAAATAGAAAGTTGTTGTTAATCGGTTTAGTAATCGCGATGCTATTTGCTGCATTAGATGGAACAATTGTTGGTACAGCAATGCCACGTATCGTCGGTGACCTAGGCGGATTAAGTTTAATGACATGGTTAACAACAGCATATATGTTAACATCAACGACAGTTGTACCAATTGCAGGTAAGTTAGCGGATTTACTTGGTCGTCGTAACGTATATATAACAGGGCTAGTTATTTTCATGATTGGTTCGGCGTTATGTGGTATGGCAAATGGTATGACAGAATTAATTATTTTCCGTGGTATTCAAGGTCTTGGTGGCGGTATTATGATGCCAATGGCTATGATTATTATTGGAGATATGTTCACGGGAAAAGAACGTGCGAAATGGCAAGGTATTTTTGGTGCGTTATACGGTCTTGCTTCTGTAATTGGACCACAAGTTGGTGGGTGGATTGTAGATGCAGTGAACTGGAGATGGGTATTCTACATTAACTTACCGGTTGGTATTTTAGCAACAATCTTTATTGCAATGGGATTAAAATCACATAAACAAACAGGACCAATTAAAATTGATATCGCTGGAATCTTTACGATGATTCTAGGTGTTGTAAGTTTATTACTTGCGCTAACGTTTGGCGGAAAAGATTATGCATGGGACTCTTGGCAAATTATCGGTTTATTTGCACTAGCTGTAATTGGTATCGTTAGCTTTGTTATTGTTGAAACGAAAGCTGAAGAGCCGATTTTACCAATGCATTTCTTTAAAAATCGCACATTTACAATACTGAATGCGATTGGATTCTTTATGAGTATTGGAATGTTCGGCGCGATTATGTTCGTACCATTCTTCATGCAAGGTATTGTAGGAGTAAGTGCTGCTGAATCAGGAACAATTATGACTCCAATGATGATTACAATGATTGTAATGAGTATTATCGGTGGGCAACTTGTATTAAAAGTTGGTGTAAAACCACAAATTATCGCAGGTATGCTTATTATGGCGGGTGGTTTCTGGTTATTAACAACGATGGATATGCACACAACGAAGCTTACAGCTACTTCTTATATGATGGTTATCGGTTTAGGAATGGGTCTTGTAATGCCGACATTAACATTAGCGTTACAAGAAAGCTTCCCGAAAAAAGACCTTGGTGTCGTAACGTCATCAAGTCAGTTCTTCCGTCAAATTGGTGGAACATTTGGTATTACAATTTTAGGATCAATTATGAATAACACTTCAGGTACAACGTTAACAAATAAATTAGTACCTGTATTAGATACATTCCCGAAAGAAGCGGGACAAATGGTAACGAAATTTAAAGATATGATTCACACAGATCCACAAGGTTTATATTCGATGCTATTTAGCCCAGAGGCATTAAAACAAATGCCAGAAGCGTTCGCTAACAGCATTGTACCTATTTTGAAAAACTCTTTAGTAGACTCGCTTCATACTGTATTCTTAACAGGATTAGTATTTATCGTAGTAGGTGCCATCTTTACGATTTTCTTACAAAAAATTAAATTATCAGATCGTAAAAAAGATGCTAAAGAGCCTGCTGTAGAAGAAAAAGAAAAAACTGTATCATACTCGTAA	MEQQENQNRKLLLIGLVIAMLFAALDGTIVGTAMPRIVGDLGGLSLMTWLTTAYMLTSTTVVPIAGKLADLLGRRNVYITGLVIFMIGSALCGMANGMTELIIFRGIQGLGGGIMMPMAMIIIGDMFTGKERAKWQGIFGALYGLASVIGPQVGGWIVDAVNWRWVFYINLPVGILATIFIAMGLKSHKQTGPIKIDIAGIFTMILGVVSLLLALTFGGKDYAWDSWQIIGLFALAVIGIVSFVIVETKAEEPILPMHFFKNRTFTILNAIGFFMSIGMFGAIMFVPFFMQGIVGVSAAESGTIMTPMMITMIVMSIIGGQLVLKVGVKPQIIAGMLIMAGGFWLLTTMDMHTTKLTATSYMMVIGLGMGLVMPTLTLALQESFPKKDLGVVTSSSQFFRQIGGTFGITILGSIMNNTSGTTLTNKLVPVLDTFPKEAGQMVTKFKDMIHTDPQGLYSMLFSPEALKQMPEAFANSIVPILKNSLVDSLHTVFLTGLVFIVVGAIFTIFLQKIKLSDRKKDAKEPAVEEKEKTVSYS				NA	NA	NA	NA	NA
AK009_04894	972	ccpA_2	COG1609	Catabolite control protein A	ATGAGTACGATTAAAGACGTTGCGAAATTAGCGGGAGTATCTGTTGCGACCGTTTCCAGAGTTTTAAATAAAAATGGATATGTTCACGAAGATACATTAAAAAAGGTAGAGCGTGCAATTGAGATGTTAGATTATAAGCCTAGTACAGTAGCGCGTTCACTGTATAATAAAAAGTCTCGTTTAATTGGCTTAGTTGTTCCAAATATCGTGAATCCGTTCTTTCCAGAAGTTGCACGTGCCGTAGAAGATGTAGCACATAAACAAGGTTACACAGTTGTCCTTTGTAACTCTGATGAAAGTTTAGAAAAAGAGAAACAATACATTGATGTACTTAGACAAAATAATGTAGATGGATTTATTGTAGCAACGAATCCACAAAATAGTGTTAATTACATGAATTTATCTGTCCCGGTTGTTGCGATTGACCGTATGTTTAATGAGCGTATTCCTACTGTATATGCAGATAACTATGCAGGAAGTCAGGCTGCGACAAAGTTGTTACTAGATAAAGGATGTAAACATATTGCACATATTCGCGGTCCACGTGATGTGAGTACTGCAAATGAACGTTTTGAAGGTTTTGTAGACGTTATTACGCAAAATAATCTTTCGTATATGATTGCAGAGAGTACGTTTGATCCAGCAAATAGTGAGCGTGTAGCGATGGAATTATTAGAAGAATACCCGCATATTGATGGTATTGTTGCTGGGAATGATTTAATTGCGATTGGTATTGTAAAGGCTGCACTTCAAAAGGGGATTGCCATTCCAGATGATTTACAAATTATTGGATTTGATGGAATTTCTTTAACAGAAATGATGTATCCATCTATTACAACAGTTGCACAACCGATATATGAAATGGGGAAAATTGCAACAGAGTTGTTGTTAGAGCAAATGGAAGGAAATACATTAGAAGAGAAACACTATCGTTTGCCGATTGAAATTATAGAACGAAATACAACGAAGTAA	MSTIKDVAKLAGVSVATVSRVLNKNGYVHEDTLKKVERAIEMLDYKPSTVARSLYNKKSRLIGLVVPNIVNPFFPEVARAVEDVAHKQGYTVVLCNSDESLEKEKQYIDVLRQNNVDGFIVATNPQNSVNYMNLSVPVVAIDRMFNERIPTVYADNYAGSQAATKLLLDKGCKHIAHIRGPRDVSTANERFEGFVDVITQNNLSYMIAESTFDPANSERVAMELLEEYPHIDGIVAGNDLIAIGIVKAALQKGIAIPDDLQIIGFDGISLTEMMYPSITTVAQPIYEMGKIATELLLEQMEGNTLEEKHYRLPIEIIERNTTK	PGPT0017992_15525	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
AK009_04895	897	rbsK	COG0524	Ribokinase	ATGCCAAATATTGCAGTAGTAGGAAGCATTTCAATGGACTTAGTGGCTGTTTCAAAAAAACGGCCGAAAGCAGGAGAAACAGTAATTGGTGAAGCGTTTCATACAATCCCAGGAGGGAAAGGGGCAAACCAAGCAGTTGCTGCAGCTAGGTTAGGAGCAAATGTAGCGATGGTTGGAGCGGTAGGAAATGATGATTATGGAACAGTAGTTAGAAAAAATTTAGAGAACGAACGCATTTTTATCGATTATGTGGTACCGGTTACAGATAGAACGACAGGAATTGCTCATATCGTTTTAGCAGAAGAAGATAACAGTATTGTTGTCGTACAAGGGGCAAATGCTCTTGTAAATAAGTCAGTTGTAGATCGCTCCAAAGACCTTCTTGTAAAAGCGGATATGGTTGTTCTTCAACTAGAAATTCCACTTGAAACAGTAAAATATGTATTGGCTATTTGTGAGGAACATAATATTCCTGTTATGTTGAATCCAGCGCCAGCACAAGTTTTATCAGAAGAAATTTTAGAAAAAGCAACTTATATTACGCCAAATGAACATGAGTGCCGCATTGTATTAGATGATTTTACATCACCAATTGAAGATTTATTGGCGAAGTATCCAAATAAATTATTGATGACAGAAGGTTCTAACGGTGTTCGTTTCCATAATGGCACAGAGATTGTACATGTTCCTAGCATTGCTGTTGATGTAGTGGATACAACTGGAGCTGGTGATACATTTAATGGTGCGTTAGCAGTTGCACTTTCTGAAGGAGAGACACTTCAAAAAGCAATTCGTTTCGCGAATATTGCCGGTGGTCTTTCTGTAACGAAACTTGGAGCACAGGGCGGTATGCCAACGAGAGATCGAGTACGTGAAGTGCAGGTGATTGTTGGATGA	MPNIAVVGSISMDLVAVSKKRPKAGETVIGEAFHTIPGGKGANQAVAAARLGANVAMVGAVGNDDYGTVVRKNLENERIFIDYVVPVTDRTTGIAHIVLAEEDNSIVVVQGANALVNKSVVDRSKDLLVKADMVVLQLEIPLETVKYVLAICEEHNIPVMLNPAPAQVLSEEILEKATYITPNEHECRIVLDDFTSPIEDLLAKYPNKLLMTEGSNGVRFHNGTEIVHVPSIAVDVVDTTGAGDTFNGALAVALSEGETLQKAIRFANIAGGLSVTKLGAQGGMPTRDRVREVQVIVG	PGPT0017405_3885	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
AK009_04896	396	rbsD	COG1869	D-ribose pyranase	ATGAAAAAGCATGGTGTATTAAACAGTGAAATCGCGGCAGTCCTTGCTTCACTTGGGCATACAGATACGGTTGTAATTGCTGATTGCGGGTTACCGATTCCGGATGGAGTAAAACGAATTGATTTAGCTGTTGAGATTGGAAAACCGAGTTTTTTAGAGGTGTTACAAGTTGTAGCTGATGATATGGCAATCGAAAAAGTGACGTTAGCAGAAGAAGTCATTATAAATAATGCGGAAGTAAATAAAGAGATCGAGCAAAAATTAATAGAGCCAGCATTTGAGTATGTATCTCATGAACAATTTAAAGAGCATACAAAGAAAGCGAAGGCGATTATTCGTACAGGCGAGGCTACGCCTTATGCAAATGTAATTTTACATGCAGGCGTGATTTTTTAA	MKKHGVLNSEIAAVLASLGHTDTVVIADCGLPIPDGVKRIDLAVEIGKPSFLEVLQVVADDMAIEKVTLAEEVIINNAEVNKEIEQKLIEPAFEYVSHEQFKEHTKKAKAIIRTGEATPYANVILHAGVIF	PGPT0016595_798	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
AK009_04897	1485	rbsA	COG1129	Ribose import ATP-binding protein RbsA	ATGCATATTGAAATGAAAAACATTTCAAAGGCGTTCAATGGCAATCCTGTTTTGAAGAATGCACAGTTTATGATTGAAACAGGAGAAGTCCATGCATTGATGGGGGAAAATGGAGCGGGTAAATCAACGCTCATGAAGATTTTAACAGGTGTATACAAAAAAGATGATGGGACAATCACGATTGATGGGCAAGAGCGCACCTTTAAAAATGCGAAAGAAGCTGAAGAGTACGGCATCGCATTTATACATCAAGAACTAAACATATTGCCGAATTTAACAGTAGCTGAAAATATGTTTCTTGGTAAAGAGTTAATGTATGGGAAAACAGGTATTTTACGCACTCGACAAATGAACGCGATTGCGCAGCAGCAACTAGCAGAGCTAGGATTGCATGTAAGAGGTGCTATGTTAGCAGAGGAACTATCGGTTGGACAACAGCAAATTATCGAAATTGCGAAAGCGTTAATGACAAACGCGAGCGTTATTATTATGGATGAACCTACTGCGGCACTGACGGATCGTGAAATCGAAACGCTCTTTATAGTAATCAATAAGTTACGTAAAGAAGGTGTTTCATTCGTGTACATTTCGCATCGTATGGAAGAGATTTTCTCGATATGTGATGCCATTACGATTTTGCGTGATGGAGAATACGTTGGAAAGAGATTAATTCCAGAAACATCATTTGATGAAGTAGTGAGTATGATGGTGGGGCGCAGCATTGGTGAACGTTACCCAGAGCGAAATAGTCAAATTGGTGATGTCATTTTTGAAATGCGTAACGGAACGAAGAAAGGGAAATTTGAAAATGTTTCGTTTCAAGTAAGGAAAGGTGAAATCCTTGGTGTAGCTGGTTTAATGGGAGCTGGTCGCACTGATATTATGAAAGCGATATTTGGTTATGAACCTTTAGATTCTGGACAAATTTTTATAAATGGACAAGAAGTAAAGATTGATAGTCCGATAGATGCAATTAGACAAAGAATTGCTTTCATTACAGAAGATAGAAAGTCTGAAGGATTAGTGTTAGATTTTTCAATTCGAGAAAATTTAGCTTTACCGAATTTAGAAAGTCTTTCAAAGGGAAGTGTTCTAAGCAACGAGCTAGAACAACAGTTTACAGAGGATATGATGAAGCTTCTTAATGTGAAAGCATCTAGCGGAGAGCAGGCAGTGAAATCTCTTTCTGGTGGAAATCAGCAAAAGATTGTAATCGCAAAATGGCTAGGCATTCATCCGCAATTACTCATTTTAGATGAGCCAACAAGAGGTGTCGATGTTGGAGCGAAAAAAGAAATTTACTCTATCATGAATAAGCTTACTGAGCAAGGCGATGCCGTTATTATGGTATCATCTGAGCTTCCGGAAGTTTTAGGAATGAGTGATCGAGTTCTTGTTATTCATGAAGGAAAAGTCGGCGGCATTTTAGGGAAAGATGAGGCATCACAAGAGTCTATTATGGCACTAGCTACAGGGGGAGAGTAA	MHIEMKNISKAFNGNPVLKNAQFMIETGEVHALMGENGAGKSTLMKILTGVYKKDDGTITIDGQERTFKNAKEAEEYGIAFIHQELNILPNLTVAENMFLGKELMYGKTGILRTRQMNAIAQQQLAELGLHVRGAMLAEELSVGQQQIIEIAKALMTNASVIIMDEPTAALTDREIETLFIVINKLRKEGVSFVYISHRMEEIFSICDAITILRDGEYVGKRLIPETSFDEVVSMMVGRSIGERYPERNSQIGDVIFEMRNGTKKGKFENVSFQVRKGEILGVAGLMGAGRTDIMKAIFGYEPLDSGQIFINGQEVKIDSPIDAIRQRIAFITEDRKSEGLVLDFSIRENLALPNLESLSKGSVLSNELEQQFTEDMMKLLNVKASSGEQAVKSLSGGNQQKIVIAKWLGIHPQLLILDEPTRGVDVGAKKEIYSIMNKLTEQGDAVIMVSSELPEVLGMSDRVLVIHEGKVGGILGKDEASQESIMALATGGE	PGPT0016600_4612	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
AK009_04898	936	rbsC	COG1172	Ribose import permease protein RbsC	ATGGCTAAGAAGGGGAATGTATTACAACAACTCGGTTCTTTAATCGGTTTAGTATTAATTATCGTCGTAATTACAGTTTTAAATCCAGCGTTCATTGAAATTCCAAATTTATTTAATATACTGCGTCAAGTATCGATTAATGCGCTTATTGCATTCGGAATGACCTTCGTAATTTTAACAGGGGGTATTGACTTATCGGTAGGTTCTATTTTAGCATTATCAAGTGCACTTGTTGCTGGAATGATGGCAAGTGGCATGGATCCGTTCCTTGCAATGGCAGTTGGACTATTAGCAGGTCTTGTAATGGGGGTTGTAAACGGTATCATCATTGCGAAAGGAAAAGTAGCTCCATTTATTGCAACTTTAGCAACAATGACTATTTTTCGTGGGTTGACGCTTGTTTATATGGACGGACGTCCGATCACTGGTCTTGGTGATCATTTAATGTTCCAAATGTTTGGCCGCGGTTATTTTCTTGGTATTCCGGTACCAGCTGTTACAATGATGATCGCTTTCGCAGTACTGTACTTCATTTTGAAGAAAACGACATTTGGCCGTCGTACATTTGCAATTGGTGGAAATGAAGAAGCAGCAGCACTATCAGGTATTAATGTTACGAGAATTAAAGTAATGATTTACGGTCTTTCCGGAATTTTGGCAGCGCTTGCAGGTATTGTCTTAACATCACGACTAGATTCTGCACAGCCGACTGCAGGTACTTCTTACGAATTAGATGCAATTGCAGCAGTTGTATTAGGTGGAACAAGTCTTTCTGGGGGAAGAGGATGGATTGTTGGTACATTCATCGGTGTACTAATTATCGGTGTACTAAATAACGGTTTAAATTTATTAGGTGTATCTTCTTTCTTCCAACAAGTTGTAAAAGGACTTGTAATCTTACTAGCTGTATTAATTGATCGCCGAAAAGAAGCGTAA	MAKKGNVLQQLGSLIGLVLIIVVITVLNPAFIEIPNLFNILRQVSINALIAFGMTFVILTGGIDLSVGSILALSSALVAGMMASGMDPFLAMAVGLLAGLVMGVVNGIIIAKGKVAPFIATLATMTIFRGLTLVYMDGRPITGLGDHLMFQMFGRGYFLGIPVPAVTMMIAFAVLYFILKKTTFGRRTFAIGGNEEAAALSGINVTRIKVMIYGLSGILAALAGIVLTSRLDSAQPTAGTSYELDAIAAVVLGGTSLSGGRGWIVGTFIGVLIIGVLNNGLNLLGVSSFFQQVVKGLVILLAVLIDRRKEA	PGPT0016590_6157	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
AK009_04899	927	rbsB	COG1879	Ribose import binding protein RbsB	ATGAAGAAATGGTTACTTATACTCGTTGCATGTATTATGGTCATTACTGCTGGTTGTTCAATGGAACCACCAGAATGGGCAAAGGATTCTAGCGATAAAGGTCGAAATAAAACTATTAAAGTTGGATTCTCTGTTTCAACTTTAAATAATCCCTTCTTTGTAACTTTGAAAAAGGGTGCAGAAAAGAAAGCGAAAGATAGCGGCATCGAATTGATTGCTGTTGATGCGCAAAATGATGCAGCGAAGCAAACGAACGATGTTGAAGATTTAATTCAAAAGGGTGTCGATGTAGTTGTTATTAATCCGACCGATTCAGATGCTGTTTCTTCAGCGGTAAGTGCGGCAAATGCAGCAAATGTTCCTGTTATTACAGTAGACCGCGTTGCGAATTCAGGTAAGGTTGTTTCTCACATTGCATCTAATAATATCGAAGGTGGTCAAATGGCTAGTGATTACATTCGTGAATTAGTCGGCGAAGGAGCAAACGTTGCTGAGTTAGAAGGAATCCCTGGATCGTCTGCTGCTCGTGAACGTGGGAAAGGATTCCATAACGTAGCCGATAAGTCTTTAAAAGTAGTTGCCAAACAAGCGGCTGATTTTGATAGAGCGAAAGGATTATCTGTTATGGAAAACATTTTGCAAGCAAATAGCGATATTAAAGCCGTGTTTGCGCATAACGACGAGATGGCATTAGGTGCACTTGAAGCATTGAAGTCTGCTGGAAAAACAGATGTAGTCGTTGTTGGATTTGATGCAACTGAAGATGCTGTGAAAGCGGTTAACGATGGGCGTATGGCTGCAACAGTCGCTCAAAAACCGGAATTAATCGGAGAGAAGGCGATGCAAACAGCAAAAGAGATAACACAAGGTAAAAAAGTGGACAAATCTATTCCGATTGAATTAGAGCTTATTAAGAAAAATAAATAA	MKKWLLILVACIMVITAGCSMEPPEWAKDSSDKGRNKTIKVGFSVSTLNNPFFVTLKKGAEKKAKDSGIELIAVDAQNDAAKQTNDVEDLIQKGVDVVVINPTDSDAVSSAVSAANAANVPVITVDRVANSGKVVSHIASNNIEGGQMASDYIRELVGEGANVAELEGIPGSSAARERGKGFHNVADKSLKVVAKQAADFDRAKGLSVMENILQANSDIKAVFAHNDEMALGALEALKSAGKTDVVVVGFDATEDAVKAVNDGRMAATVAQKPELIGEKAMQTAKEITQGKKVDKSIPIELELIKKNK	PGPT0015740_5440	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
AK009_04900	648	tal_2	COG0176	Transaldolase	ATGAAATTCTTTATTGATACAGCAAACATTAACGAAATTAAAGAGGCAAATGCATTAGGCGTAGTAGCTGGAGTAACGACAAACCCATCACTTGTAGCAAAAGAAGGCGTAGATTTCCATGAGCGTATTCGTGAAATTTGCAGCTTTATAGAAGGACCTGTAAGTGCAGAAGTAATTAGCTTAGAAGCTGATAAAATGATTGAAGAAGGAAAAGAATTAGCGAAGATTGCTCCAAACGTTGTTGTAAAAGTTCCAATGACAACAGAAGGTTTAAAAGCAGTAAAAGCGTTCTCTGATTTAGGAATTCGTACAAACGTTACATTAGTATTCTCAGCAGTTCAAGCATTACTTGCAGCTCGCGCTGGTGCAACATATGTTTCACCATTCTTAGGTCGTTTAGATGATATCGGTCATAACGGTATGGATTTAATTCGTCAAATCGCAGAAATCTTTGCAATTCATGGCATCGAAACAGAAATCATTGCAGCATCTGTACGTCACAGCGTTCACGTAACTGATGCAGCATTAAACGGTTCACATATTGCAACAATCCCAGCAAACGTAATTGCTTCATTAGTGAAGCACCCATTAACAGATCAAGGAATTGAGAAATTCTTAGCTGATTGGGAAAAAACACAAGAGAAATAA	MKFFIDTANINEIKEANALGVVAGVTTNPSLVAKEGVDFHERIREICSFIEGPVSAEVISLEADKMIEEGKELAKIAPNVVVKVPMTTEGLKAVKAFSDLGIRTNVTLVFSAVQALLAARAGATYVSPFLGRLDDIGHNGMDLIRQIAEIFAIHGIETEIIAASVRHSVHVTDAALNGSHIATIPANVIASLVKHPLTDQGIEKFLADWEKTQEK	PGPT0017375_5335	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
AK009_04901	2400	ina_3		Immune inhibitor A	ATGAGAAGAAAAGCCCCATTTAAAGTGTTGTCATCATTAGCAATTGCAGCAATTATCGGATGCACATCTGTAATGAGTGCGCCGTTAGCATATGCAGAAACGCCAGCAAAAGAGAAAGAGAATGTGTCTACAACGCCAATTGATTACAATTTAATTCAAGAAGATCGTTTAGCGGAAGCTTTGAAAGAAAGAGGAACAATTAATCCAGCATCTTCTAAAGAAGAGACGAAAAAGGCTGTCGAGCAATATATTGAAAAGAAACAAGGAGATCAGGCGAACAAAGAAATTCTTCCAGATGCTCCCTCACAAGAAACGTCTGATTTCACAAAAAAAGTAAAAGAGAAAAAGATGGAAGAAAAGGAAAATGTAAAAAAGACTGAAAAAAATATTAATCTTGAGCAAAAGCCAGAACCAAATAAAAAGCAATTGAATGGGCAAGTTCCAACTTCAAAAGCAAAGCAAGCTCCATATAAAGGATCTGTTCGATCAGATAAAGTATTAGTGCTACTCGTTGAATTTAGTGATTATAAACATAATAATATTGATCAAACACCAGGTTATATGTATTCGAAAGACTTTAGTAGAGAACATTATCAAAAGATGTTGTTTGGTAAGGAGCCTTATACATTATTTGATGGTTCAAAAGTAAAAACATTTAAACAATACTATGAAGAGCAGTCTGGTGGTAGTTATACGACAGACGGATATGTAACGGAGTGGCTAACAGTTCCAGGAAAAGCATCTGATTATGGAGCTGATGGTAGCAGTGGTCACGATAATAAAGGTCCGAAAGGTGCACGTGATTTAGTGAAAGAAGCTTTGCATGCAGCTGCTGAGAAAGGACTAGATTTATCTCAGTTTGATCAGTTTGATAGATATGATACAAACGGGGATGGGAATCAAAACGAACCTGACGGTGTAATTGATCATTTAATGGTAATCCATGCTGGTGTTGGTCAAGAAGCTGGTGGCGGTAAATTAGGTGATGATGCGATCTGGTCACATCGTTCAAAATTAGCAGTAGATCCAGTAGCGATTGAAGGTACAAAATCAAAGGTAGATTACTTTGGTGGAAAAGTAGCAGCACATGATTACACAATTGAACCAGAAGATGGAGCTGTAGGTGTGTTTGCGCATGAATTTGGACATGATCTTGGATTACCAGATGAATATGACACGAAATATACTGGAAATGGTTCACCTGTCGAAGCTTGGTCATTAATGAGTGGAGGTAGTTGGACAGGAAAAATCGCAGGAACGGAGCCGACAAGTTTTTCACCACAAAATAAAGACTTCTTACAAAAGAATATGGGTGGCAACTGGGCAAAAATATTAGAAGTAGATTACGATAAAATTAAGAGTGGTGTGGGAGTTCCTACCTATATTGATCAAAGTGTTACGAAATCAAATCGTCCAGGCGTTGTACGTGTTAACTTACCAGGTAAAAGTGTTGAAACGATTAAACCGGAGTTTGGAAAGCATGCATATTATAGTACAAGAGGCGATGATATGCATACAACGTTAGAGACACCTTTCTTTGATTTAACAAAAGGAACAAATGCAAAATTCGATTATAAAGCAAATTATGAGTTAGAAGCAGAGTGCGATTTCGTCGAAGTACATGCAGTAACAGAAGATGGAACGAAGACGTTAATTGATAGACTTGGAGAAAAAGTAGTCCAAGGAGATAAAGATACAACAGATGGGAAATGGATTGATAAATCATATGATTTAAGTCAATTTAAAGGCAAAAAAGTGAAACTACAATTCGACTATATTACAGATCCGGCTGTAACATATAAAGGTTTTGCGATGGACGATGTAAATGTAACTGTTGATGGACAAGTTGTATTTTCTGATGATGCAGAAGGACAGTCTAAAATGAATTTAAATGGTTTTGTTGTTTCTGATGGGACAGAGAAGAAAGCTCACTATTACTACTTAGAATGGAGAAACTATGCGGGATCAGATAATGGATTAAAAGCAGGAAAAGGTCCAGTGTATAATACAGGTCTTGTCGTTTGGTATGCAGATGATAGCTTTAAAGATAACTGGGTGGGGGTGCATCCAGGTGAAGGATTCCTTGGGGTTGTAGATTCTCATCCAGAAGCACTTGTTGGTAATCTGAACGGGAAACCAGCGTACGGTAATACGGGCATGCAAATTGCAGACGCTGCATTTTCATTTGATAAAACACCAGCATGGAGTGTAAATTCATTAACACGTGGCCAGTTTAACTATTCTGGATTACAAGGTGTTACAACTTTTGATGATTCAAAAGTATATAGTAACAAGCAAATTGTAGATGCAGGAAGAAAAGTTCCAAACCTTGGACTTAAATTCCAAGTTGTTGGACAGGCAGAAGATAAATCGGCAGGCGCTGTTTGGATTAAACGTTAA	MRRKAPFKVLSSLAIAAIIGCTSVMSAPLAYAETPAKEKENVSTTPIDYNLIQEDRLAEALKERGTINPASSKEETKKAVEQYIEKKQGDQANKEILPDAPSQETSDFTKKVKEKKMEEKENVKKTEKNINLEQKPEPNKKQLNGQVPTSKAKQAPYKGSVRSDKVLVLLVEFSDYKHNNIDQTPGYMYSKDFSREHYQKMLFGKEPYTLFDGSKVKTFKQYYEEQSGGSYTTDGYVTEWLTVPGKASDYGADGSSGHDNKGPKGARDLVKEALHAAAEKGLDLSQFDQFDRYDTNGDGNQNEPDGVIDHLMVIHAGVGQEAGGGKLGDDAIWSHRSKLAVDPVAIEGTKSKVDYFGGKVAAHDYTIEPEDGAVGVFAHEFGHDLGLPDEYDTKYTGNGSPVEAWSLMSGGSWTGKIAGTEPTSFSPQNKDFLQKNMGGNWAKILEVDYDKIKSGVGVPTYIDQSVTKSNRPGVVRVNLPGKSVETIKPEFGKHAYYSTRGDDMHTTLETPFFDLTKGTNAKFDYKANYELEAECDFVEVHAVTEDGTKTLIDRLGEKVVQGDKDTTDGKWIDKSYDLSQFKGKKVKLQFDYITDPAVTYKGFAMDDVNVTVDGQVVFSDDAEGQSKMNLNGFVVSDGTEKKAHYYYLEWRNYAGSDNGLKAGKGPVYNTGLVVWYADDSFKDNWVGVHPGEGFLGVVDSHPEALVGNLNGKPAYGNTGMQIADAAFSFDKTPAWSVNSLTRGQFNYSGLQGVTTFDDSKVYSNKQIVDAGRKVPNLGLKFQVVGQAEDKSAGAVWIKR				NA	NA	NA	NA	NA
AK009_04902	342			hypothetical protein	ATGAAAGAAGTTATTGGATGTCCACAGTGTGAAGGGGATATTACTGTACAACATATTATTGATCTCCCACATCCTTTTTCATTAAGGTGTCCACATTGTAAGGTGAAGTTGAAAGAAATAAGGGTAACGTCATGTTTAATATTAGCGATGATTTGTATAATTCCATTGTTTATTATTATTGGAGAGAGTATTAAGGAATTACTAGTAAAATATTTTTCTATTGTAGACAATGTACCAACTGTACTTATTTTCTTTTTATTTTGTTATCCATTGTATTATTTCTATGAAAAATATAATGCTATATTGTTTATTAAATATGGTTTGCTGAAAGTTAAAAGTTGA	MKEVIGCPQCEGDITVQHIIDLPHPFSLRCPHCKVKLKEIRVTSCLILAMICIIPLFIIIGESIKELLVKYFSIVDNVPTVLIFFLFCYPLYYFYEKYNAILFIKYGLLKVKS				NA	NA	NA	NA	NA
AK009_04903	330			hypothetical protein	ATGCTTTGGAAAATATATTTAGTTATTGTAGCAATGTTAGCTATTATTTCGTTAGTAAGGGGTATGTTTCAAACACCAATTCAAAAGTTTGACTTTGTAGTATCTATTATTACGTGGATAGGGCTCTTTGGTTTTGTATTTGATATACAAATATTAACCTCGATTGTTTGGAAATGTATCTTCTTGTTTAGCGTCATTTGGACTTTAACTGCAGTTTTTGTTTTTCGTTTATATGAAGAGCGAGATGAGCCATTACCTTTTATATTTAAATTAATTGGAATTATTCCAACGCTTCCATTATATTACGGATTATATCAATATGCATTTTAA	MLWKIYLVIVAMLAIISLVRGMFQTPIQKFDFVVSIITWIGLFGFVFDIQILTSIVWKCIFLFSVIWTLTAVFVFRLYEERDEPLPFIFKLIGIIPTLPLYYGLYQYAF				NA	NA	NA	NA	NA
AK009_04904	1155	tetA_2		Tetracycline resistance protein, class C	TTGAAATATTTTATTTACTTTATCGTTATCGTGGCATTTTTAGATACATTTTCACAATTACCTATTATGAGTACTTTCGCTCAAAGCCTTGGAGGAACTCCTCTTATTATCGGGCTAGTTGTCGGTATGTACTCATTCGCTAATATGATTGGTAATATTATTGCTGGAGCCGCTGTCGATAAATTTGGTGCAAAAAAAATCCTTTATATAAGCATGGGAATTACGAGTTTCATAGTCTTGTTATACACCGTTGTTCAAAGTGGTGAACAACTATTAGTTGTGCGCTTTATGCATGGATTTAGTGATGGCTTTTTAATTCCTGCTGCCTTTACATTTTTATCAAAACAAACAAATGCAAAAAGACAAGGAAAAGCAATGGCTCTATCTGGTGCTGCTGTTGGAACAGCGGCAATCGTAGGACCTGCTTTCAGCGGTATTATGAAAGCAACAGCTGGCGTAGAATGGGTCTTCATTACTATTTCTATTTTAATGGCTCTTGGTACAATCGTATCTCTATTCTTCTTACCAAATAACGTATCAAGAAAAGATACATCAAGAACGCAAATGATGAACAAAGAAGATATGATTGAACTGTTAAAATCAGAACCGTTATTACAAGCATATATTGGTGCTTTCACATTAATGTTTTCACAAGGAATTGTCACTTATATGTTACCAGTAAAAGTTGAGGCATTAGCGCTTAAAGCATCTACAACAGGCATGATGTTAAGTGTATTTGGTATTACTGCTATCCTCTTCTTCTTGCTTCCAACAAATCGTATTTACGATCGATTTAATCGTTCGAAACTAATGCTAATCGGAATTGCAGTTATGGCATTCGCATTATCTTTACTCGGATTATTTGCTACAAAAGGTATGCTCTTTATTGTAATGATGATTTATGGAATTGGATTCGCAATCCTCTTTCCGTCTATTAACGCTTTACTCGTTGAAAATACTACAGACGATAATCGCGGAAAGGCATTCGGATTATTTTATGCCTTCTTCTCATTAGGAGTTGTTGCTGGCTCCTTTACAGTCGGCGCAATCGGAGCATCACCTAGCATCAGCTTCATTATCGGGACAGCATTTTTATTAACATTTGCTGGGATGATTTATGTAAGAAGCAAAGTAAAAAAGACAATGATGGGATAA	MKYFIYFIVIVAFLDTFSQLPIMSTFAQSLGGTPLIIGLVVGMYSFANMIGNIIAGAAVDKFGAKKILYISMGITSFIVLLYTVVQSGEQLLVVRFMHGFSDGFLIPAAFTFLSKQTNAKRQGKAMALSGAAVGTAAIVGPAFSGIMKATAGVEWVFITISILMALGTIVSLFFLPNNVSRKDTSRTQMMNKEDMIELLKSEPLLQAYIGAFTLMFSQGIVTYMLPVKVEALALKASTTGMMLSVFGITAILFFLLPTNRIYDRFNRSKLMLIGIAVMAFALSLLGLFATKGMLFIVMMIYGIGFAILFPSINALLVENTTDDNRGKAFGLFYAFFSLGVVAGSFTVGAIGASPSISFIIGTAFLLTFAGMIYVRSKVKKTMMG	PGPT0003185_869	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
AK009_04905	1053	gutB	COG1063	Sorbitol dehydrogenase	ATGAAAGCACTACTTTGGCATAATCAACGTGATGTACGAGTAGAAGAAGTACCAGAACCAACAGTAAAACCAGGAACAGTGAAAATCAAAGTTAAATGGTGTGGTATTTGTGGGACAGACTTGCATGAATATTTAGCAGGGCCTATTTTTATTCCAACAGAAGAACATCCATTAACACATGTGAAAGCACCTGTTATTTTAGGTCATGAGTTTAGTGGTGAGGTAATAGAGATTGGTGAAGGAGTTACATCTCATAAAGTGGGAGACCGTGTTGTTGTAGAACCAATTTATTCTTGTGGTAAATGTGAAGCTTGTAAACATGGACATTACAATGTTTGTGAACAACTTGTTTTCCACGGTCTTGGCGGAGAAGGCGGCGGTTTCTCTGAATATACAGTAGTACCAGAAGATATGGTTCATCACATTCCAGATGAAATGACGTATGAACAAGGTGCGCTTGTAGAACCAGCAGCAGTAGCAGTTCATGCAGTACGTCAAAGTAAATTAAAAGAAGGGGAAGCTGTAGCAGTATTTGGTTGCGGTCCAATTGGACTTCTTGTTATCCAAGCAGCTAAAGCAGCAGGAGCAACTCCTGTTATTGCAGTTGAGCTTTCTAAAGAACGTCAAGAGTTAGCGAAATTAGCAGGTGCAGATTATGTATTAAATCCAGCAACTCAAGATGTGCTAGCTGAAATTCGTAACTTAACAAATGGTTTAGGTGTAAATGTTAGCTTTGAAGTAACAGGTGTTGAAGTTGTATTACGCCAAGCGATTGAAAGTACAAGCTTCGAAGGACAAACTGTAATTGTTAGTGTATGGGAAAAAGACGCAACAATTACTCCGAATAATTTAGTATTAAAAGAAAAAGAAGTTATTGGTATTTTAGGATACCGTCACATCTTCCCAGCTGTTATTAAATTAATTAGCTCTGGTCAAATTCAAGCAGAGAAATTAATTACGAAAAAAATTACAGTGGATCAAGTTGTTGAAGAAGGATTTGAAGCACTTGTAAAAGATAAAACACAAGTGAAAATTCTTGTTTCACCTAAATAA	MKALLWHNQRDVRVEEVPEPTVKPGTVKIKVKWCGICGTDLHEYLAGPIFIPTEEHPLTHVKAPVILGHEFSGEVIEIGEGVTSHKVGDRVVVEPIYSCGKCEACKHGHYNVCEQLVFHGLGGEGGGFSEYTVVPEDMVHHIPDEMTYEQGALVEPAAVAVHAVRQSKLKEGEAVAVFGCGPIGLLVIQAAKAAGATPVIAVELSKERQELAKLAGADYVLNPATQDVLAEIRNLTNGLGVNVSFEVTGVEVVLRQAIESTSFEGQTVIVSVWEKDATITPNNLVLKEKEVIGILGYRHIFPAVIKLISSGQIQAEKLITKKITVDQVVEEGFEALVKDKTQVKILVSPK	PGPT0008200_573	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
AK009_04906	345			hypothetical protein	ATGCTTTCATTTATATTGACATTGAAACGGATGCTAAAAGCTTGTTTGCGAGCATGGAAAGATAAAGAATTTCAAGTGTTATTCGTATTAACAATTTTGACATTAATATCTGGTACAATCTTTTATAGTACAGTGGAGGGGTTACGTCCTCTGGATGCTTTATATTTTAGCGTTGTGACGCTGACTACTGTCGGTGATGGGCAATTTAGTCCCCAAACTGACTTCGGAAAGATATTTACGATATTATACATATTTATAGGGATCGGATTAGTGTTTGGATTTATACATAAGTTGGCAGTTAATGTACAATTGCCAAGTATATTATCGAATAGAAAAAAAGAGTAA	MLSFILTLKRMLKACLRAWKDKEFQVLFVLTILTLISGTIFYSTVEGLRPLDALYFSVVTLTTVGDGQFSPQTDFGKIFTILYIFIGIGLVFGFIHKLAVNVQLPSILSNRKKE	PGPT0002715_5210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK009_04907	852	plc		Phospholipase C	ATGAAAAAGAAAGTACTTGCTTTAGCGGCAGCTATTACATTAGTTGCTCCATTACAAAGTGTTGCATTTGCTCATGAAAATGATGGGGGACAGAGATTTGGAGTTATTCCGCGCTGGTCTGCTGAAGATAAACATAAAGAAGGCGTGAATTCTCATTTATGGATTGTAAATCGTGCAATTGATATTATGTCTCGTAATACAACACTTGTAAAACAAGATCGAGTTGCACTATTAAATGAATGGCGTACTGAGTTAGAGAACGGTATTTATGCTGCTGACTATGAAAATCCTTATTATGATAATAGCACATTTGCTTCACATTTCTATGACCCTGACAATGGGAAAACTTATATTCCGTATGCAAAGCAGGCAAAGGAAACTGGAGCTAAATATTTTAAATTAGCTGGTGAGTCTTACAAAAATAAAGATATGAAACAAGCATTCTTCTATTTAGGATTATCTCTTCATTATTTAGGTGATGTAAACCAACCGATGCATGCGGCAAACTTTACGAATCTTTCGTATCCACAAGGATTCCATTCTAAATATGAAAACTTTGTAGATACGATAAAAGATAATTATAAAGTAACGGATGGAAATGGGTATTGGAACTGGAAAGGTACGAATCCAGAAGATTGGATTCATGGAGCGGCAGTAGTTGCGAAGCAAGATTATGCTGGCATTGTAAATGATAATACGAAAGATTGGTTCGTAAGAGCAGCTGTATCACAAGAATATGCAGATAAATGGCGCGCTGAAGTTACACCAATGACAGGTAAGCGTTTAATGGATGCACAACGTGTTACTGCTGGATATATTCAGCTTTGGTTTGATACGTACGGAAATCGTTAA	MKKKVLALAAAITLVAPLQSVAFAHENDGGQRFGVIPRWSAEDKHKEGVNSHLWIVNRAIDIMSRNTTLVKQDRVALLNEWRTELENGIYAADYENPYYDNSTFASHFYDPDNGKTYIPYAKQAKETGAKYFKLAGESYKNKDMKQAFFYLGLSLHYLGDVNQPMHAANFTNLSYPQGFHSKYENFVDTIKDNYKVTDGNGYWNWKGTNPEDWIHGAAVVAKQDYAGIVNDNTKDWFVRAAVSQEYADKWRAEVTPMTGKRLMDAQRVTAGYIQLWFDTYGNR	PGPT0023510_2358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0023510-plc-K01114	NA	NA
AK009_04908	1002	sph		Sphingomyelinase C	GTGAAAGGTAAATTGCTAAAAGGTGTACTTAGCTTAGGTGTTGGTTTAGGAGCTTTATATAGCGGAACGTCAGCTCAAGCAGAAGCATCTACAAATCAAAATGATACATTAAAAGTGATGACGCATAATGTATATATGCTATCAACAAACTTATATCCAAACTGGGGACAAACTGAGCGTGCTGATTTAATTGGGGCGGCAGATTATATAAAGAATCAAGATGTTGTTATATTAAATGAAGTGTTTGATAATAGCGCATCAGATCGTTTATTAGGTAATTTGAAGAAAGAATATCCAAATCAAACAGCAGTATTAGGTCGTAGTAGTGGAAGCGAATGGGATAAAAAGTTAGGGAACTATTCATCTTCAACTCCTGAAGATGGTGGCGTTGCGATTGTCAGCAAATGGCCAATCGCTGAAAAGATTCAATATGTATTTGCAAAAGGATGCGGGCCAGATAATTTATCGAATAAAGGATTTGTATATACGAAAATTAAGAAAAATGATCGTTTCATTCACGTAATTGGGACGCATTTGCAGGCTGAAGATAGTATGTGCGGAAAAACTTCACCTGCATCTGTACGTACGAACCAATTAAAAGAAATTCAAGATTTTATTAAAAATAAAAATATACCAAATAATGAGTATGTGTTAATTGGTGGTGATATGAACGTAAATAAAATAAATGCAGAGAACAAGAATGATTCAGAGTATACATCTATGTTTAAAACATTGAACGCTTCTGTACCATCTTATACTGGACATACAGCGACTTGGGATGCAACGACAAACAGTATTGCAAAATATAATTTCCCTGATAGTCCTGCCGAGTATTTAGATTATATTATTGCAAGCAAAGACCATGCGAACCCATCGTATATAGAGAATAAGGTGTTACAGCCGAAATCTCCACAATGGACTGTTACATCATGGTTCCAAAAATATACGTATAATGATTACTCTGATCATTATCCAGTAGAGGCGACTATTTCTATGAAGTAG	MKGKLLKGVLSLGVGLGALYSGTSAQAEASTNQNDTLKVMTHNVYMLSTNLYPNWGQTERADLIGAADYIKNQDVVILNEVFDNSASDRLLGNLKKEYPNQTAVLGRSSGSEWDKKLGNYSSSTPEDGGVAIVSKWPIAEKIQYVFAKGCGPDNLSNKGFVYTKIKKNDRFIHVIGTHLQAEDSMCGKTSPASVRTNQLKEIQDFIKNKNIPNNEYVLIGGDMNVNKINAENKNDSEYTSMFKTLNASVPSYTGHTATWDATTNSIAKYNFPDSPAEYLDYIIASKDHANPSYIENKVLQPKSPQWTVTSWFQKYTYNDYSDHYPVEATISMK	PGPT0023510_2308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0023510-plc-K01114	NA	NA
AK009_04909	1173			hypothetical protein	GTGGATCGAGGAATTTTTAAAGAAGTTCCATTACCGTGTGCATTTTTGGATGAAGTGGCTTTAGATAGAAATATTCAATCAATTATAGAGTTAAGTGGAAATAAGAAGATTCGTATAGCGAGTAAATCGTTACGTTCTGTTCCGATTATGCAAAAGATTTTAGCTGCAAATGATCGATTTCAAGGTATTATGTGCTTTTCACCTAGAGAGACTTTATTTTTAATAGAACAAGGATTTAATGATTTATTGCTTGGATATCCTGCTTATGATGAAAGAGCTTTGTATGAAATTAGTTTGCTAACAAAGAAAGGTTTCATTATAACTTGTATGGTGGATTGTGAAGAGCATATTGTGTATTTAGAAAAAATTGCTGAGAAATCTAAAGGATGTTTTCGTGTTTGTTTGGATATTGATATGAGTAGTCGTTTCTTTCAATTTCATTTTGGTGTACAAAGATCCCCAGTAAAAAATGTGCAGGATGCGTTGAAAGTAGTAGAAAAGGTGAGAAGGTCATCATATTTAATGTTAGATGGTGTGATGGGTTATGAAGCTCAAATTGCTGGGGTGGGAGACCATATACCGAATCAATGGCTGAAAAGTAAAGTGATTTCGTATTTAAAGCAGAAATCAGTGCTAGAAGTTAAAGAAAGAAGAGAATATATTGTAAAAGCAATACAAAAACTTGGTATTGAGCTAAGGTTTGTAAATGGAGGCGGAACAGGAAGCATAAAAACAACTGAGAAAGATAATTCAGTTTCAGAGATTACAATAGGTTCTGCTTTTTATTCTCCGAAGCTGTTTGATTATTATAAAGAGGTGAAATTTCATCCAGCGGTCGGATTTGCCTTACCAGTTGTGCGTAAACCAGTCCCGTTTATTTATACTTGCCTAGGTGGTGGATATATTGCTTCAGGAGCAGTTGGAAAAGATAAAGAGCCTGAAGTTTGGAGACCAAAGGGTGCAAAACTATTAGCTTTAGAAGGTGCTGGTGAGGTACAAACGCCAATATTTTATAACGGCGAGGAAAGAGTGGACATAGGAGAGTCCATTTTGTTTCGTCATAGTAAGGCTGGTGAATTATGTGAACGCTTTCCTTTTTTGTATCGTGTTAAACAAGGAGAGATTGTTGGGGAGTATTCAACATATCGGGGGGATGGCCAATGCTTTCTATAA	MDRGIFKEVPLPCAFLDEVALDRNIQSIIELSGNKKIRIASKSLRSVPIMQKILAANDRFQGIMCFSPRETLFLIEQGFNDLLLGYPAYDERALYEISLLTKKGFIITCMVDCEEHIVYLEKIAEKSKGCFRVCLDIDMSSRFFQFHFGVQRSPVKNVQDALKVVEKVRRSSYLMLDGVMGYEAQIAGVGDHIPNQWLKSKVISYLKQKSVLEVKERREYIVKAIQKLGIELRFVNGGGTGSIKTTEKDNSVSEITIGSAFYSPKLFDYYKEVKFHPAVGFALPVVRKPVPFIYTCLGGGYIASGAVGKDKEPEVWRPKGAKLLALEGAGEVQTPIFYNGEERVDIGESILFRHSKAGELCERFPFLYRVKQGEIVGEYSTYRGDGQCFL				NA	NA	NA	NA	NA
AK009_04910	1305		COG0277	L-gulono-1,4-lactone dehydrogenase	ATGCTTTCTATAAAGGGACAAAGGTGGAGGAATTGGACAGGGAATGTAGAAGGGACGCCGCATTATACGATGTATCCAGAAAGTATACAAGATGTAGTAGAAGTAGTGGGGGTTGCACGAAAAAAGGGGCAGAAAATTCGTGTTGTTGGTTCAGGACACTCGTTTACACCCCTTGTGCAAACGGAAGAAGTTTTAGTTTCTTTAGATGAATTGAAGGGCATTGTGAATATTGATGAAGAGAAGATGGTCGCTGAAGTGTGGGCAGGAACAAAGTTATATGATTTAGGGAAGTTACTTGAGGAAAAAGGTTATGCGCAAGAAAATTTAGGAGATATTGATTCGCAATCTATTGCAGGAGCGATTAGTACGGGGACTCATGGAACGGGTATTACCTTTGGGAGCTTATCAACACAAGTTATAGAGATTACGGCAGTTTTATCTAATGGTGAGAGTATAGTTTGTTCGGAAGCTGAGAACGTAGAATATTGGAGAGCGTTTCAGTTGTCACTTGGAATGTTAGGTATCATTGTAAAGATAAAATTGAAGGTTATTCCAGCGTATTCACTCGTTTATGAAAGTGAAAAACAGTCATTATCTACTGTAATGAACAAACTAGAAGAGTATAAGAAGCATCGTCACTTTGAATTTTTCGTTTTTCCTTATTCTGATGAAGTACAAGTAAAACTTACGAACGAAACAACGAATACAGGCAGTGATTTGAAATGGCATAAACTAAAGGTGGAGTTACTTGAAAATAGGATGTTCTCTTTACTATCTAAAGGGTGTAAATGGTTTCCTTCTATAAGTAAAGGAGTGAGTCGATTATCAGCTAAGGCTGTACCAAACACAAAAATAATTGGCCCGAGCTATGAAGTATTTGCTACATCACGTACGGTACCATTTTATGAAATGGAGTATAGCATTCCTTCAAAGTATATGAGGACTGTGGTAGAAGAAATCTCAAATCTTATTGAAAAGAAAAAGTATAAGGTGCACTTCCCGATCGAATGCCGCTATGTGAAAGGTGATGATATATGGCTTAGTCCAGCCTATGGAAGAGATTCAGCGTATATCGCTGTTCATATGTATAAAGGTATGAAATATGCTGCTTACTTTGGCGAAGTGGAAAAAATTTTTATGAAGTATGAAGGGCGTCCGCATTGGGGGAAAATGCATACATTATCGTATGAGCAATTACAAGATATATATCCAGAGTTTCATTCGTTTTTACAGGCGAGGAAGTCTCTAGATGAACTTGGAATGTTTTTTAATCCTTATGCAGAAAAGTTATTTATCCCGCATTAA	MLSIKGQRWRNWTGNVEGTPHYTMYPESIQDVVEVVGVARKKGQKIRVVGSGHSFTPLVQTEEVLVSLDELKGIVNIDEEKMVAEVWAGTKLYDLGKLLEEKGYAQENLGDIDSQSIAGAISTGTHGTGITFGSLSTQVIEITAVLSNGESIVCSEAENVEYWRAFQLSLGMLGIIVKIKLKVIPAYSLVYESEKQSLSTVMNKLEEYKKHRHFEFFVFPYSDEVQVKLTNETTNTGSDLKWHKLKVELLENRMFSLLSKGCKWFPSISKGVSRLSAKAVPNTKIIGPSYEVFATSRTVPFYEMEYSIPSKYMRTVVEEISNLIEKKKYKVHFPIECRYVKGDDIWLSPAYGRDSAYIAVHMYKGMKYAAYFGEVEKIFMKYEGRPHWGKMHTLSYEQLQDIYPEFHSFLQARKSLDELGMFFNPYAEKLFIPH				NA	NA	NA	NA	NA
AK009_04911	1152			hypothetical protein	TTGACTGCATATTTATTTCCAGTAAAAACAGCATTTATTTTATTTCCTTTTTTAGCAATGTTTCTTTTAATCCCTTTTCTAATATTTAATTATCGAAAATACGGTTATTTAAATAAATGGCGCTCATTTATTTTATACTCATTATTACTTTACTTATTAAATGCCTATTTTCTTGTTATTTTGCCGTTGCCACAAACGTTTGATACTTGTAGCCTACAATCGGCTAATACACAACACATGCAACTCTCACCATTTTATTTCATACAAGAGATTAGTAGTCATACATCGGCAGTTTTAACGAAACCGGCTACTTATTTCTACTTATTAAAAGAGTCTGCTTTTTTACAAGTTGCATTTAATGTTCTATTAACTGTTCCATTCGGTATTTACTTACGTTATTATTTCCGACGTAGTTTCCTACAAACAATTTACATTTCCTTTTTCCTTTCACTATTTTTCGAGCTAACACAAGTGACTGGATTATACGGTATATACAATTGTGCATACCGATTATTTGATATCGATGATTTGTTTTTAAATACATTAGGTGGCGTAATTGGTTTTATCATTGCACCAATATTTACGTACTTCCTTCCAAAAACAAACGAGTTAGATAGTCATATTAATTTAGAAACGAAACCAGTCGGATTCATTCGTCGCCTTATCGCGATGCAAATTGATTGGATTTTCTTATCTATCGTTGTACCTGTCATTAAAAACAAAGGAAATTCTTTCTTCGTTTCTAATATGCAATCTTACACCAATATGTATGAACTCATTTTCATTACGTGTTCAATCCTTATTTACTTTATTATTATTCCATACTTTACGAATGGAAAAACAATTGGGAAAGCATTGCTTCGCATTCACCTGAAAGGAAAATCAGATCGTATTACATTAAAAGAACTATTTATTCGATACGGTATATTTTATTTTGCGTTAGGCGGAATCAATTATATTCTTTCTAGTAGTTCTATGTTAAATCATACAGAACCTTTAGTATTACTCGTTACATTGTTATTCCTATTCATCATTAACGGCCTGTTTATTATTCATGTTTTACTGCATGTATTTAGCCGTGATAAACTACTATTTTATGAGCATATTAGTCATACAAGAAATGCAATTACACTAAAAAAAGCTGACAAATAA	MTAYLFPVKTAFILFPFLAMFLLIPFLIFNYRKYGYLNKWRSFILYSLLLYLLNAYFLVILPLPQTFDTCSLQSANTQHMQLSPFYFIQEISSHTSAVLTKPATYFYLLKESAFLQVAFNVLLTVPFGIYLRYYFRRSFLQTIYISFFLSLFFELTQVTGLYGIYNCAYRLFDIDDLFLNTLGGVIGFIIAPIFTYFLPKTNELDSHINLETKPVGFIRRLIAMQIDWIFLSIVVPVIKNKGNSFFVSNMQSYTNMYELIFITCSILIYFIIIPYFTNGKTIGKALLRIHLKGKSDRITLKELFIRYGIFYFALGGINYILSSSSMLNHTEPLVLLVTLLFLFIINGLFIIHVLLHVFSRDKLLFYEHISHTRNAITLKKADK				NA	NA	NA	NA	NA
AK009_04912	204			hypothetical protein	ATGCGATATGAACTTTTTTCTGTAAGTGGGGATCATATTACGACTTTTGAAAGTGCATGGCGTTTTCAGGAGGGAGAACAGATTTTTGTTCATGATGATCAAACAAAACGAAACTTTATTATTATTCGTCTGACGCATGATGTATTTCAACAAAATAAACATGTTATTCGTTTGTATTGTCAAGAAAAGAAAGTGTATGCATAA	MRYELFSVSGDHITTFESAWRFQEGEQIFVHDDQTKRNFIIIRLTHDVFQQNKHVIRLYCQEKKVYA				NA	NA	NA	NA	NA
AK009_04913	813	uppP_3	COG1968	Undecaprenyl-diphosphatase	ATGGAACAATTTTACTACGTTTTAAAATATTTAATTCTCGGTCTGTTCCAAGGACTAACAGAACCAATTCCGATTTCTTCAAGTGGTCACCTCGTTTTAGCACAACATTTGCTAGGACTAAAAATAGAAGGATTTAGCTTCGAACTACTTGTTAATTCAGCTTCATTATTAGCTGTATTACTTATTTATAGAAATGATTTAATTCGTCTGACGAAGAATGGTCTCTCTTATATATTTACAAGAGCAGAAGACGCGAAATCAGATTTCTTCTTTATTATTTATCTTGTTATTGCAACCATTCCAGCAGGTGTTATTGGTGTTTTATTTAAAGATTACATCGATCAGTACTTAAAAGGTGTGAAGATGGTTGGGATTTCCCTTCTTATTACTGCTGTCGGCCTTTGGATTATTAGAAATTTACGCGGTCGTAAAAATGATGGCGACCTTTCTATGAAAGATGCAATCATCGTCGGATTAGCACAAGCTTGCGCACTGATTCCTGGAATAAGCCGATCTGGTGCCACAATCGTAGCAGCAATGTTACTTGGTATGAAGCAAGAAACAGCTCTTCGCTTCTCATTCTTACTATACATTCCTGTTAGCTTAGGTGGCTTATTGTTAAGCATTACAGACATTGCAAATGATCCAAATCTAGACACATTATTCGTACCATATGTCGTTGCATTCATCGCAACATTTATCATGACGTATATTTCACTAAAATGGTTTATGAACATTATGGCAAAAGGAAATTTAAAGTATTTCTCTTTCTATTGTATTATCGTAGGTGTACTTACTCTTATTTTCTTATAA	MEQFYYVLKYLILGLFQGLTEPIPISSSGHLVLAQHLLGLKIEGFSFELLVNSASLLAVLLIYRNDLIRLTKNGLSYIFTRAEDAKSDFFFIIYLVIATIPAGVIGVLFKDYIDQYLKGVKMVGISLLITAVGLWIIRNLRGRKNDGDLSMKDAIIVGLAQACALIPGISRSGATIVAAMLLGMKQETALRFSFLLYIPVSLGGLLLSITDIANDPNLDTLFVPYVVAFIATFIMTYISLKWFMNIMAKGNLKYFSFYCIIVGVLTLIFL	PGPT0024165_3326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK009_04914	942	mcp4	COG0840	Methyl-accepting chemotaxis protein 4	ATGTTTACTCAAAAGAAATCACTCCAACATACAATTGCTCAATTAGAAGAGCGTATACAAGAATTAGAAGCAGAATTGAAACAAAAAGATATTGAAAAACAAGAGACTATTTCGACTATCCACGATCGTGTACAAAGCGTTGTACACGAGCATCAACTTGTAAATAACCAACACAATACACTCCAAAATTTAGTTCAACAATTAAGTTCATGTTTCGAAAATGTTTCAACACGCACGACACATTCCAATGAGTTAAATAATGAAATGTTGCAAAAGGAACAAAGCTTAATTCAGTCTATTGCAGAAATTATTGACTGCTCTAATGAAGGAAAAGAATCCGTTCACCGCTTACTTATTGTAATTAATAAATTAGGTGAACAATCTCAACGCACGTCTAATAGTATGAATCATCTAAGCGAACGCTCAAAGGAAATCGAGCAAATTGTAGAAGTCATTCAAAACATTGCAGCACAAACAAATTTACTTGCCTTAAATGCGAGTATTGAAGCCGCACGTGCTGGAGAGCACGGTAAAGGATTCGCTGTCGTTGCCAATGAAGTAAGAAAACTAGCGGAAAGTACAGCAGAAAGCACAAAAAACATCGGCAACTTAACGAAAAAAATTCAAGAAGAAATTGAAAAAGCATACGATAATACAAAAGATAATTTACATTTAGTCGATGAAGGTGTAGAAATGAGCGCCGATACAAACGCTAGAATTGAAAATATTTTAGTTATGATTCAAACGTTACAAAATGGCGCTACAAATGTTATTAAGGCTATTGAAAACCAAAAGTCTTGTAATGATGACATATTACGAGAATTCGCTAATACACAACAAATGTTCCAAAAATTAAATACTACTATTATGAATCATATTCATGATGCTGAAAAAGTCGATGTTCAATTGTCTAAAAGTCTTCAAGGAACAGTAACTTCTTAA	MFTQKKSLQHTIAQLEERIQELEAELKQKDIEKQETISTIHDRVQSVVHEHQLVNNQHNTLQNLVQQLSSCFENVSTRTTHSNELNNEMLQKEQSLIQSIAEIIDCSNEGKESVHRLLIVINKLGEQSQRTSNSMNHLSERSKEIEQIVEVIQNIAAQTNLLALNASIEAARAGEHGKGFAVVANEVRKLAESTAESTKNIGNLTKKIQEEIEKAYDNTKDNLHLVDEGVEMSADTNARIENILVMIQTLQNGATNVIKAIENQKSCNDDILREFANTQQMFQKLNTTIMNHIHDAEKVDVQLSKSLQGTVTS	PGPT0015710_28889	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
AK009_04915	1275			hypothetical protein	ATGAACTATTTTAAGCGAATCAGCTGTCTAGTATTAGCAGGAATTATCGGTCTTTCTAGTACAGTCGCTGTTAAAGCAGAGTCAAACGACGAGAAACTTAACAACATGCAACAGCAATTGCAACAAAACGATGCAGAAATGCAAAAGAAAGAGCAAGAGAAGCAAGCTGTTAGTAAAGAAATTAAAGGTATCGAAAACGAACTACATAATTTAAATAATACAATTGCAAAAAATAAAGAGGATCAAGCTGCTATTCAACGTAAAATCGATGAAACACATAAGCAGATTGAACAAAAAAAGGAAGAAATTGTCGTTTTAGAGGATAAAGTCCTTGCTCGTAAAGACATTATGAGAAAACGTATGGTTTCTGTTCAAAACAGTTCAAATACAAGTTTAGTAGTAGAAGTTGTAGTAGAGTCAAAAAACTTTGCAGACTTCTTACAACGTATGAACGCAGTTTCTACTATTCTAGAAGCTGATAAAGAAATTTTACGTCTACAAGAACAAGATCTTCGTCAAATTGAAGAAGATAAGAAAACAATTGACGAAAAAGAAGCATCTTTAGTAGTAGACAAACAAAAATTAGCAAAAGCGCAAGCTGAACTGCAAGATAACTTGAAAAAACGTCAAGATAACTTACAAACAGTTCAAGCTAAATATAATGAGGTTGCAAGTCAGCTTAATTTAGCAGCGGAAGAGAAAGCTAAAATTGAATCAAATATGAAGGCAGTACAAGAAACAATTGCTCGTGAACAAGAAGCAGCAAGAATCGCAGCGGAAGAGCGTGCAAAAGCAGAAGCGGCTGCAAAGGCTGAGCAAGAAGCTTTAGCGAAAGCACAAGCAGAAATTGCTGAAAAGCAAAAGCAAGAAAAAGCTAGTAAACCGGCAGAACCAGTTGCTAATAATAATTCGAAGGTAGAACCTGCACAACCTTCTAAGCCAACTGCTGGTGGGAAAGAAATTTATGTAGAAGCTACAGCTTATACAGCTGATCCAGCGGAAAATGGTTATGCGTCAGGTCAACAAGTATTTTCTGCATGGGGACCAGGTGGTAAAGGTTATAATCTAACTGCAAACCCAGGAATGAAATTAATTGCTGTAGATCCAAGTGTTATTCCATTAGGCAAAACTGTAAATGTTGAAGGTTATGGAGTCGCAATTGCAGCAGATACTGGTGGAGCGATTAAAGGTAACAGAATTGATGTGTTAATGCCTGATAAAGGGTCTTCTAGTCAATGGGGAAGAAAAATCGTTAAAGTTACAATTTTAAACTAA	MNYFKRISCLVLAGIIGLSSTVAVKAESNDEKLNNMQQQLQQNDAEMQKKEQEKQAVSKEIKGIENELHNLNNTIAKNKEDQAAIQRKIDETHKQIEQKKEEIVVLEDKVLARKDIMRKRMVSVQNSSNTSLVVEVVVESKNFADFLQRMNAVSTILEADKEILRLQEQDLRQIEEDKKTIDEKEASLVVDKQKLAKAQAELQDNLKKRQDNLQTVQAKYNEVASQLNLAAEEKAKIESNMKAVQETIAREQEAARIAAEERAKAEAAAKAEQEALAKAQAEIAEKQKQEKASKPAEPVANNNSKVEPAQPSKPTAGGKEIYVEATAYTADPAENGYASGQQVFSAWGPGGKGYNLTANPGMKLIAVDPSVIPLGKTVNVEGYGVAIAADTGGAIKGNRIDVLMPDKGSSSQWGRKIVKVTILN				NA	NA	NA	NA	NA
AK009_04916	219			hypothetical protein	TTGACCATTTTAAACAGAGTAAAAGAATTAAGAGCTCGTTTTAATTTTTCACAAAGTGTATTAGCAGAAAAGGTTGGAGTGACGAGACAAACAGTTGCTGCAATTGAAAAAGGGGATTACGTTCCTTCATTGTTACTAGCATTGATGATTTGTGATGTATTCCAGTTAAAGATGGAAGACGTGTTTGTTTTAAATAAGGAGGGGGAAGAGGATGAGTAG	MTILNRVKELRARFNFSQSVLAEKVGVTRQTVAAIEKGDYVPSLLLALMICDVFQLKMEDVFVLNKEGEEDE				NA	NA	NA	NA	NA
AK009_04917	474			hypothetical protein	ATGAGTAGAATTGGTTTTTCTTATATTATAAATGTACTCTATACTGCACTAGCATGCTGGACATTTGTTGAATTTTATAGTGTTATTACAGAGTTAGCAGACATATTTAAAAACGAGAAATTCCCGTTTGAAGTAGCGGTTAATGGAGTACCATTTATTTTATTATTTATTGGAGCTATTATAGTTACAATTTTTTATAGAATTCAAAAGAAAAAATATAAGAATTTATCTTTTTGGATGTATCCATTATTATTTCCACTAGAAGATGAACGTGAAAAAGCGATTACGGATAAAGCTTGTCGAACAACATTTGTATCGTTATGGTTTGTGTTACCTTGTGCAGTTGGATTTTTAACTTTTTCGCCTATTATTAATGAATATCTTCCTGGATACCCATTATATATTCTATTTTCTATTTTCTTTATTCAAATGACAGTATTTCACGTATCATTATACAGAAATAAATTAGCTTAA	MSRIGFSYIINVLYTALACWTFVEFYSVITELADIFKNEKFPFEVAVNGVPFILLFIGAIIVTIFYRIQKKKYKNLSFWMYPLLFPLEDEREKAITDKACRTTFVSLWFVLPCAVGFLTFSPIINEYLPGYPLYILFSIFFIQMTVFHVSLYRNKLA				NA	NA	NA	NA	NA
AK009_04918	633	srtA		Sortase A	ATGAATAAGCAAAGAATTTATAGTATAGTAGCAATCCTGCTATTTGTTGTAGGTGGGGTGTTAATTGGAAAGCCATTTTATGATGGATATCAGGCTGAAAAGAAACAGACTGAAAATGTGCAGGCTGTTCAAAAGATGGATTATGAAAAGCATGAGACGGAATTTGTAGATGCTTCCAAAATTAATCAACCAGACTTGGCGGAAGTAGCGAATGCATCATTAGATAAGAAACAAGTAATTGGTCGTATTTCGATTCCAAGTGTTTCAGTAGAACTGCCTGTTTTGAAAGCTTCTACTGAAAAAAACTTATTAACAGGTGCAGCGACAGTAAAAGAAAATCAAGTTATGGGAAAAGGAAATTACGCACTAGCAGGACATAACATGTCTAAAAAAGGTGTTTTATTTAGTGATATAGCTTCTTTGAAAAAAGGCGATAAAATTTATTTGTATGACAATGAAAATGAATATGAGTATGCGGTTACTGGTGTATCTGAAGTAACTCCTGATAAGTGGGAAGTTGTGGAGGATCATGGGAAAGATGAGATAACGCTTATTACATGTGTATCTGTAAAGGATAATTCTAAGCGTTATGTTGTTGCTGGTGATTTAGTAGGAACGAAGGCGAAGAAGTAA	MNKQRIYSIVAILLFVVGGVLIGKPFYDGYQAEKKQTENVQAVQKMDYEKHETEFVDASKINQPDLAEVANASLDKKQVIGRISIPSVSVELPVLKASTEKNLLTGAATVKENQVMGKGNYALAGHNMSKKGVLFSDIASLKKGDKIYLYDNENEYEYAVTGVSEVTPDKWEVVEDHGKDEITLITCVSVKDNSKRYVVAGDLVGTKAKK	PGPT0024075_2379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK009_04919	921			hypothetical protein	GTGAGACAACAGGTGAAGAAACTTCTTTTAACAACGAGTATAGCGTTATTGGTAGCTCCAATTTCAGCTTATGCGCATCCAGGGCGTACAGATGCTAATGGCGGACATACGTGTCGTACAAATTGTGAGAAATGGGGATTACAGTACGGGGAATATCATTATCACAATAAACCAGCTTCTAGTAGTGGTGCAACGAGCCCAGCTCCTAGCCAGAATAATAATAGTGCTGTAGAAGCTGAGAGACAAGCAGAAGCACAGCGTAAAGCTGAAGAAGAGAGACAACGTGTAGCCGAAGAACAAAGAAAAGCTGAAGAGGCACGTAAGCAAGAGGAAGCGCAGCGCCAAGCTGATATGGAAAAAGGTCAACTTGAAGGTCAAAAGAATGGAGAAACTGATTTTAAAGCAGGAAAAAATGATGCAGAAGTGCATGTAGCTGGAAAATCTGATGCATATAAACAAGCGTTTAAAGCGACTTATGCAGCCGCATGGTCTTTAGAAGAGCAGAAGAAAACGCATTTTGAAAAAGGAAAAGAACAAGCTGAATTAGGAGAAAAGACAGGGAAAGAACTAGCTGAAAAGAATCCTGGAAATAGAGAGAAAGAAGTATACGTGAAGGCATATGAAACAGCGTATGAAAAAGGCTATAAGTCTACAAAAAAGGCAGTAGAAAAGGCTGGCTATAAGTATGCATTTGAAAACTATAATTTAAAAGTTCCTGCTAAGTATGAAAGAAATGAATTGTTAAAGAAATGGTTTACTGAAGGGTTTAAATTGAATAAAAAAGCAGCAGAAATTCGAGAAGAAGGGTATAAAAAGGGAGACAGCTGGTTCTCATTCTTCTATAAGAGTTTCGTACCAAGTGAATATAAAGAACATAAAGAGCTGTACGAACAAGCAATAGAAAAAGGTAAAACGGCATAA	MRQQVKKLLLTTSIALLVAPISAYAHPGRTDANGGHTCRTNCEKWGLQYGEYHYHNKPASSSGATSPAPSQNNNSAVEAERQAEAQRKAEEERQRVAEEQRKAEEARKQEEAQRQADMEKGQLEGQKNGETDFKAGKNDAEVHVAGKSDAYKQAFKATYAAAWSLEEQKKTHFEKGKEQAELGEKTGKELAEKNPGNREKEVYVKAYETAYEKGYKSTKKAVEKAGYKYAFENYNLKVPAKYERNELLKKWFTEGFKLNKKAAEIREEGYKKGDSWFSFFYKSFVPSEYKEHKELYEQAIEKGKTA				NA	NA	NA	NA	NA
AK009_04920	1386	dtpD	COG3104	Dipeptide permease D	ATGGAATCAGCGATACAACTAGAAAGAGAACAACAAAGAAAAAAGAAACATCCTCCAGGTTTATACTTACTCTTCTTTACAGAAATGTGGGAAAGATTTAGTTACTATGGATTACGAGGATTATTAACATTATATTTAACGACAGCTTTAGTAAGCGGTGGTCTTGGGTTTAGTCCCGCATGGGCACTCTCTATTTACGGATTTTATACTGGAGCCTGTTATTTCACACCAATGATTGGTGGATACTTAACAGACCGTTTTCTAGGTAGACGAAAAGCAATCACAATTGGTGGTATAACAATGGCAATCGGTAACCTTACACTATTTGCCTTGCAAAACCAATTAGGCCTATACCTCGGATTAGCGCTTATTATTATCGGTAACGGATTCTTCAAACCGAACATCTCTACACTGGTTGGAGAATTATACGAAGAGAACGATCCAAAACGTGATAGTGCATTTACCATTTTCTATATGGGTATTAACGTCGGGTCATTTTTAGCTCCACTCGTTTGCGGGTTTTTATCAGAAAATTTATTCAAAACAACAGTTGATGGCGTTGTACATTACGGATTCCGTTACGGTTTCTTAGCCGCTTCAATCGGAATGATTATTGGACAAATTTTATTTACAACATTATCAAATCGCTTCCTTGGTGATATCGGTAAAAAACCAACTCGCGATTTACAAACAACAGATGGACAACCATCAGTAGGAGATACACCGTTAACAAAAAAAGAAAAACAACGTACCGCAGTTATCGTCATTTTAACATGCTTCGTTGTCTTCTTCTGGGCTGGCTTTGAACAAGCTGGTAGCTCGTTAACATTATATACAAACAAATTTGTAGACCGCTCTGTGTTCGGATGGGAAGTTCCAACATCTTGGTTCCAATCGGTCAATCCATTATTTATTATTTTACTTGCTCCAGTCATTTCTGCATTATGGGCAAAACTTGCAACTCGCAAGCGCGGTGATTTAAAAATCCCAACTAAAATGGGACTTGGTATGATCTTGCTTGGTATCGGTTATATCATTCTCGTTATCGCTACATTAAAAACAGGTAGTGATGAACATAACATTACAGAAAAAGCAAACTTACTATTTATCGTCTTTACGTATCTTTTCCATACGTTAGGTGAGCTATTCTTATCACCTGTCGGACTATCAATGGTTAGTGCGCTTGCTCCGGTAAAATTAGCATCTTTACTAATGGGTGTATGGCTAGCAAGTTCAGGTATCGCCAACATTTTAGGCGGACAACTTGCAAGCTTCACAACCTCACTTGGATACGCTGAAGTATTCACGGTTATTGGCGCTGTGGCAATTGTATTAGGTTGTGTTTTATTATTAATTTCTAAGAAATTAGTGAAATGGATGGATTAA	MESAIQLEREQQRKKKHPPGLYLLFFTEMWERFSYYGLRGLLTLYLTTALVSGGLGFSPAWALSIYGFYTGACYFTPMIGGYLTDRFLGRRKAITIGGITMAIGNLTLFALQNQLGLYLGLALIIIGNGFFKPNISTLVGELYEENDPKRDSAFTIFYMGINVGSFLAPLVCGFLSENLFKTTVDGVVHYGFRYGFLAASIGMIIGQILFTTLSNRFLGDIGKKPTRDLQTTDGQPSVGDTPLTKKEKQRTAVIVILTCFVVFFWAGFEQAGSSLTLYTNKFVDRSVFGWEVPTSWFQSVNPLFIILLAPVISALWAKLATRKRGDLKIPTKMGLGMILLGIGYIILVIATLKTGSDEHNITEKANLLFIVFTYLFHTLGELFLSPVGLSMVSALAPVKLASLLMGVWLASSGIANILGGQLASFTTSLGYAEVFTVIGAVAIVLGCVLLLISKKLVKWMD	PGPT0021010_4005	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
AK009_04921	144			hypothetical protein	GTGATAGACTATGGACTATGTTTTCTTTGTAAGGAAGCGGGTTATTGTACTTTTTTTATATGTGGAATTGATTTCATAAAAGATGAAATTAAAGAAGGAGAAAGAAATGAAATTGTTACAGAAAAAAGAAATTTTACTTATTAG	MIDYGLCFLCKEAGYCTFFICGIDFIKDEIKEGERNEIVTEKRNFTY				NA	NA	NA	NA	NA
AK009_04922	1302	brnQ_5	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAAATTGTTACAGAAAAAAGAAATTTTACTTATTAGTCTTATGTTATTCTCGATGTTCTTTGGAGCAGGGAATCTTATATTCCCACCTTTTCTTGGATATGAAGCAGGAGAACATGTGTGGATTTCGTTAGTAGGATTTATTATATCAGCAACAGGTCTTCCTATATTAGGTGTTATTTCTATTGCAAAAGCAGGAAGTTTTCAAACGTTAGCGGGTAGAGTTCATTCTTCATTTGCAATTATTTTTCCATGTATCGTGTATGTATTTATTGGACCTGGGCTTGGTATACCACGTGCGGGAAGTTTAGCCTTTGAAATGGGGCCAGGTCAGTTATTCCCTGAAGCAGGAAGCGGAGTATTATTGTTTTACACAGTTATTTTCTTTAGTATTGTTTACTGGTTAAGTTTATCACCATCTAAACTAATGGGGTTGTTTGGAAAAGTCTTGACGCCGTTATTATTATGTATGATTGCACTTATTTTTATAAAGAGTATGTTTACAACAGTAGGAGATATGAAAGAACCAATAGGGAACTATGGCCAAGCTCCTATGTTTCAAGGGTTTTTAGATGGATATTTAACAATGGATGCGTTAGCTGCTTTAATCTTTGGAATTGTTATTGCAAATGCATTACGTGCAAAGGGTATTGAAGATGATAAAGGTTTAGCGAAATATATGAGTATTGCTGGAATCGGGGCAGGACTATTATTATCGATTATTTATGTCATCCTTGGATATGTGGGGGCAATTAGTGGCTCATTAGGAACATTTGATAACGGTGCCAAAGTGTTAGCACAAGTTATGACTACATTATTTGGACAGGGCGGAGTCGTTTTATTAGGTCTTATTTTTACTATCTCATGTTTATGTGTTTCAATTGGACTTGTTACGTCTTGTAGTCAATTTTTTTCGAGTGCATTTCCGAAAGTATCTTATAAAGTGTGGGCATTTATAGTAAGCGTTGTTAGTATGATCTTAGCTAATTTAGGATTAACGCAAATTTTAAAAGTATCAGTACCAATTCTTGGATTTATTTATCCAATTGCATTAACGCTTATTATTCTAGGGTTATTCCATAAGTATATTGGGAAGTATGCATACGTATATACAGTAACTGTTTGGATTGTAGCAATATTTAGTGCAATTGATATTTTAAATAAAAATGTAATGATGAATCAGTGGACGTCAGTATTAAAATACATTCCGTTTTATACAGAAGGTGTTGGATGGATTGTTCCAGCTATTGTAGGCATGTGTCTTGGTTTCATCGTTAGCATTGCTTTAAATAAGAATAAATGA	MKLLQKKEILLISLMLFSMFFGAGNLIFPPFLGYEAGEHVWISLVGFIISATGLPILGVISIAKAGSFQTLAGRVHSSFAIIFPCIVYVFIGPGLGIPRAGSLAFEMGPGQLFPEAGSGVLLFYTVIFFSIVYWLSLSPSKLMGLFGKVLTPLLLCMIALIFIKSMFTTVGDMKEPIGNYGQAPMFQGFLDGYLTMDALAALIFGIVIANALRAKGIEDDKGLAKYMSIAGIGAGLLLSIIYVILGYVGAISGSLGTFDNGAKVLAQVMTTLFGQGGVVLLGLIFTISCLCVSIGLVTSCSQFFSSAFPKVSYKVWAFIVSVVSMILANLGLTQILKVSVPILGFIYPIALTLIILGLFHKYIGKYAYVYTVTVWIVAIFSAIDILNKNVMMNQWTSVLKYIPFYTEGVGWIVPAIVGMCLGFIVSIALNKNK	PGPT0014385_1988	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
AK009_04923	1722			hypothetical protein	ATGAAGAAGGATTTGGATAAGAAAATAGAAGCACTCGAAACGGCAATTGAAACGATTCAAGAAGCACTTGCTGAATTAAAGGTGAAGCAAAGGGAAATAGAAGTAGAAAACGCTCAGCAACATGTTAGTAAGGATAAGAAAGAATATATTGAAACGGTAATGGAGGAAAAGCCAAAAGAAGAAATAGTTAAGATAAAAGAGCCTTTGCAAGAATGTGAGGTAAAACAAGTAGATATATCTGCTTTTAAACCAGAGCCATTTAATATTATTAAGTTTTGTCAAACGTGGTTACCGCGTGTATTTGTCGGTATTATGTTGCTTGGAGTGATCTGGTTATTTAAAGCAGGGGTAGATGCTGGTTTATTAACACCAGCAATACGAATTGTGTTTGGTATCGCATTATCTATCGGTTTGTATTATATAGGAGATATTCAAATTAAAAGAGAGCGGCAGGCGTTAGGATTAGTATTGGTTGGAGGAAGTATTTCGGGGATTGTTTTAACGACGTTTGCGGCACATTATTTGTATGCATTTATTCCGGCAAGTATCGCGTTTCTCTTTAATATTACATGGGTTATTTTAGGGATTTATTTAGCGAAAAGATATAACTCGGAATACCTTACTATCTTCGTAGCGGTAGGAGCGTTCTTCGTGCCATTCTTGTTAAATAGTACGACTCCTAATCCTTATATTTTCTTTGGATATGAGACAGTGTTAACACTTAGTTTATTATGGTATGGATTGAAAAATCGTTATAAATATTTATATATGATTTCTTACGCTGTTGCGGCCATTGTTCTTTTTGTCTTCTTTGCTGTTATGTCAATATTAGTAGAGAACTTGCAAATACAGTTAACGATTGTATATGGTTTGATTCATTTACTATTATTTTGGCATATGTTTACGGAGAGAAGTTTTATACCAGAACCGCGTTTGGCGATATTTAGTGCGAATGCAGTGTTCTTTATACTAGCTATTTCAAAAATACCTGATTTTACAACATGGGGATTAATTATTAGTGCAATTGTGCACGCTGTTATGTTTGTGCTTGAGTATAGGAAGAATAGACATTCTACATTTACAAATCTCTTATTTGGTTTCACAATGGGAGCATTTAGTTTAGCGATTTTATACGAGTATAGTTTAGTAAATGCAGCGATCGTACTATTATTACAAGGTTTCCTTGGAATGGTTACTTCTATTAAAGGAAAACAACAGATAAAATTGTATGTTAGTGCAACGATTTACGCGATTGGAATGATACAAACGATTTTTAGTCCGTTTGATCAATTTATTTCGGCAGGCTTTGTTGCTCATATTATTTTAATAGGAACATTCTATTATTGCATGAGACAAGCGAAAGAAGTGTTAGCGAGTTTTGGTAAGTATGTGTACTCTATAGCGCTCTACTGGTTAATGGTCATTGTATTTATTACAATTACTAGAATTGGTGAATTTCTTTCTACAGATGGAAGTATAATTAGCGTATCTGTATCGTTATTATGGATGATATATGCGTTATTTGCAGTTTGGTTTGGCCGTTATAGACAGATGAATGAAATATTATATGCTGGATTAATCGTATTAGTAGTAACGGTAGGGAAGTTATTCCTACTTGACTTACCGGAGGTTTCGATGATGATTAGGGCAGTGTTATTCCTAATCGTCGGTAGTATAGGTATCGTTATTTCAAGAATGTTTTTCTCAAAAGAAGAGAAGTGA	MKKDLDKKIEALETAIETIQEALAELKVKQREIEVENAQQHVSKDKKEYIETVMEEKPKEEIVKIKEPLQECEVKQVDISAFKPEPFNIIKFCQTWLPRVFVGIMLLGVIWLFKAGVDAGLLTPAIRIVFGIALSIGLYYIGDIQIKRERQALGLVLVGGSISGIVLTTFAAHYLYAFIPASIAFLFNITWVILGIYLAKRYNSEYLTIFVAVGAFFVPFLLNSTTPNPYIFFGYETVLTLSLLWYGLKNRYKYLYMISYAVAAIVLFVFFAVMSILVENLQIQLTIVYGLIHLLLFWHMFTERSFIPEPRLAIFSANAVFFILAISKIPDFTTWGLIISAIVHAVMFVLEYRKNRHSTFTNLLFGFTMGAFSLAILYEYSLVNAAIVLLLQGFLGMVTSIKGKQQIKLYVSATIYAIGMIQTIFSPFDQFISAGFVAHIILIGTFYYCMRQAKEVLASFGKYVYSIALYWLMVIVFITITRIGEFLSTDGSIISVSVSLLWMIYALFAVWFGRYRQMNEILYAGLIVLVVTVGKLFLLDLPEVSMMIRAVLFLIVGSIGIVISRMFFSKEEK				NA	NA	NA	NA	NA
AK009_04924	1548			hypothetical protein	ATGAAGAATAAAAAATGGATTACATTTTCTTTAGCAACAGCAATTACACTAAGTATAGGGACCTCGTTCATACCGTCTACTTATGCCGAAAGCTCTGTAGACCCAGCTCCTGAAATTGCTGCAAAAGTTGTAAATCAAAACAATGGGAAGAAAGTATTATTCGATAATACACACGGTCAAACTGCTGGGACAGCTGACTGGGTTATTGACGGCGGCTTTTCTGACTTCGGAAACGGCATTGCAAAAAACGGATATCACGTAAAAGAACTTCGTAAATCAACACCTATTACGTACGAAGACTTAAATGGTTACAATGTATTTATCGTTCCAGAAGCTAATATTCCTTACAAAAAATCTGAGCAGGACGCTATGTTACAATATGTAAAAAATGGTGGTAGTATCTTCTTTATTGCCGATCATTACAATGCGGATCGTAATAAAAATCGCTGGGACTCTTCTGAAGTATTTAATGGATATAGACGCGGTGCTTGGGATAATCCAGCAAAAGGAATGTCTAATGAAGAAGCAAATTCACAAGCTATGCAAGGAGTAGAAAGCTCTGATTGGCTATCTGACAACTTCGGTATTCGCTTCCGCTACAATGCACTTGGTGATGTTTCAGCGAAAACAATTGTATCGCCTGAACAATCTTTCGGAATTACAAAAGGTGTTTCTTCTGTAGCAATGCATGCTGGTTCTACTCTAGCAATTACAAACCCAAAACTAGCAAAAGGACTTGTTTACCTTCCAGAAAATCCATCAAAATGGAATAACGCTGTTGATAGTGGCGTTTATAATGGCGGTGGTATTGCAGAAGGCCCATATGCTGCAATTGCAAAAATAGGACTTGGAAAAGCTGCCTTTATTGGTGACTCTTCTCCTGTTGAAGATGCAACGCCAAAGTACGTTCGTGAAGATTCTGGCCAAACAAAGAAAACTTACGATGGTTATAAAGAAGAAAACGATGCGATTTTATTAGAAAACATCGTAAATTGGTTATCGAATAAAGAGACATTTACAAGTTTAGATCAAGTAAATGGTTTACAACTTGATTCACCTACAGCTCTACAAACATTTGAACAGCCAAGCTTATCAACAGAACCACAACCTGAACCTTGGAGTGCACCAAATGCAGGTTATCAATGGTTTAATACAAATACTTTTAAACCAGGTTCATACGGTTATAACGGTGCGGTAACAACAAGCGACTACGTCGTTACACACCCTAGCATTCTACCAAACAATGAAATTTTCCAAATGAAGATTCAAGTAAACAACTTACTACCTAATACAACTTATAACAACTATTCTTTAGGTATATTCACTACTGGTGGAACACAAGTAGCAAAAGTTCAAAATACAAACGGCACTTGGCCATCTGCTTTCGGATATAGTAGTGCATTCTCTTTCACAACAAACAGCTTAGGCTCTGCTGAAAAAGTTGTAAATGTACAGATTGATTCAAATACAACTGGACAAGCAACGCTTCGTCTACGTCAAAATACAACAGCGAAATATAATGAAACTGTAACGATTAATAAAAAATAA	MKNKKWITFSLATAITLSIGTSFIPSTYAESSVDPAPEIAAKVVNQNNGKKVLFDNTHGQTAGTADWVIDGGFSDFGNGIAKNGYHVKELRKSTPITYEDLNGYNVFIVPEANIPYKKSEQDAMLQYVKNGGSIFFIADHYNADRNKNRWDSSEVFNGYRRGAWDNPAKGMSNEEANSQAMQGVESSDWLSDNFGIRFRYNALGDVSAKTIVSPEQSFGITKGVSSVAMHAGSTLAITNPKLAKGLVYLPENPSKWNNAVDSGVYNGGGIAEGPYAAIAKIGLGKAAFIGDSSPVEDATPKYVREDSGQTKKTYDGYKEENDAILLENIVNWLSNKETFTSLDQVNGLQLDSPTALQTFEQPSLSTEPQPEPWSAPNAGYQWFNTNTFKPGSYGYNGAVTTSDYVVTHPSILPNNEIFQMKIQVNNLLPNTTYNNYSLGIFTTGGTQVAKVQNTNGTWPSAFGYSSAFSFTTNSLGSAEKVVNVQIDSNTTGQATLRLRQNTTAKYNETVTINKK				NA	NA	NA	NA	NA
AK009_04925	1392	yifK_2	COG1113	putative transport protein YifK	ATGCAGCACACAAACAAATCTGGAACTTTAAATCGTGGTTTAAAAGAACGACATATTACTTTAATGTCACTTGGCTCAGCTATTGGTGTTGGGCTATTTTTAGGATCCGCTTCCGCTATTAAACTAGCCGGTCCTTCTATTTTACTAGGCTATATGATTGCCGGACTCGTTATTTTTTTCATTATGCGAGCTCTCGGGGAAATGGCAATTGAACAACCTGTTGCCGGTTCTTTTAGTAAATATGCATATGATTATATCAGCCCACTCGCTGGTTATATTACTGGTTGGAATTACTGGTTCTTATGGGTTGTTACTTGTATGGCTGAAATTACAGCAGCTGGTATTTACATGCAGTACTGGTTCCCAGATATCCCGCGCTGGACTTGGGCATTACTTGCTCTATTGTTAATGAGCGCTTTTAACTTCTTATCGGTAAAAGTATTTGGAGAACTTGAGTTTTGGTTTGCTCTCATTAAAATTGTCACAATTATCTGTATGATAGTAGTCGGAGCTGGTATTATTTTATTCGGATTCGGAAACGGTGGTATCGCTACTGGTATTTCAAACCTTTGGTCACATGGTGGCTGGTTCCCAAATGGTTTTTCTGGGTTACTACTCTCCATGCAGATGGTACTATTCGCTTATTTAGGCGTTGAATTAATCGGTGTTACAGCTGGTGAAGCTCAAAATCCGAAGAAAACACTCGCAAAAGCAATTGATAACGTATTTTGGAGAATATTACTGTTCTACGTAGGAGCTCTATTCGTTATGATGGCAATTTATCCATGGAACGAACTTGGTGAGAAAGGAAGCCCATTCGTATTAACATTCCAGCAAATTGGTATCGCAAAAGCAGCAGGTATTATTAATTTTGTCGTATTAACAGCAGCTCTTTCTTCTTGTAACGGTGGTTTATTTAGTACAGGCCGTATGCTATTTACATTAGCTCAGCAGAAAAAAGCTCCTGAAAGATTTGGTCGTTTAAATAAAAACGGCATTCCAAGCCAAGGAATTGTAGCAACTGCTATCGTTTTACTCATTGGTGTTATATTAAACTATCTCGTACCTGCAAAGGTATTTACATGGCTTACTAGCATTTCAACTTTCGGCGCAATTTGGACTTGGGGAATTATATTAGTTGCTCAAATTAAATTCCGTAAAAGCTTACCTACTCAAAATAAACAAAAGTTATCATATAAAATGCCTTTATACCCATTAAGCTCATATTTCTCACTCGTTTTCCTTGTATTAGTACTAGGTATAATGGCGTATTCAGAAGATACACGAATTGCATTGATTGTCGGCCCAATTTGGCTTATCGGCTTAGCAATCGTATATTACATGAAAGGGTTTCATAAGATTGATGAAACACCTAACTCAAAAATTAGTTAA	MQHTNKSGTLNRGLKERHITLMSLGSAIGVGLFLGSASAIKLAGPSILLGYMIAGLVIFFIMRALGEMAIEQPVAGSFSKYAYDYISPLAGYITGWNYWFLWVVTCMAEITAAGIYMQYWFPDIPRWTWALLALLLMSAFNFLSVKVFGELEFWFALIKIVTIICMIVVGAGIILFGFGNGGIATGISNLWSHGGWFPNGFSGLLLSMQMVLFAYLGVELIGVTAGEAQNPKKTLAKAIDNVFWRILLFYVGALFVMMAIYPWNELGEKGSPFVLTFQQIGIAKAAGIINFVVLTAALSSCNGGLFSTGRMLFTLAQQKKAPERFGRLNKNGIPSQGIVATAIVLLIGVILNYLVPAKVFTWLTSISTFGAIWTWGIILVAQIKFRKSLPTQNKQKLSYKMPLYPLSSYFSLVFLVLVLGIMAYSEDTRIALIVGPIWLIGLAIVYYMKGFHKIDETPNSKIS	PGPT0000815_1127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_04926	1293	pbuO_1	COG2252	Guanine/hypoxanthine permease PbuO	ATGTTTCAATTACAAAAATATAACACTTCTGTGAAGCAAGAGTTTTTAGCTGGCATCACAACTTTTTTTACATTTGCGTATATTCTTGTCATCAATCCAAAAATATTATCTGATGCAGGTGTACCATTTGACCAAGCGTTTACAGCAACAATTATTGCCACCGTTGTTGGAACAGTAGGTATGGCAATTTTCGCGAATTACCCGATTGTTATTGCTCCAGCTATGGGAATGAATGCATATTTTGCTTATTCTGTTGTACAGAAGGCAGAAGGGATTACATATGTAGTTGCCTTTTCAGCTGTATTTGTAACGGGGATTATTTTTCTTTTATTATCTTTTACTTCGTTTAGGCAAAAGTTAATTTTAGCAATTCCTGATAGTTTAAAGCATGCAATTGCAGGTGGAATTGGACTATTTATTGCTTTTATTGGATTGCGCCTTTCTGGAATTATCGTAGATCATCCGTCTAATTTAGTTACGATTGGTGATTTTCATTCTCCAGCTGTTATTTTAACTTTAATTGGTTTAATATTAGCGGCGGTATTAATGGCATTACGTGTGAGTGGTGCATTATTTATTAGTATGATTGTGACAGGAATTATCGCCTTCTTTACAGGGCAATTGAAGTTTGCTGATAAAATTGTGGCGATGCCTCATTTGCCAGAGGGTATTATCGTTTCAAACCCAACCAATGCATTTTCAGATGTAATTGAATACGGATTATATGGTGTTGTATTTTCATTTTTACTTGTACTTTTATTCGATACAACAGGTGCATTACTTGGTTTAATTAAACAAGCAGGTTTAATTACAGACAATACAGAGAAGCGTTTTGGTAAAGCGTTTATTGCAGATGCAATTGGAGGGACTACAGGTTCTATCTTTGGAACAAGCCCAACAGCAGCGACGATTGAATCGTCAGCAGGTATTGCTGCAGGTGGGAAAACTGGATTAACAGGGATTGTTGTTGTTGGTCTAACAATTATAACGGCATTTTTCAGTCCTGTTATTGCTTCTTTATCAAGTGTGGCCGCTATTACAGCTCCTTCATTAATTATAGTAGGTAGTTTAATGGCACAAAGCATTCGAGATATTAATTGGAATGAATTTGAAGATGCGTTACCAGCATTTTTGATTTTTATAGGTATTCCGTTAACATCTAGTATTGCAAATGGAATCGCAATTGGATTTTTAGTATATCCAGTTTTGAAAATTGTGAAGGGTAAAGGAAAGGAAGTACATCCATTACTATACTTATTTACAATTTTATTTGGATGTCATTTATTCTTATAA	MFQLQKYNTSVKQEFLAGITTFFTFAYILVINPKILSDAGVPFDQAFTATIIATVVGTVGMAIFANYPIVIAPAMGMNAYFAYSVVQKAEGITYVVAFSAVFVTGIIFLLLSFTSFRQKLILAIPDSLKHAIAGGIGLFIAFIGLRLSGIIVDHPSNLVTIGDFHSPAVILTLIGLILAAVLMALRVSGALFISMIVTGIIAFFTGQLKFADKIVAMPHLPEGIIVSNPTNAFSDVIEYGLYGVVFSFLLVLLFDTTGALLGLIKQAGLITDNTEKRFGKAFIADAIGGTTGSIFGTSPTAATIESSAGIAAGGKTGLTGIVVVGLTIITAFFSPVIASLSSVAAITAPSLIIVGSLMAQSIRDINWNEFEDALPAFLIFIGIPLTSSIANGIAIGFLVYPVLKIVKGKGKEVHPLLYLFTILFGCHLFL	PGPT0007325_5349	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
AK009_04927	201			hypothetical protein	ATGGCTGTAAGTAAAATAAAAGTCGCGCGTGTTCAGTTAGATTTAACACAGCAACAATTAGCAGAAAAAGTAGGCGTTACAAGGCAAACGATTAGTTTAATTGAGAAGGGGAAATACAATCCATCTTTAGATTTATGTTTGAAAATTTGTTATGCAGTAGATAAAACGTTGAATGAGTTGTTTTGGGAGGAAAAGGAGTGA	MAVSKIKVARVQLDLTQQQLAEKVGVTRQTISLIEKGKYNPSLDLCLKICYAVDKTLNELFWEEKE	PGPT0008430_6409	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_04928	429			hypothetical protein	ATGAAAATCGTGAAAGATGAACGTTTAATGATTGAAGGGTTAAAACATATTAGATTGGCTTTCATCTTACAAAATATCGTCATACTAGCTATCATCTTTTACCGCTATGTCTTGCAAGAGGCAGGATATGAAAGTGTTTCGGATTTATTAATGATATTTATTGGCGGGATCGTAGTTATTAACTTCTTAAATTTAAAACATTCTGTAGAGGTATATGAGCACACAGGCGGAGTGTCACGTAGCTATTTCATGAAATTATTATTAATTCCAGTAGGTATTATTATTGGGATATTAGCTGTTTGTATCATTGTAACACCAGATATCTCGATAAAAGAAATAAGTATAACAGCACTTATTATGTTTGCTTGTTTTTTAGTTCCTAGTTTATTTATCTACATATATATGAAAAAGATAAAAAGTGAAGATTGA	MKIVKDERLMIEGLKHIRLAFILQNIVILAIIFYRYVLQEAGYESVSDLLMIFIGGIVVINFLNLKHSVEVYEHTGGVSRSYFMKLLLIPVGIIIGILAVCIIVTPDISIKEISITALIMFACFLVPSLFIYIYMKKIKSED				NA	NA	NA	NA	NA
AK009_04929	438			hypothetical protein	ATGATTACTGTGCAGTATATTGATGCATCCGAGACACACTTATTACGCCAAGCGGTGTTGCGTCCCAATCAGTCCCTAGCAGACTGTAAATACTCTTCTGACTACGAAAAAGACACATTCCACTTAGGTGCCTTTATAAACGATGAGTTAATTAGCATCGCTTCCTTCTCAAAAGAAATATATCCTGATTTGCAAAATGGTATCCATTATAGACTACGAGGAATGGCAACATTACCTAACTTTCGGAACAAAAGAGCTGGAAGCTCCTTAATTCAGAAGGCAGAACAAATTTTAAAAGAACGGAAAGCAAACATTCTATGGTGTAATGGCCGTATTACTGTAACTGACTATTACAAGCGATTAGACTTTCAGGAGCATGGTGAAATCTTTGAAATTGAACCGATTGGCCTTCATAAAGTTTTGTATAAAAAGATATAA	MITVQYIDASETHLLRQAVLRPNQSLADCKYSSDYEKDTFHLGAFINDELISIASFSKEIYPDLQNGIHYRLRGMATLPNFRNKRAGSSLIQKAEQILKERKANILWCNGRITVTDYYKRLDFQEHGEIFEIEPIGLHKVLYKKI				NA	NA	NA	NA	NA
AK009_04930	222			hypothetical protein	ATGTCTATTGTAACTTTAGCTCTCTTATTATTAGCAGAAGTACTCGTCGCCATTATTCTCATCGGTGTTAGCATTGAAATTTGCAGCTATGGTTGGAAAAAATCAAATGGAGTTAAATACTCATGCCTTTTTCTTTCACTCCTTCTAGGAACCGCTAGTATACTCGGCCTTCTCGCTGCACCTGCATACTTCTTTATACAACTTATAGAAAAAGGTTTATAA	MSIVTLALLLLAEVLVAIILIGVSIEICSYGWKKSNGVKYSCLFLSLLLGTASILGLLAAPAYFFIQLIEKGL				NA	NA	NA	NA	NA
AK009_04931	1830	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGGAACATCATACTTCTGTTCTATCACTTATGGTTATCGTTGCAATCGCGTTTTTCGTTCCCCTTTTGTTACAACGCTTTAAATTAAAAGCACTTCCTGTTGTCGTTGCAGAAATTATTGCAGGAATCTTTGTAGGTAAAAGTGGGTTTAATATTATTGAGCCAGATATATGGCTTCAAGTTTTATCAACATTAGGATTTATCTTCCTCATGTTCTTAAGCGGTTTAGAAATTGATTTTTCTATCTTTAAACAAAAAGGGAAAAAAAATACGACAAACGAGCCAAATACATTTCAAGCAGCAAGCATTATCTTCTTATTTATTTTCATCTTATCTTATGCCCTATCATTACTATTCGTATGGCTAGGATTCGTAGATAATGCAATGTTCATGACTTTAATTATTTCAACTATTTCTTTAGGTGTTGTTGTACCAACATTAAAAGAGAACAACCTAGGAAAAACTGCAATCGGACAAATCATTTTATTAGTTGCTGTTATTGCAGACTTAGTTACAATGATTTTACTCGCTGTTTTCGTCGGATTAAATTCCGAAAGCGGCCAAAGTATGTGGCTCTTACTTCTTCTATTCGGTGCCGGTATTGTCATTTACTTTATTGCAAAACGCTTTAAAAACATTCCATACTTAGATAGTTTAAAAGCTGGTAGTGTACAAATTGATACACGGGCTGTTTTTGCACTCATTTTAATCTTAGTTGGTTTATCGGAATCTGTTGGAGCAGAAAATATTTTAGGTGCCTTCTTAGCAGGCGTACTTGTATCGTTATTATCACCAAATGAAGATATGGTTGAAAAACTTGATTCCATCGGCTATGGTTTCTTCATCCCTATTTTCTTCGTAATGGTTGGTGTAAATCTAGAGGTATGGTCTATTTTCAAAGAACCTTCTAGCATGCTAATGATCCCAATCTTAATTGTAGGACTCTTTATTTCAAAACTCTTACCATCACTCGTCTTACGAAAATGGTATCCACGTAATATCGTACTTGGAAGTGCAATTTTATTAACATCGACACTTTCTTTAGTTATTGCGGCTGCACAAATTGGTGAAAAACTGGGGATTATCAGTCCAAGTTTATCTGCCTCTCTTATTTTAAGCGCAGTTATTACTTGTATTTTTGCACCTATATTATTTAAAAAAATGTTCCCAAAAGTAGAAACACCAAAACCAAAAGTAGCTATTATTGGCGCGAGCAGAATTACCCTTCCGTTATCACTAGATTTAAAACGAGAAGATTATGACGTAACGCTATATATGATGCGTCAAAACAAAATAAATGATGAAGAAGCGAAATCACATGACTTTCCTATCGTGAAATTAGATGACATCACAATTGCATCATTAACTGAACAAACAGCATTTGATGCAGATCGCGTCGTTGTTGCAACAAGCGATGATGAACAAAACTTATTATTGGCAGAACATGCAAAAGAGCTAGGTGTTGAACATGTTATTGCAAGTGTAGAAGATCCACTTCTACAAGAAAAAGCAACGCAAGAACATATCGCTGTATTCTCAACAATTAACTCTACACGTATTTTATTACGTGCCCTTATTGATAAACCTAGTCTCGTTCGCTTAATTACAACAGCAAACGAAACAGTACGCGAAGTTGAACTGCGCAGCAATAAATATAACGGCATTGCGCTTCGCCGCCTCCCGTTTTTAGGTGATGTACTTGTCATTCAAATCTACCGCGGTAATAAAGCATTAATACCACATGGTGATACAAGACTACAACACGGTGATACATTACTTGTAACAGGTTCAAAAGAGCATATCGATACACTAAAAAACATATTAGAGTAA	MEHHTSVLSLMVIVAIAFFVPLLLQRFKLKALPVVVAEIIAGIFVGKSGFNIIEPDIWLQVLSTLGFIFLMFLSGLEIDFSIFKQKGKKNTTNEPNTFQAASIIFLFIFILSYALSLLFVWLGFVDNAMFMTLIISTISLGVVVPTLKENNLGKTAIGQIILLVAVIADLVTMILLAVFVGLNSESGQSMWLLLLLFGAGIVIYFIAKRFKNIPYLDSLKAGSVQIDTRAVFALILILVGLSESVGAENILGAFLAGVLVSLLSPNEDMVEKLDSIGYGFFIPIFFVMVGVNLEVWSIFKEPSSMLMIPILIVGLFISKLLPSLVLRKWYPRNIVLGSAILLTSTLSLVIAAAQIGEKLGIISPSLSASLILSAVITCIFAPILFKKMFPKVETPKPKVAIIGASRITLPLSLDLKREDYDVTLYMMRQNKINDEEAKSHDFPIVKLDDITIASLTEQTAFDADRVVVATSDDEQNLLLAEHAKELGVEHVIASVEDPLLQEKATQEHIAVFSTINSTRILLRALIDKPSLVRLITTANETVREVELRSNKYNGIALRRLPFLGDVLVIQIYRGNKALIPHGDTRLQHGDTLLVTGSKEHIDTLKNILE	PGPT0014395_1379	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK009_04932	312	qoxD		Quinol oxidase subunit 4	ATGGCTCAAAACAACAATCAAGCAAATGGGCATGCGCATAGCGGATTCCCTTGGTCACACGTTTTCGGATTTATTTTATCGCTTGCATTAACGTTTCTAGCGTTATACGTGGCACTTTACACAACATTGCCACTTTCAACAGTCTTAACAACTATTATCATCATGGCTGTTGCGCAAGCATTGTTACAATTAATTATGTTCATGCATTTAAAAGAAGGAGAAGGAAGAGTTCAAATTCTTACAATGATATACAGTTTCTTCGTTGCAACTGCAACAGTTGGTTTAACTGTATGGATCTTCTTCTCAATGTAA	MAQNNNQANGHAHSGFPWSHVFGFILSLALTFLALYVALYTTLPLSTVLTTIIIMAVAQALLQLIMFMHLKEGEGRVQILTMIYSFFVATATVGLTVWIFFSM				NA	NA	NA	NA	NA
AK009_04933	603	qoxC		Quinol oxidase subunit 3	ATGGCGGCTTTAGATAAAAGCTTACCTTTGGAATATCAATCCGAACAAAGCAGATTGAATATCCTAGGATTCTGGATTTTTCTTGGGGCTGAAATTATGCTGTTCGCAACACTTTTCGCCTCTTATCTAGTCCTTGCTGGTCGTACGGCAGATGGCCCAACTCCAGCGCAACTGTTTGAACTTAAAACGCTTTTAATTCAAACATTACTACTTTTAACAAGTAGTTTCACATGTGGTATCGTAATTCACGAAATGCGTAAGCACAACCAAAAAGCGATGCTTGGATGGTTCGTCCTTACATTACTTTTAGGTGCAGGTTTCCTATTCTTCGAGATTGAAGAGTTCATTATGTATATTGGTGAAGGCGCAACAATTCAAACAAGTGCTTTCCTATCTGCATTCTTCGTTCTTCTTGGAACGCATGGAGCCCACGTAACAGGCGGTATCATTTGGGCAATTTGTGTTATTATCCAAATTTTAAAACGAGGTCTAACACCAGTTACAGCTCGTAAAGTATTCATTATCAGCTTATACTGGCATTTCCTTGACCTTGTTTGGGTCTTCATTTACACACTAGTTTACTTGAACGGGATGGTGGCGTAA	MAALDKSLPLEYQSEQSRLNILGFWIFLGAEIMLFATLFASYLVLAGRTADGPTPAQLFELKTLLIQTLLLLTSSFTCGIVIHEMRKHNQKAMLGWFVLTLLLGAGFLFFEIEEFIMYIGEGATIQTSAFLSAFFVLLGTHGAHVTGGIIWAICVIIQILKRGLTPVTARKVFIISLYWHFLDLVWVFIYTLVYLNGMVA	PGPT0004035_2642	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK009_04934	1935	qoxB		Quinol oxidase subunit 1	GTGAAGCTTGATGAATTCTTTGTCACAGGTGACCCGATTATTTACGGTGCAGACGCTTCTATCGTTCTTGTGACATTAGCAATCATTTTCGTACTAACAAAGTATAAAAAATGGAAATGGCTTTGGGACGAATGGTTGACAACTGTTGACCATAAAAAAATCGGAGCCATGTATATTATTTCTGCGGTTATCATGTTATTCCGTGGTGGTATGGATGGTTTAATGATCCGTGCACAGTTAACATTCCCAGAAACAACTTATTTAAACGCTGAACACTATAACGGAATCTTTACAACGCATGGTACAGTAATGATTCTTTTCATGGCAATGCCATTCGTTATGGGATTAATGAACCTTGTAGTACCATTACAAATTGGTGCTCGTGACGTTGCATATCCGTTCTTAAATGCTTTAAGTTTCTGGTTATTCTTTGTCGGAGCAATGTTATTCAACATCGCTTTCGTAATCGGTGGTTCTCCAGACGCTGGGTGGACTTCTTACTTCCCAATGGCAGGTACAGAGTTTACTTCAGGCGTAGGAAATAACTACTACGCAATTGCATTACAGATTTCAGGTCTCGGTACGCTAATGACCGGTATTAACTTCCTTGTTACTATCTTAAAAATGCGTACACCTGGTATGACTTTAATGAGAATGCCAATGTTTACTTGGTCAATCTTAATTACAACAATTATCATTATTTTCGCTTTCCCAGTATTAACAGTTGCTCTTGCATTAATGACATTTGACCGTCTATTCGATGCTCACTTCTTTACGATGGCGAGCGGCGGTATGCCGATGTTATGGGCCAACCTGTTCTGGGTATGGGGTCACCCTGAAGTATATATCGTTATTTTACCGGCATTCGGTATTTTCTCTGAAATCATTAGTACATTCTCACGTAAGCGTCTATTCGGTTACAGTGCGATGGTATACTCAATGGTTGCAATTTCTTTACTAAGTTTCGTCGTATGGCTTCACCACTTCTTCACGATGGGTGCAGGTCCAGCGGTTAACTCATTCTTCTCGATTTCGACAATGGCGATTTCGATTCCAACCGGGGTTAAGATCTTTAACTGGTTGTTTACACTGTATAAAGGACGTATTCGTTTTACAGTTCCAATGCTTTGGTCATTGGCATTTATTCCAAACTTCGTAGTCGGTGGGGTTACAGGGGTTATGCTTGGAATGGCAGCAGCTGATTATCAATACCATAACAGCTACTTCCTAATTGCTCACTTCCACTACGTATTAATCGCAGGTACAGTATTCGCTATGCTTGCTGGATTCACATTCTGGTATCCAAAAATGACTGGTCATATGTTAAATGAACGCCTAGGTAAATGGACATTCTGGATCTTTATGAGCGGATTTAACATCTGTTTCTTCCCAATGTACTTCTTAGGTTTAGACGGTATGACTCGTCGTATGTACACTTACTCTGAAAGTCTTGGATGGGGATGGCTAAACCAAATCGCATCTGTTGGTGCGGTAATGATGGGTATTGGCTTCCTACTTCTTTGCTACAACGTAATTTGGAGTGCACGTCACGGTGAACGTGACACAACTGGAGATCCATGGGATGGTCGTACACTTGAATGGGCAACTCAATCTCCTGTACAACATTACAACTTCGCAAAGCTTCCTGAAATTAAAGAAGCTGATGCTTTCTGGTACATGAAAAAACGCGGAGAAACAGTTACACCAGCAGCAGAAGATATCAAACCAATTCACATGCCAAGTAACTCTGGTGTGCCTATTATTGCGTCTTTATTCTTCGGTCTTGCAGGTTTCGCATTAGTATTTAGCTGGTTCTGGCTTGCAGCAATCGGTGGTATTGGTATTTTAGCTTGCTTAATCTATCGTTCATTCGATTATGACGATGGTTACTACGTAAGTGTTGATGAAATTAAAGAAACAGAACATATAGCATGA	MKLDEFFVTGDPIIYGADASIVLVTLAIIFVLTKYKKWKWLWDEWLTTVDHKKIGAMYIISAVIMLFRGGMDGLMIRAQLTFPETTYLNAEHYNGIFTTHGTVMILFMAMPFVMGLMNLVVPLQIGARDVAYPFLNALSFWLFFVGAMLFNIAFVIGGSPDAGWTSYFPMAGTEFTSGVGNNYYAIALQISGLGTLMTGINFLVTILKMRTPGMTLMRMPMFTWSILITTIIIIFAFPVLTVALALMTFDRLFDAHFFTMASGGMPMLWANLFWVWGHPEVYIVILPAFGIFSEIISTFSRKRLFGYSAMVYSMVAISLLSFVVWLHHFFTMGAGPAVNSFFSISTMAISIPTGVKIFNWLFTLYKGRIRFTVPMLWSLAFIPNFVVGGVTGVMLGMAAADYQYHNSYFLIAHFHYVLIAGTVFAMLAGFTFWYPKMTGHMLNERLGKWTFWIFMSGFNICFFPMYFLGLDGMTRRMYTYSESLGWGWLNQIASVGAVMMGIGFLLLCYNVIWSARHGERDTTGDPWDGRTLEWATQSPVQHYNFAKLPEIKEADAFWYMKKRGETVTPAAEDIKPIHMPSNSGVPIIASLFFGLAGFALVFSWFWLAAIGGIGILACLIYRSFDYDDGYYVSVDEIKETEHIA	PGPT0004025_442	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK009_04935	876	qoxA	COG1622	Quinol oxidase subunit 2	GTGCAACTAAAGAAAGCGTTTTGGAAGTTGGCTTCGCTTCTTCCGTTATCATTACTTCTGTTCCTCGGTGGCTGTGATAAAAAACTCGCAGTATTAAATCCGCAAGGACCTGTTGCAAAAGCACAGTATGATTTAATTGTTTGGTCATTCTTGCTTATGTCATTAATTATCGCAATTGTATTCATTCTGTTTACAGTCATCTTGATTCGTTATCGTGAAAAACCAGAGAATATGGACTATGAGCCACCTGAACAACACGGTAACACATTACTAGAAATTATTTGGACGCTTGTTCCTGTTATTATCGTTATCGCATTATCGATTCCAACAGTAAAAGCAACTTATGCTTCGGAAGAGGTTCCGAAAGAGTCCAAACATATTAAACCAGTTGAAATTTATGTTACATCTGCAAACTGGAAATGGTTATTCAGTTACCCAGAGGAAAAAATTGAAACCGTTAACTATTTAAATATCCCAGCTGGTGTACCAATTCAATTCAAACTGACTTCTGTCGGCCCAATGAATGCTTTCTGGGTACCAGAACTTGGTGGTATGAAGTACACAATGGATGGCATGATTATGGATCTTTATTTACAAGCTGATAAGCCAGGTTCTTACCTAGGCCGTAGTGCGAACTTCTCTGGTGAAGGATTCACACACATGGAGTTCGAAGTTGAAGCAAAAACTAAAGAGAAATATGACAAGTGGGTTAAAGAAGTACAAGAAAAGGCTGATAAGTTAACCGAAGAGAAGTACAACGAAATTATTAAACCTGGTGTAGTTGGACGCATGACGTTCTCTAGTCACCACTTAAGTTATGTAGATCCAAAATCACTTGAATATTGTGATTACAACTACTACAAAAACAAAAAATAA	MQLKKAFWKLASLLPLSLLLFLGGCDKKLAVLNPQGPVAKAQYDLIVWSFLLMSLIIAIVFILFTVILIRYREKPENMDYEPPEQHGNTLLEIIWTLVPVIIVIALSIPTVKATYASEEVPKESKHIKPVEIYVTSANWKWLFSYPEEKIETVNYLNIPAGVPIQFKLTSVGPMNAFWVPELGGMKYTMDGMIMDLYLQADKPGSYLGRSANFSGEGFTHMEFEVEAKTKEKYDKWVKEVQEKADKLTEEKYNEIIKPGVVGRMTFSSHHLSYVDPKSLEYCDYNYYKNKK				NA	NA	NA	NA	NA
AK009_04936	1410	rocC_3	COG0833	Amino-acid permease RocC	ATGAATCAACAAATTGAACAAACAAATTTAAAACGAACAATGAAAAGTAGACACCTATTTATGATTGCACTCGGTGGTGTTATCGGAACCGGGCTATTTATGGGATCTGGTCAAATCGTCCATAATGCCGGACCTGGTGGCGCTATTCTTGCATTTTTAGTCGGTGGATTTGTTATGTATTTAACGATGTTATGTCTTGGTGAATTATCTGTTGCTATGCCAGAAGCAGGTTCATTCCAAAGCTATGCAAGCAAATTCATTTCACCTGGTTTTGGATTTGTTGTCGGTTGGATGTATTGGTTAAATTGGGCTGTTACAGTTGGCGTAGAGTTAACAACTGTAAGTATTTTAATGAAACGCTGGTTTCCAGACGTTTCTTCATGGATTTGGTGCGTTACATTTGCAGCAGCGCTCTTCCTCGTAAACGCTTTATCAGCAAAAGCATATGCAGAAGCAGAGTTTTGGTTCGCAAGTGTAAAAGTTGCAACAATCGTTATTTTCATCGTACTTGGTGGCGCTGTTATGTTCGGTTTACTAGACTTTAATGGAAAGCCAGCTCCGATGCTTCATAATTTCACTGAAAATGGCGGGCTATTTCCAAACGGTGCATTAGCTGTTCTTCTTACGATGATTACAGTAAATTACTCCTTCCAAGGAACAGAATTAATCGGAATCGCTTCAGGAGAAAGTGAAAATCCTGAAAAAACAATTCCAAAAGCGATCAAAAATACAATTTGGCGAACTCTCTTCTTCTTCGTCTTAGCGATATCAGTTGTTGTAGGTTTACTCCCATGGCAAGAGGCTAATCTAGTCGAAAGTCCGTTTGTACTTGTTTTTGATGTAGCCGGGGTCCCATATGCAGCAGACATTATGAACTTTGTTATTATTACAGCTGTATTATCCGTTGCTAACTCTGGTCTATACGCAAATTCTCGTATGCTGTGGGCGATGGCAAAACAAGAAATGGCAAGCCCAGCATTTACGAAATTAACTAAAAAAGGTGTACCGCTAAATGCATTAATTTTCAGTCTGATTTTTGCTAGCCTTTCCTTATTAACAAGTGTATTTGCGGCAGATACTGTCTTTCTAGTTTTAACATCTATTGCAGCAATGGCTGCCGTTGTCGTTTGGATGTCAATTGCCGCTTCACAGTTTTTCTTCCGTAGAAATTTCGTGAAAAATGGTGGCGACATAAATGATTTAAAATATCGTACACCGCTCTATCCGCTAGTTCCAATCGTGGCGTTCTTACTCAATTTCATTACATTTGTTAGTTTGGCTTTCATTCCAGATCAAAGAATTGCTCTTTATTGTGGCATTCCATTTATGATTATTTGTTACATTTTATACCAAGTTAAATATAAAAAAATTGTCACACTTGAACAGCCACGAACTATCACACAAAAATAA	MNQQIEQTNLKRTMKSRHLFMIALGGVIGTGLFMGSGQIVHNAGPGGAILAFLVGGFVMYLTMLCLGELSVAMPEAGSFQSYASKFISPGFGFVVGWMYWLNWAVTVGVELTTVSILMKRWFPDVSSWIWCVTFAAALFLVNALSAKAYAEAEFWFASVKVATIVIFIVLGGAVMFGLLDFNGKPAPMLHNFTENGGLFPNGALAVLLTMITVNYSFQGTELIGIASGESENPEKTIPKAIKNTIWRTLFFFVLAISVVVGLLPWQEANLVESPFVLVFDVAGVPYAADIMNFVIITAVLSVANSGLYANSRMLWAMAKQEMASPAFTKLTKKGVPLNALIFSLIFASLSLLTSVFAADTVFLVLTSIAAMAAVVVWMSIAASQFFFRRNFVKNGGDINDLKYRTPLYPLVPIVAFLLNFITFVSLAFIPDQRIALYCGIPFMIICYILYQVKYKKIVTLEQPRTITQK	PGPT0000815_686	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_04937	711			hypothetical protein	ATGAAAAAGTTAAAATATCTTTTTGTTTTTGGTATTATACTTGCTGCTGCATTTTTTATAGGGAAAGATAAAATCATGCAAAAGGCGCAAGTTTTACGCTTAGAGTTTCTATCTGAAATGAAAGAAGCAGCTATGATTGAAGATGTTCCGTTTATTAAACAATTACCAGAATTACCTCGAGGATGTGAAGTGACAAGTTTAGCTATGTTGCTGCAATATAAAGGTGTACAAGTAGATAAGATGCAACTTGCTAGCGAAATTTATCGTGTTCCATTTGAACAAAATGGTTTGCGTGGAAATCCTTACGAGGGGTTTGTAGGAAATATTTATACAAAGGAAAAGCCTGGATATGGTGTATACAATAAACCAATCTTTGATTTAGCAGAAAAATATGTTCCTGAAAAAGTAATTAATTTAACAGGTAGAGACATGCAAGATATATATAAAGTAATTAGTTCTGGTTCCCCGGTATGGGTCATTATTAATACGACGTTTAAGCCGCTAGCTGAAAGTAGTTTTGAAACATGGAATACGAGTTCAGGCGAAGTGAAAATTACATATTATGAGCATAGTGCAGTAGTAATTGGATATGATCAAAACTTTGTATATGTAAATGATCCTCTGAAAAATAATCCACGTTTGGCTGTTCCACGAGCAGAATTTGAGAAAGCTTGGGAGCAAATGGGAAAACAAGCGATTACTATTTTATAA	MKKLKYLFVFGIILAAAFFIGKDKIMQKAQVLRLEFLSEMKEAAMIEDVPFIKQLPELPRGCEVTSLAMLLQYKGVQVDKMQLASEIYRVPFEQNGLRGNPYEGFVGNIYTKEKPGYGVYNKPIFDLAEKYVPEKVINLTGRDMQDIYKVISSGSPVWVIINTTFKPLAESSFETWNTSSGEVKITYYEHSAVVIGYDQNFVYVNDPLKNNPRLAVPRAEFEKAWEQMGKQAITIL				NA	NA	NA	NA	NA
AK009_04938	1176			N-acetyldiaminopimelate deacetylase	ATGGATGTTGCAAAGGAACTTGTTTTGTCAAAAAATCAGTTAGTTGAGTGGAGAAGGCATTTTCATAAGTATCCAGAGTTATCTTTTCAAGAAGAAAAAACATCGCAGTTTGTGTTCGATATACTTCGGAAATGCCCATATTTAGAAGTGTCACGGCCGACTAAATATAGTGTGATGGCAAAGTTAGTAGGTAAACAGCCGGGCAAAACAGTTGCGGTTCGAGCCGATATGGATGCTCTTCCTATTCATGAAGAAAATGAGTTTGATTTTATTTCTACATATAAAGGTGTGATGCATGCGTGTGGTCATGATGGACATATAGCGATATTACTTGGGGTTGTATATAAGTTAGTAGAAGCAAGAGAGAAGATTAAAGGGGAGATTCGTTTTCTATTCCAACATGCTGAAGAAAATTTTCCTGGTGGTGCAGAGGAGATGATTGCGGCAGGTGTAATGGAAGGTGTGGATTATATCATTGGTGCTCACCTTTGGGCGTCGTTAGAGGTTGGGAAAATAGGCGTTATTTATGGTCCTGCAATGGCTGCACCGGATGTTTTTAAAATTAGGATAGAGGGAAAAGGTGGACATGCTGGAATCCCTCATGAAACGGTGGATAGTATCGCAATCGGTACACAAGTTGTTTCGCAACTTCAGCAAATTGTATCTCGCCTCACGAATCCATTAGATTCTCTCGTAATATCCGTTACTCAATTTCATGCGGGGACAACTCATAATGTAATACCAGAGCAAGCGGAGATTGAAGGGACAGTGCGAAGTTTAAGACATGAGTTACGAGGTGAAACAGAGAAGAAGATTGAGCGGATTGTGAAGCATATTACGGAATCTTACGGAGCGAAATATACGTTTTCTTATGAATATGGATATCGACCAGTTGTAAATAATTATGAAGTTACAGAGCTTATTGAACAAACGGCATTACAACTTTATGGAAGAGATAGAGTTGTTCGTTTGCAGCCGACGATGGCTGGAGAAGATTTTTCGGCGTTTTTACAAAAGGTACCAGGGACATTCTTTTTTATCGGAGCGGGAAATAAAGAGAAAGGTATTATATATCCTCATCATCATCCTCGTTTTACAATTGATGAAGATGCATTACCGATTGGAGTGGAAGTCTTTGTATCAGCCATTATGAATTTTATAAGTAAAGGAGAATGA	MDVAKELVLSKNQLVEWRRHFHKYPELSFQEEKTSQFVFDILRKCPYLEVSRPTKYSVMAKLVGKQPGKTVAVRADMDALPIHEENEFDFISTYKGVMHACGHDGHIAILLGVVYKLVEAREKIKGEIRFLFQHAEENFPGGAEEMIAAGVMEGVDYIIGAHLWASLEVGKIGVIYGPAMAAPDVFKIRIEGKGGHAGIPHETVDSIAIGTQVVSQLQQIVSRLTNPLDSLVISVTQFHAGTTHNVIPEQAEIEGTVRSLRHELRGETEKKIERIVKHITESYGAKYTFSYEYGYRPVVNNYEVTELIEQTALQLYGRDRVVRLQPTMAGEDFSAFLQKVPGTFFFIGAGNKEKGIIYPHHHPRFTIDEDALPIGVEVFVSAIMNFISKGE				NA	NA	NA	NA	NA
AK009_04939	198			hypothetical protein	ATGAAGAAAATATACATCCTAGCGCTTATTCCAGTTCTTTGTTTAGTAGTTGGGCCAATATTTGCGAATTCAGTTACTCCTTACGTATTAGGGATGCCATTTTTATTATTTTGGGTATTATTATCAGTGTTTATTACATCTCTTTGTATGGGGCTTGTGTACGTGTTTGATCCCGCTAATAAGGAGGATGTAAAATGA	MKKIYILALIPVLCLVVGPIFANSVTPYVLGMPFLLFWVLLSVFITSLCMGLVYVFDPANKEDVK				NA	NA	NA	NA	NA
AK009_04940	1473	yodF	COG0591	putative symporter YodF	ATGACTGCATTACTTATCATTATTTTATTTTTGTTTCTCGCACTATTTTTAGGGATTCGGGCACAACATGGAAAAGATATGAATTTAGAGCAATGGTCAGTTGGGGGAAGAGGATTTGGCACTATTTTTGTTTTTCTCCTGATGGCAGGTGAGATTTATACGACGTTTACATTTTTAGGGGGAAGCGGCTGGGCGTATAGTAAAGGAGCACCTACCTTTTATATTTTGGGATATGGTGCTTTAGCTTATCTTTTATCGTATTTTTTATTACCACCAATTTGGAAGTATGCGAAAGAGCATAACCTTGTTTCGCAGTCGGATTTTTTTGCGAAGAAATATAGAAGTAAAGCGCTTGGACTTATTGTTTCAGTTGTTGGTGTTGTTTCCATCATCCCATATCTTGTTTTACAGTTAAAGGGACTGGGGATTATCGTTTCAGAAGCTTCTTACGGAAGGGTGTCACCTGTTGTTGCAGTATGGATTGGTGCTATTGTTATAACTATATATGTAATGGTTTCAGGTATACACGGTTCGGCTTGGACGGCTGCTTTGAAGGATATTATGATACTGTTTATCGTTATGTTTTTAGGTATATATTTACCGTATCATTATTATGGAGGATTTCAGCCTATGTTTGAGGCTGTAGAAGCAGCAAAGCCGGGATTTTTATCTTTACCTGAAGAAGGAATGAGTATTTCTTGGTTTGTTTCTACTATTATATTAACGGCCCTAGGTTTTTATATGTGGCCTCATACATTTGCTTCTGCTTTTTCTGCAAAAAATGAAAAAGTATTTCGTAAAAATGCAGCAATTATGCCATTGTATTCTTTAGTGTTACTTTTCGTATTTTTTGCAGGGTTTGCTGCTATATTGCAAGTTCCTGGGTTAAAGGGAGCGGATGTGGATCTTTCGTTATTCCGTCTTGCTTTACAAACTTTTGATCCTTGGTTTATTGGAATTATTGGTAGTGCGGGAGTATTAACGGCGTTAGTTCCAGGCTCTATGCTTGTTATGGCGGCTTCTACACTGTTAGCGAAAAATATTTATCGAACGATGGTTCCATCTGCTTCAGATAGACAAGTTGCTAAAGCTGCAAAGTTATTTGTACCTGTAGTAACGCTCGTAGCAGTTTTATTTACATTTAAAGGAGGAGAAACAATAGGAGCCCTTCTATTAATGGGGTACAGTATTGTTACACAACTTTTCCCTGCACTTGTATGTAGCTTGTTTCCACGTCAGGTTATTACAAAGCAAGGAGCGATTGCAGGAATGGGAATGGGGTTATTAGTTGTTGCATATATCACTTTATCGGGCTCTAATATAGCTACGATGTTTCCGAGTTTTCCGCAGTCTATAAAAGATTTAAATGTAGGTATAGTCGCATTGTTAATTAATATGATTGTGATGTTTGTAGTTAGTGGATTTACAAAAAGTGTATCTATAAAGAAAAACAGCATAATAGTAGAAAAGTAA	MTALLIIILFLFLALFLGIRAQHGKDMNLEQWSVGGRGFGTIFVFLLMAGEIYTTFTFLGGSGWAYSKGAPTFYILGYGALAYLLSYFLLPPIWKYAKEHNLVSQSDFFAKKYRSKALGLIVSVVGVVSIIPYLVLQLKGLGIIVSEASYGRVSPVVAVWIGAIVITIYVMVSGIHGSAWTAALKDIMILFIVMFLGIYLPYHYYGGFQPMFEAVEAAKPGFLSLPEEGMSISWFVSTIILTALGFYMWPHTFASAFSAKNEKVFRKNAAIMPLYSLVLLFVFFAGFAAILQVPGLKGADVDLSLFRLALQTFDPWFIGIIGSAGVLTALVPGSMLVMAASTLLAKNIYRTMVPSASDRQVAKAAKLFVPVVTLVAVLFTFKGGETIGALLLMGYSIVTQLFPALVCSLFPRQVITKQGAIAGMGMGLLVVAYITLSGSNIATMFPSFPQSIKDLNVGIVALLINMIVMFVVSGFTKSVSIKKNSIIVEK	PGPT0013955_4356	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
AK009_04941	1479	gerBA_4		Spore germination protein B1	GTGGGGAAATTGTTAGAGCTTGAAGGTAACTTATTTGAAGTTATGAAAGAAATTAGGGATGAGTTAGGTTCACCTAATGATTTAACAATTAGAGAAGTTGCTCTTGCTGGGAGTTTTACACGTTGTGCGGTTGTGTTTTTATGTGGATTAACAGACAAGGATAATGTTTATAAATATGTCGTTCGTACGCTGCAATACGAAGAAATTCCAAGTGAGGAAGCCGTTGTTCAAACGTTATTGGATCGTTTTATTTCTATCGCAGAAGTGGGTGTAAAGACGAAGTTTCCAGACATTATGAATGCGATTTTAGCGGGAGATACGGTTATATTAATTGATAATATTCAAACGGCTATCGTGATTAATAGTAGAGCTTGGGAAAAAAGAAGTTTAGAACCACCAGTAACTGAAGATTTAATACGTGGACCGAGGATCGGATTAAATGAAGATATTAATGTGAATAAAATGTTAATCCGACGTAGTTTACGTGATCCAAAGTTGAGGTTCCAATCTTATATTATGGGGAAGCGATCGCAGAAAGAAGTAACCCTAGTATATATAGAAGATATTATTAATCCTCACATTGTAAAAGAGTTGGATCGCCGTCTTCAATCAATAGTGACAGATGTCGTTTTGGAAACAGGTACGATTGAACAATTAATTCAGGATAATAATTTATCCCCATTTCCACAGTTTTTGAATACAGAGAGGCCTGATAATATTATAGCCTCATTAGCGAAAGGAAAGGCAGCCATTTTGGTAGACGGATCCCCATTTGCTCTTATTGCGCCACTCGTATTTGTTGATATTTTTCAATCTGTAGAAGATCATTACGAGCGCTGGGTGATTGGAACGTTATTACGATTTTTACGTATGGGTTCAGGTATAATTGCGGTTTTGTTACCAGCTATGTATGTAGCACTTGTATCTTACCATCAAGGACTTATTCCTTCTAAACTGGCTTATTCAATTGCAGGTGCTAGGGAAGGTGTTCCGTTTCCAGCGTATATTGAAACGTTAATGATGGCCTTGACTATGGAATTAATACGAGAAGCTGGAATCCGATTGCCGAAACCGATGGGACAAACGATAGGGATTGTAGGAGGTCTTGTAATTGGAGAAGCTGCGGTAAATGCAGGGATTGTAAATCCATTTTTAGTTATTATTATTGCAGTTACTGCGATTGCTACATTTTCGCTTCCTGTATATAGCATTACAATTACGTTCCGAATTTTACTTTTCGTCTTTGTATTAGCTGCAACGGCTTTTGGTTTGTATGGGATTATTCTAGCTCTGATCGCACTTGCTATTCATATTACAAATTTAACAAGCGTTGGTATACCGTATACAACTCCAATTGCTCCTGCATTTTATAAAGATTGGAAAGAAGAATTTATTCGCATGCCAAAATCGATGTTGAAAGATAGACCAGAGTACTTACAAACAAAAGATTCTACAATACGTCCAAAGGAGCGAAAATAA	MGKLLELEGNLFEVMKEIRDELGSPNDLTIREVALAGSFTRCAVVFLCGLTDKDNVYKYVVRTLQYEEIPSEEAVVQTLLDRFISIAEVGVKTKFPDIMNAILAGDTVILIDNIQTAIVINSRAWEKRSLEPPVTEDLIRGPRIGLNEDINVNKMLIRRSLRDPKLRFQSYIMGKRSQKEVTLVYIEDIINPHIVKELDRRLQSIVTDVVLETGTIEQLIQDNNLSPFPQFLNTERPDNIIASLAKGKAAILVDGSPFALIAPLVFVDIFQSVEDHYERWVIGTLLRFLRMGSGIIAVLLPAMYVALVSYHQGLIPSKLAYSIAGAREGVPFPAYIETLMMALTMELIREAGIRLPKPMGQTIGIVGGLVIGEAAVNAGIVNPFLVIIIAVTAIATFSLPVYSITITFRILLFVFVLAATAFGLYGIILALIALAIHITNLTSVGIPYTTPIAPAFYKDWKEEFIRMPKSMLKDRPEYLQTKDSTIRPKERK	PGPT0025115_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK009_04942	1125	yndE_5		Spore germination protein YndE	TTGAAACCATTTGAGTATGGCGATGAAGAGATTGGATCTCGGGAAATTGGGTTTGCGGTATCATCGACCATTATTGGTATAGGAGCATTGTCTATGCCAAGAGATATCGCTAACCAAACTTTATTTTCGGACGGTTGGATTATTTTGCTTTTGGGTGGATTGATCTGTACAGTTTTAGGTTGGTTTGTGACGAGGGTGGCGATCTTATTTCCGAAACAAAATTTTGTTCAATATACGAGTGCGCATTTGACGAAGCCTGTTGCATACACAATTAGTAGTATTTTAGTATTAACGTTTGCTGCTTTGACAGCATATGAATCGCGAATGATTTCAATTATTTCTCAAACGTATTTATTTAGTGATACACCGATACAACTACTGTCTTTCTTCTTCTTGCTAGTTGTTATTTATGGAATAGCAGGATCAAGAGCAGCCTTATTAAGGTTAAATGTTTTATTCTTACCTATTGTTTTAATTGCGATAGTACTTCTTTCTTTATTGAATATAAATTTAATGGAAATAAATAATTTACTACCAGCTTTTCAAACGAAAGTAAGTCAATATGCTGTTGGAGTTAAAAATTCTATTTTTACGTTTATTGGATTTGAAGTAGCTTTATTTTATGCGGTGTTGCTGAATGATAAGTCAGCGAAAAAAGCGCCAATGGCAGTCGCGAAAGCGGTGATGGTAAACGTGTTGTCATACATTTTAATTTATGTAACTTGTATTAGTGTTTTTACGTATATGACCACACGTGGATTGACATATCCAACAATTGAATTAGGGAAAGAAATTGAAATTGGCGGAGGGTTTTTAGAAAGGTTCGATGCGATTTTTTTTACGACTTGGATTATTACTATTTATAACACTACAGCAATGTATTATGACGTCGCATCTTTATTGTTTTGTGCTATGTTTCCGAAAGTGAAGAAACATATTTTTATTTTCGTAAGTGCCCCTATTATTTTTATGGCGAATATGATACCTAGTAGTTTGAATGCTTTATCAAGTTATGGGACTTATTTAGCTTGGATAGATATGGGGTTTGTTGTGTTAGCGCCTTTGCTCGTTTTAATTGTATATAAAATAAAAAGAAGGAATGGTGGAAATGAAACACCTTCTTAA	MKPFEYGDEEIGSREIGFAVSSTIIGIGALSMPRDIANQTLFSDGWIILLLGGLICTVLGWFVTRVAILFPKQNFVQYTSAHLTKPVAYTISSILVLTFAALTAYESRMISIISQTYLFSDTPIQLLSFFFLLVVIYGIAGSRAALLRLNVLFLPIVLIAIVLLSLLNINLMEINNLLPAFQTKVSQYAVGVKNSIFTFIGFEVALFYAVLLNDKSAKKAPMAVAKAVMVNVLSYILIYVTCISVFTYMTTRGLTYPTIELGKEIEIGGGFLERFDAIFFTTWIITIYNTTAMYYDVASLLFCAMFPKVKKHIFIFVSAPIIFMANMIPSSLNALSSYGTYLAWIDMGFVVLAPLLVLIVYKIKRRNGGNETPS	PGPT0025120_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK009_04943	1167	gerBC_2		Spore germination protein B3	ATGAAACACCTTCTTAAAATTATAATGGTTATGACTTTAACTGGATTTATGAGTGGGTGTTCTGAGTTAGAAGAGATAGAAGAAAGAGGATTTGTAGTAGGAGCGGCTTATGATATCGTGAAGGAGAAGAAAGCGAATCCAATTATGAAAGGGACGTATCAAATGGTACTTCCTAGTAAGTTAGCGCAGCAAGGTGGACAAGGTGATGGAGATGGCGAAAATTATATTAATGTTAGTGCGAAAGCAGATAGTGTGTTTGAACAAATAAGAATAATCGCTAAAAAAATTAGTCGTACATTATTTTTCCCTCATATACAAGTGATTATTTTCTCTGAAGAATTACTTTCACATCCATACATTTTACAAAATACGTTAGATGTATATATTCGCGATCATGAAATGAGAAGAAATATTCGTTTGTTTGTTTCAAAGAAAAATGCAGAATCTATTTTAAAACAGAGTGCAAAACCTGAAAATTTACCGGCGCAGTATATTGATATGTTAGCTGAACACCCTCCGAAAAATGCCCAAATGATTGAGGCTGCAAGAATTGGTGAGGTACAGGAAAAGATGATCTCTAACCGGAGTTTTGTATTACCTATTCTTGAACTAACAAAACAAGGGGTGCAAATGGACGGTGCAGCATTGTTTCGTGGAAAGGATAATAAGTGTGTAGGCAACTTGAGTGGGGAAGAAACATTAGGGATGAATTATATAATAGGTAAAAAAATTGGAGGTTTTTTTACCATTCGTAAAAAGGATCAACTTATTACATATGAAATTCATAAGTTGCGTCGAAAAATTAAAGTATCTACAACGAATGCTACAAAACCAAAGTTTAATATTCATTTATCTCTGGAAGGTACAATAGCTGAGTTGCATTTTAGTGATCATAAAAAGGTTTTGAATGAAAAGCGTTTAGAGAAGGATATATCGGAAGAAATGGAGAAGCGTATTCAAAAATCAATTAAACTTGTTCAAAAAAAATATAAGGTAGATGTATTAGAGTTAGGGGAAGTGTATAAGCGACATAATTATAAAGAGTGGAAAAAGGTAAGTAAGAATTGGGATCAAGGCGAAAATTACTTTAGTAAAGCTGAAATTACTGTTCATGTTCACCCGACGATTGAGCATTCAGGCTCGGCTTTACCTAAAAGAGTGAAATAA	MKHLLKIIMVMTLTGFMSGCSELEEIEERGFVVGAAYDIVKEKKANPIMKGTYQMVLPSKLAQQGGQGDGDGENYINVSAKADSVFEQIRIIAKKISRTLFFPHIQVIIFSEELLSHPYILQNTLDVYIRDHEMRRNIRLFVSKKNAESILKQSAKPENLPAQYIDMLAEHPPKNAQMIEAARIGEVQEKMISNRSFVLPILELTKQGVQMDGAALFRGKDNKCVGNLSGEETLGMNYIIGKKIGGFFTIRKKDQLITYEIHKLRRKIKVSTTNATKPKFNIHLSLEGTIAELHFSDHKKVLNEKRLEKDISEEMEKRIQKSIKLVQKKYKVDVLELGEVYKRHNYKEWKKVSKNWDQGENYFSKAEITVHVHPTIEHSGSALPKRVK	PGPT0025125_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312	NA	NA
AK009_04944	1401	feoB_2	COG0370	Fe(2+) transporter FeoB	ATGGAATCTCACTCAGCCAGTAAAGCTCTTCCATTAGACTATATTATTCAACATGCACAAACACTTTCAAATGAAGATATACGAGATGATATAGTCGGAGATATTTACCGAACATCTGCAAGCATATGTAAAGAATCCGTCCAATATACAAATACTGATAAATTATATCGTTCCGAAAAACTAGATAAAATTTTCACATCTCCAATCTGGGGATTCCCAATTATGCTCGGTATTTTATCTATTATTTTTTATCTTACAATCGCAGGCGCTAACGTACCATCTGATATGATTGCCGAATTCTTCGGATGGGTCGAAGGATATTTAACATCTTGGTTCCAAGCAGCGCATGCACCTGAATGGTTACATGGCATTTTAATACTTGGTTTATTCCGTGGTATCGGAGCTGTTATTAGCGTTATGTTACCACCTATGGCAATCTTTTTCCCTATGTTCGCGCTACTAGAAAACTACGGATACTTACCACGTGTCGCGTTTAATATGGACCGCTTATTCAAACGATCCGGCGCACACGGGAAACAATCTTTAACAATGGCAATGGGATTTGGTTGTAATGCAGCAGCCATTATGTCAACACGTATCATTGAATCACCACGTGAACGTATGCTAGCAATTTTAACGAACAACTTCGTTCCTTGTAACGGTCGCTGGCCTATGTTAATTTTAATGGCTTCACTATTTATGGCTGCTGGTTATACAGGCAGTATGCAAACATTGGTTACTGCTGGCGTTGTAGTTGGAATGGTTGTAATTGGTGTTATTATGACATTAACTGTTTCTTGGGTACTATCAAAAACAGCCTTAAAAGGGGTTCCAACTCACTACACACTTGAGTTACCTCCGTACCGCAAGCCAAAAGTTTGGAATACAATTGTTCGCGCAACACTCGATAAATCAATCTATGTTTTAAAACGAGCTATAGTTGTTGCTGCCCCTGCGGCTGCATTAACTTGGTTACTTGCTAACATTTTTATCGGTGACACAAGCTTACTTATGTATTTTGTAAACTTCCTAGATCCATTTGCTAAAATGTTAGGACTTGACGGGTTTATTCTAGCTGCATTCATTCTTGGACTACCCGCTAATGAAATTGTAATCCCAATTTTATTAATGTCTTACTTATCAACTGGGGCTTTAACTGAAATAGATGATTTTAATCAAATTAAAAATCTATTCCTAGAAAATGGTTGGACTTGGTTAACAGCGTTAAACACAATGTTGTTCTCACTTCTTCATTTCCCGTGTGGAACAACATTGGTTAACATATATAAAGAAACAAAAAGTGCAAAATGGACATTCTTATCGTTTGCAATCCCTACCGTTATCGCCATTGTTGTTACATTCCTCTCTACACAATTGGTACATTGGTTAGGGCTTGTATAA	MESHSASKALPLDYIIQHAQTLSNEDIRDDIVGDIYRTSASICKESVQYTNTDKLYRSEKLDKIFTSPIWGFPIMLGILSIIFYLTIAGANVPSDMIAEFFGWVEGYLTSWFQAAHAPEWLHGILILGLFRGIGAVISVMLPPMAIFFPMFALLENYGYLPRVAFNMDRLFKRSGAHGKQSLTMAMGFGCNAAAIMSTRIIESPRERMLAILTNNFVPCNGRWPMLILMASLFMAAGYTGSMQTLVTAGVVVGMVVIGVIMTLTVSWVLSKTALKGVPTHYTLELPPYRKPKVWNTIVRATLDKSIYVLKRAIVVAAPAAALTWLLANIFIGDTSLLMYFVNFLDPFAKMLGLDGFILAAFILGLPANEIVIPILLMSYLSTGALTEIDDFNQIKNLFLENGWTWLTALNTMLFSLLHFPCGTTLVNIYKETKSAKWTFLSFAIPTVIAIVVTFLSTQLVHWLGLV	PGPT0003700_3640	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK009_04945	723	feoB_3	COG0370	Fe(2+) transporter FeoB	ATGAGCAAACATCGTATTGCTTTAGCTGGCAACCCGAATACCGGGAAAAGTACATTATTTAATACTTTGACAGGTTTAAAACAACATACTGGAAATTGGACAGGAAAAACTGTTTTAAAAGCTGAAGGAGAATATGAACATAACGGAAGTACTTATACATTAATAGATTTACCTGGAACTTACTCATTATACTCAAATTCCGCGGACGAAGAAGTGGCGAGGGATTATATTATATTTGAAAAACCAGAAGTAACTGTAGTTGTCCTAGACGCAACTGCTATGGAAAGAAATTTAAATTTAGCACTCCAAGTGATGGAAATGACAAACAACGTAGTCATTTGCATTAACTTAATTGATGAAGCCGAGAAAAAAGGTATTGTTATTGATGAAAAAAAATTAGCAAAATCACTTGGTGTACCTGTAGTTAAAATTTCAGCACGTAACCGAGTAGGCATTGGTCATTTACTAAATGTTATTGCAAAAGTATCAAATAAAAAACTAATTCCAACACCAATTAAAATTACTTACAGCGAAAAAGTCGAAAATATGATTCAAGAATTAGAACCACAAATTTATAAGGTGTTCGGTGATACGTATCCAGCACGTTGGATTGCGTTACGTATATTGGATGGAGATAAAAATTTCTTAACTACACTTCAAAAACACCATAATGAACCACTTGTAAGGGAGGTCATAATTAATGGAATCTCACTCAGCCAGTAA	MSKHRIALAGNPNTGKSTLFNTLTGLKQHTGNWTGKTVLKAEGEYEHNGSTYTLIDLPGTYSLYSNSADEEVARDYIIFEKPEVTVVVLDATAMERNLNLALQVMEMTNNVVICINLIDEAEKKGIVIDEKKLAKSLGVPVVKISARNRVGIGHLLNVIAKVSNKKLIPTPIKITYSEKVENMIQELEPQIYKVFGDTYPARWIALRILDGDKNFLTTLQKHHNEPLVREVIINGISLSQ	PGPT0003700_1832	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK009_04946	258			hypothetical protein	ATGGTATCGGCTAATACTAAACCCCTTTCCGATTTTAAAACAGGGGAATTTGTACAAATTGAGAAGATACAATTAGAAGGAACTATGAAACGACGTTTATTAGATTTGGGATTTATCCCTGGGGCAACGATTAAAGTATTGCAACGCAGTCCACTTGGAGATCCGGTCGCCTATCAAGTGAGCAACACAACTATTGCACTGCGAAAAGAAGAAAGTTCCCTTATTTTCGGGGTATTAATAGGAGATGATTTCAGATGA	MVSANTKPLSDFKTGEFVQIEKIQLEGTMKRRLLDLGFIPGATIKVLQRSPLGDPVAYQVSNTTIALRKEESSLIFGVLIGDDFR	PGPT0003695_827	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
AK009_04947	903	pstS1	COG0226	Phosphate-binding protein PstS 1	ATGGTTATGAAAAAAGGTATTAAATTCTCTTTAGCAGCTTTAGTGGTAGCAGGAGCATTAGTTGGGTGTGGAAAAGCAGAAGATACAACTAGTAAAGAAACTGCTAAAGGAAGCGATAATACAAAACAAGAATTATCGGGTACGATTGCAGCAGCTGGTTCTACAGCTCTTCTACCTCTTGCGGAGGAAGCTGGAAAGAAATTCATGGAGAAAAATTCAAAAGTTTCTATTCAAGTTCAAGGTGGCGGTAGTGGAACTGGGATTAACCAAGTAGCATCTGGTGCAGTGCAAATTGGTAATTCAGATGTTCCGTCCGGAGATAAAATAAAAGATGCTGAAAAGGCGAAAGAATTAGTAGATAACAAGGTAGCGGGTATTGCATTCGCTCTTGTTGTAAATAAAGATGTAAAAGTTGATAACTTAACAGTGCAACAAGTACAAGATATCTTCACTGGAAAAGTAACAAACTGGAAAGAAGTAGGCGGAAAAGATGAAAAAATCAACGTAATTAATCGTCCAGCTTCATCTGGTACACGTGCTACATTCGAAAAAACAATTATGAAAGACGCAAAAATCAATGATGGAACTGGAACAACACAAGATTCTAACGGTGCAGTAGAGCAAGCTATCAATTCTACTCCAGGTTCAGTAAGCTATTTAGCAATGTCTTACATGGTGGGTGATAAAAAAGGTGCACTGCAAACAGTGAAAATTGATGGTGCTGATCCAAAAGTTGAAAACATTGCGTCTGGTAAATATCCATTCTGGTCTTACGAGTATATGGTAACAAAAGGTGAAGCGAAAGAAGCAACAAAAGCTTACATCGATTATGTAAAAGGTAAAGACTTTGAAAAGCAAGTAGAAGATATGGGCTACATTCCAATGTCTAAATTAAATAAGTAA	MVMKKGIKFSLAALVVAGALVGCGKAEDTTSKETAKGSDNTKQELSGTIAAAGSTALLPLAEEAGKKFMEKNSKVSIQVQGGGSGTGINQVASGAVQIGNSDVPSGDKIKDAEKAKELVDNKVAGIAFALVVNKDVKVDNLTVQQVQDIFTGKVTNWKEVGGKDEKINVINRPASSGTRATFEKTIMKDAKINDGTGTTQDSNGAVEQAINSTPGSVSYLAMSYMVGDKKGALQTVKIDGADPKVENIASGKYPFWSYEYMVTKGEAKEATKAYIDYVKGKDFEKQVEDMGYIPMSKLNK	PGPT0002625_5902	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
AK009_04948	891	pstC	COG0573	Phosphate transport system permease protein PstC	ATGAAGGGGAAAAAACAAATTAATTACGTGAAAAGTGAATATATAGGAAGATCACTTGTTACGTTTTGTGGTATTTTTATTGTTTTAATTACATTAGCTATTATTGCGTTTATTTGTGGCAAAGGAATTCAATCTTTTACACAAAGTGGTATCTCGTTTACTGAGATGTTAACATCGACAAAATGGAATCCAAATGCTGATCAAGGATCTTTTGGGGCTTTAATTTTTATTGTAGGTTCAACAGTGGTTTCGTTAGGTGCGGTTATTATTAGTGCACCAATTGCTATAGCTCTGGCTATATTCATGAATTTAATTTCGCCGAAGTTTGGAAATAAAGTATTGAAGCCTGTTTTAGAATTATTAGTCGGTATTCCGTCAGTAGTATACGGATTATTAGGGGTTACGATTTTAGTTCCGTTATTACGTGATTCGTTCGGGGGAGTGGGCTTTAGTTTAATTGCGGGTATCGTTGTATTAAGTATTATGATTTTACCTACTATTGCTAGTATCGCTTCTGATGCAATACGCTCTGTTCCATTTGATTATTTAGAAGCTTCTTATGGCCTAGGATCAACGAAATGGCAAGCAATTAGCCGAGTGATTGTTCCTGCTGCGAAAAAAGGAATTTTAACAGGGGTTGTTTTAGGTTTAGCGCGAGCTTTTGGTGAAGCGCTAGCCGTTCAAATGGTAATCGGGAATACGATTAAATTACCAGAAGGAATATATAGTCCGACAGCAACGTTAACTGGTATTTTGACAATGGACATGACAAATACATTGAACGGAACTGCTTGGAATAATGCGCTATGGACTTTAGCGATGATTTTACTTGTTATTTCATTCCTGTTTATTTTAGTAATTCGAGCGATTGGGCAAAGAGGTGAGCGATAA	MKGKKQINYVKSEYIGRSLVTFCGIFIVLITLAIIAFICGKGIQSFTQSGISFTEMLTSTKWNPNADQGSFGALIFIVGSTVVSLGAVIISAPIAIALAIFMNLISPKFGNKVLKPVLELLVGIPSVVYGLLGVTILVPLLRDSFGGVGFSLIAGIVVLSIMILPTIASIASDAIRSVPFDYLEASYGLGSTKWQAISRVIVPAAKKGILTGVVLGLARAFGEALAVQMVIGNTIKLPEGIYSPTATLTGILTMDMTNTLNGTAWNNALWTLAMILLVISFLFILVIRAIGQRGER	PGPT0002620_4622	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
AK009_04949	921			hypothetical protein	ATGAATGCAAGAACGGTAAATAAAGTTTGGACGGGTATCTTTTATGCGGTTGCGGCTTTGGTCGTAGCTATGCTAGTGTTCTTAGTGTTTGAAATTTTACAAAAGGGATGGGGTTTTTGGGATCCTAATTTCTTGTTTGGAGAACCAAGTAATACAAGAGCTGGTGGTGGGATTGGTCCGCAGTTATTCAATTCATTCTACATGCTTGTTATAACGCTTATTATATCTATTCCTCTTGGACTAGGTGCTGGAATATATTTAGCAGAGTATGCAAAACAAGGGCGCTTTTTAAATTTTGTTCGTTTATGCATTGAGACAATGGCGTCTTTACCATCTATTGTTGTTGGTTTATTTGGTTTGTTAGTGTTCGTTACAATGACAGGCTGGGGATACACAGTAATGGGTGGTGCTCTTGCTTTAACTATTTTAAACTTACCAGGTTTAACACGTGTTTGTGAAAATGCTATTTCAGAAGTGCCTCATAATGTAAAAGAGGCAAGTCTTGGATTAGGTGCAACAAAGTGGCAAACGATCGTTCGTATTATTATCCCATCGTCATTACTGCAAATTATTACAGGGATTATTTTAGCGGCGGGTCGTATATTTGGGGAAGCGGCAGCATTAATTTACACAGCGGGTTTAACATCTCCGATTTTAAATTCAGCAGCGGACTTCTCGAGTCCTGCGCATCCTTTAAATCCGTTTAGACCAGCTGAAACGTTAGCAGTTCATATTTGGAAGTTAAATTCTGAAGGGTTTATTCCAGATGCGAAGTTGATTGCGACAAAATCTGCAGCTGTATTAATTATTATGGTATTACTATTCAATGTCATTTCACGCTTGATAGCATCTGTATTGCATAAGCGCTTTACAGGAACGAAAAGAAAAAGTAAAACGACGAAGAAGATAAAAGCGGCATAA	MNARTVNKVWTGIFYAVAALVVAMLVFLVFEILQKGWGFWDPNFLFGEPSNTRAGGGIGPQLFNSFYMLVITLIISIPLGLGAGIYLAEYAKQGRFLNFVRLCIETMASLPSIVVGLFGLLVFVTMTGWGYTVMGGALALTILNLPGLTRVCENAISEVPHNVKEASLGLGATKWQTIVRIIIPSSLLQIITGIILAAGRIFGEAAALIYTAGLTSPILNSAADFSSPAHPLNPFRPAETLAVHIWKLNSEGFIPDAKLIATKSAAVLIIMVLLFNVISRLIASVLHKRFTGTKRKSKTTKKIKAA	PGPT0002610_2303	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
AK009_04950	525			hypothetical protein	TTGTTTTTTCTGCAAATGTCAGGTTTTCCAGGGGCGGGAAAATCCACAGTTTCTAAGTATATAGCGAAGTTAACAGGTGCTATAATTGTAGATCATGACGTTTTGAAATCAGCGTTGTTAAAATCACTAGAAGTGAAAGGTATTGAATCAACGATAGTTGGTGGACTTGCATATGATGCTGAATGGGCATTGATTGATTCTTATTTAGAACAAGGGCATAGTGTTATATTGGATAGTCCATGTTTATATGAGGGAATGGTTGAAAAAGGGATTAAATTATCAAATAAACATGGTGTGAAATATAAATATATTGAGTGTTATCTTAATGATATGGAAGAGATTAATGCGAGACTGCAAACACGTAAGCGTATGATTAGTCAAATTGAAAAAGTGAGGTCGGAAGTAGGTTTTAAAAAGTGGTTAAATGGTAGTAAGAAACCTTTAAATAGTGAATATCTTATTGTGGATTCTAGTGAACCTCTAGAGCGGTATGCGGAAAACATGATAGATTATATGAGTAGATAG	MFFLQMSGFPGAGKSTVSKYIAKLTGAIIVDHDVLKSALLKSLEVKGIESTIVGGLAYDAEWALIDSYLEQGHSVILDSPCLYEGMVEKGIKLSNKHGVKYKYIECYLNDMEEINARLQTRKRMISQIEKVRSEVGFKKWLNGSKKPLNSEYLIVDSSEPLERYAENMIDYMSR				NA	NA	NA	NA	NA
AK009_04951	3045	swrC_1	COG0841	Swarming motility protein SwrC	ATGGATAGGTTAACAAAGTTTTCATTAAAAAACCGCTCCGCCATTATCATCATGGTTTTTCTCATTTCCATACTCGGTGTTTATTCCGGCTCTAAATTACCTATGGAATTTTTGCCAAGTATCGATAATCCAGCAATCACCGTCACAACCTTATCTCAGGGACTTGACGCTGAAACGATGACAAAAGACGTAACTGACCCTCTCGAAAAACAATTTCGTAATTTGGAACATATCGATACCATCACTTCTTCTACGCACGAGGGATTATCACGTATCGACATTGCATATACATCAAAAGCAAACATGAAAGATGCAGCACGCGAAGTCGAAAAAGCCGTCAATACAATTAAATTACCTAAAGATGTAACCAAGCCCGTAGTTAGTCAATTAAACACTTCTATGATTCCACTCGCCCAAATTACTATCCAGAAACAAAACGGTTTTTCAAAAGCAGATGAAAAACAAATTGAAAAAGAAATCGTACCACAACTCGAAAACATTGATGGTGTTGCCAACGTTATGTTTTTCGGAAAATCAACCTCTGAATTATCTATCGTACTTGATCCGAACCAATTAAAAAACAAAAACGTAACATCACAGCAGGTACTAACTGTTTTACAAGGAAAAGAAACTTCTACTCCAGCCGGGGCAATTACTGTTAATCAGGAAGAATACAACCTCCGCGTCATCGGGGACATAAAAAATGTAAATGACATTAAAAACATCACTGTGGCACCCCAAGTGAAATTACAAGACATTGCTCAAATCGAAATCAAACAACACTACGATACAATCTCACATATAAACGGCGAAGAAGGCACAGGGTTAATCATCATGAAAAAACCGAGTAAAAATGCAGTTGCCATCGGAAAAGAGATTGATAAAAAAGTTAAAGAGATAAATAAGGAATATAAAGATCAATTTTCTATTAAACTTTTGGCTTCAACCCATGAACAAGTTGAAAATGCTGTTACTAGCATGGGAAAAGAAGTAATACTTGGAGCAATCGCTGCAACTCTAATTATCTTAATCTTTTTACGTAACTTCCGAACAACACTCATCGCTGTTGTCAGTATTCCATTATCTATTTTATTAACACTCTTTTTACTACATCAATCTAACATCACACTTAACATTTTAACCCTTGGTGGTTTAGCTGTTGCGGTTGGACGTCTCGTCGATGATAGTATCGTTGTCATCGAGAATATTTTCCGCCGTTTACAAAAAGATTCTTTCTCTAAAAATATTATTCTTGATGCAACGAAAGAGGTCGCCGTCGCAATTACTTCTTCTACTTTAACAACGGTCGCTGTTTTTTTACCTATCGGCCTCGTATCAGGAGCAATCGGAAAATTAATGTTACCTATGGTATTAGCAGTTGTATATTCTATTCTATCATCCTTAATCGTTGCACTAACAGTTGTTCCACTTATGGCTTTTTTACTACTCAAAAAAACAAAGCATCGAAAGCCAAGTTCTTCATCACGATATGTTGCTACCTTAAAGTGGTCTCTTTCTCATAAATTCATTATTCTACTTACTGCATTTTTATTATTTGCAGGATCAATTGCAGCCTATATATTACTACCGAAAGCAAACATAAAATCTGAGGACGACACAATGTTATCTATTAACATGACATTTCCAGCCGATTATAATGCTGAAGCTCAAAAACAAAAAGCATTCGATTTCGAAAAGAAATTACTTTCTAATTCAGATGTAACAGACGTTATTTTACGAATGGGATCTAGCGCAGAAGATGCACAATGGGGGCAAACAACTAAAAATAACCTTGCTAGTATATTTGTAGTCTTTAAAAAAGGTTCTGATATTGATCAATATATTAAAGAGTTAAAAAAGGAAAATAAAACTTTCGAGCCTGCTGAACTTGATTATATAAAAACAAGTTATTCAAGCTCTGGCGGCGGAAACAATTTGCAATTTAACATAACAGCTACTAACGAAGGGAATTTAAAAGAGACGGCTACTATCGTCGAAACAAAAATAAAAAGCATGGATAATCTTTCTAAAGTAAAAACGAATTTAGAATACTCTAAGAAAGAATGGCAAATTCATATTGATCAAACAAAGGCTGAACAACTAGGCTTAACACCAGAAATAGCTGCGCAACAAGTAGCATTCCTTATGAAGAAGTCACCTATTGGCGAAATTACAATTAATAATGAAAAAACTACTATTATGATAGAACACAAAAAGGAAAACATAAATAAACAAGACGATATTTTAAACACAAACTTACTATCACCTATTAATGGACCAATTCCTTTAAAAGACATCGCATCTATTTCAGAAAAACAAACACAAACAGAAATTTTCCATAAAGACGGAAAAGAAACAATTCAAATTACCGCCGAAGCTTCAAATAAAGATTTAAGTAAAGTAAACACAGAAGTAAATAAAGCGATAAATGACTTAGATTTACCTAGCGGTGCAAAAGTAAATATCGCAGGAGCTACTGAATCTATGCAAGAGAATTTTACAGATTTATTTAAAATTATGGGGATCGCAATCGGGATTGTATATTTAATTATGGTTATCACCTTCGGGCAAGCACGTGCTCCTTTTGCAATCTTATTCTCCCTGCCATTAGCTGCTGTCGGTGGTATTTTAGGATTAATCATTTCACGAACACCTGTTGATGTAAATTCCTTAATCGGTGCATTAATGTTAATCGGGATTGTCGTTACAAACGCTATTGTATTAATAGAAAGGGTCCAACAAAATCGGGAACACGGACTGGAAACGAGAGAAGCCTTACTGGAAGCAGGTTCTACTAGACTACGTCCAATTATTATGACGGCTATAACAACAATCGTCGCTATGCTACCACTCTTATTCGGTCAATCGCAAGCAGGAAGTATGGTATCAAAAAGTTTAGCCGTAGTTGTCATCGGTGGTTTAGCAGTCTCAACTGTTCTTACATTAGTAGTCGTTCCAGTTATGTATGAACTATTAGATAAAATCGAAAAAAAAAGGCGCTCCCGTAGAAAAATAAGCACTTCTACAGAAACACCCGATATTTAA	MDRLTKFSLKNRSAIIIMVFLISILGVYSGSKLPMEFLPSIDNPAITVTTLSQGLDAETMTKDVTDPLEKQFRNLEHIDTITSSTHEGLSRIDIAYTSKANMKDAAREVEKAVNTIKLPKDVTKPVVSQLNTSMIPLAQITIQKQNGFSKADEKQIEKEIVPQLENIDGVANVMFFGKSTSELSIVLDPNQLKNKNVTSQQVLTVLQGKETSTPAGAITVNQEEYNLRVIGDIKNVNDIKNITVAPQVKLQDIAQIEIKQHYDTISHINGEEGTGLIIMKKPSKNAVAIGKEIDKKVKEINKEYKDQFSIKLLASTHEQVENAVTSMGKEVILGAIAATLIILIFLRNFRTTLIAVVSIPLSILLTLFLLHQSNITLNILTLGGLAVAVGRLVDDSIVVIENIFRRLQKDSFSKNIILDATKEVAVAITSSTLTTVAVFLPIGLVSGAIGKLMLPMVLAVVYSILSSLIVALTVVPLMAFLLLKKTKHRKPSSSSRYVATLKWSLSHKFIILLTAFLLFAGSIAAYILLPKANIKSEDDTMLSINMTFPADYNAEAQKQKAFDFEKKLLSNSDVTDVILRMGSSAEDAQWGQTTKNNLASIFVVFKKGSDIDQYIKELKKENKTFEPAELDYIKTSYSSSGGGNNLQFNITATNEGNLKETATIVETKIKSMDNLSKVKTNLEYSKKEWQIHIDQTKAEQLGLTPEIAAQQVAFLMKKSPIGEITINNEKTTIMIEHKKENINKQDDILNTNLLSPINGPIPLKDIASISEKQTQTEIFHKDGKETIQITAEASNKDLSKVNTEVNKAINDLDLPSGAKVNIAGATESMQENFTDLFKIMGIAIGIVYLIMVITFGQARAPFAILFSLPLAAVGGILGLIISRTPVDVNSLIGALMLIGIVVTNAIVLIERVQQNREHGLETREALLEAGSTRLRPIIMTAITTIVAMLPLLFGQSQAGSMVSKSLAVVVIGGLAVSTVLTLVVVPVMYELLDKIEKKRRSRRKISTSTETPDI	PGPT0016195_1712	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
AK009_04952	426	lnpD		UDP-glucose 4-epimerase	ATGCCATATGTAACGCAAGTAGCAGTAGGTAAGTTAAAAGAATTAAGTGTATTCGGAAATGACTATCCAACGAGAGATGGAACAGGAGTCCGTGATTACATCCATGTTGTGGACTTAGCAAATGGTCACGTAAAGGCGCTTGAGAAAGTACTGAGTACAACAGGAGTAGATGCTTATAACCTGGGCACAGGCATGGGCTATAGTGTACTAGAGATGGTTGAAGCGTTTGAAAAAGTTTCGGGCAAGAAAGTCCCTCATAAAATTACAGAGCGTCGCCCAGGTGATGTGGCAGTATGTTTTGCTGATGCATCGAAAGCAAAGCGTGAATTAGGCTGGGAGGCAAAACGCGGATTAGAAGAAATGTGTGCAGATTCTTGGAGATGGCAGTCTGAAAATAAGACTGGATATCAGAAAGTTAGTAACTAG	MPYVTQVAVGKLKELSVFGNDYPTRDGTGVRDYIHVVDLANGHVKALEKVLSTTGVDAYNLGTGMGYSVLEMVEAFEKVSGKKVPHKITERRPGDVAVCFADASKAKRELGWEAKRGLEEMCADSWRWQSENKTGYQKVSN	PGPT0017825_38	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
AK009_04953	909	tagU_3	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAAAAAGAAAATCTTATTTTGGATATTAGGAATCATAGGGGTATTAATTATAGGTGGAGGAGCTTACGCTTATAATATATATTCTTCTGTTTCAAAAACATTAGATGAAGTTCATAAACCATTAAAACGTGATCAAGGTAATAAACAAGAAGAAAAAATCAATAAATCTGAACCTGTTTCAATTTTACTATTAGGTGCAGATGAGCGTGGTGGAGATAAAGGACGTTCAGATTCTTTAATGGTCATTACATTAAACCCTAAAAACAATTCAATGAAAACAGTAAGTATTCCTCGTGATACATATACAGAAATTGTTGGAAAAGGTAAAAGTGATAAAATTAATCATGCGTATGCATTTGGTGGCGTAGACATGTCTGTAGCGACAGTAGAAAAATTCTTAAATGTTCCAATCAATTACTATATTGAAGTAAACATGGAAGGATTTAAAGATATTGTAGATGCAGTAGGCGGGGTCGATGTTAATAATGATTTAGAATTCTCTCTGGAAGGGAAACACTTCCAGAAAGGGAATATTCACTTAACGGGTGACCAAGCTCTAGCATATACACGCATGCGCAAAGAGGACCCACGAGGCGACTTCGGTCGTCAAATGCGTCAACGCCAAGTGATGCAAGCTGTTATTAAGAAAGGCGCAACTTTCTCTTCTTTAACAAGTTATGGTGATGTGTTAACAGCAATTCAAAAGAATGTGAAGACAAACTTAACGCAAGATCAAATGTTTGATATGCAAAAGAATTATAAAGATTGTCTGCAGAATAGTGAAGATATTCAAATCCCAGGTGACGGCCACAAAGCTGCTGATGGTATTTGGTATTACTACGTTCCAGATGCTGCAAAACAAGATTTAACGAATAAATTAAGAGCGCATCTTGAAGTGACTAAATAA	MKKKILFWILGIIGVLIIGGGAYAYNIYSSVSKTLDEVHKPLKRDQGNKQEEKINKSEPVSILLLGADERGGDKGRSDSLMVITLNPKNNSMKTVSIPRDTYTEIVGKGKSDKINHAYAFGGVDMSVATVEKFLNVPINYYIEVNMEGFKDIVDAVGGVDVNNDLEFSLEGKHFQKGNIHLTGDQALAYTRMRKEDPRGDFGRQMRQRQVMQAVIKKGATFSSLTSYGDVLTAIQKNVKTNLTQDQMFDMQKNYKDCLQNSEDIQIPGDGHKAADGIWYYYVPDAAKQDLTNKLRAHLEVTK	PGPT0023440_3431	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
AK009_04954	819			hypothetical protein	ATGAATAAGAAAGCGGTACTTGTCCTTGTTATTTTTGTATTGTTTGTTGCTTCGATTGTGAGCGGTAAATTGTACTGGAATAAGAAGATTGCGAATGCAACAGGACAAACGAGTGAAGTAACGAAAACAAAGGCTGAAGTGAAAGATAGCGGAGCGAAGAAAGAAGAGAAAAAACAAGATACGAAGTCATCTTTTAATGAAGCATATGCGAAGAATTTGCCAGATGCAGTGAAAGAGAAGTTAAAGAAAGCTGCGGAGGATAAAAAGGCAGTAAATCTTGTTATTGTTGGTGATGAAGGTTCTTCATCTGAAAAAGGTGCTTGGGCAGCTAAGTTAACGGCTAATTTAGAAGCTGCTTACGGTAAAGGTTTATGGAATGTGACTGTAAAGGAATATAAGGGTGAAAGTACAGAAGAGTTAATCGCGAATAAGCGTGATAAAGAGATTGCGAAAGAGAATCCAGATGTGATTTTATTTGAGCCACCATTTATTACTGATAACGGTAAAACTGGTAATGGGAATTCTGTTGCGAGTACACAGAAGTTTGTTCAAGCACTTTCTACTAGTGCAAAGGGCGCTACGATTATGATTCAGCCATCAAATCCAGTGTATGGTGCGAAAAATTATCCGAAAGCGATTGAAGCATTAAAACAATTTGCGACGCAAAATAATTATACATACATTGATCATTGGGGAGCATGGCCGGATGCATCGACAAAGGCTATCCTACCATATTTAAAAGAAGAATTTGGTTTCCCAACTGCTAAAGGTCATGAAGTTTGGGCACAATATGTAACGGATTATTTTGTAGCTAAATAA	MNKKAVLVLVIFVLFVASIVSGKLYWNKKIANATGQTSEVTKTKAEVKDSGAKKEEKKQDTKSSFNEAYAKNLPDAVKEKLKKAAEDKKAVNLVIVGDEGSSSEKGAWAAKLTANLEAAYGKGLWNVTVKEYKGESTEELIANKRDKEIAKENPDVILFEPPFITDNGKTGNGNSVASTQKFVQALSTSAKGATIMIQPSNPVYGAKNYPKAIEALKQFATQNNYTYIDHWGAWPDASTKAILPYLKEEFGFPTAKGHEVWAQYVTDYFVAK				NA	NA	NA	NA	NA
AK009_04955	672	sphR	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein SphR	ATGAAAATACTTGTGGTTGATGATGAATCGAGTATTCGTAATTTGATTCGGATGCAGTTGGAGATGGAAGGTTATGAAGTATTGGCAGCGGCTGATGGGAGAGAAGCTTTAGAGCGATGGAATGAAGGGCCGGATGTATTGATTTTGGATGTTATGCTTCCGGATACAGATGGGTATGAGTTGCTTCGTTTGTTCCGTGAGAGGGATAGGGATATTCCGGTACTTATGTTAACGGCAAAGAGTCAGATGAATGATAAGTTGCTTGGATTGCAGCTTGGTGCTGATGATTATGTGACGAAGCCGTTTAATTATGCGGAGCTTATTCTTCGGGTTAAGAATATGGCGCGGCGTGTAAAGAAGACGGAGGCGGCTGTAAGTCATGAAGTAATTGAGGCTGGAGAGATAGTGATTTGTCCTAAGGAAAGAAAGGTACATGTGAGTGGACAAGAGATTCAGTTAACGTACCGAGAGTTTAATTTATGTCAGTTGTTTGTTTCAAATCCGCAGCGTGTGTTTATGAGGGATGAGTTGCTTGAGAAAGTATGGGGGTTTGAGTATATCGGAAATACGAGAGCAGTTGATATTATGGTGCAGAGACTTCGAAAGAAGCTTGGGACGAGCGGAGAATATATTAAGACAATTTATGGCGTTGGCTATAAACTGGATTGTTAA	MKILVVDDESSIRNLIRMQLEMEGYEVLAAADGREALERWNEGPDVLILDVMLPDTDGYELLRLFRERDRDIPVLMLTAKSQMNDKLLGLQLGADDYVTKPFNYAELILRVKNMARRVKKTEAAVSHEVIEAGEIVICPKERKVHVSGQEIQLTYREFNLCQLFVSNPQRVFMRDELLEKVWGFEYIGNTRAVDIMVQRLRKKLGTSGEYIKTIYGVGYKLDC	PGPT0002665_1612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK009_04956	1449	rcsC_10		Sensor histidine kinase RcsC	TTGTTAAGTGGTGATGGTATGTCTTTAAAGCGAAATATGGTGTTTGGAATAGTTGGGCTGTTAATTCCGATTTTTGTTCTTTTATATGCAGTTGTTTATATTACGTTAGAAAAGAATATGTATCATAACGCAGCAGATTCTTTAGAAAAGTTAAGTGTAGAAGCACAAATTTATACGATGAATTATTTAGAGAAGGAAGCAGAAGTGGATACGCTTGGTCCTAATTCACTTTTAATTGCGTCGTATTTAGCGAAGCGTATGGATGTCCGTGTGCAGATGATCGGGAAGAATGGCGATGTTGTTGCAGATACACAAAAAGGAGCATTGCTTCACCGTAACATCGACATTGAGAGTTCCTTGAAGGGAAAGAAGTCTTATGTTTTTGAGGAGGCGGATCCGGCTCCCATTCTTTTGTTTTCAAGCCCGGTTTATTATGGAAACGATGTCATTGGAAGTATTCGTTTTATAAATGAGTTAACGGGTGAGAAGGAAGTTTTAACAAATGTGAGCTGGACGTTTTTAATGACATCTCTTTGCCTAGTAGCAACCGGTATTTTCTTTGCAATTCGTTTGGCGAAGTCTCTTCATAAACCAATTGATCAGTTGAGACAAATGGCACAGAGGCTCGCGAATGGTGATTATAAGAGTAAGATTGAGTTAAATGAGTACGTGGAAATCGCTCAGCTTTCAGCATCTTTTAACGCGATGGCCGATGGAATTGAACTGCATATTAAGCAATTGCAGGAGGAGAAAGAGAAGCAGAAAGATTTCCTAGACCGCATTACGCATGAGCTAAAAACACCGCTAACGGCAATTATCGGTTATGTTGATTTAATTCCAAAGTTACAATCGAAAGAAGATGTACAGGAAAGTCTTCGTTATGTGGCGGTGGAAAGTGAGCGTTTATTATCACTTGTAGAGGAACTGCTTAAGTCTTCGAAATATGGGACGAGTACGTTTGAAGTGTCTCCTACAGTTGTGAACATAAAGGAATTGGCAGAAGAAGCAGTTTCAATTGTGAAACCTCGTCTAAATCAGTTTGAAATTGAAGTGATAAATGAGTTAACGGATGTACATGTTGTTGCGGATTTTGATAAGACGAAGCAAATTTTCTTAAATGTGCTTGATAATGCAATTAAGTATAGTGATGCTTCGCACATTCGTATGAATGTAATTATAAATGAGCATGAGGCGAAGGTTTTTGTTCATGATGATGGGATCGGTATAGATGAAGTGGCGCTTGCAGAGTGGAATGAGTCTCCGAAAGGAAAGGCACTTCCGTCTAGTTACGGGAATGGTTATGGTTTGTATATTTGTCAGGAGATTATGAATAAGCAGGGCGGAAGCATGCGGATTGAGAGTAGTGAAGAAATAGGTACTACAATATTCATTACATTTTTGCTTCCGAGAAGGATGGAAGACATAAAAAACTTGAAAGCGGTTAAATGA	MLSGDGMSLKRNMVFGIVGLLIPIFVLLYAVVYITLEKNMYHNAADSLEKLSVEAQIYTMNYLEKEAEVDTLGPNSLLIASYLAKRMDVRVQMIGKNGDVVADTQKGALLHRNIDIESSLKGKKSYVFEEADPAPILLFSSPVYYGNDVIGSIRFINELTGEKEVLTNVSWTFLMTSLCLVATGIFFAIRLAKSLHKPIDQLRQMAQRLANGDYKSKIELNEYVEIAQLSASFNAMADGIELHIKQLQEEKEKQKDFLDRITHELKTPLTAIIGYVDLIPKLQSKEDVQESLRYVAVESERLLSLVEELLKSSKYGTSTFEVSPTVVNIKELAEEAVSIVKPRLNQFEIEVINELTDVHVVADFDKTKQIFLNVLDNAIKYSDASHIRMNVIINEHEAKVFVHDDGIGIDEVALAEWNESPKGKALPSSYGNGYGLYICQEIMNKQGGSMRIESSEEIGTTIFITFLLPRRMEDIKNLKAVK				NA	NA	NA	NA	NA
AK009_04957	783			hypothetical protein	ATGAAAAGGCTATCATTTCAAATTCTTATGTTTGTCATTTGTATAATTGTTTCTCTTGTTTTGTTTTATGTTATGGAGAAGCAAATCTATAATCGAATCAACATTGTAAATGATAAACAAGCCGTTTTACAAAGGGTGAATGAATCTCTTCCAATTGAAGTGAAAGTAAGACATGAAAAGTGGGGAGAAATTGTTGTAACGGATGAAGTTCGTTTGCATACGATTGTTTCATTCTTTGACCGAATTCGAATAGAACCTGAGGGCGTTAAGAGCCAAGAACAAGTATTTACTGGAGAAGTAACGTACTTGAATGGACATAAGCGTACTTTTGCAGTAGGTGACTTGTTCCAGTATGGGGAAAATGTATACGGAAAGAATGGCATGGATCCGATGATTTCAGCACTTCAAACGTATTTATTAAGCCTGTATTACACGCCAGAGCGTATTAGTGATTTCTTTGCTTCGGCAAAGGATGTCGTAGTACGTCAAGGTGATGTGGTACGTACTATCAATCTTACGCACATACTTGATTCTATTCGGTACGCAAAGCAAATTACAGATTACGGAGAAATTCAGAAGTTATTACAATCGCAGAATGAACCGATTGCTTATATTACAGCTTATAAAACAGGTAAGCGTGTAAAGAGTGATCGTGAAGATATTCTTACGATTTCTGTGTATCCATCGTACTTTGTAGTGCAATATCTCGGTGATAATAACGGGAATGTCATGTATATGAAAGGCTCTCTAGCGGAGTTATTCGTAAAGGAGAATGCGTCATGA	MKRLSFQILMFVICIIVSLVLFYVMEKQIYNRINIVNDKQAVLQRVNESLPIEVKVRHEKWGEIVVTDEVRLHTIVSFFDRIRIEPEGVKSQEQVFTGEVTYLNGHKRTFAVGDLFQYGENVYGKNGMDPMISALQTYLLSLYYTPERISDFFASAKDVVVRQGDVVRTINLTHILDSIRYAKQITDYGEIQKLLQSQNEPIAYITAYKTGKRVKSDREDILTISVYPSYFVVQYLGDNNGNVMYMKGSLAELFVKENAS				NA	NA	NA	NA	NA
AK009_04958	1035			hypothetical protein	ATGAGAAAGATAGCCTTTTTCTTCTTTTTGCTAGTAATTGGAGGAGCGATGTCTAGTTGCTCTCGAGATACAACCTCTATTAAATATAGTAAAAATGGTCTCCCTATTTTGGATGATCGTCATATTGTTGCGTATGTAGCGGCTCGTGAGGAAGTTGGTGAAGCGTTACTTTCATCATTTTGTAAGCCACGCGGATGTACGTATGAATTTATTCGTCTTTCAACAGAAGAACTTCTTCGTAGAGTGGAAGAAGAAGCTGGAAATCCGAAGGCGGATATTATTATTGGCGGTACAGTAGATGCGCATCAAATGATGAAGCAAAAAAATCTTTCTATTCCTGTGATAAGCCAACATGCAAATCGTATTTCAAAGACTGTTAAAGATAAAGATGGTTATTGGTACGGTTATGAAGTGGAGAAGCTAGCAATTGCGATTAATAAAGAGCGGTGGAACGAGGAAATAGCGCCGCTCGGTCTCTCGTATCCGTTAAGATGGAAAGATTTATTGAATCCAGTATATAAAGGAAAGATTGTCATGCCCGATCCAAATGTTTCAGGTACAGCATATACGTTTTTTCAATCACTTATTGATACGTTAGGTGAAGAGGAAGCGAAGGAATATGTGAAGAATCTGGCAGAACAAGTTGGAGAAGTAACAGTGAATGGTTATATCCCAGCAGAACTTGTTGCGAGCGGTGAATATATGATAGGCATCAACTTTATGGGAGATCAGAGAATGCTTCAAAAACAAGGCTTTCCTATTTTAAGTAACGAACCTGAGCAAACAGGGTTATCCGTTAATGCGATTTCTAAACTAAAACGTGCACCGAGTGGTATTATTGCGGATTTATTTATTGATTATTGTTTATCAGAAGAAGCGGGTCACATTTTAGAAAAAGTGTCGTTTGGCGTACCAACGATGTTTGCGAAGAATGAGAAAGAAATAGAAGGACAGCCGGTTAGAAGGACGAACCAAAATATATCAAATAGCGGGATAATCGAGATATGGAATAGACAGCGTCTCTCTCTGAAGTGA	MRKIAFFFFLLVIGGAMSSCSRDTTSIKYSKNGLPILDDRHIVAYVAAREEVGEALLSSFCKPRGCTYEFIRLSTEELLRRVEEEAGNPKADIIIGGTVDAHQMMKQKNLSIPVISQHANRISKTVKDKDGYWYGYEVEKLAIAINKERWNEEIAPLGLSYPLRWKDLLNPVYKGKIVMPDPNVSGTAYTFFQSLIDTLGEEEAKEYVKNLAEQVGEVTVNGYIPAELVASGEYMIGINFMGDQRMLQKQGFPILSNEPEQTGLSVNAISKLKRAPSGIIADLFIDYCLSEEAGHILEKVSFGVPTMFAKNEKEIEGQPVRRTNQNISNSGIIEIWNRQRLSLK	PGPT0003725_2437	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK009_04959	1335	pgtP	COG2271	Phosphoglycerate transporter protein	ATGTTTAAATGGCTCAAGCCAGCACCTGCAATTGAAAGATTGCCAGCGGATATGATCGACCGTGTATATCGATTACTACGTATTCGTGTGTTAATCGGGATTTCAGTTGGATATGCTGCTTATTATTTAGTTCGTAGTAACTTTACGTTATCAAGTACGTACTTAGTACAAGAATATGGTTTTAGTACAGCAGAAATTGGTCTACTAGGTTCAGTAATGGCAATTGTTTATGGATTTAGTAAGTTCTTTATGGGGAATTTATCAGATAAAGCTTTCGCCCAGCGCTTTATTGCAGTCGGTTTATTCTTATCAGGGCTTGTAAATATTTGTTTTGGCTTTGCATCTTCATTTGGGATGATTGTTACATTACTTGTTGTTAACGGTATTGTACAAGGTATGGGAGCACCACCTTGTAGTATTGTTATGACGAAATGGTTCTCGAAGAAAGAACGCGGTACGAAAACAGGTCTTTGGAATATTTCACATAACGTTGGTGGAATGCTTGTGCCACCACTTGTCGGAATTGGTGTAGGTATTTTTGGTGAAAACCATTGGCAAGGCGGCGTGTTTATTTTCCCTGCAATTATCGCAATGGTAATTTCAGTTCTTGTTTGGATTAATGCGAAGGATACACCAGAATCTGAAGGTCTTCCTCCAATTGATGAGTATCGTAATGACTATGAAAATCTTGAAAAAGCAGATAACGCTAACAAGATGTCACCAAAAGAAATTTTAATGAAGTATGTAGTGAAAAATAAATTTGTATGGTTCTTATGTATTGCGAATGCTTTTGTTTATTTAATTCGTTTCGGTGTTATTAACTGGGTTCCACTTTATTTAACGACAGTTAAAGGATTTTCAAAAGCAGAAGCGCATGCGGCATATGCAATCTTTGAAGGTATGGCAATTCCAAGTTCATTAATCGTTGGTTTTTTAAGTGATAAATTATTTAAAGGAAAACGTATGCCATTATGTATTATTAGTATGGTTGGTGTTGTTATTGGTACGTTTATATATTGGCAAGCAACTAGCGTACTTGTTGTAAGTATTGCAGTTTCTATTATCGGTTGTTTAATTTATGTACCACAGTTCTTAATCGGTTTAAGTGCAATGGAATTAGTACCGAAATTTGCAGTAGGTACGACAGTTGGTATGTGTGGTTTATTCGGTTATGTAGGCGGAAGTCTTGTAGCTAACGCAGCAATTGGTGTTATTGTTGATCGTTCTGGCTGGGATGGTTGTTTCATCTTACTATTAACAGGAGCGGTTTTATCAACAATCTTCTTATTTATTGTTCAACGTGGACATGAGAGAAAAGATCCTAAAGTAGCGTAA	MFKWLKPAPAIERLPADMIDRVYRLLRIRVLIGISVGYAAYYLVRSNFTLSSTYLVQEYGFSTAEIGLLGSVMAIVYGFSKFFMGNLSDKAFAQRFIAVGLFLSGLVNICFGFASSFGMIVTLLVVNGIVQGMGAPPCSIVMTKWFSKKERGTKTGLWNISHNVGGMLVPPLVGIGVGIFGENHWQGGVFIFPAIIAMVISVLVWINAKDTPESEGLPPIDEYRNDYENLEKADNANKMSPKEILMKYVVKNKFVWFLCIANAFVYLIRFGVINWVPLYLTTVKGFSKAEAHAAYAIFEGMAIPSSLIVGFLSDKLFKGKRMPLCIISMVGVVIGTFIYWQATSVLVVSIAVSIIGCLIYVPQFLIGLSAMELVPKFAVGTTVGMCGLFGYVGGSLVANAAIGVIVDRSGWDGCFILLLTGAVLSTIFLFIVQRGHERKDPKVA	PGPT0016821_730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
AK009_04960	513			hypothetical protein	ATGATGAAAATTGAATGGAAAGAAAGAGTTTATAATAGTTTTGTTGGAACACTAAGTGAGAGAGATGAATACCAAAAACAAGAAATCAATAAAGAGTTATCTGTAGCTGGAATTGGTTTGTGGTGGTTAAATATGTTGGTAATGCTTATTATGTTACTTGTTGATACTATGAATCACACAATATCTATAGGGACAATATTCATTTTTCTATCTAATATGATTTATGCTAATTACTTAGCCTTTAAATTCAAGAAAAAAGGTTTAAGTGATACTGAATGTGCAACAAAAGAAGAATATTTACAACACAAGAAAAAATTAAGAAAAGCTGGCTTAAAAGCAGGTGTGCTTTGGGGCTTTCAAATGTTTGTTTTTATGAATTATATCCTTCCCTATGTAGGTTCAGAGGAAATCTCTATTTCTTTATTTAAGGTTGTAATTTTCATCTGTGGCGGCGGATTTTTCGGTATAACCATGTATCTATTTGGTTTATGGAATCTAAAAAAATTATATTAA	MMKIEWKERVYNSFVGTLSERDEYQKQEINKELSVAGIGLWWLNMLVMLIMLLVDTMNHTISIGTIFIFLSNMIYANYLAFKFKKKGLSDTECATKEEYLQHKKKLRKAGLKAGVLWGFQMFVFMNYILPYVGSEEISISLFKVVIFICGGGFFGITMYLFGLWNLKKLY				NA	NA	NA	NA	NA
AK009_04961	192			hypothetical protein	TTGAATAACGTTAAACAATATCGAAAATCTGAAGGGCTATCGCAACTAGAGTTAGCTAAAAAAGTTAACGTGGCGAGACAGACAATAAATTTAATTGAAAACAAGAAATATAATCCCTCTTTAGCCTTATGTATCGAATTAGCAAAAGCACTAAAAACAGATTTAAATAGTCTATTTTGGGAGGGAGATTAA	MNNVKQYRKSEGLSQLELAKKVNVARQTINLIENKKYNPSLALCIELAKALKTDLNSLFWEGD				NA	NA	NA	NA	NA
AK009_04962	1194	yknX_1	COG0845	Putative efflux system component YknX	ATGTTACCAAATACGGTTCGTACTCCAAACAAGAAGAAGAAATGGATTATTATTGGGGTTATTGCACTAATTGTTATTGTAGCAGCAATTAATATTTTTGTTATGCAAGGTAAGAAGAAAGGAGCATCAACAAATGCTGATGCTGTAAGTTTTGAGAAGGTAACGGAGCGTAAGCTGAATAATACGAAGTTAATTTCTGGTCAGGTGAAGCCTGGTAATATTGAAAGCTTCTATGCAGATCCAGCCAAAGGGAAAGTGAAAGATATTGAGGTAAAAGAAGGGCAAGAGGTAGAGAAAGGTACGAAGTTATTCTCTTATGATAATGAAGAGATTAATCTTCAAATGAAGCAAGCTGAGCTTGATCAGAAGATGGCGGATATGCGTTATGATCAAGGGAAAAAGAAGATTGATTCATTGAAGAAAGAAATTAAGAAGGCGAAAGATAGCGGAGCTGGGAAAGAAGTAACAGATCCGATGGACGAGCAAGTAAACGAATTAGAAATAGCTCAAAAGACAACTGATCTTGAGAAAGAAAAAGGAAAGTTGCAGAAAGAAGAGTTAAGTAAAAAGCAGAAAGAGCTTACGATTTATAGTAATTTCGCTGGTGTTGTTCAAAAGTTAGATAAAGATGCGGCGCAAAGTTCATCTCAAGCGTTAGGTGGTCAAGGAAAATCGTTTTTACAAGTAGCTTCTAAAGATCCATTCCAAGTTCAAGGTACGTTAACTGAGCTTCAGAAGTCACAAATTCAAAAGGATCAAACATTCACTGTAACAGCGAAAGCAAATAATAAGAAGAAGTGGACAGGTAAGATTACAGAGGTAAGTGAGTTCCCAACGAGTGCAGAGATGGCGCAAGCTGGCGGCGTGGGTGAAGCAACTCAAAATATGTCCCAATATACATATAAAGCTAGCCTTGATAGTCAAGATGGTTTATCTCCGGGTTACCACGTTTCTCTGCAAGTAAACTTAGAGAATAAGACGATGATTGCTGTTCCAAGTAAAAGCATTGTAGAAAAAGGCGATGATGCATTTGTTTATGTTGAGGATAAAGGGAAGCTTCGTAAACAAAATGTGAAAAAAGGTTCTACTGATGGAGACTGGACAGAGGTTGTAGAAGGCGTAACAGTGGGGCAAAAGGTGGTTAAAAATCCTTCCGACGATGTGTATGACGGAATGGAAGTGAAAGAGAAATGA	MLPNTVRTPNKKKKWIIIGVIALIVIVAAINIFVMQGKKKGASTNADAVSFEKVTERKLNNTKLISGQVKPGNIESFYADPAKGKVKDIEVKEGQEVEKGTKLFSYDNEEINLQMKQAELDQKMADMRYDQGKKKIDSLKKEIKKAKDSGAGKEVTDPMDEQVNELEIAQKTTDLEKEKGKLQKEELSKKQKELTIYSNFAGVVQKLDKDAAQSSSQALGGQGKSFLQVASKDPFQVQGTLTELQKSQIQKDQTFTVTAKANNKKKWTGKITEVSEFPTSAEMAQAGGVGEATQNMSQYTYKASLDSQDGLSPGYHVSLQVNLENKTMIAVPSKSIVEKGDDAFVYVEDKGKLRKQNVKKGSTDGDWTEVVEGVTVGQKVVKNPSDDVYDGMEVKEK				NA	NA	NA	NA	NA
AK009_04963	681	yknY_3	COG1136	putative ABC transporter ATP-binding protein YknY	ATGATTACGTTAAATAATATTGCTAAAACGTATTATCAAGGAAAATTGGCGGTGCCGATTTTGCATGGTATTAGTTTAACGATTCAGAGCGGTGAGTTCGTTTCGATTATGGGACCGTCTGGTTCTGGTAAGTCGACGCTTATGAATATTATCGGTTGTTTAGATCGTCCAACTGAAGGCGAATATATGCTGAATGATGTGAATATCTTAACAGCAGACGAGTCAAAGCTTGCTTTAATTCGTAATGAATATATCGGTTTTGTGTTTCAGCACTTTAATTTGCTTCCGCGTCTTTCGGCAGTCGAAAATGTTGAGCTTCCGCTCGTATATGGTGGCGTGAAGAAAGCGGAGCGTCGCAAGCGTGCTTTAGAGGCGTTAGGTAAAGTTGGATTAGCAGACCGCGTGCATCATTTACCGAACGAATTGTCAGGTGGACAGAAGCAACGTGTAGCGATTGCAAGAGCGATTGCAAATAATCCGACGTTCATTATGGCCGATGAACCGACTGGTGCACTTGATACGAAGTCTGGTGAGCAAGTTATGGATATTTTCACGAAGCTTAATGCAGAAGGCACAACAATTGTTATGGTTACGCATGAAGAGGAAGTAGCAGCGTATTCTTCCCGCCGCATTGTACTGCGGGACGGGAAAGTTACAGAAGATAGAAGGTGTGCGGTATGA	MITLNNIAKTYYQGKLAVPILHGISLTIQSGEFVSIMGPSGSGKSTLMNIIGCLDRPTEGEYMLNDVNILTADESKLALIRNEYIGFVFQHFNLLPRLSAVENVELPLVYGGVKKAERRKRALEALGKVGLADRVHHLPNELSGGQKQRVAIARAIANNPTFIMADEPTGALDTKSGEQVMDIFTKLNAEGTTIVMVTHEEEVAAYSSRRIVLRDGKVTEDRRCAV	PGPT0013345_6401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_04964	1200	yknZ_1	COG0577	putative ABC transporter permease YknZ	ATGAGTTTACTAGATAGTATAAAAATTGCCCTCTCTTCTATTTTAGCTCATAAATTGCGTTCAGCTCTTACGATGCTCGGTATTATTATCGGGGTAGGTTCAATTATTACTGTCGTTGCGATTGGGCAAGGCGGGGAAGCTGCATTGAAATCGCAGTTTGTTGGGGCAGGTAATCAAACGGTTCCGATTCATTATAGTGCAGATATAAACGATCCTTTCGGTATGGGAATGGTAGAAGCACCGAAGATAACTGAAGAAGACATTTTTGAAATTAAAAAAATTCCAGAAATCGCACATGTGGTAACAACAAATTCCAGCATGGAACCACTTGATATTGAAGATAAAAAAGAAATGGTGAGTATTACTGGATTAGATAGCGAGTACTTTGCAGTAAATAAAGTAAAGTTGTTAAAGGGACGTTCTTTACAAGAATCAGATGTGGATCAAGGTAATAACGTTGTTATGATTAGTAAACAAATGGAAGAAAAGGTGTTTAAGGATGCCAATCCAGTCGGTAAAATTATTGAAATGAAAGGTCAACCGATGCAAATTATCGGTGTCTACAAATCAGATAATGAGTTTATGGGAATGGGACCATCAGAAGCACTAGTTCCAATTTCATTATGGCCGACACTGTATGGAAAAGATGAAATTCAAAACATTTCTGTTCAAGCAAAAAATGTAGATAATCTAGAAAAAGCAGGTAAAAAAGCTGCAGATGTCTTAAACAGTCGTAAACCGACTGATGCAACTGGTAAATATGAAGTTATGAATTTAAAAGAAATTCAAGAAGGTATTTCGAAGATGACCGGTATTATGACAATGATCATCGGTGGTATTGCTGGTATTTCATTAGTCGTTGGTGGAATTGGTGTTATGAACATCATGCTTGTATCTGTAACGGAGCGTACACGTGAAATTGGTGTACGTAAAGCACTCGGGGCAACACGTAGTAAAATTTTATTACAGTTTTTAATTGAAGCTGTTATGTTAACACTTCTAGGTGGTTTAATCGGAATTGGTCTTGGGTACGGCGGAGCATATATCGTTTCCACATTCGCAAAATGGCCACCGCTCGTTTCGTGGGAAGTTGTTGTTGGAGGCGTACTGTTCTCGATGACACTCGGTATTATTTTCGGATTAATTCCAGCAAATAAAGCTGCGAAATTAGATCCAATTGAAGCATTGCGTTATGAGTAA	MSLLDSIKIALSSILAHKLRSALTMLGIIIGVGSIITVVAIGQGGEAALKSQFVGAGNQTVPIHYSADINDPFGMGMVEAPKITEEDIFEIKKIPEIAHVVTTNSSMEPLDIEDKKEMVSITGLDSEYFAVNKVKLLKGRSLQESDVDQGNNVVMISKQMEEKVFKDANPVGKIIEMKGQPMQIIGVYKSDNEFMGMGPSEALVPISLWPTLYGKDEIQNISVQAKNVDNLEKAGKKAADVLNSRKPTDATGKYEVMNLKEIQEGISKMTGIMTMIIGGIAGISLVVGGIGVMNIMLVSVTERTREIGVRKALGATRSKILLQFLIEAVMLTLLGGLIGIGLGYGGAYIVSTFAKWPPLVSWEVVVGGVLFSMTLGIIFGLIPANKAAKLDPIEALRYE				NA	NA	NA	NA	NA
AK009_04965	681	yknW_1		Membrane protein YknW	ATGGAAGCAAATATTAATACGCAAGATGTAGGTGCGAAGAAGCCATCATTATTAGGAATGATTACTTCTCCAGGTGAGCAATTTGAGAGAATGAAGACGAAAAGTCCGGTTTGGGGGGCATTTTTCCTTTTCATTATATTAACAGCTGTAATTGCAGGGATTAGCATGTATCAAGTAATGAATCATCCTGATGTAATGAGTGAGGTACCTGATGCCGAAGCGGCTAAAGTTGTTGGTTACTTCGGAATAGGAGCAGGTATTGTTGGTGGACTATTTGGTACTGCGATTTGGTTCTTCATTGCGGCAGCTATTTATAAAGTGATTATGATGTTTATGAGTAATGATACTTCATACATGAAATTATTATCTATTTATGTCTACACATATACGATTTCAATTTTAGGTGCAATTGTGAACTTTATTATTAGAATGATTATTGGTGGAGATATTGAAACTTCTTATACAAGTTTAGCAACTTTATTTGAGCCAGGTACAGTTGTTCATGGTGCTGCTTCATCATTCGAAGTTTTCAATATTTGGGCATTAGTTGTAATGGGATTAGGATTACATATTACGGCTGGATTAAGTAAAAAACAAGCAACGATTTTAATTGTTATTTTCTTTATTCTTTCAGTTGGATTTAGTAGTTTAAGTGGTCTAGCTCCAAAATTAGGTGCATAA	MEANINTQDVGAKKPSLLGMITSPGEQFERMKTKSPVWGAFFLFIILTAVIAGISMYQVMNHPDVMSEVPDAEAAKVVGYFGIGAGIVGGLFGTAIWFFIAAAIYKVIMMFMSNDTSYMKLLSIYVYTYTISILGAIVNFIIRMIIGGDIETSYTSLATLFEPGTVVHGAASSFEVFNIWALVVMGLGLHITAGLSKKQATILIVIFFILSVGFSSLSGLAPKLGA				NA	NA	NA	NA	NA
AK009_04966	471			hypothetical protein	GTGAAGCCAGCGACTTTTAAAGAGGCAGTTGTTTTGTATGAAGGAATGATTGTAAATCAAATAAAGAAATTAGGTATTCGCCAAGATTATGAAGAGTATTATCAATGTGGTTTAATTGGTCTTTGGCATGCGTATGAAAGATTTGATGCAAAGAAAGGGTATTTCCCTGCATACGCACTTGTAACGGTGCGTGGTTATATATTAGAAAGATTGAAGAAAGAGTTCACAGTGCAAGAAAGGTGTGTATGTGTAGGAGAGTATGAGGATATCTTTCATTTTGAAGATGTTGAAATGAAAGTGAAGGATTTTATGAGCGTGCTAGATGAGAAGGAGAAGTATATTATTTTTGAACGCTTTTTTGTAGGAAAGACGATGGGGGAAATCGCTTTAGAGACGGAAATGACATATTATCAAGTAAGATGGATGTATCGGCAAGCACTCGAGAAAATGCGAGATAGTGTAAGGGGATAA	MKPATFKEAVVLYEGMIVNQIKKLGIRQDYEEYYQCGLIGLWHAYERFDAKKGYFPAYALVTVRGYILERLKKEFTVQERCVCVGEYEDIFHFEDVEMKVKDFMSVLDEKEKYIIFERFFVGKTMGEIALETEMTYYQVRWMYRQALEKMRDSVRG				NA	NA	NA	NA	NA
AK009_04967	507			hypothetical protein	ATGAATGATGAAAATAACATTATTATTTCTAGTTCTACTATGATGCTTGTTCCATACAATCACCCTTATTACCGTACAAAAATTATTGACAGTAGCGGAAATGATCTTTGTTCCTGCCAAACCGCACTACAACTCATCAAGAAATCTTGCTTAACCCAGATTCATTCTACTTATCAAGGCAGGCGTAATGCAGTCCAAACAAATTTTAGATTCAAACAAAACGTTCCAATTCCAATTAATCATCGGGAATACATTTGTACTTTTCCAACAGAATCTCCTTCATCTCCAAACTGTATATGGCTATTTTATAACCACATACATGATATAGAGTTTTGCCAAAAGATTAAAGAGGCTAAAATACATTTTTCAAATGGCACTACTACAACAATATCTATTAGTCCCCATAAATTGCAGCAACAATTATTAAAAGCTGGATACATACTATCTCGTATGAACATGCAAGATTCACTACAATTTAAAAACCCCTTGTTGCATTTACTACATTAA	MNDENNIIISSSTMMLVPYNHPYYRTKIIDSSGNDLCSCQTALQLIKKSCLTQIHSTYQGRRNAVQTNFRFKQNVPIPINHREYICTFPTESPSSPNCIWLFYNHIHDIEFCQKIKEAKIHFSNGTTTTISISPHKLQQQLLKAGYILSRMNMQDSLQFKNPLLHLLH	PGPT0025815_269	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
AK009_04968	399			hypothetical protein	ATGAAGAAAAAGTATATTATTATGGCTTTAGTTGTCATTCTCCTAGTATATTTAGCAAACAGCAATCCGAGTAAAGGAGAATATACAGAATGGGCAGCGAAGCAGTTTATGAAGCGTAATGATGTGAGTAAGAAGCTAGATGAAGTTCAAAAAGAGAATGAAGAGGGTCTTCTTGGCGACTTGGCATCGGCCGGTAAAAAGTTAGCGAAAAAGTATGTTGAGCCACAAGTTGGGTTATTAATTGATCATTATACGAAGCGAAATGATTATATATTCTTCTCAACATATACGACTGAGTTTGATATAGGTGAAGAACATTATAAGTACGTATGCGTCGGTTTTTCAAAGATTTTTATTCCGATTGAAATGCCGAAGAAAAAAGACGAATCTGCAAAATGA	MKKKYIIMALVVILLVYLANSNPSKGEYTEWAAKQFMKRNDVSKKLDEVQKENEEGLLGDLASAGKKLAKKYVEPQVGLLIDHYTKRNDYIFFSTYTTEFDIGEEHYKYVCVGFSKIFIPIEMPKKKDESAK				NA	NA	NA	NA	NA
AK009_04969	216			hypothetical protein	ATGCAAGTACTGGAATTGATTTTCGCGAAAGAAGATGGAAAAACAGTCGTTTTTTCTATCGATATGCCCATCACACCAATTGATGCAAAAGTCGTAAATCAAGTAATGGATACAATCCTTGCCTCATCTGTATTTTCATCCATTGATGAAAATACAAGAAAAAAGGGAGCTCGCCTTGTAGAAAAAAATGTATCTGAAATTCCAATTACTCTATAA	MQVLELIFAKEDGKTVVFSIDMPITPIDAKVVNQVMDTILASSVFSSIDENTRKKGARLVEKNVSEIPITL				NA	NA	NA	NA	NA
AK009_04970	225			hypothetical protein	ATGGCAATTGAAACAATCGTAATGGATTTAACTTTACGTCTAGTATTAAACAACGGATTAGATAAGAACGGCAAAACAGTTTTCAAGAGCAAACAATTTAAACGTGTTAAAACAAATGCGAGCTTAGATCAAGTACACAACGTAGCTCATGCTCTTGCTTCCTTACAGGCATCACCACTTCACGCTGTACAACTTGTAAGCACATCAGATCTTTCTAAACTATAA	MAIETIVMDLTLRLVLNNGLDKNGKTVFKSKQFKRVKTNASLDQVHNVAHALASLQASPLHAVQLVSTSDLSKL				NA	NA	NA	NA	NA
AK009_04971	486			hypothetical protein	ATGAATCGTAAATGGTTATTTTGGATTCCTGTATTACTATGGATGGGGCTGATTTTCTATTCTTCGGCACAACCATATAAAAAGCAGGATATGCGTTCAGATATTGAACAATATGTAAATGTTGAATTTGTAAAAGAGCATTTTTCATGGGTATCTATTGATTATGGTGGAGGAACCCCTGTTAGTATTGCGAATAAAGGTGTAGGCGGATTTATTGAGTTTTTCCTTCGTAAAGGTGCTCATTTTATGGTGTTCTTTATGCTAGGTTCATTGATTTATTACGCTTTTCATCGATCAGGTCATTCGAGGAAAAGATGTTTTATATATGCCATTCTTTTCGTTGCGGGTTATGCAACATTTGATGAAATTCACCAATGGTATACGGGGGACCGTACACCAATGTGGCAAGATTCATTGCTTGATACGTGCGGCGGATTAACGGGAATTATAATAAGTAATTGGTTTTGGAATAGAAAAAAGCGCTAA	MNRKWLFWIPVLLWMGLIFYSSAQPYKKQDMRSDIEQYVNVEFVKEHFSWVSIDYGGGTPVSIANKGVGGFIEFFLRKGAHFMVFFMLGSLIYYAFHRSGHSRKRCFIYAILFVAGYATFDEIHQWYTGDRTPMWQDSLLDTCGGLTGIIISNWFWNRKKR				NA	NA	NA	NA	NA
AK009_04972	2757	rapA_3		RNA polymerase-associated protein RapA	ATGATCAATCAAACTGAAGTAACAATTAGGCTCCAGCATGTTAGTCAAGGTTGGTTCCTTTGGGGAGAAGATGACAGCGGTACTCCATTATCCGTAACAAGTTGGAAACGAAATGCATTCACATGGCACTCCACTTCTTTCTACGGTACTTCTCTAAAAGAAGCAACCTTCGAAGGAAAACAAGGTGTGCTCCTAACAAATGCACAAGCCTTTGAATACATTGCAAACAAACCGATGAATTCCTTTGCACATATGCAAATAAACGGACCTATTACAGCACTTACGAAAGATGCAAATGAATTATGGGACGCCTTTACGAGTGGTAGCTTCGTACCAGATATGAATCATTGGCCTAAACAGCCATCTTGGAAAGTTCAAAATACACCAATTGAAGATGAAACATTAGCATCTCTTTTCTCAGCAGCAGTTAATGAAAGCATATTACAAGATAATCGCTCAAATGACGGCTGGGAAGATGCTAAAAGGCTATATGAACATTACGACTTTACGAAAAGACAATTGGAAACAGCACTACATGAAGAAGATTGGCTTCGAAAAATCGGTTATATTGAAGATGATCTTCCGTTTACAATCGGACTAAGACTACAAGAACCACAAGAAGAATTTGAAATGTGGAAGCTTGAAACAATTGTGACACCAAAGCGCGGGGCTCATCGCATATATGTATATGAAAACATCGATTCCTTACCGAAAAGATGGCACGATTACGAAGAACGGATTACAGAAACACAAGAAGGTTTTAGTAAGCTCATACCGTGGTTAAAAGAAGGAGATACATTCCGAAATGAGCTCTTTGAAACAGAAGCTTGGAACTTCTTAACAGATGCAAGCAACGAATTACTTGCAGCCGGCATTACAATTTTACTACCATCATGGTGGCAAAATTTAAAAGCAACAAAACCGAAATTACGTGTCCAGTTGAAGCAAAATACAGCACAAACACAATCGTTCTTCGGTATGAATACGCTCGTTAATTTTGACTGGCGCATTTCGACGAACGGCATTGATTTATCAGAAAGCGAATTTTTCGAGCTCGTTGAACAAAACAAACGTCTATTTAATATAAATGGTCAATGGATGCGACTAGATCCAGCCTTTATCGAAGAAGTAAGGAAACTCATGAACCGTGCCGATAAATACGGACTAGAGATGAAAGATGTCCTGCAGCAACATTTATCAAATACGGCTGAAACAGAAATTGTAGAAGATGATAGTCCGTTTACTGATATTGAAATCGAACTAGATGGATATTATGAGGAACTATTCCAAAAGCTGCTTCATATTGGAGATATTCCAAAGGTAGATGTCCCTACTTCACTAAACGCAACACTTCGTCCGTATCAACAACATGGTATTGAATGGTTATTATATTTACGAAAGCTTGGATTTGGAGCATTGCTAGCTGACGATATGGGACTCGGGAAAAGTATTCAAACAATCTCTTACTTACTATATATAAAAGAAAACAATCTCAAAACAGGCCCTGCATTAATCGTAGCGCCGACATCTGTTCTTGGAAATTGGCAAAAAGAATTTGAGCGTTTCGCACCGAATTTATGTGTCCAATTACATTACGGAAGTAATAGAGAGAAGGGCAATTCATTTGAAGATTTCCTTCAATCAGCAGATGTTGTATTAACATCTTATGCATTGGCTCAACTCGATGAGGAAGAACTGACTTCATTATGCTGGGATGCTGTTATTTTGGATGAAGCACAAAATATTAAGAACCCACATACGAAACAGTCGAAAGCAGTACGAAACTTGCAGGCAAATCACAAAATCGCTTTAACTGGTACACCAATGGAAAATCGCCTCGCTGAACTTTGGTCCATTTTCGACTTTATTAATCATGGATATCTCGGAAGCTTAGGACAATTCCAACGCCGCTTCGTCACACCGATTGAAAAAGATCGTGATGAAGGAAAAATCCAGCAAGTCCAACGGTTTATCTCACCATTTTTACTGCGCCGAACGAAGAAAGATCAAACAGTCGCATTAAATTTACCAGATAAACAAGAACAAAAAGCTTACTGTCCTCTTACTGGTGAACAAGCTTCCTTATATGAACAACTTGTTCAAGATACACTGCAAAATGTAGAAGGATTAAGCGGAATTGAAAGACGCGGCTTTATATTACTTATGTTGAACAAGCTAAAACAAATTTGTAATCATCCTGCTCTTTATTTAAAAGAAGAAGAACCACAAAATGTCGTTGAACGCTCTATGAAAACAAAAACGTTAATGGAGCTCATCGAAAATATAAAAGATCAAAATGAAAGTTGCCTCATCTTCACTCAGTACATCGGCATGGGAAACATGCTAAAACGTGTGCTAGAAGAACAATTTGGCCAGCGTGTCCTCTTCTTAAACGGTAGTGTACCGAAAAAAAATCGTGACAAGATGATTGAGGAGTTCCAAAACGGAACGTATGACATTTTCATCTTATCCTTAAAAGCTGGGGGAACAGGATTAAACTTAACTGCTGCCAACCATGTCATTCACTACGATCGTTGGTGGAATCCAGCTGTGGAAAATCAAGCAACAGACCGCGCATATCGCATTGGTCAAAAAAGATTTGTTCATGTTCACAAACTCATTACAACAGGAACATTAGAAGAAAAAATCGATGAAATGCTAGAAAGAAAACAATCTCTAAACAATGCGGTCATCACAAGTGATAGCTGGATGACCGAACTATCAACAGACGAACTAAAAGAATTACTTGGTGTATAA	MINQTEVTIRLQHVSQGWFLWGEDDSGTPLSVTSWKRNAFTWHSTSFYGTSLKEATFEGKQGVLLTNAQAFEYIANKPMNSFAHMQINGPITALTKDANELWDAFTSGSFVPDMNHWPKQPSWKVQNTPIEDETLASLFSAAVNESILQDNRSNDGWEDAKRLYEHYDFTKRQLETALHEEDWLRKIGYIEDDLPFTIGLRLQEPQEEFEMWKLETIVTPKRGAHRIYVYENIDSLPKRWHDYEERITETQEGFSKLIPWLKEGDTFRNELFETEAWNFLTDASNELLAAGITILLPSWWQNLKATKPKLRVQLKQNTAQTQSFFGMNTLVNFDWRISTNGIDLSESEFFELVEQNKRLFNINGQWMRLDPAFIEEVRKLMNRADKYGLEMKDVLQQHLSNTAETEIVEDDSPFTDIEIELDGYYEELFQKLLHIGDIPKVDVPTSLNATLRPYQQHGIEWLLYLRKLGFGALLADDMGLGKSIQTISYLLYIKENNLKTGPALIVAPTSVLGNWQKEFERFAPNLCVQLHYGSNREKGNSFEDFLQSADVVLTSYALAQLDEEELTSLCWDAVILDEAQNIKNPHTKQSKAVRNLQANHKIALTGTPMENRLAELWSIFDFINHGYLGSLGQFQRRFVTPIEKDRDEGKIQQVQRFISPFLLRRTKKDQTVALNLPDKQEQKAYCPLTGEQASLYEQLVQDTLQNVEGLSGIERRGFILLMLNKLKQICNHPALYLKEEEPQNVVERSMKTKTLMELIENIKDQNESCLIFTQYIGMGNMLKRVLEEQFGQRVLFLNGSVPKKNRDKMIEEFQNGTYDIFILSLKAGGTGLNLTAANHVIHYDRWWNPAVENQATDRAYRIGQKRFVHVHKLITTGTLEEKIDEMLERKQSLNNAVITSDSWMTELSTDELKELLGV				NA	NA	NA	NA	NA
AK009_04973	1620			hypothetical protein	ATGCTGCAACACTCAATTACGAAAGATGAAATTATGATGATTGCGAATGAGTTCGTTCAAGGACTAGATCCACAGCAAACAGCTGATCAGGAACATGTCGCTACAGCTCGGCACCTATATCGTAGTGGTGTTGTCTATAACGTTGACTTTGATGGTTATACACTATCAGGAACTGTAGATGCGGAAGGCAACGTATATAGCGTTCATATTCCGATTCGTAACGTCGCTGAAAGCTATTGTGATTGCTTCGCACCAACACAATGTGAGCATATGCTCGCTGTATTACTATCTGCAGCGTCTAGTTTTGGGCAAGTAGGAGATGTATTAACTTTATTTAAAAATAATACGAAACCTTCCCTTCCCCCTATTCGAACTGCAAGACAAGTATTACAATCATCAGCTTTTGAAGAAACTGACTATAAAAGTTGGGAATCATATTTTGAAAAAGAATATGATTCATTTAAAAAAGAACAAGCTCGGCTTACTTATAAACAAATGTATTTTCTTATGAGTATCTTTACAGATTTCTATACGAAACTTGAGCGGAAAGCTCCGCGTATCATTGCGATACATGAATTATTCAGGTTACACGCAGCACTTTACTGCTTTCAAAAATTATTAGAAGAAATTCAGGCATTCGAAGCAAACAAAACATATTCTTATCACCAACCTGTTAATGTCATTCGCCTATTTGTAGACAAAGTGGAATCCATCGTTCGGGACTTACAATCAGAAGCGATTCCTTCAGAGTCTGAAATAATTTTACAAGAAACAGCTCGTCTCGTTCATGAAGTATTCTTCTCTACCGACGCTTATACGCAAGAGCGATTTTTCATTTATCGTCACATATGGAGTGAACTTTTAAACAATAAAGAGAAAATACAAGAAGAAGAAAAACGAATCGATACGAAAATCAATCCACTATCTAAAGCGTTAGCGTCTTCTCATCTTCTCTTTTTAAATGACGAAGATCTACTAGCGATGGACTTACTAAAAAAACAGCCTGCTTCTGTTGTGAGTCTATACTTCTATTGGTTAGAAGAACTATTAAGTGCCATGCATTGGGATCGTGCAAAAAACTGGCTTTCCTTTACGTATAAACAAGTAAAGAAAACGATCCAAGATCACGAAAATACGATTTTCATAAAAGATGTCGTTCGGCTATTTGTAATCATGTATGAAACATATGCAACACATACAAATGAACAAGCTGGTTTCGAAATGATCTTACAAGAACTATTACCGTATAGTTTCACAAACTATGAACAGTACGTACTCGCGAAAAAACAGTATCGTACATGGGCAGAGCTTCATCTCCTATATGGATTTAAAGCAATTGAGCTGTTGAAAGAGCCACTGAAAGATATTGAAAAAGAAGCGCCAGAAGTGGCACTTCCTCTTTACCATCTTGCTGCTGTAGAGGCGATTGAAGAACGAAATCGTAAATCATATAAACGCGCAGTTCGTTACTTAAAGAAATTACGTACATTGTATAAACGATTAAAACGCACCGATGAATGGGATGCTTTCATTATTCACATCGCCAATCTCCATTCACGTCTGCGTGCACTACAAGAGGAATTACGGAAAGGAAAATTAATCGATGATCAATCAAACTGA	MLQHSITKDEIMMIANEFVQGLDPQQTADQEHVATARHLYRSGVVYNVDFDGYTLSGTVDAEGNVYSVHIPIRNVAESYCDCFAPTQCEHMLAVLLSAASSFGQVGDVLTLFKNNTKPSLPPIRTARQVLQSSAFEETDYKSWESYFEKEYDSFKKEQARLTYKQMYFLMSIFTDFYTKLERKAPRIIAIHELFRLHAALYCFQKLLEEIQAFEANKTYSYHQPVNVIRLFVDKVESIVRDLQSEAIPSESEIILQETARLVHEVFFSTDAYTQERFFIYRHIWSELLNNKEKIQEEEKRIDTKINPLSKALASSHLLFLNDEDLLAMDLLKKQPASVVSLYFYWLEELLSAMHWDRAKNWLSFTYKQVKKTIQDHENTIFIKDVVRLFVIMYETYATHTNEQAGFEMILQELLPYSFTNYEQYVLAKKQYRTWAELHLLYGFKAIELLKEPLKDIEKEAPEVALPLYHLAAVEAIEERNRKSYKRAVRYLKKLRTLYKRLKRTDEWDAFIIHIANLHSRLRALQEELRKGKLIDDQSN				NA	NA	NA	NA	NA
AK009_04974	489			hypothetical protein	GTGTCAGATTTACAAGCGAAGTTTGGGAATGGTATGAACAAGTTGCAAGAGGGAATTGAGCAAGGAAAGATGAAGTTGCAAGTTGCACAAGAGGTTGCACAACTAAAGAAAATTACGCAGGAGAAGTTACAAGCGAAAACTGAAATTTTGTTGGAGCTTGGTCAAACTACATATATGCAACTGCGCAATGATGAAGTTCGAATAGAGGTATTGAAAGGAATTGTAGAACCGGTACAAGAGCTTGATATTGCTATTTATAACATGCGTAAGCAAATTGCTAATTTGCAGAATCAAGGTCAGAAAGGGCAGTGTAGCTGTGGTGGCTCATTATCATTAAATGATAAATTTTGTGGACAGTGCGGGAAAGAAAATGAGTTACTCCTTCAAACAAACAATGTTGAAAATAAATCATGTTCTTCATGTAGTGAACAAATCGCAACAGAAGCTATATTCTGTCCAGTTTGTGGTATGAAGCAAAGTAAGGAGTGA	MSDLQAKFGNGMNKLQEGIEQGKMKLQVAQEVAQLKKITQEKLQAKTEILLELGQTTYMQLRNDEVRIEVLKGIVEPVQELDIAIYNMRKQIANLQNQGQKGQCSCGGSLSLNDKFCGQCGKENELLLQTNNVENKSCSSCSEQIATEAIFCPVCGMKQSKE				NA	NA	NA	NA	NA
AK009_04975	1557			hypothetical protein	ATGTATTGTAAAACTTGTGGTTTAGAACAGTCTGATGTATCAAATTATTGTACGCATGATGGGTCTAGTACAGGTGGTGTAGCAAGTCATATTATATTAGCGCCTAAAGACTCAAAATATTGCCGAACTTGTGGAGTGGAAAGTAAAGAAACTGCTACATATTGTGAGAAATGCGGCGATTCCTTACTAGTAGGTATTACGAAAAAAGAAATGAAAACGAAATTACCAGACCAGGGTGTACAACTAAATGTGGGTTCATCTGGAATTGCTTTGAAAAAAGGCTTACTTGGTGGTGGTCTGGCAATTATATGCATGTTTTTGGCTGGCTGGATTAGTAGTTTAATTATCGATGCAGCGATGAATGATTTAATGAGAACGATGGTTACAAATACGAACGGTATGCTGGATATGACTACTATTAATCAATCTTTCATTGGCATAGCGCCATTAATTTTAATGTATCATTTAGCGGGTCTTGAAGTCAGTGGAAGTGGTACATACATAATGTCATTTATTCTTCATGTCCCATTGTTCATTTTATTAACTATTCCAGCACTTATATTAGGTGGAATTGGCTTTTTTGTAGAGAAAAAAAACCCGTCTATTGTTTGGCGTGAGAAGCTAGTAACAGCATGTATTATCGGTATTGTATATGGAAGTTTCTTATGTGTTATAAGTTTTGTAGCAAGTTCTTCTACGACGATTTCTCAATTCTATGAAACAATGACAATTAATGTTAGTTATTCTCATATTATTAGTTTGTTGTACGGTATTATATTTGGTTTATTATTTAGCTTTATTGGCATGAGTATTGCAGCGGGACCACATCGTATGCTTTCCGCAATTAGTCAAAGTGTTCCATATGCAGCATCTATTTATTATAGTGTAGTGACTGTTTTAAAAGGATTAATCATTACATTTGGTATTATACTTATTACGATTTTATTTAGTAGTTCAAAATCAATGGGACCAATTGATTTCCCTGAGAAAACATATAAAGCATTAATTTCATTAGAAGCAACACCGTATATGTGGAATATGGCTCACTTTGCTCCAACTGCAATTGAATGGGCGAACATGGAGAAAGAAATACAGAACTATCCAGGAGGAAAAGGGCCGTTACATTTATCATATACATCAGGCATATCATTAAATGGTACGTCTTTAAAAGATGTGGCAATTGCTAATGGTGCTTCTGCTAAAGAAATTAAATATATGGATGATTTCAATTCCTACATGCATTGGTGGGGTTTATTAATTTTAATACCATGTATCTTACTATTTAGAGCTGGAATGAAATTAGCTCAATATCCAATGAAAAATATATATGTAACAATTGCGATGTTTAGTGCGGTTTATACTGTGATGATGCTTTGTGTAAATGGATTAGCAAAAATCCAAATCGAAGCTTCAGGTAGTAAGGAAATTATGAAGGAATTTACGGGGATTTCTGGTCCGCTATTATCGATTCAAAGTAGCACGATGTATTTAATAGTAGGTAGCTTTATTCTTTCTTACGTATTAGTGTTTGCTGGGATGAAGTTGGTAAAAAAATAA	MYCKTCGLEQSDVSNYCTHDGSSTGGVASHIILAPKDSKYCRTCGVESKETATYCEKCGDSLLVGITKKEMKTKLPDQGVQLNVGSSGIALKKGLLGGGLAIICMFLAGWISSLIIDAAMNDLMRTMVTNTNGMLDMTTINQSFIGIAPLILMYHLAGLEVSGSGTYIMSFILHVPLFILLTIPALILGGIGFFVEKKNPSIVWREKLVTACIIGIVYGSFLCVISFVASSSTTISQFYETMTINVSYSHIISLLYGIIFGLLFSFIGMSIAAGPHRMLSAISQSVPYAASIYYSVVTVLKGLIITFGIILITILFSSSKSMGPIDFPEKTYKALISLEATPYMWNMAHFAPTAIEWANMEKEIQNYPGGKGPLHLSYTSGISLNGTSLKDVAIANGASAKEIKYMDDFNSYMHWWGLLILIPCILLFRAGMKLAQYPMKNIYVTIAMFSAVYTVMMLCVNGLAKIQIEASGSKEIMKEFTGISGPLLSIQSSTMYLIVGSFILSYVLVFAGMKLVKK				NA	NA	NA	NA	NA
AK009_04976	1380			hypothetical protein	TTGAAGTTTTGTGGAATATGTAATGAAAAAGTTGCAGACCATTTAAATTTTTGTCCAGAGTGTGGAAGTAAGATAGAAGAAATAGCTGATCAAACAGCTTCTTCTCGTTCAGAAATACAACGGGAAACAAAGCCGGTGAAAAGTAAGAAGAACATATTTTTACTGCTAGGTTTTCTTGTTATTTTTGCTATATTGTTCGGAGCATATAAATTTGGTGCAAGCAAGTTTTCAAAGGAAAAACAAGTAAACGTTATGATTGAGGCGTTTCAAAAGAAAGATGCGAATGCAATTGATGAGTTTGTAAAGGTAGATGATCCGAGCTTAAAGATTAAGGCAGAGGATATTAAGGCATATATCCGTTATTTAAAAGACAACCCTTCATATAATAAAGAGCTGCTGTCTTATTTACAAAGAGAGACAGTGGATCAAAAACTAGCAAGTGATAAAGCATCGTTTAAAGATGGACAAATTATAGAAGACGGAAAAGAATGGTTTTTATATCCGAAGTATAAATTTAGCATGAAATCGTATTATATGAATGTAAGTACAACTGCGAAGAATGCAGAAATATATGTGAATGATAAGAAAGAAGTAGAATTGTCTAATGACAAAACTTCAAAAGAAATTGGTCCATATTTTCCGGGTTCTTACGTTGTAAAGGCAAAAGCAAAGTCAGAGTTAACTGAGTTAGAAACAGAAAAAGAAGTAGATTTAGCAGATGAAAAAAGTGCGAAGGTAGATGTAAATTTATCATTAGAAGGCAATTATGTAACAATTTCCTCTGATGAAAATGATGCAAATGTAGTTGTGAATGGTAAGAAGCGTGGGAAGTTAAGCCGCGGAAGTTATAAACTTGGTCCTGTACCAACAGATGAAACGGTAGAAGTGCATTTAGAGAAAAATGCTGAGTTTGGCTTAATTAAATCAGAAAGCGTTAAAGTTGGAGACCAAAGCACCTATTACTTAAAATTCCCGAAAGAAACATCAAGTTCAGCAGTGGGCGAATTTGTAAAAAATCATATTTATGATAACGTACGTGCAATTTCATTAAATGATTTTAGTTTAATTGAAAATAATTATGATAAGAGCGGGAAATCGTATAAGGAAGACCGTGATTATATACAGTATTTACACAAAAAAGGAATTACAGAAGACTTATTAACGATGGAAGTTCGTAATGTAGAGCGTCAAAGTGATACGAAATATAAAGTAACGACATATGAAGAGTATCATATTCGTTACGGTGATGGATCTGTGAAGTTCAAAAGTTTTAACAACGAACATATTGTAACTGTGAATGGAAATGGAAAGATGTTGTATCATTCTCTTGGTGCAAATAATACGTTGAAATCAGAAGATGTATCTGGTCCAACTCGTTAA	MKFCGICNEKVADHLNFCPECGSKIEEIADQTASSRSEIQRETKPVKSKKNIFLLLGFLVIFAILFGAYKFGASKFSKEKQVNVMIEAFQKKDANAIDEFVKVDDPSLKIKAEDIKAYIRYLKDNPSYNKELLSYLQRETVDQKLASDKASFKDGQIIEDGKEWFLYPKYKFSMKSYYMNVSTTAKNAEIYVNDKKEVELSNDKTSKEIGPYFPGSYVVKAKAKSELTELETEKEVDLADEKSAKVDVNLSLEGNYVTISSDENDANVVVNGKKRGKLSRGSYKLGPVPTDETVEVHLEKNAEFGLIKSESVKVGDQSTYYLKFPKETSSSAVGEFVKNHIYDNVRAISLNDFSLIENNYDKSGKSYKEDRDYIQYLHKKGITEDLLTMEVRNVERQSDTKYKVTTYEEYHIRYGDGSVKFKSFNNEHIVTVNGNGKMLYHSLGANNTLKSEDVSGPTR				NA	NA	NA	NA	NA
AK009_04977	303			hypothetical protein	ATGAATGTACAAGCAAAAATAGACTGGATTGGTACGCCAAAACCGTACATATATAAAGATGAAGTAACATATAACGCTACTTCTATTGATTTCTCACTCGCTGGCGATGATAATCGCTATAAGCTAATTGTGCTCAAGTCAGAAAAAAATACACATTACAAAATTGTGCAATATGGAATAAAACCAGGCTCTCAAAAGCCATTTCCTATCGACATTCCATTTGAACAAAACATGTTACCAATTATAGAGCAAATATTACATGATCCATATGTACAAGCGATATTAAAGGAAACGCACTCATAA	MNVQAKIDWIGTPKPYIYKDEVTYNATSIDFSLAGDDNRYKLIVLKSEKNTHYKIVQYGIKPGSQKPFPIDIPFEQNMLPIIEQILHDPYVQAILKETHS				NA	NA	NA	NA	NA
AK009_04978	885			hypothetical protein	ATGAAAAAATTAATTGGAATAGCAACAGCAGCAGTTTTTGGTCTTGGGATTTTCACATCATCTGCTAATGCAGAAACTGTTGTAACAACAGACGTACTAAACGTACGCGAAAACCCTACTACTGAATCAAAAGTTGTCGGTAAATTACTAAACGGTAATAAAATAGATGTTCAAAATACAGAGAACGGATGGTCAAAAGTTACTTTAGACGGTAAAGACGCATTCGTAAGTGCAGAGTTCACAAAAAGCATCTACTACGTAACAGCTAACGTATTAAACGTACGTGCTGAAGCGAACACAAACTCAGAAATTCTTGGAAAGTTGAAGAAAGACGATGTAATCGAAACAACGAGCCAAGTACAAAATGAGTGGTTACAATTTGAATATAACGGGAAAACAGCTTATGTTCATGTTCCTTTCTTAACAGGTACAGCACCTGTAATTGAGAAACAAGAAACAACTGCTCCTGCTAAAGCTAAAGTTGAAGCACCAGCTAAGGCTCAAACACCTGCAGCACAAGCAAAACCAGCTGCTAAGCCTGCTGTGAAAGCTGCTGAAACTAGCGAACCATCTGGTGGTCGTGAGTTAACAGTTGTAGCTACAGCATATACAGCTCATCCGAGCGAAAACGGTGGCACATATGGCGGCCGTGTATTAACTGCAATGGGTCATGATTTAACTGCGAATCCAAACATGAAAATGATTGCTGTTGACCCGAAAGTAATCCCATTAGGATCTAAAGTATGGGTAGAAGGTTACGGAGAAGCTATCGCTGGAGATACTGGTGGTGCAATTAAAGGTAACCGTATCGATATCTTACTTGGATCAGATAGTGCTGCTCAAAAATGGGGCCGCAAAACTGTTAAAGTGAAAATTTTAAAATAA	MKKLIGIATAAVFGLGIFTSSANAETVVTTDVLNVRENPTTESKVVGKLLNGNKIDVQNTENGWSKVTLDGKDAFVSAEFTKSIYYVTANVLNVRAEANTNSEILGKLKKDDVIETTSQVQNEWLQFEYNGKTAYVHVPFLTGTAPVIEKQETTAPAKAKVEAPAKAQTPAAQAKPAAKPAVKAAETSEPSGGRELTVVATAYTAHPSENGGTYGGRVLTAMGHDLTANPNMKMIAVDPKVIPLGSKVWVEGYGEAIAGDTGGAIKGNRIDILLGSDSAAQKWGRKTVKVKILK				NA	NA	NA	NA	NA
AK009_04979	1515	opuD_2	COG1292	Glycine betaine transporter OpuD	ATGAGGAAACTGACAAAAACATTCATCGTTTCATTAACATTATGTATTGCATTTACAATTTGGGGGATTATTCCCGAATCTATTATTGGAAAAGGTAGCTTAGGAAATGTAACAACTGCAATTCAAACTGCATTAGTTAGTAAGTTTGGGTGGTTTTATATTATTTCCGTTTCTATTATTTTAGGTGTGTCTATCTTTTTAATTGTTTCGAAATACGGTTCTATTCGTTTAGGTAAAGATGATGACGAACCTGATTATAGTTATATGACATGGTTTGCTATGCTATTTAGTGCTGGTATGGGTATCGGCTTAGTTTTCTGGGGCGTTGCTGAACCATTAAACCATTTGTACGCACCTCCGTTTGGAGAAGGTGCAACTGAGGAAAGTGCGCGCCTTGCATTGCGTTTTTCATTTTTCCATTGGGGATTACATCCTTGGGGACTATATGCGTTTGTAGCGTTATGTATTGCTTATTTTACCTTTAGAAAAGGAAAAGCAAGTACGATTAGTGCGACGGTAGGTCCGTTATTTAAGGGCGGGGAACACGGACGTATTGCTCATTCATTTGATGTGTTAGCTGTTTTCGCAACTGTGTTTGGTGTTGCAACTTCATTAGGTCTCGGTGCAAAACAAATTGCAGGTGGTGTTAGCTATTTAACATCTATTCCGAATTCATTAACGACACAGTTAGTTATTATTGCAATCGTAACAGTTCTTTTCATGTTATCTGCACAAACAGGTCTTGATAAAGGAATTAAATATTTAAGTAATACGAACATTATTTTTGCATTTGCACTTATGATCATTGTATTATTTGCAGGTCCAACAAACTTTATTATGAATTACTTCACTTCAACAATAGGTTCTTATATTCAGGAATTGCCAAGTATGAGTTTCCGTTTAAGTCCATTGGATGAAGGCGGAAATCAATGGATTCAGTCATGGACAATTTTCTATTGGGCATGGTGGATTGCATGGTCACCGTTCGTAGGTACGTTTATTGCTCGTGTTTCACGAGGTCGTACAATTCGTGAGTTTGTTATCGGTGTGTTACTTGTACCGACCGTAATCGGTGCGCTTTGGTTCTCCGTTTTCGGCGGGACTGGTATTCACATGGAGCTGTTTGGTGATGCACATATCTTTGAAAAAATTAAAGAGATGGGAACAGAAGTAGGATTGTTTGCTATGTTCGATCAGATGGGAAGCTTTGGATCAGCTTTATCTGTTTTAGCGATTCTTCTTATTTCTACATTCTTTATTACATCGGCAGACTCTGCAACATTTGTTTTAGGAATGTTAACGACACATGGTAGTTTAAACCCACCAAATCGTATTAAAATGATTTGGGGTATCGTTCTAGCCGCGATAGCTTCTACCTTATTATATATTGGCGGATTAGAAGCCTTACAAACGGCAGCTATCATTGCAGCATTCCCATTCGTCTTTGTTATTTTCTTTATGATGGCAGCATTATTTAAAGAGTTACAAAAAGAAGGACGTATGAAGCGTCATTAA	MRKLTKTFIVSLTLCIAFTIWGIIPESIIGKGSLGNVTTAIQTALVSKFGWFYIISVSIILGVSIFLIVSKYGSIRLGKDDDEPDYSYMTWFAMLFSAGMGIGLVFWGVAEPLNHLYAPPFGEGATEESARLALRFSFFHWGLHPWGLYAFVALCIAYFTFRKGKASTISATVGPLFKGGEHGRIAHSFDVLAVFATVFGVATSLGLGAKQIAGGVSYLTSIPNSLTTQLVIIAIVTVLFMLSAQTGLDKGIKYLSNTNIIFAFALMIIVLFAGPTNFIMNYFTSTIGSYIQELPSMSFRLSPLDEGGNQWIQSWTIFYWAWWIAWSPFVGTFIARVSRGRTIREFVIGVLLVPTVIGALWFSVFGGTGIHMELFGDAHIFEKIKEMGTEVGLFAMFDQMGSFGSALSVLAILLISTFFITSADSATFVLGMLTTHGSLNPPNRIKMIWGIVLAAIASTLLYIGGLEALQTAAIIAAFPFVFVIFFMMAALFKELQKEGRMKRH	PGPT0013600_1106	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK009_04980	135			hypothetical protein	ATGAAACGTTACGAAAGAAAGTGGAAGCATATTTGTTTGAAACGTGTGGCACATCGTAGTGTCCAAGAAAGCACGGAACCTAAGACTGAAACGCGCAAAGAACAGCAAGAGAAGCAATTGGTTCTACAAAAATAG	MKRYERKWKHICLKRVAHRSVQESTEPKTETRKEQQEKQLVLQK				NA	NA	NA	NA	NA
AK009_04981	1302			hypothetical protein	ATGATGACTCTCGTTATACTTCTTTTATTTCTTCTGTTTTGCGTACTCGTTTTTTGGATCAGTATCACATTTTCAATTAAATATGTACTTATTTTTACGGCCTTTCTATTCTCTGGCTTACTCGTTTACTACTCTTTCTTAACAATCGCGGGCCTAATTCACCGAAATAGCAAACGAAAAGATCGTACACTAGAACATTATCCTAGCGTCGATATTTTCATACCTGCCCATAATGAAGGGGTCGTTATTAAAGATACTTTAGAGGCGATGGCGAAGATTGAATATCCAGGAAAGCTAACTATTTATTTATTAAATGATAACTCTCAAGATGAAACACCTGAAATCGGCGATGATTTCGACAAAGCTTATGCTCATATTCGCCACATTCGTGTTCCCTCCGGTGAACCGAAGGGTAAATCACGTGTACTAAACTATGGGCTTAGTATTTCAGATGGTGAATACTTCTGTGTTTACGATGCAGATAACCAACCTGAACCACACGCACTGCGAATGCTTGTAGAGCACGCTGAAACAACTGAAGATGGGGTTGGAGCAGTTGGACACGTTCGTACTGTAAATGAAAAAAGAAACTGGTTGACGCGAATGATTTCGCTAGAATTTCAAATCTTCCAGCTCCTTATGCAATCTGGACGCTGGTTACTATTCCAAACGGGTTCACTAACAGGAACAAATATGCTTCTTCGTCGCTCAGCACTAGAAGAGCTTGGTGGCTATGACCCTTATGCAATTGCAGAAGATGCTGAATTAACATTACGAATTACACAAAAAGGTTATCTCTTACCAATCGTCCCAGAATCAGTTACTTGGGAACAAGAACCAGAGCATTTAAAAATTCTTATTAAACAACGTACACGTTGGCTCCAAGGAAATTTATACATTTTAGAAAAAATGTTCTCGTCATTAAGTTTCTTTAAAGGAAAACTGCTCGTTCATTCCTTACAACAAGTTCTAGTGTATGTTGTATTTTGGCTATTCCTAATCATTTCAAACGTTTGGTTTGTAATTGGGCTACTCGGGATATTCCAAATTCAATATAGCATTCCGCTACTATTTATGTGGTATGTAGCATATATTACATATGTTTCACAATTATTTAGTGCCCAGAGTGTCGAACGAACCTTTACACCGACTAATATTTTTATTAGCGTTATTATGTACTTTACGTATGCACAGCTCTTTACGTACTTATTTATTCGCAGCTTAATCTTATATTTACGTGCAAAGAGCAAGAAACAAGTCATCGGCTGGGATAAGACAGTTCGATTTAAAAAAGATAAATAA	MMTLVILLLFLLFCVLVFWISITFSIKYVLIFTAFLFSGLLVYYSFLTIAGLIHRNSKRKDRTLEHYPSVDIFIPAHNEGVVIKDTLEAMAKIEYPGKLTIYLLNDNSQDETPEIGDDFDKAYAHIRHIRVPSGEPKGKSRVLNYGLSISDGEYFCVYDADNQPEPHALRMLVEHAETTEDGVGAVGHVRTVNEKRNWLTRMISLEFQIFQLLMQSGRWLLFQTGSLTGTNMLLRRSALEELGGYDPYAIAEDAELTLRITQKGYLLPIVPESVTWEQEPEHLKILIKQRTRWLQGNLYILEKMFSSLSFFKGKLLVHSLQQVLVYVVFWLFLIISNVWFVIGLLGIFQIQYSIPLLFMWYVAYITYVSQLFSAQSVERTFTPTNIFISVIMYFTYAQLFTYLFIRSLILYLRAKSKKQVIGWDKTVRFKKDK				NA	NA	NA	NA	NA
AK009_04982	756			hypothetical protein	GTGAAAGATAAGTTCTATAAAATCCTCTCTATGTGGATTCTACAAATTGTATTTTATTTTACTACTGTACATGTGACGAATTATGAGCATGCGCTCATTTTTACAATAATATACGTAATCGTAAATGTACTATTCTTATTTTTAGCTGATAAAACAGCATTTATTTTCTTCATACTAGGAACCATTATTTCCGTATTTTATTTATTTTATCAAGCATGGCTTCATTTATGGAGTACATCAGATCAATGGCAATATATGATTACCCACTTCCTGATGGTAGCTAACTTCTTCATTGTATATATAACAACTCATCTATTGAAAAAAGTGATTCATGAAAATAAAACTTTAACTGAGCGTGTGAGAACGTTGGAACAATATATTGGAGAATCAAAATTATTAACTAGACAAGAATTCGAGAGACGCCAAGCGTTATTAACGACTGCAATGAATCGTCGTAATGAAACAGGCGTTATCGTTTACTTTGATTTCACTTCCTTTAGTAAATATACGAAGGAAAGTGTTATGGATCGTGTAGCTTCCTTATTAGTTGAAACGGTAAGGAATGATTTTGACCTTGCTGCTGAATATGATGAGAGTACATTAGTTATTTTATTACAGAACACAAATGAGGCTGGTGCAGATATAGTAATGAACCGTCTACAGCCAAAATTAGAAAAATGGCTTGCAGCTGAAGCAATCCAAGATATAAAAATTTCAAGCGAGCAAATTGGAAACAAAGGACAGACATTGTTATGA	MKDKFYKILSMWILQIVFYFTTVHVTNYEHALIFTIIYVIVNVLFLFLADKTAFIFFILGTIISVFYLFYQAWLHLWSTSDQWQYMITHFLMVANFFIVYITTHLLKKVIHENKTLTERVRTLEQYIGESKLLTRQEFERRQALLTTAMNRRNETGVIVYFDFTSFSKYTKESVMDRVASLLVETVRNDFDLAAEYDESTLVILLQNTNEAGADIVMNRLQPKLEKWLAAEAIQDIKISSEQIGNKGQTLL				NA	NA	NA	NA	NA
AK009_04983	1212	nupX	COG1972	Putative nucleoside permease NupX	ATGAATCTTTTATGGGGAATTGGCGGCGTGATTGGAGTATTAGCAATTGCTTTCTTACTATCTTCCAACCGCAAAGCTATTAATTGGCGCACAATTTTAATTGCGCTAGCATTACAAATGTCATTTTCATTTATCGTATTACGATGGGATGCTGGTAAAGCAGGTTTAAAACACGCTGCTGACGGTGTTCAAGGATTAATTAATTTTTCTTACGAGGGAATTAAGTTCGTTGCTGGGGATTTAGTCAACGCAAAAGGACCTTGGGGATTTGTATTCTTTATTCAAGCACTACTTCCAATCGTATTTATTAGTTCATTAGTAGCAATCTTATATCATTTCGGTATTATGCAGAAATTTGTTAGCGTCGTTGGTGGTGCATTAAGTAAACTTCTTGGAACTTCTAAAGCAGAAAGCTTAAACTCAGTAACGACTGTATTTTTAGGACAAACTGAAGCTCCAATCTTAATTAAACCTTACTTAGCACGCTTAACAAATAGTGAATTCTTCACTATTATGGTAAGCGGTATGACAGCTGTTGCCGGATCAGTTCTTGTCGGCTATGCAGCAATGGGTATTCCGTTAGAGCACTTATTAGCAGCTGCAATTATGGCAGCTCCATCAAGCTTATTAATTGCGAAACTAATCATGCCAGAGACAGAAAAAGTAGATAATAACGTTGAACTTTCTACAGAACGTGAAGACGCAAACGTTATCGACGCAGCTGCACGTGGTGCATCTGAAGGTATGCAACTTGTTATTAACGTAGCAGCAATGTTAATGGCTTTCATTGCATTAATCGCTTTATTAAATGGTCTATTAGGATTAGTTGGGTCTTTATTCCATATTAAACTTAGCCTTGATTTAATCTTCGGTTACTTATTATCACCATTTGCAATCTTAATCGGGGTTTCTCCAGGTGAAGCTGTACAAGCAGCAAGCTTTATCGGTCAAAAACTTGCAATCAACGAATTCGTTGCATACGCAAACTTAGGACCACATATGGCAGAGTTCTCTGACAAAACAAATCTAATTTTAACATTCGCAATCTGTGGATTCGCAAACTTCTCTTCTATTGCAATTCAATTAGGTGTAACAGGAACGCTAGCTCCTACTCGCCGTAAACAAATTGCACAATTAGGGATTAAAGCAGTTATCGCTGGTACATTAGCTAACTTCTTAAATGCAGCAGTTGCAGGTATGATGTTCCTATAA	MNLLWGIGGVIGVLAIAFLLSSNRKAINWRTILIALALQMSFSFIVLRWDAGKAGLKHAADGVQGLINFSYEGIKFVAGDLVNAKGPWGFVFFIQALLPIVFISSLVAILYHFGIMQKFVSVVGGALSKLLGTSKAESLNSVTTVFLGQTEAPILIKPYLARLTNSEFFTIMVSGMTAVAGSVLVGYAAMGIPLEHLLAAAIMAAPSSLLIAKLIMPETEKVDNNVELSTEREDANVIDAAARGASEGMQLVINVAAMLMAFIALIALLNGLLGLVGSLFHIKLSLDLIFGYLLSPFAILIGVSPGEAVQAASFIGQKLAINEFVAYANLGPHMAEFSDKTNLILTFAICGFANFSSIAIQLGVTGTLAPTRRKQIAQLGIKAVIAGTLANFLNAAVAGMMFL	PGPT0021070_1362	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
AK009_04984	129			hypothetical protein	ATGAAAAGTTTAAATAAAAAGAAAATTCTTCAAAAAAACACATATAAAATAAATAGACATGAAATAGGTTATGTTTTTTATGAAAATATATACATTATGATAACGTTATGCATTGTTTTTGCAGAATAA	MKSLNKKKILQKNTYKINRHEIGYVFYENIYIMITLCIVFAE				NA	NA	NA	NA	NA
AK009_04985	1743			hypothetical protein	ATGAAAAAGTATCTTGCCGGTCTTGCGGCAGTGTCTGTAGCAGGAGGAGCAGCACCTACACTTGATAGTGTTCAAGCTGCACCTGAACAAAATACACAAAAAGCTGCTACAACTGTCCAAGCTTCTGCATCAAACGACTCATCTTATAAGGTAAACGCGAGCGTATTACATGTTCGTGCGGGATCAAGCATTTCTCACGACATCATCTCACGCGTTTATAACGGTCAATCACTAAACGTGATTGGCGAAGAAAATGGTTGGTTCAAAATTAACATTAACGGAAAAACAGGCTTTGTTAGTGGCGAATTTGTATCAAAAAGTGGAGCAACAAACAACAATGTAAGCACAGGCGGAAACAATAAAGTTACTGCTGATGTATTACGTGTACGTACAGCTCCTAACACTTCTAGTTCTGTTTCTGGACGTGTATATGCAGGACAAACATTAAACGTAATTGGACAAGAAAATGGTTGGGTGAAAATTAACCATAATGGTCAAGTAGGTTATGTAAGTGGCGAATTCGTATCTGGCGTTTCTTCTAATGCGGGTTCTTCAAACAACAATACGAATAATAACAATAACAACCAAGAAGTAAAACCAGCAAGCGGAAACTATACAGTAAATGTATCTTCCCTTCGTGTTCGTACAGGTCCTAGTACTTCTCACACAACTGTAGGTTCTGTTACAAAAGGACAAGTAGTACAAGTTGTTGGCGAAGTTCAAGATTGGTTCAAAATCAATTATGCAGGACAAACTGCTTATATAAGCAAAGACTACGTAACAAAAGGCGGTTCTAACGAAAACGTTACAGAAGGCAACAAACAAGAGCAAAACAATAATAATGGAACTATTCAAACTGGCGGTTCTTACGTGGTTAACGCTACATCTTTACGTGTTCGTACAGGCCCTGCTGCTTACCATAGTGTAATTGGTGGTGTTTTAAACGGTACAACATTAAACGTAGTTGGATCTGAAAACGGTTGGTTTAAAGTAAATTACCAAGGAAAAACAGGCTTTGTTAGTAGCGAATTTGTAAAATTCGTTAAAGGTGGTACTACTACTCCTGAGCAACCAAAACAACCTGAAAAACCTAACCAAGGTGCAATTGGCGACTACTACATTAATGCTTCTGCACTAAATGTACGTAGCGGCGAAGGTACAAATTATAGAATCATAGGTGCACTTCCACAAGGACAGAAGGTTCAAGTAATCTCTGAAAACTCTGGATGGAGCAAAATTAACTACAACGGTCAAACTGGTTATATCGGAACACGTTACCTATCTAAAACACCAGTTGGAGGCGCAGTAGATAATAAGCCTAACAATAACCAAAATAACAATCAAAACAATAACAACAATAATAATACAGGCAATAATAGTGGCGACAGTTCTTCCGTACTTGCATATGCAAAATCAATGCAAGGTGTACCATACGTTTGGGGCGGAACTTCTGCTAACGGCGTAGACTGCAGTGGCTACATCTACCATGTATTTAAGAAATTGGGTCATAACATTAGCCGTCAAAGTGTTGCGGGATATTGGAGTAGCCTACCAAAAACTTCAAGTCCACAACCTGGTGACTTAATTTATTTCCAAAACACTTATAAATCTGGTCCTTCTCACATGGGTATTTACCTTGGGGGCGGATCATTTATCCAAGCTGGAGATAAAGGTGTAGCAATCGCTTCATTAAGTAACTCTTATTGGAAGAGCCACTTCTTAGGATACACGAAAGCACCTTAA	MKKYLAGLAAVSVAGGAAPTLDSVQAAPEQNTQKAATTVQASASNDSSYKVNASVLHVRAGSSISHDIISRVYNGQSLNVIGEENGWFKININGKTGFVSGEFVSKSGATNNNVSTGGNNKVTADVLRVRTAPNTSSSVSGRVYAGQTLNVIGQENGWVKINHNGQVGYVSGEFVSGVSSNAGSSNNNTNNNNNNQEVKPASGNYTVNVSSLRVRTGPSTSHTTVGSVTKGQVVQVVGEVQDWFKINYAGQTAYISKDYVTKGGSNENVTEGNKQEQNNNNGTIQTGGSYVVNATSLRVRTGPAAYHSVIGGVLNGTTLNVVGSENGWFKVNYQGKTGFVSSEFVKFVKGGTTTPEQPKQPEKPNQGAIGDYYINASALNVRSGEGTNYRIIGALPQGQKVQVISENSGWSKINYNGQTGYIGTRYLSKTPVGGAVDNKPNNNQNNNQNNNNNNNTGNNSGDSSSVLAYAKSMQGVPYVWGGTSANGVDCSGYIYHVFKKLGHNISRQSVAGYWSSLPKTSSPQPGDLIYFQNTYKSGPSHMGIYLGGGSFIQAGDKGVAIASLSNSYWKSHFLGYTKAP	PGPT0019115_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_04986	921	dat_2		D-alanine aminotransferase	ATGAAAGTTTCACGTTATTTACGTACTTACGAAAGGATGGGACGGAAATTGGCATACGAAAAATTTGTACTTTGGAATGATGAAGTTATTGATACAACAAAACAACAAACGTACATAGAACTTGAAGAAAGAGGTTTGCAATTCGGAGATGGTGTCTACGAGGTTATTCGCCTATATAAAGGGAACTTTCACTTATTAGATCCGCACATAACAAGATTATATCGATCCATGGAAGAAGTAGAATTATCGCTTCCTTTCTCAAAAGCTGAACTCATCACTTTACTTTACAAATTAATTGAACGAAACCATTTCCACGAAGATGGCACAATTTATTTGCAAGTATCTCGCGGTGTACAAGCTCGCACACATGTATTTTCATATGACACCCCTCCGACAATTTATGCCTATATTACAAAAAAAGAAAGACCAGCATTATGGATTGAATATGGTATACGCGCTATATCAGAACCTGATACTCGATGGCTACGCTGTGACATTAAATCATTAAATTTATTACCAAACGTACTCGCTGCTACGAAAGCTGAACGTAAAGGCTGTAAAGAGGCACTTCTCATAAGGAATGGTATCGTAACGGAAGGAAGCCATTCCAACTTCTTTTTAATTAAAAACAGAACTCTTTACACACATCCAGCCAATCACCTTATTCTAAATGGCATTATTCGTCAATATGTCCTTTCTTTAGCGAATACTCTTCACATTCCTGTACAGGAAGAACTTTTCAGCGTTCGTGACGTTTATCAAGCAGATGAATGCTTTTTTACAGGCACAACGATTGAAATTTTACCAATGACCCACCTTGATGGAACCGCGATTCAAGATGGGCAAGTTGGGCCTATCACCAAAAAACTGCAAAAATCTTTTAATCAAATCTTGTTACAATCCAATATGGCATCTTCTTAA	MKVSRYLRTYERMGRKLAYEKFVLWNDEVIDTTKQQTYIELEERGLQFGDGVYEVIRLYKGNFHLLDPHITRLYRSMEEVELSLPFSKAELITLLYKLIERNHFHEDGTIYLQVSRGVQARTHVFSYDTPPTIYAYITKKERPALWIEYGIRAISEPDTRWLRCDIKSLNLLPNVLAATKAERKGCKEALLIRNGIVTEGSHSNFFLIKNRTLYTHPANHLILNGIIRQYVLSLANTLHIPVQEELFSVRDVYQADECFFTGTTIEILPMTHLDGTAIQDGQVGPITKKLQKSFNQILLQSNMASS	PGPT0001915_71	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824	NA	NA
AK009_04987	1929	ltaS1_3	COG1368	Lipoteichoic acid synthase 1	ATGAAAGAAACCTTGAAATCGCAATTTCAAAATGTGCGTTTCACTGTATTCGTAGCTTTAGCCTTATGGCTGAAAACTTACATTATTACACGCACAAGCTTTGATTTAAAACTTGAATCTTTCATGCAAGAATTCATTTTATTCCTTAGCCCATTAGCAGCATCATTACTGCTTGTTGGTCTTGCATTATTTGCAAAAGGGAAAAAACGTAACTATATAGCACTTGGAATTAATTTTGTCTTAACAATCGTTCTTGTTGGTAACGTAATGTTCTACGGATTCTACAATGACTTCGTTACTTTACCAGTACTCGGACAAACATCTAACTTCGGAAGTTTAGGTTCTAGTGTGAAAGAATTATTTAACTACAAAATTATTCTTGCATTCGCAGACATTATCGTATTCTTCGTTCTATTGAAGAAAATGAAAAACTTTGCACCTACAGAGCGTGTAGCACGCCCGATGCGTTCTCTATACTTCGTATCAACAGTTGCTATTTTCTTCGCAAACTTAGGACTTGCAGAAGCTGAACGCCCAGAACTATTAACACGTTCATTCGACCGCGTTATGCTTGTTAAAAACTTAGGATTATATGTACACCAAGTATACGATCTTGGCTTACAAGCGAAATCAAGTTCACAAAAAGCATTCGCTGACGGTAGTAAATTACAAGAAACAGAAAACTACGTGAAAACAACACAAAGTAAACCAGATCCAAATATGTTCGGTACTGCAAAAGGGAAAAACGTAATTGTTGTCTCTCTTGAGTCATTACAAACATTCTTAATTGGCGCAACAGTTAACGGACAAGAAGTTACACCGTTCTTAAACCAATTTACGAAAGAAAGTTATTACTTTGATAACTTCTTCCATCAAACTGGGCAAGGTAAAACATCTGATGCTGAATTCCTAGTAGATACTTCTTTATATCCACTAGACCGCGGTGCTGTATTCTTCACACACGGTAACAATGAATATACAGCAACTCCAGAAATTTTACGTCAGCAAGGGTATCACACGTCGGTATTCCACGCAAACAACGCAACATTCTGGAACCGTAACATTATGTATCCAGCACTTGGTTATGATCGTTACTACAACGAGCTTGATTACAAGATTACGCCGGAAACAAAATTAAACTGGGGATTAAAAGATATCGAATACTTCGATCAATCTATGGATATGTTGAAAGAAGTGAAGCAACCATTCTATACTCGCTTCCTTACTTTAACGAATCATTACCCATTCACTTACGATGACAGTACAAAATTAATCGACGAATATAATTCTGGTGATGGAGTATTTGACCGTTACATGGTAACTGCTCGTTACTTAGACGAAGCAATGAAACACTTTATTGAGCGTCTAAAAGCAGAAGGTATTTACGACAACTCAGTAATCGTATTCTACGGTGACCACTACGGTATTTCTGAAAACCATAACCGTGCAATGGCACAGTTCTTAGGAAAAGAAGAAATCACTGCATTTGACCATATGAACTTACAAAAAACACCGATGTTTATTCACGTTCCAGGTCAAAAAGAAGGTAAAACAATTTCGAAACCAACTGGTGAAATTGATATTAAACCAACTATTCTAAACTTACTTGGTGTAGATTCTACAAATGACGTTCGATTCGGTCATGATGTATTCTCACCTGATAATAAAGGATTTGTTGTTCTTCGTGACGGTAGCTTCATTACAGATAAATACATGTACACAAACAGTACATTCTACGACCGTGCTACTGGCGAAGTTGTACAATTACCGAAAGAAGAATCTCAACCACTAATTGATCGTGCCCAAAATGAATTGCACATGTCTGATAAAATCATTGAAGGTGACTTACTTCGCTTCTCTGAAAGTAATAAGATCAAAACTGGTGAAGTAAAAACAGCTATTAAAGAAGAAAAGAAGAGCGCTGAGTAA	MKETLKSQFQNVRFTVFVALALWLKTYIITRTSFDLKLESFMQEFILFLSPLAASLLLVGLALFAKGKKRNYIALGINFVLTIVLVGNVMFYGFYNDFVTLPVLGQTSNFGSLGSSVKELFNYKIILAFADIIVFFVLLKKMKNFAPTERVARPMRSLYFVSTVAIFFANLGLAEAERPELLTRSFDRVMLVKNLGLYVHQVYDLGLQAKSSSQKAFADGSKLQETENYVKTTQSKPDPNMFGTAKGKNVIVVSLESLQTFLIGATVNGQEVTPFLNQFTKESYYFDNFFHQTGQGKTSDAEFLVDTSLYPLDRGAVFFTHGNNEYTATPEILRQQGYHTSVFHANNATFWNRNIMYPALGYDRYYNELDYKITPETKLNWGLKDIEYFDQSMDMLKEVKQPFYTRFLTLTNHYPFTYDDSTKLIDEYNSGDGVFDRYMVTARYLDEAMKHFIERLKAEGIYDNSVIVFYGDHYGISENHNRAMAQFLGKEEITAFDHMNLQKTPMFIHVPGQKEGKTISKPTGEIDIKPTILNLLGVDSTNDVRFGHDVFSPDNKGFVVLRDGSFITDKYMYTNSTFYDRATGEVVQLPKEESQPLIDRAQNELHMSDKIIEGDLLRFSESNKIKTGEVKTAIKEEKKSAE	PGPT0023375_838	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
AK009_04988	366			hypothetical protein	ATGAAACAAAAATTTTCAGTTGAAGCGTTTTGGAAGAAAGTAAAACATGTTGCAAAGCAAGCAGGGCAGTCGGTCATTTATACAAGTTTATTACTGTTTTACGTTTTGCAAAGACCCGATGTTCCAAAACGAGTGAAAATTATTGTAATTGGAGCACTTGCTTATTTTATTGCACCGATTGATGCGATTCCAGATTTCATTGCTGGAATTGGCTATACGGATGATTTAGGGGCGTTAACGGCCGCACTAATACAGGTGTCGTTATACGTCAATGAAGATGTGAAAGATAAGGCACGAGTGAAGTTGGCAGAATGGTTTGGTTCGGATATAGACACAACATTTATCGATCAGAAATTAGGTCAATAG	MKQKFSVEAFWKKVKHVAKQAGQSVIYTSLLLFYVLQRPDVPKRVKIIVIGALAYFIAPIDAIPDFIAGIGYTDDLGALTAALIQVSLYVNEDVKDKARVKLAEWFGSDIDTTFIDQKLGQ				NA	NA	NA	NA	NA
AK009_04989	492			hypothetical protein	ATGCCATCAGGAAGAACGCATACGAAAATAAACTTAATATCCCTTCCGGTTGTTTTGTTTTTGCTCTTTTCGTATGGATTAACAAATTTTGATTTTTTATTAACTTTTGCAATTGGTTTTTTAGTAGGTACTTCATTTTTAACACCAGATTTAGATACGTACAGTAATGCTTATAACAAATGGGGTTTCTTACGTATATTTTGGTATCCTTATAAGAAAGTAATGCCACATCGATCTTTCTTTACGCATACGATTATACTTGGTGATGTGATTCGTATTGCGTACATGTTAATCGTCTTTTCTCCATTTTTATTCCTATTAAATGTAATCGCACTGGATGGTAATTTAATAGAAATTGCGAAGAAACATGAGGTTGAAATTGTAACGTTCTTAATGGGAATTGTTGTGGCAAGTACGCTCCACATTATAGCGGATAAGGTGAATACGCGCCGAAAGAAAATGATGAGAAAAAAGAAGAAACGCAGAAGATAA	MPSGRTHTKINLISLPVVLFLLFSYGLTNFDFLLTFAIGFLVGTSFLTPDLDTYSNAYNKWGFLRIFWYPYKKVMPHRSFFTHTIILGDVIRIAYMLIVFSPFLFLLNVIALDGNLIEIAKKHEVEIVTFLMGIVVASTLHIIADKVNTRRKKMMRKKKKRRR				NA	NA	NA	NA	NA
AK009_04990	318			hypothetical protein	ATGAACGGAAATAAAATATTAGCTGCGTTATCATACTTTAGTGTACTATTTGCCCCTATCTTATTCCCAATTATCGTTTGGATTGTGGGGGACGCTGAAACAAAGCCACATGCAAAACGTGCTCTATGGACACACATCATTCCAAGTATCGCTACATTTATCGGCTTAACCATTTTAGGAATTATGGGCATAGGATCTGACCAACCAGATGTAACACTTGGAATTGGAGCAATGATTGTCTTAGCTATTTGCGGAATCATCAGCTTATACTACTTCATCTGGAACATTGTAAAAGGAATTAAAGTACTGAAAGCTTAA	MNGNKILAALSYFSVLFAPILFPIIVWIVGDAETKPHAKRALWTHIIPSIATFIGLTILGIMGIGSDQPDVTLGIGAMIVLAICGIISLYYFIWNIVKGIKVLKA	PGPT0014882_118	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
AK009_04991	1662	glcA_2	COG1620	Glycolate permease GlcA	ATGAACACATGGACACAAGTTTATGATCAGTTCGGTAATATTTGGATTTCAGCAGCAGTAGCACTTATTCCGATTATCTTTTTTTTCTTAGCTTTAGCGGTTTTTCGCATGAAGGGGTATGTGGCAGGATTTATTACAGTTGTACTTACAGTTTTAGTAGCATTATTCGCTTATAAAATGCCGTTCACGATGGCAATGGCAGCAACCGGGTACGGTTTTTTGTACGGGTTATGGCCAATTGCTTGGATTATCATTATGTCGGTATTTTTATATAAAATTTCTGTAAAAACAGGTCAATTCGATGTGATTCGTGCATCGGTATTATCGATTACGAACGATCATCGTTTACTCGTTATTTTAATTGGATTTTCATTCGGAGCATTTTTAGAAGGAGCGGCAGGGTTTGGAGCGCCAGTAGCGATTACAGCAGCGCTTCTTGCTGGTCTTGGGTTAAATCCTTTATACGCAGCGGGTCTTTGTTTAATTGCAAATACTGCACCAGTGGCGTTCGGAGCGATGGGAATTCCGATTACAGTTGCTGGACAAGTAACAGGTATTGATCCACATAAAATTGGACAAATGGCTGGGCATCAATTACCGTTCCTATCATTATTTGTTCCATTCTTTATCGTATTTTTAATGGATGGATTTAAAGGGGTAAGACAAACGTGGCCTGCGTTACTTGTAGCAGGTAGTTCATTTGCGATTACGCAGTTCATTACAGCGACGTTCTTAGGACCGGAACTTCCGGATATTACGTCAGCACTTGTAAGTTTAGTGAGTTTAGCACTGTTCTTAAAAGTTTGGCAGCCGAAAGAAATTTATCAATCCGGGCAAGCAAATAATGAGGTAGCAGCAACAACGACAGCAGCATCGATGCCGAAATTAACGTTTGGAAAAGTAGTGAAGGCATGGTCCCCATTTATCGTATTAACGGTTATGGTAGTCATTTGGAGCCAAAATTTCTTTAAGGCATTATTTGCTCCAGGAGGGGCTTTAGCAAGTCTTGTATTTAAGTTTGAAATTCCAGGTTTGCATAATCTAGTAATGAAAGCAGAGCCAATTGTAAATAAACCAACGCCTTACCAGGCAATTCTAAAGTTTGATGTATTATCGGCAACTGGAACAGCGATTTTAATTGCTTGTATCATTTCCATGTTTATTTTGAAAATGAATGTAAAAGATGCAGTAGTGACATTTAAAGAAACGTTAAACGAATTAAAAATGCCAATTCTATCTATCGGATTTGTACTAGGGTTTGCATTTATCGCAAACTATTCTGGCCTATCTTCTACGTTAGCGTTAGCATTAGCTGGAACGGGCGGACTATTCCCGTTCTTCTCACCATTCTTAGGCTGGATTGGCGTATTCTTAACAGGGTCTGATACGTCTGCGAATGCACTGTTCTCGAATTTACAAGCCATTACAGCGCAGCAAGTCGGCGTATCTGAAGTGCTTCTCGTTGCAGCAAATACAACAGGCGGTGTAACAGGAAAAATGATTTCACCGCAATCGATTGCGATTGCTTGTGCGGCAGTTGGACTTGCTGGAAAAGAATCAGATTTATTCCGTTTTACAGTGAAGCATAGTTTATTCTTCGTAATTATTGTTGGTATTATGACGTATGTTCAAGCATATTATTTAACGTGGATGATTCCATAA	MNTWTQVYDQFGNIWISAAVALIPIIFFFLALAVFRMKGYVAGFITVVLTVLVALFAYKMPFTMAMAATGYGFLYGLWPIAWIIIMSVFLYKISVKTGQFDVIRASVLSITNDHRLLVILIGFSFGAFLEGAAGFGAPVAITAALLAGLGLNPLYAAGLCLIANTAPVAFGAMGIPITVAGQVTGIDPHKIGQMAGHQLPFLSLFVPFFIVFLMDGFKGVRQTWPALLVAGSSFAITQFITATFLGPELPDITSALVSLVSLALFLKVWQPKEIYQSGQANNEVAATTTAASMPKLTFGKVVKAWSPFIVLTVMVVIWSQNFFKALFAPGGALASLVFKFEIPGLHNLVMKAEPIVNKPTPYQAILKFDVLSATGTAILIACIISMFILKMNVKDAVVTFKETLNELKMPILSIGFVLGFAFIANYSGLSSTLALALAGTGGLFPFFSPFLGWIGVFLTGSDTSANALFSNLQAITAQQVGVSEVLLVAANTTGGVTGKMISPQSIAIACAAVGLAGKESDLFRFTVKHSLFFVIIVGIMTYVQAYYLTWMIP	PGPT0001800_997	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK009_04993	1761	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGAAACAATCTGTTTCAGCTGAGCAAATTGAATTGAAATCGAGTTTACCAGGGAGTAAGAAAGTATATGTGGATGGACCACGAGAAGGTATGAAAGTGCCGATGCGTGAGATTGAACAAAGCGAAACGAATGGCGTCCCAAATCCACCAATCCGTGTGTATGATACGAGCGGTCCTTATACAGATCCTGCGTATAAGGTCGAGCTGGAAAAAGGCATTCCAACGCCGCGCCACTCCTGGATTATGGGGCGTGGTGATGTAGAAGCATACGAAGGGCGTGAAGTAAAACCAGAGGATGACGGTGTGAAAGTGGCTTCGAAACATACACCTGTTTTCCCGCAAATGGATCGTAAGCCGCTTAGAGCAAAGCAAGGTGCAAATGTTACGCAAATGCACTATGCACGTAATGGCATTATTACGTCTGAGATGGAGTATGTTGCGATTCGTGAAGGGGTAGAGCCGGAGTTTGTTCGTAAGGAAATCGCAGAAGGCCGCGCTATTTTACCAGCGAATATTAATCATCCAGAAGCTGAACCGATGATTATCGGGCGTAACTTCCATGTGAAGGTCAATGCAAATATCGGAAACTCTGCTGTATCTTCTTCTATTGCAGAAGAAGTAGAGAAGATGACGTGGGCTACTCGCTGGGGTGCAGATACGATTATGGATTTATCTACAGGTAAAAATATTCATACGACGCGTGAGTGGATTATTCGTAACGCGCCTGTACCAGTTGGAACTGTACCGATCTATCAAGCGCTGGAAAAAGTAAACGGAATTGCAGAAGATTTAACGTGGGAAGTATATCGTGATACGTTAATTGAGCAGGCGGAGCAAGGCGTTGATTACTTTACGATTCACGCTGGTGTATTGCTTCGTTACATTCCAATCACGGCAAAGCGTACGACAGGTATCGTTTCACGCGGTGGTTCGATTATGGCGCAGTGGTGTTTATTCCATCATAAAGAAAACTTCCTATATACTCATTTTGAAGAGATTTGTGAAATTATGAAACAGTACGATGTTTCGTTCTCTCTTGGAGATGGATTACGTCCAGGGTCTATTGCAGATGCAAATGATGAAGCACAGTTTTCTGAGCTTGAAACACTTGGTGAATTAACCAAAATTGCTTGGAAACATGATGTGCAAGTTATGATCGAAGGACCTGGACACGTACCGATGCACTTAATTAAAGAGAATATGGAGAAAGAGCTTGATATTTGTCAGGGCGCGCCGTTTTACACACTTGGGCCACTAACGACAGATATTGCACCAGGTTATGACCATATTACATCGGCGATTGGAGCTGCGATGATCGGTTGGTTTGGAACGGCGATGCTTTGTTATGTAACGCCGAAAGAACATTTAGGTTTACCGAATAAAGATGATGTACGCACGGGTGTTATTACGTACAAAATTGCAGCGCATGCGGCTGATCTTGCGAAAGGACATAAAACGGCTCATCAGCGTGATGATGCACTTTCAAAAGCACGCTTCGAATTCCGTTGGCGCGATCAATTTAATCTATCTTTAGATCCTGAACGTGCGATGGAATATCACGATGAAACGTTGCCTGCAGAAGGGGCAAAGACAGCTCACTTCTGTTCAATGTGTGGACCGAAGTTTTGTAGTATGAGAATTTCACATGATATTCGTGAATATGCAAAAGAAAATGATTTAGAAACGACAGAAGCAATTGAAAAAGGAATGAAAGAGAAAGCAGAAGAATTTAAAGAAGCTGGTAGTCATTTATATCAATAA	MKQSVSAEQIELKSSLPGSKKVYVDGPREGMKVPMREIEQSETNGVPNPPIRVYDTSGPYTDPAYKVELEKGIPTPRHSWIMGRGDVEAYEGREVKPEDDGVKVASKHTPVFPQMDRKPLRAKQGANVTQMHYARNGIITSEMEYVAIREGVEPEFVRKEIAEGRAILPANINHPEAEPMIIGRNFHVKVNANIGNSAVSSSIAEEVEKMTWATRWGADTIMDLSTGKNIHTTREWIIRNAPVPVGTVPIYQALEKVNGIAEDLTWEVYRDTLIEQAEQGVDYFTIHAGVLLRYIPITAKRTTGIVSRGGSIMAQWCLFHHKENFLYTHFEEICEIMKQYDVSFSLGDGLRPGSIADANDEAQFSELETLGELTKIAWKHDVQVMIEGPGHVPMHLIKENMEKELDICQGAPFYTLGPLTTDIAPGYDHITSAIGAAMIGWFGTAMLCYVTPKEHLGLPNKDDVRTGVITYKIAAHAADLAKGHKTAHQRDDALSKARFEFRWRDQFNLSLDPERAMEYHDETLPAEGAKTAHFCSMCGPKFCSMRISHDIREYAKENDLETTEAIEKGMKEKAEEFKEAGSHLYQ	PGPT0008905_2331	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
AK009_04994	1359	arsB	COG1055	Arsenical pump membrane protein	ATGAGCATTGAAATATGGATTACTATTATTGTATTCTTCTTAACAATGATTGTTATCTTTTGGCGGCCTCGAGGTTTAAATGAGGCGTGGCCAGCAGCAATCGGTGCTGGCATTATCCTAATTACTGGACTTGTGTCAAAACCAGACGTCATAGATATTGTTAGTAAAATAGGAGGAGCCTCCATAACAATATTAGCGACTATTGTTATGGCAGTTATATTAGAAAGCTTCGGCTTCTTCCATTGGTCCGCAGCGAAACTAGCAAATTTAGCAAAAGGGTCCGGTCACCGTTTATACTGGTATATTCAATTACTATGTTTTCTTATGACTCTTTTATTTAATAACGACGGCAGTATTTTAATTACAACTCCAATTTTAATTCTTCTTCTAAAAAACCTTCAATTAAAACCACATCAACAAATTCCTTATTTATTAAGTGGCGCTTTAATCGCTACTGCGTCTAGTGCACCAATTGGTGTAAGTAATATCGTAAACTTAATTGCATTAAATATCGTTAATATGACTCTTTATATGCATACTGCTATGATGTTTGTACCTGCAACATTAGGCTTATTATTTATGTCATGGCTCATGTATACAGTTTTGAAGAAAAAACTTCCGAAAAAATTACCTGTTTCTTCATATGATATTGAAGAAATTTTTTTCACGAAAAACTTCCATCCACTAAAAGGAAATAATTCTGTTGATACGAAACAAAAACGGACAAGATTCATGTTAAAAGTATTAGGTTTTGTCTTCCTTATGCGCTGTCTTCTATTCGTTGCATCCTTCTTATCCATACCAATTGAAATCGTTGCGGTACTCGGTTCACTCGTTCTTCTCATTTGGAGATGGTACTACTTACGAACAAATCCTGTCGACATTTTGAAAAAGACACCGTGGCACATTTTAATTTTCGCCTTCTCTATGTACGTCATTATTTACGGACTCCACAACGCAGGATTAACAGCTGCACTTGTACAATGGCTCGAGCCAGTTGTGAATCAGCATCTACTCTATGCTAGCTTTGCGATGGGCGGACTTGTATCCATCCTCTCTAACGTCTTCAATAACCATCCTGCCCTTATGATTGGTACAATCACATTAACAGAAATGGGACTAGATCCAGTCACATTAAAAACAATCTATCTCGCAAACATCATTGGTAGTGACATCGGTTCACTATTACTACCAATTGGTACGCTAGCTTCACTCATTTGGATGTATATTCTGAAACAAAACAAAATTAAAGTAAAATGGAAAGACTATTTAAGTGTATCCCTTATCGTTATCCCGCTCACAACAGTCGTCACACTATTCCTCTTATTCTACTGGGTACACCTCTTCTTTGCCTTATAA	MSIEIWITIIVFFLTMIVIFWRPRGLNEAWPAAIGAGIILITGLVSKPDVIDIVSKIGGASITILATIVMAVILESFGFFHWSAAKLANLAKGSGHRLYWYIQLLCFLMTLLFNNDGSILITTPILILLLKNLQLKPHQQIPYLLSGALIATASSAPIGVSNIVNLIALNIVNMTLYMHTAMMFVPATLGLLFMSWLMYTVLKKKLPKKLPVSSYDIEEIFFTKNFHPLKGNNSVDTKQKRTRFMLKVLGFVFLMRCLLFVASFLSIPIEIVAVLGSLVLLIWRWYYLRTNPVDILKKTPWHILIFAFSMYVIIYGLHNAGLTAALVQWLEPVVNQHLLYASFAMGGLVSILSNVFNNHPALMIGTITLTEMGLDPVTLKTIYLANIIGSDIGSLLLPIGTLASLIWMYILKQNKIKVKWKDYLSVSLIVIPLTTVVTLFLLFYWVHLFFAL	PGPT0004710_53	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
AK009_04995	1026	ythB	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	GTGCATGAGGAAAGTATTGCAATCATCATCTTATGGGCCCTTATTTTCGTATACAGTATATTAGGGTCCATCGATTTTGGAGCTGGTTTTTGGGGCATGGTATACGCAAAACATCCAACGCTCGCTGCCAAACTTGCCAATCGGTACTTATCACCAACTTGGGAAGTAACAAATACGTTTCTCGTTTTCGTCGTTGTCGCATTTCTCGGCTTCTTTCCGAAAGCGGCCTTTACTCTTGCAACCGTTATGTTCGTACCAGTTATGTTAATTTTAGTACTCGTTGCAGTACGTAGTACATTTATGGTATTTGCTTACTCCTTGCCAAAATATCAGTACCTTCTTCGGGTTATTTCAGGTATTACTGGTCTCTTAATTCCAGCACTATTAATTACCGTTTTACCCGTTACAGAGGGAGCGTATATTACAATGTCTGAAGGAAGAGAAGTACTCCTGTATGGAAAACTTCTTTCTAGCCCGGTTATCTATTGTTATATGCTCTTCGGACTAACGTCTGAACTATTTCTCTCCTCTCTCTTTCTTGCTGATTTTGCGAGAGAGCAAGGTTCAGAAGATGCATACAAACTTTATAGAAGGAATGCCATCATACTTGGCCCTGCAACACTTGTTACGGCGATTATCGCTCTCGTTGTAATGGATCCAGAAACACATTGGCTTATGCAAGGATTAATAAAGCAATTCCCATGGTTTACAGTTTCTATTGTTCTATTCGTTATCGGATACTCGTCCCTTTGGTGGACAAACAAGAAGTATAACACACTAGGATTCCCTCGCATTGCTGTTTTAGCTGTCGTCGCTCAATATGCATTTGCAAGCTATGCTTACGGGGTCGCGCATTTACCGTATATTATTTACCCTGACGTAACTGTATTTACAAGCTTTACAACGAAAGAAACGTTCTATGCACTGCTCATTCTATACGCAATTGGGATTGCAATTTTATTACCAGGATTTATTTTCTTCTGGAATTTATTCTTGAAGGATCGTACTTTTTTGAAGGAAAAATAA	MHEESIAIIILWALIFVYSILGSIDFGAGFWGMVYAKHPTLAAKLANRYLSPTWEVTNTFLVFVVVAFLGFFPKAAFTLATVMFVPVMLILVLVAVRSTFMVFAYSLPKYQYLLRVISGITGLLIPALLITVLPVTEGAYITMSEGREVLLYGKLLSSPVIYCYMLFGLTSELFLSSLFLADFAREQGSEDAYKLYRRNAIILGPATLVTAIIALVVMDPETHWLMQGLIKQFPWFTVSIVLFVIGYSSLWWTNKKYNTLGFPRIAVLAVVAQYAFASYAYGVAHLPYIIYPDVTVFTSFTTKETFYALLILYAIGIAILLPGFIFFWNLFLKDRTFLKEK	PGPT0026705_2334	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
AK009_04996	1356	ythA	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGGATACGGTAACATTAGCAAGAGCATTTTTTGGTTCTTCATTAGCATTCCACATTATCTTTGCAACACTTGGCGTTGGACTTTCATTGATGATTTTTATAAGCGAAATACTCTATCACTGGAAGAAAGACTCCGACTATGCCATTATGGCGAAAAGATGGACAAAGGCGTTTGCTATTCTTCTCGGTGTAGCAATTCCAACTGGAACAATTGTCGGTGTGCAAATCTCACTTCTTTGGCCTGGTTTTGCCAAAATTGTTGGGCAAGTTATTTCTGTTCCCTTCCAAATTGAGATTTTTGCCTTCTTTTTGGAGGCTTTATTCATGTCGATTTACGTATATGCAGCCGATAAACTTCCTCCATTTATGAGATTAATCTCGCTATTTTTCGTCATGCTTGGTGCCACGGCATCCGCCGTTCTTATTACATCAGCAAATACATGGATGAATACACCAGCAGGATTTTCAATGAATCCAGATGGATCTGTTTTTAACGTTGATCCTTGGAAAGCTTTCTTTAATCCGAGTTTTGGCACAAGTGCATTCCATGTCGTTATTACGGCTTATGCAACTGGTGCGGCTGTCATTGCTTCTATCGCTGGATTTAAATTATTGAAGAAAAATTTAAGTACACGTGAAATTGCTTATCATAAAAAGGGGCTACTATTAGGGCTTGTCGTGACATTTATTACAGGCGCTACGATGTGGCTTTCAGGGCACGAATCGGCAATCGCCCTACATAAACACTCACCTGAAAAACTTGCATCTGCTGAAGCTTTATTTGAAACGACATCACACGCACCGCTATCCATTGGCGGGATTGTGGATCCTAATACGCTTGAACTAAACTATGCACTTGAAATTCCAAACATGCTTAGCTTATTAGTGGGACTAGACCCTAGCACTGTCGTAAAAGGTCTAAATGAATTCCCACAAGAAACATGGCCACCATTTTATACACATACACTGTTCAACTTAATGGTCGGCACTGCTGCGTTTACCTTTGCAGTTGCAGCAATTGCTCTCTTATATTGGTACTTCGTTTACCGAAAAAAGGGGACAGAACTACCGAAGTGGCTACTTTGGGGGGCTGCCGCATGCGGACCAATTATGATGCTCGGTATTGAATTCGGATGGATTTTCAGTTGTAGCGGTCGTCAGCCATGGACAATTTATGGTATGCAACGTACAGTCGATGCTTCTACTCGCGCTGATTTCGTCGGTCCTTTATTTGTTTTATTCATCATTTTATATATTGGACTCGCTATTTTAACAGTCTTTGTTCTACGGACATTCTTTAGAAGACATCCATTAAAGAATGATTTACAACACCAAGGAGGCGATTCTCGTGCATGA	MDTVTLARAFFGSSLAFHIIFATLGVGLSLMIFISEILYHWKKDSDYAIMAKRWTKAFAILLGVAIPTGTIVGVQISLLWPGFAKIVGQVISVPFQIEIFAFFLEALFMSIYVYAADKLPPFMRLISLFFVMLGATASAVLITSANTWMNTPAGFSMNPDGSVFNVDPWKAFFNPSFGTSAFHVVITAYATGAAVIASIAGFKLLKKNLSTREIAYHKKGLLLGLVVTFITGATMWLSGHESAIALHKHSPEKLASAEALFETTSHAPLSIGGIVDPNTLELNYALEIPNMLSLLVGLDPSTVVKGLNEFPQETWPPFYTHTLFNLMVGTAAFTFAVAAIALLYWYFVYRKKGTELPKWLLWGAAACGPIMMLGIEFGWIFSCSGRQPWTIYGMQRTVDASTRADFVGPLFVLFIILYIGLAILTVFVLRTFFRRHPLKNDLQHQGGDSRA	PGPT0026700_4260	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
AK009_04997	150			hypothetical protein	ATGTATCCTGAAGTCATTAAAAAGATGGCATTTTCAAAAGAGCATAGAGATTTATTATTGAAGCTATATAATAAAGAAATTACACGTCGTGAATATGATCGACTTGTACAATCGCTATATAAACCTTCTAAAGAGGTTTGTGGGGGATAG	MYPEVIKKMAFSKEHRDLLLKLYNKEITRREYDRLVQSLYKPSKEVCGG				NA	NA	NA	NA	NA
AK009_04998	1086			hypothetical protein	TTGCGGAAACGTTTATATATAGGGATTGGAGTTATCTTCTTAATCGCTTTAGGTGGAATTGTATTTTGGTCAGCTTTACAAGGAAACCGTACAGAAAATTTTATTTTAAGACATATGGTGAATGAAAATGGAACGCTTGCCACGTATCGTTTAGTAGATACTAAGGCAGGTACGGGTGAAGCGAAGGGACGTGAAGCTTTATCAGAATCGGCGGGATTATGGTTACAATATACACTTGATAAAGATGACCAGGCGTTATTTGATGAGCAAGTAAAGGTTATTCAAGATAATTTCGTATATAAGAATCATATCGTTTTATGGAAACTCTCTGAAAAGGGAGAGAGGCAGTCAGCTACAAATGCACTTATAGATGATCTTCGTATTATAGAACAATTATATCGTGCTTATGAAATGTATAAGGAAGAGCGTTATAAAAACCTTGCCGATCAATTAAGTGATGCTGTACTTCGTTATAATAAAAAAGATAATTATTATGTTGATTATTATGATGCAGATGCAGGGAAACAAAATAATTTTGTAACAACATCATACATAAATCCGCGTGCATTCTCTTATATGAAGAAGTACGGTAAAGTTTCTGCTCAGCAATATCAGGAAATTGTTCAATTTTTAGCGGATTATCCAAGGCATGGCTGGGCATTCCCAAAAGAATATAAAGAAGATGGTACATTTAAGTACGATAAAGAAGTGAATCTTATTGACCAATCATACGTTGCATATCATCGAAGTTTAGGTGGTCTTTCATCAGCTGCTTATTTGGAATTTATAAAGAAGAGATTCCAGGAGGATGGAAAGCTATACGGTCGTTACAATTTAGAAACGGGAAAACAAACTGTGAATTATGAATCGCCAGCCGCGTATGGACTAACGATTTTGTACGTACTACAAACAGGTGATACAAAGTTTGCGAAGGAATTGTATGATCATATGTCCACATTCCGAAATGACAACGTATTTAGTAGATATTATGGTGGATATGTAACAGGTGAAAATAATAATACGCATATTTTTGATAATGTACTACCACTTTTAGCTGAAATGGAATTAAAAAAGAGTGACCAATAA	MRKRLYIGIGVIFLIALGGIVFWSALQGNRTENFILRHMVNENGTLATYRLVDTKAGTGEAKGREALSESAGLWLQYTLDKDDQALFDEQVKVIQDNFVYKNHIVLWKLSEKGERQSATNALIDDLRIIEQLYRAYEMYKEERYKNLADQLSDAVLRYNKKDNYYVDYYDADAGKQNNFVTTSYINPRAFSYMKKYGKVSAQQYQEIVQFLADYPRHGWAFPKEYKEDGTFKYDKEVNLIDQSYVAYHRSLGGLSSAAYLEFIKKRFQEDGKLYGRYNLETGKQTVNYESPAAYGLTILYVLQTGDTKFAKELYDHMSTFRNDNVFSRYYGGYVTGENNNTHIFDNVLPLLAEMELKKSDQ				NA	NA	NA	NA	NA
AK009_04999	903	gltC_3		HTH-type transcriptional regulator GltC	ATGGAACTGCTCCAGTTAAAATACTTTCAGACAGTTGCACGACTAGAACATATGACAAAGGCAGCTGAAGAATTGCATATCGCGCAACCTTCACTCAGCAAAACAATCGCTAGACTCGAAAAGGATTTAGGCGTCCCTTTATTTGATCGCCAAGGCCGACAGATTACTTTAAATTCTTTCGGAAAAGTATTTTTAAAACGGGTAGAACGTATTTTTCATGAATTAAGTGAAGGGGAACGAGAAATTAAAGATTTAGCCGAATTACAACAAGGCTCTATTACAATGGCCGTTTCTATTCCAAGAATATTACCAGAACTACTAGGTTCTTTTTTACGAGAACATCCTAATGTTCGATTCCAGCAATTTCTTGCGTCTACTCCTTCTATGAAACGACAACTGGAAAATATGGAAATTGACTTTTGTCTTTCCTCTGTACCAGTTGAAGGAGAAGAAATTGTTTGGGAACCACTTATTACAGAAGAAATTTTCTTAGTCGTTCCTTCAGGCCATCGGTTATCAAACCGCGAAAGTATCCACCTGCATGAAGTAAAAGACGAACCGTTTATTAGTATGAATACTGGCTATGGATTTCGGCACTTAACGGATGAATTTTGTAAAGAAGCTGGTTTCACTCCGCATATTGCTTTTGAAGTAGATGAACCGACAGTGATTAGCGACCTCATTAAGCAAGGTCTCGGCATCGCTTTTGTTCCAAATTTAACTTTATTAAAAAACTCTACTTTAGCAGCAAACAAGTTGCGTATTATTGAACCCGCTTGTAAGCGAACCATCGGATTAAGTTGGTCAAAAAAGCGATACTTATCAAAAACAGCTCAGCAATTCCGTGAATTCGTGATTGACTACTTCTCTAATATTAGGACGCAAAATTATATCAACCAATAA	MELLQLKYFQTVARLEHMTKAAEELHIAQPSLSKTIARLEKDLGVPLFDRQGRQITLNSFGKVFLKRVERIFHELSEGEREIKDLAELQQGSITMAVSIPRILPELLGSFLREHPNVRFQQFLASTPSMKRQLENMEIDFCLSSVPVEGEEIVWEPLITEEIFLVVPSGHRLSNRESIHLHEVKDEPFISMNTGYGFRHLTDEFCKEAGFTPHIAFEVDEPTVISDLIKQGLGIAFVPNLTLLKNSTLAANKLRIIEPACKRTIGLSWSKKRYLSKTAQQFREFVIDYFSNIRTQNYINQ				NA	NA	NA	NA	NA
AK009_05000	2001			hypothetical protein	ATGAAAGGAATTCAACTTATATTTAAAGATTGGAAAGCGATGTGGCACCATAAACATGGACGTATCGCTTTAATTTTTTTATTAATCGTTCCGTTAATTTATTCAGGATTCTTCTTGGCTGGATATTGGGATCCGTACGGAAAATTAGATAAATTACCTGTTGCAGTTGTGAATTTAGATAAGGGTGCTGTGATGGATGAAAAAACAATTCATGCAGGAGACGATTTTGTTAAAAATTTAAAAGAGAATAAGGAACTGGCTTTTCATTTCGTATCAGAAAAAAATGCTGATGAAGGGTTAAAAGAAGATAAATATTATATGGTTGTTACGATTCCAGAGAATTTCTCTAAAAAGGTAAGTACACTTATGGATGAGAAACCAGAGCCAGCAAAGTTACAGTACAAAGTAAATCCAGGTAAAAACTTTGTAGCAGCTCAAATTGGAACGACAGCTGTTGAAAATATGAAAACAAAAATCTCAAATAGTATTACGAAATCTTATACAGAGGGTGTCTTTTCAAAGTTTCAAGATTTGGCACAAGGATTGAGTGATGCAAGTAATGGGGCTGAGAAGTTACATGAAGGAACGACCGATGCAAAAAATGGAGCGAATCAGCTTGCGGATGGTATTGATCGTTTAAGTGATGGGACATCGAAATTGAAAGAGGGAAGTGAAAAGCTTGCATCCAGTCAATCTGCTTTAACCGGGGGGGCAAATGAGCTGAGTCAAGGAGTGACATCACTTCATAGTGGTATGGAGTTATTAGCACAAGGTGAAAAAACGTTACAATCAGGAGTTAGTGAATTAAGTGCTGGTACAAATGAATGGGTGAGTGGAAGTGAGAAGCTTGCTGAAGGCCAAGTAAAAGCGGATGGTGCAGCTAATAGTGTAAAACAACAATTAGAAGAGTACGTGAAAAATCATCCAGAAGTGCAGCAAGATCCCGCTTTTCAAAAAATTGTTGCTACGTCTAATGGACTAGCTAAAGCAACAAGTACTTTAAATAATAGCCAACAACAATTGACACAAGGTGCGAAGAAGCTTACTGAGGGTCAACATAAGATTGAAGAAGGCATGAATACATTCGGAGTTAAGTTAAATGAAGCTACTGCTGGAACGAAAAAGGTAGCAGATGGTGCATCGAATTTAGCTGATGGATTTACGAAGTGGGGAAATGGATTTACAACAGTACAAGAAGGTGTAAATCAGCTTGCGAGTGGTGGAACGGAGCTGAATAACGGTGCTAGTAAATTAACAAATGGACTTGTTAAACTTGATGATGGTGCGAAAGAACTTTCTACGAAATTGGGAGAGGGCGCAGAGAAGATAGCGGATGTCCGTAATGATGATGCACGCAATACGATGTTCTCAGAGCCAGTTCAGTTAGTGAAGTCAACAGTTTCTGACGTTCCTAACTACGGTTCAGGCATTGCACCATATTTCTTATCACTTGCATTTTATGTTGGCGGAATTATGGCATCGAATATTTTACCTCTTGGCCGCAGACAAAATATGAAGGTAAGCGGAACGGTACATTTTATTAATAAATTAGGATTGGTATATTTAATTGGACTTATTCAAGCGCTACTCGTAGATGTAGTTGTGCTAGGTGTTATGAAACTAGAAGTTGCCAGTGTGCCACTTTTTGTTTTATCAAGTATTGTTATTTCCTTTACGTTCATGACATTTATTCTTATGTTAGTAACAGTATTTGGTCTTGTTGGAAAGTTCTTAGCGGTAACGCTTCTTGTCCTGCAATTAGCGACGAGTGGAGGTACTTTCCCAGGAGAATTAAACATAGCTGTGCTTAGCAAAATTGGACAGTTTCTCCCAATGTCCCATTCTCTTAGAGGATTACAAGATGTTATCTCTTTAGGAGATTGGTCGCAATTACAAATGCAAATTTTAATATTGTTATGTTATCTCGTTGTTGCCGGTGGAATTGCTTGGATCACGAGCCATATACAGCATAAAGAAACGAATGCAGAACAAGTTTCTTAA	MKGIQLIFKDWKAMWHHKHGRIALIFLLIVPLIYSGFFLAGYWDPYGKLDKLPVAVVNLDKGAVMDEKTIHAGDDFVKNLKENKELAFHFVSEKNADEGLKEDKYYMVVTIPENFSKKVSTLMDEKPEPAKLQYKVNPGKNFVAAQIGTTAVENMKTKISNSITKSYTEGVFSKFQDLAQGLSDASNGAEKLHEGTTDAKNGANQLADGIDRLSDGTSKLKEGSEKLASSQSALTGGANELSQGVTSLHSGMELLAQGEKTLQSGVSELSAGTNEWVSGSEKLAEGQVKADGAANSVKQQLEEYVKNHPEVQQDPAFQKIVATSNGLAKATSTLNNSQQQLTQGAKKLTEGQHKIEEGMNTFGVKLNEATAGTKKVADGASNLADGFTKWGNGFTTVQEGVNQLASGGTELNNGASKLTNGLVKLDDGAKELSTKLGEGAEKIADVRNDDARNTMFSEPVQLVKSTVSDVPNYGSGIAPYFLSLAFYVGGIMASNILPLGRRQNMKVSGTVHFINKLGLVYLIGLIQALLVDVVVLGVMKLEVASVPLFVLSSIVISFTFMTFILMLVTVFGLVGKFLAVTLLVLQLATSGGTFPGELNIAVLSKIGQFLPMSHSLRGLQDVISLGDWSQLQMQILILLCYLVVAGGIAWITSHIQHKETNAEQVS				NA	NA	NA	NA	NA
AK009_05001	381			hypothetical protein	ATGATTAATCAAGTTGGACAAATTATGCTATATGTAAATAACCAAGACGAAACAGTACAATTTTGGACAGAAAAAGTAGGGTTCCAAATCATTGCGGAAGAAAATAACGGAAACGGATTCTGCTGGATTGAAATTGCACCGGCGAAAGAAACAGGAACAAGCATCGTCCTTCACGATAAAGCGTTAATCGCGAAGATGCAACCTGAATTAAACTTAGGTACTCCTTCACTTATGTTCTTCTCAAATGACTTAGACCGTCTATATAAAGATCTTTCAGAGAAAAATGTCACAGTTGGACAGGTTGTAGATTTACCTACTGGTAGAGCATTCAACTTTGCTGATAATGAAAATAATTACTTTGCAGTAATGGAACGTAAATAA	MINQVGQIMLYVNNQDETVQFWTEKVGFQIIAEENNGNGFCWIEIAPAKETGTSIVLHDKALIAKMQPELNLGTPSLMFFSNDLDRLYKDLSEKNVTVGQVVDLPTGRAFNFADNENNYFAVMERK	PGPT0013300_5100	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
AK009_05002	1158			hypothetical protein	ATGACTCAAAGCGCACCAGAATTTAAAGTTTTGCAAAGCATTGCATTTCTCGCTGTTGTTTTGCAAAGTTCCTTATTATATACAATGAATCAAGGAAATGTCTTACTTGAGCAATCTCTCATTATGGGCATGCTATTCAACCTTGCAAAATTCTCAGCACCAGCATTCATATTTATCGTTGGATTTCACTTAATTCGGCACTATACCAAGCAATTAGTATATAAAGAATATATTTCTGAAAAAGCGACACACTTACTCATTCCTTATTTCTTTTGGTCTATTCTTTACCTATTAACAACAAACGATCTTATTACGTTACAAAGTGGAATAAAAAGTTTATTACTCGGAACAGCCGCGCCCCATCTTTGGTACGTTATTATGATGTTCCAAATTCACTTATTGTTCCCTTTACTATGCACACTTTTTTATTGGTTTCAAAAACGAACAGAAAATAAAAAAGACATATATAAATATATGACCTTTTTCGCGTGCCTATATTTTCTATTAATGTGGTTCTCTTCTCACTATATTTTTAATGGAGAAAAATTAACAAGTTCAACAATTTTACATTATACAGATCGATCATTTCTATTCTACTCATTCTATTTCGTTATGGGTGGCATTGCCGCTGTAGCACTAAAAACTTGGCGTCTATTCGTCATGAAACATATCCCGCTTATAACAATATTATTTTTCATCTTATTTTTATTCATCAATTATGAGTTGTTTAGTTTTCACGGAGCAAACTCTATTCATTTAACTGTTTCTACCTATTTAAAACCATCTATGTTTTTATATATCGTATGCGAAATTATCATACTGTATATGTTATCTATTATGATAGTACAGCGTCGTGGTTTCTTATATAAAACGTTACGTTTCATTGGAAATTACACGTATGGTGCTTATTTAGCTCACTTATTCTTCTTGCAACTATGCACAAAGTTTCTTTCTTTATTCACACTGCAAGAAAATACTATATTATATAGCCTATTACTATTTGTGTTAACGGCTATTATCTCTATTTCAACAATGGTCATTTGTAGCACAATACCATTTCATACTTGGATTACAGGGCCTTCTCCTACAACAAAGATGAAATGGGCGAAGGTTGTATTCCGAAAAAATCATAAAAAACTATTCAAGCCATATATTTGA	MTQSAPEFKVLQSIAFLAVVLQSSLLYTMNQGNVLLEQSLIMGMLFNLAKFSAPAFIFIVGFHLIRHYTKQLVYKEYISEKATHLLIPYFFWSILYLLTTNDLITLQSGIKSLLLGTAAPHLWYVIMMFQIHLLFPLLCTLFYWFQKRTENKKDIYKYMTFFACLYFLLMWFSSHYIFNGEKLTSSTILHYTDRSFLFYSFYFVMGGIAAVALKTWRLFVMKHIPLITILFFILFLFINYELFSFHGANSIHLTVSTYLKPSMFLYIVCEIIILYMLSIMIVQRRGFLYKTLRFIGNYTYGAYLAHLFFLQLCTKFLSLFTLQENTILYSLLLFVLTAIISISTMVICSTIPFHTWITGPSPTTKMKWAKVVFRKNHKKLFKPYI				NA	NA	NA	NA	NA
AK009_05003	1218	gltP	COG1301	Proton/glutamate-aspartate symporter	ATGAAGGCATATCGCTTTCCACTTATTTTATTATCTTCTATCCTAATTGGTGGTTTCATTGGTTATTTCATGGGTGCCGATGCAGTTGCTTTAAAGCCGCTTGGTGATATTTTCTTAAACTTAATGTTTACGATTGTTGTACCTCTAGTGTTCTTTAGCATCGCATCGTCTATTGCTAATATGGATGGATTAAAACGTTTCGGTAAAATTATGTCTAGTATGGCTGGGACTTTCTTATTTACAAGTATTTTAGCTGCTATTTTTATGATTATTGTCGTGAAAGTATTCCCGCCAGCACAAGGTGTTGTACTAGAACTAACACAACCTGACAAAGCCGGCAAAGCTGTTAGTGTTGCAGATCAAATCGTCGGTATTTTAACAGTATCTGACTTCTCGAAGTTACTATCTCGTGAAAATATGTTAGCTCTTATTTTCTTCTCTATCTTAATGGGGATTGCAACTTCAGCAGTTGGCGAAAAAGGAAAGCCATTCGCTACATTCCTACAAGCTGGTGCAGAAATTTCAATGAAAGTTGTATCTTTCATTATGTACTACGCTCCAATCGGACTTGCTGCTTACTTCGCAGCATTAGTTGGTGAATTCGGACCACAACTTCTTGGAACTTACTTCCGAGCAGCAATGGTATACTATCCAGCTTCTCTTATCTACTTCTTTGTATTCTTCACGTTCTATGCATACCTTGCAGGTCGCAAACAAGGTGTACAAGTATTTTGGAAGAACATGGTCTCTCCTACAGTTACATCACTTGCAACTTGTAGTAGTGCCGCAAGTATTCCAGCGAACTTAGAAGCAACGAAGAAAATGGGTATTTCTTCAGACGTTCGTGAAACAGTTGTCCTTCTTGGATCTACACTTCATAAAGATGGATCTGTTTTAGGCGGCGTATTAAAAATTGCTTTCTTATTCGGTATTTTCAACATGGAATTCGAAGGACCGAAAACATTAGCAATCGCACTTGTTGTTTCTTTATTAGTAGGAACAGTAATGGGTGCTATTCCAGGCGGTGGTATGATTGGTGAAATGTTAATCGTATCTCTATACGGTTTCCCGCCAGAAGCATTGCCAATTATTGCAGCAATTAGTACAATCATTGATCCACCTGCAACGATGTTAAACGTAACAGCAGATAACGCTTGTGCGGTAATGACAGCTCGCCTTGTAGAAGGTAAGAATTGGATCAAAAACAAATTTGCTTAA	MKAYRFPLILLSSILIGGFIGYFMGADAVALKPLGDIFLNLMFTIVVPLVFFSIASSIANMDGLKRFGKIMSSMAGTFLFTSILAAIFMIIVVKVFPPAQGVVLELTQPDKAGKAVSVADQIVGILTVSDFSKLLSRENMLALIFFSILMGIATSAVGEKGKPFATFLQAGAEISMKVVSFIMYYAPIGLAAYFAALVGEFGPQLLGTYFRAAMVYYPASLIYFFVFFTFYAYLAGRKQGVQVFWKNMVSPTVTSLATCSSAASIPANLEATKKMGISSDVRETVVLLGSTLHKDGSVLGGVLKIAFLFGIFNMEFEGPKTLAIALVVSLLVGTVMGAIPGGGMIGEMLIVSLYGFPPEALPIIAAISTIIDPPATMLNVTADNACAVMTARLVEGKNWIKNKFA	PGPT0013965_34	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
AK009_05004	303	licB_1	COG1440	Lichenan-specific phosphotransferase enzyme IIB component	ATGAATATTTTGCTTTGCTGTGCAGCGGGAATGTCTTCCAGTTTGATTGTTACAAAGATGGAGAAAGCAGCAGAGGCAAGAGGGATAGAAGTGAAAATCTGGGCAGTATCAGGTTCTGAAGTGAATAGTCATATTGATAAAGCTGATGTCCTTTTACTTGGACCGCAAGTACGTTATTTATTACCGAAAATGAAAGAATTATGTAAGGAGAAAGGGGTACCTGTTGATGTTATTCAATCCGTCCATTACGGACTTTGTAATGGAGAAGCTATCTTGCAAGCAGCTTTGTCAATGAAACCATGA	MNILLCCAAGMSSSLIVTKMEKAAEARGIEVKIWAVSGSEVNSHIDKADVLLLGPQVRYLLPKMKELCKEKGVPVDVIQSVHYGLCNGEAILQAALSMKP	PGPT0016975_1714	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
AK009_05005	1302	licC_2	COG1455	Lichenan permease IIC component	ATGATACGGTTTTTAGAGAAGTATGTGATGCCGGTGGCAGGGAAGGTTGCAGAGCAGAGGCATTTACAAGCAATTCGAGATGGAATTATTTTAACGATGCCTTTCTTAATTATTGGATCGTTTTTCCTCATTATTAGTGCACTGCCGATACCGGGATATAACGAGTTTATGGCAGGTTTGTTTGGTGAGAATTGGCAGAGAGCTTTAGGGTATCCAGTTAGTGCAACTTTTAATATAATGGCTTTAATAGCTGTTTTTGGAATCGCTTACAGGCTTGGAGAGTATTATAAAGTGGATGCTTTAGCATCCGGGGCATTGTCGCTTGTGACGTTTTTACTTGCGACTCCATTTCAAGTTGCATATATTATACCAAGTACAAAAGAGAGTGTACTTGTAGAAGGCGCTATCCCAGCTGCATTAATGGGAAGCCAAGGGTTATTTGTAGCAATGATTATTGCACTTATATCTACTGAACTTTATCGGTTTATTGTACAAAAAAAGATAATTATAAAGATGCCAGAGACAGTTCCACCAGCTGTCACGCGTTCATTTGCGGCACTTGTTCCAGGTTTTATTGTTGTAACAGTTATTTGGATTTTACGCTTAATTATAGAAAATACTTCTTTTGGCAGTATCCATAATATTGTAGGACAAATTTTACAGGAACCACTTAGTGTACTTGGTGCTAGTCTTTGGGGCGCAATAATAGCAGTTATTCTCGTTCATGTTCTTTGGTCGTGTGGAATTCATGGTGCTACTATTGTTGGTGGTGTAATGAGCCCTGTTTGGTTGTCGTTAATGGATCAAAATCGAGTTGCTTTTCAAGCTGGGCAAGATGTACCAAATACCATTACGGCACAGTTTTTTGACTTATGGATTTATATGGGCGGTTCTGGTGCAACGCTGGCTCTAGTTGTCGGAATGTTACTATTTGCACGAAGTCAACAATTAAAAAGTTTAGGGAGATTGTCAATCGCGCCTGGTATATTTAATATTAATGAGATGGTAACTTTTGGTATGCCAATTGTAATGAACCCAATTTTATTAATTCCATTTATATTGGTTCCAGTTGTGTTAACAATTGTTTCTTACTTTGCAATGGAATGGGGATGGGTCGCACGTCCGAGTGGGGCGGCTGTACCTTGGACGACACCTATTCTTTTCAGTGGATATTTAGGATCGGGTGGGAAAATTTCAGGTGTTGTTTTACAACTCGTCAACTTTGCGCTTGCATTCTTCATTTATTTACCGTTCTTAAAAATATGGGATAAACAAAAAGTAGCAGAAGAAAAGGGGGAGTGA	MIRFLEKYVMPVAGKVAEQRHLQAIRDGIILTMPFLIIGSFFLIISALPIPGYNEFMAGLFGENWQRALGYPVSATFNIMALIAVFGIAYRLGEYYKVDALASGALSLVTFLLATPFQVAYIIPSTKESVLVEGAIPAALMGSQGLFVAMIIALISTELYRFIVQKKIIIKMPETVPPAVTRSFAALVPGFIVVTVIWILRLIIENTSFGSIHNIVGQILQEPLSVLGASLWGAIIAVILVHVLWSCGIHGATIVGGVMSPVWLSLMDQNRVAFQAGQDVPNTITAQFFDLWIYMGGSGATLALVVGMLLFARSQQLKSLGRLSIAPGIFNINEMVTFGMPIVMNPILLIPFILVPVVLTIVSYFAMEWGWVARPSGAAVPWTTPILFSGYLGSGGKISGVVLQLVNFALAFFIYLPFLKIWDKQKVAEEKGE	PGPT0016970_2219	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
AK009_05006	318	licA_1	COG1447	Lichenan-specific phosphotransferase enzyme IIA component	ATGGATACGATAGAGACGAAAGCTTTTCATTTAATTTTGCATGGAGGAAACGCGAGAAGTTGTTCAATGGAAGCAATTGATTGTGCGAAGCGTGGGGAGTTTACAGAAGCAGAAGCTAAATTACAAGAAGCGCTAGAGGAATTAAAAGAGGCGCACCGTGTACAAACGGAGCTTATACAGAAAGAGGCTGGTGGCGAAAAGACCGAAGTTACTCTTTTAATGGTACACGCGCAAGATCATTTAATGAATGCAATTACAGTGAAAGAATTAGCAAGTGAGTTTGTAGAGTTATATAGGAAGATGTCGGTGGATGAATGA	MDTIETKAFHLILHGGNARSCSMEAIDCAKRGEFTEAEAKLQEALEELKEAHRVQTELIQKEAGGEKTEVTLLMVHAQDHLMNAITVKELASEFVELYRKMSVDE	PGPT0016980_1062	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
AK009_05007	372	speH_2	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGAATATTCTACTTTTGGCAAGCATATAATAGTAGATTTATGGGGAGTAGATTTTTCTCTACTAGATGATACGCACTTTTTAGAATATCATTTAGTTACAGCTGCAGATTGCTCTGGTGCCCATGTTTTAAACGTAAGTAAAAAAGAATTCCAGCCATATGGTGTTACTGTATTAGTGTTATTATCAGAAAGCCATCTTTCCATTCACACTTACCCGGAACAAAATTTTGCAGCTATTGACTGTTATACTTGCGGTACAACCGTTGAACCACAAATTGCGATTGATTATATCGTAAATATATTAAAACCGGAGCGGATGCATATAAAAAGATTAATTCGTGGTATAGGAGAAATTGTTACTGCCGATTAA	MEYSTFGKHIIVDLWGVDFSLLDDTHFLEYHLVTAADCSGAHVLNVSKKEFQPYGVTVLVLLSESHLSIHTYPEQNFAAIDCYTCGTTVEPQIAIDYIVNILKPERMHIKRLIRGIGEIVTAD	PGPT0007760_2456	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
AK009_05008	1083	speE_1		Polyamine aminopropyltransferase	ATGCCAAAACATAGAAAACAAAGCAAAATAAAGATTTATAGAATAAAAAGCTATAAAAAAGACAAGCGTTCTGAAGTAGACTCTGACAAATTTGAACTAGAACAGCAGGACAAGCACGATACACAAGACAAACAAGATGAACAGGATAAACAAGTACAATCAGAAAATGTAATTATAGTACCCACAGATTCACACAACTTAGATGTGTGGGATGAAATTTCTCTAAAGGAAATACAAGCTGGTGAACATACAAATTTATTTAAAGAAAAGAGTAATTATCAAAATATTAATTTAGTCCAAGTAAACGATATTCGCTTATACTTGGACAAGCAACTACAATTCAGCTCCGTCGATGAGCAAATTTATCATGAAGCACTTGTACATCCAATTATGTCAAAAGTAATTGATCCAAAACGTGTTCTCATATTAGGCGGTGGCGATGGTCTTGCCCTGCGAGAAGTTTTAAAATATGAAACTGTACTACATGTAGACCTTGTTGACTTAGATGGATCGATGATTGATATGGCTCGTAATGTTCCAGAATTAGTTTCTTTAAACAAAAGTGCATTTTTTGATAATCGTGTAAATACACACGTATGCGATGCAAAAGAGTTTTTAAGCTCTCCTTCCTCTTTATACGATGTAATCATTATTGATTTCCCAGACCCAGCGACAGAGTTGTTAAGTACTTTATATACAAGCGAACTTTTTGCTCGTATAGCTACATTCTTAACAGAAGATGGCGCATTCGTCTGCCAATCTAATTCACCTGCTGATGCACCTCTAGTATACTGGAGCATCGGTAATACAATTGAACATGCTGGACTAACTGTGAAAAGTTATCATACAATCGTTCCTTCTTTTGGAACTGACTGGGGATTTCATATCGCTGCTAATTCTGCCTATGTACTAGATCAAATTGAACAATTATATGTAGTACCAACTCCTCGAACCTTGCCTGCTCTTCTTTTTCCTTTATTTCAATTTAAAGAAGAACATCTAGAACAACGCAACCTCGCTCTTTTAAATTCAGAATCGAACCTTATCCTACATCAATGCTACAAACAGGAAATGAAGTTTTGA	MPKHRKQSKIKIYRIKSYKKDKRSEVDSDKFELEQQDKHDTQDKQDEQDKQVQSENVIIVPTDSHNLDVWDEISLKEIQAGEHTNLFKEKSNYQNINLVQVNDIRLYLDKQLQFSSVDEQIYHEALVHPIMSKVIDPKRVLILGGGDGLALREVLKYETVLHVDLVDLDGSMIDMARNVPELVSLNKSAFFDNRVNTHVCDAKEFLSSPSSLYDVIIIDFPDPATELLSTLYTSELFARIATFLTEDGAFVCQSNSPADAPLVYWSIGNTIEHAGLTVKSYHTIVPSFGTDWGFHIAANSAYVLDQIEQLYVVPTPRTLPALLFPLFQFKEEHLEQRNLALLNSESNLILHQCYKQEMKF	PGPT0007750_1143	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
AK009_05009	303	celA_2		PTS system cellobiose-specific EIIB component	ATGAATATTTTATTATGTTGCTCAGCAGGGATGTCTACAAGTTTACTAGTTACAAAAATGGAAGCGGCCGCAAAAGCTCGCGGTCTAGAAGGAAAGATTTGGGCTGTATCTGGGGATGCAGTAAAAACAAATATCGATCAAGCAGATGTATTATTACTAGGACCACAAGTTCGTTACATGCTTTCTTCAATGAAAACGCTTGCTGACGAGAGAAACGTTGGAATCGACGTTATCAATCCAATGCACTACGGCATGATGAATGGAGAAGCAGTTTTAGATCACGCATTAACACTTAAAAAATAA	MNILLCCSAGMSTSLLVTKMEAAAKARGLEGKIWAVSGDAVKTNIDQADVLLLGPQVRYMLSSMKTLADERNVGIDVINPMHYGMMNGEAVLDHALTLKK	PGPT0016975_1675	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
AK009_05010	1305	licC_3	COG1455	Lichenan permease IIC component	ATGCAAAAGTTTATTGCATTTATGGAGAAGTACATGGTTCCGATTGCTGGTAAAATCGGATCGCAACGTCACTTAGCTGCGATCCGAGATGGATTTATTGCAGTTATGCCACTTATTTTAGTTGGTTCGATGGCAGTACTAGTTAATGGTTTACCAATTCCAGCATTCCAAAATTTTATGAAAGATTTATTCGGTGAAACTTGGACACAAATTGGTGCTGGTATGTGGACAGGGTCCTTCGGGGTATTAGCTCTGATGGTGGCGGTTACCATAAGTTATAACTTAGCAAAATCTTACGGTGTTGATGGATTGTCAGCAGGTATTATTTCGTTTGGTGCATTAATTATTCTTACACCAACAACACCAAAAGAAGCTGGAATAAATATGCTTTGGACAGGCGCACAGGGTTTGTTCGTTTCACTTATTGTCTCCATACTCGTAACGGAGATATTCCGCTTCTTTGTTCAAAGAAACATTACAATTAAAATGCCTGACGGTGTACCACCAGCAGTAATGAAATCTTTCGCTGCTTTAGTTCCAGCATTTGTGATTTTAACAGGTATTGCAAGTATTCAATTAGCAGTAAAACTAGCAGGTACAAGTGTTCATGAGTATATCTTTAATACATTACAAGTTCCATTACAAGGTTTAGCGGGTACGTTACCAAGTGCAATCTTTATTGCGTTATTAGTACATGTACTTTGGTTCTTCGGTTTACATGGTCCAAATATTGTTGGTGGTATTATTGAGCCACTTTATTTACCAGCATTAGAGAAAAATATTAAGTTATTCCAAGATGGTACATCTGCATTTGATGTTCCAAACATTATTACAAAACCATTCTTTGATACTTTCGTATATCTTGGTGGTTCTGGTGCAACATTAGCGTTTTTAGTAGTTGTATTAATTGTAGCGAAAAGTGCACAATTACGCGGTGTATCTCGTCTATCAATTGGACCTGGTGCATTTAACATTAACGAACCAGTAATCTTTGGTACACCAATCGTATTAAATCCAATTTTATTCATCCCGTTCGTATTAACACCTGTTGTGTTAGTTATTACATCTTATACAGCAATTTACTTAGGATGGGTACCAAAAACAGTAGCGATGGTTCCATGGAACGTTCCACCAATTATTAGTGGGTATCTTGTAACAGGTTTACATCCTTCTGGTGCGATTTTACAATTATTCAACTTTGTTGTTGCAATGGCGATTTACTTCCCATTCGTTGTCGCATGCGATCGTTCAGTTATCCGTACTGAGAAAGCAGCACAAGAAAATAACAACTCTGTACCTATGTAA	MQKFIAFMEKYMVPIAGKIGSQRHLAAIRDGFIAVMPLILVGSMAVLVNGLPIPAFQNFMKDLFGETWTQIGAGMWTGSFGVLALMVAVTISYNLAKSYGVDGLSAGIISFGALIILTPTTPKEAGINMLWTGAQGLFVSLIVSILVTEIFRFFVQRNITIKMPDGVPPAVMKSFAALVPAFVILTGIASIQLAVKLAGTSVHEYIFNTLQVPLQGLAGTLPSAIFIALLVHVLWFFGLHGPNIVGGIIEPLYLPALEKNIKLFQDGTSAFDVPNIITKPFFDTFVYLGGSGATLAFLVVVLIVAKSAQLRGVSRLSIGPGAFNINEPVIFGTPIVLNPILFIPFVLTPVVLVITSYTAIYLGWVPKTVAMVPWNVPPIISGYLVTGLHPSGAILQLFNFVVAMAIYFPFVVACDRSVIRTEKAAQENNNSVPM	PGPT0016970_2165	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
AK009_05011	324	licA_2	COG1447	Lichenan-specific phosphotransferase enzyme IIA component	ATGATGACTACAGCAGAACAAATTCCATTCCAATTGATTTTAAATAGTGGTAACGCACGAAGCTTTGCGATGGAGGCACTTCAATTTGCCAAACAGGGGAAAATGGTAGAAGCAGATGAAGCGATGGTAAAGGCGAAAGAAGCGATTAATGAAGCGCATCATTTCCAAACAGAGCTCATACAATCAGAAGCAAGAGGAGAAAAAACAGAGGTTAGTGTTCTTTTAATTCACGCACAAGATCATTTAATGAATGCGATTACAGTGAAAGAATTAGCAGCAGAGTTTATCGATCTTTATAAAAAGCTTGAAGCGAAAGGGGAATAA	MMTTAEQIPFQLILNSGNARSFAMEALQFAKQGKMVEADEAMVKAKEAINEAHHFQTELIQSEARGEKTEVSVLLIHAQDHLMNAITVKELAAEFIDLYKKLEAKGE	PGPT0016980_809	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
AK009_05012	1326	licH	COG1486	putative 6-phospho-beta-glucosidase	ATGACTGGAATTAAAATTGCTACAATCGGCGGTGGATCTAGTTATACACCAGAGTTAATTGAAGGATTTATTAAACGTTATGATGAGCTTCCTGTTCGTGAAATTTGGTTAGTAGATATTGAGGCAGGAAAAGAAAAGTTAGAAATTGTTGGTAACTTAGCGAAACGTATGGTGAAAAAATCTGGTTTACCAATCGAGGTACATTTAACACTTGATCGCCGTGAGGCATTAAAAGATGCAGACTTCGTAACAACACAACTTCGCGTTGGTTTATTAGAAGCACGTGCAAAAGATGAAGCAATCCCATTAAAATATGATGTAATCGGTCAGGAAACGAATGGTCCTGGTGGTTTATTCAAAGCACTGAGAACGATTCCTGTTATTTTAGATATTTGTAAAGATATGGAGGAGCTTTGTCCGAATGCATGGCTAATTAACTTTGCGAACCCAGCTGGTATGGTAACAGAAGCTGTCCTTCGTTATACAAATATTCAAAGAGTAGTTGGTCTATGTAACGTTCCAATCGGAATCCGCATGGGTCTTGCAAGATTACTTGAAGTAGATGCAAGTCGTGTCCACGTTGATTTTGCAGGTTTAAATCATATGGTATACGGACTAGATGTATACTTAGATGGCGTAAGTGTAATGGATCGTGTGTTAGAGCTTGTAACAGATCCGGAAAAGCAAATTACGATGGAAAATATCGCAGCGCTTAACTGGGAACCAGACTTTATTCGCGGTCTTCGTGCAATTCCATGTCCATATCATCGTTATTACTACAAAACACGTGAAATGTTAGAAGAAGAAAAAGAAGCTTCTGTTGAAAAAGGTACACGTGCAGAAGTAGTAAAACAATTAGAAAATGATTTATTTGAGTTATATAAAGACCCGAATTTAGATATTAAACCACCACAATTAGAAAAACGTGGCGGCGCTTATTATAGTGACGCAGCATGTAGCTTAATTACGTCTATTTACAACAATAAAGGTGATATCCAGCCTGTTAATACACGAAACAACGGAACAATTGCAAGCTTACCAGATGATTCTGCTGTTGAAGTGAACTGTATTATTACGAAAGAAGGTCCAAAACCAATTGCGGTCGGAGATCTTCCAGTACCAGTTCGCGGTTTAGTACAGCAAATTAAATCATTTGAGCGCACAACAATTGAAGCTGCTGTTACAGGTGATTATCATAAAGCGCTGCTTGCTATGACAATTAATCCACTTGTACCATCAGATACAGTTGCAAAACAAATTTTAGATGAAATGTTGGAAGCACATAAAGAATATCTTCCGCAGTTCTTCAAAAAGGTAGAGAAGTAA	MTGIKIATIGGGSSYTPELIEGFIKRYDELPVREIWLVDIEAGKEKLEIVGNLAKRMVKKSGLPIEVHLTLDRREALKDADFVTTQLRVGLLEARAKDEAIPLKYDVIGQETNGPGGLFKALRTIPVILDICKDMEELCPNAWLINFANPAGMVTEAVLRYTNIQRVVGLCNVPIGIRMGLARLLEVDASRVHVDFAGLNHMVYGLDVYLDGVSVMDRVLELVTDPEKQITMENIAALNWEPDFIRGLRAIPCPYHRYYYKTREMLEEEKEASVEKGTRAEVVKQLENDLFELYKDPNLDIKPPQLEKRGGAYYSDAACSLITSIYNNKGDIQPVNTRNNGTIASLPDDSAVEVNCIITKEGPKPIAVGDLPVPVRGLVQQIKSFERTTIEAAVTGDYHKALLAMTINPLVPSDTVAKQILDEMLEAHKEYLPQFFKKVEK	PGPT0019105_711	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
AK009_05013	705	chbG	COG3394	Chitooligosaccharide deacetylase ChbG	ATGATTAAGTTAATTGTAAACGCAGATGATTTCGGTCTTACAGAAGGTACAAATTACGGCATTATTGATGGGCATATAAACGGACTTGTAAATTCAACGACGCTGATGATGAATATGCCAGGAACAGAGCATGCGGTACGCTTAGCCAAAGAGTATGAAACGCTAGGAGTAGGAGTACATCTTGTATTAACGGCAGGAGAACCACTTCTTGGAGACGTACCATCACTTGTAAGTAGCGATGGATTGTTTCATAAACAAGGTGTCGTAAGGGAAGGAAATATAAATCCAGAAGAAGTTGAGAGAGAGTGGACTGCTCAAATTGAGAAATTCCTATCTTACGGATTAACACCAACTCATTTAGATAGTCATCATCATGTGCATGGTTTACCGATTTTACATGATGTTCTTGAGAGATTAGCGGCTACATATAATGTTCCGATTCGTCGTTGTGAGGAAGATAGAGCGGTGCGCCCATTTTCTGATGTGTTTTACAGTGACTTTTATGCGGATGGTGTGACGGAAGATTACTTTGTGAAGTTAAAAGAAAGAGTACAAGGTGAACAAACGGTAGAAATTATGGTTCATCCAGCTTATATTGATCCAGAGCTTGTGAAGCGTTCTTCTTACGTAATGAATCGTGTGAAGGAATTGCGTATTTTAACAGAGAGCAAATTACCAGAAGGAATAGAGCTTGTGAAGTTTTAA	MIKLIVNADDFGLTEGTNYGIIDGHINGLVNSTTLMMNMPGTEHAVRLAKEYETLGVGVHLVLTAGEPLLGDVPSLVSSDGLFHKQGVVREGNINPEEVEREWTAQIEKFLSYGLTPTHLDSHHHVHGLPILHDVLERLAATYNVPIRRCEEDRAVRPFSDVFYSDFYADGVTEDYFVKLKERVQGEQTVEIMVHPAYIDPELVKRSSYVMNRVKELRILTESKLPEGIELVKF	PGPT0012160_1193	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478	NA	NA
AK009_05014	1182	chrA		Chromate transport protein	TTGAAAACTAACAAATACACTTTTCATACATTATTAGAGATTTTTCTCGTCTCATTTAAATTAGGATTTACTTCATTCGGCGGTCCTGTCGCTCATCTCGGCTATTTCCACCACGAATACGTGCAAAAAAGAAAATGGATGGATGAACGAAGCTATGGAGATTTAGTAGCACTATGTCAATTCCTTCCCGGTCCTGCCAGCAGTCAAGTCGGTATGGGGGTTGGATTATTACGGGGCGGGCTATTAGGAGCTATTATTTCATGGATTGGATTCACTTTACCGTCTGTGCTTGTTTTGGTTTTCTTCGCCTCATTCCTTAATCAGTTCGATCTTGGAAGTGCTGGCTGGATTCATGGACTAAAACTTGTAGCAGTCGCTATTGTCGCTCATGCCATATGGGGAATGGCGCGGAAGTTAACTCCAGATCGAAATCGTGCAACGATTGCGATTGTAACTGCCGCAATCGCCTTATTATGGCCAAGTAGTTGGACACAAGTCACCCTCATCATAATATGTGGCTTTATCGGCTGGTTGTTATATCGCAACCAACCAATTAGCCAATCTCAACATATAAAAGTACCTATTTCAAAAAAGATAGCAGTTTCTTGTCTCGTCTTATTCTTTGGACTATTACTACTGCTACCAATATTAAGACCGTTCTCTTATTACATCGCTTTATTTGATAGTTTCTATCGCTCTGGCGCACTTGTATTTGGAGGAGGACATGTCGTGCTGCCTCTTCTTGAAGGTGAGTTCGTACAAAACGGAATGATGACGAAAGAACAGTTCCTAGCTGGATACGGATTAACACAAGCAGTACCAGGACCACTGTTTACATTCGCCTCTTATATAGGAGCAGTGTTAGACGGGACGCTTGGGGCATTACTCGCAACAATTGCAATTTTCTTCCCTGCTTTCTTACTCGTTATTGGTGTTTTACCATTTTGGAACAGCGTGAGAAAAATATCATTCATACAAGGCGCACTACTTGGAGTCAATGCCGCTGTTGTCGGTATTTTACTAGCAGCTTTTTATGATCCTATTTGGACAAGCACAATTATGAACGCTGTAGATTTTGTTTTTGCATCTCTTCTATTTTGCTTGCTCGCTTTTTGGAAAACACCACCTTGGGTTATCGTTATACTCGGGGCATTTGGCGGATATGCTCTATCCATTTTATAA	MKTNKYTFHTLLEIFLVSFKLGFTSFGGPVAHLGYFHHEYVQKRKWMDERSYGDLVALCQFLPGPASSQVGMGVGLLRGGLLGAIISWIGFTLPSVLVLVFFASFLNQFDLGSAGWIHGLKLVAVAIVAHAIWGMARKLTPDRNRATIAIVTAAIALLWPSSWTQVTLIIICGFIGWLLYRNQPISQSQHIKVPISKKIAVSCLVLFFGLLLLLPILRPFSYYIALFDSFYRSGALVFGGGHVVLPLLEGEFVQNGMMTKEQFLAGYGLTQAVPGPLFTFASYIGAVLDGTLGALLATIAIFFPAFLLVIGVLPFWNSVRKISFIQGALLGVNAAVVGILLAAFYDPIWTSTIMNAVDFVFASLLFCLLAFWKTPPWVIVILGAFGGYALSIL				NA	NA	NA	NA	NA
AK009_05015	414			hypothetical protein	ATGACAACACATTTCTTTGCCAGGTTAACAGGTAAGAGGGAAGTGCCTCCTGTAAATACAGAAGCTTTTGGGGTAGCAGAGTTTATTTTTAGTGATGATTTAACGAAATTACATTACAGAGTCATACTAAAAAATATAGAAAAGGTTACATCGTGTCAAATTCATTTAGGGAAGTCTACTCAAATTGGTCCTGTTGTTTTATATTTGTATGGTCCACTGGAGCAAGGTATTAGCTTGAACGAGGGAAGCATTACTGGTGTAGTGAATGTGGAGGATTTTGAGGGACCTTTACAAGGGAAATCATTTGTACATTTACTTCAAGAAATTATTCAAGCAAACGTATATGTTAATGTCCATACGAAATCACAAAAAAGAGGAGAAATAAGAGGGCGAGTTAGAAAAGTAAAGAAATAG	MTTHFFARLTGKREVPPVNTEAFGVAEFIFSDDLTKLHYRVILKNIEKVTSCQIHLGKSTQIGPVVLYLYGPLEQGISLNEGSITGVVNVEDFEGPLQGKSFVHLLQEIIQANVYVNVHTKSQKRGEIRGRVRKVKK				NA	NA	NA	NA	NA
AK009_05016	2676	dgaR		Transcriptional regulatory protein DagR	ATGAAACGAATAGATCTCATTTTTAACGCAATACAAGAAGGCAATTATACAGAAGGTGTAACCGCATCAGAACTAGCTACCCTGTTGCAACTAGATCGCGCCAATGTAAGTAGCGACTTAAACAAACTTGTAAAAGATAAACGTTTATTAAAAACAAATACGCGACCTGTTCGTTTTTACATAGAAACGAACACTTCGTTGGAAACGCATTCAAAAGAAGTAACTTCATTAGATACATTTGCAATTGAAAATACGAGCCTTAAAATCGCAATTGAAAAAGCGAAAGCTTCTATGCTCTATCCTCCAAACGGTATGCATACTTTACTACTGGGAGAAACAGGGGTCGGAAAGTCTATGTTCGCTTCTTTAATGCACGAATATGCAATTGAAGTTGAACAGCTTCCTAAAAATGCACCATTTATCGTCTTTAACTGTGCTGATTACGCAAATAATCCACAGCTACTACTCGGGCAATTATTTGGGATTAAAAAAGGAGCTTACACAGGAGCAAGTGATCAAAAAGGATTAATTGAAAAAGCACATGAAGGAATTCTTTTCTTAGATGAAGTACATCGCCTACCTCCAGAGGGACAAGAAATGCTTTTCACCTTTATTGACCGCGGAGTGTACCGCCGCCTTGGAGAAACAGAGAACGAACGTAAAGCACAAGTATTAATCATTACTGCAACAACAGAAGAACCAAATTCATTTTTATTAAAAACATTTACAAGACGTATACCGATGACTGTTACGCTGCCACCACTTCGTGAGCGTACACATAAAGAGCGCTTTGCTTTACTACAGCTATTTTTCACAAATGAAGCAATTCGTCTGCGAAAAGACATTCACGTTAGCCCAAATGCAATGCGTGCTTTCGTCTTTTATAATTGTCCCAATAACATTGGTCAATTAAAAACAGATGTTCAAATTGCCTGTGCGAAAGCCTATTCTGATTTGGTCACAAAGAAACGTGATTCTGTCTATGTTTCAAGTACAGATTTACCTTGGTATATGAAAGAAGGGTTGTTCATTGAAAGGAAGAGCCGTCACTTATACCAAATACCAAATGAAACATTTGTATTTACAGGTGAGGAAGGTTGGAGTAATCATAAAACAGAAGATGAAAAACGCTCTTCTATTTACGATTATATTGACTATAAATACGAAGAACTTCAAGCCCGTGGTATTGAAGAGGAAGAATTAGAATTACTAATAGAAAATGATGTTCAAAGCTTTTTCGTACAATATTTTAACCAAATATCCAAAAAAACAAGCCATGAAAATGTTTTTAAAATTGTGGATCGTAATATCGTTTCCGTATGTGAAAAAATAGCGGAACTTGCTGAAAAGCATTTATCTAAGACGTTTGATGAAAAAGTATTTCTCGCTTTAAGTTTACATGTACAGACAACTCTACAACGTTTACAAAGCGGAAAACAAATACATCACCCACAATTAAATCAAATTCGTACGAAATATAAAGAAGCTTTTTCCGTAGCTATGCAATGCATTCAACTACTGGAGGAAGAATTACAAATAACAATGCCTATTGATGAAGCTGGCTTTTTAACAATGTTCTTCGTTGTTGATCCAATTCCTGCCTCACAAACAGAAGTAAAAGTATTAATATTAGCACACGGTAATGGCATCGCAACTGAAATGGCAAACGTTGCAAACGAACTTCTCGGCATTGAGGAAGTAACCGGTATTGATATGCCGTTACACGAATCACCGAAAGATTTCTTGGAACGTGTGAAAGTGCATATGAAAACACTACAAAATGTAAATGGGCTTCTCTTACTTGTTGATATGGGGTCACTTGCTTATATCGGTGACATATTAGAAACGGAGTTCAAAATTCCTGTACGTGTTCTCTCGATGACGAGCACACCACATGCACTAGAAGCAGCTCGAAAAGCTCAGCTCGGTTATTCATTAGATGCACTGTATGAAACAGTAAAAAATTTAACACCGTTTTACTTAAACGTACAAGAAGAAAAGAAAAAACCTCTCTCTCCAATGAAATCTGTTATTTTAACAGCTTGTTTAACTGGTGAAGGAAGTGCTTTAGCTATTCAAAAAATGTTAGAGAACTATTTACGATTTGATAAAGACTTAATTGAAATTATTCCGATTAGTATCGTCCATGAAAAAGATTTAACGAAAATGATCGAGAACATAAAAAAAGAGCGTAACATCATTTGTATCGTCACGAATTTCGATGTGCAAGTGCCGTGCTTAACATATCATTTCCAAGACATCGTAAACTACACAGCGATTCAGCCCATTCAAGAATTAATTACGTATGAAGAAACATATGCAAAAATGGCGGATATTCTTGAACAACAAATGCAGCGTAACGATGGGGCATTACTGATCAAAACAATTCGTTACGCATTAAATACAATTCAAGAATTAATTTCCTTACAGCTAACTCCTGATAGCTTAATGGGTGTTATTCTGCATATGAGCTGTATGGTTGACCGTCTTCAAAAAGGAGAAAGCCTTCTTCCTCACCCTGATAAAGAGAAAAGAAGACAAGATGAATACTGGATGTATATGAAAGTAAAAAAAGCATTGCAACCAATTGAAAATACATTTGAAATACAAATACCTGATGACGAAGTATTTTACGTTATGGACTTCTTTATTAAAAATCAGCCTGCGAAAAATTAA	MKRIDLIFNAIQEGNYTEGVTASELATLLQLDRANVSSDLNKLVKDKRLLKTNTRPVRFYIETNTSLETHSKEVTSLDTFAIENTSLKIAIEKAKASMLYPPNGMHTLLLGETGVGKSMFASLMHEYAIEVEQLPKNAPFIVFNCADYANNPQLLLGQLFGIKKGAYTGASDQKGLIEKAHEGILFLDEVHRLPPEGQEMLFTFIDRGVYRRLGETENERKAQVLIITATTEEPNSFLLKTFTRRIPMTVTLPPLRERTHKERFALLQLFFTNEAIRLRKDIHVSPNAMRAFVFYNCPNNIGQLKTDVQIACAKAYSDLVTKKRDSVYVSSTDLPWYMKEGLFIERKSRHLYQIPNETFVFTGEEGWSNHKTEDEKRSSIYDYIDYKYEELQARGIEEEELELLIENDVQSFFVQYFNQISKKTSHENVFKIVDRNIVSVCEKIAELAEKHLSKTFDEKVFLALSLHVQTTLQRLQSGKQIHHPQLNQIRTKYKEAFSVAMQCIQLLEEELQITMPIDEAGFLTMFFVVDPIPASQTEVKVLILAHGNGIATEMANVANELLGIEEVTGIDMPLHESPKDFLERVKVHMKTLQNVNGLLLLVDMGSLAYIGDILETEFKIPVRVLSMTSTPHALEAARKAQLGYSLDALYETVKNLTPFYLNVQEEKKKPLSPMKSVILTACLTGEGSALAIQKMLENYLRFDKDLIEIIPISIVHEKDLTKMIENIKKERNIICIVTNFDVQVPCLTYHFQDIVNYTAIQPIQELITYEETYAKMADILEQQMQRNDGALLIKTIRYALNTIQELISLQLTPDSLMGVILHMSCMVDRLQKGESLLPHPDKEKRRQDEYWMYMKVKKALQPIENTFEIQIPDDEVFYVMDFFIKNQPAKN				NA	NA	NA	NA	NA
AK009_05017	738		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGATCAAGCGAGTATTGCAATGTATTATTTTATTTTTAACCATTACTATGTACGCATCATCTAATACTGAAGCAACAACTGTTATTCCTGCTGAATATCATCCAAATACTGAAACGACCTCTCCTACACAAAAAATTGCGTACTTAACATTTGATGACGGGCCAAACAAATATACTACACAAATTTTAAACATCTTAAAAGAAAAGAACGGAAAAGCAACTTTCTTTGTTATTGGCGGAAAAGTGCCACATTACACAAAAACGATGCAAAGATTAATTAAAGAAGGACATTATATCGGTCTCCACAGCATGTCACATGATGTAAAACGCCTTTACACTGGTGACCCTTCCACTTTAATTGCAGAAATGGAGCAAACACAAAGCATTGTCCAGCAAGTTACGAAATTAAATACACATCTCGTTCGCGTTCCATATGGTAGTATGCCTTACTTAAAAAAGAATTACCGTGACGCACTTGTATCGGCCCAGTATAAAATGTGGGATTGGACAATCGATACATACGACTGGAAAAGCTATGACAATCCTTCTGCCATACTCGAAAGAGTACGTAATCAAAGTGATGAACAAGTAGAAGTCATTTTAATGCATGATTCGAGTGTAACCGTACAAATACTGCCAAAAGTAATTGATTATTTACAGTCACAAGGATACAAACTTCTTCCCTATAATCCTTCTTCTCATCTCAAGGTAAATTTTTGGAAAGACACAAGATTGTAA	MIKRVLQCIILFLTITMYASSNTEATTVIPAEYHPNTETTSPTQKIAYLTFDDGPNKYTTQILNILKEKNGKATFFVIGGKVPHYTKTMQRLIKEGHYIGLHSMSHDVKRLYTGDPSTLIAEMEQTQSIVQQVTKLNTHLVRVPYGSMPYLKKNYRDALVSAQYKMWDWTIDTYDWKSYDNPSAILERVRNQSDEQVEVILMHDSSVTVQILPKVIDYLQSQGYKLLPYNPSSHLKVNFWKDTRL	PGPT0018645_975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK009_05018	1074	tagO	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGGACTCACAAGTGATTTATGCCATTTTGGCATCTTTCATCACTGTACTCGTCGTTACTCCTTTAGTTATTAAATTAGCTTTTAAAATAGGAGCGACAGATAAGCCAAACGCACGTAAAGTGCACCAAAAGATTATGCCACGTCTTGGCGGGTTAGCAATCTTTATCGGTGTAGCTGTAGGATTTGTTGTCGGCGGCTTATATGAGCAAAGAATGTTATCGATAACGCTAGGTGCGATTATCATTGTAATCATTGGAATTTTAGATGATATGTACGAGTTATCTGCGAGAGTAAAATTCGGTGGACAACTGTTAGTTGCCATTATGATTGTAAAAAGTGGATTATTAGTGCAAGTATTATATATCCCATTCCTTGGGGATACTGAACTTGGATGGCTTGCTTATCCAATTACAGTATTTTGGCTTGTAGGTATTACGAATGCAATCAACTTAATTGACGGCTTAGATGGATTATCTGCTGGGATTTCATCTATCGTACTTGCAACGCTAGCATATATGGCCTTCACTAGCCCATGGGGTACTGGAACAGCGATTATCTTGCCACTCGCATTAATTATATTAGCAAGTACAATTGGATTTTTATTCTACAACTTCCATCCAGCAAAAATTTTCATGGGAGATACAGGAGCACTATTTTTAGGATACTGTATTTCTGTTATATCGTTACTTGGATTATACAAAAGTGTAACGTTATTCAGTTTTATTGTTCCAATTATCATTTTAGGTGTACCTATATTTGATACGATATTTGCAATCATCCGTCGTATCGTAAATAAAAAACCTATTTCAGCACCAGATAAATCGCATTTACATCACCGCTTACTTGCAATGGGATTCTCTCATCGCAAAACGGTACTAATAATATACGCATTCGGTATTTTCTTTAGTGTAAATGCCATTATTTTTACTAGTGCAACGTTATGGTTATCCATTATTCTTCTTTTCGCTTTGATTTTCTTCACAGAAATCATTGCTGAAATAATCGGGCTTGTACATGAACGTTACAAACCACTTATTTCCTTTTATAAAAAAGTGAAAAAACGCGAAGACTAA	MDSQVIYAILASFITVLVVTPLVIKLAFKIGATDKPNARKVHQKIMPRLGGLAIFIGVAVGFVVGGLYEQRMLSITLGAIIIVIIGILDDMYELSARVKFGGQLLVAIMIVKSGLLVQVLYIPFLGDTELGWLAYPITVFWLVGITNAINLIDGLDGLSAGISSIVLATLAYMAFTSPWGTGTAIILPLALIILASTIGFLFYNFHPAKIFMGDTGALFLGYCISVISLLGLYKSVTLFSFIVPIIILGVPIFDTIFAIIRRIVNKKPISAPDKSHLHHRLLAMGFSHRKTVLIIYAFGIFFSVNAIIFTSATLWLSIILLFALIFFTEIIAEIIGLVHERYKPLISFYKKVKKRED	PGPT0015240_1924	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
AK009_05019	1326	ywqF_1	COG1004	UDP-glucose 6-dehydrogenase YwqF	ATGAAAATTACGATAGTAGGTACTGGATATGTTGGATTGATTACAGGAGTAGGATTGGCAAAGTTGGGGCATTCAGTTACATGTTTTGATATAGATGATGAGAAAATTGAACGGATAAAACAAGGGGATTTACCTATTTATGAGGTTAGATTACATGAATTAATAAATCATGCATATGAGAATAATGCTTTAACTTTCACATCAAATAAAGAAGAGGCGTTTGAGGATGTAGAGTTTATATTTATTGCAGTTGGAACACCACCTTTATTAGATGGGACGGCGGATTTAACATATATTCAGAGTGCTTGTAATGATATTGGAGTATATGCGACGAACGATATTATTGTTGTTACGAAAAGTACAGTTCCAGTAGGTACAAATGATGTAATGAAAGGATGGATTGAGGAGGAGTTAAAGGGGAGATATACATTACATATCGTATCGAATCCAGAGTTTTTGCGTGAAGGTTCAGGTATTTATGATTTCTTTCATGGAGATCGTATTGTAATTGGAGCAGATAGTGAGGAAGTAGCAAGAAGAGTAAAGAGTTTGTATAGCGAATTACGCTTAGAAACGTATGTTACAGATATTAAAAGTGCAGAGATGATTAAATACGCGTCGAATGCCTTTTTAGCTACAAAGATTAGTTTCATTAATGAAATTTCAAATATATGTGAGAAGGTAGGCGCAAATGTATTGGATGTTGCTAAAGGGATGGGAATGGATAAGAGGATCGGTGCATCTTTTTTAAATGCAGGTATTGGATACGGGGGATCATGTTTTCCAAAAGATACGAAAGCGCTGGTGCAAATTGCGGGAAATGTTGCTCATGATTTTCGTTTGTTAAAAGCGGTTATTGAAGTAAATAATAAGCAACAACTGCTATTGATTGAAAAAGCGAAAAAAGTCATGAACATGAATAAAAAGCGGATTGCAGTTCTTGGCGCATCCTTTAAACCGAATACGGATGATATTAGAGAGGCATCATCTCTTATTATAATAGAAGCATTAATTAATATAGGTGCAGATATTGTTCTTTACGACCCAAAAGCAATTCAATATGTGAAAAATATATTTGGAGATGCTATACAATATAGTAGATGTATAGATGAATCGATTAGAGATGCGAGTGCGGTTTTTATCGTAACAGAATGGGAAGATATTCAAACTTATCCGTTAGAAAAGTACGTACAACTCATGAGGGAGCCTATTTTATTTGATGGGAGAAATTGTTATACTGATGAAGATGTTAAGAAACAAAAGATAGATTATTACTCGGTGGGAAGAAAAAGTATTTGTAATAGAAAAGTTTCTGTTATGCGTTAA	MKITIVGTGYVGLITGVGLAKLGHSVTCFDIDDEKIERIKQGDLPIYEVRLHELINHAYENNALTFTSNKEEAFEDVEFIFIAVGTPPLLDGTADLTYIQSACNDIGVYATNDIIVVTKSTVPVGTNDVMKGWIEEELKGRYTLHIVSNPEFLREGSGIYDFFHGDRIVIGADSEEVARRVKSLYSELRLETYVTDIKSAEMIKYASNAFLATKISFINEISNICEKVGANVLDVAKGMGMDKRIGASFLNAGIGYGGSCFPKDTKALVQIAGNVAHDFRLLKAVIEVNNKQQLLLIEKAKKVMNMNKKRIAVLGASFKPNTDDIREASSLIIIEALINIGADIVLYDPKAIQYVKNIFGDAIQYSRCIDESIRDASAVFIVTEWEDIQTYPLEKYVQLMREPILFDGRNCYTDEDVKKQKIDYYSVGRKSICNRKVSVMR	PGPT0017855_3074	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
AK009_05020	1116	mnaA	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGACTGAACGTTTAAAAGTAATGACAATTTTCGGGACACGTCCAGAAGCAATTAAAATGGCACCTCTTGTATTAGAGTTGCAAAAACACCCAGAAAAAATTGAATCGATTGTGACTGTAACAGCACAACATCGCCAAATGTTAGACCAAGTATTAAGTATCTTTGGAATTACGCCAGATTTCGATTTAAATATCATGAAAGACCGCCAAACTTTAATTGATGTTACAACGCGTGGCTTAGAAGGTTTGGATAAAGTAATGAAAGAAGCGAAGCCGGATATTGTACTTGTACATGGTGATACAACAACAACATTTATTGCAAGCTTAGCTGCTTTTTATAATCAAATTCCAGTAGGTCATGTTGAGGCGGGCCTTCGTACGTGGGATAAGTATTCTCCATACCCAGAAGAGATGAATCGTCAATTAACAGGTGTAATGGCGGATCTTCATTTCTCGCCAACAGCAAAATCAGCAACGAACTTACAGAAGGAAAATAAAGATGAGTCACGTATTTTCATCACAGGAAATACAGCGATTGACGCGCTACAAACGACTGTAAAAGAAACATATAGTCATCCTGTACTAGAGAAACTTGGAAATGATCGTCTTGTACTTATGACAGCTCACCGTCGTGAAAACTTAGGTGAACCGATGCGTAATATGTTCCGTGCAATTAAGCGTCTTGTTGATAAGCATGAAGATGTACAAGTTGTGTATCCTGTTCATATGAACCCTGTTGTTCGTGAAATAGCAAATGAAATTTTAGGTGAACATAACCGTATTCATTTAATTGAGCCGCTAGATGTAATTGATTTCCACAATGTTGCAGCTCGTTCATACTTAATGTTAACGGATTCTGGTGGTGTACAAGAAGAAGCTCCATCACTTGGAGTACCAGTTCTTGTTCTTCGTGATACAACAGAGCGCCCTGAAGGTATTGAAGCAGGTACGCTGAAATTAGCAGGAACAGACGAAGAGACAATCTTTGGTCTTGCTGATGAGTTGTTATCAGATAAAGAAGCTCATGATAAGATGGCGAAAGCATCTAATCCTTACGGTGATGGTCGTGCATCAGAGCGTATTGTAGAAGCAATTTTACAACACTTTAATAAGTAA	MTERLKVMTIFGTRPEAIKMAPLVLELQKHPEKIESIVTVTAQHRQMLDQVLSIFGITPDFDLNIMKDRQTLIDVTTRGLEGLDKVMKEAKPDIVLVHGDTTTTFIASLAAFYNQIPVGHVEAGLRTWDKYSPYPEEMNRQLTGVMADLHFSPTAKSATNLQKENKDESRIFITGNTAIDALQTTVKETYSHPVLEKLGNDRLVLMTAHRRENLGEPMRNMFRAIKRLVDKHEDVQVVYPVHMNPVVREIANEILGEHNRIHLIEPLDVIDFHNVAARSYLMLTDSGGVQEEAPSLGVPVLVLRDTTERPEGIEAGTLKLAGTDEETIFGLADELLSDKEAHDKMAKASNPYGDGRASERIVEAILQHFNK	PGPT0018905_2259	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
AK009_05021	1119	tagU_4		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGGAAGAACGTTATTATCATCTCCAAAATAGCAGAATAAAAAAGAAACGAAGAAGGAAACTTTTCTTCTTCCTTATTTTCGCATTTTTATTTGGCAGTATAGGAGTTTATGTGTTAAATTCTTACTCTTCTCTTATGGGGATGTATAGTGGTTTTACTCGTGAAAAATCGGATTTAAGAAACAAAGATGTAGAAATTACAAAGGAACCTTTTACAATTCTCATTATGGGTATAGAAGATTATGCGACAGACGGCCAAAATGGTCGTACAGACTCATTAATGTTTGCAACAGTCAACCCGAAAACGCAAAAGATTTCACTTATGAGTATTCCTCGTGATTCTCGAGTTACAATTGTTGGTAAAAATAAAGAAGACAAAATTAACGCTGCCCATGCTTACGGCGGAGAAGAAATGGCAATCAAAACTGTCGAAGGCTTTCTAAAAGTTCCTGTAGACCATTATCTTAAAATTGATTTCCAAGGCTTTAAAGGCATCGTTGATGCTGTTGGCGGTGTTACTGTTGACGTACCCTTCGATTTCTGGGAGCGCTCTGACGTGGATTACTACAAAAAAATTCAATTTAAGCAAGGACAGCAAAACTTAAACGGTGAAGAAGCACTTGCTTACGTCCGTATGCGAAAGCAAGATCCAAATGGCGATTATGGTCGAGCTGCTAGACAAAGACAATTACTGGCCGCTGTTGCTCATAAACTAAACTCCACATCTACTGTATTTAAAATTAAAGATTTAACGGCTGTCGTTGGAAAATATATAAAAACCGACATTCCTATTTCAGACGGACTTGCTCTTTACAATAAAATTTCTGGATTTGATCCTTCTACAATGCAAACGTTAAAGCTTGAAGGCGAAGACAAAAAGATAGGCGGTATTTATTACTTCCTTCCAGATCCAATCAGTGTAGAAACGGTGCGTAACGAAATTGAAAAAGAATTAGGAGAAAAAGCAAAAAATCCAACTACAAAAAACAACTCAAATCCTGATTCAAATTCAAGTTCTAACGAACAAACAAAAAAAGAAACAAACCAAAATAAAACACCAACTGATCCGCCACCTTCTACAAATGCTCATGCAGAGTGGATTATGCGCAATCAGCCATAA	MEERYYHLQNSRIKKKRRRKLFFFLIFAFLFGSIGVYVLNSYSSLMGMYSGFTREKSDLRNKDVEITKEPFTILIMGIEDYATDGQNGRTDSLMFATVNPKTQKISLMSIPRDSRVTIVGKNKEDKINAAHAYGGEEMAIKTVEGFLKVPVDHYLKIDFQGFKGIVDAVGGVTVDVPFDFWERSDVDYYKKIQFKQGQQNLNGEEALAYVRMRKQDPNGDYGRAARQRQLLAAVAHKLNSTSTVFKIKDLTAVVGKYIKTDIPISDGLALYNKISGFDPSTMQTLKLEGEDKKIGGIYYFLPDPISVETVRNEIEKELGEKAKNPTTKNNSNPDSNSSSNEQTKKETNQNKTPTDPPPSTNAHAEWIMRNQP	PGPT0023440_1627	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
AK009_05022	636			hypothetical protein	GTGCTATTACAATATTTAACAATCAAAGACTACGGCGAACACGAAATCGTCATTCAAAAATCAAGATTTATTTGTTATATTAGTCGAGCAACGACTGAGGAAGAGGCTCAAGAATTTATACAAAAAATAAAAAAACAACATTGGAATGCAACACATAATTGTTCCGCTTATTTAATTGGCGAACAAGATCATATTCAAAAAGCAAATGATGACGGCGAGCCTAGCGGTACAGCTGGCGTACCAATGCTAGAAGTACTTAAAAAACGTGGACTAAAAGATACCGTTGTTGTCGTAACACGCTATTTTGGTGGCATTAAACTTGGCGCAGGTGGATTAATTCGTGCATATGGAAAGTGTACAAGCGAAGGCATTAATCATGTCGGTGTTGTCCAGCGAAAACTAATGCGTGTGATGCAAACCGAGATTGATTACACATTACTTGGCAAAGTGGAAAATGAATTACGCAATTCAAAATATGCCATTAAAGATATACATTATCTAGAAAATGTCACATTTGATACGTATGTTGAAGAAGACGGCAAACAAGCCTTTACAGATTGGATGATTGAATTAACAAACGGGAAATGTACAATTACAGAAGGAGATATGTTGTACTTAGAACAAGATGTTATCTAA	MLLQYLTIKDYGEHEIVIQKSRFICYISRATTEEEAQEFIQKIKKQHWNATHNCSAYLIGEQDHIQKANDDGEPSGTAGVPMLEVLKKRGLKDTVVVVTRYFGGIKLGAGGLIRAYGKCTSEGINHVGVVQRKLMRVMQTEIDYTLLGKVENELRNSKYAIKDIHYLENVTFDTYVEEDGKQAFTDWMIELTNGKCTITEGDMLYLEQDVI				NA	NA	NA	NA	NA
AK009_05023	843	degV	COG1307	Protein DegV	ATGAAAATAGCTATTGTTACTGATAGTACAGCATATATACCGAAGCAAATTCGTGATGAACTCAATATATATATGATTCCATTAAACGTTGTGTTTGGAACAGAATCTTATCAAGAAGAAGCTGAAATTTCAGCAGATGATTTTTATGTGAAAGTACGTGAACAAGAGGAACTTCCAAAAACTTCTCAACCAGCAATCGGAAAGTTTGTTGAGCTATATGAAGAACTAGCTAAAGATTATGATGCAGTTATTAGTATTCACCTATCAAGTGGAATTAGTGGTACATATCAAACATCAACAACAGCTGGACAGATGGTAGAGGGTATTGATGTATATACGTATGACTCTGAAATTAGTTGTGAAGTACAAGGATTTTATGTGCGTGAAGGTGCAAAGTTAGCAAGTGAAGGAAAGAATCCAAAAGAGATTATCGCTCGTTTTGATGAAATGAAGAAAACGATGGACGCCTATTTTGTAGTTGATGATTTACATCATTTGCAACGTGGTGGTCGATTAAATAGCGCGCAAGCTTTCATCGGCAGTCTGTTACAAGTGAAGCCAGTTTTATATTTTAGAAATAAAATCATTATTCCGTTTGAAAAGATTCGTACACGTAAAAAAGCATTAAAACGTATCATTGAAATTTTTGATGAGCAAGCAAGTAAAGGTGTACCTATGGAAGCAGTTATCATTCATGCGCAACGTGAAGAGGAAGCGAATGAATGGAAGAAAGAATTAGAAGCAAAATATCCTCACGTCACAATTCGTACAGGTTATTTTGGAGCTGTAATTGGTACGCACTTAGGTGAAGGTGCATTAGGTCTTGGATGGTATACGAAGTAA	MKIAIVTDSTAYIPKQIRDELNIYMIPLNVVFGTESYQEEAEISADDFYVKVREQEELPKTSQPAIGKFVELYEELAKDYDAVISIHLSSGISGTYQTSTTAGQMVEGIDVYTYDSEISCEVQGFYVREGAKLASEGKNPKEIIARFDEMKKTMDAYFVVDDLHHLQRGGRLNSAQAFIGSLLQVKPVLYFRNKIIIPFEKIRTRKKALKRIIEIFDEQASKGVPMEAVIIHAQREEEANEWKKELEAKYPHVTIRTGYFGAVIGTHLGEGALGLGWYTK				NA	NA	NA	NA	NA
AK009_05024	315	yodB	COG1733	HTH-type transcriptional regulator YodB	ATGGAGCATAATTCTTGTTTATGTCCAAAGTTTGAGTCAGCTTTTACTTTGCTTAGTAAGAAATGGACTGGCTTAATTATTAAATCTTTGCTTGAAGAGTCGAAACGTTTTAGAGAAATCGCAGATATCATCCCAAATATGAGCGATCGTATGTTGTCAGAGCGTTTGAAGGAATTGGAAAGCGAGGGCATTGTAGTTCGTAATGTTTATCCAGAAGTACCAGTTCGAATCGAGTATGGCTTAACTGACAAGGGAAAAGCGTTAGAAAGTGTTATGGATGAGGTCCAAAATTGGGCTGAGAAATGGATGAAGTAG	MEHNSCLCPKFESAFTLLSKKWTGLIIKSLLEESKRFREIADIIPNMSDRMLSERLKELESEGIVVRNVYPEVPVRIEYGLTDKGKALESVMDEVQNWAEKWMK	PGPT0028512_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
AK009_05025	1386			hypothetical protein	TTGTTTTACAAAAACGTAACATTAGCAAAAAAAATCCCGAATTATGGTATAAATTTTATAGGTTATATACGGAAAAAGAAAAAAGAAAGCGGTGTAAAAAATAAAATGAAAAAGCTAAAAATGGCATCTTGCGCATTAGTTGCAGGGTTAATGTTTTCAGGACTAACACCAAATGTATTTGCAGAAGATAAAATTTCTGACGTGAAATCACAAATTAATACACAAAATGACACTTTACATAAACAACAACAAGAACGTGATGAATTACAAAAACAAATGAATGACTTAAACAAAACAATTCAAGGTTTAGATAAGTCTGTTCAAGAGAATGCTGCAAAACTTGATGAAACAACGAAAAAAGTTTCTGATACTGAGCAATTAATTGAAAAGAAAAATAAAGATATTGCAGAATTACAAACAAAGATTGCAAAACGTGAAGAGTTATTAAGAAAGCGTTTAGTTGCACTTCAAGAACAACCAAATACGAACGTTGTAACAGAAGTTCTTGTAAACTCTAAAAACGTTGCAGATTTAGTTGATCGTTTAACTTCTGTTTCTAAAATTCTTGAGTCTGATGAAGATATCATGAAAACACAGCAAGAAGATCAAGCTAGTGTGAAAAAAGATGTTGCAACGGTAAAAGAGAAACAAAAAGAATTAAAAGAAGCACAAGCTCAAATTGAAACTGCTAAGAAAGAACTTGACGCTGAAAAAGAGAAAAAAGCAACAGCGGTAAACGATTTAAGCGGTAAAATGGATACAGTTGTAACTTCGATGACAAGTACGGAAGGTCAATTGAAAGAGCTTGAGAAACAAGCATTACAATTACAACGCATTGCAGAAGAAGAAGCACAAGCAAAAGCTGCAAAAGAAGCTGCTAAAGCTGCGCAAGCTCAGCCAGCACAAGCACCTGCAGAGCAAGCTGCACCAGCAAACAATGGTGGACAAGCTCAAAAAGAAGAGCCTAAAAAAGAGGAACCAAAAAAAGAAGAGCCTAAGAAAGAAGCACCTAAACAAGAAGAGAAAAAGCCAGCTCAAAATGTGGGTGGCGTAATTGGTAAAGCACAAAGCTATTTAGGTTTACCATATGTTTGGGGAAGTGCATCTCCATCAAACGGTGGTTTTGACTGTAGTGGATTCATTTCTTACATCTTTGGTGTAGGTCGTCAAGACGTTGCAGGTTACTGGAACTCAGTTTCTAAAGTAGGTAGCCCACAACCAGGAGACTTAGTATTCTTCCAAGGTACTTATAAAGCAGGTCCATCTCACATCGGTATTTACGTTGGTAATGGCCAAATGATCCATGCTAGTGATAAAGGAATTGCGTACGGTGATATTAACAGCTCATATAACCAAAAACATTTCTTAGGTTACGGTCGATTCTAG	MFYKNVTLAKKIPNYGINFIGYIRKKKKESGVKNKMKKLKMASCALVAGLMFSGLTPNVFAEDKISDVKSQINTQNDTLHKQQQERDELQKQMNDLNKTIQGLDKSVQENAAKLDETTKKVSDTEQLIEKKNKDIAELQTKIAKREELLRKRLVALQEQPNTNVVTEVLVNSKNVADLVDRLTSVSKILESDEDIMKTQQEDQASVKKDVATVKEKQKELKEAQAQIETAKKELDAEKEKKATAVNDLSGKMDTVVTSMTSTEGQLKELEKQALQLQRIAEEEAQAKAAKEAAKAAQAQPAQAPAEQAAPANNGGQAQKEEPKKEEPKKEEPKKEAPKQEEKKPAQNVGGVIGKAQSYLGLPYVWGSASPSNGGFDCSGFISYIFGVGRQDVAGYWNSVSKVGSPQPGDLVFFQGTYKAGPSHIGIYVGNGQMIHASDKGIAYGDINSSYNQKHFLGYGRF	PGPT0023995_425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK009_05026	1350	comFA	COG4098	ComF operon protein 1	ATGCTGGCGGGGAAACAGTTGCTATTAGACGAACTTTCTTCAGATTTACAGAGGGAATTAAATGATTTGAAAAGGAAGGGAGAGGTCATATGTGTACAAGGTGTAAAAAAGAAGAATTCTAAATATATGTGCCAACGCTGCGGAAATGTAGATCAGCGGCTATTTGCGTCGTTTTTATGTAGAAGGTGCAGTAAAGTGTGCACATATTGCCGGAAGTGTATAACGATGGGGAGGGTAAGTGAATGTGCTGTACTTGTTCGCGGGATTGCTGAAAGAAAGAGAGAAAAGAAATTAAACTTGTTACAGTGGAACGGGAAGTTGTCTACTGGTCAGAATTTGGCGGCACAAGGTGTTGTAGAGGCTATTAAGCAAAAAGAATCATTTTTTATTTGGGCTGTATGCGGGGCTGGGAAAACAGAGATGTTGTTTTACGGTATTAACGAAGCGCTTCAAAAAGGAGAAAGAGTTTGTATCGCAACGCCGAGAACGGATGTTGTTCTGGAATTAGCACCGAGATTACAAGAAGTATTTCCATATATAAAGGTAGCGGCTTTATATGGAGGGAGTGTGGATAAAGAAAAAGATGCAGTACTAGTCGTTGCGACCACGCATCAATTATTGCGTTATTATAGGGCGTTTCATGTCATGGTTGTAGATGAGATAGATGCTTTTCCATATTGTGCAGATCAAATGTTACAGTACGCGGTAAAACAAGCGATGAAAGAAAGGGCGGCGCGTATTTATTTAACTGCGACTCCAGATGAAACGTGGAAGCGAAAATTTAGAAAAGGTGAACAAAAAGGTGTTATTGTTTCTGGACGATATCACCGTCATCCTTTGCCAGTTCCTTTATTTTGTTGGTGCGGGAATTGGAAAAAAAGCCTCATTCATAAAAGAATTCCTCGAGTTTTACTACAGTGGTTACAAACATACTTAAATAAAAAACATCCTATTTTTTTATTTGTCCCCCATGTGCGATATATAGAAGAGATAAGCCTGTTGTTAAAATCATTAAACAAGCGAATTGAAGGTGTACATGCAGAAGATCCGGGGAGAAAAGAAAAAGTAGCGGCTTTCAGAAAAGGAGAAATCCCATTATTAGTTACAACGACAATTTTAGAGCGAGGCGTAACGGTGAAAAATTTGCAAGTAGCGGTTTTAGGGGCTGAAGAAGAAATATTCTCAGAAAGTGCACTCGTACAAATTGCGGGCCGAGCAGGGCGGAGCTTTGAAGCACCGTATGGAGAGGTCATTTATTTTCACTATGGTAAGACAGAGGCGATGGTGCGCGCGAAAAAACATATTCAAGGTATGAATAAAAATGCCAAAGAACAAGGATTGATCGATTAA	MLAGKQLLLDELSSDLQRELNDLKRKGEVICVQGVKKKNSKYMCQRCGNVDQRLFASFLCRRCSKVCTYCRKCITMGRVSECAVLVRGIAERKREKKLNLLQWNGKLSTGQNLAAQGVVEAIKQKESFFIWAVCGAGKTEMLFYGINEALQKGERVCIATPRTDVVLELAPRLQEVFPYIKVAALYGGSVDKEKDAVLVVATTHQLLRYYRAFHVMVVDEIDAFPYCADQMLQYAVKQAMKERAARIYLTATPDETWKRKFRKGEQKGVIVSGRYHRHPLPVPLFCWCGNWKKSLIHKRIPRVLLQWLQTYLNKKHPIFLFVPHVRYIEEISLLLKSLNKRIEGVHAEDPGRKEKVAAFRKGEIPLLVTTTILERGVTVKNLQVAVLGAEEEIFSESALVQIAGRAGRSFEAPYGEVIYFHYGKTEAMVRAKKHIQGMNKNAKEQGLID	PGPT0029425_270	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
AK009_05027	573			hypothetical protein	ATGGAGTGCGGCCGACCTTTAGAATTTGTTCCTGCCTCATTTCAAGAAGACGGTATTTGCATAGATTGTATAAGGTGGATGAATAAGGAGAAGTATCGTCCTTTTAAAAACCGTTCGTTATACATGTACGATAATGAGATGAAAGAAATAGTAGCACAGTTTAAGTTTCGGGGTGATGCAGAGTTAGTGCGCATTTTTTATCGTCCTTTTCGAAGTTTATTTCAAAAGTATTTTGCTGATGTTTCAAACGTTATCGCTGTTCCGCTTAGTAAGGAAAGGGAAGTTGAACGTGGCTTTAATCAAGCAGAGTTATTAGCAACTTGTTTGCCTGTCCGTATTTCTGATTTTTCCTTAAGACGGCGAGAAACAGAAAAGCAAAGTAAGAAGACGCGTAAAGAAAGGGTGTCAGGAAGCAATCCTTTTTATTTTCAGGGAGAAGAGATGTTTTGTGGGCAACATATTTTACTCGTTGATGACGTGTATACGACAGGAATTACAGTTAGGCAAATCGGAAGTTTGTTATATGAAAGAGGGGCAAGGGAAGTATCTAGTTTGACACTTTGTAGAAGTTAA	MECGRPLEFVPASFQEDGICIDCIRWMNKEKYRPFKNRSLYMYDNEMKEIVAQFKFRGDAELVRIFYRPFRSLFQKYFADVSNVIAVPLSKEREVERGFNQAELLATCLPVRISDFSLRRRETEKQSKKTRKERVSGSNPFYFQGEEMFCGQHILLVDDVYTTGITVRQIGSLLYERGAREVSSLTLCRS	PGPT0029435_135	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
AK009_05028	204	cspA_3	COG1278	Cold shock protein CspA	ATGAACATGCAAGGACGAGTGAAATGGTTCAATGCAGAAAAGGGATTTGGATTTATTGAGCGCGAAGATGGTGACGATGTATTTGTCCATTTTTCTGCTATTCAACAAGATGGGTATAAGTCATTAGAAGAAGGGCAACAAGTAGAGTTTGACATTGTAGATGGAGCACGTGGACCACAAGCAGCTAATGTTGTAAAACTGTAG	MNMQGRVKWFNAEKGFGFIEREDGDDVFVHFSAIQQDGYKSLEEGQQVEFDIVDGARGPQAANVVKL	PGPT0014675_6635	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_05029	543	yvyD	COG1544	Ribosome hibernation promotion factor	ATGAAATTCAACATTCGTGGTGAAAATATTGAAGTAACTCCAGCATTAAAGGAATATGTAGAGAAAAAACTAAGTAAGTTAGAACGTTATTTTGATACATTCCCAGAGATTAAAGTTAATTTAAAAGTATACTCTGACAAGCAACGTGTCGAGGTAACAATACCATTTACTGATTTATTACTTCGTGCAGAAGAAACTAATAGCGATATGTACGCTGCTATCGATTTAGTAGTTGATAAAATTGAGCGACAAATTCGTAAACATAAAACAAAAGTAAATCGTAAGTTACGTGAGAAAGGTTCTATGAAAACAAACTTTATCCTTCCAGAAGCAGTAGCTGTTATGGATGAGGTAGAAGAGGATGAATTAGAACTTGTACGTACAAAACGATTCGATTTAAAACCGATGGACGTTGAAGAAGCGATTCTACAAATGGATATGCTAGGACATAATTTCTTCGTCTTCACAAATGCTGATACAAATGAAACTAATGTTGTATATGGCCGTAAAGATGGGAAATACGGTTTAATCGAAACTAAATAA	MKFNIRGENIEVTPALKEYVEKKLSKLERYFDTFPEIKVNLKVYSDKQRVEVTIPFTDLLLRAEETNSDMYAAIDLVVDKIERQIRKHKTKVNRKLREKGSMKTNFILPEAVAVMDEVEEDELELVRTKRFDLKPMDVEEAILQMDMLGHNFFVFTNADTNETNVVYGRKDGKYGLIETK				NA	NA	NA	NA	NA
AK009_05030	2508	secA	COG0653	Protein translocase subunit SecA	ATGATCGGTATTTTAAAAAAGGTGTTTGATGTAAACCAACGCCAAATTAAACGTATGCAAAAGACAGTTGAGCAAATTGATGCATTAGAGTCATCTATTAAGCCACTAACTGATGAACAATTAAAAGGAAAGACGCTTGAATTTAAAGAACGTCTAACAAAAGGTGAAACAGTAGATGATCTACTACCGGAAGCTTTTGCAGTTGTTCGCGAGGCGGCAACTCGTGTTCTTGGAATGCGTCCATATGGCGTACAGTTAATGGGTGGTATTGCCTTACATGAAGGGAATATTTCTGAGATGAAAACGGGTGAAGGTAAAACGTTAACATCTACATTACCTGTATATTTAAATGCTTTAACAGGAAAAGGTGTTCACGTTGTTACAGTCAATGAATACTTAGCACAACGTGATGCGAACGAAATGGGACAACTTCATGAGTTCCTTGGCTTAACGGTAGGAATTAACTTAAATAGTATGTCACGCGAAGAGAAACAAGAGGCTTATGCTGCTGATATTACGTATAGCACAAATAATGAGCTTGGATTCGATTACTTACGTGACAACATGGTTTTATATAAAGAGCAGTGCGTTCAACGTCCACTTCATTTTGCTATTATCGATGAAGTCGATTCTATTTTAGTCGATGAAGCACGTACGCCGCTTATTATTTCGGGACAAGCTCAAAAATCAACAGAGCTATACATGTTTGCAAATGCATTCGTTCGTACGTTAGAAAATGAAAAAGAGTATTCATTTGATGTGAAAACGAAAAATGTAATGTTAACAGAAGATGGTATTACGAAAGCAGAGAAAGCTTTCCATATTGAAAACTTATTCGATTTAAAACATGTAGCACTTCTTCACCATATTAATCAGGGGCTTCGTGCACACGTTGTTATGCACCGTGATACAGATTATGTTGTACAAGAAGGCGAAATCGTAATTGTAGACCAATTCACTGGTCGTCTTATGAAAGGTCGTCGTTATAGCGAAGGATTACACCAAGCAATTGAAGCAAAAGAAGGTGTAGAAATTCAAAATGAAAGTATGACGCTTGCGACAATTACATTTCAGAACTACTTCCGTATGTATGAAAAATTATCTGGTATGACTGGTACAGCGAAAACAGAGGAAGAGGAATTCCGTAACATTTACAATATGAACGTTATTGTAATTCCAACAAACAAACCGATTATTCGTGATGATCGTGCTGATTTAATCTTTAAATCAATGGAAGGTAAGTTCAATGCTGTTGTTGAGGATATTGTAAATCGTCATAAACAAGGGCAACCTGTTCTTGTAGGTACAGTTGCAATTGAAACTTCAGAGCTTATTTCAAAAATGTTAACGCGTAAAGGTGTACGTCATAACATTTTAAATGCGAAAAACCATGCACGTGAAGCAGATATTATTGCGGAAGCTGGTATGAAAGGTGCTGTAACGATTGCGACGAATATGGCTGGTCGTGGTACAGATATTAAGCTTGGAGATGATGTGAAAATCTTCGGTCTAGCGGTTATTGGTACAGAACGTCATGAAAGTCGTCGTATTGATAATCAGTTACGTGGTCGTGCTGGTCGTCAAGGGGACCCTGGTGTGACGCAGTTCTACTTATCGATGGAAGATGAATTAATGCGCCGATTTGGTTCAGATAATATGAAAGCAATGATGGATCGTCTTGGTATGGATGATTCTCAGCCAATTGAAAGTAAAATGGTTTCTCGTGCGGTAGAGTCTGCACAAAAACGTGTTGAAGGAAATAACTATGATGCACGTAAGCAGTTATTACAATACGATGATGTACTTCGTCAGCAACGTGAAGTGATTTATAAGCAGCGCCAAGAAGTAATGGAATCGGAAAACTTACGTGGCATTATTGAAGGTATGATGAAATCTACAGTAGAACGTGCTGTTGCGCTTCATACACAAGAGGAAATTGAAGAAGATTGGAACATTAAAGGTCTTGTTGACTACTTAAATACAAACCTTCTTCAAGAAGGAGACGTAAAAGAAGAAGAATTACGTCGCCTTGCTCCTGAGGAAATGAGCGAACCGATTATCGCGAAATTAATAGAGCGTTACAATGACAAAGAAAAGCTTATGCCAGAAGAGCAAATGCGTGAGTTTGAGAAGGTTGTTGTATTCCGCGTTGTAGATACAAAATGGACAGAGCATATTGATGCGATGGATCATCTTCGTGAAGGTATTCATTTACGTGCTTACGGTCAAATTGATCCACTTCGTGAGTACCAAATGGAAGGATTTGCAATGTTCGAGTCAATGGTTGCTTCTATTGAAGAGGAAATTTCTCGTTACATTATGAAAGCTGAAATTGAACAAAACTTAGAACGTCAAGAAGTTGTTCAAGGTGAAGCTGTTCATCCATCTAGCGATGGCGAAGAAGCGAAGAAAAAGCCAGTTGTAAAAGGTGACCAAGTGGGCCGCAACGATTTATGTAAATGTGGTAGCGGTAAAAAATATAAAAACTGCTGTGGTATTGTTCAGTAA	MIGILKKVFDVNQRQIKRMQKTVEQIDALESSIKPLTDEQLKGKTLEFKERLTKGETVDDLLPEAFAVVREAATRVLGMRPYGVQLMGGIALHEGNISEMKTGEGKTLTSTLPVYLNALTGKGVHVVTVNEYLAQRDANEMGQLHEFLGLTVGINLNSMSREEKQEAYAADITYSTNNELGFDYLRDNMVLYKEQCVQRPLHFAIIDEVDSILVDEARTPLIISGQAQKSTELYMFANAFVRTLENEKEYSFDVKTKNVMLTEDGITKAEKAFHIENLFDLKHVALLHHINQGLRAHVVMHRDTDYVVQEGEIVIVDQFTGRLMKGRRYSEGLHQAIEAKEGVEIQNESMTLATITFQNYFRMYEKLSGMTGTAKTEEEEFRNIYNMNVIVIPTNKPIIRDDRADLIFKSMEGKFNAVVEDIVNRHKQGQPVLVGTVAIETSELISKMLTRKGVRHNILNAKNHAREADIIAEAGMKGAVTIATNMAGRGTDIKLGDDVKIFGLAVIGTERHESRRIDNQLRGRAGRQGDPGVTQFYLSMEDELMRRFGSDNMKAMMDRLGMDDSQPIESKMVSRAVESAQKRVEGNNYDARKQLLQYDDVLRQQREVIYKQRQEVMESENLRGIIEGMMKSTVERAVALHTQEEIEEDWNIKGLVDYLNTNLLQEGDVKEEELRRLAPEEMSEPIIAKLIERYNDKEKLMPEEQMREFEKVVVFRVVDTKWTEHIDAMDHLREGIHLRAYGQIDPLREYQMEGFAMFESMVASIEEEISRYIMKAEIEQNLERQEVVQGEAVHPSSDGEEAKKKPVVKGDQVGRNDLCKCGSGKKYKNCCGIVQ	PGPT0025735_4921	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
AK009_05031	981	prfB		Peptide chain release factor 2	ATGATGAGCGCAGGATTTTGGGATGACCAACAAGGTGCGCAAGCTGTAATTAATGAAGCGAATGCGTTAAAAGATATGGTTGGAAGTTTCCGTCAATTAGATGAAACGTTCGAAAATTTAGAAGTAACGCATGAGCTTTTAAAAGAAGAATACGATGAAGATTTACATGAGGAATTAGAGTCAGAAGTAAAAGGCTTAATTCAAGAAATGAATGAGTATGAGCTTCAGTTACTATTAAGTGATCCTTATGATAAAAATAATGCAATTTTAGAATTACATCCAGGTGCAGGTGGAACTGAGTCACAAGACTGGGGTTCTATGTTATTACGTATGTATACACGTTGGGCTGAAAAACGTGGATTTAAAGTAGAAACGGTTGACTATTTACCGGGTGATGAAGCTGGTATTAAGAGTGTAACTTTATTAATTAAAGGTCATAACGCTTACGGTTACTTAAAAGCAGAGAAAGGTGTACATCGTCTTGTACGTATTTCACCATTTGATTCTTCAGGTCGTCGTCATACATCGTTCGTATCTTGTGAAGTTGTACCAGAGTTCAATGATGAAGTTGAAATCGAAGTACGTACAGAAGATTTAAAAATTGATACGTACCGCGCAAGTGGAGCGGGTGGGCAGCACGTTAATACGACAGATTCAGCAGTTCGTATTACACATACACCGACAAATACAGTTGTAACGTGTCAGTCGGAACGTTCTCAAATTAAAAACCGTGAGCATGCGATGAAGATGTTAAAAGCGAAATTATATCAAAAGAAACTAGAAGAACAACAGGCACAATTAGATGAAATCCGCGGGGAACAAAAAGAAATCGGATGGGGTAGCCAAATCCGTTCTTACGTATTCCACCCGTATTCTCTTGTAAAAGACCACCGTACAAATACGGAGGTTGGTAACGTACAAGCAGTTATGGATGGAGAGATTGATCCATTTATTGATGCTTACTTACGTTCTCGCATCTAA	MMSAGFWDDQQGAQAVINEANALKDMVGSFRQLDETFENLEVTHELLKEEYDEDLHEELESEVKGLIQEMNEYELQLLLSDPYDKNNAILELHPGAGGTESQDWGSMLLRMYTRWAEKRGFKVETVDYLPGDEAGIKSVTLLIKGHNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSCEVVPEFNDEVEIEVRTEDLKIDTYRASGAGGQHVNTTDSAVRITHTPTNTVVTCQSERSQIKNREHAMKMLKAKLYQKKLEEQQAQLDEIRGEQKEIGWGSQIRSYVFHPYSLVKDHRTNTEVGNVQAVMDGEIDPFIDAYLRSRI				NA	NA	NA	NA	NA
AK009_05032	324	cccA_2		Cytochrome c-551	GTGAAAAAGAAATTGTTGGCTATTGCGCTAGGGACATCGGTTGTTTTTGCTTTAGGAGCATGCGGAAATAAAGAAGAGAGTAAGTCTTCGAAACAGTCTGCAAGCACAGACAGCGCAGAACAAATTTTCCAAAGAAGTTGTGCTGGATGTCACGCGACAGATTTATCAGGGGCAACTGGACCTGATTTAAGAAAAGTAGGCGGTAAGTACGACGCTGCAGATATCGAAGAGATTATTAAAAAAGGCCGCGGTTCAATGTCACCAGGACTTATTCAAGGTGAAGATGCGAAAAAAGTATCTGAATGGTTAGCTGAACATAAATAA	MKKKLLAIALGTSVVFALGACGNKEESKSSKQSASTDSAEQIFQRSCAGCHATDLSGATGPDLRKVGGKYDAADIEEIIKKGRGSMSPGLIQGEDAKKVSEWLAEHK				NA	NA	NA	NA	NA
AK009_05033	645	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGAAAGCCATTGCTGGTCTTACAGTTAACATTAAACAAGGTGAGTTCGTATACGTAGTTGGACCGAGTGGAGCCGGAAAATCTACATTTATTAAAATGATGTATCGTGAAGAGAAGCCATCTACAGGATCAATTAATGTAAATGGACTTGTTATTGAAACATTGGCAGAAAGAGATGTTCCATATTTTCGTCGTCAATTAGGCGTAATTTTCCAAGATTTTAAATTACTACCTAAATTAACGGTATATGAGAATGTTTCGTTTGCTTTAGAAGTAATTGAAGAAGAACCAGATGCAATTCGTGAGCGTGTAACAGAGGTTTTAGGTCTTGTAGGTCTTGAAGATCGTGCAGATGCAATTCCAAGTGAACTTTCAGGTGGAGAGCAACAACGTGTTGCGATTGCAAGAGCGATTGTAAATCGACCAAAGGTTGTAATTGCCGATGAGCCAACAGGTAACTTAGATATTGAAACAGCTCTTGATATTATGAAGATTTTTACTCGCATTAATGAGCGTGGTACAACAATTGTTATGGCGACGCATAATGCAGATATCGTAAATACAATCCGTCATCGTGTAATCGCGATTGAAGGCGGAAAAATTGTTCGAGACGAGATTGAGGGAGGATACGGATATGAAGGCTAA	MKAIAGLTVNIKQGEFVYVVGPSGAGKSTFIKMMYREEKPSTGSINVNGLVIETLAERDVPYFRRQLGVIFQDFKLLPKLTVYENVSFALEVIEEEPDAIRERVTEVLGLVGLEDRADAIPSELSGGEQQRVAIARAIVNRPKVVIADEPTGNLDIETALDIMKIFTRINERGTTIVMATHNADIVNTIRHRVIAIEGGKIVRDEIEGGYGYEG	PGPT0013345_11521	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_05034	894	ftsX_1	COG2177	Cell division protein FtsX	ATGAAGGCTAAGACCCTTAGTCGACATTTGCGAGAAGGTGTAAAGAATCTATCACGTAACGGATGGATGACATTTGCTTCTGTTAGTGCAGTAACAGTTACATTATTACTTGTAGGTGTCTTTTTAACAGCGATTATGAATATGAACCATTTTGCGACGAAAGTAGAGCAAGATGTAGAGATTCGTGTACACATTGATCCAGCTGCGAAAGAAGCTGATCAAAAGAAATTAGAAGAAGATATGAGTAAGATTGCAAAAGTAGATTCTATTAAATATTCTTCTAAAGAAGAAGAGTTAAAACGTTTAATTAAAAGCTTAGGTGATAGCGGAAAAACGTTTGAGTTATTTGAACAAGATAACCCACTTAAAAACGTATTCGTTGTAAAAGCAAAAGAACCAACAGATACAGCGACAATCGCGAAGAAGGTTGAAAAAATGCAGTTTGTCAGTAATGTTCAGTACGGAAAAGGGCAAGTTGAACGATTATTTGATACTGTAAAAACTGGTCGTAACATTGGGATTGCGTTAATTGCTGGTCTTTTATTCACAGCAATGTTCTTAATCTCTAACACAATTAAAATTACAATTTATGCTCGTAGTACAGAAATTGAAATTATGAAACTTGTTGGTGCAACAAACTGGTTCATTCGTTGGCCATTCTTGCTAGAGGGGTTATTCTTAGGAGTATTAGGATCAATTATTCCAATTGGCCTAATTCTAGTTACGTATAATTCGTTGCAAGGTGTGTTTAACGAAAAACTTGGCGGAACAATTTTCGAGCTTCTACCATACAGTCCTTTCGTATTCCAATTAGCTGGTTTACTAGTGTTAATCGGTGCGTTAATCGGTATGTGGGGAAGTGTAATGTCAATTCGTCGTTTCTTAAAAGTATAA	MKAKTLSRHLREGVKNLSRNGWMTFASVSAVTVTLLLVGVFLTAIMNMNHFATKVEQDVEIRVHIDPAAKEADQKKLEEDMSKIAKVDSIKYSSKEEELKRLIKSLGDSGKTFELFEQDNPLKNVFVVKAKEPTDTATIAKKVEKMQFVSNVQYGKGQVERLFDTVKTGRNIGIALIAGLLFTAMFLISNTIKITIYARSTEIEIMKLVGATNWFIRWPFLLEGLFLGVLGSIIPIGLILVTYNSLQGVFNEKLGGTIFELLPYSPFVFQLAGLLVLIGALIGMWGSVMSIRRFLKV				NA	NA	NA	NA	NA
AK009_05035	1485	ctpB	COG0793	Carboxy-terminal processing protease CtpB	ATGCCTTTTGCTACACCACCTGTGTGTTTTGGAAAGGGGAATTCCGCATTGAAACGTAGAGTTGCAATTATTGGAATGGTTGTTGCATTTTTAATTGGTGCTGGCGGAATGTTTGCAGGCATGTCTGTATTTGGGGTTAACCCAGCAGAAGTAACGCAAACAATTTCGAGTGGGAATGCTAGCACTGCGCAAGGGAATTTGGCAAAAATTAATGAGGCGTATGCACTAATTGATTCACGTTATGTGGAAGACGTGAAAGATGAAAAGTTAGTTGAAGGTGCAATACAAGGCATGTTGTCTACGCTGAAGGACCCTTATTCCACGTATATGGATAAAGAAACAGCCAAACAGTTTAGTGAATCGCTTGATCCTGAATTAGAGGGGATTGGGGCTGAGGTGAACAAAACGGACGATAAGCTTATTATCGTATCACCAATTAAAGGTTCACCAGCAGAAAAGATAGGAATTAAACCGAATGACCAAATTTTATCTGTAGATGGAAACAGTGTGAAAGACTTATCACGTGAAGAAGCAGTATTAAAGATCCGTGGTAAAAAAGGAACGACTGTCGCAATTGAAATTAAACGTGCGGGAGTAACTGATCCGATTGTATTTAAAATTAAGCGTGAAAAAATTCCGATCTTTACAGTGTTTAGTTCTGTGAAGCAAGAGAGCGGAAGAGATATCGGTTATATGCAAATCACTTCTTTTGCTGAAAATACAGCGAAGGAATTTAAGGATCAGTTAAAAGAGTTAGAGAAGAAAAATATAAAAGGCTTAGTTATTGACGTGCGTGGTAATCCTGGTGGCTATTTAAATAGTGTAGAAGATATACTGGGAGAAATTATGACGAATAAAAAGCCGATGCTACAAGTAGAGCAGCGAAATGGTGAGAAGAAGAAATTCTCTACGGAACTGAAAGAGAGAAAACCATATCCAATTTCAGTATTAATTGATAATGGAAGTGCTTCTGCTTCAGAGATTTTAGCTGGTGCACTGAAAGAAGGAGAAGGATACGATTTAATTGGTGAAAAGACATTTGGTAAAGGTACTGTCCAGCAAGCTGTTCCATTTAAAGACGGCAGCAACATTAAATTAACGATGTTTAAATGGTTAACACCGGATGGGAACTGGATTCATAAAAAAGGAATCGCGCCAACAGTAGAAGTGAAGCAACCAAATTATTATCATGCGACACCAATTCAAATTGAAAAAACACTTTCATACAATTCAAATGATGTACAAGTAAAACATGCTCAAGAAATGCTTAAGAGCTTAGGATATGTACCAGGTCGTGAAGATGGATACTTTAGTAAAGAGACAGAATCAGCGCTGAAAGCATTCCAAAATGCGAATGAAATGGAAGCGACAGGACAGCTTGATAAAAAGACAGCTGAAGCGATTCAAACTAAAATTATTGAAAAAATCCGTTCTGGAGAAAATGATCTACAATTACAGTCAGCATTAAAATTAATGGCAAAATAA	MPFATPPVCFGKGNSALKRRVAIIGMVVAFLIGAGGMFAGMSVFGVNPAEVTQTISSGNASTAQGNLAKINEAYALIDSRYVEDVKDEKLVEGAIQGMLSTLKDPYSTYMDKETAKQFSESLDPELEGIGAEVNKTDDKLIIVSPIKGSPAEKIGIKPNDQILSVDGNSVKDLSREEAVLKIRGKKGTTVAIEIKRAGVTDPIVFKIKREKIPIFTVFSSVKQESGRDIGYMQITSFAENTAKEFKDQLKELEKKNIKGLVIDVRGNPGGYLNSVEDILGEIMTNKKPMLQVEQRNGEKKKFSTELKERKPYPISVLIDNGSASASEILAGALKEGEGYDLIGEKTFGKGTVQQAVPFKDGSNIKLTMFKWLTPDGNWIHKKGIAPTVEVKQPNYYHATPIQIEKTLSYNSNDVQVKHAQEMLKSLGYVPGREDGYFSKETESALKAFQNANEMEATGQLDKKTAEAIQTKIIEKIRSGENDLQLQSALKLMAK	PGPT0015095_3230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
AK009_05036	1203	minJ	COG0265	Cell division topological determinant MinJ	ATGGTGGTGAATGAGTTCGTGGAGTCGTGGATTTTTGAAATAATGCGGGCAGTTGGACGTTTTTTCTTACACCCTGCTGTCTATATATTTGTAATAAGTAGTATCTTCGTTGGATACTTACGTATGTTAAGAGAACGAAAAGATTTTTCTTTTAAAGTTTATGATATTTGGTTTGAACTGCGAACCTCTCTATTTGCAGGGATTGGATACGGATTAGTAGTATCTATTATTACGATTGGGCTTGGACTTGTTGTTTCTAAAGCAAGCTTATGGGCCATTTTAATTTGGACATTACTATTTGGATTAACGGCTATGTATCGATATTTATCGGCGGCTTATACATTTAGCGTTGCGATTGTATGTGTTCTATTATCTTCTAAGCTACCAGTTTCCTTCTTACAGCTTCGAGAAGGTGAAGAGAATACCATTGTATCCCTTGCTATTTTGCTAGGCGTTATGCTTATTGTAGAAGGCTTATTGATTTCTAAAAACGCAGTAGGATATTCTACACCGAAGATTAGGAAGGGGAAGCGTGGATTAAAGATTGGTTTACACGAATCAAAGCGTTTATGGATCGTTCCTATTTTTATTCTTGTACCGGGTGATGCGGTAACGCAGTTTATTTCATGGTGGCCTGTCGTTTCAATAGGTTCAAATACATATTCTCTATTTCTCGTTCCATTTTTAATTGGATTTATGAGAAAGATTAAAAGTTATGAGCCGACGGAAGCTTTATTATTTACAGGAAGACGTGTTTATGGGTTAGCAGGACTTGTGCTCGTTTTAGGAATCGCAAGTTACTGGTGGCATGTACTTGCAATTATCGCGATGGGAGTCGCAATGCTTGGGCGTTTCACAATTTCGATGCAAGAGAAAATTACTGATGAAACAAGACCAGCGTATTTTGCTGCACGCAATGATGGGCTCGTTGTACTAGATACAATCCCAAATACAATTGGAGCAGAGCTAAAATTACTACCTGGAGAAATTATTACGAAAGTAAATGGAGTCATTCCAAAAAGCGCCGAGGAATTTTATGATGCGCTTCAAACGAAGACGACAGGAGCATTTTGTAAATTAGAAGTATTAGATACAAATGGTGAGCTTCGTCTTGCACAAACTGCATTATATGCTGGTGGACATCACGAATTAGGTATTGTATTCGTTGAGCAGGAGCATGAGTGGGATTCGGAAGCGATGTAA	MVVNEFVESWIFEIMRAVGRFFLHPAVYIFVISSIFVGYLRMLRERKDFSFKVYDIWFELRTSLFAGIGYGLVVSIITIGLGLVVSKASLWAILIWTLLFGLTAMYRYLSAAYTFSVAIVCVLLSSKLPVSFLQLREGEENTIVSLAILLGVMLIVEGLLISKNAVGYSTPKIRKGKRGLKIGLHESKRLWIVPIFILVPGDAVTQFISWWPVVSIGSNTYSLFLVPFLIGFMRKIKSYEPTEALLFTGRRVYGLAGLVLVLGIASYWWHVLAIIAMGVAMLGRFTISMQEKITDETRPAYFAARNDGLVVLDTIPNTIGAELKLLPGEIITKVNGVIPKSAEEFYDALQTKTTGAFCKLEVLDTNGELRLAQTALYAGGHHELGIVFVEQEHEWDSEAM	PGPT0016196_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016196-swrB|ylxL-NA	NA	NA
AK009_05037	1716		COG1132	Putative multidrug export ATP-binding/permease protein	ATGCTGCGTAAATTTTTTTCTTACTATAAACCGTATAAAGGTTTATTTATACTCGACTTTTCTTGTGCGGTTGTCGCAGGATTACTAGAACTTGGCTTCCCGCTTATCGTAAATCAATTTATTGATAAGTTATTGCCAGGACAAAACTGGACGCTTATTTTATGGGCTTGTTTCGGTTTACTTGCAGTGTATATATTAAATGCAGGCTTACAATATGTTGTTACATATTGGGGACATATGCTTGGTGTTAACATTGAAACGGATATGAGGCAGAAATTATTTGATCATATTCAAAAGCTATCATTTAGATTTTTTGACAATAATAAAACAGGTCATTTAATTTCACGTCTTACAAACGACTTAATGGAAATTGGGGAAATTGCTCACCATGGACCAGAAGATTTATTTATCGCTATTATGACTTTAGTTGGGGCATTTTCATTTATGATGATGATCAACTGGAAGTTAGCGCTATTAACGTTCTTCGTCATTCCATTCTTATTATGGTTAGCACTTTACTTCAACAAAAAAATGACAGGTACATTTAGACGTTTATTCTCAGACGTTGCTGATTTCAATGCATGTATTGAGAATAATGTTGGTGGTATTCGCGTAGTACAAGCATTCGGAAATGAAAAGTTTGAGAAAGAGCAATTTGCTGTTAACAACGCTCGTTTCCGCACAACGAAATTAATGGCGTATAAAATTATGGCATTAAATTCATCGATTAGTTATATGCTCATGCGTCTCGTAACACTCTTCGTCTTAATATGCGGTACATGGTTTGTTCTGCAAGGTGAATTAACGTACGGTGGATTTATTGGATTCGTTCTATTAACGAATATTTTCTTCCGCCCCATTGAAAAAATTAATGCGGTAATCGAAAGCTATCCGAAAGGGATCGCTGGTTTTAAGAGATATGTAGAGCTTCTTGAAACAGAGCCAGATATTGTAGACTCTAAAGGTGCGATGGAAGTTAAACATGTACATGGTGATATTCAATATAACAACATTACGTTCGGATATGAAAATAAAGAACCGATTTTAAATGACATTAGTTTGAACATACATGCAGGTGAAACGGTTGCGTTCGTTGGACCATCAGGAGCTGGAAAAACAACGTTATGTAGTTTACTCCCACGTTTTTATGAACAATCGTCTGGTTCAATCCAAATTGATGGTATTGATACGAAAGATATGACATTATCTTCACTTCGTAAACAAATTGGAATTGTGCAGCAAGATGTGTTCTTATTCTCAGGAACGATTCGTGAAAATATTGCTTACGGAAATTTAAAGGCGTCAGAAGCTGAAATTTGGCAGGCGGTAAAACGTGCGCAGTTAGAAGACTTAATTTACTCACAACCAGACGGTTTAGATACCGTTATCGGTGAGCGTGGTGTGAAACTTTCTGGTGGACAGAAACAGCGTCTAGCGATTGCTCGTATGTTCTTGAAAAACCCACCAATTTTAATATTAGATGAAGCGACTTCTGCATTAGATACAGAGACGGAACTAGCGATTCAAAAATCGCTTGCAGAACTATCTGTCGGCCGTACAACATTAGTTATCGCTCACAGGCTTGCAACGATTAAAAATGCAGATCGTATCGTCGTTGTAAATAAAGATGGTATTGCAGAACAAGGTTCGCATGAGGAACTAATTGAGCAAGGCGGAGGATACAGCCGATTATACGAAGCTCAGTTCAGTTCATAA	MLRKFFSYYKPYKGLFILDFSCAVVAGLLELGFPLIVNQFIDKLLPGQNWTLILWACFGLLAVYILNAGLQYVVTYWGHMLGVNIETDMRQKLFDHIQKLSFRFFDNNKTGHLISRLTNDLMEIGEIAHHGPEDLFIAIMTLVGAFSFMMMINWKLALLTFFVIPFLLWLALYFNKKMTGTFRRLFSDVADFNACIENNVGGIRVVQAFGNEKFEKEQFAVNNARFRTTKLMAYKIMALNSSISYMLMRLVTLFVLICGTWFVLQGELTYGGFIGFVLLTNIFFRPIEKINAVIESYPKGIAGFKRYVELLETEPDIVDSKGAMEVKHVHGDIQYNNITFGYENKEPILNDISLNIHAGETVAFVGPSGAGKTTLCSLLPRFYEQSSGSIQIDGIDTKDMTLSSLRKQIGIVQQDVFLFSGTIRENIAYGNLKASEAEIWQAVKRAQLEDLIYSQPDGLDTVIGERGVKLSGGQKQRLAIARMFLKNPPILILDEATSALDTETELAIQKSLAELSVGRTTLVIAHRLATIKNADRIVVVNKDGIAEQGSHEELIEQGGGYSRLYEAQFSS				NA	NA	NA	NA	NA
AK009_05038	312			hypothetical protein	ATGATTGTAACAACAACGTCTACAATTCAAGGAAAAGAAATTATTGAGTACATCGATATCGTCAATGGAGAAGCGATTATGGGCGCGAATATCGTTCGTGACCTTTTCGCTTCTGTTCGTGACGTTGTCGGCGGCCGCGCGGGTGCTTATGAAAGTAAATTAAAAGAAGCGCGCGACATCGCAATGGAAGAAATGAAAACTTTCGCAAGACAAAAAAATGCGAATGCAATTGTTGGTATCGACGTGGATTACGAAGTAGTTCGCGAAGGGATGTTAATGGTTGCGGTGAGCGGGACTGCTGTCCGTATATAA	MIVTTTSTIQGKEIIEYIDIVNGEAIMGANIVRDLFASVRDVVGGRAGAYESKLKEARDIAMEEMKTFARQKNANAIVGIDVDYEVVREGMLMVAVSGTAVRI				NA	NA	NA	NA	NA
AK009_05039	360			hypothetical protein	TTGACAAACTATTTAGACTTAGCAACGCAAGAAGAATTAGAAATTATGTTACAAGAATACCCTGGCACAATACTTTTCATTAGCCATGACCGTGCCTTTATTCGCTCTGTTGCAGACCATATTCTACAAGTAGATGAGAGTGAACCAAGAATATTCCATGGTAATTACGAGCAATACACAAAAAGAACAACCGGGGATTCTGTAAACGTTACTGAACAAGAATTATTACGATTACAAACAAAATTAACAGAAATCATCGGCCGAATTTCCATACCAAATCATCACGATGACATCACATCTCTCGAACAAGAATACGAAACATTATTAGTTCAAATCCGAAAATGTAAAGAAGCGCTCTAA	MTNYLDLATQEELEIMLQEYPGTILFISHDRAFIRSVADHILQVDESEPRIFHGNYEQYTKRTTGDSVNVTEQELLRLQTKLTEIIGRISIPNHHDDITSLEQEYETLLVQIRKCKEAL	PGPT0027940_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027940-msrA|vmlR-K18231	NA	NA
AK009_05040	546	ywqN	COG0655	Putative NAD(P)H-dependent FMN-containing oxidoreductase YwqN	ATGTTTGTTATACATGGCAGTTCAAGACAAAACGGAAATACAGAAGCTTTAACACATATGATGATAGAGGGCATTGAAACAGAACAAATTCACTTGCGAGACCATACAGTCCATCCTATTACAGACCAACGTCATGATGCAGAAGGATTCCAACCTGTAAATGATGATTATGAGCAGTTAACGAAACGCATGTTAGAGCACGACACAATTATCTTTGCTACACCGCTATACTGGTACGGAATGAGCGGACATATGAAAAACTTCGTCGATCGTTGGTCACAAAGCTTGCGCGATACATCTCTTCATTTCAAAGAAAAAATGAAAGGCAAAAAAATGTATGTTGTCATCGTTGGCGGAGACAATCCTAAACTGAAAGCATTGCCGCTTATCGCTCAGTTTCAATACATCTTTGATTTTGTTGGTTCATCATTTGAAGGATATATTATTGGGGATGCGAATGGACTAGATGAAATCCAAAACGATGCTGAGGCGCTGGCAAAAGCACAATTGTATAATAATAAATTCAAAAATAGCGAACAGAAATAA	MFVIHGSSRQNGNTEALTHMMIEGIETEQIHLRDHTVHPITDQRHDAEGFQPVNDDYEQLTKRMLEHDTIIFATPLYWYGMSGHMKNFVDRWSQSLRDTSLHFKEKMKGKKMYVVIVGGDNPKLKALPLIAQFQYIFDFVGSSFEGYIIGDANGLDEIQNDAEALAKAQLYNNKFKNSEQK				NA	NA	NA	NA	NA
AK009_05041	369	cueR	COG0789	HTH-type transcriptional regulator CueR	TTGCGAATTGGAGAATTATCAAAAGAAACTGGCGTTAGTGAAAGATCACTAAGACATTACGAAGAAAAGGGACTACTCCCTTCTAAGCGCCTCGCAAATGGCTACCGTGATTTTAATGAAAGTGCCATCGAAAAAGTAGAACTTATTCAAATGTACTTACAAATTGGCTTAAATTTAGAAGAGACGGCAAGGATGCTGCGTTGCCTTGCAATTGAACCGCACCTATACGACAATCCGTGCAGCAGCATTCTTACGCTTTATGAAGATAAGCTCAATGAAGTAACAAAGCAAATCTCATTGCTTTCCAACATCCAAACAAATTTGCAAAAACACGTTTCACTCCTAAAACAAGCAAAAGAAAAGGGATGA	MRIGELSKETGVSERSLRHYEEKGLLPSKRLANGYRDFNESAIEKVELIQMYLQIGLNLEETARMLRCLAIEPHLYDNPCSSILTLYEDKLNEVTKQISLLSNIQTNLQKHVSLLKQAKEKG	PGPT0004215_485	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004215-zntR-K13638	NA	NA
AK009_05043	894	cysL_2	COG0583	HTH-type transcriptional regulator CysL	ATGAACGTAGACATTTTAAAAATATTTGTTACTGTCGTTGAACAGAAACACTTCTCACGTGCAGCAGAATTATTAAACCTTTCACAACCTGGCGTAAGTATGCATATACGCAACTTAGAAAACGAATTTGGCACTACTCTTATTCAGCGCTCCCCAAAGCACGTCCAAGTGACGGAGGCTGGAAACATACTATATATACATGCAAAGCAAATGCTCTCTCTTTACGAAGAAGCCAAACAAGAAATTAACGAATTACATAACGTTGTAACAGGAACTCTTCGCATCGGTGCTAGTTTCACAATTGGCGAATACTTACTTCCAAAAATACTGGCTAACTATGCGAATGAAAATCCACACGTCGAAGTTCATACCTTTATCTCAAATACAGAAGACGTTTTACAAAGCCTTCGCTCTAATCAAATCGATATCGGCTTAGTGGAAGGGCAAGTCGTATTCGCCGACGTTGACGTTGAAACGTTTATGCAAGATGAAATGAAGCTCGTCGTTCCGCCAAATCATCCACTGCTCCGCACAAATGAAATAAATGAAAGTACACTCCAAGATCAAGTATGGGTATTAAGAGAAAGTGGTTCTGGTACACGTGCTTATAGTGACCGCTTTATTCATCAACACCATTTGAAAATGAAACGATTCTTTACATTTAGTAGTATCCAAAGCGTTAAGGAAGCAGTTAGTGCCGGACTTGGCATCGCTATACTTTCTGATTGGACTGTACGAAAAGAGCTATTGGCAAAAGAGCTATTCCACGTCGAAGTTCCAAATGAACAACTCATCCGTCCATTCTCCATCGTGCGCGGCAAATACTTCATCCCGTCTAAAGCCATTCAGGTGTTTTTAAATCATGTAGACTCTTTTGCGAAAAAACAGCATTGA	MNVDILKIFVTVVEQKHFSRAAELLNLSQPGVSMHIRNLENEFGTTLIQRSPKHVQVTEAGNILYIHAKQMLSLYEEAKQEINELHNVVTGTLRIGASFTIGEYLLPKILANYANENPHVEVHTFISNTEDVLQSLRSNQIDIGLVEGQVVFADVDVETFMQDEMKLVVPPNHPLLRTNEINESTLQDQVWVLRESGSGTRAYSDRFIHQHHLKMKRFFTFSSIQSVKEAVSAGLGIAILSDWTVRKELLAKELFHVEVPNEQLIRPFSIVRGKYFIPSKAIQVFLNHVDSFAKKQH				NA	NA	NA	NA	NA
AK009_05044	1023			hypothetical protein	GTGGAACAAACACTTGTTATACAAAAGAAGAAGGGCTTTGGATTTTCGCAAGGAATTGGGATTACATTATTAATCGCAATTGCCGCGAAATATTTAGCAGAGCTTCCATTTTTAAATATTATGGGACAATTAGTAATTGCTATTCTAATTGGGATGGTTTGGCGAGCAGCTATCGGAGTTCCACAAGAAGCGATAGCTGGAACGAATTTCGCGAGTAAGAAGTTACTTCGCTTTGGGATCATCTTACTTGGAATGCGATTAAATCTTGTTGATATTGCGAAGGCAGGGCCGAAAGTATTGGTCATCGCTGCGGTTGTTATTGCATTTACGATTTTCGTTGTATATGGACTAACGAAAGTATTTAAAGTAGAAAAGAAACTCGGAATTTTAACAGCTTGTGGAACAGCAATTTGCGGTGCGGCAGCGGTCGTGGCAATTGCACCGCAAGTGAAAGCAAAAGATGACGAAACAGCAGTTGGAGCAGCGATTATCGCAATTTTAGGTACTATATTTACGCTTATTTATACGTTATTATATCCAGTGCTTGGTTTATCTCCATACGGTTACGGTGTATTCTCAGGTGCGACGCTTCACGAAATCGCTCATGTCATCGCAGCTGCGGCGCCAGGAGGAAGCACGGCTGTAGATATCGCAGTTATCGTGAAGCTAACGCGCGTTGCAATGCTTGTGCCAGTAGCGATTTTAATCGGATTATGGTTTGGTAAGAGTGAAGGTAGCGAGGAAAAAAGATCATGGCGCGAACTTCCAATTCCGTGGTTCATCTTCGGGTTTTTAGCAATGAGTGCAGTGCATTCGCTTGGGATTATTCCAGAAGTTGTTGCGGGATACATTGTTGTCATTGCTTATATGCTAATCGCAATGGCGATGGCGGGGCTTGGTTTAAATGTAGAGTTTAAAACGTTCCGTAAGTTAGGAAGTAAAGCATTCGTGGCGGGGCTGATCGGCTCGGTTTGCCTTTCTATTCTTGGATACGTTCTTGTATATGCGTTAGGATTTATGTAG	MEQTLVIQKKKGFGFSQGIGITLLIAIAAKYLAELPFLNIMGQLVIAILIGMVWRAAIGVPQEAIAGTNFASKKLLRFGIILLGMRLNLVDIAKAGPKVLVIAAVVIAFTIFVVYGLTKVFKVEKKLGILTACGTAICGAAAVVAIAPQVKAKDDETAVGAAIIAILGTIFTLIYTLLYPVLGLSPYGYGVFSGATLHEIAHVIAAAAPGGSTAVDIAVIVKLTRVAMLVPVAILIGLWFGKSEGSEEKRSWRELPIPWFIFGFLAMSAVHSLGIIPEVVAGYIVVIAYMLIAMAMAGLGLNVEFKTFRKLGSKAFVAGLIGSVCLSILGYVLVYALGFM				NA	NA	NA	NA	NA
AK009_05045	198			hypothetical protein	ATGGGTGTGAAAAATATAATAAAAGAATTAAGAAAGCAAAATCATATAACGCAAGTTGAAATGGCAAAGGCGATGCAGGTGACGCGGCAGACGATCGTGGCGATTGAAAATCATCATTACAACCCGAGTCTAGAGCTATCCTTAAAAATCGCCAAATATTTTGGAGTGAAGGTGGAGGAAATCTTTACGCTGGAGTAA	MGVKNIIKELRKQNHITQVEMAKAMQVTRQTIVAIENHHYNPSLELSLKIAKYFGVKVEEIFTLE				NA	NA	NA	NA	NA
AK009_05046	228			hypothetical protein	ATGGAATTACCGGTGTTATGTGTCGCTACAGCTATATTTGCGCTTCTTTGGGGAATGCAAAACTTTTCTCGTAATCCAGTGCCAAGTATTTGTATTATGATTGGTACTGTAGGTTTAACGTATTATTTATTAGTATTAGCCCATTATCATAAAACGGCAACGAGTGTTGTTGTTGGAGCACTTATTTTATTTTGTGGGCGCGCCATACAAAAGGGGTTATTTCCATAA	MELPVLCVATAIFALLWGMQNFSRNPVPSICIMIGTVGLTYYLLVLAHYHKTATSVVVGALILFCGRAIQKGLFP				NA	NA	NA	NA	NA
AK009_05047	756			hypothetical protein	GTGATTTCAATACAAGAATTGACGAGAGAAACAGGGGTTACAGTACGTACATTACGTTATTACGATCAAATAGATTTGTTAAAGCCGAGCGGGAAAACAGAAGGTGGGCATCGTTTATATAGTGAAGTTGACGTAATAAGGCTGCAACAAATTTTATTTTTAAAGGAAATGGGATTTTCATTAAAAGAGGCTGCGAATATGTTAGTAAAAGGTGAGCTTAACTTAAAGGATTCTCTTGAAAAACAACTTCGGTTTGTACAGGAAGAACAAAAGAAATTTAATCGAATGGAGCGTGTTTTACAAGCTGTTGTTTATTCGGTAGATGTGGAGGGAGATCTTGATTGGAAAGTTATGTTTGAACTTATTCAGCTTTCGAAACAGTCTCCTCGTATACGTGAAATATTCCAAAATGAAGTGTTTTCAAAGGAAGAACAAAAGTTGCTTCACAATTTGCCGAATATGAGTGAAGAAGATCCGAATGTTTTAGAATGGGTAGATTTATTAAAGCAATTCCGTACTTTTATGAAGGAAGGTAAAGAAGCTGCTAATGATGAGGTACAAGGGGCAACGAAAAAATTAATGCAGAAGTGTTTAGAAATGGCTAATGGTGACGAAGCATTTTTAGATAAGTTATGGGAAGTTAGAAAATCGAAGGAAGATTCACAGAAAATGAGCATGTATCCAATTGAAGAAGAACTTTTAATATATATGGATGAAGCTTTTCGTATTTATGATGAAAAGGAGAAGGATAAATGA	MISIQELTRETGVTVRTLRYYDQIDLLKPSGKTEGGHRLYSEVDVIRLQQILFLKEMGFSLKEAANMLVKGELNLKDSLEKQLRFVQEEQKKFNRMERVLQAVVYSVDVEGDLDWKVMFELIQLSKQSPRIREIFQNEVFSKEEQKLLHNLPNMSEEDPNVLEWVDLLKQFRTFMKEGKEAANDEVQGATKKLMQKCLEMANGDEAFLDKLWEVRKSKEDSQKMSMYPIEEELLIYMDEAFRIYDEKEKDK				NA	NA	NA	NA	NA
AK009_05048	621			hypothetical protein	ATGAGTATACTCGCAGAATATCGTTGGTATTTTTTAATTGGGGCAGAAATTGTATTTTGGTTATCAGCTATCGGTTTCTTTTTACTCCGTTACGGATTCCGTTTGAAAAAGGCGAGCTTTATTATGGGGATTGTACTCCTCGTAAATGAAGTGTTTATTTTAACATTAGGGGTAGTGGACTATTATCAAACAGGAAAGTTCTCTAATTTTCAAATCATTACTGTAATTATTTTATTGTATGCAGTTTTCTACGGGAAAAAGGATTTGAAGAAGCTGGATATATTTGCGCAAAAGCTAGTTGCGAAATGGCGTAATGAACCAGCGCCAATTATGGAAGAGCACGTAGAATTAACAGGTATGGCCTATGCGAAGCAGGAAATAAAAAATTGGGTATTACATCTTGTTTTATTCGTTGGTGTGCACATATTCTTTTTCTTTGCGTATGGATTTATTTCGTTTGAACAATGGGGTAATTGGTTAGAATCGGGAATCGTTTTAAATAAAGCTGCAAGTCGCGTGAGCCAAGTGTGGGCAATTATATTTTTAGTTGATACAGCGATTTCATTTTCATATGTGATTTTTCCGAAGAAGGAGAAAGGAAAAGAAAAGCTACTTTCATAG	MSILAEYRWYFLIGAEIVFWLSAIGFFLLRYGFRLKKASFIMGIVLLVNEVFILTLGVVDYYQTGKFSNFQIITVIILLYAVFYGKKDLKKLDIFAQKLVAKWRNEPAPIMEEHVELTGMAYAKQEIKNWVLHLVLFVGVHIFFFFAYGFISFEQWGNWLESGIVLNKAASRVSQVWAIIFLVDTAISFSYVIFPKKEKGKEKLLS				NA	NA	NA	NA	NA
AK009_05049	432			hypothetical protein	ATGACAATAGGAAAAAGAATCAGTTTTATATGTCTATTTCTCTTTAGTTTAGTAGCATGTGCACCATCTAACACTACAATTAACAAGAAGAATGATGTCATTGTAAAGGGAACCAGGATTTCCAATCTAGATAAATTCGAGCAGTTCGTTTGGAATGTGGAACAAGGGAAAGTTGATGAAATAAGAATTGTACAGTATACCGATGAAGGTGACCCGGTTTTTCAAACGTTAGAGCATAGTGGGAAAGATATCCTTTATGTGTTAGATAGTAGACAAGACAAATTTGCTGGTGAGGATAAAAGGTTATATAAAGATAGCTGTAAAAGGATTGTTAAAGAGCAGCGTGAATCGCAAACGGCTTATAGGTTAATAGACTGTGTGAATGAAAATGGGCGCAATGGATATGACTTAGTATATGTACCTAAAAAATAG	MTIGKRISFICLFLFSLVACAPSNTTINKKNDVIVKGTRISNLDKFEQFVWNVEQGKVDEIRIVQYTDEGDPVFQTLEHSGKDILYVLDSRQDKFAGEDKRLYKDSCKRIVKEQRESQTAYRLIDCVNENGRNGYDLVYVPKK				NA	NA	NA	NA	NA
AK009_05050	1977	uvrB_1	COG0556	UvrABC system protein B	TTGGAACGTCAATTTGAAATTGTCTCAGCGTATTCCCCGCAAGGTGATCAGCCGGTAGCTATAGAGAAGCTTGTAGAGGGAATTAATAGTGGAAAGAAAAAGCAAGTGTTGCTTGGAGCGACAGGAACGGGTAAGACATTTACGATTTCAAATGTCATTAAAGAAGTGCAAAAGCCAACACTTGTCATGGCTCACAATAAAACATTAGCAGGTCAGTTATATAGTGAGCTAAAAGACTTTTTCCCGAATAATGCAGTTGAATATTTTGTTAGTTATTACGATTATTATCAGCCAGAAGCGTATGTACCACAAACAGATACGTTTATTGAAAAGGACGCGCAGATTAATGATGAAATTGATAAATTGCGTCACTCGGCAACGTCTGCATTATTTGAACGGGACGATGTAATTATCGTTGCGAGTGTATCGTGTATATATGGTTTAGGTTCTCCTGAAGAATACCGCGAGTTAGTTGTGTCACTTCGAGTTGGTATGGAGAAGGGCCGCAATCAATTGCTTCGTGAACTTGTTGATGTACAGTATGGACGTAATGATATTGATTTCAAGCGTGGTACATTCCGTGTGCGCGGAGATGTAGTTGAAATCTTCCCAGCATCACTTGATGAGCATTGTATTCGGATTGAATTTTTCGGCGATGAAATTGATCGTATTCGTGAAGTAAATGCGTTAACAGGTGAAGTATTAGCAGAACGTGATCATGTAGCAATCTTCCCAGCATCTCACTTCGTTACACGTGAAGAGAAAATGAAGGTCGCTATTGAAAATATCGAAAAAGAATTAGAAGAGCGTTTAAAGGAATTAAATGATAACGGTAAGTTGCTAGAAGCACAGCGTATAGAGCAACGTACACGTTATGATTTAGAAATGATGCGCGAGATGGGCTTTTGTTCAGGGATTGAAAACTATTCCCGTCATTTAACACTTCGTCCAGCGGGTGCAACACCGTATACGTTATTGGACTATTTCCCGGAAGATTTCTTAATTGTTATGGATGAGTCGCACGTATCAGTGCCACAAGTAAGAGCGATGTATAACGGGGACCAAGCACGTAAGCAAGTGCTTGTGGATCATGGATTCCGTCTTCCGTCAGCTTTAGATAATAGACCGCTCATGTTTGATGAGTTTGAGGAGAAAACAAATCAAGTTATTTACGTTTCGGCGACGCCAGGACCGTACGAGTTAGAGCAGTCACCAGAAGTAATAGAACAAATTATTCGTCCAACAGGGCTTTTAGATCCACCAATCGATATACGACCTATTGAAGGTCAAATTGACGATCTATTAGGAGAGATTCAAGATCGTATTGCAAAAAATGAACGTGTACTAATTACGACTTTAACGAAGAAAATGTCAGAGGATTTAACGGATTACTTAAAAGATGTAGGAATTAAAGTGAACTATCTTCACTCTGAAATTAAAACGTTAGAACGTATTGAAATTATTCGTGACCTTCGCCTTGGTAAGTTTGATGTACTTGTCGGTATTAACTTATTACGAGAAGGATTAGATATTCCAGAAGTATCACTTGTAGCGATTTTAGATGCAGATAAGGAAGGGTTCTTGCGTTCAGAACGTTCGTTAATTCAAACGATTGGTCGTGCGGCGCGTAATGAAAACGGCCGCGTTATTATGTACGCAGATCGCATAACGAGATCGATGGGAATTGCGATTGAAGAAACGCAGCGTCGTCGTACTATACAAGAAGCTTACAATGAAGAGCATGGTATCACGCCGAAAACGATTCAAAAAGGCGTTCGTGATGTAATCCGTGCAACGACAGCGGCTGAAGAGACAGAAACATACGAAGCAACTCCAGCTAAGAAAATGACGAAAAAAGAGCGCGAAAAGACAATTGCGAAGATGGAAGCAGAGATGAAAGAAGCAGCAAAAGCGTTAGACTTCGAGCGTGCAGCTGAACTAAGAGATTTACTATTAGAATTAAAAGCGGAAGGGTGA	MERQFEIVSAYSPQGDQPVAIEKLVEGINSGKKKQVLLGATGTGKTFTISNVIKEVQKPTLVMAHNKTLAGQLYSELKDFFPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDAQINDEIDKLRHSATSALFERDDVIIVASVSCIYGLGSPEEYRELVVSLRVGMEKGRNQLLRELVDVQYGRNDIDFKRGTFRVRGDVVEIFPASLDEHCIRIEFFGDEIDRIREVNALTGEVLAERDHVAIFPASHFVTREEKMKVAIENIEKELEERLKELNDNGKLLEAQRIEQRTRYDLEMMREMGFCSGIENYSRHLTLRPAGATPYTLLDYFPEDFLIVMDESHVSVPQVRAMYNGDQARKQVLVDHGFRLPSALDNRPLMFDEFEEKTNQVIYVSATPGPYELEQSPEVIEQIIRPTGLLDPPIDIRPIEGQIDDLLGEIQDRIAKNERVLITTLTKKMSEDLTDYLKDVGIKVNYLHSEIKTLERIEIIRDLRLGKFDVLVGINLLREGLDIPEVSLVAILDADKEGFLRSERSLIQTIGRAARNENGRVIMYADRITRSMGIAIEETQRRRTIQEAYNEEHGITPKTIQKGVRDVIRATTAAEETETYEATPAKKMTKKEREKTIAKMEAEMKEAAKALDFERAAELRDLLLELKAEG	PGPT0014920_4673	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
AK009_05051	2877	uvrA_1		UvrABC system protein A	GTGAGTAAGAGCAAGGATTTTATCGTTGTAAAAGGTGCTAGAGCACATAACTTAAAAAATATTGATGTAACCATTCCGAGAAATCAGCTTGTTGTTGTAACGGGATTGTCTGGTTCGGGGAAATCATCATTAGCATTTGATACGATTTATGCAGAAGGGCAGCGCAGATATGTAGAATCGTTATCTGCGTATGCGCGCCAGTTTTTAGGACAAATGGATAAGCCGGATGTAGATACGATTGAAGGATTGTCACCAGCGATTTCAATCGATCAAAAAACGACGAGTCGTAATCCACGTTCAACTGTCGGAACAGTGACGGAGATTTATGATTATTTACGTTTATTATTTGCACGAATTGGTACGCCAATTTGTCCGAATCATGGGATTGAAATTACATCACAAACAGTCGAGCAGATGGTAGACCGTGTTCTTGAATATCCTGAGCGTACGAAATTACAAGTGTTAGCGCCTATCGTGTCTGGGCGTAAAGGAGCGCATGTGAAAGTACTTGAAGATATTAAGAAGCAAGGGTATGTTCGTGTACGTGTTGATGGTGAAATGCTTGATGTGTCTGAAGAGATTACGTTAGATAAAAATAAGAAGCATTCCATTGAAGTTGTAATTGACCGTATTGTTGTAAAAGAAGGAATCGCAAGCCGTCTTGCTGATTCACTTGAAAGTGCATTAAAGCTTGGCGGAGGCCGAGTGTTAATCGATGTAATGGGAGAAGAGGAACTTCTATTTAGTGAACATCATGCTTGTCCGCATTGTGGTTTTTCAATCGGAGAATTAGAGCCGCGTATGTTCTCATTCAACAGTCCGTTCGGAGCATGTCCTTCTTGTGATGGACTTGGTTCAAAGCTAGAGGTAGATTTAGAACTTGTTATTCCGAACTGGGATTTATCATTAAATGAACATGCGATTGCTCCATGGGAACCGACAAGCTCACAATATTACCCACAGCTTTTACAATCTGTATGTAATCATTACGGCGTTGATATGGATGTGCCTGTGAAAGATATACCGAAAGATTTATTTGATAAAGTGTTGTACGGAAGCGGTGAAGAGAAAGTTTATTTCCGCTATGTAAATGAATTTGGTCAAGTAAAGGAAAATGAGATTTTATTTGAAGGTGTTATTCCAAATATCGAACGTCGTTATCGTGAAACGAGTTCTGATTATGTCCGTGAGCAAATGGAAAAGTATATGGCAGAGCAAGCTTGTCCGAAGTGTAAAGGTGGACGCTTAAAGCCTGAGAGTTTAGCTGTTTTCGTTGGTGATAAAACGATTGCTGATGTAACGAAGTATTCTGTTCAAGAAGTACAGGAATTCTTCTCGAATGTGGAGCTAACGGAGAAACAACAAAAAATTGCTCATTTAATTTTAAGAGAAATCCAAGAGCGCGTTGGGTTCTTAGTGAACGTCGGTTTAGATTATTTAACGTTAAGTCGTGCCGCAGGAACTTTATCAGGTGGTGAGGCGCAGCGTATTCGTTTAGCGACGCAAATTGGTTCTCGTCTTACTGGCGTACTTTACATTCTTGATGAGCCTTCTATCGGTTTACATCAGCGCGATAACGATCGTCTTATTCGTACATTGCAAGAAATGCGCGATTTAGGTAATACATTAATCGTTGTTGAGCATGATGAAGATACAATGATGGCTGCTGATTATTTACTTGATATCGGACCGGGTGCAGGTATTCACGGTGGGCAAGTTGTATCGGCAGGGACACCAGCTGAAGTGATGCAAGATGATAATTCGTTAACAGGAAAATATTTAAGCGGTAAAGAGTTTATTCCAGTTCCACTTGAAAGACGTAAAGGTGACGGACGTAAAGTGGAGATTGTCGGCGCAAAAGAGAATAACTTAAAGAACGCGAAGATGTCATTCCCACTCGGTACGTTTGTAGCGGTAACAGGTGTATCTGGATCAGGTAAAAGTACGATGATTAATGAAGTACTATATAAATCGTTAGCGCAAAAGTTATATAAAGCGAAAGCGAAGCCAGGTACTCATAAAGAGATTAAAGGTCTTGAACATTTAGATAAAGTAATTGATATTGATCAATCGCCAATTGGTCGTACACCACGTTCTAATCCAGCGACGTACACAGGTGTATTCGATGATATTCGTGATGTGTTTGCACAAACGAACGAAGCTAAAGTGCGCGGATATCAAAAAGGACGTTTCAGCTTTAACGTAAAAGGTGGCCGTTGTGAAGCGTGCCGTGGAGATGGAATTATTAAAATCGAAATGCATTTCTTACCAGATGTGTATGTTCCGTGTGAAGTTTGTCACGGTAAACGATATAATCGTGAAACGTTAGAAGTGAAATATAAAGATAAGAATATTTCTGAAGTGTTAGGGATGACAATTGAAGATGGAGTAGAATTCTTCGCCAATATTCCTAAAATTAAGCGTAAACTTCAAACGCTTGTAGATGTTGGGCTTGGTTATATGAAATTAGGTCAACCAGCAACAACATTATCTGGTGGGGAAGCACAGCGTGTGAAATTAGCTTCTGAATTACACCGCCGTTCTACAGGTCGTACGTTATATATTTTAGATGAGCCAACGACTGGTTTACATGCGCATGATATTGCACGTCTTCTAGAAGTGCTGCAACGTCTTGTTGAGAGTGGTGAGACGGTACTTGTAATTGAACATAATTTAGATGTGATTAAAACAGCTGATTATATTGTTGACCTTGGACCAGAAGGCGGGGACAAAGGTGGACAAATCGTCGCTTCGGGAACGCCAGAGCAAGTAGTAAAAGAAGAGCGCTCGTATACTGGTAAGTATTTAAAAGAGATTTTAAATCGTGATAAAGCAAGAATGAAAGAGAAAATAAAAGAAGTAGAGTTATCGCAATAA	MSKSKDFIVVKGARAHNLKNIDVTIPRNQLVVVTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMDKPDVDTIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGTPICPNHGIEITSQTVEQMVDRVLEYPERTKLQVLAPIVSGRKGAHVKVLEDIKKQGYVRVRVDGEMLDVSEEITLDKNKKHSIEVVIDRIVVKEGIASRLADSLESALKLGGGRVLIDVMGEEELLFSEHHACPHCGFSIGELEPRMFSFNSPFGACPSCDGLGSKLEVDLELVIPNWDLSLNEHAIAPWEPTSSQYYPQLLQSVCNHYGVDMDVPVKDIPKDLFDKVLYGSGEEKVYFRYVNEFGQVKENEILFEGVIPNIERRYRETSSDYVREQMEKYMAEQACPKCKGGRLKPESLAVFVGDKTIADVTKYSVQEVQEFFSNVELTEKQQKIAHLILREIQERVGFLVNVGLDYLTLSRAAGTLSGGEAQRIRLATQIGSRLTGVLYILDEPSIGLHQRDNDRLIRTLQEMRDLGNTLIVVEHDEDTMMAADYLLDIGPGAGIHGGQVVSAGTPAEVMQDDNSLTGKYLSGKEFIPVPLERRKGDGRKVEIVGAKENNLKNAKMSFPLGTFVAVTGVSGSGKSTMINEVLYKSLAQKLYKAKAKPGTHKEIKGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFAQTNEAKVRGYQKGRFSFNVKGGRCEACRGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLEVKYKDKNISEVLGMTIEDGVEFFANIPKIKRKLQTLVDVGLGYMKLGQPATTLSGGEAQRVKLASELHRRSTGRTLYILDEPTTGLHAHDIARLLEVLQRLVESGETVLVIEHNLDVIKTADYIVDLGPEGGDKGGQIVASGTPEQVVKEERSYTGKYLKEILNRDKARMKEKIKEVELSQ	PGPT0014915_2275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
AK009_05052	453			hypothetical protein	ATGGAGTTTTTAGATGTGTTGCGAAAGAAGAATATGAAGGTAAGAAAGTTCCAAAAGTGGGGTGTATATTTTCGGAAGCGCTGGGAGAATAACTTTGCAAACCATTTAAGTGATGAAGAAAAAGAAGACATTTTTTTTTACGGAGATAAGTATGTATGTGGATATCTTTGGCACATATTTAGTTATGAGAAAAAGAAGTGCTTAGAAGGAATAGAAGCAGAGAGCGCGTTTCATAATGAAGTGAAAAAGGAGTGCTACATTTTCTACCAACACTGTGATGAGGTACTATTAATAAAGGATGCGAGTTTATTACATATGGATGATACATTGTGTGAGACAGATGATGCGTATAAAGGTGATATCTATATTGTAGATAAAGATTTCACTTGGACTTTTGTAAAAACTCATGAACATAGATGGTGTGGTCCCTATTTCACAAAGAAATGTTGGTAG	MEFLDVLRKKNMKVRKFQKWGVYFRKRWENNFANHLSDEEKEDIFFYGDKYVCGYLWHIFSYEKKKCLEGIEAESAFHNEVKKECYIFYQHCDEVLLIKDASLLHMDDTLCETDDAYKGDIYIVDKDFTWTFVKTHEHRWCGPYFTKKCW				NA	NA	NA	NA	NA
AK009_05053	381			hypothetical protein	ATGAGATGGATTGTATCACTTCTTGTAAATAGCGTTGTGTTAATCGCTGTATCGGGACTTTTAAAAGGGATTGCACCAGACGCGTTTTACGTAGCGAATATACAAACTGCAATTATTGCGAGTATTATTTTGGCTGTTTTAAATGTGTTCGTAAAGCCGTTTTTAATTTTAATTACGCTACCAATTACTGTTGTAACTTTCGGCTTCTTCTTAATTGTTATTAATGCGATTACGTTAAAAATAGCAGATTCATTATTAGGAGATGCTTTTAATATATCAGGATTTGGTGTAGCGATTGTTGCGGCAATTTGTATTTCAATTTTTAATATGATTATTGAAAAGGTAATTGTGGAACCTCTATATGAAAAAAAGAGAAAATGA	MRWIVSLLVNSVVLIAVSGLLKGIAPDAFYVANIQTAIIASIILAVLNVFVKPFLILITLPITVVTFGFFLIVINAITLKIADSLLGDAFNISGFGVAIVAAICISIFNMIIEKVIVEPLYEKKRK				NA	NA	NA	NA	NA
AK009_05054	930	hprK	COG1493	HPr kinase/phosphorylase	ATGCCAAAAGTAAGGACAAAAGATTTAATTGAACAATTTCAATTGGAGTTAATAAGTGGTGAGGAAGGAATTCATCGTCCGATTGATACAAGTGATTTATCACGACCTGGAATTGAAATGGCAGGATTCTTTACATATTATCCAGCTGATCGCGTGCAGCTTCTTGGAAAAACGGAGCTTACGTTCTTTGATACGTTAACGACAGAACAAAAACAAGAGAGAATGAAAGCGCTTTGTACCGAGGAGACGCCATGTATTATTATAACTCGTAATCAAGATGTACCAGATGAGTTATTACAAGCATCACGTGAATCAGGCATGCCTTTATTACGTTCTTCTCAAACGACAACGAGATTATCAAGTCGTTTAACCAATTATTTAGAAGGTAAGCTAGCACCAACAACTGCTGTTCATGGTGTATTAGTGGATATTTACGGTGTTGGTGTTTTAATTACAGGTCAAAGTGGTGTTGGTAAAAGTGAGACAGCTCTTGAACTTGTGAAGCGTGGCCATCGCCTTGTTGCGGATGATAGTGTAGAAATTCGCCAAGAAGATGAAGACACATTAGTAGGAAGCTCACCAGATTTAATTGAGCATTTATTAGAAATTCGTGGTCTAGGTATCATTAACGTTATGACGTTATTCGGTGCAGGGGCAGTGCGAAATTATAAGCGTATTACACTTGTTATTAATCTTGAAATTTGGGATCAAAAGAAAAATTATGATCGCTTAGGTCTTGATGAAGAGAAGATGAAAATTATTGATACAGAACTTACGAAGATTACACTTCCAGTTCGTCCTGGTCGAAACTTGGCTGTTATTATTGAAGTAGCAGCGATGAACTTCCGTTTAAAACGTATGGGAGTCAATGCAGCACAGCAGTTCTCAGAACGATTAATGAGTGCGATTGAGTTAGGGAATCAGGAGTAA	MPKVRTKDLIEQFQLELISGEEGIHRPIDTSDLSRPGIEMAGFFTYYPADRVQLLGKTELTFFDTLTTEQKQERMKALCTEETPCIIITRNQDVPDELLQASRESGMPLLRSSQTTTRLSSRLTNYLEGKLAPTTAVHGVLVDIYGVGVLITGQSGVGKSETALELVKRGHRLVADDSVEIRQEDEDTLVGSSPDLIEHLLEIRGLGIINVMTLFGAGAVRNYKRITLVINLEIWDQKKNYDRLGLDEEKMKIIDTELTKITLPVRPGRNLAVIIEVAAMNFRLKRMGVNAAQQFSERLMSAIELGNQE				NA	NA	NA	NA	NA
AK009_05055	813	lgt	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCTGTTAGGTTCTGTACCGCAGCTTGACCGCGTAGCTGTCCAACTTGGGCCGTTTCCTGTTTATTGGTACGGGATTATTATCGGTACAGGTGTGCTATTAGGTCTTTGGCTAGCAACTCGCGAGGGAGAAAGGCTAGGTATTCCAAAAGATACATTTGTTGACCTTGTATTAATTGCAGTACCGATCGCTATTCTATTTGCGAGAATGTATTATGTTATTTTTGAATGGGAATATTACGCGCAAAACCCGAGTCAAATTATTAATATTCGTCAAGGTGGCTTGGCGATTCATGGTGGTTTAATCGGAGCGGTTATTACCGGAATTCTTTTTGCAAAGCGACGCGGGGTTTCATTCTGGAAGTTGGCGGATATTGCTGCGCCAAGTATTTTACTAGGACAAGCAATTGGCCGATGGGGAAACTTTATGAACCAAGAGGCACATGGTGATGAAGTAACGAGACAGTTTTTAGAAGGTCTTCATTTACCAGATTTCATTATTAATCAAATGTATATTGAGGGTGTGTACTATCATCCGACGTTTTTATATGAATCATTATGGAATTTTGTAGGTGTAATTTTACTACTTGCATTAAGAAAAGTGAATTTACGCCGCGGGGAATTATTCTTCACATATTTAATTTGGTATTCAGTAGGACGCTTCTTCGTAGAAGGCTTACGTACAGATAGTTTAATGCTAGGACCACTTCGTATTGCACAAGTAATGTCAATTGGACTTGTTGTTATTTCTATTATTTTCATTATTGTGAGACGAAAAATGGGGCAAGCTGATAAAAGATATTCGGAAAATTAG	MLLGSVPQLDRVAVQLGPFPVYWYGIIIGTGVLLGLWLATREGERLGIPKDTFVDLVLIAVPIAILFARMYYVIFEWEYYAQNPSQIINIRQGGLAIHGGLIGAVITGILFAKRRGVSFWKLADIAAPSILLGQAIGRWGNFMNQEAHGDEVTRQFLEGLHLPDFIINQMYIEGVYYHPTFLYESLWNFVGVILLLALRKVNLRRGELFFTYLIWYSVGRFFVEGLRTDSLMLGPLRIAQVMSIGLVVISIIFIIVRRKMGQADKRYSEN				NA	NA	NA	NA	NA
AK009_05056	651	ppaX_3	COG0546	Pyrophosphatase PpaX	ATGAGAATAAATACAGTGTTATTTGATTTAGATGGAACTTTAATTAATACAAACGAACTTATTATTTCTTCTTTTTTACATACTTTACATACATATTATCCAAATCAATATAAGCGTGAAGATGTGTTGCCATTTATCGGTCCATCTTTGCATGATACTTTCAGCAAGATTGATGAAAGTAAGGTTGAAGAGATGATTACAAGCTATCGCGAATTTAACCATGATCATCATGATGAATTAGTAGAAGAATATGAAACTGTATATGAAACAGTTCGAGAGTTGAAGAAGCAAGGTTATAAAGTTGGTATTGTTACAACGAAAGCGAGACAAACCGTTGAGATGGGATTACAGTTGTCAAAGCTTGATGAATTTTTTGATGTTGTCGTGACAATTGATGATGTAGAGCATGTGAAACCACATCCAGAGCCACTTCAAAAAGCGCTTGAATTATTAGATGCAAAACCAGAAGAGGCATTGATGGTTGGGGATAATCATCATGATATTGTCGGTGGTCAAAATGCGGGGACGAAAACAGCTGCGGTTTCATGGACGTTGAAAGGTAGAGCGTATTTAGAAGCTTACAAGCCGGACTTTATGCTAGATAAAATGAGTGATTTGCTACCGATTTTGTCTAATATGAACCGTTCATAA	MRINTVLFDLDGTLINTNELIISSFLHTLHTYYPNQYKREDVLPFIGPSLHDTFSKIDESKVEEMITSYREFNHDHHDELVEEYETVYETVRELKKQGYKVGIVTTKARQTVEMGLQLSKLDEFFDVVVTIDDVEHVKPHPEPLQKALELLDAKPEEALMVGDNHHDIVGGQNAGTKTAAVSWTLKGRAYLEAYKPDFMLDKMSDLLPILSNMNRS				NA	NA	NA	NA	NA
AK009_05057	513	dapH_3		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	GTGCGACGGACAACGCGCTATCCTGTTTCAGGAGGAAATTCATTATGGAATGTGTATAAAACAGTGTCTTTTTGGAAGGTAATGAAAAACTTTATTATTATCCAAATTGCGCGTTACACGCCATTTTTATCTGTGAAGAATTGGTTGTACCGTACTTTTTTACGGATGAAAGTAGGAAAGAAAACATCATTTGCACTTATGGTAATGCCGGATATTATGTTCCCAGAAAAGATAACTGTGGGAGAGAATTCGATTATTGGTTATAACACAACGCTTTTAGCACATGAATATTTAATTCGTGAATATCGACTTGGGGAAATCATCATTGGAAATGAAGTGATGATTGGAGCGAATGTAACAATATTACCAGGTGTGAAAATTGGAGATGGTGCGACTGTCTCAGCTGGCACACTTGTTCATAGAGATGTACCGAGCGGAGCTTTCGTAGGTGGAAATCCAATGCGTATTATTTATACGAAAGAGCAAATGACCGCAAGAGAAGGTTCATGGTGA	MRRTTRYPVSGGNSLWNVYKTVSFWKVMKNFIIIQIARYTPFLSVKNWLYRTFLRMKVGKKTSFALMVMPDIMFPEKITVGENSIIGYNTTLLAHEYLIREYRLGEIIIGNEVMIGANVTILPGVKIGDGATVSAGTLVHRDVPSGAFVGGNPMRIIYTKEQMTAREGSW				NA	NA	NA	NA	NA
AK009_05058	1512			hypothetical protein	ATGGGGAAAAATCAAAGAATATATAAGGAGAACGGACAAGTTATCTCTTTTAATCAGCTAGCGGACTTCTTTTATAAAAAAGGGATGAGAGCTTACAAAGGGCAAAAATTGCAAGATGCAATTAAATATTTTCGAAGAGCGGCACAAAGTGAGAAGGAGCCGTTTATTTTATGTCAATTAGCATCAGTATTATCTGAGGCTGGTGAATATCAAGAATCGAATCAAATCTTCTTAAAGTTAGTTAGATCTAATCCAGAACTTGAACAGTGCTATTATTTTATTGCAAATAATTATGCATATATGGGGTTATTTCAACAGGCGAAGAAATATGCGGATCGCTATTTAGAATTTGCAAAAGAGAAGGAATTCGTAGAAGATACATTAGAACTTCTTGAGATTATGGAAGAAGAAGCAATGGGTGCGGAAGAGATTGAAGATGAAGATGATTTAATTGTTATGCAGGAAGAAGCGAATCGTTATATTCGTAATGGACAATTGGAAGAAGCAATTGCTACATTAGAAATTGTTACGAAAGATTATCCGGAATTTTGGTCAGGTCATAATAATTTAGCCATTGCACATTTTCAATCTGGCAATGTAGACAAGGCACTGAAGTTAACAGAAATGATTTTAGAGAAAAATCCTGGTAATATACATGCGCTTTGTAATACGCTTATTTTTCTATATTCAATTGGAGAGCATAAACAAGTAGAAGCGTTAGCGGGACAGCTAGTTTCAGTATATCCGATTTCATTTGAACATCGTTTGAAACTGGGAACCACACTTGCAACGATTGGTTATTTCGAGCATGCATATAAATGGTTCAAATTATTAAAGCGTCAAGGATACGAGGGAGACGTTAGTTTTTATTATTGGTTTGCATATTCTGCTTATATGGTGAAAGATCAGCAACTAGCTGAAAAAATGTGGCAACATGTCGTGGAATTGCACCCTGATAAAAAAGGAAAAGAGCCCTGGAATGCGCTGAATTTAGCAGATGAAGGACAAAGTTTGCTATTTGAAGAATTACGAAAATCATTTCAGCAAAGTGCGACGTTAGAAGAACAAATGCTGGCTTTATATTTAATGAATGAATTGTCAACGCCGGAGAAGGTTGGATTCTTCTTTGATATAACGCAAGCGAAGAACGGTGTTCCCATCGTATCACAACTTGCAAATTACTTCTTTTTACTTAATAGTCATAAGAGTATTCCAGCTGATTTACAACAATTTGAGCAGTGCGTACGAATCGCGGATGCATTATACAATTATACGAAAAAAGATGATGAATTAATTGAAGAGTGTTTACACTTTTGGTTTTGTACGTTCATACGTTTATATACATCTGGAGATATATTTACAAATGTGTACGGCTGGTCAGCTGCGATTGAATACATTGTACGCGGCGAACAAGGAAATAAAATGACACAGTCGGAGCTTGGAGATGTATATAATGTATCTGTAGCGACTGTCCGAAAGTATGTGCAAGCTGTTAAGCGTACGCACACATAA	MGKNQRIYKENGQVISFNQLADFFYKKGMRAYKGQKLQDAIKYFRRAAQSEKEPFILCQLASVLSEAGEYQESNQIFLKLVRSNPELEQCYYFIANNYAYMGLFQQAKKYADRYLEFAKEKEFVEDTLELLEIMEEEAMGAEEIEDEDDLIVMQEEANRYIRNGQLEEAIATLEIVTKDYPEFWSGHNNLAIAHFQSGNVDKALKLTEMILEKNPGNIHALCNTLIFLYSIGEHKQVEALAGQLVSVYPISFEHRLKLGTTLATIGYFEHAYKWFKLLKRQGYEGDVSFYYWFAYSAYMVKDQQLAEKMWQHVVELHPDKKGKEPWNALNLADEGQSLLFEELRKSFQQSATLEEQMLALYLMNELSTPEKVGFFFDITQAKNGVPIVSQLANYFFLLNSHKSIPADLQQFEQCVRIADALYNYTKKDDELIEECLHFWFCTFIRLYTSGDIFTNVYGWSAAIEYIVRGEQGNKMTQSELGDVYNVSVATVRKYVQAVKRTHT				NA	NA	NA	NA	NA
AK009_05059	957	trxB_2	COG0492	Thioredoxin reductase	GTGTCAGAAGAAAAAATTTATGATGTCGTTATTATTGGTGCAGGACCAGCTGGTATGACAGCTGCAGTATATACATCTCGTGCAAATTTAAGCACATTAATGCTTGAGCGTGGTATTCCAGGTGGCCAAATGGCAAACACAGAAGATGTAGAAAACTACCCAGGTTATGAGTCTATTTTAGGACCAGACTTATCAAATAAAATGTTTGAGCATGCGAAGAAATTTGGTGCTGAATATGCATACGGTGATGTGAAAGAAGTCATCGATGGTAAAGAATACAAAACAATTATTGCTGGTAAAAAAGAATATAAAGCACGTGCAATTATCGTTGCAAGCGGTGCAGAGTATAAAAAAATTGGTGTACCGGGTGAAACAGAACTTGGCGGCCGTGGTGTATCATATTGTGCAGTATGTGACGGGGCATTCTTTAAAGAAAAAGAACTTATCGTAATTGGCGGCGGAGATTCTGCTGTTGAAGAGGGTGTATTCTTAACGCGCTTTGCATCAAAAGTAACGATTGTTCACCGTCGTGACACGCTTCGTGCACAGAAAATTTTACAAGACCGTGCTTTCCAAAATGAAAAAGTAGATTTCATTTGGAACCATACTATAAAAGAAATCAACGAAGCAAGTGGTAAAGTAGGAAGTGTAACACTTGTTGACGTAAACAGTGGAGAAGAGAAAGAAGTCAAAACTGACGGCGTATTCGTATACATCGGTATGTTACCATTATCAAAACCATTTGTTGAACTAGGTATTACAAATGAAAATGGTTACCTTGAAACGAACGAACGTATGGAAACGAAAATTCCTGGTATTTTTGCAGCTGGTGATGTTCGTGAAAAAATGCTTCGTCAAATTGTAACTGCAACAGGTGACGGTAGTATTGCAGCACAAAGTGCTCAACATTACGTAGAAGAATTATTAGAGGAATTAAAAACTGTATCAGAAAAATAA	MSEEKIYDVVIIGAGPAGMTAAVYTSRANLSTLMLERGIPGGQMANTEDVENYPGYESILGPDLSNKMFEHAKKFGAEYAYGDVKEVIDGKEYKTIIAGKKEYKARAIIVASGAEYKKIGVPGETELGGRGVSYCAVCDGAFFKEKELIVIGGGDSAVEEGVFLTRFASKVTIVHRRDTLRAQKILQDRAFQNEKVDFIWNHTIKEINEASGKVGSVTLVDVNSGEEKEVKTDGVFVYIGMLPLSKPFVELGITNENGYLETNERMETKIPGIFAAGDVREKMLRQIVTATGDGSIAAQSAQHYVEELLEELKTVSEK	PGPT0013060_5659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK009_05060	807			hypothetical protein	ATGGAATGGCGTAATATATATCGTGGATTTTGTATGGGCGTTAGTGATTTAATTCCTGGTGTGAGCGGCGGTACAATCGCTGTTGTGTTAGGGATTTATGAACAATTGCTTGCGGCAATTAGTGGATTCTTTAGTCGTGAATGGAAAAAACATTTAGGATTTTTAATTCCCCTTGCAGCTGGTGTGGCAACAGCATTTTTAACGTTAAGTCACGTTATTAAATATTTACTTGCAAATCATTATGAACCGACTCAATTTTTCTTCCTCGGTTTAATTATTAGTATATTACCGATGTTAATGAGAGAAGCTGATGCAAAGTCATCGTTTAAAGGTAAGCACATTGTTTTATTAATAGTTGCAGCAATTCTTGTTGCGATTACAGCTTTCTTTAAACCAGATAAGGCAGCAGATCCAATTACGACGTTAACAATTTTAAATGCAATTGGTTTATTTTTCGCAGGATGGATGGCTAGTATGGCCATGCTGCTTCCTGGGATTAGTGGATCGTTTATTTTATTAATTATTGGTGTGTATCCAACAGCAATTAACGCTTTAACTACACTTAATTTACCTTTAATCGTGGTTATCGGTGCTGGTGTTATGGTCGGATTTGTTGTAAGTAGTAAAGGCATTAGTTTTTTATTAGATCGTTATAAAAGTATGACATTTGCGGCAATTATTGGACTTGTAATCGGTTCGATTGTAATTGTGTTCCCTGGGATTCCGACTGGCGGATTTTCAATTATAAGTTCGATTATTACCTTTATTTTAGGATTTGCGATTGTTACTTATTTCGGTAAGAAATAA	MEWRNIYRGFCMGVSDLIPGVSGGTIAVVLGIYEQLLAAISGFFSREWKKHLGFLIPLAAGVATAFLTLSHVIKYLLANHYEPTQFFFLGLIISILPMLMREADAKSSFKGKHIVLLIVAAILVAITAFFKPDKAADPITTLTILNAIGLFFAGWMASMAMLLPGISGSFILLIIGVYPTAINALTTLNLPLIVVIGAGVMVGFVVSSKGISFLLDRYKSMTFAAIIGLVIGSIVIVFPGIPTGGFSIISSIITFILGFAIVTYFGKK				NA	NA	NA	NA	NA
AK009_05061	459	mutX_2	COG0494	8-oxo-dGTP diphosphatase	ATGCAAAGAGTGACAAACTGTGTGTTAATTAGAGATAATGAAGTACTCTTACTCCAAAAACCTCGCCGAAATTGGTGGGTTGCACCAGGCGGGAAAATGGAGCGTGGTGAGACTGTAAGAGATTCCGTTGTTCGCGAGTATCGTGAAGAAACAGGTATTTATTTGAAAAACCCAGCGTTAAAGGGGGTCTTCACCTTTGTCATCCAAGAAGGTGATAAAGTTGTTTCTGAATGGATGATGTTCTCCTTTTTAGCGACAGATTTTGCAGGAGAAAACAAACTAGAGAGCGAAGAAGGCATCATTGGTTGGCATACATTTGACAAAATTGATGATTTAGCAATGGCGCCAGGAGATTATCACATTATTGATTACTTAATTAAAGGAAATGGCATAATCTACGGTACATTTGTATATACCCCAGATTTTGAGTTGCTTTCATATCGATTAGATCCGAGTTAA	MQRVTNCVLIRDNEVLLLQKPRRNWWVAPGGKMERGETVRDSVVREYREETGIYLKNPALKGVFTFVIQEGDKVVSEWMMFSFLATDFAGENKLESEEGIIGWHTFDKIDDLAMAPGDYHIIDYLIKGNGIIYGTFVYTPDFELLSYRLDPS				NA	NA	NA	NA	NA
AK009_05062	882	yvcJ	COG1660	Nucleotide-binding protein YvcJ	ATGACAGAGAATAATGATATAAAAATGGTAATTATTACAGGGATGTCTGGAGCTGGAAAAACAGTAGCTTTACAAAGTTTTGAAGATTTAGGATATTTTTGTGTAGATAATTTGCCACCGATGTTATTGCCAAAGTTTATTGAACTTATGGCGGATTCAAAAGGGAAAATGAATAAAGTGGCACTTGGTATTGATTTACGTGGCCGCGAGTTTTTCGAACATTTATGGGGAGCGCTTGATGATTTATCAGAACGTACATGGATTATTCCTCATATTTTATTTTTAGATGCGAAAGATAGTACGCTTGTAACTCGTTATAAAGAAACGAGACGTTCGCATCCACTTGCACCAACTGGTTTGCCGTTAAAGGGAATCGAAGCAGAGCGCGATTTATTAACAGATATGAAGGCACGAGCGAATATTGTGCTTGATACATCGGATTTAAAACCGAAAGAATTACGTGAAAAAATTGTTCACTTGTTCTCAACAGAAACTGAGCAAGCATTTCGTGTAAATGTTATGTCATTTGGATTTAAGTACGGTATTCCAATTGATGCAGATTTAGTATTTGATGTTCGTTTTTTACCAAATCCATATTACATTCCACATATGAAGCCATTAACAGGACTAGATGAAGAAGTTTCTTCGTATGTACTGAAATTTAATGAGACACATAAGTTTTTAGAGAAGTTGACGGATCTGATTACTTTCATGTTGCCTCATTATAAAAGAGAAGGCAAAAGTCAACTTGTAATTGCAATTGGATGTACAGGTGGACAGCATCGTTCTGTTACGCTTACAGAATACCTTGGGAAACATTTGAAACCAGAGTATAGTGTTCATGTATCTCATCGTGATGTGGAGAAGAGAAAGGGCCATTAA	MTENNDIKMVIITGMSGAGKTVALQSFEDLGYFCVDNLPPMLLPKFIELMADSKGKMNKVALGIDLRGREFFEHLWGALDDLSERTWIIPHILFLDAKDSTLVTRYKETRRSHPLAPTGLPLKGIEAERDLLTDMKARANIVLDTSDLKPKELREKIVHLFSTETEQAFRVNVMSFGFKYGIPIDADLVFDVRFLPNPYYIPHMKPLTGLDEEVSSYVLKFNETHKFLEKLTDLITFMLPHYKREGKSQLVIAIGCTGGQHRSVTLTEYLGKHLKPEYSVHVSHRDVEKRKGH				NA	NA	NA	NA	NA
AK009_05063	954		COG0391	Gluconeogenesis factor	ATGAAAAAAGAGAGAAAGCCTAAAATTGTTATCATGGGAGGCGGAACTGGACTCTCTGTTTTATTAAGAGGATTAAAGCAATATCCTGTTGATATTACAGCAGTTGTTACAATCGCTGATGATGGTGGCAGTTCAGGTAGATTACGTGATGAGCTAGAAATTCCACCTCCAGGTGACATCCGTAACGTACTTGTTGCGTTATCGGATGTAGAGCCACTGGTGGAAGCTTTATTTCAGCACCGTTTCACAACAGGGGACGGACTGAAAGGTCATGCGTTAGGAAATCTATTGTTGGCAGGTATGACCTCAATTACAGGAGACTTTTTCCATGCAATTACGGAAACAAGTAAAGTATTAAATGTCAGAGGACGTGTATTACCAGCAGCGAATCAAAGTGCGGTACTTCATGCGGAACTTGAAGATGGAGAAATTGTAACAGGCGAATCAAAGATTCCTTATTACGGAAAGAAGATTAATCGTGTCTTTTTAACTCCAGAAGATGTAGAGCCATTGCATGAAACCTTGGCTGAGATTAAACGAGCTGATTTACTCGTTTTCGGTCCAGGAAGTTTGTATACAAGTATATTACCCAACTTAGTTGTTAATAAAATTGGGGATGCTGTTCTTGCTGCAAAGGCGAAGAAGGTGTATGTATGTAACGTTATGACACAAGCGGGTGAAACGATGGGATATACTGCTTTTGATCATGTGCAGGCTTTACACGATCATTTAGGGCAACCATTTATTAATACTGCAATTGTAAATAACCGTGATATTCCTTGTGAATTACGTAAGTTATATGAGGAAGAAATGTCTACACCAGTTGTAGTGGATGAAGAACGTTTTGCTGAAAATAATATTGATGTCATTCAAGGTGGATTAGCGAAGTATGATGATCGTGTTGTAAGGCATGATACGTTAAAGTTAGCTTCGATTTTATATTCATTGTTATAA	MKKERKPKIVIMGGGTGLSVLLRGLKQYPVDITAVVTIADDGGSSGRLRDELEIPPPGDIRNVLVALSDVEPLVEALFQHRFTTGDGLKGHALGNLLLAGMTSITGDFFHAITETSKVLNVRGRVLPAANQSAVLHAELEDGEIVTGESKIPYYGKKINRVFLTPEDVEPLHETLAEIKRADLLVFGPGSLYTSILPNLVVNKIGDAVLAAKAKKVYVCNVMTQAGETMGYTAFDHVQALHDHLGQPFINTAIVNNRDIPCELRKLYEEEMSTPVVVDEERFAENNIDVIQGGLAKYDDRVVRHDTLKLASILYSLL				NA	NA	NA	NA	NA
AK009_05064	951	whiA_1	COG1481	putative cell division protein WhiA	GTGTCATTTGCATCAGAAACAAAGAAAGAGCTGACGAACCTTGAAATGAAGGAATGCTGTGAAAAAGCTGAATTATCAGCGTTACTTCGAATGAATGGATCGCTTTCTTTTTCAAACCGTCGTCTATCTATTGATATTCAAACAGAAAATGCGGCAATTGCAAGAAGAATTTATACGCTTTTGAAAAAGGGATATGACGTAACGGTAGAATTGCTTGTTCGTAAAAAAATGCGATTGAAGAAAAATAATGTATATATCGTAAGGCTTGTTGAGAAGTCTCGCGAAATATTAGCCGATCTTCATATCGTGCGAGATGACTTTTCATTTATTCGAAATATATCACAAGAATTGATTGAGAAGAAGTGTTGTAAACGATCGTATTTACGCGGTGCATTTTTAGCAGGTGGTTCAGTAAATAACCCAGAAACATCATCTTATCATTTAGAGATCTTTTCGTTATATAAGGAACATAATGATGCTATATGTGAACTGATGAACGGATTTGATTTAAATAGTAAGACGCTGGAAAGAAGAAAAGGGTACATTACGTATTTGAAAGAAGCGGAGAAAATTACGGAATTTTTAAATATTATTGGTGCTCATAATGCGCTTTTAAGATTTGAAGATATTAGAATCGTACGTGATATGCGTAATTCCGTAAATCGTTTAGTGAACTGCGAAACAGCTAATTTAAATAAAACAATTGGTGCAGCGCTAAGGCAAATTGAAAATATCCGCTATATTGATGAGACGGTTGGTCTTGATATATTGCCAGATAAACTACGAGAAATTGCGCAGCTACGAAGAGATTATCAAGATGTAACATTGAAAGAGTTAGGTGAGATGGTATCCGGGGGGAAAATTAGTAAATCGGGTATTAATCATCGTTTGCGTAAAATCGATGAAATTGCAGAGAAATTACGCGCGGGGGAAACGGTAGCAAAAAAATAA	MSFASETKKELTNLEMKECCEKAELSALLRMNGSLSFSNRRLSIDIQTENAAIARRIYTLLKKGYDVTVELLVRKKMRLKKNNVYIVRLVEKSREILADLHIVRDDFSFIRNISQELIEKKCCKRSYLRGAFLAGGSVNNPETSSYHLEIFSLYKEHNDAICELMNGFDLNSKTLERRKGYITYLKEAEKITEFLNIIGAHNALLRFEDIRIVRDMRNSVNRLVNCETANLNKTIGAALRQIENIRYIDETVGLDILPDKLREIAQLRRDYQDVTLKELGEMVSGGKISKSGINHRLRKIDEIAEKLRAGETVAKK				NA	NA	NA	NA	NA
AK009_05065	249	crh	COG1925	HPr-like protein Crh	GTGGTTCAAAAACGAGTTCAGGTTTCATTAAAAAACGGTTTACAAGCACGTCCGGCTGCGTTGTTTGTACAAGAGGCAAATCGCTTTCATGCAGATATCTTCATCGAGAAAGACGGAAAGACAGTAAATGCAAAGAGCATAATGGGGATTATGAGCTTAGCAATTGGAACTGGTAGCATGATAACAATTACAACAGAAGGTTCAGATGCAGAAGAGGCTTTAGAAGCATTAGCTGCATATGTACAATAA	MVQKRVQVSLKNGLQARPAALFVQEANRFHADIFIEKDGKTVNAKSIMGIMSLAIGTGSMITITTEGSDAEEALEALAAYVQ	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
AK009_05066	582	clpP_3	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAATTTAATTCCTACAGTAATTGAACAAACAAATCGTGGAGAACGCGCTTACGATATTTACTCTCGACTATTAAAAGACCGCATCATTATGCTTGGTAGTGCAATTGATGACAACGTAGCTAACTCAATCGTTTCCCAGCTTTTATTCTTGGAATCTCAAGATCCAGAAAAAGATATTCACATCTACATCAACAGCCCTGGTGGTTCTATCACAGCAGGTATGGCAATCTATGATACAATGCAGTTTATTAAACCACAAGTATCAACAATCTGTATCGGTATGGCAGCATCTATGGGTGCATTCTTACTTGCAGCAGGTGAAAAAGGAAAACGTTATGCACTTCCAAACAGTGAAGTAATGATTCACCAACCACTTGGTGGAGCACAAGGTCAAGCGACTGAAATCGAAATCGCTGCAAAACGTATCCTATTCTTACGTGAAAAACTAAACCAAATTCTTGCTGACCGCACTGGTCAACCACTTGAAGTACTACAACGCGACACAGACCGCGACAACTTCATGACAGCAGAAAAAGCTTTAGAATACGGTTTAATCGATAAGATCTTTACAAATCGTTAA	MNLIPTVIEQTNRGERAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLESQDPEKDIHIYINSPGGSITAGMAIYDTMQFIKPQVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILFLREKLNQILADRTGQPLEVLQRDTDRDNFMTAEKALEYGLIDKIFTNR	PGPT0014595_8209	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK009_05067	870			hypothetical protein	ATGTCTCACCTACCGGAATGGACACTTGTCATCCTTCGCTCTGTATTCATATTAATTATTTTATTCACTATTACAAAGTGCTTAGGAAAAAGGCAAATCTCTCAGCTTTCCTTTTTTGAATACATAGCGGGAATGACAATCGGTGATATCGCTGCTCAAATAGCTACAGGGCTTGATCAAAAGTTTTTCCACGGTGTCTTTGCAATACTTATTTTCGCCTCCGTACCTTTTTTCGTCGGAATTCTTTCCTTGAAAAACAAAACTGCTAGAGATTTCTTTGAAGGAAAATCTACAGTGTTAATAAAAGATGGAAAAGTACTTGAGGATAATTTAAAGAAAGAAAAATATACAAGTGATGAGTTACTTGAGCTTCTTAGAGGAAATGGTGCATTCAGTATAGCTGAAGTCGAATTTGCTGTCTTAGAACCGAGCGGAGAATTAAATGTATTATTAAAGAAAGATTCTCAGCCACTTACTGCAAAAGATCTCGGTTTAAAAGTGCCAAATGAAAAAGAACCACAAACTGTTATTATGGATGGAAATGTACTAGATGAACCACTTTCAGCAAGCGGGCATAACCGCGCTTGGCTACACTCTGAACTAGAAAAGCTCGGTGTTGTTATCGAAAATGTTTTTCTCGGTCAAGTAGATTCATACGGACAACTTACTATCGACATTTACAATGACAAACTACAAATGCCTTCTCCTCAAAATAAGCCTTTATTATTAGCATCTTTAAAAAAATGTCATGCTGATCTTGAACTATTTTCTCTAGAAACAAAGTCGAAATCAGCAAGCGAAATGTATAGTAAAAACGCGAAACAAATCGAAAAGATTTTAAATAGAGTTACCTATCTTTTAAAAGACTAA	MSHLPEWTLVILRSVFILIILFTITKCLGKRQISQLSFFEYIAGMTIGDIAAQIATGLDQKFFHGVFAILIFASVPFFVGILSLKNKTARDFFEGKSTVLIKDGKVLEDNLKKEKYTSDELLELLRGNGAFSIAEVEFAVLEPSGELNVLLKKDSQPLTAKDLGLKVPNEKEPQTVIMDGNVLDEPLSASGHNRAWLHSELEKLGVVIENVFLGQVDSYGQLTIDIYNDKLQMPSPQNKPLLLASLKKCHADLELFSLETKSKSASEMYSKNAKQIEKILNRVTYLLKD				NA	NA	NA	NA	NA
AK009_05068	207			hypothetical protein	ATGACTGTTATCGCTAGCGTAAAAACTTGCCTTGCTAGTGTAAGAGGCGCTCAAGCAAGCTTAAGTTCCCTTTCACTAAATTCTACAGACGATGAAGCTAAACGCGTATTTCATGAATGTATGTTAGAAATGGACAGTGTCATCGCTGATTTACAGGATAGAGTTTCAGTATTAGAACGTGAAGAACCTCAATATAAAGGGTTTTAA	MTVIASVKTCLASVRGAQASLSSLSLNSTDDEAKRVFHECMLEMDSVIADLQDRVSVLEREEPQYKGF				NA	NA	NA	NA	NA
AK009_05069	351			hypothetical protein	ATGATTTTTTTCTGGGCTTTCGTCATTGGCGGACTCATATGTGTAATCGGCCAACTTATGTTTGATGTCGGCAAACTAACACCCGCTCATACAATGGCAACACTCGTTGTTGCTGGAGCTATATTAGATGGATTTAATTTGTATGAGCCATTAATTGATTTCGCTGGAGCCGGGGCAACTGTACCTATTACAAGCTTTGGTAATGCCCTCGTTCATGGCGCAATGGAAGAAGCTGCAAAACATGGCATCGTTGGCGTTATTACCGGCATGTTTAAAGTAACGAGCGCCGGTGTATCAGCAGCTATTATTTTCGGCTTCATTGGAGCATTGTTATTTAAACCGAAAGGATAA	MIFFWAFVIGGLICVIGQLMFDVGKLTPAHTMATLVVAGAILDGFNLYEPLIDFAGAGATVPITSFGNALVHGAMEEAAKHGIVGVITGMFKVTSAGVSAAIIFGFIGALLFKPKG	PGPT0024815_462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
AK009_05070	1017	spoVAD_2		Stage V sporulation protein AD	ATGTTACAAGGACACCGAACGTGGGTATTTGAAAACAAACCAGTCATTATCTCAACAGGGGTTGTCGGTGGACCATTTGAAGCAAAGGGAAACATCCCAGAAGACTTCGATATCCTTCATGAAGATTTATGGCTCGGGCAAGATTCCTATGAAAAAGCACATAAAATTTTATTCGAAGAAGCTTGTAGTCGCGCTACTGAAAAAGCAGAACTTCGTAAAGATGATATTCAATTTGTACTCGCAGGAGATTTAATTAATCAAATTACCCCTACAAGCTTTGCTTGCCGCACATTGGGCACTCCTTATCTCGGATTATTCGGAGCTTGTTCTACTTCTATGGAAGGTTTAGCACTTGGGGCAAGTATCGTAAATGCAAAAGGTGCAAAATATTTATTAACTGGAGCTTCAAGCCATAATACTGCTGTAGAAAAACAATTCCGCTACCCTACCGAATACGGTGGACAAAAGCCGCCTACTGCACAGTGGACAGTAACCGGAGCAGGAGCCGCTATTTTAAGCGATACTGGACACGGTCCAAGGGTAACCTCTGCAACAATCGGACGAGTGGTTGATATGGGATTAACGGATCCGTTTAATATGGGAGGCGCAATGGCTCCAGCTGCAGTTGATACAATTGAAGCCCATTTACGTGAACGCCAAATTGATGCCTCTTACTACGATTTAATCGTAACAGGCGATCTCGGACATGTAGGACGCGAAATTGCTTATGACTTACTACATAAACACGGAACGAAAGTAACGAGCGAACAATTTCAAGATTGCGGAATTATCATTTATAGAGAAGGACAACCTGTCATAGCTGGTGCTAGCGGGCCTGGATGTTCCGCAACAGTCGTGTACGGTCATTTATTAAACCGAATGAAAAGAGGAGAGTTCAAAAAAATACTTGTCGTTGCGACAGGCGCTTTACTATCTCCACTTACATTCCAACAAGAAGAAACGATTCCGTGTATCGCTCATGCCGTTTCGATTGAATTTGGAGGTGCAACGCAATGA	MLQGHRTWVFENKPVIISTGVVGGPFEAKGNIPEDFDILHEDLWLGQDSYEKAHKILFEEACSRATEKAELRKDDIQFVLAGDLINQITPTSFACRTLGTPYLGLFGACSTSMEGLALGASIVNAKGAKYLLTGASSHNTAVEKQFRYPTEYGGQKPPTAQWTVTGAGAAILSDTGHGPRVTSATIGRVVDMGLTDPFNMGGAMAPAAVDTIEAHLRERQIDASYYDLIVTGDLGHVGREIAYDLLHKHGTKVTSEQFQDCGIIIYREGQPVIAGASGPGCSATVVYGHLLNRMKRGEFKKILVVATGALLSPLTFQQEETIPCIAHAVSIEFGGATQ	PGPT0024810_261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406	NA	NA
AK009_05071	477			hypothetical protein	ATGTCTAGTAAAGATAAAAACTTAACCCCTGTACAACAGGAGTATAAAAAATTCGAACAAGAACGCGAACCGAAACGACCTGTCTTAAAAAATTGTATAAAAGCCTTTTTCGTTGGTGGTTTTATTTGCTTCATCGGACAACTCATTTCTACTTTTTACATCACATATTTTGATTTCACTGAACGTTCGGCAGGAAATCCAACCGTCGCAACTCTTATTTTCATTTCTATGTTACTAACTGGATTTGGTATATACGATCGTTTTGGACAGTTTGCTGGTGCTGGTACAGCTGTACCTGTTACTGGATTTGGTAACTCTGTTATTGCCGCATGTATTGAGCATCGAACGGAAGGATTTGTCCTTGGCGTTGGCGGCAATATGTTTAAACTAGCGGGTTCTGTTATTTTATTTGGTGTATTTTCGGCTTTTGTCATCGCACTTATTAAAACGATTCTCGTTCAATGGGGAGGGCTATAA	MSSKDKNLTPVQQEYKKFEQEREPKRPVLKNCIKAFFVGGFICFIGQLISTFYITYFDFTERSAGNPTVATLIFISMLLTGFGIYDRFGQFAGAGTAVPVTGFGNSVIAACIEHRTEGFVLGVGGNMFKLAGSVILFGVFSAFVIALIKTILVQWGGL	PGPT0024805_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405	NA	NA
AK009_05072	486			hypothetical protein	ATGCGAAAACTCGGCCTCATAACCGCATTATTTGCACTTCTATTTAGCTCTTTTACCGGATGTGATAATAGTCCTTTAGATAAAAAAGTGAAAGAAGAAGCAAAACAAACGGAGAAAGAAAAAGGTCCAAAGTTAACAAAGACGAGTACGGAATCCTTTAATCAATCTATATCACAAGGAGCGAAGAAAAGAGCTCTCGCTATGGATGAAATTATAAAAAGCACAGCAGTGAATTCAAATTTAGATCTCTACATAGCAGTTACACCTGAGCATCACGAAAGGTTTGGATTAAAACCGCTTCGTAAAAAGCTTCAAAAGCAGCTAAGTGATGAGCACCCTACTTTCGATGTTCGTGTAAGTACAGATAAAAAAATCTTTATGTTACTCGAAAAGCTCGAAAGAAAGATTAAGGAAAAAAAAGTATCTAAAGATGAGATTAATAAGCAATTAAAACTCATTGGTAAAAAAATGGAGTCTAACACTTAA	MRKLGLITALFALLFSSFTGCDNSPLDKKVKEEAKQTEKEKGPKLTKTSTESFNQSISQGAKKRALAMDEIIKSTAVNSNLDLYIAVTPEHHERFGLKPLRKKLQKQLSDEHPTFDVRVSTDKKIFMLLEKLERKIKEKKVSKDEINKQLKLIGKKMESNT				NA	NA	NA	NA	NA
AK009_05073	207			hypothetical protein	ATGACTGTAATTACGAAACTAAAGCAAACTGTTTCTGGATTAAAAAGTGCACAAGCTAGCTTAGAGGGATTCGCTCTTGATACGGATAACCAACAAGCTAAGCAACTTTTTCAAACAGCTGCGCAGCAAACACAAACGATTATCGATTCTTTAAACCCACGTGTTGAAGAAGTCCAACAGGAAGAACCACAATACTCACAGCAATAA	MTVITKLKQTVSGLKSAQASLEGFALDTDNQQAKQLFQTAAQQTQTIIDSLNPRVEEVQQEEPQYSQQ				NA	NA	NA	NA	NA
AK009_05075	1308	rpoN	COG1508	RNA polymerase sigma-54 factor	TTGAAGGCAAGTCTTTTACAAGAACAAAGCTTACGTTTGGCAATGACACAAGAGTTAAGGCAAGCGATTACAATGCTTCAGTATAATGTACAAGAATTATCGGAGTTTTTGTATGAGCAATCGTTAGAGAATCCCCTTATTGAGTTAGGTGGTTTTGAGAGGGAGAAGAAAAAGAGCTCTAACAACAGTAAAAGTACCAGCAAACAAGTCGAGAATCAGATGGAAATCTACAGTGTGGATTCTACAACGATTCAGCAACATTTATTAAATCAAATACAGTATTATAAAATAGATGAAGAAGAGCGGAAAGTGGCTTCTTTCATTATTATGAACATGGATGGAAACGGGTATTTACAAGAAACGAATGAAGAGTTAGCAGAGCTCCTTTCTGCGCATATTCATGTAGTTGACCGCTCTGTAGAGCTTGTCCAATCACTGGAGCCAGCAGGGGTAGGGGCGCGTAATATTCAGGAATGTTTAACCTTACAATTGAAGCGCTTACAAAGAAGGGATGGATTAGCGGAAGATATTGTAGAGGAGCACTTTGCTTATTTCGTGAAGAAGGATTGGCGAAAGCTCGTTCATGTGCTGAAGTGTAGTAATGAAGAATTACAATCGGCGGTGAACTGTATTACATCATTGCAGCCGAAACCGGGCCTTGCGTATTCTTCGGATAAACCACTGTATATTGTGCCTGACATGGCAGTGAAAAAAGAAGGCGATCGCCTCGTTTTACAGATGAATGAGAGAAATATGCCGAGAATTGAAATTCACTCTGAGTACAGTGCGCTTCTTAATAATAGTGAAAGTGAAGTAGCATCTTACGTTTCAGAAAAGTATCAGCATGTGCAATGGATTATGCGCAGTTTGAAACAGAGAAAACAAACACTTCTGCAAGTGATGACGATTATTATGGAAAAACAACGTGATTTCTTTTGGGAAGGTCCAGCGTATTTGAAGCCGCTCGCTTTAAAAGAGGTGGCGGAAGAGCTAAGTGTGCATGAGTCTACGATTAGTCGTGCAACAAGAAATAAGTATGTGCAAACGCCACACGGTTTATTTGAGATGAAATCGTTCTTTAGTAATGCAGTTTCGACGACAGAGGATGAGGCAGTTTCAACGAAGCGAGTGAAACAGTTTATTCAAACGCTTGTGGAAGCAGAGAATAAGAAAAAGCCACTCTCAGATCAAAAGATTTCAAAATTATTAGAAGAAGAGCATGAAATTGTTATTTCTCGAAGAACGGTGGCGAAGTATAGAGAACAAATGCATATCCCAGCTTCGTCATTGCGAAAAACAATCGGATAG	MKASLLQEQSLRLAMTQELRQAITMLQYNVQELSEFLYEQSLENPLIELGGFEREKKKSSNNSKSTSKQVENQMEIYSVDSTTIQQHLLNQIQYYKIDEEERKVASFIIMNMDGNGYLQETNEELAELLSAHIHVVDRSVELVQSLEPAGVGARNIQECLTLQLKRLQRRDGLAEDIVEEHFAYFVKKDWRKLVHVLKCSNEELQSAVNCITSLQPKPGLAYSSDKPLYIVPDMAVKKEGDRLVLQMNERNMPRIEIHSEYSALLNNSESEVASYVSEKYQHVQWIMRSLKQRKQTLLQVMTIIMEKQRDFFWEGPAYLKPLALKEVAEELSVHESTISRATRNKYVQTPHGLFEMKSFFSNAVSTTEDEAVSTKRVKQFIQTLVEAENKKKPLSDQKISKLLEEEHEIVISRRTVAKYREQMHIPASSLRKTIG	PGPT0000795_2911	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
AK009_05076	246			hypothetical protein	ATGAAAGTTGTGCTGTATACAAAAAAGAATTGTGGTCTTTGCGTGCAGGCGAAACAAGTTTTGCAGGAAGTACAATGTGAATATTCTTTTCAAATCGAGGAAATAGATATATATGAAGATAATGACCTTTTAGAAAAATATCATTTAATGATTCCGGTTGTAGAAATAGACGGAAAACAAGTAGAATATGGTAACATTCACAAAGGTGTCATAATAAACTATATAAAGAATGCAGTTAAGAGTTGA	MKVVLYTKKNCGLCVQAKQVLQEVQCEYSFQIEEIDIYEDNDLLEKYHLMIPVVEIDGKQVEYGNIHKGVIINYIKNAVKS				NA	NA	NA	NA	NA
AK009_05077	1029	cggR	COG2390	Central glycolytic genes regulator	ATGCGCTCATGGATTCAGAACACAAAAAAATTATTACCTGATCTGCTACCTGTTATGCAAACGAGAATGCAAATTCTTCAATACATTAGGCTCATGCAGCCGATTGGAAGAAGAAACTTATCAGCAAGCCTCGGTATGACAGAACGAGTATTGCGAAGTGAAGTTCAAGTTTTGAAAGAACAAAACTTAGTTCACGTCGCTTCTTCTGGAATGACTTTGACAGAAGAAGGAACAGCTTTAGTTCTTGCTTTGGAAGACTTTATGAAAGAAATTTCCGGGTTAAAGGTTTTAGAAAAGCAACTTAAGGAAACATTAGACTTGGATGAAGTTTTCGTTGTCCCTGGTGATAGTGATGAATCACCTTGGGTCAAACTGGAGATGGGCCGTGCTTGTGTGACTTGTATAAAAGACCGTCTGACAGCGAATAATATCGTTGCTGTGGCTGGAGGAACTACGCTAGCTGCTGCTGCGGACATGATGCAACTTGATTGTAAAGATTTACATATGCTATTTGTCCCAGCACGTGGTGGAATCGGAGAAGGTGTTGAATTAGAAGCCAATACCATTTGTGCCAAGATGGCGCAAAATACGATGAGTAATTATCGCTTATTGTATGTTCCAGACCATGTTAGTAGCGAAGCATATGCGTCTATTGTGACAGAGCCTTCCGTGAAAGAAGTTCTTGAGTTGATTCGATCTTCCAATATCGTCATTCATGGAATAGGTGATGCGTTAACAATGGCACGTCGCAGAAGTACTTCGGAAGCAGATTGGTTAAAGATTCAAGCAAGCGAAGCAGTTGGTGAAGCTTTCGGTTACTACTTTAATGAAGAAGGAAATGTTGTTCATAAAGTAAGAACAGTTGGTATGCAATTAGAGGATTTACAAAATGTATCTCACGTTGTTGCAGTCGCTGGAGGTTCTTCAAAGGCAAAAGCAATACAGGCTGTAATTAAACAAGGGCACACTTCAATTCTAATTACAGATGAAGGTGCAGCAAAACAGTTAACAAAGGGTTTTACCCTTTAA	MRSWIQNTKKLLPDLLPVMQTRMQILQYIRLMQPIGRRNLSASLGMTERVLRSEVQVLKEQNLVHVASSGMTLTEEGTALVLALEDFMKEISGLKVLEKQLKETLDLDEVFVVPGDSDESPWVKLEMGRACVTCIKDRLTANNIVAVAGGTTLAAAADMMQLDCKDLHMLFVPARGGIGEGVELEANTICAKMAQNTMSNYRLLYVPDHVSSEAYASIVTEPSVKEVLELIRSSNIVIHGIGDALTMARRRSTSEADWLKIQASEAVGEAFGYYFNEEGNVVHKVRTVGMQLEDLQNVSHVVAVAGGSSKAKAIQAVIKQGHTSILITDEGAAKQLTKGFTL	PGPT0019460_127	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
AK009_05078	1005	gap1	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 1	ATGACTAAAATTGGTATTAATGGATTTGGACGTATCGGACGTAACGTATTCCGCGCAGCTCTTAACAACTCTGAGGTAGAAGTAGTAGCAATCAACGACTTAACAGATGCTAAAACATTAGCTCACCTTTTAAAATATGACACAGTTCACGGAACTTTAAATGCAGAAGTATCTGCTAACGAAAACAGCATCGTTGTTAACGGTAAAGAAATTAAAGTTATCGCTGAGCGTGACCCAGCTCAATTACCATGGAGCGACTACGGAGTAGAAGTAGTAGTAGAATCTACTGGCCGTTTCACTAAAAAATCAGACGCTGAAAAACACTTAGGTGGATCAGTTAAGAAAGTTATCATCTCAGCTCCAGCTTCTGACGAAGATATCACTGTAGTTATGGGTGTTAACCACGAACAATACGATGCAGCTAACCACAACGTAGTATCTAACGCTTCTTGTACTACAAACTGTCTAGCTCCATTCGCTAAAGTATTAAACGAAAAATTCGGCGTAAAACGCGGAATGATGACAACAATTCACTCTTACACTAACGACCAACAAATCTTAGATTTACCACACAAAGATTTACGTCGTGCTCGTGCAGCAGCTGAAAACATGATCCCAACATCTACTGGTGCAGCTAAAGCTGTAGCATTAGTATTACCAGAACTTAAAGGTAAATTAAACGGTGGCGCTGTACGTGTTCCAACTGCTAACGTTTCTCTTGTTGACTTAGTTGTTGAACTTGACAAAGAAGTAACAGTTGAAGATGTAAACGCAGCATTTAAAGCAGCAGCTGAAGGCGAATTAAAAGGTATCCTTGGATACAGCGAAGAGCCATTAGTATCTATCGACTATAACGGATGTACAGCTTCTTCTACAATCGATGCATTATCTACAATGGTAATGGAAGGTAACATGGTTAAAGTACTTTCTTGGTACGATAACGAAACTGGTTACTCTAACCGCGTAGTAGACTTAGCAGCTTACATGACTTCTAAAGGTCTTTAA	MTKIGINGFGRIGRNVFRAALNNSEVEVVAINDLTDAKTLAHLLKYDTVHGTLNAEVSANENSIVVNGKEIKVIAERDPAQLPWSDYGVEVVVESTGRFTKKSDAEKHLGGSVKKVIISAPASDEDITVVMGVNHEQYDAANHNVVSNASCTTNCLAPFAKVLNEKFGVKRGMMTTIHSYTNDQQILDLPHKDLRRARAAAENMIPTSTGAAKAVALVLPELKGKLNGGAVRVPTANVSLVDLVVELDKEVTVEDVNAAFKAAAEGELKGILGYSEEPLVSIDYNGCTASSTIDALSTMVMEGNMVKVLSWYDNETGYSNRVVDLAAYMTSKGL	PGPT0018000_5441	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
AK009_05079	1185	pgk	COG0126	Phosphoglycerate kinase	ATGAACAAAAAATCAATTCGTGACGTAGATTTAAAAGGTAAGCGTGTATTTTGCCGCGTTGATTTCAACGTACCTATGAAAGAAGGCAAAATTACAGATGAAACTCGTATCCGTGCAGCTCTTCCTACAATTCAATATTTAGTAGAGCAAGGTGCGAAAGTTATTTTAGCAAGCCACTTAGGCCGTCCAAAAGGTCAAGCGGTAGAAGAATTACGTCTTACTCCAGTAGCAGCACGTTTAGGCGAGCTTCTTGGTAAAGATGTTAAAAAAGCAGACGAAGCATTCGGACCAGTTGCACAAGAAATGGTTGCAGCAATGAACGAAGGCGACGTATTAGTTCTTGAAAACGTACGTTTCTATGCGGGCGAAGAAAAGAACGATGCAGAACTTGCGAAAGAATTTGCAGCACTTGCTGACATCTTCGTAAACGATGCATTCGGTGCAGCTCACCGTGCTCACGCTTCTACAGCAGGTATCGCAGACTACCTACCAGCAGTATCTGGTCTATTAATGGAAAAAGAGTTAGATGTATTAGGTAAAGCACTTTCTAACCCAGAACGTCCATTTACAGCTATTATTGGTGGTGCGAAAGTAAAAGATAAAATCGGTGTAATTCGTCATCTATTAGACAAAGTAGATAACTTAATCATCGGTGGCGGACTTGCTTACACGTTCGTTAAAGCTTTAGGTCATGAAATTGGTCTATCTCTATGTGAAGACGACAAGATTGAACTAGCTAAAGAATTTATGCAACTTGCAAAAGAAAAAGGCGTAAACTTCTACATGCCAGTTGATGTTGTAATCACTGAGGAATTCTCTGAAACTGCAACAACTCAAATCGTTGGTATCGACTCTATCCCTTCTAACTGGGAAGGCGTAGACATCGGTCCTAAAACACGTGAAATTTATGCAGATGTAATTAAAAACTCTAAGCTTGTTGTATGGAATGGACCAATGGGTGTATTCGAAATGACTCCATTCGCAGAAGGTACAAAAGCAGTAGGACAAGCATTAGCAGATGCAGAAGATACATACTCTGTTATCGGCGGTGGTGACTCTGCAGCAGCTGTTGAAAAATTCGGTATGGCTGATAAAATGAGCCACATTTCTACTGGCGGCGGTGCGTCATTAGAATTCATGGAAGGTAAAGAGCTTCCAGGTGTAGTTTGTCTTAACGACAAATAA	MNKKSIRDVDLKGKRVFCRVDFNVPMKEGKITDETRIRAALPTIQYLVEQGAKVILASHLGRPKGQAVEELRLTPVAARLGELLGKDVKKADEAFGPVAQEMVAAMNEGDVLVLENVRFYAGEEKNDAELAKEFAALADIFVNDAFGAAHRAHASTAGIADYLPAVSGLLMEKELDVLGKALSNPERPFTAIIGGAKVKDKIGVIRHLLDKVDNLIIGGGLAYTFVKALGHEIGLSLCEDDKIELAKEFMQLAKEKGVNFYMPVDVVITEEFSETATTQIVGIDSIPSNWEGVDIGPKTREIYADVIKNSKLVVWNGPMGVFEMTPFAEGTKAVGQALADAEDTYSVIGGGDSAAAVEKFGMADKMSHISTGGGASLEFMEGKELPGVVCLNDK	PGPT0018015_4606	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
AK009_05080	756	tpiA_1		Triosephosphate isomerase	ATGCGTAAACCAATTATCGCAGGTAACTGGAAAATGAATAAAACTCTATCTGAAGCAGTTAGCTTCGTAGAGGAAGTTAAAGGTCAAATCCCAGCAGCTTCAGCTGTTGATGCAGTAGTTTGCTCTCCAGCTCTATTCTTAGAGCGCCTTGTAGCAGCAACTGAAGGAACTGATTTACAAGTAGGTGCACAAAACATGCACTTCGAAAAAAATGGTGCATTCACTGGCGAAATTAGCCCAGTAGCACTTAGCGACTTAAAAGTAGGCTACGTAGTACTTGGCCACTCTGAGCGTCGTGAAATGTTTGCTGAAACAGACGAATCAGTAAACAAAAAGACTCTAGCAGCATTTGAACATGGTTTAACACCAATCGTATGTTGTGGTGAGACTTTAGAAGAGCGCGAAAGCGGAAAAACATTTGATCTAGTAGCAGGTCAAGTGACAAAAGCACTTGCAGGTTTAACAGAAGAGCAAGTTAAAGCAACTGTTATCGCTTATGAGCCTATCTGGGCTATCGGTACAGGTAAATCTTCTTCTTCTGCAGATGCAAATGAAGTATGTGCGCACATCCGTAAAGTTGTTGCAGAAGCTGTTTCTCCAGAAGCTGCAGAAGCTGTTCGTATTCAATACGGCGGTAGCGTAAAACCAGAAAACATTAAAGAGTATATGGCACAATCTGACATCGACGGCGCTTTAGTTGGCGGTGCTAGCTTAGAGCCTGCTTCGTTCTTAGGTCTTCTGGGGGCGGTAAAATGA	MRKPIIAGNWKMNKTLSEAVSFVEEVKGQIPAASAVDAVVCSPALFLERLVAATEGTDLQVGAQNMHFEKNGAFTGEISPVALSDLKVGYVVLGHSERREMFAETDESVNKKTLAAFEHGLTPIVCCGETLEERESGKTFDLVAGQVTKALAGLTEEQVKATVIAYEPIWAIGTGKSSSSADANEVCAHIRKVVAEAVSPEAAEAVRIQYGGSVKPENIKEYMAQSDIDGALVGGASLEPASFLGLLGAVK	PGPT0017995_3309	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
AK009_05081	1530	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGAGAAAGCCAACAGCTTTAATCATCCTTGACGGTTTCGGACTTCGTGAAGAAACTCACGGGAATGCTGTAGCACAAGCTAAGAAACCTAATTTTGATGGTTACTGGAACAAATTCCCTCATACAACGCTTACAGCTTGTGGTGAGGAAGTAGGTCTTCCAGAAGGTCAAATGGGTAACTCTGAGGTTGGTCACTTAAATATTGGTGCTGGCCGCATAGTATATCAAAGCTTAACACGCGTAAACGTTGCAATTCGTGAAGGTGAGTTCGATCAGAACGAAACATTCCAAAATGCAATTAAAAGCGTAAAAGAAAAAGGTACTGCTCTTCATTTATTCGGTTTACTTTCTGATGGTGGTGTGCACAGTCACATGAACCATATGTTTGCTCTTCTTCGCTTAGCAGCAAAAGAAGGTGTGGAGAAAGTTTACATCCATGCGTTCTTAGACGGCCGCGATGTTGGACCACAAACAGCAAAAGGTTATATCGATGCAGCAAATGAAGTAATTAAAGAAACAGGAGTAGGACAATTCGCGACTATCTCTGGTCGTTATTACTCCATGGACCGTGACAAGCGTTGGGATCGCGTAGAAAAATGTTACAGTGCTATGGTGAATGGTGAAGGCCCTACTTATAAATCAGCAGAAGAGTGTGTAGAAGACTCTTATGCGAACGGTATCTATGATGAATTCGTATTGCCGTCTGTAATTGTTAACGAAGATAACACGCCAGTTGCAACAATCAATGATGATGATGCAGTTATCTTCTATAACTTCCGTCCAGACCGTGCAATTCAAATTGCTCGTGTATTTACAAACGAAGACTTCCGTGAGTTCGATCGTGGTGAAAAAGTACCTCACATTCCAGAATTCGTATGTATGACACACTTCAGTGAAACTGTGAATGGTTACGTGGCATTCAAGCCAATGAACCTTGATAACACTTTAGGTGAAGTTGTTGCGCAAGCGGGATTAAAGCAACTTCGCATCGCGGAAACCGAAAAGTATCCGCACGTTACATTCTTCTTTAGCGGTGGTCGTGAGGCTGAATTCCCAGGAGAAGAGCGTATCTTAATTAACTCACCGAAGGTTGCAACGTATGACTTGAAACCTGAAATGAGCATTTACGAAGTAACGGACGCTTTAGTAAATGAAATCGAAAATGATAAACATGATGTTATCATTCTTAACTTTGCAAACTGTGATATGGTTGGCCATTCTGGGATGATGGAACCAACAATTAAAGCAGTAGAAGCAACTGACGAATGTTTAGGAAAAGTTGTAGAAGCGATTCTTGCAAAAGATGGTGTAGCACTTATTACTGCTGACCATGGTAATGCCGATCAGGAGTTAACTGCTGATGGCGAGCCGATGACAGCTCATACAACTAACCCGGTTCCTTTCATCGTTACAAAAAATGATGTAGAGCTTCGTGAAGGTGGTATTTTAGGAGATATCGCTCCAACAATGCTTACACTTTTAAATGTGGAACAACCGAAAGAAATGACAGGTAAAACAATTATTAAATAA	MRKPTALIILDGFGLREETHGNAVAQAKKPNFDGYWNKFPHTTLTACGEEVGLPEGQMGNSEVGHLNIGAGRIVYQSLTRVNVAIREGEFDQNETFQNAIKSVKEKGTALHLFGLLSDGGVHSHMNHMFALLRLAAKEGVEKVYIHAFLDGRDVGPQTAKGYIDAANEVIKETGVGQFATISGRYYSMDRDKRWDRVEKCYSAMVNGEGPTYKSAEECVEDSYANGIYDEFVLPSVIVNEDNTPVATINDDDAVIFYNFRPDRAIQIARVFTNEDFREFDRGEKVPHIPEFVCMTHFSETVNGYVAFKPMNLDNTLGEVVAQAGLKQLRIAETEKYPHVTFFFSGGREAEFPGEERILINSPKVATYDLKPEMSIYEVTDALVNEIENDKHDVIILNFANCDMVGHSGMMEPTIKAVEATDECLGKVVEAILAKDGVALITADHGNADQELTADGEPMTAHTTNPVPFIVTKNDVELREGGILGDIAPTMLTLLNVEQPKEMTGKTIIK	PGPT0018040_2181	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
AK009_05082	1296	eno	COG0148	Enolase	ATGTCAACAATTATTGATGTTTATGCTCGCGAAGTCCTTGACTCTCGTGGTAACCCAACTGTAGAAGTAGAAGTTTACACAGAAAGCGGTGCTTTCGGACGCGCTATCGTACCAAGTGGTGCATCTACTGGTGAGCACGAAGCAGTAGAATTACGTGACGGTGACAAATCTCGTTACCTTGGTAAAGGTGTTGTTAACGCAGTAAACAACGTTAACGAAATTATCGCTCCAGAAATCGCTGGTTTCGATGTAACTGACCAAGCTGGTATCGACCGTGCTATGATCGAATTAGACGGCACTCCAAACAAAGGTAAACTAGGCGCTAACGCTATCCTTGGTGTATCTATGGCAGTAGCTCACGCAGCAGCTGACTTCGTAGGTCTTCCATTATACCGTTACCTTGGTGGATTCAATGCAAAACAATTACCAACTCCAATGATGAACATCATCAACGGTGGTTCTCACGCTGATAACAACGTTGACTTCCAAGAGTTCATGATCTTACCAGTTGGTGCTCCAACATTCAAAGAATCAATCCGTATGGGTGCTGAAGTATTCCATGCACTTAAAGCTGTATTACATGACAAAGGTCTTAACACTGCAGTAGGTGACGAAGGTGGATTCGCTCCAAACCTTGGTTCTAACCGTGAAGCTTTAGAAGTAATCATCGAAGCTATCGAAAAAGCTGGTTACAAAGCTGGCGAGAACGTATTCTTAGGAATGGACGTTGCTTCTTCTGAGTTCTACAACAAAGAAACTGGTAAATATGACCTTGCAGGCGAAGGCCGTACTGGCTTAACTTCTGCAGAAATGGTTGATTTCTACGAAGAGCTTTGCAAAGACTTCCCAATCATCTCTATCGAAGATGGTTTAGACGAAAACGACTGGGATGGTCACAAATTATTAACTGAGCGTATCGGTGATAAAGTACAATTAGTTGGTGACGATTTATTCGTAACTAACACTCAAAAACTTGCTGAAGGTATCGAAAAAGGTATCTCTAACTCAATCTTAATTAAAGTTAACCAAATCGGTACTTTAACTGAGACTTTCGAAGCTATCGAAATGGCTAAACGTGCTGGTTACACAGCAGTTGTATCTCACCGTTCTGGTGAAACTGAAGATGCTACAATTGCTGACATCGCAGTTGCAACTAACGCTGGCCAAATCAAAACTGGTTCTATGAGCCGTACTGACCGTATTGCTAAGTACAACCAATTATTACGCATCGAAGACGAACTAGGCGAAATCGCTGTTTACGATGGTATCAAATCTTTCTATAACATCAAACGATAA	MSTIIDVYAREVLDSRGNPTVEVEVYTESGAFGRAIVPSGASTGEHEAVELRDGDKSRYLGKGVVNAVNNVNEIIAPEIAGFDVTDQAGIDRAMIELDGTPNKGKLGANAILGVSMAVAHAAADFVGLPLYRYLGGFNAKQLPTPMMNIINGGSHADNNVDFQEFMILPVGAPTFKESIRMGAEVFHALKAVLHDKGLNTAVGDEGGFAPNLGSNREALEVIIEAIEKAGYKAGENVFLGMDVASSEFYNKETGKYDLAGEGRTGLTSAEMVDFYEELCKDFPIISIEDGLDENDWDGHKLLTERIGDKVQLVGDDLFVTNTQKLAEGIEKGISNSILIKVNQIGTLTETFEAIEMAKRAGYTAVVSHRSGETEDATIADIAVATNAGQIKTGSMSRTDRIAKYNQLLRIEDELGEIAVYDGIKSFYNIKR	PGPT0018050_2777	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
AK009_05083	951	rihA_4	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGCCAAAAAAAGTTCTCATTTTTTGTGATCCTGGGATTGATGATACGATGGCTCTCCTCTTAGCTTTCTTTATTGATGAAATAGAAATTATCGGTATTGTTGCTGATTACGGCAATGTCCCGAAAAAAATGGCCGTACAAAATGCTCATTTTTTTAATAACGAAACAAAGAATAGAAATATCAAGATATTCGGTGGTTCAGAACGTCCTCTTACTGGTGCCCCACCTGCGTTTTTTACGGATGTACATGGGAAACAGGGGCTCGGGCCAATTATTCCAAAGGTAAATGTGACTAACGGAGAAATGGAGAATTTTTTTGAAGTTATTCCTCTTATTGAGCAGTATAAAGATGAATTAATCATTGTAAGTTTAGGAAGACTTACCTCCCTAGCAATTTTATTCATCGTATGTAAACAGTTAATGAAGCAAGTTAAATCTTACTACGTAATGGGCGGTGCCTTTTTACACCCTGGTAATGTTACCCCTATTTCCGAAGCAAACTTTTATGGCGATCCTACTGCTGCTAATATAGTCCTCCAATCTACAGCTAACATGTACATATACCCATTAAACGTCACCCAATATTCCGTCATTACACCCGAGATGGCGGAGTATATTGAAACAAAAGGAAAAGCCCCACTTGTCAAACCTTTATTCGATCATTATTACTACGGATATTATAAAGACGCCCTACCACATTTAAAGGGTAGCCCCTTCCATGACACAATGCCAATACTCGCTTTACTTGATAACTCTATGTTTACCTATCACAAATCACCTATCGTTGTCATGACAGAATCTTATGCGCAGGGGGCAAGCATTGGAGAATTTCGCTCTTTAGGAGAATCTAAGCCATTTATTGATTGGCCGAGTCATCAAATCGCAATTGATTTTGATTATAACCGCTTCTTCAAACATTTCATGTCACTTATGACGGGCGAACAATTTTAG	MPKKVLIFCDPGIDDTMALLLAFFIDEIEIIGIVADYGNVPKKMAVQNAHFFNNETKNRNIKIFGGSERPLTGAPPAFFTDVHGKQGLGPIIPKVNVTNGEMENFFEVIPLIEQYKDELIIVSLGRLTSLAILFIVCKQLMKQVKSYYVMGGAFLHPGNVTPISEANFYGDPTAANIVLQSTANMYIYPLNVTQYSVITPEMAEYIETKGKAPLVKPLFDHYYYGYYKDALPHLKGSPFHDTMPILALLDNSMFTYHKSPIVVMTESYAQGASIGEFRSLGESKPFIDWPSHQIAIDFDYNRFFKHFMSLMTGEQF	PGPT0013465_1518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_05084	369			hypothetical protein	ATGAAATTTACAAAGATTCTTGTCCAAATTGCTGCTCTTTACGTGTTTTATATGGTTGGAACTTGGGTGCAAGAAATGCTAAATATTCCAATTCCAGGAAGTTTGATTGGGATGTTCCTCTTACTTGTTTTACTTAGCCTAAAAGTTCTTCCAGTGAAATGGTTCGATTTAGGAGCAGAAACACTCGTTGCTATTATGCCGTTTTTATTAATTCCGCCAACGCTTGGCTTAATGAATTACGGTGCTTTTTTTATGAGTAAAGGAATTTCTCTTTTCATTACAGTTGTAGCGAGTACATTTTTAATTATTATTGTCGCAGGACATACAGGACAATATCTTGCGAATAGGAAGGAAAGAAAGTCGCGATGA	MKFTKILVQIAALYVFYMVGTWVQEMLNIPIPGSLIGMFLLLVLLSLKVLPVKWFDLGAETLVAIMPFLLIPPTLGLMNYGAFFMSKGISLFITVVASTFLIIIVAGHTGQYLANRKERKSR				NA	NA	NA	NA	NA
AK009_05085	693	cidB	COG1346	Holin-like protein CidB	ATGAGCCAAATATTAATCGGAATCGGTTGGGTTCTTTTTACGGTGCTATTATATCAATTATCTAAAAAAATCTATAAATTATTTCCAACACCATTCACCATTCCAATGCTTGTAGCAACAGGATTAATGGCTTTCCTATTTATCGTGCTTGATATACCATATCAACATTATATGGAAAGTGGTGGTGGCTGGATTGCAAAGCTACTTGGACCCGGTGTTGTAGCATTTGCAATTCCTCTTTATAAACAACGTCATGTTCTGCAAAAGTATGTTGTACCGATTGCCGGCGGGGTATTAGTAGGTACAACAGTTGCAATCGCTAGTGATTTTGCCATTGCTTCACTTATGGGAACAGATAAAAGCTTAATCTTATCGTCTTTACCAAAATCGGTGACAATGCCAGTTGCGATGAGCGTTTCTGAACAAGTTGGTGGTGTACCTTCCTTAACAGCAGCTTTCGTTGTTATCGCAGGTATTACTGGAACGATTACAGGACCTCTCTTATTAAAATGGAGCCGTGTTACAAACTCAGTTGGTAAAGGTATCGGATTTGGATGTGCTTCTCATATTATGGGCGTTATGAGAGCGATGAAAAATAACGAACATGAAGGTGTTATTGGATCGGTAACAATGACATTAACAGCAATTTTGACATGTTTACTTGGACCGTTATTTGCAATGATGTTTATGTAA	MSQILIGIGWVLFTVLLYQLSKKIYKLFPTPFTIPMLVATGLMAFLFIVLDIPYQHYMESGGGWIAKLLGPGVVAFAIPLYKQRHVLQKYVVPIAGGVLVGTTVAIASDFAIASLMGTDKSLILSSLPKSVTMPVAMSVSEQVGGVPSLTAAFVVIAGITGTITGPLLLKWSRVTNSVGKGIGFGCASHIMGVMRAMKNNEHEGVIGSVTMTLTAILTCLLGPLFAMMFM				NA	NA	NA	NA	NA
AK009_05086	234	secG	COG1314	putative protein-export membrane protein SecG	GTGCATACGTTATTATCCGTTTTACTTATTACTGTATCGATTTTAATGATTGTTATGGTACTTATGCAGTCTAGTAATAGCTCAGGCCTTTCAGGTGCAATTTCAGGCGGTGCAGAGCAATTATTTGGTAAGCAAAAAGCACGTGGAATTGAAGCAGTATTAAACCGTATCACAATTGTTTTAGCTGTATTGTTCTTTGTATTAACAATTGCTGTTACGTACTTAAACTTATAG	MHTLLSVLLITVSILMIVMVLMQSSNSSGLSGAISGGAEQLFGKQKARGIEAVLNRITIVLAVLFFVLTIAVTYLNL	PGPT0025720_3566	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
AK009_05087	744	est		Carboxylesterase	ATGATGAAATTAGCATCTCCGAAACCATTTACATTTGAGGGTGGAGACCGCGCTGTTTTATTACTACATGGATTCACAGGGAACTCAGCTGATGTACGTATGTTAGGGCGTTTCTTAGAGAAGAAAGGCTACACTTGTCATGCGCCAATTTATAAAGGGCACGGTGTACCACCAGAAGAGCTTGTTCATACAGGCCCTACAGATTGGTGGCAAGATGTAACGGAGGCATATCAGCTTTTAAAAGATAAAGGTTTTGAGAAAATTGCTGTTGTTGGATTGTCACTTGGCGGCGTATTTTCTTTAAAATTAGGTTATACAGTACCGGTTTTAGGTGTAGTACCAATGTGTGCACCGATGTATATTAAGAGCGAAGAAACGATGTACCAAGGTATATTGGCATATGCCCGCGAATATAAAAAGCGTGAGCAAAAGTCACCAGAGCAAATCGAACAAGAAATGCTGGAATTCCAAAAGACACCGATGAATACATTAAAAGCATTACAACAATTAATTGCTGACGTACGTAACAATGTGGATATGATTTATGCACCAACATTTGTTGTACAAGCACGTCATGACGAAATGATTAATACAGATAGTGCTAACATTATTTATAACGGTGTAGAATCTACGTTAAAAGACATTAAATGGTATGAAGACTCTACGCATGTCATTACACTTGATAAACAACGTGACGAGCTACATGAGGATGTATATAACTTCTTGGAGCAACTAGATTGGTAA	MMKLASPKPFTFEGGDRAVLLLHGFTGNSADVRMLGRFLEKKGYTCHAPIYKGHGVPPEELVHTGPTDWWQDVTEAYQLLKDKGFEKIAVVGLSLGGVFSLKLGYTVPVLGVVPMCAPMYIKSEETMYQGILAYAREYKKREQKSPEQIEQEMLEFQKTPMNTLKALQQLIADVRNNVDMIYAPTFVVQARHDEMINTDSANIIYNGVESTLKDIKWYEDSTHVITLDKQRDELHEDVYNFLEQLDW				NA	NA	NA	NA	NA
AK009_05088	2439	rnr	COG0557	Ribonuclease R	TTGGAAGAAATCACACAAGAACATATTGATAAGTTGTTATTATTTATGAGAGAAGAAGCGTATAAACCGCTAACGATACAAGAGTTAGAAGAGGCATTTGGAATTGAAGGTTCTGAGGGCTTTAAAGATTTTGTAAAAGCACTTGTAATGATGGAAGAGAAGGGACTTGTTATTCGTACACGTAGTAATCGATACGGTCTTCCTGAAAAGATGAATTTAGTACGAGGTAAGTTAATTGGACATGCACGTGGCTTTGCTTTCGTTGTGCCAGAAGAGAAGAAAACTGGAGACGATGACCTTTTCATCCCTCCTACAGAATTAAACGGTGCACTTCATGGCGATACAGTATTAGCACGCCTTAGTTCTCAATCGAGCGGTTCACGTCAAGAAGGTTCAATTGTACGCATTTTAGAGCGTGGAACGAAAGAACTTGTTGGTACATATACAGAATCGAAAAACTTTGGATTTGTTATACCTGACAATAAGCGCTGGACGAGTGATATCTTTATCTTGAAAAGTGCATCAATGGGTGCTGTAGAAGGTCATAAAGTAGTTGTGAAAATTACGAGCTATCCAGAAAATCGTTTAAGCGCAGAAGGTGAAGTTATTCAAATTCTAGGTCATAAAAATGATCCAGGAGTAGATATTTTATCTGTCATTCATAAACATCATTTACCTTTAGCATTCCCTGAAGAAGTGATGGAGCATGCAAACAGTGTACCAGAAACGATTTCAGAAGAAGATTTAAAGGATCGTCGTGATTTACGTGATCAAATGATCGTAACGATTGATGGTGCAGACGCGAAAGACTTAGATGATGCTGTTACAGTAACGAAGCTTGAGAACGGTAACTACAAGCTTGGCGTTCACATTGCGGATGTAAGTCATTACGTTCAAGAAGGTTCTCCAATTGATGTAGAAGCAGCGGAAAGAGCGACGAGTGTGTATCTTGTTGACCGTGTAATTCCGATGATTCCACATCGTCTATCTAACGGTATTTGCTCATTAAATCCGAAAGTAGACCGTCTGACATTATCTTGTGAAATGGAAATCAACAACTTAGGTGATGTTGTTAAACACGAGATTTTCCAAAGTGTGATTAAAACGACAGAACGTATGACGTATGCTGACGTAAGAAGCATTTTAGAAGATGAGGACGAAGAGTTAATTAAGCGTTATGAGCCATTAGTACCGATGTTTAAAGAGATGGGTCAATTGGCACAAATTCTACGTGAAAAACGTATGCGCCGTGGTGCAATTGACTTTGACTTTAAAGAAGCGAAAGTATTAGTAGATGAAGAAGGAAAACCGACTGATGTTGTTATGCGCGATCGTTCTGTATCAGAGAAGTTAATTGAAGAATTTATGCTTGTTGCGAATGAAACAGTAGCAGAGCACTTCCACTGGATGAACGTACCGTTTATGTACCGTGTCCATGAAGATCCGAAAGAAGATAAGCTTGAGCGTTTCTTCGAGTTTGTAACGAACTTCGGATATGCGGTAAAAGGACGTGCGAATGAAGTACACCCTCGTGCGCTGCAACAAATTCTTGAAATGGTTCAAGGACAGCCTGAAGAAGTAGTTATTTCAACGGTTATGCTTCGTTCTATGAAGCAAGCTCGTTACGATGCGGATAGTTTAGGGCATTTCGGTTTATCAACTGAGTTCTACACACATTTCACATCACCAATTCGTCGTTACCCAGATACAATCGTTCATAGATTAATTCGTGAATACATTATTAATGGTAAAGTCGACAATGAAACGCAAGCAAAATGGCGTGAAAAATTACCTGAGATTGCAGAGCACTCTTCTAATATGGAACGCCGTGCTGTTGAAGCAGAGCGTGAAACAGATGAGATGAAAAAAGCAGAGTATATGGTTGATAAGATCGGTGAAGAGTATGACGGTATGATTAGCTCTGTAACAAACTTCGGTTTATTCGTAGAGCTTCCAAATACAATTGAAGGTCTTGTACACGTTAGTTATTTAACGGATGATTACTACCGTTATGACGAGCAACATTTCGCTATGATCGGAGAACGTACAGGAAACGTATTCCGCATCGGTGATGAAATTACAATTCGCGTTATTAACGTAAACAAAGACGAGCGTGCAATCGACTTTGAAATCGTTGGCATGAAAGGTACGCCTCGTCGTAAGTTCAAAGATCGTCCAGTCGTTATCGAGCAGCCAAGAACAGGCAGAAAGAAACGCGGTGGACGTAGCGAGCGCAGTAATGAGCGCGGCGGTGAACGTGGCACAGGTAGAAAGTTTGACCGTGGTGGCAAAGGTAAAAGCACAGGAAGAGGATCCGCATCAGCAACAGCATCCACGTCTGCTAGTCAGCCAGGGAAAAAAGATGGTAATGGCAAGAAGAAAAAAGGATTCTTCGAAAACGTACCAGGATTCAAGAAGAAAAAGAAAAAGCGTAAGTAA	MEEITQEHIDKLLLFMREEAYKPLTIQELEEAFGIEGSEGFKDFVKALVMMEEKGLVIRTRSNRYGLPEKMNLVRGKLIGHARGFAFVVPEEKKTGDDDLFIPPTELNGALHGDTVLARLSSQSSGSRQEGSIVRILERGTKELVGTYTESKNFGFVIPDNKRWTSDIFILKSASMGAVEGHKVVVKITSYPENRLSAEGEVIQILGHKNDPGVDILSVIHKHHLPLAFPEEVMEHANSVPETISEEDLKDRRDLRDQMIVTIDGADAKDLDDAVTVTKLENGNYKLGVHIADVSHYVQEGSPIDVEAAERATSVYLVDRVIPMIPHRLSNGICSLNPKVDRLTLSCEMEINNLGDVVKHEIFQSVIKTTERMTYADVRSILEDEDEELIKRYEPLVPMFKEMGQLAQILREKRMRRGAIDFDFKEAKVLVDEEGKPTDVVMRDRSVSEKLIEEFMLVANETVAEHFHWMNVPFMYRVHEDPKEDKLERFFEFVTNFGYAVKGRANEVHPRALQQILEMVQGQPEEVVISTVMLRSMKQARYDADSLGHFGLSTEFYTHFTSPIRRYPDTIVHRLIREYIINGKVDNETQAKWREKLPEIAEHSSNMERRAVEAERETDEMKKAEYMVDKIGEEYDGMISSVTNFGLFVELPNTIEGLVHVSYLTDDYYRYDEQHFAMIGERTGNVFRIGDEITIRVINVNKDERAIDFEIVGMKGTPRRKFKDRPVVIEQPRTGRKKRGGRSERSNERGGERGTGRKFDRGGKGKSTGRGSASATASTSASQPGKKDGNGKKKKGFFENVPGFKKKKKKRK				NA	NA	NA	NA	NA
AK009_05089	468	smpB	COG0691	SsrA-binding protein	ATGCCAAAGGGTACAGGTAAGGTTATTGCACAAAATAAAAAAGCATTTCATGATTATTTCATCGAAGAAACATACGAGGCAGGGCTTGTCCTTCAAGGAACGGAAATTAAGTCAATTCGCGCTGGACGCGTAAACTTGAAAGATGCGTTTGCACGTGTACATAATGGTGAAGTATGGGTTCATAATATGCACATTAATACGTACGAACAAGGGAATCGTTTCAACCATGATCCGCTTCGCACGAGAAAATTACTTCTTCATAAAAAAGAAATTGATAAGCTAGCGGGCGCTGCAAAAGAAACAGGTTACGCATTAGTTCCACTTAGAATCTATTTGAAAAATGGATTTGCAAAAATGGCACTTGGTTTAGCAAAAGGTAAGAAACAATATGATAAACGTCACGATTTAAAAGAGAAAGAAGCGAAACGTGAAATTGCACGCGTGTTCCGTGATCGCCAAAAGATGTAA	MPKGTGKVIAQNKKAFHDYFIEETYEAGLVLQGTEIKSIRAGRVNLKDAFARVHNGEVWVHNMHINTYEQGNRFNHDPLRTRKLLLHKKEIDKLAGAAKETGYALVPLRIYLKNGFAKMALGLAKGKKQYDKRHDLKEKEAKREIARVFRDRQKM	PGPT0014355_2851	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
AK009_05091	678	arlR_3	COG0745	Response regulator ArlR	GTGAGGCAGGTGTTAGTAATTAAGAATGAAAGGTCTTTAGCGAAGAAAATCGTAAGCGGTCTAACGCAAGAAGGCTATTTCATTTTAAAACTTCACAATGAAAACGAAGGTTTAAATATAATATATGAACAAGATTGGGATATTATCGTATTGGATTGGGATTCATTAAGTATATCGGGACCGGAAATTTGCAGACAAATACGACTTGTTAAAACGACACCGATAATTATTGTGACCGACAATATTTCTAGCGAGGATTGCGTGGCAGGGCTACAAGCAGGTGCAGATGATTATATAAGAAAACCATTTGTGAAAGAAGAATTAGTAGCAAGGGTTCAAGCTATTTTAAGGAGAAGTGATTGTAACCAGCAAAATGAGACGAATTTTTTTCAGTTTAAAGATCTCTTTGTTGATGCATCTAGCAATATTGTGAAAAAAGGTGGCGAAAACCTCTCGCTTACTAAGCGCGAGTACGACTTACTTGTATTTTTAATCAAGAATAAAAACACAATATTAAGCCGTGAAATGCTTTTGAATCAAGTTTGGGGATATAACGTAGTAGTAAATCCAAATGTAGTAGATTTATATATTGGGTATGTAAGAAAAAAGTTAAAGTGCGAGAAGAAAGACAGATATATTCAAACGATACATGGTAGAGGTTATTCAATGATTGAATGA	MRQVLVIKNERSLAKKIVSGLTQEGYFILKLHNENEGLNIIYEQDWDIIVLDWDSLSISGPEICRQIRLVKTTPIIIVTDNISSEDCVAGLQAGADDYIRKPFVKEELVARVQAILRRSDCNQQNETNFFQFKDLFVDASSNIVKKGGENLSLTKREYDLLVFLIKNKNTILSREMLLNQVWGYNVVVNPNVVDLYIGYVRKKLKCEKKDRYIQTIHGRGYSMIE	PGPT0002665_1133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK009_05092	1020	yclQ	COG4607	Petrobactin-binding protein YclQ	ATGAAAAAATCTATGCTTTTAAAATTAGTGAGTATTCTAGCAATTTTTACTTTAATGTTAGTAGCTTGCTCAAATCCAAGTAATGATACTAAAGAGTCAAAAGCTAATAAAGATAATGGTAGTGATAAGACAAAAACGGTTGAAATCACTGATGCTCATGGAACTGTTAAAGTCCCTGTAAACCCAAAGAATGTAGTTGCTTTGGATAACAGAACTTTTGAAACTTTATCTGATTGGGGAATTAAATTAGCGGCTGCTCCAAAGGATATCATGCCTGCAGATTCAGCATATAAAAAGGATGATTCAGTTCAAAACATTGGAAATCACCGTGAACCAAATCTTGAAATTATTGCAGCTGCAAATCCTGAACTTGTAATCGTTGGTCAAAGATTTGCTGGTCATTACGAAGAAATCAAAAAATTAGTACCAAATGCAGCTGTTATTGATCTTAATGTTGATGTATCTGAGAAGGCTACTAAGCCTGGCGAAAACTTAGTAAAAGGACTTAAAGATTCTACAGTTACTTTAGGGAAAATCTTTGATAAAGATAAAGAAGCTAAAAAATTAGTAGCTGATTTTGATAAATCTATTGAAAACGCAAAATCTGCTTATAACGGAAAAGATAAAGTTATGAGTGTTATCGTTACTGGTGGGAATATCGGTTTTGCTGCGCCGCACTCTGGTCGTGTTTGGGGACCAATGTATGAAATTTTCGGTTGGACTCCAGCATTAGAAGTTTCAAATTCTACTGCAGGTCATAAAGGTGACGACGTTTCTGTTGAAGCTATTGCACAAACAAATCCTGATTGGATTTTCGTATTAGATCGTGATGCTGCAACATCTGATGCAGCCACTTCAGCTCCAGCTAAGGATGTTATTTCTAAATCACCTGCTCTTCAAAACACAACTGCTGTTTCTAAAAACCAGGTTATTTATGCACCAGAAGATACTTACACAAATGAATCAATTCAAACTTATATAGAGTTATTTGGAAATATTTCAAAAACTTTAGCTAAGTAG	MKKSMLLKLVSILAIFTLMLVACSNPSNDTKESKANKDNGSDKTKTVEITDAHGTVKVPVNPKNVVALDNRTFETLSDWGIKLAAAPKDIMPADSAYKKDDSVQNIGNHREPNLEIIAAANPELVIVGQRFAGHYEEIKKLVPNAAVIDLNVDVSEKATKPGENLVKGLKDSTVTLGKIFDKDKEAKKLVADFDKSIENAKSAYNGKDKVMSVIVTGGNIGFAAPHSGRVWGPMYEIFGWTPALEVSNSTAGHKGDDVSVEAIAQTNPDWIFVLDRDAATSDAATSAPAKDVISKSPALQNTTAVSKNQVIYAPEDTYTNESIQTYIELFGNISKTLAK	PGPT0003765_4728	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
AK009_05093	1017	fatD	COG4606	Petrobactin import system permease protein FatD	GTGTCAAAAAATATAATTTCTAGGGTTGAGAATATTTCTCAACCCCAGTTTTATAATCACAATAAATTATGGACAAAACCTTTTATAATAGCGATTATAGTTGTTCTAATTTTAGGGATTATATCACTGTTTACTGGAGTTTATGATATACGTGGACAAGAGGACGGAATGGAGATGTTTTTCATCACTCGTGTTCCAAGAACAGTTGCATTAATGCTTACTGGAGCTGCAATGGCGATGGCAGGGCTCGTAATGCAACTCATTACACAGAATCGCTTTGTTGAACCTACTACAACAGGGACTATTGAATGGTCAGGCTTAGGCCTGCTTTTTGTGTATTTACTATTTCCTGCCCCAACTTTAGTTCAAAGAATGACTGGTGCAATCATTTTTTCTTTTATAGGAACTATGATTTTTTTTCTATTTTTAAGAAGAGTTAAGCTTCGTTCGTCTTTAATTGTCCCGATTATTGGATTGATGCTTGGAGCAGTTATTTCTGCAGTGTCTACTTTTTTGGGACTCCTTTTTCAAAAGACGCAAAGTATTGAAACTTGGTTCGTAGGTTCATTTGCGAACGTTCAGGTAGGAAGATATGAATATTTATGGCTGATTGTTATCATTACTTTTCTTATTTTTATGTATGCTAATAGATTGACTTTAGCTGGACTAGGAGAAGATGTCGCAACAAGCCTTGGAGTTAATTACAATAGAATTGTTCTTTTTGGGACTGCTCTTATATCTGTTGCAGTTGGAATTGTTGCAGCTGTTATTGGACACTTACCTTTCTTAGGATTAATTGTGCCAAATATCGTTTCAATGTTTAGAGGTGATGATCTTAGGAGTAATTTACCTTGGGTTTGTGTGATCGGAATGGGGTCAATAACTGCCTGTGACATCATTTCTCGAACAATTATACAGCCTTTTGAATTACCTGTTTCTTTAATACTTGCAACAGTGGGAGCAGTCGTGTTTATTACTATTTTATTGAGACAAAGAAAACCAAGGAGGCTACGATGA	MSKNIISRVENISQPQFYNHNKLWTKPFIIAIIVVLILGIISLFTGVYDIRGQEDGMEMFFITRVPRTVALMLTGAAMAMAGLVMQLITQNRFVEPTTTGTIEWSGLGLLFVYLLFPAPTLVQRMTGAIIFSFIGTMIFFLFLRRVKLRSSLIVPIIGLMLGAVISAVSTFLGLLFQKTQSIETWFVGSFANVQVGRYEYLWLIVIITFLIFMYANRLTLAGLGEDVATSLGVNYNRIVLFGTALISVAVGIVAAVIGHLPFLGLIVPNIVSMFRGDDLRSNLPWVCVIGMGSITACDIISRTIIQPFELPVSLILATVGAVVFITILLRQRKPRRLR	PGPT0003770_6282	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
AK009_05094	1065	fatC	COG4605	Petrobactin import system permease protein FatC	ATGATCACATTAGAATATAGAAAAAAAGAAAATGTCGAAATCGATTCTAGCCTTCATAATGAAAGTAGATCAGCTAGCGCTTTTCGGTCTAAGAAGGAAGCAAGACGTTATTGGATTTTACTGATTACATTGATTGCTTTAGGTCTTCTTTCTTCATATGGACTTTTAGTTTATAACAATCCAGTTCCGATAGATTCACCTTCTTTTATCCCAGTCGTTAAGAGAAGGATAGTAGCTATTGTTGCAATGATTATCGCTGCAGTTTGCCATAGCTTGTCGACAGTTGCTTTCCAATCTATTACGAATAATAAAATTATTACTCCATCGCTTTTAGGTTTCGAATCACTTTATTCAGCAATTCAAACGAGTACAATATTCTTCTTTGGTGCTAGTGCATTAATAAATTTTAATGGAATTGGATCATTTTTATTCCAAGTTGTTGTTATGGTCTTCATGAGTTTGATACTTTATGGATGGTTACTTTCCGGTAAATACGGGAATTTACAACTTATGCTTTTAGTTGGAATTATTATTGGTACCGGGCTAAATTCAGTGTCAACTTTCATGAGAAAACTACTTGCGCCTTCAGAATTTGATATTTTACAAGCAAGATTATTTGGTTCTGTTAATCATGCAGATCCTGCATATTTTCCTATTGTAATTCCTATGATCATAATTGTAGCAGTATTAATTTTGGCTCATTCTAAGAATTTGAATGTTTTGTCACTAGGAAAAGATGTTGCTACTTCTTTTGGTGTTAAATATCAACCTAGTGTAATTTATACGCTTGTATTAGTAGCTATTTTGATGTCTATTTCAACAGCTCTAATTGGACCACTTACTTTCTACGGCTTTTTAGTAGCAACTTTGAGTTATCAGGCAGCGTCAACTTATGATCATAGATACATTTTTCCGATGGCTTTTGCTATAGGATTTTTAATAATGACGAGTGCATACTTTTTAATGTATCATGTATTCCATGCTCAAGGTGTAGTTTCAGTTATTATTGAATTATTTGGTGGAATCATATTCTTAACTATAGTTTTAAGGAAGAGGGCTTTATGA	MITLEYRKKENVEIDSSLHNESRSASAFRSKKEARRYWILLITLIALGLLSSYGLLVYNNPVPIDSPSFIPVVKRRIVAIVAMIIAAVCHSLSTVAFQSITNNKIITPSLLGFESLYSAIQTSTIFFFGASALINFNGIGSFLFQVVVMVFMSLILYGWLLSGKYGNLQLMLLVGIIIGTGLNSVSTFMRKLLAPSEFDILQARLFGSVNHADPAYFPIVIPMIIIVAVLILAHSKNLNVLSLGKDVATSFGVKYQPSVIYTLVLVAILMSISTALIGPLTFYGFLVATLSYQAASTYDHRYIFPMAFAIGFLIMTSAYFLMYHVFHAQGVVSVIIELFGGIIFLTIVLRKRAL	PGPT0003770_2193	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
AK009_05095	753	fatE	COG4604	Petrobactin import ATP-binding protein FatE	ATGATAAAAATTGATAATGTTAAAAAGTTCTATACTGATAAGGTGAAGATAGGACCTTTGGATATTGAAATACCAAAAGCAGGCTTTACTTCTTTAATTGGACCAAATGGCGCTGGAAAGTCTACGACACTTTTGATGATTGGAAGACTTTTAGATATGGATGAAGGTCAAATTCAGGTAGCAAATATGGATGTTTCTGAATCCAAATCAAAAGACTTAGCAAAAATTTTGACTATATTGCGACAAGAAAATCATTTTGTAACTAGGCTTACTGTTAGACAATTAGTTGGATTTGGGCGCTTTCCTTATTCAAAGGGAAGATTGACTAAAGAAGATGAGGTTATCATTTCTAAATATATTGATTTCTTAGATTTAACTAGTTTAGAGAATAGATATTTAGATGAGCTTTCTGGTGGTCAAAGACAAAGGGCATATGTAGCGATGGTATTGTGCCAAGAGACGGAATATGTACTTTTGGACGAACCTTTGAACAACCTTGATGTTGCTCGTTCTGTTCAAATGATGGAGCATTTGAGACGTGCAGCTAATGAATTTGGACGAACAATTTTGACTGTCATGCATGACATAAATTTTGCGGCTAAATACTCTGATAAAATTTGTGCTATGAAAGATGGACAAATTGCTGCTTTTGGAACAGTAGAAGAGGTTATGGATCCAACACTTTTGACAGATATTTTTGAAACAAAAATAGAAATTATTAATGGTCCTTATGGGCCAATAGCAGTTTATTAG	MIKIDNVKKFYTDKVKIGPLDIEIPKAGFTSLIGPNGAGKSTTLLMIGRLLDMDEGQIQVANMDVSESKSKDLAKILTILRQENHFVTRLTVRQLVGFGRFPYSKGRLTKEDEVIISKYIDFLDLTSLENRYLDELSGGQRQRAYVAMVLCQETEYVLLDEPLNNLDVARSVQMMEHLRRAANEFGRTILTVMHDINFAAKYSDKICAMKDGQIAAFGTVEEVMDPTLLTDIFETKIEIINGPYGPIAVY	PGPT0003760_8526	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
AK009_05096	1539	alv		Alveolysin	GTGATTTTTCTGAATATTAAGAAAAACACTAAAAGAAGAAAGTTCCTTGCATGTTTATTAGTTAGTTTATGCACTATTAATTATTCATCTATTTCCTTCGCAGAAACACAAGCAAGTAATGTAACTGATGTAACTAAAAATGCTAGTGGCATTGATACTGGTATAGCAAATCTTAAATATAATAATCAAGAGGTTTTAGCTGTAAATGGTGATAAAGTAGAGAGTTTTGTTCCGAAAGAAAGTATCAATTCAAATGGTAAATTTGTAGTAGTGGAACGCGAGAAAAAATCACTTACAACGTCACCGGTCGATATTTCAATTATTGATTCTGTAGTGAATCGCACGTATCCAGGAGCTGTACAACTTGCAAATAAAGCTTTTGCAGACAATCAACCGAGTTTATTAGTGGCTAAGAGAAAGCCTTTGAATATTAGTATAGACTTACCTGGCATGAGAAAAGAAAATACAATCACTGTTCAAAATCCGACATATGGTAATGTAGCTGGAGCAGTAGACGATTTAGTATCTACTTGGAATGAAAAGTATTCTACAACACATACGTTACCTGCAAGAATGCAGTATACAGAATCTATGGTTTATAGTAAATCACAAATCGCAAGTGCTCTTAATGTTAACGCTAAATATCTTGATAACACTCTAAACATTGATTTTAATGCGGTTGCAAATGGAGAGAAGAAAGTGATGGTAGCGGCATATAAGCAAATATTTTATACGGTAAGTGCTGAACTACCTAACAATCCATCCGATCTTTTTGATAATAGTGTTACTTTTGACGAGTTAACTCGTAAAGGTGTAAGTAATTCGGCTCCACCTGTTATGGTTTCAAATGTAGCTTATGGTAGAACCGTTTATGTAAAATTAGAAACAACATCTAAGAGTAAAGATGTACAAGCTGCTTTTAAAGCCTTACTTAAGAATAACAGCGTCGAAACGAGTGGACAGTATAAAGATATTTTTGAAGAAAGTACCTTTACTGCTGTAGTATTAGGCGGAGATGCGAAAGAGCATAACAAGGTTGTTACTAAAGATTTCAATGAAATCCGAAATATCATTAAAGATAATGCTGAATTAAGTCTTAAAAATCCAGCATATCCAATTTCATATACAAGCACTTTCTTAAAAGATAATGCAACTGCCGCTGTTCATAACAATACAGATTATATTGAGACGAAAACTACAGAATATTCAAGTGCTAAAATGACACTTGATCATTACGGTGCTTACGTTGCTCAATTTGATGTATCTTGGGATGAATTCACATTTGACCAAAAGGGTAACGAAGTACTAACACATAAAACATGGGATGGTAGCGGAAAAGACAAAACGGCTCATTACTCTACAGTTATCCCTCTTCCACCGAACTCAAAAAATATAAAAATTGTAGCAAGAGAATGTACAGGTCTTGCATGGGAATGGTGGAGAACAATTATTAATGAACAAAACGTTCCATTAACAAATGAAATAAAAGTTTCAATTGGAGGAACAACATTATATCCAACTGCTAGTATTAGTCATTAG	MIFLNIKKNTKRRKFLACLLVSLCTINYSSISFAETQASNVTDVTKNASGIDTGIANLKYNNQEVLAVNGDKVESFVPKESINSNGKFVVVEREKKSLTTSPVDISIIDSVVNRTYPGAVQLANKAFADNQPSLLVAKRKPLNISIDLPGMRKENTITVQNPTYGNVAGAVDDLVSTWNEKYSTTHTLPARMQYTESMVYSKSQIASALNVNAKYLDNTLNIDFNAVANGEKKVMVAAYKQIFYTVSAELPNNPSDLFDNSVTFDELTRKGVSNSAPPVMVSNVAYGRTVYVKLETTSKSKDVQAAFKALLKNNSVETSGQYKDIFEESTFTAVVLGGDAKEHNKVVTKDFNEIRNIIKDNAELSLKNPAYPISYTSTFLKDNATAAVHNNTDYIETKTTEYSSAKMTLDHYGAYVAQFDVSWDEFTFDQKGNEVLTHKTWDGSGKDKTAHYSTVIPLPPNSKNIKIVARECTGLAWEWWRTIINEQNVPLTNEIKVSIGGTTLYPTASISH				NA	NA	NA	NA	NA
AK009_05097	1281	ywdJ_2	COG2233	Putative purine permease YwdJ	ATGAATAAAAAACACTTTGATACGAGTTTTAGTATTCTACAATGGTTTGTGTTTCTATTAGCAAATGCAATTGCGTTACCTATCATTATTGGTGGCATATTCCATTTACCAATAGAGGATGTCTCAACATTAATGCAGCGAACTTTTTTAGTCGTGGGAGTAAGTTCGTTTCTACAAGCGTGGTTTGGGCATCGTTACCCCATTGCGGACGGGCCAGCCGGTTCATGGGTAAGTATATTTGTCATATTGGGACAAGTCGCTATGCATCAGGGACAAAGTGCAAAAGACGTATTGCAACTTTTAGAAGGCGGATTAATTATTGCAGGTATATTACTCTTCTTTCTTGGTATAACAGGGCTTGTTCATCGAATCTTACGCTTATTTACACCCTTGGTTACAGGAACCTTTCTTTTAATATTATCTCTTCAGCTTAGTGGTGTGTTACTAAAAGGAATGATAGGATTACAAGGATCTGCAACCCATCCTGACTATACAACAGCTACTATTGCTCTCTTTGTTTTTGCCCTTATTACTTTCTTATCAATTAAAGGGAAAGGATGGATGAAAAGTTACGCTGTGTTACTTGGAATTTCATGTGGTTGGCTTTTGTATGCAGTATTAGGAAAATCATCTCATATCCCTTCGCATACAACGCTAGTTAAGTTACCAGAGATATTTGCTTGGGGCACACCTAGATTCGATATTGGAATGACTCTAACTGCAACTTTATTTACATTTCTTTTAGTTGCAAATACAATCGCTGCTATTTCGGCTGTAAAACAAGTGGCTCCATTATCTAAAGAAAATGAAAAGCAAACACTGAACCGTGGTGTATGGGTCGGAGGTATATCACATATTATCTCGTCGTTGTTCTCTACAATTGGAATTGTACCATTACCTGCATCAGCAGGATTTATCCAACTAACAGGACAAAGAAAAGTGAAGTCATTCCTTATAGCAAGTCTTATATTAGCAGGAATTTCTTTTATTCCTTCAATTGTAAACTTTATATCCTTGCTACCAGGACCTATTGCTAATGCTGCACTTTTAGCTACATTTGTCCAAGTAATAGGCATTTCATTTCAATCCATTTTACGTGAAGATTTAAATCAACGCCGATTAACTATATTAGGAATTTCATTATTAATCAGTTTGGGAATATTGTTTCTTCCAGAAAGTGCATTTAGCGGAGTTCCTTCTTCCTTACAATATGTTTTAAGTAATGGCTTACTTGTGGGTACCATGCTTGTCATTCTATTAGAACAATTTTGGAAAGAGTAA	MNKKHFDTSFSILQWFVFLLANAIALPIIIGGIFHLPIEDVSTLMQRTFLVVGVSSFLQAWFGHRYPIADGPAGSWVSIFVILGQVAMHQGQSAKDVLQLLEGGLIIAGILLFFLGITGLVHRILRLFTPLVTGTFLLILSLQLSGVLLKGMIGLQGSATHPDYTTATIALFVFALITFLSIKGKGWMKSYAVLLGISCGWLLYAVLGKSSHIPSHTTLVKLPEIFAWGTPRFDIGMTLTATLFTFLLVANTIAAISAVKQVAPLSKENEKQTLNRGVWVGGISHIISSLFSTIGIVPLPASAGFIQLTGQRKVKSFLIASLILAGISFIPSIVNFISLLPGPIANAALLATFVQVIGISFQSILREDLNQRRLTILGISLLISLGILFLPESAFSGVPSSLQYVLSNGLLVGTMLVILLEQFWKE				NA	NA	NA	NA	NA
AK009_05098	471	cynS	COG1513	Cyanate hydratase	ATGAAAAAACAAGTATTAGATATGAATAGACAAGAAGCTACGCAAAAAATTTTAGCGGCAAAAATTGAAAAAGGGTTAACTTGGGAAGAAATTGCAAAAGTAAGTGAACACTCTGAGACTTGGGTTGTAACAGCGTTATTAGGACAAGCTACAATGACACGTCCAGAAGCAGAAAAAATTGGTAAACTATTAAAATTAGATGAAGAAGTAGTTCAATCATTAACAGTAGTTCCACTTCGCGGCCAAGTGATGGAAATGCCTCCTACGGACCCGATTGCATATCGTTTATATGAAATGATGTTACAATATGCACCAACTATTAGAGAGTTAATCTTAGAAAAAGCGGGCGAAGGTGTAATGAGTGCGATTAACTTCAACCTAGGTGTGGATACACAAGAAGATCCAAAAGGTGGCGATCCTCGTATCGTGATTACACTTAATGGGAAATTCTTACCATTCCGTACATGGTAA	MKKQVLDMNRQEATQKILAAKIEKGLTWEEIAKVSEHSETWVVTALLGQATMTRPEAEKIGKLLKLDEEVVQSLTVVPLRGQVMEMPPTDPIAYRLYEMMLQYAPTIRELILEKAGEGVMSAINFNLGVDTQEDPKGGDPRIVITLNGKFLPFRTW	PGPT0000615_372	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_DEGRADATION,PGPT0000615-cynS-K01725	NA	NA
AK009_05099	582	csh_2		Carbon disulfide hydrolase	ATGTTATTACAAGAAATTCTATCGTTCAATGAACATTTTGTAGAAAATAAGGAATACGCTCCTCGTGAAGCGACAAAAATGCCTAAAAAACGTATGGTTGTTGTTTCTTGCATGGATGCTCGTTTAATTGAGCTACTTCCAAAAGCTTTAGATATACACGATGGTGATGCAAAGGTTATCAGAAATGCAGGTGGTAAAATTGCTTCTGCTTTCGATAGTGTTATGCAAAGTGTTGTAGCATCAGTATACGATTTAAATGCAGATGAAATCTTCCTTATTGGACACCATAGATGTGGCGCGAGCCAAACGAATCCAAAAGGAACACTTCAAAAAATATTAGATCGCGGAGTAGCTTCATCAGAAATTTTATCAGCGATTGAATATGCTGGTATTGACCTTGAAAAATGGTTATTCGGATTCGATGATGTTTGCGACTCAACGCAAGCTAATGTTGATTTAGTAAGAAATCATCCACTTATCCCAAAAGATGTTCCTGTACATGGTTTAGTTATTGACCCTCACACAGGTAAATTAGATGTAGTGGTTGATGGATATAAAGCGTTAAATAGTAAAACAAAATAA	MLLQEILSFNEHFVENKEYAPREATKMPKKRMVVVSCMDARLIELLPKALDIHDGDAKVIRNAGGKIASAFDSVMQSVVASVYDLNADEIFLIGHHRCGASQTNPKGTLQKILDRGVASSEILSAIEYAGIDLEKWLFGFDDVCDSTQANVDLVRNHPLIPKDVPVHGLVIDPHTGKLDVVVDGYKALNSKTK	PGPT0002415_6203	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK009_05100	432	lrpC_2	COG1522	HTH-type transcriptional regulator LrpC	GTGAAAGGATTGGTTTATATCATTGATCAAACAGATTTTGAGATACTGAAATTATTAGGAGAAAACTCAAGAATACAATGGAAAGAACTTGGCCAAAAAATACATATGACGGGGCAAGCTGTAGGAAATCGAATTCGAAGATTAGAGGATTTAGGGATTATTGAACAGTATACAATTGCAATAAACCGAATCAAATTAGGACAAGTAGTGACTGCATTTGTTACTTTGTTCGTAACAACAGCTAATCACCAAGAGTTTATGAATTTCTTTCAAGGAGAAGAAGGGATTTCTGAAGTACACCGTATAAGTGGTGAGGGGTGTTATTTATTAAAAACACATTTTGCTTCCAACGAAGACTTAGATAACTTTCTAGGACGACTATTAAAATACGGGAACTATCGTGTTAACTTATCAATAGGAAAGTTGAAATAA	MKGLVYIIDQTDFEILKLLGENSRIQWKELGQKIHMTGQAVGNRIRRLEDLGIIEQYTIAINRIKLGQVVTAFVTLFVTTANHQEFMNFFQGEEGISEVHRISGEGCYLLKTHFASNEDLDNFLGRLLKYGNYRVNLSIGKLK				NA	NA	NA	NA	NA
AK009_05101	966			hypothetical protein	ATGAACAAAAAAACAAAAGCACTATCATCCGTACTGCTCGGATTCACATTAGCATTAACAGGGTGTGCTGGTACTAAAGCTGAAGAAAATCATAGTAAACAAAAACAAGAACAAGTTGCTAAAGAAACAAAAAAGGAAAATAAATTAACTAAAGGGCAAAAAATGGCTAATATTCTTAGCAAGACAAATTGGCAAGGTACACGAGTGTATGACAAAGATAAGAATGACTTAACAAAAGAGAATGCAAACTTCATTGGTCTTGCAAAATATGATGCGAAGTCAGGCAGATATGAATTTTTTGATGCTAAAACAGGTGCAAGTCGTGGCGATAAAGGAACTTTCTTTGTCACAAATGATGGGAAGAAGAGAATATTAATTTCAGAATCAATGAAGTATCAAGCTGTCGTTGACATGACAAAACTAAATAAAAATGTATTTACTTATAAACGAATGGGGAAAGACGCTAACGGTAAAGATGTAGAAGTTTTCGTTGAACATGTTCCATATAAAGAAAAAGAACTTTCTTTCACTGATCCGGACAAGCAGCTGAACACGACTACAGGAGATATTGTTAAAAATGTTGATGGAGATAAAATTTTAGGCGGTACCCTTTGGCACGGAACAAAGATATTAGACGAAGCTGGTAACGATGTAACACAATTTAATTCGAATTTTATAAGTCTAGCAAAATTTGATGACAAATCTAATAAATATGAGTTCTTCAATAGCGAAACAGGTCAAAGCCGCGGTGATTATGGCTACTTCGATGTTGTACATGAAAATAAAATAAGAGCCCATGTTTCAATTGGAAATAATAAATATGGTGCTGCTCTTGAACTTACTGAACTAAATAAGAATAAATTTACGTATAAAAGAACTGGTAAAGACCAAGCTGGTAAGGATATAACTATATTCGTTGAACATGAACCTTATAAAGGGGATATGAAACCACAATTTAGCTTTTAA	MNKKTKALSSVLLGFTLALTGCAGTKAEENHSKQKQEQVAKETKKENKLTKGQKMANILSKTNWQGTRVYDKDKNDLTKENANFIGLAKYDAKSGRYEFFDAKTGASRGDKGTFFVTNDGKKRILISESMKYQAVVDMTKLNKNVFTYKRMGKDANGKDVEVFVEHVPYKEKELSFTDPDKQLNTTTGDIVKNVDGDKILGGTLWHGTKILDEAGNDVTQFNSNFISLAKFDDKSNKYEFFNSETGQSRGDYGYFDVVHENKIRAHVSIGNNKYGAALELTELNKNKFTYKRTGKDQAGKDITIFVEHEPYKGDMKPQFSF				NA	NA	NA	NA	NA
AK009_05102	435	lrpC_3	COG1522	HTH-type transcriptional regulator LrpC	ATGTCCATGTTTGATTCAACAGATTTTAAGATTATACAATTACTACAAGAAAACGCTAGAATGAACTGGAAGGAAATTGGGGAGATAGTACATTTGACTGGTCAGGCTGTCGGGAAACGAATTCATAAATTAGAAGAGGCAGGTGTCATTCAAAAATATACGATAAATATCGATAGGGCTAAGCTAGAAGGATCTATTATGACCTTTGTTACACTATTTTTGCATGCACCGCACTATCATAATCAAATTCAAAAATTTTTTGAAAAAACGGACGTAATTACTGAAATGTATCGTATAAGCGGTGATGGGTGCTATGTCATGACTCTTCACACATCTTCGCATCAGCAATTAGAAGAGACTCTTGCAGATGTTTTACATTATGGTGATTATCGTATAAATACTGTCATTAAGACAATGGAAAAAAAGAAAGAATAA	MSMFDSTDFKIIQLLQENARMNWKEIGEIVHLTGQAVGKRIHKLEEAGVIQKYTINIDRAKLEGSIMTFVTLFLHAPHYHNQIQKFFEKTDVITEMYRISGDGCYVMTLHTSSHQQLEETLADVLHYGDYRINTVIKTMEKKKE				NA	NA	NA	NA	NA
AK009_05103	558	sttH_1		Streptothricin hydrolase	ATGAACGAAGCGTTACTATTAGTCGACATACAAAATGATTACTTTGAAGGTGGCAATATGGAATTACATCAACCTGAAAAAGCCGCACAAAAAGCGAAAGAAGTTTTGAGAGTATTTCGCGAAAAGCATAAAACAGTTATTCACGTACAACATATTGCGAACAACGAAGGGGCTACTTTCTTCTTACCCGATACAGTAGGTGTTCAAATTTATGATGATGTACAACCGATTGCTAACGAAAGAGTCATTCAAAAACATCATCCTAACAGTTTTTTAAGAACAAATTTATTAGAAACATTAAAGACAGAAAAAATAGATCAACTAGTCATTTGCGGTATGATGACTCATGTATATATTGATGCAACAGTACGCGCTGCCAGTGACTTCGGATTTCAATGTATTGTAATTGAAGATGCTTGTACAACAAAAGATTTAGAATTTCAAGGAAATCTAATCCCCGCAGTACACGCTCATCAATCGTTCATGAGTGCATTAGAGTTTGGTGATATTTATGCAACAGTCATGTCAGCAAACTGTTTTATAAACAAGAGCAAATAA	MNEALLLVDIQNDYFEGGNMELHQPEKAAQKAKEVLRVFREKHKTVIHVQHIANNEGATFFLPDTVGVQIYDDVQPIANERVIQKHHPNSFLRTNLLETLKTEKIDQLVICGMMTHVYIDATVRAASDFGFQCIVIEDACTTKDLEFQGNLIPAVHAHQSFMSALEFGDIYATVMSANCFINKSK				NA	NA	NA	NA	NA
AK009_05104	957			hypothetical protein	GTGAAAGAAAGAAAAATACCGATTTATATAAGACAGTTAGAAGCGCTTCTTAGAAGGTTACCTGTATATCATCCGAAACGAAATATAATTGGAGAAAACTTGGCAAAACACATGGCGGGGTATAAAGGGGAGCAAGCGATTGATTATCCACTTAGTTTTATTTCTGAGAAAGAGTACAGTGTTTTACATGATGTTCGCTTATCTAATCATGATCAATACTTTCAAATTGATACTATTATCATTTCCACAAAGTTTCTTCTGTTTCTTGAGATAAAAAATATAGCAGGTACATTAATATTTGATACAAAGTTTAATCAACTTATCCGAATAACAGAAGGAAATTCAGAGGGATTTCCAGACCCTGTTTTACAAATAAAAAGGCAGGAAATACAACTTAAAAAATGGTTAAGCTTACATGGATTTTCTTCTAGTCTTCCAATCGAGTCCCTCGTTGTTATTAGCTCGCCCCGTACCATTATAAAATCTTCAGATCACAATCTTCTTCATACAATTATTCATAGTGCAAATCTACCTCATAAAATAAAGTGGTTTGAAAGTAAATATAAGAAAAAAGTTATAGATAATGTAGATAGGCTCATTCATCAAATAATAGCGGAGCATTCTCCACTTCAACAAAATATACTTGAGCAATATAAAATAGAAAAAGAGGAGTTGCTAAATGGAGTACAATGTGAGAAATGCTTAGTTATTCCAATGGTTAAAGTTAAGAAGGGGTGGCGTTGTACAAGTTGTAAAGATTTTTCAAAAGTGGCACATGAGGGTGCTATACGAGATTATGCATTGCTCATTAGTACGACATGTACGAACGGTAATTTGAAAGAGTTTCTCCATGTTTCGTCAGGTATGGTTGTAAACAGAATTCTCCACACACTAAATCTGGCCTATACTGGCAACAACAAAGGACGAATATATGATTTAACTTCTTTCCAATCGTAA	MKERKIPIYIRQLEALLRRLPVYHPKRNIIGENLAKHMAGYKGEQAIDYPLSFISEKEYSVLHDVRLSNHDQYFQIDTIIISTKFLLFLEIKNIAGTLIFDTKFNQLIRITEGNSEGFPDPVLQIKRQEIQLKKWLSLHGFSSSLPIESLVVISSPRTIIKSSDHNLLHTIIHSANLPHKIKWFESKYKKKVIDNVDRLIHQIIAEHSPLQQNILEQYKIEKEELLNGVQCEKCLVIPMVKVKKGWRCTSCKDFSKVAHEGAIRDYALLISTTCTNGNLKEFLHVSSGMVVNRILHTLNLAYTGNNKGRIYDLTSFQS				NA	NA	NA	NA	NA
AK009_05105	405	psiE_2	COG3223	Protein PsiE	ATGAAGTCGTTTAATATCGATCATGTTATAGCTAGTATTTTGCAATGGATATTAAATATAGCTTTAATTATATTATCCATTGTGTTATCGATTTTCTTAGTGAATGAGACGATCACGTTTGTGCAGTATATTTTTTCGTCAAAAGAGTATACGTCTTATAAATTGGTTGAAAGTATCATCGTCTATTTCTTATACTTCGAGTTCATTGCATTAATTATTAAGTATTTTAAATCGAATTATCATTTCCCGTTACGTTATTTTATTTATATCGGAATTACGGCTTTAATTCGGTTGATTATTGTGTCTCATGAGGAACCGATGGAGACGTTATTATACGCAGGAGCAATTCTTGTTTTAGTTATTGCTTTATACATATCGAATATGAGAGATTTGAGAAAAGAGTAG	MKSFNIDHVIASILQWILNIALIILSIVLSIFLVNETITFVQYIFSSKEYTSYKLVESIIVYFLYFEFIALIIKYFKSNYHFPLRYFIYIGITALIRLIIVSHEEPMETLLYAGAILVLVIALYISNMRDLRKE	PGPT0015090_558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
AK009_05106	477			hypothetical protein	ATGAGAATACAATATAGAAAATATGCGTTATCTGTAATCTCATTAGCCTTATTTACTCTTATTGGTTGTACTAATAATGAGCAAAAAAACGATAAAAACGAGACATATACTTTTGAGGCTTCCAAAAAACGTGGTGATATTATTGAGAAAAACGATGAAGTTTATAACATAGAGAAATTAGATACTTTCGTAAAAAACTATAATTCAAATAAAGACGATTCAGTTAGAATTACTAAATTTAATAACAAGAACGAGCCTATTATTATTGATTTAACTGTAAAAAAAGAAAAGGAATCTACCTCCGTCTATTATGATGTCGACTACACAAAAACAAATGAGAAACATAATGAAAACCAAGAGATACAATATTCGAATACTACATGTCAAAAGATAAAGAAAGATATTGAAGACAACAAAGTAACTTATAAATTAGAATGTCCTGACACTATTCATTTGATTACAGCCCCAAAATCATAG	MRIQYRKYALSVISLALFTLIGCTNNEQKNDKNETYTFEASKKRGDIIEKNDEVYNIEKLDTFVKNYNSNKDDSVRITKFNNKNEPIIIDLTVKKEKESTSVYYDVDYTKTNEKHNENQEIQYSNTTCQKIKKDIEDNKVTYKLECPDTIHLITAPKS				NA	NA	NA	NA	NA
AK009_05107	516	speG_2	COG1670	Spermidine N(1)-acetyltransferase	ATGAATCAGGAATTGAAGTTACGTCCATTAGAACGAGAAGATTTAAAGTTTGTACACGAACTGAATAATAATGCCCATATTATGTCGTATTGGTTTGAAGAGCCGTATGAGGCATTTGTGGAGCTGCAAGACTTATACGATAAACATATACATGATCAAAGCGAACGCCGATTTATCGTTGAGAAAGACAATGAGATGGTTGGATTAGTTGAGTTAGTAGAAATCGATTATATTCATCGTAGAACAGAATTCCAAATTATTATTGATCCAAATTATCAAGGATATGGTTATGCAGCAGAGGCGACGCGTTTAGCGATGGATTACGCTTTTTCTGTATTAAATATGCATAAGATTTATTTAGTTGTGGATAAAGAAAATGAGAAAGCAGTCCATGTGTATAAAAAGGTTGGATTTATAGTGGAAGGCGAGCTTTTAGACGAGTTTTTCGTTGATGGTAACTATCATAATGCGATAAGAATGTGTATGTTTCAGAAGGAATATTTTAAAAATAAGTAG	MNQELKLRPLEREDLKFVHELNNNAHIMSYWFEEPYEAFVELQDLYDKHIHDQSERRFIVEKDNEMVGLVELVEIDYIHRRTEFQIIIDPNYQGYGYAAEATRLAMDYAFSVLNMHKIYLVVDKENEKAVHVYKKVGFIVEGELLDEFFVDGNYHNAIRMCMFQKEYFKNK	PGPT0007790_1057	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
AK009_05109	1548	yheS_1	COG0488	putative ABC transporter ATP-binding protein YheS	ATGAGTTTACTTAAAGTTGAAAGTTTATCACATAGTTTTATTGATAAAGTATTATACGAAAATGCTTCTTTTGATTTGCATAAAGGCGAGCATATGGGAATTGTTGGACAGAATGGTGCAGGGAAAAGCACATTAATGAAAATATTGGTGGGGGAAATTATTTCTGATAAGGGGAGCATTAAGTGGCAACCTAATATTCAAATTGGACATCTTGATCAATATGCAGAAATTGATGGGAGCTATACTATTTCACAATATGCAAAGCGAGCCTTTTATGATTTGTTTGAAATGGAAAAGAGAATGAATAAGTTATATGAAGAAAGTGCGATGACTGGAGATGAGAATCAACTATTGAAAGCAGCTGAAATACAAGAACAGCTTGAGGCTCGTGATTTTTATTCAGTAGACAGCGTAATAAATAAGGTGGCAGCCGGTTTAGGTATTGATGCGATTGGGATGGATCGTGTTATTGGTGAATTAAGCGGAGGGCAGCGTGCAAAGGTAATTTTAGCAAAGCTTTTATTAGAAGAGCCTACTATTTTATTACTAGATGAACCGACGAATTTTCTCGATAAGGAGCATGTGGAGTGGCTTGCTAATTATTTAATGAATTTTGAAGGAGCGTTTATTGTCGTATCACATGATTTTGATTTTCTGGAAAAGGTAACTTCTTGCATATGTGATGTAGAGTTCGGAACGGTTAAGAAGTATTACGGAAAATACTCAGATTTTGTAAGACAAAAGGAGCATTTGCGAAAAGATTATATTCGCCAATATTATGCACAGCGAAAGAAAATTGAAAAAACGGAAGAGTATATTCGTAGAAATATTGCTGGGGTGAATTCAAAAATAGCGCAAGGTCGTAGAAAACAATTGGAGCGTATGGAAAGAATTGCGCCACCAAGTTTTACTCATAAACCGTCTATTCATTTTCAGGAACTTCCCATTTCAGTTCAGACAGTTCTTGAAGTAAATAACCTTGAAGTTGGTTACGATTTCGCTCTCTTACCAAAGTTAAATTTTTCAGTAATGGGTGGGCAAAAACTTGTTATTACAGGTTTCAATGGAGTAGGGAAATCTACTTTATTAAAAACAATCGTTGGAAATATTGCTAGCATTTCTGGAGAGTTTCACTTTTCAGAGCAAATAAAGATTGGATATTATGAGCAAGATTTAAATTGGAGCAATGATTCTTTAACGCCGCTTCAAATTATTTCAGAACAGTTTCCTAAACTGAATATGAAGGAAATACGCCATCATTTAGCTGCGTGTGGTGTGAAGGATACGCACGTTTCGCAAGAAATTCGGACGTTAAGTGGTGGTGAACAATCGAAGGTGAAACTGTGCGGATTATTACTATCACCTTGTAAATTCTTAATTTTAGATGAGCCGACAAATCATTTAGATGCAGAAGCGAAGGAAGCTTTGCAAAAGGCGCTAATTCAGTTTAAGGGCAGCATTATACTCGTATCTCACGAAGCAAGTTTTTATCTTGATTGGGCAGATAGCATCTTTGATATAGAGACAGGATTAGTTAAGGGGGTGTGA	MSLLKVESLSHSFIDKVLYENASFDLHKGEHMGIVGQNGAGKSTLMKILVGEIISDKGSIKWQPNIQIGHLDQYAEIDGSYTISQYAKRAFYDLFEMEKRMNKLYEESAMTGDENQLLKAAEIQEQLEARDFYSVDSVINKVAAGLGIDAIGMDRVIGELSGGQRAKVILAKLLLEEPTILLLDEPTNFLDKEHVEWLANYLMNFEGAFIVVSHDFDFLEKVTSCICDVEFGTVKKYYGKYSDFVRQKEHLRKDYIRQYYAQRKKIEKTEEYIRRNIAGVNSKIAQGRRKQLERMERIAPPSFTHKPSIHFQELPISVQTVLEVNNLEVGYDFALLPKLNFSVMGGQKLVITGFNGVGKSTLLKTIVGNIASISGEFHFSEQIKIGYYEQDLNWSNDSLTPLQIISEQFPKLNMKEIRHHLAACGVKDTHVSQEIRTLSGGEQSKVKLCGLLLSPCKFLILDEPTNHLDAEAKEALQKALIQFKGSIILVSHEASFYLDWADSIFDIETGLVKGV				NA	NA	NA	NA	NA
AK009_05110	1194	bacE_2		Putative bacilysin exporter BacE	ATGAGTGAAAACAATTGGAAAACGAAAATTATATTATTTTTGACCGCTCAAACTATTTCGTTGTTCGGTTCCTCTCTCGTGCAATACGCGATTATATGGTATATCACCCTTACAACATCATCAGGAGTGATGTTGACTATTTCAACTGTTTGCGGTTTTCTACCACAAATTGCGATATCTTTGTTTGCAGGTGTTTGGATTGATCGTTATGACCGTAAAAAGATGATTATGTTATCGGATGGGGTTATAGCGATTGCGACGTTAGTTTTAGCAAGTTTATTTTTAACAGGATATAAAAGTATTTGGTTACTTTTTATTGTGTTACTCATTCGTTCAGCTGGAACAGGAGTACAAACGCCAGCTGTGAATGCATTAATTCCGCAAATCGTTCCGAAAGAGTATCTTATGAAAGTAAATGGAATAAATAGCAGTATTACATCTTTAATTATGTTTCTTTCTCCAGCAGCAAGTGCTGCGATTCTTTCTATTGCCAGCATTGAAACAACATTTTTTATTGATGTTATTACAGCCATGTTTGGAATTAGTATTATGTTTGTTATTCAGGTCGAAGGACATGTGAATGTAGAGAGTAAGCAAAAATCTAATCTACAAGGAATTAAAGAAGGGTTCTCTTATTTAAAAGAAAATGTATTTATTAAAAGGCTAATCCTTTTATTGATTATCGTCATGATTTTAATAAGTCCAGCTGCTTTTTTAACGCCTTTAATGGTAACTCGTTCTTTCGGGGCCGAAATGTGGAGACTTACTGCGAGTGAGATGACCTTTAGTGCGGGTGCGGCAGCTGGTGGCGTATTGATTGCGGCGTGGGGTGGTTTTCCTAATCGTATGCATACAACAGCGCTAGCTTGTGCATTATATGGACTGCTTATGATTGGACTCGGAATAGCACCGATATTTACTATGTATTTAGTATTTAATTTTTTAATTGGTATAACAATGCCGTGCTTCAATACACCAGTTACTGTGTTATTGCAGGAGAAAGTAGAACCATCGATGCACGGGCGGATGTTTAGCCTTGTACAAATTGCGAATTCATGCGCGCTTCCTTTAGGAATGATAATATTTGGTCCATTGTCGGATATGTTTAGTGTAGAGGTTTTATTAATTTATGCTGGGATATTCGTGCTATTTTGCGCAATGTATGTTGTATTAAGCAAGAGGTTTGAAGTGTAA	MSENNWKTKIILFLTAQTISLFGSSLVQYAIIWYITLTTSSGVMLTISTVCGFLPQIAISLFAGVWIDRYDRKKMIMLSDGVIAIATLVLASLFLTGYKSIWLLFIVLLIRSAGTGVQTPAVNALIPQIVPKEYLMKVNGINSSITSLIMFLSPAASAAILSIASIETTFFIDVITAMFGISIMFVIQVEGHVNVESKQKSNLQGIKEGFSYLKENVFIKRLILLLIIVMILISPAAFLTPLMVTRSFGAEMWRLTASEMTFSAGAAAGGVLIAAWGGFPNRMHTTALACALYGLLMIGLGIAPIFTMYLVFNFLIGITMPCFNTPVTVLLQEKVEPSMHGRMFSLVQIANSCALPLGMIIFGPLSDMFSVEVLLIYAGIFVLFCAMYVVLSKRFEV	PGPT0027965_1367	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
AK009_05111	234			hypothetical protein	ATGAGTAGAGGAGAATGTGAAATGAAAAATAAATACGTAGTAGCTATTTCTTTAATGATTTTAGCGATTATTTCTTTAACTATACATGCTTCAAACAGTAAAATAGGAGCGGATGGATTCCTTGAAGAACCTTTCTTTTTCCTAGTACCGATAAGTTATGTATTGTTCCTTAGTGGTATTGGTGTATTACTATTTGGATTTATTACTTCAAAGCTGAAAAAGGGCAATAGATAG	MSRGECEMKNKYVVAISLMILAIISLTIHASNSKIGADGFLEEPFFFLVPISYVLFLSGIGVLLFGFITSKLKKGNR				NA	NA	NA	NA	NA
AK009_05112	240			hypothetical protein	ATGATGAATCATTATTTTTATAATGGTAGACAAGTAGGAGCAGCTATTACGCTGGCTGGGGCACAAGGGACAATTCATGCTGTGAATCAGGCTATTCAAATGCAACAACAAGCATATTTTGCACAAATGATGCAAAGTCAGTATATGCCGTATTCACAACTTCCGATGCAAATTGTACATTACGATGTACATCCAGCTGGTTTATTTTCCATTCCATATGGCGGGACATACTTCTTATGA	MMNHYFYNGRQVGAAITLAGAQGTIHAVNQAIQMQQQAYFAQMMQSQYMPYSQLPMQIVHYDVHPAGLFSIPYGGTYFL				NA	NA	NA	NA	NA
AK009_05113	357	crcB_1		Putative fluoride ion transporter CrcB	ATGATAGAAGCTTTATTAGTGGCAACAGGTGGATTTTTCGGCGCGATTACACGATTTGCAATTAGCAATTGGTTTAAGAAAAGAAATAAAACACAATTTCCAATTGCTACATTCCTTATTAATATAACAGGGGCATTTTTACTTGGATATATAATTGGCAACGGAGTCACTACAGGCTGGCAACTATTATTAGGTACTGGATTTATGGGCGCATTCACTACATTTTCTACGCTTAAATTAGAATCTGTTCAGCTTCTCAATCGTAAAAAACTGTACATCTTCCTTTTATATTTAAGTGCTACTTACATAATTGGTATCGCCTTTGCCTTCCTTGGAATGAAGCTAGGCGGAATATAA	MIEALLVATGGFFGAITRFAISNWFKKRNKTQFPIATFLINITGAFLLGYIIGNGVTTGWQLLLGTGFMGAFTTFSTLKLESVQLLNRKKLYIFLLYLSATYIIGIAFAFLGMKLGGI	PGPT0004985_5283	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
AK009_05114	435	crcB_2	COG0239	Putative fluoride ion transporter CrcB	TTGAGCAAGCTATTTAAAGAGGTGAAAAAATTGATTTATATTATCGTTGGCATAGCCGGTATATTAGGAGCCCTTTCTCGCTATTATTTAGGTCTTACTATTCATACTTCATGGAATCATTCATTTCCGCTAGCTACATTGCTCATCAACTTACTCGGCTGCTTCCTATTAGCGTGGCTAACTACCTATATCGCTCGGCGAAACATCTTACCATTAGAAATTATCACAGGCATTGGGACTGGATTCATCGGTTCCTTTACGACGTTTTCAACATTTAGTGTAGAAACTGTGCAACTAATCAATCATTCTGAATGGGATACGGCTTTCTTATATGTATCATGCAGCATACTTGGTGGTCTCATTATGTCTGGTCTTGGCTATACACTAGGTGATTTCTTAATTAAGAAACATCTTACGGAAGGTGATCACTTATGA	MSKLFKEVKKLIYIIVGIAGILGALSRYYLGLTIHTSWNHSFPLATLLINLLGCFLLAWLTTYIARRNILPLEIITGIGTGFIGSFTTFSTFSVETVQLINHSEWDTAFLYVSCSILGGLIMSGLGYTLGDFLIKKHLTEGDHL	PGPT0004985_819	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
AK009_05116	1059			hypothetical protein	TTGAAGAAATTTTTAAAAATCGTATTTATATGTGTTTTAGTATTAGCGGGCATTGTAGGAGGATTTCTAGCGTATATGACACTTACTAAAGAACAGCCTGCTGATGTTATAAGCTTGAAGGTGGAGAATAATAAGGAGCGCGTATTAGCGACTGGAAATGAATTTAAAGTTACAACATTTAATATTGGATATGCTGGGTTAGATAAGGATCAAGATTTCTTTATGGATGGTGGAAAGGGATCTGGTTCAAGTAGTAAAGAGCAAACGGAAATTAATTTAAAGAATATGCTTTCGTTTTTACAAAATGAGAATAGTGATTTTGCGCTATTACAAGAAGTTGATATAAAGTCACTTCGTTCATTTGATGTAAATGGACATGAATTTTTGAAAAAAGGATTACCTGATTATGTTTCGTCATTTGGCAAGAACTACGATACGAAATGGGTTCCAGTGCCAATAACAAATCCAATGGGATATGCGGAGGCTGGATTAAGTACGTTTTCTAAATACACTGTTCAAGAAGCGAAGAGGTTCCAGCTGCCTGGAATGGAGCCTTGGCCAAAGCGTTTGTTTGATTTAGATCGAGCAATTGTGGAATATAAAATTCCTGTTAATAATGGGAAACATGTTAGACTCGTAAATCTACATTTGTCTGCTTATGATGAAGGCGGGAAAATTAGAAAACAGCAAGTAGAGTATTTAAAAGAATATATGAACAAGCATTATGAAAATGGTGATTACGTAATAATGGGCGGAGATTGGAATCAATTAGTTTCGAACGCTCAATTAAGTGATCCGAAGTTTGTGAAAGAGCGTCCTGAGTGGTTAGTAGAGTTACCGAAGGATTTTACGGACGGTGGCTTTAAGTGGGCTGTAGATCCGTCTGTTATGACTGTGAGAGATGATGTAAAGAAATATGTCGAAGGTGAAAATTTCGTCACTATTATTGATGGCTTTATCGTTTCACCGAATGTAGAGATTGTAAATGTACAAGGGAAAGATTTAAAGTTTGAAAATAGCGATCATAACCCAGTGAGTGCGGTATTTAAACTGAAGTAA	MKKFLKIVFICVLVLAGIVGGFLAYMTLTKEQPADVISLKVENNKERVLATGNEFKVTTFNIGYAGLDKDQDFFMDGGKGSGSSSKEQTEINLKNMLSFLQNENSDFALLQEVDIKSLRSFDVNGHEFLKKGLPDYVSSFGKNYDTKWVPVPITNPMGYAEAGLSTFSKYTVQEAKRFQLPGMEPWPKRLFDLDRAIVEYKIPVNNGKHVRLVNLHLSAYDEGGKIRKQQVEYLKEYMNKHYENGDYVIMGGDWNQLVSNAQLSDPKFVKERPEWLVELPKDFTDGGFKWAVDPSVMTVRDDVKKYVEGENFVTIIDGFIVSPNVEIVNVQGKDLKFENSDHNPVSAVFKLK				NA	NA	NA	NA	NA
AK009_05117	1503			hypothetical protein	ATGGAGTGGTTAAAGAGGACTTGTTTTTCTAACCTTGAGAAAGAATCACAGAAAAATCATTTATTACTGTTTATAACGATTTGTAGTTTCTGCCTTGGGATAATCGCGATTGGGTATTATGGATATATTTTTACAGAGAGAGCAATAGCGTTTTGGATTTGTGGTATTTCTGTCGTTGCATTTGGAACGCTTTTTACTTTTATAAAAAGTATGGAATCAGCGTATAAATATATCATGACATTTATGTTGCTTACCATGTCTTACATCATGGTACAAGCTTTTAATGAAAGCCCGGCTGTATTTCAAATGGTTTATTTTACATTAGCTGTTTCACTTATTTACTTAAGTGAGCGCCTCATTTTAATTCTTGGTGGGGTAGCTGTTGTAATCACATTTATTCTTTGTAGCTATTGGCCGAAGCAATTTTTTGCTTATACAGCCTCGTCTGAAGCTGCTAATTTTGCAAGTTTGTTAGCGATTGTAACAATTGCTATGTGGGGCGTCACGAAAATCGGTTCTAATCTGCTCCTTCATTTAAGTGATGAGAAGCAAGAAGTAATGAGAAAAGCTCAGGAGTTAGAAGAGACGCAAAGACTTATTGAAGAAACAGTTGTGAAACTAGATAGTAATTTCAATCATTTAAGACAAAATATGAACACGTCGATGGAATCGATGAGTGAAATTAATTTTGCCTTTGAAGAGGTAGCAGTTGGTACGCAATCACAATCAGAAATGATGTATCGTTCGGTAGAGGTATTGAATGATATGGAGGGAAATATTGAACAAATCATCTCTCAAGTAAGAACTGCATCGGCTCGTGTGGATGAAAGTTTAGACATTTCAAAAGGTAGTGTACATACTTTAAGAAATTTTGAAGCTAACATGAGAAGTTTAAATGATGTTGTTTCACAGTCTGGAATTATATTTAGAGATTTAATGATGCAATCGAAACAAATTAATGAAATTGTAGATGTAATAACGAATATTTCAAGTCAGACGAGTTTGCTAGCTTTAAATGCAAATATTGAAGCTGCGAGGGCAGGTGAGCATGGAAAAGGTTTTGCTATTGTAGCGAGTGAAGTGTTACAGCTTGCTGAAGAATCAAATCATTCTGCGGGAAGAATTCAAGGGATTTTGAAGGAGTTTAGTAATCAAGCAAGTAAGGTAGAAGTGCAGGTAGAGAAGTCAGAAAGAGTACAAGAAGAGTGTAACGAAATGTTAGCAAGCGTTTTAACAAACGTAACTGATTTAGGGAAGTTTATTGATGCGATTAATAAAGTAATGCGAGAGGTTGTTATTCATCAAGAAAGTTTCCAAGTTAAAACGACGAATATTGTAAAGGATGTTACGCATGCTTCTAACGTAATTCAGCAAACTTCTACAGCTACAGAAGAAGTGCTAGCGAGTGTGGAAGAAGAAAAACATCGAAATGATATATCGGTGAAGACGTTACATACTGTTAGCGAGCAAGTGAAGTTACTAGAAGATATTCTAGAAAAGTAA	MEWLKRTCFSNLEKESQKNHLLLFITICSFCLGIIAIGYYGYIFTERAIAFWICGISVVAFGTLFTFIKSMESAYKYIMTFMLLTMSYIMVQAFNESPAVFQMVYFTLAVSLIYLSERLILILGGVAVVITFILCSYWPKQFFAYTASSEAANFASLLAIVTIAMWGVTKIGSNLLLHLSDEKQEVMRKAQELEETQRLIEETVVKLDSNFNHLRQNMNTSMESMSEINFAFEEVAVGTQSQSEMMYRSVEVLNDMEGNIEQIISQVRTASARVDESLDISKGSVHTLRNFEANMRSLNDVVSQSGIIFRDLMMQSKQINEIVDVITNISSQTSLLALNANIEAARAGEHGKGFAIVASEVLQLAEESNHSAGRIQGILKEFSNQASKVEVQVEKSERVQEECNEMLASVLTNVTDLGKFIDAINKVMREVVIHQESFQVKTTNIVKDVTHASNVIQQTSTATEEVLASVEEEKHRNDISVKTLHTVSEQVKLLEDILEK	PGPT0015710_24646	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
AK009_05118	396			hypothetical protein	ATGATTGAAGTTAAGACTTCTGAACTTAGTGATGGAGAATTTAATAGAGGTGTATTTGCAACTCGTGATATTAAAAAGGGTGAGTTGATTCACTCAGCACCAGTTATCTCTTATCCGAATGAACAGCATGAACACATTGAAAAAACGTTACTTGCTGACTACGCATTTGAGTATGGGGTAAATCATACGGCATTCCTGTTAGGATATGGCATGTTATTTAATCATGCATATAATCCGAATGCAACGTATGAAATTGTCTTCGAGAATCATACTTTTAACTTCTTCGCGTATAAGGATATAAAAGCGGGAGAAGAAATTTTAATCAATTATAATGGTGAAGTGGATGACGATGAGCTATTATGGTTTGATAAGGAAAAAGAAGAGAACGAAAAATAA	MIEVKTSELSDGEFNRGVFATRDIKKGELIHSAPVISYPNEQHEHIEKTLLADYAFEYGVNHTAFLLGYGMLFNHAYNPNATYEIVFENHTFNFFAYKDIKAGEEILINYNGEVDDDELLWFDKEKEENEK				NA	NA	NA	NA	NA
AK009_05119	918	murB_2		UDP-N-acetylenolpyruvoylglucosamine reductase	ATGAATATGCAAGAGGTTTATAAATATTTAAGTACGGTATTGCCTGAAGGACATGTTAAACAAGATGAAATGTTAAAGAATCATACGCATATTAAAGTTGGCGGAAAAGCAGATGTTTTCGTTGCGCCTACAAATTATGATGAAATTCAAGAAGTTATCAAATATGCGAACGAATATAATATTCCAGTTACGTTTTTAGGAAATGGATCGAATGTCATTATTAAAGATGGTGGAATTCGCGGGATTACAGTAAGTTTAATTCATATTACAGGTGTTACTGTAACAGGAACGACGATTGTAGCACAGTGTGGCGCAGCAATTATTGATGTATCACGCATTGCATTAGATCATAATTTAACGGGTCTTGAGTTTGCTTGTGGTATTCCAGGTTCAGTTGGCGGAGCATTATATATGAATGCTGGTGCATACGGCGGTGAAATTTCGTTTGTATTAACAGAAGCTGTCGTAATGACAGGTGATGGAGAGCTACGTACTTTGACGAAAGAAGCATTTGAATTTGGATATCGTAAGAGTGTATTTGCGAACAACCATTACATTATTCTTGAAGCGAGATTTGAACTTGAAGAAGGTGTACGTGAAGAAATTAAAGCAAAAATGGATGATTTAACGTTTAAGCGTGAGTCAAAACAGCCTCTAGAATACCCTTCTTGTGGTAGCGTATTTAAGCGCCCACCAAATAACTTTGCTGGTAAGTTGATTCAAGACTCAGGACTACAAGGTAAGCGAATTGGTGGAGTAGAAGTTTCTTTAAAACATGCTGGATTTATGGTGAATGTTGATAACGGAACAGCACAAGATTACATCGATTTAATTCACTTCGTACAAAAGACAGTTGAAGAGAAATTTGGCGTGAAGTTAGAGCGAGAAGTAAGGATTATTGGAGAAGATAAGGAATAA	MNMQEVYKYLSTVLPEGHVKQDEMLKNHTHIKVGGKADVFVAPTNYDEIQEVIKYANEYNIPVTFLGNGSNVIIKDGGIRGITVSLIHITGVTVTGTTIVAQCGAAIIDVSRIALDHNLTGLEFACGIPGSVGGALYMNAGAYGGEISFVLTEAVVMTGDGELRTLTKEAFEFGYRKSVFANNHYIILEARFELEEGVREEIKAKMDDLTFKRESKQPLEYPSCGSVFKRPPNNFAGKLIQDSGLQGKRIGGVEVSLKHAGFMVNVDNGTAQDYIDLIHFVQKTVEEKFGVKLEREVRIIGEDKE	PGPT0024115_3573	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
AK009_05121	1263	tyrS_1		Tyrosine--tRNA ligase	ATGAATATTATTGATGAATTAGAATGGCGCGGCGCCGTTAATCAGCAGACTGACGAAGAAGGCTTACGTAAGCTAGTAGAAGAGAAAAAGATTTCACTATACTGCGGAGTTGATCCAACTGGTGATAGTATGCATATCGGACATTTGATTCCGTTTATGATGATGAAGAGATTCCAATTAGCTGGCCATCATCCTGTTATTTTAATTGGCGGGGCAACAGGAACAATTGGTGATCCGAGTGGACGACAATCAGAGCGTCAACTTCAAACGTTAGAAGTGGTTCAGCATAATGTAGATGCGTTAACAGCACAAATGAAAAAGCTATTTGATTTTGGTGGAAATAGCGAAGTGAAGATGGTAAATAACTATGATTGGACACATGAAATAAATATTATTGAGTTTTTACGTGATTACGGGAAAAACTTTAGCATCAATAGCATGTTAGCGAAGGATATTGTAGCAAGCCGCTTAGATACAGGTATTTCTTTCACAGAATTCACATATCAAATTTTGCAAGCGATGGATTTTCACCATTTATACACGAAAGAGGATGTTCAACTTCAAATTGGTGGTAGTGACCAATGGGGAAATATTACGAGTGGTTTAGATTTAATTCGTAAGTTAGAAGGTCATGAGGCTAAAGTATTCGGATTAACGATTCCGTTATTATTAAAATCGGACGGTACGAAGTTTGGTAAATCAGCAGGTGGTGCAGTTTGGCTTGATCCTGAAAAAACGACACCGTTTGAATTTTACCAGTTCTGGGTAAATACAGATGACCGTGACGTAATTAAATACTTGAAATACTTTACGTTCTTAAAGAAAGAGCGTATTGATGAATTAGCAGCGAAGGTAGAAGTCGAGCCTCATAAACGTGAAGCGCAAAAAGTGCTAGCGGAAGAAATGACGAAATTCGTTCATGGAGAAGAGGCGTTATTACAAGCTGAGAAAATTACAGCAGCGTTATTTAGCGGAGATATTAAATCGTTAACAGCTGATGAAATTGAACAAGGTTTTAAAGAAATGCCAACATTCCATTCTTCAAAAGAGACAAAAAATATTGTAGAGTGGCTAGTTGATTTAGGAATTGAACCATCCAGACGACAAGCACGCGAGGACATTAATAATGGTGCGATTTCTATGAATGGTGAGAAAGTAACAGATGTGGGTACGGATGTTACTGTAGAAAATTCATTTGATGGAAGATTTATTATTATTCGTAAAGGGAAGAAGAACTACAGCCTTGTGAAGTTAGGCGAATAG	MNIIDELEWRGAVNQQTDEEGLRKLVEEKKISLYCGVDPTGDSMHIGHLIPFMMMKRFQLAGHHPVILIGGATGTIGDPSGRQSERQLQTLEVVQHNVDALTAQMKKLFDFGGNSEVKMVNNYDWTHEINIIEFLRDYGKNFSINSMLAKDIVASRLDTGISFTEFTYQILQAMDFHHLYTKEDVQLQIGGSDQWGNITSGLDLIRKLEGHEAKVFGLTIPLLLKSDGTKFGKSAGGAVWLDPEKTTPFEFYQFWVNTDDRDVIKYLKYFTFLKKERIDELAAKVEVEPHKREAQKVLAEEMTKFVHGEEALLQAEKITAALFSGDIKSLTADEIEQGFKEMPTFHSSKETKNIVEWLVDLGIEPSRRQAREDINNGAISMNGEKVTDVGTDVTVENSFDGRFIIIRKGKKNYSLVKLGE				NA	NA	NA	NA	NA
AK009_05122	1179	yjlD_1	COG1252	NADH dehydrogenase-like protein YjlD	ATGTCAAAACAAATTGTCATCTTAGGCGCTGGTTATGGCGGTCTTCTTGCCGCTTTAAACGTACGTAAATATTACAGCAAATCAGAAGCACAAGTTACAGTGATTAACCAATACCCAACACACCAAATCATCACTGAACTACACCGCCTTGCAGCTGGTAACGTTGCTGAGCAAGCAATTGCAATGCCACTTACAAAGCTTTTCAAAGGCAAAGATATCGATCTTAAAATCGCAACAGTTGAGTCATTCTCTGTTGATAGCAAAGAAATCAAACTAGCTGGCGGCACTAATTTATCTTACGATGCACTTGTAGTTGCTTTAGGAAGTAAAACTGCTTACTTCGGTATTCCAGGACTAGAAGAAAACAGCATGGTATTAAAATCTGCTGCTGATGCAAACAAAATCTACAAACACGTTGAAGACCGTATTCGTGAATACGCGAAAACGAAAAACGAAGCTGATGCTACAATCGTAATCGGTGGTGGCGGATTAACTGGCGTTGAGCTAGTTGGTGAGCTTGCTGACATTATGCCTAAACTTGCAAAAAGCCACGGCGTAAATCCAAAAGAAGTTAAACTTCTTCTTGTTGAAGCAGGTCCAAAAATCCTTCCAGTATTACCAGACCACTTAATCGAACGTGCAACTACTAGCCTAGAAGCACGCGGTGTTACATTCTTAACAGGTCTTCCTGTAACAAACGTTGCTGGCAATGAGATCGACTTAAAAGACGGTCAAAAACTTGTTGCTAACACATTCGTTTGGACAGGTGGCGTACAAGGTAACCCATTAATCGGTGAATCAGGTCTTGAAGTTAACCGTGGTCGTGCAACAGTTGATGCATACCTGCAATCTACTTCTCACAAAGACGTATTCGTTGCTGGAGACAGCGCTGTTGTCTTCTCTCCAGACGGTCGTCCATACCCACCAACTGCACAAATCGCTTGGCAAATGGGTGAGTTAATTGGATACAACTTATACGCAGCACTAGAAGGCAAAGCATTCGAAGAGTTCGCACCTGTAAACTCTGGAACACTTGCTAGTCTAGGACGTAAAGATGCGGTTGCTACAATTGGAGCAAGCAATACTCCACTTAAAGGCTTACCAGCATCATTAATGAAAGAAGCAAGTAACGTTCGTTACTTATCACATATTAAAGGTCTATTCAGCTTAGCTTACTAA	MSKQIVILGAGYGGLLAALNVRKYYSKSEAQVTVINQYPTHQIITELHRLAAGNVAEQAIAMPLTKLFKGKDIDLKIATVESFSVDSKEIKLAGGTNLSYDALVVALGSKTAYFGIPGLEENSMVLKSAADANKIYKHVEDRIREYAKTKNEADATIVIGGGGLTGVELVGELADIMPKLAKSHGVNPKEVKLLLVEAGPKILPVLPDHLIERATTSLEARGVTFLTGLPVTNVAGNEIDLKDGQKLVANTFVWTGGVQGNPLIGESGLEVNRGRATVDAYLQSTSHKDVFVAGDSAVVFSPDGRPYPPTAQIAWQMGELIGYNLYAALEGKAFEEFAPVNSGTLASLGRKDAVATIGASNTPLKGLPASLMKEASNVRYLSHIKGLFSLAY	PGPT0004020_5360	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
AK009_05123	441	yjlC	COG2427	putative protein YjlC	ATGCCAGAAACTATGACTCAAACAAAGCCAGAACAAGAAACTGTACAAATTTCTGCTAGCCAAGGACAACTTGATGTACTTGATCAGTTGTTAAAACCTGAGGTACAAGAATCATTAACAACACTAGTAGAACAGCTTCCAAAATTAACTGAGCTTGTTAACATTTTAACTAAGTCTTATGACTTCGCTCAAACTGTTGCTACTGATGAAGTATTAAAAAGCGACACTGTTGGTGCAATTACAGAGCTTGTAGAACCTGTAAAAGATACAGTGAAAAGCATGGCTGCAACTGCAATCGAAGCGAAAGATCGTGCTGACGAAAGTACTGAAGTTATCGGCCTATTCGGTCTATTAAAATTACTAAAAGATCCACAAGCACAAAAAATGTTCCGCTTTGTGAACGCATATCTTCAAATTAGTGCAGAACGTAACAATAAATAA	MPETMTQTKPEQETVQISASQGQLDVLDQLLKPEVQESLTTLVEQLPKLTELVNILTKSYDFAQTVATDEVLKSDTVGAITELVEPVKDTVKSMAATAIEAKDRADESTEVIGLFGLLKLLKDPQAQKMFRFVNAYLQISAERNNK				NA	NA	NA	NA	NA
AK009_05124	345	ytcD_3	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAGAAATACAATATTCCTGTAGAGGCGACTTTAGAGGTTATCGGTGGAAAATGGAAGGTTGTTATCCTTTGTCATCTAACGAAAGGCACAAAAAGAACGAGTGAACTAAAACGTTTAATGCCTGGTATTACACAAAAAATGTTAACTCAGCAATTACGCGAATTAGAGGACGACGGGGTCATTCAAAGAAAAGTCTACAACCAAGTCCCGCCAAAAGTAGAATACTCCCTTACTGATTACGGTTGGTCTTTAGAATCAATTCTTGACTCTCTTTGTACTTGGGGCGAATGTCATCTTGAAAAAGAAGGTAATACATCGATGCTAATTGCAGAAGGTGAATAA	MKKYNIPVEATLEVIGGKWKVVILCHLTKGTKRTSELKRLMPGITQKMLTQQLRELEDDGVIQRKVYNQVPPKVEYSLTDYGWSLESILDSLCTWGECHLEKEGNTSMLIAEGE	PGPT0012970_179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
AK009_05125	1215	ydhP_2	COG2814	Inner membrane transport protein YdhP	TTGAGTTCATATACAGTACCATCTTCAGAAGTTCAGACGAATCGAAGAAGTATGTTTGCTTTATTAGCACTAGCAATTAGTGCATTTGGGATTGGTACGACCGAGTTTATTAGTGTCGGTTTACTACCATCTATTTCGAAAGATTTAAATGTTTCGGTTACAACAGCTGGTTTAATCGTTTCTTTATATGCATTAGGAGTAGCGTTTGGTGCTCCAGTATTGACGTCATTAACAGCTAGTATGTCGCGAAAGACGTTGTTAATGTGGATTATGATTATTTTCATTATTGGCAATGGTATTGCGGCAGTAGCAACAAGTTTTACTGTGCTACTTATCGCGAGGGTTGTATCTGCGTTTGCGCATGGGGTTTTTATGTCAATTGGATCTACAATTGCGGCTGCGCTTGTACCTGAGAATAAACGTGCAAGTGCAATAGCATTTATGTTTACTGGTTTAACTGTTGCGACTATTACAGGTGTACCAATTGGAACATTTATCGGTCAACAATTTGGCTGGAGAGCATCGTTTATGGTTATTGTGGCAATTGGAGTCGTTGCTTTAATCGCCAACAGTATGCTAATTCCTTCTAACTTAAAAAAGGGTACGTCTGTATCATTTCACGATCAATTTAAGTTGATTACGAACGGAAGACTATTACTTGTATTTATCATTACTGCATTAGGATACGGGGGAACATTCGTAACATTTACGTATTTATCTCCGTTATTACAAGAAGTAACAGGATTTAAAGCAAGTACCGTTACAATTATTTTGTTAGTATACGGAATTGCAATTGCGATTGGGAATATGGTCGGCGGAAAATTATCAAATTATAATCCGATTCGAGCGTTATTTTACATGTTCTTTATTCAAGCGATTGTATTATTTGTTTTAACATTTACAGCGCCATTTAAAGTTGCTGGATTCATTACAATTATTTTTATGGGACTATTTGCGTTTATGAATGTCCCAGGGCTACAAGTGTATGTCGTTATCTTGGCTGAGAGGTTTGTACCTAGCGCTGTTGATGTAGCATCAGCGATTAACATTGCAGCATTTAACGCAGGAATTGCTCTTGGTGCTTACTTGGGCGGTATTGTAACGAACTCGTTAGGATTAATTCATACGGCTTGGGTAGGCGGAATTATGGTAGTAGGTGCTGTGATTTTAACAGCGTGGAGCATGACATTAGAAAAAAGAGATCAAGTAAAATAA	MSSYTVPSSEVQTNRRSMFALLALAISAFGIGTTEFISVGLLPSISKDLNVSVTTAGLIVSLYALGVAFGAPVLTSLTASMSRKTLLMWIMIIFIIGNGIAAVATSFTVLLIARVVSAFAHGVFMSIGSTIAAALVPENKRASAIAFMFTGLTVATITGVPIGTFIGQQFGWRASFMVIVAIGVVALIANSMLIPSNLKKGTSVSFHDQFKLITNGRLLLVFIITALGYGGTFVTFTYLSPLLQEVTGFKASTVTIILLVYGIAIAIGNMVGGKLSNYNPIRALFYMFFIQAIVLFVLTFTAPFKVAGFITIIFMGLFAFMNVPGLQVYVVILAERFVPSAVDVASAINIAAFNAGIALGAYLGGIVTNSLGLIHTAWVGGIMVVGAVILTAWSMTLEKRDQVK	PGPT0028991_1455	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
AK009_05126	840	ytbE_2	COG0656	putative oxidoreductase YtbE	ATGAAAAACTTACAAAGTAAAACAGTATTAAATAATGGTGTAGAAATGCCTTGGTTCGGTTTAGGTGTATTTAAAGTAGAAGAAGGACCAGAACTTGTAGAAGCTGTAAAATCAGCGATTAAAGCAGGATACCGTAGCATCGATACAGCTGCAATTTACGGAAATGAAAAAGCTGTAGGTGAAGGAATCCGTGCCGGTATTGAAGCGACTGGTATTTCAAGAGAAGAATTATTTATCACTTCAAAAGTATGGAACGCAGATCAAGGATACGAAGAAACAATTGCTGCATACGAAGAGAGCTTAAAGAAATTAGAACTAGATTATTTAGACCTATATCTTGTTCACTGGCCTGTAGAAGGAAAATATAAAGATACGTGGAGAGCGCTAGAAACACTTTATAAAGAAGATCGCGTACGTGCAATTGGCGTAAGTAACTTCCAAATTCACCACTTACAAGATGTAATGAAAGATGCAGAAATTAAGCCAATGATTAACCAAGTAGAATACCACCCTCGTTTAACACAAAAAGAATTACAAGCTTTCTGTAAAGAACAAGGTATTCAAATGGAAGCATGGTCACCACTTATGCAAGGTCAATTATTAGATAACGAAACATTACAAGCAATTGCTGAGAAACACGGTAAAACAACAGCACAAGTGATTTTACGTTGGGATCTTCAAAACGGAATAATCACAATTCCAAAATCAACGAAAGAACACCGCATTATTGCAAACGCGGATGTATTTAACTTTGAATTAACAAAAGAAGACATGGAAACAATCGATGCGTTAAACGAAAATCACCGCGTTGGTCCAGATCCTGATAACTTCGATTTCTAA	MKNLQSKTVLNNGVEMPWFGLGVFKVEEGPELVEAVKSAIKAGYRSIDTAAIYGNEKAVGEGIRAGIEATGISREELFITSKVWNADQGYEETIAAYEESLKKLELDYLDLYLVHWPVEGKYKDTWRALETLYKEDRVRAIGVSNFQIHHLQDVMKDAEIKPMINQVEYHPRLTQKELQAFCKEQGIQMEAWSPLMQGQLLDNETLQAIAEKHGKTTAQVILRWDLQNGIITIPKSTKEHRIIANADVFNFELTKEDMETIDALNENHRVGPDPDNFDF	PGPT0014985_198	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
AK009_05127	924			hypothetical protein	ATGAATATAAAGCAATCGTTCAAACTTTTAGCTATGTTTTTAAGTGTCTTATTTGTATTATTCCCACTTCAAAAAGCATTCGCAGAGGTTATGGACCATACAAAGTATGAAATGGATTGGAGTTATAGTAGGTCAAAGAAGAAACCAATCCGAACAGAACTTATTAAAACGGCAGATGGAAAAATTGCATTTTGCTTAAATGTAGACTTAAAATCTCCGAGCGGTCAAGACTTACCAGAAATGGGGAAAGTAGATATTAACGTGTACCGTGTACTGTTGAATGGATATCCACAAAAGAGCCCACAAGAATTAGGGGTATCTGATTGGAGAGAGGCGCATTACGCAACGCAACTGGCAGTGTGGAATGCGTTAAAACAAATTGATGTTAATGATTTAGATTTCCGCAATAAAAATGTAGAGAAAGTAACGAAAGACATCGTTGCAAAAGCAAACGCTAGTGAAGAGTTACAAGAAATTACGATGAGTGTAACTCCTACAGAAGAACAAGAAGCAGTATTAAAAAATGATTTCTTTGAAACAGGTTTATATACAGTAGAAACAAATGCAAAAAGCGGAACGTATAAAGTGCAAGCAACAGGTGCACCAGCGGGCGTGAAGTTTGCAAATGAAAAAGGCGAAACAAAAACAGAATTTAATGTAGGAGAGAAGTTCCGCATTTTAATTCCGAAACAAACACCAGCTGGTGGATTTAGCTTTAAAGTATCAGGAAATTTAACGAAATTACAAGGGATTGCGCATAAAGGTACACCGACTATTCAAAATGCAGTAGTATTACTTGAGCGTAGTGAAGAGAAAACGAGCCCTGAGTTAGCGGTAAGTTGGAAAAAGGCTGAGGCTCCAAATAAACCAAATAAGCCATATACTCCAAATGAACCGCATAAACCGAATCAATATAAAAGGTAA	MNIKQSFKLLAMFLSVLFVLFPLQKAFAEVMDHTKYEMDWSYSRSKKKPIRTELIKTADGKIAFCLNVDLKSPSGQDLPEMGKVDINVYRVLLNGYPQKSPQELGVSDWREAHYATQLAVWNALKQIDVNDLDFRNKNVEKVTKDIVAKANASEELQEITMSVTPTEEQEAVLKNDFFETGLYTVETNAKSGTYKVQATGAPAGVKFANEKGETKTEFNVGEKFRILIPKQTPAGGFSFKVSGNLTKLQGIAHKGTPTIQNAVVLLERSEEKTSPELAVSWKKAEAPNKPNKPYTPNEPHKPNQYKR				NA	NA	NA	NA	NA
AK009_05128	4431			hypothetical protein	ATGTCAAAGCAGAAAAAGAGTAGGGTATTAGTAGCTGGTATTTGTATATCTACATTATTATCACCAGTAGCTTTCGAAGCATCGAAAGGATATGCGGCGCCTTTGGAAAAGAATAAGGGCGGGCAGTTGGAAGAGAGTAAAGAGAATCGTTTGGAGCAGAGAACGTTTCATTTGCCTGGGAAAGGTAGTGTTGAAGAAGAGCAAAAACGCTTAAAAGTACGTTATGTACTTTCAACAAATGAACCAACTGGAATTTATGCTGGTCCAAATGAAGAAATTAAAATTGAAATAAAAGGAACGCAATCTATTAAAGCGTTCATAGGAACGAAGTCATATGATGAAAAAGGGTTTGAAGAATTTGAGTTAAAACCTGGTGAAAATAATATTTCATCTTCAAGAGGTGGAATACTATATTTTTATAACATGAATAATGATGGCGAAGTAACAGCTTCAGTTATTCATGGAGGAAGTCATTTTCCATTATTTGTATTAGGGAAACACACAAAAAAAGATTGGGATGCAATGTTAAAAAAGTATAAAAATCCTTATGCAGTTGAATTGAAGGGTGAGAGAAGTTTAATTACTGCAAGTCCTGAAGCAGTGGCAAACTATATGGGAGAGACGGATCCAGTAGAATTAATGAGGCTACATGATAAGATTATTCGCTTTGAAAATTCTGTAGCAGGATTATCTGAAGATGGTATAGGGGTGTCAAAAGCTCCAAACCACTATATCCAATTTGTTGAAAAGAGAAAACCAGATAAAGATGATTGGATGTTTGCTACTCATTATCATACAGGGTATGTTCCAGAGACTATGGATAGGGTTTTAAATATAAAGAGATTACAAGGAGATGGCTGGGGACCGTGGCATGAAGTAGGGCATTTACATCAGCAAGCTCCTTGGTTTTGGTCAGGTGTAGGAGAAGTAACAGTAAATATATATTCATTATCGGTTCAAAGAATGTTAGGCAATAAATCAAGTCTAGAAGAAGATGGTCATTATAAAAAAGCTTTTGCTTACTTAGATAATCCTGATGCTCAAAAAAAGATGGAAGAATTCGAGAAACTAGTAATGTTTTGGCAACTTGATTTAGCTTATGGAGAGCATTTTTACCCTAATTTACATCAAATGTATCGCTTATTACCAGAATCTGAAATGCCTGCTTCAGATGAAGATAAAAAGCAAATGTTTATTTATATGGCATCGAAAGCGGCTAAACAAAACTTAGTGCCGTTTTTTGAGAAATGGGGATTAGGTCCAAATGATGAGGTTAGAGGGAAAATCGAAAATTTAAATTTACCTAAATTAGAAAAAGAAATATGGAAAGCAACAGATAGTAATATTATTCGTGAAAAACAAGTGAAACCATACGGCGGGCTTCCTTATGGTGAAGCGTCTACTGTGGTACAAGATCTCATCGTTGGTGCGAATTTTAATGAAAATCTAGCAAATAGTCTTGTTCAAAATTTAGGTGAAAATGTAAAAGTAACAGGTAGAATTATGTGGCCGTATTTAGAGGTTGGAAAAAGAGCGGTATTAGTAGAAATTGAGGATGAGAAAGGACAGAGAAATTTCATTTCTGTTCCAGTTAACAGTCTTTATGGAGATACTATGGTATTTAAAGGTTACGGTGATGAGGTAAATTCTGTTATAACGCTCCTTCATGATGAAAAGAAAATCAACGTTTCTTTCGTTGGTAATGAGTTTCATGAGCGCTTTAAAAATGAAAAGTATGTAGGGATTACCTTATATGATAAGGATGGAAATGAAAAGAAAAATATTTCTATAGAAGGGCAAGAAAATTCTAAAAAAGTTGCTTTGCAACTTGAAGGTGTTGAACTTCAATATGGCGATATTATGAAAGTATATCATGCAGAACCAAGTCGTTTCGATTGGTATCAAAGTAATAAACTTGTAGATCAAGGTGGAGCTAAGAATAAAAAAGAAAAGTTCTTTAAGATTACTCCACAAGGATATGAACTAATAGACGGTATACAGGAAGTAGAAGCAGTACCGCAAAAAGTATTAATCGGGGCAGACGCTGAAAAATTAGAAGCGAAAAACTTTGTTCAAGTAAAAGGTGGAGAAGTAATTGGATTTGTAGAAAAACCGAATACAATGAAAATCGGTGAACAAAAAGTAAAAGTAGAAACGAAAGATCGTTTCGGAAATAAGAAAGTGACGGAAGTGCCAGTAGAAGTAACTTATGGAGATAGCCTATTTGTATATGGATTAAGTTATGGTAGTGACGATATGAAATCGATTATAACGTTACATCATGATACGAAAAAAATGAGTGCGACAGATACGGATAATTTGATTCATGATTACTTTGGAGATGAGAAGTATTTTGAATTCACCTTGTACAATAAAGAGGGAAAAGAGAAGAAAAATATAGAGGTAAAAGGCTTGGAGAATACAGAAGCTTTTGCCAAGGAAGCAAATGGGTTAGCATTTGAATATGGAGATGTGGTGAAAGTATACCATGCAGAGTCTTCACGTTTACATTGGTATCAAAAAGGTTTATATGTGGGAGAAGGAAAAAATAAAGAAATAAAAGAATTATTCTTCGAAATTACTGAAAATGGATTTGAGAGATTAAAATCATTGCAAGAAGTCACAGCGAAACCTCAACAAGTAGTAATCGGAACAGATGTTGAAAAGTTAGATCCAAAAGCTTTTGTTGAAGTGAAAGACGGAGAAGTAGTTGGATTTGCGGAGAAACCAAATACAACGAAAATCGGCAAACAAACAGTAAAAGTAGAAACGAAAGATCGCTTTGGTAATAAGAAAGTGACGGAAGTTTCATTAGAAGTGGTTTATGGAGATAGCATTGCATATGCAGGAAATGGCGATGATATTGCTTCAATTGTAACTTTAAAGCACGAAGAGAAGAGATTCCATGCAACTGATATGGATAGCGAAATTCATGAGTATTTTAATAAAGAGCTATACATGGGGATCGCGTTATACGATGGAGAAGGAAAAGAGAAAAAACATGTAACAGCAGAGGGACAAGAAACATCAGAGAACTTTGCGAAGCAAGTGAATGGTATACAGTTCGAGTATGGAGATGTAGTGAAAGTATTCCACGCAGAACCGGATCGTTTGAAATGGTATCAAAATAATACACTTACTGGTCAAGGTGAGAAAAAAGGAACAAAAGAACTATTCTTCAAAGTGACAGAAAAAGGTTTTGAGAGAATGGACATGTTGCAAGAAGTCACAGCGAAACCTCAACAAGTAGTAATCGGAACAGATGTTGAAAAATTAGAAGCGAAAAATTTTGTTCAGGTGAAAGACGGAGAAGTAGTAGGATTTGTAGAAAAACCAACTACAGCAAAAGTTGGAAAACAAACAGTAAAAGTAGAAACGAAAGATCGCTTTGGTAATAAGCAAATAACAGAAGTGCCAGTAGAAGTGATTTACGGAGATAGCATTATGTTCTTCGGTACATGGCACGACGAAACGAATATTAAATCGATTGTTACATTAAATCATGAAGAAAAGAAATTCAGTACAACAGATTCAGAAGGTCCAATGCATACTTCATTTGCAGATGAGAAGTATATGGGAATGACTGTGTATGATAAGGATGGAAAAGAGAAGAAAGATTTATCAGTAAAAGCATCGGAGAATACGAAAGTATTTGCAGAACAATTTAATGGAATGACTTTTGAATACGGTGATGTAATAAAGGTATATCAAAGAGAGTTTGATAGATTTAAAGTGTATAAAAAGAATGAACTAATGAATGCGCAGTATGGTGTTCATGAAGTGCTCTTTAAAGTGACAGAGCAAGGTTTTGAGAGAATGGAAGCACAACAAGAAGTAACAGCTATACCGCAAAAAGTAGTAATCGCAACAAACGCTGATAAATTAGATGCAAAAAACTTTGTTCAAGTGAAAGATAGAGAAGTAATTGGATTTGTAGAAAAACCAAATACAACAAAAATCGGTAAACAAACAGTAAAAGTAGAAACGAAAGACCGTTTTGGAAATAAGAAAGTAACGGAAGTACCAGTAGAAGTAACATATGGAGATAGTCTTGTATACCAAGGGCTGGGTGATGATATTCGTTCTATTGTAACGTTAAATCATGATGATAAGAAACTACATGTAACGTCTACAAATGAACAAATTCATAGTTACTTTAACAATGAATTATATATGGGAATTACCCTATATGATCAAAATGGAACGGAGAAAAAACATGTAACAGCAGAAGGACAAGAAACTTCAAAGAATTTTGCGAAGCAAGTAAATGGTATGATGTTCGAGTATGGTGATGTAGTAAAAGTGTATCATGCAGAATCTGATCGTTTAAGTTGGTATAAAACTGGTGAGTTAATTGGAAAAGGGGATGCGAAAAAATTTAAAGAGATTTCCTTCAAGATTACTCAAAATGGCTTAGAGCAAGTACGATAA	MSKQKKSRVLVAGICISTLLSPVAFEASKGYAAPLEKNKGGQLEESKENRLEQRTFHLPGKGSVEEEQKRLKVRYVLSTNEPTGIYAGPNEEIKIEIKGTQSIKAFIGTKSYDEKGFEEFELKPGENNISSSRGGILYFYNMNNDGEVTASVIHGGSHFPLFVLGKHTKKDWDAMLKKYKNPYAVELKGERSLITASPEAVANYMGETDPVELMRLHDKIIRFENSVAGLSEDGIGVSKAPNHYIQFVEKRKPDKDDWMFATHYHTGYVPETMDRVLNIKRLQGDGWGPWHEVGHLHQQAPWFWSGVGEVTVNIYSLSVQRMLGNKSSLEEDGHYKKAFAYLDNPDAQKKMEEFEKLVMFWQLDLAYGEHFYPNLHQMYRLLPESEMPASDEDKKQMFIYMASKAAKQNLVPFFEKWGLGPNDEVRGKIENLNLPKLEKEIWKATDSNIIREKQVKPYGGLPYGEASTVVQDLIVGANFNENLANSLVQNLGENVKVTGRIMWPYLEVGKRAVLVEIEDEKGQRNFISVPVNSLYGDTMVFKGYGDEVNSVITLLHDEKKINVSFVGNEFHERFKNEKYVGITLYDKDGNEKKNISIEGQENSKKVALQLEGVELQYGDIMKVYHAEPSRFDWYQSNKLVDQGGAKNKKEKFFKITPQGYELIDGIQEVEAVPQKVLIGADAEKLEAKNFVQVKGGEVIGFVEKPNTMKIGEQKVKVETKDRFGNKKVTEVPVEVTYGDSLFVYGLSYGSDDMKSIITLHHDTKKMSATDTDNLIHDYFGDEKYFEFTLYNKEGKEKKNIEVKGLENTEAFAKEANGLAFEYGDVVKVYHAESSRLHWYQKGLYVGEGKNKEIKELFFEITENGFERLKSLQEVTAKPQQVVIGTDVEKLDPKAFVEVKDGEVVGFAEKPNTTKIGKQTVKVETKDRFGNKKVTEVSLEVVYGDSIAYAGNGDDIASIVTLKHEEKRFHATDMDSEIHEYFNKELYMGIALYDGEGKEKKHVTAEGQETSENFAKQVNGIQFEYGDVVKVFHAEPDRLKWYQNNTLTGQGEKKGTKELFFKVTEKGFERMDMLQEVTAKPQQVVIGTDVEKLEAKNFVQVKDGEVVGFVEKPTTAKVGKQTVKVETKDRFGNKQITEVPVEVIYGDSIMFFGTWHDETNIKSIVTLNHEEKKFSTTDSEGPMHTSFADEKYMGMTVYDKDGKEKKDLSVKASENTKVFAEQFNGMTFEYGDVIKVYQREFDRFKVYKKNELMNAQYGVHEVLFKVTEQGFERMEAQQEVTAIPQKVVIATNADKLDAKNFVQVKDREVIGFVEKPNTTKIGKQTVKVETKDRFGNKKVTEVPVEVTYGDSLVYQGLGDDIRSIVTLNHDDKKLHVTSTNEQIHSYFNNELYMGITLYDQNGTEKKHVTAEGQETSKNFAKQVNGMMFEYGDVVKVYHAESDRLSWYKTGELIGKGDAKKFKEISFKITQNGLEQVR				NA	NA	NA	NA	NA
AK009_05129	639			hypothetical protein	ATGAAAATCGGAATTATCGGAGCAACTGGTAAAGCAGGAAGTCGTATTTTAAAAGAAGCATTAGATCGTGGACATGAAGTAACTGCAATCGTAAGAAACGCTGCAAAAATTACAGAAGAAAACGTAAAAGTTTTAGAAAAAGACGTATTTTCTCTTACATCTAACGACCTACAAGCATTCGACGTAGTTGTAAATGCATTTGGTGCTCCAGCAGGGCAAGAACACCTTCACGTAGATGCAGGAAACGTACTTATTGAAGCTGTGAAAGGTGCACCAAATACAAAATTACTTGTAGTTGGCGGAGCAGGAAGCTTATTTGTAGACGAAGAAAAAACAACACGTGTATTTGATACACCAGGTTTCCCAGGCGAATACCTTGCAACAGCTCAAAACCAAGGTAAAAACTTAGAAATCTTGCAACAAACAAATGATATCACTTGGACATTCATCAGCCCTTCTGCACTATTCGCATTAGGAAAACGCACTGGTTCTTACAAAGCTGGCAAAGACAATCTTCTTGTTAACTCAAAAGGTGATAGCTACGTAAGTTACGAGGACTTCGCAGTTGCAGCACTTGATGAAATCGAAAATCCAAAACATGTAAACGAACGCTTCACAGTTGTTTCTGAAGCTGAATAA	MKIGIIGATGKAGSRILKEALDRGHEVTAIVRNAAKITEENVKVLEKDVFSLTSNDLQAFDVVVNAFGAPAGQEHLHVDAGNVLIEAVKGAPNTKLLVVGGAGSLFVDEEKTTRVFDTPGFPGEYLATAQNQGKNLEILQQTNDITWTFISPSALFALGKRTGSYKAGKDNLLVNSKGDSYVSYEDFAVAALDEIENPKHVNERFTVVSEAE	PGPT0020900_818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
AK009_05130	1431	alsT_3	COG1115	Amino-acid carrier protein AlsT	ATGAATATTTTGGAACAATTCGTTTCATCAACGAATACGATTCTTTGGTCATATATTCTTATTGCAATGTTAATTGGTTTAGGGCTTTATTTTTCTATTAAATTGAAATTCGTACAGCTTACTCATTTAGGAGAAATGATTCGTTTAATGAGTGATGGACTAACTGGCAAGACACGTAAAAAGGGCAGTGTATCATCGTTCCAAGCATTTTGTATGAGTTCTGCAGCTCGTATTGGTATCGGGAACTTAGCTGGTGTAGCGTTAGCTATTTCTATGGGAGGGCCTGGAGCTGTATTTTGGATGTGGGTTATTGCGATTATCGGTGCTTCTTCAAGTTTCGTAGAAAGTACGCTTGCGCAAATTTATAAAATAAAAGATGGCAGTGGCTTCCGTGGTGGTCCTGCTTATTATATGGAAAAAGGTTTAAATAAACGTTGGATGGGGATTTGGTTCTCTATTCTGATTACAATTAGTTACGGTTTAATTTTCAACTCAGTACAAGCAAATACAGTAACATTAGCATTTGAAAATGCATTTGGCTTAGAGCGTTATATTGTTGGTATTGTATTAGCTGCATTAGTTGCGGTTATTATTTTTGGTGGTGTAAAAAGTATTGCACGTATGTCGGAAATGATTGTTCCGCCAATGGCGCTTATTTATATTGCCGTAGCTATTTTTGTTGTCATTAAAAACTTCTATTTAATACCAGATGTGTTTACGGAAATCTTTAAAGGTGCATTTGGTTTAGATTCAGCTGTAGGTGGCGGTATCGGTGCTGCGATGAAATATGGTATTCAGCGCGGATTATTTGCGAACGAAGCAGGTATGGGTAGTGCGCCGAATGCGGCAGCAACAGCTGATGTAACGCATCCAGCGAAACAAGGTTTTATTCAAACGATTGGAGTATTAGTAGATACATTCCTAGTATGTACATCAACAGCATTTATCGTACTATGTTCTGGTGCATATAAAGCAACGAATTTAGAAGGTATTGAATTAACACAAAATGCATTAAGTTCACAAATTGGCCCATGGGCGAGCAGTTTCTTAGCGATTATTATTTTCTTATTTGCATTTAGTTCACTTCTAGGAAACTACTATTATGGTGAAACAAATATTGAATTCATTAAGCAAAGCAAAACGTGGTTAACAATTTATCGTATTGCGGTAGTTGGAATGGTATTATTCGGTTCTGTTGCGACGCTTCAAGTTGTATGGAATATGGCGGACTTATTTATGGGGCTAATGGTAATCACGAACTTAATTGCGATTACACTTCTCGGCCGATTTGCGTATGCTGCATTGGCAGACTATGTAAGGCAAAAGAAACAAGGAAAAGATCCAGTCTTCAGTGCAGATTCTATTCCTGGTTTAACGAATACAGAGTGTTGGGATAAGTCAGCGGTAACAGATAAAGAAAAAGCAGTGTAA	MNILEQFVSSTNTILWSYILIAMLIGLGLYFSIKLKFVQLTHLGEMIRLMSDGLTGKTRKKGSVSSFQAFCMSSAARIGIGNLAGVALAISMGGPGAVFWMWVIAIIGASSSFVESTLAQIYKIKDGSGFRGGPAYYMEKGLNKRWMGIWFSILITISYGLIFNSVQANTVTLAFENAFGLERYIVGIVLAALVAVIIFGGVKSIARMSEMIVPPMALIYIAVAIFVVIKNFYLIPDVFTEIFKGAFGLDSAVGGGIGAAMKYGIQRGLFANEAGMGSAPNAAATADVTHPAKQGFIQTIGVLVDTFLVCTSTAFIVLCSGAYKATNLEGIELTQNALSSQIGPWASSFLAIIIFLFAFSSLLGNYYYGETNIEFIKQSKTWLTIYRIAVVGMVLFGSVATLQVVWNMADLFMGLMVITNLIAITLLGRFAYAALADYVRQKKQGKDPVFSADSIPGLTNTECWDKSAVTDKEKAV	PGPT0014405_2362	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
AK009_05131	1443	alsT_4	COG1115	Amino-acid carrier protein AlsT	ATGGATTTTTTAGCTAGGGTAATTGGGGATGTAAATAATATCCTTTGGTCATATGTCATTATTGCGATGTTAATTGGGTTAGGGCTCTATTTTTCATTTCGTGTGAAATTTGTCCAAGTTCGTTACTTCGGTGAAATGATTCGTTTGCTTGGGGATGGAGCAAGCTCGAAAACGAGAAAAGCGCAAAAAGAGAAGAGCGGCGTATCATCATTTCAAGCGTTTTGTATGAGTACAGCTTCTCGTGTAGGTACTGGTAACTTAGCTGGTGTAGCTATTGCAATCTCAGCAGGTGGTCCAGGAGCAGTATTTTGGATGTGGTTAATCGCGGTAATTGGGGGTGCTTCTGCATTTGTAGAGAGCACATTAGCGCAAATTTATAAAGTAAAAGATGGGAATGCATTCCGTGGGGGCCCAGCGTATTATATGGAAAAGGGTTTAAAGAAACGCTGGTTAGGTGTTGTGTTCTCTGTTCTAATAACAGTAAGTTTCGGATTGATTTTTAACGCTGTACAGTCTAATACTGTAGCGGCTGCCTTTGATGGGGCGTTCAAAACAGATAGTAGATTAGTAGGTCTTGTTATGGCTGGTTTACTTGCAGTTATTATTTTCGGCGGAGTAAAACGAATTGCTCGCGCGGTTGAAATGATTGTTCCAGTAATGGCAATTATTTATGTAGCAGTGGCATTATTCGTTGTTGTAACAAACATTACGGCAATTCCATATGTATTTAAAGAAATTTTCTTACATGCTTTCGGAATTAAAGAAGTAGTAGGTGGAGGATTAGGAGCTGCGATTTTATTAGGGGTAAAACGTGGATTATTCTCAAATGAAGCAGGTATGGGTAGTGCGCCGAACGCAGCAGCGACTGCAAACGTAACGCACCCAGTTAAACAAGGTTTCATTCAAACTTTAGGGGTATTTACAGATACATTATTAATTTGTAGTTGTACAGCATTTATTATTCTTTTATCAGATGTGCATAATGCAGCTGATTTAAATGGAATTCAATTAACGCAGCAGGCGTTAAGTCAACATATCGGTCCATGGGCTTCTATATTTGTAGCAGTTGCAATCTTCTTGTTTGCATTCAGTTCATTAGTAGGTAACTACTACTATGGTGAAACGAATATTGAGTTCTTAAATGGAAGTAAAGTGCTATTAAATGCATACCGCATTGCTGTACTTGGTATGGTTATGCTAGGGTCCGTGGCGACAATTCAAATCGTTTGGGATTTAGCAGATTTATTTATGGGAATTATGGCTGTTATTAACTTAGTAGCAATTGTATTCCTTTCTAAGTACGCTTTCGCAGCGTTATCAGATTATATTAAGCAAAAGAAACAAGGGAAAGATCCAGTCTTTTATGCGGAGTCTATTCCAGGTTTGAACAATACAGAGTGTTGGGATAAGACAGAGGTAGCTGATAAAGAAAAAGCAGTATAA	MDFLARVIGDVNNILWSYVIIAMLIGLGLYFSFRVKFVQVRYFGEMIRLLGDGASSKTRKAQKEKSGVSSFQAFCMSTASRVGTGNLAGVAIAISAGGPGAVFWMWLIAVIGGASAFVESTLAQIYKVKDGNAFRGGPAYYMEKGLKKRWLGVVFSVLITVSFGLIFNAVQSNTVAAAFDGAFKTDSRLVGLVMAGLLAVIIFGGVKRIARAVEMIVPVMAIIYVAVALFVVVTNITAIPYVFKEIFLHAFGIKEVVGGGLGAAILLGVKRGLFSNEAGMGSAPNAAATANVTHPVKQGFIQTLGVFTDTLLICSCTAFIILLSDVHNAADLNGIQLTQQALSQHIGPWASIFVAVAIFLFAFSSLVGNYYYGETNIEFLNGSKVLLNAYRIAVLGMVMLGSVATIQIVWDLADLFMGIMAVINLVAIVFLSKYAFAALSDYIKQKKQGKDPVFYAESIPGLNNTECWDKTEVADKEKAV	PGPT0014405_1997	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
AK009_05132	1182	nupC_4	COG1972	Nucleoside permease NupC	ATGAAGTTTGTTATGTTCCTTGTAGGATTACTCGTTGTATTTGTACTCGGTTTTCTTATAAGTGCCGATCGAAAGAAGATTAAGTATAAACCAATCGCAATTATGCTTATTATTCAGCTAGTATTATCTTATTTCTTATTAAATACGCAAGTTGGTTATATTTTAGTAAAAGGAATTTCAGATGGATTTGGCGCACTTCTTGGATATGCGGAAGCTGGAATCGTTTTCGTATTTGGTGGTCTTGTTAATAAAGGAGAGGTTTCATTCTTCTTAACAGCGCTATTACCAATCGTATTCTTTGCGGTTTTAATCGGAATTCTGCAACACTTTAAAATTTTACCAATATTTATTCGTGCTATTGGTACGTTGTTAAGTAAAGTAAATGGTCTAGGAAAACTAGAATCATATAACGCAGTAGCAGCTGCCATTGTTGGACAAGCAGAAGTATTTATTACAGTAAAAGATCAATTAAGTAAAATCCCAAAACATCGTTTATATACATTATGTGCATCTTCTATGTCGACAGTATCGATGTCAATTGTTGGTTCTTATATGAAAATGATTGAACCAAAATATGTAGTAACAGCACTTGTATTAAATTTATTTAGTGGTTTCATTATCATTCATATTATTAACCCGTACGATATTACAGAAGAAGAAGATACACTGAAATTAGAAAATAAGAAGAAACAATCATTCTTTGAAATGCTAAGCGAATATATTATGCTTGGTTTCACAATCGCGATCACAGTAGCGGCAATGTTACTTGGTTTCGTAGCATTAATTACAGCAATCAATAGCTTGTTTGATTCAATGTTCGGTATTACATTCCAAGCTATTTTAGGATATATTTTCTCACCATTAGCATTCGTAATGGGCATCCCGCAAGCAGAAATGGTAACAGCGGGACAAATTATGGCAACAAAATTAGTATCAAACGAGTTTGTTGCGATGCTTGATCTTGGAAAAGTAGCTGGTGATTTATCGGCTCGTACAGTTGGTATTCTTTCTGTATTCCTTGTATCATTTGCGAACTTCTCATCTATCGGAATTATCGCAGGTGCAACGAAAGGTATCGATGAAAATCAATCAAATGTTGTATCATCATTCGGCCTACGCCTTGTGTACGGTGCGACATTAGTAAGTATTTTATCAGCGATTATCGTTGGTGTTATGTTATAA	MKFVMFLVGLLVVFVLGFLISADRKKIKYKPIAIMLIIQLVLSYFLLNTQVGYILVKGISDGFGALLGYAEAGIVFVFGGLVNKGEVSFFLTALLPIVFFAVLIGILQHFKILPIFIRAIGTLLSKVNGLGKLESYNAVAAAIVGQAEVFITVKDQLSKIPKHRLYTLCASSMSTVSMSIVGSYMKMIEPKYVVTALVLNLFSGFIIIHIINPYDITEEEDTLKLENKKKQSFFEMLSEYIMLGFTIAITVAAMLLGFVALITAINSLFDSMFGITFQAILGYIFSPLAFVMGIPQAEMVTAGQIMATKLVSNEFVAMLDLGKVAGDLSARTVGILSVFLVSFANFSSIGIIAGATKGIDENQSNVVSSFGLRLVYGATLVSILSAIIVGVML	PGPT0021065_442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_05133	1182	nupC_5	COG1972	Nucleoside permease NupC	ATGAAAATAGTAATGTTTCTAGTCGGTTTACTTGTAGTGTTTGTACTAGGTTTCCTTATCAGTTCAGATCGTAAGAAAATTAAATATAAACCAATTGCACTTATGCTTGTCATTCAATTGGTACTTGCGTATTTCTTACTAAATACAAAGGTTGGATTTGTATTAGTAAAAGGGATCGCAGATGGATTTGGTTCTATTTTAAAATTTGCGGAAGCTGGGGTTAACTTCGTATTTGGTGGTCTAGCAAACGATGGACAAGCACCATTCTTCTTAACAGTATTATTACCGATTATTTTCTTAGCAGTATTAATCGGGATCCTGCAACATATTAAAGTTTTACCGATTATCATTCGTGCAGTCGGTTTCCTATTAAGTAAAGTTAACGGTTTAGGAAAACTAGAATCATATAATGCGGTAGCAGCTGCAATCGTTGGTCAAGGGGAAGTATTCATTACAGTAAAAGATCAACTAAGCAAATTACCGAAAAATCGTTTATACACACTTTGTGCATCTTCAATGTCTACAGTATCGATGTCAATCGTCGGTTCTTATATGAAAATGATTGATCCAAAATATGTAGTAACAGCACTTGTATTAAACTTATTCAGTGGATTCATTATCGTTCATATCATTAATCCATATGAAGTAAAAGAAGAAGACGATATTTTAGAATTACAAGAAGACAAGAAACAAACATTCTTTGAAATGTTAGGCGAATATATTATGCTTGGTTTCTCTATCGCTGTAACAGTAGCGGCGATGTTAATCGGTTTCGTAGCATTAATTACAGCAATTAACGGTGTATTCGATTCAATTTTCGGAATCACATTCCAAAGCATTTTAGGATACATTTTCTCACCATTAGCATTCGTAATGGGTATTCCAACATCAGAGATGCTACAAGCAGGACAAATTATGGCAACAAAATTAGTGACGAACGAATTCGTTGCAATGCTTGACCTTGGAAAAGTAGCTGGCGATTTATCAGCTCGTACAGTAGGTATTTTATCTATCTTCCTTGTATCATTTGCGAACTTCTCATCTATCGGAATTATCGCAGGTGCAACGAAGAGTATCGATGGCAAACAAGCAAACGTTGTATCATCATTCGGTTTAAAACTTGTATACGGTGCAACGTTAGTAAGTATATTATCAGCGATTATCGTTGGGGTTATGCTTTAA	MKIVMFLVGLLVVFVLGFLISSDRKKIKYKPIALMLVIQLVLAYFLLNTKVGFVLVKGIADGFGSILKFAEAGVNFVFGGLANDGQAPFFLTVLLPIIFLAVLIGILQHIKVLPIIIRAVGFLLSKVNGLGKLESYNAVAAAIVGQGEVFITVKDQLSKLPKNRLYTLCASSMSTVSMSIVGSYMKMIDPKYVVTALVLNLFSGFIIVHIINPYEVKEEDDILELQEDKKQTFFEMLGEYIMLGFSIAVTVAAMLIGFVALITAINGVFDSIFGITFQSILGYIFSPLAFVMGIPTSEMLQAGQIMATKLVTNEFVAMLDLGKVAGDLSARTVGILSIFLVSFANFSSIGIIAGATKSIDGKQANVVSSFGLKLVYGATLVSILSAIIVGVML	PGPT0021065_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_05134	1170			hypothetical protein	ATGAATCAACGTGTAGAAGCTGTCGATGCAATTCGTGGTTTCGCTTTGTTTGGCATTTTACTAGTCAATATGACATTAATTCAATTTGGGTTCTTCACCAGTGAAAAACCCACTTATCTATTCGGCAATCTTGATAAAGGCGCTAATTGGTTTATTCAATTTTTCGGCACACACAATTTTATATCCCTATTTTCTTTTCTATTTGGGCTTAGCATTATTTTGTTACAAAAAAGTATTATCGCAAAAGGAAAAAAATTCTTCCCTACATACATAAGACGTATTATCATTCTTTTACTACTTGGCTACATTCACGGCACTTTTGTTTGGGAGGGAGATATTTTATTTGCATACGGAGTTATCGGGATTTTCTTAATGATGTTCATCAATCGAAAACCGAAAACTTTGCTCATTTGGGCGATTATTCTACTCGCACTTATTACACTTATGTCCTATCAAACTGATCCATCTACAAATATAAATGATTTCGCACCTTATACTGAAAAAGAACATAAAGTCCATCAAACCGGAGGCTATATGGATCACGTCAACTTTAGATTGACTGAAAATCCTTTTGATTACATAGGAATTAACGGTGTATCTGGATTAGTTTTCATATCAATTTTCGCAATAATTTTTATGTCTCCACTTTTCTTTCTTGGAATGTATGTAGGTAAAAAAGGCTGGCTATTTGAGATCAATAAACATATACCTGCTGTCAAAAAAATATGGTTTGTCACCGGTCCCTTCTCTTTTACAATTAAAATCTTAGCTATGTTCGTAAAGCATCCGATTTTAATTATGTTACAAGATGGCCTTACACCAGTAACTATGACCTTCTTTTACGGAAGTACGATTATTTTATTATTCCATTACAAAAAAGCATCTCGTCTACTAACATACATGGCGAACATGGGAAAAATGTCCGTTAGTAATTACTTAGCACAATCTATTATTGCAACAACTATTTTTTACGCATATGGATTTGGCCTATACGGTAAAATCGGTTATTTCTTCGGTATTCTTTTAACCATCGGAATTTATACGATTCAATTATTCGTTAGCACCTATTGGCTCCAGAAATACCGGATGGGTCCAGTGGAATATGTGTGGAGACTGGGAACTTATTTAGAGAAACCACGTTTTAAAAGAGATTTGGATAAAGCAAGTTAA	MNQRVEAVDAIRGFALFGILLVNMTLIQFGFFTSEKPTYLFGNLDKGANWFIQFFGTHNFISLFSFLFGLSIILLQKSIIAKGKKFFPTYIRRIIILLLLGYIHGTFVWEGDILFAYGVIGIFLMMFINRKPKTLLIWAIILLALITLMSYQTDPSTNINDFAPYTEKEHKVHQTGGYMDHVNFRLTENPFDYIGINGVSGLVFISIFAIIFMSPLFFLGMYVGKKGWLFEINKHIPAVKKIWFVTGPFSFTIKILAMFVKHPILIMLQDGLTPVTMTFFYGSTIILLFHYKKASRLLTYMANMGKMSVSNYLAQSIIATTIFYAYGFGLYGKIGYFFGILLTIGIYTIQLFVSTYWLQKYRMGPVEYVWRLGTYLEKPRFKRDLDKAS				NA	NA	NA	NA	NA
AK009_05135	507	ftnA		Bacterial non-heme ferritin	ATGTTATCAAAAAAATTGCACGACGCATTAAATGAACAAATGAACTTTGAATTTTACTCTGCCCATGCTTATATGGCAATGGCTGCTTACTGTACAGCTGAGAGCTATGATGGATTCGCTAACTTTTTCCTTGTACAAGCTGAAGAAGAACGTTTCCACGCAATGAAGCTTTACAACTATATTAATGACCGCGGAGAGCGCGCTATTATTACTGGATTTGATAATCCGAATAACGAATACGAATCTGTATTAAACGCTTTTGAAGTCGCACTTGAGCACGAGCGTGAAGTAACGAAACGTATTTACAACTTATCTGATATCGCTTGGGATGAGCGTGAACATGCAACAATTACATTCTTAAAATGGTTCGTTGACGAACAAGTAGAAGAAGAAGCTTCATTTGATAGCATCATCCAAAAACTAAAACGTATTACAAGTGATTCAAACGCACTATTTATGCTAGATGCTGAATTAGAGAAACGTACATTTACACCTCCAGCTGAGTAA	MLSKKLHDALNEQMNFEFYSAHAYMAMAAYCTAESYDGFANFFLVQAEEERFHAMKLYNYINDRGERAIITGFDNPNNEYESVLNAFEVALEHEREVTKRIYNLSDIAWDEREHATITFLKWFVDEQVEEEASFDSIIQKLKRITSDSNALFMLDAELEKRTFTPPAE	PGPT0003970_961	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217	NA	NA
AK009_05136	324			hypothetical protein	ATGGATATCGTTGCATTTCAAAGATGGGTTGAGGAATTTTACGAAAAACGAAGCTGGTCACAGTATAATGCCTTTATTCGCTTAAATTTCTTAAACGAGGAAGTTGGGGAAGTTTCACGAGTCGTTCGTGCTATTGAAATCGGCCGCGATCGCCCTGATGAAGATGCGAAAACAGAAGAAGAGCTAAAACAAGAACTAAAAGAAGAACTTGGCGATGTACTATCTAACCTTATTATTCTTTCGCAAAAATATGATTTAGACTTACAAGACATTATGGACGCACACGTCACAAAGCTTTCGAAAAGGTTCGAAGTATCTAAATGA	MDIVAFQRWVEEFYEKRSWSQYNAFIRLNFLNEEVGEVSRVVRAIEIGRDRPDEDAKTEEELKQELKEELGDVLSNLIILSQKYDLDLQDIMDAHVTKLSKRFEVSK				NA	NA	NA	NA	NA
AK009_05137	564	yvdD	COG1611	LOG family protein YvdD	GTGTTTGCAGGTTCTAATTTAGGGGAGAGACCAGAATTCAAAGAGCAGGCAATTCAGTTAGGTAAAATGTTTGTTGAGAACGACTATGAGCTCGTATACGGTGGTTCATGTGTCGGATTAATGGGAGAAGTAGCAAACGAAGTTCTTCGTTTAGGTGGACGTGTGACAGGGGTTATGCCGCGCGGTCTATTTCGAGGAGAAATTGTACATACAGGATTAACAGAATTAATTGAAGTAGAGACAATGCATGAACGTAAAGCGAAAATGGCAGAGCTTGCGGATGCTTTTATTGCGCTTCCAGGCGGATACGGAACGTTTGAAGAACTATTTGAAGTTGTATGTTGGTCACAAATTGGTATACATAATAAGCCAGTTGGTTTATTAAACATAAAAGGTTTTTACGGACCAATTTTGCAAATGGTTGAACGTTCAGCTGAAGAAGGATTTATGAATCCATCAAATAAAGAATTGATCGTTTCAGCTGAGACGGCAGATAAACTAATTCATGCAATCCAAAATTATGAGCGTCCTGTTTTGGGAACGAAGTGGAAGCAACTATCATAG	MFAGSNLGERPEFKEQAIQLGKMFVENDYELVYGGSCVGLMGEVANEVLRLGGRVTGVMPRGLFRGEIVHTGLTELIEVETMHERKAKMAELADAFIALPGGYGTFEELFEVVCWSQIGIHNKPVGLLNIKGFYGPILQMVERSAEEGFMNPSNKELIVSAETADKLIHAIQNYERPVLGTKWKQLS	PGPT0007225_486	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
AK009_05138	282			hypothetical protein	ATGGAGGAGTTCGTATATTTACGTCCGGTTTTTAAAAGTATTTTAGCAGCATCTATTCTTGTTATGCTAATTGTTTTGAGACAGAAGAAAGAGTTGATTAATGAATTTTCGCTTTGGTTTATCTCGGTATTGTGTATCGGTGTTTCCGCGATAACGTTGTTTATGTCCGGATTTATCGTTGATGAGTATAATCTAGGTGGAGATCCACAATCGTTTTGTATGTTTATTGCGATTGGTTGTATTAGTGGTCTGAATTTCATTATTTATTACAGAAGGCAATAA	MEEFVYLRPVFKSILAASILVMLIVLRQKKELINEFSLWFISVLCIGVSAITLFMSGFIVDEYNLGGDPQSFCMFIAIGCISGLNFIIYYRRQ				NA	NA	NA	NA	NA
AK009_05139	198			hypothetical protein	TTGAAAGACTACTTAATTAGAGCGTTTTTTGCGTTAATAACAGTTGGGATTCTCTTACTTATAGCTAATATTTTCAATATACGTGTCGAGGTTAAGGACTATGCTTTCCTCGTTGTCGTAGCAATTGGTGGCGGCTGGGGGGGCTGGTACCTGTATAAAAAACAAAGCAATCAAAATGATAAAGGCATTCCAAAGTAA	MKDYLIRAFFALITVGILLLIANIFNIRVEVKDYAFLVVVAIGGGWGGWYLYKKQSNQNDKGIPK				NA	NA	NA	NA	NA
AK009_05140	441	dps2	COG0783	DNA protection during starvation protein 2	ATGAACAAACAAGTAATCGAGGTATTAAACAAACAAGTAGCAGACTGGAGCGTTTTATTCACAAAACTTCACAACTTCCATTGGTACGTAAAAGGGCCTCAATTCTTCACATTACACGAGAAATTCGAAGAACTTTACACAGAATCAGCTACTCACATCGATGAAATTGCAGAACGCATTTTAGCAATTGGCGGCAAACCAGTAGCAACAATGAAAGAATACTTAGAACTATCTTCTATTCAAGAAGCAGCATACGGAGAAACTGCAGAAGGGATGGTCGAAGCAATTATGAAAGACTACGAAATGATGCTAGTCGAACTGAAAAAAGGCATGGAAATCGCTCAAGACTCTGACGACGAAATGACATCTGACCTACTACTAGGCATCTACACACAACTAGAAAAACACACTTGGATGCTACGCGCGTTCTTGAATCAATAA	MNKQVIEVLNKQVADWSVLFTKLHNFHWYVKGPQFFTLHEKFEELYTESATHIDEIAERILAIGGKPVATMKEYLELSSIQEAAYGETAEGMVEAIMKDYEMMLVELKKGMEIAQDSDDEMTSDLLLGIYTQLEKHTWMLRAFLNQ	PGPT0004055_3925	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
AK009_05141	1434	alsT_5	COG1115	Amino-acid carrier protein AlsT	ATGGTTGATATCTTTAGCAGATTCCTTGAGGTAACGAATAATATTTTATGGTCATATATTCTTATTGCAATGCTAATCGGCTTCGGTCTTTACTTCTCTTTTAAATTAAAATTTGTCCAAATTACTCATTTCAGTGAGATGGTCAGCTTAATTAGTAAAGGGTTTAATCGAAAAGAAAAAAAGAAAGATAGCATCTCTCCATTCCAAGCATTTTGCTTAAGTGCAGCAGCACGTATCGGTATCGGGAACTTAGCCGGTGTAGCACTAGCAATTTCAATGGGTGGACCTGGCGCAATATTTTGGATGTGGTTTATCGCAATTATCGGAGCAGCTACTAGTTTCGTAGAATGTACGCTCGCTCAAATTTATAAAGTAAAAGATGGTAGCAGGTTCCGTGGTGGGCCGGCATATTACATGGAAAAAGGATTAAACAAACGCTGGATGGGTGTTTGGTTCTCACTTCTTATTACAGTTGCGTACGGATTAATTTTCAATTCAGTACAAGCGAATACAGTAACAATAGCGTTTGAAAATGCTTTTGGACTAGAGCGAACAATCGTAGGAGCTCTATTAGCCTTATTAGTTGCAGTCATTATTTTTGGTGGTATTAAGAGCATTTCACGTATTACAGAAATGATTGTTCCGCCAATGGCAATCGTTTATATCGGCGTGGCTATTTTTGTCGTTATTAACAACTTCAATATGTTACCAAGCATTTTCATGGAAATCTTTAACGGTGCATTCGGTTTAGACCAAGCCATCGCTGGTGGTATTGGAGCAGCAATCAAGTTCGGAATTCAGCGCGGTTTATTCGCGACAGAAGCAGGTATGGGTAGCTCTCCTAACGCAGCAGCAACATCAGATGTATCTCACCCTGTAAAACAAGGACTTGTTCAAGCATTAGGTGTTTTCGTAGATACATTCTTAGTATGTACATCAACAGCATTTATCGTATTATGTTCTGGACTTTACAAAGGATCAAATTTAGAAGGTATCGAATTAACACAAAACGCTTTAAGTTCACAAATCGGACCGTGGGCAAGCACTTTCTTAGCGATTATTATTTTCCTATTCGCTTTCAGTTCTCTACTAGGAAACTACTATTATGGTGAAACAAATATTGCATTCATTAAAGAAAGCAAAACATGGTTAATGATTTATCGTGTTGCAGTTGTCGGAATGGTATTCTTCGGATCAATCGCTGCTCTTAAAACAGTTTGGAGTTTAGCTGATTTATTCATGGGACTAATGGTATTCACAAACTTAATTGCCATCTCATTCCTTAGCAAATTTGCTTACGCTGCATTAGTAGACTATTTGAAGCAAAAGAAACAAGGAAAAGATCCAGTTTTCGTTGCAAGCTCTATCCCTGGTTTACAGAATACAGAGTGCTGGGATGGACAGGATGTAGAAGAAAAACAGAAGGCTGTGTAA	MVDIFSRFLEVTNNILWSYILIAMLIGFGLYFSFKLKFVQITHFSEMVSLISKGFNRKEKKKDSISPFQAFCLSAAARIGIGNLAGVALAISMGGPGAIFWMWFIAIIGAATSFVECTLAQIYKVKDGSRFRGGPAYYMEKGLNKRWMGVWFSLLITVAYGLIFNSVQANTVTIAFENAFGLERTIVGALLALLVAVIIFGGIKSISRITEMIVPPMAIVYIGVAIFVVINNFNMLPSIFMEIFNGAFGLDQAIAGGIGAAIKFGIQRGLFATEAGMGSSPNAAATSDVSHPVKQGLVQALGVFVDTFLVCTSTAFIVLCSGLYKGSNLEGIELTQNALSSQIGPWASTFLAIIIFLFAFSSLLGNYYYGETNIAFIKESKTWLMIYRVAVVGMVFFGSIAALKTVWSLADLFMGLMVFTNLIAISFLSKFAYAALVDYLKQKKQGKDPVFVASSIPGLQNTECWDGQDVEEKQKAV	PGPT0014405_2300	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
AK009_05142	495	khtT_2	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAATATTAGAGAAAGTGAACTTCCGGGTATTGGTTATAAGTTTCAAATCGTTACGAAAGGTAACGAAAAGATGGTAATTGTCATTCATGATGATGGGCGTAGAGAAATGTATCATTTTGATTCAGACCATGAAGAAAGCATCTCAAGTATTTCACTACGTGACTCAGAGGCAAGGCAAATCGCAGCAATATTAGGTGGAATGGTATATAAGCCTAGGGCGTTAGAAAATGTTGAGATGGTTTTTGAAGGTTTAGCGATTGAGTGGTTCAAAGTGGAGAATACAGCTCCAGCAATCGGAAAAACAATTGGCGATCTTGAAATAAGAAAAACATATAGCGTAACGATAATCGCAGTTATGAAGAAGAACATGAAGAAGCTATTTAATCCAGGGCCAGAAACAGTAATTGAAGAAGGAGATATGCTTGTAGTTTCAGGTGAGAGAGAAGAAATTAAAAAAATCATTAATGAATTACTTTCAAATAGGGGGGACTGA	MNIRESELPGIGYKFQIVTKGNEKMVIVIHDDGRREMYHFDSDHEESISSISLRDSEARQIAAILGGMVYKPRALENVEMVFEGLAIEWFKVENTAPAIGKTIGDLEIRKTYSVTIIAVMKKNMKKLFNPGPETVIEEGDMLVVSGEREEIKKIINELLSNRGD				NA	NA	NA	NA	NA
AK009_05143	1200	khtU_2	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGATACGTTAATTTTTGAAGTTGGTACAGCTTTAGTTTTAGTGGCAATTGCAGCGGTAATTGCTGGAAAATTTAAATTCTCAGTAATTCCTTTTCTAATTGTTCTCGGAATGTTAGTAGGACCGCATGCACCGACAATAGGTGTTATCGATCTCAAATTTATTGAAAGTGCAAGTGTAATTTCCTTCCTTGGACGGATTGGGGTTCTATTCCTTCTATTCTATCTAGGATTAGAATTTTCAATGAAAAAACTAATTAAATCTGGACGCTCTATTGCGATTGGCGGAACGATTTATATTTTAATTAACTTTTCACTTGGTTTGTTATACGGATTTATAATGGGATTCCCATTACTAGAAATCTTAATTATTGCGGGTATTATTACGATTTCTTCTAGCGCTATCGTTGCTAAAGTGTTAGTGGACTTAAGAAGAACTGGTAATAATGAAACCGAATTAATTTTAGGAATTATTATGTTTGAAGATATATTCCTTGCTGTATATTTATCAGTTGTTTCTGGTTTAGTACTAGGGGATCACGCTTCCTTCTTAGGCGCCCTTACTTCAATTGGAATTGCTTTAGGATATATGCTTCTATTCTTTATAGTAGCTAGAAAGGCTACGCCGTTATTAAATAAATTGCTCAATATTAGCTCAGATGAAATCTTTATTATTGTAGTATTTGCTTCGTTATTCTTCATTGCTGGTTTTTCAGAAACAATTCACGTTGCAGAAGCGATTGGGGCACTTCTTCTAGGATTAGTTTTCTCTGAGACAGAGCATAGTGATCGAATTGAACATCTTGTTGTTCCATTTAGAGACTTTTTCGGAGCTATTTTCTTCTTCAGCTTCGGGTTAAGTATTGATCCGTTCTCATTAGGAGGAGCGATATGGTTAACGTTAGGTGCTGTCCTTCTTACAATAATCGGCAACTTTGTAGCAGGAATGATTGCAGGAAGACAAGCAGGGTTATCTCATAAAGCATCAACAAATATCGGATTAACAATCGTTTCACGAGGAGAGTTCTCCATCATTATGGCTAATATCGGTATCGCCGGTGGTTTAATGTCAGTACTGAAACCCTTCTCAGCACTATACGTGCTTATACTATCCATTTTAGGCCCACTTCTGACAAAAGAGTCGAAGAATGTATATAAATTCTTAAATAAAATCTTTAAGTGGGATACGAAGACTAACTAA	MDTLIFEVGTALVLVAIAAVIAGKFKFSVIPFLIVLGMLVGPHAPTIGVIDLKFIESASVISFLGRIGVLFLLFYLGLEFSMKKLIKSGRSIAIGGTIYILINFSLGLLYGFIMGFPLLEILIIAGIITISSSAIVAKVLVDLRRTGNNETELILGIIMFEDIFLAVYLSVVSGLVLGDHASFLGALTSIGIALGYMLLFFIVARKATPLLNKLLNISSDEIFIIVVFASLFFIAGFSETIHVAEAIGALLLGLVFSETEHSDRIEHLVVPFRDFFGAIFFFSFGLSIDPFSLGGAIWLTLGAVLLTIIGNFVAGMIAGRQAGLSHKASTNIGLTIVSRGEFSIIMANIGIAGGLMSVLKPFSALYVLILSILGPLLTKESKNVYKFLNKIFKWDTKTN	PGPT0014395_3837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK009_05144	594			hypothetical protein	ATGTTAGGAGAGTTGATTCATTCGGTTTTAGTTTTTTTAGAAGGACTTGGTTATTGGGGAATTATGCTTGGATTAATGCTAGAGGTTATTCCAAGTGAAATCGTATTGTCTTATGCAGGTTATTTAGTATCAACAGGAAGCATTACATTTTGGGGCGCTGTCGCGTTTGGTACAATTGGTGGTGTAATTGCACAACTATTCATTTATTGGATCGGTCGATACGGAGGAAGACCTGTTCTTGAGCGATATGGAAAATATATTTTAATTCAGAAGAAACATATTGATTATGCTGAAGATTGGTTTAATCGTTACGGAACTGGCGTTATCTTTACCGCACGTTTTATTCCGGTTGTGCGTCATGCTATTTCGATACCGGCGGGTATTGCAAAAATGTCACATGCTAAGTTTATTACGCTAACTACATTAGCTGTTATTCCGTGGTCAATTGTGTTTGTATATTTAGGGTTTAAATTAGGAACAGAGTGGGAAAGCATTAATAAAGTTGCGGGGCCATATGTGAAATACTTTGCACTTGCTGCTATTGTTTGTGCAATTGGTTATTTTGTATTAAAAAAAGTGATGAAAAAAAAGTGA	MLGELIHSVLVFLEGLGYWGIMLGLMLEVIPSEIVLSYAGYLVSTGSITFWGAVAFGTIGGVIAQLFIYWIGRYGGRPVLERYGKYILIQKKHIDYAEDWFNRYGTGVIFTARFIPVVRHAISIPAGIAKMSHAKFITLTTLAVIPWSIVFVYLGFKLGTEWESINKVAGPYVKYFALAAIVCAIGYFVLKKVMKKK				NA	NA	NA	NA	NA
AK009_05145	435			hypothetical protein	ATGGAACTCCAGTTTCAAAATGTATATCAACAGGTAGAGAATTGGTATGTGTTGGATTCGGAGCTTCATTGGGATGTCAAAAAGCTGAGAGAGGATTTGTTCTCTCTTATTGAAGCATGTAAAACGCCCGTTATTTTTTGTGATACGTGTGATGCAAACGATGTGCTTCTATCATTAGGGGAAGAGGAAGAAGAATTCCTATTCCCAGTAGGTGGTTTTTATCATAAAGAAAGACAATTAATTTTTGTTTGTATGTGGGAAGAGTATGAGCAGGTGCTCAAAACACTACTGCATGAGTTTCGTCATGCGATGCAGCATAAGAGAGAAGTATTGTATGTTGGAAGTGAAGTGTACGAAGATAGATGGATTGAAAAAGATGCGAGGAAGTTCGCGGAGAGGAAATTGGATGAATATAAGAATAGAAAGTTAATGTAA	MELQFQNVYQQVENWYVLDSELHWDVKKLREDLFSLIEACKTPVIFCDTCDANDVLLSLGEEEEEFLFPVGGFYHKERQLIFVCMWEEYEQVLKTLLHEFRHAMQHKREVLYVGSEVYEDRWIEKDARKFAERKLDEYKNRKLM				NA	NA	NA	NA	NA
AK009_05146	411		COG1846	putative HTH-type transcriptional regulator/GBAA_1941/BAS1801	ATGAAAACAGAAGATAGACTCGGATTACTATTATGGTTTCGTTTATCACGCTTTTATAATAAGAGTATTCGTGAGACGAATCAGCATTTGAAAGAATGGAATGTATCTGCCGCTCAGTTTGATGTACTAGCTCAAGTTGGAGGGCATAATCGTCTAACGCAGCAAGAGCTTGGAAATAAGCTATTTGTTACGAAGGGAAATATCACGCAGCTTTTAAATAAAATGGAGCAGCTAGAGTGGATTCGTCGTGAACAAGAAGGTACTACAAAATATATTTCGTTAACAGAAAAGGGAAAAGTTTTATATGAAGAAATCGTCCCGCCTCAAGAAACATTCCAAGCGGAGCAGTTTCAAAAATTAAATGTAGAAGAACAACATCAATTATTACAATTACTAAAAAAATTACAGTGA	MKTEDRLGLLLWFRLSRFYNKSIRETNQHLKEWNVSAAQFDVLAQVGGHNRLTQQELGNKLFVTKGNITQLLNKMEQLEWIRREQEGTTKYISLTEKGKVLYEEIVPPQETFQAEQFQKLNVEEQHQLLQLLKKLQ				NA	NA	NA	NA	NA
AK009_05147	699	yhhW	COG1741	Quercetin 2,3-dioxygenase	ATGTTTAGAAAAGTTGATCATAAAAATATGGGCAGAGCAAATCATGGTTGGTTAAATACACATTTTCATTTTTCTTTTGCCAATTACTATAATCCAAATAACATGAACTTCGGAGCGTTACGTGTTATTAATGATGATCTAGTAGCGGCACAAACTGGTTTTGATATGCATCCGCATCGTGATATGGAAATCATTTCGTACGTTGTAGATGGTGCTTTAACACATGAGGATAGCATGGGGAACCGCGGAACAATTGAGCGAGGACATGTTCAATATATGAGTGCTGGCACAGGTGTATTTCATAGCGAGCATAATTTAGGAAATGAAACACTACGTTTATTACAAATTTGGATTTTACCAGATCGTGCGGATCATAAACCAAACTATGGTGAGTTTAAATTTGATTGGAGCGAGCGTGAAAACGAATGGTTCCATATGGTATCTCCAGTAGAAGGAGAGGCACCAATTCAAATTCACCAAGATGCAAATTTATATTCTTTATCGTTAGATGCCGGAAAAGAAATTCATTTTCCTGTGCGAGAAGGCCGTCAATTGTATCTTGTTCAAATTGAAGGAAGCAGTGTAATAAATGGTGAAACGTTTGTTATGCGTGATGCAGCAGAATCTGTAGAAGAAGATACTCACATTCAAGCGAAAGAGCAATCACACTATTTAGCAATTGAATTGAAAAAACAATAA	MFRKVDHKNMGRANHGWLNTHFHFSFANYYNPNNMNFGALRVINDDLVAAQTGFDMHPHRDMEIISYVVDGALTHEDSMGNRGTIERGHVQYMSAGTGVFHSEHNLGNETLRLLQIWILPDRADHKPNYGEFKFDWSERENEWFHMVSPVEGEAPIQIHQDANLYSLSLDAGKEIHFPVREGRQLYLVQIEGSSVINGETFVMRDAAESVEEDTHIQAKEQSHYLAIELKKQ	PGPT0019980_5533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
AK009_05148	1671	nprB	COG3227	Neutral protease B	ATGGGAATGGGGAATGTTATAGTGAAAAAGCAAGTCATTTCATCAGCATTAGCGTTAACTGTTATCGCCGGGGGATTTGGAGCGTTTGGGGCAACGACAACGAAAGCGGAAGAACAAAAAATTCAATATCATCAAGAATTTAAAACACCTGCATACATAGGTGAAGAATGGAAAGCACCGGAAGGACTAGATAAAAAAGAGACGGTCTTTCAATACTTAGAGAGTAAGAAAGATATGTTTAAATTAGCAGGAAATATTGAAAAGCATTTTAATATCGTTGGAGAAGAAAAAGACGCTGAATCTGACACGACACATGTGAAGCTAGTTGAGAAACATAATAACATTCCTGTGTACGGTTCTGATCAAACTGTTACACTTGATAAAGAGAATAATGTAAAAGCATTCTTCGGACAAGTTATTCCGAATTTAGATGATAAAAATATCCCTGCATCTGCAAGCATTAGTGCGGAACAAGCAGAAACAATTGCAAAGGCAGATATTGAGAAAGAAATTGGTAAAGTAAAGAATTATGATGGTGTGAAAAAAGATTTATTTGTATATGAAAAGGACGGTAATTACTACCTTGCATACTTAGTTAAGGCATCGATTTCAAAACCAGCTCCAGGGTATTGGCATTATTTTGTTGATGCAACAAATGGAAATGTTATTGAGAAATATAATGCTGTAGATCACGTTACAGGGTTTGGCTACGGAGTATTAGGTGCTAGACAATCATTTGAAATTGCCCAAGATGAAAAAACGGGAGTATTCAACTTATTTGACGGTAAACGAGGACAAGGTATTCACACATTTGATGCAGAAAATATGGATGAAAACTTGTTTAATTTATTCTCACAATGGCTTGGATATACAGGCGAAGAAGTTGAAAGTAAATCTAAGTTCTTCGAAGATAAAGCTGCAGTTGATGCGCATGTAAATGCAGGAAAAGTATATGATTACTACAAAAAAACATTTAATCGTAACTCTTTCGATGATAAAGGTGCGAAGCTTATTTCAACTGTTCACGTAGGGGAGAGCTGGAATAACGCAGCTTGGAACGGTGTGCAAATGATGTATGGTGATGGCGATGGAAAAACATTCATTCCATTATCTGCTGGACTTGATGTTATCGGTCACGAATTAACGCATGCTGTAACTGAACATACAGCAAACCTTGTTTATAAAAATGAGTCAGGGGCGTTAAATGAATCGTTATCCGATATTATGGGTGTTATGGTTGAGAAGAAGAGCTGGGATTTAGGTGCTGACATTTATACACCTGGTAAACCAGGCGATGCACTTCGTTCACTAAAAGATCCAGCGTCTATTCCAAACCCATTAAAACCAGGTGAAGGTTACCCAGATCACTATAGTAAACGTTATACTGGAACAGCTGATAATGGTGGCGTTCATATTAACAGTAGTATTAATAATAAAGCTGCTTATTTAGTATCTGAAGGCGGAGATCATTACGACGTGAAAGTAGCTGGAGTGGGCCGTGAAGCGACAGAAAAAATTTACTACCGCGCTCTTACGAAATATTTAACTGCAAACTCTGACTTCAAAATGATGCGTCAAGCTGCTCTTCAATCAGCCGAAGATTTATACGGTAAAGATTCTAAAGCTGTACAAGCTGTAACGAAAGCTTATGATGCAGTAGGCGTAAAATAA	MGMGNVIVKKQVISSALALTVIAGGFGAFGATTTKAEEQKIQYHQEFKTPAYIGEEWKAPEGLDKKETVFQYLESKKDMFKLAGNIEKHFNIVGEEKDAESDTTHVKLVEKHNNIPVYGSDQTVTLDKENNVKAFFGQVIPNLDDKNIPASASISAEQAETIAKADIEKEIGKVKNYDGVKKDLFVYEKDGNYYLAYLVKASISKPAPGYWHYFVDATNGNVIEKYNAVDHVTGFGYGVLGARQSFEIAQDEKTGVFNLFDGKRGQGIHTFDAENMDENLFNLFSQWLGYTGEEVESKSKFFEDKAAVDAHVNAGKVYDYYKKTFNRNSFDDKGAKLISTVHVGESWNNAAWNGVQMMYGDGDGKTFIPLSAGLDVIGHELTHAVTEHTANLVYKNESGALNESLSDIMGVMVEKKSWDLGADIYTPGKPGDALRSLKDPASIPNPLKPGEGYPDHYSKRYTGTADNGGVHINSSINNKAAYLVSEGGDHYDVKVAGVGREATEKIYYRALTKYLTANSDFKMMRQAALQSAEDLYGKDSKAVQAVTKAYDAVGVK	PGPT0020995_324	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
AK009_05149	279			hypothetical protein	ATGACAAGATTGAAGCAAGTTTTTGGTATTATTATTAGTTTTTTTGTTTTTTGGTTTAGTATGCTCGGTGTACAAATGTTTGCTGAGTTTTTAGATATTGAGTCATTGAAATTTGTTGCGGGAAAGACTGAGGCGGCGCGTGCTTTTTACTCTCCGTACCCGTTTTTAATTGTTTTTCTTATTACGCTGCTTTCCCTATACTTCTTCGTAATTAAGCTAGGGAAACCGAAAAAAGAAAAACTCCCTACTTTAGAGGAAAAGAAGGAAGAATTACAATGA	MTRLKQVFGIIISFFVFWFSMLGVQMFAEFLDIESLKFVAGKTEAARAFYSPYPFLIVFLITLLSLYFFVIKLGKPKKEKLPTLEEKKEELQ				NA	NA	NA	NA	NA
AK009_05150	129			hypothetical protein	ATGAACAAGCTATTGGAATGGTATGTTAAGTTTTTAACCTTCTTTCCTCGATGGCTAAGAAGGCTTATAATTTGGGGTATTATTTTGCAAATTGCAATTTTAGGTTGGATTAAGTTAATTCGCGAATAG	MNKLLEWYVKFLTFFPRWLRRLIIWGIILQIAILGWIKLIRE				NA	NA	NA	NA	NA
AK009_05151	549	mntP	COG1971	putative manganese efflux pump MntP	ATGACGTTTGAACAGCTAATACCTTTAATAATTATGGCATTCGCCTTAGGGATGGATGCGTTCTCGGTGAGTCTTGGTATGGGGATGATGCCCCTAAAGTTAAGACAAATCCTGTATATTGGTATGACGATAGGGATATTTCATATTATTATGCCATTTATAGGGATGGTACTAGGTCGTTTTTTATCAGAGAAGTATGGAGATATTGCACATTTTGCGGGTGCTATTTTATTAATCGGACTAGGTTTTTATATCGTATATTCGACCATTTTACAAAATGGAGAGACTAGAACTGTCCCTATTGGAATTAGCTTATTCGTATTTGCATTTGGCGTTAGTATAGATAGTTTCTCAGTAGGGCTTAGTCTTGGTATTTATGGGGCACAAACAATCATTACGATATTACTTTTTGGATTTGTTAGCATGTTGTTAGCGTGGATTGGTTTATTAATTGGTAGACATGCGAAAGATATGCTCGGTACATATGGCGAGATAGTAGGTGGCATCATTCTAGTTGGATTTGGATTATATATCCTTTTTCCTATATAA	MTFEQLIPLIIMAFALGMDAFSVSLGMGMMPLKLRQILYIGMTIGIFHIIMPFIGMVLGRFLSEKYGDIAHFAGAILLIGLGFYIVYSTILQNGETRTVPIGISLFVFAFGVSIDSFSVGLSLGIYGAQTIITILLFGFVSMLLAWIGLLIGRHAKDMLGTYGEIVGGIILVGFGLYILFPI	PGPT0004375_967	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
AK009_05152	1041	ywlC	COG0009	Threonylcarbamoyl-AMP synthase	ATGCATACAAATATGTGGGTTGTGGATAATGCTGTGGAAAGAAAAAAAAATTATCCACAGTTACAAGAAGCAGCAAAATTATTAAGAGAAAATGAGGCGGTTGCTTTCCCTACGGAAACAGTATATGGGTTAGGTGCAAACGCGATGGATGATGAAGCAATCGCGAAAATTTTCGAAGCGAAAGGAAGACCGAGTGATAATCCACTCATTGTCCACATAGGTACAAAATCTCAGTTAGATGGGATTGTGAAAGAAATTCCACCAGTTGCAGAGAAGTTAATGGCGCATTTTTGGCCAGGACCATTAACAATTATTTTGCCGAGAAAAGAAGGGATTTCAGAGAGGGTGACGGCGGGACTTAATACGGTTGGGGTAAGAATGCCTGATCATCCAGTTGCACTTGCTCTTATTGAAGAGGCGAATGTACCTGTTGCGGCACCAAGTGCGAATCGTTCAGGGCGTCCAAGTCCAACACTAGCTTCTCACGTATATGAAGATTTGAATGGGAAGATTGCAGGTATTGTTGATGGTGGTGCAACTGGAGTAGGCGTTGAATCAACTGTAATTGATTGTACAAGCACGGTTCCAACAATATTACGTCCAGGTGGGATTACGAAAGAACAATTAGAAGCGGTGATAGGTACCGTTTCTTTAGATCCAGCTTTAAAGGATGAGAAGGAAAAACCGAAATCACCTGGAATGAAATACACACATTATGCGCCGAAAGCACCACTTAGTATTGTTGAGGGCTCACGTGAGTTTATTCAGCAACTTGTGGATGAGAAAAAGGAAGAAGGATTTAAAGTAGGCGTATTAACGACGGAAGAGTATCAGCATGTATATAACGCAGATGTTATATTGTCTTGTGGTGTTAGAAGTGACTTAGCTAGCGTTGCGACTAAATTATATGATGTACTTAGAACATTTGATGCAAGTGAAGTGGATGTTATTTTTAGTGAGTCGTTCCCTAATGAAGGAATAGGAAATGCTATTATGAATCGTTTAACAAAAGCGGCAGGACATCATATTATTATTGAATGA	MHTNMWVVDNAVERKKNYPQLQEAAKLLRENEAVAFPTETVYGLGANAMDDEAIAKIFEAKGRPSDNPLIVHIGTKSQLDGIVKEIPPVAEKLMAHFWPGPLTIILPRKEGISERVTAGLNTVGVRMPDHPVALALIEEANVPVAAPSANRSGRPSPTLASHVYEDLNGKIAGIVDGGATGVGVESTVIDCTSTVPTILRPGGITKEQLEAVIGTVSLDPALKDEKEKPKSPGMKYTHYAPKAPLSIVEGSREFIQQLVDEKKEEGFKVGVLTTEEYQHVYNADVILSCGVRSDLASVATKLYDVLRTFDASEVDVIFSESFPNEGIGNAIMNRLTKAAGHHIIIE				NA	NA	NA	NA	NA
AK009_05153	459			hypothetical protein	ATGAAGAAAGTGTATTTTGCTACGAAAGCAGATGTGGAAAGATTACATTCTTTTTTCGGACAAGCTAATAAAAAAGATGATAAAATAAATGAGTTGTACGCACAATTTATGATTTTGGAAGAGGCGGAAGAAATACGAGCTGTAATTGGTTATGAACAAAGTGGGGAAGATGTACTTATTCGTTCTTGTTTATTCACACCTCATGTGGATAAACAGACTTTCTTATATTTTTTTGAAATGTTTTTGCAGTATATGAAAGAAAAAAGTGTTCAACAATTGTACTTACTAACAAACCATCCACAATCTGTACCGATCTTTCAGTTCTTTGACTTTTTTACTATAGAAAAGGATGAGGTTCCAGAGGGAATTCAACAGTTAGAACATTTTTGTAAAAATATAAAAGAGCAGAATGCAATAATACTAAATTGTCAGCTATTCACAAAGTTATCCACGGATTAA	MKKVYFATKADVERLHSFFGQANKKDDKINELYAQFMILEEAEEIRAVIGYEQSGEDVLIRSCLFTPHVDKQTFLYFFEMFLQYMKEKSVQQLYLLTNHPQSVPIFQFFDFFTIEKDEVPEGIQQLEHFCKNIKEQNAIILNCQLFTKLSTD				NA	NA	NA	NA	NA
AK009_05154	864			hypothetical protein	ATGAAAAAACAAGTTATTGCTTATCTTCTTATATTATTAATTGGTGCACAGTTACTTGTGCAGTTTGGATATATGAAAGCTGATGCAAAAGGGCCTTCAGTTATTCCGAAAGAGGCCGTTCGATTACGAATTTTAGCAAATAGCGATTCAGATCAAGACCAGGCATTAAAGCGTAAAGTGCGTGATGAAGTAAAAGCGCAAATTGATGGATGGGTAGCGGATTTAACTTCATTTGAAGAGGCACGCAAAGTAATTCAAAGTCATATTCCAGAAATCGAGAAAACGGTGGAAAATACGTTAAAAAGGGAAGGAAGTAAAGAATCATTTCAAGTGAAATTTAGTAAGAATGTAAAGTTTCCTACAAAGGTATATGGGAATTTTATTTATCCAGCAGGAGAATATGAAGCAGTATTGATCACAATTGGAGAAGGTGAAGGGGCGAACTGGTGGTGTGTATTATTTCCACCAATGTGTTTCTTAGATTTTTCGAGTGGGACAGCTGTAAGAAAAGAAGAGCACGTTGTGAAGGCGGAATCTCCTGAAGAGGAACAGGTGAAACAACTAGATGAAGAAGTAGTAGATACAGAAGAGAAGAAAGTGGATAAGGTTAAAGAAACGAAAGCTGTAAAACAGGAAGTAGTAAAAGAAGTAACAGCTTCTGAAAAGAAAGTAGTAAAAAATGAAACAAAAGTCGAAGAGCAGCCTGTAAGTGAAGAAGAAACAAAAACTGTGGAAAAAGTGGAGAAACCTGTGGAGAAAAAACAAGAAAAGCAAAATGAGTATGTAAAAGTAGAAGAGGAAGAAGAAAAGCCAGAAGTTAAATTGTTTATTGTAGAAGCTTTTACATCTTTATTCTCTAAATAG	MKKQVIAYLLILLIGAQLLVQFGYMKADAKGPSVIPKEAVRLRILANSDSDQDQALKRKVRDEVKAQIDGWVADLTSFEEARKVIQSHIPEIEKTVENTLKREGSKESFQVKFSKNVKFPTKVYGNFIYPAGEYEAVLITIGEGEGANWWCVLFPPMCFLDFSSGTAVRKEEHVVKAESPEEEQVKQLDEEVVDTEEKKVDKVKETKAVKQEVVKEVTASEKKVVKNETKVEEQPVSEEETKTVEKVEKPVEKKQEKQNEYVKVEEEEEKPEVKLFIVEAFTSLFSK	PGPT0024700_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024700-spoIIR-K06387	NA	NA
AK009_05155	852	prmC_2		Release factor glutamine methyltransferase	ATGCGTGTCTATGAAGCCCTGAAATGGGCTTCTTCTTTTTTACAGGAAAATGGACGAGATGAAAATGCGGGAGAAATTGTCCTTTGTCATGTATTAAAGATGAACAGAACAGGATTACTTATGAATATGCGTGAAGAAATAAATGAGGAACAAGAGGCAAGCTTTACGGAGTTTATCCACAAGCATGTAGAAGGTATTCCTATTCAATATATGATTGGTTATGAAATGTTTTATGGCCGGTCGTTCTTTGTGAATGAAGAAGTATTAATACCAAGACCGGAAACAGAAGAACTTATAGTAGGAGTATTAGAAAGAATTGAGCGCCATTTTGGTGACAAGGAACTACATGTAGCAGATATAGGCACAGGTAGTGGAGCGATTTCTATTACGCTTGCTTTAGAAAATAAAAATCTTCACGTGTATACAGTAGATATTGCACAAGAGTCGATTGAAGTTGCAAAAGAAAATGCAAAAGCTTTAGGTGCAGAAGTAACGTTCTATCACGGTGATTTATTGTCACCATTTGATAAAACGGGTCAAAAGCTAGATGTTGTTGTTTCAAATCCTCCATATATACCGGAAGAGGATTGGCGTGGTCTTTCTCCTGTTGTGAAAGAGCATGAGCCGAAGAGAGCACTTGTTGGTGGAGAAGACGGATTAGATTTTTATCGCCGTTTTATGGAAGAATTGCCGAATGTGTTGCAGGAGAAAGCAATTGTAGCGTTTGAAATTGGAGTAGGACAGGGTGAGGATGTAAAAAGATTGTTACAACAAGCTTTTCCACATGCTCATGTTGAGGTTGTTTTTGATATTAACGGAAAAGATCGTATGGTATTTGCAGAGATGGAGTAA	MRVYEALKWASSFLQENGRDENAGEIVLCHVLKMNRTGLLMNMREEINEEQEASFTEFIHKHVEGIPIQYMIGYEMFYGRSFFVNEEVLIPRPETEELIVGVLERIERHFGDKELHVADIGTGSGAISITLALENKNLHVYTVDIAQESIEVAKENAKALGAEVTFYHGDLLSPFDKTGQKLDVVVSNPPYIPEEDWRGLSPVVKEHEPKRALVGGEDGLDFYRRFMEELPNVLQEKAIVAFEIGVGQGEDVKRLLQQAFPHAHVEVVFDINGKDRMVFAEME				NA	NA	NA	NA	NA
AK009_05156	1068	prfA_1	COG0216	Peptide chain release factor 1	GTGTTAGATCGTTTGCAAGCTGTAGAAAATCGTTATGAGAAGTTAAATGAATTGTTAAGTGACCCAGAGGTTATTAGCGATACAAATAAGCTTCGTGAATATTCAAAGGAACAGTCTGATATACAGGAAACGGTAGAGGTGTATCGTGAGTATAAGGATGTTCGTGAGCAATTAAAAGATGCGAAAGCAATGTTAGAAGAGAAGTTAGACGCTGAAATGCGTGACATGGTAAAAGAAGAGGTTTCTGAGTTAGAATCACAAGAAAAAACGTTATCAGAACGTCTGAAAATTTTACTAGTTCCAAAGGACCCTAATGATGATAAGAACGTTATCGTTGAGGTTCGTGGGGCTGCTGGTGGCGATGAGGCCGCTTTATTTGCTGGTGACTTATACCGCATGTATAGCCGTTATGCTGAGGTTCAAGGTTGGAAAACAGAAATTATCGAGGCTAGCTATACAGAGTTAGGTGGATATAAAGAGATTATCTTTATGATTAACGGTAAAGGTGCTTTCGCGAAGCTGAAATTCGAGAATGGTGCTCACCGTGTACAACGTGTTCCTGAAACGGAATCTGGTGGACGTATTCATACATCTACAGCAACTGTAGCTGTATTACCAGAGGCAGAAGAAGTAGAAATCGACATTCACGAGAAAGATGTTCGTGTTGATACATTCGCTTCTAGTGGTCCTGGTGGACAAAGTGTTAATACAACGATGTCAGCGGTACGTTTAACACATTTACCGACTGGTGTAGTTGTATCTTGTCAGGATGAGAAATCACAAATTAAGAATAAAGAAAAAGCGATGAAAGTATTACGCGCACGTGTTTATGATAAGTTTAGACAAGAAGCACAAGCTGAATATGATCAAAACCGTAAACAAGCTGTTGGTACGGGCGATCGTTCAGAGCGTATTCGTACGTATAACTTCCCGCAAAACCGTGTTACAGACCATCGAATCGGTTTAACGATTCAAAAGCTAGATCAAATCTTACAAGGTAAGTTAGATGATTTCATCAATGCCTTAGTGATGGAAGATCAGGCTCAAAGGATGGAGGCAGCTGAGTAA	MLDRLQAVENRYEKLNELLSDPEVISDTNKLREYSKEQSDIQETVEVYREYKDVREQLKDAKAMLEEKLDAEMRDMVKEEVSELESQEKTLSERLKILLVPKDPNDDKNVIVEVRGAAGGDEAALFAGDLYRMYSRYAEVQGWKTEIIEASYTELGGYKEIIFMINGKGAFAKLKFENGAHRVQRVPETESGGRIHTSTATVAVLPEAEEVEIDIHEKDVRVDTFASSGPGGQSVNTTMSAVRLTHLPTGVVVSCQDEKSQIKNKEKAMKVLRARVYDKFRQEAQAEYDQNRKQAVGTGDRSERIRTYNFPQNRVTDHRIGLTIQKLDQILQGKLDDFINALVMEDQAQRMEAAE				NA	NA	NA	NA	NA
AK009_05157	588	tdk_2	COG1435	Thymidine kinase	ATGTACTTAATAAATCAAAATGGCTGGATTGAAGTGATTTGCGGTAGTATGTTTTCTGGTAAATCAGAAGAGTTAATCCGCCGTGTGCGCCGTACGCAATTTGCAAAACAACATGCAATTGTATTTAAACCATGTATTGATAATCGCTATAGTGAAGAAGACGTTGTATCACATAACGGATTAAAGGTAAAAGCAGTTCCTGTTTCAGCTTCAAAAGATATATTTGAACATATCACTGAAGATATGGATGTAATTGCAATCGATGAGGTACAATTCTTTGATGGGGACATTGTGGAAGTGGTGCAAGTATTGGCAAATCGTGGCTATCGTGTCATTGTAGCTGGTTTAGACCAAGATTTCCGTGGTCTACCATTTGGACAAGTTCCTCAGCTGATGGCAATTGCTGAACATGTAACAAAGCTACAAGCAGTATGTTCTGCATGTGGATCTCCGGCAAGTCGTACACAACGATTAATTGATGGAGAACCAGCGGCATTTGATGATCCGATTATTTTAGTTGGGGCTTCAGAATCGTATGAACCACGATGTCGTCATTGTCATGCAGTTCCTACAAACAAAGACAAGTAA	MYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEDMDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSACGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPTNKDK	PGPT0021390_2341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
AK009_05158	246	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAAGCAGGAATTCACCCAGATTACAAGAAAGTTGTATTCATGGACACAAACACAGGCTTCAAATTCTTAAGCGGGTCTACTAAAGGCTCTAGCGAAACTGTTGAGTGGGAAGATGGTAACACTTATCCATTACTAAAAGTTGAGATCAGTTCTGATTCTCACCCATTCTACACTGGACGTCAGAAGTTTGCTACTGCAGACGGACGCGTTGATCGCTTCAATAAGAAATACGGTATCAAGTAA	MKAGIHPDYKKVVFMDTNTGFKFLSGSTKGSSETVEWEDGNTYPLLKVEISSDSHPFYTGRQKFATADGRVDRFNKKYGIK	PGPT0014325_2159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
AK009_05159	1272	rho	COG1158	Transcription termination factor Rho	ATGAATTTGTCAATTGCAGCATTAGAAAACATGAAATTAAAAGAGTTATACGAGCTTGCGAAAGAATTTAAGATTTCGTATTATAGCAAGTTAACGAAAAAAGAGTTAATCTTTTCTATTTTGAAAGCTCGAGCAGAAAAAGAAGGTTTCTTTTTCATGGAAGGCGTATTAGAAATTATTCAATCAGAAGGATTTGGATTCCTACGTCCTATCAACTATTCTCCAAGCTCAGAAGATATTTATATCTCAGCTTCGCAAATTCGTCGTTTCGATTTACGTAATGGAGACAAAGTTTCTGGTAAAGTACGACCTCCGAAAGAAAATGAACGCTATTTTGGGTTATTACAAGTTGAAGCTGTAAACGGAGATGATCCAGATTCAGCAAAAGAGCGTGTGCATTTCCCTGCATTAACACCATTATACCCAGATCGCCAAATGAAATTGGAAACGGAACCGAAAAAGTTACCGACACGTATCATGGATTTAATCGCACCAGTTGGATTTGGACAACGTGGTTTAATTGTTGCGCCTCCAAAGGCTGGTAAAACAAGTCTATTAAAAGAAATTGCACACAGTGTTACAACAAATCATCCAGAAGCAGAATTAATTGTTCTTTTAATTGATGAGCGTCCAGAGGAAGTAACAGACATTGAACGTTCTGTTAAGGGTGACGTTGTAAGTTCTACTTTTGATGAAGTACCAGAAAATCATATTAAAGTAGCTGAACTTGTGTTAGAACGTGCAATGCGTCTTGTAGAGCACAAAAAAGATGTTATCATTTTAATGGATAGTATTACCCGTTTAGCGCGAGCTTACAACCTCGTTATTCCGCCAAGTGGTAGAACATTATCGGGTGGTATCGACCCAGCGGCTTTCCATAGACCGAAGCGTTTCTTTGGAGCTGCACGTAATATTGAAGAAGGCGGTAGCTTAACGATTTTAGCAACAGCCCTTGTTGATACAGGATCTCGTATGGACGATGTTATTTACGAGGAATTTAAAGGAACTGGAAATATGGAACTTCACTTAGATCGTTCGTTAGCTGAACGTCGTATCTTCCCAGCGATTGATATTCGTCGTTCTGGTACACGTAAAGAAGATCTATTAATTCCAAAAGAGCATTTAGACAAGTTATGGGGCATTCGTAAAACAATGCGTGATACACCAGACTTTGTTGAAAGTTTCTTACGTAAGCTTCGTCAAACGAAGACAAACGAAGAATTTTTACAAAACATTGTTGCAGACTCTAAAAGGTATGTAACAACTAAGTAA	MNLSIAALENMKLKELYELAKEFKISYYSKLTKKELIFSILKARAEKEGFFFMEGVLEIIQSEGFGFLRPINYSPSSEDIYISASQIRRFDLRNGDKVSGKVRPPKENERYFGLLQVEAVNGDDPDSAKERVHFPALTPLYPDRQMKLETEPKKLPTRIMDLIAPVGFGQRGLIVAPPKAGKTSLLKEIAHSVTTNHPEAELIVLLIDERPEEVTDIERSVKGDVVSSTFDEVPENHIKVAELVLERAMRLVEHKKDVIILMDSITRLARAYNLVIPPSGRTLSGGIDPAAFHRPKRFFGAARNIEEGGSLTILATALVDTGSRMDDVIYEEFKGTGNMELHLDRSLAERRIFPAIDIRRSGTRKEDLLIPKEHLDKLWGIRKTMRDTPDFVESFLRKLRQTKTNEEFLQNIVADSKRYVTTK				NA	NA	NA	NA	NA
AK009_05160	966	glpX_1	COG1494	Fructose-1,6-bisphosphatase class 2	GTGGAAAGAAGTTTATCTATGGAGTTAGTACGTGTAACAGAGGCTGCAGCATTATCATCAGCGCGTTGGATGGGGCGCGGGAAAAAAGATGAAGCAGACGGTGCAGCAACATCAGCTATGCGTGATGTATTTGATACAATTCCGATGAAAGGTACAGTTGTAATTGGTGAAGGTGAGATGGATGAAGCACCAATGCTATATATCGGAGAGAAATTAGGTACAGGATATGGACCACGTGTAGACGTTGCAGTTGATCCTTTAGAAGGGACAAACATCGTAGCAGCTGGTGGCTGGAATGCTCTTGCTGTTATTGCAATTGCAGACCATGGTAATTTGTTACATGCTCCTGACATGTACATGGATAAAATCGCGGTTGGCCCAGAAGCAGTTGGGGCGGTCGACATTGATGCGCCTATTATTGATAACTTACGTGCAGTTGCGAAAGCGAAAAATAAAGATATTGAAGATGTTGTAGCGACAGTTTTAAATCGCCCACGTCATCAAGAAATTATCGAAGAAATTCGTAAAGCTGGTGCTCGTATTAAATTAATTAATGATGGAGATGTAGCTGGAGCGATTAATACAGCGTTTGATCGTACAGGTGTAGATATTTTATTTGGATCTGGTGGAGCACCTGAAGGTGTATTAGCAGCAGTTGCTTTAAAATGTTTAGGTGGAGAAATTCACGGAAAACTATTGCCACAAAACGAAGCTGAATTAGCGCGTTGTAAAAAAATGGGCATAGAAGACATTAATCGTATCCTTCGTATGGAGGACTTAGTAAAAGGTGACGATGCAATCTTTGCAGCAACAGGTGTAACAGATGGAGAACTATTACGCGGTGTTCAATTTAAAGGTAGCGTAGGAACAACGCAATCTCTTGTTATGCGTGCGAAATCAGGCACAGTTCGCTTCGTAGATGGTCGTCATAGCTTAAATAAAAAACCGAACTTGGTTATTAAGTAA	MERSLSMELVRVTEAAALSSARWMGRGKKDEADGAATSAMRDVFDTIPMKGTVVIGEGEMDEAPMLYIGEKLGTGYGPRVDVAVDPLEGTNIVAAGGWNALAVIAIADHGNLLHAPDMYMDKIAVGPEAVGAVDIDAPIIDNLRAVAKAKNKDIEDVVATVLNRPRHQEIIEEIRKAGARIKLINDGDVAGAINTAFDRTGVDILFGSGGAPEGVLAAVALKCLGGEIHGKLLPQNEAELARCKKMGIEDINRILRMEDLVKGDDAIFAATGVTDGELLRGVQFKGSVGTTQSLVMRAKSGTVRFVDGRHSLNKKPNLVIK	PGPT0017655_1385	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
AK009_05161	1290	murAB	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 2	ATGGAAAAATTGCTAATTGAAGGCGGAAGAGCTTTAAATGGAACAATTCGAGTAAGCGGTGCAAAGAACAGTGCCGTTGCATTAATTCCAGCGACAATTTTAGCAGATACTCCAGTAACTATTGGTGGTGTCCCTAATATTTCGGACGTGAAAATGTTAGGAGACTTACTAGAGGAAATTGGAGGGAAAGTAACTTATGGACAGGAGGAAGAGATGGTAGTCGATCCTTCTAACATGGTTGCAATGCCTTTGCCAAATGGAAAAGTGAAAAAGTTGCGCGCTTCTTATTATTTAATGGGTGCGATGCTTGGCCGTTTTAAAAAAGCTGTTATTGGGCTTCCGGGTGGATGTCATTTAGGACCGAGGCCAATTGATCAGCATATTAAAGGGTTTGAAGCGCTGGGTGCACATGTTACAAATGAACAAGGTGCCATCTATTTAAGGGCAGATGAACTACATGGAGCACGTATTTATTTAGATGTTGTTAGTGTGGGAGCTACGATTAATATTATGCTAGCAGCTGTACGAGCGAAAGGTAGAACTGTTATTGAAAATGCAGCGAAAGAGCCCGAGATTATTGATGTAGCTACATTGTTAACAAGCATGGGAGCACGTATTAAAGGTGCTGGTACAGATGTAATCCGAATAGATGGTGTGGACTCTTTACATGGTTGTCACCATACTATCATCCCAGATCGTATCGAAGCTGGTACGTATATGATTCTAGGAGCTGCATCAGGAGGAGAAGTAACGGTTGATAACGTTATTCCTCAGCACTTAGAATCAGTTACTGCAAAGCTAAGAGAAGCTGGTGTTCAAGTTGAAACGAACGATGATCAAATTACGGTGAACGGTAATAGAAAGTTAAAAGTAGTTGATATCAAAACGCTTGTATATCCAGGTTTTCCAACAGATTTACAACAGCCGTTTACGACGCTTTTAACAAAAGCGCACGGGACGGGAGTTGTAACAGATACAATTTACGGTGCCCGTTTCAAACACATTGATGAATTACGTCGTATGAATGCTCAAATTAAAGTAGAAGGTCGTTCGGCAATTGTAACTGGTCCTGTGTTACTGCAAGGTGCAAAAGTGAAGGCGAGTGATTTACGAGCGGGAGCGGCACTTGTTATTGCAGGGTTAATGGCAGATGGAATTACAGAAGTAACAGGACTTGAGCATATTGATCGAGGTTATGAGAATATAGTGGACAAGCTTAAAGGGCTTGGAGCAAACATTTGGCGAGAACAAATGACAAAACAAGAAATTGAAGAGATGAAGAACGCATAA	MEKLLIEGGRALNGTIRVSGAKNSAVALIPATILADTPVTIGGVPNISDVKMLGDLLEEIGGKVTYGQEEEMVVDPSNMVAMPLPNGKVKKLRASYYLMGAMLGRFKKAVIGLPGGCHLGPRPIDQHIKGFEALGAHVTNEQGAIYLRADELHGARIYLDVVSVGATINIMLAAVRAKGRTVIENAAKEPEIIDVATLLTSMGARIKGAGTDVIRIDGVDSLHGCHHTIIPDRIEAGTYMILGAASGGEVTVDNVIPQHLESVTAKLREAGVQVETNDDQITVNGNRKLKVVDIKTLVYPGFPTDLQQPFTTLLTKAHGTGVVTDTIYGARFKHIDELRRMNAQIKVEGRSAIVTGPVLLQGAKVKASDLRAGAALVIAGLMADGITEVTGLEHIDRGYENIVDKLKGLGANIWREQMTKQEIEEMKNA	PGPT0024090_2217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK009_05162	858	fbaA	COG0191	putative fructose-bisphosphate aldolase	ATGCCTTTAGTTTCTATGAAAGAAATGCTAAACAAAGCACTAGAAGGAAAATACGCAGTTGGTCAATTCAACATGAACAACTTAGAGTGGACTCAAGCTATCTTAGCTGCTGCGGAAGAAGAAAAATCTCCTGTAATCCTAGGTGTATCTGAGGGTGCAGCTCGTCATATGACTGGTTTCAAAACAGTTGTAGCTATGGTTAAAGCTTTAATCGAAGAAATGAACATCACTGTTCCTGTAGCGATTCACCTTGACCATGGTTCAAGCTTCGAAAAATGTAAAGAAGCAATTGATGCAGGTTTCACATCTGTAATGATCGACGCTTCTCACCACCCATTCGAAGAAAACGTTGAAACTACTAAACAAGTAGTAGAATACGCACACGCTCGTAACGTATCTGTTGAAGCTGAGCTTGGAACAGTTGGCGGACAAGAAGACGACGTAATCGCTGAAGGCGTAATTTACGCTGATCCAGCAGAGTGTAAGCACCTTGTTGAAGCAACAGGTATCGATTGCCTAGCTCCAGCTTTAGGTTCTGTACACGGTCCTTACAAAGGTGAGCCTAACTTAGGATTCGCTGAAATGGAACAAGTTCGTGACTTCACTGGCGTACCTTTAGTATTACACGGTGGTACTGGTATCCCAACTGCTGATATCGTAAAAGCTATCTCTTTAGGTACTTCAAAAATCAACGTAAACACTGAGAACCAAATCGAGTTTACAAAAGCTGTTCGTGAAGTATTAAACAAAGACCAAGAAGTTTACGATCCTCGTAAATTTATCGGACCTGGCCGCGACGCTATTAAAGCAACTGTTGCTGGTAAAATGCGTGAGTTCGGTTCTAACGGTAAAGCGTAA	MPLVSMKEMLNKALEGKYAVGQFNMNNLEWTQAILAAAEEEKSPVILGVSEGAARHMTGFKTVVAMVKALIEEMNITVPVAIHLDHGSSFEKCKEAIDAGFTSVMIDASHHPFEENVETTKQVVEYAHARNVSVEAELGTVGGQEDDVIAEGVIYADPAECKHLVEATGIDCLAPALGSVHGPYKGEPNLGFAEMEQVRDFTGVPLVLHGGTGIPTADIVKAISLGTSKINVNTENQIEFTKAVREVLNKDQEVYDPRKFIGPGRDAIKATVAGKMREFGSNGKA	PGPT0017615_4668	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
AK009_05163	369	spo0F	COG0784	Sporulation initiation phosphotransferase F	ATGGAAGGTAAAATTTTAATCGTTGATGATCAATATGGGATTCGTGTGTTATTACATGAAGTGTTCCAAAAAGAAGGTTATCAGACATTCCAAGCAGCGAATGGATTTCAAGCTTTAGATATCGTGAAAAAAGATAATCCGGATTTAGTAGTATTAGATATGAAAATTCCAGGCATGGATGGTATAGAGATTTTAAAGCATGTAAAAGAAATTGATGAGAGTATTAAAGTCATTTTAATGACTGCTTATGGAGAGCTTGATATGATCCAAGAAGCAAAAGATTTAGGTGCTTTAATGCATTTTGCTAAACCATTTGATATTGATGAAATTCGTCAAGCTGTGAGAAATGAGCTCGCTGTAGAGGCGTAA	MEGKILIVDDQYGIRVLLHEVFQKEGYQTFQAANGFQALDIVKKDNPDLVVLDMKIPGMDGIEILKHVKEIDESIKVILMTAYGELDMIQEAKDLGALMHFAKPFDIDEIRQAVRNELAVEA	PGPT0024650_153	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
AK009_05164	525			hypothetical protein	ATGTTAAAAATTTTTTCAACTCAATTAAGTGGTTATTTCTCCAGAGTTTCTCAAAAAGAAGAAATGAATATAGAAGATAGCGCTCGTTTACTTGCTCAAGCACTAATTGGCGATGGTTTCATTTATTTATATGGTACAAATGAAATGGATGGTGTTGTTACCGAAGCACTATTCGGTGCTGAACCAATGAAGCAAGCAAAACGCTTATTTGAAAATGGTAAAGAAGCAGAAGTAACCTCTGCGGATCGTGTACTTCTTATTAGCCGTTTTTCAACAGATGAAGCAGTTGTAGAAATTGCAAAAAAACTACAAGAAGAGGGACACTCTATTGTCGGCATTTCTGCTCTTCAAGAAGGTACGAAATCACTGGAACAATATACAGACGTACATATTGATACAAAACTGTTAAAAGGCCTTATTCCAGACGATGAAGGTAATCGCTACGGGTTCCCAAGCTTAATAGTAGCTTTATTTGCTTATCACGGAATCAAATTTACAATCGATGAAATGTTAAACGAATATTAA	MLKIFSTQLSGYFSRVSQKEEMNIEDSARLLAQALIGDGFIYLYGTNEMDGVVTEALFGAEPMKQAKRLFENGKEAEVTSADRVLLISRFSTDEAVVEIAKKLQEEGHSIVGISALQEGTKSLEQYTDVHIDTKLLKGLIPDDEGNRYGFPSLIVALFAYHGIKFTIDEMLNEY				NA	NA	NA	NA	NA
AK009_05165	1608	pyrG		CTP synthase	ATGACTAAGTATATTTTTGTAACAGGCGGTGTAGTATCGTCTTTAGGAAAAGGTATTACAGCAGCATCTCTTGGAAGACTTTTAAAAAATCGTGGTTTAAATGTAACGATTCAAAAGTTTGATCCATACATTAACGTAGACCCAGGGACTATGAGCCCATACCAACACGGTGAGGTATTCGTAACAGATGATGGCGCAGAAACTGACTTAGACCTTGGTCACTATGAGCGTTTTATCGACATTAACTTAAACAAATACAGCAACGTAACAACAGGTAAAATTTACTCTTCAGTTCTTCAAAAAGAGCGTCGCGGTGAATATTTAGGAGGAACAGTTCAAGTTATTCCTCACATTACTAACGAAATTAAAGAGCGCGTATATCGTTCTGGCCGTGAAACAAATGCGGATGTTGTTATTACAGAAATCGGTGGAACTGTTGGTGATATCGAGTCTCTACCATTCTTAGAAGCAATCCGTCAAATTAAGAGCGACATCGGTCGTGACAATGTAATGTACATTCACTGTACGTTAATCCCGTACTTAAAAGCAGCGGGTGAAATGAAAACAAAACCAACACAACATAGTGTTAAAGAACTTCGTAGCTTAGGTATTCAACCAAATATTATCGTTGTTCGTACAGAACTTCCTGTTTCTCAAGATATGAAAGACAAGCTTGCATTATTCTGTGACATCGATACAAAAGCAGTTATCGAAGCTCGCGATGCAGATACTTTATATGCGGTTCCATTATCTCTTCAAGAACAAAACATGGACCAAATCGTTTGTGATCACTTAAAATTAGACAATCCAGCTGCAGATATGACAGAGTGGACTGCGCTAGTTAACAAGGTACGTAACCTTTCTAAGAAAACAAAAATCGCTCTTGTTGGTAAATATGTAGAACTTCAAGATGCATATATTTCTGTTGTAGAAGCACTTCGTCATGCTGGTTACTCATTCGATACAGATGTAGAAGTAAAATGGGTAAATGCTGAGCACGTAACAGCAGAAAATGTACAAGAATTAGTAGGAGACACAGATGGTATCCTTGTACCAGGTGGCTTCGGCGATCGTGGTGTAGAAGGTAAAATCGTTGCGATTCAATATGCTCGTGAAAACAAAGTTCCATTCTTAGGAATTTGCTTAGGTATGCAACTTGCATCAATCGAATTCGCACGTAATGTATTAGGTTTAGAAGGTGCTAACTCTTCTGAAATTAACCCTGATACACCATACGCAATCATTGACCTATTACCAGAACAAAAAGATGTAGAGGACCTAGGTGGTACACTTCGTCTTGGTCTATACCCATGTAAGCTTTCTGAAGAAACAAATGCTTACAATGCTTATAATGAGCCGGTTGTATATGAGCGTCATCGTCATCGTTATGAGTTCAACAACCAGTTCCGTCCGGATATGGAAAAAGAAGGATTCGTATTCTCTGGTACAAGCCCAGACGGTCGTCTAGTTGAAATCATTGAATTAAAAGACCACCCTTGGTTCGTAGCAGCACAGTTCCACCCAGAACTTGTTTCTCGTCCAAACCGTCCACAACCATTGTTCCATGACTTCGTAAGAGCTTCTATTACGAATAAAGAGAGCAAGTAA	MTKYIFVTGGVVSSLGKGITAASLGRLLKNRGLNVTIQKFDPYINVDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFIDINLNKYSNVTTGKIYSSVLQKERRGEYLGGTVQVIPHITNEIKERVYRSGRETNADVVITEIGGTVGDIESLPFLEAIRQIKSDIGRDNVMYIHCTLIPYLKAAGEMKTKPTQHSVKELRSLGIQPNIIVVRTELPVSQDMKDKLALFCDIDTKAVIEARDADTLYAVPLSLQEQNMDQIVCDHLKLDNPAADMTEWTALVNKVRNLSKKTKIALVGKYVELQDAYISVVEALRHAGYSFDTDVEVKWVNAEHVTAENVQELVGDTDGILVPGGFGDRGVEGKIVAIQYARENKVPFLGICLGMQLASIEFARNVLGLEGANSSEINPDTPYAIIDLLPEQKDVEDLGGTLRLGLYPCKLSEETNAYNAYNEPVVYERHRHRYEFNNQFRPDMEKEGFVFSGTSPDGRLVEIIELKDHPWFVAAQFHPELVSRPNRPQPLFHDFVRASITNKESK	PGPT0021215_4879	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
AK009_05166	534	rpoE		DNA-directed RNA polymerase subunit delta	GTGAATTTTAAGCAATATTCACCAGAAGAGCTAAAAGAATGTTCAATGATTGAAGTTGTACATAGCGTTTTAGGGGATAAAAGACAAGCAACGACATTCAACGAGTTGGTTCAAGAAATCGCTCAAGTGCTGGGACTATCTCAAGAGCAAGTTAATGCGAAACTCGCACAATTTTATACAGACTTAAACATCGATGGACGTTTCATTAATTTAGGAGAAAATCGTTGGGGACTACGCAGCTGGTACCCATATGAGCAAATTGATGAAGAAATCTTACCGCAGCCAAAACCGAAGAAGAAACGTAAAGTTGAAGAAGACGGTTTTGACGACTACATTGAAGAAGATGAAGATGACTTTGACGATGCAGACGGAAATGCAGACGAAGAAGATGATGTAGAAGATTTGGACAAGGTTCTTGAAGAAGAAGACGGAGATGACGACGATCTTGATGATTTAGAAGAAGATGAAGAAGACGACTTCGCTGAAGAAGAACTTGAGTATGATGAAACTGAAGAAGAAGAGGAAGAACTGTAG	MNFKQYSPEELKECSMIEVVHSVLGDKRQATTFNELVQEIAQVLGLSQEQVNAKLAQFYTDLNIDGRFINLGENRWGLRSWYPYEQIDEEILPQPKPKKKRKVEEDGFDDYIEEDEDDFDDADGNADEEDDVEDLDKVLEEEDGDDDDLDDLEEDEEDDFAEEELEYDETEEEEEEL				NA	NA	NA	NA	NA
AK009_05167	630			hypothetical protein	ATGGTTAAACATAATGTACATGCATCGGTGAAAGATGAAAAATTAGTTGCGTTAAGACGTGAACAAATGATTAAAGGTGCGGTGCAACTGTTTAAACAAAAAGGATTTCCGCGTACAACAACGAGAGAGATTGCAAAAGCGGCGGGATTTAGTATAGGGACACTTTATGAGTACATTCGTACAAAAGATGATGTTTTGTATTTAGTTTGTGATAGTATATATGAACATGTAAAAGAACGATTAGAGGAAGTAGTATGTACAGAAAAAGGGAGTATAGAAAGTTTAAAGATAGCGATAACGAATTACTTTAAAGTGATGGACGAATTACAAGAAGAAGTATTAATTATGTATCAAGAAGTACGTTTTTTACCGAAAGAATCTCTCCCATATGTATTAGAAAAAGAGTTTCAAATGGTAGGAATGTTTGAGGATATTTTAGAACAGTGTACGGAAAATGGAACGTTTATATTAAATAAAAAAGAAATACAGCTTCTTGCACATAATATTTTTATACAAGGACAAATGTGGGGGTTTAGACGCTGGGCGCTGCAAAAACTGTATACGCTTGAAGAATACACAGAAATGCAAATTAGGTATGTGTTGCAAGGTGCCCATATGCTTCCGAAATAA	MVKHNVHASVKDEKLVALRREQMIKGAVQLFKQKGFPRTTTREIAKAAGFSIGTLYEYIRTKDDVLYLVCDSIYEHVKERLEEVVCTEKGSIESLKIAITNYFKVMDELQEEVLIMYQEVRFLPKESLPYVLEKEFQMVGMFEDILEQCTENGTFILNKKEIQLLAHNIFIQGQMWGFRRWALQKLYTLEEYTEMQIRYVLQGAHMLPK				NA	NA	NA	NA	NA
AK009_05168	1140	acdA	COG1960	Acyl-CoA dehydrogenase	ATGCATTTTAAACTATCAGAAGAACATGAAATGATAAGAAAAATGGTTCGAGATTTTGCTAAAAATGAAGTAGCACCAACAGCAGCTGAGCGTGATGAGGAAGAGAGATTTGATCGAGAGTTATTTGATCAAATGGCAGAGCTTGGTTTAACTGGTATTCCGTGGCCTGAAGAATACGGAGGAATTGGAAGCGATTACTTAGCATACGTAATTGCTATTGAAGAATTATCTCGAGTTTGTGCTTCAACAGGTGTAACACTATCTGCACATACTTCACTTGCGGGATGGCCAATTTTTAAATTTGGGACAGAAGAACAAAAGCAAAAGTTTTTACGACCGATGGCTGAAGGGAAGAAAATTGGTGCATACGGCTTAACGGAGCCAGGATCTGGATCGGATGCTGGTGGAATGAAGACAATCGCAAAGAGAGATGGCGACCATTATATTTTAAATGGATCAAAAATTTTCATTACAAATGGCGGTATTGCTGATATTTATGTTGTTTTTGCGCTAACTAATCCTGAATCGAAGCAGCGCGGTACGAGTGCATTTATTGTAGAAAGTGATACACCGGGATTTTCAGTTGGGAAGAAGGAGAGCAAGCTAGGGATTCGCTCTTCACCAACGACTGAAATTATGTTTGAAGATTGCCGTATTCCTGTAGAGAATCTACTTGGAGAAGAGGGGCAAGGATTTAAAGTTGCGATGCAAACATTAGATGGAGGTCGTAACGGTATTGCGGCGCAAGCTGTTGGTATTGCACAAGGGGCTTTAGATGCTTCTGTAGAATATGCAAGGGAGCGCCATCAATTTGGAAAGCCAATTGCGGCGCAGCAAGGGATTGGCTTTAAACTTGCGGATATGGCAACAGATGTAGAAGCGGCACGCCTTTTAACATATCAAGCGGCTTGGCTTGAATCAGAAGGGCTTCCGTATGGAAAAGAATCAGCGATGTCAAAAGTATTTGCGGGGGATACAGCGATGAAGGTGACGACTGAAGCGGTGCAAGTATTTGGTGGTTACGGTTATACGAAAGATTATCCAGTAGAGCGTTATATGCGAGATGCAAAGATTACACAAATATATGAAGGAACACAAGAGATTCAGAGGCTTGTAATTTCTCGTATGTTAACGAAGTAG	MHFKLSEEHEMIRKMVRDFAKNEVAPTAAERDEEERFDRELFDQMAELGLTGIPWPEEYGGIGSDYLAYVIAIEELSRVCASTGVTLSAHTSLAGWPIFKFGTEEQKQKFLRPMAEGKKIGAYGLTEPGSGSDAGGMKTIAKRDGDHYILNGSKIFITNGGIADIYVVFALTNPESKQRGTSAFIVESDTPGFSVGKKESKLGIRSSPTTEIMFEDCRIPVENLLGEEGQGFKVAMQTLDGGRNGIAAQAVGIAQGALDASVEYARERHQFGKPIAAQQGIGFKLADMATDVEAARLLTYQAAWLESEGLPYGKESAMSKVFAGDTAMKVTTEAVQVFGGYGYTKDYPVERYMRDAKITQIYEGTQEIQRLVISRMLTK	PGPT0002285_753	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK009_05169	1131	mmgC	COG1960	Acyl-CoA dehydrogenase	ATGAACTTTCGTTTTAATGAAGAGCAGCAAATGATGAGGAAAATGGTTCGGGATTTTGCACAGAAGGAAATAGCTCCCTTTGTTCCTAGTATGGAACAAGGGGTGTTCCCAAAAGAGGTTTTACAAAAGATGGGTAATCTTGGATTAATGGGGATTCCAGCGCCTGCAAAATACGGCGGGGCAGAAATGGATTTTATTTCTTACATTCTAGCAATTGAGGAAATCTCAAAGGTAAGTGCAACAGTTGGTGTAATTTTAGCTGTACATACGTCAGTTGGAATGAATCCGATTTTATATTTCGGAACAGAAGAACAGAAGAAAAAATATGTTTCTAAACTTGCAACCGGGGAATATTTAGGCGCATTTGCTTTAACAGAGCCAAATGCAGGATCGGATGCAGGGAGTTTGAAATCAAGAGCTGTAAAAAAAGGCGATCATTATATTATTAATGGATCGAAAGTGTTTATTACAAATGGTGGTGAAGCAAGTACGTACATTGTATTCGCTTCTACAAATCCAGATGCAGGAAAAAGTGGTATTTCTGCATTTATAGTAGAGAAAGATACACCTGGTTTAATCATCGGAAAAGATGAACATAAGATGGGGCTTCTCGGTTCTCGTACGGTACAACTTACTTTTGAAGATATGAAAGTGCCAGCTGAGAATTTACTTGGGGAAGAAGGACAAGGATTCAAGGTGGCAATGGCGAATTTAGATGTTGGGCGAATTGGAATCGGTGCACAGGCGTTAGGAATTGCTGAAGCGGCGCTTGCATGTGCGATTGATTATGCAAAAGAACGAGAGCAATTTGGGAAACCAATTGCGGCGCAGCAAGGGATTGGCTTCAAACTTGCAGATATGGCAACAAGTGTCGAAGCAGCAAGGTTACTCGTATATAGAGCGGCGTCTCTTAGGGCACAAGGATTACCATGCGGTAAAGAAGCATCTATTGCGAAATTATTTGCTTCTAAGACAGCGGTTGAAGTCGCGATTGAGGCGGTGCAAGTATTTGGTGGTTACGGTTATACGAAAGACTATCCAGTAGAACGATTTTTCCGTGATGCGAAAATCACGCAAATATATGAAGGAACAAGTGAAATACAGAAACTTGTTATTAGCCGTGCTTTATAA	MNFRFNEEQQMMRKMVRDFAQKEIAPFVPSMEQGVFPKEVLQKMGNLGLMGIPAPAKYGGAEMDFISYILAIEEISKVSATVGVILAVHTSVGMNPILYFGTEEQKKKYVSKLATGEYLGAFALTEPNAGSDAGSLKSRAVKKGDHYIINGSKVFITNGGEASTYIVFASTNPDAGKSGISAFIVEKDTPGLIIGKDEHKMGLLGSRTVQLTFEDMKVPAENLLGEEGQGFKVAMANLDVGRIGIGAQALGIAEAALACAIDYAKEREQFGKPIAAQQGIGFKLADMATSVEAARLLVYRAASLRAQGLPCGKEASIAKLFASKTAVEVAIEAVQVFGGYGYTKDYPVERFFRDAKITQIYEGTSEIQKLVISRAL	PGPT0002285_473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK009_05170	852	mmgB	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGGGTGTACAAAACATTGTTGTAATTGGTGCAGGGCAAATGGGATCAGGAATTGCACAAGTATGTGCAATGGCAGGATATGACGTGAAGGTACAAGATTTAAAACAAGAGCAATTAGATAGAGGTTTGGCTATCATTACGAAAAACTTAGCGCGTCAAGTAGAAAAAGGACGCATGAAGGAAGAAGAGAAGGAAGCGACATTAAATCGTCTTACAGTAACGCTTGATTTAGATTGTGTGAAAGAAGCGGATCTTATTATTGAAGCAGCTGTTGAGAAAATGGATATTAAAAAGAAAATCTTTGCGAATCTAGATGAAATTGCTCCAGAACACGCAATTTTAGCGACGAATACGTCATCTCTGCCAATTACAGAAATTGCAGCGGTAACGAAGCGTCCGGAAAAAGTAATCGGTATGCACTTTATGAATCCAGTTCCAGTTATGAAGCTTGTTGAGATTATTCGTGGTTTGGCTACAGATGATGCGGTATATGAAGCAATTGAAGATATTACGAAAAAAATTGGGAAAGTACCAGTTGAAGTAAATGATTTCCCAGGTTTTGTATCAAACCGCATTTTGTTACCGATGATTAACGAAGCAATTTATACGTTATATGAAGGTGTAGCGACGAAAGAAGCAATTGATGAAGTAATGAAGCTGGGTATGAACCATCCGATGGGGCCTTTGACGCTCGCTGATTTTATCGGTTTAGATACGTGTTTATACATTATGGAAGTGTTGCATGAAGGATTAGGAGATAGTAAATATCGCCCATGTCCGTTATTACGTAAGTATGTGAATGCAGGATGGTTAGGTCGTAAAACAGGTCGTGGATTCTACGTTTACGAATAA	MGVQNIVVIGAGQMGSGIAQVCAMAGYDVKVQDLKQEQLDRGLAIITKNLARQVEKGRMKEEEKEATLNRLTVTLDLDCVKEADLIIEAAVEKMDIKKKIFANLDEIAPEHAILATNTSSLPITEIAAVTKRPEKVIGMHFMNPVPVMKLVEIIRGLATDDAVYEAIEDITKKIGKVPVEVNDFPGFVSNRILLPMINEAIYTLYEGVATKEAIDEVMKLGMNHPMGPLTLADFIGLDTCLYIMEVLHEGLGDSKYRPCPLLRKYVNAGWLGRKTGRGFYVYE	PGPT0006075_4179	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
AK009_05171	1284	mmgA	COG0183	Acetyl-CoA acetyltransferase	ATGTATACAACTTTAGAAAGAGGTGCAATGATTGCACCTCTTCTCAACGTAGGGATACCGAGCGAGCGCTCAGTGTTAAAAAATGAAATGGGGGAAAGAAACATGAGTAAAACAGTTATTTTAAGTGCTGCAAGAACACCAGTTGGAAAATTCGGAGGATCTTTAAAAGATGTAAAAGCGACGGAACTTGGAGGAATTGCAATTAAAGCAGCGCTTGAAAGAGCAAATGTTGCAGCTAGTGATGTTGAAGAAGTTATATTTGGAACGGTTATTCAAGGTGGACAGGGACAAATTCCATCGCGCCAAGCTGCAAGGGCTGCAGGAATCCCTTGGGAAGTGCAGACGGAAACAGTCAATAAAGTTTGTGCATCAGGCCTTCGTGCGGTTACGTTAGCGGATCAGATTATTCGTACTGGCGATCAATCACTGATTGTAGCTGGTGGTATGGAGTCGATGAGTAACAGTCCTTACATTTTACGCGGAGCAAGATGGGGATACAGAATGGGCAACAACGAAGTTATTGATTTAAACGTTGCTGACGGTTTAACATGCGCATTTTCAGGTACACACATGGGTGTTTATGGCGGAGAAGTTGCGAAGGAAGATGGAATTTCTCGCGAAGCGCAAGATGAATGGGCATATCGTAGCCATCAGCGTGCGGTTTCAGCGCATAAAGAAGGACGTTTTGAAGAGGAGATCGTTCCAGTAACGATCCCGCAAAGAAAAGGCGATTCTATTGTCGTTGCAAAGGATGAGGCGCCACGTGAAGATACAACGATTGAAAAGTTAGCAAAGTTAAAACCTGTATTTGATAAGACAGCGGCGGTGACAGCTGGTAATGCGCCAGGCTTGAACGATGGTGGTGCCGCACTTGTATTAATGAGCGAAGACAGAGCGAAGCAAGAAGGAAGAAAGCCATTAGCGACAATTTTGGCGCATACAGCAATTGCAGTGGAATCTAAAGATTTCCCAAGAACGCCAGGTTATGCAATTAACGCATTGCTTGAAAAAACAGGCAAGACAATTGAAGATATCGATTTATTCGAGATTAATGAAGCATTTGCAGCGGTAGCAATTGCAAGTACAGAAATCGCAGGAATTGATCCAGAAAAATTGAATGTAAATGGCGGCGCAGTAGCGATGGGACATCCAATTGGAGCAAGCGGAGCGCGCATTATCGTTACACTAATCCATGCGCTTAAGCAGCGCGGCGGCGGAATTGGAATTGCTTCGATTTGTAGCGGTGGCGGTCAAGGGGACGCAGTGATGATTGAAGTTCACTAA	MYTTLERGAMIAPLLNVGIPSERSVLKNEMGERNMSKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDSIVVAKDEAPREDTTIEKLAKLKPVFDKTAAVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH	PGPT0008320_1325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK009_05172	2112	fadF	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGAATAGCTTACTGATCATTAATTGGCTGGCTGCCATTGCTGTTATTGCTTATGCAGGATATTTGTTTGTATATCTTATACGGACGAGAATAGCCTACATACAATTAGGAAAAAAAATTGAATTTGACCGTCGTTTTAAAGAGCGTTGGGATCTTCTTAAGGTCAATGTTTTCGGTCAGAAAAAGCTGCTGAAAGATAAGAAAAGCGGCATCATTCACGTTATGTTCTTTTACGGATTTATTCTTGTCCAATTTGGAGCAATTGACTTCGTTTGGAAAGGACTCGCACCAGGATCACATCTTCCACTTGGACCACTATACCCTGCATTTACATTCTTCCAGGAAATTGTCACACTTGTTATTTTAATTGCAGTATTTTGGGCTTTTCATAGACGTTATGTAGAAAAGCTTGTTCGTTTAAAACGTAACTTCAAATCAGGTCTTGTTCTTATCTTTATCGGTGGTTTAATGATCTCTGTGCTACTTGGTAACGGTATGGGACTTATATGGCATGGCGAGGAGCTTTCATGGAGTGAACCAATTGCTTCTGCAATCGCTTACGTTTTTAGCGGGATAAATGAAACCGTAGCCATTTCAGTGTTCTATTTCTCTTGGTGGGTGCATTTACTAATTTTGTTAACGTTTTTAGTGTATGTTCCACAATCAAAACATGCGCATTTAATTGCGGGACCAGCTAATGTATTTTTCGGTCGTATTTCAAATCCAGGGAAGCTTGAAAAGATTGATTTTGAAGATGAAACACAAGAAACATTTGGTGTTGGTAAAATTGAAGACTTTAGACAAAATCAACTTATTGACTTATACGCTTGTGTAGAGTGTGGCCGTTGTACAAATATGTGTCCAGCAACAGGCACAGGGAAAATGTTATCGCCGATGGACTTAATATTAAAACTTCGCGATCATTTAACTGATAAAGGGGCTGCGGTAACATCAAAAGCACCGTGGGTTCCAGTAGTTGCCTTCAATAATACACAAGGAAATCAGTTAGCGATGATGGCAGCTGGAAAAGGACAACAAGAATCAGCGGCTACAACGCTCGCTTACGATCCGAGTTTAATCGGAGATGTTATTACAGAAGAAGAGATTTGGGCATGTACAACGTGTCGTAACTGTGAAGATCAATGTCCAGTTATGAATGAGCATGTTGATAAAATTATTGATTTACGTCGATATCTCGTTTTAACAGAAGGAAAAATGGACGCGGAAGCACAACGCGCGATGACAAACATCGAGCGTCAAGGAAATCCGTGGGGTCTGAACCGTAAAGAGCGTGAAACATGGCGCCAAGGTGATGACGAAGTAACAGTTCCAACTGTAAAAGAAAAATCAAAAGCTGGTGAGGAATTCGAGTATTTATTCTGGGTTGGTTCAATGGGATCATACGACAACCGTAGTCAGAAGATTGCAATATCATTTGCGAAGTTAATGAACGAAGCAGGCATTTCATTCGCAATTCTCGGTAATAAAGAAAAGAATTCTGGAGATACACCACGTCGCCTCGGAAATGAATTTGTATTCCAAGAGATGGCGACAAAGAATATCGAAGAATTTGAAAAGGCAGGAGTGAAGAAAATCGTTACGATTGATCCTCATGCTTATAACACATTTAAAAATGAGTATCCGGACTTTGGCTTGCAAGCAGAAGTCTATCATCATACAGAATTGTTAGCCCAGTGGGTGAAAGAAGGGCGTTTAAAGCCTGTTCATGCTATTGAAGAAACAGTTACGTACCATGATTCCTGTTATTTAGGAAGATACAACGAAGTGTACGAAGCGCCACGTGACATTTTGAAAGCGATTCCTGGAGTGAATCTTGTAGAAATGGCACGTAACCGTGAGACTGGAATGTGTTGTGGCGCAGGTGGTGGCTTAATGTGGATGGAAGAAACAACAGGCTCTCGTATTAACGTTGCTCGTACAGAACAAGCATTAGCTGTACAGCCATCCATTATCGGTACAGGTTGTCCATATTGCTTAACGATGATCAGTGATGGCACGAAAGCGAAAGAGGTAGAAGAAAAAGTTCAAACTCTTGATGTGACAGAGATTTTAGAACGATCTGTTATCGGACAGAAAAAAGAAGCGATGTAG	MNSLLIINWLAAIAVIAYAGYLFVYLIRTRIAYIQLGKKIEFDRRFKERWDLLKVNVFGQKKLLKDKKSGIIHVMFFYGFILVQFGAIDFVWKGLAPGSHLPLGPLYPAFTFFQEIVTLVILIAVFWAFHRRYVEKLVRLKRNFKSGLVLIFIGGLMISVLLGNGMGLIWHGEELSWSEPIASAIAYVFSGINETVAISVFYFSWWVHLLILLTFLVYVPQSKHAHLIAGPANVFFGRISNPGKLEKIDFEDETQETFGVGKIEDFRQNQLIDLYACVECGRCTNMCPATGTGKMLSPMDLILKLRDHLTDKGAAVTSKAPWVPVVAFNNTQGNQLAMMAAGKGQQESAATTLAYDPSLIGDVITEEEIWACTTCRNCEDQCPVMNEHVDKIIDLRRYLVLTEGKMDAEAQRAMTNIERQGNPWGLNRKERETWRQGDDEVTVPTVKEKSKAGEEFEYLFWVGSMGSYDNRSQKIAISFAKLMNEAGISFAILGNKEKNSGDTPRRLGNEFVFQEMATKNIEEFEKAGVKKIVTIDPHAYNTFKNEYPDFGLQAEVYHHTELLAQWVKEGRLKPVHAIEETVTYHDSCYLGRYNEVYEAPRDILKAIPGVNLVEMARNRETGMCCGAGGGLMWMEETTGSRINVARTEQALAVQPSIIGTGCPYCLTMISDGTKAKEVEEKVQTLDVTEILERSVIGQKKEAM				NA	NA	NA	NA	NA
AK009_05173	207			hypothetical protein	ATGAAAAATCACGTGAAAATTGGTCGTGTAAAAGCAAATTTGACACAACAACAGCTTGCTGATGTTGTTGGAATTACAAGGCAAACTGTCAGCCTTATTGAAAAAGGTAAATATAACCCATCACTAAAGTTATGTTTACAAATTTGTTATGCCGTAAATGCAAAATTAGATGAGATATTTTGGTTGGATTGGGAGGATTTTAAATGA	MKNHVKIGRVKANLTQQQLADVVGITRQTVSLIEKGKYNPSLKLCLQICYAVNAKLDEIFWLDWEDFK				NA	NA	NA	NA	NA
AK009_05174	432			hypothetical protein	ATGAAGAAAATTACAGATGAAAGACTCATTTTAAGGAACTTAAAAAATATTAAAATCACGTATATTGTTCAGACCATAGGAATCTTATCCATTCTTGGTTATGACTTTTTTCAGGGGGGACTTGATAGAATGCGCGAGAACCCTCTTTGGATGGTATTTATTTTAACATCAATCGTATCTGCCTATTTATCAATGAGTATTAGTGTAGAACAAGAGAGGGCAATAATAAACCCTCAGAAATCATTTATTATTCGGCTGGTAGTATTAACTACTATTGTAGTGTTTATTTCCTACCTTACTTCTATTACACCAAACTATGGATGGAAAGACGGCCTATTATTAGGAAGCATTTTACTTATGTGTGGTTCTATACCAACGTATTATGTATATCGACTAAGATTGAAACAAAGACAGGATTTACAAGATGAATAG	MKKITDERLILRNLKNIKITYIVQTIGILSILGYDFFQGGLDRMRENPLWMVFILTSIVSAYLSMSISVEQERAIINPQKSFIIRLVVLTTIVVFISYLTSITPNYGWKDGLLLGSILLMCGSIPTYYVYRLRLKQRQDLQDE				NA	NA	NA	NA	NA
AK009_05175	840			hypothetical protein	ATGAAAAATAATACCGCTAAACAATTAGTGGAGCAAAATAACAAGCTTAGAGAACAGCTATCCCCAGAAAATAAAATATATTATGAAGATATTTTATTGTATATGCGTACATTTGGTTTTTTCTATGAAGAATTAGAAACAGAACAACACTTAATGGTAATATTACAAGATATTTTAGAAGCACAAAAACATGGCGAATCGGCAGAAGAGTATTTAGGTAAAAATCCAAAAGAGGTTGTCGATCAACTGACACAGCAATTTGATAAACCTTCATGGAAATCGATTTTTAAAATTAGTGGTTTAATTTTTTTAATTAGTATGTTTTACGATATTGTAGGTAGTTTTACAGCCCCATCATTACAAATAAATGGATTGGTTATATTGTTGAATGGAATATTCTCCATTGCATTCGTTTATGGTGTTTTTAAATTATTACACCTGAGTATTTATATGAAAACGCAATTACCAAGGTTAATTAAATTTTTCGTAGTATGGATAATAGCAATGATTCCGTTTGGGGTATTTTTCCTCATTCGACTTTTTACACCAAAACAAGGAATTTTTAAAATTGGTACCCCATTTGATTGGATTGCCATTCTTGTTATTTTAATCGTGTCTATCGTTTATGTTATATTCAAGAAGAAACGTGAATTCTTTGGGGGTCTTACTTACGTTGTCGCTTTAGGAATATTCGGTTTATTGTTAAGGATACCACAAACGAAAGAATTAGTTCAGGGTGGTAAAAACCAAACTTTTGTCATTCTTTGTATTATTGTGCCTATTGCGCTCTACGCACTAGTCGAATGGTTACTATTTCGAAAAATGGAAGATGAAAATTAG	MKNNTAKQLVEQNNKLREQLSPENKIYYEDILLYMRTFGFFYEELETEQHLMVILQDILEAQKHGESAEEYLGKNPKEVVDQLTQQFDKPSWKSIFKISGLIFLISMFYDIVGSFTAPSLQINGLVILLNGIFSIAFVYGVFKLLHLSIYMKTQLPRLIKFFVVWIIAMIPFGVFFLIRLFTPKQGIFKIGTPFDWIAILVILIVSIVYVIFKKKREFFGGLTYVVALGIFGLLLRIPQTKELVQGGKNQTFVILCIIVPIALYALVEWLLFRKMEDEN				NA	NA	NA	NA	NA
AK009_05176	342			hypothetical protein	ATGAAAGAAACACAACTACTAAAGGGGGTACTTGAAGGTTGCGTGCTATCTATTATTAAACAACAACAAGTATACGGTTATGAACTTGTACAAATAATGCGTGATTATGGGTTTACAACAATAGTAGGTGGAACGATTTATCCTCTACTGCAAAAGTTAGAAAAACAAGGGTTAATTAAAAGTAAGGAGCTCACTTCACCTGATGGACCAAATAGGAAATACTTCTTTATTACACATGAAGGAGAAGAACAACTAGAGGGTTTTGAAGAGCAATGGGGTTCATTGATTGTAAAAGTGAATCGGATTTTGACAAAAGTGGAGAGTGAATTGGATGAAAAATAA	MKETQLLKGVLEGCVLSIIKQQQVYGYELVQIMRDYGFTTIVGGTIYPLLQKLEKQGLIKSKELTSPDGPNRKYFFITHEGEEQLEGFEEQWGSLIVKVNRILTKVESELDEK				NA	NA	NA	NA	NA
AK009_05177	705			hypothetical protein	ATGTTTAAGAAATGTGTTTCATCAGTATTAGCTTTCGGAATGGCTTTATCATTAGGATTTTCCTCTTTTGCAGGAAATGTAAATGCAGAGCAATCTGACACAGCTAAAGGACCAGCTATGCAATACGAACAAATGTCAAAAGATTTTGAAGAAAAAACTAATGTTGTTAGTGAAAAAGTAGAAAATACTTTCACTAAATTAGTAGAAAAAAATCTAGCTGATGGAAAAATCAAGCTTGAATCTTTAGAGAATAGCAAATTAAATTTAGATGATGTTGTTGTACGCACTCTTGAAAATGGAGACTACTTTGTAAAAGTATCAACTAAAGGGGAAAATGCAACAGAGACATTTAGCGGTTTTTCTGTAATCTTTAATCAAAACAAAGAGTTAGTATCAGTATTTGAAGTTAACTTAAACCAGTTAGATGAAGATACTGCTGCATTAAAAACATGGTCAAATGGTCAAAAAGTTACTGATGTAGTAATGGAAAAACCAGATGTTCAACCACAATGGTCTTATAGTTATTTTGAAAATTGTTTAAGTTCTCAAGGTGTTCCTTGGGCAGCAGTTGCAGCTTTAGGATTTGTTTGTGGTGCAGCTTGTGTAGGTACTGGTGGCGCAGCTTGTGCACCATGTCTATATGCTGGATCAAGTATCAGTGGTGGTACTATTGGATATTGTTTAGGAAAAGCTTTAAGACAATAA	MFKKCVSSVLAFGMALSLGFSSFAGNVNAEQSDTAKGPAMQYEQMSKDFEEKTNVVSEKVENTFTKLVEKNLADGKIKLESLENSKLNLDDVVVRTLENGDYFVKVSTKGENATETFSGFSVIFNQNKELVSVFEVNLNQLDEDTAALKTWSNGQKVTDVVMEKPDVQPQWSYSYFENCLSSQGVPWAAVAALGFVCGAACVGTGGAACAPCLYAGSSISGGTIGYCLGKALRQ				NA	NA	NA	NA	NA
AK009_05178	378			hypothetical protein	ATGAATAGTAGAACTTCATTTCTTGGTTTAAGCATATTTTTTATTTTAATAACATTTGGTTTAAGTTTTGTATCGTTTATGGCAGGAAAAACGCTTTTCACTTTAAATGGTTTAACGACATTATCTTTTAGTATACTTTCATTTTCTGTTTGGTATCTTTATGCTGATTTTAGTAATCAAGATGAAAGAGCTAAATATATAAGAAAAAAAACTATAAACTTTTCATATTTTATTTTGGTAGTCTTAATCGTAGTATTTTATGTATTGTCAGTATTAAACGTTATATCATTAGATACGCCAAAACTGTTTCAAATAATTACTTCTACTGCCGTAATTATTTTATCTATATCTTGGATAATAATTACTAAGAAAAATTAA	MNSRTSFLGLSIFFILITFGLSFVSFMAGKTLFTLNGLTTLSFSILSFSVWYLYADFSNQDERAKYIRKKTINFSYFILVVLIVVFYVLSVLNVISLDTPKLFQIITSTAVIILSISWIIITKKN				NA	NA	NA	NA	NA
AK009_05179	207			hypothetical protein	ATGCAAAACAAATTAGAAGAAATACGAAAAAAATTTAATTATTCGCAAGAAAAATTAGCTCTAAAATTAAATACAACTAGACAAACAATAATATCTATTGAAAAAGGAAAATATTCTCCATCTCTACCATTAGCAATCAAAATTGCAAGACTTTTCAATATGAAGGTAGAAGATATTTTCTTGTTAGAGGAGGAAAATAATGAATAG	MQNKLEEIRKKFNYSQEKLALKLNTTRQTIISIEKGKYSPSLPLAIKIARLFNMKVEDIFLLEEENNE				NA	NA	NA	NA	NA
AK009_05180	912			hypothetical protein	TTGAAAAAGAAAATAGTAGTTTTATTGTTATTATTTATATTGATTGTTTCCATATTTGGATTCTATAAGTGGAAATATGTCTACAGTAAAGGAATGTATGGTGAAACTTTAAAAATAATTAATGCTGAAGATTATTTACCATATAAAGAAAAAACTCCCAAAATAGCTATTATTGATACAGGTGTTGACTTAAATAATAATTTTTTAAAAGATACTAATTTAGATCAATTTTATTTAGATGAAAAATCCAAAGTATCACAGCAGTACCATGGTACTATGGTTGCTGGAATTTTAATATCAAATGGAGATGGTTATACAAATCCAGGTGGATTAATACCTAAAAGCCAAGTATTATCAATTCAATCTGGAACAGATATGGGCATGACTTCAAATGACTTAGCAAAAGCCATTGATTTGTCCGTAAAAAAAGGAGCTAAAGTTATTAATATTAGTTCAGGAACCACTAAACAGAATGAGGTATTAGAAAAATCCGTTAATGAAGCTTTATCTAAAGGTGTTGTTATTATTGCTTCTAATGGTAATGACTCTAAAAACAAGTTATATTATCCAGCTTCTTATAAAGGAGTTATTAGTGTTGGAGCGATTAATAAAGATAGAAAACCTATAAACATCTCAGATATTGGAAAAGTAGACATATTTGCTCCAGGGGAAGAATTATTAACTACTCGAACTGATCAAAAGAATCATAAAGGTTTGTTTGGAGGTAATTCAGCTGCTACTCCAGTGGTTACTAGTATTGTTGCTTATTTATTATCTAATTATCCTGAAATTACAGCTGAAAATGTAGAGGATATTCTGATTAATAATTCAGATGTAGGTAAGCAAAAAGATCAAGATATTAAAATTATAAATGTAAAAAAAATAATAGATAGTTTATCTAAGAAGAATTAA	MKKKIVVLLLLFILIVSIFGFYKWKYVYSKGMYGETLKIINAEDYLPYKEKTPKIAIIDTGVDLNNNFLKDTNLDQFYLDEKSKVSQQYHGTMVAGILISNGDGYTNPGGLIPKSQVLSIQSGTDMGMTSNDLAKAIDLSVKKGAKVINISSGTTKQNEVLEKSVNEALSKGVVIIASNGNDSKNKLYYPASYKGVISVGAINKDRKPINISDIGKVDIFAPGEELLTTRTDQKNHKGLFGGNSAATPVVTSIVAYLLSNYPEITAENVEDILINNSDVGKQKDQDIKIINVKKIIDSLSKKN				NA	NA	NA	NA	NA
AK009_05181	435	bdbC_1		disulfide formation protein	TTGATAAATAAAAAAAATATTAATCATCTATTGTTTTTAATTTGGGTCGTTGCATTAATTGCAACTATGGGCAGCCTGTTTTTCTCAGAAATATTAAAATATGAGCCATGTAAATTATGTTGGATTCAAAGAATTTTAATGTATCCTATTGCAGTAACTGGGGCAATAGCTGTTATTAGAAAGGATTATAATTATGTAATTTATGTACTTCCTTTATCTATATTAGGTATATTTATTTCTAGTTATCACTATGGAATTCAAAAAGGGATAATAAATATAGAAAGTGATCATTTTTGCGGGAGAATACCATGTGTTGGACAATATATTAATTGGTTTGACTTTATTACAATTCCATTCCTTGCATTAACCGCATTTGTAATCATTTTCTTATGTGCATTATTTATATATTTTAAGAAATCAGGTGAACAACATTGA	MINKKNINHLLFLIWVVALIATMGSLFFSEILKYEPCKLCWIQRILMYPIAVTGAIAVIRKDYNYVIYVLPLSILGIFISSYHYGIQKGIINIESDHFCGRIPCVGQYINWFDFITIPFLALTAFVIIFLCALFIYFKKSGEQH				NA	NA	NA	NA	NA
AK009_05182	462			hypothetical protein	TTGAAGAAAATTATTATTACATTGTTTGTTATTACTACCGGTTTTATAGGTATGTATTTAATGATTACTTTTAATAACGATGATAATAATCCATATCAAAAAAAAGATATTCATGCTGAAACACGTAAACAATTAAACGATCCATTGTATCAAAATATTATTTTACCTAAACAATTAGATAAAGAGATAGCTAACTCAAAAAATATTACTGTATACTTTTACAGCCCAACTTGTGAACATTGCAAGAAAGTAACACCGATTGTAACCCCAATAACTCATGAAATGGGCGTCGAATTAAAACAATTTAACCTTTTGGAATATGAAGAAGGTTGGGAAAAATATCATATAGTGGGTACTCCTACTATAATTCATTTTAGTAATGGAAAAGAGCAAGACAGAATTATGGGTATGAACAGCAAAAGTGAATTTAAACAATGGTTCGAGAAAGTAAAAGCTAAATAA	MKKIIITLFVITTGFIGMYLMITFNNDDNNPYQKKDIHAETRKQLNDPLYQNIILPKQLDKEIANSKNITVYFYSPTCEHCKKVTPIVTPITHEMGVELKQFNLLEYEEGWEKYHIVGTPTIIHFSNGKEQDRIMGMNSKSEFKQWFEKVKAK	PGPT0013055_1188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK009_05183	1932			hypothetical protein	ATGAATCGTATTATAATTACCAAGTTAATTCTTCAAGGAACAGCATACAAACGAACATTAAGGTTTAAAGACGGACTAAACATAATTAGTGGAGATAAAACATCAGGAAAGTCATTAGTTCTTAGCTTAATTGATTATTGTCTAGGGAAGAGCAAAAAAATTGATTTAAATGTTCAAAAGCAATTAGATAAGTATTGTGATCAAATTTTTCTTGAGATACAAGTTAACAAAGAAACTGTTACTTTAAATCGCTTACTAAAACAAAAACAGGGAAAAATAAGCATTTATTATTGTGGATTTAATGACTTGGAGGGGTATACACCTAAGACAGTAGAGCTTAAAGAGGTATTACACTTTCTAATGAGAAAGCTAAACATCAATGAATATAAGCTTATTAAACATAAAAAACATAGCACAAAACAGGAATTAGAGAAAATATCATTTAGAGATATATTTAGATACTCTTATATTCATCAACATGAATTGGGGACTCATGATTTTTTAGAAAACAAATCTACATTTAAAAGGTATAAAAACCCTTATGCTTTTGAATTAATGTTTAATTTAGTTGAAGCGGATAAAGATCATTTGCAGGAACAGTTGGTAAAAGTAAGGAATGAAATTGAGGATACAAATAAAGAGATAACAGGTTTGAAATCATATTTAAAAGATAAAGATGCAGAGGATTTTAATGAATTGTCTAGTAAAGCAACTAGATTTAAAAATGAAATCGAACAACGTAAACTAGAAAAAAAATCAATTATAGAAAATAGTAAAGCCAATAGCAATAATGAAAACAAGATGTATATTAGATTGAAAAAGGATTTGACGGAAATTGCAAATCAAATATTTGATTTGCAAAAACAAAAGAACGAATTACAGAATTCTGTAAGAGCAAAAAGATTATTGATAGAAGAGTATAATCTTGAAAAGGAAGAAATAAATGCTACGTTAGAGGTTAATTATAAATTGGCAATTTCAGAGCAAAATATTGAATGTCCACTTTGTAATTCGACCGTTGCAAATCAAATTCAAGAAATAACTAAAGATAGTGTTACTCCAGAAAAGACATTATTGAAAATTAAGAAAGAGATTAACAATAAAATTAATTTGGTAAATAATTTGATTAGTGGTGACAATAAAGATATTGAAGATATAGATATAAAAATAGAAAAGCTAGAAAAGAAACAGGAGATTTTAAATAGAGCTATTACAGAATTCGCAAAATCCACAGATGTTCCGTTTCTTTCGCAATTAGATTCTATCAATAGCATAATAAATAAATTAACTAAAAATCAAGAAATAGTAAAGGAATGTATTAGAATACACCGTAAAATTGATGAGAAGTGTAAACTAATTGATGATTTAAATAAAGAAGTGAAACGATTAGAAAAAGATATTGCAGCTTTAAAAGTTAGTCGGGATGTTAGAAAACAAATTTTCAATTTCCTAAATACTGAATATAAGGGATTTATGAAAAGATTAAAATACGATATAAATAATGAAACGTATGTTGATTCTGAGAGTTATATTCCTTACCATGAGGGGGCAAGTGTTTACGAACATGAGAGTGGTGGTCTATTAGAATGTATGCAACTATCTTATTTAGCGGCAATTCTATCAAGTAAAAAAGAAGGTTATGCAGTGGGGCATCCAGGCTTTTTAATGCTGGATACTTTAAGTAAGTATCTGGGTACAATTCAAGTAGAATCCATAGAACAAGCGGAAATTAAAGAAGAAGAACGTATAAATGATCCCGAAGTTTATGAGGAAATTTATAAAATTTTAATTGAACTAAGCAATAAATATCAAATCATTATTGTTGATAACACGCCGCCAGAAAAGGTGAGTGGGTATACAAATTATACTTTCTTCTCAGGTGAAAAAGGTTTAATTAATATTAATATTAATGAATTTAAAGAAGAAGACTAA	MNRIIITKLILQGTAYKRTLRFKDGLNIISGDKTSGKSLVLSLIDYCLGKSKKIDLNVQKQLDKYCDQIFLEIQVNKETVTLNRLLKQKQGKISIYYCGFNDLEGYTPKTVELKEVLHFLMRKLNINEYKLIKHKKHSTKQELEKISFRDIFRYSYIHQHELGTHDFLENKSTFKRYKNPYAFELMFNLVEADKDHLQEQLVKVRNEIEDTNKEITGLKSYLKDKDAEDFNELSSKATRFKNEIEQRKLEKKSIIENSKANSNNENKMYIRLKKDLTEIANQIFDLQKQKNELQNSVRAKRLLIEEYNLEKEEINATLEVNYKLAISEQNIECPLCNSTVANQIQEITKDSVTPEKTLLKIKKEINNKINLVNNLISGDNKDIEDIDIKIEKLEKKQEILNRAITEFAKSTDVPFLSQLDSINSIINKLTKNQEIVKECIRIHRKIDEKCKLIDDLNKEVKRLEKDIAALKVSRDVRKQIFNFLNTEYKGFMKRLKYDINNETYVDSESYIPYHEGASVYEHESGGLLECMQLSYLAAILSSKKEGYAVGHPGFLMLDTLSKYLGTIQVESIEQAEIKEEERINDPEVYEEIYKILIELSNKYQIIIVDNTPPEKVSGYTNYTFFSGEKGLINININEFKEED				NA	NA	NA	NA	NA
AK009_05184	486			hypothetical protein	ATGAGTAAATTGAAAAGAAAAAACATGTCAGTTCCTCTATCTATTGAACTTTTATTTGATAATGAAAAATTAGATTTGATAAAAACTATGGGGCTTTTATATGCGTGTTTTTTACAAAACAAGAAGAAATATCGAAAAATCTCAGAACTTGTATTTTATTATAGTTTAGTTAATTTTGATCTGATTAAATTATTTGAGACTGGAGAAGAGAATAGAAGTAAAATATCCCCCAACTTGTATTTTAGGTTTCAGAATAAAATAAATCAAATACTACTGAACCTGTCTGATTTGAATTTTATAGAGATAAAAGGCAATCTATCTTTTAAGACAGGAGACTTAGCGGCAAAATTAACTAAAGGTGGATTAGAATTTTATGAAGAAATGGATTCAGAATACTTTTCTAAGTTAGTAGAAGATTACATTTATGCAATGAATCAAGTAGATTATACAGCTAATAATCTGAAGGTATTGAGGGGGATATCGTAA	MSKLKRKNMSVPLSIELLFDNEKLDLIKTMGLLYACFLQNKKKYRKISELVFYYSLVNFDLIKLFETGEENRSKISPNLYFRFQNKINQILLNLSDLNFIEIKGNLSFKTGDLAAKLTKGGLEFYEEMDSEYFSKLVEDYIYAMNQVDYTANNLKVLRGIS				NA	NA	NA	NA	NA
AK009_05185	1305			hypothetical protein	ATGGATGTAAATTTAGAAAAACTTAGAAAAGATTATCAAGATGATAAGATAGTACCTTTTATTGGAGCTGGATTGTCGGTACCTTTCAATGTTCCAAATTGGAAAATGTTAATAAATAATATTACCGAAAAATATGTTGCGCAGGAGAAAGCTTTTATTAAGGAAGTTGTTAAAGAAGAATTGAGAAATAATGATTATTGGGGAGCTATTGATGCATTAATGAAATATGTACCAATGATCGATCAAGACATACAGGAAGAAGTAGTAGAAATAATTAAAGAAAAACAAACTAAATTGCATGATGATAGTTTACATAATTATTCTGATATTGGAGAAATGAATTTTAAACTTCATTTAACAACAAACTATGAAAATTTACTAGATGATTACTTGAAATGTGATAATCGTCCTATTTTACTTAAAGATATTCAATTTAGTACGCAACGATTATTTGATGAAAAAAGGGTATGTCATCTCCATGGATTTACATCGAATTCGGGAACGATTGTTCTTAGTAGGGAGAGCTATTCAAATCTATATATGGAGAATAAATATGAGAATTTATTAAAAGTAGTTACAGGAAATAAGAAACTTCTATTTATGGGTTTTTCTTTTGACGATCAATTTGTAAGTACGTTAATTAAAGATCATAAAAAATATTTTAACGGGACTCATTATATTCTTTTAGATAATCCTACTAGCGAAAAAGTAAGAGAGTTACGAACAAAATATGGTTTACTGACTATTCCTTATCAAAGTGAGAGTTCTTCGCATACAGAGGAAATAAGAAAGATATTAAAATACATATCCGAACCTATTACAGTGGAAGTGGGGAACGCAAATTCAAATGTATCTAGTGGAGAAACTGCCAGCCCAATTATTATAGGTGCAGGATTAAATGATATGGATCAAAATGTGGAAAATAATCTCTTCTATAAAAAATTAAAACTCGAAAATATAGATCCTTTAATGATTAAATTAAGTTCCATTTTTTATATTTCTGCAGAAATATATATACGTGAGTTAAGAAAGGTAGGTATATCGATAGAGGTTATTGATGCAATGTTAGGTAAAGTTTTCGTGAAGTATATGGAAAGGTATGCTGATACATATAATAGGTATGGAGATAGTCAAAAGTTTCTAGAAGTTGTCCATAAAAGTTTAGAGGGGATTGAATTTGGGAGATATGCTGAATTATTTAAGGGTAATAAATCTGATGAAAATGAAAATAGAGGTTTGATACACATTTTAGCTGAAGAGGAGGAAAAGGGAGTATGGTGGGGAGGTCGACGTTTAAATGAGTAA	MDVNLEKLRKDYQDDKIVPFIGAGLSVPFNVPNWKMLINNITEKYVAQEKAFIKEVVKEELRNNDYWGAIDALMKYVPMIDQDIQEEVVEIIKEKQTKLHDDSLHNYSDIGEMNFKLHLTTNYENLLDDYLKCDNRPILLKDIQFSTQRLFDEKRVCHLHGFTSNSGTIVLSRESYSNLYMENKYENLLKVVTGNKKLLFMGFSFDDQFVSTLIKDHKKYFNGTHYILLDNPTSEKVRELRTKYGLLTIPYQSESSSHTEEIRKILKYISEPITVEVGNANSNVSSGETASPIIIGAGLNDMDQNVENNLFYKKLKLENIDPLMIKLSSIFYISAEIYIRELRKVGISIEVIDAMLGKVFVKYMERYADTYNRYGDSQKFLEVVHKSLEGIEFGRYAELFKGNKSDENENRGLIHILAEEEEKGVWWGGRRLNE				NA	NA	NA	NA	NA
AK009_05186	1518			hypothetical protein	ATGAAAATTTTAAATATGGTGAATCGAAAAGAAAGTATAAAGTATACTTGGGATGAAAGATGGGTACAACCGTATGAATCGCCATTTAGTATTTTTCAAAAGTTAATGTATGCTAACGTATGGTCTTTTAAAGAGCTATACAGGGAGCTAGGTTCTTCAGAGTTTAAAAGTAGAAAAACGCCATTAATAAGTTATAAATTTGGAAGTTTATATACGTTAGAAGGTTTTGATCTCAAGGAAATATCTTGTAGGTTAGGGGTTGATATGCAAAGTAATTATTTAAATGTTTTGTCAGAGTTAATGGATTGTTTAGGTGTGAAATTGTGTAGATATGAAGAAGAATTGCAGTATTGTGCAGTTTGTCTAAAACAAGGATACCATAGTATATTCCATCAATTTCATTACATTAATCAATGTTTTATTCATGGTACACCTTTACATAAAAGTTGTCCCAAATGTCATTTAGAATTTATGTATAATTTACGTAACTTGCAATTACAAAAACCTTTTCAATGTTTATGTAGTTATAATTTTTTAGCTGAAAATAGTGAAAGAAAGTTTTTCAAGAATTGGTCAGTTCCGATTTCAGTAGATAATAATCAGTTTATTCATAATATTTTTTCGTTATCAAAATCAGTCACTGAACAAATAAAGCGAATGTACATAACAGAAGTACCTCAAAAAGAAAGGGCAAATATAGATATAGTATCAGTTGCTCTTAATTATCCCCAGAAACCCGATCATCTCACATCCCAAAAGCTAATTTATACTAGAACTAGAGATCGTGTATGTTATCTCAAAACAGAAATGAAGCTTAAAACAAAAACTACCAAATATAATTATCTTTCTGATTATGATGGGGAAGAAATGTTTTGGACTATGCAAAAAATATATAAAGCAATATCTCGAAAAATTCGTAAGTGTTTATTAAAAAAGCATAAGAAATGTTGGAAGTATTATCAGCATAGAACTGCATTCTATAATAAGCCACTTTGTCCATATGTATATGCTTACGTGCATTGGCAAGGAGAAATTCAAGGTCGCAAGGAGTGTTGTTCGATATATAATTCATATTCAAGATTTTATTTTGAAGAATTTGAAACATATTCAAAATCAGATTGGAATTATATGTATAGTATATATGAGTTTATAAGAAATAATGTGATTGTAAAGGATCCTTTATATCACGACAACACTAAATCTATGAGTCAAGTTACTCCGAATTTCTTTGTTACGAAATGGATATTAGCAAAAATATATGCGCTTATTTTACTAGCAAAATTCCATTGTTGGTTTGAAATCGCATTGGAGTATGCTCCAAGGGATAAATTGTTTTTTCAGGCTCCTTCTAAGTTTCACATATACAAAAAAAGGTACTATCCGTTTTATTTGTTTTATCTTCCAGATAGGGATAGAGATTTTGCAGAGTTTATTTTTAAAGTGCAGCATGAACCTACAATGGAGATAAATCCAATTGGACATTGTCCAACTATTAATAATGAGATAAGAAATATATAG	MKILNMVNRKESIKYTWDERWVQPYESPFSIFQKLMYANVWSFKELYRELGSSEFKSRKTPLISYKFGSLYTLEGFDLKEISCRLGVDMQSNYLNVLSELMDCLGVKLCRYEEELQYCAVCLKQGYHSIFHQFHYINQCFIHGTPLHKSCPKCHLEFMYNLRNLQLQKPFQCLCSYNFLAENSERKFFKNWSVPISVDNNQFIHNIFSLSKSVTEQIKRMYITEVPQKERANIDIVSVALNYPQKPDHLTSQKLIYTRTRDRVCYLKTEMKLKTKTTKYNYLSDYDGEEMFWTMQKIYKAISRKIRKCLLKKHKKCWKYYQHRTAFYNKPLCPYVYAYVHWQGEIQGRKECCSIYNSYSRFYFEEFETYSKSDWNYMYSIYEFIRNNVIVKDPLYHDNTKSMSQVTPNFFVTKWILAKIYALILLAKFHCWFEIALEYAPRDKLFFQAPSKFHIYKKRYYPFYLFYLPDRDRDFAEFIFKVQHEPTMEINPIGHCPTINNEIRNI				NA	NA	NA	NA	NA
AK009_05187	987			hypothetical protein	GTGAGTGAAGATTTTTATGTTGCAGGTCGTAAAAAATTAGCGAAGCGAGGTAACTTGCATCCAGTACAAACAGGAAGGTACATTTTAGCGACGAATGAGATTGAAAGATTATATGATACTGTACATCGTTGGATTACAAATCGTACTCCAGGTGGAATTGTATATGGAAGACCGCGCTTAGGAAAAACAAGGGCGATTCGATTTTTACAATATGCTTTGCGAGAAGATTTTAAAGATCTCCCTATATTTGTTATAAAGTGTAATCATCATAAACAAGCTACTGAAAGAGTATTTTTTGAAGAATTATTGCGTAATGTAGGGCATGGAGACTCTAAGTCAGGGACACTAAATTCAAAAAGGGAGCGTTTATATCGTTTTTTGTTAGAATCAGCTTATAAGTCTTTAGAACAAAAGATTGTTTTTATTATGGATGAGGCTCAGGAGTTACAAGATAATCATTATCAATGGCTTAAGGATATCTATAATGAATTAGATAATTGTGAAGTTAGTTTAACATGTATTTTAGTAGGGCAAGAAGAACTCTTACGTCAGCGTGCAGCGTTTATTCAAGTGAAAAAACAACAAATAGTAGGTCGTTTTATGGTACATGATTTTAAATTTATGGGAATCAGGACGCTAGATGATTTACAAACATGTCTTCGAGGTTATGATGATGAATCAGAATACCCTTTAGGAAGTGATATTACTTATACACAACATTTCTTCTTAGAAGCATATGAAAAAGGATTTCGTTTATATCAGTATGCGGAAGAGATGATGGAAGCATTCCGTAGGGAACGAGAAAAAGCAAATTTATCTGCAACAGCTGAAATTCCTATGCAATATATTACTAGTACTATTGAGTATTTACTTTTGCAATATGGAAGGTATGGAGCAAATGTTTATCAAATATCTAAAAATATGATTGAAGAAGCTATTTGGTACTCGGGTTATATTGAAGCGGAGGTTTGTAAAAAAGGGATATGA	MSEDFYVAGRKKLAKRGNLHPVQTGRYILATNEIERLYDTVHRWITNRTPGGIVYGRPRLGKTRAIRFLQYALREDFKDLPIFVIKCNHHKQATERVFFEELLRNVGHGDSKSGTLNSKRERLYRFLLESAYKSLEQKIVFIMDEAQELQDNHYQWLKDIYNELDNCEVSLTCILVGQEELLRQRAAFIQVKKQQIVGRFMVHDFKFMGIRTLDDLQTCLRGYDDESEYPLGSDITYTQHFFLEAYEKGFRLYQYAEEMMEAFRREREKANLSATAEIPMQYITSTIEYLLLQYGRYGANVYQISKNMIEEAIWYSGYIEAEVCKKGI				NA	NA	NA	NA	NA
AK009_05188	1926			hypothetical protein	ATGGTTAGAAGAAGGCTACTAGAGGAATTAAGTGTTGAAGAATGGATGCTGGACTTGAAAAATTGGCCTAAAGTAGATATTACATTATTAAGTAAAGAACATCAGGGAATGTATTTAAAACGTAAGCAGGCTATGGATTTATATTTTATGTCTGAAAGGTCTGTGACAGATATTATTCAACAAACAGGCATTACATATAAGCGAATCAGTTATTTTGTAAAGCGTTGTCTATATCCTAATAATAATGGGTCAATTTTTGGCTACACAGCTCTTATTCCATATAAAAGAATAGACAAAAATCAATTTCCTTCGGCTCCTCCAAATTATATCGATACAGGAAAAGCTGGTTCTTTTACAGTTTTATTAAATACACATCCTCAGTTAAGAGTTTTTTTAGAAGACATGGTCTTGCCTAAGAAAAAAAATGAAATAGTAGAAAAAGGTATGATGATAAAAGTATTGCATAAGAAATTTTTACAATTATGTAAAGAAATCGGAATCCAATCCCATCAGTATCCCTTCACAACAAAGGATTTTGCAAAACGTTCTTTAGAAAGGTATATTGTCAAATTAAAAAAAGAACATCTTATTGTATATACATTCCAAGAAAATAAAGAGTTAGGAAGTTATATGGCTCATAATGGAGTAGGAGTAAAAAATCATCCTCTCATTGCTCGTCCATATCGTAGGGTGCAATTTGATGCACATAAAATTGATATTTTGATTTCAATTACATTTTTAACACCAGAAGGTGATGAAGTAACTAAAATTTTAGATCGTATTTGGATATTAAACATAATTGATGAAGCAACTCGATGTGTCTTAGGCTATCATCTTTGTTTAAATAAAGAATATTCTTCTTGGGATGTTTTGAAATGTTTGCATAATGCAGTAAAACCACAGGTGGATCCGGAATTTTCTATTCCAGGTTTGAAGCTGTCTGAGAATGCAGGTTTTCCTTCTCAAAAGTTTGAAACGTGTAAGTGGGCATTATGGGATGAATTTTTAATTGATAACGCTAAAGCAAATGATGCACAACTAGTAACGGAGAAGTTAAAACATGTTATTGGATGTTCTATCAATCAAGGACCTGTAAGTATGCCAGAAAGGCGACCTATAATTGAGCGCTTTTTTGGTTTGTTAGAAGAGAATGGTTTTCATCGTCTTCCAAATACAACTGGAAGTGATCCGACAGATACGAAACGAAATAAACCAGAAGAATATGCAATTAAATATAGAATATCCGAATGGGAGATAGAAGAATTAACAACAGCGCTAATTGCAGAATACAATGCTACACCTCACAGTGGATTAGGTTATTTATCTCCATTGGAGGCTATGGAGCAACGCATTCAAAGATATTTTGTTCGAACTTTGGGAGAGGAAGAACGAGAAAATCTTTCTTTTTTTGTATTACGTGCAAAGAGAACCATTCGAGGAAAGGATCGAAGACCATATATTCAATATAAGGCGGTGGAATATAGGAATGATATTATAGCAAACTTACCGGATCTTGTAGGGACAGAATTAGAATTATTAATAGATATTGATGACTTGCGTTCTATTCGTGCATTTTTTCGAGATGGTAGCGAACTAGGTTTACTATATGCAACAGGAAAATGGGGGATTAGCAAGCATTCCTTAAAAACAAGAGAGGCGATTATTAGCTTGCGAAATAAAAAGCTAATTCATTTTACAGAGTTTGAAGATCCAATTGAAGTATTTCAGCGTTACCTAGAAAAGAAAGGAACAAGGTATAAGACAGCTCGAAATCAATTAGCAAATCTAAAAAAAGAAAGAGAAAAAGAAGTTCCTTCTTCAATCCCTGCTTTCGAGAGTGAAGAATCATCCTTAATACAAAAAGAATTTATTGAAATAGGTTCTAAAAATAAGAAACGCCGATTTACTAAAACATTGGGCTATTAG	MVRRRLLEELSVEEWMLDLKNWPKVDITLLSKEHQGMYLKRKQAMDLYFMSERSVTDIIQQTGITYKRISYFVKRCLYPNNNGSIFGYTALIPYKRIDKNQFPSAPPNYIDTGKAGSFTVLLNTHPQLRVFLEDMVLPKKKNEIVEKGMMIKVLHKKFLQLCKEIGIQSHQYPFTTKDFAKRSLERYIVKLKKEHLIVYTFQENKELGSYMAHNGVGVKNHPLIARPYRRVQFDAHKIDILISITFLTPEGDEVTKILDRIWILNIIDEATRCVLGYHLCLNKEYSSWDVLKCLHNAVKPQVDPEFSIPGLKLSENAGFPSQKFETCKWALWDEFLIDNAKANDAQLVTEKLKHVIGCSINQGPVSMPERRPIIERFFGLLEENGFHRLPNTTGSDPTDTKRNKPEEYAIKYRISEWEIEELTTALIAEYNATPHSGLGYLSPLEAMEQRIQRYFVRTLGEEERENLSFFVLRAKRTIRGKDRRPYIQYKAVEYRNDIIANLPDLVGTELELLIDIDDLRSIRAFFRDGSELGLLYATGKWGISKHSLKTREAIISLRNKKLIHFTEFEDPIEVFQRYLEKKGTRYKTARNQLANLKKEREKEVPSSIPAFESEESSLIQKEFIEIGSKNKKRRFTKTLGY				NA	NA	NA	NA	NA
AK009_05189	660			hypothetical protein	TTGTATTCGCCGGTTACTATGTCACGAAACATGTATTATGGCAGTAATTTTTGGAGTGCATACAGTCACAAATTAAAACGAGATGTTCGCTTCTATAGTGATTTAGAGTATGAACATTGGTTATTAGTTGAAACCAATTCTGATATTGCTGTTTTTTGTGAACAGCCATTGAAAATAGCATATGAATTTGAAGGGAAAAATACACATACGATTTTTGACATGTGGGTACAAGAACGAAGTGGAAAAGAATACTTTGTGGAAGTGAAATATTCACAAGAGATGCGTAAGGGAAACAAAAAATACAATCGAACAATGAAACAATTAGAAATTCAAAGAGCTTGGTGTGAGGAAAACAAAAAGGAATATAGAATTATGACGGAAAAGGAAATTCGTGAACCGCGTATACATTTAGATAATATGAGGTTACTTGTATCTCTTACTAATCACTTCATTGAAGTGAATCCGTATCAAGAAGAAAAGATATTAAACTTAATCAATAATGGCTGTTTCTCTGTTAGTGACCTCTGCAGTTCTTACCCATCTATTCCATTGCGAGATATTTACATTATTCTAAGTAAAAATATCTTTGAGGGAAGGATACAGGCAAATCTAGACAATTTAGATTTTGGATATAAAACGGAGGTATGGAGTGATGGTTAG	MYSPVTMSRNMYYGSNFWSAYSHKLKRDVRFYSDLEYEHWLLVETNSDIAVFCEQPLKIAYEFEGKNTHTIFDMWVQERSGKEYFVEVKYSQEMRKGNKKYNRTMKQLEIQRAWCEENKKEYRIMTEKEIREPRIHLDNMRLLVSLTNHFIEVNPYQEEKILNLINNGCFSVSDLCSSYPSIPLRDIYIILSKNIFEGRIQANLDNLDFGYKTEVWSDG				NA	NA	NA	NA	NA
AK009_05190	201			hypothetical protein	ATGGCTTTATATACTTTTGTTCAAATTATAAATACTGCTCTTCATGGTCGAGTTATTCTTGTGGCTATCATGCCAAAATTCTGTCATATCGTAGATAACTTACCAAAAGGCTGTCTTCAGGTTGCGACACAAATTAGGCAAGTTGTAAAACTAAGTATCCCACCAAAAACAAGATATTTAGTTAATTCTTTACTACCCTAA	MALYTFVQIINTALHGRVILVAIMPKFCHIVDNLPKGCLQVATQIRQVVKLSIPPKTRYLVNSLLP				NA	NA	NA	NA	NA
AK009_05191	1194	clsB_3	COG1502	Minor cardiolipin synthase ClsB	ATGCTCTACTTATCTCTTTTGTTAATATCCGTTGCTCTTTGGATTACAATTGACCTTTCATACGGGAGACTTCTTCATTTAAAGCGGGTAAGCTCTCGCACTTTCCCTTTACGTCAAAGTGATTTTCACCTTTATACATACGGGAAAGATTTGTATGACGCCTTATTTACTGATATAAAACAAGCACAGCACCACATTCATATTTTATTCTTCATTGTAAAAAACGATAAAATCAGTCGTGAATTTTTAAAGTTGCTGATTGATAAGGCTCAGGAAGGAATTGAAGTACGACTTTTACTTGATCGATTTGGCAGCCATTATTTATCAAACGAAGCTATTCGCTCCCTGCGAAAACATGGTGTATCTTTTTCATTTTGTCATAAGATAAAATTTCCTCTACTTTTCTTTTCTGCCAATCAAAGAAATCATAGAAAAATTACAGTGATTGATGGGAAAACTGGCTATATCGGGGGCTTTAATATCGGCGAAGAGTATCTAGGGCATAATGAATATTTAGGATTATGGCGAGACTATCATTTACGTCTTACAGGAGAAGGGGTTCAAGATTTACAAAAGCAATTTTTGCATGACTGGTTTGATGATACGAAACAGAATTTATTGGATGTTTCTCTTTATTTTCCAAAACAAAACCCAGGTACCATAATGCATCAATTTATTCCGACTGATGGTGCTTATTTACAGCATACTTTTTTACATTTAATTAACGGAGCAAAAAAAGAAATCTGTATTGGTACACCATATTTCATTCCTGGAAAAAAAATTATGAATGCCTTATTAAAAGCAAGAGAGAGAGGGGTTCAAATCACAATTCTCGTTCCAGAAAAAGCTGATCACCCTCTCGTTCGAGAAGCAAAATTCCCGTACTGCCGAAAATTAATACAGGCTGGTTGCAATATTTACGCATTTCAACAAGGTTTTTTTCACGCCAAAATTATTATAGTGGATGATGATATTTGTGATATTGGAACAGCAAACTTTGATATGAGAAGTTTATATATTAACCATGAAATAAACTGCCTGTTATATAATAAACATTTCATTCGAACAGTAAAAAATAAATTCCATGAAGATCTAGAGAATGCATCCGTACTTTCCTATAGCGATGTAAACCCACCTTCTCTTATCGATAGAGGAAAAGAATGGATTGGAACAATGCTTGCTTTCTTTTTATAG	MLYLSLLLISVALWITIDLSYGRLLHLKRVSSRTFPLRQSDFHLYTYGKDLYDALFTDIKQAQHHIHILFFIVKNDKISREFLKLLIDKAQEGIEVRLLLDRFGSHYLSNEAIRSLRKHGVSFSFCHKIKFPLLFFSANQRNHRKITVIDGKTGYIGGFNIGEEYLGHNEYLGLWRDYHLRLTGEGVQDLQKQFLHDWFDDTKQNLLDVSLYFPKQNPGTIMHQFIPTDGAYLQHTFLHLINGAKKEICIGTPYFIPGKKIMNALLKARERGVQITILVPEKADHPLVREAKFPYCRKLIQAGCNIYAFQQGFFHAKIIIVDDDICDIGTANFDMRSLYINHEINCLLYNKHFIRTVKNKFHEDLENASVLSYSDVNPPSLIDRGKEWIGTMLAFFL	PGPT0007725_4808	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
AK009_05192	954	uvsE_1		UV DNA damage endonuclease	ATGATTATGCGGTTTGGATATGTCTCACATGCAATGGCACTCTGGGACTGTTCTCCTGCCAAAACAATGACGTTTACAAGCTTTAAGAAACTCAGCAAACAAGAGCGAGAAGACAAATTGTACCATGTTATAAGGCAAAATTTAGAGCACACAATACGTATCCTTCATTACAATATAGCGCATGAAATCCCGCTATATCGCCTATCGTCTTCCATCGTCCCACTTGCAACACATCCCGAAGTCGAGTTTGACTATATTGGGGTATTCACACCACTTTGGCGTAAAATAGGGGCTTTAATTAAAGAACACAATTTACGAATAAGTTTTCATCCAAATCAATTTACTTTATTTACAAGTGACAAGCCACATATTACTACTAACGCTATTACGGATATGACTTATCATTATAAAATATTGGATGCTATAGGCATTGCAGATTCTTCTTACATTAATATTCATGTAGGTGGAGCCTATGGAAATAAAGAAAAGGCAATTGAGCGCTTCCATGAAAACATAAAAAAACTTCCTGCACATATAAAAAAACAAATGACCCTTGAAAACGATGATAAAACGTATACAACTTCTGAAACTTTATCAATTTGCCAAAAAGAAAATATCCCATTTGTATTTGATTATCATCATCATATGGCCAATCTTTGCGAGCAACCACTAGAAGAGTTGCTTCCTGCAATTTTTGAAACTTGGTCACATACAAATATCTCTCCTAAAGTTCACATTTCCTCCCCAAGATCGGAAAAAGAATTTAGGGCTCATGCTGAATATATCGATTTAGAGTTTATTAAGCCCTTCTTACACGTTGCAAAAAAAAACAATCATAATTTCGATATTATGATTGAAAGTAAACAAAAAGACTTAGCACTATTCCGATTAATAGATGAACTTTCTGCTATAAGAGGCATTAAAAGAATAAGTGGTGCAATGTTACAGTGGTAA	MIMRFGYVSHAMALWDCSPAKTMTFTSFKKLSKQEREDKLYHVIRQNLEHTIRILHYNIAHEIPLYRLSSSIVPLATHPEVEFDYIGVFTPLWRKIGALIKEHNLRISFHPNQFTLFTSDKPHITTNAITDMTYHYKILDAIGIADSSYINIHVGGAYGNKEKAIERFHENIKKLPAHIKKQMTLENDDKTYTTSETLSICQKENIPFVFDYHHHMANLCEQPLEELLPAIFETWSHTNISPKVHISSPRSEKEFRAHAEYIDLEFIKPFLHVAKKNNHNFDIMIESKQKDLALFRLIDELSAIRGIKRISGAMLQW				NA	NA	NA	NA	NA
AK009_05193	2682			hypothetical protein	ATGATTAATCAAAAAAAGTATGTACAATTTGTCATAATATACATATCTATATTTGCTCTTTGGATACTCTTTATTCCAAATGAGTCGCATATAAAGGAAATTGGGATTCTTTTCTTATTCTGTTTTGCTGCACTTTTTTCTTGCCACTGTTTATATAAAGCTATTAAAAAAATGAAACGCAGTGATAAACTATTTTGGATTTTATTACTATGCACTTGCCTATGTGGATTAGTTATGGAGATAACCCTATTTCTTAGTTCGATTTCCATGCATAATCAATCTATATTTTCATATAAAGCATTACCTTTTTTTATCATACAATATATTTTGCTCTTTGTTGGATTTGCTATAAAGTTTATAAAAAATTACTCTATTAAGGGACTTTCTCAATTCTCATTCGATAGCATCTTTATTATTATTATTATGAACATTTATTTCACCTTAACTTTTATCTTAGATATTTCAAGCTTCCGCATGTTAACAAAGGACACTTGGATTTTAATTGGGTATTTTATTGCACAATCATTAGTAATTTACGCCGTTATTAGCCTATATAGAAGAGAACAATATTCTTCTAGTAGAATCGCATTAATTATCGGTTTCACTATTATACTCGTATACGGTTATATTCATCTGTTTCAATTGAATTTTGGGATGAAAACTTCCGCTGAAATTAATTATTTAATACACACTGCTTCTATTTTATTAATTGGACTTTCTTCCATACTATATATTTTGGATAAACCAATGCAGCATGAAACGAAAGCAAAATATTATCGATTCGATTATATACGTTTTATACTACCTTATTTTAGTATAATTATTACTTTTTCTTTTATTATCATTCAACCTTGGGATGATAAATTCATATTAATCGGCCTCGTGTTATCACTTATTTTGTTATTCTTGCGGCAACTTTACATGTGGAAAGATAATCAAGCACTAATCCATACATATGAACAGTTGACTACACAACTAGAGGGCGAAGTTGAAGAAGGTGCATTTGCATTATCAAAAAGTGAACAACGCTATAAATCTTTATTCGAAGATCATCCCGATGCCGTTTTCTCTTTAAATATGAATGGCATTTTTCAACAATCTAATAAGGCATGCGAAAGCTTATTTACTGCCTATTATTGCGAAGTGGCAAGCTATTCTCTGGTACACTTCATTGATTCAAAAGACCACGAACTACTTAAGAAGGCTTTACAAATTACAAAGGAAGGTAAGCCACAAACGTTAGAAGTTCGTACAAAAGAACAAGAAGGCTATTATTATTATCTCCATATTACACTTATCCCTACTTTTATAAACAAAGAAGTGGTCGGAATGTTTGGGATAGCGCGTGATATTACCACTTTATATGAAAAACAAAAACAAGTAGAACATTTAGCCTTTCACGATGCACTTACTGGATTACCAAATCGCCGAAAGTTCGAAAAAGATTTAAAAGCCATTTTGAATACAGCCCAAACTAACGCAAATGATGTCGCCGTCATGTTCCTTGATTTAGATCGATTTAAAAAAATTAACGATAGACTTGGTCATGACGTCGGAGATTTATTATTAATTGAAGTAGCAAACAGACTACGCGGTTGCTTGCGTTCAAAAGATGTCGTCGCTCGCCAAGGTGGAGATGAGTTTACCATTCTATTACCAGAAATGTACTCAGAAAAAAGTGCAATTTTTATAGCTGAACAGATTTTAACTATTTTAAACAAACCATTCTTCATTCAAGGCGAAGAACTCTCTATTACACCGAGTATCGGAATTGCGATGTATCCTGATTATGGAACTGATGTAAATGAGTTAATGAAAAATGCTGATATGGCTATGTACCGTGCGAAGGCAAATGGAAAAAACAGATTTGTTTTCTTCTCAAAAGAAATGAGTATCGCTCAAAATGAAATTCAATTCTTAGAAGGTGAACTTTCAAAAGCATTACAACAAAATGAATTTTTCCTTGAATACCAACCACAAGTAAGCACAAAAACAAAAGAAATTATCGGTTTTGAAGCATTAATACGTTGGAAGCATCCAAAACTCGGTATCGTATCTCCTGCCCAATTTATTCCTCTAGCAGAGGAAACTGGTTTTATTATTGAACTTGGTAATTGGATTTTACGTACTGCCTGTTTAGAGGCAAAAAGATGGCATAATCAAGGTTTTTCTCACTTAAAAGTTGGTGTGAATTTATCTGTTGTTCAATTTAACCATGCTGATTTAATCCCAACTATTTCAAAGGTGTTAGAAGAAACAGAACTGAAACCAGAAGCACTAGATATTGAAATTACGGAAAGCATCGCAATTAATCAAAATCAATCTGTAGTTGCAAAACTAGAACAGCTTCAAAATCTCGGCATTCAAATTTCAATCGATGACTTTGGAACTGGTTATAGTTCTTTAGCTTATTTAACAAAATATCCAATCAACACATTAAAAATTGCTCGAGAGTTTATTTGTGGAATTACAAATAGTCCTTTAGAAGAAGCAATTGTCTCTTCCATTATTACACTATCAAAAGAACTAAATTTAGAAGTGATTGCAGAAGGTGTAGAAACGGAAGAAGAATGGGAATTTTTACATAGACAAAATTGTGATCACATTCAAGGATTCTTTATTAGCAAACCTGTTTCTAGTAAAGACGTTTGGATGTTACTCCATAAAAAAACAACCGTCTAA	MINQKKYVQFVIIYISIFALWILFIPNESHIKEIGILFLFCFAALFSCHCLYKAIKKMKRSDKLFWILLLCTCLCGLVMEITLFLSSISMHNQSIFSYKALPFFIIQYILLFVGFAIKFIKNYSIKGLSQFSFDSIFIIIIMNIYFTLTFILDISSFRMLTKDTWILIGYFIAQSLVIYAVISLYRREQYSSSRIALIIGFTIILVYGYIHLFQLNFGMKTSAEINYLIHTASILLIGLSSILYILDKPMQHETKAKYYRFDYIRFILPYFSIIITFSFIIIQPWDDKFILIGLVLSLILLFLRQLYMWKDNQALIHTYEQLTTQLEGEVEEGAFALSKSEQRYKSLFEDHPDAVFSLNMNGIFQQSNKACESLFTAYYCEVASYSLVHFIDSKDHELLKKALQITKEGKPQTLEVRTKEQEGYYYYLHITLIPTFINKEVVGMFGIARDITTLYEKQKQVEHLAFHDALTGLPNRRKFEKDLKAILNTAQTNANDVAVMFLDLDRFKKINDRLGHDVGDLLLIEVANRLRGCLRSKDVVARQGGDEFTILLPEMYSEKSAIFIAEQILTILNKPFFIQGEELSITPSIGIAMYPDYGTDVNELMKNADMAMYRAKANGKNRFVFFSKEMSIAQNEIQFLEGELSKALQQNEFFLEYQPQVSTKTKEIIGFEALIRWKHPKLGIVSPAQFIPLAEETGFIIELGNWILRTACLEAKRWHNQGFSHLKVGVNLSVVQFNHADLIPTISKVLEETELKPEALDIEITESIAINQNQSVVAKLEQLQNLGIQISIDDFGTGYSSLAYLTKYPINTLKIAREFICGITNSPLEEAIVSSIITLSKELNLEVIAEGVETEEEWEFLHRQNCDHIQGFFISKPVSSKDVWMLLHKKTTV				NA	NA	NA	NA	NA
AK009_05194	147			hypothetical protein	ATGAAGAAATTACTTATTGGTAGTTTATTAACGTTAGCAATGGCATGGGGTATTTCATTAGGTGATACAACATTAGAGAAAAGTCAAATAATTTCTCATAATGATCAAGAGGTACAAGTAGCTGCAGATTTACCTTTTGAGTTTTAA	MKKLLIGSLLTLAMAWGISLGDTTLEKSQIISHNDQEVQVAADLPFEF				NA	NA	NA	NA	NA
AK009_05195	858			hypothetical protein	ATGCAAGCAGAGAAATTAGGAAGTGAAATTAAGAAAATTAGAGTGTTAAGAGGACTAACACAAAAACAGTTATCCGAGAACATATGTCATCAATCGGAAGTAAGCAGAATTGAATCGGGTGCAGTATACCCAAGTATGGATATATTGCAAGGTATTGCAGCGAAATTACAAATTCCCATTATTCATTTTTATGAGGTACTCATTTATTCGGATATTGAAAGAAAAAAACAGTTTAAAGATCAAGTCATTATGCTTTGTAAGCAAAAAAGATATAAAGAAATTTATAATAAAGTATGGAATGAACTGAAAAAGGAAGAATATCATCCTGAATTCCAGCAATTTCTTCAATGGCAATATTATGTAGCTGCTTACGTGTTGAAAAAAGTCGATTACGAATATTGTATTTTAGAATTAAAGAAATTGCTCAATCAACAATTGACAGGAATTGATGTATATCAGAATCTTTATATTGAAAACGCAATTGCAAACATTTATGCTGAAAATGGCTATTTGAAGAAGGGTATTGATTTATTTGAACAAATATTAAAACAATTAGAGGCATTGCATGATAATGAAGAATTTGACGTGAAGGTAAGGTATAATCATGCAAAAGCATTATACTTAGATAGTCGATATGAAGAATCACTTTATCAAGTAAATAAAGCGATTGAAATATCATGCCGAATTAATAGTATGGCATTAATTGGACAGCTATATTATCAAAGAGGTGAATGCCTAAGGAAGTTGGAGTATGAAGAGGCAGAGATTGAAGATGCATATAAGAAGGCAAGTTTCTTTTTTGATATATTAGAAATGCATGCATATAAAGAAGCGCTCGTAAATAAAATCAGCAGATAA	MQAEKLGSEIKKIRVLRGLTQKQLSENICHQSEVSRIESGAVYPSMDILQGIAAKLQIPIIHFYEVLIYSDIERKKQFKDQVIMLCKQKRYKEIYNKVWNELKKEEYHPEFQQFLQWQYYVAAYVLKKVDYEYCILELKKLLNQQLTGIDVYQNLYIENAIANIYAENGYLKKGIDLFEQILKQLEALHDNEEFDVKVRYNHAKALYLDSRYEESLYQVNKAIEISCRINSMALIGQLYYQRGECLRKLEYEEAEIEDAYKKASFFFDILEMHAYKEALVNKISR				NA	NA	NA	NA	NA
AK009_05196	1752	nprM_2	COG3227	Bacillolysin	ATGAATTATAGAAAACTTGCCAGTGCTTTCGTTACATTCGGTCTTCTTTACCCTTTATCAACAGAAGCTATTCATGCTCAAGAATTAGACAAAAGTGCAGTCAAAGTTGAAATTGCTCAGCCTGGTTTAACAATCGGGAAATTAACACAACCTCAAAATGATACGAAAGAAAATATTGCTAAAAAGTATTTAAAAGGTGAGGTAGATGGGGCTAAAGCTCAACAAGAACAAGTCACTACTGAAAAAAATGTAGATTTCCAACCTACAAATAAAGAAACCAAAGAAAATCAAACCGAAGTTCGCCTTGCACAAACATATAAAAACTATAAAGTATATGGCCAAGATCTCATTGTAAAAGTAGATAAAAATGGAGTGATCACAACTGTTAGTGGTAAAGTTGTTCAAAATTTAAATCAACAACCTAATCTTACTATAACAAATTTTTTGTCGAAAAATGAAGTGAAATCTAAATTACGCGATATAGTTCAAATTCCAAGTGATGCGGTTGAGACAGAATTCTCTAGCGAAACCGTTGTTTATAAGAAAAAAGATGGCTATTATACATTCGCAACTGTTATTACATTTACTTATGAAAACAATGAACAAATTATAAATGGCAATGCTATCGTTGATCTAAAAACTGGTGAAGTACTTTTCCAAGAAAAATTCATTAAAAACAAAGAGAATAAGACTATAAATCAAGTAACATCACCTAGATTATCCACTGCAAGTGAGCAAGGAACTGGGAAAAATGCACTTCAAGAAAACATCTCTTTCAATATTGCCAAAGGAACTGATGGGAAATTTTATTTAGCGGATTTATCACGCGGAAATGGTATTTATATTTATAATGCAAACTACGCCGATTCCCTCGGGGGATATAGTCAAGCTGGTTATCCAGGGACACTAATTTCAAGTAGCACTCCTAATTTTGCAGATAAAGAAGCCGCGGGCGCTATGAAGAACATGAGTGATATTTATGATTACTTTAAGAAAGAACATAATCTAAAAAGTTACGATAATAAAGATTCAAAAGTTGTTGCTAGTGTACACGGTTTTGATTCTACTGAAGTTAGTGATGGTATAAAAGAAGACTATGTAAATGCGTTTTGGCATCCCGCTTGGAACCAAATGGTATTTGGTGATGGTTTAGACGGCAAACTAACATCAGCTCTTGATGTAACAGCTCATGAATTTGGACATGCTGTATTCAGTGGCACGACGAAAAATAAAGTCGTGAGATATCCAAGCGCTGAAACATCTGCACTAAACGAGGGATTAGCGGATTTCTGGGGTACACAAATCGAATATTACGTAAAGAAAGATAAAGGAAACTGGATTATGGGCGATACATTAGGTGGCCTAACAATTCGTGATATCCCAAGGGAAATTGGTGACGGCGGTCATAAATTATATACAAATTTAAAAGATTTCTATAATGATGGTAATAATCAAGAATCACACGTGAATTCTGGTATTATCAGTCACGTATTATATCAATTAGCTGAAGGTAAAACATATAACGGTGTTGCTGTTCAAAAACAAGGCAATGAAAAAGTAAGCAAAGTTGTTATGCGTGCATTGCAAAATTATGCAACTTCCGCTGAAGACTTTGAATCACTTCAATCTCACATCGTACAAGCTGCAAAAGATTTATATGGCACTGCCGTATCAAATGAATTTGCAAAGGCATTTGAAGCACATGGTTACAAGTCGTTACAAAAAGTAAATAAGGTAATAGAAGTACAATAA	MNYRKLASAFVTFGLLYPLSTEAIHAQELDKSAVKVEIAQPGLTIGKLTQPQNDTKENIAKKYLKGEVDGAKAQQEQVTTEKNVDFQPTNKETKENQTEVRLAQTYKNYKVYGQDLIVKVDKNGVITTVSGKVVQNLNQQPNLTITNFLSKNEVKSKLRDIVQIPSDAVETEFSSETVVYKKKDGYYTFATVITFTYENNEQIINGNAIVDLKTGEVLFQEKFIKNKENKTINQVTSPRLSTASEQGTGKNALQENISFNIAKGTDGKFYLADLSRGNGIYIYNANYADSLGGYSQAGYPGTLISSSTPNFADKEAAGAMKNMSDIYDYFKKEHNLKSYDNKDSKVVASVHGFDSTEVSDGIKEDYVNAFWHPAWNQMVFGDGLDGKLTSALDVTAHEFGHAVFSGTTKNKVVRYPSAETSALNEGLADFWGTQIEYYVKKDKGNWIMGDTLGGLTIRDIPREIGDGGHKLYTNLKDFYNDGNNQESHVNSGIISHVLYQLAEGKTYNGVAVQKQGNEKVSKVVMRALQNYATSAEDFESLQSHIVQAAKDLYGTAVSNEFAKAFEAHGYKSLQKVNKVIEVQ	PGPT0020995_204	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
AK009_05197	603	desR	COG2197	Transcriptional regulatory protein DesR	ATGATTCGAATTATTATTGCAGAAGATCAACGGATGCTTCGTGGTGCATTAGGTGCCTTACTTGATCTAGAAGATGATATCGAAGTAATTGGGCAAGCGGCAAACGGGGAAGAGGCGCTAAAATTAATTGAATCGTTAAAACCGGATATCAGTATTATGGATATTGAAATGCCAATTCAAAGTGGATTAGATGTTGCTGAAGCGTTAAAGAAAGAAAAATCACCATGTAAAGTTATGATTTTAACAACATTTGCACGGCCAGGATATTTTGAAAGAGCAATGAAAGCTGGCGTGCACGGCTATTTATTAAAAGATAGCCCAAGTGAAGATTTAGCAGCAGCAATTCGTAATGTAATGAAGGGGAAACGAGAGGTCTCCCAAGAGTTAATGTTCGGTCTATGGCAGGAGCAAAATCCGTTGTCAGATCGCGAAAAGGAAGTATTGTTGCTTGCGAAAGAAGGAAAGACGGCAAACGAAATTGCGAAGGCACTTTATCTTTCACCGGGTACAGTACGTAATTATATTTCTGAAGTATTAACGAAGCTCGATGCGAAAAATAGAATTGAGGCAATTACAATTGCGGAAGAAAAGGGTTGGATATAA	MIRIIIAEDQRMLRGALGALLDLEDDIEVIGQAANGEEALKLIESLKPDISIMDIEMPIQSGLDVAEALKKEKSPCKVMILTTFARPGYFERAMKAGVHGYLLKDSPSEDLAAAIRNVMKGKREVSQELMFGLWQEQNPLSDREKEVLLLAKEGKTANEIAKALYLSPGTVRNYISEVLTKLDAKNRIEAITIAEEKGWI	PGPT0012750_286	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
AK009_05198	1131	desK	COG4585	Sensor histidine kinase DesK	ATGATAGAGAAAAAGAGGATTGAGGTTTTTCCGAAACATATGGGGTTCTTTCCGTATATGTGGTTTGTTTATCTATTATTTCCAATTTATCACTTAGCGCAGGCATCAGGATGGAAGCTTGTAATAGGAAGCGGTATGTTGATAATTTTTATCGTCACATACCGTCAGCTTTATTTTGTTCAGAGAACGTTTGTTTTTTGGGCTTGTATTCAAATGGTACTCATCTTTTTATTTGCTTTATTTTATAATCCTTTTATGATATTTTTTGGCTTTTTCACAGCAAGTGCGATGGGATTTGCGCCAAATAAGAAAGTATTTCGAGTGCTGTTATGTTCGTTAGTTATAATGCTTGGAGCATTTTTATTTGTAAATATGAATCAACTAACAACTACAAGTTTAGTAAATATCGTTCCGATGTTTATTTTAATGCTTCTTACGCCATTTGGTATGCGCAATTTTAATCAGAAAAAGATGTTAAAGAACCAACTGAATGAAGCAAACGAGCAAATTAAAGACTTAGTAAAGCGTGAAGAACGGCAGCGGATTGCGAGAGATCTTCATGACACATTAGGGCATACGTTATCTCTTATTACTTTGAAAAGCCAGCTTGTAGAGAAGTTAATTGTGAAAAATCCAGAGCGTGCAAGTGTGGAAGCGAAGGAAATTACACAAACGTCTCGTACAGCCTTAAAGCAGCTGAGAGAATTAATTTCTGATATGCGTATGATTACGGTAGAAGAAGAGCTAGAGCAAATAAAGGCAATCTTACAAGCAGCTAATATTGAATTAGAAGTGAGGCAAGAAGCAAGCTCGAGCTCGTTATCACCAATTGAACAAAATATTGTCGGGATGTGTTTACGTGAGGCCGTTACAAATGTTGTAAAACATAGTAAGGCAAAGCGGTGTGCAGTTTCTGTATTAGAATCGCAAGGTGAGCTGATTTTGAAAGTAGAAGATAACGGAATTGGTTTAACAGATCAAAATCATGATGGAAATGGTATCCGCGGCATGAAAGAACGAATTGCTCTTATTGATGGATTTGTTGAACTAGGTACAATCAATCCAGGGACGTTGTTAACAGTAAAAGTTCCAGTTGTTATTAGAACAGGAAAAGATGAGGTGAGGGCATGA	MIEKKRIEVFPKHMGFFPYMWFVYLLFPIYHLAQASGWKLVIGSGMLIIFIVTYRQLYFVQRTFVFWACIQMVLIFLFALFYNPFMIFFGFFTASAMGFAPNKKVFRVLLCSLVIMLGAFLFVNMNQLTTTSLVNIVPMFILMLLTPFGMRNFNQKKMLKNQLNEANEQIKDLVKREERQRIARDLHDTLGHTLSLITLKSQLVEKLIVKNPERASVEAKEITQTSRTALKQLRELISDMRMITVEEELEQIKAILQAANIELEVRQEASSSSLSPIEQNIVGMCLREAVTNVVKHSKAKRCAVSVLESQGELILKVEDNGIGLTDQNHDGNGIRGMKERIALIDGFVELGTINPGTLLTVKVPVVIRTGKDEVRA				NA	NA	NA	NA	NA
AK009_05199	735			hypothetical protein	ATGAGAGCGTTATGGATGCAATGCAAAATAGAAATTTTACGTACATTCCGCAATAAATTATTTATTTTTTTCTCATTATTAATGCCTGTTATGTTTTACTACATTTTTACAAATGTTGTTCAAGTACCACAAAACGGAGATGCGTGGAAGGCACACTATTTAATTTCGATGGCAACTTTCAGCATTGTAGGGACTGCACTCTTTAGTTTCGGTGTGAGACTTTCTCAGGAAAGAGGGCAAGGGTGGACACATCTTCTAAAAATTACACCGCTTCCAGAGGGAGCATATTTAACAGCAAAAATTATCGCTCAAACAGTAGTAAATGCTTTTTCAATATTAGTTATCTTTATTGCAGGGATACTAATTAATCATGTTGAGTTAACGGTAGGGCAATGGATTGGTGCGGGGCTATGGTTATTGTTAGGGGTAACACCATTTTTAGCATTAGGAACAGTAATAGGTTCCATTAAGAAGGCGGACGCAGCTGCTGGCTTAGCAAATATTTTAAATATGAGTTTAGCTATAGTTGGCGGGTTATGGATGCCGATTGAAGTATTCCCCAAAATATTAAGAACGATTGGTGAGTGGACACCGACATACCATTTCGGAAGTGGTGCGTGGGATATTGTAGCTGGAAAATCAATTGGATGGGAAAATATCGCGGTATTAGGAGGTTATTTCCTTATATTTGTTGTAGTATCAATATATATAAGAAAAAGACAGGAAGCGGTATAA	MRALWMQCKIEILRTFRNKLFIFFSLLMPVMFYYIFTNVVQVPQNGDAWKAHYLISMATFSIVGTALFSFGVRLSQERGQGWTHLLKITPLPEGAYLTAKIIAQTVVNAFSILVIFIAGILINHVELTVGQWIGAGLWLLLGVTPFLALGTVIGSIKKADAAAGLANILNMSLAIVGGLWMPIEVFPKILRTIGEWTPTYHFGSGAWDIVAGKSIGWENIAVLGGYFLIFVVVSIYIRKRQEAV	PGPT0006730_23126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_05200	903	ybhF_1	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGGAAAAGATTATTGAAGTAAATGGTGTTTCTAAAACATTTAAACATAAAAAAGCAGTAAATAACGTTTCATTTCACGTGGATAAAGGAGAAATAGTAGCATTACTTGGACCAAATGGTGCGGGGAAGACGACGATAATTTCGATGATGCTTGGATTAAAAGATCCTACAGAAGGTACGGTTTCTATATTTGGAAAGAGTCCAAAGCAGAGAGGCGTTCGTAATAATCTTGGGGCAATGTTACAAGAAGTAAGTGTGATTGATAGCATTACAGTGGAAGAGGCAATAGAGCTATTCCGCAGTTATTATAAGAATCCTGTAGCGAAAGAAACGTTACTGCAGTTATCAAATTTAGAATCAGAGCGAAAGCAAAGATGTGAGAAATTATCAGGTGGGCAAAAAAGAAGGTTAAACTTTGCGCTTGCACTTGCGGGAAATCCGGATTTGTTATTTTTAGATGAGCCGACAGTCGGAATGGATATTACGTCTCGAAGAACGTTTTGGGAAACGATTCGAAAGTTAGCAAGTGAAGGGAAAACGATTATTTTAACGACGCATTATTTAGAAGAAGCAGATGCTTTAGCAAATCGTATCTTATTATTTGCGAACGGAAAGATTATCGCAGATGGTACACCAGACGAAATGAAAGCAACGATTTCGAGAAAAACAATCACATTTTATTCGAAGGAAAGCATTCCTACAAAATTACTAAAGGAATTACCAAATGTAACAGAAGTAAAGTCAAACGAAGGACGCTTCATTTTAACAACGGAGGATACGGATGCAACTTTAAAAGCCATTTATCAAAGGAATTTACCTGTAATAGATGTTTCAGTTGAACGTGGAAGCCTTGATGAAGCATTTGAACAGTTTGTCGCAAATCAGAAGGAGGAAATCGCATGA	MEKIIEVNGVSKTFKHKKAVNNVSFHVDKGEIVALLGPNGAGKTTIISMMLGLKDPTEGTVSIFGKSPKQRGVRNNLGAMLQEVSVIDSITVEEAIELFRSYYKNPVAKETLLQLSNLESERKQRCEKLSGGQKRRLNFALALAGNPDLLFLDEPTVGMDITSRRTFWETIRKLASEGKTIILTTHYLEEADALANRILLFANGKIIADGTPDEMKATISRKTITFYSKESIPTKLLKELPNVTEVKSNEGRFILTTEDTDATLKAIYQRNLPVIDVSVERGSLDEAFEQFVANQKEEIA	PGPT0006725_15045	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_05201	756	mapB	COG0024	Methionine aminopeptidase 2	GTGGTTTTCATGATTATTCGTAATGAACAAGATTTAGAAGGCTTACGAAAAATCGGCCGCATCGTTGCGCTTGCACGTGAAGAAATGAAAAAACAAGCGAAGCCAGGTATGACAACGAAAGAGCTTGATTTGATCGGTAAAAAAGTATTAGATGAGCATGGTGCTATTTCTGCACCTGAAAAAGAATATGATTTTCCAGGTGTAACTTGCATTAGTGTAAATGAAGAAGTTGCTCATGGTATTCCAGGAGATCGTGTATTAAAAGAAGGCGATTTAGTAAACGTCGATGTATCTGCTGCACTTGATGGCTATTATGCTGATACAGGTATTTCATTTGTACTTGGAGAAGACGAGGCAAAAGAAAAGCTTTGCCAAGCAGCGGTTGATGCATTTTGGGCAGCAATGAAAAAGGTTAAAGCTGGCTCAAAACAAAATCAAATTGGTCGTGCTGTTTCAAACTTCGCACATAAAAGTGGATACAATGTTATTCAAAACTTAACTGGTCACGGCATTGGTCTTAGCTTACATGAAGCACCAAATCACATTTTAAGCTACTATGATCCAATGGATAATACGCTTCTAAAAGACGGTCTTGTTATCGCTGTAGAACCGTTCATATCTATGAAAGCTGATCATATTATTGAGCGTGGTGACGACGGTTGGACATTCATTACACCTGATAAAAGTCTTGTTGCACAATGTGAACATACCGTTGTCGTAACACGCGGCGAACCAATAATCTTAACAGAAATCTAA	MVFMIIRNEQDLEGLRKIGRIVALAREEMKKQAKPGMTTKELDLIGKKVLDEHGAISAPEKEYDFPGVTCISVNEEVAHGIPGDRVLKEGDLVNVDVSAALDGYYADTGISFVLGEDEAKEKLCQAAVDAFWAAMKKVKAGSKQNQIGRAVSNFAHKSGYNVIQNLTGHGIGLSLHEAPNHILSYYDPMDNTLLKDGLVIAVEPFISMKADHIIERGDDGWTFITPDKSLVAQCEHTVVVTRGEPIILTEI	PGPT0020010_8324	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
AK009_05202	9681			hypothetical protein	ATGAAAAAACTTTTCAATGTATGTTTAATTGTATTCGTACTATTTTCGCAGCTTGCTAGTTTTCCATACAATCAAGTAAAAGCGGAAACCTTAACAGGAGATTCCTTATTTGACACTGTTGAAATGAAAGATGCAACGAATCATATTATTGACGAAGCAAAAAATCCTAACAACTTAATAAAGATAGGATCAACCATTCAAGTAGAATACGCTTGGTCAATAAAGGATCAACAAGTTGCACAAGAAAAAGATTCAACAGTTCTTCAAATACCTAACGCATTAAAAGTAAAAAATGACCAACAAGGAAACTTGATGGCAGATCAACAAATTATTGGTCAATATTTTGTTACGGCAAACGATAACAAAATGAAAATAGTCTTTAACGATTCAGTAAAAGATTCAAAAGGTGTTAAGGGAAAAATTAAATTTGACACTGTATTCAATCCAGATTTAAAACCTGGCATAAAAGCCGTCCCACTCACTTTCCCTCTAGGTACAGTAGCTAAGACTATCTCAGTTCCTGTTCAAGTAGATAACCCTACTTCACCTACTATTAATAGTGATGATGCTAAGCAGACTACCAAAGAGCAAAAGAACGGTGACGCACAGCAACCTACTGAACAGCCAAAAGATGGTGAAACACAGCAGAAACCTGCGGAACAACCAAAAGACGGGAATCCTCAGCAGCCTGCGAAACATTCAAAAGATGGTGAGACACAGCAGAAACCTGCGGAACAACCAAAAGACGGGAACACTCAGCAACCTGCGGAACAGCCGAAAAACGGGAATCCTCAGCAGCCTACGGAACAGCCAAAAGATGGCGGGACACAGCAACCTACTGAGAACCCTGGTGATAACACAACAGGGCAACCTGTTGAAAATCCAGACCCATCACCTAAGCAAATTAAAGAAAATATTTTAACAAGCGTAAAATTAACAGATAAAGACGGAAAACCATTTAATGATACAGATAATCGTCCAAATCCTGATTCTGCTGCCAATATCGATTTTACATGGGAAGTTTTAGAATCATTAAAAGTAAAAAAGGGAGATTACTATATTTTCCAACTACCGGAATATTTTATCGTCCACAACACCATTACACAGCCTTTAGTTGATGGAACTAGACATGAAATTGGGACGTTCGTTGTTGACTTAAACGGAAAAGTAACTATGACTTTTAACGAGTACGTTGAAGACAATCCTAATATAGATGGTCATTTAAAAGTTGGTACGGAATTCAATAAAACAAAAATTAAAGGGACTACGGAACAAAAAATTCCTTTCCCAATTAAAGAACAAGACGTTATTATCGAGCTTGATTTCAAACCTAATGTAAAGAAATCTATGAATAAAAAAGGTATACCTGATAGACCGATTAATACGAATCAAATCAATTGGACAGTCGAAATGAACAAAACAAAAGACATTCTTACAAACGCTGTCTTCCAAGACAATATTCCAAATGGAGCCAATCTCAATGAAGATTCTATTAAGGTTTATGAGTTAGAAGTAGATATTAACGGGAAAACGACTCGTGGAGCCAAAGTTAGTAAAGAAGAATATACACTCACTTCATCCTCCGATAAATTAAATATCGCTTTTAAAAATGAAACGAAAAAAGCATATCAAATTGAATATGCGACAAAAATTACTGACGAAAGTGTTACTAGTTTCAAAAATGAAGCAAAAGTATCCAGCAAGAATCAAGGAGATGTATCCGCAAATGCAACTGTAACTGTTTCACGCGGTACACATCTAGAGAAAACTAGTAAATATAATCCAAAAACACAAACAATTGAATGGACAATTACTTTCAACGGTGACCAGAGAGAGATTAAACAATCTGATGCGCTTTTAAAAGACATCTTGGACAAATCTCATAAAGTTGATGCAAGTTCTATCGTGGTTAAAAATGCTTCTTATGATAATAACGGAAAACTTGTTACAGGTGACAACGCTACAAACTTTACTGTAAAAGAAACCGATGAGGGATTTGATTTACAATTTAATGAAGATATTAATAGTGCCTATGTGATTACTTATACATCGAAAGCCAAGAATGATGTTATACAAGATGGCGAAATCGAAAATACAATTATTGCAGATGGAAAATGGAGTAAAACAAACAAAGTTACATTACAACAACAAAACATCATAAAGAAACATAATAAAAATGCAAACGATACAGATTACAATAAGAAAACAACGAAATGGACAATTATTGTAAATGATAACAATTACGTGTTAAATGATGCTGTTATCACTGATACGTTTGACTATAGTGGACTTACATTACAAAAAGATAGTTTCAAAATTACTGATGGATCAACTGAACTGAAATTAGACTCTGATTACACACTTGATGTAACAGCTGACGGATTCAAAGTAACACTAGCTGGTATTTATAAGTCTAATATGGATAAAACTTTAACCATCACGTACACAACAGACTTTAATTACGAGACTCTATCTAAAAAGGATGATAATAAATCATTCAAAAATACAGCTGAGTTATCATGGAAAGATATAAATGGGAACGATAAAAATAGTAAATCTCATGATAGATTCAATCCTGACGGCTATACAAAAGGAAACGGATTTAAATACGGTTCTTACAATGCCCAAACGAAAGAAATCAAATGGGACATAGGGTTTAACTATAATAACAGGACTATTAAAGACCCTTCTATCGTTGACGTACTAGAAAACAATCAAAAACTTATACCAGACTCCATTGAGATTCATCATATGGAATTAACTGGTGGTGCAGACGGTTATAAATTAGGGGCACTTGTTTCCCCTGACGAATATACGGTAGAAAATGCAACGAAAGATAATAAAAATACATTAACGATTCATTTTAAAAATGAAATTAAAACAGCGTACCATATCAGCTTTAAAACTTCACTTGCAGGTGAAGAAATTAATAAGCGCTATGATAATTACGCCAAATTAAAAGATGGATCGGAAACTATCGCCAATATTCATGGTGCATTCGAGATCAAAAATGGTGGTAGCGGCGTTACGAAAAAAGCAAAACAAAATGACAAGTACATTGATTGGAGCGTTTCTATTAATGCAAGTCAATCAACGATTGAAAATGCTGTCGTAACAGACGATCCGACAGACAATCAAATTCTCGATGAAAAGTCATTCCACCTATATGGGACAACAGTAGCCGTGGATGGCACTTTAACGAAAGATACAACAAACGAATTAAAAGAAGGAAAAGACTATAAACTCAAAATAACAACAGACAACAATACGGGGAAACAACAATTTACAATTGAATTTCTTCATACTATTGATCGAGCTTATATTTTAGAATACCGTTCACTCATTAATGCAGACAATAATGAAAAGGTAAGCAATAAAGCGAAGATTACTGGTAATAGTTTGAAATTAACAGAAACTGAAAAAATTGAAGAAATAGTAGTTAAAGTATCTTCTGGATCTGGAGGCGGTTCTGCTACTAAGGGACGCGGAAACCTTCAAATTAAAAAAGTAGATAATGCAGATCCAAATAAAATTTTATCTGGCGTAGTATTTACTTTATTCGATCGCACAGGTACAACTGCTATTCGAACAATTACAACAGACGACAATGGTATCGCTCATTTTAACAACTTAAAACGCGATGAATATCTGCTTAGAGAAATGAAAACTCTTGATGGCTATGTCATTAGTAAAGAATTAAAAGCAGGTAAACTTGTTAAGCTTGGTGCAGAAGAAACTACAACATATACTCTTAAAAACGAGAAATTTGTTGGAAAAGTAGTACTTACAAAGACCGATGCTCATAACAAAGAAAAGCTTAAAAATGCAGTTTTCTCTCTGCTTGATCAAAACCATAATGTCATTCCTGAACATAAAGAATTAATAACAAATGATAAAGGACAAATTACTGTAGATAATTTAAAACCAGGAACTTACTACTTAAAAGAAATAAAGGCTCCTGAGCATTATCAATTAGATGATCGACTTATTGAATTTAAAATCGAGGAAGATCAAACAACAGTAATTAATAAAGAGGCCCAAAACAGCTTAATTAGAGGCTCAGCTATCCTAAAAAAAGTTGATAAAGAGGGTAATACTTTAGAAGGTGCAGTATTTAGTGTACGGGACCGAAATAACAAAAAAATCCCTGGTTATACCAAATTAACGACAAATGGTAACGGACAAATCGAAGCGAAAAATTTACTTCCTGGAGAGTACCAATTTGTTGAAGAAAAAGCACCTGAACATTATGAAATAGATAAAAAACCGCTTAAATTTACAGTTGAAAAGAGCCAACAGAAAGCACTTACTGTTAAAGCGACAAATCACCTCATTAAAGGTGGTGTCACTTTAACGAAAGTCGATGATGTCGATGGCACTGCCCTTGAAGGTGCTGTATTTAAAATTGTCGATGCGAATGACGAGAAACAAGTAATTCGTGAAAATATAAAAACAGGTTCAGATGGAAAAGTTACCGTTAAAGATCTAGAGCCTGGTGCTTATAAATTTATCGAAACAGAAGCTCCTAAGGATTATACGTTAAGTACAAACCCTATCGAGTTTACAATTGATAAAAGCCAACAAACTCTTGCTACTGTTACGGCAAATAACAGCTTAAAAACGGGCGAGGTTGAATTATTAAAAGTTGATGAGTTTGGTGAGAAAAAACCACTAGAAGGTGCTGTATTCAAACTTGTCGATACAAATAATAATGACGTTTCCCCTCACACTAACTTAACTACTGATAAACACGGTAAAGTTAAAGTTAGTAACCTACGTCCTGGTACGTATAAATTTATTGAAATAGCTGCTCCTGAACATTACGTTTTACGAGCAGAACCTATTGAATTTACAATCGATAGAAGTCAGAAAGAAACTCTACTTGTGAAAGCTGAAAATGCTTTAAAACCAGGAGATGTTGAATTAACAAAAGTTGATGATATCGATGGTACAGCTCTTGAAGGTGCTGTATTTAAAATTGTTGATGCAAATGATGAAAAGAAAGTTATTCGCGAAAATGTAAAAACTGGTGCGGATGGTAAAGCTATCGCTACTGGCTTACGCCTTGGCGATTATAAATTTATCGAAGTAACAGCACCGAAGTATTACGACAAAAATACAAAACCAATTAAATTTACGATTACAGAAAGTCAAACAACTCAGGCTACTGTTACCGCTAAAAACAGCTTAACAAAAGGCGGTATTGAGTTAACAAAAGTGAATGCTGCAGATGAAAAGGAAACACTTGAAGGTGCAGTATTTAAAATCGTTAATAGAGATACTAATGAAGATGTTCGTACGGACCTTGTTACGAATAGTAAAGGAATGCTAGTTGTAGATGACTTACGTCCTGGTAACTATAAGCTAATCGAGACGAAGGCTCCTACTTATTACGATGTAAATGAAGAACCAATTGAATTTATAATTGAAAAGAGTCAACAAAAACTCATCCCTATTACTTTCAAAAATAGTTTGACGAAAGGAAAGGTCAAATTAATTAAAGAAGATGACGTGGAGAGCGCGAAAGCTCTTGCTGGCGCTGTATTCACATTACAAGACGCAACTGGCAAAGAAATTATGAAAGATTTAATAACAGATGCACACGGAGTATTAGTCATCCCTGATTTAGCACCAGGCGATTATCAATTTATTGAAGTGAAAGCTCCTGAACATTATAAATTAGATCAAACACCTATTAAGTTCACAATTAAAAAAGGTAGTAAGGAAGATCTTCCTATCCCTGTTACTGTAAAAAACAGTTTACTTACAGGTGGCGTCACTTTAACAAAAGTTGATGATGTTGATGGCACTACTCTTGAAGGTGCAGAATTTATAATCGTTGACGCTCATGATACTAAAAAGGTAATTCGCAAAGGTTTAACGACTGATAAAAACGGTAAAATTACTGCTTCTGATTTACGTCCTGGAGACTATCAATTTGTTGAAGTAAAAGCTCCAAAAGACTATACCTTAAGCAAAGAGCCTATTCCGTTCACTATCGAAAAAAGTCAAAAAGAGAATATTACTGTTACTGCTACTAACAGTTTAAAGAAAGGTGCAGTAACATTAACAAAAATCGATGACATCGATCGTACGATGCTCGAAGGTGCAATCTTTAAGATTGTTGATATGAACGGTAAGGAAGTTCATACGAATCTTGTTACAGATAAAAACGGAAAAATTTCTGTTTCTGATTTACGCCCTGGAGACTATCAGTTCATTGAAACAAAAGCTCCTGAGCACTATGTATTAGAAGAAACACAAATTCCGTTTACAATTGAAAGAAGTCAAACGAAAGAGATCAATGTTACAGGTAAAAATGCTTTGAAAAAAGGTAGCGTTGAACTAACAAAGATTGACGATATTGATATAAATACAAAACTTGCTAACGCCGTATTTAATTTATTAGATGCAGACGGAGAGCTAGTTGAAGAAGGCTTAAAAACAAATGATGAAGGTAAAATTGTTGTTGAAAATCTACGTCCTGGTACGTATCAATTCGTTGAAACAATTGCTCCTGAACATTACGTTTTAGATAAAAAACCTATCGTATTTACAATTAAAAAGAGCCAAACTGAAGCTCTTCATGTCACTGCTACAAATGCTTTAACAAAGGGTGCTGTTAAACTTTCTAAAGTAGATGATGTTGATGCCACTGTTCTTAAAGATGCAGTATTTAAAATTGTTAATATGAACGGTGATGTAGTTCATAAAGACCTTGTTACAAATGAACAAGGACTAATCGAAATTAACGACCTACGTCCTGGTGATTACCAATTCATCGAAACGAAAGCTCCTAAGGATTATGTTTTAAATGAAACACCAATCAAATTCACTATTGAAAAAGGACAGAAGAAATCTATTTCTTTAACTGCTACAAATAGCTTAAAACAAGGTAGTATCGAATTACTTAAAGTTGATGATTTAAACGATCAAACAAAACTTGCCGATGCGGTATTTAATTTACTAGATCAAAATGGCAAGGTACTTAAAACAGATTTAAAAACAAACAGTGAAGGTAAAATCGTTGTCGAAAACTTACGTCCTGGTACGTATCAATTCGTTGAAACAACGGCTCCTGAACACTATGATTTAGACAAAAAACCAATTATATTTACAATTGAAAAAAGCCAAAAAGATATCGCTACCGTTACTATGAAAAATAGTTTAACAAAAGGCGGCGTGGAACTTTCTAAAGTAGATGACGTTGATGGCACTACTCTTGAAGGCGCAGTATTTAAAATTGCAGATATGAATGGTACTGTAATTCGCAAAGATCTTGTTACGAATCAACAAGGTAAAATTAGCGTTTCTGACCTACGTCCTGGTGATTATCAATTCATCGAGACAACGGCTCCGAAACACTACAATTTAAACAAAGAGCCAATTCCATTCACAATCACACAGAGCCAAGCTGAGCCTGTCTCTGTTACAGCTACAAATAGCTTAACGAAAGGCACTGTGGAGCTTTCTAAAGTGGATGATGTTGATGGTACCGCTCTTAAAGATGCGATATTTAAAATTACTGATATGAATGGTAATGACATTCGCACTGAGCTTACAACAGATGTACATGGAAAAATTTCTGTTTCTGATTTACGTCCTGGGGACTATCAGTTTGTTGAAACGAAAGCTCCTGAACACTATAAATTAGATAGTACACCTATTAAGTTTACAATTAAGAAAAGCCAAAAAGAAAAGCTCCAAGTTACTACTACAAATAGCTTAACTGAGGGTGCTGTAGAATTAATAAAAGTGGATGATATAAATCCAGATACAAAACTTTCTGATGCAGTGTTTAACATCATCGATGCGAAAGGTAAAATTGTTCGCACTGATTTAACTACTGATAAAGATGGTAAGATTACTGCTACGAACTTACGCCCAGGAGACTATCAATTCATTGAAATGAAAGCTCCTAAGCATTACGATTTAAATAAAACACCTATTAGCTTCACTATCGAAAAAAGTCAACTAACTCACGCTTCTGTTACTGCTAAGAATGGCCTAACAAAAGGTGGCGTGGAATTAACGAAAGTTGACTCTATAGATAAGAAAGAAATGCTAGAAGGTGCGGTATTTAAAATTACTGATCTGAACGGTAACGACATTCGTACGAATTTAGTTACCAATAAAGATGGAAAAATCATCGCTAAAGACTTACAACCAGGAGACTATCAATTTATTGAAACAAAAGCTCCTAAACATTACGACTTAAATGAAGAACCAATTAAGTTCACAATCGAAAGAAGTCAAACAAAGCATGTCTTCGTTACAGCTATTAATAGCTTAACGAAAGGTAGTGTTGAGTTAATTAAAGTTGATGATGCCAAGCAAAACACAACACTTGAAGGTGCAGTATTTAAAATTGTTAATAAGGATGGACACGATGTTCGTACCGATTTAACTACTGATAAAAACGGCCGTTTAGTTGTGGATGAATTACCGCCAGGAGACTATGAGTTTATCGAAACAAAAGCTCCTGAACACTATGACTTAAACAAAACACCTATTAAGTTCACAGTTAAAAAAGGCCAAGAAAAAATCGCCTCTGTTACTGCTACGAATAGCTTAACTAAAGGCGCAGTTGAATTAACTAAAGTTGATGACATCGATGGTACTACTCTTGAAGGAGCAATCTTTAAAATTGTAGATATGGACGGCAAGGATGTTCGTTCTGATTTAACTACTGATAAAGATGGGAAGATTTCTGTTTCTGATTTACGTCCGGGAGATTATCAGTTCATTGAAACGAAAGCTCCTAAGCATTATGACTTAAATCAAAATCCTATCAAGTTTACTATTGAAAAGAGTCAAACTGCTAAAGCTTCTGTTACTGCTACTAACAGCTTAACTAAAGGCGCAGTTGAATTAACTAAAGTTGATGACATCGATGGTACTACTCTTGCAGAGGCTATCTTTAAAATTGTAGATATGAACGGTAAGGATGTTCATTCTGATTTAACTACTGATAAAGATGGTAAGATTTCTGTTTCTGATTTACGTCCAGGAGATTATCAGTTCATTGAAACGAAAGCTCCAACTGGCTATGATTTAAACATTAAACCAATTCCTTTCACAATTACGAAAGGACAATCTCAGATTACCTCTGTTACAGCTTTAAATAGTTTAACAACAGGTTCAATTGAGTTAACTAAAGTTGATATTGATCACCATGGAACACTTGAAGGTGCCATTTTCAATATTTTAGACCAAGATGGAAAAATCATCCGAGAAGGTTTAAAAACAGACCAACACGGAAAAGTAATCGTAAATGATTTGAAACCTGGTAATTATCAATTAGTAGAAACACAGGCTCCTAAAGGCTATCAATTAGATGCATCACCAATAAACTTTACAATTGATAAAGCCCAAGCTACACCACTACAAATTACAGTTTCAAATAAAAAGATTGAATCTTCGTCAGGTGGAGATGACAAGCCAGTTACTCCTCCAAATAAAGAAGAAAACAAAGGCAATGAAACATCTGAGAAACACAAAAACGGAACTTCCGAAGAAACATCAAATGAAACAGATAACAAACAGCAAGATGATCGAAATACGGATAAGCACCTTCCAAATACAGGTCATAAAGAAGATCCTACACAAACAGTAGGTATCGTTCTTCTACTAGCTGGATTATTAAGTATTTTAGCTAAAAAACGCAAAAAAAATTATTAA	MKKLFNVCLIVFVLFSQLASFPYNQVKAETLTGDSLFDTVEMKDATNHIIDEAKNPNNLIKIGSTIQVEYAWSIKDQQVAQEKDSTVLQIPNALKVKNDQQGNLMADQQIIGQYFVTANDNKMKIVFNDSVKDSKGVKGKIKFDTVFNPDLKPGIKAVPLTFPLGTVAKTISVPVQVDNPTSPTINSDDAKQTTKEQKNGDAQQPTEQPKDGETQQKPAEQPKDGNPQQPAKHSKDGETQQKPAEQPKDGNTQQPAEQPKNGNPQQPTEQPKDGGTQQPTENPGDNTTGQPVENPDPSPKQIKENILTSVKLTDKDGKPFNDTDNRPNPDSAANIDFTWEVLESLKVKKGDYYIFQLPEYFIVHNTITQPLVDGTRHEIGTFVVDLNGKVTMTFNEYVEDNPNIDGHLKVGTEFNKTKIKGTTEQKIPFPIKEQDVIIELDFKPNVKKSMNKKGIPDRPINTNQINWTVEMNKTKDILTNAVFQDNIPNGANLNEDSIKVYELEVDINGKTTRGAKVSKEEYTLTSSSDKLNIAFKNETKKAYQIEYATKITDESVTSFKNEAKVSSKNQGDVSANATVTVSRGTHLEKTSKYNPKTQTIEWTITFNGDQREIKQSDALLKDILDKSHKVDASSIVVKNASYDNNGKLVTGDNATNFTVKETDEGFDLQFNEDINSAYVITYTSKAKNDVIQDGEIENTIIADGKWSKTNKVTLQQQNIIKKHNKNANDTDYNKKTTKWTIIVNDNNYVLNDAVITDTFDYSGLTLQKDSFKITDGSTELKLDSDYTLDVTADGFKVTLAGIYKSNMDKTLTITYTTDFNYETLSKKDDNKSFKNTAELSWKDINGNDKNSKSHDRFNPDGYTKGNGFKYGSYNAQTKEIKWDIGFNYNNRTIKDPSIVDVLENNQKLIPDSIEIHHMELTGGADGYKLGALVSPDEYTVENATKDNKNTLTIHFKNEIKTAYHISFKTSLAGEEINKRYDNYAKLKDGSETIANIHGAFEIKNGGSGVTKKAKQNDKYIDWSVSINASQSTIENAVVTDDPTDNQILDEKSFHLYGTTVAVDGTLTKDTTNELKEGKDYKLKITTDNNTGKQQFTIEFLHTIDRAYILEYRSLINADNNEKVSNKAKITGNSLKLTETEKIEEIVVKVSSGSGGGSATKGRGNLQIKKVDNADPNKILSGVVFTLFDRTGTTAIRTITTDDNGIAHFNNLKRDEYLLREMKTLDGYVISKELKAGKLVKLGAEETTTYTLKNEKFVGKVVLTKTDAHNKEKLKNAVFSLLDQNHNVIPEHKELITNDKGQITVDNLKPGTYYLKEIKAPEHYQLDDRLIEFKIEEDQTTVINKEAQNSLIRGSAILKKVDKEGNTLEGAVFSVRDRNNKKIPGYTKLTTNGNGQIEAKNLLPGEYQFVEEKAPEHYEIDKKPLKFTVEKSQQKALTVKATNHLIKGGVTLTKVDDVDGTALEGAVFKIVDANDEKQVIRENIKTGSDGKVTVKDLEPGAYKFIETEAPKDYTLSTNPIEFTIDKSQQTLATVTANNSLKTGEVELLKVDEFGEKKPLEGAVFKLVDTNNNDVSPHTNLTTDKHGKVKVSNLRPGTYKFIEIAAPEHYVLRAEPIEFTIDRSQKETLLVKAENALKPGDVELTKVDDIDGTALEGAVFKIVDANDEKKVIRENVKTGADGKAIATGLRLGDYKFIEVTAPKYYDKNTKPIKFTITESQTTQATVTAKNSLTKGGIELTKVNAADEKETLEGAVFKIVNRDTNEDVRTDLVTNSKGMLVVDDLRPGNYKLIETKAPTYYDVNEEPIEFIIEKSQQKLIPITFKNSLTKGKVKLIKEDDVESAKALAGAVFTLQDATGKEIMKDLITDAHGVLVIPDLAPGDYQFIEVKAPEHYKLDQTPIKFTIKKGSKEDLPIPVTVKNSLLTGGVTLTKVDDVDGTTLEGAEFIIVDAHDTKKVIRKGLTTDKNGKITASDLRPGDYQFVEVKAPKDYTLSKEPIPFTIEKSQKENITVTATNSLKKGAVTLTKIDDIDRTMLEGAIFKIVDMNGKEVHTNLVTDKNGKISVSDLRPGDYQFIETKAPEHYVLEETQIPFTIERSQTKEINVTGKNALKKGSVELTKIDDIDINTKLANAVFNLLDADGELVEEGLKTNDEGKIVVENLRPGTYQFVETIAPEHYVLDKKPIVFTIKKSQTEALHVTATNALTKGAVKLSKVDDVDATVLKDAVFKIVNMNGDVVHKDLVTNEQGLIEINDLRPGDYQFIETKAPKDYVLNETPIKFTIEKGQKKSISLTATNSLKQGSIELLKVDDLNDQTKLADAVFNLLDQNGKVLKTDLKTNSEGKIVVENLRPGTYQFVETTAPEHYDLDKKPIIFTIEKSQKDIATVTMKNSLTKGGVELSKVDDVDGTTLEGAVFKIADMNGTVIRKDLVTNQQGKISVSDLRPGDYQFIETTAPKHYNLNKEPIPFTITQSQAEPVSVTATNSLTKGTVELSKVDDVDGTALKDAIFKITDMNGNDIRTELTTDVHGKISVSDLRPGDYQFVETKAPEHYKLDSTPIKFTIKKSQKEKLQVTTTNSLTEGAVELIKVDDINPDTKLSDAVFNIIDAKGKIVRTDLTTDKDGKITATNLRPGDYQFIEMKAPKHYDLNKTPISFTIEKSQLTHASVTAKNGLTKGGVELTKVDSIDKKEMLEGAVFKITDLNGNDIRTNLVTNKDGKIIAKDLQPGDYQFIETKAPKHYDLNEEPIKFTIERSQTKHVFVTAINSLTKGSVELIKVDDAKQNTTLEGAVFKIVNKDGHDVRTDLTTDKNGRLVVDELPPGDYEFIETKAPEHYDLNKTPIKFTVKKGQEKIASVTATNSLTKGAVELTKVDDIDGTTLEGAIFKIVDMDGKDVRSDLTTDKDGKISVSDLRPGDYQFIETKAPKHYDLNQNPIKFTIEKSQTAKASVTATNSLTKGAVELTKVDDIDGTTLAEAIFKIVDMNGKDVHSDLTTDKDGKISVSDLRPGDYQFIETKAPTGYDLNIKPIPFTITKGQSQITSVTALNSLTTGSIELTKVDIDHHGTLEGAIFNILDQDGKIIREGLKTDQHGKVIVNDLKPGNYQLVETQAPKGYQLDASPINFTIDKAQATPLQITVSNKKIESSSGGDDKPVTPPNKEENKGNETSEKHKNGTSEETSNETDNKQQDDRNTDKHLPNTGHKEDPTQTVGIVLLLAGLLSILAKKRKKNY				NA	NA	NA	NA	NA
AK009_05203	1401	ywaD_2	COG2234	Aminopeptidase YwaD	ATGAGCAAATCATTGAAACAAAAAATAGTAAGCTCTTTGCTTGCTATATCACTTGCTGTTAGCTTAGCTCCAATTGGGCAAGCAAAAGCGGATTCCACTTCAGAAGTTCCACAAACTCCATCTATTACAAAACAAATTGATCCAAACCGCGCCATTGAACATGTTCGTTTCTTATCTGAAACAATTGGGCCTCGACCCGGTGGAACAAAATCCGAAGAATGGGCTTCTCGTTACATTGGTATGCAGCTTAAATCAATGGGTTATGACGTAGAATATCAGCCATTTCAGGTGCCCGATCAATACGTTGGATTCATTGAATCACCACTATCAACAAAACGTAATTGGCAAGCTGGTGCTGCTCCTAATGCACTAATATCTACAGAAGCTATTACAGCTCCCCTTATCTTTGTTCAAGGTGGGACAAAATTAGAAGATATTCCAAATGAAGTAAAAGGTAAAATTGTTTTATTTGAAAGAGGAACGACAGTTACAGATTATAATAAACAAGTTGAAAATGCTGTTAGCAAAGGTGCAAAAGGTGTTCTTTTATACAGTTTAATTGGCGGACGCGGAAATTATGGACAAACCTTCAATCCCCGCCTAACGAAAAAGCAATCTATCCCTGTCTTTGGTCTTGCTTATGCGCAAGGAAATGCATTTAAAGAAGAAATCACTAAAAAAGAGACAACAATTCTTTCCCTAAAAGCGAGACATGAATCTAAATTAACATCTCTAAATGTTATCGCAAAAAAGAAACCAAAAAAGAGTACAGGTAATGAAAAAGCAGTCGTTGTAAGCTCGCACTATGATAGTGTTGTTGGAGCACCTGGCGCAAATGATAATGCTTCTGGAACTGGATTAGTATTAGAACTAGCTCGTGCTTTTCAAAATGTAGAAACTGATAAAGAAATTCGCTTTATTACCTTTGGTTCTGAAGAAACTGGATTACTTGGTTCGGATTATTACGTTAATAGTCTATCCCAAAAAGAACGTGACCGTATTTTAGGCGTCTTTAATGCTGATATGGTTGCAACAAATTATGATAAAGCAAAGAATTTATACGCTATGACACCTGATGGCTCTACAAACTTTGTAACAGATGCTGCCTTGCAAGCAGGTAAACAATTAAATAATGACCTCGTTCTTCAAGGGAAATTTGGCTCCAGTGATCACGTACCGTTTGCTGAAGCTGGTATTCCTGCTGCTCTATTTATTTGGATGGGTGTCGATAGTTGGAATCCATTAATCTATCATATCGAGAAGGTATACCATACACCCCAAGATAACGTATTAGAAAACATTTCACCTGAACGAATGAAAATGGCATTAGACGTTATCGGAACAGGAGTTTATAACTCGCTTCAAAAACCTATTACTCAAACTGAGCAGAAAGCTGCTTAA	MSKSLKQKIVSSLLAISLAVSLAPIGQAKADSTSEVPQTPSITKQIDPNRAIEHVRFLSETIGPRPGGTKSEEWASRYIGMQLKSMGYDVEYQPFQVPDQYVGFIESPLSTKRNWQAGAAPNALISTEAITAPLIFVQGGTKLEDIPNEVKGKIVLFERGTTVTDYNKQVENAVSKGAKGVLLYSLIGGRGNYGQTFNPRLTKKQSIPVFGLAYAQGNAFKEEITKKETTILSLKARHESKLTSLNVIAKKKPKKSTGNEKAVVVSSHYDSVVGAPGANDNASGTGLVLELARAFQNVETDKEIRFITFGSEETGLLGSDYYVNSLSQKERDRILGVFNADMVATNYDKAKNLYAMTPDGSTNFVTDAALQAGKQLNNDLVLQGKFGSSDHVPFAEAGIPAALFIWMGVDSWNPLIYHIEKVYHTPQDNVLENISPERMKMALDVIGTGVYNSLQKPITQTEQKAA	PGPT0020920_120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020920-ywaD-K19701	NA	NA
AK009_05204	375			hypothetical protein	ATGAAAAAAATGATTTTAGTAGGTGCGTTAACTTTAGCAGGAATTACCGGAGCTACCGCGTTTATTCCTGAAACAAAAGTCGCTGCTGCCGCTCAAGAACAAAGCTTTACAAAATTTTATTCTTTGCAAACTGGAGGTAGTTCTGAACAAGAACCTATTTTCCTTCAAAAAGGACAAGAACTAACAATTCATCCTAACAGCAAAACTCCTAGTTACAGTGTTTATGACTCAAATCATAACCTTATTGGGCGTTATTCTGATGGTTACGGCCGAATTTTCACTGCAAAAACAGATGGAAATATGTATGTTCAATTTCATGCACCTTACGTTTACTATAGTCCTGTTAGTTTTTCTGTTACTTATACAATCCAATAA	MKKMILVGALTLAGITGATAFIPETKVAAAAQEQSFTKFYSLQTGGSSEQEPIFLQKGQELTIHPNSKTPSYSVYDSNHNLIGRYSDGYGRIFTAKTDGNMYVQFHAPYVYYSPVSFSVTYTIQ				NA	NA	NA	NA	NA
AK009_05205	672			hypothetical protein	ATGATAGGGTTCGCTAATCCATTTGTAGTATTTGAGATAGCTGGGATTACAATGTTTTTGGCTTTTATAGCACTTTTAGTATGTGTAGCATCATGGGTGTATACAGATGCGAAAACGCGTGGAATAAGTAAGTGGTGGAGTGTTATAGCGATTATATTGCCATTTTTTATTGGAGTTTTGTTATATATGACACGCAGAAATAGCCGGAAAGTAGAAGGAGAATATACGATGAAGGGTATGAAAAAGCAAAAGGTAACATTAGTTGTTATATTTGCAAGTGCGATGTTTGTATTACTTAGCGGCTTTGCTTTCGTTCAAACGTTAGATGATATGTGGAGAGCTGGTGATATATATTTAGAAAATGAGAAGAAAGGGGAGACAAGTTACGAGGCAAAATTCTCATCATGGGATATTGCTGGGAAAGATATTGAACTGGAGTATGCAAAAGATACAGAAGTAACATTTTCTTATGAAACAGATGCAAAGCGTGGTAACTTATGCTTTAGCTTGTATGAAAGACAAGGAGAAGGGATAAAGGAATTAAAGGAGATTTGTGAATCGAAAAAAGGTACTTTTAAAGCTACATTAAAAGCAAATGAAAAGTATGTATTCAATATAAGTGGTTTAATGGTGAAAGATGGTTTTGTAAAAGTGAATTGGGAAGCAAAATAA	MIGFANPFVVFEIAGITMFLAFIALLVCVASWVYTDAKTRGISKWWSVIAIILPFFIGVLLYMTRRNSRKVEGEYTMKGMKKQKVTLVVIFASAMFVLLSGFAFVQTLDDMWRAGDIYLENEKKGETSYEAKFSSWDIAGKDIELEYAKDTEVTFSYETDAKRGNLCFSLYERQGEGIKELKEICESKKGTFKATLKANEKYVFNISGLMVKDGFVKVNWEAK				NA	NA	NA	NA	NA
AK009_05206	315			hypothetical protein	ATGACGGAAGATAAGTTTGATCAGAAGATAAAAAGTAGCTTAGCGGGAGAGATGGTTCCTAACGAAGAGCTAATAAACCATACGAAACAGAGCGTGCGAAATGCTCGAAAATTAGAAAAGAGATGGGTTGTTTTCATTCATGCTATTTGGATGATTGTATTAACAGTCACCCTAGAGCAGTTTGTTAGTCATTTGGATCATAAAATATCTGTCATTATAACGATAGTTATTATGATGCACATATACATTCCTATATATGTTGTCATACAGGCATTTTTAAAGAAGGAGTATAAATTACATGATAGGGTTCGCTAA	MTEDKFDQKIKSSLAGEMVPNEELINHTKQSVRNARKLEKRWVVFIHAIWMIVLTVTLEQFVSHLDHKISVIITIVIMMHIYIPIYVVIQAFLKKEYKLHDRVR				NA	NA	NA	NA	NA
AK009_05207	528	sigR	COG1595	ECF RNA polymerase sigma factor SigR	ATGGAAGAAAAGGTAGAAGAATTAATTGATATATATAAGCAGCAAATATATTCCTTATGCTATAAGTTAGCGAAAACGAAAGAAGATGCGGAAGATATTTTTCAAGAGACGTGGATAAAGGTTTTTTCATCAAGGCATCAACTTTCCTATGTGGATAATTATAAAAAATGGATTGCTACAATTTGTGTTCGTACGTTTTATGATTTTTATCGTAAGAAAAAAAGGTGGAAAGATCGAATATTGGATTTGTTTCATAAAGAAGATGGTGGAGAAATAGATTTCGCAGATGAAGTAAATATATCAGAAGAATGTATTCAAAAAGTGGAAGCGGAAATGATACGGGAAGTTATACAGTTATTGAATGAAAAGTATAAAACTGTGCTCGTACTCTACTATTATGAACAATATTCTTATAAAGAAATGAGTGAAATATTAAATATACCGATTGGTACAGTGAAATACCGCCTTAATTATGCGAAGAAGCAAATTCGAGAACATTTGGAGGGGTTCGTTTATGACGGAAGATAA	MEEKVEELIDIYKQQIYSLCYKLAKTKEDAEDIFQETWIKVFSSRHQLSYVDNYKKWIATICVRTFYDFYRKKKRWKDRILDLFHKEDGGEIDFADEVNISEECIQKVEAEMIREVIQLLNEKYKTVLVLYYYEQYSYKEMSEILNIPIGTVKYRLNYAKKQIREHLEGFVYDGR	PGPT0014960_10708	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_05208	1671	argS_2		Arginine--tRNA ligase	ATGAATTCCTTAGAACAGGTAAAAGGATTGATTAAAGAAGAAATTCAAGCTGCTGTATTAAAGGCAGAATTAGCGACAGAAGAACAGATTCCAAACGTTGTATTAGAATCTCCAAAAGATAAAACAAATGGTGACTTCTCTACAAACATGGCAATGCAACTTGCACGCGTTGCGAAAAAAGCACCTCGTATGATTGCAGAAGAACTAGTTGCAAACTTCGATAAAGCAAAAGCTTCTATTGAAAAAATCGAAATCGCTGGTCCTGGTTTTATTAACTTCTATATGGATAATAGCTACTTAACAGATTTAATTCCAACAATCGTAAACGCTGGTGAAGCTTACGGTGAAACGAACACTGGTAAAGGTGAAAAAGTACAAGTTGAGTTCGTATCTGCGAATCCAACAGGTGACCTTCACTTAGGACATGCACGTGGTGCGGCAGTGGGTGACACTTTATGTAACGTATTAGCAAAAGCAGGATACGATGTATCTCGTGAGTACTACATTAATGATGCCGGTAACCAAATTCATAATTTAGCTCTTTCTGTTGAAGCTCGTTACATGCAAGCTTTAGGTTTAGATAAAGAAATGCCAGAAGACGGTTACCATGGTGCGGATATCATTGGAATCGGTAAACGTTTAGCTGAAGAGTTTGGCGATCGTTACGCAAAAGCTGATGCTGAAGAAAGCTATGAATTCTACCGTTCATACGGTTTGAAATATGAGTTAGCAAAACTTCAAAAAGACTTAGAGAGCTTCCGTGTTAAATTTGATGTATGGTTCTCAGAAACATCATTATACAAAAACGGAAAAATCGATGCTGCACTTACTGTATTAAAAGAGCGTGACGAAATCTTTGAAGAAGGCGGAGCAACTTGGTTCCGTTCAATGACTTACGGTGATGACAAAAACCGTGTATTAATTAAAAATGACGGTTCTTACACATACTTAACGCCAGATATTGCTTACCATCGCGATAAATTAGAGCGTGGTTTCGATAAGCTAATCAACATTTGGGGTGCTGACCACCACGGTTACATTCCTCGTATGAAAGCTGCTATTCAAGCGCTAGGTTACGATAAAGAAACACTTGAAGTAGAAATCATCCAAATGGTACAACTATACCAAAATGGTGAAAAAATGAAAATGAGTAAGCGTACAGGTAAAGCAGTTACACTTCGTGAGCTTATGGAAGAAGTAGGCGTGGACGCAATGCGATACTTCTTCGCAATGCGTAGTGGTGATTCTCATTTGGACTTCGATATGGACTTAGCTGTATCAAAATCTAATGAAAACCCAGTATACTATGCACAATATGCTCATGCTCGTGTATGCAGTATCCTTCGTCAAGGTGAAGAGTTAGGATTAGCTGCAGATGGAGACGTGAATTACAAACTTGTTACTTCTGAGAAAGAAGTAGAGTTACTGAAAAAGCTTGGTGAATTCCCAGCTGTAGTTGCGGATGCAGCACAAAAACGTCTGCCACACCGCATTACAAGCTATGCATTTGAATTAGCAGCAGCATTACACAGCTTCTACAATGCAGAAAAAGTATTAAACCAAGATAACTTAGAATTAAGTAAAGCTCGTTACGAGTTAATGAAAGCAGTACGCACTACGCTTCAAAATGCATTAGCAATCGTAGGAGTATCTGCACCAGAAAAAATGTAA	MNSLEQVKGLIKEEIQAAVLKAELATEEQIPNVVLESPKDKTNGDFSTNMAMQLARVAKKAPRMIAEELVANFDKAKASIEKIEIAGPGFINFYMDNSYLTDLIPTIVNAGEAYGETNTGKGEKVQVEFVSANPTGDLHLGHARGAAVGDTLCNVLAKAGYDVSREYYINDAGNQIHNLALSVEARYMQALGLDKEMPEDGYHGADIIGIGKRLAEEFGDRYAKADAEESYEFYRSYGLKYELAKLQKDLESFRVKFDVWFSETSLYKNGKIDAALTVLKERDEIFEEGGATWFRSMTYGDDKNRVLIKNDGSYTYLTPDIAYHRDKLERGFDKLINIWGADHHGYIPRMKAAIQALGYDKETLEVEIIQMVQLYQNGEKMKMSKRTGKAVTLRELMEEVGVDAMRYFFAMRSGDSHLDFDMDLAVSKSNENPVYYAQYAHARVCSILRQGEELGLAADGDVNYKLVTSEKEVELLKKLGEFPAVVADAAQKRLPHRITSYAFELAAALHSFYNAEKVLNQDNLELSKARYELMKAVRTTLQNALAIVGVSAPEKM				NA	NA	NA	NA	NA
AK009_05209	438	ywiB	COG4506	putative beta-barrel protein YwiB	GTGAAGAAACAACTTGCAGGCTTGCCGGTACACGTTCATTTCGTAACAGAAATCCGTGAAGGGGCGAGGAAGGAAACCGTTGCTTTTGAAGCAAATGGTCAATACTATGTAAAAGGTCAAGGTACATATGTAACATTCCAGGAGCCGAACGAACAAGGCGAAGTGAAAACAATTATTAAAATTCAAGATGAACAAGTTCTCATTATGCGTTCAGGTGCTATTTCTATGCGTCAGACGCATGTGAAAGGTGAATGGACAACGGGTACGTATACGAGTGAACTTGGTACGTTTGCACTGCAAACGAAAACTGATAACGTTCTTTTTAAATGGTCGGATGAAAAGAAAAAAGGACAACTCTTCTTAACGTACGCATTGCTTCTAAGTGAACAAGAAGCTGGCAGATATACAATTACAATTAATTTGAAGGAGGCAAAATAA	MKKQLAGLPVHVHFVTEIREGARKETVAFEANGQYYVKGQGTYVTFQEPNEQGEVKTIIKIQDEQVLIMRSGAISMRQTHVKGEWTTGTYTSELGTFALQTKTDNVLFKWSDEKKKGQLFLTYALLLSEQEAGRYTITINLKEAK				NA	NA	NA	NA	NA
AK009_05210	987	mccF_2		Microcin C7 self-immunity protein MccF	GTGATACCAACAAAGTTAAAAAAGGGTGATGAAATACGCGTAATTTCACCATCCTGTAGTTTAAGTATTGTTTCAAATGAAAATAGAAAACTTGCTATAAAAAGATTAACTGACATGGGCTTTCAAGTTACATTCTCAAAATATGCCGATGAGATAGATCAATTTGCTTCCTCTTCTATTTCTTCCCGCATTCAAGACCTCCATGAAGCATTTGGAGACCCTAATGTAAAAGCTATTTTGACGACACTTGGCGGATACAACTCCAATGGTTTATTGAAACATCTCGATTATGATCTAATTCGTAAAAACCCGAAATTTTTCTGTGGTTATTCTGATATTACTGCCTTAAATAATGCAATTTACACAAAAACAGGGCTTGTTACATATTCGGGTCCCCACTTCTCTTCATTTGGAATGGAGAAAGGGCTCGAGTATACAAACGATTACTTTTTACAATGCTTAACCACTAATGAGCCTATTGAAATCATTCCGGCGGAAACGTGGAGCGATGATTCTTGGTATATGGATCAGGAAAATCGAGAATTTATAAAAAATGAAGGGTATGTTCCAATTCAAGAGGGGGAAGCGACAGGAGAAATTATCGGTGGCAATATGAGCACACTTAATTTACTACAAGGCACACCATATATGCCAAACTTAAAGGGCAAAATTTTATTCCTTGAAGAAGACAGTTTAACAGGAAAATCGACACTTAAAACTTTGGATCGCTATCTACATTCCCTTATGCAGCAACCTAATTTTGAACATATAACAGGTATTGTAATAGGAAGAATGCAAAAAGAAGCAGAATGTACGATAGCGGACATTCAAGAAATGATTGCTTCAAAACCTGAACTTGCACATATTCCTATTATTGCAAACGCAAGTTTCGGGCATACAACCCCGATTTTCACTTTCCCAATTGGTGGACGTGCAAAAATTATTTCTAACAAAGAAAAGACATCTATCACTATTTTAGCGTACTAA	MIPTKLKKGDEIRVISPSCSLSIVSNENRKLAIKRLTDMGFQVTFSKYADEIDQFASSSISSRIQDLHEAFGDPNVKAILTTLGGYNSNGLLKHLDYDLIRKNPKFFCGYSDITALNNAIYTKTGLVTYSGPHFSSFGMEKGLEYTNDYFLQCLTTNEPIEIIPAETWSDDSWYMDQENREFIKNEGYVPIQEGEATGEIIGGNMSTLNLLQGTPYMPNLKGKILFLEEDSLTGKSTLKTLDRYLHSLMQQPNFEHITGIVIGRMQKEAECTIADIQEMIASKPELAHIPIIANASFGHTTPIFTFPIGGRAKIISNKEKTSITILAY	PGPT0023815_874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK009_05211	363			hypothetical protein	ATGAAATTGGTCATTAAAGTTTTAGCTGTATTCGCCATTATTTTAGGGGGAACAGCGTATTATTTGAATACAAAAACAGAAGGTGTACATGCTTTTGTAGACAACTTCTTTTCAAATAAAGAAATACAAGATTATTATGCGGTTGTAGATAAAGGTGAGAAAAAAGACGGTGAGTATTTGTATACATTTAAAGGGTATACAGAGGACGGAAATCAACAAATTATTAAAAGAATGGTAAATCGTGAATTGCATGCAGGTGCTTTTATAAAAATTTATGCAAAAGGTATGCAAGGAAAAGGATGGGCTGAAATAACGAAAGAGTCAATCCCGCAAAAAGCGTTGCAAAAAATAGAAAAACCATAA	MKLVIKVLAVFAIILGGTAYYLNTKTEGVHAFVDNFFSNKEIQDYYAVVDKGEKKDGEYLYTFKGYTEDGNQQIIKRMVNRELHAGAFIKIYAKGMQGKGWAEITKESIPQKALQKIEKP				NA	NA	NA	NA	NA
AK009_05212	1038			hypothetical protein	ATGGCTATCTTGCAAGGTTTAGCACTATTACTTGTTGTACTTTGTCTATTTACACTTTTCAGTTACCGTGCGCCTTACGGAATGAAGGCGATGGGTGCTTTAGCTAATGCAGCAATCGCAAGTTTTCTTATTGAAGCATTTCACCGTTATATAGGTGGAGAAATGTTTCACAATGACTTTTTACAATCAGTAGGAGAAGCTTCTGGTAGTATGAGCGGTGTTGCAGCAGCGATTTTAGTCGCATTAGCAATCGGTGTTTCCCCCGTATACGCTGTTTTAATTGGTATCGCTACTAGTGGATTCGGTATTTTACCAGGATTTTTCGCTGGATACGTTTGTGCCTTCGTCGTGAAATTTCTCGAAAAGAAATTACCAGCTGGTGTGGAATTTTTAGCAATCCTATTCATCGCTGCACCAATCTCACGTGGAATGGCAATGCTTATGGATCCGCTCGTTAACGCAACACTTGGTAAAATCGGTTCTATGATTTCAGTTGCAACTACAGAGAGTCCTATCATTATGGGTATTATGCTTGGTGGATTAATAACAGTTATTTCTACCTCTCCACTGAGTTCTATGGCACTAACTGCAATGCTTGGATTAACAGGTTTACCAATGGCAATTGGTAGTCTTGCCGTAGCAGCTTCAGCCCCGATGAACTTTATTTTCTTTAAACGATTAAAAATTTGTTCAAAGAAAGATACAATTGCTGTAGCAATCGAGCCTTTAACACAAGCCGATGTTGTCTCAGCAAATCCAATTCCAATTTATATGACAAATTTCGTTGGCGGTGCACTTGCCGGTATTATTACATCGCTATTCCAGCTTGTTAATAATGCACCAGGAACAGCATCACCAATTCCAGGTCTTCTCGTCCTATTCGGATTTAATGACGTTATAAAAGTAACGATTGCTGCTGTACTATGTGGAATCGTTACCACTATTATCGGATACATCGGATCTATTGTGTTCCGCAAATATCCGATCCGCTCTGCTGATGAAATTCGCGGCGTTAATTCGGAAGAGAAAGTTGCATAA	MAILQGLALLLVVLCLFTLFSYRAPYGMKAMGALANAAIASFLIEAFHRYIGGEMFHNDFLQSVGEASGSMSGVAAAILVALAIGVSPVYAVLIGIATSGFGILPGFFAGYVCAFVVKFLEKKLPAGVEFLAILFIAAPISRGMAMLMDPLVNATLGKIGSMISVATTESPIIMGIMLGGLITVISTSPLSSMALTAMLGLTGLPMAIGSLAVAASAPMNFIFFKRLKICSKKDTIAVAIEPLTQADVVSANPIPIYMTNFVGGALAGIITSLFQLVNNAPGTASPIPGLLVLFGFNDVIKVTIAAVLCGIVTTIIGYIGSIVFRKYPIRSADEIRGVNSEEKVA				NA	NA	NA	NA	NA
AK009_05213	873	speB	COG0010	Agmatinase	ATGCGTTTTGATGAAGCTTATTCAGGTAAAGTATTTATTAAAAGTCATCCAAGTTTTGAAGAGTCAAAGGTAGTTATTTACGGGATGCCTATGGATTGGACAGTAAGTTACCGTCCAGGTTCTCGCTTTGGTCCTGCACGTATTCGTGAAGTATCAATCGGTCTTGAAGAATATAGCCCATATTTAGATCGTGAATTAGAAGAGGTAAAATATTTTGATGCGGGTGATATCCCATTACCATTCGGAAACGCACAACGCAGTTTAGACATGATTGAAGAGTATGTATCAAAACTTTTAGATGCCGATAAGTTTCCACTAGGTCTCGGCGGTGAGCACCTAGTGTCTTGGCCAATTTTTAAGGCAATGGCAAAAAAATATCCGGATTTAGCAATCATCCACATGGATGCTCATACTGATTTACGTGAATCGTATGAAGGGGAGCCTTTATCCCACTCTACACCAATTCGTAAAGTGTGTGATTTAATTGGTCCGGAAAACGTATATTCTTTCGGAATTCGTTCTGGAATGAAGGAAGAATTTGAATGGGCGAAAGAAGTAGGTATGAACTTATATAAATTTGACGTATTAGAACCGTTAAAAGAAGTATTACCGAAACTTGCTGGACGCCCAGTCTATGTCACAATCGACATTGATGTATTAGACCCAGCTCACGCTCCAGGAACAGGAACGTTAGAAGCTGGCGGTATTACATCTAAAGAATTATTAGATTCCATCGTAGCAATTGCAAATTCAAATATAAATGTAGTTGGAGCAGACTTAGTAGAAGTAGCTCCGGTCTACGACCATAGTGATCAAACACCAGTCGCAGCAAGCAAATTCGTGCGGGAAATGCTGCTCGGTTGGGTGAAGTAA	MRFDEAYSGKVFIKSHPSFEESKVVIYGMPMDWTVSYRPGSRFGPARIREVSIGLEEYSPYLDRELEEVKYFDAGDIPLPFGNAQRSLDMIEEYVSKLLDADKFPLGLGGEHLVSWPIFKAMAKKYPDLAIIHMDAHTDLRESYEGEPLSHSTPIRKVCDLIGPENVYSFGIRSGMKEEFEWAKEVGMNLYKFDVLEPLKEVLPKLAGRPVYVTIDIDVLDPAHAPGTGTLEAGGITSKELLDSIVAIANSNINVVGADLVEVAPVYDHSDQTPVAASKFVREMLLGWVK	PGPT0007775_2668	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007775-speB-K01480	NA	NA
AK009_05214	828	speE_2	COG0421	Polyamine aminopropyltransferase	ATGGAACTATGGTTCACTGAAAAACAAACAAAACATTTTGGGATTACGGCGCGTATTAACCGCACATTACATACGGAGCAAACAGAATTCCAGAAACTTGATATGGTTGAAACGGAAGAGTTCGGAAACATGCTTATTTTAGACGGCATGGTTATGACAACAGAAAAGGACGAGTTCGTTTATCACGAAATGGTAGCGCACGTACCTTTATTTACACATCCAAACCCTGAAAACGTATTAGTTGTTGGCGGCGGCGATGGCGGTGTTATTCGCGAAGTGTTAAAACACCCAAGTGTAAAGAAAGCAACTCTTGTTGAAATCGATGGAAAAGTAATTGAGTACTCTAAACAATACTTACCATCAATTGCAGGCGCATTAGATAATGAGCGTGTAGAAGTAAAAGTAGGAGACGGTTTCCTACACATCGCAGAAAGCGAAAATGAATACGACGTAATTATGGTAGATTCTACTGAGCCAGTAGGCCCAGCAGTAAACTTATTTACGAAAGGTTTCTACGCTGGAATCTCTAAAGCGTTAAAAGAAGATGGTATTTTCGTTGCACAAACGGACAACCCTTGGTTCACACCAGAACTAATTACAACTGTGTTTAAAGACGTAAAAGAGATTTTCCCAATTACTCGTTTATACACAGCGAACATCCCAACTTACCCAAGTGGTCTTTGGACGTTCACAATTGGATCTAAAAAACATGATCCATTAGAAGTAAGTGAAGAGCGTTTCCACGAAATCGAAACGAAATACTACACAAAAGAATTACACAATGCAGCATTCGCATTACCGAAATTTGTTGGCGATTTAATTAAGTAA	MELWFTEKQTKHFGITARINRTLHTEQTEFQKLDMVETEEFGNMLILDGMVMTTEKDEFVYHEMVAHVPLFTHPNPENVLVVGGGDGGVIREVLKHPSVKKATLVEIDGKVIEYSKQYLPSIAGALDNERVEVKVGDGFLHIAESENEYDVIMVDSTEPVGPAVNLFTKGFYAGISKALKEDGIFVAQTDNPWFTPELITTVFKDVKEIFPITRLYTANIPTYPSGLWTFTIGSKKHDPLEVSEERFHEIETKYYTKELHNAAFALPKFVGDLIK	PGPT0007750_3356	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
AK009_05215	1164	yfmO		Multidrug efflux protein YfmO	ATGGAGAGCAAACAAAAACTAGGGAGATTGATTACAGTGGTAGCTACCTTTCTTGCCTTTTCGGGTATAGGGGTAGTTGACCCAATCTTGCCGATTATTGCTGAGAAAATTGGTGCAACGCATTGGCAAGTTGAAATGTTATTTACCGCTTATATTTTAACGATGGCAATCATGATGTTACCAGCTGGTATATTTGCATCGAGATTTGGTGATAAACGAATGATGACAATCGGTCTTGCGATTGTGACTGTATTTGCGTTTATATGCGGTATATCGCAAACGATTGCTCAATTATCTCTTTTCCGTGCTGGATGGGGATTAGGAAATGCGATGTTTTTTGCGACAGCAATGACACTGTTAATAGCATTAAGTAAAGAAGTTCATGAAGCAGTAGGATTATACGAAGCAGCTATCGGCTTAGGTATGGCTGGGGGGCCGTTATTGGGTGGAATACTAGGTGGACATTCTTGGCGTTATCCGTTTTTCGCGACGAGTATTTTAATTTTCTTAGCATTTATTTTAGTATTCTTTTTTGTAAAAGAACCAGAGCGAAAGGTGAAGCGTAAGGCTGCTGGCGTAGGGGAATTACTTAACTTGGTGAAGTATAAACCATTTATGCAAGGTGCTATTTCAGGGATGCTATACTACTACGGATTTTTTGTTGTGTTAGCATATTCACCACTTATTATGCATTTATCAGCTATTCAATTAGGCTTTGTATTTTGCGGATGGGGACTGGCGTTAGCTTACGGTTCTGCAATTTTAGCACATAAACTAGAAGGGAAATATGAACCAAAAACATTATTGAAGGGGAGTTTACTCGTATTTGCGATTTTCTTAATTGCACTATTCTTTGTGAAAATTATGTGGTTACAAATTACTCTTATCGTTTTATCAGGATTGGCATCTGGCTTAAACAATGCATTATATACAAGTTATGTAATGGATATTTCACCTTATGAAAGATCTGTTACGTCAGGTGTTTATAACTTTGTTCGTTGGTTAGGTGGTGCGATTGCTCCAATTTTATCAGGAGTTATCGGGCACACAGTTTCACCACAAAGCCCATTTTTAGTTGGGGGAATTGTTGTGTTAGTTGGTTGTATTATGATCTTAATTCCAATTCGTAAACCAGTAGAACTAGAGACGAAAACCCTTTCTTAA	MESKQKLGRLITVVATFLAFSGIGVVDPILPIIAEKIGATHWQVEMLFTAYILTMAIMMLPAGIFASRFGDKRMMTIGLAIVTVFAFICGISQTIAQLSLFRAGWGLGNAMFFATAMTLLIALSKEVHEAVGLYEAAIGLGMAGGPLLGGILGGHSWRYPFFATSILIFLAFILVFFFVKEPERKVKRKAAGVGELLNLVKYKPFMQGAISGMLYYYGFFVVLAYSPLIMHLSAIQLGFVFCGWGLALAYGSAILAHKLEGKYEPKTLLKGSLLVFAIFLIALFFVKIMWLQITLIVLSGLASGLNNALYTSYVMDISPYERSVTSGVYNFVRWLGGAIAPILSGVIGHTVSPQSPFLVGGIVVLVGCIMILIPIRKPVELETKTLS	PGPT0003580_924	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
AK009_05216	408	yfmP	COG0789	HTH-type transcriptional regulator YfmP	ATGTATAAAATTGATGAAGTAACAAAGCAAGTCGGTTTAACAAAACGTACACTTCGTTATTATGAGGAAATTGGTTTAATTCATCCCCCAGAACGTAGTGAGGGGAATATTCGTCTGTATACGGATGAGGATATTGCCAGAATTAAAAGAATTGTAGAAGCGAAAGAAGTGCTAGGAATCACACTTCAAGAAATGCAACATTTCTTATCACTAAAAGAAAGAATGGAGCAAAGAAGAAATAGCGAGAACCCTCGTGATCGTGAAGTGATTCAAGAAATTAAAGATATGCTTGAAAAACAAGTGCAAACGTTAGACGAAAAAATGGAGCAAATGCAACGTGTAAAGGCAGAACTCGAAGATAGTTTACATCGTGCAGTAACATTTTTAGAGAGCACAAAAGGAGAGTAA	MYKIDEVTKQVGLTKRTLRYYEEIGLIHPPERSEGNIRLYTDEDIARIKRIVEAKEVLGITLQEMQHFLSLKERMEQRRNSENPRDREVIQEIKDMLEKQVQTLDEKMEQMQRVKAELEDSLHRAVTFLESTKGE				NA	NA	NA	NA	NA
AK009_05217	726	glpQ_4	COG0584	Glycerophosphodiester phosphodiesterase	ATGAGTAAACCACTTATTTTTGCTCACCGCGGAGTAAAAGGAACACATCCCGAAAATACGATGATTGCCTTCCAAGAAGCTGAACGCATTGGCGCTCACGGAATTGAACTCGATGTCCACCTATCAAAAGATGGTGAACTTGTCGTAATTCACGATGAAACCGTCGATCGTACAACAAATGGCGTTGGACTTGTTTCTGAAAAAACGGTAGAGGAATTACAATCATTGGACGCTGGTAGCAATAAAGCCCCTTCTTTCCAAGAAGCAAAAATTCCAACGTTGCGCGAGGTTTTCATTTGGCTTTCCACAACGAACTTACAACTAAATATCGAATTAAAAACAGATGTTATTCATTACCCAAATATTGAGGAAAAAGTTGTTGCACTTGTGCGTGAATATCATCTTTCAAATCAAATTGTATTTTCATCATTTAACCATGACTCTGTTTCATTATTAGCAGAAATTGCTCCTGAAATTCCAAGAGCAATTTTATATGATACACCGATTGCTGATCCAATTGCCGAAGCAAAACATAGAGAAGCAAGTGGATTACATCCAAACTTCCAGCTATTAACGAAAGAATTTGTGCAGTTAGCACAAGAGCAAGGATATGTTTTCCGTCCATATACAATTAACGAATACAAAGATTTACAAACTATGATTGATTATGGTGTAGATGTCATCATTACCGATTGGCCAGCACGTGCCTTTGAGCTCCTTTCTTAA	MSKPLIFAHRGVKGTHPENTMIAFQEAERIGAHGIELDVHLSKDGELVVIHDETVDRTTNGVGLVSEKTVEELQSLDAGSNKAPSFQEAKIPTLREVFIWLSTTNLQLNIELKTDVIHYPNIEEKVVALVREYHLSNQIVFSSFNHDSVSLLAEIAPEIPRAILYDTPIADPIAEAKHREASGLHPNFQLLTKEFVQLAQEQGYVFRPYTINEYKDLQTMIDYGVDVIITDWPARAFELLS	PGPT0018470_7802	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK009_05218	2052	pbpG	COG0744	Penicillin-binding protein 2D	ATGGATCAAACTATGAATCCAAAACTTAAAAAATATAAACGTCTTTTCTTCACCGCAATGTTTTCTTGCGTCCTTTTCTTCGTTTTTTCTTTTTTTGTTATTATTATAGTTGCAAAAATTATGGGACCTCCTCCTGTTGCGGTCCCGCAAACAAGCGTCTTTTACGCAAACGATGATACCGTTATTGGACAAAGTAACGAAATTCAAAAACGTTACAATGTCTCTCTTAATGAAATTTCACCTTATGTAAAAGAAGCGACCCTTTCTATTGAAGATCAAAGATTTTATAAACATCACGGCTTCGATTTAAAACGGATTGCAGGTGCAATTGTTGCTGATTTAAAAGCAATGGCAAAGGTACAAGGAGCTAGTACAATTACACAACAATACGCGCGTAATCTGTATTTAGATCATGATAAAACGTGGAAACGGAAATTATTAGAGGCAATGTACACTGTCCGCCTTGAAGTAAACTATAATAAAAATCATATTTTAGAAGGATATTTAAATACAATTTATTACGGACATGGCGCTTATGGCATCGAAGCTGCGTCCCGTCTATATTTCGATAAAACAGCAAAAGAGTTAACATTAGCAGAAGCTAGTATGCTCGCAGGTATCCCAAAAGGACCAAGTGTCTATTCTCCCTTTTTGAAAGAGGATCGTGCTAAAGGACGACAAGCCCTCATATTAGATGAAATGGTAGAACAAGGATATATTACGAAGCAACAAGCAGCCTTAGCGAAGAAAGAGCCACTAACTTTTGCCTCATTAGATACGAAAAAAGTAGCAGAGGTCGCACCATATTTCCAAGATGCTGTACAAGCTTCACTTCTTCGTGATGTTGGATTAGACGAACAAGCTTTACAACGAGGTGGCTTGCGAATTTATACAACGCTAGACCCTAAACTACAAGCTGTAGCAGAACAAGCTGTAAAATATCATATACCTGACACAACAAACATACAAACTGCTCTCGTCTCTATGAATCCAACGACAGGTGAAGTGGCTGCTCTTGTTGGCGGAACTGATTATACTACGAGTCAATTTAACAGGGCTACACAAGCCATCCGTCAGCCTGGTTCTACATTTAAGCCATTTCTATATTATGCGGCATTAGAACGAGGATTCACACCTGCTACGCGCTTAAAAAGCGAATATACTGTATTCACCTTAGGTGACGGTGTTTCAAAGTATAAACCGAAGAACTATAAAGATTATTATGCCGATGATTTCGTAACGATGGCACAAGCTCTCGCAGTCTCTGATAACATATATGCTGTGAAAACGAATTTATTTTTAGGAGATGACGCGCTTGCAAAAACAGCGAAACAATTTGGAATTACAAGTGCATTAAAAGATGTGCCTTCTCTAGCTCTCGGTACATCACCAGTAAAACCAATTGAAATGGTCAACGCTTATAGCATGTTCGCAAACGGTGGAAAAGAAGTAAAACCTACTTTCATTCGCCGCATTATGGATCATGAAGGAAATATATTATACGATGCTCATTTAGAGAGTAAACAAGTTCTCGACAAGAGCAAAGCGTTTGTAATGGAAGAAATGATGACTGGTATGTTTAATAAGAAACTAAGCAGTTATGCTGCTGTAACTGGCCAATCGATGTTATCAAAATTATCAAGAACATATGCCGGAAAATCTGGTTCTACTGAAACGGATAGTTGGATGATCGGATTTACTCCGCAAATCGTAACTGGTGTATGGGTCGGATACGATCAACCTAAATCTATTTCAAACGTAGCAGAACAAGGATATGCGAAGAAAATATGGACTGATACGATGGAGAAAGGCTTAGATGGACAGCCAAAAAAAGAATTTAAACAACCAGGTGACGTCGTAGCGGTTAATATCAACCCAGAGAACGGTAAAATTGCTACAAAAAATTGTCCTATTTCTGTGAAAATGTACTTCGCTAAAGGTACCGAACCGACTGAATATTGTATGGATCACGTCGATGATAAAGAAGAATTTGAAAAAACGACTGAAGAAAAGAAAAAAACAAGTTGGTGGAAAAAATATCTTCCTTGGTAA	MDQTMNPKLKKYKRLFFTAMFSCVLFFVFSFFVIIIVAKIMGPPPVAVPQTSVFYANDDTVIGQSNEIQKRYNVSLNEISPYVKEATLSIEDQRFYKHHGFDLKRIAGAIVADLKAMAKVQGASTITQQYARNLYLDHDKTWKRKLLEAMYTVRLEVNYNKNHILEGYLNTIYYGHGAYGIEAASRLYFDKTAKELTLAEASMLAGIPKGPSVYSPFLKEDRAKGRQALILDEMVEQGYITKQQAALAKKEPLTFASLDTKKVAEVAPYFQDAVQASLLRDVGLDEQALQRGGLRIYTTLDPKLQAVAEQAVKYHIPDTTNIQTALVSMNPTTGEVAALVGGTDYTTSQFNRATQAIRQPGSTFKPFLYYAALERGFTPATRLKSEYTVFTLGDGVSKYKPKNYKDYYADDFVTMAQALAVSDNIYAVKTNLFLGDDALAKTAKQFGITSALKDVPSLALGTSPVKPIEMVNAYSMFANGGKEVKPTFIRRIMDHEGNILYDAHLESKQVLDKSKAFVMEEMMTGMFNKKLSSYAAVTGQSMLSKLSRTYAGKSGSTETDSWMIGFTPQIVTGVWVGYDQPKSISNVAEQGYAKKIWTDTMEKGLDGQPKKEFKQPGDVVAVNINPENGKIATKNCPISVKMYFAKGTEPTEYCMDHVDDKEEFEKTTEEKKKTSWWKKYLPW	PGPT0023955_239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023955-pbpG-K21464	NA	NA
AK009_05219	510			hypothetical protein	ATGACAGAGAAAAAGAAAAAAATCGGTTTTAATATCGTGAAAAATGATTCAACAGATGGACATGGTGGATTTGGTGTTGGGGCATTAAGCTTAGAAAACATTTCACCTGTATTTGTTGATGTACTAGAGAAGACTGCATTCGTTGATATCGGTGCGATGCATGCGCGTAGTACAGTAGAAAAAGGTATTAAGTTTTTAACAAATAAAGATGAAGTTCCAAACGGAAAACCATTTTGGCTTGTTTGGGTAACGATTGAAAGAACTGCGACAGGTGCGTATTACGCAGGTGTAACAGCTTGTGAAATGACAGTTGACCGTGAGATTCGCCGCGGATATAAATCACTTCCAGAACACGTAAACAAAATGGATAAATCAATGAAGCGTCACATTATGGTTGACCATATGGATGAATCATCTAAAAAAGTACTTGGTACGTTCTTGAAAGAACATAATGAAGCGATTTGGAACGAATCTGGTGAAGAATTGCGCCGTGCATTATTAAGTGAATAA	MTEKKKKIGFNIVKNDSTDGHGGFGVGALSLENISPVFVDVLEKTAFVDIGAMHARSTVEKGIKFLTNKDEVPNGKPFWLVWVTIERTATGAYYAGVTACEMTVDREIRRGYKSLPEHVNKMDKSMKRHIMVDHMDESSKKVLGTFLKEHNEAIWNESGEELRRALLSE				NA	NA	NA	NA	NA
AK009_05220	675			hypothetical protein	ATGGATCAGTTATTTAGATATCCATTGCACGAAATTCCGTTGGTAGCAATGGCGATTATTATTGCATTATCCGTTCATGAATTTGCACATGCATATGTTGCATATAAATTTGGGGACGATACAGCAAAGAGACAAGGGCGTTTAACGTTATCACCGATGGCTCATTTAGACCCTATCGGTTTGATTGCAGTATTAATTCTTGGATTCGGTTGGGCAAGACCGGTTCCTGTTAACCCATATAACTTTAAAAGACCGCGTCTTGCAGGCATATTAGTTTCAATTGCAGGGCCGATTAGTAACTTAATTTTAAGTGCAATTGGTTTAATTATTTGGTATAGCTTATTAAAATTTGGTGTATTATACTCAATTCCATCTGCAGTAGCAGATACGTTAGCTCAATTTTTCCAGATTTTTATTATGCTGAATATCGTTTTACTTGTATTTAACTTATTACCGATCCCACCACTTGATGGGTATCGCGTAGTGGAAGATTTAGCACCAGCAAATATTCGCGCGAAAATGACACAGTATGAAAAATACGGGGCAATTGCGTTATTAATTCTCGTTATTACACCGCTTAGTAATTACACAATTCAACCTATTTTTCAGGTAGTTATTCCGCATGTATTTGTATTTTTAGATAGCATCATTGCGCCTATTTTTGGCCTTTTATAA	MDQLFRYPLHEIPLVAMAIIIALSVHEFAHAYVAYKFGDDTAKRQGRLTLSPMAHLDPIGLIAVLILGFGWARPVPVNPYNFKRPRLAGILVSIAGPISNLILSAIGLIIWYSLLKFGVLYSIPSAVADTLAQFFQIFIMLNIVLLVFNLLPIPPLDGYRVVEDLAPANIRAKMTQYEKYGAIALLILVITPLSNYTIQPIFQVVIPHVFVFLDSIIAPIFGLL				NA	NA	NA	NA	NA
AK009_05221	186	ywhB	COG1942	2-hydroxymuconate tautomerase	ATGCCATACGTAACAGTGAAAATGCTAGAAGGACGCACAGAAGAACAAAAGAAAGCTCTTGCTGAGAAAGTAACAGCAGCAGTAAGCGAAACAACTGGTGCTCCTGAAGAAAACATCGTTGTTTTCATCGAAGAAATGTCTAAAAACCATTATGCAGTTGGCGGAAAACGCTTAAGCGACAAATAA	MPYVTVKMLEGRTEEQKKALAEKVTAAVSETTGAPEENIVVFIEEMSKNHYAVGGKRLSDK	PGPT0005210_1963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
AK009_05222	1305			hypothetical protein	GTGGTATATTTAAACGACAAACTCAGCGAAACAAAAGTGTTTAAAGACCCAGTACATAAATATGTGCACGTGCGTGATCGTGTTATTTGGGATTTAATCGGAACGAAAGAATTTCAACGCTTGCGCCGTATTAAGCAGCTTGGAACGACATTTTTTACATTTCACGGTGCAGAGCATAGTCGCTTTACTCATTCGTTAGGTGTATACGAAATTATTCGTCGTATGATTGATGATGTGTTTGATGGCAGACCAAATTGGAATGCTGAAGATAGATTGTTATGTTTATGTGCGGCATTACTTCATGATGTCGGCCACGGCCCATTTTCTCACTCGTTTGAAAAAGTATTTTCATTAGATCATGAGAAATTTACGCAAAAGATTATCGTTGGCAATACGGAGATTAATGATGTATTAAGTCGTGTTGATAAGGAGTTTCCACAAAAGGTAGCAGATGTAATTGCAAAAACGTCTACTAATAAATTAGCGATTAGTATGATTTCGAGTCAAATTGATGCGGATCGTATGGATTATTTATTAAGAGATGCTTATTTTACAGGCGTAAAGTACGGAAACTTCGATATGGAACGTATACTGCGTGTAATGCGTCCGTATGGGAATCAAGTAGTCATTAAAAATAGTGGTATGCATGCTGTTGAGCATTACATTATGAGTCGTTATCAAATGTATTGGCAAGTATATTTCCATCCGGTAACGCGAAGTGCAGAAGTTATTTTAACGAAGATTTTACACCGTGCGAAATCACTGCACGAGAAGTATTACACATTTAAAAATCATCCTGTTCATTTCTATTCTTTATTTGAAGAAGAAGTAACAGTAGAGGATTATTTAAAGTTAGACGAGAACGTTATGTATTACTACTTCCAAGTATGGCAGGAAGAAGAAGATCCAATTTTAAGCGATTTATGTCGCCGTTTTATGAATCGAAATCTATTTAAATATGTAGAGTTTACAGATAAACACGGTTTAGATAATTGGATGGAGTTAAGTAGTTTATTTAAAAAGATTGGACTTGATCCGGAGTATTATTTAGTAGTTGATTCAACATCGGACTTACCGTATGACTTTTATCGTGCAGGAGAAGAAGAAGAGCGTCTGCCAATCCTGCTTCTTATGCCAAACGGAGAGCTTAGAGAGCTTTCACGTGAATCGGATATTGTTGAGGCGATTACAGGTAAGAAAAGAACGGATCAAAAGTTATTCTATCCACATGATTTAATCTATGAAGATGGAAGAAAAGGAAAATATAAAGAGAGAATTATTGAGTTGTTAGAAGGAAAGAAATAA	MVYLNDKLSETKVFKDPVHKYVHVRDRVIWDLIGTKEFQRLRRIKQLGTTFFTFHGAEHSRFTHSLGVYEIIRRMIDDVFDGRPNWNAEDRLLCLCAALLHDVGHGPFSHSFEKVFSLDHEKFTQKIIVGNTEINDVLSRVDKEFPQKVADVIAKTSTNKLAISMISSQIDADRMDYLLRDAYFTGVKYGNFDMERILRVMRPYGNQVVIKNSGMHAVEHYIMSRYQMYWQVYFHPVTRSAEVILTKILHRAKSLHEKYYTFKNHPVHFYSLFEEEVTVEDYLKLDENVMYYYFQVWQEEEDPILSDLCRRFMNRNLFKYVEFTDKHGLDNWMELSSLFKKIGLDPEYYLVVDSTSDLPYDFYRAGEEEERLPILLLMPNGELRELSRESDIVEAITGKKRTDQKLFYPHDLIYEDGRKGKYKERIIELLEGKK				NA	NA	NA	NA	NA
AK009_05223	939	yfiY_4	COG0614	putative siderophore-binding lipoprotein YfiY	ATGAAGAATTTTAAAATGGCACTATTAGCAATGGTACTAGTTGTGACTTCTGTACTATTTGCAGCTTGTTCTAACAAAGAAGAAGAAAAGAAAGCAGATGCAAAGACTGAAGAGCGCACTGTAAAACATGCAAAAGGGGAAATTAAAATTCCTGCAAATCCAAAGAAAATTGCTGACCTTAGTGGTTCAACAGAAGAATTATTAATTTTCGGTATGAAACCGGTTATTACTGCTAATACATCTCAAGAAAAAATTGATGCACATATTGAAAAGAAACTAAAAGACGTTAAACCAGTTGGTTCTGCTTGGGGCGATAAAATTAACATCGAAGCAGTAGCTGCTGCAAAACCAGATTTAATTCTTGTAAATAATCGTCAAGAAAAGATTTATGATCAATTATCTAAAATTGCACCAACAGTTATGTTAAACACTCCATTAGATCAATGGCGTCCAAAATTCCAAGAAGTAGGTCAAATCTTCGGTAAAGAAAAAGAAACAAAAGAATGGTTCAAAAAGTATGATGAAAAAGCAAGCAAATTACATGACAAAATCGTCGCTAAAACTGGTGAAGCAACATTTATGAAAATGGCTGCATATCCAAATGCTTTCCGCGTATACGGTGACTACGGTTACGGTAGCGTAATCTTTAATGATTTAAAACTACCAGCAGTTAAAGGTACACCAACTGATAAACCGTTAGTACAAGTACAAAAAGAAGCTTTAATCGATTACAACCCAGATTACTTATTCGTATTTACAACTGGTGACGGTTCTCAGCGCTTAAAAGAATTCCAAGAAGAATCAATTTGGAAAAACATGAACGCTGTTAAAAACAACCACGTATTTACAATTAAAAATGAAGACTTAAACAAAGGTTACTTCCCACTAGGGAAAGATATGATCTTAGACGAAGTTGCTGAATTCGTTTTAGGTAAATAA	MKNFKMALLAMVLVVTSVLFAACSNKEEEKKADAKTEERTVKHAKGEIKIPANPKKIADLSGSTEELLIFGMKPVITANTSQEKIDAHIEKKLKDVKPVGSAWGDKINIEAVAAAKPDLILVNNRQEKIYDQLSKIAPTVMLNTPLDQWRPKFQEVGQIFGKEKETKEWFKKYDEKASKLHDKIVAKTGEATFMKMAAYPNAFRVYGDYGYGSVIFNDLKLPAVKGTPTDKPLVQVQKEALIDYNPDYLFVFTTGDGSQRLKEFQEESIWKNMNAVKNNHVFTIKNEDLNKGYFPLGKDMILDEVAEFVLGK	PGPT0003765_8996	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
AK009_05224	813	fpuD_2	COG1120	Petrobactin import ATP-binding protein FpuD	ATGGCAACTTTAGCAGTTGATGCGGTATCTGTTGGCTATAATGAAGGGTTAATTATTGATGGATTAACAGTTGAAATTCCGGAAGGGAAAATTACAACAATTATTGGACCAAATGGTTGTGGGAAGTCCACATTATTAAAAACGGCTTCTCGTATTTTGAAGGCGAAAAAAGGTACTGTTTATCTTGACGGAAAAGCAATCGAGAAACAACCAACAAAAGAAATCGCAAAGAAAATGGCGATTTTACCACAGACTGCAGAAGTGCCAACTGGCCTTACTGTGTTTGAACTTGTTTCATATGGACGTTTTCCTCATCAAAAAGGATTTGGAACGTTGAAAGAAGAGGATTATCGTTACATTCATTGGGCACTTGAAGTGACGGGAATGACAGAATTCGCAAATCGTTCAGCAGAGGCGTTATCAGGCGGGCAACGTCAACGTGTATGGATTGCGATGGCCCTTGCACAAGGAACAGAATTACTTGTATTGGATGAACCAACAACGTACTTAGATATGGCTCATCAATTAGAAGTATTAAACTTATTGAAAAAATTAAATGAAGAAGAAGGTAGAACGATTGTTATGGTTATCCATGACTTAAACCACGCTTCTCGTTTCTCAGATCATATGATTGCATTAAAAGCAGGTAAGTTAATGAAACAAGGAACGCCAGATGAAGTTATGACAAGTGAAACACTTCGCAGTGTATTTGAGATTGAAGCTCAAATCGTTCCTTGTCCAGTAAACTGTAAGCCAATTTGTTTAACATATGATTTAGCGATGATTAGTAATCAATTGCGTAAAAAAGCATAA	MATLAVDAVSVGYNEGLIIDGLTVEIPEGKITTIIGPNGCGKSTLLKTASRILKAKKGTVYLDGKAIEKQPTKEIAKKMAILPQTAEVPTGLTVFELVSYGRFPHQKGFGTLKEEDYRYIHWALEVTGMTEFANRSAEALSGGQRQRVWIAMALAQGTELLVLDEPTTYLDMAHQLEVLNLLKKLNEEEGRTIVMVIHDLNHASRFSDHMIALKAGKLMKQGTPDEVMTSETLRSVFEIEAQIVPCPVNCKPICLTYDLAMISNQLRKKA	PGPT0003760_2486	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
AK009_05225	1017	feuC_2	COG0609	Iron-uptake system permease protein FeuC	GTGAGGACGAGTGTCTTAACAAAAAAGAACATTTCTATATTAACGATTTTAGTAGGACTAATCGTTTCTATATTTCTTATTAGTTTAAATACAGGAACTTTTAAAATACCGCCAATGGACGTATTAAAGTCATTGGTTGGAATAGGGGCTGAAGATCAGTCTGTTATTTTATTTGAATTCCGCATGCCGCGTATGGTGATTGCTATACTAGTCGGATCTGCTTTAGCGATGTCAGGTGCGATTTTGCAAGGATTATCACGAAATCCACTTGCTGATCCAGGTATTATCGGTATTAACGCTGGAGCGGGATTAACAGTTGTTATATTCGTCTACTTTTTCTTTGGAAAAGTTGGGACTGGTACATTTTTATCTGTATTTATCCTTCCATTCTTCGCGTTGGTTGGTGCAATATTAGCGGCGGTTATTATTTATTTACTATCATGGAAAGACGGCGTTTCATCAACGAGATTAATACTAGTTGGTATCGCTGTTGCAGCCGGGTTTGGTGCTGTTAGTTTAATTTTTTCTATGAAGATGACATCTAACGATTTTCGTTTTGCTACGATTTGGTTAGCAGGAAGTCTATGGGGCACAGATTGGAAGTTCGTGCTAAGTGTACTTCCATGGATGGTTATTTTCTTGCCACTTGCTATTAGTAAGGCGCACATATTAAATGTAATGAACCTAGGCGATTCTACAGCAGTTGGTCTTGGTTTAAATGTAGAAAAGGAAAGACGTAAATTATTATTTATTGCAGTTTGCTTAGCTGGTGCATCTGTCGCTGTTGCCGGAGGAATTGGTTTTATCGGTTTAATGGCTCCGCATTTAGCGAGGCGCCTTGTTGGTGGTAAACATCAAATTATGCTGCCTACTGCTGCACTAATAGGGACGTTTTTACTCTTATTCGCAGACGTAATTTCAAGAAGCGTGTTAACAACTTCAGAAATACCGGTCGGTCTTGTTATTTCTGTAATTGGTGCACCATATTTCATATACTTACTTATGAGGACAAAATAA	MRTSVLTKKNISILTILVGLIVSIFLISLNTGTFKIPPMDVLKSLVGIGAEDQSVILFEFRMPRMVIAILVGSALAMSGAILQGLSRNPLADPGIIGINAGAGLTVVIFVYFFFGKVGTGTFLSVFILPFFALVGAILAAVIIYLLSWKDGVSSTRLILVGIAVAAGFGAVSLIFSMKMTSNDFRFATIWLAGSLWGTDWKFVLSVLPWMVIFLPLAISKAHILNVMNLGDSTAVGLGLNVEKERRKLLFIAVCLAGASVAVAGGIGFIGLMAPHLARRLVGGKHQIMLPTAALIGTFLLLFADVISRSVLTTSEIPVGLVISVIGAPYFIYLLMRTK	PGPT0003770_6306	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
AK009_05226	1056	feuB_2	COG0609	Iron-uptake system permease protein FeuB	ATGGAAGCGAGCGCAAGCAGTATAGAACAGCAAGAAGAGAATGTTAAAGAGATTAAGAGCAGACCGCTCATTGCTTCTATTATTTTAGTAGCGGGTACAGTTTTGTTAGCTTTAAGCATGGCAGTTTCTATTTCTTTTGGGGCTGCAGATATTAGTTTAAAGACTGTATGGCAAGCTGTATTTCAGTTTGATGGATCTATTACACATCATAACGTAATTCAAGAGCTTCGCATGCCTAGAGCAATAGGGGGCGTAGTTGCAGGTGCCTTTTTAGCGGTATCAGGAGCAATTATGCAAGGCATGACGCGAAATCCACTTGCTTCACCATCGTTAATGGGGATTACAGATGGTGCAGTATTTGGAATTGCAATTATGTATGCATTTTTTCCTAATTCACCTTATTTGATGTTTGTTATTGCATCTTTTATTGGAGCTGCGTTTGGTGCAAGCATTGTATATGGAATTGGGTCTTCTTCACCAGGTGGATTAACACCTGTGAAATTAGCTTTAGCAGGTGCAGCTATTAGTGCTTTATTAGGGGCAATTTCATCTGGAATTGCATTGTATTTTAATCTTGCTCAAGAGGTGAGCATGTGGAATGCAGGCGGAGTTGCTGGAGTGAAATGGCAAAGTATTAATATGTTAGTGCCAATTGGCCTTGTTTGTCTTTTTATCGCAATTATGATGTCGAGATATATTACAATTTTGAGCTTCGGTGAAGAAATTGCGATTGGACTTGGTCAAAATACGACATTAATTAAATTTATCGGAACAGTACTTGTTCTTGTTTTAACGGGTTCCGCAGTTTCCATGGCAGGATCAGTTGGATTTGTTGGTCTTGTAATCCCGCATATGACTCGTTTCCTTGTAGGCTCGGACTATAGATGGGTTATTCCATGTTCTGCGGTCTTAGGCGGGCTGTTAATTGAATGTGCAGATATGTTATCTCGCGTTATTAACCCGCCATTTGAAACGCCAATTGGAGCAATTACAGCGCTAATTGGGGTTCCATTCTTCCTCTACTTAGCACGTAATGAAGGGAGAGGAAAGATGTGA	MEASASSIEQQEENVKEIKSRPLIASIILVAGTVLLALSMAVSISFGAADISLKTVWQAVFQFDGSITHHNVIQELRMPRAIGGVVAGAFLAVSGAIMQGMTRNPLASPSLMGITDGAVFGIAIMYAFFPNSPYLMFVIASFIGAAFGASIVYGIGSSSPGGLTPVKLALAGAAISALLGAISSGIALYFNLAQEVSMWNAGGVAGVKWQSINMLVPIGLVCLFIAIMMSRYITILSFGEEIAIGLGQNTTLIKFIGTVLVLVLTGSAVSMAGSVGFVGLVIPHMTRFLVGSDYRWVIPCSAVLGGLLIECADMLSRVINPPFETPIGAITALIGVPFFLYLARNEGRGKM	PGPT0003770_2866	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
AK009_05227	225			hypothetical protein	ATGGGAAACGAATTTCGCGTGTGCGATGACTGTCAGGCAACGAACGTTAAAACGTTAGTTCCGAAGTTAAAAAAAGTAGATTCATGTGCAACGATTGAAGTTGGATGTCAGTCTTACTGTGGTCCTGGTCGTAAAAAATCATTCGCATTTGTAAATAACCGTCCAGTTGCGGCTCCAACAGAAGATGAGTTAATCGTAAAAATTGAAGCAAAGTTAAATAAGTAA	MGNEFRVCDDCQATNVKTLVPKLKKVDSCATIEVGCQSYCGPGRKKSFAFVNNRPVAAPTEDELIVKIEAKLNK				NA	NA	NA	NA	NA
AK009_05228	693	rsfA_3		Prespore-specific transcriptional regulator RsfA	ATGAAAGTAAGACAAGATGCTTGGACAGATGAGGATGATTTATTACTTGCTGAAACGGTACTTCGTCATGTTCGAGAAGGAAGTACGCAATTAAATGCATTTGAGGAAGTAGGGGATCAGTTAAATCGTACATCCGCTGCTTGTGGTTTCCGCTGGAATGCTGTCGTTCGCTATAGCTATGAACAAGCTCTTCAACTAGCAAAAAAACATCGTAAAGATAAAATGCGCGCTGCAAGCGGTGAGCAAGCGAAAAAACGTTTACTTTATACACCACCAGCTTCAGATTCGATAACTGATTATGAAGAATTCGTACAAGAGGAATCAATTGTACAATATAAAGAAGCTATTCCATATCAAGAATCTACCGTTCCTGTTGCAAAAAGCTCTATGACAATGCAAGATGTTATTTATTTCTTACAAACAGTTGGATCCTCAAATATAAAAGTAACAGCTCTTGAAAACGAGAATACGAGATTGAAACAAGAAATTAAAGCACAAATCCTTCGAAATGAAGAACTAGAAAAGAAACTAGAAAAATTAGAAAAGCAATCTCATACTGTACAAGAAGATTACGAAACACTTATGAACATTATGAACCGAGCTCGTAAGTTGGCAATCATGGATGACGAAGAACGTTCTCAAACATCTTTCCGAATGGATCGAAACGGTAATTTAGAAAAAATTGCAGAATAA	MKVRQDAWTDEDDLLLAETVLRHVREGSTQLNAFEEVGDQLNRTSAACGFRWNAVVRYSYEQALQLAKKHRKDKMRAASGEQAKKRLLYTPPASDSITDYEEFVQEESIVQYKEAIPYQESTVPVAKSSMTMQDVIYFLQTVGSSNIKVTALENENTRLKQEIKAQILRNEELEKKLEKLEKQSHTVQEDYETLMNIMNRARKLAIMDDEERSQTSFRMDRNGNLEKIAE				NA	NA	NA	NA	NA
AK009_05229	846	lipL	COG0095	Octanoyl-[GcvH]:protein N-octanoyltransferase	ATGAGCAATTCCCGTTCCATTTTATCTCAGCCAGAGTGGCGTATTGTAGATCAATCTAGTTTGGGACCAACATTCCATGCATTGCAGTCATTCGCAATGGATGACACACTGTGCACAAGCATTGGAAATGGTCAATCAGCTGCAACAATGCGTTCTTGGGTTCATCACAATACAATTGTTCTTGGCATTCAAGATTCACGCCTACCACACTTAGAAGAAGGCATTTCCTTGTTAAAAAAGAACAACTTCAATGTTATTGTTCGTAATTCTGGCGGGCTTGCAGTCGTGCTTGATGAAGGTGTTTTAAACGTATCACTTTTATTCCAAGAAACAGAAAAAGGTATCGATATTGATCTTGGATACGATACGATGTGGCATTTAATTAAGGAGATGTTAAAGGATTACGACGTTACTATCGAGGCAAAAGAAATTGTAGGTTCTTACTGTCCTGGTAGCTATGACTTAAGTATTCGCGATCAAAAATTCGCTGGCATTTCACAGCGCCGTATTCGCGGGGGTGTCGCTGTCCAAATTTATCTTTGTGCTACAGGAAGTGGCTCTGAGCGTGCCGCACTCGTTCGTGATTTCTATAACCTAGCCATTCAAGGAGAAGAAACACGCTTTACGTATCCTGAAATTGTACCGAGTACAATGGCTTCACTTTCAGAATTACTTGGCGAAACCATTACAGTACAAGATTTAATGATGCGCCTTTTAAAAACATTGCAGCAATTCGCTCCGAAGTTAACACCATCTCAATTAACAATAGATGAAATCCCTTTATATGAGACGAATTTACAACGGATTATTGATCGTAACAATAAAGCACTTGGCTTAGAAAAATAA	MSNSRSILSQPEWRIVDQSSLGPTFHALQSFAMDDTLCTSIGNGQSAATMRSWVHHNTIVLGIQDSRLPHLEEGISLLKKNNFNVIVRNSGGLAVVLDEGVLNVSLLFQETEKGIDIDLGYDTMWHLIKEMLKDYDVTIEAKEIVGSYCPGSYDLSIRDQKFAGISQRRIRGGVAVQIYLCATGSGSERAALVRDFYNLAIQGEETRFTYPEIVPSTMASLSELLGETITVQDLMMRLLKTLQQFAPKLTPSQLTIDEIPLYETNLQRIIDRNNKALGLEK	PGPT0003940_142	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
AK009_05230	972	pta_2	COG0280	Phosphate acetyltransferase	GTGAGCAACTTATTTACAACAGTAAAAGAAAAAGTTCAAGGAAAAGGCATTTCTATCGTACTTCCTGAAGGAACTGATGAAAGAATTTTAGGCGCTGCAGAGCGTTTAGCAAAAGAAGAGTTAGTAAAACCAATCTTAGTTGGTAATAAGGAAGAAATTAGCGCAAAAGCTGCTAGCATGAATTTAACATTAGCAGGCGTTGATATTTATGACCCAGCTACATATGAAGAAATGGATGCAATGGTAGCATCTTTCGTTGAACGCCGTAAAGGTAAAGCAACTGAAGAAGACGCTCGCAAAATCCTTAAAGACGAAAACTACTTCGGTACAATGCTTGTATACATGGGCAAAGCACACGGTTTAGTAAGTGGTGCAGCTCACTCTACAGCTGATACAGTTCGTCCAGCACTTCAAATCATTAAAACAAAACCAGGCGTTACAAAAACTTCTGGCGTATTCATCATGGTACGTGAAGAAGAGAAATATGTATTCGCTGATTGCGCAATTAACATTGCACCAAACAGCCAAGATTTAGCTGAAATTGGTATCGAGAGTGCAAAAACTGCTGAATTATTCGGTATTGACCCACGCGTTGCTATGTTAAGCTTCTCTACAAAAGGTTCTGCGAAATCTCCAGAAACAGAAAAAGTTGTAGAAGCAACTCGCATTGCAAAAGAAATGGCTCCTGAATTAACTTTAGATGGAGAATTCCAATTCGATGCTGCATTCGTACCATCTGTAGCTGAGAAAAAAGCTCCAGGTTCTACAATTAAAGGTGATGCTAACGTATTCGTATTCCCAAGCTTAGAAGCTGGTAATATCGGTTACAAAATCGCTCAACGTTTAGGTAACTTCGAAGCAGTAGGACCAATCTTACAAGGTTTAAACATGCCTGTAAATGACCTATCTCGTGGATGTAACGAAGAAGAAGTGTACAAGTTAGCTTTAATTACAGCAGCTCAAGCACTTTAA	MSNLFTTVKEKVQGKGISIVLPEGTDERILGAAERLAKEELVKPILVGNKEEISAKAASMNLTLAGVDIYDPATYEEMDAMVASFVERRKGKATEEDARKILKDENYFGTMLVYMGKAHGLVSGAAHSTADTVRPALQIIKTKPGVTKTSGVFIMVREEEKYVFADCAINIAPNSQDLAEIGIESAKTAELFGIDPRVAMLSFSTKGSAKSPETEKVVEATRIAKEMAPELTLDGEFQFDAAFVPSVAEKKAPGSTIKGDANVFVFPSLEAGNIGYKIAQRLGNFEAVGPILQGLNMPVNDLSRGCNEEEVYKLALITAAQAL	PGPT0001365_1388	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001365-pta-K00625	NA	NA
AK009_05231	744		COG3253	Putative heme-dependent peroxidase	ATGAGTGAAGCAACAACAACGTTAGATGGCTGGTATTGTTTACATGATTTACGTTCTATTGATTGGGCTGCATGGAAAACATTATCTAGCGACGAACGCGGACAAGCTGTGTCTGAATTTTTAAATGTCGTTGAAAAATGGAACGAAGTATCTACTGCGAAAAAAGGTAGTCATGCAATGTATACAGTTGTTGGCCAAAAAGCTGATATTATGCTTATGATTTTACGTCCAACAATGGAAGAGTTAAATGAAATTGAGACAGAATTGAATAAAACAACATTAGCTGAATATATGGTTCCTGCATACTCTTACGTATCTGTTGTTGAACTAAGCAACTACCTTCCAGCTGATGAAGATCCATATCAAAACCCACAAATCTTAGCTCGCTTATATCCAGAACTACCAAAAGCAAATCACATTTGCTTCTACCCAATGGACAAGCGTCGCCAAGGTGATGACAACTGGTACATGCTTCCTATGGAAGAACGTAAGAAAATGATGTACAGTCATAGTAAAATTGGTCGCCAGTACGCAGGTAAGGTACGCCAAGTTATTTCAGGGTCAGTTGGATTCGACGATTTTGAGTGGGGCGTAACATTATTCGCTGACGATGTTCTTCAATTTAAAAAACTTATATATGAAATGCGCTTCGATGAAGTAAGTGCTCGTTATGGTGAATTCGGAACATTTTTCGTTGGAAACATTTTACCAGACGAAAAGGTAGAGAAATTTTTACACATATAA	MSEATTTLDGWYCLHDLRSIDWAAWKTLSSDERGQAVSEFLNVVEKWNEVSTAKKGSHAMYTVVGQKADIMLMILRPTMEELNEIETELNKTTLAEYMVPAYSYVSVVELSNYLPADEDPYQNPQILARLYPELPKANHICFYPMDKRRQGDDNWYMLPMEERKKMMYSHSKIGRQYAGKVRQVISGSVGFDDFEWGVTLFADDVLQFKKLIYEMRFDEVSARYGEFGTFFVGNILPDEKVEKFLHI	PGPT0008490_379	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
AK009_05232	1272	dacA_3		D-alanyl-D-alanine carboxypeptidase DacA	ATGAAAAAAATCTTGTCTATTTTACTATTGCTTGTATTGTCAATTCCTTCCTTAGTAGTAACAACATCCCATGCGGAAGAAAAAATACATATTGAGGCTGCTGCTGCACTTTTATTTGATGCAGATACAGGAAAAATACTTCACGAGCAAAATCCAGATGAATTGCTAGCTATTGCTAGTATGTCAAAATTAATTGTTGTTTACGCTGTTTTAGAAGCAATTAAAGAAGGAAAAATCACTTGGGATACGAAAGTAAATATTTCTGATTACGCTTATGAAGTCTCTCGTAATAATGAATTCTCTAATGTACCGTTCGAAAAAGGACGTCAATATACTGTAAGAGAATTATATCATTCTATTGTTATATTCTCTGCAAATGGATCTAGTATTGCTTTAGCAGAACTTCTTGCAGGAAGTGAGAAAAACTTCTTAAATCTTGCAAATGAACATGCAAAAAAGGTAGGGTTAAAGAAATATAAATTTGTAAACTCTACCGGGTTAAATAATGCTGATTTAAAAGGAAAACATCCTGAAGGAACAGATCCGACCGGAGAAAACTCCATGTCAGCTCGCGATATGGGTATTCTTGCAAAAACGATTATTACAAAGTATCCAGAAATGCTAGAGGATACAAAACAAAGATTTAGAAACTTCCCAGACAATCATCCAAAACCAATTCGTATGGAAAACTGGAACTGGATGTTACCAGGCGCTGCCTTCTCTTATGATGGAACGGACGGTTTAAAAACTGGTAGTTCTGATACCGCTGGATATGGGTTCACTATTACAGCGAAACGTGGTGATGTTCGTCTTATCTCGGTTATTATTAAAACAAAATCAATGGATGAACGCTTCACAGAATCTCGTGAATTAATCGAACATGGATTTAATAACTTTGAAAAACAAAAATTAAAAGTTAATAAAAACAATACAATCTCTGTAGTAAAAGGGAAAGAAGACCAAGTAACTGTTGCACCCGAAAAAGAAATAACAGTAATTGCGAAAAAAGGTAGCAAAGAGCCTTATAAAATTGGGACTGAATTAGATAAATCCCTTGCTGAAGATGGACATTTAGTTGCTCCTGTTAAGAAAGATACCAAAGTAGGCTCAATTACTTTAGAATCAACTGATAAATATGGTTTCTTAGACGGTAGTAAAAGTATGAAAGCTACTGCAAAAACGACAGAAGAAGTTGAAAAAGCAAATTGGTTTGTATTATCAATGCGCTCTATTGGAGATTTCTTCTCAAACTTATGGTCTAAAGTATTTTAA	MKKILSILLLLVLSIPSLVVTTSHAEEKIHIEAAAALLFDADTGKILHEQNPDELLAIASMSKLIVVYAVLEAIKEGKITWDTKVNISDYAYEVSRNNEFSNVPFEKGRQYTVRELYHSIVIFSANGSSIALAELLAGSEKNFLNLANEHAKKVGLKKYKFVNSTGLNNADLKGKHPEGTDPTGENSMSARDMGILAKTIITKYPEMLEDTKQRFRNFPDNHPKPIRMENWNWMLPGAAFSYDGTDGLKTGSSDTAGYGFTITAKRGDVRLISVIIKTKSMDERFTESRELIEHGFNNFEKQKLKVNKNNTISVVKGKEDQVTVAPEKEITVIAKKGSKEPYKIGTELDKSLAEDGHLVAPVKKDTKVGSITLESTDKYGFLDGSKSMKATAKTTEEVEKANWFVLSMRSIGDFFSNLWSKVF	PGPT0024040_1517	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_05233	423	cwlJ_1	COG3773	Cell wall hydrolase CwlJ	ATGGGCGTTATTGCTTATAACGAAGAAGATGTAAAGTTATTAGCTAGACTGATGCGTGCTGAAGCCGAAGGAGAAGGACAACAGGGGATGTTGATGGTCGGGAACGTTGGGGTAAATCGTGTCCGTGGAAATTGTTTAGATTTTAAAAAAATACGTAATTTACGTCAAATGGTGTATCAAAATCCTGGTGGTTTTGAGGCAACACAAAAAGGGTATTTTTATCAACGTGCAAGGGAACAAGATATTGCTTTAGCAAGGCGAACGATTCAGGGACAACGCTTTTGGCCTGCAAATTTTGCCTTATGGTTTTTTAGACCTGAAGGCCCTTGTCCGTCAACTTGGTATAATCAACAAAACTCTGGTCGCTTCAAAAAGCACTGCTTCTTCCAGCCATCTGGCGAAGATTGTCCTAGCGTTTATTAA	MGVIAYNEEDVKLLARLMRAEAEGEGQQGMLMVGNVGVNRVRGNCLDFKKIRNLRQMVYQNPGGFEATQKGYFYQRAREQDIALARRTIQGQRFWPANFALWFFRPEGPCPSTWYNQQNSGRFKKHCFFQPSGEDCPSVY				NA	NA	NA	NA	NA
AK009_05234	420			hypothetical protein	ATGGCACAGCAACAAAACCCGTATTACGGAACTGGATTTTATCAACCATCTGGAACTTATGTACAACCGCAGCAAATGACTCCACAACAACAGCAAGCAATGCAACAACAAGCGGCGCAAGCTCAATATGCCGTTTCTCAAGGCATGTTACCATTAGAACAATCCTATATTGAAAATATCCTTCGTTTAAACAAGGGTAAGCAAGCTACGGTTGTAATGACTTATGAACGTGGTAGCTCACTCGGTACCCAATCGTATACAGGTATTATCGAAGCAGCTGGTCGCGATCATATTGTAATTAGTGAGCCACAATCAGGGAAACGTTTTTTACTATTAATGATTTACTTAGATTATGTGGAATTCCCCGAAGAAATTACGTACTTACCTAGTCAACAAGCAACTTATGCTCCAAGACCATAA	MAQQQNPYYGTGFYQPSGTYVQPQQMTPQQQQAMQQQAAQAQYAVSQGMLPLEQSYIENILRLNKGKQATVVMTYERGSSLGTQSYTGIIEAAGRDHIVISEPQSGKRFLLLMIYLDYVEFPEEITYLPSQQATYAPRP	PGPT0025095_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025095-gerQ-K06305	NA	NA
AK009_05235	369			hypothetical protein	ATGAAAATTTTCTTTTTACTAGGTTGTATTGCAGCGGGGCTATCTGTTGCGTTAGGAGCCTTTGGAGCACACGGTTTAGAAAATAAAATTTCTGCGAAAATGTTAGAAGTTTGGAAAACAGGTGTTACATATCAAATGTTTCATGCAGGTGGACTATTCGTAGTTTCTTTATTGATGGATAAGGTTCAATCATCACTTTTAACTACTGCTGGTTGGCTTATGGTAGCTGGGATTATTATGTTTTCAGGCAGTTTGTATGCATTAAGTACGACAGGTATTAAGTTCTTTGGCCCAATTACGCCTCTTGGTGGCGTAGCGTTTATTGTAGCATGGATTTTAGTCGGAACTGCAGTTGTAAAAGGCTTATAA	MKIFFLLGCIAAGLSVALGAFGAHGLENKISAKMLEVWKTGVTYQMFHAGGLFVVSLLMDKVQSSLLTTAGWLMVAGIIMFSGSLYALSTTGIKFFGPITPLGGVAFIVAWILVGTAVVKGL				NA	NA	NA	NA	NA
AK009_05236	288			hypothetical protein	ATGCAAATATCGAGCGATAAGATTTTAAATAAAATGGCGAATGAAATTGCAAAGGCAAAAAGTAGTGAAGGACAAAAATCAAAAGATCATTTATTAGTTGTGCGTGCTTTATGCGATTTACTATTAGATGAACAGGTTGAATCTTCTACGTATAGGGAGCCGCAAATTCAATCGCAAGTAATTGGATCGCAGCCTATAAAGACAGTTCAACCAGTTATGCCAGTTTCTGGAGAACCTGTGTATATTAAAGAAGAAGGTGCAAATGGTAATTCTTTATTTGATTTTTAA	MQISSDKILNKMANEIAKAKSSEGQKSKDHLLVVRALCDLLLDEQVESSTYREPQIQSQVIGSQPIKTVQPVMPVSGEPVYIKEEGANGNSLFDF				NA	NA	NA	NA	NA
AK009_05237	993	kefC		Glutathione-regulated potassium-efflux system protein KefC	ATGAATGCACGTAAGCAATTATGGATCGCAGTTATATGTATGACTTTTGTTGTAATTCTAGGAACGATAGGATTTATGACAATTGAAGAGATTAGTTTGTTTCAAGCATTTTGGATGACGATGATTACTGTATTGACTGTTGGATACGGAGATGCTGTTCCTGTAACGCAAGCGGGGAAAGTATTTGCGCTCCTTATTATTCCTGTTGGCGTAGGTATTGTTACGTATGCAATTGGGGTAGTGGCAGCTATGATTATTGAAGGGAATTTATTTCATGCAGTGCGGAGGGAGAAGATGGATAAACAAATAGCGCAGTTGAAAAATCATATTATAGTATGTGGTTGCGGTAGAGTGGGGCTTCAAGTTGTACATGAATTGCAAGAAAAGAAAATTCCATTTGTTGTTGTCGATAAAGATGAAAGTGTATTAGAGAAGGGAAAGCTTTTGTATATACATGGAGATGCGACGGAGGATCAAGTTTTACATCATGCTGGAATTTCAAAAGCGGCTGGTTTAGTTGCTATCGTAGCAAATGATGCTGAAAATGTATTTATTACATTAACAGCAAGAGGATTAAACGATGCAATTAAAATTGTGGCGAGATCTGAAAAGCCAGAAACTGAAGAGAAATTAAGGCGTGCGGGTGCAAATAAAGTTATTAATCCATCCAGTATGGCAGGAATTCATATTGCAAAAGGTATTGCGAATCCATTAACAGTTCATTATATTGATACAGTGCTGTATGGGATAGAACAGTCATTTGTCATTGAAGAAATTTTAGTTGGAAAAGATTCAATATTAGTTGGTAAATCGTTACTAGAGAGTGATGTGAGGAATCAGTTTGATGTAACGATATTAGCGATTTTGAGAAATGGGGATATTATACATAATCCAACGGGGCAGGAAAAACTGCAAGAACATGATATGATAATAGTATTTGGTTTAGTAGAGAAGCTGAAGCAATTTGAGAAAGAACTACAAAGTACGAGGTGA	MNARKQLWIAVICMTFVVILGTIGFMTIEEISLFQAFWMTMITVLTVGYGDAVPVTQAGKVFALLIIPVGVGIVTYAIGVVAAMIIEGNLFHAVRREKMDKQIAQLKNHIIVCGCGRVGLQVVHELQEKKIPFVVVDKDESVLEKGKLLYIHGDATEDQVLHHAGISKAAGLVAIVANDAENVFITLTARGLNDAIKIVARSEKPETEEKLRRAGANKVINPSSMAGIHIAKGIANPLTVHYIDTVLYGIEQSFVIEEILVGKDSILVGKSLLESDVRNQFDVTILAILRNGDIIHNPTGQEKLQEHDMIIVFGLVEKLKQFEKELQSTR	PGPT0002715_2368	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK009_05238	1284	ywdJ_3	COG2233	Putative purine permease YwdJ	ATGAAGACATTTCTTTCCGCCTTACAATGGGCACTATTTATTTTAGCTGGAAGCCTTATTGTACCAATTAGTGTCGCAACTAGTTATGGTCTTGATGGCGCTGAAGCTATCGCATTCGTACAAAGAACATTATTTGTTCTAGGCTTTGCTGGTCTCTTGCAAGCTATATTTGGGCATAAACTTCCTATTCAAGAAGGTCCTGCTGGACTTTGGTGGGGAATTTTCTCCCTTTACGCAAGTTTAGGCGTCGTATTATTTGGATCAAACAATGAGACACTTAAAGTTCTTCAATATGCTTTCCTATTAAGCGGTATTATTTGTATTATTCTTAGCGCTTTTGGACTTATTGATAAACTCGTTCGCTATTTTACACCGACAGTCATTGGAACATATTTATTTCTTCTTGTTGCGCAGCTTAGTGGCTCCTTCTTAAAGGGAATGTTTGGCCTTGATGGAAAACATACAGAAGTACAACCTAACGTATTTATTCTTTCACTCATTGTTATTTTACTATCCTTTTTCATCATGAAGCTACCTATTATTGGACAATATTCTGTTCTTTTCAGTATCGTATGCGGCTGGATATTATTCGCATGCTTCGGGTTATCAAATCCAGTAACGCCTGTGACAGATATAATCCGTTTTCCGTCTCTATTTGTTTTCGGAATGCCTCGTATTGAATGGAACATGGCAATTACGGTCGTTTTCGTTACACTATTACTTCTAACAAATATGTTAGCAAGTATTCGTGTTGTGCAAAGGATTGTCTCTAAGTATGAAAAGAATGCAGCACCAGATCGTTTTAAACAAGCTGGCATTATAACAGGAATCAACCAATTGCTAGGCGGCCTATTTTCAGCTATTGGGCCTGTCGCTATTTCTGGATCAGCAGGTTTTATTGCAACGACTAATATTTATAAACGTCTCCCGTTTATATTAGGGTCAAGCTTTATTATTGTCGTTAGTATATTTCCAAAGATCACTTCATTCTTTGCAGCAATCCCTGTTGCAGTTGGTTATGCCGCTATTTATCCTGTATTCGCAAGCATGATTGGCCTTGCCTTTCGAGAATACGAAACTGTCCAGGATAAAGAACGATTATTTAAAGTAGCCGGTCTTTCAATCTTCACAGGAGTCGGAGTTATGTTTGTTCCAGCAGGAGCATATTCCACACTTCCACCATTTCTAGCATCGTTTTTAAGTAACGGTCTCGTTCTTGGATCTGTAATGGCCATTTTGCTAGAAATACTATTTTCTCGTTCCACAGCAAAACAAATATCGTAA	MKTFLSALQWALFILAGSLIVPISVATSYGLDGAEAIAFVQRTLFVLGFAGLLQAIFGHKLPIQEGPAGLWWGIFSLYASLGVVLFGSNNETLKVLQYAFLLSGIICIILSAFGLIDKLVRYFTPTVIGTYLFLLVAQLSGSFLKGMFGLDGKHTEVQPNVFILSLIVILLSFFIMKLPIIGQYSVLFSIVCGWILFACFGLSNPVTPVTDIIRFPSLFVFGMPRIEWNMAITVVFVTLLLLTNMLASIRVVQRIVSKYEKNAAPDRFKQAGIITGINQLLGGLFSAIGPVAISGSAGFIATTNIYKRLPFILGSSFIIVVSIFPKITSFFAAIPVAVGYAAIYPVFASMIGLAFREYETVQDKERLFKVAGLSIFTGVGVMFVPAGAYSTLPPFLASFLSNGLVLGSVMAILLEILFSRSTAKQIS				NA	NA	NA	NA	NA
AK009_05239	822	yidA	COG0561	Sugar phosphatase YidA	ATGACTTATAAAATGATTGTTTTAGATTTAGATGATACTTTATTACGTGATGACCATACTATTTCACCTCGTACGAAAGAAGCGTTAATGACTGCACAAGAGCAAGGGGTAAAGGTTGTACTTGCTTCTGGACGTCCAACGTTTGGTATGCGCAATGTAGCCAAAGAACTTCGCTTAGAAGAATACGGCAGTTTCATTCTATCTTTTAATGGCGCAAAAATTATTAACTGTAAAACAAACGAAGAAATCTTTAGTAGTACACTATCTCCTGAAATCGTTCACAACCTATTTGAAATTAGTAAAACTGAAGATGTATGGATTCATACTTATATGGGCGATGATATCGTAACGGAAGAAAATAATCCTTATACTGAAATTGAGGGCGATATTACTGGTATGCCAATTGTTGTAGTAGATGACTTTAAAGCCGCAGTTAAAGAGCCTGTAGTAAAAGTATTAATGAATAAAGAAGCTGAACGCCTTGTTGAAGTTGAAAAGAAACTACAAAAACAACTAGAAGGCCAATTAAGCGTGATGCGTTCGAAACCATTCTTCTTAGAATTTACTGAAGCCGGTGTTACAAAAGGAACGAGCTTAAACAAACTGATTCAAAAGCTTGGCATTAAGCGTGAAGAAGTTATCGCAATGGGCGATAGCTATAACGACCAAGCAATGATTGAATTTGCTGGTCTTGGCGTTGCAATGGGCAATGCACCTGATGATATTAAAGAAATTGCAAATTACGTAACAGATACAAATATGAACGATGGTGTTGCAAAAGTTGTAGAGAAATTTGTTTTAAAAACGGATGTACTTGTTTAA	MTYKMIVLDLDDTLLRDDHTISPRTKEALMTAQEQGVKVVLASGRPTFGMRNVAKELRLEEYGSFILSFNGAKIINCKTNEEIFSSTLSPEIVHNLFEISKTEDVWIHTYMGDDIVTEENNPYTEIEGDITGMPIVVVDDFKAAVKEPVVKVLMNKEAERLVEVEKKLQKQLEGQLSVMRSKPFFLEFTEAGVTKGTSLNKLIQKLGIKREEVIAMGDSYNDQAMIEFAGLGVAMGNAPDDIKEIANYVTDTNMNDGVAKVVEKFVLKTDVLV	PGPT0017727_94	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
AK009_05240	291			hypothetical protein	ATGTTATCTACACCAATCGGACGATTAAGAGCAATTGGACTAGTTGAGGGTATTTCTTTCCTATTACTATTATTTGTAGCAATGCCATTGAAATATTTCGCAGGATTTGCAACAGCTGTTAAAATTACAGGCATGGCTCATGGTGTTCTATTTATTCTATTCATCTTTGCAGTAATTCAAGTAACAATCGTACACCGTAAATCTATTTTATGGGCACTTGGAGCATTCGTTTCATCAGTTATCCCATTTGGTACTTTTGTACTAGATGCAAAATTAAAGAACGAGCAATAA	MLSTPIGRLRAIGLVEGISFLLLLFVAMPLKYFAGFATAVKITGMAHGVLFILFIFAVIQVTIVHRKSILWALGAFVSSVIPFGTFVLDAKLKNEQ				NA	NA	NA	NA	NA
AK009_05241	678	ung	COG0692	Uracil-DNA glycosylase	ATGGAAAATGTTTTAAGAAATGATTGGGGACCATTACTGGCACCAGAATTTGAGAAAGAGTATTATCTTACTCTATCCAGTTTTTTGACAGAAGAATACAGCACGCATGTTGTTTATCCGAAGGTGGAAGATATTTTTAACGCTCTTCAGTATACAAGTTATGAAAATACAAAGGTTGTTATTTTAGGACAAGATCCGTATCATGGACCGAATCAAGCGCATGGTTTAAGCTTTTCTGTACAACCTGGTGTTAAAACACCACCATCATTGTTAAACATGTATAAAGAGCTTCGAGATGAATATGGTTATGAAATTCCGAATAACGGTTATTTAGTAAAATGGGCGGAGCAAGGAGTATTACTACTAAATACCGTATTAACAGTTCGTCAAAGTGAAGCAAATTCTCATAAGGGAAAAGGATGGGAGCACTTCACAGATCGTGTGATTCAACTGTTGAATGAACGTGAAAAGCCAGTTATTTTCATATTGTGGGGGCGCCATGCGCAGGCGAAGAAGAAGTTAATTACGAATCCGAATCATCATATTATCGAGTCTGTACATCCAAGTCCATTATCAGCAAGACGTGGTTTCTTTGGTAGTAAGCCATACTCTAAAGTAAATACGATTTTAGCTAATATGGGCGAAAGAGAAATTGATTGGGAAATTCCAAATTTATAA	MENVLRNDWGPLLAPEFEKEYYLTLSSFLTEEYSTHVVYPKVEDIFNALQYTSYENTKVVILGQDPYHGPNQAHGLSFSVQPGVKTPPSLLNMYKELRDEYGYEIPNNGYLVKWAEQGVLLLNTVLTVRQSEANSHKGKGWEHFTDRVIQLLNEREKPVIFILWGRHAQAKKKLITNPNHHIIESVHPSPLSARRGFFGSKPYSKVNTILANMGEREIDWEIPNL	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
AK009_05242	993			hypothetical protein	ATGCGTGAATTTGCGAATCTAGTTTTAAATGAATCAGAAAAGATTTACCGTAAGAAACGTATTTTTGTTGTTATGCTTATTTTAGCAATCTTAATCCCGCTTTTTGTGTATGCGCAGTATCGCGAAATAGAAACGACACAAAAAAGACTCGGTACAACTGATTGGAAGGTTTCATTGCAACAGCAAATTGTTGATTCTCAGAACCGGTTGAATAATTCTAGATTGCCAGAAGAATGGCGTGATTGGTTAAAGGTAAGAGTTGAACAACAACAATATTATTTAGATCATGATATTAATCCGATGGCGCCAGGTGCACCGACTTTTGTCAGAGCATTTATTGAACAAGGAATTACATTGTTTATTCCGCTTCTCGTAATGATTGTCGCCATTGATATCGTTTCTGGAGAACGAAGTGATGGGACGATGAAGATGTTACTTACGCGGCCGATTCGGCGCTGGAAAATACTCCTTAGTAAATACGTGACGATGTTATTTTTCATTTCGCTCATACTGCTCCTTGTAGGTTTGTTTGCTTACATATTATCAGGGCTTGTATTTGGATACTCGGGATGGAATTTACCTGTTTTAACAGGATTCGTCATTGATAAGGAAACGTTAAATACGAACTTTGTGCACCTTATTCCGCAGTGGCAATACATCTTAATGGCGTATGGACTAGCCTGGTTTGTTGCTATCGTTGTCGGAACTATATCATTTATGGTCTCTGTTTTAATTCGTAATACACCAGCTGGTATGGGCGTTATGCTAGCTGCATTAATTGCAGGCGGTATCTTAAGCTCATTCGCAACATCTTGGGAAGGCGCGAAATATATTTTTAGCGTGAATTTATCATTAACGGATTATTTATCAGGAAAATTACCTGCATTACAAGGCTTATCAATGGGATTTTCTTTGATGAATTTAACTGTTTGGGCAGTTGTTTCTCTTATTATTTCGTTCTTAGTATTTACAAAACAGGATATGTTGAATTAA	MREFANLVLNESEKIYRKKRIFVVMLILAILIPLFVYAQYREIETTQKRLGTTDWKVSLQQQIVDSQNRLNNSRLPEEWRDWLKVRVEQQQYYLDHDINPMAPGAPTFVRAFIEQGITLFIPLLVMIVAIDIVSGERSDGTMKMLLTRPIRRWKILLSKYVTMLFFISLILLLVGLFAYILSGLVFGYSGWNLPVLTGFVIDKETLNTNFVHLIPQWQYILMAYGLAWFVAIVVGTISFMVSVLIRNTPAGMGVMLAALIAGGILSSFATSWEGAKYIFSVNLSLTDYLSGKLPALQGLSMGFSLMNLTVWAVVSLIISFLVFTKQDMLN	PGPT0006730_8556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_05243	918	bcrA_4		Bacitracin transport ATP-binding protein BcrA	ATGACGACGATACTTTCCGTACGAGACTTGAAGAAGGTAATTGGAAAGAAGACTCTTGTAGAGGACATTTCCTTTGATGTAAAGAAAGGAGAAGTGTTCGGGTTCTTAGGACCAAATGGTGCTGGAAAGACGACTACCATTCGAATGTTAGTCGGATTGATTACGGCGACAGAAGGTACGATTTCTATCGGTGGTTATTCGATTAAGGACAATTTCAGAGAGGCGATGCGTCAAATTGGGAGTATCGTTGAAAACCCAGAGTTGTATACATATTTAACAGGATGGGAAAATTTAAAGCAATTTGCTCGTATGTTAGGTGATATATCAGATGAACGTATTATTGAAATTGCTGAAATGGTTCATTTAGATGAAAGAATTCATGACAAGGTAAAAACGTACTCACTTGGTATGAAACAACGCCTTGGAATTGCGCAGGCGCTCCTTGGGAATCCAAAATTGCTCATATTAGATGAGCCAACGAATGGTTTAGATCCAGCAGGGATTAGAGAACTTAGGGAATTTATACATAAGCTTGTAAAAGAAGAAAATATGAGCGTGTTTATTTCAAGTCACTTGCTAAGTGAAGTGCAAATGATATGCGATCGCGTTGCTATTATTCATAAAGGAAAGATGATAACAGTTGCCAAGGTTGAAGAATTAATTAAAACAGCAAGTGATCGTGTAGAATGGATTGTTACACCAATTTCTAAGGCGAAAGATATGTTAGAAGCAGCCGAAGAAGTAAGAGAAGTGAGTGTAGAAGGCGAGCGATTATTATGCCGCATGGATATTGCATCTATAAGTAGTTGGAATAAACACTTGGTAGAAAATGAAATAGATGTACATAGTGTTAAGGAGCTTGTATTTACGCTAGAAGATTTATTTATTGAACTCACAAGGGGTGAGCAGCATGCGTGA	MTTILSVRDLKKVIGKKTLVEDISFDVKKGEVFGFLGPNGAGKTTTIRMLVGLITATEGTISIGGYSIKDNFREAMRQIGSIVENPELYTYLTGWENLKQFARMLGDISDERIIEIAEMVHLDERIHDKVKTYSLGMKQRLGIAQALLGNPKLLILDEPTNGLDPAGIRELREFIHKLVKEENMSVFISSHLLSEVQMICDRVAIIHKGKMITVAKVEELIKTASDRVEWIVTPISKAKDMLEAAEEVREVSVEGERLLCRMDIASISSWNKHLVENEIDVHSVKELVFTLEDLFIELTRGEQHA	PGPT0006725_12838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_05244	882			hypothetical protein	GTGAAAATCGCTTTTCAAAATTTCGTTTGGTATAATTATGGACAATCTATGAGGGCTAAAAGGGGTTTTGATATGAGATCAAAAGTAGTAAAAGTAATTCTACTCATTACAATTGCATCTTTCTGTTTATTTGCATATGGCTTTGTTTCAGGTGTAAATGATGTATTAAATCCGAAAGCTTCAAATTTAATTAAAAAGACCGATGTAGTGGCAAAAGAGAAAAAGAAAACGGGAACGTTACAAATCGTTAGTTTAGGTGATTCATTAACGCGTGGCGTTGGTGATAAAGAAGGAATTGGCTATGTTGGGCGAATGAAAGAGGATTTACAAAAAGATTATAAGCAAAAAATTGCATTAACAAATTTAGCAGTTAGTGGTGCAAAAATGCCCGATTTATTAAAACAAATTGAAAGTAATGGCGCTCAATATTCAATTAAGCAAGCAGATGTAATCGTGTTAACGATTGGTGGGAATGATTTGTTCCCAGGCTGGGAATCGCTTGGGAAGATAGATTTAGATACGTATCGTCCTGACACAGAAACGTTTCAAAATGAAGCAAAGAAAATTATAGAAGAAATTCGTAAATTAAATACAGATAGTCCGATTTTTTGGCTTGGTTTATACAATCCTTTTGAAGATGTAGAAGATTTAAAAGGGTCTTCAAACATTGTTGTGGACTGGAATGCATCTTTAGAGAAGTTAGCGCTAAACGATAAAAATGTGTATATTACACCGACATTTGATTTATTCCAAAACCGCGGAAAAGATTTATTATACTCTGATCATTTTCATCCGAACGAAGTAGGTTATACGTATATGGCAGAACGTTTAGTTCAAAATGTTGTAAGTAAATTAAAACTAGAACAAGGAGGGGTAAAATGA	MKIAFQNFVWYNYGQSMRAKRGFDMRSKVVKVILLITIASFCLFAYGFVSGVNDVLNPKASNLIKKTDVVAKEKKKTGTLQIVSLGDSLTRGVGDKEGIGYVGRMKEDLQKDYKQKIALTNLAVSGAKMPDLLKQIESNGAQYSIKQADVIVLTIGGNDLFPGWESLGKIDLDTYRPDTETFQNEAKKIIEEIRKLNTDSPIFWLGLYNPFEDVEDLKGSSNIVVDWNASLEKLALNDKNVYITPTFDLFQNRGKDLLYSDHFHPNEVGYTYMAERLVQNVVSKLKLEQGGVK				NA	NA	NA	NA	NA
AK009_05245	978	ccpB_1		Catabolite control protein B	ATGACAAATATAAGAAAGATTGCTGAACTTGCTGGAGTATCTGTTTCAACTGTTTCACGTGTACTAAATAATCATCCGTACGTAAATGAACAGAAACGAAAAGAAATTTTAGCGATTATAGAAGAATTAAATTACACGCAAAACGTGAATGCAATTCATTTAGTGAAAGGAAAAACGAATGTAATTGGCGTTTTATTGCCACACGTAAATGATCAATATTATAGCGCTATTATTGAGGGGATATCAAAAGAAACGGCAAAGAATAATTATAATATGATGCTTTGCCAGACAAATTATAGCGAAGAAAGAGAACTAGAAATTTTAAATATGTTAAAAATGAAAAAGCTTGATGGGGTTATTATTTGTTCTCGGGCAAATAGTAAGGAGAAGCTTGAAGAATATACGAAATTCGGCCCGATTGTTATGTGTGAAGAAATAGATTCAAAATGCATTTCAAGTGTCCATATTGATTACTACAAAGTATTTTCACGTGGGATGAAAAGCTTAATAGATGCCGGTCATACAAGTATTGGATATTGTATTGGAAGAAGTAATAGCGTTAATAGCCAAAGACGAAAGAGGGCGTATGAAGATTCGCTTCAACAGAGTATCGTAACACCGTTAGAGACCTGGAAATTTGAGGGGTGTTTTACAGTGGAAGATGGACGCAATGTAATTAGAGAATGGGCTCATATGTCAGTAAAACCGACGGCGTTCCTTGTATCTTGTAACCATATTGCAGCGGGGATGGTTACAGAAGCAAAAAAACAAGGAATTCGTATTCCAGAGGATATTACGATTATTGGGTGTGATGATCAAGAGGTGGCAGATATATTGGGTATAACGACGATTTCGCATTCTAGTAAAAACGTTGGATTGAAAGCGTTTGAATTATTATATGAAAAGATTAATGAAGAGAAATTAGATGTGAAGCATATAGAGTTATTACCAGAGTTAGTAGATAGAGAAACGACATAA	MTNIRKIAELAGVSVSTVSRVLNNHPYVNEQKRKEILAIIEELNYTQNVNAIHLVKGKTNVIGVLLPHVNDQYYSAIIEGISKETAKNNYNMMLCQTNYSEERELEILNMLKMKKLDGVIICSRANSKEKLEEYTKFGPIVMCEEIDSKCISSVHIDYYKVFSRGMKSLIDAGHTSIGYCIGRSNSVNSQRRKRAYEDSLQQSIVTPLETWKFEGCFTVEDGRNVIREWAHMSVKPTAFLVSCNHIAAGMVTEAKKQGIRIPEDITIIGCDDQEVADILGITTISHSSKNVGLKAFELLYEKINEEKLDVKHIELLPELVDRETT	PGPT0021075_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK009_05246	627			hypothetical protein	ATGCTTCGATTCAAATTAGAATATATATTTTTCATTGGCGGTTTACTCATTCTTGCCATCGGTATTAATATGATGACGACAATTACTTCCTTTGGACTTAGCCCTTATGATTCCTTCTTTATTGCACTATATCAAAATTTTGGGATAAGTATTGGTTTTTGGATTTTCATGATTAACTTTGCCTTTACACTTATCGTACTCTTTTGGAATAAAAAACAAATTACAATCGGTACAATTGTAACGATGATTCTTATTTCTCTTTTTGTTGATTGGATTGGTTCCATTATAACTATTATGGACGCTATCCGCTCTCTTCCAAAATATATAACACTTATTTGCGGAAATCTATTCGTTGGAGCTGGAATTGGTCTTTACGTCTCTACAAACCTTTGCGCAGCGCCTCAAGAAGCTTTCGTTTTAACCGTTGCTGAGAAGAAAAAATGGACGTTTAGAAGAACAGAGATTTCATTAGCCTTTTTATTTTTAACTTTAAGCTTTTTATTAGATGGACCTATCTATTTTGGAACCATCATCTTATCCTTTACAACAGGCTGGATTATCCAAGCATTTATTCAAGTTGGTACACAGATTTTAAATAGAAAAGAACCTATTAAGCAAGCTGCTTAA	MLRFKLEYIFFIGGLLILAIGINMMTTITSFGLSPYDSFFIALYQNFGISIGFWIFMINFAFTLIVLFWNKKQITIGTIVTMILISLFVDWIGSIITIMDAIRSLPKYITLICGNLFVGAGIGLYVSTNLCAAPQEAFVLTVAEKKKWTFRRTEISLAFLFLTLSFLLDGPIYFGTIILSFTTGWIIQAFIQVGTQILNRKEPIKQAA	PGPT0026395_915	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
AK009_05247	1296	hom_2	COG0460	Homoserine dehydrogenase	ATGAAAGAAATTCAAGTTGGTTTATTAGGTCTTGGGACAGTTGGGAGTGGTGTAGTTCGTATTATTACGGATCATCAAGAAAGACTCATACACCAAGTAGGTTGTCCAGTGAAGGTAACGAAAGTATTAGTGCAAAACATTGAGAAAGAGAGAGAAGTAGAGGTACCTTCTACTCTATTAACACAAGATGCAAATGAAATTTTAGATAATCCAAATATTGATGTTGTCATCGAAGTAATGGGTGGCATTGATGATGCAAAATTATATATTTTACAAGCTTTAAAAAGCGGAAAGCATGTTGTAACTGCAAATAAAGACTTAATGGCATTACATGGAGCTGAATTATTAGCGACAGCAAAAGATAATAAAACTGATCTCTTCTATGAAGCGAGTGTGGCAGGGGGAATTCCAATTCTACGCAGTATTGTAGAAGGACTCTCTTCAGATCTTATTACGAAAGTCATGGGAATTGTAAATGGAACGACAAATTTTATTTTGACGAAAATGTCAGACGAAGGGAGAGCATATAACGACGTGTTAAAAGAAGCCCAACAACTTGGATTTGCAGAAGCAGATCCAACATCAGATGTAGAAGGTTTAGATGCAGCAAGAAAAATGACGATTTTAGCTACTCTCGGTTTCTCTACAAATGTAGAGCTTGGAGATGTGAACGTAAAAGGAATTACCTCTATTACAGAGGAAGATATTGAATACAGTAAGAGCTTAGGTTATACAATTAAATTAATCGGTCTTGCAAAACGAGATGGTGAAAAATTGGAGGTTACGGTTGAACCAACTTTACTTCCAAATACACACCCTCTTGCGGCAGTACAAAATGAATATAACGCTGTGTATGTGTACGGTGAAGCAGTTGGGGAAACGATGTTTTATGGACCAGGGGCAGGAAGTTTACCGACAGCGACAGCTGTTGTTTCGGATTTAGTTGCTGTAATGCAAAATATTAGATTAGGGGTAACAGGAAATAGTGCTGTAGTCCCACAGTATCAAAAAGTATTAAAAGAGCCAGACGAAATAGTCGTGAAAAAGTTTTTAAGACTGCATGTAAAAGACGAAATTGGTGTATTTGCAAAAATTACTTCATTGTTCTCTGAGCGCGGAGTTAGCTTTGAGAAAATTATTCAAATGCCGCTTGAAGAGAAAGGAAAGGCTGAAATTGTAATTGTAACGCATCGTGCGTCTCTTGCTGATTATGATTATATTCTACATACGTTGCAAGGGTATGAAGAAATAGATTGTTTGAAAGCGAACTATCGAATTGAAGGGGATGCTAAGTAG	MKEIQVGLLGLGTVGSGVVRIITDHQERLIHQVGCPVKVTKVLVQNIEKEREVEVPSTLLTQDANEILDNPNIDVVIEVMGGIDDAKLYILQALKSGKHVVTANKDLMALHGAELLATAKDNKTDLFYEASVAGGIPILRSIVEGLSSDLITKVMGIVNGTTNFILTKMSDEGRAYNDVLKEAQQLGFAEADPTSDVEGLDAARKMTILATLGFSTNVELGDVNVKGITSITEEDIEYSKSLGYTIKLIGLAKRDGEKLEVTVEPTLLPNTHPLAAVQNEYNAVYVYGEAVGETMFYGPGAGSLPTATAVVSDLVAVMQNIRLGVTGNSAVVPQYQKVLKEPDEIVVKKFLRLHVKDEIGVFAKITSLFSERGVSFEKIIQMPLEEKGKAEIVIVTHRASLADYDYILHTLQGYEEIDCLKANYRIEGDAK	PGPT0020155_2098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK009_05248	906	metAA	COG1897	Homoserine O-acetyltransferase	ATGCCGATCATAATTGATAAAGATTTACCAGCTCGCAAAGTGTTGCAGAAGGAAAATATATTTGTAATGACGAAGGAGCGAGCAGAAACACAAGATATTCGGGCATTGAAAATTGCTATCTTAAATTTAATGCCTACAAAGCAAGAAACAGAAGCGCAATTACTTCGTTTAATTGGCAACACACCGTTGCAATTAGATGTTCATTTGCTTCATATGGAATCACATTTCTCTCGCAATGTAGCGCAGGACCATTTAATGAGCTTTTATAAAACATTTCGTGATATTGAAAATGAAAAATTTGACGGGCTCATTATAACAGGAGCACCAGTTGAAACTCTTTCTTTTGAAGAGGTAGATTATTGGGAAGAGCTTAAACGTATTATGGAGTATTCAAAAACGAATGTAACATCTACGCTCCATATTTGCTGGGGGGCACAGGCTGGCTTGTATTATCATTATGGTGTTCCAAAGTATCCTCTTAAGGAAAAAATGTTCGGTGTATTTGAACATGAAGTTTGCGAGCAACATGTGAAATTGTTACAAGGGTTTGATGAATTGTTTTTTGCTCCCCATTCTCGTCATACAGAAGTACGAGAGAGTGATATTAGAGAGGTGACAGACTTAACATTATTAGCAAATTCTGAGGAAGCGGGTGTTCACCTTGTCATTGGGCAAGAAGGAAGGCAAGTTTTTGCCCTTGGGCATAGTGAATATAGTTGTGATACGTTAAAGCAAGAATACGAACGAGATCGTGACAAGGGATTAAATATTGATGTGCCAAAAAACTATTTTAAACATAATAATCCAGATGAAAAGCCCCTTGTTAGGTGGAGGAGTCATGGGAATTTATTGTTTTCTAATTGGTTGAATTATTACGTGTATCAAGAAACCCCTTATATATTGTAA	MPIIIDKDLPARKVLQKENIFVMTKERAETQDIRALKIAILNLMPTKQETEAQLLRLIGNTPLQLDVHLLHMESHFSRNVAQDHLMSFYKTFRDIENEKFDGLIITGAPVETLSFEEVDYWEELKRIMEYSKTNVTSTLHICWGAQAGLYYHYGVPKYPLKEKMFGVFEHEVCEQHVKLLQGFDELFFAPHSRHTEVRESDIREVTDLTLLANSEEAGVHLVIGQEGRQVFALGHSEYSCDTLKQEYERDRDKGLNIDVPKNYFKHNNPDEKPLVRWRSHGNLLFSNWLNYYVYQETPYIL				NA	NA	NA	NA	NA
AK009_05249	1299		COG2873	O-acetyl-L-homoserine sulfhydrylase	ATGGGAGAATCATGGGGAAAAGGAACGATTTGTGTGCAAGGTGGCTATACGCCAAAGAATGGTGAACCACGTGTTTTACCACTTTATCAAAGTACAACGTATAAATACGATACTTCGGATGATTTAGCAGCCCTATTTAACTTAGAGGCAGAAGGATATATTTATACGCGTATTGGAAACCCTACTCTAGCTGCATTTGAGCAGAAGTTATCAGATTTAGAAGGCGGGGTAGGAGCTGTTGCAACGGCTTCTGGGCAAGCGGCTATTATGCTCGCAGTTTTAAATATTTGTAGTAGTGGAGACCATTTACTTTGCTCTTCAACTGTTTACGGGGGAACGTTTAATTTATTTGGGGTGAGTTTACGTAAGCTTGGCATTGATGTTACGTTCTTTAATCCCAATTTAACGGCAGATGAAATTGCGGCACTTGCTAACGATAAGACGAAGCTCATTTATGCAGAATCATTAGGAAATCCAGCGATGAACGTTTTGAATTTTAAAGAATTTTCAGATGCAGCGAAAGAGTTAGAAGTGCCTTTTATCGTGGATAATACATTAGCAACTCCTTATTTATGCCAAGCATTTGAGCACGGAGCAAATATTATCGTTCATTCTACGACGAAATATATTGATGGTCATGCAAGCTCTTTAGGCGGCATTGTCATTGACGGAGGGAACTTCGATTGGACAAATGGGAAATATCCTGAACTTGTTGAACCGGATCCAAGTTATCACGGCGTAAGTTACGTTCAAAATTTTGGTGCAGCAGCTTATATTGTGAAGGCGCGTGTTCAATTATTAAGGGACTACGGAAACTGTATGAGCCCATTCAATGCGTATATTAGCAATATCGGCTTAGAAACGCTGCATTTAAGAATGGAGCGTCATAGTGAAAATGCTCTCGTAGTTGCTAAGTGGCTTGCTAACCATGAACGTATTGAATGGGTGAATTATCCTGGATTAGATAGCAATGAAAATTACTCGTTAGCACAAACGTATTTGAAAAAAGGTGCTAGTGGTGTTTTAACATTCGGCATTAAGGGCGGATTAGAAGCGGCGAAAGAATTTATCGCAAATGTAAAACTAGCAACTCTTGTAACGCATGTAGCGGATGCACGAACTTGCGTTATACATCCTGCTAGCACAACGCATAGACAATTAAGTGCTGAAGATCAGCGTCTAGCTGGCGTTACATCAGATTTAATTCGTTTATCTGTTGGCATAGAAGATGTTTCTGATATTATTGCAGATTTAGAAGCGGCGCTAGTCGGAGGCAAAGAACATGCCGATCATAATTGA	MGESWGKGTICVQGGYTPKNGEPRVLPLYQSTTYKYDTSDDLAALFNLEAEGYIYTRIGNPTLAAFEQKLSDLEGGVGAVATASGQAAIMLAVLNICSSGDHLLCSSTVYGGTFNLFGVSLRKLGIDVTFFNPNLTADEIAALANDKTKLIYAESLGNPAMNVLNFKEFSDAAKELEVPFIVDNTLATPYLCQAFEHGANIIVHSTTKYIDGHASSLGGIVIDGGNFDWTNGKYPELVEPDPSYHGVSYVQNFGAAAYIVKARVQLLRDYGNCMSPFNAYISNIGLETLHLRMERHSENALVVAKWLANHERIEWVNYPGLDSNENYSLAQTYLKKGASGVLTFGIKGGLEAAKEFIANVKLATLVTHVADARTCVIHPASTTHRQLSAEDQRLAGVTSDLIRLSVGIEDVSDIIADLEAALVGGKEHADHN	PGPT0001995_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
AK009_05251	219			hypothetical protein	ATGGAATATATTTCTTTTGTTGCTTTATATGAAATTGTTAATGTTTATTTTAGAACATTCAGAAAAAACTGTTTGACATTAGGAAATTATTGCTATAAAATCAACGGTAATTGCATAGTCTTATCAAGAAAAGGTGGAGGGACAGGCCCGATGAAACCTTGGCAACAGCCGTATAACGGAATTGTGCCAAATCCTGCAGGTAGTAATCCTGAGAGATAA	MEYISFVALYEIVNVYFRTFRKNCLTLGNYCYKINGNCIVLSRKGGGTGPMKPWQQPYNGIVPNPAGSNPER				NA	NA	NA	NA	NA
AK009_05252	696	yfnB_2	COG1011	Putative HAD-hydrolase YfnB	ATGAAAAAATATAAAACATTACTATTTGATGTAGATGATACATTATTAGATTTCCAAAAGGCTGAAAAAGTAGCTTTACAGGTGCTTTTTGAAGAGAAGGGAATCCCTTTAACAGAGGAGATAGAGGCTCGTTATAAAAAAATAAATAAAGGTCTTTGGAATGCTTTTGAAAAAGGTGAACTATCACGTAATGAAGTTGTAAATAAACGATTCTCTATGTTGTTTAAAGAGTATGGAGAAGAAGTAGACGGTATATTATTCGAAAATAATTATCGTAGCTACTTAGAAGAAGGAAATCAACTCATGCAAGGTGCGTTTGAATTTATAAATCAAATTCAAGGGGAGTATGAGTTGTATATAGTGACAAATGGTGTTTCTAAGACGCAAGATAAACGTTTGCGTAATGCAGGGTTACATTCATTATTTAAAGATGTTTTTGTTTCGGAAGATACAGGTTTTCAAAAGCCGATGAAAGAGTATTTTGATTATGTTTTTGAACGGATTCCTAACTTTGCACCTGAAGAAGGGCTGATTATTGGGGATTCATTAAGTGCCGATATTAAAGGTGGATATGTAGCGGGAATTGATACTTGTTGGTTTAATCCAGAAAGGAAATTAAATGATAGTGGGATTATACCGACATATGAAGTGCATAATTTTGAAGAATTATACGCTCTATTAAAACAGTTTGTTTAA	MKKYKTLLFDVDDTLLDFQKAEKVALQVLFEEKGIPLTEEIEARYKKINKGLWNAFEKGELSRNEVVNKRFSMLFKEYGEEVDGILFENNYRSYLEEGNQLMQGAFEFINQIQGEYELYIVTNGVSKTQDKRLRNAGLHSLFKDVFVSEDTGFQKPMKEYFDYVFERIPNFAPEEGLIIGDSLSADIKGGYVAGIDTCWFNPERKLNDSGIIPTYEVHNFEELYALLKQFV	PGPT0006885_1305	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK009_05253	672	yeiL_3	COG0664	Regulatory protein YeiL	ATGAAAATCAGCAAAAATGAAGAAGAAATTTATCAATACATGCGAATCCATCAATTCCATACCCTATTTTCATTTCATGTCTTGCCATATGTAGAGCTGCATTCTTTTCAAACGAAAGAGATGATATGTAGCGAAGGAAACGCCCTCCCTTATCTCTATTACTTAATTTCTGGGAAAGCAAAAATATATATGAATCATAAAAACGGGAAAGTTTCATTAATTAATTTTATTCAAGCACCATCTTTTATCGGGGAATTAGGATTAATAGGAGTAGAAAATATCACCAAGTCCGTTGAAGTACTAGAAGATTGTGTTTGTTTAGCACTTCCTCTTAAAGATTGTCAGCAACTTGTATTACAAGATGCAACGTTTTTACAGCACTTATGCAAATTTATTGGAGAAAAGACAATTACTCGCACTGAAAATTACGCAAAAAACTATAGTTATCCTTTCGAAAATCGATTAGCTGCTTTTATTTTATTAACAGAACAAAATAATTGTTATATAGAAAAGCATACTGAGGCTGCAGAATACTTAAATGTCAGCTATCGTCATCTTTTATATGTATTAAACCAGTTTTGCCAACAAAATTATTTAAAAAAAGAAGGCCGAACATATTATATACAAGATCGAAATACATTAGAAAAGCTTGCTGACGAGCTGAAAATATAA	MKISKNEEEIYQYMRIHQFHTLFSFHVLPYVELHSFQTKEMICSEGNALPYLYYLISGKAKIYMNHKNGKVSLINFIQAPSFIGELGLIGVENITKSVEVLEDCVCLALPLKDCQQLVLQDATFLQHLCKFIGEKTITRTENYAKNYSYPFENRLAAFILLTEQNNCYIEKHTEAAEYLNVSYRHLLYVLNQFCQQNYLKKEGRTYYIQDRNTLEKLADELKI				NA	NA	NA	NA	NA
AK009_05254	627	azoR4	COG1182	FMN-dependent NADH-azoreductase 4	ATGGCAACAGTTTTATTTGTTAAAGCAAACAACCGTCCAGCGGAACAAGCAGTTAGTGTAAAATTATATGAGGCATTTTTAGCGAACTATAAAGAAGCACACCCAAATGATACAGTAGTAGAACTTGATTTATATAAAGAAGAATTACCATATGTAGGTGTAGACATGATCAATGGTACATTTAAGGCAGGTAAAGGATTTGATTTAACAGAAGAAGAGGCAAAAGCAGTAGCAGTTGCTGATAAGTATTTAAATCAATTTCTAGAAGCTGATAAAATTGTTTTCGGCTTCCCATTATGGAACTTAACGATTCCAGCAGTGTTACACACATATATTGATTATTTAAACCGTGCTGGTAAAACGTTCAAATATACACCAGAAGGTCCAGTTGGTTTAATTGGAGATAAGAAGATTGCATTATTAAACGCGCGCGGCGGCGTATATTCAGAAGGTCCAGCAGCTGAGGTAGAAATGGCTGTTAAATATGTAGCAAGCATGATGGGCTTCTTCGGTGCAACAAACATGGAAACAGTAGTTATTGAAGGACATAACCAATTCCCAGATAAAGCAGAAGAAATCATTGCTGCAGGTCTTGAAGAAGCAGCTAAAGTAGCAAGTAAATTTTAA	MATVLFVKANNRPAEQAVSVKLYEAFLANYKEAHPNDTVVELDLYKEELPYVGVDMINGTFKAGKGFDLTEEEAKAVAVADKYLNQFLEADKIVFGFPLWNLTIPAVLHTYIDYLNRAGKTFKYTPEGPVGLIGDKKIALLNARGGVYSEGPAAEVEMAVKYVASMMGFFGATNMETVVIEGHNQFPDKAEEIIAAGLEEAAKVASKF	PGPT0006790_1395	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK009_05255	648	vraR_2		Response regulator protein VraR	GTGAAAATAAAAGTATTGTTAGTCGATGATCATACAGTCGTTTTAAAAGGATTAGCATTTTTCTTAAGTACACAGGAAGATTTAACGTTAGTTGGAGAAGCAAATAATGGGAAAGAAGCGTTAGTGAAAGTAGGGGAGACGAATCCAGATGTTGTATTAATGGATTTATATATGCCCGAAATGGATGGTGTCGAGGCGACGGCGTGCATCAAAAAAGAATATCCGAATGTGAAAGTAATTGTATTAACTAGCTTTTCTGATCAGGCGCATGTTTTACCAGCGTTAAGGGCGGGGGCAAGTGGGTATATTTTAAAAGATGTAGAACCGGATCAGCTTGTTGAAGCTATTCGAAGCGCATATAAAGGTAATATTCAATTACATCCGGATATAGCAAATACTCTTCTCTCTCAAACACTACCTGTGGAAGAAAAGGAAGAAGAACCTTCTATTCAAGTGGATGTGCTAACGGCGAGAGAAAATGAAGTGCTGCAGCTATTAGCGAAAGGGATGAGTAATAAAGAGATCGCTTCTGTTTTAGTTATTACAGAAAAAACGGTAAAAGCTCATGTAAGTAGTATTTTGAGTAAGTTGAATTTATCTGATCGCACGCAAGCGGCGTTATATGCAGTGAAAAATGGAATTGTATAA	MKIKVLLVDDHTVVLKGLAFFLSTQEDLTLVGEANNGKEALVKVGETNPDVVLMDLYMPEMDGVEATACIKKEYPNVKVIVLTSFSDQAHVLPALRAGASGYILKDVEPDQLVEAIRSAYKGNIQLHPDIANTLLSQTLPVEEKEEEPSIQVDVLTARENEVLQLLAKGMSNKEIASVLVITEKTVKAHVSSILSKLNLSDRTQAALYAVKNGIV	PGPT0014870_135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618	NA	NA
AK009_05256	1551			hypothetical protein	ATGTTTCGAGATAATCGTACAAATGAATTAGTTATATTAAAGGAAATTGCAGAAACATTAAATACATCAAATGATACATATCATGTATTGCAAGCAGTACTAGAAAAATTGCTCAGTGTAACAGGTTTAACGACAGGCTGGATTTTTCTTGCGGATGAAAATGGGAAGTATACGAAGGTGATCGATTACCAGTTACCAGAGGCACTTAAATATGAAAATAAACGCCCGATGTGTGAAGGTGAGTGTTGGTGTTTACGCGGCTTCGTAGATGGGAAATTAGAGAGAGCCGTTAATATTATTGAATGTAAAAGAATTAATAATGCAATTGAATATAATTGGGGAGATACAGAAGGAATTCTTCATCATGCTACGGTTCCTTTAAAGGCTGGAGGAGAGAAATTTGGTGTTTTAAATGTAGCTAGCCCAGGTAAAACACATTTTTCGGAAGAAGAATTAGTATTGCTCCAATCAGTTGCTTTCCAAATCGGGACGGCTTTAAAGCGAACAAAATTATATGAAAATGAAAAGCGAAGAGCACATTACTATGTGAAATTGGAGCGGTTTATTCAAGCTTTAAAAACGATTCATAAGTTTAATGTATTATCTGAAAAGGTGGTAAATCACGTAGGTGAAGTATTTCAGTGGAATCAAGTGGCGTTTTTTATTAGGGAAGAAATAGAGTTATCTTTGCGAGCTTCTTATGGGCAGGAAGAGTTACAAGAGGATGTAAAAGAAGCGGCAAAGAAGGCGTTAGAACAAGGTGAGCTAGCTCTATTAAAACGTGTAAATGGAGTTGTTATTGCTACGCCAATACATATTCAAAATCATATATTTGGTGTTTTATGTGTTAGTTTAAATAATGGAGAATTTGATGTTAATACAATAGATATAATTCAAGCATTATCGAATCACGTTTCATTAATAATAGAGAATCTAAGGTTAAACGAACAGCGCCGTGAACTCGTACGACTGGAAGAAAGAAACCGATTAGCAAGGGATTTACATGATTCTGTTTCGCAAAAATTATTTTCATTAACCTTTATGACAAAAGGGGCTGAGGCCGTTTTAAAAGGTCAAAATGAAAAGGTTGACCAATCTTTGCATGAGATGCGGGAACTAGCGCAAGGAGCTTTAAAGGAAATGAGAACATTAATTTGGCAGCTTCGTCCGGCAGGATTAGAAAAAGGTTTATTACCAGCTTTAAAGCAGTACGGTGAAAACTTGGGACTGAAAATTCGGGAACAAGTTACAGGTGTTCGTGATTTACCGCGTGTAGTAGAGGAAGCGTTATGGAGAATTGGACAAGAAGCTTTGAATAACGTAAGTAAACATGCGAATGTCAGAGAATCAACGATTTATTTCAAAGTGACAGAGAAGAATGTATCATTAGAAATAGTCGATCAAGGAAACGGCTTTGTAGAAAAGGATATAAAAGAGAAGAAATCACTCGGCATGACTACGATGCGTGAAAGAGTAGAATTAGTTGGTGGAACAATTAAAATTGTAAGTAGTAAGAAGCGAACGAGCGTAAAAGTAAATGTACCATTATGA	MFRDNRTNELVILKEIAETLNTSNDTYHVLQAVLEKLLSVTGLTTGWIFLADENGKYTKVIDYQLPEALKYENKRPMCEGECWCLRGFVDGKLERAVNIIECKRINNAIEYNWGDTEGILHHATVPLKAGGEKFGVLNVASPGKTHFSEEELVLLQSVAFQIGTALKRTKLYENEKRRAHYYVKLERFIQALKTIHKFNVLSEKVVNHVGEVFQWNQVAFFIREEIELSLRASYGQEELQEDVKEAAKKALEQGELALLKRVNGVVIATPIHIQNHIFGVLCVSLNNGEFDVNTIDIIQALSNHVSLIIENLRLNEQRRELVRLEERNRLARDLHDSVSQKLFSLTFMTKGAEAVLKGQNEKVDQSLHEMRELAQGALKEMRTLIWQLRPAGLEKGLLPALKQYGENLGLKIREQVTGVRDLPRVVEEALWRIGQEALNNVSKHANVRESTIYFKVTEKNVSLEIVDQGNGFVEKDIKEKKSLGMTTMRERVELVGGTIKIVSSKKRTSVKVNVPL				NA	NA	NA	NA	NA
AK009_05257	825	pdxK	COG0351	Pyridoxine kinase	ATGACATTAAATAAAGCACTTACTATCGCTGGTTCTGACACAAGTGGCGGTGCTGGTATACAAGCAGATTTAAAAACATTCCAAGAACTTGGCGTATACGGAATGACATCTCTTACAACAATCGTAACGATGGATCCACATAACGGTTGGGCACATAACGTATTTCCAATCCCAGCTTCTACATTAAAACCACAATTAGAAACAACAATTGAAGGTGTTGGCGTAGACGCTTTAAAAACAGGTATGCTTGGATCAGTAGAAATTATTGAAATGGTTGCAGAAACAATCGAAAAGCACAATTTCAAAAATGTAGTAGTTGACCCTGTTATGGTATGTAAAGGTGCAGATGAAGCATTACATCCTGAAACGAACGATTGCTTACGTGACGTTCTTGTGCCAAAGGCATTAGTTGTAACACCAAACTTATTTGAAGCTTACCAATTAAGCGGTGTGAAAATTAATTCTCTTGAGGACATGAAAGAAGCAGCGAAGAAAATCCACGCTTTAGGTGCCAAATACGTACTAATTAAAGGTGGAAGCAAACTTGGTACGGAAACTGCAATCGACGTCCTATATGATGGAGAAACATTCGATCTTCTAGAATCAGAAAAAATCGATACAACCAATACACACGGTGCAGGTTGTACATATTCTGCTGCAATTACAGCAGAACTTGCAAAAGGAAAACCTGTGAAAGAAGCAGTAAAAACTGCTAAAGAATTCATCACAGCTGCTATTCGTTACTCATTCAAAATTAACGAATACGTAGGTCCAACTCACCATGGTGCATATCGTAAATTCGTTGTATCAAAAGAACTTGTCTAA	MTLNKALTIAGSDTSGGAGIQADLKTFQELGVYGMTSLTTIVTMDPHNGWAHNVFPIPASTLKPQLETTIEGVGVDALKTGMLGSVEIIEMVAETIEKHNFKNVVVDPVMVCKGADEALHPETNDCLRDVLVPKALVVTPNLFEAYQLSGVKINSLEDMKEAAKKIHALGAKYVLIKGGSKLGTETAIDVLYDGETFDLLESEKIDTTNTHGAGCTYSAAITAELAKGKPVKEAVKTAKEFITAAIRYSFKINEYVGPTHHGAYRKFVVSKELV	PGPT0009125_2461	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
AK009_05258	1059			hypothetical protein	ATGTTAAGGGACTTATTTGTAAATACAACAATTATTCTTTCCTTTATTTTTGTTGGAGGTCAGCTTTTAAGAGATAGGCCGTTAAAAGAAGAGTTTTCTCTTTGGCAGAAATGTGTAGTAGGTATTCTTACTGGAATATTAGGTATATTACTAATGTATTTCGGTGTTCATGTTGGTACCATCCTATTGGATTTGCGCTACTTAGCTGTTATTTTAGCTGTTATAATTGGAGGCCCGATAGCGAGTACTATAGCTGTTAGTATGATTTTAGTAACTAGGTTATTATTTATGGATTATTCATTAGCTTCTCAAGTAGCTTTTTATACAATTATTGCGATAGGAGTAGGTAGTATCTTTATTTCGCGTCTAAATATCTCTCTAGGAGAAAAGTGGGCATGGTTACATACATATATTTTATCTATTCTAATCCCCTCACTATATATATGGTTAATTAAAGATATTAACATAGTAGGATTATATTTAATTTCTAGTATTATTACAGGCTACATAACATTCATAAGTGCAAATTACGTTTTACAATCCAATGAGTTATTCCAAACGATGAAGCAATACGCAACGGTAGACGCATTGACAGGTCTAGGAAACGTAAGACAGTTTGATTTAGAGATGAATCGTCATATTAGTAATAAGAACATGAAAAATGATTCGCTTTGTTTACTACTTATAGATATTGACCACTTTAAGTATGTAAATGATACGTACGGGCATCCTGCAGGGGACGAAGTGTTAAAACAAGTAGGATGTATTTTACGAGAAACTTCACAATTTCCAGATTTGGCTTTTCGAAAGGGTGGAGAGGAGTTTGCGCTTTTGATACCGAATAAGGGATTAGCTTACGGAATTCGTATGGGCGAGCAAATTCGTATAGCTGTTGAAAGTCACCCATTTCAATTGTTAGATGGAACAAAAATAAAAATTACGGTTTCGGTAGGGGTTTCAGAGTATGAAGGGTCATCAGAGCAATTTATTCAAGCGGCGGATGATGCGTTATACTACTCGAAACGAAATGGTAGAAATAAGGTCAGCTCTGCATCTTAA	MLRDLFVNTTIILSFIFVGGQLLRDRPLKEEFSLWQKCVVGILTGILGILLMYFGVHVGTILLDLRYLAVILAVIIGGPIASTIAVSMILVTRLLFMDYSLASQVAFYTIIAIGVGSIFISRLNISLGEKWAWLHTYILSILIPSLYIWLIKDINIVGLYLISSIITGYITFISANYVLQSNELFQTMKQYATVDALTGLGNVRQFDLEMNRHISNKNMKNDSLCLLLIDIDHFKYVNDTYGHPAGDEVLKQVGCILRETSQFPDLAFRKGGEEFALLIPNKGLAYGIRMGEQIRIAVESHPFQLLDGTKIKITVSVGVSEYEGSSEQFIQAADDALYYSKRNGRNKVSSAS				NA	NA	NA	NA	NA
AK009_05259	204			hypothetical protein	ATGCTTAAACGACTACGGAAAGTATGGGGGGAAAGAAAACGCTTTATTAGTTTGCTCGTTGGGGTACCAAGTTATGAAGTATATGTGGAGCATATGAAAAAGCATCATCCTGAAGAAGAGGTTGTATGTCAAAAGCAATTTTTTGCTGAGGCACAAGAAGCAAGATTTAATGCAAAGGGTGGAAAAATATCACGCTGTTGTTAA	MLKRLRKVWGERKRFISLLVGVPSYEVYVEHMKKHHPEEEVVCQKQFFAEAQEARFNAKGGKISRCC				NA	NA	NA	NA	NA
AK009_05260	2079	cstA	COG1966	Peptide transporter CstA	GTGAAGACATTGAAATCGATCTTACTTTGGGGCGTTATTACAGCAGTAGGAGCAGGGGCTTTTGGGGTAATAGCTTTATCACAAGGTGAAACCATTAATGCTGTATGGCTCTTAGTAGCTGCTGTATGTGTATATGCAGTTGCTTATCGCTTTTATAGTAGATTTATAGCGAGAAAGGTTTTTAATTTAGATGATAATCGTCAAACACCAGCCCATACATTAAACGATGGGAAAGACTATGTTCCAACAAATAAGTGGGTATTGTTTGGACATCACTTTGCAGCGATTGCTGGGGCGGGACCTTTAGTAGGACCGATTTTAGCAGCACAAATGGGATATTTACCAGGGACCATTTGGATTATTGTTGGGGTAGTTGTTGCGGGGGCTGTCCAAGATTTTGTCATTTTATTTGCTTCGATGAGACGTAATGGTAAATCGTTAGGAGAAATGATTAAGGATGAGATTGGGCCTGTTACAGGACTAATTGCAATGATAGGTATTTTAGGAATTATGATTATTTTATTAGCAGTATTAGCGTTAGTCGTAGTAAAGGCACTGATTGGAAGTCCTTGGGGAATGTTTACGATAGCAGCAACGATTCCCATCGCTATTTTAATGGGAGTTTACATGCGCTATATTAGGCCTGGTCGTGTTGGAGAAGGGTCAGTAATTGGTATTATCCTACTTATTTTATCTCTTATTGGAGGACAGTATGTAGCAGAAAATCCAACACTTGCAAGTATGTTCACATTTAGTGGCGAAACAATTGCTATTATGCTTATTGTATATGGATTTATTGCATCTGCATTACCAGTTTGGATGTTATTAGCACCACGTGATTATTTAAGTACATTTTTAAAAGTTGGAACAATTGTTGGATTGGCGATAGGTATTTTAATTGTAGCACCTGATTTACAAATGCCAGCAGTTTCGCAATTTATTGATGGAACAGGTCCTGTTTTCTCCGGTAATTTATTCCCGTTCTTATTTATTACGATTGCCTGTGGTGCAGTCTCTGGATTCCATGCTCTTGTTTCATCAGGTACGACGCCAAAAATGATTGAACAAGAGGGACATGCACAGCCAATTGGTTACGGAGCAATGTTAATGGAGTCGTTTGTAGCTGCGATGGCAATGATTGCAGCTTGTGTATTAACACCAGGAACTTATTTTGCGATTAATAGTCCGGCAGCACTTATTGGTACGGATGTATCGCAGGCAGCTCAAGTTATTTCTTCATGGGGATTTGCTATTACACCAAATGAACTAAAAGAACTTGCTGTAAATGTTGGAGAGCAAACAATTTTATCACGTACAGGTGGCGCACCAACGTTAGCGATAGGTATGGCATATATTTTCTCACAAGTAATAGGTGGAACGGCGATGATGGCATTCTGGTATCATTTTGCTATTCTCTTTGAAGCCCTATTTATTTTAACAACGATTGACGCAGGAACGCGTGTAGGACGATTTATGATTCAAGATATTTTAGGGCATGTATATAAGCCGTTTGCGAAAACAGATTCTACATTAGCAAATGTAATAGCTACAACGTTATGTGTATTAGGATGGGGTTATTTTTTGTACCAAGGGGTAGTAGATCCACTTGGTGGAATTAATACATTATGGCCACTTTTCGGTATTGCAAATCAAATGTTAGCAGGTATTGCATTATTACTTGGAACGACAATTTTGTTCAAAATGGGGAAAAAGGCATATGTTTGGGTGACACTTATTCCAACTGTTGGATTGCTTATTGTAACGATGACGGCGGGTTATCAAAAGCTATTTCATGAAAACCCTAAAATAGGATTTCTATCTCATGCAAAGGTGTTCCAGGGAGCATTAGATGAGGGGAAAGTGTTAGCACCAGCTAAAAATGTTGCTCAAATGAAGCAAATTATTTTCAATGATTATATTGATGCAGCGCTTTGCGGGATTTTTATGATAGTTGTAATCGCTGTATTAATTTCTGCAATTCGAATTTGGATTCAAGTATTAAGAAATAAGCCGATGCTGCTAAAAGAGGCAGCATATATTTCTAGAGATGAAAGTGAGTCGAGGAACTATTATGCTTAA	MKTLKSILLWGVITAVGAGAFGVIALSQGETINAVWLLVAAVCVYAVAYRFYSRFIARKVFNLDDNRQTPAHTLNDGKDYVPTNKWVLFGHHFAAIAGAGPLVGPILAAQMGYLPGTIWIIVGVVVAGAVQDFVILFASMRRNGKSLGEMIKDEIGPVTGLIAMIGILGIMIILLAVLALVVVKALIGSPWGMFTIAATIPIAILMGVYMRYIRPGRVGEGSVIGIILLILSLIGGQYVAENPTLASMFTFSGETIAIMLIVYGFIASALPVWMLLAPRDYLSTFLKVGTIVGLAIGILIVAPDLQMPAVSQFIDGTGPVFSGNLFPFLFITIACGAVSGFHALVSSGTTPKMIEQEGHAQPIGYGAMLMESFVAAMAMIAACVLTPGTYFAINSPAALIGTDVSQAAQVISSWGFAITPNELKELAVNVGEQTILSRTGGAPTLAIGMAYIFSQVIGGTAMMAFWYHFAILFEALFILTTIDAGTRVGRFMIQDILGHVYKPFAKTDSTLANVIATTLCVLGWGYFLYQGVVDPLGGINTLWPLFGIANQMLAGIALLLGTTILFKMGKKAYVWVTLIPTVGLLIVTMTAGYQKLFHENPKIGFLSHAKVFQGALDEGKVLAPAKNVAQMKQIIFNDYIDAALCGIFMIVVIAVLISAIRIWIQVLRNKPMLLKEAAYISRDESESRNYYA	PGPT0015060_729	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
AK009_05261	717	lytR_1	COG3279	Sensory transduction protein LytR	ATGAAAATTTTACTGATCATGGAAGAGGCAGAAGAGAGAAGAGAGTTAGCTGAAAATTTCACTGAAAATATGAGAAATGTAGAATGTTTTGAAGCAAAGACAGGAACAGAATCTTTATTTATGATGAAAAAACATATACCAGACTTTGTTTTTTTAAGTTCCAAATTACTAGATGGTACTGGTTTTGAATATGCAAGTTTATTACGAGAAATAAATTGCTATACAAAATTTATTTTTGTAGGTGAAAACATAGAGGAATCTATTACAGCTTTTCGTTTCCAAGCATTTTATTATTTATTACGACCATTTCGTGAAGAAGATTTACAATTTCTTTTATATAAAATAGGTAAAGAACAAGGTGAGAAAGCAAAGAGTTATTTGCGGAAACTACCGATAGAAAGTCAAGAGGGTATACGATATATTCTTCCAGAAGATATCGTATATGTAAGTAAAAATAAAGAAAATAAAACTGTTTCAATTTACACAACGAATAATCAGTATATTTCAACATATACACTTCAGGAATTAGAAAATAAGCTAAATGCATATGATTTTTTACGTGTGCATAAAAGCTATTTAATTAATATGTCATATGTAAAAGAACTGAAACCTTATTATAATGGCACGTATAATTTGTATTTAGATAGGTATGATGAGCAACCGATTCCAGTCAGTCGTAATTATGTAAAACGCCTTCGAAATAAAATTGAATTATAG	MKILLIMEEAEERRELAENFTENMRNVECFEAKTGTESLFMMKKHIPDFVFLSSKLLDGTGFEYASLLREINCYTKFIFVGENIEESITAFRFQAFYYLLRPFREEDLQFLLYKIGKEQGEKAKSYLRKLPIESQEGIRYILPEDIVYVSKNKENKTVSIYTTNNQYISTYTLQELENKLNAYDFLRVHKSYLINMSYVKELKPYYNGTYNLYLDRYDEQPIPVSRNYVKRLRNKIEL				NA	NA	NA	NA	NA
AK009_05262	1200	naiP_1		Putative niacin/nicotinamide transporter NaiP	GTGGGCAAGGTAAAAGAAATTTCGAAGCGCAAACTACTTGGTATAGCTGGACTTGGATGGCTATTTGATGCAATGGATGTTGGAATGCTTTCATTTGTAATGGTAGCCTTGCAAAAGGATTGGGGATTAACGAGCCAGGAAATGGGCTGGATAGGCAGTATTAACTCAATCGGTATGGCAGTAGGAGCGCTTATTTTTGGGATACTATCAGATAGAATAGGCCGAAAATCAGTCTTTATTATTACATTATTATTATTTTCTATCGGTAGTGGTTTAACTGCATTAACAACGACACTCGCGATGTTTCTCGTTTTACGCTTTTTAATTGGTATGGGGCTTGGCGGAGAGCTTCCGGTTGCCTCTACACTAGTATCAGAGAGTGTTGAAGCGCATGAGCGTGGGAAAATTGTTGTGTTATTAGAAAGTTTTTGGGCAGGTGGATGGCTAATTGCAGCCCTTATCTCGTATTTTGTTATTCCTAAATATGGTTGGGAAATTGCGATGGTATTGAGTGCAGTTCCAGCACTATATGCTTTATATTTAAGATGGAATTTACCGGATTCCCCAAGGTTCCAAAAAGTTGAAAAAAGACCATCTGTTATTGAAAATATAAAATCAGTTTGGTCTGGGGAATATCGTAAAGCAACAATTATGCTATGGATTCTATGGTTTTGTGTTGTCTTTTCTTATTATGGAATGTTCCTTTGGTTACCGAGTGTAATGGTGCTAAAAGGATTTAGTTTAATAAAAAGTTTCCAATACGTACTTATTATGACATTAGCTCAACTTCCAGGATATTTCACCGCTGCTTGGTTTATTGAACGTCTCGGTCGTAAATTTGTGTTGGTTACGTATTTAATCGGGACAGCTTGCAGTGCCTATTTGTTTGGGGTTGCGGATTCATTAACAGTATTAATCGTGGCAGGTATGTTACTATCCTTCTTTAACTTAGGTGCTTGGGGAGCATTATACGCCTATACACCTGAACAGTATCCGACGGTTATTCGTGGTACTGGTGCAGGAATGGCAGCAGCATTTGGGCGTATTGGTGGTATTCTTGGGCCACTATTAGTGGGGTATTTAGTTGCCTCAGAAGCTTCACTATCACTAATATTTACGATTTTCTGCGGATCAATTTTAATTGGTGTATTCGCTGTAGTAATACTTGGACAGGAAACGAAGCAACGAGAATTAGTATAA	MGKVKEISKRKLLGIAGLGWLFDAMDVGMLSFVMVALQKDWGLTSQEMGWIGSINSIGMAVGALIFGILSDRIGRKSVFIITLLLFSIGSGLTALTTTLAMFLVLRFLIGMGLGGELPVASTLVSESVEAHERGKIVVLLESFWAGGWLIAALISYFVIPKYGWEIAMVLSAVPALYALYLRWNLPDSPRFQKVEKRPSVIENIKSVWSGEYRKATIMLWILWFCVVFSYYGMFLWLPSVMVLKGFSLIKSFQYVLIMTLAQLPGYFTAAWFIERLGRKFVLVTYLIGTACSAYLFGVADSLTVLIVAGMLLSFFNLGAWGALYAYTPEQYPTVIRGTGAGMAAAFGRIGGILGPLLVGYLVASEASLSLIFTIFCGSILIGVFAVVILGQETKQRELV	PGPT0014435_2178	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
AK009_05263	741	tagA	COG1922	N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGGCAGTACAAACAGTTGATATTCTAGGCGTTCCTTTTTCTACAATGACAATGGATGAAACGGTCAAATATTTAAAAGAACAACTAGAAGCGGAGCGAACTCATACGTTTCAGGTAGTAACAGCAAACCCTGAAATTGTTATGTGCGCAAAAAAGGATGAAAAGTTCTATCAAACATTATTGAATACAGATTTAATTACACCTGATGGTATTGGGGTTGTAAAGGCAAGCGGCATGCTTGGTACACCTTTAAAAGAACGTGTAGCAGGTTTTGATTTAATGTGTAATTTACTTGCGAAGTTATCAGAAGATAGTAAACCAGTATCTGTTTTCTTATTAGGTGCAAAGCCGCATGTTGTACAAGCTGCAGCAGATCATTTAACAAAGACATATTCAGCTGTATCCATCGCCGGTACACAAGATGGTTATTTCAAACAAGAAGACGAAGAGAATATTATTTCTCGCATTCAAGAAGCAAAACCAGATTTATTACTTGTTGCACTCGGTTTCCCGAGACAAGAGAACTTTATCCAAAACAATAAGCATCGTTTAGAAACGAAAATGGCTGTTGGAGTGGGTGGAAGTTTAGACGTATGGGCTGGAGAGGTAAAACGTGCACCAAAATGGATTCAAGCGATTCATTTAGAGTGGTTTTATAGATTATGCAGTAATCCAACACGCTGGCGTCGTCAGTTAGTATTAGCGGAATTTTTAAAAGAAGTAATGCGTTCGAAAAAGTAG	MAVQTVDILGVPFSTMTMDETVKYLKEQLEAERTHTFQVVTANPEIVMCAKKDEKFYQTLLNTDLITPDGIGVVKASGMLGTPLKERVAGFDLMCNLLAKLSEDSKPVSVFLLGAKPHVVQAAADHLTKTYSAVSIAGTQDGYFKQEDEENIISRIQEAKPDLLLVALGFPRQENFIQNNKHRLETKMAVGVGGSLDVWAGEVKRAPKWIQAIHLEWFYRLCSNPTRWRRQLVLAEFLKEVMRSKK	PGPT0023455_1433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
AK009_05264	1110	bshA_2	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAGAATATTGCATATGAATGCAGGAGCAGAAGATGGGGGAGGGAAAACACATATTATTTCACTTCTCGATCAGTTTCCAACTGGTGAAGTAGAATTAGCAGTATTTGAAGATGGAATTGTTGCGAAGGAAGCAAGGGAATTAGGGATAAAAGTCCATGTGTTTTCACAAAAATCGCGCTATGATTTATCCATTTTAAAGAATATAAGTGAATTTATTAATAAAGAAAAATTTGATGTAGTTCATACGCATGGTCCTAGGGCTAATTTCTATGTTTCTTTAATGAAAAAGAGAATAAAGGCAAAATGGGTAACGACTATTCATAGTGATCCATTTCAAGACTTTACTAAACAGGGCTTCAAAGGTTGGATTTTTACGAAATTAAATTTGAAAGCTTTAAAAAATATAGACTTATTTTTCGTTGTAACAAATAGATTGAAAAAAAGCCTGGCAGCATTAGGGATTTCAAATGAAAAGATGCATGTTATTTATAATGGAATTGAATACGATAAGGAAAAAGCAGAAGGCTATAATAAAAAAGAAATGTTCAATATTGCTGAAGATGTATTTACGGCAATCCAAGTAGCGCGATTACATCCTGTCAAAGGACATGAAGTTTTATTCGATGCGTTACAACAAACAAAATTGGAGAAAATTAAAGTATTATTAGTTGGCGATGGCCCATTAGAAGAAAATCTAAAGTCATTAGCTACTGAAAAAGGGATTAACGATAAAGTAGAGTTTTTAGGACATCGTCAAGATGTAAAACAATTATTTGCGTCGTCACATGTAAATTTATTAACTTCTCATAGTGAAGGGTTCCCACTAGTTTTATTAGAAGCGGCAAATCAACGCGTACCATCAATTGTGACTAGGGCTGGAGAAATTGAACCATTAATCGTAGATGAAACTTACGGATGGATTGTGCCAACAGATGATGGAAAGGCATTAGCATTAGCTTTAGAAGAAGCGTATGATAAGTGGAAAACTGGAGAATTAGCAGCAATGGGTAAACATATTTTTGAGCATGCTACTATGAATTTCTCACTTCAAAAACTATATGAAGATACAAAGGAAACATATAAGCAATTAATAGCGAAAAACTTGTAA	MRILHMNAGAEDGGGKTHIISLLDQFPTGEVELAVFEDGIVAKEARELGIKVHVFSQKSRYDLSILKNISEFINKEKFDVVHTHGPRANFYVSLMKKRIKAKWVTTIHSDPFQDFTKQGFKGWIFTKLNLKALKNIDLFFVVTNRLKKSLAALGISNEKMHVIYNGIEYDKEKAEGYNKKEMFNIAEDVFTAIQVARLHPVKGHEVLFDALQQTKLEKIKVLLVGDGPLEENLKSLATEKGINDKVEFLGHRQDVKQLFASSHVNLLTSHSEGFPLVLLEAANQRVPSIVTRAGEIEPLIVDETYGWIVPTDDGKALALALEEAYDKWKTGELAAMGKHIFEHATMNFSLQKLYEDTKETYKQLIAKNL	PGPT0019565_1421	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
AK009_05265	1473			hypothetical protein	ATGTTAGCAAATCAAGCTAGGGTTAGATTTGAGCATTTTTTGCTCTTTTTTATTATTTTACAGCCTGTTTTAGATTTATTAACGTCTCTTAGCATCACTTTATTAAAGTCAAATGCTACCGTTGGAATTTTAGTAAGATTCCTTATTATGGCTGTTGGTGGTATTTACATTTTAATTCAGGCAAAAGAGAAGGAAAATAGAAAGTTTTTAATTTATCTTATATTATTAGCCGGAGTTTTAGGGGTAGGATTTATTAATAATAAACTAGTTAAGGATCCTATTGTACTTAGTGAAGAAGTTAAATTCGTTGCGAAAGCATTATATATATATATTATGCTGGGGTCATACATTTTAGCTTTAAAATCATTGAAAAAGACAGTTAATATTAGTGATAAGGTTCGAAATAGTATTGTATATTCTACATTAATCATTAATGCAATTATGGTTATTTCTATTTCAACATCTACTGACTTTGGTAGTTATGAATGGATGAAGGTTGGTTCTCGAGGTTGGTTCTATGCAGGGAATGAACTAGGTTCAATCTTAGCTATTATTTTCCCTATTGTGGTACTATATTCTATTCAAAAAACAAAGAGCTGGAAACACATTTTATATTGGATTCCATCAATTTTAATGATTTATTCGCTAATTCAGGTTGGTACGAAAGTAGGAATGGGCTCAATTGGTGCTACGTTAGCGGCAGCAATCGGGATTATTTTACTTCAATTATTATTTGATAGAAAAAATCCGAACAAAAAATCCCTTGCGCTTAATGCAGTAATTGCTATTATCCTATTGGCCGGTGTAGTTGGAACGTTTAAACAAACGCCATTAGCACAAAATATGGGTATTCACAATAATTATTTATCAGAGCAAAATGTGGCACAGCAAGGTCAAAAAGAAAAAGAAATTAAAGAGAAGCTGAAAAAAGAGCAAGAACTTAAAGAAAAAGAAGAAAAGCACCATAAGGCTGAAAAACCAGAAGAAAAGGCGAAGATAGAAGAGGAAGTTAAGAAAGAGCTTGAGAAAGAGCAAAAGAAAGAAAATCAAGAAAACCTTATTTTCAGTGGACGTCAAGTATATGAAGAAAGACATAAGCAGTTCTTTAAAGAAGCGCCAATGTCACAAAAGTTATTAGGAATGGGTTATGCAGGTAACTTTAAATACAATGAACAAAAGCAGCCAGATCCAAAATTAATTGAAATGGACTTCCATGATTGGTTTTATGATTTCGGGATTATTGGCTTTGTATTACTAATGATTCCATTTATTTATTACGGGCTAAGAATTCTACTAGCATTTGCTACGAGATTTAAGGACATATTTAATATAAAATATGGAATGATTTCAGCAAGCTTATTGTTAGCGTTAGGTATTGCTTATATTGCAGGACATATTTTAACAGCACCAGGAGTTGGGATTTACTTTGTAGTGGTGCTAGCTTATCTAATAGTAGACCTAGAAATTGAATGA	MLANQARVRFEHFLLFFIILQPVLDLLTSLSITLLKSNATVGILVRFLIMAVGGIYILIQAKEKENRKFLIYLILLAGVLGVGFINNKLVKDPIVLSEEVKFVAKALYIYIMLGSYILALKSLKKTVNISDKVRNSIVYSTLIINAIMVISISTSTDFGSYEWMKVGSRGWFYAGNELGSILAIIFPIVVLYSIQKTKSWKHILYWIPSILMIYSLIQVGTKVGMGSIGATLAAAIGIILLQLLFDRKNPNKKSLALNAVIAIILLAGVVGTFKQTPLAQNMGIHNNYLSEQNVAQQGQKEKEIKEKLKKEQELKEKEEKHHKAEKPEEKAKIEEEVKKELEKEQKKENQENLIFSGRQVYEERHKQFFKEAPMSQKLLGMGYAGNFKYNEQKQPDPKLIEMDFHDWFYDFGIIGFVLLMIPFIYYGLRILLAFATRFKDIFNIKYGMISASLLLALGIAYIAGHILTAPGVGIYFVVVLAYLIVDLEIE				NA	NA	NA	NA	NA
AK009_05266	633			hypothetical protein	ATGTTATTAATCGATATATTTACGTTTCTTGGCATTATCGCCGCTGCCATTTCTGGTACATTAGTTGGTTTAAAAAAAGATTTAGATTTATTTGGTGTCCTTTGTTTAGCTGTAGCTACTGCGCTCGGCGGCGGTATTATTCGTGATATCATGATTGGTAACCTGCCCCCTGTCGCATTTGTAAAACCCATTTACTTTTTCGTAAGTGTATTATCAGCATTATTTACTTGTATGTTTTTTGAGCGCATCAATAAACTTCAAATCGTTATTATGCTTTCTGATGCTGTTGGCTTAGGCGTTTTTACAGCTATTGGTGCAAATGCGGCAATGTCACATCATGTTGACGCCTCATTTTTAGTTGTTTCAATGGGAGTCATTACAGGTATTGGAGGCGGTATTTTGCGTGACATTTGTGCTCAAGATATCCCTTACGTATTCCGAAAAGAGATTTACGCAATCGCTTCTATCTTAGGAGCAATTAGCTTCCTAATCACACACGCTATGGGCGCGCACGTATTAGCTTTCTATGTTTGTTTATTAGTAACATTCGTTATTCGTGTCGTCACTGTAATATATAATGTGCATTTCCCTGTTTTCTTTAAAACACATGCTAAAATTAATAAAGGCCATTAA	MLLIDIFTFLGIIAAAISGTLVGLKKDLDLFGVLCLAVATALGGGIIRDIMIGNLPPVAFVKPIYFFVSVLSALFTCMFFERINKLQIVIMLSDAVGLGVFTAIGANAAMSHHVDASFLVVSMGVITGIGGGILRDICAQDIPYVFRKEIYAIASILGAISFLITHAMGAHVLAFYVCLLVTFVIRVVTVIYNVHFPVFFKTHAKINKGH				NA	NA	NA	NA	NA
AK009_05267	1302	hemAT	COG0840	Heme-based aerotactic transducer HemAT	ATGCTTGGGGTTTTCAAAAAAAATATTAATAAAACAAACGCTAGTATAATCGAATTAAGTAAGGACCAACAAATAACTTTTAATGTACCTACTAATTCTGAACTGAAAATTCAAATGGATATGCTACACATTTCAAAAGAAGATTTACAAGTTGTAAAAGTACTACAGCCTTTTATTTATGCAGAAATTGATTGGATTACTGAAAAATTCTATGCCAACATTACAAAACAACCTAATTTAATTACTATTATTGAACGTTACAGCTCTATTCCAAAACTAAAGCAAACTTTAAAAACACATATTAAAGAATTATTCAGCGGCAATATGCATGAAGATTTTATTGAACAGCGTGTTAGGATTGCCAAACGACATGTACAAATTGGCTTACATCGAAAATGGTATACTGCTGCTTATCAAGAATTATTCCGCTCTATTATGAAGATTTTGCAAACAAAAATAACAACAATCGATGATTTTTCCTATTCTATAAATGTCATAAATAAATTATTCACTCTTGAACAAGAACTTGTTCTTGCAGCTTATGAATCTGAATATGAAAGAATGCAAAAAGAGCATGAGAAAGAAAAAGAACTAACTGCTATGACAATTACGCATATCGCAACAGAACTAGCTGCTGTATCTGAAAAGACAAGCTCTTCTATTCAAAAACTAACCGCTAAGTCTGAAACTATTGTAGAGATTGCTAAAACAGGTACATCATTAGCTACAACATCTGAAGAAAAAGCGAATAAAGGGAAAGAACAATTAAACCAGCAAAACAAACGAATGGGATCTATTCAAATGAATATGGAAACGATTATTACAGATACTCATGAACTTCTCGATATTTCTAACAAAATTAACGAAATCATAGATATCGTTAAATCGATCGCGGAGCAAACAAATTTACTCGCACTAAATGCTGCTATCGAGTCTGCACGTGCTGGAGAATTTGGGAAGGGGTTTTCTGTTGTTGCTGGTGAAATCCGAAAATTATCAGAGCAAACGAAAGAATCGATATTTAACGTTACAAAGCTCGTCGAAAAAACAAATGAACAAATTACCCGTGTCTCGTCTTCCGTGAAACAAATTAGCTCTCTCGTATCGGAAGGAACGGATAGTATGTCGGCAACAGATCGATACTTCCAAGAAATTGTAAAAGATATGTCTAACTCAAAAGAACAGAATAAGAAAATTGAACATGAGCTACAAACTATTTCACAAGTCATGAAAGGAATTCAAGATGATTCCTCACAAATGGCTCTAACAGCCGATAATTTGCAACTAGAACTAAATCGATAA	MLGVFKKNINKTNASIIELSKDQQITFNVPTNSELKIQMDMLHISKEDLQVVKVLQPFIYAEIDWITEKFYANITKQPNLITIIERYSSIPKLKQTLKTHIKELFSGNMHEDFIEQRVRIAKRHVQIGLHRKWYTAAYQELFRSIMKILQTKITTIDDFSYSINVINKLFTLEQELVLAAYESEYERMQKEHEKEKELTAMTITHIATELAAVSEKTSSSIQKLTAKSETIVEIAKTGTSLATTSEEKANKGKEQLNQQNKRMGSIQMNMETIITDTHELLDISNKINEIIDIVKSIAEQTNLLALNAAIESARAGEFGKGFSVVAGEIRKLSEQTKESIFNVTKLVEKTNEQITRVSSSVKQISSLVSEGTDSMSATDRYFQEIVKDMSNSKEQNKKIEHELQTISQVMKGIQDDSSQMALTADNLQLELNR	PGPT0015705_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595	NA	NA
AK009_05268	1314			hypothetical protein	ATGAATCATATACAAACAAATTTTTCATCTTTCTTCAATAAAATTACGATCGGTGCGATGCTCGCATTTTTTGTTTATAGTTGTTGGGCAGCATTTGAGACAAGTAAGCAATTTTTTGGAGGAAGTACAACAAGTGTAACAATCATACTGGCAATTTTCGTCATACTCATTTTGTTAGTGGCATCAATCCTACAATATCGTTTTACAGATAAACAATTTCTTATTTTTCTTATAAGTATATCTATAGTTGTGAGACTTAGTATGCTGTTATTTGTAGATGCTCCAATAATTGGTGATATGAAAGTGATGTATGAGTCTGCAAAGCAGATTGCAATTGGTAATAATATAGGGACTGTAACTCATTTGCCTTTTATTATATATGAGTCAGTAATTATTCGTATATTTGGTGATACATTATTCGCTTTACAACTATTTAATGTGTTATTTTGCGCAGGAACCGCATTTTTTATTTATCGTATTGCGGCAATGGTTTTTGGAGAAGAATGCGGGCGTATTGCTTCTATATTTTATGCTCTGTATATTCCAAATATATTCATGAGTTCCGTATTAACTCCTGAGTCACTTGCAATATTTTTATTTTATTTTGCTTGTTACATACTTTTATATAAAGGATTAGATCATCCTTATATGTGGGTGTTTTCAGCGATTTTATTTGCATTTAGTAATATGATTTTCCCAATGGGATTATTTCTTCCTATTTTTATCACGGTATATATATTATTAATTGAAGTGTTTCAATCAGCAACGAAACAAAAAGTGTTACTAAAGATGATAGGGATACTTATTCTATTTTATATTGCTCATTTTAGTGTGAATTATGGAATTAAGACAATGGGACTGTCACAATATACGATTGCGAATGAGACGTATGTTCAATCTGTCTTAATTGGAAAAACGCAACATGAGGAAAAAATATCGAAAAATCAAAGTGTAACAGAGCATATTGATCAAAAGTTAAAAGAGATTGAGGGAGAAAGATTTAAACTTTTAGAACCGATGATAAATCAGTTTTCAGAGGAGGGGATAAATTCTATTCTTTTCAAATGTGAAAAACTGATATATATAGCCGTAACATTGTTTATGAATATAGCTCTATTACACTTCCTAATTAAGAAACAACAAAATGAGGGATATATGTTGTTCTTATTTTTAATTAGTGGCTACGTATTGTTAAAGCTCTTCCAAGTAGATATGGCATATTACAATGTAATTATGCCGGCATTGTTTATTTTGCAGAGCTTTGGTGTTTATATGAGTTATGTGTATTGTCAAAAAATATTTTTCAGAAAGTAA	MNHIQTNFSSFFNKITIGAMLAFFVYSCWAAFETSKQFFGGSTTSVTIILAIFVILILLVASILQYRFTDKQFLIFLISISIVVRLSMLLFVDAPIIGDMKVMYESAKQIAIGNNIGTVTHLPFIIYESVIIRIFGDTLFALQLFNVLFCAGTAFFIYRIAAMVFGEECGRIASIFYALYIPNIFMSSVLTPESLAIFLFYFACYILLYKGLDHPYMWVFSAILFAFSNMIFPMGLFLPIFITVYILLIEVFQSATKQKVLLKMIGILILFYIAHFSVNYGIKTMGLSQYTIANETYVQSVLIGKTQHEEKISKNQSVTEHIDQKLKEIEGERFKLLEPMINQFSEEGINSILFKCEKLIYIAVTLFMNIALLHFLIKKQQNEGYMLFLFLISGYVLLKLFQVDMAYYNVIMPALFILQSFGVYMSYVYCQKIFFRK				NA	NA	NA	NA	NA
AK009_05269	513			hypothetical protein	ATGGAAAAGAAATTCATGCGAGAATCTAAAGCAATTAAGACAACACGTGTTTTTCCTAACGATTTAAATAATCACCAAACACTTTTTGGAGGGAAATTATTAGCAGAAATTGATAGTATTGCTTCAATTGCGGCTGCAAGACATAGTCGTAAACATTGCGTAACAGCATCTATTGATTCAGTTGATTTTTTAACTCCAATTCACCAAGCTGATTCTGTTTGTTATGAAGCATTTGTATGTTATACAGGGAAATCTTCAATGGAAGTTTTCGTAAAAGTAATCGCAGAAAATTTACTAGCAGGCGAGCGTAGAATTGCTGCTACTTGCTTCATTACATTTGTGGCAATAAAAGATGGAAAACCTTCGTCCGTACCACAAGTACTCCCTGAAACTCAGGAAGAACATTGGTTACACACAACCGGTTTAGAACGTGCGGAAAACCGAAAAAAGGGACGTTTAAAAAGTAAAGAGATGGCTGAAGTTTTAACTTTAAGTAAGCCATGGAATATATAA	MEKKFMRESKAIKTTRVFPNDLNNHQTLFGGKLLAEIDSIASIAAARHSRKHCVTASIDSVDFLTPIHQADSVCYEAFVCYTGKSSMEVFVKVIAENLLAGERRIAATCFITFVAIKDGKPSSVPQVLPETQEEHWLHTTGLERAENRKKGRLKSKEMAEVLTLSKPWNI				NA	NA	NA	NA	NA
AK009_05270	729			Undecaprenyl-phosphate mannosyltransferase	ATGTCTATTGAGGTACCAATTTCAATACCAAAAACGTTAATTATTATTCCTGCGTATAACGAGGAAGAAGCAATTGCAGATACATTAACAAGACTATTAAAACTAAAACAGCATTTTACAGAATTAAGCATTTGCGTTATTAATGATGGATCACATGATAAAACAGCTCAAATCGTAAATGATTTTCCTGTTCACCTTGTGAACTTACCATATAACCTAGGTATTGGCTCAGCTGTACAAACTGGTTATAAATACGCTTATGAGAATGGATATGATATTGCAATTCAGTTCGATGCTGATGGGCAACATAATCCTGATGACTTGTACAAAATTATAAAACCTATTGCTGAAGACCAATGCGATATGGTGCTAGGTTCACGTTTTACAGAGAAAACAGCTTATAAAGGTAGTATTTCCAGAAGAGTTGGTATTTTTTATTTTACTGCTCTACTGAAAGTACTAACAAAACAAACCTTTATGGATCCAACTTCTGGGTATCGTGCTATCAATCGAGAAGTAATTAAGATTTTTGCACATAATTATCCAAAAGATTATCCAGAACCAGAAGTCCTTATTCATTTAAAAAAGAAAAAATTACGCATTCATGAAATATCCGTAAATATGCAAGAGCGCCAAGGGGGACAATCTTCTATTACACCTCTTAAATCTGCATATTACATGATTAAAGTAAGCCTTGCTATATTGATGCAAAAAATTGTGAAAGGTTGA	MSIEVPISIPKTLIIIPAYNEEEAIADTLTRLLKLKQHFTELSICVINDGSHDKTAQIVNDFPVHLVNLPYNLGIGSAVQTGYKYAYENGYDIAIQFDADGQHNPDDLYKIIKPIAEDQCDMVLGSRFTEKTAYKGSISRRVGIFYFTALLKVLTKQTFMDPTSGYRAINREVIKIFAHNYPKDYPEPEVLIHLKKKKLRIHEISVNMQERQGGQSSITPLKSAYYMIKVSLAILMQKIVKG				NA	NA	NA	NA	NA
AK009_05271	357			hypothetical protein	ATGCCTATAATTACCTTTTCATTTATCTTCATTCTATTATTATTTTTATTAATTATTAATTCTATTCGTCGTGGAGCTTTAGAAACTAAATATGCCATTTTATGGATTTTTGTTTGTGTTTCAATGGCAATTTTAAGTTCTACTGAAAAAATTATAAATTGGATTGGACAACTATTACACGTAGAATATCCTCCATCTGTTTTATTTTTATTTGGACTATTATTCTGTTTCATCTTAATTTTTGACTTAACAAGAAAAATTTCTAAATTACATCATCAACTTGTAACATTAACGCAAGATTATGCGTTATTAAAGCAAAAATTAAAAGTAACGCAAACTGAAACCGATAACGAATAG	MPIITFSFIFILLLFLLIINSIRRGALETKYAILWIFVCVSMAILSSTEKIINWIGQLLHVEYPPSVLFLFGLLFCFILIFDLTRKISKLHHQLVTLTQDYALLKQKLKVTQTETDNE				NA	NA	NA	NA	NA
AK009_05272	1278			hypothetical protein	ATGTTAGGGCGATTTACTCGCAAATCTAATATAGTCCTTTTAGGGATTATTATGATTGTCGGGTTTGCACTTCGTTTTGCAACTTTACAAACACATGGTGCAGATCTATCTATAGCTAGCGATGATATAGGTTATCAAAAAACGGCAAATATTTTATTGGAAACAGGGATGTTAACATACCATGAACCAGATAAACCAACGATTCATATTATGCCGGGTTTTCCAGCCTTATTAGCTGCTGTATTTTACTTTTTTGGAAATGGCAGTGAAGGTCTTTTTATAGCCAAATTAATCATTATTCTATTAGGGGTACTTAGTATTTTGCTAACTTATAAGATTGGTACTTATTTATTGAATCCTGCTGCAGGATTAATAGGTGCTTTCTTATTAGCTGTGTATCCTCCAGAGATTGTTATGGAAAATTTAACTTTAACAGAAGGGCCGTTTCTATTCCTTTCATTAGGATTAGTATATTGGAGTTTAAAATTAGCTGATACTCATAAAACGAAACATCTTCTGATTGTATTAATTTTCTATTTTTTAGCACTGTACCTCCGCGTACAAATTGCCTTATATCCAATCTTATTATTTGGGTATCTTTTAATGAAACGCTATCCATTCCGGATTATGATGAAGCAGGCGATTATAAGCATAGGAATAGGACTTATCGTACTTGGACCATGGTGGGCCCGCAATTACATTCAATTTGATAAATTTATCCCACTAACTGCAGGGGCAGGGAATCCGTTATTACTTGGAACGTATCAAGGGGAAGGTTACCCAGAAGGTAAGGATATGGGGGAACTTGAAATAGAATTACATGCAAAGTACCCTAATCTTGAAGCGCATGAATTTATGGAGTTAGAAGAAAAAATAGCCATTGATAAAATGAAAGAATGGTGGAAAACGAATAAGGGCTCTATGATAGAGAGTTATTTAGTCTTGAAACCAGAAATTCTTTGGAAAAAACCGTATTATTCTATAGAGCATAATATTGAAGTATTCAATGTTTCTGCAAAGGATATGAATGAAATATATAATTTTATTAAGACGACGTTTTTAATATGTACAGTACTTTCATTTATTTTCCTTTTAAAAAGGTGGAGAGAGACTACATTTTTATGGTCAATCCTTTTACTGCAAACAGCTTTAACATGTTTTTATGTTGCATATGAACGATATGCATTACCGTTAATACCATTCTTATTTATTATAATTGGAGTAGGGACCGTGGCAACGATTATGAAAATTAATAAATTATTAATTAGAAAAAAATAA	MLGRFTRKSNIVLLGIIMIVGFALRFATLQTHGADLSIASDDIGYQKTANILLETGMLTYHEPDKPTIHIMPGFPALLAAVFYFFGNGSEGLFIAKLIIILLGVLSILLTYKIGTYLLNPAAGLIGAFLLAVYPPEIVMENLTLTEGPFLFLSLGLVYWSLKLADTHKTKHLLIVLIFYFLALYLRVQIALYPILLFGYLLMKRYPFRIMMKQAIISIGIGLIVLGPWWARNYIQFDKFIPLTAGAGNPLLLGTYQGEGYPEGKDMGELEIELHAKYPNLEAHEFMELEEKIAIDKMKEWWKTNKGSMIESYLVLKPEILWKKPYYSIEHNIEVFNVSAKDMNEIYNFIKTTFLICTVLSFIFLLKRWRETTFLWSILLLQTALTCFYVAYERYALPLIPFLFIIIGVGTVATIMKINKLLIRKK				NA	NA	NA	NA	NA
AK009_05273	981	arnC_2		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGATGGAACAAAAGCAACTTGTTTCTGTTGTCATACCTCTGTATAACACGGAAAAATATATTGAAGAAACGATGCAGTCAATACTAGATCAAACATATAAAAACATTGAAATTGTAATTGTAGATGATGGAAGTAAAGATCAATCACCTTCTATCGTGAAAAACCTTGCCGAAAAATATCCGGGTCAAGTAAAGTACGTTCACCAAAAAAACCAAGGTGTTTCAGTAGCTCGTAATACAGGGATTGAAAATGCTAGCGGAGAATACGTCGCTTTCCTTGATAGTGACGACTTATGGCATCCAACTAAAATTGAGAAACAAATCGAGAGTATGCATAAAAACAACATGGACGCGTGCTATTGTGGTTATATGAATTTCTACGAAGAAACAGGCGAAAAGGTTGAGCATACAACAAACTTTATTAAAGGTGATATGGCAAAAGCATTCTTAACACACCAAGTTGTTGCTCAAACAAGTACTTGGATTTTCAAACGCTCTATCGCAATGAATCATAATATCCGTTTTACACCAGGATGTAGCTGGGGAGAAGACTTGGAGTTTTTATTTAAACTAATGAGTGTGACAAATGTATGCTATGTCGATGAATATTTAACATATTATAGAATCTTATCAGAAGGAAATCTTTCTTCTAAATATAAAGATTACGAATTAAAAACAACTAAAGAACTGGAAGTATTCAATCGTATGAAAGACTGGGTACATAATAAATCTCAAGACTTCATTACGAAAGACCCTCAGTCACTTATTGAGATTCTTGAGACTTATTTATTCCCTTATACGGTTATCAATAATGCTTGTATATACATTAAAGAAAACTCTCAATTAAATAATGCCCAAGTTCAATTAATCAAAAAAGATATAAAGAAATATTGCCGTAAAATCTATTCAAAAAACGGAAAGCGTAGTAAAAAACTATATGCAATGCTTTGGTTTGTACGAATTAAATTTCTGTTTTCTTAA	MMEQKQLVSVVIPLYNTEKYIEETMQSILDQTYKNIEIVIVDDGSKDQSPSIVKNLAEKYPGQVKYVHQKNQGVSVARNTGIENASGEYVAFLDSDDLWHPTKIEKQIESMHKNNMDACYCGYMNFYEETGEKVEHTTNFIKGDMAKAFLTHQVVAQTSTWIFKRSIAMNHNIRFTPGCSWGEDLEFLFKLMSVTNVCYVDEYLTYYRILSEGNLSSKYKDYELKTTKELEVFNRMKDWVHNKSQDFITKDPQSLIEILETYLFPYTVINNACIYIKENSQLNNAQVQLIKKDIKKYCRKIYSKNGKRSKKLYAMLWFVRIKFLFS				NA	NA	NA	NA	NA
AK009_05274	1422			hypothetical protein	ATGAAAACAAATAAGATTCTTAAAAATGCCTCCTACCTATTTGTAGGAAATATTACTGTTCGATTTGTACTGGCTATTGCAACCATTTTCTTTGCAAGATATGTTTCTCCAAGTGATTACGGTATGTTTACAACTGCGTTAGCAGTTTCAGCTGTTATTTGTTACTTTACAGATGCAGGCTTGACACATACGTTTATGCGTGAAGGAACGAGAAGCGATGCTAATATTAGCGTGCTAATAAGTAGTTATTTACGTATTCGTTTAATATTAGCTATCGTAATTTCTGTACTTTTCGCTATTTTTGCCCAGTTCTTCTATCCCGATGCTTACTTACGTGCGATGGTATATTGGGTTGTTCTACCAACAATGTTCGGAGCAACCTTACAAGGTGTTGGGATGGCTTACTTCCAAGTAACAGAACGCATGCAATTTACAGCTATTATTTCTGTACTACAAGGTGTAACAGCTGCTGCTGCCCTATTACTAGGGATGTCTTTCCAATGGTCACTTATGATGGTTGCTGCCATGTACGGGGTATCTAGTCTTGTAACAGGTGTTATCGCCTTTATAATGACAATACGCTATACAAAAGTCCATAAGGGTTGGGATAAAGGTATTTTAGATCAACTACTTATTTTCACAATCAATGGAATCATCATTATGCTCTTACCACAATTGGGGCCTATTATCTTAGAAAAGGTTTCAACATATAATCAAGTTGGATTCTTTGGTGCTGCATCTAAAATACCAGCTGTACTATATCAAATACCGGGAGTAATTGCAGCTGCCTTTTATCCAAGGCTTTTTGCTTTTGGTAATGAGAAAAACATCGAAGAACATAGAAAATTATCAAGTTTTGAATTAAAACTTATGTCTTTTTTAGGAATGGGAATTTCTATCCCCTTTATTGCTGATCCAAGTTTCTGGATTGTTAGTTTATTAGGAGAAAAGTACGCTCCCGCTGGTGACGCTCTTGCTATTTTAGCGTTTATGGTTATTTTACAATCAATTAACTATCCACTAGCCGACAATTTAACAACAATTGGCCAGCAATGGAAACGCGCAACAACAATGACTATTGGATTAGTTGTTGCCATCATAGGTTATATTGTACTAGGTAGTAAATATGGAATGATGGGGGCAGCTGCCGCAGCTATCCTTACCGAAATTACACTATTAATCGGATTTACCCTCTTTATTCGTAAAGGCATGCAATTATTAGTTAAAGGAATTATATTTAATTCCTTAGCCTTTATTATTAGTTACGGTATATACCGAATCGCATTAATCAACTTACCACCATTAGTTGCTTTAACGCTTACTGGTATACTATACGGTATAATCGGGGTTTTAATTGACCCTCAAATACGTGGATTCGTTTTAGGGTTTATAAAACAAAAGCTCATTCGCAAACATGCTTAA	MKTNKILKNASYLFVGNITVRFVLAIATIFFARYVSPSDYGMFTTALAVSAVICYFTDAGLTHTFMREGTRSDANISVLISSYLRIRLILAIVISVLFAIFAQFFYPDAYLRAMVYWVVLPTMFGATLQGVGMAYFQVTERMQFTAIISVLQGVTAAAALLLGMSFQWSLMMVAAMYGVSSLVTGVIAFIMTIRYTKVHKGWDKGILDQLLIFTINGIIIMLLPQLGPIILEKVSTYNQVGFFGAASKIPAVLYQIPGVIAAAFYPRLFAFGNEKNIEEHRKLSSFELKLMSFLGMGISIPFIADPSFWIVSLLGEKYAPAGDALAILAFMVILQSINYPLADNLTTIGQQWKRATTMTIGLVVAIIGYIVLGSKYGMMGAAAAAILTEITLLIGFTLFIRKGMQLLVKGIIFNSLAFIISYGIYRIALINLPPLVALTLTGILYGIIGVLIDPQIRGFVLGFIKQKLIRKHA				NA	NA	NA	NA	NA
AK009_05275	2667			hypothetical protein	ATGAGCATAAAGCCGAATAATAAGTTCTTTTCCAAGAAAACGATAATAATTATGCCAATATTATTATTGTGTGCTTTTGCTTTTCATTATTTCTTTTTAACATCTAATCAAGCCTTTTCTGGTACAGGGGATGCATTACGCCAATTTGGCTTCTTTACGTTTCTTCTGCAACATGCCTTTAAAGATGGCAACCTTTTCTGGTCTTTTGATTATGGGTTAGGTGGAGATTTATTTGGAGAGTTTAGTTATTATTACAGCACATCACCGTTTTTCTGGATTACACTGTTACTACCTAAACTAAGTCTTGAGCAAGTGTATGACGTGAAATTATACATGAGTATTTTAAAAAACTTTTTAGCTATGTTATTCATGTATGGCTCTTTACGTTACCATAATAAAACAGCATTCTCATCTTTTGTTGCTGCTATTATATATGGTGGCTGTATTACTTTCATCCGCCACTCTTTACTATGGGATTTCATGGCTGATGCCATTGTATTTTTACCATTAGTAATATGGGGACTTGATAAATATATTATTGAAAAGAAGCGCGGACTTTTCCTAATCGCTGCTACTTTAATGTTAGCATCAAACTTTTATTTTGCTTTTATCACAAGTATTTTCATATTCATTTATGCATTATTCCAATACTTTGCGACACAAAAAAATAAAACGATTGTCTCTTTTCTAACTTATTATATTAGAATCGGCTTATTGTACGGACTATCACTCGGTTTAGCCGCCGTTTGCTTCCTCCCATCAGTTAATGCCGTATTTAGCGCCGATCGACTATCAAAAAAGTTTGAGATACCACTATTATTTGAAGATAAATTTTATAAAGATTTAATGGAAAATATTTTCTTCATGTATAGTGCTGAAAATCATCAACTAGCTTTACCAGCTTTAATTTTATTCTTAATCGTATTTGGAATGTTTATACGTGATAAACTCGTTAAAAATAAAGTATTCTTTACGTTATTCATGTTCATTCTGTTTATGCTTCCATATACATATTCTGTATTTAATGGTTTTTCAGCAATGCAATCTAGATGGTTTTATTTATTTGTATTTGTCATTGCCCAAACAATTGCATACATTCTAGATTGGATGATTATTCATAAGAAAGACTACAAATTACCTTATTTAATAAGTTTATTAGTGTCTATTGGATTATTCATTTATGCATTTTATAGAAAAGCAAATATAAATGTAACTGATAAACCTTTACAAGACGTTGATAACATTTTACTCGGAACTGTCGTTCTTTCTGTTATTACAGTATGTTTATGGCGTTATATTTCTAAACCTTTCATACAATTTTTAGTTGTATTGAACATACTCGTTAGCACAATTTCTATGAATTATATGTATGCGAATAATATACTTAGTACCGTTTACGGACAGAGCCAGATTTCAACTGAAAAGTTACACGAACCAGGCTATGATAATAAAGAAGAAATTGCTGCAATTCGCTACATACAAGAAAATGATAAAGACTTTTATCGTATTCTTAATCCATATAGCGAATATAACACACCAATGCTACAAGGATATCATGGCGTAAGTACATATCAAAGCTTGGTTAATTATTATGTCCATGACTTTATGAAAAATAAATATGGCGTATTCCAAATGTACGATACACCCTCAATGTTTTATCAAGCTGATAGTCGACTGCTACTTGAAAATATGCTAGGTATAAAATATCGCGTATTAAGTGCTGATACAGATCCAAAGAATGTACCTTATGGATATAAACTATTACAGCAAGTAGGACCATATAATATTTACAAAAATAACTATACCTTACCGTTAGGGTATGTATATGATTCGGCTATAAGTGAAGAAGAGTTTTCTAAATTAAACTTCGCTCAGCGTGATCAATTATTATTACATGCTGTTGTCGTTAATAATACAAAAGAATTTTCATTAAACCATTTTAATAAACAAGACCTTAAGTCAAAGGCAGTATCTATTAAAATGGAAAAAGCAAAATTCGAAAATATGGTAAAAGAAGGAAACAAACTAATTGTTCATGGCTTTGGAAATATGATCTTACCTATCAATTATCCTAATACGCCTGGTGACCTACTGATAGAATTAAAATTGAAAAATACAGGTACATTCAATGCAACTGTTAATGGAAAAACAATCGGAAAAGGTGACGATGCTGGTGCATACTCGTATCCGTTAGAAAGATTTGTTTACAATTTAGGCACTGAGCGTCCAGAAAACCTAACTATCTCTATTGATATGGCAGGTGAGTATGAATTAGGTGACTTACAAGCAAATATCGTAAACTATGAAAGTGTACAAAAAGAAACAAAAAAATTAACTGAAAATAGACTTGAAAATATTTATTATAAGAACAATTATTTAAAAGGGGATATCAACTCAAATAAAGACGGGCTCCTATATTTATCTGTTCCATATAGTAAAGGTTGGACTATAAAAGTTGATGGAAAAGAAAAGGAATTTACGAAAGCGAATTCTGCCTTTATCGGTGTTCCCATTACAAAAGGCTCACATGTAATCGAAATGACTTACGTTACACCTTACTTCAAATTAGGTATGATTATATCAATTATCTCACTAATTATTTGTGTAGCTTTACTAATTTTCACAAATCCAAAAGCACGACGAAAATTTTCTTTTAAAAAGCAATAA	MSIKPNNKFFSKKTIIIMPILLLCAFAFHYFFLTSNQAFSGTGDALRQFGFFTFLLQHAFKDGNLFWSFDYGLGGDLFGEFSYYYSTSPFFWITLLLPKLSLEQVYDVKLYMSILKNFLAMLFMYGSLRYHNKTAFSSFVAAIIYGGCITFIRHSLLWDFMADAIVFLPLVIWGLDKYIIEKKRGLFLIAATLMLASNFYFAFITSIFIFIYALFQYFATQKNKTIVSFLTYYIRIGLLYGLSLGLAAVCFLPSVNAVFSADRLSKKFEIPLLFEDKFYKDLMENIFFMYSAENHQLALPALILFLIVFGMFIRDKLVKNKVFFTLFMFILFMLPYTYSVFNGFSAMQSRWFYLFVFVIAQTIAYILDWMIIHKKDYKLPYLISLLVSIGLFIYAFYRKANINVTDKPLQDVDNILLGTVVLSVITVCLWRYISKPFIQFLVVLNILVSTISMNYMYANNILSTVYGQSQISTEKLHEPGYDNKEEIAAIRYIQENDKDFYRILNPYSEYNTPMLQGYHGVSTYQSLVNYYVHDFMKNKYGVFQMYDTPSMFYQADSRLLLENMLGIKYRVLSADTDPKNVPYGYKLLQQVGPYNIYKNNYTLPLGYVYDSAISEEEFSKLNFAQRDQLLLHAVVVNNTKEFSLNHFNKQDLKSKAVSIKMEKAKFENMVKEGNKLIVHGFGNMILPINYPNTPGDLLIELKLKNTGTFNATVNGKTIGKGDDAGAYSYPLERFVYNLGTERPENLTISIDMAGEYELGDLQANIVNYESVQKETKKLTENRLENIYYKNNYLKGDINSNKDGLLYLSVPYSKGWTIKVDGKEKEFTKANSAFIGVPITKGSHVIEMTYVTPYFKLGMIISIISLIICVALLIFTNPKARRKFSFKKQ	PGPT0015226_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015226-yfhO-NA	NA	NA
AK009_05276	939	csbB	COG0463	Putative glycosyltransferase CsbB	ATGACTCTTTCAATCGTTGTACCATGCTACAATGAAGAAAAGGTGCTTCGAGCCTTTTATTCAGAGACTTCTCTTGAAATTCATAAATTAACTACCGATTATGAATTTGTTTTTGTTAATGATGGTAGTAAAGATGATACATTAAATATTTTACGTGATTTAGCTAGTTCAGATTCATCGGTACACTATATATCGTTTAGTCGAAACTTCGGAAAAGAAGCTGCAATGTTAGCTGGCTTAAAATACGCTACAGGCAATGCCATTGTTATTATGGATGCTGACTTACAACACCCTCCTACGTTAATAAAAGAACTGTTAGAAGGATATAACGATGGCTACGACCAAGTCATTGCAAAAAGGACAAGAACTGGTGATTCACCCGTTCGCTCTTTCGTCTCTCGTCTTTACTATAAGGTGATGAATAAATTTGTAGATATTGAATTAGTAGATGGTATTGGTGACTTTAGACTTTTAAGTCGAAGAGCAGTGGATTCATTAGTATCCTTAAGTGAGTACAACCGATTTTCAAAGGGCTTATTCTCTTGGATTGGTTATAACGAATTAATTATTGAATATGAAAATGTATTACGTTCTGATGGAGAAAGTAAATGGACCTTCTCGAAATTATTAAATTACGGAATTGATGGTGTAATTTCATTCAATAATAAACCGTTACGCCTATCTATATATCTTGGATTACTAACAACCATTTTTGGACTTTTATATGTAATCACTACGTTCGTTCAAATTATCCTTGGTGGTGTGGAAGTTCCTGGTTACTTTACTCTCATTTCCGCTATACTATTTATTGGCGGTATTCAACTCATATTCCTAGGTGTTATTGGTGAATATATCGGTCGTATTTATTATGAAACAAAACGTAGACCGCATTTTATTGTAGCTGAAAAGAAAGTTAGTGAAGTTAAACAAAAGGCATAA	MTLSIVVPCYNEEKVLRAFYSETSLEIHKLTTDYEFVFVNDGSKDDTLNILRDLASSDSSVHYISFSRNFGKEAAMLAGLKYATGNAIVIMDADLQHPPTLIKELLEGYNDGYDQVIAKRTRTGDSPVRSFVSRLYYKVMNKFVDIELVDGIGDFRLLSRRAVDSLVSLSEYNRFSKGLFSWIGYNELIIEYENVLRSDGESKWTFSKLLNYGIDGVISFNNKPLRLSIYLGLLTTIFGLLYVITTFVQIILGGVEVPGYFTLISAILFIGGIQLIFLGVIGEYIGRIYYETKRRPHFIVAEKKVSEVKQKA	PGPT0014540_2486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0014540-csbB|gtrB|yfdH-K20534	NA	NA
AK009_05277	939			hypothetical protein	ATGAAAAAGGCTTTAGTATTAGGTGCTTCTGGTTCAATGGGTTATGCAATTGTAAACGAATTATGTGGCCGAGGGATTCATGTGGTTGCTTTTGCAAGAAATAAGGAGAGATTAGGTGCATTATTTTCTGGGAACAAACATGTAGAAGTTGTAGCCGGCGATGTATTTGTAAAAGAGGATATAATGAATGCTGCTAAAGATGTTGATATTATATTTCATGTTGTAAATATTCCGTATTCAGATTGGGAGAAACAGCAAGAGAAATTATTAATAAACATATTAGAGGTATCGAAACATTACGGTATCAAACTAGGGATAGTTGATAATATTTATGCGTATGGAAGGCAAGGGGAAGGGCTTGTAAAAGAAGAGGCTAAAAAAAGACCACACACAAAGAAAGGGAAGATTCGTTTACAACTTGAAGAGATGGCAAAACAAGCTAATGTACGAATGTTTATTGCTCATTTCCCAGACTTTTATGGTCCAAATGCAGAAAGCACACTTGTTCATCATACATTAAAGGGAATACTTGCAAATAAAATGTCTAGCTTTGTTGGAGATAAAAAGATTGCCCGTGAATATATTTTTACACCAGATGGTGCAAAAGCAATGGTTGAATTAGCTTTACATGATGAGGCCTATGGACAAAATTGGAACATACCAGGTTATGGTGTTATTACAGGTGAGGAAATGATTCAACACATACGGGAATTAACGGGGTATACGAAACGAGTAATAACTGTAAAAAGAGGAATGATCCAGTTTATTGGTCTGTTTGATAAGCAGATGAAAGAATTTATGGAAATGCTATATTTGACGGAAAAACCAGTTGTATTAAGCGGGGAGAAATATGAGAGGTATATCGGGGATATACCAAAAACTTCGTATTATAATGGGCTAAAAGAAATGATTATATCTATGCAAAAAAAGGGTTTGTAA	MKKALVLGASGSMGYAIVNELCGRGIHVVAFARNKERLGALFSGNKHVEVVAGDVFVKEDIMNAAKDVDIIFHVVNIPYSDWEKQQEKLLINILEVSKHYGIKLGIVDNIYAYGRQGEGLVKEEAKKRPHTKKGKIRLQLEEMAKQANVRMFIAHFPDFYGPNAESTLVHHTLKGILANKMSSFVGDKKIAREYIFTPDGAKAMVELALHDEAYGQNWNIPGYGVITGEEMIQHIRELTGYTKRVITVKRGMIQFIGLFDKQMKEFMEMLYLTEKPVVLSGEKYERYIGDIPKTSYYNGLKEMIISMQKKGL				NA	NA	NA	NA	NA
AK009_05278	573			hypothetical protein	ATGTCGCCAAGGAAAGCAGTTAAACAAGAACTAACAAGAGAAATGATTATGAATGTAGCTAGGGAGCTATTTATAGCACAAGGATATCAACATACTTCAATGCGCAAAATTGCAACAGAACTTGGATATAGCCATGGTTCGATTTATTATCATTTTAAAAACAAAGCAGAGCTATTTTACGCAATGGTGGAACAGGATTTTCAATTATTAAACAAAAAGTTAGATAAAATTTGTAATCAAAAGTTATCGAGAGAGGAGCAACTAAGAGCGGTTTTATTCGGTTTTATTGAATTTGGTCTAAGAAATCAGAGTCATTATGAAATTATGTTTTTAATTAAAGATGCCGAATTAAAAGAGTGTTTGGCAAATAGTCCTAATGTTAGTTATGAAAAATTTGCGAAGGTTATTTCTTTTTTATGTGATGGGGAATTAAATGCGATGATAATATGGTCTGTTTTTTTATCATTACATGGATTTGTAGCACATTATTGCAGAAGTGGCCAAACGTTTGAAGAACTACAAGGTTTGGCTAAGGTACATGTAGAGTTTATTTCAAAATCGCTTCTTATGTAA	MSPRKAVKQELTREMIMNVARELFIAQGYQHTSMRKIATELGYSHGSIYYHFKNKAELFYAMVEQDFQLLNKKLDKICNQKLSREEQLRAVLFGFIEFGLRNQSHYEIMFLIKDAELKECLANSPNVSYEKFAKVISFLCDGELNAMIIWSVFLSLHGFVAHYCRSGQTFEELQGLAKVHVEFISKSLLM				NA	NA	NA	NA	NA
AK009_05279	1554	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGAGCTTATTAACAGTTGAAAAATTAGGACATACATTTGGCGATCGTACATTATTTAAAGATGTATCTATGCGATTATTAGCAGGTGAGCACGTTGGATTAGTTGGTGCAAACGGTGTTGGTAAATCAACATTTATGAATATCATTACTGGTCAGCTTATTCATGACGAAGGTCGTGTAGAATGGACACCAGGCACACATTACGGTTACTTAGATCAGCATACGGTTTTAACGCCTGGACGTACAATTCGTGACGTACTAGCGGATGCATTTTTACCGTTATTCGAAAAGGAAACAGCTTTAAATGAAGTTACAGAAAAAATGGGAACTGCTACACCAGAAGAACTAGAAGAACTTCTTGAGCAAATGGCAGAAATACAAGATGCACTTGAAGCAGGTGGTTTCTATTTACTAGATATGAAAATTGAAGAGGCTGCACGTGGTCTTGGAATTGATGCTATTGGTTTAGATCGTGATGTTTCAGCACTAAGTGGTGGACAACGTACAAAAGTATTGCTTGCAAAGCTATTACTTGAACAACCAGAAGTGTTATTGCTTGATGAACCTACTAACTATTTAGACGTTGAACATATTCATTGGTTAACAACTTATTTAAAAGAATACCCACATGCATTCTTATTGATTTCTCATGATACGGAATTTATGAACAAATGTGTTGATGTTATTTTCCATCTAGAATTCACAAAAATGACACGCTATACAGCGACATATGAAAAATTCCTAGAACTAGCAGAAATCAATAAAAATCAACATATAAACGCTTATGAAAAGCAGCGCGAGTTTATCAAAAAGCAAGAAGACTTCATTGCAAAGAACAAGGCTCGTTATTCAACGACAGGTCGTGCAAAGAGTCGTCAAAAACAACTTGATCGCATGGAACTTATTGATCGTCCGGAAACAGCAATCAAACCTGAATTCTCATTTAAAGAAAGTCGTGCAAGTAGTCGCTTCGTCTTTGAAGGTGAAAATGTAGAAATCGGATATACACATCCGCTACTACCAAAGTTATCAATGACAATTGAGCGTGGTGAAAAAATTGCTATTGTTGGATGTAATGGTGTTGGTAAATCAACGCTACTAAAAACAATCTTAGGTAAAATTAAACCTTTAAACGGTAAAACAAGTCTTGGTGACTTCTTAGAGCCTGCATACTTTGAGCAAGAAGTTAAAGCTGATAATATAACACCAATTGATGATGTATGGAATACATTCCCTGGCCTAGACCAGCATCAAATTCGTGCGATGTTAGCGAAATGCGGATTAAAAAATGAACATATTTCTCGTCCATTAAGTCAATTAAGTGGTGGAGAACAAGCAAAAGTTCGTTTATGTAAGCTAATGGGTGAAGAAAGTAACTGGCTACTATTTGATGAGCCGACAAACCATCTTGATGTTACAGCAAAAGAAGAACTTAAGAAGGCTATGAAAGCATATAAAGGAACAATTCTCCTTGTATGTCACGAACCGGAATTCTATGAAGATTGGATCACAAAGGTTTGGGATGTAGAAAAATGGTCTCAAAATAGTAAGTAA	MSLLTVEKLGHTFGDRTLFKDVSMRLLAGEHVGLVGANGVGKSTFMNIITGQLIHDEGRVEWTPGTHYGYLDQHTVLTPGRTIRDVLADAFLPLFEKETALNEVTEKMGTATPEELEELLEQMAEIQDALEAGGFYLLDMKIEEAARGLGIDAIGLDRDVSALSGGQRTKVLLAKLLLEQPEVLLLDEPTNYLDVEHIHWLTTYLKEYPHAFLLISHDTEFMNKCVDVIFHLEFTKMTRYTATYEKFLELAEINKNQHINAYEKQREFIKKQEDFIAKNKARYSTTGRAKSRQKQLDRMELIDRPETAIKPEFSFKESRASSRFVFEGENVEIGYTHPLLPKLSMTIERGEKIAIVGCNGVGKSTLLKTILGKIKPLNGKTSLGDFLEPAYFEQEVKADNITPIDDVWNTFPGLDQHQIRAMLAKCGLKNEHISRPLSQLSGGEQAKVRLCKLMGEESNWLLFDEPTNHLDVTAKEELKKAMKAYKGTILLVCHEPEFYEDWITKVWDVEKWSQNSK				NA	NA	NA	NA	NA
AK009_05280	876	betI_2		HTH-type transcriptional regulator BetI	ATGAAAGAAAAAGAGCGTTTAATTATAGAATCGGCTATGAAGTTATTTGCTACTAAGGGTGTAAATGCGACATCAGTGCAGGAAATTGTGACAGCTAGTGGTATATCTAAGGGAGCTTTTTACTTATATTTTAAATCAAAAGATGAGCTTTTATTAGCGACACTTCGATATTATTATGACAAAATTCAAAAGAAAATGCTGGATATTGAGCAAGAGTCTTTGTTACCACGTGAAAAATTTGCAAAACAATTACATTGTCAGTTTAATGATATACAAAAGCATAAAGAGTTTATTATTATGCATGCGAGAGAAAATGCGATTCCGTTTAATAAAGAAGTGGAAGAATTTATGATGCGGATGAAGTTAGAGTCTCATGCATTTTATCGAAATAGTTTATTGTCCATTTATGATGAAAAGATTATGCCATATTTATTGGATTTAGTAATTATGGTGGAAGGCATATGCCGTGGGTATTTAGAATTAATTATTTTACAAGCAACAGAAATTGATTTATCTTACGTCTCTGCTTTTATTTTAAAAAGAGTAGATAATTTAGTAGATGGCTTGGTAGAATCTTCGGAAGAACCTATTTTACACGAAGAAAAGCTTGGAGAATTTCTTTGTAAATCAGAGCTCATTAAGGAACAGGTTAAAGAGCATTTTTTAAAAGAAATTATTGGATTTAAGCGTACTCTAGCTGATCAATTAGAGGACGATGAGCTGCTAGTAACATTAGATGTTTTAGAGGCGGAAATGCGATTGCTTAATCCAAGAATTCCGGTAATTAGAGGTATGTTAGCAAATTTAGAGGTTTATCCGGAATTAAAAGAATTTCGCTTACGCCTTATAGGATACTACAATATAAAAAATTCTTAA	MKEKERLIIESAMKLFATKGVNATSVQEIVTASGISKGAFYLYFKSKDELLLATLRYYYDKIQKKMLDIEQESLLPREKFAKQLHCQFNDIQKHKEFIIMHARENAIPFNKEVEEFMMRMKLESHAFYRNSLLSIYDEKIMPYLLDLVIMVEGICRGYLELIILQATEIDLSYVSAFILKRVDNLVDGLVESSEEPILHEEKLGEFLCKSELIKEQVKEHFLKEIIGFKRTLADQLEDDELLVTLDVLEAEMRLLNPRIPVIRGMLANLEVYPELKEFRLRLIGYYNIKNS				NA	NA	NA	NA	NA
AK009_05281	3117	swrC_2	COG0841	Swarming motility protein SwrC	ATGAACAAAATCATCAATTTCTCGTTAAAAAATAAGTTCGCAGTTTGGCTACTAACCATTATTGTTACTATTGCGGGAATTTACTCTGGCCTCAATATGAAGCTGGAAACAATTCCTGATATTACAACACCGATTGTGACAGTAACTACGGTCTATCCTGGTGCTACACCAGAAGAAGTAGCCGATAAAGTTTCAAAGCCGATGGAAGAACAACTACAAAATTTAAGTGGTGTTAACGTTGTTAGCTCATCATCTTTTCAAAACGCATCTTCTATTCAAGTAGAATACGATTTTGATAAAAATATGGAAAAAGCAGAAACAGAAATTAAAGAAGCTCTCACAAATGTAAAGCTCCCTGACGGTGTTAAAGACCCTAAGGTTTCACGAGTAAACTTCAATGCTTTTCCTGTTATTTCGTTAAGCGTAGCAAGCAAGAATGAATCTTTAGCTACCTTAACTGAAAATGTAGAGAAAAATATTGTACCGGGCTTAAAAGGACTTGATGGTGTTGCATCTGTTCAAATTGCAGGCCAACAAGTAGATGAAGTACAGCTCGTCTTCAAGAAAGATAAAATGAAAGAACTAGGACTAAGTGAAGATACTGTAAAAAATGTAATTAAAGGATCGGATGTATCTTTACCACTTGGCCTATATACGTTTAAAGACACGGAAAAATCAGTTGTTGTAGATGGCAATATTACAACGATTAAAGCATTAAAAGAACTCAAAATCCCAGCTATACCTTCATCACCTAACGGTCAAGGTAGTCAAAATGCTGGCGCTGGTGCACAAACGCCGCAAATGAATCCAGCTGCTATGAACGGAATTCCAACAGTTACATTAGACGAAATTGCTGAAATTAAAGAAGTTGGGAAAGCAGAATCCATTTCTCGAACAAATGGAAAAGAAGCAATTGGAATTCAAATTGTGAAGGCCTCTGATGCAAATACAGTTGATGTTGTAAATGCAGTAAAAGATAAAGTAAAAGATCTTGAGAAAAAATATAAAGATTTAGAGATCATTTCAACATTCGACCAAGGTGCACCTATTGAAAAGTCAGTTGAAACAATGCTAAGCAAAGCAATTTTCGGTGCTATCTTTGCGATTGTTATTATTATGCTGTTCCTACGAAATATTCGAACAACGTTAATCTCTGTCGTTTCAATACCACTTTCGTTATTAATTGCTGTTTTAGTCATAAAGCAAATGGATATTACGCTTAACATTATGACGCTTGGAGCAATGACAGTTGCTATAGGCCGTGTTGTTGATGACTCAATTGTTGTTATTGAAAATATTTACCGACGTATGTCGTTATCAGAAGAGAAATTGCGCGGAAGAGATTTAATTCGTGAAGCTACGAAAGAAATGTTTATTCCGATTATGTCTTCTACCATTGTGACAATCGCTGTATTCTTACCGCTAGGACTTGTAAAAGGTATGATTGGTGAAATGTTCTTACCATTCGCCTTAACTATTGTCTTCGCTTTATTAGCATCGTTACTAGTGGCTGTTACAATCGTACCAATGCTTGCCCATTCCTTATTTAAGAAAGAAAGCACGAGGGAAAAAGAGGTACATCATGAAGAGAAACCAAGCAAATTAGCAAATGGGTATAAACGTATACTTGAATGGGCTTTAAATCACAAAATTATTACATCTAGTATTGCTGTCCTTCTATTAGTTGGTAGTCTCGCACTTGTACCGGTTATCGGTGTAAGTTTCTTACCTTCTGAAGAAGAAAAAATGATTATCGCAACATACAAACCTGAACCAGGTCAAACATTAGAAGACGTTGAAAAAATTGCAACGAAAGCTGAGAAGCACTTCCAAGATAATAAAGACGTGAAAACAATTCAGTTCTCATTAGGTGGAGAGAATCCAATGAGCCCTGGTCAAACAAATCAAGCTATGTTCTTCGTTCAATATGATAACGACACGAAAAACTTCGAAAAAGAAAAAGAAGAAGTCGTGAAAGATTTACAAAAAATGTCTGGAAAAGGTGAATGGAAAAACCAAGACTTCGGAGCAAGTGGCGGTAGTAACGAAATTAAACTATACGTTTACGGAGATAGCTCAGAAGACATTAAGCCTGTCGTAAAAGATATTCAAAATATCATGAAGAAAAATAAAGACTTAAAAGATATAGATTCTAGTATTGCAAAAACATATGCAGAGTACACTTTAGTCGCAGATCAAGAAAAGCTGAGTAAAATGGGCTTAACGGCTGCTCAAATTGGAATGGGACTTTCTAATCAACATGATCGCCCTGTTCTGACAACAATTAAAAAAGACGGTAAAGATATCAATGTATATGTAGAAGCTGAAAAACAAAATTATGAAACAATCGATGACTTAACAAATCGCAAAATTACAACACCACTTGGTAATGAAGTAGCTGTAAAAGATGTTATGACTGTAAAAGAAGGTGAAACATCGAATACAGTAACACACCGAGATGGCCGTGTTTATGCAGAGGTTAGTGCAAAATTAACATCTGATGACGTTTCAAAAGCATCTGCTGCAGTCCAAAAAGAAGTAGATAAAATGGATCTTCCTTCTGGTGTAGATGTTTCTATGGGCGGTGTTACTAAAGATATTCAAGAATCATTCAAGCAACTTGGCCTAGCGATGTTAGCTGCGATTGCCATTGTATACTTCGTTCTTGTCGTTACATTTGGCGGTGCCCTTGCACCATTCGCAATTTTATTCTCGCTACCATTCACAATTATTGGGGCCCTTGTTGCCTTATTAATCTCTGGTGAAACATTAAGTGTATCTGCAATGATTGGGGCGCTTATGTTAATCGGTATCGTTGTAACAAACGCAATCGTGCTTATCGACCGCGTTATTCATAAAGAAAATGAAGGTTTATCAACACGTGAAGCTTTATTAGAAGCTGGTGCAACACGCTTGCGTCCAATTTTAATGACTGCAATTGCAACAATCGGAGCTCTTATCCCGCTTGCATTAGGATTTGAAGGTAGCGGCTTAATTTCTAAAGGACTTGGTGTAACAGTAATTGGTGGATTAACAAGTTCAACGTTATTAACACTTCTTATTGTTCCAATTGTTTATGAAGTATTAAGCAAATTTAAAAAGAAAAAAACAAAATAG	MNKIINFSLKNKFAVWLLTIIVTIAGIYSGLNMKLETIPDITTPIVTVTTVYPGATPEEVADKVSKPMEEQLQNLSGVNVVSSSSFQNASSIQVEYDFDKNMEKAETEIKEALTNVKLPDGVKDPKVSRVNFNAFPVISLSVASKNESLATLTENVEKNIVPGLKGLDGVASVQIAGQQVDEVQLVFKKDKMKELGLSEDTVKNVIKGSDVSLPLGLYTFKDTEKSVVVDGNITTIKALKELKIPAIPSSPNGQGSQNAGAGAQTPQMNPAAMNGIPTVTLDEIAEIKEVGKAESISRTNGKEAIGIQIVKASDANTVDVVNAVKDKVKDLEKKYKDLEIISTFDQGAPIEKSVETMLSKAIFGAIFAIVIIMLFLRNIRTTLISVVSIPLSLLIAVLVIKQMDITLNIMTLGAMTVAIGRVVDDSIVVIENIYRRMSLSEEKLRGRDLIREATKEMFIPIMSSTIVTIAVFLPLGLVKGMIGEMFLPFALTIVFALLASLLVAVTIVPMLAHSLFKKESTREKEVHHEEKPSKLANGYKRILEWALNHKIITSSIAVLLLVGSLALVPVIGVSFLPSEEEKMIIATYKPEPGQTLEDVEKIATKAEKHFQDNKDVKTIQFSLGGENPMSPGQTNQAMFFVQYDNDTKNFEKEKEEVVKDLQKMSGKGEWKNQDFGASGGSNEIKLYVYGDSSEDIKPVVKDIQNIMKKNKDLKDIDSSIAKTYAEYTLVADQEKLSKMGLTAAQIGMGLSNQHDRPVLTTIKKDGKDINVYVEAEKQNYETIDDLTNRKITTPLGNEVAVKDVMTVKEGETSNTVTHRDGRVYAEVSAKLTSDDVSKASAAVQKEVDKMDLPSGVDVSMGGVTKDIQESFKQLGLAMLAAIAIVYFVLVVTFGGALAPFAILFSLPFTIIGALVALLISGETLSVSAMIGALMLIGIVVTNAIVLIDRVIHKENEGLSTREALLEAGATRLRPILMTAIATIGALIPLALGFEGSGLISKGLGVTVIGGLTSSTLLTLLIVPIVYEVLSKFKKKKTK	PGPT0016195_1305	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
AK009_05282	966	msrAB	COG0225	Peptide methionine sulfoxide reductase MsrA/MsrB	ATGGCTGTAAATGAAAAGGTAGAATTGGCTACATTTGCTGGAGGGTGTTTTTGGTGTATGGTTTCTCCATTTGAAGAGATGGAGGGAATTATACAGGTTATTTCAGGTTATACAGGCGGTCATAAAGAGGACCCAACGTATAAAGAAGTGTGCTCGGAAACAACAGGACATTATGAAGCGGTACAAATTACATTTGATGCAAATAAAATGCCGTATGAGGAATTGTTAAATATATATTGGAGACAAATTGATCCGACCGATATTGGGGGACAATTCCATGACCGCGGACAGTCTTATGAAACGGTGATTTTTTATCATAATGAAGAACAACATAAAAAAGCAGAAGCTTCAAAAGAAGAGCTTGAGCAGAGTGGGCGCTTTTCGAAACCAATTGCGACAAAAATACTACCAGCAGCTACATTTTATCCAGCTGAAGAATATCACCAAGGATATCATAAGAAAAACACATTCCGCTATGAGTTATATCGTAAAGGCTCAGGACGAGATGCTTTTATTAAGGAACATTGGCCAAAGGATAATGCTCATTTAAAAGAAAAACTCAATGAGATGCAGTTTTATGTAACACAGGAAAATGGTACAGAACCACCATTTCGAAATGAGTATTGGAACCATAAAGAGGAAGGTCTTTATGTAGATATCGTTTCAGGTGAGCCGTTGTTTACTTCTCTAGATAAATTTGATAGTGGATGTGGATGGCCTAGTTTTACAAAACCAGTTATGTCAGCAAGTGTGAAAGAAAAGATGGATGTGAGTCATAATATGACACGTACAGAAGTGAGAAGTAAAGAGGGAGATTCGCATCTTGGGCATGTATTTCCAGACGGTCCAGGACCGAATGGGCTTCGTTACTGCATTAATTCCGCAGCTCTTAGATTTATTCCAAAAGAGGAATTAGAGAAAGAAGGTTATGGCGATTTCTTAATCTTGTTTGGAAATAAAAAATAA	MAVNEKVELATFAGGCFWCMVSPFEEMEGIIQVISGYTGGHKEDPTYKEVCSETTGHYEAVQITFDANKMPYEELLNIYWRQIDPTDIGGQFHDRGQSYETVIFYHNEEQHKKAEASKEELEQSGRFSKPIATKILPAATFYPAEEYHQGYHKKNTFRYELYRKGSGRDAFIKEHWPKDNAHLKEKLNEMQFYVTQENGTEPPFRNEYWNHKEEGLYVDIVSGEPLFTSLDKFDSGCGWPSFTKPVMSASVKEKMDVSHNMTRTEVRSKEGDSHLGHVFPDGPGPNGLRYCINSAALRFIPKEELEKEGYGDFLILFGNKK				NA	NA	NA	NA	NA
AK009_05283	1035			hypothetical protein	ATGCAAATAAAAAACCTGTTTCAAAGCAAAGGATTTCAGAGGTTACTCGTATTAGTAATACTTGCTCTCGTGTTATACGGGCTGCAAAGTATGTTGAATTTAATATTAATTACGTTTATTCTCACGTATTTAATGGATCGATTCCAAAAGTTTATTTCCCGCAAATTAGATCATTTCATGCCTATTAATCGAAAAATTATTATAGCATTTCTATATGTAATGTTAATTGGTGGAATTGCTATTACGCTATTTAAATATTTACCAGTATTAACGATACAAATTTCACAATTGATTTACCAATTCAATGTATTTTTAAGAAACCCACCAGATAGTGAACTAATTAAGTATGCAGTTAATGCTGTCAATCATATGGAGCTTTCTAAATATGTAGGACAAGGCGTAGACATTTTGTATAAATCGATTACGAATGTTGGTAAATTTGGCCTTCAAGTTTTACTTTCTTTAATTTTGAGTTTGTTTTTCTTACTAGAAAAATCTCGTATTGTTGGTTTTACTGTAAAGTTTAAAGAAAGCAGGCTTGCAATTTTCTATACTGAAATTGAGTACTTCGGAAAGAAATTTGCACGTTCATTTGGAAAGGTAATCGAAGCGCAATTTTTAATTGCTGTTGTTAACTGTGTTCTTTCAGTTATCGCATTATGGATATTAGGATTCCCACAATTATTAGGTTTAGCGTTAATGATTTTCTTGCTTGGCTTAATTCCAGTAGCGGGGGTTATCATTTCGTTATTCCCACTTTGTATGATTGCTTACAATATTGGCGGTATTATGTACGTTGTTTATATTTTAGTTATCGTAACAGTTATTCATGCGCTTGAAAGTTACGTATTAAATCCGAAGTTTATGTCGCAAAAAACAAATTTACCGATTTTCTATACTTTTATGGTATTAATTTTCTCAGAGCACTTCTTAGGTGTATGGGGACTGATTATCGGTATTCCAATTTTCATTTTCTTATTAGATGTCTTAGATGTGACAAGTGATGAAATGGAGAAGGATGTTGGAACAAAATAA	MQIKNLFQSKGFQRLLVLVILALVLYGLQSMLNLILITFILTYLMDRFQKFISRKLDHFMPINRKIIIAFLYVMLIGGIAITLFKYLPVLTIQISQLIYQFNVFLRNPPDSELIKYAVNAVNHMELSKYVGQGVDILYKSITNVGKFGLQVLLSLILSLFFLLEKSRIVGFTVKFKESRLAIFYTEIEYFGKKFARSFGKVIEAQFLIAVVNCVLSVIALWILGFPQLLGLALMIFLLGLIPVAGVIISLFPLCMIAYNIGGIMYVVYILVIVTVIHALESYVLNPKFMSQKTNLPIFYTFMVLIFSEHFLGVWGLIIGIPIFIFLLDVLDVTSDEMEKDVGTK				NA	NA	NA	NA	NA
AK009_05284	693	lrgB	COG1346	Antiholin-like protein LrgB	ATGGCAAGCACAATGACTCCATATTTCGGAATCGTCGTTTCATTAATCGCATACGGGATCGGAACGTTATTATTCAAGCATTCAAAAGGATTCTTCTTATTTACACCATTATTTGTAGCGATGGTATTAGGGATTGTCTTTCTAAAGGTAGGTAACTTTACTTTTGAAGAATATAATACTGGCGGAAAAATGATTAGTTTCTTCTTAGAACCAGCAACAATTGCATTCGCTATCCCACTATACAAGCAAGTGGATAAGTTGAAAAAATATTGGTGGCAAATTTTATCGGCTATCGTGGTGGGATCTATTTGCTCAGTAATTGTCGTGTTCATTGTTGCAAAAGCAATCGGTTTAGATACAGCAGTAATGAATTCAATGCTACCACAAGCAGCAACAACAGCAATTGCGTTACCAATCTCAGAAAGTATTGGTGGTATTCCAGCAATTACATCGTTTGCAGTTATTTTCAACGCAGTTATCGTATACGCATTAGGGGCATTATTCTTAAAAACATTTAGAGTTAAGCATCCGATTGCAAAAGGTTTAGCACTTGGAACAGCGGGCCATGCATTAGGAGTTGCAGTAGGAATTGAAATGGGTGAGGTAGAGGCAGCGATGGCAAGTATTGCTGTAACGGTAGTTGGGGTTGTAACAGTAGTTGTCATCCCAATGTTTATGCCATTCATTGGATAG	MASTMTPYFGIVVSLIAYGIGTLLFKHSKGFFLFTPLFVAMVLGIVFLKVGNFTFEEYNTGGKMISFFLEPATIAFAIPLYKQVDKLKKYWWQILSAIVVGSICSVIVVFIVAKAIGLDTAVMNSMLPQAATTAIALPISESIGGIPAITSFAVIFNAVIVYALGALFLKTFRVKHPIAKGLALGTAGHALGVAVGIEMGEVEAAMASIAVTVVGVVTVVVIPMFMPFIG				NA	NA	NA	NA	NA
AK009_05285	432	lrgA	COG1380	Antiholin-like protein LrgA	ATGAGTACGAAAAAAGTATACAGTTTCTTATCACAAGCATTCATATTCTCAGCTATTATGTTAATTTCTAATATTATTGCAACACATTTACCAATTCCGATGCCTTCATCGGTAATCGGGTTAGTTATTTTATTTAGTCTATTATGTTTAAAAGTTATTAAATTGGAGCAAGTTGAATCACTTGGAACAGCTTTAACAGGTATTATCGGATTCCTTTTCGTCCCATCAGGTATTTCAGTTATTAATTCTCTTGGTGTAATGGGACAATATTTTGTACAAATTTTAACTGTAATTGTTGTAGCAACAGTTATTTTACTAGCTGTAACAGGATTATTTGCACAATTTATTTTAGGAAAAGATGAAAAAGAAACAGAAGATACAAAAGAATTGAAAGTAGTAAATAAAGGACGCAAGCACGGAAAGGTTGCGTAA	MSTKKVYSFLSQAFIFSAIMLISNIIATHLPIPMPSSVIGLVILFSLLCLKVIKLEQVESLGTALTGIIGFLFVPSGISVINSLGVMGQYFVQILTVIVVATVILLAVTGLFAQFILGKDEKETEDTKELKVVNKGRKHGKVA				NA	NA	NA	NA	NA
AK009_05286	741	lytR_2	COG3279	Sensory transduction protein LytR	GTGTTAAAAGTATTAGTAGTTGACGATGAAATGTTAGCACGTGATGAACTAAAGTATTTATTAGAGAGAACGAAAGAAGTTGAGATAGTTGGTGAGGCTGATTGTGTGGAAGACGCATTAGAAGAACTAATGCAATGTAGACCAGATATTGTATTTTTAGATATTCAATTATCCGATGATAACGGATTTGAAATCGCGAATATATTAAAGAAGATGAAAAATCCACCTGCAATTGTATTTGCTACTGCCTATGATCAATATGCGTTGCAAGCATTTGAAGTAGATGCGTTAGACTACATTTTAAAACCATTTGATGAAGAGCGTATTGTGCAAACATTAAAGAAGTATAAAAAACAAAAACAAGCGCAAATAGAAACGAAGCACGAAATAAAGGGGACAGATGTAACAGCAGAGATGCATAAATTAGCATTACCAATTGAAGAATCAATCGTACTTGTGAATATTGAAGATATTATATATGTAGGGCTTGTAGATGGGAAAGTAACAGTAAAAACAATGAGGGAAACATATGTAACACATGATACACTTGTAATTTTAGAGAAGAAGTTACCACAAGCAAACTTCATGCGCGTCCATCGTAGCTTTATTGCAAATATTAATCATATTACTGAAATTCAGCCATGGTTCAATTCTACTTATAATTTAATCATGAAAGAAGGATCGAAAGTACCTGTTAGCCGTACATATGCCAAAGAACTCAAGAAGCTGCTTCGTATTTAA	MLKVLVVDDEMLARDELKYLLERTKEVEIVGEADCVEDALEELMQCRPDIVFLDIQLSDDNGFEIANILKKMKNPPAIVFATAYDQYALQAFEVDALDYILKPFDEERIVQTLKKYKKQKQAQIETKHEIKGTDVTAEMHKLALPIEESIVLVNIEDIIYVGLVDGKVTVKTMRETYVTHDTLVILEKKLPQANFMRVHRSFIANINHITEIQPWFNSTYNLIMKEGSKVPVSRTYAKELKKLLRI	PGPT0026304_1457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
AK009_05287	1770	ypdA	COG3275	Sensor histidine kinase YpdA	ATGCTAAATTTAGTACTCATGATGATTGAACGAGTCGGACTTATAGTTATTTTAGGATTTTTACTCTCTCATATTAAAACTTTCAGGCGCCTCCTTCATAAACAGGATGGCTATGTAGATAAGCTTAAGCTTATTTGTATTTTTTCGGTATTTACAATTGTAAGCAATTACACTGGGATTGAAATAGCGGGAAATACAATTATGAATGAAAATTGGTTACAAGGTGTTTCTTCGTCAAGTACAATTGCGAATACGCGTATTATGGGTGTTGGTATTAGCGGCTTACTTGGTGGCCCTATCGTAGGGATTGGAGTAGGGTTTATTGCTGGTATTCATCGTTATATGCTTGGTGGTACGACAGCGCTAAGTTGCGCAATCTCTTCTATTTTAGCGGGGATTATAACTGGTTATATCGGATATATTTTCAAAAAATATAACCGTACAATTACTCCTAAGTTTTCAGCAGTTTTAAGTATTTTTATCGTATCTTTAGAAATGCTTATGATTTTATTAATTATAGAGGATGGAATTAGCGTTGTGAAAACAATAGCGATACCGATGATTCTTGTAAATAGTTTTGGAAGTTTTATTTTACTTTCTATGATACAAGCTATTTTGCGTCAGGAGGAGAATGCAAAAGCACTTCAGACTCATAAAGTATTGCGTATTGCTGATAAAACGTTACCGTATTTTCGTCAAGGCTTAACAGAAGAATCGTGTAAGCATGTGGCACAAATTATTCACCGCTTTACAGGAACAGATGCGGTATCTTTAACAGATACAGAGAAAATATTAGCGCACGTTGGATTAGCATCAGATCACCATATTCCTTCACATAGTTTAATAACTGGTTTATCAAAAGAAGTTTTACATACAGGGCAAATAATGAAGGCGAAATCACGTGAGGTTATTAATTGCCAACATGAAGGCTGTCCCTTACAAGCCGCTATTGTTATTCCACTAACTTCACATGGAAATACGATAGGGACATTAAAACTGTATTTCAAAAATTCTAACCAGTTAAGTCGCGTTGAAGAAGAATTAGCAGAAGGGTTAGCAAAAATATTCTCCACGCAGTTAGAGTTAGGAGAAGCTGAGTTGCAAAGTAAATTACTTCAAGATGCGGAGATAAAAGCATTACAAGCGCAAATTAACCCGCACTTTTTATTTAATGCGATTAATACAGTATCAGCTTTATGCCGAACAGATGTAGAAAAAGCAAGGAAGTTATTATTACAGCTTAGCGTGTATTTCCGTTGTAATTTGCAAGGAGCACGTCAGTTATTGATTCCACTGGAACAAGAATTAAACCATGTACAGGCATACTTATCACTAGAACAAGCAAGGTTCCCAAATAAGTATGAGGTAAAGATGTATATTGAGGATGAGCTAAAGACAACTTTAGTACCACCATTTGTTCTTCAACTATTGGTTGAAAATGCATTGCGACATGCTTTTCCGAAGAAGCAACCAGTGTGTGAAGTGGAAGTGCATGTTTTTGAAAAAGAGGGTATGGTTCACTTTGAAGTAAAAGATAATGGACAGGGAATTGAGGAAGAACGTTTAGAACAATTAGGAAAGATGGTAGTTTCTTCAAAGAAAGGGACTGGAACAGCTTTATATAATATTAATGAACGTCTTATTGGGTTATTTGGGAAAGAAACGATGCTTCATATCGAAAGTGAATTAAATAAAGGGACGGAGATTACCTTTATTATTCCAAAAAAAGTAGGGGAGGAAGAGCCAGGTGTTAAAAGTATTAGTAGTTGA	MLNLVLMMIERVGLIVILGFLLSHIKTFRRLLHKQDGYVDKLKLICIFSVFTIVSNYTGIEIAGNTIMNENWLQGVSSSSTIANTRIMGVGISGLLGGPIVGIGVGFIAGIHRYMLGGTTALSCAISSILAGIITGYIGYIFKKYNRTITPKFSAVLSIFIVSLEMLMILLIIEDGISVVKTIAIPMILVNSFGSFILLSMIQAILRQEENAKALQTHKVLRIADKTLPYFRQGLTEESCKHVAQIIHRFTGTDAVSLTDTEKILAHVGLASDHHIPSHSLITGLSKEVLHTGQIMKAKSREVINCQHEGCPLQAAIVIPLTSHGNTIGTLKLYFKNSNQLSRVEEELAEGLAKIFSTQLELGEAELQSKLLQDAEIKALQAQINPHFLFNAINTVSALCRTDVEKARKLLLQLSVYFRCNLQGARQLLIPLEQELNHVQAYLSLEQARFPNKYEVKMYIEDELKTTLVPPFVLQLLVENALRHAFPKKQPVCEVEVHVFEKEGMVHFEVKDNGQGIEEERLEQLGKMVVSSKKGTGTALYNINERLIGLFGKETMLHIESELNKGTEITFIIPKKVGEEEPGVKSISS	PGPT0026305_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
AK009_05289	1299	naiP_2		Putative niacin/nicotinamide transporter NaiP	ATGAACGTCACTACTGATGTACAACAAACAACAGAGGAAACGAAAGCGAAAAGGTATAAAACATTATTTGGTTCTGCGCTAGGATATGCAGCAGAAGGTTTAGATATGTTGCTATTATCTTTCGTACTTGTCTATATTTTAAAAGAGTTTCACTTAAGTCCTGTTGAAGGTGGAAACTTAACATTAGCTACCACAATAGGGATGTTAATTGGTTCTTATTTATTTGGATTTATTGCTGATTTATTTGGCCGTATTCGTACAATGGCCTTCACAATCTTACTGTTTTCACTAGCAACCGCACTCATTTATTTCGCAACAGACTACTGGCAATTATTAATTCTTCGCTTTTTAGTTGGAGTGGGAGTTGGTGGTGAATTCGGAATCGGAATGGCCATTGTAACAGAAACATGGTCTAAAGAAATGCGCGCTAAAGCGACATCTGTTGTTGCACTTGGATGGCAATTTGGTGTACTGATTGCTTCACTCCTTCCAGCATTTATTGTCCCACACTTTGGATGGAGAGCCGTTTTCTTATTTGGATTAATTCCAGCTTTACTAGCTGTCTATGTCCGTAAAAGTTTAAGTGAACCGAAAATATGGGAGCAAAAACAACGCTACAAAAAGGAACTATTGCAAAAAGAAGCTACAGGTAAATTAACAACTACTGAAGCAGAACAACTAAAACATATAAAAAAATTCCCACTTCGAAAATTATTTGCCAATAAAAAAGTAACAATCACAACAATCGGTCTTATTATTATGTCGTTTATCCAGAACTTCGGATATTACGGCATCTTCACATGGATGCCAACTATTTTAGCAAATAAATATAACTATACATTAGCAAAAGCGAGTGGCTGGATGTTCATTTCTACCATCGGTATGCTAATTGGAATTGCAATCTTTGGTATTCTGGCTGATAAAATTGGTCGTCGTAAAACTTTTGCAATTTATTATATTGGTGGTACAGTATACTGTCTCATTTACTTCTTCTTATTCACAGATTCAACATTATTATTATGGGGAAGTGCATTGCTTGGATTCTTTGCAAATGGAATGATGGGAGGGTTTGGGGCAATTTTAGCTGAAAACTACCCTGCTGAAGCTCGCTCTACCGCAGAAAACTTTATTTTCGGTACAGGACGTGGGTTAGCTGGATTTGGGCCTGTTATTATCGGCTTACTCGCTACAGGCGGCAACCTGCTTGGAGCATTGTCCTTGATTTTTATCATCTACCCAATCGGGTTAATTACAATGCTAATATGTGTACCAGAAACAAAGGGAAAAGTATTAGATTAA	MNVTTDVQQTTEETKAKRYKTLFGSALGYAAEGLDMLLLSFVLVYILKEFHLSPVEGGNLTLATTIGMLIGSYLFGFIADLFGRIRTMAFTILLFSLATALIYFATDYWQLLILRFLVGVGVGGEFGIGMAIVTETWSKEMRAKATSVVALGWQFGVLIASLLPAFIVPHFGWRAVFLFGLIPALLAVYVRKSLSEPKIWEQKQRYKKELLQKEATGKLTTTEAEQLKHIKKFPLRKLFANKKVTITTIGLIIMSFIQNFGYYGIFTWMPTILANKYNYTLAKASGWMFISTIGMLIGIAIFGILADKIGRRKTFAIYYIGGTVYCLIYFFLFTDSTLLLWGSALLGFFANGMMGGFGAILAENYPAEARSTAENFIFGTGRGLAGFGPVIIGLLATGGNLLGALSLIFIIYPIGLITMLICVPETKGKVLD				NA	NA	NA	NA	NA
AK009_05290	1569		COG1292	Glycine betaine transporter 2	ATGAGGATGAAGAGTCGAAAAACTGATTGGCCTGTATTTATTATTAGCGGTGGTTCACTTTTATTATTTGTAATTGCAGTTTTTTTGAACAAGGATTATGTAGAGAGTGCGATTAATAACAGTTTCGCTTTTTCAATTAAATATTTTGGTACCTTCTGGCAAGTTTTATTATTAGGTACATTTATTGTTGCGATGTGTATGGCGTTCTCCAAATATGGGAGAGTTAAACTTGGGGGATTAGAAAAACCTGAGATTAGTACGGCAAAATGGCTTGCTATTATTATGTCTACATTACTTGCCGGAGGTGGCGTTTTTTGGGCAGCAGCAGAGCCAATGTACCATTTGATGACGGTGCCACCAATACATGATGGTATATCTGCTGGAACGAAAGAAGCAGTCATGCCTGCTTTAGCACAAAGTTATATGCATTGGGGATTTTTAGCATGGACGATTTTAGGTACAATTAGTGCGGTAGTTATGATGTATGGACATTATCATAAAGGTATGCCGCTAAAACCTCGAACGCTTTTATATCCTATTTTTGGGGAAAAATTAAGAAAGAGCCTGCTTGGAACGATAATTGATGCAGCTGCAATTATTGCAGTAGCTGCAGGTACAATTGGCCCCATTGGATTTTTAGGTTTACAAGCAAGTTATGGGTTACAAGAATTATTTGGAATTTCTGATGTGTTTACTACTCAATTGGCAATTATTGTTTGTGTAGTGGCCGTGTCTACCATATCGGCAGTAACAGGTATTGATAAAGGGATTCAAATTATAAGTAATTTAAATGTTAGATTAGCAATTTTGTTAATGGCATTCATATTACTATTTGGGCCAGGTGGATTTATTATTGATTCGTTTGTTTCTTCGTTTGGATTTTATGTAAGTGAGTTTATACCGATGAGCACATACCGTGGTGATACAAGTTGGTTAGGATCTTGGACAATCTTTTTCTGGGGATGGTTTATTGGATACGGACCAATGATGGCAATTTTAGTGAGTCGAATTTCAAGAGGGAGAACGATTCGAGAAATCATCGTTGCAATTGGAATTATCGCACCTATTATTACAACGTTTTGGTTTACTATATTAGGTGGATCAGGTGTGTTTTATGAGTTAATGAATCCTGGTTCTATCTCGGACGCATTAAGTGAATCTGGTATGCCGGCAGCTATGATTGCAATTACAGGGCAATTGCCACTTTCTAATATTATTGGACCAGCATTTCTTTTATTAACAATTTTATTTGTAGTGACAACAGGAGATTCAATGGCGTATTCCATTTCAATGGCAGTGACTGGAGACGGAGATCCTAGAATTAGTTTGCGAATTTTTTGGTCGCTTATTATGGGAGCAGTTGCAGCAATTCTTTTATATATGGGTGAAGGAAGTATTAATGCGCTACAATCGTTTATCGTAGTGACGGCAGTTCCGGTATCAATTTTATTATTCCCAATGCTATGGTTAGCGCCTAAAGTTGCGGGAGAATTAGCATTAAAACAAGGTATTGTAAAAGAAGAAGATAAAACTGCATTCTTATTTCAGAAGGCTAGTAAATCAAAATAA	MRMKSRKTDWPVFIISGGSLLLFVIAVFLNKDYVESAINNSFAFSIKYFGTFWQVLLLGTFIVAMCMAFSKYGRVKLGGLEKPEISTAKWLAIIMSTLLAGGGVFWAAAEPMYHLMTVPPIHDGISAGTKEAVMPALAQSYMHWGFLAWTILGTISAVVMMYGHYHKGMPLKPRTLLYPIFGEKLRKSLLGTIIDAAAIIAVAAGTIGPIGFLGLQASYGLQELFGISDVFTTQLAIIVCVVAVSTISAVTGIDKGIQIISNLNVRLAILLMAFILLFGPGGFIIDSFVSSFGFYVSEFIPMSTYRGDTSWLGSWTIFFWGWFIGYGPMMAILVSRISRGRTIREIIVAIGIIAPIITTFWFTILGGSGVFYELMNPGSISDALSESGMPAAMIAITGQLPLSNIIGPAFLLLTILFVVTTGDSMAYSISMAVTGDGDPRISLRIFWSLIMGAVAAILLYMGEGSINALQSFIVVTAVPVSILLFPMLWLAPKVAGELALKQGIVKEEDKTAFLFQKASKSK	PGPT0013600_591	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK009_05291	1071	nos	COG4362	Nitric oxide synthase oxygenase	ATGAGTGAAACGAAACAATTAATAGAGGAAGCAAGTAATTTTATTACGATTTGTTATAAAGAGCTTCATAAAGAACAATTGATAGAAGAACGTATAAAAGAAATTCAAATTGAGGTAGAGAAGACAGGGACATATGAGCATACATTTGAAGAACTTGTTCATGGTTCACGAATGGCATGGCGTAACAGTAATAGATGTATTGGAAGACTATTTTGGAGTAAGATGCACATATTAGATGCGCGCGAAGTAAATGATGAAGAGGGTGTATATAATGCATTAATTCATCATATTAAATATGCAACGAACGACGGGAAAGTTAAACCAACCATTACGATTTTTAAGCAATATCAAGGTGAGGAAAATAATATACGAATTTATAATCACCAATTGATTCGATATGCAGGATATAAAACAGAAATGGGAGTGATCGGTGACTCTCATTCCGCTACATTTACGGACTTTTGTCAGGAGCTTGGCTGGCAAGGAGAAGGTACGAATTTCGATGTATTGCCACTTGTGTTTTCTATAAACGGGAAGGCGCCTACATATAAAGAAATTCCGAGGAAAGAAGTAAAAGAAGTGCCAATTGAACACCCAGAATACCCTATTTCATCACTTGGAGCAAAATGGTATGGGGTTCCAATGATCTCGGATATGTGCTTAGAAATTGGCGGTATTTCTTATACAGCTGCTCCGTTCAATGGATGGTATATGGGAACAGAAATCGGGGCGCGCAACTTAGCGGATCATGATCGTTATAATTTACTTCCGGCTGTTGCGGAGATGATGGATTTAGATACATCGAGAAACGGTACGTTATGGAAGGATAAGGCGCTAATTGAGTTGAATATTGCCGTACTACACTCTTTTAAAAAACAAGGAGTTAGTATTGTTGATCATCATACTGCTGCACAACAATTTCAGCAATTTGAGAAGCAAGAAGCTGCTTGTGGTCGTGTTGTAACAGGTAATTGGGTGTGGCTTATTCCACCATTATCTCCAGCTACCACTCATATTTATCACAAACCGTATCCGAATGAAATTTTGAAGCCAAATTTCTTTCATAAATAA	MSETKQLIEEASNFITICYKELHKEQLIEERIKEIQIEVEKTGTYEHTFEELVHGSRMAWRNSNRCIGRLFWSKMHILDAREVNDEEGVYNALIHHIKYATNDGKVKPTITIFKQYQGEENNIRIYNHQLIRYAGYKTEMGVIGDSHSATFTDFCQELGWQGEGTNFDVLPLVFSINGKAPTYKEIPRKEVKEVPIEHPEYPISSLGAKWYGVPMISDMCLEIGGISYTAAPFNGWYMGTEIGARNLADHDRYNLLPAVAEMMDLDTSRNGTLWKDKALIELNIAVLHSFKKQGVSIVDHHTAAQQFQQFEKQEAACGRVVTGNWVWLIPPLSPATTHIYHKPYPNEILKPNFFHK	PGPT0020095_302	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
AK009_05292	627	sodA2	COG0605	Superoxide dismutase [Mn] 2	ATGTCTTCATTTCAATTGCCAAAGCTTTCATATGACTATGATGAACTAGAGCCACATATCGATAGCAATACACTTTCCATTCATCATGGAAAGCACCATGCGACATACGTAAACAATTTAAATGCTACTTTAGAAAATTATACTGAATTACATAATAAATCTTTAGAAGAATTGCTATGTAATTTAGATGCTTTACCGAAGGAAATTGTTACAGCTGTACGAAATAACGGTGGTGGTCACTATTGTCATAGTCTTTTTTGGGAAGTGATGAGCCCACGAGGTGGCGGTGAGCCTAATGGAGACGTTGCAAAAGTAATTGATTATTATTTCAATACCTTTGACAACTTAAAAGATCAACTTTCCAAAGCAGCTATTAGTCGTTTTGGAAGTGGCTATGGATGGCTTGTTCTTGACGGTGAGGAACTCTCTGTTATGAGTACACCAAATCAAGATACGCCTTTGCAAGAAGGAAAAATCCCCTTACTCGTAATTGATGTATGGGAACATGCTTATTATTTAAAGTATCAAAATCGGCGCCCCGAGTTTGTTACCAACTGGTGGCATACAGTAAACTGGGACCAAGTAAACGAGAAGTATTTACAAGCAATTCAATCGCAAAAACATTAG	MSSFQLPKLSYDYDELEPHIDSNTLSIHHGKHHATYVNNLNATLENYTELHNKSLEELLCNLDALPKEIVTAVRNNGGGHYCHSLFWEVMSPRGGGEPNGDVAKVIDYYFNTFDNLKDQLSKAAISRFGSGYGWLVLDGEELSVMSTPNQDTPLQEGKIPLLVIDVWEHAYYLKYQNRRPEFVTNWWHTVNWDQVNEKYLQAIQSQKH	PGPT0004190_2499	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
AK009_05293	882			hypothetical protein	ATGATGAAATTGAAGAAAGTGTTGGTGCTAGGAGGAACAAGATTTTTTGGTAAACATTTAGTAGAGTACCTTTTGCAAGCTGGACACGATGTAACAATTGCCACGAGGGGAGTTACTGAAGATTCTTTTGGTAACGCAGTAAAAAGAATAATTGTCGATAGAGAAGATGGAAAACTACTAGAAGAGCGTCTAGAAGGAAAAAGTTATGATATTGTATACGATAATTTATGCTATAGTTCAAATGCAGCGAAAATGGTATGTGAAGTTTTGAAAGGAAAAACGAAGAAGTATATTATGACATCTTCAATGGCTGTCTATGAACCTGCATTAAGCTTGTTAGAAGAGGACTTTAATCCATACGAATATGCAATTACATATGGAGATAGGAATGATTTTAATTATAGTGAAGGAAAGCGATTAGCCGAAGCGGTTTTATTTCAATATGCAACATTCCCAGTCGTTGCAGTGCGTTTTCCAGTTGTTATTGGAGAAAATGATTATACGAAAAGGTTACAATTTTACGTTGAATGTGTTGTGAACCAAAACCCTATCGTTGTGGATCATGTAGATGGAAATTTGTCATTTATACATGAAAAAGAGGCAGGAGAGTTTCTAGCTTGGTGCGGAATGGAAAATGTGAAAGGACCAATTAACGCCTGTAGTAATGGGGTAGTTTCTACGGAAGAAATTATTCATTTCATAGAAGAGAAGACGGGAATAAAAGCACTTATCCAGGAAGCTGGGGAAAATATAGCTCCTTATAATGAGGTAACTAACTGTACGTTACATAATGGAAAGGCTCGTGAATTTGGATTTTTGTTCCGAGAGCTGAAAATAGAAATAAAAAATGTTTTAAAACATTATATAAATACAATGAAGTAA	MMKLKKVLVLGGTRFFGKHLVEYLLQAGHDVTIATRGVTEDSFGNAVKRIIVDREDGKLLEERLEGKSYDIVYDNLCYSSNAAKMVCEVLKGKTKKYIMTSSMAVYEPALSLLEEDFNPYEYAITYGDRNDFNYSEGKRLAEAVLFQYATFPVVAVRFPVVIGENDYTKRLQFYVECVVNQNPIVVDHVDGNLSFIHEKEAGEFLAWCGMENVKGPINACSNGVVSTEEIIHFIEEKTGIKALIQEAGENIAPYNEVTNCTLHNGKAREFGFLFRELKIEIKNVLKHYINTMK				NA	NA	NA	NA	NA
AK009_05294	591	ureI		Acid-activated urea channel	ATGGGTTATGTAGGATTATTACTTTCAGGGGCAGCTTTATTTTTAAATAGTCTTGTTATATTAGGGAAAGCAGAGATGAAAAGTGCGGGTGTTTTTAATTTATTTGTGGGTGCACTACAAATTATTATTCCGTTTTATTTGATCATGATTTCTGACCAAAGCAATTGGACAGTGTATTCATATGCGGCTACTTTCTTATTTGGATTAACCTATTTATATGTAGGTGTTACTTTTATAAAGGGAATGGATAGTAGTGGTCTAGGATGGTTTTGTATTTGGGTAGCAATTATAGCCTTATTCTATATGGTTGTTTCATTTGTTCAATTTCATGATGTTGTTAATGCGTTAACATGGTTTATGTGGGCATTACTTTGGTACTTATTCTTTGTGCTAAATACACAAAAAAAGAATATTAATCAATATCTCGGAAGAATCGCCTTCGTACAATCATGGGTAACATTGACTTTACCTTCACTATTTTATTTTATGGGAGTGTGGGGAGAGGGATTTGTATATGAACTATGGGTTTATGTATCAGTAATTTCTATTTTGTACTTTTGTTATTGTATTTTTAAATATAGAGTCCGTTAA	MGYVGLLLSGAALFLNSLVILGKAEMKSAGVFNLFVGALQIIIPFYLIMISDQSNWTVYSYAATFLFGLTYLYVGVTFIKGMDSSGLGWFCIWVAIIALFYMVVSFVQFHDVVNALTWFMWALLWYLFFVLNTQKKNINQYLGRIAFVQSWVTLTLPSLFYFMGVWGEGFVYELWVYVSVISILYFCYCIFKYRVR	PGPT0000990_2	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000990-ureI-K03191	NA	NA
AK009_05295	402			hypothetical protein	ATGCCTCTTCATTATCCAAATCATTCTGTTTTTCACTCTACAGGTGTATTAACAAGAGAACCTGCAACTATTTCAGCGGTCATAAACATTGTAAATTTAGATGCATATTACGCTCACTATGTAAATATAGAAGTGTGGGATTGGTCTAATTATTCTAATCCTGTAAAGTTACCTGTATTAATTGGTGAAAATGCAGAAGTAGAATTCCCATATGTTTTACAAGGCAATCATCTCGCAGTCTTTTATGCTAATTTAGATGAGACTATTGATTTGTATGAAATACGTATTTCTTATCCCGCTCACTCCAATATTATTGCAAATTGTTTCGGACGAAGTCTCCCACCATATACAAGTCAAGAGGGAAACACAGTATATCACAAACAACTTGTTCGAATTCATTAA	MPLHYPNHSVFHSTGVLTREPATISAVINIVNLDAYYAHYVNIEVWDWSNYSNPVKLPVLIGENAEVEFPYVLQGNHLAVFYANLDETIDLYEIRISYPAHSNIIANCFGRSLPPYTSQEGNTVYHKQLVRIH				NA	NA	NA	NA	NA
AK009_05296	150			hypothetical protein	ATGAGGGATCAACTGCCTGTAAAACCCCAACTGATTAAAGTTTTATTTTATGATCAGCCAGCAACACAAGAGCAATTTCAGCGAGCATATGTAAATTTATTAAAAGAAATTAAAGGTTTTGATTCAAGCCTATTCCTTATACAAAATTGA	MRDQLPVKPQLIKVLFYDQPATQEQFQRAYVNLLKEIKGFDSSLFLIQN				NA	NA	NA	NA	NA
AK009_05297	420	galE	COG1087	UDP-glucose 4-epimerase	ATGCCATATGTAACGCAAGTAGCAGTAGGTAAGTTAAAAGAATTAAGTGTATTCGGAAATGACTATCCAACGAAAGATGGAACAGGAGTCCGTGATTACATCCATGTTGTGGACTTAGCAAATGGTCACGTAAAGGCGCTTGAGAAAGTAATGAGTACAACAGGAGTAGATGCTTATAACCTGGGCACAGGCATGGGCTATAGTGTACTAGAGATGGTTGAAGCATTTGAAAAAGTTTCGGGCAAGAAAGTTCCTTATAAAATCACAGAGCGTCGCCCAGGTGATGTGGCAGTATGTTTTGCTGATGCATCGAAAGCAAAGCGTGAATTAGGCTGGGAGGCAACACGCGGATTAGAAGAGATGTGTGCAGATTCTTGGAAATGGCAATCAAATAATAAAAATGGCTATTTAGAAGTTTAA	MPYVTQVAVGKLKELSVFGNDYPTKDGTGVRDYIHVVDLANGHVKALEKVMSTTGVDAYNLGTGMGYSVLEMVEAFEKVSGKKVPYKITERRPGDVAVCFADASKAKRELGWEATRGLEEMCADSWKWQSNNKNGYLEV	PGPT0017825_38	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
AK009_05298	135			hypothetical protein	ATGATGAAGTTTAATTCAGTGGATCTGCAAGCAAACATAAAAGAAGGAAAAAATTACAATTTTACTTTACGTGGATATAGAGTACCTATACTTTCATGGTTTCCAAATTTAGATGGTGCCGAACCACAAAATTAG	MMKFNSVDLQANIKEGKNYNFTLRGYRVPILSWFPNLDGAEPQN				NA	NA	NA	NA	NA
AK009_05299	525			hypothetical protein	ATGAAATTAGAGAAAAGTTTAATCATAACAATTATTTCTGTATTTATTTTAGGAGTAGTTTCGACTTTGGTATATCAAGCTTCCACCGGTAATAACAAAGGGAACTCAATTAAGAGCGAAAATGTTGCTTCTGTATCAAAAGAAGTAAAAGAAAATGAAAAGAATAAAAAGATGGTAGTTGATTTCTATAATGAAGTTTTTAACAAACATAATATCGATATTATCCCTAAATATGTAGGTGAAGAGTATAAGCAACATAATCCTTTTGTTGCTGATGGACGAAAAGCCTTCATGGATTTCTTTAAGGAGGATTTTGTTAAAAATCCTAATTCCTCTGCAGAGATTAAACGTGTAGTAGCTGAAGGGGATACGGTTGCTCTTCATGTACATTCTCGTACTAATTCTCAAGATAAGGGAGTTGCTATAGTGGATATATTTCGTATCAAGGATGGAAAGATTGTCGAACACTGGGATGTAATTCAAGAGATTCCAAGTGAAGCAGCTAATGATAATACGATGTTTTAG	MKLEKSLIITIISVFILGVVSTLVYQASTGNNKGNSIKSENVASVSKEVKENEKNKKMVVDFYNEVFNKHNIDIIPKYVGEEYKQHNPFVADGRKAFMDFFKEDFVKNPNSSAEIKRVVAEGDTVALHVHSRTNSQDKGVAIVDIFRIKDGKIVEHWDVIQEIPSEAANDNTMF				NA	NA	NA	NA	NA
AK009_05300	393			hypothetical protein	ATGAATAAATATCAAAAGCTATTACATGAAACGTATGTGTTAACTGGCGAAGGGAAATTGGATGCGTTCAAAACGTATTTAAGTGAAAATGTATCTTGGACAGAAGCTGCTGGGTTTCCATACGCGGGTACTTATATTGGTCCAGATGAAGTAGTGAAGAACGTACATGAACGTCTTGGTACGGAATGGGATAACTATAGTGCAAAAGATGAAATTTATGCTTTTAATAACAATACTGTTATTGTGTATGGAAAATATAGTGGAACATATAAAGCTACAGGGAAGTCATTTGTAGCAGATTTTTGTCATCTTTATAAGTTTGATGAGAACGATAAGGTTAAGAAGTTTATACAAATTGTGGACAGTGCAACTGTTAATGAGGTATTAAGTTAG	MNKYQKLLHETYVLTGEGKLDAFKTYLSENVSWTEAAGFPYAGTYIGPDEVVKNVHERLGTEWDNYSAKDEIYAFNNNTVIVYGKYSGTYKATGKSFVADFCHLYKFDENDKVKKFIQIVDSATVNEVLS				NA	NA	NA	NA	NA
AK009_05301	822			hypothetical protein	ATGTTTAAAACAATCGATACAAATCAAAAAGATGTGAAATTAACGGTGTTTAGTTCGGACGAAAAAAGCTTTATGGTCACGGCAACATTAGTTGAGAAAGCAGGACATGCATTTTTAATAAACTCAAAATTTACTCAATCTGATTCGAAAGAAATTGTTGAGTATCTGAAAAAAAACAACTTATCTCTAGATAAAATCTTTATTATTCATGGGGATCCAGACTACTACTTTGGATTAGAGAGCATTAAAGCCGTTTACCCAGAAGCTATAGCGTATGCAACAGAGTCTACTGTTGAACATATCGTTCATTCTGTCTTAGGGAAATTAAAAGTTTGGAAAGACGCCCTTGGAGAAAATGCACCGAATAACGTGGTATTACCTCAAGTGTTTAAAGAAAAAACAATTGATTTTCAGGGGTTAACATTTGAACTAGTAGGCTTAGATCATTACAGAACTAGCTTATTTAATAAAGAGCTGAAAGTATTAATTGGTGGTATTGATGTATTTAACGAAATCCATGTATTCTTAGCTGATACTAGCTCAAAAGCGGCAATGGAGGCTTGGATTGAAAACTTGAAAGTGTTACAAGCATTACATGCTGACATCATTGTACCTAGCCATGGATCAATTGAAAAATCCTTAAATAATCAAGCACTTACTGCGACAATGGATTATCTAAGAACTGCGATTCAAGCTTCTGAGGAAAGTAAAACTTCAAAAGATTTTGTAGCAAGACTTGATGCAGCATATCCAGGCTATGCAAATAAAGGTGTATTAGAATTAAGTGCAAAAGTTGTAACAAAAGAAATGCCTTGGGGTTAA	MFKTIDTNQKDVKLTVFSSDEKSFMVTATLVEKAGHAFLINSKFTQSDSKEIVEYLKKNNLSLDKIFIIHGDPDYYFGLESIKAVYPEAIAYATESTVEHIVHSVLGKLKVWKDALGENAPNNVVLPQVFKEKTIDFQGLTFELVGLDHYRTSLFNKELKVLIGGIDVFNEIHVFLADTSSKAAMEAWIENLKVLQALHADIIVPSHGSIEKSLNNQALTATMDYLRTAIQASEESKTSKDFVARLDAAYPGYANKGVLELSAKVVTKEMPWG				NA	NA	NA	NA	NA
AK009_05302	621			hypothetical protein	ATGGAGACGAAACAAGATAACCTTATTTACGTATGGGATGCATATTGTGGATGGTGCTATGGTTTTTCAGAAAGTATTAAAGGATTTTACAAAAACCACACTGAAGTGCCATTAACAGTTTTATGTGGAGGGTTATTTTTAGATAATTTACCAATGAAAAACTTCTCATATATAGAAGAGGGAAATAAAAGAATTAATCAACTTACAGGTGCTGAATTTGGTCCTTCCTATCAAAAATTGGTGGAGGAAGGGACTTTTAAAATGAATTCGAAAGATGCTGCAATTGGTTTTTCAGCTTTACGCTCATTAGCGCCAGACCGTTTATTAGAATTCACTTCGGCTATGCAAAAAGCGTTTTATTATGAGGGCCAAAGTCTGAGTGATCCTGAAACATATCGCAAAATTGCAATCGAGCATGGTTTGGACCCTGAACAAGTATTAGAACGTTTAAACGCTCAAGAAACAATATTAGATGTCCAAAATGATTTCAATAAAGTTCGACAGCTTGGTGTTAATAGCTATCCTTCATTACTTTTACAAAAGGATAATCAAATTATTCCTATTGGTGGTGGCGTAATGACGCCAGGTAAAATTGAAGCGCGTTTTAAAAATTTATATTAA	METKQDNLIYVWDAYCGWCYGFSESIKGFYKNHTEVPLTVLCGGLFLDNLPMKNFSYIEEGNKRINQLTGAEFGPSYQKLVEEGTFKMNSKDAAIGFSALRSLAPDRLLEFTSAMQKAFYYEGQSLSDPETYRKIAIEHGLDPEQVLERLNAQETILDVQNDFNKVRQLGVNSYPSLLLQKDNQIIPIGGGVMTPGKIEARFKNLY				NA	NA	NA	NA	NA
AK009_05303	972	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGCATGAAGAAAACTTAATTGAAGTTCGGAACTTAAAAAAGTATTTTCCTATTAAAAAGGGACTATTCGGCAGAAAAACAGAGCAATTAAAAGCAGTCGACGACTTAAGCTTCACAATTAAAAAGGGTGAAACATTCGGATTAGTAGGCGAATCTGGCTGCGGAAAATCAACGACAGGAAGAAGTATTATTCGTTTACACGATGTCACTTCAGGTAACGTTTTATTCGACGGCACAGACATCGCAAGTTTAAAGGAAAGTGAACTAAAAGAATATAGAAAACGAATGCAAATCATTTTCCAAGATCCATACGCATCATTAAACCCGTCGATGAACGTATTCCAAATTATTAGCGAACCAATGAACATTCATGGATCTTATGAAAAAGAAGAACAAAAAGAAATCATTTTAGACCTACTAAAAAAGGTAGGTTTAAAAGAAGAACACTTATACCGCTACCCGCACGAATTTAGCGGAGGTCAGCGCCAGCGCATCAGCATCGCGCGCGCACTATCTGTAAAACCAGATTTCATTCTATGCGACGAACCAATCTCAGCACTAGATGTCTCAGTCCAAGCACAAGTCGTAAACATGCTGCAAGACATCCAAGAAGAAACAGGCGTCACATACTTATTCATCGCACATGACCTATCCATGGTAAGACACATATCAGACCGAATCGGAGTCATGTACTTAGGAAATATAGTAGAAATTGCCGACAGCGAAGACCTATACACAAAACCGGCACATCCATACACACAAGCACTACTCTCATCCATGCCAGAACCAGATCCAACAAAAACAGGGGGAAATCGGATCATTCTAGAGGGAGAAGTACCAAGCCCACTCAACTCACCATCCGGCTGCAAATTCAGAACACGCTGCAAATTCGCCACTGAAAAATGCGCACAGGAAGTACCGAAGATGGTAGAGATTGCGAAGGGGCATGAGGTGGCTTGTCATTTGTTTTAG	MHEENLIEVRNLKKYFPIKKGLFGRKTEQLKAVDDLSFTIKKGETFGLVGESGCGKSTTGRSIIRLHDVTSGNVLFDGTDIASLKESELKEYRKRMQIIFQDPYASLNPSMNVFQIISEPMNIHGSYEKEEQKEIILDLLKKVGLKEEHLYRYPHEFSGGQRQRISIARALSVKPDFILCDEPISALDVSVQAQVVNMLQDIQEETGVTYLFIAHDLSMVRHISDRIGVMYLGNIVEIADSEDLYTKPAHPYTQALLSSMPEPDPTKTGGNRIILEGEVPSPLNSPSGCKFRTRCKFATEKCAQEVPKMVEIAKGHEVACHLF	PGPT0004440_7984	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
AK009_05304	993	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	GTGTCTGAAAAACTACTAGAAGTGAAAAATTTGAAGACTTCTTTTTTCATAGAAAGTGGCGAAGTTGAAGCGGTTCGCGGCGTTACATTTCGCTTAAATAAAGGAGAAGTAGTCGGTATCGTTGGGGAATCTGGAAGCGGAAAGAGTGTAATGGCGAAGTCTGTTATGTCTCTCGTTACGTCACCAGGAAAAGTGAAAGAAGGGGAAATCCTTTTTCATAATGAAAACATACTTTCTAAATCTGAAAAAGAATTGCGCTCTATTAGAGGAAATCAAATTTCACTTATCTCTCAAGACCCAATGTCAGCGCTAAATCCAGTCGTAAAAATTGGGAAACAAATGACGGAAGTAATTATAAGGCATCAAAAAGTGAAAAAGAAAGAAGCTGAGCAAATCGCAGTTAACTTGTTAAAACAAGTCGGTCTTTCTTCACCAGAAGAAAGGGTGAAACAATATCCGCATGAACTAAGCGGCGGTATGAAGCAGCGAGTTATGATCGCAATGGCGATGTCTTGTAACCCAGACCTTCTCATTGCGGATGAACCGACGACAGCACTTGATGTAACGATACAAGCACAAATACTAGATTTAATGAAAAACTTAAAAAATGAAACGAACATGGCGTTACTTCTTATTACGCATGATTTAGGAATAGTAGCGCAAAACTGTACACGCGTTATCGTTATGTATGGCGGGCTGATTATGGAAGAAGGACCTGTACTTGATATTTTCCAATCGCCGAATCATCCATATACGAAAGGGCTATTAAATTCTCTGCCGAAAATATCGAACGGCGTAAAAGAAAGACTCGCGCCAATTCAAGGTGTAACGCCAAACTTATTAAACCCGCCACAAGGTTGCCCATTCGCAGAGCGTTGCCCGCATGCGATGGACATTTGTGAAAAAGAACGTCCGCCATATTTTGAAGTGGGAAACGAAAGACGTTCCATGTGCTGGTTAAACGATAAGACAGTGGGTGAATCACATGCATGA	MSEKLLEVKNLKTSFFIESGEVEAVRGVTFRLNKGEVVGIVGESGSGKSVMAKSVMSLVTSPGKVKEGEILFHNENILSKSEKELRSIRGNQISLISQDPMSALNPVVKIGKQMTEVIIRHQKVKKKEAEQIAVNLLKQVGLSSPEERVKQYPHELSGGMKQRVMIAMAMSCNPDLLIADEPTTALDVTIQAQILDLMKNLKNETNMALLLITHDLGIVAQNCTRVIVMYGGLIMEEGPVLDIFQSPNHPYTKGLLNSLPKISNGVKERLAPIQGVTPNLLNPPQGCPFAERCPHAMDICEKERPPYFEVGNERRSMCWLNDKTVGESHA	PGPT0004435_10140	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
AK009_05305	852	dppC_1	COG1173	Dipeptide transport system permease protein DppC	ATGAATAATAGGAGATTTCAAACGATAAAACATAGCTTTACGAAAAATAAGTTTGTTGCAATGGGAGTTATTATACTTGCGGTTTTAACGGTCGCATCAATTTTCGCATTCGTATCGCCGTACGATCCTAGTAAAATGTCAATTCCAGATCGCTTACAAGAACCAAGTATGAGTCATCCTTTCGGAACGGATGATTACGGAAGGGATTACTTAACGAGAGCGTTATATGGCGGACGAGTTTCACTTGCGGTCGGTTTCCTTGCGATGGTTGTTTCTATTACAATCGGGACCGCAGTCGGAACAATTAGCGGATATTTTGGAGGAAAGTTAGACAACTTTTTAATGCGAGTTGTTGAAGTACTTATGTCAATTCCATCATTCTTTTTAATGCTACTATTAAATGCGTATTTAAAACCAGGAATTACGACGTTAGTTCTTATTATCGGATTACTAACATGGATGGACACCGCCCGTATTGTAAGGGCAGAAACGTTATCTGTAAAAGAGCGTGAGTACGTTTTATACGCAAAAGTATCAGGACAAAAATCATTTATGATTATTGTAAGACATATCATTCCTAACATTTTATCAACCATTATTATCGCCGCGACATTAACGATTGCGACATCGATTTTAATGGAATCATCACTTAGTTTCTTAGGTTTAGGTATTAGAGAACCAGATTCTTCTTGGGGCAGCATGCTAAACAATGCGCAAGGATATATAGGTGAAGCTTGGTATTTAACGCTCTTCCCAGGATTCCTTATCCTTTTAAAGGTACTGAGTTTTAACGTAATTGGTGAAGCATTGAAGAAAGCTTTCGCACCAAAAGGAGCCGGACATGAAAACTAA	MNNRRFQTIKHSFTKNKFVAMGVIILAVLTVASIFAFVSPYDPSKMSIPDRLQEPSMSHPFGTDDYGRDYLTRALYGGRVSLAVGFLAMVVSITIGTAVGTISGYFGGKLDNFLMRVVEVLMSIPSFFLMLLLNAYLKPGITTLVLIIGLLTWMDTARIVRAETLSVKEREYVLYAKVSGQKSFMIIVRHIIPNILSTIIIAATLTIATSILMESSLSFLGLGIREPDSSWGSMLNNAQGYIGEAWYLTLFPGFLILLKVLSFNVIGEALKKAFAPKGAGHEN	PGPT0004450_11957	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
AK009_05306	951	gsiC	COG0601	Glutathione transport system permease protein GsiC	GTGTATAAAGTAATTGCGAAGAGGCTTTTAAATGCAATTCCGCTTTTATTTGTTATTTCTATTATTTCTTTTCTATTAATAAAACTAGCACCGGGGGATCCGGTTCGAAACTTTGTAACGCCAAATATGAGTCCAATTGATGTGGAGCGTATTCGCGAAAGTTTAGGACTAGATCAACCAATTTACGTGCAGTATTTTTTATGGTTAAAAAACATTTTAACAGGAAACTTTGGTTACTCACTTCAAAATCATCGTCCTGTTTTGGAACTTATCACAGAAAGATTACCTGCAACAATTGGATTAATGGGATCATCTTTACTCGTCTCATTCGTAATTGCAATACCACTTGGACTGTTTACAGGTGTGAAAAAGAATTCATTCTTTGACCGCATTGTAAACTTTATTTCATATGTTGGTATTTCTATGCCGGTTTTCTGGTTTGCACTACTATTAGTCTACTTATTCTCTTTAAAATTGAACCTACTTCCGAGTATGGGTATGCGCACCGTTGGTAAAGACTCTGTCTGGGATATTGTGCAACACGGCATTTTACCTTGCATGGTGCTTGCGTTCCAAAACGTATCTGTTTATATGAGATATATTCGTTCAAGTACGATTCAGCAATTAGAAGAAGAATATGTACAAATTCAATATGCATACGGCGCTTCGAAGAAAACAGTGTTATTTAATCACGTACTTCGAAATGTATTAATACCAATCATTACAATTTTCGGATTATCGATTCCAAGTTTAGTATGCGGAGCATTTATTACGGAAACAGTATTCTCATGGCCAGGACTTGGTTCACTTGGGGTAAATGCTATTTTTAGATTTGATTATCCGATTATCATGGCAATTACATTACTATCATCATTCATGTTAATTCTCGGTAACTTAATTGCTGATATTTTATATGGCGTAGTAGATCCGCGCATTCGAATGAGGGGGTGA	MYKVIAKRLLNAIPLLFVISIISFLLIKLAPGDPVRNFVTPNMSPIDVERIRESLGLDQPIYVQYFLWLKNILTGNFGYSLQNHRPVLELITERLPATIGLMGSSLLVSFVIAIPLGLFTGVKKNSFFDRIVNFISYVGISMPVFWFALLLVYLFSLKLNLLPSMGMRTVGKDSVWDIVQHGILPCMVLAFQNVSVYMRYIRSSTIQQLEEEYVQIQYAYGASKKTVLFNHVLRNVLIPIITIFGLSIPSLVCGAFITETVFSWPGLGSLGVNAIFRFDYPIIMAITLLSSFMLILGNLIADILYGVVDPRIRMRG	PGPT0004445_10926	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
AK009_05307	1590	appA_1		Oligopeptide-binding protein AppA	ATGAAACAGAAGTTATTTGCATTACCATTTGTTCTAATACTACTTATTGCATTAGCGGCTTGTTCTGGGGAAAAAGATTCTTCGAAGCAAGCGGGCACTAGTAAATCAGGGACTCCGAAAGACGGAGGGGCGTTAACGATTGGTGTTAGCGATAATCCAGATACGATGAATCCGCTTTATGCGAATGATCGTGTGTCATTAACTGTGCAGCAGGCTTTATATGCGCCGCTATATCATATGGAAGACGGTAAGAAAAAGTTTGTTCTTGCTGAGAGCTTTACGCCTTCAGAAGATCAATTAACGTGGACACTGAAATTAAAAGATAATTTGAAATGGCATGATGGTAAGAAAATTACATCAGACGATATAGCATTTACATTCCAATCTATTTTGGATGAGAAGCAAAATAGCTCAAGTCGTGAAAACTTTATTTTTAAAGGAAAGCCGCTTGAGGTGAAAAAGGTAGATGAGTTAACAACTCAATTCGTTTTACCACAAGTAAGTGCATCTTTTGAAGGTGTGATGAATGATTTCTTCCCAATTCCGAAACATGTATTTGAAGGGGAAGCAGATTTAGCGAAGAGTAAGAAAAACTTACAGCCTGTAGGATCAGGGCCGTTTAAATTTAAAGAGTATAAATCAGATGAGTACGTTGCATTAGATCGATTTGATGATTATGTAGGTGGGAAAGCTAAATTAGACTCTATCGTATACCGCGTTGTAAAAGACCGTAATACAGCAAATGTTTCACTGCAAAATGGTCAAATCAACATGAAGATGATTGAGCCGCAAGACTTTAAGAAACTAGATAGCACTGGGAACTTCTCAATGGTGACATTCCCTGAAGGTAGATTATTCTACTTATCTTATAACATGAATACTGATCTTATGAAGAAAAAAGAAGTGCGCCAAGCAATTGCACATGCGTTAGATAAGAAAGAAATGATTAACTCAGCATTCGTTTCGGGTGAATTTGCAGAACCAGCAAATTCAATCTTAACGCCAGACGCTATGTATTATGCGAAAGATATTAAAGACTATAAGTATGATAAAAAAGAAGCGAAAGATTTATTAGCAAAAGCTGGCGTGAAAGATAAGGAAAAAGTACGTGTGATGTATGTAACGAATAATAAAATTATGGAAAGCTTAGCGCTTTATACACAACAAAAATTAAAAGAAGTTGGCTTAGAAGTTGAACTAAATGCATTAGATGCTAGTGCGGCAAGTGAAAAAGGCTTAGATAAAGAGAATAAAGAATATGACATTACATTTGGTGGTTACATAATGGGACCTGAGCCAGATTCATATAAGAGCTTATTCTTAAGCAATGCTGAATACAATTATGCACGATATAAAAACGCTGATTTCGATAAGTTATGGGAAGAAGCTGCAGTTGAGACAGATAAAACAAAACGCGCAGAGCTATACCATAAAATTCAAGAGACAGCTAGAGAAGACGTACCTTATCTACCAATCGCGTATCCGAAAGCAGTTATTGCAGTAGATAAAAAGTTTGATGGATTAAAAGAAGCGAAAGCAATTCCTGTCACAATGTTTGAAGATCTATCTAAGATTTATGAAGTGAAATAA	MKQKLFALPFVLILLIALAACSGEKDSSKQAGTSKSGTPKDGGALTIGVSDNPDTMNPLYANDRVSLTVQQALYAPLYHMEDGKKKFVLAESFTPSEDQLTWTLKLKDNLKWHDGKKITSDDIAFTFQSILDEKQNSSSRENFIFKGKPLEVKKVDELTTQFVLPQVSASFEGVMNDFFPIPKHVFEGEADLAKSKKNLQPVGSGPFKFKEYKSDEYVALDRFDDYVGGKAKLDSIVYRVVKDRNTANVSLQNGQINMKMIEPQDFKKLDSTGNFSMVTFPEGRLFYLSYNMNTDLMKKKEVRQAIAHALDKKEMINSAFVSGEFAEPANSILTPDAMYYAKDIKDYKYDKKEAKDLLAKAGVKDKEKVRVMYVTNNKIMESLALYTQQKLKEVGLEVELNALDASAASEKGLDKENKEYDITFGGYIMGPEPDSYKSLFLSNAEYNYARYKNADFDKLWEEAAVETDKTKRAELYHKIQETAREDVPYLPIAYPKAVIAVDKKFDGLKEAKAIPVTMFEDLSKIYEVK	PGPT0004430_11239	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
AK009_05308	978		COG2423	Delta(1)-pyrroline-2-carboxylate reductase	ATGCTAGTTATAAGCGCGAACGAACAAAGAAACTTAGTAAATATGAATGAAGTTATTGAATACGCGGCACTTGCTTTAAAAGAATTTTCCGCAGAAAGAACGATTACACCAATAAGGGGGTCATTACCATTTGCGAACGAGAAAAATACGGCATTAATTATGCCTTCAGTAGCGGAAAGGCTTGAGGCACTTGGAGTAAAAATAGTAACGGTAGTCCCGCAAAATAAACAGATAGGAAAGAAAACGATCAATGGGATTGTGATGCTATCAGACTTTCAAACGGGAGAACCACTCGCACTTTTAGAAGGATCGTACTTAACGATGATTCGAACAGGTGCCTTATCAGGAGTAGCGACAAAATATTTAGCTCGTCATAACGCAAAAACTTTATGCATTATCGGCACGGGTGAACAAGCAAAGGGGATTGCCGAAGCAATATTTGCAGTTAGAGATATCGAAAAGGTCATTTTATACAATCGAACAGAAGAAAAAGCGTATGCATTTGCGCAATATATACAAGAGAAATTAGGTAAACCAGCATACGTTTATAGAGATCCAAATGAAGCAATAAGCGAAGCAGACATCATCGTCACAACTACGAACGCATCCACACCAGTCTTCTCAGAAACACTACAAAAAGGCGTCCACGTAAACGCCGTCGGCTCATTCAGACCGAGCATGCAAGAACTACCATCTCACGCCATCACAAGCGCAAACAAAGTAGTAGTCGAATCAAAAGAAGCAGCACTAGACGAAACAGGCGATCTCCAAGTTCCGATAAAAGAAGGTCTATTCAAAGCGAACGCCATTCACGCTGAACTTGGTCAAATTATAAGCGAGGAAAAAGCAGGCCGCGAAAGCGATGAAGAGATTACTATTTTCAAATCAGTTGGTTTGGCAGTAGTGGATATTATCGTTGCGAAGTATTTGTATGAGAGAGCGGTGGAGCAAGGAGTAGGGAGTAAGATTGAGTTTTGA	MLVISANEQRNLVNMNEVIEYAALALKEFSAERTITPIRGSLPFANEKNTALIMPSVAERLEALGVKIVTVVPQNKQIGKKTINGIVMLSDFQTGEPLALLEGSYLTMIRTGALSGVATKYLARHNAKTLCIIGTGEQAKGIAEAIFAVRDIEKVILYNRTEEKAYAFAQYIQEKLGKPAYVYRDPNEAISEADIIVTTTNASTPVFSETLQKGVHVNAVGSFRPSMQELPSHAITSANKVVVESKEAALDETGDLQVPIKEGLFKANAIHAELGQIISEEKAGRESDEEITIFKSVGLAVVDIIVAKYLYERAVEQGVGSKIEF	PGPT0014250_545	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014250-ocd-K01750	NA	NA
AK009_05309	1122	prdF		Trans-3-hydroxy-L-proline dehydratase	ATGAATTTGTTGAAAAAAGAATACACATTACTGAGGGGATTTGAAAAAAGTAATGCTATACGATTTGGCATGATACTTGCGTTGGAAATAGTATCAACGTATAGGGGAGAGATAGAAATGAAGGTTAGTAAAATATATACAACGATTGATGCACACGTAGCTGGGGAGCCGCTTCGAATTATTACGGGCGGAGTGCCAGAAATAAAAGGGGAAACGCAGCTGGAAAGACGCGCATACTGTATGGAACATTTGGATTACCTTCGTGAAATTCTGATGTATGAACCGAGAGGACATCACGGAATGTACGGTTGTATCATTACACCACCAGCAAGTGCCCACGCTGATTTTGGTGTTTTATTTATGCACAATGAAGGATGGAGTACGATGTGTGGTCATGGCATTATTGCTGTCATTACAGTTGGAATTGAAACAGGCATGTTTGAAGTAAAGGGTGAAAAACAAAATTTCATTATTGATAGCCCAGCCGGAGAAGTTATTGCGTATGCAAAATATAACGGGAGTGAAGTAGAATCTGTATCATTTGAAAATGTTCCTTCATTTGTATACAAAAAAGACGTTCCTATTAAAATAGATAACTATGAATTTCAAGTAGATATCGCGTTTGGAGGAGCATTTTACGCTGTTGTAGACTGTAAAGAATTTGGTTTGAAAGTTGATTTTAAAGACTTGCCCGCTATTCAAACGTGGGGCGGTAAAATTAAACATTATATAGAGAGCAAAATAGAAGTGAAACATCCACTTGAAGAAGGATTGAAAGGAATATACGGCGTTATCTTTTCAGATGAACCGAAAGACAAAGGTGCTACGCTACGAAATGTAACGATTTTTGCTGATGGGCAAGTAGACCGTTCTCCTTGCGGTACAGGAACTTCAGCGAGAATCGCAACTCTTTTTGAAAAAGATGCCTTACAAAAAGGAGAAATCTTCGTCCATGAATGCATTACTGATGGGAAATTCCAGGGAGAAGTATTATCCGTAACAGCGGTAGGTACATATGAAGCTGTCGTTCCGAAAGTAACGGGGCATGCATTTATTACAGGGTTTCATCAGTTCGTTGTAGATCCGAGAGATGATTTGAAACGGGGATTTTTGTTAGGGTAG	MNLLKKEYTLLRGFEKSNAIRFGMILALEIVSTYRGEIEMKVSKIYTTIDAHVAGEPLRIITGGVPEIKGETQLERRAYCMEHLDYLREILMYEPRGHHGMYGCIITPPASAHADFGVLFMHNEGWSTMCGHGIIAVITVGIETGMFEVKGEKQNFIIDSPAGEVIAYAKYNGSEVESVSFENVPSFVYKKDVPIKIDNYEFQVDIAFGGAFYAVVDCKEFGLKVDFKDLPAIQTWGGKIKHYIESKIEVKHPLEEGLKGIYGVIFSDEPKDKGATLRNVTIFADGQVDRSPCGTGTSARIATLFEKDALQKGEIFVHECITDGKFQGEVLSVTAVGTYEAVVPKVTGHAFITGFHQFVVDPRDDLKRGFLLG	PGPT0014240_492	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
AK009_05310	147			hypothetical protein	ATGTATTACGGAACAAAAGGCTGGTACGTAGCTGAACTAAAAAAATTAGGTGTGCGCTATCATGAAGGACGAAAACTAGAAAGTTACCGCGGACACATATTACGCAATTTATTAATCGCACAACAAGAAAAATTAAAAGAACAGTAA	MYYGTKGWYVAELKKLGVRYHEGRKLESYRGHILRNLLIAQQEKLKEQ				NA	NA	NA	NA	NA
AK009_05311	954			hypothetical protein	TTGAATAATCATAGTAAAACACCTGCCTGTATATATACGTATGCATTTCGTGAGGAGGAGCGTGCTTTATGTTACTTGGAAATGCGCTCGTTCTTTGGAATGGAGTCGCACGTTAATATTTTAAAAAGTGATGTAAAAATTGACCCGAGTAGAAGTGCGTTTATGAAAGAGCGCGTTGAGGTTATGTATGAAGGGGACGACTTAGAAAGCATTTTAAAACAAGTGGAACAAATTGATTTGGCGGGAGCGACATTTAAAGTTATTTTCGTTAAAATCAATGACCTCGTTGGGGAGAATAAAATTGAATATGGAGAAAGACGTCTTATTGAACGAGACCTTGGCATGCATATCGAAGGAGAAGCGGATGTTCGTAATCCAGAGCGTGTATTCGGGATTGTTCCTCTTGGAGGACGCTGGTACTTCGGGCACTATGTAGAAAGCGAACCAGTTTGGTATCATCACATAAAAAAACCGCATAGCTATTCGACATCACTTAGCACACGTGTTGCGAGATCAGTTGCAAATATCGCTGTACCAAATCCAGAGGGAGTACGAGCAATTGACCCGTGCTGCGGTATTGGAACAGTAGTAGTAGAAGCACTTTCTATGGGGATTAATATCGTTGGTAGAGATATAAATCCACTTGTAGTTCTTGGAACGAGAAAAAACATCGCACATTTTGGATTTGAAGGAACAGTAACAAAAGGTCCAATTGAGGAAATTACTGAGAACTATGACGTTGCCATTATCGATATGCCATACGACTTATTTACGCATGCCACACCAGAAGACCAGCTCTCCATTCTTTCAAGTGCGCGCCGCATTGCTAAAAAGGTAGTCGTTGTCACGATGGAAACAATGGATGACATGATCCATGAAGCAGGATTTGAAATTACAGATCGCTGTATTACAAGAAAAGGATCATTTACTAGACAAATTCTTGTTTGTGAATAA	MNNHSKTPACIYTYAFREEERALCYLEMRSFFGMESHVNILKSDVKIDPSRSAFMKERVEVMYEGDDLESILKQVEQIDLAGATFKVIFVKINDLVGENKIEYGERRLIERDLGMHIEGEADVRNPERVFGIVPLGGRWYFGHYVESEPVWYHHIKKPHSYSTSLSTRVARSVANIAVPNPEGVRAIDPCCGIGTVVVEALSMGINIVGRDINPLVVLGTRKNIAHFGFEGTVTKGPIEEITENYDVAIIDMPYDLFTHATPEDQLSILSSARRIAKKVVVVTMETMDDMIHEAGFEITDRCITRKGSFTRQILVCE				NA	NA	NA	NA	NA
AK009_05312	1608			hypothetical protein	ATGAAGTACAAAGCAATAGCCGCAGGTTTATTAGCAGCAAATTTACTAGCACATCCAATTAGTAGTTTAGCAGAAACGAAGAAATTTCCTGATGTTTCAGATAGTGCGTGGTCGAAAGACGCAATTTATTATTTAGTAGAGAGAAATGTAATTAACGGTATGCCAGATGGTAACTTTATGCCATACGGAAATTTAACACGTGCCCAGGCAGCAAAGATTATCGCAACAGCAATTGGTGCTAAAGTAGATCCAAATGCAAAGCCGTCTTATAATGATGCAAAAAATAGTTGGGCAGCTTCATTTATTGCAGCCATGGAAAAAGAGAATATTATTAAAGGGCGAGAACCAGGAGTATTTGATCCTGAAGGAAAAGTAACTCGTGCTGAAATGGCAGCTATGCTTGTAAGAGCATATAATCTGAAGAGCAAAGTAACAGGACCAGTTCCTACAAAATTCGCTGATTTAGAGAATCATTGGGGTAAAGAAGAAGTTAATATTTTAGTAGAATTAAAACTTTCTTTAGGTACAGAGAATGGCTGGAAACCGAATGATTCTATTACGCGTGAACAAGCAGCTCAGCTTACTGCGCAAACAGATAAATTTAGCAAGAATAGTGATCGTCCAGTAGAAACAAAGAAAATGTACATAGATAGAAAATTCATTACATATCACGCACCATCATTAAGTTCTGGGATTAGTGCAAATCAGCATAATCCACAAATGGTTGAAATTAAAGAAGAACGAGATGGATGGATCAAAATTGCAACAAGTAAAGGTGATAAATGGACACCTTTAGTAGAGAAAACAGAAGTTATTAATGAAGGATTCACTACTTATGCAGAAGCTTCTTCTTCTTCAAAAGTAATGGGAACACATAGCGCACAACAAGTAACTGTTATTGAAGAGAACGGCAGCTGGATTCGTATCCGCATGGGCGCTGGTTTCCAATGGGTTAATAAAAATCAATTAAATCCAGTGAAGCAGGGTAACTTCTTAGAAGGAAAAGCGATTATCATTGACCCAGGTCATGGCGGAGTTGATTCAGGTAATCCAGGTTATTATGAGAAAGAAAGTGAAACTGTATTAGATGTATCATTGCGATTACAGAAGATATTTGAGAAAAAGACACCATTTACTGTGTTATTCACTCGTACAGATGATACACGTCCAGGAACAAGTGCTTCTGATTCTTTAAAGAAACGTGTAGAATTTGCTCAAAAAAATAATGGGGATATTTTTGTAAGCATTCATGGTAATGGCACGGAAGAGAAAAATGGACAAGGTACAGAAACGTTCTACTATGAATCAGCGACAGCAAGAGGAACAAATCCTAACGTATCAGAAAGTCGTTTACTAGCAGAAAAAATTCAAGAGCGTCTTGTAGATGCACTGGGAACAAAAGATCGTGGTGTGAAAAAAGGCGATTTATACGTAATTAGAGAAAATACAATGCCAGCTGTATTAGCAGAATTAGCATTTGTAGATAATAAAAGTGATGCAGATAAAATAGCTACACCAGCGCAAAGACAAAATGCAGCGGAAGCTATTTATCAAGGTATTTTAGATTACTATGAAGAAATGGGTAACAACGTGTCTTCTTTCCGTTAA	MKYKAIAAGLLAANLLAHPISSLAETKKFPDVSDSAWSKDAIYYLVERNVINGMPDGNFMPYGNLTRAQAAKIIATAIGAKVDPNAKPSYNDAKNSWAASFIAAMEKENIIKGREPGVFDPEGKVTRAEMAAMLVRAYNLKSKVTGPVPTKFADLENHWGKEEVNILVELKLSLGTENGWKPNDSITREQAAQLTAQTDKFSKNSDRPVETKKMYIDRKFITYHAPSLSSGISANQHNPQMVEIKEERDGWIKIATSKGDKWTPLVEKTEVINEGFTTYAEASSSSKVMGTHSAQQVTVIEENGSWIRIRMGAGFQWVNKNQLNPVKQGNFLEGKAIIIDPGHGGVDSGNPGYYEKESETVLDVSLRLQKIFEKKTPFTVLFTRTDDTRPGTSASDSLKKRVEFAQKNNGDIFVSIHGNGTEEKNGQGTETFYYESATARGTNPNVSESRLLAEKIQERLVDALGTKDRGVKKGDLYVIRENTMPAVLAELAFVDNKSDADKIATPAQRQNAAEAIYQGILDYYEEMGNNVSSFR	PGPT0024160_1069	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_05313	1050	ysdC_3	COG1363	Putative aminopeptidase YsdC	ATGGCACATCATGCGAGAGAAACGATGGAACTTATTAAGGAGCTTGTCTCTATTCCGAGTCCGTCTGGAAATACAGCAAAAATTATTGATTTTATTGAAAACTATGTCAGTGAGTGGAATGTAGAAACGAAACGTAACAATAAAGGCGCTCTTATTTTAACGGTAAAAGGGAAGAATGATGCGCAGCACCGCTTATTAACGGCACACGTTGATACGTTAGGTGCGATGGTGAAAGAAATTAAGCCTGATGGTCGCCTGAGTCTTTCTATGATTGGTGGATTTCGCTGGAACTCTGTAGAAGGAGAATATTGCGAAATTGAAACATCAAGTGGCAAGACGTATACAGGAACGATTTTAATGCATCAAACATCTGTACATGTATATAAAGATGCAGGTGAAGCAAAACGCGATGAGAAAAATATTGAAGTTCGTATTGATGAGCGCGTATTTTCAGCTGATGAAGTACGCGAATTAGGAATTGAAGTAGGAGACTTCGTTTCATTTGATCCGCGCGTTCAAATTACAGAGAGTGGATACATAAAATCACGTCATTTAGATGACAAAGTAAGTGTTGCGATTTTATTAAAATTAATTAAAAGATTACAAGATGAAAACGTAACATTACCATATACGACGCATTTCTTAATTTCTAATAATGAAGAGATTGGATACGGTGGTAATTCTAATATTCCAGAAGAAACTGTTGAATACTTAGCAGTTGATATGGGAGCGTTAGGTGATGGACAAACATCTGATGAATATACAGTATCTATTTGTGCAAAAGACTCTAGCGGCCCGTACCATTACGCTTTACGTAAACATTTAGTAGAGCTTGCGAAAACGAATCATATTGAATATAAAGTAGATATTTATCCGTACTACGCATCTGATGCATCAGCTGCGATTCGTGCGGGATTTGACGTGAAACATGCGTTAATTGGAGCGGGTATTGATTCTTCTCACGCATTTGAACGTACACATGAAAGTTCTATTGCGCATACAGAATCATTAGTGTATGCATATGTAATGTCTAATTTAATTGAAGAATAA	MAHHARETMELIKELVSIPSPSGNTAKIIDFIENYVSEWNVETKRNNKGALILTVKGKNDAQHRLLTAHVDTLGAMVKEIKPDGRLSLSMIGGFRWNSVEGEYCEIETSSGKTYTGTILMHQTSVHVYKDAGEAKRDEKNIEVRIDERVFSADEVRELGIEVGDFVSFDPRVQITESGYIKSRHLDDKVSVAILLKLIKRLQDENVTLPYTTHFLISNNEEIGYGGNSNIPEETVEYLAVDMGALGDGQTSDEYTVSICAKDSSGPYHYALRKHLVELAKTNHIEYKVDIYPYYASDASAAIRAGFDVKHALIGAGIDSSHAFERTHESSIAHTESLVYAYVMSNLIEE				NA	NA	NA	NA	NA
AK009_05314	180			hypothetical protein	ATGAATATATCAAAAAAATATATACACATTGCACTCATTTGGTTTTTAGCATCATTATTTTGTTTACAAGTTTCTTATGCCGTTCATACTACTACTTCTATTACAATCGGCTGGATATTAACAGCTATTTTCTTCATTATTAGCTTCATTGCAACAAAAAAGCATAGCGTTACTCATTAA	MNISKKYIHIALIWFLASLFCLQVSYAVHTTTSITIGWILTAIFFIISFIATKKHSVTH				NA	NA	NA	NA	NA
AK009_05315	327			hypothetical protein	ATGTCAGCATATAACAAGTTAGTAAGAGATCGTGTTCCAGAGAAGATTTTAATGTCTGGAAAAACGTATACCGCACAAAAATTAACAGGTCAAGCATACATACAAGCTTTAGCGAAAATTGGAACGGAAGAAATTCGAGAATTTGCTTCTATGAAAGAACGTGAACATGCGCTAGATTCTCTTGCGGATGCACTAGAAGTAATCATTTCATTAGCACGTGCGGAAGGTGCATCAATTGAAGATGTGGAACGCCTTCGTAAGAAAAAAGAAGTAGAGCGCGGTGGATTTGAAAGAGGGATTTATTTATTAGATGTCTCGGAAGAATAG	MSAYNKLVRDRVPEKILMSGKTYTAQKLTGQAYIQALAKIGTEEIREFASMKEREHALDSLADALEVIISLARAEGASIEDVERLRKKKEVERGGFERGIYLLDVSEE				NA	NA	NA	NA	NA
AK009_05316	318			hypothetical protein	ATGAAGAGAATGATCGGTGTTATCACTATTATTTTGCTTACATATTCTGCTTTGCATAGTACACCATCTTTGGCAGTTCGGACTGCGTTATTTTTTGAGGGACATCCAAGTGTTGCGTTTTCTGGTGGGGTGACGAAAGAAAAAGATGTGAAAAAAGAAGCGATTCCAGATGAGTACCAAACTCTATATGGTAAGGAAGAAAACTCAGAGCACTATTTCTTTCCGCATGTAAGAGCACATGAATCAGGAATTGATATGTTAAGTGCATGCGTGAAGAAAAAATGGTTTTTCTATAAAGCAGAGCTCGGGTGTTATTAA	MKRMIGVITIILLTYSALHSTPSLAVRTALFFEGHPSVAFSGGVTKEKDVKKEAIPDEYQTLYGKEENSEHYFFPHVRAHESGIDMLSACVKKKWFFYKAELGCY				NA	NA	NA	NA	NA
AK009_05317	918	crt_1	COG1024	Short-chain-enoyl-CoA hydratase	ATGTTTTATACGATATATGTACAAATTGCGAGATTATTAGACAGAAAATTAAGAAAAAAGAAGGGTTTTTCAGTGGTTTTCTATAATTATATAAGTATAATCTTTATGGAGAAAAGAGGGGTATATATAATGGAAATAACAAGTAAAACAGAATCTGTCGTTGTGAAATATGAAGGCCACGTTGCAACGGTTATGGTCAATCGTCCAGAGGTGTTAAATGCGTTAGATGAGCCGACATTAAAAGAGTTATTACAAAAGTTGAAAGAAGTAGCGGAAAGTTCTGTGCATATCGTTGTGTTATGCGGGAACGGCCGTGGTTTTTCTGCGGGTGGGGATATTAAATCGATGCTTTCAAGTAATGATGAAAGTAAGTTCGATGGTATTATGAATACCATTTCTGAAGTTGTCGTGACATTATATACGATGCCGAAGCTTGTTATTAGTGCAATTCATGGACCAACTGCAGGTCTTGGATTAAGTATTGCGTTAACAGCTGATTATGTAATGGCGGATATATCATCTGTTATTGCAATGAACTTTATTGGAATCGCTTTAATTCCAGATGGAGGCGGTCATTTCTTCCTTCAAAAGCGCGTCGGTGAAAATATGACGAAGCAAATTATTTGGGAAGGTAAGAAATTATCAGCGACAGAAGCGCTTGATATCGGCTTAATTGATGAAGTAATCGGCGAAGATTTCCAAACGGCTGTGAAGCAAAAAATTAATGAATGGTCACAAAAACCGATTAAAGCAATGATTCAAACGAAGCAAATTTTATGTGAAGTAAATCGCTCTAATTTAGAGCAAACATTGCAATTAGAAAAGCGTGGTCAATATGCAATGAGACAAACAGCGGATCATAAAGAAGGAATTGCTGCGTTTTTAGAGAAACGTTTACCAGCATTTAAAGGGGAATAA	MFYTIYVQIARLLDRKLRKKKGFSVVFYNYISIIFMEKRGVYIMEITSKTESVVVKYEGHVATVMVNRPEVLNALDEPTLKELLQKLKEVAESSVHIVVLCGNGRGFSAGGDIKSMLSSNDESKFDGIMNTISEVVVTLYTMPKLVISAIHGPTAGLGLSIALTADYVMADISSVIAMNFIGIALIPDGGGHFFLQKRVGENMTKQIIWEGKKLSATEALDIGLIDEVIGEDFQTAVKQKINEWSQKPIKAMIQTKQILCEVNRSNLEQTLQLEKRGQYAMRQTADHKEGIAAFLEKRLPAFKGE	PGPT0006070_1413	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
AK009_05318	1395			hypothetical protein	ATGGTTACTAAGTTGAAACAAACGGATAACTACTTCCCACATTTCCTATTGCTATTCATTGTGTTTCAACCAATTTTAGATTTATTAACATCTTTTTCAATCTATATATTACACATGAACGCAACAGTTGGAGTTGTAGTCCGTTTCGCCTTTATGCTTCTTGCATTAGGATACCTACTTCTTCATCACAAACAACAAGATGCGAAAAAGTACATCCTCTATTTATGTTTACTCGGAATCGCACTCGCAATCGGTCTTGTAAATAATATGATGGTTAAATCTCCAGTTTCATTTGGAGAAGAAGTTAAATTCATCTTAAAGAGCATATATCCAATTGTGCTACTGTTTGGATATATTATCGCCTTTAAAGAGCTAAAAAATAAAGAGTATGTATTTCATAAAATCATTACATATTTCTTATATGCAACTTTAATTTTAAGCATTACAATGATTGTCGCAATGCAAACTGGAACAGATTTCCCAAGCTATCCTCACTCAAAAATCGGTTCAAGAGGTTGGTTCTTCGCTGGAAATGATTTAAGTTCTCTTTTCGCCATTATGTTCCCAATCATTGTCTTATATTCGATACATAAAACAACTTCTTTCTCGAAAATATATTACTGGATTCCAACAATACTTGCGATGTATGCAAGTATTATGGTCGGAACGAAAGTCGGATATGGCGCAATTGTTATTACATTAGGCGTAGCACTTTTCTTCTCATTCATTGAATACATGATAAATCGTAAAAAAGAAGGAAAGGGATTTACACATATTGTAAATACCATTATTGCCGCAGTTATACTAGGAGGTTTAATTGCTCTTACACCGCATACTCCTATCGCAAAAAATATGGGCATTCACATGCAAATATACGAATACAAAAAATCAGTACAAGAAGAGAAAGATCGAAAAGAAGGAAAAGTAATTAAAGAAGATCCAGAAGATGCAAAAAAACATGCAAAAGGTGAACTTACAGATTCTGAAGTGAAAAGTTTAATTTATAGTGATCGCGACAAATTCTTAAAAACATACAAACAATACTATAAAGACGCACCGCTTTCACAAAAACTATTCGGAATGGGTTACGCTGGTAACTACACAGATAAAATTAAATTAATTGAAATGGACTTCCATGACCTATTTTTCGCCTTTGGCATTGTCGGTTTCCTTATTTACTTACTACCACTTCTATACTTTGGTATTAAATTATTCATCAGCATGATCACAAACTTTAAGAAAATCATGAAAGTAAAGTATATGCTATTAGCGAGCACACTCGTTCTATCACTTGGCATTGGTTTTATGTCTGGCCACGTATTAACAGCGCCAGCCGTTAGTATTTTCTTCGTTGTTATACTAGCTTACATCATTGTTGATTTTGAAATTGAATAG	MVTKLKQTDNYFPHFLLLFIVFQPILDLLTSFSIYILHMNATVGVVVRFAFMLLALGYLLLHHKQQDAKKYILYLCLLGIALAIGLVNNMMVKSPVSFGEEVKFILKSIYPIVLLFGYIIAFKELKNKEYVFHKIITYFLYATLILSITMIVAMQTGTDFPSYPHSKIGSRGWFFAGNDLSSLFAIMFPIIVLYSIHKTTSFSKIYYWIPTILAMYASIMVGTKVGYGAIVITLGVALFFSFIEYMINRKKEGKGFTHIVNTIIAAVILGGLIALTPHTPIAKNMGIHMQIYEYKKSVQEEKDRKEGKVIKEDPEDAKKHAKGELTDSEVKSLIYSDRDKFLKTYKQYYKDAPLSQKLFGMGYAGNYTDKIKLIEMDFHDLFFAFGIVGFLIYLLPLLYFGIKLFISMITNFKKIMKVKYMLLASTLVLSLGIGFMSGHVLTAPAVSIFFVVILAYIIVDFEIE				NA	NA	NA	NA	NA
AK009_05319	1863			hypothetical protein	TTGAAGACTTTTTCAAAAGGTATAACAGCAGTGGCATTAACGGGATCATTACTTTTAACTCCTATTTCAAGTTATGCGGCAAATGATGATATTACAGGACATATGTTTGAGACGCATATGCGCTCACTTATTACTAAAGGAGTTTTAATGGGGTATGGTGAGAATGTATATGCGCCTGATAAATTAGTAACAAGAGCAGAGTTTGCTACATTCATAGCAAGGTCTTTAAATTTACCGAAAGCTGATTCGAATTTCGAGGATGTGCCGAAGACTTACGGTTTATATGATGGTGTAAGTAGAGCATATGGAGCGAAAATTATTAATGGTCGTACGAACGAGACGTTCTCACCAAATGATGTGATTACACGTGAAGAAATGTCGATAATGGTAAAGCGAGCATTAGACTATAAAAATATTAAAGTAGCTGTAAGTCCGCTTACCTTTACTGATAAAGATAGTATTAACTATAAAGAGCATGTACAAGTTATGGTGGCTACTCAAATTATTAAAGGGTATCCAGAAGATAATACATTTAGACCACATTTATCAGCTACAAGAGGGATGGCTTCAGCTATGTTGGATCGTATGCTTCAGACGATTGAAAAAAACGGAAATAGCAATCCTGTAGAAACTAAGAAATATGTTGTGACAAATGTAAGAGAAAACGGAACAGAGCAAGAAGTAGAGCGCTATAATACGTATAAAGAGGCAGTTACGGCTGCTCAAAATAAAGGTATGAATGCGGTAAAATACGAGAACGAATTCTTATGGATTAAAGATGGTTTTGCAAGTGCGAAAAGAATAACTGGGCAAAACATCATTAATATTTATGATGAGAATTTGTCAACAGTATATACGTATATTCAGTATGGAACAGAATTGAAAGTGTTAGAAGTTGGCGAAGATCGTGTGAAAGTTCAACTTTCTGGTTTGACAGGTTATGTGAAGAAGAATGAAATCACTTTAATTCCTACAAATGAAATGAAACAGTCGTCTTATTATGTGAAATCAGATGGATATTTATACCATAAATATTATACATATAATACAAGTTCACCTGGATATACAGAATTTAGATATGGTGTGGCACCTTCTTTCATGAAGCAAGGACAGCAAATGTATAGTGTAGATGGAAAAACATTTGGAGATGAAACTTTCTATCAATATTTCAATTATTTATCATTACGTTCGAAAACAAATTATACAGCTGAACAACTAGATAGTTATGTGAAATCGATTAAGCCAGACTCTCCATTAATTGGTTTAGGAAAGAAATTTAAAGAAGTAGAAAGCAAGTATAATGTAAATGCATTATTCTTATATTCATTAGCAATCCATGAAAGTTATTATGGAACAAGCGCTCTTGCAAAAGATAAAAATAATTTATTTGGTTTAAAAGCAACAGACGATAGTCCATATGGTAACGGGGAAGCATTTAATTCAAAAGAAGATTGTATTGAACATGCAGCAAAATTATACATGAATGAAGGATATTTAAATCCAGGACATTGGCGTTATACAGCAACATATACAGGTGATAAAGCTGCTGGTTTAAATGCGAAATATGCATCTGATGCGAACTGGGGTAAAAAAGTAGCGGGGCATATGAACCGTTTTGATTCTTATTTAGGTAAAAAAGAATACAACAAGTATAAACTTGCACGTGTGATGAATAACGTAGAAGTGAAAAAGAATCCTAGTATATCAAATGAGCGACTGTATCGTTTAAATACAAATGTAGTTGTCACAGTTACTGGTGAAGAAATAATAAATGGAAAAGCGTGGATTAAAGTTATTTCAGATAATCCTACTGTAACTGAAGCCTATATCGCAAAAGAAAGCTTAGAGTACGTAAAACATTAA	MKTFSKGITAVALTGSLLLTPISSYAANDDITGHMFETHMRSLITKGVLMGYGENVYAPDKLVTRAEFATFIARSLNLPKADSNFEDVPKTYGLYDGVSRAYGAKIINGRTNETFSPNDVITREEMSIMVKRALDYKNIKVAVSPLTFTDKDSINYKEHVQVMVATQIIKGYPEDNTFRPHLSATRGMASAMLDRMLQTIEKNGNSNPVETKKYVVTNVRENGTEQEVERYNTYKEAVTAAQNKGMNAVKYENEFLWIKDGFASAKRITGQNIINIYDENLSTVYTYIQYGTELKVLEVGEDRVKVQLSGLTGYVKKNEITLIPTNEMKQSSYYVKSDGYLYHKYYTYNTSSPGYTEFRYGVAPSFMKQGQQMYSVDGKTFGDETFYQYFNYLSLRSKTNYTAEQLDSYVKSIKPDSPLIGLGKKFKEVESKYNVNALFLYSLAIHESYYGTSALAKDKNNLFGLKATDDSPYGNGEAFNSKEDCIEHAAKLYMNEGYLNPGHWRYTATYTGDKAAGLNAKYASDANWGKKVAGHMNRFDSYLGKKEYNKYKLARVMNNVEVKKNPSISNERLYRLNTNVVVTVTGEEIINGKAWIKVISDNPTVTEAYIAKESLEYVKH				NA	NA	NA	NA	NA
AK009_05320	1089			hypothetical protein	GTGCGTTTAGTCTTATCAGGATATTATGGTTTTTATAATGTTGGAGACGAGGCGATTCTACAATCAATTATTGAATCGTTAAGTAAAGAGAACCCGGATATAGAACTAGTAGTACTATCAAATGATTCTAAATATACAAAGGAAAGGTATGGTGTAGAATCGGTAGATCGCTGGAATATAAAAGCTGTTTATCATGCAATCAAAAACAGTGATGGAGTTATTAGCGGTGGCGGGAGCCTTCTTCAAGATCAGACAAGTACGAAGAGTATTCTATATTATACGGGTATTATGGGACTCGCTCGATTATTAAAAAAGCCGTATTATATTTATTCACAAGGAATAGGTCCAATTACAAAAGGATATAATCGTCTATTAGTAAAATGGAACTTGTCAAAAGCTTCCTATGTATCAGTTCGAGATGAAGATTCGTTTTTATATTTAAAAGAACTTGGCATAAAAAACGATATTGAAATTGTTCCAGACCCTGTTTTAACATGGAAACGGACAAAACAATCGGATTGGTTGCAAAAGCATTCGATACATGGAAAAGTAATCGCGGTTAGTGTGCGTTATTGGAATTCAAAAGAAGATTATGTAAAAAAATTAGCTACGGCATTAAAAAAATTAAAGCAAGAAGGATACCAAATTCTATTTGTTCCAATGCATGAGCCATTTGATCAAAAAGCTTCGCGTGAAGTAGTAGACTTAATGGGAGAAGAGACGTATATGCTTCCATATAAAATGGATATCGACGAGAAAATATTCATTTTATCACAATGTTCATTACTAATTGGTATGCGTCTTCATGCACTTGTTTTTTCTGCTGTAGCCAAAACTCCAATGGTCGGGATTTCGTACGATCCGAAAATTGATTCGTTTTTAAGTCAAGTGAATCAGCCAGTTATAGGAAGTGTGGATGGCGAATGGAGTGCGGAGTATTTATATGAAATTGCGAAAAAGCAATTAATGCAACAAGGAACTGTGGAGCAAGAGTTACAATTAATAATAGATGAGCTTCGGTTGCAAGGCAAACAGGCAACAAAGAAACTCATTGATCATATGGAAAAAGACACTTTATTAAAAAAGTAA	MRLVLSGYYGFYNVGDEAILQSIIESLSKENPDIELVVLSNDSKYTKERYGVESVDRWNIKAVYHAIKNSDGVISGGGSLLQDQTSTKSILYYTGIMGLARLLKKPYYIYSQGIGPITKGYNRLLVKWNLSKASYVSVRDEDSFLYLKELGIKNDIEIVPDPVLTWKRTKQSDWLQKHSIHGKVIAVSVRYWNSKEDYVKKLATALKKLKQEGYQILFVPMHEPFDQKASREVVDLMGEETYMLPYKMDIDEKIFILSQCSLLIGMRLHALVFSAVAKTPMVGISYDPKIDSFLSQVNQPVIGSVDGEWSAEYLYEIAKKQLMQQGTVEQELQLIIDELRLQGKQATKKLIDHMEKDTLLKK				NA	NA	NA	NA	NA
AK009_05321	1521	murJ_3	COG2244	Lipid II flippase MurJ	ATGAATAAAACATTTGTAAAAGGAGCAGCAATTTTAACCATTACAACTTTTTTGTCGAAATTGCTTGGTAGTTTTTTTCAAATTCCATTACAAAATATTGCAGGAGATGAAGTGCTAGGTATTTTCCGCCTTGTTTTTCCTGTATATATGATTGCTCTTACATTATCGGTAGCCGGAGTTCCACTTGCAATTTCGAAACTAATTGCAGAGTTGAACGAAAAAAATAAGCAAAAGGAAATTGCGAAATTATTTAAATCAGCGTCAATTATAGGGATAGCATTTGGCGTTTTCGGCTGTTTAGTCATTGTATTATTTTCTATTGAAATTGCAAATATGCTCGGTGGACAAGAAACTAGAATGCCGTTGCTTATTACTTCATTAGCATTACTCATTGCGCCATACATGGCGGTGTATAGAGGGTATTTCCAAGGTTTCGGTGATATGAAACCAACAGGAGTATCACAAGTCATTGAGCAATTTGTCCGTGTGTTTTTTATGTTAATAATTGCTTACATACTAGTATCGTGGGATAAGAGTAATACTGTTATTACTAGTGGTGCGATGGTTGGCTCTTTTCTTGGAGTCATTAGTTCGCTTATATATTTGCGTATAAAATATAATAGAAGTCCATACTACAATAAAAGCAATTCCTATTCGCTCCGAGATTTAAGAGAAAACGGCAAAAAGATATTGCGGGTATCGATCCCAATCGCTATCGGAGCTTTATCAATGCCGCTTTTAAATTTAGTAGACTCGCTTACAATACCGCATGTATTACAAGGATCATCAACAGAAATTCAAGAACAATTTGGAATATACAGTCGCGGTTTTGCATTCACGCAAATAATTGTTATTTTTGCAAGTGCAATTGTATTTCCGTTAATACCACTCTTAACTTCCGCATTGGCCAAAAGAGATATAAATTTGGCGAAAATAACAATTCAAAATACAAATCGACTAGCGCATGTTTTGACAGCACCATTAACAGTATGGTTGATGGCATTAACAGTACCGTTAAATGTCGGATTGTTCACAGACGTAAAAGGCAGTAGTATGTTAACAGTTATGATTGGCAGTTCGTATTTTACTGCGGTTATGGTATTATCAATAGGTGTTTTACAGGGGATTAATCGTTCTGCACAAGCTGCATGGATTGTTATTGGCGCGAGTTGTGTGAAAGTCGTGTTAAACATTATGTTAGTGCAGAAGTTTGGCATAGATGGAGCGGCGTATAGTACATTAATTACTTACGTATTGATTTGTATTGTAAATCATTTGTATATTCGAAGCTATATTGCCTATTCTATTCATTTCAAAAACTTTTTCGGTGTGCTAGCAATAGCATGTATTTTCGGACTAGGATTGTATGAACTATGTAATGTGATAGATGTTACATCTTCAAGAATTATGACGTTATTATTCAGTGGTATAGCATTAAGTATTACAACCATTTTGTATGGTGTATGTGCTTTGAAATTAAAATGGATATCAATAAAAAAAATACCATTTTTGAAAAGATAA	MNKTFVKGAAILTITTFLSKLLGSFFQIPLQNIAGDEVLGIFRLVFPVYMIALTLSVAGVPLAISKLIAELNEKNKQKEIAKLFKSASIIGIAFGVFGCLVIVLFSIEIANMLGGQETRMPLLITSLALLIAPYMAVYRGYFQGFGDMKPTGVSQVIEQFVRVFFMLIIAYILVSWDKSNTVITSGAMVGSFLGVISSLIYLRIKYNRSPYYNKSNSYSLRDLRENGKKILRVSIPIAIGALSMPLLNLVDSLTIPHVLQGSSTEIQEQFGIYSRGFAFTQIIVIFASAIVFPLIPLLTSALAKRDINLAKITIQNTNRLAHVLTAPLTVWLMALTVPLNVGLFTDVKGSSMLTVMIGSSYFTAVMVLSIGVLQGINRSAQAAWIVIGASCVKVVLNIMLVQKFGIDGAAYSTLITYVLICIVNHLYIRSYIAYSIHFKNFFGVLAIACIFGLGLYELCNVIDVTSSRIMTLLFSGIALSITTILYGVCALKLKWISIKKIPFLKR				NA	NA	NA	NA	NA
AK009_05322	1470	bicA	COG0659	Bicarbonate transporter BicA	ATGTTTCAAAAAATAGCAAAGGAATGTTTAGCAGGATTTACTGTTGCGATTGTTGCGTTACCACTTGCGATTGCATTTGGTATTGCCGCGACAGGAACGTCTGAGGGAGCGCTTGTTGGATTATATGGTGCGATTTTTGCAGGTTTATTCGCAGCGTTATTTGGCGGAACACCTGGGCAAGTAACGGGGCCAACTGGACCAATTACCGTTATCGCAACTGGAGTTATTGCGACGCACGGGTTAGAGGCAAGTTTTATTGCCTTTATGATGGCAGGATTATTTCAAATTTTATTCGGTGTATGTAAGCTCGGTTCTTACGTTCGATATATTCCGTATCCTGTCGTTTCAGGATTTATGAATGGTATTGCATTAATCATTATTTTAGGTGAAATAAAGCATGTACAAAATAGTTTTCTACTTGTTGTGTTAACGATTATTGTAATGATTGTTTCTGGCAAATGGATTAAGGTGATTCCGTCTAGTTTAGTAGCACTAGTCGGTGTGACAGCTTTGCTTCCTTTATTTTCTTCTCTACTCGAAGGACTTGCAGTAAAGTTACCGATTATCGGAAATCTTTCACTAAATAAAGTAATTGAAAAGATTGGAACCATTCCAGAAGCGATGCCTACGCTTCATATTCCATCTTTAAGTGGAACAGGAATAGCAGCACTTATTTTACCAGCGCTTAGTATTGCTTTATTAGGATCGATTGACTCGTTGTTAACATCGGTCGTAATGGATAATGTGACAGGTACGCGTCATAAAAGTAATAAAGAGCTTGTTGGACAAGGTATCGGTAATATGATGAGCGGATTGTTTGGCGGATTAGCAGGTGCAGGTGCGACTGTAAGATCTATCGTGAATATAAGAAGTGGTGGTAAAACGGCACTTTCGGCATGTATGCATAGTGTTATCTTATTTATTTTTATTATGGGTCTTGGTTCGGTCGTACAATATATTCCACTTGCTGTATTATCAGGTATTTTAATTTTAACTGGTATTGGAATGTTCGATTGGGAAAGCATGAAAAAGATGCATGTCGCTCCTAAAGGTGATGTCGTTGTTATGCTCGTAACGATGATTGTAACGGTGAAGTTCGATTTAATGATTGCCGTTGCATTCGGTATTATTCTTTCGTTCATCATATATATGGTGAAATGTAAAGAACGTAAAACTTCTATCGTAAAAGAAAGAGAAGAAACGTATACAATTCAAGGACCGCTCTCTTTCCTATCAGTAGATCGTATTTTCTCTACTTTACAAGATGTGAAGTCACCAGTTGTATTACGTATGAAAGATGTGCGTTATATGGATGTATCAGGAGCTATGGCATTATTAAATTTTGTTGAGCAATCAAATAAAGTAGGGGCAAGTGTAAAGCTTGAGCAAGTACATCCAAGTATTGAAAAAACAATTGTAGTAATGGCAAGCGATGAACAGAAAGAGCAATTGAAAATCTTAAGTGTTTAG	MFQKIAKECLAGFTVAIVALPLAIAFGIAATGTSEGALVGLYGAIFAGLFAALFGGTPGQVTGPTGPITVIATGVIATHGLEASFIAFMMAGLFQILFGVCKLGSYVRYIPYPVVSGFMNGIALIIILGEIKHVQNSFLLVVLTIIVMIVSGKWIKVIPSSLVALVGVTALLPLFSSLLEGLAVKLPIIGNLSLNKVIEKIGTIPEAMPTLHIPSLSGTGIAALILPALSIALLGSIDSLLTSVVMDNVTGTRHKSNKELVGQGIGNMMSGLFGGLAGAGATVRSIVNIRSGGKTALSACMHSVILFIFIMGLGSVVQYIPLAVLSGILILTGIGMFDWESMKKMHVAPKGDVVVMLVTMIVTVKFDLMIAVAFGIILSFIIYMVKCKERKTSIVKEREETYTIQGPLSFLSVDRIFSTLQDVKSPVVLRMKDVRYMDVSGAMALLNFVEQSNKVGASVKLEQVHPSIEKTIVVMASDEQKEQLKILSV	PGPT0003020_5475	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK009_05323	465			hypothetical protein	ATGCTAACTTTTGAAGAAAAATTATCGATTATTGAATCTTTCCCAGAACTAGAAAGAAAGAACGTATCATTAAAACGTGTAAACTTCCACTTTGAAGAAAGTCGTTTAGATAAAAAGAACGTTGTATTTCATTTACACCCAAATGGAAATGGATTTGTGTATGCAAGCGGTATTAAAGGTTACAAAACGGATGATAAAGGTATGGTTAACATCCGCGAGTTTTCAGCAGAAGAGTTACGTTCAGTAATTGAGAAATCAATTGACCTTCTATCACAAGAAGAAGTAGTAGCACCTGTAGAACCTGCGAAAGAAGAAGAATGGCAGAACGAAGATGGTCATATTCTTACTCTTATTTCAGAGGATGACATGTGGAACGTGTACGCTGGTGTAAACTTAGACGGTACATTCAACTCTTATCCAGAAGCTGCGGAATACCTTGATGAAGAAGGTTTTTCACGCAAATAA	MLTFEEKLSIIESFPELERKNVSLKRVNFHFEESRLDKKNVVFHLHPNGNGFVYASGIKGYKTDDKGMVNIREFSAEELRSVIEKSIDLLSQEEVVAPVEPAKEEEWQNEDGHILTLISEDDMWNVYAGVNLDGTFNSYPEAAEYLDEEGFSRK				NA	NA	NA	NA	NA
AK009_05324	1557		COG0318	Long-chain-fatty-acid--CoA ligase FadD13	ATGTACATGACGATAGGGAGAATTTTTGATTTATCTGTTGGTAAGTATCCGAATAAAGAGGCGTTAGTGGAACCTGAAAAAAATATTCGCTGGACATATAAACAGTGGGATGAACAAATAAATAAAACGGCACACGCTTTATTAGAAGACGGAGTAAGAAAGGGAGATACAGTATCTGTTTACTTATATAACTGTCATGAATTTGTAAACGTTTACTTAGCTTGTGCGAAAATTGGTGCAATTTTTAATCCGATTAACTTTCGCTTAAAGGCGAAAGAAGTATCTTATATTCTTCAGGACGCATCCTCGAAAGTCATTGTCTTTGAAAAAGCAGTTGAGTCAACTGTTGCTATCATTGAACGAGATTTTCCAAATACATCTTTTTGGTCTATAGAAAACGATAAACCTTCCTATGCAAGTTCCTACCATGAAAAAGTGAATGCAGCATCTCCTGAGAAAGTAAATATCGAAATTGATGAAATGGACTTTTGTTCTATGCTTTATACGAGCGGTACGACAGGTCATCCGAAAGGTGTGTTACATCGTCATCGTGAAATGGCTGAGCATAGTATGATTTGTACGTATTTCCTAAAATATAATAGAGATAGTGTGGGGCTTGTTGTTGCGCCTTTATATCACTGTGGTGAATTAAATGCCGGAATCATACCACGCATTCAAGTTGGCGGGAAGAATGTTATTTTGCATCATTTTGATACAGAAACAGTATTACATACGATTCAAGAAGAAAAGATTACGACGTTCTTTGCAGCACCGACGATGTGGAATATGTTGTTGCAAAAAGATTTAACTCAGTATGATTTAACTTCAATGAAAATTGGTATATATGGCGGAGCGGCAATGGCGCCGGCGTTAGTGAAGGAATGTAAAGAACGTCTTTATATTGACCTTGTTCAAATATACGGAATGACAGAAATGGGACCAGTTGTTGCGTTTCTCGTAGAGGAGGATCAAATTACGAAAGCTGGTTCAGCAGGCACGCCATGCTTTAGCCACGAAGTTCGTATTGTGAAACCGAACGAGGAGGCACCGGCAGAACCAGATGATGTATTACCTCCTTATGAGGTGGGAGAAATTATTTTACGTGGCCCAACTATGATGGCTGGCTATCATAATCGCGAAGAGGCAAATAAAAAATCGATGTATAAAGGATGGTATCATTCTGGTGATTTAGGATACTTCGATAAAGATGGTTATTTATTCGTTGCAGATCGCGTTGATGATATGGTAATTAGCGGTGGTGTAAATATTTACCCTCGTGAAATTGAAGATTTCCTTCATAGTCATCACGGTATATTAGATGTGGCGGTACTTGGTGAGCCAGATGAATTATGGGGAGAGCGTGTGGTGGCAGTTATTGTGAAGAAAGATGAAACAATAACAGAAGCTGATTTAGAAACGTATTGCAAAGAAAGTGACGAATTAGCAGATTATAAGCGTCCGCGTCATTATTTATTTGTAGATGAACTTCCGCGTAATGCGAGCGGGAAGTTGCAGAAGTTTGTGCTGAGGGAGTCATTGAAAGGGACAAAAAAATAG	MYMTIGRIFDLSVGKYPNKEALVEPEKNIRWTYKQWDEQINKTAHALLEDGVRKGDTVSVYLYNCHEFVNVYLACAKIGAIFNPINFRLKAKEVSYILQDASSKVIVFEKAVESTVAIIERDFPNTSFWSIENDKPSYASSYHEKVNAASPEKVNIEIDEMDFCSMLYTSGTTGHPKGVLHRHREMAEHSMICTYFLKYNRDSVGLVVAPLYHCGELNAGIIPRIQVGGKNVILHHFDTETVLHTIQEEKITTFFAAPTMWNMLLQKDLTQYDLTSMKIGIYGGAAMAPALVKECKERLYIDLVQIYGMTEMGPVVAFLVEEDQITKAGSAGTPCFSHEVRIVKPNEEAPAEPDDVLPPYEVGEIILRGPTMMAGYHNREEANKKSMYKGWYHSGDLGYFDKDGYLFVADRVDDMVISGGVNIYPREIEDFLHSHHGILDVAVLGEPDELWGERVVAVIVKKDETITEADLETYCKESDELADYKRPRHYLFVDELPRNASGKLQKFVLRESLKGTKK	PGPT0008380_12990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK009_05325	1488	hemZ	COG0635	Oxygen-independent coproporphyrinogen-III oxidase-like protein HemZ	GTGTTAATTTCAATTAAAACGTTACAAGATGATCGTTTTTTACGTCCGCTACAAAATATTGGCGGCTTATTTTTTGAAGATAGTACGATTGGATTTGAACAAGAGGAAGCGAATCTGATCGTTGATATACACATTGAGGATAATGTGAAAGCATCCGCTCGATTAACGGATGTTAGCACAGGAAATGTGTATGAAGAAACATTCTCGAAAGATTTATCTGCTTTCACAGATGAAAAAGAGCGTATGAAGCAAGTGAAGCACGTTGTTTCTTATGTATATCTTTCTGTTCTTCAGCAGTTAACTGGACTTGAACAAAGCTGGGGTATTTTAACGGGAGTACGTCCGACGAAACTTCTTCATAAAATGCTTCAAAATGGTATGTCAAAGGAAGAAGCGCATCAAGAACTTCGTGAAAGTTATTTAATTCATGAAGAGAAGATTGAACTTCTTCAGCGCATTGTTGATTGCCAATTAGCAGTTGTTCCGGATTTATACCGTTTGAAAGAAGAAGTAAGTATTTATATCGGTATTCCGTTCTGCCCAACGAAATGTGCATACTGTACATTCCCGGCTTATGCGATTAATGGACGCCAAGGGTCTGTTGATTCGTTCTTAGGTGGTTTACATTATGAAGTTCGTGAAATTGGTAAGTTTTTAAAAGAAAAAGGTGTGAAAGTTACGACGATTTATTATGGCGGCGGTACACCTACAAGTATTACAGCAGAAGAGATGGATATGCTGTATGAAGAAATGTACGAAGCGTTCCCAGACGTGAAAAATGTACGTGAAGTTACAGTTGAGGCAGGTCGTCCAGATACGATCACGCCAGCAAAGCTAGAAGTGTTAAATAAATGGAACATTGACCGTATTAGTATTAATCCGCAGTCATACCATCAAGAGACACTAAAAGCAATTGGACGTCACCATACTGTAGAAGAAACAATTGAGAAATACCATTTAGCTCGTGAAATGGGAATGAACAATATTAATATGGACTTAATTATTGGTCTTCCTGGTGAAGGGTTAGATATCTTCAAGCATACGTTAGATGAAACAGAAAAGTTAATGCCAGAATCATTAACAGTTCATACGTTATCATTTAAACGTGCTTCTGAAATGACGCAAAACAAACGTAAATATAAAGTAGCAGGTCGCGAAGAGATTACAGCGATGATGCACGAAGCAGAAGAGTGGACGCAAAAGCATAATTACGTACCATATTACCTATATCGTCAAAAGAATATTTTAGGTAACTTAGAGAACGTTGGTTATGCAATGCCGGCGCAAGAGAGTATTTACAACATTGTCATTATGGAAGAAGTACAATCAATTATCGGACTTGGTTGCGGTGCATCAAGTAAATTTGTTCATCCGAAGACGGGGGCAATTACGCACTTCGCAAATCCGAAAGATCCAAAATCATATAACGATGGCTTTGTAAAATATACAGAAGATAAACTGAAAATTTTAGAAGAGCTATTTGTATAA	MLISIKTLQDDRFLRPLQNIGGLFFEDSTIGFEQEEANLIVDIHIEDNVKASARLTDVSTGNVYEETFSKDLSAFTDEKERMKQVKHVVSYVYLSVLQQLTGLEQSWGILTGVRPTKLLHKMLQNGMSKEEAHQELRESYLIHEEKIELLQRIVDCQLAVVPDLYRLKEEVSIYIGIPFCPTKCAYCTFPAYAINGRQGSVDSFLGGLHYEVREIGKFLKEKGVKVTTIYYGGGTPTSITAEEMDMLYEEMYEAFPDVKNVREVTVEAGRPDTITPAKLEVLNKWNIDRISINPQSYHQETLKAIGRHHTVEETIEKYHLAREMGMNNINMDLIIGLPGEGLDIFKHTLDETEKLMPESLTVHTLSFKRASEMTQNKRKYKVAGREEITAMMHEAEEWTQKHNYVPYYLYRQKNILGNLENVGYAMPAQESIYNIVIMEEVQSIIGLGCGASSKFVHPKTGAITHFANPKDPKSYNDGFVKYTEDKLKILEELFV	PGPT0003200_163	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
AK009_05326	1704			hypothetical protein	ATGAAAAAGAAATTTTATAGTGTATTAACTCTCTCTCTTGCATTACAAACTGTTCTTGCACCTACTTATTCATTTGCAGAGAGTGCTGAAAAATCCGCCGAAGTATATACGGAGGATCAAGTTTTTAAAAGTATTAAAGAGCATGTTAATGAGCATAGTACTCATGAAGAAGATATCGAGGTTACTGGTCAATTCCTACTATACACTTCAAAAAAACATTCATTATATACCGCGAATGATTTAAAAAACAAATCGAATATCGAGATTACAGAACAAGTCGTAACGGCGACAAAGAAAAAAGGAAATGCTTACTACATAACGACGTCAACTGGCGCTGGATGGATAGATAACAATGATAATAGCTTAGAAGTTCAAGAGATTCATAAACTATCTAACCAAAAATTAATCGTAAAAGAAGAAGCTTCCATACATGCACTTCCGTTCCAATCGTTTAACGAAGAAGGGAAACTACAGCCACAAGTCATTACTCCTACTGAACAAGCTGGAAATTGGTTTAAAGTCCAAATAAATGAAACAGCAAAATGGATTTATGCACCTTCTGCTACATTTGAAGGTACAAAAGCTTCATTACTAAAAAACGTTCGTTCTGCTAAAAATAGTTTATTAAGAGCTCCAGATGCTCTACAAACAAACAATATTTATGGCGTTACATTTAAAGAAATGATTGTCCCTAAAGGAAATGACGATATTCGCCCTGGCTACCCGATGGTACCTAAATATATTACGATTCACGAAACGGCTAATACAGCGAAAGGTGCTAATGCTCTAAATCATGCAAAATTCTTAGATAATCAAGCACGCGGAACAGCTGATCGCGCCGCATCTTGGCATTTCACAGTAGATGATAAAGAAATTTATCAACATCTTCCAGTAAATGAAGTTGGATGGCATGCTGGAAATAAAACTGGAAACTATGAATCTATCGGAATTGAAATTGCCGTTAATCAAGATGGAAACTATGAAAAAGCGGTAGAAAATGCCCGTAAATTGGCAGCTTATTTAATGAACGACTTAAATATTTCTCTAGATAAGGTCCAAAAACATCAATTTTGGTCAGGGAAAAACTGCCCTGCGTTTATGATTCAACGCGGACAATGGAATGCTTTCTTAAAAGGAACTGAAACATACTATAAGGAAAACCAAAAAGATCCAGTAACTGATGACATTACAGGTGGATGGTATGAACAAGACATTCGTCAATTAGCAGCTAGAGGCATTATGCAAGGAGAAGGGAACGGCAAGTACTTCCCAGAACGTCTTGTAACGCGTGCTGAATTCGCTACACTAATTACTCGTGCTTTACAATTACCAAGTGGAAATGCTAAGTTCACAGACTTAGAACAAGTACACCCATCTTTAAGAGACGGTATTAATCGTGCAGCAAGCGCAGGCATAATCCGCGGACGTGGTGATAATACATTTGATCCAAATACCACAATTACACGTGAAGAAGCTGTTATTATGATTGATCGTTCTCTAAAACACGCTGGTATTTTTGCAAAACAAGTTGAACTACCATTTGTAGACCAAAACTTAATTTACGCTAAACAAGAAGTACAAAGAGTGTATGGATTTGGAATTGTAAAAGGTAATGAATTTAATCAATTCGTACCAAAAGGACCATCACAACGCGCTCACGCAGCTGCATTTATAAACAGAATGCTTAGCGTAATTGAAGCTTAA	MKKKFYSVLTLSLALQTVLAPTYSFAESAEKSAEVYTEDQVFKSIKEHVNEHSTHEEDIEVTGQFLLYTSKKHSLYTANDLKNKSNIEITEQVVTATKKKGNAYYITTSTGAGWIDNNDNSLEVQEIHKLSNQKLIVKEEASIHALPFQSFNEEGKLQPQVITPTEQAGNWFKVQINETAKWIYAPSATFEGTKASLLKNVRSAKNSLLRAPDALQTNNIYGVTFKEMIVPKGNDDIRPGYPMVPKYITIHETANTAKGANALNHAKFLDNQARGTADRAASWHFTVDDKEIYQHLPVNEVGWHAGNKTGNYESIGIEIAVNQDGNYEKAVENARKLAAYLMNDLNISLDKVQKHQFWSGKNCPAFMIQRGQWNAFLKGTETYYKENQKDPVTDDITGGWYEQDIRQLAARGIMQGEGNGKYFPERLVTRAEFATLITRALQLPSGNAKFTDLEQVHPSLRDGINRAASAGIIRGRGDNTFDPNTTITREEAVIMIDRSLKHAGIFAKQVELPFVDQNLIYAKQEVQRVYGFGIVKGNEFNQFVPKGPSQRAHAAAFINRMLSVIEA	PGPT0019115_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_05327	3318			hypothetical protein	TTGAGGAAATCATTTAATCAAAAAATTAAAAAGTTAAGTAGTAGTTTAATAGTTGTATTACTAATATGTATGAATTTTTTAATCCATTTACCATTTAAAGCGGAGGCAGCTACAACAGAGTTAAAAGGTTTAGGTGATGTATCTTATTACAACGCCATCATTTTTGGAGATCATAGTGCAACGAGTGCGGATATTGAAGGTGCGATGGCTGTTCAGAAAAATATGAACGCATCAAGTTATACAGTCGTAGCGGCTGCAACTGGAGCAAATAACTTAGCTGGAGCAACTTGGGTAGATGAAGGATATCCATCATTATTACTAGGCGGTCAATTTACGAAAGCGGGAGCAGGACAGGTAATTATTCAAGATGGAACAGTGGCGATGACAAAAGACGGTGACCCAGATGGCGCAATGAAAACGTCATATGACCGTATCTCTTATAAAGAGCAAGCGGAGATTGATGCTAAGTTTAAAGAATTTAGAAAAGACGTTGATGGTGTAATTGGGGATGCAAGTAAACTATACACTGATAAGCCAAAACCTAATATGAGCTTTGGAATCGGTGAAGATGTAAACAACCCTAATATTTATGTCTCTTCAGGCCAGACGGGAAAGAAAGCATTTGATGTAAAAGACGTTTTTCTTCCGAATGTAGAGAATAAAGACTTTATTGTTATTTATTCAGATGCAGAAGAAGTGAGTTTTGGTGGCGGTGCAATTTTGTATGATACAAGAAATACTGGGATGGCGACGGATTTAATTAATACATCTCAAGCATACGATCCTAATTCATCTTTTACTGAGTTAGCTAGTAAGGTAATTTGGGTATTTCCTAATGCTACAAAGATAACAACTAAAGGTTATGGTGTAGTAGGTAGTGTGTTTGCACCTAATGCAGTTGTAGAAACAAAAGGTGGTTCTATTAATGGACAAGCCTATGTTGGAGGATTACACCAAAGAGATGGTTTTGAGGTTCATAACTTTAAATTTAACTGGCCAAAGTGGAATAAACCAGCAGTTGAAAAAGGACATTTACAAATTAAAAAAGTTGATGAAAACGATGAAAACATTGTTTTAAAAGACGCAAAATTTGATGTTATAGACAAAGATAATAACGTTGTGGCTACTGTTACAACAAACGAAAAGGGTATTGCGGAAGTTAAAGATTTACCACTTGGTGACTATTTTGTAAAAGAAATAAATGCACCAGAAGGATATATAAAAGTTGATACACCAGTCAAAGTAACAATTGATAATACAAACGTAATTGAACTTGTTATGAAGAATACGAGAAAAGTAGAGAATGGCCAATTTAAATTATTGAAAAAAGATAGTGAATCTGGTCAACTTCTACCAGGTGCAAAATTTGATGTTATCGATAAAGATGGGAAAGTTGTGGAAACAATTGTTACAGATGATAAAGGTGAAGCCTTATCGAAACAACTTCCAGTTGGAAGCTATACATTAAAAGAAGTAGAAGCACCGAAAGGATATGAATTATCATCTAGTTCAGTTTCTGTTGATGTAGAGGCTAATAAAGTAGTGACTGTAGATGTGGTGAATAAAAAGATCTCCGAAAAAGTAACGGGTCAATTTGAAATCGTGAAAGTAGATGCGAAAGATAAAACGAAAGTATTATCAGATGCAGAATTCGAAGTGTATAAAGATGGTAAAAAGGTAGCAGAACTAAAAACAGATGAGAGTGGAAAAGTGATGTCACCGAAATTACCGCTAGGTGAATACACAGTGAAAGAAACGAAAGCACCAGCGGGCTACAAGCTTTCAAATAAAGAATGGAAAGTAACAATTCAAAACGAGAAAGAAGTAGTAAAAGTAGAGGCAGAAAACGAAAAAATCTTAGGTTCTCTACAAATTATTAAAATGGATGATAAAGATCAAACGAAACGCTTAGCAGGCGCAAAATTTACATTGAAAGATGCGAAAGGAAATGTTGTAAAAGAAGGAATTACAACAGATAAGTCTGGAACGGTTAAAGTAGACGGACTTGTGCCAGGTGAATATACGTTAGAAGAAACAAAAGCACCAGAAGGTTATGAGTTAACAAAACAAATAATTCATGTAACAGTTGACGGTGAAAAAGTTGTTGATGTAAAAGTAACGAACAGTAAGAGCCTTGGTCAATTCGAAATTGTAAAAGTAGATGCGGAAGATAAAACGAAAGTATTATCAGATGCAGAATTCGAAGTGTATAAAGATGGTAAAAAAGTAGATACGTTACGAACAGATAAAACTGGTAAAGTAGTTTCACAGAAATTAGAGCCAGGAAAGTACACATTAAAAGAAACGAAAGCACCACAAGGATATAAGTTGTTAAAAGAAGAAATTGAAGTCGTTGTGGAAGCAAACAAAGTAGTAGAAGTACAAGTAGAAAACGTAAAAGAACTAGGAAGCTTACAAGTAATCAAAAAGGATTCGGAGAGTGGAAAAGTTCTAGCAGGTGCAGAATTTAAATTAAAGAACGAAGCTGGTCAAGTAGTTGGAGAAGCGAAAACAACGAATAAAGACGGCGTTGTGAAATTCAAAAGCTTAGTGCCAGGAAAGTATACGTTAGAAGAAACGAAAGCACCAGAAGGTTATAAGGCGTTAGAAGTAACAGTAGAAGTAAACGTTGTAGCAAATGAAGTAGTAAAACAAGAAGTTATGAATGAAAAAGTGAAAGAAGAAATTACAGGTCAATTAGAAATTACAAAGGTAGATGCCAATAATACAAATAAAACTTTAGCAGGCGCAGTGTTTGAAATTTGGAAAGACGGAACAAAAATCGACACATTAACAACAAACAAGAGCGGTAAAGCGACTTCTAAGAAGTTAGAACCAGGAGATTACACTTTAAAAGAAATCCAAGCGCCAGAAGGATATACTTTATCCGATAAGGAAATGAAATTTACGATTTCTAATGAAAAAATTGAAGTTGTAAAGCTTCAAATTACAAATAAAAAAGATACAGAAAAAGGTCCGGAAAAACCAGGTGAAGGAACAGAAAAACCAGGTGAAGGAACAGAAAAGCCGGGTGAAGGAACAGAGAAGCCAGGTGAAGGAACAGAGAAGCCAGGTGAAGGAACAGAGAAGCCAGGTGAAGGAACAGAAAAGCCGGGTGAAGGAACAGAGAAGCCGGGTGAAGGAACAGAAAAACCAGGTGAGGGAGTAGAAAAACCTAATTTACCAGAAAAAGGACAAGGTTCTTCTAATAATCAACAACTTCCAGCTACAGGACACAATACGAATTACGTTCCATTCATCGGTTTTATGCTTCTGTTACTAGGAATACGTTTAAGATTCATGGCTAAAAATAGTTAA	MRKSFNQKIKKLSSSLIVVLLICMNFLIHLPFKAEAATTELKGLGDVSYYNAIIFGDHSATSADIEGAMAVQKNMNASSYTVVAAATGANNLAGATWVDEGYPSLLLGGQFTKAGAGQVIIQDGTVAMTKDGDPDGAMKTSYDRISYKEQAEIDAKFKEFRKDVDGVIGDASKLYTDKPKPNMSFGIGEDVNNPNIYVSSGQTGKKAFDVKDVFLPNVENKDFIVIYSDAEEVSFGGGAILYDTRNTGMATDLINTSQAYDPNSSFTELASKVIWVFPNATKITTKGYGVVGSVFAPNAVVETKGGSINGQAYVGGLHQRDGFEVHNFKFNWPKWNKPAVEKGHLQIKKVDENDENIVLKDAKFDVIDKDNNVVATVTTNEKGIAEVKDLPLGDYFVKEINAPEGYIKVDTPVKVTIDNTNVIELVMKNTRKVENGQFKLLKKDSESGQLLPGAKFDVIDKDGKVVETIVTDDKGEALSKQLPVGSYTLKEVEAPKGYELSSSSVSVDVEANKVVTVDVVNKKISEKVTGQFEIVKVDAKDKTKVLSDAEFEVYKDGKKVAELKTDESGKVMSPKLPLGEYTVKETKAPAGYKLSNKEWKVTIQNEKEVVKVEAENEKILGSLQIIKMDDKDQTKRLAGAKFTLKDAKGNVVKEGITTDKSGTVKVDGLVPGEYTLEETKAPEGYELTKQIIHVTVDGEKVVDVKVTNSKSLGQFEIVKVDAEDKTKVLSDAEFEVYKDGKKVDTLRTDKTGKVVSQKLEPGKYTLKETKAPQGYKLLKEEIEVVVEANKVVEVQVENVKELGSLQVIKKDSESGKVLAGAEFKLKNEAGQVVGEAKTTNKDGVVKFKSLVPGKYTLEETKAPEGYKALEVTVEVNVVANEVVKQEVMNEKVKEEITGQLEITKVDANNTNKTLAGAVFEIWKDGTKIDTLTTNKSGKATSKKLEPGDYTLKEIQAPEGYTLSDKEMKFTISNEKIEVVKLQITNKKDTEKGPEKPGEGTEKPGEGTEKPGEGTEKPGEGTEKPGEGTEKPGEGTEKPGEGTEKPGEGTEKPGEGVEKPNLPEKGQGSSNNQQLPATGHNTNYVPFIGFMLLLLGIRLRFMAKNS				NA	NA	NA	NA	NA
AK009_05328	873	yhaX	COG0561	Stress response protein YhaX	ATGATTTATCGCTTACTAGCTCTTAATATAGATGGGACACTACTATACAACAATGGAAAAATTGCAAAAGGATTAAGAGAAACAATTGAATTTGTGAAAAGAAAAGATGTATACGTTACGTTATTTACGAGCCGTAATTTTCAATCCGCTCATAAAGTAGCAAAGGCGTTAAAATTAGATTCTATATTAGTGACACATGGTGGTGCTTTCGTTTCAGCAACGTTAGATAAGCCGTACGTTCAAAGAAGATTATCTGAAGAGAAGACTTTTAACATTGTGCAAGTGTTAGAGCACTTTGATTGTAACGTACGTATTTCTCATGAACGGTTTTCGATAGGAAATCGTGAGAGAAATACACCAAACTTAATTGCGCGCACTGTATTATCAAGCGCAGATCCGTTATTTTATCCAGTTCAATTTGTAGATTCGTTAGGTGACGCGCTTCGTGACCATCCGGTAGCGGCGCCAAAAATTGATGTTCTTTTCCAAAGTAAAGGTGAAAAAGAACGCGGGCTAAATACATTAAGAAAAGCATTCCAAGATGTAGAGTATGTTGAATGTGATTCAAAACGAATAGAAATCTTACCGCAAAATGTATCAAAGTTACGCGGATTACAATTGCTTGGAGAGCATTTAAATATTTCGCTAAATGAAATGGTTGCGATTGGAGATAGTATGGAAGATTTAGAGGTTATTGAAAACGTGGGACTTGGTGTAGCGATGGGGAACGCACCTGTAGAGTTAAAGCAAGCAGCAGATTGGATTACACGTTCAAATAGTGAGAACGGTGTAGAATACATGATTAAAGAGCATTTCCGTAAGCAATTCCCGCTTCCGTTTTTGAAGAATCATAAAAATACACCGAAACGATGA	MIYRLLALNIDGTLLYNNGKIAKGLRETIEFVKRKDVYVTLFTSRNFQSAHKVAKALKLDSILVTHGGAFVSATLDKPYVQRRLSEEKTFNIVQVLEHFDCNVRISHERFSIGNRERNTPNLIARTVLSSADPLFYPVQFVDSLGDALRDHPVAAPKIDVLFQSKGEKERGLNTLRKAFQDVEYVECDSKRIEILPQNVSKLRGLQLLGEHLNISLNEMVAIGDSMEDLEVIENVGLGVAMGNAPVELKQAADWITRSNSENGVEYMIKEHFRKQFPLPFLKNHKNTPKR				NA	NA	NA	NA	NA
AK009_05329	618		COG2094	Putative 3-methyladenine DNA glycosylase	ATGCAGGCACCTCCTTCTTTTTATGAAGGCGATACGTTAGAAGTCGCAAAAAAATTACTCGGGCAAAAACTTGTTCATATTGTAGACGGAATAAAGCGAAGCGGAATCATTGTAGAAGTAGAAGCATATAAAGGCCCAGATGATAAGGCCGCACATAGTTACGGCGGCAGACGGACAGATCGCACAGAAGTTATGTTTGGCGCACCAGGGCATGCTTACGTATATTTGATTTACGGTATGTATCATTGTTTTAACGTTATTACAGCACCAGTGGGCACCCCGCAAGGTGTTCTCATTCGAGCCCTTGAGCCAGTAGACGGTATTGAAGAAATAAAACTAGCGCGCTACAACAAAACAGACATTACAAAAGCGCAATATAAAAACTTAACAAGCGGTCCTGGCAAACTATGCCGTGCACTCGGAATTACTTTAAAAGAACGAGGCTTATCATTACAAAGTGACACATTGCATATTGAACTGGTCCCAAAAGATGAACATATATCATCACAATATAAAATAGCAGCAGGACCTCGTATTAATATCGACTATGCAGAAGAAGCTGTACATTATCCGTGGCGTTTTTATTATGACGGGCATCCGTTTGTTTCAAAGAAATAA	MQAPPSFYEGDTLEVAKKLLGQKLVHIVDGIKRSGIIVEVEAYKGPDDKAAHSYGGRRTDRTEVMFGAPGHAYVYLIYGMYHCFNVITAPVGTPQGVLIRALEPVDGIEEIKLARYNKTDITKAQYKNLTSGPGKLCRALGITLKERGLSLQSDTLHIELVPKDEHISSQYKIAAGPRINIDYAEEAVHYPWRFYYDGHPFVSKK	PGPT0014885_1334	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
AK009_05330	357			hypothetical protein	ATGAGAGGCAAACCTGAACTAAAAATAGAATCAGAAAAAGTATATAAAACGAAGAAAAATCCAAATGGAATGTTTATAGCAAGAATACTACAAATTCCGAAACAAGAAGATAAACTAGACTTTGTCCTTATTTTACAAAATAAAAAAACGAAAAATATTATTTATAACAAAGTTTTAGTAACAACAGATAACGACTATTATTCTTTCCGACTCGCTCGTGGGAATATTAAATGGTCATCCTTATATACTGTTACAGTATGGGATGGGCTTGGACATCAATTAGTAGAAGTATCAGCCTTAACTGGTAAAGAGAACTATTCTATTTCTGATGAGCATTATTCCGCATATCGGGAGTAA	MRGKPELKIESEKVYKTKKNPNGMFIARILQIPKQEDKLDFVLILQNKKTKNIIYNKVLVTTDNDYYSFRLARGNIKWSSLYTVTVWDGLGHQLVEVSALTGKENYSISDEHYSAYRE				NA	NA	NA	NA	NA
AK009_05331	759	alsD	COG3527	Alpha-acetolactate decarboxylase	ATGACTGTTGCGCAATTAATTGATATTGATGCAAAAAAAACGAAAACGAGTAATGAAGTATATCAAACATCTACAATGCTTGCGCTATTAGATGGTATATATGATGGTGTGATTAGCTTTGAAGATTTGAAAAAACATGGTGATTTTGGCATCGGCACATTTGATCAATTAGATGGTGAAATGATTGCATTTGATAATGAATTTTATCATTTACGTTCAGACGGTTCAGCAGAAAAAGTAGAACCAGAAGAAACAACACCATTTGCTACTGTAACGTTTTTTGAAAAAGAAATGAGTTATACGGTAGAGCATCCGATGAATCGTGAAGAAGTTGAAGCGTTATTACATGAATTAATGCCAAGTAAAAACTTATTTTACGGTATTCGAATGGACGGTACGTTCCGTGAAGTAAGAACGAGAACTGTTCCAAGACAAGAAAAACCGTATACACCGCTCGTTGAAGTGACGAAATCACAACCAATCTTTTCATTTGAAAATACAGAAGGTACGCTTGCTGGATTTTGGACACCAGATTATGCGCAAGGTATTGGTGTAGCTGGATTCCACTTACATTATATTGATGATGAAAGAAGCGGGGGTGGACATGTTTTCGACTATGTTATAGAAAACTGTACGATCCAAATTTGTCAAAAAGCTCATATGCATTTAGCACTTCCAGAAACAGCAGATTTTATGGCGGCTGAATTATCAAGAGAAAACTTAGAGGATAATATTGCAACTGCGGAAGGTGCAGAGTAA	MTVAQLIDIDAKKTKTSNEVYQTSTMLALLDGIYDGVISFEDLKKHGDFGIGTFDQLDGEMIAFDNEFYHLRSDGSAEKVEPEETTPFATVTFFEKEMSYTVEHPMNREEVEALLHELMPSKNLFYGIRMDGTFREVRTRTVPRQEKPYTPLVEVTKSQPIFSFENTEGTLAGFWTPDYAQGIGVAGFHLHYIDDERSGGGHVFDYVIENCTIQICQKAHMHLALPETADFMAAELSRENLEDNIATAEGAE	PGPT0008180_380	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
AK009_05332	1698	alsS	COG0028	Acetolactate synthase	ATGATTAGTTTGAGTACAGGTGTAAAAGCAAACGACGTGAAGACAAAAACAAAAGGAGCAGATCTTGTTGTTGATTGTTTAATTAAACAAGGTGTTACACATGTTTTCGGTATTCCAGGAGCAAAGATTGACTCTGTATTTGATGTATTGCAAGAAAGAGGACCAGAGTTAATCGTTTGTCGTCATGAACAAAATGCAGCATTTATGGCAGCTGCTATTGGTAGATTAACAGGGAAACCGGGCGTATGTCTTGTAACTTCAGGACCAGGGACATCAAATTTAGCGACAGGTCTTGTTACTGCGAATGCGGAGAGTGATCCCGTTGTTGCTTTAGCTGGTGCAGTACCGCGTACGGATCGATTAAAACGTACGCATCAATCTATGGATAATGCTGCACTATTCGAACCAATCACAAAATATAGCGTAGAAGTAGAGCATCCTGATAATGTGCCAGAAGCACTTAGTAATGCATTTCGAAGTGCGACTTCCACAAATCCGGGAGCTACTTTAGTAAGCCTTCCGCAAGACGTTATGACTGCGGAAACAACTGTAGAGTCTATCGGTGCGCTTTCTAAGCCACAGCTTGGAATCGCTCCCACACATGATATTACATATGTAGTAGAAAAAATAAAATCAGCGAAATTACCAGTTATTCTACTTGGTATGAGAGCGAGCACAAATGAAGTGACGAAAGCTGTTCGTAAATTAATTGCGGATACAGAACTTCCTGTTGTTGAAACATATCAAGCAGCTGGTGCGATTTCACGTGAGTTAGAAGATCATTTCTTCGGCCGCGTTGGCTTATTCCGTAACCAACCAGGTGATATTTTACTAGAAGAAGCAGACCTTGTGATTTCTATCGGTTATGATCCAATCGAGTATGATCCAAAATTCTGGAATAAACTTGGCGACAGAACGATTATTCATCTTGACGACCATCAAGCAGATATCGACCATGATTACCAACCAGAGCGTGAATTAATTGGAGATATTGCCTTAACGGTAAATAGCATCGCGGAGAAATTACCGAAACTTGTATTAAGTACGAAATCAGAAGCGGTATTAGAACGATTACGCGCGAAATTATCAGAACAAGCAGAAGTTCCGAACCGTGCTTCGGAGGGTGTTACGCATCCACTTCAAGTGATTCGTACACTTCGTTCTTTAATTAGTGACGATACAACTGTTACATGTGACATCGGTTCCCATTCTATTTGGATGGCGAGATGTTTCCGTTCTTATGAACCACGTAGATTATTATTTAGTAACGGTATGCAAACGTTAGGTGTTGCACTTCCTTGGGCAATCGCAGCTACTTTAGTAGAACCAGGTAAAAAAGTAGTTTCCGTATCAGGTGACGGTGGTTTCTTATTCTCAGCGATGGAGTTAGAAACGGCGGTACGTTTAAATTCTCCAATCGTCCATCTTGTTTGGAGAGACGGCACATATGATATGGTTGCATTCCAACAAATGATGAAATACGGTAGAACATCAGCTACAGAGTTTGGTGATGTTGATCTTGTGAAATATGCGGAAAGTTTCGGAGCGTTAGGTCTTCGTGTTAACACGCCTGATGAATTAGAAGAGGTATTAAAAGAAGCATTAGCAGCAGATGGTCCTGTCATTATTGATATTCCAATTGACTATCGTGACAATATTAAATTAAGCGAAAAATTATTACCAAACCAATTAAACTAA	MISLSTGVKANDVKTKTKGADLVVDCLIKQGVTHVFGIPGAKIDSVFDVLQERGPELIVCRHEQNAAFMAAAIGRLTGKPGVCLVTSGPGTSNLATGLVTANAESDPVVALAGAVPRTDRLKRTHQSMDNAALFEPITKYSVEVEHPDNVPEALSNAFRSATSTNPGATLVSLPQDVMTAETTVESIGALSKPQLGIAPTHDITYVVEKIKSAKLPVILLGMRASTNEVTKAVRKLIADTELPVVETYQAAGAISRELEDHFFGRVGLFRNQPGDILLEEADLVISIGYDPIEYDPKFWNKLGDRTIIHLDDHQADIDHDYQPERELIGDIALTVNSIAEKLPKLVLSTKSEAVLERLRAKLSEQAEVPNRASEGVTHPLQVIRTLRSLISDDTTVTCDIGSHSIWMARCFRSYEPRRLLFSNGMQTLGVALPWAIAATLVEPGKKVVSVSGDGGFLFSAMELETAVRLNSPIVHLVWRDGTYDMVAFQQMMKYGRTSATEFGDVDLVKYAESFGALGLRVNTPDELEEVLKEALAADGPVIIDIPIDYRDNIKLSEKLLPNQLN	PGPT0008185_6078	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
AK009_05333	561			hypothetical protein	ATGAACAAAAGTGAATTTTTAGAGCAACTTAGTTCTTCCCTACGGAATATGCCTAATTTAGAAAAGGAGGATATTATCTCGGAGTACGAAACTCATTTTATTAGTGGTAAACAAGATGGAATATCTGAAGAGGAAATTTCTAAAAAGCTAGGAAACCCTAAAACTATCGCTAAAGAACTTAATATTTCATATGTAATAAGTAAAGCTGACAAGAAACGCAGCCTAAAAAATATTATGACAGCACTGTTTTCTGTTATGAGCTTAAGTGTTTTAAACTTTATATTTATCATTATCGCCTTTTTCGTATTACTCTTTCTATTACCGCTTCTTCTAGCACTTATAATTGCTACACCATTATTAATTATTTCACCTATCTTATTAATAGGATTAGGATTCTTTAAAGGGTTTCATCAAATCAGTTATTCCGATGTTTATAATGTATTTATAGCTTTTTGCATCGGCTTACTAATATCCGTCATATCTTATCAATTAATAAAACATATATACTCACTTTTAGTTAAGTATTTAAAATGGAATTTAGCTATTTTACAAAGATACTAA	MNKSEFLEQLSSSLRNMPNLEKEDIISEYETHFISGKQDGISEEEISKKLGNPKTIAKELNISYVISKADKKRSLKNIMTALFSVMSLSVLNFIFIIIAFFVLLFLLPLLLALIIATPLLIISPILLIGLGFFKGFHQISYSDVYNVFIAFCIGLLISVISYQLIKHIYSLLVKYLKWNLAILQRY				NA	NA	NA	NA	NA
AK009_05334	606			hypothetical protein	ATGAAAAAGTATATTTTATATCCACTCATGTTACTTACAATGTTATTTCTATCAGCTTGTTCAAACAGTGTACAACCTAAGGAAGAAAACGATGTCCAATCTATTAAAGATGTTGCTATTAAAGTTCCAGAAAATATATTTAGTTCCTCAAAGAAAAATGAAAATATTAGTGAAGACGAAATGAAACAAAATATAAAAAGTTATTTAAATTATAGCGGAGAGTTAGACGAAAATATCGTTCCACTTTCATCCACTACATCCGATGAAAATATCACTGAATCTGACCGAGAAAAATTACAAAAACTAATAGAATTAGCGAAACAAAATGATACAAACTTCCATAATTTTATTAGTAACAATACAATCCCTGATGATTACAAAAAGCCTTCAAAAGAAATATATGAATTTATTTCATCATCTACAGCACTTTCAGTAGAACTAGATCAAGAATTAGACAAACTCGCTCAAGATCGTAACTTATTCAAAACTGATTTCTCTTTTACAAAGCGCTTTGAGAAAGCTAATGGTAGGAAGCAAAAAGAAATTGAAAAGTTTTTGAAGGAAAAGAACATTAAAACTTCAATTAACAGCAATAAAAAAAATTAG	MKKYILYPLMLLTMLFLSACSNSVQPKEENDVQSIKDVAIKVPENIFSSSKKNENISEDEMKQNIKSYLNYSGELDENIVPLSSTTSDENITESDREKLQKLIELAKQNDTNFHNFISNNTIPDDYKKPSKEIYEFISSSTALSVELDQELDKLAQDRNLFKTDFSFTKRFEKANGRKQKEIEKFLKEKNIKTSINSNKKN				NA	NA	NA	NA	NA
AK009_05335	357			hypothetical protein	ATGACAAAGAACATTCATGATGTTGCATATGAATTACAAAAAGCAATCGCTGAAAACGAAGACTTCAAAACTTTAAAAGAGAGCTACGCAGCAGTTCAAGCCGATGCGGCTTCAAAGAACTTATTTGATGAGTTCCGTACAATGCAACTTAGCCTACAACAAAAAATGATGCAAGGCCAAGAAATCACTGAAGAAGACAACCAACAAGCACAAGAAGTTGTAGCTCGCATTCAACAAGATGCTAAAATTACAAAATTAATGGAAACTGAGCAACGCCTAAACGTTGTAATCGGTGACGTTAACAAAATTATCATGAAGCCACTTGAAGAATTATATAGCGCGCAACAACAAGCGTAA	MTKNIHDVAYELQKAIAENEDFKTLKESYAAVQADAASKNLFDEFRTMQLSLQQKMMQGQEITEEDNQQAQEVVARIQQDAKITKLMETEQRLNVVIGDVNKIIMKPLEELYSAQQQA	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
AK009_05336	1137			hypothetical protein	ATGAATATATGGTTAAATATGTTAACGACGACAGGACTCGGAGCAATTATTGGGGGATACACGAATCATTTAGCGATAAAAATGTTATTTCGTCCTCATCGCCCTATTTATATCGGAAAGTTTCAAGTTCCATTTACACCAGGATTAATTCCGAAACGTCGTGATGAACTTGCTGTTCAATTAGGGAAAATGGTCGTAGAACATTTGTTAACACCGGAAGGAATCGGAAAAAAGCTAACAAATGAAGAGTTTCAAAAAGGTTTAATCCACTGGGCGCAAGTGGAAGTGGATAAAGTAATTAAGAATGAACAATCACTGCGACATATGTTAGAAAAATGGAATGTAGCGCATGTAGAAGAAGAAGTGACTCAAAAAATTGAACATGTGATTACAGAAAAAATACAGGCATTTTTAGCTGAGTATTATACATATACATGGGAACAGGCTTTACCTCATTCTGTAAATGAAAAAGTAGAGAATGCGATTCCGAATGTCTCGGCGTTTATTTTAGAGCGAGGAATTAGCTTTTTTGAAAGTGAAGAAGGGAAAGGCCGTCTTTCAAAAATGATTGATGATTTCTTTGCTTCTCGCGGAACGCTACTTAACTTAGTCGGAATGTTTTTAGGAAATGTAAGTGTAGTGGATCGTGTGCAGCCAGAAGTTATTAAGTTTTTAGGGCAAGATGGTACAAAGCAGCTTTTAACTGACGTACTGCAAAAAGAGTGGGAAAAGTTAAAAGGAAGAGATGTAAAAGAATTAGAATCGTTTGTAGAGAAAGAAATGATTGTAAGCTCCGTGTTGTCAGCAGTTAAAGTAGAGGAAACAGTGAGTAAGTTTTTAAATCAATCTGTTCAGCAAGTATGTGAGCCAGTTCGAGAAACAATTATTGAAAAAGTGGTTCCAAGCACAGTAACGAAAGGCTTGAAGTGGGGAACAGAAAACGTAGAGAGTATACTAAACAATCTACATCTTGCGGAAATTGTCCAGCAAGAAGTGTCTACATTCTCAACAGAAAGATTAGAAGACTTAGTTCTGTCTATTACGAAAAATGAATTGAAAATGATTACGTATTTAGGAGCATTATTAGGTGGAATAATCGGACTCGTACAAGGATTGTTACTATTGTTTCTTAGATAA	MNIWLNMLTTTGLGAIIGGYTNHLAIKMLFRPHRPIYIGKFQVPFTPGLIPKRRDELAVQLGKMVVEHLLTPEGIGKKLTNEEFQKGLIHWAQVEVDKVIKNEQSLRHMLEKWNVAHVEEEVTQKIEHVITEKIQAFLAEYYTYTWEQALPHSVNEKVENAIPNVSAFILERGISFFESEEGKGRLSKMIDDFFASRGTLLNLVGMFLGNVSVVDRVQPEVIKFLGQDGTKQLLTDVLQKEWEKLKGRDVKELESFVEKEMIVSSVLSAVKVEETVSKFLNQSVQQVCEPVRETIIEKVVPSTVTKGLKWGTENVESILNNLHLAEIVQQEVSTFSTERLEDLVLSITKNELKMITYLGALLGGIIGLVQGLLLLFLR				NA	NA	NA	NA	NA
AK009_05337	1053			hypothetical protein	TTGGTTCTCGGTCTTTTAGCTTCTAAACTTCATTATGAGCAAACATATTACACCGAAATCGCTAAACGCGCTCGGCTTTATCATAATGTCGTTGCCCAGTTTACGCCATTTTGTATTGATCCTAAAACAGACCTTGTTTCTGGTCTTATTTACGATACAGATACAGGAAAATGGAAAGAGCAAACATTCCCTATTCCTTCTTATATATATGATCGTTATTCTTTTCACGAGGAAACAGACTTTGAAAAAGCAAAATCAATTATTCACTCTTTGCACAATCGTCCTACCACTACCTTTTTAAATAACACACTTATTGACTTAAGCGAACTACATGATTTATTTCTCACGAATAAAAAATTATCTCCTTATATACCAAAATTTGAAATAGCAACGATACAAAACATTTTCAAACTGTTGTTAAAAACTAAAGATATTATTATACGCCCCACTAATATACATTCTAAGGATAACTTATATCGAATTGCTTACAAAAATAAAACGTTTCATATCGATACAGTAAATGAAAAATACCATACTTCTATTACAATCAAACGGACAGACGAATTTATATCTTGGTGTAAATCTAACATACGTTCATCCCGTTACATAGCGCACACTATGCTACAACCACCAAATCAATTAACATATCCACTCCACATTCGAACCATTTTGCAAAAAAACAAAGAACAAACTTGGAATGTTATCGGTCAATTTATACAAAAAAGCTCATTTCCTAATCAACTTTTACCCTCAACAACGGACGATGATTCATTACATTCATTTTCAAAAATTAAATACGTACTATCTAGTACGGGTGTGCAACTATTGCAAGATGCTTTACACGACATTGTAAATGAAGTATTCCAAACACTAGATCAGTCTTATTCTTCGTTATTTGAACTAGAACTTTCCACAATTATGGATCAAAAAGGCGCAATTTGGCTTATGTATGTCAACACGATTCCCCCTTACGAACAATACATTCGTCATAGTGATTCATTAGCTGAAAAGATATTTCACGGACCACTTAAATTCAGTCGCTTTACACCATAA	MVLGLLASKLHYEQTYYTEIAKRARLYHNVVAQFTPFCIDPKTDLVSGLIYDTDTGKWKEQTFPIPSYIYDRYSFHEETDFEKAKSIIHSLHNRPTTTFLNNTLIDLSELHDLFLTNKKLSPYIPKFEIATIQNIFKLLLKTKDIIIRPTNIHSKDNLYRIAYKNKTFHIDTVNEKYHTSITIKRTDEFISWCKSNIRSSRYIAHTMLQPPNQLTYPLHIRTILQKNKEQTWNVIGQFIQKSSFPNQLLPSTTDDDSLHSFSKIKYVLSSTGVQLLQDALHDIVNEVFQTLDQSYSSLFELELSTIMDQKGAIWLMYVNTIPPYEQYIRHSDSLAEKIFHGPLKFSRFTP				NA	NA	NA	NA	NA
AK009_05338	1479	yheD		Endospore coat-associated protein YheD	ATGAAAGGAGGTAAACCTATTTTGAAAGAACATATATATACATTAAACATTTCAGATGAACATCCAAATAGTATTACTTTACCTTACGTTTTTTCTATTACGCCACCTATTACATCCCTCTCCTTCGGTATACGTCACATTGCAAGTGAAGAGGTGAAAATTCATTATTCCTTTACTCGCGAAATTATTATCGGAAAACATATTGCTGAAAAACTTTTACTACCTCAATCAACCACTATTCATGCATTCACACAAAACCAAACAATTATTTTCGGACCATTAATCGGCATTTTCACAACTGGCTTTAACGATGATTCTTCTATCCCTTTAGGAAATCGTTCAATTGCCCTCAGTGAGTTGTTAACACCACCATTCTCATTACGACCGTTCGTATTCGTCTTTGGCGTTCAACATATAAACTGGGAAGAAGAAACGATTGAAGGATATTTCTTTCAAGAGAAACAATGGATAAAGAAAAAGGTTCCTTTACCAAATGTCATTTACGATCGATTACCAAATCGACAAGCAGAAAATTACAAACCAATCGTCAGAGCAAAAAGAAAGTTAGAACAAGACTACTCCATTCCATGGTTTAATCCAGGTTTTTTCAATAAATGGGAAGTTCATCAACTTCTTATGAAAGACGAATCAATTAGACCCTTATTACCAAACACAGAAGCATTTCAGCATTTTGAACAAGTAGAACGGTTTCTTGGCACGTATAAATCAGTGTACATGAAACCAATACACGGGAGCTTTGGTAGAAATATTCATCAAATATTTTATTCTCAAACAGAGAATTGCTACTACTGTCGTTATCGCGAAAATGAAGAAAATAAACTGAGAAAGTATCAATCATTAGAAACTCTTCTAAACCACGTATTAAAGGGACATGATTTAAAAAAGTTTATCGTACAGCAAGGTATTTCGTTACTTCGCTTCGATGGGCAACCTGTTGATTTCCGCATTCATACAAATAAAAATCATTTCGGTAATTGGATAGTTAGTGCAATCGTCGCCAAAATCGCCGGCAAAGGCAGTTTAACAACGCACGTAAATAGCGGCGGTGATACAAAATTGCTACAAGAGCTTTTTCCAGATTCAACGAAACAAGTTCAAATTGAAAACAAATTAAAACATACTGCCTTACAAATAAGTTACGCGCTCGATGAACAAGTAACCGGAAATATTGGAGAAATCGGTTTTGATATCGGTTTAGACACAAAGGAAAATCCGTGGCTCTTTGAAGCCAACTCTAAACCTGGGCGAACTGTATTCCAAGATGAAAAATTAAAAGAGCAAAGTGAAATGACGCGCCAGTTATTTTACGAATATGCCGTCTACTTAACTGAACATTCTTTACGTGATACAAAAGAAAAAATGTCTCAAATAAAATCAGGGGCTTCATCAAATACCGAACATATCCCTTCCCCTATGATTCACTCACAAATACAAAAACAAAAACTTCCACCTAGATAA	MKGGKPILKEHIYTLNISDEHPNSITLPYVFSITPPITSLSFGIRHIASEEVKIHYSFTREIIIGKHIAEKLLLPQSTTIHAFTQNQTIIFGPLIGIFTTGFNDDSSIPLGNRSIALSELLTPPFSLRPFVFVFGVQHINWEEETIEGYFFQEKQWIKKKVPLPNVIYDRLPNRQAENYKPIVRAKRKLEQDYSIPWFNPGFFNKWEVHQLLMKDESIRPLLPNTEAFQHFEQVERFLGTYKSVYMKPIHGSFGRNIHQIFYSQTENCYYCRYRENEENKLRKYQSLETLLNHVLKGHDLKKFIVQQGISLLRFDGQPVDFRIHTNKNHFGNWIVSAIVAKIAGKGSLTTHVNSGGDTKLLQELFPDSTKQVQIENKLKHTALQISYALDEQVTGNIGEIGFDIGLDTKENPWLFEANSKPGRTVFQDEKLKEQSEMTRQLFYEYAVYLTEHSLRDTKEKMSQIKSGASSNTEHIPSPMIHSQIQKQKLPPR				NA	NA	NA	NA	NA
AK009_05339	246			hypothetical protein	ATGGGGATTTGCCCGCTTTGCAACGCATTAGAATCACAAACATATTCTTGTCAAAATTGCCAAAGTATACTCCAAGATTATGGGAAGTCTGTAGATTACATAGACGATTATAGTGCCTATATGGATCAAGAATTATTAAATGCAGTAGATGGTTTAACGCATAATAATTCAAATGAATATTGCAATCATATTTTTTATTGCGGAGTATGTAACGTGGAAACAGAGGTTGTAGTAAAACTTGTGTAA	MGICPLCNALESQTYSCQNCQSILQDYGKSVDYIDDYSAYMDQELLNAVDGLTHNNSNEYCNHIFYCGVCNVETEVVVKLV				NA	NA	NA	NA	NA
AK009_05340	204	sasP-C_3		Small, acid-soluble spore protein C	ATGGCAAACCAAAATTCTTCAAATCAATTAGTAGTACCAGGTGCAACAGCTGCAATCGATCAAATGAAGTACGAAATCGCTCAAGAATTTGGTGTACAATTAGGAGCAGATTCTACGGCTCGTGCTAACGGTTCAGTTGGTGGAGAAATTACAAAACGTCTAGTTGCAATGGCTGAGCAAAGCCTTGGCGGATTCCACAAATAA	MANQNSSNQLVVPGATAAIDQMKYEIAQEFGVQLGADSTARANGSVGGEITKRLVAMAEQSLGGFHK	PGPT0024865_206	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
AK009_05341	735	tcyC	COG1126	L-cystine import ATP-binding protein TcyC	ATGATTTCAATTCAGCACTTACAAAAAAGTTTCGGAGATAATACCGTACTAAAGCATATAGATTTAACAGTTGAGAAAGGCGAGGTTGTTGTTATTATTGGACCGTCTGGATCTGGTAAAACGACATTCTTACGTTGTCTTAACGTACTAGAAACACCAAACGCCGGTAGCATTCGCATCGGCAATAAAGAGCTTAATTTTGCTCAAAAAGTATCGAAGAAAGATATTGTAAATCTTCGTACGCAAACAGGTATGGTATTCCAGCACCATAACTTATTCCCTCATTTGACAGCACTTCAAAACGTAATGGAAGGACTCATTACAGTGAAAAAAGTAGGGAAAGAAGAAGCGAAGAAAAAAGCAAACTACTTCCTTGAAAAAGTTGGTTTAGCAGATAAAGTGGATTTATATCCATTTCAATTATCAGGCGGACAACAACAGCGTGTTGGAATTGCGCGCGCGCTTGCGATGGAGCCGGAAGTGTTACTATTTGATGAGCCGACGTCAGCACTTGATCCTGAACTTGTTCAAGAAGTTCTGAAAGTAATGAAAGAACTTGCTAAAGAAGGTATGACGATGGTCATTGTAACGCACGAAATGCGTTTTGCACATCAAATTGCGAACCGTGTTATTTTCATGGATGGCGGTGTCGTTGTTGAACAAGGTACACCAGAAGATGTATTTACAAATCCAAAAGAAGAACGTACGAAGAAGTTTTTACAAATGTTGCAATAA	MISIQHLQKSFGDNTVLKHIDLTVEKGEVVVIIGPSGSGKTTFLRCLNVLETPNAGSIRIGNKELNFAQKVSKKDIVNLRTQTGMVFQHHNLFPHLTALQNVMEGLITVKKVGKEEAKKKANYFLEKVGLADKVDLYPFQLSGGQQQRVGIARALAMEPEVLLFDEPTSALDPELVQEVLKVMKELAKEGMTMVIVTHEMRFAHQIANRVIFMDGGVVVEQGTPEDVFTNPKEERTKKFLQMLQ	PGPT0020720_1011	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010	NA	NA
AK009_05342	699	tcyB	COG0765	L-cystine transport system permease protein TcyB	ATGTATCTAAGTAGTGCATTGGTTTCAGATCGATTGTCTACTTGGATAGATATTATGCAGTCTTCCTTCATGCCTATGCTGAAGGAAGCTGTTTTTACGACAATTCCATTAACGCTTATTACATTTATTATCGGGATTATACTGGCAACGTTAACAGCGCTCGCACGTATTTCTGGTAGCCGTATTTTACAATGGATTGCTCGTATCTATGTATCTATCATTCGCGGAACGCCACTTCTTGTACAGTTATTTATTATTTTCTATGGTCTTCCAACTCTTAATATTGAAGTTGAGCCATATACAGCAGCAGTTGTTGGATTTTCATTAAATGTCGGTGCATATGCATCTGAAATTATTCGTGCTTCTATCCTTTCCATTCCGAAAGGGCAGTGGGAAGCAGCTTACACAATTGGGATGACATATCCACAAGCATTAAAACGTGTTATTTTACCACAAGCAACGCGCGTATCAATTCCACCGCTTTCGAATACATTTATTAGCTTAGTGAAGGATACTTCATTAGCATCATTAATTTTAGTAACAGAAATGTTCCGAAAAGCGCAGGAGATTGCGGCGATGAACTACGAGTTTTTAATTGTTTATTTTGAAGCAGGTCTTATTTATTGGGTTATTTGTTTCTTATTATCAATCGTACAACAGATGTTAGAGAAGCGTTCAGAACGCTACACATTAAAATAA	MYLSSALVSDRLSTWIDIMQSSFMPMLKEAVFTTIPLTLITFIIGIILATLTALARISGSRILQWIARIYVSIIRGTPLLVQLFIIFYGLPTLNIEVEPYTAAVVGFSLNVGAYASEIIRASILSIPKGQWEAAYTIGMTYPQALKRVILPQATRVSIPPLSNTFISLVKDTSLASLILVTEMFRKAQEIAAMNYEFLIVYFEAGLIYWVICFLLSIVQQMLEKRSERYTLK	PGPT0020715_377	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
AK009_05343	798	tcyA	COG0834	L-cystine-binding protein TcyA	ATGAAGAAATTATTTTCAGTGCTTGCAGTAACTACATTAGCGATCGGGATTGTAGCCGGCTGCGGTAAAGAAGAGAAAAAAGATACAGCTAGTCAAGACGCGTTACAAAAGATTAAACAAAGCGGTGAACTTGTAATTGGTACAGAAGGTACATACCCACCATTTACGTTCCACGATTCAAGCAATAAATTAACTGGATTTGATGTTGAATTAGCAGAAGAAGTTGCAAAACGTTTAGGTGTAAAACCTGTATTTAAAGAAACACAATGGGATAGCTTACTGGCTGGCCTAGATGCAAAACGTTTCGATATGGTTGCAAACGAAGTTGGTATTCGTGAAGATCGTCAAAAGAAATACGATTTCTCTAAGCCATACGTTTCATCTTCAGCGGCATTAGTTATTGCAAAAGATAAAGATAAGCCTGCTACATTTGCTGATGTAAAAGGACTAAAAGGAGCACAATCTTTAACGAGTAACTATGCAGATATCGCTAAGAAAAATGGTGCGGAAATTATTGGTGTAGAAGGATTTAGCCAAGCAGCAGAATTATTAGCTTCAGGACGCGTTGACTTCACAATCAATGATAAGTTATCAGTACTAAACTACTTAGAAACGAAAAAAGATGCGAAAATTAAAATTGTAGATACTGAAAAAGAAGCTTCAGAAAGTGGATTCTTATTCCGTAAAGGTAGCACTAAGCTTGTACAAGAAGTAGATAAAGCGTTAGAAGATATGAAAAAAGACGGTACGTATGACAAAATAACGAAAAAATGGTTCGGTGAAAATGTATCTAAGTAG	MKKLFSVLAVTTLAIGIVAGCGKEEKKDTASQDALQKIKQSGELVIGTEGTYPPFTFHDSSNKLTGFDVELAEEVAKRLGVKPVFKETQWDSLLAGLDAKRFDMVANEVGIREDRQKKYDFSKPYVSSSAALVIAKDKDKPATFADVKGLKGAQSLTSNYADIAKKNGAEIIGVEGFSQAAELLASGRVDFTINDKLSVLNYLETKKDAKIKIVDTEKEASESGFLFRKGSTKLVQEVDKALEDMKKDGTYDKITKKWFGENVSK	PGPT0015635_1021	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
AK009_05344	2001	yheH_2	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheH	ATGAGCGTTTCAAAACGATTGTTTCAATATGCGATGAAAGTGAAGGGGACGATTTTTGCAGCGATGCTAATGTTATTTATTTTCGTCATTGCAGAGCTTGCTGGTCCTTTCGTCGCTAAAACGATGATTGATGATCATATCGTCGGGATAGAGAAACCTTGGTATGAAACAGAAAAGAGTGAAGAAGCTGTTTCATATAATGGCGCTTTTTATAAGCGAAGTGATCGCTTTGAACAAGGCGAGACAAAAGGTAAAGAAGTACGTGTGATGCAAGTCGGTTTTCAATATTATTTTGTACCGAATAAAGTGAATATTGAAGGGTCACGTACTGTAAAAGGTGATATGATTACCGTTCAAAATGGTAAGGCGGTGCAAGTGTATAAAGCGAAGGCATTAACGAAAGAAGAAGTGTTTGCATTTTATAAACCAGAAATAAACCGTCTATTATTACTTGGTGGTGGCTATTTCGCTTTATTAGTAGTCGTATCATTATTTGCATACGGAAAGCAGTTCTTCTTGCAGAAGGCAGCGAACAAAATTATTCAAATTATGAGGGAAGATGTGTTTTCTCATATTCAAACGTTGCCGATTCGTTATTTCGATCATTTACCGGCGGGGAAAATTGTTTCGCGTGTGACGAATGATACAGAGGCCATTCGTGATTTATATGTAACTGTACTTGCAACATTCGTTTCTAGTATTATTTATATTATTGGGATATTCGCTGCGCTATTTTTATTAGATGTGAAGCTCGCTTCATTATGTTTATTAATTATCCCAATTTTAATTGTTTGGGCGATTCTTTATAGAAAATATGCGTCTGTATATAATCATAAAATGCGTTCACGTTTATCCGATATTAACGGAACAGTGAATGAATCCATTCAAGGGATGCCAATTATTCAAGCGTTCCGTCAAGAGCGTGAAACGAAAAAAGAATTTGAAGAATTAAACGGCGATTATTTTAAGTATCAAAATAAAATTTTAAATTTAAATGCAGCAACTTCGCATAACTTAGTAGCTGTATTAAGAAATATCGCTTTCACAGGAGTGATTTGGTATTTCGGCGGTGCGTCATTAAGTGCTACAGGTATTATTTCACTTGGGGTACTGTATGCGTTCGTCGATTATTTAACACGATTATTCTCGCCAATTACGAATATGGTGAACCAGCTTGCAAACTTAGAGCAAGCGCGCGTTGCATCAGAACGTGTCTTTGAATTGTTAGAGGAAAAAGGAGAAGCGGTAGAAGAAGAACGTATGCCTCGTTTAAAAGGAAATGTAAAATTTGATAATGTATCATTTTCTTATAATGGAAAAGATGAAGTGTTAAAAAATATTTCTTTTGAAGCGAAACAAGGCGAGACAGTGGCACTTGTCGGTCATACTGGATCAGGAAAAAGTTCTATCATGAATGTACTCTTTCAATTTTATGAGTTTGAAAAAGGAAAGCTTACGATTGATGGTCATGATGTAAGAGAAATGCCGAAACAAGCAACTCGTGAGCATATGGGAATCGTATTGCAAGACCCGTTTTTATTTAGCGGGACGGTCGCTTACAACGTAAGCTTAGAAAACGAAAAAATTTCAAAAGAGCGCATTGTAAAGGCGCTACGTGATGTTGGTGCTGAAAGATTTGCAAACAATATAAATGAAGAAATTACAGAAAAGGGAAGTACGCTTTCCACTGGAGAACGTCAGCTTATTTCGTTTGCTAGGGCGCTTGCTTTTGATCCAGCTATCTTAATACTAGATGAAGCAACGTCTAGTATTGATACAGAAACAGAGGCGATGATTCAACAAGCACTAGAAGTTGTGAAAAAAGGAAGAACGACGTTTATTATCGCTCACCGCCTTTCAACAATTAAAAGCGCAGATCAAATTATTGTGCTCGATAGAGGGACGATTTTGGAAAAAGGGTCTCATGATGAACTCATGAAAAAGCGTGGGCGTTATTATGATATGTATAAAACGCAAATGGAAGGCAATCAGAGTGCTTAA	MSVSKRLFQYAMKVKGTIFAAMLMLFIFVIAELAGPFVAKTMIDDHIVGIEKPWYETEKSEEAVSYNGAFYKRSDRFEQGETKGKEVRVMQVGFQYYFVPNKVNIEGSRTVKGDMITVQNGKAVQVYKAKALTKEEVFAFYKPEINRLLLLGGGYFALLVVVSLFAYGKQFFLQKAANKIIQIMREDVFSHIQTLPIRYFDHLPAGKIVSRVTNDTEAIRDLYVTVLATFVSSIIYIIGIFAALFLLDVKLASLCLLIIPILIVWAILYRKYASVYNHKMRSRLSDINGTVNESIQGMPIIQAFRQERETKKEFEELNGDYFKYQNKILNLNAATSHNLVAVLRNIAFTGVIWYFGGASLSATGIISLGVLYAFVDYLTRLFSPITNMVNQLANLEQARVASERVFELLEEKGEAVEEERMPRLKGNVKFDNVSFSYNGKDEVLKNISFEAKQGETVALVGHTGSGKSSIMNVLFQFYEFEKGKLTIDGHDVREMPKQATREHMGIVLQDPFLFSGTVAYNVSLENEKISKERIVKALRDVGAERFANNINEEITEKGSTLSTGERQLISFARALAFDPAILILDEATSSIDTETEAMIQQALEVVKKGRTTFIIAHRLSTIKSADQIIVLDRGTILEKGSHDELMKKRGRYYDMYKTQMEGNQSA	PGPT0029045_233	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
AK009_05345	1761	yheI_2	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	TTGTTATCAGTATTACTAAAGCTAAAATGGTTTTTTAAAGAGCATTGGAAGAGATATAGTATCGCTATTGGAGCTCTTTTAATTGTAAATATAGTTGAAGTCATTCCCCCGAAAGTGTTAGGGGTTACGATAGATAATATAAAAACAGGAACGTTAACGAATGCGGAGATTATGCAATTTATTCTCATTTTAATAGGGGTTACGGTAATTGGATATGGTCTTACTTTCGTTTGGCAACACCAGCTGTTTGGGGGAGCATTCGTACTGGAGAAAACGATGCGCTCTAAATTTATGGGGCACTTACTTAAAATGACACCGACGTTTTATCATAAAAATCGTACGGGTGATTTAATGGCGAGAGCGACAAATGATTTAAAAGCAATTGCTATGACAGCTGGTTTCGGTATATTAACGCTCGTGGATTCGAGTTTATATATGCTTACGATTGTCTTTATGATGGGATTTACAATTAGTTGGGAGCTTACATTTGCGGCGCTTATACCGCTTCCGATTATGGCGTATGCGATGAACATATATGGAAAGAAATTGCATGAGAGATTTACAGTCGCGCAAGATGCGTTCGGAGATATGAATGATAAAGTACTTGAATCGATTGCTGGTGTGCGTGTTATTCGTGCATACGTACAAGAGAATGCAGACGAGGAAAGATTTCATCATTTAGGAGATGACGTCTACGAAAAAAATATGAAGGTAGCAAGAATTGATGCATTATTCCAACCAACTGTGAAAATGCTTGTCGGTCTTAGTTATTTAATCGGCTTAGTGTACGGTGCATACCTTGTGTTCCAGTCAAAGGTGACGCTTGGTGAACTCGTTTCTTTTAACGTGTATTTAGGGATGATGATTTGGCCGATGTTTGCAATTGGTGAATTAATCAATGTTATGCAAAGAGGAAATGCTTCGCTTGACCGTGTGAATGAAACGTTAGCGTATGAGCCAGATGTAAAGAATCCAAAACATCCAAAGCTTGTGCAAGATCCGGATTATATTCAGTTTGATGATGTGTCTTTCTCATACCCTTCATCAACTGAAGAAAATTTAAAGAAGGTTTCTTTCACATTAAAGCAAGGAGAAACGCTAGGGGTTGTCGGAAAAACAGGAAGCGGGAAAACGACGCTTGTACGTCAGCTTCTTCGTCAATATCCGCTTGGAGATGGAGATATTGCGGTCTCTGATGTGACATTAGATAAAATAACAAATGAAAATGTACTCGGATGGATTGGGTATGTACCTCAGGAACATATTTTGTTCTCAAAAACAGCGAGAGAAAATATTTTATTCGGAAATAGGGAAGCGACGGAAGAAGAACTTGAGAAAGCAATTGAAATTGCTGCGTTTAAAAAAGACTTAGAGTTTTTACCAGAAGGATTAGAAACGCTCGTTGGAGAGAAAGGTGTTTCTTTATCAGGAGGGCAAAAACAAAGGATCTCGATTGCGCGAGCTGTTATTCAAAATCCAGAAATTTTAATTTTGGACGATTCTTTATCAGCTGTAGATGCTCGTACGGAAGCAGCGATCATTGAAAATATAAGAACAGAAAGAAGCGGAAAGACGACGATTATTACGACGCACCGTTTATCTGCAGTGCAACATGCGGATTGGATTCTCGTTATGGATGAGGGGCAAGTAATGGAAGAAGGTACACATGCTCAGCTTATCCAGAGCGGAGGCTGGTATGCTGAGCAGTTTGAAAGACAACAAGGTGAAAGTGAAAGTGCGGATAGTGGGGTGAAAATATGA	MLSVLLKLKWFFKEHWKRYSIAIGALLIVNIVEVIPPKVLGVTIDNIKTGTLTNAEIMQFILILIGVTVIGYGLTFVWQHQLFGGAFVLEKTMRSKFMGHLLKMTPTFYHKNRTGDLMARATNDLKAIAMTAGFGILTLVDSSLYMLTIVFMMGFTISWELTFAALIPLPIMAYAMNIYGKKLHERFTVAQDAFGDMNDKVLESIAGVRVIRAYVQENADEERFHHLGDDVYEKNMKVARIDALFQPTVKMLVGLSYLIGLVYGAYLVFQSKVTLGELVSFNVYLGMMIWPMFAIGELINVMQRGNASLDRVNETLAYEPDVKNPKHPKLVQDPDYIQFDDVSFSYPSSTEENLKKVSFTLKQGETLGVVGKTGSGKTTLVRQLLRQYPLGDGDIAVSDVTLDKITNENVLGWIGYVPQEHILFSKTARENILFGNREATEEELEKAIEIAAFKKDLEFLPEGLETLVGEKGVSLSGGQKQRISIARAVIQNPEILILDDSLSAVDARTEAAIIENIRTERSGKTTIITTHRLSAVQHADWILVMDEGQVMEEGTHAQLIQSGGWYAEQFERQQGESESADSGVKI	PGPT0029040_937	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
AK009_05346	1440	gapN	COG1012	NADP-dependent glyceraldehyde-3-phosphate dehydrogenase	ATGACAACTAGCAATACGTACAAATTTTATTTAAACGGAGAATGGAGAGAAAGCTCTTCAGGAGAAACAATCGAAATTCCATCTCCATACTTACACGAAGTAATTGGACAAGTACAAGCAATTACTCGCGGAGAAGTAGATGAAGCAATTGCATCTGCAAAAGAAGCTCAAAAATCATGGGCTGAAGCTTCCCTACAAGATCGCGCAAAATACTTATATAAATGGGCTGATGAGCTCGTAAATATGCAGGATGAAATTGCCGATATCATTATGAAAGAAGTCGGTAAAGGCTATAAAGATGCGAAGAAAGAAGTTGTTCGTACAGCTGACTTCATTCGTTACACGATCGAAGAAGCTTTACATATGCACGGAGAAAGCATGATGGGCGATAGCTTCCCTGGCGGAACGAAATCTAAACTTGCGATTATCCAACGCGCACCACTTGGTATTGTATTAGCAATCGCACCATTTAACTACCCAGTAAACTTATCTGCTGCAAAACTTGCACCAGCATTAATTATGGGTAACGCTGTTATTTTCAAACCAGCAACTCAAGGTGCAATTAGTGGTATTAAAATGGTGGAAGCACTTCACAAAGCTGGCCTTCCAAAAGGTCTTGTAAACGTAGCTACAGGACGCGGTTCTGTAATTGGTGACTACTTAGTAGAACACGAAGGCATCAATATGGTATCGTTCACAGGTGGTACAAACACAGGTAAACATTTAGCGAAAAAAGCTTCAATGATTCCACTTGTATTAGAACTTGGTGGTAAAGATCCTGGTATCGTTCGTGAAGATGCTGACTTACAAGATGCTGCAAACCATATCGTAAGCGGTGCATTCTCTTACTCTGGTCAACGTTGTACAGCTATTAAACGTGTACTTGTACACGAAAACGTAGCGGACGAGCTTGTTGACTTATTAAAAGCACAAGTAGCTGAACTATCAGTTGGATCTCCAGAACAAGACAGCACAATCGTTCCATTAATCGACGACAAGTCTGCTGACTTCGTTCAAGGTTTAGTTGACGACGCTGTAGAAAAAGGTGCAACAATCGTTATCGGTAACAAACGTGAGCGTAACTTAATTTACCCAACATTAATCGACCACGTAACAGAAGAAATGAAAGTTGCTTGGGAAGAGCCATTCGGCCCAATCCTTCCAATCATCCGTGTTTCTTCAGATGAGCAAGCAATTGAGATTGCTAACAAATCAGAGTTCGGTCTGCAAGCAAGTGTCTTCACAAAAGACATTAACAAAGCATTTGCAATTGCTAACAAAATCGAAACTGGTTCTGTTCAAATTAACGGACGCACAGAGCGCGGCCCTGACCACTTCCCATTCATTGGTGTAAAAGGTTCAGGTATGGGCGCACAAGGTATTCGTAAGAGCCTTGAGTCTATGACACGTGAAAAAGTAACAGTATTAAACTTAGTTTAA	MTTSNTYKFYLNGEWRESSSGETIEIPSPYLHEVIGQVQAITRGEVDEAIASAKEAQKSWAEASLQDRAKYLYKWADELVNMQDEIADIIMKEVGKGYKDAKKEVVRTADFIRYTIEEALHMHGESMMGDSFPGGTKSKLAIIQRAPLGIVLAIAPFNYPVNLSAAKLAPALIMGNAVIFKPATQGAISGIKMVEALHKAGLPKGLVNVATGRGSVIGDYLVEHEGINMVSFTGGTNTGKHLAKKASMIPLVLELGGKDPGIVREDADLQDAANHIVSGAFSYSGQRCTAIKRVLVHENVADELVDLLKAQVAELSVGSPEQDSTIVPLIDDKSADFVQGLVDDAVEKGATIVIGNKRERNLIYPTLIDHVTEEMKVAWEEPFGPILPIIRVSSDEQAIEIANKSEFGLQASVFTKDINKAFAIANKIETGSVQINGRTERGPDHFPFIGVKGSGMGAQGIRKSLESMTREKVTVLNLV	PGPT0018005_630	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
AK009_05348	1425	arcD_3	COG0531	Arginine/ornithine antiporter	ATGCAACAAAAAAAATGGGGCTTTTGGGTACTAACAGCTTTCGTTGTCGGTAACATGGTTGGCGCTGGTATTTTCATGGTGCCAAGTACGTTGGCACAAACAGCAAGCCCACTCGGTGTCACTTTAGCTTGGTTAACTACAGGGTTTGGTGTTTTAATGCTAGCTCTTGTTTTCGGTAATTTAGCAATTCGTCGTCCTGATTTAACGACAGGGCCACAAAGTCATGCATATGCTTTATTCTCAACACCAAAAAAGAAAAAAATGGCTGGTTTCAGTATGGTATGGGGATATTGGGTTGCAAACTGGGCAAGTAACGTTGCCATCATTACATCATTTGCGGGATATTTATCACTCTTCTTCCCAATTATGAAAGATACGCGACTACTATTTTCAATCGGCTCGTTTAACGTAGAAGTCGGAAAACTAATTACATTTACGATTTGTTCCATCTTACTTTGGGGAACTCATATTATATTAACGAACGGTGTAAGCGGAGCTGGAAAACTAAACTTCTTAGCAACAACAACGAAAGTAACTGGATTCCTTTTATTCATCGTCGTTACGTTATTTGCATTCGAAGCTTCTAAGTTTGGACAATGGTACACACCGATGATTGATAAATCAGGTGCATCACACGGTCTTCTTTCACAAGTAAATTTAGCTGCTCTTACAACGCTTTGGGCGTTTATCGGAATTGAATCAGCCGTTCTTTTATCAAACCGTGCTGTTTCTCCAAAAACGGTAAAACGTGCAACAGTTGCGGGATTACTTATTACAGTTGCGATTTACTTAGGAATTACAATTTTAACAATGGGTGTACTTCACGTTGATAAATTACAAACTTCTGAACGTCCATTAGCAGATGCACTAAACGCTGCAATGGGTCATGGCGGCGGGAAACTGATGGCATTACTTGCTCTTACTTCCCTGTTCGGTTCTATCTTAGGCTGGATTTTATTAAGCTCAGAAGTACCTTATCAAGCAGCAAAAGAAGGTTTCTTCCCTTCCTTCTTCACGAAAACAAATAAAAAAGGAAGTCCAATTTACTCATTACGATTAACAAACATTATGTCGCAAGTATTCCTATTCTCAACATTATCAGGAACTATTGCGGAAGCTTATACATTCGTTATTACCGTATCAACACTGGCCTACCTCATTCCATATCTCGTTTCACCAATCTTCCAGTTAAAACTAGTCGCAACTGGTGAAACATATAAAAATGAAATGCGGGCAAGAATTACAGATGGTATAGTCGCAGTGATCGCACTTTGCTACGCACTATGGGTTATTAAAACCGGCGCATCCGATATAAAAACGTTCCTTCTCGGAATTGGTTTATTCGTAATTGGATTTGCTTTCTATCCATTAATGAATCGTGATCAGAAAAAAAATAACGAAAAGAAAAACGGGCAAGTTGCATAA	MQQKKWGFWVLTAFVVGNMVGAGIFMVPSTLAQTASPLGVTLAWLTTGFGVLMLALVFGNLAIRRPDLTTGPQSHAYALFSTPKKKKMAGFSMVWGYWVANWASNVAIITSFAGYLSLFFPIMKDTRLLFSIGSFNVEVGKLITFTICSILLWGTHIILTNGVSGAGKLNFLATTTKVTGFLLFIVVTLFAFEASKFGQWYTPMIDKSGASHGLLSQVNLAALTTLWAFIGIESAVLLSNRAVSPKTVKRATVAGLLITVAIYLGITILTMGVLHVDKLQTSERPLADALNAAMGHGGGKLMALLALTSLFGSILGWILLSSEVPYQAAKEGFFPSFFTKTNKKGSPIYSLRLTNIMSQVFLFSTLSGTIAEAYTFVITVSTLAYLIPYLVSPIFQLKLVATGETYKNEMRARITDGIVAVIALCYALWVIKTGASDIKTFLLGIGLFVIGFAFYPLMNRDQKKNNEKKNGQVA	PGPT0020620_758	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
AK009_05349	1200			hypothetical protein	ATGTCAATCGAATCGCTATGGAGCAGTCGCTTCCAACAACATATTCAAAATATCATTACATACTTTGCACGTATGATTAACGGTTTACTATATAGCTTTATCTTTATTTCATGCGTTGGCGCATACTACTATGCTCAGTTTCTAAAAGCATCTCCTTCTAAAGGAATATCTTTAATAATTATAACGATTGTACTTACGTTCATTATAACGAGATGCCCTATCCGTACATTTATTCAAAAACCTGATGCTGTCTATTTGCTTGCATTAGAAGAGAAATTAACATCCTATTTCAAAAAATCTCTTCTATACAATTACATCATTCAACTTTTTCCATTATTATTTACGTTCCTTATTCTCGTACCACTTGCTATGCAATCATTGCAATTAACTGTACCTTTTTTATGTACAATCTTTATCGCGTTAATGATTACGAAAGCTTGGAACATGTACATACATTGGATGTGGCGTGATAGTCACGAAAAAAATATATGGCTGATCATTCGTATTACTTGTAACGCCCTAATCATTTACATGCTGTTTTATTCCGCAAATGTTCTCATATTGGGCGGACTACTCTTACTACTTGCTTTCCTAATTCTATATACGAAAAAACAGCCTACAAAGCGAATACCGTGGGATTACATAATCGAGCAAGAAGAAAAAATGAACGTTCGTTTTTATCAATTTGCTAGCATCTTCACCGATGTTCCGCAACTAAATAAGCAAGTAAATAAAAGAAAATGGCTTACAACTTGGATTGAACCTTTATTACATAAAAAACGAGCAACTTTCTTCTACTTACATACACTAGCATTTTTACGTGGAAATGATTATTTCGGTATATATATTCGCTTAGGATTGATCGGTGCTTTCGCCTTATATTTTATACCAAACATATACGTAAAAGGTGCTATCGCTTATATCGTTCTATATATGATCTCTATGCAGCTTCGTTCACTATGGAAATATTTTTCGGGAAATATTATTGCAGCATTATATCCAATCCATACTGAAGAAAGAATGAAACAATTTCTTAGCTTAATCTTTATATTGCTAAGTATTCAACTCATTGTATTTTCGAGTGTTATACTCATTGCTACAGGTCAATTTTTACATAGCCTTATCATTATGATTATCGGGTTACTCTGGATCAAATTTATTATTGTACCAAAAACGAAGCAACGCGTTTCTTCGTTTTAA	MSIESLWSSRFQQHIQNIITYFARMINGLLYSFIFISCVGAYYYAQFLKASPSKGISLIIITIVLTFIITRCPIRTFIQKPDAVYLLALEEKLTSYFKKSLLYNYIIQLFPLLFTFLILVPLAMQSLQLTVPFLCTIFIALMITKAWNMYIHWMWRDSHEKNIWLIIRITCNALIIYMLFYSANVLILGGLLLLLAFLILYTKKQPTKRIPWDYIIEQEEKMNVRFYQFASIFTDVPQLNKQVNKRKWLTTWIEPLLHKKRATFFYLHTLAFLRGNDYFGIYIRLGLIGAFALYFIPNIYVKGAIAYIVLYMISMQLRSLWKYFSGNIIAALYPIHTEERMKQFLSLIFILLSIQLIVFSSVILIATGQFLHSLIIMIIGLLWIKFIIVPKTKQRVSSF	PGPT0006730_4317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_05350	1998	katE_2	COG0753	Catalase HPII	GTGAATAAAAAAACGGAACAATTGAAGCATCACGTTACTGACAATCAATGCAAACATGCTTTAACAACAAATCAAGGGGTAAAAATAGCTGAAGATGAATTTTCTTTAAAGATGGGCTTAAGAGGCCCAACCTTAATGGAGGATTTCCACTTTCGCGAGAAAATGACTCATTTTGATCACGAACGAATTCCCGAAAGGATTGTTCATGCACGCGGGGTTGGCGCTCATGGTTATTTTCAGCTTTATGAATCTTTAGAAACATATACGAAAGCAGATTTTCTTACTAATCCTTCAAAGAAAACACCTGTATTTGTACGGTTCTCAACCGTTCAAGGTTCTAAAGGATCCAACGACACAGTAAGAGATGTACGCGGATTCGCCACAAAATTTTATACAGATGAAGGAAACTATGATTTAGTGGGTAATAATATGCCAGTATTCTTTATCCAAGATGCTATTAAATTTCCTGATTTTGTCCATGCAGTTAAACCAGAACCACATAATGATATTCCTCAAGGAGCTAGCGCTCATGATACCTTTTGGGACTTTGTTGCGCATAATCCTGAGTCCACTCATATGGTCATGTGGCAAATGAGCGACCGAGCTATTCCGCGTAGTTTACGAATGATGGAAGGTTTTGGAGTTCACACATTTCGACTCATTAACGCAGAAGGAAAAGCCCATTTCGTAAAGTTTCACTGGAAACCTACCCTCGGGGTTCATTCATTAGTATGGGATGAAGCTCAAAAGATTGCTGGGAAAAATCCTGATTTTCATCGTCAAGATTTATACGAAGCAATTGAAAAAGGGGATTATCCTGAATGGGAACTTGGATTACAGTTAATTCCAGAAGAAGATGAACATAAATTTGATTTTGATATTTTAGATCCAACGAAATTATGGCCAGAAGAAAAAGTTCCCGTAAAATTAGTTGGTAAAATGACATTGAACAAAAATGTTGATAACTTCTTTGCTGAAACAGAGCAGGTAGCTTTTCACCCTGGTCATGTCGTACCAGGTATTGATTTTTCAAATGACCCTCTTCTGCAAGGAAGATTATTCTCCTATACAGATACACAATTATCTCGTTTAGGGGGCCCTAATTTCCATCAAATCCCTATCAATCAGCCCGTATGTCCTTTTCATAATAATCAACGTGATGGTATGCATCAAATGCAGATTCATCGCGGTCAAACAAGCTATCATCCTAATGGATTAAATAACAATCAACCTGCAACCGTCCAAGCCGAACAAGGAGGATATGAACATTATCAAGAAAAGATTGATGGGCATAAAATTAGAGGTCGCAGTAAAAGCTTTCTTAACTTTTATTCTCAGGCTAAACTTTTCTACAATAGTATGAGCCCTATTGAAAAGCAGCACATAAAAGAAGCTTTTTGCTTTGAAGTTGGGAAGTGTAAATCAGACATGGTGAAGGCAAATGTAATTGCTCTCTTAAACCACGTCGATCGTCAATTAGCACAAGAAGTCGCTAACATTATTGGAGCTCCTTTACCTAAGGAAAATCACGAAGTAAATTCAGATGCAAAATCACCTGCACTAAGTATGTCCAATACTATTTTTAAATCTGATTCCAAAAATGTTGCAATTCTATTAAATGGTGACCCAAGCGTCTCACTTCTGTCCGAATGGATTCAAGCTTTTGTACAACACCGAATTAACTATAGCATCATAGATAATAAAATTTATCAGTTCAATGATTCCATTAAAGTAACTGATACTTATACAACAACAGACTCCTCCCTTTTTGATGCAGTATTAGTGTTTAGTAGTGAGTCTGTCATTCACCCCCCTGTTTTAGAATTTGCAGAAACTACTTTTAAACATTTTAAACCGATAGCTCATGTTCTTAGTAATCCTCATGCTTTGGACCATAGTAAGATTAAACTGGATGGAGCAGGAGTTTACAACTTAACAAACACTTCAATTGAGTCATTTATAGAAGGCATTGCCCAAGGACGATTCTGGAACCGATAA	MNKKTEQLKHHVTDNQCKHALTTNQGVKIAEDEFSLKMGLRGPTLMEDFHFREKMTHFDHERIPERIVHARGVGAHGYFQLYESLETYTKADFLTNPSKKTPVFVRFSTVQGSKGSNDTVRDVRGFATKFYTDEGNYDLVGNNMPVFFIQDAIKFPDFVHAVKPEPHNDIPQGASAHDTFWDFVAHNPESTHMVMWQMSDRAIPRSLRMMEGFGVHTFRLINAEGKAHFVKFHWKPTLGVHSLVWDEAQKIAGKNPDFHRQDLYEAIEKGDYPEWELGLQLIPEEDEHKFDFDILDPTKLWPEEKVPVKLVGKMTLNKNVDNFFAETEQVAFHPGHVVPGIDFSNDPLLQGRLFSYTDTQLSRLGGPNFHQIPINQPVCPFHNNQRDGMHQMQIHRGQTSYHPNGLNNNQPATVQAEQGGYEHYQEKIDGHKIRGRSKSFLNFYSQAKLFYNSMSPIEKQHIKEAFCFEVGKCKSDMVKANVIALLNHVDRQLAQEVANIIGAPLPKENHEVNSDAKSPALSMSNTIFKSDSKNVAILLNGDPSVSLLSEWIQAFVQHRINYSIIDNKIYQFNDSIKVTDTYTTTDSSLFDAVLVFSSESVIHPPVLEFAETTFKHFKPIAHVLSNPHALDHSKIKLDGAGVYNLTNTSIESFIEGIAQGRFWNR	PGPT0014380_1607	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK009_05351	516	yfkM	COG0693	General stress protein 18	ATGAGTAAAAAAATTGCTATTTTAATAACGGATTATTTCGAGGACACAGAATACACAGAGCCAGTAGAAGCTTTTAAACAGAAGGGATATGAATTAACAACTATTGAAATGGAAAAAGGTAAAACGGTACACGGTAAACAAGAAAAAAGCGAAGTCGTAATTGATAAAAATATTGATGGTGTTTCTCCAGAAAACTTTGATGCACTCTTCATACCCGGTGGATTTTCTCCAGATATACTTCGTGCAGATGAGCGTTTCGTTCGCTTTAGTAAAGCATTTATGGATGCAAAAAAACCTGTTTTCGCTATTTGTCACGGACCTCAGCTACTCATCACTGCACAAACACTTGAAGGACGTGATGTCACTGGATATAAATCTATTGAAGTCGATTTAAAAAACGCCGGCGGAAACTTTCATGACACAGAGGTTGTCGTATGCCAAAACCAGCTAGTCACAAGTAGACAACCAGAAGATATACCGGCGTTTATTAAAGAATCATTGCGTATATTAGGATAA	MSKKIAILITDYFEDTEYTEPVEAFKQKGYELTTIEMEKGKTVHGKQEKSEVVIDKNIDGVSPENFDALFIPGGFSPDILRADERFVRFSKAFMDAKKPVFAICHGPQLLITAQTLEGRDVTGYKSIEVDLKNAGGNFHDTEVVVCQNQLVTSRQPEDIPAFIKESLRILG	PGPT0015010_3233	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
AK009_05352	204			hypothetical protein	ATGAATAACAATCCACCTTCAACGCCCCAAGACAACTCCGAAAACAATAGCCGTGATATCACACTGCAAACATTAAGGGTCATCGGACTCGTCGTCCTTATTAGTGGTTATATCCTCGTTGCGCTCTCTGAAGTAGGTGAGCTGAAAGTCTTATTAACAAACCCAAATAGCAATCCTGATTTAGCTGAAGTTGATCCGTTTTAA	MNNNPPSTPQDNSENNSRDITLQTLRVIGLVVLISGYILVALSEVGELKVLLTNPNSNPDLAEVDPF				NA	NA	NA	NA	NA
AK009_05353	549	mdaB	COG2249	NADPH:quinone oxidoreductase MdaB	ATGAAAAATATATTTATTATAAATGGACATGAAAAATACGGTACAAAGGAAGGACGATTAAATAAAACGTTAGTAGATTATATGGTTACTGTATTAGGCGAGAATCATCATGTGAAAACAACAACGATTCAAGATGGTTACAATATTAAAGAAGAACAAGATAAGTTTTTATGGGCTGATGTTGTGATTTATCAAACGCCGATTTACTGGTTTAGTGTACCGGGCTTATTTAAAACGTATATGGATGAAGTATATGAATACGGTTTGTTCTTTAAAGGTGCTGATGAATATGGAACAGGTGGTTTATTAAAAGAGAAAGAGTATATGTTCTCTACAACTTGGAATGCACCTGAAAAAGCATTTGGAGATAAGACGAAGTTCTTTGAAGGAGAAAGTTTAGAATCAGCGCTTAGTCATTTACACCGCGTGCAGAAGTTTCTCGGTATGAGTCCGTTAAAGAGTTTTGCTTGTTATGATGTGGTGAAGAATCCGGATATAGAGAAGTATTTAGGGAACTTGAAGAATCATTTAGAAGAAGTCATTCAATAA	MKNIFIINGHEKYGTKEGRLNKTLVDYMVTVLGENHHVKTTTIQDGYNIKEEQDKFLWADVVIYQTPIYWFSVPGLFKTYMDEVYEYGLFFKGADEYGTGGLLKEKEYMFSTTWNAPEKAFGDKTKFFEGESLESALSHLHRVQKFLGMSPLKSFACYDVVKNPDIEKYLGNLKNHLEEVIQ	PGPT0023600_793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_2-METHYLENE-4-BUTYROLACTONE_RESISTANCE	ADAPTION_TO_PIS-2-METHYLENE-4-BUTYROLACTONE_DEGRADATION,PGPT0023600-mdaB-K03923	NA	NA
AK009_05354	540			hypothetical protein	ATGGGGATAAAAAAGTTATTTGGATTTCTTAGTTTGTTTGTTATTTGTATTGTGCTTGTAGCATGTGGTGTGGAACAAAAAACTGAAGTTCAATTATTAAAAGAAATGCCAAAGCCAAAAGCAATGACAATTGATCCCTCACTAAGTAAAAAAGAAGCGACAGAAATGGTTCATGCGGCGCAGCGTTTTTATGCATTTTGGGATACAGGTAAGGAGGAACTTATTCCGCAGACTGTTACTAAAGATTTCTTCGATAATACATTGCCGAAAGGGCGACCACAAGGCATTGAAGGATTAAAGTTTGCAGCGCAAAATTTTCGTAAAGTTGTGCCTGATATACATTGCGAGATTGAAGACTTATTAGTTGTTGGTGATAAAGTAACAGCCCGTCTTTCTTTTACAGGAACACATAATGGTAAGAAAATTAATTTTTTTGCAATTGATATTTTACATGTGAAAGACGGAAAGATAACGGAAGATTGGCATTTAGAAGATAATCTTACACTACAGCAGCAACTCGGCTTAATAGCTGAAGAGTAG	MGIKKLFGFLSLFVICIVLVACGVEQKTEVQLLKEMPKPKAMTIDPSLSKKEATEMVHAAQRFYAFWDTGKEELIPQTVTKDFFDNTLPKGRPQGIEGLKFAAQNFRKVVPDIHCEIEDLLVVGDKVTARLSFTGTHNGKKINFFAIDILHVKDGKITEDWHLEDNLTLQQQLGLIAEE				NA	NA	NA	NA	NA
AK009_05355	339	yybR_2	COG1733	putative HTH-type transcriptional regulator YybR	ATGAACAATATAGATCCAGTTGAATTAACGAAAGGTTTACCTGGCATACCTTGTCCTATCGCTAAAACGCTTGATGTAATTAGTACAAAATGGACATTTTTAATCATTCGTGATCTTCTTATCGAAGGAACATTACGCTTTAGTGATTTACAAAAATCAATGGATGGGATTAGTCCAAAAACATTATCGCTTCGACTAAAAGAATTAGAATCCCAAGGCATTATAACGAGAAAAGTATATCCAGAAGTTCCGCCTCGTGTAGAGTACACATTAACGGATAAAGGAAAGCAATTAGAGGGGATTTTTATTGAATTAAAACGGTTTGGGTTAAGTTTATAA	MNNIDPVELTKGLPGIPCPIAKTLDVISTKWTFLIIRDLLIEGTLRFSDLQKSMDGISPKTLSLRLKELESQGIITRKVYPEVPPRVEYTLTDKGKQLEGIFIELKRFGLSL				NA	NA	NA	NA	NA
AK009_05356	1203	tetA_3		Tetracycline resistance protein, class B	GTGAAGAAACCGATAAAAGAACAAAAGATGGTATTGGTCATTCTTTTGAGTAATATATTTATCGCTTTTTTAGGGATTGGATTAATCATTCCGGTTATGCCGTCCTTTATGAATGACATGCATTTAACAGGGAAGACGATGGGATATCTCGTTGCAGTATTTGCAATGGCCCAGCTCATTACTTCACCTATTACAGGCCGATGGGTTGACCTTTACGGTAGGAAGAAAATGATCATCATTGGATTATTTATTTTTGGTGTTTCAGAACTTCTTTTTGGATTAGGAAAAGATGTATGGATGCTTTATGTAGCAAGGGTATTAGGCGGAATTAGTGCTGCGTTTATTATGCCTGGTGTTACGGCATATGTTGCGGATATTACATCTATTCAGGAACGTCCAAAGGCGATGGGATACTTATCTGCGGCTATTAGTACTGGATTCATTATAGGGCCTGGAATCGGCGGATTTATTGCAGAATACGGTATACGTGTGCCGTTTTTCGTTGCAGCAGTGATTGCTTTTATAGCATGTGTGATTTCGATTTTTATTTTAAAAGAACCGTTAACGAAAGAAGAACTTGCAGAGATTTCTTCTAATACGAAGGAATCAAGTTTTATTGGTGATTTAAAAAAATCATTACATCCAATGTATGCAATTGCATTTATTATTGTATTTGTACTCGCATTCGGATTATCAGCGTATGAAACAGTGTTTAGCTTGTTCTCTGATCATAAATTTGGTTTCTCGCCGAAAGATATTGCAGCGATTATTACAATTAGTTCAATCTTTGGGGTAGTTGTACAGGTATTTATGTTTGGCAAATTGGTAGACATGTTCGGTGAGAAAGTATTAATCCAAATATGTTTAATTGTAGGGGCAGTATTAGCATTCGTCTCGACTGTAGTCTTTAATTATTGGATTGTACTTCTCGTTACTTGCTTCATTTTCTTAGCATTTGATTTACTTCGTCCAGCTTTAACGACGTTTTTATCAAAAGCAGCTGGAAAAGAGCAAGGATTCGTTGCTGGTATGAACTCGACTTATACGAGTTTAGGAAATATCGCAGGACCGGCGATGGGCGGAATATTATTTGATATGAATATTCATTATCCATATGCATTTTCAGGCGTTGTTTTAATAGTTGGTCTCGGCATTACATTTATGTGGAGAGAGAAACAGTTGGCTGAAAGTTTTGCGAAGTAA	MKKPIKEQKMVLVILLSNIFIAFLGIGLIIPVMPSFMNDMHLTGKTMGYLVAVFAMAQLITSPITGRWVDLYGRKKMIIIGLFIFGVSELLFGLGKDVWMLYVARVLGGISAAFIMPGVTAYVADITSIQERPKAMGYLSAAISTGFIIGPGIGGFIAEYGIRVPFFVAAVIAFIACVISIFILKEPLTKEELAEISSNTKESSFIGDLKKSLHPMYAIAFIIVFVLAFGLSAYETVFSLFSDHKFGFSPKDIAAIITISSIFGVVVQVFMFGKLVDMFGEKVLIQICLIVGAVLAFVSTVVFNYWIVLLVTCFIFLAFDLLRPALTTFLSKAAGKEQGFVAGMNSTYTSLGNIAGPAMGGILFDMNIHYPYAFSGVVLIVGLGITFMWREKQLAESFAK	PGPT0003185_404	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
AK009_05357	579	yvdT		putative HTH-type transcriptional regulator YvdT	ATGATGAATAAAAAAGAGAAAATTGTCTATGCAGCTATTGAAGTGTTTCAGGAAAAGGGCGTCGAAAAAACGAAGATTTCTGATATCGTGAAATTAGCTGGCATTGCGCAAGGAACTTTCTATTTATATTTTCCTTCTAAGCTATCTGTTATGCCTGCAATAGCAGAAGTGATGGTTGAAAAGATGATACTTGCAGTGAAAGAAAAAGTACAAAAAGATGTACCTTTTTCAAATAAAGTGGCACAAGTAATCGATGCGGTGTTTCACTTTATAGAGGAATATCGTGAAATACAAGCTTTAATGTATGCAGGTCTTGCATCTACGGAACATATAAAAGAATGGGAAGCTGTGTATGAGCCTCTTTATATGTGGCTAAGTGAATTTTTAAGTGGGGCGAAAGAAGCCGGTGAAATTCGTGATTCGGTTCACGCAGAGCGAACAGCGAAGTTATTTATTGCTCTTGTTGAATCAGCAGCGGAACAAGTTTATTTATATGATCATAAAGATGATGAGCAGGTCGAGCTACAAAAGGCAGAAGTACTAGATTTTTTAACACATGCACTACATATAAAGAAATAG	MMNKKEKIVYAAIEVFQEKGVEKTKISDIVKLAGIAQGTFYLYFPSKLSVMPAIAEVMVEKMILAVKEKVQKDVPFSNKVAQVIDAVFHFIEEYREIQALMYAGLASTEHIKEWEAVYEPLYMWLSEFLSGAKEAGEIRDSVHAERTAKLFIALVESAAEQVYLYDHKDDEQVELQKAEVLDFLTHALHIKK				NA	NA	NA	NA	NA
AK009_05358	315	gdnD_2	COG2076	putative guanidinium efflux system subunit GdnD	ATGGGTTGGTTTTTCGTATTTTGTGCTGCAATTAGTGAAATAGTCGGTGTGATCGGTCTTAAAATGTATAGTAAAGATAAAACTTTAGCCAATGGTGCGATTTATATAGGTGGGTTTGCTACATCCTTCGCATTTTTATATACTTCCTTCTTATTTTTACAAGTAAGTGTCGCGTATGCGGTTTGGATTGGTATCGGAACAGCAGGTGCAGTTTTGTTAAACATGTTCTTGTTTGGGGAGTCGAAAAGTAAAGCGCGTATTATTAGTGTGTTTCTTATTGTATGTGGAGTGACAGGATTAAAGGCACTTTCGTAA	MGWFFVFCAAISEIVGVIGLKMYSKDKTLANGAIYIGGFATSFAFLYTSFLFLQVSVAYAVWIGIGTAGAVLLNMFLFGESKSKARIISVFLIVCGVTGLKALS	PGPT0029170_320	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
AK009_05359	345	gdx		Guanidinium exporter	ATGAAAAATAGAGCTTGGTTATATGTCATATTAACATGTATCTTTGAAATTTTTTGGGTGTTTGGTTTTAATACGGCTAATACTTGGTGGCATTGGATTATTATTTTAGGAGTTATCGCTGTTGATTTTCACTTCCTTTCTAAAGCGTGTGAACATCTTGCAACAGGAACTGTATATGCTATTTTCGCTGGAGCTGGTACGGTAGGTACTTTCTTAATGGATGTATTTCTTTTCGGTGGAAGTTTCAGCGCAGGCAAACTATTCTTCATTCTTATGGTAGTAGCCGGCGTTATCGGTTTAAAGTTAGCTGACAATAAAGAAGAAACTGTGGAAGGAGTTGCTTAA	MKNRAWLYVILTCIFEIFWVFGFNTANTWWHWIIILGVIAVDFHFLSKACEHLATGTVYAIFAGAGTVGTFLMDVFLFGGSFSAGKLFFILMVVAGVIGLKLADNKEETVEGVA	PGPT0029165_129	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
AK009_05360	360	adhR_2	COG0789	HTH-type transcriptional regulator AdhR	ATGTACACAATTAGCGAGGTAGCAAAATTATTAGGAGTGAGCACACATACACTACGCTATTATGAAAAGGAAAGTATATTAATTGCAAATCGTGATACAAATGGAAATCGACTTTACGAAGAGTCACATATAAAGTGGTTGCAGTTTGTAATGAAATTAAAACAAACGCAAATGCCAATAGCGAAAATAAGAGAATACGCTAGACTATATACAGAAGGGGAGCATACAACAGAAGCTCGTTTACAGCTTCTAGAAGATCATAGGAAATCTATTCAGATTCAAAGAGAAAACTTAGAAGTTACAGAGAAGATGCTCGAGAATAAAATTAGTGCATACAAAGGCTCATTGGAAAATAAATAG	MYTISEVAKLLGVSTHTLRYYEKESILIANRDTNGNRLYEESHIKWLQFVMKLKQTQMPIAKIREYARLYTEGEHTTEARLQLLEDHRKSIQIQRENLEVTEKMLENKISAYKGSLENK				NA	NA	NA	NA	NA
AK009_05361	771			hypothetical protein	ATGAAATACACGGTTATTACTGGCGCAAGTTCCGGAATTGGTTATGAAGCAGCTTTAGCATTTGCATCTCGCGGAAAAAATTTAGTACTTGTAGCTCGAAGACAAGAAGAATTAAACGGATTAAAATTGAAAATTAACGAAATGCATCCTGAGTTGGATGTTGTCATTCGAAAAACTGATTTATCTGTGACTGAAGATGTTTATAAACTTTATGAAAGCCTACAAGCTTTTCAAATTGAAACGTGGATTAACAACGCAGGTTTTGGTAATTTCGCCTCAATTGCTGAACAAAATTTAAATAAAATAGAGACGATGTTGCATGTCAATATAGAAGCACTAACAATACTCTCTTCTCTTTTCGTTCGAGATTATTCAATGGTTGATGGAACACAGCTTATTAACGTTTCATCTGGCGGCGGATACACGATTGTTGCTGATGCTGTTACGTATTGCGCTACGAAATTTTATGTAAGTGCCTTTACAGAAGGGCTGTCTCACGAACTGAAAGAACAAGGCGCAAAACTGCAAGCAAAAGTTTTAGCTCCTGCTGCAACTGAAACAGAATTTGCGAAACGTTCATTTGATATTGATGAATTCCAATACGATAATGTTGTACCAAAATTCCACACTGCAAAACAAATGGCACAATTTATGCTCGATCTTTATGATAATGATAAAGTTGTAGGGCTTGTCGATGGTTCTACTTATAACTATGAGCTTAAAAATCCCATTTTTAATTTTGCAGTACGAAAAACGAATTCAAGTTCTTAA	MKYTVITGASSGIGYEAALAFASRGKNLVLVARRQEELNGLKLKINEMHPELDVVIRKTDLSVTEDVYKLYESLQAFQIETWINNAGFGNFASIAEQNLNKIETMLHVNIEALTILSSLFVRDYSMVDGTQLINVSSGGGYTIVADAVTYCATKFYVSAFTEGLSHELKEQGAKLQAKVLAPAATETEFAKRSFDIDEFQYDNVVPKFHTAKQMAQFMLDLYDNDKVVGLVDGSTYNYELKNPIFNFAVRKTNSSS	PGPT0030485_3733	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK009_05362	456	argA		Amino-acid acetyltransferase	ATGAAAATCTGTAATGCGGTGACGAGTGATGTGAAAGAAATTTATAGTCTTATTGAGGTTTATGCAAAAGAGGGAGTTGTTTTACCGCGATCTCTTTTGTCTCTTTATCAATATTTGCAATGTTTATATGTTATGAAAGAGGACGAGAAAATTGTTGGAGTTGCTGGATTGCATGTATTGGGGGAAGATCTTGCAGAAATACGATCGTTAGTAGTTTCGCATACATATGCAGGAAAAGGGATAGGGCGTATGTTAGTGAACCATGTAATAAATGAAGCAGCGAAAATAAAAGTGAATAGAGTCATTTCTTTAACATATGAAACGGAATTTTTTCAAAAGTGCGGGTTTGATTTTGTGAATAGAGAGGCGTTACCAGAGAAAGTATGGATTGATTGTAGACATTGTCCAAAGGTTGATTATTGTGATGAAGTGGCGATGGTTCGGTATGTTGGGTGA	MKICNAVTSDVKEIYSLIEVYAKEGVVLPRSLLSLYQYLQCLYVMKEDEKIVGVAGLHVLGEDLAEIRSLVVSHTYAGKGIGRMLVNHVINEAAKIKVNRVISLTYETEFFQKCGFDFVNREALPEKVWIDCRHCPKVDYCDEVAMVRYVG	PGPT0014241_912	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619	NA	NA
AK009_05363	495	decR_2	COG1522	DNA-binding transcriptional activator DecR	ATGGAGTCGTCTGTTATTAAAGTGTTGGATGATTTGGATGTACAAATTTTAGATATATTGCAGAAGGAGTCACAAGTAAGTAATGCAGAGCTGGCACGTCGCGTTAATTTATCACCGGCTGCGATGCATGCAAGAATAAAAAGATTGGATGGGGAAGGTTTCATCGATAAGCAAGTCGCGATTTTAAATCAAGAAAAGCTTGGGTTTGATTTATTATGTTTTATTTTTATGAGTACGAATATTCATCAATTTGACAAGTTGGAAGTGTTGGAGAAAGAATTAGAATCGATGCCGGAAGTGTTAGAATGTCACTGTTTAACAGGAGAGTACGATTATTTATTAAAGGTTGCAAATCGTGATCGTAAAGAACTAGAGCAGTTTATTAGAAAGCTGAATAAGCTTGGTATTACAAGGATACAGACAAGTTTAGCACTTCGTGAAATTAAATATTCGACAGTATTGCCGATACGAAATGAGGAACCGAGCATCGATTAG	MESSVIKVLDDLDVQILDILQKESQVSNAELARRVNLSPAAMHARIKRLDGEGFIDKQVAILNQEKLGFDLLCFIFMSTNIHQFDKLEVLEKELESMPEVLECHCLTGEYDYLLKVANRDRKELEQFIRKLNKLGITRIQTSLALREIKYSTVLPIRNEEPSID				NA	NA	NA	NA	NA
AK009_05364	963			hypothetical protein	ATGCTAAAATTATTTACAATAAGTATTGATTACAAAAAAGGGGATTTTATCATGCCTTATTTTTACGTCTTTTTACTATTACTAACGAGCTTATTATGGGGAGGAAATTTTGTCGTTGGAAAATCACTCGTCGATCATGCATCGCCGATGACACTGACAAATTTAAGATGGATGATTGCGATTGTTTGTTTATTACCAATGGTATGGTTTAAAGAAAAGAAAATCCTTCCACCACGTACCGCAATACTTCCGTTAATATTGATGGGAATTTCAGGGGTCGCTCTTTTTAACATCTTTCAATTTTTAGCATTAGAAAAAACATCCGCTACGAATGTAGGTCTTATCTCTACATTGAATGCAATTTCAATCGCATTATTTTCAGTATTATTTCTAAAAGAAAAAGTAAATACACTTCAAATCCTATCCATGATTCTTTCATTCTTCGGGGTTATCCTCGTCCTATTAAAAGGTGATTTCTCGCTTTTATTTTCACTACATTTTAATAGCGGCGATTTATGGATGATTGCAGCAGTTTGTATTTGGGGAATCTATTCTGTTTGTAGTAAATGGGCAACAAAAACAACTACACCACTTATGGCAACGTTGTACTCTGGTATTTTCGGCGTTATTTTATTACTACCGTTTAACATAGGTAGCTTCACTGTTTCAAATATAAATACTTCTTTCATCACATCACTTTTATATACTGGGCTTATTTCGACAGTTCTTTGTATGGTATTTTGGAATATTGGCGTACAAAAATTAGGCGCAACTACATCAGGTATTTTTCTAAACTTCAATCCAATTTTCACAGCCATTTTAGCATTCATATTCCTCGGAGAAGAATTAACGTGGATACAAATTTTAGGAACAATTGTCGTTGTAACAGGATGTTATTTATTTTCTCATTTCAAAACTGTCGCTGTTCAGCCTGTTAGACCTTTAATGCGAAAACATCCTTAA	MLKLFTISIDYKKGDFIMPYFYVFLLLLTSLLWGGNFVVGKSLVDHASPMTLTNLRWMIAIVCLLPMVWFKEKKILPPRTAILPLILMGISGVALFNIFQFLALEKTSATNVGLISTLNAISIALFSVLFLKEKVNTLQILSMILSFFGVILVLLKGDFSLLFSLHFNSGDLWMIAAVCIWGIYSVCSKWATKTTTPLMATLYSGIFGVILLLPFNIGSFTVSNINTSFITSLLYTGLISTVLCMVFWNIGVQKLGATTSGIFLNFNPIFTAILAFIFLGEELTWIQILGTIVVVTGCYLFSHFKTVAVQPVRPLMRKHP				NA	NA	NA	NA	NA
AK009_05365	486			hypothetical protein	ATGCTTTTTAAATGGATTGTAGGTATATGTATTACCATTATGGTAATCATCTCTTCTATAGTTGGCGGAAAGAAATTGCTTGCATATGTGGAAAAAGAAAATACAAATATTCAAACCGAGCGAGCGGCAAACGAAAAAGAGAAAAAAGCTGCAGAAGAAGCCCCGCAAATTAGTGAAGGTGAAATTATTTCTACTATGCATAAAATGGTGCATCAAAAGGTAAAATCCTCTGAAAAATGGGGATTTGTAGAGATGACAAAAAAGGAAATTTCTAATGTAAAAAGAGATATTGAAAATAGTACAGGTTTTCAATATAAAATGAAGTTATTTTCTATTATAAACAGATGGGAAAAAGGAGATTTTTCTCAAACTGTTGAGGAGCATAACTTTTTATGGAACCTCGAAGGTGGAGATACTGGCAAGGCGACGGAACGTTTATCGCCAGAAGAGGAAAAGCAGTATATAAAAGAAATGAAGAGTAAATAA	MLFKWIVGICITIMVIISSIVGGKKLLAYVEKENTNIQTERAANEKEKKAAEEAPQISEGEIISTMHKMVHQKVKSSEKWGFVEMTKKEISNVKRDIENSTGFQYKMKLFSIINRWEKGDFSQTVEEHNFLWNLEGGDTGKATERLSPEEEKQYIKEMKSK				NA	NA	NA	NA	NA
AK009_05366	402			hypothetical protein	ATGCCTAAATCAAATTTAGAAATTATTCAAAGCACGTATGAAGGATCAGCTTCTTCGAATGCAAAGCATTTAGCAGAAGCCCTCTCTGAAAAAGTGGAATGGACAGAGGCAGAAGGTTTCCCGTACGGCGGAACATATAAAGGCGTGGAAGCTATAATGAAAAATGTATTTAGCCGTTTAGGATCAGAATGGGATGATTATAAAGCAAGTGTAAATACATATCATGAAGTAAACGGAAAAGATGTAATTGTTGCTGAAGGTATGTATTCTGGAGTTTATAAAGAAACAGGAAAATCATTTGAAGCAGAATTTGTTCATGTATGGCAGCTTGAGAATGGAAAAATCGTGAAGTTTAAGCAGTATGTAGATAGTCATATTGTTAGGGGAGCGATGAAGAGCTAA	MPKSNLEIIQSTYEGSASSNAKHLAEALSEKVEWTEAEGFPYGGTYKGVEAIMKNVFSRLGSEWDDYKASVNTYHEVNGKDVIVAEGMYSGVYKETGKSFEAEFVHVWQLENGKIVKFKQYVDSHIVRGAMKS				NA	NA	NA	NA	NA
AK009_05367	405	catD_2	COG2259	Putative oxidoreductase CatD	ATGAATCAATATATTGGGAATTTAATTATTCGTATCGTGTTAGGAGTTACGTTCTTTGCACACGGTTTAGCAAAGTTTCAATCAGGTATCGATAATGTAGCAGGATGGTTTACAAGCATCGGTTTACCAGGTGGCCTTGCATACGGCGTAGCAACTGTAGAATTAGTTGGTGGTATATTATTAATTATCGGTTTAGGTGTACGATATGTAGGATTGTTATTCGCTCTTATTTTAGCTGGAGCTATCGTAAAGGTAAATGGAGCAGCAGGTTTATTAGGAGATGGAAAGAATCCAGGATATGAATTAGATCTTGCATTATTATCAATGGGTGCGTATTTATTCGTAGTAAAAGCAGAAGGATATGTAGATCGTTTCTTAAAAGAGAAAGTAATGAAAACGAAGTAA	MNQYIGNLIIRIVLGVTFFAHGLAKFQSGIDNVAGWFTSIGLPGGLAYGVATVELVGGILLIIGLGVRYVGLLFALILAGAIVKVNGAAGLLGDGKNPGYELDLALLSMGAYLFVVKAEGYVDRFLKEKVMKTK	PGPT0028505_4861	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
AK009_05368	1074			hypothetical protein	ATGATCGGAGTTTCCATTTATCTTTCAAAAGAACGAGTAGAGAAACAAGAAGAGTGGCTAAAAGTGGCGAAGGAAAATGGATTTTTGTCTATTTTTACATCACTTCATATACCAGAGGATGATCCTGGTACGTATAAAGAGTTAATTCAGATACTTGGGAAGCAGGCTCTTGAAAATGAAATGGAGTTAATGGTTGATGTTTCTCCAAAATCGTTACACCATTTAGGGCTAACATATGAAAATGTGGAAGAGTTATTGAACTGGGGCATTACCGGTTTAAGAATGGACTATGGCATCACGCCAAAAGAAATCGCCCGCGTATCTCACAAGATGAAAGTAGCTTTAAATGCGAGTACGATTACAAAGTCATTTTGGAAAGAGTTACTTGCAGAACATATAAGAGTAGAGAATGTAGAAGCGTGGCATAATTTTTACCCACGTCCAGAGACGGGACTAGCAAAGTCCTTCTTACAAAAACAAAATCAATATTTACAGAAGTGCGGAATAAAGACGATGGCATTTATTCCAGGAGATACGGAAAAACGTGGCCCGTTATATGAAGGGTTACCAACGTTAGAAAAACATCGCAATATGCGCCCGCTTGAAGCGTACGTAGAACTTGTTCAAGATTGTGGTGTTGATAAAGTGTTGATTGGAGATATAAGCGCGAGTTTGGAAAGTATGCAAGAAGTAGCTAGTGCAAGTAGAGGGATTATTCCATTGCGTTACAAATCATTTATAACTGATAAAGAAGTATTAAAAGTGGTGGAGCAAGTGCATACAAATAGACTAGATCCGGCTCGTGATGTTATTCGATCTGTAGAATCAAGGGAAGGAAATAGAGTGGTTTTACAGCCGATGCATACAATTGTAAGAAAGAAAGGCAGCATTACAATTGATAATGAATTGTACGGTAGATATGCAGGGGAGATGCAAGTTGCTACACATGATTTACCTGTAGATGAGAAAGTGAATGTTGTGGGAATGGTTGTGGAAGAGGACGTGTCTTTACTGCCTTATATTGGCGCTGGAAAAATGTTTCAACTTTTTCTATGCGATAGAATAAAAGCTTGA	MIGVSIYLSKERVEKQEEWLKVAKENGFLSIFTSLHIPEDDPGTYKELIQILGKQALENEMELMVDVSPKSLHHLGLTYENVEELLNWGITGLRMDYGITPKEIARVSHKMKVALNASTITKSFWKELLAEHIRVENVEAWHNFYPRPETGLAKSFLQKQNQYLQKCGIKTMAFIPGDTEKRGPLYEGLPTLEKHRNMRPLEAYVELVQDCGVDKVLIGDISASLESMQEVASASRGIIPLRYKSFITDKEVLKVVEQVHTNRLDPARDVIRSVESREGNRVVLQPMHTIVRKKGSITIDNELYGRYAGEMQVATHDLPVDEKVNVVGMVVEEDVSLLPYIGAGKMFQLFLCDRIKA				NA	NA	NA	NA	NA
AK009_05369	1365			PTS system EIIBC component	ATGAAGAAAGAAGAGAGAATGGCCAAGGAAATTTCGGAGCAACTTGGGGGAATAAAAAATATTCGTAGTATTGCTCATTGTATGACGAGACTACGTTTAACGCTTCATGATGAAAGTAAAGTAAATATGGACCTTTTGAAAAAAGTTGAAGGCGTTATGGGTGTTATAGAAGATGAGACGCTTCAAGTTGTCGTTGGTCCAGGAACAGTAAATAAAGTAGCAGCTGAAATGGAAGGTTTGACAGGACTACGAATTGGTGAGGTAGCAGATCATCACCTTGAAGATATTGGGCAAGAGATGAAATCAGAGATTAAGAAGAAAAATAATACACCGGTGAAAAACTTTTTACGAAAAATAGGAAGTATTTTCATCCCATTAATTCCGGGGCTTGTTGCGTCAGGAATTATAAACGGGGTTGCTAACTTTGCGAAAAATGCTGGTGCTGATCCAAATGCAACGTGGTTACAAATGTTACTACTCATTGGCGGCGGTATCTTTACATTCTTAGGAATTTTAGTCGGCTGGAATACAGCGAAAGAATTTGGCGGGACACCGGTTCTTGGGGCAATTGCTGGTATTTTAATTTTCAACCCGGCGATGGCAAACGTAAAATTGTTTGGTGAAGCATTAGTGCCCGGACGGGGCGGATTGTTTGCAGTTATTTTTGCAGCATGGCTTATGGTTGTAGTGGAAAGACAAGTTCGAAAAGCAGTGCCAAATGCAGTTGATATTATCGTGACACCACTCATTACTGTATTAGTTGTAAGTATCGTAACGATGTTAGCCATTCAGCCATTAGCAGGTTTCTTATCAGATGGTATTACGAGCGGAATTAATGCTATTTTAAATATTGGCGGAGCATTTGCTGGCGCAGTACTTGCGGGAACATTTTTACCTCTCGTTATGGTCGGATTGCATCACGGTTTAACACCAATTCATATGGAATTTATTAATCAAACACACGTAACACCTTTATTACCAGTGCTCGCAATGGCTGGTGCTGGCCAAGTGGGCGCAGCAATTGCGATTTATGTGAAAACAAAAAACAAACGACTTCGTAACGTAATTAAAGGTGGATTGCCAGTTGGCTTTTTAGGAATTGGTGAGCCGTTATTATACGGGGTTACATTACCACTTGGGAAACCGTTTATTACTGCTTGTTTAGGAGCAGCTGTCGGTGGTGCATTCCAAGCAGTTATGCAAACAGCTTCTCTTGGGATTGGCGTATCAGGGCTATCTTTAATTCCGTTAATTGCTGACAATAAATATTTACTCTATTTCTTAGGTTTAGTAATTGCATATGCTTTCGGATTTATCTTTACGTACTTCCTCGGATTTAAAGAAGAAATGGCAGAAAACATATAG	MKKEERMAKEISEQLGGIKNIRSIAHCMTRLRLTLHDESKVNMDLLKKVEGVMGVIEDETLQVVVGPGTVNKVAAEMEGLTGLRIGEVADHHLEDIGQEMKSEIKKKNNTPVKNFLRKIGSIFIPLIPGLVASGIINGVANFAKNAGADPNATWLQMLLLIGGGIFTFLGILVGWNTAKEFGGTPVLGAIAGILIFNPAMANVKLFGEALVPGRGGLFAVIFAAWLMVVVERQVRKAVPNAVDIIVTPLITVLVVSIVTMLAIQPLAGFLSDGITSGINAILNIGGAFAGAVLAGTFLPLVMVGLHHGLTPIHMEFINQTHVTPLLPVLAMAGAGQVGAAIAIYVKTKNKRLRNVIKGGLPVGFLGIGEPLLYGVTLPLGKPFITACLGAAVGGAFQAVMQTASLGIGVSGLSLIPLIADNKYLLYFLGLVIAYAFGFIFTYFLGFKEEMAENI	PGPT0014190_1389	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
AK009_05370	885	murQ	COG2103	N-acetylmuramic acid 6-phosphate etherase	ATGTTAGAAAATTTATCGACAGAACATCGTAATGAGAAAACAATGAATCTGGATGAAATGAGTATAAAAGAAGTGTTGCAAAGTATGAATGAAGAAGATCGAACTGTTGCGTTAGCAGTTGAAAAAGAGATAGAACAAATTGAAAAGGTTGTACAGACTGTTATTAAATCTTTTGAAGAAGAGGGACGTTTAATTTACATTGGTGCTGGTACGAGTGGTCGTTTAGGTATTCTAGATGCAGTGGAATGTCCGCCGACATTTGGCACGGATGATAAAATGGTGCAAGGATATATAGCAGGTGGGTTGAAAGCGTTTACTAAAGCGGTGGAAGGTGCCGAAGATCGCGAAGAGTTAGCAGAAGAAGATTTAAAAAGTATTGGATTAAATGAGAAAGATACAGTGATTGGAATTGCTGCAAGTGGCAGAACTCCTTACGTAATTGGCGGCTTGAAATACGCACAGAGCGTAGGAGCGAGTACAGCGAGTATTTCTTGTAATAAAAATGCTGAAATAAGTAAATATGCAAAGTTAAATGTAGAAGTAGAGACAGGTGCAGAAATATTAACAGGATCAACGCGTTTAAAAGCTGGTACAGCACAAAAATTAGTGCTGAATATGATTTCAACAGCTTCGATGATTGGTGTAGGAAAAGTATATAAAAACTTAATGGTAGATGTTCAATCCACAAATGAAAAGTTAGTAGAACGGTCAAAACGAATTATTGTGGAAGCAACAGGCGCTAGTTATGAAGTAGCGGCAGAGTATTATGAAAAGGCAGAACGTAACGTAAAAGCTGCCATTGTTATGGTGTTGTTGCAGTGTGAGTATGGGGAAGCACTGGAGAAACTAAAATACGCAAAAGGGTTTGTGAAGAAAGCACTATAA	MLENLSTEHRNEKTMNLDEMSIKEVLQSMNEEDRTVALAVEKEIEQIEKVVQTVIKSFEEEGRLIYIGAGTSGRLGILDAVECPPTFGTDDKMVQGYIAGGLKAFTKAVEGAEDREELAEEDLKSIGLNEKDTVIGIAASGRTPYVIGGLKYAQSVGASTASISCNKNAEISKYAKLNVEVETGAEILTGSTRLKAGTAQKLVLNMISTASMIGVGKVYKNLMVDVQSTNEKLVERSKRIIVEATGASYEVAAEYYEKAERNVKAAIVMVLLQCEYGEALEKLKYAKGFVKKAL	PGPT0019040_1808	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
AK009_05371	864	hexR	COG1737	HTH-type transcriptional regulator HexR	GTGAAAGCTTCAACATTACTATTTAAAATTGAAAGTAATATGGATCAATTTTCACCAGCTGAAAAGAAGGTTGCCATGTACATAATGGAGAATGCAGAGATTGTTCCGAACTTAACGACGAAAGAAGTGTCAACGAATGCAGGCGCAAGTGAGGCGAGTGTCGTTCGTTTTTGTAAGTCGATTGGGATCGGAAGTTTTAAAGCATTTAAGATAGCACTCGTTCGTGAATTAACGATTGCTGATTATAATATTAACGATTTTTCAGTGATGAATACGGAAGATGGACCGTACGATTTGTTTAATAAAGTCACTTATGTGAATAAAGCTGCAATTGAGGCGAGCGTTACTGCGATAGATAAGAAGGAACTTGAGAAAGCTGCAGATCGTATTGTCAATGCGGGCAAAATTATATTTTACGGCGTAGGTGGATCAGCTACGCCAGCAATGGATGGGGCGTATAAATTTACACGGCTTGGATTTACAGCGATGATGCTATCTGATTTTCATATGATGTTGCCGCTTGTGACGAATTTAAAAGAAGGCGATATATTTGTTGCGATTTCAACATCTGGTCGAACGAGAGATGTGCTTGAAATGGCGCAGTATGCAAAGAGACAAGGTGCAACTGTTATTGGAATTACGAAGCTAGATCAATCATCCCCCTTATATAAAGAAGCGGACATTCGTCTTTGTATGCCAGATGTAGAACAAGATCATCGTATTGCAAGTATTGCGTCGAGAATGACGCAACTGAATATGATTGATGCTTTATATGTGATTACTTTCAACCGAATTGGTAATAAAGTATTGGATCAATTTATGGAGACGCGAGAAGAAGCGTTGCGGTTACGGAAGTTAAAGTAG	MKASTLLFKIESNMDQFSPAEKKVAMYIMENAEIVPNLTTKEVSTNAGASEASVVRFCKSIGIGSFKAFKIALVRELTIADYNINDFSVMNTEDGPYDLFNKVTYVNKAAIEASVTAIDKKELEKAADRIVNAGKIIFYGVGGSATPAMDGAYKFTRLGFTAMMLSDFHMMLPLVTNLKEGDIFVAISTSGRTRDVLEMAQYAKRQGATVIGITKLDQSSPLYKEADIRLCMPDVEQDHRIASIASRMTQLNMIDALYVITFNRIGNKVLDQFMETREEALRLRKLK	PGPT0017985_830	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
AK009_05372	315			hypothetical protein	GTGAAGATTACGAAGGAGAAGGTTATCGGTGTAATCGTACTTATTGCAGTATGTATACCATTTACTGCATGGAAAGAATCAAAAGTGAAAGATTTTCCGGTTTCTATTTTTTCGGAAGAAGCAGATGGTGAGTACGGTCAGAAGCTGAAATATACTGCCTTTTTACCTGATGTTGCGATTTGGATGAACGGTTGGAAAGAGAAGTGGACAGAAGGAGAAAGAACTGTTTATCAAAAAGGGAATCGCATTGTAAATGTGTTTCATCCTCCTGGCGATGATGGTTTTTACCTTCTTGAAGCAAGAGAAAATAAGTGA	MKITKEKVIGVIVLIAVCIPFTAWKESKVKDFPVSIFSEEADGEYGQKLKYTAFLPDVAIWMNGWKEKWTEGERTVYQKGNRIVNVFHPPGDDGFYLLEARENK				NA	NA	NA	NA	NA
AK009_05373	1128	gerN_2	COG0475	Na(+)/H(+)-K(+) antiporter GerN	ATGTTATTTTATTTTGAACTTGTCGTCATTTTACTTTGTACGAAATTAGCTGGTGACATTAGCGTGAGACTTGGTCAGCCTTCTGTACTTGGTAAGTTAATTGTCGGTATTATTATCGGTCCAGCTGTACTCGGTATTATTAATAGTTCTGAACTAATTGATGAACTGAGTGAGATTGGTGTTTTGTTACTTATGTTTATGGCGGGACTTGAAACAGATTTAGAAGAGTTAAATCGGAATTTGAAATCGTCATTTGCAGTAGCGGCTGGTGGAATTATTTTTCCTTTCATCGGTGGTTATGTAACAGGATTGCTGTTTGGATTAATGCAGTCCCATGCCATTTTTTTAGGATTATTACTTTGCGCAACATCGGTTAGTATTACGGTGCAGACGCTACGTGATTTAGGAAAAATGAATACGAGAGAAAGTACAACAATTTTAGGTGCTGCCGTATTTGATGATGTCATTGTCGTTATTTTATTGGCATTTGTAATGAGTTTTTTAGGAACACAAGATGTAAATATAACACTTGTCATTGCAAAGAAAATTATTTTCTTTGTAAGTATTGTTTTTATTGCTTGGAAAGTCGTTCCTTGGATTATGAAAATGCTTGTCCCGCTTCGTGTAACAGAAGCGTTAATTAGCGCGGCTCTTATTATTTGCTTCTCTTTTTCTTATTACAGTGAAATGATGGGAATTGCAGGCATTATTGGAGCATTTGCAGCAGGAATTGCTATTTCTCAAACAGAGTATAAGCATGAAGTGGAACATAAAATTGAACCGATTGCTTATGCAATATTTGTTCCAGTATTCTTCGTAAGTATCGGAATGGAAATTACATTTCAAGGCATTGGAAGCCAGCTTTGGTTCATTATTATTATGACCCTCATTGCGATTTTCACAAAGTTAATTGGATCAGGTTTAGGAGCGAGATTGACAGGTTTTAATCTCCAATCTTCTATTAGTATTGGCGCGGGGATGGTATCACGTGGTGAAGTAGCACTTATCATCGCAGCAAATGGACTTACGGCGAATTTATTAGCGAAAGAAAATTTCACAGCGATTGTTATTGTTGTTATATTGACGACGATTATTACACCGCCACTTTTGAAGAAATATTTTGTATAG	MLFYFELVVILLCTKLAGDISVRLGQPSVLGKLIVGIIIGPAVLGIINSSELIDELSEIGVLLLMFMAGLETDLEELNRNLKSSFAVAAGGIIFPFIGGYVTGLLFGLMQSHAIFLGLLLCATSVSITVQTLRDLGKMNTRESTTILGAAVFDDVIVVILLAFVMSFLGTQDVNITLVIAKKIIFFVSIVFIAWKVVPWIMKMLVPLRVTEALISAALIICFSFSYYSEMMGIAGIIGAFAAGIAISQTEYKHEVEHKIEPIAYAIFVPVFFVSIGMEITFQGIGSQLWFIIIMTLIAIFTKLIGSGLGARLTGFNLQSSISIGAGMVSRGEVALIIAANGLTANLLAKENFTAIVIVVILTTIITPPLLKKYFV				NA	NA	NA	NA	NA
AK009_05374	1404	yhdG_4	COG0531	putative amino acid permease YhdG	GTGAAGTCATTATTACGAAAAAAAGCGCTTAGTACTGAATCACCAAAGCAGCTAGATAGAACATTAACTGCACTCGATTTAACGTTTTTAGGGATCGGCGCCGTAATTGGGACAGGGATCTTTGTATTAACAGGTATTGTTGCAGCAAAACATTCTGGTCCTGGTATTATGCTATCATTCCTTATTGCTGCATTTACTTGTGCTTGTGTAGCCTTTTGTTATGCTGAATTTGCTTCTTCTATTCCTGTCTCAGGAAGTGTGTATACTTACGCATACATGACAGTCGGAGAAGTCGTCGCCTTCATCGTCGGATGGTGTTTAATGCTCGAATATTTACTTGCCGTTGCAGCAGTAGCTGTCGGTTGGTCTGGTTATTTGCAATCATTACTACAAGGGTTCAATATACACCTACCCGCCATAATCGCCTCGGCCCCCGGCGTAGGAAAAGGTGGTCTCATCGATTTACCAGCTGTCTGCATTTTACTTCTTATTACTGGTCTTTTAAGTTTTGGTATACGTGAAAGTGCACGCATTAATAATATTATGGTTCTTATTAAACTAGCTGTTATCATTGCCTTTATCGTAGCAGGCGCAAAATATGTAAAACCTGAAAACTGGACACCGTTCATTCCATTCGGATACGACGGTATTATTACCGGAGCTGCCACTGTATTCTTCGCCTTTTTAGGTTTTGATGCAATCGCAACCGCTGCAGAAGAAACGAAAAAACCGCAGCGTGACTTACCAATTGGTATTATCGGTTCTCTTCTTATTTGTACTGTTTTATATATGATCGTATCTTTCGTTTTAACAGGTATGGTTCCTTATACGCAATTAGACGTTTCTGATCCAGTTGCATTTGCATTGCATTTCGTTGGTGAGGATGCAATTGCAGGACTACTCGCTGTTGGAGCGATGACTGGAATGACAACCGTTCTCTTAGTCGTTATGTATGGACAAGTTCGAGTTTCGTATGCGATGAGCCGTGACGGTCTACTTCCAAAAGCGTTAGCACGTGTAAATAAAAGAGTAAAAATCCCTTTATTAAATACGTGGATTACTGGCGTTATTGCCGCTTTATTAGCAGGACTTTTAGATTTACATTTGCTAGCAAATTTAGTAAACATCGGTACGTTAACAGCCTTTACATTCGTTTGCTGCGCGGTACTTATTTTACGAAAAACACATCCTGATTTAAAACGTGGATTCCGTACACCTTTCGTACCTGTATTACCAGTTGTCGCGATTCTTTGCTGTTTATATTTGATGGCTAATTTATCTAAAACGACATGGATTAGCTTTATAGCTTGGCTTATAGTCGGTTTATGCTTCTATTTCTTCTACTCTAGAAAGCATAGCCATTTAGCTACCGAAAAAACGAATGATGAACAGAAAAAAGCATAA	MKSLLRKKALSTESPKQLDRTLTALDLTFLGIGAVIGTGIFVLTGIVAAKHSGPGIMLSFLIAAFTCACVAFCYAEFASSIPVSGSVYTYAYMTVGEVVAFIVGWCLMLEYLLAVAAVAVGWSGYLQSLLQGFNIHLPAIIASAPGVGKGGLIDLPAVCILLLITGLLSFGIRESARINNIMVLIKLAVIIAFIVAGAKYVKPENWTPFIPFGYDGIITGAATVFFAFLGFDAIATAAEETKKPQRDLPIGIIGSLLICTVLYMIVSFVLTGMVPYTQLDVSDPVAFALHFVGEDAIAGLLAVGAMTGMTTVLLVVMYGQVRVSYAMSRDGLLPKALARVNKRVKIPLLNTWITGVIAALLAGLLDLHLLANLVNIGTLTAFTFVCCAVLILRKTHPDLKRGFRTPFVPVLPVVAILCCLYLMANLSKTTWISFIAWLIVGLCFYFFYSRKHSHLATEKTNDEQKKA	PGPT0020810_3829	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
AK009_05375	171			hypothetical protein	ATGCAAAAGTGGAAGCTCATATATCAAGTAATCATTTTCATAGTGCTTGTAGGTATTGGCGTTTTTAAATATTCTACACCAATAGGAAATTGGGCGTGGTTTACAGCTTGCATCGGCATATTTTTCATTTTACAATCGTTAACGAAAAAATATAATTGTACAGAAAGATAG	MQKWKLIYQVIIFIVLVGIGVFKYSTPIGNWAWFTACIGIFFILQSLTKKYNCTER				NA	NA	NA	NA	NA
AK009_05376	204			hypothetical protein	TTGGAACAGAAAAAGCTAAAAAGAATTCTTGAATATGTATGGATCGCGGTTGTGCTCCTTGTAGGATATTATTTCTTAAAAGAGAAAAGTATTTGGGTTTTATTTTTAATGACTTTCTTATTAGCAGGACTAGGAACGTTATTTATTAACTTTTTCTTTGATAGTTTGAATGCCTGGAAGAATAAAAAGAAGGGAACGAAGTAA	MEQKKLKRILEYVWIAVVLLVGYYFLKEKSIWVLFLMTFLLAGLGTLFINFFFDSLNAWKNKKKGTK				NA	NA	NA	NA	NA
AK009_05377	2463	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	GTGGAAAGAATTGCTTTACGAAAAGTAAAAGGTCTTATTGGATTATTGATGGTTTTTGTATTAGCATTTGTATCATTTCCGTGGAGTACATCAGTCAAAGCGGAAGAGAAAAAGCAAGAAAAGGCACCAAGTGAGAAGAAAATAGTTTTCCCCGTTGTAAGTGATGTTCATATTAAAAATAGTGGAACAGATGATATGTTTCGCTGGAAAAGAGCGATTGAACAGTTCAATACGCTTGCACCAAAGCAAGATGCGTTCGTAATTGTAGGAGATTTTACTGATTCAGGGTCTGTGCAGCAATATGATCGTTTCATGCAAGTGTATAATGACAATGCAAATAAAGATGCGGTACGAATGAATTCTCTAGGTAATCATGATTATTGGAACGGTTTATCAGTAGAGGGAGCACAGAAGCGTTTCTTAGAAAAAACAGGAATGGAATCAATTTATTATCATAAAGTGGTAAAAGGGTATCATTTTATCGTAATGTCTCCAGAAAATGAAACGACACATGGGTATTATTCGGACAAACAAATTAATTGGTTAAAAGAAGAAATGGCAAAGGCGCAAAAAGATGATCCAGAAAAACCGATTTTTGTATTTTTACATCAACATATTAAAGATACAGTGTACGGTAGCCAAGAATGGGGAACGAAGGATAGTGCAAAAATTAATGCAGTATTAAAAGAATATCCACAAGTCATTACGTTTTCAGGTCATTCGCATTATCCATTAGATGATCCAAGATCGATTCATCAAAAGGACTTTACATCTGTTGGTACCTCTTCTGTAAGCTATATGGAGGTAGAGGGTGGCAAAGTGCAAGGGAATATTCCTTCAGAATCGCGTGCATTAAGCCAAGGTTTATTAGTAGAAGTAGACGATAAAGAAGTAACGATTAATCGACGCGATTTCCATACGAATTCTTGGACAGGCGAGCCATGGAAAATTCAGTTGCCATCAAAGAAAGAAACTTTTACACATGTAGAAGATCGTGATAAAGAAAAGCCATCTTTTGCAAAAGATGCAAAGTTATCAGTATCGAATGTAACAGAAAATGCAGCAACAGTAACATTCATGCAAGCATTGGACAACCTTCTTGTTCATTCTTATCGCGTACAAGCTAGAGATAAGCAAACTGGAGAAATAAAAAATAAATTACTAGCATTTTCAGAGTTTTATCGTGACCCAGTGCCGAAAGAACTGACATTTACACTTGCAGGATTAGATGGCGGGAGAACATATACGTTTGAAGTAGTCGCGATTGATTCATTTGGTAATGAAAGTGTGCAACCGTTAACGGCAGAAATTACTACGAAAAAAGATAACATTGATCCGAATGTGAAAGTACCAAAGGCTGATATTTTTGATGTGAATTTCTCAGATGGTACATTTAAAGACAATTCACCATTTGGTACAAAAGGTGAATTGAAGGGTAATGTGACTATTGAATATGATAAAGCATTGAAAAAGAATGTTATGAAGTTAAATGGAAAAGCTAATACATTTGGATATATTCCATTTTCAGCAGCACAAAAAGAGAAAATAGCAAATACGTTTACGTTAGAAACTGTGTTTTCAATGAATGAAATTCGCGGACAAGGTATTTTGCAAAATACAGAGAGCGGCGGAATTGGTTTTGAGTCTATAGGAAGTGGATATGTTGAATTATGGGCTCACATTGGCGGTAGCTACAAACGTGTTGGCGTTCAATTGGAAGCGAACAAAACGTATCATTTAACAGGAACATATAACGGAAGCGAAGTGGCAATTTACGTAGATGGTAAAAAAGTAAATAGTCAGTTAGCTCAAGGAAAAGTTTATAGCCCGAACGTACCATTTGCATTTGGAGCGGATCCTGATAGCAATGGAAATGGCGGCATTCCATTAAACGGTCAAATCGCGCTTGCAAAATTATATAGTAAAGCGTTAAGTTCTTCAGAAGTATTAGCAGCGTACAATGAATTTTCTAACCGTACGAAGTTAGAGCAAGTCAACGCATTATATGAGGAGCTAGGAAAAGTAAAGGAAGTGTTAGATGGTACGTATGAGTTTGGTGGTAAGCCAGGTCAATATTCAAAGGAAGCATTTCAAGAACTAGAAAAAAGCTATAACACTGCTAAGCAAGCATTTGAAAATGTAGGAAGTACTGGGGAACAAATTATTCAAACATATAACGAATTAAAAACAGCTAATGTAACATTCGTACAATCAAAAGTGGCAGAAGAACAACCAAAAACACCGAAAGAAAAATTACAGATCAATATTGAATCTGCAAAAGCAGTAGTGAAGAAAGCGCAAGCTGTAAATGTAACAGATGGTTCAGTGAAATCATTGCAACAAAAAATTACAGTTGCAGAAGCTGTATTAAAAGATGCGAAGGTAAAAGATGCACAGGTAGAAACGATGAATCGTACATTAGAATATGCGATTTCACTCGTTGAAAAAAGTATGAACAAATAA	MERIALRKVKGLIGLLMVFVLAFVSFPWSTSVKAEEKKQEKAPSEKKIVFPVVSDVHIKNSGTDDMFRWKRAIEQFNTLAPKQDAFVIVGDFTDSGSVQQYDRFMQVYNDNANKDAVRMNSLGNHDYWNGLSVEGAQKRFLEKTGMESIYYHKVVKGYHFIVMSPENETTHGYYSDKQINWLKEEMAKAQKDDPEKPIFVFLHQHIKDTVYGSQEWGTKDSAKINAVLKEYPQVITFSGHSHYPLDDPRSIHQKDFTSVGTSSVSYMEVEGGKVQGNIPSESRALSQGLLVEVDDKEVTINRRDFHTNSWTGEPWKIQLPSKKETFTHVEDRDKEKPSFAKDAKLSVSNVTENAATVTFMQALDNLLVHSYRVQARDKQTGEIKNKLLAFSEFYRDPVPKELTFTLAGLDGGRTYTFEVVAIDSFGNESVQPLTAEITTKKDNIDPNVKVPKADIFDVNFSDGTFKDNSPFGTKGELKGNVTIEYDKALKKNVMKLNGKANTFGYIPFSAAQKEKIANTFTLETVFSMNEIRGQGILQNTESGGIGFESIGSGYVELWAHIGGSYKRVGVQLEANKTYHLTGTYNGSEVAIYVDGKKVNSQLAQGKVYSPNVPFAFGADPDSNGNGGIPLNGQIALAKLYSKALSSSEVLAAYNEFSNRTKLEQVNALYEELGKVKEVLDGTYEFGGKPGQYSKEAFQELEKSYNTAKQAFENVGSTGEQIIQTYNELKTANVTFVQSKVAEEQPKTPKEKLQINIESAKAVVKKAQAVNVTDGSVKSLQQKITVAEAVLKDAKVKDAQVETMNRTLEYAISLVEKSMNK				NA	NA	NA	NA	NA
AK009_05378	345			hypothetical protein	ATGGGAATGAGAAGTTCCAGTTTGTCTTGTTGTTCTAATAAAACACTTGTGCAAGACCAAGTATGTACAGACTGGTCTATTACAGGTGCTGGTACTCAAATTGTATATACAAATAATATCACGCAAGAAGTATATGGTTCAGGTTACGTGAAATACGATGTGGGAGCCAACCCGATTACAGTTGATTTTTTAGTAGGGGCAACAGTAGTTGATACAATTACTGTACAACCACAAAGTAGTGGTACTTTCACTGTCCGATATTTTACTACTGTCCGAATTACTACGACAGGAACGACTGTTAATCAAGGTGAGTTTTGTATTACAGTACGTTATCCAATCTCATAA	MGMRSSSLSCCSNKTLVQDQVCTDWSITGAGTQIVYTNNITQEVYGSGYVKYDVGANPITVDFLVGATVVDTITVQPQSSGTFTVRYFTTVRITTTGTTVNQGEFCITVRYPIS				NA	NA	NA	NA	NA
AK009_05379	369			hypothetical protein	ATGTCTTGTGAGTGCTCAGGGTCAGCATTAACTTGTTGTCCAGATAAAAATTATGTGCAAGATAAAGTGTGTAGTCCGTGGTCTGCTACTGTAGTTGCAACAGCAATTGATAATGTTCTCTATACAAATAATATTAACCAAAACGTAGTTGGTACTGGTTTTGTTAAATATGATGTTGGACCAGGCCCAATTACTGTAGAGGTACTTGATTCTGCTGGGGGTACAATTGATACACAAACATTAAACCCAGGAACGAGTATTGCTTTTACGTATCGCCGCTTTGATAGTATACAAGTTGTGTTACCTGCAACACCTGCTGGAACGTATCAGGGAGAATTTTGTATTACAACACGTTATCCACTTTCATAG	MSCECSGSALTCCPDKNYVQDKVCSPWSATVVATAIDNVLYTNNINQNVVGTGFVKYDVGPGPITVEVLDSAGGTIDTQTLNPGTSIAFTYRRFDSIQVVLPATPAGTYQGEFCITTRYPLS				NA	NA	NA	NA	NA
AK009_05380	606			hypothetical protein	ATGGAGCAAATTATTTTAGATATAATCGAGTTTTTAAAGCAGTTTTCTTATTTTGGAGTTGTGTTAGCATTAACGTTTGAATTTATTCCAGCAGAAGTAGTTTTGCCCATGGTTGGTTATTGGGTGTACGAGGGAGATATGAATTTTTGGCTTGCTGTACTAGCCGGAACCCTTGGCGGAACGACAGGACCTTTAACGTTATATGCACTCGGTTATTACGGCGGTCGTCCTCTATTAATAAAATACGGGAAATACTTCTTCATTAAAGAAGAACAAATTCAAAAAGCAGATGATTTCTTTGAGAAATATGGACCGGTTGTAGCATTTGTTGGACGCTTTGTGCCAGGAGTTCGAACGCTTATTTCTGTTCCGTGTGGTATGGCGAAAATGAACATATGGAAATTTAGTATATATACATTTGTAGCAATGTTCCCATTAACGACTTTATATGTTTATTTTGGAATGAAATTAGGTCCTCATTGGGAAAAAGCAGCGGACGTTGTTGGGCAATATATGCTACCGATATTAGGAGGCGTTATTCTTATCGTTGCTAGTATCTTTGTCTATAAATATATGAAGAAAAGAAATAAAACGGAATCTATCTAG	MEQIILDIIEFLKQFSYFGVVLALTFEFIPAEVVLPMVGYWVYEGDMNFWLAVLAGTLGGTTGPLTLYALGYYGGRPLLIKYGKYFFIKEEQIQKADDFFEKYGPVVAFVGRFVPGVRTLISVPCGMAKMNIWKFSIYTFVAMFPLTTLYVYFGMKLGPHWEKAADVVGQYMLPILGGVILIVASIFVYKYMKKRNKTESI				NA	NA	NA	NA	NA
AK009_05381	282			hypothetical protein	ATGAAAAAACTTATTAGTAGATTAAGAGTTGTATTTCATGTTCGCCGATTTGTTCCATTTCTATTTGACTTTTTCACTTCAAAAGAGGTTTCAATAAAGAAGAAAATTTTATCTATTGCGTTTTTAGTTGGTTATGTTGCGATGCCGCTCGATTTAATTCCAGACTTCTTACCGTTTATCGGTATTTTAGATGATATTGGAATTGTGTTATTTATTTTGAACCGAATTGTAAAAATGGCGCCAGTTCAATTACAAGAAAAGCATAACGTAAACGTAGGATAG	MKKLISRLRVVFHVRRFVPFLFDFFTSKEVSIKKKILSIAFLVGYVAMPLDLIPDFLPFIGILDDIGIVLFILNRIVKMAPVQLQEKHNVNVG				NA	NA	NA	NA	NA
AK009_05382	813	ku	COG1273	Non-homologous end joining protein Ku	TTGCATACCGTATGGAAAGGTGCACTCTCACTTGGATTATTAAATATAGGAATTAAACTATATAGTGCTGTAGAAGAAAACGATATAAAATTTTTAAGTCTCCATAAAGAATGCTTAACACCTATTAAATATAAAAAATTTGCTCCCGATTGCACGGATGAAGAAATCGATGATACAGATATTGTAAAAGCCTATGAATACGCACCTCATAAATACATTATTATAGATGAAAAAGAATTGGCTGAATTACAAAAAGCTCACGAACCACGCTCCATTCGTATTATATCTTTTGTCCAAAATAACGAAATCGATTCTGTTCTTTATGACCGTTCTTATTTTATAGGCCCTACCCCAGGACATGAAAAATCATATTTATTATTAAAAGAGGCTCTTGAACGTACAAATAAACTTGGGCTTATTCATATTTCTATTAGAAAAAAACAACATTTAGCTATTATCCGTAACTTTGAAGATGGGCTTATGTTACAAACTATTCACTATCCTAATGAAATTCGCGATATAACAAATACACCTAACTTACCAAGTAATGAAAATTATCCTATTCAAAAACAAGAACTCACAGCAGCAATTAATTTAATCCACCACCTTACAAATCCTTTTGAACAAGAAATGTATACAGATGAGTATAAAGAAGCACTTACCGAACTAATCGAAAACAAAATTGAACAACAGGAAAAAACCGAAACAATCTCTCCAACTCCAAACATCATCAATATTATGGAGACATTACAGGCAAGTATTGAACAAGCGAAAATAAAAAGAGAAAATAAAACAGAAAAAGAGGCCAAATAA	MHTVWKGALSLGLLNIGIKLYSAVEENDIKFLSLHKECLTPIKYKKFAPDCTDEEIDDTDIVKAYEYAPHKYIIIDEKELAELQKAHEPRSIRIISFVQNNEIDSVLYDRSYFIGPTPGHEKSYLLLKEALERTNKLGLIHISIRKKQHLAIIRNFEDGLMLQTIHYPNEIRDITNTPNLPSNENYPIQKQELTAAINLIHHLTNPFEQEMYTDEYKEALTELIENKIEQQEKTETISPTPNIINIMETLQASIEQAKIKRENKTEKEAK				NA	NA	NA	NA	NA
AK009_05383	780			hypothetical protein	GTGGAGAGAAATTATGAAGAAAGTGCGTTGTTTGAGCATCAATTTTGGCTAAAGGTGCTTACTGATCATTCGCAATTTTTACTTGATGCATTAGCTCCGAAGGAAAAAGAGGATATAAAGAAGGCCGCTTATTTTCTTGAAACATTTACGAATCTTTTAAATAAAGTACATAATGTGAATCTCATTACATTTTCAAAAGAGGCAGAACGAGCCGCAAAGGAAATAAGAATGTTTAAATTAAGTATTATACAGAAACAACTCGAGGGAAAAATCACTATTCATTTTACGCCAACTTTCATCAATCATATGGTAAACGAAGTAGAAGAGTATATAACAGTGTTAGAATTTTTAAAGAAAGGAGAAGTTCCGCCTGTTTTTCATGAATTACATTATCACCTCGTTTGGTTAACAGATGCGGCTGGTCATGCAGGATCTATTTCTGGTGGACTAGATCTTGTTGAAAAAAGATTAAAAGAGAAAAGTGAAGAATTCACGAAGCACTTTGAAAAATTTTACTTAAAGGCAGTTGAGATGACAGGGTATTTACGGACAGAGCTTCATCATTTTCCTGCATTAAAGAAGTTTACAAAAGATGTTTCACTTGAGTTAAAATTATTTTCACATTTTCTCCATGAAGTTGAAGAGCTAGAGTTATCGAATGAAATATTAAGTACATTATCTGCTAGAATGGCGGATCATATGGCAAGAGAAGAATGTTATTACTTATTAAAATTAGCGCAATCATCTGGACTTGAGATACCAAAATGTAATCCGCTTTAA	MERNYEESALFEHQFWLKVLTDHSQFLLDALAPKEKEDIKKAAYFLETFTNLLNKVHNVNLITFSKEAERAAKEIRMFKLSIIQKQLEGKITIHFTPTFINHMVNEVEEYITVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEKFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEILSTLSARMADHMAREECYYLLKLAQSSGLEIPKCNPL				NA	NA	NA	NA	NA
AK009_05384	363			hypothetical protein	GTGGAGAATGTAAAAAATTTAATTGTGTTAGAAGTAAAGAACTTAAAGGAAACTCTGTATTTTTACGAAGGAATTTTAGGAATAACACCTAGTTCAGAAAGACCACAATTAGATATTACAGGTGTTTGGTATGATGCCGATTCAACGAGAATTAGTTTTGTTATGAATCGCATGTTAGGAGGAAGAGAGAAGAGTGTTACGAATTCATGCGATGGTTTAACATTTTCGATTTCTAACATAGAGAAGTTAAAAAAGAAGCTAGCGTTTTATGAAATTTTATATATGGAAAACAAAAGTGAGAAGAGTATTGTAGTACAAGACCCAGATGGATACAAACTTCAAGTGATAGAGAAGGCCGAATAA	MENVKNLIVLEVKNLKETLYFYEGILGITPSSERPQLDITGVWYDADSTRISFVMNRMLGGREKSVTNSCDGLTFSISNIEKLKKKLAFYEILYMENKSEKSIVVQDPDGYKLQVIEKAE	PGPT0013300_6114	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
AK009_05385	216			hypothetical protein	GTGAATAAATATATGAGATCATTCGTGCCCTATCATAGTCCTCTCGATCCTTGTCCTCCTATCGGAAAAAAATATTATTCTACTCCTCCTAATTTATTTTTAGGCTTTCAACCGCCAAACTTACCGCAATTCACGCCAAAAGAAGCACTACAAAAAGGGACTTTATGGCCTGTTTTTTATGACTATTATGAAAATCCTTATAAAAAAGGGCGGTGA	MNKYMRSFVPYHSPLDPCPPIGKKYYSTPPNLFLGFQPPNLPQFTPKEALQKGTLWPVFYDYYENPYKKGR	PGPT0025175_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025175-cotJA-K06332	NA	NA
AK009_05386	276			hypothetical protein	GTGACTACTGACGTGACTCAATCGCTACCAGAAGAATACTATCAGCTTTTACTGGAGCTTCAAGAACTGGACTTTGTACTAGTTGAACTCACTCTTTATTTAGATACACATCCAGATGACACCGCTGCGATTAATCAATTTAATGATTTTTCCTATAAACGGAGAGTATTAAAACAAAAGATGGAAGAAAAATACGGACCACTCCAACAGTTTGGAAACAGCTATTCTAATGCCCCTTGGGAATGGAGCAAAGGTCCTTGGCCATGGCAAATATAA	MTTDVTQSLPEEYYQLLLELQELDFVLVELTLYLDTHPDDTAAINQFNDFSYKRRVLKQKMEEKYGPLQQFGNSYSNAPWEWSKGPWPWQI	PGPT0025180_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025180-cotJB-K06333	NA	NA
AK009_05387	570			Manganese catalase	ATGTGGATTTATGAAAAGAAATTACAATACCCAGTTAAAGTGGGAACTTGCAATCCAGCACTTGCAAAATTATTAATTGAGCAATACGGCGGTGCAGATGGCGAGTTAGCTGCTGCACTACGTTACTTAAATCAACGTTATACAATTCCTGATAAAGTCATTGGCCTTCTTACTGATATTGGCACAGAAGAATTTGCTCACCTTGAAATGATTGCTACGATGGTTTATAAGCTGACGAAAGATGCGACTCCTGAACAGATGAAGGCAGCTGGTCTTGACCCTCATTACGTCGACCATGACAGCGCTCTTCATTACCATAACGCTGCTGGTGTTCCATTTACTGCAACCTATATACAGGCTAAAGGTGATCCAATTGCCGATCTATACGAGGATATTGCAGCTGAAGAAAAAGCACGCGCAACATATCAATGGCTCATTAACTTATCAGATGATCCAGATATAAATGACAGCCTACGCTTTTTACGTGAACGAGAAATTGTCCATTCACAACGTTTCCGAGAAGCAGTTGAAATTTTAAAAGAAGAACGTGATAAAAAAATATTTTTTTAA	MWIYEKKLQYPVKVGTCNPALAKLLIEQYGGADGELAAALRYLNQRYTIPDKVIGLLTDIGTEEFAHLEMIATMVYKLTKDATPEQMKAAGLDPHYVDHDSALHYHNAAGVPFTATYIQAKGDPIADLYEDIAAEEKARATYQWLINLSDDPDINDSLRFLREREIVHSQRFREAVEILKEERDKKIFF	PGPT0025185_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025185-cotJC-K06334	NA	NA
AK009_05388	1317	brnQ_6	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGCGTACAACTTTAAAACCAGCGCAAATACTTTCGATTAGTTTATTACTATTCGCAGTTTTCTTCGGTGCTGGTAATATGATTTTCCCGCCCCTTCTTGGTCTTTCTTCCGGAGAAAATATGTGGGTTTCCATTACAGGGTTTATTATTACAGACGTCGGTTTATCTTTACTTGCTATCGTTGCTGTTGCCCTTGCTGGTGGTAGTTTTAACACTTTAGCGAGCCGTGTTCATCCAAAATTCGCAGCAGTATTCGCTATCATTATTTATCTTTCAATCGGCCCACTATTTGTTATTCCACGAACTGGATCTGTATCTTATGAAATCGGGATTGCACCACTTTTCCCAGATCAATGGTATTCTATGTTAGTTTTTAGTGCGATTTTCTTCACAGTCGTTTACTTCTTATCATTAAATCCATCCAAGCTAGTAGATCATATCGGTAAAATATTAACGCCAATTTTACTTGTAATTATTGCAATTATGGCAACAAAAGCGATTCTTTCACCAGGGACGTTTGCAGAACCTATCGGTGACTATAAAGACATCCCGTTTTTCAAAGGATTTCTTGAAGGATTTTTAACGTTAGATGCAATTGGGGCTCTCGTACTATCAACAATTGTTGTAAATGCAATTCGTCAAAATGGTATACAAGAGAAGAAATCTATCGCAAAATATACAATCATTTGCGGAAGTATCGCTGCTCTATTCTTAACAATTGTTTACTTCTTACTCGGTTATATTGGAGCTTCAAACGGAAACTTAGGACAATTCGAAAACGGTGGGCAGCTATTAGCTACTGTTATGTATCAATTCTTTGGGACAAGCGGTAATATTTTATTAAGTATCGCCATTATCTTCGCTTGTTTAACAACGGCAATTGGTGTTGTGAGTGCATTTGCAAATTACTTCACAACAGTGCTAACAAATGTTTCATACAAAAAGCTTGTACTATACGTTTGTATCTTTAGTTTCGTTATTTCAAACTTAGGATTAAGCTTATTAATTAAAATCACATTACCTGTATTAATTATTTTGTACCCAATTACGATCATTTTAGTTTTCGTATCATTTATCGATAAATATACGAAACATAAACCTTCTGTCTACATTGGAGCGATGATCGCAGCGTTTATTATTAGCTGTATTCATGCACTTGATAATGTGGAAATGATACCAGATTTTATCGCTAATATCGTACACACCATTCCTTTTTATAACTTAGGAATTGGCTGGATCATTCCAGCAATAATCGGTGGTATAATTGGATACTTTATTCCGCAAACAGAAGCTGCAGGTGAAGTTTCTACAAAATAA	MRTTLKPAQILSISLLLFAVFFGAGNMIFPPLLGLSSGENMWVSITGFIITDVGLSLLAIVAVALAGGSFNTLASRVHPKFAAVFAIIIYLSIGPLFVIPRTGSVSYEIGIAPLFPDQWYSMLVFSAIFFTVVYFLSLNPSKLVDHIGKILTPILLVIIAIMATKAILSPGTFAEPIGDYKDIPFFKGFLEGFLTLDAIGALVLSTIVVNAIRQNGIQEKKSIAKYTIICGSIAALFLTIVYFLLGYIGASNGNLGQFENGGQLLATVMYQFFGTSGNILLSIAIIFACLTTAIGVVSAFANYFTTVLTNVSYKKLVLYVCIFSFVISNLGLSLLIKITLPVLIILYPITIILVFVSFIDKYTKHKPSVYIGAMIAAFIISCIHALDNVEMIPDFIANIVHTIPFYNLGIGWIIPAIIGGIIGYFIPQTEAAGEVSTK	PGPT0014385_1593	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
AK009_05389	1005	gsiD_1	COG1173	Glutathione transport system permease protein GsiD	ATGTGGATGTATATAAAACGCGATAAAAGATTTTGGATAAGTATTGGGTTTCTTCTCATATTAGTTCTTTTGAGCATCGGAAATACGTTATGGAATGATGGACACATTAGGCAAGTTACATTGCAATATGATGCAGATGAAAATCCACAAGTGCCACCGTTTTCACCTTCATTACAATTTTTACTCGGGACAGACCGGAAAGGATACGACCTGTTACATTTAGTCATTGAAGGTGCGAAGTGGACGATTGGTATATCTATTTTAATTGCGGCACTTAGAATGGTGATAGGTGTGTTTTTTGGTGTTGTGCTTGGAACATATGTAAAAAGAGGTTTTTCAAAAATTGAGGCTTTCTTTGATAGTTTTACAGTTATTCCAACAGTTATGATTGCGTACTTTTTTCTTCACTTTGCAAATGCATTTGGGAGTGGAGAGGAAACAACAACCTTTTTTGAAAGGGCTTCGTTTCAAGTTTTATTACTTGTAATGCTTGTGATGCCAGTTATTGCACTGTATGTTGCGAAGGAAGTCCGTAAGTTGAGAACCGAAGAATTTATTGAAGCTGCGTGCATATTAGGTGGATCGAGAAGGCATATTGTTATAAAGCATATTTTCCCGCATCTCTATATGACGTTTATACTTGTATTTTTTCAGCAGTTTACGCAAACTCTTACTATTTTACTGCACTTAGGGTTACTAGAAATATTCTTTGGCGGAACAGTTCAGTTTTTAGGACCGATAGAAGAAATAGAATCATACACACATGAATGGTCAGGCTTAATTGGAGTCTATTTTAGATCATTAACAGTGAATCCGTGGATCCCTCTCGTTCCGATTACATTTTTTGGACTTACTATTTTTTCAGGAAATATGATTGTAAAAAGTATAGAAGAGGCGATGTTGAAAGTAAGATTAGGAGGAGAGATAAAGAAGGACGTAGTAGAAGCGGAACAATCTGTTGTGCAGTCAAAAGAAGATTTATTTACTTTTAAACATACGATGTGA	MWMYIKRDKRFWISIGFLLILVLLSIGNTLWNDGHIRQVTLQYDADENPQVPPFSPSLQFLLGTDRKGYDLLHLVIEGAKWTIGISILIAALRMVIGVFFGVVLGTYVKRGFSKIEAFFDSFTVIPTVMIAYFFLHFANAFGSGEETTTFFERASFQVLLLVMLVMPVIALYVAKEVRKLRTEEFIEAACILGGSRRHIVIKHIFPHLYMTFILVFFQQFTQTLTILLHLGLLEIFFGGTVQFLGPIEEIESYTHEWSGLIGVYFRSLTVNPWIPLVPITFFGLTIFSGNMIVKSIEEAMLKVRLGGEIKKDVVEAEQSVVQSKEDLFTFKHTM	PGPT0004450_3105	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
AK009_05390	867			hypothetical protein	GTGGTCAAAAAAGTTTTTCTAAATGGAATGGAAGTGACGATTCAATTTCTTATTTCGATTTTGGGGATTATTATTTTAGGGGCTTTGCCGAAATTATTTTATGGATTTAAGGTGGATGTATCAAAGTACATACAGACTTTAAAAGAAGTGTTTGTGAACTTAATGGATATTTCCAATTTGCAATATGTGAGAGGTGAATTTTTATTTCCACAGTTGTTCGTCCATTATAAAGAAACGATTATTATTTTTTTGGCTGCTTTTTTCATTTCATTATTTGTAGCATTTTGCATTGTTTATGTAATTATGAGTAGTTCACCGCGTATACAACATCGAATTAAATCATTTCTTATCTTCCTAGAATCCATTCCAGATATTCTTCTTATTTTAGTATCACAAATCTTAGTTGTATGGTTTTTTAAACAAACAGGTTTTTTACCTTTTCAAATTGCGTCAATTGGAGGCGAGTCGATTAGAGGGTTGCCAATATTGTGTTTGAGCATCCCGACTACGATTATGTTTGTAAAAATGGTAGTGATTCGTTTTGAAAATGAACTAGAAAAAGATTATGTACTATTTGCTAAGGCGAAAGGGCTGGGGCGTTTTCATATTTTAAATCGTCATATTTTACGAAATGTGTTGCTTAGTACATTATTCTTTGCGAAAACGAATATCTTTTTTATGTTATCTAATTTATATATTATAGAATGGATTTTTAATACGGGTGGTATTTTTATGTTTTTGAAATCGTATGAGGGTATTAGAGTTGAGGTTTTCATCGTTAGTATGCTGCTTATATATATCCCGATATTTATTTTATTCAAGCTGTTTCATTATTTCATTCCAACTGCGATGAAGGAGAGATTATAA	MVKKVFLNGMEVTIQFLISILGIIILGALPKLFYGFKVDVSKYIQTLKEVFVNLMDISNLQYVRGEFLFPQLFVHYKETIIIFLAAFFISLFVAFCIVYVIMSSSPRIQHRIKSFLIFLESIPDILLILVSQILVVWFFKQTGFLPFQIASIGGESIRGLPILCLSIPTTIMFVKMVVIRFENELEKDYVLFAKAKGLGRFHILNRHILRNVLLSTLFFAKTNIFFMLSNLYIIEWIFNTGGIFMFLKSYEGIRVEVFIVSMLLIYIPIFILFKLFHYFIPTAMKERL	PGPT0004445_14960	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
AK009_05391	735			hypothetical protein	ATGGAAGCTTATTTTAGTGCGCATCCATTAAAATCGTTTATTCCATACTCAAGACAACACGTCCTTATATTATTTATTATGTTGGTGGGGATATTTTTTCTGTATCAATACCAAGATTTATTGCGTCAAAGTGAGTGGAATATAACGGTTCGATATGCGATTGCATTTTTATTTATAGGTAGTGAAATTGGGCTCTATATGTGGGAGTGGAAAGCGGGGATTTTTGAGCTAGCTACTTCATTACCGTTTGAGTTATGTACGATTAGTTTATTATTAGCGTCGATTATGATTGTAACGAAAAGTTATCGCATATATGAGATTGTATTTTTTACAGGAATTATTGGTGCATCACAAGCCATTTTAACGCCGAACTTGCAGTATACTTTTCCACATTTTCGTTTCATTGAATATTTCATCGCACATGTATTGCTCATTTGGGCACCGCTCTTTATGACTTGGGTAGAAGGGTATCGTCCTACATTACAATCTATTAAACGTACGATGATATTTTTAAACATATTGATTCCGATTGTTTCGTTTGTAAATTACAAAACAGGCGGTAATTATATGTTTTTAGCTCATAAGCCAGAAACTGCTTCATTACTCGATATGTTAGGGCCGCATCCTTACTATATTATTTCATTAGAAATAGCTGCGCTTATTGGATGTTACACTTTGTATATGCCGTTTGCGAAAAGAGAGAGGCATGCGCATAAAGAATCACTAGGATCATAG	MEAYFSAHPLKSFIPYSRQHVLILFIMLVGIFFLYQYQDLLRQSEWNITVRYAIAFLFIGSEIGLYMWEWKAGIFELATSLPFELCTISLLLASIMIVTKSYRIYEIVFFTGIIGASQAILTPNLQYTFPHFRFIEYFIAHVLLIWAPLFMTWVEGYRPTLQSIKRTMIFLNILIPIVSFVNYKTGGNYMFLAHKPETASLLDMLGPHPYYIISLEIAALIGCYTLYMPFAKRERHAHKESLGS				NA	NA	NA	NA	NA
AK009_05392	1107	yknX_2	COG0845	Putative efflux system component YknX	ATGAAAAAGAAAAATAAAGTGTTAATTACTAGTGTAGTAGCAATTGGAATTGCAGCTGGATCATACTTTGCATTTGCTGGTGGTGGCGGTTCAGAAGTAGCAATGGCATATAGCGGATATAAAGTAACTGAAAAACAAATCCAAAACGCGCAAAAATTTGGTGGCGAAGTTATTCCAAACGGAATTGAAACTATTTCATTCGATCCAACAAAAGGAACATATGAATTAGCTGTAAAAAAAGGCGATGAAGTGAAAAAAGGTCAGCTTCTGTTTAAATACAATGACCCTACTGCTAAACAAGGTGTAACAGAAGCAGAAATGCAAAAGAAAATCGCACAAAAAGAAGTAACGTTGTTTCAAAAACAAATTGATGCAGCGAAACAAAAATTACAAAAAGATAAAAATGCAGGCCTTCCTTCTGAAGCATTAAAAGCATCAGAAGTTGAAGTTGGGCAATTAGAATCACAACTTGAAATGAAAAAGTTTGAAGTTGAAAAAGCTGATGAAATGATTAAAGCAGCAAAAGAAAAAGTAAACACACTTTCTGTAACAAGTCCTGCTGATGGCGTAATTGATGATATCGTGAAAACTGCTGACGAAAAAACAGGTATGAGCGGAATTACTCTTCGTCACGCTGGTCAATTCAAGGTAAAAGGTCAACTTTCTGAATATGAGCTTGCTAGTATGAAAGTTGGGCAAGAAGTAACTGTTTCCTCAAAAACTGTCGCTGGTAAGACTTGGACAGGAAAAGTAACAGAAATCGGTTCTACACCATTAAAGAGCATGGATGAAAATAAAACTGTTTCTAACTATCAATTCACTGTCACATTAGATAATAGTGACGAACTACAAAACGGCTTCCACGTATACGTAACAAGTAAATCTGGCGAAGCAACTGGTACAATTGTTCCGAAAAGCAGTATCGTGAAAAAAGGTGACAAAAATGTTGTCTTCGTTGTAAAAGACGGTAAAGCGAAAGAACAAGCAGTTACTGTTGAATTCGAGACTGATAGCGAATCAAAAGTTTCTGGAGTGAAAAAAGGAGAGGAAGTTATCTCTAAACCTGAAAAAGACTTAAAAGATGGTATGGAGGTTGTCGCCCAGTGA	MKKKNKVLITSVVAIGIAAGSYFAFAGGGGSEVAMAYSGYKVTEKQIQNAQKFGGEVIPNGIETISFDPTKGTYELAVKKGDEVKKGQLLFKYNDPTAKQGVTEAEMQKKIAQKEVTLFQKQIDAAKQKLQKDKNAGLPSEALKASEVEVGQLESQLEMKKFEVEKADEMIKAAKEKVNTLSVTSPADGVIDDIVKTADEKTGMSGITLRHAGQFKVKGQLSEYELASMKVGQEVTVSSKTVAGKTWTGKVTEIGSTPLKSMDENKTVSNYQFTVTLDNSDELQNGFHVYVTSKSGEATGTIVPKSSIVKKGDKNVVFVVKDGKAKEQAVTVEFETDSESKVSGVKKGEEVISKPEKDLKDGMEVVAQ				NA	NA	NA	NA	NA
AK009_05393	675	yknY_4	COG1136	putative ABC transporter ATP-binding protein YknY	GTGATTAACTTAAAAGGCATCACGAAATCCTTCCAAAATGGTGCAGAATCCGTTCAAATATTACACGGAATTGACGTAACACTGAATCAAGGAGAATTCACTTCTATTATGGGACCTTCTGGTTCTGGTAAATCAACATTAATGAACATTATTGGTTGCTTAGATAAACCGACGACGGGTACGTACGAACTAGCTGGACAAAACATTTCAAACATGTCTGAAACAGAACTTGCACATGTTCGTAATAAAGAAATCGGATTCGTATTCCAAAACTTCATGTTATTACCGAGACTTACAGCACTTCAAAATGTAGAGCTACCTCTTATTTACGCTGGAGTTGATAAAAAAGAAAGACGCGAACGCTCATTAGCCGCTTTAACAAAAGTCGGTTTAGCTGATCGCGCTACTCACTTACCAAACGAATTATCCGGTGGTCAAAAGCAACGTGTCGCCGTTGCCCGCGCAATCGTAAATAACCCAAAATTCATTTTAGCCGATGAACCGACGGGAGCACTTGATACGAAAACAAGTACACAAATTATGGACCTCTTTTACGAATTAAATAAACAAGGCTCAACAATCATTATGATTACCCATGACCGTGAAATCGGGGAAGCTGCAGCACGTCAAATTGTAATTCGTGACGGAAATGTCGTCCAAGATTGGAGAGGTTAA	MINLKGITKSFQNGAESVQILHGIDVTLNQGEFTSIMGPSGSGKSTLMNIIGCLDKPTTGTYELAGQNISNMSETELAHVRNKEIGFVFQNFMLLPRLTALQNVELPLIYAGVDKKERRERSLAALTKVGLADRATHLPNELSGGQKQRVAVARAIVNNPKFILADEPTGALDTKTSTQIMDLFYELNKQGSTIIMITHDREIGEAAARQIVIRDGNVVQDWRG	PGPT0013345_6401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_05394	1176	yknZ_2	COG0577	putative ABC transporter permease YknZ	TTGAATACGAGTGAAAATATACGCATGGCCCTTTCCTCTATCTTTGCTCATAAAATGCGTTCCATCTTAACGATGCTAGGTATTATTATCGGTATTAGTGCCATTATTACTATCATTTCAATGGGTGATGGTACAAACGCAAAGTTTAAAAAAGAATTAGGCCAAGGAAAAGATAACGAAGTAACGATTTACTACAACAATCCTGATTACGGAACAGATAGTGCCAAAATCACACCTGATATGCTAAACCGTCTGCAAACTGTACCAGGCGTTAAAGATGTATATCCAGACGTAAGTATGAAAGTAAAAGCATCTGCTGGTTCAAAAGATGTAAATCTTGATTTAAAAGGTGGAACAGGCGCCTTTATGAAAGATTCGAAAATAAAATTAGTTCACGGTCGTGAATTAAATGACAGTGAACTAAACCAAGCAATCCCTGCTGTTATATTAAATGAAGAAGCTTTCAACAAATTATTTAGTGGTTGGGAATCAAACCAATACACAGATATAAAAGGAAAGCCTTATAAAATAGTCGGTGTATACGAAACGAAAAACGACTTTGGAATGCCTATGCCTGAAGGTTATACATCACTTGAAAATGCACCTGTAATTTCAGGAGTAAATGAGTATGACTCCGTAAGATTAACAATGACCTCTCCGACAGAACGTAAAAGTGTAGAAAAACAAGCCGTTTCTGTCTTAAACGAACTGAAAGCTCCTAAATTTGAGCACAAATTCGAAGCACAAGACTTAGGTGAATTTACGAAACAACTAGACGAATCAATCGGTATGATGAAAATGGTATTCGGTGGTATTGCTGCTATCTCCTTACTTGTTGGTGGTATCGGTGTAATGAACATCATGCTCGTATCTGTAACAGAACGTACACGTGAGATTGGTATTCGTAAAGCTCTTGGTGCAACACGTGGTAAAGTATTAACACAATTCTTAATCGAATCTTGTATTTTAACAGGACTTGGTGGTTTCATCGGATTCATGCTCGGTATTTTCTTCGCTTGGATCGTCTCAATCTTTGCTGGATGGCCACTCGTTGTCTCAAAAGAACTTGGACTTCTTGCAGTAGGTATTTCAATGCTGATCGGTATTGCATTCGGACTACTACCAGCTAACAAAGCTGCAAAACTTGATCCAATTGAATGTTTACGATATGAATAA	MNTSENIRMALSSIFAHKMRSILTMLGIIIGISAIITIISMGDGTNAKFKKELGQGKDNEVTIYYNNPDYGTDSAKITPDMLNRLQTVPGVKDVYPDVSMKVKASAGSKDVNLDLKGGTGAFMKDSKIKLVHGRELNDSELNQAIPAVILNEEAFNKLFSGWESNQYTDIKGKPYKIVGVYETKNDFGMPMPEGYTSLENAPVISGVNEYDSVRLTMTSPTERKSVEKQAVSVLNELKAPKFEHKFEAQDLGEFTKQLDESIGMMKMVFGGIAAISLLVGGIGVMNIMLVSVTERTREIGIRKALGATRGKVLTQFLIESCILTGLGGFIGFMLGIFFAWIVSIFAGWPLVVSKELGLLAVGISMLIGIAFGLLPANKAAKLDPIECLRYE				NA	NA	NA	NA	NA
AK009_05395	1407			hypothetical protein	ATGGAATTGTTACAGAATATTAATGCTCCGTTACGAAAGCTTTGTAATTATATGTTTTTCGCAAATAAGAAAATAATGGTTGCTATAATGAGGTCAACGAAAACAAATGCAATGGAGGCTATTATGAAAAAATTTATGGGTATAGCAACAGCAGCGGTTTTTGGTCTTGGGATTTTCACAACATCTGCTAAAGCAGAAACAATCGTAACGACTGACGTACTAAACGTACGAGAAAACCCAACTACTGAATCAAAAGTTGTAGGAAAATTATTAGATGGATATAAAGTAAATGTTTTACATACAGAAAATGGTTGGTCAAAAGTTCAATTGAATAGCGGTAAAGAAGCTTTCATAAGTGCTGACTATACAAAAGACACTTACTACGTAACAGCAAACGTATTAAACGTACGTGCTGGTGCAAACACAGATTCAGAGATTCTTGGTAAGTTGAAAAAAGATGATATAATCGAAACAACACACCAAGTACAAAATGATTGGATTCAATTTGAATATAACGGAAAAACAGCTTATGTTCATGTTCCTTACTTAACAGGTAAAGCTCCAATTAAAGTTCAGCCAGTAGTTAAAGTTGAAAAAACAACTACAGTTCAAGATACAGCTAAAGTTCGTGAAGCAGTTAAAGCTCAAGAAGTAGCTGAAACTCAAGCAAAAGCTAAGGCCGCGGAAGCAACTAAAGCTCGCGAAGCAGCTGAAGCTCAAGCAGAAGTTAAGGCTCAAGAAGCGGCTAAAGCTCGTGAAGCAGCTAAGGCTCAAGAAGCAGCTAAAGCTCAGGCAGATGCTGAAGCTCAAGCAGAAGCTAAAGCTCGTGAAGCAGCTAAAGCTCAAGCAGATGCTGAAGCTCGTGAAGCGGCTAAGGCTCAAGAAGCAGCTAAAGCTCGTGAAGCGGCTAAAGCTCAAGAAGCAGCTGAAGCTCGTGAAGCAGCTAAGGCTCAAGAAGCAGCTGAAGCTCGTGAAGCGGCTAAGGCTCAAGAAGCAGCTAAAGCTCGTGAAGCAGCTAAAGCTCAAAAACCAGCTACACAACAACCTGCTGCACAACAACCTGCTGCAAAAGAAACTGAAACAAGTACACCATCATCTTCTCGTGAGTTACGTGTTGTAGCAACAGCTTACACAGCAGATCCACTTGAAAATGGTTATAAAGCAGGCGACCAAGTAAAATCAGCTATGGGTCATAACTTAACAGCTAATCCAAACATGAAACTAATTGCAGTTGATCCAAGTGTCATTCCATTAGGTTCAAAAGTATGGGTTGAAGGTTACGGAGTAGCAATCGCTGGTGATACTGGTGGGGCTATTAAAGGTAATAAAATCGACGTTTTAATGCCAGATAAAGGCACATCAAGTAGCTGGGGACGTAAAACAGTTACAGTTAAAGTATTAAACTAG	MELLQNINAPLRKLCNYMFFANKKIMVAIMRSTKTNAMEAIMKKFMGIATAAVFGLGIFTTSAKAETIVTTDVLNVRENPTTESKVVGKLLDGYKVNVLHTENGWSKVQLNSGKEAFISADYTKDTYYVTANVLNVRAGANTDSEILGKLKKDDIIETTHQVQNDWIQFEYNGKTAYVHVPYLTGKAPIKVQPVVKVEKTTTVQDTAKVREAVKAQEVAETQAKAKAAEATKAREAAEAQAEVKAQEAAKAREAAKAQEAAKAQADAEAQAEAKAREAAKAQADAEAREAAKAQEAAKAREAAKAQEAAEAREAAKAQEAAEAREAAKAQEAAKAREAAKAQKPATQQPAAQQPAAKETETSTPSSSRELRVVATAYTADPLENGYKAGDQVKSAMGHNLTANPNMKLIAVDPSVIPLGSKVWVEGYGVAIAGDTGGAIKGNKIDVLMPDKGTSSSWGRKTVTVKVLN				NA	NA	NA	NA	NA
AK009_05396	924			hypothetical protein	ATGGAAGAGTATATAGATGATTTATTAAGGCGGATGGCTGATGAAGAAACAGAGATTTGGCATCGTGCGTATGATGAAGCAAAAGCGTTAAATGACTTATTAACTTTTCCTTATTTACAGCAGAAGGTAATCAAAGCAAAAAAGGTATCTATGAAGAAAGATATTTATTATTTAATGACGAAACTCGCCATCAATACGAAGGAAATCTATATTGCTGATTATCTTATAGATCGTTTGGAATGTGAACAAATCCCGACTTTGTTAAGTGAACTGCTTAGTAATATTTATACATTGCCAGAAGTAAGTAGTACAAATAAAATCATTCCGTATATTTATCATAAAAACGATAGTGTTCGTTATTGGGCAGTTGCTTCCTTAAAGTTATATAAATCGTTAGAAGCGGAAAGTGCGTTGCTAAAGTTGCTGGATACTGAAGAAAATAAAGATGAGATTACACATATTTGTTATACATTGCTTGAGATTGGAACGAAGCAATCGATTCTGCCGTTAACAAAGCTTTTATATAGTAATAGTGTCTATGTTCGTTCAACCGTTATTGAGGTTTTAGCAAAAATAGGGGGATCGGACTTACAAATAGTTTATATTGAAGCTTTACATGATAGAAATGTGATGGTGAAATATGAAGCTGTTCGAGCTATTTATACGTATGGCGACGAAATGGCAATGAGAGCAATTTGCGAACGTGTGAATAAAATTGTTGCTAGAAGACGTAAAAATGAAGTAGAGCCTACGGATGAAGCAGAGATTATCATTGCTCTTCGTTTCTTACATAAGTTTGCTAATCATGAAGAAGTTTTAAAGATATTTGATAAAGTGTACAAAAAACGTGGAAACTTGTTTATGTCGGAGAGGGAGTGGCTTCGAGATAATATTACTTACTTTCAAGAGAAAGAAAGCATGTAA	MEEYIDDLLRRMADEETEIWHRAYDEAKALNDLLTFPYLQQKVIKAKKVSMKKDIYYLMTKLAINTKEIYIADYLIDRLECEQIPTLLSELLSNIYTLPEVSSTNKIIPYIYHKNDSVRYWAVASLKLYKSLEAESALLKLLDTEENKDEITHICYTLLEIGTKQSILPLTKLLYSNSVYVRSTVIEVLAKIGGSDLQIVYIEALHDRNVMVKYEAVRAIYTYGDEMAMRAICERVNKIVARRRKNEVEPTDEAEIIIALRFLHKFANHEEVLKIFDKVYKKRGNLFMSEREWLRDNITYFQEKESM				NA	NA	NA	NA	NA
AK009_05397	1086			hypothetical protein	ATGGAGCGTAAATTAGGGATTTCACTTTATCCAGAACATTCAACGAAAGAAAAAGATATGGCTTATATTTCGTCAGCGGCACGACACGGTTTTTCAAGAATATTTACTTGTTTGTTATCTGTGAATCGTCCGAAAGAAGAAATTATAGCTGAATTTAAAGAGATTATTAATCATGCGAAAGATAACAATATGGAAGTTATTTTAGATGTAGCTCCAGCTGTGTTTGATCAGCTTGGTATTAGTTATAGTGATCTATCATTTTTCGCAGAGTTAGGTGCAGATGGTATTCGATTAGATGTAGGCTTTGACGGATTGACGGAAGCGAAAATGACGAATAATCCGTACGGTTTAAAAATCGAGTTAAATGTAAGTAACGATATTGCGTACTTAGAAAATATTCTTTCGCATCAAGCGAATAAATCAGCTTTAATTGGTTGCCATAATTTTTATCCGCAAAAATTCACTGGTCTTCCGTACGATTATTTCATTCGCTGTAGTGAACGCTTTAAAAAGCATGGTATTCGCAGTGCAGCCTTTATTACATCACATGCCGCAAACATCGGTCCATGGGATATTAACGACGGATTATGTACGTTAGAAGAGCATCGTAATTTACCAATTGAAGTACAAGCGAAGCATTTATGGGCAACAGGGCTAATTGATGATGTCATTATCGGAAATGCTTATGCAAGTGAAGAGGAGTTAGAAAAACTAGGAAATTTAAATCGCTACATGTTACAGCTAAAAGTGCACTTTGTAGACGAAGCGACTGAAGTAGAGAAGAGAGCTACGCTGCAAGAATTACATGTAAGACGCGGCGACATAACAGAGTATATGATACGTTCTACAGAAGTGCGTAAAAAATATAAAGACTATGACTTCCCAGTGCGCGAAAGTGTGCTACAGGAAAGAGGGCAAGTTGTAATTGGTAATAACTCATTCGGAAAGTATAAAGGTGAACTGCAAATCATTTTAAAAGAAATGCCGATAGATGAACGGAAAAATATCGTCGGTACAATTGCGGAAGAGGAGTTATTCTTACTAAATTATGTAGGAGCTTGGACGCAGTTTACTTGTGTGGAATAG	MERKLGISLYPEHSTKEKDMAYISSAARHGFSRIFTCLLSVNRPKEEIIAEFKEIINHAKDNNMEVILDVAPAVFDQLGISYSDLSFFAELGADGIRLDVGFDGLTEAKMTNNPYGLKIELNVSNDIAYLENILSHQANKSALIGCHNFYPQKFTGLPYDYFIRCSERFKKHGIRSAAFITSHAANIGPWDINDGLCTLEEHRNLPIEVQAKHLWATGLIDDVIIGNAYASEEELEKLGNLNRYMLQLKVHFVDEATEVEKRATLQELHVRRGDITEYMIRSTEVRKKYKDYDFPVRESVLQERGQVVIGNNSFGKYKGELQIILKEMPIDERKNIVGTIAEEELFLLNYVGAWTQFTCVE				NA	NA	NA	NA	NA
AK009_05398	279			hypothetical protein	ATGCTCGGAGCAATTATCATCTTAATTACATTTGTGATCGGACAGTGTATTGCCCATTATTCGAAATGGGTACAAAGTAAATCCTTATTAGTGTTACTACTAGTATCAGTTTTATTTATCGGTTGTTCAATGGGTGCATATGTAATGTTAGGTCTACACTCACCGTACGTAATTATTGTACCGACAATTTTATGTGCAACATGTTTATCTGCAAAATATAGATTTACGAGCATGGCATTAATACAACGTGTGAAGGAGATGCAAAAGCATGGAGCGTAA	MLGAIIILITFVIGQCIAHYSKWVQSKSLLVLLLVSVLFIGCSMGAYVMLGLHSPYVIIVPTILCATCLSAKYRFTSMALIQRVKEMQKHGA				NA	NA	NA	NA	NA
AK009_05399	1311	licC_4	COG1455	Lichenan permease IIC component	ATGAATGTGTTTATGAGTTTTATGGAACAAAAGATTATGCCAACAACGCAAAAGATTGCAGGACAACGACATTTATTGGCAATTCGAAATGGGGTTATTTCTACATTACCGTTAACGATCGTCGGGTCATTTTTCGTTATCTTTTTAAATTTACCAATTGATGCATATATGGAATGGATTGCACCGTTTCGCCATATTTTAGATATTCCATTCCGATTTACAGTAGGACTAATGGCCTTATACGCAGCGTTTGGAGTAGGGGCTTCGCTCGCGAACTTTTATCAGCTCAATCAATTAAGTGCAGGGCTACTATCTGTACTCGCCTTTTTACTAGCATCAGTTGAACCAATTCAAATTACGAAAGCTGTACCAGGTGTTATTGATGCAGGTCGATATATTTCAGTAGGAACACTAAGTGCAACGTCTTTATTCGGCGCAATTGTGACAGCATTAATTGCAGTGGAAATTTATCATTTTATGATTAAGCATAATATCTCAATAAAATTACCAGACAGTGTACCACCAGCAGTTTCAAATTCGTTTGCAGCATTAATTCCAACATTAGTAGTTATTCTTTTATTCTGGGGCATTCGCTACGGTTTGAAATTCGATGTAAATACAACAATTACATACTTAATCGCACCATTAAAATCAGTACTAGTAGGAAATAACTTATTCGGTGGTTTATTAACAGTATTCTTAATCGTGTTCTTCTGGTCATTTGGTATACATGGACCGGCAATTTTAGGACCAATCATTCGTCCGATGTGGGATTCCGCAATTCTTGAAAATATGGAAGTGTTCACGGCTACAGGAAATGCACATCAGTTACCAAACTTATTTACAGAGCAGTTCATTCAATGGTTCGTATGGATTGGCGGATCTGGCTCAACGTTAGCTTTAGTAATTATGTTTATGTTCTCTAAATCTAAGTTCCTAAAAGAGTTAGGTAGATTATCATTCGTACCAGGTTTATTCAATATTAACGAGCCAATTATTTTCGGGGCACCAATTGTAATGAACCCAATCTTAATTATTCCGTTCGTTATTACACCGTTAGTGACAACGACAGTATCATATTTCGCAGTTGTTTCAGGTATGATTCCACTCATGATGGCGAAATTGCCATTTACGATGTTAGCACCAATTGCAGCGGTGATTAGTACGGACTGGACAATTATGGCTGGTGTACTTGTACTTGTTAACTTTGTAATCTCATTCGTTATTTACTATCCATTCTTCAAAATGTATGAGAAACAACAATTAGCAGGAGAGGAGAAAACAGAATGCTCGGAGCAATTATCATCTTAA	MNVFMSFMEQKIMPTTQKIAGQRHLLAIRNGVISTLPLTIVGSFFVIFLNLPIDAYMEWIAPFRHILDIPFRFTVGLMALYAAFGVGASLANFYQLNQLSAGLLSVLAFLLASVEPIQITKAVPGVIDAGRYISVGTLSATSLFGAIVTALIAVEIYHFMIKHNISIKLPDSVPPAVSNSFAALIPTLVVILLFWGIRYGLKFDVNTTITYLIAPLKSVLVGNNLFGGLLTVFLIVFFWSFGIHGPAILGPIIRPMWDSAILENMEVFTATGNAHQLPNLFTEQFIQWFVWIGGSGSTLALVIMFMFSKSKFLKELGRLSFVPGLFNINEPIIFGAPIVMNPILIIPFVITPLVTTTVSYFAVVSGMIPLMMAKLPFTMLAPIAAVISTDWTIMAGVLVLVNFVISFVIYYPFFKMYEKQQLAGEEKTECSEQLSS	PGPT0016970_2011	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
AK009_05400	306	licB_2	COG1440	Lichenan-specific phosphotransferase enzyme IIB component	ATGTATATTTTATTATGTTGTGCAGCAGGCATGTCAACGAGTATGGTCGTAAGAAAAATGCAAGAAGAGGCAAAGAAACAGGGGAAGAATTATAAAATTAAGGCGGTTGATTCAGAACTTGTGAAACTTGAAATAAAAGAAGCCGATGTCGTTTTAATCGGTCCACAAGTGAAATATTTATTTCCAGCTGTAGAGTTTCTTGCAAACTCATACAACATACCAGTTGCAATTATAGACCAACGAGATTATGGCATGTGTGATGGTTTGAAAGTGCTTAGGCAAGCAGAACAATTAGTTTTAGCATAA	MYILLCCAAGMSTSMVVRKMQEEAKKQGKNYKIKAVDSELVKLEIKEADVVLIGPQVKYLFPAVEFLANSYNIPVAIIDQRDYGMCDGLKVLRQAEQLVLA	PGPT0016975_1606	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
AK009_05401	321	licA_3	COG1447	Lichenan-specific phosphotransferase enzyme IIA component	ATGGCTGATATGCAAACTCCATTTGCATTAATTTTACATGGTGGCAATGCGAGAAGTGCAGCGCTTGAAGCAATCGCTTTTGCAAGACAAGGAGATTTTGAGAATGCGGGTGAAAAGATGAAACTTGCTAGTGAGGAAATTTCAGCAGCACATCGTATTCAAACGGATTTAATTCAAGAAGAGGCAAGAGGAAATCATACAGAAATCAGTTTACTGTTAGTGCACGCACAAGACCATTTAATGAATGCAATTACAGTGAAAGAACTAGCTGAAGAATTTATTACTCTTCATAAACGAGTAGAAGAGAAAGTGACAGTATAA	MADMQTPFALILHGGNARSAALEAIAFARQGDFENAGEKMKLASEEISAAHRIQTDLIQEEARGNHTEISLLLVHAQDHLMNAITVKELAEEFITLHKRVEEKVTV	PGPT0016980_1013	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
AK009_05402	1941	licR	COG1762	putative licABCH operon regulator	ATGACAAAGGTGCAGCAGCGATTAATTTCTATTTTAGAGGAGTTTTTAGAAGAGAAATCGATGTTAAATCGAGCTTTTTTAGCGGGCCGTTTACATGTATCAACGAAGACGATTCAAAAGGATATAAAATTATTAAATGATATATTGGAAGAAAACGGAGCGAAAATCGAATCGCAAAGAGGGACTGGGTACGAATTAGAAATTATACAAACGAAGAAATTTGAAGACTTTTGTGTGAGTCTATTTCAAAAACAGACGGAAAAGATTCCAACTTCTTATGAAGAAAGAATAGCGTACATTCTGCAGCGTGTTTTAACGGCAGAGGGATATGTGAAGCTTTCAGAATTAGCGGAAGAGATTTATGTGAGCAAATCAACGGTTAATTTAATTATGAAAGATGTTACAGATATATGTGGTCGCTATAAATTACAAATTGAGAAGAGACCGTATTATGGTATACGTATTGTTGGAGAGGAATTTAATATTCGTTCTTGTTTATCACAATATGGTTTACCGCGTTATGACCATACTCCGTTTCATGAGCAATTTGAGCAGACGGAGACATATTTATCGCTACCTTATATATCACACATCCGTTCAATTATATTAAAGTATATTGAAGGTGGAACAATATATTTATCTGATATAGAAATTGATAATTTAGTCATTCATATTGCAATCGCATTAAAGCGTTGTCAAAGTCAACATTATATGAAAGAACTGCATACGGAGCAATCAGAACTTATAATAAAGAAAGAATATACAATTGCGAAGCAGATTTTAGGAGATTTAGAGAAAGAGTTGAAATTTTCATTTCCAGAAGAAGAAGTATTATATGTGACGATGCATTTATTAAGTACTGCTGTTACAACGAGAGATCGCTATGAAAATGTAGAAGAGCTATTAGGAAAAGATATATATGCATTTATGCAACATATTCTTTTTAAAGTAGCGGAAGAACGGAATCTTATTTTTTATTATGATGAAGAATTATTATTTGGATTTGGTATTCATTTAAAAACGTTATTAAATCGTTTGAAGTATAAGTTAAATACGAGAAATCCTCTTTTGGCAGAAGTGAAAAAGAATTATCCGTATGCTTTTGAAATTGCGGTTCTTGTTGGAGATATCATTGGTGAATATACGGGTGAATCGATCCCTGAAAGTGAAATTGGCTATATTGCAATTCACTTCGGCGGAGCGATGAGCCGTTTGCAGGAGCAAAATCAAAAGAAAAGATGCTTATTAGTTTGTGCGACTGGTCAAGGAAGTGCACAACTATTAAAATATAAAATTTTATCACAGTTCCGAGATAAATTAGAGATTGTAGGTATTACAGGCTATTATCAATTGAAAGTAGAAGATCTTTATAAAGAAAAAATAGATTGTATTATTAGTACGATTCATATACCGAGTGGCTTGCCTGTTCCAGTTATAAAAGTGAATTCAATATTTGATGATAAAGAGATTAAATTGATTGGTCAGCGGTTGTTTACGCATGTGAATAATAGTGTGCAGCCTTATATTAAGGAAGATTTAATTTTTTTAAATCATAGTGCTTCTACGAAAGAGGATGTTATTCAGTTTTTATGTGAGAAAGCTGCTGAGAAACATTATGTACAAGAAAACTTTTATGCTTCTGTTATGGAAAGAGAAAATACGTCTCCGACAGCGGTTGGGAATTCAGTTGCAATCCCGCATCCGATGCAGTTATTAAGTGAGGAAACTTTTTTGATGTTTTGCACACTTGAAAAGGCTGTTGATTGGGGAGATAAAAAAGTACAAGTAATTATTTTATTTAGTGTAAAGCGCAATAATAATGAAGATTTGCAAAGGCTTTATGATTTTTTATATGATATTATGTCTAGTCAAACTACGATAGAGAAACTTACTCAGACCGAGGTAATTGAAGATTTTCAAGAGATTTTATTATCATTTTGA	MTKVQQRLISILEEFLEEKSMLNRAFLAGRLHVSTKTIQKDIKLLNDILEENGAKIESQRGTGYELEIIQTKKFEDFCVSLFQKQTEKIPTSYEERIAYILQRVLTAEGYVKLSELAEEIYVSKSTVNLIMKDVTDICGRYKLQIEKRPYYGIRIVGEEFNIRSCLSQYGLPRYDHTPFHEQFEQTETYLSLPYISHIRSIILKYIEGGTIYLSDIEIDNLVIHIAIALKRCQSQHYMKELHTEQSELIIKKEYTIAKQILGDLEKELKFSFPEEEVLYVTMHLLSTAVTTRDRYENVEELLGKDIYAFMQHILFKVAEERNLIFYYDEELLFGFGIHLKTLLNRLKYKLNTRNPLLAEVKKNYPYAFEIAVLVGDIIGEYTGESIPESEIGYIAIHFGGAMSRLQEQNQKKRCLLVCATGQGSAQLLKYKILSQFRDKLEIVGITGYYQLKVEDLYKEKIDCIISTIHIPSGLPVPVIKVNSIFDDKEIKLIGQRLFTHVNNSVQPYIKEDLIFLNHSASTKEDVIQFLCEKAAEKHYVQENFYASVMERENTSPTAVGNSVAIPHPMQLLSEETFLMFCTLEKAVDWGDKKVQVIILFSVKRNNNEDLQRLYDFLYDIMSSQTTIEKLTQTEVIEDFQEILLSF	PGPT0019430_236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491	NA	NA
AK009_05403	1089			hypothetical protein	ATGAGACGATTAGGTATTTCTATTTATCCAGAACATTCAACAGTAGAGAAAGATAAGGAGTATTTAACATTAGCAAGTAAATATGGATTTACACGTGTGTTCACATGTTTATTATCTGTGGATGGAGAAAAAGAGAAAATTATTGAAGAATTTAAAGAAACGATCTCACATGCGAATGCATTAGGGTTCCAAGTATTAGTTGATATTAGTCCATCTGTTTTTGAACAATTAGGTATTTCGTATAATGATTTATCATTCTTCCATGAATTAGGTGCGTACGGTATTCGTTTAGATGTTGGTTTCTCAGGATTAGAAGAATCAATTATGACTTATAATCCGTATGGTTTGAAAATTGAGATTAATATGAGTAATGGTACGAAGTATGTAGATAACATTATGAGTCATAGACCAAATCGTGAAAATTTAATTGGTTGTCATAATTTTTATCCGCATCGTTATTCAGGGTTATCATACGATCATTTCATTAAATGCTCGAAACAATTTAAAGATTACGGTATGAGAACGGCTGCTTTTATTTCATCATTTGATGCAACATACGGACCTTGGCCAGTAACAGAAGGGTTATGTACATTAGAGCAGCATCGTGAATTATCGATGACAACACAGGCGAAGCATTTATTTGCGACGGAATTAATTGATGATGTTATTATTGCAAACGCATATGCGTCAGAAGAAGAATTACAAGCACTAGGTGCATTAAATAAAGAGAAACAAACATTTGATATAGAACTATATGATACAACGACAGAACTAGAAAGAATTATCGTATTAGACGAACCACATTTTTATCGCGGAGATGTATCTGAATATATGATTCGTTCTACACAAAGTCGTGTGAAATATAAAAAAGAAGAGTTTAAACCTCATAATACGCGTGAAATTAAGCGTGGAGATTTATTAATTGATAATGAACAATATGGCCAGTATAAGGGCGAATTACAAATTGCATTAAAAGATATGGTGAATACAGGAAAAACAAATGTAGTTGGTCGAATTATAGAAGAAGAAATTTTCTTATTAGATTATTTACAAGCATGGGATAAATTCGGATTCATATTAAAGAAATAG	MRRLGISIYPEHSTVEKDKEYLTLASKYGFTRVFTCLLSVDGEKEKIIEEFKETISHANALGFQVLVDISPSVFEQLGISYNDLSFFHELGAYGIRLDVGFSGLEESIMTYNPYGLKIEINMSNGTKYVDNIMSHRPNRENLIGCHNFYPHRYSGLSYDHFIKCSKQFKDYGMRTAAFISSFDATYGPWPVTEGLCTLEQHRELSMTTQAKHLFATELIDDVIIANAYASEEELQALGALNKEKQTFDIELYDTTTELERIIVLDEPHFYRGDVSEYMIRSTQSRVKYKKEEFKPHNTREIKRGDLLIDNEQYGQYKGELQIALKDMVNTGKTNVVGRIIEEEIFLLDYLQAWDKFGFILKK				NA	NA	NA	NA	NA
AK009_05404	1203	ymfD_3		Bacillibactin exporter	ATGGGAGAAGCAATACTCGTAAAACGAGAACCGTTATGGACAAAAGAGTTTGTTGCTTTAATTTTTGCAAACTTATGTATGTTTTTAGGGTTTCAAATGTTAATTCCAACCTTACCTGTTTATGTGAAAGAAATTGGTGGCACAAGTTCCAATATCGGATTTGTTGTCGGTATGTTTACCGTTGCGGCACTTTTTGTTAGACCGCTAACTGGGAACGCCTTGCAAAAATTTAATAAAAAAATCATTTTAATGATCGGTACTGCTATCTGTTTACTCGCTATGGGCAGTTACCTTTTCGCCTCAACTATCTTTCTCTTGCTTGCTGTTCGTATTTTACACGGAGCTGGTTTCGGTATTACAACGACTACATATGGAACTGTCGTTTCTGATTTAATTCCCTCAGCTCGCCGCGGAGAAGGCATGGGATATTTTGGCCTTTCTGGAACAATTGCAATGGCCCTCGGTCCACTTATAGGACTATGGCTCATGCAAACATATAACTTCACAATTCTTTTTTTATGTGCACTATCGTGCACAATTGTTTCATTAATATTAACGAAACTACTTCAAATCCAAAAAACGAAACAGCCGCCACAACAATCATCTAGTACTTTTCTCGATGGATTTATTGAGCGTAAAGCTTTACTTCCTTCATTATTAATATTATGTATTACATTAATGTACGGAGGAATCGGAAGTTTTATCACACTATTTGCTACAGAAGTCGGCATAGCTGATATTAGCCTCTTCTTTTTATGTAATGCACTAGCAATTGCTGTAACTCGTCCATTCTCTGGAAGGCTATATGATGCGAAAGGCCATACATTCGTCATCATTCCGGGAGTTATTATAACGTTTACAGGCATTATTTTATTGTCGTATACGACGACAATTCCGAGCTTAATTATTGCTGCAGCATGTTACGGAAGTGGTTTTGGAGCGATCCAACCTGCACTACAAGCATGGATGATTGACCGCGTAGCACCGCATCGACGCGGCGTAGCAACAGCTACATTCTTCTCCGCATTTGACCTTGGAATCGGCGCTGGAGCGATTATATTTGGATTTATTGCTCATTTTACAAACTATGCAACTGTATATCGTTACTCCTCTCTATTACTTATTGCTTTTCTCTTCATTTACATTACAAGCATAAGAAAACAAAAGTATGGCGATAAAAACACGGAAAAAGCTGCTGGATAA	MGEAILVKREPLWTKEFVALIFANLCMFLGFQMLIPTLPVYVKEIGGTSSNIGFVVGMFTVAALFVRPLTGNALQKFNKKIILMIGTAICLLAMGSYLFASTIFLLLAVRILHGAGFGITTTTYGTVVSDLIPSARRGEGMGYFGLSGTIAMALGPLIGLWLMQTYNFTILFLCALSCTIVSLILTKLLQIQKTKQPPQQSSSTFLDGFIERKALLPSLLILCITLMYGGIGSFITLFATEVGIADISLFFLCNALAIAVTRPFSGRLYDAKGHTFVIIPGVIITFTGIILLSYTTTIPSLIIAAACYGSGFGAIQPALQAWMIDRVAPHRRGVATATFFSAFDLGIGAGAIIFGFIAHFTNYATVYRYSSLLLIAFLFIYITSIRKQKYGDKNTEKAAG				NA	NA	NA	NA	NA
AK009_05405	1656			hypothetical protein	GTGGAATATAATGTTCAAGATATGATCTTCCAGTTCATTGGTGGATTAGGTATTTTCTTATTCGGGATTAAATACATGGGCGATGGACTGCAACAAGCAGCTGGAGATCGTCTTCGTGATATTCTAGATCGTTTTACAACAAACCCACTCATGGGTGTACTAGCAGGTATGTTAGTTACGGTATTAATCCAATCAAGCTCAGGAACAACCGCTTTAACAGTCGGACTTGTAAGCGCAGGATTTATGACATTAAGACAAGCAATCGGTGTTATTATGGGTGCAAACATCGGTACGACAGTTACTGCATTTATTATCGGAATTAAAATCGGAGAATACGCTCTCCCAATTATGGCAGTTGGAGCTATCTTATTATTCTTCTTTAAAAATAAAAAAGTACATTCTTTAGGTCAAGTTATATTCGGCTTTGGTATGTTATTCTTCGGTTTGGAATTAATGAGCGCAGGTATGAAACCTCTTCGCTCTTTAGAATCATTCCAAGAATTAACGGTTAGTATGAGTGATAACCCAATTTTAGGAGTTGTTGTCGGTACAGTCTTCACTTTAATTGTACAAAGCTCAAGCGCAACAATCGGTATTTTGCAAGAATTATTCGGTCAAGGTGCAATCGATTTACAAGCTGCCCTTCCTGTATTATTCGGTGATAACATCGGTACAACAATTACAGCTGTATTAGCAGCAATCGGTACTTCTATTGCCGCAAGACGTGCAGCATTAGTTCACGTTATCTTTAATATCGTCGGTACAATTATATTTACGATTTTATTAGTACCATTTACAAGCTTAATTCAATATTTCCAAACATCATTAAACTTAAATCCAGAAATGACAATTGCATTTGCACACGGAACATTTAACGTAACAAATGCAGTTATTCAATTCCCATTCATCGCTGTATTAGCATGGATTGTAACAAAACTTATTCGCGGCGAAGACTCTGCTATTGATTTCAAACCGCAACATTTAAACCCAATCTTTATTGAGCAATCTCCAGCTATCGCTTTAACAGAAGCTCAAAAAGAAATTATCCGTATGGCTGAGTTTTCATTACATGGATTAAAAGAAGCAAATCAATTTTTAAATACACAAGACAAAAAACACGCTGACATGGCTACTCAATTAGAAGGAGCTATTAACAATTTAGATAAAAAAATTACCGAGTATTTAGTTCTACTATCTGAAAAGCCGCTTTCACCTACGGATTCTGAAAAACATTCCGTTTTAGCAGGTGTTGTTGGAGATATTGAACGTGTTGGTGATCATGTAGAAAACCTTGTAGAACTTGTAGATTTCCAAATTTCAAATCGTGTTTCACTATCAGACGAAGCATTAGGTGAATTAAACGAAATGCTGGAATTAACGATTTCAACACTGCAAGACTCAGTTGAAGCTTTAACAAACTTCGATACCGAACTAGCTCAAACTGTTATTGCAAAAGAACGCAAAATCGACCAAATGGAACGTGTTCTTCGTAAACGTCACGTATTACGTCTAAACGAGCGTAGCTGTTCAGGTGATGCAAGTATCATCTTCGTCGATATGGTAAGTAACTTAGAACGCATTGGCGATCACGCTGTAAATATCGCTGACGGTGTTTTAGGTGAACAAGGAAAAATCAATTTAAAACAATCATTATAA	MEYNVQDMIFQFIGGLGIFLFGIKYMGDGLQQAAGDRLRDILDRFTTNPLMGVLAGMLVTVLIQSSSGTTALTVGLVSAGFMTLRQAIGVIMGANIGTTVTAFIIGIKIGEYALPIMAVGAILLFFFKNKKVHSLGQVIFGFGMLFFGLELMSAGMKPLRSLESFQELTVSMSDNPILGVVVGTVFTLIVQSSSATIGILQELFGQGAIDLQAALPVLFGDNIGTTITAVLAAIGTSIAARRAALVHVIFNIVGTIIFTILLVPFTSLIQYFQTSLNLNPEMTIAFAHGTFNVTNAVIQFPFIAVLAWIVTKLIRGEDSAIDFKPQHLNPIFIEQSPAIALTEAQKEIIRMAEFSLHGLKEANQFLNTQDKKHADMATQLEGAINNLDKKITEYLVLLSEKPLSPTDSEKHSVLAGVVGDIERVGDHVENLVELVDFQISNRVSLSDEALGELNEMLELTISTLQDSVEALTNFDTELAQTVIAKERKIDQMERVLRKRHVLRLNERSCSGDASIIFVDMVSNLERIGDHAVNIADGVLGEQGKINLKQSL	PGPT0002650_1180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
AK009_05406	999	acuI_1	COG0604	putative acrylyl-CoA reductase AcuI	ATGAATCATACATCATTCCGAGCAATCGTTGTGAACGAAACGGAAAATCATCAGTTTGTAAGAAAAGTTGTTGAGAGAGAAGTAAGTAGTTTACCTGAGGGAGACGTATTCATACAAGTTCATTATTCTTCATTAAATTACAAAGATGCCCTTTCAGCTACTGGTAATAAAGGTGTTACGAGAACGTATCCTCATACGCCAGGAATTGATGCCGCAGGAGAAGTTATGAGAAGTGAAGATAACTCCTTTAATGTAGGAGATCAAGTTATTGTAACGGGATATGACTTAGGTATGAATACCTCTGGTGGTTTCGGAGAATATATTCGCGTCCCATCATCTTGGGTCGTGCCTTTACCAGAAGGAATGTCATTAAAGGAAAGTATGATGTATGGGACAGCAGGTTTTACTGCTGCTTTGTCGGTATATAAGCTTATTGGAGCAGGAATTAATCCTGGTATGGGAGACGTTCTAGTAACTGGTGCTACAGGCGGCGTAGGGAGTGTAGCTGTTAGTATTTTAAGTAAGTTAGGGTTTAATGTAGTAGGAGCGACAGGGAAAATGGAAGAGGAACAGATGCTACTACGTCTAGGAGCGAAAAAAGTGATTCATCGCGCGGAATTGAATGATGAATCAGGAAGACCAATGTTAAAAGGGATATACGCCGGAGTTATCGATACTGTAGGTGGACATATGTTAGAAACAGCTTTAAAAACAGTAAAGTATGGTGGTTGTGTAACGACATGCGGTAATGTGGCAGGACAGGAATTACATACAACGGTATATCCGTTTATTTTACGAGGCATAAGCCTTTTAGGGATAGATTCCGTGCAATGCCCGGTGGATGTGAGAAGAGATGTGTGGACATTGTTAGCGGATGAATGGGAAAGTTCAAAGTTAGCGTCTTATACAGAAGAATGTACATTAGAAGAATTAGATGAGAAGTTTGCACTTATATTGCAAGGAAAGTTAAAAGGAAGAACAGTTGTTAAAATAAAGTGA	MNHTSFRAIVVNETENHQFVRKVVEREVSSLPEGDVFIQVHYSSLNYKDALSATGNKGVTRTYPHTPGIDAAGEVMRSEDNSFNVGDQVIVTGYDLGMNTSGGFGEYIRVPSSWVVPLPEGMSLKESMMYGTAGFTAALSVYKLIGAGINPGMGDVLVTGATGGVGSVAVSILSKLGFNVVGATGKMEEEQMLLRLGAKKVIHRAELNDESGRPMLKGIYAGVIDTVGGHMLETALKTVKYGGCVTTCGNVAGQELHTTVYPFILRGISLLGIDSVQCPVDVRRDVWTLLADEWESSKLASYTEECTLEELDEKFALILQGKLKGRTVVKIK	PGPT0002275_537	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
AK009_05407	1200	tagU_5		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGGAGCAAAACCCATCTTTGCAAGAAAATACACGCAGTAAACCGAACAAAAATAAGAAAAAAATAAAAATTATTATAAGCGCTATACTATTCGTTTTATTAATAGGTGGCGGTTATACTTGGTTTTTAGTAAATAAAGCATCTTCTGCTGTTCGAAATGCCGCACACGATTTAGCACGCGGTGATAAATCAGATTTACGAGATAAAGCTGTTAAACCTATTACAAATAACGTCTCTGTTTTAATAATGGGTGTTGATGAAAGCGATGTCCGAGGAAAAGAATATGGTGAAGCTATAAGAACAGACGCGCTTTTACTTGCAACATTTAATAAAGATAGCAAAACTGTTAAACTATTAAGTATCCCACGTGACACATATACTTATATTCCAATAGAAAAGAAAAAAGATAAAATTACACATGCTCATGCATTCGGTTCTGCTAAAAACGGAAAAAATGGTGGACCACAAGCAAGCATTGATGCAGTTGAAAAATTAATGAATGTTCCTGTCGATTATTTTGTCAAATTTAACTTTAAATCATTTATAAAAATCGTCGATGACTTGGGCGGTGTTGAAGTTGATGTACCAGTTGAATTTACTGAGCAAGATAGCAATGATAATGCTGAGGCAATTCACCTAGAAAAAGGTGTTCAAAAGTTAAATGGCGAAGAAGCTCTTGCTCTTGCTAGAACAAGACACATCGATAGTGATGCAATGCGTGGACAACGTCAACAACTCGTTATCGAAGCTATTTTAAAGAAACTAACAAATGCTGGTTCTGTAACAAAAGTTGGCAACATCATTGATGATATTAACGGACAATTCGTTACAAACTTAACATTTGATGATATGCTTTCATTCTATAAGTACGGATCGGATTCGGAAATTGAGAAATTACAAATCCAAGGTGATGATTGCTATATGGCAAAAGGTGACGATACATGTAGCAAATCTGCTGGTGGTGGTCGAACTTACTACTACAATCCAGATAAAAAAGAATTAGCTAATGTTACAAATGAACTTCGTACTCATCTTGGGCTACCTGCATATACAAAGTCTGACTCAGACTCTGATTCGAAAAAGACAAAAGAATCTAAGTCTGAAAATTCAAGTGAACGCGAATCAAGTAACAATGAAGTGAAAAATAAGAACAAAAATAGCAGTGAAGATACAGAAACATCGTCTAACGACAATGAATAG	MEQNPSLQENTRSKPNKNKKKIKIIISAILFVLLIGGGYTWFLVNKASSAVRNAAHDLARGDKSDLRDKAVKPITNNVSVLIMGVDESDVRGKEYGEAIRTDALLLATFNKDSKTVKLLSIPRDTYTYIPIEKKKDKITHAHAFGSAKNGKNGGPQASIDAVEKLMNVPVDYFVKFNFKSFIKIVDDLGGVEVDVPVEFTEQDSNDNAEAIHLEKGVQKLNGEEALALARTRHIDSDAMRGQRQQLVIEAILKKLTNAGSVTKVGNIIDDINGQFVTNLTFDDMLSFYKYGSDSEIEKLQIQGDDCYMAKGDDTCSKSAGGGRTYYYNPDKKELANVTNELRTHLGLPAYTKSDSDSDSKKTKESKSENSSERESSNNEVKNKNKNSSEDTETSSNDNE	PGPT0023440_1243	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
AK009_05408	441			hypothetical protein	ATGAAAGCTGCAGTAAAACATAACATCTCAGATTTTAAAGACTACTTAAAATCCAACGATATATACATGGAAGAAAATATAGATGAAAATGATGGCTCTGTTCATTTTTCAGTAGGATTAGAGACAGAAGCTGGCGCAAAAATTCAACTTATCGCTGCTTTCCAAAACGAACATCCTACGGTGGATATATACTGCTTCAATGTTGCTCACGTGCCTGATGCAACATCAACAAATGATATTTTACATGTCATTAATGAATTAAACACATCTTATCGCTTTGCAAAATTCACATTAAACAAGCAAAATGCAATTGATATTTCAGCATCTCTTGCATTCTCAGAACCAAACTTTAATCCAGCACTTGTCTTTGAACATACGAGAATGCTATATAAATTAGCAAATGACGAATATAAAAACTTAATGAAAGTTATTTGGGCATAA	MKAAVKHNISDFKDYLKSNDIYMEENIDENDGSVHFSVGLETEAGAKIQLIAAFQNEHPTVDIYCFNVAHVPDATSTNDILHVINELNTSYRFAKFTLNKQNAIDISASLAFSEPNFNPALVFEHTRMLYKLANDEYKNLMKVIWA				NA	NA	NA	NA	NA
AK009_05409	765			hypothetical protein	GTGAGTTTAGTATTATTACTTTTTATAATTGGGTTTATAGGATCGTTTATATCAGGAATGGTTGGAATTGGCGGTGCGATTATTAATTATCCGATGATCTTATACATTCCAGTATTGTTAGGATTTACTGGTTATACGTCACATGAAGTGAGTGGTATTACAGCGGTACAAGTATTCTTTGCAACTTTTGCAGGCGCATGGGCTTATCGGAAAAGTAATGATATGGATAAAACGTTAGTTGTGTATATGGGAGCTAGTATTTTAATAGGAAGTTTCATAGGGAGCTTTGGTGCTAACGTATTAGAGGAACATACGGTCAATGTTGTTTATGCAGCGTTAGCAACAATTGCTGCTATTATGATGTTCGTACCGAAACGAAATAATAGTGGTGAAGTGACATATAATAAATGGTTAGCAAGCTTGTTAGCGTTTATTGTAGGAGGAGCATCAGGCATTATAGGTGCTGGCGGTTCTTTCTTATTAGTACCGATTATGTTAGTTATTTTAAAATTGCCGATACGTACAACAATAGCAACATCTATCGCTATTACGTTTATTTCCTCAGTAGGGATTACGACTGGAAAAGTGATAACTGGTCAAGTAGTTGTAATTCCAGCTCTTATTATTGCGGTTGCAAGTATCTTTGCTGCGCCGCTTGGAGTGCGAGTCGGGAAGGGGACCAATCAAAAAGCACTGCAATATATGTTATCGATTTTGATTGTAGGCACTGCTGTTAAAATGTGGATTGATATGATATCGAAATAA	MSLVLLLFIIGFIGSFISGMVGIGGAIINYPMILYIPVLLGFTGYTSHEVSGITAVQVFFATFAGAWAYRKSNDMDKTLVVYMGASILIGSFIGSFGANVLEEHTVNVVYAALATIAAIMMFVPKRNNSGEVTYNKWLASLLAFIVGGASGIIGAGGSFLLVPIMLVILKLPIRTTIATSIAITFISSVGITTGKVITGQVVVIPALIIAVASIFAAPLGVRVGKGTNQKALQYMLSILIVGTAVKMWIDMISK				NA	NA	NA	NA	NA
AK009_05410	480	dsrE2	COG2210	Sulfur carrier protein DsrE2	ATGGAACAACAGAAGAAAACGACAATCGTGTTATTTAGCGGAGATTACGATAAAGCAATGGCTGCTTATATTATTGCAAATGGTGCAGCGGCGTATGACCAAGAGGTAACTATTTTTCATACTTTCTGGGGATTAAATGCTTTAAGGAAAGATGAACATGTGAATGTAAAGAAAACATTTATAGAAAAAGTATTTGGAAAAATGATGCCACGCGGTGCCGATAAGATGGGATTATCCAAAATGAATTTTGCTGGCATGGGGCCAAAGATGATTAAAGGCATTATGAAAAAACATAACGCAATGCCTTTGCCAGATTTAATTGATTTGGCGAAAGAACAAGGAATTAAACTTGTAGCTTGTCAAATGACAGTAGATTTATTAGGGTTAAAAGAGGAAGAGATTATGGAAGGGGTAGAGTTTGCAGGCGTAGGGGCATATTTAGCAGATGCTTCGGATGGGAATGTAAACTTATTCATTTAA	MEQQKKTTIVLFSGDYDKAMAAYIIANGAAAYDQEVTIFHTFWGLNALRKDEHVNVKKTFIEKVFGKMMPRGADKMGLSKMNFAGMGPKMIKGIMKKHNAMPLPDLIDLAKEQGIKLVACQMTVDLLGLKEEEIMEGVEFAGVGAYLADASDGNVNLFI				NA	NA	NA	NA	NA
AK009_05411	321		COG0607	Sulfurtransferase	ATGGTTTGTGAGGAGGACTTTAAAATGAAAGAAATGACAGCAAAAGAATTAGAAGAAAAATTATTACGTAAAGAAGCAGTAAATATTGTGGATGTCCGTGAAGTAGAAGAAGTAGCTGAAGGAAAAATTCCAGAAGCATGTAATATTCCGCTAAGGATATTAGAGTTTCGTATGCATGAGTTGAATAAAAAGAAAGAATATATTATCGTTTGTCGCTCTGGCGCGAGAAGTGCAAGAGCCGTTCAATTTTTAGAAGGTTACGGTTTTCGAGCAATCAATATGGTAGGTGGTATGTTAGCTTGGGAAGGTAAAGTCATATAG	MVCEEDFKMKEMTAKELEEKLLRKEAVNIVDVREVEEVAEGKIPEACNIPLRILEFRMHELNKKKEYIIVCRSGARSARAVQFLEGYGFRAINMVGGMLAWEGKVI				NA	NA	NA	NA	NA
AK009_05412	360	glpE_2		Thiosulfate sulfurtransferase GlpE	ATGAACACAATATTAAGTACGCTTTTCATTGTACTTGCTGCAGGATTTGTTATTTCACGTTTTTTACCGGTAAAAGGTGTTCGAAATATAAGTGGAAAAGAATTAAAGAGTATAGTGGGGAAAAAGGGGAAGCAATTTATCGATGGTCGTACAGTAGGTGAATATAGAGGGAATCATATGAAGGGATTTCGAAATATCCCGTTAAATGAGTTAGCTAGTAAAGCAAATCAATTAGATAAAAATGCGGAAGTAATCGTTATTTGTCAGAGCGGGATGAGAAGTAAGCAAGCGGCAAAGGTATTAAAGAAATTAGGATTCCAGCACCTTATCAATGTTTCAGGTGGTATGAATGGTTTGTGA	MNTILSTLFIVLAAGFVISRFLPVKGVRNISGKELKSIVGKKGKQFIDGRTVGEYRGNHMKGFRNIPLNELASKANQLDKNAEVIVICQSGMRSKQAAKVLKKLGFQHLINVSGGMNGL	PGPT0014648_716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014648-pspE-K03972	NA	NA
AK009_05413	228	tusA_1	COG0425	Sulfur carrier protein TusA	ATGAATATAAAACAAGTATTAGATGCGAAAGGTTTAGCATGTCCAATGCCGATTGTAAGAACAAAGAGAGCAATGGATGCTTTAGACACTGGAGAAGTGTTAGAAATACATGTAACGGATAAAGGGTCAGTTAAGGATATTCCAGCGTGGGCAAATAAAAGTGGTCATGACATTGTAAAGCATGAAGAAGAAGGCGATGTACTAAAGTTTTGGATTAAGAAGGCGTAG	MNIKQVLDAKGLACPMPIVRTKRAMDALDTGEVLEIHVTDKGSVKDIPAWANKSGHDIVKHEEEGDVLKFWIKKA				NA	NA	NA	NA	NA
AK009_05414	1137	gloB_3		Hydroxyacylglutathione hydrolase	ATGGACATTAAGATGTTACAAGCAAAAGATGTTGCAGAGAAAGTTTTATTCGGAGAGTTATTCATTTTAGATGTTCGTAATGAGACGGATTATGAAGATTGGAAAATTGAAGGGAAACAAGTTTCTTCTATTAATAAACCTTACTTTGACTTGTTAGATGGTGTAGATCATATTGTAAGTGAATTACCTAAAGATAAAGATGTTTTAGTAGTATGTGCAAAAGAAGGGTCTTCTATATTTGTGGCAGAGCAATTAACAGAAGCGGGATTACAAAATATTTATTATTTAGCTGGTGGAATGAAAGCTTGGAGTGAATATGTGAAGCCGTTAAAAGTAGGGGATGTACAGGGCGGAGGGAGTATATATCAATTTAATCGTCTTGGAAAAGGCTGTTTATCTTATATGGTTGTTTCTAACGGTGAAGCAGCAGTTATTGATGCGGTAAGGACAGCCGAGGCATATGAAGAGTTTGCGAAAGAGCATGGCGTTACGATTACGAATGTAATGGATACACATTTACATGCAGACCATATTTCTGGTGGACGTAAGTTAGCTGAAAAGGTAGGTGGTACGTATTGGTTACCGCCAAAAGATGCCGAGGAAGTTGTTTTCTCATACGAACCGCTTGTTGAAGGATCTGTTATTACGGTGGGGGGTACTAAAATTGTAATTGACGCATTATACTCACCAGGGCATACGATTGGAAGTACGTCATTCATTGTTGATGATTCTTATTTATTATCAGGCGATATTTTATTTGTAGATTCAATCGGGCGTCCTGATCTTGCTGGTAAGGCTGAAGATTGGGTGAGTGATTTAAGAAATACGTTATATACACTTTATAAGGAACTGTCTCAAGATTTAATTGTTTTACCAGCCCATTATTCAAAAATAAGTGAAATGGATGAAAGAGGCGTTGTGAGTGCGAGCTTACAAGATTTATTTAAAGAGAATGTAGGGTTAAATATTGCTGATGAAATAGAGTTTCGTAAAGCTGTGACAGAGAACTTACCGCCACAACCAAATGCATATGAAGAAATTCGTCAAACGAATATGGGGAAAATTCATCCGAGTGTGGAAGAAGAGCGAGAAATGGAGATTGGCCCAAATCGTTGTGCAGTGCATGAGTCATTATAA	MDIKMLQAKDVAEKVLFGELFILDVRNETDYEDWKIEGKQVSSINKPYFDLLDGVDHIVSELPKDKDVLVVCAKEGSSIFVAEQLTEAGLQNIYYLAGGMKAWSEYVKPLKVGDVQGGGSIYQFNRLGKGCLSYMVVSNGEAAVIDAVRTAEAYEEFAKEHGVTITNVMDTHLHADHISGGRKLAEKVGGTYWLPPKDAEEVVFSYEPLVEGSVITVGGTKIVIDALYSPGHTIGSTSFIVDDSYLLSGDILFVDSIGRPDLAGKAEDWVSDLRNTLYTLYKELSQDLIVLPAHYSKISEMDERGVVSASLQDLFKENVGLNIADEIEFRKAVTENLPPQPNAYEEIRQTNMGKIHPSVEEEREMEIGPNRCAVHESL				NA	NA	NA	NA	NA
AK009_05415	561	tusA_2		Sulfur carrier protein TusA	ATGAGTATAAAAGTGGATATGAGTTTAGATTGTAAAGGTTTGGCTTGTCCGATGCCTATTGTGAAAACGAAGAAGGCGATAGAAGGGTTAACACCAGGGCAGGTGATTGAAGTTAAGGCAACAGATAAAGGATCTACGGTAGATATAAAAAGTTGGGCGAGTAAAGTAGGACATCAATATATCGGGACGAAACACGAGGGTGATGTATTGGTGCATTATGTTAGGAAAGCAAACGAGCATGAAGTGAATGAAGCTGTGAAATATCCACATACAATTACGAATGCAGAATTACAGTCTATATTGTCTCATGGGGAAGAGAGCATTGTATTAGATGTTCGCGAAGCAGCGGAATTTACTTTTGGCCATATTCCATCTGCCATTTCGGTGCCATTAGGTGAATTAGACAGCGCAGTGTTAGATCAGACGAAGCAAATTTATGTTATTTGTCGAACTGGTAACCGCAGTGATGTAGCTTGCCAAATGTTGAAAGAGAAAGGTTTTTCAAATGTGAAAAATGTCATTCCTGGTATGTTAGGGTGGCAAGGAAATGTGGAGAAATAA	MSIKVDMSLDCKGLACPMPIVKTKKAIEGLTPGQVIEVKATDKGSTVDIKSWASKVGHQYIGTKHEGDVLVHYVRKANEHEVNEAVKYPHTITNAELQSILSHGEESIVLDVREAAEFTFGHIPSAISVPLGELDSAVLDQTKQIYVICRTGNRSDVACQMLKEKGFSNVKNVIPGMLGWQGNVEK				NA	NA	NA	NA	NA
AK009_05416	264	ricR_1	COG1937	Copper-sensing transcriptional repressor RicR	GTGGAATACAATCAAGATATGAAAAATAGATTGAAACGTATTGAAGGTCAAGTTCGTGGTGTGCTTCGTATGATGGAAGAAGGAAAAGATTGCCGAGAAGTTATTACACAGTTAACGGCATCTCGTTCTGCACTTGATCGTACAATTGGACTTGTTGTTGGAACGAATTTAGAGCATTGTTTACGTGAACAGTTTGAAAGTGGCAATGGTTCAAATGAAGAGTTAATTAAAGAAGCTGTTCAATTACTTGTAAAAAGCCGATAA	MEYNQDMKNRLKRIEGQVRGVLRMMEEGKDCREVITQLTASRSALDRTIGLVVGTNLEHCLREQFESGNGSNEELIKEAVQLLVKSR	PGPT0004175_702	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK009_05417	390			hypothetical protein	ATGTGTTTAATAATATTAAAAAATGGCCTGAATAAATATAGTAATTCTATTTGGATTTTGTATTGTATATTGGTCATAATCATGATGTCTAGTTATATAGTAAATAACGAAGAGAATGTTAGTAAAGTTGTTAATCCTATAACTTTCTATGTTCAAAATAAAGAGAAACAACAGATAAAAGACTTTGAAATTATGCTTATAAAAGATGAATTACCTCAGCCTAGTAAAGAAATCGTGATTTCGATAGGGAAAACTAATCAAGAAGGAAAATTGATTTGGAAGATTCCTAGAAAAGGAAAGTATATAATTTTATTGCCGAATAATGAGAAAAAAGAGATTGTGATTAATGATAGAAATGTAGCTAAATTAATAATGATTAACGTAAATTAA	MCLIILKNGLNKYSNSIWILYCILVIIMMSSYIVNNEENVSKVVNPITFYVQNKEKQQIKDFEIMLIKDELPQPSKEIVISIGKTNQEGKLIWKIPRKGKYIILLPNNEKKEIVINDRNVAKLIMINVN				NA	NA	NA	NA	NA
AK009_05418	528	mpr	COG3591	Extracellular metalloprotease	GTGCTTACAGCTGGACATTGTATTTACAATAAAGAAATTGGTGGATGGGCGACAAATGTTATTGTGACCCCTGGTAGAAATGGAAACCAAGCACCGTATTTACCTTATAGTTGGACAAAACTCTATTCAGTAAGTGGATGGACTGATAATGAAAATTCAGATTATGATTATGGAACGATTAAATTAAATGGGTCTCCAGGAGATTATATTGGCTGGTTGGGATATAGAACTACCTATGTAGAATCACCAAAAGGTTTACTTGCGGCGATTCCTGGATATCCCGCTGATAAAATAGGAAATGAACGTTACACAATGTGGAGAGACTATGGTCCAATTGAGGGAGTTTCTCCTAGAATGTTAACATACAAGATTGATACTTATGAGGGGCAAAGTGGATCACCTGTATATCAGTATTTCGATACCGGTATCAAAATAATAGCCATTCATACAAGAGGAAATAAAAATATGAATTTGGGAAATCGGATAACAGACGATGTGTTTAATAATATTAAAAAATGGCCTGAATAA	MLTAGHCIYNKEIGGWATNVIVTPGRNGNQAPYLPYSWTKLYSVSGWTDNENSDYDYGTIKLNGSPGDYIGWLGYRTTYVESPKGLLAAIPGYPADKIGNERYTMWRDYGPIEGVSPRMLTYKIDTYEGQSGSPVYQYFDTGIKIIAIHTRGNKNMNLGNRITDDVFNNIKKWPE				NA	NA	NA	NA	NA
AK009_05419	390			hypothetical protein	ATGTTGGATAGCTTTATTTCTATAAGATGCAGGTTGGCTCTTTATCGTTTTGGTGTTCTTTTTATATTTTTTTGCATAGTATTTTTGGTGCATCAGAAGGTGTATGCAGAAGATGTACCGTGGACATCGGTCTCAAATGAGGGAGAACGTGAACTGTTTCAAGAACAATCATTGTATAGTAATGATCGAAGGGGAGAAGATCTTGTTTCGCCCTCATTTGAAGGGCGAAAACATGGTGGGGAAGATTGGGGAGCATATTTGGAAAATAGTACGTTAAATTATTCACCTAATATTCTTACCTATTCTGTTATAGGAAGCGATGATCGAATACGGGTTAATGATACAAATTCATATCCGTATAGCGCTATAGTCCATGTTGCGACTCAGTAA	MLDSFISIRCRLALYRFGVLFIFFCIVFLVHQKVYAEDVPWTSVSNEGERELFQEQSLYSNDRRGEDLVSPSFEGRKHGGEDWGAYLENSTLNYSPNILTYSVIGSDDRIRVNDTNSYPYSAIVHVATQ				NA	NA	NA	NA	NA
AK009_05420	1272			hypothetical protein	ATGAGCAAAATAGGGGTATGCAAGGTAGATATTACGCCGCCTGTCGGTATTGATTTTGTTGGATACCATAGAGAGACAGGAATAAATAATATTGAAGAGCATATTTATGGGACAGTTTTTGTATTTGAAAAAGATGAAATGAAAACTGTGTTTATAAGCATTGATAATATTGGGATGTTAGTAGAAGATACGAATATTATTCGTGAGCGCGTAGCTAGCAGGCTTCATGTGCCATTTGAGCGAATAACAGTTGTTTATACACATACACATTCTGGTCCGGAAACTGTTGGTGAGCAAGCTTTAGTAAAGTCGTATAAAACGAGTTTAGTAAATAATGTAGTGCACGGTGCTGTTACTGCAAATAATAACTTGGGGCTATGTGAAGTTGGCTGGAGTGTTACGACAGGTGATATTGGGATAAACCGAAGAGAGAGAACATCTGATGGAAGAGCAAAGATGGGAACAAATATAGAGGGTGTTGTAGATAAGCGAATTGGCATGTTAGCAATAAGAAATGCTGAAACGAAGGAGCTATCTGGGATTATTGTATTTTGTACTGCGCATCCGAATGTTTTAAAAGGTGATAGCGATGTATTATCAGCGGATTATCCTGGAATGACGAGGGAGATTCTTGAGAAAATCGTAAATTGCCCTGTTATTATTGTGCAAGGAGCTGCTGGTAATGTAAATGCGAAGTATCGCGGTTCAAGGGAAGCAGTAAAGCAAATGGCTTACACACTTAGTGGACATGTATTAACAATATTGCCAATAGTTACATATAGCCCAATTGTAAATTTAAGAACAGTTTCGAGTATGATGCAAATGAAGTTGAAAGATATTCCTGAAATGAATGAGATACGAAGCATGGCTCAATTGGCGGAGAAGCAGTGGGGTGTGAACACGGACGAGTGGCTTACTATCGTTTTAGAGAAATATAAGCAAGGTATTCGGCAGTTACGTATTGATTTAGAAGTTCAACTGTTTCAAGTTAATGATGGAATGTTCTTTGGTATACCGATGGAACCTTTTTCAGAAACCGCGTTAGAAGTGAAAGAGAGTCTTCAAAATGAAATAGCCTTTCTTGGTGGATATACGAATGGATATATTGGTTATTTACCGACAAGGGAAGAGTTTACATATGGTGGATATGAAGTAGAATTAAATCCTGTTGTATATGGGCCTGTTACGAATTTATTGATGCCACCGGAGAAAAATACTGCGGAGCTGATTGTGAAGAAGGTTACGGGCTTATGTAATAAAGTGAAGCTTTAA	MSKIGVCKVDITPPVGIDFVGYHRETGINNIEEHIYGTVFVFEKDEMKTVFISIDNIGMLVEDTNIIRERVASRLHVPFERITVVYTHTHSGPETVGEQALVKSYKTSLVNNVVHGAVTANNNLGLCEVGWSVTTGDIGINRRERTSDGRAKMGTNIEGVVDKRIGMLAIRNAETKELSGIIVFCTAHPNVLKGDSDVLSADYPGMTREILEKIVNCPVIIVQGAAGNVNAKYRGSREAVKQMAYTLSGHVLTILPIVTYSPIVNLRTVSSMMQMKLKDIPEMNEIRSMAQLAEKQWGVNTDEWLTIVLEKYKQGIRQLRIDLEVQLFQVNDGMFFGIPMEPFSETALEVKESLQNEIAFLGGYTNGYIGYLPTREEFTYGGYEVELNPVVYGPVTNLLMPPEKNTAELIVKKVTGLCNKVKL				NA	NA	NA	NA	NA
AK009_05421	1416			hypothetical protein	ATGAGAGCAAGTGACGATAAAGCACTGCAATATGCGATTGCGGAAATTACGGAAATTGCGACGGGATTTGGGCTTGATTTTTATCCGATGCGTTATGAAATATGTCCAGCGGAAATTATTTATACATTTGGTGCATATGGGATGCCAACGCGGTTTTCACATTGGAGTTTTGGAAAACAGTTTTTCAGAATGAAATTACAATACGATTTAGGTCTTAGTAAAATATACGAACTCGTTATTAACTCTGATCCATGTTACGCCTTTTTATTAGATACGAACTCGTTAATTCAAAACAAATTAATTGTAGCGCACGTTTTAGCACACTGTGACTTCTTCAAAAATAATATTCGTTTTTCAAATACGAAGCGAGATATGGTAGAAAGTATGGCGGCAACAGCGGACCGTGTGAAAGCGTATGAGCATAAGTACGGAAAAGCAGAGGTAGAAACATTTTTAGATGCCGTACTTGCCATTCAAGAGCATATTGACCCATCGATTATGCGTCCAAAACTTGCGTGGAGTATTGAAGATTTAGAAGAGGATGTAGAAAAGAAAAAGATATCACAGTACGATGACTTATGGAATTTAGATGATCGAAACAAAAAGAGAGAACGACCTAATATGCATAAAAAGAAGAAAATTCCGCCGCAACCAGAGAAAGATTTACTCCTCTTCATTGAAGAATATAGCCGTGAGCTAGAAGATTGGCAGCGAGATATATTAACGATGATGCGTGAGGAAATGCTATATTTCTGGCCGCAGCTTGAAACAAAAATTATGAATGAAGGCTGGGCATCATACTGGCATCAACGCATACTCCGTGAAATGGACTTAACATCTTCTGAAGCGATTGAATTCGCAAAGCTTAATGCAGGTGTAGTTCAACCATCAAAAACAAGTATTAACCCATACTACCTAGGTATTAAAATGTTTGAAGATATAGAGGAGCGCTACAATAACCCGACAGAAGAAATGAAACGACGCGGTGTAAAACCAGGATCTGGCCGTGACAAAATCTTTGAAGTACGCGAAATCGAATGGGATGTATCATTCTTAAGGAACTACTTAAACAAAGATCTCGTAATGAGAGAAGATATGTACTTATTCCAACGCCAAGGAAAAGAATATAAAGTAATAGATAAAGAGTGGGAACATGTACGTGATCAGCTCGTAAATATGCGTACAAATGGTGGCTTCCCGTACTTAGTAGTAGAAGATGGTGACTACTTAAAGAACGGAGAGTTGTACATTAAACATAGTTACGAAGGAATTGAGCTCGATTTAAAATACTTAGAAAAAGTACTGCCATACATTCATCAGTTATGGGGAAGAACGGTGCATATGGAGTCGATTGTGGAAAGTAAGGGCGTTGTGTTTTCTTATGATGGGAAGATGGTGCATCGGAAGTATGTGTGA	MRASDDKALQYAIAEITEIATGFGLDFYPMRYEICPAEIIYTFGAYGMPTRFSHWSFGKQFFRMKLQYDLGLSKIYELVINSDPCYAFLLDTNSLIQNKLIVAHVLAHCDFFKNNIRFSNTKRDMVESMAATADRVKAYEHKYGKAEVETFLDAVLAIQEHIDPSIMRPKLAWSIEDLEEDVEKKKISQYDDLWNLDDRNKKRERPNMHKKKKIPPQPEKDLLLFIEEYSRELEDWQRDILTMMREEMLYFWPQLETKIMNEGWASYWHQRILREMDLTSSEAIEFAKLNAGVVQPSKTSINPYYLGIKMFEDIEERYNNPTEEMKRRGVKPGSGRDKIFEVREIEWDVSFLRNYLNKDLVMREDMYLFQRQGKEYKVIDKEWEHVRDQLVNMRTNGGFPYLVVEDGDYLKNGELYIKHSYEGIELDLKYLEKVLPYIHQLWGRTVHMESIVESKGVVFSYDGKMVHRKYV	PGPT0024845_870	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
AK009_05422	561	ydjA	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGACTACATATACTTCCATCGCTAATGTGATTAAAGAAAGGCGCTCTGTTCGTACATTTACAGACAAAGCGGTAGATAAAGAGTTATTAATTGAACTATTAAACGACGCAACGTGGGCACCGAATCATAAATATCGTGAACCATGGAATTGTAAATTATACATTGGAGAAGGCCGCAAAAAATTAGTAGATGCAGTATTAAACTCTTTCACAGAAGAAGAAAGAGCAAAGCGCGGTAAAATTTTATCAGATCGTTTCTTAAGCACGCCTGCACAAATCGTTGTATATATAAATGAAGATCCGCGTCAAATTCAGCGTGACGAAGATTACGCTGCAACATGTGCATTTATGCAAAACTTCCAGCTTCTTGCTTGGGAACGCGGATTAGGTTGCGTTTGGAAATCAGGCGGATTGAACTACAATCCATTATTTATAGAAGGAATCGGTTTAACAAGAGGACAACGTATCGTTGGAATTCTTCATATCGGCTATTTCGATAAAGCGCCAGAAGGAAAAGCTCGTACTCCGATTACGGAGAAGATGGAGATTATTGAAGGTTAA	MTTYTSIANVIKERRSVRTFTDKAVDKELLIELLNDATWAPNHKYREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYINEDPRQIQRDEDYAATCAFMQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKMEIIEG				NA	NA	NA	NA	NA
AK009_05423	597			hypothetical protein	ATGTACAAAAAAATCGCAGTAAGTATGACTATGGCAGCATTATTATGCGGGATATCCACCTTCCCTACGTCCGCTGCCACGCCAAAAGAAGTAACAATGCATCATCATAAACCAATTTCAGAAGAAGAAATGCAATCGCTAGAAAAACTTGGCTATAACAAACATGAAATTTGGAGAGCTGCTCACATTGCAAGAATCAGTAAACAAGAAATAAAAGATGTTTTATCTTACTATAAGCAAAATAAATCTTGGGAGAAAACAGCCGAGCATTTCGGTGTAGATCCAAGTAAGCTGAAAAAGCATCATATGAATAAAGAAACAAAGCAAGCACTGCTACAACAGTTAGCAACTATGCAAAAATCCACACCGGATCAGCTAAAGCAAAAAATGAAAGAATATAACATCAAATTGCGTCATCTTACTGTGTTAACAATCATCTCTCAAAAAAGCAATACCCCTCTTGATGATGTATTAAAAATGAAAAAAGATGGAATGGACATTAAACAAATTGCCGAAAAATTAAATGTAAAAAGAGAAGATATACGAGCGGAAATGATGAAATTAGTGAAGTCTATTAAAGAACAAAAAACAAATTAA	MYKKIAVSMTMAALLCGISTFPTSAATPKEVTMHHHKPISEEEMQSLEKLGYNKHEIWRAAHIARISKQEIKDVLSYYKQNKSWEKTAEHFGVDPSKLKKHHMNKETKQALLQQLATMQKSTPDQLKQKMKEYNIKLRHLTVLTIISQKSNTPLDDVLKMKKDGMDIKQIAEKLNVKREDIRAEMMKLVKSIKEQKTN				NA	NA	NA	NA	NA
AK009_05424	1518	gerBA_5		Spore germination protein B1	ATGTTCGGTTTATCATCTAAGAAATCAAAAAAGACTAATACAAAAACACTTTGTTCTATCCCAGAATTTATACAAACCATGAAAGAATCAAGCGATTTTGTTTCTTATAACGTACTTGAAGATGAAACGTTATGCTTGTTTTATTATAAATCTGTCGTGGAAGCACTTATTATTAAACAATTTATTTTAACTCCTCTAAAAAAAGAATCGGAACAAATTCAAAATATCTCTGATTTATGTAATATCGTCTCTATTGAAGATATTATTACCTCCCCTTCTATTGATGATATTCGTGAGAAATTATTAGGTGGATATATTTTAATACGCTTAAAAAACAATTCGAATCCCGATCAATATGCTTTAATTCGTGCTGAAAGTACTGTTTTAGGAACACGATTATATAACGATACAGAAAATGAGTATAGCGTAATCGGGCCTAAAATCGGTTTTGTTGAAAACCTTGATACAAATATACACTTATTACGCCGAAATATTGTAACGGAGCAACTCATTTTTAAAGAAGTTACCGTCGGATCTATATCAAAAACGAAAGTAGCAGTTGCTTATATAGAAGGAGTTACAAATGAACAATTTATCAACACCGCAATACAACGGCTAGAAGACATTGACTTTGATGTCCCATTTGATTCAACTATGATTGAGCAATTTATTAGTGATAATAGCAATTCACCTTTTCCTGTTCTATTACCTACAGAACGATTAGATCGAGCTGTATTTGCGTTAATTAACGGGGAAGTTTTGATTTTAACAGATGGCTCTCCATATGCTTTATCAGGACCAACAACGTTACTGGATTTTTTCATTTCACCAGAAGATTATTATTTACCGTGGATGATTGGATCGTTCTTTCGTATTATTCGTTTTTTTGGGGCTATATTTTCTCTTTTTTCCTCCGCTATTTATACAGCGGCTTTAACATATCATTATCAAATGATTCCTGCCGATTTACTAGGTCCTATTATTTTCTCGAGAGCTAACGTACCTTTCCCTCCTATTCTAGAAGCACTCTTTTTAGAAATTACAATCGAATTGCTTCGTGAAGCAGGAGCACGTTTACCAACGAAAGTCGGACAAACGATTGGGATTGTTGGGGGGATTGTAATTGGCCAAGCATCCGTGGAGGCGGCTTTGACAAGTACAATTTTATTAATTGCAGTCGCTTTATCCGCTCTTGCATCTTTCACAACACCAACCGTAAAGATGTCTTCTACTATCCGGTTATTACGCTTTCCACTTATTCTTTTAGCCGGTGCATTCGGAGGATTAGGCCTTATTGTCGGATTTGTATTCATTTTAGCTCATTTAATTAAATTAAAATCACTTGGATCACCTTATTTATTACCTTTATATCCATTTCGTGGTTTAGGTACAGCAGAAGGTTTTCTTCGATTACCATTTAGTCAAACGGCTCAAAGACCTTCTTTTCTTAGACCAAAATCAAAATGGCGCTATAATCCAAACAAAGCGAAGCAAAAACGTGATGGTGAGAATGAATGA	MFGLSSKKSKKTNTKTLCSIPEFIQTMKESSDFVSYNVLEDETLCLFYYKSVVEALIIKQFILTPLKKESEQIQNISDLCNIVSIEDIITSPSIDDIREKLLGGYILIRLKNNSNPDQYALIRAESTVLGTRLYNDTENEYSVIGPKIGFVENLDTNIHLLRRNIVTEQLIFKEVTVGSISKTKVAVAYIEGVTNEQFINTAIQRLEDIDFDVPFDSTMIEQFISDNSNSPFPVLLPTERLDRAVFALINGEVLILTDGSPYALSGPTTLLDFFISPEDYYLPWMIGSFFRIIRFFGAIFSLFSSAIYTAALTYHYQMIPADLLGPIIFSRANVPFPPILEALFLEITIELLREAGARLPTKVGQTIGIVGGIVIGQASVEAALTSTILLIAVALSALASFTTPTVKMSSTIRLLRFPLILLAGAFGGLGLIVGFVFILAHLIKLKSLGSPYLLPLYPFRGLGTAEGFLRLPFSQTAQRPSFLRPKSKWRYNPNKAKQKRDGENE	PGPT0025050_613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK009_05425	1083			hypothetical protein	ATGAAAAAAATTTTATTGCACCTTATCATTATCTTCTTCATTTTACAAACTGGCTGTACACAAACCTATATAGTGGATACACAGCGTATTATTCATATTGCTGGATTTGACATCACAAAAAACAAAAGATTCCAAGGAACTATCTTATTCCCTGAATACACACATGGTGTAAAGTCTAAGCCAGAGACGCAATCAACATCTGCTCGTTCCCTTGAAACAATCGCTTCACGATTAAATGCGAAATCTCCTCACAATGTCGTTGTAGGTCAAATGCGTGTCGTCCTATTTGGAAAAACGCTAGGAGAACGCGGAATGGGAGAAATTATTACTAACTTACAACGTGACCCAAATATCGGGCGTGATGTACAACTAGCAATTGTAGATGGATCGGCTGAAGAGCTTTTAAATTACGGAAAAAAAAATGGGTCTTTATATATTGCCGATTTACTCGAGCAAAATATACGAAATGAGAACATTCCACAAACCACATTAAACATTTTTTTATATAATTATTACTCTTCTGTATGTGATGCCTATGTTCCTTATATTAAAATGGACGATAATCATTCTATCGCTGTCAAAGGACTTGCCTTTTTAAAAGGCGATAAAGTAGTCATGTATACAGATAAAAGACATTCTGTTTTAGCAAAATTACTTATTAATCCTACGAAAAATGGACGTTACGAAGCAGCAATAAAAAAAGATAAGCATAAAGGTATGGTTGTTATACAAAACTTAGCTGGAGAAAACAAGTATGATATAGATCAAACTGGCGACATACCAAAAGTAAAAATCCATTTAAAATTAAATGGATTAATTAAAAACTCCCCCAATTGGATTGATTTAAGAAAAAAAACAAATATCAACTATATAAGAAAACAAATTGAACGAAATGTTGAAAAAGACTGCGAAGATTTAATAAAACAATTTCAAGAAAAGGAAATTGATCCTTTAGGAATACGAGATGAAATTAGAAGCCATACGAGAAAATGGAATATAAAACAAATTCGAAATATGTATAAAAATGTAGCAGTAGATATAAATTTAGATCTTAATATTGTACAATCTGGAATCGGTGAATAG	MKKILLHLIIIFFILQTGCTQTYIVDTQRIIHIAGFDITKNKRFQGTILFPEYTHGVKSKPETQSTSARSLETIASRLNAKSPHNVVVGQMRVVLFGKTLGERGMGEIITNLQRDPNIGRDVQLAIVDGSAEELLNYGKKNGSLYIADLLEQNIRNENIPQTTLNIFLYNYYSSVCDAYVPYIKMDDNHSIAVKGLAFLKGDKVVMYTDKRHSVLAKLLINPTKNGRYEAAIKKDKHKGMVVIQNLAGENKYDIDQTGDIPKVKIHLKLNGLIKNSPNWIDLRKKTNINYIRKQIERNVEKDCEDLIKQFQEKEIDPLGIRDEIRSHTRKWNIKQIRNMYKNVAVDINLDLNIVQSGIGE	PGPT0025040_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK009_05426	1101	yndE_6		Spore germination protein YndE	ATGAATACATCAAAAACTGTCTCTCCATATTTTGCATTTATTTTATTGCATTCTCTCCAGATTGGTATAGGAATTCTCGGATATCAACGTGTAATTTTAAAAAACGCTGGTTATGATGCCTGGATTTCTCTTATTATTGCGGGAATTGCAACTCATATTGTACTGGTTTGTATGTTAAAAATGCTTGAAAAAGACGGAGATTTAATTAGCATTCATACAACAACCTTTGGAAAATGGATTGGCTCTATATTTTCTGTAATTTTCACTCTTTATTGCTTATTATTTTGCCTTACTGTTCTTCGTACATATATGGAAGTGATACAAGTTTGGATTTTCCCTACCATTAAGTTATGGAAACTTACCCTTATGTTTTTATTAGTCACTTACTACATTATAAAAGGCGGCTTCCGCTCTGTGACAGGGATATGCTTTTGGGGTATTGTGCTTCCTATTTTCGTGATATTTTTTTTAATTTATCCAATGAAGTATGCACATTTCCGTAATATTTTACCTATTTTTACGCATTCACCTTTTGACATGCTTATATCTGCAAAGCACTCCGCATTGGAATTTCTGGGGTTTGAAACAATTCTTATCTTTTATCCCTTTATTGAAAAAGGAAAATCTTTAAAACGATGGGCCCATGCTGGAATTGCTTTTAGCACCTTAATTTATGTAGTTTTAGCTATCGTATCCTTTATGTATTATAGTGAGGGTCAATTAAACCGTACTATTTGGCCTACTTTAACAATGTTAAAAATAATTAAAGTTCCTTTTATTCAGCGTTTTGAATATATTATTATTTTCGTTTGGTTTTTAATTATTTTACCAAACCTTTGCTTAACCATTTGGTCATCATGTCAAACGATGAAGCGTTCCTTTCATATTTCATTTAAATTTACATTACCGTTTTTTATTTTCATCATATTTTCAGCTTCTCTGCTTTTCACAAACCGTGAAAGTATCAATACATTAAATACCGTACTATCTCAAGCGGGTTTATATATTGTATACGCTTATATCCCAATTTTATTTCTATTTCATTCGCTAAGATGGCGTTTCAAAAATCAGTCGAAAAAATCTTCACCCGACACTCCATAA	MNTSKTVSPYFAFILLHSLQIGIGILGYQRVILKNAGYDAWISLIIAGIATHIVLVCMLKMLEKDGDLISIHTTTFGKWIGSIFSVIFTLYCLLFCLTVLRTYMEVIQVWIFPTIKLWKLTLMFLLVTYYIIKGGFRSVTGICFWGIVLPIFVIFFLIYPMKYAHFRNILPIFTHSPFDMLISAKHSALEFLGFETILIFYPFIEKGKSLKRWAHAGIAFSTLIYVVLAIVSFMYYSEGQLNRTIWPTLTMLKIIKVPFIQRFEYIIIFVWFLIILPNLCLTIWSSCQTMKRSFHISFKFTLPFFIFIIFSASLLFTNRESINTLNTVLSQAGLYIVYAYIPILFLFHSLRWRFKNQSKKSSPDTP	PGPT0025015_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025015-gerAB-K06289	NA	NA
AK009_05427	513			hypothetical protein	ATGAAAAAGTATGTATTTTCTTTACTTGCAGTACTAAGCTTAATTCTTGCTGGATGCGGAAGTACTGGTACAAATGACCAAAAATCTTCTGAATCAAAAAAAGAAGAACATGACCATGCATCCCACACTCAACAAGCTGACATTCAAGAGAAAACAAAAGGAGTCGACACACTTCCGACCTTCCTAGATAAGCTTGATCCACAAATGAAAGATATTTACACCGTCGCTGGGCAAAATGCAGAGCTATTAGATTGGATTCCATGCTATTGTGGTTGCGGTGAAAGTGTAGGACATAAAAATAATAAAAACTGCTTTATTCGTGAAATTAAAAAGAATGGTGAAGTTGTTTGGGATTCCCACGCAACGACTTGCGTCAATTGCCTAGAAATCGCAGTTGAATCTGCTTCCATGAAACAAAAAGGAAAATCAACGCTTGAAATTCGTAACTATATCGATAATAAATACAAAGAAGGCTATGGCAAACCAACACCTACGCCAATGCCAAAAGCTTAA	MKKYVFSLLAVLSLILAGCGSTGTNDQKSSESKKEEHDHASHTQQADIQEKTKGVDTLPTFLDKLDPQMKDIYTVAGQNAELLDWIPCYCGCGESVGHKNNKNCFIREIKKNGEVVWDSHATTCVNCLEIAVESASMKQKGKSTLEIRNYIDNKYKEGYGKPTPTPMPKA				NA	NA	NA	NA	NA
AK009_05428	249			hypothetical protein	GTGCAAACATATAACGACTATGATAAAGCTCTCTATTACACGTATTGCTGTAATTGGGATAAATTACTCGTTCTCATGGTTCAAACGAACGATCAATTATTTTCTAAGCGTATTGAGCATTTTTTACACGCTTATCAATACAGCAAAGAACTACCAGAAGTTGATAAACAACTGCAGCTCCTATTTCAATATATTGACCATGCATCCCAAAAGTCGCATGTAGAAGAAGTAGAGCAAATTCAAATGTAA	MQTYNDYDKALYYTYCCNWDKLLVLMVQTNDQLFSKRIEHFLHAYQYSKELPEVDKQLQLLFQYIDHASQKSHVEEVEQIQM	PGPT0025040_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK009_05429	420	bdbC_2	COG1495	Disulfide bond formation protein C	ATGGGACGAGAAAAAAAGCAAGAATATGCTTTACTTACCGCATGGGGAGCTTCTTTTATCGCTACACTAGGAAGTCTGTACTTTTCCGAAATCATGAAATTTGAGCCTTGTGTCCTTTGTTGGTATCAACGCATTTTTATGTATCCATTCGTTTTATGGCTTGGTATTGCTGTAGCAAAGAAAGACTATCGCATCGCAAGTTATTCTTTACCAATCGCAACTATTGGCGCTTGTATTTCTTTATATCACTATGCAATTCAAAAAGTCGCAGCATTTTCAGCAGCTGGGGCAGCTTGTGGACGTGTACCATGTACGGGAGAATACATAAACTGGTTCGGCTTTGTGACAATCCCGTTTTTAGCACTTATCGGCTTTATTACAATCGCTGTTTGTAGCTTTATTGTCATCAAAAACAAATAA	MGREKKQEYALLTAWGASFIATLGSLYFSEIMKFEPCVLCWYQRIFMYPFVLWLGIAVAKKDYRIASYSLPIATIGACISLYHYAIQKVAAFSAAGAACGRVPCTGEYINWFGFVTIPFLALIGFITIAVCSFIVIKNK				NA	NA	NA	NA	NA
AK009_05430	453			hypothetical protein	ATGAAAAAAATGCTTATATTTGGTGGTATTATTATCGCCTTGTTCGTGGCAATTTTTGCAGTAACACAAATGGAAGAAAAAAATGCTACTAGCCAAAAAATTGATAATCCTACTGAAAGTAAGACAAACGGTTCTGACTACTACACAAATAAAATCTCTCTTTCAGATCTTCAAAAGAACTTAAAAGAGAAAAAAGAAGAAACAGTATACTTTTATCAAACATCTTGCGTTCATTGCCAAAAATTATCTCCTGTCGTAGTGCCGATGGCTAAAGACTTGAACGTTGATATGAAAGTTATGGATATTGAAAAATTAGATGCTCCTTGGGATGAATATAAAATTCAAGGTACACCAACAATCATTCATTTTAAAGATGGCAAAGAAGTAAGCCGTATTAGCGGTGAACAGCCAAAAGACAAATTAAAAGAATGGCTTGAGCAAACGAAAAAGTAA	MKKMLIFGGIIIALFVAIFAVTQMEEKNATSQKIDNPTESKTNGSDYYTNKISLSDLQKNLKEKKEETVYFYQTSCVHCQKLSPVVVPMAKDLNVDMKVMDIEKLDAPWDEYKIQGTPTIIHFKDGKEVSRISGEQPKDKLKEWLEQTKK				NA	NA	NA	NA	NA
AK009_05431	216			hypothetical protein	ATGCCAGAAGTAAGATGTTCTGTTTCCAACTGTTCTTTTTGGGGACAAGGTAACTTTTGTCAAGCAAGTGCGATCGTCGTTCAGCCTGATGCAGATGAAACTGGTCAAACTGAAAATGATTCATATACAGCTGCTGTTTTAACAAACGAGACGCTAGAAAGTTCTGTAGCAACGAGTGTAGAGACTTGTTGTCATACATTTAAGCCTAAATATTAA	MPEVRCSVSNCSFWGQGNFCQASAIVVQPDADETGQTENDSYTAAVLTNETLESSVATSVETCCHTFKPKY				NA	NA	NA	NA	NA
AK009_05432	252			hypothetical protein	ATGAAAAGTGAATTTGCGTTTAAAGTTTTCTTAGTAACGACCTGTTTATTTATCGTGTATTTATATGCGTTTCTCGTCTTTTCTTTTTATGTTCCATATGTTGATTTAATATTATTCTTCGGATTTATTTGGGCGTTTGTGAAAGCGAGGGAAGGAGAGAAGAGTATATATCGGCGCATTACCCTATGCGGGACGGCCGTTCTCGTTATTTTATATTTTTTTATTATGCATGATTTTTGGAGAGGGATGTAA	MKSEFAFKVFLVTTCLFIVYLYAFLVFSFYVPYVDLILFFGFIWAFVKAREGEKSIYRRITLCGTAVLVILYFFIMHDFWRGM				NA	NA	NA	NA	NA
AK009_05433	762			hypothetical protein	GTGAAAAGGGTATGTTTCGTTTTACTATTATTTTTCTTCCTACCGGTTAGTGCTTTTGCTGATACAGATCATTTAATATTAGTGAATCTTACCACAAACCAGTTGTCTTTTTTTGAGAATGGAAATTACACAAAAACATTTCCAGTAACGACTGGAAGAGATCGTACACCTACGCCTGAAGGTAATTTTTGTATTATAACTAAATTTAAAAATAAAGAATACCATCGAAAAAAAATAGCTGGGGGTGCACCGAATAACCCTCTTGGTACGAGATGGCTTGGGCTAGATAAGAATGAATATGCGATTCACGGGACAAATCGGGAATGGACGATTGGAAGTAGGGAATCAAATGGCTGTATTCGCATGCATGACAGGGATATACAATGGTTATATGACCGAGTACAATTACAAACAAAAGTAATCATTTCTCGTTTTCATACGAGCCCCGAATATGAAGCGAATAAGCTTGGTTATCGCGTTGTGAGCTGGAATGGACGAAAAATAGAAGAAGAACAAATTGGAGTACTTACGTTAGTAGACCGCGCAGATATATATTGGCAAGAACCAAATGGACAGTTAACGAAAGTGAAAACGGTATTGCCGAACGAAAGATATCCAGTGTACTCAAAGCGAAAAGATGGAATATATTATATAGGAAACAATTCGTATATTATAGATGAAACAGGAGAGAAAATTCGTTACGAGCAAATTCCTTCTTCGATCTTAAGTAATATATATAAACGGAAATACAATGTTCCGTAA	MKRVCFVLLLFFFLPVSAFADTDHLILVNLTTNQLSFFENGNYTKTFPVTTGRDRTPTPEGNFCIITKFKNKEYHRKKIAGGAPNNPLGTRWLGLDKNEYAIHGTNREWTIGSRESNGCIRMHDRDIQWLYDRVQLQTKVIISRFHTSPEYEANKLGYRVVSWNGRKIEEEQIGVLTLVDRADIYWQEPNGQLTKVKTVLPNERYPVYSKRKDGIYYIGNNSYIIDETGEKIRYEQIPSSILSNIYKRKYNVP				NA	NA	NA	NA	NA
AK009_05434	867	ydaD_2		General stress protein 39	ATGCCACAGCAAAAAAACTTTGTAACAATGCCAGCGCAACATCAAAATAAACAGCCTGGTATTGAATCATTAATGAATCCACTTCCGCAGTTTGAAGATTCAAATTATAAAGGTAGCGAAAAGTTAAAAGGAAAGAATGTATTAATTACAGGGGGAGATAGTGGGATTGGACGAGCTGTTTCCATCGCTTTTGCGAAAGAGGGAGCAAATATTGCGATTGCTTATTTAGATGAGGAAGAAGATGCAAATGAGACGAAACAACGTGTTGAAAAAGAAGGAGTAAAGTGTGTATTGTTGCCGGGTGATTTAAGTGATGAACAGCATTGTAAAGATGTTGTTCAAGAGACCGTCCAGCAGCTAGGTAGTTTACAGGTTTTAGTAAATAATGTCGCGCAGCAATATCCGCAGCAAGGACTAGAGTATATTACAGCAGAACAGCTAGAAAAGACTTTTCGTATTAATATTTTTTCTTATTTTCACGTTACGAAAGCAGTACTTTCTCATTTAAAACAAGGAGATGTCATTATAAATACGGCATCTATCGTTGCATATGAAGGAAATGAAACGTTAATTGATTATTCCGCAACAAAAGGAGCTATTGTTGCTTTTACAAGATCACTTTCTCAATCATTAGTACAAAAAGGAATTCGTGTAAATGGTGTTGCGCCGGGACCGATTTGGACACCGCTTATTCCATCGAGCTTTGATGAGAAGAAAGTCTCTCAGTTTGGGAGCAATGTCCCGATGCAAAGGCCTGGTCAACCATATGAGTTAGCGCCGGCATATGTATATTTAGCGTCTGGTGATTCTTCTTATGTTACGGGACAAATGATACATGTAAATGGGGGCGTTATTGTAAATGGATAG	MPQQKNFVTMPAQHQNKQPGIESLMNPLPQFEDSNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEEDANETKQRVEKEGVKCVLLPGDLSDEQHCKDVVQETVQQLGSLQVLVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAVLSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPMQRPGQPYELAPAYVYLASGDSSYVTGQMIHVNGGVIVNG	PGPT0014705_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK009_05435	1302	pbuO_2	COG2252	Guanine/hypoxanthine permease PbuO	ATGTTTAACCTTTCAAAACATAAAACTTCTATTAAAACTGAAATTATGGCAGGTATTATTACCTTCTTAACAATGGCATATATCATTGTCGTAAACCCTGTCATCCTTGGGGATGCAGGTGTTCCATTTGAACAAGCATTTACAGCAACAATTATCGCTGCTGTTGTCGGAACATTATTTATGGCGATCTTTACAAACTTACCAATCGCAATTGCACCAGGTATGGGATTAAATGCTTACTTCTCTTACTCTGTTGTAAAAGCGCATGAAGGCATGACTTTCGCAATTGCATTCTCTGCTGTATTCGTAGCAGGTATGATTTTAATTTTGCTATCATTTACATCTTTCCGTACAAAATTAATGGAAGCAATTCCTGAAAACTTAAAACATGCAATTACTGCTGGTATCGGGCTATTTATCGCCTTTATCGGTTTACGTTTAACAGGTATCGTTACAAAAAATGATGCAAACTTAGTTGGACTTGGTGATCTTCACTCTGCTCCAGTTCTACTAGCATTAGCTGGACTTGGAATTACTATTATCCTTATGTCTTTAAATGTAAATGGCGCACTATTTATCGGTATGCTATTAACTGGTATTATCGCTTTCTTCACAGGACAATTAACATTCTCAAACGGTGTTACATCAATGCCTGGATTACCAGAAGGAATTATCGTTTCAAATCCAATTACTGCTGTATCTGACGTAATTAACTACGGATTATACGGCGTTGTATTCTCATTCTTCCTTGTTACATTATTTGATACAACAGGTACATTACTTGGCGTTGCACAACAAGGTGGATTTATGAAAGACGGAAAGCTTCCAAAAGCAGGACGAGCTCTTCTATCTGACTCATTCTCAGCAACAATCGGTTCTATGTTCGGAACAACACCATCAACAGCTTACATTGAATCATCTGCTGGTGTTGCAGCTGGTGGTCGTACTGGTTTAACAACTGTTACAGTAGCTGTTTTATTCGCACTAGCAGCATTCTTCGGACCATTAGTAAGTGCCGTTTCTGGTGTATCAGCTATTACTGCACCATCATTAATTATCGTTGGTAGTCTTATGATGGGATCAGTTCGCCACATCGATTGGGACGCATTTGATGAAGCATTCCCAGCATTCTTAGTAATCTTAAGCATGCCACTTACATCAAGTATCGCAACAGGTATCGCTCTTGGATTTATTTCATACCCACTTATGAAAGTGGCAAAAGGTAAATTCCGTGCTGTTCACCCACTTGTATATGTATTTGGAATTTTGTTTGCTTATCAATTAATATTCTTACCACATTAA	MFNLSKHKTSIKTEIMAGIITFLTMAYIIVVNPVILGDAGVPFEQAFTATIIAAVVGTLFMAIFTNLPIAIAPGMGLNAYFSYSVVKAHEGMTFAIAFSAVFVAGMILILLSFTSFRTKLMEAIPENLKHAITAGIGLFIAFIGLRLTGIVTKNDANLVGLGDLHSAPVLLALAGLGITIILMSLNVNGALFIGMLLTGIIAFFTGQLTFSNGVTSMPGLPEGIIVSNPITAVSDVINYGLYGVVFSFFLVTLFDTTGTLLGVAQQGGFMKDGKLPKAGRALLSDSFSATIGSMFGTTPSTAYIESSAGVAAGGRTGLTTVTVAVLFALAAFFGPLVSAVSGVSAITAPSLIIVGSLMMGSVRHIDWDAFDEAFPAFLVILSMPLTSSIATGIALGFISYPLMKVAKGKFRAVHPLVYVFGILFAYQLIFLPH	PGPT0007325_4570	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
AK009_05436	204			hypothetical protein	ATGGAAAATGTATATAAAGGACTTAGACATACTGGATTTATTATGATGTTTATTTTTGGTAGCGTATTTTTACTTCGCTGGTTTATTCATGATGAAATGTTATTAGATCAACTTATTAGTTTTAGTGTGGGCATAGTAATGGTTATTTCATCAGTTTTCATTCAAAAGTATAGTAAAGAATTACAGGTAGAAGAGAAATATTAA	MENVYKGLRHTGFIMMFIFGSVFLLRWFIHDEMLLDQLISFSVGIVMVISSVFIQKYSKELQVEEKY				NA	NA	NA	NA	NA
AK009_05437	855			hypothetical protein	ATGCTTGAAAATACGGGGTTAGTATTAGAAGGCGGCGGTATGCGTGGTGTATATACGGGCGGGATATTAGAATATTTTATGGAACAAGATTTATATTTTCCATATGTAATCGGTGTATCAGCTGGTGCTTGTCATGCAGCGTCGTATCTTTCCAGACAAAGAAATAGAAATAAAACAGTAAATATTGATTATGCATCACACCCGCAATATTTATCGTATAAAAACTTATGGAGAAAACGCCAATTATTTGATATGGAGTTCATTTTTCATGAGATTCCAGAAAAGCATGTACCGTTTGATTTTGAAACATACTTTAATAGTCCAGAGCGTTTCCTTGTAGGCACAACAGATTGTGAAACAGGACAGTCTGTTTATTTTGAAAAAGAGGGGACAAATGATGATGCACTAAATTTATTACAAGCATCTAGTTCATTACCTTTCATTGCACCTGTAGTAAATTACCGTGGTAAGCAGTTATTAGATGGAGGAATTTCTGATCCGATTCCAGTTCGTAAAGCGCAAGAAGATGGATTTAAAAAATCAGTCGTTATTTTAACGAGAAATCACGGTTACGGGAAGAAAAAATCAAAGTTTGGATGGATTGCAGCGAAAGCGTATAAAAAATATCCGAACCTTGTTAACACGATGCTGAATCGTTATGAAGTGTATAATGAAACACTTCACTACATTGAAAAAGAAGAACAAGCTGGGAATTTATTTGTTATTCGTCCAGAAGTGCCGCTTCAAGTAGATCGTATGGAAAAAGATACAGCAAAACTACAAAATCTATATGAGCAAGGCTATGAAGATGCAAAGAGACAGTTTGCAGATTTGCAGGCGTTTTTGCAAAAATAA	MLENTGLVLEGGGMRGVYTGGILEYFMEQDLYFPYVIGVSAGACHAASYLSRQRNRNKTVNIDYASHPQYLSYKNLWRKRQLFDMEFIFHEIPEKHVPFDFETYFNSPERFLVGTTDCETGQSVYFEKEGTNDDALNLLQASSSLPFIAPVVNYRGKQLLDGGISDPIPVRKAQEDGFKKSVVILTRNHGYGKKKSKFGWIAAKAYKKYPNLVNTMLNRYEVYNETLHYIEKEEQAGNLFVIRPEVPLQVDRMEKDTAKLQNLYEQGYEDAKRQFADLQAFLQK				NA	NA	NA	NA	NA
AK009_05438	462	pchR_3		HTH-type transcriptional regulator PchR	TTGAAGCATACAACGAAGCAAATGGAAATACTGTCGGACATTCGTACACTTTTGCATAAAAAAGAAGAACATTTAAAACGACAAAACGAGAAGTTTTTTTATGAGACAGGTGTAAGTAGTATGTCTTTATCTGAGTTACATGTAATCGAATGTATCGGAAAAAATGGTTTGATGAATGTAACGGCAATCACGATAGAAATGGGCATGACGAAGGGAGCGATCTCTAAAATTTGTACAAAGTTGTTTCAAAAGCAATTCGTTGAGAAGATGCAAATGTTAGATAATCAAAAAGAAATCTTCTTCCGCTTAACGGAAAGTGGGAATGAAATATATATAGCTCATGAAAAATTGCATAAGCAAGCTGAAGAAAAGTGGCTGTTACTTTTAGATGGTTATACGAAAGCAGAGCAAGACTTTATTCAAAGGTTTATAAAGGATGTCTCAGATCATTTGGAAATATAA	MKHTTKQMEILSDIRTLLHKKEEHLKRQNEKFFYETGVSSMSLSELHVIECIGKNGLMNVTAITIEMGMTKGAISKICTKLFQKQFVEKMQMLDNQKEIFFRLTESGNEIYIAHEKLHKQAEEKWLLLLDGYTKAEQDFIQRFIKDVSDHLEI				NA	NA	NA	NA	NA
AK009_05439	1182	mdtL		Multidrug resistance protein MdtL	ATGAAAAAATCTAAACTAACTTTCATTTTATATGTTGTCTGTATTAGTGCCTTACTCGGTTCCTTCGCTCAAAATATTTACACACCTATCTTACCGATGATTCAAAATTCTTTTCACACTTCTCTTTATCTTGTAAATGTAACAGTTTCACTTTTCACATTCGTTCTTGCAATTATGCAGCTCGTATATGGACCTTTAATTGATACAAAAGGGAGAAAATCTGTCCTTATCCCTAGTTTAGTCATTAGTACAATTGGTTCAATCGGATGTGCTTTTTCGGCAAACATTTATTTATTTCTCTTTTTTAGAGCTGTTCAAGCTATAGGAATAGCGGCTATACCTGTAGTTTCAGCAACGATTATCGGCGATTTATTTGAAGGAAAAGAACGCGGAGAAGCGATGAGCCTGTATCAAATGTTACTTGCTCTCGCACCTGCAATGGCTCCACTCATAGGTGGTTATCTTGGCAGTATACATGGTCACTTATCTGTATTTCTCTTTTTATCTACACTTGGCATTATCTTATTAATTATAAACATTTCACTACTTCCAGAAACAAAGCCAAATGTAATTAAGCGGTCTAAAGAACAAAAGAATTACTCTCTTATCTTAAAAAATAAAACTGGATTTTCTATTACTCTTATTGGCTTCATTCAATTTTGTATTTACTTTTGCTTTCTCGTTTTTTTACCGAGCATTTTAGCAAATTCATTTCATTTAGCTGCAAATGCAATTGGTCTTATGTTTGTACCAATGTCTCTTTCTATCATGCTAGGAAGTTATTGCTACAAGCTTTTGCAAAAACGCCTCACAACAAAGCAAGCTTTATTCATCACTAGTTTCTTCAATATTATATGTGTCACTTTATTCTCTTTCACATATAGCATCAATATCCCATTCACCATTATCGTTACATCTTTATACGGTTTTAGTATGGGACTTTCTATGCCAACTCACACTACTTTATTAACGGAAGAATTCGTACAAGAACGCGCAACAGCCATCGGTATGTATAACTTCATACGCTATCTCGGTATGGGCACAGGGCCACTTGTAGGTGGATTTCTTGTATTTAATCAAAATTACTTTTGGATTTTCTTCCTAGGTGCAATTACATTTCTATTTATCATTTTATGCGCACTGAAAATGCTACGTTTTCAGGCTGTACAAAAAGCAAAATAG	MKKSKLTFILYVVCISALLGSFAQNIYTPILPMIQNSFHTSLYLVNVTVSLFTFVLAIMQLVYGPLIDTKGRKSVLIPSLVISTIGSIGCAFSANIYLFLFFRAVQAIGIAAIPVVSATIIGDLFEGKERGEAMSLYQMLLALAPAMAPLIGGYLGSIHGHLSVFLFLSTLGIILLIINISLLPETKPNVIKRSKEQKNYSLILKNKTGFSITLIGFIQFCIYFCFLVFLPSILANSFHLAANAIGLMFVPMSLSIMLGSYCYKLLQKRLTTKQALFITSFFNIICVTLFSFTYSINIPFTIIVTSLYGFSMGLSMPTHTTLLTEEFVQERATAIGMYNFIRYLGMGTGPLVGGFLVFNQNYFWIFFLGAITFLFIILCALKMLRFQAVQKAK	PGPT0029005_5365	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
AK009_05440	1146	kdpD	COG2205	Sensor protein KdpD	TTGTATGCGGATGACTATAAACCAACTTTTCAAAGGCGAACACCAGAAGAGTATTTAGAATATATTCGTCAGCAAAACCGCGGGAAGTTAAAGTTATATGTAGGAGCGGCTCCAGGAGTAGGAAAAAGTTATAAAATGCTCTTTGATGCAAGAGAAATGAAAAAGGATGGTACGGATATTTTAATTGGTTTAATTGAAACGCACGGTAGAAAAGAGACGGAAGAAGCAATTGCTGATTTAGAAAAAGTTCCTTTAAAAGAAATAGAGTATAAAGGGAAAGTATTTTATGAACTCGATGTGGAAGGAATTATAAAACGTGCACCGCAAGTCGTTGTTGTGGATGAACTTGCGCATAGCAATATTCCTGGATCTAAAAATAAGAAACGTTATATGGATGTACAGGAATTGCTAGATGCCGGTATATCCGTCTTATCAGCTTTTAATATTCAACATTTAGAAAGTGTTCATGACATTGTTGCTCAAATTACGAATGTTAAAGTGCGAGAACGTATTCCAGATTTTATTTTACAAAAAGCAAATGAAATTCAGCTCGTTGATGCAACGCCGGAAGTATTAAGGAAGAGGTTAATAGATGGAAAGATATATAAGGAAGAAAAAATAGAGCAAAGCTTACAAAATTTCTTTACGCTTAATAATTTAGGGGCACTAAGAGAATTATCACTTCGGGAAGTGGCAGATGATATGGACGAGAAAATTAGCCAAACAGTAATAGAACCGATTGGTGTAAAAGAAAAAATTCTTGTTTGTGTACAATACAGTTCGACAGCGGAGAAATTAATACGACGGGGATGGCGCATGGCTGATCGGTTAAATGCTGAATTGTACGTATTAAACGTTGAGAGGGAAAATATAGATTCTATTTCAGCTGGGAAAAAGCAGACGATTGAAGAGTGGAAGTCGTTAACGAATCAATTTGATGCGAGTTTTGTTTTAGAAGAGGCAAAAGGAAGAAAGCCAGCGGATGTTATTATTGAAGTTGCGAAAAGACTACAAGTAACGCAAATTTTACTCGGACAATCAGCAAGAACAAGGTGGGAAGAAATTCGAAAAGGTTCAATTGTAAATGAAATTATGAGAGAAACGAAGTATATTGATATTCATATCGTTGCAGATCAAAGAGTTTAG	MYADDYKPTFQRRTPEEYLEYIRQQNRGKLKLYVGAAPGVGKSYKMLFDAREMKKDGTDILIGLIETHGRKETEEAIADLEKVPLKEIEYKGKVFYELDVEGIIKRAPQVVVVDELAHSNIPGSKNKKRYMDVQELLDAGISVLSAFNIQHLESVHDIVAQITNVKVRERIPDFILQKANEIQLVDATPEVLRKRLIDGKIYKEEKIEQSLQNFFTLNNLGALRELSLREVADDMDEKISQTVIEPIGVKEKILVCVQYSSTAEKLIRRGWRMADRLNAELYVLNVERENIDSISAGKKQTIEEWKSLTNQFDASFVLEEAKGRKPADVIIEVAKRLQVTQILLGQSARTRWEEIRKGSIVNEIMRETKYIDIHIVADQRV	PGPT0002755_2426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
AK009_05441	582	kdpC	COG2156	Potassium-transporting ATPase KdpC subunit	ATGGCGAAGAAACAAAGTATACTATCACCAATTATCCGTATTACTTTTACATTTTTAGTGTTGTGCGGGCTTGTATATCCGCTTATTGTTACTGGTATTGCACAAGCAGTAATGAAGGATAATGCGGATGGAAGTCTAATATATAATGATAAAAATGAAGTGATTGGTTCTAAATTAATTGGTCAAAACTTCACGGATCCACGTTATTTTCAAGGGCGTGTTTCTAGTATTGAATATAAGGCTGAAGCATCTGGTTCAAATAACTATGCACCATCTAATCCAGATTTAGAGAAACGAGTAGAGAAAAGTATTGAAGAGTGGAAGAAACAAAATCGGGCTGTTCCGGTAACAGAAGTGCCGATTGATCTAGTGACGAATTCAGGTTCAGGGCTAGATCCTGATATTAGTCCGCAGGCAGCTTCTGTGCAGGTGGATCGTATCTCTAAATTAACGAATATTCCGAAAGAAACGCTAAATCAGTTGATTAAAGATCAAACAGAAGGTGCTGCACTTGGCTTATTTGGAGAGAACCGCGTAAACGTTTTAAAGTTAAATTTAGAATTGCAGAAACTACTGAAATAG	MAKKQSILSPIIRITFTFLVLCGLVYPLIVTGIAQAVMKDNADGSLIYNDKNEVIGSKLIGQNFTDPRYFQGRVSSIEYKAEASGSNNYAPSNPDLEKRVEKSIEEWKKQNRAVPVTEVPIDLVTNSGSGLDPDISPQAASVQVDRISKLTNIPKETLNQLIKDQTEGAALGLFGENRVNVLKLNLELQKLLK	PGPT0002750_1243	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
AK009_05442	2091	kdpB	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAGACCGGTAGTAGTAAAAGAAAAACAATTAAATGAGTCACAAATACATGCTGTAGAAGATGAAGTTAGACAAGCGAAAACGATGGATCGTGATATCGTAACACATGCGATGAAGCAATCCATTGCGAAATTGAATCCGAAAGTCATGATAAAGAATCCGATTATGTTCGTTGTGGAAATTGGATTTATCATTACGTTCATTTTATCTTTTCTTCCAAGTAGTTCTAGTAGTATACCAGGTTGGTTTAATATAACAGTTTCTCTCATTCTATTATTTACAGTTTTATTTGCGAATTTTGCAGAAGCATTAGCAGAAGGTCGTGGTAAAGCGCAAGCCGATTCTTTAAAGCAGTCGAAGAAAGATGTGTTTGCAAATGTTGTAAAAGAAAATGGAGACATTGTCCAAGTTTCAGCAACTGATCTGAGAAAAGGTGACGTTGTTATCGTAAAACAAGGAGAAATGATTCCGAATGATGGCGAAGTAATCAAAGGGTTAGCATCTGTAGATGAATCTGCAATTACAGGGGAATCAGCTCCTGTAATAAAAGAAGCGGGCGGCGATTTTTGTTCCGTAACAGGCGGGACGATGGTCGTAAGTGATGAGATTACAATTGTCATTACGAGTAATCCTGGTGAATCATTTATTGATAAAATGATTTCGTTAGTAGAAGGAGCTGCTCGTCAAAAAACGCCGAATGAGATTGCTTTAAATACAGTATTAACGAGTTTAACGCTTATTTTCTTAATCGTTGTTGTGACGTTGCCGATTTTTACAAACTATTTAGGATTTCAAATTGATACAGCTGTACTTGTAGCGTTGTTAGTTTGTTTAATTCCAACGACAATTGGTGGTTTATTATCAGCAATTGGTATTGCCGGGATGGACCGCGTGACAAAGTTCAATGTGTTAGCGATGTCGGGTAAAGCAGTAGAAGCTGCGGGTGATATTAATACAATCATTTTAGATAAAACAGGTACGATTACTTTCGGGAACCGAATGGCACATACATTGCTTCCTGTAGGAAATGAGACGATTGAGCAAGTAGGGAAATGGGCCGCGATTAGTTCAGTTTTAGATGAAACACCAGAAGGTCGATCAGTTATAGAATATGTAAAAACGAAAGCTATATCATATAATCGAGAAATTGCAGAGCAAGGTGATTTTGTTCCGTTCAAAGCAGAAACGAGAATGAGTGGTGTGGATTTACAGGACGGAACGAAAGTGAGAAAAGGTGCTGTAGGTAGCGTAATTGAATGGGTTAGGTCACAAGGTGGAACGATTCCGAAAGATGTAAATCAAAAAGCAGATTCCATTTCCAAAGAGGGCGGGACACCACTTGTAGTTGCAGTGGATAATCGTATTTACGGTTTAATTTATTTAAAGGATACAGTAAAGCCAGGTATGCGTGAGCGTTTTGAACAATTGCGCCAAATGGGGATTAAAACGGTTATGTGTACAGGTGATAACCCGTTAACAGCAGCAACGATTGCAAAAGAAGCAGGGGTAGATGAGTTTGTTGCTGAGTGTAAGCCAGAAGATAAAATTGCGGTTATTAAAGCAGAGCAAGATAAAGGGAAACTTGTAGCGATGACAGGTGATGGTACAAATGATGCGCCGGCATTAGCGCAGGCTGACGTTGGATTAGCGATGAATAGTGGTACGACAGCTGCGAAAGAAGCAGCGAATATGATTGATTTAGATTCGAACCCGACAAAAATTATTGAGGTTGTAGGGATTGGTAAGCAATTGTTAATGACGCGTGGTGCGTTAACGACGTTTAGTATTGCGAACGATATTGCAAAATATTTTGCAATCATTCCAGCGATGTTTACACTTGCGATTCCGCAAATGGAGGCATTAAACATTATGAAACTAACATCACCACTGTCAGCGATTTTATCAGCATTACTATTTAATGCAGTTATTATTCCATTACTCATTCCATTGGCGATGAAAGGTATCGCATATAAACCAATGAGTTCGAATGCACTACTTGGCCGAAACCTACTTATTTATGGACTTGGCGGAGTGATTGTACCATTCATTGGAATTAAAGCAATTGATATAATTGTCGGCTTGTTCATATAA	MRPVVVKEKQLNESQIHAVEDEVRQAKTMDRDIVTHAMKQSIAKLNPKVMIKNPIMFVVEIGFIITFILSFLPSSSSSIPGWFNITVSLILLFTVLFANFAEALAEGRGKAQADSLKQSKKDVFANVVKENGDIVQVSATDLRKGDVVIVKQGEMIPNDGEVIKGLASVDESAITGESAPVIKEAGGDFCSVTGGTMVVSDEITIVITSNPGESFIDKMISLVEGAARQKTPNEIALNTVLTSLTLIFLIVVVTLPIFTNYLGFQIDTAVLVALLVCLIPTTIGGLLSAIGIAGMDRVTKFNVLAMSGKAVEAAGDINTIILDKTGTITFGNRMAHTLLPVGNETIEQVGKWAAISSVLDETPEGRSVIEYVKTKAISYNREIAEQGDFVPFKAETRMSGVDLQDGTKVRKGAVGSVIEWVRSQGGTIPKDVNQKADSISKEGGTPLVVAVDNRIYGLIYLKDTVKPGMRERFEQLRQMGIKTVMCTGDNPLTAATIAKEAGVDEFVAECKPEDKIAVIKAEQDKGKLVAMTGDGTNDAPALAQADVGLAMNSGTTAAKEAANMIDLDSNPTKIIEVVGIGKQLLMTRGALTTFSIANDIAKYFAIIPAMFTLAIPQMEALNIMKLTSPLSAILSALLFNAVIIPLLIPLAMKGIAYKPMSSNALLGRNLLIYGLGGVIVPFIGIKAIDIIVGLFI	PGPT0002745_689	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
AK009_05443	1668	kdpA	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGATTTGGGTTGCAGTCATTATTACAATGCTCTTGTTTATTTTAGTAGCAAAGCCAATGGGGATTTATTTAGAAAAAGCTTTTCAAGGTAGCAAAATGCTAGATAAAGTATTCGGCCCTTTTGAAAAACTTATTTTTAAAATTACGGGTGTAAAAGAATACAATCAAACGTGGAAACAGTACGCATTATCATTAGTTTTACTCAATGGATTTATGATTGTTGTCGTATATTTCATTTTCAGATTACAAGGTGTGTTGCCGCTAAATCCAGCACATATTGAAGGAATGGAGCCTACGCTCGCTTTTAATACAGCAATTAGTTTTATGGCTGATACAAACTTACAGCATTATAGCGGTGAAAATGGTTTATCTTATTTATCACAATTAATCGGAATTACATTTTTAATGTTTGCAGCACCGGCAACGACATTAGCACTCGTTATGGCATTTATAAGAGGGCTCGCTGGAAAAGAACTTGGTAACTTTTTCGTTGATTTTACGAGAGCACTAACGAGAGTGTTTCTTCCTATCGCATTTATTGCGGCGCTAGTCTTTGTCGCACTTGGTGTACCGCAAACGTTAGATGGAGCGGTTACAGCACAAACGATTGATGGGGCAAAACAAAGTATATTACGTGGGCCTGTTGCATCATTCGTTTCCATTAAGGAACTTGGAAATAACGGCGGTGGATTTTTCGGAGCAAACTCTACGCATCCTTTTGAAAACCCAGGACAAATGAGTAATATTTTGCAAATGATGCTTATGATGTTATTGCCAACAGCACTTCCATTTACGTACGGACGAATGGTAGGAAATAAAAAACAAGGTCGTATTCTCTTCGTATCACTATTCATGGTGTTTCTACTAGGATTTATAACAATTACGACATCTGAACTAAACGGGAATCCGGCATTAAATGGAATGGGTATCGAACATGTACAAGGAAGTACAGAAGGGAAAGAAGTACGATTTGGAACAGTATTTTCTTCACTATACGCAACGGTAACGACAGCTGCTGAAACAGGCGCCGTTAATACGATGCATGATACGTTAACACCAATTGGCGGTTTAGTTCCACTTGTAAATATGATGTTAAACACAGTATATGGCGGCGTTGGAGCAGGTTTTGTAAATATTATTATGTATGCAATTATTGCAGTGTTTATATCTGGGTTAATGGTTGGACGGACACCAGAGTTTTTAGGTAAAAAGATTGAAGGTAAGGAAATGAAATTAATTGCGGTCACGATACTATTTCATCCATTGCTCATTTTAGGCTTTTCGGCATTAGCTCTTTCAACAAATTTAGGGACGGATGCTATTTCTCATTCCGGTTTCCACGGTTTAACGCAAGTTGTATATGAATATACATCGTCAGCTGCGAATAACGGATCTGGATTTGAAGGATTAGGAGATAATACACCGTTTTGGAATATTACGACTGGTTTAGTTATGTTTTTAGGACGTTACTTCAGTTTAATTACGATGCTAGCTGTGGCAGCTTCGTTGAAAGAAAAAACGGTAGTGCCAGAAACAGTCGGAACGTTCCGTACAGATAATAGTTTATTTGGTGGTATCTTTATCGGAACAATTGTAATTGTTGGTGCATTAACATTCTTCCCGATGTTAGTACTCGGACCAATTGCAGAATTTCTTACATTGAAGTAA	MIWVAVIITMLLFILVAKPMGIYLEKAFQGSKMLDKVFGPFEKLIFKITGVKEYNQTWKQYALSLVLLNGFMIVVVYFIFRLQGVLPLNPAHIEGMEPTLAFNTAISFMADTNLQHYSGENGLSYLSQLIGITFLMFAAPATTLALVMAFIRGLAGKELGNFFVDFTRALTRVFLPIAFIAALVFVALGVPQTLDGAVTAQTIDGAKQSILRGPVASFVSIKELGNNGGGFFGANSTHPFENPGQMSNILQMMLMMLLPTALPFTYGRMVGNKKQGRILFVSLFMVFLLGFITITTSELNGNPALNGMGIEHVQGSTEGKEVRFGTVFSSLYATVTTAAETGAVNTMHDTLTPIGGLVPLVNMMLNTVYGGVGAGFVNIIMYAIIAVFISGLMVGRTPEFLGKKIEGKEMKLIAVTILFHPLLILGFSALALSTNLGTDAISHSGFHGLTQVVYEYTSSAANNGSGFEGLGDNTPFWNITTGLVMFLGRYFSLITMLAVAASLKEKTVVPETVGTFRTDNSLFGGIFIGTIVIVGALTFFPMLVLGPIAEFLTLK	PGPT0002740_2022	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
AK009_05444	105			hypothetical protein	ATGTTAGATGTTGTAATGGTCGGGATTTTTATTTTATTAGTTGCATCGATGGCAAGTCTTGCAAGTTGGTCAGATAAAGTTGTGAAAGAAGGAAAGCAATCATGA	MLDVVMVGIFILLVASMASLASWSDKVVKEGKQS				NA	NA	NA	NA	NA
AK009_05446	234			hypothetical protein	ATGATGAAGGTACTATTACTTGGAGATATAGCAAATCGTTGGGCAGTATCGGTAGAGCGAGTTCAAGAATTGGTTCAGATCGATCCCCTTTTTCCAGGGCCGTATATTATATTACCATCAAAAGATGCTTTGTATTTAGAGGTGGATATTACCGAATATGAGCAGCTACATGCAGAATTGTCACAGGTTTATATTCGCGGGAGAAATTTACGTGCTTTTTTACGAGGAGAATAA	MMKVLLLGDIANRWAVSVERVQELVQIDPLFPGPYIILPSKDALYLEVDITEYEQLHAELSQVYIRGRNLRAFLRGE				NA	NA	NA	NA	NA
AK009_05447	387			hypothetical protein	ATGGAACTAACACTTATTTGTGTTGGAGAAGAAAGTAAGGTAGATAGTTTAAGAGATCTAGTATCATTTCAACATGAGTTAATTATTTTTACGGCAAATGAAGAGATAGCGGCTGAAGTTAGGAATTGTGGGTTTGATTGGACTTATAGTTGCAGTAAGGAGCAGGACTTTACTAGTATTTTTGAGTGTATTAAGAAGGTGATTTTACTAGGGGATGAGCTTCCAATCGTTAGTTTTTTCACAGAACACATTCGCTTTTCTTTTCAAGCACCTATTACTGTTGTTACAAGGAATAAACGATATCCAGCGAGGCTCTATGAAACAATTGGAGCTAAGTTTGTCGTGTTTACAAATTGTGATAATATTTCTTTTTTATTTTTTGAATAG	MELTLICVGEESKVDSLRDLVSFQHELIIFTANEEIAAEVRNCGFDWTYSCSKEQDFTSIFECIKKVILLGDELPIVSFFTEHIRFSFQAPITVVTRNKRYPARLYETIGAKFVVFTNCDNISFLFFE				NA	NA	NA	NA	NA
AK009_05449	813	thiD	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAAAGTGAATAAAGCTTTAACAATTGCAGGGTCTGATAGCGGCGGTGGTGCTGGAATTCAGGCAGATTTAAAAACATTCCAAGAGCTTGGTGTATACGGAATGACGGCTATTACGGCAATTACTGCTCAAAACACGCTTGGCGTTCAAGGGGTATATCCTGTTCCTTTAGAAGGTATTACAGAACAGCTGAATTCAATTGGTACGGATTTAACACCAGATGCAGTGAAACTAGGAATGTTATTTAGTAGTGAAATAATTCAAATTGTTGCAGAACAAATTAAAAAATTTGGCTGGAATAATATTGTGCTAGATCCCGTTATGATCGCAAAAGGCGGTGCATCATTATTACAGCAAGAAGCAGTTCATGCATTACAAGAATATTTATTACCAGTAGCAACCGTTATAACACCGAATGTTCCAGAAGCAGAAGTGTTAACTGGGATGGAGATTCATAATGTTGAAGATAGTAAGGAAGCTGCAAAAGTATTGCACAAATTAGGTGCTAAATATGTGCTTATGAAGGGCGGACATGCAGAATATCAAGGTAATGAAGTAATTGATTTCCTCTTTGATGGAGAAGAATTTATTGAGTTTAGAAGCGAGCGAATTCCTTCAAAGCAAACGCACGGAAGTGGGTGCACATTTGCTTCAGCGGTTACAGCAGGACTTGCGAAAGGATACTCAATTGAAGATGCTGTTCAAGAAGCAAAACGATTTATTAGTATAGCAATTGAAGAGCCATTGAATATTGGTAGTGGTCATGGACCGACGAATCATTTTGCGTATAAAGTGAATAGAACGCGTGTATAG	MKVNKALTIAGSDSGGGAGIQADLKTFQELGVYGMTAITAITAQNTLGVQGVYPVPLEGITEQLNSIGTDLTPDAVKLGMLFSSEIIQIVAEQIKKFGWNNIVLDPVMIAKGGASLLQQEAVHALQEYLLPVATVITPNVPEAEVLTGMEIHNVEDSKEAAKVLHKLGAKYVLMKGGHAEYQGNEVIDFLFDGEEFIEFRSERIPSKQTHGSGCTFASAVTAGLAKGYSIEDAVQEAKRFISIAIEEPLNIGSGHGPTNHFAYKVNRTRV	PGPT0008915_2070	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
AK009_05450	1020			hypothetical protein	TTGAATAATCGATATTCTCGCCAAGAACTATTTTCTCCAATTGGAGCAGAAGGGCAGCAAAAGATAAGAGAAAAGCATGTACTTATTATCGGTGCAGGTGCATTAGGTAGTGCAAATGCAGAGATGTTTGTAAGAGCGGGTGTGGGCAAGATAACAATTGTTGACCGTGATTATGTAGATTGGAGTAATTTACAAAGACAACAATTGTATGCAGAGAGCGACGTAAAGAATAATCTCCCAAAAGCTATAGCGGCTAAAAAACGTTTAGAAGAGATTAATAGCGATGTAACAATAAAAGCTCTCGTTCAAGATGTAACAGCTGAAGAGCTAGAAGAACTTGTTACAAACGTTGATGTAATTATTGATGCGACTGATAATTTCGAAACACGCTTTATTGTGAATGATATAGCACAAAAATATTCTATTCCATGGATTTACGGTGCATGTGTAGGTAGTTACGGTCTTTCTTACACAATCCTTCCTAGTAAAACACCATGTTTATCATGTTTATTACAGTCGATTCCGCTTGGCGGGGCAACATGTGATACAGCGGGTATTATATCACCTGCTGTATCTCTTGTCGTTTCTCATCAAGTAACAGAAGCTCTTAAACTGTTAGTAGAAGATTACGAATCACTTCGAGATGGGCTTGTATCGTTTGATATGTGGAAGAATGAGTATTTATGTATGAATGTACAAAAGCTTCGCCAGCATAATTGTCCTTCATGTGGAGAGAATGCATTGTATCCATATTTAAATAAAGAGAACACATCAAAAACAGCAGTTTTATGCGGACGAAATACAGTTCAAATTAGACCACCTCATAAAGAAGAAATAAATTTTGAACAATATAAAGAGTTGCTGGAAGGTCGCGTGAATGATTTAAATGTAAATCCATATTTATTATCATTTTCTGTTGAAGACAAGAGGTTAGTCGCCTTTAAAGATGGCCGTGTGCTCGTACATGGAACGAAAGATATAAGCGAAGCAAAAACGATTTATCATCGCTATTTTGGATAG	MNNRYSRQELFSPIGAEGQQKIREKHVLIIGAGALGSANAEMFVRAGVGKITIVDRDYVDWSNLQRQQLYAESDVKNNLPKAIAAKKRLEEINSDVTIKALVQDVTAEELEELVTNVDVIIDATDNFETRFIVNDIAQKYSIPWIYGACVGSYGLSYTILPSKTPCLSCLLQSIPLGGATCDTAGIISPAVSLVVSHQVTEALKLLVEDYESLRDGLVSFDMWKNEYLCMNVQKLRQHNCPSCGENALYPYLNKENTSKTAVLCGRNTVQIRPPHKEEINFEQYKELLEGRVNDLNVNPYLLSFSVEDKRLVAFKDGRVLVHGTKDISEAKTIYHRYFG	PGPT0008935_72	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
AK009_05451	771	thiG	COG2022	Thiazole synthase	ATGTTGAACATTGGACCATTTTCATTTCATTCTAGACTTTTATTAGGAACAGGTAAATTCCCTGATTTTGACGTACAGCAAAAGGCAATTGACGTTTCTGAAGCTGAAATTTTAACGTTTGCAGTACGTCGTATGGATATCTTTGATGCAAAGCAACCTAATTTATTAGAGAAACTTGATGTGAAAAAATATACGTTATTACCAAATACAGCAGGGGCAAAAAATGCTGAAGAGGCTGTTCGCATTGCAAAATTAGCAAAAGCGTCTGGGCTTTGTGACATGATAAAGGTAGAAGTTATTGGTGATGATAGAACGTTATTACCGGATCCGGTAGAAACGTTAAAGGCATCTGAAAAGTTACTGGAAGAAGGATTTATCGTACTTCCGTACACATCTGATGATGTTGTATTAGCACGTAAATTACAAGAGCTTGGCGTGCATGCGATTATGCCAGGAGCATCTCCAATCGGATCAGGACTTGGTATTGTAAATCCATTAAATTTGGGCTTCATTATTGAACAAGCGACAGTACCAGTTATCGTTGATGCTGGTATTGGTAGCCCAGCTGATGCGGCATTTGCAATGGAATTAGGAGCAGATGGTGTGTTATTAAATACAGCTGTATCAGGAGCAAAAGATCCTATTAAAATGGCACAAGCAATGAAATTAAGTATTGAAGCAGGCCGTTTAGGATTTGAAGCAGGTCGTATTGCACGTAAGCGCTGTGCAACTGCAAGTAGTCCTTTAGAAGGAATGAGCGTAGTTGAATAA	MLNIGPFSFHSRLLLGTGKFPDFDVQQKAIDVSEAEILTFAVRRMDIFDAKQPNLLEKLDVKKYTLLPNTAGAKNAEEAVRIAKLAKASGLCDMIKVEVIGDDRTLLPDPVETLKASEKLLEEGFIVLPYTSDDVVLARKLQELGVHAIMPGASPIGSGLGIVNPLNLGFIIEQATVPVIVDAGIGSPADAAFAMELGADGVLLNTAVSGAKDPIKMAQAMKLSIEAGRLGFEAGRIARKRCATASSPLEGMSVVE	PGPT0008965_2632	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
AK009_05452	204	thiS	COG2104	Sulfur carrier protein ThiS	TTGAATTTAAAAATTAATGGTAACCAAATTGAAGTGCCAGCGAGTGTAAAAACAGTAGCTGAGTTACTTACACATTTAGAGCTAGATAACAGAATTGTTGTAGTAGAGCGTAATAAAGATATTTTACAAAAAGATGATCATACAGATACATCTGTTTTTGATGGAGACCAAATTGAGATTGTAACTTTCGTAGGAGGCGGTTGA	MNLKINGNQIEVPASVKTVAELLTHLELDNRIVVVERNKDILQKDDHTDTSVFDGDQIEIVTFVGGG	PGPT0008970_1176	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
AK009_05453	1110	thiO_2	COG0665	Glycine oxidase	ATGTGTGAGAAGTATGATGTAGCGATTATTGGTGGTGGTGTAATTGGTAGTTCAGTTGCACATTTTCTAGCAGAAAGAGGACATAAAGTAGCGATTGTAGAGAAGCAAAAAATTGCATCGGAAGCTTCGAAAGCAGCTGCTGGTTTACTTGGTGTTCAAGCAGAATGGGATGCGTATGATCCGCTATTTGAACTTGCTAGAGAAAGCCGAGCTATATTTCCACAACTTGCAGCAGTTTTACGTGAAAAGACGGGTATTGATATTGGATATGAAGAAAAAGGAATTTATCGTATTGCTCAAAATGAAGATGAGAAGGAAAGAATTCTTCACATTATGGATTGGCAGCAGAAAATAGGTGAAGATTCTTATTTTCTAACGGGAGACCATGTGCGGGAAAAAGAGCCATATCTATCCGAATCTATTATAGGAGCAGTATATTATCCGAAAGACGGTCATGTTATTGCACCAGAGCTTACGAAAGCATTCGCACATTCTGCAGCGATTTCCGGTGCTGATATATATGAACAGACAGAAGTATTTGATATCCGTATTGAAAATAATAAAGTGACTGGAGTTATTACAAGTGAAGGTATTGTCACATGTGAGAAAGTCGTTATTGCAGGAGGTTCATGGAGCACGAAGTTACTCAGTTATTTTCACCGCGATTGGGGTACATATCCAGTTAAAGGAGAAGTGGTTGCGGTAAGAAGTAGAAAACAACTTTTAAAAGCACCTATTTTTCAAGAAAGATTTTACATTACTCCAAAGCGCGGTGGACGTTACGTAATTGGGGCAACAATGAAGCCACATACGTTCAATAAAACTGTGCAGCCAGAAAGTATAACTTCTATATTAGAGCGTGCTTATACAATATTGCCAGCTTTAAAAGAAGCAGAATGGGAAAGCACGTGGGCAGGATTAAGACCACAATCGAATCATGAAGCTCCTTATATGGGAGAGCATGAAGAAATAAAAGGTTTATATGCTTGCACGGGCCATTATCGAAACGGTATTTTATTAAGTCCTGTTTCTGGCCAATATATGGCTGATTTAATAGAAGGAAAGCAAGAGAATCATTTGCTAGATTCATTGCTTTCTAGAAGAGTTTAG	MCEKYDVAIIGGGVIGSSVAHFLAERGHKVAIVEKQKIASEASKAAAGLLGVQAEWDAYDPLFELARESRAIFPQLAAVLREKTGIDIGYEEKGIYRIAQNEDEKERILHIMDWQQKIGEDSYFLTGDHVREKEPYLSESIIGAVYYPKDGHVIAPELTKAFAHSAAISGADIYEQTEVFDIRIENNKVTGVITSEGIVTCEKVVIAGGSWSTKLLSYFHRDWGTYPVKGEVVAVRSRKQLLKAPIFQERFYITPKRGGRYVIGATMKPHTFNKTVQPESITSILERAYTILPALKEAEWESTWAGLRPQSNHEAPYMGEHEEIKGLYACTGHYRNGILLSPVSGQYMADLIEGKQENHLLDSLLSRRV	PGPT0008955_992	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
AK009_05454	621	tenI	COG0352	Thiazole tautomerase	ATGAAAAATGAGCTCCACGTAATCTCAAATGGCCATATGCCATTCGAAGAGTTAGTGAATGTAGCGATGCAAATTGAGAGTGAGATTGATTATTTGCATATTCGTGAGCGTGAGAAGAGTACGAAGGAATTATATGAAGGTGTGGAAAGTCTATTAATGGAGGGCTTTCCGGCTTCTAAAATTGTCATAAACGATCGAATTGATATCGCCATTTTATTAAATATTCCTCGTGTTCAACTAGGATATCGAAGTACAGATGTAAAGTCAGTGAAAGAAAAGTTTTCGTATTTGCATGTCGGTTATTCTGTGCATTCGCTAGATGAAGCAATAGTAGCTTTTAAAAATGGAGCGGATTCACTCGTTTATGGCCATGTATTTCCGACAGATTGTAAAAAAGGTGTGCCAGCGAGAGGGCTTGAAGAAATTTCAGACATTGCAAGGTGTTTATCTATACCGATTACAGCAATTGGAGGAATTACTCCTGAGAATACAAAGGATATTCTGGCAAGTGAAGTAAGTGGAATTGCTGTTATGTCTGGAATTTTAAGTAGTAGTAACCCGTATAGCAAAGCGAAGTCTTATAAGGAATCAATAAGAAAGTGGGCGGAAAAACATGTGTGA	MKNELHVISNGHMPFEELVNVAMQIESEIDYLHIREREKSTKELYEGVESLLMEGFPASKIVINDRIDIAILLNIPRVQLGYRSTDVKSVKEKFSYLHVGYSVHSLDEAIVAFKNGADSLVYGHVFPTDCKKGVPARGLEEISDIARCLSIPITAIGGITPENTKDILASEVSGIAVMSGILSSSNPYSKAKSYKESIRKWAEKHV	PGPT0008975_80	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
AK009_05455	1002	thiY_1	COG0715	Formylaminopyrimidine-binding protein	ATGAAATTATTAAAACGCATCTTTGTGTTTACATTATTAGTTGCAATGATTGCTGGATGTTCTAGTAATTCAGCATCAGATAAGAGTAAAAAAGAAAAAGAAATAACGGTCATGCTTGATTGGTACCCAAATGCGGTACATAGCTTTATTTATGCAGCAATTGAAAAAGGCTATTTTAAAGAAGAAGGAGTAAAGGTGAATATTAAATTCCCTTCTAATCCGACTGATCCATTAACTTTAGCAGCTGCAGGAAAAGTAACGGTTGGCTTATATTATCAACCAGATGTTGTTATGGCAAAAGCAAACGAACAAATTCCAGTGAAATCAATTGGAGCTGTCGTACGTTCCCCATTAAATCATGTTGTATCACTGAAGTCAGCAGGCATTCAATCGCCAAAAGATTTAGAGGGGAAAACAGTTGGATATTCTGGAACACCTTTAAGTGAGATGTATTTAAAAACGATGGTAAAAGAAGCTGGTGGTAATCCAGATACAGTGAAAGTAGTCGATGTTGGCTTTGATTTAGTACCAGCATTAATTACGAAAAAAGTGGATGCGGTAACAGGGGCATACATTAACCATGAAGTACCTGTTATGCGTCATGAAGGTCATGAACCAGCGTACTTTAATCCAGCAGATTATGGTGTACCGAATTATCATGAGCTTGTATTTGTAACAGGTGATAAAACGTTGAAAAAAGATAAAGAAGCGTTGCAAGCCTTCTTACGTGGTACGAAAAAAGGCTATGATTTCATGAAGAAAAATCCAGATGAAGCATTAAATATTTTATTAAATCATCAAGAAAAAGAAAACTTCCCGCTTGTGCCAGAAGTTGAAAAAGAAAGTATGAAAATTTTATTAGAGAAGATGGAAACGAAAGATGAGCCATTTTTATCAGATTCAAAAGAATCATGGGAAAAACAAAATAAATGGCTGAAAGACAAAGGAATGACGAAAGAAACCGTCCCAGCCGATGAACTATTCGAAAATATTTTAAAGTAG	MKLLKRIFVFTLLVAMIAGCSSNSASDKSKKEKEITVMLDWYPNAVHSFIYAAIEKGYFKEEGVKVNIKFPSNPTDPLTLAAAGKVTVGLYYQPDVVMAKANEQIPVKSIGAVVRSPLNHVVSLKSAGIQSPKDLEGKTVGYSGTPLSEMYLKTMVKEAGGNPDTVKVVDVGFDLVPALITKKVDAVTGAYINHEVPVMRHEGHEPAYFNPADYGVPNYHELVFVTGDKTLKKDKEALQAFLRGTKKGYDFMKKNPDEALNILLNHQEKENFPLVPEVEKESMKILLEKMETKDEPFLSDSKESWEKQNKWLKDKGMTKETVPADELFENILK				NA	NA	NA	NA	NA
AK009_05456	756	ribX_2		Riboflavin transport system permease protein RibX	ATGATGAACCGGTTGAAGGAGCTATTACCTGCCCTTACACTTTCTAGTATTTTACTTGCCTTTTGGGAAGTAGGCGCAAGGATCGTAGATGAAATGTACATTTTACCGTCACCGTCTGCGATTGTAATGAAGATATGGAAACTAAAAGATATATTATTTACGGTTCATTTGCCGGCAACATTATATGTCGTTTTAATAGGTGTGGCAATTTCTATCGTACTTGGGGTAGGGCTAGCGATGTTAATGAACGCGAGTAATTGGATGGAGAGAGCATTTTATCCATTATTAGTCGCTTCACAAACGATTCCTATTACAGCGCTTGCTCCGCTCTTCGTTTTATGGTTTGGATATACGATTTGGAGTAAAGTCGTTATTACGGTTTTAATTACGTTTTTCCCGATTGCGGTCAATACGTATGATGGACTACGCAGTACGAAAAAAGAATGGGAAGAGCTTTTAGTTACATACGGGGCAACGAAAAAAGATGTTTTTCTTAAATTAAAATTGCCGTCTGCTCTTCCTTATTTTTTCTCAGCTTTAAAAATCGCAGTTCCGCTTAGTGTTATCGGAGCAGCAATTGGCGAATGGCTCGGTGCGCAAGCTGGGTTAGGATATTTCAGTAAAAGAATGATGACGCAGTTAGACGGAGCAGGTGTATTTGCACCCATTGTATTGTTATCATTACTAGCTATTTTCTTCGTCATCCTTATTTCGATATTAGAAAAGAAATTCATTAGTTGGAGGAAGCATTCATGA	MMNRLKELLPALTLSSILLAFWEVGARIVDEMYILPSPSAIVMKIWKLKDILFTVHLPATLYVVLIGVAISIVLGVGLAMLMNASNWMERAFYPLLVASQTIPITALAPLFVLWFGYTIWSKVVITVLITFFPIAVNTYDGLRSTKKEWEELLVTYGATKKDVFLKLKLPSALPYFFSALKIAVPLSVIGAAIGEWLGAQAGLGYFSKRMMTQLDGAGVFAPIVLLSLLAIFFVILISILEKKFISWRKHS	PGPT0001145_8679	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK009_05457	750	tauB	COG4525	Taurine import ATP-binding protein TauB	TTGAGGAGCAAGAACATACTACAGTTTCATAATGTTTCTTTTCATTATGATGAGAAACCAATCATCAATGAATTAAATGCTTCTATACAAGATAAAGAGTTTGTAAGTATTATCGGACCGAGTGGATGCGGGAAAAGTACTCTATTTCGCCTTATTACAGGTTTAGAAGAAGTAAGTACTGGGCAGATAGAGCTGACAGAAACGAAGAGCCATCCTGTAGGGTATATGCCCCAAAAAGATATGCTCCTGCCGTGGCGAACGATTATTGAGAATGCTGCTCTGCCGCTAGAGTGTCAAGGTGTACAGAAGAAAGAAGCACAAATAAAGGCCAAGGAACTGCTACATAAATTTGGCTTACAAGGGTATGAGACAAAATATCCGAAAGATTTATCTGGTGGTATGAGACAACGCGTATCTTTTATTCGGACTTTATTAACAGGTGGGGAGGTATTGTTGTTAGATGAACCGTTTAGCGCGTTGGACGCTTTAACGAAGGCATCTTTGCAAGAATGGCTGTTTGAACAATGGAAAGAGTGGGAAAAAACAATTTTATTTATCACTCATGATGTGGAAGAAGCGTTGTTTCTTTCTAATCGAATTTTAGTAGTAGAGCAGCAACCGATAACTACTTTAACCGAGAGGGTTGTACCGCTTGATTGTAATCGAACAAGAAAAGATTTATATAAACCTGAAGTGTTAGCGCTTAAAGATGAGCTTCTTAGTATGTTACAAAGGCAGGTACTCGTATGA	MRSKNILQFHNVSFHYDEKPIINELNASIQDKEFVSIIGPSGCGKSTLFRLITGLEEVSTGQIELTETKSHPVGYMPQKDMLLPWRTIIENAALPLECQGVQKKEAQIKAKELLHKFGLQGYETKYPKDLSGGMRQRVSFIRTLLTGGEVLLLDEPFSALDALTKASLQEWLFEQWKEWEKTILFITHDVEEALFLSNRILVVEQQPITTLTERVVPLDCNRTRKDLYKPEVLALKDELLSMLQRQVLV	PGPT0001140_8200	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK009_05458	696	tenA_1	COG0819	Aminopyrimidine aminohydrolase	ATGAAATTTTGCGATAGATTATTAGAAACTGTACAACCAGTTTGGGAGATGAGTCATAATCATCCGTTTGTAGTAGGTATGGGGGATGGCACGTTAGAAAAAGATAAGTTTCAGTATTACATTATTCAAGATTATTTATATTTGTTAGATTATGCAAAGCTATATGCGATTGGTGTTGTAAAAGCAACAAATCCACAAGTAATGGGGAAATTTGCTGAACAAATTGATGGCATATTAAATGGAGAAATGACAATCCATAAACAATATGCAAAAAGACTGGGAATTTCTATAGAGGAGATAGAGTCTGCAAAGCCATCTGCTAAAAATTTGGCTTATACAAATTACATGATGTCTGTATCTCAAAATGGCACACTTGCGGAATTAATAGCAGCACTTCTTCCATGTATGTGGAGCTACTGGGAAATTGGAAAGCGTTTAAATGATATTTCTGGAGCAAGAGATCATGAGTTCTTTGGTGAGTGGATTCAAGGATATAGTTCTGAAGAATACGGTAACCTTTGTATTTGGTTAATCGATTTATTAAATGAAATGGCAGTTGGAAAGTCTGAAAAAGAGCTAGATCAATTAGAGGAGATTTTCCTATATTCCAGTCGATTTGAATATTTATTCTGGGATATGTCCTATCGTAAGGAGATGTGGGGATTTGAGGAGCAAGAACATACTACAGTTTCATAA	MKFCDRLLETVQPVWEMSHNHPFVVGMGDGTLEKDKFQYYIIQDYLYLLDYAKLYAIGVVKATNPQVMGKFAEQIDGILNGEMTIHKQYAKRLGISIEEIESAKPSAKNLAYTNYMMSVSQNGTLAELIAALLPCMWSYWEIGKRLNDISGARDHEFFGEWIQGYSSEEYGNLCIWLIDLLNEMAVGKSEKELDQLEEIFLYSSRFEYLFWDMSYRKEMWGFEEQEHTTVS	PGPT0009055_330	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
AK009_05461	1155			hypothetical protein	ATGAATATGAAAGCTACTGCTTTAACAGCAACTACTGTAGCGATTGCTTCTTTACTTCCTTCTATGGGTGAAACAAATGTACAAAAAGCAAACGCTGAACAATTATCTAATATTAAAACTGGGTATGTCAAAGTCGATCAAGTAGCATTACATACAGAAGATAGCGTAAAAAGCACATCAATTGATACAATTCGCTTTAATACAAAAGTGAACATCCTTGAAATAACTAATGGTTGGTATAAAGTATCTGTTCATAATAAAGTAGGTTATGTACAAAAAGATGCTATTTTACTAAAAAACAAACTTCGATCTAATGATCAATACATCGTCAATGCTAATGCATTGAACGTTCGCTCCGAACCTAATTTAGAATCTTCCATTTTAGATGTATTACCAAATGGCAAGTTCATTACCGTTCAAGAAGATCAAGGCGAATGGTATAAAATATCACATAATGGCCAAACAGGTTACGTACAAAAAGCATTCATCTCTAATGGTTCACAGCCCTTAGTAAAAGGAATCACCGTTCAAAATAATACAAAATATACTGTTGCAACACCTAATCTGAATGTACGTAGCAACACTAGTACAAGTAGCGCTCTACTCGGTTCATTACAAAAAGGTACACAAGTACAAGTAGTAGAAACTGCAGGAACTTGGTATAAAATTCGTTTTGGCACAGGATACGGATATGTAGCAAAACACTATGTAGTACAAAATCAACCACAAGCCAAAACAGATCAGCCTTCATCTATTCCAGCTGCTTTCAAATTCCCTGCTCAAGGAAGAATTAGCTCAACCTTTGATATACGCTGGGAACAAATGCATTATGGTATAGATATTGCCGCTCCAGGGAACGTCTCTATCCAAGCTGCTGCTGCAGGTAAAGTTGTGAAATCTTATTATTCAGCTAGCTATGGCAATGTTGTTTTCATTGCGCATCAAATCAATGGGAAATTATATACAACTGTTTATGCTCATATGAAGGATCGCACTGTACAAGCTGGTGATCAAGTACAAACTGGACAATTAGTAGGTCATATGGGAAACACCGGTCATTCATACGGGCAACATCTTCATTTTGAATTACATAATGGAGAATGGAATTTTGAAAAAACAAATGCAGTAAATCCACTGCCATATTTAGTTAGGTAA	MNMKATALTATTVAIASLLPSMGETNVQKANAEQLSNIKTGYVKVDQVALHTEDSVKSTSIDTIRFNTKVNILEITNGWYKVSVHNKVGYVQKDAILLKNKLRSNDQYIVNANALNVRSEPNLESSILDVLPNGKFITVQEDQGEWYKISHNGQTGYVQKAFISNGSQPLVKGITVQNNTKYTVATPNLNVRSNTSTSSALLGSLQKGTQVQVVETAGTWYKIRFGTGYGYVAKHYVVQNQPQAKTDQPSSIPAAFKFPAQGRISSTFDIRWEQMHYGIDIAAPGNVSIQAAAAGKVVKSYYSASYGNVVFIAHQINGKLYTTVYAHMKDRTVQAGDQVQTGQLVGHMGNTGHSYGQHLHFELHNGEWNFEKTNAVNPLPYLVR				NA	NA	NA	NA	NA
AK009_05462	333			hypothetical protein	ATGCCACGCAATATACCTCTTATAATTGAATACGTAGCCTTTTTAGGTTTAATCTGTTGTTTAATCATTTACAATACAAACATTGTATTTTTATCTATTATTATTGCTTTTGTTGCATTAGAAATTATGATGGAATCATTTCAAGTGCAACTAAAACAAAAAATTGCCCATATTTATAACGCTATATTTCTTTTGAGTGCTCTCATAACAAATATAATTAGTAATGGCTTTTATTTATCTACTGTATTTCCAATATTCTTTATGGCTGTTTTATTATTTGTAGCTAGATATATTAATGTCCCTTATAACCAAAAACAAGAACAAGAAGCTTAG	MPRNIPLIIEYVAFLGLICCLIIYNTNIVFLSIIIAFVALEIMMESFQVQLKQKIAHIYNAIFLLSALITNIISNGFYLSTVFPIFFMAVLLFVARYINVPYNQKQEQEA				NA	NA	NA	NA	NA
AK009_05463	1152			hypothetical protein	ATGAAGGCTGTACAGGGCGATCCAAATTGGAATTTGGTTACAGATACATATATAGAACCAAATAATTTCGCTGAATTATTTTCTTTGCTTGTACCTTGTCACCCAAAAGGTGAGGGGAAAGAACGAACTATATTAGTATGGAAAGAGAAAGAATTTTATAAAGAAGAAAATTTAGCGGCATTTATCGTATATGGCATGAATAAAGTAAAGAATTTACCGCAGTTTCATAAAGATGAAATTCCAACTTTAGTGCGTATTCTTCGCTTATGCCAAGAGATTGGTTGGTATGAAGAGGCAAATGCTTTTATGATAGCGCAAGGATTAGCTGAGTTTGTTCATACTTCATTGGAATATGAAACATGGGATCTTTTGACGCAATCAGTTGCTTTAAACTATTTAATTATTAAATATCGTATAGGTGAACTGACAGATAGGGATATTGAAATTTGGGATAGAGTTAAATTTAATGAGAAATGTATAACCGATTGTAAACATTTATTATCTCATAAAGAAGTATTGGAGTTTACATTCTTTTATATGTGCAAGAGAGCGAAATCATTATCAAAAGAGCAATTAAATAGTGATATGATGAGTTTAGCAATGTATTGTAATACTTTCGTATATGATTTATATACACATGATTTATTACGTAAATATCGTAAGTGTACAGATTTCCTATCATATTATGGACCTAGTCAGGCAGTTTTAGCATGTCAAAGAGCTGTATTATCTCAAATTTCCGATCGCTTAGACCCGTTAAAGACAACTCATGTAGATGATTATTTATATGTGATGAAAGAAATGATGGAGCATATGACGCTAGGAGTAATGGATCGATACGGTCATTTTATTGGAAAGCTACTATCTTATGTGCCATTTTTCGAAATGATACAAGTTCCACAGCATGCATATTATTGTGAAGAATTACTGTATATTTGTAAGGGCATTGAATATAAAGAAGAAACACTACGCAATTATATATTTATACAATTACATGATTGTTTACCATCATTCTTTAGGCTATTTCTTAAAAATAAGCGTTACGCAACGATTCATGATATTCTTTTCTATTGGTGCGATGACGAACAACGAATGAGCTTAGAGAAAAAATATAATCTGAGCTTTATTTATGAAAAATATGCTTGTGGATAA	MKAVQGDPNWNLVTDTYIEPNNFAELFSLLVPCHPKGEGKERTILVWKEKEFYKEENLAAFIVYGMNKVKNLPQFHKDEIPTLVRILRLCQEIGWYEEANAFMIAQGLAEFVHTSLEYETWDLLTQSVALNYLIIKYRIGELTDRDIEIWDRVKFNEKCITDCKHLLSHKEVLEFTFFYMCKRAKSLSKEQLNSDMMSLAMYCNTFVYDLYTHDLLRKYRKCTDFLSYYGPSQAVLACQRAVLSQISDRLDPLKTTHVDDYLYVMKEMMEHMTLGVMDRYGHFIGKLLSYVPFFEMIQVPQHAYYCEELLYICKGIEYKEETLRNYIFIQLHDCLPSFFRLFLKNKRYATIHDILFYWCDDEQRMSLEKKYNLSFIYEKYACG				NA	NA	NA	NA	NA
AK009_05464	420	hrp1	COG0517	Hypoxic response protein 1	ATGACACAAGTTAGAGACTTAATGAGTACCCATATTGTACATTGTACACCACTAGACAATGTATATGAGGCAGCTGTAAAAATGAAGGAAGAATCGGTTGGATTAATTCCTGTTGTTGAAAATGAGCAAGTTGTTGGGCTTGTTACTGATCGAGATTTAGTTGTTCGAGGGATTGCTGAAAAACATCCTGGATCTAATAAAATTACAAATGTAATGACAACAAATATTATCTCAGTTTCTCCAAATGATTCTATTGAAAAGGCTACAGAGCTAATGGCACAGTATCAAATTAGACGGTTACCAGTAGTTGATAGTGGTCAGCTTATTGGCATGTTAGCACTAGGAGATTTAGCTATAAGGGAATCGGCAGATGATCAAGCTGGATTTGCCTTGAGCGAAATCTCAGAGCATACAGAATAA	MTQVRDLMSTHIVHCTPLDNVYEAAVKMKEESVGLIPVVENEQVVGLVTDRDLVVRGIAEKHPGSNKITNVMTTNIISVSPNDSIEKATELMAQYQIRRLPVVDSGQLIGMLALGDLAIRESADDQAGFALSEISEHTE				NA	NA	NA	NA	NA
AK009_05477	339			hypothetical protein	ATGAAAACTATACAGCGGATTGCTTTAGCATTAATTATTATCGGTGCTATTAATTGGGGATTAATTGGATTTTTTAAGTTTGATTTAGTAGCTGCAATATTCGGTGGACAAGGCGCCTTTTTATCGCGGGTTGTATTTGCTCTTGTTGGTTTAAGTGGATTAATGTGCATAACTCTTTTATTTCAGCTAATGAGGGACGTAAATCAGGATTTCAATTATAACAAATCAACAGAAATAAATTATGGTACCGAATTTGGTGAAGAAACAGATATAGTAGATCTTAGAGAATCTTCAAATCAAAACTATACATCTAAACAACGTAATTCTCTGGATGATTAA	MKTIQRIALALIIIGAINWGLIGFFKFDLVAAIFGGQGAFLSRVVFALVGLSGLMCITLLFQLMRDVNQDFNYNKSTEINYGTEFGEETDIVDLRESSNQNYTSKQRNSLDD				NA	NA	NA	NA	NA
AK009_05478	174			hypothetical protein	GTGGATATTCGTGAAGGATTAATTCCAACAGCACTAGGTACAGCAGTGACAGCAGCAGGTTATGTTCTTAAACAAACTCGTGGAACTAATAAAATGATTGCAAATACAGTATTTGAATTTGGTTTAGCTCACGTTGTTTTAGGTGTAATTGATCTTGTAGAACATCGTGGTTAG	MDIREGLIPTALGTAVTAAGYVLKQTRGTNKMIANTVFEFGLAHVVLGVIDLVEHRG				NA	NA	NA	NA	NA
AK009_05479	363			hypothetical protein	ATGGAATATAAAGATAAAACTTCTACTGAAGCTGCACTATTACAATACAAATATGGATTAGGTGTATTTGCTGAAAAAATGCCCAAACTCACTGATAAATTCCATTATTTTACAGAAGAGTGTTTCAAAGATGGTACGTTATCAAAGAAAGAAAAACAATTGATTGCATTGGGCATAAGTCTTTATTCTCAAGATGAGTATTGCATCATTTATCATACAAAAGGATGTATTGATCAAGGTGCTTCAGAACAAGAAATTCTTGAAACAGTTGGAGTAACAGCAGCATTTGGCGGAGGCCCCACTATGAGTCAGGCAGTCACACTTGTTCAAGAATGTATAAAAGAATTAAATAACCATAATTAA	MEYKDKTSTEAALLQYKYGLGVFAEKMPKLTDKFHYFTEECFKDGTLSKKEKQLIALGISLYSQDEYCIIYHTKGCIDQGASEQEILETVGVTAAFGGGPTMSQAVTLVQECIKELNNHN				NA	NA	NA	NA	NA
AK009_05480	456	tspO_2	COG3476	Tryptophan-rich protein TspO	ATGAAAAAATCTAGTATTATAGTCTTTTTACTAACATATGGTTTATTTTATGTTTCTAGTATTTTATTTCCTATTGATCGTGCTTGGTATGATGCGTTAGAAAAGCCGTCTTGGACACCTCCTGGTATGACAATCGGCATAGTTTGGGCTGTATTATATGGACTTATTGCATTATCAGTTGCAATTATTTACAACAAATATGGATTTAAGCCAAAAACATTTTGGTTTATATTCCTTTTAAATTATATGTGCAATCAAGCGTTCAGCTATTTTCAATTTAGCCAAAAGAATTTGTTTTTAGCAACAGTAGATTGTTTACTAGTCGCTATTACTACGTTACTTCTCATTATGTTTTCTTCCAATTTATCTAAAGTATCGGGATGGTTGCTAATCCCATATTTTTTATGGGCTACATTTGCTACGTACTTATCCTGGATAATTTATAGTATTAATTAA	MKKSSIIVFLLTYGLFYVSSILFPIDRAWYDALEKPSWTPPGMTIGIVWAVLYGLIALSVAIIYNKYGFKPKTFWFIFLLNYMCNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSGWLLIPYFLWATFATYLSWIIYSIN	PGPT0014330_2071	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
AK009_05481	1431	phrA_2	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCAAAAAAAAATTATTGTTATGTTTCAAAAAGATTTTCGCTTATATGATAACCCAGCTCTATTTGAGGCTGTTCAGTCTGGTGAGGTTCTTCCGGTATATATACAAGATGAAACTTTTTCAATAGGAAGTGCGGCAAAGTGGTGGTTACATCATGCTATAATAGATGTCCAAAAACAACTTAAGGCACTGGGCTCTACTTTTATAATACGTAATGGAAAGACACAAGAAGAAATACTTTCTCTTATAGAACAATTAGATATAACGGCTGTATATTGGAATATTTGTTATGACCCGGACAGATTAAAATCTAATCAAAAAATGAAAATGATGTTAGAAGATAAAGGTATTATCTGTAAAGAATTTAACTCACATTTATTATTAGAACCGGGGATTATTAAAAAGAAAGATAACACTGAATATAAGGTGTTTACGCCTTTTTACAATGCATTTCAAAAGCAGGTAATACCTAAACCTATTAGGAAAGTGCAGAGTATAAAGTGGGGAAACTCTTTACCAGCAAGCTTATCTGTTTCAGAATTACACTTGCTGCCAACTATACCGTGGACATCTCATATGGAAGCAATATGGGATCCGACAGAAGAAGGGGCATATAAAGCATTTAAGAAATTTTTCTCTAGCAAATTAGCTTCTTATAGTGAAGGAAGGGATTTTCCAAATCAAAATACTCATTCGATGTTGGCACCTTATCTTTCATTTGGCCAAATATCAGTGAGCTGGATGTATCATTACTTAATAAATAAAAGTACCGAAAGACAATGTAGTCTTTTTGAAGAACAAGTGAATAGTTTTATACGTCAATTAATTTGGCGAGAGTTTTCTTATTATTTACTATATCATTATCCATTTACAGTATATAAACCTCTTAATAAGAGCTTTGAAAATTTCCCGTGGGATAAGGAAGAGGAGTTATTAAGAGTATGGCAAAAGGGGAAAACTGGTTATCCGTTTATTGATGCGGGAATGAGAGAACTATGGCAAACAGGTTTTATGCATAATCGGGCAAGAATGGCTGTAGCCTCTTTTCTTGTAAAGCATTTGTTAATTCCGTGGCAGGAAGGAGCAAAATGGTTTATGGATACACTACTAGATGCTGATATTGCAAATAATACAATGGGATGGCAATGGGTTGCTGGAAGTGGAGCAGATGCATCACCGTACTTTCGTATTTTTAATCCTATCACACAAGGAGAAAAGTTTGATAAAAATGGAGAGTATATAAGAAAATGGGTACCAGAATTAAGAGATATACCGAATAAGTATATACATAAACCTTGGGAAGCACCTGAGCATATTTTACAAAAGGTCAATATTAAGCTTGGTAATGCATACCCTTTGCCAGTTGTTGATCATAAGGCAGCACGGGAGAGAGCACTTTGTGCATATAAAAGTATGAAAGAACTTGTATAA	MQKKIIVMFQKDFRLYDNPALFEAVQSGEVLPVYIQDETFSIGSAAKWWLHHAIIDVQKQLKALGSTFIIRNGKTQEEILSLIEQLDITAVYWNICYDPDRLKSNQKMKMMLEDKGIICKEFNSHLLLEPGIIKKKDNTEYKVFTPFYNAFQKQVIPKPIRKVQSIKWGNSLPASLSVSELHLLPTIPWTSHMEAIWDPTEEGAYKAFKKFFSSKLASYSEGRDFPNQNTHSMLAPYLSFGQISVSWMYHYLINKSTERQCSLFEEQVNSFIRQLIWREFSYYLLYHYPFTVYKPLNKSFENFPWDKEEELLRVWQKGKTGYPFIDAGMRELWQTGFMHNRARMAVASFLVKHLLIPWQEGAKWFMDTLLDADIANNTMGWQWVAGSGADASPYFRIFNPITQGEKFDKNGEYIRKWVPELRDIPNKYIHKPWEAPEHILQKVNIKLGNAYPLPVVDHKAARERALCAYKSMKELV				NA	NA	NA	NA	NA
AK009_05482	582			hypothetical protein	ATGAATACAAAGCTTTTTATGCTGGGTCTTCTTATGGAGAAAAATAGGCATCCGTATGAAGTCCAGCAACTTTTAAAAAATAGTGAAATGAAATACTATATAAAAATTACTAAAGGCTCTTTATATTACACATTTGAGCAACTTGAAAAGAAGGACTTTATAGAAATTGTTGATATTATTCGTAATGAACAACGTCCTGAACGAACTATCTATGGTATTACTACAAGTGGTAAACAAGAATTTGAGCATTTATTATTAGAACAAATGATAAAGCAAGAGGATATGCATCGTCCTATATACGAAGCATTACTTTTTGCACAGTATGGTGATGACAGATTAATTCTAGAACAGCTAAGAATTAAAATATCTCAATTAACCTTATACCTTACTACTCTTCAAAAAGTGTATGAGGACAAATACGGAAAAGAGAGCATGGCTAAATTATATATACTATCTAGTGTTATTTTACATCTAAAAACGGAGCTGAAAGTCTTGGGGAATTTATATGCTAATATGAAAAATAAAAAAATAGGCAGTATAGGAAATGACGTACTTAGAGATATTGAAAATCAATGTTTGTAG	MNTKLFMLGLLMEKNRHPYEVQQLLKNSEMKYYIKITKGSLYYTFEQLEKKDFIEIVDIIRNEQRPERTIYGITTSGKQEFEHLLLEQMIKQEDMHRPIYEALLFAQYGDDRLILEQLRIKISQLTLYLTTLQKVYEDKYGKESMAKLYILSSVILHLKTELKVLGNLYANMKNKKIGSIGNDVLRDIENQCL				NA	NA	NA	NA	NA
AK009_05483	1527	bmr3_5		Multidrug resistance protein 3	ATGGTTGCAAAAGAGAGCAACTTACGCTTAGTGATAGCTGGGTTAATGCTAGGCATTTTAATGGCTGCAATGGATAATACAATTGTTGCCACTTCAATTGGTACAATTGTCTCAGATTTGGGTGGATTGGATAAATTCGTCTGGGTTACTTCTGCTTATATGGTTGCAGTTATGGCTGGTATGCCTATTTTTGGGAAATTATCTGATATGTATGGTAGAAAGAGGTTCTATATTTTTGGTTTATTAATCTTCTTAATTGGTTCTGCATTATGTGGTACTGCGCAAAGTATTGTTCAGCTAAGTATTTATCGTGCAATTCAAGGTATAGGTGGGGGGGCACTGATGCCAATCGCTTTTACCATTGTATTTGATATTTTTCCTATTGAAAAAAGAGGGAAAATGACTGGATTATTAGGGGCCGTATTTGGTTCTTCAAGTGTATTAGGACCTTTATTAGGTGCGTATATAACAGAAAATATTAGTTGGCATTGGATTTTTTACGTCAATATTCCAATTGGTCTAATGTCATTAATTTTTATTTTAAAAGCTTATAAAGAAAATAATCCACCTACTAAGCAAAATATTGATTGGTGGGGGGCGATAACACTCGTAATAGCGGTAATTAGCTTAATGTTCGCTTTAGAATTGGGAGGAAAAGAATTTAAGTGGGATTCGATACAAATCATTGGGGTATTTGCATCGTTTATTGTATTTTTTGTTGGCTTCCTATTGGTAGAAAGAAAAGTGAAAGATCCGATAATATCATTTTGGATGTTTAAGCGTAAGGAGTTTGCAATATCACAAATTATTACGTTTTTCTATGGAGCAACATTTGTTATTCTAACGGTATTTATTCCTATTTTTGTTCAAGCTGTGTATGGTGGATCAGCAACTAATGCTGGGTTAATTTTAACCCCAATGATGTTAGGTTCTGTGGTAGGTAGTGCAATTGGTGGAATATTTCAAACGAAAATTAGTTACCGCAACTTGATGCTACTATCTGTAATATCCTTTGGGATAGGTATGTATTTATTAGGAACGATGGATCCGCAAACAAGTCGTGTGCTTTTAACGATATACATGATTATAACGGGATTTGGAGTTGGATTTTCGTTTTCTTTGCTTCCCACAGTTTCTATTCATAATATGGAACCGAGATTTCGTGGTTCAGCTACTTCAACAAATTCATTCTTTCGTTCACTAGGTATGACAATTGGAGTAACGATTTTTGGCTCCATTCAAAATAGTGCCTTTACAGCTAACTTAAAGGATGCTTTTAAGGGAATAGAACACGGTTCCAGCATGTTAAATAATCTAGGTGATCCAAGTACAATATTTCGCTCAGATGTAAGGTCCAGTATCCCTACTTTTATTCTTGAAAAAATTATAGCTGCTATGTCATCTTCAATTACTACTGTATTTCTATTAGCTTTAATTCCAATTACAGTTTCGTTTATAGCAATATTATTTATGGGGAATGTCAAAGCAGGTACAAAGAATAATGATAAAGTAAATGTAAAGTCATAA	MVAKESNLRLVIAGLMLGILMAAMDNTIVATSIGTIVSDLGGLDKFVWVTSAYMVAVMAGMPIFGKLSDMYGRKRFYIFGLLIFLIGSALCGTAQSIVQLSIYRAIQGIGGGALMPIAFTIVFDIFPIEKRGKMTGLLGAVFGSSSVLGPLLGAYITENISWHWIFYVNIPIGLMSLIFILKAYKENNPPTKQNIDWWGAITLVIAVISLMFALELGGKEFKWDSIQIIGVFASFIVFFVGFLLVERKVKDPIISFWMFKRKEFAISQIITFFYGATFVILTVFIPIFVQAVYGGSATNAGLILTPMMLGSVVGSAIGGIFQTKISYRNLMLLSVISFGIGMYLLGTMDPQTSRVLLTIYMIITGFGVGFSFSLLPTVSIHNMEPRFRGSATSTNSFFRSLGMTIGVTIFGSIQNSAFTANLKDAFKGIEHGSSMLNNLGDPSTIFRSDVRSSIPTFILEKIIAAMSSSITTVFLLALIPITVSFIAILFMGNVKAGTKNNDKVNVKS				NA	NA	NA	NA	NA
AK009_05484	1218	dadA		D-amino acid dehydrogenase	ATGGATTTACAGAAAGGGAAATTATATTGGAACACGACTTTTTCTAATACACCTTCTTATCCTCGTTTGGACGAAGATATAAAATGTGACGTACTAATAATAGGAGCAGGAAGTTCGGGTGCTCAATCCGCATACTATTTGAGTGAATCAGATTTAAATATTGTTATCGTTGATAAAAGAAAGGTAGGACATGGAAGTAACCTTACAAATACAGCACTTATTCAATATTTAGGCGATAAGATGTTTTTTGAACTTGTAAATACATTTGGAGAAGAGTATGCAGTTAAGCATATGAAATTATGTGAACAAGCTATTAATGATATTGAATATGCTGATCAAAACTTGCCTTATTGCTCTGATTTTAAACGACGTGACAGTTTATATTATGCAAGTTATGAAGAGGATATAAAGAAATTAGAAAAAGAACTGTATTATTTACATAAGCATGATTTTAAAGCGACTTGGCTATCAGAGGAACAAATTGGACAGAGATATCCATTTAAAAAACGTGCAGCTATTTATACGTATAATGATGGTGAAATAAATCCTTATAAATTTACACATAGTTTATTAGAACAAGCCTCTAATAAAGGAGTTCACATTTATGAAGATACAGAGATTATTGGCAAAAAGTTAGAGAAAGAATGTGCTATCTTTTATACAAAGGGGGGCAATTCTATTACTGCCAATAAAGTAATTGTGGCTGCAGGATATGAAGGGTTGGAATTTAAAAAGGAAAAGAACGCTACACTGATTAGCTCATATGCAGTTGTTACTAATCCTGTAGAAAATTTATCTTCTTGGTATAAACGTACTCTCATTTGGGAAACTGCGAGACCATATATTTATATGAGAACTACTGCAGATAACAGGATTATTATAGGTGGGTTAGATGAAGATACAAACATTGCTCAAGAAAGAGATTCAAAATTAATCCATAAAAAAGAGAAATTAGTAAATGAATTTAATAAGCTCTTTCCCAATATAACAGTTGAACCTGAATTTTATTTAAGTGCTTTTTATGGTGGTACTCATGATGGTTTACCTATAATTGGAATGTATGAAGAGTTTCCAAATTGTCACTTTATCTATGCGTATGGAGATAATGGATTAGTATATAGTATGGTACTTTCTAAAATTGTTCGAGATATAATTATTAACGGTTCAAGTCCGGATTCGAATTTATATTTACAAACTAGGCCAAAACTAAATGAGTAA	MDLQKGKLYWNTTFSNTPSYPRLDEDIKCDVLIIGAGSSGAQSAYYLSESDLNIVIVDKRKVGHGSNLTNTALIQYLGDKMFFELVNTFGEEYAVKHMKLCEQAINDIEYADQNLPYCSDFKRRDSLYYASYEEDIKKLEKELYYLHKHDFKATWLSEEQIGQRYPFKKRAAIYTYNDGEINPYKFTHSLLEQASNKGVHIYEDTEIIGKKLEKECAIFYTKGGNSITANKVIVAAGYEGLEFKKEKNATLISSYAVVTNPVENLSSWYKRTLIWETARPYIYMRTTADNRIIIGGLDEDTNIAQERDSKLIHKKEKLVNEFNKLFPNITVEPEFYLSAFYGGTHDGLPIIGMYEEFPNCHFIYAYGDNGLVYSMVLSKIVRDIIINGSSPDSNLYLQTRPKLNE				NA	NA	NA	NA	NA
AK009_05485	486			hypothetical protein	TTGTTAATAGACATTGAAAACGGAATAGAGGCTATTATTCAACAAATAACTAACGTTCAACGAGAAAACATGTTGACTATACGCAGCTACTATTCTGTAATTGCACATCCTTATGGAGATATAGTGAGATCTGTTATTATTGCTATTTATCAAGAGAATGTTGAAGAAATTTTTGTTGTAGGAATAGAGGACAAACAAACTTCTTCAGTTAATCTACAAACTCAACGTGATTTTACAAAAGATAATATAGAATTAGACTATCTCTTTAAAAATTGCATGCCTGAATTTTCAAATGGTACCCTTAATGAATGGCTTATTAGACAAGAAAATGTTAGTGAAAATATTGAGAAGAGTATAGATGCGATTCTTCATCTTCCACTAGTGCCTCCTGATGTTAAAGTTCATGGTTTCATGATTGATAAAACAGGTGGAAAAGAAACAGTTGTTGAAATTCCTGCTAATAAAGTATTTGAATACATTAATTAA	MLIDIENGIEAIIQQITNVQRENMLTIRSYYSVIAHPYGDIVRSVIIAIYQENVEEIFVVGIEDKQTSSVNLQTQRDFTKDNIELDYLFKNCMPEFSNGTLNEWLIRQENVSENIEKSIDAILHLPLVPPDVKVHGFMIDKTGGKETVVEIPANKVFEYIN	PGPT0002415_7486	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK009_05486	312			hypothetical protein	ATGAACTGTAATGATAAAGTAATGCATATTTTAGAAAATTTAAGACCATGTTTCCAAGGGTTGGGAGATCCAACTCGTCAGCAAATTGTATCGCTTTTAATTGATAAAGATAGCTTGAATGTGACGCAAATTGCGGAGCATATTCCCATGTCAAGACCTACTGTATCTCATCATTTGAAAATATTGAAACAATCAGGGTTACTTCGAGTTCAGAAAAAAGGCACTGAAATGTATTATTGTCTTGAATTTAATGAAACAATAAATCTTTTAAAAGAACTTGTTTCTTTAGTTGAAGATGAATGTCAGAATTAG	MNCNDKVMHILENLRPCFQGLGDPTRQQIVSLLIDKDSLNVTQIAEHIPMSRPTVSHHLKILKQSGLLRVQKKGTEMYYCLEFNETINLLKELVSLVEDECQN	PGPT0004735_4645	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK009_05487	1089			hypothetical protein	ATGAATAAGAAAACAGTATTAATTGTTGGTGGGTATGGTGTTGTTGGTAGTCAAATTGCTCAAATTTTACATGATCGACATCCTGATTTGGAAATTAGATTAGGAGGAAGAACTTTAGGGAAAGCGTTACCTTTTGAATCAGATAGAGTAAAAATAGTCACTGTAGACAACACAATAGATGATCCTTTAAGAAATTTGGATGATAATTTCACATTAGTTGTTAATGCGGTTAATGACCCGCAAGATAGACTACTTCTATCTGCAGTTCAAAAAAAAATTCCATTGGTTGACATTACTCGTTGGACTGAACGTTTTAAGAGTTCTATTGATCGATTAAAAAATGTTGAGGTCCAATCCCCTGTTGTATTAGCTTCAGGGTGGATGGGAGGGACAGCAGCCCTTTTTGCTAAAATGTATTCAAAAGATCTTCAAGAGGTTACGGTTGATATCAACGCACTATATTCTCTTCAAGACAAAGCAGGACCAAATTCAACAGCATATATGGACCGGTTAACGATTCCATTTGAAGTCAAAGCTCCAGAGGGAATGCGACAGGCTTATCCAATGACTGACCCAATCAAAGTCCGCTTTCCCAACGGTTATATAACCAAATGTTATCGTTTGGATACTCCTGATCACGTAACCCTGCCAGAATCAATTCATGCTGTTTCGGCTAACTTTCGGATTGCTTTTGATAGTAAAATATCTACATATGGACTGGTTTCTCTGGTGAATACAGGAATTTGGAAACTGATTAGTGGAGAAAAATTTAATGACTTACGAAAAAATATTCTTTATAAACCCGGAAGTGGAAGTGCACATAACATAGTTATTCACCTTAAAGGTTATGATGCTACTGGTGTATTGCATAGACGATGTGTGAACATATCCGATCCGTTAGGACAGACACATCTTACGGCTTTAGGAGCGGCTGTCCAAGCAGAGAAAATTTTACAAACATCTGATATTGTGGTTCGGGATTCTGAAATTTACTTTCCGGAAAATCTATTAGATTTGGGTGTGAATGCATCTGTAATTATAGATTTTTATAGAGAATATGGGGTCACTATTACGAAAGAAAATATATAA	MNKKTVLIVGGYGVVGSQIAQILHDRHPDLEIRLGGRTLGKALPFESDRVKIVTVDNTIDDPLRNLDDNFTLVVNAVNDPQDRLLLSAVQKKIPLVDITRWTERFKSSIDRLKNVEVQSPVVLASGWMGGTAALFAKMYSKDLQEVTVDINALYSLQDKAGPNSTAYMDRLTIPFEVKAPEGMRQAYPMTDPIKVRFPNGYITKCYRLDTPDHVTLPESIHAVSANFRIAFDSKISTYGLVSLVNTGIWKLISGEKFNDLRKNILYKPGSGSAHNIVIHLKGYDATGVLHRRCVNISDPLGQTHLTALGAAVQAEKILQTSDIVVRDSEIYFPENLLDLGVNASVIIDFYREYGVTITKENI				NA	NA	NA	NA	NA
AK009_05488	2268	gshAB	COG1181	Glutathione biosynthesis bifunctional protein GshAB	ATGGAAATGAAAAAAATGTTAAACAATGACCGTATTAAACCATATGTATTAAAAGCACGTTTTGGCGTTGAAAAAGAAAGTCAACGAGTTGATCTATCAGGAAGTTTAGCTAAAACAGAACATCCCAATAGTATTTCAGTAAGAGATGATCATCCTTATATTCAGCGGGATTTCTCTGAAACACAGATGGAACTAATTACACCTGTTACCGAGACACTAGGAGATTTATTTAATTACTTAGCAGCTATCCATGATGTAGCCTATCGTTCTATGGGGGAAAACGAAATGCTTTGGCCATTAAGCATGCCACCACAGTTGCCCGAAAAAGAAGAAGATATTGTTATTGCGAAACTTAATAATCATGAAAATGTTTTATATCGTCGATATTTATCTAATTCTTATGGTAGACGAAAACAAATGATTAGTGGTATTCATTACAATTTTGAATTTAGTGATGATTTGATTCAGGCATTATTTGAATTACAATCAGAAATAAAGGATTATTATCAATTTAAAACAGAAATTTATCTGAAAGTCACAAGGAATTATTTACACTATCGATGGTTAATAACTTATTTTTTTGGTGTTTCTCCTAGTAGTGAAAAGAATTTCTTTGAAATAAATCCTTTAAATGGCGCCGTAAGAAGCATTAGAAATAGTAAACATGGTTATAGTAATGAAAATGATGTTCAAGTATCCTATAGTAGTTTACAGAACTATATATCTGATCTTTCTTCGCTGGTGAATAAAGGGGTTTTATTAGAAGAAAAAGAATTTTATGCCTCTGTCCGTTTAAGGGGCGGTCCTCAAGTTTCAGATTTAAAAAATCATGGTATTCGTTATATTGAATTAAGAAACCTAGATTTAAATCCTTTTGAAACATATGGAATTAGCCATGAACAAGCAGAATTTCTACATCTTTTCCTTATCTATTTACTCTGGATTGACCAAGACGATAATAATGATGAATGGGTAAAAATCGGTGAATTTCAAAATAATGTAGTGGCTCTTGAACATCCGTTAGAACATACGCAATTTAAAACAGATGCTGAGCGTATTATTGATGAAATGGAACATTTAACAGGGCTGTTAGACATAACGATTTCGAATACCTTGTTTGTTAACTTGAGAGAAATGCTAACAGATCCAAGTAAAACTTTAGCTGGAAGACTTTATAAAGAGATTATAAAAAGTAGTCAAAGTCAGGTAGCTTACCGTATTGCTAAAGAAAATTATAAAAAAGCATGGGATAAACCATATCAACTATCAGGATTTACTGACATGGAGTTGTCTACACAAATTTTAATGTTTGATGCTATTCAACAAGGAATACAAGTAGACGTTTTAGATCGACAAGATCAATTTTTAAAACTACAGCTAGGAAATCATGTTGAATATGTGAAAAATGGGAATATGACAAGTAAAGATAGTTATGTATCACCATTAATTATGGAAAATAAAACAGTAACAAAGAAAATTCTTCAACAGCATGGATTTCGTGTACCAATAGGTGAGGAATTTAGTGATATAGAAAAAGCTTTACGTTCCTATGATATATTTGCAGGAAAGCCTTTTGTCGTTAAACCAAAAACAACAAATTATGGTTTAGGAATATCTATCTTTAAAGAAGACGGAGCAAGTTACGAAGACTATCAAAAAGCACTCACATTAGCATTTAAAGAGGATTCATCAGTATTAATAGAAGAATTTATTAATGGAACAGAATATCGATTTTTTGTGCTAGATGACAAAGTTTCTGCCGTTTTATTACGAATTCCTGCCAATGTTATAGGAGACGGTTCACATACAATTGAAGAGTTAGTCGCTCAAAAGAACCTGAATTCATTAAGAGGAATGGACCATAGAACACCTTTAGAAAATATACAATTAGGTGAATTAGAGGTCCTAATGCTTAAAGCTCAAGGGTATCGAAAAGATTCAATTCCAACAAGTGATGAAATTGTTTTCCTGCGAGAAAATTCTAATGTCAGTACAGGTGGAGACTCAATTGATGTGACAGATCAAATTCCCGATGATTATAAGAAAATTGCCGTAGATGCTGTGTCGGCACTTGGAGCTAATATTAGTGGTATTGATTTGATTATTGAAAATACAGAAGTTCCTGCAGCTAATAAAAATGCTTATGGAATTATTGAGGCAAACTTTAATCCATCGATGTATATGCATATATATCCGTATAAAGGTAAATCCAGACGTTTAACTATCTGTATATTACATTATTTATTCCCTGAACTATCAAAAAAATAA	MEMKKMLNNDRIKPYVLKARFGVEKESQRVDLSGSLAKTEHPNSISVRDDHPYIQRDFSETQMELITPVTETLGDLFNYLAAIHDVAYRSMGENEMLWPLSMPPQLPEKEEDIVIAKLNNHENVLYRRYLSNSYGRRKQMISGIHYNFEFSDDLIQALFELQSEIKDYYQFKTEIYLKVTRNYLHYRWLITYFFGVSPSSEKNFFEINPLNGAVRSIRNSKHGYSNENDVQVSYSSLQNYISDLSSLVNKGVLLEEKEFYASVRLRGGPQVSDLKNHGIRYIELRNLDLNPFETYGISHEQAEFLHLFLIYLLWIDQDDNNDEWVKIGEFQNNVVALEHPLEHTQFKTDAERIIDEMEHLTGLLDITISNTLFVNLREMLTDPSKTLAGRLYKEIIKSSQSQVAYRIAKENYKKAWDKPYQLSGFTDMELSTQILMFDAIQQGIQVDVLDRQDQFLKLQLGNHVEYVKNGNMTSKDSYVSPLIMENKTVTKKILQQHGFRVPIGEEFSDIEKALRSYDIFAGKPFVVKPKTTNYGLGISIFKEDGASYEDYQKALTLAFKEDSSVLIEEFINGTEYRFFVLDDKVSAVLLRIPANVIGDGSHTIEELVAQKNLNSLRGMDHRTPLENIQLGELEVLMLKAQGYRKDSIPTSDEIVFLRENSNVSTGGDSIDVTDQIPDDYKKIAVDAVSALGANISGIDLIIENTEVPAANKNAYGIIEANFNPSMYMHIYPYKGKSRRLTICILHYLFPELSKK	PGPT0013035_166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
AK009_05489	273			hypothetical protein	ATGTGGATTAAAAAAATGTTATTTAATTACCGTGTTAAACCATCCTTATTAAAATCTCGTTATGAGATTGAAAAGGAAAATCGACAAGTTGACTTATTTGAAAGTTCAACTGAAACGTCTAAACCCGTTTCGATAAGAGATACAAGATCATACATTCAGCCTAATACTAAAACATTAGAAGACGTAATTAATTACTTAGCAGCTATCTACGAAATACCTTCTCTCTCTGTGGATAAGAATAAAATGCTTTGGCCATTAATATCCAAATGCTGA	MWIKKMLFNYRVKPSLLKSRYEIEKENRQVDLFESSTETSKPVSIRDTRSYIQPNTKTLEDVINYLAAIYEIPSLSVDKNKMLWPLISKC				NA	NA	NA	NA	NA
AK009_05490	834		COG0627	S-formylglutathione hydrolase	ATGAGTCTTACACGTATTGAACAACATCGTTCTTTCGAAGGAGAGCAACGGAAATATAGTCATTGTTCAGAAGTTTTGCAATGTGATATGAAATTTAGTATCTATTTACCATCAAATAAAGAAAAGAAAAAAATCCCGCTTATATGGTGGTTATCTGGTTTAACCTGTACAGATGATAATTTTAGTCAAAAAAGTGGATTTCAGCGTTTGGCTGAAAAACATCAAGTTGCAGTAATCATGCCAGATACTTCACCGCGTGGAGAACACGTTTCAGATGTTGCACCATGGGATCTTGGACAAGGAGCAGGTTTTTATGTAAATGCTACCGAGGAGCCTTGGACAAAGCATTATAAAATGTATTCCTATATAGTAGATGAGTTAACATCCATTGCTGCGACTATTGTACCTAACTTTTCAGGTGAAGAAAGCATAATGGGACATTCAATGGGAGGGCACGGGGCGTTAGTGATTGGTTTAAAAAATGCTAAGAGATTCAAAGCGATTTCTGCTTTTTCGCCAATCCTAACCCCTAGTCAAATTCCATGGGGAATAAATGCTTTCACCTCTTATTTAGGTGAAGACAAAAATTCTTGGAAACAATGGGATGCTTCAGAATTAATTAAAGAAGACACGATTCCACCTATTCTTATTATGCAAGGTAGTCAAGACGAGTTTTATCCAAAACAATTGGAAGAGCATATTTTCTTAGAGAATGCTCAAAAAAATAGTCAAATGGTAACTTATAAAAAAATGGAGGGCTATGATCATAGCTACTTCTTTATTTCCACTTTCTTAAATGAGCATTTCTCTTTCCATATGAAGTATTTAAGATGA	MSLTRIEQHRSFEGEQRKYSHCSEVLQCDMKFSIYLPSNKEKKKIPLIWWLSGLTCTDDNFSQKSGFQRLAEKHQVAVIMPDTSPRGEHVSDVAPWDLGQGAGFYVNATEEPWTKHYKMYSYIVDELTSIAATIVPNFSGEESIMGHSMGGHGALVIGLKNAKRFKAISAFSPILTPSQIPWGINAFTSYLGEDKNSWKQWDASELIKEDTIPPILIMQGSQDEFYPKQLEEHIFLENAQKNSQMVTYKKMEGYDHSYFFISTFLNEHFSFHMKYLR	PGPT0002120_1989	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
AK009_05491	1116	frmA	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	TTGAAAAGTAGAGCTGCTGTTGCATTTAAGCCAGGAGAGCCACTTCAAATCGTAGAAATCGATGTAGAAGAGCCAAAAGCAAAAGAGGTATTAGTAAAAATATTATATACTTCTGTCTGTCATACAGATGCTTTTACATTATCAGGTGACGACCCAGAAGGAGTATTTCCTGCTGTATTAGGTCATGAAGGTGCCGGTGTTGTCGTTTCAGTAGGTGATGAAGTTACTTCACTAAAACCTGGTGATCATGTTATTCCACTATATACACCTGAATGCGGAGAATGTAAATTCTGTCGTTCTGGTAAAACAAACCTATGTAGTGCTGTACGAGAAACACAAGGTAAAGGTTTAATGCCTGATGGAACAACTCGCTTCTCTTATAACGGAGAGCCACTTTATCATTACATGGGAACTAGTACATTCAGTGAATATACAGTTGTGAATGAAATTAATTTAGCAAAAATCGACGAAAACGCTCCGTTAGATAAAGTTGCCTTATTAGGGTGTGGTGTAACGACAGGTATTGGTGCTGTACACAACACTGCAAAAGTCGAAGAAGGAGCTGTGACAGCTGTATTTGGTTTAGGAGCGATTGGATTAGCTGCTATTCAAGGACTAGTTCAAGCGAAAGCAAGCCGAATTATTGCAGTTGACCTGAATCCTCAAAAATGGGAACTAGCTAAAAAAATGGGAGCGACTGATTTTGTGAACCCTGCAGATTATGATCGCCCAATTCAAGAAGTTATAGTCGAAATGACAGACGGAGGCGTGGACTATAGCTTTGAATGTATTGGTAATGTTGAAGTAATGAAGTCTGCTCTTGAAGCATGTCATAAAGGTTGGGGCGAAAGTATTATTATTGGTGTAGCTGGTGCTGGTAAAGAGATTCATACTCGTCCATTCCAATTAGTAACGGGCCGAGTATGGCGTGGATCAGCCTTTGGTGGAGTTAAAGGAAGATCTGAGCTTCCAGAAATGGTTGAAGATTATATGCAAGGTGATATTGATTTAGATTCATTTATTACTCATCATTTAGAATTTAAAGATATCAATGAGGCATTTGATTTATTGCACAAAGGTGAATCCATTCGTACGATTTTAACTTATGGAGAGTGA	MKSRAAVAFKPGEPLQIVEIDVEEPKAKEVLVKILYTSVCHTDAFTLSGDDPEGVFPAVLGHEGAGVVVSVGDEVTSLKPGDHVIPLYTPECGECKFCRSGKTNLCSAVRETQGKGLMPDGTTRFSYNGEPLYHYMGTSTFSEYTVVNEINLAKIDENAPLDKVALLGCGVTTGIGAVHNTAKVEEGAVTAVFGLGAIGLAAIQGLVQAKASRIIAVDLNPQKWELAKKMGATDFVNPADYDRPIQEVIVEMTDGGVDYSFECIGNVEVMKSALEACHKGWGESIIIGVAGAGKEIHTRPFQLVTGRVWRGSAFGGVKGRSELPEMVEDYMQGDIDLDSFITHHLEFKDINEAFDLLHKGESIRTILTYGE	PGPT0006355_2286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
AK009_05492	357	hxlR_2	COG1733	HTH-type transcriptional activator HxlR	ATGGTTATTCATTATAAGGACAAAGAATTTTTTACTGGAAAAGATTTGGCTTTATCTGTGATTGGTGGTCGTTGGAAAATAGCAATTATATGGTGTTTGTTACAACGTTCCCCATTAAGGTTAAGTGAAATACAAAAAAAGCTGCCTGAAGTTAATCAACGTATGTTGATTAGACAATTGAGAGAATTAGAAGATGATAAAATAATTACTCGATGTGTATACCCCGTAGTACCTCCTAAGGTTGAGTATGAACTTAGTAAAATTGGTCATCAACTAGAGAATGTTGTAACAGCCATCTGTGATTGGGGAGATGACTTTAGTGATTTTGTAGAAAAAGATTCGGACGAACTTAGTTGA	MVIHYKDKEFFTGKDLALSVIGGRWKIAIIWCLLQRSPLRLSEIQKKLPEVNQRMLIRQLRELEDDKIITRCVYPVVPPKVEYELSKIGHQLENVVTAICDWGDDFSDFVEKDSDELS				NA	NA	NA	NA	NA
AK009_05493	645			hypothetical protein	GTGATTGAGATGATTAGTTTCTTTAGAAAGCACTGGTGTGATGTAGGGTTAGTTATGGCTATTGTTGTCTTGGGTTATTTAGTCGGGAATTTTGGAGAAATGAGTGAAATAAAGGTACTGTTAGCGTTAAGCTTTGTAGCCATTTTAGTTCATCAATTTGAAGAGTATCGTTGGCCAGGTTATTTCGCTGGTCTGTTTAATGTAGTTATATTTAAAAGTGATATACCAGATCGCTATCCATTAAATACGCAATCTGCTATGGTAATAAATATTTTGATTGCGTATGTTTTTTATTTACTTCCGGTTTTCTTTCAAAATATAATATGGCTTGGGATGGCACCTATTTTAATGGGTTTTTTTCAATTCATATGGCATGGTATTTTTGCGAATATAAAATCTAAAACAATATACAATCCGGGATTAGGTGCGGTTGTATTACTACATGTTCCGATTGGTTATGCATATATGAGATATATTCTTTTACACAATCTGGCTACAAATTCCGATTGGTTATTAGGGCTAATCTATTTTCTAATAGCTACCTATCTTTTAATTATAAAAGGAAATATGTTAATGAAAAGTAAGAAGACAAATCATTACTTTTCTAAAAAACAATTAGGTCCGTACAATGACACATTAAAGTGA	MIEMISFFRKHWCDVGLVMAIVVLGYLVGNFGEMSEIKVLLALSFVAILVHQFEEYRWPGYFAGLFNVVIFKSDIPDRYPLNTQSAMVINILIAYVFYLLPVFFQNIIWLGMAPILMGFFQFIWHGIFANIKSKTIYNPGLGAVVLLHVPIGYAYMRYILLHNLATNSDWLLGLIYFLIATYLLIIKGNMLMKSKKTNHYFSKKQLGPYNDTLK				NA	NA	NA	NA	NA
AK009_05494	588			hypothetical protein	TTGAGGGAAAACGAAAACATATCTACGAAAGAAAAGATTTTAAATACAACATTGGAGTTAATTAAAAACGAAGGTTTCGAAAGTGTAACGATAAGAAAAATTGCAGCATTGTCAGATACAAATATTGCGCTTGTAAATTACCATTTTGGCTCAAAAGAAAAGTTGATTAGTGAAACAATTAAAGTCTTATTAATTAGCTTTAAAGACACTTTTTCTATTTTAGATGATACTAAATTGCCAGCAAAAGAAAGATTAAAAATATTTTTACTTAATTATGTAATAGTAATTCGGCAATACCCCGAGTTAGTTAGGAAAATTATTGCAATGGGCACTACGGTATTTACATCTCAATACGAATATGGAGATTTTTTGAAGAGGCTCGGTTTTAGTAAAGTGAAGAATATTTTGAGTGAAATAACAAATGAAACGGATCGGGAAATTTTAATGATGATGACGGTACAAATATTCGGATCCATTTTTCTTCCAGCATTAATGATGCCAATTCTTGAATCAGGGGCAGATATAAGAATACAGCCTGTAGAAAAGCAAATTGATTTCCTATTTGAACGCTATTTTTATAAAAATTGA	MRENENISTKEKILNTTLELIKNEGFESVTIRKIAALSDTNIALVNYHFGSKEKLISETIKVLLISFKDTFSILDDTKLPAKERLKIFLLNYVIVIRQYPELVRKIIAMGTTVFTSQYEYGDFLKRLGFSKVKNILSEITNETDREILMMMTVQIFGSIFLPALMMPILESGADIRIQPVEKQIDFLFERYFYKN	PGPT0029255_971	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
AK009_05495	456			hypothetical protein	ATGAGTCAATTTGATAATTCAACAATAGAAGGTAAAAATTTTAGTGCTGTTCAAGTAGGAAAGTGGGAGGATCTGCTCCAATATAAAAATGGAAATCCATTTAAAGCTCCTGGAAAGGTATTCCTTAAAGATAAACTACAATGTACAGGGATGGAAGTTTCCCTTAATGTTTTGCCTCCAGGTATTTCAATGCCTTTTTATCATAAGCATAGAGAAAATGAAGAACTGTATATCTTTGTCAAGGGAGAAGGGCAATTTAAGATTGATGATGAAATCCTTGAAATTAAAGAGGGGACTGTCATTAGGGTAGCACAAGAAGGGGAACGAATTTGGCGTAACAATTCAAGTGAATCACTTTATTTTATTTGTATTCAAGCTATGGCAAATACCTTGGAAGAAAGTAATATTGAGGATGGCATTAGGCTAGATAAATCCGTTGAATGGCTTGAAAAATAG	MSQFDNSTIEGKNFSAVQVGKWEDLLQYKNGNPFKAPGKVFLKDKLQCTGMEVSLNVLPPGISMPFYHKHRENEELYIFVKGEGQFKIDDEILEIKEGTVIRVAQEGERIWRNNSSESLYFICIQAMANTLEESNIEDGIRLDKSVEWLEK				NA	NA	NA	NA	NA
AK009_05496	1380	pdhD_4		Dihydrolipoyl dehydrogenase	ATGAGAGAGATTGAAACAATCGTAATTGGCTCTGGACCTGGAGGATATGTTGCTGCAATCAGAGCTGCACAATTAGGGCAGCAGGTGGCAATTATAGAAAGAGAAAATCTTGGTGGAGTATGTGCTAACGTCGGTTGCATCCCATCCAAGGCACTTATTTCTGTAGGTCACCGCTTTGAGGAAGCAAAGTATTCAGAAGATATGGGTATTTTTTCTTCTGTTGTGAATGTTGATTTCGCAAAAGTTCAAGAATTTAAAAACGGCGTTGTAAAAAAATTAGTAGATGGGGTTGAGGGGTTATTAAACAGCAATAAAGTAGATGTGATAAAAGGTGAAGCTTATTTCATAGATGCTAACACGATATGCGTATCAAATAAAAATGCGGTTCAAACATATACATTTAAAAATGCAATTATAGCTACTGGCTCGCGCCCAGTTGAAATTCCACCATTTGAATTTACAAAACGTGTGATTAACTCTACAGGTGCACTTAATTTAGCTGAAGTTCCAAGTAAATTGGTTGTAATCGGTGGTGGTTACATTGGTACTGAGTTGGGCTCCGCTTACGCTTCCCTTGGTTCTTTAGTAACAATTATTGAAGGAGGTAAAGATATTTTAACTGGTTTCGATAAACAAATGACTCAAATTTTGAAAGAAAATCTTATAAATAAAGGTGTTAAAATAGTAGTAGATGCATCCGCTAAAGGTGTTGAGGAAGTCGAAAATGGTGTAATTGTTACCTACGAAATTGGTGGTGAAGAAAAGAAAGTTGATGCTGATTACGTATTAATAACAGTTGGTCGTCGCCCTAATACTGAAAATATGGGTTTTGAAAAAATCGGTATTGAGTTTTCTAACCGCGGTTTATTAAAAATTGATCAGCAATGCCGTACTAATCTTCCGAACATTTTTGCTATCGGTGATATTGTTGCTGGCCCACAACTTGCACATAAAGCGTTTTACGAAGGAAAAGTAGCTGCTGAAGCTATCGCCGGTGAGTTCTCATTTGTTGATTACTTGGCAATTCCAGCAGTCTGCTTCACAACTCCTGAATTAGCAACAGTTGGTTATACTGAAGAGCAAGCAAAGGCTGAAGATATGGAAGTTAAAGTAGTTAAATTTCCATTTTCAGCAAACGTTCATGCAATGGTTTCAAATGAAGAAAAAGGGTTCTTGAGGCTATTGGCGCGTAAGGAAGATGGTATATTAGTAGGTGCTCAAATTGCGGGGAATGGTGCATCAGAAATAATTGCCGAAATGGGTTTAGCAATCGAAGCAGGCATGACAGTTGAAGATATTGCATTAACACCTCATGCTCACCCCACTTTAAGTGAAAGTTTGATGAAAGCTGCCGAGACCTTAATTTGTAAATTTAAATAG	MREIETIVIGSGPGGYVAAIRAAQLGQQVAIIERENLGGVCANVGCIPSKALISVGHRFEEAKYSEDMGIFSSVVNVDFAKVQEFKNGVVKKLVDGVEGLLNSNKVDVIKGEAYFIDANTICVSNKNAVQTYTFKNAIIATGSRPVEIPPFEFTKRVINSTGALNLAEVPSKLVVIGGGYIGTELGSAYASLGSLVTIIEGGKDILTGFDKQMTQILKENLINKGVKIVVDASAKGVEEVENGVIVTYEIGGEEKKVDADYVLITVGRRPNTENMGFEKIGIEFSNRGLLKIDQQCRTNLPNIFAIGDIVAGPQLAHKAFYEGKVAAEAIAGEFSFVDYLAIPAVCFTTPELATVGYTEEQAKAEDMEVKVVKFPFSANVHAMVSNEEKGFLRLLARKEDGILVGAQIAGNGASEIIAEMGLAIEAGMTVEDIALTPHAHPTLSESLMKAAETLICKFK	PGPT0001380_8171	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
AK009_05497	597			hypothetical protein	ATGCGTAAAGGTGAATTGACAAAAAGAATGATTCTTGATCGTTCCTCTGCTCTGTTTAATGTAAAAGGGTATAGTGGTTCTTCGATCTCTGATATTATGCGAGAGACTGGGCTAGAGAAGGGGGGCATCTATCGTCACTTTAAAAATAAAGATGATTTAGCTATTCAAGCCTTCCAGCACACAACTGCACAAATGGGAGTGCGTTATGTCGAAGAGATAAAAAAAGCATCCAATACGTTTGATAAGTTAAAAACTGTTATTTCAGTCTTTACATCACTTGTTCATAATGATCCTCTTCCCGGAGGTTGTCCAATTATGAACGTAACGTTAGAAGCGGATGATTACCATCCTCTCATGGCAGAACAAGCACGGATAGCAATGAATCAATTACTTGGAATGATTGAAAAGATTATTACAAATGGAATTGAGCAAGGGGAGTTAAAATCAAATACTCAAGCAAAGCAGATTGCTATCTTCTGGATTTCTTCACTTGAAGGGGCACTTGCCTTGTCACGCTTATATCAAGATACAGCCTATCTTGATACAGTATCTTCTCAGCTTCTTGCTGAGTTAAAAAAACAAATTACGGCCAAGTGA	MRKGELTKRMILDRSSALFNVKGYSGSSISDIMRETGLEKGGIYRHFKNKDDLAIQAFQHTTAQMGVRYVEEIKKASNTFDKLKTVISVFTSLVHNDPLPGGCPIMNVTLEADDYHPLMAEQARIAMNQLLGMIEKIITNGIEQGELKSNTQAKQIAIFWISSLEGALALSRLYQDTAYLDTVSSQLLAELKKQITAK				NA	NA	NA	NA	NA
AK009_05498	186			hypothetical protein	ATGAATGTTAAAGAAAAGATTCACTATTTCGAAGCTGCTGAACCAAAATTAACAAAGACAGGTTTTATGGTTGTTGGGAAACATAATTTATACCTGGTTATGATGAAAGGTGGTTTATTCGGTTGCACTGAAGCTGAAGTTGTGGAATACAAGGATATTAAAGAAGTAGACTTTGATTTTATTTAG	MNVKEKIHYFEAAEPKLTKTGFMVVGKHNLYLVMMKGGLFGCTEAEVVEYKDIKEVDFDFI				NA	NA	NA	NA	NA
AK009_05499	276			hypothetical protein	ATGAATCCAAACACAAAACAGTTTATTTATGATATCCAGCAAAGAAAGAACAATTATATAGAAAATGCTCTAATAGCAATACAACACCCTAAAAAAGAGCCATCTGAACAGGTCATTCAAAATATAGTAGAGAAGATGGATATGATGATTAGTTTAGTTACTACTTACATGAGGATTGAATTAGGATCAACGGCAGAATTAAAAGAACTTCAGGAAGAAATTATTCATGCTCAAGGATATATTCAAAAACGAAAATTTGAAGAAACACAGAGATAA	MNPNTKQFIYDIQQRKNNYIENALIAIQHPKKEPSEQVIQNIVEKMDMMISLVTTYMRIELGSTAELKELQEEIIHAQGYIQKRKFEETQR				NA	NA	NA	NA	NA
AK009_05500	258			hypothetical protein	ATGTGTTATTTGGAGGGAAATGACTTTAGTGAGAAATATATGGTAAGTGTACTTAATCACTACGTATATCAGACATTACAATCGGTAATTGGTAAACATGTGGTTATTGAAACTGTAAGAGGAAAGTTAAAGGGTGTGAAACCAGATCATTTGCTCATTGAAGATACAGTACCGTTATATTGTACGCATTCAACAAATTGTATGGATTATGCCAAAACAATAATCAAAATACATCTAATTGGATTTATAGCAGATTAG	MCYLEGNDFSEKYMVSVLNHYVYQTLQSVIGKHVVIETVRGKLKGVKPDHLLIEDTVPLYCTHSTNCMDYAKTIIKIHLIGFIAD				NA	NA	NA	NA	NA
AK009_05501	234			hypothetical protein	ATGGATGCAAGGAAAGAACGCATAAAATACGAGAAGATGTCAAAGAATTATGATCGTATTTATTTAGTTTCGTTTATCCTATTAATTGTACTTGTTTGTAGTAGTGTGATTATCATAGGAGCTACAGGAGGAAAATATGGAGTGTTTTTATTGTTGGCAATTTTACTTAACGCACGTATTACGAAAGAATCTCAAAAAAAGTATGAGCAGTACTCTAATAAAGGACGTATTTAA	MDARKERIKYEKMSKNYDRIYLVSFILLIVLVCSSVIIIGATGGKYGVFLLLAILLNARITKESQKKYEQYSNKGRI				NA	NA	NA	NA	NA
AK009_05502	165			hypothetical protein	ATGAAACGCATGCCAACGCAAGAATTAAGTAACGAGTTAAAGAAGCGGAAAGGGATTACTTCTATTAAAATTGAGCCTTATGAAAAAATTGAAGTTGGTGGAATTGTTGTAGATGGACCGGCTGTTATTTTAATTAATCAAGAATACCTAAAAATTGTTGAATGA	MKRMPTQELSNELKKRKGITSIKIEPYEKIEVGGIVVDGPAVILINQEYLKIVE				NA	NA	NA	NA	NA
AK009_05504	462	carD_5	COG1329	RNA polymerase-binding transcription factor CarD	ATGTTTCAAATTGGCGATAACATTGTTTATCCAATGCACGGAGCAGGTATAATTGAAGCCATAGAAGAAAAAGAATTCTCAGGGAAAAAACAACAGTATTATGTGATAAAAATGTCAATCCGTAATATGCAAGTCATGATTCCTACGGGAAAAATATTGAGTTCGAGTATACGACCAGTTACTGATATACTTGCATTAAAACACATTATACACATTTTCCAGCATGGAGAATCAGATAGATTATTGCCGTGGAAACAAAGGCATAAAGTGAACACGGACAAAATAAAAACGGGTGAAATACAAGAAGGTGCTGAAGTTGTACGTGATTTAATGCGTATGAAGAAAGAAAAAGCACTGAATACAAGCGACAAAAAAATGTTGGATAACGCACATGAATTTTTGATTAGTGAACTAGGATTAATTAAAGGGATCACTGAAAATCAAATAAAAAGTTTCTGTTAA	MFQIGDNIVYPMHGAGIIEAIEEKEFSGKKQQYYVIKMSIRNMQVMIPTGKILSSSIRPVTDILALKHIIHIFQHGESDRLLPWKQRHKVNTDKIKTGEIQEGAEVVRDLMRMKKEKALNTSDKKMLDNAHEFLISELGLIKGITENQIKSFC	PGPT0014830_1470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
AK009_05505	435			hypothetical protein	GTGGTATTTTACAATAATGTTGCTAAGATTGCAAGTAAGCATGATCGAGATCTTGCTACATTATTAAGCCGTCTTGCAAAAGAGGAAACTCTTCAATATGCGTTTTATCGAGACGTCATTCGAACACATTTAGAATTGGAACCTAATTATTGCTATTATATTGCCAATGTGATTAAGAATTTTAAAATGCCAGGTGCCGTCATGCCTGATTTTGAAAATAGAATGGCTGTGATTGCAAAAGAAGCGAATTATGGACCACTACAATATTTTGATCAAGTACTTGATGTAGTGGTTGATTATTGGGGGTTAAAAGACTTACGACCAATTGCACCTTTAGCTGAAAAAGCAAGAATTGAGATTTTGGAATACCACACAAGATTGAAAAAAATACGGGATCGATTTGGTCGTTTTCAAGGGAAAGCTGATCTACGTTAA	MVFYNNVAKIASKHDRDLATLLSRLAKEETLQYAFYRDVIRTHLELEPNYCYYIANVIKNFKMPGAVMPDFENRMAVIAKEANYGPLQYFDQVLDVVVDYWGLKDLRPIAPLAEKARIEILEYHTRLKKIRDRFGRFQGKADLR				NA	NA	NA	NA	NA
AK009_05506	222			hypothetical protein	ATGATAAATCCTTACTGTATTAAAAACAGGGCAATAGGCTCAGTCTATACAACCCATGGAGCTCAATCAACAATGCATGCAGTATATCATGCAATGCAGCATATGCCATACTATCAACATCCCGCTATACCTTATTATGAAACCATACAATATCATCCCTCTATAGAATATACACCTCAAAGTATATATCCTACCATTTTTACAACAATTCCACTTTATTAA	MINPYCIKNRAIGSVYTTHGAQSTMHAVYHAMQHMPYYQHPAIPYYETIQYHPSIEYTPQSIYPTIFTTIPLY				NA	NA	NA	NA	NA
AK009_05507	597			hypothetical protein	ATGTACTATATTCCTTTTATGTATCCATGTCCTTATTATGTTAATGTACCGTATAACTATGGAAGACCGCCTGTCTACTGGACTTTCCCCAATGAGATAGAGTATGCAAACAGATTTGATTCTTTTAGTTTTTCCGACGGTGTTGGAAGTATTTCGTTAACAGATTATGGATCAGAACCATTTGTTGTTAATATAAATGAAGCAACAAAACAAAACAATAAGTATCGTACTGCTTTATGGACAGGTAAACATTTACAAGTTACCTTAATGAGCATCAATATTGGCGAAGATATTGGCTTGGAAATACATCCTAATGTCGATCAATTTTTACGTATTGAACAAGGTCAGGGGATTGTTCAAATGGGCAAGAGTAAAGATAATTTAAACTTTAAAAGAAATGTCTATGATGATTTTGCAATAATGATACCTGCGGGAACATGGCATAATGTAACTAATACAGGTAATATTCCGTTAAAACTTTACTCGATATACGCTCCTCCAAATCATCCATTTGGTACCGTTCATGTTACTAAAGCAGATGCATTGGCTATGGAAGAAAGTTATAGTCATAGCAATAAGAATACAGTTAGTTATTAA	MYYIPFMYPCPYYVNVPYNYGRPPVYWTFPNEIEYANRFDSFSFSDGVGSISLTDYGSEPFVVNINEATKQNNKYRTALWTGKHLQVTLMSINIGEDIGLEIHPNVDQFLRIEQGQGIVQMGKSKDNLNFKRNVYDDFAIMIPAGTWHNVTNTGNIPLKLYSIYAPPNHPFGTVHVTKADALAMEESYSHSNKNTVSY				NA	NA	NA	NA	NA
AK009_05508	1749			hypothetical protein	ATGTTTGATAATCAAAATGAACATAGGAAATGGGAAGGGATTCAGGTTGGAGCTTTGGATTCTAATTTGGTGGGGCCAACGTTTCCAGCCATTCCTTCCTTTACTTTCCCAACTGGACCAACCGGACCAACTGGAGAAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACTAACCGGACCAACCGGACTAACCGGACCAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGGTCAACTGGAGAAACCGGACCAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGACCAACTGGAGAAACCGGGTCAACTGGAGAAACCGGACCAACTGGAGTAACAGGACCTACAGGAGTAACAGGACCTACAGGAGAAACAGGTACCATGGTTTTAACAGGAGTTGGAGATCCAACATGCGCTATTGGAAATTTAGGAGATATTTACATTGACCTATCCACAGGGAGAACATATTATAAGCTCTCTCAGCCAGTTCCTCCAATGGTCAGAGCTATTCCAGCTCCTACCGGTGCCACAATTCCTGTGGGTTCAACCCAGACTTATACTACAATTGATGCAGCTTTAGCTGTCGCTAATAATGGTGACAGATTATTACTTGACGCTGAGACTTTTATAATTACATCCACTGTTACTGTTAATAAATCGATAACGATTGAGGGTCAAGGAATAGGGGCAACTACCGTCATTACTACCTTGAATACTGTAATCTCTATGTTTAATGTTACAGTATCTAACGTTATTTTTCGTGACATGTCAATCATCCAAAATTTCCCTTCTATTTTGAGTGTAGAGTCTGTTATTTCAATTAATAATTTGTTAGCAACAGGAATATATGTTGATAGTTGTGAAATTTCAGTATGCGAACTCGGTATCGCGATTAAAGCAACTGAATTCCAAATAACAAATTGCAATTTTACCTATGCACCCGCTGCTTCACCTAACAACGGATACTTCTATATCATTATTTCCTCTACTTCAGGGCAAAGTATTATTGACGGTAACACCTTTGTGTCTGACTCAGGTAACACGAGATGCAGATTTATCATCATAACCAATATAACCGTTAATTCAGGCACACTTCAAGGGAATTTAGTAATAAGCAATAATACACAAGACAACTTATCTCCCGCTACATTAAGACACCTGTTAGATATCGAGGAATTTGTTGGTACAAATTTTGGTTTGTTTCTTTTAAACAATACAACAGTAAATGAAGGAAATGTACCTGTTTTATTGTTTAACGCGGACTTTACTATATTTAAATTCATAGAAGTTAATGGTAACAGTATTCAAAATACTGCCGGAAAGGGAATTATCGGAATTGACTCGAGTTCTATCGGTCAAACACCGATTTTTAGTTCGGGTAATACAATTGCAAATCAATCTTTCACTCCAGGGTGGGCTTCTGCAACCATTCCACCTAGCTTTATTGTGGGGTATAATACAGCAGTAATTTTAGAGCCGCCTAACCTGCCATTAACTAGTTGTTATTGGCTTATGTTGATTTGA	MFDNQNEHRKWEGIQVGALDSNLVGPTFPAIPSFTFPTGPTGPTGETGPTGPTGETGPTGPTGETGPTGETGPTGETGPTGETGPTGETGLTGPTGLTGPTGPTGPTGETGPTGPTGETGPTGETGPTGPTGPTGETGPTGETGSTGETGPTGPTGETGPTGETGPTGETGPTGETGSTGETGPTGVTGPTGVTGPTGETGTMVLTGVGDPTCAIGNLGDIYIDLSTGRTYYKLSQPVPPMVRAIPAPTGATIPVGSTQTYTTIDAALAVANNGDRLLLDAETFIITSTVTVNKSITIEGQGIGATTVITTLNTVISMFNVTVSNVIFRDMSIIQNFPSILSVESVISINNLLATGIYVDSCEISVCELGIAIKATEFQITNCNFTYAPAASPNNGYFYIIISSTSGQSIIDGNTFVSDSGNTRCRFIIITNITVNSGTLQGNLVISNNTQDNLSPATLRHLLDIEEFVGTNFGLFLLNNTTVNEGNVPVLLFNADFTIFKFIEVNGNSIQNTAGKGIIGIDSSSIGQTPIFSSGNTIANQSFTPGWASATIPPSFIVGYNTAVILEPPNLPLTSCYWLMLI				NA	NA	NA	NA	NA
AK009_05509	525			hypothetical protein	TTGAACTCATATTTTCCAAACCCATTTATATTTCCTAAACAGAAGAAAAACTGTCGTAGAATTTTTCCTGCTTTCCCAGTTACTTTCCCACCTATTGTAAGGGATAGATTTCTTTATGTAGCAAATCAAAACAAAAACATGATAGAAATTTATAATATCTCCAATCCTATATTCCCTGTACATGTAGGAGAATTTAATGGAGAAAATTTAAATATTCCTTCCGGATTGGCTACTACAGGTAACATTCTTTATGTAGCAAATGCTGGCGATAATACTATAGAAATTTATAATATTTCTAATCCTATGGATCCTATACGCATAAGAGGGTTTAATGAAGGAAATTTAAATGCTCCTGCTGTATTAGCTATTACAGGTACTACCCTTTATGTAGCAAATGCCTTCGGCAACAATGTAGAAATTTATGATATTTCTAATCCTATAATTCCTGTACATGCAGGGGCATTTGATGGGACAAATTTAAATTTCCCTAATGGATTGGCTGTTTTTACATTATTCAGCTGGTGA	MNSYFPNPFIFPKQKKNCRRIFPAFPVTFPPIVRDRFLYVANQNKNMIEIYNISNPIFPVHVGEFNGENLNIPSGLATTGNILYVANAGDNTIEIYNISNPMDPIRIRGFNEGNLNAPAVLAITGTTLYVANAFGNNVEIYDISNPIIPVHAGAFDGTNLNFPNGLAVFTLFSW				NA	NA	NA	NA	NA
AK009_05510	222			hypothetical protein	ATGATAAATATGTATTGTAATAATAACAGAGTAATAGGTTCAGTCTGTGCAACGCATGGAGCTCAAGCAACGATGCATGCTGTGCATCATGCGATGCAACATATGCCACATGATCATCAATATTCTGTTGTGCAACATCAAATTATACACCATTATCCTCATGCAGGATATACACATCAAAGTATATATCCTATGGGCTTTACACCGATATCGTTTTATTAA	MINMYCNNNRVIGSVCATHGAQATMHAVHHAMQHMPHDHQYSVVQHQIIHHYPHAGYTHQSIYPMGFTPISFY				NA	NA	NA	NA	NA
AK009_05511	117			hypothetical protein	ATGGTTTTGCTAAAGGATAAACAGGTAATTATTTTTTCTGAAGAATTACTCTCGAGTCGAAATATATGTCTATTTGTTTCTGAGAAAAATGCTCAAATAAGTTTAGCATTTGTTTAA	MVLLKDKQVIIFSEELLSSRNICLFVSEKNAQISLAFV				NA	NA	NA	NA	NA
AK009_05512	555			hypothetical protein	ATGGAGCGCGAAAACATTATAGTTGCAACCCAGGAATATTTAAAACAGTTTAATTTAGGTGATTTAAGTCTTTATAAGGAAAGCACTCGAGAGCAATTTATCACGATTGAACAATATTTCTTCGAAATGGAAGAACGAATTAACAAAACGCTTAAAGAAATTAAGTCGATAAACTTAAATATTCGTGGGATATGTAAGGCAATAAGCATTTCCAAAAGTACCGTTTATAACAATCCGAATACATTGCGTTTATATATTGAAAAACGCATTGATGATATTGAAAAGCAAGATTTATTATCAAAAAATAAAGAAAGAAAAACTCAGGAACGAATGTCAGAACTTGAAAGCTTTATTGATAAATCCATTATAGATCAAATAGAATTTAATAATTTGAAAGTAAATAATGAATACTTGCAAGCTGAGGTCCATCGACTTGCCGAAAAAAATCAATTATTGGGCTTGGAACGTGCCGAACTTGTAAAAAAAATAAATGATATGGATTTAGAACTTAAGCAATTACGAAATAAAAAAGGAACTGTGGTTTCATTTAATTAA	MERENIIVATQEYLKQFNLGDLSLYKESTREQFITIEQYFFEMEERINKTLKEIKSINLNIRGICKAISISKSTVYNNPNTLRLYIEKRIDDIEKQDLLSKNKERKTQERMSELESFIDKSIIDQIEFNNLKVNNEYLQAEVHRLAEKNQLLGLERAELVKKINDMDLELKQLRNKKGTVVSFN				NA	NA	NA	NA	NA
AK009_05513	1032			hypothetical protein	TTGCTAGCATATAGAACACTAACGGAGATATACAAAGAAAGAAGGAAAACACAATATTTATTTGTAAACGATAAGGGTATAGAAGTGTCAAAAACTTTATTACGTATGCGTCTAGTGCAATTTTTTTATCGACATCAAAATCAATTACAGCTCGATAAAATTATCGATTACGATGTAAGTCAATTCTCTGTGACGCGAAAGAGAAACTACAAATCGCTAAAGTTTGTGCCAGATGATGAAATGGATAAAGATATATACTATGTTACTTTCCATCAATATCGAGTTGTATTAGCTACAATTTTATACAATAAAGGTTATCATCTAGACTTTATTCGTCAACATATGAACCATTTAACTGAAGAAATGACTCAACATTATATTAGATTTAACGAGATGAAAAAAATAGAGATAAATGCGATTGAAACATTGAAAAAGAGGTCCACAAAGGATGGTTTGACACTGAACACAAATATAAATGACATCTCTGATAAATATATAGTAGAAGAACTTCGAACTGAAGAATATCAAGAAGTGTATAATCAAATAAATAAATTTTTGAAAAAAAACAAACTGAATATTTTCACAGATATAGAAGAAATCGTATCTAAACTTTCAAGAACTGACACCCCGATTGCGGATACAGAATTAGGTATATGTGCGAAGTCCTTCAATAAATTATGTGAACGTAATCAATATATATCAAGTATTAATGATGCTTATTATCTTGGTGTTCAGATTCATTCGTTAGAAGAATTACCATTCTCGTTAAAGCGATTCCAAGAAAAAGCGAGTATCGTTGCATATAATGAAAAATTGTACGAGAAAAACCAAAAGTATCGTAATGAACTTGAAAGAGAATTAAAAGGTATCAAAAAGTATATTGAACGAAAATTGAATCCCGAGTTAATGTTACTAAAAGATGAAATAAGGTCTGGAGGGATTTGTGACAAATATCCTGAATTAGAAAGTATTGTAGAGAGCATTGATGATATCGAAAAGGAAGTGAAAAAATGGAGCGCGAAAACATTATAG	MLAYRTLTEIYKERRKTQYLFVNDKGIEVSKTLLRMRLVQFFYRHQNQLQLDKIIDYDVSQFSVTRKRNYKSLKFVPDDEMDKDIYYVTFHQYRVVLATILYNKGYHLDFIRQHMNHLTEEMTQHYIRFNEMKKIEINAIETLKKRSTKDGLTLNTNINDISDKYIVEELRTEEYQEVYNQINKFLKKNKLNIFTDIEEIVSKLSRTDTPIADTELGICAKSFNKLCERNQYISSINDAYYLGVQIHSLEELPFSLKRFQEKASIVAYNEKLYEKNQKYRNELERELKGIKKYIERKLNPELMLLKDEIRSGGICDKYPELESIVESIDDIEKEVKKWSAKTL				NA	NA	NA	NA	NA
AK009_05514	822			hypothetical protein	ATGGAGCAAAAGCTTAAATCTTTAGAAGAATTACCAACTTATAAAAATGTACGAGCAGAACTTATCAATTTAAATCTAAAAAAAATTGTGGATTTTTCTGTAACTCCTAATATAAATTTTACAAATGATATATGGGAATTTAATGAATTTAAAAGGTTTTCAAATGAGAATTGGGCATATCATTATGATTTTACCCAATTAGATACAACATATAAAAATTATGCTAAATATATGATTTTAAGAGAGTTATTTAATAGAAACCTTCGTTTTACAACTGTAAAGAAAAGATTCTATTATGTTAGAGATTTCATTTATCATTTATCTAATCATTATATGTACTATCCTAATCTTATTGATGCTTCTTTTCTTAAAGGATTTTTAGCTAATGCACCATCTGAACGGAATTTAGCAGATAAAAAACAGGCTATTAAGACGTTTTTGTTGGAGATAGAACTTAGAGTACCTGATGTTAATTTTTCGGATTGTTATAAATATCTTAATAAACATGACAGTAGGAAAATTAAAATTGAGAGAGAACAAGGGAAACATAAATTTGTTCCGCTGGATATACACAACAAAATAATTTCTCTTGCTATTCAAGATTTAAGAAATGAAGATTTACTCATTACTCAACGTGCAGCTGCGTGTATGATTGTTTTATTAGCCGACACTGGAATGCGTATCGGTGAATTCAGAATTTTAGAAATAGGTAGATTAGATGAAATAGGGGTTAAAGGTGAGTATGAAGTCTTTTATTATCTTAACTTTAAGACTTACAAAACAGTAAAAGAAAAAAATATAAATGGACTAGAAGTTTTATAA	MEQKLKSLEELPTYKNVRAELINLNLKKIVDFSVTPNINFTNDIWEFNEFKRFSNENWAYHYDFTQLDTTYKNYAKYMILRELFNRNLRFTTVKKRFYYVRDFIYHLSNHYMYYPNLIDASFLKGFLANAPSERNLADKKQAIKTFLLEIELRVPDVNFSDCYKYLNKHDSRKIKIEREQGKHKFVPLDIHNKIISLAIQDLRNEDLLITQRAAACMIVLLADTGMRIGEFRILEIGRLDEIGVKGEYEVFYYLNFKTYKTVKEKNINGLEVL				NA	NA	NA	NA	NA
AK009_05515	2370			hypothetical protein	ATGACAACAGCAACGAAGTCATTGAAATTTGATAAATTCCCAATTAAATTAAGTAAGACATTTAAACAGTATGTAGAAAATCATCTAAAAAATGAAGAGTTTAAATCTTTGTTTTGGAAATTTTTTGAGGATAGTTATTTAAATCAATGTTTTTCTTTATATGTTCGTAATTCAATTCGTTACAATTTGGAAAGATTCTTATACAGTATATTGAGAAATTACACTATCCAGCATTTTTCTTGGAAACAATATTGTGTGAGTATGAAGTGTATTCGAGAATACAAGACTTGGAGTGATAAAACCAAGAGGATAGCAAGAATAATGTTGTCCGATTTATACCTTTACACTATAGAAAATAGACATTTAAATACGGTAGATTTTAATGAACTAAAGGAAAATAAAGAATTTCTGATTCAGGAAGAACGAAGGACCACCTTAGGAAAAAAAGAGTATTTCTTAGATCGAATTAGCACTAACTTTCCTCTGGATAGTTCACTAGACCAGCTGCACTTTATTCCGGAAGGTCAAATGATAACGAGAGATAATAAGAGTAGTAAAGCCAACATACTTAACTTAAATATTTCTAACAATCAAATAAAATCCTTACTTATAGGGTTTTATCAAAGTGAAGAACAACAACCTCTTTTACTAAGGTATTTTTTATACTTGTTTCGTTATAGTTTAATGTCGATGAATAAGGAGCCGTATTCTATTGCTGATTTTACGTTCGAAGTTTTTAAAAAACAGTATCGATTTTATCAAAATCGAAGGCTTAATGAGTTAACTCTTTTATTTCATGAACAAAGTTATACACTTTCTCGATACCTTGTTCGATTTTATATATACCTTTGCAAGGTTATAAAAGAGCAAGATATTCAACACAATATTTTCGAGGGAACGCTATACAACGAACACGTTTTAGGGAAAAATTGTTTCTCTGTTTACTATGAAAGAGGATATAAGTTAATTCATTATAATCCTTTTGAAGAGGTACCGTTTGAAAATAGATGGCAACTAATACCTTCTGATGGTTATGCAAATACTTCTAAAAATAGGCCGTGCGGTATTGATTTTTTACAAATTAAAGATAAGTCTCTTCGTGAAGACTTAAAAGCTTATGCTTGGAAACAAACTAGTATGTCGGTCAGAACGATGGCAAGAAATATTTATACGCTCATTGAATTTTTGAATTTTATCTCTAGCTATAAACAATTAAACAAAGTTGATGAGAATGTTTATGTGAATGCGGATTTGCTGGAACAATGGTGTTTCTATATAGGTGGTAAAGAAACAAATACACATACAGTAAATACTTATGTAAAGGCATGTAGGAGCTTTTTGAAATTTTATAAAAATAAATATCAAATTCCGATCTTGTTAATCGATATGCTTAAGCAAAAACCTCAAGATTATGATGGTGGAAATCCAATGACTAAACATGATATCAATTCATTTTCTAAAAAGTTTCAAGAAAAAAGGTCACAGAGTATTATGGGGGAACTTTGTTATATAATTTTTAATTTGGCCACTACTACTAAAATTCGTTTGGGGGAAATATTTAATTTAGAAAGAGACTGTATTTTAGAGAAATATGAGCAAGCTGGTGTAATTCAATACTATTCAAAGGGAACTGGTAATCAAAAGATTAAATTGACTCTAACAATTGAAAAAATTAATCTTATTGAAAAGGCCATAAGTCTCACGGAAAATGCATATAGTCAAGCTAGTACAGATATTAAAAAATATATATTTGTGAAAGAAGATGACCAAGTAAAAGGGAGGATCATAGATTTTACTTGGCAATTTTGGAATGTTTTTTCTAAGAATCAAAAAGAATTGGAAGGACAGCTTGATGGTAAATATCGTCCTTATGATCTTCGATCTACTTTTATAAATAATATATATACCGAAGGTATAAATGATAAAATACCAACTTCTGTGATCGTTCAAATGTCTGGAAATAGTATTCATACAGCTAAGAAGTATTATCTTAAAGCTACGGAAGTTCAAACATATGCTGAAATTTTTGCAGGAGTTACGGTTTCATCAGTTGATGTATATGGGAACATCTTGGAAGAAAAAGATGTTGAAGATCTTAATCCAGTAGAAGATGGACTTGGTGGATGTAATCAAAGAGGTTGTGTAATTGAAGAGGAACAATACGAATGTCTCATTTGTCCTCATTTTGCTACTACCGCCAATAGAATACCATTATTTAAGAAACACATAACAATGCTAAAAACACTAAAAGAAAGTACATTAAATAGCCAAGAACGAGGTATGATCGAAGCACAACTTAAATTATATACAGCCTATTATGTAAAACTACTTGAAAAAATTGGGGGTGGACAAGATGGAGCAAAAGCTTAA	MTTATKSLKFDKFPIKLSKTFKQYVENHLKNEEFKSLFWKFFEDSYLNQCFSLYVRNSIRYNLERFLYSILRNYTIQHFSWKQYCVSMKCIREYKTWSDKTKRIARIMLSDLYLYTIENRHLNTVDFNELKENKEFLIQEERRTTLGKKEYFLDRISTNFPLDSSLDQLHFIPEGQMITRDNKSSKANILNLNISNNQIKSLLIGFYQSEEQQPLLLRYFLYLFRYSLMSMNKEPYSIADFTFEVFKKQYRFYQNRRLNELTLLFHEQSYTLSRYLVRFYIYLCKVIKEQDIQHNIFEGTLYNEHVLGKNCFSVYYERGYKLIHYNPFEEVPFENRWQLIPSDGYANTSKNRPCGIDFLQIKDKSLREDLKAYAWKQTSMSVRTMARNIYTLIEFLNFISSYKQLNKVDENVYVNADLLEQWCFYIGGKETNTHTVNTYVKACRSFLKFYKNKYQIPILLIDMLKQKPQDYDGGNPMTKHDINSFSKKFQEKRSQSIMGELCYIIFNLATTTKIRLGEIFNLERDCILEKYEQAGVIQYYSKGTGNQKIKLTLTIEKINLIEKAISLTENAYSQASTDIKKYIFVKEDDQVKGRIIDFTWQFWNVFSKNQKELEGQLDGKYRPYDLRSTFINNIYTEGINDKIPTSVIVQMSGNSIHTAKKYYLKATEVQTYAEIFAGVTVSSVDVYGNILEEKDVEDLNPVEDGLGGCNQRGCVIEEEQYECLICPHFATTANRIPLFKKHITMLKTLKESTLNSQERGMIEAQLKLYTAYYVKLLEKIGGGQDGAKA				NA	NA	NA	NA	NA
AK009_05516	1341	xerC_8		Tyrosine recombinase XerC	ATGGATAGAATCACTGAATATAAGGGGTATTGGGGAAATAGTTATAAGAGAATTAGAGGAAATGTATTATATGAAGTAATGGTAGCTGGTATCACCAAAAGACATAATGATTTTTTATACATGATGGTTATGGGTACAAATGGAAAAGTTTATTTTGATACTTATAAATACCTAAATGAAGAACTAGGAAATGAGGGATTTAGCAAAAGAGAATTAGCACTTCGCGCTTTAAAGTTACTTTATTCATACATTGAGCTGTTTAATACAGAAATAAGATATTTAGATGTGGATGACAAGAAAAAATTTGTAACTTTTCTACAAGGCGGTCAAGGTATTGGACAATACATATCGTATGATTTTATGACTGTACGGAAGAATGATACCGTTAATTCTTATTTAGGAGTTTATAGAAAATTTTTTCGTTATTTAGGGATAAAAGGCAACGTATTTGAAGAACAAAGTGGGATAAAAAAAATTATAGGTAGTGGTAGTGCTTTTAACTCTAAAGCTAATGCAATAGAAGTACACAAATATTCAATGAACTTAAAGGAAGTTAAAACAACTATAGTCCCTAAATATATAAAATACACCGAATATTCAGAATTGATGAGTTTAATTGAGGATAAATATACACTTCGAGAGAAGATTATAGTCAAATTAATGTATGAATATGGGCTTAGAATTGGTGAGGTTTTAGGTTTAACTTTAGAGGACATTCAAGGAGACTATATAACAAAACAAAAAGGTAGGTGCCGATTAATATTAAGGAATCGTTTTACAGATAAGCCTTGGCAATACGCAAAAGGTTGTTTGAAGATTATATCACGCAATAATTACACTAATGAGATTTATAATACAGAGGGTGGTGGTTTTCAAATTATTAATATTTCATCTAAAACATTTAATTTAATTCAAGAATATATTGATGAAACTACTTCTCCTTTTTCCCTGAGTGATAAAGCGTATAAAAATTACTTGGAAAAAAATATAGCCGATAAAGTTAGTGAAATGGATATTGATAGAAATGCATACGTCTTTCTTAGTAAAAATTACACACCAATAGCTGGCGGAGCTTGGAATAGGATTATGAAAAACATTTTTCAACAAGTTGGGATCCAAATTGATAGAGGAAAGAAAACTGATAATCTTAACCATCGTTTTCGTCATGGTTTTGCAATGTTTAAGGTGTTACATGAAGGCTTTGATGAGATTAAGTTAGCTTATGTTATGCGTCATTCAAATACTAACAGTGTGAGCGCATATTTTAATCCAACAGAAGATGACTTAATTGTTTTTGCTAGTAAGCAAGATAAGCTAACTAAGAGAGGTTTAAGGCTATGA	MDRITEYKGYWGNSYKRIRGNVLYEVMVAGITKRHNDFLYMMVMGTNGKVYFDTYKYLNEELGNEGFSKRELALRALKLLYSYIELFNTEIRYLDVDDKKKFVTFLQGGQGIGQYISYDFMTVRKNDTVNSYLGVYRKFFRYLGIKGNVFEEQSGIKKIIGSGSAFNSKANAIEVHKYSMNLKEVKTTIVPKYIKYTEYSELMSLIEDKYTLREKIIVKLMYEYGLRIGEVLGLTLEDIQGDYITKQKGRCRLILRNRFTDKPWQYAKGCLKIISRNNYTNEIYNTEGGGFQIINISSKTFNLIQEYIDETTSPFSLSDKAYKNYLEKNIADKVSEMDIDRNAYVFLSKNYTPIAGGAWNRIMKNIFQQVGIQIDRGKKTDNLNHRFRHGFAMFKVLHEGFDEIKLAYVMRHSNTNSVSAYFNPTEDDLIVFASKQDKLTKRGLRL				NA	NA	NA	NA	NA
AK009_05517	264			hypothetical protein	ATGAATAAATTATCAACAAAGTTAGTAGTAGCAATCGGGATTGGAGCAGCCTTATACGGGATATTAGGACTTTGGGGATTTTCTATTGCACCGAATACATTTATTAAACCAGCATTAGCTATATTAACTGTTTTTGGAGCATTATTTGGTCCAGTGGCAGGACTCTTAATCGGACTTATCGGTCATACCGTAACAGATACGATTGCTGGCTGGGGGATTTGGTGGGGCTGTTATCCTACCTTATTAAATTGTCCACTACACTAA	MNKLSTKLVVAIGIGAALYGILGLWGFSIAPNTFIKPALAILTVFGALFGPVAGLLIGLIGHTVTDTIAGWGIWWGCYPTLLNCPLH				NA	NA	NA	NA	NA
AK009_05519	681	ygeA_2	COG1794	Broad specificity amino-acid racemase YgeA	ATGAAAGTTATTGGTTTAATTGGGGGATTAAGTTGGGAATCTACATCATTATACTATAAACATATTAATACACTTACACTCTCTCAATACGATCAAAATGCGAAGCTAGTTTTATATAGTATGGACTTTGGAGAAGTAACTACTTTATTACAAAACCATCAATATGAAGAAGTAAAAAATGAACTAGTCACGGTTGCAAAGAAGGTTGAAAAATCTGGGGCTGACTGTTTATTAATGTGTTCAAATACTGTACATCTATTTGCCGAAGAAGTAGAACAAGCAATCTCTATCCCGCTTCTTCACATTGGCGATGTAAGTGCTAAAGAAATGGTAAAACAAAATATAAAACGTATCGGACTATTAGGAACAAAACAAACGATGGAGCAAGATTTCTATAAATCACGATTAGCGAAATATAACATTGAGACAATTATCCCAAATGAAGAGGAAAGAACAGTTATCCATCATGTCATATTAGATGAATTAAGTAAAGGGATCATTTCAGAAGCATCTAAAGAAAAGCTATTACAAATTACAAAGTCATTAATTCAAAACGGCGCTGAAGGTATACTATTAGGCTGTACTGAAATACCTTTACTCATCTCCCAAAATGATCTTACTGTTCCCGTTTTTGATACTGCTTTTTTACATGCAAATACTGCTGTGCAATTTGCTGGATAA	MKVIGLIGGLSWESTSLYYKHINTLTLSQYDQNAKLVLYSMDFGEVTTLLQNHQYEEVKNELVTVAKKVEKSGADCLLMCSNTVHLFAEEVEQAISIPLLHIGDVSAKEMVKQNIKRIGLLGTKQTMEQDFYKSRLAKYNIETIIPNEEERTVIHHVILDELSKGIISEASKEKLLQITKSLIQNGAEGILLGCTEIPLLISQNDLTVPVFDTAFLHANTAVQFAG				NA	NA	NA	NA	NA
AK009_05520	1188	tylCV		Demethyllactenocin mycarosyltransferase	GTGCTAAATATTTTAGTAGTTAATTTTCCAGCAGAGGGACATGTAAACCCTACATTAAATTTAGTGAAAGCCTTTACTGAACGAGGGGATAACGTACATTATATTACAACTGCAAACTTTAAAGATAGGATTGAAGATTTAGGAGCTACTGTACATACACATCCGGATCTATTAAAGGAGATTTCTATTGATGCTGAAACCTCATCTGGGTTAAATGCTTTCTTTCATGTGCATGTTCAAACTTCTTTATATATATTAGAAATTACGAAACAATTAAGTGAAAGCATAAATTTTGATTTCGTAATTTATGATATATTTGGTGCGGGAGAGTTAGTAAAGGAGTATTTACAAGTTCCAGGTGTAGTGTCCTCGCCTATATTTTTAATTCCTTCAGAGTTTTTGAAGACATTACCTTTTCATCCAAATGCAGATATACCATTCCAACCAGAGGAGATCTCTGAAAAATTACTAAACCAGATGGAACATGAATTTGGAGTAAAACCAAAGAATAATCTTCAATTTATGAATAATAAGGGTGATGTTTGTCTCGTATACACAAGTCGTTATTTCCAACCTAATAGCGAATCGTTCGGAGAAAATAACATTTTTATTGGACCGAGTATTTCAAAGCGTAAAACAAATATAAAGTTTCCACTGGAATCACTTAAAGAGAAGAAAGTTATTTATATTTCAATGGGAACACTGCTTGAAGGACTCGAACCATTCTTTAATACTTGTATTGATACTTTTTCAGATTTTGATGGGATAGTTGTAATGGCAATTGGTGATAGAAATGATATTTCTAAAATTAAGAAAGCACCAGATAATTTTATAATTGCTCCATACGTACCTCAATCAGAAATATTAAATGAAGCGGATGTTTTTATTACACATGGCGGCATGAATAGCGTACACGATGCCATTCATTATAATGTCCCATTTGTAATAATACCGCATGATAAAGATCAGCCTATGATAGCGCAAAGATTAACTGAACTGGAAGCAGCGCGTAGACTATTGAAAGAACATGTTAATGTGCACACTTTAAAAGAGGCTGTAACAGATGTTCTTTCAAACGAAAAGTATAAGCATGGTATACGAAAACTTAATGATAGCTTTTTAGAATGTGGTGGTTCAAAAGAAGTAATTGCAGTTATTGAATCTCTTTTAAATAAAGTGAAACTTTAA	MLNILVVNFPAEGHVNPTLNLVKAFTERGDNVHYITTANFKDRIEDLGATVHTHPDLLKEISIDAETSSGLNAFFHVHVQTSLYILEITKQLSESINFDFVIYDIFGAGELVKEYLQVPGVVSSPIFLIPSEFLKTLPFHPNADIPFQPEEISEKLLNQMEHEFGVKPKNNLQFMNNKGDVCLVYTSRYFQPNSESFGENNIFIGPSISKRKTNIKFPLESLKEKKVIYISMGTLLEGLEPFFNTCIDTFSDFDGIVVMAIGDRNDISKIKKAPDNFIIAPYVPQSEILNEADVFITHGGMNSVHDAIHYNVPFVIIPHDKDQPMIAQRLTELEAARRLLKEHVNVHTLKEAVTDVLSNEKYKHGIRKLNDSFLECGGSKEVIAVIESLLNKVKL				NA	NA	NA	NA	NA
AK009_05521	531	sipP_2		Signal peptidase I P	ATGAAGCCGTTTATTCTAAAATATTGGAGGAACATATGTAGCTACATCTTAATTATAATAGGGGTTATTTTTATTAATAAGTCATTTTTATTTTGTATGGTAGAAGGAATTTCGATGCAACCTACTTTGAATGAAAAAGATTATATACTTGTTAATAAGGTAAACGTCTGTTTATCGTCTTTTCATCATGGAGATGTTGTCATTATAAAAAAAGAAGACGAGCCTACTTACTATGTGAAACGAATTATTGGATTATCGGGGGATAACATACAACTAAAAGAGGATGAGGTATTTATTAACGGTAAAAAGCGTGATGAATCGTATATACATTTAGATATGTCACAAGTATCCAATCGTTTTTCAAATTTGAGAGAAATAAAAGTTCCTACGCATAAATTATTTGTGTTAGGGGATAATCGTAATCATAGTAAAGATAGTAGGAATACACTTGGACTTATTGATGAGTCAAATATAATAGGTAAAGTAGAAATGGTATTTTATCCATTTGATCATATAAAATGGATAAAATAA	MKPFILKYWRNICSYILIIIGVIFINKSFLFCMVEGISMQPTLNEKDYILVNKVNVCLSSFHHGDVVIIKKEDEPTYYVKRIIGLSGDNIQLKEDEVFINGKKRDESYIHLDMSQVSNRFSNLREIKVPTHKLFVLGDNRNHSKDSRNTLGLIDESNIIGKVEMVFYPFDHIKWIK				NA	NA	NA	NA	NA
AK009_05522	2127	pbpH_2	COG0768	Penicillin-binding protein H	GTGAAAAAACAAGAGAAGAAGAGTGGTAGAGTAGTACCTCTCCGGTTAAATATTTTATTCCTTTGTGTTTTTTTATTATTTTCTGGCATCATTATTCAGTTAGGAAAAGTGCAAATCTTTGATGGAGAAACATATAAAAATGAAGTAGAGAAGAGAGAAAATGCAACCGTGGGCCTTTCTGTACCACGTGGGAAAATATTTGATCGTGAAGGAAATCCAGTAGTTGATAATAAATCTTTACGTACGATTACATATACAAAGGTGAAAGGTGTAAAACAAGAAGAAATATTAAAATCAGCAAGACAACTTGCAGACATTATTGAAATGCCGCAAGAAGATATAGATAAGTTAACTGAGACTGATAAGAAAGACTTTTGGATGCAATTAAATCCAGAACTTACTCAAGACTTAGTATCAAAAAAAGAAATAGATAAGTTCCGAGATAAGGATATTACCGGAAAAGAGCTAGACAAAAAAATAGAAGATTTAAAAAGGAAGCGCGTTACAGATAAAAATCTTCAAGAACTAACGGCTAAAGATATAGAAGTGTTAGCTATTAAAAGTAAAATGACCTCAGGTTTTCAGATGGCACCTCAAATTATTAAAAAGGACGTTAGTGAACAGGAATATGCGGTGATTAGTGAAAATTTAGCGAAACTTCCAGGGGTAGACGCATCAGTTGATTGGGAGAGAATCTATGTAAATGATGGTCTATTCCGTTCCGTTCTTGGTAACGTTTCAAATGCTGATGAAGGATTGCCACGTGAAAGATTAGATTATTATTTAGTGCGTGATTATAGCCGAAATGATAGGGTCGGCAAAAGTTATATCGAACAGCAATACGAAGATGTACTTCATGGTACGAAAAAAGAAGTAAGAAGCATTGCTGATAAACAAGGCAATACAATGAGAACGGAAACGGTTTCGGAAGGAAAAAGCGGTAAAAATTTAACTTTAACCATAGATATGGAATTGCAAAAAAAAGTAGAGGAGAGTATAGAAAAAATATTAAAACAATATAAAGGATCAGAATCAATGTTAGACCGTGCTTTCGTAGTGATGATGAATCCTAAAAATGGCCAAGTATTATCAATGGCTGGGAAAAGGCTTGTAGAAAAAGATGGGAAAATGGAAGTAGAAGATTATGCTTTAGGCACGCTGACAAGTTCATATGAGCTTGGATCAACGGTTAAAGGTGCGACAGTGTTAACAGGGTTTGAAACAAATGCAATAACTCCTGGAACACATTTTTATGATGCACCTATGAAGTTTAAAGGAACTAAGGAAAAGAAGTCTTGGAAAAATTTTGGTGATATAGACGATCTAAGAGCGTTACAAGTTTCTTCAAACGTTTATATGTTTAATATAGCATTAAAAATTGCTGGTGTGGATTATGTGAAAAATAGTTCACTAGATATTAAACAAGAATATTTTGATAAAATGAGATATTATTTCAGGCAATTTGGACTAGGCGTACAAACTGGTATTGATTTACCGAATGAAACTGCAGGACAAATTGGAAGAAAAGATAATCAGCCTGGTTTCTTATTAGATTATTCTATTGGACAATATGATACATATACACCACTTCAGCTTGCACAATATATTTCGACTATCGCAAATGGAGGGTATCGAATGAAACCACAAATTGTTCAAGAGATTAGAGAACAAACCGTTCAAAAAGATGAGGTTGGTAAAGTAGTACAATCAATAGAACCCGTTGTTTTAAATAGAATCGATATGAAACAAGAATATATTAATCAAGTAAAAGAAGGATTTAGAAAAGTATTTCAAGAAGGAGATGGAACGGGAGTAAGAGCGTTCCAAAAAGCACCATATAAACCAGCTGGTAAAACAGGAACCGCACAAACTGTATATGGTGGAGAAAATGAAATTGGGCGAAATGCGAAAGGCGATCGTAGAGAATGTTATAACTTAACATTAGCTGGATATGCGCCATATGATGATCCAGAAGTAGCATTTTCTGTTGTAGTACCGTGGGTTGAAAATGATAAATCGGGCATTAACTCCGATATTGGAAAAGAAGTTTTAGATGCTTATTTTGATTTGAAAAATAAGCGATTAACTGGTGAAGCGCCAAAAACAGATGCCTCTAAAGAGAATTAA	MKKQEKKSGRVVPLRLNILFLCVFLLFSGIIIQLGKVQIFDGETYKNEVEKRENATVGLSVPRGKIFDREGNPVVDNKSLRTITYTKVKGVKQEEILKSARQLADIIEMPQEDIDKLTETDKKDFWMQLNPELTQDLVSKKEIDKFRDKDITGKELDKKIEDLKRKRVTDKNLQELTAKDIEVLAIKSKMTSGFQMAPQIIKKDVSEQEYAVISENLAKLPGVDASVDWERIYVNDGLFRSVLGNVSNADEGLPRERLDYYLVRDYSRNDRVGKSYIEQQYEDVLHGTKKEVRSIADKQGNTMRTETVSEGKSGKNLTLTIDMELQKKVEESIEKILKQYKGSESMLDRAFVVMMNPKNGQVLSMAGKRLVEKDGKMEVEDYALGTLTSSYELGSTVKGATVLTGFETNAITPGTHFYDAPMKFKGTKEKKSWKNFGDIDDLRALQVSSNVYMFNIALKIAGVDYVKNSSLDIKQEYFDKMRYYFRQFGLGVQTGIDLPNETAGQIGRKDNQPGFLLDYSIGQYDTYTPLQLAQYISTIANGGYRMKPQIVQEIREQTVQKDEVGKVVQSIEPVVLNRIDMKQEYINQVKEGFRKVFQEGDGTGVRAFQKAPYKPAGKTGTAQTVYGGENEIGRNAKGDRRECYNLTLAGYAPYDDPEVAFSVVVPWVENDKSGINSDIGKEVLDAYFDLKNKRLTGEAPKTDASKEN	PGPT0023930_250	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK009_05523	1788	kinE_2	COG2202	Sporulation kinase E	ATGAATTCGCGGCTAATGGAACTTATTGATGTGAGTACAATAGAAACCATGGCAGAACAATTTTATAAATTAACTAACATATCACATCAACTTCTTGATGCTGAAAAAGAGTGTATTTTTTCATTCGGAATGAATGAGATAATTAAGAGTAAACTTCCAAAGATTGAAATCCCCATTTTCTTATACAATCAACATTTAGGATCTTTTGTTGTATGGTCCAAAAAAAGCGAAATTTTCAGTTGTCAAAAATACTTTGAAATGCTCTCAAGTTTAATTTTAGATGGCGCAATAAAAGTAATTCAAAGTAAAAAAACAACGTTGCTTTCTCAGAAAGAGGAGGAACTACATACGATTTTACAAAACATGCCTGTTATGGTCGATGCGCTTGATTATAATGGAGATTTTGTTTTGTGGAACCGAGAATGTGAAATTGTAACAGGTTATACCGCTGAAGAAATAATTGGAAATCCAAATGCACTTCAATTATTATATCCTGATCATAGTTATCGCCAGCAAATACAAAAGAAATTTTTAACTTGTGGAAAAAATTTCAGAGATTGGGAAATGCACTTAACATGTAAAAATGGTGAAATCAAAACAATAATGTGGTCTAATATATCAGAACAGTTTCCTGTAACAGGATATAGTTATTGGGCTGTTGGTGTAGATATTACACATTTAAAAGCGATAGAAGAGCAGTTAAAACAACAAACATCTGAACTGGAATTAATATTTAAAGCTTTACCAGATTTATGTTTCTTAACAGAAGATGATGGCACAATTATAGATTACAAAGCAGGATCTCCTACAAAGTTTTACGTACCCGCAGAAGCTTTTATGGGAAAAAAGTTTTACGAAGTATTACCATCTTCAGTAGCACAGCAGTTTCAGGAAGCCATTAATCAAGTGAAGGAAAAAGGAACGAATGTAATTGTAGAATATCCACTCACACTTAATGGAAGTATTGATTTCTTTGAAGCTAGGTGCTTACCATTATTACATGATAAAATTATGATTATTGTACGTGACATTAAAGAGCGAAAAAAGACAGAAGAATTGCTAAACAAATCAGATACGCTTGCAGCAATTGGTCAATTAGCAGCTGGGGTAGCTCATGAAGTAAGAAATCCCTTAACTGTAATTAAAGGTTTTATACAGTTATTCCAAATTAATAAAGAAGATCAAGAAAGATATTTTGATCTTATGCTTTCTGAAATTGAAAGGATAGAAGCGATCCTGCAAGAATTTTTGTCAATTGCTAAAACAGATGAGATAAATACAGAAAAGAAAAATATTTATCAAATTTTTAAAAATGTCGTATCGTTAATGAATACAAAAGCAATTATGACAAATATTCAAGTTGAACTATTTACGGATGACAAAGATATAATTATTGAATGCTCGGAAAATCAATTGAAACAAGTATTTATTAATATTTTGCAAAATTCAATCGAAGCTATGCCAAATGGTGGGGAAATTTCAATTCACATAAAAGAAATAAATGATGATGGTGTCATCATTCATGTAATAGATGAAGGAATAGGAATACCTGAAGAAAGAATTAAGAGATTAGGTGAACCTTTTTATAGTACGAAAGAAAAAGGGACTGGTATTGGATTAATGTTAAGTTATAAAATTATTGAAAGTCATCAAGGGACAATTAGTATCATGAGCGAGGTTGGTGTCGGGACAACAGTAACAATTTACTTACCGAAAGTACAAAGTAAACAATCTTTTTCTAATTGTGACGATAAATGTATAGCAATACGCACTAGTAGTAATTCTTAA	MNSRLMELIDVSTIETMAEQFYKLTNISHQLLDAEKECIFSFGMNEIIKSKLPKIEIPIFLYNQHLGSFVVWSKKSEIFSCQKYFEMLSSLILDGAIKVIQSKKTTLLSQKEEELHTILQNMPVMVDALDYNGDFVLWNRECEIVTGYTAEEIIGNPNALQLLYPDHSYRQQIQKKFLTCGKNFRDWEMHLTCKNGEIKTIMWSNISEQFPVTGYSYWAVGVDITHLKAIEEQLKQQTSELELIFKALPDLCFLTEDDGTIIDYKAGSPTKFYVPAEAFMGKKFYEVLPSSVAQQFQEAINQVKEKGTNVIVEYPLTLNGSIDFFEARCLPLLHDKIMIIVRDIKERKKTEELLNKSDTLAAIGQLAAGVAHEVRNPLTVIKGFIQLFQINKEDQERYFDLMLSEIERIEAILQEFLSIAKTDEINTEKKNIYQIFKNVVSLMNTKAIMTNIQVELFTDDKDIIIECSENQLKQVFINILQNSIEAMPNGGEISIHIKEINDDGVIIHVIDEGIGIPEERIKRLGEPFYSTKEKGTGIGLMLSYKIIESHQGTISIMSEVGVGTTVTIYLPKVQSKQSFSNCDDKCIAIRTSSNS	PGPT0025290_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025290-kinE-K13533	NA	NA
AK009_05524	852	ywpJ_1	COG0561	Phosphatase YwpJ	ATGAAATTAATCGCAATTGATTTAGATGGAACTCTTCTTTCGGGGAATAAAATGATTAGTAAAGAAAATGCAGAAGCAATTCGAACATGTCAAGAAGCTGGCCATGTTGTAGCAATTTGTACTGGACGTTCTATTGTTGATATTGAACGATTATTGTTAGAAGTTGATTTAGAGTGTCCAATCATTGCGGAAAATGGTGCGATTATATATAAAGATAAGAAAATGATGAAGAGATATCCAATTCAAAATATGCAGGCACTTGAAATTGTGGAATATCTTGAAGAGAATGGTTTATATTATCAGCTTTATACTGATAAAGGTGTGTATGTACCGGATTATGGAGTAGAGAGTGTACGTAATGAAATTGAGTATGTGAAGAATTCAAAAGAAAATTTCGACTTGAAAGAGTTAAAAACAATCGCAGCATTATATCTTGAGCATACAGCGTTTCATAGTGCGGAAAGTTGTAAGCCAATTGTAGAAACAGATATACATGTGCATAAACTATTACCATTTTCTTATGATATTGAGAAATTAAAAAAACTAAAAGAAACATTTATTCATAATACAGATTTAGCAATTACATCTTCATATTGGCACAATTTAGAGATTAATCATAGAGATGCTCAAAAAGGGAATGGATTATATACTTTAGCAGAATATCTTAATATTCCAGTTGAAAACACTGTAGCGATAGGTGATGGGCTAAACGACGTTTCTATGATGGAAAAAGCGAACATATCAATTGCGATGGGTAATGCAGTTGAAGAAATAAAAACAATCTGTAAATACGAAACGTTATCAAATGAAGAACATGGTGTGGCACATGCTTTATATAAATATGTAATGTAA	MKLIAIDLDGTLLSGNKMISKENAEAIRTCQEAGHVVAICTGRSIVDIERLLLEVDLECPIIAENGAIIYKDKKMMKRYPIQNMQALEIVEYLEENGLYYQLYTDKGVYVPDYGVESVRNEIEYVKNSKENFDLKELKTIAALYLEHTAFHSAESCKPIVETDIHVHKLLPFSYDIEKLKKLKETFIHNTDLAITSSYWHNLEINHRDAQKGNGLYTLAEYLNIPVENTVAIGDGLNDVSMMEKANISIAMGNAVEEIKTICKYETLSNEEHGVAHALYKYVM	PGPT0008595_127	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
AK009_05525	579		COG5553	3-mercaptopropionate dioxygenase	ATGTTGACTTGTAATGGAAGTAAATCATTTCAAAAGTTTATTAAAGGTGTTACAGATCTTATGGAAAACGGTTTATTTGAAGAAGAAATAGTGTGTGGCATTGAAAAGTTACTAGAAGAACTTTTAGAAAAGAAAACATGGCTTCCGTTAGATAAACAGAAGGCGAATTCGACTCAATATGCACGACATTTATTGTATGAGGATCCGCTCAAACGTTTTGAAGTACTAGCTCTCGTATGGAAAGATGGACAATCTACACCTTTACATGATCATGACGGCACATGGGGGGTAGAAGGCGTCTTTTCAGGAAGGATAATGGTGCAGAACTTTATACAAACGAAACAACTTGGAAATTCACTTGTGTATTTAACACATACAGGAAATCTTTATTTGGGAGAAGGAGAAACCGATAAAGTCATTCCACCTGCGGATTGTCATATTCTTGAAATTAGCAAAAAGGAAAGCGTTATCACAATTCATATCTATGGAAAACGGTTAGAAAAGTTTAAAGTATATATCCCAACTGAAGACAAAAATGTGTACATGTGTGAGACAAAATACATTAGTTATAATTCATAG	MLTCNGSKSFQKFIKGVTDLMENGLFEEEIVCGIEKLLEELLEKKTWLPLDKQKANSTQYARHLLYEDPLKRFEVLALVWKDGQSTPLHDHDGTWGVEGVFSGRIMVQNFIQTKQLGNSLVYLTHTGNLYLGEGETDKVIPPADCHILEISKKESVITIHIYGKRLEKFKVYIPTEDKNVYMCETKYISYNS				NA	NA	NA	NA	NA
AK009_05526	1215			Cytochrome P450(MEG)	ATGGCTTCACCTGAAAATGTTATTTTAGTTCATGAAATTTCAAAGCTGAAAACAAAAGAAGAATTATGGAATCCATATGAATGGTATCGTTTGATGAGGGATAATCACCCAGTTCATTATGATGAAGAGCAGGATGTATGGAATGTTTTTTTATATGATGATGTAAATCGTGTTTTATCAGATTATCGCTTATTTTCAAGTAGAAGGGAGCGCAGACAATTCTCAATCCCTCCATTAGAAACTAGAATAAATATAAACTCTACAGATCCACCAGAACATCGCAATGCACGTTCCATTGTTTCTAAGGCATTTACTCCAAGAAGTCTAGAACAGTGGAAACCTCGAATACAGGCTATCGCAGATGAACTTGTACAGCATATCGAAAAATATAGTGAAGTTAATATCGTTGAACAGTTTGCTGCCCCTTTACCTGTTACCGTTATTTCTGATTTATTAGGAGTCCCAACAACAGATCGTAAAAAAATTAAAGAATGGTCTGATATTTTATTTATGCCGTATAGTAAAGAAAAGTTTAATGATCTGGATGCTGAGAAAGGGATAGCATTAAATGAATTCAAGGCATATCTTCTACCGATCGTTCAGGAAAAGAGATATCATTTAACTGATGATATCATTTCCGATTTAATTCGAGCTGAATATGAAGGAGAAAGATTAACCGATGAAGAAATTGTAACCTTTTCATTAGGTTTACTAGCGGCTGGGAATGAAACCACTACAAATTTAATTATTAATAGCTTTTATTGCTTTTTAGTAGATTCACCTGGAATTTATGAAGATTTAAGAAAAAAACCTAGCTTAATTTCAAAAGCGATTGAGGAAGTATTACGCTATCGCTTTCCTGTTACATTGGCCCGGAGGATTACAGAGGATACAAATATATTTGGCCCTTTAATGAAAAAGGATCAGATGATTGTTGCGTGGGTTAGTGCAGCGAATTTAGATGAGAAAAAATTTTCACACCCCTCTCAATTTAATGTACATCGAATAGGAAATGAAAAGCATTTAACCTTTGGGAAAGGTCCTCACTTTTGCTTAGGAGCACCACTTGCACGTTTAGAAGCTGAGATTGCATTAACTACCTTTATAAATGCTTTTGAAAAAATAGAGCTATCTCCATCTTTCTGTTTAGAAAAATGTATATTGGAAAATGAACAAACATTAAAATACTTACCTATTCGATTGAAAGCCAAATAA	MASPENVILVHEISKLKTKEELWNPYEWYRLMRDNHPVHYDEEQDVWNVFLYDDVNRVLSDYRLFSSRRERRQFSIPPLETRININSTDPPEHRNARSIVSKAFTPRSLEQWKPRIQAIADELVQHIEKYSEVNIVEQFAAPLPVTVISDLLGVPTTDRKKIKEWSDILFMPYSKEKFNDLDAEKGIALNEFKAYLLPIVQEKRYHLTDDIISDLIRAEYEGERLTDEEIVTFSLGLLAAGNETTTNLIINSFYCFLVDSPGIYEDLRKKPSLISKAIEEVLRYRFPVTLARRITEDTNIFGPLMKKDQMIVAWVSAANLDEKKFSHPSQFNVHRIGNEKHLTFGKGPHFCLGAPLARLEAEIALTTFINAFEKIELSPSFCLEKCILENEQTLKYLPIRLKAK	PGPT0006750_27	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006750-cyp106A2|yjiB-K21113	NA	NA
AK009_05527	498			hypothetical protein	ATGTACGTTGACATTTTACTACTAGCAGAATTAACGACAGGACCAAAACATGGATATGAAATCAAAAAAAATGTTCAAAATCGTTTAGGTGAGAATTTTGAATTAAATCACAACATGCTTTACCCTGCCCTTCGGCGCTTTGAAAATATGGGTGCTATAACGAAAAAAATACATAAACAAGTCGGAAAACCAAACCGAAATATGTACGATATAACAGAAACAGGAGAAGAAATTTTTTCTGAAATGTTACGAGATTTTCCCGAAAAACTTGCGACAAACAATGCAGAATTCCTTGTTCGTATCGCACTATTTGAAAAACTTGACTATGAGGCTAGAAAAGAGATTTTAACTATACGCCAAAACGTACTACATAATCAGCTTACTGCTATTCAGTCTCTAGAGGTTACCTCATCTTTTATTACTGAAGTCATTGAATTTAGTAAATCACGAATTGAACATGAGTTGACTTGGATTACATCACTTATGAAAAAAATATGA	MYVDILLLAELTTGPKHGYEIKKNVQNRLGENFELNHNMLYPALRRFENMGAITKKIHKQVGKPNRNMYDITETGEEIFSEMLRDFPEKLATNNAEFLVRIALFEKLDYEARKEILTIRQNVLHNQLTAIQSLEVTSSFITEVIEFSKSRIEHELTWITSLMKKI				NA	NA	NA	NA	NA
AK009_05528	156			hypothetical protein	ATGGCACAAGACGTTTTATGTGAAGTAAACAACTGTAAATTTTGGGCGAATGGTAATAAATGTAGTGCAGAGGCAATTTACGTAGTAAGTCATAAGGGTAAACATGCATCTACAACGGAAGAAACAGATTGCAAAACTTTCGATCCAGAAGTGTAA	MAQDVLCEVNNCKFWANGNKCSAEAIYVVSHKGKHASTTEETDCKTFDPEV				NA	NA	NA	NA	NA
AK009_05529	630	vat		Virginiamycin A acetyltransferase	ATGAATCCTAATCCAAATATTAAATACCCTATTGAAGGAAATCAAAACGTTCAATTTATAAAAAATACAATAACAAAATCTAATATACTTGTTGGTGAGTATTCTTATTATGATGCGAAAGATGGAGAAAAATTTGAAAATCGAGTATTACATCATTATGAATTTCTTGGAGATCGCCTTATTATTGGAAAGTTTTGTTGTATTGCATCTGGAGTTAACTTTATTATGAACGGAGCCAATCATCGGATGGATGGATTTTCGGCATATCCATTTAATATATTTGGAAATGGGTGGGAGAAGTATACACCTAGTTTGTCTGATTTACCTTACAAAGGTGATACAGTTATAGGAAATGACGTTTGGATTGGTATGGATACAACAATTATGCCCGGAATAAAAATAGGGGATGGTGCAATCATTGCAGCTAAATCTGTTGTGACTAGAGACGTCGCACCATATACAATTGTTGGTGGAAACCCTGCAAATAAAATAAAAGAGAGATTTTCAAATGAAACAATTCAAGAATTATTGCAAATTCAATGGTGGCATTTTGACATTGAAAAAATAACTGAAAATATAGATGTGATTGTACGAGGAGATATTGAATCATTAAGAAAACTAAAAAGGTAA	MNPNPNIKYPIEGNQNVQFIKNTITKSNILVGEYSYYDAKDGEKFENRVLHHYEFLGDRLIIGKFCCIASGVNFIMNGANHRMDGFSAYPFNIFGNGWEKYTPSLSDLPYKGDTVIGNDVWIGMDTTIMPGIKIGDGAIIAAKSVVTRDVAPYTIVGGNPANKIKERFSNETIQELLQIQWWHFDIEKITENIDVIVRGDIESLRKLKR	PGPT0028000_654	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
AK009_05530	1284			hypothetical protein	ATGTCGACAAATGTAGTAACGAAACAAAACAATGGGGTATCACAAGTATTAAAAAATCGGTTTGTTCAAGGGATTTTAGCATCAGCATTATTTTTACAAATAGGAATATGGGTTCGAAACTTTGCGGTATTACTATATGTAATGGAAATGACAAAAGGTGATGCTTTTGCTATTTCGATGATTTCAGTTGCTGAATTCGCTCCAATTTTTATTTTTTCATTTATTGGCGGTACTTTTGCTGATAGGTGGAAGCCAAAGAAGACAATGATATGGTGTGAGACGTTAAGTTCCATTTCAGTATTCGCTGTATTAATTACGCTTATGTTTGGAACGTGGAAAATTGTGTTTTTTGTGACACTCATCTCTGCAATCCTTTCACAGTTTTCACAACCATCTGGAATGAAGTTGTTTAAACAACATTTATCAACGGAACAAATTCAATTAGCAATGTCTATATATCAAACGATATTTGCAATATTTATGGTATTAGGACCAATCCTAGGGACATTTATCTTTCATAGTTTTGGAATTTATATTTCAATCATCATAACAGGCATCTCGTTTGTACTTGCGGCAGTTGTATTGTTATTTCTTCCGAAAGATCTTGAAAACGACGTAGAAAAGAAAGATATCACTCTGTTGCAGGAGATGAAGGACGGTATTAAGTATGTCAAAAAGAAAAAAGCATTAACTTTGCTGGGGCTTTGTTTTATGGCTGCAGGACTAGGTATAGGATTAATTCAGCCATTAGGTATATTTATTGTGACTGAGCAGTTAGGATTATCAAAAGAGAGTTTACAGTGGCTACTAACAGTAAATGGTGCGGGAATGATTGTTGGCGGGGCATTAGCGATGGTATTTGCGAAAAACGTTGCTCCGCAAAAGATGTTAATTATCGGTATGCTTGGTCAAGCAATTGGTATTAGCATTATAGGGTATTCTACAAATTTATGGGTTACACTTACAGCGCAGCTTTTTAGTGGTTTAGCTCTTCCTTGTATCCAAATTGGTATTAATACGCTTATTATTCAAAATAGCGATACCGATTTTATAGGTCGTGTAAATGGTATTTTAAGTCCGCTATTTACCGGTTCAATGGTAGTAACGATGAGTATAGCTGGCTCATTAAAAGAGATGTTTTCATTAAGTATGATGTATGAAGGGACGGCTTTACTTTTTATAATTGGATTATTGTTTATTATACCTATATACAATTTAAAGCCAGTAATAGCGATAGAAAGTGAAATAAGTGGTAAAGGAAGTGCTGTACAGAATGAATCCTAA	MSTNVVTKQNNGVSQVLKNRFVQGILASALFLQIGIWVRNFAVLLYVMEMTKGDAFAISMISVAEFAPIFIFSFIGGTFADRWKPKKTMIWCETLSSISVFAVLITLMFGTWKIVFFVTLISAILSQFSQPSGMKLFKQHLSTEQIQLAMSIYQTIFAIFMVLGPILGTFIFHSFGIYISIIITGISFVLAAVVLLFLPKDLENDVEKKDITLLQEMKDGIKYVKKKKALTLLGLCFMAAGLGIGLIQPLGIFIVTEQLGLSKESLQWLLTVNGAGMIVGGALAMVFAKNVAPQKMLIIGMLGQAIGISIIGYSTNLWVTLTAQLFSGLALPCIQIGINTLIIQNSDTDFIGRVNGILSPLFTGSMVVTMSIAGSLKEMFSLSMMYEGTALLFIIGLLFIIPIYNLKPVIAIESEISGKGSAVQNES	PGPT0027965_865	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
AK009_05531	1236	pksS	COG2124	Polyketide biosynthesis cytochrome P450 PksS	ATGTCAATGAAAAACAAGGTTGGACTAAAAATAGAGGAGGGCATTAATTTAGCTTCAGCTCAATTTAAAGAAGATGCGTATGAAATTTATAAAGAATCTAGAAAAATGCAACCTATCTTATTTGTGAATAAAACTGAACTAGGTGCGGAATGGCTTATCACAAGATATGAAGATGCTTTGCCACTTTTAAAAGATAGTCGCTTAAAAAAAGATCCAGCCAATGTATTTTCTCAAGATACATTGAATGTGTTTCTTACTGTTGACAATAGTGATTATTTAACTACTCATATGTTAAATTCAGATCCACCTAACCATAATCGTTTACGATCACTCGTACAAAAAGCTTTTACACCGAAGATGATCACGCAATTGGAAGGAAGAATACAGGATATTGCAGGTGATTTGTTAAATGAAGTCGAGCGAAAGGGTTCATTAAATCTTGTTGATGATTATTCGTTCCCTTTACCGATTATTGTAATAAGTGAAATGCTTGGCATTCCAAAAGAAGATCAAGCGAAATTTAGAATTTGGTCTCATGCTGTCATTGCTTACCCAGAAACACCAGAAGAAATAAAAGAAACTGAAAAGCAACTATCTGAGTTTATTACATATCTTCAATATTTAGTTGATATTAAACGAAAAGAGCCAAAAGAAGACTTGGTGAGTGCTTTAATACTTGCAGAGAGTGAAGGGCATAAACTTAGCGCTCGGGAACTATATTCAATGATAATGTTACTAATTGTGGCGGGACACGAGACAACGGTAAATTTAATAACAAATACGGTATTAGCGCTCCTCGAAAATCCAGATCAATTACAGTTATTAAAAGAAAATCCAAAATTAATTGATGCCGCTATTGAGGAAGGACTACGATATTATTCTCCAGTTGAGGTTACAACTTCAAGATGGGCAGATGAACCTTTTCAAATTCACGACCAAACAATCGAAAAAGGAGATATGGTTGTCATTGCCTTAGCTTCTGCAAACCGTGATGAAACTGTATTTGAAAACCCAGAAGTATTCGATATTACTCGGGAAAATAATCGTCATATTGCCTTTGGTCATGGGAGCCATTTCTGCTTAGGCGCTCCACTTGCTAGGTTGGAAGCAAAGATTGCTATTACTACTTTGTTTAATCGAATGCCTGAACTACAAATAAAAGGGAATCGTGAAGAAATTAAATGGCAAGGTAACTATTTAATGCGTTCTTTAGAGGAATTGCCTTTAACTTTCTAG	MSMKNKVGLKIEEGINLASAQFKEDAYEIYKESRKMQPILFVNKTELGAEWLITRYEDALPLLKDSRLKKDPANVFSQDTLNVFLTVDNSDYLTTHMLNSDPPNHNRLRSLVQKAFTPKMITQLEGRIQDIAGDLLNEVERKGSLNLVDDYSFPLPIIVISEMLGIPKEDQAKFRIWSHAVIAYPETPEEIKETEKQLSEFITYLQYLVDIKRKEPKEDLVSALILAESEGHKLSARELYSMIMLLIVAGHETTVNLITNTVLALLENPDQLQLLKENPKLIDAAIEEGLRYYSPVEVTTSRWADEPFQIHDQTIEKGDMVVIALASANRDETVFENPEVFDITRENNRHIAFGHGSHFCLGAPLARLEAKIAITTLFNRMPELQIKGNREEIKWQGNYLMRSLEELPLTF	PGPT0010175_23	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010175-baeS|pksS-K15468	NA	NA
AK009_05532	405			hypothetical protein	ATGTATAACCAACAAAATTATCCATATGATCAAGCGATGTATTATAATCCACAAAACTACGGGTATGAATCTGTAGATGAAGCGAGAGATATGGAACAAGAAGATTACAGACCAGATGATGCGGAAGATGCTCCAACGTCACCACCGCCGTCGCAAGCTCCGTCGTTACCGTCTACCTTTGCGTCTCCATCTCAAGCGGGCAATATGAAATCATGGATGTGTAATTGTCTAGGAAGATGGGGCTATTTACGTTTACATCGTCCTGGTCCTTTCGGAAGGGACTTATGGTTCTTTCCGACTGAAGTGAGAAGAAACGGAGTATCAGGTTACACTTGGCAAGGTGGTCGTCGTCGTAAAGTAAGTTATCGCTATCAACAAATTAGTAATTTTATGTGCTTCGCATAA	MYNQQNYPYDQAMYYNPQNYGYESVDEARDMEQEDYRPDDAEDAPTSPPPSQAPSLPSTFASPSQAGNMKSWMCNCLGRWGYLRLHRPGPFGRDLWFFPTEVRRNGVSGYTWQGGRRRKVSYRYQQISNFMCFA				NA	NA	NA	NA	NA
AK009_05533	1005			hypothetical protein	GTGATAGATAAAATTAAAAATGCTGTAGAGGATATGTACGAGGATGAGGTTAAAGATTTACTTCAAAGTATTCTCATACAGTTAAACTTATTAGAAGAAAACTATAGTGAAGATACAATTAAAAATTTGATGGATATTCCGAAACAATTAACGAGTAATCCTACTTATAAAAGAAATGTAAAAGAAAGTACGCACGTACATATTGCTTTTGATGATTCAACGGCTGGTTGCTTAACATATATGTTAAGTCAAGAAGAATTATCTGAAGAGAGTGTTGTTGCTTTTTCTGAATTCTTTTCAATTGGACCGATATATAAGTTGCATACGAATGGGGGGCAACTAGCAAGACAGAAGTGGTTAATAAATAATTTAACTGCTTATGATAGTTATTTTGAAGAAGAATATTTATCAAGATTTATAGCAACTATAGAAGAACTACATACTATTCCTGTTGAAACGCCTATTACAATTTGGAAGGCTGATAATGCACATGAACATGTAGGCCTAAGTTTTGTAATGGCACAATTAAAGGATAAGAAAAACATTCGAGTTATTAATACATCTGAAGCAAGTCGAGAAATATTAAAACAAGAGTATGATATTCGTGGAACTGGAGAATTACCACCTGAAAGTTTAGCTCTATTCCAAAAAAGTTTTGCAAAGTTACCGTATTTAACTGAAGAGAAGCGAATGAAGTTTGAACATGAATGGGATAGAATATCGGGAAGCGTAGAATGTTTAAGAGTGTGGAAAGAAAATGAAGTATATTCTGTACAAGAAGATTATTTTGATCAATTTATAATTGAATGCGCGAAAAGTGTGGGTGCTGATCGAGAATTCCTCAAAGCTCCTAGAGTAATTGGTGAAGCACTTGGTCTTGTTGAACAATTGGTTGGAGATACTTTCTTAGAATATCGCTTGAAACAATTAATTAAACAAGAAGTATTTGAATTTGAAGGTTCGTTAGATGAAATGCGTTTTTATAGTGTGAAGTTAAGGAAATAA	MIDKIKNAVEDMYEDEVKDLLQSILIQLNLLEENYSEDTIKNLMDIPKQLTSNPTYKRNVKESTHVHIAFDDSTAGCLTYMLSQEELSEESVVAFSEFFSIGPIYKLHTNGGQLARQKWLINNLTAYDSYFEEEYLSRFIATIEELHTIPVETPITIWKADNAHEHVGLSFVMAQLKDKKNIRVINTSEASREILKQEYDIRGTGELPPESLALFQKSFAKLPYLTEEKRMKFEHEWDRISGSVECLRVWKENEVYSVQEDYFDQFIIECAKSVGADREFLKAPRVIGEALGLVEQLVGDTFLEYRLKQLIKQEVFEFEGSLDEMRFYSVKLRK				NA	NA	NA	NA	NA
AK009_05534	213			hypothetical protein	ATGGAGAAAGTACTTACTAATTATAGACATTACTTAAAAAATTGGAGATTTATATTTATTTGCATACTACCTGTTATCGCCTTATTCGTTACTTTCTATGTCATCTTCGAACTACTGTTTCATCAAGATTTCTACTTATCTAACTTAATTTCTGCTATCATATTATTTTTAATATTTACTAATGTTAAAGATAAATTTAAAATTAAAGGCTAA	MEKVLTNYRHYLKNWRFIFICILPVIALFVTFYVIFELLFHQDFYLSNLISAIILFLIFTNVKDKFKIKG				NA	NA	NA	NA	NA
AK009_05535	204			hypothetical protein	ATGAAGTATGTAAAAGTTAGTATGAATGGTGGAAGTGAACACAAATTTTCAATGACTTTAGATCGGTTTGAAGAACTTATTACTACAGAGAATGGGATATTAGAAAATAAATTAGTATGTATTGAAAATGTAATGATTAATCCTACTAATATATCTTCTGTAGTTGAAAAAATTGGTGTACCGGCTAAGTTTATGGAAGCTTAA	MKYVKVSMNGGSEHKFSMTLDRFEELITTENGILENKLVCIENVMINPTNISSVVEKIGVPAKFMEA				NA	NA	NA	NA	NA
AK009_05536	417			hypothetical protein	ATGCTTATCATTACATATATATCTGCTTGTATATTATTCTTAGTTAGCTTTTTACATGTATATTGGGGTTTCGGAGGTAATTGGGGGACAAATAGTGTTATACCAACTAAATCAGGGGAAAAGGCGTTTACACCTCGTGCCGGAATGACATTGTTCATTGCATTATTATTAAGTATGGCAGCGATAATTTTGTTGCAACAAGCAAATATTGTTCATTTTGCAGTTCCTAATGTTATTATTCAAGTCGGTTCCTGGATTTGTATGATCGTCTTTTCTATTAGAGTAATTGGTGAGTTTAATTATTTTGGTATCTTTAAACGACAAAAAGATACGCACTTCGCTAGAATGGATACTGGTTTATATATTCCACTTTGTGCATTTTTATCTTTATCTTTCTTATTAGTAATAATTTTGTGA	MLIITYISACILFLVSFLHVYWGFGGNWGTNSVIPTKSGEKAFTPRAGMTLFIALLLSMAAIILLQQANIVHFAVPNVIIQVGSWICMIVFSIRVIGEFNYFGIFKRQKDTHFARMDTGLYIPLCAFLSLSFLLVIIL				NA	NA	NA	NA	NA
AK009_05537	771			hypothetical protein	ATGGTGAAGAAATTAGATGTGCTCTTAATGCTACTGAGCGTCCTCTTTCCAATTGCAGGACTTACAAAGCAAATCCCTCTAGAACAATCTGTATATATTGGAGGGCTTTTATTTTTTACTAGTTTCGGTAGTTATTTTGCTAAAAAGATGTATTCACGTATATGCAGCTGGATAGCGTATGCGCCATTTATAACATTACTGTTAGTTATTTGGCATCAGGATATTACAACAAGCTCAATCATAGCAAATGCGAAAATTGCTGCATGTGTCGCGTTAATTCCATGTTTATTTCGTTTTCGTACATATGGACTTACTTTGGGATTATTCTCATTATGGGCCGCTTTACTATGGGATATAAAAGAAGTACAGTCGTTAGTCATACTTGAACGCATGACGAGTTTAATGACAAGCCATTATGTATATATATTACTATTAATTGGAGGACTTGTATTAGGAGGATTACTTGCGATGTTCATTCACCGCAAAGAGAAAGATAATAATAAAGAAAATATAAATCTACTTGGACCAAAAAAGAAACGCAAAAGATTATCATTTAAGATTCGTCTTCCGAGATTACCGAAATTAAAGATGAAACTATTTAAGTTTGGTGGGAAAGAATCTAAAAGTAAAATTCCAGAAAAGATACATGAGCATAAGTACGAAGAACCAGTTGCAACATATAAAATGACAGAGAAAATAGATCCATACAAAGAAAATGAAGTTCAAGGTCAAACAAGGATGGAACGCCGAAGAAATAGGTTTAATGCATAA	MVKKLDVLLMLLSVLFPIAGLTKQIPLEQSVYIGGLLFFTSFGSYFAKKMYSRICSWIAYAPFITLLLVIWHQDITTSSIIANAKIAACVALIPCLFRFRTYGLTLGLFSLWAALLWDIKEVQSLVILERMTSLMTSHYVYILLLIGGLVLGGLLAMFIHRKEKDNNKENINLLGPKKKRKRLSFKIRLPRLPKLKMKLFKFGGKESKSKIPEKIHEHKYEEPVATYKMTEKIDPYKENEVQGQTRMERRRNRFNA				NA	NA	NA	NA	NA
AK009_05538	2388			hypothetical protein	ATGAAAAAATTAAGGTTGTTAACATTTGAAAATATAGTAGAACCTCTTTTAAATGAAAAGGTATCATTTATATACTTTCCTATTGAATGGCTGGACATCGTAGAGATACATTATAAGACGTTTTTATTAACGAGTAAGTTGAAACGTTTGAATGAAAGACTGTATGATATGTTTTCTGATATATTGTTTATTCAGCATAATCCGTACGTATTAAATGAAAATACACCATGGATTGTATCAAAAGAACCTATTAAACAAGAGCAGCTCAATTATATTTTTCAAAGTTGGTATGAGATTATTCATGATTGGAAACCAAATAAATTAGTAGAGCCACCAAAATATGAATGGCAATCCGATTTGATTTCTAATTTGCCAGTACTACATGATAATGAAACGTATTCTAAGTGGGTGCCCGCTTTAATCTCACATATTTTTTGTGAGCGTCCTATATATTTAGAAAATACAAATGCAGAAGAAATCTATTTTTCTCCTCTTAGATCACAAAATATTTGTGAGGCGATGTCAGGGCCAATAAAAGATGAAAAAACACAAGATTTTTTCTCCTATGTATATCGATTCGAATGCATAACCCGTGGTGGTGAGAACGCTCCATTATTAAATATTTCAATAGGGATTCGGAGATTTTATCAAGAATATAATCATCCAGATATTCCTTTACTTTTCAGACGAAAACGAGGGATGATATTGATTTCTACCCCAGAGTTTGCATCAAATAATAAAAAAATACGGTTTGTAAAACTAAAAATGCAACAAGCTACAACCGGCATGAAATGGATTAAGATATTTAGAAATTTAAAAGATGATTTTCAAATAGGTGGAGATTTGGATTTAGACCATATTCTCCAATATCCGAAAGATTATATTGTCGGGGAAAATAAAAGGGTGTTATTTCCATACAATGAAAGAATATATAAAGTCCAAGGTACTAAAATAGAACCAGGTATAAAAGTAAAGGAAAGAGAGTATTTATTTAAAGAATTCCAGCGTAAATTCTCTTATTTCACAATACTTCCAGAATGTAAAAAGGTAGCAACAAATAACAAAAATGAATTATTTCCTTTATTTGCACCAAAAGGATTAGAGACATTAACATTAGAAGTTTGGTCTGAAAATATAGCGCTGGAAATAGAACAAGCATTACTTGATAGCGAAATTGTTTTGACTAAAATTGGTGAAAATTCTTATGTATTGAATACAGATTTCCCAGTATTATTAAAGATTGTGAGATACAATATTGAAAAGGTGTTACAAAATCCATATAAAATGCAATATTGTCAAAAATATAAAACAAATCTTGTAGATGATGTTACGAAAGCTGTCTATGCTACCGCGGGTGAGCGCAGTGATGCGACATTAGCATTAATCGCAATGAAAAATTGTGATGGACGCGAAAAAATTGATCCAAAACAAATCATTAGAGAGGGATTTGCACGAACAAATCGTATTTCAACATTTATTAATTTATTTATAGGCCAAAGTGTATCTCGTAAAACAATTGTAAATAGTGTTTTTAGTCTATTAGAACAAAAAGGATTTTTGAAGCGTAGTTGGAATAAGATAAATTTACCTTGTACATATGTTAATTTATCAATTGAACGAATATCGAAATTTGATTTCTTACCTATTCTTTCAAAAATAAAAGGAAAAGAAATTTTATATAAATTATATGGGAATACAGAGTGGCAAAAGATTGATTGCGTATTATTAAATATAAATAAACATAATGCATTTTTATCACAACCATCAAAGAGAAATGATATGGGGGCTCTTTTTAAACAATATGTTTTCGAAACATTAATGGAAATTGTACAATATGCAAAAGAACAAAATGAACAAGTTTACTTCATTGTAGATGCAAATTTGAGAAAATATTGGATAAAAGAGTTACAAAATAAAGAAATTAATACAGATATTTTACCTGATATTGTTCCAGAGGTATTAAAGGTTCCCAACTTAAATATTATTAGAATAAATACAGGTTTTGATGTACCAAGCTACGGTGTAATAGAATGTGATGATGCTCTAGATAGAATAGGCTTATATGCAGATCAAAAAGGGATGTATTATAGCACTGGTGAATATTCACTTAATTGTAGTGAAGTTTTTCAGCGATATATAATTGAAATTCTACCATTAGGTGTAAAACCTTTAGAAAGGGATTATATCGCTAAAATGATACATTACATGTGCTGTAATTCTAGAATGCTTTCGAAAAAGAATGTACACATGACATATTCCGTACATATGGAAAAAGTAATAAAGAGTTATATTACTGACATAGATGCAAGAGAATTTAAAGAATTTGATGATGAATTGGATGTAGATGTAGTAAAAGTAGAAAAGAAAGATTCAATTATTCTACTTTAA	MKKLRLLTFENIVEPLLNEKVSFIYFPIEWLDIVEIHYKTFLLTSKLKRLNERLYDMFSDILFIQHNPYVLNENTPWIVSKEPIKQEQLNYIFQSWYEIIHDWKPNKLVEPPKYEWQSDLISNLPVLHDNETYSKWVPALISHIFCERPIYLENTNAEEIYFSPLRSQNICEAMSGPIKDEKTQDFFSYVYRFECITRGGENAPLLNISIGIRRFYQEYNHPDIPLLFRRKRGMILISTPEFASNNKKIRFVKLKMQQATTGMKWIKIFRNLKDDFQIGGDLDLDHILQYPKDYIVGENKRVLFPYNERIYKVQGTKIEPGIKVKEREYLFKEFQRKFSYFTILPECKKVATNNKNELFPLFAPKGLETLTLEVWSENIALEIEQALLDSEIVLTKIGENSYVLNTDFPVLLKIVRYNIEKVLQNPYKMQYCQKYKTNLVDDVTKAVYATAGERSDATLALIAMKNCDGREKIDPKQIIREGFARTNRISTFINLFIGQSVSRKTIVNSVFSLLEQKGFLKRSWNKINLPCTYVNLSIERISKFDFLPILSKIKGKEILYKLYGNTEWQKIDCVLLNINKHNAFLSQPSKRNDMGALFKQYVFETLMEIVQYAKEQNEQVYFIVDANLRKYWIKELQNKEINTDILPDIVPEVLKVPNLNIIRINTGFDVPSYGVIECDDALDRIGLYADQKGMYYSTGEYSLNCSEVFQRYIIEILPLGVKPLERDYIAKMIHYMCCNSRMLSKKNVHMTYSVHMEKVIKSYITDIDAREFKEFDDELDVDVVKVEKKDSIILL				NA	NA	NA	NA	NA
AK009_05539	486			hypothetical protein	ATGAATATGGTTGAACTAAAATCTATTTTCCATTCGTATAAAGTAAAGAGAAAAATAGCTAAAGATTTATACGGAAAAAGAGATGAATTGACACTGTTATTAAATGAATTTAATAATATGAAATGTACAGTAACATCTGAAAAGAAGAAAAATAATATATTATCTCGTTTGCAACTAATTTATCAAAATATAAAATTAGATAAGCAGTATCCTCTATCAGTTTCTTTTGATAGTAAATTATTGGAGCGATTAGAAAAAGAATCTCTACATACTATTGAGGATGGTGTAACATGTCTACATTTAATGTTAGATATGAATTATGAAAAAATAAAACAATATGGGTCGAGTACAAGTAGGTCATTCGTTCCATTATCGCAGTCTTCTATTTGTCTTGCTGATTGTATTTGTTTAACAGGATTTATAGTAGGTTTACTAGGAGTAATTTCATTTGGAGGGTTCATGTTATCTATATGTTCAACTACATAA	MNMVELKSIFHSYKVKRKIAKDLYGKRDELTLLLNEFNNMKCTVTSEKKKNNILSRLQLIYQNIKLDKQYPLSVSFDSKLLERLEKESLHTIEDGVTCLHLMLDMNYEKIKQYGSSTSRSFVPLSQSSICLADCICLTGFIVGLLGVISFGGFMLSICSTT				NA	NA	NA	NA	NA
AK009_05540	330			hypothetical protein	ATGAATCAGTTTCAACAAGAAATACAAGCGTTAAGCCTTAATGATTACCGATCTGGAAATATTGTCTATTGGGACCAGCAAAATCAATATCCATATTACTATATTGAAGATGCTGCTCGTCGCTGTGGGGGTTGTGGTCGTTGTGGCGGTTGTGGCGGAGGTCGTTGTGGCGGATTCCGTTGTGGTGGATTCCGTTGTATTGGTTGCTTCGGTTGTATTGGTTGCGGAGGTTGTATTGGTTGCGGAGGTTGTGGCGGTTGCTCTAACTGTTTTGATGGTTTTAGTGGTACTACTGATACTACTGGTACTATTATAACGTATGAATATTGA	MNQFQQEIQALSLNDYRSGNIVYWDQQNQYPYYYIEDAARRCGGCGRCGGCGGGRCGGFRCGGFRCIGCFGCIGCGGCIGCGGCGGCSNCFDGFSGTTDTTGTIITYEY				NA	NA	NA	NA	NA
AK009_05541	264			hypothetical protein	ATGAATTTTGAGAGGTGTTATATGTTTACAAATAAGAAATTAATTCGATTTGGTTTATCGTTGTTTGTATTTTTAGGGATAATTAATTTTACAATCAGCTATTTCCAAACATATCTTGAAACAGCAGCAGATATTAAATGGGTAATTCCAGAAATTTGGAAAACTATTTTACTAGATGTTCCTCAAGGTATACTTGTTCTTTTAGGCGCAATTGCATTATATGATTTCACAAAAGAGGCATCACAAAAAGACGCATCAATCTAA	MNFERCYMFTNKKLIRFGLSLFVFLGIINFTISYFQTYLETAADIKWVIPEIWKTILLDVPQGILVLLGAIALYDFTKEASQKDASI				NA	NA	NA	NA	NA
AK009_05542	690	tenA_2	COG0819	Aminopyrimidine aminohydrolase	ATGACTTTTTCACCATCATTACGTAAAGAAGTAGATTCAATTTGGGAAGCGAGTTTTAACCATCCTTTTGTAAAAAAACTTGGTGAAGGAACGTTAGATTTAGCTAGTTTTCGCTATTATGTGCTTCAAGATTCATATTATTTGAGTCATTTTGCTAGAGTACAAACTTTAGGAGCTGCAAAAGCTCTTGAATTAGAGACGACAGCTCGTATGGCACATCATGCTCAAAATACATATGAGGCCGAGTTATCTTTACATGAGAATTTTGCTAAAAAGCTAGGGATAACAAAAGAAGAAAAAGATAATTTTATTCCTGCGCCAACTGCATATGCGTATACTTCACATATGTATCGTGCTGCGTATGAAGGGCATTTAGGAGATATCATTGCAGCAATTTTACCTTGCTATTGGTTGTATTACGAAATTGGGGAACGTTTAAAAGAATGTCAGCCGGAAGAGCCAATTTATAACGAATGGATTTCTGCTTATGGATCTGATTGGTTCCGTACGCTAGTTGAAGAACAAATTACACGGTTAGATACTATTGCTGAAAAAGTAACAGAGGCAGACCGCAAGCGTATGAAACAGCATTTTATTATTAGCAGTCAATATGAATATTCATTTTGGGAAATGGCTTATACATTAGAAAAGTGGCCAGTGGATACAGACGTAAAAGACGTAATTGGATAA	MTFSPSLRKEVDSIWEASFNHPFVKKLGEGTLDLASFRYYVLQDSYYLSHFARVQTLGAAKALELETTARMAHHAQNTYEAELSLHENFAKKLGITKEEKDNFIPAPTAYAYTSHMYRAAYEGHLGDIIAAILPCYWLYYEIGERLKECQPEEPIYNEWISAYGSDWFRTLVEEQITRLDTIAEKVTEADRKRMKQHFIISSQYEYSFWEMAYTLEKWPVDTDVKDVIG	PGPT0009055_512	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
AK009_05544	915	ddl_1	COG1181	D-alanine--D-alanine ligase	ATGAAAATCGGTGTTATTATGGGCGGGGTATCGTCTGAAAAACAAGTTTCAATTATGACAGGGAATGAAATGATTGCTCATTTAGATAAAAATAAGTATGAAATAGTCCCAATTACATTAAATGAAAAAATGGATTTAATTGAAAAAGCGAAAGACATTGACTTTGCGTTGCTCGCATTACACGGGAAATATGGAGAAGATGGGACAGTTCAAGGAACACTGGAGAGTTTAGGGATTCCTTATAGCGGAAGTAATATGTTATCTAGTAGTATATGTATGGATAAGAATATTTCGAAAAAGATTTTACGTTATGAAGGTGTAGAAACACCAGATTGGATTGAACTTACAAAAATGGAGGATCTAAAGCTTGATGAGTTAGATAAGTTAGGATTTCCATTAGTGGTAAAACCAAACTCTGGCGGATCGAGTGTCGGGGTGAAAATCGTTTACAATAAAAATGAATTGATCTCAATGCTAGAAACTGTATTTGAATGGGATTCTGAAGTAGTAATTGAGAAGTATATAAAAGGTGATGAAATTACATGTTCCATTCTGGATGGAAAACAGTTACCTATAGTTTCAATTCGACATGCAGCCGAGTTCTTTGACTACAATGCAAAATATGATGATACTAGTACAGTTGAGGAAGTTATCGAACTTCCAGCGGAAATTAATGAACGTGTAAATAAAGCGTCACTGGCTTGTTATAAAGCATTAAAATGTAGTGTTTATGCAAGAGTTGATATGATGGTGAAGGATGGAATTCCATATGTAATGGAAATTAATACATTACCAGGGATGACACAATCAAGTTTATTGCCAAAAAGTGCAGAAGCAGCGGGAATTAGTTATAGCAAACTATTAGATATGATTATTGAAACATCATTAAAAGTTAGAAAAGAAGAAGGGTTTTAA	MKIGVIMGGVSSEKQVSIMTGNEMIAHLDKNKYEIVPITLNEKMDLIEKAKDIDFALLALHGKYGEDGTVQGTLESLGIPYSGSNMLSSSICMDKNISKKILRYEGVETPDWIELTKMEDLKLDELDKLGFPLVVKPNSGGSSVGVKIVYNKNELISMLETVFEWDSEVVIEKYIKGDEITCSILDGKQLPIVSIRHAAEFFDYNAKYDDTSTVEEVIELPAEINERVNKASLACYKALKCSVYARVDMMVKDGIPYVMEINTLPGMTQSSLLPKSAEAAGISYSKLLDMIIETSLKVRKEEGF	PGPT0020050_5688	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK009_05545	1449	hisC_3		Histidinol-phosphate aminotransferase	TTGTTTAAGGATTTTAAAGTTGTTAAAGATCGTCCCGTTTATATTCAATTGAAAGATTATTTGAAGAAGATGATTATGAAAGGGCACTTGCTCGGGAATCAAAAAATCCCATCAACAAGGGAACTAAGTGAATTACTAAGTGTGAGTAGAAACACTGTACTTGCTGCTTATGCAGATTTAGAGCAAGAAGGACTCATTTATGCAGTTAAAGGAAAAGGGAACTTTGTTGCGAAGGTAGATATATCTAACACTTCGTCTGTTGAAATAGATTGGAAAAATAAACTTAATACAGTGACCGCATTAGCGGATGAATTAGATTTAATGAAACATGGTGTTCGTTGGGAAAAGGGAATGATTGTTTTTAATAGTATAGCCCCGGATGAGAAGCTATTTGATGTTGAAAACTTCAAAAGAGCTTTTCTTACTCGTATGTCCATTGAAGGGGACATCGTATTGAACTACGGATATGCAAAGGGATATAAACCGTTAATGAATTATTTACTTCATTACATGGAAATGAAAGGTGTAGACATTTCGAATAAAGATATTCTAATTACAAATGGATTTACAGAAGGATTGGATATTGTACTTTCTTCTTTATCAAAAAAATCCGGTCGTGTCATTTGTGAGAATCCAACTCACCACGCTGCACTAAAGCTGTTCCGTTTACATGGACTTGAAGTTCATGGGATTGATATGAATGAGGATGGTATTGATACGAATGAAGTTGAAAAAAGCTTACGTGAAAAAGATTTTGATTTTGCTTATTTAATTCCTTCTTATCATAATCCAACCGGTATTGTTACGAGTTCAGAGAAAAGAACGGAATTGATGAGGTTATTCTCGAAATATAAGGTTCCTATTATAGAGGACGGATTTAATGAAGAATTACGTTATTCAGGTTCACATTTAGCTCCCTTATTAACTTTTGCTGGAGCTGGCAATAATGTGATTTATATTAGTAGCTTTTCAAAGGTACTTTTCCCTGGTTTACGTGTAGGTTGGATTATTGCAGATAAAGAGCTGATTCATTATTTAGAAAGCGTAAAAAGAGCAAGAACAATCCACACATCTACGTTAGATCAAGCGGTTCTATTTCAATATTTACATGAGGGATATTTTGAGAAATATTTAAAAAAGGCAAGATCGGTTTATAAGAAAAAATATGAGTTAGCTGTCGGCGCGTGTAATCAGTTCATTCCTTTCAAAAGAATGACTGGAGATGGTGGACTTCATTTATTTATAGAGCTAGAAGAGCATATGAATGCCCGCACACTTTTACAAAAGTGTTATGAGAAAGGCGTTACGTTTTCACCTGGAGATGTTTTTTACTCTGATGGAGAAGGGGCGAACACTTTCCGATTAGGGTTTTCGCGCTTGAAAGAAGAAGAAATAGTTCGGGGAATTAAAATAATTGGTGATACATTAAAAAATGAAATTTGGAGTTGA	MFKDFKVVKDRPVYIQLKDYLKKMIMKGHLLGNQKIPSTRELSELLSVSRNTVLAAYADLEQEGLIYAVKGKGNFVAKVDISNTSSVEIDWKNKLNTVTALADELDLMKHGVRWEKGMIVFNSIAPDEKLFDVENFKRAFLTRMSIEGDIVLNYGYAKGYKPLMNYLLHYMEMKGVDISNKDILITNGFTEGLDIVLSSLSKKSGRVICENPTHHAALKLFRLHGLEVHGIDMNEDGIDTNEVEKSLREKDFDFAYLIPSYHNPTGIVTSSEKRTELMRLFSKYKVPIIEDGFNEELRYSGSHLAPLLTFAGAGNNVIYISSFSKVLFPGLRVGWIIADKELIHYLESVKRARTIHTSTLDQAVLFQYLHEGYFEKYLKKARSVYKKKYELAVGACNQFIPFKRMTGDGGLHLFIELEEHMNARTLLQKCYEKGVTFSPGDVFYSDGEGANTFRLGFSRLKEEEIVRGIKIIGDTLKNEIWS	PGPT0016790_2928	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
AK009_05546	1026	hom_3	COG0460	Homoserine dehydrogenase	ATGAAGATTCAAGTTGTATTATCAGGATACGGAACAGTAGGCAGAGAGTTTATAAAATTATTAAATGAAAAGTATTCATATATATATGAAACATATGGGATTCAATTAGTTGTAAGTGGCGTATTAGGAAGAAATATTGCAATACATAATGAAGACGGCTTATCTCTTCATCATTTATTGATGTATGGTGGCGGTACCGCTGCAATTGAAAAATATTTAGAGTATCATCCGAAGGAACGTGCAACAACTAGCATAAGTGGTACTGTATTGGTAGAATCAACAGTTACAAATCTTAAAGATGGAAATCCAGGGAAACAATATATGAAACAAGCGATTGAGAAACAGATGGATATAGTAGCAATTTCAAAAGGTGCACTCGTTACAAACTGGAGAGAAATAAATGAAGCAGCAAGAGGCGTAAATGTACGAATTCGATATAGCGGTGCAACAGCCGCTGCACTACCGACGCTAGATATCGGACAATTTAGTTTAGCCGGTTGCAGTATTGAAAAAATAGAAGGAATATTAAATGGAACAACTAATTATATTCTTACGAAAATGTATGAGGAAGATATGACATTTGAAGAAGCACTGAAAGAAGCGCAAAATAAAGGAATTGCTGAGACAAACCCTATATTAGATATAAGTGGTTCAGATAGTGCGTGTAAATTGTTACTTTTGACAAACAGCTTAATGGAAACAGAGAAAACACTTACTGATATACATATAAAAGGAATCGAGCACGTTACAAAACAACAAATACAAAATGCTAAGGAACAACATAAAATTATTAAATTAATAGCATCAATATATAAGGATGAGGGTGGCAATGTGAATTTAAATGTTGAACCGTGCGAAATAGAAAAAGATCATCCGTTAGCAAAAGTAAATGGGACCGAAAAAGGAATTACGTTCTTTACAGATACGATGGGACAAGTTACTACAATTGGTGGGGCTTCTAATCCACGAGGCGCTGCAGCTGCAGCTTTAAAAGATGTAATTAACTTATATCGAAAAGACTTGTAA	MKIQVVLSGYGTVGREFIKLLNEKYSYIYETYGIQLVVSGVLGRNIAIHNEDGLSLHHLLMYGGGTAAIEKYLEYHPKERATTSISGTVLVESTVTNLKDGNPGKQYMKQAIEKQMDIVAISKGALVTNWREINEAARGVNVRIRYSGATAAALPTLDIGQFSLAGCSIEKIEGILNGTTNYILTKMYEEDMTFEEALKEAQNKGIAETNPILDISGSDSACKLLLLTNSLMETEKTLTDIHIKGIEHVTKQQIQNAKEQHKIIKLIASIYKDEGGNVNLNVEPCEIEKDHPLAKVNGTEKGITFFTDTMGQVTTIGGASNPRGAAAAALKDVINLYRKDL	PGPT0020155_4039	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK009_05547	1242			Lipase	ATGGGGAAGTTATTTTTAAAAATATGTTTTTTCGCATTAGTGACCTTATGTTCATTCGTAGCGAAAATATCATATGCTGAAGAGAGGCAACCAAATAATTATCCTATCATATTGGTGAATGGATTTGCTGGATGGGGTAGAGAAGAAATGCTTGGCGTAAAGTATTGGGGTGGTGTTCATGATATACAGGAAGATTTGAAACGAAATGGTTATACGGTACATACCGCAGCTGTTGGACCTGTTTCTAGTAACTGGGATCGTGCATGTGAATTGTATGCGCAAATTAGCGGTGGCACAGTAGACTATGGTGCCTCGCATGCTGAGAAACATGGACATAATCGTTTTGGCAGAACTTATAGTGGTTTTACGCCGAATTGGAGTGAAACAAATAAAGTTCATTTAGTTGGGCATAGCATGGGTGGACAAACGATTAGAACATTAGTACAGCTATTAAAAGAAGGTAGTTTTGAAGAAAAGAATTATGCGAAAAATCACCCAGACACCAAAATATCACCACTATTTGAAGGCGGAAAATCATATGTTCATAGTGTTACAACATTAGCAACCCCTCACAACGGTACAACACTTGCGGATGGTAGTCTTCTGCTGCCGTTCGTTAAAGATTTACTCATTACAGCTGCGAGCTTTGGAGGAAACAATAATTTATCTTTATATGATTTTAAATTGGATCAATGGGGTATAAAGAAGATTGCTGGAGAGTCCTTTTTCCAATATAGTAATCGTATTCTAAATAGTTCACTTTGGAAAAATACAAAAGATATAAGTCAATGGGATTTAAGTACAGATGGTGCAAAGGAGTTAAATAATTGGGTAAAGACGCAACCGGATGTTTATTACTTATCTTATAGTGGACATGCATCACAAGCAGCACCTATTACAGGTTTACATTTGCCTCATATAACGATGAATAAAGTGTTGATGGGGAATGCATTTTTCTTAGGTTCTTATGCGAGATATGAAGAAAACCGTCCGTTAGTTGATACTTCTTGGTGGCAAAATGATGGTGTAGTAAATACCAATTCTATGATTGCACCAATTTCTAATGTTGCTGTAAATAATCATGAGTCATTACAGGTTGGAAAATGGAATCATATCGAAACGAAAGCGAATTGGGATCATCTCGACATGGTAGGATTAAGTGTTTCAGACTCGTTAGGTTTTTCTAGCATTCAAGAGTTTTATAGAACAATTGCTGAAAAGCTATCACGTTTACCGAAATAA	MGKLFLKICFFALVTLCSFVAKISYAEERQPNNYPIILVNGFAGWGREEMLGVKYWGGVHDIQEDLKRNGYTVHTAAVGPVSSNWDRACELYAQISGGTVDYGASHAEKHGHNRFGRTYSGFTPNWSETNKVHLVGHSMGGQTIRTLVQLLKEGSFEEKNYAKNHPDTKISPLFEGGKSYVHSVTTLATPHNGTTLADGSLLLPFVKDLLITAASFGGNNNLSLYDFKLDQWGIKKIAGESFFQYSNRILNSSLWKNTKDISQWDLSTDGAKELNNWVKTQPDVYYLSYSGHASQAAPITGLHLPHITMNKVLMGNAFFLGSYARYEENRPLVDTSWWQNDGVVNTNSMIAPISNVAVNNHESLQVGKWNHIETKANWDHLDMVGLSVSDSLGFSSIQEFYRTIAEKLSRLPK	PGPT0024445_379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
AK009_05548	342			hypothetical protein	ATGCAAATCGGATCAAATATTCATACATTATCTCAACCTACTAAAATAACTCCATCTACTCTTGAGCATAATACTATCTCTTCTACTAAACTGGAAAGTAAGAAAGTAAATGATCCTATCAAGTTTGATATTCGTTCATCTGAAAAAGAAATGAAACAGCCTGAGCATAAATTTAATGAATTAGATTTATGGAAGATGTTAAAGGATAAAGGTGTTCCTTTATGGATCATCCTTGAAATGCTACAAAAGGCTCGTAAAGAAAAAGAAGCCCAAAATAATTCAGTTCAAAATTCAAATGCGATTGAGGAAACAAACGAGACTCGATTAAATGAAGTAATGTAA	MQIGSNIHTLSQPTKITPSTLEHNTISSTKLESKKVNDPIKFDIRSSEKEMKQPEHKFNELDLWKMLKDKGVPLWIILEMLQKARKEKEAQNNSVQNSNAIEETNETRLNEVM				NA	NA	NA	NA	NA
AK009_05549	669			hypothetical protein	ATGAAAAGAATATTAACTATTTTTATGTTAACTATAATACTTTTAATAAGCTTTAGTGCATGTTCTAAAAAGGACAACTCATTTCCTGCAAACGGTGTATTAATTATTGGAGATGAAAATAATATTTCACCAATTATTAATCGTTATCAGGAAATTACGGAAGAAAATGAAGTGTTTTCTGTGAAAAAAGGGGAAGTTGGAAATGGAAATGTCTTAATTTTAAATGAATCTACAGCACAAGCATTGATTAAAGAAAAACTTTTTCGAAAACAAGATAATGGCTCCAATTATATTATAGATACGTTACCGAAATTCCCAAAAGAAGGGTCACTATTATTTACAAGTGAAGACGATAAGACTATGAAAAGTATTAAAATAGGAGGGGAAGAGATTCCTGTTACATACGATAGTGATGCCTGGATAGGTAACAATCGTAAATATTCAACGGAATGGTATATGATTGTAGCAAAAAATAGTGTGTATAAAGAAATAAAGGCAAATGAAATGAAAATGCATCTTCTTCATTTGAAAAAATCTCTAGGTGACGAAAAACCTAAAATGTCGACAGATAATACATTGGTTAATGAAAATGTTAAAGTAAAAAAACTAATTAAAGGTTTGGAAGGAAAAGTATCTTTCCAGTTTGTAACGATTGGAGAAAAATCATAA	MKRILTIFMLTIILLISFSACSKKDNSFPANGVLIIGDENNISPIINRYQEITEENEVFSVKKGEVGNGNVLILNESTAQALIKEKLFRKQDNGSNYIIDTLPKFPKEGSLLFTSEDDKTMKSIKIGGEEIPVTYDSDAWIGNNRKYSTEWYMIVAKNSVYKEIKANEMKMHLLHLKKSLGDEKPKMSTDNTLVNENVKVKKLIKGLEGKVSFQFVTIGEKS				NA	NA	NA	NA	NA
AK009_05550	1932	yxdM_9		ABC transporter permease protein YxdM	ATGACTTTTCGTCAGTTCGCATTTAATAATATTTTTCGCAATAAGCGTACATATGCTGCCCATTTTTTAAGTAGTGCATTTTCTATTATGATTTTCTTTACGTATGCTCTTTTATTATTTCATCCTGATTTACAAGGTGAGTTGAAATCGACAAGTGCAACAATAAGTGCATTTGGTACATTGGGATTTTCAGTTTCGCAAGGATTGATTTTTGTATTTTCATTTTTCTTCATTCTATATTCAGTTAGTTCGTTTTTAAAAACGCGTAAGAAAGAATTTGGTATTTTAATGATGCAAGGTATGTCAATGAGACAGCTTAAGAAATTATTATTAATTGAAAATATGTTGATTGGACTTGGTTCAATTTGTATAGGGATTTTCATTGGACTCATATTTTCTAAACTAGTCTTATTGATAAGTGCAAGTGTATTAATGATTAATAATGGTTTACCTTTTTATATACCAGTGCAGGCTGTATTATTAACAGTTATTACATTTCTTTTCTTGTTTTTAATTGTTTCATTATTTACATTTAAAATGATAAAAGTAACGGAACTTGTGGAACTTATTCGAGCAGAGGAAAAGCCAAAACCTGAACCGAAATCTTCAGTTTTATTATCGATACTTTCTTTAATTAGTATAGGGTATGGATATTTTTCAGTATTTCGCTTCATACCAAGTACCAATTTTATTACGCTTGGAATAGGTGTGCTTCTAGTAATTATAGGAACGTACTTTTTATATACACAGTGTAGCGTGTATATACTGCACCTTGCTAAAAGGAGAGAATCTTTCTTTTTAAAGAGAACAAATATATTAACATTTTCTGAATTAATTTACCGTATGAAAGATAATGCAACGATGTTTTTTATAGTATCTATTGTTTCAGCAGTTGCATTTACAGCAATTGGTACAACGGCCGCAATTGGAAATAGGGATTTGGTAAGGATGACAAATCCGTATACATTTTTGTATGGAAGTTTTGAAAATGACAAAGTATTGAATAAAAATCTTTCTATTATAAAAAAACACCTTTCTGATGCTAATATTCCGTATCGAATGGCTTCATCTTCATATATATACACAGAAAATGGCGTAAATGTAATGAAGTTAAGTGAATACAACGATCTTGCTAAAGCACTAGGCTATCAACAAGAAACAATTGAAAAAGAAGATGAAATTTTATTAATTCCTGGAGTCGTATCACAAAAACAAGAATTTAAAAATGGCGAGTATAAAAAGAATATAGAAGTCATTCAAGGTGACTGGACAAAGACATTTCATGTGAAAAAAGCTGTAGAAAATTTAGTTTTACCACATGATTCTAGAACTATTTATATCGCTGTTCAAGATCAGGTATATGATGGAATACCTCTTACTAGTGACCCAGTTAATAAAGAAATTCCATATCGTACTTACGGATTTGTTGTAGATGATTGGATAAAAACGAAAGAGATTTCAAATCAATTAAAGAGTATATTCGATAAAAATCTTAGGGACAGAGATTTCTACTTTGAAGCTTTAACATTAAACTTGTTGGAAGCAAAGCAAAAGAATGGTTTATTACTTATGGTAAGTATTTTAATTGGAATCGTCTTCTTTACATTCGCCGCTAGTTTTATTTATTTCCGATTATATACAGATTTGGATCGCGACCAACAGCAATATAAAATGATTTCGAAAATGGGATTAAGTAAAGGTGAGTTGAAAAAAGTTGTAACGAGGCAGTTATTATTAATGTTCTTTTTACCAATTTTCGTTGCAGTGATTCATACTGTAGTTGCTTATATAGCATTACAGCAATTAGTCGATTTTTCTATCATAAATAGCTCTATCGTTATTTTAATTTCATTTATATGTATACAAGTTTTATATTTCTTTATAACCCGTTGGCGTTACCTGCAAAAGCTTTATAAGGTTATGGAGCAATAG	MTFRQFAFNNIFRNKRTYAAHFLSSAFSIMIFFTYALLLFHPDLQGELKSTSATISAFGTLGFSVSQGLIFVFSFFFILYSVSSFLKTRKKEFGILMMQGMSMRQLKKLLLIENMLIGLGSICIGIFIGLIFSKLVLLISASVLMINNGLPFYIPVQAVLLTVITFLFLFLIVSLFTFKMIKVTELVELIRAEEKPKPEPKSSVLLSILSLISIGYGYFSVFRFIPSTNFITLGIGVLLVIIGTYFLYTQCSVYILHLAKRRESFFLKRTNILTFSELIYRMKDNATMFFIVSIVSAVAFTAIGTTAAIGNRDLVRMTNPYTFLYGSFENDKVLNKNLSIIKKHLSDANIPYRMASSSYIYTENGVNVMKLSEYNDLAKALGYQQETIEKEDEILLIPGVVSQKQEFKNGEYKKNIEVIQGDWTKTFHVKKAVENLVLPHDSRTIYIAVQDQVYDGIPLTSDPVNKEIPYRTYGFVVDDWIKTKEISNQLKSIFDKNLRDRDFYFEALTLNLLEAKQKNGLLLMVSILIGIVFFTFAASFIYFRLYTDLDRDQQQYKMISKMGLSKGELKKVVTRQLLLMFFLPIFVAVIHTVVAYIALQQLVDFSIINSSIVILISFICIQVLYFFITRWRYLQKLYKVMEQ	PGPT0027860_201	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
AK009_05551	771	yxdL_6	COG1136	ABC transporter ATP-binding protein YxdL	ATGGAAATTTTGCAGGCAAATAGTATTAGTAAAGTATATAGAGGGAAAGTACCTTTTAAAGCATTAGTAGATATTGATTTATCAATTCAAGAAGGTGAATTTGTAGGAATTATGGGCCCGTCAGGTAGTGGGAAAACAACGTTATTAAATATGGTATCTACTATTGATTCTCCATCATCGGGAGAAATATTTATTAATGGTACAAATCCTTTCCAATTATCATCAGAAGAATTAGCGTTATTCCGCAGAAAACAATTAGGATTTGTTTTCCAATCATTTAATCTTCTTAGCACACTTACTGTAAAAGAAAACATCGTATTGCCGATGACTTTAGATGGTGTTTCTGTGCAAGATATGAACAAACGAGTGGAAGAGATTGCACAGAAATTAAACATTATAGATATATTGAGTAAAAGAACGTTTGAAATATCAGGGGGACAAGCTCAAAGAACAGCAATTGCTCGTGCGATCGTTCATAAGCCGCAATTGTTACTTGCAGATGAACCAACAGGGAATTTAGACTCTAAATCTTCAAATGATGTAATGGAGATGCTTGATACTCTAAATAAAGAAGAAAAAGCAACGATGATGTTAGTTACACATGATCCGTATGCAGCGAGCTTTTGCAGCCGAGTAATCTTTATTAAAGATGGTCAACTATATAACGAAATTTATTGTGGTGAAAGTAGGCAAACTTTTTATCAAAAGATTATGGATGTCCTTTCTTTGTTAGGAGGGAAAAGGCATGACTTTTCGTCAGTTCGCATTTAA	MEILQANSISKVYRGKVPFKALVDIDLSIQEGEFVGIMGPSGSGKTTLLNMVSTIDSPSSGEIFINGTNPFQLSSEELALFRRKQLGFVFQSFNLLSTLTVKENIVLPMTLDGVSVQDMNKRVEEIAQKLNIIDILSKRTFEISGGQAQRTAIARAIVHKPQLLLADEPTGNLDSKSSNDVMEMLDTLNKEEKATMMLVTHDPYAASFCSRVIFIKDGQLYNEIYCGESRQTFYQKIMDVLSLLGGKRHDFSSVRI	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
AK009_05552	231			hypothetical protein	ATGAATGTGTTTATCCAACATATAAATAATAAAATTGATTTAATATTTCCTGATACAAAGAACGACATCATGGCAGGTACTACTGATAATACAATAATAGGCAAGCTCATAAAGACCCAAAATCTCGTTTTGGATAAGACTGCATTTGTATTTAGCCCAAAAAATCTTTTACTAAATGTTAAGCTAATATCCCCTTTTTTACTTATTACTAAAATGTGTAAACATTCGTGA	MNVFIQHINNKIDLIFPDTKNDIMAGTTDNTIIGKLIKTQNLVLDKTAFVFSPKNLLLNVKLISPFLLITKMCKHS				NA	NA	NA	NA	NA
AK009_05553	594			hypothetical protein	ATGGGAGAAGAGAGTTCAACTAAGTTATTTAGAATAGATTGTGGAGATATATACTTGCAAGGGTTTATGGTCAAAGATGCAGAAAGTATTTATAAAATAGCCAATCAACCGGAAATAGAAAAGTTTTTACCAGACTGGAAATCGACGAAAGAACAAAGGGTGGATTGGATTGCAAATTATGAAATACCAGCAAACAAAGCATTTCTTGAGGCAGTGAAAACTACGAATAACATAGATAATCATATGTTAAAGCTAGGAATATTTAAGGAAGCTACAAATGAATGCATTGGATGGTGCTGCACAGGCATGAAAGAAGAACTCCCTTCACCAAACAGAGAGATAATGTATGCTATCTCAAATAAACATCAAAATCATGGCTATGCTACAAAAGCGACTAAAGGCTTAATTGACTATTTGTTTAAAGAAACAAATTTAATTGTCCTTAACGCAATTACTTTAATTAACAATGTACCATCAAATAAAGTTATTAAAAAATGCGGGTTTACTTATTTGAGTGAACACAAGATAGCAAATCAACTATATAATCATTATGTATTGAGTAAATCTGAATGGATAAAAAATATTGTGCAGTAA	MGEESSTKLFRIDCGDIYLQGFMVKDAESIYKIANQPEIEKFLPDWKSTKEQRVDWIANYEIPANKAFLEAVKTTNNIDNHMLKLGIFKEATNECIGWCCTGMKEELPSPNREIMYAISNKHQNHGYATKATKGLIDYLFKETNLIVLNAITLINNVPSNKVIKKCGFTYLSEHKIANQLYNHYVLSKSEWIKNIVQ				NA	NA	NA	NA	NA
AK009_05554	1647	expZ_2	COG0488	Nucleotide-binding protein ExpZ	ATGAAAGGGATCGGTATTATGAAAGAACTATTAAAATTAAATGATGTTTATGTTGAAATAAAAGAAAATATGTTGTTAGAGAAAATGAATGTGACAGTAAAACAAGGGGATGTTATCGGATTAATTGGTAAAAACGGTGCTGGTAAATCAACGTTACTTCAATTAATAAATGGAAAGATTGAGCCTTCAAAAGGGATTGTTGAATGGCAGCAAATGAATATGACAACCGCATATGTTGAGCAAGAAATAGAATCTTTTATTAGTAACGATGTAATTGCAAAAGAAGCAGAACTGCTTGCGAAATGGGGCGTGCCAACGAACGATTTTCATACTTTAAGTGGTGGTGAAAAGTTAAAAATTCGATTAGCAAAAGGATTTGCTAAAAATCCTAATGTCTTAATATTAGACGAACCGACAAATCATTTAGATGAAATGAGTACGGAATTTCTCATTAAACAAATAAAAAATATGAAAGGTACAGTTATCGTTGTATCGCATGATCGATATTTTTTAGATGTTGTCGCAACAAAAATATGGTCAATTGAGGACAAAAAATTAATTGACCATAGTGGTAATTATACAAGCTACATGAAAGCACGTGAGCAAAGAAGGAAGTCGCAGCAGCGAGAATATGAAAAGCAGCAAAAAAAGATAGAACAAGTAGAAACACATATAAAAGAATTAAGTTCATGGTCACAAAAGGCACACGCGCAGTCTACAAAACAAGAAAGTTTTAAAGAGTTTTATCGTGTAAAAGCGAAACGAATGGATGCGCAAGTGAAGTCAAAAAGAAAACGTCTCGAAAAAGAGCTGGAGAAAACGAAAGTAGAACGTGTGAAAGAAGAGTATTCAATTGAGTTCTCTATTCAAGCGAGTAAAAAAGTAGGAAAACGCTTTTTAGAAGTAAAGCAATTAAAAAAAGAATTTAATGGAAAAGCATTATTTGAAAACGTTAATTTTACAATTCAGCACGGTGAGAAAGTTGCAATTGTTGGACCAAACGGTAGCGGGAAAACAACATTACTGAAGATGATTATGGGAGCGGAAACTGCTGAAGGAGAAATATGGATTTCACCATCTGCAAACATCGGTTATTTAACACAAGAGGTTTTTGATTTGCCACTGGACAAAACGCCAGAAGATTTATTTTTTAAAGAGACGTTTGAAGAAAGAGGAAAAGTCCAAAATTTAATGAAACATTTAGGGTTCCAAGCTTCTCAATGGAAAGAGCCGATTGAGCATATGAGTATGGGAGAAAGAGTAAAATGTAAGCTAATGGCTTATATTTTAGATGAAAAAGATGTACTCATTTTAGATGAACCGACGAATCACTTGGATCTACCTTCACGTGAACAACTTGAAAATACATTAGCTGAGTATAACGGAACATTAATAATTGTTTCTCACGATCGATATTTTCTAGAGAAAACAACTAACATAAAACTCGTGTTTTTAAACAATACGATACAAAAGCAGCTAGAAGAACCTACTAAAACAAGAGATAATATTGAAGAGCTACGTTTAACGTTAGAAACAGAGAGACAAGAAGTATTAGGGAAATTAAGCTTTTTAACTTCTAACGACAAAGAATATAAAGAACTTGATGAACGATTTATAGAACTTACGAAGCAGATAAAGGCGTTATAA	MKGIGIMKELLKLNDVYVEIKENMLLEKMNVTVKQGDVIGLIGKNGAGKSTLLQLINGKIEPSKGIVEWQQMNMTTAYVEQEIESFISNDVIAKEAELLAKWGVPTNDFHTLSGGEKLKIRLAKGFAKNPNVLILDEPTNHLDEMSTEFLIKQIKNMKGTVIVVSHDRYFLDVVATKIWSIEDKKLIDHSGNYTSYMKAREQRRKSQQREYEKQQKKIEQVETHIKELSSWSQKAHAQSTKQESFKEFYRVKAKRMDAQVKSKRKRLEKELEKTKVERVKEEYSIEFSIQASKKVGKRFLEVKQLKKEFNGKALFENVNFTIQHGEKVAIVGPNGSGKTTLLKMIMGAETAEGEIWISPSANIGYLTQEVFDLPLDKTPEDLFFKETFEERGKVQNLMKHLGFQASQWKEPIEHMSMGERVKCKLMAYILDEKDVLILDEPTNHLDLPSREQLENTLAEYNGTLIIVSHDRYFLEKTTNIKLVFLNNTIQKQLEEPTKTRDNIEELRLTLETERQEVLGKLSFLTSNDKEYKELDERFIELTKQIKAL	PGPT0027940_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027940-msrA|vmlR-K18231	NA	NA
AK009_05556	990	gpr_2	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGGAATTTAGTAAACTAGGAAACAGTGGATTAACAGTAAGTAAAATCGCATACGGGAACTGGATAAACCATGGTGGAAAAGTAAACGAAGATACTGCAAATGATTGTGTAAAAGCCGCACTAGATGTTGGAATTACAACGTTCGATACTGCTGATGTTTATTCGGACACGATAGCTGAGGAAGTACTTGGCCGATCTTTGCAAGGTATACGCCGAGAAAGTATAGAACTATGTACAAAAGTATGCCATCCGACCGGTCCTGGAAAAAATGATCGTGGATTATCAAGAAAACATATTATAGAAAATTGTAATGCATCGTTAAAACGATTACAGACAGACTATATCGATATTTATTATGCACATAGATTTGATATAACAACTCCTCTTGAGGAAACAATGTTAGCTTTCTCAGATCTTGTAAGACAAGGTAAGGTTCTCTATTTAGGCGTAAGCGAATGGACATCAGAACAAATTACCCGTGGTGCAGCACTTGCACGCGAATTGAACATTCCATTTATCGCTAGCCAACCTCAATATTCGATGTTATGGCGAGTTATTGAAACTGATGTGATTCCAACATGTCAACGTGAGGGACTTGGCCAAATCGTATGGTCGCCACTTGCACAAGGTATTCTTACAGGAAAATATCAACCTGGTAAACCATTACCGAATCAATCGCGTGCTAACTCCGATGCTGGAAAACCGTTTTTTGACAAACTCGTGCAACGTTGGATGAGTGATGATGTGCTTACCGCTATCCAGGAAATTAAACCTATCGCACAAGAAATTAACCTTACCTTATCTCAACTCGCAGTTGCTTGGGTATTACAAAATCCAGCTGTTTCTTCTGCAATTATTGGTGCTTCAAATCCGGAACAAATAAGAGAAAATGTAATTGCTTCTAGTGTTAAATTGCAACCTGAAATTATGGATCAGATTGACAGTGTATTAAAAGGTTTCGCTGAGTATGATACTAGTAAAACAGGTTGA	MEFSKLGNSGLTVSKIAYGNWINHGGKVNEDTANDCVKAALDVGITTFDTADVYSDTIAEEVLGRSLQGIRRESIELCTKVCHPTGPGKNDRGLSRKHIIENCNASLKRLQTDYIDIYYAHRFDITTPLEETMLAFSDLVRQGKVLYLGVSEWTSEQITRGAALARELNIPFIASQPQYSMLWRVIETDVIPTCQREGLGQIVWSPLAQGILTGKYQPGKPLPNQSRANSDAGKPFFDKLVQRWMSDDVLTAIQEIKPIAQEINLTLSQLAVAWVLQNPAVSSAIIGASNPEQIRENVIASSVKLQPEIMDQIDSVLKGFAEYDTSKTG	PGPT0010570_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967	NA	NA
AK009_05557	897	catM		HTH-type transcriptional regulator CatM	ATGGATATTCGTAAAATGAAATATTTCATAACGGTGGCAGAAGAATTAAACTTTAGTCGTGCAGCAGAGCGTCTTATGATGGCACAACCGCCTTTAAGTCAAGAAATTCGAAAATTGGAAGAAGAATTAGGAGTTCAACTTTTTCACCGGACAAAAAGGATGGTTGAGCTTACCGAGGCGGGGAAAGTCTTTTTAGAAGGTGCTAGGCAAACATTACTTCAAGTAGATAGAACGATTAAAGAAACACAGCTTGCAGATGAAGGGAAAATCGGGCATTTAATCATCGGTTTTGTCGATTCTACAGAAACAGTTATAGGCATATTAAAAACATTTCGAGAACGTTTTCCAAAAATTCAGCTCATATTACGTGAGATGACAACAGACCAACAAATAAAAGCGCTTTACGAAAAACAAATTCATATTGGATTTATTCGTTCGGAGCAAAATAATGAAATATTATCTTCTGAAGTTTGTTCTGAAGAGTGTTTAAAGTTGGTTTTGCATGAAAATCACCCTTTCGTTTCGTTACCTAATATTTCAATCAAATCATTAGTGGAGGAACCATTCATTTTATTTCCTCGTCATTTCGGTACAAATTTTTATGATTTAATTATTAGTTACTTTTGGAAATATGGGGTAAGTTTAAATATTGTTCAAGAAGCAGTTCAAATGCAAACGATTGTAAACTTAGTTGCAGCTGGAATGGGGATTTCTGTCGTTCCATCCTCGGTGGAAAGCTATAAAAAATCAGGAGTGATGTATAAAGATATTCTAGAAAATACACCGGAAATAAATTTATATGCTGGATGGAGGAAGGATGAAAAGTCTGTCGTGTTAAAGAACTTTTTAACAGTTGTTAGAGAGGTTTATATGACTTCCCACAGCCCATCTTTATAG	MDIRKMKYFITVAEELNFSRAAERLMMAQPPLSQEIRKLEEELGVQLFHRTKRMVELTEAGKVFLEGARQTLLQVDRTIKETQLADEGKIGHLIIGFVDSTETVIGILKTFRERFPKIQLILREMTTDQQIKALYEKQIHIGFIRSEQNNEILSSEVCSEECLKLVLHENHPFVSLPNISIKSLVEEPFILFPRHFGTNFYDLIISYFWKYGVSLNIVQEAVQMQTIVNLVAAGMGISVVPSSVESYKKSGVMYKDILENTPEINLYAGWRKDEKSVVLKNFLTVVREVYMTSHSPSL				NA	NA	NA	NA	NA
AK009_05558	984	graS_2		Sensor histidine kinase GraS	ATGATAAGGTTGTTTATACGTGATCATATACCAGTTATTTGCTTTACCATAATTCAACTACTAGCTATATTTCTCGTATATTGGTTTGATGGGCATAATCATATTACAACGGCGTTATACGCAATGTTTCTAGGTGTTTTCTTTATGGGAAGTTATTTAGTGTTTCGTTATTTTACACATCGTTCTTTTTATGAGCGCCTAGCAAACCCGATGCAATCTTTAGATGAATCTGTTCAAAAATCTGATTTTGCAGCTGTATCGGCTGCTCTTCAAGAACTACTTGAGGTGCAATATCGACATTATCAAAATCAGCTGCAAATACAAGAGAGAAAAAATAATGACCATTTAACCTTTATGAATCAGTGGATCCATCAAATGAAAACACCTTTATCTGTAATAGAATTAATTACACAGGATGAAGTAGATTCACGTTTTGAAAGTATAAATGAGGAAACAGACCGATTAAAAAAGGGATTGGAAATGGCTCTATATGTCGCACGATTAGAAGCGTTCACACAAGATTTTTATGTAGAAAGGGTACAACTACATAAAATAGTGAATGATTCGGTACATGAACATAAACGTTTCTTTATACGGAATTTTGTATATCCAGAGCTTGAAATTGATAAGGACATTACTGTAGAAAGTGATGTGAAATGGTTAAAGTTTTTAATCGGACAAATACTATCGAATGCGATTAAGTATTCATCAGGTAGTAGAGAAAAGATTAAAATGAAAGCTTGTAAGGAAGGTAATACCGTTATACTTGAAATTGCTGATAATGGCGTAGGTATACCGAAGCAAGATTTACCAAGAGTATTCAAACCTTTCTTTACAGGAGAAAACGGTAGAGATTTTAAAGAATCAACAGGAATGGGGCTATATCTTGTATATGAAATTACAAAACAATTAGGACATAGTGTGGAAATCCATTCAGAAGTTGGTAAAGGTACGGTAGTGCGAGTAATATTTTTTAATGTGTAA	MIRLFIRDHIPVICFTIIQLLAIFLVYWFDGHNHITTALYAMFLGVFFMGSYLVFRYFTHRSFYERLANPMQSLDESVQKSDFAAVSAALQELLEVQYRHYQNQLQIQERKNNDHLTFMNQWIHQMKTPLSVIELITQDEVDSRFESINEETDRLKKGLEMALYVARLEAFTQDFYVERVQLHKIVNDSVHEHKRFFIRNFVYPELEIDKDITVESDVKWLKFLIGQILSNAIKYSSGSREKIKMKACKEGNTVILEIADNGVGIPKQDLPRVFKPFFTGENGRDFKESTGMGLYLVYEITKQLGHSVEIHSEVGKGTVVRVIFFNV	PGPT0027855_205	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
AK009_05559	708	graR_3	COG0745	Response regulator protein GraR	ATGGTCAAAATTATGATTGTAGAAGACGATATGAAAATTGCAGAACTATTATCAACACATGTTGCGAAATATGGTTATCAAGGAGTTATTGTATCGGACTTTCAAAATGTATTAGACATTTTTTTAGAAGAACAACCAGAGTTAGTTTTATTAGATATTAATTTACCGAGTTTTGATGGGTACTTTTGGTGTCGTCAAATTCGCGGTGTTTCTACATGTCCGATACTATTCATTTCGGCTCGTGAAGGTACGATGGATCAAGTTATGGCGTTAGAAAACGGTGGCGATGATTTTATTCCGAAGCCTTTTCATTATGAAGTTGTAGTGGCGAAAATTCGTAGTCATTTAAGACGTGCATATGGAGATTATGCACCGAAACTAGAAGAGCGAATGATTGAGCAACAAGGCCTTTGTTTATATCCTGAAAGGCTTGTATTGAAACTTAGAAACGACGAAATTGATATAACGAGAAACGAAGCTATTTTATTAGAGACATTAATGAAAAATTATCCGCGTGTTGTGAGTAGAGAAGTGTTACTTAATAAATTATGGGATAGTGAATCTTATGTTGATGATAATACATTAAGTGTAAATACAACACGTGTGCGTAAAAAGTTACAAACGTTACATATAGAAGGTGCGATTGAAACGATTCGTAGTGTTGGATATAGATTGCACATTACTTGGGATAATGGTATAGAAAAATGA	MVKIMIVEDDMKIAELLSTHVAKYGYQGVIVSDFQNVLDIFLEEQPELVLLDINLPSFDGYFWCRQIRGVSTCPILFISAREGTMDQVMALENGGDDFIPKPFHYEVVVAKIRSHLRRAYGDYAPKLEERMIEQQGLCLYPERLVLKLRNDEIDITRNEAILLETLMKNYPRVVSREVLLNKLWDSESYVDDNTLSVNTTRVRKKLQTLHIEGAIETIRSVGYRLHITWDNGIEK	PGPT0027850_41	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
AK009_05560	915			hypothetical protein	ATGTATCGAATTCATAAAGACCATATCATTTACTCAATGTCACCAGAAAATAAGCCGTGTATGGAAGTAGAAATTGGGAGCAGTCTTGTATTTGAAACATATGATTGCTTTGAAAATCAAATCGATTCTGAAGATGTTGTGTTACAAGAATTAGATTGGAACCGAATTAATCCAGCGACTGGACCTGTATATGTTAAAGGAGCAGAACCTGGCGATATATTAGTCGTAACGATTGAAAAAATTGAAATTGCAGAGCAGGGCGTTTTAACTACAGGTGCAAACCTTGGTGTAATGGGTGATGAGTTAAATGAAAATACAGTGAAAATTGTCCCAATACATAATGAATATGTTTTGTTTTCAAGTGAACTACAAATCCCGATTAATCCAATGATTGGGGTAATTGGTACTGCACCGAAAGAAGAGAGCATTTCATGTGGCACACCGCATGATCACGGCGGGAATATGGACTGTAAAGAAATTAAAGAAGGAACAACACTACTACTACCAGTTAATGTCCCAGGAGCACTATTAGCATTAGGTGATTTACACGCAGCAATGGGTGATGGTGAAATTGGTGTTAGTGGTGTAGAGGTTGCTGGTGAGGTAACGGTAACAGTTCAAACGATAAAAGGAAAACAATGGCCATTACCAATGGCTATTCAAAAAGAAAAAATGATGACGATTGCTTCAGAGAAATTGTTAGATGATGCAGCAAATCGTGCTGTACGTAATATGGTGACATTTTTACATGAAGTATTAGAAATGTCTAAAGCTGATGCAACTCTTTTATTATCGGCAGCAGGTAATTTAAAAGTTTGCCAAGTTGTTGATCCGCTGAAAACGGCGCGTATGGAACTAGGAATGGATTATGTGGAGAAACTAGGATTTACTTTTAGTAAATTTCATATTAAATAG	MYRIHKDHIIYSMSPENKPCMEVEIGSSLVFETYDCFENQIDSEDVVLQELDWNRINPATGPVYVKGAEPGDILVVTIEKIEIAEQGVLTTGANLGVMGDELNENTVKIVPIHNEYVLFSSELQIPINPMIGVIGTAPKEESISCGTPHDHGGNMDCKEIKEGTTLLLPVNVPGALLALGDLHAAMGDGEIGVSGVEVAGEVTVTVQTIKGKQWPLPMAIQKEKMMTIASEKLLDDAANRAVRNMVTFLHEVLEMSKADATLLLSAAGNLKVCQVVDPLKTARMELGMDYVEKLGFTFSKFHIK	PGPT0006115_7461	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
AK009_05561	429	cwlJ_2	COG3773	Cell wall hydrolase CwlJ	ATGCCCCTTATTCCATACAACGAAAGTGATGTTGATTTACTAGCTCGATTAATTCGTGCTGAAGCTGAAGGCGAAGGTCGCCAAGGTGAGGAGTTAGTTGGATGCGTTGTAGTAAACCGTGTATTTTGTGATTGCTTAGATTTTAAACAACTCCGTACCGTACGAGACGCTGTATATCAAAGCCCCGGCGGATTTGAAGCAGTACAATATGGATATTTTTATCAACGCGCTCGTGAATCAGAAAAAGAAATCGCACGAAAAGTTTTACAAGGTCAATGGCGCTGGCCTGCACGATGGGCTCTTTGGTATTTCCGTCCAGTTGGAGCTTGTCCGCCTGAATGGTATAATCAGCCATTTGTAGGACAGTTTAAAAGCCATTGTTTTTATGAACCAAGTGGTGATGAATGTCCGAAAATGTATTCACGATAG	MPLIPYNESDVDLLARLIRAEAEGEGRQGEELVGCVVVNRVFCDCLDFKQLRTVRDAVYQSPGGFEAVQYGYFYQRARESEKEIARKVLQGQWRWPARWALWYFRPVGACPPEWYNQPFVGQFKSHCFYEPSGDECPKMYSR				NA	NA	NA	NA	NA
AK009_05562	1554	lysS_1	COG1384	Lysine--tRNA ligase	ATGCATTGGGCGTATGAAGTAGCACATGAATTAATTAGGAAACATCCAAATAAAGAAACGTTTGTTTGTGCATCTGGAATTAGTCCGTCAGGTTCTGTTCATATTGGGAACTTTCGTGAAATCATAACGACTTATTTCGTAGTAAGAGCACTTCAAGATTTAGGGAAAAAGACTCGTTTTATATTTTCGTGGGATGATTATGATAGGTTTAGAAAAGTTCCAAAAAATATTGATCCATCTTTTGCAAAGTATATTGGTATGCCATACTGTGATATTCCAGATCCGTATGGATGTCATAACTCGTATGCGGAGCATTTTGAAAAAGAGTTTGAAAAATCGCTTCAAGCATTTGGAATTGGAGTGGAATTTATTTATCAACATGATGAATATAGAAGCGGAAGGTATAACGAAAATATATTAGAGGCTTTGTATAAACGAAAAGATATATATAATATTTTAATGGATTTTAAAACTGGAGAGTGTAGTGAAGAAGAGCGAGAGAGCTTTTATCCAGCTACATTATATTGTGAGAGGTGCGGGAAAGATACAACAACTATTACACATTTTGATGAAGTATTAAAAACAATCCGGTATGAATGTGAATGCGGAAATGAAAAAGAGTTATCCGTATTAAATACAAATAAAATGAAACTAAATTGGAAAATCGATTGGCCGATGAGATGGATGATAGAGGAGGTTGTTTTTGAGCCGGGTGGCAGAGACCATTCATCAGAAACGGGTAGTTATAATGTATCAAAAGAAATTGCAAGGAAAATATTCAATCGTGAAGCTCCTCATTATGTTGCTTATGATTTTATTGGAATTAAAGGCAATCATGAAAAAATGTCTAGTTCTTCAGGAAATAGTATTACACCTAGTGAGTTGTTAAAAGTGTATTTACCAGAAGTAATTCTGTTTATGTTTGCAAAATATAGACCAAACGCAGCTTTTCATATCGGTCTTGATGAAGATGTGATTCGCAATTATACAGAATATGAGCGATTGAAAGATAGTTATGAAAATAAAACGCTCAAAAATGAAGATTTACTTGATGCAATTAAACTTTCTAGAGTTACTATCGGGTTTAAAGAATATCCGAAATTTAATCAAGTAGCAGGAACGTTACCATTATTAAATTTTGATTCAACTATTTTACAGGGGATATTAAAGAAAATAGATAGGAGCTATGCATTAGATGAAATGAGAGCGGTGAGTAATCGCACAGAGTATTGGATAAGAAATTTTCAATCTGAAAAATTAATTGCGGTAAATCAAGAGAGAAATACAGAGTTTTACAACACATTGGATGAAAGACAGAAAGAATGGTTAGTAGAAGTTTGCGATATACTTCGTTCTAACAAAGATTACTCTCACTTAATGGAGCAATTATATGCGATTTGTCATCATGAAAATAAAAAAATAATGAAAGAAAATCAAAAACAATTATTCACTATTATATATAAGCTCATTATGAATCAATCAAATGGTCCTCGTATACCATTATTAATACATGTAGTAGGCATAGAAAATTTCATCACACTATTAGATTTCTAA	MHWAYEVAHELIRKHPNKETFVCASGISPSGSVHIGNFREIITTYFVVRALQDLGKKTRFIFSWDDYDRFRKVPKNIDPSFAKYIGMPYCDIPDPYGCHNSYAEHFEKEFEKSLQAFGIGVEFIYQHDEYRSGRYNENILEALYKRKDIYNILMDFKTGECSEEERESFYPATLYCERCGKDTTTITHFDEVLKTIRYECECGNEKELSVLNTNKMKLNWKIDWPMRWMIEEVVFEPGGRDHSSETGSYNVSKEIARKIFNREAPHYVAYDFIGIKGNHEKMSSSSGNSITPSELLKVYLPEVILFMFAKYRPNAAFHIGLDEDVIRNYTEYERLKDSYENKTLKNEDLLDAIKLSRVTIGFKEYPKFNQVAGTLPLLNFDSTILQGILKKIDRSYALDEMRAVSNRTEYWIRNFQSEKLIAVNQERNTEFYNTLDERQKEWLVEVCDILRSNKDYSHLMEQLYAICHHENKKIMKENQKQLFTIIYKLIMNQSNGPRIPLLIHVVGIENFITLLDF	PGPT0012220_1026	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012220-lysK-K04566	NA	NA
AK009_05564	171			hypothetical protein	ATGCATATGATGTTTTATGAAATTGTTTGCTTTTCTTGTAAGAATATATTTCGTGTTTACGAAGGTAGTGAAAAATATAAGCGATTTAAAGAGAAACCAAAAGGGGCATATTGTTGTGATGAGTGTAGCCACAAAATTCAATTAGAAGCGATAAAGAATTTTTTTAGATAA	MHMMFYEIVCFSCKNIFRVYEGSEKYKRFKEKPKGAYCCDECSHKIQLEAIKNFFR				NA	NA	NA	NA	NA
AK009_05565	903			6-deoxy-6-sulfogluconolactonase	TTGTTCAGTAATATAGAATTAGTTTTAGATGCTAAAGCAAGTTTAGCTGAAGGACCATGTTGGAATGAAAAAAAGCAACTTTTATATTGGGTTGATATTATGGAGAGAAAATTATGCATATACAATCCTACCGCTAATACGAACCGAGTAATTGCTCTCAATCAACAAATTGGCTGTGTTGTTCCATATTTAGAGGATGTACTACTCTTAGCTATGGAAAACGGCTTTTATTCTATTAATGTAAATACAGAAAAACTGACACATATTTTTGACCCCGAACAACATTTAATAGAAAATCGTTTTAACGATGGAAAATGTGATCCCGCTGGTCGTTTCTGGGCAGGTACTACAGATACATACGGTATTAATGCTGCAGGTTCCTTATATTGTTTACATAATAATTTGAGTGTAGAGAAAAAAATTTCACATGTAAATACTTCAAACGGAATGGCTTGGTCACCTGATCATACATACCTTTACTTTATAGATACACCTACTAAAAAAGTGGTTCGCTATCAATATAATATACGTACTGGAGAAATTCATAATCCAAGTGATGTAATCATTTTCTCTGAAAATGACGGTCTACCTGATGGTATGACAATTGACGAAGAAGGTTGTTTATGGATTGCACATTGGGGAGGTTCAAAAATAACTAGATGGAATCCCTCTACTGGAGAACAAATATTAAGTATTCCAATTCCTGCGTTATATGTAACATCATGTACGTTTGGTGGGCCTAACTTAACTGATTTATATGTTACAACAGCCAGAACAAGAATGACGGATGACGAATTAAAACAGTATCCACATGCTGGTGGTATTTTTCGAATTCAAACAAATGTTAAAGGCTGCCCCACCTATTCATTTTGTAATGAAAATATTGGAAGTGACACAATATGA	MFSNIELVLDAKASLAEGPCWNEKKQLLYWVDIMERKLCIYNPTANTNRVIALNQQIGCVVPYLEDVLLLAMENGFYSINVNTEKLTHIFDPEQHLIENRFNDGKCDPAGRFWAGTTDTYGINAAGSLYCLHNNLSVEKKISHVNTSNGMAWSPDHTYLYFIDTPTKKVVRYQYNIRTGEIHNPSDVIIFSENDGLPDGMTIDEEGCLWIAHWGGSKITRWNPSTGEQILSIPIPALYVTSCTFGGPNLTDLYVTTARTRMTDDELKQYPHAGGIFRIQTNVKGCPTYSFCNENIGSDTI	PGPT0014335_23	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014335-yvrE-K14274	NA	NA
AK009_05566	702	COQ3_4		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAACCGTATCGATTACATAAGACAAGAAGAAAAGGAATATCACGATCTTTGCTATGAACAATATAAACTATTTGAAACTGGATCTTGGCTTCACAAGCCGGTTAAAACAGTTATGGATTTAATGGACTACTTTGAAGAGAAAAACAAATTACAAGTGCTTGATCTTGGCTCTGGCGTCGGTAGAAATAGCATTCCAATTGCACAAAAGATTAAAAATGCTAGCGGAACTGTTACATGTGTTGATTTACTTGATTCCGCTTTAACAAAGCTACAAATTTATAGCAAAGAACATGACGTATTCGAGGTTATAAAAACAGAACAAACAGCAATTGAAAACTATCATATTAGATCTAATACTTATGACTATATCGTTGCAGTATCAAGTTTGGAACATGTCAAATCAGAAGAAGATTTTAAAAATGTACTCCAATCTATGAAAAGAGGTACAAAAAACGGCGGTATTAATTGTTTAATTATTAACTCTAACATACAAGAAATTGATTCAATAACGAATGAAGAATTAGAAGCTTTAATTGAAATTAATCTTTCAACCGAAGAAATGATAAGTGCTTTAAAAAGCATTTATAAAGAATGGAAAAAACTAAAAGTTGAAATAAAGGAATTAGCTTATAATATAGTTCGTAATGAAAGACACGTTCAATTAAAAACAAATGCCATTACGTTTGTCGTTCAGAAATAA	MNRIDYIRQEEKEYHDLCYEQYKLFETGSWLHKPVKTVMDLMDYFEEKNKLQVLDLGSGVGRNSIPIAQKIKNASGTVTCVDLLDSALTKLQIYSKEHDVFEVIKTEQTAIENYHIRSNTYDYIVAVSSLEHVKSEEDFKNVLQSMKRGTKNGGINCLIINSNIQEIDSITNEELEALIEINLSTEEMISALKSIYKEWKKLKVEIKELAYNIVRNERHVQLKTNAITFVVQK	PGPT0004925_329	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
AK009_05567	633	ydeA	COG0693	putative protease YdeA	ATGCAAACAAGAAAAGCATATCTATATGTATTTGACACGATGTCTGATTGGGAATACGGACATTTAATTGCTGAACTTAATACAGGAAGATATTTCAAAAAAGATGTAGCGCCTTTTAAAGTAGTAACAGTTGGAATAAATAAAGAAACGATTATTTCAATGGGGGGCTTGAATATAAAGCCGGATATTTCCCTAGATGAATGTATCCTTGAGAGTAACGATCTATTAATTTTACCTGGAGGGAATACTTGGAGTGAAGAAATACATAAACCTATTTTGAAAAAAGTTGGTGAAGCCTTAAGGCTTGGTACAATTGTGGCTGCCATTTGCGGTGCAACTATAGGTCTTGCAAATTACGGTTACTTGGATTCTATAAATCACACAAGTAATAATTTAGATTATATGAAAATGGTTTGTCCTACTTATAAAGGAGAAAATTTTTATGAAGTAGGACCTGTAGCATCCAGTGAAAATCTTATTACTGCATCGGGTGTAGCACCTCTAGAATTTGCCATAGAAGTATTAAGGAAATTAGATGTATTTGCGCCGGATACACTTCATTCATGGTATAAATTGAATGAGACTCATGAAGTGGAATATTTCTTCCAGTTAATGAATTCAATTAATAGCTGA	MQTRKAYLYVFDTMSDWEYGHLIAELNTGRYFKKDVAPFKVVTVGINKETIISMGGLNIKPDISLDECILESNDLLILPGGNTWSEEIHKPILKKVGEALRLGTIVAAICGATIGLANYGYLDSINHTSNNLDYMKMVCPTYKGENFYEVGPVASSENLITASGVAPLEFAIEVLRKLDVFAPDTLHSWYKLNETHEVEYFFQLMNSINS				NA	NA	NA	NA	NA
AK009_05568	414			hypothetical protein	ATGCAAAATGGCCTAGAAGATATTAGTATCTATCATGGTTCGGTAAATGAGATGCCTTTTAATAACAAATCGTATGATGGTATATACAGTCATGCACTTCTACATTTGTTGAATAAGCAAGAGAGAGAGCAATTTATTAAAGGTTGTTATAATCAGCTGAAATCAGGTGGATATATGGTTTTCACAACTGTTTCTCAAAAAGCCCCAATGTTTGGGAAGGGGAAACAGTTGGATAAAGACTATTTCGAAATAATGGAAGGCGTAAAAATGTTCTTCTATAATTCTGAATCTATAAAACGAGATTTTAATAAATATGGACTAGTACAAGTTTCCGAAATTGATGAACCAAATAAGAACATGGAGAATAAACCTTCAATAAATTTCTTAATGATAAAATGCCAGAAAGAACTATAA	MQNGLEDISIYHGSVNEMPFNNKSYDGIYSHALLHLLNKQEREQFIKGCYNQLKSGGYMVFTTVSQKAPMFGKGKQLDKDYFEIMEGVKMFFYNSESIKRDFNKYGLVQVSEIDEPNKNMENKPSINFLMIKCQKEL				NA	NA	NA	NA	NA
AK009_05569	117			hypothetical protein	ATGGAATTTTTGGAATCAAGTTTTATTGAAAAACAAACGATGTGGGGATTTGAACCTACAGAATCTGCAATTTTGACAAAAGATTTTTTCTTGAAAAGAACGTTAAGGATATATTAG	MEFLESSFIEKQTMWGFEPTESAILTKDFFLKRTLRIY				NA	NA	NA	NA	NA
AK009_05570	498			hypothetical protein	ATGAATATAATTTGGGAAAGTATTATATTAACTCTTACAGGAATAATTGTTTTGAAAATGACAGGTAGTACATCTGTCAGCCAAATGACAAGAGCTGAAATAATTATAGTTGTTTCAATTGGCCGTATTATTGTAGAACCTGTATTAAGTAGAAAAGTAGTCCCATCTCTATTTGCAGCTATCATATTTGCAAGCATACTACTTACCATTCATTTCTTTGAATTGAAATCAAGGAAGGTGGAACAATTCCTAAATGGAAGTAGCATTATAATTGTTGAAAACGGAGAGATTGTAAAAGAGAATTTGATGCAGGCAAAAATGTCAGAACAACAACTTTATATGCAATTAAGAGAAAAAGGGATTCATGATGTGAAGAGTTTACAGCAAGTTACAGCGGAACCGAATGGGCGTATTGGCTATCAATTAATAAAAGAAGCACAACCAATAACTTTAGAAATGTTAGAAAAAATATTAGATCAGTACAATATAAAAAGATGA	MNIIWESIILTLTGIIVLKMTGSTSVSQMTRAEIIIVVSIGRIIVEPVLSRKVVPSLFAAIIFASILLTIHFFELKSRKVEQFLNGSSIIIVENGEIVKENLMQAKMSEQQLYMQLREKGIHDVKSLQQVTAEPNGRIGYQLIKEAQPITLEMLEKILDQYNIKR				NA	NA	NA	NA	NA
AK009_05571	675	tdh_1		L-threonine 3-dehydrogenase	GTGCCTAGTTCTATACAACCTAAAGTTGCTTTATTATCTATTCTTTCGTGTGATGCCGCTAAAGGAGTATTGAAACTAAACCCGCAACAGGATGAAAAAGTACTTATAACTGGAATGGGAGTTATTGGTTTACTCGCTTGTTATTTCTTAAAATACTATGTAGGCGTTGAGCACGTGGATGTTGTTGAGCCTAATAAAAATAGAAGAGATTTTGCAAAGAATTTTGGTGCGAAAAACATATATGATTCAGAAGAAAAAATAATAGAAACATATAATTATGGTTTCGAATGTTCTGCTACAAATAGTGGATTTCATGCATTGCAAAAAGCTCTTAAAACTAATGGACAAATATGTATACTTTCTGATGGTAATAATGAGATTATTGCATCAGACGGGATAAGCTCGTTTATACATGTCGAAGATGCTGCAAGAGCTACTATGCTAGTTCTTAATTGGCCTTCAGGAATCATAAATATTGTAGATGATTATCCAGCAACTAGTAAAGAATGGTTACCGATATATGCAGCAGCGATAGGGGCACCTAAGCCTAAAGTTCAAGATGGGAAAAATAGTTGGGAAAGAGGAGCTTCAAATAATAAGGCACGTAAAGAGTATGGATGGACACCTGTATTTCCATCATGGTCTGAAGGGTTTAACAATTTGATAGGGAAGTAA	MPSSIQPKVALLSILSCDAAKGVLKLNPQQDEKVLITGMGVIGLLACYFLKYYVGVEHVDVVEPNKNRRDFAKNFGAKNIYDSEEKIIETYNYGFECSATNSGFHALQKALKTNGQICILSDGNNEIIASDGISSFIHVEDAARATMLVLNWPSGIINIVDDYPATSKEWLPIYAAAIGAPKPKVQDGKNSWERGASNNKARKEYGWTPVFPSWSEGFNNLIGK				NA	NA	NA	NA	NA
AK009_05572	288			hypothetical protein	ATGGAACAGTATAAGTTAGTTTTAGAAGGTGCGAAACAACTTAAGTGGGAACCGGGTAAAATTAGATCCGTACAGGACGATGAAATTATTGTTAAAACAATTGCAGGAGCTATAAGCATTGGGGCCGAGTTACCACAGTATAATGGATCCGATGTTACGGATACGAATCCTTTTTATCCAAGAAAAACTGGATATGAAAGTTATGGTGAAGTGATTGAAGTTGGTAATAAAGTAACACATGTAAACGTAGGCGATAAAGTAGTTTTTTTTATGGACATGAAACAATAG	MEQYKLVLEGAKQLKWEPGKIRSVQDDEIIVKTIAGAISIGAELPQYNGSDVTDTNPFYPRKTGYESYGEVIEVGNKVTHVNVGDKVVFFMDMKQ	PGPT0006375_1372	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
AK009_05573	243			hypothetical protein	ATGATAATTGAATTTGATGGATATAGAATAAACGAGTATGTTATTGGCCGTAACTGTTCTATTAACGAATTAATAACGATGTATTTAAATGTAAGAAATGAAGAGATATCTAATGAGGATCTGCTACGCTTATTTTGTGTACGATATTATTACAAAAAAAATCCAAAGTTACTACAAGAAGACGTCACTAGCAATGTTGTCATTGATTTAGATACGGACTATATTTATACCCCAAATAGATAA	MIIEFDGYRINEYVIGRNCSINELITMYLNVRNEEISNEDLLRLFCVRYYYKKNPKLLQEDVTSNVVIDLDTDYIYTPNR				NA	NA	NA	NA	NA
AK009_05574	204			hypothetical protein	ATGGCGGTACGTATAGTCGATGATTTACAGCAATTATCATTGTTACTTATGTTTTTAAGTACACTCATATTTTACAGATACTTAAAGAAGGTTAAACGAGAGAGAAAACTGACTGGCTTTGAATGGACAATGTATTTTGTCACTCAATTTGCGACATTAATTTGGGCAATTACTTATTTTATTAAACACTTAGCTGAATCATAA	MAVRIVDDLQQLSLLLMFLSTLIFYRYLKKVKRERKLTGFEWTMYFVTQFATLIWAITYFIKHLAES				NA	NA	NA	NA	NA
AK009_05575	351			hypothetical protein	GTGAGGCGCCAAATAATTCTCTTGTTTGTGTGTGCCGCTATAATAATTGGAGCTATAGTTGTGACTAAATATTATAAAAAAGATGACCAATGCATCGTGGTTGGTAAGTATTCAAGAGGTATTATCGTAGATCAAAATAACGAACCTATATCTAATGTGAAAATATATGAAGATTCAATTGAAGAAAGTAAGGAACGCAGTATTTCAAATGCACAAGGTGAATTTGAAATACTAGATGGGGTTTGTGGTGAGATTGTTTTACAATTAGTTACTCCAGATGGAGAAATCTATACGAGAAAATATGATAGTAAGTATATACCACAAGTAATAGAACTGAGTTATAAAAAGTAA	MRRQIILLFVCAAIIIGAIVVTKYYKKDDQCIVVGKYSRGIIVDQNNEPISNVKIYEDSIEESKERSISNAQGEFEILDGVCGEIVLQLVTPDGEIYTRKYDSKYIPQVIELSYKK				NA	NA	NA	NA	NA
AK009_05576	1371	hisC_4		Histidinol-phosphate aminotransferase	ATGTATAAGTATTTACATATTTTAAGTGACATAGAAAATATGATTCAAAATGGAGAAATAAAAGAAGGGAAGAAATTACCGTCTATACGGTCACTCGTTACGCAATATGAATGTAATAAGGCAACAGTTATACGTGCGCTTCATGAATTAGAAAAGCGTCACATTATATATTCTGTCCCTCAAAGTGGATACTACGTTGTTAAGAAATCTGGGAGTACCATAGAAAATAACGAGATAATTGATTTCGCTTCTTCAGCACCAGATCCAGATGTTTTCCCATATTTAGATTTTCAGCATTGCATTAATAAGGCTATTGATACTTATAAAAATGATTTGTTCGTATACGGAACACCGAAAGGGTTACCATCTTTAATTCCAGTCATTCAAAAACAGTTGGCAAATTATCAAGTGTTCACGAAAGAAGACAATATTTTTATAACGTCAGGTGTGCAGCAGGCGCTTGCTATATTAACTTCTATACCATTTCCGAATGGAAATGAAACTGTATTAATTGAACAGCCAACATATCATCTATATATTGATTATCTAGAAATAAATAAAGTTCCTGTAATCGGTATTAAACGTACGAATGAAGGTATCGATTTGAATGAATTGGAGCAAATATTTCAAACTGGAAAAATAAAATTCTTTTATACGATACCGAGATATCATCATCCGCTTGGAACTTCTTATTCTAAAGATGAGAAAGAAAAAATCGCACTATTGGCTAAGAAATACAATGTATTTATAGTGGAAGATGATTATTTAGCAGATTTAGAAACTGATTCAAAAGCAGATCCGTTATATAGCTTGGATAATTGTAGTCATGTCATATATTTGAAAAGTTATTCGAAGATTATTTTTCCTGGTTTACGGGTTGGAGTTGCAGTCATCCCACCATCCATTGCAAATGCTTTCTATACATACAAAAAGATACTAGATATTGATAGTCCGATGATTTCTCAAGCGGCTTTAGAAATTTATATAAAGAGCGGTATGTTTGAACGTCATAAAAGTAAAATTAATTCTTCCTACTACAATAGATCAATAAAACTAGCAGAAACATTAGAAAAAGTGCAAAATGAAGATCAATCATTATTTACATATAATAGACAAAACACATTTGGAATACACACTTGTTTAGAAATGCAGAAAAACACAGTTACAGAAACACTTATACAAAAATTAGGTGACATGCAAATAAGTGTCGATACTATTGATAAGAATTATATGAGGAATTTTCCTAAAGAAAAACTGTTAAAGTTAAATGTTTCGAATGTAAAAGAAGATAAGATTGAAGAAGGTATTTGTAAAGTAATTGAGGAAATCAACCAATCAAGACACTTGAATTTTCAGTTTAGAAAAGAATAA	MYKYLHILSDIENMIQNGEIKEGKKLPSIRSLVTQYECNKATVIRALHELEKRHIIYSVPQSGYYVVKKSGSTIENNEIIDFASSAPDPDVFPYLDFQHCINKAIDTYKNDLFVYGTPKGLPSLIPVIQKQLANYQVFTKEDNIFITSGVQQALAILTSIPFPNGNETVLIEQPTYHLYIDYLEINKVPVIGIKRTNEGIDLNELEQIFQTGKIKFFYTIPRYHHPLGTSYSKDEKEKIALLAKKYNVFIVEDDYLADLETDSKADPLYSLDNCSHVIYLKSYSKIIFPGLRVGVAVIPPSIANAFYTYKKILDIDSPMISQAALEIYIKSGMFERHKSKINSSYYNRSIKLAETLEKVQNEDQSLFTYNRQNTFGIHTCLEMQKNTVTETLIQKLGDMQISVDTIDKNYMRNFPKEKLLKLNVSNVKEDKIEEGICKVIEEINQSRHLNFQFRKE				NA	NA	NA	NA	NA
AK009_05577	492			hypothetical protein	ATGGATATTGCTACAGCCGCGGTAAAGGAGGAATCTTTTTTTAGTGCTGCTATAAGAGATGAAAAAGAAAGAATATTAGATTTAGAGATTGCTGATAGCGAAGATAGTAACGAAATAAAAAATGATATTAATAAAAGATTGGTGATACAAGGTGTAACGTCTTATAAAATCAATATAACTCAAAGAAATAGAGAAGTTGTAAAGGCAGAGAGTAGATGGAATCAAGTTTTTGGACATATATTTGATGACGTATTCAGAAAAAATGGATATGAAGGGTTTGGTATTCAGCAAATAAATTATAAAAAGAATCAACCTGTTACCATTGATATAAAATCTAAGCTTAGTGATGATGAAGTAGGGGCGAGAGAACTTGGACAGAAAATAGAAAAAGAAGTTGAAGGGGTACTTAAAACAGAAGCAGTAAAGAAATGGATTGAAAATGATTCATATGCTATTGGGATTTACGATATAGATGATCGGAAAATTAACTAA	MDIATAAVKEESFFSAAIRDEKERILDLEIADSEDSNEIKNDINKRLVIQGVTSYKINITQRNREVVKAESRWNQVFGHIFDDVFRKNGYEGFGIQQINYKKNQPVTIDIKSKLSDDEVGARELGQKIEKEVEGVLKTEAVKKWIENDSYAIGIYDIDDRKIN				NA	NA	NA	NA	NA
AK009_05578	1692			hypothetical protein	ATGCAACGTGTAAATACGATTGATATTAGTAATGTACTACAATTGGAAAAAACTCTTTCGACTTTATTAAATAAAATGATTTCTTCAAAACTAGACCTTGAAAATTGGTTAAAAGAGCAGTCAAAAGTAATTTGGGACATCGAAGAACAATTAAGATCACATTACATCGCCTTTCAATGTAATACGGATGATGAAGAAATAAAGGATACTTTTGAACATGATCAACAATTTGTAAAGCCACTTTTAAAGCGGTACCAAAATTTATTGGATAATAAATATTTAGAGTCACCTTTTCGAATGGAATTAGATTCTAACGTATATGGTTTATTAGATACAAAAATAAAAAATGCTCAAAAGTTATTTTGTGAGGAAAATATCGAATTAGAAATACAGGAAGACAAATTAGTCACAGAGTACTTTGAAATTACTGGAGGATTAAGTGGAATTTGGGACGGAGAAGAAAAAACGATAACAGAATTACAATCCTATTTACAAGATTCGAATCGTGACACCCGTAAAAAGGCAAAAACCATTATTTCTGAACAATTTTTATCTGTTGAAAAAGAACTCCAAAACATATTAAATCAATTAATTGAAATTCGCCATCAAAAAGCAAAAAATATTCAACTAGAGAATTATCGCGATTATATGTTCAAAAAATACGAGCGTTTTGATTATTCAGCGAAAGATTGCTATGAACTAGCTGAATCCATACGTAAGTATGTTGTGCCTCTTAAAGATAAAATATTGCTAGAGAAAAAAGATAAACTGCAAGTTGATACGCTTCGCCCGTGGGATGTATCAGCTGTAACTCCAGATCAAAAAGTACTTAAACCTATTGCAAATGAAAATGATTTAATTGAAAAGAGCACTCATATCTTTAATAAACTAGATGTTGAATTTTCAGCACTTTTAAACCGAATGTATAAACACAATTGTCTTGATTTAACAAGCCGCAAAGGAAAAGCAGCTGGTGGCTTTTGTGAGTACTTACCAGCTTCACAATTATCTTATATTTTTATGAACTTAAATTATACACAAGATGATATTGTCACTTTTATACATGAAATGGGTCATAGTATTCATAACGAACTCATAAAACCATTAAAATTACGACAGTATATAGAAATTCCAGCTGAAACAGCTGAGCTAGCCAGTATGACAATGGAGTTATTCTCGCTTAATTATTGGGATACCTTCTATACAGACAAAAAAGATTTAAAACAAGCAAAAATTAACTTCTTTAAAGATGTTATTTCATATTTACCTATTATGCTTATTGTCGATCAATTTCAACACTGGCTGTATGAAAATCCAAGTCATACTTCTGAAGAAAGAAATGAAAAATACTTACAACTTCAAAAACATTATCAGTCTAGCGTCATACATATTGATGGCTACGAAAACTGGATAGCAACGAGTTGGCTACCTGTACTCCATATTTTTGAAGTACCATTTTATTATATTGAATATGCGATCGCCCAACTTGGTGCATTACAAATGTATAAACAATATAAAGAGGATCCTAAGCAAGCGCTAGAAAATTATAAAAAGGCATTATCACTAGGAAGCTCGCAATCTATAAAAGAAGTGTATGATGCAGCCGGTATTCGTTTTGATTTTTCTGGTGAAACAATTAAAGAACTAATGCTATTTGTAGAAAAAGAATTAGAATTACTTGAGCAATTATAA	MQRVNTIDISNVLQLEKTLSTLLNKMISSKLDLENWLKEQSKVIWDIEEQLRSHYIAFQCNTDDEEIKDTFEHDQQFVKPLLKRYQNLLDNKYLESPFRMELDSNVYGLLDTKIKNAQKLFCEENIELEIQEDKLVTEYFEITGGLSGIWDGEEKTITELQSYLQDSNRDTRKKAKTIISEQFLSVEKELQNILNQLIEIRHQKAKNIQLENYRDYMFKKYERFDYSAKDCYELAESIRKYVVPLKDKILLEKKDKLQVDTLRPWDVSAVTPDQKVLKPIANENDLIEKSTHIFNKLDVEFSALLNRMYKHNCLDLTSRKGKAAGGFCEYLPASQLSYIFMNLNYTQDDIVTFIHEMGHSIHNELIKPLKLRQYIEIPAETAELASMTMELFSLNYWDTFYTDKKDLKQAKINFFKDVISYLPIMLIVDQFQHWLYENPSHTSEERNEKYLQLQKHYQSSVIHIDGYENWIATSWLPVLHIFEVPFYYIEYAIAQLGALQMYKQYKEDPKQALENYKKALSLGSSQSIKEVYDAAGIRFDFSGETIKELMLFVEKELELLEQL	PGPT0020965_2692	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
AK009_05579	1095			hypothetical protein	ATGAATGAACATATACAGCAGATGATTAATTGGATTGAGAGCAATTTAAAAAAGAGATTTTCATTAGATGAATTATCTCGTTACATGGGGTATTCTCCTTATTATTGCTCTTTTAAATTTCATCAAGTAACGGGTTTCAGTATTAGACGTTATATTCTTCTTAGAAGGTTGTATTTATCTACGGAGGATTTAAAGAATGGTAGGAAGATAATTGAGGTCGCATTGGATTACGATTACTCTTCCCAAGAGGCTTATAGTAGAAGTTTTAAAAATGTTTTTGGAATGAATCCAAGAGAATACCAACTTAACAAAATGCCTATTCAATCATTTGTTAAACTAAATTTAAATAAAGAAGGGGCGTTTAATATGAATATTTCTAGAAAAATAGAGGTTGAGCAGTTACGAAATAGGAAGAGTGAGCTATTTGATAAAGAGGTACTTAACATATTAAATGGTCAAGTTATGTATGAAGAATTTAAAAACGAAAAGCTAATGGGTGATTCTGATTATGCACCATTTAATGAGGCAATGTGTGTGAACTCGGCTACTACTCAAGTTTTTAATGAAGAGTTTATTAAAACAAGAGCGAAAGGACATAACAGTTCAGTAGAAAGTTATATAAAAAAGGTTATAGATCCGTTAGAAAACCTTTTTACGAAAAAGTATAAATGTATTGTTCTATGGTTTGGTGAAGATATGTTTTGCCAAATGAACCTACTTACCATACTTTCTCACCTTGAACAGTCTGCTTATGAAGGGAAGGTATACTTAAATAGCTTTAGAGAGGATGAATTTAAAGTAAATCAAATTGAACTTGAATTGGGGAATTATTCTTCTATATACAATGAAGTATTAGTAAACCATAAAAAGACCTCTCATAAGGTACCACCTGTAATGTATCAGGCTATAGACTTATTTTTAGAAATGTTAACAGAAGATAATGCAGTAATGAAATTCATCTCTAAAAATAAAGATTTATCAACTCGTGAATTATTAATAAAGTTGTTTTATCTTTTTCCAACAATCGGATATGGAGATACTCAGTACATAGAGCTGATTAATAAAATAAAGAAGAAAGCTACACCAAAAATATAG	MNEHIQQMINWIESNLKKRFSLDELSRYMGYSPYYCSFKFHQVTGFSIRRYILLRRLYLSTEDLKNGRKIIEVALDYDYSSQEAYSRSFKNVFGMNPREYQLNKMPIQSFVKLNLNKEGAFNMNISRKIEVEQLRNRKSELFDKEVLNILNGQVMYEEFKNEKLMGDSDYAPFNEAMCVNSATTQVFNEEFIKTRAKGHNSSVESYIKKVIDPLENLFTKKYKCIVLWFGEDMFCQMNLLTILSHLEQSAYEGKVYLNSFREDEFKVNQIELELGNYSSIYNEVLVNHKKTSHKVPPVMYQAIDLFLEMLTEDNAVMKFISKNKDLSTRELLIKLFYLFPTIGYGDTQYIELINKIKKKATPKI				NA	NA	NA	NA	NA
AK009_05580	948	thrB_3		Homoserine kinase	ATGAACAAGCTAGAAAAAGAAATACTTCAATTCATAAATGAACAGTATCCGTTGAATTTTATTAACATTAAGCCAATAACAAATGAGATGTATGAATGTCTTACAGAACAAGGTACATACTTCAGTAGAATTACAAACTACAAAACATATGAAGAACAGATAGAGGAAGTTTTATATACAAATTTTTTATATCAAAATGGTTTAGGTGTTCCACCAATAATCCCTTCATTACAAGGGAATTTTGTAGAAAAATTCACATTAGACAAGGAGATTTTTGCTGTATTATATAAAGCTGCTCCTGGTATACATTTACCAAGGTCTGAATGGAATTCTAATATATTTAAAAAACTTGGTAAACAAATTGGAAAATTACATCGTATATCTAAAAGCTTTGAAAAGATTAAACCAGTAAAACATATAAACGATTGGTATGAAAATGAAGAATATAATTTTCTTAAATATATCCCTAAAGAAGAAAATACAATAAGAGAAATTGCATCTGACGTTTTAACTTCCATAAAAGAGCTACCAAAATCCCCTTCAAATTACGGCTTAATACACGGAGATTTATGGTTAGAAAACATTTTAGTCGAAAATAATTCAAACTTAACAATGATAGATTTTCAAGACTGCGAAAAACATTTTTACATATTCGATTTAGCCGTTCCTATTTATAGTGCAATAGAATATTCATTTGCTGGAAATGGGAATATCGTTGACTATGAGTATTCTATTACAAAAGCACTATTTGAAGGCTACCAAGAGGAAAATGAGCTACCAAAAGAGATGAAAGACAAGTTTCCGTTATTTATTAAATTAAAGGAGATTTTTGAATATAGCTTAATGCATATGTATTGGGATAAAGATGAATTAACGGAGGAACAAGTACGGATTATGAACCTTTATAGGATGAAGATCGAAAATAAGAATACCTATATCAATATTTAA	MNKLEKEILQFINEQYPLNFINIKPITNEMYECLTEQGTYFSRITNYKTYEEQIEEVLYTNFLYQNGLGVPPIIPSLQGNFVEKFTLDKEIFAVLYKAAPGIHLPRSEWNSNIFKKLGKQIGKLHRISKSFEKIKPVKHINDWYENEEYNFLKYIPKEENTIREIASDVLTSIKELPKSPSNYGLIHGDLWLENILVENNSNLTMIDFQDCEKHFYIFDLAVPIYSAIEYSFAGNGNIVDYEYSITKALFEGYQEENELPKEMKDKFPLFIKLKEIFEYSLMHMYWDKDELTEEQVRIMNLYRMKIENKNTYINI				NA	NA	NA	NA	NA
AK009_05581	753			hypothetical protein	GTGAATCTAGGTAATCCAATTGCAAAAGGGAATACTGCAGAAATTTATTTAACTGATGATAAGGTTGTAAAATTATTTAAAGATTACCTCCCAGATACAGAGTCTATGAATGAAGCAAAAAAACAAAAATATGCTTATTCATGCGGGCTGCCAGTTCCAAACGTATTCGAAGTGACAAAGATACAAAATAGACAGGCAATTATTATGGAACATGTAAAAGGGGACAACATTGGTGATCTTCTGCTTAATAATTTAAATGAGGCAGAGCGTTATATCGGCCTTTGTGTTAATGAGCAAAAAAAGATCCATGCTATACATGTGAATACAGATGAAATGGAGTTAATGAGGGAAAGGTTAGAGCGTCAAATTAAATCTGTGCATAAATTGGATGAACGCAAAAAGAAGGATATATTACAAAAATTAGAATCTATTACATTTGATTTTAGGCTATGTCATAGAGATTTTCATCCATTTAATTTGATTTTGAGTAAGGAAGAGAAAGTGAAAGTTATAGATTGGGTAGATGCTAGTTCAGGTGATATTCGCGCAGATGTATTTCGAACATACTTGTTGTACTCACAATCTTCGGTAGAATTAGCTGAGATGTATTTACATATATATTGCAGTCGTACCGGCATATCAAGAGATGAAGTTTTTCAATGGGCTCCTATTATTATTGCAGCTAGATTTTCTGAAAAAGTATCACCGCAAAATGAAGTGTATTTGAAAAGATTATTGAATCAGTATTTATAA	MNLGNPIAKGNTAEIYLTDDKVVKLFKDYLPDTESMNEAKKQKYAYSCGLPVPNVFEVTKIQNRQAIIMEHVKGDNIGDLLLNNLNEAERYIGLCVNEQKKIHAIHVNTDEMELMRERLERQIKSVHKLDERKKKDILQKLESITFDFRLCHRDFHPFNLILSKEEKVKVIDWVDASSGDIRADVFRTYLLYSQSSVELAEMYLHIYCSRTGISRDEVFQWAPIIIAARFSEKVSPQNEVYLKRLLNQYL				NA	NA	NA	NA	NA
AK009_05582	795			hypothetical protein	GTGATTACACATATATCAGATATAAAACTACAAACGGTTTCCATAGAAGGGGTAAAACAAGTTTATAGGGACATATTATCTTTTCCAATAAAAAAAGAAACAGAATCATTTATTCAATTTAAAGTAACACCGTACACTACAATTAGTTTTCAAGAATTATATGAACCAATTGCACCTGCGCACTTTGCTTTTGAGATTCCATATTCAAAATTTCATGAAGTTGCAAGATGGCTTGAAAAGTCTGGATTACTCATTGTAAAATGGAAAGATGGTCATACAATTGATGAAGAGAGCGGCCGATTCAACTTATATTTCAGAGATGGCGATGGAAATCTTCTCGAAATTATCGCGCATAGTTATGTTAAAGAAGATGTATTAGTACCACACTCACCTTTAAACATTTTATACGTAAGGGAAATTGGTCTTCCTGTTAAAAGTGTACCTGTTTTTACGGAATGGTTAAAATCAAATCTAAATATGAAAACGATGGAAGATGGGGATATTTTTAACTTTGTTATAGGTGGCACTGCATATATCGTCGCGACTTGGTGGCAGAGACCTTGGATTCCAATCGCAATGAAAGCTTTACCACCGAAAGTTCATGTTTCTTTCGGAACACCGGATTCAGCATTTTTACAGCACATCCAAAATAACTTTAAGAAAAATAATGTTCCCTTTGAATGTAAACATAATGAAGTATCATTTATTGAGCAGGGATATTCATTTTCTATTGTGTATACACCAGAGTTTCATTCCAATATTCCTAAAGAACTAAACTTACCACTTTCTATTTAA	MITHISDIKLQTVSIEGVKQVYRDILSFPIKKETESFIQFKVTPYTTISFQELYEPIAPAHFAFEIPYSKFHEVARWLEKSGLLIVKWKDGHTIDEESGRFNLYFRDGDGNLLEIIAHSYVKEDVLVPHSPLNILYVREIGLPVKSVPVFTEWLKSNLNMKTMEDGDIFNFVIGGTAYIVATWWQRPWIPIAMKALPPKVHVSFGTPDSAFLQHIQNNFKKNNVPFECKHNEVSFIEQGYSFSIVYTPEFHSNIPKELNLPLSI				NA	NA	NA	NA	NA
AK009_05583	435			hypothetical protein	TTGAAACGTTACTATATTAGCAATGAAAAAATAAATGTACATATTACTGAATGGGGGAATAATGACAAGCCCGTTATCTTTTGTTTACATGGATTAGGTAGTACGAGTTTAAGTTTTATAGAAGTTGCTGTAAAGGATCTAGGGATCGAAATGGATAATAAAGTATGGTGGCATGCCAGGGGAAATACAGCTAGTAATATAATAAGAGGTATGCATAAAGATGAAACTATAGATATATATGAGAAGCTACCGGCTAATATTGTATTACTTCGAGCTACAGTCCCACAAGTTTGGGCGGATTATAGAGATAAGACAGTAAATGTTTTTAAAGAGAAAACGGACAGTATAGTAAAAGTAATTCCTGATACTACACACATGTTGCACTGGGATAAACCAGAAATTGTTATAGCAGAAATAAAAAATAATTGGAGCTAA	MKRYYISNEKINVHITEWGNNDKPVIFCLHGLGSTSLSFIEVAVKDLGIEMDNKVWWHARGNTASNIIRGMHKDETIDIYEKLPANIVLLRATVPQVWADYRDKTVNVFKEKTDSIVKVIPDTTHMLHWDKPEIVIAEIKNNWS				NA	NA	NA	NA	NA
AK009_05584	753			hypothetical protein	ATGAACGAATTAGAGTATAAAAGCTTCTATGATAAAGTAGGAAGATTAAATGGATGGGATTTTAGTAAAATAAAATGTGAAACTGTAGGAGATACATGGGACTTTTATAGTGAGGTAAAAGAAAGGTGTAAACCATCACATATTTTACTTGATGTTGGTACAGGGGGAGGAGAAAATGTACTTAACATAGCATCATCAGCTAAATTGTTGATTGGAATTGATAATTCTAACGGCATGATTGCAACGGCACATTCTAACTTGAAAAAATCAGGTGTACAAAATGTTGAGTTTCTTCAAATGGGTTCTGAAGCTTTAACATTTCCACATGCACATTTTGATATTGCTTCAAGTTGTCATGCCCCGTTTCTGGCATCTGAGTTAGCGAAAGTAATGAAAAAGGGTGCCTTTTTCTTAACACAACAAGTAAGTGAGAATGATAAATTAAACCTGAAAGAAGCATTTGGTAGAGGGCAATGCTTAGGTGAACGGGATGGTACTTTAAAAGAAAAGTATATGAATGAACTTATTAGTGCAGGATTTGATCTCGTGCAAGTACGTGAATATGATGTTACTGATTATTACAGTAGGTCTGAAGATCTCATTTTCTTATTAAAACATACCCCTATTATTCCTAGATTCGGAGAACAGGAAGAGGATTTTACTATTTTACAAAAGTTCATTGATACGTATAGTTTTGAAAAAGGGATTCGTACTAATTCAAAAAGATTTATGATTATTGCTGTTAAATTATAA	MNELEYKSFYDKVGRLNGWDFSKIKCETVGDTWDFYSEVKERCKPSHILLDVGTGGGENVLNIASSAKLLIGIDNSNGMIATAHSNLKKSGVQNVEFLQMGSEALTFPHAHFDIASSCHAPFLASELAKVMKKGAFFLTQQVSENDKLNLKEAFGRGQCLGERDGTLKEKYMNELISAGFDLVQVREYDVTDYYSRSEDLIFLLKHTPIIPRFGEQEEDFTILQKFIDTYSFEKGIRTNSKRFMIIAVKL				NA	NA	NA	NA	NA
AK009_05585	339	hxlR_3	COG1733	HTH-type transcriptional activator HxlR	ATGGATTTACAAGAACCGAAGTTAAAAGGGGTAATAGCAACATTACAAATAATCGGTGGGAAATGGAAGCCACTCATTTTGTTTATTTTGCTAACAGATGGAATGAAACGTTTTGGTGAATTAAAGCGATTGATACCAGATATATCTCAAGGGACGTTAGCGAAGCAATTACGTGAATTAGAGCAAGATCAACTAATAAAACGCGAAATTTATCAAGAAATACCACCTAAAGTAGAATATAGCTTAACTGAACATGGAAAAACAGTCAGTACTGTTTTGGATAGTATGTGTAGTTGGGGAAGAGGGCATTTAGAATATATAGATAAAGATAAACCATAA	MDLQEPKLKGVIATLQIIGGKWKPLILFILLTDGMKRFGELKRLIPDISQGTLAKQLRELEQDQLIKREIYQEIPPKVEYSLTEHGKTVSTVLDSMCSWGRGHLEYIDKDKP				NA	NA	NA	NA	NA
AK009_05586	717			2-keto-3-deoxy-L-fuconate dehydrogenase	ATGTCTATTACTACATTAGAAAATAGTCGTATTGTTATCATTGGCGGGAGTTCTGGTATTGGATTGGCAACGGCAAAACAAGTAATTGAACAAGGAGCACATGTTATTATTGCAGGGCGTTCGGAAGAAAAATTAAAAGTTGCTAAAAAATTAATAAATAGCAATCATCTTCAAACTTATATATTGGATAATCAAAATAAAGAGCAATTACAAATTTTTTTCAAGACAGTTGGGAACTTTGATCATTTATTCACACCGGGAGCCTCTTACACACTTGGACCAATTACCTCTACAGAGGAAATTGCTGAAAGTAGCTTCATCGGAAAGTTTTGGCCTCAATATTATGCCGTAAAATATGCAATTCCTTTTCTTTCAAACTCTGGATCTATCGTGTTAATGTCCGGTGCATTTAGTCAAAGACCACTTAAAGGCGCACCTGCTTATGGAGCTTGCAATGGTGCTATTGAAAGTTTAGGGAAGGCTTTAGCTGTGGAATTAGCTCCTATTAGAGTTAATGTGGTTTCTCCTGGAACAATACAAAAAGAAAATGAACAAAATGAAAATAGACTAGTTGCTTACGAAGCTTATAAATCTCTTTCACTTGTACAACGAGCTGGATATAATGATGAAATTGCACATACTGTCCTATATTTAATGCAAAATAGTTTTACTACGGGTAATGTATTGTTTCCTGATGGAGGGTATACATATCATTAA	MSITTLENSRIVIIGGSSGIGLATAKQVIEQGAHVIIAGRSEEKLKVAKKLINSNHLQTYILDNQNKEQLQIFFKTVGNFDHLFTPGASYTLGPITSTEEIAESSFIGKFWPQYYAVKYAIPFLSNSGSIVLMSGAFSQRPLKGAPAYGACNGAIESLGKALAVELAPIRVNVVSPGTIQKENEQNENRLVAYEAYKSLSLVQRAGYNDEIAHTVLYLMQNSFTTGNVLFPDGGYTYH				NA	NA	NA	NA	NA
AK009_05587	810			hypothetical protein	ATGTTTAAAATAGGGGATTTTTCGAAACTATCTTCCATTAGTATACGTATGTTGAGACACTACGATAAAGTGGAATTATTACAACCAGTAAAAGTCGATGAGCAGAGTGGATATCGATTTTATTCAGCTGACCAATTAAAAAAAGTAAATCAAATTCAAACATTAAAAGCTATGGGGTTTAATATTGCTACCATCAAAGAAATAATAGAATGCGATAATATAGATAGCATAAAAGAGCAATTTTTAAATCGTAGTGCTCAAATTAAAGAAGACATGAATAACCTCCAAAAACAATTACGTCTCCTCGAAGACTCAATGAAAACGATGAGAGAGGATGTTGTTGAGATGAATTATCATGTTTCAATAAAAGAAATTCCAGAAAGAACTGTAGCTAGTGTTAGAAAGATTATTCCATCGTATAATTGCGAAGGTGATTTATGGAGTGTATTAATGCAAGAAATTCAAATGAAAAATATTAGTATTCCCCATCCGAGTTATAGTATTGCGGTTTTCCATGATCGTGAATACAAAGAAAATGATGTAGATATAGAAATACAGCTAAGTATTCTAGGTAAGCACGAAAATACAAAAGACGTTACATTTAAAAATATGAAATCAACCAATGTAGCTTCTATAACAGTTAATGGAAGTTATGAACAGATGACAGCTGTAAATGAGGCTGCGGCAAAATGGATTGAGACAGAAGGTTACAAATTAGCAGGCCCGATGTTTAATATTTATCATGTGAGCCCAGCGATGGAATCGGATCCTAATAAGTGGGTTACAGAAGTTTGTTATCCAGTTAAATAA	MFKIGDFSKLSSISIRMLRHYDKVELLQPVKVDEQSGYRFYSADQLKKVNQIQTLKAMGFNIATIKEIIECDNIDSIKEQFLNRSAQIKEDMNNLQKQLRLLEDSMKTMREDVVEMNYHVSIKEIPERTVASVRKIIPSYNCEGDLWSVLMQEIQMKNISIPHPSYSIAVFHDREYKENDVDIEIQLSILGKHENTKDVTFKNMKSTNVASITVNGSYEQMTAVNEAAAKWIETEGYKLAGPMFNIYHVSPAMESDPNKWVTEVCYPVK				NA	NA	NA	NA	NA
AK009_05588	3171	uvrA_2		UvrABC system protein A	ATGAAAGTAAATCAATTAATTGCTAATAACATAAATAAATTAGATGCAACTATACCGTTTAATAAATCGTTTGGAATTGCTGGTTTATCTGGATCGGGTAAAACAACTTTTTGCCAAAAAATTGGTGAAGAATCAAAAAAACGATTAGTTTCTTTATTGCCAAAGGCTGAATATCAATATTTATTTCCTAACATTATGGAAACAAATTTTAGTGCCATTAAGATGGAAGAAATACCTTTAGTACTTTTTCTAGGAAAATCATCGATTTCGTCTAATCCGCGTTCAACGATTGGTACTCATACTGGTGTTTTTACAGAGGTTCGGGAAAAACTTGCTGAGGTATTTAATCTTTCTCCAGAGGTCTTTTCATTTAATAATCAATTAGGCTGGTGTACTGGTTGTAAAGGCCGTGGTACTACAAAAAATGTTGAGTGTAAAAAATGTAAGGGAAAACGTTATAGTGAAGAAATTGAACAACATGAAATTGATTTGTTGGACAAGCCACATTCAATCTCAAATATTAATGATTTAAGTATTGAATCTATTCTTTCACTAGCAAAAGAGTTAAATATTAGTGAAGAAAAACAGCATATACTGCAAAATATTATTAATATGAACATTGGTTATTTAACATTAAATCGAATTATGGGTACGTTATCAGGTGGAGAGTTAACACGACTTTATTTGGCCGAATTCATGGCAGTAAGTGAAAATGCTGTAATTATTATTGATGAGATTTCAGTTGGACTTGATCATGAAACTTTATTACAAATTTTAGAAGAGATTAAACGATTAGGGTGTAAAAATCAAATTTGGCTTATTGATCATTCAGATACAGTACTAGATACAACTGATGAGCAATTGTTCTTTGGACCTGGTAGCGGAAAATATGGCGGGAAAATTGTGGAAGAATCACCAAGACCAAAGTCAATACTGTGGGATCGAAATAAAGAAATACCAACAGAATATTATACATTCTATGATTTATATTGCCGTAATATCCAAATGGCTGAGTTTCAAATTCCTAAAAACAGGCTTGTAACAGTTACAGGAGAATCAGGATGTGGGAAATCTACACTTGTCAACGAATGTCTAGCTACAGATTTTTTGAAACGATATCCAAAAGATAAATTAGTTATGGTAGGACAAGACCGAAATCAATCAATTACAAGTCGATCAACTGTAGCAACTTTCCTAGATATTAAAAAGAAACTGACAAAGTATAGTGAAGACATTGATGATATTTTTGAGCGCTCGATTGAGGATATTATTGATGAACTTCCAAATGAAGATATCGCTTATAAACGTTTGAGCCTACTAATTAAATTAGGGCTTGGCTATTTAACATTAGAGAGAAAAACACAAACATTATCGACAGGTGAGTTTCAATGTGTTCATTTAGTTTCGGAATTATTTGCAAACACTAGAAATCCACATACATTATTTATTTTTGATGAGCCTTCAAAAGGTTTATCACAAAATATTTTAAATCAATTTATCGATAGTATTAGAGGTATTCTGCAAGATGAATCAGTTTCGATCATTATGATTGAGCATAATCGTTACATGTTAGAAAGCTCTGATTATATAGTTGATTTTGGAAAAAGGCAGAATGAATCTATAGAGCATTTGGATGTTGTCAATCATGAGGATTACTATCGTCAAAAAAGTAATGTGAATAGCACAGAGAAAATACACATCTCTTCAATGCTTAAGCAGAAAAAAGGGGTTCACTATTTAGAAGAAAATCATATTAACTATTTTAAAAATGCCGAAAATATTTATAAGGGCGGTATTTTAAAAAGTTTATCATCAATGGCTAGGTTAATTTATGGTGAATATGAATCTGATACAATCGCACCTGTTATTGCTATTGATCTTGAAAGACATTTATATAGTCAATATAGTTTCTTATATGAGATTGGTGGATTAATTAATCATATTGTAGCTGCTCATCCAATTAATAAAGATACGAGAAGTTTTGATTTCTATTCACAGGACAATCATTGTCCATCTTGTTCTGGACGTCTTCAAATTGAAGTTTTTGATAAAGATATTGCCATTCAAGATAAAAGTGTTCCATTTTGGGATGGGCTATTCGATCCAGAAATCATGAAGGTATTAAAATTTTATCAGCATGAAAAAATAGAATTTCTATTCGAAGAAATAAAAAATGAGCTTGATCACGATTTGTCAAAGAGCTATAATGATATGTCAGAAGAAGAAAAGCATACGTTTTGGTACGGGTATTTTGAAAAATCATTTTATGATAAAAAAGGAAAGACACGCAGAACATGGGTAGGATTTAATACAATTATTGGTGGATATATTGTTATTTCAAAAGCACCTATTAAAGAAGAAATTAAAAGTTCAAAAAAAATGATGAAATGTCCAATTTGCGAGGGGACGGTTTTAAATCATCATAAACCACTTAAATTTGATAACGTAGATATTCGTGAAATAATTAATCAGCCTATTAATGAAGTAGTGAAAACAGTTGGTGATTTACCGACACTTGTTAAATTGAAGTCTATTGTTGGTGGCGATATGGTATTGACAGAAGATGTTTCTTTATTGCCAAGAAAAGCACAAGTTGCACTGAAGATGTTTGAATTAGAACAAGCAAGCTTTTCAAACTATGAAATGGTGTTACAAAATGTCTTACCATTCTGGGGTGAAATAAAAGGAAATATCGAATCCATTAGTGTTAATAATCAAGTAACTGTTTGTGATTTCCCTAATGTTTATGAAACGAGAGAAAACATTATAGATAAGTATTTCACAAATGGTAAATATAAAAAACTTACGTATGTATACGAAGCGTTTGGATACAAAAAAATAGTTACCCAAATTAATAAAATTAAAAAAAGTAATCCATGTCCATTTTGTAAAGGTAAGAAAGTGATAACCGAAGATAATCTACATGATGGTGTCTTTAAACTAACAATTCCATGTGTAACTTGTAATGCAAGTGGTATTAATGACGAAGGGTTAAAAGAAGTTGTCGAGGGCGTGGATGTACAAACGTGGTTAACTGGAAAAGTTAGTGATGTTGTGGATGAGAGCTTATTAACAGAAGCTGTTGGGCAAATACCAATTTTTAATCGTATTCGTGAGTTGGATAAACGAGATATGATGGCGGTTTATGAATGTCTTGAGAAAAATAACTAA	MKVNQLIANNINKLDATIPFNKSFGIAGLSGSGKTTFCQKIGEESKKRLVSLLPKAEYQYLFPNIMETNFSAIKMEEIPLVLFLGKSSISSNPRSTIGTHTGVFTEVREKLAEVFNLSPEVFSFNNQLGWCTGCKGRGTTKNVECKKCKGKRYSEEIEQHEIDLLDKPHSISNINDLSIESILSLAKELNISEEKQHILQNIINMNIGYLTLNRIMGTLSGGELTRLYLAEFMAVSENAVIIIDEISVGLDHETLLQILEEIKRLGCKNQIWLIDHSDTVLDTTDEQLFFGPGSGKYGGKIVEESPRPKSILWDRNKEIPTEYYTFYDLYCRNIQMAEFQIPKNRLVTVTGESGCGKSTLVNECLATDFLKRYPKDKLVMVGQDRNQSITSRSTVATFLDIKKKLTKYSEDIDDIFERSIEDIIDELPNEDIAYKRLSLLIKLGLGYLTLERKTQTLSTGEFQCVHLVSELFANTRNPHTLFIFDEPSKGLSQNILNQFIDSIRGILQDESVSIIMIEHNRYMLESSDYIVDFGKRQNESIEHLDVVNHEDYYRQKSNVNSTEKIHISSMLKQKKGVHYLEENHINYFKNAENIYKGGILKSLSSMARLIYGEYESDTIAPVIAIDLERHLYSQYSFLYEIGGLINHIVAAHPINKDTRSFDFYSQDNHCPSCSGRLQIEVFDKDIAIQDKSVPFWDGLFDPEIMKVLKFYQHEKIEFLFEEIKNELDHDLSKSYNDMSEEEKHTFWYGYFEKSFYDKKGKTRRTWVGFNTIIGGYIVISKAPIKEEIKSSKKMMKCPICEGTVLNHHKPLKFDNVDIREIINQPINEVVKTVGDLPTLVKLKSIVGGDMVLTEDVSLLPRKAQVALKMFELEQASFSNYEMVLQNVLPFWGEIKGNIESISVNNQVTVCDFPNVYETRENIIDKYFTNGKYKKLTYVYEAFGYKKIVTQINKIKKSNPCPFCKGKKVITEDNLHDGVFKLTIPCVTCNASGINDEGLKEVVEGVDVQTWLTGKVSDVVDESLLTEAVGQIPIFNRIRELDKRDMMAVYECLEKNN				NA	NA	NA	NA	NA
AK009_05589	480			hypothetical protein	ATGATAGCTGAAATTGGGAAACTAACTGATGGATATATTGTAAAATTTGAACGTGAATTTCCATATACGGTAGAGGAAGTTTGGTCTGTATTAACAGAAAACAGTAAGCTGAAAAAATGGATGTCCAATTTACAGATTGAAAGCCTTAAAACTGGTGGAATAATAAAGTTCGACATGATGGACGGTTCATTCATAAACATTGATATTTTAGAATGTCAACTAAACTCAGTACTTGAATTTACTTGGGATAAAGACCGTGTCCGATTTGAAATACATAAAGAGGAAAATGGTACTCTTTTACTTCTTAAAGAGTACATTCATGAATTAACAGATCATACACCGAGAGATATAGCTGGTTGGCATATTTGTTTAAATCTTTTTTCTTACGTTTTAAAAGGAGAAGAGAAAGAATTTTCTAAAGATGAATGGCAACAATGGTTTGAAATATACAAGGATAAGATTCATGAAGCGAGAGGATAA	MIAEIGKLTDGYIVKFEREFPYTVEEVWSVLTENSKLKKWMSNLQIESLKTGGIIKFDMMDGSFINIDILECQLNSVLEFTWDKDRVRFEIHKEENGTLLLLKEYIHELTDHTPRDIAGWHICLNLFSYVLKGEEKEFSKDEWQQWFEIYKDKIHEARG				NA	NA	NA	NA	NA
AK009_05590	564			hypothetical protein	ATGGTGGCAATAAAACAAGACGAAATTAAAGTAGTTGCCGGAGCTGGAGTGTTTAATAATAATCCAGGTTGGATTCAAACGCAAGAAGATGAACTTAACTTACTAGATAAAGCTACGTGGGAAGAAAGATTTGAATACAACTCTATTTCAGCTATTTTAGCTGAGCATGTATGGGAACACCTTACTTTTGAAGAAGGTGTAAGAGCAGCTGAAATTTGTTATGAATTTTTAAAACCATCTGGTCATATTCGGTGCGGAGTCCCTGATGCATTCTTTCAGGATGAGGCATATCAAAATATAGTTCAAATAGGGGGACCCGGTCCGAAAGATCATCCAGCAGCAAGTCATAAAATCGTTCATAATTATATAACATTAACGGAAATGTTTGAAACTGCTGGATTCGAGGTAGTTTTACTTGAATATTGTGATGAAAATGGTCGGTTTTATTACAACAAATGGGATGCAAACGACGGTGTTATTTTCCGTTCGAAAAGGTATGATTCTAGAAATAAAGGCGATAAACTTGGTTTTCCATCGCTAATTGTCGATGCGATTAAGCGTTAA	MVAIKQDEIKVVAGAGVFNNNPGWIQTQEDELNLLDKATWEERFEYNSISAILAEHVWEHLTFEEGVRAAEICYEFLKPSGHIRCGVPDAFFQDEAYQNIVQIGGPGPKDHPAASHKIVHNYITLTEMFETAGFEVVLLEYCDENGRFYYNKWDANDGVIFRSKRYDSRNKGDKLGFPSLIVDAIKR				NA	NA	NA	NA	NA
AK009_05591	2238			hypothetical protein	TTGAGGCTACGATTAAAGCTGGTAAGTATTCATTTTATTGTTTTGTTAATGTTAAGTGTAAGTTTTGTCGTATATGTACCAAAAGAAGTATATGGATCCACGACAAACTTAGAAGGTCTAGGTGATATATCGCGTTATAATGCAGTTGTCTTTGGTAACCATAAAGCAATAGGTGGCGACATTGAAGGAGCAATTGCAGTTCAAGGTGATATGGATGCATCGGGGTATACGATTGTAGGTGCTGCAGCGGGAACATCTAATATAGTAGGTGAAAAATGGGTTGATGAGGGATATCCGTCCTTGTTGTTGTCTGGAAAATTTAAGAAATCAAGAGAAGAATCTTTTATCATTCAAAACGGAATAGTAGTAATGACAAAAGAGAGTGATCCAGATCGCATCATACAATCCTCTTATGATCGTATCGTTTATAAAGAAAAACTAGAAATTGACGCGAAATTTAATGAATTTCGCAATATAGTGAACCAAGTCAGTAAAAATGCAGGTCAATATAAAACAAATACCCCAATTCCAAATATGAGTCATGGAATCGGAAAAGATATAAACAATCCTAATATTTATGTTTCATCAGAATTGACAGGGAAAATTAATTTAGATATAAGAGATGTATTTTTACCAAATGCTAAGGACAAAGATTTTATTGTTATGTATTCGGATGCAACAGAGGTTACATTTAAAAATGGGTCTATTCTATATGACACGAACAATATTGGAAGGGCTACAGATATAGTTCCTACATCACAACCATATTCTCCTAATTCCCCGTTTACTGAGCTATATGGGAAAGTGATTTGGGTTTTTCCAAATGCGAAAAAAATTATAACAGAGGGATATGGTGTCGTTGGTAGTGTGTTTGCCCCCAATGCTGTATTAGAAACAAAAGGCGGTTCGATTAATGGACAAGCATTTGTCGGTGCGGTACAACAAACTGGTGGATTTGAATTTCACAATTTCAAATTTAACTGGCAACATTGGAACAAGCCTAGTACTGGAAAAGTAAAAATAAAAAAAGTTGATAGTAATAATGATAATAAAAAATTGGTCGGAGCAAAGTTTCATATAGAAGATTCAAATAAAAAAGTAGTTGGAGAACTAGTAACAAATGAAGAAGGAGAAGCGATATCAAAAGACTTACCAAAAGGAAACTATACCCTTGTAGAAATAGAAGTGCCAAAAGACTATGAATTATTAAAAGATAAAATAGCTGTAAAAATAGAAAAAGATGCAGTAGTAGAAATTAAAATAGGAAATAAGAAATTGCCAGATCCAATGGGAAAAATGAAGTTAGTGAAAGTAGACATAAGTGATAAAAATAAAAAGCTAGCAGGGGCAAAGTTTCATATAGAAGATCCAAAAGGAAAAATAGTTGGAGAACTAGTAACAAATGAAGAAGGAGAAGCGATATCAAAAGACTTACCAAAAGGAAACTATACCTTAGTGGAAGTAGAAGCACCTAAAGGTTACGAATTATTAAAAGAAAAAATAACTGTAAAAATAGAAAAAGATGCAGTAGTAGAAATTAAAATAGGAAATAAGAAATTGCCAGATCCAATGGGGAAAATGAAGCTTGTGAAAGTAGACATAAGTGATAAAAATAAAAAACTAGCAGGAGCAAAGTTTCATATAGAAGATTTAAAAGAAAAAGTAGTTGGAGAGTTAATAACAGATGAAAAAGGAGAAATGATATCAAAGGACTTACCAAAAGGAAACTATACCTTAGTGGAAGTAGAAGCACCTAAAGGTTACGAATTATTAAAAGAAAAAATAACTGTAAAAATAGAAAAAGATACAGTAGTAGAAATTAAAATAGAAAATAAGAAATTGCCAGATCCGACTGGGCAATTTGAAATTGAAAAAGTTGATGATAAGGATAGTGAATTAAAGCTAAAAGGCGCTGTATTTCAAGTGTTAGATAAAGAAGGGAAAGAAGTTAGTAGATTAATAACGGATGAAAAAGGAAAGGTAATTTCCAACCAATTAGCAATTGGAAAGTATACGATTAAAGAAATAAAAGCACCGAACGGATACATGTTACTTAGGGATCCAATAGAAATAGAAATTACAGAAGCAGTAAAGACACAAAAAATAACAGTAAAAAATGCGAAGAATAATTGGGTAATTCCTAATACTGGTGGGAGCGGAACAACAATTTTTTACGTAATTGGTATTATGCTAATGTTTGCTTTGCTATATTTCTGTAAGAAAAATCGTATATTATGA	MRLRLKLVSIHFIVLLMLSVSFVVYVPKEVYGSTTNLEGLGDISRYNAVVFGNHKAIGGDIEGAIAVQGDMDASGYTIVGAAAGTSNIVGEKWVDEGYPSLLLSGKFKKSREESFIIQNGIVVMTKESDPDRIIQSSYDRIVYKEKLEIDAKFNEFRNIVNQVSKNAGQYKTNTPIPNMSHGIGKDINNPNIYVSSELTGKINLDIRDVFLPNAKDKDFIVMYSDATEVTFKNGSILYDTNNIGRATDIVPTSQPYSPNSPFTELYGKVIWVFPNAKKIITEGYGVVGSVFAPNAVLETKGGSINGQAFVGAVQQTGGFEFHNFKFNWQHWNKPSTGKVKIKKVDSNNDNKKLVGAKFHIEDSNKKVVGELVTNEEGEAISKDLPKGNYTLVEIEVPKDYELLKDKIAVKIEKDAVVEIKIGNKKLPDPMGKMKLVKVDISDKNKKLAGAKFHIEDPKGKIVGELVTNEEGEAISKDLPKGNYTLVEVEAPKGYELLKEKITVKIEKDAVVEIKIGNKKLPDPMGKMKLVKVDISDKNKKLAGAKFHIEDLKEKVVGELITDEKGEMISKDLPKGNYTLVEVEAPKGYELLKEKITVKIEKDTVVEIKIENKKLPDPTGQFEIEKVDDKDSELKLKGAVFQVLDKEGKEVSRLITDEKGKVISNQLAIGKYTIKEIKAPNGYMLLRDPIEIEITEAVKTQKITVKNAKNNWVIPNTGGSGTTIFYVIGIMLMFALLYFCKKNRIL				NA	NA	NA	NA	NA
AK009_05592	849			hypothetical protein	ATGCTTCCCTCTTTTCGATATTTAAGCATATACAGAGGTGGAAATATGAAACGAAATCTTGTTTTGGGAGGTATTTTTTTATTTGGATTAGGTGTGCTTTTATATCCTACTATTAGTAATTGGTTGGCGACTCGTGCACATTATTCTGAGATTAGCTCTTACGATAAGAAGATCAAAGAGCTACAAAAGAAAGAAGTCGAACGTAGGGAAAAAGAAGCAGCCGAATATAATAAACAAGTTCAAACTTCCACGAAAACATTTACTGATCCATTTTCTGAAAAAAAAAGTAATCATCAAGCATATGCTGATGCGTTAAATTTAGGAGATGTAATGGGGTATATTGAAATATCGAAAATTAATATAAAACTGCCAATCTATCAAGGGACATCTGAGGAAGTATTGAGCCGCGGGATAGGTCATTTAGATTTTTCTTCGCTCCCGATAGGTGGAGAAAATACGCACACTATTTTAACAGGGCATCGTGGTTTACCATCAGCAAAATTATTTACAGATTTAGATAAGTTGAGCGAAGGAGATCTTTTTTATATTCATTCTTTAGACAAAGTTCTTGCTTATAAAGTAGATCAAATTAAAGTAGTGTTACCACACGAAACGGACGATCTACAAATTGTACAAAAAAAAGATTATACAACTTTAATTACGTGTACGCCTTATGGAGTAAACACCAATAGATTGCTAGTTCGAGGTGTGCGTGTGGAGTTAAACGAGAAAGAAAAACAAAAAGTGAGTACAGAGATATTTATATTTAATAAGTGGACTGTAATAGTTCCAATCCTATTGTTATGTGTGTTTCTAGTCGTAATTTATAAGAAAAGGTTAACTAGATAG	MLPSFRYLSIYRGGNMKRNLVLGGIFLFGLGVLLYPTISNWLATRAHYSEISSYDKKIKELQKKEVERREKEAAEYNKQVQTSTKTFTDPFSEKKSNHQAYADALNLGDVMGYIEISKINIKLPIYQGTSEEVLSRGIGHLDFSSLPIGGENTHTILTGHRGLPSAKLFTDLDKLSEGDLFYIHSLDKVLAYKVDQIKVVLPHETDDLQIVQKKDYTTLITCTPYGVNTNRLLVRGVRVELNEKEKQKVSTEIFIFNKWTVIVPILLLCVFLVVIYKKRLTR	PGPT0024075_986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK009_05593	1692			hypothetical protein	ATGATAGAAGTAGTAAAGGGGATAAGAGAAATGAAAAAAATATTTAGTGTGCTTTTAGTGTTATTCTTAACATTTTCTACATGGTCTAGTGTATTAGTAAAGGCAGATTCACCATCTAAAGGTACTTTAACGATTCATAAGTATGAACAAGAAAAAGATGGAGCGCAGGGACTAGAAGGTGACGGTTCTGCAAATCAAGAGGTGCCAAAAGATGCGAAACCATTAAAAGGTGTAACGTTTGAAGTGAAAAAGGTTGCGTCTTTTGAAAAAATTTCAAACGATGGGAAAATCGTGAAAGAAGATGTGAAACCTGTAATGGGAGCAACTCCAACGCAAGTAGTAACAGATGATAACGGACAAGCTGTATTAAAAGATCTTCCGCTAGGACGTTATGAGGTGAAAGAAGTGGCAGGACCTCCACATGTTAATCTAAATCCCAATACGTATACAGTGGATATCCCATTAACGAATAAAGAGGGTAAGGTGCTAAACTATGATGTTCACATGTATCCTAAAAATGAGGTTAAACGTGGTGCAGTGGATTTAATAAAAACTGGTGTAAATGAAAAAGCATTAGCAGGTGCAGTATTCTCTTTATTTAAAAAAGACGGTACAGAAGTGAAAAAAGAGTTAGTAACAGATGCTAATGGTCATATTCGCGTGCAAGGATTGGTGTATGGAGAATACTATTTCCAAGAAACAAAAGCTCCGAAAGGCTATGTAATAGATCCAACTAAACGTGAGTTTTTTGTTAAGAACTCCGGAACAATTAATGAAGATGGAACTATTACTTCTGGTACAGTAGTTAAATTAGAAGTGAAAAACTATGAAGAACCAATAATTGATAAAAAGATTAACGGAAAATTGGAAGCGTTACCAATCAATCCGTTAACTAATTATAATTATGATATTAAAACATTAATTCCAGAAGACATTAAGGAATACAAAAAATATGTGGTAACAGATACTTTGGATAATCGTTTAGTGATTCAAGGAAAGCCAATCGTGAAAATTGATGGAGCAGAAGTAAATGCAAGCATTGTAGAGGTAGCTATAGAAGGTCAAAAAGTAACAGCTACAGTAAAAGATTTCACAAAATTAGATGGTAAAAAAGAATTTCATGTGCAAATTAAATCTCAAGTAAAAGAAGGAGTACCATCTGGTTCGGAAATTTTAAATACAGCAAAAATTGATTTTACAAATAAAAATGATGTAATTGGAGAAAAGGAATCTAAACCTGTAGTTGTTGTTCCAACAACTGGAATAATTGAGTTAACAAAAATTGATGGTGCTAATAAGAATAAATTAAAAGGTGCAGAGTTTGTACTTAAAGATAAAAATGGAAAAATAGTTGTTGTAGCAGGAAAAGAAGTAACAGGTGTATCAGATGAAAATGGTGTTATTAAATGGTCTAACATTCCATATGGAGACTATCAAATTTTTGAAACGAAAGCACCAACATATACAAAAGAAGATGGTACAAAAGCTTCTTATCAATTGTTAAAAGATCCTATTGATGTAAAGATTAGCGAAAATAATCAAACGGTTAAATTAACGATTGAAAATAATAAAAGTGGATGGGTTCTTCCGGTAACGGGTGGCATAGGAACGACTCTTTTTACTGTAATAGGCCTTACGTTAATGGTTACAGCGGCATTTGTTTTCTTCAGAAAAAAGTTTGCTAATAATTAA	MIEVVKGIREMKKIFSVLLVLFLTFSTWSSVLVKADSPSKGTLTIHKYEQEKDGAQGLEGDGSANQEVPKDAKPLKGVTFEVKKVASFEKISNDGKIVKEDVKPVMGATPTQVVTDDNGQAVLKDLPLGRYEVKEVAGPPHVNLNPNTYTVDIPLTNKEGKVLNYDVHMYPKNEVKRGAVDLIKTGVNEKALAGAVFSLFKKDGTEVKKELVTDANGHIRVQGLVYGEYYFQETKAPKGYVIDPTKREFFVKNSGTINEDGTITSGTVVKLEVKNYEEPIIDKKINGKLEALPINPLTNYNYDIKTLIPEDIKEYKKYVVTDTLDNRLVIQGKPIVKIDGAEVNASIVEVAIEGQKVTATVKDFTKLDGKKEFHVQIKSQVKEGVPSGSEILNTAKIDFTNKNDVIGEKESKPVVVVPTTGIIELTKIDGANKNKLKGAEFVLKDKNGKIVVVAGKEVTGVSDENGVIKWSNIPYGDYQIFETKAPTYTKEDGTKASYQLLKDPIDVKISENNQTVKLTIENNKSGWVLPVTGGIGTTLFTVIGLTLMVTAAFVFFRKKFANN				NA	NA	NA	NA	NA
AK009_05594	1227	rhaR_4		HTH-type transcriptional activator RhaR	ATGACTAAAAAGCTCAGTCTAGTTGAGATAGAGTACATTTGCAATATGTTTTTCCAATCTTTTGAAATTCCAGTTTGTTTTTTAGATTGTAACAAAAATATCCTTTTAGAATTCACATCAAAAAATGATTCACACTTGTTGTATACATCAAAAATAGAACAGTTACATGTGCTTTTTCAGAGAAATGATACATATAATTCCCCCATCTTCAGAACTCACGAACATCTAGGGCACTTCATTTTAATTCACATAAAGAGCGATTATATGGTGAACGGTACTGTTATTATTGGGCCCTTGGCACATGTGAATTTTTCTACAAGTAAAGCGGATAGTAAACTTAATTTTATTCCAAATTATAAAAGAACAAGAGACCATTATTTTTCATTGTCAGTCAAAGATCAAAATTTCTTTGTAAATATAGCAATATTGTTCTATAACATTCTCTATAAAAAAAATTCAGATGTAAGCACATTTTCAAATAACAGTGACTCACTTCATATAAGTCATAGCAGAATCTTAAACGAAGATGTATATATTTCAATGCAAAAAGACGAATCCATTTATCATAATTTATATATAGAGCAGCAACTACTTGGTTCTATAGAAAACGGGGATAAAGAAACCGTGCTCAAATATTATTACGAATTCCAACAAGAGACTCTTTCATCTTTATCTTCATTCCATCAATTAAGACGTCATAAAAACATTTGTATTTCATCCATTACGCTCGCCACTAGATATGCGATAAAAGGGGGTCTTCCATCTGGGATAGCTTACAAAATTTATGATTTACATATTCAAAGAACAGAAAATTTAAAAGACAAAGAATCTGTTTGGGATTTATTAAAAAATGCTTTTTGTACCTTTGCAGACCGTGTAAAGGCACAAAAAACACAGCAACATTCACAGACTATTGCTATTTGCAAAAACTACATTTTTAAAAACATTTACAATCCAATATCTGTTAAACAACTTGCTAAATTTGCAAATGTGAATTCAGATTATTTATCTATATTATTTAAAAAAGAAGTCGGTATTTCATTAATTGAGTACATTCAACGTGAACGAATCGAAGAAGCAAAGAAATTATTAACTTTCACCACCTATCCCTTATCAGACATATGCGCTTCGCTTAATTTTAGCGATCAAAGTTATTTTACTAAAATTTTTAAAAAATTCACCAATGAAACACCTGGTAAATATCGAAAATCTCATGTTGTCATTTAG	MTKKLSLVEIEYICNMFFQSFEIPVCFLDCNKNILLEFTSKNDSHLLYTSKIEQLHVLFQRNDTYNSPIFRTHEHLGHFILIHIKSDYMVNGTVIIGPLAHVNFSTSKADSKLNFIPNYKRTRDHYFSLSVKDQNFFVNIAILFYNILYKKNSDVSTFSNNSDSLHISHSRILNEDVYISMQKDESIYHNLYIEQQLLGSIENGDKETVLKYYYEFQQETLSSLSSFHQLRRHKNICISSITLATRYAIKGGLPSGIAYKIYDLHIQRTENLKDKESVWDLLKNAFCTFADRVKAQKTQQHSQTIAICKNYIFKNIYNPISVKQLAKFANVNSDYLSILFKKEVGISLIEYIQRERIEEAKKLLTFTTYPLSDICASLNFSDQSYFTKIFKKFTNETPGKYRKSHVVI				NA	NA	NA	NA	NA
AK009_05595	2682			hypothetical protein	ATGGGAAATAAAAAAGAAATAGCTATAGTTGCATTAACAACAGGATTCGTTTTAACAAGTGTAACGCCATATGGATTAGGTCATGCAGAGGAAACTGGTCAAATGCAAGTAGAAATTCAAGAGGATTCGTTCCGTACAGGTGATCTTACACAACCATCAAAAAAGGCGCCAGAGAATGTAGTTAAAGATGCACTTAAGGAAAATACGGAGCATGCTTTGTCTCCAAAACAAGTTAGTGCAGAAACAGGAGTAGATTACAAGGTTCTTCAAAAACGTGGTTCTTATGATGGAACTACACTTGTGCGCATGCAACAAATATATGAAGGAAAAGAAGTATATGGTCACCAGTTGATTGCTCACGTAGATAAAAAAGGTATTATTAAAAGTATTTCAGGAGATAGCGCACAAAATTTAACACAAGAAGATTTAAAGAAACCTATTAATTTATCAAAAGAAGAAGCAAAACAATATATTTATAAAAAGTACGGAAACGATACTAAATTTATTTCTGAGCCAGAAGTTAAGGCAGTTATTTTTGTTGATGAAAATCATGGACAGGCTAGCAATGCATATCAAGTTACATTTGCTGCTACAATACCAAATTATGTATCTGGAACTTATTTAGTGAATGCTCATAATGGTGAAATGTTAAAAGATATGGTACAAGAATCAAGTTTGAAAATAAGTGAAGAGTATGTTCAATCCGTTAAGGAAAATAAAACTAGCAATTTTACATCATTAACTGGAACAGGAAAAGATGATTTAGGCGTAACTCGTACATTTGGTATTTCTAAACAGACCAGTGGGAATTATGCGCTTGCTGATTACACAAGAGGACAAGGAATTGAGACATATGATGTAAATTATAGAGATATTACAAATGAAGAAAGTTATTATCCTGGTATACTAGCAACTAGCGTTTCAACAACATTTAATGATCCAAAGGCGGTAAGCGCTCATTTCTTAGCAACAAAGGTATACGATTTTTATAAAGAAAAATATAAGCGTAATAGTTTTGATAATAAAGGAAACAAAGTAGTTTCAGTTGTACATGCATGGGATTCTGGAGGAACAAATGATCCTGAAAATTGGGAAAATGCATTTAGTACTAATATTAATAACATTAGTATGCTTTTATATGGAGATCCTATGGTAAAAGCGTTCGATATAGCCGGTCATGAATTTACACATGCAGTTACATCAAGTGAATCTAACCTTGAATTTTCAGGAGAATCTGGGGCAATTAATGAGGCATTATCGGATATTATGGGAACGGCTATAGAGAAATACATAAATAATGGGGAATTTAACTGGACAATAGGAGAACAAACTGGATCGATTTTTCGTAATATGAAAAATCCAACTGCAATTAATTTTTCAGATGGACTACCGTATCCTGATGATTATAGTAAATATAATGATTTAAATGGAGAGGATTATGGAGGCGTTCATTTTAACTCAAGTATTATTAATAAAGTTGCGAATTTAATTGCACAAGGTGGTACTCATAACGGTGTAAATGTAAATGGCATTGGTGAAGATAAAATGTTTGATATTTTCTATTATGCAAATACTGATGAATTAAACATGACTTCTAATTTTTCTGAATTGAAATTGGCATGCCTTAAAGTGGCAACTAATAAATATGGAACGAACTCAATTGAAGTTCAAGCAGTCCAAAATGCTTTTGATGCTGCAAAAATTATAGAAAAAGTGAAAGAAAACGAAAAAACAGCAGAAAACCAAGCTCCAGAGTTAACTGTACCGTTTACGATTACACTACGTGTAGGAGATACGTTTGATCCAATGAGAAATGTAAAAGCTGTTGATAAAGAAGATGGTGATTTAACAAATAAAGTAAAGCATAAAGGCGATGTAAATACTTCAAAACCAGGTACATACATTGTGGAATACTTGGTTGTTGATTCTAAAGGCGGGAATGCAACGGCTATACAGACTGTAATTGTAGAGGGAAATGGAGAAATATCAGATTTAGAACCTAAATTAACAGTGCCTGTTGGAGCGATACTTCATGTAGGAGATTCATCTGTTCCAATGGCAGAAGTATTAGCTATCGATAAAGAAGACGGTGATCTCACTTCTAAAATTAAAGTTGATGGTGAAGTAGATACATCAAAAGCCGGTACTTACGTATTAACGTACACGGTTACAGATTCTAAAGGTCATGAAGTAACGGCGAAGCAAACTGTAACGGTCAAAGTTAGAGAAGAAATTAAAAATGAAAAACCAATACTAAAAGTACCTGCTACAACTTCGATTACTGAGGGTGATCAATTTGATCCGTTGATAGGAGTATCGGCTACTGACAAAGAAGACGGTGATCTTACTTCTAAAGTAGCGTATAAAGGAACTATAGATACAACTAAAGCTGGTATTTATGAAATAATATATAGTGTAAGAGATTCCGTGGGTAATGAGGTAAATACAATACAAAAAGTATTAGTGAAAGATAAAGAAACTAGCAAACCTAATGGTCTTGCTAATAAGACAAATAGCAATAGTATCTCAAATAACAGTAATACAGATAAAAAAGAATATACATATAAGGAGCTGCCAAAGACGGGTGTAAGTACAACTAACAGTGCAGCAATCGGCATATTGATGATTATTACAGGTACAGTACTCACTTTGATTCGCAAATTTAGAAAGATACAAAAATAA	MGNKKEIAIVALTTGFVLTSVTPYGLGHAEETGQMQVEIQEDSFRTGDLTQPSKKAPENVVKDALKENTEHALSPKQVSAETGVDYKVLQKRGSYDGTTLVRMQQIYEGKEVYGHQLIAHVDKKGIIKSISGDSAQNLTQEDLKKPINLSKEEAKQYIYKKYGNDTKFISEPEVKAVIFVDENHGQASNAYQVTFAATIPNYVSGTYLVNAHNGEMLKDMVQESSLKISEEYVQSVKENKTSNFTSLTGTGKDDLGVTRTFGISKQTSGNYALADYTRGQGIETYDVNYRDITNEESYYPGILATSVSTTFNDPKAVSAHFLATKVYDFYKEKYKRNSFDNKGNKVVSVVHAWDSGGTNDPENWENAFSTNINNISMLLYGDPMVKAFDIAGHEFTHAVTSSESNLEFSGESGAINEALSDIMGTAIEKYINNGEFNWTIGEQTGSIFRNMKNPTAINFSDGLPYPDDYSKYNDLNGEDYGGVHFNSSIINKVANLIAQGGTHNGVNVNGIGEDKMFDIFYYANTDELNMTSNFSELKLACLKVATNKYGTNSIEVQAVQNAFDAAKIIEKVKENEKTAENQAPELTVPFTITLRVGDTFDPMRNVKAVDKEDGDLTNKVKHKGDVNTSKPGTYIVEYLVVDSKGGNATAIQTVIVEGNGEISDLEPKLTVPVGAILHVGDSSVPMAEVLAIDKEDGDLTSKIKVDGEVDTSKAGTYVLTYTVTDSKGHEVTAKQTVTVKVREEIKNEKPILKVPATTSITEGDQFDPLIGVSATDKEDGDLTSKVAYKGTIDTTKAGIYEIIYSVRDSVGNEVNTIQKVLVKDKETSKPNGLANKTNSNSISNNSNTDKKEYTYKELPKTGVSTTNSAAIGILMIITGTVLTLIRKFRKIQK				NA	NA	NA	NA	NA
AK009_05596	375			hypothetical protein	ATGAATAATGGATTAAAGTTTAAGATTTTTGAATTGCATTGTCTTGTTCAAAAGACTTATTCTGATATTAAAATAGCGTGTGATATTGCTATTTATCAAGAAAACACTTCTAAATATTTAATTTCATTAGGATTTTTAAATAAATCATATATGACTTATATAGAAGCAAAAAGATTCTATCGCGAAAATGAAGAGCTTGTAAGTGTAGAATTTGATAATTTCTTTGATATGTATGATAAATTAGAAAACGAATTAAAACAAGTTATTTCAACTGAAGATAAAAATCCTTCATTGCTACATAGCAGACTTGATCAGTTTCAACAGAAAGTTGAAAATATAAATGACCTAATAAAAGTATTGCAAAATGCTCGTTAA	MNNGLKFKIFELHCLVQKTYSDIKIACDIAIYQENTSKYLISLGFLNKSYMTYIEAKRFYRENEELVSVEFDNFFDMYDKLENELKQVISTEDKNPSLLHSRLDQFQQKVENINDLIKVLQNAR				NA	NA	NA	NA	NA
AK009_05597	969	ypeA		Acetyltransferase YpeA	ATGAAGCTTTTAAAGATGGATTTTCCGATTATATTATTAAGAGCTGAAATTTATAATAGATGGAATATATTATATGGGTACATGTTGAGATTAATACAAGCAATTGGAGGGCAATTTTATATGATTCAATATAAAAGGTGTAGTGAAGTAAATATTGATTTAGTATATGAAGCTTTTAAAGATGGATTTTCCGATTATATTATTAAGATGGAAGTTTCAAAAGAGGGTTTTATACAACGTTTTTTTGGACCAGAAGGTAATTTGCTAGAACATTCTTTTCTTGCTTTAGACGGTGACAAATCAGTTGGCGTAATATTAGGTGGTATAAAGGATTATGAAAGTATAAAGACTATGCGCTGTGGAACATTAGCGGTTCATCCTAATTACCGCGGTATTGGTGTGAGTCAAAAATTATTTGAACTGCATAAAGAAGAGGCGGTTCAACATGGATGTAAGCAACTTTTTCTCGAAGTCATTGTAGGAAACGACCGAGCGATTCATTTTTATAATAAGTTGGGCTATGAAAAAGTGTACGATCTTTCTTATTATAATTTAAATGATTTGACTAAAATAATGAATAAAGATTGTAAGGATATTGAAGTAAAACAATTAGAATTTCCAACTTTTAAAGATGAAATTCAGAAATGGTTAAACTTCCATATAAATTGGCAAAATGATGTTGATTATATCGAAAAAACAAATAATGTATTTTATGGTGCATATGTCGATAATGACTTAAAAGGCTCTCTATGTGTAAATGAACAAGGTAAAATTAGTTTTATTTTCGTAGACAAAGTTTATAGAAATATTGGTGTTGGGATGAAATTATTAGAAGTAGCAAGAGAAGAATTAATTTTATCAAGTTTATCAATTGGGTTTCCTAACAATAATTTACTGGAGGGTTTTTTAAAGAAATGTGGATTTGAAAAGAATTCTTTAGCGCAATATGAAATGTATTTATTACTCTAA	MKLLKMDFPIILLRAEIYNRWNILYGYMLRLIQAIGGQFYMIQYKRCSEVNIDLVYEAFKDGFSDYIIKMEVSKEGFIQRFFGPEGNLLEHSFLALDGDKSVGVILGGIKDYESIKTMRCGTLAVHPNYRGIGVSQKLFELHKEEAVQHGCKQLFLEVIVGNDRAIHFYNKLGYEKVYDLSYYNLNDLTKIMNKDCKDIEVKQLEFPTFKDEIQKWLNFHINWQNDVDYIEKTNNVFYGAYVDNDLKGSLCVNEQGKISFIFVDKVYRNIGVGMKLLEVAREELILSSLSIGFPNNNLLEGFLKKCGFEKNSLAQYEMYLLL				NA	NA	NA	NA	NA
AK009_05598	93			hypothetical protein	ATGATTCAATATAAAAGGTGTAGTGAAGTAAATATTGATTTAGTATATGAAGCTTTTAAAGATGGATTTTCCGATTATATTATTAAGAGCTGA	MIQYKRCSEVNIDLVYEAFKDGFSDYIIKS				NA	NA	NA	NA	NA
AK009_05599	738	mtnN_4		5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGACAATAGGGGAAGTGAAGCGTGTAATGAAACGTATTGCAATTGTATCTGCATGGGAACCAGAACTGACGTATTTGCATCAACATTATCCGAGTGAACGTGTTGAAAAAAGAGCAGCTTGGGAATTTCATTTTCATACTATCAATGAGCTGGAAATTATATCAGTTGTAACTGGTGTCGGTAAAGTAAGCTGCGCTAGTTGTGTACAATTGTTAATTAGTGAGTTTCAGCCAGATGAGTTGTTTATGACAGGAATATGCGGAAGTTTATCAAACAAAGTGAAAAACGGTCATATTGTAGTAGCACTAAACGCAATACAACACGATGTTACTGCTGCTGGCTCAGGAGAAGATGTTTTTAATTTATATAACGGTAGAACAGCACCTATTGAAACAACAAAATCACTTGTAAGAAGAATAAAAAAAATACGATTGTATGATCCGATACATTTCGGTACATTTTTATCTGGAGATCAACGTATTCGTAGTTCAGAAATGAGATATTTACTTCATACTGTATACGGAGCATTGGCAGTTGATCAAGAAGTAGCAGCTTTCGCCTATGTGTGTCAAATAAATAAAAAACCATTTTTATGTTTAAAAGCTGCTTCAGATCAAGCAAATGATAAAACGAAAGAAGAACAAAAAATCTTTAAAATGCTAGCATGCGAAAGAGCATGTGAGCATTTAATTGCTTTTTTACGTGTTTATGAGATTAATGTAGTAAATAATAGATAG	MTIGEVKRVMKRIAIVSAWEPELTYLHQHYPSERVEKRAAWEFHFHTINELEIISVVTGVGKVSCASCVQLLISEFQPDELFMTGICGSLSNKVKNGHIVVALNAIQHDVTAAGSGEDVFNLYNGRTAPIETTKSLVRRIKKIRLYDPIHFGTFLSGDQRIRSSEMRYLLHTVYGALAVDQEVAAFAYVCQINKKPFLCLKAASDQANDKTKEEQKIFKMLACERACEHLIAFLRVYEINVVNNR	PGPT0014320_853	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
AK009_05600	210			hypothetical protein	TTGTATCCTCGATTTGGACGGAAAAAAGAAATTTCTTATCCAGATGTATTTCTCATAAATGCAACGAAAGATATTGTCATGTTTATGTATGATGATAGAGGATGTGAAGTAATTGCGAAGAATAAAGAAATAATACGAGATTTATATAAGAAATATAAAGAATGGATTCCAGATTATGAACGAGAAAGTATAGATAACTTATTTAAATGA	MYPRFGRKKEISYPDVFLINATKDIVMFMYDDRGCEVIAKNKEIIRDLYKKYKEWIPDYERESIDNLFK				NA	NA	NA	NA	NA
AK009_05601	456			hypothetical protein	ATGCAATTAAAAGAATATATGAATCAAACATTTCCAGGAGTTACATTAGTACCGTACTTATATTCTCAGTGGGGAAATCATTTGTATTTTGATTTTGGAAAAGATAAATATCAAATTGTAGAAGGAACCGACGATTTAAATATGGAATACTTTTCTCAGCTATATACATATAATAAATTCTTATTTGAAGACATATTTTCAAAAGAAGATGTAGTGTTTGTAGTGACAAATGTTTATAGATTTAAAAAGGAAAACACAAAAACTCCACAGAAAATAAATGTATACAATAAATATATTAAGAAAAGAGATTTAAGATTTCATATAAGACAAGAAACGTTACCGTTTCTATTTGAAGATGAAGAGGCAGATTTATCCCGCTATTTGCCGGGCAGTAAGACCCCCACCTCAAAATTCAGCGAAAGCAAAGAAGGTAGGTGGGGGGCGGGCTGCCCCTAA	MQLKEYMNQTFPGVTLVPYLYSQWGNHLYFDFGKDKYQIVEGTDDLNMEYFSQLYTYNKFLFEDIFSKEDVVFVVTNVYRFKKENTKTPQKINVYNKYIKKRDLRFHIRQETLPFLFEDEEADLSRYLPGSKTPTSKFSESKEGRWGAGCP				NA	NA	NA	NA	NA
AK009_05602	609			hypothetical protein	ATGTTATATAATGATATATATTCATTTGCTCCAACTGGAAAAATAGACAATGATATTAAAGATTTTCTACTAAAATATAATAAAGAGTTTACATATAAACATTCAATTCGTGTGGCAAATGAGGCAAAAAAGATTGCAGAAAAGTTTCACGTAGATAAAGAAAAAGCAGCAATTGCAGGATATTTACATGATATTAGTGGCATTTTTCCGAACGAGGAGCGGATTGCAGTTGCTGAAGAATTTGGGGTAGAAATAGAGGAAGCAGAAAGAAAGTTTCCTATGATTATTCATCAAAAACTATCGAGAGTAATCGCAAAAGAAATATTTAAAGTAGAAGATGAAGACGTATTAGATGCAATTTGTTGTCATACTACACTGCGTAAACACCCAACAAAGATGGATTTAGTTTTATTTGTTGCAGATAAAATAGAATGGGATCAAAAGGGGACACCACCATATTTAATAGAAATAAAAAAAGAATTGGAAAAATCTTTGGAAAAAGCTGCTTTTGTATATATTTCATATTTGTGGGAAAGGAAAGATACATTGAAAGTTATACATCCGTGGCTAGAAGAAGCATATTGGTATTTAAAAAGAATTGTACAGTAG	MLYNDIYSFAPTGKIDNDIKDFLLKYNKEFTYKHSIRVANEAKKIAEKFHVDKEKAAIAGYLHDISGIFPNEERIAVAEEFGVEIEEAERKFPMIIHQKLSRVIAKEIFKVEDEDVLDAICCHTTLRKHPTKMDLVLFVADKIEWDQKGTPPYLIEIKKELEKSLEKAAFVYISYLWERKDTLKVIHPWLEEAYWYLKRIVQ				NA	NA	NA	NA	NA
AK009_05603	696	phoP_4	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAATAAAAACATATTAATTATTGATGATGATAAAGAAATTGTTGAATTACTTGCTGTTTATTTGCGAAATGAAGGCTATAACATTTATAAAGCTTATGATGGCGATGAAGCATTGCAGAAGGTTTCTACATATGAAGTTGACCTTATGATTTTGGATATTATGATGCCAAAACGAAACGGATTAGAAGTTTGTCAGGAAGTACGTGAAAATAATACTGTACCAATTCTAATGCTTAGTGCAAAAGCAGAAGATATGGATAAAATATTAGGTCTTATGACAGGTGCCGATGATTATATGATCAAACCATTCAATCCATTAGAATTAGTAGCTAGAGTGAAAGCTTTATTACGAAGATCATCTTTCCAAAATGCTACTTCGCAAAAGAATGAAGATGGTATTATTCGTATTCGCTCTGTTGAAATACACAAACATAATCATACTGTTAAAGTAAATGGAGAGTATATTAAACTAACCTCTATTGAATTCGATATTTTATATTTACTTGCGAGTAATACAGGAAGAGTATTTAGTTCAGAAGAAATTTTCGAACGCGTTTGGAATGAAGATGGTTATGGTTCAAATAAGACGGTAATGGTCCATATTAGCAACTTACGGGATAAACTTGAAACGGTAATGAATGGAGAAAAATTTATTCACACTGTTTGGGGAGTTGGCTATAAAATTGAGAAATGA	MNKNILIIDDDKEIVELLAVYLRNEGYNIYKAYDGDEALQKVSTYEVDLMILDIMMPKRNGLEVCQEVRENNTVPILMLSAKAEDMDKILGLMTGADDYMIKPFNPLELVARVKALLRRSSFQNATSQKNEDGIIRIRSVEIHKHNHTVKVNGEYIKLTSIEFDILYLLASNTGRVFSSEEIFERVWNEDGYGSNKTVMVHISNLRDKLETVMNGEKFIHTVWGVGYKIEK	PGPT0028485_111	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
AK009_05604	1203	sasA_21		Adaptive-response sensory-kinase SasA	ATGGAGAAAAATTTATTCACACTGTTTGGGGAGTTGGCTATAAAATTGAGAAATGAAGCATTTGATATATTAAAAGATATCCCTAAATGGAAACTTATTTTTTGGCTCTTACTAGCTATCACACTCACTCCTATTACTGAATTAATTATTTATCGCCTCGTTACGAGTGTAATTGAAAGTTCACTTACTCTAACCGAGCTCGGTAAAGAATTCATTCGAATTTTTGGTTATGAAAAGTATAAAGGGGTTAAAGAATCTTTATGGATGATGATTGTTTCTTATTTGTTTTTATTTTCTATTTTTTCATCCTATCTTTACATTTTTTATCGTCACGAGAGAAAACTTTACTATGAAACTTGTATAAAAAAAATGATAGAAGAAATTCGTTACATTGCAAATGGAAACTTCAATCATAAAGTTTCTGTTGTAAATCATAATTATTTGGAAGAGTTAGCAATCGGGGTCAATGAAATTGTTGAACAATTAAAAGTCTCAATTGATGAAGAAAGACAAGCGGAACAAGCAAAGAGTGAACTTATTACAAATGTATCACATGATTTACGTACTCCCCTTACTTCTATAGTTGGATACGTAAATTTAATTCATCATGATAATTATAGAGATGAAGTGGAATTGCGATACTATATTCAAGTCATTTATGATAAAGTAACTCGTCTTAATGCATTAATGAATGACTTGTTCGAATATACACGTGTTCAAAATAAAGAGTTAAGCTTGTATTCTGTCCCCATTGATATTGTAGAGTTACTTGGACAATTAACTGTTCAATTCCGAATACAGGTTCAAGAAGCTAATATAGAATGTAGACCTTCTTTCCCATCTCAAAAGCTCATGGTATTAGCTGATGGTGACAAATTAGTGCGTGTGTTTGAAAATCTTATTATAAACGCTATCGCTTATGGAAGCGAAGGTCGCTATATTGACCTTACTGCTTATGAAAGCAATAATATGATTACAATTGATATAACAAATTACGGACAACCTATTCCTAGTACGGATTTACCTCATATTTTTGAACGTTTTTATCGCGTTGAAAAATCGCGCTCTACAAACACTGGTGGATCTGGACTTGGATTAGCAATTGCAAAAAGTATAGTCGAATTGCATAAAGGAACAATTGAAGTATATAGTGATGACGAAAAAACAACTTTCACTGTAAAACTACTCCCCTACAAAGGTTAA	MEKNLFTLFGELAIKLRNEAFDILKDIPKWKLIFWLLLAITLTPITELIIYRLVTSVIESSLTLTELGKEFIRIFGYEKYKGVKESLWMMIVSYLFLFSIFSSYLYIFYRHERKLYYETCIKKMIEEIRYIANGNFNHKVSVVNHNYLEELAIGVNEIVEQLKVSIDEERQAEQAKSELITNVSHDLRTPLTSIVGYVNLIHHDNYRDEVELRYYIQVIYDKVTRLNALMNDLFEYTRVQNKELSLYSVPIDIVELLGQLTVQFRIQVQEANIECRPSFPSQKLMVLADGDKLVRVFENLIINAIAYGSEGRYIDLTAYESNNMITIDITNYGQPIPSTDLPHIFERFYRVEKSRSTNTGGSGLGLAIAKSIVELHKGTIEVYSDDEKTTFTVKLLPYKG				NA	NA	NA	NA	NA
AK009_05605	1017			hypothetical protein	ATGCAATTCTTAAAAAAATTCGCTATTTTATTATTATCTTTTTTCATTACTGCACTTATCGTTTTATATTTTTACCTTTATGTAAATGGTCCGATTATTCAAGCTAAATCAGCTATCTTAATAAATGCTAATTCAGGTGAAATTGTTTATAAAAAAAATGAAGAAACTCCAGTACAATCAGCTGCTTTATCTAAATTAATGACAGAATATATCGTATTGGAGCAACTAAATGATAGAAAAATACAGTTAGATGACTTCGTACAAATAAGTAACGAAGTTTTCCGAGTAGAAACAAGCCCTATACAAGTAACATCGAATGATAAAACAACGGTTCGTGATTTACTTCATGCATTGCTACTGGCAGGGAATAATCGTTCTGCACTCGCTCTTGCAGAACACATTGCTGGAAATGAAGATAACTTTACAGTATTAATGAATAAAAAAGCAAAAGAACTAAAGTTATTACAACCATCTCCATTTCTAAACTCTACTGGAATTAATAATGATACAAATAAACAATCAACTACAACAGCAATAGACGTAGCTAAATTAGCAGCACGATTAATAAAAGATTTTCCAGATGTATTGAATATTACGAAACTAACCTCTTACCAATTTTCCTTCAAAGATTCCCAGGTTTTCAATACGAATAAAATGATATATTCCCTTAATGAAAACATTAAACTTCAAGGTGTTGATGGCTTACAAACTAGTTTTTCAACTAATGGTAATTATAGTTTTGTCAGTACAGCAAAACTTGAAGATACTAGACTAATTTCAGTAATATTAGATGCAGATGAAGAAAACATTTCATTTATTGAAACAAAAAAGTTGCTACAGTATGGTTTTGATCCTTCCTCGTACTCTGCACTCCAAGCTTTTAAAGACACCCTTACATCGTGGACAATATTGCTTCAGTTTAAAAATTTAATTATACAAACTATAATGATTTTTTTAATCATTACCACCTTAATGTTTTTACATATACGTCAGAAAAAATCCGAGGATTTCAATTAA	MQFLKKFAILLLSFFITALIVLYFYLYVNGPIIQAKSAILINANSGEIVYKKNEETPVQSAALSKLMTEYIVLEQLNDRKIQLDDFVQISNEVFRVETSPIQVTSNDKTTVRDLLHALLLAGNNRSALALAEHIAGNEDNFTVLMNKKAKELKLLQPSPFLNSTGINNDTNKQSTTTAIDVAKLAARLIKDFPDVLNITKLTSYQFSFKDSQVFNTNKMIYSLNENIKLQGVDGLQTSFSTNGNYSFVSTAKLEDTRLISVILDADEENISFIETKKLLQYGFDPSSYSALQAFKDTLTSWTILLQFKNLIIQTIMIFLIITTLMFLHIRQKKSEDFN	PGPT0024040_5580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_05606	138			hypothetical protein	ATGGATAGTTGCGTTGTATTTGTAAACGGACAACCTTTTTTAGTTCTTTCAGTAGCTGGTATTGAAATTGCTAGATTAGAGATTTCCCTTCAAGTAGCATTAGCTCTAAGAGTGCTTGGGATACCAATCTGTGATTAA	MDSCVVFVNGQPFLVLSVAGIEIARLEISLQVALALRVLGIPICD				NA	NA	NA	NA	NA
AK009_05607	609			hypothetical protein	ATGACAGAAATTAAAGTAGGGCTTACACAATTTTTAGACTTCACACTGAAAGGTAGTACAGCTAAAACAAACTTTATAAAAAATCTAAAATCCCAACCTGAATATCAACCAGCTTTTGATTACTGGAAACAATTACGAGAAACTGTTATTAAATTTCATCAAAACAAACTACCTTTTGAATGTTTCGAAACATTAGTACAAACGGTTGATCAGAAAAAAAAACAAAACTACATTGATGTTATAAAGCAATACAAAAAATTCATTAAAAATAAAGACATCTCCTGGTTTGATCCAGGTAAATCACATTGGAAATCAGATGATTTAATCGTCCGTTCATCACCTGAACTTGGCTTATTCATTAATAATGAGCCACATCTTATCAAACTGTTTTTCAAAGGAAAAAAAGAGCGAATTGATAAATACAACATTAACTCGACACTTACACTATTAAATGAATCAACATTTTCAAATGAACGAAACGATGTGAATTATACGGTACTTAACATCCAAAAGAACAGAATGTATACGAATAACTCTATTAATAATAATCATTTAGTAGCGCTTAAATCAGAAGCTAACCAGTTTTGTTACATATGGAATAATCTGTAA	MTEIKVGLTQFLDFTLKGSTAKTNFIKNLKSQPEYQPAFDYWKQLRETVIKFHQNKLPFECFETLVQTVDQKKKQNYIDVIKQYKKFIKNKDISWFDPGKSHWKSDDLIVRSSPELGLFINNEPHLIKLFFKGKKERIDKYNINSTLTLLNESTFSNERNDVNYTVLNIQKNRMYTNNSINNNHLVALKSEANQFCYIWNNL				NA	NA	NA	NA	NA
AK009_05608	534		COG3385	IS4 family transposase ISBce8	ATGATGTATGAAAGGAGCATGGAAGTGATTAAACTAGAAAGCTTTAAGAAATCTGATTTTAAACAATTAATAAATTGGATTAACTCCGAAGAATTTCTAATACAATGGTCAGGAAATGCATTCACATTCCCTTTAGACGAACAGCAATTAGAGAAGTATATAGAAAGTGCAAATACACTCGCTTTCAAAGTGGTAGATGAAGTGACTTCAGACGTTATTGGTCATATTTCGCTTGGGCAAATAGATAATATTAATAAGTCCGCTAGAATTGGAAAAGTATTAGTTGGTAATACGAAGATGAGAGGACGTTCTATAGGAAAACATATGATGAAAGCAGTACTTCATATTGCTTTTGACGAATTAAAACTACATAGGGTAACTCTTGGTGTGTACGATTTTAATACATCGGCCATTTTCTGTTACGAAAAAATAGGGTTTGTAAAAGAAGGCTTATTAAGAGAGTCAAAAAGAGTAGGAGAAACGTATTGGAATTTATGGGAAATGAGTATGTTAGAATATGAATGGAAGAAGTAG	MMYERSMEVIKLESFKKSDFKQLINWINSEEFLIQWSGNAFTFPLDEQQLEKYIESANTLAFKVVDEVTSDVIGHISLGQIDNINKSARIGKVLVGNTKMRGRSIGKHMMKAVLHIAFDELKLHRVTLGVYDFNTSAIFCYEKIGFVKEGLLRESKRVGETYWNLWEMSMLEYEWKK				NA	NA	NA	NA	NA
AK009_05609	357			hypothetical protein	TTGGGTTCTCGATTTAATAATTGTAAAAAGAAGTGTACATGTAAACAAGATGATTGTTGGGAAGTATTCGAAGAGTGTAAAAAAGAACAGCATGAGAAATGTGATAATTCTTGTGTACAAGGAATTAGAGATGAACTTAAGAAATTAATTAATCGAACAGTTCAAATTAATACAGAGGGACGTACTTATGTAGGTACTGTTTCGTCTGTAAGTTGTGATCTAGTTAGGCTTGCGGCTATTCCTGGATCGGTTGGAGTAATTATTTCCATTTGTAAAATTGAAGCAATTTTCCCACCTGTTACAACGGTTACTGCTGACTTTGATTTTAATGGTATTGATGTAGCAAACAAAGCATAA	MGSRFNNCKKKCTCKQDDCWEVFEECKKEQHEKCDNSCVQGIRDELKKLINRTVQINTEGRTYVGTVSSVSCDLVRLAAIPGSVGVIISICKIEAIFPPVTTVTADFDFNGIDVANKA				NA	NA	NA	NA	NA
AK009_05610	372			hypothetical protein	ATGATTGCTGGAGTTCTCAGAAAAAGCATTGTTGTGATGATTGGTGGAAATCTAAAGAAAAGCATCATTGTGATGATGATTGGAGTTCTCAGAAAAAGCATTGTAATGATGATTGGTGGAAATCTAAAGAAAAGTGTCATCGTGACGATGATTGGTGGAAATCTAAAGAAAAGTGTCATCGTGATGATGATTGGGGTTCTAAACGAAATAAGTGTCGTTGTAAATGTTTCTTTATTTGTTGCCATTGTAAAAGAAAAAATTGGTAATTTTTTTAATGTCAACGTAAAGGAAAGAATATGGCTTTTGGAACCAATCGGGCTTTTCCGGAAAGTTAATCCCACACCTACTTCCTTACTTTCGCTGAATTTTTAG	MIAGVLRKSIVVMIGGNLKKSIIVMMIGVLRKSIVMMIGGNLKKSVIVTMIGGNLKKSVIVMMIGVLNEISVVVNVSLFVAIVKEKIGNFFNVNVKERIWLLEPIGLFRKVNPTPTSLLSLNF				NA	NA	NA	NA	NA
AK009_05611	1941	acsA_3	COG0365	Acetyl-coenzyme A synthetase	TTGAAACAAGCAGTTTGGTTTCCAACAGAAGAGTATAAGGAAAAAACACGTTTATATGGTTGGATGAAATCATTGGGATATGAAGACTATGAAACTTTTTATAATAAATCTATTGAGGAAACAGCTTGGTTTTGGGGAGAGGCAGAAAAAGCAGTAGGCTATCAATGGATGAAACCTTATACAGAAGTGTTAGATTTAGAAAATGGTACACCGTTTGCACAGTGGTATAATGGCGGAACATGTAACGTTGTAGAATCAGCTTTATCCCGCTGGCTTGCGGATGAAGAAACGAGAATACAGCCAGCACTTCAGTACGAAGGGGAAAATGGAACTTCAAAATCATTTACATATGAAGAGCTTGATAACTGGGTAAGCCGTGTTGCAAATGGTTTGAAACACGCGGGTATTGAGAAAGGTGACCGTGTAACAATTTATATGCCGATGATTCCAGAAACAGTTGTTGCGATGCTAGCTGTAATGAAAATCGGTGCAATTATTTCACCAATATTCTCAGGCTTTGCGTCTGATGCAGTCATGACACGTGTGCAAGCGGCAGGTTCAAAAATGATTATTACCGCAGATGGATTTTCACGCCGAGGAAAAATTGTTTCTTTAAAAGATGAAGTAGATAAAGCTTGTGAACATTGCCCAACTGTTGAAAAAGTGGTAATCGTTCGTCATGCAGGAAATGATTTTACACCACATAACTATGACTTTTCGTGGAGTACGCTAGAAAAAGAAAAACCATTCATACATGCCGAAGAAATGCAAAGTGATGATCCATTAATGCTCATTTATACATCAGGAACGACTGGTAAGCCGAAAGGAACAGTACACACGCATGCAGGATTTCCTTTGAAAGCAGCTTTTGATGCAGGATTTGGAATGAATATTAAACAAGGTGATCGTGTATTATGGGTAACTGATATGGGCTGGATGATGGGGCCATTTCTATTATTCGGTTCACTCATTAATGGAGCAACGATGGTTATGTACGAAGGTGTTCCAGACTTCCCAGAAGCAGACCGGTTATGGGAGACAGTTGATAAATATGAAATTACTCATCTAGGTATTTCACCAACGTTAATACGAGCATTAATGGCGAAAGGTGATAAGTATGTCAATAAACATTCTTTAAAGAGTTTGGAAGTATTTGCATCAACAGGAGAACCTTGGAATCCTGATCCATGGATGTGGCTGTTTGAAACAGTTGGAAAAGGAAATGTACCAATCTGTAACTACTCAGGTGGAACTGAAATCTCTGGTGGGATTTTCGGTAATGTTCTTATTAAGCCAATAGCACCGATTAGTTTTAATGCATCTTTACCAGGAATGGCAGCTGTCGTACTGGATGATCAAGGTAAACCAATTCGAGATGAAGTCGGAGAATTATGCTTAGAGAAACCTTGGGTAGGTATGACGAAAAGCTTCTGGGAAGATGATGAACGTTACGTAAACACATATTGGTCGCGTTTTGAAAATAAATGGGTCCACGGTGACTGGGTCATTTATGATGGTGAACAATATATCATCACAGGGCGTTCAGACGATACGTTAAATATTGCAGGTAAACGTATTGGACCTGCTGAATATGAATCTATTCTTGTGAAACATAACGATGTAATCGAAGCTGCTGCAATTGGTGTACCTGATGAAGTAAAAGGTGAAGTTTGTCATTGTTTCGTAGTATTAAGAGACCATGTAACATTCACAGGAGAATTAAAGAAAGAATTAATGAGTTTAGTAAACTCTCATATTGGAAAAGCGTTGTGTCCTAAAGACATCCACGTTGTAGAAGATTTGCCGAAAACACGTAATTCTAAAGTGATGCGCCGTGTTATTAAAGCAGCTTATTTAGGAAAAGAATTAGGTGATTTGTCTTCACTTGTAAATCCTGAAGTAGTTCCGTTTATTCAGGGGTTACAGTCTAGTAAATTATAA	MKQAVWFPTEEYKEKTRLYGWMKSLGYEDYETFYNKSIEETAWFWGEAEKAVGYQWMKPYTEVLDLENGTPFAQWYNGGTCNVVESALSRWLADEETRIQPALQYEGENGTSKSFTYEELDNWVSRVANGLKHAGIEKGDRVTIYMPMIPETVVAMLAVMKIGAIISPIFSGFASDAVMTRVQAAGSKMIITADGFSRRGKIVSLKDEVDKACEHCPTVEKVVIVRHAGNDFTPHNYDFSWSTLEKEKPFIHAEEMQSDDPLMLIYTSGTTGKPKGTVHTHAGFPLKAAFDAGFGMNIKQGDRVLWVTDMGWMMGPFLLFGSLINGATMVMYEGVPDFPEADRLWETVDKYEITHLGISPTLIRALMAKGDKYVNKHSLKSLEVFASTGEPWNPDPWMWLFETVGKGNVPICNYSGGTEISGGIFGNVLIKPIAPISFNASLPGMAAVVLDDQGKPIRDEVGELCLEKPWVGMTKSFWEDDERYVNTYWSRFENKWVHGDWVIYDGEQYIITGRSDDTLNIAGKRIGPAEYESILVKHNDVIEAAAIGVPDEVKGEVCHCFVVLRDHVTFTGELKKELMSLVNSHIGKALCPKDIHVVEDLPKTRNSKVMRRVIKAAYLGKELGDLSSLVNPEVVPFIQGLQSSKL	PGPT0002265_4158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK009_05612	1542		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGTTAGACCAAAAACAACAATCTAATTCATTTGAAGAACGTGTTGAAACGATTAAACAAGGCGGGGCACCGAAATATCATGAACAAAATAAAGCAAAAGGAAAATTATTTGTTCGAGATCGTTTAGCGCTTCTATTTGATAATGGCGAATATGTAGAAGATGCATTATTTGCTAACTGTGAACAAACAGGCTTACCTGCGGACGGCGTTGTAACTGCAACGGGTAAAATACATGGTCGTACTGCGTGTGTAATGGCTAATGATTCTACTGTAAAAGCTGGATCATGGGGATCACGCACAGTTGAAAAGATTTTACGTATTCAAGAAACAGCTGAAAAATTACGTGTTCCGTTATTTTATTTAGTCGACTCTGCTGGAGCGCGTATTACAGATCAAGTAGAAATGTTCCCAGGGCGCCGCGGTGCAGGAAGAATCTTCTATAATCAAGTGAAATTATCAGGTAAAGTTCCTCAAGTATGTTTATTATTTGGACCTTCTGCTGCTGGTGGTGCATATATTCCAGCCTTTTGTGACGTTGTAATGATGGTAGAAGGAAATGCATCTATGTATTTAGGATCTCCTCGTATGGCTGAGATGGTTATCGGTGAGAAGGTAACTTTAGAAGAGATGGGCGGAGCTCGTATGCATTGCTCTGTATCAGGATGCGGAGATGTTTTATGTAAGACAGAAGAAGATGCGATTACACAAGCAAGACAATACATTTCATATTTTCCAAACAACTACTCAGAAAAGACTCCATTGGTTACACCTCAAGAACCGAAACAATTCGATAAAACGTTAGAACAAATCATTCCAGAAAATCAAAATGCTCCTTTCAATATGAAAGATCTCATTAATAGAGTTATTGATGAAGGTTCATTCTATGAAGTAAAAAAATTATTTGCTCAAGAGCTAATTACAGGCTTAGCACGTATTGATGGTAAGCCAGTTGGTATTATTGCAAATCAGCCGCGTATGAAGGGCGGTGTATTATTTCACGATTCAGCTGATAAAGCTGCTAAGTTTATTAATTTATGCGATGCATATCATATTCCATTATTATTCCTTGCGGATGTACCAGGATTTATGATTGGTACAAAAGTAGAGCGTGCTGGTATTATTCGCCACGGTGCAAAAATGATTTCTGCAATGAGTGAAGCAACTGTACCGAAGATTTCTATCGTTGTTCGTAAAGCATATGGCGCTGGTTTATATGCGATGGCAGGTCCAGCATTTGAACCAGATTGCTGCCTGGCATTACCGACAGCCTCTATTGCGGTAATGGGTCCAGAAGCTGCGGTTAATGCTGTATATGCAAATAAAATTGCAGCTTTACCAGAAGAAGAGCGCGCTAGCTTCATTGCTGAAAAACGTGAAGAGTATAAGAAAGATATTGATATATACCACTTAGCATCAGAGATGGTGATTGATGGTATTGTTCATCCAAACAATTTACGTGAAGAGTTAAAAGGACGTTTCGAAATGTATATGAGTAAATATCAATTATTCACGGATCGTAAACATCCTGTATATCCAGTTTAA	MLDQKQQSNSFEERVETIKQGGAPKYHEQNKAKGKLFVRDRLALLFDNGEYVEDALFANCEQTGLPADGVVTATGKIHGRTACVMANDSTVKAGSWGSRTVEKILRIQETAEKLRVPLFYLVDSAGARITDQVEMFPGRRGAGRIFYNQVKLSGKVPQVCLLFGPSAAGGAYIPAFCDVVMMVEGNASMYLGSPRMAEMVIGEKVTLEEMGGARMHCSVSGCGDVLCKTEEDAITQARQYISYFPNNYSEKTPLVTPQEPKQFDKTLEQIIPENQNAPFNMKDLINRVIDEGSFYEVKKLFAQELITGLARIDGKPVGIIANQPRMKGGVLFHDSADKAAKFINLCDAYHIPLLFLADVPGFMIGTKVERAGIIRHGAKMISAMSEATVPKISIVVRKAYGAGLYAMAGPAFEPDCCLALPTASIAVMGPEAAVNAVYANKIAALPEEERASFIAEKREEYKKDIDIYHLASEMVIDGIVHPNNLREELKGRFEMYMSKYQLFTDRKHPVYPV	PGPT0002300_457	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002300-mmdA-K01604	NA	NA
AK009_05613	789	crt_2	COG1024	Short-chain-enoyl-CoA hydratase	ATGCTACAATTACAAAACATTTCCGTTGATTACGTAACACCTCACGTAGTAAAGATTTCGTTAAATCGTGCGAGACAAGCAAACTCATTATCTTTGGCATTATTAGATGAATTACAAACTATATTAACTCAAATAAGTGAAGATTCAAGCGCACGTGTAGTTATTTTGACTGGTGCTGGTGAAAAAGCATTTTGTGCTGGTGCAGATTTAAAAGAGCGTGCCGATATGAATGAAGAACAAGTTCGTCATGCTGTTAGTATGATTCGCACTACTATGGAGATGGTTGAACAATTACCACAGCCAGTTATTGCTGCTATAAATGGAATCGCACTTGGTGGTGGTACGGAATTAAGTTTAGCTTGTGATTTTAGAATTGCTGCTGAATCTGCAAGTCTTGGTCTTACTGAAACGACACTTGCAATTATACCAGGAGCAGGTGGTACACAGCGCTTACCAAGATTAATTGGAGTTGGTAGAGCGAAAGAATTAATTTATACAGGTAGACGTATTTCAGCGCAAGAAGCAAAAGAATATGGTTTAGTAGAATTTGTTGTACCAGCTAATTTACTTGAAGAGAAAGCGATTGAAATAGCAGAGAAAATTGCTAGTAATGGACCTATTGCTGTTCGATTAGCAAAAGAGGCAATTTCAAATGGTATTCAAGTTGATTTACATACCGGATTACAAATGGAAAAACAAGCGTATGAAGGTGTAATCCATACGAAAGATCGAATAGAAGGATTACAGGCATTCAAAGAAAAACGTAAACCGATGTATAAGGGGGAGTAA	MLQLQNISVDYVTPHVVKISLNRARQANSLSLALLDELQTILTQISEDSSARVVILTGAGEKAFCAGADLKERADMNEEQVRHAVSMIRTTMEMVEQLPQPVIAAINGIALGGGTELSLACDFRIAAESASLGLTETTLAIIPGAGGTQRLPRLIGVGRAKELIYTGRRISAQEAKEYGLVEFVVPANLLEEKAIEIAEKIASNGPIAVRLAKEAISNGIQVDLHTGLQMEKQAYEGVIHTKDRIEGLQAFKEKRKPMYKGE	PGPT0001860_4749	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
AK009_05614	912	yngG	COG0119	Hydroxymethylglutaryl-CoA lyase YngG	TTGAAACTACCTAATTTTGCTGTCATTAAAGAAGTCGGGCCACGTGATGGCTTACAAAATGAAAAAAAGATTGTTGGCACAAAAGATAAAGTAAAATGGATTCAACTACTTACAGAAGCAGGATTGTCGTATGTTGAAGTTTCCTCATTCGTTCACCCAAAATGGGTCCCTGCATTAGCAGATGCAAATGATGTATTTTCTGAGCTGAAAAGGGATCCAAATATTACATATGCTGCGCTTGTTCCGAATCAAAATGGTTTGGAACGAGCTTTTTTGCAAAATGTAGATGAGGTGAATGTTTTTTTATCAGCAAGTGAATCTCATAATAAAAGTAATATTAATAAATCGATTAAAGAAGCATTAGTTGTAATTGAAGATATAACAAAACAGGCATTATTCGAAGGGAAAAAGGTAAGAGGCTATGTTTCTACTGTATTTGGATGTCCTTATGAAGGGGATATAAGTGCTACAGCAGTTGACGAATTATGTAATCAACTGTTTTCATACGGCATTTATGAAGTTTCTCTTGGGGATACAATCGGTGTAGCGAATCCATTACAAGTAGAACAAGTATTAGAACACCTATTAAAGAAGTATGATGCTTCGCAGTTTGCAATGCATTTTCATAATACGTATGGAATGGCTCTAGCGAATGTAGTTAAATCATTAGAATACGGTATTACAACGTTTGATAGTTCTTGTGGTGGACTCGGGGGCTGCCCTTATGCACCAGGAGCATCAGGTAATGTTGCTACTGATGACCTAGTACATATGCTCCATAAATTAGGAGTCCAAACGAATATAGACGAAGAAAAGTTATTGAGAGCTAGTCAATTTATTCAAAGTAAGTTAAATATCCAATTACCGAGTCATGTGTATAGAGCGCTTCAACATAAAACGATAAGTAGGTGA	MKLPNFAVIKEVGPRDGLQNEKKIVGTKDKVKWIQLLTEAGLSYVEVSSFVHPKWVPALADANDVFSELKRDPNITYAALVPNQNGLERAFLQNVDEVNVFLSASESHNKSNINKSIKEALVVIEDITKQALFEGKKVRGYVSTVFGCPYEGDISATAVDELCNQLFSYGIYEVSLGDTIGVANPLQVEQVLEHLLKKYDASQFAMHFHNTYGMALANVVKSLEYGITTFDSSCGGLGGCPYAPGASGNVATDDLVHMLHKLGVQTNIDEEKLLRASQFIQSKLNIQLPSHVYRALQHKTISR	PGPT0008315_2295	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
AK009_05615	216	yngHB	COG0511	Biotin/lipoyl attachment protein	ATGATGACGAAAGTATACGCATCGATGGCAGGAAACGTTTGGAAGATTGTTGTAGGAGTAGGAGATACAGTAGAGGAAGAGCAGGATGTCGTCATTTTGGAATCTATGAAAATGGAAATTCCAATCATTTCAGAAGAAGCCGGCACAGTTATGAAAATTAATGTGCAAGAAGGCGATTTTGTAAATGAAGGAGATGTATTATTAGAAATTGAATAG	MMTKVYASMAGNVWKIVVGVGDTVEEEQDVVILESMKMEIPIISEEAGTVMKINVQEGDFVNEGDVLLEIE	PGPT0001700_4284	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
AK009_05616	1338	accA1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGTTTCAAAAAATATTAATTGCGAATCGCGGGGAAATTGCTGTTCGTATTATGAAAACTTGTCAAAAACTTGGCATACGCACTGTTGCTATTTATTCTGAAGCAGATGAAAATGCCCTTCATGTGAAGATGGCAAATGAAGCTTACTTAGTAGGTGGACCGCGTGTTCAAGAAAGTTATTTAAACCTTGAAAAAATTATTGAAATAGCTAAGAAGACAAATGCAGAAGCGATTCATCCAGGTTATGGTTTATTATCAGAGAATCCGTCTTTTCCGGTTCGTTGCAAAGAAGAAGGAATCGTATTTATCGGTCCTTCAGAAGAAATCATTACGAAGATGGGAAGTAAAATCGAATCACGTATCGCAATGCAAGCAGCAGATGTCCCAGTAGTCCCAGGTATTACTACAAATATTGAAACTGCTGAAGAAGCAATTGAAATTGCAAAACAAATTGGTTATCCATTAATGCTTAAGGCATCCGCAGGCGGCGGAGGCATTGGTATGCAGTTGATGGAAACTGAGCAAACGCTCACCAAAGCGTTTGAAAGTAATAAAACAAGAGCGCAAAACTTTTTTGGTAACGGAGAAATGTATTTAGAGCGATATATAGCAGACGCGCATCATATTGAAATTCAGCTTTTAGCAGATACACATGGTAACACAGTGTATTTATGGGAGCGTGAATGTTCGGTGCAGCGCCGAAATCAAAAAGTAATCGAAGAAGCACCTTCACCATTTTTAGATGAAGGTACACGAAAGGCAATGGGAGAAGTTGCTGTACAAGCTGCCAAAGCACTTGGCTATACAAATGCAGGTACAGTTGAGTTTCTTGTAGATGATCAGAAGAACTTCTATTTCTTAGAGATGAATACGAGATTACAAGTAGAGCATCCAGTGACAGAAGAAATTACGGGATTAGACCTTGTAGAACAGCAACTTCTTATCGCAAGTGGAGAGAAACTATCATTTACTCAGGATGGTGTAAAACGTAGTGGTCATGCCATTGAAGCTCGTATTTATGCAGAAGATCCGAAAACATTCTTCCCATCACCTGGGAAAATTACAAATTTAACATTACCGTCAAATGTACGGATCGATCACTTCTTAGAAAATCATGTAACGATTACACCTTTCTATGATCCAATGATTGCGAAAGTCATTGCACATGGCGAGACTCGTGAAGAAGCAATTTCGAAATTACATGATGCTCTAGAAGAATTAAAAGTAGAAGGTATTAAAACGAACACGCCAATGCTACTGCAAGTTTTGGAAGACGAAGTGTTCAAAGAGGGTATTTATACAACGGGTTTTGTAACGAAACAACTCGTTAAAAAATAA	MFQKILIANRGEIAVRIMKTCQKLGIRTVAIYSEADENALHVKMANEAYLVGGPRVQESYLNLEKIIEIAKKTNAEAIHPGYGLLSENPSFPVRCKEEGIVFIGPSEEIITKMGSKIESRIAMQAADVPVVPGITTNIETAEEAIEIAKQIGYPLMLKASAGGGGIGMQLMETEQTLTKAFESNKTRAQNFFGNGEMYLERYIADAHHIEIQLLADTHGNTVYLWERECSVQRRNQKVIEEAPSPFLDEGTRKAMGEVAVQAAKALGYTNAGTVEFLVDDQKNFYFLEMNTRLQVEHPVTEEITGLDLVEQQLLIASGEKLSFTQDGVKRSGHAIEARIYAEDPKTFFPSPGKITNLTLPSNVRIDHFLENHVTITPFYDPMIAKVIAHGETREEAISKLHDALEELKVEGIKTNTPMLLQVLEDEVFKEGIYTTGFVTKQLVKK	PGPT0001705_4374	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
AK009_05617	1146	bcd	COG1960	Acyl-CoA dehydrogenase, short-chain specific	ATGGAATTTACTCTAACTCGCGAAAAACAAATGATTAAAGAAATGGTACGTGACTTTGCTGAAAAGGAAATCGCACCGAAAGCTGTATATTATGACAAAACTGCAGAGTTTCCATATGAAACATTTCAAAAAATGGGCGAACTAGGATTACTAGGCATCCCATTCCCAGAAGAGTATGGAGGTTCAGGTGGCGATACGGTATCGTATGCGTTAGCAGTTGAAGAAATTGGTCGCGCTTGTGGTGGCACTGGTTTAAGCTATGCTGCAACAATTTCATTAGGTGCTTCTCCAATTTATTATTTCGGTACAGAAGAACAAAAACAAAAGTATTTAGTTCCAATGGCGTCAGGTAAAACATTAGGTGCCTTCGGATTAACGGAGCCGAATGCTGGATCTGATGCAGGTGGTACTCAAACGAAAGCGGTATTAGATGGCGATGAGTATGTAATCAGTGGTGAGAAGTGTTGGATTACAAACGCAGAGTATGCAAATACAATTATTGTAACCGCTGTCAATGGCGTTGAAGAGAATGGTAGAAAACGTATTTCTGCATTTATCGTGCCTACTACTAGTGAAGGATTAACGATTTCAAGTCCATACGATAAGATGGGTGTTCGTGCTTCTAATACTTGTGAAATCGTACTTGATGGTGTGCGTGTACCGAAAGAAAATATTCTTGGTGATGTAAATAAAGGTTTTAAACAATTTTTATATACACTTGATGGAGGGCGTATTTCAATCGCAGCATTGGCAGTTGGTATTGCGCAATCAGCCTTTGAACGTGCATTGCAATATGCGAAAGAACGTCAACAATTTGGAAAGTCAATCTCTAATTTCCAAGCGATTCAATTTAAATTAGCTGATATGGCGACTGAAGTAGAGCTAGCACGCAATTTAGTACATAAAGCAGCTTGGTTAAAAGATAACGATAAACCTTTCGGCAAAGAAGCGGCAATGGCAAAACTATTTGCATCGGAAGCAGCAAGCCGTATTGCGAATCAAGCAGTACAGATTCATGGTGGATATGGTTATATGCGTGAATATGAAGTTGAACGACATATTCGTGATGCGAAACTATTAGAAATTGGTGAAGGAACTTCTGAAATTCAACGTCTCGTAATTGCTAGACATTTAGGATGTAGATAA	MEFTLTREKQMIKEMVRDFAEKEIAPKAVYYDKTAEFPYETFQKMGELGLLGIPFPEEYGGSGGDTVSYALAVEEIGRACGGTGLSYAATISLGASPIYYFGTEEQKQKYLVPMASGKTLGAFGLTEPNAGSDAGGTQTKAVLDGDEYVISGEKCWITNAEYANTIIVTAVNGVEENGRKRISAFIVPTTSEGLTISSPYDKMGVRASNTCEIVLDGVRVPKENILGDVNKGFKQFLYTLDGGRISIAALAVGIAQSAFERALQYAKERQQFGKSISNFQAIQFKLADMATEVELARNLVHKAAWLKDNDKPFGKEAAMAKLFASEAASRIANQAVQIHGGYGYMREYEVERHIRDAKLLEIGEGTSEIQRLVIARHLGCR	PGPT0008385_8094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
AK009_05618	969			hypothetical protein	ATGCGACAATTTGCAAAACCTACAATCGTCGTAAGTAAATGTTTAGAATTTGATGCTTGTCGTTATAATGGAGAGATGATTCCAGATGTAACAATACGAAATTTGCAGCCATTTGTTACATTTATACCTGTTTGTCCAGAAGTCGAGATTGGATTGGGGACTCCTCGTGAAACGATACGAATTGTAGAAGAAAATGGTGAGAATAGACTTGTGCAACCGTCGACACGAGAAGATGTAACTGAAAAAATGGAGCAGTTTTCAAATGACTTTTTACAAACGATACCGGATGTGGATGGTTTTATTTTAAAGAATCGTTCACCAAGTTGTGGTACGCGTGATGTGAAAATTTATTCTGATTTTGAAAAAGCGCCAGCAAAGGGAAAAGGAGCTGGCTTATTTGGCGGAGCAGTAGTAAAAAAATTTTCGCATCTTCCTATTGAAGAGGAAGGTAGATTGTCGAATTTTATTATTAGAGAGCATTTCTTTACAAGGCTATTTACAATCGCATATTACAAAATGATTAAACACAATAAAAATATGAAAGAACTTGTATCGTTTCAGTCGGATAATAAATATTTATTTATGGCATATAATCAGGTGAAACAAAAGGAATTAGGTCGTATAATTGCAAATCAAAAAAATGAAAAGATTGAAGTGGTATTTGAAAACTATGAGAAGACTTTATATGAATTATTTATGCGTGCGCCCCGTTATACATCGAATGTAAATGTATGCGAGCACATTTTTGGATATTTTAAAACAAAGTTAAAAAAACAAGAAAAAGATCATTTTATAGAACTGTTACAAAAGTATGCAGAAAAGAAAATACCACTTAGTAGTTTACTTACAATTTTAAAATCATGGGCTATTCGATTTGATGAAAAGTATTTATTAAGACAAACATATTTCGAACCATATCCTGAAGCATTAGTAGAAATTTCTGATTCCGGAAAAGGTAGAGATTATTAA	MRQFAKPTIVVSKCLEFDACRYNGEMIPDVTIRNLQPFVTFIPVCPEVEIGLGTPRETIRIVEENGENRLVQPSTREDVTEKMEQFSNDFLQTIPDVDGFILKNRSPSCGTRDVKIYSDFEKAPAKGKGAGLFGGAVVKKFSHLPIEEEGRLSNFIIREHFFTRLFTIAYYKMIKHNKNMKELVSFQSDNKYLFMAYNQVKQKELGRIIANQKNEKIEVVFENYEKTLYELFMRAPRYTSNVNVCEHIFGYFKTKLKKQEKDHFIELLQKYAEKKIPLSSLLTILKSWAIRFDEKYLLRQTYFEPYPEALVEISDSGKGRDY				NA	NA	NA	NA	NA
AK009_05619	324			hypothetical protein	ATGATTAAGAAAGGAGGGATTGTTATGAAAAAGAAATTATCATCTATTTTAAGTGTTTTAACACTATCTATTATGTTTTTAGGTACATCTACGCAAGCTGAATACGATGGAAATAATATGAATAGAGTTAATAACACTGATATTTCAACTCGAGTAAATGACAATAACTTAGACAGAGTTAATAATGATGTAAGAACTCGAAATGTAAATACAACAAATGATTTAAATGATAATCGTGATAAAAATAATAATTGGGCTTGGCTTGGTTTATTAGGACTAGCAGGATTATTAGGTCTTAGAAGAAGAGACAAAGAAACACGCTGA	MIKKGGIVMKKKLSSILSVLTLSIMFLGTSTQAEYDGNNMNRVNNTDISTRVNDNNLDRVNNDVRTRNVNTTNDLNDNRDKNNNWAWLGLLGLAGLLGLRRRDKETR				NA	NA	NA	NA	NA
AK009_05621	654	betI_3		HTH-type transcriptional regulator BetI	ATGCAGAAGGATTGGCTGGAGGAATTAATAGCTGCAACTAATACGGATAAACGAAATGAACGTCAAATGCGAATATTAGAGGCGGCTGTTGATATGTTTGGAGAAAAAGGATACGCTTCAACTTCAACAAGTGAAATTGCAAAACGGGCTGGTGTAGCGGAAGGAACAATCTTCCGCTACTATAAGACGAAAAAAGATTTATTACTAGCGGTCGTAATGCCAACTTTAACTAAGTTCGCTGCACCATTTTTCGTACAAACCTTTGCAAAAGAAATATTTAAATCGGAGTATGAATCATACGAAGGACTTTTAAGGGTTGTAATTCATAATAGGTTTAAATTTGCTCAAAAACACTTTCCTATGATAAAAATATTAATTCAAGAGGTGCCATTCCAACCAGAAATGAAAAATGAAATACAGCAATTAGTAGAAACAGAATTGTTTTCACATTTCAAAAAGTTGATTGTGAAATTTCAAGAAGAAGGGGAAATTATTGAGATACCACCATCTTCCGTACTACGTCTTACTTTATCAGCTGTATTAGGTTTATTATTAACACGATTTTTATTATTGCCTGAAGAAAAATGGAATGATGAAGCGGAAATTGAAAATACGATTCAATTTATATTGTATGGATTAACTCCACGAATTTAA	MQKDWLEELIAATNTDKRNERQMRILEAAVDMFGEKGYASTSTSEIAKRAGVAEGTIFRYYKTKKDLLLAVVMPTLTKFAAPFFVQTFAKEIFKSEYESYEGLLRVVIHNRFKFAQKHFPMIKILIQEVPFQPEMKNEIQQLVETELFSHFKKLIVKFQEEGEIIEIPPSSVLRLTLSAVLGLLLTRFLLLPEEKWNDEAEIENTIQFILYGLTPRI				NA	NA	NA	NA	NA
AK009_05622	1020			hypothetical protein	ATGAGAGTTACTGGTGTAATTATACGTATTATTCGTCAATTTTTTCGAGATAAGCGTTCGTTAGCAATGATGTTTGGAGCACCGATGTTATTACTTTGGCTTTTGTCACTAGTGTTTACACAGAAAGACTATATACCGCAAATTGCTGTTGTTGATATGCCTGCTCAAATAGTAAAAATGATGAAAAATCAAGAAGCGTCAATTTATGAATACAGTAAGGAAAAGGCGATTTCTGAGTTGGAAAAACAAAAGGTAGATGCAGTATTTCGTATAGAGAATGGAAAAATGAAACTTCTGTTGGAAGGTAGTGATTCGTCAAAAAATCGTGCTGTACTTCAAGTATTGCAAAAAAGCACAGAGAAGAATGATGTATCGATTATGAAACCTGAAGTAAATTATTTACATGGCTCTAAAGACTTTACGATGTTTGATGGGCTTGGTCCTGTATTAATTGGTTTCTTTACATTTTTCTTTGTATTTATATTATCAGGTGTATCTTTCGTAAGAGAACGTTTAAGTGGTACGCTAGAAAGGTTATTATCCACCCCAGTAAGAAGATGGGAAATAGTCGCAGGTTATATTATTGGTTTTGGAATCTTTGCCTTTATACAATCCATTATTATCGTAAGCTTTTCCGTTTATATTTTAGATTTATACGTAGCTGGCTCCATATGGCTAACGCTACTTATTACATGTATGCTCTCTTTAACTGCACTAACATTAGGTACGTTTTTATCGGCATACGCAAATAATGAATTTCAAATGATTCAATTTATACCGCTTGTTATTGTGCCACAAATCTTCTTTTCTGGATTGTTTCCATTGGAATCTATGAACAAGTGGCTACAAATGTTAGGGAAAGTATTTCCACTCACATACGGCGCTGACGCAATGAGACAAGTGATGATTCGGAATCAAGGGTTTACAGAGATTGCATTAGATCTTACTGTATTATTACTTTTTTCAATATTATTTGCAGTAGGAAATGTATTTGCTTTAAAGAAACATCGCAAAATATAA	MRVTGVIIRIIRQFFRDKRSLAMMFGAPMLLLWLLSLVFTQKDYIPQIAVVDMPAQIVKMMKNQEASIYEYSKEKAISELEKQKVDAVFRIENGKMKLLLEGSDSSKNRAVLQVLQKSTEKNDVSIMKPEVNYLHGSKDFTMFDGLGPVLIGFFTFFFVFILSGVSFVRERLSGTLERLLSTPVRRWEIVAGYIIGFGIFAFIQSIIIVSFSVYILDLYVAGSIWLTLLITCMLSLTALTLGTFLSAYANNEFQMIQFIPLVIVPQIFFSGLFPLESMNKWLQMLGKVFPLTYGADAMRQVMIRNQGFTEIALDLTVLLLFSILFAVGNVFALKKHRKI	PGPT0006730_8309	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_05623	312	ybhF_2	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGAAAAAACGCTTATCATTAGCAATAGCACTCCTCCATGAACCAGAAATATTAATTTTAGATGAGCCTACAGTGGGGATAGATCCGCTTCTTAGGAAAACGATTTGGGAAAAATTTTATGATCTTAAAAAGAAAGGCACAACGATTATTGTAACGACGCACATTATGGATGAAGCTGAATTTTGTGAGCGTCTAGGATTAATTAGAGAAGGGAAACTAGTTGCGGTTGGAACAACTGAAGAATTGAAAAAACGCGTGTCATCTGGACGGATTGAAGATGTCTTTTTGCTGGAAGAGGTGGTGCCATCATGA	MKKRLSLAIALLHEPEILILDEPTVGIDPLLRKTIWEKFYDLKKKGTTIIVTTHIMDEAEFCERLGLIREGKLVAVGTTEELKKRVSSGRIEDVFLLEEVVPS	PGPT0006725_25104	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_05624	399	malK	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	GTGCAACAACCTTCAATTATTTTACGGACTGTATCAAAAAGTTTTGGGAAAAAAGAAGTGTTACACAATCTTTCATTGCAAGTTGAAAAAGCAGAGATTTTTGGTTTTGTTGGACCTTCTGGATCGGGGAAAACAACGCTCATTAAAATGATTGCAGGTATTAATGAGGCAACGAAAGGTGAAGTGCTTGTTAATAATACTAATATGCCTAATTTAAATGAAATGAAACGAATTGGTTATATGGCCCAGGCGGATGCATTATATGAAGAATTGTCAGCATATGAAAATGCAGATTTTATAGCAACGATGTATGGATTAAAGGGAAAAAGTAAAAAGACAAGAATTGCAGAGGTTTTTGAACTTGTACAATTGTCACAGTATATGAAAAAGCAAGTATAA	MQQPSIILRTVSKSFGKKEVLHNLSLQVEKAEIFGFVGPSGSGKTTLIKMIAGINEATKGEVLVNNTNMPNLNEMKRIGYMAQADALYEELSAYENADFIATMYGLKGKSKKTRIAEVFELVQLSQYMKKQV	PGPT0006725_25296	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_05625	252			hypothetical protein	ATGCATAAAGAATATGAAATTGAAGAATACACGGCGATTGAGGAACAAATACATTATTATTGTAAATGTTTATTAGTAAGTCATCCTGATCAAATAATAAAATATTTAGAAAAAAGGTTAGAAAAATATGCAGAAACATTACAATATGCCCATTTATATCCTGACACAGTTATTTTACCGTTACAGCAATTAGTTATTGAATATTCTTTAGACGTTGCTAGAATTCGGAAGTATATGAATTTAAAAACGTAA	MHKEYEIEEYTAIEEQIHYYCKCLLVSHPDQIIKYLEKRLEKYAETLQYAHLYPDTVILPLQQLVIEYSLDVARIRKYMNLKT				NA	NA	NA	NA	NA
AK009_05626	843	ypbG_2	COG1408	putative protein YpbG	ATGAAAAAAAAGATTAATAGAATCGTAATGATTATTTGTATATTAGTAGGTTTTACAATCTTTTTATATTTACAGAACAATTTAATAAGTATAACTGAGGTTAAAATAACCTCTAGTAAAATACCATCCTCTTTTAAAGGGTATAAAATTCTACAAATTTCAGACTTACACAATAAAAAATTTGGCGATAATCAAGATGTGTTAATTCAAAAAATAAAAAGTATAGACCCAGATATTATTGCGATTACGGGTGATTTAATTGACAGTAAATCATACGATGCAGAAGTTAGTATGCAATTAATACGAGAAATTGTAAAGAAGTATCCTGTATATTTTGTGACAGGAAACCATGAACAATGGTCTGGAAAGTATAACAATTTAGAAAAAGAGTTGAAGAAATATGATGTCAATGTTTTAAGGAATGAACATGTAGGCATTCGAAAGGGTGAGCAAGAAATAAATTTGCTAGGTATTGATGATCCAGAGTTTGTTACTGGAAACCGTGATGAAGGAAATATTATAATAGATGAAATTAAAAAAGCGAAAATTGAAATGCAGCCAGATAAATATAATGTATTATTATCCCATCGGCCTGAATTTATAAAGGAATATACGAATGAGAGGTTGCATTTGGTTTTATCGGGACATGCTCATGGAGGGCAAGTTAGATTGCCATTTATCGGTGGATTAGTTGCGCCAAATCAAGGTGTTTTACCTAAATATACAGCAGGTTTATATGTAGAACAAAATACATCAATGGTAGTGAGTAGAGGATTAGGAAATAGTATCATTCCGCAAAGAATTTTGAATAGGCCAGAGATTGTAGTCGTGCAGCTAAATTAA	MKKKINRIVMIICILVGFTIFLYLQNNLISITEVKITSSKIPSSFKGYKILQISDLHNKKFGDNQDVLIQKIKSIDPDIIAITGDLIDSKSYDAEVSMQLIREIVKKYPVYFVTGNHEQWSGKYNNLEKELKKYDVNVLRNEHVGIRKGEQEINLLGIDDPEFVTGNRDEGNIIIDEIKKAKIEMQPDKYNVLLSHRPEFIKEYTNERLHLVLSGHAHGGQVRLPFIGGLVAPNQGVLPKYTAGLYVEQNTSMVVSRGLGNSIIPQRILNRPEIVVVQLN	PGPT0022365_3545	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_05627	927	penPC		Beta-lactamase 1	ATGATTTTGAAAAATAAGAGGATGCTAAAAATAGGAATATGCGTTGGTATATTAGGTTTAAGTATTACAAGCCTAGAAGCTTTTACAGGAGGGGCACTGCAAGTTGAAGCGAAAGAAAAGACTGGACAAGTGAAACATAAAAATCAGGCGACGCATAAAGAGTTCTCTCAACTTGAGAAAAAATTTGATGCTCGATTAGGTGTATATGCGATTGATACTGGTACAAATCAAACAATCTCTTATCGACCTAACGAAAGATTTGCCTTCGCATCAACCTACAAGGCTTTAGCTGCAGGAGTATTACTACAGCAAAACTCAATTGATACATTAAATGAAGTAATCACATTTACGAAAGAAGACTTAGTGGATTATTCACCTGTTACAGAGAAACATGTAGATACTGGAATGAAACTAGGAGAAATTGCTGAGGCTGCTGTTCGTTCAAGTGATAATACTGCAGGGAACATTTTATTTAATAAAATAGGCGGACCGAAAGGATATGAAAAAGCGCTTAGGCATATGGGGGATCGGATTACTATGTCTGATCGCTTTGAAACAGAATTAAACGAAGCTATTCCAGGAGACATTCGTGACACTAGTACAGCGAAAGCTATTGCTACGAATCTTAAAGCTTTTACGGTCGGAAATGCACTTCCAGCTGAAAAACGTAAAATTCTTACAGAGTGGATGAAAGGAAATGCTACAGGGGACAAACTTATTCGTGCAGGCGTACCAACTGACTGGGTAGTTGGAGATAAATCAGGTGCTGGTAGTTACGGGACAAGAAATGATATTGCTATCGTTTGGCCTCCAAATAGAGCACCAATTATCATCGCAATTTTATCTAGTAAAGATGAGAAAGAGGCTACCTATGATAATCAACTCATTGCAGAGGCAACTGAAGTTATAGTTAAGGCTCTTAGGTAA	MILKNKRMLKIGICVGILGLSITSLEAFTGGALQVEAKEKTGQVKHKNQATHKEFSQLEKKFDARLGVYAIDTGTNQTISYRPNERFAFASTYKALAAGVLLQQNSIDTLNEVITFTKEDLVDYSPVTEKHVDTGMKLGEIAEAAVRSSDNTAGNILFNKIGGPKGYEKALRHMGDRITMSDRFETELNEAIPGDIRDTSTAKAIATNLKAFTVGNALPAEKRKILTEWMKGNATGDKLIRAGVPTDWVVGDKSGAGSYGTRNDIAIVWPPNRAPIIIAILSSKDEKEATYDNQLIAEATEVIVKALR	PGPT0028070_1197	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
AK009_05628	2133	pbpH_3	COG0768	Penicillin-binding protein H	ATGAAAGAACAAAAAGGCAAGAAGCAGAAGACATATATATCTATTCGATTAAATATAATGTTCCTTTGCATATTTGTACTATTCTCAGCTATTATTATGCAGCTAGGAAAGGTACAAATCGTTGAGGGAGAGGCTTATAAGAACCAAGTGGAAAGTAGTCAAAATGCAATAACTAGTATTCCAGTTCCACGTGGACAAATTTTAGATCGAGAAGGGAAAACAGTTGTTAATAATAAATCTCTTCGCACAATTACGTATACAAGGGTGAAGGGAATTACGAGTGAAGATATTTTAAAAACAGCAAAAGACTTGGCGAAAGTACTTGAAATGCCTGAACAAGATATAAATAAATTAACAGATATCGATAAAAAAGATTTTTGGATGCAGTTGAATTCGAAACGTGCGGAGACAAAGATTACTAAGAAAGATATAGAAAAGTTTAAAGAAAAGGGTATAGAGGGAAAAGAGTTAGATAAAAAAATAGAAGACTTAAGACGAGGTCGTGTTACAGAGGTAGAATTAGCAGAATTAACAGCACAAGATTTAAAGGTGTTAGCTATTAAAAGTAAAATGAGTTCAGGTTATCAACTAACACCACAAATCATTAAAAAAGATGTAACAGATGAAGAGTATGCGCGGATAAGCGAAAATCTTGCGAATTTTCCAGGAGTAGATGCAACTGTTGATTGGGAACGTAATTATGTAAACGGTAATTTATTTCGTTCTGTATTAGGAAATATTACGAGTAGTGAAGAAGGATTACCGAAAGAAAATTTAGATTCTTATTTAGTACGTGGATATAACCGTAATGATCGTGTTGGAAAAAGTTATATTGAACAACGATATGAAGATGTATTACACGGCACAAAAGAAGAAGTGAAAAATATTACTGATAAATCAGGAAACATTGTTAGCACAGAAATAATCTCTAAAGGAAAAAGTGGTAATAGTTTAACATTAACGATTGATATGGAATTACAAAAGAAAGTGGAAGAAAGTATAGAGAAAAACTTGAGAGCTTTTAAGAGTTCAGAGCCACTGCTCGATCGAGCTTTTGTTGTCATGACTAATCCAAATAACGGACAAATTTTATCAATGGCAGGCAAAAAGATTGTAGAAAAAGAAGGGAAAATAGAAGTTGAGGATTTGGCATTAGGAAACATGACAACTTCGTATGAGCTAGGGTCAGCTGTAAAAGGTGCTACTTTATTAACTGGATATGAGACAGGCGCAATACATCCAGGAGATCAATTTTATGACGCGCCGATGAAATTTAAAGGTACACAAGCTAAGAAATCGTGGAATGTATCCGGATTTGGTAATATTAATGATTTACGGGCTTTACAAGTATCTTCGAATGTATACATGTTCCAGACAGCTTTAAAAATTGCGGGAGTTAATTACGTACCAAATGGCTCATTGGATATTAAACAAGGAGCATTTGATACGATGCGCTATTATTTCAAGCAATTTGGTTTAGGTGTCCCAACAGGTATTGATTTACCAAATGAAATAATTGGACAAACGAGAAAAGTAGATAGTCAACCTGGGTTTTTACTAGATTTTTCTATCGGTCAGTATGATACGTATACGCCGTTGCAATTAGCGCAATATATTTCAACGATTGCGAATGGTGGTTATAGAATGCAACCTCAAATTGTACAAGAAATACGAGAACAATCAATAAAAGAAGAGGTTGGCAAAGTTATACGTTCCATAGAGCCTGTCGTATTAAATCGAATTGATATGAAGAAAGAACATATTGATCGGATAAAAGAAGGGTTTAGATGGGTATTCCAAGAAGGTGATGGAACTGGCGTGAAATATTTCAAAAACGCGCCATATAAACCAGCAGGAAAGACAGGAACAGCCCAAACTGTATATGGTGGAGATGACCCGATTGGTAGAAATGCAAAAGGAGAACGTATGGAATGTTACAACTTAACGTTAGTTGGATATGCTCCATATGATAATCCAGAAGTAGCATTTTCCGTAGTAGTTCCATGGCTTCATGATGATAAAAATGGAATTAATTCTATAATCGGAAAGGAAGTATTAGATGTATACTTTGATTTAAAACAGCAACGCATACATGGTGAAGCTACTAGTACAGGTAGTTCTAAGCAAAATTAG	MKEQKGKKQKTYISIRLNIMFLCIFVLFSAIIMQLGKVQIVEGEAYKNQVESSQNAITSIPVPRGQILDREGKTVVNNKSLRTITYTRVKGITSEDILKTAKDLAKVLEMPEQDINKLTDIDKKDFWMQLNSKRAETKITKKDIEKFKEKGIEGKELDKKIEDLRRGRVTEVELAELTAQDLKVLAIKSKMSSGYQLTPQIIKKDVTDEEYARISENLANFPGVDATVDWERNYVNGNLFRSVLGNITSSEEGLPKENLDSYLVRGYNRNDRVGKSYIEQRYEDVLHGTKEEVKNITDKSGNIVSTEIISKGKSGNSLTLTIDMELQKKVEESIEKNLRAFKSSEPLLDRAFVVMTNPNNGQILSMAGKKIVEKEGKIEVEDLALGNMTTSYELGSAVKGATLLTGYETGAIHPGDQFYDAPMKFKGTQAKKSWNVSGFGNINDLRALQVSSNVYMFQTALKIAGVNYVPNGSLDIKQGAFDTMRYYFKQFGLGVPTGIDLPNEIIGQTRKVDSQPGFLLDFSIGQYDTYTPLQLAQYISTIANGGYRMQPQIVQEIREQSIKEEVGKVIRSIEPVVLNRIDMKKEHIDRIKEGFRWVFQEGDGTGVKYFKNAPYKPAGKTGTAQTVYGGDDPIGRNAKGERMECYNLTLVGYAPYDNPEVAFSVVVPWLHDDKNGINSIIGKEVLDVYFDLKQQRIHGEATSTGSSKQN	PGPT0023930_196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK009_05629	1008	yfhA_2	COG0609	putative siderophore transport system permease protein YfhA	ATGATGCAATCTATTCTAAGAAAACAACGTCTTATTATACTCGCTTTACTAATACTGACCATCACCACCATTGTAGTTGGAATGGGACTTGGTTCAGCATCTTTATCTTATGATCGACTACTCCCAACATTAATGGGACAAGGGACTTTTAAAGAGGAGTTTGTTTTATACTCTTTAAGACTACCTAGAATTGTGATTACATTATTAGCTGGTATGGCTCTCGCTTTATCAGGGGCTATATTCCAAGGAATTACTCGAAATGATTTAGCTGAACCTGGTATTCTCGGGATCAACTCTGGGGCCGGTGTTGCTGTTGCTATTTTCTTTTTATACTTTCCAATAGATGTAGGTTCATTTCTTTACTTACTACCAGTCGTTGGATTTATCGGGGCTTTTCTGACAGCTGTTCTAATTTACGTATTTTCATATAGTAAATCAACTGGGCTTCAGCCAATCCGACTAACATTAACCGGTATTGGTTTTTCATTTGCACTATCTGGAATGATGATTGTCCTTATTTCATCCGCTGATCGTATGAAAGTGGACTTTATCGCCAAGTGGATTGCCGGAAACATTTGGGGAGATGACTGGGTCTTCGTTTTAGCAATGCTCCCATGGTTAATCGTATTAATTCCGTTCGTTTTCTATAAAGCAAATCGATTAAACATTCTAGCATTAAACGAGCCAGTCGCAATCGGTGTTGGAATTGAAATTGAAAAAGAACGCAGATACTTATTAGTTGCAGCCGTTGCGCTTGCAGCTGCAGCTGTTTCCGTAACAGGAGGAATTAGCTTTATCGGACTAATGGCTCCTCATATCGCGAAATCTTTAGTAGGTCCAAGACATCAAATTTTCATGCCTATTGCCGTTTTAATCGGCGGATGGCTATTGCTATTAGCAGATACAATTGGCCGAAACATCGTTGAACCTAACGGCATCCCAGCAGGTATTGTCGTTGCTTTAATTGGGGCTCCTTACTTTATGTATTTGTTGCTTAAGAAAGCGTAA	MMQSILRKQRLIILALLILTITTIVVGMGLGSASLSYDRLLPTLMGQGTFKEEFVLYSLRLPRIVITLLAGMALALSGAIFQGITRNDLAEPGILGINSGAGVAVAIFFLYFPIDVGSFLYLLPVVGFIGAFLTAVLIYVFSYSKSTGLQPIRLTLTGIGFSFALSGMMIVLISSADRMKVDFIAKWIAGNIWGDDWVFVLAMLPWLIVLIPFVFYKANRLNILALNEPVAIGVGIEIEKERRYLLVAAVALAAAAVSVTGGISFIGLMAPHIAKSLVGPRHQIFMPIAVLIGGWLLLLADTIGRNIVEPNGIPAGIVVALIGAPYFMYLLLKKA	PGPT0003770_7671	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
AK009_05630	1041	feuB_3	COG0609	Iron-uptake system permease protein FeuB	ATGAACAGAAAAGATGTGAAACGAATGACAAAAGATCATGAAAATCCACGTTCTATAGCTTTTACATACAAACTAATTTTAAGCTTAATTGCATTCTTTCTTATTTTTATGGTTGCAATGGTATTAGGTGCTGCAGATACTTCGATAAAAGATGTATGGTTAGCACTCACTTCCTCCGCTAAAGGAGACAAAATATCTATTATTCGAGAAATACGTTTACCACGTGAAGTTGCTGCTATTTTTGTAGGAGCTGGATTAGCCGTTTCTGGAGCGATTATGCAAGGATTAACACGAAATCCACTTGCAGATCCTGGTTTATTAGGGCTATCTGGTGGAGCAAATGCTGCGCTTGCACTGACACTTGCTTTCAATCCTTCCATCAGCTATCTTTACTTAACATTAGCTTGCTTTATCGGTGCGGCAATTGGCGCAATCATGGTATTTGGAATTGGTATGGTGAAAAAAGGCGGCCTTTCTCCTCTTCGAATTGTATTAGCGGGCGCTGCAGTTTCCGCATTTCTACTCGCAATTTCAGAAGGAATCGGCATTTATTTTAAAATTTCACAAGATGTATCACTTTGGACTGCTGGGGGCGTAATTGGAACAACTTGGAGCCAATTAAAAATTATTATTCCAGTCATTTCAATTAGTATCTTTATCGCTATCTTACTAGCAAAAAAATTAACAGTTCTTAGTTTCAGTGAGGAAGTGGCTATTGGACTTGGTCAAAAAATTATTGTTATTAAAACTATTTTATTTATCATTATTATCTTACTTGCAGGTGCATCTGTAGCGCTTGTTGGAAATATGGCATTTATCGGTTTAATGGTACCTCACATGGTACGCCCAATTGTCGGTCCAGATTACCGATTTGTTATACCGATGTCAGCAATTGCTGGAGCTTCCTTTATGCTACTTGCAGATACAATCGGACGTACTATTAACGCTCCGTACGAAACACCAGTTGCGGCAATTGTCGCGATTGTAGGGTTACCATTCTTCCTATTCATTGTACGTAAAGGAGGAAAAACATTCTCATGA	MNRKDVKRMTKDHENPRSIAFTYKLILSLIAFFLIFMVAMVLGAADTSIKDVWLALTSSAKGDKISIIREIRLPREVAAIFVGAGLAVSGAIMQGLTRNPLADPGLLGLSGGANAALALTLAFNPSISYLYLTLACFIGAAIGAIMVFGIGMVKKGGLSPLRIVLAGAAVSAFLLAISEGIGIYFKISQDVSLWTAGGVIGTTWSQLKIIIPVISISIFIAILLAKKLTVLSFSEEVAIGLGQKIIVIKTILFIIIILLAGASVALVGNMAFIGLMVPHMVRPIVGPDYRFVIPMSAIAGASFMLLADTIGRTINAPYETPVAAIVAIVGLPFFLFIVRKGGKTFS	PGPT0003770_4309	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
AK009_05631	918	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	ATGAAAAAGTTATTTATTTCACTAACAGTTCTTTTCGTTCTTGTTATGAGTGCTTGTAGCAATGGCTCTACAGACAAAAAGAACGATGCAAAAGGTAGTAAATCAGAAACAATTACATACCAATCTGAAAATGGTAAAGTAGAAGTTCCTGCAAATCCAAAACGCGTTGTTGTATTATCATCATTCGCTGGTAACGTAATGTCATTAGATGTAAATCTTGTTGGGGTAGATTCATGGTCTAAACAAAACCCACGTTTTGATAGCAAACTTAAAGATGTTGCTGAAGTATCAGATGAAAATGTTGAAAAAATCGCTGAACTAAATCCAGATTTAATCATCGGTTTATCAAATATTAAAAATGTCGATAAGTTAAAGAAAATCGCTCCTACTGTAACATACACTTACGGAAAAGTTGATTACTTAACACAGCATTTAGAAATTGGTAAGTTATTAAACAAAGAAAAAGAAGCAAAAACTTGGGTTGATGACTTCAAGAAACGTGCACAAGAAGCTGGTAAAGAAATTAAAGCAAAAATCGGTGAAGATGCAACAGTTTCTGTTGTAGAAAACTTCAACAAACAGCTTTATGTATACGGCGAGAACTGGGGCCGCGGAACAGAAATCCTGTACCAAGAAATGAAATTAAAAATGCCTGAAAAAGTAAAAGAAAAAGCATTAAAAGAAGGTTACTACGCATTATCTACTGAGGTATTACCGGAATTTGCTGGTGATTACTTAATCGTAAGTAAAAATAAAGAGACTGATAACTCATTCCAAGAGACAGAATCATATAAAAACATCCCAGCAGTAAAAAATAATCGCGTATATGAAGCAAACATGATGGAATTCTATTTCAATGATCCACTTACATTAGATTTCCAACTAGACTTCTTCAAGAAGAACTTTCTTGGTAAATAA	MKKLFISLTVLFVLVMSACSNGSTDKKNDAKGSKSETITYQSENGKVEVPANPKRVVVLSSFAGNVMSLDVNLVGVDSWSKQNPRFDSKLKDVAEVSDENVEKIAELNPDLIIGLSNIKNVDKLKKIAPTVTYTYGKVDYLTQHLEIGKLLNKEKEAKTWVDDFKKRAQEAGKEIKAKIGEDATVSVVENFNKQLYVYGENWGRGTEILYQEMKLKMPEKVKEKALKEGYYALSTEVLPEFAGDYLIVSKNKETDNSFQETESYKNIPAVKNNRVYEANMMEFYFNDPLTLDFQLDFFKKNFLGK	PGPT0003765_9804	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
AK009_05632	1050		COG0492	Ferredoxin--NADP reductase	ATGAATCAAGAAGAATTGTTTGATGTAACTGTGATAGGCGGAGGACCTGCAGGGCTTTATTCAGCTTTTTATAGTGGACTCAGAGAGATGAAAACGAAAATAATAGAATTTCAACCACAGTTAGGTGGAAAAATACATGTTTATCCAGAGAAGATGATTTGGGATGTAGGAGGGCTGCTGCCAGTTACAGGTGATAAATTAATTGAACAACTTGTACAGCAAGGGCTAACATTTAAGCCAGAAGTGGTATTAAATACAAAAGTAGAATCGATTATTCGTAACGAAGATGGCACTTTTACGTTAAAAGCAAGCAATGGCGAAGAACATTTTTCAAAAACAGTTATCGTCGCAACTGGAAGTGGTATATTGAAACCTCAAAAGTTATCAATTGAAGGTGCTGAGCGATTTGAAGTATCTAATTTAAATTATACAGTGAAATCTTTAAAGCGTTTCAAAGGTAAGACGGTCATTATTTCCGGCGGAGGAAATTCTGCGGTTGATTGGGCAAATGAATTAGAACCAATTGCGAAAAAAGTGTATGTAACATATAGAAAAGAAGAATTATCTGGTCATGAAGCACAAGTAAAACAACTGCTGAACAGCTCGGCGGAGTGTTTCTTTAATACATCGATTACAAAACTCATTGCTGGTGATAATCATGAAGCGATCGAATATGTAGAATTGACAAATCATGAAACAGGTGAGGTTTCTCATTTACCTATTGATGAAGTTATTATTAATCATGGATATGAACGTGACATTACATTATTAGAAAATAGTGAGTTAGACGTTGCGATTATAGATAATTATTATATTGCAGGTAATGCAAATAGTGAGTCTTCAGTAGATGGATTATATGCTGCTGGAGATATTTTAAAGCACGAAGGGAAACTACACTTAATTGCAGGTGCATTCCAAGATGCTGGAAATGCTGTGAATAAAGCAAAGCAATTTATCCAACCAGATGCAAGTGAGTACGGAATGGTTTCTTCTCATAATGAAGTATTTAAGAAGAGAAATCGAGAACTGATTAAACAGATGATGAAATAA	MNQEELFDVTVIGGGPAGLYSAFYSGLREMKTKIIEFQPQLGGKIHVYPEKMIWDVGGLLPVTGDKLIEQLVQQGLTFKPEVVLNTKVESIIRNEDGTFTLKASNGEEHFSKTVIVATGSGILKPQKLSIEGAERFEVSNLNYTVKSLKRFKGKTVIISGGGNSAVDWANELEPIAKKVYVTYRKEELSGHEAQVKQLLNSSAECFFNTSITKLIAGDNHEAIEYVELTNHETGEVSHLPIDEVIINHGYERDITLLENSELDVAIIDNYYIAGNANSESSVDGLYAAGDILKHEGKLHLIAGAFQDAGNAVNKAKQFIQPDASEYGMVSSHNEVFKKRNRELIKQMMK				NA	NA	NA	NA	NA
AK009_05633	369			hypothetical protein	ATGGCTACTCGTCACATCATTACAATGTTAGAAAAAACACTACAAGTTGAAACAGAAAACACAATTTCTCATTTGAATGTATCTTTATCTGATCGTTTTCTTTCTCAAAGCACAGCAATACATGAAAACAATTGTTATCATACAATTGGTGAATGGTACAAAAATCATTTCTTATTCCAACAAGATGATTTCCTTTGGGCTAAATATGCTTTCTATGACGCATATTGTGAAGCCATCAAAAAACAAGGCCATCTTACAAAACGCGTCCGTCAAATATTAGAATCATTGGCTCGAAAACATGGAAAACAATATATTGCTTCTATACTAAATATGCCATTTCCTAATGAACGCGCTAAAGGGACAGCGTAA	MATRHIITMLEKTLQVETENTISHLNVSLSDRFLSQSTAIHENNCYHTIGEWYKNHFLFQQDDFLWAKYAFYDAYCEAIKKQGHLTKRVRQILESLARKHGKQYIASILNMPFPNERAKGTA				NA	NA	NA	NA	NA
AK009_05634	231			hypothetical protein	TTGTATATAACAGTAGAAGAGACTGCGGAGTATTTGAATTTACCGAAATCGTATATTGAAGAGTTAATTCAGCAAAAGAAAATTCGTGCGCTATTCGATGGAGAGCAATATTTAGTAAATAAAGAACAATTCAATACACATTTAGAACAAATGGAGAAATATAAGCAGTTAGTGGAAGAAATATTAAATGAACCAATTCCAGAAGATATGGATGTTAAAGACGAAGACTAA	MYITVEETAEYLNLPKSYIEELIQQKKIRALFDGEQYLVNKEQFNTHLEQMEKYKQLVEEILNEPIPEDMDVKDED	PGPT0017735_3734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017735-pgi-K01810	NA	NA
AK009_05635	525			hypothetical protein	GTGAGTTTATTTCATTGTGATTTTCTGAAAGACTTAATTGGATCTTTTGTGAGAGTAAACAGGGGTGGTCCAGAATCTCAAAAAGGAACAATAATATCAGTATGTCCGGACTACTTCGTATTGAAGAATGAAAAAGGTGAGCTTTATTACTATCAACTTAGCCATCTGAAAAGTATTACGAAAAATGCAAAAGACTGTGGATCAAGTGATTGTGATTGGGAAGATTGCGAATGTGCAGACGACTTTGAAGCACTACTTCTAAGCTTCAAATATTGCTGGGTGAAAATTAATCGCGGTGGTCCAGAGAAAGTGGAAGGCATTTTACAAGATGTTTCTTGTGACTTCGTTACATTAATTGTAAAAGAAGAAGTTATATTAATTGCAATAAAGCATATTAAAAGTGTTAACTATAATGCATTAGCATGCGGAGAGAGCGATGAGAGCGAAGATAGTAATAGTAAGGAAAGTAGTAGCGATAATTCAGGTCGAGCTCGCGCACAAAGACAGTCAAGTAGAGGAAGATAA	MSLFHCDFLKDLIGSFVRVNRGGPESQKGTIISVCPDYFVLKNEKGELYYYQLSHLKSITKNAKDCGSSDCDWEDCECADDFEALLLSFKYCWVKINRGGPEKVEGILQDVSCDFVTLIVKEEVILIAIKHIKSVNYNALACGESDESEDSNSKESSSDNSGRARAQRQSSRGR	PGPT0025140_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025140-cotB-K06325	NA	NA
AK009_05636	450			hypothetical protein	TTGGAAAGTATATTATGCTGTGAGCAAATTAAATGCTTAGTCGGTGAGACTGTAAAAGTAAATCTTCGTGGACCAGAGAGTCGAGTGGGGGTACTTGTATCGTTAGGGAGAGATTACCTTACATTACAACTTCCTCTTGGTGAATTAGTATATTACCAATTGAAACATGTGAAGAGTCTAGCTAAGAAAGTGAAAGAAAGTAAATGTGGCGATTCCTATGTTTCATGTTTCTGCTCTGATGATGATACTTTTGTCGATGTATTACGTGACTTGAAGTATAAGTGGGTAAAGATTAATCGTGGCGGTCCAGAATGTGTGGAAGGATTATTAAGTGAAGTGCATGAAGAATGTATTACACTAGTAAACTGCGATGAAGTCATTTATATCATTAATTATCATATTAAGAGTGTGAGTCAAGTAGTGAAATGTAAAAAGAATGAAGATGAATAA	MESILCCEQIKCLVGETVKVNLRGPESRVGVLVSLGRDYLTLQLPLGELVYYQLKHVKSLAKKVKESKCGDSYVSCFCSDDDTFVDVLRDLKYKWVKINRGGPECVEGLLSEVHEECITLVNCDEVIYIINYHIKSVSQVVKCKKNEDE	PGPT0025140_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025140-cotB-K06325	NA	NA
AK009_05637	669			hypothetical protein	ATGAATGAGTTGAATAAAAGTATTGGAGAAAATATATATGTTAAATTAATCGGTGAAAAAAGATTTAAAGGTGTATTAATTGATGTAGGAAATGATATCGTTGTTCTTTACAATGGACAAGATTACGTATATATATCTTTATATCATGTACAATACTATAAATTTTTAAGACCATATGACGAAGAAATATCAAAACCAGATGTTGATTCTGTAATTAAGAGGGAATCCCCTTCAATTTCTTTGAGAAAAGTATTAAGTACTTCTAAAGGTATTTTTACAGAAGTTTATGTAGCAGGAAATGCTCCAATACATGGTTATGTTACAAGTGTGATGAACGATTATATTGTTTTTTATAGTCCGGTTTATAAAACGGTATATATATCTTTAAAGCATTTAAAATGGTTAATTCCGTATAAAGAAAACCAAGTACCGTATGCCCTCAATAAAAATGAACTCCCCGTAAATCCGTTAAATATTACGTTAGCTAGAACGTTTGAAGAACAGCTTATTAAAATGACAGGGAAAATTATGGTGTTCGATTTAGGTGAGGAGTCCAATAAAATTGGAAAAATGGCGAAAATTGATGAAGGTCATATTGAAATATCAAAAGCACGTGATGCAAAAATGTATGTGAATATTCAACATGTAAAATCCGTCCATTGTCCGTAG	MNELNKSIGENIYVKLIGEKRFKGVLIDVGNDIVVLYNGQDYVYISLYHVQYYKFLRPYDEEISKPDVDSVIKRESPSISLRKVLSTSKGIFTEVYVAGNAPIHGYVTSVMNDYIVFYSPVYKTVYISLKHLKWLIPYKENQVPYALNKNELPVNPLNITLARTFEEQLIKMTGKIMVFDLGEESNKIGKMAKIDEGHIEISKARDAKMYVNIQHVKSVHCP				NA	NA	NA	NA	NA
AK009_05638	1266			hypothetical protein	GTGGAGCAGTTTCCGAATTCGTTATCAATTACATTGCTTGGTAGTGCTGGTGGAGCAGCAAAAGCAGTTTTAGCAATTTTAAATCAAGCGATAGCAAATGAAAAAGATCCAATTTATGAAGTATTAAAGAATGCCAAATTTCATTTGGTGGATATAAAACAAAAAGATAGGACTTATTATGATGAGTTGTTTTCGAATTTGAAAGGTCGCTTATATTTATATGAAATAAACCTTCAAAATGTAGTGGAATTTAAACAACATTTAAAAGAAAAAAGAACGAGTGTTGTGATTGATGTTTCAGGAGCAGATACAATTAGAGTATTAAGCTGCTGTAATGAACTAGGAATTTGTTATATTAATTCAGCCTTGGAAAATGAGGCCGTAGATCAGGACGATAGCTTAATCGGCTTTCAGCTTACGGAAAGATATACAAGGTTTGAGAAGGAGAAAGAGAAATTTACAAATACAAAAGCGATTATAGGTTCAGGTATGAATCCGGGTGTTGTTCAATGGATGGTTGTTGAACTTATGAAGGAACGACCAAATGAAAGGCCAAGAGCATGTTATATTGTAGAACATGACACGTCGTTTTTGAATGATACAGCGCTTATAAAGCCACATACACTTTATGCTTCATGGGCAGTAGAGCGATTTTTAGATGAAGCAATCTGGAGTTATCCGATGTATATGAGTCAACATCGCCCTCTTTACTTTTATGAAGATGTATATGCTTCAGAGTATAAAGTGAAGTTGGGAGAAAAAGAATTCTATGGTTGTTTAATGCCACATGAGGAAGTATTAATTTTAGGGAAAAACTTTAATATGGAAGTTGGTTTTCTTTACCGAATTAATGAGTATACAACAAATATAATTAGACATAATTTAGACAAAGTAGAAGATTTATGGAACTGGAATCGTAAAGTGTTTAATCCAGCGGAAGAAGAGGTTGCTGGAGAGGACTTGGTCGGTGTGTTACTCGTTTATGAAAATAGTGAGACATATATGTATAATGTGATGAATAGTAGCCAAGTTTTTCGTAAATATAAAACGAATGCAACGTATTTTCAGGTAGGGTGCGGGATTTATGCGGGCTTGTCCAGTTTACTTTTAGATCGATTTGAACAAGGTGCTTATTACGTCGAGGAGTTGTTATTAAATACAGAAAGTAAGTACGGTGAGTATTTAAATTTATATATGAAGGATTTTGTAATGGGGCATAATAATTTTACTGATGGATTGTTACATGACAGGGTAAGATGGGTGTAA	MEQFPNSLSITLLGSAGGAAKAVLAILNQAIANEKDPIYEVLKNAKFHLVDIKQKDRTYYDELFSNLKGRLYLYEINLQNVVEFKQHLKEKRTSVVIDVSGADTIRVLSCCNELGICYINSALENEAVDQDDSLIGFQLTERYTRFEKEKEKFTNTKAIIGSGMNPGVVQWMVVELMKERPNERPRACYIVEHDTSFLNDTALIKPHTLYASWAVERFLDEAIWSYPMYMSQHRPLYFYEDVYASEYKVKLGEKEFYGCLMPHEEVLILGKNFNMEVGFLYRINEYTTNIIRHNLDKVEDLWNWNRKVFNPAEEEVAGEDLVGVLLVYENSETYMYNVMNSSQVFRKYKTNATYFQVGCGIYAGLSSLLLDRFEQGAYYVEELLLNTESKYGEYLNLYMKDFVMGHNNFTDGLLHDRVRWV				NA	NA	NA	NA	NA
AK009_05639	1227	sasA_22		Adaptive-response sensory-kinase SasA	ATGAACAAATACAAGAGCTTGATTTATGAAGAAAGAAGAGCCTTAAAGGTATTTATATTATTATTCTATATTATATTCTTTTTATATGACGCTATATATTATTTTGTGTATCCGGCTATGAATATTAGTGGAACAGCGGTAGGTTGGCCAGAAGGTAGTCTTGGGATAGGTGTGCCTATATTTGTAATAGCAATATTTCCTATTTCTATATACCTTCAAAAAAGAGGGTATGTATATTCTGTAAAATATTTATTTTTATTTGGGTACATGTTTATCAATCTTGTTAATAATTTAATGATTTATTTGCGAACGGATAGACCTTTTGAACATGGTAGTATGGTAGAAATGTTATTAATTTTATTTGCCCCAGTTTTCGTGAATAGAAAATACTTTTATTTAGTTTCCTTTAGTGTAATTGGAAAGTACGTATTTTTCACATTGCTATTACAAGATTTAAAAGTGGTAATTCCACTTGTTTTATGTGTATTCTATTTCATTATTTCACATTCTTTATTAAAACGATTTCAATCTTATGTAAGAACAGTGGTTGAAATGATGAACAATATGAAAGAGACGGAAAATTTAGCTGTGATTGGAACTATGTCTACAACAATTGCCCATGAAATTCGAAATCCGTTAACAGCGTTAAAAGGGTTTACGCAAATGCAAAAAGAAAGAAATCCAGCTGATACGATGAGCTACGACATTATGTTACAAGAAATTGAAAGGGTTAATGGATTTGTTAGTGAATTGATGTTGTTAGGAAAACCAAAGCCAACAAATTATGAAAGGTGTAATATACGAGACATCCTTCTATATGTTGTGCATCTAATGGAAAGTTATGCAACGCAATATAGAGTTAAATGTCATTTACAAGTAGATGGGAATTTACCGGCTATAAACGGTGATGATAAGCAATTAAAACAAGTGTTATTAAATATCATTAAAAATGGAATAGAATCAATGCCAGAGGGTGGAGAAATTCATATCCGTGCATATCAAAAAACGCAAGGACATTTGTGTATTTCTGTTGAAGACCAAGGATTTGGTATAGAGAATGAAAAGTTGGAAAAAATCGGCAAGGCGTTTTACACAACAAAGGAGAATGGTACAGGACTTGGATTAATGATTACATATAAAATTATTAAGGAACATCAAGGGAGTATCACGATCCAAAGTAGTCTAGGAGTAGGAACGAAAGTCGAAATTTTTCTGCCGACCGTTTAA	MNKYKSLIYEERRALKVFILLFYIIFFLYDAIYYFVYPAMNISGTAVGWPEGSLGIGVPIFVIAIFPISIYLQKRGYVYSVKYLFLFGYMFINLVNNLMIYLRTDRPFEHGSMVEMLLILFAPVFVNRKYFYLVSFSVIGKYVFFTLLLQDLKVVIPLVLCVFYFIISHSLLKRFQSYVRTVVEMMNNMKETENLAVIGTMSTTIAHEIRNPLTALKGFTQMQKERNPADTMSYDIMLQEIERVNGFVSELMLLGKPKPTNYERCNIRDILLYVVHLMESYATQYRVKCHLQVDGNLPAINGDDKQLKQVLLNIIKNGIESMPEGGEIHIRAYQKTQGHLCISVEDQGFGIENEKLEKIGKAFYTTKENGTGLGLMITYKIIKEHQGSITIQSSLGVGTKVEIFLPTV				NA	NA	NA	NA	NA
AK009_05640	381			hypothetical protein	ATGGAATTAACATTAAATTCGACTGTATGTTTACACACGATTCAATTTCGAAAAGAGCAAAAGAATTATATTGTAAAAGATACAATTACAGGAGAAAAATATGAAATGCCGCCACTTTGGATTGATGCATTGGCAATGATGCGTGACGGTTTTTTATTGGGAGAAATTGAGGAGAAATTAAAAGAAGAGTATCCATCTGAAGAAGTGAATATGTTAGCATTCACGAGGCAACTGTTAGAACTAGAACTTGTTGAAATGGTAGATGGAGAAGAGATAGCTTGCACAAAGAAGAAAGAGATAGATTGTTTAGCTTGGGTGCGTCCCCGTGTGGAACAATTCTTTCTTAATTTAAATAGAAAATATAGAAGCAAAGACCAGTAG	MELTLNSTVCLHTIQFRKEQKNYIVKDTITGEKYEMPPLWIDALAMMRDGFLLGEIEEKLKEEYPSEEVNMLAFTRQLLELELVEMVDGEEIACTKKKEIDCLAWVRPRVEQFFLNLNRKYRSKDQ				NA	NA	NA	NA	NA
AK009_05641	633	kynB_2	COG1878	Kynurenine formamidase	ATGAAAGTAATTGATTTATCGCAAACATTTGAAAATAATATGTCTCAATTTCCTGGAACACCTAAAATACAACTAGAAGCTGTTACAAGTGTTGAAGAATCAGGCTATCAAGTTACAGATTTTCATTCTGTCGTTCATGTTGGCACGCATTGTGATGCTCCTGCGCATTTTATTTCAGGCGCAACGACCATCGATCAATTACCGCTGGATCAATTTGTAGGTGAAGCTGTTCTTATAGATGTAACACATATTCAAGAGCGAAAATTACCTAAGGCAGTATTGCATAATACTGACATAAAAGAAGGTGATATTGTTATTTTTCATTCTAATCTATCCACCAAATGGAATACAGAAGCTTATGAGAAAGAAGCATTTTATCTTTCTGAAGAATTAGCTGAAGAATTAGTTCAATTAAAAGTAAAATCTATCGGTTTAGATTTCATTTCTCCTGATGAAGTCACAACAGAAACATCACCGATTCATCACATATTACTAGGGAATAATATTTACTTAATTGAAAACTTAACAAATCTAGATGCTATCGAAACAAAACGTTTCTTTTTCTCAGCCGCACCTTTAAAAATTAAAAATAGTGACGGTGCTTTCGCAAGAGCATTTGCTGTTATATTTTAA	MKVIDLSQTFENNMSQFPGTPKIQLEAVTSVEESGYQVTDFHSVVHVGTHCDAPAHFISGATTIDQLPLDQFVGEAVLIDVTHIQERKLPKAVLHNTDIKEGDIVIFHSNLSTKWNTEAYEKEAFYLSEELAEELVQLKVKSIGLDFISPDEVTTETSPIHHILLGNNIYLIENLTNLDAIETKRFFFSAAPLKIKNSDGAFARAFAVIF				NA	NA	NA	NA	NA
AK009_05643	1110			hypothetical protein	GTGACAGGAAATGTATTAAATTATTATGCTGGTGGTAATACAGCTAGGGGATTTCACAATTTATACGAAGAGAATTTAAAAGGATTAGACAGATTATTTATCTTAAAGGGTGGCCCAGGAACGGGAAAATCTTCTTTAATAAAGGCAATAGGTCGCGAATGGATTGAAAAAGGATATGATATTGAATTGTTACATTGTTCTTCTGATAATAAATCGGTTGATGGTGTAATTATCCCAAAATTAAAAGTAGGAATTGTTGATGGGACATCGCCGCATGTTATTGAGCCAAAAATGCCAGGAGTTGTTGAAGAGTATATAAATTTAGGAATTGCTTGGGACTCAGATAAACTAAGAAAGCAGAAGTTAGAAATTGAAAGATTTGTTTCAGAAGCAAGCAAAGCTTTTCAGTCTGCTTACGCACGTTTTAAAGAGGCATTGGTTATACATGATGAGTGGGAGAAGATATATATTGATAATATAGATTTTAATAAAGCAAATGAACTAACCAATCAGCTAATCCAGAAATTATTTGCAGATAAAAGCGGGAGACAATCGCTTGTAAAACATCGTTTTTTAGGAGCTGCTACACCGAAAGGAGCAGTTGATTTTGTTCCTAATTTAACAGAAGGGTTACCACATCGTTATTTTATAAAAGGGCGCCCAGGCTCTGGAAAATCAACGATGCTCAAAAAGTTAGCTAAGGCAGCTGAGGAAAAAGGGTTTGAAGTTGAAGTATATCATTGCGGATTTGACCCGAATAGTCTTGATATGGTTATCGTAAGAGAATTAGGATTTGCAATTTTTGATAGCACCGCACCACATGAATATTTTCCAAGTCGCGAGGGTGATGAAATTATTGATATGTATGCCCTTATTGTTACGCCAGGGACGGATGAGAAATATGCGAAGGAAATTCGTGATGTCTCCATTCAATATAAAGCAAAAATGAATGAGGCGATGTCTTTCTTAGCGAAAGCAAAATCGGTTCGTGATAAATTAGAACGAATTTATATTGCTGCTATGGATTTTTCAATAGTAGATGCATATAAAGAGGAGATTCAAAAAGAGTTTGAACGAATTGCTGCTACTGTAATTGAAAAGCAACAATAG	MTGNVLNYYAGGNTARGFHNLYEENLKGLDRLFILKGGPGTGKSSLIKAIGREWIEKGYDIELLHCSSDNKSVDGVIIPKLKVGIVDGTSPHVIEPKMPGVVEEYINLGIAWDSDKLRKQKLEIERFVSEASKAFQSAYARFKEALVIHDEWEKIYIDNIDFNKANELTNQLIQKLFADKSGRQSLVKHRFLGAATPKGAVDFVPNLTEGLPHRYFIKGRPGSGKSTMLKKLAKAAEEKGFEVEVYHCGFDPNSLDMVIVRELGFAIFDSTAPHEYFPSREGDEIIDMYALIVTPGTDEKYAKEIRDVSIQYKAKMNEAMSFLAKAKSVRDKLERIYIAAMDFSIVDAYKEEIQKEFERIAATVIEKQQ				NA	NA	NA	NA	NA
AK009_05644	783			hypothetical protein	ATGAGAGAGAAAATCGAGTTGGAGTTAGAAAGAATTGAAAAAGAGAATGATGTGAAAATTTTATTTGCGGTGGAATCAGGGAGTCGTGCTTGGGGGTTTCCATCGAAAGATAGCGATTATGATGTTAGGTTTATTTATATACATCCAGTAGAATGGTATTTATCAATTCATGATAAACGAGATGTAATTGAATATCCAATTAGCGATGATTTAGATATAAGTGGTTGGGATATTAAAAAGGCATTGCAACTATTCGCGAAGTCGAATCCTGCTTTACTTGAGTGGATTCGATCACCAATTTTTTATTCGAAAAACTCTAATTTTCCAGAACTACTTCAACAGATGAGTGAGAAGAATTTTGATCCAAAAGCAACGATATATCATTATTTACATATGGCGTCGAAAAATTATCGTGAATTTTTGCAAGGTGAGAATGTAAAGCTGAAAAAGTACTTTTATGTATTACGTCCCATTTTAGCTTGTAAGTGGCTAGAAGAGAAAACGACTTTACCTCCTGTAGAATTTGACCGATTGATTACAGAATTATCATTAGAACGTAGCGTATTAGATGAAATTGAAAAGTTGTTAATAAAGAAAAAAGCAGGTACTGAATTAGATGTTGGATTGAAAATTAAGGTGCTAAATCAATTTTTAGAAGAACAAATTCATTACTATCAGGAATATGTAAAAGGAATTGAAAAGGGATCAGGAATCGATATTGAGAGTTTAAATACATTGTTTCGAGATATGTTGTTTGAAGCATATGAAAAAGAGCACAAGTAA	MREKIELELERIEKENDVKILFAVESGSRAWGFPSKDSDYDVRFIYIHPVEWYLSIHDKRDVIEYPISDDLDISGWDIKKALQLFAKSNPALLEWIRSPIFYSKNSNFPELLQQMSEKNFDPKATIYHYLHMASKNYREFLQGENVKLKKYFYVLRPILACKWLEEKTTLPPVEFDRLITELSLERSVLDEIEKLLIKKKAGTELDVGLKIKVLNQFLEEQIHYYQEYVKGIEKGSGIDIESLNTLFRDMLFEAYEKEHK				NA	NA	NA	NA	NA
AK009_05645	1302	genK	COG0477	Gentisate transporter	ATGCAACCTTCAGCTCCACCTCATCTAGAATCTACAGAAACTATCTTTTCAAGCTCTATTACAAAACTTGTTGTTTTTATTTGTTGGCTAGCCATTTTAGCTGATGGATATGATTTAGGTATTTACGGTGCCGTTCTACCAAAGCTCCTAGAAGACAAAAGCTGGGCGCTATCACCATCGCACGCTGGCACAATTGCAAGCTATGCTTTATTTGGGATGTTTATTGGGGCTATTCTAGTTGGAACGATTACAGATCTAATTGGACGTAAATGGACGCTTATATGCTGTTTAGCACTTTTTTCTATCACAATGGGTTTAGCGGCTATCGCTCCTTCTCCTGAGTTATTTGGATTATCTCGATTTATAGGAGGAATCGGATTAGGCGGTGTTATCCCAACAGCTTCAGCACTTACTGTTGAATATTCACCCAAAAAAAGGCAATCTTTTATTTATGCTCTTATGTTTACTGGCTATCCTTTAGGTATCGTGTTAGGTGCTATTTTGTCTATATTTATGTTAGAAGATTTCGGATGGAGAATTATGTTTGGTATCGGAATGATTCCACTACTCCTCATTCCTTTCATTATTCGCTATTTACCTGAGTCCATTCAATTTTTATTATCACGTAATCGCCAAGAAGAAGTGAACCAAATTCTTAATCGTTTTCCAATTGAATTTCATGTGAAAAATAAAACTCATCAAGCTCCATCTACTATACAAAAGAAAAATGGATTTACTACGTTATTCTCAAAAGAATACATAAAAGCAACGCTACTTTTTTGGATCACTTATATAATGGGAATGTTTTTAATATACGGCTTAAATACTTGGTTACCACAGATGATGCGCCAGGCAGGATATCCTCTTGGGTCTAGTCTGTCATTTCTACTTATGCTAAATATTACCGCAGCTATCGGCGCATTATTCGCTGGAGCAATTGCTGATCGTATAGGAGCAAAAATTGTTATTAGCATCTCTTATCTTATGGCAGCTATATGTATCGGACTATTAACAATCAAACCATCTGTTACAATCATTTATCTTTTAATTGGCCTTGCTGGTATTGGATCAGTCGGTATTACTCAAATATTAAATGCATATGTAACACAATACTTCCCATCACATATCCGAGCTACCTCCTTAGGCTGGGGACTGGGGCTTGGCCGAGTTGGTGCAATTGCTGGCCCAATTCTTGTCGGTATTATTATGACAATGCAATATGACTTAGCATGGAATTTTTACTTATTCTCCTTTGCAGGTCTTATCGCAGCTATATCTGTTTTCTTCATTCCTACAAAATAA	MQPSAPPHLESTETIFSSSITKLVVFICWLAILADGYDLGIYGAVLPKLLEDKSWALSPSHAGTIASYALFGMFIGAILVGTITDLIGRKWTLICCLALFSITMGLAAIAPSPELFGLSRFIGGIGLGGVIPTASALTVEYSPKKRQSFIYALMFTGYPLGIVLGAILSIFMLEDFGWRIMFGIGMIPLLLIPFIIRYLPESIQFLLSRNRQEEVNQILNRFPIEFHVKNKTHQAPSTIQKKNGFTTLFSKEYIKATLLFWITYIMGMFLIYGLNTWLPQMMRQAGYPLGSSLSFLLMLNITAAIGALFAGAIADRIGAKIVISISYLMAAICIGLLTIKPSVTIIYLLIGLAGIGSVGITQILNAYVTQYFPSHIRATSLGWGLGLGRVGAIAGPILVGIIMTMQYDLAWNFYLFSFAGLIAAISVFFIPTK	PGPT0005390_599	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005390-benK-K05548	NA	NA
AK009_05646	1527	petC_2		Cytochrome b6-f complex iron-sulfur subunit	ATGACAAGTGATACATTTCCACAACTGCCGCTATCTTATTGGATTGAATCTACTCAGTTTCCTACTTTCCCTCGTTTATCCGAAAATATAAAGGCGAAAGTTGCTATTATCGGTGCTGGTATTACAGGTATTACTACTGCCTATTTACTTGCAAAAGAAGGCATCGATGTTGTTTTAATTGATTCTGGTCGTATTTTAAACGGGACGACTGGGCATACAACAGCGAAAGTAACAGCACAACATGATCTTATTTATGATGAATTAATAAATCACTTCGGTGTAGAAAAGGCCGGGCTTTACTATGAATCAAATAATCAGGCTCTACAATTCATAAACGAAACTGTTCAAACATATAAAATCGACTGTAATTTCTCAAATGAAGATTCATATTTATATACAACTACTGATAACGGATTAAGAAATTTATCGAAAGAATATGAAGCTTATCAAAAATTAAATATACCTTGTGATTATGTTCAATCTCTATCGATTCCTATTCCAGTACAATCTGCACTTGTCATGAAAAATCAAGCACAATTCCATCCCCTTCTTTATTTAAAAACACTTTTAGAAAAGTTTGTGGAGATGGGTGGAAAGGTCTACGAACAAACAACAGCTATGGATGTGGAAAAGGGAGATTATCCACAAATAATTACAAAAGAGGGCCATCATATCACTTGTGAATATGTTGTCTCTTGTTCACATTTTCCTTTTTATGATGCGAATAGCTTTTTCTTTACGCGAATGTACGCAGAACGCTCCTACGCTCTTGCAATAAAAGCCAAAACAGATTATCCAGGTGGCATGTATTTAAGTATTGATGATCCAAAGCGCTCCTTACGCTATATAACAAACAATGGAGAGAAATTAATTTTAATTGGCGGAGAAAGTCATAAAACAGGACAAGGAATAAATACGATGCTTCATTATGAAGCACTCTATTCTTTTGCTGAAGCAACTTTTGGAATAGACGAGGTTCCTTATAGATGGTCAGCACAAGATTTAATCACTCTAGATAAGCTTCCTTATATCGGACATATTAACGAAAGAAATCCAAATATATTTGTTGCAACTGGATATCGCAAATGGGGAATGACAACTGGAACTGCTGCCGCTCAGCTACTGAAGGACTCCATCCTAAAAGTCCACAGTCCCTATAAAGAACTGTATGCACCATCACGCTTCCATGCAAATCCAGATATAAAAACGTTCCTCTCCCAGAACATTGATGTTGCGAAACATTTAATTGAAGGAAAGATCGAAACCGCATTACGTAAGCCAGAAGATCTCGAAGTTGGTGAAGGATCTGTCGTACATGTTAACGGTAAACGAGCAGGTGCTTATAAGGACAAAGAAGGAAAATTACATATCGTCGATACAACTTGTACACATCTCGGCTGTGAAGTTGAATGGAATAATGGTGATTGTACCTGGGATTGTCCTTGCCATGGTTCTCGTTTTTCAATTGAAGGAGACGTTCTTGAAGGTCCAGCAGATCAACCGTTAAAACGAGTTGATAATGAGTGA	MTSDTFPQLPLSYWIESTQFPTFPRLSENIKAKVAIIGAGITGITTAYLLAKEGIDVVLIDSGRILNGTTGHTTAKVTAQHDLIYDELINHFGVEKAGLYYESNNQALQFINETVQTYKIDCNFSNEDSYLYTTTDNGLRNLSKEYEAYQKLNIPCDYVQSLSIPIPVQSALVMKNQAQFHPLLYLKTLLEKFVEMGGKVYEQTTAMDVEKGDYPQIITKEGHHITCEYVVSCSHFPFYDANSFFFTRMYAERSYALAIKAKTDYPGGMYLSIDDPKRSLRYITNNGEKLILIGGESHKTGQGINTMLHYEALYSFAEATFGIDEVPYRWSAQDLITLDKLPYIGHINERNPNIFVATGYRKWGMTTGTAAAQLLKDSILKVHSPYKELYAPSRFHANPDIKTFLSQNIDVAKHLIEGKIETALRKPEDLEVGEGSVVHVNGKRAGAYKDKEGKLHIVDTTCTHLGCEVEWNNGDCTWDCPCHGSRFSIEGDVLEGPADQPLKRVDNE				NA	NA	NA	NA	NA
AK009_05647	1086			hypothetical protein	ATGAAGGAGCTTCATACATTTGGGTGGTATGCAGCACGTGTATCACCACATTTGCCGAAAAAAGCATTTAAACCAGTGCCTACTCGTTTATTTGGTGGATTGGCTTATTTGCTTGTGGCATTGTCGGGATTAATATCGATTGGTGTATTTGAATTGAATGTGTGGGCGAATCTAGGAATTGCGATTGTTCTTGGATTATGTTTTGCTTCACTAGGATTTTTAGGGCATGAAATTTTACATGGAACTGTTGTAAGAAAGGCATGGCTTCGTGACTTCTTAGGAGCGATTGCATTTATGCCATTATCAACAGGGCCAAAGCTTTGGAGAAAGTGGCATAATGCAACGCATCATGTTCATACACAGCATGAAGAGAATGATCCGGATGCATGGCCGACACTTGAGAAACTTAAGAAGAGTAAGTTTTTGAGTTGGGTATATCGTATGCCTCTACATGTACGTTCATTCTTTAGTTTTCTGTCACTAACAATTCAATTTACATTGCATTCGACTCGAATGTTCTTTCATTTTATAAAAGAGTTCAAGTCATCCAATCAAAAATCTGTATGGCTTCAACTTCTTTTGCCTTGGACAGTTTGGATTAGTTTATTGTTTATTATGGGACCTGGAAAATGGTTATTTGCATATGTCATTCCGTTGTTAATTGCTAACTTTATTGTAATGGCATATATCGCAACAAATCACCGCTTAAATCCAATTGTTCCAGTAAATGATCCGTTAGCAAACTGCTTATCAGTAACAGTGCCGCGCTGGGTAGACGTTTTGCATTTCAATTTCTCATATCATACAGAACATCATCTGTTCCCTGCTATGAGCTCTAAATACTATCCGTTAGTAAAAGAGAAGATTAAAGAAATGTGGCCGGAACGTTATCACGAAATGCCGATGACAAAAGCATTGGCAGCACTTTGGAATACACCACGTGTGTATTATCACGGAAGTGAATTAGTTGATCCGCATAGAGAGCATTTCTACGGTTCTTTAGGAAATGGCTTAGACCCTCATAATATTTCATATCGTGAGGAACATATAGAAGAAAAAGAGAGTATTAAAAAAATAAATCAGTAA	MKELHTFGWYAARVSPHLPKKAFKPVPTRLFGGLAYLLVALSGLISIGVFELNVWANLGIAIVLGLCFASLGFLGHEILHGTVVRKAWLRDFLGAIAFMPLSTGPKLWRKWHNATHHVHTQHEENDPDAWPTLEKLKKSKFLSWVYRMPLHVRSFFSFLSLTIQFTLHSTRMFFHFIKEFKSSNQKSVWLQLLLPWTVWISLLFIMGPGKWLFAYVIPLLIANFIVMAYIATNHRLNPIVPVNDPLANCLSVTVPRWVDVLHFNFSYHTEHHLFPAMSSKYYPLVKEKIKEMWPERYHEMPMTKALAALWNTPRVYYHGSELVDPHREHFYGSLGNGLDPHNISYREEHIEEKESIKKINQ				NA	NA	NA	NA	NA
AK009_05648	693	glnP_2	COG0765	Glutamine transport system permease protein GlnP	ATGTTTGAAATTTTTATCTCTTCCTATCCCACACTCTTAAAAGCTACTATTGTCACATTACAATTAACATTAACTTCCCTAGTACTCGGTTCATTAATTGGATTATTATTCGCTTTCTTTCGAATCTCTAACAATAAAGTTTTAAATAGTATCGCTCATGTCTACATTGCTATTATTCGTGGTACACCTTTAATTGTTCAAATTGCCATTCTCTATTTTGGAATTACATCTGTTGTTGTTTTCACCCCTTTTTGGGCAGGAGCAATCGCTTTAGCAATTCATAACGGTGCATATATTACGGAAATTTTCCGTGGATCTATTCAATCCGTTGACCGAGGACAATTAGAAGCAGCTCGCTCTTTAGGCATGCCTTATCCTTTAGCTATGCGACGAATTATATTACCACAAGCATTTCGTCTGTCTCTTCCTCCTCTAGGAAACCAATTTATTATCGGATTAAAAGATTCTTCACTTGTTGCTTATGTAGGAATGTCCGAATTATGGGGATCGGGTTTATCAATTGCAGCAGGTAACTTCCAACAATTAGATACTTACATAATCGTTGGTGCATACTATCTCGTACTTGTTCTTCTATTTACTTATTTTGTTAATCTTTTAGAAAAACGATTACAACGAAAAGAAACTAACTCCTTCCAAGTCAATAAAAAGAACAAAAAGGAAGTTTCTTTATAA	MFEIFISSYPTLLKATIVTLQLTLTSLVLGSLIGLLFAFFRISNNKVLNSIAHVYIAIIRGTPLIVQIAILYFGITSVVVFTPFWAGAIALAIHNGAYITEIFRGSIQSVDRGQLEAARSLGMPYPLAMRRIILPQAFRLSLPPLGNQFIIGLKDSSLVAYVGMSELWGSGLSIAAGNFQQLDTYIIVGAYYLVLVLLFTYFVNLLEKRLQRKETNSFQVNKKNKKEVSL	PGPT0020795_6090	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
AK009_05649	795	fliY	COG0834	L-cystine-binding protein FliY	ATGAAAAGAAAACTATTAACCATTGTTGCGAGCATTACACTATGTACATCTTTCATACTAGGAGCTTGTAGCAAAGAAAGTTCTACTACTTCATCAAATGGTGAAAAAGAATTTCGCTATGCGATGAGTGGATTATACAAACCTTTTAACTATAAAGAAAATGACGGCAAACTTGTCGGTTTTGATGTAGAAATCGGTGAAGCTCTTGCTAAAAAGATGAACATGAAGGCTACGCCAGTTACAAACCCATGGGAAACGCTAATTCAAGGTCTTCAAGCGAAGAAATATGATGTAATACTGGGTAGTATGGCAATTACAGAGGAGCGCTTAAAAGCTGTTAGTTTCTCAAATCCGTACTATCGCTCTGGCGCCCAAATTTTTGTAGCTAAAAAGAATACCGCTATCTCTTCTCCAGAAGATTTAAAAGGTAAGAAAATTGGTGTTGTAAAAGCTAGTACCTTTAAAAATCTTGTTGCAAAATATACAGATCAAATCACAGAATATGACAGTGATATTACTGCTCTTATGGATTTAGAGCCTGGGCGTGTTGACGCAGTAATTACGGATCAAATGGTTGGTCTACGTATGATAAAAGAAGGAAAATCGAATATAAAAGAAGCCGGAAAACCATTAAATCTTGATGAAATGGGAATTGCTATTCGCAAAGATAATAAAGAAATGGTTGAGAAAGTAAATAAAGCGTTAGATGAAATCATTAAAGATGGTACGTATGATAAGATCAGTAAAAAATGGTTCGGACGTAATATTCTTGGTGAAGAGGAAAAAACGAAGTAA	MKRKLLTIVASITLCTSFILGACSKESSTTSSNGEKEFRYAMSGLYKPFNYKENDGKLVGFDVEIGEALAKKMNMKATPVTNPWETLIQGLQAKKYDVILGSMAITEERLKAVSFSNPYYRSGAQIFVAKKNTAISSPEDLKGKKIGVVKASTFKNLVAKYTDQITEYDSDITALMDLEPGRVDAVITDQMVGLRMIKEGKSNIKEAGKPLNLDEMGIAIRKDNKEMVEKVNKALDEIIKDGTYDKISKKWFGRNILGEEEKTK	PGPT0020800_10838	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
AK009_05650	723	artM_2	COG1126	Arginine transport ATP-binding protein ArtM	ATGATTCAAGTTCGAAATCTAGTAAAATCATTCGGTTCACTTGATGTGTTAAAAGGAATTGATTTAGAAGTAAAAGAAAAAGAAGTTGTTGTTTTAATTGGTGCCAGTGGTTCTGGTAAAAGTACATTACTTCGCTGTCTTAACTTTTTAGAAATGTACGATGAAGGCGAAATTCACTTACAAGGTGAGCGAATTGATCCAAAGCATTCAAATTTAAATAAAGTCCGTGAAAATGTCGGTATGGTTTTTCAGCACTTTAACCTCTTTCCTCATATGACCTCACTAGAAAACATCATAGAAGCACCTATTCATGTAAAAAAATTAGAGAAAGCAAATGCACAGGATATTGGAAATCAACTTCTCCAAAAAGTCGGCCTTCAAGATAAAGCGGATGTAACTCCTCATCTTCTTTCAGGTGGTCAAAAACAGCGCATTGCCATTGCACGAGCTCTTGCAATGAGCCCTAAGATTATGCTATTTGATGAGCCTACCTCAGCTTTAGACCCTGAACTTGTTGGAGAAGTATTGCAAGTTATGAAAGAACTTGCTGAAGAAGGGATGACAATGGTTATTGTTACTCATGAAATGAATTTCGCAAAAGATGTAGCTGATCGCGTCATCTTTATGGACGATGGAAAGATTGTAGAAGATGCTCCGCCAGCACAATTCTTTTCAGCTCCATCACATGAACGAGCAAAACAATTTTTACGTAACGTTTTATAA	MIQVRNLVKSFGSLDVLKGIDLEVKEKEVVVLIGASGSGKSTLLRCLNFLEMYDEGEIHLQGERIDPKHSNLNKVRENVGMVFQHFNLFPHMTSLENIIEAPIHVKKLEKANAQDIGNQLLQKVGLQDKADVTPHLLSGGQKQRIAIARALAMSPKIMLFDEPTSALDPELVGEVLQVMKELAEEGMTMVIVTHEMNFAKDVADRVIFMDDGKIVEDAPPAQFFSAPSHERAKQFLRNVL	PGPT0020790_5266	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
AK009_05651	1293	mcp2	COG0840	Methyl-accepting chemotaxis protein 2	ATGGAAAAAGAAAGAAAAACATTTTCTTTTGGATTACGTACACAACTTATGCTATTCACTACAGTTTTAGCTTTTATTACATATTCAACAAGTATATTTTTTATTTACGTGATATACGATTATTTTCAAAGTTATGTAAGTCAAACTGTATATAATATTATCGTTATGTTATTAGGGGTAGTATGGTCTGGAATTTTAGCATATGGAGCAGCCGTATTTTTAATTAAACCACTTCGCAAGTTAGAGGAAGCGGCAAGAAAAGCAGCTGAGGGTGATATTCGTGAAGATGTTCCATTACCGAAGACAGATGATGAAATTAAATCTTTAAGTGTTGCATTTAATATGATGTTAGGAAACTTAAGGGGCATGGTAAAAAATATTGATACAACATTTTCTTATACAAACAATCAAGTACAGCAGATTAGAAAACAAACAGGAGAAGCAACGAGACAAGCGCAAGGTGTATCTGAGACTCTTGCAGAGATTTCTTCAGGCGCTGAGCAATCAGCAGCATCAATTCAAGCAATTGTTTCTGCTGTTGATACAACGACGTCTATTGCAAGTGAAGTAGAAGAAAAAGCGAAGCAGTCTGATACGTTGTCTTCAGAAATGGTTCAAGCTTTAGGGCATAGTACTCGTGTCTTTACGTCTTTAATTCAAGGTATTCAAACATTGGCAAAAGAAAATGAAGATTCAATGCAAAATGTACAGAAGTTAGAAGAACGAATGAAACAAGTAGAACATATTGTGTCTGTTGTGAGTGCGATTGCTAGCCAAACGAATTTATTAGCACTAAATGCTTCTATTGAGGCAGCTCGCGCAGGAGAGCATGGAAGAGGTTTTGCGGTTGTTGCGGAAGAAGTACGTAAACTTGCTGATGAAAGTGATCATTCTGCAAGAAACATATCTCAGTTATTACGGAATATGCAAGATGAAGTACAACAAGTTGCAATGAAAATGACAGAACAAGTGAAAATAGCTAAAGAAGAGGCGAAACGTGGGGAAGCTACGGAATTAATTTTAAAAGAAATGTCATCAAGTGTTATGGAAGTAGCCGATGCAACTCAGCAAATTAGTAGTTATATGAATGAACAAGTGAGCCACATTCATCAAACAGGAGCACAAACAAAAGCTGTAGCAGCAATTGCTGAAGAAACGTCAGCTGGTTCGCAAGAAGTGGCGCGTGTGACGCTACAACAGTCTAAAAATATGATAGTAATCGATCAATTATTAAAAGATTTAGAGAAGCAAGCAACTGATTTGAAACAAACAATTGAACGATTTTCAATGTAA	MEKERKTFSFGLRTQLMLFTTVLAFITYSTSIFFIYVIYDYFQSYVSQTVYNIIVMLLGVVWSGILAYGAAVFLIKPLRKLEEAARKAAEGDIREDVPLPKTDDEIKSLSVAFNMMLGNLRGMVKNIDTTFSYTNNQVQQIRKQTGEATRQAQGVSETLAEISSGAEQSAASIQAIVSAVDTTTSIASEVEEKAKQSDTLSSEMVQALGHSTRVFTSLIQGIQTLAKENEDSMQNVQKLEERMKQVEHIVSVVSAIASQTNLLALNASIEAARAGEHGRGFAVVAEEVRKLADESDHSARNISQLLRNMQDEVQQVAMKMTEQVKIAKEEAKRGEATELILKEMSSSVMEVADATQQISSYMNEQVSHIHQTGAQTKAVAAIAEETSAGSQEVARVTLQQSKNMIVIDQLLKDLEKQATDLKQTIERFSM	PGPT0015710_27158	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
AK009_05652	450	argR_2	COG1438	Arginine repressor	ATGAAAAAAGAAAAAAGACAACGGTTAATTAAACAATTTGTAAAGGAGTATGAAATAGATAAGCAAGAAAGATTAGTAGAATTGTTAGCAAAAAAAGATGTATTAGTAACACAAGCTACGGTTTCTCGCGATATTCGTGAGTTAAACTTAACGAAGGTACCTTCTCAAGAAGGATTAATGATATATAAAGTTTTCTCAGAAGAGCATTTAAAAACTGATATAAAGTTAAAGAAAAAATTACGAGAAGTTGTTGTGAAAATTGATTGTGTAGATCAATTAATGGTTATTAAAACATTACCTGGTAATGCACATGTTATTGGTGTTTTATTTGATGAGTTAGATTGGACAGAAAAAATAGGATGTATATGTGGAAATGATACATGCCTTATAATTTCACAGTCGAAATCAGATAGGGAGATTATAGAAGAAAGATTAAATTTAATTATTTAG	MKKEKRQRLIKQFVKEYEIDKQERLVELLAKKDVLVTQATVSRDIRELNLTKVPSQEGLMIYKVFSEEHLKTDIKLKKKLREVVVKIDCVDQLMVIKTLPGNAHVIGVLFDELDWTEKIGCICGNDTCLIISQSKSDREIIEERLNLII	PGPT0020105_1879	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
AK009_05653	1233	arcA		Arginine deiminase	ATGAAACATCCGATACATGTTACTTCAGAAATTGGGGAATTACAAACGGTTTTATTAAAACGACCGGGTAAAGAAGTGGAAAACTTGACGCCAGATTATTTGCAGCAATTATTATTTGATGATATTCCATACTTACCAATTATTCAAAAAGAGCATGATTATTTTGCACAAACGTTACGCAATCGGGGTGTTGAAGTTCTTTATTTAGAAAAACTAGCCGCTGAGGCGTTAGTAGATAAAAAACTTCGAGAAGAATTTGTTGATCGTATTTTAAAAGAAGGACAGGCTGACGTAAATGTTGCACATCAAACTTTAAAAGAATATTTACTTTCCTTTTCAAATGAAGAATTAATTCAAAAAATTATGGGCGGTGTACGGAAAAACGAAATTGAAACAAGTAAGAAGACACATTTATATGAATTAATGGAAGATCATTATCCGTTTTACTTAGATCCAATGCCTAATTTATATTTTACTCGTGATCCAGCAGCTAGCGTGGGCGATGGCTTAACGATAAATAAGATGAGAGAACCAGCGCGTAGACGTGAATCATTATTCATGGAGTACATCATTAAATATCACCCAAGATTTGCAAAACATAATGTACCAATCTGGTTAGATCGTGATTATAAATTTCCAATTGAAGGTGGCGACGAGCTAATTTTAAATGAAGAAACAATTGCGATTGGAGTGTCTGCTCGTACTTCAGCTAAAGCAATTGAACGTTTAGCTAAAAATCTCTTTAGCCGACAAAATAAAATTAAGAAAGTGTTAGCAATAGAAATTCCAAAATGCCGAGCATTTATGCATTTAGATACAGTATTTACAATGGTTGATTATGACAAGTTTACAATTCATCCAGCCATTCAAGGGCCAAAAGGGAATATGAATATTTATATTTTAGAAAAAGGATCAGATGAGGAAACTCTTAAAATTACACATCGTACTTCTTTAATGGAAGCATTAAAAGAGGTATTAGGCTTAAGTGAATTAGTTCTTATTCCATGTGGAGGAGGAGATGTAATTGCTTCTGCTCGTGAACAATGGAATGATGGCTCGAACACATTAGCAATCGCACCAGGTGTAGTTGTTACATATGATCGCAACTATGTATCCAATACGTTATTACGGGAGCACGGTATAGAAGTAATTGAAGTGCTAAGTTCGGAATTATCTCGTGGTCGTGGGGGTCCACGTTGCATGAGTATGCCAATTGTTCGTAAAGATATTTAG	MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGSDEETLKITHRTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI	PGPT0020075_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478	NA	NA
AK009_05654	999	arcB		Ornithine carbamoyltransferase, catabolic	ATGTTAATGACTAGACCAAATTTAAAAGGAAGAAGCTTTCTAGCAGAAAAAGATTTTACACAAGAAGAATTGTTATATTTTCTAGATTTGGCAGCAGAATTAAAAGAGAAAAAGAAAAATGGTATCCCGCATCATTATTTAGAAGATAAGAATGTAGCGCTCTTATTTGAAAAAACCTCCACTCGTACGCGCTGTGCATTTACAGTAGCATGTACAGATTTAGGGGCGAATCCTGAATATTTAGGGAAAGGTGATATTCAGCTTGGGAAAAAAGAATCCGTAGAGGATACAGCAAAAGTGTTAGGGCGTATGTTTGACGGAATTGAGTTTCGTGGATTTAATCATGAGACTGTAGAATCTTTAGCACAAAATTCTGGTGTGCCAGTTTGGAATGGATTAACAGACATGTGGCATCCAACACAAACACTAGCAGATTTATTAACAATTAGAGAACATGTAGGGAAGTTGAAAAATGTGAAGCTCGTTTACGTTGGAGATGGACGAAATAATGTTGCTAATAGCTTACTAGTTGGTGGAGCAATCGTTGGAATGGATGTACGTATTTGCACACCAGAATCTTTATGGCCTGCACAAGAAGTAATTGATTTAGCAAAAAAATATAATGAACAGGTAATGATAACAAGTAATGTGGAAGAAGCTGTTGCGAATGCAGATGTAATTTATACAGATGTATGGGTGTCTATGGGGGAAGAAGAAAAATTTGCTGAACGTGTCGAGTTATTGAGACCTTATCAAGTAAATATGAAAATGATTAAAGAAACAGGGAATGAAAACGTGATTTTCTTACATTGTTTACCTGCATTTCATGATGTTGAAACGATGTATGGCGAAGAAGTTTACGAGAAATATGGGTTGAAAGAAATGGAGGTAACTGACGAAGTATTCCGCAGTAAACATTCAAAAGTATTTGATCAAGCTGAAAATAGAATGCATACAATTAAAGCGGTTATGGCAGCTACTTTAGGAAACATGGAGTAA	MLMTRPNLKGRSFLAEKDFTQEELLYFLDLAAELKEKKKNGIPHHYLEDKNVALLFEKTSTRTRCAFTVACTDLGANPEYLGKGDIQLGKKESVEDTAKVLGRMFDGIEFRGFNHETVESLAQNSGVPVWNGLTDMWHPTQTLADLLTIREHVGKLKNVKLVYVGDGRNNVANSLLVGGAIVGMDVRICTPESLWPAQEVIDLAKKYNEQVMITSNVEEAVANADVIYTDVWVSMGEEEKFAERVELLRPYQVNMKMIKETGNENVIFLHCLPAFHDVETMYGEEVYEKYGLKEMEVTDEVFRSKHSKVFDQAENRMHTIKAVMAATLGNME	PGPT0020080_1867	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
AK009_05655	1416	arcD_4	COG0531	Arginine/ornithine antiporter	ATGGGTGAAGATAAGAAATTAGGGTTGTTTACACTAACGGCTCTTGTAGTTGGGTCTATGATTGGCGGTGGAGCCTTTAATTTAGCGAGTGATATGGCAAAAGGTGCTGGTGCTGGAGCCATTATTATTGGCTGGGTTATAACAGGAATTGGGATGATTGCACTTGGATTATCTTTTCAAAATCTAACTGTAAAACGGCCAGATTTAGATGGTGGTATTTTTAGCTATGCAAAAGCAGGATTTGGTAATTTTATGGGATTTAATAGTGCGTGGGGATACTGGCTATCTGCTTGGCTTGGGAATGTAGCTTACGGTACATTATTATTTTCTTCATTAGGATATTTCTTCCCGATCTTTGAAGGCGGTCAAAATGTAGAATCCATTATTGGTGCAAGCGTATTATTGTGGTGTGTTCACATGTTAATTTTACGTGGAGTTCAATCAGCAGCACTTGTGAATTTAGTAACTACAATCGCAAAATTAGTACCTGTATTTGTATTTATTGTCATAGGAATCTTCGCGTTTCATATTGATACATTCTTAGATGGATTTTGGGGGCAAACTGGTTCTTTTTCATGGGGAGCAGTTGGCAGCCAAGTTAAAAGTACAATGCTTGTAACTCTATGGGTATTTATTGGGGTAGAAGGGGCGGTTGTTTTATCCAGTCGAGCAAAAAATAGAAGTGATGTAGGGAAAGCAACGGTTATTGGCTTAATTGGTACACTCATCATTTACATTTTAATCACATTATTGTCTCTTGGACTTATGCAGCAAGCAGATATTGCTGGTTTGAAAAATCCAGCTATGGCTTATTTATTTGAAAGTGTTGTTGGAAAATGGGGTGCTATCTTTATAAATTTAGGTTTGGTCATCTCTGTATTAGGTGCTTGGTTAGGTTGGACTTTGCTCGCTTCTGAAATTCCATATTTAGCGGCTAAAGATGGAGTATTTCCAAAATGGTTCGCAAAAGAAAATAAAAATAAGGCTCCAGTAAATTCATTATGGATAACAAATGGTTTAATTCAAATATTCTTGTTAACATTCGTCGTTTCTGATCAGGCGTATAACTTTGCATTCTCTTTAGCATCTTCAGCCATTTTAATTCCATATGCTTTTTCAGCATTTTATCAACTGAAGCATAGCTTAAAATCTGAAGAAGTAGATCGAAATAAAAATATAATAATTGGTTTGATAGCAAGTATTTATGGTGTGTGGTTAGTTTATGCAGCTGGTTTAGAGTATTTATTATTAACAATGACTTTATATGCGCCAGGTATTTTTATTTTTTACAATGTTCAAAAGCAAAAGAGTTCGAAGCAAATATTTACTCGAGTGGAATTAGCATCATCCGTAGCAATTGGTGCTTTAGCATTCTTTGCGATTTATGGATTAATTACAGGCAGTATTACTTTATAA	MGEDKKLGLFTLTALVVGSMIGGGAFNLASDMAKGAGAGAIIIGWVITGIGMIALGLSFQNLTVKRPDLDGGIFSYAKAGFGNFMGFNSAWGYWLSAWLGNVAYGTLLFSSLGYFFPIFEGGQNVESIIGASVLLWCVHMLILRGVQSAALVNLVTTIAKLVPVFVFIVIGIFAFHIDTFLDGFWGQTGSFSWGAVGSQVKSTMLVTLWVFIGVEGAVVLSSRAKNRSDVGKATVIGLIGTLIIYILITLLSLGLMQQADIAGLKNPAMAYLFESVVGKWGAIFINLGLVISVLGAWLGWTLLASEIPYLAAKDGVFPKWFAKENKNKAPVNSLWITNGLIQIFLLTFVVSDQAYNFAFSLASSAILIPYAFSAFYQLKHSLKSEEVDRNKNIIIGLIASIYGVWLVYAAGLEYLLLTMTLYAPGIFIFYNVQKQKSSKQIFTRVELASSVAIGALAFFAIYGLITGSITL	PGPT0020620_951	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
AK009_05656	963	arcC1		Carbamate kinase 1	ATGGCACGAAGAAAAATTGTAGTTGCACTAGGGGGAAATGCGATACAGTCTGGAGAAGCTACTGCGGGAGCGCAGCAAGAAGCGTTGGAAAAAACGGCGGAACAACTTGTGAAAATAATGGAAAATGATGTGGATATAGTAATTGCGCATGGAAATGGCCCACAAGTGGGGAATATTTTATTACAGCAAAAAGCTGCAGAAACGGAAAAGACACCTGCAATGCCATTAGATACTTGTGGGGCAATGAGCCAAGGGATGATTGGATATTGGATGGAAAATGCGATTGAAAAGGCATTGAAAAAACGGAATATAAAAAAAGACGTAGCAACGGTTATAACGCGCGTTGTTGTGGACAAAAAAGATGAGGCATTTAAAAATCCAACTAAACCAATTGGTCCTTTTTATACAGAAGAAGAGGCCAGAAGATTAATGGATGAAACAAAAGCAGTGTTTAAAGAAGATGCTGGTAGAGGATGGAGACGTGTTGTTCCATCACCGAAGCCTGTAAGTATTCATGAACATAAAGTGATTAATTCTTTGGTGGAAGATGGAAACATAGTGATAGCTGTTGGCGGGGGTGGAATTCCAGTAATTGATTCCGAAGAAGGGTTAAAAGGAACTGAAGCGGTTATCGATAAAGATTTCGCTGCGCAGAAATTAGCAGAATTAGTAGATGCCGATACGCTCGTTATTTTAACTGCAGTTGATCATGTGTATGTAAATTATAATCAACCGAATCAAAAAAAATTAGAGCATGTCACAGTGAATCAATTAGAAGAATATATTGAAGAACAACAATTTGCTGCGGGAAGCATGCTTCCAAAAATTGAAGCTGCTATTAATTTTGTTAATACAAATCCAAAAAGAAAAACAATTATTACGTCTTTAGAAAAAGTATATGAAGCACTAGAAGAAAAAGCTGGTACTATTATTTCAAAACAGAATGTATGCATGTATGTTTAA	MARRKIVVALGGNAIQSGEATAGAQQEALEKTAEQLVKIMENDVDIVIAHGNGPQVGNILLQQKAAETEKTPAMPLDTCGAMSQGMIGYWMENAIEKALKKRNIKKDVATVITRVVVDKKDEAFKNPTKPIGPFYTEEEARRLMDETKAVFKEDAGRGWRRVVPSPKPVSIHEHKVINSLVEDGNIVIAVGGGGIPVIDSEEGLKGTEAVIDKDFAAQKLAELVDADTLVILTAVDHVYVNYNQPNQKKLEHVTVNQLEEYIEEQQFAAGSMLPKIEAAINFVNTNPKRKTIITSLEKVYEALEEKAGTIISKQNVCMYV	PGPT0020085_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926	NA	NA
AK009_05657	690	ntcA		Global nitrogen regulator	ATGAATAGACGGAACGTAGTGAAAGACTTAAAGCAGTTCGAATTATTTGCTCATTTAACAGAAAAAAAATTGAAAGGCTTAACAGAGTTTGTTTATTGGCGAACTTATAAAAAAGGTCAATTTTTATTTTTAGAAGGGGATTCAAGGGAAAGAATTTACTTCATGTTAGATGGTTTTGTAAAGTTAGAGCGGGTTAATCAAAATGGGAACTTATTATACGATGACTATGTAAAGCGGTATTCTATTTTTCCTTATGGTGGTATGTTTACAGACAGAGGATATAACTATACAGCAGAAGCAATGACGGATGTGGAGGTATATTATATTCCAACGGTAATCTTTGAAGATATGGTAAAATCCAGCAGAACGCAATTGATGTACGTTGTTCAGCAATTATCATCTATATTAAAATTGAATGAAAATCGAGTGCAAAATATTACAATTCCTAATGCACAAGATCGTGTTATCCAAACGTTAAATTATTTAATGCAGGATTTAGGAGAACAGAGTGGGGAAAAGATTGTAATTTCATGTCCACTTACAACAATTGAAATATCCAAAATATCTGGAACATCTCGAGAGACAGTTAGCAGCGTATTAAAACAATTAAAAAATGATAGCATTGTTACAATTTTAGATAAAAAAATTACAATACACAATCCAACATATTTTGAAGAAATCTCAATGTGA	MNRRNVVKDLKQFELFAHLTEKKLKGLTEFVYWRTYKKGQFLFLEGDSRERIYFMLDGFVKLERVNQNGNLLYDDYVKRYSIFPYGGMFTDRGYNYTAEAMTDVEVYYIPTVIFEDMVKSSRTQLMYVVQQLSSILKLNENRVQNITIPNAQDRVIQTLNYLMQDLGEQSGEKIVISCPLTTIEISKISGTSRETVSSVLKQLKNDSIVTILDKKITIHNPTYFEEISM				NA	NA	NA	NA	NA
AK009_05658	684			hypothetical protein	ATGATTCGTATTGAGTATGATCGATTAGTAGCTATTTGTTACAGTATAGGGGTTTTGTTATTATTAAAAATTCCAAATGATAATGAATTAATTGGGGAAAAACTATTCAATGTCTATAAGGTTCCGATACATACGTATGTTTATATGGATTATAAAGTCTCAAATATATTGATTGTTTCTTTCATACTACATGTAATTGCATTTATATTATTTTTAAAATGGCTAGGAAAAAAGGAGTCTAGTACATTTAGAAAAATGAATAAGATAAAAGTAGTAGGCATTAGTATTTTGATTGTAATGATGCCGTTTATTTTGAATACAATCCTCCAGACATTGAATAAAACATGGTACTATGCAGGAAAAACAGGGGTAGAAGCAATAGAATATAAAAAAGAAGATAGCCAGTGTAGAATGGAGAAAAATGGAGATAATATCCAACCGAAGTGCATTGTTACTTTAAAAAATTATCGTAATCATTCACAAGCATTAAAAGTTGTTTTATATGATAATGCAAACGAGAATTCAAAAAGCTATCCAGTACCGAAACCAGTCTATTTACAAAAACATGAGACAAAGCAATTCGAATTTCAAGTTCCTGTTTCTTATAATAGAGGTATGGAAAAAGATAAAGTACCAAATATTAAATTACATTCATTGCATGAAAATGATACGAAATACAATTAA	MIRIEYDRLVAICYSIGVLLLLKIPNDNELIGEKLFNVYKVPIHTYVYMDYKVSNILIVSFILHVIAFILFLKWLGKKESSTFRKMNKIKVVGISILIVMMPFILNTILQTLNKTWYYAGKTGVEAIEYKKEDSQCRMEKNGDNIQPKCIVTLKNYRNHSQALKVVLYDNANENSKSYPVPKPVYLQKHETKQFEFQVPVSYNRGMEKDKVPNIKLHSLHENDTKYN				NA	NA	NA	NA	NA
AK009_05659	1335	yvdP_2	COG0277	putative FAD-linked oxidoreductase YvdP	TTGAAGCAAACAAAATTAACAGGTCGTATCGTTGTTCCCACAGATCCTGACTACAATGTAGCCCGAATGAATTTAAATTTAAGTATTCCAAAACTCCCTTGTATTATTGTTTTTTGTCAAAATAACAAGGATATCTGTAACGCCTTAAAATGGGCACGTGAACGTCATATACCATTTCGGTTAAGAAGTGGACGTCATAGCTATGAAAATTTTTCTCTTTTAAATAGAGGACTTATTATTGATGTGAGTGAAATGCATCGCATTACTGTTAATACAGAGAAATTAACAGCAACAATTGAGGCTGGTGCAAATCTTGGCACTGTTTATAAAGAACTTTGGAATTACGGTGTTACAATTCCTGCTGGTACAAGTGCAAGCGTTGGAATTGTTGGATTAGCACTTGGCGGTGGTATTGGTATGCTTTCACGCTTATTTGGATTAAAATGTGATCAATTAATGGAAGTGGAAATGGTACAAGCGTGTGGAAAATTTGGTGCAAAACCCATTCGTGCAAATGAACAAGAAAACTCTAACCTTTTTTGGGCATGCCGTGGTGGCGGTGGTGGAAACTTCGGAATTATCACTTCCTTAACTTTTCGAGTCCACCCCGTAAAAAATGTATCAATTTTCTCAATTACATGGGAATGGGAAGACTTTATTGCTGCATTTCAAGCGTGGCAAAACTGGGCACCTTATATAGATGAACGTCTCACTTCATCGATCGAATTATTCGCCAAGCAACGAAATAAAATCGAAGCACAAGGCGAGTTTGTCGGTTCTCCCTCTGAACTCCATTCCCTATTATCCCCTCTTCTTGAAACTGGCAGCCCCTCTCTCTTTATAGAAGAAGTTCCTTATATAAAGGCTGTCGAATTTTTTAATGGCGGTAACATCCCTGAAAATTTCAAGCGCTCTGGTTCCTATGTCTATAAACCTATTCCCCTTAAAGGCATTCAACTCATGCAATACTTTCTTTCTCATGCCCCAAATAAAGATGCTAGTATTTGGCATCAATCGCTCATAGGTGCTGTTGAAAATATTTCGCCGAATGAAACGGCTTATTTTCATCGTAAAGCAATTATTGCCCAAGAATACATTACCTCTTGGAAATGCGATGATGAAGAAAATCGAAATATACGCTGGGTTAAAGATTTACGAGAAAGCTTAGATCCTTATACACTAGGTGACTATGTGAACTGGCCCGATATCGACATTAAAAATTGGCAAACTAGTTATTATGGCTCTAACTTTCACAGATTGCGTAAAGTAAAAACTATGTATGATCCTTGTGATGTTTTTCATTTCCAACAAAGTATTCCTCCTTTTCATACGTGA	MKQTKLTGRIVVPTDPDYNVARMNLNLSIPKLPCIIVFCQNNKDICNALKWARERHIPFRLRSGRHSYENFSLLNRGLIIDVSEMHRITVNTEKLTATIEAGANLGTVYKELWNYGVTIPAGTSASVGIVGLALGGGIGMLSRLFGLKCDQLMEVEMVQACGKFGAKPIRANEQENSNLFWACRGGGGGNFGIITSLTFRVHPVKNVSIFSITWEWEDFIAAFQAWQNWAPYIDERLTSSIELFAKQRNKIEAQGEFVGSPSELHSLLSPLLETGSPSLFIEEVPYIKAVEFFNGGNIPENFKRSGSYVYKPIPLKGIQLMQYFLSHAPNKDASIWHQSLIGAVENISPNETAYFHRKAIIAQEYITSWKCDDEENRNIRWVKDLRESLDPYTLGDYVNWPDIDIKNWQTSYYGSNFHRLRKVKTMYDPCDVFHFQQSIPPFHT				NA	NA	NA	NA	NA
AK009_05660	1665	malL_2	COG0366	Oligo-1,6-glucosidase	ATGAATAAGACATGGTGGAAAGAAGCAGTTGCTTATCAAATTTATCCACGAAGCTTTATGGATTCAAATGGTGATGGTATTGGAGATTTACAAGGTATTATTGCAAAACTGGATTATTTAAAAGACTTAGGTATAGATGTAATTTGGATTTGTCCAATGTATAAGTCGCCTAATGATGATAATGGTTATGATATTAGTGATTATCAAGATATTATGGATGAGTTTGGTACAATGGCAGACTTTGATGCTTTACTAGATGAAGTTCATAAGCGTGATATGAAGCTTATTATTGATTTAGTTATTAATCATACGAGTGATGAACATCCATGGTTTATTGAATCACGTTCATCTAAAGATAATCCGAAGCGTGATTGGTATATTTGGCATGATGGTAAAGATGGTGCGGAGCCAAACAACTGGGAAAGTATTTTTAATGGTTCGGCATGGGAATATGATGAAGAAACAGAACAATATTATTTACATCTATTCTCACGTAAACAACCAGATTTGAACTGGGAGAATAAAGAAGTTCGCGAAGTACTATATGATACGGTTAATTGGTGGCTTGATAAAGGTATTGATGGTTTCCGCGTTGATGCGATCAGTCATATAAAAAAAGAAGAAGGCCTTAAGGATATGCCAAATCCAAAAGAGTTAAAATATGTGCCATCTTTTGATAAACATATGAATGTGAAAGGTATTCAACCTTTATTAGAAGAGCTAAAAGAAAATACATTATCTAAGTACGATATTATGACTGTTGGTGAAGCAAATGGCGTTAAGATTGAAGATGCTGAGCTTTGGGTTGGAGAAGAGCAAGGTAAGTTCAATATGGTATTCCAGTTTGAACATTTAAGTTTATGGGATGCAGAGAAGAAGAAAGACCTTGATGTTGTAGGGTTGAAAAAAGTATTAACGAAATGGCAAAAAGGATTAGAAAATAAAGGATGGAACGCTTTATATATTGAGAATCACGATAAACCACGTATCGTTTCAACATGGGGAGATGACAAACAATATTGGCGTGAAAGTGCAACAGCTCTAGGGGCGATGTATTTCTTTATGCACGGTACACCGTTTATTTATCAAGGCCAAGAAATTGGTATGACAAATGTTCAGTTACCAAATATTGAAGATTACGATGATGTAGCAATTAAAAATTTATATCGCGAGAAAATTGCAGAGGGCGTACCACATCAAGATATGATGGAGATTATATGGGCTTCTTGCCGCGATAATTCACGTACACCTATGCAGTGGAATGATGAGATGAATGCTGGTTTCACAACAAGTACACCTTGGTTTAGCATGAATCCAAATTACAAAGAAATTAATGTTGAAAAGCAAAAAAATGAAGAAAAGTCTATTTTCAATTTCTATAAGAAAATGATTGCCCTGAAAAAAGAGCACGATGTACTGAACTATGGTACGTACGATTTACTTTTAGAAGACGATCCACAAATTTATGCATATACACGTACGTTACAGGATGAAAAAGTCATTGTAATTAGTAATATCTCAAAAGAGGAAGCTGTGTATAATGAGGGTTCATTTGCACTAGAACGCAAACGTTTGCTTTTAAATAACTATGAAGTTGCGGAACATGAAGAAGTAACAACAATTGCTTTAAAACCTTATGAAACAAGGGTTTATCGCATTTCATAA	MNKTWWKEAVAYQIYPRSFMDSNGDGIGDLQGIIAKLDYLKDLGIDVIWICPMYKSPNDDNGYDISDYQDIMDEFGTMADFDALLDEVHKRDMKLIIDLVINHTSDEHPWFIESRSSKDNPKRDWYIWHDGKDGAEPNNWESIFNGSAWEYDEETEQYYLHLFSRKQPDLNWENKEVREVLYDTVNWWLDKGIDGFRVDAISHIKKEEGLKDMPNPKELKYVPSFDKHMNVKGIQPLLEELKENTLSKYDIMTVGEANGVKIEDAELWVGEEQGKFNMVFQFEHLSLWDAEKKKDLDVVGLKKVLTKWQKGLENKGWNALYIENHDKPRIVSTWGDDKQYWRESATALGAMYFFMHGTPFIYQGQEIGMTNVQLPNIEDYDDVAIKNLYREKIAEGVPHQDMMEIIWASCRDNSRTPMQWNDEMNAGFTTSTPWFSMNPNYKEINVEKQKNEEKSIFNFYKKMIALKKEHDVLNYGTYDLLLEDDPQIYAYTRTLQDEKVIVISNISKEEAVYNEGSFALERKRLLLNNYEVAEHEEVTTIALKPYETRVYRIS	PGPT0018560_3977	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
AK009_05661	1638	glcB	COG2190	PTS system glucoside-specific EIICBA component	ATGAAAATTACGTCTTTTGATTTTTGGCAAAAGTTCGGGAAAGCGTTATTAGTTGTTGTAGCTGTAATGCCAGCAGCCGGTTTAATGATTTCCATCGGTAAGTTAATTGGGATGTCTGCTGGGGATGTTAACGCAGTTCATACAATTGCTCGCGTAATGGAAGACATCGGTTGGGCAATCATTACAAATCTACACATTTTATTCGCAGTAGCAATTGGGGGATCTTGGGCGAAGGATCGTGCAGGCGGTGCATTTGCAGCACTATTAGCATTCGTCTTAACAAACCGAATTACAGGAGCTATATTTGGCGTAAACGCTCAAATGTTAGCGGATTCAAAAGCGACAGTTTCTTCAGTAATAGCAGGAGATTTACTTGTAAAAGATTATTTTACTTCTGTACTTGGTGCACCAGCATTAAACATGGGAGTTTTCGTGGGGATTATCACAGGTTTCTTAGGAGCTAATCTATATAACAAATATTATAACTATAATAAACTGCCACAGGCATTAGCATTCTTTAATGGAAAACGATTTGTGCCATTCGTTGTAATTCTTTGGTCTACAGTTACTGCGATTGTATTATCACTTCTATGGCCATTCATCCAAAGTGGGTTAAATGAATTTGGTCGCTGGATTGCAGCTTCAAAAGATAGTGCACCAGTTGTTGCACCGTTTGTATATGGAACGTTAGAGCGTTTATTATTACCATTTGGTTTACACCATATGTTAACGATTCCGATGAACTATACAGAGCTAGGTGGAACATATACGATGCTAACTGGTTCAAAAGTTGGACAAGTTGTAGCAGGACAAGATCCATTATGGCTTGCATGGATTACAGATTTAAATAATTTATTAGCAAATGGAGATACGAAGGCATATAACGATTTATTAAATAACGTTGTACCAGCTCGTTTCAAAGCTGGACAAGTTATCGGCTCAACAGCAGCGTTAATGGGGATTGCATTTGCGATGTTCCGTAACGTTGATAAAGAAAAGCGTGCAAAATATAAACCAATGTTTTTATCAGCAGCATTAGCAGTATTCTTAACAGGTGTAACAGAACCAATTGAATTCATGTTCATGTTTATTGCTCCAGTATTATATGTTGTATATGCTATTACAACAGGACTTGCATTCGCGCTAGCTGATTTAATTAACTTACGTGTTCATGCATTTGGATTTATTGAGTTAATTACTCGTACACCAATGATGGTTAATGCAGGTTTAACAAGAGACTTAATCAACTTTGTTATTGTTTCATTAGTGTTCTTCGGTCTTAACTTTACACTATTTAATTTCTTAATTAAAAAATTCAATTTACCAACACCAGGGCGTGCAGGTAACTATATTGATAATGAAGATGAGGCATCAGAAGGAACAGGAAATGTACAAGACGGTTCATTAGCAACAAAAGTTATCGATTTATTAGGTGGAAAAGAAAATATTGCTGACGTAGATGCTTGTATGACACGCTTACGTGTAACAGTAAAAGACTTAGATGTTGTTGCACCAGAAGCACAGTGGAAACAAAATGGTGCTTTAGGGCTTATTGTAAAAGATAAAGGTGTACAAGCGGTATATGGTCCGAAAGCTGACGTATTAAAGTCAGACATTCAAGATATGTTAGGTGCGTAA	MKITSFDFWQKFGKALLVVVAVMPAAGLMISIGKLIGMSAGDVNAVHTIARVMEDIGWAIITNLHILFAVAIGGSWAKDRAGGAFAALLAFVLTNRITGAIFGVNAQMLADSKATVSSVIAGDLLVKDYFTSVLGAPALNMGVFVGIITGFLGANLYNKYYNYNKLPQALAFFNGKRFVPFVVILWSTVTAIVLSLLWPFIQSGLNEFGRWIAASKDSAPVVAPFVYGTLERLLLPFGLHHMLTIPMNYTELGGTYTMLTGSKVGQVVAGQDPLWLAWITDLNNLLANGDTKAYNDLLNNVVPARFKAGQVIGSTAALMGIAFAMFRNVDKEKRAKYKPMFLSAALAVFLTGVTEPIEFMFMFIAPVLYVVYAITTGLAFALADLINLRVHAFGFIELITRTPMMVNAGLTRDLINFVIVSLVFFGLNFTLFNFLIKKFNLPTPGRAGNYIDNEDEASEGTGNVQDGSLATKVIDLLGGKENIADVDACMTRLRVTVKDLDVVAPEAQWKQNGALGLIVKDKGVQAVYGPKADVLKSDIQDMLGA	PGPT0016910_229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE_PTS_SYSTEM,PGPT0016910-malT-K20108	NA	NA
AK009_05662	792	mapP		Maltose 6'-phosphate phosphatase	ATGAAATTGCTAACTTTAAACTGTCATTCTTGGCAAGAAGAGAATCAAATAGAAAAGATACAATACCTTGCTAAAGTAATTCAAGAAGAAGAGTACGATGTCATCGCATTGCAAGAAGTAAGTCAGTCCATACAAGCTGAAAATGTATGCGGTAACAAGAAAGAAGATAATTTTGGACTTTTACTATTAGAAGAGTTAAAAGCGCTACATGTAAAAGATTACAATATTACTTGGGATTTCTCTCATATTGGTTATGACGTGTATGAAGAAGGATTAGCGATTATAACGAAGCATAATATTATAAAAGAAGATACGTTCTTTATTTCAGAAAACGAGGATACAACGTATTGGAAAACGCGTAAAATTGTAAGTACAACACTTGCTTATAATGGTAAGGATATAACGTTTTACTCTTGCCATCTCGGTTGGTGGAATGATGAAGAAGAGTCATTCAAAGGTCAAGTCGATCGTTTGATGGAGCGTGTAGATAGCAATAAGCTCGCCTTCTTAATGGGAGATTTTAATAACAATGCTCGATTGAAAGGCGAAGGTTATGAGTATATGATGCAAAAAGGGTTGTATGACACATATGAATTAGCAATAGAGAAGGATGAAGGAACGACTGTCCAAGGCGAGATTGCTGGTTGGGATGAAAATAAACATAGTTTGCGAATCGATCTAATATTGTGTAACCAAAGTAAAAAGGTTCATTCTTCAAAAGTTATTTTTAATGGTACAAACAGAAATGTAATTTCAGATCATTTCGGTGTAGAGGTTCAATTGGATATATAA	MKLLTLNCHSWQEENQIEKIQYLAKVIQEEEYDVIALQEVSQSIQAENVCGNKKEDNFGLLLLEELKALHVKDYNITWDFSHIGYDVYEEGLAIITKHNIIKEDTFFISENEDTTYWKTRKIVSTTLAYNGKDITFYSCHLGWWNDEEESFKGQVDRLMERVDSNKLAFLMGDFNNNARLKGEGYEYMMQKGLYDTYELAIEKDEGTTVQGEIAGWDENKHSLRIDLILCNQSKKVHSSKVIFNGTNRNVISDHFGVEVQLDI	PGPT0018615_261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018615-mapP-K06896	NA	NA
AK009_05663	2862			hypothetical protein	ATGAAACAGATTTGGCGTATTTATAAGACAGATTTACGGAATGTAGCCAAACATTGGGCTGCAATTGTTATTGTTTTAGGATTAATGATTTTACCATCGTTATATGCATGGTTTAACATTAAAGCTTCTTGGGATCCGTATGGAAATACAAAAGAGGTTCCCATTGCAGTTTCTAACCAAGATGCAGGTTCTAATTTAAGAGGGAAAGACATTAATATCGGGAAAGAGATTGTAGACTCCCTTAAGAAAAACAAAAATCTTGGCTGGAAATTTGTAGATGAAAAACAAGCAATTTACGGAGTTGAGCGTGGGGATTATTATGCAAGTATTACGATTCCAAAAGACTTCTCTGAAAAAATTGCAACTGTTCTGGATGAAAATCCGAAAAAACCAGAACTGGATTATTATGTGAATGAAAAAGTAAACGCGATTGCACCGAAGATTACAGCAAAAGGTGCATCAGGTATTACAGAAGAAATTAGTAAAAACTTTGTAAAAACAGCAAACGGTGAGATTTTTAAAATTTTCAATGACCTTGGAATCGATTTAGAAACAAACTTACCAAGTATCGAAAAAGTAAAAGATCTTGTATTTAAGTTAGAAGCGCAGTTCCCAGAAATGAATACACTCATGGATAAGGCGTTAGATGATGCGACTCGAGCAGAAGATATTGTGAAAGTGGCGCAAAAAGATTTACCTGTTGTAGAGAGTGTAATAAATGATGGGCAGGAAGCATTGGCGAATTTAGATAAGTTCTTTGCAAGACAAGATCAAACATTAAAAAACGCTCCAGGAACGATAAGAAATGATTTAGTAGTAGCAAAAGGCGTTATGGATAGTGCAGCTGTATTTACTAACTTTTTAATGAATCCAGGTGTGGATTTAAATATTCCTGATTTCTCTGGAATGAATGGATTACCTGAATTCCCTGCAAGACCGGACCTTTCTAAGTTGAATAATGACGGATATAAAAGTATAGCGCAAAATATTAATCAAACAGTAAATAATGTTTTAAGCTCATCACGTGCAGGAACAGCTTATGGGAAAAGTGTTTTAAATGGATTGCAAAATGGTCAGTTTGATCCAGAACAAGCAAAGAAAGATTTAAATGCAGTATCAAATCAATTGCAAGCTCGTACAGAAGGTATTTCGTATCTTATTAATGTATTTACTGAACTTCAAAACTCAGCGACGACTGATTTTGGAAAAAGCTTTTTCCAAGGGCGAGTGGATCGCCTAACTAAGCTGAAAAGTGGTATGGAAAATGCAAACAACGGTATTAAAGATATTGTAAATGTTATCGGTACAGGACAAGAAGTAAAGAAAGATGTAACAGATGTAGCAAATCAAAAATTAGATGCAGCAAATGCATTAATTGATCAAGCTGAAAAAGATTATAATGAAACGTTTGTAGCAGATTATAAAAAAGCAGTTAGCACAGTAGATCAAGCTAAAGCTAATGCGAATGAAATATACGATAATGCAAAAGCTGATTATGATAAAGCGAAAAATGGTCTAGAAAGTACTAAATCTAGTGTCCAAAAAGCACTAGAGGATGTACAAAACAAAGGTATTAATGGTTTAGAAGGTTCGAAGGAAGCCTTGAAAAGCTTAAATGGTCAATTCCAATCTGGAATCGGTTTAATTGATGATATGATTCCAGTTCTAGAAAGTACAAATAAGGTTTTAGCGGATGTAAATAGTGATAAAAACCTTAATAATGGAATCGCAAAATTAAATAAAGCGAAAAGTAGTCTGCAAAAAGGTGTAGATGCAACGAATAAGGGGATTACACTTCTTAACAATGGACAGAAACCTACAAAAGATGTAATTGAAAGTATTAACAATGCTGCGAAGGGCGGATCAGCTCAATTAACAGATGTATTATCGACGTATGATTCAGAGATTGTACCTAACTTCAATACAGCAATTGCTCGTACAAAAGAGATGTCGAAAAATACAACTCAAATTTTAAACGATGCAGACAAAAAGCTTCCAGATGTTAAAAAGTTACTAGAAGATTCATCAAAAGGCTTGGTAGACGGTAGAAAGAAATTAGTAGACATTAAAGCTGAAATGCCGGAGACTGAGAAAAAGATTAAAGATTTAGCAAATAAAATTCGTGATTTTGAATCTGAAGAGGATTTAAAAGACATCATACGCTTATTGAAAAACGATGTTGAGAAGCAAAGTGATTACTTTGCGAATCCAGTAAATTTAAAAGAAAATAAATTATTTGCGATGCCGAACTACGGTTCAGCGATGTCACCATTCTATACAGTGCTTGCATTATGGGTAGGCGCATTATTAATGGTTTCATTATTAACGGTAGAAGTACACGAAGAGGGCGCGAATTATAAGAGCCATGAAATTTACTTCGGACGTTTATTAACATTCTTAACGATAGGTCTTTCACAAGCGTTTATCGTATCGATGGGAGATATATTCTTACTCGGTACGTACGTAGTCGATAAGTTCTGGTTTGTGTTATTTAGTTTATTTATTGGTGGAGTCTTCGTTTGTATCGTATACTCACTCGTTTCTATTTTCGGAAACGTTGGGAAATCGATGGCGATCATTTTACTTGTACTACAAGTAGCAGGGTCGGGCGGAACATTCCCAATTCAAATGACACCGAAATTCTTCCAAGCAATTTATCCGTTCTTACCGTTCACATACGCAATTAGTGCAATTCGTGAAACTGTTGGCGGAATGCTTTGGGATATCGTAATAAGAGACTTACTTGTGTTAAGTGTTTTCGTAGTAGTTATGATCGTTGCTGCGTTATTACTGAAAACACCAATTAACAAATCAAGTGAAAAATTTGTTGAGAATGCAAAAGGAAGTAAAATTATTCACTAA	MKQIWRIYKTDLRNVAKHWAAIVIVLGLMILPSLYAWFNIKASWDPYGNTKEVPIAVSNQDAGSNLRGKDINIGKEIVDSLKKNKNLGWKFVDEKQAIYGVERGDYYASITIPKDFSEKIATVLDENPKKPELDYYVNEKVNAIAPKITAKGASGITEEISKNFVKTANGEIFKIFNDLGIDLETNLPSIEKVKDLVFKLEAQFPEMNTLMDKALDDATRAEDIVKVAQKDLPVVESVINDGQEALANLDKFFARQDQTLKNAPGTIRNDLVVAKGVMDSAAVFTNFLMNPGVDLNIPDFSGMNGLPEFPARPDLSKLNNDGYKSIAQNINQTVNNVLSSSRAGTAYGKSVLNGLQNGQFDPEQAKKDLNAVSNQLQARTEGISYLINVFTELQNSATTDFGKSFFQGRVDRLTKLKSGMENANNGIKDIVNVIGTGQEVKKDVTDVANQKLDAANALIDQAEKDYNETFVADYKKAVSTVDQAKANANEIYDNAKADYDKAKNGLESTKSSVQKALEDVQNKGINGLEGSKEALKSLNGQFQSGIGLIDDMIPVLESTNKVLADVNSDKNLNNGIAKLNKAKSSLQKGVDATNKGITLLNNGQKPTKDVIESINNAAKGGSAQLTDVLSTYDSEIVPNFNTAIARTKEMSKNTTQILNDADKKLPDVKKLLEDSSKGLVDGRKKLVDIKAEMPETEKKIKDLANKIRDFESEEDLKDIIRLLKNDVEKQSDYFANPVNLKENKLFAMPNYGSAMSPFYTVLALWVGALLMVSLLTVEVHEEGANYKSHEIYFGRLLTFLTIGLSQAFIVSMGDIFLLGTYVVDKFWFVLFSLFIGGVFVCIVYSLVSIFGNVGKSMAIILLVLQVAGSGGTFPIQMTPKFFQAIYPFLPFTYAISAIRETVGGMLWDIVIRDLLVLSVFVVVMIVAALLLKTPINKSSEKFVENAKGSKIIH				NA	NA	NA	NA	NA
AK009_05664	2190	topB_2	COG0550	DNA topoisomerase 3	ATGTCAAAAAGCGTTGTAATCGCTGAAAAGCCTTCCGTTGCACGAGATATTGCTCGTGTACTGAAGTGTGATAAAAAAGGAAACGGCTATCTTGAGGGTAGTAAATATATTGTAACTTGGGCTTTAGGTCATCTCGTTACATTAGCAGATCCAGAAAGCTATGATGTGAAATATAAACAGTGGAATTTAGAAGATTTACCAATGCTACCAGAGCGTTTGAAATTAACGGTTATTAAACAAACTGGTAAACAGTTTAATGCTGTAAAGAGTCAGCTACTTAGAAAAGATGTAAATGAAATTATTGTAGCAACAGACGCTGGACGTGAAGGGGAATTAGTCGCACGCTGGATCATCGATAAAGTTAAGCTAAACAAACCAATCAAACGTTTATGGATTTCTTCTGTAACCGATAAAGCAATTAAAGATGGTTTTGCAAATTTAAAACCAGGTAAAGCCTATGACAATTTATACGCTTCAGCAGTTGCACGTTCAGAAGCTGACTGGTATATCGGTCTTAATGCAACTCGCGCTTTAACGACTCGCTTTAATGCTCAGTTAAATTGCGGTCGTGTACAAACGCCTACTGTCGCTATGATTGCTAGTCGTGAAGATGAAATCAAGAACTTCAAAGCACAAACTTACTACGGCATCGAAGCTCAAACGATGGAGAAACTCAAACTTACTTGGCAAGATGCAAATGGCAATAGCCGTAGTTTTAATAAAGAAAAAATTGATGGTATTGTAAAAGGTTTAGATAAACAACATGCTACTGTTGTGGAAATTGATAAAAAACAGAAGAAGTCATTCTCTCCTGGTCTTTACGATTTAACTGAATTACAACGTGATGCAAATAAAAAGTTCGGTTACTCTGCGAAAGAAACATTAAACATTATGCAGAAGTTATATGAACAACATAAAGTGCTAACGTACCCTCGTACAGATTCACGCTACATTTCATCTGATATCGTTGAAACACTTCCAGAACGTTTAAAAGCATGTGGCGTTGGAGAGTACCGTCCTTTAGCACATAAAGTATTACAAAAGCCTATCAAGGCTAATAAATCATTTGTTGATGATAGTAAAGTAAGCGATCATCATGCGATTATTCCAACAGAAGGATACGTTAACTTCTCAGCATTCACAGATAAAGAACGTAAAATTTATGATTTAGTTGTAAAACGTTTCTTAGCTGTTTTATTCCCAGCATTCGAATACGAGCAACTAACATTACATACTAAAGTTGGTAGTGAAACGTTCATTGCACGCGGAAAAACAATTTTACATGCTGGTTGGAAGGAAGTATACGAAAATCGATTTGAAGACGATGATGTAACTGATGACGTAAAAGAGCAGCTTCTGCCTCACATTGAAAAGGGCGATACATTAACTGTAAAGTTACTTATGCAAACATCAGGCCAAACGAAAGCACCTGCACGCTTTAATGAAGCAACTTTACTTTCAGCAATGGAGAATCCTACAAAATATATGGATACGCAAAATAAACAACTTGCTGATACGTTAAAATGGACTGGTGGATTAGGTACTGTAGCAACGCGTGCTGACATTATCGACAAGCTATTCAATTCATTCTTAATTGAAAAACGTGGTAAAGATATTCACATTACTTCAAAAGGTGGCCAGTTACTTGATTTAGTACCAGAAGAATTAAAATCTCCTACACTAACTGGTGAATGGGAACAAAAACTTGAGGCTATCGCAAAAGGTAAATTGAAAAAAGAAGTATTCATTTCGGAAATGAAGAACTATACGAAAGAAATTGTTTCTGAAATTAAATCGAGTGATAAGAAATATAAACATGACAACATTTCGACGAAGTCTTGTCCAGATTGCGGTAAACCAATGCTAGAAGTAAATGGAAAAAAGGGAAAAATGCTCGTATGCCAAGACCGTGAATGTGGTCATCGTAAAAATGTATCTCGTACAACAAATGCTCGCTGTCCGCAATGTAAAAAGAAACTAGAATTACGTGGTGAGGGTGCAGGCCAAATTTTCGCATGTAAATGTGGCTATCGCGAGAAATTATCAACATTCCAAGAGCGACGTAAAAAAGAATCTGGAAACAAAGCCGATAAACGCGACGTTCAAAAATATATGAAACAACAGAAAAAAGAAGAAGAACCATTAAATAACCCATTCGCGGAAGCATTAAAAAAATTAAAATTTGATTAA	MSKSVVIAEKPSVARDIARVLKCDKKGNGYLEGSKYIVTWALGHLVTLADPESYDVKYKQWNLEDLPMLPERLKLTVIKQTGKQFNAVKSQLLRKDVNEIIVATDAGREGELVARWIIDKVKLNKPIKRLWISSVTDKAIKDGFANLKPGKAYDNLYASAVARSEADWYIGLNATRALTTRFNAQLNCGRVQTPTVAMIASREDEIKNFKAQTYYGIEAQTMEKLKLTWQDANGNSRSFNKEKIDGIVKGLDKQHATVVEIDKKQKKSFSPGLYDLTELQRDANKKFGYSAKETLNIMQKLYEQHKVLTYPRTDSRYISSDIVETLPERLKACGVGEYRPLAHKVLQKPIKANKSFVDDSKVSDHHAIIPTEGYVNFSAFTDKERKIYDLVVKRFLAVLFPAFEYEQLTLHTKVGSETFIARGKTILHAGWKEVYENRFEDDDVTDDVKEQLLPHIEKGDTLTVKLLMQTSGQTKAPARFNEATLLSAMENPTKYMDTQNKQLADTLKWTGGLGTVATRADIIDKLFNSFLIEKRGKDIHITSKGGQLLDLVPEELKSPTLTGEWEQKLEAIAKGKLKKEVFISEMKNYTKEIVSEIKSSDKKYKHDNISTKSCPDCGKPMLEVNGKKGKMLVCQDRECGHRKNVSRTTNARCPQCKKKLELRGEGAGQIFACKCGYREKLSTFQERRKKESGNKADKRDVQKYMKQQKKEEEPLNNPFAEALKKLKFD				NA	NA	NA	NA	NA
AK009_05666	810	thiM	COG2145	Hydroxyethylthiazole kinase	ATGAATATGAAAGAAATTAGTAAAGTAGTGGATTTGGTGAGAGAATCTAATCCGCTCGTTCATAATATTACAAATGTTGTTGTAACAAATTTTACTGCTAACGGTTTGTTGGCACTTGGGGCATCGCCTGTAATGGCGTATGCAAAAGAAGAAGTAGCAGAAATGGCTAGCATTGCTGGAGCGTTAGTATTAAATATGGGAACACTTCGTCCTGAGGAAGTAGAAGCGATGTTACTTGCTGGTAAATCAGCAAATGTGAACAATGTGCCAGTACTATTTGATCCAGTTGGTGCAGGAGCAACTTCGTATCGAACAGAAGTTGCGAGACATATTCCAGCCGAAATAGATTTAGCAATTATCCGCGGCAATGCGGCTGAAATAGCAAACGTTATTAATGAGAAATGGGAAATTAAAGGGGTAGACGCTGGTACTGGAAATGGCAATGTTGTAAGTATTGCAAGGCAGGCAGCAGATGAACTAAATACAGTTGCTGTCATTACTGGAAAAGAAGATGTTGTTACAGATGGAGAGCGAACTGTTCTTATTCGAAATGGTCATCCTATTTTAACAAAGGTTACGGGAACAGGGTGTTTACTAACTTCGGTAATAGGAGCATTTGTAGCAGTAGAAAAAGATTATGTAAAAGCAGTAGTAGCCGCATTAACGTTTTATGGTGTAGCTGCGGAACTGGCAGCTGTTAAAACAGTAGAAAAAGGGCCAGGTAGTTTCCAAATTGAATTTTTAAATCAATTAGCGAATACAACTTCAGCTGATATTGAGAAGTATGGGAAGATTGAGGAGTTAGAGTAA	MNMKEISKVVDLVRESNPLVHNITNVVVTNFTANGLLALGASPVMAYAKEEVAEMASIAGALVLNMGTLRPEEVEAMLLAGKSANVNNVPVLFDPVGAGATSYRTEVARHIPAEIDLAIIRGNAAEIANVINEKWEIKGVDAGTGNGNVVSIARQAADELNTVAVITGKEDVVTDGERTVLIRNGHPILTKVTGTGCLLTSVIGAFVAVEKDYVKAVVAALTFYGVAAELAAVKTVEKGPGSFQIEFLNQLANTTSADIEKYGKIEELE	PGPT0008990_864	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
AK009_05667	657	thiE_1	COG0352	Thiamine-phosphate synthase	ATGCGCATTGAAACAAAGAAAATGTCTAAGTTATTACAAGTGTATTTTATTATGGGAAGTAATAACTGCACGAGGGATCCTTTAGCTGTATTGAAAGAAGCGTTAGATGGTGGAGTGACACTTTTTCAGTTTCGCGAGAAGGGGGAAGGTTCTTTAATCGGAGGAGATAGAGTGCGCTTTGCAAAAGAATTGCAGACGCTTTGTAAGGAATATAGTGTTCCTTTCATTGTAAATGATGATGTAGAATTAGCCATTGAATTAGATGCAGATGGTGTTCATGTAGGACAAAATGATGAAGGGATTACATCTGTTCGTGAAAAAATGGGAGATAAAATTATCGGCGTATCTGCTCATACAATTGAAGAAGCACGCTTTGCAATCGAAAATGGAGCAGATTATTTAGGTGTTGGACCTATTTTCCCAACGAGTACGAAAAAAGATACGAAAGCGGTTCAAGGAACGAAAGGATTAGCTTATTTTAGAGAACAAGGAATTACAGTGCCAATCGTTGGTATTGGTGGGATTACAATTGAAAATACAGCGGCAGTTATAGAAGCGGGTGCGGACGGTGTTTCAGTTATTTCAGCAATTAGTTTAGCTGAATCTGCGTATGAAAGTACGAGAAAATTAGCTGAAGAAGTAAAGAGAAGTTTGTAG	MRIETKKMSKLLQVYFIMGSNNCTRDPLAVLKEALDGGVTLFQFREKGEGSLIGGDRVRFAKELQTLCKEYSVPFIVNDDVELAIELDADGVHVGQNDEGITSVREKMGDKIIGVSAHTIEEARFAIENGADYLGVGPIFPTSTKKDTKAVQGTKGLAYFREQGITVPIVGIGGITIENTAAVIEAGADGVSVISAISLAESAYESTRKLAEEVKRSL	PGPT0008995_1761	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
AK009_05668	1314	dcuA	COG2704	Anaerobic C4-dicarboxylate transporter DcuA	ATGTTTTGGCTACAATTTCTTACCTTGTTACTCTGTATTTTTATTGGTGCACGCCTAGGCGGAGTTGGTTTAGGAGTAATGGGTGGAGTTGGTATGGCAATACTCGTTTTTGTCTTCCACTTACAACCGACCGCGCCTCCTATCGATGTAATGCTTATGATTTTGGCAGTAATTACTGCTGCTGGTGCTTTGCAAGCTGCTGGAGGAATGGACTATCTTGTTCACCTAGCTGAAAAAGCATTACGAAAAAATCCAAAGCGTATTACTTTTTTTGCTCCAATTGTTACTTATTTATTCACACTATGTGCAGGTACTGGTCACGTTGCCTATTCTGTACTTCCTGTTATTGCAGAAGTCTCTCGTGAATCAGGGGTTAGACCGGAACGCCCAATGTCGATTGCCGTAATCGCTTCTCAACAAGCAATTACAGCTAGCCCAATTTCAGCTGCCACAGTTGCTCTTTTAGCAATGTTAGCTGACTATAAAATCACTTTATTAGATATTTTAAAAGTGAGTATTCCTTCTACTTTCATTGCTTGTATGTTAGCAGCATTCGTTGCTAGTAAGATGGGAAAAGAATTAAATGAAGACCCTGAATACTTAAAACGATTAAAAGAAGGAATGATTCCTAAGCTTGAAGAGAAAAAAGAATTTGTAGGTGTAAAGGGCGCCAAATTATCAGTTATCCTTTTCCTTGTAGGAACCTTCCTTGTTGTACTTCTTGGTTCATTTGAAGCACTTCGTCCAGGATGGATAGTTGATGGGAAGTTAGCCCGTCTTTCCATGCCGAACACAATTGAGGTGGTTATGTTAACTATCGCGGCTCTTATTATTATTTTCTGTAAACCAAATGTAGAAAGCATTGTGTCTGGTAACGTCTTTAAAGCAGGAGCAACAGCAGTTGTTGCTATTTTCGGTATCGCTTGGATGGGAGATACTTTCTTTAATGGAAACTTAAATATGATTCAAGGATCTATTCAGCATTTAGTAACAAGTGCACCTTGGCTATTTGCCATCGCACTATTCATTCTATCTATTTTACTGTACAGCCAAGCAGCAACAGTACGTGCCTTAATGCCACTTGGACTATCCCTTGGTATTCCACCAGCACTACTGATTGCGATGTTCCCTGCAGTAAACGGATATTTCTTCATTCCAAACTACGGGACAATCGTTGCTGCCATTAACTTTGACCGTACTGGTACAACAGGTATCGGTAAATACGTATTAAATCATAGCTTTATGATTCCAGGCTTAATTGCAACATTTACTTCTATCGGAATTGGAATGCTTTTAATTTCTATTATGTTTTAA	MFWLQFLTLLLCIFIGARLGGVGLGVMGGVGMAILVFVFHLQPTAPPIDVMLMILAVITAAGALQAAGGMDYLVHLAEKALRKNPKRITFFAPIVTYLFTLCAGTGHVAYSVLPVIAEVSRESGVRPERPMSIAVIASQQAITASPISAATVALLAMLADYKITLLDILKVSIPSTFIACMLAAFVASKMGKELNEDPEYLKRLKEGMIPKLEEKKEFVGVKGAKLSVILFLVGTFLVVLLGSFEALRPGWIVDGKLARLSMPNTIEVVMLTIAALIIIFCKPNVESIVSGNVFKAGATAVVAIFGIAWMGDTFFNGNLNMIQGSIQHLVTSAPWLFAIALFILSILLYSQAATVRALMPLGLSLGIPPALLIAMFPAVNGYFFIPNYGTIVAAINFDRTGTTGIGKYVLNHSFMIPGLIATFTSIGIGMLLISIMF	PGPT0017340_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0017340-dcuA-K07791	NA	NA
AK009_05670	1743			hypothetical protein	ATGAAAAAATATTGGCATAAGTTATCGTTCCTTCAAAAGAACGTCTTATTAACCGTATTAGTTATTTTGACACTTGTTGGAAGTATGGGCGCGTTAAGTTTCAACATGTTTCAAAATAGTATGATGTCTTTATTTGAAAGACAGTCTATTGAAACAGGAGAAATAGTGTTGAAAAAATTGGATGTAGAATTAGTTAGAGACATGGCGAAAGATCCTACAGCCGAAAAAGTGAAAAAAGAAAAGTTAACAGAGAAATTAGATGAAGTGTCAAAAGAATTGAAAAGTGTTGGACAAACGTATGTTACAGGAGCAAAGCCGAATGAAAAGCGGGAATTACAACTCGTTGGTTTGACTACAGAGTTAACAAATGCATTCCCTATAAAGCCGGGAGATTATTATGAACAACCCGCTCATTGGATGAAGGCGTACGATAAGGTCATTGATACGAAAAAGGCCCAAATGACAGAAGTATATGAAGATGAAATAGGTTCGTGGGTGACAATATTAGAACCAATTACAGATGGAGAAAACAATATTGTTGCAATTATTGCGGCTGACTTAGATGCTTCCATTGTTCCTATTACAAAAGAGAAGTTTATGATACAGGGCTTACTCTTTATCATTATTTCATTAGCAATTGCGACTATTACTCAATTCTTTATCGTGCGTCACTCGCTAGCTCCATTAAAAGATTTACGAGAAGGATTACGTAAAATTGGTGAAGGTGATTTAAGTATTAAATTAAAAGAAAGACCAGATGATATTGGAATTATTAATGTTTATTTCAATAACACGATTGAAAAATTTAAAGGGATTATAGATAAAGTAAGGCAAACTGCTGAGCAAGTTTCTTCTTCTTCACAAGAATTGTCGGCGAGTACAGAGGAAAACAGTATGGCAGTTCAAGAGATTGCAAGTTCTATTGAAGGTTTAAGAGTAGGGGCACAGTCTCAAAAAACTTCAGTACAACAATGTTTAGGAATTGTACATGGAATGGAAGATAAGGTAGAAGAGATAACTGGGGCTGCAAAACAAGTTGCGGTTGCTTCTGAAGGTATGGAGCAACATTCAATTGAAGGTAATGAAGTGATTGGACAAATTATTAATCAAATGAGTTTAATCCAAAATGCAGTACAGGATTTATCTTCCATCATTTATTCGTTAGAAACAAGGTCAAAAGAAATTAGTGATATCGTAACTGTAATTACAGGTATTTCAAATCAAACAAATTTATTAGCTTTAAATGCTTCTATTGAGGCTTCACGTGCTGGAGCAGCTGGAAGAGGGTTTGCAGTTGTTGCTGATGAAGTACGAAAATTAGCAGAACAAACTGAAGCGTCTGCAAAAGATATAGCGAAATTAATTGGTGAAACACAAGCTGAGACAGAAGATGCTGTAGTTTCAATGCAAAAAGGTTCAAAAGAAGTAGAAACTGGAATTTCACTTGTTCAAAGTAGTGGAGATTTCTTTGAAAAAATTTCAAAATCAGCGCAATCTGTTACAGATCAAGTAAAAGCTGTCTCTGGTAATTCGAGTGACATTTTACAAAATAGCCAGAATATTGTTCAAGTCGTAAATGAATTATCACATATTGCAAATACTTATGCCAACAGCAGTAGTAATGTTGAAGAAAGCATGAAAGAGCAAGAAATATCAGTACAAGATATTGCAGAATTAGCGACTTCTTTAAGTTGGCTTTCTCAGGAATTACAAGAGCTTATCGGTGAGTTTAAAAGCGAATAA	MKKYWHKLSFLQKNVLLTVLVILTLVGSMGALSFNMFQNSMMSLFERQSIETGEIVLKKLDVELVRDMAKDPTAEKVKKEKLTEKLDEVSKELKSVGQTYVTGAKPNEKRELQLVGLTTELTNAFPIKPGDYYEQPAHWMKAYDKVIDTKKAQMTEVYEDEIGSWVTILEPITDGENNIVAIIAADLDASIVPITKEKFMIQGLLFIIISLAIATITQFFIVRHSLAPLKDLREGLRKIGEGDLSIKLKERPDDIGIINVYFNNTIEKFKGIIDKVRQTAEQVSSSSQELSASTEENSMAVQEIASSIEGLRVGAQSQKTSVQQCLGIVHGMEDKVEEITGAAKQVAVASEGMEQHSIEGNEVIGQIINQMSLIQNAVQDLSSIIYSLETRSKEISDIVTVITGISNQTNLLALNASIEASRAGAAGRGFAVVADEVRKLAEQTEASAKDIAKLIGETQAETEDAVVSMQKGSKEVETGISLVQSSGDFFEKISKSAQSVTDQVKAVSGNSSDILQNSQNIVQVVNELSHIANTYANSSSNVEESMKEQEISVQDIAELATSLSWLSQELQELIGEFKSE	PGPT0015710_14568	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
AK009_05671	3582	lgrD_2		Linear gramicidin synthase subunit D	ATGAAATTAGCAATTTCTTATAATGAGATGGTAAAAGAATTTTTAGGGAAAGTAGAAGGAAGTATTAAAATACCTAAAGATGTGCAAGGAACGGAACTTAGGATAAAAAGGAAAACTGAACTATTTCCAAATTTGACTCACATTGTAGATTTAATAGGAGCGACTGCAACGTGGTTATATCATATTTCTAAAGAAAAACATATTGTCGTGCTTTATCATGTAAGAGGAAGTTTATTTCCGATTACTATTGAAGTTTCTAATTTTCTCTCCTATGAAAGTGTGGATTTACAGATTGAAGAGCAACTGGAACAAATTAAAGAAATGAATGAGGAAGAAATAGAAGAGTTTCAAAACGGTAATACATTATATGAAATGTCACCTATTATTATTGGTGAAACATATTATGAGCTACAAGACACGAATACATTACAATTTGTATTCAGTAAAAATATGCAAAGCGTAGAAATAATATTTAATAGTGTTAATTGGAAAGAGACAACGATTACTCGTTATGCACAACAAATACAAGGTGTTTTAATCAATACATTAAAAAATAATAATAATTATATAAATGATTTTAATGTTATTACAGAGGCCGAGATGGCACTTTATAGTCAAGTGAATGATACGACAGCAGTATATCCTGAGAAAAGTATCGTCGATATGTTCTATAATACTGTTACTCAATTTCCAAATCGTATAGCTTTATCTTCAAGGGAAGGTACTTTAACTTATGAGGAGCTAAATAAAAAAAGTAATCAAATAGCTCATATGTTAATTAAAAACGGCGTCCAATTAGGAGACTATGTTGGAATATTTATGAAACGTAGCATAGACACAGTAGTAAGTATGGTAGCTATATTAAAAGCTGGTGCAGCGTATGTTCCGATTGATCCAGATTATCCGGAAAGTAGAATACAGTACATTATTCAAGATAGCCAAGCGAAAGTTATATTGATGAAAGAGACGCCTATAACATGTGATGGGGTTCAAACAGTTTCAATGTATGATAGTGAAACTTGTGAAGATATAGATGTAAAGTTGTCTATTCATTGTGATGATGTAGCTTATATGATTTATACATCTGGTTCAACAGGGAATCCAAAGGGAACGATGTTAGCACATAGAGGCGTTGTTAATCTGTACATTTGGATGCAAAAGCAATATGAATTGACAGAAGAGGATGTATTTGCCCAATTTCCTTCCTTTAGTTTCGATGCTTCTGTATGGGAGTCATTTGCTTCTTTATTCTGTGGAGGAAACTTGTATGTATTATTAGAGGAAGAGCGATTGTCTGTAGAAGCATTTGCACATGCAATCTATAAAGTGAAAGCAACTTCGATCTTGGCATTAGCAACAATTTTTGTTCGACAAGTAGCAACTTATTTAGCAGAAGAAGATATATATAAGCTAGCTTCCCTAAAAAGAATTGCGATTGGCGGTGAAATGTTGCCTGTAGAGGTTATTAAATTGTGGAGAGAAAGAATAGGTACAAATGTTGAAATTCATAATGTATACGGACCGACAGAATGTACAGTAGTGACGACAACTTATAAAATACCTAGTCAGTTAAATGAGGATGTTGCGAGTATTCCCATTGGTAAACCATGTTCTAATTATCAAGTTATGATTTTGGATGAGAATATGAATCTTTGTCCAATTGGTGTACCTGGTGAATTATATATAGATTCAGTAGGATTAGCAAAAGGGTATTTTAATAAACCTAATAAAACAATTGAAGCTTTTATTCCGAACCCTTTTAATCCTATAGTTAGTATATATAAAACAAGTGATATTGTTAAGTTGCTAGAGGATGGAAATATAGAGTTTTTACATCGGAAAGATGATCAAGTAAAAATTAGAGGACATCGTATTGAACTAGGAGAAATCCAAAGTAAAATTTCTCAAAATCATAATATAAAAGAAAATGCTGTTTTTGCTAAGAAGAGTAAGGAAGGTAGCCAATATTTAATCGCGTTCTATACAACTTTAAATAAAAAAGAAATACCAGAATTAGTTTATCAGTTACAAGAGCAATTACCAGATTATATGGTGCCATCTAAACTAATTTATATTAATGAATTACCACTTACACCTAATAAAAAGATTGATGTTAAGAAGTTAGCTCAGTTAGAAGAAAAGTATGAACCGGTTCGTCTACAAGAATATGTTGCACCTTCTAATAAAGCAGAAAAACAAATAGCGAACGCTTGGGCGGAAGTATTAGGAATTTCAAAAGTTGGAGTGCATGATGATTTCTTTACAATTGGTGGACATTCATTGAAAGTATTACGAGTCTTAACATTGTTAAAAGAAGATTTTTCACATTTAACAATTCAAGATTTCTTTAAAGAAAGAACGATATATGGATTAGCTCGAATTGAGCGAGAAGTAAAAGTAGAGAAAGAAGAAGTATTTCGTGAATATAAAGTGATTCACGAACCAGATACTATTACGTATGCAAACGTTTTGGAAGAAACCCAGATTTTAAATGTCTTTTTAACAGGAGCTACTGGTTATTTAGGATCACACATATTATATGAATTGTTGAGAGATACATCTGCTACTATTTATTGTTTAGTAAGACCAACCAAAGATGTGCAACAAAGAATTATAGATACATTAACAGGCTACTTTAGTGATATATGTGAAGAATGGTTACAGCGTATACAGGCCGTAGCTGGTGATCTGGGGGAAGAGTATCTTGGGATGAGCGAAGAAGAATTTATGTTCATCAGTTCTAAGATGGATACGATAATTCATTGCGGTGCAGATGTAAGACATTTTGGAGATGTAAAACAATTTGAAAATATAAATGTCCAAGGAACTAGCCGTATGCTAGCATTAGTGGAAAAAGATGCTACATTCCATTTTATTTCTACGATTGGTATCCCGTTAGAATTAGCAGTAGATCAATGGGATACATACATGAAAACTGGTGATTTTAATTACAGTGTAGACTTAGAGAATGTATATTCAAATAGTAAACTACAAGCGGAAAACATTGTTCGTGAAGCAATGAAAAATGGTTTGCGTGGAAATATTTATCGTGCAGGTAATTTAGCATGTCATTCAGAAACAGGTTCGTTCCAACAAAATATTGAAGGAAACGCATTTTATCGTCTTATTAAAACAATGCTATTAATTGGAAAAGCACCAAATGTGAAGTGGAAAGTTGATTTCACACCAATTGATTTTGCTAGTAAATCAATTGTAACGTATGTACAAGATTCACAAATAGATGGAGAAACATTGCACATCTGTCATCCACATCAAATTGAGTTTGAACAATTTATACAGCTAATTGGAGAGTGTGGATACAATCTTGAACTGGTTACACTTTCAGAATATGAAAATGCCGGACTTGAATTAGCAAAGGGAAATGAAGTAATAGCAGAGTTAATTGCTTCTCAAGTTGCAGGAGATGGAGCGCAGCAATCTGAAATTGTAATGGGTACGCGTAGAACGAATGAATGGATTAAGAAAAAAGAATTGAAAGTACCAGCAATTAATAAAGAATTTATACAGCAGTTATTAGCTCATGGTGAAAAAGTTGGTTATTTTCCAAAAATAATGAAATGA	MKLAISYNEMVKEFLGKVEGSIKIPKDVQGTELRIKRKTELFPNLTHIVDLIGATATWLYHISKEKHIVVLYHVRGSLFPITIEVSNFLSYESVDLQIEEQLEQIKEMNEEEIEEFQNGNTLYEMSPIIIGETYYELQDTNTLQFVFSKNMQSVEIIFNSVNWKETTITRYAQQIQGVLINTLKNNNNYINDFNVITEAEMALYSQVNDTTAVYPEKSIVDMFYNTVTQFPNRIALSSREGTLTYEELNKKSNQIAHMLIKNGVQLGDYVGIFMKRSIDTVVSMVAILKAGAAYVPIDPDYPESRIQYIIQDSQAKVILMKETPITCDGVQTVSMYDSETCEDIDVKLSIHCDDVAYMIYTSGSTGNPKGTMLAHRGVVNLYIWMQKQYELTEEDVFAQFPSFSFDASVWESFASLFCGGNLYVLLEEERLSVEAFAHAIYKVKATSILALATIFVRQVATYLAEEDIYKLASLKRIAIGGEMLPVEVIKLWRERIGTNVEIHNVYGPTECTVVTTTYKIPSQLNEDVASIPIGKPCSNYQVMILDENMNLCPIGVPGELYIDSVGLAKGYFNKPNKTIEAFIPNPFNPIVSIYKTSDIVKLLEDGNIEFLHRKDDQVKIRGHRIELGEIQSKISQNHNIKENAVFAKKSKEGSQYLIAFYTTLNKKEIPELVYQLQEQLPDYMVPSKLIYINELPLTPNKKIDVKKLAQLEEKYEPVRLQEYVAPSNKAEKQIANAWAEVLGISKVGVHDDFFTIGGHSLKVLRVLTLLKEDFSHLTIQDFFKERTIYGLARIEREVKVEKEEVFREYKVIHEPDTITYANVLEETQILNVFLTGATGYLGSHILYELLRDTSATIYCLVRPTKDVQQRIIDTLTGYFSDICEEWLQRIQAVAGDLGEEYLGMSEEEFMFISSKMDTIIHCGADVRHFGDVKQFENINVQGTSRMLALVEKDATFHFISTIGIPLELAVDQWDTYMKTGDFNYSVDLENVYSNSKLQAENIVREAMKNGLRGNIYRAGNLACHSETGSFQQNIEGNAFYRLIKTMLLIGKAPNVKWKVDFTPIDFASKSIVTYVQDSQIDGETLHICHPHQIEFEQFIQLIGECGYNLELVTLSEYENAGLELAKGNEVIAELIASQVAGDGAQQSEIVMGTRRTNEWIKKKELKVPAINKEFIQQLLAHGEKVGYFPKIMK				NA	NA	NA	NA	NA
AK009_05673	321			hypothetical protein	ATGTCACAACAAGTTACAATGTCATTTTCAGTAGTACCACAAGCGAAAACGAAAGATGTATATTCTGTTGTCGATAAAGCAATTGAAGTTGTGCAACAATCGGGAGTTCGTTATGAAGTAGGGGCAATGGAAACAACTTTGGAAGGAGAATTAGATGTACTTCTTGATGTCGTTAAACGTGCACAACAAGCTTGCGTCGATGCTGGAGCAGAAGAAGTGATTACTTCTATTAAAATCCATTATCGTCCAAGCACTGGTGTAACGATAGATGAAAAGGTTTGGAAGTACCGTGATGAATATGCAAAACCAGAAGCAATCTAA	MSQQVTMSFSVVPQAKTKDVYSVVDKAIEVVQQSGVRYEVGAMETTLEGELDVLLDVVKRAQQACVDAGAEEVITSIKIHYRPSTGVTIDEKVWKYRDEYAKPEAI				NA	NA	NA	NA	NA
AK009_05674	774	ribX_3		Riboflavin transport system permease protein RibX	ATGAATATGCAAAACCAGAAGCAATCTAAACTTATTACAACTATTTGGCTTATCCTTCTCATTGCGATATGGGAAGGATCTGTTTCATTATTTAAAATCGAACCGTGGATTTTACCAAAGCCTTCTGCCATTGTTCAAGAATTAATTAGGATGAAAGATTTACTATTACCAAATACGATGCAAACACTGCAGGAAGTTATAATTGGACTATTCTTTGCAATTTTATTGGGGACGAGCATCGCAATTATTATGGACGTTATACCGTTATTTCGTATTTTAATAAATCCATTGCTCGTTATTTCGCAAACAATTCCAATTGTTGTACTTGCACCACTATTTATTATTTGGTTTGGATATGGGATGTTGCCGAAAGTAATGGTCGTAATACTCGTTTGTTTCTTCCCAATTGCGCTTAGTATTTTAGAAGGTTTTCAAACAGTAGATAAAAACATGTTGAAGCTGTTACAAACAATGAAGGCGACGAAATGGCAAGTTTACCAGAAAGTAAAATTTCCAGCAGTGCTTCCATACTTTTTCTCAGGCTTAAAAATTGCAGTTACATATAGCGTAATGGGGGCAATTATCGGAGAATGGCTCGGTGCAAGTGAAGGATTAGGTGTTATGCTTACGAGGGCTACAAAATCATTTTTGACTGCCCGAGTATTTGGTGTTGCAGCAATCATCGTTATGGTGACATTGTGCCTGTATTTTATCGTAGAGTTTATGGCAAGAATAACAGCACCATGGATATATAGAAAGGACGGCAGAAAATGA	MNMQNQKQSKLITTIWLILLIAIWEGSVSLFKIEPWILPKPSAIVQELIRMKDLLLPNTMQTLQEVIIGLFFAILLGTSIAIIMDVIPLFRILINPLLVISQTIPIVVLAPLFIIWFGYGMLPKVMVVILVCFFPIALSILEGFQTVDKNMLKLLQTMKATKWQVYQKVKFPAVLPYFFSGLKIAVTYSVMGAIIGEWLGASEGLGVMLTRATKSFLTARVFGVAAIIVMVTLCLYFIVEFMARITAPWIYRKDGRK	PGPT0001145_7031	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK009_05675	999	thiY_2	COG0715	Formylaminopyrimidine-binding protein	ATGAAAAAAGGTTTGAAAGTTATGTTAGCTGCCTTATTAGCGGTAGGTGTGGCTGGATGTAATCCGGCGAAGAAAGAAGAAAGTAAAAGTAAAGATCAAAAAGTAAAAGTAGTATTAGATTGGTTTCCAAATACGAATCATACTGGCTTGTATGTAGCACAAACGAAAGATTATTACAAAAAGCAAGGATTAGATGTAGAAATTATTCAACCGGGTGACAATGTAACAGCAGAGCAAATGATAGCATCAGGAAAAGCTGACTTCGCAATAAGCGCACAAGAAAATGTAACGTTGGCTCGTGTGGAAGGGATTCCTGTTGTATCTGTCGGAGCGATTATTCAGCATAACACTTCAGCATTTGCATCACTTAAGAAAGATAATATGACGTCACCGAAAGATTTTGAAGGTAAACGTTACGGCGGCTGGGGAGGACCAGCAGAAGAAGCGACATTAAAGACGATTATGGATAAGCATCAAGCTGATTTTAATAAAGTTGAAAAAATCATCTTAGGACAAACCGATTTCTTTAAATCAATCGGCCGTGATGCAGACTTTGAATGGATTTATTACGGATGGGATGGAATTGAAGCGAAGCGCCAAGGAAAAGAGTTAAATACGATTATGGTGAAAGACTTAGACCCAGCGCTTGATTTCTATAGTCCTGTTATTATTACGAGTGAAAAACATACGAAGCAAGATAAAGACTTTGTGAAAAAGTTTATGAGTGCAACAACAGAAGGTTATAATTTTGCAATTAAGGAACCGAAAGAAGCTGCTGATATTCTAATTAAAGCTGTTCCAGATGTAAATAAAGATTTAGTTCAAGAAAGCCAGAAATGGTTAAGTACGAAGTATCAAGATGATGCGAAAGCATGGGGAGTACAGAAGGAAGAAATTTGGACGAATTACATGAATTTCTTATATGACAACAAAGTTATTAAAAAGAAAATCGATGTAAAAGATGCTTTTACAAATGAATTCCTTCCAAGTGAAAAATGA	MKKGLKVMLAALLAVGVAGCNPAKKEESKSKDQKVKVVLDWFPNTNHTGLYVAQTKDYYKKQGLDVEIIQPGDNVTAEQMIASGKADFAISAQENVTLARVEGIPVVSVGAIIQHNTSAFASLKKDNMTSPKDFEGKRYGGWGGPAEEATLKTIMDKHQADFNKVEKIILGQTDFFKSIGRDADFEWIYYGWDGIEAKRQGKELNTIMVKDLDPALDFYSPVIITSEKHTKQDKDFVKKFMSATTEGYNFAIKEPKEAADILIKAVPDVNKDLVQESQKWLSTKYQDDAKAWGVQKEEIWTNYMNFLYDNKVIKKKIDVKDAFTNEFLPSEK	PGPT0001135_4129	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK009_05676	735	nrtD	COG1116	Nitrate import ATP-binding protein NrtD	ATGAAAAATATAGTGAAATCTTTCGACGGAAAGAATGTATTAGAGAATATTAGTGCCTCTATACAAGAGGGAGAGTTTGTTTCCTTTGTAGGACCGAGTGGTTGCGGGAAAAGCACATTATTAAACATGATTGCAAATGTTGAAAAACCAACAAGCGGGAACGTAACGTATAAAGATAAGCAAGTACAAGAGCAAGATGTTGTTAGTTATATGCCACAACAAGATTTATTACTACCGTGGCGATCAGCTTTGCAAAATATCGTTCTTCCGTTAGAAATTGAAGGAAAGCCGAAAAAACAAAGGCTGACAGAAGGAATGGAAGCATTAAAGCAGTTCGAACTAGATGAATATGCAGACCATTATCCAGATGAATTGTCTGGTGGTATGCGTCAAAGAATTAGTTTTCTGCGCACATATTTGTGTGAAAAGCCAATTATGCTGCTTGATGAGCCTTTTGGAAAGTTAGATGCATTTACAAAAATGGAAGTACATAGCTGGCTTTTAAACTCTTGGCATCAAGAGAAGCAAACAATCGTTATGGTTACACATGACTTAGATGAGGCAATCTTGCTTTCAGATCGCGTATTTATTTTATCTCAAAGACCAGCGTCAATAGTTGGCGAGGTACAAGTGAAATTACCTAGACTGAGAACGATGGATATGTTAACATCACTCGAATTAAAAAAGGATAAAGAAGAGATTTTAAGTGTGTTAGCTCCTTATATGAAAAAATAG	MKNIVKSFDGKNVLENISASIQEGEFVSFVGPSGCGKSTLLNMIANVEKPTSGNVTYKDKQVQEQDVVSYMPQQDLLLPWRSALQNIVLPLEIEGKPKKQRLTEGMEALKQFELDEYADHYPDELSGGMRQRISFLRTYLCEKPIMLLDEPFGKLDAFTKMEVHSWLLNSWHQEKQTIVMVTHDLDEAILLSDRVFILSQRPASIVGEVQVKLPRLRTMDMLTSLELKKDKEEILSVLAPYMKK	PGPT0001140_7788	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK009_05677	1545	ybiT_3	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGAGTATATTAACAGTAGAAAATTTAAGTCATTCGTATGGTGAGAAAACCATCTTATATAATGCATGCTTTCGATTATTAAAGGGGGAGCATGTTGGGTTAGTAGGGAAAAATGGGATTGGAAAATCAACACTGCTAAGAATTTTAACAGGAGAACTTATACATGATGATGGGAACATTGAATGGTTTCCACATGTGAAGGTTGGATTTTTGCAGCAGCATATAGATTTACAAGAAGGAATAACAATTGCAGGATACTTGCAAAGTGCATTTTCTAACTTGTATGCGATTGAATATGAAATGTTAAAAATTGCAGAAGAGATGGCTGAAGCAGTAGAAGTAGAAAAATTGTTAGTAAGGTATGGAGAGTTACAAACTATATTGGAAAACTCTAATTTCTATCAAATTCATACAGAAATTGAAGAAGTGGCAATTGGTTTAGGGCTGTTTGAAATAGGATTGGAAAAGGATGTTTCAAAGTTAAGTGGAGGACAGCGGACAAAGTTATTACTAGGAAAGCTTCTTCTAGAAAAAGCTGATGTTTTATTGCTAGATGAACCAACGAACTATTTAGATACAGCACATATAGAATGGTTGCAATCGTACTTGAAGTTGTATGAAAAAGCTTATATTATCATTTCGCATGACGAAGTATTTTTGAATAATATTACGAATGTCATTTACCATCTAGAAGAACGAAAAGTTAAGCGATATGTAGGGGATTATGAAAAGTTTTTACAAAGTTATCAATTGCAAAGGAAACAATTACAATCGGCGTATGCGAAACAACAAAAAGAAATTGCTCAGTTAGAAACATTTATTCAAAAAAATAAGATTCGAAAAGCAAAACAGGCAAAAAGTCGAGAGAAAGTATTGGAGAAAATGCAAAGGGTTGAAAAGGTTAAAAATGTACCTCGGTCCCGTTTTGTTTTTACTGTTTATAATGAGCCAGTAAGTAGTATATTACAGGCTGAGAAACTAAGAGTGGGTTATAGTGATTCGTTATTTCCAGAATTGAATTTACAAGTGAAGAAAGGAGAAAAGATAGCTATTGTTGGTCATAATGGTATTGGAAAAACGACAATGTTAAAAACGTTATTAGATCAAATAAAGCCGCTAAGTGGTTCAATTTTTGTTGGGGAACGAGTAAATCCTGCTTATTTTGCACAGGAAGAGTTTGCTTCAGAAATAACACCATTAGAGAAAGTTTGGGCAGAGCGACCAGATATGACAAAGAAAGAAGTGCGCCAAGCATTAGCGAAGTGTGGATTGAAAGAAGAACATGTATTAAAACCTATTCATTTATTAAGCGGTGGAGAGCAAACGAAAGTGCGTTTATGTGAACTCATCGCAACGAAAAGCAATGTTTTAATTTTAGACGAACCGACTAATCATTTGGATGTAGAAACTAAGATGGCTTTAAAAGAAGCGTTACAACAATATAAAGGAACGGTTTTAATTGTCTCACATGAACCTTCTTTCTATGAATCGTGGATAACAAAAGTATGGAATATAGAAGAGTGGAATGCTGAACAATATGAATAA	MSILTVENLSHSYGEKTILYNACFRLLKGEHVGLVGKNGIGKSTLLRILTGELIHDDGNIEWFPHVKVGFLQQHIDLQEGITIAGYLQSAFSNLYAIEYEMLKIAEEMAEAVEVEKLLVRYGELQTILENSNFYQIHTEIEEVAIGLGLFEIGLEKDVSKLSGGQRTKLLLGKLLLEKADVLLLDEPTNYLDTAHIEWLQSYLKLYEKAYIIISHDEVFLNNITNVIYHLEERKVKRYVGDYEKFLQSYQLQRKQLQSAYAKQQKEIAQLETFIQKNKIRKAKQAKSREKVLEKMQRVEKVKNVPRSRFVFTVYNEPVSSILQAEKLRVGYSDSLFPELNLQVKKGEKIAIVGHNGIGKTTMLKTLLDQIKPLSGSIFVGERVNPAYFAQEEFASEITPLEKVWAERPDMTKKEVRQALAKCGLKEEHVLKPIHLLSGGEQTKVRLCELIATKSNVLILDEPTNHLDVETKMALKEALQQYKGTVLIVSHEPSFYESWITKVWNIEEWNAEQYE				NA	NA	NA	NA	NA
AK009_05678	2025	chiA1		Chitinase A1	ATGAGGTCTCAAAAATTCACACTGCTATTACTATCTCTACTACTTTTCTTACCTCTTTTTCTCACAAATTTTATTACTCCAAATCTCGCATTAGCAGATTCACCAAAGCAAAGTCAAAAAATTGTTGGGTACTTTCCTTCGTGGGGCGTTTACGGACGTAATTATCAAGTTGCTGACATTGATGCATCAAAACTTACTCACCTTAACTATGCTTTCGCGGATATTTGTTGGAAGGGAAAACATGGAAATCCTTCTACCCATCCGGATAATCCAAATAAACAAACGTGGAACTGTAAAGAATCTGGTGTACCATTGCAAAATAAAGAGGTTCCTAATGGTACTCTCGTACTCGGTGAACCATGGGCTGATGTTACCAAATCGTATCCTGGCTCAGGTACAACTTGGGAAGATTGCGATAAATATGCCCGTTGCGGAAATTTCGGAGAACTAAAACGATTAAAAGCTAAATATCCTCATTTAAAAACAATAATTTCCGTTGGTGGCTGGACTTGGTCTAACCGCTTTTCTGATATGGCCGCTGATGAAAAGACAAGAAAAGTATTTGCCGAATCTACAGTAGCTTTTCTTCGCGCATATGGATTTGATGGCGTAGATTTAGACTGGGAATATCCGGGCGTTGAAACAATTCCTGGTGGTAGTTATCGTCCTGAAGATAAACAAAATTTCACTCTTCTTCTTCAAGACGTCCGAAATGCTTTGAATAAAGCAGGTGCTGAAGATGGCAAACAATATTTACTAACAATCGCGTCAGGTGCAAGTCAACGCTACGCTGATCATACAGAGCTAAAGAAAATTTCTCAAATACTCGATTGGATTAATATTATGACATATGATTTCCACGGTGGATGGGAAGCTACTTCTAATCATAATGCAGCTCTATATAAGGATCCAAATGACCCAGCAGCAAATACGAATTTTTACGTAGATGGTGCTATAGACGTTTATACCAATGAAGGTGTTCCAGTGGATAAACTAGTATTAGGCGTACCTTTTTACGGACGTGGCTGGAAAAGTTGTGGAAAAGAAAATAACGGACAATATCAACCTTGCAAACCAGGTAGTGATGGGAAACTTGCTTCTAAAGGTACTTGGGATGATTATTCTACCGGTGACACAGGTGTGTATGATTACGGTGATTTAACAGCCAATTACGTTAATAAAAATGGTTTTGTACGCTACTGGAATGACACAGCTAAAGTACCTTATTTATATAATGCAACTACAGGCACATTTATTAGCTACGATGACAATGAATCTATGAAATATAAAACAGACTATATAAAGACGAAAGGTTTAAGTGGAGCAATGTTTTGGGAACTAAGCGGAGATTGCCGTACAAGTCCAAAATATAGTTGTAGTGGTCCAAAATTACTTGATACGCTAGTAAAAGAATTACTTGGTGGACCTATTAACCAAAAAGATACTGAGCCACCAACGAATGTTAAAAACATTATAGTTACGAATAAAACTTCAAGCTCAGTTCAATTAAGCTGGACTGCATCCACTGATAACGTAGGCGTTACTGAATACGAAATTACTGCCGGAGAAGAAAAATGGAGTGCAACAACAAATAGCATTACAATTAAAAACTTAAAACCTAATACGGAATACACATTTTCAGTAATTGCCAAAGATGCTTCTGGAAATAAATCACACCCTACCGCTCTTACTGTCAAAACGGATGAAGCTAATACAACACCTCCTGATGGAAATGGCACTGCTACATTTTCAGTCACTTCGAATTGGGGAAGCGGTTATAACTTCTCGATTATAATTAAAAATAACGGAACGATTCCTATTAAAAATTGGAAATTAGAATTTGATTATAGCGGCAATTTAACACAAGTTTGGGATTCTAAAATTAGTAGTAAAACAAATAATCATTATGTAATTACGAACGCAGGATGGAATGGCGAAATTCCTCCTGGTGGATCAATTACAATTGGTGGTGCAGGAACGGGTAATCCTGCCGAACTTTTAAATGCCGTCATTAGCGAAAACTAG	MRSQKFTLLLLSLLLFLPLFLTNFITPNLALADSPKQSQKIVGYFPSWGVYGRNYQVADIDASKLTHLNYAFADICWKGKHGNPSTHPDNPNKQTWNCKESGVPLQNKEVPNGTLVLGEPWADVTKSYPGSGTTWEDCDKYARCGNFGELKRLKAKYPHLKTIISVGGWTWSNRFSDMAADEKTRKVFAESTVAFLRAYGFDGVDLDWEYPGVETIPGGSYRPEDKQNFTLLLQDVRNALNKAGAEDGKQYLLTIASGASQRYADHTELKKISQILDWINIMTYDFHGGWEATSNHNAALYKDPNDPAANTNFYVDGAIDVYTNEGVPVDKLVLGVPFYGRGWKSCGKENNGQYQPCKPGSDGKLASKGTWDDYSTGDTGVYDYGDLTANYVNKNGFVRYWNDTAKVPYLYNATTGTFISYDDNESMKYKTDYIKTKGLSGAMFWELSGDCRTSPKYSCSGPKLLDTLVKELLGGPINQKDTEPPTNVKNIIVTNKTSSSVQLSWTASTDNVGVTEYEITAGEEKWSATTNSITIKNLKPNTEYTFSVIAKDASGNKSHPTALTVKTDEANTTPPDGNGTATFSVTSNWGSGYNFSIIIKNNGTIPIKNWKLEFDYSGNLTQVWDSKISSKTNNHYVITNAGWNGEIPPGGSITIGGAGTGNPAELLNAVISEN	PGPT0012130_1180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK009_05679	372			hypothetical protein	GTGGATGTGTTTTTGAACATTGCTGAAGAAAAAATTCGCCAAGCAATACGGAATGGTGATCTTGATTATCTTCCGGGAAAAGGAAAACCACTACAATTAGAAGATTTTTCAATGGTACCTCCAGAACTTAGAATGAGTTATAAAATTTTAAAAAATGCGGGAATGATTCCACCAGAGATGGAACTACAAAAAGATATATTAAAAATAGAGGATCTAATTGCCTGCTGTTATGATGAAGAAGAGAGAAAGAAATTACGAGAAGAGTTAACAATAAAAACGTTACGTTTTCAGCAGGTAATGGAAAAGAGAAAGATTAAAGATAGTTCAGCTTTTCGTATGTATCAAGACAAAGTATTTCGTAAATTACGCTAA	MDVFLNIAEEKIRQAIRNGDLDYLPGKGKPLQLEDFSMVPPELRMSYKILKNAGMIPPEMELQKDILKIEDLIACCYDEEERKKLREELTIKTLRFQQVMEKRKIKDSSAFRMYQDKVFRKLR				NA	NA	NA	NA	NA
AK009_05680	315			hypothetical protein	ATGACTACATTTAAAACGATAGAAGAAATAGCGACCTATATCGAAGAACAACAATTGGTACTTCTGTTTATTAAAACGGAAAATTGTGGTGTTTGTGATGTTATGCTAAGAAAAGTAAATTGCGTATTAGAGAATTATGATTACGTAGAGAAAATAGAGATATTACTACAAGACATGCAAGAGATTGCGGGGCGATATGCCGTATTTACAGGACCGACAATTTTATTATTTTATAATGGAAAAGAGATCCTTCGAGAATCGCGCTTCATTTCACTTGAAAATCTAGAGAGAACCATTCAATTATTCGAGGAATAA	MTTFKTIEEIATYIEEQQLVLLFIKTENCGVCDVMLRKVNCVLENYDYVEKIEILLQDMQEIAGRYAVFTGPTILLFYNGKEILRESRFISLENLERTIQLFEE				NA	NA	NA	NA	NA
AK009_05681	243			hypothetical protein	ATGGAATTTATTATCGTCATACTATTATTTGTTGTAGTTGGAATAATCGTAACAGCAGTTCGATCGAACAAAAAGAAGGTAAATCTTACAAAACAAAATAACATTCATAATTCATCTAACAGCTCATCACCATTATTTTTCTTTGCTGGATCTGATAATGATAGCTCGCATGATGGCGGTTCACATGATTGTGGAGGGTCTTTTGGGGGAGATAGCGGGGGAAGCTGCGGTGGTGGTGATTGA	MEFIIVILLFVVVGIIVTAVRSNKKKVNLTKQNNIHNSSNSSSPLFFFAGSDNDSSHDGGSHDCGGSFGGDSGGSCGGGD				NA	NA	NA	NA	NA
AK009_05682	111			hypothetical protein	ATGATTGTGGAGGGTCTTTTGGGGGAGATAGCGGGGGAAGCTGCGGTGGTGGTGATTGATGAAAATGCGCCTTATATAGGCGTATTTCTTTTTAAACAAACGTTTGATTAG	MIVEGLLGEIAGEAAVVVIDENAPYIGVFLFKQTFD				NA	NA	NA	NA	NA
AK009_05683	144			hypothetical protein	ATGAAAAGGGAACCGAGAGTGAAAAATAAGGGGAAAGTAGTGTTATTTTTATTAGCTGCGGGAGGCGTATTTCTTGTTAAATTAACATTTAAATTTGGAACAATACATATGATTCGAACTTGGTTTGAAAGTACATTTTCTTAA	MKREPRVKNKGKVVLFLLAAGGVFLVKLTFKFGTIHMIRTWFESTFS				NA	NA	NA	NA	NA
AK009_05684	582	qacR		HTH-type transcriptional regulator QacR	ATGAGAAGAAGCGCAGAAGAGATAAAGAAAGAAATTGCATATAAAGCAGAAAGTCTATTTTCACAGAAGGGCTACGCAGCTACATCTATGGAAGAGATTTGTGAAATTACAGAGCGAAGTAAAGGAAGTATTTATTATCACTTTAAAAGTAAAGAAGAATTATTTTTATTTGTAGTGAAACAGCATACGTATGATTGGGTTGAAAAATGGAATGAAAAAGAGAAGTTGTATAGTACTAGTACTGAAAAACTATATGGTCTCGCGGAATATCATGTAGAGGACATACAGCAACCAATTTCAAATGCAATAGAGGAATTCTCTATGAGCCAAGTTGTAAGTAAAGAGATTCTGGATGAACTGTTAGCTTTAACTAGAGAATCATATGTTATGTTTGAGAAATTAATTGAAGCAGGTATACAGTCTGGAGAGTTCCGTGAAGATAATACTCGTGATCTTATGTATATTGTGAACGGATTATTATCAGGGCTTGGAGTACTTTACTACGAGTTAGATTATAAAGAGCTGAAACGTATTTATAAAAAGGCAATAGATGTATTGTTAAAAGGAATGGCAGCTGAATAA	MRRSAEEIKKEIAYKAESLFSQKGYAATSMEEICEITERSKGSIYYHFKSKEELFLFVVKQHTYDWVEKWNEKEKLYSTSTEKLYGLAEYHVEDIQQPISNAIEEFSMSQVVSKEILDELLALTRESYVMFEKLIEAGIQSGEFREDNTRDLMYIVNGLLSGLGVLYYELDYKELKRIYKKAIDVLLKGMAAE				NA	NA	NA	NA	NA
AK009_05685	1239			hypothetical protein	ATGAAAGTGAAAGCTTTATTTAAAAACCGAGCATTTATGCTCGTTATGGCATCTGATATTTTACAACAATTTGCAATTTGGATCAGAAATATGGCTCTTTTATATTTCATAATGGAGCGGACAAATAATGATCCAGTTTCAGTGTCTCTATTATCTGTCATGGAGTATGCACCTATCTTTATTTTCTCGTTCATTGGTGGTGCATTAGCAGATCGCTGGAATCCGAAAAGAACAATGGTCGCTGGAGATGTGTTGAGTGTACTGTCTATTATAGGAATTGTCCTGTTGTTAAAGCTGGATTATTGGCAGGCTATATTTTTTGCAACACTCATTTCCGCGATTGTAGGTCAGTTTTCTCAGCCCTCATCTTCGCGTATATTTAAGCGCTATGTAAAAGAAGAAGAGGTAGCAAATGCGATTGCATTTAACCAAACATTACAGTCATTATTTCTAATTTTTGGGCCAGTGGTAGGATCGCTTGTGTATACACAACTTGGTTTATTTACGTCACTATATAGCTTAATCATTTTATTTTTGTTATCTGCTATCGCCCTTTCATTTTTACCAAAATGGGTTGAAAAAGAGAAAGTGGCAAGAGATTCATTAAAAAATGATATAAAAGAAGGATGGAAATACGTTCTTCACACGAAAAATTTACGTATGATTACGATCACTTTTACTATTATGGGTTTAGCTGTTGGATTAACGAATCCATTAGAAGTATTCCTTGTAATTGAACGTTTAGGCATGGAAAAAGAAGCTGTTCAATATTTAGCAGCAGCTGATGGAATAGGTATGTTAATCGGTGGTATTGTTGCTGCAGTTTTCGCTTCAAAAGTGAATCCGAAAAAGATGTTCGTATTCGGTATGAGCATATTAGCGATGTCATTTTTAGTAGAAGGGCTATCTACATCATTTTGGATTACTAGTTTCATGAGATTTGGAACAGGTATTTGTTTAGCTTGTGTTAATATCGTTGTCGGTACGCTTATGATTCAACTTGTACCAGAAAATATGGTTGGAAGAGTAAACGGGACGATTTTACCACTGTTTATGGGGGCAATGCTAATTGGAACTTCACTAGCTGGAGGATTAAAGGAACTAACTTCACTAGTTATTGTGTTTTGTATAGCAATGGCACTTGTTTTATTAGCGATAGGGCCAGTTCTACGCATGCAAATAAAGAAAGAAGATGTCGTTAATAAAGAGAAACTAACAAATTCGTTAGCTTCGAAATAA	MKVKALFKNRAFMLVMASDILQQFAIWIRNMALLYFIMERTNNDPVSVSLLSVMEYAPIFIFSFIGGALADRWNPKRTMVAGDVLSVLSIIGIVLLLKLDYWQAIFFATLISAIVGQFSQPSSSRIFKRYVKEEEVANAIAFNQTLQSLFLIFGPVVGSLVYTQLGLFTSLYSLIILFLLSAIALSFLPKWVEKEKVARDSLKNDIKEGWKYVLHTKNLRMITITFTIMGLAVGLTNPLEVFLVIERLGMEKEAVQYLAAADGIGMLIGGIVAAVFASKVNPKKMFVFGMSILAMSFLVEGLSTSFWITSFMRFGTGICLACVNIVVGTLMIQLVPENMVGRVNGTILPLFMGAMLIGTSLAGGLKELTSLVIVFCIAMALVLLAIGPVLRMQIKKEDVVNKEKLTNSLASK	PGPT0027965_1155	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
AK009_05686	252			hypothetical protein	ATGAGCCAATTATATACTGATGTTGTAAAAACGATTTTACAGGTTAGGAGCAATGGTGTGAAAAATCAAATCTATGAATTACGCACTGAAAATAATATTTCACAAGGCGCATTAGCTGATAAATGCAAGGTTTCTAGACAGACGATAAATGCAATTGAGAATAATAAATATGATCCAAGCTTAGCGTTAGCATTCCGTTTAGCTGAAGTATTAGGAACAACTGTTGATAAATTATTTTTGTACAAGCAGTAG	MSQLYTDVVKTILQVRSNGVKNQIYELRTENNISQGALADKCKVSRQTINAIENNKYDPSLALAFRLAEVLGTTVDKLFLYKQ				NA	NA	NA	NA	NA
AK009_05687	1284			hypothetical protein	ATGAAAAAAATGTCCAGACAAGAAAAAAGCTGGATATTATACGATTGGGCGAACTCGGTATATTCGCTCGTCATTACAACTGCATTATTTCCAATTTACTTTAAAGCAGCTGCAAAAGAAGCTGGACTATCCGGGGCAACTTCAACAGCATATTGGGGATATGCAAACTCGTTCGCTACACTTTTAATTTCTATACTTGCTCCTATTCTCGGCACAGTTGCTGATTATAAAGGATTTAAAAAACGATTTTTCACATTCTTCTTTGGACTCGGTATCGTATTTACAAGTATGTTAGCAGTCGTTCCAACATCTCAGTGGTACTTATTATTAGGATGCTATATGCTCGCCTTAGTCGGTTTTGCTGGAGCAAACATTTTTTATGATGCATTTTTAGTAGATGTCACTTCTGAAGATAGAATGGATCGAATTTCTACGCGAGGTTTCGCATTAGGCTATATTGGGAGTACTATTCCTTTCATCGGTTGTATCGCTCTTATTATTCTTTCTCAAAAAGGAACTATCCCTTTATCTGTTGGTATTGCTAGTCAAATTTCATTTGCGATAACAGCTCTTTGGTGGGGGTTATTTACGATTCCAATGCTAAAAAACGTAGAGCAAAAGCACTATATTGAACGTCACCCTAGACCAATTACAATGAGCTTCAAACGCCTTGCTGCTACTTTTAAAAATATTAAAGAATATAAAACTGTATTCATGTTCCTAATCGCTTACTTTTTCTATATTGATGGGGTCGATACAATTATTACCATGTCCACCGCTTACGGAACAGATCTCGGTATCAGTGCAACGAATCTATTAATCATATTATTTGTAACACAAATTGTCGCTTGTCCATTTGCTTTATTATATGGAAAATTATCAGCAACATTTACAGGTAAAAAAATGCTATATGTCGGTATCATTATTTATATCATCATTTGCATATATGCTTATTTCTTAAAAACGACACTTGATTTTTGGATTTTAGCAATGTTAGTTGCTACATCTCAAGGTGGTATTCAAGCACTAAGTCGTTCATACTTTGCAAAACTAGTACCAAAAGAATCTGCTAATGAATTCTTCGGATTTTATAATATCTTTGGTAAGTTCGCCGCAATTATGGGCCCGGTATTAGTCGGTGTTACAACGCAATTAACAGGAAAAACAAACGCTGGTGTTCTTAGTATTATTGTTCTGTTTATTATCGGTGGATTCTTATTAACTAGAGTTCCAGAAAATAATACATCCGTTACACCAACTAGTCCAAAGACTAAAACACTATAA	MKKMSRQEKSWILYDWANSVYSLVITTALFPIYFKAAAKEAGLSGATSTAYWGYANSFATLLISILAPILGTVADYKGFKKRFFTFFFGLGIVFTSMLAVVPTSQWYLLLGCYMLALVGFAGANIFYDAFLVDVTSEDRMDRISTRGFALGYIGSTIPFIGCIALIILSQKGTIPLSVGIASQISFAITALWWGLFTIPMLKNVEQKHYIERHPRPITMSFKRLAATFKNIKEYKTVFMFLIAYFFYIDGVDTIITMSTAYGTDLGISATNLLIILFVTQIVACPFALLYGKLSATFTGKKMLYVGIIIYIIICIYAYFLKTTLDFWILAMLVATSQGGIQALSRSYFAKLVPKESANEFFGFYNIFGKFAAIMGPVLVGVTTQLTGKTNAGVLSIIVLFIIGGFLLTRVPENNTSVTPTSPKTKTL				NA	NA	NA	NA	NA
AK009_05688	1314			hypothetical protein	ATGGATAAAGCATTAACGAATCGTGTCATTATTTTATCATTCGACTGTTTATCAGCTTTAGATTTTCCTATACTACAAAAACTACCTCATTTCCAATCTCTAATAAAAAAGGGCACGGTTGTCGAAAAAGTAGAACCAATTTATCCTTCTGTAACATATCCAAGCCACTCAACAATCGTAACCGGTAATTATCCTAACAAGCACGGTGTTGTTAGTAATACGTTACTTCAACCAGGACGTGAATCACCTGATTGGCATTGGTACCGAAAATCGATAAAAGGAACAACATTGTATGATGAAGCGCGTAAAGCAAATTTAACGACAGCTGCCCTTCTATGGCCTGTTACTGGGAGAGCAAACATTGATTACAATTTACCAGAAATTTTCCCCAATAGACCGTGGCAAAATCAAGTGTTAGTTTCCTTATTTAGCGGTAGCCCACTATACCAATTAGATTTAAATCGTCGTTTCGGCCATATAAGAAATGGTTTATCACAACCAGAGCTGGATGATTTCGTCCTCGCCTCTGCTGTACACACCATTCAGACGAAAAAGCCTAATGTTATGTTCGTACATTTCACTGATTTAGACACGCAAAGACATTATCATGGCTTTGAATCTAACGAAACAATAGCTGCAATTCATAGACATGATGAGCGGCTAGGGAAAATTATTCAAACTTTAAAAGACAGTGATCTATACGAAGAAAGTACAATTATTGCCCTTGGTGATCATAGCGCTTTAAGTGAAAACAAATCCATCCAATTAAATGTGCTATTCCATCAAAGAGGACTTATATCTCTTAATAAAAAAGGCAAATTAGTAGACTGGAAAGCCTATTGCCAAAGTTGTGATGGCTCTGCCTATGTATATGTGAAAGACAAAAATGATACGGATACAATTCGAGAAGTACAACTACTCCTTGAAGAACTGCTGCAAAATAAACAGAATGGAATTGAATTTATACTTCATGATGAAGCTGCGAAAGACTGCGGTGCAGATGGTAATTGTTTATTTATGTTAGAAGCGCAAGAGGGGTATTATTTCACTGAAAACTATACAGGAGATTTTATAAAAGAAATTACTGAAAAAGATGTTACGCCTAGTAAAAAATATACATTTGGTACGCATGGATACTCTCCAACAAAACCTAACTATGAAACAATTTTTATCGCTGCTGGAAAAGGAATAAAAACCGGCGTTACCGTCCCGTATATGAGACTTATTGATGAAGGTCCAACTATCGCTAGACTACTCGGTTTACACTTAGGCGAAACAGACGGAGCAATTGTAGAGGATTTACTCCAATTGTAA	MDKALTNRVIILSFDCLSALDFPILQKLPHFQSLIKKGTVVEKVEPIYPSVTYPSHSTIVTGNYPNKHGVVSNTLLQPGRESPDWHWYRKSIKGTTLYDEARKANLTTAALLWPVTGRANIDYNLPEIFPNRPWQNQVLVSLFSGSPLYQLDLNRRFGHIRNGLSQPELDDFVLASAVHTIQTKKPNVMFVHFTDLDTQRHYHGFESNETIAAIHRHDERLGKIIQTLKDSDLYEESTIIALGDHSALSENKSIQLNVLFHQRGLISLNKKGKLVDWKAYCQSCDGSAYVYVKDKNDTDTIREVQLLLEELLQNKQNGIEFILHDEAAKDCGADGNCLFMLEAQEGYYFTENYTGDFIKEITEKDVTPSKKYTFGTHGYSPTKPNYETIFIAAGKGIKTGVTVPYMRLIDEGPTIARLLGLHLGETDGAIVEDLLQL				NA	NA	NA	NA	NA
AK009_05689	294			hypothetical protein	ATGGACTGGTTAGATGGATTCGGTATATTTTACATCATTGGTGGCATCACAATTCTCCTTGTATTTGCTATTTCATATTTACTAAAGAAACGTTTTCCAGACAAACAGTTTGATATTATATTTGCACTGATTGTAATACTTCTTTGCTTAGCATCATTTCCTGTTACCATGATGGTTATTGGTGGGTGGGAAGGAATGGGATATGGATTTATTGGTTTCTTCGTTCTACTAGGTACACTTATTGGTATGATTGCACATCAACTTGTAAAAATCTCTCGAAAAAGCTACATATAA	MDWLDGFGIFYIIGGITILLVFAISYLLKKRFPDKQFDIIFALIVILLCLASFPVTMMVIGGWEGMGYGFIGFFVLLGTLIGMIAHQLVKISRKSYI				NA	NA	NA	NA	NA
AK009_05691	1431	proS_2	COG0442	Proline--tRNA ligase	ATGGCAAAAGAACAAGTGCAAGCCATTACGAAGATGGAAGAGGACTTTGCGCAGTGGTATACCGATATTGTAAAAAAAGCCGAACTGGTTGATTATTCAAGTGTAAAAGGGTGCATGATTTTACGTCCATATGGTTATGCCTTATGGGAGAATATGCAGAAGGTGATGGATGAGAAGCTAAAAGAAACTGGCCATGAAAATGTATATATGCCAATGTTTATCCCAGAGAGTTTATTGCAAAAAGAGAAGGATCATGTTGAAGGGTTTGCTCCTGAAGTAGCATGGGTTACGCATGGCGGAGATGAAAAGTTAGCGGAAAGACTTTGTGTACGTCCTACATCTGAAACTTTATTCTGTGAGCATTTTTCAAAAATTGTGCAATCCTATAATGATTTGCCAAAATTATACAACCAGTGGTGTTCAGTAGTTCGTTGGGAGAAGACAACTAGGCCATTCCTTCGTACGACAGAATTTTTATGGCAAGAGGGTCATACAATCCATGAAACAGCAGAAGAATCGCAGGCTGAAACATTAAATATTTTAAACTTATATGCTTCTTTCTGTGAGGATTATTTAGCGATACCAGTTATTAAAGGACAAAAAACAGAAAAAGAGAAGTTTGCTGGAGCAAAGGCAACTTATACAATTGAAAGCTTAATGCATGATGGGAAAGCACTTCAAACAGGAACATCCCATAACTTTGGAACGAATTTCTCTGAAGCATTTGATATTAAATTTTTAGATCGTAACGGTAAGTGGCAATATGTACACCAAACATCTTGGGGTGTATCAACAAGAATGATAGGTGGGCTAATTATGGTTCATAGCGATAATAATGGACTTGTAATGCCACCAAAAGTTGCTCCAGTGCAAGTTGTTATCGTACCAATTGCTCAGCATAAAGAAGGAGTTTTAGCGAAAGCAACAGAGTTACAAGGACATATTCAAAAAGTTGCACGCGTGAAAATAGATGCTAGTAATAAAACACCGGGCTGGAAATTTAATGAGTATGAAATGAAGGGCATTCCAATTCGATTAGAAGTTGGGCCTAAAGATATTGAAAAGAATCAAGTTGTACTTGTAAGAAGAGATACGAAAGAAAAAGAATTTATATCAATGGATCAATTAGAAGAACGTATTCCAGCACTACTTGAGGAAATTCATGACTCTTTATTTAATAAGGCAAAAGTATTTCGCGATGAGAATACGTATAGTGCGACGAATTTTGAAGAGATGAAACAAGTAGCTGATGAAAAGCAAGGATTTATTAAGGCAATGTGGTGCGGAGAATTAGCTTGTGAAGAGAAACTAAAAGAAGAAGTTGGAGTATCTTCACGTTGTATGCCTTTTGAGCAAGAGCATTTAGCTGACGAATGTATTTGTTGTGGTAAAGAAGCTAAACAAATGGTGTATTGGGGAAAAGCGTATTAA	MAKEQVQAITKMEEDFAQWYTDIVKKAELVDYSSVKGCMILRPYGYALWENMQKVMDEKLKETGHENVYMPMFIPESLLQKEKDHVEGFAPEVAWVTHGGDEKLAERLCVRPTSETLFCEHFSKIVQSYNDLPKLYNQWCSVVRWEKTTRPFLRTTEFLWQEGHTIHETAEESQAETLNILNLYASFCEDYLAIPVIKGQKTEKEKFAGAKATYTIESLMHDGKALQTGTSHNFGTNFSEAFDIKFLDRNGKWQYVHQTSWGVSTRMIGGLIMVHSDNNGLVMPPKVAPVQVVIVPIAQHKEGVLAKATELQGHIQKVARVKIDASNKTPGWKFNEYEMKGIPIRLEVGPKDIEKNQVVLVRRDTKEKEFISMDQLEERIPALLEEIHDSLFNKAKVFRDENTYSATNFEEMKQVADEKQGFIKAMWCGELACEEKLKEEVGVSSRCMPFEQEHLADECICCGKEAKQMVYWGKAY				NA	NA	NA	NA	NA
AK009_05692	699			hypothetical protein	ATGACGAAAATCTTCATTTTAGCATCAACACTCTCTTTATCTTTTTTTAGCGGTTTAAATATTGGTAATGCTGCAACTGAAAACTTCCGCCCATTAACAAACGCTATTGTACAAAATAGTGATCATTTTGCAGAAGGAAACTCAAAGGATAATAATAAACCTCCAGGAAATAACGGTTCTCAGAACGATAGTGGTTCTGGTGACAACGGTTCTGGCGGCAATGGTTCTGGTGGCAGTGGCTCTGGCGACAATGGTTCCGGCGGTAACGGCTCTGGCGGCAATGGTTCCGGCGGTAACGGTTCTGGTGGCAGTGGCTCTGGCGGCAATGGTTCCGGCGGTAACGGTTCTGGTGGCAATGGTTCTGGTGGCAATGGCTCTGGTGGCAATGGCTCTGGTGGCAATGGTTCTGGTGGCAATGGCTCTGGTGGCAATGGCTCTGGTGGCAATGGCTCTAAAGGCGGTAATCGTGTTAAAGACGATAGCAGTTCTCAAGGTGGTAATGGCTCTCAGGGCGGTAACCGTGTTAAAGGCGATAGCAGTGGAAACGGCTCTCAAGGTGGCAATGTAAAAGATAATGCGAAAAAACAAGGCGATAAGTTACCGAATACGGCAACACATTATCCTGCATCTATTTTAATGGGGCTTTCAACATTCCTAATTGGTATGTTACTATTTATTCGCCGTAAAAACGCAAAATAA	MTKIFILASTLSLSFFSGLNIGNAATENFRPLTNAIVQNSDHFAEGNSKDNNKPPGNNGSQNDSGSGDNGSGGNGSGGSGSGDNGSGGNGSGGNGSGGNGSGGSGSGGNGSGGNGSGGNGSGGNGSGGNGSGGNGSGGNGSGGNGSGGNGSKGGNRVKDDSSSQGGNGSQGGNRVKGDSSGNGSQGGNVKDNAKKQGDKLPNTATHYPASILMGLSTFLIGMLLFIRRKNAK				NA	NA	NA	NA	NA
AK009_05693	879	bglK	COG1940	Beta-glucoside kinase	ATGAAAGAGTATATAGCGTTTGATATTGGCGGTACGCAAATTAAGTATGGCATTGTTTCAGAAATAGGGAGAGTATTAAAGCGTAAAACAGTTGCAACAGAAATTCATTTAGGCGGAGAACAAACTATTCAAAAACTTATATATGTATCAAAAAAAATAATGAATGAACATACTATTGCAGGAATTGGTATTAGCACCACGGGGATTGTTGATATTAATAAAGGAATTGTGACGGGAGGTGCGGATCATATTCCGGGATATCGTACTATTCCTATTATTGATAGATTGCAAGAGATATTAAAAGTTCCAGTATCGATTGACAATGATGTGAATTGTGCAGCGTTTGGAGAAAAATGGAATGGTAGTGGAAGAGAGAAAGAGAACTTTATTATGCTCACCCTTGGAACAGGGATTGGGGGAGCGATTTTTATAGACGGAGAATTGTACCGAGGGCATTCATTTAGTGCTGGTGAATGGGGGAATATGTTAATAGAAGGAAAACCGTTTGAAGAGGTTGCCTCGATTTCAGGATTAATTCGTCTTGTCAGAAAATATAAAGGCAAAGGTGAGTGGAATGGGAGATTAATTTTCGAGTTGTATGATAAAGGAGATCGGGAAGTTGCTCAAGTAGTTAGGATCTTCTTTAAACATTTGGCAATCGGAATTAGTAATCTTGCTTATATTTTCAATCCAGAAAAGATTATTATTGGTGGAGGAATTACCGATAGAGGAAATGAGTTTTTAAAAGAAGTAAAAGAAGAGGTCAGTAAATACTTAAATCAAGAGATTTATAATAATTGTGAGATTGAACTTGCACAAAACGGTAATTGTGCAGGAATGATTGGTGCTATTTACCACTTCTTACATCATCATAAATAA	MKEYIAFDIGGTQIKYGIVSEIGRVLKRKTVATEIHLGGEQTIQKLIYVSKKIMNEHTIAGIGISTTGIVDINKGIVTGGADHIPGYRTIPIIDRLQEILKVPVSIDNDVNCAAFGEKWNGSGREKENFIMLTLGTGIGGAIFIDGELYRGHSFSAGEWGNMLIEGKPFEEVASISGLIRLVRKYKGKGEWNGRLIFELYDKGDREVAQVVRIFFKHLAIGISNLAYIFNPEKIIIGGGITDRGNEFLKEVKEEVSKYLNQEIYNNCEIELAQNGNCAGMIGAIYHFLHHHK				NA	NA	NA	NA	NA
AK009_05694	597	yceC	COG2310	Stress response protein SCP2	ATGCCTATTATTTTAGAAAAAGGTCAAAAGATCGATTTAACGAAAGGACAACCAAAAGTAGCAAAACTACAGGTTGGCTTAGGCTGGGATCCAATTGGGCAATCAGGTGGATTTCTGTCTTCATTATTTGGAAGTAAACCAAATGTAGATTGTGATGCATCTGTTGTTATGTTAGAAGGAGATCGTTTTTTAAACAAAAATGATTTAGTTTACTTCGGAAATAAACTTTCTACTTGTGGTAGTATTATTCATTCAGGAGATAATTTAACAGGTGAAGGCGCTGGTGATGACGAAACAATTTTCGTAGAATTACATAAAGTTCCGAGCCGTATTAATCGTTTAGTATTCGTTGTAAATATTTATGACTGTGTAAATCGTCGTCAAGATTTCGGGATGATTCGTAATGCATATATTCGTATTCAAAACCCGCAAACTGGTGAAGAATTAGCACGCTATAATTTATCGGATAATTATGCTGGCAAAACGACTCTAATTGCAGGTGAAATGTATCGTCACGGAAGTGAATGGAAGTTTTCAGCTGTTGGAGAAGGCACACAAGATAAAAACTTAAGTGAGATTGTATCACGTTATCAATAA	MPIILEKGQKIDLTKGQPKVAKLQVGLGWDPIGQSGGFLSSLFGSKPNVDCDASVVMLEGDRFLNKNDLVYFGNKLSTCGSIIHSGDNLTGEGAGDDETIFVELHKVPSRINRLVFVVNIYDCVNRRQDFGMIRNAYIRIQNPQTGEELARYNLSDNYAGKTTLIAGEMYRHGSEWKFSAVGEGTQDKNLSEIVSRYQ	PGPT0004941_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TUNGSTATE_RESISTANCE	TUNGSTATE_RESISTANCE-YCE_SYSTEM,PGPT0004941-yceC-NA	NA	NA
AK009_05695	585	yceD_3	COG2310	General stress protein 16U	ATGGCATCAATTTCATTGAAAAAAGGACAAAAGGTAGACTTAACAAAAACGAATCCGGGTCTTTCAAAAGTTCTTGTAGGACTAGGTTGGGATACGAATCGTTATGACGGACAAAACGATTTCGATTTAGATGTTAGTATTTTCTTAGTAGGCGCTAACGGTAAAGTTTCAGGTGCAGAGGATTTCGTCTTCTATAATAACCCAAAAGGTGCGAATGGTGCTGTCGAGCATTTAGGAGATAACCGAACTGGCGAAGGTGAAGGCGATGACGAATCGATCAAAGTAGATTTGAAAAATGTACCTGCACATATCGAACGTATTTGTTTCACAATTACAATCTATGATGGAGAAGGTCGTAGCCAAAACTTCGGACAAGTTTCTAACTCTTTCGTACGTATTTTAGATGAAGAAAAGAATGCAGAATTAATTCGTTACGATTTAGGAGAAGATTTCTCTATTGAAACAGCCGTAGTAGTAGGTGAATTATACCGTCATGCAGGTGACTGGAAATTCAATGCAATCGGAAGTGGATTCCAAGGTGGATTAGCGTCTCTATGTAATAACTTTGGTTTAGACGTAGAGTAA	MASISLKKGQKVDLTKTNPGLSKVLVGLGWDTNRYDGQNDFDLDVSIFLVGANGKVSGAEDFVFYNNPKGANGAVEHLGDNRTGEGEGDDESIKVDLKNVPAHIERICFTITIYDGEGRSQNFGQVSNSFVRILDEEKNAELIRYDLGEDFSIETAVVVGELYRHAGDWKFNAIGSGFQGGLASLCNNFGLDVE	PGPT0004910_175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
AK009_05696	579	yceD_4	COG2310	General stress protein 16U	ATGGTTATTCAATTACAAAAAGGACAGAAAATTGATTTGGGTAAGACAAGCCCTGGTTTAACAAAAGCAGTAATTGGTCTTGGATGGGATATTAAATCTTATGACGGTGGATCAGATTTCGATTTAGATGCATCTGCCTTTTTATTAGATGCAAACGGAAAATGTACGAAGGAAACTGATTTTATCTTCTATAATAATTTACAGTCTCCTTGTGGATCTGTTTTACATACAGGAGATAACCGTACAGGTGAAGGTGAAGGTGACGATGAGCAACTTGTTGTGGACTTAAAGAAAGTTCCAGCAGATGTGCACAGAATTGCTATTACAGTTACGATTTATGATGCAGAAGGCCGTAGTCAAAACTTTGGACAAGTAGGAAATGCGTTTGTTCGTTTAGCAAATGAAGAGACGAATGAAGAAGTTCTTCGTTTTGATTTAGGGGAAGATTTCTCCATTGAAACAGCAGTTGTCTTTTGTGAATTATACCGTCATAATGGACAGTGGAAGTTTAATGCAGTAGGAAGTGGATTCCAAGGTGGTTTAGGTGCGCTTGTAAGAGCGTATGGCTTGGATGCATAG	MVIQLQKGQKIDLGKTSPGLTKAVIGLGWDIKSYDGGSDFDLDASAFLLDANGKCTKETDFIFYNNLQSPCGSVLHTGDNRTGEGEGDDEQLVVDLKKVPADVHRIAITVTIYDAEGRSQNFGQVGNAFVRLANEETNEEVLRFDLGEDFSIETAVVFCELYRHNGQWKFNAVGSGFQGGLGALVRAYGLDA	PGPT0004910_473	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
AK009_05697	792			hypothetical protein	ATGAGTATTTTGCAAGGAATCCTTGATACGTATGCTCAGTTTTTCGACTTGGACATGTGGATTAAAGTGTTGCAAGATCCAGTATCTTGGGGATTAATAGGTACACTTGTTGTACTTGAAGGTTTGTTATCTGCCGATAACGCACTTGTGTTAGCAGTAATGGTAAAACACCTTCCGGAAGAAAAACGTAAAAAAGCATTATTCTATGGACTTATTGGAGCTTATGTGTTCCGCTTTATTGCGATTGGAATTGGAATGTTCTTAATTAAATTATGGTGGGTAAAACTTCTTGGTGCACTTTACCTTGCTTGGTTATCAGTAAAATACTTTATTGATAAGCGTAAAGGTGCAAGTGAAGAAGACGAAGCTCACGGTATGAATCAAAACAGTATTTTCTTTAGAATGTTCGGTGTCTTCTGGGGAACAGTTGCGATGGTTGAATTAATGGATATCGCGTTCTCTGTAGATAGCGTACTTGCTGCATTTGGTGTATCTAATGAAGTTTGGATTTTATTATTAGGCGGAATGCTAGGTATTTTAATGATGCGTGGTATCGCTGGTGTATTCTTAAAATTGTTAGAGCGTATTCCAGAGCTTGAAACGACAGCATATATTTTAATCTTAATTATCGCATCGAAGATGCTATTGTCTCTAATTGATATTCATATTAGTCATACACTGTTCTTCATTATTTTAGTTGTAGCATTTGGAGCAACATTTATAATTCACTACATGAAGAATTCTGGACAAGCTAAAGAAGAAGTTGCAGCTACTAAAGAAGACAATAAATAA	MSILQGILDTYAQFFDLDMWIKVLQDPVSWGLIGTLVVLEGLLSADNALVLAVMVKHLPEEKRKKALFYGLIGAYVFRFIAIGIGMFLIKLWWVKLLGALYLAWLSVKYFIDKRKGASEEDEAHGMNQNSIFFRMFGVFWGTVAMVELMDIAFSVDSVLAAFGVSNEVWILLLGGMLGILMMRGIAGVFLKLLERIPELETTAYILILIIASKMLLSLIDIHISHTLFFIILVVAFGATFIIHYMKNSGQAKEEVAATKEDNK	PGPT0003866_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
AK009_05698	1632			hypothetical protein	GTGTTTTCACGTTTTACACTTCAACCATATGCATTAAAAGATGAATCAGATTTAAAGCAATTTGAAACACTTTTAGAAAAACGCCCACAATATGAGCTGACAGAGAATGAAATGAAATTTAGTTATATAGCATGTCGAATCCTTGGCGTTCCTAATGATGTAGATGAATATTTTAATGAACTGTTTGATTATAGTGAAGCGAAAGGAATCGAAGTTTTACACGAACAAAATTTAAACAAAGTGATTGATTCGGAAAAGCTTCGTCATATTCAAGAAGTGTTCGGATTACATCAAGAAGCACCAAATGGTCTGACAGTAAATAGGCTAGTTGCACATTTATCTGGGAAACAACTTTTACCGAAAGTAGACAATCCTGATTTACAGCATTACATACATGCGACGTTCATTTCAGTATTGAAATTATATGAGAAACAACATAATCAGTCGTTAAAGACAGAAGGTTTCCGTCGTTTCTTAATCGACATAATTAAACTAAGCGAAAATTACGTAGCGAAGTGGTTCTCTACGATTAATTATAAGAAACAAATGCCGCGTATCGTTTGGTATGGTGATGCACAGGAAAGCCGTATATATTTCTTATATTTTCTTATTATGCTCGGTTGTGATGTGCTTTATTATCACCCCGAAGGAAAAGATGGATTTGAAAATATTGATGAAGAGGGAAGAACTTTTGTTGTATCTCATCCGGGTCGCATTTCGCTTGAACCATTCCCTGATCGTCGACGTGAGCGTGTTGCAACAGTAGCGTATCAAGCTTCGAAAGAAATTGAACAAGTACTTCACCACGATAATTCACTATTATATAAACCGTGGCAATTTCGTTCGTATACACCTGTAGCACGTACGTTAAAAACGACATATGATGAACTCTTTTTAATTACGAAAGAAAAGGCATTTGTACGTCCAACATTCTTTGTTGAAAATAAACATATTTATATTCCTTCTTTATTTGCGAAAATATCAGGCGTTTCAAAGAATGATAAAGAATATTTTCAACGATTAAAGGTTGTTACATCATTTGATAACAGTTTATTAATTAATACATTCCCATTTACGAAAGAGCAAAAAGCAAATTTCCAATATCATTATCGAGATGCATTGGACCGAGCTGGGAAATTACATCCTGATCTAATTATGAATAGCCATTGGTGGCCGCATAAGCGTTTACCGGAAGGTTTACAACATGGGATTGCAGAGGCGATTATCCATACGTGCGAAAGTGAAATATGCAAACCAATTGCGAAAGAAACGAAACAAGATGTAGCACTGTATGTTTTCGCACAACTTTCTCAAATACCACCTAATATTTTAGAACAGCTTGAGAAATTTGATTATTCACAAGATGTACCGAAAATTGTTATATTTAATAATGAGAAGAGTGGAGAATTAACTCGTTCTGACGCTGTTTTATTACTATTTTTGAATCAAATTGGAGTAGATGTATTCCATTTCAATCCCACGGGCAGAAACGATATTGAACCGTATGTTGAAGCAGGAGCATTCGATTCCCATTGGCTTGAAGAAGTTAATTTCGATCTTGAGTTTCATGGCTCATCAGCCTATAAAAATTTATCACAAACAATAAAAGGACTATTTCGTCCATTTTTATAA	MFSRFTLQPYALKDESDLKQFETLLEKRPQYELTENEMKFSYIACRILGVPNDVDEYFNELFDYSEAKGIEVLHEQNLNKVIDSEKLRHIQEVFGLHQEAPNGLTVNRLVAHLSGKQLLPKVDNPDLQHYIHATFISVLKLYEKQHNQSLKTEGFRRFLIDIIKLSENYVAKWFSTINYKKQMPRIVWYGDAQESRIYFLYFLIMLGCDVLYYHPEGKDGFENIDEEGRTFVVSHPGRISLEPFPDRRRERVATVAYQASKEIEQVLHHDNSLLYKPWQFRSYTPVARTLKTTYDELFLITKEKAFVRPTFFVENKHIYIPSLFAKISGVSKNDKEYFQRLKVVTSFDNSLLINTFPFTKEQKANFQYHYRDALDRAGKLHPDLIMNSHWWPHKRLPEGLQHGIAEAIIHTCESEICKPIAKETKQDVALYVFAQLSQIPPNILEQLEKFDYSQDVPKIVIFNNEKSGELTRSDAVLLLFLNQIGVDVFHFNPTGRNDIEPYVEAGAFDSHWLEEVNFDLEFHGSSAYKNLSQTIKGLFRPFL	PGPT0004946_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TUNGSTATE_RESISTANCE	TUNGSTATE_RESISTANCE-YCE_SYSTEM,PGPT0004946-yceG-NA	NA	NA
AK009_05699	1083			TelA-like protein	ATGAATAACCCAGTCGTACTAGATTCGAAAACTGAATTGAATGAGCAAACCGCACAAGATGTTCGCTTGCAACTTAGACAAGATGCAGATGTGCAACGTATTTATAACGCAGTAGATATTAAAGATCAACTGGAATTAATTGAACTTGGAAAAGAACCTTCTATGGAAATTTCACGTTTCGCTGATCAAATTTTACATACAATGTCTCTATCAAAGATAGAAGATTCTGGTGAATTGTTAAAGCAACTTGGTAAAATTATGGACAGATTTGATAGTAAAGACTTTGCGGAAGAAAAAAGTGGTTTCTTCTCGCGCATGTTCAAAAAAGCGGATAAAATGATAGAACAAATCTTTAGTAAATATCAAACGATGGGCCGCGAAATTGATAAAGTTTATGTGGAAATTACGAAGTACCAAGATGAGATGAAAAAATCAATTGGTACGTTAGATGGCTTGTATGAGCAAAACTTAAAATATTATTTAGACTTAGAGAAGTATGTAGTAGCAGGAGAAATGTTATTAGAGCGTTTAAATACAGAATTAGTTCCGATGTATGAAGAGCGCGTGCGTAATAATGATCAATTAGCAGGTATTGAATTAGAGTCGCTTAAAAACTCGGTTGAAATTTTAGAGCAACGTATTGATGATTTAGAAAAAGCTCGTATGGTTGCGCTACTTACAGCACCACAAATTCGCATGATTCAACGTGGTAATAATAAATTAATTGGTAAAATCAATACAGCATTTATTACGACGATTCCTATCTTTAAAAATGGTATCATTCAAGCAGTAAATGCGAAACGTCAAAAGCTTGTTGCAGATTCTATGGCTGAACTTGATCGCCGTACAAATGAATTACTTAAGAAAAATGCACAAAATATCGCAACGCAAAGTGTAGAAGTAGCGAGATTATCAGGTTCTTCTAGTATTAAAATGGAAACACTTGAGGAAACTTGGAACATTATTTCAAGAGGTATGCAAGAAACACAACAAATTGAAGAACAAAATAAACGTGAGCGTGAAGAAAGTCGCAAGCGTATGGCTACATTAACAGAGAATATCAAAAAAGAATTACAAGGATAA	MNNPVVLDSKTELNEQTAQDVRLQLRQDADVQRIYNAVDIKDQLELIELGKEPSMEISRFADQILHTMSLSKIEDSGELLKQLGKIMDRFDSKDFAEEKSGFFSRMFKKADKMIEQIFSKYQTMGREIDKVYVEITKYQDEMKKSIGTLDGLYEQNLKYYLDLEKYVVAGEMLLERLNTELVPMYEERVRNNDQLAGIELESLKNSVEILEQRIDDLEKARMVALLTAPQIRMIQRGNNKLIGKINTAFITTIPIFKNGIIQAVNAKRQKLVADSMAELDRRTNELLKKNAQNIATQSVEVARLSGSSSIKMETLEETWNIISRGMQETQQIEEQNKREREESRKRMATLTENIKKELQG	PGPT0004947_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TUNGSTATE_RESISTANCE	TUNGSTATE_RESISTANCE-YCE_SYSTEM,PGPT0004947-yceH-NA	NA	NA
AK009_05700	2667			Calcium-transporting ATPase 1	ATGAGCAATTGGTACAGTAAGACGAAAGATCAAACATTAATTGACCTAGAAACAAACGAACAACACGGTTTAACAGATGAGATTGTAAGTGACCGTTTAAAGCAATACGGTTCTAATGAATTAGCTACAAAACAAAAACGCACTTTATGGCAGCGTATTTTCGCCCAAATTAATGACGTCCTCGTATATGTCCTTATTATTGCTGCCCTTATTTCTGCCTTTGTAGGTGAATGGGCGGATGCCAGTATTATCGCGCTCGTTGTAGTTTTAAATGCTGTTATCGGTGTTGTCCAAGAATCGAAAGCAGAACAAGCTTTAGAGGCATTGAAAAAGATGGCGACGCCTAAAGCTATCGTCAAGAGAAATGGTGAACTAAAAGAAATTCCATCTGAGCACGTCGTTCCAGGGGATATCGTTATGCTCGACGCCGGACGATATATCCCATGCGATTTACGCCTTATCGAAACCGCAAATTTAAAAGTTGAAGAATCTGCTCTAACTGGTGAATCTGTCCCTGTTGATAAAGATGCAATCTACCACCCTTCCATGCAAAGTGATGAGCAAGTACCACTCGGCGACCAAAAAAACATGGCCTTTATGTCTACTCTTGTAACATACGGAAGAGGCGTCGGTGTTGCTGTTGAAACTGGAATGAACTCACAAATTGGTAAGATTGCTACCCTGTTACATGAAGCAGACGATGATATGACACCACTTCAAAAAAGCTTAGCACAAGTCGGAAAGTATTTAGGCTTTGTTGCTGTAGCTATTTGTATCGTGATGTTTCTCATCGGCTTTTTACAAGGACGAGATACACTAGAAATGTTTATGACTGCTATTAGTTTAGCCGTTGCAGCTATCCCAGAAGGCTTGCCAGCTATCGTTTCCATCGTTCTTGCAATTGGTGTGCAGCGTATGATTAAACAAAACGTCATCATCCGTAAACTTCCTGCTGTTGAAGCTCTCGGGTCTGTCACAATTATTTGTTCAGATAAAACAGGCACATTAACGCAAAACAAAATGACTGTTACTCACTTTTATAGTGATAACACATACGATCACTTAGAACATTTGAATGTAAATAATGATACGCAACGTCTATTGTTAGAGAATATGGTGCTATGTAATGATGCGTCTTACAATAACGAATCACAAACCGGTGACCCGACTGAAATTGCCCTTCTGGTGGCCGGAAGCACTTTTAACATGCAAAAAGATCATTTAGAAAAAATACATGAACGTGTTAACGAGCTACCTTTCGACTCAGATCGTAAAATGATGTCAACCGTGCATACATACGATGAAAACTGCTATAGCATGACGAAAGGTGCTATCGATAAGCTCTTACCTCGATGTAACCATATTTTTAAAAACGGGAAAATCGAGATTTTAACTGATTCTGATAAAAATCAAATATTAGAATCTGCCGGAGCAATGTCTCAAGAAGCTTTAAGAGTACTTTCATTCGCATTTAAAAAATACAATTCAAACGATGTGGATATAAATCATCTTGAAGAAAATCTTATCTTTATCGGTCTTGTCGGTATGATTGATCCACCGCGAACTGAAGTGAAAGATTCAATTACAGAATGTAAAAAAGCCGGTATTCGCACAGTTATGATTACCGGTGACCATAAAGATACCGCCTTTGCAATTGCCAAAGAACTTGGCATTGCTGAAGAAATATCTGAAATTATGATTGGAACTGAATTAGATAACATTTCAGATACAGAACTAGCTAGCAAAATTAATCATTTAAATGTATTCGCTAGAGTCTCTCCAGAGCATAAAGTGAAATTTGTAAAGGCATTACGCGCAAAAGGAAATATCGTTTCTATGACTGGTGATGGTGTCAATGATGCACCATCTTTAAAGCAAGCTGATGTTGGCGTAGCGATGGGCATTACAGGAACAGATGTCGCAAAAGGAGCAGCTGATGTCGTGTTAACAGATGATAATTTCTCATCTATCGTGAAAGCTGTTGAGGAAGGTAGAAATATTTATCGTAACATAAAAAAATCAATTCTCTTCCTACTCTCTTGTAACTTTGGAGAAATTATCGCTTTATTTTTAGCGATTTTACTTGGCTGGGCAACACCCCTACGACCTATTCATATTTTGTGGGTAAATTTAATTACAGATACACTGCCTGCATTATCACTTGGGGTTGATCCTGAAGATCCAGATGTGATGAAGGAAAAACCACGACATGCGAAAGAAAGCCTATTTAGTGGTAGCGTTCCTTTTCTTATTTTCAATGGGGCTGTCATTGGGATTTTAACGTTAATAGCCTTTATCGCCGGAGCAAAATTCTATACTGGAGATACAAATTTATTCCCTCTTTTCCCAGAGCGAATTGATGAGGATGCTCTATTACATGCCCAAACGATGGCATTTGTCGTTCTTAGTTTTTCTCAGCTTGTTCATTCATTTAACTTGCGTTCAAGAACGAAATCGATTTTTTCAATTGGGATCTTTACAAATAAATATTTAGTCTTCTCCCTTCTTATCGGTGTTCTTATGCAAGTTTGTATCATCTCCATCCCGCCCCTTGCAAATATATTCGGTGTACATGCATTAACGATGCGAGATTGGGGATTTGTTCTCTTATTAAGTATCATTCCACTTGTTGTGAATGAAATTATTAAATTAGTGAAGAGAAACTAA	MSNWYSKTKDQTLIDLETNEQHGLTDEIVSDRLKQYGSNELATKQKRTLWQRIFAQINDVLVYVLIIAALISAFVGEWADASIIALVVVLNAVIGVVQESKAEQALEALKKMATPKAIVKRNGELKEIPSEHVVPGDIVMLDAGRYIPCDLRLIETANLKVEESALTGESVPVDKDAIYHPSMQSDEQVPLGDQKNMAFMSTLVTYGRGVGVAVETGMNSQIGKIATLLHEADDDMTPLQKSLAQVGKYLGFVAVAICIVMFLIGFLQGRDTLEMFMTAISLAVAAIPEGLPAIVSIVLAIGVQRMIKQNVIIRKLPAVEALGSVTIICSDKTGTLTQNKMTVTHFYSDNTYDHLEHLNVNNDTQRLLLENMVLCNDASYNNESQTGDPTEIALLVAGSTFNMQKDHLEKIHERVNELPFDSDRKMMSTVHTYDENCYSMTKGAIDKLLPRCNHIFKNGKIEILTDSDKNQILESAGAMSQEALRVLSFAFKKYNSNDVDINHLEENLIFIGLVGMIDPPRTEVKDSITECKKAGIRTVMITGDHKDTAFAIAKELGIAEEISEIMIGTELDNISDTELASKINHLNVFARVSPEHKVKFVKALRAKGNIVSMTGDGVNDAPSLKQADVGVAMGITGTDVAKGAADVVLTDDNFSSIVKAVEEGRNIYRNIKKSILFLLSCNFGEIIALFLAILLGWATPLRPIHILWVNLITDTLPALSLGVDPEDPDVMKEKPRHAKESLFSGSVPFLIFNGAVIGILTLIAFIAGAKFYTGDTNLFPLFPERIDEDALLHAQTMAFVVLSFSQLVHSFNLRSRTKSIFSIGIFTNKYLVFSLLIGVLMQVCIISIPPLANIFGVHALTMRDWGFVLLLSIIPLVVNEIIKLVKRN	PGPT0013990_4183	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
AK009_05701	225			hypothetical protein	GTGGATTTATCCGTAAAGTCAGAAGAAAACGTTGAATATATGGTCGAAGCTATTAAAGAAAAATTACGTATGGTTAATGCTGGAGCGATGAGAGCTGCTAGTTTTAACGAAGAAATGTACGAAGATTTACGTGACATTTATGATCATGTTATGAAACGTGAAACTTTCAGCATTAGTGAAATGCAAGCTATTACAGAAGAATTAGGTACATTAATTAAAAAGTAA	MDLSVKSEENVEYMVEAIKEKLRMVNAGAMRAASFNEEMYEDLRDIYDHVMKRETFSISEMQAITEELGTLIKK				NA	NA	NA	NA	NA
AK009_05702	465	yfkJ	COG0394	Low molecular weight protein-tyrosine-phosphatase YfkJ	ATGGTTCAAGTATTGTTTGTTTGTCTTGGGAACATTTGCCGTTCTCCAATGGCAGAAGCGATTTTTCGAGATCTTGTCGTAAAAGAGGGACTCGAAGAGAAAATTGTCATTGATTCTGCAGGAACTGGAGATTGGCATGTTGGCCATCCGCCACATAAAGGAACACAAAAAATTTTAAAAGAAAATGCAGTCACTTTTGAAGGAATTAAAGCAAGGCAAGTAGAAAAAGAAGACTTAACAAAGTTTGATTATATTATTGCCATGGACAACAAGAATATAGCAGATTTAAAAAGTTTAGGTAAAACTGGAGGCTATATTGGTAGACTGTCCGACTTTGTTCCAGACGGTGGCTGGACAGACGTTCCTGACCCTTACTATACAGGGAATTTCCAAGAAGTATATGACCTTGTAACAGAAGGGTGTGCAAAGCTATTAGCTTTCATTCGAAATGAACAAGGAATATGA	MVQVLFVCLGNICRSPMAEAIFRDLVVKEGLEEKIVIDSAGTGDWHVGHPPHKGTQKILKENAVTFEGIKARQVEKEDLTKFDYIIAMDNKNIADLKSLGKTGGYIGRLSDFVPDGGWTDVPDPYYTGNFQEVYDLVTEGCAKLLAFIRNEQGI	PGPT0014530_6072	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
AK009_05703	516			hypothetical protein	ATGGCAAAGAAAAATAATATTGCTCGAAACATTGCGATTGGTGTAGCGGCAGGTGTAGCTGTATCCATGTTAAAGAAAGAAAACCGTGAAAAAGTAAAAAATACAGCAGAAAAAGCAAAAACAAAGATGATTGAAATTGGTGAAAATGCAAAGATCAAAGAAAAAGTGCAAACTGTTACAGATAAAGGACGCGAACTTGCTGATTTCAATGTGGTAAAAGCGAAAGTAGCAGAAATTAAAAAATTAACGCCATCTGTTGTAGAGACGTTAAAAGAAACGAAAGAAATTTTTAGTAAGAAAAAAGTTGAGCCAGAAGAAAAGCCAGAAACGATTGAAATTCAAGCTGTATCTCCAAAGGTAGATGAGCTGAAAGCAGAAGAAGAGCCAGTAGTTGCTGAAGATGGTGGTATGAAAGAAGCGCGTGAATTATTTATAAAAGACTCAAATGCAGTGGAAAAAAAAACTGAAGCGTACATTGAGTTAAAGCAAGATAAAGAAGAGAAGAAAAGCGTTTAA	MAKKNNIARNIAIGVAAGVAVSMLKKENREKVKNTAEKAKTKMIEIGENAKIKEKVQTVTDKGRELADFNVVKAKVAEIKKLTPSVVETLKETKEIFSKKKVEPEEKPETIEIQAVSPKVDELKAEEEPVVAEDGGMKEARELFIKDSNAVEKKTEAYIELKQDKEEKKSV				NA	NA	NA	NA	NA
AK009_05704	867			hypothetical protein	ATGAGAAAAATTTTAGAAAAGGTGAGAAGAAATCGTACTTATTCGTTTGGTAAAGATTTATATGACCGGACGATGCGCGATGATGTAGCGGGCTTGGCAGCACAGCTCGCTTATTTCTTCTTGCTTGCAATTTTTCCTGGGCTCGTTTTCTTAATTACGCTTCTTGGATTTATTCCCATTCAAACAGAGGATGTGCTTAGTTTATTAGAGGTTTATGTACCAGATGATGCAATGAACTTAATTGAGGTAAATGTAGATAAAGTTGTAAACCAGCAAAATGGTGGTTTATTATCATTTGGTTTATTATCCATGTTATGGTTTGCCTCAAATGGTGTTAATGCGGTTATGAATGCTTTTAACCGAGCTTATGACGTGAAGGAAACACGTTCTTTTATTACAACAAGAGCGTTATCAATTGTGTTTACATTAGCTATTATTTTTATGATTGTCTTTGCGTTAATTGTTCCGGTATTCGGACAAGTTATTGGAGCAGCAGTGTTTAAAGCACTCGGTTTATCAGATAGTTTTTCTTTCGTATGGAGCATTACACGATTAGTAGCGAGTTTCTTCGTACTATTTGCTTTGTTTAGTTTCTTATATACATTTGCACCAGATCGAAAGTTAAAAAGAAGAGAAGTTATTTCAGGGGCGTTATTTGCTACTGTAGGATGGATTGTGGTGTCTTACTCATTTGCTTATTATGTAGATAAGTTTGCGAATTACGCCAATACATATGGTGGTCTCGGTGGTATCATTATTTTAATGTTATGGTTTTATTTAACTGGATGGGTAATTTTACTTGGCGGTGAAATTAATGGTTTACTCCACCATTATAGAACCGGTGACAATAATTCCCGTAATGAATAA	MRKILEKVRRNRTYSFGKDLYDRTMRDDVAGLAAQLAYFFLLAIFPGLVFLITLLGFIPIQTEDVLSLLEVYVPDDAMNLIEVNVDKVVNQQNGGLLSFGLLSMLWFASNGVNAVMNAFNRAYDVKETRSFITTRALSIVFTLAIIFMIVFALIVPVFGQVIGAAVFKALGLSDSFSFVWSITRLVASFFVLFALFSFLYTFAPDRKLKRREVISGALFATVGWIVVSYSFAYYVDKFANYANTYGGLGGIIILMLWFYLTGWVILLGGEINGLLHHYRTGDNNSRNE	PGPT0014525_6008	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
AK009_05705	210			hypothetical protein	ATGATAGCTATTATGACCGTTCGCACTGCTACTCGTTTTATGCTTTGGATGCGAACTGCTCTTTTGTTTATTATTACTTTTATTATTATGGTTCTTTTTATTATTACTCATGAAATATCCCCCCTGTTCCTTTTTATTATGGAACAAGAGCTCATTATTCATTACGGGAATTATTGTCACCGGTTCTATAATGGTGGAGTAAACCATTAA	MIAIMTVRTATRFMLWMRTALLFIITFIIMVLFIITHEISPLFLFIMEQELIIHYGNYCHRFYNGGVNH				NA	NA	NA	NA	NA
AK009_05706	1926	zosA	COG2217	Zinc-transporting ATPase	ATGAACTCAGAAGTAAAAACGTTACAGGCAAAAGAAGCAATTTCCCATCCCTCTTTATGGGACACATTAAAAAAACATTATGAACTTGTATTTGCAGTAGCATCTGGTATTTTTATTTTAGTTGGCTGGTTATTCACAAAGAACGATGCAATGAATGTAGGTATTACTTGCTATATCCTTGCTTATATAGTTGGTGGATATGCAAAAGCGAAAGAAGGCATTGAAGATACGATTGAAGAAAAAGAGCTAAATGTTGAAATGCTAATGCTCTTTGCAGCTATTGGTGCTGCAATTATTGGCTACTGGGCAGAAGGGGCTATCTTAATCTTTATCTTTGCGCTCAGCGGTGCTATGGAATCTTATACGTTAAGTAAAAGCCAAAAAGAAATTTCCGCTCTTCTTGACTTACAACCTGAAGAAGCATTACGTATTTCCAACGGAACTGAAGAACGTGTTCCTGTTGGAGAGTTACAAATTAACGACATTATTTTAATTAAACCTGGTGAACGTGTTCCTGCTGACGGTACGATTCATAACGGTGAAACAAATATCGATGAGGCAGCAATCACAGGAGAACCTATTCCAAATGAGAAAAGACATGGCGATGAAGTATTTGCCGGTACTGTAAATTTACGTGGTGCTATCGAAGTTAAAATTACGAAGCCGAGCGATCAAACATTATTCCAAAAAATTATCCGTCTCGTCCAAAGTGCACAAAGTGAAAAATCACCATCACAACTATTCATCGAAAAGTTTGAAGGAACATACGTAAAAGGTGTACTACTCGTTGTTGCGCTTATGATGTTCGTTCCTCATTTCTTACTTGACTGGAGCTGGAATGAAACGTTTTATCGCGCTATGATCTTACTTGTAGTCGCATCTCCTTGTGCGCTCGTAGCTGCCATTACACCAGCTACGTTATCAGCCATTTCTAACGGAGCGAGAAACGGTATTCTCTTTAAAGGCGGTATACATTTAGAACGCCTTGCTTCTGTGAAAGCAATCGCGTTTGATAAAACAGGAACATTAACAGAAGGTAAACCTACCGTAACAGATGTATATGTTCGAGAAAATATAACAGAAAAAGAAGTACTTTCTATTACAGCATCAATTGAAAGTCACTCTACACATCCTTTAGCTGAATCCATTGTTAAATATGCACAACATGCGTACGACATTACATTAAAAAAACCAGAAAAGGTTGAAGATGTAACTGGTTTTGGTCTAAAAGGAAGATTGGAAAACATCGCTTATAAAATAGGTAAAGCTGACTTTATCGGTGAAGAAACAAAGACATTTCATAATGGTATTTCTGCCTCACTTGAAAAAGAAGGTAAAACTGTCGTTTATATTAGTGATGAGGGAGGCATTCTTGGACTTATCGCTTTAAAAGATACGCTTCGCCAAGAAACAATAGCTGCTATTCGTGATTTACAAAGCATTGGTGTCGAAGCAATTATGATTACTGGAGATAATGAAGAAACGGCAAAAGCAATTGCCTCTGAAAGTAATATAAAGGAATATTACGCATCATGCTTACCAGAAACAAAAGTTGAAACGATTAAAAAGTTAAAAGAAAAATACGGTACAGTAGCAATGGTCGGAGACGGTATAAATGATGCCCCTGCACTAGCTACTGCTAGCATTGGTGTCGCAATGGGAGAAGGAACAGATGTAGCTTTAGAAACTGCAGATGTTGTACTGATGAAGAACGAACTATCTCGCCTTTCCCAAGCAATTCGTTTATCAAAACGAATGAACCGTATTGTGAAGCAAAACGTAATCTTTTCGCTAGCCGTTATTGCCATGCTAATTTGTTCAAACTTCTTGCAATTTTTAGCTCTTCCATTCGGTGTTATTGGCCATGAAGGAAGTACGATTCTTGTCATTTTGAATGGCTTACGATTACTAAAAGGAAGCAAATAA	MNSEVKTLQAKEAISHPSLWDTLKKHYELVFAVASGIFILVGWLFTKNDAMNVGITCYILAYIVGGYAKAKEGIEDTIEEKELNVEMLMLFAAIGAAIIGYWAEGAILIFIFALSGAMESYTLSKSQKEISALLDLQPEEALRISNGTEERVPVGELQINDIILIKPGERVPADGTIHNGETNIDEAAITGEPIPNEKRHGDEVFAGTVNLRGAIEVKITKPSDQTLFQKIIRLVQSAQSEKSPSQLFIEKFEGTYVKGVLLVVALMMFVPHFLLDWSWNETFYRAMILLVVASPCALVAAITPATLSAISNGARNGILFKGGIHLERLASVKAIAFDKTGTLTEGKPTVTDVYVRENITEKEVLSITASIESHSTHPLAESIVKYAQHAYDITLKKPEKVEDVTGFGLKGRLENIAYKIGKADFIGEETKTFHNGISASLEKEGKTVVYISDEGGILGLIALKDTLRQETIAAIRDLQSIGVEAIMITGDNEETAKAIASESNIKEYYASCLPETKVETIKKLKEKYGTVAMVGDGINDAPALATASIGVAMGEGTDVALETADVVLMKNELSRLSQAIRLSKRMNRIVKQNVIFSLAVIAMLICSNFLQFLALPFGVIGHEGSTILVILNGLRLLKGSK	PGPT0004200_3610	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK009_05707	951			hypothetical protein	GTGAAGACAGAGAAATTTTTTACCCATCCGATTGGCGTATTTATTGCTGCAATAGTAGCAACTTTTTTATGGGGAAGCGCATTTCCTTTTATTAAATTAAGTTATGTTGAACTTGGAATTCAACCACAAGAAGTTGGAGAGCAAATATTATTTGCTGGTTATCGTTTCTTGTTATCTGGGGTAATGCTTTTATTCTTTTTTAAAGTGTTAGGGAAAAATATGAGCTTCAAAAAAGGAACGGGGAAACAGTTAATACAAATTGGTTTATTCCAAACGTTTCTTCAATATATCTGTTTTTATATTGGAATGAGTTATAGTTCGGGGATTGAAGGAGCTATCATTTCAGGGACATCATCATTCTTTCAAATTTTACTCGCCCATTTTGTATATAAAGATGATGCTCTCAATATGAGAAAATTAATTGGGGTATCGATTGGTTTTTGTGGCGTCATTTTAGTAAATGTGCCGAGTGATGGTAGCTTATCATTTCATTTTGGAATCGGAAGCTTATTACTTCTTAGTGCAGCAATGCTGTATTCATATGGAAACATATTAGCAAAAGAAGGTAGTAAAACATTAGATGTTGGCTATATGACAGCATACCAAATGATTTTTGGTTCTATAGGATTATTATGTATAGGGGCTTTACAAGTTGGAGTAATGCCATTTACATTTAGTCTACACGCACTACTTATGCTGATTTATTTATCTTTCTTATCTGCAGCTGGTTTTTGCATTTGGAATACAATTATGAAATACAACAAGGTTGGAAAAGTATCTATGTATATGTTCTTTATACCCGTATTTAGTGTGTTATTATCGAGCATGATTTTAGGTGAAGCAATTCATTCATTTGTGCTACTTGGTTTAGCATGTGTAGCCGCGGGAATTATTGTGGTAAATCGGACGCCAGCTAAGCAAAAAATAGAGCAAGAAAAACAAGTGGCATAG	MKTEKFFTHPIGVFIAAIVATFLWGSAFPFIKLSYVELGIQPQEVGEQILFAGYRFLLSGVMLLFFFKVLGKNMSFKKGTGKQLIQIGLFQTFLQYICFYIGMSYSSGIEGAIISGTSSFFQILLAHFVYKDDALNMRKLIGVSIGFCGVILVNVPSDGSLSFHFGIGSLLLLSAAMLYSYGNILAKEGSKTLDVGYMTAYQMIFGSIGLLCIGALQVGVMPFTFSLHALLMLIYLSFLSAAGFCIWNTIMKYNKVGKVSMYMFFIPVFSVLLSSMILGEAIHSFVLLGLACVAAGIIVVNRTPAKQKIEQEKQVA				NA	NA	NA	NA	NA
AK009_05708	681			hypothetical protein	ATGAATCTACTTTACGTGGTGTTAATTGGGCAAATACTTCTTTTTTTTATTGGTGCAATTTATGCAATAGGGCAGACAAAAAGAACGAAAGTTAATATGCCGTTACCTTTAGCAATCCGTCTTATTCTTAGTTTTTCTTTAACAGGTAGTGCAATTTGGATATGGTTACAAGATCCATCTGTAGAGTATAGTACGTGGGTTGCACTTGGTATGACTTTATCGACTGTGGGAGATTTGTTTATGGCTGGGTTGATTCCAATTGGTCATCGATTAATTGGTGGGATGGTTACTTTCGCCCTTGCTCATTGTTTTTATGTAAAAGCATTTTTGCAAACAGGAATTTCATGGAATGGTTTTTGGATTGGCTTACTTGTATATGGGCTCTTTCTAATTGTAGGATGGTTCTTCTTTATCCGAAATGATAAACAGGATAAATTGTTTACGATAGGAGCTCTAATTTATGGATTGTGGGTTGGGGGAATGGCGTGCTTTGCATTCGCCTTATATTATGAAAATACAGGAATATGGTGGATACCAGCGTTTGGTGGTTTACTGTTTGTGATTTCTGATTTTATTATTGGCGTGACAGATATCGGAGGGCGCAAATTGAAGTATGAGCCACTTTGGATTTGGTTTACATATGTAGCTGCTCAAATGTGTATTGTATATGTGGGATTATAA	MNLLYVVLIGQILLFFIGAIYAIGQTKRTKVNMPLPLAIRLILSFSLTGSAIWIWLQDPSVEYSTWVALGMTLSTVGDLFMAGLIPIGHRLIGGMVTFALAHCFYVKAFLQTGISWNGFWIGLLVYGLFLIVGWFFFIRNDKQDKLFTIGALIYGLWVGGMACFAFALYYENTGIWWIPAFGGLLFVISDFIIGVTDIGGRKLKYEPLWIWFTYVAAQMCIVYVGL				NA	NA	NA	NA	NA
AK009_05709	537	sipS_2	COG0681	Signal peptidase I S	ATGATGCAAAGGAAAAAATGTTGGCGTGAATTTTTTGGAACGATTGCAATTGCATGTTTATTGGTGTTTTTGGCGAAAATTTTTGTGTTTTTCCCTACGACTGTAAAAGGAGCATCCATGAGGCCGACGTTGCAAGATGGAGATAAGGTGATTGTTAATAAGTTAGCAAAACAATTTGAAAGCTATGGGAGAGAAGACATTATTGTTGTGAAAACAGATAATTTTTATGTCAAAAGAGTGATTGGATTGCCAGGAGATATTATTGAGATGAGAAATGATCAATTATATGTAAATTCTGAAGTGAAAGATGAAGAGTATTTGGATAGTAATAAAAAACAAGCAGAAAAAAAACTTATGAATTTAACAGAGGACTTTGGACCGATTACAATTCCTAAAAATAAGATTTTTGTTATGGGAGATAATCGCCTAATAAGTAAAGATAGTAGAAATGGTTTAGGTTTTATTGATAGAGAAGATGTGTTAGGAAAGTTAGCAGGCATTTATTATCCGTTTGAACATATGAAAATAATAAAGTAA	MMQRKKCWREFFGTIAIACLLVFLAKIFVFFPTTVKGASMRPTLQDGDKVIVNKLAKQFESYGREDIIVVKTDNFYVKRVIGLPGDIIEMRNDQLYVNSEVKDEEYLDSNKKQAEKKLMNLTEDFGPITIPKNKIFVMGDNRLISKDSRNGLGFIDREDVLGKLAGIYYPFEHMKIIK				NA	NA	NA	NA	NA
AK009_05710	2763			hypothetical protein	ATGACCATTGAAAATCAATTTATTCAAAAAGTTTACTATAAAACATTTTTAACAGAAGAAACTTCTACTCCTGCATCGGAAGTACTCGGTGAAGCATATATAAATGAATCTAAAAATGAATTCTCCAACATTTCTAATATTCGATTTGCTCAAGGTGAATTTTATTATCAAAATAAAGATTTTGAAGCAGCTATATTTAAATGGGAAAAAGTAAATAATGCTCTTGCACTTTGGGCAACAAAAAATATTGCAGATGCTTATTTTGAACTAGGATTTTTACCAAAGGCAGAAGAAATTTATCAATCCATTCAAACAGAAGATACAACTCTTACGATGGAGGTTTCCTTACAACTTCTTTCTCTTTATATCGAACAAGATCGTTTAGGACTTGCTTTTAAGACGATTAGTGAAGCTGTTGCATTCCAACCGGATTACCCAAATATTACTGCAATTGCACGTTCTTTCTATGAAAAACAAGAAGATTGGAACAACGCTATCGAACTAGCTGTTCAAGAAGGTATTCGAACACAATCTTTACACTGGTTTGATACGTTAATAAATTACATAAATAAAGGATTTACAAAAAATATTAAGCCTGAATATTTCTATGAGTCTTTAAAAGCTCTATATGCTGTTGATCAAGCTCAATTTAAAGAACTTGTTATTGCTCTTTGGAATAGCTATCAACATGAATCCTTATACCTTCCTTGGATTCAAAGTATTAATCATTTATTCTTGCATATTGAAACAGACAATAATGACGATTGGAATGAAATTTCTACTCGCTATCAAGAAACATACTTTGCATTAATTACCGGAAATCATTTTATGCATGAATTAAACGGACTTGTACCAAATTTATTAACAAATTGGTTCAGTTTAACGAAAGCAAAAGATTCTCTAGTTGTCTCTGCAGCAGTGTTAGCATGGAATGAAGTCTCACCTACAACTTTAGAATCATTACTCGTAAAAAGTGCTGGATCCTTACTTTCTAATACATCTGCTGAAGCAGATGTAAATATGGAAACAGTTTCTCATTTATTCGAAACAATCGCTGTGTGGGCTGAGAAAAATGATGTAGATTTAAGTCATCAATTTACGCTACTCGTCCATGAACTATGCGATTTAAATGTCACGCCACTACTAATAGCTGGAACTAGTGACCATGATAAAACATCATTTGTTAATTCAATATTAGGAGAGAACATCTTAAATGAAACTTTAACAACTCCTATTCTATTTAAAGACGCTAGTCAAACTGAAATAACAGAATTTACCGCGTTAGATATACGAAGTATCCCTAACCTTAATGAATTCCATCAAATAACGGCTACATCTGCTCAGTCGGAACTTGAGAAAAGATGTATAGAAATTAAGCTACCAAGTAGGTTTTTAAGAAAAAATAAGTTTACATTTCTTATTACACCATCCATTCAAGGACAATTGGATAAAAACAATGCATACTTTGAATACTTACAAGCAGCAGATAGTCTTGTTTACGTATTAAATTCTTCTTCACCATTGCATAGTGAAGAAATTGATACGTTAATTTATTTACGTGAACAAGTATCAAACTTACAAATTCACTTCGTATTACACACAAATAATACGACTACTAATGAAAAACTAATTAGTAAACTTAAAGTGCATTTTCCAGATGCACAATTCTTCCCATACTCTCCTTCGCAAGAGAGTAGCCAGCAACTTGGAGATGTAACAGAATCTATTCTCTCTAATCTTGCAAAACGCGATATAGAAAAAGAACGTATAGAAAAGCTAATATGGTTTACGCAAAAGACGATTGCTTATCTCATAAACGAACGTGTGGAATTAGAAAATACATTAGTAAAATCCGTACGCTGGAATAAACACATCTCAGTGAAACTTACTGGATTTATTAATAACCTTACTGCTCTTGAAAAAGATAAAATTCGCTCTATTACCGAATCCTATCTTTTAACGAAAGAAGAAATTACACGAGATATACATTCTCAAATTCCTGAATTATTACAGAGCTGCTCTGATCTTGTTCAAGAAGATAGTGATTTCAAACTAGTTCATGAAGAATTAAATGCTGCAATGAATGAACGAGTTCAAAAGCATGTACAACAGGTACTTCTTCCTAAATTTACTGGGTCTATTCAAGAATGGATTGAAACAGCACATAATGAATTTATTCAAGCTCAAGCTTATTTAGATGAAATGAGTGAAACATTTAATAAATTATATAAAGAAGAACGTATGAAACTTCCTTGCGATTTCAAATTATTAGATGATTGGAATCGAGATGTTGTACGAATGACAAATCGAATTACAGTAACAAACATCAATATTTTATTACGCTTTACACCGACACAGTTTTTCTTAAAAAGTGCCGGAAAATTATTTGGTAATATGCAAAAAAACCAATCTATGCTCGCCAACAAATATAAACAATATATTGAAACAGAAGACTATACAGAAATTGCTCACACAATTTCAAAACAATTCTTCCTACAATTTGAAGTATTTGAAGGGGCATTAGAACGCGATATCATGATGTTCTTTAAAGATCCACTTAGCATATTGAAACAAAATGTGGATGCAGCTCAACTTGAGATACAGGAAGATGAACAAACATTAGCAACGCTAAGAAGCAATCCAGAAACATATCATGATCCTTTAGCGTTATTTAAACTACAATTGCTACAACATAAATTCGTTTTAAGTACTACAAAGAAACATGAAGATATCTTTGTATCTAACGAATCTCCTACTGTTTAA	MTIENQFIQKVYYKTFLTEETSTPASEVLGEAYINESKNEFSNISNIRFAQGEFYYQNKDFEAAIFKWEKVNNALALWATKNIADAYFELGFLPKAEEIYQSIQTEDTTLTMEVSLQLLSLYIEQDRLGLAFKTISEAVAFQPDYPNITAIARSFYEKQEDWNNAIELAVQEGIRTQSLHWFDTLINYINKGFTKNIKPEYFYESLKALYAVDQAQFKELVIALWNSYQHESLYLPWIQSINHLFLHIETDNNDDWNEISTRYQETYFALITGNHFMHELNGLVPNLLTNWFSLTKAKDSLVVSAAVLAWNEVSPTTLESLLVKSAGSLLSNTSAEADVNMETVSHLFETIAVWAEKNDVDLSHQFTLLVHELCDLNVTPLLIAGTSDHDKTSFVNSILGENILNETLTTPILFKDASQTEITEFTALDIRSIPNLNEFHQITATSAQSELEKRCIEIKLPSRFLRKNKFTFLITPSIQGQLDKNNAYFEYLQAADSLVYVLNSSSPLHSEEIDTLIYLREQVSNLQIHFVLHTNNTTTNEKLISKLKVHFPDAQFFPYSPSQESSQQLGDVTESILSNLAKRDIEKERIEKLIWFTQKTIAYLINERVELENTLVKSVRWNKHISVKLTGFINNLTALEKDKIRSITESYLLTKEEITRDIHSQIPELLQSCSDLVQEDSDFKLVHEELNAAMNERVQKHVQQVLLPKFTGSIQEWIETAHNEFIQAQAYLDEMSETFNKLYKEERMKLPCDFKLLDDWNRDVVRMTNRITVTNINILLRFTPTQFFLKSAGKLFGNMQKNQSMLANKYKQYIETEDYTEIAHTISKQFFLQFEVFEGALERDIMMFFKDPLSILKQNVDAAQLEIQEDEQTLATLRSNPETYHDPLALFKLQLLQHKFVLSTTKKHEDIFVSNESPTV				NA	NA	NA	NA	NA
AK009_05711	594			hypothetical protein	ATGGAACAACATATTGGCGAGTTAATCGCGCATTATGGCTATTTTGGAATTGTTATAGCTTTGGCTGGTGGGATTGTCGGATTACCGATACCAGACGAGTTTTTATTGACCTTTATTGGTTATAATGTTTCAAAAGGAGTTATGTCAGGAACTGCTGCTTTTTTAAGTGGGATGGCTGGTGCGATGTTAGGGATTACGTTAAGCTACATATTAGGTTTAAAACTTGGGCTCCCTGTTTTAAAGAAATATGGGCCGAAAATTAGAATTAAAGAACATCACATTGAAAAAACACATATTTTATTTGAAAAATATGGGCCATTTCTTTTAATGATTGGTTATTTTATACCGGGAGTACGTCATTTAACGGCATATTTTGCTGGGGTATCAAATTTGACACTTTGGCGTTTTTGTTTGTACGCTTACGGTGGTGCGCTCATTTGGATAAGTGTTTTTATTGGGCTTGGCTGGAAGTTAGGCGAGAAGTGGCGCTTCGTTGAGTATAGTTTACATCATTATGGAATATGGATTTTATTAATTTCAGCAGTTGTTACATGTGTTGTATGGTTTTACATAAAGAAAAAGAAAAACCGCTAA	MEQHIGELIAHYGYFGIVIALAGGIVGLPIPDEFLLTFIGYNVSKGVMSGTAAFLSGMAGAMLGITLSYILGLKLGLPVLKKYGPKIRIKEHHIEKTHILFEKYGPFLLMIGYFIPGVRHLTAYFAGVSNLTLWRFCLYAYGGALIWISVFIGLGWKLGEKWRFVEYSLHHYGIWILLISAVVTCVVWFYIKKKKNR				NA	NA	NA	NA	NA
AK009_05712	429			hypothetical protein	ATGAGTTCGTGGCTCTTATTTGCACTATTATCAGCAATTGCTGCTGCCCTTGTATCGATTTTTGGAAAGTTTGGTTTAGACGGAATCGATGCAAACGTTGCAACAACAATTCGATCTATTATTATGGCATTATTTATGATAGGCGTTATTATCATACAAGGTAAATTTCAAAATATCGGCGACGTACTGCTAAATAAAAAAGCACTGCTATTTATCACATTAAGTGGGATTGCAGGTGCTTCTTCATGGCTATTTTATTTTCTTGCCCTCAAAACAGGAAAGGTTTCACAAGTAGCTCCTGTCGATAAATTAAGCGTCGTATTTTCTATCATTCTCGCTATGATTATCCTCGGTGAAAAGTTAAACTTTATGACCGGTGTTGGTGTAGTCTTTATTACAGCTGGTGTATTATTTATTGCTTTCAGCTAA	MSSWLLFALLSAIAAALVSIFGKFGLDGIDANVATTIRSIIMALFMIGVIIIQGKFQNIGDVLLNKKALLFITLSGIAGASSWLFYFLALKTGKVSQVAPVDKLSVVFSIILAMIILGEKLNFMTGVGVVFITAGVLFIAFS				NA	NA	NA	NA	NA
AK009_05713	147			hypothetical protein	ATGAAGAGAGAAGAACGCAAAAATATGATTGAGTTTATTGAAAAGAAGAAAGGGATTGAGCGTGACGAATTACTGTTTATGACAGACGATGAAGTAGAGCATATTTATAATGTAACGTACTTTTTATATGAGGAAATTGCAGAGTAG	MKREERKNMIEFIEKKKGIERDELLFMTDDEVEHIYNVTYFLYEEIAE				NA	NA	NA	NA	NA
AK009_05714	417	ydaG	COG3871	General stress protein 26	ATGCACTTAAAAGAGAAAATTGCAACTATTATCCAAGGACAACGTACCGGTGTATTATCCACAGTACGTAACGAGAAACCGCATAGTGCCTTTATGATGTTTTTCCATGAAGATTTTGTACTATATGTTGCAACAGATCGACAATCAAAAAAGATAACAGATATTGAACAAAATCCTAATGTCCATGTACTACTCGGACGAGAAGGAAAAAAATTAGATGAAGATTATATTGAAGTTGAAGGATTAGCTTCAATCGAGGAAGACTCAACATTAAAAAACAAGTTTTGGAATAATAGCTTAAAACGTTGGTTACTCGGTCCTGAAGACCCTAATTACGTATTGATAAAAATCAATCCCGACACAATTTATTACATCGATGGTGCCGGTACGACGGAGCCTGAGTTTTTACGACTATAA	MHLKEKIATIIQGQRTGVLSTVRNEKPHSAFMMFFHEDFVLYVATDRQSKKITDIEQNPNVHVLLGREGKKLDEDYIEVEGLASIEEDSTLKNKFWNNSLKRWLLGPEDPNYVLIKINPDTIYYIDGAGTTEPEFLRL				NA	NA	NA	NA	NA
AK009_05715	1056	chaA	COG0387	Ca(2+)/H(+) antiporter ChaA	ATGTTTAATAAAATATTTCTTATAGTAGCACTTATAGGTGTACCACTATCTGTACTTGGAAAAACACTTCATTGGCCAGAAACAATTATGTTCGCTGTGTATTGTATTACGATTATCGCGTTAGCTGGTTTTATGGGGAGAGCAACAGAGAGTTTAGCAATTGTATCTGGTCCTAGAATAGGCGGATTATTAAATGCTACTTTCGGTAATGCTGTTGAACTTATCATTTCAATTTTTGCACTTCAAGCAGGGTTAATTGAAGTGGTGTTAGCTTCTTTAACGGGTTCTGTACTTGGAAATTTATTATTAGTAGGAGGACTATCCTTCTTTGTAGGTGGACTTAAATATAAAAGGCAAAGCTTTAACGTTTACGATGCAAGGCATAATTCAGCTTTATTAATATTTGCTGTTGTCGTGGCCTTTGTTATTCCAGAGATTTTTTCAATGAAGATGGACGCTGGCAAGACGTATCAATTAAGTATAGGTGTTTCTATTATTATGATTATCATGTACATTGCTGCATTACTATTTAAGTTAGTTACGCACCGTGGTGTATATCAACATAAAAGTGACGAAGTAGCGCATGAAGAAGAGCCAGAGTGGTCGAAAGGGAAGGCACTCCTTATTTTAGCGATAGCAACACTGGCGGTAGCTTATGTATCAGAGGCGCTCGTGCATACTTTTGAAACTGTTGCAAAATCATTTGGTTGGTCAGAATTATTTATAGGGGTTATTATCGTTGCAATTGTTGGAAATGCAGCGGAACATGCATCTGCAATTATTATGGCTTATAAAAATAAAGTAAATATTGCAGTCGAAATTGCAATAGGTTCTACATTACAAATCGCCATGTTTGTTGCTCCTGTACTAGTATTGCTATCTATGTTCTTCGCGCAGAGGATGCCTTTAGTATTTACCATACCAGAACTTGTATCTATGATTACAGCCGTTTTCTTAACGATTGCGATTTCAAATGATGGAGATACAAACTGGTTTGAAGGCGGCACTTTACTAGCGGCGTATGTCATTATGGGAATTGGTTTTTATTTATTATGA	MFNKIFLIVALIGVPLSVLGKTLHWPETIMFAVYCITIIALAGFMGRATESLAIVSGPRIGGLLNATFGNAVELIISIFALQAGLIEVVLASLTGSVLGNLLLVGGLSFFVGGLKYKRQSFNVYDARHNSALLIFAVVVAFVIPEIFSMKMDAGKTYQLSIGVSIIMIIMYIAALLFKLVTHRGVYQHKSDEVAHEEEPEWSKGKALLILAIATLAVAYVSEALVHTFETVAKSFGWSELFIGVIIVAIVGNAAEHASAIIMAYKNKVNIAVEIAIGSTLQIAMFVAPVLVLLSMFFAQRMPLVFTIPELVSMITAVFLTIAISNDGDTNWFEGGTLLAAYVIMGIGFYLL	PGPT0013985_2618	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
AK009_05716	798	yfkD		putative protein YfkD	GTGAAACGAGTATACAGCATATGTCTTTCAACTATGGTCTCGTTTATTTTATTATTTCCTAACATGAGTTTTGCAAAGACAACAGTAGGAACAAAAATGCCTTCATCTGTTTTAAATATTTCAAAAGACAATACATTTCCAAATGATGCGCAAGATTTGCCACGTTTACAGCCAAGTAAGTTTGCTCAAGAACTATTGAAAACAGCTAATATTAAAATTGAAAATCCAGACTTAATTCGGATGTTTAATGAAACGACAATTTCAAATGCGCCGCTTGCAGTAGGGTACCGGGCAAAAATTTATTTAGGTCAATGGGCTTTACATTATGAATCAGTAGACACATCGATTAATTGGGAATATAAACAAGTGAATCGAAATGTGTATGATAATCGCGGAGGAGACCGTTTATATCCACTTCGCTATAAGCAAGAAACACAAAAGACGGTTGAAGGCGATTTAACAGCAGATATGAAAGATGCTGCAGATGTGAAAAAAATGATGCTTCTCAAAGCGCTTGAAAAAGTACAATTGCCCCTTTCGTTTAAAACAACTATTGGTTATGGTACTGGACATGAGCGTGTGTATAATATTAGTCCGAGTCAACTCGGATATTTATACGCTTATACACCAGCAGTAAATGAAAAGGGAAAAGTAACATTTGGAGAAGTGTATCTTGTATTAAAGGGAAATCAAAAAAGACTTGTTGTGAAAAATATTACTTCTCAAGGAATTGGAGCGGCGATTCCAATTCATGATCATTTATTTTTTAAATTCATTTCTTCTTCCCACTCGCAATAA	MKRVYSICLSTMVSFILLFPNMSFAKTTVGTKMPSSVLNISKDNTFPNDAQDLPRLQPSKFAQELLKTANIKIENPDLIRMFNETTISNAPLAVGYRAKIYLGQWALHYESVDTSINWEYKQVNRNVYDNRGGDRLYPLRYKQETQKTVEGDLTADMKDAADVKKMMLLKALEKVQLPLSFKTTIGYGTGHERVYNISPSQLGYLYAYTPAVNEKGKVTFGEVYLVLKGNQKRLVVKNITSQGIGAAIPIHDHLFFKFISSSHSQ				NA	NA	NA	NA	NA
AK009_05717	1128	queE_2		7-carboxy-7-deazaguanine synthase	ATGACGATATCACAAAAAATGAAGCCGATTACTCCTTCTTACGATCCATGGGAAGCGTATATGGACCTTGAAGAGTACGGCAAACTACTATTAACAAATGTTGAATTTACAACGACGACGTTATGCAATATGCGCTGTGAGCATTGCGCTGTTGGTTACACGTTACAGCCGAAAGACCCAAATCCGCTTCCGATGGATCTTTTATTAAAACGATTAGATGAGATTCCTCATTTACGTTCTTTAAGTATTACTGGCGGAGAACCTATGCTTTCAAAAAAATCCGTCGACAACTATGTAACACCACTCTTAAAATACGCCCATGAACGAGGCGTTCGCACTCAAATCAACTCTAACTTAACTATAGATTTAGCACGTTACGAACAAATTATTCCTTATTTAGACGTGTTGCATATCTCTCATAACTGGGGAACAATTGATGACTTCGTTGAAGGCGGATTTGCAATGATGGAGCGTAAACCTACTTACGAACAACGTGCAAAATTATTCGAAAGAATGATTACAAATAGTAAGGCTCTATCAGATGCAGGTGTACTTGTATCTGCCGAAACAATGTTAAACAAAAGAACTCTACCACATATTGAACATATTCACCGCCAAATCGTCGAAGAGATGGGCTGTAAACGTCATGAAGTTCACCCAATGTATCCAAGTGACTTCGCGAGTAATCTAGAGATTTTAACAAAAGCTGAAATTCGTGATGCGATTGAGCATTTACTAGAAATTCGCGATGAAAATGTATGGATGTTATTTGGAACTTTACCTTTCTATGCTTGTAGCGATGACGAGCGAGACATTGCCACATTTAAAAAATTACAAGAGAGCAAAAATGTAACCGTTCGTAACGATCCAGATGGCCGTTCTCGTTTAAATGTAAATATTTTCGATGGAAATATTATTGTGACGGACTTTGGTGATGTTCCACTTCTAGGAAACATACAAACAAACACATTACAAGAAGCATATGACAAATGGAGTGCTTCAAAAACAGCAAAATCATTAAGCTGTCACTGTCCTGCAGTAAAATGTCTTGGACCAAATGTTCTTGTAAAAAACAGCTACTATCCGACAGAAGATTTCTTATCAAAAACAGCAAACATTACATTATAA	MTISQKMKPITPSYDPWEAYMDLEEYGKLLLTNVEFTTTTLCNMRCEHCAVGYTLQPKDPNPLPMDLLLKRLDEIPHLRSLSITGGEPMLSKKSVDNYVTPLLKYAHERGVRTQINSNLTIDLARYEQIIPYLDVLHISHNWGTIDDFVEGGFAMMERKPTYEQRAKLFERMITNSKALSDAGVLVSAETMLNKRTLPHIEHIHRQIVEEMGCKRHEVHPMYPSDFASNLEILTKAEIRDAIEHLLEIRDENVWMLFGTLPFYACSDDERDIATFKKLQESKNVTVRNDPDGRSRLNVNIFDGNIIVTDFGDVPLLGNIQTNTLQEAYDKWSASKTAKSLSCHCPAVKCLGPNVLVKNSYYPTEDFLSKTANITL				NA	NA	NA	NA	NA
AK009_05718	183			hypothetical protein	ATGGGAAAAGCAATTCAAGATAAAGATACACAATTAGTATATTTAAAAGAGCGTTTAAATATGTTCATTGAAGTAATTGATACAATTGAACCTGAAGAAGTAGAATTAGAAGATGTAGATCGTCTTCTTGCAATGTTAGATGAATTAGAATTAAAATGTGAGCAATTTAAAAAAGACGAATAA	MGKAIQDKDTQLVYLKERLNMFIEVIDTIEPEEVELEDVDRLLAMLDELELKCEQFKKDE				NA	NA	NA	NA	NA
AK009_05719	1578			hypothetical protein	ATGGAATTTTCAGCTCATAACGTTTTGGTAGCGTTCACAATTGAGGGGGAAGTAACAATGGAAAAGCTTCAAGAAAGCATGTATCAACTAATTGTTGAAACGTCAACGAACTTACCGAAAGATGTTCGTCGTGCGATTCAACAAGCGAAAGAGCGAGAAAATGTAGGGACTCGTTCTGCGATGGCACTTGGCACAATTACAAATAATATTAAAATGGCTGATGATAACATCTCACCGATTTGCCAAGATACAGGGATGCCAACGTTTAAAATTTATACACCAGTTGGTGTGAATCAATTAAAGTTGAAGGAAGCTATCTATAATGCGCTTGAGCGGGCGACAAAAGATGGTAAACTTCGTCCAAATTCTGTTGACTCTCTTTTTGGAGACAATAGTGGAAATAATTTAGGACCAGGTACACCGGTTATTAAGTTTGAACAATGGGAAAAAGATTATATTGATGCACGTTTAATCCTAAAAGGTGGTGGCTGTGAGAATAAAAATATTCAATATAGCTTACCGTGTGAACTAGAAGGACTTGGACGAGCTGGCCGTGATTTAGAAGGAATTCGTAAATGCCTTCTTCATGCAGTATACCAAGCACAAGGTCAAGGATGTAGTGCTGGTGTAATTGGTGTTGGTATCGGGGGAGACCGCACATCAGGTTATGAATTAGCAAAAAATCAATTATTCCGTACATTAGATGATGTCAATCCAGTACCAGAGTTACAACAACTTGAAGAGTACGTATTAGAAAATGCGAATAAGCTTGGCATTGGTACGATGGGATTTGGTGGAGAAACAACTTTACTGGGCTGTAAAATTGGCGTGTATAACCGCCTGCCAGCTAGCTTCTACGTATCTGTGGCGTATAATTGCTGGGCATATCGCCGCCTAGGTGTAACAATCCATCCTGAAACAGGTGAAATTATGGATTGGTTATATCAAGAAGGTGAAGATACACTTCAGCATGAAGCACAAGAAAAAACAGAGCAACGTGAGATTGTATTACAAGCACCAATTACAGAAGAGCAAATTCGTGGACTTCGCGTTGGTGATGTTGTAACAATTAATGGCATGATGTATACAGGTCGTGACGCAATCCATAAGCATTTAATGGATAATGATTGTCCAGTAGATTTAAACGGACAAATTATTTACCACTGTGGTCCAGTTGTTGTGAAAGATGACAATGACAATTGGCAAATTAAAGCGGCAGGTCCAACGACAAGTATTCGTGAAGAACCGTACCAAGGCGATATTATGAAGAAATTTGGTATTCGCGCTGTTATTGGAAAAGGCGGTATGGGTGCGAAAACATTAGCGGCTTTAGAAGAACACGGTGGCGTGTACTTAAACGCAATCGGCGGTGCCGCGCAATATTATGCTGAATGTATTAAAGAAGTGGAAGATGTTGATTTCTTACAATTTGGTATTCCAGAAGCAATGTGGCATTTACGCATTGAAGGTTTTAAAGCAGTTGTAACGATGGACTCTCATGGTAATAGTTTACATGCAGATGTTGATAAAACATCACTTGAAAAATTAGCGAGCTTTAAAGAGCCGGTATTTAAATAA	MEFSAHNVLVAFTIEGEVTMEKLQESMYQLIVETSTNLPKDVRRAIQQAKERENVGTRSAMALGTITNNIKMADDNISPICQDTGMPTFKIYTPVGVNQLKLKEAIYNALERATKDGKLRPNSVDSLFGDNSGNNLGPGTPVIKFEQWEKDYIDARLILKGGGCENKNIQYSLPCELEGLGRAGRDLEGIRKCLLHAVYQAQGQGCSAGVIGVGIGGDRTSGYELAKNQLFRTLDDVNPVPELQQLEEYVLENANKLGIGTMGFGGETTLLGCKIGVYNRLPASFYVSVAYNCWAYRRLGVTIHPETGEIMDWLYQEGEDTLQHEAQEKTEQREIVLQAPITEEQIRGLRVGDVVTINGMMYTGRDAIHKHLMDNDCPVDLNGQIIYHCGPVVVKDDNDNWQIKAAGPTTSIREEPYQGDIMKKFGIRAVIGKGGMGAKTLAALEEHGGVYLNAIGGAAQYYAECIKEVEDVDFLQFGIPEAMWHLRIEGFKAVVTMDSHGNSLHADVDKTSLEKLASFKEPVFK	PGPT0001635_1160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001635-fumA|fumB-K01676	NA	NA
AK009_05720	783	pdaA	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaA	ATGAAATATAAATGGTTATATATCGGTCTCATTTTTTCAATTATGATGGCACTTGTTCCAGTTTCAACATTGGCTTATACAAATACTCCACATAACTGGGGAATCCCGCGTCCTAAAAATGAAACAGTACCAGATGCAGGAAAGTTATATACGGATTTACTGCAAAAAAATGGCGGGTTTTATTTAGGAGATACGAAGAAAAAAGATATTTATTTAACATTTGATAATGGATATGAGAATGGATACACAGAGAAAATCTTAGATGTATTAAAAGAGAAAAAAGTACCAGCAACTTTCTTTGTAACGGGGCATTACATTAAAACACAAAAAGATTTATTGTTAAGAATGAAGGATGAAGGACACATTATTGGAAATCATTCTTGGAGTCATCCTGATTTTACAGCGGTAAATGATGAGAAGCTTCGTGAAGAATTAACGAGTGTAACGGAAGAAATTAAAAAAGTAACTGGGCAAAAAGAAGTGAAATATGTACGTCCTCCGCGCGGCGTATTTAGTGAAAGAACGTTAGCTCTTACGAAAGAAATGGGCTACTATAATGTATTTTGGTCACTTGCATTTTTGGATTGGAAAGTGGATCAGCAAAGAGGATGGCAATATGCGCATAATAATGTTATGACGATGATTCACCCAGGATCTATTTTATTACTTCATGCAATATCAAAAGATAATGCAGAAGCACTTGCGAAAATCATTGATGATTTGCGCGAGAAAGGGTATCATTTTAAAAGTCTAGATGACTTAGTAAAAAGCAATCAACCGTAA	MKYKWLYIGLIFSIMMALVPVSTLAYTNTPHNWGIPRPKNETVPDAGKLYTDLLQKNGGFYLGDTKKKDIYLTFDNGYENGYTEKILDVLKEKKVPATFFVTGHYIKTQKDLLLRMKDEGHIIGNHSWSHPDFTAVNDEKLREELTSVTEEIKKVTGQKEVKYVRPPRGVFSERTLALTKEMGYYNVFWSLAFLDWKVDQQRGWQYAHNNVMTMIHPGSILLLHAISKDNAEALAKIIDDLREKGYHFKSLDDLVKSNQP				NA	NA	NA	NA	NA
AK009_05721	864			hypothetical protein	ATGTGGAGCGAACATGTTACGTTAGAGTATCCGTATCATTTTGAAGAAGTATTAAAACGTTTATCTTTTGATCCTCTTAACGTCATTCAATTAGATGAGAAAGTCATTTATATCCCGCTTTGCATAGAAGAGGAACAGGTTGTTGTTCGCTTACAAGGGATTGGTACTGTTCAAAATCCACAGTTTTGGATTTCTAGTCAGACAGGAGATCCGGAGAAAGTCATGAAACGAATGAGGGCCATTTTTCATTGGAATGAACCGTTTCAAGATATACAAAATCATTTTTTAAACACATCATTACGTCCACTATTTGAAACATATGCTTATACTCCAATTATTTTAGAATTTGATTATTTTGCTTGTCTTCTTCGCTGTATCATTCACCAACAAATAAATTTGAAATTTGCTACTGTGTTAACAGAACAATTTGTGAAACGGTATGGAACAGAGAAGAACGGTGTATTCTTTTTCCCCACTCCGGAAATAGTAGCAAATATTTCAATAGAAGAATTGAGAGAGCAGAAGTTTAGTCAGCGAAAGGCTGAATATATAGTAGGATTAGGTCGAAGTATTGTCAGTGGTACATTAAATTTAGCGAGTATAGAAACTGGGACGGAAGAAGAAGTTTCAGCACAATTGTTGCCAATTAGGGGAATTGGTGCATGGACAGTGCAAAACTTTTTAATGTTTGGGATTGGACGGAAAAATATGTTTCCGAAAGCGGACATTGGGATTCAGCGTGCAGTGCAAGGTATATTTCAATTAGATGATAAACCTGATGATGCATTTTTAGAAAAAGTGAAACAAGAGTGTGAACCATACTGCAGTTATGCAGCGTTATATTTATGGAAAAGTATAGAGTAG	MWSEHVTLEYPYHFEEVLKRLSFDPLNVIQLDEKVIYIPLCIEEEQVVVRLQGIGTVQNPQFWISSQTGDPEKVMKRMRAIFHWNEPFQDIQNHFLNTSLRPLFETYAYTPIILEFDYFACLLRCIIHQQINLKFATVLTEQFVKRYGTEKNGVFFFPTPEIVANISIEELREQKFSQRKAEYIVGLGRSIVSGTLNLASIETGTEEEVSAQLLPIRGIGAWTVQNFLMFGIGRKNMFPKADIGIQRAVQGIFQLDDKPDDAFLEKVKQECEPYCSYAALYLWKSIE				NA	NA	NA	NA	NA
AK009_05722	1380	rlmCD_1	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGATACAAAAGCAACATGAGAGTAAGTTGGAAGTTGGTCAAACGTTTCCTGTGACAATTAAACGTCTTGGGATTAACGGAGAAGGCGTTGGTTATTTTAAGAGACAAGTTGTTTTCATTCCAGGGGCATTACCAGGAGAAGAAGTTGTTGCAGAAACAACGAAAATTCAGCGTGGCTTCGCTGAAGCGAAAGTGAAAAAAGTTCGTAAAGCTTCACCGCATCGTGTGAAAGCACCGTGTCCAGTATATGAGGAGTGTGGCGGTTGTCAGCTGCAACATTTAGATTATAAAGAACAATTGAATCAAAAGCGTGATATCGTTGTACAAGCATTTGAGAAGTACATGAAAAACAGTATGGAAGAGAAAATTCGTCCAACGCTTGGCATGGAAAATCCATGGCATTACCGTAATAAGAGTCAATTACAAGTGGGGCGTAAAGACGAAAAGGTTATTACAGGGCTATATAAACAAAACTCACATCAGTTAATTGATATTGCTCACTGTATGATTCAACATAAAGCAACGAATGAAGCGACAAAAGTTGTAAGACGTATTTTAGAAAAATTAAATGTTTCTATTTACAATGAGAAAAAACAAAAAGGTTTAGTACGCACAATTGTAACACGTACTGCAGTTCAAACAGGGGAAGTACAAGTTACACTTATTACAACAAAAGAAGAATTACCAAATAAAGAACAATTTGTTGCAGAAGTACAAAAACAGATACCAGCGGTTAAATCAATTATGCAAAATGTAAACTGGCGTAAAACATCTGTTATTTTTGGAGATAAAACATTTAAATTAGCTGGAAAAGAAGTAATTCAAGAAACACTTGGCGATTTATCATTTGAATTATCAGCACGTGCATTCTTCCAGTTAAATCCAGAACAAACAATTGTTTTATATGATGAAGCGAAAAAAGCAGCTGCGTTAACAGGCGATGAGAAAATTGTAGATGCGTATTGTGGTGTTGGTACAATCGGACTTTGGCTTGCGAACGATGCAGCGGAAGTACGTGGTATGGATGTAATTCCAGAAGCGATTGCAGATGCAAGAAAAAATGCGAAGCGTCACGGATTTACAAATACGAAATATGAAGCAGGTAAAGCTGAACAATGGTTACCGAAATGGGTAAAAGAAGGATGGCGTCCAGATGTAATTGTTGTCGATCCACCACGTACAGGTTGCGATGATAAATTACTGGAAACGATTTTAAAGGTGAAACCGAAACAAGTTGTGTACGTGTCTTGTAATCCTTCTTCATTAGCACGTGATGTACAAGCATTAATGAAGAGTTATGAAGTGGAGTATGTGCAACCAGTTGATATGTTCCCGCATACTGCGCATGTAGAAAATGTAGTTAGATTAAAGTTGAAATAA	MIQKQHESKLEVGQTFPVTIKRLGINGEGVGYFKRQVVFIPGALPGEEVVAETTKIQRGFAEAKVKKVRKASPHRVKAPCPVYEECGGCQLQHLDYKEQLNQKRDIVVQAFEKYMKNSMEEKIRPTLGMENPWHYRNKSQLQVGRKDEKVITGLYKQNSHQLIDIAHCMIQHKATNEATKVVRRILEKLNVSIYNEKKQKGLVRTIVTRTAVQTGEVQVTLITTKEELPNKEQFVAEVQKQIPAVKSIMQNVNWRKTSVIFGDKTFKLAGKEVIQETLGDLSFELSARAFFQLNPEQTIVLYDEAKKAAALTGDEKIVDAYCGVGTIGLWLANDAAEVRGMDVIPEAIADARKNAKRHGFTNTKYEAGKAEQWLPKWVKEGWRPDVIVVDPPRTGCDDKLLETILKVKPKQVVYVSCNPSSLARDVQALMKSYEVEYVQPVDMFPHTAHVENVVRLKLK				NA	NA	NA	NA	NA
AK009_05723	894			hypothetical protein	ATGAAAAAATGGTTGGCATTGTTTGTTTTTGGGATGGTTTCTTTATTTGCAACTTCTGCACATGCGGAATCATATGAAACAACAAAAACATTAAAAGTATATGAAAGTCGTAGTTTTAATTCGCCTGTGAAAAAAGAACTGCAGCCAGGAGAAAGGGTTTATGTTACAAATCAACATCCTAGTGGATGGTGGAAGATAAGTGGTGGATTTATCGCACCAGAGGGCGCTAAAGTAGAAATTAATCGAACTTTTGAAGCTTTTGATTGGATTAATATGGACAGTGCGAAGTACGTATTTGGTCCTCAAACTGTTATTGCACGTGATGGTACACTAAGAGGTGAAATTTTGATTGATACATATTTGGGGCAGAAGTGGACAAGTGTAAATGGAATGCCACAAATAATGAAGCAGAATTTTGCAGCATACAGTAGCCCTGAAGCTAAAAATCCAGATGCTTGGTTCGCTCCACAAACGGTTAATATTTTGCAGACAAAAGAAAACGGTTGGTCTTTAATTAACACGTATTTAGGGCCAAAGTGGATTGTTCGTTATCCACACGTGGAACATATTAATCGTGATTTTTATGCATACAATGAACCTAAGTACATGCATCACGGTGTGAAATTCTCAGCCCAATCTGTAAGAGTACTTCAACAAGGAGAAAATGGTTGGAAGAAAATTAAGGTTGAGGTTGGAGAAAAATGGATTGCACCACAAGGATCTTATTACCATGTCCCAAATGTATTTACGGCATTTGATCAACCTTTCGGTAGAGCAATCGGTACTTTTGCACCACAAACTGTATTTGTAGTTGAAGAATCTACAACATCATTTGGTTGGTTAAAAATTAGAACATACTTAGGAGATTCCTGGATTCGAACGAATCGTAATTAG	MKKWLALFVFGMVSLFATSAHAESYETTKTLKVYESRSFNSPVKKELQPGERVYVTNQHPSGWWKISGGFIAPEGAKVEINRTFEAFDWINMDSAKYVFGPQTVIARDGTLRGEILIDTYLGQKWTSVNGMPQIMKQNFAAYSSPEAKNPDAWFAPQTVNILQTKENGWSLINTYLGPKWIVRYPHVEHINRDFYAYNEPKYMHHGVKFSAQSVRVLQQGENGWKKIKVEVGEKWIAPQGSYYHVPNVFTAFDQPFGRAIGTFAPQTVFVVEESTTSFGWLKIRTYLGDSWIRTNRN				NA	NA	NA	NA	NA
AK009_05724	738	truA_1	COG0101	tRNA pseudouridine synthase A	ATGAATAATTATAAATTAACGATTCAGTACGATGGTGCACGTTTTAAAGGATGGCAACGTCTTGGTAATAACGATAATACGATTCAAGGAAAAATCGAAAGTGTCATATCTGAAATGATCGGAAAAGAAATTGAAATTATCGGTTGTAGTAGAACAGACGCTGGTGTACATGCTTTGAATCAAGTTGCTAACTTTCAAAGTGATGAGAAGTTAGTGGAACATAAAGTGAAAAAATATTTAAATCAATATTTACCTAATGATATTAGCATTACGAATGTGGAAGAAGTACATGATCGTTTCCATGCTCGTTACAATTCTAAAGCAAAAACATATCTGTATAAAATTTGGAATGAAGAGCATACAAATCCATTTATGCGTAAATACAGCATGCATGTGAATAAAAAATTAAATGTGAAAAGCATGAAAGCAGCTGCAAAACATTTAGTTGGTTCACATGACTTTACTGCTTTTTCAAATGCGAAATCAAAGAAAAAATCTATGGTTCGAGAAGTATATACACTTGATGTGATGGAAGAGGCAGGATTTGTACAAATTAGAGTAAGTGGGAACGGATTCCTTCATAACATGGTAAGAAAAATTGTTGGGGCATTAATTGAAGTTGGATTAGGACAATTAGATGCTGAAGCAATTCCAAACATTTTAGAAGAAAAGCAGCGCAATCAAATTAATTGTCTTGCTGAGGCAAGTGGGTTGTATTTAGAGAATGTTGAGTTTTAA	MNNYKLTIQYDGARFKGWQRLGNNDNTIQGKIESVISEMIGKEIEIIGCSRTDAGVHALNQVANFQSDEKLVEHKVKKYLNQYLPNDISITNVEEVHDRFHARYNSKAKTYLYKIWNEEHTNPFMRKYSMHVNKKLNVKSMKAAAKHLVGSHDFTAFSNAKSKKKSMVREVYTLDVMEEAGFVQIRVSGNGFLHNMVRKIVGALIEVGLGQLDAEAIPNILEEKQRNQINCLAEASGLYLENVEF				NA	NA	NA	NA	NA
AK009_05725	204			hypothetical protein	ATGAGTAATGATAAAAAATTAAAGTTATTACAATACTTATACTTTTTCCCTGCCATGCTCTGTATGATGTTATTCATTAATTCCGATGTAAGCAGCTCTCCTTATGCAAAGCTATTAGGAACAATTTCGGGCTCCTTTGCAGCTATTATGCTTGCTGCTTTTTGGAATTTGAAGCTACATATAAAAAACGAGAAATCTTCGTAA	MSNDKKLKLLQYLYFFPAMLCMMLFINSDVSSSPYAKLLGTISGSFAAIMLAAFWNLKLHIKNEKSS				NA	NA	NA	NA	NA
AK009_05726	1404	rocR_2	COG3829	Arginine utilization regulatory protein RocR	ATGCGTACAGAAGACATTAATTTTAAACAGATCATTGAAATGAATATGCTATATGAAACTTTACTCAATGAACTCGATATCGGGATTCATATTATTAATGAGGAAAGTAAAACGATTGTCTATAACCGCAAAATGATGGAAATTGAATCAATGGATCGCTTAGATGTGCTATATAAAAGTCCTTTAGAGGTATTTGCATTTGAAGAAAATAAAAATAGTACTCTTATAGAGGCATTAAAATTTGGAAAAACAAAGAAAAATATAAAACAAACGTATTTTAACAATAAAGGACAAGAAATTACAACGATTAACGATACTTTCCCTATAATAGAAAATGGAAAAATTAAAGGTGCCATTGAAATATCAAAAGAGATCAGTCACTTAAAGCAAACAATAAGAATAGGCCCTTCTCGAAAACAAAGCACTAAATTTACCTTTGATCACATAATTGGTGATTCTGAAGCAATTCAATCCATCATTACAGAAGGAAAAAGAGTAATTCGTACATCTTCCTCCATACTTCTCGTAGGAGAAACAGGTACTGGTAAGGAACTATTTGCACAAAGCATCCATAATGAAAGTCAGCGTTCAACAAAACCTTTTATTTCACAAAACTGTGCCGCTATACCTGATACCTTAATGGAAAGCCTATTATTTGGTACAAATCGAGGTGCCTTTACAGGAGCAATAGATAAACCAGGTTTATTCGAAGAATCAAACGGAGGAACTTTGTTATTAGATGAAATCAATTCATTAAGCCCAATTCTTCAAGCTAAGTTGCTACGGGCTATACAAGAAAAAACAATAAGAAGAATCGGAGGTACACACGAAAAAGAAATTGATGTTCGTATTATAGCAACTATTAATGAAGATCCCTTCGAAGCCATCGCACATGATCGATTAAGAGAAGACTTATATTACCGATTAAGCGTCGTTACTTTATGTCTTCCGCCTTTACGGGAAAGAAAAGAAGATATTCCAGCTCTTGTTCAGCACTTTATTAAAAAATATAATACTCAATTCGTGCTCAACGTAACCGATGTAGATGTAAATGTAAGTGAATTTTTCTATGCATACGATTGGCCTGGAAACGTACGGGAATTGGAACATATAATTGAAGGTTCCATGAACTTGATAGAAGATGAAACCATCATTACAGCTTTTCATCTTCCTACTCGCTTTCGCGAACAAATAAAAAAAGAATTCAACATGCAGCATACACTAACTAATCACAATACTGATGCACCTAAAACTTTAAAACACACAATAGAAAAAATGGAAAAAAACTACATCAATCAAATTCTTAAAGAGAATCACGGTAACATCTCACAAGCTGCAAAATTTTTAGGATTAAGTAGACAAAATTTACAATATCGAATTAAAAAACTGCATTTACACATATGA	MRTEDINFKQIIEMNMLYETLLNELDIGIHIINEESKTIVYNRKMMEIESMDRLDVLYKSPLEVFAFEENKNSTLIEALKFGKTKKNIKQTYFNNKGQEITTINDTFPIIENGKIKGAIEISKEISHLKQTIRIGPSRKQSTKFTFDHIIGDSEAIQSIITEGKRVIRTSSSILLVGETGTGKELFAQSIHNESQRSTKPFISQNCAAIPDTLMESLLFGTNRGAFTGAIDKPGLFEESNGGTLLLDEINSLSPILQAKLLRAIQEKTIRRIGGTHEKEIDVRIIATINEDPFEAIAHDRLREDLYYRLSVVTLCLPPLRERKEDIPALVQHFIKKYNTQFVLNVTDVDVNVSEFFYAYDWPGNVRELEHIIEGSMNLIEDETIITAFHLPTRFREQIKKEFNMQHTLTNHNTDAPKTLKHTIEKMEKNYINQILKENHGNISQAAKFLGLSRQNLQYRIKKLHLHI				NA	NA	NA	NA	NA
AK009_05727	255			hypothetical protein	GTGAAGACAGTTATAGAAGGTGTGTATAGTCCTTGTTATGGAAAAGTAGAGAAGTTATTTGTTACGGAAAGTTCTTACGTATACGAGTGGGAGAAATTAGCGTTAATTGAAACAATAGATAAACAGAAAGTAGAAATTAAGATAGGGATCAGTGGTTATATTGAATCATTAGAAGTAGTAGAAGGACAAGCTATTGCTGATCAAAAGTTATTAATAACAGTAAGGGATGACCTTTTAGTAACAGGCAGTGATTAA	MKTVIEGVYSPCYGKVEKLFVTESSYVYEWEKLALIETIDKQKVEIKIGISGYIESLEVVEGQAIADQKLLITVRDDLLVTGSD				NA	NA	NA	NA	NA
AK009_05728	1422	rocE_2	COG0833	Amino-acid permease RocE	ATGATGGATCAAAACCAAGGATTAAAAAGAGAATTGAAAAGCAGGCACATATTTATGATTGCACTCGGTGGAGTTATTGGTACAGGACTTTTTTTAGGGTCAGGTTATACGATTCATGAAGCTGGACCTGGAGGAGCAATTGTAGCGTATCTTGTCGGTGGATTTGTAATGTATTTAACGATGCTCTGTTTAGGAGAATTAGCTGTTGCGATGCCTGACGCAGGGTCTTATCAAACGTATGCGACAAAGCACATTTCCCCTGCAGCGGGTTATGTAGTGGGATGGATGTCGTGGTTAAACTGGTCTGCTACGATAGGCATTGAATTAATTGCAGTTAGTATTTTGATGAAACGCTGGTTTCCCGATGTACCGTCATGGATTTGGTGTGTAGTGTTCGCAGTACTGCTCTTTGCTATTAATGCGTTATCTTCAAGAAGTTTTGCGGAAGTGGAATTTTGGTTTGCAAGTATTAAAGTAATTACAATTATTGCATTTATTATTTTGGGCGGGGCAGCAATGTTTGGTTTTCTAGATATGAAAGGAAATGAACCAGCGCCAATGTTCTCTAGCTTTACTGATTATGGTGGATTGTTTCCAAATGGATTATCAGCCATTTTAATTACAATGATTGCAGTTAATTTTTCTTTCCAAGGAACAGAATTAGTTGGTATTGCAGCAGGTGAGAGTGAAAATCCAGAGAAAACGATCCCGAAGGCAATTAACAATACAGTTTGGCGTATACTTGTTTTCTTTGTACTATCTATTTTTATTCTTGCTGGACTATTCCCTTGGCAGCAAGCAGGAGTAATAGAAAGTCCATTCGTAGTTGTATTTGATAAAATTGGTATTCCTTATGCAGCAGATATTATAAATTTCGTTATTATTACAGCAGTACTATCCGTTGCGAATTCAGGATTATATGCAACTTCGCGTATGCTATGGTCTATGTCTAATCAAGGAATGATTAGTCCAATTTTTGGCAAGTTATCTAAAAACGGTGTTCCTATTTATGCATTAATCGTAAGCACAATTGTAGGGTGTCTCTCACTACTATCAGGTATTTATGCGGAAGATACAGTTTATTTATGGCTGCTTTCTATCGCTGGGTTCGGAGCGATACTAGTTTGGGCATCTATTGCTTTATCAAATTTATTAGCTAGAAGGTCATACATGAAGCGGGGCGGGGATGTTAAGGACTTGAAATTTAAAACACCATTGTATCCATTTGTACCACTTCTTGCGTTAGTATTAAATTTAACAGTAATCGTTGGCATGGCCTTTATTCCAGAACAAAGAATGGCATTGTATTGTGGTATTCCATTTATGATTGTTTGTTTACTGTTTTATCGTGCTACAAGAAATAAGGGAAGTAATGTGGAGCATATTGAAAAGACAAATACAACGGAAGTAGAGAATTTATAA	MMDQNQGLKRELKSRHIFMIALGGVIGTGLFLGSGYTIHEAGPGGAIVAYLVGGFVMYLTMLCLGELAVAMPDAGSYQTYATKHISPAAGYVVGWMSWLNWSATIGIELIAVSILMKRWFPDVPSWIWCVVFAVLLFAINALSSRSFAEVEFWFASIKVITIIAFIILGGAAMFGFLDMKGNEPAPMFSSFTDYGGLFPNGLSAILITMIAVNFSFQGTELVGIAAGESENPEKTIPKAINNTVWRILVFFVLSIFILAGLFPWQQAGVIESPFVVVFDKIGIPYAADIINFVIITAVLSVANSGLYATSRMLWSMSNQGMISPIFGKLSKNGVPIYALIVSTIVGCLSLLSGIYAEDTVYLWLLSIAGFGAILVWASIALSNLLARRSYMKRGGDVKDLKFKTPLYPFVPLLALVLNLTVIVGMAFIPEQRMALYCGIPFMIVCLLFYRATRNKGSNVEHIEKTNTTEVENL	PGPT0000815_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK009_05729	1275	ylmB_2	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	ATGAATCCAGAAGTTTTGCAGTTGTTAAAACAAATAGATTCAAGGAAAGAGGAATTACTAGAACTTACAAAAACTTTAATTCGTTTTGAAACACCAGCACCACCAGCGAGAAATACAAATGAAGCGCAAGAATTTATTGCAGAGTTTTTAAGAAAACGAAATTTTAGTATTGATAAATGGGATGTATATCGGAATGATCCGAACGTTGTTGGAGTAAAAAAAGGAATAAAAAGTGACTCATATAAAAGTCTTATTATTAATGGGCATATGGATGTAGCTGAAGTTTCAGCAGATGAGGCGTGGGAAACAAATCCATTTAATCCATTTATAAAAGATGGCTGGTTAGTTGGACGTGGCGCAGCAGATATGAAAGGTGGGTTGGCTGGAGCGCTATTTGCCATTCAACTTTTACAAGAAGCTGGTATTGAATTACCTGGAGATTTAACTTTTCAATCAGTAATTGGAGAAGAAGTTGGAGAAGCAGGTACACTTCAATGCTGCAAAAGGGGTTACGATGCTGATTTTGCAGTCGTAGTGGATACGAGTGATTTACATATGCAAGGGCAAGGCGGTGTCATTACTGGATGGATTACAGTGAAAAGTCCGCAAACGTTTCATGATGCAACGCGTAGACAAATGATCCATGCTGGAGGACGTTTATTTGGAGCGAGTGCGATTGAAAAAATGATGAAAATTGTGCAAAGCTTACAAGAATTAGAGCGCCACTGGGCAGTCATGAAAACATATGAAGGCTATCCATCTGGAACAACAACAATTAATCCAGCTGTTATTGAGGGAGGAAGGCATGCGGCGTTCATTGCGGATGAGTGCCGATTGTGGATAACAGTGCACTTCTATCCGAATGAAACACATGAACAAATAATAAACGAAATTGAAGAGTATATTGGAAAGGTGGCAGCTGCCGATCCATGGTTAAGTGAAAATCCGCCACAATTTAAGTGGGGCGGAGAATCAATGATTGTAGATCGTGGTGAAATTTTTCCTTCTTTAGAAATAGATAGTGAACATACAGCTGTAAAAACGCTTAGCTCAGTACATGAATCAATTCTTTCTAAAAACGCAATTTTAGATATGTCTGCAACGGTAACGGATGGTGGTTGGTTTAGTGAATTTCATATTCCGGCTGTTATTTACGGACCAGGCACATTAGAGGAAGCTCATTCAATAAATGAGAAAGTAGAAGTAGAGCAGTTAATTGAATTTACAAAAGTAATAACAGCATTTATATATGAATGGTGTCATATGAAAAAATAG	MNPEVLQLLKQIDSRKEELLELTKTLIRFETPAPPARNTNEAQEFIAEFLRKRNFSIDKWDVYRNDPNVVGVKKGIKSDSYKSLIINGHMDVAEVSADEAWETNPFNPFIKDGWLVGRGAADMKGGLAGALFAIQLLQEAGIELPGDLTFQSVIGEEVGEAGTLQCCKRGYDADFAVVVDTSDLHMQGQGGVITGWITVKSPQTFHDATRRQMIHAGGRLFGASAIEKMMKIVQSLQELERHWAVMKTYEGYPSGTTTINPAVIEGGRHAAFIADECRLWITVHFYPNETHEQIINEIEEYIGKVAAADPWLSENPPQFKWGGESMIVDRGEIFPSLEIDSEHTAVKTLSSVHESILSKNAILDMSATVTDGGWFSEFHIPAVIYGPGTLEEAHSINEKVEVEQLIEFTKVITAFIYEWCHMKK	PGPT0009060_120	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009060-ylmB-K20895	NA	NA
AK009_05730	654			hypothetical protein	ATGGCTAATGAAAACCCGAATGATCGGCTTGGTAAATTAATAAAAAAACTTTTAAAAGAACGCGCCCTATCTATGCGCCAACTAGGAATACTTACAAATATTGATCCTGCAACGGTCTCAAGAATTATTAATGGCAAACAACCGCCGAAACAAAAACATCTACAAAAATTTGCAGAATGTCTTCAAGTTCCACCCCAATTGTTATTTGATGAAATGTACCCTGATTCTCCTCACATAAATAAAGAAAAAACGGATATGTACACATCTCTTGATACCATTCAGCAAACTTTACAATCCTCTAACTTATTCGATTTCGATTACACTACAACTCGCGTAAAACAAGAACTCGAAAATTACGAACGCTATGCCCAGACAACAGAAGGCGAAAATCGTATTCGTGACAGTTTCGCAAGCAAATTAGAGCAAATTGATAGTGCTGGTCCTTTTATTGAACAATTAACAGATATGTATCAACAATTTTGCAATGAAACCATTTCAAAAGAAGAACGTGCAGTTCTTGGGAGCGCATTACTTTATTTCATTTTATCGACAGATATTATTCCCGACTATCTCTTTCCAATTGGCTATTTAGATGATGCGATTGCCGTTGAATTAGCAAAAGAGAAATTACTTGAAATGAAACGAAAGACATAG	MANENPNDRLGKLIKKLLKERALSMRQLGILTNIDPATVSRIINGKQPPKQKHLQKFAECLQVPPQLLFDEMYPDSPHINKEKTDMYTSLDTIQQTLQSSNLFDFDYTTTRVKQELENYERYAQTTEGENRIRDSFASKLEQIDSAGPFIEQLTDMYQQFCNETISKEERAVLGSALLYFILSTDIIPDYLFPIGYLDDAIAVELAKEKLLEMKRKT				NA	NA	NA	NA	NA
AK009_05731	612	ytaF_2		putative sporulation protein YtaF	ATGAGTACGGCAGGCTTATTTTCAATTTTTTTAATCGGGATCGCTTCTAATTTAGATAATGCAGGTGTTGGAATTGCGTATGGCATTCGTAAAATTCGTATTTCGTGGTTTAACAATTTTATCATCGCATTCTTTGGATTTTTATTTACTTTATTAGCGGGATTTTTTGGGAACTGGATTGCGTTATTTATTTCAGAGTTTACAGCAAACTTGATTGGAGCAATCGTTTTAGGGATAATCGGGGTGTTTATTTTATGCCAGCCTTTCTTGAGTCAAAAAAATACAGCAGGTTCTAAAGATGATAATGTACTTATGGGAATTTTACGTGATCCAGAAAAAGCAGATTTCGATGGATCTAAAACAATTAGTTTTTCTGAAGCACTTGTTTTAGGGGTTGCATTGTCTATTAATAATATCGCAGGTGGGTTCGATGCTGGAGTAACAAATTTAAACCTTTGGCTTACAGCGACTATTTCTGGGGTGTTTAGTTTTATTTGCATAAGTGGTTTTGGGTATGTAGGAAAACGATATTTAGCAGAATACTTAGGGAAATGGGCGACGGTTATTGCAGGAGTGTTATTAATTCTTATTGGGATCGATCAGTTGTTGTAA	MSTAGLFSIFLIGIASNLDNAGVGIAYGIRKIRISWFNNFIIAFFGFLFTLLAGFFGNWIALFISEFTANLIGAIVLGIIGVFILCQPFLSQKNTAGSKDDNVLMGILRDPEKADFDGSKTISFSEALVLGVALSINNIAGGFDAGVTNLNLWLTATISGVFSFICISGFGYVGKRYLAEYLGKWATVIAGVLLILIGIDQLL				NA	NA	NA	NA	NA
AK009_05732	159			hypothetical protein	ATGGGACGCGGGAAAGCATTTGATCATAAGAAAAAAGGGCATGATCATCAACCACCTAAAGGTGCGTTCATTCATAAAGATGTAAATGAACATACTTTGGAAGAGGAAGAGCTACCAGTAAATATTGAGGCGTATAAAAATAGTTTAAAAAAACATTAA	MGRGKAFDHKKKGHDHQPPKGAFIHKDVNEHTLEEEELPVNIEAYKNSLKKH				NA	NA	NA	NA	NA
AK009_05733	342			hypothetical protein	ATGAAACTAATATTTCAAATGGGAAAACAACCTGTTCTTGAAAAAACAATTCTTCTTTTTATATTGAGTATTGTAGAAAGCTTAAAGCTAAAAGTTGTTTCACTCGACGAAGCTCACCGATACATATTCAATTTAGAAGTACTTGAACTATTAATGGACCGGAACATCGATGATCAAGTACTTGAACTTATTCATTTCGGAATGGGACTTGAAGACATTCACCATGTGCTTCCTGAAGAACTTGAGCATACGATCGAAGAATTAAAGTGGCTTTGCATTCAAGTATTAAGTGAGTACAGTATGCATGAAGAATCCGAACAATTAATTGAAGATATACGGTAA	MKLIFQMGKQPVLEKTILLFILSIVESLKLKVVSLDEAHRYIFNLEVLELLMDRNIDDQVLELIHFGMGLEDIHHVLPEELEHTIEELKWLCIQVLSEYSMHEESEQLIEDIR				NA	NA	NA	NA	NA
AK009_05734	930	glsA	COG2066	Glutaminase	ATGCAGTGCATTGAAACAAACAACTTACAACAGTTGTTAGAACAAGTAAAACCATATACAAAAAAAGGAAAACTTGCTACTTATATCCCCGAACTAGGAAATGCAAATCCAGACGATTTAGGGATTGCCATTTTCCATAAAGAATCAGAATATATCCATGCAGGCAACTCACAAACACTATTTACTCTTCAAAGTATTTCCAAAGTAATTACACTTGCCCTTGCCCTTTTAGACCGTGGCGAAGAATATGTATTTTCTAAAGTTGGAATGGAACCAACGGGTGACCCATTTAATTCTATTATTAAGTTAGAAACGACAAGTCCGTCCAAACCCCTTAATCCAATGATTAATGCAGGAGCATTAGCTATTACAAGCATGTTAGCAGGAAAAGATAACGAGGAAAAAACGGAGCGTATCCTTCATTTTGTACGTGAAATAACAGATAATCCTACTATTAATTATTCTTCTAAAGTTGCCAATTCAGAATTAGAGACAGCTTACTTAAATCGTTCACTTTGTTACTATATGAAACAAAACGGAATTATCGATTGTGACATCGAAGAACTTATGGATTTATACACTCGTCAATGTGCAGTTGAAGTAAACTGTATTGATTTAGCACGTATTGGCTTAATTTTTGCAATGGATGGATATGATCCATATAAAAAGAAACAGATTATCCCTAAACATATTACAAAAATTTGCAAAACATTTATGGTCACATGTGGTATGTATAACGAATCTGGTGAATTTGCAATCCGTGTTGGTATCCCTGCAAAAAGTGGTGTAGCCGGTGGCATTTTCGGCTGCGTAAAAGGTGAAATGGGAATCGGTATTTTCGGGCCAGCTTTAGATGCAAACGGAAATAGTATCGCTGGTTTTAAAATTCTTGAACTTCTTTCTGCTCAAGAAGGCTGGAGTATTTTTTAA	MQCIETNNLQQLLEQVKPYTKKGKLATYIPELGNANPDDLGIAIFHKESEYIHAGNSQTLFTLQSISKVITLALALLDRGEEYVFSKVGMEPTGDPFNSIIKLETTSPSKPLNPMINAGALAITSMLAGKDNEEKTERILHFVREITDNPTINYSSKVANSELETAYLNRSLCYYMKQNGIIDCDIEELMDLYTRQCAVEVNCIDLARIGLIFAMDGYDPYKKKQIIPKHITKICKTFMVTCGMYNESGEFAIRVGIPAKSGVAGGIFGCVKGEMGIGIFGPALDANGNSIAGFKILELLSAQEGWSIF	PGPT0020215_1652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
AK009_05735	1494	nagP		PTS system N-acetylglucosamine-specific EIICB component	ATGTTGCAGTTTTTACAACGTATTGGTAAAGCTTTAATGCTTCCGATCGCAGTACTACCAGCAGCAGGATTATTGCTTCGTCTAGGACAAGAAGACGTATTAAACATTCCTGTTATGGCACAGGCCGGTGCAGCAATTTTTGATAATTTAGCACTTATTTTTGCAATTGGTGTTGCAATCGGCTTATCTGTTGACGGTAGTGGTGCAGCTGGTCTTGCAGGTGCAATTGGTTATTTAGTTATGAAGAATACAACTAATGCTTTAAGTGTTACTTACTCAACAGCAGAATTAAATGATAAATTAAAAAGTGTTCAAGATTTAGTCGGTTCAGTAGATCCAACTAAATTAGCAGATACGATGAATAAAGTTTCTAAAGCAGCAGCTTTGACACCAAAAATAAATATGGCTATACTCGGTGGTATTATTGCCGGGGTTATCGCTGGATTACTATACAACAAATTCCATAAGATTAAACTACCAGAATGGTTAGGATTCTTCGCTGGAAAACGTTTCGTACCGATCATTACGTCTATTGTAATGCTTCTTTTAGGATTATTATTTGGTCAAATTTGGCCAACAATCCAAACTGGTATTGATGCAGTGTCACACGGTATTGTAAACCTAGGTTCAATCGGTGCAGGGTTATTCGGATTATTAAACCGTTTATTAATTCCAATCGGTTTACATCACGTAATGAACACTTATTTCTGGTTTGTACTTGGTGACTTTACAAATGCAGCTGGTGATCTTGTTCATGGTGATATTGCTCGTTTCTTTGCAAAAGATCGATCAGCAGGTATGTTTATGACTGGTTTCTTCCCAGTTATGATGTTTGGTTTACCAGCAGCGTGTTTCGCAATGATTGCGGCTGCTAAACCAGAAAAACGCAAAGCAGTTACTGGTATGTTAGCTGGTTTAGCATTAACTTCATTCTTAACTGGTATTACAGAGCCAATCGAATTCTCATTCATGTTCTTATCACCAGTATTATATGGTGTGCATGCAGTATTAACAGGTCTTTCTTTATTCATAACAACATCACTTGGCATTCGTGATGGTTTCACATTTAGCGCAGGTGCTATTGATTATGTTATTAACTTTGGTATTGCAACAAAACCTGTATTATTAGCAGGTATCGGTTTAATTTATGCAGCAATTTACTTTGCAGTATTCTACTTCTTAATTAAGAAGTTCAACTTAAAAACTCCAGGTCGTGAAGATGACGATGAGTTAGTTGAAGATGTGGATGCACCAGTTGCAGGTTCAATTGGTGAAACTTACGTAGCAGCTCTAGGTGGAAAAGAAAACTTAACAGTTATTGATAACTGTGCAACACGTCTACGCTTACAAGTAAAAGATGCTAGTCAAGTAAACGAAGCAGCATTAAAACGTGCCGGTGCAAAAGGCGTTATGAAATTAAGTGACACAAGTGTACAAGTTATCGTAGGTACAAATGTTGAATCTGTTGCCGATGATATGAAAAAACACGTATAA	MLQFLQRIGKALMLPIAVLPAAGLLLRLGQEDVLNIPVMAQAGAAIFDNLALIFAIGVAIGLSVDGSGAAGLAGAIGYLVMKNTTNALSVTYSTAELNDKLKSVQDLVGSVDPTKLADTMNKVSKAAALTPKINMAILGGIIAGVIAGLLYNKFHKIKLPEWLGFFAGKRFVPIITSIVMLLLGLLFGQIWPTIQTGIDAVSHGIVNLGSIGAGLFGLLNRLLIPIGLHHVMNTYFWFVLGDFTNAAGDLVHGDIARFFAKDRSAGMFMTGFFPVMMFGLPAACFAMIAAAKPEKRKAVTGMLAGLALTSFLTGITEPIEFSFMFLSPVLYGVHAVLTGLSLFITTSLGIRDGFTFSAGAIDYVINFGIATKPVLLAGIGLIYAAIYFAVFYFLIKKFNLKTPGREDDDELVEDVDAPVAGSIGETYVAALGGKENLTVIDNCATRLRLQVKDASQVNEAALKRAGAKGVMKLSDTSVQVIVGTNVESVADDMKKHV	PGPT0016860_817	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_PTS_SYSTEM,PGPT0016860-nagE|nagP-K02804	NA	NA
AK009_05736	1272	pbpX_2	COG1680	Putative penicillin-binding protein PbpX	TTGGTGAGTAAGGGGAAAAAAGCAATTATGGATCAGGAAAAAAATAATGCGAATGGGAAAGCACATCGGCCGATTGTATACATAAAAAGGACAATCATTCTCGTCTTACTATTATCACTTGTATATTTCATGTATACAAAAATTGTTGAGCATAATAAGAAAGAAGAAACTTTAAAAGCGGCAGCAGAAATGAAGAAACAAGAAGAGCTAAAAAAGAAAGAAGAAGAAAAAAAGAAGCAAGAAGAACAAAAACAAAAAGAGCAGGAAGAACAAGTGAAGCAAGCGCAAGCTGCGGAACAGCCTACTGAAGGACCACCTCAAGAAATTAATGAAAACGCTCAATTGGACCAGTATTTACAAAACGCAGGATTTAGCGGGACAGCTGTTATTGTGAAGAACGGAAAAGTTCTTCTGAATAAAGGGTACGGTATGGCAAATAAAGAGCAGCAAGTACCCAATAATTCAGAGACGACTTTTTATATTGGTTCTATTTCAAAGGCGTTTGTAGCAACCGCTATTATGCAGTTGAAAGATCAAAAAAAATTACAAGTAGAAGATACTGTTGCGAAGTATATTCCAGATTTTCCACAAGGTAATAGTATTCAGCTAAAACATCTATTAACACATACATCAGGGATTCCAGAATATGAGCAGGGAAAAGAAGATATTTCTCATGAAGAACTGATAAAGCGAATAGGAAATCAAAAGCGTATTGGTGGTCCAGGAGAGAAGTGGAAGTATTCCGATTCGAACTACTCTATACTTGCATACATTGCCGAGAAGGTAAGTGGACAGCCGCTCGAAGAATATATTAAACAACATATTTTTGCTACTGTGGGTATGAAACATTCTGGTTTTGGCACAGAATTAGAACAAACAAGATTCCCATCAACGGGTTATAAAATAGTAAATAACAATATGACAACACCTAATATTCCGAGCATGTCACAACTATATGGTTGTGGTGATATATATACGAGTGCACATGATTTATATTTATTTAACGAAGCACTCTTCTCTGGAAAGTTAATTTCAAAAGAGAGCTATGATCAAATGTTTACAGGCGGAAAAAAAGATTACGGATTTGGATGGTACGTAGACCCAGGAAGTTATTCGAATCACGGTGTAATGCCAGGATGGAATTGCTTAAATGGATTTAGTAAAAGCGGAAGTGTGTATGTCGTTTTATTATCTAACATCCAAAACAACATTAAATCGTTTGGTAAAGTGAATAACGACATTTATACAATGTTGCGGAATATTGAAGTGTAA	MVSKGKKAIMDQEKNNANGKAHRPIVYIKRTIILVLLLSLVYFMYTKIVEHNKKEETLKAAAEMKKQEELKKKEEEKKKQEEQKQKEQEEQVKQAQAAEQPTEGPPQEINENAQLDQYLQNAGFSGTAVIVKNGKVLLNKGYGMANKEQQVPNNSETTFYIGSISKAFVATAIMQLKDQKKLQVEDTVAKYIPDFPQGNSIQLKHLLTHTSGIPEYEQGKEDISHEELIKRIGNQKRIGGPGEKWKYSDSNYSILAYIAEKVSGQPLEEYIKQHIFATVGMKHSGFGTELEQTRFPSTGYKIVNNNMTTPNIPSMSQLYGCGDIYTSAHDLYLFNEALFSGKLISKESYDQMFTGGKKDYGFGWYVDPGSYSNHGVMPGWNCLNGFSKSGSVYVVLLSNIQNNIKSFGKVNNDIYTMLRNIEV	PGPT0023445_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023445-fmtA-K22580	NA	NA
AK009_05737	402			hypothetical protein	ATGTGTCTGTTCGGAAAATATTGGCATAAGTTATCAAGATTATTTAATAGACAATTAGGCTATTTTTTAGATGACAAATTATTGCCTGCTGTGGAACGACTTTTATTTTCGCAAAACTTTGCAAGGTTTATTCAAAGAAACTCTAAGCAAGCTACGGAAGAATTTATAAAATCAAGTCAATTTCAATCTATTATTTGTAATATTTTAAAAGAATGCAATACATCACCTTTTAAAGAAATTGCAAAGCAGTATTTAGGTAAAAACGTAGAAATTACGGTGACGGTTGGACAATTAACAGGCGTTATTGTAGCAGTTGGTGATGATTTCTTAACATTGCAAGAAGGAATAGGAACTGAAGTTTTATTACCATTTACAAGCATTATATCAATTAAAGAAGTGTAA	MCLFGKYWHKLSRLFNRQLGYFLDDKLLPAVERLLFSQNFARFIQRNSKQATEEFIKSSQFQSIICNILKECNTSPFKEIAKQYLGKNVEITVTVGQLTGVIVAVGDDFLTLQEGIGTEVLLPFTSIISIKEV				NA	NA	NA	NA	NA
AK009_05738	195			hypothetical protein	ATGTTATTTACTGATGAATTACGTAACCATGTTGGTGAGCTAGTGCAAGTTGTGACAGCTGTAGAAATTGTTACAGGCATTCTTTTATCTGTGACAGATGGGGCGATAATTGTGCGTACTTCTCCTTCTTATGGACCACCGGAAGATGTAATTGTGCGTACTCCTATTATTGCTTATGTTCGATTGGAAGGGTAA	MLFTDELRNHVGELVQVVTAVEIVTGILLSVTDGAIIVRTSPSYGPPEDVIVRTPIIAYVRLEG				NA	NA	NA	NA	NA
AK009_05739	1581	arnC_3		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGTTCGATTGGAAGGGTAAGCGTGATACAAGTATGAGAGTATCAGTTGTTATTCCAGCGCACAATGAAGCGAGTACTTTATCGCAAGTTTTAGTAGAAGTGGAGAAGCTCGAGCCTTACGAAATTATCGTGGTAGATAATGGGTCAACAGATGGGACGAAAGAAATAGCGTTACAACATCATTGTCACATGATTTATTATAAACATTCTCTTGGCAATGATGTTGGACGGGCTATTGGAGCTAGAGAAGCAAAAGGTGAAATTGTCTTGTTTTTAGATGGTGATATTGTTATTGATAGTAAAGAGTTACAACGTTTCGTGAAAGGGATTCAACAAGGGCATCAAATTGTTGTGAATAATTTAACATGGTCGGTTTATTTAAAGATGAGACCACATTATACGACAGTTGGAAAGTTCATGTTGAATCGTTATTTGAATAAAAAGGAGCTTGTTGTTGGATCTTTAATCGCAATTCCACATGCGATGAACAGGAAAGTTATCGAGAAACTTGGGTGGTGGAATTTAGCAGATCCAGCACTATTTCAAGCGATGGCGATGTCTAGAGGAGTAGATATTGTTGATACGGCTTCGGTCGATGTAATTCACACAAATAAGGTTCGTCCTGTGCATACGGGAACATCACCTGGTTCTCCTTATCCGAAAGCGACTAGCCGTATTATGGGTGATCATTTACGTGCTTTACAATACGTAATCGAAACATATGGTAAACGCGGCGGTTTTTCGGAGGGAAACAGGGATAGAGAGTTTATAGGGAACTATAAACCCGTTGTATTAAAGAAGGAAAAAGCGAAATATAGTGCGATTATACCAGTGTCAGAAGAAAAAATGACGATAAGATCTGTTATACAAGAAGTGAAAAAAGCAGGGGTAGATGAAATTATTGTTGTCGCGAATGGCGCAGATTTTGAGACTGTTAAACACGCAAAGCTAGAAAATGTTATTGTTGTTGAATTTACGAAGGCGCTTGGACATAATGTAGCACGAGCGATAGGTGCCATGCATGCTACGGCAGATATTTGTTTATTCGTTGATGGTGATTTTGTTATTCCAGCAAAAAAACTCACTCCATTTTTGCAAGCTGTTGAAGATGGAAGTGACGTGGTTTTAAATGATTTACAATGCTTATTAGATATGTTTCATCCTGCAGATCCAATTAGTATGGGGAAATATTTTGTGAATTTAGTAGCGAAAAGACCGGATTTATGGAATAACTCATTAACGGCAGTACCACATGCTATGCATAAAAGGGTAATAGAGAAAATAGGATATGACTCGCTTGTTATTCCGCCATTAGCCCAAATGAAAGCTATTTTGGAGGTTTTTTCTATTACAGCAGTAGAATTTGTAGATGTTATAAAAACCAATCGGGTACGCCCGGAGCAACATGGGTTTGTAAATGGACGTATTCCGGCATTTGACCGTATTTTCGGTGATCAACTTGAGGCGATTGCTTATCTATTACAATATACAGACGAACGTGGGAGTTTTACGGATGGAGATCGCGATAGAGACATTATTCAACAATTGAGAAAGGAAGAAAAGAATACAGATGAATGCTAG	MFDWKGKRDTSMRVSVVIPAHNEASTLSQVLVEVEKLEPYEIIVVDNGSTDGTKEIALQHHCHMIYYKHSLGNDVGRAIGAREAKGEIVLFLDGDIVIDSKELQRFVKGIQQGHQIVVNNLTWSVYLKMRPHYTTVGKFMLNRYLNKKELVVGSLIAIPHAMNRKVIEKLGWWNLADPALFQAMAMSRGVDIVDTASVDVIHTNKVRPVHTGTSPGSPYPKATSRIMGDHLRALQYVIETYGKRGGFSEGNRDREFIGNYKPVVLKKEKAKYSAIIPVSEEKMTIRSVIQEVKKAGVDEIIVVANGADFETVKHAKLENVIVVEFTKALGHNVARAIGAMHATADICLFVDGDFVIPAKKLTPFLQAVEDGSDVVLNDLQCLLDMFHPADPISMGKYFVNLVAKRPDLWNNSLTAVPHAMHKRVIEKIGYDSLVIPPLAQMKAILEVFSITAVEFVDVIKTNRVRPEQHGFVNGRIPAFDRIFGDQLEAIAYLLQYTDERGSFTDGDRDRDIIQQLRKEEKNTDEC				NA	NA	NA	NA	NA
AK009_05740	1245	wbpA_2	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGAATGCTAGTAGTAAAGTAGCTATTATTGGATTAGGGTATGTTGGTCTTCCTTTAGCAGTCCATTTTGCAGAAAGAGGATATACCGTACTAGGATTAGATAAAGATACTAGAAAAATAGAATCGATTATAAAAGGAGAAAGTTATATTCCAGATGTTTCTTCTAAAGTGTTACAAAGTTTATTGACTAAAAATAAATTAATAGTAAATACACCAGATAAAGGTATTACTGATTTCCAAAATAGTGATTATGTTATTGTTACTGTTCCAACTCCAATTAATGAACGAAGAGAACCAGATTTAAGTGCCCTCATTTCAGCTTCGCATTATATACAACAAAATCTCCAAAAAGGACAAACCTTCATTTTTGAAAGTTCCACATACCCAGGCACACTTGAGGAAGTTATTATTCCTATTATTTCTCAAGCCGGCAAAAAGGTAGGAGAAGATTTCTATATTGGATATTCTCCTGAGAGAATTGATCCAGCAAATAGTCAATATTCAGTTCAAGCTATTCCAAAAGTTATTAGTGGACAAACAGAAAAGTGCAAACAAAAAGTACAGGATTTATATAGTAGCATTTTTGACTTAGTTGTACCTGTTAGCTCTCCGAAAGTAGCAGAGATGTGTAAGCTATTTGAAAATATTCAGCGCTTAGTTAACATTTCTTTAGTAAATGAGTTAAACACACTATGTGAAAGTTTAGGGATTGATTTTTATGAGGTTATTGAAGCGGCATCTACAAAACCGTTTGGATTTACTCCGTATTGGCCAGGACCAGGGATAGGGGGGCACTGTATTCCCGTAGATCCTTTATATTTTCAATGGAGAATAAAAAAGAATGGGGCAATTAGTCAATTAATTGAGGCGGCACATGTAATTAATGAAGAAATGCCAGAGAAAATTGTCCGGAAAGTAAAGGGCATGGTGCAATCACCCGGACTAGTTTTAATTGTAGGAATCGCGTATAAGAAAGATGTAAATGATTTGAGGGAATCACCGGCTTTGCCAATTATTCAATTACTAATAAAAGAAGGATACAAGATAAAATACCATGATTCATATATTTCTTCTGCAGAAATTGGAGATAAGGTGTATCAATCCGTTGCCTTGGATGAACAAACAGTTAAAGAGGCAGGTTGTATTTTAATTTTAACTGATCATTCTAATATCGATTGGAAGCTTTTTAAAGGAATGAACCGAGTAATAGATACAAGGGGAATTATAAAGAAGGTGAGTGTATGA	MNASSKVAIIGLGYVGLPLAVHFAERGYTVLGLDKDTRKIESIIKGESYIPDVSSKVLQSLLTKNKLIVNTPDKGITDFQNSDYVIVTVPTPINERREPDLSALISASHYIQQNLQKGQTFIFESSTYPGTLEEVIIPIISQAGKKVGEDFYIGYSPERIDPANSQYSVQAIPKVISGQTEKCKQKVQDLYSSIFDLVVPVSSPKVAEMCKLFENIQRLVNISLVNELNTLCESLGIDFYEVIEAASTKPFGFTPYWPGPGIGGHCIPVDPLYFQWRIKKNGAISQLIEAAHVINEEMPEKIVRKVKGMVQSPGLVLIVGIAYKKDVNDLRESPALPIIQLLIKEGYKIKYHDSYISSAEIGDKVYQSVALDEQTVKEAGCILILTDHSNIDWKLFKGMNRVIDTRGIIKKVSV	PGPT0018920_938	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
AK009_05741	966	arnA	COG0223	Bifunctional polymyxin resistance protein ArnA	ATGAGTAAGAAATGTTTAATTACAGGTGGGGCCGGATTTATTGGATCTCATTTAGCTGAAGAGTTGGTGAGAAGGGGTTATGAAGTCACGATTGTGGATAACTTCTATAAAGGGAAAAATAAGTATCATAATGAGCTAATGAGAGAGATGCGGGTTATTCCAATAAGTGTTTTAGACAAAAATTCTATTTATGAGTTAGTAAATCAACATGATGTAGTGTTTCATTTAGCAGCAATTTTAGGTGTTAAAACGACAATGGAAAAAAGTATAGAGCTCATTGAAACGAATTTTGATGGAACGAGAAACATTTTACAAGCAGCATTAAAAGGAAAGAAGAAAGTAGTTTTTGCATCTACTTCCGAAGTATATGGCAAGGGCAAACCGCCTTTCTCAGAAGAAGGGGACCGATTGTACGGGGCAACTTCTAAAATACGTTGGAGTTATGCAGTGTGTAAAACATTAGAAGAAACATTATGTTTAGGCTACGCATTAGAAGGTTTACCGGTAACAATTGTTCGTTATTTTAATATTTATGGTCCAAGAGCGAAAGATGGTCCGTATGCAGGGGTAATCCCGCGATTTATCAGTGCGGCCCTGCAAGGAGAAGATATTCTCGTATATGGAGATGGAAAGCAGACACGTTGCTTTACGTATGTAAGTGATGCGGTAGAGGCAACGATTCGAGCAATGGATGAGAAGGTAAATGGTGAGATTATTAATATAGGTTCCGAGAACGAAAAGAGTATAAAAGAAGTAGCAGAAACAATTAAAAAACTAACGAAATCTTCTTCAAAAATTATACAAGTTCCTTTTGAGGAAGTATATCCACATGGCTTTGAAGAAATTCCAAATAGAAGGCCGAACGTAACGAAGTTAAGAGAGCTTGTTCAATTTCAAGCGACAGTAACGTGGGAACAAGGATTGAAAGAAACTATTAAGTGGTTTCATGAAGAAAACAATGGCTAA	MSKKCLITGGAGFIGSHLAEELVRRGYEVTIVDNFYKGKNKYHNELMREMRVIPISVLDKNSIYELVNQHDVVFHLAAILGVKTTMEKSIELIETNFDGTRNILQAALKGKKKVVFASTSEVYGKGKPPFSEEGDRLYGATSKIRWSYAVCKTLEETLCLGYALEGLPVTIVRYFNIYGPRAKDGPYAGVIPRFISAALQGEDILVYGDGKQTRCFTYVSDAVEATIRAMDEKVNGEIINIGSENEKSIKEVAETIKKLTKSSSKIIQVPFEEVYPHGFEEIPNRRPNVTKLRELVQFQATVTWEQGLKETIKWFHEENNG				NA	NA	NA	NA	NA
AK009_05742	1557			hypothetical protein	ATGAAGAAAACAATGGCTAAGTCGCTATCAGTTATTATTCCTGCAAGTAATGAAGTGGATACAATTTCAGACGTTATTCAATCGGTAAAACCGTTAAATCCAGTAGAGATTATTGTAATAGCAAATGGTTGTAATGATGGTACAGAAGAGGTTGCTAATCGGTTAGGATGTAAAGTAATCAGGCATACAGAACTATTAGGAAACGATGTTGGACGTGCAGTTGGCGCAAAATATGCGATAGGTGATGTATTACTATTTATAGATGGGGACTTTGCTATTCCAACTTCAAAATTACAATTGTTTCTTAATCCGATTTTACATGATCAGACTGACATCGTTTTAAATAATTTGGACGCATTGTTTTTAAAGAAACAAAAACCCCATTCTGTTACAGTGTGGCGTCAAATATTAAATGCAATGTTAGAGCGTGAAGAATTAAAAATAGATTCTTTATTATCTGTACCTCATGCGTTGACGAAAGAAGTCGTCCAGAGTATTGGATACGAATGTTTAGTTAATCCTATTGTAGCTCATTTACGTATAGCACAAAGTAAATGGAGAATTAGCCGTCATTGTGCTATTGATGTTATTACGCCGAATAAATTTCGACCGGTTGAACATGCTGCATATGGCACGAGCCTTTCTCAATCTGAAAGAAGAATGATAGGTGATCATATAGAAGCTGTTGCGGAACGGATAGTAAGCAGTGATACACGCGGGGGATATTATGATGGAAATAGGAAAAGGAATAGCGTCTATCATACTTTAAATTTCGAAGATTTTTATCAAGGATGGGGCGTTACATCCAATTTGTATAAAGGAAAGCAACTATCGGTTGTTATTCCTGTACAAGATGAAGAGAAAACAATTGGAAACGTTATAGAAGAGCTTCGTAAAATTGAACCTTTTGAAATCATCGTCGTCGTAAATGGTTCGTCAGATAAAACAGCAACGATTGCAAAAGACAAGGGCGCAACGACAATTGTATATAAAGAAGCCCTTGGAAACGATGTAGGGCGTTCACTTGGAACTTATTTTGCAAAAGGAGAAATTGTGTTATTTATAGATGGTGATTTTGTTATTCCAGCTAGGGAGCTATATCCTTTTGCAAAAGCTATTGCAGATGGAAAGGACGTCGCATTAAATGATTTAAATCATTATTTAGATCTAAGAGTACCACTTCATCTTGTAACTGCGTTTAAGTATGCACTAAATTTAGCTTGTGATAGAAAGGATTTAGGGGTAGGATCACTTATTGCGGTACCTAATGCATTTAGCCACAAGTGTTTGAAAGCAATTGGGTATAAATCTTTATTGTCACCTTGTGTAGCACAAGTGAAGGCTCTTCTTTCTGGATTTGAAATTGCGTGTGTATATCGTGTTGAGGTTGATAAGATGAACCGTATTCGTCCCAGTGAACATTTTGCAAAAATAGGTCATCCTCCAGCTGTACTTCGAATTATAGGTGATCATATAGAGGGACTAGAGCAAATAATTGCATTAACAGAAAATCGTGGCGGATTCTATGATGGCAATAGAAAAAGAGATGTTTTATAG	MKKTMAKSLSVIIPASNEVDTISDVIQSVKPLNPVEIIVIANGCNDGTEEVANRLGCKVIRHTELLGNDVGRAVGAKYAIGDVLLFIDGDFAIPTSKLQLFLNPILHDQTDIVLNNLDALFLKKQKPHSVTVWRQILNAMLEREELKIDSLLSVPHALTKEVVQSIGYECLVNPIVAHLRIAQSKWRISRHCAIDVITPNKFRPVEHAAYGTSLSQSERRMIGDHIEAVAERIVSSDTRGGYYDGNRKRNSVYHTLNFEDFYQGWGVTSNLYKGKQLSVVIPVQDEEKTIGNVIEELRKIEPFEIIVVVNGSSDKTATIAKDKGATTIVYKEALGNDVGRSLGTYFAKGEIVLFIDGDFVIPARELYPFAKAIADGKDVALNDLNHYLDLRVPLHLVTAFKYALNLACDRKDLGVGSLIAVPNAFSHKCLKAIGYKSLLSPCVAQVKALLSGFEIACVYRVEVDKMNRIRPSEHFAKIGHPPAVLRIIGDHIEGLEQIIALTENRGGFYDGNRKRDVL				NA	NA	NA	NA	NA
AK009_05743	2250	pflB		Formate acetyltransferase	ATGACTCAAGTATTAGAAAATGTTAAAAACGCATGGGAAAACTTTAAAGGTGAAAAATGGAAAGCAGAGATTGATGTTCGCGATTTCATTTTAAATAATGTAAACGTTTTCGAAGGAGACGAATCTTTCTTAGCAGAAGCAACTGAAGCAACGAAACAACTTTGGGATCAAGTAATGGATTTAACAACAAAAGAACGTGAAAACGGTGGCGTTCTTGATATGGATACAAAAATTGTTTCTTCTATTACATCACATGACCCAGGATACTTAAATAAAGATATTGAAAAGGTAGTCGGTTTCCAAACTGATAAACCATTTAAACGTTCTTTACAACCATATGGTGGTATTCGTATGGCGGAGCAAGCTTGTGAATCTTATGGATACGAAATGGACAAAGAACTTAGTCGTATTTTTAGAGATTGGAGAAAAACTCATAACCAAGGTGTATTCGATGTCTATACACCAGAAATGAGAAATGCACGTAAATCAGGCGTTATTACTGGTCTTCCAGATGCATACGGTCGTGGACGCATTATCGGTGACTATCGACGCGTAGCATTATATGGTATTGATCATTTAATTGAAGCGAAAAAAGCTGATTTAAATTTAACTGGCGGTGTAATGAGCGAAGATACAATGCGTTTACGCGAAGAATTATCTGAGCAAATGCGTGCACTTCAAGAACTAAAACAAATGGCTGCTTCTCATGGTTTCGATATTTCTAAACCAGCAACAAATGCACAAGAAGCGTTCCAATGGTTATACTTCGCATATCTTGCGGCGATTAAAGAGCAAAACGGAGCTGCAATGAGTCTTGGACGTACTTCTACATTCTTAGATATTTACATTGAAAGAGATTTAGCAAATGGTACTTTAACAGAAGAAGAAGTACAAGAAATTGTAGATCACTTCATTATGAAATTACGTCTTGTGAAATTCGCAAGAACACCTGATTATAATGAATTATTCTCTGGTGACCCAACTTGGGTAACTGAATCTATCGGTGGTATTGCATTAGATGGTCGTCCATTAGTAACAAAGAACTCATTCCGTTTCTTGCATACATTAGATAATTTAGGACCAGCTCCAGAACCGAATTTAACAGTTCTTTGGTCTAAACAATTACCAGAGAACTTTAAAAACTACTGTGCGAAAATGTCCATCAAAACATCAGCAATTCAATATGAAAATGATGACATTATGCGTGCTGATTACGGCGATGATTACGGAATTGCTTGTTGTGTATCTGCAATGAGAATCGGTAAGCAAATGCAGTTCTTCGGAGCTCGTGCAAACTTAGCGAAAGCATTATTATATGCGATTAACGGTGGTAAAGATGAAAAATCAAAAGCACAAGTTGGTCCTGAGTACGCACCAATTACTTCTGAAGTATTAAATTACGAAGAAGTTATGCATAAGTTTGATATGACAATGGAATGGTTAGCGGGTCTATATTTAAACACACTAAATGTTATCCATTACATGCATGATAAATATAGCTATGAACGTATTGAAATGGCACTTCATGATACGAATGTTCTTCGTACAATGGCAACAGGTATCGCGGGTCTATCTGTAGTAGCAGACTCATTAAGTGCAATTAAATACGCACAAGTAAAACCAATCCGTGATGAAAACGGTATTGCAGTGGACTTCGAAATTGAAGGAGACTTCCCTAAATACGGTAACAATGATGATCGTGTAGATGAAATCGCTGTAAATCTCGTGAAAACATTTATGAATAAACTTCGTAAACATAAAACATATCGTAATTCCGTTCATACAATGTCAATTTTAACTATTACATCTAACGTTGTATACGGTAAGAAAACTGGTAACACTCCAGATGGACGCCGTACTGGAGAACCATTTGCACCAGGTGCAAATCCAATGCACGGACGTGATACAAAAGGTGCATTAGCTTCATTATTATCTGTAGCTAAATTACCATATGAAGATGCACAAGATGGTATTTCTAATACATTCTCTATTATTCCAAAAGCACTTGGTAAAGAAGATGATGTACAAGTACGTAACTTAGTATCTATGCTTGATGGCTATGCAGTAAAAGAAGGCCATCACTTAAATATTAACGTATTTAATCGTGAAACATTAATGGATGCAATGGAACATCCTGAGAAATATCCACAATTAACAATTCGCGTATCTGGTTACGCTGTAAACTTTATTAAATTAACTCGTGAACAACAAATTGATGTAATTAACCGTACAATGCATGAAAGCATGTAA	MTQVLENVKNAWENFKGEKWKAEIDVRDFILNNVNVFEGDESFLAEATEATKQLWDQVMDLTTKERENGGVLDMDTKIVSSITSHDPGYLNKDIEKVVGFQTDKPFKRSLQPYGGIRMAEQACESYGYEMDKELSRIFRDWRKTHNQGVFDVYTPEMRNARKSGVITGLPDAYGRGRIIGDYRRVALYGIDHLIEAKKADLNLTGGVMSEDTMRLREELSEQMRALQELKQMAASHGFDISKPATNAQEAFQWLYFAYLAAIKEQNGAAMSLGRTSTFLDIYIERDLANGTLTEEEVQEIVDHFIMKLRLVKFARTPDYNELFSGDPTWVTESIGGIALDGRPLVTKNSFRFLHTLDNLGPAPEPNLTVLWSKQLPENFKNYCAKMSIKTSAIQYENDDIMRADYGDDYGIACCVSAMRIGKQMQFFGARANLAKALLYAINGGKDEKSKAQVGPEYAPITSEVLNYEEVMHKFDMTMEWLAGLYLNTLNVIHYMHDKYSYERIEMALHDTNVLRTMATGIAGLSVVADSLSAIKYAQVKPIRDENGIAVDFEIEGDFPKYGNNDDRVDEIAVNLVKTFMNKLRKHKTYRNSVHTMSILTITSNVVYGKKTGNTPDGRRTGEPFAPGANPMHGRDTKGALASLLSVAKLPYEDAQDGISNTFSIIPKALGKEDDVQVRNLVSMLDGYAVKEGHHLNINVFNRETLMDAMEHPEKYPQLTIRVSGYAVNFIKLTREQQIDVINRTMHESM	PGPT0001950_1067	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656	NA	NA
AK009_05744	732	pflA		Pyruvate formate-lyase-activating enzyme	ATGGTAAAAGGAAGAATACATTCTGTAGAGTCTTGTGGTACTGTTGATGGCCCAGGGATTCGTTATGTCATATTTACACAAGGGTGTTTATTACGTTGTCAATATTGTCATAATGCTGATACTTGGGAAATCGGTAAAGGTAAAGAAATAACAGTTGAAGAAGTGATGCAGGATGTGACATGTTACCTTCCATTTATTGAAGCCTCCGGAGGCGGTATAACAGTTAGCGGTGGAGAGCCATTATTACAGCTAGACTTTTTAATTGAGTTGTTTAAAAAGTGTAAAGAGGCTGGTATCCATACAACAATCGACTCTTCTGGTGGTTGTTATTCTGAGGAACCAGAATTCCAAAGTAAGCTAGATATTTTAATGGATTATACAGATTTAGTTTTATTGGATTTGAAACATATCGATTCCAAAAAGCATCGTAAATTAACAGGGAAACCAAATGAACATATTTTACAATTCGCTCGTTATTTATCGAATAAGGATAAACCGATTTGGGTACGACACGTATTAGTTCCTGGTGTTACGGATAATGAAGAGGATCTACAAAAACTATCTAGCTTTATTCAAAGTCTGTCTAATGTTCAAAAAGTTGAAGTGTTACCATATCACAAGCTTGGTGTATATAAATGGGAGGCGCTTGGACATAAGTATCCACTCGCAAATGTAGAACCACCTACTGAGAAAAATGTAGAACATGCTAAACATATTTTACAAGCGGTCTAA	MVKGRIHSVESCGTVDGPGIRYVIFTQGCLLRCQYCHNADTWEIGKGKEITVEEVMQDVTCYLPFIEASGGGITVSGGEPLLQLDFLIELFKKCKEAGIHTTIDSSGGCYSEEPEFQSKLDILMDYTDLVLLDLKHIDSKKHRKLTGKPNEHILQFARYLSNKDKPIWVRHVLVPGVTDNEEDLQKLSSFIQSLSNVQKVEVLPYHKLGVYKWEALGHKYPLANVEPPTEKNVEHAKHILQAV				NA	NA	NA	NA	NA
AK009_05745	1167	ugtP	COG0707	Processive diacylglycerol beta-glucosyltransferase	TTGATAAAAAACCCCAAGGTTTTAATATTAACTGCACATTACGGTAATGGTCATGTGCAAGTAGCAAAAACATTAGAACAAACATTTCGCCAAAAAGGAATTGAAGATGTTATTGTATGCGACTTGTTTGGAGAATCACATCCATTTATAACTGACATTACAAAATATTTATATTTAAAAAGTTATACAATAGGAAAAGAATTATATCGTTTGTTTTATTACGGGGTAGAAAAAATTTATGATAAGAAAATAGCATCTTGGTATGCGAACTTTGGAAGAAAACGTTTGAAAACACTGTTACAGGTGGAGAAACCAGATATTGTAATTAATACATTTCCAATTATCGCTGTACCAGAATTGAAGAAACAAACAGGGATTTCAATTCCTGTCTATAACGTATTAACTGATTTTTGCGTGCACAAAATATGGATTCATCGAGAAGTAGATCGTTATTTTGTTGCAACGGATCACGTGAAAGAATTGATGGTTGATATCGGTGTACCTGCGGAACAAATTGTTGAAACAGGAATTCCAATTCGGAGTAGTTTTGAGTTAAAGGTAAATCCAGACATCATATATAATAAATATCAGTTATGTAAGAATAAAAAGATTTTACTAATTGTAGCAGGTGCTCATGGGGTATTAGGAAATGTAAAAGAACTATGCCAATCATTTATGTCAGTGCCTAATTTACAAGTAGTTGTCGTTTGTGGGAAAAATGAAGCTTTAAAACAGGATTTATTAAGTTTACAGAATCAAAATTCCGATGCATTAAAAGTGTTTGGGTATGTTGAAAATATTGATGAATTATTCCGAGTTACTTCGTGTATGATTACGAAGCCAGGCGGAATAACATTAAGTGAAGCAGCAGCGTTGCAAGTACCTGTCATTTTATATAAACCTGTTCCAGGACAAGAAAATGAAAATGCGATGTACTTTGAAAAAAAAGGAGCAGCAGTTGTCATTCGCGATGATAGTGAGGTTTTTGCAAAAACAGAGGCATTATTACAAGATGATGTGAAGCTTCTTCAAATGAAAGAAGCAATGAAAAGCATCTATCTTCCAGAGCCAGCTGGTCATATTGTAGATGCAATTTTGGCAGAAAATCATGCAGAACCGCGGCATATACCTATTAAATCACCTGCTCTTGCACAATCTTTTACTTAA	MIKNPKVLILTAHYGNGHVQVAKTLEQTFRQKGIEDVIVCDLFGESHPFITDITKYLYLKSYTIGKELYRLFYYGVEKIYDKKIASWYANFGRKRLKTLLQVEKPDIVINTFPIIAVPELKKQTGISIPVYNVLTDFCVHKIWIHREVDRYFVATDHVKELMVDIGVPAEQIVETGIPIRSSFELKVNPDIIYNKYQLCKNKKILLIVAGAHGVLGNVKELCQSFMSVPNLQVVVVCGKNEALKQDLLSLQNQNSDALKVFGYVENIDELFRVTSCMITKPGGITLSEAAALQVPVILYKPVPGQENENAMYFEKKGAAVVIRDDSEVFAKTEALLQDDVKLLQMKEAMKSIYLPEPAGHIVDAILAENHAEPRHIPIKSPALAQSFT	PGPT0023400_306	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
AK009_05746	120			hypothetical protein	ATGGATAAAAAGAAACGTGATAAAGCAAAAAATACATTATCTAGTACACAAGAAGTTCTCTATCAACGAGAATTTCAAAAAGCAGATCGTGCAGCAGGATATCGCTCGAAAAGCATTTAA	MDKKKRDKAKNTLSSTQEVLYQREFQKADRAAGYRSKSI	PGPT0014725_35	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014725-yfhE-NA	NA	NA
AK009_05747	558			hypothetical protein	ATGTTGAAAAAACGCGACTTACACGACAGCCACGTTCTATACGAGTTAATGGTGGATCCAGCTGTCTTCCCTTTTGTGCGTCAAAAGGCTTATTCTTATGAAGAATATTTATTCTTAACGAAACAAACAATTGAAGCTGAAGAGCGTGGTGAATTAATTTCACGCACAATTTTAGATGAATGGGGTAACCCCATCGGAACAATTACTTTATTTGATGTGCAAGAAAAAGCTGGGTTTCTCGGGACATGGCTCGGCAAACCATATCATGGAAAAGGCTATAATAAATTAGCAAAAGATTCATTTTTTAGTGAACTTTTCTATGAATTAGATATTGAAACAATCTTCATGCGTATTCGTAAAATAAATATTCGTTCTATTAAAGCTGCAGAAAAACTGCAATATGTAAATCTAGCAAACGAAACAAGAAAAGTCGTATATGATGAAATTAACGCAAACGAAGAAGTATATAACTTATATGAAATTCCAAAAGATCAATACACACTTGCTACAATGCGAGATACAACCTTCCAAGATGCTCATCAATTAAAAGAAGCATAA	MLKKRDLHDSHVLYELMVDPAVFPFVRQKAYSYEEYLFLTKQTIEAEERGELISRTILDEWGNPIGTITLFDVQEKAGFLGTWLGKPYHGKGYNKLAKDSFFSELFYELDIETIFMRIRKINIRSIKAAEKLQYVNLANETRKVVYDEINANEEVYNLYEIPKDQYTLATMRDTTFQDAHQLKEA				NA	NA	NA	NA	NA
AK009_05748	1131	hutI_2		Imidazolonepropionase	ATGAAAATATTGCTCAAACAAGCCATTGTATACCCTATTACATCTCCAAAGTTTCAAGGCGATGTACTCGTTACAGAAGAGCGAATTACCGAGGTCAAACCTTTTATTCAACCTACTCAAGATATGACCGTTATAGATGCACGGGCACTCCATCTCTTACCTGGCTTTATTGATGTCCATACTCACCTTGGTCTCTATGATGAAGGTACTGGTTGGGCTGGAAATGATGCCAATGAAACATCTGAAGTTTCAACACCACATATTCGTTCTTTAGATGGTATCCACCCTTTCGATATTGCCTTTCAAGACGCTGTGCAAAATGGAATTACAACCGTTCACGTTATGCCTGGTAGTCAAAATATTATCGGGGGTACTACTTGTGTAATAAAAACAGCTGGAACTTGTATTGATCATATGATTATTCAAGAACCTGCTGGTTTAAAGATTGCCTTTGGAGAAAATCCTAAAAAGGTCCATAGTAATGGAACGAAAGAATCCATAACACGTATGGGGATTATGGGGTTACTACGGGAATCATTCTATGAAGCACAACACTACGGGCACGAAGCTGATTTTCGAATGCTTCCTATTTTAAAAGCATTACGTCGTGAAATACCCGTACGTATCCACGCTCACCGAGCAGATGATATTAGTTCTGCGCTACGCTTTGCAACGGAATTCAACCTCGATCTACGTATTGAACATTGTACAGAAGGACACTTTCTTGTTGAAGAGCTTTCGAAACACAATTTGAAGGTTTCAGTTGGTCCCACTCTGACACGCCGTTCTAAAATCGAACTAAAAAACAAGACATGGGATACTTACCATATATTATCCAAAAATGGTGTGGAAGTTTCTATAACGACAGACCATCCTTATACACCCATTCAATATTTAAATATTTGTGCTGCTGTTGCAGTAAGAGAAGGGTTAGATGAGAAAACAGCACTAGAAGGAATCACCATATTCCCAGCGCGAAATTTGCGTTTAGAGGATAGAATTGGAAGTATCGAGGTTGGAAAAGACGCCGATCTCGTGTTATGGACTCATCATCCTTTTCATTATTTAGCCAAGCCTGTACTAACTATGATTGATGGAAAAATAATTTACAAAAAAAATAAAAAAAACTAG	MKILLKQAIVYPITSPKFQGDVLVTEERITEVKPFIQPTQDMTVIDARALHLLPGFIDVHTHLGLYDEGTGWAGNDANETSEVSTPHIRSLDGIHPFDIAFQDAVQNGITTVHVMPGSQNIIGGTTCVIKTAGTCIDHMIIQEPAGLKIAFGENPKKVHSNGTKESITRMGIMGLLRESFYEAQHYGHEADFRMLPILKALRREIPVRIHAHRADDISSALRFATEFNLDLRIEHCTEGHFLVEELSKHNLKVSVGPTLTRRSKIELKNKTWDTYHILSKNGVEVSITTDHPYTPIQYLNICAAVAVREGLDEKTALEGITIFPARNLRLEDRIGSIEVGKDADLVLWTHHPFHYLAKPVLTMIDGKIIYKKNKKN				NA	NA	NA	NA	NA
AK009_05749	906			Epimerase family protein	ATGAAAATCGCAATTTCTGGTGGCACTGGTTTTATTGGTAAATACCTCTCTACTTTTTTTATTCAAAAAGGATATATGGTCTACATTCTTACTCGAAAGAAAACTACTAGAACCTCAAACCATAACCTTCAATACGTACACTGGACACCAGATTTATCTACCTTTCCACTCTCCTCTATCGATGTAGTCATTAATCTAGCTGGAGAATCTATCAATAGTAGATGGACAAAAAAACAAAAAGAAACAATATTAAACAGTAGAATTCAAACAACAAAAGGACTTATTCAACAACTACAAGTAATGGAAACAAAACCACATACATTTATTAATGCAAGTGCTATTGGATACTACGGAACATCTGAAATAGAGTCTTTTACTGAGCAACAAGAAACTCCCGGAAATGATTTTTTAGCAGAAACAGTATTTTTATGGGAGCAAGAAGCAGCTAAAGCATGTTCTCTCGGAATAAGAACAATTTACACAAGATTTGGCGTTGTATTAGGTGCAGATGGCGGAGCCTTGCCAAAGATGTTACTTCCCTATCAATTCTATATCGGCGGCACCATTGGTTCTGGGAAGCAATGGTTATCATGGATTCATATAGACGATGTCGTTCGTATGATGGATTTCATCATACACAAAAAAGAAATTGATGGCCCTCTTAATATGACAGCACCAGCACCTATAAGAATGAAGGAATTTGGAAAAACCATCGCTGTCGCAACGAGAAAACCACATTGGCTGCCTGTCCCTTCATTTATGCTTCACGCCTTATTAGGTGAGATGAGCATACTTGTACTAGAAGGGCAACATGTATTACCTATTAAAGCAATTAAACATGGATACCAATACACATTTCCGGCAATAGACCATGCATTACAAAATATACTTTCGCATACAATGTAG	MKIAISGGTGFIGKYLSTFFIQKGYMVYILTRKKTTRTSNHNLQYVHWTPDLSTFPLSSIDVVINLAGESINSRWTKKQKETILNSRIQTTKGLIQQLQVMETKPHTFINASAIGYYGTSEIESFTEQQETPGNDFLAETVFLWEQEAAKACSLGIRTIYTRFGVVLGADGGALPKMLLPYQFYIGGTIGSGKQWLSWIHIDDVVRMMDFIIHKKEIDGPLNMTAPAPIRMKEFGKTIAVATRKPHWLPVPSFMLHALLGEMSILVLEGQHVLPIKAIKHGYQYTFPAIDHALQNILSHTM	PGPT0014730_2053	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK009_05750	813	recX		Regulatory protein RecX	ATGGCTGTCATTACAAAAATAGAAGTACAAAAGCGATCGAAAGAACGATTTAATATTTATATTGATAAAGGCCAAGGTGAAGAGTACGGGTTTAGTGTGGATCAAGTAATCTTAATGAAACATGGATTACAAAAAGGCTTAGAAATTGATGAAATAGAGTTAGGAAATATTTTGTACAATGAAGAGGTACAAAAAGCATATTTACAAGCAATCTCCTATTTATCCTATCAAATGAGAACAAAACAAGAAATAGAAGATTTTTTACGAAAAAAAGAAGTGGGACAGGCCATCATCTCTGAAGTCGTTTCGAAATTATTACATGACCGATATATTAATGATAAAGAGTACGCGGTTTTATATACGCGAACGCAAAGTAATGTGAATCGAAAAGGTCCAACTGTTATTAAAAGAGAGTTGTTAAATAAAGGTGTTCAGGATTTAATTATTATGCATAGTTTACAAGAATATCCGAAGGAAAAGCAAATTGAGAATGCCTTGTTTCTCATAGAAAAGAAAAAAAAATCTTATCAAAAGCATTCTTTTTTACAAATGAAGCTAAAGTTGGATGAGATGCTTGTTCGAAAAGGGTATTCTAGAGAAGTAATTCAAATTTGTTTGGAAGAATTGAAAGACGAAAGAGATGACGAAAAGCAACAAGAAGCGTTACACTATCATGGGAATAAGTATTATGAGAAATATAAGAAGTATGATGGATGGACATTTGAAAACAAGATGAAACAAGCGTTATATCGAAAAGGATTCTCTATTGATGAGATAGAGATATTTTTACAAATGAAACGTGAAGAGGGATGA	MAVITKIEVQKRSKERFNIYIDKGQGEEYGFSVDQVILMKHGLQKGLEIDEIELGNILYNEEVQKAYLQAISYLSYQMRTKQEIEDFLRKKEVGQAIISEVVSKLLHDRYINDKEYAVLYTRTQSNVNRKGPTVIKRELLNKGVQDLIIMHSLQEYPKEKQIENALFLIEKKKKSYQKHSFLQMKLKLDEMLVRKGYSREVIQICLEELKDERDDEKQQEALHYHGNKYYEKYKKYDGWTFENKMKQALYRKGFSIDEIEIFLQMKREEG	PGPT0007240_362	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
AK009_05751	318	yfhH		putative protein YfhH	ATGAATATGCCAAAACGCTACAGTGAAATGACACCACATGAGCTTAGAGAAGAAATTGGGGATTTGAAGGAGCAAGCAATAAAGGCTGAACAGCTTGGAATTGTAAATGAGTTCGATGTATTAATGAGAAAGATGGCAATGGCTCGCGCTTATATGACTGATATAAACAAATTCCATATTGGTGAAACATATGAATTAATAGAAGAACCTGGTATATTATTTAAAATTACTTACTTCAATGGGGTATTCGCTTGGGGTTATAAACAAAATGATAATGAAGAGATTGGAATACCAATTTCCTTATTGCAAGAAAAATAA	MNMPKRYSEMTPHELREEIGDLKEQAIKAEQLGIVNEFDVLMRKMAMARAYMTDINKFHIGETYELIEEPGILFKITYFNGVFAWGYKQNDNEEIGIPISLLQEK				NA	NA	NA	NA	NA
AK009_05752	153			hypothetical protein	ATGAGCTACCGTGATCGTTTAGATAGTCGTTCTGAATTATTTAACCATACGTGGACTCGTCCGAAACATGCGAAAGCGCAAGTTAACGGACAGACGCAGCAAACCCAGTCTCTCATTATATTGGCCAACGAATGTAAAAAACGCCAATTTTAG	MSYRDRLDSRSELFNHTWTRPKHAKAQVNGQTQQTQSLIILANECKKRQF				NA	NA	NA	NA	NA
AK009_05753	159	sspK		Small, acid-soluble spore protein K	ATGGGTAAACAAGCCGAATTTTGGTCTGAGTCAAAAAACAACAGCAAAATCGACGGTCAGCCGAAAGCGAAATCACGCTTCGCTTCGAAGCGACCTAACGGCACAATTAACACGCACCCACAAGAACGTATGCGTGCTGCAAATCAGCAGGAAGAGTAA	MGKQAEFWSESKNNSKIDGQPKAKSRFASKRPNGTINTHPQERMRAANQQEE	PGPT0024910_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024910-sspK-K06428	NA	NA
AK009_05754	267			hypothetical protein	ATGAATGATATTTATGAAGCATTAACGAAAGAATTATTAGATAAGAATGACAAGCTTTCTTACGGACAAGCACGTGCGTGGGTTGAATTACTTTGGGAAGATTTTCAAACAACTTATGCAAAATCAGGGCGTTATCAAGGTGAGGAAATGACTGAGCAAGTGGTACGATCATGGATTAATAATCATGGTGTACGCCTTCATGAAATGCGTACAAATAATCCGAAGTATAGCCATTTAATTAATCAAGAAGATCATTTGAAACATTAA	MNDIYEALTKELLDKNDKLSYGQARAWVELLWEDFQTTYAKSGRYQGEEMTEQVVRSWINNHGVRLHEMRTNNPKYSHLINQEDHLKH				NA	NA	NA	NA	NA
AK009_05755	981	yfhP	COG1988	putative protein YfhP	ATGGACACAGCCACTCACCTTGTTATGGGTATCACTTTAGGTAGCTTAGCAACATTAGATCCAGCCATAGCACAAAGTGATATTGGCCCACAAGCTGTTATGCTTGCTACAATTGCTGGTTCCAACATTCCTGACATTGACACAGTTTTAAAATTGCGTAATAACGCTAAATATATAAGAAATCATCGCGGAGTTACTCATTCCATTCCCGCGGTAATTCTTTGGTCATTTCTTATAAGTGGCATCTCTTTCGCCTTCTTTTCAGACGCTCCATATCTTCATCTACTACTTTGGTCATTTATTGCAGTCTTCCTTCACGTGTTTGTCGATATTTTTAACGCCTATGGTACACAAGCATTACGGCCTTTCACAAAAAAATGGGTCGCACTCGGCGTGATTAATACATTTGATACCGTAATTTTCTTTATCCATATACTTGCAATTGCTTGCATGCTCGTCGGTTCTCATAAAGGATACACAGCCTTAGCAGCATATATATTAATGATTATTTACTATATCGGACGGGTTATGATGCACCGAAATATAAGAAGCGTTGTACACAAACGTTTCAAAAATGTCGAAAAGATTATCATTTCTCCTTCTTACCGATTTTATCATTATCATTTAGCAGTCGTTACAGCTGATTATTACTACGTTGCGAGATGGCACCGTGGTAACATCATGATATATGACAAATTCGATCGGGTACCGTTCCCAGAAAATGATATTATGCGAGCAGCTAAACAAGATGAAAACATCTCGGCCTTCCTATCTTTCTCTCCTGTATATCGCTGGGATATTTTTGATCATGATCATTATTATGAAGTACGATTCATTGATTTACGGTATCGCAGTAAAGATTATTATCCATTTGTCGCGATTGTTCAGCTCGACCATAATTTAAATATTATTAGTTCCTATACAGGATGGATTTTTAGTGAAGAAAAACTTCGAAAAAAGCTGGAATTACTTCCACATTAA	MDTATHLVMGITLGSLATLDPAIAQSDIGPQAVMLATIAGSNIPDIDTVLKLRNNAKYIRNHRGVTHSIPAVILWSFLISGISFAFFSDAPYLHLLLWSFIAVFLHVFVDIFNAYGTQALRPFTKKWVALGVINTFDTVIFFIHILAIACMLVGSHKGYTALAAYILMIIYYIGRVMMHRNIRSVVHKRFKNVEKIIISPSYRFYHYHLAVVTADYYYVARWHRGNIMIYDKFDRVPFPENDIMRAAKQDENISAFLSFSPVYRWDIFDHDHYYEVRFIDLRYRSKDYYPFVAIVQLDHNLNIISSYTGWIFSEEKLRKKLELLPH				NA	NA	NA	NA	NA
AK009_05756	1098	mutY_1	COG1194	Adenine DNA glycosylase	TTGACACTTGAAATACTAAAAAAATTTAATATAGAGCAGTTTCAAAATGATTTAATTGGTTGGTTTGAAGAGGAGCAGCGCGACTTACCATGGAGAAAAAATAAAGATCCATACCGCGTTTGGGTTTCTGAGATTATGTTACAGCAAACAAGAGTAGAAGCCGTAAAACCATATTACGCAAATTTTATGGGGAAGTTTCCTACACTTGAAGCGTTAGCGAACGCAGATGATGAAGAAGTATTAAAAGCATGGGAAGGTTTAGGATATTATTCTAGAGCACGTAATTTACATGCGGCAGTAAAAGAGGTAAAAGAAGTATACGGCGGGGTTGTACCAAGTGATGTAAAGAAAATTGAAAAGTTAAAAGGAGTCGGACCATATACAAAAGGTGCTATTTTAAGTATTGCATATGGTATACCAGAGCCGGCAGTTGATGGAAATGTTATGCGTGTATTATCTCGCATTTTATCAGTATGGGATGATATTGCAAAACCGAAGACTCGAAAAGTTTTTGAAGAGATTGTGCGTGAAATTATTTCAGTAGAAAACCCATCTTATTTTAATCAGGGATTGATGGAATTAGGTGCACTGATTTGTATTCCTAAAAATCCATCGTGCTTACTTTGTCCTGTACGTGAGCATTGCAGAGGATATGCTGAAGGTGTTCAAAAAGAATTACCAGTAAAAAGTAAAGCGAAAGCTCCTAAAATGGTACCTATTGTTGCAGGAGTACTTCAAACTGAAGACGGTCGTTACGTTATTAATAAACGTCCAAGTACAGGTTTGTTAGCTAATATGTGGGAGTTTCCTAATGCTGAACTTGGAGAAGGTATTCGAAATCAGAAGGAACAGCTTATAGATTATATGAAAGAAAAATTTGAACTCGCGGTTTCTATTGATGAATATGCAATGAATGTACAACATACGTTTACACATCGTACTTGGGATATATTTGTATTTTATGGAAAGGTAACTGGCAATATTGTTGATACAGATACATTGAAATTTGTATCGAAAGAAGCATTTGAGCAATTACCTTTTTCGAAATCGCATCGTACTATTTACGAAAATTGCGTGGAGAAAATTACAATACAATAA	MTLEILKKFNIEQFQNDLIGWFEEEQRDLPWRKNKDPYRVWVSEIMLQQTRVEAVKPYYANFMGKFPTLEALANADDEEVLKAWEGLGYYSRARNLHAAVKEVKEVYGGVVPSDVKKIEKLKGVGPYTKGAILSIAYGIPEPAVDGNVMRVLSRILSVWDDIAKPKTRKVFEEIVREIISVENPSYFNQGLMELGALICIPKNPSCLLCPVREHCRGYAEGVQKELPVKSKAKAPKMVPIVAGVLQTEDGRYVINKRPSTGLLANMWEFPNAELGEGIRNQKEQLIDYMKEKFELAVSIDEYAMNVQHTFTHRTWDIFVFYGKVTGNIVDTDTLKFVSKEAFEQLPFSKSHRTIYENCVEKITIQ				NA	NA	NA	NA	NA
AK009_05757	225	yfhS		putative protein YfhS	ATGTATATAGGACGCGATATGACTGAACTAACAATGGTTTCAAAACATGAATGGAAAGAAGATGAATTAGCTTATTTTCATCACTCACTACAACAGATTCTGCCTTATTTAAATGCAGAAGGTCAAAGTATTTACAAAGAAATTGTAGTAGAAATTGAATCAAGAGGCGGCTTACAAGAAGGTGAAGCTAGTTGGACTCATGGGACAAAAATTTCTTACGACTAA	MYIGRDMTELTMVSKHEWKEDELAYFHHSLQQILPYLNAEGQSIYKEIVVEIESRGGLQEGEASWTHGTKISYD				NA	NA	NA	NA	NA
AK009_05758	282	sasP-B		Small, acid-soluble spore protein gamma-type	ATGAGTAAAAAACAACAAGGTTATAACAAGGCAACTTCTGGTGCTAGCATTCAAAGTACAAATGCTAGTTATGGTACAGAGTTTGCGACTGAAACAAATGTACAAGCAGTAAAACAAGCAAACGCACAATCAGAAGCAAAGAAAGCACAAGCTTCTGGTGCACAAAGTGCAAACGCTAGCTATGGTACAGAATTTGCAACTGAAACAGACGTGCATGCTGTGAAAAAACAAAATGCTAAGTCAGCTGCAAAACAATCACAATCTTCTAGTTCAAACGAGTAA	MSKKQQGYNKATSGASIQSTNASYGTEFATETNVQAVKQANAQSEAKKAQASGAQSANASYGTEFATETDVHAVKKQNAKSAAKQSQSSSSNE				NA	NA	NA	NA	NA
AK009_05759	261			hypothetical protein	ATGAACGATTTTGATAAGTTGGTAGGGGAGCAATTAGAAACGATGGATGAGTTGTTAAAGTTACAAGCACATCTAGAGAAGTATCAACAAATTGAAATGAATGAAAAAGATATGTGCGATAAAAAGGAACTGCATTTTATCCGTCAGGAAATATATAGAACAGAAGTAGCGTTGAAGATGTTACATGAGAAATTTGAAGAACAAACAAATAGTGTAATCCAATCTTTTGCAACTGAAAAAATGATTTCAAATTTAGGATAA	MNDFDKLVGEQLETMDELLKLQAHLEKYQQIEMNEKDMCDKKELHFIRQEIYRTEVALKMLHEKFEEQTNSVIQSFATEKMISNLG				NA	NA	NA	NA	NA
AK009_05760	531			hypothetical protein	ATGGGATTTCCCAAAGAAGGAGAAAAAGTACAAATACATAGTTATAAACATAATGGCTCCATTCATAGAATGTGGGAAGAAACAACAATTTTAAAAGGAACACAGAGTCTTGTGATCGGAGCGAATGATCGTACAGTAGTTACAGAATCAGATGGTCGAACATGGATTACGCGCGAACCAGCAATTTGTTATTTTCATGCTAACTATTGGTTTAATGTGATTGGGATGCTTAGGGAGGATGGCGTATATTATTATTGCAATTTAAGCTCACCTTTTGCGTATGATTCTGAAGCATTAAAGTATATTGATTATGATTTAGATATTAAAGTGTATCCAGATATGACATATACGCTTCTAGATGAAGATGAGTATGAAAAACATAGTCAAATTATGCAGTATCCACCTGTTATAGATACAATTTTAAAACGAAATGTAGCACATTTAACACAGTGGATTCATCAAAGAAAAGGTCCATTCGCACCAGATTTCGTAGATATGTGGTATGAACGATATTTAATGTACAGAAATTAA	MGFPKEGEKVQIHSYKHNGSIHRMWEETTILKGTQSLVIGANDRTVVTESDGRTWITREPAICYFHANYWFNVIGMLREDGVYYYCNLSSPFAYDSEALKYIDYDLDIKVYPDMTYTLLDEDEYEKHSQIMQYPPVIDTILKRNVAHLTQWIHQRKGPFAPDFVDMWYERYLMYRN				NA	NA	NA	NA	NA
AK009_05761	1761		COG1132	Putative multidrug export ATP-binding/permease protein	GTGCAGGGCATAAAAAGATATTTACAATTTGTTAAACCATATCGATGGCTTATTGCTATTACAATTATTATTGGACTAGTTAAGTTCGGTATTCCACTTATTATGCCGTGGTTATTAAAGTATATTATCGATGATGTAATTCAAGGGGCGGGTTCACTTCAAGATAAAACATCTCAATTAATAACAGCGATTGGAATTGCTTTTTTTATTTTTGCGGTATTAAGACCACCGATTGAATATTATCGTCAATATTTCGCGCAACGTATCGCAAATACAATACTGTATGATTTGCGGAAGCATATTTTCGGTCACTTACAAAAGTTAAGCTTACGTTATTATTCGAATACGAAAACAGGGGAGATTATTTCACGGGTCATCCATGATGTAGAACAAACGAAAGATTTTGTAATTACAGGTTTGATGAACGTCTGGTTAGATACTGCAACAATTGCTATCGCTATCATTGTTATGTTTTCTATGAATATAAAATTAACATTTGTTGCGTTATTGATTTTACCTATTTATGTAATAGCAGTGAAATATTTTTTCGGACGTCTTCGGAAATTGACGAAAGAGCGTTCACAAGCGTTAGCGACGATGCAAGGGTATTTGCATGAACGTATTCAAGGAATGCAAGTGACACGTAGCTTTGCGTTAGAAGAGTATGAGGGGAAGCAGTTTGAAAAAAGAAATAATGAATTTTTAACGAAAGCATTAAACCATACAAGTTGGACGGCGAGAACATTTTCGGCAGTAAATACGTTAACCGATTTAGGTCCGTTACTTGTGATTGGTTTTGCAGCATATGAAGTAATTCAGGGGCAGTTAACGCTAGGGACGATGGTAGCCTTTGTTGGATATATGGATAGTTTATATAGTCCGCTTCGCCGCCTTGTTAATTCATCTACAACATTGACACAATCTTTTGCATCGATGGATCGTGTGTTTGAACTGTTAGATGAAAAATACGATATTGTTAATGTGCCAAATGCGATACAAACGGAAAAATTAAATGGAGAAATTGTATTTGATAATGTTTCTTTTCGTTATAATGCAGATGAAAAAGAGATATTACACAACTTGTCATTAACTATGCAGTCTGGAGAGAAAGTAGCGCTTGTAGGAGCGAGTGGAGGAGGGAAGTCATCTCTTGCTAGTTTGATCCCGCGTTTCTATGATGTTTCTGAAGGCACGGTTTATGTAGATGGCATAGATGTAAGGAAGTATAATATGAGAAATTTACGTAGTAATATTGGAATTGTACTGCAAGATAATTTATTGTTTAGCGATACAATTGAAGCTAATATTTTATATGGAAATCCGAAAGCTACAGAGAAAGAAGTGATTGCAGCTGCCAAAGCTGCGCAAATTCATGATTTTATTATAGATTTACCAGATGGTTATAATACTGTCGTTGGAGAACGTGGTGTGAAGCTATCGGGTGGGCAAAGGCAACGCGTGGCAATTGCACGCGTATTTCTAAAGAATCCGTCGGTACTTATATTGGATGAAGCAACTTCGGCTTTAGATTTAGAAAATGAAAGGTATATTCAAGAGGCGCTTCAGACGTTAGCTGCTGACCGGACAACGATTATAATTGCACATCGATTAGCGACAATTACGCATGTTGATACGATCATTTACATTGAAGACGGTCAGATTAAAGAAACCGGTTCTCATGAAGAGTTAATGCGAAAAAGAGGATTTTATTATAATTTATATCAACTTCAACATATAACAGAAACAGCTCCTTTAGCATAA	MQGIKRYLQFVKPYRWLIAITIIIGLVKFGIPLIMPWLLKYIIDDVIQGAGSLQDKTSQLITAIGIAFFIFAVLRPPIEYYRQYFAQRIANTILYDLRKHIFGHLQKLSLRYYSNTKTGEIISRVIHDVEQTKDFVITGLMNVWLDTATIAIAIIVMFSMNIKLTFVALLILPIYVIAVKYFFGRLRKLTKERSQALATMQGYLHERIQGMQVTRSFALEEYEGKQFEKRNNEFLTKALNHTSWTARTFSAVNTLTDLGPLLVIGFAAYEVIQGQLTLGTMVAFVGYMDSLYSPLRRLVNSSTTLTQSFASMDRVFELLDEKYDIVNVPNAIQTEKLNGEIVFDNVSFRYNADEKEILHNLSLTMQSGEKVALVGASGGGKSSLASLIPRFYDVSEGTVYVDGIDVRKYNMRNLRSNIGIVLQDNLLFSDTIEANILYGNPKATEKEVIAAAKAAQIHDFIIDLPDGYNTVVGERGVKLSGGQRQRVAIARVFLKNPSVLILDEATSALDLENERYIQEALQTLAADRTTIIIAHRLATITHVDTIIYIEDGQIKETGSHEELMRKRGFYYNLYQLQHITETAPLA				NA	NA	NA	NA	NA
AK009_05762	1089			hypothetical protein	ATGAAACTTGGTGCTCGCATTTTAAAAACGGGTATTGCCATCACGTTAGCTTTATTTGCTTGTATTTTACTTCAATTACCGAGTCCGGTATTTGCGGGAATTTCAGCTATCTTTGCTGTTCAACCGTCTGTATACCGTTCTTATTTAACCGCACTTGAACAGATTCAAGCAAATGTAATCGGTGCGATATTTGCTATCGCATTTGCTACTGCTTTTGGACATAATCCTTTTATTATTGGATTAACATGTATATTAGTAATTGCTCTTACACTGCAATTACGATTAGAAAACACAATATCAATTGCTTTAGTAACAGTTATCGCCATTATGGAGTATCAAGGCGAAGACTTCTTTAGTTTTGCCTTACTTCGATTTGCGACAATTATGATTGGTATTATTGCGGCTTCACTTGTAAATTTAGTATTTATGCCGCCGAAATATGAAACAAAACTTTATCATCGTATCGTTGATAATACAGAAGAAATTGTAAAATGGATTCGAATGAATAGCAGGCAGGCTTCTGATTTTACAACGCTAAAAACTGATATTGATCGTATGAAAGAAAAAATGATCAAACTAAATCATTACTATTTGCTGTATAAAGAAGAAAGAAGCTACACGAAAAAAGTAAAGTTCGCAAAAATTCGTAAGCTCGTTTTATTCAGACAAATGTTAGCGACAACAAGCCGTGCTTTAAGTACGTTAAAATCATTACACCGTACTGAAAATGAACTACGCTACATGCCGGAAGAATTTCAGGAATCTATCCAAAACGAACTTGATTCATTAACGCATTATCATGAACAAGTTTTATTAAAATTCATTGGTAAAGCAAAAAAACAACAATCAGTTGAAATGCTTGATGAAGTTGAAACAGGTAAACAAGAATTAATTGATATCTTTATGGAATATCAAAACAAGGACGATGAAGAAGCATATAAAACATGGTTACATCTCTTCCCTCTTATTTCTTCCATCATTAACTATAGTGAAGAAGTAGAGCATTTAGATTTACTTGTAGATAGCTTCTACACATACCATAAACCAGAAAAAGAACTCCAAATCGATGATAAAAAAGAAGACGAATAA	MKLGARILKTGIAITLALFACILLQLPSPVFAGISAIFAVQPSVYRSYLTALEQIQANVIGAIFAIAFATAFGHNPFIIGLTCILVIALTLQLRLENTISIALVTVIAIMEYQGEDFFSFALLRFATIMIGIIAASLVNLVFMPPKYETKLYHRIVDNTEEIVKWIRMNSRQASDFTTLKTDIDRMKEKMIKLNHYYLLYKEERSYTKKVKFAKIRKLVLFRQMLATTSRALSTLKSLHRTENELRYMPEEFQESIQNELDSLTHYHEQVLLKFIGKAKKQQSVEMLDEVETGKQELIDIFMEYQNKDDEEAYKTWLHLFPLISSIINYSEEVEHLDLLVDSFYTYHKPEKELQIDDKKEDE				NA	NA	NA	NA	NA
AK009_05763	4437	gltB	COG0067	Glutamate synthase [NADPH] large chain	ATGCTCAATAAAACAAATACATGGACACCGTCTTTATTTCGAGATTATAGAAATGCAGAACATGATGCGTGTGGAATCGTTTCCGTTATGGAGAAACGAAAAATTCCTACAAAAGAAAACATTGACCTTTGCATACAATCACTCGTCAAAATGAATCATAGAGCTGGTTTCATTAATGGCGAGGGCGATGGCATCGGCATTCACATTGATGTACCAAAAACGCTTTGGAATGAAAAACTAAAAAGTAGTGGATATAATCCAACGATTGTGGATCATCCCCACTTTATCGTTGGACATTTTTTTCTAAATAAAAAAGAAAACATTACTGCCTTAAAAGATTATATTCGTACGCAATTAAACAACAAAAACTTTACTATCATTTTCGAAAGTGATGATGCAACAAACTCAGATGCGCTCGGTCCACTCGGTAAACAAGAAGAACCTTTATTTTGGCAAGTTGCCCTTATCGCAGAAAATGAAATTACAAATATTGAGCAAACATTATTTTCTGTCACAATAAAAATAGAGGAAAACGAAGCAATTCATGTTGCTTCATTAAGTCGTGATCATGTTGTATATAAAGTTCTAGGTGCTGGTGATACACTTGTTGCCTACTATAATGATTTACAACATCCACTTATCGCTTCAACTATGACATTAGGACATAACCGCTACTCTACTAATACATTATCTAATTTTTTTCGTGTACAACCATTTAGTATTCTCGGACATAATGGTGAAATTAACACAATCGCAAAATTACGCGATCAAGCTGAAATGATTGATGTACCACTTACTGCTGGAGGCAGTGACTCTCAAGATTTAAACCGCACCTTAGAAACCCTACTTGTTCAATACGACTACAGTTTATTTGAAGCAATGGAAATACTATTTCCACCAATTATTAATGAAATTAAACTTTATGAAACACCTTTACAAGATTTATATACGTATATACGTGAAGCATGGGGACATTTTGCACAAGGACCAGCTGGCATCATTTCCCGTTTTAAAGATGAAGCTGTTTTCAGCGTTGATTCCCTTGGATTACGCCCAGTATGGAAAGTAGAGACAGAAAGCTCTTATATTTTCTCTTCTGAACCTGGAGTTGTATCACCAACTAAATATGTAGCAGAACCAAAGCCACTCGCCCCTGGAGAAAAGGTCGGATTAAAATGGAATGAACAAGATGAACTTGTTCTTTATGAATATGACAAATATCAAATCCAAGTATATAACCGTTTTAAAAAGCGAATTGATACTACCAATTATCATTTAAATTTATCTATCCCTGAAACGCAAAAAATCCAAGGGCTATGTGATTTTGTTCAAGTTGAAACGAAACAATACGTCGCTTTCGGATGGGACCGAGAACATATTCAGCTTCTTGAACAGATGGCAACAAAAGGTGTTGAACCAATACGCTCACTTGGGCATGACTCACCACTTGCCGCACTTGATACTGATAGACGAAATATCGCTGACTTTATTAAAGAAAGTGTAGCTGTTGTTACAAACCCAGCAATTGACCGTGACCGTGAAATTGAACACTTCTCTACACGTACTGTACTTGGAGAGCGTCCAAGTTTATTAAGCGGCGCAAAACGGCCATTTGTAGTTGAAATGCTTTCACCAATTATTTTAGAAGGCAGCGTGGCACAACCTATTGCAGAGGAATTACACACAATTACGTACGAACAACTCACAGCGTTATTTAGGACTCATAACTCTATTGCCACAATCTCTGCTACATTCAGCTCGTCAGAAACCCTGCAATGTGCATTAAGCCGCATTAGTTCTGAAGCGATAGCTGCTGTTAACAATGGTGCTTCCCTACTAGTATTAGATGACGCAAAAGCCCATCTAAATGAACGCTTGTGGATTGATCCACATTTAGTTACCGCGAAAGTACATCAAGAATTAAGTGAAAATAAATTACGCCGCAATTGTTCTCTCGTTATACGTTCTGGTGCCCTTCGCTCCTTACATGACATTGTCACGCTATATGGATTAGGAGCAGATAGTATTAATCCATATTTATTATTCGCGACTGTAAGTGATGGTACAAAAACACCAATTACGAATCTGTATAATGCACTTAATAAAGGATTAGAAAAAGTCATTTCAACAATTGGAATTCATGAGTTACGTGGTTACGGACGTCTCTATTCATCTATTGGGTTACATGAGGAAATTGCAAATATATTACAAATCACAAATTTCTTCGGTTCAAATGATTTAGCTTTTTCACTTGAATCACTTGCTGAAGATGCAAAAATACGAGCAGAGGATTATAACAATCCTAAAATTAGAATGCGAAAATCATTTCATATATTCCCGCGAATTTGGAAAGCAATCGGCGATGTTGCAAAAGGAAATCCTTATGATGACTACCGTGACAAGTTAAGTGAACTAGAAGAGAATAATCCAATCGCAATCAGACACCTTGTTCAAACGAAACAAACAAAACATGTCGTTCCAACTGAAGAAGTATCTATCGGCATTCAAAATCATAATTTACCATTTATTATTAGTTCTATGTCATTTGGTTCTCAAAACGAAATTGCCTTTCGCGCATATGCAGAAGCGGCCGATCAGCTAAATATGATTAGCTTGAACGGTGAAGGCGGCGAAATTAAAGATATGATCGGGAAATACCCACATACACGCGGACAACAAGTGGCATCTGGGCGATTTGGAGTAAATGCCGAACTACTAAACTCATCGAATTTAATTGAAATCAAAATCGGTCAAGGCGCAAAGCCTGGTGAAGGTGGGCATTTACCTGGTTCAAAAGTGACAGCCAAAATCGCTGAAGCACGTAATGCGACAATCGGCTCAGATTTAATTTCACCTTCTAACAACCATGATATTTATTCAATTGAAGATTTAGCTCAAATGATTACGGAAATTAAAACAGCTAATCAACTTGCCAAAGTAGCCGTGAAAGTCCCTGTTGTTCCTAATATCGGAACAATTGCTGTCGGTATCGCCAAAGCTGGTGCTGATTTTATTAACATTAGCGGATTCGATGGTGGAACAGGTGCTGCACGTATTCACGCCTTGCAACATGTAGGTCTTCCTGTAGAAATTGGTGTTAAAGCCGCTCACAACGCTTTATTAGAAGCGAGCATGAGACATAAAGTAGAGATTTGGGCAGATGGTGGTATTCGAAGTGTAAATGATGCCTTGAAAATCATGCTCCTCGGAGCAAACCGTATTGGATTTGGCACACTGTCAATGATTGCAATCGGCTGTACTACTTGCCGTGGGTGCCATCTAGATACTTGCCATGTTGGAATTGCGACACAAATTGAGTCTGAAGCACAGGCAAAAGAACATGGATTACGCCGCTTCGTCCCACGCGAATTAGAAAGCGCAGTTGCTGGCCTGCTAAATTTATTCACCTCTTTCGGTGTAGAACTAAAACGATTAACAGGACAGCTTGGGTATACAAATTTACAAGCAATTGTCGGGCGTTCTGATTTATTAGAGCAAGTTCGGGGCGAAAATTTATTAAACTTATGTAATTTACTACAAATAATAGAACATCCATCTGTTACAACAACAAAAGACGTACCAGAAAAACAATTTAAAACAGTTCATTCCGCTGACTCAAAAGAATTAGTAGGCGTTGGTGTAGAGCAACGCGTTATGGGCGGTCTAGAATCATGTTATCGCGTTCGCAGTAAACTATATGAAGCTACTCAACTTGAACCACTTACATTAAAGTATACGAATGGTTCTATCCCTGGAAATGGGTTAGGTGCTTACAATAGTGAAAATTTATTTATACACGTAAATGGCGGCGCACAAGATGGCATTGGTAAAACTTCCTTTGGTGGTGGTATTTATATAACGAAATCAAAAGGAAAAGACGGAGTATATTATAACGGTTCTGTCGGAAAAGGATTTGGATATGGGGCACAAAAAGGGGCACTATACGTGCAAGGGAACGCTGATGCTCGTGCTGGCATTCGCCTTTCTGGGGCAGACATGATCATTGGAGGTAGAATAACAAAACCACTCCGTGAAAAAGAGCAAGGAAATATAGGTGCATACTCCAATATTAAAGGTTTTGCTTTTGAATATATGACAAATGGGCGAGCGCTTGTTTTAGGTGACCCTGGTCCATGGATTTGCGCTGGCATGACTGGCGGTGTTGTTTATTTGCGTCATGATTCAAACTTAGGCTTAACAGAACAGGCCTTAAAAAGAAGAATTGCAAAAGGGGCAAATGTTACATTACAATCAATTAGGAAAAATGGTTTGAAAGATGTAACTGAATTATTGCTAGACTATATTCGTGTACTAAACGAGCATGAGCAATATGAGGAAGTTGCTTTGTTAACCCCATTATTAGATGATATACAGAACCAGTTTTTTGAAATTATCCCAAAAAAAGAACAGGCAGATCCATCTATCTCAACAGAGTAA	MLNKTNTWTPSLFRDYRNAEHDACGIVSVMEKRKIPTKENIDLCIQSLVKMNHRAGFINGEGDGIGIHIDVPKTLWNEKLKSSGYNPTIVDHPHFIVGHFFLNKKENITALKDYIRTQLNNKNFTIIFESDDATNSDALGPLGKQEEPLFWQVALIAENEITNIEQTLFSVTIKIEENEAIHVASLSRDHVVYKVLGAGDTLVAYYNDLQHPLIASTMTLGHNRYSTNTLSNFFRVQPFSILGHNGEINTIAKLRDQAEMIDVPLTAGGSDSQDLNRTLETLLVQYDYSLFEAMEILFPPIINEIKLYETPLQDLYTYIREAWGHFAQGPAGIISRFKDEAVFSVDSLGLRPVWKVETESSYIFSSEPGVVSPTKYVAEPKPLAPGEKVGLKWNEQDELVLYEYDKYQIQVYNRFKKRIDTTNYHLNLSIPETQKIQGLCDFVQVETKQYVAFGWDREHIQLLEQMATKGVEPIRSLGHDSPLAALDTDRRNIADFIKESVAVVTNPAIDRDREIEHFSTRTVLGERPSLLSGAKRPFVVEMLSPIILEGSVAQPIAEELHTITYEQLTALFRTHNSIATISATFSSSETLQCALSRISSEAIAAVNNGASLLVLDDAKAHLNERLWIDPHLVTAKVHQELSENKLRRNCSLVIRSGALRSLHDIVTLYGLGADSINPYLLFATVSDGTKTPITNLYNALNKGLEKVISTIGIHELRGYGRLYSSIGLHEEIANILQITNFFGSNDLAFSLESLAEDAKIRAEDYNNPKIRMRKSFHIFPRIWKAIGDVAKGNPYDDYRDKLSELEENNPIAIRHLVQTKQTKHVVPTEEVSIGIQNHNLPFIISSMSFGSQNEIAFRAYAEAADQLNMISLNGEGGEIKDMIGKYPHTRGQQVASGRFGVNAELLNSSNLIEIKIGQGAKPGEGGHLPGSKVTAKIAEARNATIGSDLISPSNNHDIYSIEDLAQMITEIKTANQLAKVAVKVPVVPNIGTIAVGIAKAGADFINISGFDGGTGAARIHALQHVGLPVEIGVKAAHNALLEASMRHKVEIWADGGIRSVNDALKIMLLGANRIGFGTLSMIAIGCTTCRGCHLDTCHVGIATQIESEAQAKEHGLRRFVPRELESAVAGLLNLFTSFGVELKRLTGQLGYTNLQAIVGRSDLLEQVRGENLLNLCNLLQIIEHPSVTTTKDVPEKQFKTVHSADSKELVGVGVEQRVMGGLESCYRVRSKLYEATQLEPLTLKYTNGSIPGNGLGAYNSENLFIHVNGGAQDGIGKTSFGGGIYITKSKGKDGVYYNGSVGKGFGYGAQKGALYVQGNADARAGIRLSGADMIIGGRITKPLREKEQGNIGAYSNIKGFAFEYMTNGRALVLGDPGPWICAGMTGGVVYLRHDSNLGLTEQALKRRIAKGANVTLQSIRKNGLKDVTELLLDYIRVLNEHEQYEEVALLTPLLDDIQNQFFEIIPKKEQADPSISTE	PGPT0000635_3637	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
AK009_05764	1299	hemL1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase 1	GTGAAATTCACAAAATCAGAAGCATTACATAAAGAAGCTTTAGAACATATCGTTGGCGGCGTTAATAGTCCTTCTCGTTCTTTTAAAGCAGTTGGCGGTGGCGCTCCTGTTGCTATGGAACGTGGAAAAGGTGCTTATTTCTGGGATGTAGACGGAAATAAATATATTGATTATTTAGCAGCATACGGTCCTATTATTACTGGACATGCTCACCCGCACATCACAAAAGCAATTACAACAGCTGCTGAAAATGGTGTACTTTACGGAACACCAACAGCGCTAGAAGTAAAATTTGCAAAAATGTTAAAAGAGGCAATGCCTGCTTTAGATAAAGTACGCTTTGTAAACTCTGGTACTGAAGCAGTAATGACGACAATTCGTGTTGCTCGTGCTTACACAGGCCGCACAAAAATCATGAAATTTGCTGGTTGTTACCACGGTCATTCTGATTTAGTACTTGTAGCAGCTGGATCTGGTCCTTCTACACTAGGAACACCTGACTCAGCCGGCGTACCACAAAGTATCGCTCAAGAAGTTATTACTGTTCCATTTAATAATGTAGAAACTTTAAAAGAAGCGTTAGATAAATGGGGACATGAAGTAGCGGCTATTCTTGTAGAACCGATTGTTGGAAACTTCGGTATTGTAGAGCCAAAACCTGGATTCCTTGAGAAAGTGAATGAACTTGTTCATGAAGCTGGCGCACTAGTAATTTATGATGAAGTTATTACCGCTTTCCGCTTCATGTACGGTGGTGCTCAAGATTTACTTGGCGTAACACCAGACTTAACAGCTCTTGGTAAAGTTATTGGCGGCGGACTTCCAATCGGTGCTTACGGTGGTAAGAAAGAAATTATGGAACAAGTTGCTCCGCTTGGCCCTGCATATCAAGCAGGTACAATGGCAGGAAATCCTGCTTCTATGGCATCTGGTATTGCTTGTCTAGAAGTTCTTCAACAAGAAGGACTTTATGAGAAATTAGATGAACTTGGTGCCATGCTTGAAAAAGGAATTTTAGAGCAAGCTGCAAAACATAATATCGATATTACATTAAACCGCCTAAAAGGCGCTTTAACTGTATACTTCACAACAAATACAATTGAAGATTACGATGCAGCACAAGATACAGACGGTGAAATGTTCGGTAAATTCTTCAAGCTAATGCTTCAAGAAGGAGTTAACTTAGCACCTTCAAAATACGAGGCATGGTTCTTAACGACAGAACATACAAAAGAAGATATTGAATATACAATTGAAGCTGTAGGCAGAGCATTTGCTGCTTTAGCAGATAGCAAATAA	MKFTKSEALHKEALEHIVGGVNSPSRSFKAVGGGAPVAMERGKGAYFWDVDGNKYIDYLAAYGPIITGHAHPHITKAITTAAENGVLYGTPTALEVKFAKMLKEAMPALDKVRFVNSGTEAVMTTIRVARAYTGRTKIMKFAGCYHGHSDLVLVAAGSGPSTLGTPDSAGVPQSIAQEVITVPFNNVETLKEALDKWGHEVAAILVEPIVGNFGIVEPKPGFLEKVNELVHEAGALVIYDEVITAFRFMYGGAQDLLGVTPDLTALGKVIGGGLPIGAYGGKKEIMEQVAPLGPAYQAGTMAGNPASMASGIACLEVLQQEGLYEKLDELGAMLEKGILEQAAKHNIDITLNRLKGALTVYFTTNTIEDYDAAQDTDGEMFGKFFKLMLQEGVNLAPSKYEAWFLTTEHTKEDIEYTIEAVGRAFAALADSK	PGPT0003680_2636	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK009_05765	1014	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAAATCGGTAATTGAGGTACAAGGGTTACGTAAAGAATTTACAGCCTATTCAAGTCGTCCGGGTTTAAAGGGTGCATTTCGCGATTTATTAAATCGTAATTATAAAATAGTACCAGCAGTAAATGATGTATCTTTTACTGTAAAACAAGGTGAGATGGTTGGTTATATCGGTGAGAACGGTGCTGGTAAATCAACAACAATTAAAATGCTTACGGGGATTTTGACTCCGACATCAGGAGAGATTTTAGTAAATGGGATGAACCCACATAAGCAGAGAGAAGAATTTGTAAGAACCATTGGTGTTGTTTTCGGTCAACGTTCACAACTTTGGTGGGATATTGCTGTACAAGAATCTTTTCGTTTATTAAAAAAAGTGTACGGTGTATCAGACGCTCAGTATAAAGAGCATATGGAACACGTGATTGAAACGTTAGATATTGGTCCTTTATTAGATAAGCCAGTTCGAAAGTTATCTCTAGGTCAAAGAATGCGTTGTGAATTAGCGGCAGCATTAATTCATAACCCACCGTTATTATTTTTAGATGAACCAACAATTGGGCTAGATGTACTTGTGAAATTGAAAATACGTGAATTTTTAAAAGAAATGAATGAACGTTATAAAACAACAATTTTATTAACAACCCATGATATTACTGATATTGAAGCATTATGTGAGCGTGTTATCATGCTGGATGAAGGAAATATTATGTATGACGGTTCTTTAAATAATCTTCGTACGCAGTGGGGAGCAGAGAAGGAAATACATTTTCAGTTTATTGCACCAGTTTCCTATCAGGCTTTATCAATGGTTATGCCAGATAGTCATGTCGTTTGGTCGAAAGCGAAAGAGGAAAACGCGTGGGTTGCAAAAATACCGAATGAAGAAGTTATTATTTCAATGCTTATTTCTAAAGTAGTACAAGCCTTTCAAATTAAAGATTTAAAAATTAATGAAGTGTCTACAGAGGAAATTATTCGTAACATTTATGAAGAAGGTATTAAACATGGGTAA	MKSVIEVQGLRKEFTAYSSRPGLKGAFRDLLNRNYKIVPAVNDVSFTVKQGEMVGYIGENGAGKSTTIKMLTGILTPTSGEILVNGMNPHKQREEFVRTIGVVFGQRSQLWWDIAVQESFRLLKKVYGVSDAQYKEHMEHVIETLDIGPLLDKPVRKLSLGQRMRCELAAALIHNPPLLFLDEPTIGLDVLVKLKIREFLKEMNERYKTTILLTTHDITDIEALCERVIMLDEGNIMYDGSLNNLRTQWGAEKEIHFQFIAPVSYQALSMVMPDSHVVWSKAKEENAWVAKIPNEEVIISMLISKVVQAFQIKDLKINEVSTEEIIRNIYEEGIKHG				NA	NA	NA	NA	NA
AK009_05766	792			hypothetical protein	ATGGGTAAGTATATTGAAATGATTCGAATTCGCTTTTTAATGATGCTTGCGTATCGCACAAATTATTATAGCGGGATTTTAATTTATACGATTAATATCGGTGCGTATTATTTTTTATGGCAAGCAATTTATAGCGGAAAAGAGAACATTGAAAGTTTATCTATTTCGCAAATGACTACGTATATCGCAATTGCGTGGATGGCACGTGCCTTTTATTTTAATAATATAGATAGGGAAATTGCGATGGAGATTCAAGAAGGACGTGTAGCGGTAGAACTGATTCGTCCATATAATTATTTAGGGATGAAAGTGATGCAAGGTCTTGGGGAAGGGATATTTCGTTTTGCATTTTTTTCAATTCCAGGTATGGTTATCGTTACGTTATTATTTTCATTGCAAATTACAACGAATTTTCAAACGTGGTTATATTTCTTCTTGTCTCTAATATTTAGTTTTATTATTAATACACAAATTAATTTAATGACGGGAATGCTCACGTTCTTCCTATTTAATAATAGTGGAATTATGTATGCAAAACGCGTTGTTATTGATTTATTTTCTGGTCTATTATTACCGATTAGTTTTTATCCGTTATGGGCCCAAAAGGCAATGATGTTTTTACCGTTTCAAGCCATTAGTTATATTCCGAGTATGATTTTTTCAGAAGGTATACAAGGAAATAAATTGTATGAGGCATTATTATTCCAAGTAATTTGGGCGATTGTCCTTATTATTCCAATTGTACTTATGTGGAGAACGGCGAGAAAACGTCTAATTGTACAAGGGGGATGA	MGKYIEMIRIRFLMMLAYRTNYYSGILIYTINIGAYYFLWQAIYSGKENIESLSISQMTTYIAIAWMARAFYFNNIDREIAMEIQEGRVAVELIRPYNYLGMKVMQGLGEGIFRFAFFSIPGMVIVTLLFSLQITTNFQTWLYFFLSLIFSFIINTQINLMTGMLTFFLFNNSGIMYAKRVVIDLFSGLLLPISFYPLWAQKAMMFLPFQAISYIPSMIFSEGIQGNKLYEALLFQVIWAIVLIIPIVLMWRTARKRLIVQGG				NA	NA	NA	NA	NA
AK009_05767	786			hypothetical protein	ATGATATATATAAAACTATTTTTGCAATATGCAAGCCAATATATAAAAACAAAATTGGAGTATCGGGGCGATTTTATCGTTGGATTACTTTCTGATTTATCACTACAGGCTGTTAATTTAATCTTTATTCTCGTTGTGTTTGGGCATACACAAGCATTAAAAGGCTGGAGTAGAGAAGAAGTAATCTTTATTTATGGTTTCTTTTTAGTGCCGTTTGCCATTTTCTCAGCTTTCTTTAACATATGGGACTTTAATGATCGTTACATTATTAAAGGGGAGATGGATCGTATATTAACGAGACCGATTCATAGCTTGTTTCAAATTATATTAGAAAGAATGGAACTTGAGTCTTTAATTGGGGCCATTACAGGAATGATTGTAATGGGATATGCAGCTGTAGAGTTACAATTATCTTTTTACTGGTATGATTTCTTCTTATTTATATTGATGGTAGGAGGAGGCGCACTTGTATATGGAGGGATATTTGTTACGCTTGCGAGCCTTGGTTTTTGGTCAGATGCGAAAAGTTCAATTATGCCCCTTATGTATAACATAGGTAATTACGGGCGCTATCCTGTTAATATTTATAATCGTGTAATTCGTTTCATTTTAACGTTTGTTTTACCGTTTGCGTTTGTTGGAGTATATCCAGCAGCATACTTTTTAAGAAAAACAGAATGGAATAGTTATGCATTCGCGACGCCAATTGTTGGTGTTATCTGTTTTACGATTGCAATCACTCTTTGGAATCAAGGGGTAAAAAGGTACCGTGGTGCTGGGAATTAA	MIYIKLFLQYASQYIKTKLEYRGDFIVGLLSDLSLQAVNLIFILVVFGHTQALKGWSREEVIFIYGFFLVPFAIFSAFFNIWDFNDRYIIKGEMDRILTRPIHSLFQIILERMELESLIGAITGMIVMGYAAVELQLSFYWYDFFLFILMVGGGALVYGGIFVTLASLGFWSDAKSSIMPLMYNIGNYGRYPVNIYNRVIRFILTFVLPFAFVGVYPAAYFLRKTEWNSYAFATPIVGVICFTIAITLWNQGVKRYRGAGN				NA	NA	NA	NA	NA
AK009_05768	405			hypothetical protein	ATGTTATGGGGATTTATTCTATTACTTGCAGCAATCGCTATTTTGAAAAGTGTCCAATTATTATGGAGTTCCTATTCAGATTCAACGCGTTTTTTTTCGCTGTATAATTTGGCCACATTATTTTTAATCTATACAACAGTACTGATCGCGTTTGGATTAAGTTACGTTGTATTAGAGGAAATGGGTTTCGCAGTTTTGAAAGAGGACGGAGAAAGTTTGAACGCTCATTCTTTTCAACTCGTTGAAGTTTGTTTATATTTTAGCGCAGTTACTTTATTGTCTGTTGGATATGGTGACATATCTCCGATTGGAATTGGGCGATGGATTGCAATTGCAGAAGCGCTAATTGGATATACACTCCCTTTTGCTTTTGTGATGAGGTCTGTAATAGACAATGAAAAATAA	MLWGFILLLAAIAILKSVQLLWSSYSDSTRFFSLYNLATLFLIYTTVLIAFGLSYVVLEEMGFAVLKEDGESLNAHSFQLVEVCLYFSAVTLLSVGYGDISPIGIGRWIAIAEALIGYTLPFAFVMRSVIDNEK	PGPT0013815_70	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013815-lctB-K08713	NA	NA
AK009_05769	456	bcp	COG1225	Putative peroxiredoxin bcp	ATGATTACAGTAGGAGAAATGGCACCAGAATTCACATTAGAGGGAAGTAACGGAGAAGAAGTTAGCCTAGCTGATTTCCGCGGTAAAAATGTAGTTCTCTATTTTTACCCGAAAGATATGACGCCAGGATGTACAACTGAAGCATGTGATTTTCGTGATGCGTATGGAGTATTTCAAGAGAAGGATACGGTTATTCTTGGAGTAAGTCCTGATTCAGCGAATAGACATTTGAAATTCATTGAGAAACATGAATTGCCATTTACACTTTTAGTAGATGAAGATCATAAAGTAGCAGAGTTATATGATGTTTGGAAGCTGAAAAAGAACTTTGGGAAAGAGTATATGGGAATCGAGCGTTCTACATTCCTTATTAATAAAGACGGTGAACTTGTAAAAGAGTGGCGTAAAGTGAAAGTGAAAGGACATGTTGAGGATGTTCTTTCTTATATAAAATAA	MITVGEMAPEFTLEGSNGEEVSLADFRGKNVVLYFYPKDMTPGCTTEACDFRDAYGVFQEKDTVILGVSPDSANRHLKFIEKHELPFTLLVDEDHKVAELYDVWKLKKNFGKEYMGIERSTFLINKDGELVKEWRKVKVKGHVEDVLSYIK	PGPT0013120_5089	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
AK009_05770	435	perR	COG0735	Peroxide operon regulator	ATGACGGTGGTCAAAGAAGAATTAAAAGAAGCGCTAGAAATGCTGAAAAATACGGGTGTACGCATTACTCCACAGCGTCATGCTATTTTAGAGTACCTTGTGGAATCAATGACGCACCCAACAGCGGATGACATTTATAAAGCATTAGAAGGTAAGTTTCCAAATATGAGTGTTGCAACTGTCTATAATAACTTACGTGTATTTAAAGAGGTTGGACTTGTAAAGGAATTAACTTATGGAGACGCTTCAAGTAGATTTGATTATGTTACAAGTCAACATTATCATGTGATTTGTGAAAAATGTGGTAAGATTGTTGATTTTCCTTATGGAGGTTTGGAACAACTTGAAGAGGAAGCTGCAAAAACGACAGGCTTCGTTATTAATAGTCATCGCTTAGAAATTTATGGCGTTTGTCCAGAGTGTCATAAGGCGTAA	MTVVKEELKEALEMLKNTGVRITPQRHAILEYLVESMTHPTADDIYKALEGKFPNMSVATVYNNLRVFKEVGLVKELTYGDASSRFDYVTSQHYHVICEKCGKIVDFPYGGLEQLEEEAAKTTGFVINSHRLEIYGVCPECHKA	PGPT0012945_588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825	NA	NA
AK009_05771	420			hypothetical protein	TTGAAGAAATATGAGATTAAAAGTGACATTCCAACATTGGAAGAATATAAATATTTATGTGATTCTGTGGGATGGACTAATTATATGAACTTTGAGGTGGCGGAAATATCACTTCAAAATTCGATTTACTGTATAACAGTCAAGGATAATAATCAAATCATTGGCATGGGGAGAATTGTTGGTGATGGGGCTATCTATTTCTATATTCAAGATATAGTGGTTCATCCAGAGTATCAAAAGAATGGTATTGGAAAGAAAATAATGAATACTTTAGTAGAATACTTAAATCAGAATGCTCCAGATAAAGCATTCATTGGTTTGTTTGCGTCGCAAGGTAAAACGTCATTCTACGAAAAATATGATTTTAAAGATTATTCGCCTAACATGACAGGGATGTTTACTGTTATTTCGAAAAAATAG	MKKYEIKSDIPTLEEYKYLCDSVGWTNYMNFEVAEISLQNSIYCITVKDNNQIIGMGRIVGDGAIYFYIQDIVVHPEYQKNGIGKKIMNTLVEYLNQNAPDKAFIGLFASQGKTSFYEKYDFKDYSPNMTGMFTVISKK				NA	NA	NA	NA	NA
AK009_05772	357			hypothetical protein	ATGAGCATTAAGTATTCAAATAAAATCAATAAAATCCGGACCTTTGCATTAAGTTTAGTATTTATCGGCCTCTTCATTGCATACTTAGGTGTCTTTTTCCGCGAAAACATTATTGTTATGACAACGTTTATGATGGTTGGCTTTTTAGCTGTTATCGCTAGCACTGTCGTTTACTTTTGGATTGGTATGTTATCTACTAAGACTATCCAAATTATTTGTCCAAGCTGTGATAAGCCAACAAAAATGCTCGGCCGTGTCGATGCATGTATGCACTGCAATCAACCTTTAACACTAGATCGAGATCTAGAAGGAAAAGAATTTGATGAAAAGTATAATAAGAAGAGTTATAAATCATAA	MSIKYSNKINKIRTFALSLVFIGLFIAYLGVFFRENIIVMTTFMMVGFLAVIASTVVYFWIGMLSTKTIQIICPSCDKPTKMLGRVDACMHCNQPLTLDRDLEGKEFDEKYNKKSYKS				NA	NA	NA	NA	NA
AK009_05773	318	sufT		Fe-S protein maturation auxiliary factor SufT	ATGTCACAAGAAGCATTTGAAAATAAATTATTGGATAATTTAGAAGCTGTTATTGACCCTGAACTAGGTGTTGATATCGTTAATCTTGGATTAGTGTATGATGTTACAGCAGATGAAAATAATAATGCTGTCATTACGATGACTATGACTTCTATCGGTTGTCCAATGGCTGGGCAAATCGTATCAGACGTTAAAAAAGTATTATCAACAAACGTACCTGAAGTTAATGAAATAGAAGTAAATGTCGTTTGGAATCCACCGTGGTCGAAAGAACGTATGTCACGTATGGCGAAAATCGCATTAGGTATTCGCGACTAG	MSQEAFENKLLDNLEAVIDPELGVDIVNLGLVYDVTADENNNAVITMTMTSIGCPMAGQIVSDVKKVLSTNVPEVNEIEVNVVWNPPWSKERMSRMAKIALGIRD				NA	NA	NA	NA	NA
AK009_05774	1692			hypothetical protein	ATGAATTTTGTAAGTATCAGAAAAAAACTTATGTTCATGATGGGAACGATTTGCGCTTTATTCGGTATCGCCTTAGCATTTATTTTATTTTTTGCTATTGACCAATCTCGTAAAGCTGAAACATTACAAAAAGAAATTTCTCCACTGGCAACAGAATTGAAAGAACGTGGAGATGCTTATCAAGTACAGCTCTCTGCTTTAAGAGGTTATTTACTACAACATGATCAAGTCGAATTAGACAAGTTTAATGAGATGAGTAAACGTCTTGAGGATTCAAAAGATAAACTTCTTTCTAATCCAAATCTTTCTTCGTCCGTAAAAAGCACAATGGAATTAGGGTCTACTTGGAGAAAGTTCGTTGAAGAAAAAGTATTCACTCTTGCAAAAGAACAAAAATGGGAAGAAGCTTTACAAGTAGCTTCTTCAGAAAACGGAACTGTCTATAAAGTAATTGGTGACTTCACAAATTATAGTAATGAACAAGCTACATTACGTGAACAATCTATTGAAAAAATTGACCAATCTGCACTCTTAATCGAATATGTTATTTTCTTATCACTTGTTATTTGTATTGTCGCTGCAATTATTCTTGCATGGTGGTTCTCTGGTAAACTTGTGAAACCAATTCAACAAATTGACACGAAACTAAAAGAGTTAGCTTCTCAAGAAGGTGACTTAACGGCACGTCTACAAGTAAATAGCAACGATGAAATCGGTGCTATCGCAGCATCATTTAATAAAATGTTAGAAAACCTACAACATATTATTAATCGTGTTCAAAAAACATCAGTGGAAGTACAAACCGCTTCTGAAAACATGCTAGAAAAAACGAATACATCACGTGAGGCGACAGTAAGAGTCCAAAGCTCAATGTCTAACTTAAACGCAAGTATTCAATCACAAGCTTCTAGTATGGAAGAAAGTTCAACTGCAATGGACGATATGGCAGTAAGTGTTCAACGTATTGCTGAATCTGCTTCATCTGTAGCGGAACTTGCTGTTGCCACATCTGAACATGCTAGCGATGGAAGTACCGTTATCCAAAAATCCGTTTCACAAATGACAACGATACACGAAGCTGTAAATGCTACGTCAGAAGTGGTTGAACGTCTAATCACTCATACGAAATATATCGATACCGCTGTACAATCTATTTCTAATATCGCTGAGCAAACAAACTTACTTGCTTTAAATGCTTCTATTGAGGCAGCTCGTGCTGGCGAGCAAGGAAAAGGATTTGCTGTCGTAGCTGACGAAGTTCGAAAGCTTGCTGAACAATCTAAAACAGCTGCAACAGACATTAATCAATTACTACATCAAATTCAAAATGATACAGAAACTGCTAGCTCTATGATGTCTCAAGGCCGTTCTGAAGCATTTGAAGGCATTCATGTTATTCGTGAAGCTGGTACTTCTTTCACAACAATTGTAGAACAAGTAAATAAAGTATCTACTCAAATGCAAGACATATCAGCAACTGCTGAAGAGATGGCTGCAAGTGCTGAAGAAATGAATGCTTCACTTAATAACATCGCTTCTATCTCGACTGAAGTATCCAGCGAAACCGCCGCAACGGCACAATCTGCTGAACAGAAAGTTATCGTTATGAATGAAATGACAGTAACTGCTGGAAAAATGAAACAAACAGTTGAAGAGTTAGATCAACTCGTATCTCATTTTAAAACAGAATAG	MNFVSIRKKLMFMMGTICALFGIALAFILFFAIDQSRKAETLQKEISPLATELKERGDAYQVQLSALRGYLLQHDQVELDKFNEMSKRLEDSKDKLLSNPNLSSSVKSTMELGSTWRKFVEEKVFTLAKEQKWEEALQVASSENGTVYKVIGDFTNYSNEQATLREQSIEKIDQSALLIEYVIFLSLVICIVAAIILAWWFSGKLVKPIQQIDTKLKELASQEGDLTARLQVNSNDEIGAIAASFNKMLENLQHIINRVQKTSVEVQTASENMLEKTNTSREATVRVQSSMSNLNASIQSQASSMEESSTAMDDMAVSVQRIAESASSVAELAVATSEHASDGSTVIQKSVSQMTTIHEAVNATSEVVERLITHTKYIDTAVQSISNIAEQTNLLALNASIEAARAGEQGKGFAVVADEVRKLAEQSKTAATDINQLLHQIQNDTETASSMMSQGRSEAFEGIHVIREAGTSFTTIVEQVNKVSTQMQDISATAEEMAASAEEMNASLNNIASISTEVSSETAATAQSAEQKVIVMNEMTVTAGKMKQTVEELDQLVSHFKTE	PGPT0015710_16929	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
AK009_05775	1695			hypothetical protein	ATGAAATATGTTAGTATTCGAAAAAAACTACTGTTCACACTCTTAAGCATTTCTTCTTTATTTAGCATTGCTCTTATTGTTATTCTTTCATTCGCCATGAATCAAGCAAGTGAAATCGAAACGTTAAAAAATGATGTATCGAAAAGAGCGACGATTTTAAAAGAACGTGGCGATTGGTTCCAGGCACAAGTTGCTGGTTTACAAGAATATTTGCTATCACATGATCAAAAAGGATTAGATAAGTTCAACCGAGAAGGGAAAAAATTAGCTGATACTAGAGAGAAAGTAACAAGTGACAAGAAGCTCCCAGAAGGAATGAAAGAAGCCATTTTAATGGGAGGAAAATGGCGTAGCGTCATAGATAATGAGGTACTACCTCTTGCGCATGAAGGAAAATGGGACGAAGCATCTAAAATTGCTTTAGCACAAACAGATTATGTAAATGATCTGTTAGGTCGTTTTAATAAATATACAAATGAAGAGAATGAGAAACGTGACGCATTAATTGCTGACGTCGAGTCTTCTTCATCACTTATTCAATATATTATTTTCTTCTCACTCATTACATGTACATTAACGTCTATTTTATTAGCATGGTGGTTCTCTGGTAAACTCGTTAAACCAATTCGACAAATTGATGAGAAGTTGAAAGAATTAGCTTCTCAAGATGGAGATTTAACGGCTAGATTACACGTAACGAGTAAAGATGAAATTGGTGACATTGCAAATTCCTTTAATCAAATGCTCACTAACTTACAGCATATAATAAAACAAGTTCAACAAACATCAACAAGTGTAAAAGAAGCTTCCGAAAATGTATTTATCGAAACAACCGCTTCTATGGAAAATACCGCAAGGACACAAGAAACTATGAATGCTCTTGAACACAATATTCGTTCACAAGTTTCTAGCATTGAAGAAAGTTCAACCTCAATGGATGACATGGCAACGAGTGTTCAGCGTATTGCTGAGGCCGCCTCTTCTGTTACTAGTTTAGCTGTCACAACCTCAGAAAAAGCAGATGATGGGAATAAAGTCATTGAGAAATCTATTACACAAATGCATACAATTAACGAAGCTGTTAACGCTACATCACAAGTAGTTGAGCGACTCATTACACATACAAATCATATCGATACTGCACTTCAATCTATTTCTAATATCGCCGAGCAAACAAATTTACTCGCTTTAAATGCTTCTATTGAAGCAGCTCGTGCTGGTGAACACGGCAAAGGATTCGCTGTTGTTGCTGATGAAGTTAGAAAACTTGCTGAACAATCTCAACTAGCCGCAACTGACATTAACCATTTACTGCATCAAATTCAAGCCGATACAAAAATAGCAAATGACATGATGACACAAGGTCAAGCAGAGGCTTCTGAAGGAATTACGGTTATTCGTACCGCTGGATCTTCATTCTCAGAAATTGTTAACCACATTAACAAAGTCTCTACGCAAATGCAAGAAATGTCTGCAACTGCTGAAGAGATGGCTGCAAGCTCTGAAGAAATGAACGCAGCTTTAAATAATATCGCTTCTATTTCAAACGAAGTTGCTGCAGAAACATCACAAACAGCACATTCGGCTGGTGATCAAGTAAACAAAATGAGTATCGTGGCTAACAAATCATCTGAAATGAAAACCATCGTACAAGAACTTGAAATTCTCGTTTCTCATTTCAAAACAAACGCTTAA	MKYVSIRKKLLFTLLSISSLFSIALIVILSFAMNQASEIETLKNDVSKRATILKERGDWFQAQVAGLQEYLLSHDQKGLDKFNREGKKLADTREKVTSDKKLPEGMKEAILMGGKWRSVIDNEVLPLAHEGKWDEASKIALAQTDYVNDLLGRFNKYTNEENEKRDALIADVESSSSLIQYIIFFSLITCTLTSILLAWWFSGKLVKPIRQIDEKLKELASQDGDLTARLHVTSKDEIGDIANSFNQMLTNLQHIIKQVQQTSTSVKEASENVFIETTASMENTARTQETMNALEHNIRSQVSSIEESSTSMDDMATSVQRIAEAASSVTSLAVTTSEKADDGNKVIEKSITQMHTINEAVNATSQVVERLITHTNHIDTALQSISNIAEQTNLLALNASIEAARAGEHGKGFAVVADEVRKLAEQSQLAATDINHLLHQIQADTKIANDMMTQGQAEASEGITVIRTAGSSFSEIVNHINKVSTQMQEMSATAEEMAASSEEMNAALNNIASISNEVAAETSQTAHSAGDQVNKMSIVANKSSEMKTIVQELEILVSHFKTNA	PGPT0015710_16572	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
AK009_05776	819			hypothetical protein	TTGAACCAAAAACAACTAAGCACTATTAATGAAAAAAGCTGGAATACAGCTGCTTATGAAGCTTGGACGAATCGCCATGGGGCACCGGAGGATTATGCGAAAAAAATCATGGAAGACCCTATGCGCGAGGTAGATCACTATTTACCTTACATACAATCTCCGAAAGGAAAACATATTATTAATTTACTAGGATCAAAAGGGAATAAGGCCGTTGCTCTCGCCCTTTTAGGCTCTGACGTAACAGTTGTTGATATTTCAGCAAGTAATGCAAAATATGCAAATGAACTTGCTGCCGCCGCAGACGTCTCTATTCATTACATCGTTTCTGATGTACTAGATGTAAATCTCTCCAAATCATTTGATATCGTATTACTGGAGCTTGGTGTACTTCATTACTTTCTAGATTTAAAACCACTTTTCAAAAAAATTTCTCAACTACTAAAGCCAGGTGGAATACTTATCCTTCGCGATTACCATCCAATATACACAAAGCTATTAGGAGTAGACCACCCATCGTTTCGAGCAAGTGGAAATTATTTCGATGAAGAATTGATTGAAGATGATGTTGCTTATAGCATTCTTCTTACAGAAGCGCAGAAAGAATCGTTACCGAAAACAACCATCCGTCGCTGGACATTAGGAGAAATTATTACAACACTCGCCGAAGAACATTTTAAGATTGAAAAACTAATTGAAGAACAGGGACCTCATCAAAAGTGGGTCTTCCCTTCTACTGCCCCAGAAGGAATTGAAGAACAAATACCCGGTCTATATACAATAATTGCGCGAGCATGCAAAAAAGGATCCCTTCACGGATAG	MNQKQLSTINEKSWNTAAYEAWTNRHGAPEDYAKKIMEDPMREVDHYLPYIQSPKGKHIINLLGSKGNKAVALALLGSDVTVVDISASNAKYANELAAAADVSIHYIVSDVLDVNLSKSFDIVLLELGVLHYFLDLKPLFKKISQLLKPGGILILRDYHPIYTKLLGVDHPSFRASGNYFDEELIEDDVAYSILLTEAQKESLPKTTIRRWTLGEIITTLAEEHFKIEKLIEEQGPHQKWVFPSTAPEGIEEQIPGLYTIIARACKKGSLHG				NA	NA	NA	NA	NA
AK009_05778	1635	metG_1	COG0073	Methionine--tRNA ligase	ATGAGTATTTTTATTGGAGGCGCTTGGCCGTATGCAAATGGCTCGTTACATCTTGGTCATATTGCGAGTTTGTTACCTGGAGATATTTTAGCACGTTATTACCGGGCAAAAGGTGAGAATGTGTTGTATGTTTCGGGCAGTGATTGTAATGGAACACCGATTGCAATTAGAGCAAAACAAGAAGGTGTGACAGCAAAAGAAATTGCTAATAAGTACCATGAAGAATTCCAGCGATGTTTTCGTGATCTCGGTTTTACGTATGATTGCTATACACGTACCGATAGCGAGCATCATCATGAAACTGTTCAAAAAGTTTTTTTACGTTTATTGGAAGAAGGCTATATTTATAAAAAAACAGTGGAACAAGCGTACTGTAAAACGTGTACGCAGTTTTTACCGGATCGTTATGTAGAAGGAATATGTCCACATTGCCATGAAGCAGCAAGAGGCGATCAATGCGATGCGTGTTCAGCTATTTTAGATCCACTCGATTTGTTAGAAAAGACATGCAAGTTATGTGGTAGTACACCATCTGTAGAGGAAACAGAGCATTTTTATTTTGCATTGCATACATTTCAGCAGCAAATTAAAAAAGTTGTAGAAATCGCAAAAGAAAAAGGAACATGGCGTGATAATGCAATTCAATTAACGGAAAGATATGTAAAGGAAGGCTTACAAGATAGGGCTGTATCAAGAGATTTACCAATCGGGGTACCAATTCCAGTGAAAGGGTATGAAGATAAGAAAATTTACGTATGGATAGAAGCAGTGGCAGGATATTATTCAGCGAGTAAATATTGGGCTGAAGAAACAGGAAAAGATGATCATGAGTTTTGGAATAGCGATGCGCAAACATATTATGTACACGGCAAGGATAATATTCCATTTCACTCCATCATTTGGCCAGCGGTTTTACTTGGAATAGGAGAGGAAGCAATCCCGCGTCATATCGTTTCGAATGAGTATTTAACAGTTGAAAAAAGAAAGTTATCTACGAGTAAAAACTGGGCAGTATGGGTGCCTGACATATTAGAACGTTACAATCCAGATTCTATTCGTTACTTTTTAACAGTAAATGCACCAGAAAATCGTGATACTGATTTTTCATGGCGTGAATTCATTTACAGTCATAATAGTGAACTGTTAGGTGCATACGGGAACTTCGTGAACCGGACATTAAAGTTTATTGAAAAATATTATGATGGCATTGTGCCGCAGGGAACTATCAATGTAGAACTGAAGGATAAAGTAGAAGGATTATATAAAAATGTAGGAGAGGCGATTGAGCAAACTACATTTAAGGTGGCGCTAGAAACAATATTCGATGCCGTACGTTTTGCAAATAAATACTTTGATGAGAGGCAGCCTTGGAAAGAAAGAGAAGATAATCCAGTTTCATGTGAAGAAACGATTTATAATTGTATTTATCTTATTGCTAATTTTGCAAATCTCCTTGAACCATTTTTACCATTTTCAAGTGAAAGAGTTCGAAGCACATTGTCGATTGTGAACCGAAATTGGGAACCGCAAAATACGTTGCCGAATAGAATTGATAGCGTGCAGCCATTATTTGAGCGAATCGATGTAAAACAAATTGAGCATGAGATAGAGAAGCTGTATGTAGCGGCAAAATGA	MSIFIGGAWPYANGSLHLGHIASLLPGDILARYYRAKGENVLYVSGSDCNGTPIAIRAKQEGVTAKEIANKYHEEFQRCFRDLGFTYDCYTRTDSEHHHETVQKVFLRLLEEGYIYKKTVEQAYCKTCTQFLPDRYVEGICPHCHEAARGDQCDACSAILDPLDLLEKTCKLCGSTPSVEETEHFYFALHTFQQQIKKVVEIAKEKGTWRDNAIQLTERYVKEGLQDRAVSRDLPIGVPIPVKGYEDKKIYVWIEAVAGYYSASKYWAEETGKDDHEFWNSDAQTYYVHGKDNIPFHSIIWPAVLLGIGEEAIPRHIVSNEYLTVEKRKLSTSKNWAVWVPDILERYNPDSIRYFLTVNAPENRDTDFSWREFIYSHNSELLGAYGNFVNRTLKFIEKYYDGIVPQGTINVELKDKVEGLYKNVGEAIEQTTFKVALETIFDAVRFANKYFDERQPWKEREDNPVSCEETIYNCIYLIANFANLLEPFLPFSSERVRSTLSIVNRNWEPQNTLPNRIDSVQPLFERIDVKQIEHEIEKLYVAAK				NA	NA	NA	NA	NA
AK009_05779	255			hypothetical protein	ATGACTATTTTAAGCATCGTATTTTTTGCTATTATGTGTATCTTCTTCCTAATAAGATATATGAAAGAAAAGAAATTTTACGATTTACTTCTCATTCCCGTTTGTATATATGCAGGAGCAGTGAAAACTCCTTTCGTAGAGTACTTAAACTTTAATACTACATTTAAAATAACGTATGATATTGCAGCTATTATTCTTGTAATCCTTGCTGTACTTTTCTTTTTGAAAGATAAGAAAGAGAATCATACTGCATAA	MTILSIVFFAIMCIFFLIRYMKEKKFYDLLLIPVCIYAGAVKTPFVEYLNFNTTFKITYDIAAIILVILAVLFFLKDKKENHTA				NA	NA	NA	NA	NA
AK009_05780	903			hypothetical protein	ATGGATAAGTTTAAATATTCATTGCTCGTTTTATTCGGTGCTTGCAGCTACGGCATACTTTCAACTATTTTCAAACTCGGATTCCTAAGTGGATTTTCAGCACATCAACTATTAGGGGGACAATATGTCTTCGGATGGATTGGACTATTTCTACTCGTTCTTTTCTTTTCACGTCATAAAGTAACAAAAAAACAATTCTTTTCATTACTAACCGTCGGAACAACAATGAGTATGACTGGAATTTTCTACGCTATTTCTGTAGAAGAGCTACCCGCATCTATCGCTGTCGTCCTACTCTTTCAGTTCACTTGGATTGGTGTCATTATCGAAGCAATTGCAAATCGAATATTTCCAAGCCGCGATAAGATCATATCTATCCTTATTTTATTTGCTGGTACATTGTTTGCAGGTGGTATATTTGAAGGCCTCGGACAAAGTTTTTCTACGAAAGGGATTATCTTTGGACTATTAGCTGCTGTCTCTTTTTCATTCTATGTTTTTGCAAGCGGACGCGTTGCTACAGATGTTCCCCCTTATACGAAAAGCTTTCTTATGACAACAAGTGCAACTCTTATCGTATGCCTATTCTTCCCGCCGACCTTTTTAACAGATGGTGCCCTGCAAGCTGGTCTATGGAAATATGCTTTCTTCCTCGGATTATTCGGCGTTGTTGTACCTGTCATTTGTTTTTCAATCGGTGTACCAAAAGTTGGAACAGGACTTAGCACGATATTAGGTGCAGCTGAATTACCAACTGCTATTATCGCTTCTATTACACTTGTACATGAAGTCGTAACCTTCATGCAGTGGATTGGAATTATTTTTATATTGCTTGGAATTTTCACTCCCCAGCTGCTTACGGCTAGGAAAGAAAGGAAACATAATCGCGTGCATAGCGCTTGA	MDKFKYSLLVLFGACSYGILSTIFKLGFLSGFSAHQLLGGQYVFGWIGLFLLVLFFSRHKVTKKQFFSLLTVGTTMSMTGIFYAISVEELPASIAVVLLFQFTWIGVIIEAIANRIFPSRDKIISILILFAGTLFAGGIFEGLGQSFSTKGIIFGLLAAVSFSFYVFASGRVATDVPPYTKSFLMTTSATLIVCLFFPPTFLTDGALQAGLWKYAFFLGLFGVVVPVICFSIGVPKVGTGLSTILGAAELPTAIIASITLVHEVVTFMQWIGIIFILLGIFTPQLLTARKERKHNRVHSA				NA	NA	NA	NA	NA
AK009_05781	1443	rcsC_11		Sensor histidine kinase RcsC	TTGGCTACAAAATCGAATCGTAGCAAAGACAACATCACCAAAAATATTTTCATCAAAACCTTATTATTTTGTATTCTTTTATCACTTTGTCTTTATCAAATTATTTACTTTCTAGCTTCAAACTACGATAAAGAACATTTTGCGAAAGAAAATGGAACGCCGACTACAGAACAGGCGGATTTAGATAAGCAAAACAATCAAAGTAAAACGAATCAAAATAAAGCTGTGTCAGAGGGAAGTATTTCCAATTTCCAATCTTCTATTATAGATTATAAATCTCTTTCTACAGCTATCAATCACCTTTTGCAGCCTAGCCAAACTGCAAAAGCAAAAGAACATACACAAAACCTTTCGGGGAAAAATAGCACTTCTAATCCGCTTACAGAAGCAGAAAAGAAAGCCGCTAATAATGATGCCTTACATACACAAAATGCAGCAAGTAAAATAAATGATATAAATGATAATCCAAAGTTAGCAGATGCGTTGCAGCAATTAGCTCCACATATTGGCGCGACAATGCTTGCATTATCACTACTCGGATCTTTAATTTATACAAAACTAATTGCCAAACCTTTTCAATATATGAGCGATGCTTTAAAAGATATTATGAATCTTGATTTCTCAGATAAAAAACTACTTAACAAAAATACAGATCAAACAGATTTTAATTTGCAAGTAGCCGCTTCACAAGTACCAAATATTGTGAAGAATTTACATGCAAGCAATCAAGATTTAAGAAATGAGCTCAAAAAGGAACAACAATTAGAGCAATCTCGTAAAGAATTTATGTCTATGGTATCCCATGAATTAAAAACACCAATCGCAGCCGTTATGGGACAACTAGATGGCATGATTCACGGAATTGGAGCTTATAAAGATAGAGATAAATATTTAAAACGTTCCTATGAAATGATGCAAGATATTAACATATTAACGGAAAAAATGTCGGAATTATCCAAAATACAAAACCCTCAATTTAAACCGAATTTAGAAGTCATTTCTTTATCTAATATTATTGAGGATGTTATGAAGAAAGTAGATTACTTTGTATCTGTAAAACAATTAAATGTACAATCTAATATTAAACACGACGTACAAATTTTAGCTGATCCTAAATTTATTCAAACTGCTATTTTTAACATTATTTCAAATGCAATTCATTATACAATTGACCACCAGCACGTATATATAAAGCTTTATGAAAAACCAAACGGTTACGCATTAGAAGTATTAAATACAGGTTCACAAATTGATGAAGATAAACTTGCTCATTTATTTGAGCCTTTCTATCGTGCAAACCCTGATAAACACGGTTTAGTACAAGGTAGCGGTCTTGGATTATATATCGTGAAACAAATATTAGATAAACATCAATTTCCTTACGGAATACAAAACACAGCTCAAGGTGTAAAATGCTCCATTGTATTCCCAAAAGCAATGTAG	MATKSNRSKDNITKNIFIKTLLFCILLSLCLYQIIYFLASNYDKEHFAKENGTPTTEQADLDKQNNQSKTNQNKAVSEGSISNFQSSIIDYKSLSTAINHLLQPSQTAKAKEHTQNLSGKNSTSNPLTEAEKKAANNDALHTQNAASKINDINDNPKLADALQQLAPHIGATMLALSLLGSLIYTKLIAKPFQYMSDALKDIMNLDFSDKKLLNKNTDQTDFNLQVAASQVPNIVKNLHASNQDLRNELKKEQQLEQSRKEFMSMVSHELKTPIAAVMGQLDGMIHGIGAYKDRDKYLKRSYEMMQDINILTEKMSELSKIQNPQFKPNLEVISLSNIIEDVMKKVDYFVSVKQLNVQSNIKHDVQILADPKFIQTAIFNIISNAIHYTIDHQHVYIKLYEKPNGYALEVLNTGSQIDEDKLAHLFEPFYRANPDKHGLVQGSGLGLYIVKQILDKHQFPYGIQNTAQGVKCSIVFPKAM				NA	NA	NA	NA	NA
AK009_05782	666	regX3_4	COG0745	Sensory transduction protein regX3	ATGACGCATATACTGGTGATTGAAGACAACCCAGATATACAAGAACTAATTCGTGAATTTCTAATGGCACAAAACTTTACTGTTGATGTAGTTGGTGCTGGAACAGAAGGTATTCTTCTTTTCCAAAAAAATTCATACGATCTTGTCCTCCTCGATGTAATGTTACCAGATATAGATGGCTATAGTATTTGTAAAATTATGCGAGGACAATCTGATGTACCAATCATTATGTTAACAGGCTTACATAATGAAGAAAGTGAAATTAAAGGATTTGAGTTAGGTATTGATGACTATATTACGAAACCGTTCCATTACACTGTATTTATTAAGCGTGTAGAGGCTGTATTAAGAAGGGCAGCAACGAAGGAAGCAGAAGCTGCAACTATACTACAATTCCATGAATTGATGTTAAACTCTACAGCATATGCAGCTTATGTTCATGGTAATCAAATTGAATTGACAACAAAAGAATTTGAAATTATTTATACTTTACTGCAAAATCGAGGAAAAGTATTATCAAGAAGTGATTTGTTGAATAAGGTATGGGGCTATGAACATTATGGTGATGTAAGAGTTATAGATACACATATTAAAAACTTAAGAAAAAAATTAGGAATTACTTATATTAAAACGGTGAAAGGCATTGGCTACAAAATCGAATCGTAG	MTHILVIEDNPDIQELIREFLMAQNFTVDVVGAGTEGILLFQKNSYDLVLLDVMLPDIDGYSICKIMRGQSDVPIIMLTGLHNEESEIKGFELGIDDYITKPFHYTVFIKRVEAVLRRAATKEAEAATILQFHELMLNSTAYAAYVHGNQIELTTKEFEIIYTLLQNRGKVLSRSDLLNKVWGYEHYGDVRVIDTHIKNLRKKLGITYIKTVKGIGYKIES	PGPT0028460_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028460-vanRB|vanR|vanRD-K18344	NA	NA
AK009_05783	462			hypothetical protein	ATGAAAAAATTATTATTAAGCGCACTATTATCATTAGGATTTTTAACTCTTCCATTCGCTAGCGCAGAGGCCGCTACAACGAAAGATCAATTAATCGTAAACACTCAGTTAAATAAAATGGATTATTATCAGGATGGAAAATTTATAAAAAGTTTTGCTGTCGCTACTGGAAAAGCAGCAACACCTACACCTAAAGGAACTTTTCAAATCGTAAATAAAATTAAAAACCGCCCTTATTATACAGGCAAAATTAAAGGCGGCGATCCACGGAATCCACTTGGTGACCGTTGGCTCGGATTAAATATGGCAGGAACTTACGGAACAACTTATGCGATTCACGGAACTAACAATAATCAAGCAATCGGCAAAGCAACAACACTTGGTTGTATTCGTATGTATAACAATGATATACACTGGTTATTTGAGCGCGTTCAGCAGCAAGCTACTGTCACTGTAAAATAG	MKKLLLSALLSLGFLTLPFASAEAATTKDQLIVNTQLNKMDYYQDGKFIKSFAVATGKAATPTPKGTFQIVNKIKNRPYYTGKIKGGDPRNPLGDRWLGLNMAGTYGTTYAIHGTNNNQAIGKATTLGCIRMYNNDIHWLFERVQQQATVTVK	PGPT0023745_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
AK009_05784	429			hypothetical protein	ATGCACGATTTTATTAATACAAATGTTGAATCTCATCAAAATGAAACCGTTTTTAATTTACACATGTGTGAAACAAGTGAATTTGACGTAAGTTTAACAAAATCTACAACACTATCTTTTATCGTTTCAAAAAAGAATATTAAAATTGTCACGAAAAAATGGATTAATTCAAATCAAGAAAGCATGATTGGCAAAAGCTACATCATTCCAACAAAAGCTTTTCATTATTTCTTACCAATCATTTCTGAAAATGAAGATGAGCTAAATATTCAAGTTCAAAGTTTTGGACTACGTGGTGAGCTTTTATTAAATGAAAGATTACTTATTGATAAAAACAACAAACACAACAGCAAAATCACTGCATTCTTTGAAACATTAGATGAAAATGTAAATAAAGCTTTACGAGGATTACAACTTCATTGTATGTAA	MHDFINTNVESHQNETVFNLHMCETSEFDVSLTKSTTLSFIVSKKNIKIVTKKWINSNQESMIGKSYIIPTKAFHYFLPIISENEDELNIQVQSFGLRGELLLNERLLIDKNNKHNSKITAFFETLDENVNKALRGLQLHCM				NA	NA	NA	NA	NA
AK009_05785	615	dedA	COG0586	Protein DedA	ATGGAATGGATTCATGAATTATTTCAGCAATACGGGTACTATGTTGTACTTGTCGGCTTGCTGTTAGAATATATTGCACTTCCGTTTCCGGGAGAGCCCACATTAGCATATGCGGGATTTTTAGCGCAGAAGGGTGATTTAAGTTTACCGATTTTAATCATTCTATCCTTTATTGGGACAAGTGTAGGAATGACGATTCAATACTTTTTAGGAAATAAATTAGGTATGCCTTTCATTCAAAAGTATGGAAAATACGTATTTTTAACACAAAGAAAAATTGATTTAACGAGAATGTGGTTTGATAAGTATGGGTACTTCCTGATTTTTATTGGTTTCTTTATTCCTGGTGTACGTCATTTCACAGGATACTTTGCAGGAATTATTAATTTACCATTCCGTCGTTTTGCCATTACAATTTATTCAGGCGCTCTATTTTGGGTATCATTCTTCTTAATCGGTGGTTACTGGTTAGGTGGAAACTTACATGACATCTTTGGAGTGCTAGAAGATCATATCGGTAAAATCATTGTTGGAGTTATCGTTATCGTAGCAATTACGTTAGGTGTTCGTTTCCGCAAACAGTTAAAACGAGTATTACTACAAAACGCAAGCTAA	MEWIHELFQQYGYYVVLVGLLLEYIALPFPGEPTLAYAGFLAQKGDLSLPILIILSFIGTSVGMTIQYFLGNKLGMPFIQKYGKYVFLTQRKIDLTRMWFDKYGYFLIFIGFFIPGVRHFTGYFAGIINLPFRRFAITIYSGALFWVSFFLIGGYWLGGNLHDIFGVLEDHIGKIIVGVIVIVAITLGVRFRKQLKRVLLQNAS				NA	NA	NA	NA	NA
AK009_05786	222			hypothetical protein	ATGAAGCTTCAAAATCGAGTGAGGGAATTGCGAGCAAAGCATCGTTTATCACAAGGGGATTTAGGGAAAGCGATTGGATCATCACGGCAAACGATTAGTTTAATTGAGCGCGGGGATTATGCACCATCTATTGTATTGTCGTTAAAAATCGCACAAATTTTCAATGTATCGGTGGAGGAAATATTCACGTTAGTGGAGGGGGAAGAGGATGATGAAGAGTAA	MKLQNRVRELRAKHRLSQGDLGKAIGSSRQTISLIERGDYAPSIVLSLKIAQIFNVSVEEIFTLVEGEEDDEE	PGPT0008430_6405	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_05787	711			hypothetical protein	ATGATGAAGAGTAAACGAAAAAAACAATTTGATTCTGTGGGGAAAATAGCATTAAGTATGATGGGTGGCTTTTTAACGTCTTATATAGCTTTAAATTTACTCTCGGATGAACCGAGAAAATTATCATCCAATACATTTATAGGCATATGTACTATTTTTGGAATCTTAATGATGTACTACACTTGGAAGAATACGCGTATGTTAGCGGAGGCACGCGATGAAGAAGAGAGCGTACAAGGCAGAAAATTAGGCATTATAAGTATATATTTACGTGTAGGTGATATAGTGACGCAGGCATGGTTTGTATATGCAGTTATTACATGTAGACGTGCACTGTTGCAGGATACTAATGTTTCATTTGCGGTGTGGAATTTAGTAGCTTCTATTGTTTGTTTAACTACTGTAGTGATTATCGGGCTCATAACAAAAAATCGTTATAATAAGCTATACCCTGAACAAGGTGTAACGTATATGGAATCTATGAAAATGTGGACGAAAAACGCAGATGAAGGATTAAAGCACATTGTGCATGAGGCTGGATATAAAGCGTATGAATTTACGAATACAATATTGGCATATGTATGGTGGGCTGCCGTTATATATACAGCTGCTAGTGATATCGATTTTGTATTAATTGGCTTAATCTCATTTATTTGGATATTGCATCTCGGGAAGTTCATGTACGAAATGCAGAGAAAAATGATTTATTAA	MMKSKRKKQFDSVGKIALSMMGGFLTSYIALNLLSDEPRKLSSNTFIGICTIFGILMMYYTWKNTRMLAEARDEEESVQGRKLGIISIYLRVGDIVTQAWFVYAVITCRRALLQDTNVSFAVWNLVASIVCLTTVVIIGLITKNRYNKLYPEQGVTYMESMKMWTKNADEGLKHIVHEAGYKAYEFTNTILAYVWWAAVIYTAASDIDFVLIGLISFIWILHLGKFMYEMQRKMIY				NA	NA	NA	NA	NA
AK009_05788	1053			hypothetical protein	ATGACAGTGGCGCTAATTCTGTCCATTTTATACGGAGTAATCCGAACTGGGAAATTAGAAGTAATTTTGAACCTATGGGCAATAGTTGGAATTTCATTGTTAGTGTTAGCCATTCATGAGCTAGGACATGTAGTATTTGGTGTAATAGGTGGTTTAACATTTAAATTTATGACAGTAGGACCCATTACTATTCAAAAAGAAAAGGGAAAATTACGCATTCGAGAAAATAAATTATGGGCGTACTTTGGAGGTGTTGCAACATTAGTACCACCTTCTATAGAGACACCGAATCTTTCGAAAAAGTGGGCGTGGCTCACTTTAGGTGGACCGATTACGAGTTTACTATTTGGTATTACTTCCGGTTACATATACATGGTGAGTTATTATCAATATCTTTTATATTTTTCCTTTTTCCATTTTGCAATCTTTGCGGTTACAATTGTGCCGATAAAAGGAATGCTTATGAGTGATGGGATGCAATTTCTTATTTTAATTAAAGATGATGAAAGAGCTAGAAATCACTTATATGAGATTCAAATATCGAGTGAGTTATTTAGTTATAAAAGACCGAAAGATTGGGATGAAAGATTAGTAGAACTTAGTGAGGAGAAAATAAAAGAGAATAAAGGGATAAGGGAGATAATGAGTAGACTTATGCTCGTCTTTTTTGCTCGTGCAGATCAAGAGGGAATGGAAAGAGCGATACCGTATATAGAACGAATTGTTCAATTACCTGTAACGAAAGAAAATAAGTTTTTCGTTAGTAGTTTTCATAGTTGGTACCTTTTATATAAAGCCCTTTATCAGATGGATAGTCTTTCTTTGCAAGAAGCAAAGGAACATGCAAAGGCTATTACAAAAATGGACCTAAGTGGATATTACCGTACACAAGGGATTATTAAATATGTAGAGGGCAATATGGAAGCGTCCCGTACTTATATGAAGAAAGCCGATCAAGAATTAAAGAGCGCCGAGAAGAGTGAGATGGGATATTTACAATTAGAAAGAGAATGGTTTAAGCAGCTGAAAGAGAGGGTATCTTACGATGGGTGA	MTVALILSILYGVIRTGKLEVILNLWAIVGISLLVLAIHELGHVVFGVIGGLTFKFMTVGPITIQKEKGKLRIRENKLWAYFGGVATLVPPSIETPNLSKKWAWLTLGGPITSLLFGITSGYIYMVSYYQYLLYFSFFHFAIFAVTIVPIKGMLMSDGMQFLILIKDDERARNHLYEIQISSELFSYKRPKDWDERLVELSEEKIKENKGIREIMSRLMLVFFARADQEGMERAIPYIERIVQLPVTKENKFFVSSFHSWYLLYKALYQMDSLSLQEAKEHAKAITKMDLSGYYRTQGIIKYVEGNMEASRTYMKKADQELKSAEKSEMGYLQLEREWFKQLKERVSYDG				NA	NA	NA	NA	NA
AK009_05789	141			hypothetical protein	ATGGAAATTTTATCAATTATTTTGATAGTCTTGCTCATTTATGTTGTTTTTAAAGTAGCATATGTAGCATTAAAGATACTCGCGATCCTATTGATTATCTTTTTAATCGTAGAGTTCGGCAGTAAGTTGCTTGGGGGATAG	MEILSIILIVLLIYVVFKVAYVALKILAILLIIFLIVEFGSKLLGG				NA	NA	NA	NA	NA
AK009_05790	387			hypothetical protein	ATGAATCAATATATACGATATACAATAGCTGTCCTGTTTGCTATTATCGGCGGTACGATTTGTTTCTGGACAAACACACAGCTTGGAGAGAATATCATTTTTAATGGAATCGAAACACTTGTAAGCGCTTCAATTTTAGGCGGATACATTTACTTCCTCTTCAATCCAGAAGAAAATGCTCAGAAAACAATGTTATTAACAATGATTGGAATCGTTGGTGGATGTATTTCCTACTCAATGACAAACTATACATTACCACTTCAATTAAGCTCAGCTTTCTTCCACGGTCTATGGACTTGGTTCATTGCATTCTGCTTAGCAGACGTATTCAACCTATTACAAGACAATGAAGAAGATAGCGGTCGCCAAATTGAAAGTAACTCTTAA	MNQYIRYTIAVLFAIIGGTICFWTNTQLGENIIFNGIETLVSASILGGYIYFLFNPEENAQKTMLLTMIGIVGGCISYSMTNYTLPLQLSSAFFHGLWTWFIAFCLADVFNLLQDNEEDSGRQIESNS				NA	NA	NA	NA	NA
AK009_05791	522			hypothetical protein	TTGGAGATCACAACAGAAAGATTAATAATTAGACCTTTTAAGAGTACTGATTTACAGGATGTATTTGCTATTTATAATAATGATGATACATGTAAGTTCCTATTACATAATAAGTGGACTCATGAAGACATGCAGAAAAGATTTAATAAGAAGCTAGCAAACAATGCACTTACTGAAGAATCAATATTAAGTTTGGCAGTTATATACAAGACTAAAGTAGTTGGTGACTTATCCGTATGGTACACAAATATGAAGGATACTGTTGAGATTGGTTATAGTTTTTCAAATGAAGTAGTTGGAAGAGGTTTGGCAACAGAAGCAGTAAGTAGTTTGGTGTTTAAATTATTTAATGAATGTAATGTACATCGTATACAAGCTAATCTTGATGCACGTAATACAGCTTCAAAAAAATTGTGTGAACGAATAGGTATGAGAAAGGAAGCTCATTTCATACAAGATTTTTGGAATAAAAATGAATGGACAGATAGTTTTGTATATGGAATGTTATCCTCCGATTTGTAG	MEITTERLIIRPFKSTDLQDVFAIYNNDDTCKFLLHNKWTHEDMQKRFNKKLANNALTEESILSLAVIYKTKVVGDLSVWYTNMKDTVEIGYSFSNEVVGRGLATEAVSSLVFKLFNECNVHRIQANLDARNTASKKLCERIGMRKEAHFIQDFWNKNEWTDSFVYGMLSSDL	PGPT0028650_24	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
AK009_05792	894			hypothetical protein	ATGGGTCAACTAGGAGACGCCGATTACGTTCCCGACACCGCCTTTTTATCCTTCCCAGCAGCTAAAACATTTCATTTAGAATTTATGATACAGTTGGTTGTTATTTTTATAGCTTCTATTTTGTATGCAATTTCTATGAATATGTTTTTTATCCCGCATAATATGATTAGCGGTGGATTCGCTGGTGTAGGGATGATTATCGGTTATTTAATGCACTACAATATCGGTGCACTTATCTTTTTACTAAACATTCCTCTTCTTATTTTAAGTCACTTTTACTTAGGCAAGAAGACAACCTTTTTAACAGCGTACTTTGTAGCTGTGTCATCTTTAGCGATGAATATTATCCCGGTACACCAAGTTTCAGACGATATTTTACTTTCTTCTGTATTCGGTGGTGTTATCTGCGGAGCAGCTTCAGGAATTATATTCCGATTTGCTTCTTCAACAGGTGGTTTTGATGTTGTTGGATTGATTGTAGCAAAATATCGAGATGTTTCAATTGGAGCAATCATATTTGTATTCAACTTAATCTTACTTGTCGCAGCAGGTTTTATTTTCGGATGGGATATTACACTTTATACGTTAATTAGTCGATTTGTAGTCAGCAAAGTTATCGATGCTGTGCATACGAAACATATTAAATTAACGATAATGACTATTACAGAAAAAGGCGAGGAAATAAAAAGCGCACTACTACATCACGGCATACGCGGGGTGACAATGGTAGACGCTGTCGGCGGCTATACAAACCATAAGAAAAAAATGATTTACACTGTCGTGACTCGCTATGAGTTAGGCGAAATGAAACGTATTATCCGTCAAGTGGATAACAAAGCATTTATGAACATTACTGAAACAGTTGAAATTGTCGGCCGTTTCAAACGTATATAA	MGQLGDADYVPDTAFLSFPAAKTFHLEFMIQLVVIFIASILYAISMNMFFIPHNMISGGFAGVGMIIGYLMHYNIGALIFLLNIPLLILSHFYLGKKTTFLTAYFVAVSSLAMNIIPVHQVSDDILLSSVFGGVICGAASGIIFRFASSTGGFDVVGLIVAKYRDVSIGAIIFVFNLILLVAAGFIFGWDITLYTLISRFVVSKVIDAVHTKHIKLTIMTITEKGEEIKSALLHHGIRGVTMVDAVGGYTNHKKKMIYTVVTRYELGEMKRIIRQVDNKAFMNITETVEIVGRFKRI	PGPT0014526_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA	NA	NA
AK009_05793	285			hypothetical protein	ATGGAATTTTTATTGCAGGATGCAATTTTATATATATCGTTTGTAACGACGGCACTTTGTTTATTAGAAGTTTTCTTCCTTGCTAATGTTTCTCGCTTTGTGCGTCAACAAGCATCAAGCGGTAGACAAAGAGCTTTTGCGTTAGTTGATACATGTGAAGATAGTGCGGGAAATGTACCGCTATTTTCTATTTTTTATAAATATGGAATGATTCGTTCTGTACGTAGACAAGAATCAAGTGAAGAGAATGATGAGGTCGGTCCGTATACACCAATGTTTCGCTAA	MEFLLQDAILYISFVTTALCLLEVFFLANVSRFVRQQASSGRQRAFALVDTCEDSAGNVPLFSIFYKYGMIRSVRRQESSEENDEVGPYTPMFR				NA	NA	NA	NA	NA
AK009_05794	777	yidC2	COG0706	Membrane protein insertase YidC 2	ATGTTAAAATCATACCGAGCTGTGCTCGTTAGTTTATCATTATTACTTGTTTTATCTGGCTGCAGTAATGCAGTCCCAATTGATGCACATAGTACTGGGATTTGGGATCATTATTTCGTATATCCAATCTCGTTTATGATTCAATTTGTTGCTCATCATATACCTGGAGCTAGCTTTGGGATTGCAATCATTATTATGACGCTCGTTATTCGTTCAGCAATGATTCCATTAGCTGTTTCACAATATCGTAGCCAAGCGAAAATGAAGAAAATGCAACCTGAATTGCAGAAGCTAAAGAAAAAGTACGGTGATGTAGGCAAAGATCTTGAAAAACAAAAGCAGTATCAAAAAGAAATGTCAGAGCTAATGAAATCAGGCGGTTGGAATCCACTTGCTGGTTGCTGGCCAATTTTTATACAAATGCCGATTTTCTCTGCTTTGTATTATGCGATTAGCAGAACGGAAGAGATTCGCACATCTTCTTTTTTATGGGTGAACTTAGGACATGCAGATCCATATCATATATTACCGATTATTGCAGCGTTAACGACATTTATTCAGATGAAAGTTTTCCAATCTAATATTACACCTGGAGAACAAGTACAGATGCTAAAGATACAGCAAATTATGATGCCGGCAATGATTCTATTTATGGGGTTTGCGGCGCCATCAGGACTTGTATTGTACTGGATAACAGGTAACTTATTTACAATGACACAAACAATCGTATTAAGAAAAATAATGGAACGTGAAGAGTTACAATTACAAAAAGCATAG	MLKSYRAVLVSLSLLLVLSGCSNAVPIDAHSTGIWDHYFVYPISFMIQFVAHHIPGASFGIAIIIMTLVIRSAMIPLAVSQYRSQAKMKKMQPELQKLKKKYGDVGKDLEKQKQYQKEMSELMKSGGWNPLAGCWPIFIQMPIFSALYYAISRTEEIRTSSFLWVNLGHADPYHILPIIAALTTFIQMKVFQSNITPGEQVQMLKIQQIMMPAMILFMGFAAPSGLVLYWITGNLFTMTQTIVLRKIMEREELQLQKA	PGPT0024530_6158	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
AK009_05795	816			hypothetical protein	ATGAAGAAGAAAACAGTTGGGTATTTAGCGATTGCAGGTGCTTTATCATTCGGAATCATTGGAGGAGTCGGTATTCCGGCATTCGCGGCAACGAATACTCCAGCAGCTGAACAGTCTACAAAAACGGCGAAAAAGGATTTGGATGACGCTACAAAACAAAAAGTAAAAACAATTATGGACGATACAAAGAAACAGTTAGAGAAACTAGGTGTAAAGCTTCCGGAGAAAGAGAAGCGTAAAGACATGTTTGCAGGATTAGATGATCAGGCGAAAGCAAAAGCGAAGTCGATTTTAGAGCAAAAGAAATCTGGAAAATTAACGCATGAGCAAGCAAAAGAGGAATTAACAAAGCTAGGCGTGAAAATGCCGGAGAAAGGTAAACATGGAGACATGTTTGCTAACTTAGATGATCAGGCGAAAGCAAAAGCGAAGTCGATTTTAGAGCAAAAGAAATCTGGAAAATTAACGCATGAGCAAGCAAAAGAGGAATTAACAAAGTTAGGCGTGAAAATGCCGGAGAAAGGTAAGCATGGAGACATGTTTGCTAACTTAGATGAACAGGCGAAAGAGAAAGCGAAGTCGATTTTAGAGCAAAAGAAATCTGGAAAATTAACGCATGAGCAAGCAAAAGAAGAATTAACAAAATTAGGTGTGAAACTTCCAGAAAAAGAGAAGCGTGAAGACATCTTTGCGGGATTAGATGAAGCAACAAAAACAAAAGCAAAAGCGATTTTAGACAATGAAAAGAAACAATTAGAGGAATTAAATGTGGATCTTCCGCATCACAAGTTTTTTATGAAAAAAGAAGATAAATAA	MKKKTVGYLAIAGALSFGIIGGVGIPAFAATNTPAAEQSTKTAKKDLDDATKQKVKTIMDDTKKQLEKLGVKLPEKEKRKDMFAGLDDQAKAKAKSILEQKKSGKLTHEQAKEELTKLGVKMPEKGKHGDMFANLDDQAKAKAKSILEQKKSGKLTHEQAKEELTKLGVKMPEKGKHGDMFANLDEQAKEKAKSILEQKKSGKLTHEQAKEELTKLGVKLPEKEKREDIFAGLDEATKTKAKAILDNEKKQLEELNVDLPHHKFFMKKEDK				NA	NA	NA	NA	NA
AK009_05796	228			hypothetical protein	ATGATTGCTGTCTTTTGTATCATCGCTACGTTTCTCTCTGTTCTATTCGCTATCATGTATCGAAACAAGTATCCTGTTTATAGCATTTTAGCGATAGCTATTATACCAGCTGTTTCCTTCTACGTATTGGGTAAATATCAATATACGGAAGTGTTTATCGGTTTTGCAATCTTCTACTGCGTCTTCGGATACATACTAACAATGAAAAGAATCTTATTGAATCATTAA	MIAVFCIIATFLSVLFAIMYRNKYPVYSILAIAIIPAVSFYVLGKYQYTEVFIGFAIFYCVFGYILTMKRILLNH				NA	NA	NA	NA	NA
AK009_05798	1311	steT_1	COG0531	Serine/threonine exchanger SteT	ATGCATCATGATGAGAAGAACAAAATTGGTTTAACAGTAGCACTTTCTATCGTAGTAGGAACGATTATCGGGTCTGGTGTATTTATGAAACCAGGAAGCGTATTAGATTACTCAGGGAGTTCTAATATGGCCATTCTTGCTTGGGTAATTGGTGGTCTGTTGACGTTAGCGAGTGGTTTAACAGTAGCCGAAATTGGAGCGCAAATCCCGAAAAATGGTGGGTTGTATACGTATTTAGAGGAGATTTACGGAAGTTTTTGGGGATATTTATCAGGCTGGATGCAAACAATTGTTTATGGACCAGCTATTATCGGAACATTAGGTTTATACTTTAGTTCTTTAATGATTAATTTTTTCTATTTAGATAAAGTGTGGAATTTACCAATCGCAATCGGAACAGTTGTGTTCCTTGGCTTTGTAAATAGTATGGGAACAAAATACGGAGGTATCGTTCAAACAATCACGACAATTGGGAAAATGATTCCGATTGTATTAATTGTCGTGTTAGGTTTTTGGAAAGGAAACAGTGATATTTTTAACGTAGTAGTGCCGATATCAGAAAATCAAAGTATCGGTATGGCAATTTTAGCAACGTTATTTGCTTATGACGGCTGGATTTTACTTGCTTCGATTGGTGGAGAAATGAAGAATCCAACAAAGTTATTACCGAAAGCAATGACAGTTGGGATTTTAATTGTAACAGCTGCATACGTATTAATTAACTTGGCGTTATTAAATGTATTACCAGCAGCGAAAATTGTAGACCTTGGAGAAAATGCAACAGCGACAGCTGCTGGTATGTTACTTGGAGAATATGGTGGGAAAATTATTAGTATCGGTATTATCGTTTCTATTTTCGGTTGTTTAAATGGAAAGATTTTAACGTTCCCACGTATTCCAATGTCTATGGCAGAACGTGGACAACTTCCATTTGCTAAGTTTATTGCAAAGGAAAGTCCGAGATTTAAAACACCAGCAAATGCGATTACTGTTGAAATCATTTTAGGAATTATTTTAATGATTATTAGTGATCCAAATAAGCTATCTGAGATTTCCGTATTCATTATTTATATTTTCTATGTAATGACGTTTATTGGTGTCTTCATTTTAAGGAAACGTAATAAGAATAAAGAGCGTGCATATAGTGTACCGTTATTCCCAATCGTACCAATCGTTGCGATTTTAGGTTCGTTCTTTGTAATCGGTAGTGCGATTATTAATGATCCGGTAAGTTGTTTCTTATCAATTGGAATTGTCTTTACGGGACTTCCGGTGTATTGGTACTTGAATAAGAAGAAAGAAACAGAATGA	MHHDEKNKIGLTVALSIVVGTIIGSGVFMKPGSVLDYSGSSNMAILAWVIGGLLTLASGLTVAEIGAQIPKNGGLYTYLEEIYGSFWGYLSGWMQTIVYGPAIIGTLGLYFSSLMINFFYLDKVWNLPIAIGTVVFLGFVNSMGTKYGGIVQTITTIGKMIPIVLIVVLGFWKGNSDIFNVVVPISENQSIGMAILATLFAYDGWILLASIGGEMKNPTKLLPKAMTVGILIVTAAYVLINLALLNVLPAAKIVDLGENATATAAGMLLGEYGGKIISIGIIVSIFGCLNGKILTFPRIPMSMAERGQLPFAKFIAKESPRFKTPANAITVEIILGIILMIISDPNKLSEISVFIIYIFYVMTFIGVFILRKRNKNKERAYSVPLFPIVPIVAILGSFFVIGSAIINDPVSCFLSIGIVFTGLPVYWYLNKKKETE	PGPT0020810_5988	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
AK009_05799	1173	pbuE_2	COG2814	Purine efflux pump PbuE	TTGAATTTTCGTGTTTATATTTTAGCTATCGCGGCTTTCGTAGTCGGAACGGTTGAGCTAATTATAGGAGGAACGCTCGATTTAGTTGCCAATGATTTAGGAGTATCTATTAGCGCAGCTGGTCAGCTTATAACAATATTTTCGGTAGTATTTGCTTTGTCAGGTCCAGTTTTATTAGCTTTGACAGGGAAGTTTGAAAGAAAAACATTGTATGTTGGAGCATTATCGATTTTCTTAATCGGAAATATTATTTCGGCATTTAGTGTGAATTACGGAATGCTAATGTTCTCAAGGGTTATTTGTGCGGCGAGTGGTTCATTAATTATTGCACTATCGGTAACACTTGCTTCTAGTGTAGTAGAACCGCATTTTCGTGCGCGTGCAATTGGAATCATTTTTATGGGAATTAGTGGATCACTTGTACTTGGAGTACCGCTCGGTCTTGTACTCGGAAATGCATACGGATGGCGTGCGCCATTTGTATTGATTTCAGTATTAACAGTTATGGCAATTGCTTGTATTTCATTGTTCTTAACGAAAGTACCACCGACATCGGTATTATCAATAAAAGAACAACTTGCTACTTTAAAAGATAAAAAAATTGTAAGTGCACAGTTAACATCATTTTTGTTTTTAACGGGGCATTTAACATTGTATGCATATTTAACACCGTTTTTAAAAGATGTTATGAATGTTGAAGCAAATTGGATTAGTGTGTTTTACTTCATTTTCGGAATCGCAGCAGTAATCGGCGGTGGATTCGGTGGATGGCTTGCTGATAAATGGGGATCGAAGAAAAGTATTATCTCGATTATTATCGTATTTGCATGTGCAATCTTCATGTTGCCATTAATGACATTCTCATTCCCACTCTTCATCATTATGATGGGACTTTGGAGTATGCTGAGCTGGGCGATTTCACCAGCACAGCAAAATTATTTAATTGACATTGCACCGGAATCAGCTGGTATCCAGCAAGGTTTAAATAACTCTGCGCTTCATTTAGGAATTGCACTCGGTTCAACAGTAGGCGGAGTTGTTATTGAAAAATCATCTGTTATATATAACGCTTGGGTAGGCGGTGGCTTTATTATATTAGCACTGCTTTGCGCGATTTTCTCGATTACGAGAGGACGCTCTACTCAGTTTGCGAAAGAAGAATCTATCGTTTGA	MNFRVYILAIAAFVVGTVELIIGGTLDLVANDLGVSISAAGQLITIFSVVFALSGPVLLALTGKFERKTLYVGALSIFLIGNIISAFSVNYGMLMFSRVICAASGSLIIALSVTLASSVVEPHFRARAIGIIFMGISGSLVLGVPLGLVLGNAYGWRAPFVLISVLTVMAIACISLFLTKVPPTSVLSIKEQLATLKDKKIVSAQLTSFLFLTGHLTLYAYLTPFLKDVMNVEANWISVFYFIFGIAAVIGGGFGGWLADKWGSKKSIISIIIVFACAIFMLPLMTFSFPLFIIMMGLWSMLSWAISPAQQNYLIDIAPESAGIQQGLNNSALHLGIALGSTVGGVVIEKSSVIYNAWVGGGFIILALLCAIFSITRGRSTQFAKEESIV	PGPT0021080_201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
AK009_05800	183			hypothetical protein	ATGTATACGAATTTTTCAATTATTGGTCTTCTAATTTCAATGCTCCCTTTGTTTCTTATTATTCTTGCACTTAGATGGGTTCGTTTCATCTATAAAAATTCAGAGAAACAGGTAGAGCAAAATGAGAAAATCATTGAGCTGTTGATGGAGATAAAGGAACAAAACGAAAAGGAGTCTAAGTGA	MYTNFSIIGLLISMLPLFLIILALRWVRFIYKNSEKQVEQNEKIIELLMEIKEQNEKESK				NA	NA	NA	NA	NA
AK009_05801	759			hypothetical protein	ATGTTACAAAAATTCGGTTTCTCACAATATGAAAGCCAAGCTTATGAAGTTGTCGTATCAAGCAATGAACCATTAGATGCTACAACAATTGTGAAGCATTCAGGTGTTCCAAAAGCAAAAATATATGAAGTACTAGCACGCCTAATCGATAAAGGAATGGTAATGGATTCTGTTTCAGAAAAGAAAAAATTGTATACAGCATTACCACTAAAGCTAGCAATTGAAAAATTAACGACAGAATTTCAATCAAATATTAAGGAACTGGAAACAAATATATCAAAAAAATCATTTACAGATGACCGTGTTTGGAGCTTAAAGATGCAATCTTCTATTCGAGTTCAAAGTAAAGAACTCATTGAAAGTGCAAAAGAATCAATCCGTATTTCAGCTTGGAATGATACTCTTTTAGAATATCTTCCTTTACTAGAACAAAAAGCAAAACAAGGTGTTCAAATTGAATCCCTTATTGTTGGAGAAGTAGAAACAGACTTAGAAAACATGCATTTTCTAATCCCAGCTGAAGAGCCTAATGCATTAGAGCGCTACTTGCTACTCATCGTTGACGATCGTGAAATTTTATTTGCTGGCGTAGAACAAGAGTCATGGCAAGCGATGAAAACAATGTCACAACCTTTCGTAAAGTTCTTTACAGAATTTTTCTATCACGACGTTGCACTTGCAAAGATTACTCAAAAACACCATGATCTCTTTATGGAAGATGAGGAAATTAAGAGTTTGTTGATGAAGTTAAGATACTAA	MLQKFGFSQYESQAYEVVVSSNEPLDATTIVKHSGVPKAKIYEVLARLIDKGMVMDSVSEKKKLYTALPLKLAIEKLTTEFQSNIKELETNISKKSFTDDRVWSLKMQSSIRVQSKELIESAKESIRISAWNDTLLEYLPLLEQKAKQGVQIESLIVGEVETDLENMHFLIPAEEPNALERYLLLIVDDREILFAGVEQESWQAMKTMSQPFVKFFTEFFYHDVALAKITQKHHDLFMEDEEIKSLLMKLRY				NA	NA	NA	NA	NA
AK009_05802	2001	mcpC	COG0840	Methyl-accepting chemotaxis protein McpC	ATGTTAAGAAGTTTACGTTTAAAAATTGCGGTAGTGTTTTCAGTACTTATTTCTATGATGTTCGTAATATTGGGTACAGCTGTGTATCAATTACAGAAAGAAAAGGAAGTGCGTTCCTTAGACGAGTATTCTCAAAATGCGATGGATCTTGTGACAGAGCAACTTACGACATTTGTTCAAAGAACGGATGAAGATATGGGGTATTACGCGAACAGTGAGATGATTCGTAATATGCTTCAAGGTGGGGTTACTCCAGAAGAGGAAGCGTTTTTAACGAAAGAGTTTGCGGAGTATAAAAAGAATCATCCTGGTATTTTAGATTTATATATTGGTACGAAAGATAAAAAAACATTAAGTGCCAATCTTGCTGAAGGTGGGCAAGTGCCAGAAGGATATGATCCAACGACAAGACCATGGTATAAAGATTCAGAGGCTGATGTAAAAAAGGTCCATTGGGGACAACCTTCTTATGAAATTGCAACAGGAAAGTTAAGTGTAGGTGTTTCTAAAGCAATTACAGCTCAAGATGGATCTGTATTAGGCGTTGTTGCGATGGATGTATCGCTTGGGACGATTCAGAAGTTGCTTCACAATATTCAATATAATAATGACGGAGAAATGTTTATTATAAATGATAAAAATATGGCTCTTGTTTATCCAGAAAAGATAGGGAAAGATGTTTCTAAAGAGCCACTTATAAAGAGCTTAAATAAAGAGGTAACAAAATATGCGGTCACTACAATAAAAGGTGAAGATGTAGTTGTTTATAGTCAATCATTTGATACGATGAAATGGACGATAGGAATCTTTTATCCGAAAGAAACGATCGATGGGCTATTAAATAGTACGAGAAATACAGTCATTATGATGGCGTGTATTAGTTTATTAGTTGGAATCGTAGCTTCCTACTTGTTCTCAAGAAGATTAGCAAGACCACTGCAATTATTAAAGAATCACGTTCAAAAAGTAGCAGAAGGGGATTTAACGCTGCGAATGAAGGTGACAAGTAAAGATGAAGTTGGAGAGTTGACGAAGCACTTTAATGATATGGTTGAACAAATGAATGAAATGGTAAGTAAAATTAAAAACAGCGTATCAACAGTGCAACAATCAACGAATAGTTTACATTATTTAACGAACGAAACAGTAGCGGCTAGTAGAGAAGTTTCCGGAGCAATGGATGATGTGAGCGGGGGAGCTTCTACTCTTGCGAATAGTGTGGATGAAGTTTCAGCTCAGCTCGAGAATATGGCAGAGTCAGTGGAACAAATGAATAGCTCCGTTGGTGAAATAAAAGGAGTGACTGGCAAAGCGGAAGAGGCATCTAAGCAAGGATTAAATACAATGAGGAACTTAGTCCGTACGAGGGGACAATCATCTTCGATTGTTGTTCATACAGAAGAAGCATCAGATAAGTTAGAACAAAGAGTTGGATCGATTCAAAATGTTGTTGAGCTTATAAAAGGTATTTCGGAACAAACAAATTTACTTGCTTTAAATGCCTCGATTGAAGCTGCCCGTGCAGGTGAGCAAGGTAAGGGATTTGCGGTTGTTGCTGAAGAGGTTCGGAAATTAGCGGAACAATCAAAAGAGGCAACAGGAGAAATCACAACGATGATTGGTGATGTGCAATTAGAAGTAAAAAGGGTTGTAGAAGTTGTAAGTAAATTGAAAGACATTGCAGATGTGCAAAATAAAGTGACGACAGAGGCAGAAATGGAGTTCCGCACAATTATGTCAGTTGTAAATACGATTAGTACTTCAGTTGAAAAAATTGTAGAAGAGGTACATAACATAGGTTACGAGCAAGGAGAAATTACAGCGGTAATGCATACAATTGCTGGTACGAGTCAAGAAAGTGCAGCTGTTTCTGAAGAGGTACATGCTGCAACGGAATCACAGGTTAATCATCTAGAAAAGGTAGCCCACACGATGGAAAGTTTGACAGAGCATATGAAAGATTTAGAAAGATTAGTTGAGCAGTTTAAAGTGGAAGAGTAA	MLRSLRLKIAVVFSVLISMMFVILGTAVYQLQKEKEVRSLDEYSQNAMDLVTEQLTTFVQRTDEDMGYYANSEMIRNMLQGGVTPEEEAFLTKEFAEYKKNHPGILDLYIGTKDKKTLSANLAEGGQVPEGYDPTTRPWYKDSEADVKKVHWGQPSYEIATGKLSVGVSKAITAQDGSVLGVVAMDVSLGTIQKLLHNIQYNNDGEMFIINDKNMALVYPEKIGKDVSKEPLIKSLNKEVTKYAVTTIKGEDVVVYSQSFDTMKWTIGIFYPKETIDGLLNSTRNTVIMMACISLLVGIVASYLFSRRLARPLQLLKNHVQKVAEGDLTLRMKVTSKDEVGELTKHFNDMVEQMNEMVSKIKNSVSTVQQSTNSLHYLTNETVAASREVSGAMDDVSGGASTLANSVDEVSAQLENMAESVEQMNSSVGEIKGVTGKAEEASKQGLNTMRNLVRTRGQSSSIVVHTEEASDKLEQRVGSIQNVVELIKGISEQTNLLALNASIEAARAGEQGKGFAVVAEEVRKLAEQSKEATGEITTMIGDVQLEVKRVVEVVSKLKDIADVQNKVTTEAEMEFRTIMSVVNTISTSVEKIVEEVHNIGYEQGEITAVMHTIAGTSQESAAVSEEVHAATESQVNHLEKVAHTMESLTEHMKDLERLVEQFKVEE	PGPT0015710_6827	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
AK009_05803	303			hypothetical protein	ATGGCAATTGTTGACGTATCGATTATTCCGGTAGGAACAGGTAATCCAAGTGTTAGTGAATATGTAGCAGAAGTACAAAAGGTGCTAGAGAAAAATGCGGATCGCGTGAAGTATCAATTAACACCGATGAATACAATTATTGAAGGAGATCTTCCTGTCATTCTAGAAGTAATTCAACAAATGCATGAAGTTCCATATACGAAAGGTGCACAGCGTGTTGCAACAACGATTCGTATTGATGATCGTCGTGATAAAGTAAGCACAATGGAGAAAAAATTAAACTCTGTCCGATCAAAATTATAA	MAIVDVSIIPVGTGNPSVSEYVAEVQKVLEKNADRVKYQLTPMNTIIEGDLPVILEVIQQMHEVPYTKGAQRVATTIRIDDRRDKVSTMEKKLNSVRSKL				NA	NA	NA	NA	NA
AK009_05804	246			hypothetical protein	ATGAGTGAAAAGTTTAACGAGCAGTTTGACGGTTTACTAGAGAAATACACTGAGCTGTTACTTGGCGAGAGTAATGAAGAGCGAAAAGAACAGGTAAAGAAGTGGGCACTTTATTCTTACATAGCGAAGACGATGCCAGCTTTAGTGAAGCATTGGAATGAAACTTATCCAGATGCGAAAGAAGAGATGGTGCAGTTAATTACGGATATTAAAAGGCTGAATGAAGAGAAGCGAAATGAGAATTAA	MSEKFNEQFDGLLEKYTELLLGESNEERKEQVKKWALYSYIAKTMPALVKHWNETYPDAKEEMVQLITDIKRLNEEKRNEN				NA	NA	NA	NA	NA
AK009_05805	918	fadM		Proline dehydrogenase 1	ATGGAACAATTAATGCGAAATTCGTTTCTTTTCTTATCTAAAAATAAAGCGCTAACAAAACTGGCTAAAAAGTACGGTTTACGCTTTGGTGCAGGTCGCTTCGTCGCAGGGGAGACGATTGAATTAGCGACAGCTGCCATTCAGGCATTAAATAAGCAAGGTCTTTGTGTAACAATCGATTATTTAGGTGAATTCGTTGATAATGAAGCGGAAGCAAATGAAATGGCTAACCAATCGATTGAAGCGATCCGTGCAATTGGAAGAGAAGGTCTTGATTCGCAGCTTTCTTTAAAGATGACTTCTATGGGATTAGATATCTCTGATGAAATCGTAATGAACAATATGCGCCGTATTTTAGAAGCTGCAAAAGAAAATGGTGTGTTCGTTACCATTGATATGGAAGACTATACACGCTGTGGTAAAACAATTGATATCTTTAAACAATTAAAATCTGAATACGATAATATTGGTACTGTTATTCAAGCTTACCTATATCGTACAGAAAAAGATATTGAAGATTTAAATGCTTATAATCCTAATTTACGTCTTGTAAAAGGTGCTTATAAAGAACCTGAAGAAGTGGCGTTCCCGGATAAGAAAGATGTAGATGACAATTATAAAAAAATTATTAAAATGCACTTATTAAATGGAAATTATACTGCAATTGCTTCACATGATGAAGCGATTATTGAATATACAAAAAAACTTGCTGAAGAACACAACATTCCAAGGGATCAATTTGAATTCCAAATGTTATATGGTATTCGTAATGAGCGTCAACTTGAGCTAGTAAAAGAAGGTTACAAAATGCGTGTTTACGTACCTTATGGAAACGACTGGTATGGCTACTTCATGCGTCGTCTAGCAGAGCGTCCAGCAAACGTTGCGTTCGTATTAAAAGGTATGGTTAAAAAATAA	MEQLMRNSFLFLSKNKALTKLAKKYGLRFGAGRFVAGETIELATAAIQALNKQGLCVTIDYLGEFVDNEAEANEMANQSIEAIRAIGREGLDSQLSLKMTSMGLDISDEIVMNNMRRILEAAKENGVFVTIDMEDYTRCGKTIDIFKQLKSEYDNIGTVIQAYLYRTEKDIEDLNAYNPNLRLVKGAYKEPEEVAFPDKKDVDDNYKKIIKMHLLNGNYTAIASHDEAIIEYTKKLAEEHNIPRDQFEFQMLYGIRNERQLELVKEGYKMRVYVPYGNDWYGYFMRRLAERPANVAFVLKGMVKK				NA	NA	NA	NA	NA
AK009_05806	843	dacB_3	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	ATGATGAAACGAACAATAGTTATGATTGTAATGATTGCTACACTATTTACAGGGATGATTTTCTTCTCTTATGCACAGAGGCAACAAGCTGTAAGAGCTGATCAACCTAAGATTACTGGGCAATATGGCGTTACAATCGATGCAGACACAGGTGAAATTTTGTATGGGAAACGCGAAGACGAACGTTCTTATCCGGCTAGTATAGCCAAAATGATGACAACCCTTCTTTTACTAGAGAATGTAAAAGAAGATGAAGAAATTACAGTTACAGAAAACGCAATTAAAACAGAAAGTCAAAGTAAGAAAATTAAACTTCGTGCTGGGGAAAAATTAAAGCGTGATGAGGCATTAAAACTTATGCTTATCATTAGTGCAGATCCAATAGCTGAATCAATTGCAGAACATATCGCAGGATCAAAAAATGAATTTGTGAAGATGATGAATGCTAGAGCGAAGGAACTTGGTACAAAGCATGCGACTTTCAAGAATGCAAGTGGTGCTGATGCAATTGGGAATAAAGTATCACCATATGACATTGCTATTATTACGAAAGAAGCATTAAAGTATCCAGTTGTTTTAGAATATATGAATTCAACACGTACAACTCTACATACTTCAGAACGCTCTCCAAACATCGCAAACTATGGACGAGAAGAACTATATGACGATCCATATGCGATTGGAAGTAAAAGTGGTCTATCAGCACTTGGCAAATATACAGTCGTAACAGTCGATGAAAAAGACGGTAAACGCGTCATTAACGTCGTATTATCTTCTACTCGCGCGCAACTATATCCTGATACGAAGAAAATGGCACATTATGCATTTCAGCAATTAAAATAA	MMKRTIVMIVMIATLFTGMIFFSYAQRQQAVRADQPKITGQYGVTIDADTGEILYGKREDERSYPASIAKMMTTLLLLENVKEDEEITVTENAIKTESQSKKIKLRAGEKLKRDEALKLMLIISADPIAESIAEHIAGSKNEFVKMMNARAKELGTKHATFKNASGADAIGNKVSPYDIAIITKEALKYPVVLEYMNSTRTTLHTSERSPNIANYGREELYDDPYAIGSKSGLSALGKYTVVTVDEKDGKRVINVVLSSTRAQLYPDTKKMAHYAFQQLK	PGPT0024040_6018	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_05807	147			hypothetical protein	ATGGCAAAACTTAAGAAGAACCCCTCTAAGGCTGGAATTAGTGCAGCTAGTGTAACTGGAAATGCAGGTCCGCATAATCACGGTGTTGAAAAAGGACGCCAAGGTAATAATCAACAATATAAGAAGCATAATATGGGCGAAAAATAA	MAKLKKNPSKAGISAASVTGNAGPHNHGVEKGRQGNNQQYKKHNMGEK				NA	NA	NA	NA	NA
AK009_05808	2382	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGTTCCAAATTAAAAAGGCTGCTGTTCTAGGTTCAGGCGTAATGGGTTCAGGGATTGCGGCACACTTAGCTAATATTGGTATTCCGACATTATTGCTTGATATTGTACCACCTGCGCTAACAAAAGAAGAGGAAGCGAAGGGACTTACATTAGAACATAAAAGTGTGAGAAATCGTTTTAGTAATACGGCTGTGCAAAAATTATTAAAGCAAAAACCAGCTCCTCTGACAGTGAAAGGAAATTTAGCACTGATTGAAGCAGGTAACTTAGAAGATGATCTTGAGCGTCTAGCTGATGTAGATTGGATTATTGAAGTAGTAGTTGAAAACTTAGATATTAAAAAGAAATTATTTGAAAAAGTAGACGCTGTTCGTAAACCGGGTTCTATTGTAAGCTCGAATACGTCAGGCATCTCAGTTGAAAAAATGGCAGAAGGTCGTTCAGACGACTTCCAGAAACACTTCTTAGGCACACACTTTTTTAACCCACCACGATATTTAAAACTTCTAGAGGTAATACCGACGAAAGAAACAGATCCACAAGTATTAAGCTTCATGAAACTATTTGGCGAAGACGTTCTTGGAAAAGGCGTTGTTATCGCAAAAGACACACCAAACTTTATTGGAAACCGCATCGGTACGTACGGTTTATTAGTAACTCTTCAAGAGATGATAAAACGCGGCTATAGCATTGGGGAAGTTGATTCTGTAACAGGCCCACTTATTGGTCGTCCGAAGAGCGCGACGTTCCGTACATTAGATGTTGTCGGTTTAGATACATTCGTACACGTTGCAAATAACGTATATGAAAACGTACAAGAAGAAGAGCGTGATGTATTTAAAGTACCAGCTTTCATGCATGACATGCTTGAGAAAAAATGGCTTGGAAGTAAAACGGGTCAAGGCTTCTTCTTAAAACAAGGAAAAGAAATTTTAGAATTAAATCCTGAAACGATGGAATACGAAGCGCGTAAAAAATTAAAAGCTGCATCCGTAGAGTTAAGTAAACAAGAAAAAGGATTAGCGAATAAATTGAAAGCGCTTGTATACGCGAAAGACCGTGCAGGAGAGTTGTTATGGAACATCATTACACCAACTCTTTTATACTCTGCAAAACTTCATAAAGAGATTGCTGACGATATCGTTGCAATTGACCAAGCGATGAAGTGGGGCTTCGGCTGGGAGCAAGGGCCATTTGAAGTGTGGGATGCAATTGGTGTTGAAAAATCTGTTCAAAAGATGGAAGAAAACGGCGTAGTTGTTCCTACTTGGGTGAAAGAAATGTTAGAGAAAGGTTTCACTACTTTCTATAAACATGATAACGGCGATAGCTACTATTACGATAATGGCGAATATAAGCTAATCGAGCGTAATAAAAAAGCAATTTCTCTTAAGCAATTAAAAGCGAAAAATGGTGTATTAAAGAAAAATAGCGGAGCGAGCTTAATTGATTTAGGCGACGGCATCCTTTGCTTAGAGTTCCATTCGAAGAGCAATGCAATCGGTATGGATATTACGCAAATGATTAACTACGCTGTTGATGAAGTAGAAAAGAATTATAAAGGTCTTGTTATCGGTAACCAATCGAAGAACTTCTGCGTTGGTGCGAACCTAGCAATGATCTTAATGGAAGCACAAGACGACAATTACTTTGAAATTGAGTTGGTTGTGAAAAACTTCCAAGATGCAATGACGAAAATTAAGTACTCTTCTAAGCCAGTTGTAGCAGCACCATACGGTATGACGCTTGGCGGAGGTACAGAAGTTTGCTTACCAGCAGCTAGCATTCAAGCTTCTAGTGAAACGTATATGGGCTTAGTAGAAGTTGGTGTTGGCTTAATCCCTGGCGGAGGCGGTAATAAAGAGCTATACATTAAACACTTAAATAAAATGCCAAACGGTGTAGAGTTTGATCTGCAAAAAGTTGCGAATAAAGTGTTCGAATCTGTAGCGATGGCGAAAGTTTCTACATCAGCACAAGAAGCTGTATCGAACAACTTCTTAGGCGATAAAGACGGTATTAGTGTGAATGGTGATCACTTACTATATGATGCGAAACAGAAAGCACTTGCTTTATATGAAGCTGGCTATAAAGCACCGATTCGTAAAAAGATACCAGTTGTTGGTGAAACAGGATATGCAACTCTTGTACTTGGTGCAGAAGCAATGCATTTATCAGGTTACATTTCTGAACATGATCTTCACATTGCGAAGAAACTTGCATATGTCATTGCGGGCGGAAAAGTGCCGTACGGAACAGAAGTTGATGAGCAGTATTTATTAGATGTAGAACGTGAAGCATTTATTAGCTTAGTAAGTGAGATGAAATCACAAGCAAGAATGCAGCACATGCTTGTAAAAGGAAAGCCATTACGTAACTAA	MFQIKKAAVLGSGVMGSGIAAHLANIGIPTLLLDIVPPALTKEEEAKGLTLEHKSVRNRFSNTAVQKLLKQKPAPLTVKGNLALIEAGNLEDDLERLADVDWIIEVVVENLDIKKKLFEKVDAVRKPGSIVSSNTSGISVEKMAEGRSDDFQKHFLGTHFFNPPRYLKLLEVIPTKETDPQVLSFMKLFGEDVLGKGVVIAKDTPNFIGNRIGTYGLLVTLQEMIKRGYSIGEVDSVTGPLIGRPKSATFRTLDVVGLDTFVHVANNVYENVQEEERDVFKVPAFMHDMLEKKWLGSKTGQGFFLKQGKEILELNPETMEYEARKKLKAASVELSKQEKGLANKLKALVYAKDRAGELLWNIITPTLLYSAKLHKEIADDIVAIDQAMKWGFGWEQGPFEVWDAIGVEKSVQKMEENGVVVPTWVKEMLEKGFTTFYKHDNGDSYYYDNGEYKLIERNKKAISLKQLKAKNGVLKKNSGASLIDLGDGILCLEFHSKSNAIGMDITQMINYAVDEVEKNYKGLVIGNQSKNFCVGANLAMILMEAQDDNYFEIELVVKNFQDAMTKIKYSSKPVVAAPYGMTLGGGTEVCLPAASIQASSETYMGLVEVGVGLIPGGGGNKELYIKHLNKMPNGVEFDLQKVANKVFESVAMAKVSTSAQEAVSNNFLGDKDGISVNGDHLLYDAKQKALALYEAGYKAPIRKKIPVVGETGYATLVLGAEAMHLSGYISEHDLHIAKKLAYVIAGGKVPYGTEVDEQYLLDVEREAFISLVSEMKSQARMQHMLVKGKPLRN	PGPT0008395_864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
AK009_05809	1173	fadA	COG0183	3-ketoacyl-CoA thiolase	ATGAGAGAAGCTGTCATTGTTGCGGGAGCAAGAACACCAATTGGAAAAGCAAAGAGGGGTTCATTAAAAACAGTTCGTCCTGACGATCTAGGGGCGTTAGTAGTAAAGGAAACGTTAAAGCGTGCAAATTATGAAGGACCAATCGATGATTTAATTTTCGGTTGTGCGATGCCAGAAGCAGAACAAGGTTTAAATATGGCTCGTAATATCGGCGGACTAGCAGGACTTTCTTACGATGTTCCAGCTATTACAATTAACCGTTACTGTTCTTCTGGTTTACAAAGTATCGCTTACGGAGCAGAGCGCATTATGCTTGGTCACTCTGAAGCTGTATTATCAGGCGGAGCGGAATCAATGAGTTTAGTTCCAATGATGGGACACGTTGTTCGTCCGAATAGTCGCCTTGTAGAAGCGGCTCCGGAATATTATATGGGTATGGGACATACAGCAGAGCAAGTTGCTGTGAAATATGGAATTTCTCGTGAAGAGCAAGATGCATTTGCAGTAAGAAGTCATCAACGTGCTGCCAAAGCATTAGCGGCAGGAAACTTTGCTGATGAAACAGTATCTGTAGATGTGACGTTACGCTCGGTTGGCTCAAACAATAAACTGCAAGAAGAAACAATCATTTTCGCACAAGATGAAGGTGTAAGAGCAGAAACGTCGCTAGACATTTTAGGTAAATTACGTCCAGCATTTAACGTTCGCGGTTCTGTAACAGCTGGTAACTCTTCACAAATGAGTGACGGTGCAGCATCTGTACTATTAATGGATCGTGAAAAAGCAGTGAGCGATGGCATGAAACCGCTTGCGAAATTCCGTTCATTTGCAGTAGCTGGCGTACCACCAGAAGTAATGGGAATCGGCCCAATCGCTGCAATTCCAAAAGCATTAAAACTAGCTGGCTTAGAGCTATCTGATATTGGCTTATTCGAACTAAATGAAGCATTCGCTTCTCAATCAATTCAAGTTATTCGTGAACTTGGTTTAGATGAAGAAAAAGTAAACGTAAACGGTGGTGCAATCGCACTTGGACATCCACTTGGCTGTACAGGAGCAAAACTAACACTATCTCTTATTCACGAAATGAAACGCCGCAACGAACAATTCGGTATCGTAACAATGTGTATCGGCGGCGGAATGGGAGCAGCGGGAGTGTTTGAATTACTATAA	MREAVIVAGARTPIGKAKRGSLKTVRPDDLGALVVKETLKRANYEGPIDDLIFGCAMPEAEQGLNMARNIGGLAGLSYDVPAITINRYCSSGLQSIAYGAERIMLGHSEAVLSGGAESMSLVPMMGHVVRPNSRLVEAAPEYYMGMGHTAEQVAVKYGISREEQDAFAVRSHQRAAKALAAGNFADETVSVDVTLRSVGSNNKLQEETIIFAQDEGVRAETSLDILGKLRPAFNVRGSVTAGNSSQMSDGAASVLLMDREKAVSDGMKPLAKFRSFAVAGVPPEVMGIGPIAAIPKALKLAGLELSDIGLFELNEAFASQSIQVIRELGLDEEKVNVNGGAIALGHPLGCTGAKLTLSLIHEMKRRNEQFGIVTMCIGGGMGAAGVFELL	PGPT0001565_4048	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
AK009_05810	1785	fadE_2	COG1960	putative acyl-CoA dehydrogenase	ATGGAAAAAACAGTAGGAAATGCGGTTAAAGGCGGTAGCTTTTTAGTTGATGAGATTACGATTGATCAAGTGTTTACGCCAGAAGATTTTTCATCTGAGCATAAAATGATTGCAAAAACGACAGAGGACTTTATCGTAAATGAAGTTCTTCCAGAGCTTGAATATTTAGAACAACATGAGTTTGATCGTTCTGTTCGTCTTTTAAAAGAAGCTGGGGAGCTTGGTTTATTAGGCGCTGACGTACCAGAAGAGTACGGCGGAATTGGTCTTGATAAAGTAAGCTCAGCGTTAATCGCAGAGAAATTCTCTCGCGCTGGCGGCTTTGCAATTACTCACGGTGCTCACGTAGGTATCGGATCGTTACCAATCGTATTATTCGGTAACGAAGAGCAAAAGAAAAAGTATTTACCATTACTTGCAACTGGTGAGAAATTAGCTGCATACGCATTAACAGAGCCAGGTTCAGGATCTGACGCATTAGGTGCAAAAACAACTGCACGTTTAAATGCAGAAGGTACACATTATGTATTAAATGGTGAAAAACAATGGATTACAAACTCTGCATTCGCTGACGTATTTATCGTGTATGCAAAAATTGATGGAGAGCACTTCTCAGCATTTATCGTAGAGAAAGAATATGCTGGCGTATCTACAAGCCCAGAAGAAAAGAAAATGGGTATTAAATGTTCTTCAACTCGTACGTTAATTTTAGAAGATGCATTAGTACCGAAAGAAAACTTACTTGGTGAAATCGGTAAAGGTCATATTATCGCTTTCAACATTTTAAATATCGGCCGTTATAAATTAGGTGTTGGTACAGTTGGATCTGCGAAACGTGCAGTAGAAATTTCAGCACAATATGCAAACCAACGTCAACAGTTCAAGCAACCAATCGCTCGCTTCCCATTAATTCAAGAGAAACTTGCGAATATGGCAGCAAAAACATATGCAGCTGAAAGCTCTGTATATCGTACAGTAGGTTTATTCGAAAGCCGCATGAGCACATTATCTGAAGAAGAAGTAAAAGACGGTAAAGCAGTAGCAGCTTCTATCGCTGAATATGCAATCGAGTGCTCTTTAAACAAAGTATTCGGTTCTGAAGTATTAGACTATACAGTAGATGAAGGTGTTCAAATTCACGGTGGTTACGGGTTTATGGCAGAGTACGAGATTGAAAGAATGTACCGTGATTCTCGTATTAACCGTATTTTCGAAGGAACGAACGAAATTAATCGCCTAATCGTACCAGGTACGTTCTTACGTAAAGCGATGAAAGGTGAATTACCACTTCTTCAAAAAGCACAAAAATTACAAGAAGAGTTAATGATGATGATGCCAGAAGAAGTAGGCGATGAGCCATTAGCACTTCAAAAATATTTAGTAACTAACGCGAAGAAAATCGGCTTAATGGTAGCTGGATTAGCTGCTCAAAAATACGGTAAAGCATTAGATAAAGAGCAAGAAATTCTTGTGAATATCGCTGACATTGTAAGCAATCTATACGCAATGGAATCAGCTGTTCTTCGTACAGAAAAAGCAATCAAAACAACTGGTCTTGAAAAGAATAAACAAAAAGTGTTATACACTGAAGTATTCTGCCAAGAAGCATTTAACGAAATCGAAGCAGATGCGAAAGAAACACTTATCGCAGTTGAAAACGGCGACATGCTGCGCATGATGTTATCATCATTACGTAAATTAACTCGCCACACACCACTTAACGTAATTCCGAAGAAACGTGAAATCGCTGCGAAAATTTTAGAAGATGAGCGTTACACAGTTTAA	MEKTVGNAVKGGSFLVDEITIDQVFTPEDFSSEHKMIAKTTEDFIVNEVLPELEYLEQHEFDRSVRLLKEAGELGLLGADVPEEYGGIGLDKVSSALIAEKFSRAGGFAITHGAHVGIGSLPIVLFGNEEQKKKYLPLLATGEKLAAYALTEPGSGSDALGAKTTARLNAEGTHYVLNGEKQWITNSAFADVFIVYAKIDGEHFSAFIVEKEYAGVSTSPEEKKMGIKCSSTRTLILEDALVPKENLLGEIGKGHIIAFNILNIGRYKLGVGTVGSAKRAVEISAQYANQRQQFKQPIARFPLIQEKLANMAAKTYAAESSVYRTVGLFESRMSTLSEEEVKDGKAVAASIAEYAIECSLNKVFGSEVLDYTVDEGVQIHGGYGFMAEYEIERMYRDSRINRIFEGTNEINRLIVPGTFLRKAMKGELPLLQKAQKLQEELMMMMPEEVGDEPLALQKYLVTNAKKIGLMVAGLAAQKYGKALDKEQEILVNIADIVSNLYAMESAVLRTEKAIKTTGLEKNKQKVLYTEVFCQEAFNEIEADAKETLIAVENGDMLRMMLSSLRKLTRHTPLNVIPKKREIAAKILEDERYTV	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
AK009_05811	720	yflN_4	COG0491	putative metallo-hydrolase YflN	ATGAAGGTAATAAGTGTAGGAACAGTTCATCAAATCGCATTTTTACCGCGTCTATTTCCAATTAACTGTTACTTCGTTGAAGAAGAGACAGGATTAACTTTAATTGATGCGGCTTTACCGTTTTGTGCAAAGAAGATTTTACAATCAGCTCGGAAAATAGGAAAACCGATTACGAATATCGTTATTACACATGCGCATGATGACCATGTAGGAGCGCTTGATGTTATAAAACAAGTGCTGCCGGATGTTCCGGTCTATATTTCAAAAAGAGATGCATGTTTACTTGAAGGAGATAAGGTACTGCAAGAGGGAGAACGAAATACACCAATAAAAGTGGGAGTGTCAAAACAGATAAATACGATTCCAGATATTCTTCTTCAAGAGGGAGATAAAGTTGGTTCTCTTGTAGCGATTGGAGCTCCAGGTCATACACCGGGATCAATGGCGTTTTTAGACACAAGAAATGATGCACTCATTGTTGGAGATGCATTTCAAACGAGAGGAGGATTAGCGGTAGCAGGACAGTTGAAGTGGCTTTTCCCGTTTCCTATGTTTGGTACGTGGGATGCAGAAGTTTCATTAGCAAGCGCGCAGAAATTGCTGGAGTATAAGCCGTCTTTATTGGCGACAGGACATGGGAAAATGATTGAAAATCCGTTAATACAAATGCAACGGGCGATTGAAGAAGCGGAAAGGAATTTAAGTAGAAAGAGCCTCTAA	MKVISVGTVHQIAFLPRLFPINCYFVEEETGLTLIDAALPFCAKKILQSARKIGKPITNIVITHAHDDHVGALDVIKQVLPDVPVYISKRDACLLEGDKVLQEGERNTPIKVGVSKQINTIPDILLQEGDKVGSLVAIGAPGHTPGSMAFLDTRNDALIVGDAFQTRGGLAVAGQLKWLFPFPMFGTWDAEVSLASAQKLLEYKPSLLATGHGKMIENPLIQMQRAIEEAERNLSRKSL				NA	NA	NA	NA	NA
AK009_05812	186			hypothetical protein	ATGCAAAATTTAACAGAGCTTGAAGTAGAAAACTTACGTCATTTAATTGGTGGACACGCAACAATTATTAACAAGTTGGAGCAGTATGCACAGACGTGTACAGATCCACAACTGAAACAAATGCTACAAAAAGATGCGCAAGATGCAAGAAATACGAAACAGCAATTAATGACTTTCCTAGGATAG	MQNLTELEVENLRHLIGGHATIINKLEQYAQTCTDPQLKQMLQKDAQDARNTKQQLMTFLG				NA	NA	NA	NA	NA
AK009_05813	249			hypothetical protein	ATGAATGAAAAAGATATGGTAAATGATTATTTAGCAGGATTAAATGCAAGTTTAACAAGTTATGCAAATTATATTGCTCAGTCTGATAATGAACAGTTACATCAAACGTTAATCCAAATTCGTAATCAAGATGAAATGCGTCAACGTAATATGTATGAGTACGCAAAGCAAAAGAGTTATTATAAACCAGCAGCACCTGCGAATCCGATGATTGTGCAGCAATTGAAAAGTCAGTTAAGTGCAGAATAA	MNEKDMVNDYLAGLNASLTSYANYIAQSDNEQLHQTLIQIRNQDEMRQRNMYEYAKQKSYYKPAAPANPMIVQQLKSQLSAE				NA	NA	NA	NA	NA
AK009_05814	1104	ldh1_3	COG0039	L-lactate dehydrogenase 1	ATGACGAAAATGGAATATAACAATTCACAAAAAGGACAAAAACTTTGTTCAATATTTCACAAAGTATCCATGGTTTCTATCGTGGGAACCTCTATAATTAAGAATGTAAAGAACAAAAGAAATAGATTATATGATCAATTAGGAGAGATTGCTATGAAAAGACATACAAGAAAAATTGCAATTATCGGTACTGGATTAGTTGGATCAAGTTGTGCGTATTCCATTGTAAATCAAGGGATTTGCGAAGAGCTATTATTAATTGATATAAATCATGAACGTGCAGTTGGGGAAGCAATGGATTTATCACATTGCATTAACTTTACAAATACAAGAACAAAAGTATATGCAGGAAGCTATGAAGACTGCAAAGATATGGACATTGTCATTATTACAGCAGGACCAGCACCAAAACCAGGGCAAAGTCGCTTAGATACTTTAGGAGCGAGTGCGAAGATTATGGAAAGTGTTGTTGGTGGCGTAATGGAAAGTGGATTTGATGGTATTTTCTTACTTGCATCGAACCCAGTTGATATTATTACATATGAAGTTTGGAAATTATCTGGATTACCTAGAAATCGCGTAATCGGTACTGGTACATCACTAGATTCTTCTCGCTTAAGAACAATTTTATCTGAAATGCTACATGTAGACCCTCGTAGTATTCATGGGTATTCATTAGGAGAACATGGTGATTCTCAAATGGTTGCTTGGTCTCACGTAACTGTTGGTGGAAAGCCAATTCTGCAAATTTTAGAAGAACAAAAAGAACGATTTGGTGAAATAGATTTAGATGAAATCGTTGAGAAGACTGCAAAAGCCGGATGGGAAATTTATAAACGTAAAGGAACTACTTATTACGGAATCGGAAATTCTCTAGCATATATTGCAAGCTCAATCTTTAATGATGATCACCGTGTCATTGCTGTATCAGCCATTTTAGATGGTGAGTATGGTGAATATGATATTTGTACAGGAGTACCAGCTATTATTACTAGAGACGGTATAAGAGAAGTTGTAGAACTCAATTTAACAGAGGATGAAGAATCTCGATTCGCAAAATCAAACGATATTTTACGTGATTATATGAAAACAATTGGTTACTAA	MTKMEYNNSQKGQKLCSIFHKVSMVSIVGTSIIKNVKNKRNRLYDQLGEIAMKRHTRKIAIIGTGLVGSSCAYSIVNQGICEELLLIDINHERAVGEAMDLSHCINFTNTRTKVYAGSYEDCKDMDIVIITAGPAPKPGQSRLDTLGASAKIMESVVGGVMESGFDGIFLLASNPVDIITYEVWKLSGLPRNRVIGTGTSLDSSRLRTILSEMLHVDPRSIHGYSLGEHGDSQMVAWSHVTVGGKPILQILEEQKERFGEIDLDEIVEKTAKAGWEIYKRKGTTYYGIGNSLAYIASSIFNDDHRVIAVSAILDGEYGEYDICTGVPAIITRDGIREVVELNLTEDEESRFAKSNDILRDYMKTIGY	PGPT0001760_146	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK009_05815	1014			hypothetical protein	ATGAAGGAATATATAATGTCTCGTGTATTTAAAGCATCTGCTGGAATCGCACAAGGTATTTTCGTATCCCTCGGAATTGGTTTACTGATCGAAAATATAGGAAGAATTGTTGATATACCATTACTTATTACAATCGGAGTTGTTGCAAAATCACTTATGGCACCAGCAATTGGTGCCGGAATTGCTTTTATGCTCGGTGCAAATGGCCTTGTAATTTTCTCGGCTATGGTGGCTGGAGCAATTGGTGCCGGATCCATTTCAATTACTGAAGCAGGTCTAATTATTAAAACAGGTGAGCCAATCGGTGCTTTATTAACAGCAACTTTAGCTGTATATATTGGTAAACGTTTAAGCGGAAAAACTGCGTTAGATATGATGCTCGTTCCATTTGCGGCAATATTAGGTTCTGGTTTAGTAGGTATTTGGTTATCTCATAATATTACTCCTGTTTTAAATACAGTTGGAGCATTTATTAAAGATAGCTCAGCTGGTAGCCCGTTTATCGCTTCTATCGTCATTGCAGTAGTTTGGGGATTATTACTTATCTCTCCAGCTTCATCAGCTGCGTTAGCGATCGCACTTAGCTTAGACGGTGTTGCAGGTGGTGCTGCTCTTGCAGGCTGCGTTGCTCAGTTTATCGGATTCTCTGTTATCTCAGCGAAAGAAAACAATTTAGGTGGCATATTAGCTCAAGCACTTTGTACTCCGAAAGTACAGTTACCAAATATCACTAAAAATCCAATGATTCTCGTCCCAACTGTCGTCGCCAGTGCTATAGTTGGTCCAGTATCCGCATTAATTTTCCAACTGGAAGCAGGAAAGGAAATTGCAGGTCTTGGATTAAGTTCTCTTATCGCACCAATTAATTTAATTTCTAGCGAAGGATGGGAAGTTGTCCCAGCGATGGTAATCACTTATATCATCATTCCAGTAGCTGTTTCTTATATACTTTACATTGCTCTTAAAAAAGCAGGTCGTATTCACTCTGGTGATATGACTGTACCGCAATCTTAA	MKEYIMSRVFKASAGIAQGIFVSLGIGLLIENIGRIVDIPLLITIGVVAKSLMAPAIGAGIAFMLGANGLVIFSAMVAGAIGAGSISITEAGLIIKTGEPIGALLTATLAVYIGKRLSGKTALDMMLVPFAAILGSGLVGIWLSHNITPVLNTVGAFIKDSSAGSPFIASIVIAVVWGLLLISPASSAALAIALSLDGVAGGAALAGCVAQFIGFSVISAKENNLGGILAQALCTPKVQLPNITKNPMILVPTVVASAIVGPVSALIFQLEAGKEIAGLGLSSLIAPINLISSEGWEVVPAMVITYIIIPVAVSYILYIALKKAGRIHSGDMTVPQS				NA	NA	NA	NA	NA
AK009_05816	648			hypothetical protein	ATGAAGAAATTTAAACTTTCATCTTTTCTTCCGTTAAGTTATATACTTCTACTCGTACTCGTAAGTCCCCTTTACGACGTATTAAATAAATCGACTGTTCACGCAGTAGACGTTACAACTGTAGTAGATGATTGGATTCCATTTGTAAAAGCATTTATTATTCCTTATTTACTTTGGTTTCCATACTTATACGGCGCACTTATTTATTACTGCTTCGCTGACCGAAAGCAATATTATGTCACTTTAAGTAGTGTTATTTTTGGAAAGCTTGCTTGTTTTTCTATTTATTATTTTTGGCAAACAACTGTACCGCGTCCGACTGTCGTTGGAACAGATGTATTTTCTGAACTAGTTCGCTATATTTATAGTATCGATCAACCGGTAAACTGTTTCCCTAGCATTCACGTTCTTACTACATTTGTAATTATGTTAGCTGCCTTTAAGCGTAGAGAACAACATGCTTTTGAATATTACATCCTTACTTTCTTCGGTACACTTATTATTTTATCAACGCTATTTACGAAGCAGCATGCCTTTTTAGATGCCGTTTCTGGAATGACACTTGCAAGCATACTATACTTCGGAGTTCAGCTCTTATTAGCAAAAGAACCAATAAAAGTTCCAGTAAAACAAAATCATAAAATGTAA	MKKFKLSSFLPLSYILLLVLVSPLYDVLNKSTVHAVDVTTVVDDWIPFVKAFIIPYLLWFPYLYGALIYYCFADRKQYYVTLSSVIFGKLACFSIYYFWQTTVPRPTVVGTDVFSELVRYIYSIDQPVNCFPSIHVLTTFVIMLAAFKRREQHAFEYYILTFFGTLIILSTLFTKQHAFLDAVSGMTLASILYFGVQLLLAKEPIKVPVKQNHKM				NA	NA	NA	NA	NA
AK009_05817	528			hypothetical protein	ATGAAGCGTTTATCGTATTTCTTATTTTTTATATTGATATGCCTAGTCGGTGCTGGGTGTGCAAAGGATAAAGAAGGAGAGAAATTAGAATATAACGGAAGAGCACTCGTAATTGGAGTTGTTGGAGAAAAGCCGAAAGATACGTTTAGGAATGTAAAGTTTGAGGAAATGAAGTTAGAGGCACTGGAAAAGAAATCTAAGGAAGTGGATGGTTTTCTAATAATGAAAGATCACTTTCAAGAAGCCTCAACAGAGCAGTATAAAAATGTATTTTCATCGCTAAAGAAACCAGTATTTTTTATCGGTTTACAAGATAAATTATATTCAATTTTTATTACAAAAGGGATAGAGTATAACAGTGCACGAAAAGATGTAAATGCGATGTATACGCAAGGTTTTGCGAATATCGGAAGTGGTGAAGGGCAACAATGGGCAATTGGTTTATCAAATGGTGGAAACACAGAAGAAAGTATTCATAATATGTATATCGTAGTATTTCAAACAATTGCAGATTATTTGAATAGATGA	MKRLSYFLFFILICLVGAGCAKDKEGEKLEYNGRALVIGVVGEKPKDTFRNVKFEEMKLEALEKKSKEVDGFLIMKDHFQEASTEQYKNVFSSLKKPVFFIGLQDKLYSIFITKGIEYNSARKDVNAMYTQGFANIGSGEGQQWAIGLSNGGNTEESIHNMYIVVFQTIADYLNR				NA	NA	NA	NA	NA
AK009_05818	366	mgsR	COG1393	Regulatory protein MgsR	ATGACAGTAACATTTTATTCATATCCAAAGTGTGGCACATGTCAAAAGGCAAAGAAATGGTTTGAGGCAAACGATGTAGCATATGAGATGATTCATATTGTTGAAAATCCACCATCAAAAGAAGATTTACGTAATTTACATGAAAAAAGTGAATTACCATTAAAAAAATTCTTTAATACAAGTGGAATGCGTTACCGTGAACTTGGTCTGAAAGATAAGTTGAAAGATGCAAGCGAAGACGAAATGTATGAGCTTTTAGCATCTGATGGCATGTTGATTAAACGTCCAATTGTAACAGATGGAACGAATGTAACACTTGGTTTTAACGAAGAGCAGTTTGAAAGTGTGTGGAAAAAGTACCAATAA	MTVTFYSYPKCGTCQKAKKWFEANDVAYEMIHIVENPPSKEDLRNLHEKSELPLKKFFNTSGMRYRELGLKDKLKDASEDEMYELLASDGMLIKRPIVTDGTNVTLGFNEEQFESVWKKYQ	PGPT0004720_1433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
AK009_05819	384	gcvH	COG0509	Glycine cleavage system H protein	ATGAGCATTCCAAATAATTTACGTTACTCTGAAGAACACGAATGGGTAAAAACTGAAGGTAATGAAGTTGTTATCGGTATCACTCACTTTGCACAAGGTGAGCTAGGCGATATCGTATTCGTTGAACTTCCTGAAGTAGGTGCAACAATCGAAGCTGACGAGCCATTCGGAAGCGTAGAATCTGTTAAAACAGTTTCTGAGTTATACGCACCTGTAAGCGGTAAAGTTGTAGCAGTAAACGAAGAATTAAGTGACCAACCAGAACTTGTTAACGAATCTCCATACGAGGGTGCATGGATGGTTAAAGTTGAACTTTCTGATGCAAGCCAAGTTGAGAAGTTATTAACTGCAGAAAAATATGCAGAAATGACAAACCAAGACTAA	MSIPNNLRYSEEHEWVKTEGNEVVIGITHFAQGELGDIVFVELPEVGATIEADEPFGSVESVKTVSELYAPVSGKVVAVNEELSDQPELVNESPYEGAWMVKVELSDASQVEKLLTAEKYAEMTNQD				NA	NA	NA	NA	NA
AK009_05820	345	rnmV_1		Ribonuclease M5	ATGATTTATGTAGAAAAAGTCATTATTGTAGAAGGTACATCAGATAGAAGAAAGATTGAATCTATTATTCGTGAACCGGTGGAAATTGTTTGTACAAATGGTACAATTGGTTTATCGAAAATGGATGAGCTCGTTGATCAGTTTTTTGATAAGGAAGTGTATGTGCTAGTAGATGCTGATGATGCTGGAGAAAAGTTAAGGAAACAATTTCGAAAAGAATTTCCGCAAGCCGAGCATATCTATATTGATCGCTCGTACCGAGAAGTGGCAACTGCGCCATCTACACACTTAGCAAATGTATTATGGGGAGCCGACATTGACGTTTATACAGAATATTTACGGTAA	MIYVEKVIIVEGTSDRRKIESIIREPVEIVCTNGTIGLSKMDELVDQFFDKEVYVLVDADDAGEKLRKQFRKEFPQAEHIYIDRSYREVATAPSTHLANVLWGADIDVYTEYLR				NA	NA	NA	NA	NA
AK009_05821	300			hypothetical protein	GTGATTGATTGGACAGGAGCCGAAGCTACATCCCTAATAGAGAACGAAGAAAAAACAGTGTTATATGTATATACTCCAATGTGTGGAACATGCCAATTAGCAAAAAAGATGTTAACAGTCGTTGAGATGACAATTGAAGAGTTGAAAATTGGGATGTTAGATTTAAATTATGCTCCACATTTAGCAAAAGAGTATGGGATTGAAAGTGTACCTTGTTTACTTGTTTTTGAAAATGGGACACTGATGAAGAAGATATACGCATTTCATTCGGTTGAATATTTATATACGGAATTAAAGTAG	MIDWTGAEATSLIENEEKTVLYVYTPMCGTCQLAKKMLTVVEMTIEELKIGMLDLNYAPHLAKEYGIESVPCLLVFENGTLMKKIYAFHSVEYLYTELK	PGPT0013063_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013063-yusE-NA	NA	NA
AK009_05822	345			hypothetical protein	GTGAGATTATATTCTTTGCTTCAATCATTTGTAAATTACGCTAATGGTCAATATCATTTAGAGCCGCTTTTAAGACGAGAGGAAAAAACTGTTAATTTCCGTTTGGGAGATGAAAGTTGTTCGTTACAAATTTCAAGAGATTATATAGAGCTGGTACATGAGGAAAGAGGAACGGAACAAATCATTTGCTTAGACGAAAAGGATATAGAACAATTGGTTAATGGAAATGTACGATTGCAAATGTTAATGAACGATGGACGTGTACAATATTCGGGAACGTATCGAACGATGCTATTAGTCGAATCGATGTTTCATATATGTAAACCGATGCCAGTAGGTGCTTAA	MRLYSLLQSFVNYANGQYHLEPLLRREEKTVNFRLGDESCSLQISRDYIELVHEERGTEQIICLDEKDIEQLVNGNVRLQMLMNDGRVQYSGTYRTMLLVESMFHICKPMPVGA				NA	NA	NA	NA	NA
AK009_05824	1026	metN_1	COG1135	Methionine import ATP-binding protein MetN	ATGATTCTATTAGAGAATGTAAAGAAAATATATAAAGCAAAAAGCGGTGATGTCACTGCTGTAGATAACGCCAATTTAAAAATAGAAAAAGGCGAAATATTTGGTGTTATCGGATATAGCGGCGCTGGGAAAAGTTCTTTAATCAGATTGTTTAATCAGTTAGAAAAACCGACTTCTGGCCAAATTACAATTGCGAATCGTGTTATATCAACAATTACAGGAAGTGAACTTCGTAAGGCAAGGCAAGAAATCGGAATGATTTTTCAACACTTCAACTTACTTTGGTCACGAACTGTACGTGAAAATATTGAGTTTCCACTTGAAATTGCAGGTGTTGATAAAACGAAGAGAAGAAAACGTGTTGATGAATTAATTCATCTTGTCGGATTAGAAGGAAGAGGAGACGCGTACCCATCTCAGCTGAGCGGGGGACAAAAACAACGCGTTGGGATTGCAAGAGCATTAGCTAACAACCCACAAGTACTTTTATGTGATGAAGCAACGTCGGCTCTTGATCCAGAAACGACAGATCAAATTTTGGATTTACTATTAGACATCAATAAGCGCCTTGGTTTAACAATTGTACTCATTACACATGAGATGCACGTAATTCGAAAGATTTGTAATCGAGTGGCGGTAATGGAGAGAGGAAAGATTGTAGAAACGGGTCCAGTACTTGATGTATTCCGTAATCCGAAGCAAGATATTACGAAACGATTTGTACAGCAGTTAACAGATTCTGAAGATACAAATGAAACGATTGAAAGTTTAATTGAAAAATATCCAGATGGAAAAGTAATTCGTTTGCAGTTTATTGGTGAGGCTGTAGAAAGACCAGTGCTTCAACGATTGATGCAACGCAGTGATATAGAAGTTAGCATTTTGCAAGGAAATATCGCACAAACGAATAACGGTTCTTACGGTAGTTTAGTTGTTCATTTAAATGGTGAGGAAACAGCGATCCAGCAAGCAATAGAAGGAATTCATCAAGATCAAGTAGAGCTGGAGGTGATTGCACATGGATAA	MILLENVKKIYKAKSGDVTAVDNANLKIEKGEIFGVIGYSGAGKSSLIRLFNQLEKPTSGQITIANRVISTITGSELRKARQEIGMIFQHFNLLWSRTVRENIEFPLEIAGVDKTKRRKRVDELIHLVGLEGRGDAYPSQLSGGQKQRVGIARALANNPQVLLCDEATSALDPETTDQILDLLLDINKRLGLTIVLITHEMHVIRKICNRVAVMERGKIVETGPVLDVFRNPKQDITKRFVQQLTDSEDTNETIESLIEKYPDGKVIRLQFIGEAVERPVLQRLMQRSDIEVSILQGNIAQTNNGSYGSLVVHLNGEETAIQQAIEGIHQDQVELEVIAHG	PGPT0020520_2354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK009_05825	666	metP_1	COG2011	Methionine import system permease protein MetP	ATGGATAAGTTACTCGCAAATGTTGATTGGAATCAAATGTTAGAAGCAACGGGTGAAACGTTATATATGACGGCAATCGCAGCTCTTGCGACATTTGTTTTAGGACTAATTTTAGGATTGTTACTCTTCATGACAGCAAAAGATAATTTATGGGAAAACAAATCAATTAATACGGTGATTGGAGCATTCGTAAATATATTCCGTTCTATACCGTTCATCATTTTAATTATTTTATTAATCCCATTCACAAAGATTCTTCTTGGAACAATTCTTGGAGCAAGTGCAGCGCTGCCGGCTTTAATTATTGGAGCGGCACCATTCTACGCGAGAATGGTTGAAATCGCACTTCGCGAAATTGATAAAGGTGTAATTGAAGCTTCAAAAGCAATGGGAGCAAAAACAAGCACAATTATTTTGAAAGTGTTAATTCCAGAATCGTTACCAGCATTAGTATCTGGTATTACGGTTACGACAATTGCTTTAGTAGGATATACAGCAATGGCGGGAGTTGTTGGTGCTGGTGGCCTTGGAACACTTGCTTACTTAGAAGGATTCCAAAGAGGAAATAACGATGTAACAATCGTTGCGACAATTTGTGTATTACTAGTTGTATTTTTAATTCAGTGGATTGGTGATAGTTTAACGACTCGAATAGATAAACGATAA	MDKLLANVDWNQMLEATGETLYMTAIAALATFVLGLILGLLLFMTAKDNLWENKSINTVIGAFVNIFRSIPFIILIILLIPFTKILLGTILGASAALPALIIGAAPFYARMVEIALREIDKGVIEASKAMGAKTSTIILKVLIPESLPALVSGITVTTIALVGYTAMAGVVGAGGLGTLAYLEGFQRGNNDVTIVATICVLLVVFLIQWIGDSLTTRIDKR	PGPT0020515_2024	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK009_05826	813	metQ_1	COG1464	Methionine-binding lipoprotein MetQ	ATGAAAAAATTATTACTTACGGCACTTATTTCAACTTCAATTTTTGGCTTAGCTGCTTGTGGCGGGAAAGATAAAGATGAAAAGAAGCTTGTTGTTGGTGCTTCTAACGTACCGCACGCTGAAATTTTAGAAAAGGCAAAACCGTTACTTGAGAAAAAAGGAATTGAATTAGAAGTGAAAAAATTCCAAGATTACGTGTTGCCAAATAAATCGTTAGCGGATAAGGATTTAGATGCAAACTACTTCCAGCACATTCCGTATTTAGAAAAAGAAATTAAAGATAAAAAGTATGACTTTGAAGTAGCAGGGAAAATTCATTTAGAGCCAATTGGTGTATATTCTCAAAAATATAAGAGCTTAAAAGAACTTCCGGACGGAGCGACAATTATTATGAGTAATTCTGTTGCTGACCATGGACGTGGTTTAGCAATTTTACAAAAAGAAGGTATTTTAAAAGTTAAAGATGGGGTAGATCCAGTTAAAGCAACTCCAAAAGATATTGCAGATAATCCGAAAAATCTAAAATTCAAAACGGATATCGAGCCTGGTTTATTGCCACAAGTGTATAACAATAAAGAAGGCGACGCTGTTTTAATTAACTCTAACTATGCAATTGATGCAAAGTTAAATCCGGAAAAAGATGCAATTGCAATTGAAGGAAATGATTCACCGTACGCAAACATAGTAGCTGTTCGTAAAGGCGATAAAGATAAGAAAGAGATTAAAGCTCTTGTAGAAGTATTACATTCTAAAGAAATTGAAGACTTCATTAATAAAGAATATAAAGGGGCAGTTGTTCCTGTAAAAGAATAA	MKKLLLTALISTSIFGLAACGGKDKDEKKLVVGASNVPHAEILEKAKPLLEKKGIELEVKKFQDYVLPNKSLADKDLDANYFQHIPYLEKEIKDKKYDFEVAGKIHLEPIGVYSQKYKSLKELPDGATIIMSNSVADHGRGLAILQKEGILKVKDGVDPVKATPKDIADNPKNLKFKTDIEPGLLPQVYNNKEGDAVLINSNYAIDAKLNPEKDAIAIEGNDSPYANIVAVRKGDKDKKEIKALVEVLHSKEIEDFINKEYKGAVVPVKE	PGPT0020510_3766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK009_05827	807	metQ_2	COG1464	Methionine-binding lipoprotein MetQ	ATGAGAAAGATTCTATTGTCAGTTGTTACAGCGCTGTCTGTATTTACATTAGCTGCTTGCGGAGGGAAAGAAGAGAATAAGCTTGTTGTTGGAGCTTCTAACGTGCCGCACGCTGTTATTTTGGAGAAAGCACAGCCAATCTTAGAGAAAAAAGGCATTAAGTTAGAGATTAAAAAGTTCCAGGATTATGTACTGCCAAATAAAGCGTTAGCGGATAAGGAAATTGATGCGAACTACTTCCAACACATTCCTTACTTAGATAAAGAAATTCAAGAAAAGGGATATAAAATTGTAAACGCAGGAAAAATCCATTTAGAGCCAATGGGGATTTATTCTAAGAAATATAAAAGTTTAAAAGAATTGCCAGATGGCGGAACAGTTATTATGAGTAATAACGTAGCGGAGCGTGGCCGTATGCTCGCATTGTTACAAAAAGGCGGCGTTATTAAATTAAAAGACGGTGTAGATGTTGTTAAAGCGACAGTAAAAGATGTTGTAGAAAATCCGAAAAACTTAAAGTTTAAAACAGATGTAGAGCCTGGATTGTCACCAAAGCTGTATGAAAATAATGAGGGAGATGCTTTATTTATTAATTCGAACTATGCAATTGATGCAAAATTAAATCCAACGAAGGATGCAATTGCGATTGAAGGATCAGACTCTCCGTATGCAAACATCATTGCAGTTCGTAAAGGTGACGAGAAGAAAAAAGAAATTAAAGAATTAGTAGAAGTATTGCATTCAAAAGAAATTCAAGACTTTATTAATAAAGAATATAAAGGTGCTGTACTTCCGATAAGTGAATAA	MRKILLSVVTALSVFTLAACGGKEENKLVVGASNVPHAVILEKAQPILEKKGIKLEIKKFQDYVLPNKALADKEIDANYFQHIPYLDKEIQEKGYKIVNAGKIHLEPMGIYSKKYKSLKELPDGGTVIMSNNVAERGRMLALLQKGGVIKLKDGVDVVKATVKDVVENPKNLKFKTDVEPGLSPKLYENNEGDALFINSNYAIDAKLNPTKDAIAIEGSDSPYANIIAVRKGDEKKKEIKELVEVLHSKEIQDFINKEYKGAVLPISE	PGPT0020510_4317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK009_05828	786	sufC	COG0396	Vegetative protein 296	ATGGCTGGTTCTACATTAACGGTTAAAGACTTACACGTATCAATTGACGGCAAAGAAATTTTAAAGGGTGTAAACCTTGAAGTAAAAGGTGGAGAAATCCACGCAATTATGGGACCTAACGGAACAGGTAAATCAACTTTATCTTCTGCAATTATGGGTCACCCAAAGTATGAAGTAACAGAAGGTAGCATCATCATCGACGGTGAAGATGTATTAGAAATGGAAGTAGACGAGCGCGCACAAGCGGGTCTATTCCTAGCAATGCAATATCCAAGTGAAATTAGCGGAGTAACAAACGCTGACTTCTTACGTTCTGCAATTAACGCACGTCGTGAAGAAGGCGATGAAATTTCTCTTATGAAATTTATACGTACATTAGATAAAAACATGGAATTCCTAGAAATGGATCCAGAAATGGCACAACGTTACTTAAACGAAGGTTTCTCTGGTGGAGAGAAAAAACGTAACGAAATTCTTCAATTAATGATGATTGAGCCAAAAATCGCAATCTTAGACGAAATCGACTCAGGTCTTGATATCGATGCATTAAAAGTTGTATCTAAAGGTATTAACCAAATGCGCGGCGAAGAGTTCGGTTGCCTAATGATTACGCATTACCAACGTTTATTAAACTACATCACTCCAGACTTCGTTCACGTTATGATGAACGGTCGTATTGTTAAATCTGGTGGCCCTGAGCTTGCACAACGTCTAGAAGCTGAAGGTTACGACTGGATTAAAAAAGAATTAGGTATTGAAGACGAAACAGCAGAGCAAGAAGCGTAA	MAGSTLTVKDLHVSIDGKEILKGVNLEVKGGEIHAIMGPNGTGKSTLSSAIMGHPKYEVTEGSIIIDGEDVLEMEVDERAQAGLFLAMQYPSEISGVTNADFLRSAINARREEGDEISLMKFIRTLDKNMEFLEMDPEMAQRYLNEGFSGGEKKRNEILQLMMIEPKIAILDEIDSGLDIDALKVVSKGINQMRGEEFGCLMITHYQRLLNYITPDFVHVMMNGRIVKSGGPELAQRLEAEGYDWIKKELGIEDETAEQEA				NA	NA	NA	NA	NA
AK009_05829	1293			hypothetical protein	ATGACAATCGGTACATTACCTTTCGATCAAGAAACAATCCGTCAGCGCGCAAGCGAAGTAAACGAAGCTGCTTGGTTGACTGAGTTCCGCTTACAAGCTCTTGCACAAGCAACAGAACTTCCAATGCCAACGCCTGATAAAACGAAAATTGAAAAATGGGACTTTATCGGAAAAGGCGACGCTGCTAAGCAAGAGCCTGTAAGTTCTTTAACAGAGCTTCCAGAAGCAGTGAAAAACTTAATCGATGAAAATAACAGTGTATTAGTACAACGTACTGGTACAACTGCGTTCGTTTCTTTAGCAGACGAAGCAAAAGAAAAAGGTGTTATTTTTACAGACATCGTAACAGCTGCAACAGAGCATGCTGAACTATTACAAAAGTATTTAATGAAAGACGGCGTGAAGGTAGACGAGCATCGTTTAACTGCACTTCATGCTGCATTAATCAACGGCGGTGCATTCGTATATGTTCCGAAAAACGTTGTTCTTGAAACTCCACTTCAAGCTGTATTCTTAGTAGACGGCGAAGAAGCTAACGTATATAACCATGTATTATTCGTAGCTGATGCGAACAGTACTGCAACTTATGTAGAAAACTATGTTGCAAATGAAAATGCTAAAGGTATTGCAAATATCGTAGCAGAAGTAATCGTGGAACAAGGCGCACAAGTTAAATTTGGTGCGGTTGATCTATTAGCAAAAGACGTAACAACTTACGTTAACCGCCGCGGTGTTGTTGGACGCGACGGCCGCATTGATTGGGCTCTAGGCCTTATGAATGACGGAAATACAATTTCCGAGAACGTTACAAACTTAATGGGCGACGGTTCATATGCTGATACGAAAACAGTAACAATTGGCCGTGGTAACCAAACGCAAAACTTTACAACTAAAGTTGTTCACTTCGGTAAACACTCTGAAGGTTGGATTTTAAAACACGGTGTACAAAAAGATAGTGCAACATCTATCTTTAACGGAATTGGTAAGATTGAACACGGTGCATCTAAATCAAACGCACAACAATCTTCTCGCGTTCTTATGTTAGATGAGAAAGCTCGTGGGGATGCAAACCCAATTCTTTTAATCGACGAAGATGATGTAATGGCAGGTCACGCAGCTTCAGTAGGCCGCGTAGATCCGTACCAATTATACTACTTGATGAGCCGTGGTATTCCAAAACGCGAAGCAGAACGTTTAGTCATCCATGGATTCTTAGCACCTGTAGTAAATGAGCTTCCAATTGAAGGAGTAAAAGCACAGCTTGTTGAGGTAATTGAAAGGAAAGTTCGCTAA	MTIGTLPFDQETIRQRASEVNEAAWLTEFRLQALAQATELPMPTPDKTKIEKWDFIGKGDAAKQEPVSSLTELPEAVKNLIDENNSVLVQRTGTTAFVSLADEAKEKGVIFTDIVTAATEHAELLQKYLMKDGVKVDEHRLTALHAALINGGAFVYVPKNVVLETPLQAVFLVDGEEANVYNHVLFVADANSTATYVENYVANENAKGIANIVAEVIVEQGAQVKFGAVDLLAKDVTTYVNRRGVVGRDGRIDWALGLMNDGNTISENVTNLMGDGSYADTKTVTIGRGNQTQNFTTKVVHFGKHSEGWILKHGVQKDSATSIFNGIGKIEHGASKSNAQQSSRVLMLDEKARGDANPILLIDEDDVMAGHAASVGRVDPYQLYYLMSRGIPKREAERLVIHGFLAPVVNELPIEGVKAQLVEVIERKVR				NA	NA	NA	NA	NA
AK009_05830	1221	sufS	COG0520	Cysteine desulfurase SufS	ATGAATATTCATGAAATACGCAAACAGTTTCCAATTCTTGATCAAAAAGTGAACGGCAAACAACTTGTATATTTCGATAGTGCAGCAACTTCTCAAAAACCAATTCAAGTCATTGAAACGTTAGAACGTTACTATAAAGAATATAATTCTAACGTGCATCGCGGTGTTCATACGCTCGGTACGAAAGCTACCGACGCGTATGAAGGTGCACGCGAGAAAGTTCGCAAGTTTATTAACGCGAAATCAATGGAAGAGATTATTTTCACGCGCGGAACGACAACTGCATTAAATACAGTAGCGGCTAGCTATGGTCTTGAAAATGTAAAAGAAGGCGATGAAATCGTTATTTCTTACATGGAACACCATAGTAACATCATTCCGTGGCAACAAGTTGCGAAGAAAACTGGTGCAACTTTAAAATACCTTCCGCTTCAACCAGACGGTACAATTTCTTTAGAAGATGTTCGTCAAACAGTTACACCGAATACAAAAATCGTTTCTATTATGCAAGTTTCAAACGTGCTTGGAACGATTAACCCTGTAAAAGAAATCGGAGCGATCGCACACGAAAATGGCGCAATTATGGTCGTTGACGGTGCACAAAGTACACCTCACATGAAAGTAGATGTACAAGATTTAAACTGTGATTTCTACGCATTATCTGCTCATAAGATGTGCGGACCTACAGGCATCGGCGTATTATATGGTAAAAAAGAATTGCTGAACAATATGGAGCCAATTGAATTTGGCGGTGAAATGATTGATTTCGTAGATTTACAAGAATCTACTTGGAAAGAGCTTCCGTGGAAGTTTGAAGCAGGTACACCGATTATCGGTAATGCAATCGGACTTGGTGCGGCAATTGATTTCCTAGAAGAAATCGGTCTTGATAATATTGAAAAGCATGAACATGAATTAGCGCAATACGCTTTAGAAAGACTATCAGAAGTAGATGGCGTTACAATTTATGGTCCAAAGCATCGCGCTGGTCTTGTTACATTTAATATTGAAGACGTACATCCTCACGATGTAGCGACTGTATTAGATGTAGAAGGCATTGCAGTTCGCGCAGGACATCACTGTGCACAACCGCTTATGAAGTGGCTAAAAGCTTCTTCAACAGCACGTGCGAGCTTCTATTTATATAATACAAAAGAAGAAATTGATACATTTGTTGAATCGCTAATCAAGACAAAGGAGTATTTCACAAATGTCATTTAA	MNIHEIRKQFPILDQKVNGKQLVYFDSAATSQKPIQVIETLERYYKEYNSNVHRGVHTLGTKATDAYEGAREKVRKFINAKSMEEIIFTRGTTTALNTVAASYGLENVKEGDEIVISYMEHHSNIIPWQQVAKKTGATLKYLPLQPDGTISLEDVRQTVTPNTKIVSIMQVSNVLGTINPVKEIGAIAHENGAIMVVDGAQSTPHMKVDVQDLNCDFYALSAHKMCGPTGIGVLYGKKELLNNMEPIEFGGEMIDFVDLQESTWKELPWKFEAGTPIIGNAIGLGAAIDFLEEIGLDNIEKHEHELAQYALERLSEVDGVTIYGPKHRAGLVTFNIEDVHPHDVATVLDVEGIAVRAGHHCAQPLMKWLKASSTARASFYLYNTKEEIDTFVESLIKTKEYFTNVI	PGPT0020195_3414	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
AK009_05831	432	sufU_1	COG0822	Zinc-dependent sulfurtransferase SufU	ATGTCATTTAATAATTTAGATACGTTATATCGTCAAGTTATTATGGATCATTATAAGAATCCTCGTAACAATGGCGTGTTAGAAGATAGTGTTACTGTTAACTTGAACAATCCAACTTGCGGCGATCGTATTCAACTTACGATGAAAGTAGAAGAAGGTATTGTGCAAGAGGCGAAGTTTGAAGGCGAAGGATGTTCAATCTCAATGTCTTCAGCTTCAATGATGACACAAGCAGTAAAAGGTAAGAAAATTGAAGAAGCACTTCAGCTTTCGAAAATTTTCTCTGACATGATGCTAGGAAAAGAGTACGATGACAGCATCGATTTAGGAGATATTGAAGCATTACAAGGCGTATGCAAGTTCCCTGCACGTATTAAATGTGCAACATTAGCGTGGAAAGCGTTAGAAAAGGGCTTAAACGAAGATAAGTAA	MSFNNLDTLYRQVIMDHYKNPRNNGVLEDSVTVNLNNPTCGDRIQLTMKVEEGIVQEAKFEGEGCSISMSSASMMTQAVKGKKIEEALQLSKIFSDMMLGKEYDDSIDLGDIEALQGVCKFPARIKCATLAWKALEKGLNEDK	PGPT0000075_1783	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
AK009_05832	1398			hypothetical protein	ATGGCGAAGCAACTGCCAGATATCGGCGATTACAAATATGGTTTCAAAGACAAAGACGTTTCGATTTTCCGTGCTGGACGCGGTTTAACAAAAGAGATCGTTGAAGAGATTTCACGTATGAAAGAAGAACCACAGTGGATGTTAGACTTCCGTTTAAAATCACTGGATAAGTTCTATGAAATGCCAATGCCACAATGGGGCGGCGACTTAAATGACTTAGATTTCGATGAAATTACGTACTACGTAAAACCATCTGAGAAATCTGAGAAGTCTTGGGATGAAGTACCTGATGAAATTAAAGCAACATTTGATAAATTAGGTATTCCAGAAGCTGAGCAAAAATATTTAGCTGGTGTATCTGCACAGTACGAATCTGAAGTTGTATACCACAACATGAAAGAAGACCTAGAAGCTCTAGGAATCGTCTTCAAAGATACAGATAGCGCATTAAAAGAGAACGAAGATATTTTCCGTGAGCATTTCGGAAAAGTAATCCCACCAACAGACAACAAATTCTCTGCATTAAACTCTGCAGTTTGGTCTGGTGGATCATTCATCTACGTTCCAAAAGGTATTAAAGTTGATACACCACTTCAAGCGTATTTCCGTATTAACTCTGAAAATATGGGACAATTCGAGCGTACGCTTATCATCGTAGACGAAGGTGCACACGTACACTACGTAGAAGGTTGTACAGCACCTGTTTACACTACTAACTCACTTCACAGTGCGGTAGTAGAAATCATCATTAAAAAAGATGCGTATTGCCGTTATACAACAATCCAAAACTGGGCGAACAACGTATACAACCTAGTTACAAAACGTGCGGTTTGTGAAGAAAACGCGACGATGGAATGGATTGATGGTAACATCGGATCTAAATTAACGATGAAATACCCAGCAGTTATCTTAAAAGGCGAAGGCGCTCGTGGTTTAACATTATCAATCGCGATTGCTGGTAAAGGCCAACACCAAGATGCTGGTGCGAAAATGATTCACTTAGCACCAAACACGTCTTCAACAATCGTTTCTAAATCGATTGCGAAGCATGGTGGTAAAGTAACTTACCGTGGTATCGTACACTTCGGACCAAAAGCGAAAAACTCTCGCTCTAACATCGAGTGTGACACGTTAATCATGGATAACCAATCTACATCTGATACAATTCCTTACAACGAAATCAAAAACGATTACGTTTCACTTGAGCATGAAGCGAAAGTATCGAAAGTATCAGAAGAACAATTATTCTACCTAATGAGCCGCGGTATTTCTGAGCAAGAAGCTACAGAAATGATCGTAATGGGCTTCATCGAGCCATTCACTCGCGAACTTCCAATGGAATACGCAGTTGAAATGAACCGCCTGATCAAGTTTGAGATGGAAGGTTCTATTGGTTAA	MAKQLPDIGDYKYGFKDKDVSIFRAGRGLTKEIVEEISRMKEEPQWMLDFRLKSLDKFYEMPMPQWGGDLNDLDFDEITYYVKPSEKSEKSWDEVPDEIKATFDKLGIPEAEQKYLAGVSAQYESEVVYHNMKEDLEALGIVFKDTDSALKENEDIFREHFGKVIPPTDNKFSALNSAVWSGGSFIYVPKGIKVDTPLQAYFRINSENMGQFERTLIIVDEGAHVHYVEGCTAPVYTTNSLHSAVVEIIIKKDAYCRYTTIQNWANNVYNLVTKRAVCEENATMEWIDGNIGSKLTMKYPAVILKGEGARGLTLSIAIAGKGQHQDAGAKMIHLAPNTSSTIVSKSIAKHGGKVTYRGIVHFGPKAKNSRSNIECDTLIMDNQSTSDTIPYNEIKNDYVSLEHEAKVSKVSEEQLFYLMSRGISEQEATEMIVMGFIEPFTRELPMEYAVEMNRLIKFEMEGSIG				NA	NA	NA	NA	NA
AK009_05833	1281	yhcR_3	COG0737	Endonuclease YhcR	TTGACGGTTGATATCGGCGATCATGTGGATCGTTTTCATAGTATTTCGGAAGCGACGAATGGACTTGGCAATACGAAGCTTTTAAATGAGGCGTTATATGATTATGTAACGATCGGAAATAATGAAGGAATTACGTTAGCGAAGGAGCATTTGAATCGTCTATATGATGAGGCTGGATTTGAAGTGCTTGTCGCGAATTTATTTGAAAAAGAAGGTGTACGTCCGGAGTGGGCAAAGCCTTATAAATTACATACAACGACAGATGGGATTACGATTGCCTTTATCGGGTTAACGGTAGCTTATCCAGAGTTCTATCATATGCTCGATTGGCATATTGAAGATCCGCTTATCCATTTAGAGTCTATTTTAGAAGAAGTGCGAGATGAGGCTCATATTACAGTTGTCCTTTCTCACCTTGGAAAAAGCATGGATGAGTATATGGCAGAGCATTATGATATAGATGTGATTTTAGGTGCGCATACGCATCATTTATTTGAGCGTGGTGTTCTTATGAATAATACGTTACTTTGTTGTTGTGAAAAGTGGGGGCGTTACGTTGGTCACGTACAGCTTACTGTGGATATAGAGACGAAGAAACTACTGAAAAAAGACGGTAGAGCAATTAAGACGGAACGGTTAGGGGCTTATAGCGAGCCGTTATCCACAATTGAAATACTGCAGGAAGAAAGTAAGCATATAATGGCAGAGCCTGTCGTTCATTTAAAAGAGTCATTACCGGTTGATTGGTTTCATGAGGCGCCGTTTTCTCATATGTTAGCAAGTGCGCTGAAAACATGGTGCAGTGCAGAAGTTGGAATGGTGAATGCTGGTGTACTTCTTGAAGGATTAGAAGAGGGTGTTGTAACGCGCGGAGATATTCACAGAATTTGTCCACATCCAATTAATCCGTGTGCTTTGAAAGTTCCAGGAAAGATATTAAGAGAAGTTATTTTGAAAGCACGTAAACCGAATATGGAAAACCTTGAGGTAAAAGGATTCGGATTTCGTGGAAAAGTGATGGGGAAAATGATTTACGCTGGTGTAGAAGTAATTCCAGATACGATTCCTGGGAATAAAATTTTATTAGAAGATGTATTGATTAACGGCGAATCGCTGGAGTTAGACCGTATATATACAGTAGGAACAATTGATATGTTTACGTTTGGATACTTATACCCAGAGCTATCCACACTTTCTAGCAAACAATATTATATGCCAGAACTACTTAGAGATGTGTTAACAGATATGTTAATAACTTATACATCTTCCGTTAAACTATAG	MTVDIGDHVDRFHSISEATNGLGNTKLLNEALYDYVTIGNNEGITLAKEHLNRLYDEAGFEVLVANLFEKEGVRPEWAKPYKLHTTTDGITIAFIGLTVAYPEFYHMLDWHIEDPLIHLESILEEVRDEAHITVVLSHLGKSMDEYMAEHYDIDVILGAHTHHLFERGVLMNNTLLCCCEKWGRYVGHVQLTVDIETKKLLKKDGRAIKTERLGAYSEPLSTIEILQEESKHIMAEPVVHLKESLPVDWFHEAPFSHMLASALKTWCSAEVGMVNAGVLLEGLEEGVVTRGDIHRICPHPINPCALKVPGKILREVILKARKPNMENLEVKGFGFRGKVMGKMIYAGVEVIPDTIPGNKILLEDVLINGESLELDRIYTVGTIDMFTFGYLYPELSTLSSKQYYMPELLRDVLTDMLITYTSSVKL	PGPT0013395_2061	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
AK009_05834	303			hypothetical protein	ATGGTTAATGTGGAGCCAATTATAATTAATAATTATACGTTTATTGCGGTTAGCGTCAAACTTCCAAAGACGAATTTGCTAGCTGTAATGAGCGATAAAGGATATATTATGTGTGGTGCATTAGATGTAGGTCTTTTAAATGAGAAGTTAGGTGATCGAGGAATTATTGCTGGCCGTGCGGTTGGTGTAAGAACGATTGAACAACTTCTTGAAGCGCCACTAGAATCGGTAACGACTGGAGCTGAAGCATTAGGCATTCCAGCAGGAACGATTGGAAAAGAAGCATTATTAAAAATGAGATAA	MVNVEPIIINNYTFIAVSVKLPKTNLLAVMSDKGYIMCGALDVGLLNEKLGDRGIIAGRAVGVRTIEQLLEAPLESVTTGAEALGIPAGTIGKEALLKMR				NA	NA	NA	NA	NA
AK009_05835	732	yunB		Sporulation protein YunB	ATGAGTATATTTCGCTCGAAAAACTCGCGGTTTCGAAAGGGACCTATCGCCTTTCGGTATATACTGCTTATGTCGTTTATTCTTTTTGTTATATTACTTACGCAAGGGCTGTGGATTGTGAATAATAGTATTCAGCCGACCTTAATTAAATATGGAGAAGTAGAGACAAAGAAAATGGCGACGGCAATTATGACGAAGGCGGTAAAGGATCGAATTAATGAAGGATTCGATGTCGATTCGTTAATGAAAGTACAAAATGATAAAAACGGGAAAGTATCCACAATTAATTTAAATACGAAGCAAGTAAATGAAATCGTAACGTCAACGACTACGTACATAGAAAAATATTTGCAGCAAGTAGAACAAGGGAAGTTGAAGGAGCTAGGTATTTCTGAAAAAAACGGGGCGACTATGGCAGTTCCTTTTGGGCGTGTAACTGATAATGCGCTTCTTGGTAATATAGGACCAGATATTCCGATTCAGTTCACGCCAATTGGGCATGTGAATACAGATATTAAACAAAAAATTGAGCCGCACGGGATCAACACTACAGCGATTCAAATTGTTATGGAAATGGAAGTAACGTTGCAAGTAATCATTCCATTTCATACGAAAGAGATAACGGTGAAACAAAATGTTCCGATTGCGACGCGTATCGTTCAAGGGGAAGTGCCTACGTATTATGGAAGCGGAAGTGTTGCTGTACCTGATAAAAAGAAAACAGATAGTTAA	MSIFRSKNSRFRKGPIAFRYILLMSFILFVILLTQGLWIVNNSIQPTLIKYGEVETKKMATAIMTKAVKDRINEGFDVDSLMKVQNDKNGKVSTINLNTKQVNEIVTSTTTYIEKYLQQVEQGKLKELGISEKNGATMAVPFGRVTDNALLGNIGPDIPIQFTPIGHVNTDIKQKIEPHGINTTAIQIVMEMEVTLQVIIPFHTKEITVKQNVPIATRIVQGEVPTYYGSGSVAVPDKKKTDS	PGPT0025000_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025000-yunB-NA	NA	NA
AK009_05836	984	lytH	COG0739	L-Ala--D-Glu endopeptidase	ATGCTTCGAAAAATTTCTCTTTTGCTTTCTATTTGTTTTCTTCTCCACCAAAACATCGCCTACGGTGAAGATAATCAGCAAAGCATATACGAAAAGCGCATGGTACTATATAAAGAAACCGAGCAGTCTTCAGGCATTCCATGGTATTACTTAGCTGCAATGGATCAATATGAAAGAAATATACGGAGCGTAAGAAAAGATATTCCAAAAAAACCAGATGCCATCATTTCCCTTTATTTCAAACCAGAAATATGGGCTGGACCTGTTAATAGTAACGACACTCTCCCCCATACAATTTCTCTATTTGGCGGAATAGGTTTAGATGGTGACAAAGATGGATTTGCAAATGCAAATAGCGACCGTGATCTTCTGCATACCGCAGCGACTATTTTAAGGAAACAAGGAACGTCAGAAGACCGTATTAAAATTGTGCTTTGGGAATATTATAGACGTGCAAAAACAGTTGATTTAATTAGCGAATACGCCCAAATTTATAAACATTATGGACGTATTAATTTAGAAGGAAATGCTTTTCCTCTTCCGATTCGTAGTGACCATAGCTACCGTAGTACTTTCGGTGCTGGAAGAAGTTTTGGGGGCAGACGAGTTCATGAAGGAACCGATATTTTTGCCGGATATGGCGTGCCAGTAAGATCGACTTGCTATGGCATTATTGAAACGAAAGGTTGGAACCGCCTTGGTGGATGGCGCATTGGTATTCGCGACCTTCATAACAATTACCATTATTACGCTCATTTAGGCGGGTTCTCAAAAGAAATACAGCTTGGACAAATTGTTGAGCCCGGAAAAGTAATCGGGTTTGTTGGTAGCACTGGCTATGGCCCCCCTGGTACAGCCGGAAAATTCCCACCCCACTTACATTTTGGCATATATAAAGACAATGGCTATACAGAATGGGCCTTCGATCCATATATGCATTTAAGCCTTTGGGAACGCAAAGAACGAGCAAATACAAAACGATAA	MLRKISLLLSICFLLHQNIAYGEDNQQSIYEKRMVLYKETEQSSGIPWYYLAAMDQYERNIRSVRKDIPKKPDAIISLYFKPEIWAGPVNSNDTLPHTISLFGGIGLDGDKDGFANANSDRDLLHTAATILRKQGTSEDRIKIVLWEYYRRAKTVDLISEYAQIYKHYGRINLEGNAFPLPIRSDHSYRSTFGAGRSFGGRRVHEGTDIFAGYGVPVRSTCYGIIETKGWNRLGGWRIGIRDLHNNYHYYAHLGGFSKEIQLGQIVEPGKVIGFVGSTGYGPPGTAGKFPPHLHFGIYKDNGYTEWAFDPYMHLSLWERKERANTKR	PGPT0024030_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472	NA	NA
AK009_05837	897	lipA	COG0320	Lipoyl synthase	ATGACAAAACAAACAGAATATAAGCGCAAGCCCGAATGGTTGAAAATTAAGTTAAACACGAATGAAAACTATACAGGCTTAAAGAAAATGATGCGTTCTAAGAATCTTCATACCGTTTGTGAAGAGGCAAAATGTCCGAATATTCATGAATGCTGGGCTGTAAGAAAAACAGCAACATTTATGATTTTAGGTGCGGTTTGTACACGCGCTTGTCGTTTTTGTGCGGTTAAAACAGGCTTACCAACTGAGCTTGATTTACAAGAACCAGAACGCGTAGCAGATTCAGTAGTACAAATGGGCTTAAAGCACGTTGTTATAACAGCGGTTGCACGTGATGATTTAAAGGACGGCGGAGCAGCTGTTTTTGCTGAAACAGTACGAGCAGTACGTCGTAAAAACCCATTCACGTCTATCGAAGTATTACCATCTGATATGGCTGGGGTAGAAGAAAACTTAAAAATGTTAATGGATGCAAAACCAGATATTTTAAACCATAACATTGAAACAGTACGTCGATTATCTAACCGAGTTCGCGCTAGAGCAAAATATGACCGTTCATTAGAGTTTTTACGTCGAGCAAAAGAAATGCAGCCTGATATTCCAACTAAATCGAGCATTATGGTCGGCTTAGGTGAAACAAGAGAAGATTTAATTGAAGCAATGGATGACTTACGTGCAAACAATGTGGATATTTTAACTCTTGGACAATATCTACAACCATCTAAGAAGCATTTACCAGTTATTAAATATTATCCACCAGCAGAATTTGCAGAGCTTAAAGAAATTGCACTTAGCAAAGGATTTAGCCACTGTGAAGCTGGCCCACTTGTGCGTTCTTCTTACCATGCGGACGAGCAAGTACGTTCTGCAAAAGAAAAAACAGCAGAAGCTAAATAA	MTKQTEYKRKPEWLKIKLNTNENYTGLKKMMRSKNLHTVCEEAKCPNIHECWAVRKTATFMILGAVCTRACRFCAVKTGLPTELDLQEPERVADSVVQMGLKHVVITAVARDDLKDGGAAVFAETVRAVRRKNPFTSIEVLPSDMAGVEENLKMLMDAKPDILNHNIETVRRLSNRVRARAKYDRSLEFLRRAKEMQPDIPTKSSIMVGLGETREDLIEAMDDLRANNVDILTLGQYLQPSKKHLPVIKYYPPAEFAELKEIALSKGFSHCEAGPLVRSSYHADEQVRSAKEKTAEAK	PGPT0003935_3928	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
AK009_05838	480			hypothetical protein	ATGTACGAAGACGTACTTGCTCTACTACATAAAACAAATGTTTCTTATGAAAAGTTCGAACACGAACCGGTACTCGATTATGAGACAGATCGGATTGTACGTGAGAGACTTGGCTTACAAGGTACTCCAAGTAAAAGCTTATTTTTAAAATCAACATCTGGAAATTTTTACGTGTTTTTTACGTTAGAAGGAACTCGGCTTAACCGAGGAGAGATGAAAGAAATAACTGGAGAACGCTTATCGCTCTGTTCTCCTGATGAACTAAGAATGGAAACTGGCTGTACTCCAGGATGTGTAGCTCCTTTTGGTTATTCACAAGATGTAACAATTATTGTGGACAGTTCCGTTTATACGTACGATAAAATTTTAATTACACCTGGTGTTCCTGAATTTACAATTGAATTATCCACAGAAGAATTAAAAAAGATTTTATTAACATGTCCAAATACCGTTTTAGAGTACAAACAAAAAGAGAGCTAA	MYEDVLALLHKTNVSYEKFEHEPVLDYETDRIVRERLGLQGTPSKSLFLKSTSGNFYVFFTLEGTRLNRGEMKEITGERLSLCSPDELRMETGCTPGCVAPFGYSQDVTIIVDSSVYTYDKILITPGVPEFTIELSTEELKKILLTCPNTVLEYKQKES				NA	NA	NA	NA	NA
AK009_05839	555			hypothetical protein	ATGAAGAAAATTATTGTAATACGACATTGTTCAGCAACTGGGCAAAAACGTGATGCTGAATTAACGACCGATGGGAAAGATCAAGCAAATAACCTTGCTACATTCCTCTTAGAAAATCATCTACAAATCGATCATATTATTTCAAGCCCATTTGTCCGAGCTATCGATTCCATTCGGCCCTATGCGCTCCAAGCTAGCTTATCTATCCAAGAAGATGAACGATTAACTGAACGCATATTGAGCAACGTTCCAATGGATGATTGGATGCAAAAACTAGAATCCACTTTTACGAACATAGATATTGCCTTTTCAGGCGGAGAGTCAACAAAACAAGCAACAGACCGTGCCATATCGCTTATTCAAGATGTTTTACAATTAAACCATACGACAACACTACTTGTTACACACGGCAATTTACTTACACTCATTTTAAAGCATTTTGATCATACGATTGGCTTTAATGAATGGAGAGCTTTAACGAATCCTGATATTTACGAAATTACAATCGACGAACAATGTATCATAACACGCTTATGGAAAGCATCGTCCAAGTAA	MKKIIVIRHCSATGQKRDAELTTDGKDQANNLATFLLENHLQIDHIISSPFVRAIDSIRPYALQASLSIQEDERLTERILSNVPMDDWMQKLESTFTNIDIAFSGGESTKQATDRAISLIQDVLQLNHTTTLLVTHGNLLTLILKHFDHTIGFNEWRALTNPDIYEITIDEQCIITRLWKASSK	PGPT0018030_4095	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
AK009_05840	444			hypothetical protein	ATGAAAAAAATGATATGTATCATATTCATTATTTGTTTTCTTACGCAATTGTCCACAACATATGCAGAATCCAACCAAAAACTAAATTATCCAAGCAATCGAAATAAGTCATTTGTGAGTGAGGATGTTTTTTATAAACAGTTAGATAAGAAAATCTATAAAGAATATAAAAATGCAGCATATAGTGTTCGGAAAAAAATCTTATTTAAAGAAGTGCCTGATGAAGAATTTTCTTTCCTAAAAAAAACAGCTGTCGGTTGTCGAAGTAGAGTGGTGCTTCAAGATTTTTTTGTTCACCCTGATCGCCAAGTTTATTTTTTCGCTTCTTTTACTCAAAATGAAGTAGAAGAGTTTCATAAGTACATCGTTATAGATGCAGAAACAAAGAGGGAGCTAAAGGAGGGTAAAAGTTATCATCATTGTGATAGTCCTTATAAAAAATAA	MKKMICIIFIICFLTQLSTTYAESNQKLNYPSNRNKSFVSEDVFYKQLDKKIYKEYKNAAYSVRKKILFKEVPDEEFSFLKKTAVGCRSRVVLQDFFVHPDRQVYFFASFTQNEVEEFHKYIVIDAETKRELKEGKSYHHCDSPYKK				NA	NA	NA	NA	NA
AK009_05841	816			hypothetical protein	ATGCATAATAGATATGTACATATATTAGAAAGCGGTGAAAGTATGGTTTCAAATACTGTAATTGCCAGCATCATCTTTCAACTCATTGTCTCGATTCTGGTCCCAATTATCGTACTCGTTTATTTCCGTAAAAAATATAATATTAATTGGAAAGTGGTCGGCATTGGTGTTCTTATCTTTATCGGATTTACCCAAATTCTTGAAACACCATTCCACCTATTTATGCGCGGTAATCCAACAATCGCTCCATTTTTAGAAAATCCGTTTGCCTTCGCAATTTATGGCGGATTGACTGCTGGTATTTTTGAAGAATTAGGACGCTTCGTTGCCTTCTTCTTCTTACTAAAAAAATATCTAGAATATAAAGATGGCTTCGCTTATGGAATTGGTCACGGCGGAATTGAATCTATTTTAATTGGCGGTTTTTCTGCATTACAAGCATTAATCTTTGCTAATTCTATTAACGATGGTAGCTTCGCTCAACTGATTGAACAAAAACCCGAACTCAGCATTTTACAAGACATGTTAATTCAGCAACCTGCCTACTTATACTTCCTTGGTAGCGTAGAAAGAATTATGGCACTCGTGCTTCAAATCGCCTTTACAATGCTTGTTTTATACGCAGTAAAACAGAAGAAATATATCTTCCTAGTATACGCTATACTATTCCACGCATTTGTAGACTTCTTTGCGGCACTTTACCAAACAAAGACAATCAATATCTTTGTTGCCGAAGGAATTACACTTCTGTGTACAATTGGTGCTGTCGTTCTTATTCGCAAAATGAAAGAGAAATTAATGAGTGTACCAGAGTAA	MHNRYVHILESGESMVSNTVIASIIFQLIVSILVPIIVLVYFRKKYNINWKVVGIGVLIFIGFTQILETPFHLFMRGNPTIAPFLENPFAFAIYGGLTAGIFEELGRFVAFFFLLKKYLEYKDGFAYGIGHGGIESILIGGFSALQALIFANSINDGSFAQLIEQKPELSILQDMLIQQPAYLYFLGSVERIMALVLQIAFTMLVLYAVKQKKYIFLVYAILFHAFVDFFAALYQTKTINIFVAEGITLLCTIGAVVLIRKMKEKLMSVPE				NA	NA	NA	NA	NA
AK009_05842	735	mta_3	COG0789	HTH-type transcriptional activator mta	ATGACAATGAAGGTAAAAGAAGTAGCTGATTTAGTTGGAATTAGTGTGCGCACACTGCATCATTACGATGAAATTGGGTTGTTAACCCCAGACGAGACGACAGAGTCTGGATATCGTCTGTATTCCAATGAAAATCTAGAGACATTGCAGCAAATTTTGTTTTTTAAAGAGCTTGGCTTCCCTTTGAAGAAAATTAAAGAAATTATCATGAGTCCATCATTTGATCGCGAAGAGGCACTACAGCTTCATAAGAAAATGCTTATTGAAAAGCGTGCCAGATTAGATAAGGTGATTGCGACGATTGATAAAACAATTCAGCATACAAAAGGAGAGATTGAAATGACGAACAAAGAGAAATTTGAAGGATTCGATTTCAGCCATAACCCATATGAAGAAGAAGCACGTGAAAAATGGGGAGACGCAGCTGTAGATAAAGCGAACGAATATGCAAAAGGTATGTCAAAAGAGAACCAAGAAGAGTTTAATACTATTTATAGAAATTTAGCGGTACTGAGACACGGTGCACCAGATTCTAAAGAGGCGCAGGGAGCAATCAAAGTATGGTACGATTACTTGCAAAACTTTAGTCACTATTCATTAGACGCTTTTAAGGGACTCGGTCAAATGTATGTCGCTGATGAGCGCTTCACGAAAAATATCGATAAGTTTGGCGAGGGGTTAGCGCAGTTTATGTGTGATGCGATGGAAGTTTATGCGGATCGTAATAAAAAGTAA	MTMKVKEVADLVGISVRTLHHYDEIGLLTPDETTESGYRLYSNENLETLQQILFFKELGFPLKKIKEIIMSPSFDREEALQLHKKMLIEKRARLDKVIATIDKTIQHTKGEIEMTNKEKFEGFDFSHNPYEEEAREKWGDAAVDKANEYAKGMSKENQEEFNTIYRNLAVLRHGAPDSKEAQGAIKVWYDYLQNFSHYSLDAFKGLGQMYVADERFTKNIDKFGEGLAQFMCDAMEVYADRNKK	PGPT0003175_7	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
AK009_05843	579			hypothetical protein	GTGAAAAAACAAATTTTACTTTCCCTTCTCACTATTTCCTTATTTGCAGGGTGCCAATCAGCGAACAAAGCTGAAATGGAACGTGAAGAAGGAAGCCGTGTTCTTGTTTCCAATAAAAACGACATGTATCATACGGAAAATACAAATACAAGACTCACAAGAGTCGGTTATTCTTCTAAACAAAAGCATGAAGTATCTAACAAACAAGTAGGGGCCATTAATCGCGAGAAAGTCGCTGAAATGATTACAAGCATGACAGTCAAACTTCCTGACGTTACAAACGCTGCTACACTCGTTACTGATGATGAAGTGTTCGTTGTATACCGTGCAAACACAACGGATCCGAAACTTGTAGCGGATCAAGTATATAGAGCTGCCTTGTCCATCGTCCCTCGCTATTATAAAGCATATGTATCAACAGACCAAAAGTTGATTTCCCAAATTCAAGGCCTTCAATCTGGCGCATTAAATGATACAGAATATACGCAAAGCCTCGATATGTTAAAACGTGAAATAAGTAAAAATCCTCATTTGAACAATACGGGGGATCAGACCTTGAATGATATGATTAAAAAGTAA	MKKQILLSLLTISLFAGCQSANKAEMEREEGSRVLVSNKNDMYHTENTNTRLTRVGYSSKQKHEVSNKQVGAINREKVAEMITSMTVKLPDVTNAATLVTDDEVFVVYRANTTDPKLVADQVYRAALSIVPRYYKAYVSTDQKLISQIQGLQSGALNDTEYTQSLDMLKREISKNPHLNNTGDQTLNDMIKK				NA	NA	NA	NA	NA
AK009_05844	312	yutD	COG4470	putative protein YutD	ATGATGGAGCAAAAGCAAGAGCAAGAGATTCATGCTACGGTGAGCATTAATAATGTTCAGTACGAAGTAATTAAAAACTTTCGTGACGGTTTTAGTGAAGAAGCATTTAAAGAGCGCTATGCAGAAATTTTAAATAAATATGATTATATCGTTGGAGACTGGGGATATGAGCAACTTAGACTGCGAGGATTCTTTGATGATAGTAACCAACGTGCGACATATGATACGAAAATTAGTACGTTAACGGAGTATTTATACGAGTACTGTAACTTCGGTTGTGCACACTTCGTATTACGAAAAGTGAAGAAATAA	MMEQKQEQEIHATVSINNVQYEVIKNFRDGFSEEAFKERYAEILNKYDYIVGDWGYEQLRLRGFFDDSNQRATYDTKISTLTEYLYEYCNFGCAHFVLRKVKK				NA	NA	NA	NA	NA
AK009_05845	498			hypothetical protein	ATGCAGAAAGTACAACTTTCTTGGAGTTTATATGAAAATCAGCAACACACAATCGAAAAATATTGTAAAAATTGCGGACGTACTACCCTATTTACTGATACGAATATTCGTAGGCATAACGCCAATGGAAAAAACATATACCGCTTTGCTATTTATAAATGTCCGAAAGATCATACGTGGAATCAAAAACTGCGTATTTATAAATCATTTACTGATCACGTTGAAACGATCGATATGACCCAGCAAGATCAAACGGAAACAAGTACTACTATTTCCATTATGCAACATAAAGAAAACGGCATAGCCGAAATCACGATTGTATTAGACCTCATTTTTGGTTCTCACCGAATGGATAAGGCCTTATCCACATATATCTCTGATTGGAGCCGTACACTCATTGTGGATAAAATTAAAAATGGGGATATTCAATTGAACGGACAACAAATGAAGCCAAATACAATACTTTCTGAAGGCGATCATATCTCGATTTGTTTATAA	MQKVQLSWSLYENQQHTIEKYCKNCGRTTLFTDTNIRRHNANGKNIYRFAIYKCPKDHTWNQKLRIYKSFTDHVETIDMTQQDQTETSTTISIMQHKENGIAEITIVLDLIFGSHRMDKALSTYISDWSRTLIVDKIKNGDIQLNGQQMKPNTILSEGDHISICL				NA	NA	NA	NA	NA
AK009_05846	267			hypothetical protein	ATGGAAGAACGTTTCTTTCTGTACGACGACACTGTCGCTACAAAAACTCGTTTCGTTAGCTTTATGGGAGAAAATGAGCGTCATGATTTAGCGCTTTTATATTCCGATCGTCATTACGGTAAAACAATTGTACTTGATATGCAAAGTAATAAATTTGCAATTATCGGTGCTGACGATTTAAACGAACCAGGCTACTTAGAGCACGCATTTTCTATGACTGAAGAAATTGCAGAAGAGTTACGCTCATTTTTATTTGAACTTATATAA	MEERFFLYDDTVATKTRFVSFMGENERHDLALLYSDRHYGKTIVLDMQSNKFAIIGADDLNEPGYLEHAFSMTEEIAEELRSFLFELI				NA	NA	NA	NA	NA
AK009_05847	972	glpX_2	COG1494	Fructose-1,6-bisphosphatase class 2	TTGGAACGTGAACTCGCACTAGAAATTGTCCGTGTAACAGAAGCAGCAGCATTAGCATCCGCACAGTGGATGGGCCGCGGAAAGAAGAACGAAGCAGATGATGCAGCAACTACAGCAATGCGTGATATGTTTGATTCAGTAAACATGGCAGGTACAGTTGTAATCGGTGAAGGAGAACTTGATGAAGCACCGATGTTGTATATTGGTGAAGAACTAGGAACAGGTAACGGTCCAGAAGTAGACATCGCCGTTGACCCATTAGAAGGTACAAACATCGTTGCAAAAGGTCTTGCAAATGCAATGGCAGTTATTGCAATCGCAGACAAAGGGAACCTTCTTCATGCTCCTGATATGTACATGGAAAAAATCGCGGTTGGTCCAAAAGCAGCTGGTAAAATTAGCTTAGATGATCCAATTGAAAAAACAATTGAAATTGTAGCAGAAGCTAACAATAAAAAGATTCGTGATCTAACAGTTATCGTTCAAGAACGTGAGCGTCATCAAGATATTATTGACCGTGTTCGTGCAAAAGGTGCACGCGTAAAATTATTTGGTGACGGTGATGTTGGTGCGTCAATCGCAACAGCACTACCTGGAACGGGTATCGACTTATTCGTAGGTATTGGCGGAGCTCCAGAAGGTGTTATTTCTGCAGCAGCATTAAAGTGCCTTGAAGGTGAAATGCAAGCTCGCTTAGTTCCAATGAACGAAGAAGAAGAAGCTCGTTGTCGTGAAATGGGATTAGAAGATCCTCGTCAACTTCTTATGTTAGACGATTTAGTATCTGGTGATGATGCAATCTTCTCAGCAACAGGTGTATCTGCTGGTGAGTTATTAGACGGCGTGAAATTCCTAGGCGGAGATTTAGCTGAAACATACTCTATCGTAATGCGTTACAAAACAAGAACAGTACGATTCATTAAAACGCATCACCATTTAGATCATAAACCACACTTAAACTTAGATATTTAA	MERELALEIVRVTEAAALASAQWMGRGKKNEADDAATTAMRDMFDSVNMAGTVVIGEGELDEAPMLYIGEELGTGNGPEVDIAVDPLEGTNIVAKGLANAMAVIAIADKGNLLHAPDMYMEKIAVGPKAAGKISLDDPIEKTIEIVAEANNKKIRDLTVIVQERERHQDIIDRVRAKGARVKLFGDGDVGASIATALPGTGIDLFVGIGGAPEGVISAAALKCLEGEMQARLVPMNEEEEARCREMGLEDPRQLLMLDDLVSGDDAIFSATGVSAGELLDGVKFLGGDLAETYSIVMRYKTRTVRFIKTHHHLDHKPHLNLDI	PGPT0017655_1242	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
AK009_05848	441			hypothetical protein	ATGTATTTTGTAGACAGAAAGAAAATAGAACAAATGCTAGTATGTTTAGAACGAGCAACAAGTACATTTCAAGAGAAAAAGATATATGAAACCGAGTTTGAATTTTACGCATTAGAGCGCATAGCCCATCTTATTATTGATACTGTATTAGATGTAGGAAATGCGATGATTGATGGATTTATTATGCGCGATCCAGGAAGCTATGAAGATATTATTGATATTTTAATGGATGAGCGAGTGATAAGTGAAGAAGATGGACAAGGGATGAAAGAAATTATCCTTCTTCGAAAAATGCTTACGCAAGATTATATTCAAATGAATCATGATGAATTATATAAGACGATTCAAAAACATATTGCAGTGGTAGAAAAATACCCAGCAAATATTCGCAGTTATTTAGAAAAGGAATTAGGACCTGTATCTGCATTTGTACCAGAATAA	MYFVDRKKIEQMLVCLERATSTFQEKKIYETEFEFYALERIAHLIIDTVLDVGNAMIDGFIMRDPGSYEDIIDILMDERVISEEDGQGMKEIILLRKMLTQDYIQMNHDELYKTIQKHIAVVEKYPANIRSYLEKELGPVSAFVPE				NA	NA	NA	NA	NA
AK009_05849	633			hypothetical protein	ATGGGGGAAGCACGTACTACGAAAGACGAGATTGTACAATTGTTGAAAGTAAAGGGAGAGCACACAGTAGCGGAACTAGCTGACGTTTTAGAGATTACAGAAATGGCAATCAGAAGACATTTAAGTAATCTTGAGAAAGATGGACTCATTTATTCTAAGATGGTAAGGCAACATGTCGGAAGACCAACTTATTTGTATGGATTAAGTGAAAAGGGAGAAGATACATTCCCGAAAGAGTATAAGCAATTTGCGATTGATATGCTAGAAGATTTAGCTCGGATGGGCGATGAAAAAATACTTCAATATGTTTTAAAAGAAAGAACGAAGCGTATGGAAGAACAGTTGCAAAAGCGAGTGAGTAATCAAAAGAATTTAGCATATAAAGTGCAAGAGATAGCAGCTATGCAAGAGAAAAATGGTTATATGGTTCAAATAAAGAGAGATGGAGAGAAATCTTTCGTAATTGAAAAACAAAACTGTCCGTTAAAAGAAATTGCAGAGAGATTTCCGCAAGTATGTAAAGATGAAAAAGAGATGTATAAGCGTTTATTTACGAACGCAGATGTGAAAACGCTAGCAAACATGTGCGAGGGCGATTGTAGTTGTTCTTACCAAATAAAAGAGAAAAAATGA	MGEARTTKDEIVQLLKVKGEHTVAELADVLEITEMAIRRHLSNLEKDGLIYSKMVRQHVGRPTYLYGLSEKGEDTFPKEYKQFAIDMLEDLARMGDEKILQYVLKERTKRMEEQLQKRVSNQKNLAYKVQEIAAMQEKNGYMVQIKRDGEKSFVIEKQNCPLKEIAERFPQVCKDEKEMYKRLFTNADVKTLANMCEGDCSCSYQIKEKK				NA	NA	NA	NA	NA
AK009_05850	765	yutF	COG0647	Acid sugar phosphatase	ATGTATAAAGGTTACTTAATTGACTTAGACGGTACGATGTATCGCGGGGAAGAACAAATTGAAGAAGCAAGCGACTTCGTCAAAGCATTAGGAGAGCGCGGCATTCCATATTTATTCGTTACGAATAACTCAACTCGCAAACCAGAACAAGTGGCAGAAAAGCTTGTTCGTTTCGATATTCCAGCGAAAGCGGAGCAAGTATTCACAACGAGTATGGCGACTGCGAACTTCATTTATGAACGTAAACAAGATGCAACTGTATATATGATTGGTGAAGAAGGCTTACACGATGCACTTGTGGAAAAAGGATTTGAACTTGTGGATGAAAATCCTGATTTCGTTGTTGTTGGTTTAGATCGTGACATCACATATGAAAAATTAGCAAAAGCGTGTCTTGCTGTGCGTAACGGCGCGACGTTTATTTCTACAAATGGAGACATTGCCATTCCGACTGAGCGCGGATTGTTACCAGGTAACGGCTCATTAACATCAGTTGTAGCAGTATCAACAGGTGTGGATCCAATCTTTATCGGAAAACCAGAATCAATCATTATGGAACAAGCTTTAAAAGTTCTTGGCATAGAAAAAAATGAAGCATTAATGGTTGGGGATAACTATGATACAGACATTTTAGCAGGAATAAATGCTGGTATGCATACCCTTCTTGTCCACACTGGAGTCACAACTGTGGAGAAGTTAACAGAATATGAAGTACAACCAACGCAAGTTGTGCATAACTTGACGGAGTGGATTGAGAAGATGTAA	MYKGYLIDLDGTMYRGEEQIEEASDFVKALGERGIPYLFVTNNSTRKPEQVAEKLVRFDIPAKAEQVFTTSMATANFIYERKQDATVYMIGEEGLHDALVEKGFELVDENPDFVVVGLDRDITYEKLAKACLAVRNGATFISTNGDIAIPTERGLLPGNGSLTSVVAVSTGVDPIFIGKPESIIMEQALKVLGIEKNEALMVGDNYDTDILAGINAGMHTLLVHTGVTTVEKLTEYEVQPTQVVHNLTEWIEKM	PGPT0005420_1009	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
AK009_05851	582	kefF		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGAAACATGTAATCGTTTATGCACACCCAAATACAGAAAGCTTCAACCATGCAATTTTAGAAACGGTAAAAAGTGAATTAGAAGAAAAAGGTCATGAAGTACGCGTTCGCGATCTATACGAATTAAACTTCAATCCAGTATTAAGCGCTTCCGATTTCATCTCATTTTCTCAAGGAAACACACCAGAAGATATTAAAGAAGAGCAAGAGCATATCTCTTGGGCTGATAGCATTACATTCATTTATCCAGTTTGGTGGGCGGGACTTCCTGCTATTTTAAAAGGATACGTTGACCGTGTATTTAGCCATGGATTCGCTTATGCTTACGGTGAAAACGGCATTGAAAAGTTATTAAGCGGTAAAAAAGGATTGTTATTATCTACAATGGGCAATACGAAAGAAGCATACACAGCAGGCGGGATGTTTGACGCAATGAAGAAAACAGTGGATGTTGGTATTTTTGAATTTACAGGCATTGAAACAATTGAGCACACATTCTATACTAGTGTTCCTTCTGTGGATGATGGTGTGCGTAAACAATATCTTGAAGAAGTTAAAGATGTTGTGAATCGTGCGTTTTAA	MKHVIVYAHPNTESFNHAILETVKSELEEKGHEVRVRDLYELNFNPVLSASDFISFSQGNTPEDIKEEQEHISWADSITFIYPVWWAGLPAILKGYVDRVFSHGFAYAYGENGIEKLLSGKKGLLLSTMGNTKEAYTAGGMFDAMKKTVDVGIFEFTGIETIEHTFYTSVPSVDDGVRKQYLEEVKDVVNRAF	PGPT0009455_2054	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK009_05852	816			hypothetical protein	ATGATTTTCGCCAGTGATCTTGATCAAACGCTTATTTATTCCCGGAAATCGTTTCGTGCCCCTATAGAAGATGAATCAATTCAACTCATTGAAACTTTAGATGGGAAAGAAATTTCTTTCATATCACATAAAACCATTTCACTACTAAAAAAATTACAACTGCACTCACATTTCATCCCAGTTACAACAAGAACTATTGAGCAGTTTCAGCGTATTACTTTATTCCAAAACGAAATCATTCCCGAATACGCCATTACAAGTAACGGCGGTAATATCCTTCATAACGGTAAACAAGATGGTACTTGGAACAGGACAGTAAAAGAAAGACTATCGGTTGAATGTATAGAGAGAAACGACATACTAAAGGAATTTGGACAAATTGCTCATAAAGATTGGGTTATATCACAAAAAACAGCCGATGATCTATTCCATTATTGCATCATTAAACGGGAGAACATTCCTTATGATGAATTATCATCCTTCACTTCCTGGTTAGACAAACAAGGCTGGAATCATTCACTTCAAGGTAGGAAGCTATACTTTGTACCAAAACCAATTAACAAATGGGATGCCGTGCAATATATAAAAGAAATTTTGCAAATAGATACGATTATTACAGCTGGGGATTCTTTACTTGATTTATGCATGCTTGAAAAGGCGAACCATGCCTTCGCACCACTTCATGGTGAGTTAGGAGCAATGCATGATAACTTACAATCCTATATTTTAAAAACAGACGCAATCGGCATATATGCCGCAGAAGAAATCGTAAATAAATCACTTCAAATTATTCACAGTTCATTACCTACCTCATGA	MIFASDLDQTLIYSRKSFRAPIEDESIQLIETLDGKEISFISHKTISLLKKLQLHSHFIPVTTRTIEQFQRITLFQNEIIPEYAITSNGGNILHNGKQDGTWNRTVKERLSVECIERNDILKEFGQIAHKDWVISQKTADDLFHYCIIKRENIPYDELSSFTSWLDKQGWNHSLQGRKLYFVPKPINKWDAVQYIKEILQIDTIITAGDSLLDLCMLEKANHAFAPLHGELGAMHDNLQSYILKTDAIGIYAAEEIVNKSLQIIHSSLPTS				NA	NA	NA	NA	NA
AK009_05853	1113	stiP		Cysteine protease StiP	ATGGTAAAAGTAAATTCTCACATTAGTAGTTATGATCCAAATGATGCTATTTTTCTATTAAAAGATATTAGTGATTTAATGAAAGAAAGTTCCACAGAAACTAGAGAACAAGCAATTCAAGCTGGCACACATTATTCTGAAATGTTACCAATGGAATATAAACCATCTAAAGCGTATATGGATTTATTCTTTTCTTCTCTGCAACAATACAAACACAAACTAGCCATCGCTGTTGGAGTTGTCGCCGAACAAATTATACAGACTAAAGGAACTAACCTTGTCCTCGTTTCATTAGCTCGTGCTGGTACACCTATTGGCATTCTTATAAAACGCTACATACGCTATCAATACAACCTTGATGTACCTCACTATTGTATTTCTATTGTTCGCGGACGCGGTATTGATGAAAATGCACTCCATTATATTTTGGAACATCACCCTAAAGAAACAATTCAATTCATTGATGGATGGACTGGGAAAGGTGCAATAAAAAAAGAATTAGAATATGCAGTACACACATTTAACGAACGAAATAATACACACATTTCTCATTGTATGGCTGTGCTTGCTGATCCCGGTTACTGTACTTCAATTTACGGTACACGTGAAGATTTTCTTATTCCTAGCGCTTGCTTAAATGCAACCGTCTCTGGACTCATTAGCCGCACTGTACTAAATGATACCTACATTGGTCCATATGATTTTCATGGTGTTAAATATTATAAAGAGCTAGAACAAGAAGACTTATCAAATTTCTTCATTGATGAGGTGACAGATTTATTCCCTTCTGTTCATTCTCATATAGATAATCAATTACGTTATATTACTTCAACTTACACTGATCCCTCTTGGCAAGGATTAAAAGATATACAGTCTATCCAAAGTCACTTTGAAATTGACGATATTAACTTAATCAAACCAGGAGTCGGTGAAACAACTCGCGTATTACTCCGGAGAATACCGTGGAAAATTTTAATATGTAAGCAAAACAATCCCGATTTAAAGCATATTTTACTTCTCGCTAAAGAAAAGAATGTCCCTATTGAAATCTATGAGAATATGACTTATTCATGTTGCGGGCTCATTAAGCCTCTTAGGAGGGAAACGTTATGA	MVKVNSHISSYDPNDAIFLLKDISDLMKESSTETREQAIQAGTHYSEMLPMEYKPSKAYMDLFFSSLQQYKHKLAIAVGVVAEQIIQTKGTNLVLVSLARAGTPIGILIKRYIRYQYNLDVPHYCISIVRGRGIDENALHYILEHHPKETIQFIDGWTGKGAIKKELEYAVHTFNERNNTHISHCMAVLADPGYCTSIYGTREDFLIPSACLNATVSGLISRTVLNDTYIGPYDFHGVKYYKELEQEDLSNFFIDEVTDLFPSVHSHIDNQLRYITSTYTDPSWQGLKDIQSIQSHFEIDDINLIKPGVGETTRVLLRRIPWKILICKQNNPDLKHILLLAKEKNVPIEIYENMTYSCCGLIKPLRRETL				NA	NA	NA	NA	NA
AK009_05854	1347			hypothetical protein	ATGAAAACAAACAATTCACCGATCTCCTTATTACAAACGCAAAGCAACACGTATAACGTTTTAAATAATATACAAGTTCATGTAGAAGTACGTGATAATCCATATAACTTAGCGCTAGACAATCTTTTTCAAATGGCTGCTAGAATAAATAAGAAACGTAGTTTTTTATTTGTGAGTACAATCCTTGGAAAGCATCTTCCTATTAAACCTGCAGTCTCTCTATCAAGTGGATTTGCTCTCGCTACAAGATATATGGAAATGCTACATAATACTTCTCATCCATTTCAAAAAGAAATTTTAAATCTCATTTCATTAGAAATTCATGAAATCCCAGAGGAAGTATTTCGTTATCAATATCCTCTGCAAGAAGAAGTTTTGTTCATCGGATTCGCTGAGACAGCGACAGCACTTGGTCATTCTATGTTTCAATGCTTTCAAAATGCAAAGTATGTACATACAACTAGGGAATCGATACCCCACCTAGAATCTGTCATTACATTTGAGGAAGAACATTCTCATGCAACATCGCACCGTTGTTATGTGGATGAAAGCTTTTTTCAAAACAGCAATCCTATTGTTCTCGTAGATGATGAGATGACAACAGGAAAAACAGCATTAAATATTATTAGATCGATTCAAAATAAATTCCCACGAGAAGAATATATTATTGCTTCTTTATTAGACTGGCGTTCTCATACTAATAGAAGACAATTTAAACAATTAGAAGACGAACTTCAAATTAAGATTCATGTTATTTCTTTATTAGAAGGCATTATTCATACAACTGGCCAACCATTGAATATTGCCAAAACAGATATTCAAATTGAAGAAACAAAACCTGATTTCAAAAAACATACCCTTACCTGCCCAAAATTACCCTATACATCAAATTATATAAAATATACTGGGCGATTTGGCATTTCAGCATATGAACAACAGCACATTCATTCTTTCGCTCAAGAAGCAGGAAAAACTTTAAAAAGAGAAAGAATTGGAAAACGAACACTCTGCCTCGGAACGGGTGAATTTATGTATATCCCAATGAAAATTGCTGCTGAAATGGGTGAAAATATTTTATATCAATCTACAACAAGAAGCCCTATCCATCCTGTTTCAAATGATGTGAACTACGCCATTCATAATCATTTCTCATATCCAAGTCCTGAAGATTCTACTATTACAAATTACTTTTATAATATTTCACCTCATGATTACGATGAAGTATTTGTTTTTATTGAACGTGATTTAGGAGAAGAAGCCCTATCTCCTCTTCTACAGCAGTTACAAACAGTTATTCCTTTTATTCATATCGTCTCATTTTCAAATAGCATAGAAAAGGAAGGTTGA	MKTNNSPISLLQTQSNTYNVLNNIQVHVEVRDNPYNLALDNLFQMAARINKKRSFLFVSTILGKHLPIKPAVSLSSGFALATRYMEMLHNTSHPFQKEILNLISLEIHEIPEEVFRYQYPLQEEVLFIGFAETATALGHSMFQCFQNAKYVHTTRESIPHLESVITFEEEHSHATSHRCYVDESFFQNSNPIVLVDDEMTTGKTALNIIRSIQNKFPREEYIIASLLDWRSHTNRRQFKQLEDELQIKIHVISLLEGIIHTTGQPLNIAKTDIQIEETKPDFKKHTLTCPKLPYTSNYIKYTGRFGISAYEQQHIHSFAQEAGKTLKRERIGKRTLCLGTGEFMYIPMKIAAEMGENILYQSTTRSPIHPVSNDVNYAIHNHFSYPSPEDSTITNYFYNISPHDYDEVFVFIERDLGEEALSPLLQQLQTVIPFIHIVSFSNSIEKEG				NA	NA	NA	NA	NA
AK009_05855	1104			hypothetical protein	TTGAATTACTTTTCTTATCTCTCCTCAGAAGAACGGCAAAATTTTTTCTATAAAGAACCTCTTAGTTTTTCAAAAAATATAGGAAAAGAACAACTAGCTTACGCACTAGGCGCTACACTATATACTCCTGGCACGAAAGAAACGATTGCGGAAGATATAATTAGAAAGAAACATGTGGATGCTACCTCAATTATTCTTTGTCTAGAGGACGCTATCAGCGATGAAGAAGTAAAACTTGCAGAGCAAAACATCGTCGTTCAAATACAGCAAATAGCCAACTTAGTCAGTGCCAACATACTAAATCAAGCAGACATCCCACTTCTTTTTATTAGAGTTCGACAGCCAAGTCAAATGAAGACAATTGTTACTGAATTAGGTAGTGCTGTTCATTGTTTATGTGGTTTTGTCTTTCCAAAATTCACACCGATTAACGGAAAGACTTATATCGATCAGCTTGCATGTATAAACGAGTTATACTCATTATCGCTATATGGCATGCCGATTTTAGAATCACCAGAAATTATGTATAAGGAAACACGGGCAGAATCATTATTACAAATAAAAGATTTACTAGATTCTTATCACGATTACATCTTAAATGTACGTATTGGTGCTACTGATTTTTCAAGTATATTTAGTATTCGGCGCAATAAATACACACCTATCTATCATATTACTGTTGTCCGTGATTGTATTTCAGACATTATTAACGTTTTCTCAAGGGCAACAAATGAATATATTATTTCAGGATGTGTATGGGAATATTTTTCTAATGATCATGAAGAAGGGCTCATTCAAGAGGTATCACTTGACCATGCAAATGGCTTAATCGGAAAGACAGTTATTCACCCATCTCATATTAAAGTTGTACAGGCAATGCACATTGTCACAATGGAAGATTATTTAGATGCGAGGTCAATTTTACAAAATGCAGATACGTATAATGGAGTGCTAAAAAGCAGTTTTTCTAACAAAATGAATGAAGTAAAGCCGCATTATGGCTGGGCTCGCAAAACCATTTTAAAATCTAATATTTATGGGGTGCTACATGAAAACAAACAATTCACCGATCTCCTTATTACAAACGCAAAGCAACACGTATAA	MNYFSYLSSEERQNFFYKEPLSFSKNIGKEQLAYALGATLYTPGTKETIAEDIIRKKHVDATSIILCLEDAISDEEVKLAEQNIVVQIQQIANLVSANILNQADIPLLFIRVRQPSQMKTIVTELGSAVHCLCGFVFPKFTPINGKTYIDQLACINELYSLSLYGMPILESPEIMYKETRAESLLQIKDLLDSYHDYILNVRIGATDFSSIFSIRRNKYTPIYHITVVRDCISDIINVFSRATNEYIISGCVWEYFSNDHEEGLIQEVSLDHANGLIGKTVIHPSHIKVVQAMHIVTMEDYLDARSILQNADTYNGVLKSSFSNKMNEVKPHYGWARKTILKSNIYGVLHENKQFTDLLITNAKQHV				NA	NA	NA	NA	NA
AK009_05856	480			hypothetical protein	GTGGATATACATAAGTTAACAGAGGAAGAAGCAAATGAGATAAATACGTGGGCGTACGAGGAACCATATAATTTATATAGTTTTTCAGGCGAGAAAGAAGTAATAAGAGAATTATTAGATGGAACTTATTATGGCTGTTGTAACGATCAAGAAGAGTTCATCGGCTATTTTTGTTTTGGAGAAAATGCACAAGTACCAGGTGGAAGAGATGCTAATTTATATGGTGGAGAAGATGTGATTGATATCGGACTTGGCATGAAGCCAGATTTAACAGGGAAGGGAATGGGAGAAATGTTTTTTCAAGCTGGAATAGCGTTTGCTGCTAAGGAATTTAATTCGAAGATGTTTCGATTAAGTGTAGCAACATTTAATACAAGAGCGATTACGTTATATAAAAATATCGGATTTAAGCAAGGGTCTATTTTTTTGAGTCGTGGAAGAGAATTTATGCTTATGGAATACGAAAGACCGTCAGCATGA	MDIHKLTEEEANEINTWAYEEPYNLYSFSGEKEVIRELLDGTYYGCCNDQEEFIGYFCFGENAQVPGGRDANLYGGEDVIDIGLGMKPDLTGKGMGEMFFQAGIAFAAKEFNSKMFRLSVATFNTRAITLYKNIGFKQGSIFLSRGREFMLMEYERPSA				NA	NA	NA	NA	NA
AK009_05857	492	ypjQ	COG1267	putative protein YpjQ	ATGAAAGAATCAAATCAACTACAAGAAAGAGCATTACAACTATTACAAGAACGCGGTGTAACAATTGACGATATTGCTGAACTTGTTCATTTTCTTCAAAAAAAATATCATCCAAATTTAGAGATGTCAGAATGCCGTTATAATGTAGAACGTGTACTATCAAAACGTGAAGTACAAAACGCACTGATTACAGGTATCGAACTCGATGTTCTTGCTGAAAAAGGAATGCTAAGTGAGCCGTTACAAGATATCGTAAAACGTGATGAAGGCTTATACGGAATTGATGAAGTTATCGCACTTTCTATCGTGAATGTATACGGATCTATCGGTTTCACGAACTTTGGATATATCGATAAATTAAAACCTGGTATTTTAGAATACTTAAATGATAAATCAACTGGAAAAGTGCACACGTTCCTTGACGATATCGTTGGCGGAATTGCTGCCGCTGCCTCAAGCCGTTTAGCGCACCGAGCTGATCACTCGGAATAA	MKESNQLQERALQLLQERGVTIDDIAELVHFLQKKYHPNLEMSECRYNVERVLSKREVQNALITGIELDVLAEKGMLSEPLQDIVKRDEGLYGIDEVIALSIVNVYGSIGFTNFGYIDKLKPGILEYLNDKSTGKVHTFLDDIVGGIAAAASSRLAHRADHSE	PGPT0007710_785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
AK009_05858	1002			hypothetical protein	ATGATTCAGCATATTTATGAGCATTATCACATGCATGTTAAAGAATTAATCCCCCTTGGCCCCTATAAAAGCTTTTGGATTCGCAACAAAATTTATGTACTTGTTCCAATTGGAGAAATGGAGGAAGAAGTACTTGTAGAGATGAAAAAGCTCAGTGATTATATGAACCAGCAAGGGGATATAACTGTAGCGACTTTCGTTCCGACTATACACGGCTACTATGTAAGTGAGATAGAAGAACAAAATTACTGCTTATTAAAAGGTATGCGCACGTTAGAACGACATGCTATGTCATTAGGAAGTGAGCTTTCTATATTCCATAAACGAGGTGCATTCTTTCCAGAAGAAATTGAGCAATTAAGCCGTATTGGTGAATGGAAAGCGTTATGGGAAAAAAGGCTCGATCAATTAGAAAAGTTTTGGCAATCACAAGTGATGAACCACCCTTCAGATGTATTCGATCAATTGTTTATTGAATCCTTCCCGTATTACTTAGGAGTTGCAGAAAATGCAATTCAATATGTTGTCGATACAGAAATGGATGATACGCCGCAACTAACGGATGCAGCAACAATTTGCCAAGAACGATTCACACCTTTATTATGGCATCAAACGAAGCGGCTCAAACTTCCTTTTGATTGGGTGTATGATCACCCAACTCGAGATATGGCAGAATTAATTCGCTATATGATGATAGAAAAAAAGAAAGACTGGGAGCAAACAATAATTCAATTTGTTACAGATTATGAACGTAATTATTCGCTATCCTCATTTGGCTGGCGCTTATTATTTGCAAGGCTCTTGTTCCCGCTGCACTATTTTGAAACGGTCGAACGATATTACCAAACTGGAAACGAAGAACAAAAAAGCATATATAGAGATCGCTTAGAAGCCATTTTACACGATGTGAACCGCTCAGAGCAATTTATGAAGCATTTTTATGGCTCACTTCGTTTACCAGTAGATAAGCTTGGGATTAGAAAATTAGATTGGCTATCTTAA	MIQHIYEHYHMHVKELIPLGPYKSFWIRNKIYVLVPIGEMEEEVLVEMKKLSDYMNQQGDITVATFVPTIHGYYVSEIEEQNYCLLKGMRTLERHAMSLGSELSIFHKRGAFFPEEIEQLSRIGEWKALWEKRLDQLEKFWQSQVMNHPSDVFDQLFIESFPYYLGVAENAIQYVVDTEMDDTPQLTDAATICQERFTPLLWHQTKRLKLPFDWVYDHPTRDMAELIRYMMIEKKKDWEQTIIQFVTDYERNYSLSSFGWRLLFARLLFPLHYFETVERYYQTGNEEQKSIYRDRLEAILHDVNRSEQFMKHFYGSLRLPVDKLGIRKLDWLS	PGPT0025265_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025265-yutH-NA	NA	NA
AK009_05859	216			hypothetical protein	ATGCCAAAAATGGGGAACACTTTTTTAACAATTCAAGAACTAGAAAAGAAAAAAGAGTATTTATTAGGCCTTTCATCCGTTATACCAACATGGAATACAAGCTATCAATTTTTATTTAAAGAAATCCAGCAAGAATTATTGGGTAAAGTAAATGAAAAACTCGAAAAACATCAATTCGTTTTAAATATATGTACAGATCAACAGGTAGGGGCATAA	MPKMGNTFLTIQELEKKKEYLLGLSSVIPTWNTSYQFLFKEIQQELLGKVNEKLEKHQFVLNICTDQQVGA				NA	NA	NA	NA	NA
AK009_05860	237	nfuA		Fe/S biogenesis protein NfuA	ATGGAAAACCCACATATGCAAGAACAAGTATTAGAAGTATTAGATAAATTACGTCCATTCTTACTTCGCGATGGCGGAGACGTTGAATTAGTAGACATTGAAGAAGGTATCGTAAAACTACGCCTTATGGGTGCATGCGGAAGCTGCCCAAGTTCTACAATCACACTAAAAGCTGGTATCGAGCGCGCGTTACTTGAAGAAGTACCAGGCGTTATCGAAGTAGAACAAGTATTTTAA	MENPHMQEQVLEVLDKLRPFLLRDGGDVELVDIEEGIVKLRLMGACGSCPSSTITLKAGIERALLEEVPGVIEVEQVF	PGPT0012225_450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK009_05861	309			hypothetical protein	ATGGTTAATGTGCAAGTGTATGGGACGAAAGTAATTTGTGCGAGCTGCGTCGGAATGCCATCTTCAACAGAAACGTTTGAATGGTTACAAGCGGCAATTGGTCGTAAATATGAAGGACAAGAAAATAAATTTAATTTCGAGTATATTGATTTTCAAGAAGAACAAGAAGATGAAGATAAGAAAGCATTCGCTGAGCGCGTAGTGGAAGAAGATTTATTTTATCCGGTCGTTCTTATAAATGGAGAAATTGTTGGAGAAGGAAATCCTCGCTTGAAGGATGTTTACGAAGAAATCGAGAAATATTTATAA	MVNVQVYGTKVICASCVGMPSSTETFEWLQAAIGRKYEGQENKFNFEYIDFQEEQEDEDKKAFAERVVEEDLFYPVVLINGEIVGEGNPRLKDVYEEIEKYL				NA	NA	NA	NA	NA
AK009_05862	795			hypothetical protein	GTGAAAAATGGAGTGAAGCATGCGTTACCAACGGAAGTACAACAGTTAATGGAGCGGTACACAGTAGAATTAAAAGAAATTTTTTTAGATGAAAAAATAGTCGGGGTATATATTTACGGATCCATCGCACTAGGTGCATTTCATAAGGAAACGAGTGATGTTGATTTTGTTACAGTGATAAATGATTCCGTGAATGAAGCTGAAAAACAGCAGATTGTGGAACTACATAAGAAGCTTAGTGATAATACACTAGGTAAAAGAATGGATGGTATGTATATTCCGCTTGTTGATTTAGGGAAATACAATGATGAAATAAACGAGTATGTGTATTGTGCAGATGGTAAAGCTAATGTTGGTCATTGGGACATTAATGCGGTCACATGGTGGACGTTGAAAAATCAAGGCATTACAGTTACCGGAAAAGAAGCAGAAGATCTTCCGTTGCAAATACAATGGAATGATGTAGTAAATACGATGAAATATAACGTAGAACAGTACTGGAGTGAAAAGGCGAAGAAGCCATATTTATTTTTTATAGAAGATTGGATAGAATCAGCTGTCGTTACGATGGGACGTATTTTATATACACTAGATTATAAAACAATCGTTTCAAAAGATAGAGGATTGCAATACTTGTTAGAAAGTTCAGCGGAAGAATGGGAGCTTTTATTAAAAGAAGTAGAGCGAATACGGCACAATCCAAAAGAAAAGCGAATGCTCTCAAGGTGGAGAAGGGCAGATATGACGAAGAGGTACTTACTGCATTTAATTGAGACGTGTAGAGAGAAATGGTAG	MKNGVKHALPTEVQQLMERYTVELKEIFLDEKIVGVYIYGSIALGAFHKETSDVDFVTVINDSVNEAEKQQIVELHKKLSDNTLGKRMDGMYIPLVDLGKYNDEINEYVYCADGKANVGHWDINAVTWWTLKNQGITVTGKEAEDLPLQIQWNDVVNTMKYNVEQYWSEKAKKPYLFFIEDWIESAVVTMGRILYTLDYKTIVSKDRGLQYLLESSAEEWELLLKEVERIRHNPKEKRMLSRWRRADMTKRYLLHLIETCREKW				NA	NA	NA	NA	NA
AK009_05863	1275			hypothetical protein	ATGGGATTTTTAGAAGTCGTAGGGAGTTTGTTATTTTTTGCATCACTTGTTTTATTAGTAATTTCATTAGTAAGTAAAATTAGAAAAAAACCAGCAAAAATATGGATAAAAAGAGCTATTATTTCATTTGTATTAGCAATGGTAGTATTAGGATTTAATGTCTCATTTTTAGGTGGAATAGCGGTAATATTTTTCTTTATGGGCTTATATGGTTTAGCTAAAATCATTCAACTATTGGTTAAAAAGAAAGATGGTAAAAAGAAATTTGCTATTCTTATGGTCATAGGATTTGTAGGATACTCTATTTTTGATAGTTCTTTTTTATTAAATGCAACTTACAATAAGCCTGCTGAAAAAGTTGCAAATGCAAAACAAGAAGAAAAGAAAGAAGAAAAGAAAGAAAAGGTTACATACAAGAAATATGGTATCGAAGAAATAAAATCGATGTTTACAGTCGGAATGACTAAAGAAGATTTTTCTAATAAAAAAGAAGAAGCAAGTCTTAATAATCGCTCCTTTGAAGATTACGAAGGATATTCTGTATACACTTTCAATTCCTCTGAAGGTAAAATAGCGGCTGTTGTTTTAAATAAGACTGCTGTTACAAAGATTGAAGTTTTTGATAATGAGGATTCTATTGCAAACTTTATTAAAGAGGAAGAAGTTAGAATTAAAGAAGAGCAAAGGATTATTAAAGAAAAAGAGCAGGAAGAGTTAAAGAAAAAACTTGAAGAATCATACAATAATAGTAAACAAAAACTAGAAGGATCTGGAGATTCTGTTACAAGTAAAATTAATTTGAATTCAGGTTTAGCATTCTTTGAGTTTACCAATCAAGGTTCAAGAAACTTCATCGTTCATCTAAAAGATTCTTCGGGTACAGCTACTCAATTATTAGTAAATACTATTGGGAGCTATAAAGGAACAGTCCAAACAACGGTTCCTTCATCTGGAGAGTACTATTTAGAAGTGAAATCAAGTGGAGGTTGGAGTAGCTCGGTAACCCAAAAGGCTTCTCCAAATAGAGAAAAAGCACCAGGCACAGTTAGCGGTCATGGGGACGATGTGGTATTTATCGAAGTACCAAGTGGTAACCACATAATTAAACTTAAACATACGGGCTCAAGAAACTTTATTATTAAAGTGAATGATAAAAACTTGCTTGTTAACAAAATTGGAAGTTATGAGGGCTCAGCTTCTCAAGTATTCCAAGACACAGGAATGTATAGCTTTGGTGTTAAAGCTGACGGAGATTGGAGCATTACAATAGAATAA	MGFLEVVGSLLFFASLVLLVISLVSKIRKKPAKIWIKRAIISFVLAMVVLGFNVSFLGGIAVIFFFMGLYGLAKIIQLLVKKKDGKKKFAILMVIGFVGYSIFDSSFLLNATYNKPAEKVANAKQEEKKEEKKEKVTYKKYGIEEIKSMFTVGMTKEDFSNKKEEASLNNRSFEDYEGYSVYTFNSSEGKIAAVVLNKTAVTKIEVFDNEDSIANFIKEEEVRIKEEQRIIKEKEQEELKKKLEESYNNSKQKLEGSGDSVTSKINLNSGLAFFEFTNQGSRNFIVHLKDSSGTATQLLVNTIGSYKGTVQTTVPSSGEYYLEVKSSGGWSSSVTQKASPNREKAPGTVSGHGDDVVFIEVPSGNHIIKLKHTGSRNFIIKVNDKNLLVNKIGSYEGSASQVFQDTGMYSFGVKADGDWSITIE				NA	NA	NA	NA	NA
AK009_05864	669			hypothetical protein	ATGAGTAAATATAAATTACATATAGATAAAGAACAACTATGGAAAGGCTGGGTTTTAAATTCGATTGCCCATGCAATTAATGTAGCGCATTGTCCAGATTTCTCACATGAAAGTTCATGGGATGGATTTAACTATAGTATGCAAAATACTCAAGGCGGACAAGGGACAATTACGTTTCATCCGAATTACACGATCGTATGTCTTCAAGATGTGAATAGCGAGAGAATTGATGAGTGGATTGATGCGAAAGATTATTTTGAAGGGGCACCTTCGGAAGTAATAGATATTGCGAAAGAAGAAGCACTTCAATACGTATTAGAAGAAGTAGAAGGCGAAACAGTTCCTTTTATTACAACTGCATTTTGGATTGAGGATAGCGGTGCGTATTCAATTGATTCATTTGAAGAGATGGAAGAGCACGGCGGATTCTTATTAGAAATTCCATTACTTGATACAGAATCAGCAATAGAAAGACTGGAAGAAGAGTATGAACTGACAGAGGAACAAATAGAGCTTTTACAACTCGTGTATAAGAAAAAAATCCAAAGTCCAAATGAGGAAATTAAGTTGTCTAAAGAAGAAATAGCAATGATTGGAACGGAAGATAGCGAAGGATTGGAAGTTAGTAAGGAGTCATTTGAAGAAATGAATATTACTTGGGAGTTGTAG	MSKYKLHIDKEQLWKGWVLNSIAHAINVAHCPDFSHESSWDGFNYSMQNTQGGQGTITFHPNYTIVCLQDVNSERIDEWIDAKDYFEGAPSEVIDIAKEEALQYVLEEVEGETVPFITTAFWIEDSGAYSIDSFEEMEEHGGFLLEIPLLDTESAIERLEEEYELTEEQIELLQLVYKKKIQSPNEEIKLSKEEIAMIGTEDSEGLEVSKESFEEMNITWEL				NA	NA	NA	NA	NA
AK009_05865	387			hypothetical protein	ATGAATATGACGAGGAATAAGTCTCGCTCTAAAAAGGATCAAGATTTCATTACAAATTTACACGCCACTTTAAAACCACTCGGCTTTAAGAAAAAAAGACATACATTTTTCAAAGCTGAAAACGGATTTTATAAGCTCATTAACATACAAAAAAGCCAGTTTGGAGATGAATTCTATATAAATATAGGAGTCCACCCTATCGGTCTCCCGCAGCTTATTACGGACCAATTACAATTAAAAGAAAACATTTCAATATTCGATTGCATTCTACAAACGAGAATAGAGCCTATGCATATCAAACAGAACCAGTTATTGCATAATGTTTCACATGAAACTATCGCTATTCCGAATTACCTTTCTACTATTTTCGACTGGTTTCAAACGTGA	MNMTRNKSRSKKDQDFITNLHATLKPLGFKKKRHTFFKAENGFYKLINIQKSQFGDEFYINIGVHPIGLPQLITDQLQLKENISIFDCILQTRIEPMHIKQNQLLHNVSHETIAIPNYLSTIFDWFQT				NA	NA	NA	NA	NA
AK009_05866	471			hypothetical protein	ATGAAGAGTACAATTTGGGCAGAAGATGACTATTTAAAACTAGCACCCATTAACGACGAACTAATCAAAAAAGCAGAAGAGGTACTGAACGTAAAGCTTCCAGAATCATACATAAACCTTCTAAAAGAACAAAATGGGGGAACTCTTCGTCTTGATACTCACCCTACTTCAAAGCCAAATTCTTGGGCAGACGATCACGTTAATGTATCTGGTTTATATGGTATTTCTTTTGATGAAAATGAATCTAGTATTTTAGAGAGTCGCTATTTAATTCGAGAATGGGAAATGCCTGATAATATCGTACTTTTATCTGGTGATGGACATACATGGATTGCATTAGACTATCGAAATGTAGCTGAAAATCCTCCAGTTATATTTATCGATAATGAGTTTGAGGAAATTATTGAATTAGCACCTAACTTTGAAAGTTTCTTACAAAACTTAACTACGTATGAATATGACGAGGAATAA	MKSTIWAEDDYLKLAPINDELIKKAEEVLNVKLPESYINLLKEQNGGTLRLDTHPTSKPNSWADDHVNVSGLYGISFDENESSILESRYLIREWEMPDNIVLLSGDGHTWIALDYRNVAENPPVIFIDNEFEEIIELAPNFESFLQNLTTYEYDEE				NA	NA	NA	NA	NA
AK009_05867	1659	bamB		Outer membrane protein assembly factor BamB	ATGAAAAAGTTTCAAATCGAACTAAATAAACTGCCAACAGAAAATGTCGGAGAAATAGTACTTAGTATAGATGAGAGTATTGTATTTCAAGAAAAGACGGACATAATAGACCCGATTTGTCAGTTGTTTGATGCTTGTATCGAGGTTTTTAAATATGATGACGCTACAATTTTCTTAAATGAATATGAAAAAAAGATGGAATTTAAGAAGAAAGATGGGGAGTTTCTCATTATTAATCAGAGAGGCAAGAAGTTAGCTAGTGTTGATAGCGAGCAATTTTTACGAGTACTCTTTTCGTTTCTTAAAAAGGAGATAGGGCAGATTTACATGAGTGGAGTTGATTCTTTTCGAATCAAAGATGCTTACCATAGAATGTTAGGAATTGATCCATTTGTTCCTAAACTTGTAAATGGAAATGATGAAATTATGTATCGAACTTATCATTCTACAAGTGACAAGTATGAATTAAAATGGAAGTATTTAAAAGGGAGAGAGGTTGACCCGATATTTACTCCGGTACTATCTCATGATAAGAAGAGTATCTTTTATGTAGAGGGAAATAACCACAGAATTCGTAAACTCGATAGTGAAACGAAAGAAGAAATTTGGCAGTGCCATATTCCAATAGTAGAAGATTGTAATTGCATAACTGTGAATGGTGTCACAATTATTTGGTATGCGAATCGATTTGGAGAAAGTATGGCGAAATTGTACGCTATTTCATCAAGTTGTGGGGAGCTTCTATGGGATTTAGAAATAGAAGGGCATATTATACAAGATGTAAAAACTACGGGAGAAGAGTTACCACGTTTACTAGTTATTACACAAGAAGGCTACAATGTTTTATTAGAGCTTGAAAGTGGAGTGAAATTATGGGAAAAGAATGTCCGAGTCGGGGGAGAAATGGCGCAGTGTCATCTTGGCTCAGATTACTATGTGTTAGCAGGAAATTCTTTTGATGAAGATGGGGAAGCTGATGTATATAGTAACGTTGCAATTGCCATTCAATTATTAGACGCTTCTACACTATGGAAACAAATGATGGAAGATTGTAATCCAAATGAACCAGTTACTTTAACTAATGAACATTTTATATGTGTAGCAATAGATTCATTACAAAAGTGGGAATATGGAAAAGAAGGTTGTAACTTAATTTTTGAAAAAGCCTTTGATGAGGTACAGTACTCTTACATTGCATCAATGGAATCAAAAATACTATTAACAAGAACTGAGTATGAATATGAAGATGTAAGTAGACAAATACAATGTTATGACCATAAGAGCGGTCAAAAATTATATGAAGTAAATATGCCTTTTGAAATTGAATTACCTCCATTTCTTACTGGAGAGATGATGGTATTGTCCTTAGGAGAAGGCAGAATTTGCGGTATTAATATTCAAACAGGTAAAGTGATTTGGAACAATACGACTCTACATGATGTTACAAAGGTTCTGTTATATAAAGATGGAGAAATTTACATTGCTACTTCAAATTTAGAATTAATCATACTTGATGCTGAATGTGGCGAAGTGAAAGATATAATTAAACTCCCTAAAAATGTTGTTGTAATAGATTTTATTGTATCAATTGAGGAAGTTAATAATGGACTATTCATTAGTTGTGTAAGTGGAAATATGTTTGAAATAGTAGAAGGCTAA	MKKFQIELNKLPTENVGEIVLSIDESIVFQEKTDIIDPICQLFDACIEVFKYDDATIFLNEYEKKMEFKKKDGEFLIINQRGKKLASVDSEQFLRVLFSFLKKEIGQIYMSGVDSFRIKDAYHRMLGIDPFVPKLVNGNDEIMYRTYHSTSDKYELKWKYLKGREVDPIFTPVLSHDKKSIFYVEGNNHRIRKLDSETKEEIWQCHIPIVEDCNCITVNGVTIIWYANRFGESMAKLYAISSSCGELLWDLEIEGHIIQDVKTTGEELPRLLVITQEGYNVLLELESGVKLWEKNVRVGGEMAQCHLGSDYYVLAGNSFDEDGEADVYSNVAIAIQLLDASTLWKQMMEDCNPNEPVTLTNEHFICVAIDSLQKWEYGKEGCNLIFEKAFDEVQYSYIASMESKILLTRTEYEYEDVSRQIQCYDHKSGQKLYEVNMPFEIELPPFLTGEMMVLSLGEGRICGINIQTGKVIWNNTTLHDVTKVLLYKDGEIYIATSNLELIILDAECGEVKDIIKLPKNVVVIDFIVSIEEVNNGLFISCVSGNMFEIVEG				NA	NA	NA	NA	NA
AK009_05868	789			hypothetical protein	GTGAAGGACACTGTTTTACAAGAAACAATTTCTCAGCAAGAATTACATAAAGTTGTTCAAAAAAATACAGCTTATTATGATTTTAAGTGGGGTAAAATAGAAAATCCTGCGCAAGGGAATACATGGAATTGGGTAGCCTTTTTCTTCCCAACCTTTTGGTTAGCTTATCGTAAAATGTATAAGTTATTTATTATATTTGCGTTATTGGCTATACCTAGTATAGTTATACCCCCTTTTATAGATATTCCAGATGGGATTTATGTAACATTTAGTTTAGCTCTTCAATTAGGAATGATGATATTTACTGGATGGCAAGGAAACCGTTTATATTATAAGCATGCTGTTCGTGTTTTTCGTAAGGGAGAAGATGCGTCTGATCATGAGAAGGCGTATTTCTTACAATCAAAGGGCGGCGTTAGTGTAGCTGGTATGATTGGTTTACAGATTATAGTCGGGATTGTGTTTGGTTTAGCTGCGTTAGGGCTGTCCTTTTTACCAACTGAGCCGAATATTAAAAACGTTGTTCGTTCAAGTGATGAAGGGGTTACTTTAGAGATTATGACTGATAATCCAACTTGGAAGTTTGTGAAGAAAGAAAAAGAGTATGACGTAGTAGAGTTTACTGGTTATGATTATACAGAGAAGAAAAATGTGAAAATTAAATTTGCTGTTTATTTCGATGAAGATTATTTCGAGTGGCAAGAGGTATATGAAAATAATAAGAAGTTAAGTGAAGAAGAAGTAGAAGAATATCAAATTTATATTGAAGAAAATAATTGGGGTTTCTAG	MKDTVLQETISQQELHKVVQKNTAYYDFKWGKIENPAQGNTWNWVAFFFPTFWLAYRKMYKLFIIFALLAIPSIVIPPFIDIPDGIYVTFSLALQLGMMIFTGWQGNRLYYKHAVRVFRKGEDASDHEKAYFLQSKGGVSVAGMIGLQIIVGIVFGLAALGLSFLPTEPNIKNVVRSSDEGVTLEIMTDNPTWKFVKKEKEYDVVEFTGYDYTEKKNVKIKFAVYFDEDYFEWQEVYENNKKLSEEEVEEYQIYIEENNWGF				NA	NA	NA	NA	NA
AK009_05869	114			hypothetical protein	ATGATTTCAGCATTAATAGAAGCTCTAATAGGATCTATTAGTTTAAGTACGGGTTTACACACGAAAAAGATTGATGCTAACATACTTTACTTGCAGCAGTATGAGTGGTTTTGA	MISALIEALIGSISLSTGLHTKKIDANILYLQQYEWF				NA	NA	NA	NA	NA
AK009_05870	168			hypothetical protein	ATGATGTATGAAGACGAGAAGTATCGAAAGTTATTTATTACGAACTACAAAGTTCGCTCATATTTACAAAGTAAGCTGAGAGTTCGATTGCTGGTAAAAAATAAAAATGCACAACGAAGATTTTTAAAATTAGTAGAAGAGCAAATGGAAAAAAGGCATACGAATTGA	MMYEDEKYRKLFITNYKVRSYLQSKLRVRLLVKNKNAQRRFLKLVEEQMEKRHTN				NA	NA	NA	NA	NA
AK009_05871	342			hypothetical protein	ATGGCTACTTTACCAAATTGTCCAAAATGTAATTCAGAATATACGTATGAGGATGGCGTTCTTTTCGTATGTCCAGAATGTGCTCATGAGTGGGGCCAAGACGCAGAAGCTGAAAATAATGATGGTGCAAAAGTTGTAAAAGATGCGAACGGAAACGTTCTTCAAGATGGCGACGCTGTTACTGTTATTAAAGATTTAAAAGTAAAAGGAACTTCTTCAGTTGTGAAGATCGGTACGAAAGTAAAGAGTATCCGTCTAGTTGATGGCGATCACGATATCGATTGTAAAATCGACGGTTTCGGAGCTATGAAGTTAAAATCACAGTTCGTTAAGAAGGCGTAA	MATLPNCPKCNSEYTYEDGVLFVCPECAHEWGQDAEAENNDGAKVVKDANGNVLQDGDAVTVIKDLKVKGTSSVVKIGTKVKSIRLVDGDHDIDCKIDGFGAMKLKSQFVKKA	PGPT0030500_1013	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
AK009_05872	798	fetB	COG0390	putative iron export permease protein FetB	TTGAAGGGCGTTATTGAACTCCAAATTTGGCAACTGGCGGCTGCCTATATTTTTATCCTTATCTTAATTGGACTTGTAAAATTAAAAGGAATACCTCGTGAAAAACAAATCGCGCTCGCAACATTCCGTATGACGATTCAGCTCGTACTTGTTGCATATGTCCTTACATACGTATTTGAAAACAGTAATCCATTTTATACAATTGCTCTCATTACTTCTATTACTACCTTTGCAATTTTTAATATTTATAAACGAGTTAATATCCCAATGTCTAAAGAATTAAAACGAGTAGCCGCCCTTTCCATGGTCGCTGGATCAATTGGGCCACTTCTACTATTTATCTTTGTTATTATCGGTCATGACCCTTGGTATGCTCCGCAATATATCGTCCCTATTACGGGAATGTTAGTCGGTAATGCCATGACTGGTGTTTCTCTCGGCGCAAATACGTTCTTAAACAATATGAAATCGCAAAGAGGTCAAATTGAAGGTGCACTTATGCTCGGCGCAACACCGAAAGAAGCAGCTGCTCCGCTCATTCGAGACGCTTTTGATTCTGCTATTTTACCAACAATTAATTCTATGGTCGGAATGGGAATTATAAGCTTACCAGGCATGATGACTGGTCAAATATTATCCGGTGTATCACCATTCACAGCCATTCAATATCAAATCGCTATCATACTCGGTATTTCAGGAAGTACCGCTTTCGCTGTCATTATCTTTTTACAGCTTGGATATAAAACGTTCTTTAATAAGCGATGTCAGTTGAAAGAGGTTGACTATGATGCGAAGTGA	MKGVIELQIWQLAAAYIFILILIGLVKLKGIPREKQIALATFRMTIQLVLVAYVLTYVFENSNPFYTIALITSITTFAIFNIYKRVNIPMSKELKRVAALSMVAGSIGPLLLFIFVIIGHDPWYAPQYIVPITGMLVGNAMTGVSLGANTFLNNMKSQRGQIEGALMLGATPKEAAAPLIRDAFDSAILPTINSMVGMGIISLPGMMTGQILSGVSPFTAIQYQIAIILGISGSTAFAVIIFLQLGYKTFFNKRCQLKEVDYDAK				NA	NA	NA	NA	NA
AK009_05873	660	glnQ_3	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGTTTATATTAAAAGACGTTATATATAAAGATATCCTACACATTCCTTATTTACAGATTCAAAATGAAAAAATCACTTGCATTATCGGTGAAAGTGGAAGTGGAAAAAGCACATTGCTTCGCATGTTAAACGATTTACAATCTCCAACATCCGGTACAATTGAATATAACGGAAAGTTAATTTCTGATTATCCGCCTATTCAATTACGTCGTGACGTAGTTATGCTTGGGCAAACTCCACCTATTTTTGATGGAACCGTTAAAGAAAACCTATTAACGGGACTTCGTCTTTCTGAAAAACCATTTCCAAATGATGATGCCCTGCGGAGTGCATTACAAACCGTTAGCTTAGACAAGCAATTAGAAGATAGCGCCTCCTCATTATCCGGCGGTGAAAAACAAAGACTTGCCTTTGCTCGTATTGTACTTATGGATCCGCCTGTCTATTTATTAGATGAACCCACTTCAGCACTAGACAATGATACAGAACGCCGCGTTATGAAACAATTTACTGAACTAGCACGAAAAAAGAAAAAAACAGTTATCTTCATCACACACTCGCAACAACTTCCAAAAGAAATTGCAGACGACATTATTGAAATTAGTAAAACAAACGGTGCAACTAGAAAGGAAGTGCTCTCTATTGAAGGGCGTTATTGA	MFILKDVIYKDILHIPYLQIQNEKITCIIGESGSGKSTLLRMLNDLQSPTSGTIEYNGKLISDYPPIQLRRDVVMLGQTPPIFDGTVKENLLTGLRLSEKPFPNDDALRSALQTVSLDKQLEDSASSLSGGEKQRLAFARIVLMDPPVYLLDEPTSALDNDTERRVMKQFTELARKKKKTVIFITHSQQLPKEIADDIIEISKTNGATRKEVLSIEGRY				NA	NA	NA	NA	NA
AK009_05874	1071	yjlD_2	COG1252	NADH dehydrogenase-like protein YjlD	ATGAAACACCTCGTAATACTAGGTGGCGGCTACGGTGGAATGAGAATTCTACAAAGGCTACTTCCAAGCAACCAACTTCCAGATGATGTACAAGTGACATTAATCGACAAAGTACCATATCATTGCTTCAAAACTGAATATTATGCATTAGTTGCGGGTACTATTTCAGAAACACATATTCGTATACCGTTTCCCGAGCACCCACGACTCAATATTCAATACGGCACAATAACAAATATTGATCTCGAAGAAAAAGCTGTTCATCTCGATGGCGGCGAAGCGATCCAATATGATGATTTAATTATCGGTCTTGGCTGTGAGGATAAATATCATAACGTTCCTGGGGCGAAAGAATATACACATAGCCTACAATCGATTGAACAAACACGTAAGACATATGAACAATTAAATAGTCTAGAACCAAATGCAACAGTAGCTGTCGTTGGCGCTGGCTTAAGTGGTGTGGAAGTTGCCAGTGAACTTCGCGAAAGCCGTTCTGATTTAAAAATCTATTTATTTGATCGAAAAGATAGAATTTTATTCCCGTATCCAGAGAAATTAAGTAGATACGTAGAAGAATGGTTCGTAAAACATAAAGTTACTATTATAAGAAACTCTAACATTACAAAAGTGGAACCAAATATTGTGTATAACCACGATGAACCACTTGAATGTGATGCAATCGTCTGGACAGCTGGTATTCAAGCAAATGAAGTTGTTCGAAACCTTCCAGTTGAACAAGATGGTAGCGGACGGGTTGTCTTAACTAAATATCATAATATTCCAAATAACGAGCACGTGTATGTTGTAGGAGATTGCGCAGCACTTCCACACGCTCCATCTGCCCAACTTGCTGAAGGTCAAGGAGAGCAAATTGTCCAAATATTATTAAAACGTTGGAACAATGAACCACTTCCTGACGAACTACCTATAATCAAATTAAAAGGTGTTCTCGGCTCTCTTGGTAAGAAGCATGGCTTCGGTTTACTTGCAAACCAACCATTAATGGGACGTGTACCAAGATTATTAAAATCCGGTCTACTTTGGATGTACAAATATCATAAGGGTTAA	MKHLVILGGGYGGMRILQRLLPSNQLPDDVQVTLIDKVPYHCFKTEYYALVAGTISETHIRIPFPEHPRLNIQYGTITNIDLEEKAVHLDGGEAIQYDDLIIGLGCEDKYHNVPGAKEYTHSLQSIEQTRKTYEQLNSLEPNATVAVVGAGLSGVEVASELRESRSDLKIYLFDRKDRILFPYPEKLSRYVEEWFVKHKVTIIRNSNITKVEPNIVYNHDEPLECDAIVWTAGIQANEVVRNLPVEQDGSGRVVLTKYHNIPNNEHVYVVGDCAALPHAPSAQLAEGQGEQIVQILLKRWNNEPLPDELPIIKLKGVLGSLGKKHGFGLLANQPLMGRVPRLLKSGLLWMYKYHKG	PGPT0004020_5732	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
AK009_05875	240			hypothetical protein	TTGATTAAACCATTAATTGAATTTTGTGTAGGTAACCTTGCAAGTGGTTCACAAGCAGCTTTAGAGAAATTAGAAAAAGATCCGAATTTAGATGTAATGGAGTATGGTTGTTTAGGATATTGTGGCATTTGTTTTGAAGGACCGTTTGCACTTGTAAATGGTGAAGTTGTACAAGGTGCTACAGTAGAAGAACTGGTCAATAATGTATATGATTATTTGGATGAAAATCCAATGTTTTAA	MIKPLIEFCVGNLASGSQAALEKLEKDPNLDVMEYGCLGYCGICFEGPFALVNGEVVQGATVEELVNNVYDYLDENPMF				NA	NA	NA	NA	NA
AK009_05876	867	dapF_1	COG0253	Diaminopimelate epimerase	ATGAGCCAATTTTCTTTTACAAAAATGCATGGTCTTGGCAATAGTTATATATATGTAAATATGTTTGAAGAACAAATTCCTGAAGAAGATTTAGTTCTTGTGGCGGAAAAGGTTTCAAATATTAATACTGGTATTGGAGCAGATGGGATGATTTTAATTTGTCCATCTGACGTAGCTCCGGTGAAAATGCGCATGTTTAATAATGATGGTTCAGAAGGAAAGAGTTGTGGTAACGGTTTACGATGCGTAGCGAAATATGCGTATGAGCATAAACTAGTAGAAGAAACAGTTTTCACAATTGAAACGTTAGCTGGTATTGTAACAGCGGAAGTAACGGTAGAAGAAGGGAAAGTTACATTAGCGAAAATCGATATGGGAGCACCGCGTTTAACACGTGCAGAAATACCGATGCTTGGTGAAGGTGAAACACCATTTATTCGTGAAAACTTCTTATACAATAATCATCGCTATGCATTTACAGCTGTTTCAATGGGGAATCCGCATGCGGTTATTTTTGTTGATGATGTAGAGCAAGCACCTCTTACAACACTTGGTCCAGTCCTGGAGACACATGAAATGTTCCCAGAGCGAGTAAATGTTGAATTCATCGAGATTTTGAATGATGCAGAGATGAATTTCCGCGTTTGGGAACGTGGATCTGGTGTAACGCAAGCTTGCGGAACAGGAGCGTGCGCTGCAGTTGTCGCTGCTATTTTAAATGGAAAGATGGAACGTGGTAAGGAAATTACAGTCCATTTAGCTGGCGGCGATTTAATGATTGCTTGGACTGAAGAAGGAAACGTGTTGATGAAAGGGCCTGCGGAAGTAATTTGCCGCGGAGTGTATGAGTACAAGATAGAAGCGTAA	MSQFSFTKMHGLGNSYIYVNMFEEQIPEEDLVLVAEKVSNINTGIGADGMILICPSDVAPVKMRMFNNDGSEGKSCGNGLRCVAKYAYEHKLVEETVFTIETLAGIVTAEVTVEEGKVTLAKIDMGAPRLTRAEIPMLGEGETPFIRENFLYNNHRYAFTAVSMGNPHAVIFVDDVEQAPLTTLGPVLETHEMFPERVNVEFIEILNDAEMNFRVWERGSGVTQACGTGACAAVVAAILNGKMERGKEITVHLAGGDLMIAWTEEGNVLMKGPAEVICRGVYEYKIEA	PGPT0007230_1498	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
AK009_05877	354		COG0316	Protein	ATGATTGAAGTAACAGAACAAGCAGCTTTTCAAATTAAAGATATGTTAAAAGATGCTGAAGATGGAGAGAAGTACGTGCGCCTTGCTGTACACGGCGGCGGATGTACTGGCCTTTCTTACGGCTTAGGATTTGAAGTAGAACCAAAAGAAGACGACACAGTTCTTGAGTTTTTCGGTGTTGAATTTGTTATCGATACAGAAAGTGCTCCAATTGTTAAAGGAGTAAAAATTGATTATAAACAATCGATGCTTGGCGGCGGATTCACAATCGACAATCCAAACGCAATCGCATCATGCGGATGCGGATCATCTTTCCGTACAGCGACGAATGCTGGTAAGCCAGAAGAGTGCTAA	MIEVTEQAAFQIKDMLKDAEDGEKYVRLAVHGGGCTGLSYGLGFEVEPKEDDTVLEFFGVEFVIDTESAPIVKGVKIDYKQSMLGGGFTIDNPNAIASCGCGSSFRTATNAGKPEEC				NA	NA	NA	NA	NA
AK009_05878	564			hypothetical protein	ATGAATCCTATTTTATTAGATGTTCCGTTACAAATAGAAACAGACAGACTCATTCTTCGAGCACCACTTCAAGCAGGTGAAGGGAATGTAGTACATGAAGCTATTAAAGATTCAATTCGTGAATTAAAGCCATGGTTGTCTTTATTCCAGTCCATTCCTACTGTTGAAGAAACGGAAATTCTCCTGAGAAATGCGCATATAGATTTTTTGAAAAGAGAAAGCTTTCGCTATCTTATCTATCATAAAGAGACGAATGATTTTGTTGGAACAGCTAGCCTTCATCGAATTGATTGGAAGGTTTCTAAATGTGAAATTGGATACTGGATTAACACGCAATTTAGTGGCAGTGGATATATGACAGAAACAGTAAGTGCGTTAACAAACCTTGGATTTCAGTTATTCAAATTTAGAAGGATTGAAATACGATGTGAATGTAATAACACGAAAAGTCGTGCACTCCCTGAAAAACTAGGCTTTGAACTTGAAGGGATATTACGTAATGAAGATTTTTCAGCTGACGGCAAACAACTAACTGATACTTGCATCTATGCAAAAATAAAGTGA	MNPILLDVPLQIETDRLILRAPLQAGEGNVVHEAIKDSIRELKPWLSLFQSIPTVEETEILLRNAHIDFLKRESFRYLIYHKETNDFVGTASLHRIDWKVSKCEIGYWINTQFSGSGYMTETVSALTNLGFQLFKFRRIEIRCECNNTKSRALPEKLGFELEGILRNEDFSADGKQLTDTCIYAKIK				NA	NA	NA	NA	NA
AK009_05879	777			hypothetical protein	GTGAAGTCATTTAAGAGAGTACTTATAGTAGGGATGGCGTTGACTACAGTATCGATTTTGGGAGCTTGTTCTAGCGATACAGACGTATTAACAAAAGTAGGAGTAAAGCAACCAGCGAAGGCGGAAGGTGACGTACTAAAAGAACAGAAGAAAACACCTATGACTACGAGTAAACGTGAAAGTATTAAAAATGAGGACGCTCCATCATCACAGAAGCGTTACATTTCTCATGATGAATCTAAAAAGATTGAGGAAGGTATGATGTATACGGATATTCTTAATACGATTGACTACGGTGGTGAGAACATAAAACATTATAATAACAATGAAAAACGCGTATTTTATACTGAAAAAGATACAGATGGTACATATGAAATTATGGTTGAATTAAATACATATGGTTACGTTGTGAATATTGAACGTACTGCTATAAAGGATACAGAGAAAGATACAGAGAAAGATAAAGAGAATCGGGTATCTACGAAACGTATTGAAGAGCCTGTAAAGGAATATGAAGAAAAAAACGATCGTGTACCGTGGTATAAAGATGTAAATAACAATCCGGCAGCAGTAAGTTACAATCACTATTTGAAAATCAAAAAAGGTATGCCTGCGAATCAAGTAAAAGCTGCAATTGGACAGCCACATGTGATTGAGAAATATAAATCTTATTCAGTATATGACTATACTGGTTATGGTGGAGAAGGATCATTACGTGTAATCTTTGAACCGAATGGAACTGTTACGGATGTAGTGGAAGACGGTTTACCACGATAA	MKSFKRVLIVGMALTTVSILGACSSDTDVLTKVGVKQPAKAEGDVLKEQKKTPMTTSKRESIKNEDAPSSQKRYISHDESKKIEEGMMYTDILNTIDYGGENIKHYNNNEKRVFYTEKDTDGTYEIMVELNTYGYVVNIERTAIKDTEKDTEKDKENRVSTKRIEEPVKEYEEKNDRVPWYKDVNNNPAAVSYNHYLKIKKGMPANQVKAAIGQPHVIEKYKSYSVYDYTGYGGEGSLRVIFEPNGTVTDVVEDGLPR				NA	NA	NA	NA	NA
AK009_05880	165			hypothetical protein	ATGATGGAGGATATTCTTGAATTCATAGGGAGATACGTAATTAAACCTATTATTAGTTTAGTGAGATATCTTGTAATAGAGATTATAATTGAGGGCGTAATAAACGGTATAAGGAAATTACGTGATAAGTGGCGAAATTGGCGTGAAAGACGTTATTGGCGGTAG	MMEDILEFIGRYVIKPIISLVRYLVIEIIIEGVINGIRKLRDKWRNWRERRYWR				NA	NA	NA	NA	NA
AK009_05881	186			hypothetical protein	GTGATAAGTGGCGAAATTGGCGTGAAAGACGTTATTGGCGGTAGTGTAGGTGATGAGTGTGCGAAACAAAAACGTTATACAGAAGTTATGAAGAAGTTTAATGAAATAATAGAAAACGACTTGCATTTAGAATCTGTACTCGTTCCAATTGGTGATGGAATGACGATTTCTAAAGTGAAGAAATAA	MISGEIGVKDVIGGSVGDECAKQKRYTEVMKKFNEIIENDLHLESVLVPIGDGMTISKVKK				NA	NA	NA	NA	NA
AK009_05882	354			hypothetical protein	ATGAAAAGATACATTGCACTATTTAGTATTTTAGTTGTATTTGCAAGTCTGTTAGTTGGTTGTGATTTAAACCGTATGGGTAAAGATGAGTATTATGTTCAAATTACAGTAGATGGAAAAGAATTTGATAGTAAAGCTAGTGATGGGCAGAAATTTAAAGATTATGAATATAAGCTGACTGGCTTTGATAAAGACGGTAAAGAGAAAGAATTAGAATTCATAGCTCAAAAAAATCTTCGTAAAGAAGCATTCCTACGCGTATATCACTCAGATAAAAAAGGTGTAACAGCTTGGGAAGAAGTGAAGAAAGACGAGCTTCCAGCGAAAGTGAAAGAAAAATTAGGCGTGAAATAA	MKRYIALFSILVVFASLLVGCDLNRMGKDEYYVQITVDGKEFDSKASDGQKFKDYEYKLTGFDKDGKEKELEFIAQKNLRKEAFLRVYHSDKKGVTAWEEVKKDELPAKVKEKLGVK				NA	NA	NA	NA	NA
AK009_05883	462			hypothetical protein	ATGATCGTAATTAGCGCTTGTTTAGGTGGTATCGCTTGTCGATATGACGGAAATGACAATCTCGTTTCAAAAATAGAGGAGCTTCTGCAAAAAGAAGATACCGTCCTCATTTGTCCTGAAGTATTAGGGGGACTACCAACGCCTCGTCCTTCCGCTGAAATTATTGGCGGGAATGGCGACGACGTTTTGGACGGAAAAGCGAAAGTGATGACAAAAGATGGTGAAGATGTCACAGAAGCTTTCGTAAATGGCGCTTATAAAGCATTAGAACAAATTAAAAATTTACAACCAGAATATATTATTTTAAAGGAACGTAGTCCATCTTGTGGTAGTTCTACGATTTATACTGGAGAATTTAACGGTAATAAGCAAACTGGTTACGGGGTAACTACTGCTTTATTTAAAAGATACGGATTTAAAGTCATTTCAGAAGAAGAATTTGAAAGCAAAAAAAGGAATTGA	MIVISACLGGIACRYDGNDNLVSKIEELLQKEDTVLICPEVLGGLPTPRPSAEIIGGNGDDVLDGKAKVMTKDGEDVTEAFVNGAYKALEQIKNLQPEYIILKERSPSCGSSTIYTGEFNGNKQTGYGVTTALFKRYGFKVISEEEFESKKRN	PGPT0020050_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK009_05884	882			hypothetical protein	ATGGGAAGCTTATATAATTTAATGAAACCATATAGTGAATTTCGAAGTAAAGAAGAGTTTAATACATATCAAAAACAAGTTTTGAAGTGCTACCGATTTCAATTGAATAAAACTGATTCTATCATTATTCATTTTTTAGGAAAGTATGCGGTGAATGAGAAACAAAAAACAGTAGGAGTCGCCTGTCCGTTAATGGAGACGATTGCGAAGAATGTTGGAAAGAGTATTCGTACAGTACGCCGTTCAATTGCAAAGTTAGAGGGACTAGGAATTATAAAGCGTGTTGCAACAAAAGAAAGACATAAGCGCGGCGGGTATAGTGCGAATTTATATATTTTTCTTATATCTGCAATTGACCGCATGGATGACCGTATGAAAATGTCCGCTTGTAAAAGTGAGGATTATGCAGCTGGCTGTAGCGGAAAGGAACAAAAAAACGAGAGGGAAACAATTCTTTCTAAAAACATTCCACAAATAAAAGAGAAAAGAAAAATAACGTACGAGCTTGATGAGACGTATTGCCGTCATGATATACCGAAGCCTTTTATATACGCACTTCTGCCGATGACGAGTAATCCGAAGAAGATTAATATATTTTGGAGTAAGGTAGAACTTGCATATAAAAAGAGCGGATTGCTAGAGCAAGGTGTTTTACTAGAGCAAATATTAGCTGATGAAGAAGTGTATGGAAATTTCATTTGGCGAGTGAAGAGTGTCGTGAGAGCTTATAAATACGGGGAAATCCGTAAAAATGTGAAGGCACTTTTATATAGTACAGTGCGAGATTTATTTTTAGAGGTTGGATTAGAATGGGGAGCAGCACTGAGAAGAAGTAAGGGGATAGCGTTATTTGATCCATTTAAAAAGGAGCCATGCGTATAA	MGSLYNLMKPYSEFRSKEEFNTYQKQVLKCYRFQLNKTDSIIIHFLGKYAVNEKQKTVGVACPLMETIAKNVGKSIRTVRRSIAKLEGLGIIKRVATKERHKRGGYSANLYIFLISAIDRMDDRMKMSACKSEDYAAGCSGKEQKNERETILSKNIPQIKEKRKITYELDETYCRHDIPKPFIYALLPMTSNPKKINIFWSKVELAYKKSGLLEQGVLLEQILADEEVYGNFIWRVKSVVRAYKYGEIRKNVKALLYSTVRDLFLEVGLEWGAALRRSKGIALFDPFKKEPCV				NA	NA	NA	NA	NA
AK009_05885	1248	bacE_3		Putative bacilysin exporter BacE	ATGGAGGAACTACAACAAAATAAAACTGCTTTAGAAGGAAGCGGAAAACCGTTATTAAAAAATACGAATTTCCTTTTTCTTTGGGCAGCTACTCTTTTTTCAAGCTTTGCTTTAGCCTTTTTTACTTTTTCACAAACGTGGTACATAGCAAAAACATTAAACCTTGAAGCTTCACTCGGTGTTGTTTTCGTAGCTCTTAGTGTTCCAAGGCTTATTTTTATGATTATCGGCGGCGCTGTAGCTGATAAATTCCCGAAAAAAAACATTATGTTTTACTCCAATATTATTCGAGCGATTCTTGTTGCAACCATTCTCACATGGTTTATCGTTGGTGATGTAACACTATATACATTTGCTTTATTCGCTTTATTCTTTGGACTTGCCGATGCTTTCTTCTGGTCAGCAGATGGATCTATCTTACCGGAATTGGTAGGAAAAAGCCGGTTAACACAAGCGAATTCACTTACACAAATGACGAACCAAGCATCGGTCATCTTAGGCCCTGTACTTGGCGGAATTCTTATCAAATTCACAAACTACGAGACAATATTTTCTATTACAATTTTATTACTGATTGTCGCGGCCATACTCGTTCAAAAAATACAATTTACGATGCCAGAACTAAAAGATACGGATAAAGGTATGTTCACTTCCATTAAAGAAGGAATCTTATATGTAAAGGAATCACCATTCCTTTCAACTTTCCTTATTTGTAGCGCCTTTTTAAACTTATTTTTGATCGGCCCGATGCAAGTTGGTTTCCCGCTTTTTGTTAAAAACGTGCTGCATGGTGATTCACTCCAGTTTAGTTACTTAGAAGCATCTGTAGGCGGCGGAATGGCAATCGGTGCTGTCATTGTCGGTTTAAGAAATATTAATCGTAGGCGCGGTCTTTTTTGTATTATCATGATGCTATTGTCTGGTGTATTCTTCTTAGCCATCAACTTTAGCACCGTACTTTGGCAAGCACTATTAGCCGGCATGTTTTATGGTATTACAATTGCAATGGCTATCGTTCCGCTTATGGCGATGATTCAATCGACAGTAAAAGAGGAAATGATGGGACGCGTAATGAGCTTACTTATGCTATCATCAATGGGCTTTATCCCGCTCTCTTATGCATTCACATCAATCGCACTTGCACTGGGAATTCCAATCGTAACCGTTATGAAAAGCGGTGCAATTGCTGTTATCGTCTTCGTACTATTTGTAGCGATTCGTGTTCCAGTTGTAAGAAAGTTCGACTAG	MEELQQNKTALEGSGKPLLKNTNFLFLWAATLFSSFALAFFTFSQTWYIAKTLNLEASLGVVFVALSVPRLIFMIIGGAVADKFPKKNIMFYSNIIRAILVATILTWFIVGDVTLYTFALFALFFGLADAFFWSADGSILPELVGKSRLTQANSLTQMTNQASVILGPVLGGILIKFTNYETIFSITILLLIVAAILVQKIQFTMPELKDTDKGMFTSIKEGILYVKESPFLSTFLICSAFLNLFLIGPMQVGFPLFVKNVLHGDSLQFSYLEASVGGGMAIGAVIVGLRNINRRRGLFCIIMMLLSGVFFLAINFSTVLWQALLAGMFYGITIAMAIVPLMAMIQSTVKEEMMGRVMSLLMLSSMGFIPLSYAFTSIALALGIPIVTVMKSGAIAVIVFVLFVAIRVPVVRKFD				NA	NA	NA	NA	NA
AK009_05886	477			hypothetical protein	ATGAAAGAACCTATTATCGTAAAAAAAGAAGCTTTCCAAGCAATCGGCGTTTCGGTTACGACGACTAATGAAAAAGAAGCATCTACTGAAGGAAAAATTCCCGAGCTCTGGAACCGATACTTTCAAGAACAAATGATGCATCACATCCCAAATCAACAAACGAAAGAAACACTCGCTTTCTATTCAAACTACGAATCAGATGAAACTGGTACATATACATTTACAATCGGTATGCCCGTTTCTTCACTAAAAGAAGTTCCTGAAAATATGACAACTTTAACAATACCCGCCGCTACGTATGCGGTATTTACAACGAGAAAGGGACCAGTTGCTGAAGTCGTTTGCGAAGCTTGGGAATATATTTGGAAATGGTCGAAAGAAAATAAACGTGCTTTTACAACAGACTTTGAGCTTTATGATGAAAAAGCAACAGATCCAACCAACGTACAATTGGATATTTATATTGCATTAGCCTGA	MKEPIIVKKEAFQAIGVSVTTTNEKEASTEGKIPELWNRYFQEQMMHHIPNQQTKETLAFYSNYESDETGTYTFTIGMPVSSLKEVPENMTTLTIPAATYAVFTTRKGPVAEVVCEAWEYIWKWSKENKRAFTTDFELYDEKATDPTNVQLDIYIALA				NA	NA	NA	NA	NA
AK009_05887	990		COG0492	Ferredoxin--NADP reductase	GTGGCAGAAAATCAAAAAGTTTACGACATAACAATTATTGGTGGTGGTCCAACGGGACTGTTCACAGCATTTTATGGCGGTATGAGACAAGCAAGTGTAAAAATCATTGAAAGCTTACCTCAACTTGGAGGACAATTATCCGCACTCTACCCTGAAAAATACATTTATGATGTGGCTGGATTTCCAAAAGTGCGTGCACAAGAATTAGTCGATAACTTAAAAGAGCAAATGAAGAAATTTGATCCAACCGTTTGCTTAGAAGAAGCGGTTGATACGCTTGAAAAACAAGCTGATGGTATATTTAAACTTGTTACGAATAAACAAACTCACTATTCTAAATCAGTCATCATTACTGCCGGCAATGGTGCTTTCCAACCACGCCGCTTAGAATTAGAAGGTACAGCAAAATACGAAAAGAAAAACTTACATTATTTCGTTGATGATATGAATAAATTTGCTGGCAAGCGCGTCGTAGTATTTGGCGGTGGCGACTCCGCAGTAGACTGGACGATGATGTTAGAACCGATTGCTGAAAAAGTTACAATCGTTCATCGCCGTGATAAATTCCGTGCACATGAACATAGCGTCGAAAACTTAATGAATTCTCGTGCAGAAGTAAGTACACCGTATGTTCCAGTTGAACTCATTGGTGATGACAAAATTGAACAAGTCGTTCTTCAGCACGTAAAAACTGAAGAAAAAGTTATCATCGATGTTGATGACGTAATTGTAAACTACGGCTTCGTTTCTTCTCTTGGTCCAATTAAAAACTGGGGCTTAGATATACAAAAAAATAGCATCCTTGTGAATTCAAAAATGGAAACGAATATTCCTGGCATTTACGCTGCTGGTGACATTTGTACATATGAAGGAAAAGTAAAACTTATCGCTTGTGGATTTGGCGAAGCACCGACAGCAGTAAACAATGCAAAAGCTTACTTCGATCCAAATGCAAAACTTCAACCGATGCATAGCTCAAGTATGTTTTAA	MAENQKVYDITIIGGGPTGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKVRAQELVDNLKEQMKKFDPTVCLEEAVDTLEKQADGIFKLVTNKQTHYSKSVIITAGNGAFQPRRLELEGTAKYEKKNLHYFVDDMNKFAGKRVVVFGGGDSAVDWTMMLEPIAEKVTIVHRRDKFRAHEHSVENLMNSRAEVSTPYVPVELIGDDKIEQVVLQHVKTEEKVIIDVDDVIVNYGFVSSLGPIKNWGLDIQKNSILVNSKMETNIPGIYAAGDICTYEGKVKLIACGFGEAPTAVNNAKAYFDPNAKLQPMHSSSMF	PGPT0013060_2067	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK009_05888	1209		COG1252	NADH dehydrogenase-like protein	GTGAAGACTCCAAAAATCGTAGTTTTAGGTGCAGGTTATGGCGGGATGATTACGACTGTTCGTCTGCAAAAAGCATTATCTGTAAATGAAGCTGAAATTACGTTAGTAAACAACAACAGCTATCACTACCAAGCGACTTGGTTACACGAGAGCGCAGCTGGTACATTACAAGATGAAAAAATCTGTCTAGATATTCAAGACGTTATTGATACAAATAAAGTGAACTTTGTACAAGACACAGTAGTAGAAATTAAAGCTGCTGAAAAACGTATTATCTTAAAAGACGGCGAGTTAGAGTATGACTACTTAGTAATCGGTCTTGGTTTCGAATCAGAAACATTCGGAATTACAGGATTAAAAGAGCATGCATTCTCAATCGCTAACATTAATGCAACTCGTGAAATTCGTGAGCATATGGAAGCTAGTTTCGCTAAATATGCAGATGAGAAGCGCGATGAGTTAGTAACAATCGTTGTTGGTGGTGCTGGATTTACTGGTATCGAGTACATAGGTGAGCTTGCAAACCGTGTTCCTGAACTTTGCAAACAGTACAATGTACCACGTGAAAAAGCACGTATCATTTGTGTAGAAGCGGCTCCAACAGCACTTCCAGGTTTCGATCCAGCATTAGTAGAATACGCTGTAAAACAACTTGAGAAAAAAGGCGTAGAATTCCGCATCGGTACAGCAATTAAAGAAGCAACTGAAGAAGGAATTATCGTTGCAAATGGCGATGATACGGAATTAATTAAGTCTGAAACAGTAGTTTGGGCTGCAGGTGTTCGTGGTAATGGTATTGTAGAAGAGTCTGGCTTTGAAGCAATGCGCGGACGTGTAAAAGTTGATGAGTACATGCACGCTCCAGGATACGAAGAGGTATTCATGGTTGGTGATGCCGCGTTAATTATTAACGAAGAAATTAACCGTCCATACCCACCAACAGCACAAATTGCAATTCAACAAGGTTACAACATTGCACACAACTTAACTGTATTAGTTCGTGGCAAGGGCGAAATGAAAAAATTCGCATTCGATAATAAAGGATCTGTATGTTCTTTAGGTCATGACGATGCAATGGGTGTTGTTATGGGTAAAAAGTTAACAGGTTGGAAAGCTTCCTTCATGAAGAAAGTAATCGATAACCGCTACCTGTTCTTATTAGGTGGACCTTTATTAGTTCTTAAAAAAGGTAAATTAAAGTTCTTTTAA	MKTPKIVVLGAGYGGMITTVRLQKALSVNEAEITLVNNNSYHYQATWLHESAAGTLQDEKICLDIQDVIDTNKVNFVQDTVVEIKAAEKRIILKDGELEYDYLVIGLGFESETFGITGLKEHAFSIANINATREIREHMEASFAKYADEKRDELVTIVVGGAGFTGIEYIGELANRVPELCKQYNVPREKARIICVEAAPTALPGFDPALVEYAVKQLEKKGVEFRIGTAIKEATEEGIIVANGDDTELIKSETVVWAAGVRGNGIVEESGFEAMRGRVKVDEYMHAPGYEEVFMVGDAALIINEEINRPYPPTAQIAIQQGYNIAHNLTVLVRGKGEMKKFAFDNKGSVCSLGHDDAMGVVMGKKLTGWKASFMKKVIDNRYLFLLGGPLLVLKKGKLKFF	PGPT0004020_4446	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
AK009_05889	507	nudC_5		NADH pyrophosphatase	ATGGAGAAACGAGGGAAGGTATGGCTAGCTGTTAGCGGTCTAGTAGCTACAAAAGATGGCAGGTGGCTATTCGTTAAGAAGAAATACAGTGGATTAAAAGGGAAATGGTCTTTACCGGCTGGTTTTGTAAATGAAGGTGAGACAGTTGATGAAGCTGTGAAACGCGAAGTGTTAGAAGAGACAGGCATTGTCGCTCATGTGAAGGGGATCATTGGTGTTCGATCGGGTGTTATTCGTGATGAAATTAGTGATAATATGATTATTTTCCTTTTGGAGCCTGAAGGAGAAAATATTATTGTACAGGAGAAAGAATTGTCTGAAGTGGCGTTCTTACATCCAGATAAGATTGCGGACGATCCGAATACGTCTGTACTTATTAAATATTTGTTAGAAGGAAGATCAGAACTACATCTTGAAGTGGACAAAACATTAAATCCAGGAGAATCATTTGGTTATACAGCTTATCACGTATTTACGGCACGTGCGAAGGAGAGGGAAAAAGAGTGA	MEKRGKVWLAVSGLVATKDGRWLFVKKKYSGLKGKWSLPAGFVNEGETVDEAVKREVLEETGIVAHVKGIIGVRSGVIRDEISDNMIIFLLEPEGENIIVQEKELSEVAFLHPDKIADDPNTSVLIKYLLEGRSELHLEVDKTLNPGESFGYTAYHVFTARAKEREKE				NA	NA	NA	NA	NA
AK009_05890	318			hypothetical protein	GTGAGTATACCGGTACTACTTATTTCAATGATGTTATTCTTTATTTTGTTCTTTGGAATTGGATTTTTACTCAACATGATTTTGCGGGCTACATGGGTAATGGTTATTGTGTATCCGATTGTTTGTATGCTTATTATTAATAAAGCGAGTATGTGGGATTATTTTTCAAAGCCGAAAGAAACATTTTCTTCATTTGGGACAAGTGTATCGCACTTAGGACAAGCAGACTTATTTATTCTATCTACTGGATTAGTAGGGGCTGCTTTAGCAGGAGTCGTGATCAAGAAACTTCGGAAAAGCGGATATCAAATGTTTTAA	MSIPVLLISMMLFFILFFGIGFLLNMILRATWVMVIVYPIVCMLIINKASMWDYFSKPKETFSSFGTSVSHLGQADLFILSTGLVGAALAGVVIKKLRKSGYQMF				NA	NA	NA	NA	NA
AK009_05891	627	yuiC	COG3584	putative protein YuiC	ATGTTAAAACGATATTGTATTCGCATTATGATGACTTGTTTACTTGCAATTGCATTATGCGTAACATGGAATGCTTTCACAGGAGTTTCTCTATTAGAGATTGTAAAGAAATATGAGGGAACGAGTGCAAAAGAAGTACATGCAGCAGAAGTTAAGAGAAATGTTGCTCCGAGTAAAGAAGTGATAAATGCTTTAGAGCAGGCAAACGACTGGTCTAAATATCGTTCAATTGAAATGACTGCAACAGGTTATACATCGGGGATTGAGTCAACTGGTAAGAGGCCAGGGCATCCAGAGTATGGTATTACATATTCAGGTGTTAAAGTGAAAAGGGATTTATATTCCACAATTGCTGCGGACTTACGCGTATTCCCGATTGGAACGATTCTCTTCGTGCCAGGTTACGGGTATGGTGTAGTAGCTGATAAGGGCGGTGCAATAAAAGGAAACCGTCTTGATCTATATTATGATACGGTGAAAGATGTTTATAGCCAATGGGGTAAGAAAAAAGTAAATGTGTATGTAGTAAAAGTAGGAAATGGTAAGTTTACAGAAGAAGAGTTAACGATGTTAAATCAAGACGAAACGATGCAAGTGTTTCGTGGTCAATATTTAAAACAAAGATAG	MLKRYCIRIMMTCLLAIALCVTWNAFTGVSLLEIVKKYEGTSAKEVHAAEVKRNVAPSKEVINALEQANDWSKYRSIEMTATGYTSGIESTGKRPGHPEYGITYSGVKVKRDLYSTIAADLRVFPIGTILFVPGYGYGVVADKGGAIKGNRLDLYYDTVKDVYSQWGKKKVNVYVVKVGNGKFTEEELTMLNQDETMQVFRGQYLKQR	PGPT0025263_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025263-spsC-NA	NA	NA
AK009_05892	1485	pepA	COG0260	Cytosol aminopeptidase	ATGTTTCAAGTACAAAAAGAATTAGCAGGTCATGAAGTAGTGATTGTTGCTCTATTTGAAGAAGAGAAAATGAGTAGTTTTGTACAAGAACTGGACAAAGCGTTTGAAGGACAATTACAAGTTTTACTAGAAGAGAAAGAATTATCTACGAAGAAAAAGGCCATTTCGAAAGTACATAGCTTAGGAAAAACAAATGTGAAACGTTATTACTTTGTTGGTTTAGGCAAGAAAGAGTCTTACACGACAGAAACGTTACGTGCGGCTCTTGGAAAAGCGTTTAAAACATTACAAGTAGCAAAAGTACAAGATGCAGCAATCTTACTTGATTCTTTCGTAACAGAGAAATTAGATGCGATTGATGTAGCTCATATTGCAGCAGAAGTACAAGGCCTTGGTACATATGAGTTACAAACGTATAAATCAGATAAAAAGGATCGTGAAGAGTTAGAGAAGTTCACGGCTATTACAGCGGAAGATGCACAAGAAATTGAAGCCGCATTAACAGTTGGCTACGTACATGGACGTGCAACAAACTCGGCTCGTACACTTGTAAATATGCCGCCAAACGTATTAACAGCGACAAAGCTTGCTGAGTATGCTGTTGAGTTAGCGGAGAAGTATGATATGGACTATAAAGTTCTTGAGAAAGAAGAGATGGAAGATCTTGGTATGGGTGCATTACTTGCAGTAAACCAAGGTAGTGTAGAGCCACCAAAAATGATCGCTCTTATTTATAAAGGAAAAGAAGAGTGGACGGATGTCATTGGATTCGTTGGAAAAGGTATTACATACGATACAGGTGGTTATTCTTTAAAACCACGTGAAGGCATGGTTGGTATGAAAGGTGATATGGGCGGTGCAGCTGCTGTATTAGGTGCGATGGAAATTATCGGAGAACTGCGCCCAGAACAAAATGTGATCGCTGTTATTCCTTCAACTGATAACGTTGTAAGTGGTACGGCATTTAAGCCAGACGATGTAATCACATCTATGAGCGGAAAGACAATTGAAGTATTAAATACGGATGCAGAAGGTCGTCTAGCTTTAGCTGATGGTATTACGTATGCGAAAAAACTTGGTGCAAACTACCTTGTTGATGTTGCAACATTAACAGGCGGTGTAATTGTTGCACTTGGAAACTATACGACAGGCGCAATGACAAATAATGAAGAGTTATTTGAGCAAGTGCTAGAGGCTTCTATGGAAACAGATGAGCCAATTTGGCAACTACCGATTTTTGATCGTGATAAAGAACGTGTGAGAAACAGTAAGTTTGCTGATTTAAATAACTCACCAGGCCGTGAAGGACATGCGGTTATGGCAGGTACATTCCTAGGCGAATTCGCTGAAGATACACCGTGGGTACACTTAGATATCGCTGGAACATCAGAAACAAAAGGCGCGCACGACTTAGGGCCAGCTGGAGCAACTGGTGCAATGGTACGTACACTTGCAACACTTGTGGAGCGTTTCGGAGAAGAATAA	MFQVQKELAGHEVVIVALFEEEKMSSFVQELDKAFEGQLQVLLEEKELSTKKKAISKVHSLGKTNVKRYYFVGLGKKESYTTETLRAALGKAFKTLQVAKVQDAAILLDSFVTEKLDAIDVAHIAAEVQGLGTYELQTYKSDKKDREELEKFTAITAEDAQEIEAALTVGYVHGRATNSARTLVNMPPNVLTATKLAEYAVELAEKYDMDYKVLEKEEMEDLGMGALLAVNQGSVEPPKMIALIYKGKEEWTDVIGFVGKGITYDTGGYSLKPREGMVGMKGDMGGAAAVLGAMEIIGELRPEQNVIAVIPSTDNVVSGTAFKPDDVITSMSGKTIEVLNTDAEGRLALADGITYAKKLGANYLVDVATLTGGVIVALGNYTTGAMTNNEELFEQVLEASMETDEPIWQLPIFDRDKERVRNSKFADLNNSPGREGHAVMAGTFLGEFAEDTPWVHLDIAGTSETKGAHDLGPAGATGAMVRTLATLVERFGEE				NA	NA	NA	NA	NA
AK009_05893	606	cdaS		Diadenylate cyclase CdaS	ATGCACGAATGGGGCTTGTCAGAAGAGCTCAAAATACAAACAAAGCAAATGATTGAAATTGCTGAAAGAGAACTATCGATTATGAGGAATGCAATCGATAAAGAAGATGAATGCATTTTATGCAAAATGGAAGATATTCATCATATGTTGGCAAATGTACAAACATTGGCAGCTACATACTATATTCAGGCATATTTATCACCTTATACGGAAAGTTCATCTTTTATTACAACAGCTATCCAACATTTAAGCGCCAGAAAACATGGTGCTCTTATCGTTGTGGAACGAAACGAGACGCTTGAAGCTTTCATTCAAACTGGAACGACATTAAACGCTCATTTAACTGCACCATTACTCGAATCAATATTTTATCCAGGTAACCCTCTTCATGACGGTGCCGTTCTCGTAAAAAATAATCATATTGTCTCAGCTGCTAATATTCTTCCTTTAACGAAAAGTACAGAAGTTGATCCTGAGCTGGGAACACGGCACAGAGCTGCAATTGGCTTATCAGAAAAGAGTGATGCACTTATATTAGTTGTCTCTGAAGAAACGGGCCGTACTTCTTTTGCCTTAAATGGGATTTTGTATACGATTTCTTTATAA	MHEWGLSEELKIQTKQMIEIAERELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEAFIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL				NA	NA	NA	NA	NA
AK009_05894	1725	pgcA		Phosphoglucomutase	ATGAATTGGAAACAAGAATTTAGTCGCTGGCTTTCTTACGCACAATTAGATGCAGAATTAAAAGAACAGCTAGAAAACATGAACCAAGATGAGAAGAAAATCGAGGATAGCTTTTATAAAAACCTAGAGTTCGGCACAGGTGGTATGCGTGGTGAACTTGGTGCTGGTACGAACCGTTTAAACGTATATACAGTTCGTAAAGCAACAAAAGGATTAGCAAGCTTTATTGAAAAGTTAGGTGAGGAAGCGAAAAAACGAGGTGTTGTTGTAGCCTATGATTCTCGTCATAAATCACCTGAGTTTGCAATGGAAGTCGCTGCTACACTTGGTGCACGTGGTATCACAACATATGTGTTTGAAAGCTTACGTCCAACGCCAGTACTTTCTTTCGCAGTTCGTCATTTACATACAGTAAGTGGAATCGTTCTTACGGCAAGCCATAATCCGCCTGAATATAACGGATACAAAGTATACGGTGAAGATGGTGGACAGTTGCCGCCAAAAGAAGCGGATGAGTTAATTAGCTACGTAGATGCAATAGAAGATGAATTAACAGTTGAAGTCGCTGATGTAGAGCAATTAAAAGCTGACGGTTTATTACATATTATTGGACAAGAAGTAGATGATGCATATGCTGCAGAATTGAACAATGTCATCATTAATAAAGAAATGGTGGAAAAGGCCGGCAAAGACTTAAAAATCGTCTTTACACCATTACACGGAACATCAAATATTTCTGTACGCCGTGGTTTAGAAGAAGTTGGATTTACAGATGTAACAGTTGTAAAAGAGCAAGAGTTACCAGATCCAAACTTCTCTACAGTAAAATCACCGAACCCAGAAGAGCACGCCGCGTTTGAGTATGCAATTCGTGACGGTGAAAAGGTAGGCGCAGATGTATTAATCGCAACTGATCCTGACGCAGATCGTCTAGGTGTAGCTGTTCGTAATCATAATGGTGAGTTCCAAGTATTAACAGGAAACCAAACAGGTGCATTAATGCTTGATTACTTACTATCTCAAAAGAAAGAAAACGGAATACTTCCAGAGAACGGTGTCGTATTAAAAACAATCGTAACGTCTGAAATTGGCCGTACAATTGCAAAAGCATACGGTTTAGATACAGTTGATACGTTAACTGGATTTAAATTTATCGGTGAGAAAATTAGACAGTATGAAGAAAGCGGACAATACGAATTCCAATTCGGTTATGAGGAAAGCTATGGTTATTTAATCCGTCCATTCTGCCGTGATAAAGATGCAGTACAATCTGTCCTATTTGCATGTGAAGTAGCTGCATACTACAAATCACAAGGGAAAACGTTATATGATGGTCTATTAGAAGTATTTGAGAAGTATGGTTTCTTCCGTGAAGACCTTGTATCGTTAACGTTAAAAGGAAAAGATGGAGCGGAACAAATCCAAGAGATGATGGCGACGTTCCGTGAGAATCCTCCGAAAGAAGTAGCAGGCTTAACAGTCGTAGCAGTTGAAGATTATAAAGCAAGCATCATTACATCTTTACAAGATGGACATAAAGAAGAGATTCACTTACCGAAATCAAATGTGTTAAAATATCAATTAGAGGATGGTTCATGGTTCTGCCTACGTCCATCTGGAACTGAACCGAAGATTAAGTTCTACTTCGGTGTACAAGATAGTTCTTTACAAAATAGTGAACAAAAGTTACTTACTATTAAAGAAGACATTATGAATCGTTTATAA	MNWKQEFSRWLSYAQLDAELKEQLENMNQDEKKIEDSFYKNLEFGTGGMRGELGAGTNRLNVYTVRKATKGLASFIEKLGEEAKKRGVVVAYDSRHKSPEFAMEVAATLGARGITTYVFESLRPTPVLSFAVRHLHTVSGIVLTASHNPPEYNGYKVYGEDGGQLPPKEADELISYVDAIEDELTVEVADVEQLKADGLLHIIGQEVDDAYAAELNNVIINKEMVEKAGKDLKIVFTPLHGTSNISVRRGLEEVGFTDVTVVKEQELPDPNFSTVKSPNPEEHAAFEYAIRDGEKVGADVLIATDPDADRLGVAVRNHNGEFQVLTGNQTGALMLDYLLSQKKENGILPENGVVLKTIVTSEIGRTIAKAYGLDTVDTLTGFKFIGEKIRQYEESGQYEFQFGYEESYGYLIRPFCRDKDAVQSVLFACEVAAYYKSQGKTLYDGLLEVFEKYGFFREDLVSLTLKGKDGAEQIQEMMATFRENPPKEVAGLTVVAVEDYKASIITSLQDGHKEEIHLPKSNVLKYQLEDGSWFCLRPSGTEPKIKFYFGVQDSSLQNSEQKLLTIKEDIMNRL	PGPT0017710_1338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
AK009_05895	888	gtaB_1	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAAAAAAGTAAGAAAAGCGATAATCCCAGCAGCTGGATTAGGAACACGTTTTTTACCAGCAACGAAAGCAATGCCGAAAGAAATGTTACCGATAGTAGATAAACCAACGATTCAATACATTGTAGAAGAAGCAGTGAAATCGGGAATCGAAGATATTATTATCGTTACTGGTAAAACAAAGCGCTCTATCGAAGATCATTTTGATAACGCATTTGAACTAGAACAAAACTTATTAGAGAAGAAAAAATATGAGTTGCTTGAAAAAGTACAAGCTTCTTCAAAAATGGTAGATATTCATTACATCCGTCAAAAAGAGCCGAAGGGACTAGGACATGCTGTTTGGTGTGCACGTAAATTCATTGGTGATGAGCCATTTGCAGTGTTACTAGGTGATGATATTGTCCAAGCTGAGAAACCATGTTTACGTCAATTAATGGATGAGTATGAAAAAACACTTTCTTCTGTTATTGGTGTACAAACTGTTCCAGAAACAGAAACACACCGTTACGGAATTATCGATCCATTAGAACAAGAAGGTCGTCGTTACCAAGTTCGCAATTTCGTTGAGAAACCAGCACAAGGTACAGCACCTTCAAACTTAGCGATTATGGGCCGTTACATTTTAACGCCTGAAATCTTTATGTTCTTAGAACAGCAACATGTCGGTGCTGGTGGTGAAATTCAGTTAACAGATGCAATCCAAAGCTTAAATGAAATCCAACGTGTATTTGCTTACGATTTCGAAGGAAAGCGCTACGATGTAGGTGAAAAGCTAGGATTCGTTCAAACGACAATTGAAATGGCCCTGCAACACCCAGAATTACGTGATGACATGGTTGCGATGATGAAGAAAATTTTAGAAGAACAAGCGAATCAAGAGTCTTAA	MKKVRKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIVEEAVKSGIEDIIIVTGKTKRSIEDHFDNAFELEQNLLEKKKYELLEKVQASSKMVDIHYIRQKEPKGLGHAVWCARKFIGDEPFAVLLGDDIVQAEKPCLRQLMDEYEKTLSSVIGVQTVPETETHRYGIIDPLEQEGRRYQVRNFVEKPAQGTAPSNLAIMGRYILTPEIFMFLEQQHVGAGGEIQLTDAIQSLNEIQRVFAYDFEGKRYDVGEKLGFVQTTIEMALQHPELRDDMVAMMKKILEEQANQES	PGPT0014875_3223	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
AK009_05896	594			hypothetical protein	ATGAGGAGATTTCATGTTTTAGATTTAGCATTAGCTGCCATGTTCGTCGCTCTTATGGCCATTGGTGCAAATATTGTATCTTGGGCACCATTCCTGCAAGTAGCGGGCATCCCATTATCTATGCAACCATTTTTCGCAATTTTAGCAGGTCTTCTTCTTGGAAGTAGACTTGGTGCCTTATCCATGACTGTATATATGCTCGTTGGCGTAGCCGGCGCACCAATCTTTGCTAACTTCAAAGCTGGATTTGGAGCACTTTTAGATCCTACTGGTGGTTTTATTATCGCATTTATTATCGTTGCTTACGTATCGGGAAAACTAGTAGAACAAAAAGAAAGACCAACATTCATTACATTTGCTATTGCCTCTTTCACAGGAATTATTTTAACTTATATAATCGGTACTACTTACATGTACGGGGCAGTCAATCTCTTTATGGGCGGTAATATGAGTTATAAAGCTGCTTGGATGATTATGATGTGGTTCGCAGTAAAAGATATTGCATTTACAATTATCGGTGCTATTATCGCACCTCGCATATACTATGCTGTGCGTCGTTCTGCTTATCAGCATTCTCATTCGACGATTTCATAA	MRRFHVLDLALAAMFVALMAIGANIVSWAPFLQVAGIPLSMQPFFAILAGLLLGSRLGALSMTVYMLVGVAGAPIFANFKAGFGALLDPTGGFIIAFIIVAYVSGKLVEQKERPTFITFAIASFTGIILTYIIGTTYMYGAVNLFMGGNMSYKAAWMIMMWFAVKDIAFTIIGAIIAPRIYYAVRRSAYQHSHSTIS	PGPT0022050_736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
AK009_05897	744	pdaC	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaC	ATGAAACAGAAATTTTGTATATTACTGCTTATGTTCTCCTTGCTGACTATTGTACCAAATTGTGCAATAACAGCCAAAGCATCTAACCTGACAATCGATGTTAAGACTGTAACGCAAAAAGGTAAGAAACCTTATATAGAATATCAAATAAATAGGCCTTCTTTTCACAACTTTTCTGACTCTAAATTTCAAAATAAGCTCAATTTATATTACAAAAAATCCACTGACAAATTTAAAAACAAATTAGAAAAAGAAGCAAAAAAATATTATAAAGAGACAGAAGGATCTAGTACACCATTTCATCCGTACGTAGCAAATGTCGATTATAAAGTCTCATTAAACAAACCACCTTTTCTTAGCCTATATGTGAATTACTATCAATATACTGGCGGAGCACATGGTCTTTATACGTGGAAGGCAAATACATTTGATTTAAACGAAAAAAAGCTACTGCACTTAGACGATTTATTTCAACAAAAAGATAAATATAAAGATGTAATCCGTGCAGAGATTGTAAGACAAATTAAACAAAATGAAAGTATTTATTTTCCTGATGCAACTGAAAAGGTAATGAGTATGAAAAAGTTTCACTTCTTTTTAGAGCCAGACAATCTCGTCATTTATTTCCCTTTATATGAAATTGCTCCGTATTCAAGTGGAATTCCGCAATTTCGTATTCCATATACATTGCTAAGAGACTATTTAAAGCCTTCTTATCAAAATATTTTGATTGACAACAAGTAA	MKQKFCILLLMFSLLTIVPNCAITAKASNLTIDVKTVTQKGKKPYIEYQINRPSFHNFSDSKFQNKLNLYYKKSTDKFKNKLEKEAKKYYKETEGSSTPFHPYVANVDYKVSLNKPPFLSLYVNYYQYTGGAHGLYTWKANTFDLNEKKLLHLDDLFQQKDKYKDVIRAEIVRQIKQNESIYFPDATEKVMSMKKFHFFLEPDNLVIYFPLYEIAPYSSGIPQFRIPYTLLRDYLKPSYQNILIDNK				NA	NA	NA	NA	NA
AK009_05898	384		COG2050	Putative esterase	ATGGCAAAAACTTTAATGGATTCACTTGGAATTGAGTTGTTAGAGATGACAGAAGAAAAGGTGGTTGCTACGATGCCTGTTGATGAGCGTACGCATCAGCCGTTTGGATTTTTACATGGTGGTGCATCGGTTGCATTAGCAGAAACAGTGGCAAGTGTTGGTTCATACAATTTAATTGATCAAGAAAAATGTATTTGTTTCGGATTAGAAATTAATGCAAACCACATTCGCTCAAAGAAAGATGGAATTGTAACAGCGATTGGGACACCGATACATAGAGGACAATCGACAATGGTTTGGGATGTTCGCATTATTGATGAAAATGATGATTTACTATGTATATCAAGATGTACAGTAGCAATTAAAGAAAAACGTGAAAAGTAA	MAKTLMDSLGIELLEMTEEKVVATMPVDERTHQPFGFLHGGASVALAETVASVGSYNLIDQEKCICFGLEINANHIRSKKDGIVTAIGTPIHRGQSTMVWDVRIIDENDDLLCISRCTVAIKEKREK	PGPT0001845_2227	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
AK009_05899	1377	glyQS		Glycine--tRNA ligase	ATGTATTCAATGGAACAAGTTGTAAACTTAGCGAAACATCGCGGTTTTGTTTTCCCTGGTTCTGAAATTTACGGTGGTCTTGCAAACACTTGGGATTACGGTCCACTTGGAATCGAATTAAAAAATAACGTTAAAAAAGCTTGGTGGAAAAAATTCATTCAAGAATCTCCACACAACGTTGGTTTAGACGCAGCTATTTTAATGAACCCTAAAACTTGGATCGCTTCTGGTCACGTTGGTAACTTCAACGATCCAATGATCGACTGTAAAAAATGTAAAGCTCGTCACCGTGCTGACAAATTAATTGAGGATGCTTTAGATGCAAAAGGCATTGAAATGGTTGTTGACGGTCTTACTTTCGACCAAATGGCTGACTTAATGAAAGAACATGAAGTAAAATGTCCTGATTGCGGTAGTGAAGAATTCACTGAAATCCGTCAGTTCAACTTAATGTTCAAAACATTCCAAGGTGTTACAGAGTCTAGCACAAACGAAATTTTCCTTCGTCCTGAAACAGCACAAGGTATTTTCGTAAACTTCAAAAACGTTCAACGCTCTATGCGTAAAAAGCTTCCATTTGGTATTGGCCAAATCGGTAAGAGTTTCCGTAACGAAATCACGCCTGGTAACTTCACATTCCGTACACGTGAATTCGAACAAATGGAACTTGAATTCTTCTGTAAGCCTGGTGAAGATTTAGAGTGGTTCGCATTCTGGCGTGAAACTTGTAAAAACTGGTTACTTTCACTTGGTATGACTGAAGAGAGCATGCGTCTTCGTGACCACGGTGAAGAAGAGTTATCTCACTACAGTAATGCAACAACTGACATTGAATTCAAATTCCCATTCGGTTGGGGCGAACTTTGGGGCGTTGCATCTCGTACAGACTTCGACTTAAAACGTCACATGGAACACTCAAACGAAGACTTTAACTATATCGATCCACAAACGAATGAGCGTTACGTACCATACTGCATCGAGCCATCTTTAGGCGCAGACCGCGTAACATTAGCATTCTTATGTGATGCATATGAAGAAGAACAATTAGAAAACGATTCTCGTACAGTTCTTCGTTTCCACCCTGCTTTAGCACCATACAAAGCAGCTATCTTACCATTATCTAAAAAGCTATCTGAAGGTGCTACTGAAGTATTTGCAGAATTAGCTAAAGACTTCATGGTAGACTTTGATGAAACTGGTTCTATCGGTAAACGTTACCGTCGTCAAGACGAAATCGGTACACCATTCTGTATCACATACGACTTCGACTCAGTTGAAGACAAAGCTGTTACAGTACGTGACCGTGACACAATGGAACAAGTTCGTATGCCAATTAGCGAACTAAAAGGTTTCTTAGAGAAGAAAATCCAGTTCTAA	MYSMEQVVNLAKHRGFVFPGSEIYGGLANTWDYGPLGIELKNNVKKAWWKKFIQESPHNVGLDAAILMNPKTWIASGHVGNFNDPMIDCKKCKARHRADKLIEDALDAKGIEMVVDGLTFDQMADLMKEHEVKCPDCGSEEFTEIRQFNLMFKTFQGVTESSTNEIFLRPETAQGIFVNFKNVQRSMRKKLPFGIGQIGKSFRNEITPGNFTFRTREFEQMELEFFCKPGEDLEWFAFWRETCKNWLLSLGMTEESMRLRDHGEEELSHYSNATTDIEFKFPFGWGELWGVASRTDFDLKRHMEHSNEDFNYIDPQTNERYVPYCIEPSLGADRVTLAFLCDAYEEEQLENDSRTVLRFHPALAPYKAAILPLSKKLSEGATEVFAELAKDFMVDFDETGSIGKRYRRQDEIGTPFCITYDFDSVEDKAVTVRDRDTMEQVRMPISELKGFLEKKIQF				NA	NA	NA	NA	NA
AK009_05900	714			hypothetical protein	ATGCATCCATTTGTAAAAGCATTACAAGAGCATTTTACAGCTCATCAAAATCCTGAAAAAGCAGAACCTATGACTCGTTATATGAAAAATCACTTCCCATTTCTAGGTATTCAAACACCGGAAAGGCGCCAATTATTAAAAGACGTCATTCAAATACATACTCTCCCAGATAAAAAAGACTTCCAAATTATTGTACGCGAGCTTTGGGACTTACCAGAACGTGAATTCCAAGCGGCCGCACTTGATATCATGCAAAAATATAAAAAGCATATAAACGAAACTCATATCCCCTTCTTAGAAGAACTTATCGTCACAAAATCTTGGTGGGACTCTGTCGATAGCATCGTCCCTACATTCTTAGGTACTATCTTTTTAAAACACCCAGAATTAATTTCTGCGTATATTCCAAAATGGATTGCATCAGATAACATATGGTTACAACGTGCCGCTATTTTATTCCAACTGAAATATAAACAAAAGATGGATGAAGAACTTCTTTTCTGGATTATTGGGCAACTACATTCTTCAAAAGAATTTTTCATTCAAAAAGCGATTGGCTGGGTCCTTCGTGAATATGCAAAAACAAATCCGGATGTAGTTTGGGAATACGTGCAAAACAATGAACTCGCTCCATTAAGTAAGCGTGAAGCAATTAAGCATATTAAACAAAATTACGGAATAAATAATGAAAAAATAGGCGAGACTCTATCATAG	MHPFVKALQEHFTAHQNPEKAEPMTRYMKNHFPFLGIQTPERRQLLKDVIQIHTLPDKKDFQIIVRELWDLPEREFQAAALDIMQKYKKHINETHIPFLEELIVTKSWWDSVDSIVPTFLGTIFLKHPELISAYIPKWIASDNIWLQRAAILFQLKYKQKMDEELLFWIIGQLHSSKEFFIQKAIGWVLREYAKTNPDVVWEYVQNNELAPLSKREAIKHIKQNYGINNEKIGETLS				NA	NA	NA	NA	NA
AK009_05901	468			hypothetical protein	ATGGAGGATCAAGGCGTACTAGCAGGTTTCTTTGCTCTTAGTTTTGCGTTTATTCTTGTTGTATTGATTTGGGCAATTATTGCGTATTTATTAACGGCTTTTGCACTGTATACGATGGCGAAAAATGATGGTGCAACGGATGGTGCTCTTGCGTTTATTCCTTTTTTAAATAGTAAGATATGGGGTGATTTAGCAAAAGACAAATTACCGGATTTCTTAAAAGAAGAAGCGGGATGGAAAGTATTCGGCATATATGTCGCATGTTTCATTTTTAACTTCGTACCAATTCTATATTTATTAGCAACAGCTGTATCGATTGTGCTGTCTATTTATCTTATCTACGCAATTTTAGATAGATACGGAACGAATTCTATATTGTTTACGATTATTCATACAATCACATTTTCGGTTTTCTTACCGATTCATTTATTTATTATTCGAAATGAACCGGTGAGATATAAAGAGTAG	MEDQGVLAGFFALSFAFILVVLIWAIIAYLLTAFALYTMAKNDGATDGALAFIPFLNSKIWGDLAKDKLPDFLKEEAGWKVFGIYVACFIFNFVPILYLLATAVSIVLSIYLIYAILDRYGTNSILFTIIHTITFSVFLPIHLFIIRNEPVRYKE				NA	NA	NA	NA	NA
AK009_05902	1326		COG1055	putative transporter	TTGCACGAAACAACGCAAGAACTCGCTAACTGGCAGTATTATTTTGCTATCGCAGTCTTTTTAATTACATATGCCATTATTATTTCTGAAAAAATTAATCGCGCTGTCATCGCACTTCTTGGTGCAGCACTCATGGTAATTGTGGGGGTCGTCGATTTACATAACGCCTTTACGAAACATATTGAATGGGGAACGATTACGCTACTCATCGGTATGATGATTTTGGTGAACATTACGAGTAAATCAGGTGTTTTCCAATACGTTGCCATTAAAGCAGCAAAAAGGGCACAAGGAAATCCAATTAAAATTTTAATTTCCCTTTCCCTACTTACTGCGCTTGGCTCCGCATTTTTAGATAACGTTACAACTGTACTTCTTGTTGTTCCAGTTACTTTATCTATTACGCGCATACTGCAAGTAAATCCTGTTCCTTATTTACTTTCTGAAATTATTTTTTCAAACATTGGGGGAACGGCAACATTAATTGGTGATCCACCTAACATTATGATTGGTTCTGCCAATAAACATTTAGACTTCAATGCTTTCCTATTGAATCTAGCACCAATCGTAATTATTATTATTGGAGTTACAGCAACAATACTTTACTTCATGTACCGCAAACAATTAATTGCCGATCCTGTACAAGTCAAAAAATTAATGAGCTTAGATGAAAAACAATACATTAAAGATCCAGTATTAATGAAAAAATCTTTAACGGTACTTGGACTTACAATTGTAGGTTTCATGACTCATTCTATTTTCCATATTGATGCGGCTATCATTGCCTTAACTGGTGCTACTGTACTTATGTTAATTGGTGTGAAAGAGCATGAAATTGAAGAAGTATTTGCAAGCGTAGAGTGGGTAACAATCTTCTTCTTCGCAGGGCTATTCGTACTTGTTGGAGGACTTATCGATATCGGTCTTATCAAAATGTTAGCTCAAAAAGTAATTGGTATAACAGGCGGAGATATTTCTTACGCATCCATCCTTATTTTATGGGTATCTGGTATCGCCTCTGCAACAATTGATAACATCCCATTTGTCGCAACAATGATTCCACTTATTAACGATATGGCAGTTGGGCTAGGCTTATCACCATCTGACGCACAAATCGATGTATTATGGTGGGCATTAGCACTAGGTGCTTGTCTCGGCGGAAACGGAACATTAATCGGAGCTTCTGCTAACGTAATCGTTGCAGGTATCGCGAGCCGCGAAGGACATAAATTTAGTTACATGGAATTCCTAAAAGTCGGTTTCCCAATTATGATCGTTTCATTAATCATTTCTCACATTTATATTTATTTACGCTACCTTATGTAG	MHETTQELANWQYYFAIAVFLITYAIIISEKINRAVIALLGAALMVIVGVVDLHNAFTKHIEWGTITLLIGMMILVNITSKSGVFQYVAIKAAKRAQGNPIKILISLSLLTALGSAFLDNVTTVLLVVPVTLSITRILQVNPVPYLLSEIIFSNIGGTATLIGDPPNIMIGSANKHLDFNAFLLNLAPIVIIIIGVTATILYFMYRKQLIADPVQVKKLMSLDEKQYIKDPVLMKKSLTVLGLTIVGFMTHSIFHIDAAIIALTGATVLMLIGVKEHEIEEVFASVEWVTIFFFAGLFVLVGGLIDIGLIKMLAQKVIGITGGDISYASILILWVSGIASATIDNIPFVATMIPLINDMAVGLGLSPSDAQIDVLWWALALGACLGGNGTLIGASANVIVAGIASREGHKFSYMEFLKVGFPIMIVSLIISHIYIYLRYLM				NA	NA	NA	NA	NA
AK009_05903	624			hypothetical protein	ATGGATGAACAACGATTTTTATTTTTAGACTTTGAGTTTACGATGCCCCAGCATAGAAAAAAACCGAAAGGATTTTTTCCGGAAATTATTGAGGTAGGACTCGTTTCAGTTGCTGGCTGTAAGGTGGAAGATACGTATTCATCACATGTCAGGCCGAAAACATTTCCCTCCTTAACGGATCGATGTAAGAAGTTTTTAGGAATAAAACAAGAAGTCGTGGATAAAGGGATTTCATTTCCTGAACTCGTTAAGAAGCTTGCAGAATACGAAACGAAATGTAAACCGACAATTGTAACGTGGGGAAATATGGATATGAAAGTGCTGAAGCATAATTGTGAAATGGCAGGGATAGCTTTTCCATTCTTCGGGCAGTGTCGTGATTTATCGCTTGAGTATAAGAAGTTTTTTGGGGAAAGAAATCAAACAGGATTATGGAAAGCAATTGAGGCGTACGGAAAAGTAGGGACAGGGAAGCATCATTGTGCGCTTGATGATGCGATGACGACGTACAATATTTTTAAACTAGTAGAAAAAGATAAAGAGTATTTAGTAAAACCAGCACCACCAACATTAGGAGAACTCGTTGATTTTTCAAAAGTGTTAAAGAAAGTGAGCACACAGTAA	MDEQRFLFLDFEFTMPQHRKKPKGFFPEIIEVGLVSVAGCKVEDTYSSHVRPKTFPSLTDRCKKFLGIKQEVVDKGISFPELVKKLAEYETKCKPTIVTWGNMDMKVLKHNCEMAGIAFPFFGQCRDLSLEYKKFFGERNQTGLWKAIEAYGKVGTGKHHCALDDAMTTYNIFKLVEKDKEYLVKPAPPTLGELVDFSKVLKKVSTQ	PGPT0025294_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025294-kapD-K06348	NA	NA
AK009_05904	384	kapB		Kinase-associated lipoprotein B	ATGAGAGAAACATTTGAAATTGGTGAAATCGTTACTGGTATTTATAAAACAGGAAAATACATCGGCGAAATTACAAATAGCCGTCCTGGTAGTTATGTCGTAAAAGTATTAGCTGTTTTAAAACATCCGGTGCAAGGTGACTTACATAACGTAAAACAAGCTGACGTACCATTTTTCCATGAAAGACGCGCTTTAGCTTTTCGTGAGCAAACGAACATTCCACAGCAAATGGTAAAGAAATATGAAGGAGAAATTCCTGATTATACCGAGTCACTAAAATTAGCATTAGAAACTCAAATGAATTCATTTTCTGAAGATGATTCACCTTTTGCAGAGCGTAGTCTAGAAACATTAGAACAGTTAAAGAAGGACTACAAACTCTAA	MRETFEIGEIVTGIYKTGKYIGEITNSRPGSYVVKVLAVLKHPVQGDLHNVKQADVPFFHERRALAFREQTNIPQQMVKKYEGEIPDYTESLKLALETQMNSFSEDDSPFAERSLETLEQLKKDYKL	PGPT0025295_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025295-kapB-K06347	NA	NA
AK009_05905	177			hypothetical protein	ATGATGCCTTTATATTTTCCGGAAGATAAAACAGAATATATTATTCCAGGGATTGTGTGCGTTCTATTTATTATCGGTGCTATTGCCACGTGGCGCATGTTTATTCGTATATCAAAAAGAGAAGCAGAGCGATTACAGAAAGTTGAAGAAAAACTATTAGCTGAAAAGAAACAGTAA	MMPLYFPEDKTEYIIPGIVCVLFIIGAIATWRMFIRISKREAERLQKVEEKLLAEKKQ				NA	NA	NA	NA	NA
AK009_05906	540	yojM	COG2032	Superoxide dismutase-like protein YojM	ATGAAGAAACGGCTTTTTTTCAGTTGTTGTTTATTATTTCTGATGGCAGGTTGTGACCAAGGAAAGCCGAAAGAAATTGAAGTGAAATTACATAATGCTTCAGGAGATGAAGTAGGGACTGCGAAAGTAGTTCAGCAAACAAGTGGAGTGAAAATTACGATTAAAGGGGAAGGTTTCACGCCAGGACCACACGGACTACATGTACATGAAATCGGAGAGTGTAAGGCACCTCGTTTTGAATCATCCGGGAATCATTTTAATCCTGATGATAAAAAACATGGTCTTCTTAATCCGAAGGGTGCAGAAAACGGTGATTTACCGAACGTAATTGCAGACGGTTCTGGAAAGATCAAGGCAGAAATCGACGCGCCGCACATAACGCTTGAAGAAGGTAAAACAACGATTCATAGAAAAGATGGAGCGTCTATTATTATTACAGAAAACGCTGATGATGGTATGACACAACCGACAGGTAAATCAGGTGATCGAATTGCTTGTGGTGTCATTGTAAAAAAAGCATCGGATATGAAGAAAAAGTAA	MKKRLFFSCCLLFLMAGCDQGKPKEIEVKLHNASGDEVGTAKVVQQTSGVKITIKGEGFTPGPHGLHVHEIGECKAPRFESSGNHFNPDDKKHGLLNPKGAENGDLPNVIADGSGKIKAEIDAPHITLEEGKTTIHRKDGASIIITENADDGMTQPTGKSGDRIACGVIVKKASDMKKK	PGPT0013181_1409	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
AK009_05907	1152	patB_1	COG1168	Cystathionine beta-lyase PatB	ATGCAACTATTTCATAAAGCAATCAATCGACGTGGAACGCATAGTATAAAATGGGATACATATAAAAACGAAGAACTTATCCATGCTTGGATTGCTGATATGGATTTTGAAGTACCAAAACCAATTCAAACTGCCTTAAAACAACGGATCGAACATCCGATTTTTGGCTACACACTTCCCCCTGAAAATATTGGGGATATTATTTGTAACTGGACAAAACAACAATACGACTGGGACATTCAAAAAGAATGGATCGTCTTTAGTGCAGGGATCGTTCCAGCTCTTAGTACGAGCATACAGGCTTTTACAAAAGAAAACGAATCCGTTCTCGTACAACCACCTATTTATCCTCCATTTTTCGAAATGGTCACAACAAATAATAGGCAGTTATGCGTGAGTCCATTACAGAAACAAAATGATACATATGTGATAGACTTCGAGCATTTAGAAAAGCAGTTTCAGCAAGGCGTCAAACTCATGCTTCTTTGTAGCCCTCATAATCCAATCGGACGCGTTTGGACGAAAGAGGAACTTGTGCAGCTCGGATCGTTATGTACTAAATATAACGTAATCGTTGTCGCGGATGAAATTCATTCCGATATCATTTATGCAGACCATACACATACACCGTTCGCTTCCTTATCTGAAGAATTAGCAGAACGCACTATCACTTGTATGGCTCCAAGTAAAACATTTAATATCGCTGGATTACAAGCGTCGATTATTATCATTCCAAACGAAAAACTCCGTCACGCCTTTACAGCTATCCAATATAGACAAGGCTTCCACGGGTTAAATATCTTCGCCTACACAGCGATGCAAAGTGCCTATACAGAATGTAATGATTGGCTAAACGAAATTCGATTATATATAGAAGATAATGCTCAATTTGCTTATGAATATATCAAAACTCACATACCTGCTCTTTCCGTAACGAAGCCAGAAGGTAGCTTTTTATTATGGATTGATTGTTCTCGTCTAAAGCTTTCTCAAAACGAGCGTACTGCATTACTTGAGGAAAAAGGAAAAATCATCGTTGAACCTGGTGAGAAATACGGGTTAGGTGGGGAAGAACATATTCGAATTAACATCGGCTGTCCAAGATCTGTTTTAGAAGAAATTTTGAACAGACTGCGTCATACGTTTTCATAA	MQLFHKAINRRGTHSIKWDTYKNEELIHAWIADMDFEVPKPIQTALKQRIEHPIFGYTLPPENIGDIICNWTKQQYDWDIQKEWIVFSAGIVPALSTSIQAFTKENESVLVQPPIYPPFFEMVTTNNRQLCVSPLQKQNDTYVIDFEHLEKQFQQGVKLMLLCSPHNPIGRVWTKEELVQLGSLCTKYNVIVVADEIHSDIIYADHTHTPFASLSEELAERTITCMAPSKTFNIAGLQASIIIIPNEKLRHAFTAIQYRQGFHGLNIFAYTAMQSAYTECNDWLNEIRLYIEDNAQFAYEYIKTHIPALSVTKPEGSFLLWIDCSRLKLSQNERTALLEEKGKIIVEPGEKYGLGGEEHIRINIGCPRSVLEEILNRLRHTFS	PGPT0001990_2483	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
AK009_05908	252			hypothetical protein	ATGGGTACATATGAAAAGATGATAGAGGTTGTGAAGAATTGGGATCCGTTTCAAATGGGACCGGAGTTTTATGAAACAGAAGCGAGCGATGTTGTGAACGTCATAAGTGTGTTTGATGATCCAAAATACATCGCAAAGAAGATTCAACATATATACTTTATGTCTTTTGAGGAAGTACCTGCGCTTGAAAAATGTGAGAAGTTAGCTGTGGAATTACTTGTAATAAAAGAAGGCGGAAGTTGTTCATTATAG	MGTYEKMIEVVKNWDPFQMGPEFYETEASDVVNVISVFDDPKYIAKKIQHIYFMSFEEVPALEKCEKLAVELLVIKEGGSCSL				NA	NA	NA	NA	NA
AK009_05909	840		COG0596	putative protein	ATGAATCACGAATATACTTGTCCTTATTTCACTTTTTCCACTCGCGGCACTACTATTCATTACGAATTGTATGAACACGATAACAAAACAGAACGTCCTACTTTCGTACTCGTTCACGGCTTTTTATCTTCCTCATTTAGTTACCGTCGTCTCATTCCCTTACTATCGAAAGCAGGAACAGTGATTGCTCTTGATTTACCACCGTTCGGAAAAAGTGATAAGTCTCATCTGTTTAAGTATTCTTATCACAATTTAGCAACGATTATTATTGATTTAATTGAACATTTATCTCTCTCAAACATTGTATTAGTTGGGCACTCTATGGGTGGGCAAATTTCTCTCTATGTAAACCGTATACGTCCTGAACTCATTTCAAAAACGATTTTACTATGCAGCTCTAGCTATTTAGCACGCGCAACCTTACCTTTACTATACTCTTCTTATTTACCGTTCTTTCATTTATACGTAAAGAACTGGATTATTAGACGCGGTATTGTTCATAACTTAATGAATGTCGTTCATGATCACTCATTAATTGACGATGAAATGAAAAAAGGTTACTCCGCTCCTTTTTATGACGACCGTATATTTCCCGCTTTAACTCGCATGATACGAGACCGTGAAGGTGACTTATCTTCAACTGAATTACAAAAAATCGAAACACCTATCTTGCTCATTTGGGGTGAAAAAGACCGCGTCGTCCCTGTACATGTAGGTCATCGTCTACACAAAGATTTACCGAATTCAAAATTTATTTCTTACGAAAATACAGGACATTTACTACCTGAAGAAAAGCCTAAACATGTTTATGAAGAAATTATCGCTTTTTCTGCGCAATAA	MNHEYTCPYFTFSTRGTTIHYELYEHDNKTERPTFVLVHGFLSSSFSYRRLIPLLSKAGTVIALDLPPFGKSDKSHLFKYSYHNLATIIIDLIEHLSLSNIVLVGHSMGGQISLYVNRIRPELISKTILLCSSSYLARATLPLLYSSYLPFFHLYVKNWIIRRGIVHNLMNVVHDHSLIDDEMKKGYSAPFYDDRIFPALTRMIRDREGDLSSTELQKIETPILLIWGEKDRVVPVHVGHRLHKDLPNSKFISYENTGHLLPEEKPKHVYEEIIAFSAQ				NA	NA	NA	NA	NA
AK009_05910	993	ghrB	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGCGTGATAAAGCGAAAGGGGATGGAATCGTGAAACCAAAAGTTTATATTGCTGAACCAGTTCCAACATTTGTAGAAAACTATTTATCAGAACACTGTGATTATGAAAAATGGGATCAAAATGAGAAAGTACCCCGTGATGTTCTATTAGAAAAAATACAAGATAAAGATGGGTTATTAAATTTCGGATCTGCCATTAATGAAGAATTACTGACAGTGGCTCCTAACTTAAAAGTAGTGAGCAACATTTCTGTCGGTTACGATAATTTTGATTTACAAGCGATGAAAAACCGAAATGTTATCGGAACGAATACACCATACGTATTAGATGATACAGTAGCTGATCTCGTTTTCGCCCTTATGTTATCTGCTGGGCGCCGTGTTTGCGAACTCGATTCTTATGTGAAAAATGGTGAATGGAACGCTGAAATTGGAAAAGAACACTTCGGACTAGATGTACACCATAGCACAATTGGTATTATCGGTATGGGCCGAATTGGAGAAGCCGTTGCAAAACGAGCAAAATTCGGATTTGATATGAATGTTCTTTACTATAACCGCCGTCGTAAAGAAGAAGCTGAACAAAAATTCGATGCTACATATTGTGATTTACAGACGCTACTGGAGCAGTCTGACTTTATTGTTCTTCTTACTCCATTAACAGATGAAACATATCACCTTATCGGAGAAAAGGAATTTTCATTAATGAAAGAAACAGCAATCTTCATTAATGCTTCTCGCGGGAAAACAGTAGATGAAGAAGCGTTAATCCATGCTTTAACAGAAAAGAAAATCTTTGCAGCAGGTATCGATACATTTACACAAGAGCCGATTCAAAAAGATAATCCACTCTTATCATTACAAAATGTTGTGACTTTACCACACATCGGATCTGCAACATTAAAAACTAGGCAGCAAATGGCTATGACCGCCGCTGAAAATTTAGTTGCAGGATTACAAGGAAAAACACCGCCTAATATTGTTCGCGGGTAA	MRDKAKGDGIVKPKVYIAEPVPTFVENYLSEHCDYEKWDQNEKVPRDVLLEKIQDKDGLLNFGSAINEELLTVAPNLKVVSNISVGYDNFDLQAMKNRNVIGTNTPYVLDDTVADLVFALMLSAGRRVCELDSYVKNGEWNAEIGKEHFGLDVHHSTIGIIGMGRIGEAVAKRAKFGFDMNVLYYNRRRKEEAEQKFDATYCDLQTLLEQSDFIVLLTPLTDETYHLIGEKEFSLMKETAIFINASRGKTVDEEALIHALTEKKIFAAGIDTFTQEPIQKDNPLLSLQNVVTLPHIGSATLKTRQQMAMTAAENLVAGLQGKTPPNIVRG	PGPT0001310_155	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
AK009_05911	498			hypothetical protein	ATGGTGACAGAAAAAGAATTAGAATTATTAGCTTGTCTTGAAAAGAGTAGTCGATTATCTGTAGATACATTAGCGAAGCTGTTAAATATAGAGGTAGAAGAAGTAAAGAAGATGGTTGCGAGGTTAGAAAATGAAAAGATTATTGTGGATTATGTAACACATATTGATTGGACGAAGGTGAAAGAACATACAGGTTTAACGGCAATGATCGATGTGAAAGTTACGCCAAAGCATGGCGTTGGGTTTGATGCGGTTGCTGAACAAATTTATCGTTATTCAGAAGTGAAATCCGTTTATTTAATGTCAGGGACATATGATCTTTCTATTACATTAGAAGGGAAAACGATGGGAGAAGTAGCGATGTTTGTTTCTGAGAAATTAGCAACAATTGAATCTGTTGTTTCTACAACTACTCATTTCATTTTGAAGAAGTATAAACATGAGGGCGTTATTTATGAAAAAGACGATGATGATAAGCGAATTGTGGTGACACCATGA	MVTEKELELLACLEKSSRLSVDTLAKLLNIEVEEVKKMVARLENEKIIVDYVTHIDWTKVKEHTGLTAMIDVKVTPKHGVGFDAVAEQIYRYSEVKSVYLMSGTYDLSITLEGKTMGEVAMFVSEKLATIESVVSTTTHFILKKYKHEGVIYEKDDDDKRIVVTP				NA	NA	NA	NA	NA
AK009_05912	1191	dapX_2	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGAAGCAATTTGAACTATCTAGATCAGCAGAATCTTTAAAACCATCTGGTATTCGAAAATTTTTTGATTTAGCAGCAAATATGAAAGGTGTTATTTCCCTCGGGGTAGGAGAGCCGGATTTTGTTACACCTTGGAATGTAAGGCAAGCATGTATTCGTTCTTTGGAACAAGGGTATACGTCATATACAGCAAATGCAGGATTATTGGAGCTCCGTCAAGAAATAGCAAAGTATCTAAAAAAACAATTTGCAGTATCTTATGATCCAAGTGATGAAATCATTGTTACAGTTGGAGCGAGCCAGGCGTTAGATGTAGCGATGCGCGCCATTATAAATCCTGATGATGAAGTGCTCATTATTGAACCGAGCTTCGTTTCTTATGCACCACTTGTGACATTAGCTGGAGGAGTTCCGGTTCCTGTGGCGACTACGTTAGAAAACGAGTTTAAAGTACAACCAGAACAAATTGAAGCAGCTATTACAGCGAAAACAAAGGCAATTTTGCTTTGTTCACCAAATAACCCGACAGGTGCAATGCTAAATAAATCCGAGCTTGAAGAAATAGCAGTGATTGTTGAGAAGTACAATCTAATCGTATTATCTGATGAAATTTATGCAGAACTTGTATACGACGAAGTATATACAAGTTTCGCGAGTATTAAAAATATGCGTGAGCATACGATTTTAATTTCAGGATTTTCAAAAGGATTTGCGATGACAGGATGGCGCCTCGGTATGATTGCAGCTCCTGTTCAATTTTCAGAATTAATGCTCAAAATCCATCAGTATTCAATGATGTGTGCACCGACGATGTCTCAGTTTGCAGCACTTGAGGCGTTACGCGCAGGGAACGATGAAGTAATTCGAATGAGAGATAGCTATAAGAAGCGTCGTAACTTCATGACGACATCTTTCAATGAAATGGGCTTAACGTGTCATGTGCCGGGCGGAGCATTTTATGTTTTTCCTGCTATATCTTCAACCGGATTATCTTCAGCGGAATTTGCAGAACAGTTATTGTTGGAAGAGAAAGTGGCCGTTGTCCCTGGTAGCGTATTTGGCGAAAGTGGTGAAGGATTTATTCGTTGTTCATATGCAACGTCGCTTGAACAACTTATGGAAGCGATGAAGAGAATGGAACGGTTTGTAGAAAATAAAAAAAGGACAAAACGTAATACGTTTTGTCCATAA	MKQFELSRSAESLKPSGIRKFFDLAANMKGVISLGVGEPDFVTPWNVRQACIRSLEQGYTSYTANAGLLELRQEIAKYLKKQFAVSYDPSDEIIVTVGASQALDVAMRAIINPDDEVLIIEPSFVSYAPLVTLAGGVPVPVATTLENEFKVQPEQIEAAITAKTKAILLCSPNNPTGAMLNKSELEEIAVIVEKYNLIVLSDEIYAELVYDEVYTSFASIKNMREHTILISGFSKGFAMTGWRLGMIAAPVQFSELMLKIHQYSMMCAPTMSQFAALEALRAGNDEVIRMRDSYKKRRNFMTTSFNEMGLTCHVPGGAFYVFPAISSTGLSSAEFAEQLLLEEKVAVVPGSVFGESGEGFIRCSYATSLEQLMEAMKRMERFVENKKRTKRNTFCP	PGPT0007145_208	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007145-yugH-K10907	NA	NA
AK009_05914	345	yugI	COG1098	General stress protein 13	ATGTCAGAACAATATACAACAGGAGTGGTTGTAACAGGGAAAGTGACTGGAATTCAAGATTACGGTGCATTTGTAGCGTTAGATGCAGAAACACAAGGACTTGTGCATATATCTGAAATTACAAATGGATATGTAAAGGATATTCATGACTTTTTAAAAGTCGGCGATACAGTAGAAGTAAAGGTACTTTCAATTGATGAAGAGCACAGAAAAATGAGTTTATCGTTAAAAGCGGCGAAAAGAAAACAAGGAAGGATTCTTATACCGAACCCATCTGAAAACGGATTTAATACGCTGCGAGAAAAGTTGGCAGAATGGATTGAAGAGTCCGAGTTAACAAAGTAA	MSEQYTTGVVVTGKVTGIQDYGAFVALDAETQGLVHISEITNGYVKDIHDFLKVGDTVEVKVLSIDEEHRKMSLSLKAAKRKQGRILIPNPSENGFNTLREKLAEWIEESELTK	PGPT0014890_397	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570	NA	NA
AK009_05915	234			hypothetical protein	ATGAGTACTTTGCAACGTATCGCATTAGTCTTTACTGTAATTGGCGCTGTGAACTGGGGACTAATCGGATTTTTCCAGTTTGACTTAGTAGCAGCCATTTTCGGTGGACAAAATTCAGCTCTTGCACGTATTATTTACGGCATCGTTGGTATATCTGGGCTTATCAATCTTGGTTTATTGTTTAAACCATCTGAAAATCTTGGTACACACCCAGAAACAAACGAAATTCGATAG	MSTLQRIALVFTVIGAVNWGLIGFFQFDLVAAIFGGQNSALARIIYGIVGISGLINLGLLFKPSENLGTHPETNEIR				NA	NA	NA	NA	NA
AK009_05916	1353	pgi	COG0166	Glucose-6-phosphate isomerase	ATGAGTACACATGTAACGTTCGACTATTCTAAAGCGTTATCCTTCATCGGTGAACATGAAATCACTTATTTACGTGATGCAGTGAAAGTAACACATCACGCAATCCACGAAAAAACTGGAGCTGGGAACGATTTCCTTGGGTGGGTAGACCTTCCGCTTCAATATGACAAAGAAGAATTCGCTCGCATTCAAAAATGCGCAGAAAAAATTAAAAATGACTCTGACATTTTACTTGTTGTAGGTATTGGTGGTTCTTACTTAGGGGCACGCGCAGCAATCGAAATGTTAAACCATTCTTTCTACAACACGCTTTCTAAAGAACAACGTAAAACTCCACAAGTGCTATTTGTTGGACAAAACATTAGCTCCACTTACATGAAAGATTTAATGGACGTATTAGAAGGTAAAGACTTCTCTATTAACGTTATTTCCAAATCAGGTACAACAACAGAGCCAGCACTAGCATTCCGTATCTTCCGTAAGTTATTAGAAGAAAAGTATGGAAAAGAAGAAGCTCGCAAACGTATTTATGCAACTACAGATAAAGCACGTGGTGCATTAAAAACATTAGCTGATAACGAAGGTTACGAAACATTTGTTATTCCAGATGATGTTGGAGGACGTTTCTCTGTATTAACGCCAGTTGGTTTATTACCAATCGCAGTAAGTGGCTTAAATATTGAAGAGATGATGAAAGGTGCAGCTGCTGGTCATGATGACTTCGGAACGTCAGAACTAGAAGAAAACCCAGCTTACCAATATGCAGTAGTTCGTAACGCTTTATACAATAAAGGAAAAACAATTGAAATGCTTGTTAACTATGAGCCAGCACTTCAATACTTCGCTGAGTGGTGGAAACAGTTATTTGGTGAAAGTGAAGGAAAAGATCAAAAAGGTATTTTCCCATCTTCAGCAAACTTCTCAACTGACTTACACTCATTAGGTCAATACGTTCAAGAAGGTCGTCGTGACTTATTTGAAACAGTTCTTAAAGTAGGTAAATCTACACATGAACTAACAATCGAATCAGAAGAAAACGATTTAGACGGATTAAATTACCTTGCTGGTGAAACTGTAGACTTTGTAAACACAAAAGCATACGAAGGTACATTACTTGCACATAGCGACGGGGGAGTACCAAACTTAATCGTCAATATTCCTGAATTAAATGAGTACACATTCGGTTACCTTGTATACTTCTTCGAAAAAGCATGTGCGATGAGCGGCTACTTACTAGGGGTAAATCCATTTGACCAACCTGGCGTAGAAGCATACAAGAAGAACATGTTTGCTTTACTTGGTAAACCAGGATTTGAAGAATTAAAAGCAGAATTAGAAGAGCGTTTAAAATAA	MSTHVTFDYSKALSFIGEHEITYLRDAVKVTHHAIHEKTGAGNDFLGWVDLPLQYDKEEFARIQKCAEKIKNDSDILLVVGIGGSYLGARAAIEMLNHSFYNTLSKEQRKTPQVLFVGQNISSTYMKDLMDVLEGKDFSINVISKSGTTTEPALAFRIFRKLLEEKYGKEEARKRIYATTDKARGALKTLADNEGYETFVIPDDVGGRFSVLTPVGLLPIAVSGLNIEEMMKGAAAGHDDFGTSELEENPAYQYAVVRNALYNKGKTIEMLVNYEPALQYFAEWWKQLFGESEGKDQKGIFPSSANFSTDLHSLGQYVQEGRRDLFETVLKVGKSTHELTIESEENDLDGLNYLAGETVDFVNTKAYEGTLLAHSDGGVPNLIVNIPELNEYTFGYLVYFFEKACAMSGYLLGVNPFDQPGVEAYKKNMFALLGKPGFEELKAELEERLK	PGPT0017735_4631	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
AK009_05917	1467	lgrD_3		Linear gramicidin synthase subunit D	ATGGTAGAAATTTGGTCAGAGGTATTAGGGATTGACTCCTCTGTCATTGGGATAAATGATAATTTTTTTGATCTAGGTGGGCACTCTTTAAAAATTATGAGTACTTTAGTAAAAACATTTTCTGAAGGTTGGAATGTAACTATTAAAGATTACTTTGAATTAAAAACAATTAATAATATAGCTAAAAAAATTCAATATGGATATAAAGTAAATTCACATTCAGATACATTAGATATTAAATTGACAACTCCTCCAAAGAAGCTAAAGAAAACAAAAAGACACGAATTTAGTAATAATAGCAAAATACTTTTAACAGGTGCTACAGGATTCTTAGGTATTCACCTACTAGAACAACTATTGGATACTACAGAATGTAAGATATATTGTTTAGTTCGTGGGGAAAATAAACAAGAGGCAAATAATCGTTTATTACACATGTTAAAATTTTATTTTAAAAATAAATTTGTAAGCTATCAATCTTTAGTAAATCAACGTATCTTTATTGTACAAGGTGATTTAGCTAAACAAAATATGGGATTAGAAAACGAATTATATAAGGAGCTTCATCAACAAATATCAACTGTTATTCATGCTGCAGCTTTAACAAAACATTTTGGCGAGTATAGTGAATTTGAAAGAGCAAATGTCCAGGCGGTAAAAGAACTTCTTGCATTTGTTGGTGATACTAAGGATTTACATCATATATCTACAACTGGTGTAGCCGGACAATTTGTATTAAATGAAACGGAAACAATATTTAAAGAAAGCGATTTTTATGTAAAACAAAATTACAAAGATAATGTGTATGTGAAAAGTAAATTTTTGGCGGAATATGAAATATTCAAGGCAATATTAACGGGAACAGATGCTACTATTTATAGAGTAGGAAATCTTACAAATAGATATATTGATGGACAACATCAATATAACTTCACCGAAAATGCATTTATGAGCAAATTAAAATTTATATTACAATATGGTATCGTGACAGATGTATTATTATCAAGTGAAGTTGAGTTTACACCTGTAGATTATTGCAGCAAAATTATCACAGGGTTTGTAACTTCAAATGAAATACATGAAAATAGCAAAAATTGCGTAAATCATATATACAATCATCTTACGTTAAATTTAAATGTACTTGTAAAATTACTAAATTCAATGGGATATCCAATTAAAGTAATTTCTGAAACAGAGTATCAACAATTTATTTTAGAACTTTCTAAAGATAAAAAGAAACAGGAAGATATTCAAAACCTCATGACATTTGAAGAACCAAAAGATAATTGTTATAAACCAATAAATCTTGATTCGACTGAAACTCAAAAAACACTAAAATTATTAGGTATTCAATGGCCTATTATTAATATTGAATATATACAACAAATTATTAATTATATGACGAGTGTTACTGGTAGTAATTCTGTTGCAAAGCTTTTTAAACAAAGTTACACTTTAAAAAACTGA	MVEIWSEVLGIDSSVIGINDNFFDLGGHSLKIMSTLVKTFSEGWNVTIKDYFELKTINNIAKKIQYGYKVNSHSDTLDIKLTTPPKKLKKTKRHEFSNNSKILLTGATGFLGIHLLEQLLDTTECKIYCLVRGENKQEANNRLLHMLKFYFKNKFVSYQSLVNQRIFIVQGDLAKQNMGLENELYKELHQQISTVIHAAALTKHFGEYSEFERANVQAVKELLAFVGDTKDLHHISTTGVAGQFVLNETETIFKESDFYVKQNYKDNVYVKSKFLAEYEIFKAILTGTDATIYRVGNLTNRYIDGQHQYNFTENAFMSKLKFILQYGIVTDVLLSSEVEFTPVDYCSKIITGFVTSNEIHENSKNCVNHIYNHLTLNLNVLVKLLNSMGYPIKVISETEYQQFILELSKDKKKQEDIQNLMTFEEPKDNCYKPINLDSTETQKTLKLLGIQWPIINIEYIQQIINYMTSVTGSNSVAKLFKQSYTLKN				NA	NA	NA	NA	NA
AK009_05918	1356	pcaB	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	ATGAATTCGACACCAATTGATTCTGAAATCTTTAAGGACCAGTTTGGTACAAAACAAATGAGAACAAATTTTTCAGACGAGAATTTAATACAATTGTGGCTTAATTCAGAAGTTGCCTTAGCAAAAGCTGAAGCTAAATTAGGTATTATACCTCAAAATGCAGCGACTAATATTGCAAATGCAGCTGACCAAAATAAACTTGATTTTAATAAGATTAGAGAAGGAATGAAAAAAACTGGACACCCCTTTGTAGCATTCCTACATGAGTTCGAGAGTTTATGTGATGAAGAATCACGTAAGTACATTCATTGGGGAGCAACAACACAAGATATAATTGACACGGGACTTACCCTGCAAATTAAAGGTGCTCATGAACTTATTTATAATCAAACTCAAGAAATATTAAAGATATGTTTGAGATTAAGCCAGCAATATAAGTCAACAGTAATGCCAGGCAGAACGTTAGGTCAGCATGCCTTACCGATTACTTTTGGATATAAGATATCTATATGGTCAGATGAACTTGGTCGTCACTTAGAAAGGTTACAACAAGGTGCAGACCGATATTTAGTGGGGCAACTGGGAGGTGCAGTTGGTACTTTAGCTTCATTAGGAGCGCAAGGGTTAGCTGTTAGAAAAGAGTATGTAAAAAATTTAAACCTAATTGAACCCTTAGTATCTTGGCACACGTCTAGAGACCGATTTGCAGAATTTAGCATGATTTTAAATATGATAGGAGCAACTACAGCTAAAGTTGCAGAAGAAATAATAAGCCTTCAAGGAACAGAGATTAGAGAAGTAGAAGAGGGGTACCATTCTGGTAAAGTAGGAAGTAGCACTATGCCGCATAAAAGAAATCCTATGACTTGCTCTTATATTGTGGGATTAACTAAAATAGTCAATAGAAAATCAACTTTAGCTATTGACAGTATGATTCAGAAACACGAAAGAGATGTTACATTTTGGCAATCTGAATGGTCTTATATTTCGGAAATTTGCATAACTTTAAGCGGCGCATTAGAACAACTTAAAAATGTCTTAACAAACTTAATAGTAAATGAAGAACAAATGAAAAAGAATCTTTTTCTTACCAAAGGTTTAATAGTATCTGAGAACGTAATGTTAGAATTGGGGAAGATAATTGGTAGAACTACTGCCCATGATTTATTGTACGAATTAACAATGAGAGCTTTTGAAGAAGACAAAGATTTAAAAGATATTTTATTAGAAGACAATGAAATTAAGAAGTATTTTAGCGATGAAGAGATAAATTCCCTTACTAATCCAGAATCATACACAGGGTTGAGTGAAAAGTTTGTTGATGATGTTTATAACAAGTGGTTGAGTTATACATAA	MNSTPIDSEIFKDQFGTKQMRTNFSDENLIQLWLNSEVALAKAEAKLGIIPQNAATNIANAADQNKLDFNKIREGMKKTGHPFVAFLHEFESLCDEESRKYIHWGATTQDIIDTGLTLQIKGAHELIYNQTQEILKICLRLSQQYKSTVMPGRTLGQHALPITFGYKISIWSDELGRHLERLQQGADRYLVGQLGGAVGTLASLGAQGLAVRKEYVKNLNLIEPLVSWHTSRDRFAEFSMILNMIGATTAKVAEEIISLQGTEIREVEEGYHSGKVGSSTMPHKRNPMTCSYIVGLTKIVNRKSTLAIDSMIQKHERDVTFWQSEWSYISEICITLSGALEQLKNVLTNLIVNEEQMKKNLFLTKGLIVSENVMLELGKIIGRTTAHDLLYELTMRAFEEDKDLKDILLEDNEIKKYFSDEEINSLTNPESYTGLSEKFVDDVYNKWLSYT	PGPT0005000_516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
AK009_05919	1902			hypothetical protein	ATGAAAATTGCGATAGTAGGTTTAGGACCAAGAGGTATATCAGTATTTGAAAGAATAGTCTCTAATATTTTATCTGAATTAAAATCAGAATCTTATGAAATTTCCTTGGTTGATCCACATCCTCCAGGTGGAGCTGTATGGAGAACAGACCAGTCACCTCAACTTTTAATGAATACAGTGGCTTCGCAAATAACTTTATTTACTGATGATAGCGTCCAGTGTCGGGGTCCTATCGTTAATGGGCCTAGTCTATTAGAATGGGCAAATGAATTAAGGGATAAAATTGACACTTTGGATATGCCCACCGTTATTACAGAAGAAATTTATTCCTTAGAACCTAACTCTTACCCTACAAGAGCTCTATACGGCTATTATCTTAAAGATTCATTTAATACTATTCTTGAAGAATTACCCTCAAATATTAAGATTAACTTAATTCAAGACACATTAATTGATCTCTATCCGAACAATGAAGATTATACTTTATTTCTTAATAAGTCTTTAACACCAATTAAAGCTGAAAAGGTTATCTTTACAACTGGGCACTCAGATCAGAAATTAACTTCAGCTGAAGAACATTTCTTTGAGTTTGCTAATAGTAACAACCTAAATTACTTCCCACCATCCAATCCAGCAGATGTTAATTTAGATTCAATAGAACCTAAAACTCCCGTAATAATAAGGGGATTAGGCCTTAATTTTTTTGATTACATGTCACTTTTAACAAGTGGGAGAGATGGAAAGTTTGAAGAAATTAATGACAAATTAAATTACATTCCCTCTGGTAAAGAACCTTTATTAATTGCAGGTTCTAGGCGAGGCTTACCTTATCACTCTAGGGGACAAAATCAAAAAGGTTCTTCAGAAAGACATATCCCACTATTTCTAAAAAATGAAGTTATCGAGCAGTTAAAACATAAAAATAACCTAAGCTTTAAAAAAGAGATATGGCCTTTCGTAAAATTGGAAGTTGAAAGTATCTATTATACAACTTTAATTCGCAATCTCTATGGAATAGAAAAATCTTGTCAGTTCCTTTACGAGTTTGTTAATTGTGCCATAGAATACCATAAGGATCTTTTAATCAACTTTGGAGTAAAATCAGAACTATTTTTTGATTGGCACAAAATTAGTTGTCCTTATGGTGATAAAAAATTTAATTCAATAACAGACTTTCATAATTGGTTAGATACTTACTTACATAATGATATTAACGAAGCAAACCTGGGTAATAAAAACAGTCCACTAAAAGCCGCATTAGATGTTTTAAGGGATATCCGAAACGAAATAAGAATACTTGTTGATCATGGAGGAATAAATGCTGAGTCTTATAAAGAAGAGTTACGCAATTGGTATACACCTTTAAACGCATTTCTTTCAATTGGCCCTCCTGTTCAAAGAATCAAAGAATTGAGGGCATTAATAAGAGCCGGAATTTTAGTTTTAGTTGGACCTGAAGCAACTGTAGCTACTTCACCTATAAATAAAGATTTTAAAATTAGCTCTAACCGTGTTAAGGATTCGATATTTCATGCAAAGAACCTAATTGATGCTAGACTACCCTCAGTTAATATAAATCAAAGTAAAAATATTTTAATCTCAAATATGTTAAAAGCAGGTCTAGCCTCAGAATTTAAGATTGCAACGAACAATAATTATATTTTTGAAAGTGGAGGTTTAGCAGTGACTCCCCCCCCAAATAGATTAATAGATAAAAACGGTAAAGTTAATCCTAATTTATACTCCTTTGGAATTCCAACAGAAGGCGTTCATTGGGTAACTGCTGCGGGAGCGCGACCAGGGGTTAATTCTGTAACACTCCTTGAATCCGATTCAATTGCAAGAGATGTTCTAGGCTGCAATATTACAATTAATAATGTGTATAAGCAGACCATTAGCTGA	MKIAIVGLGPRGISVFERIVSNILSELKSESYEISLVDPHPPGGAVWRTDQSPQLLMNTVASQITLFTDDSVQCRGPIVNGPSLLEWANELRDKIDTLDMPTVITEEIYSLEPNSYPTRALYGYYLKDSFNTILEELPSNIKINLIQDTLIDLYPNNEDYTLFLNKSLTPIKAEKVIFTTGHSDQKLTSAEEHFFEFANSNNLNYFPPSNPADVNLDSIEPKTPVIIRGLGLNFFDYMSLLTSGRDGKFEEINDKLNYIPSGKEPLLIAGSRRGLPYHSRGQNQKGSSERHIPLFLKNEVIEQLKHKNNLSFKKEIWPFVKLEVESIYYTTLIRNLYGIEKSCQFLYEFVNCAIEYHKDLLINFGVKSELFFDWHKISCPYGDKKFNSITDFHNWLDTYLHNDINEANLGNKNSPLKAALDVLRDIRNEIRILVDHGGINAESYKEELRNWYTPLNAFLSIGPPVQRIKELRALIRAGILVLVGPEATVATSPINKDFKISSNRVKDSIFHAKNLIDARLPSVNINQSKNILISNMLKAGLASEFKIATNNNYIFESGGLAVTPPPNRLIDKNGKVNPNLYSFGIPTEGVHWVTAAGARPGVNSVTLLESDSIARDVLGCNITINNVYKQTIS				NA	NA	NA	NA	NA
AK009_05920	801		COG2513	putative protein	TTGGAATTTAAAGAGAAAATTAAGTTATTTCGAACGTTACATGATCAAAACAATCCATTAATGCTTCCAAATGCATGGGATGCATCAAGTGCTAAGATTTTTGAGAGAAACGATTTTCAAGCGATTGGGACTACTAGTGCTGGTATCGCAGCAACCTTAGGTTATCCAGATGGCGAGAAGATTCCTTTAGAGTTAATGTTAAATTCCATTAGTAATATCTCGAAAAATACCAAACTTCCTGTTTCAGCTGATATTGAAGGAGGATATGCCGCTAATATTTTTGATTTACGAAAAATATTAAATGAGTTAGAAAAATTTGAAGTGGTAGGTATAAATATAGAGGATGGGAGAGGTACGTATTTAAGAGAAATTAATGAGCAAAAGGTCATTTTAGACTTTATTAAAGCTTATTCGCCTCATCTTTTCATAAATGCAAGAATTGATAGTTTTTGGCTAGATATTGGCGATTTAAAAGATCGTATTAAGGATGTAATCGTTCGTGCAGAAGAATATAAAAAATCCGGAGCAGATTGTATTTTTATTCCTGGAGTTAAGGATATTGAGACAATAAAAGTACTTAGAGAAAATATAGAGTTACCTATAAATTTGCTTCAAAGTGAAAACTTAAATTCCATGCAAAACATAAAGACATTAAAAATTGAGAGAGTGAGTCTTGGATCTTCAGCTTTTAGGAATATTCTAACAAACCTTGATAAGATAAGCAGCACCTTTAAACAGGGGAAATTATTACATTCAAATGGAAACTTAACCTATCAAGACTTAAACTTGCTTATGGATTGA	MEFKEKIKLFRTLHDQNNPLMLPNAWDASSAKIFERNDFQAIGTTSAGIAATLGYPDGEKIPLELMLNSISNISKNTKLPVSADIEGGYAANIFDLRKILNELEKFEVVGINIEDGRGTYLREINEQKVILDFIKAYSPHLFINARIDSFWLDIGDLKDRIKDVIVRAEEYKKSGADCIFIPGVKDIETIKVLRENIELPINLLQSENLNSMQNIKTLKIERVSLGSSAFRNILTNLDKISSTFKQGKLLHSNGNLTYQDLNLLMD				NA	NA	NA	NA	NA
AK009_05921	1116			hypothetical protein	ATGAAACCAAAATTTAAAGAAACTATCCCTTATTTTTTCCTAAATAAAGAAATTCAAATTGGTGAAGAAGAAGGTTTAGCAGGTATAATTCCAGACCCTACTGGTAGCATCTCATTTCTAATAAATAAATTAGATGGCCAGAGAAACATTCCAAACATCGTTCAAGAAGTACAAAAAGAATTTCCTAATATTAGTTCAAATGAAATTATTGAGGCTATAAAAGTTTTAGGAAATGAAGGTTATTTAGAAGATAATTCAATTGTACCAGAACTCAATGATTACATCTTAGAAAGATATAAAGCGAATATAAATTATTTTTCACTATTCACGAAATTCGGAGAAGATAAATATAAAATTCAAGAAAAGATTTTAGAAACGCCTATTGCACTTCTTGGTGTAGGAGGACTTGGAACACAAGTACTGTATCATTTGGCAGCATTAGGATTTCATAATATAAAAGCTCTGGACTTTGATAATATTGAATTAAGTAATTTTAATAGACAGTTGCTTTATTCGGAATCAGATATAGGGAATAGTAAGGTTGAAATGGCTAAAAAGCGAATATCCCAATTCAACCCTAATGTGGATCTTCAAATTATAAATAAGAAAATAGAGTCACCTCAAGATGTGATTGAACATATTGAAGGAACTGAGCTTGTGATATGTGTTGCAGATAAGCCAACATTACATATTGCAAACTGGGTAAACGAAGGTGTGGTTAAATGTAATCTGCCAATGGTTTATGGTGGAGTATTAAATACTCGTGGTAGATTCTTTTCTATGATTCCTTCTAAGACAGGTTGTGTACAATGTCACATTAATTATGCAAGACAATTAAACGATAAACAAGACGAGCAATTAGAAGCTATGAATAACATGGAGTTTACTAGAAACAATGCTGCTATAAGTCCAAACGTAGCTATTGTAGCTGGAACAATTGTTAATGAAGCATTAAAAATTTTAACGCAGATTGCACAACCTATTTCTTTAGGGAAAGTTATGGAAGTGGACTTTTTAACCCTAGAAACTAATACTGTTTCTTCGTGGGAAAAAATGTTAGATTGTCCTCTCTGTGGTCAAGTAGTTAAAAGTGAAGTGAAGTTAAAAGTGAAGTGA	MKPKFKETIPYFFLNKEIQIGEEEGLAGIIPDPTGSISFLINKLDGQRNIPNIVQEVQKEFPNISSNEIIEAIKVLGNEGYLEDNSIVPELNDYILERYKANINYFSLFTKFGEDKYKIQEKILETPIALLGVGGLGTQVLYHLAALGFHNIKALDFDNIELSNFNRQLLYSESDIGNSKVEMAKKRISQFNPNVDLQIINKKIESPQDVIEHIEGTELVICVADKPTLHIANWVNEGVVKCNLPMVYGGVLNTRGRFFSMIPSKTGCVQCHINYARQLNDKQDEQLEAMNNMEFTRNNAAISPNVAIVAGTIVNEALKILTQIAQPISLGKVMEVDFLTLETNTVSSWEKMLDCPLCGQVVKSEVKLKVK				NA	NA	NA	NA	NA
AK009_05922	1233	entS_6		Enterobactin exporter EntS	ATGCTACCTAAAGTTTTTTTAAATAAGAGTTATGTAATACTTTTTTCTGGGATGACAATAAGTAAATTAGGAATGTGGTTCTTCACTATAGCAATTCCATTAATTGTTTATGATTTAACCCATTCTCCAAGTAAAATGGCCTTCGTACTAGCATTAGAGCTTGGAGCCCAAGTTATTTTTAGTTTAATAGGTGGGGCATTAGCAGACCAAATGTCTAAAAAGAAGATAATGATAATAGGAGACTATGCTTCAGCGCTTTTTGTACTCGTAGTTCCTATACTTTTTTTAAGTGGTTATAACAGCATAATAGTTATATATATTGCCGCTTTTACCTTATCTGCTTTAGCAGCTTTTCATCATCCTAGTTTTGAATCTGCAGTTCCTGAAATCTTATCTAAAGAGGATCTTATTCAAGGTAACTCATTCTTTAGACTAAGCGAAACGATTATCACATTCTTGGGACCCGCCGTAGCGGGGATTGCAATAGCGCTTTTTGGGAATTCGAATGTTTTATTAATAACAAGTGTGGCCTTCTTTTTATCAGGAACAATATTTTTATTTTTAAAATTTAGAGATTTTGCTGAAGAAGAGAAGAAACGCCCTGAATTAGTAAAACCTATTGTTGAAGGACTAAGATATGTCTTTGGAACGAAAATTATCTTAGTTGGTTCTCTAGTTATTTTTGGTATTAATATAGGATTTGGAGCTGTAGAATCTCTTTTTATGTATTACTTGAAAGATTATCTAGGCTTGAGTCCTATAAATATTGGATTAATTTTTTCATTACAGGCAATTGGACCAATTTTGGCTGTTTATTTTGCAAGTAAATTTAAACATATTCCAAGAGGAAATGTTATTATTTATTCAGGGATTGTTATAGGACTTGCCCAGATGCTCCTGTACTTCTCTCAATTCAGCTTAGTAATTTTAGTATTCTGTCAAATTTTTATTAAAGGATCAGTTACTTTATTAGCTATTAATTGGTTTACATTGCGACAAGAGACTGTACCTAGCAAGTTGCTCGGAAGAGTTATCAGTTCTACTAGAATGGTAGCATTTTTAGCTTTACCTTTTAGTGCTATGATAGCTGGCTTTTTGGCTGAGTCAATAAATGTTTTGTCAATCTTCTTAGTTGCAGGTGCTTTCGCGATAGTATCATCAATCGTAGGTGTAAGTCTTGGTTTATTTGATAGAAAAAGATTAGATAAGATTCAAAATGATACAGCATTGTAA	MLPKVFLNKSYVILFSGMTISKLGMWFFTIAIPLIVYDLTHSPSKMAFVLALELGAQVIFSLIGGALADQMSKKKIMIIGDYASALFVLVVPILFLSGYNSIIVIYIAAFTLSALAAFHHPSFESAVPEILSKEDLIQGNSFFRLSETIITFLGPAVAGIAIALFGNSNVLLITSVAFFLSGTIFLFLKFRDFAEEEKKRPELVKPIVEGLRYVFGTKIILVGSLVIFGINIGFGAVESLFMYYLKDYLGLSPINIGLIFSLQAIGPILAVYFASKFKHIPRGNVIIYSGIVIGLAQMLLYFSQFSLVILVFCQIFIKGSVTLLAINWFTLRQETVPSKLLGRVISSTRMVAFLALPFSAMIAGFLAESINVLSIFLVAGAFAIVSSIVGVSLGLFDRKRLDKIQNDTAL				NA	NA	NA	NA	NA
AK009_05923	480			hypothetical protein	ATGAACAAAATTGAACTAATAATTATGAATTCTAATGAAGTACGCCGGAGAAGTTTAAATTTATGGAGTTCTATTCCCAGTGAGGTTTTATTTCATAGGGTTGATTCATCTTCAATGACTATATTAGAACAAGTACGGCATGTTTTAGAAGCTGAATATTTATATCTTGAAATTTTAAAGACTAGAAAAAGTTTGCCCTATAGCGATGATGAACCAAATCCTTTCAATACACGCGATTTTACAACCATTCAAGATGAGGTTGATTTTGCAAAACCTTATCGAAAAAATTTCTTAGATTTTATAATGGGATTAAATGAGGAAGATCTTGAAAATATAAAAATAGATCGCTCAGATGTAGGATATACTAGAAACCTTGGAGATATGTTAATGAGAATGGCGTATCATGAAGCCGTACATACAGGGCAATTATTAAGAGATATGAGGGCTTTAGGTTTAAAAAGACCTCATCTATGGGATTAA	MNKIELIIMNSNEVRRRSLNLWSSIPSEVLFHRVDSSSMTILEQVRHVLEAEYLYLEILKTRKSLPYSDDEPNPFNTRDFTTIQDEVDFAKPYRKNFLDFIMGLNEEDLENIKIDRSDVGYTRNLGDMLMRMAYHEAVHTGQLLRDMRALGLKRPHLWD				NA	NA	NA	NA	NA
AK009_05924	120			hypothetical protein	ATGAGCACTGAAGAGTTTTTAACAGATATTCATGAGCACACTCCGAGTTATAGACAGATAAAAATGGAAGCGTTGAGAAGATTTCCTAATGAACGTTTGCAAGTTATTGAATATATATAA	MSTEEFLTDIHEHTPSYRQIKMEALRRFPNERLQVIEYI				NA	NA	NA	NA	NA
AK009_05925	261			hypothetical protein	TTGTTAGATATAACACAGAATGCTCTGGTGAATGAATCTGTACGCAAATCGGAAGGCGAGTTAAAGAAGTATGAGTTTACAGCAAGTGAATTAGAAATGTTGTTTAGTGGATTCTATGTTGCAGTTAGGCAATTGCCTGAGAACATTGGACCTAAAATTTATGAAGCTATTCGATGCAAAAGTGAAGACGTATTATTGAAGTGTTTAGAAGAATCAATAAGAGGGTCTGAAGAAAAGAAAAAAGAAAAAAGCGGATTTTAA	MLDITQNALVNESVRKSEGELKKYEFTASELEMLFSGFYVAVRQLPENIGPKIYEAIRCKSEDVLLKCLEESIRGSEEKKKEKSGF				NA	NA	NA	NA	NA
AK009_05926	150			hypothetical protein	ATGTTCAAGAAATTAGTAGTTGGAGCATTAGCAACTGGTATTAGCTTAATTGTTAGTGCATTTGGAACACCGTTTAATAATAGGATGCAGGTGTTAGCCATGTTACATAGTAAATTCGTTGAAGATTCGGTTCTGGTGCAAAAATGTTAG	MFKKLVVGALATGISLIVSAFGTPFNNRMQVLAMLHSKFVEDSVLVQKC				NA	NA	NA	NA	NA
AK009_05927	330			hypothetical protein	ATGATTGATCTATTAAATAAATGGATGTTAGAAAGTACAGGCAATTTCAATATCGTTGTAGGAATTACAGCACTTCTATTTTTGGGTTCAGTAATTGCACTTATTATTATTTACAAAAAAATTGGTAAACCAGATGAAAGCACAAATGCTATTTATTTAAAAATTACTTCTCGTATGTTTACTACTCAAATTCTAATGAATGCTATATTTATTTCTTTAGTTGGTAAAGATATTGAGAATTTCCGTCAAATCTTTATATTATTTGAAGCTTTTGTATTTTTTATTGGAGCTATTTATTCGTTTAAATTATATAGACAGGAATATAAATAA	MIDLLNKWMLESTGNFNIVVGITALLFLGSVIALIIIYKKIGKPDESTNAIYLKITSRMFTTQILMNAIFISLVGKDIENFRQIFILFEAFVFFIGAIYSFKLYRQEYK				NA	NA	NA	NA	NA
AK009_05928	522			IS3 family transposase ISBth10	ATGACTAAATTTACTTCAGAAGACAAAATGAATGCAGTAATACATTATCAAGATGGAAGTGAGAGTATAAAAGATATTGCGAAATCATTGGGAGCGAATCACGAAGTGGTTCGCATGTGGATAAAACAATTTGAATATCATGGAATCCTGGCCTTTGAAAAAGGCTATACAACGTATTCTGCACAGTATAAACTAGACGTACTAAATTATATGTTCGAAAATGGGACGTCTCCAAACGAAACGGCAGTCATTTTTAATATTTCTTCACCTGGACTTATTAGAAAATGGCGTATTCAGCTACATCAAAAAGGAGTAGACGCCCTTAAATCGAAGAAAAAGGGGCGTCAATCTATGACTAAGGACAATCAAAAATCAATTAAGAAACAAACACAAACAGAAGAGTCAGTAGAAACATTACAAGCTGAATTGGAGCGTTTGCGTATGGAGAATGCTTATTTAAAAAAGTTGAATGCCTTAGTTCAAAACAAGGAAAAATCACCAAACAAGATAAGGCGCAAGTAA	MTKFTSEDKMNAVIHYQDGSESIKDIAKSLGANHEVVRMWIKQFEYHGILAFEKGYTTYSAQYKLDVLNYMFENGTSPNETAVIFNISSPGLIRKWRIQLHQKGVDALKSKKKGRQSMTKDNQKSIKKQTQTEESVETLQAELERLRMENAYLKKLNALVQNKEKSPNKIRRK				NA	NA	NA	NA	NA
AK009_05929	648			IS3 family transposase ISBth10	ATGAACCAAGGACACAAAATCAACCATAAAAAAGTTCAACGAATTATGAAAGAGTTAGGTTTAAAGAGTCTAGTTCGTATGAAAAAATATCGCTCGTATAAAGGACAAGTAGGTAAGATTGCGCCAAATATTTTAGAACGTAATTTTAAAGCTGAAAAGCCGAACGAAAAATGGGTTACAGACATAACAGAATTTAAATTATGTGGCGAGAAGCTCTACTTATCACCGATGTTAGATCTATTTAATGGAGAGATAATCGCTTATACAATTGATTCAAGACCAACCTATTCACTTGTATCGAAGATGTTGGAGAAGTCTTTTCAACAATTGACAGAAGAAGACGAACTCCTTATTCACTCTGATCAAGGCTGGCATTATCAAATGAAGAAGTATCGTCACGCCCTAAAGGAACGCAAGATTACGCAAAGTATATCTCGTAAAGGGAACTGTTACGATAATGCGGTTATTGAAAGTTTCTTTGGTATTATGAAAACTGAATTTCTTTATCTAAAAGATTTTGAAAGCATAGAACACTTTAAACAAGAATTTGAAAAATATATCGATTATTATAATCACAAAAGAATTAAGGCAAAACTAAAAGGCATGAGTCCGGTACAATATCGAACTCATGCCCTAAAGGCTGCCTAA	MNQGHKINHKKVQRIMKELGLKSLVRMKKYRSYKGQVGKIAPNILERNFKAEKPNEKWVTDITEFKLCGEKLYLSPMLDLFNGEIIAYTIDSRPTYSLVSKMLEKSFQQLTEEDELLIHSDQGWHYQMKKYRHALKERKITQSISRKGNCYDNAVIESFFGIMKTEFLYLKDFESIEHFKQEFEKYIDYYNHKRIKAKLKGMSPVQYRTHALKAA				NA	NA	NA	NA	NA
AK009_05930	297	esxA_2		Type VII secretion system extracellular protein A	ATGGCTGGACAAATTCGTATGTCACCAGAGGAGCTTAAATCAAAAGCGGCTCGATATGGACAAGGTGCAAATCAAATTGAGGACATTTTAAGTCAACTACAAAACTTGCAAAATGAATTAAGAGGAGAATGGGAAGGTCGTGCTTTCGAAGGTTTTGATCAACAGTTCAATGAATTAAAGCCAAAAGTACAAAACTTTGCACAGCTATTACAAGAAATTAATATGCAGCTGAATAAAACTGCAGAAGCTGTTGCTTCTCATGATGAAGAATTATCACGTAATTTCGGTTTGAAATAA	MAGQIRMSPEELKSKAARYGQGANQIEDILSQLQNLQNELRGEWEGRAFEGFDQQFNELKPKVQNFAQLLQEINMQLNKTAEAVASHDEELSRNFGLK	PGPT0030476_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030476-esxA-NA	NA	NA
AK009_05931	276			hypothetical protein	ATGGGACAATTTCAAAGTAATTTACAAACAGCAACGCAAATTGCTACGAAAATGGAATCAGCCTCTGATAGGATTCAAAGTGTAACAACTCGTTCTATAACAAAGGCGACGCGTACAACATTATCTGTTAACTTCAAAGCACAAGAAGCGAATCAACAAATGTTAGACTTGACGAAACAATTTTCCGCTGCCTTTCAACAAGCGGTTGATAATATTCATTCGGTATCTAATGAATTTGAGAGAATGGATAACGAACTTCACAATACTTTTCGCTAA	MGQFQSNLQTATQIATKMESASDRIQSVTTRSITKATRTTLSVNFKAQEANQQMLDLTKQFSAAFQQAVDNIHSVSNEFERMDNELHNTFR				NA	NA	NA	NA	NA
AK009_05932	363			hypothetical protein	ATGAGTCAAGATATTGAAAAACAAATTAATCAAGTAAATCAAAAGTTACGAAGTGTATTTGAAGAACAAGACCGAAATCAATCTGCGATTCAAGCTCAAGAACAAGCGGAAGCAGATTTTTATGAATGTAGAAGTCGAAATCGTCGTTTGTTTGATCGGATTTTAGGAACTTGGCATGGTGATAGAGAAATGTCCCAGTTTTTTATGAATACGTATCAAGATGCACAACATATTGAACGAAAAGTCACATTTGAATTGGAAAACAAAAAAGAAACGTTGCTTAAAGAAAGACGAGACCTTAATGATTTAGAAAACGCCCTTTCCTATCAACAACAACAATTAACAAGGGAGGTCAATGCATGA	MSQDIEKQINQVNQKLRSVFEEQDRNQSAIQAQEQAEADFYECRSRNRRLFDRILGTWHGDREMSQFFMNTYQDAQHIERKVTFELENKKETLLKERRDLNDLENALSYQQQQLTREVNA				NA	NA	NA	NA	NA
AK009_05933	903		COG5444	Ribonuclease	ATGAGTTTAAATATGTATTTGGGAGAGGTACGAAGCCAAACTCAAAGCATGAATGCTGTATGTAACGCTACTATTCAAGGTATGGAACAAGTCATTCAGTCAATTGATGCCTTTGCAATTGATACTGTTCTACAAGGACAAACTTATAGCAGTGCAAAATCATTTTTTGTACAAACCTTTCGTCCTTTAGCGCAAGGAATCATTTATCTGTGTGAAGAGTTAATTCGCCAGAACGATGCTTTTCCAAGTCAATTTCAATCACAAGTCGCTTCCACAGATGTAATTGAACAAGAAATATTAGAACAAATTCGAGAAATTGACCGAATGAAAGCAAGTATGGAAGCCATCAGTCAAGCTATGCCAATCCCAGGTATGGACGCTATGGCGAATCTTTTTACTGTTATGAGGAAAAAACTGCAAGAAAAGCTGGATTATTTGTATCAATTCAATCAGACCTCTAGTAATAATTATAGTACAGCACTTCAATTAGCAGCTAGTATTGCTGCAGGTCTTGCGGAAGTTCAAAGTGGGAAAGGGTTTAGTCCTGCAAGTGGTACATTTAGTACGCAAGGGTTGAATATGGAATGGACAACTTCAATTCAAGCGATTACAGAAGAGAGGGCACGACAAGCTGCCAATTCAATTGAAGAAGGTGAAATGTGTGGTAAGCTACCTGAAAAATCTACTGGTGAAAAAATTTGGGACGGTATTGTAGATGGTACGGGACAAGCAGTTAGCGATACAATAGACGGAATAAAAGCTTTAGGAGATTGGGAAACGTGGGAAAACATGGGGAACGCTGCTTTGCACCCTATTGATACCCTCAGTACGATGTATAATGTATTGTCAGATTCATTTATTGATGATGTAATAAATGGAGATGCTGAAAGTCAGTCGTGCTAA	MSLNMYLGEVRSQTQSMNAVCNATIQGMEQVIQSIDAFAIDTVLQGQTYSSAKSFFVQTFRPLAQGIIYLCEELIRQNDAFPSQFQSQVASTDVIEQEILEQIREIDRMKASMEAISQAMPIPGMDAMANLFTVMRKKLQEKLDYLYQFNQTSSNNYSTALQLAASIAAGLAEVQSGKGFSPASGTFSTQGLNMEWTTSIQAITEERARQAANSIEEGEMCGKLPEKSTGEKIWDGIVDGTGQAVSDTIDGIKALGDWETWENMGNAALHPIDTLSTMYNVLSDSFIDDVINGDAESQSC	PGPT0027685_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BC_0920-BC_0921_TOXIN-ANTITOXIN_SYSTEM,PGPT0027685-toxin_BC_0920-K21496	NA	NA
AK009_05934	669			hypothetical protein	ATGGAGATGCTGAAAGTCAGTCGTGCTAAATGGGGAAGTTATGCTTTAACACAAGTTGGATTAGGACTTATTGGTGATAAAGGATTAAGTAAAGTATCGAAGGTAGCAACTACTGCAAATCTAACAAAAGGTATGTCCAGAGTAACTAATTCTGTTACATATAGAAACACACTAAACGTATTTAATAATTACACAGGGAAATTTGAAAGTGATTTTGCATTTGCAGGTGGAACACAGCAATATTTACAAAAAGCAGCTAATTATACCTATGAAGGCCCGAATGGTCCAAAAACAATCAGGTTAAGAATGGGTGAATTAGCAGGAGATAAACATCCAGTTACAGGTATACCTTATGATGCTGATGGATTTCCTATTTTTAAATCTAAGGGCGAGGTAACCTTAAAAGAGACAGACTTCAAAAAAACTAGAACAACACATTTTAGAAGATGCAATAAGGACCTATACAAACAAATAATGGAAGACCCTAAATTAGCTTCAAAATTCACGAAAGAAGAGATTGAACTATTTAGAATAGGGAAAACACCAGAAAATTATACATGGCATCATCATCAGGAACCTGGTCGAATGCAACTTGTAGATTATCAAATACATCACGATACTGGTCATACAGGTGGATATAAAATTTGGGGAAAAGATAGTGATAAATAG	MEMLKVSRAKWGSYALTQVGLGLIGDKGLSKVSKVATTANLTKGMSRVTNSVTYRNTLNVFNNYTGKFESDFAFAGGTQQYLQKAANYTYEGPNGPKTIRLRMGELAGDKHPVTGIPYDADGFPIFKSKGEVTLKETDFKKTRTTHFRRCNKDLYKQIMEDPKLASKFTKEEIELFRIGKTPENYTWHHHQEPGRMQLVDYQIHHDTGHTGGYKIWGKDSDK	PGPT0027660_219	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
AK009_05935	456			hypothetical protein	ATGAACAACATTACATGGATTAATGTAAGTGAGAAAAAAGTTACAGATGAACAAATTGAACAATTAGAACAGTACTTTGGTATTAAATTTCCTAATGATTTTATTGAGTGTGTAAAGAAATATGATGGTGGCTATCCTACTCCAGATACATTCAATATTCCTAATCAGGATGAAGATTCACTTAATAATCTTTTAACCTTAGACTCTGAGAGAAAAATTTCTATGCTGCAAACATATAATAGTATAAAAGATAGATTGGTAGATAAAGTATATCCTTTTGCTAGAGACCCGTTTGGTAACCTTCTATGCTTTGATTACCGAAATAATCCTCAGTCACCAACAGTCGTATTTTGGGACCATGAGGAAGAAGAAATGGAAGAATCCATCTATCCTGTTTGCTCATCTTTTGCAGAATTACTTGATAGCTTATATGAGTTTGAAGACGAGGACGAATAA	MNNITWINVSEKKVTDEQIEQLEQYFGIKFPNDFIECVKKYDGGYPTPDTFNIPNQDEDSLNNLLTLDSERKISMLQTYNSIKDRLVDKVYPFARDPFGNLLCFDYRNNPQSPTVVFWDHEEEEMEESIYPVCSSFAELLDSLYEFEDEDE				NA	NA	NA	NA	NA
AK009_05936	420			hypothetical protein	ATGAGTGTTAATGGAGAAGATGTGATTCTTAAAGATGTTAAAGTTGATGAAATTACTTACTCTAAGAGAACTCGAGAAGAAGCTGAACAACTTCGAAAGAGTGTGAGAAAAGATTTTCTTAAATCCTTAGTTAATGACCCTGCTAAGCTTGCTGAACTTAAGAATGCTGGTATATCAGATGGGGATATAGAATTGATGAAAAGAGGAAAGCCTCCAATAGGGTGGCAAGTACATCATAATCTTCCATTAGATGATGGAGGGACAAATGCATTTGAAAATTTAACTTTAATACAAAATCACCCATATCATAAAGCTATAACTAATACACAACGTACATTAACTAAAGGCTTACAACCTGGAGATAGTGTAGACATAAGCTGGCCTATACCAAAATACAATATCTACCCTAAAGGGGAATAA	MSVNGEDVILKDVKVDEITYSKRTREEAEQLRKSVRKDFLKSLVNDPAKLAELKNAGISDGDIELMKRGKPPIGWQVHHNLPLDDGGTNAFENLTLIQNHPYHKAITNTQRTLTKGLQPGDSVDISWPIPKYNIYPKGE				NA	NA	NA	NA	NA
AK009_05937	459			hypothetical protein	ATGTGGAAAAATATGATTTTGGAAATTGGAGATATACTGAAAAGTGTTAATTATAAGCTGAATACACCCGCAACGGATACTGAAGTTCAGAGATTAAGAGAACATGCAAAAGAGAAATTTAATGTTGATTTACCGAGTGAATACGAAGAGTTTCTTAAAACTGTAAATGGTTTAGACTTTGATGGATTGGTACTTTACGGAGTCGATTCTCCTTTACTAGAAACAGAAAAAGATGAACATGAACATATTTGCGGCTTTATAGATACGAATGAGATTTGGTATGAAAATGAATTTCAAAAAGAGTATCTTTTCTTTGGGGATTCAAATATTGCGTGGTTTTGCAAAAACTTATCAGACGGTACTTATCTAGAACTTGATAAACCATCAGGTACGGTAATGAACACATATAATGATTTTAATACAATGCTTGAGGAAGCGTTAAAAATAACCCTTCTTTAA	MWKNMILEIGDILKSVNYKLNTPATDTEVQRLREHAKEKFNVDLPSEYEEFLKTVNGLDFDGLVLYGVDSPLLETEKDEHEHICGFIDTNEIWYENEFQKEYLFFGDSNIAWFCKNLSDGTYLELDKPSGTVMNTYNDFNTMLEEALKITLL				NA	NA	NA	NA	NA
AK009_05938	447	yxxD_2		Antitoxin YxxD	ATGTTTAATTTTTTGAAAGAATATGTTGTAGCAGACAGAAGTGTCCGTTCTAAACAAAAACCTATTTTCTATCCTATATATCAAGATGAGATAGATGAGGCAGAAAGCTTATTACAAATGGAACTTCCAAAAGAACTGAAACGCTTTTATCAAGAAATAGGTTGTGGTTTTTTTAAGTCTGATACAAGAACGTTTTTCAACAGATTTATGGACCCGATTTCAGTTGCAGATTTCCGTTTAAGGCAAGATATTTATGAATATAATCCAAACCTAGATGATGATTCATTAGTGTTTTTTGAAGTAACAGAACTTAACTTTTTAATAATTAAATTTAAAGAGGAAAATGAATTAGGTCAATGTCCTACTTACTCTGAAGATGAGAAAATAGCGGATTCTTTAGAAGAATTTTTAATTAAAATGGATGAAAATCCTGACTATTATATTTAA	MFNFLKEYVVADRSVRSKQKPIFYPIYQDEIDEAESLLQMELPKELKRFYQEIGCGFFKSDTRTFFNRFMDPISVADFRLRQDIYEYNPNLDDDSLVFFEVTELNFLIIKFKEENELGQCPTYSEDEKIADSLEEFLIKMDENPDYYI	PGPT0027665_21	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
AK009_05939	351	cdiA		tRNA nuclease CdiA	ATGGAGCACACAACAGTGAAGAGTTCTTTAAAAACAATATTAAAAATAGTCAGTGAATCACCTTCAAAAATTCTAGGTGTAAAAACAGTAGAATACAATATGCCTAAGTTAAATATGGATGGCACCCCTACAGGAGAGTATGGAAATAAAGTATTCACAAACAACATTTATGATCCTAAAATTATAAGTGATAAGGAATTTATTAACCGTGGAATTGAAGCAGCTAATGACGCTAAATTAAAAACCAGTGATGGAGTTCTTTCGAGAGAAGGGGCAGGTGTTGACGGTAAAGAAATAACTTGGAGAGGATACCATAAAGGTGGAGAAATCTCTTCTTTTTTTCCAGAATAA	MEHTTVKSSLKTILKIVSESPSKILGVKTVEYNMPKLNMDGTPTGEYGNKVFTNNIYDPKIISDKEFINRGIEAANDAKLKTSDGVLSREGAGVDGKEITWRGYHKGGEISSFFPE				NA	NA	NA	NA	NA
AK009_05940	381			hypothetical protein	ATGCAAAGAGAATTTAGATTAAAAGATGAGGATTTACTAGATTTAACCCATTTTCCTATACAAGCAGTGTTTAATATGGTAGATGATGAAAGATTTTTAAAGGTAATCAATTCAGTTTGTGAAGGAGTAGGATTTGGAGAGGAATATGGCGCATGTACTTTTCCAGGAGATTTGGATGAGTATGATATTGCCAATGGAGATTCATTTGAAGGGGTAGAATTTGTATTATACAGTGGTGATGAGGTAATAATTAATTATCAAACACTTTATCATTATTTTAAAAAAATGTGCGAGGGTTATTCAAAAAAGTATCCAAACACAATTAAGAGATTAGAAGACGGTCTTAACAAATTTATTGAATTATACAATATTAATAGGTAG	MQREFRLKDEDLLDLTHFPIQAVFNMVDDERFLKVINSVCEGVGFGEEYGACTFPGDLDEYDIANGDSFEGVEFVLYSGDEVIINYQTLYHYFKKMCEGYSKKYPNTIKRLEDGLNKFIELYNINR				NA	NA	NA	NA	NA
AK009_05941	672			hypothetical protein	ATGAAAAAAAGTCTAAATTTTAATAAGAAAGCTTTTGCACATTATATGGCTCTTTATCCTGTAAATGAAATAAGAGTCCACGTAATTGTTCTTGTCCTTTTGGGGGCAGACGTGTTTGTTCTTTTGCCTGCATTCGCGAATCCTTTTCAATTACTCTATGTATATATAGTAACTCCTCCAGTTGTTTTTTTAAATTTGTGGGCGATATGGATTGCTATCAATCCTCGGAAACGACAATTACAATACACTCTATTTCGAGGAGTATATGGCACCATATGTTCAGTCGGATTATTGGTTATAACGCAAAAACTTGCCTATGAAGTGTTGCAATTACAAACTCCCATCTATTTTATTCTTTCATTTGGTTTGTATAGTTTCGCTTTGTATCATTTTTATAAAAATCATATTGAAAAACTTCAGGAACCAAGAAAAAAATCAAAATCATCGAAAGGAACTGGTGGTGTAAAAGTAGCAGCTATTGCAGCGGGATTGGGGCAGTTAATTGCTAATATAATTCTTAGCATTGCAACACAACAGATGGGGGCAATTGTATTTATGTCTGCATGCACAGTGTTTTCGTTTGCTTTGTTTTATATGATTATAGAACTCCATAAGTATTATTATTTACGTAAGCATATAGAAGATGGAGGGAAAATACGTATAGGCTTTTAA	MKKSLNFNKKAFAHYMALYPVNEIRVHVIVLVLLGADVFVLLPAFANPFQLLYVYIVTPPVVFLNLWAIWIAINPRKRQLQYTLFRGVYGTICSVGLLVITQKLAYEVLQLQTPIYFILSFGLYSFALYHFYKNHIEKLQEPRKKSKSSKGTGGVKVAAIAAGLGQLIANIILSIATQQMGAIVFMSACTVFSFALFYMIIELHKYYYLRKHIEDGGKIRIGF				NA	NA	NA	NA	NA
AK009_05942	651			hypothetical protein	ATGGAAACTCCAGAAAATCAATTTAAACGTGCACTTAATCCTTGGTTCTCCATTTGGATAAAACCACGTGATACAATGAAAGAAATTTTTATATCCAAACCTAAGAATGTGTTTTTACTCATTTTACTAGGCTCATTCGTACAGACTTTAGATCGAGCATCTTCTAAAAATGTGGGGGATTCAATAAGTAGTCCAGTTTCAATAATCTCAATGGTTATATTCGGTACCTTCGTTGCTTTCTTAATTTATTATTTTTTGCTACCAGCGTTATTTAATTGGGTGGCAAAAAAACTTGGTGGACAAGGTACATTTGAAAAAACACGTTACTCAGTTGCCTATTCTTATATCCCTTACGTTTATTCTCTTATATTAGTTTGGGTGCCTTCATTTTTCTTGTTTGGGATAGAAAACTTTACGAGTGAGACACCGGAAATGGATAGTAGCATAACTTTAACGATTTTGTTTCTTATTTTTGCCATAATTGATATAGTTATTGGAATTTGGACAATCATTATTTCCTTAAAATGTTTAGGGGAAGCACACCAATTTTCAGCATGGAAAGCATTATTAACAATAATAATATCCTTTATGATTATCATTCTTCCTTTAGTAATAATAGTATTTCTTATAGTAGGGGTTACAATCTTTTAA	METPENQFKRALNPWFSIWIKPRDTMKEIFISKPKNVFLLILLGSFVQTLDRASSKNVGDSISSPVSIISMVIFGTFVAFLIYYFLLPALFNWVAKKLGGQGTFEKTRYSVAYSYIPYVYSLILVWVPSFFLFGIENFTSETPEMDSSITLTILFLIFAIIDIVIGIWTIIISLKCLGEAHQFSAWKALLTIIISFMIIILPLVIIVFLIVGVTIF				NA	NA	NA	NA	NA
AK009_05943	192			hypothetical protein	ATGATTTATGGAAGAAAGCAACAACAAGCTGATAATAAATTATGCGATTATGTTTCTTGTCCATATCCTCATGGTAATTTATCAAAAGAATATAATGTGTTTTTTAATCATAATCAAATAATTCATTTATTATTTAAGGGTTTCGAAACAGAGGATGAATTAGAATTAAGAAGTAAATTATCTGAGTTTTAG	MIYGRKQQQADNKLCDYVSCPYPHGNLSKEYNVFFNHNQIIHLLFKGFETEDELELRSKLSEF				NA	NA	NA	NA	NA
AK009_05944	282			hypothetical protein	ATGGTTTTAGGAATTTCATATTCTGATATTTTTCGTATCATAATTATTGTTTTGATTTTTTTCATTTTTTGGAGATTGAATACTTGGTATAATAAAAAATATAATGTTCCTAAGGTTTTTCAATGGTTTCCTAGAAGATGGGGAAAAAGAAAAGTTTCAGAGCATTTGTCTCAACTAGATAAAAAGTTAGAAGCTGAAGGTAAAGGTATCTGGGTTACAATCTATGCTATAGATTTGTACATTGTAACTATTCCTTGTACAGTAAAAAAATATAAATCTTAA	MVLGISYSDIFRIIIIVLIFFIFWRLNTWYNKKYNVPKVFQWFPRRWGKRKVSEHLSQLDKKLEAEGKGIWVTIYAIDLYIVTIPCTVKKYKS				NA	NA	NA	NA	NA
AK009_05945	207			hypothetical protein	TTGCAAAAAGCCGGAGATTTTGCCAATGTAGAATCCATTGGTACTCACACCATGCGAAAAACCTTCGGCTATTGGTTCTATAAACAAACAAAAGATGTTGCTATGTTACAAGAAATTCTTAACCATAGCACACCACACATCCCCCTGAAATATATTGGAATTAATAAAGAAGAAAAAGATAATATTCTTGATACATTTCAAATTTAA	MQKAGDFANVESIGTHTMRKTFGYWFYKQTKDVAMLQEILNHSTPHIPLKYIGINKEEKDNILDTFQI				NA	NA	NA	NA	NA
AK009_05946	1323	kgtP		Alpha-ketoglutarate permease	ATGGCTCAAGTAAAATCAAACCGAGTCGCCGGCAATATTTTCAAAGGTTCTGTCGGCAATTTAATTGAATGGTACGACTGGTACGTTTACTCTGCTTTCGCTGTTTACTTCTCAGCAGAGTTCTTTCCTAAAGGAGATCCAACGAGTCAGTTACTGAACACGGCAGCTATTTTCGCAGTTGGGTTTTTAATGCGCCCTATCGGAAGTTTATTAATGGGACGCTATGCAGATCGGCACGGACGCCGGGCAGCATTAACACTTTCGATTACGGTTATGGCCGGTGGTTCTTTAATTATCGCCTGTACACCTAGTTACGAAAGTATCGGTATTATGGCACCAATTATTTTAGTTCTTGCCCGTTTACTACAAGGGTTATCACTCGGGGGAGAGTATGGAACTTCTGCCACATATTTATCTGAAATGGCTAGTAGTGGTCGCCGCGGCTTTTATTCAAGTTTCCAATATGTAACGCTCGTTGCTGGGCAAATGGTTGCGTTAGGCGTTCAAATTGTTCTTCAGCAATTACTAAGCGAACCAGATATGAAAGCTTGGGGATGGCGTATTCCGTTCATTATTGGAGCGATGGGCGCAGTAGCTGTATTATGGCTTCGCCGCACGATGGATGAGTCGGAGCAATTCGCAAACATAAAATCACAAAAACGCGAAAGCGCAGGAACCGTTCGCGCGCTTATGAAACACCCGAAAGCAGTATTAACAGTAGTCGGCCTAACATTAGGAGGTACTGTCGCATTTTATACGTACACAACATATTTACAAAAGTTCATGGTAAACACAGTCGGTCTTCCGAAAGAAGTTGTAAGCTGGATTAACTTTGTCGCACTACTTATTTTCGTTGTACTTCAACCAATTGCGGGGCTATTATCCGATAAAATTGGACGTCGCCCACTATTAATGGCATTCGGTATTCTCGGAACGTTACTAACAGCACCAATCTTCTTCTTCATGGAAAAAACGACAGAACCAATCGTAGCGTTCTTACTTATGATGGTCGGTCTCATTATCGTTACTGGTTACACTTCCATTAACGCCATTGTAAAAGCAGAACTCTTCCCAACTGAAATTCGCGCACTAGGCGTAGGTTTACCATATGCACTAACCGTTGCGATATTCAGCGGAACAGCTGAGTTCATCGCATTATGGCTAAAGAGTATCGGAATGGAATCACTATTCTACTTCTACGTAGCTGGATGTATCGCGATCAGCTTTATTACGTATTGGCGCATGGATGAGTCATCGAAGACTTCGCAGATTGAGGCGGAGCTTGGTGGTGGGGATACATTAGTTAATAATAAGTCTAGTTAA	MAQVKSNRVAGNIFKGSVGNLIEWYDWYVYSAFAVYFSAEFFPKGDPTSQLLNTAAIFAVGFLMRPIGSLLMGRYADRHGRRAALTLSITVMAGGSLIIACTPSYESIGIMAPIILVLARLLQGLSLGGEYGTSATYLSEMASSGRRGFYSSFQYVTLVAGQMVALGVQIVLQQLLSEPDMKAWGWRIPFIIGAMGAVAVLWLRRTMDESEQFANIKSQKRESAGTVRALMKHPKAVLTVVGLTLGGTVAFYTYTTYLQKFMVNTVGLPKEVVSWINFVALLIFVVLQPIAGLLSDKIGRRPLLMAFGILGTLLTAPIFFFMEKTTEPIVAFLLMMVGLIIVTGYTSINAIVKAELFPTEIRALGVGLPYALTVAIFSGTAEFIALWLKSIGMESLFYFYVAGCIAISFITYWRMDESSKTSQIEAELGGGDTLVNNKSS	PGPT0001525_501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
AK009_05947	1590	citS	COG3290	Sensor protein CitS	ATGAAGAAATCACGCAAAGTGTCATTACAAACGAAAATAGTAAGCTTAATTATCGCGTTAATTTTATTTGTTGTTCTCCTATTAGCGGGAATATTTGTTTACATTCAGTCCGTTGATACGAAGCGCCAAGTGGAGCAGTTAGCGCTACAAACAGCGAAGTCGCTTTCTTTTATGCCTGCTATAAAAGATGCTTTTCAAAATAACGAGCATAAAAGTACGATTCAATCCATTGCGGAACAAGTTCGTGAGCAAGCTGGCGCAGATACTGTCATTATAGAAGATCGCTTTGGGGTTATGTATTCCCATTCTAATTCGGAGTTAATTGGTACAAAGCGTAACAATCCATATAACTATGAAGCACTCACTTTTGGTGGCTATTATACGCTTGAAGGAAATGGTGAAAGTGGTCCTGCTTTAATGGCGAAGGCGCCCATTATTGTTCATAACGGAGACTACGATCAAGTCGTAGGCGTTGTAACAGTAGAGTTTTTAATAAAAGGTATTGAATCTAACATACTGAGCAGAACGAAAGAAATTATCCTCTTTTCCGTAGCAGTATTATTAGCCGGCATTGTTGGTGGCATCCTTTTAGCACGTAGTATTCGTAAAGATACACTCGGTTTAGAGCCGAATGAAATCGCAGCGCTATACAGGGAACGAAGCGCCATACTACTATCTATAAAAGAAGGAATTATCGCTATTGATCAAAACGGTTTTATTACGATGATGAACACATCAGCAGAAGAAATGCTTCATGTACATGATGATTATATGCAGCAACACATTTCAAAAGTTTTATCGGAATTTAATATGGAGAGAGTGTTAGAAAGCGATCAAGAAATCGCGTTTCAAGATAAAGTGTTTATTTTAAACATGACACCGATACTTGAAAATAACAGTACGGTAGGCGTTGTATGTAGTTTTAGAGATAAAACAGAACTGCAAAACCTTGTTAATACAATATCTGAGGTAAGAAAGTATTCTGAGGACTTACGCGCTCAAACACATGAATTTACAAATAAGCTTTTCGTCTTATCGGGATTACTTCAGCTAGGACATTACAAAGAAGCAATTGAATTTATTCAGCAAGAATCTAATATTCATCAAAGTCAAAACCATATTTTATTCCATCAAATTCATGATGCAAAAGTACAAGCTATTTTATTAGGAAAAATCGGAACAGCATCCGAGAAGAAAATTGATTTTCATATTGAAGGAGATAGTGCGCTTCATCCGTTACCAGACCATATAAAAGTTTCACACCTTATTACGATCCTTGGAAACATAATCGATAATGCATTTGATGCGGTGAGTGAACGAGAGGAAAAGAGTGTTTCCTTCTTCGTTACGGATATTGGACACGACATTGTGTTTGAAGTGATAGATAGTGGAGCAGGGATACCGGCAGAAAAAATCACGACCATTTTTCAAAAAGGGTTTTCAACGAAAGGAAATGATCGTGGTTACGGACTAGCAAACGTGAAAGAAATGGTAGATGTACTAGGGGGAACAATTGAAATTCAAAACGAGAAAAATGGGGGAGCAATTTTTACAATTTACCTTCCGAAAACATTGAGAGAAAGTACATGA	MKKSRKVSLQTKIVSLIIALILFVVLLLAGIFVYIQSVDTKRQVEQLALQTAKSLSFMPAIKDAFQNNEHKSTIQSIAEQVREQAGADTVIIEDRFGVMYSHSNSELIGTKRNNPYNYEALTFGGYYTLEGNGESGPALMAKAPIIVHNGDYDQVVGVVTVEFLIKGIESNILSRTKEIILFSVAVLLAGIVGGILLARSIRKDTLGLEPNEIAALYRERSAILLSIKEGIIAIDQNGFITMMNTSAEEMLHVHDDYMQQHISKVLSEFNMERVLESDQEIAFQDKVFILNMTPILENNSTVGVVCSFRDKTELQNLVNTISEVRKYSEDLRAQTHEFTNKLFVLSGLLQLGHYKEAIEFIQQESNIHQSQNHILFHQIHDAKVQAILLGKIGTASEKKIDFHIEGDSALHPLPDHIKVSHLITILGNIIDNAFDAVSEREEKSVSFFVTDIGHDIVFEVIDSGAGIPAEKITTIFQKGFSTKGNDRGYGLANVKEMVDVLGGTIEIQNEKNGGAIFTIYLPKTLREST				NA	NA	NA	NA	NA
AK009_05948	678	citT_2	COG4565	Transcriptional regulatory protein CitT	ATGTTGAAGGTTGCAATTGCAGAAGATGATTTTCGCGTCGCACAAATTCAGGAAGAGTTTTTATTAAAAATAAAGGACGTAAAAGTGATTGGAAAAGCATTGAATGCGAAAGAAACGATGGAACTACTACAAAGGGAAGAAATCGATTTGCTTCTATTAGATAATTATTTACCAGACGGAATTGGCACAGACTTATTACCGAAAATTCATGCAGACTTCCCAAACGTTGACGTCATTATGGTTACTGCGGCAAATGAAAACCATATGCTAGAAAAGGCAATTCGAAACGGCGTAAGTAACTACCTTATAAAACCGGTCACGTTAGAAAAATTCGTTCGCACAATTGAAGACTATAAAAGAAAGAAGCAATTATTACATAGTAACAATGAAGTGAATCAAGCACTCATCGATAACTTCTTCGGCATTTCGCAAACACAAGACATAAAAAACTTACCGACAGGTGTAGATCCGTTAACACTGCAAAAAGTGAAAGGCATTATAAAAGGATTCGAAGAGGGCATTACAATAGAAGAAATGGGAGAACAAATGGGGGCCTCCAGAACAACCGCAAGAAGGTACTTAGAATATTTAGTAGCGACAAACGAATGCACAGTAGAATACACATACGGTATTATCGGACGACCAGAACGAAAATATCGCATAGGACGAGGACTATGA	MLKVAIAEDDFRVAQIQEEFLLKIKDVKVIGKALNAKETMELLQREEIDLLLLDNYLPDGIGTDLLPKIHADFPNVDVIMVTAANENHMLEKAIRNGVSNYLIKPVTLEKFVRTIEDYKRKKQLLHSNNEVNQALIDNFFGISQTQDIKNLPTGVDPLTLQKVKGIIKGFEEGITIEEMGEQMGASRTTARRYLEYLVATNECTVEYTYGIIGRPERKYRIGRGL	PGPT0001490_80	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
AK009_05949	969			hypothetical protein	ATGAAAAAACGATTCTTACTATGTATATGGATCATGACAGGAGTAATAGCTGGTTGTTCTTCGGAAAAATCCCATACGAATACAGTGAACATCGACAAAGTAGAAATCGTTGCGCCAAACGTTCAAGGAGCAGGGTGGGACTTAACAGCGCGGGCGATGCAAAAAACGCTAACAGAAGAAAAAATCTTCACAAAACCAATCACTGTCACAAACAAAGCAGGTGGCAGCGGTGATGTCGGGTGGAAATATACGAAACAAAAAGGCGGTCACGTACTGGCGATTAACTCAAGCTTACTCATAACGAACAACCTACTAGGTCACAGTAAACTAACATACAAAGACTTCACGCCGCTTGCGACACTGGCATCGGACTGGGAAGTTGTTGTCGTATCAAAAGAATCAAACATAGAAAACGCAAAACAACTAATGGAACAACTAAAACAAAACAAGAAAAGCTTCAAAATCGGAGTTGCCCCAGGCCTAGGAAACGACGATCACCTATCCTTCGTACAAGTAAGCAAAGCATTCGGCATAAACCCTGCCGAACTACAATTCTTCGTCTATGAAAACAAAGAAAAAATCATAAACGCTCTAACGAACAAACAAATCAGCGCCGCAACCATGACCCTATCCGAAGCCGAAAAACAATACAAAGCCGGCAAAATAAAAATACTAGCCGTATCCGCACCAAAACGCTTAGACCGCCTACCCGAAATCCCAACATGGAAAGAACAAGGAATCAACGTCATCTTCCAGCACTGGAAAGGAATTATGGGCCCGAAAGATATGACGGAGGAAGAGGTTGCTTATTGGGATGGTATTATTAAGAAGATGGTTGAGAGTGATAGTTGGAAGGGGATTTTGAGGGAGCGGGGTTGGGAGAGTTTTTATAAGGGGAGTGGGGAGAGTAGGGGGTTTTTGGAGGAGAGTAGTGGGTGGTATGGGGGGATGGTGAAATTTAGTGATTGA	MKKRFLLCIWIMTGVIAGCSSEKSHTNTVNIDKVEIVAPNVQGAGWDLTARAMQKTLTEEKIFTKPITVTNKAGGSGDVGWKYTKQKGGHVLAINSSLLITNNLLGHSKLTYKDFTPLATLASDWEVVVVSKESNIENAKQLMEQLKQNKKSFKIGVAPGLGNDDHLSFVQVSKAFGINPAELQFFVYENKEKIINALTNKQISAATMTLSEAEKQYKAGKIKILAVSAPKRLDRLPEIPTWKEQGINVIFQHWKGIMGPKDMTEEEVAYWDGIIKKMVESDSWKGILRERGWESFYKGSGESRGFLEESSGWYGGMVKFSD	PGPT0017360_2034	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
AK009_05950	1851			hypothetical protein	ATGGATTATAATTTTGAGATTTTATCACTTTTAGATAATTCAATTGAGTTTGAGAAGTTACATAGTAAGTTTACTCGTTTTAATCCTTTTAAAATATTAAAGGTGGATAAGTTTGAGATTCGGCACTCTAATATGATTGCTTGGTTACTAGAGCCGACGGAGAATCATCATCTAGGTTCTATGTTTGTAAATAAGTTGCTTTCTAAAACGTTTGTCAAAGCAGAGAATGAGGAGTTAATTAGTCAATATAATTTTATTAAATTACATAAGCAGTCTCTTCAAGATTTGGAAGTTTTCCGCGAAGTACAGACGAAAAATAATAAACGAATTGACATTTTGGCAATATCAGAGGCGCAAAAGGTTGCTATTTTGATTGAAAATAAATATAAGTCATCTGAGTCAGATGGACAATTACAAAATTACATAAACTTTGTTAGTGAGAAATATGAAGGGTATACGATCATTCCAATTTTTTTAAGTTTAGATGGTAGCGTTCCAAGTCATAAATCGTATCTTACTTTAGATTACGGGGATATATTAAATATTCTAAAAGGGCAATTGGAGATTTATAGTGAGTATACGTCTAGTACGATAAAAGATTTCCTTTCCTACTATATTGATATATTAGAAGGAGAACTTGTTCGTGATGAGGAAGACATTGAGCTAGCGTTAACAGTGTACAAGAGCCATAAGGCCGCTGTTGATTTTCTATGTTTAAATGGTAACGGAAAAGTAGTTGGAAAGTTTGTGAATAAAGAGTTGTTAAGTGCTGTGAAGAAGTTGAACGCTGAAGAAAAGGAAGATCTTCGCAAAATTTATAAGAAGTATGCTGAAACGCTTCACTTTATACATGGAGCTGGAAATAGCGTTATGAGAGAGGCATTTTTACAATTTGTAGAGAAAAATCAAATGCCAGAAGATTGTTACCATGAACATATTCGCATTCCATCTTTCATTTTCGAAGAATGGAAACAGCTTGATGAGATTGTTGGAGTTCCCAATCATGAGTGGTGGCTAAACAATGCTCTTATAACTTGGTTCGAAAGAAAAATAGATGGGCGTATGAAACTTATTGTTGAAGTTGGGCCGTTGGGATACAAGCAGAGATTAAAGTTATTATGCAAGTTAGAGGAAAATGGAATTACTATTAAAGAAAAATCAAAAGAAGCTGGATCCATGTATACAAGAATTTATGCTGGATATGAAAATATAAGTGATTGGGCAGATCAAGATGAAATTCTCCGTGTGATGAATGATATGTATAACAATGCTGATTTTAATCAAGTGGTTGCAGCTATAGGAGATACTATAAAAGGGCTTGTATACGGAGAAGAGGATTCTTCTTCTGAAATTGTTGCGGTAGAAAACAGTCAAACAGATGTGGATACTTTAGCTAACGCTTTTCAATTATTCGTCCATGAACAAAAGTTCCAAGAAGGTTTTTACAATATTCATCACCGGCTACCATCATTTATTATGCCGGAGTTTCGCAAACTAGAAGAACAATTTGGAACACCAAAATGGAATTGGTGGTTAAATAACTGTGCGATTATGTGGTTCGAACGTTTGAAAGATAATAGATTGAAACTGACGCTAGAAATCGGACCACTAGAATCACAAAAGAGATTAACGCTATTAACAAGGCTTGAAAGTAAAGGAAGAAAAATAAGTACGGCGGCGAAAAGGCCAGAAGCATCGTATACAAGAATTTACACAAATACAAGTAATATAAGTAATTGGTCAGATGAAGACATTGTTATACAGGCTATGAACGAGTTGTTTAATGATACGGACTGTCAAAATATTATTCAAATATTAATGGATATCGCTGAAGAGGGTGTTCATATTTAA	MDYNFEILSLLDNSIEFEKLHSKFTRFNPFKILKVDKFEIRHSNMIAWLLEPTENHHLGSMFVNKLLSKTFVKAENEELISQYNFIKLHKQSLQDLEVFREVQTKNNKRIDILAISEAQKVAILIENKYKSSESDGQLQNYINFVSEKYEGYTIIPIFLSLDGSVPSHKSYLTLDYGDILNILKGQLEIYSEYTSSTIKDFLSYYIDILEGELVRDEEDIELALTVYKSHKAAVDFLCLNGNGKVVGKFVNKELLSAVKKLNAEEKEDLRKIYKKYAETLHFIHGAGNSVMREAFLQFVEKNQMPEDCYHEHIRIPSFIFEEWKQLDEIVGVPNHEWWLNNALITWFERKIDGRMKLIVEVGPLGYKQRLKLLCKLEENGITIKEKSKEAGSMYTRIYAGYENISDWADQDEILRVMNDMYNNADFNQVVAAIGDTIKGLVYGEEDSSSEIVAVENSQTDVDTLANAFQLFVHEQKFQEGFYNIHHRLPSFIMPEFRKLEEQFGTPKWNWWLNNCAIMWFERLKDNRLKLTLEIGPLESQKRLTLLTRLESKGRKISTAAKRPEASYTRIYTNTSNISNWSDEDIVIQAMNELFNDTDCQNIIQILMDIAEEGVHI				NA	NA	NA	NA	NA
AK009_05951	783			hypothetical protein	ATGAGAAGGGGAGTTTGGATATTGTCTTTTATTATAGGAAATATATATTCTCGCAAAGATATATATATAATTAAAAACGTTCCAAAAGAAAAACAGGGAGGGATTTGGAATACGGGATATACTACTTTTAATAAAGATATATATATATTCGTTAACGTAAATTCAGCAGGGAGAACTGGGCATGATTATGATAATCGGTTTATCGGTAATGATTTGCAATGGTTCAGTAAAAATACACATTCATTAAATGCGCCTACAATTCAAGCTATGCTGAATCCAAAAGGAAGAATATATATATTTACGCGTGAAAGTAATGAGAACATATTTTTTACATACCGAGGCACAGGGGATGTAAAGGAGTACGATGATACAAAGCCGGTAAGGATTTTATGGAAGATTAATATCGAAAATGAAATGAATTTGCTGAAATTACCAGAAAAAATAATAGATCCTGAAAAATATATTGAAGGCGCTACTAAACAAATAAATGTAAATGTTTACGAACGCAATTCTGTTGCAAGAATGAAATGTATTGAACATTATGGAGTAAATTGCATAATTTGTGGTTTTAATTTTGAAGAAATATATGGGAGTGTGGGTAAAGAATTTATTCACGTTCATCATCTTATTGAATTAAGGGAAATTAATGAACAGTATGAAGTAGATCCAATTGAAGATTTAAGGCCTGTATGTCCCAATTGTCATGCCATTTTACATAAAAGAAAACCTGCGTACAGTATTAAGGAGATGAAAAGTATTATACGAAAAAAGAATGGCTACTAA	MRRGVWILSFIIGNIYSRKDIYIIKNVPKEKQGGIWNTGYTTFNKDIYIFVNVNSAGRTGHDYDNRFIGNDLQWFSKNTHSLNAPTIQAMLNPKGRIYIFTRESNENIFFTYRGTGDVKEYDDTKPVRILWKINIENEMNLLKLPEKIIDPEKYIEGATKQINVNVYERNSVARMKCIEHYGVNCIICGFNFEEIYGSVGKEFIHVHHLIELREINEQYEVDPIEDLRPVCPNCHAILHKRKPAYSIKEMKSIIRKKNGY	PGPT0027235_450	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
AK009_05952	918			IS1595 family transposase ISRhba1	ATGACTGCAGATATCATCCCCTCAACTCTCGATGAATTGAAGGAAACACAAGTCCAAGTAATTCAAGCTACTCATAAAGGAGACTGGACTCCCACAGGTACAGATATAAAAATTGAGTGCTATGTACTAGAAAATGGAGAACGTGTTTTCTCCCTCAGGGGAACTGCTAGAACCATGGGACTAAAAGGTGGAGGCGCACTTGCTTTACCAAGAATGCTAAGTGCAAATTACCTACAAAAATATTTAAGTGATGATCTAAAAAAATGGTTAAGTGAAACCAACGAAGGTAAGGTTCAAAAAATTACACCTCCAGAAGGGGGAAATCCTTTTCATGCTTTCAAAGCTTCATTATTAGTGGATCTCTCTGATGCTTTTTATAGAGCAAAAAACAATGGTGATTTCGCTAAAATGCCTTACCAAAATGAATTGGCAGAACGACTTTATAACATTACATTGGCTTTCTCTAAAGTAGGAATAGATGCTTTTATAGATGAAATTACAGGTTACCAAGAAACACGCGAAAAAGACGCCTTACAAAAATTACTAAACCTTTATGTAGAGGAAATTTTTCATCCTTGGAAACGCAGATTTCCGGAAAGTTTCTATCGAGAAATCTATCGCCTAAAAAACTGGGAGTATACAGGAAACAGTCAAAGACCACATCTAGTCGCAAAAATAACAAATGAATTTATCTACAGCTTTTTACCTGAAGATGTTATGAGTGAAGTACGTGAACGTAAAAAAGGGAAAGAAAAATTACATCAATGGCTTACATCCGAAACAGGCTTGATTCATTTAGAGAAACAAATCGTTTCCACCACTACTTTAATGCGTGCAAGCGATTCTTGGGAAGAATTTGAAAAACTATTTAATCGCTCATTCAATAGAAAAACATCCGAACAACTAAGTTTATTTTGA	MTADIIPSTLDELKETQVQVIQATHKGDWTPTGTDIKIECYVLENGERVFSLRGTARTMGLKGGGALALPRMLSANYLQKYLSDDLKKWLSETNEGKVQKITPPEGGNPFHAFKASLLVDLSDAFYRAKNNGDFAKMPYQNELAERLYNITLAFSKVGIDAFIDEITGYQETREKDALQKLLNLYVEEIFHPWKRRFPESFYREIYRLKNWEYTGNSQRPHLVAKITNEFIYSFLPEDVMSEVRERKKGKEKLHQWLTSETGLIHLEKQIVSTTTLMRASDSWEEFEKLFNRSFNRKTSEQLSLF				NA	NA	NA	NA	NA
AK009_05953	1089	haeIIIM		Modification methylase HaeIII	ATGAACTGTATTAGCTTTTTTGCAGGTGCAGGTGGACTGGATATGGGAATTCACAAAGCTGGATTCGATGTAAGGGTTTCAGTGGAAATTGAATCGGTATACTGTGAAACATTAAGAATGAACCACCCAGATTGGAATGTGGTGGAAGGCGATATTATGATGTATAACAAAGAGAAAGTGCTTGAACAAGCTAATTTGAAAGAAGGCGAAGTGGATCTAATGATTGGTGGGAGTCCATGTCAATCATTTAGTACAGCAGGGAAACGTCAAGCTTTTTCAGATCCACGTGGACAGGCTATGTTAAAATTCGCAGAACTTGTACGTGAAATTCGTCCAAAAGCTTTTATGATTGAGAATGTACGAGGACTATTATCTGCAGCTTTAAAACATCGTCCATTAAGCGAACGTGGAAAGGATGCTTTGCCTTTAACTGCAGAAGAACAGCCAGGAAGTGCACTATCATATTTGTTAGAGCAATTTGCAGGGTACAATATTCAAAAGCCTACAATACTAAATGCAGCTAACTATGGAGTTCCTCAAAAGCGTGAGCGTGTATTTATTATAGGAATTCGTCAAGATTTGAAAAAAACATTCGAGTTTCCTGAACCAACACACAATGAGTTAGGATCGGATGGGAAAGAGTCGTGGGTTACAGTAGGAGAAGTTCTAAAAAATCTAAAAGTAGAGGAACACCATTTTCAAACATATTCTCCAGAACGTTTAAAATATATGAAGATGATCCCAACTGGAGGTGGAAACTGGCGCAATCTACCTAAAGATGTGGTACAAACTGCAATGGGGGGAGCTTATACAAGTGGTGGAGGAAAGGTGGGTTTTTTCCGTCGATTAAATGTAGAGAAACCATCTCCAACATTATTAACATCTCCAGCTCAAAAAAGTACCAATTTAGGGCACCCATTTGAAAATCGGCCTTTAAGTATTGAAGAATATTTAGCTATCCAAGAGTTTCCTGGAAATTATCATGTAGCAGGCACTTTAATGAAACAGTATACGCAGATTGGAAATGCAGTACCTGTTCGATTAGCAGAAGTTTTAGGTGATGCGATTCGTAAAACTTTAGAGGCATAG	MNCISFFAGAGGLDMGIHKAGFDVRVSVEIESVYCETLRMNHPDWNVVEGDIMMYNKEKVLEQANLKEGEVDLMIGGSPCQSFSTAGKRQAFSDPRGQAMLKFAELVREIRPKAFMIENVRGLLSAALKHRPLSERGKDALPLTAEEQPGSALSYLLEQFAGYNIQKPTILNAANYGVPQKRERVFIIGIRQDLKKTFEFPEPTHNELGSDGKESWVTVGEVLKNLKVEEHHFQTYSPERLKYMKMIPTGGGNWRNLPKDVVQTAMGGAYTSGGGKVGFFRRLNVEKPSPTLLTSPAQKSTNLGHPFENRPLSIEEYLAIQEFPGNYHVAGTLMKQYTQIGNAVPVRLAEVLGDAIRKTLEA	PGPT0020015_4601	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
AK009_05954	795			hypothetical protein	ATGAATGAACAAACTAAACAACGTGTACGCGAGCATTTGTCTAAAGTCATGGAACGTCTTGTGAAAAAAAGAACAATCGATGAGCCTTTTTTAGAGAGTGACATTGAAAGAAATAATCCATTTGGATATTATTTAGTCCCAATTGAAGTATGGAAAGGAGCTAAATTTGAACGTTCGTTTGTAACAAGTCTAGGTCAAGGGATTTTAGAACAGTTAGGTAAAATAATTGCAGAAGGAACGGGTGCTATTGCTATTAATCAACATGATACTACCATGACAATTAATACATGGAGAATCGAAAGAATTGAAGAGGTTTTAAAATCTCAAAGAGGAAAAGGGAAGAATAAAAAAACAGCAAATTGGGTTGAAGAAGTACAAGAAATATTATTGTTAGAGAATCAGCGTTTTGAAGAAATTACAGTGAAAAGTGATTTATATGTACACAGACAGGACGGAAGGCAAGAATATTACAGTTTTAAAACAGTGAAGCCTAATTTGGATCAAACAGAGACTGCTAAGCGTGATATGTTATATTTAAAGGCTGGGAACCCAGAATGCGATCCGTATTTTGCATTGCCTTTTAATCCAGCAGGGGAAGGTAATGTATATAAACAAGCGCATAGTGTTCCGTATAAGTTATTTAACATGGATAATGATCCAAGTGTTTTGATTGGTGCAGCTATGTGGAATAAGATTGGTGATTGTGAAAATACATATAATGAGTTAATAAGTATTTTTAAAGAGGTAGGGGAAATATACTCTAAAAAAATCAGAATGGAATATTTAGGTTTATAG	MNEQTKQRVREHLSKVMERLVKKRTIDEPFLESDIERNNPFGYYLVPIEVWKGAKFERSFVTSLGQGILEQLGKIIAEGTGAIAINQHDTTMTINTWRIERIEEVLKSQRGKGKNKKTANWVEEVQEILLLENQRFEEITVKSDLYVHRQDGRQEYYSFKTVKPNLDQTETAKRDMLYLKAGNPECDPYFALPFNPAGEGNVYKQAHSVPYKLFNMDNDPSVLIGAAMWNKIGDCENTYNELISIFKEVGEIYSKKIRMEYLGL				NA	NA	NA	NA	NA
AK009_05955	987			hypothetical protein	ATGACAAAGCATTTACATTTATTTTTTAAATTCAAAGGAGAAGTTAACACTTCCGATTGTATAATTAATACAATTAGAGAACATAAAACAGTTCTTGAAGAAAAAAATAGATTGATATGGGGTCAGTTCTCCAATGGGACTGGGAGGGTGTCAAATACAAATAGAGAGAGAATTACTAATCAGGTGAATGCTGGTATAGGTTCTTTTGCCTTCTTTTTAATGAATAATAGAAAAGAAAGAGAATTATTTGTTGGAAAAATAAATAGGTTATATGATAAAAAAGAAATTACTGCCACTAGTCCATTAAAAGAATTTATTCCAGCCTATTATTCAGAAACAGTGGGTACCTCTGCTGAAAAAATAAGTGTATTTGTTGATATGAGTACATTAGTAAAGATTAATAGTAAGTTAGTTAATGAAATAATAGTGGAAAGTACTGGAGAAAAGGTACTTAATGTTACTAATCCAAGAAGTATTTTTCTTACTAATATTAGTGAAAGTTTACGAGATTTAATAATTGAAATACTTAGAAACCCTGAGGCAAATTATCAATATCAGGTAGAGCAAGAGAATGTTGGTAGCGTAATAATAGAGGATATCCCTAAAAATGTACCGTCTAAATCTAAGGGAGAGGGTAGTGGAGCTTATAAAAGAGATTTTAAAACAGCAAAAAACGCAATTGTTTTAGCGAATTATAAGTGTGAAATTGATTTGAATCATGAGTACTTTATTTCAAAAGTTACAAAGAGAAATTATGTAGAGGCGCATCACTTAATTCCAATGGGATTTCAAGATGATTTTCAAAAAAGTATAGATGTGGAAGCGAACATAATTTCATTATGTGCCTACTGCCATAAAAAATTACATCATGCTGAATATAAAGTGATAGAACCGTTAATAAAAAAGTTATATGATGCTAGAATTAATAGATTAAATAATTGTGGTATAACCATAAATAAGAGTGAATTACTTAATTACTATAAATAA	MTKHLHLFFKFKGEVNTSDCIINTIREHKTVLEEKNRLIWGQFSNGTGRVSNTNRERITNQVNAGIGSFAFFLMNNRKERELFVGKINRLYDKKEITATSPLKEFIPAYYSETVGTSAEKISVFVDMSTLVKINSKLVNEIIVESTGEKVLNVTNPRSIFLTNISESLRDLIIEILRNPEANYQYQVEQENVGSVIIEDIPKNVPSKSKGEGSGAYKRDFKTAKNAIVLANYKCEIDLNHEYFISKVTKRNYVEAHHLIPMGFQDDFQKSIDVEANIISLCAYCHKKLHHAEYKVIEPLIKKLYDARINRLNNCGITINKSELLNYYK	PGPT0027235_159	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
AK009_05956	2028			hypothetical protein	ATGCTTTTAAAAGAAATAATTATAAAAAATTATAGAAAATTTAAAAATGAATCGTTCTCAATGGCTGATGATATCACCTTGCTTGCTGGGGCAAACAATAGTGGTAAGACGTCCATGATTAATTTAATGGGATCAATAATGCAAAGTGGTAAAACCCCCTTTTGTATTTCGGACATTCCAGTAAAATTATCAAAAAAATGGGTCGATGAAGTATATGAAATATTTGTAAGGTGTTTTGATGAAGATGTTTTATCTACAGTTGAAATGATTGTACATGAACTATTTGGTGATGAATTATCTAGTTTAAAAGGTGATTTAATAATACCTGCAACACTAATACGTTTTAAAATAGAATATACGGAAACTGATGATATTAGAAAATTTGCTGATTTTATTATGGATTTAGATCCGGATAATAAAAACTTCTATTTTGAATATTTGTTCCAACCAACTAGGAAATCCTTTAGAGAAGCATTGGAGGATAATTATAACAAATTGTATGCAAGATATAAGAAAATAAAATCCTTAGAAGGTTCATCTTCAAAGGTCCAGCAATTTAAAGAAATTATATTATCGATATATGAAGCTAGTATTATTGAAAAGTGTTACTTTAGTGATAGGAATTATATAGATAAAGTAGAGATTGATGTTTCGATTTTTAGAAGATTATTTAATTATAAATATATCAATGCGGGTAGACCACTTGATGATCAAAGTAATGGTAATTTTAAAAGTCTTAGTAAAAATATGATTGAACTTGCAACGCATAACAGTAATTTAAATACCTTACTAGAGGAGTTGCCAGATCAAATACTCAGTCCTATACAAGATGCAAGAATTATTGAAGAGGTAAGGAGTGCTTCGGTTAGAAATCTTAGTAATACAGTTAAAACGATTTCTAAAGCAAGTGGAGGAAATACGGGCAGCATGATTCTTGATATAGACATTAATGAGGAAACAATAACTTCTCTCCTTAATCAAATAACTAACACTAAATATCAGTATGAAGGTTATATTCTTGATGAAGCTTCTCAAGGGTTAGGTTATAGTAATATGATTTATATACTTCTTCAGTTAGAAACATATCAAAGAAAAATAGACCCATTAGTAGTGAATTTATTTGTTATAGAGGAACCAGAATCACATATGCATCCTCAAATGCAAAGAATCTTTGGGAAACATTTAAAAAAATACTATCTTCAAAAAAAAATACAAGGATTAATAACGACTCATTCTGGAGAAATGGTGCGTCTAACTGAAATGAAAAACCTTAGAGTCTCAAGACCACTAAATCATTTAGAAAGTAAAATTTATGATTTTTCGATTTTTAAGGAGAGCTTGAGTGGCGATATTACTTTGGATACGTTCTATGATTGGTTTTATGAAATTGGATTTTCAGAAATTGTTTTTGCAGACAGAGTTATTCTTTATGAGGGTGATACAGAACGACTGCTTATAAGAAAGTTATTGACTTTAGATGCATATGAAGAGCTTAATCAAAAGTACATAGCGTATGTTCAGGTAGGTGGTGCTTATGCGCACAAGTATAGTAAGGTAATCGATTTCCTGAAAATAAAAACACTTATTCTAACGGATTTAGATTATAAAAAAGGAGCAGTAACTGTAGAAGCAGTAAAGGAATCTAACACAACAAATGCAACAATCAATAGCTACTATAATGATTCAAAAGGGACGGATCTTCCAACAGTACTTGATCTGTATAAATGGAAAGAGAACGGTGAAAATAACATGTTCGGAGGACTAGCTTTACTCAGTTATCAAGGACAAGCTGAACAGTACGCTCGTACCTTAGAAGAGGCTATGTTATCAAAGTTTTATAATTTTAATGTATTAGAAAAAAAGATAGAGCTTTTTGGATTCAAAGAAGGGATATTGATAAACTTAAATATACTGTTCCGAACCCTGTTAAACCAAATGAAGATAATCCAAATCCAGATAACAAATATAGTATTAGGGATATTGTTAAACATACAGAAAATCGAAAGACTGATTTTATGTACTCATTGA	MLLKEIIIKNYRKFKNESFSMADDITLLAGANNSGKTSMINLMGSIMQSGKTPFCISDIPVKLSKKWVDEVYEIFVRCFDEDVLSTVEMIVHELFGDELSSLKGDLIIPATLIRFKIEYTETDDIRKFADFIMDLDPDNKNFYFEYLFQPTRKSFREALEDNYNKLYARYKKIKSLEGSSSKVQQFKEIILSIYEASIIEKCYFSDRNYIDKVEIDVSIFRRLFNYKYINAGRPLDDQSNGNFKSLSKNMIELATHNSNLNTLLEELPDQILSPIQDARIIEEVRSASVRNLSNTVKTISKASGGNTGSMILDIDINEETITSLLNQITNTKYQYEGYILDEASQGLGYSNMIYILLQLETYQRKIDPLVVNLFVIEEPESHMHPQMQRIFGKHLKKYYLQKKIQGLITTHSGEMVRLTEMKNLRVSRPLNHLESKIYDFSIFKESLSGDITLDTFYDWFYEIGFSEIVFADRVILYEGDTERLLIRKLLTLDAYEELNQKYIAYVQVGGAYAHKYSKVIDFLKIKTLILTDLDYKKGAVTVEAVKESNTTNATINSYYNDSKGTDLPTVLDLYKWKENGENNMFGGLALLSYQGQAEQYARTLEEAMLSKFYNFNVLEKKIELFGFKEGILINLNILFRTLLNQMKIIQIQITNIVLGILLNIQKIERLILCTH				NA	NA	NA	NA	NA
AK009_05957	1962	rep		ATP-dependent DNA helicase Rep	TTGGCTACAGAAATAGTGGAGAATATGTTTTGTGTTAATGCGCCAGCAGGTAGTGGTAAAACAACAAAAATAAAATCAATGATTGTAAATCATAAGATAAAACATCCAATAGATAATATACTTTGTATAACCTATACAAAGAGAGCTGCGGAAGAGCTTAACAAAGATTTTAATGAAGAAGGGATTCATATAAGTACAATTCATTCATTTCTTCATAAATTTTTAAAAATATATTTTTGTAAGACTGAAATGAAGGATTTATATTTTGAAATGTTTGAGGACTTAATCAAAGAAAGTATAGAGAATAAAGAGGAAAAAGAACATATAGTTACAAGAAACCAAAAGTATATTGAAAAGCATGGTTGTTTATCGGTAGAGAGTATCAAAGCGAATATAGATGCTATTTATTATAATGAGTCTTCGAACAATCATCTTTACACAGGGGGATTAGCCCATGATAGTTTATTGTTATTCGCAGAAAAGGTGTTTGATAAGTTTCCGAAGATTAAAATGAGACTAACGCAAAAGTATCAATCAATCTTCATTGATGAGTATCAAGATTCGGCTGCTAGTGTATTAAGAATGTTTTATAAGGCATGTCTTAATACAAAATCAAACCTCTATTTTCTTGGTGACAAGATGCAACAAATATATAAGAACTATGATGGATCATTTGAAGAAGAATTAAAAACTTTGAATACCGATATTAAATTAGATATTAATCACCGTTCAATACCAGATATCGTTTCTGTGCTAAATAATATATATAATGATAAGGGGTTTAAACAGAACCCGTCTAAAAAAAATCTTGATATTAAACCAGACCATCCACCAAGAATAATAATGTGTGATAACATTCAAGAAAGGCTAAAAAGAGAGTGTTCAATTTATCCCGATGCTTTATTGCTATTTTTATTAAATCAACAAAAATTTGCTTCAATTGGTGCAAGAGAATTATATAAACAATTTAGTCACTTGGAGAGATATTCACATGCAAAACAATTAAGTGCCACGGATGTTTTATCTGATAATACTAGTGAAAATACAGATCCTCTTTTAAAACTACTTTTTATAGTCGGAGAAGTGGTAGATTATTATAAAAAGTCTAATGTTGGAAGTATAATTCAAATTTTTAAAGCGAATCGTAAATTATTTGACATGGGGATTGGTACAATTACTAGTCATCGGGATAGAATTGATTTGACCAAACTGTTAAAACAGCTGTATGAAGATTATCATAAAGAAATCTCGATAAGTGAATTTTTAACTTTATTGAGGGGATGTAATCTATTTAAAAGCAGCTATATAGATAACATGGGCGATGAATATTTGGAAGTTTTAAAAGTGAAATTAAATGAATTTAAAGCACTATCAAATTATTTGCGAAATCCAGCAGTCTCAACACAGCACGGGGTAAAAGGAGAGAGTCATAATACTGTATTCTTTATTGCAGAAGATTCTTTTAGGACGCCAATAGTTCATATGCATAAATTCTTAAAATTATGGACTATTAAGGAATTAACGTTAGATTCTTTGGAATCTTTTTATTATGATTATAATAAATGGATTGAAGATACAATTAGCCACTTGGGATGTAAAATATCGGATTTAAATAAAGAAAGTCACAATGAACATAAGATTTATTTAAAAACAAGGGTAGAGCAATTATGCAAGCATTTTGAGGCTGATTTTATATTTAAGGATTTATGTGAAGAATCTTATAGTAAATATATTCTCAATCCCAATGTTACAAATATTAAAAAGTGTTTTAAAGAAAGTACTGTGTATGGTGTTCTTTCGGCTTATAAACTTTTTTATGTAGGTTGTTCAAGAGCAAGGAGCAACTTATCTATTTTTGTTGATAAATCTAAGATTGAAGGTTTCTCAGAGGAATTGATTGTTAAGTTAAGAAGAATTGGTTTTAGTGTTGAAATTGAAACAAAAGAATTGCAGAAAGTGTAG	MATEIVENMFCVNAPAGSGKTTKIKSMIVNHKIKHPIDNILCITYTKRAAEELNKDFNEEGIHISTIHSFLHKFLKIYFCKTEMKDLYFEMFEDLIKESIENKEEKEHIVTRNQKYIEKHGCLSVESIKANIDAIYYNESSNNHLYTGGLAHDSLLLFAEKVFDKFPKIKMRLTQKYQSIFIDEYQDSAASVLRMFYKACLNTKSNLYFLGDKMQQIYKNYDGSFEEELKTLNTDIKLDINHRSIPDIVSVLNNIYNDKGFKQNPSKKNLDIKPDHPPRIIMCDNIQERLKRECSIYPDALLLFLLNQQKFASIGARELYKQFSHLERYSHAKQLSATDVLSDNTSENTDPLLKLLFIVGEVVDYYKKSNVGSIIQIFKANRKLFDMGIGTITSHRDRIDLTKLLKQLYEDYHKEISISEFLTLLRGCNLFKSSYIDNMGDEYLEVLKVKLNEFKALSNYLRNPAVSTQHGVKGESHNTVFFIAEDSFRTPIVHMHKFLKLWTIKELTLDSLESFYYDYNKWIEDTISHLGCKISDLNKESHNEHKIYLKTRVEQLCKHFEADFIFKDLCEESYSKYILNPNVTNIKKCFKESTVYGVLSAYKLFYVGCSRARSNLSIFVDKSKIEGFSEELIVKLRRIGFSVEIETKELQKV				NA	NA	NA	NA	NA
AK009_05958	1281			hypothetical protein	ATGGAGTTAGGAGAGTTTCTTTATAATTTAGTTCATTCTGAAAAGCCATCAGAATATATTTTGCAATGGGGAATGTATAATCGAATTACGAAGGATTACAGATTAATTGCTGTATCTAAAGAATACGATAAGGACGCTGTATACCCAAAGGGTCTTGTAAATATTTTAAATCAAAAAGATACTGATTTTGTCCCATACTTTATGTCGGAAAAATTATTTTTCTTAGATACTACTATCATACAATCGATGTTACAAAATTCAAGTGTACAGATTCAATATGACTATTCAATTATGTTAGATACAAATTATACTAGTTACATTGAAACTTTTTTAAAGGATTTTAATAAACCTAACTTTTCTGAGGGGAGTATTTATAAAACGTTAGATACTTTGTTAAGAAATAAATTTAATTATGATTATACTTACTACTTGATTGAAAACTATAAAAATTTGTTTTCTTCTGGGGAGAAAAAATTCACAATATCTGACTCTAGTCATATTGCATTATACGAAAACTTATATTATCTGGAGTTATTTAAAAGTATTAATCATAAAGAATATATTAATAGCAATAAAATAGAGTTTATGATTAGTGAGAATGAAGCTAAACAAAAAACAGATGAATTAATTAATATTATTTATAATAATATTAATAAAGATGGACTTCGGATTTTTATTGATATGCATCAAAATATTACATTACTTTTAATCGGTATTTGGCAAATAAAGTTTAGTAGTAAAGCTAATGCTAAAAATAAAATGAAAAAATTATTTGATTTTGTAAGAACCAAGGTAGGGGTTTATTACGAAAGAGAACTAATTATTGCATTAAAGTACTTTGAAGATGCTAAGTCTGTCGGTATGTTGAATAAAATTAACAAAGGTAGTAATCAGAAAAGACTATTAGAAAAAATTGAAAATATCGCATGGGATTTTTTGGTTCCGAGAGTTATGGAATTTCAAATTAATGTAAATAAAGAAAAAACTTTCTTTGTTCCTTTTTTCTTATCACACGATAAAAAATTAAAAGATTTGATTAGAATGTTTAAAATAAAAGGTATTTTATTACACAAAGAAACTAAAGAGTTTATTCCGATTTCAGAACTAAATACTAATAAGTTGTTTGAAGAAAAAGGATTATTGAAAAGCTTGGAAATGTTGAAGTCTGATGAAGTGATGGAAGAAAGATTTAGGATTATGAAAGAAAATGTAAATAATAATTTTAAAGTTATCGATAATGAATTGAAAAAATTGATCCAAATACTTGATAATAGAGGGTGA	MELGEFLYNLVHSEKPSEYILQWGMYNRITKDYRLIAVSKEYDKDAVYPKGLVNILNQKDTDFVPYFMSEKLFFLDTTIIQSMLQNSSVQIQYDYSIMLDTNYTSYIETFLKDFNKPNFSEGSIYKTLDTLLRNKFNYDYTYYLIENYKNLFSSGEKKFTISDSSHIALYENLYYLELFKSINHKEYINSNKIEFMISENEAKQKTDELINIIYNNINKDGLRIFIDMHQNITLLLIGIWQIKFSSKANAKNKMKKLFDFVRTKVGVYYERELIIALKYFEDAKSVGMLNKINKGSNQKRLLEKIENIAWDFLVPRVMEFQINVNKEKTFFVPFFLSHDKKLKDLIRMFKIKGILLHKETKEFIPISELNTNKLFEEKGLLKSLEMLKSDEVMEERFRIMKENVNNNFKVIDNELKKLIQILDNRG				NA	NA	NA	NA	NA
AK009_05959	144			hypothetical protein	ATGCTAACCTACAACAAACTAATCCGAAATAAAATCCAACAAATAATAAAAGCTAACGGAAAAACACCCACAACAAGAATCCTAAACGAAGATGAATACATAGAGGAACTCTGCAAGAAAACACAAGAAGAACTAACAGAATAA	MLTYNKLIRNKIQQIIKANGKTPTTRILNEDEYIEELCKKTQEELTE				NA	NA	NA	NA	NA
AK009_05960	861			hypothetical protein	ATGGCGGTGTATCGTACTGTGCAGGTGAATTTTTGGCAGGATGATTTTGTTTTGGATTTGACGCCGGAGGAGCGGTATTTTTATGTGTACTTGTTGACTTGTTCGAAGACGACGCAGTGTGGGATTTTTCCTTTTCCGAAGCGATTAGCTGAGATGGAGACGGGTTATAATCGGGAGACTGTTGATAAGCTTGTGCAGCGCTTTGTTGATTATGGGAAGATTCTTTATGATGCGGAGACACGGGAGTTATTCGTTTTAAATTGGCTTCGTTATAATCCAGTGACGAATACGAATGTGGAGAAGTGTGTGCTTCGTGAGCTGAAGGGTGTGAAGAATAAGGAGTTTGTACATATGTTTCTTCAGAAGTGCGTAGAGGAGGAGCTGAATGTTCCGATGCTTTTAGCGCATTTCGGTATGCCGAGTGATTTGGCTGTGGATGATGTTGAGCCAGTTTGTGAGGAGACAGAGGAAGAAGAGGTTATAGAGGAAGAGACGGGGAGTCGCGTGTTTTCTTTTTATGAGCAGCATTTTGGTAGTTTGTCCCCTCATACGGTGGAGGAATTGAGTGCGTGGATGGAAGATTTGTCAGAGGAGCTTGTGCTGAAGGCTCTTCAAATTGCGTTTGAGAATAATAAGCGGACGGTTGCTTATGTGAAGGGCATTTTGAGAGGATGGCACGGGAAAGGATTTACGAAAGTTTCTGAGGTTGAGGCGGATACGGCGAGCTTTAGGAAAAAGGAGTCGGCTGTTAGTACGGGGGAGACGGAGGAGTTTTTGGCGAGGTGTGAGGAGTGGGAGAAGAATGCGCCGTCTGAGGAAGAGTTGCAGCGCTTTTTAGCGGAGCGCGGGTGGCGTCCATGA	MAVYRTVQVNFWQDDFVLDLTPEERYFYVYLLTCSKTTQCGIFPFPKRLAEMETGYNRETVDKLVQRFVDYGKILYDAETRELFVLNWLRYNPVTNTNVEKCVLRELKGVKNKEFVHMFLQKCVEEELNVPMLLAHFGMPSDLAVDDVEPVCEETEEEEVIEEETGSRVFSFYEQHFGSLSPHTVEELSAWMEDLSEELVLKALQIAFENNKRTVAYVKGILRGWHGKGFTKVSEVEADTASFRKKESAVSTGETEEFLARCEEWEKNAPSEEELQRFLAERGWRP				NA	NA	NA	NA	NA
AK009_05961	1290	dnaC_1	COG0305	Replicative DNA helicase	ATGAGTATTCAAAATGTGGAGGCGGAAAAGACGGTGTTAGGTTCTCTATTACTTGATGGAGAGCTTATTAAGGAGTGCCGTTTGACGGAGCAGTATTTTTCTCTGTCAGTGCATAAGTCTATATTTCAGTTAATGCGAAAAATGGAAGAAGAGGGGCAACCGATTGATCTTGTGACGTTCATTTCTAGGGTAGATCCGAAGTTTTTAGAGGGGATCGGGGGAATGGAGTATTTTATAGGGTTAATGGATGGTGTGCCTACGACTGCCAACTTCTCTTATTATGAGGGGCTTGTTCGAGGTGCCTGGAAAATGTATCAGGCGGGTGTTCTCGGGCACAAGATGGGGGAGCGTCTTATTGCGGAGAAGAATGAGAAAATTATTGGTGAGACGATTACGGCACTTTGTGAGTTAGAGGAGAAGGACTGTGTATGTGAGTTTGATTTGAAGGATGCGTTAGTTGATTTATATGAAGAGCTTCATCAAGATGTGAAAGAGATTACTGGTATTGAGTCTGGTTATACATCGTTAAATAAAATGACGTGCGGATTGCAGGAAGGTGATTTTGTCGTTCTTGGTGCGCGTCCTTCTATGGGGAAGACTGCGTTTGCACTAGATGTTGGACTGCATGCGGCGAAGTCTGGAGCGGCGGTTGGATTGTTTTCGTTAGAGATGAGTAGTAAGCAATTGTTAAAAAGGATGGCTTCTTGCATAGGTGAAGTGTCAGGAGGTAGGCTAAAAAATCCGAAGCATCGTTTTGCGATAGAGGACTGGGAAAAGGTGAGTAAGGCGTTTGCGGAAATCGGGGAATTACCATTTGAGATTTACGATAACGCAGGTGTTACGGTGCAAGATATTTGGATGCAAACTCGTAAGTTAAAGAGGAAGCACGGTGATAAGAAGGTTTTAGTTATTGTAGATTACTTGCAGCTTATTACGGGTGATCCGAAGCATAAGGGAAATCGATTTCAAGAGATTAGTGAGATTTCTCGTAAGCTTAAGTTATTAGCGCGGGAATTAAATGTTTGTGTAGTAGCATTGTCACAATTATCTCGTTCGGTAGAAGCACGGCAAGATAAGCGCCCTCTTTTATCTGATTTAAGAGAGACAGGACAAATTGAGCAAGATGCGGATGTTATTATGCTTATGTATCGCGAGGATTATTATGATAAGGAAACGGTGCAGAAAGAGATGACGGAGATTCATGTGGCAAAGCATCGGAATGGGCCTGTGGGGAGTTTTAAATTGAGGTTTTTGAAGGAGTTTGGGCAGTTTGTGGAGGGGATAAAGTAG	MSIQNVEAEKTVLGSLLLDGELIKECRLTEQYFSLSVHKSIFQLMRKMEEEGQPIDLVTFISRVDPKFLEGIGGMEYFIGLMDGVPTTANFSYYEGLVRGAWKMYQAGVLGHKMGERLIAEKNEKIIGETITALCELEEKDCVCEFDLKDALVDLYEELHQDVKEITGIESGYTSLNKMTCGLQEGDFVVLGARPSMGKTAFALDVGLHAAKSGAAVGLFSLEMSSKQLLKRMASCIGEVSGGRLKNPKHRFAIEDWEKVSKAFAEIGELPFEIYDNAGVTVQDIWMQTRKLKRKHGDKKVLVIVDYLQLITGDPKHKGNRFQEISEISRKLKLLARELNVCVVALSQLSRSVEARQDKRPLLSDLRETGQIEQDADVIMLMYREDYYDKETVQKEMTEIHVAKHRNGPVGSFKLRFLKEFGQFVEGIK				NA	NA	NA	NA	NA
AK009_05962	849			hypothetical protein	TTGGCAGGGAATGATATTTCTTATCATAATAAAGATATTCTTATGAAGTTTTTAAGTGAATGTTATAGGGATAAAGGGCTTGAAGCATATGGATTAAAAGGCTTTCCAAAAATAAAAGAGCTGTTATTAAATGAATTCTCGAGAGTTCGTGCAGATCAAAGGCGCTCAGATACTTTATTTGAAATGGAAGATGGTTCAATTTTAATGTTAGAGTATGAAAGTAATACCCGTTTCCTTGAAAACCATTTGAAGTATATGGATTATGCAAATCAAATTATGTATCGTTATTATAATAAGAATAAAGAGTTACCGGATATTCGAATCGTGGTTATTTATACAAGTGAGGTAATGAATCCAATAGAAAAAATAGATGTATCTAGTATACGTTTAAATTCCAAAGCGGTTTTACTAAGCGAATATAATGGTGATGCTATCCTTCAAAAGGTTATTAAAAAAATGGAAGAAGGAAAATCTTTGACGGATGAAGAAACCATGAAATTGATACTTGTACCACTTATGCATAGCAGAGAAAAAAGACAAATTTTAATTGAGAAGACGATAGAAGTAGCAAAATGTATCTCCGATGAGCAAGAACAAATTCAAGTTATTGCCGGAATTCTTGTAGCTACAGATAAATTTATTGATGAAGACTACGCGAAAAAAGTAAAGGAGTGGTTACGGATGACAAAAGTGGGTCGTTTATATGAACAGGAGAAGCAAGAAGAAATTGATAAAGCACTTTCGGCAGCTGGAATGCTCTTTAAAGGAATGAGTGTAGAAGAAATAGCTAAAAAATTAGATGTAACAATTGAAAAGGTGAAAGAGTGGGAGAAGCGTTTATCTCATTAA	MAGNDISYHNKDILMKFLSECYRDKGLEAYGLKGFPKIKELLLNEFSRVRADQRRSDTLFEMEDGSILMLEYESNTRFLENHLKYMDYANQIMYRYYNKNKELPDIRIVVIYTSEVMNPIEKIDVSSIRLNSKAVLLSEYNGDAILQKVIKKMEEGKSLTDEETMKLILVPLMHSREKRQILIEKTIEVAKCISDEQEQIQVIAGILVATDKFIDEDYAKKVKEWLRMTKVGRLYEQEKQEEIDKALSAAGMLFKGMSVEEIAKKLDVTIEKVKEWEKRLSH				NA	NA	NA	NA	NA
AK009_05963	786			hypothetical protein	GTGGACTACATAGTGCAACAGCTTAAAAAAATTGGTTTCAATGAATATGAAGCTAAATCTTATGTATCTCTTGTTAAACAAGGGCCTGTCACAGCCTACCAAGTGAGTAAAGATTCGGGTGTCCCAAGAGCGCGAATTTACGAGATTTTAGGTAACCTTGTAGAAAAAGGAATTGTCATGAAGGAAGAAATAAATGACACCACTCGCTATTCACCTCTACCTGTTGAAATCTTTTTACAGAAAGCTCAATCAGAATGGCATTCTACTTATGAAGGAATCAGTGATTCATTAAAAAAACTCGAAACTTCCGAGGAAAAAACGGATAATCGAGTGATTACTTTAAAAGACAATCAAACAATCATTAGCTATTGTCAGGCATTAATAAAAAAAGCAGAACAACGTATTGTCATTTCAATGTGGGATGAGATGTATGAAGCGTTAAAAGAGGAACTATGTGAGGTAGCTGATAAAGTTTCAGTACAAGGTATTACCTTACATGTTGAAAATCCAATTAAAAATCTAGAAGCTCATCGTATCACACCTTATACAGAAACCCTCTCTACAGAACATTGGTTTATTGTATCGATAGATTCTAAAGAGATGATTTATGGACCATCAATTGAAGAGCGTAATATTGCTTTTTATACAGATGACCCCGTTCATATATACTTACTTGAGGATTATGTATGGCATGACGTTTTAGTAAATCGACTTGTCCGACGTAGCCAAGATGACTTGCAGCAGTGGATTACTGCAGAGAGAAAGTCTTTCTTTATGGGGAAATGA	MDYIVQQLKKIGFNEYEAKSYVSLVKQGPVTAYQVSKDSGVPRARIYEILGNLVEKGIVMKEEINDTTRYSPLPVEIFLQKAQSEWHSTYEGISDSLKKLETSEEKTDNRVITLKDNQTIISYCQALIKKAEQRIVISMWDEMYEALKEELCEVADKVSVQGITLHVENPIKNLEAHRITPYTETLSTEHWFIVSIDSKEMIYGPSIEERNIAFYTDDPVHIYLLEDYVWHDVLVNRLVRRSQDDLQQWITAERKSFFMGK				NA	NA	NA	NA	NA
AK009_05964	768	yfcA_3	COG0730	putative membrane transporter protein YfcA	ATGGATTTTTATTTAGACCCATCCGTATTAATGATTTTGATTGTTTTTGGATTTGTAGCTGCATTTATTGATTCAGTTGTAGGTGGTGGTGGACTCATTGCTTTACCAGCTTTATTATTTACAGGACTGAATCCAGCAAGTGCAGTAGCTACGAATAAACTAGCATCGACAATGGGAAGTGCAACTAGTAATATTGTGTTTTATCGTTCTGGTAATCTTGATTTGAAATCGGCGTTTAAATTATTTCCAATCACTTTTATAGGTTCCATAATAGGGGCATGGACCGTTCATTTAATGAACCCAGAAGTACTGAAGCCATTAATGCTGATCATGCTTGGTGTGGTCGCTATTTATACGATATTCAAGAAGGATTGGGGAAGTATTTCCACTCATAAGAAATTGTCTGGTCGACACGTCATTATTTTTACCTTTTTTATTTTTGCTATTGGTTTTTATGATGGCTTTTTAGGTCCTGGTACAGGTTCATTTTTAATGTTTTCTCTTTTATTTATTGGGTATGATTTTTTAAAAGCAGCAGGTACTGCGAAGTTTCTTAATTTAGGAAGTAACGTTGGTGCATTGTTGATGTTTATGTATGTAGGGCAAGTAAACTATGTGTATGGTTTTATAATGGGGATTGCTCAAATTGCTGGAGGGATTGTTGGCTCCAAATTCGCTATAAAAAAAGGAAGCGGGTATGTTCGTGCTCTTTTCATTACAGTAACTTGTTTATTGTTAGCGAAAAATCTGTATGACTATATTCAGTAA	MDFYLDPSVLMILIVFGFVAAFIDSVVGGGGLIALPALLFTGLNPASAVATNKLASTMGSATSNIVFYRSGNLDLKSAFKLFPITFIGSIIGAWTVHLMNPEVLKPLMLIMLGVVAIYTIFKKDWGSISTHKKLSGRHVIIFTFFIFAIGFYDGFLGPGTGSFLMFSLLFIGYDFLKAAGTAKFLNLGSNVGALLMFMYVGQVNYVYGFIMGIAQIAGGIVGSKFAIKKGSGYVRALFITVTCLLLAKNLYDYIQ				NA	NA	NA	NA	NA
AK009_05965	153			hypothetical protein	ATGGAGTTTTTGATTAATCTTGTAAAAGAGTTTCTGAAAGCGACTGTACGTGAAGTTTCAGCGTATTTTTTGCGGAAGCAACTTCTGGGTAAGGACAACAAAAAACCACTCCGCGCCGTAGGAAGCAAAAGGGTGGGTTTCGTAAAAAAATAA	MEFLINLVKEFLKATVREVSAYFLRKQLLGKDNKKPLRAVGSKRVGFVKK				NA	NA	NA	NA	NA
AK009_05966	576			hypothetical protein	ATGAACGATAATGAAAAACAAATTGATTTACGTATTAGACGTACACATAAATTACTATGGAATTCCTTATTTGAATTAATGACACAATCAAAACAGAAATATAGTACGATCACAATTAACCAAATATGTGACCGCGCGATGGTACACCGAACAACCTTTTATAAACACTTTGAAGATAAAGATGCTTTATTAGCATTTGGATTTAAACGATACAGTAAGATGATTGCTGAAATACCCGTTTCAGATCGATTAAGTAAACCATTTCAAGTAATGGAACAATTTCTACACCATGAAGAAATCGGTAAAATATTAGAAACGCAAATGTCTGATGAACAATTTATTAACCGGACACAGTATTTAAGTCACGAAACGAGAAAACAAGAAATAGAAGCGTTACATCAACTGCGCAAAAATCATACGATGCCAAACGATTTAATCATTGAATTTTATTCAGGGGCAATCACCTCATTAAGCACATGGTGGTTTAAAAATGAAAGAAGCGTTTCTGCTGCTGAAATGGATAGGTATCTTCACCAACTCATTAACCGGGATATTTTTCAGTTTGAAGAGGAATAA	MNDNEKQIDLRIRRTHKLLWNSLFELMTQSKQKYSTITINQICDRAMVHRTTFYKHFEDKDALLAFGFKRYSKMIAEIPVSDRLSKPFQVMEQFLHHEEIGKILETQMSDEQFINRTQYLSHETRKQEIEALHQLRKNHTMPNDLIIEFYSGAITSLSTWWFKNERSVSAAEMDRYLHQLINRDIFQFEEE				NA	NA	NA	NA	NA
AK009_05967	1476	emrB_2		Multidrug export protein EmrB	ATGAATATGACAACTAAGAGCCCAGCAAGTAGCAAAGTTGATACTTCTAATATGAAACATACCCCCATTTTAATTGCATTACTTTTAGGGGCAATGGTTGCATTATTAAACGAAACGTTACTTGGTAATGCGTTAACAGTATTAATGAAAGAATTTGGTGTAACAGCTTCAACGATTCAATGGCTTTCTACAGCTTACATGTTAGTAGTTGGGGTTTTAGTCCCAATTACAGCGTTACTTCAGCAATGGCTCACAACGAGACAAATGTTTTTGATTGCTATGGTAACGTTTTTAGTCGGTACATTAATTGCGGGATTCGCACCGACATTTTCCGTTTTATTAGTCGGCCGTATCGTCCAAGCTGTAGCGACGGGATTAATTACACCGTTATTAATGAATACGATTTTAATTATTTGTCCGCCTGAAAAACGTGGTGCGACAATGGGATTAATCGCACTTGTGATGATGGCAGCTCCGGCAATTGGTCCTACATTATCTGGAGTAATTGTGGATTCATTAAATTGGCGCTGGTTATTCTATATTGTTATTCCTATCGTGATCATTTCCATTATGATTGGGATGAAGTACATTCAAAATGTTTCAGAGTTAACAAGGCCAAAAGTAGATTACCCATCTATCCTTTTATCGACATTAGGATTTGGCGGGCTTGTGTATAGCTTTAGTGCATCGGGTGATTTAGGATGGTCCGATGCAAAAGTGTATGGCACTTTAATTGTTGGGCTTATCTCATTATGTATTTTTGCCGTTCGACAATTGAAAGTTGAGAATCCAATTTTAGAATTACGAGCATTTAAAGTTCCGATGTTTACATTATCAGTTGGATTAATTGTCATTGTGATGATGTCGCTATTTTCAACGATGACTTTATTACCGATGTTCCTGCAAACCGTTTTACTCGTTACAGCTTTTAAATCAGGAATTATCATGCTTCCGGGAAGTGTTATTAGCGCCATAATGGGACCAATCGCAGGTAAACTATTTGATAAATTTAGTCCGAAAGTTATTATCGTTCCCGGCATTGTCTTAGTAGGAATTGCAATGTTCTTATTTAAAGGCATTACTCCTGATACATCAATGGTACAAATTATTGTCATGCATAGCGTATTAATGGTTGGACTCATGTTTGTCATGACAGCACAAACATACGGTTTAAATCAATTAACACCAGATTTATATCCGCACGGAACAGCACTATTTAGTACGTTGCAACAAGTAGCTGGCGCAATTGGTACAGCTATATTCATATCGAAAATGTCTTCAGGAACAACTAGCTATATGGAAAGCTCCGCAAATCCACTGGATCCAGTAGAGAAGTTAAACGGTTTAACGTCAGGGTTCCAAGGTGCATTTGCACTTGGGTTAATCTTTATTATTGTTGCATTTATCGTATCGTTATTCTTAAAAGAAGAGAAAGAAGGAGTAAAGGCAGCGAGGGTTTTACAGAACGAACATTAA	MNMTTKSPASSKVDTSNMKHTPILIALLLGAMVALLNETLLGNALTVLMKEFGVTASTIQWLSTAYMLVVGVLVPITALLQQWLTTRQMFLIAMVTFLVGTLIAGFAPTFSVLLVGRIVQAVATGLITPLLMNTILIICPPEKRGATMGLIALVMMAAPAIGPTLSGVIVDSLNWRWLFYIVIPIVIISIMIGMKYIQNVSELTRPKVDYPSILLSTLGFGGLVYSFSASGDLGWSDAKVYGTLIVGLISLCIFAVRQLKVENPILELRAFKVPMFTLSVGLIVIVMMSLFSTMTLLPMFLQTVLLVTAFKSGIIMLPGSVISAIMGPIAGKLFDKFSPKVIIVPGIVLVGIAMFLFKGITPDTSMVQIIVMHSVLMVGLMFVMTAQTYGLNQLTPDLYPHGTALFSTLQQVAGAIGTAIFISKMSSGTTSYMESSANPLDPVEKLNGLTSGFQGAFALGLIFIIVAFIVSLFLKEEKEGVKAARVLQNEH	PGPT0028570_273	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
AK009_05968	150			hypothetical protein	ATGATCGCACCTATTCTCATAACAGGATCTATATACGATGTCACTAAATCATTTGGTGAACTATTAGTGGCAGAACTTATTATAAGAACACTTTCTCTCATTATTGGACTTTTAGTTATTAGTACGGCTTTGCATCGTTATTCTCAATAA	MIAPILITGSIYDVTKSFGELLVAELIIRTLSLIIGLLVISTALHRYSQ				NA	NA	NA	NA	NA
AK009_05969	561			hypothetical protein	ATGGACAAGAAGCTAACGTATTGGCTAGCATCTATTATAGGGGTAGTAGTACTTGCAACTGGTATGACTTATGGAATATTACAGTTTGCTGAAGTCCCAATGGGGAGTGAGGACCATGTTTTTGCAGAGGTTAATAAAGAAGACATACTATCGAATGAAGCAGAAGTGAAAGGTTCAAATGCACAACTTCACATTACAGTAACTTCTACTGAAGAAGAAGTTATTTCAGCTATGCATAGCATGACTCATCAAAAAGTAAAAGCGTGTGAAGGAAAGGGAGCAACCCCTATGTCCAAAAAGAATGCAGAGAAAGTAAGAAATATTCTAAACGGAAACAATTTCAAGAACAAAGAAGAGCTATTAGCAATTACTGAAAGATGGGCAAATAGAGATTTTAGTAAAATTGTAGAAGAACATAACTATTTTATTAAACTTCAAGGTGGCGTGATAGGTGAAGCTACAGTGATGGATAAGGTAGACGAGCAAGTATTCTGTCTCAATACTTTCGGTGATGATGTAACGGCCGCATTAATTAAATCAGGAGGTCTTCAAGCGCTATAA	MDKKLTYWLASIIGVVVLATGMTYGILQFAEVPMGSEDHVFAEVNKEDILSNEAEVKGSNAQLHITVTSTEEEVISAMHSMTHQKVKACEGKGATPMSKKNAEKVRNILNGNNFKNKEELLAITERWANRDFSKIVEEHNYFIKLQGGVIGEATVMDKVDEQVFCLNTFGDDVTAALIKSGGLQAL				NA	NA	NA	NA	NA
AK009_05970	135			hypothetical protein	ATGCAATTAGTTTGTTTTAAAATAGTAAGTGGTCAGTATTTCTTGTTTGTAGAAGGTATTCAAATTCCTGTACCAATTCCAGCAGTTGCTGCAGCTTTATTAATTGGTTTAGGAGTAATTCCACTTTGTTCTTAA	MQLVCFKIVSGQYFLFVEGIQIPVPIPAVAAALLIGLGVIPLCS				NA	NA	NA	NA	NA
AK009_05971	573			hypothetical protein	ATGAAAAAATTATTAGCTTCAGCAACAGCGGTAACACTATTAACAGTGGGGTACAGTTCTTCTGCATTTGCAGCTAAGAGTCCTAATGATACAAAAAACTGTGGCCATTTTAAAAGTCAACAAGATGCTCAAGCATTCTGGGATCAAAATGGATATGGTGTTGGAAATGATCCACACCGTTTAGATAATGATAAAGACGGCATTCCATGTGAAGATTATAAATATCCAAAGAGCACAAATACTACAACAGAAAATAAAGAAACTAATAAACCTCAAGAACAACCTAAACAAGAAAATACTAAACAAGAACCTGTTAAACAAGAAAACACTAAGCAAGAGAATTCAAAACAAAACAACCAAACAACAAATAATAAACAAGAACAAACTAAGCCTCAAACAACTGCAAAAGAAACAAAGAAAAATACTAATACAGTTGTGAAAAAAGAAACAAAAAAACAAGGTGAAAAATTACCTAATACAGCATCAAACGGTGTTACAATGATGTTAGCAAGCTTAGGATTAGCATTAGCTGGTTCTGTATTAATGTTCCGTCGTAAAAAGACAAACGCATAA	MKKLLASATAVTLLTVGYSSSAFAAKSPNDTKNCGHFKSQQDAQAFWDQNGYGVGNDPHRLDNDKDGIPCEDYKYPKSTNTTTENKETNKPQEQPKQENTKQEPVKQENTKQENSKQNNQTTNNKQEQTKPQTTAKETKKNTNTVVKKETKKQGEKLPNTASNGVTMMLASLGLALAGSVLMFRRKKTNA				NA	NA	NA	NA	NA
AK009_05972	663	srtD_2	COG3764	Sortase D	GTGAATAAAAAACAATGGATAGGCTTATGTTTAACTGTTATTGGACTTACTATCTTTTCCTATTATTTTCTAGAATGGTATAGTGCTAGACAATCAGCAGAGTCGTTAACAACTAACGAGGCTAAACAATATGAGACCTCCACACCTTCTAAAGAAAATGAAACGCAAAACATCAATCAAACAGAGACAGAGATAAAGACTGACACTTCATTACAAGAAAAACCTGTACAAATTCCTGCTTCAAAGGTAAACCATCAGTTAGGAGATAAAGTAGCATATTTAATTATCCCTAAAATACAAAAGAAATACTCTATATATTGGGGAGCTGATGATAAAGTACTAAAAAAGGGTGTAGGTATGTTTGTTAGTGACTTAACTACTACACCATCTGGAAATGGTCATACAGTTTTAAGTGGACATAGAGATACTGTTTTTACCGAGCTTGGTCAATTAAAGGAAAATGACCAACTTATCGTGGAATATGAAAATAAAACATATACATATGAAATTAACAAGCATTGGATAACAGATTCAGAAGATCGAACAGTTATTGTAGAAAAAAGTGAGCCAACATTAACATTAACAACTTGTTATCCTTTTGACTATATAGGAGACGCTCCAGATCGGTACATAATTGAAGCATCTCTACTTTCCATTCATTGA	MNKKQWIGLCLTVIGLTIFSYYFLEWYSARQSAESLTTNEAKQYETSTPSKENETQNINQTETEIKTDTSLQEKPVQIPASKVNHQLGDKVAYLIIPKIQKKYSIYWGADDKVLKKGVGMFVSDLTTTPSGNGHTVLSGHRDTVFTELGQLKENDQLIVEYENKTYTYEINKHWITDSEDRTVIVEKSEPTLTLTTCYPFDYIGDAPDRYIIEASLLSIH	PGPT0024075_2154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK009_05973	279			hypothetical protein	ATGGATTTTAGTTTCTATACCGAAAGTATAAAAGTTTTAGGGTTATTAGGGAATTCTACTCGCTTATCAATTGTTTGTAAATTGATTACATATGGATCGTTGTCAGTTTCTGATTTAAGTAAGCAAACAAGAATTACAGAGGATTTGATTGTACAACATTTGCGTAAATTAGCCTTTGGAAATATTGTAATTAGTGAACGTATAGGGAAAAGGCTTTATTTTAAAATAAAAGATAATAAAACAATTGAGATTATTAAGGTATTAGGATTACTAAGTTAA	MDFSFYTESIKVLGLLGNSTRLSIVCKLITYGSLSVSDLSKQTRITEDLIVQHLRKLAFGNIVISERIGKRLYFKIKDNKTIEIIKVLGLLS				NA	NA	NA	NA	NA
AK009_05974	111			hypothetical protein	ATGGGATATGGTGGTAGTTGCGGCGAAGGCTGCGGTTTCGCTGGAGGATTCGCTTTATTAGTTGTATTGTTTATTTTATTAATCATTATCGGATGCAGTTGCTTCTGCTAA	MGYGGSCGEGCGFAGGFALLVVLFILLIIIGCSCFC	PGPT0024985_273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_05975	588			hypothetical protein	ATGGCGCTTGGTTTTATTCCAGTTGTTGGACAAATTAAACAAGGTTTACAAATTTATAATGGAAGAGAATTTTTCACAGATAGAAAATATGAGCCGAATGATTATGTATGGGGAACTGTTTCTACAGTTGTAGGTGGCACTCCTAAAGTTATTGGTCGAGTATTTGTTAAATATGGAGAGTTAGAGCAAAAAGCGAAGGATTTAGGAAAAGTATCAAAGGTAACTGAAGAGATTGGATGGAGTATGCCAAGAGGTGGTGGCGTCATTGATGGGCGTAAGTACTCTGAACATGCACTTGAAAGAATGGCACCTGATACAGTTCAAGTTCGAGCGGAGCTTACAAAGCGAGCACGTGAGAGAGCAGAAAGAAAAGGGTATACATTCGGATCAGATAAATACATGGAAGAATTAAAAAAAGTTGATCCTCGGGGAATGACTCCAAATGTAGTTGAAGATATTATAAAAACGGGCACTCGCAAACCAGGAGACAATCCTGGTACTTGGAAATACGTTAGAGACGAAGGCTACGTAGTTATAAATGATAAAGGTGATGTTATCACAGTTGTTCCCGCAAAGAAAAAAGAATAG	MALGFIPVVGQIKQGLQIYNGREFFTDRKYEPNDYVWGTVSTVVGGTPKVIGRVFVKYGELEQKAKDLGKVSKVTEEIGWSMPRGGGVIDGRKYSEHALERMAPDTVQVRAELTKRARERAERKGYTFGSDKYMEELKKVDPRGMTPNVVEDIIKTGTRKPGDNPGTWKYVRDEGYVVINDKGDVITVVPAKKKE	PGPT0027660_77	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
AK009_05976	324			hypothetical protein	TTGGATATTAAACATGATAAGTATGAGTTACTAGAAATTTTCGAAAGCGAACCAGAAGATTACTATATTCCAGGTGCAGGTGCGTATCGATATAGTAAAATTGATAAACTTGGATTTGAACTGGTTATGAATATGTTCTATTATGATGCAACAGTTGAATTAATAATGCTATACGAAGACAAACGTATCATAGAAACCAAGATGGAATCAGTGAAAGAAATATATACTCGTAATGATTCACTATACATTCTAGGTACAGAAGAAAACAAAACAATCGAAGTAAAATTCAAGCCACATTTTACAGTTACAATAAATGAGTTTTAA	MDIKHDKYELLEIFESEPEDYYIPGAGAYRYSKIDKLGFELVMNMFYYDATVELIMLYEDKRIIETKMESVKEIYTRNDSLYILGTEENKTIEVKFKPHFTVTINEF				NA	NA	NA	NA	NA
AK009_05977	384			hypothetical protein	ATGACGGATTTTATAGGGGAAATTCAAAAAATAGAGAAAGAAATAGAGAAAGCTACAGTTGGTGCAGTTGGAACTATTATAGATGAGTTGCAAGCTGTTAAAAAGCAATTAGAAAAAGAATTGCAACAATCACTTTTAAAAACTGATGTAGCATTCAAAACAAATAGCATAGTAGCAAGCCAAAAACATGCCATTCAAAAAAACAAAGAAGCATTTCATGATGTATGCAAAAGTTTATCTGAACAAGGAATTGAATTAAACAAAAGTTTTGAAAGCAAAACAGGTAGTGCAATAAAAGAAACATTAAATAAACATCTCAATCAAATTCGAAATGAAATGATTTCTAAACAATATGATTTAATTAATAGTTGTGGAAAAAAATAA	MTDFIGEIQKIEKEIEKATVGAVGTIIDELQAVKKQLEKELQQSLLKTDVAFKTNSIVASQKHAIQKNKEAFHDVCKSLSEQGIELNKSFESKTGSAIKETLNKHLNQIRNEMISKQYDLINSCGKK				NA	NA	NA	NA	NA
AK009_05978	1164			hypothetical protein	ATGAATGAATTAAAAAAAAATCCAATTGCGACAGATGAAGATTATTTCGAGTTATCAGATAAAGTTTATGATCCCGAAGTTTTAAAAAAGAAAAAAGTAATAACAGGAAGTAACGGGAAAGAATGGAAAGTTATAGAAACATTTGATGCAGATAAAACAAAAGTAAAAAATGGATTACAAGCAATCGCTGTAGTACCTGCAAATAAGTATAAGCCTGGTAAAAAACAGTATGACGATGTAATCATTGCATTCCGTGGTACTGAATTTGATAGATTCGATGGAGATAAAACCACAGATATAGTTCAAATTACACTTGGACAGAAAAAGAACCTTGGTGTAGCAGGCGGAAAAGCTCCGACATCATTTGATAGTGCATTAGAATTCACAGAAAAAATTAAGAAAAAATATAATCCTACATCTATTCACACTACCGGACATAGTAAAGGTGCTGCGGAGGCTCAATATGTAGCAGCAGAAATGAATTGTTATGCAACAACATATGCTGCACCAAATATTTATAGATTACTAAGTGATAAAGCAAAAAAACGAGTAGATGAAGGCGTAATGGAAAATAAAGTAGTAGATTATACTCATAAAGAAGATGCTGTAGGAAATTTCAATCAATTTGGAGCACCTATGATTGGTAAACAATTTACAACGAAAAGTAATGGAACAGATAGTATTCTCGCGGCTGTATTTATGGGACAACATCCAATGTCAACATTTCTAGAAATGTTCCACAATAATGGTAGTGTTCGACTAGAATTAGAACCAGATGATATCATTCGTCATGCAAAAGAGATACAAAAAATAAGCGATATATTATCTGATATTATTAGAAATATAGAAAGATTTCAACAACAAGAAGAAGAGGAAGTTGCGAAATTAAAGAGTCAATTGAAGCATGAGACAGGCCCTGGAGGAAAATATCATCTGTTAGAAGAACATGAAGTAGATGAAGCAATTAGAGAGGTTGCAAAAATATCCCAAAACGGAAGAGACTATTTTCATGATGTACAACTAGCAGAAGAACTAATTCATCTTTTACGGAAAAAACAAAAAGAATTGATTCATTTTGGAGATGACATTGCTTATGCAGCTAATTCATTACGAGATAAAGATAATCAATTAGGAACAAATTTTGAAGGACTGGTGGCGAGATAA	MNELKKNPIATDEDYFELSDKVYDPEVLKKKKVITGSNGKEWKVIETFDADKTKVKNGLQAIAVVPANKYKPGKKQYDDVIIAFRGTEFDRFDGDKTTDIVQITLGQKKNLGVAGGKAPTSFDSALEFTEKIKKKYNPTSIHTTGHSKGAAEAQYVAAEMNCYATTYAAPNIYRLLSDKAKKRVDEGVMENKVVDYTHKEDAVGNFNQFGAPMIGKQFTTKSNGTDSILAAVFMGQHPMSTFLEMFHNNGSVRLELEPDDIIRHAKEIQKISDILSDIIRNIERFQQQEEEEVAKLKSQLKHETGPGGKYHLLEEHEVDEAIREVAKISQNGRDYFHDVQLAEELIHLLRKKQKELIHFGDDIAYAANSLRDKDNQLGTNFEGLVAR				NA	NA	NA	NA	NA
AK009_05979	321			hypothetical protein	ATGGAATACTTAAAACAAAAAGAAAAAGAAGAACAATTTTGGAAAGTACAAGAGGCACGAGTAGAAAAGTATATTTATTATAATATTGAAGATGTAAAATCTATTACGTTTATAGAAAAGGGTGTAAGTCCTATGGGAGTCCCTAAATTAAAAGGTTATATAAACAATAATAAAGAATTAGATTTTATAGCTAGTATAAGTACAACTAAAAACTTTGAAAATAAATTTACGCGTTCTGGAGAATTAGATGAAATGATAAAAAAACCTGCAAAATCTGTATCTGAAATCGAAAAAGAAGAGAAAGAAAAAAAACAAGAGTAG	MEYLKQKEKEEQFWKVQEARVEKYIYYNIEDVKSITFIEKGVSPMGVPKLKGYINNNKELDFIASISTTKNFENKFTRSGELDEMIKKPAKSVSEIEKEEKEKKQE				NA	NA	NA	NA	NA
AK009_05980	384			hypothetical protein	ATGAAGAAAGTAATGATTTTGGTTGTATCTGCTGTGGTGATCATAGCAGGAGGATATTTTACTATGGAATACTTAAATCAAAAAGAAAAAGAAGAAAAGTTTTGGAAGGCACAAGAGGCACGAGTAGAAAAATACATTCATTACAATATTCAAGATGTACAATCAATTACGTTTACAAAATATGAGGTAAGTCCTATGGGCATTCCTAAATTAAAAGGTTATATAAATAAAGATGAACAATTGTCGTTTATAGCCCATATTAGTACTACCGAGAATTTTGAAGATGATTTTGGATGTTCTGGAGAATTAGATGAAATGATAAAAAAACCTGCAAAATCCGTATCTGAAATTGAAAAAGAGGAGAAGGAAAAGAAACAAGAGTAG	MKKVMILVVSAVVIIAGGYFTMEYLNQKEKEEKFWKAQEARVEKYIHYNIQDVQSITFTKYEVSPMGIPKLKGYINKDEQLSFIAHISTTENFEDDFGCSGELDEMIKKPAKSVSEIEKEEKEKKQE				NA	NA	NA	NA	NA
AK009_05981	321			hypothetical protein	ATGGAATACTTAAAACAAAAAGAAAAAGAAGAAAAGTTTTGGAAAGTACAAGAGGCACGAGTAGAAAAGTATATTCACTATAATATTAAAGATGTAAAATCTATTACATTTACAGAAAATAAGATAAGTCCAATGGGAGTTCCTCATATAAAAGGTTATATAAATAATAATAAAGAATTAGATTTTATAGCTAGTATAAGTACAACTGAAAACTTTGAAGACAAATTTACGCGTTCTGGGAAATTAGGAAAACTTATAAAAAATCCTGATAAGTCGGTATCTGAAATTGAAAAAGAAGAGAAGGAAAAGAAACAAGAGTAG	MEYLKQKEKEEKFWKVQEARVEKYIHYNIKDVKSITFTENKISPMGVPHIKGYINNNKELDFIASISTTENFEDKFTRSGKLGKLIKNPDKSVSEIEKEEKEKKQE				NA	NA	NA	NA	NA
AK009_05982	384			hypothetical protein	ATGAAGAAAGCAATGATTTTGGTTATATCTGCTGTGATACTCATAGCAGGAGGATATTTTACTATGGAATACTTAAATAAAAAAGAACAAGAAGAAAAGTTTTGGAAGATACAAGAGTCACGGATAGAAAAGTATATTCATTATAATATTGAAAATGTGGAATCTATCACACTTTCAGATCATAGTGTAAGCCCTATGGGGGTTCCTTCTGTAGAAGGATATATAAATAATGATAAGGAATTATGGTTTGATGCAAGTATAAGTACTACAGATAAATTTGAGGATAAGTTTGGTTGTTCTGGGGAATTAGATAAAATGATTAAAAAACCAGCAAAATCAGTATCTGAAATTGAAAAAGAAGAGAAGGAAAAGAAACAAGAGTAG	MKKAMILVISAVILIAGGYFTMEYLNKKEQEEKFWKIQESRIEKYIHYNIENVESITLSDHSVSPMGVPSVEGYINNDKELWFDASISTTDKFEDKFGCSGELDKMIKKPAKSVSEIEKEEKEKKQE				NA	NA	NA	NA	NA
AK009_05983	1383	estD	COG1073	Esterase EstD	ATGATTAAAAAAAAGAAAATACAAAGATTAGCACTTACCTTTATCCTACTCTTTTCTTTAGGCATTTCATCTTTCTCGCTTACAACAACTATTCACGCAGATACAAGCGAGGAACAATCTGCTGAAAAGAAACTAGTCTCTTTAACGGAGCGTACATCATTATTTTTTGAATATCTCCAGCAAGGTAAGTATGCAGAGGCACTACAGTTGACGTCTACTACTTTTCAATCCAAGTTTACAGCAACCACATTACAAAACTGGTGGACACAAAGTGGTTGGAGCGGGATAAAAAGCATGGGAATCCCCGTGATAAAAAAACGAAACTTGGTCCATCAGACGGTGGAAATTCCAGCAGATACCGAAGGAACTACCATACCGCTACTCCTTAAATTCACACCTGGCGGGAAAGTAGATGAAATTGGAGAAAGGCCACCCGAGGAATCTTATACCATCCCGCATCCTAGCTATGATCAACCTGACTCCTATCAAGAACGTGAAATCGTCATTGGAAATTCTACCTATCCGTTACCAGCGACATTAACAGTTCCGAAACATAAGCGTGGTGAAAAACTGCCCGTAGTTGTTCTTGTTCATGGTGCTGGCATCCATGATCGCGATAGCACATATATGGGAACAAAAATCTTACGAGACATTGCGGTGGGCCTTTCATCCAACGGAATTGCAGTGTTGCGCTATGAAAAGCGCACCTTAGAACATGCATTAAAGATGAGTGCAGAACCTGTTACATTAGACCGTGATACTACAGATGATGCCATATATGCAGCAAAATCAGCAGCGCAGCAGGAAGGCATTGATCCAAATAATATTTTCATTCTTGGACATAGTCTAGGAGCTGGCACAATGCCACGTATACTGAACAAAGCGCCTTCCTCACTTGTCCGAGGAAGCATCTTACTCGCACCACCTGCACGCCCTTTGACTGACATTGCCATTGATCAGTATGAATACCTTGGGGCGTCAAAGGAAGAAATCACTGAACTAAAAAGACAGGCTGCTTTTATTCAGGATCCTACTTTCAATCCTGACCATCCTCCAGCTGGCTACAATTTTGGGTCACCTCATTTTATGTATGATGTTTCTAGGTGGCGTCCAGTTGAAGAGGCAAAATCACGAAAAGAGCCTTTACTCATTCTGCAAGGAGCACGTGATTATCAAGTAACAGTAAAAGATGAATATAGAAAATGGCAAGAAGGGCTTGCAAACCGCGGGAATGTTCAGTTCAAAAAATATCCGAAATTGAATCATTTCTTCACGGAGGGTGACGGGGAATTAAGCCTCCCTAGTGAATATGAAATCCCTGCTAATGTTCCCGAGTACGTCATCCAGGACATTATTACATGGGTTAACGAGACAAAAAAATAA	MIKKKKIQRLALTFILLFSLGISSFSLTTTIHADTSEEQSAEKKLVSLTERTSLFFEYLQQGKYAEALQLTSTTFQSKFTATTLQNWWTQSGWSGIKSMGIPVIKKRNLVHQTVEIPADTEGTTIPLLLKFTPGGKVDEIGERPPEESYTIPHPSYDQPDSYQEREIVIGNSTYPLPATLTVPKHKRGEKLPVVVLVHGAGIHDRDSTYMGTKILRDIAVGLSSNGIAVLRYEKRTLEHALKMSAEPVTLDRDTTDDAIYAAKSAAQQEGIDPNNIFILGHSLGAGTMPRILNKAPSSLVRGSILLAPPARPLTDIAIDQYEYLGASKEEITELKRQAAFIQDPTFNPDHPPAGYNFGSPHFMYDVSRWRPVEEAKSRKEPLLILQGARDYQVTVKDEYRKWQEGLANRGNVQFKKYPKLNHFFTEGDGELSLPSEYEIPANVPEYVIQDIITWVNETKK				NA	NA	NA	NA	NA
AK009_05984	435			hypothetical protein	GTGAGATTCATAGAAACAGTAAATATTAAATGGTATGGAATGTATAGTATAAATGATTTTTATAATAGGGAAGAAGCTTCTAAGAAGGGGATATTTGCAATCTCTAGAGTATGTGCTAAGAATGTAACATTGCTATATATAGGACAAACCAAAAGAAGCTTTATACAAAAGATAAGGGAACTTAATAAGGAGTGGCCTTTCGATGAGAGCGAATTAAAGATTACATTAGGAATAATAGAATTTCCTAGTGGTGAAATTTACTCTGAAAAGAAGGTAAAAGAGATAAAATCCCTTTTGATTTTACGACATACCCCATTAGAAAACGAAACATCTTTATTATACTATAGAGGGAAATTTAATTTAAAAATTATAAATAAGGGAAGAAGAGGTTTAATTGTTAAAAAGCTTTCTACAGGAGATCTAATGTGGACATAA	MRFIETVNIKWYGMYSINDFYNREEASKKGIFAISRVCAKNVTLLYIGQTKRSFIQKIRELNKEWPFDESELKITLGIIEFPSGEIYSEKKVKEIKSLLILRHTPLENETSLLYYRGKFNLKIINKGRRGLIVKKLSTGDLMWT				NA	NA	NA	NA	NA
AK009_05985	702			hypothetical protein	ATGGGACAAGTAAGTAGATTTCAAGAAAAACAACAGAATCGTCGTCAAAAGGCAATTTTTAATATTGCATTTACTTTAATATTAGTGACAGTTGGTATAGTGACATACCAGTTATTTACCGCTTCTAATACATCAAAGAAAGCAATTGCTCAAGAAAAGAAAGCAACAAAGATAGAAGAGAAGAAAACTGAAGATAAAGAAACAGCAAAGATAGAAGAGAAGAAAACTGAAGATAAAGAAACAGCAAAGATAGAAGAGAAGAAAACTGAAGATAAAGAAACAGCAAAGATAGAAGAGAAGAAAACTGAAGATAAAGAAGCAGCACAGCTAGAAGAGAAATCAAAAGCAGAAAAATCGGTAAAAACAAACGGAAATGAAAATAATGAGGAAGAAAAAGCGGCATCTCAAGAAAAGGGTTCTCAAACTAATCCTTCTTGGAAGCCAATTGGTACCGAGCAAGGAGCAAAACCTGAAATGAAATTTAAAGAAGGAACAGTAGATTGGAGTGAGATGAAAAAAGCAATTTCTTATGCTGTTGATGTTCCAGAGAGCCAATTGATTTTCGATTTTATTGGGAATAATGGTAATAATAAAGCCTACGGTAATGTACGAGATAAGCAAAATAATAAAAAATATAAGGTTAATATTGATTGGGTAGAAAATCAGGGGTGGAAACCAGCATCTGTTCAGGTGGTAAGATAA	MGQVSRFQEKQQNRRQKAIFNIAFTLILVTVGIVTYQLFTASNTSKKAIAQEKKATKIEEKKTEDKETAKIEEKKTEDKETAKIEEKKTEDKETAKIEEKKTEDKEAAQLEEKSKAEKSVKTNGNENNEEEKAASQEKGSQTNPSWKPIGTEQGAKPEMKFKEGTVDWSEMKKAISYAVDVPESQLIFDFIGNNGNNKAYGNVRDKQNNKKYKVNIDWVENQGWKPASVQVVR				NA	NA	NA	NA	NA
AK009_05986	126			hypothetical protein	ATGGGCTATGGCGGTAGTTGTGGTGGAGGCTGTGGTTTCGGCGGCGGATTTGCCTTACTTGTTGTGCTCTTCATCTTATTAATCATCGTTGGCGCTAGCTGTTGGGGCGGCGGATTCGGCTGCTAA	MGYGGSCGGGCGFGGGFALLVVLFILLIIVGASCWGGGFGC	PGPT0024985_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_05987	258			hypothetical protein	ATGGCTAATTCTGAGATGATTTTACGTTTACTTACGGATTTAAAGATTGAACAACAATTGTTGAAAGAACAGTTAGAAAAAATGCAAACAGCTGTGACTATTCTTGAAGAAAAATCAGTGACGCTTAAAGAAAAACCAGCGACTCTTAAAGAAAAAACAATGACTCCTGAAGAAAAACCATCTGTTACAAAGCAAAGAGCTTTTTCTGGACGCCCAACATCTTTTCGTGATTGGAGAGCATCTAGTCAAAAAAATTAG	MANSEMILRLLTDLKIEQQLLKEQLEKMQTAVTILEEKSVTLKEKPATLKEKTMTPEEKPSVTKQRAFSGRPTSFRDWRASSQKN				NA	NA	NA	NA	NA
AK009_05988	540			hypothetical protein	ATGAACAAAAAGTTATTAACATCATTATTATGTAGCACATTCTTGTTTGGAGTATCAGCTTGCAGTTCACATGATACATCTGCGAAAAACGAGCAAAAGACTTCAAAAAAAACAGAGAATAACGAACTTAATCGTAAGGTTCCGCAAAAAGAACTTCCTACCAATGTAGATTCCTCTGATGTATACATGTCAATGGGATCTGCCGAGTCATTAGATGTTCTAGGGACTGGAGAAGTTAAAGCACAAGGTGTCTTTAAAGTATTAGATATCGCAGTTTATAATCACAAAGAAGAACCCATTACACTAGATATCAACAACTTTAAATTAATTGATGGATTTGGAAGAGAATATCACATTTCCAATGAATATCAGTCAGTACTTAAAGCTGCAAATATCTCCACATTCAAATTTAATATTGTTAATCCTAATGAAAGTTCGGAAGGAAACATTGTATTTAATGTACCGAAAAACACGCAAGGATTAACTTTAAAAATTAATAATGATAAGTTAGATAAAGAACTCCAATTAAAAGTGGAATAG	MNKKLLTSLLCSTFLFGVSACSSHDTSAKNEQKTSKKTENNELNRKVPQKELPTNVDSSDVYMSMGSAESLDVLGTGEVKAQGVFKVLDIAVYNHKEEPITLDINNFKLIDGFGREYHISNEYQSVLKAANISTFKFNIVNPNESSEGNIVFNVPKNTQGLTLKINNDKLDKELQLKVE				NA	NA	NA	NA	NA
AK009_05989	102			hypothetical protein	ATGGAACATAATAAAAATGGAGTGCTTGCTTTAATTGTTTTATTTTTAGGATTAGTGTTTTTTGTTAGTGGAATGGTTTATCATTTATGGGGCTCATTTTAA	MEHNKNGVLALIVLFLGLVFFVSGMVYHLWGSF				NA	NA	NA	NA	NA
AK009_05990	585			hypothetical protein	ATGCAGGAAACAAAACAATTCCCACTTATATCGGGAAATCTCTCATTAGATTTAGTAAATACAGAGTTAGTTAAGCGTGGACAACGTTATGATTTATTAATAACAGATGAAGATGTATTAGAATGGCTATATGTAATAAAGGTTAATCTTCCTTTTTTGAATGGAAAAACATTTATAGGGATTCAAGAGCGAATGAAGCTGGTTACATCTAGTATATTAGAAATAAGAAATATAATGAGAAAGCAGTTTGAGGCAATTGCTGATCAGCACGAAATTTCCAATGATTTTATTACGTATTTAGAAAAACAAATTGAGAAAGCACCGTTTACATATAAAATCATTGAACAGCAGCTAGTACCTATCCCGGTTGGAGAAATCGAGGATGTACTCACATCGTTAATTGCATTTGATGCTTTAACTTTAATAGTAGAAAATAAGCTTATTTCCCTTAAAAGGTGTTCAAACCCTGACTGTGTTTTATTATTTATAGATAAGAGTGGAAAACGAAAATGGTGTTCTATGAAAATATGTGGGAACCGGAAAAAGGTAGCAAAATTCCAGAATCGAAAATGTGAAGAAGTTTAG	MQETKQFPLISGNLSLDLVNTELVKRGQRYDLLITDEDVLEWLYVIKVNLPFLNGKTFIGIQERMKLVTSSILEIRNIMRKQFEAIADQHEISNDFITYLEKQIEKAPFTYKIIEQQLVPIPVGEIEDVLTSLIAFDALTLIVENKLISLKRCSNPDCVLLFIDKSGKRKWCSMKICGNRKKVAKFQNRKCEEV				NA	NA	NA	NA	NA
AK009_05991	555			hypothetical protein	ATGGATAATATAACAGCAACTAAGCAGAAAGATCCTCAACCAATAAGTGTACGATATTTTACAAAAATGAAAGGGAAAGGAAGAAGCCCATTACAAGTAAATGTAAAGGACTCTTTAACGGGACTACTAGGGGGATTTTTAACAATTCTTACCTTAACATATTTAACGAGCATAACCTCTACAGAATTATTAATGGCTCCATTTGGGGCGAGTTGTGTATTAGCGTTTGGAGTTTGGAATGCGCCATTATCTCAGCCGCGTAATATTATTGGAGGACATTTGATTTCAACTTTCATCGGTCTATCAATATATCATTTGTTTGGGAATGAATATTGGACAATTGCTTTAGCGGTGGGGATGGCAATAGCCGTTATGATGTTAACGAGAACGACGCACCCTCCAGCAGGCGCCGATCCGATTATCGTTATTTTAGGGGCAAATAGTTGGAGTTATTTAGTAACACCAGTTTTAATTGGCTCCGTTGTTATTGTAGTTATTGCTTTATTCATTAATAATATGAGTAGTAAAAGAAATTATCCAACTTTTTGGATGTAG	MDNITATKQKDPQPISVRYFTKMKGKGRSPLQVNVKDSLTGLLGGFLTILTLTYLTSITSTELLMAPFGASCVLAFGVWNAPLSQPRNIIGGHLISTFIGLSIYHLFGNEYWTIALAVGMAIAVMMLTRTTHPPAGADPIIVILGANSWSYLVTPVLIGSVVIVVIALFINNMSSKRNYPTFWM				NA	NA	NA	NA	NA
AK009_05992	267			hypothetical protein	ATGGAACATCCTGTTGCAAGAGAATTACGTTTTATACGTGTATGTCTTATCGTTTTGATTATTGTCATTGCATTCTGGGATCGTGAGAAAACTGTGGAAATCACTGATCACGGTAGTGAACCTATCGTAAACACGAGCAATATGACCCAAGTTGGTGAGAATACATTTGCATACAAAGACGAATCTAATCAAATTAAAATATTTAAGTTTAATCCAGATACAAATGAAATAAAATTAATAAAAGAGTTTTATGCTAACGAATATTAA	MEHPVARELRFIRVCLIVLIIVIAFWDREKTVEITDHGSEPIVNTSNMTQVGENTFAYKDESNQIKIFKFNPDTNEIKLIKEFYANEY				NA	NA	NA	NA	NA
AK009_05993	459			hypothetical protein	ATGACTAGAACGTATAAAGAAGTAATTAATGAAATGAATCGAGCCTATACGGAACTCTATATTTTACTATTTCAAGATTTAAAGGATGAGTTCGGTCTTACTGGGCAGCAAGAGAGCATGTTATTTCATATTCATTTAAATGAAAACACGACAGCAAATAACATTGCGAGTACGTTTAATATAACGAAAAGTGCTGTGAGCCAAGTTTTATCGAAATTGGAAAAACAACAGATGATTTCAAAACAAGTAAACCCTAATAATAAAAGGGAGTATTTTCTTACACTTGGTCCAAAAGGTAGTAAGTATATAGAGCGGTTGTCTGAGTTAGATGATGTATTAATTGAGAAATACTTTTCCAAAATCGATATAAATGCCCTAGAGCAAATGACCGATACGTTAACGAAAATAAATAAAGTGATATTGGAAGAAAAGCAGAAGGATATTGATTGTAATGAGTAA	MTRTYKEVINEMNRAYTELYILLFQDLKDEFGLTGQQESMLFHIHLNENTTANNIASTFNITKSAVSQVLSKLEKQQMISKQVNPNNKREYFLTLGPKGSKYIERLSELDDVLIEKYFSKIDINALEQMTDTLTKINKVILEEKQKDIDCNE				NA	NA	NA	NA	NA
AK009_05994	585			hypothetical protein	ATGAGTAAGAAGCAAGATGAAACAATTAGTAGAAAGGAGGGGAAGCATGTGATGAGTTACATACCGAATATGATTACGATAGCAAATTTTGTGTGTGGGCTTTGGGCTATTCACGCTGTTTTCGTTCACGATATTTATTTGGGAGCAGTTTTTATTATTACGGGTATGTTGTTTGACCTTTTTGATGGCATGGTCGCTCGGAAACTTGATTCTGTTTCGGAAATAGGCGGAGAGCTAGACTCATTTGCGGATTTAGTTACTTTTGGTGTGGCACCGTCTATTCTTGCATATAGTGCTTCGTTAAAAGATTTACAGTCTATCGGGATGATATGTGCCCTCGCGTATAGTATTTGTGGAATGCTTCGGCTTGCGAGGTTTAACACACGGCAAAGCAAACTCCCAACATTCATCGGAATGCCCATTCCATTTGCGGCGATGTGTATCCTCATTTTATGCCGCCTAAATAATCCAGTTTCCGTGGCATTTGGTACATGCGTACTCGCTTATTTAATGGTGAGCAAAATCAAATTTCCTCATTTTAAAAAAGATATAGCTGAAAGCTTGAAGCCTGAAAGATTGGATTGA	MSKKQDETISRKEGKHVMSYIPNMITIANFVCGLWAIHAVFVHDIYLGAVFIITGMLFDLFDGMVARKLDSVSEIGGELDSFADLVTFGVAPSILAYSASLKDLQSIGMICALAYSICGMLRLARFNTRQSKLPTFIGMPIPFAAMCILILCRLNNPVSVAFGTCVLAYLMVSKIKFPHFKKDIAESLKPERLD	PGPT0007695_3148	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
AK009_05995	372			hypothetical protein	ATGATTCGTATGGCACTAAGATCGTTCAACATACAAATGTATTGTTTGCTAGGCGTAATGTTATTGGGATGGTTGATGACACCTTTTTCAGCCCAGTTTGTAGGGATAAGTATTGGCCTTTTGGTGAGTATGTACTGCGCCTGGATTTTAGGAAGGCGTATTGAAAAGTTCGGAGATAGCATTGTAAAAAAAGAAAAAGCACCGATGCTCGGAATGATGAATCGGTTCGCAGCCGCAATACTAGGTGCAATTATTATGTATGAAATAGAACACCATGAATTCATGTGGACATTTACTGCTGGAATCATGGGGGGATATTTCTTGGTTATTATTAATTTGGGGTATTACAGTATGAGGGATGCGGAGGAATAA	MIRMALRSFNIQMYCLLGVMLLGWLMTPFSAQFVGISIGLLVSMYCAWILGRRIEKFGDSIVKKEKAPMLGMMNRFAAAILGAIIMYEIEHHEFMWTFTAGIMGGYFLVIINLGYYSMRDAEE	PGPT0030480_1712	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK009_05996	1176	pbuE_3	COG2814	Purine efflux pump PbuE	ATGAAAAAAGTAAGTCCTTTACTTATTCTTACACTAGCAATAGGGGTGTTTGGAATTATTACTACCGAGATGGGTATTGTCGGCGTATTACCACAAATCACTCAGAAATTTGGCATTTCAACTGCACAAGCAGGATTTTTAGTAATTATATTCGCACTAGTCGTTGCTATTTCTGGTCCGTTTTTAATTCTGCTCATTTCTAGTATTAATCGCAAAATAATTTTATTAACAGTCATCTTTGTTTTTGTTATTTCAAATATAATCTACGCTTATACAACACAATTTGAAATCATGCTTGTTTTTCGTATTTTACCAGCAGCACTTCACCCACTCTTCTTTTCAATCGCTCTTGTAACAGCTGCTAAACTTGCCCCTCCTGAAAAGAGTGGTCAAGCGGTTACAAAAGTTTTCATGGGAATTACGGTTGGCTTTGCACTAGGTGTACCATTAACCTCTTACCTTGCAGATCAATTTTCATTAGAAATTGCTTTCTTATTCGGAGCGCTTATTAACGCCCTTGCATTCATTGGAATGCTAATCTCACTTCCTTCTATGCCCGTTAAAGAAAAAATGTCTTTCGGCAAACAAATTCGTATACTCGGCAAACCAGGATTATGGTTAAATATTTTAACCATCACATTCCTTTTTGCAGCTATGTTTTCCGTATACAGCTACTTCGCCGAGTACCTTGCAAAAGTAACTTCCATGAATGGATCTCTCATCAGTATCATGCTATTCATATTTGGTATAGTTATGATTTTAGGCAATCATTTATTTGGTAGTCTCTTGCAAAGAAGCATAGTAAATACAGTAATATCGTTCCCTATTTTATATTCTATTGTTTACATATTGGTTTATTATTTAGGTTCTTATCTTGTTCCAATGATTTTTATGGTATTCATTTGGGGAATCGTGCATGCTGGTGGATTAATTGTTGGTCAAACATGGTTAATAATTGAAGCAAGAGAAGCACCCGAATTTGGTAATAGCCTATTCGTTTCATTCTCAAATCTCGGAATTACTCTAGGAACAACTATTGGAGGCTGGTTCATTTCAAACTTAGGTATTCATCAACTTATTTGGAGTGGATTTATATTTACACTACTTTCATTTCTATTAATTATAATAAAACTAAAATTTTTCACTTCTAATAACCTAGCTTCATTATCAAGCTAG	MKKVSPLLILTLAIGVFGIITTEMGIVGVLPQITQKFGISTAQAGFLVIIFALVVAISGPFLILLISSINRKIILLTVIFVFVISNIIYAYTTQFEIMLVFRILPAALHPLFFSIALVTAAKLAPPEKSGQAVTKVFMGITVGFALGVPLTSYLADQFSLEIAFLFGALINALAFIGMLISLPSMPVKEKMSFGKQIRILGKPGLWLNILTITFLFAAMFSVYSYFAEYLAKVTSMNGSLISIMLFIFGIVMILGNHLFGSLLQRSIVNTVISFPILYSIVYILVYYLGSYLVPMIFMVFIWGIVHAGGLIVGQTWLIIEAREAPEFGNSLFVSFSNLGITLGTTIGGWFISNLGIHQLIWSGFIFTLLSFLLIIIKLKFFTSNNLASLSS	PGPT0028991_3071	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
AK009_05997	312			hypothetical protein	ATGGAACCTTTATTAATTTATAAAGCATTGTCAAATGAAACAAGATGTCAAATTTTATCATGGTTGAAAAATCCAGAAAACCATTTCGATGAAAAAGCTTATCTAGAGCAAGGCCTTAGTTTTCAAGTTGGAGTGTGCGTAGGAGATATCCAGCTTAAAACTGGCTTAGCCCAATCGGTTATTTCTAGTTATTTATTAACTATGAAAAAAGCAGGTTTACTACAATCTGACCGAATTGGAAAATGGACCTACTATCGCCGAAATGAAAAAACAATACGAGAGTTTTCTGAATACGTTCAAAACGAATTATAA	MEPLLIYKALSNETRCQILSWLKNPENHFDEKAYLEQGLSFQVGVCVGDIQLKTGLAQSVISSYLLTMKKAGLLQSDRIGKWTYYRRNEKTIREFSEYVQNEL				NA	NA	NA	NA	NA
AK009_05998	651			hypothetical protein	ATGCATACAGGAGTTTTGATTAGTTATTTGTATACGTATTTTTTTACTATAATTTTTTGTATTGTGTTTCAAATTGGATTTTATTTTAAAGCGAAAAACAATATATCTATTCGGCATTTTTTATGGGTGTATGTTTTTCTATTCTACCTTTCGCTAGTGTATAAGGTGACGCAAATCGCGACTGTATGGGATATAAGTAGATATGAAACGTGGATTCGTGTAAGTCAAATCAACTTGACTCTATTTGATACGCTAGGTAGTACTACGTATCTTTTGAACATTGTACTGTTTATGCCGTTAGGTTTTTTATTACCGACTATTTGGCCGCAGTTTAGAAAGATAAAAAACACCGTATGCGCGGGATTCTTTTTTTCATTGGCAATTGAGTTAAATCAATTACTAAATAATAGAATTACAGATATTGATGATTTATTTACGAATACCCTTGGGGCAATTATTGGGTATGTCTTATATAAAGTATTATATACAGCGTTATTTAAATTGATATTGAAAAGAGAGGAAAAAAAGCTTGATACAAACTCGTCTCTAGTCATAAAATACGAGGCTGTTTTTTGTTTAGTGTGTTCATTTGTAGGTGCGATGTTCATTTATTATCCAGCTTTATTTGGAAGACCTGTAATCATTCAGTGA	MHTGVLISYLYTYFFTIIFCIVFQIGFYFKAKNNISIRHFLWVYVFLFYLSLVYKVTQIATVWDISRYETWIRVSQINLTLFDTLGSTTYLLNIVLFMPLGFLLPTIWPQFRKIKNTVCAGFFFSLAIELNQLLNNRITDIDDLFTNTLGAIIGYVLYKVLYTALFKLILKREEKKLDTNSSLVIKYEAVFCLVCSFVGAMFIYYPALFGRPVIIQ				NA	NA	NA	NA	NA
AK009_05999	999	dhaK_1	COG2376	PTS-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	ATGAAAAAGATTATGAATGATGTACAAAATATTGTTCAAGATATGATGCATGGCTTTTATTTTGAACATAACGACAAAGTAAATTACGACGAAACAAATAACATCATTTATGTAAAAGATATTGAAAAACTGAAGCAAAACGTTGCTATAATAAGCGGCGGTGGTAGCGGGCATGAACCCGCTGATATTGGCTATGTAGGAAAAGGAATGCTTACGGCAGCAGTAAACGGAAGCATCTTCACTCCGCCTACAGTGGAACAAATTTTGGCGGCAACTCGCCTCATGCCGAAAGATAAAAATATTTTATTCATCATTAAAAACTTTAAAGATGACGTTGAAAACTTTCTAACGGCAAAGCAAATTGCTAAAGAAGAAGGAAGAAAAATTGACCACATCATCGTAAATGACGACGTTTCAATTGAAGATGATGCTTCTTTTAATAAAAGAAGACGCGGCGTAGCTGGCACTGTTTTCGTTCAAAAAATAATTGGTGCGGCCGCTCTTGAAGGACATTCTTTAGAAGAACTAACAGCACTCGGCCGTTCTATTACTGAAAACTTACACACATTAGGAGTTGCCCTTTCCCCTGCCAACGATCCAGTAAAAGGAAAAGCTTCATTCACATTAAACAATGATGAAGTGTTTTACGGCGTCGGCATCCATGGCGAAAAAGGTTACCGTAAAGAAGCGCTATCCTCTTCTGAAATATTAGCGATCGAACTGATGAACAAACTAAAAAGCATTTATCGCTGGAGAAAAGGAGACAATTTCGCTATCCTCATTAATGGACTCGGCGCGACACCATTAATGGAACAATATATTTTCGCGAATGACATTCGCCGTTTGTGTGAGCTGGAAGGATTACATGTGGAGTTCGTAAAGGTTGGTACGCTGTTGACTTCTTTAGATATGAAGGGTGTTTCGCTCAGTTTGCTTAAGGTAGAGGATTTGGATTGGGTGAAGTGGTTGAAGGCGGATGTTAGAGTGGGTAATTGGTAA	MKKIMNDVQNIVQDMMHGFYFEHNDKVNYDETNNIIYVKDIEKLKQNVAIISGGGSGHEPADIGYVGKGMLTAAVNGSIFTPPTVEQILAATRLMPKDKNILFIIKNFKDDVENFLTAKQIAKEEGRKIDHIIVNDDVSIEDDASFNKRRRGVAGTVFVQKIIGAAALEGHSLEELTALGRSITENLHTLGVALSPANDPVKGKASFTLNNDEVFYGVGIHGEKGYRKEALSSSEILAIELMNKLKSIYRWRKGDNFAILINGLGATPLMEQYIFANDIRRLCELEGLHVEFVKVGTLLTSLDMKGVSLSLLKVEDLDWVKWLKADVRVGNW	PGPT0018465_679	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
AK009_06000	567			hypothetical protein	ATGACCTCTTCTATAATTTCTAAAAAAATAATCGCGAACTCATTGAAATATTTAATGGAAACAGAGTCGTTTCATAAAATATCAGTGAGCGATATTATGTTACACTGTCAAATGCGTAGGCAAACTTTTTATTATCATTTTAAAGATAAATTTGAACTATTAAGCTGGATTTATAGAGAAGAAACGAAGGAAAACATTATCGACTTTCTCGACTATGAAACATGGGAAAATATTTTCGATTTATTATTTGATTACTTTTACGAAAATCAAAAATTTTACCGAAATGCTTTTAAAGTCATTGAACAAAACTCGTTTAATCACTATTTATTTGAGCACACGAAAAACTTATATATGAAGATTATTGATGAACTATCCGTGAACTGTGGCTTAACTCTTTCTATTGAAACGAAAAATACGATTGCCTCCTTTTATAGTCACGGCTTCGTTGGAACGATAAAAGATTGGATTGAAAGCAAGTGCGAAGTAAATCCATCCATTATGTCTTCTCTCATGAAAAATATGATAAACAATCAATTACTACTATTACTGGAGCAGTCAGCAAAGTAA	MTSSIISKKIIANSLKYLMETESFHKISVSDIMLHCQMRRQTFYYHFKDKFELLSWIYREETKENIIDFLDYETWENIFDLLFDYFYENQKFYRNAFKVIEQNSFNHYLFEHTKNLYMKIIDELSVNCGLTLSIETKNTIASFYSHGFVGTIKDWIESKCEVNPSIMSSLMKNMINNQLLLLLEQSAK				NA	NA	NA	NA	NA
AK009_06001	1752			hypothetical protein	ATGAAAAAGATTATAAACAAACCAGAAACATTAGTAATGGAAATGTGTAACGGAATGGTTATGGCTCACCCAGAGCTTGAACTTTTGAAAAAATATAAAGTTATTAAGAAGAAAGAAATGAACGAAAACAAAGTAACATTAATTAGTGGCGGCGGTAGTGGCCATGAGCCGGCACATGCAGGATTAGTCGGAAAAGGAATGTTAGATGCGGCGGTGTGCGGAGATGTGTTTGCGTCACCTTCACAAATTCAGGTGTATCAAGCGATTAAAGAGACAGCTAGTAAAAAAGGAACGTTATTAATTATTAAAAATTACAGCGGCGATATTATGAATTTCAAAAACGGAGCTCATTTAGCGACGGAAGATGGAATTGAAGTCGACTACGTAAAAGTGGATGATGATATTGCGGTAGAAGATAGCCTATATACAGTAGGACGCCGCGGCGTTGCGGGAGTTATTTTAGTTCATAAAATTGCCGGCGCAGCAGCGGAAGAAGGTATGGATTTAGGAGCGGTGAAAGCTGTAGCGGAAAAAGCAGCGGCTAACGTGCGCACAATCGGTTTAGCGTTAACTTCTTGTACAGTTCCAGCGAGCGGATCACCTACTTTCACACTTGCGGAAGATGAAATGGAATACGGCGTAGGTATTCACGGCGAACCAGGAATTAAGCGTGAAAAAATGCTGTCAGCAGATGAACTAGCTAACCGTATGACAAATGATCTTGTAAAAGATTTAGGAGTAAAAGATGGCGAGGAAATCGCACTTCTAGTTAACGGTTTTGGCGGAACACCACTGCAAGAACTTTACTTATTTAACAACGCAGTGACGAGAGAATTAGCTGCTAGAAACATTAAAATCAATAGAGTATTCGTCGGTAACTATATGACAAGTATCGATATGGCTGGCATGTCTTTAACAGTGATGAAGTTAGATGATGAGTTAAAAACATTACTATCAAAAGAGTGTAATACACCAGCGTTTAAAGTAGATGGGTCAGTTGAAAGTGTAGAGTACGTGAATGTACTTGAAGAGAAAGAAGAGAAGGAAGTTTCCTTTGAAATAGAAACAGCGGAAGAGCATGCTGTGATTAAGGATAATGTTATTACATTAAACAACATGATTTATCTCGTTGATAAAATGAGCGACGTTATTATTAAAAACGAAGTACCGTTCTGTGAGTTAGATACACACGCAGGTGACGGCGACTTCGGAATGAGTGTGGCAAAAGGATTTAAGCAATTAAAACGTGAGTGGCATTCTATTGTAAATCAAGAGAACGTAACGATTGGGTCATTCCTTGACGGTTGTTCAATGATTATTATGGAACATTGCGGCGGCGCATCTGGTCCAATTTGGGGTGGTGCATTCCGCGCAGCTAGCAAAGCAGCAGGCGAAAAACGTGAGCTAACAGTGAAAGAATTCGCTGAAATGTTGCAAGCAGCACTTCAAGGTATACAATCTATCGGAGAAAGATCATTTGGTAGAGGAGCGGTAGTTGGTGACAAAACACTTGTTGACGCACTTGCTCCATGTGTAGACTCTTGGTTAAATAGCGCTTCAAACGAAGAAGACATGAAAACTGCTTTTGAAAAAGGAGCAGAAGCAGCAGTTAAAGGAGCGGAGTATACGAAAGAAATCGTAGCTCGCATGGGCCGCGCCGGTACAGTTGGTGAAAGAAGCTTAGGCTATCCAGATGCAGGTGCACATGCACTTGGAGTTATCTTTACGGAGATTGCTGGTAGTTTGAAATAG	MKKIINKPETLVMEMCNGMVMAHPELELLKKYKVIKKKEMNENKVTLISGGGSGHEPAHAGLVGKGMLDAAVCGDVFASPSQIQVYQAIKETASKKGTLLIIKNYSGDIMNFKNGAHLATEDGIEVDYVKVDDDIAVEDSLYTVGRRGVAGVILVHKIAGAAAEEGMDLGAVKAVAEKAAANVRTIGLALTSCTVPASGSPTFTLAEDEMEYGVGIHGEPGIKREKMLSADELANRMTNDLVKDLGVKDGEEIALLVNGFGGTPLQELYLFNNAVTRELAARNIKINRVFVGNYMTSIDMAGMSLTVMKLDDELKTLLSKECNTPAFKVDGSVESVEYVNVLEEKEEKEVSFEIETAEEHAVIKDNVITLNNMIYLVDKMSDVIIKNEVPFCELDTHAGDGDFGMSVAKGFKQLKREWHSIVNQENVTIGSFLDGCSMIIMEHCGGASGPIWGGAFRAASKAAGEKRELTVKEFAEMLQAALQGIQSIGERSFGRGAVVGDKTLVDALAPCVDSWLNSASNEEDMKTAFEKGAEAAVKGAEYTKEIVARMGRAGTVGERSLGYPDAGAHALGVIFTEIAGSLK	PGPT0018465_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
AK009_06002	537			hypothetical protein	ATGGAATTAAAAAACACAGGTTTTATAACATTGTTTCTCATAATTTACTTTTTATTTATTAGTTATAAAATAATAAATAAAACTAAAATTGAACATAAAAAAGAGATTCTTAATTTCACTTTCTATAGTTCAATTATATTTATAATAAGTTTAACTATATTCCCAATAAAACTAGATCCAGAACTATATACTATAAATAGAATACATAACTATATACCTTTTTATAGTATGTTTGATTTTGTTGAAAACAAATCAATATTTATCTCTTTCAAAAATATAATAGGGAATATTGTTTTATTTATCCCATTTTCATTCATGCTATATATAAAATTCGTTAATAAATTAACCATAAACATACTTATATGCATGGGAGTAAGTTGTTCAATTGAACTTCTCCAAATACTAGTTCCTTTTATAGGTCGTTCTTTTGATGTAGATGATATTATTCTTAATACAATAGGATCAATTATTGGAACATATTTAGCAATATACATATCAAAAAACAATATTAAGAAGATCCCTTCTACCTTAAGGTAG	MELKNTGFITLFLIIYFLFISYKIINKTKIEHKKEILNFTFYSSIIFIISLTIFPIKLDPELYTINRIHNYIPFYSMFDFVENKSIFISFKNIIGNIVLFIPFSFMLYIKFVNKLTINILICMGVSCSIELLQILVPFIGRSFDVDDIILNTIGSIIGTYLAIYISKNNIKKIPSTLR				NA	NA	NA	NA	NA
AK009_06003	582			hypothetical protein	ATGACATACAAAAAAATGTTTACGCTTATCAATAAACAAATCAAAAATTCATTTATAATCTCTAACGAATACATTTGGATTATTATATATAATACAATTGGAACGATTGGATTATATTTCAATTTTAAATTTATTCTATTTATACAAAATTATTTTTATCGAATACGCCATGAAGAAATAACAAATTTATTCTTAATAATTTTTATTATAGTTAAACTTTCAATAATCATAAGCTTATACTTTTTTATCCAAAGAAATATGCAAAAAAGAGTTAAAGAAATGATAATTTATTATATATCCGGGTTTATTTGGAAGGAAATATTTTTAACATTCTTAATTCAATATACCTTATTTGCAACTATCGGATTTCTTCTAGGAATTATTTTTTCAAACTTAATTATGAAATTAACAACAGTCTTTATCCCTATCACTTTGAAAATTATGAACTTAGGAACAATACCAACTTTTAATTTACCTCTATGGTTTAGTTTAACTTTAATACTAACAATCAATATTTTAGTACTGTTTATAATGGTATTCAGTAAAAAAAGAACAAAAATAATTGATCTATTAAAAAATTAA	MTYKKMFTLINKQIKNSFIISNEYIWIIIYNTIGTIGLYFNFKFILFIQNYFYRIRHEEITNLFLIIFIIVKLSIIISLYFFIQRNMQKRVKEMIIYYISGFIWKEIFLTFLIQYTLFATIGFLLGIIFSNLIMKLTTVFIPITLKIMNLGTIPTFNLPLWFSLTLILTINILVLFIMVFSKKRTKIIDLLKN				NA	NA	NA	NA	NA
AK009_06004	1236			hypothetical protein	TTGAAAATAAAGCTTTATATAAAATTAGCTACAGTTAACTTATTAAGAAGAAGAAAAAAAAATACAATCAATATATTAATTACAACAATTGCTTTAATATTATTAACATTAACCATTTGTATATCAAACGGACTCAACAACTTCATACAAACAAAATTACTTAATACTGTTGATTTCAAAACTTTAATTGTAGAAACAGGAACACGCGATGATAACAAAGAGAAAATTTATGAAAAATTCAATAACCATAAAGATATTATTAAAATTTATCCTTGGATTAGTAATAATGGCGGAGAAGTTCAGATTGAAAAAAATCAAAATCTAACCAAGAGAGAGATATTCCTTAAACCCGCATTAGATAAAATTTCACCCAATATAGTAAAAGGAAATGGAATATATGAAAACTCCAAGAACGTTGCCCTTATACCAACTGAATTTTCCTTAGATCCTCTAGGTTATGAAATAGGATTAACTAAAGAAAAAAACAATTTTTTAAATGGTGCAGATTTTATAGGGGAATATATTACATTAAAATATAAAATATACAATCAAACTGGTCATACATATGGGGAATATAAATTCAAAGTAGTAGGTGTATATGATCCAACAACTACATTTGATACACCTGACACATTCTATATTCCTTATTCTGATTTACTAAATCTAAATACTAGTTTCCAAAAAGAAACTAATGTACAAAATATGGCTGTAGTAGTTAACAAATATGAAAATTTGAACAACATAAAAAGCATAATTGAAAAAGAAAAATTTAACGTTATTTTAAAATCAGAGCTTGGAGACATAAAAGATATTCATTCTTATATAAAGATGATAGGTTTCTTGCTTTTGTCACTAACATTAATAATTTCTATATTTAATATAATTTCAAATACTTTAGAATCAATACGAGAAAGAATGAATGAAATTGGTATCTTAAAGACCGTAGGATATTTAAATTTAGATATTTTAAAATGTTTCTCGATAGAAACTCTATTTATTAGTGGTTTAAGTGTATTGTTAAATCTAATTATTTCTGGGTCACTACTAATAATAATAAAATTTCTCTCAAATAAATTTCTTACTATATATTTTGCTGATTTTAAAATTGATATAAACGATTTTATATTATCTAATATCATCTGTCTTATATTAGGTATAACAATACCAATTTTAAGCAGTCTGATTTCCTTGTTTAAAATCGCGAAAATTCAACCGACTAAATTAACTAAGACGTAA	MKIKLYIKLATVNLLRRRKKNTINILITTIALILLTLTICISNGLNNFIQTKLLNTVDFKTLIVETGTRDDNKEKIYEKFNNHKDIIKIYPWISNNGGEVQIEKNQNLTKREIFLKPALDKISPNIVKGNGIYENSKNVALIPTEFSLDPLGYEIGLTKEKNNFLNGADFIGEYITLKYKIYNQTGHTYGEYKFKVVGVYDPTTTFDTPDTFYIPYSDLLNLNTSFQKETNVQNMAVVVNKYENLNNIKSIIEKEKFNVILKSELGDIKDIHSYIKMIGFLLLSLTLIISIFNIISNTLESIRERMNEIGILKTVGYLNLDILKCFSIETLFISGLSVLLNLIISGSLLIIIKFLSNKFLTIYFADFKIDINDFILSNIICLILGITIPILSSLISLFKIAKIQPTKLTKT	PGPT0013350_15739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_06005	675	lolD	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAGTAATACATTAATTTATGCAAATAACATCTATAAAGAGTATAAAGATAATTTAGTCATACTAGATAATGTGAATTTAGAAATTAAAAAAAATAATTTTTATTCTATAGTTGGGAAATCTGGCGCTGGAAAAAGTACATTGTTGCACTTATTAGGATTACTCGATATCCCAGACAAAGGAGAAATATATATAAATGGGAAACAAACTTCTAACTTAAAACCTAAAGAAGCAGCATTTTTAAGAATGTCTACTATAGGGTTTGTTTTTCAATCATATCACCTAAATAATTTATTGAAAGCTTATGAAAATGTAATGTTACCAATGTATGTTAATCCAAAATACAATTATCATGATATGGAAATAAGAGCTGATGAGTTATTAAAATTAGTTGGTTTAGAGCATAGAAAACATCATTTCCCAAATGAATTATCTGGAGGAGAACAGCAACGTATAGCAATCGCAAGAGCATTAGCTAACGATCCAGATTGTATTTTAGCAGATGAACCAACAGGTAATCTAGATAAAGAAAATGAATCAAATATATTTAATATATTCAAAGAATTAGTGAATATAGGAAAATCAGTTGTTGTTATATCTCATAATGAAAGCGTGAAAAATTATACCGATACAATTTACGAGTTAAAAAATGGGGAATTGGAGGAAAAGCATTGA	MSNTLIYANNIYKEYKDNLVILDNVNLEIKKNNFYSIVGKSGAGKSTLLHLLGLLDIPDKGEIYINGKQTSNLKPKEAAFLRMSTIGFVFQSYHLNNLLKAYENVMLPMYVNPKYNYHDMEIRADELLKLVGLEHRKHHFPNELSGGEQQRIAIARALANDPDCILADEPTGNLDKENESNIFNIFKELVNIGKSVVVISHNESVKNYTDTIYELKNGELEEKH	PGPT0024515_2670	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
AK009_06006	405			hypothetical protein	ATGAAAAACAAAAAAAGATTTGCATTAGGAAGTAGTGTATTCGTGGCATGTCTACTAGCAGGAAGTCTTGTAGCTTCAGCTAGCTCATATTCTTCAAGTTTAGATATAAGCTCAAACTCAACGGTAACCGGAGCAAAGAGAAGTTTTTCTGCAGGAACTCATAATATAAAAATGACACCAACTAGTTATAAAGAAGGTGGAAATCATACTAGTGTAAGCACTAGCGTTCGCACTGGTGGTTCATGGTCACATACTACACACGCTAGCGGCATAGTAAATCTAACTGGATATTACACTAATAATAAAAATTTAGGATATGTAAAAAGCGGCAAATACTTCTACCACTTTAGTACATCCGATAGAGAAGGATTGACAGCTGATCCTGTAGTAATGTCTTCAAGATAA	MKNKKRFALGSSVFVACLLAGSLVASASSYSSSLDISSNSTVTGAKRSFSAGTHNIKMTPTSYKEGGNHTSVSTSVRTGGSWSHTTHASGIVNLTGYYTNNKNLGYVKSGKYFYHFSTSDREGLTADPVVMSSR				NA	NA	NA	NA	NA
AK009_06007	141			hypothetical protein	GTGAAAGAGTTCACTGAAATACTGCAAGTAGCACTGCAAGGTATACAATCTATCGGTGAAAGATCTTTCGGTAGAGGAGCGATAGTTGGTGATAAAACGCTTGGAGTTATCTTTACGGAGATTGCGGGTAGTTTGAAATAG	MKEFTEILQVALQGIQSIGERSFGRGAIVGDKTLGVIFTEIAGSLK	PGPT0018465_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
AK009_06008	351			hypothetical protein	TTGTTACGTCGTTTATCTATTTGTACAGTACTAACAGCTTTTATGTTTACTTTGTTTACATTTAACGGCTCTGCTTTCGCGGCTACGAATGCTACTGAAAATGAAACAGTAGTAGCAGCTTGTGCAAAGGGAGGTACGGTAGGTGTATATGGTGCAAAGATGCGCAGTGGTTACACTGTTGGATCACCTGTCTTACATACATTTAATGATGGTACGAAAATTACTGGAACATGGGTAACCGGTGAATATGTTCAAGGTCATTACAGTAATTCTAAACAGTGGTTAAAAGTTACATATAAAAGGATGACAGGTTATGTATCCCATACAACATTATATAACGTTTGCTCATAA	MLRRLSICTVLTAFMFTLFTFNGSAFAATNATENETVVAACAKGGTVGVYGAKMRSGYTVGSPVLHTFNDGTKITGTWVTGEYVQGHYSNSKQWLKVTYKRMTGYVSHTTLYNVCS				NA	NA	NA	NA	NA
AK009_06009	552			hypothetical protein	ATGAGAAAATTATCTATATTACTTACTTTCATTCTAGTATTAGTCAGTGTTACGGCTGCTTGCACACAAGATAAAACAGATAGTGCCGTTGAAAATGCTCCAATAGAAGAACCAAGCGCAAAAAATGTAAATGAAGAATTAATAAACTTTGAAGAAAAGGAAGATATGAGCCGCTTGGAACAAGGTATTTTATTAGTTGGCGAGAGTGTTAAGGGAGGCTATTACTTGGCCGCTGTTCAAAGTGCATATTTAAATGCTAGCAACGATTCCGTCATGGTTAATGTCTCTGTAAAAAATGTACGAGGTCAAACGATTGGACTATCAGAATTAAAATATAACTTAAAAGATGAAAAAGACGGAAAGATCTATAAAGGAAAGGTGCTTGATCAAAACCCTTCTGATATACAAGTTAAACCAAATGAAACGGTAGAATTGAAAATAGCTTTTGAAGCACCAGGTACCGTAGATGAATATATGTTTTATATTGAAAGCTCTTTAGACCCTCTACAAACATACTGGAAAATTGATAAGCTGCAATCACAAAAAAACTAA	MRKLSILLTFILVLVSVTAACTQDKTDSAVENAPIEEPSAKNVNEELINFEEKEDMSRLEQGILLVGESVKGGYYLAAVQSAYLNASNDSVMVNVSVKNVRGQTIGLSELKYNLKDEKDGKIYKGKVLDQNPSDIQVKPNETVELKIAFEAPGTVDEYMFYIESSLDPLQTYWKIDKLQSQKN				NA	NA	NA	NA	NA
AK009_06010	390			hypothetical protein	ATGGCTCATAAATCTACTGGGGTGTTTCGAGTTCCAGTTTCTGAAAATGGGATTATTCCAACTGCTCTCAACATTATGTTAAACAATGATTCACGCTGCCATACTAGTAATGTAACGGTAACTGTTAAGAGAAGCCGAAACACTTTTTTCCCAACTCAAAATGAATTAGTTGAAATCTCTCGTACTTTTGTTTCTTTAGAACCAAACAGAACAACTAAGATTGTATTGTTTACTCCAGAATTCCAAATAGAAGATTTCCTTGATGTCATCATTAGTGGAACTAAAGATGATGTTAAGGATGTTCTTGTATATTCTTTCTTAGCAGATTCAGTAGGGCATAATCTGCCATCTACTGTTTTCAGAAATGCAGAATACACTTTTGCTTGCTGA	MAHKSTGVFRVPVSENGIIPTALNIMLNNDSRCHTSNVTVTVKRSRNTFFPTQNELVEISRTFVSLEPNRTTKIVLFTPEFQIEDFLDVIISGTKDDVKDVLVYSFLADSVGHNLPSTVFRNAEYTFAC				NA	NA	NA	NA	NA
AK009_06011	894			hypothetical protein	ATGGAATTTAACGATTTGGGTATTACCATTAAAGAACTTAGAATCAAAAAAAATATATCACAATCCGAATTATGTCATGGAATATGTTCACAAAGTCAAATTAGCAAGATTGAAAAAGGTATGATTTATCCATCTAGTATATTGCTATATCAATTATCAGAAAGACTTGGTATTGATCCAAATAATATATTTGCACTAACTCAAAATAAAAGATTAAAATATGTAGAAAATGTAAAATACGTAATAAAAGATTGCTTAAAGCAAAAACAATATAAAGAACTTTATGAAATAGTGAAAAAAGAGAAAAACTTAAATAATTTTCAAACAAAAGAAGAGAAACAATTTCTAATATGGCATGAAGCAATTGCTATATTTATAGTGGATAAATCATTAAAAAATGCTTTAGATTTTTTAAATAATGCATTAAAACTGACTTTAACTAATTCTGATTTTTTATCAGAAAGAGAAATAGATATTATGCAAACAATGGCTATATTTTATGCGGAAAATAAAGAATATGAAAAAAGTATTAATATATTAAAAAGATGTTTAAGTAATTTTAATAAGTTAGATTTTCCTAGAGATAAAGAAATTAAGTTGAAAATCATGTTAAATTTAGCAAAATCTTTGGACTTCACATATCAACATGAAGAGGCAATAAAATACATTGATAAGGGCATCAAATTAGCAATTAATCTAAATACGTTATACCTATTAGGTGAACTCTTCTATTTAAAAGGTCAGTTTTTATTAAAAATTAAACAACATAATGTAGAAGATGTTATTTATAACTGGAAAAAAGCATTATTTATATTTGAACTAACAGAAAAAGAATATTATACAAAAATGCTACCAGATGAACTTATTGAATTACAAAATAAAAAACACTCATAA	MEFNDLGITIKELRIKKNISQSELCHGICSQSQISKIEKGMIYPSSILLYQLSERLGIDPNNIFALTQNKRLKYVENVKYVIKDCLKQKQYKELYEIVKKEKNLNNFQTKEEKQFLIWHEAIAIFIVDKSLKNALDFLNNALKLTLTNSDFLSEREIDIMQTMAIFYAENKEYEKSINILKRCLSNFNKLDFPRDKEIKLKIMLNLAKSLDFTYQHEEAIKYIDKGIKLAINLNTLYLLGELFYLKGQFLLKIKQHNVEDVIYNWKKALFIFELTEKEYYTKMLPDELIELQNKKHS				NA	NA	NA	NA	NA
AK009_06012	282			hypothetical protein	ATGTTCAAGAAATTAGTAGTAGGGCTATTGGCAACAGGTATTGCATTAACAGGAGGAATTGGGGCAGCTTCAGCTGATACGCAAAAAGCTGTGAGCTCTCCGAAACAAGCAACATGCTCAATTCCTTATGAGTATTCTAACGGTAAGTTCAAAAGAACTCTTTATTACTCAAATGGAGTATATGCTAATAGTTTTAATGAAAATGTTTGTGGCGGGACGATTACGTGGTATTTAAAACATGTTCAAAATGGAGTTGCTTTTTACGAAGGTAATTTAAAATAG	MFKKLVVGLLATGIALTGGIGAASADTQKAVSSPKQATCSIPYEYSNGKFKRTLYYSNGVYANSFNENVCGGTITWYLKHVQNGVAFYEGNLK				NA	NA	NA	NA	NA
AK009_06013	165			hypothetical protein	ATGCCAGTTACACTCGAACTTATTCTTTTCATTCTTATAGCAATTAGTGCTGTTGGCTATTTAATAAAAGAATTTCAAAAAACTAGGAAACGAACACTTGGAATTTCACTAGAATTTTTAATTCTTTTCTGGTCAATATGGAGAATATCAACTATCATAATCTAA	MPVTLELILFILIAISAVGYLIKEFQKTRKRTLGISLEFLILFWSIWRISTIII				NA	NA	NA	NA	NA
AK009_06014	1734			hypothetical protein	ATGTACACAAAACTATTAAAATCAATTACATCACTATCACTTATTGGTGGTGCGTTGTTATATACAAATGGCAGCGATGTAAAAGCTGCTGAAGTGGGTGTTTTTTCTGATGTGCCGACATCACATTGGTCATATCCTGCGATTAAAGATTTAGCGAGTAAAAATATTATTTCCGGTTATGGAAATGGGATATTTGGTTTTGGAGATGTTGCGACAAGGGAGCAAGTTGCGGCTTTAATTTATCGAGTGTTAGTACCGAATAAACAAGGCGGTTCGTTTAGTAATGATGGAACTCGTTACGTATTAAAGGATGGGTCTACGTTTAAAAATCCTTACGGTGATATTAATCAAAGTTCTACAATGTTTCCAGAAGAGGTATTAACTTTAACGAATTTAGGAGTTTTTAAAGGTGATGAAAATGGCCAATTTAGACCGAAAGCTTCTGTGAGTCGTGCGGAAATGGCACAAATTCTTACAAATGCTTTCCATCTTGCGGCAAAACAAAAACATACCTTTAAGGATGTTCCAAATCCATTTTGGGCAGAAAACGCAATTAGTGCAGTGCAGTCAAATGGAATCGCAGATGGCACAGGGAACGGGAATTTTGAACCGTATGGCACAGTAACACGTGAACAGTATGCGCAGTTTTTATATAAAACTTTGAAGTATAAAAATGCTGATGTGAAAGACACAGGAGATGCGGCATTATTAACAGCGTTTAAAGAGGAAGTACAAAAGCGTATTAATACGTATGAAACGACTATTACACTTCCATATAAAACGAAAAACAATAATACAAACGAAGTGATGAATACACTTTTTAACGCATATAAAGAAGTTGCAAGTAAAAATGAGTATACAAATAATAATAGATCGAATGTTTCATATGGACTTTCTGGATCACCTGGAAATTATACATTTACGCTTAAGATTACATATCGTGAAACGAAAGAACAGACGGAATATGTCATGAAACAAGCGAAAGCAATCGTTTCTTCTATTACTCAAGTTGGAATGGATGATCACGAAAAAGTGAAGGCGATTCATGATTACGTAGTAAAACATGTTTCTTATGATACGTCTTATAAAGCTTACACAGCATATGAAGCACTTGTAAATCGTTCTGCGGTTTGCCAAGGTTACGCACTATTAACTTATCAATTATTAAAAGAAGCAGGAATTGAAAATCATTTCGTGACAGGAACTGGGGACGGACAACCTCATGCTTGGAATTTAGTGAAAATCGAAAACAAATGGTATCACTTGGATACAACATTCGATGATCCGGTTCCAGATGAACAGGGCCGCGTAACGTATTCGTATTTCAATTTATCAGATGAACAAATCGCAAGAAATCATGAGTGGAACCGCGGAGACTATCCGCAAGCTACAACAAATTATTATAGTACACTGACAAACAAAATTGCGGCAGGTAGTACGAAAACGCCTGCATATCAGCAAATATTAAAAGATACAAAGTTAAACTATTTAGGAAATGAATATATCGTAAACAACTATACCGAATTAAAAAATAAAATGCAGCAGCGTTATAGTGCAAAACCAGAGAAAATTGAAGTGCTGTACAAGCAATCAATGAATGGTGCACTGCAAGATGTGAAAAAGGCAATTGGCGAAATCGATTATCCGCAAGGGGCAAATCGAGTTTCTTATAAAGCGGAGCCTTACAATGCGAAAGAAGGGTATTCTTTAGTGACGATTACGTTTACGTATTAA	MYTKLLKSITSLSLIGGALLYTNGSDVKAAEVGVFSDVPTSHWSYPAIKDLASKNIISGYGNGIFGFGDVATREQVAALIYRVLVPNKQGGSFSNDGTRYVLKDGSTFKNPYGDINQSSTMFPEEVLTLTNLGVFKGDENGQFRPKASVSRAEMAQILTNAFHLAAKQKHTFKDVPNPFWAENAISAVQSNGIADGTGNGNFEPYGTVTREQYAQFLYKTLKYKNADVKDTGDAALLTAFKEEVQKRINTYETTITLPYKTKNNNTNEVMNTLFNAYKEVASKNEYTNNNRSNVSYGLSGSPGNYTFTLKITYRETKEQTEYVMKQAKAIVSSITQVGMDDHEKVKAIHDYVVKHVSYDTSYKAYTAYEALVNRSAVCQGYALLTYQLLKEAGIENHFVTGTGDGQPHAWNLVKIENKWYHLDTTFDDPVPDEQGRVTYSYFNLSDEQIARNHEWNRGDYPQATTNYYSTLTNKIAAGSTKTPAYQQILKDTKLNYLGNEYIVNNYTELKNKMQQRYSAKPEKIEVLYKQSMNGALQDVKKAIGEIDYPQGANRVSYKAEPYNAKEGYSLVTITFTY				NA	NA	NA	NA	NA
AK009_06015	645			hypothetical protein	ATGAATAAAAAGAAGATTTTCGCTGCGTTAATAGGAATTGTAGCCTTATTTATAATTATTAATGTAGTTGTTACGAAAGAGAAAACGACATCAACCAGTGAAAAAATGTACTCTGAGAAAGAATATAATAAATTAGTAGATGAATATTTTGAAGAGACGCAAAAGTTGAAAAGTGATATGAGTGTGTTAGAAACTGAAAAAAAATCTCTTGATGAGCAAGTGAAGAAGTTAAAAGATGAGTTAGCGAAAAAAGAGCAACAAGTAGCGCAGCAGCCGGTTCAACAAGAACAACCAAAGCAAGAACCACAACAACCAGCACCAGCGCAACAGCCGGAAAAGAAAGAAGAGCCAAAACCGGAACAACCTACTGGAGCATTCGAAAACCCTATGAAAAGCATAAACAAAACAGATGCAATGAATAAAGTAAAAGAAAAGGCGAAGCAAGACTTCCAAGATGACTATATGACACAAAACTTTGTTGCGGAGGAACAATCAAAAGCATTTGATTTCTTAAACAGTATTGAAATTAAATCACAAGAAGAATTAAATGTAATGAAGAATGCATTGAAAGATTTTTCTAACGACTTTATGACCGCGAAGTTTGTTTATGAAGAGCAAATGAAGGCGAAGAATAAGCAAGGATAA	MNKKKIFAALIGIVALFIIINVVVTKEKTTSTSEKMYSEKEYNKLVDEYFEETQKLKSDMSVLETEKKSLDEQVKKLKDELAKKEQQVAQQPVQQEQPKQEPQQPAPAQQPEKKEEPKPEQPTGAFENPMKSINKTDAMNKVKEKAKQDFQDDYMTQNFVAEEQSKAFDFLNSIEIKSQEELNVMKNALKDFSNDFMTAKFVYEEQMKAKNKQG				NA	NA	NA	NA	NA
AK009_06016	315			hypothetical protein	ATGAATAGAGATAAAAATTTACCATTAACGGAAACAACGTATTACGTTCTTTTAGCTTTGTTAGAGCCAGCTCATGGATATTTAATTATGCAAAAGGTGGAGGAACTGAGTAATCATCAAGTGAAAATCGCAGCGGGTACATTGTATGGTGCGGTTGAAAATTTATTAAAACAAGGGTTAATAGAATCGGTAAAAAGCGAAGATAAACGAAGAAAAGTGTATGTCATTACGGAACGCGGGAAAGAAGTATTGCATTTAGACTTTATGAGAATGCAGCACATTATTGCGGTTACAAAAAGTTTATTACACGTATAG	MNRDKNLPLTETTYYVLLALLEPAHGYLIMQKVEELSNHQVKIAAGTLYGAVENLLKQGLIESVKSEDKRRKVYVITERGKEVLHLDFMRMQHIIAVTKSLLHV				NA	NA	NA	NA	NA
AK009_06017	612			hypothetical protein	ATGATGTGGAGATTGAAATTCTTTTTAGACTTTGAGAAAGAGGAAAAATGGTTAGAGGAGATGGCTTGGAAAGGCTATCAACTAGAAAGCAATACATTTGGTTATACATTTAGATATACAGAACCGGAAGATGCGACGATTAAAATAGACCATAGAGTATTTAGTAGAAAAAGTGATTTTATTAATTACTGCACATTATTTGAAGATAGTGGCTGGGAGCATATAGCTGGTAATAGGTGGTCAGGTACGCAATATTTTAAAAAGGTAGATGAAGAAAGTGAAGATGACATTTTTTCAGATCCAATGTCACGAGCAGGGAAGTATAAGCGTCTATCTAAAACATTTTTAGAATTAGCGATCTGTTATTTGCCGATATTATTTTTATTTATGTATAGTAATACAATGAATTTAGGAGCCTTTGTAAATCCGAAAGAACTATACTTGACGCCAGGATTATGGGATAAGCAAGGTGTATCATTTCTATGGTCATTCTTATTTGAAACGCCATTTGCATTAATGAGAGGACTTTTTTTGACATTTATCCCCGTTGTGACATGTATGTATTTCGTTTGCTCGTATAAAGCAAATCGATTGTATGAAGAGAGAAGATGA	MMWRLKFFLDFEKEEKWLEEMAWKGYQLESNTFGYTFRYTEPEDATIKIDHRVFSRKSDFINYCTLFEDSGWEHIAGNRWSGTQYFKKVDEESEDDIFSDPMSRAGKYKRLSKTFLELAICYLPILFLFMYSNTMNLGAFVNPKELYLTPGLWDKQGVSFLWSFLFETPFALMRGLFLTFIPVVTCMYFVCSYKANRLYEERR				NA	NA	NA	NA	NA
AK009_06018	177			hypothetical protein	ATGAACTTTAGGGTGTCTTTTTTTTCTAAAAGAGAGTTTTGCTTTCAAGAAGATACATTTTCAATGGATTACTGCCATGAGTATATAGATAAAGTCCATCAAGACATGTATGTTCATGAATATGTAAAATTACATAAAATTTCAGTGAAAAAGAGAGTATACTTTCGTATTGTGTAA	MNFRVSFFSKREFCFQEDTFSMDYCHEYIDKVHQDMYVHEYVKLHKISVKKRVYFRIV				NA	NA	NA	NA	NA
AK009_06019	240			hypothetical protein	TTGAAAATCAATAAAAAATTCGAACCAATAATTTTTAATATCTTTATGATTTTAGGTATATCTAGTATTATCTCTTTCGTCATGGTTTCAATGAATGTTGGATATACAGCTTTATTTCTCAAATCATGGATGAAAACATGGGGAATTGCTTTCGTACTTGCATTTTTAGCTTCTAAATTATTACCCTTTGTAGTTAAAAAGATAATGAAAATCTTCACTTTTGTTGAGAATGATGCTTAA	MKINKKFEPIIFNIFMILGISSIISFVMVSMNVGYTALFLKSWMKTWGIAFVLAFLASKLLPFVVKKIMKIFTFVENDA				NA	NA	NA	NA	NA
AK009_06020	108			hypothetical protein	ATGGGCTTTGGTGGTAGTTGTGGTGGCTGTGGCTTCGCTGGAGGATTTGCTTTGTTAGTTGTATTGTTTATTTTATTAATCATCGTTGGAGCTGCTTGCTTCTGCTAA	MGFGGSCGGCGFAGGFALLVVLFILLIIVGAACFC	PGPT0024985_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK009_06021	414			hypothetical protein	ATGAGTTATGGCTATGGTCACCCTCCAAAAAAATGCTGTGAACATCATAATGAAACTTTATCAACGGGTATATTACGTAGACATTCCGCTACGTTATTTCTTACTGTGGATGCTATGAATGTTGATCCCGACGATACTCGTAGAGTAACTGTTGAAATGTTTGATTGGTCATCTGGTTCTCCGGTATTGTTACCATTAATAGACCCTTCAACGCAAACATTGCCACCTAATCGATATGTTACTTTTCGTTCAGCAGCTCTTCCTCCAGCACTTTTTGCTTATGAAGTAAGAATCATTCGTCCGAAAGATAGAGATGTTGTTACGAATGTTTTTGGTCTTAGTGCAATCGTATTTAACCCACAAGAAGGAAATAATGTTTTACAACATGATTTAGCAAAATTAGACCTTAAATAG	MSYGYGHPPKKCCEHHNETLSTGILRRHSATLFLTVDAMNVDPDDTRRVTVEMFDWSSGSPVLLPLIDPSTQTLPPNRYVTFRSAALPPALFAYEVRIIRPKDRDVVTNVFGLSAIVFNPQEGNNVLQHDLAKLDLK				NA	NA	NA	NA	NA
AK009_06022	456			hypothetical protein	ATGAAAAAAATCATATCTATATGCGCTCTAACCGCTCTATCTTTCACTTTAATAGGTTGTACAAGTACCTCGGTTACAGATAAAGCTTCACAAGTTAAGCAAGAACATACACAAAATACCTTTCAATTAAACTCCGCAAATATTACCGACATTGAAATACTGAAAACAACAAATCATACTACGTCCAAATCTCAAACAGATAATGAAGAAATGATAAAATCTATCGTTTCAGCAGTTCAAAATGGAACACCTAAAACTATCACTTTAGATCAAAAAAAGAAACAATCTGTGCATTCTACTATAACCGTTACATATAAAGATGACGAAAAAGAAGAGTTTCTTGTTTGGGTTGATAATAAGGAACAAATTACAATTGCCAAAGATGAGAAGAAAGATAAGGTAGAAAGTGTGATAGTGAATATTAAAGATACTAAAATGATGAAGGATTTCTTTTAA	MKKIISICALTALSFTLIGCTSTSVTDKASQVKQEHTQNTFQLNSANITDIEILKTTNHTTSKSQTDNEEMIKSIVSAVQNGTPKTITLDQKKKQSVHSTITVTYKDDEKEEFLVWVDNKEQITIAKDEKKDKVESVIVNIKDTKMMKDFF				NA	NA	NA	NA	NA
AK009_06023	390	yflT_2		General stress protein 17M	ATGGAAACGAAGTATAGTAAACCTTTTGTATATGAATTTATTACGGAGAAAGAGGTCATGAATGCAGCGAATGATCTAGTGAAGAAAGGAATAGAACAAAAAGATATTTACGTATTAACACATGAGAAAGATAGGACAGATAGAATTGCAGACAATGCAGACGTGAATACAATTGGGATAAAAGAGGAGGGACTTGGGACAAGCATTATTAACGTCTTTCAAAAAACAGGAGATCAGTTAAGAAATAAGATGCAGGAGTTAGGGCTTAATGAGGAAGAAGCGAACTTTTATGAAGAAAAGCTGGATGAAGGGAAAATCTTGTTATTCGTTAAGGATTTAGAAAGAGTCGGTGAATGGTTACAAGAAAGAAGATGCATGTATTCTATTTAA	METKYSKPFVYEFITEKEVMNAANDLVKKGIEQKDIYVLTHEKDRTDRIADNADVNTIGIKEEGLGTSIINVFQKTGDQLRNKMQELGLNEEEANFYEEKLDEGKILLFVKDLERVGEWLQERRCMYSI	PGPT0014649_29	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK009_06024	201			hypothetical protein	ATGAGTGAGAGCGGGCTAAAAGAAAAAATTACGGGTAAAGTTGAAAAGAAAAAAGGACAAATAAAAGAAGGAATTGGTGAAGTTACAGAAGATAGAGAGTTGAAAACTGAAGGGAAGTGGGAGAAGACGAAGGGAACGATAAAAGAAAAAGTCGGAAAAGTGAAACAAAAGATAAGCGATGAGTTGGATAATAAAGAATAA	MSESGLKEKITGKVEKKKGQIKEGIGEVTEDRELKTEGKWEKTKGTIKEKVGKVKQKISDELDNKE				NA	NA	NA	NA	NA
AK009_06025	252			hypothetical protein	GTGGGACTTATTATTACATGTATTGTAGGTGGACTTATTGGTGCGTTAGCTGGAATGATTACAGGGAAAGACTTTCCTTTAGGTATAGTTGGTAATGTAATTGCTGGATTAATCGGATCTTGGGTTGGTAGTGCATTATTTGGTCACTGGGGTCCTGAATGGGGAGGCATCTTTATTCTTCCAGCTTTATTAGGCGCAATCGTCTTTATTTTAATCGTCACATTCTTCTCTAGAATGCTACGGAAAGCGTAA	MGLIITCIVGGLIGALAGMITGKDFPLGIVGNVIAGLIGSWVGSALFGHWGPEWGGIFILPALLGAIVFILIVTFFSRMLRKA				NA	NA	NA	NA	NA
AK009_06026	201			hypothetical protein	ATGGAAGAGCAAAACTTTAAAAAGGGAGATTTCGTTCAATTTTCTTATCGACACGATCATGCTACAAAGTTAGTTGGTTCCATTATTAATATACTAACGAATACAATTGTAGTTGATATAGGTAATAACGAGGACTTATCTCATATAGAACCAAGGCAGGTCGTAAGAATAAATAATTGTAAAAGAGTAACGATGGTTTAA	MEEQNFKKGDFVQFSYRHDHATKLVGSIINILTNTIVVDIGNNEDLSHIEPRQVVRINNCKRVTMV				NA	NA	NA	NA	NA
AK009_06027	339	rsbV		Anti-sigma-B factor antagonist	ATGATGAATTTGGCAATAAATATTTTGCAAAATGATTTAGGTTATACGGTACAACTTAATGGTGAGATTGATGCATATACGGCATCAGATTTAAAAAATAAGATTATGCCTATTGCAAATGAAAAAGAGGTTCATATTGTAGTAGATTTTCATAACGTAGATTATATGGATAGTACAGGCTTAGGAGTTTTTATAGCTTTATTAAAAGCAGTTAAGAAAAATGATGGGAAGCTAGAGTTTATTGGTGTATCTAAAAGGCTAAAAAGATTATTTGATATTACAGGGCTAACAGAAATATTAAATTTGAATTCCGATTTTGAAAAAGTAGAAAGAAGGTGA	MMNLAINILQNDLGYTVQLNGEIDAYTASDLKNKIMPIANEKEVHIVVDFHNVDYMDSTGLGVFIALLKAVKKNDGKLEFIGVSKRLKRLFDITGLTEILNLNSDFEKVERR	PGPT0014350_1871	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
AK009_06028	483	rsbW	COG2172	Serine-protein kinase RsbW	ATGATGGAGAGATTTGAAAAGATAGAAATGAAAATTCCTGCAAAAGCAGAATATGTGGCTATTATTCGTTTAACAATGGCTGGTGTTGCGAATCGAATGGGCTTTGCTTATGACGATATAGAAGATATGAAAATTGCTATTAGTGAAGCATGTACAAACATTGTACAACATGCATATAAAGAAGACGTTGGAGAAATTACAATTGTCTTTGGTCTATATGAAGATCGATTAGAAATTATGGCTGCGGATAATGGAGTTAGCTTTGATTTCAGTAGCTTAAAAAGTAAAGTCGGTCCGTATGATATTAATAAACCAGTAGAACATTTGCCGGAAAATGGTTTAGGTTTATATTTAATCAATACGTTAATGGATGATATACAAATCATGCATGATGAGGGCATGACAGTTTTAATGACAAAATATATACAAAGAGAGCAGGTGGAGAATGATGGAAATCCAATCTCAACCTACAACTCTTACTAA	MMERFEKIEMKIPAKAEYVAIIRLTMAGVANRMGFAYDDIEDMKIAISEACTNIVQHAYKEDVGEITIVFGLYEDRLEIMAADNGVSFDFSSLKSKVGPYDINKPVEHLPENGLGLYLINTLMDDIQIMHDEGMTVLMTKYIQREQVENDGNPISTYNSY	PGPT0014950_307	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
AK009_06029	777	sigB_1	COG1191	RNA polymerase sigma-B factor	ATGATGGAAATCCAATCTCAACCTACAACTCTTACTAAAGAAGACGTTATTAAGCTAATTGCAGAATTCCAACAAAACCAATGTAATGAAGCGCAGGAAAGGTTAGTTGATCATTATAAAAATCTCGTATATTCCATTGCATATCGCTATTCAAAAGGTGGGCCGATGCATGAAGATATTATACAAGTAGGAATGTTAGGGCTCTTAGGCGCAATAAGAAGGTATGATTATTCGATAGGGAATGCTTTTGAGCCGTTTGCAATACCTACGATAGTAGGCGAAATAAAGAAGTATTTACGTGATAAAACTTGGGGTATTCATGTTCCAAGGCGAATTAAAGATTTAGGCGGGAAAATTAAACTTGCGATAGAGGAGTTAACAGATCACCTGCAGCGTTCACCGAAGATTATAGAGATTGCAGATCATTTAGGACTATCGGAAGAGGAAGTTCTAGAGATTATGGATGCGAAAAATAATTATCGAGTATCTTCCTTAGATGATGTAGTTGAAAATTCATCTGACGGCAGTTCGGTAGCGAGAATTGAATCTGTAGGTGAAGTAGAGCAAGGATATGAACAGACAGAAAGACGTCTCGTTTTAGAGGATATTTTTAACGTATTAAATGATATGGAAAAGAGTGTTATTCATTATATATTTGGAGAAAATTTAAATCAAAAAGATACAAGAGAACGGTTAGGTATTTCGCAAATGCACGTTTCTCGTATTAAAAGACAAGCGATAAGTAAATTGAAGCAAGCTGCATTTTTAGATACATAA	MMEIQSQPTTLTKEDVIKLIAEFQQNQCNEAQERLVDHYKNLVYSIAYRYSKGGPMHEDIIQVGMLGLLGAIRRYDYSIGNAFEPFAIPTIVGEIKKYLRDKTWGIHVPRRIKDLGGKIKLAIEELTDHLQRSPKIIEIADHLGLSEEEVLEIMDAKNNYRVSSLDDVVENSSDGSSVARIESVGEVEQGYEQTERRLVLEDIFNVLNDMEKSVIHYIFGENLNQKDTRERLGISQMHVSRIKRQAISKLKQAAFLDT	PGPT0015025_1527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
AK009_06030	441			hypothetical protein	ATGTCACACGATGTGAAAGAACTAATCGAAGGATTGAATGAAGATTTAGCAGGAGAATACTCAGCAATTATTATGTATAACCATAATGCTGCTACAGTTTCTGGTATATATAGACAAGTATTGAAACCTTTCTTTGAATCTGAAATTAGTGATGAACAAGGACATGCCCTATATTTAGCGGAGAAAATTAAGACGTTAGGTGGTACACCTACTACGATCCCTTTACCAGTGAAACAAGTAGAAGATGTTAGAGAAATGTTAGAATCCGCTAGACAATCAGAATATGAAACAATTAAGCGTTATGAAACGAGAAAAGAACAGGCAGCGAAATTAAATATGACAGAGTTAGTTGTAAAACTAGAAGATATGATTGCAGATGAAACAAATCATATGGAAGAATTAGATCGTCTTTTAAATGATAAAGCAATGGTGTTAAATTAA	MSHDVKELIEGLNEDLAGEYSAIIMYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLPVKQVEDVREMLESARQSEYETIKRYETRKEQAAKLNMTELVVKLEDMIADETNHMEELDRLLNDKAMVLN	PGPT0003965_3059	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
AK009_06031	1143	rssB		Regulator of RpoS	GTGTCCATTTTAATTGTTGATGATAATCCGGTTAACATATTTGTAATTGAGAAAATTTTAAAACAAGCCGGATATCATGATCTTGTATCGCTCAATTCTGCACAAGAGCTCTTCGAATACATACAGTTTGGAAAAGATTCTTCCAGGCATAATGAAATTGACTTAATACTATTAGATATTATGATGCCTGAAATTGATGGACTTGAAGTTTGTAGGCGATTACAAAAAGAGGAGAAGTTTAAAGATATTCCTATTATTTTTGTTACAGCTTTAGAGGATGCAAATAAGTTGGCCGAAGCTCTTGATATGGGGGCAATGGATTATATTACGAAACCTATAAATAAAGTTGAACTATTAGCACGTATGCGTGTAGCGTTACGCTTGAAATCGGAATTAAATTGGCATAAAGAACAAGAAGAAAATCTTCGGAATGAACTAGATTTAGCTACGCAAGTACAAAGAAACTTATTAAGTAGCCCATTAAGAGAAGATTATATAGAAATTGAAGCAAGTTACTTACCTTCATTTAAATTAGCTGGAGATATGTATTATTGGTATAAAATCGATGGAAACCGCTACGGTATTATATTATTAGATGTGATGGGACATGGTATATCTGCTTCATTAGTTTGTATGTTTATTTCGTCTGTATTACGTGAAACGATTAAATCTTTAATCGATCCAGAACTTGTCATTAAAGACTTAAATAAATATATGACTCTTTTACATAATGAGAATGACGATATTCCATATTATTTTACAGCGATATATTTAGTAGTAGATACAGAAAAGAGAACGATTGAATATGTAAATGCAGGACATCCTTCTGGATACGTTTTAGTCGATGAAACAAATGTAGTTGAACTAGATCGCGGGAGTTGTGCCGTAGGATTTTTTGATGAAATAAAAGTTAAAAAGACAGTTATACCTTTTGAGAAGAACGCTCAAATATTATTGTTTACAGATGGTGTTCTTGAAGCAATTGCAAATGATGAATTTGAGTCTGAAGAGAAATTACGTACTTTTACAGAAAGAAAATGGGGAGATTTAGAAGGCGAGATAGAAGGGTTTTACAAGGAAGAACAAAAGAAAGCGCAATCAGATGATATGTGTCTAATTATGATACAAACGAATGCGAAATAA	MSILIVDDNPVNIFVIEKILKQAGYHDLVSLNSAQELFEYIQFGKDSSRHNEIDLILLDIMMPEIDGLEVCRRLQKEEKFKDIPIIFVTALEDANKLAEALDMGAMDYITKPINKVELLARMRVALRLKSELNWHKEQEENLRNELDLATQVQRNLLSSPLREDYIEIEASYLPSFKLAGDMYYWYKIDGNRYGIILLDVMGHGISASLVCMFISSVLRETIKSLIDPELVIKDLNKYMTLLHNENDDIPYYFTAIYLVVDTEKRTIEYVNAGHPSGYVLVDETNVVELDRGSCAVGFFDEIKVKKTVIPFEKNAQILLFTDGVLEAIANDEFESEEKLRTFTERKWGDLEGEIEGFYKEEQKKAQSDDMCLIMIQTNAK				NA	NA	NA	NA	NA
AK009_06032	858	cheR_2		Chemotaxis protein methyltransferase	GTGGAAAATAAGTATTATAATTTTGATCCATCAGTAGATACGGATGAGCGCACGAACTTAGAAATTGAATTACTATTGGAAGCGGTATTTAAACTATCAGGATTTGATTTTCGCCAATATGCTCGCACATCTATTTATAGAAGGATTTGTAATCGAATGCAGCTCTCTAATATCCCAACCATTTCAAAATTAATTGAAAAAGTAATTCACGAGGAAGGGGTTTTAGAACAGTTATTAAATGATTTCTCGATTAATGTAACTGAGATGTTCCGTAACCCTGCCTTTTTTAAAGCGCTAAGAGAGCATGTTATTCCTGAATTGAAAAAGCAACCTGAAATTAGAATTTGGCATGCTGGATGCGCAACTGGTGAAGAAGTATTATCGATGTCCATCTTACTTCACGAAGAAGGATTAAGTGAAAAGTCGGTTATTTACGCAACAGATATGAATACAAATGTGTTAGAAAAAGCAAAACAAGGCATCCTCCCGTTAAATAAAATGCAAACTTATACGAAAAACTATTTACAAGCTGGCGGTACACAAGCATTTTCTAACTATTATTCAACAGATAATCGTTTTGCTTATTTTAATCCTTCACTGTTACAAAACATTATTTTTGCACAGCATAATTTAGTAACCGATCAATCTTTTAACGAGTTTCATATTATACTTTGTCGTAACGTTTTAATTTACTTTACAAGTAAACTTCAAAATCAAGTGCAGCAACTATTTTATGAAAGCTTAAGTCACAATGGATTTCTATGTTTAGGAAATAAAGAAACTCTTCGTTTTTCAAATATAATGCCGCATTATACCCAATTTAATCCTAGTGAACAAATTTATCAAAAAATACAATAA	MENKYYNFDPSVDTDERTNLEIELLLEAVFKLSGFDFRQYARTSIYRRICNRMQLSNIPTISKLIEKVIHEEGVLEQLLNDFSINVTEMFRNPAFFKALREHVIPELKKQPEIRIWHAGCATGEEVLSMSILLHEEGLSEKSVIYATDMNTNVLEKAKQGILPLNKMQTYTKNYLQAGGTQAFSNYYSTDNRFAYFNPSLLQNIIFAQHNLVTDQSFNEFHIILCRNVLIYFTSKLQNQVQQLFYESLSHNGFLCLGNKETLRFSNIMPHYTQFNPSEQIYQKIQ	PGPT0015670_1684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
AK009_06033	2691	rcsC_12		Sensor histidine kinase RcsC	ATGAAATCGAAAGCAAAATTTAGTATTCGTTACAAAATTATGGCTGGTTATTTAGTTATCATTTTGTTCTTGCTTATTTCTTTCATTATGTTAAACAATGGGATTTCCAGTTTACAAAAATCTCGTAATTTTATTATTGATCACGATTTTAAAGTTCTTAATTTAACGAATCAAGTGGAGAAAGATTTACTAACAATTGAAAATAAAGCGAAAGGATTTATCACTTCTAATGATGCAAATTACGTTCAATCCCTTAACGCTGCAGAAAAGGATTACGAAAAACATTATCAAGATCTTTTTTCTTTATTAGAGGATAACCCCTCTCAGCAAGAAAAATTAAAACAGATTAACGAAAACATTACTAGTTGGATTAATAAAGAGATTCACCCACTCATTACAAATAATAATAGTAATAATGTACAAACAATCGACACGACTCAAATTCAGTCATTACAGTCGCAGCTAACTAACTTCCGTAGCACTGAGGAGCAACTAACGAAAAAAAGAGCTGCACAATTAGATATTGAAAATAATAAATTAGAGATTTGGTTATACAGTTTATTGTTCTTACTTTCTTGTATTTCCATTATCGTTTCACTCTATATTTCGAATTCCATTACAAAAACGATTAAAAATGTAATTCAAGCTATTAAATCCATTTCTTCCAAAGAAAAAATTACGGAAAGAATTCATGTAAATACACATGATGAAATAAAAGATCTTGCTCATACAACAAATCACCTACTAGACGAAATATCGAAAAGAGAGTGGTTACAAACTGAGCTTGCAGAATTAATTTTAATGTATCAAGGTGTATCTTCTATTGAGATGTTAGGTAAAAAAATTCTGAGTGGAATTATACAAAAAACGCAAACTTCTTGCGGTGCATTTTATGTTCGTGAAGAAATTGAAGACACTGTCTACTATGTGAAGAAAGCTTCTTTCGCCGGTCAAGGTCCTGATGTTGGAAAACAGTCTATTAAAATGGGTGAAGGTTTCATTGGACAGTCTGCTTTAGAAAAGAAAAGTTTTATTCTCAGGGACATACCTGAAGAATTCCGTTACGTTACTACTGGATTATTAGAAATACGCCCTAAAAACCTACTAGTCATCCCTATCTTATTTGAGGATGAAGTGATCGCAGTAATGGAGTTAGTAAGTGTAACTGAGATTTCAGACTTACATCAAGATTTAATTCAACAAACCGTTGATAATCTAGGTTTAACAATCCATAGCATTATGGGACGTATGCGAATTCAAACTCTTTTACATGAATCACAAGCAATGACAGAAGAGTTACAAGTTCAATCAGAAGAATTGCAAACGCAAGCGGAAGAACTACAAATGCAAGCAGAAGAATTACGAACAACGAATGAACAATTAGAGTCTAGAACTGAAGAAGCTGAGCAGAAAACAGCTGACTTACAAATTACTAAATCAGAATTAGAAGAAAAAGCAAGTGAGTTGTTACGCAGCTCAAAATACAAATCTGAGTTCCTAGCAAATATGTCACATGAATTACGCACACCGTTAAATAGTATTTTACTATTATCTGAAATGTTAAGAGAAAATCATGATAACAATTTATCCGACGATGAAATTGAATTAGCAACCGTCATTCATTCATCAGGGAAAGACTTACTTACTTTAATTAATGACATACTAGATTTATCTAAAGTAGAAGCAGGCAAACTAGACATCATTTTTGAAGCAACGAACATAAGTGACATGGCAGCCAATATGCATCAAAACTTTTTACATATAGCTGCACAAAAAAATGTCGAATTTACTATTGAAGACAGTGATACGATTCCTGATTTGTTTTATACAGATGCAAAACGGATTGAGCAAATTATTAAAAACTTATTATCCAATGCATTTAAATTCACGGAAAAAGGATCCGTTTCTTTACATTTCGATTCAATAGAAACAACCAATTTAAGTCATGATATGCAGTCTATAAGTAAAGATTGGATTACAATTTCAGTAAAAGATACTGGTATTGGTATCGCTAAAGAACAGCATCAACTTATCTTCGAAGCCTTTCAACAGGCAGATGGAGCAACGATTCGAAAGTATGGTGGTACAGGATTAGGTTTATCTATTTGTAAAGAGTTTGCTAGATTGTTAGGTGGTTGGATTACGTTAGAGAGTAATGTAGGAGAAGGTAGTACTTTCACGGTATATATTCCTAACCTTCCAAATGGATTACATGATATACAGTTCTCCAATTTAGAAGTCGCAGCAACGATAGAAGATGTTATTCCTGCTGAAGTTGTTGAAGAAACTATCGTTACTACCGAAACAAATAACGTCTTCCAAGAGAAAACCATTTTAATTGTCGATGATGATCATCGAAATATATTTGCGTTACAAAATGCATTAAAAAAACAAAACGCCAACATTATTACTGCCCAAAACGGCATAGAGTGTTTAGAAATACTAAAAAGCAATACAAATATTGACCTTATTTTAATGGATATTATGATGCCTAATATGGACGGTTATGAAACGATGGAAAATATCCGAATGAACTTAGGGTTACATGAAATACCTATTATCGCATTAACTGCTAAAGCAATGCCAAATGATAAGGAAAAATGTTTATCTGCTGGCGCTTCAGATTATATAAGTAAACCATTAAACCTACATCAACTCTATTCGGTAATGAGTGTATGGTTAATAAAATAA	MKSKAKFSIRYKIMAGYLVIILFLLISFIMLNNGISSLQKSRNFIIDHDFKVLNLTNQVEKDLLTIENKAKGFITSNDANYVQSLNAAEKDYEKHYQDLFSLLEDNPSQQEKLKQINENITSWINKEIHPLITNNNSNNVQTIDTTQIQSLQSQLTNFRSTEEQLTKKRAAQLDIENNKLEIWLYSLLFLLSCISIIVSLYISNSITKTIKNVIQAIKSISSKEKITERIHVNTHDEIKDLAHTTNHLLDEISKREWLQTELAELILMYQGVSSIEMLGKKILSGIIQKTQTSCGAFYVREEIEDTVYYVKKASFAGQGPDVGKQSIKMGEGFIGQSALEKKSFILRDIPEEFRYVTTGLLEIRPKNLLVIPILFEDEVIAVMELVSVTEISDLHQDLIQQTVDNLGLTIHSIMGRMRIQTLLHESQAMTEELQVQSEELQTQAEELQMQAEELRTTNEQLESRTEEAEQKTADLQITKSELEEKASELLRSSKYKSEFLANMSHELRTPLNSILLLSEMLRENHDNNLSDDEIELATVIHSSGKDLLTLINDILDLSKVEAGKLDIIFEATNISDMAANMHQNFLHIAAQKNVEFTIEDSDTIPDLFYTDAKRIEQIIKNLLSNAFKFTEKGSVSLHFDSIETTNLSHDMQSISKDWITISVKDTGIGIAKEQHQLIFEAFQQADGATIRKYGGTGLGLSICKEFARLLGGWITLESNVGEGSTFTVYIPNLPNGLHDIQFSNLEVAATIEDVIPAEVVEETIVTTETNNVFQEKTILIVDDDHRNIFALQNALKKQNANIITAQNGIECLEILKSNTNIDLILMDIMMPNMDGYETMENIRMNLGLHEIPIIALTAKAMPNDKEKCLSAGASDYISKPLNLHQLYSVMSVWLIK	PGPT0015645_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
AK009_06034	252			hypothetical protein	ATGAACGCCATTCACTCTACTACTATTTCTTATAATGAAACACCTACAATAACTCAGATTCATCATTTTTATGCTTTAATGACAACATTTCAAGCTAATTTGTTTATAAGTAAACATGGAACAATGACATCAATCAAAAATTTAAGCACTCTAGTATCCTTTTTCCTTACTGTAAAAAAGAAAGATCTTGTATTATTTATTTTTGAAGGAATAGATGCAAAAAAAGCTTTAAGAACACTCTTTCCTTCTTAG	MNAIHSTTISYNETPTITQIHHFYALMTTFQANLFISKHGTMTSIKNLSTLVSFFLTVKKKDLVLFIFEGIDAKKALRTLFPS				NA	NA	NA	NA	NA
AK009_06035	141			hypothetical protein	ATGAATGAAATGATGATTGATATTACATTTGATTTAATTTACTTGTTAAGTAGTTCACTTGTAGTGCTTTTACTATTCGCATTTTTCGTAAATGGTTATGTTAATAAGAAGGTTAGTGTATACAGAAATGAAGAAAAATAA	MNEMMIDITFDLIYLLSSSLVVLLLFAFFVNGYVNKKVSVYRNEEK				NA	NA	NA	NA	NA
AK009_06036	531			hypothetical protein	ATGAATGTAGATAGAAAAATAGTAGGTGTTTTTAGAACAATTGATGATGCGGCACTCGTTATTAATGAATTAAATGATAAAGGATACCCAGCAGATAACATTTCAGCTATTGCGAAGGATCAAAAGGAAATTGAACACCTGGAAGAAAAATCGGGTGAAAAAGTTAAGAATGAAACTGCACATAAAGCAGATATCTTTTCAGCGACAGGGCTTGTAGCAGGAGGAGTAGCAGGGGGACTAGGTGGTTTATTAACTGGCCTTGGTATACTTGCCATTTCTGGAATGGGTCCAATTGTAGCAGCAGGACCAATCGCAGCAGCTATTGGTGGAGCTGGTATTGGCGGAGGAGCTGGAAGTTTAATAGGAGCATTTATAGGATTAGGAATTCCAGAAGAACATGCTAAAAAGTATGAAGAATATATTTACGATGGAAATATATTAATTTTAGTAGATGCAACATTAGATGATAAGTTAGAAATTTATAAAATATTTGATAAGCATAATGCTTATAACTCTGATTTCTTTAAATAA	MNVDRKIVGVFRTIDDAALVINELNDKGYPADNISAIAKDQKEIEHLEEKSGEKVKNETAHKADIFSATGLVAGGVAGGLGGLLTGLGILAISGMGPIVAAGPIAAAIGGAGIGGGAGSLIGAFIGLGIPEEHAKKYEEYIYDGNILILVDATLDDKLEIYKIFDKHNAYNSDFFK	PGPT0014649_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK009_06037	282			hypothetical protein	ATGACTATAAGAGAGGAAGGGCTTATAGTAAAAGATCAAGTTCTATCATGTTATTTAAAAGGGAAGAGGTGCCTTTTCGTGATTGTAAAAATATTAAAGGATAGCAGTAATAGCTTCCTTTGTACAGTTCAAAATAAAAATGGAGACCAGTATGTGAAAAAGTGGTTTAGTAAACATGAAAATAATAAAGAATTAGGACGACCAACTTTTAAAGAAGTAGAAAAAGATTGGAAAGAAAATAGAGAATCGTTTATGTATCCCAATATTAAAGCGCTTTATTAA	MTIREEGLIVKDQVLSCYLKGKRCLFVIVKILKDSSNSFLCTVQNKNGDQYVKKWFSKHENNKELGRPTFKEVEKDWKENRESFMYPNIKALY				NA	NA	NA	NA	NA
AK009_06038	312			hypothetical protein	ATGATTGTAACAACAACTTCTGGAATTCAAGGTAAAGAGATTATTGAGTATATTGATATTGTAAATGGTGAAGCTATTATGGGTGCAAACATTGTCCGCGATTTATTCGCTTCTGTTCGTGATGTTGTCGGTGGTCGTGCTGGTTCTTATGAAAGTAAGCTTAAAGAAGCTCGTGATATCGCAATGGGCGAAATGAAAGAACTTGCAAAACAAAAAGGTGCGAACGCTATCGTTGGTATTGACGTAGATTACGAGGTTGTTCGTGATGGAATGTTAATGGTAGCTGTCAGTGGTACAGCTGTACGTATATAA	MIVTTTSGIQGKEIIEYIDIVNGEAIMGANIVRDLFASVRDVVGGRAGSYESKLKEARDIAMGEMKELAKQKGANAIVGIDVDYEVVRDGMLMVAVSGTAVRI				NA	NA	NA	NA	NA
AK009_06039	306			hypothetical protein	ATGTGGCTAATTTCGGAAATTTGGCCTGTTATACTAGTCGGGGGGATTGTAGTATTTGTAATAAAAAGACTGGAACATAAATATAAGCATGGCAAATTGGGTAAGAAAAAATCAAAAGAGGCTCAACTGTTATTAGATAGTTTCATACCTATAGGAATGCTTTTTGGCTGTATAATCGGTTTGATTTTCGGCATGTTTTTCCCAGATTTCTCACTGCTTTCCATTAGTTTAGGATCCGGAATAGGCTATTTATTTGGTTTTTTTGCCTATGAAATTTATAGCAAGACAGTAAACAATTTTTGTTAA	MWLISEIWPVILVGGIVVFVIKRLEHKYKHGKLGKKKSKEAQLLLDSFIPIGMLFGCIIGLIFGMFFPDFSLLSISLGSGIGYLFGFFAYEIYSKTVNNFC				NA	NA	NA	NA	NA
AK009_06040	648			hypothetical protein	ATGAAAAATGATGATCGGAATTATAATTTAGACCTGAATCGTTTTAATTATGGAAAGGAGAAAGACTTACGTGATTATAATCTTGATGTGAGCCGATTTAATCATTCCGTAAATAATGATAATCGGAATTACAATCTCGATTTGAGTCGTTTTAATTATGGGAAACAAAAAGATACACGTGATTATAACTATCAAGTAAGTCGGGACAGTGTATCGGATAACCGTTGGCAGCAAGATTATAATTACCGGGCCGGTCGCGACAGTGTATCCGACAATCGTTGGCAACAAGAATTCAATTATCGTTCTGGGAGAGATGGTGTATCTGATAGCCATTGGCAACAGGAGTATAACCTAAAAAAGCAAGCAGCCGCCTCTAGAAATAGTGGTGGAGGTGGCGGCTCGCGAGGAACGTCAAGTAGTGGAAGTTCTTCAAGCAGTTCACCAAGTGTAAGCTCAAAATCTTCATTGAATGGTTATACACGCGATCAAATTAATTGGTACAGTAACCCAAATAATGCCCCGTATGCATATGGACAAAAGAAGGAAGAAGTAAAGAAAGCACCATCTTATGTGGAGTCGCTGTTATTGAGGAAACCATGGGAGTCTTCTTCTTTGTTGAAACAGTTTGGGCCGAAAGGATTTTGGTAA	MKNDDRNYNLDLNRFNYGKEKDLRDYNLDVSRFNHSVNNDNRNYNLDLSRFNYGKQKDTRDYNYQVSRDSVSDNRWQQDYNYRAGRDSVSDNRWQQEFNYRSGRDGVSDSHWQQEYNLKKQAAASRNSGGGGGSRGTSSSGSSSSSSPSVSSKSSLNGYTRDQINWYSNPNNAPYAYGQKKEEVKKAPSYVESLLLRKPWESSSLLKQFGPKGFW				NA	NA	NA	NA	NA
AK009_06041	4656			hypothetical protein	ATGCCTCGTAAAAAGAAAAGTGACATAGAAAAAGAACAAGCTTCTTCTATGGTGAAGGATTGGGAAAAAGATAATGGTGGTCTAGATGATAATCAGCGTGCTACGCTTCAACGCATGATTGAACTCAATTCAAATACAGCTCAGCAAGATGTTCGTCGTGTGGATTATTATAGTGGGAATCAAGATAAATATGAAAGAAGTACGCAACCCATTCAAGTTCGGAATGAAAATACAGGTAGTCTTGTAAAAAAGAAAAAAGAAATCTTCGCATTGAGAAATGGTGAGGAAGATGAACCAGTAGAGAATGTGTATCAAAATCTTGAATTTGATAAGAACAATGAGGATCATAGAAAACCACCAGAGAGAAATCCATTTTTAGATCAAATAAAAGCAGCTAACAGTATTTCACAATCCATATCCACAGACTGGATGAAACAACAAGAAGAAGCTAGTCGTACCAATCGTATGATGGGTACGATTGATCGTATCGCGAAACAGTCACCTCCTCAGGAAGGGGGTTTTTTTGGTGACTTGAAATTTGCCGCGCAAAAGTTTGGTGAAATGATTAAACCACCAGAAGGGAAAACTCGTCAGCAAGTTTGGGATGAGTACATGAAAGATGGCGGGAAAAGTGAAGCCACAAAAGAGGTAAATCGCTTTGCTACTCGTACACTGGATTCCACTTTACTCAATGCACCAAGTGCTACAATGAAAAAAGTAAGAGGGCAAGATGCAGTTGATTGGCAAGATCACCGTGAGGGTGTAGGAGAAAACATCGCTGATTTTGCTTCTATGGGACTTGGATATGTGCTACCTGGTGCAGGAGCGGTGAAGGTAGCTGGTAAGCTAGGGCTTGCCGCGAAGGTGGGAGAAAATACATCTAAACTCGGTAAAATAGGGCAATACGCAAAAGAGGGAGCTGCAACAGGTGCCCTTATTGCAGGCGCAGAAACACCAGCAAAAGCATATGTGAATCCTGACCAAACGATAGAAGATCATTTGAAACGAATTGGCGTAGAGACCGCAGCGGGGGCGGCTATTACCCCTCTTGCCTATGGAATTGGTAATGTGATTAAAAGCTTACGTAAGACGAAGGGTGATACTTCTAACATAGCTGATGATGTCATTCAGCAGGAAAGACAACAAAGGGAATTAGTCAATCAAGCTGTGGAAGAACAAGTATTACAAAATACGCGTACCAAAAACGAATCGGAATCTTTACCGATTCAATCTGAATTAGAAAGCAATACTTTTTTTAAAGAATATAACGATGCAGTAAATGAGCAATATAAATATTTGAAAAATTCATCTGGAAAAGGTGTAGAACCAGGTGGGATTATTCGGGATGAATTAGGAGATGTTGTTAATCGGTATGGACGTATTTCAAATAATCCATCTTGGTATCAAGAATTTTATAAAACAAATGGAAGGAAACCAAATAACACGGAACTTCGTGAATTGGCAGAAAGTCATGTTCGCAATGGATATCAAGAAAACGGGGTTGATATTCCTTCTTGGAGTCCATCGTCTGTTAAAAAGATTGACGAGCAAATTGGACAGGCAACGGCATTAATTAAACAAAATCCTTCCGACCAAGAAGCGTTACAACCAGTAATTGATGCACTCAAGCAGGAACGAGAAATCGGATTACAAAAGTTTTATACAGAACTAAATGGTAAGAAAGCTTCTTCAAATGGAGAACTTCCTGATGACGTACAAGCGATGCGCAATGCACCACCGGTCATTCAATCCGCTATGGCGCCAGATGGGCGGACCATTACGCAGAAAAAGTTAATGGATAGTTTCCGTGATAATGTGGATATCACACTTCGTACGGGGCGCATGGGAGTGGGAGACGATGCGGTTTCGGGTATTTATAAAAATGGTCCCGAAGTCATTCGTACACGTGATTATGGGGACTTAGAAACGTTAGCGCATGAAACAGGTCATCATTTGGATAAGAAATTTGGATTGAATGACCCAAAATTTGATGACGAATTAATGAAACTTGGTTCCCATACATCCGGTCAAAATTATACACCTGAACAAATTCGTCAAGAAGGTATGGCGGAATTTATGCGTCGTTATTTACTCAACCCAGCCATGGCAGAACAAGAGGCACCTGCATTTATGAAGCATTTTCAAAATACCATTCCGGAAGATGTACAAAAGGGATTGAAAAAAGTACAAGAAGATGCGCAAATTTGGGCGAATCAAGGGGATGAAGCGCGTTTCCGCGGAAAAATTAATGTAAATGAAAAACCTAAGAGTCTTGAGCGTGTGAAGCAAGTGCTGCAAAAACTACCAAATTCGAAAGAAGAGTTATATACAGATGTAATAGATAGATTGTATCCAATTTCTAAAGCAGAGAAAGAGATACTTGGTGGAGAATTGGCGGATGCTTCTGTTTCTCCTTATAAAAAAGCAAGGCTTGCAGCGGGAACGCCTAAAAAGGCGCAAATGAAGGTAGAAGAGTTCCGTAATATCTTTGGAGATTCAAAGGTTGATATGGCAGATATACGTGATTATGTGACCGCTACGCATGCAAGAGACTTAGAAAAACAAGGCATTAAAACTGGGTTTACTCCGGACGAGATAGAGAAAACAATTGCGAAGTTTGATAATCCTGAAATACAAGCGGCACACCAAAAGATTAAAGCCTACAATGATTCCTTGTTAGATATGTTGGTTGAAGGAAATATGTTATCTAAGGATGCTGTTACTGCCATGCGTGAAAAGCATCCAAACTACATGCCATTTAACCGTTATTTTGATGAAGAGGGCGTGGGTGAAGGCTTCGGTGGTGGAAAAGGCTTTGTAGATTTGACCAATCCTGTTAAGCGTATAGAGGGATCGAGTCGAAATGTCATTGATCCATTTGAAAGCATTGTGAAAAATACCTTCAAGTCTATGCAAGCAATAGAACGGAATAAAGTTGGACTAGCTCTAGCAGATTTAGCGGAAAATGAAGGCGCAGGGAAATGGATTGAAAAGCTTGCAGGTGATGGAAAAGAGTCGGTAGCGAAAGAGAACATTGTAACTGTTTTTCAAAATGGGGAAAAACAACAATATCAATTAGCGCCTGAATTATATCGTGCCGTGAAAGCAATGGACAAGGAAGTTACAAATAAATTTATATTGGCGGCATCGAAACCGAGTGATTGGCTACGTGCCGGGGCAACCTTAACTCCTGAATTTGCCTTGAGAAATCCGATTCGTGACCAGTTTGCAGCTTATGTGGTAAGTGATACAGGGTACAATCCGTTTGACTTTGTAAAGGGACTTAAAGAAGTTGGGAAGAAAAAGTTCGGGAAAGGTTCAGAGGTGTATGATGACTGGGTAAATCAGGGCGGTGCATATGGTGGATATTTATCTGCCGATCGTGACTTGTTGAAAGAACAGTTATCAGGATTAGAAAAACAAGAATCTGGACTTCCAAAAGCGATAAAGGCTATTACAGCTCCTGTTAATCCTAAAAATTGGCTGAAAGTACTACAGAATATCTCCGAAGTATCGGAAGAAGCAACAAAAGTTGGAGCTTATCATAAAGGATTGAAAAAGGGATTAACGCCAGAAGAATCAGCTTATCAGGCACGTGATTTAATGGATTTCAACCGTATGGGGAATTCCATGCAATCTGCCAATCGAATATTTACGTTCTTAAATGCAAACGTACAAGGAAAAGACAAATTAATTCGTGCGATGAAGGAACATCCAGTTCGAACAAGTGCCCGTATTGCAGGTTCAACCCTACCACCAAGTGCACTAGCCATCGCAAGTTATGCAAGTGCAAATGATAAACAAAAAGAAATGATGGATAATATGCCGCAACAAGAGAAGGACACGTATTGGTCATATGCCATTCCTGGTACTGATAAAGTGGGACGGATTCCTAAGCCTTTCGATATTTCATTACTAGCTAATACAGTAGAAAGAGCAAATAAATATAGAGAGGGAGATCAGTATGCGTTTGATGGATTTGATAAGACTGTAAATGATGCGGTGAAAGTACCTTGGATACCGACTACGTTACAACCAATTGTCGAGAATATGGCAAACTATAGCTTTTTTAGAGATGGTCCAATTGTTCCAAAGCGTGATGAGAAAAATTCACCGAAAGAGCAATACGGTCCGAATACGAGCCTAACAGCTCGTGAAATGGCAAGTGCATTAGATAAGATAGGAATTGAAGCTTCTCCATACAAAATTGATAATCTATATAAAGGGTACACGGCTGGATTAGGTCAATTTCCATTGAAAGGATTAGATAGTGCTATTTCTTTAATATCTAATAAAGATGTGCCTACGCCAATTGCACAAGAATGGAATGAATCGACACCGGGTGCGAAAGCGTTCTTTGTAAATGGACAAGGTGGTGGGCAAGTCATGGAAGATTACTATAACATCATGGATGAACAACAAGCGATTCAAGCGGATAGTAAAAAGAATGAAGAAGATGCATCGAATGCCGAAGAAATGAAAGCATTTAATAGAATTGATAGAGAAATGGCTAAATTACGTAAAGAATATTATGTTGTAAAATCGAATACCGAGATGAATCCAGAAGTAAAACGAAGTGAATTAGATCGTTTGGATGAAGAAATGCGTACACTTGCACGAGAAGGAATTACAGTCTTTAGACCTGATTATAAATAA	MPRKKKSDIEKEQASSMVKDWEKDNGGLDDNQRATLQRMIELNSNTAQQDVRRVDYYSGNQDKYERSTQPIQVRNENTGSLVKKKKEIFALRNGEEDEPVENVYQNLEFDKNNEDHRKPPERNPFLDQIKAANSISQSISTDWMKQQEEASRTNRMMGTIDRIAKQSPPQEGGFFGDLKFAAQKFGEMIKPPEGKTRQQVWDEYMKDGGKSEATKEVNRFATRTLDSTLLNAPSATMKKVRGQDAVDWQDHREGVGENIADFASMGLGYVLPGAGAVKVAGKLGLAAKVGENTSKLGKIGQYAKEGAATGALIAGAETPAKAYVNPDQTIEDHLKRIGVETAAGAAITPLAYGIGNVIKSLRKTKGDTSNIADDVIQQERQQRELVNQAVEEQVLQNTRTKNESESLPIQSELESNTFFKEYNDAVNEQYKYLKNSSGKGVEPGGIIRDELGDVVNRYGRISNNPSWYQEFYKTNGRKPNNTELRELAESHVRNGYQENGVDIPSWSPSSVKKIDEQIGQATALIKQNPSDQEALQPVIDALKQEREIGLQKFYTELNGKKASSNGELPDDVQAMRNAPPVIQSAMAPDGRTITQKKLMDSFRDNVDITLRTGRMGVGDDAVSGIYKNGPEVIRTRDYGDLETLAHETGHHLDKKFGLNDPKFDDELMKLGSHTSGQNYTPEQIRQEGMAEFMRRYLLNPAMAEQEAPAFMKHFQNTIPEDVQKGLKKVQEDAQIWANQGDEARFRGKINVNEKPKSLERVKQVLQKLPNSKEELYTDVIDRLYPISKAEKEILGGELADASVSPYKKARLAAGTPKKAQMKVEEFRNIFGDSKVDMADIRDYVTATHARDLEKQGIKTGFTPDEIEKTIAKFDNPEIQAAHQKIKAYNDSLLDMLVEGNMLSKDAVTAMREKHPNYMPFNRYFDEEGVGEGFGGGKGFVDLTNPVKRIEGSSRNVIDPFESIVKNTFKSMQAIERNKVGLALADLAENEGAGKWIEKLAGDGKESVAKENIVTVFQNGEKQQYQLAPELYRAVKAMDKEVTNKFILAASKPSDWLRAGATLTPEFALRNPIRDQFAAYVVSDTGYNPFDFVKGLKEVGKKKFGKGSEVYDDWVNQGGAYGGYLSADRDLLKEQLSGLEKQESGLPKAIKAITAPVNPKNWLKVLQNISEVSEEATKVGAYHKGLKKGLTPEESAYQARDLMDFNRMGNSMQSANRIFTFLNANVQGKDKLIRAMKEHPVRTSARIAGSTLPPSALAIASYASANDKQKEMMDNMPQQEKDTYWSYAIPGTDKVGRIPKPFDISLLANTVERANKYREGDQYAFDGFDKTVNDAVKVPWIPTTLQPIVENMANYSFFRDGPIVPKRDEKNSPKEQYGPNTSLTAREMASALDKIGIEASPYKIDNLYKGYTAGLGQFPLKGLDSAISLISNKDVPTPIAQEWNESTPGAKAFFVNGQGGGQVMEDYYNIMDEQQAIQADSKKNEEDASNAEEMKAFNRIDREMAKLRKEYYVVKSNTEMNPEVKRSELDRLDEEMRTLAREGITVFRPDYK				NA	NA	NA	NA	NA
AK009_06042	225			hypothetical protein	ATGGAAGACATCAAGAAAAAAATAGAGGAGTTGACTTTGGAGCAAAAAGAAATCATGCGAGAAATAAGAAATTTAGAGATGCGTACAACGATAAATGAAAAAGATATTTCTACAGTTAATAAGCAATTAGAAAAAATCAGTTTAAATACAACTTGGATTTTACGAATTGTTATCGGGGCGGTTGTAACAGGGGTTTTAGGTCTAGTAGTTAAAGGGATAATGTAA	MEDIKKKIEELTLEQKEIMREIRNLEMRTTINEKDISTVNKQLEKISLNTTWILRIVIGAVVTGVLGLVVKGIM				NA	NA	NA	NA	NA
AK009_06043	231	uviB_3		Bacteriocin UviB	ATGGAGGAGCAAATTTTTAATTCTATGATTCAACAAGGGGCATTCGCAGCGTTATTCGTGTGGATGCTTTTTACGACGCAAAAAAAGAATGAACAGCGTGAAGAACAATATCAGAAAGTCATTGAAAAGAATCAGGACGTTATCACAAAACAAGCAGAAGCTTTTGGGGATTTATCAAAAGATGTTTCTGAAATTAAACAAAAAATCTTAGGAAGCGGAGATGTTCAATAA	MEEQIFNSMIQQGAFAALFVWMLFTTQKKNEQREEQYQKVIEKNQDVITKQAEAFGDLSKDVSEIKQKILGSGDVQ				NA	NA	NA	NA	NA
AK009_06044	705			hypothetical protein	ATGGAAATCCGAAAAAAATTAGTTGACCCAAGTAAATATGGTACGAAGTGTCCGTATACAATGAATGCGGAGTTTATTACAGTTCATAATACGTATAATGATGCTTCAGCGGAAAACGAAATCGCTTATATGATTCGAAATAATAATGAAGTATCCTTCCATATTGCGGTAGATGATAAAGAAGCTGTACAAGGAATTCCTTTGGAGCGTAACGCTTGGCATTGTGGTGATGGTGGAGGTAACGGAAATCGTAAATCTATCGGGGTTGAAATTTGCTACTCTTTAAGTGGTGGAGATCGATATTATAAGGCGGAAAATAATGCGGCTATCGTTGTAGCTCAACTCATGAAACAGTTCAATATTCCAATTAGTAAAGTTCGTACACACCAATCCTGGAGCGGTAAGTATTGTCCACATCGTATGTTGGATGAAGGGCGATGGAATTCCTTTATAGAAAGGGTGCAAAACGCATATAACGGTGGCGGCAATACAGCACCATCCACACAACCGTCAAACAATGGTGTAGGTGTTGTTACCATAACAGCAGATGTATTACGCGTTCGTACGGGACCAGGAACAAATTATGACATTGTGAAAAAGGTCTACCGAGGTGAACGCTATCAATCTTGGGGCATTCAAAATGGCTGGTACAACGTTGGAGGGGATCAATGGGTATCGGGGGAGTATGTGCGGTTTGAGGGGTAG	MEIRKKLVDPSKYGTKCPYTMNAEFITVHNTYNDASAENEIAYMIRNNNEVSFHIAVDDKEAVQGIPLERNAWHCGDGGGNGNRKSIGVEICYSLSGGDRYYKAENNAAIVVAQLMKQFNIPISKVRTHQSWSGKYCPHRMLDEGRWNSFIERVQNAYNGGGNTAPSTQPSNNGVGVVTITADVLRVRTGPGTNYDIVKKVYRGERYQSWGIQNGWYNVGGDQWVSGEYVRFEG	PGPT0019115_1874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_06045	594			hypothetical protein	ATGTCTGTTTTCACAATTGTTCTCTTATTTATAACGTGTATTTCTGTTATTAATTGGGTATTGTTACGAAGGAAAAAAGAGCACGACTTTTTGAATTTATTACATTTAGCAAATAATGATGTAGATTTTAAAAAAACTGTAGCTATGGGGCTGTATTATCGATTCATGAAACAGACAGAAGAAGAAAAAGTATCTAATGTATTTATTGGGGAAGATCCAATAGCATTTGAACATTTTGTTGGAGACGTATTTGAAAGGTACTATGGAGGATCAGTTTACGTAACGAGGGGGTCAAATGATTACGGTGTTGATTTTGAACATAAGTTAAATGACGAATTATATCTTGGACAAGTGAAATGTTATAATTCGGACATGCCTTTTAATGCTATCGCGTTAGTTCATTCAAATATGGTAAAAGAAGACGCGAAGGGCGGATACGTAGTAACAACTGGGAGTTATACTGTAAATGCCCAGCGTTATGCTGAAGGATTAAATATCCAACTAATCGATGGACCAAAACTTGCTGAGATGTACATAGAAGTGTTGCAAAATGAAAGAAATCCTGTTTACAAATTGGACCCTGTTAATAATTAA	MSVFTIVLLFITCISVINWVLLRRKKEHDFLNLLHLANNDVDFKKTVAMGLYYRFMKQTEEEKVSNVFIGEDPIAFEHFVGDVFERYYGGSVYVTRGSNDYGVDFEHKLNDELYLGQVKCYNSDMPFNAIALVHSNMVKEDAKGGYVVTTGSYTVNAQRYAEGLNIQLIDGPKLAEMYIEVLQNERNPVYKLDPVNN	PGPT0027250_1907	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
AK009_06046	222			hypothetical protein	ATGGAGATAAAACTTAAAAGTAAAATTGGAGATTGGGTAGAAAAAAGTGGATATCGAAAAGATTTTATAGCGAATAAACTAGGAATAACCGTAAAACAACTCAACAACTACATAACTGGAACTTCTTTTCCAAATGTTCATCGTTTATACCAATTAGCTTGTATCTTTAATTGTAGAGTTGACGATTTATATGAAGTACAAAAAAATGACCCTGCTAATTAA	MEIKLKSKIGDWVEKSGYRKDFIANKLGITVKQLNNYITGTSFPNVHRLYQLACIFNCRVDDLYEVQKNDPAN				NA	NA	NA	NA	NA
AK009_06047	306			hypothetical protein	ATGCGTTGGCAATATTCACATTTAAACGAAACACCTTATCTATATCCATCGAAGGAATTGAGAAATATGCATAGGAGTTCTAAGGGTAAGAAAGAAATGAATGCGATAGTGAACCACATGGAAAGACATGAAGTATTTAATAATCGTGAATATAAAGGCTATTACCATTTATCAAGCGAAATTATCGATGATTTATATGAAGATGGAGATGAAGTGTTGGAATGGGGGGATGTCATTAACGATTATCAACCAATAATGAATTCAAAGAAGGTTCTACAGCTAAAAAGAAAAGAGGGGTTTAGATGA	MRWQYSHLNETPYLYPSKELRNMHRSSKGKKEMNAIVNHMERHEVFNNREYKGYYHLSSEIIDDLYEDGDEVLEWGDVINDYQPIMNSKKVLQLKRKEGFR				NA	NA	NA	NA	NA
AK009_06048	183			hypothetical protein	ATGACACTTGCAGGGGAAGCGGTAATTATTTGGACAGCAACAGGTTTGTCTGTAATCGCGATGAGTGTAGCTGAAAAAATGGGGAAGAGTGTTCCGCATTGGCTTCCACGTATAACCTTGTATACGACGCTTACGGGCTCGTTCTTATATCTTCTACGTTATATTCTCGTTATGTTTCTATGA	MTLAGEAVIIWTATGLSVIAMSVAEKMGKSVPHWLPRITLYTTLTGSFLYLLRYILVMFL				NA	NA	NA	NA	NA
AK009_06049	1182			hypothetical protein	ATGCTTGAATTATTGTTAATACCCGTTGCTTCATTTGGATATGCCTTGGTAAGTGATAAGCTCAAACGTAAAGATGATGATAAACGCAAGATACAAGTATTCTTTGAAGTGTCTGGAATCGCAATCAAAAAAGAAGAAAAGCTATGTTATCCAAAATTTCAAAAGAAAAATATTGATGATCGCAGTACAACATACATTTACACTTTACCTGTTGGTATGCCAAGTAAAATCATTCAGAAGGTCGAGGATGTTGTTTCTGAAGGACTAAATAAACCCGTTCGAATCCAGTATGATAATTATGAATTGAATATTCGAGTATTCCATAAAGAAATACCTACGAGATGGGAATGGTCAACGAATTTAATTCAAGAGCGCAAATGGCGTGTACCAATCGGGCAAAGTTTAGAAGAGTTAATTTGTCATGACTTTGATAAAACACCGCACATGACTTTAGGTGGACTAACGAGGATGGGAAAAACGGTGTTTTTAAAGAATGTATTCACTTCACTTACTGTAGCTAATCCAGAGCATGTTCACTTTTACATTATTGATTTAAAGGGTGGATTGGAGTTTGGACCTTACACGAACGTAAAACAGGTAGAATCTATTGCGGAAAAGCCAATTGAGGCCTTTCAAGTATTGAGTATGATTTTAAAAAGGATGGAAGAAAAAATGCTTTTTATGAAAGGACACCATTATACCAATGTGGTAGAAACAAATATAAAAGAACGCTATTTTATTATCGTGGATGAAGGCGCAGAACTTTGTCCTGATAAAAGTATGAATAGAGAACAACAAAAGTTATTAGGAGCTTGCCAACAAATGCTGTCTCATATAGCGCGTATAGGTGGAGCATTAGGGTTTAGACTAATTTTCTGTACACAGTATCCAACTGGGGATACGTTACCACGCCAAGTGAAACAGAATTCAGATGCGAAGCTAGGCTTCAGGTTGCCAACAGCAACAGCTTCACATGTTGTTATAGATGAACCAGGGCTTGAAACCATACACAGCATTCCAGGGCGTGCGATTTTTAAGACTGATCGATTGACTGAAGTGCAAGTTCCTTATATTACGAATGAAAAGATGTGGGATGTACTAAAACAATATGAGGTGAAGAAAGATGAACATCCAGACACATATCAAAATCAACAGACAAATGATGATTCTGACCTCGATTAG	MLELLLIPVASFGYALVSDKLKRKDDDKRKIQVFFEVSGIAIKKEEKLCYPKFQKKNIDDRSTTYIYTLPVGMPSKIIQKVEDVVSEGLNKPVRIQYDNYELNIRVFHKEIPTRWEWSTNLIQERKWRVPIGQSLEELICHDFDKTPHMTLGGLTRMGKTVFLKNVFTSLTVANPEHVHFYIIDLKGGLEFGPYTNVKQVESIAEKPIEAFQVLSMILKRMEEKMLFMKGHHYTNVVETNIKERYFIIVDEGAELCPDKSMNREQQKLLGACQQMLSHIARIGGALGFRLIFCTQYPTGDTLPRQVKQNSDAKLGFRLPTATASHVVIDEPGLETIHSIPGRAIFKTDRLTEVQVPYITNEKMWDVLKQYEVKKDEHPDTYQNQQTNDDSDLD	PGPT0030468_8228	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
AK009_06050	621			hypothetical protein	ATGAACATCCAGACACATATCAAAATCAACAGACAAATGATGATTCTGACCTCGATTAGAAAGCTGAAATTTGCTACACGTAGGCATTTAATGGCTATACATGATTTAGGTGGCATAAGAAATGCAAACCGCATATTAAAGGATTTAAGCTCATTTGTGAATAGTACAGTGTATAAAAAAGAACATGTATATTACCTAAATAAAAATGGTAGAGAGCTATTTGATGATAATGAGAAAGTTATACCCAATAGTCGGTTAGCGCATAGTCTTATGAGAAATGAAGCATGGCTTTATCTGTTTTGTCCCGATGACTGGCAAATAGAAGCACCCATCCGTTATAAAGTAAATGACCGAAAGAAAACGATTATTTCTGATGTGAAATTCCGGGATGACGACGGGATATTAAACGCTGTAGAAATTGATCGTAAACAGACGATGAATATAAACGCTGAAAAAATGAATCGGTATGGTGAATTCACTGTGTATTATAAAAACAAATATAACGGGAAAGTCCCTATTATTCACTTTTTTACACTCACATCATACAGGCAAAAGACGTTAGAACAATTCGCTGTGCAACAAGGTGTATATGCAAAAGTACATGTTATACCTGAATTGTAA	MNIQTHIKINRQMMILTSIRKLKFATRRHLMAIHDLGGIRNANRILKDLSSFVNSTVYKKEHVYYLNKNGRELFDDNEKVIPNSRLAHSLMRNEAWLYLFCPDDWQIEAPIRYKVNDRKKTIISDVKFRDDDGILNAVEIDRKQTMNINAEKMNRYGEFTVYYKNKYNGKVPIIHFFTLTSYRQKTLEQFAVQQGVYAKVHVIPEL				NA	NA	NA	NA	NA
AK009_06051	984			hypothetical protein	ATGAAAAAGAAACAAGCAATTACCATTCTTGCTAGTATAGAAACATATGAAAACTTAGTATCTTTTCAAAATCTCAAGGAGTTAAATGACACTGTGCGCGCATATAAAGATCAATTTGCTGATCAATTAAATAAAAATCAATTGGCTGTACTCAATCACTTACACACCCATTCTTGTAAATATTTTGGCGTTTCTTTTAAATCCAAAAAAAAGATTGCTGAAGTACTTCATATTAGCCGTAGAACGGTCATTCGTGCATGCCAACACTTAGAATTACTTGGTATCATCAAACAGCTAGAAATGAAACGTAAAAGTGATATGAGACAAACAAGTAACATTATTGTAATCCAGCCAATCATCACAAAAGAAGAGTTTGTCACAGAAGCCCCCACTAAAACTGTGGAAATTTGTCACACCAAGAAAACAACTACAAAAACCTTAAAACAAAATATAAAAGATATAAACAAACGTAAAGAGGAAGTTTCGCAATCTTTTCAACATGATTTAGACTTCATTGATTATCGTGTGCCACAATCTATGCGTATGGAATTACAAACTGCTTTTTCATCAAATGTTATTAATGAATCTTTCAAAAATGCCAAAAATATTGCGAAGAAGGCTGCAAAGCAATTTAATTTACTAGCGGATACAGATATATTTCACAACCTTCTTGCGAATGCTTCTTCGGTTTTGTACTCTAAAACACATAAGTACGAGCATAACGGAAATTTGATGAAAAATCCTATTGGATACTTTACTCGAACATTCAAAAGGATGGTCTATAACTACATTGATAGCTTTAGAGAGATACATAACCTTGCAAATCGTAAGACAAGTGCATGCACTAGTGATGGAATATTTTATAATTGGCTAGAGGTTGATGGCTCAAAAATACCTTCCACAAAGACAATAGACAACCCTTTTACTCCAGGTGTATATTATAAAACATCTAAAGAAGAAGCTGATGAAATCGGGCTATATTGA	MKKKQAITILASIETYENLVSFQNLKELNDTVRAYKDQFADQLNKNQLAVLNHLHTHSCKYFGVSFKSKKKIAEVLHISRRTVIRACQHLELLGIIKQLEMKRKSDMRQTSNIIVIQPIITKEEFVTEAPTKTVEICHTKKTTTKTLKQNIKDINKRKEEVSQSFQHDLDFIDYRVPQSMRMELQTAFSSNVINESFKNAKNIAKKAAKQFNLLADTDIFHNLLANASSVLYSKTHKYEHNGNLMKNPIGYFTRTFKRMVYNYIDSFREIHNLANRKTSACTSDGIFYNWLEVDGSKIPSTKTIDNPFTPGVYYKTSKEEADEIGLY				NA	NA	NA	NA	NA
AK009_06052	2127	pbpH_4	COG0768	Penicillin-binding protein H	ATGAGCAAGAAGCAGAAGCAAAATAAGAAAAAGACCCACGTTCCTTTTCGGTTAAACGTGCTGTTTTTCTGCGTGTTTTTAATGTTCTCCGCGGTTATTGTAAGGCTCGGATATGTACAAATTGTTCGCGGTGAAGAATATAAGAATGAAGTGGAGAAGAAAGAAAACTCAACGATAAGTAATCCTGTACCGCGTGGGAAAATATTTGACCGTTATGGGCGACCTGTAGTAGATAATGCAGCCATTCGTACTATTACATTTACAAAAATGAAAGGATCAACGGCAGAGGATCGCTTAGAAACAGCGAAAAAGCTAGCAGATTTGATTGAAGTACCGACAGATAAATTAACAGATCGCGATAAAAAAGATTATTGGCTTGCTATGCATAAAGAGGAAGCTAAAGAAAAAATTACGAATAAAGATCGCCAAGAGTTTAAAGATAAAAAAATTGATGATAAAGAATTAGACGAGCGTCAGCGAAGTCGTGTAACAGAAGAAGAGATTAATCAATTATCCGCAAAAGATCTAGAAATATTAGCGATTAAAAGTAAGATGGACGGCGGATATGCAATGACACCTCAAGTTATTAAAAAGGATGCTACAGAAAAGGAATATTCGATTATTAGTGAAAACCTAGCAGCATTACCAGGTGTAGATACGAATGTTGATTGGGATCGAAAATATACGTACGATGATTTATTCCGAAGTGTACTTGGTGGGGTGTCGACATCTGATGAAGGCTTACCGAGAGAAAGACTAGATTACTATCTTGTTCGTGATTATAATCGAAATGACCGAGTAGGAAAAAGTTATCTTGAACAACAGTATGAAGATAGCCTGCACGGTACGAAAGCAGAAGTTAGAAATGTTACAGATAAAAACGGTAATATTTTAGAAACGATTAATGTATCAAAAGGACAAAGTGGTAATGACTTGAACTTAACAATTGATATGGAATTACAAAAGCGTGTGGAAGATATTCTTGCGAAGAATTTAATGAGATTTAAAGGAAGCGAACCTCTTTTAGATCGCGCATTCGTTGTAATGATGAATCCAAAAAATGGTGAAGTTTTATCTATGGCGGGGAAACAATTAGTTAACGAAGATGGTCAAACGAAAGTAAATGACTTTGCATTAGGTACCATGACAAGTTCTTATCCGATGGGGTCAACTGTAAAAGGTGCAACAGTACTTACTGGATATCAAACTGGTGCGATTCAACCAGGGTCGGTGCAATTGGATGAACCAATTAAATTAAAAGGTACACCTACGAAATCGTCTTGGAAAACGATGGGATACATTAATGACCTTACAGCTTTAAAAATGTCTTCTAACGTTTATATGTTTAAAACAGCGATGAATATCGCCGGTGTTCAATATGTGAGAGGTGGTACGTTAGATATACCTCAAAAAGCATTTGATACGATGCGTTATTATTTCGGACAGTTTGGACTGGGTGTAAAAACAGGAATTGATTTACCCAATGAATCTGCTGGTCAGATGGGTAGAAGTAGTCAACCAGGTTTCTTACTAGATTTATCAATTGGACAGTATGATACGTATACACCGCTTCAATTAGCGCAATATATTTCGACGATTGCCAATGGCGGATATCGTATGCAACCACAAGTTGTAAAAGAAATTCGTCAACCAGCAGTGAAACCAGATGAAGTTGGGAAAGTTGTTCAATCTATGGAACCGAAAGTATTAAATCGTGTTGATATGCCAGAATCGCAAATTAAACGTGTTCAAGAAGGATTTAGACAAGTGTATAATGATTCAGGTGGTACAGCTACAAAATACTTTACAGGTGCAAAATATAAAGCGGCAGGGAAGACAGGTACCGCGCAAACTGTGTATGGCGGAGATAAAGAGATTGGTAGAAAGGCAAACGGTGAACGTGTGGAAACATATAACCTAACATTAGTAGGTTATGCGCCACTTGAAGATCCAGAAGTAGCATTCTCTGTTGTCGTTCCGTGGGTACATGATGATAAGACTGGTATTAATGGATATATTGGTCGTGAAATTATGGACGCTTACTTTGATTTGAAAAACAAAGAAGTAAATGGTGAAACTCCAAAAGATGACAAAGACAATAAAAATAAAGATCAAGATGATGAATAA	MSKKQKQNKKKTHVPFRLNVLFFCVFLMFSAVIVRLGYVQIVRGEEYKNEVEKKENSTISNPVPRGKIFDRYGRPVVDNAAIRTITFTKMKGSTAEDRLETAKKLADLIEVPTDKLTDRDKKDYWLAMHKEEAKEKITNKDRQEFKDKKIDDKELDERQRSRVTEEEINQLSAKDLEILAIKSKMDGGYAMTPQVIKKDATEKEYSIISENLAALPGVDTNVDWDRKYTYDDLFRSVLGGVSTSDEGLPRERLDYYLVRDYNRNDRVGKSYLEQQYEDSLHGTKAEVRNVTDKNGNILETINVSKGQSGNDLNLTIDMELQKRVEDILAKNLMRFKGSEPLLDRAFVVMMNPKNGEVLSMAGKQLVNEDGQTKVNDFALGTMTSSYPMGSTVKGATVLTGYQTGAIQPGSVQLDEPIKLKGTPTKSSWKTMGYINDLTALKMSSNVYMFKTAMNIAGVQYVRGGTLDIPQKAFDTMRYYFGQFGLGVKTGIDLPNESAGQMGRSSQPGFLLDLSIGQYDTYTPLQLAQYISTIANGGYRMQPQVVKEIRQPAVKPDEVGKVVQSMEPKVLNRVDMPESQIKRVQEGFRQVYNDSGGTATKYFTGAKYKAAGKTGTAQTVYGGDKEIGRKANGERVETYNLTLVGYAPLEDPEVAFSVVVPWVHDDKTGINGYIGREIMDAYFDLKNKEVNGETPKDDKDNKNKDQDDE	PGPT0023930_249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK009_06053	918	pstS		Phosphate-binding protein PstS	GTGAAATGGATGCGTACACCGATTAAAATTTTCGTACTATCAATATGGTTCCTCTGTTTTGAAATGTCTACTGCATTTGCTTTAAATGATACGGGAGAAGTGAGAGTTGATGGATCCTCAACGGTTTTTCCTATTATAGAAGCAGTAGCGGAGGAATATACAAAGGTGCATCCAGACGTGAAAATTTCCATCAGTATTTCTGGAACTGGGGGAGGATTTAATCGTTTCGGTAAAGGAGAAGTAGATATAAATAATGCTTCGAGAGTAATGAAACAAGTCGAGAAAAATGAAATGAAGAAAAATTCTATTCAATTCACACCTTTTGAGGTGGCTAACGATGGTCTTGCAATTGTTGTGAATTGGCACAATACATGGGTAGACGATATGTCAGTAGACGAGTTACGTCTACTGTGGAGTGAAGATGGAAGTGAGAAGCGATGGTCACAAATTCATTCAACATGGCCACGTGAACAAGTGAACTTTTATGCACCAGGCGTAGACTCTGGTACGTATGATTATTTTCAAAATGTCATCTTACAAAATCATCGCATTGTAAAAAAAGTCTCTTTGTCTGAAGACGATCAAGTTATTATGCAAGGGGTAATGAATGATAAACATGCCATTGCTTTTGTAGGATATGCTTATTATATGGCTAATCGAGATAAGGTGAAAGCAATAAAAGTAAATGGTGTATTTCCGACGAAAGAGACCATTCAATCAGGTAAATATAAGCCGTTATCTAGGCCGCTACTTACTTATGTGAATAATGCATCTATCCGAAATAAAATGAATGTAGCAAACTATGTTGAGTTTATGATTCAGCATGTTGGTAACCTCGCTGAAGAGGTCGGTTATGTAAAATTGCGAAAAGAAAAATACAATGAACAGCTGCGTATGTTAACAGAAATAAAAAGGTAA	MKWMRTPIKIFVLSIWFLCFEMSTAFALNDTGEVRVDGSSTVFPIIEAVAEEYTKVHPDVKISISISGTGGGFNRFGKGEVDINNASRVMKQVEKNEMKKNSIQFTPFEVANDGLAIVVNWHNTWVDDMSVDELRLLWSEDGSEKRWSQIHSTWPREQVNFYAPGVDSGTYDYFQNVILQNHRIVKKVSLSEDDQVIMQGVMNDKHAIAFVGYAYYMANRDKVKAIKVNGVFPTKETIQSGKYKPLSRPLLTYVNNASIRNKMNVANYVEFMIQHVGNLAEEVGYVKLRKEKYNEQLRMLTEIKR	PGPT0002625_5686	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
AK009_06054	951			hypothetical protein	TTGGCTCATAATGACAAAAATCAAATTACATTTTCTGTACAACATTTGATTGAAAGAAATAAAAAGCAAAGAAAAAAAACGCAGCGAATCAATCGAATAGTACCTTTATTACTAAAAATAATTGCTAGCGTTTCTATTGTGACGACACTTGGAATTGTTTTTACGCTCTCTAATGAAACAATCATGTTTTTTCAAAAAATATCACTATACTCCTTTTTGACGGAGAAAGAATGGTTACCATTTTTTGAAGATCCTAAATTTGGTATAGTACCACTTATATGTGGAACGTTCCTTGTAACAGCGCTTGCTATGTTTGTGGCAATTCCTATCGGTTTAGCGTGTGCTGTATTTTTAAGCGAATATGCTTCAAATAGTGCACGGAAAATATTAAAGCCGATGTTAGAGCTATTAGCAGGTATCCCGACAATTGTATACGGTTTTTTTGCATTAACAATTGTTACACCGCTTTTACAAAGGATTATACCAGATTTACAGTTTTTTAATGCGATTAGTCCAGGAATCGTTATCGGATTTATGATGATGCCTACAGTTGCATCTCTATCTGAAGACGCGATGAGATCTGTGGCGAAAGGGACGAAAGAAGCTTCATTAGCACTCGGAGCGACGCGGTTTGAAATGGTAAAACAAGTGGTGTTTCCGTCCGCTTTTACAGGGATTATGGCAGCAATTATATTAGCGGCTTCTCGTGCAATTGGTGAAACGATGATCGTTGTAATTGCAGCAGGATCCACACCAAATGTATCGCTTGATCCGACACATTCTATTCAAACGTTAACAGCCTATATTGTGCAAGTAAGTTTAGGTGATGCTCCGCATGGAACGGTTACGTATTACAGCATGTATGCTGTAGGTGCAACTTTATTTATGTTTACTTTTATTATGAACATCATTTCGCAGTCTATTATGCGCCGTTTTAGGAGGATGACATAA	MAHNDKNQITFSVQHLIERNKKQRKKTQRINRIVPLLLKIIASVSIVTTLGIVFTLSNETIMFFQKISLYSFLTEKEWLPFFEDPKFGIVPLICGTFLVTALAMFVAIPIGLACAVFLSEYASNSARKILKPMLELLAGIPTIVYGFFALTIVTPLLQRIIPDLQFFNAISPGIVIGFMMMPTVASLSEDAMRSVAKGTKEASLALGATRFEMVKQVVFPSAFTGIMAAIILAASRAIGETMIVVIAAGSTPNVSLDPTHSIQTLTAYIVQVSLGDAPHGTVTYYSMYAVGATLFMFTFIMNIISQSIMRRFRRMT	PGPT0002620_3227	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
AK009_06055	867	pstA	COG0581	Phosphate transport system permease protein PstA	ATGCGAATGTTGAATCATAATAAAATACAAAAAAACATGGCATCACGCTTTTTAAAAGATCGAATTTACAAATTGTTATTTTATATAGCAATTTTATTTTCAATCGTAATTTTGTCTGTGTTACTGTTTCAAATTGTTGAAAAAGGCATAAGTTATCTTTCAATAGATTTCTTTACAAATTTCGCTTCACGTAATCCGAAAGAAGCTGGTATTGCTGCAGCTTTGTCAGGGACAATATTATTTATGAGTATTGTTATACCTGTTTCTTTTATATTTGGAGTTGGAACAGCTCTTTATTTAGAGCAATATGCGAAGGAATCTCTATTTAAAAAAATAGTAGAGATTAATAATCAAACGTTAGCAGGAGTACCATCCGTTGTATTTGGATTGCTTGGTTTAACTATTTTTGTATATGCTCTTCATTTAGGAGAGAGTATAGTTGCAGCAGCACTGACGATGAGTTTACTCGTCTTACCAACAGTTGTTGTGGCGAGTCAAGAAGCAATCCGATCAGTACCAAGTGTATTATTAGAGGGTTCTTACGGATTAGGTGCTACGAAGTGGCAAACGATGTATCAAATTGTATTGCCATATGCTTTTCCAGGGATTATAACGGGCTGTACGTTAGCGATATCAAGAGCAATTGGAGAAGCAGCACCACTATTAGTGATCGGGGCACTTGCGTTTGCGAATTATGTTCCATTTAGTATGTTTGATAGATTTACAGTTTTACCAATCCAAATTTTTAATTGGATGAGTAGGCCACAAGAAGAATTTCAGTATGTAGCAGCAGCTGGGATGATTGTTTTGTTAGGTTTGTTGCTATTTATCAATATATTTGTTTTATGGTTACGAAATCGAAAATAA	MRMLNHNKIQKNMASRFLKDRIYKLLFYIAILFSIVILSVLLFQIVEKGISYLSIDFFTNFASRNPKEAGIAAALSGTILFMSIVIPVSFIFGVGTALYLEQYAKESLFKKIVEINNQTLAGVPSVVFGLLGLTIFVYALHLGESIVAAALTMSLLVLPTVVVASQEAIRSVPSVLLEGSYGLGATKWQTMYQIVLPYAFPGIITGCTLAISRAIGEAAPLLVIGALAFANYVPFSMFDRFTVLPIQIFNWMSRPQEEFQYVAAAGMIVLLGLLLFINIFVLWLRNRK	PGPT0002610_4192	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
AK009_06056	816	pstB3	COG1117	Phosphate import ATP-binding protein PstB 3	ATGGTAGCAACAGTAGTAAATGTACAGGTGAAAAACGAAGAGAAAATCGAGACTGCGCCAAAGAAAGTAGTATTTGATACGAAAAACTTAAATTTATGGTACGGGGAAGACCATGCTTTAAAAGATATTAATTTAAGTATTCATGAGAATGAAGTTACAGCCATTATCGGTCCAAGTGGCTGTGGTAAATCAACGTACTTAAAAACGTTAAATCGCATGGTAGAGTTAGTACCGATCGTTCGAACTACAGGTGTAATTGAATATAGAGAACGCAATATATTTGATAAATCATATCCAGTTGAAGAATTAAGAACACATGTAGGAATGGTGTTCCAAAAGCCAAATCCATTTCCAAAATCTATTTATGAGAATGTAGCATACGGTCCAAAAATCCATGGTATTCGTGACAAAAAGACATTAGATGAAATTGTTGAAAAAAGTTTACGTGGAGCAGCGATTTGGGATGAATTAAAAGATCGTTTGCACGATAATGCATACGGTTTATCTGGTGGACAGCAACAGCGTCTATGCATCGCACGCTGCTTAGCTATTGAGCCAGACGTTATTTTAATGGATGAGCCAACATCGGCATTAGATCCAATTTCAACATTAAAAGTAGAAGAATTAATTCAAGAGTTAAAGAAAGACTTTAGTATTGTTATCGTAACGCATAATATGCAACAAGCAGCGCGTATTTCAGACAAAACTGCTTTCTTCTTAAGCGGGGAAGTTGTGGAGTATACAGATACAAACAAATTATTTACGACTCCTTCAGATAAGCGTACAGAAGATTATATTACAGGTCGCTTTGGCTGA	MVATVVNVQVKNEEKIETAPKKVVFDTKNLNLWYGEDHALKDINLSIHENEVTAIIGPSGCGKSTYLKTLNRMVELVPIVRTTGVIEYRERNIFDKSYPVEELRTHVGMVFQKPNPFPKSIYENVAYGPKIHGIRDKKTLDEIVEKSLRGAAIWDELKDRLHDNAYGLSGGQQQRLCIARCLAIEPDVILMDEPTSALDPISTLKVEELIQELKKDFSIVIVTHNMQQAARISDKTAFFLSGEVVEYTDTNKLFTTPSDKRTEDYITGRFG	PGPT0002615_1542	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
AK009_06057	657	phoU	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGGTAAGAGAACAGTTTCAAGGTGATTTAAAAGTGTTACAGCAAAAGGTAATCGAGCTTGGAGAATTAGCAAATGCGGCTTTATTGATTGCTATGGAAGGTCTGCATACAAGGGATGTAGAGAAAGCGTTAGAGGTCATTGATGGTGATTACCGCATGGATAATTTAGAAGAGGAAATAAACGATCTTGCACTTATGCTTATTACGAAGCAGCAACCTGTAGCAAGTGACTTAAGAAGGATCTTTATTTCAATTAAAACAGCGACAGATTTAGAGCGTATTGCAGATCATGCTGTTAATATTGCAAAGGCTACAATTCGTCTTGGGGAAAAAGAAGTGGCTGTTAGTTTGCACAACCTGGATGAAATGTTTGCGATTGCAAATGAGATGTTGCATTTAGCGTTAGAAGCATATGAACAAGAAAATTTAACTTTTGCGAAACAAATCGCTGAAATGGATGATTCTGTTGATGAAATATATGGAAAATCAATTCGTGAGTTTATATCTTCAGTTCCGGAACAACCAGAAGCAATTACGCAAATTACACAATTATCATTTGTGGCGAGATATATTGAGCGTGTAGCAGATCATATTACAAATATTGCTGAAAATGTCTTTTATTTAGTAAAAGGAAAGCATTATTTATTGAATGAGTAG	MVREQFQGDLKVLQQKVIELGELANAALLIAMEGLHTRDVEKALEVIDGDYRMDNLEEEINDLALMLITKQQPVASDLRRIFISIKTATDLERIADHAVNIAKATIRLGEKEVAVSLHNLDEMFAIANEMLHLALEAYEQENLTFAKQIAEMDDSVDEIYGKSIREFISSVPEQPEAITQITQLSFVARYIERVADHITNIAENVFYLVKGKHYLLNE	PGPT0002630_3606	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
AK009_06058	2355	cugP		UTP--glucose-1-phosphate uridylyltransferase	ATGAAGGGGGTTATTTTAGCTGGAGGAAAAGGAAGACGCCTTAGACCATTAACATGTAATACTCCAAAGCCGATGTTACCATTATTAGAAAAACCAGTTTTAGAATACAATATTGAGTTATTACGCCAGCATGGTATTCGTGAAATTGCAATTACTGTTCAATATATGAGTACGACCATTAAGCAATATTTTGGTGATGGTAGTAAATGGGGAGTTAACTTGTATTATTTTGAAGACTCTCCTCCGCTTGGTACAGCAGGGAGTATTAAACAAGCAGAACAATTTTTAGATGAAACATTTGTTGTGATAAGTGGGGATGCATTAACTGACTTTCAATTATCAGAAGGAATTAGGTTTCATGAACAAAAGAAAAGAATAGTAACAATGTTTGTGAAAGAAGTAGAAAATCCACTCTCATTTGGATTGGTTGTAATGAATAAAGACCAGGAGGTTACACGATATATAGAAAAGCCGGGCTGGAATGAGGTAGTCTCTAATGTTGTGAATACAGGCATATATATTATGGAGCCAGAAATCTTTTCTTACATACCGCCTAGGCAATTTTTTGATTTTAGTCATGATGTGTTTCCGTTATTGGCAAATAAAAATGTGTTATTCGCATATTTGTCAGAAGGTTATTGGTTAGATATCGGCACATTTAATCAATATCGACAAGCACAATTTGATTTGTTAACGAAAAAGTTACAAGTACCTATTCCTTATACGGAAGTATTACCGATGGTATGGATGGGAGAAGGGGTGACGATTGGCAAAGGGACGAAAATTCATGGCCCCTCTTTTATTGGAGAAGGAGCAAAGATTGGTACAGGAGCTGTAATTGAGCCATATTCTATTATTGGGAAAAATAGTATCGTTTCAAATTATTCTCATCTTCAAAAAAGTATTGTTTTTGCAAATGCCCACATTGGGAAGTATTGTGAACTATTAGAAACGACAATAGGAGAGCGTACAATAGTTGAAGATGACGTTACACTGTTTCAAAAAAGCGTTGTAGCGGATCACTGTCATATTGGGAGAAGCACGGTAATTAAGCAAAAAGGAAAACTATGGCCTTATAAGGCCATTGATAGTCATTCGATAGTAGGAGCAGCTGGTATTCAAGAGAGTGAAATGAGTGCAGGTTGGTTACAAAAAAGCCGCATTGTAGGAAGAGGGAATGTTGAAATTACTCCCCAGTTTATCGTGAAGATTGCGATGGCGTATGGATCTCTTTTTACAAAAGGAGAGAGTATATTAATTGGAAGTCAAGAAAATATAGAAACAACCTCTTATAAAAATTTATTTTTACATGCTATTCATGGTATAGGGATTCATACGATGGAATGTAAAGAAATGAACGAGTCACTTTTTCAATATAGTGTTCATCATTTGCAATGTGCAGGTGGTGTTTTCATTCAAGTGGAGAATGAGAATGAGATTGTTATAAAGTTATACAGTCAAGCTGGCATGCCGTTAACGTATAAGCAGCAAAAAGAGATAGAACAAGTATATATGTCCGAATTGTTTTATTACGTACATGAGAAAGAAATGGGGCGTAATGAGCTGGTTCATGTTTCTATGAATGAGTATATAGAAGTTATATTGGAGCATATTGATATCGAGAAAATACAGATGCAGAAGTTTCATCTTCTTATTAATAAGAGAAATGATACGTTGCAACATTTACTTATGCTCTTTCTGCAAAGACTTGGTTGTACAGTTACATGGATTTATGCAAGCGAACAAAAAGATCATGTGAAAGCTTTGATGAAATCAAGTAAAGCGAATATGGCTCTTATGTTTTCTGAGCAAGGAAATCATTTCGAGTTATACGATAAACATAGTAATATTTACCAGGGTACAGATTTGGAAGAGGTAGATATTCCGGATTTTTTACTCGAATCGACAGGAAATATTTACCCGATGTCTTTGAAGTTAGGAGAATGTTATCTTCTATTTTATACGCAGGATGAAAGAAAGTCGTTTCAAGTAAGGTGGAAGCGAGATATTTTATATCGAATTGGAAAATTATTCGAGCTAATAGCATTGCAAGGAAAAACGTTTCTCAGCATAGTAGAGCAATCACCGCCGCTCTATTTACTTTATGATGAAGTGGTATGTTCATGGAATGAAAAAGGGGAAATTATGAGGAAATTATTGGATGATATAGAAAGGAAGGGAGAAGGTATATTTGAAGGAGTACAGTTCAAATATACTGAAAAAGAGTGGTCTTATATCGTTTCTGACACAAAACAACCAAAATTTTTAGTGTATTCACATGCTAGAAACCCAGTAATAGCAAGGGAAAACATGAAAAATCTTATAGAAAAAATTAGACAATATCAAAAGGTGTAG	MKGVILAGGKGRRLRPLTCNTPKPMLPLLEKPVLEYNIELLRQHGIREIAITVQYMSTTIKQYFGDGSKWGVNLYYFEDSPPLGTAGSIKQAEQFLDETFVVISGDALTDFQLSEGIRFHEQKKRIVTMFVKEVENPLSFGLVVMNKDQEVTRYIEKPGWNEVVSNVVNTGIYIMEPEIFSYIPPRQFFDFSHDVFPLLANKNVLFAYLSEGYWLDIGTFNQYRQAQFDLLTKKLQVPIPYTEVLPMVWMGEGVTIGKGTKIHGPSFIGEGAKIGTGAVIEPYSIIGKNSIVSNYSHLQKSIVFANAHIGKYCELLETTIGERTIVEDDVTLFQKSVVADHCHIGRSTVIKQKGKLWPYKAIDSHSIVGAAGIQESEMSAGWLQKSRIVGRGNVEITPQFIVKIAMAYGSLFTKGESILIGSQENIETTSYKNLFLHAIHGIGIHTMECKEMNESLFQYSVHHLQCAGGVFIQVENENEIVIKLYSQAGMPLTYKQQKEIEQVYMSELFYYVHEKEMGRNELVHVSMNEYIEVILEHIDIEKIQMQKFHLLINKRNDTLQHLLMLFLQRLGCTVTWIYASEQKDHVKALMKSSKANMALMFSEQGNHFELYDKHSNIYQGTDLEEVDIPDFLLESTGNIYPMSLKLGECYLLFYTQDERKSFQVRWKRDILYRIGKLFELIALQGKTFLSIVEQSPPLYLLYDEVVCSWNEKGEIMRKLLDDIERKGEGIFEGVQFKYTEKEWSYIVSDTKQPKFLVYSHARNPVIARENMKNLIEKIRQYQKV	PGPT0017870_354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_MANNOSE_METABOLISM|DEGRADATION,PGPT0017870-gmhB|mpg|gmpP|glmM|hddC|manB-K16881	NA	NA
AK009_06059	150	rpmGA	COG0267	50S ribosomal protein L33 1	ATGCGTGTGAATATTACTCTAGCATGTACAGAATGCGGAGATCGTAACTATATCTCAAAGAAAAATAAACGTAACAACGCTGAGCGTATCGAGCTTAAAAAGTATTGCAAGCGTGACAAGAAGTCTACGTTACACCGTGAAACAAAGTAA	MRVNITLACTECGDRNYISKKNKRNNAERIELKKYCKRDKKSTLHRETK				NA	NA	NA	NA	NA
AK009_06060	579	yqgN	COG0212	putative protein YqgN	GTGAAAGAAGAGAAAGTGCGTTTGCGTAAACAAATAATAGAACACATGAATTCTTTATCAGAAGAACAGTATACAACTTTATCAGAACAGATTGCATTTTTGCTGTATGCGCAAAAAGAGTGGGTTGAAGCTAAAACAATTGGAATTACTCTTTCAATGGAAAATGAAGTAAATACATATCCTATTATTGAAAAAGCTTGGGAAGAAGGAAAGAAAGTTGTAGTTCCTAAGTGTAATAAAGGAACAAGAACGATGTCCTTCCGGCAAATTAATAATTTTGATCAATTAGAAACGGTGTATATGAATTTACGCGAACCGATTCCCGGGCTTACGGAAGAAGTGAATGTGGATGGAATTGATCTTCAAATTGTGCCGGGCGTAGTTTATACAGAACGAGGAGAGCGAATTGGGTACGGCGGTGGCTATTATGATCGTTATCTCGTGCATTATAAAGGGAAAACGCTATCATTAGCGTATGGTTTTCAAATGGTAAAACACATTCCGGTAGAGCCATTTGATAAAAATATAGAAAAAATTATTACAGAAAAAGGAACAATGCTTATAAATGAGCTTGTCTAG	MKEEKVRLRKQIIEHMNSLSEEQYTTLSEQIAFLLYAQKEWVEAKTIGITLSMENEVNTYPIIEKAWEEGKKVVVPKCNKGTRTMSFRQINNFDQLETVYMNLREPIPGLTEEVNVDGIDLQIVPGVVYTERGERIGYGGGYYDRYLVHYKGKTLSLAYGFQMVKHIPVEPFDKNIEKIITEKGTMLINELV	PGPT0008170_3759	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
AK009_06061	201	yqgQ	COG4483	putative protein YqgQ	ATGGTATCTATTTATGATATTCAGCAATTGCTAAAGAAATTTGGTACGATTATTTATACGGGAGATCGAATTGCAGATTTACAATTAATGCAAGATGAATTGCGTGAATTAAATCAATCACAGCTAATCGATCCACAAGACTATCAAACAGCTTTATTTTTATTGAAGCAAGAAATTCAAAAAGAGCTAAATAAGAATTAG	MVSIYDIQQLLKKFGTIIYTGDRIADLQLMQDELRELNQSQLIDPQDYQTALFLLKQEIQKELNKN				NA	NA	NA	NA	NA
AK009_06062	984	glcK	COG1940	Glucokinase	ATGGAAGAGAAATGGTTAGTTGGTGTTGACCTTGGTGGTACAACGATTAAATTAGCATTTATTAATGTATACGGTGAAATTTTACATAAGTGGGAAATCCCTACGAATACAGGTGAGCAAGGAAAACATATTACACTTGATGTTGCGAAAGCAATTGATAAAAAGCTAGAAGAATTAGGCGAATTGAAGAGCAAGTTAATTGGTATTGGTATGGGAGCTCCTGGCCCTGTACATGTGGCATCTGGAATGATTTATGAAGCGGTTAATTTAGGGTGGAAAAACTATCCGCTAAAAGATTTATTAGAAGTAGAAACAGGATTACCTGTTGTTATTGATAATGATGCAAACTTAGCAGCGCTTGGTGAAATGTGGAAAGGTGCTGGTGAAGGTGCAAAAGATTTAATCTGCATGACACTTGGTACGGGCGTTGGTGGTGGTGTAATCGCCAATGGTGAGATTGTACACGGCGTGAGTGGTGCTGCTGGTGAGATTGGACATATTACAGTAGTTACAGAAAATGCTTTCCCATGTAATTGCGGGAAGTCTGGTTGCTTAGAAACAGTAGCATCTGCAACAGGTATTGTACGTGTTGCTATGCAAAAAATACAAGAGACTAATAAAGAAAGCATGTTGCGTTCTATGTTAGCTGAAGAAGGACGTATTACATCAAAAGATGTCTTTGAAGCACTTGGACAAGGTGATGAATTAGCAGGCGGAGTAGTAGAAAAAGTAGCTTCTTATTTAGGATTAGCTGTAGCGAACCTTTCTAGTACGTTGAACCCAGAGAAAATTGTTATTGGTGGAGGCGTGTCTAAAGCTGGAGATGCGCTATTAGAACCAATTCAACGCTATTTCGAGCAATACGCTTTCTCACGTGCTGTAAAGAGCACGAAGTTAGCTATTGCAACACTTGGTAATGATGCAGGTGTTATCGGAGGAGCTTGGCTTGTAAAAAAGCACAAATACGAAGCGAAGATGATATAA	MEEKWLVGVDLGGTTIKLAFINVYGEILHKWEIPTNTGEQGKHITLDVAKAIDKKLEELGELKSKLIGIGMGAPGPVHVASGMIYEAVNLGWKNYPLKDLLEVETGLPVVIDNDANLAALGEMWKGAGEGAKDLICMTLGTGVGGGVIANGEIVHGVSGAAGEIGHITVVTENAFPCNCGKSGCLETVASATGIVRVAMQKIQETNKESMLRSMLAEEGRITSKDVFEALGQGDELAGGVVEKVASYLGLAVANLSSTLNPEKIVIGGGVSKAGDALLEPIQRYFEQYAFSRAVKSTKLAIATLGNDAGVIGGAWLVKKHKYEAKMI				NA	NA	NA	NA	NA
AK009_06063	273			hypothetical protein	ATGCTATCTCGACAATCATTTTTAAAACATGTACAATATAAAAGAGTAAATATTCCAAAAACTCATAATAAGAAATGGGTAGACAGAGGAGGATATTGTATGGGCCTTGTTATTATTTTTACACTTGTCACTCTGTTAGCTGTATTTGCTACGCTTAGAACACTTCGTGAAAAAAACTTTTTCGCGAGCGGCTTTGCAATTGCAACTGTACTCGTTTTCGGATGGTTTACGATCATGACTGTTCTATATAACGGGTATCCACCAGCAGCTTAA	MLSRQSFLKHVQYKRVNIPKTHNKKWVDRGGYCMGLVIIFTLVTLLAVFATLRTLREKNFFASGFAIATVLVFGWFTIMTVLYNGYPPAA				NA	NA	NA	NA	NA
AK009_06064	630			putative metallo-hydrolase	ATGAAATGGATACAAATGCCGTTAGGCCCATTGCAAACCAATGCTTATATTTTAATGAACGATCAAAAAGAGTGCATTATCTTTGACCCTGGTCATGAAGGTGAAAAGCTCGTTACATATTTACAAGAAGAACAATTAAAACCATTGGCGGTTTTATTAACACATGCTCACTTTGATCATATCGGTGCTGTTGATGCGGTAAGAGACGCTTTTTATATTCCTGTATACGTACATAAAGAAGAAGCAGATTGGTTAGGAGATGCAACTGTAAACGGCTCTCAAATTTTTATGATGAACCGCAGTATTACAGCAAAACCAGCGGATCATATTATTGATGCAGAAGGTACATTAACAATTGGATCATTTAATTTTGAAATTTTTGAGACGCCGGGACATTCTCCAGGAAGTATTTCTTATTATAGTAAAGAGGCGAATGCTGTATTCTCAGGAGATGTATTGTTCCAAATGAGCATTGGAAGAACAGATTTGCCTGGTGGAAGTTTTGCTGAATTAATTGGAAGTATTGAAGAGAAATTATTTGTATTACCAGATGAAACAGCGGTGTTATGTGGACATGGTCCAGAAACAAGCATTGGCTTTGAAAAAGAAAATAATCCGTTTTTACAATAA	MKWIQMPLGPLQTNAYILMNDQKECIIFDPGHEGEKLVTYLQEEQLKPLAVLLTHAHFDHIGAVDAVRDAFYIPVYVHKEEADWLGDATVNGSQIFMMNRSITAKPADHIIDAEGTLTIGSFNFEIFETPGHSPGSISYYSKEANAVFSGDVLFQMSIGRTDLPGGSFAELIGSIEEKLFVLPDETAVLCGHGPETSIGFEKENNPFLQ	PGPT0001770_7631	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK009_06065	1113			hypothetical protein	ATGGGAATGGAGCTCATTTTAAGAGAATGGATGGGGAAAGAAAAGGATTATTCAATTTCATATAGTACGTATATGAACCTTGTATTGTATACAGAAGGTCATGGATATTATATGAAAGAACGTGAAAAGATTGGAAGAAAAGGGGATTTTTTTACAAGTAGCAATGTATCCTCTGTTTTTGCAAAAACTTTTGCTAAACTTTTTATTCGTCTTGTTGAAAATGGTGAAGTTGCTTCGAATATTTGTGAGGTTGGTGGGGGAACTGGAAAGTTTGCCTATGATGTTTTACAAGAATGGAAGCAATTATCTCCAAAAACCTTTATTGATTTAAACTATTCAATGATTGAAGTGAGCCCTTTTCATAGGAAATTACAGCAGGAGCAACTTGGCTCATTTTCTAATGTATCGTACTATACCTCCTATAGTGAAATGGGAGATTCTTTCGAGGGAATTCTTTTTTCGAATGAGTTGTTTGATGCATTTCCTGTTGAAATAATTGAGAAAAGAAATGGTATGTTGTATGAAGTACGTATTACATATACAGAGGAAGGAAACCTTTCAGAAGTATGTAGGCCGTTAGATAAAAGAATTGGTCGATATTTATTGAAATATAATATTCATATTGCTGAAGGGCAACGTTTTGAAGTACCAATTGTGATGGAGGAGTATATAAAAGAAATTGCGAAATGGTTTCAAAAAGGTATATGTATTACAGTTGATTACGGATACACAAAAGAAGAATGGATGCATCCAGCACACCGTGAAGGAAGTTTGCGAGGGTATTATCAGCATAAGCTAATACGAAACCCACTAGCGTATCCAGGTGAAATGGATCTTACTACTCATATTCATTGGGACGAGCTAACTGAGATGTTTAGTCTGCAGGGAATGAGTGCAGTATGGCATAAGAAACAATCTGAGTTCTTGTTAGCTGCAGGAATATTAGAACAGCTTACGAGCCATCAAGATACGAATCCTTTTTCTGAAACGCAAAAAAAAAATCGAGCAGTTCGTTCTATGATTTTGAATGGAGGAGTAGGGAGTGCGTTTGATGTTGTTATACATACAAAAGATATGCAACATTTGCATTTGGAGCAGTATGTAACAATATAA	MGMELILREWMGKEKDYSISYSTYMNLVLYTEGHGYYMKEREKIGRKGDFFTSSNVSSVFAKTFAKLFIRLVENGEVASNICEVGGGTGKFAYDVLQEWKQLSPKTFIDLNYSMIEVSPFHRKLQQEQLGSFSNVSYYTSYSEMGDSFEGILFSNELFDAFPVEIIEKRNGMLYEVRITYTEEGNLSEVCRPLDKRIGRYLLKYNIHIAEGQRFEVPIVMEEYIKEIAKWFQKGICITVDYGYTKEEWMHPAHREGSLRGYYQHKLIRNPLAYPGEMDLTTHIHWDELTEMFSLQGMSAVWHKKQSEFLLAAGILEQLTSHQDTNPFSETQKKNRAVRSMILNGGVGSAFDVVIHTKDMQHLHLEQYVTI				NA	NA	NA	NA	NA
AK009_06066	291	pagR_6		Transcriptional repressor PagR	ATGTTAGAAACCTTTCAAAAAGAATTAGAACTATATGAAAGTAATGCAGAATTATTAAAAGTACTAGCTCATCCTGTTCGTTTATGTATCGTAAAAGGATTAATTGAGCGCGGTCCAAGCAACGTTTCTACAATGTATACTGGCTTAAACATGCCACAATCTACAATTTCACAGCATTTAGCAAAATTAAAAAGCGCTAAAATCGTTTCTAGTGAAAGAAAAGGATTGGAAATTTATTACAAAGTAGAGAACGAAACAATAATTCAACTCGTTCGCGTATTATTAGGTTAG	MLETFQKELELYESNAELLKVLAHPVRLCIVKGLIERGPSNVSTMYTGLNMPQSTISQHLAKLKSAKIVSSERKGLEIYYKVENETIIQLVRVLLG	PGPT0004300_362	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_06067	513			hypothetical protein	ATGGATACTTGTACAGATATTTTAATCGTTATCGATTTACAAAATGGAGTATGTTATAGCGGAGAGCATCTATTTGATTTACAGAACTTACTAACAAAAGTAAATCAAAGAATTTCTTCATACAGAAAATTAAATAAACCAATCCTTTTTGTTCAACATTGTGATGATGATTTAGTACCCGAGAAAGAAAATTGGGCTATTCATACCGATCTAGATGTTCAAGAACAAGATTTTTTTGTAAGAAAAACACATGCAAATTCATTTTATAAAACAAACTTAAAAGAAATTTTAGATCAATTATCTGTAAAGCGCATTGAATTTTGTGGTGCCCAAACAGAGTACTGTATGGATGCTACGATTAAGTTTGCCCACGGACTGGGATACGAAAACTTTATGGCACAGAAAACAACCTCTACGTTGAAGAATCCTTTTATGTCCGCAAAAGAGACGATTGATTTTTACGAGAACATATGGAATCACAGGTTTTTAACGTTGCTAAAAGATGAATTTTAG	MDTCTDILIVIDLQNGVCYSGEHLFDLQNLLTKVNQRISSYRKLNKPILFVQHCDDDLVPEKENWAIHTDLDVQEQDFFVRKTHANSFYKTNLKEILDQLSVKRIEFCGAQTEYCMDATIKFAHGLGYENFMAQKTTSTLKNPFMSAKETIDFYENIWNHRFLTLLKDEF	PGPT0000711_91	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
AK009_06068	1164	metC	COG0626	Cystathionine beta-lyase MetC	ATGAGCTATTCTATAGATACACTCTTACTACACAACCAATATAAACATGACTCACAAACGGGCGCTGTGAACGTTCCCATTTATAACACATCAACTTTTCACCAGTTTGATGTAGATACGTTCGGAAAATATGACTATAGCAGGTCAGGAAATCCAACTCGTGAAGCTCTTGAAGATATCATTGCTTTATTAGAAGGTGGAACAAAGGGATTCGCCTTTGCATCAGGCATTGCAGCGATTTCCACTGCATTCCTCCTTCTTTCACAAGGTGATCACGTACTCATTTCAGAAGATGTATACGGAGGCACTTACAGAGTGATAACTGAGGTACTCTCCCGTTACGGTGTTTCACATACATTTGTTGATATGACCAATTTAGAAGAAATAAAACAAAACATTAAACCAAATACAAAGCTCTTTTATGTAGAAACACCTTCTAACCCACTTTTAAAAGTGACAGATATCCGCGAAGTTTCTAAACTTGCAAAATCTATTGGCGCTCTTACTTTTGTTGATAATACTTTTTTGACACCACTATTCCAGAAACCACTTGAACTTGGAGCTGATGTCGTTCTTCATAGTGCTACAAAATTTATTGCTGGTCATAGTGATGTTACTGCCGGATTAGCAGTAGTAAAAGATGCAGAACTCGCTCAAAAGCTTGGATTTTTACAAAATGCATTCGGTGCTATTTTAGGGCCTCAAGATTGTTCTCTCGTACTTCGTGGCCTAAAAACATTGCATGTACGCCTCGAGCATTCAGCTAAAAATGCCAATAAAATTGCACATTATTTACAAGAGCACGCTAAAGTACAAAATGTCTATTATCCTGGATTACAAACGCATCTCGGATTTGATATTCAACAATCTCAAGCAACATCAGCTGGAGCGGTCTTATCGTTTACTTTGCAGTCAGAAGATGCACTCCGCCAATTTTTGTCAAAAGTAAAATTACCCGTTTTTGCAGTTAGTTTAGGAGCGGTAGAGTCAATTCTTTCTTACCCAGCAAAAATGTCACATGCAGCACTGTCGCAAGAAGCTCGTGATGAAAGAGGGATCTCTAATTCATTACTTCGGTTATCAGTTGGCCTTGAAAATGTTGACGATTTAATATCCGATTTTGAAAATGCCCTTTCTTATGTAGAAGAACCTGTAAATGTATAG	MSYSIDTLLLHNQYKHDSQTGAVNVPIYNTSTFHQFDVDTFGKYDYSRSGNPTREALEDIIALLEGGTKGFAFASGIAAISTAFLLLSQGDHVLISEDVYGGTYRVITEVLSRYGVSHTFVDMTNLEEIKQNIKPNTKLFYVETPSNPLLKVTDIREVSKLAKSIGALTFVDNTFLTPLFQKPLELGADVVLHSATKFIAGHSDVTAGLAVVKDAELAQKLGFLQNAFGAILGPQDCSLVLRGLKTLHVRLEHSAKNANKIAHYLQEHAKVQNVYYPGLQTHLGFDIQQSQATSAGAVLSFTLQSEDALRQFLSKVKLPVFAVSLGAVESILSYPAKMSHAALSQEARDERGISNSLLRLSVGLENVDDLISDFENALSYVEEPVNV	PGPT0001995_2161	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
AK009_06069	1113	metI	COG0626	Cystathionine gamma-synthase/O-acetylhomoserine (thiol)-lyase	ATGTCAACAACCGAAACGAAACTAGCACAAATCGGAAATCGCAGTGAAACTACAACAGGAACGGTTAATCCACCGGTTTATTTCTCAACCGCTTATCGTCACGAAGGAATTGGTAAATCTACTGGCTTTGACTATTCACGAACTGGCAATCCAACTCGCGGTCTTTTAGAACAGGCGATCGCAGACTTAGAATATGGCGAACAAGGTTATGCCTGTAGTTCAGGGATGGCGGCTGTTCTCCTCGTCCTTTCTCTATTCCGCTCTGGAGACGAACTTATTGTATCTGAAGATTTATACGGAGGAACGTATCGATTATTTTCTGAGCACGAAAAAAAGTGGAATGTTCGATGTAGATACGTAAACACACAATCTATTAAACAAATTGAGCAAGCTATCACAACTGAAACGAAGGCTATTTTCATAGAAACTCCAACTAATCCATTAATGCAAGTTACTGATATTGCTGCTGTCGCAACTGTAGCGAAAAGGCACGGACTACTTCTTATTGTAGACAACACATTCTACACACCTTATATACAGCAACCATTAACAGAAGGTGCTGACATTGTACTCCATAGCGCAACGAAATATTTAGGGGGACATAACGATGTACTAAGCGGACTTGTCGTTGCAAAAGGAATGGAACTTTGCGAGGAAATCGCTCATTATCATAATGCATCAGGCGCGGTTTTAAGCCCATTTGACTCATGGTTATTAATTCGCGGTATGAAAACGTTAGCGCTTCGCATGAGACAACATGAAGAAAATGCGAAAGCAGTTGTTGCATATTTAAATGATGAAAACGGGGTGACAGATGTATTTTATCCAGGAAGAGGCGGCATGATTTCATTCCGCCTTAAAGATGAAGCTTGGATTAATCCATTCTTACAATCTTTATCCTTAATTACATTTGCAGAAAGTCTTGGTGGTGTAGAAAGTTTAATGACTTATCCAGCAACGCAAACACATGCTGATATTCCTGAAGATATTAGAACAGCAAACGGTGTATGCAATCGTCTTCTTCGATTCTCCGTTGGCATTGAAAATAGTAACGATTTAATTCAAGACTTAAAGCAAGCCATTAAACTCGTAAAAGAAGGTGTAAAAATATGA	MSTTETKLAQIGNRSETTTGTVNPPVYFSTAYRHEGIGKSTGFDYSRTGNPTRGLLEQAIADLEYGEQGYACSSGMAAVLLVLSLFRSGDELIVSEDLYGGTYRLFSEHEKKWNVRCRYVNTQSIKQIEQAITTETKAIFIETPTNPLMQVTDIAAVATVAKRHGLLLIVDNTFYTPYIQQPLTEGADIVLHSATKYLGGHNDVLSGLVVAKGMELCEEIAHYHNASGAVLSPFDSWLLIRGMKTLALRMRQHEENAKAVVAYLNDENGVTDVFYPGRGGMISFRLKDEAWINPFLQSLSLITFAESLGGVESLMTYPATQTHADIPEDIRTANGVCNRLLRFSVGIENSNDLIQDLKQAIKLVKEGVKI	PGPT0001995_2702	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
AK009_06072	1833	yitJ	COG0646	Bifunctional homocysteine S-methyltransferase/5,10-methylenetetrahydrofolate reductase	GTGAAATTACTAGATTTATTATCAAAAGGAATTGTAATAGGTGATGGTGCGGTTGGGACGTTATTGCATTCACATGGTTTGCAAAGTAGCTTTGAAGAATTGAATGTATCTGATCCAGACTTAATTATATCGATTCATAAACAATATGTAGCTGCTGGAGCAGATGTAATTCAAACGAATACGTATGGGGCAAATGAGACGAAATTACGTATGTATGGTTTAGAAAATCAAGTTACAGAAATTAATAGAGCGGCAGTAAAACTGGCGAAAGCATCTGTTACAGACAGAAATGCAATTTTAGGAACAATTGGTGGTATGAAACACATCGGAGCCGTTACAACGACTGATATGGAAAGGGAGTTTATGCTACTTGAACAGGCAGGGGCTTTACTAGAAGAACAGGTTGATGGATTACTATTAGAAACTTTTTACGATGAATTTGAATTACTTCATGCCGTTAAAGTATTGCGTAAGCAAACGAATATTCCAATTGTTGCTCAATTAGCGTTACATGAAGCAGGTACGACTCAAAATGGAAATGATGTCAATGAAATATTAAAGCAACTTATAGATTGCGGTGCAAATGTTGTTGGATTGAATTGTCAACTAGGGCCGCTTCATATGACGGAAGCTTTCAAAATGATATCGATTCCGCAAAATGGCTATTTATCAGCATACCCAAATGCAGGTCTCCCGAATTATGTGGAGGGACGTTATGTATATGAGGGAAGCCCAGCTTATTTTGAAGCGATGACACCGAGATTTATTGAGCAAGGTATTCGATTATTGGGTGGTTGTTGTGGTACGACTCCAGAACATATTCAAAGTATGAAGCGCGCTGTTGCGAATATTACCCCTGTAATAGAAAAAGACACGATTCAAAGGCCGAAAGTCGTTCATACGCATGAGAAACGTTCGAAGGCTCACGTCACTCTAGCAGAGAAAGCGAAAAAACAAACGACAGTTGTAGTGGAATTAGATCCACCGAAAACGTTAGATACACAGCGTTTTTTTGAAGGAGCAAGAGCGTTAAAAAGAGCGGGAGCAGATGCTATTACTCTAGCAGATAATTCATTAGCATCGCCTCGCATCTCGAATATGGCAATGGGTGCGTTATTAACCAAGCATGATATCCCAGTATTGACACATTTAACGTGTAGAGATCATAACGTCATTGGACTACAATCTCATTTGTTAGGTTTATCGGCGTTAGGGATGGAAGAAGTGCTAGCTTTAACTGGTGATCCAGCGCGCGTTGGTGATTTTCCCGGTGCAACTTCTGTATATGATTTATCCTCTATTGAGCTCATTAAAATGATTAAAGAAATGAACGATGGACGTTCAATTTTAGGGAAATCAATTGGACCGGCGACAAGGTTTTCTGTAGGCGGCGCATTTAATCCTCACGTGAGGCACTTAAAAGCAGCGGTTAAGCGAATGGAACGAAAAATAGATGCTGGAGCGGAGTATTTTTTAACTCAGCCAATTTACGATATCGCGCTAATTGAAGAAGTGTATGAAGCGACAAAGCATTTGGAACAACCTATTTTTATTGGAATTATGCCGTTAGTAAGTAAGCGGAATGCAGATTTTCTTCATTTTGAGGTGCCGGGTATTACTCTTCCTGAAGAAATAAGAGAGAGAATGGATGGACACGAAACGAAAGAGGCAGCAATTGAGGAAGGGATTCGCATTTCGCAAGAATTAATCGACATAGCGATGAAATATTTTAATGGTATTTATCTTATTACACCATTTTTAAAGTATGAAATTACAGAACATCTTGTTAAATATGTAAGAGAAAAGCAAGAAGTGAAAGAAGGTATTAATTGA	MKLLDLLSKGIVIGDGAVGTLLHSHGLQSSFEELNVSDPDLIISIHKQYVAAGADVIQTNTYGANETKLRMYGLENQVTEINRAAVKLAKASVTDRNAILGTIGGMKHIGAVTTTDMEREFMLLEQAGALLEEQVDGLLLETFYDEFELLHAVKVLRKQTNIPIVAQLALHEAGTTQNGNDVNEILKQLIDCGANVVGLNCQLGPLHMTEAFKMISIPQNGYLSAYPNAGLPNYVEGRYVYEGSPAYFEAMTPRFIEQGIRLLGGCCGTTPEHIQSMKRAVANITPVIEKDTIQRPKVVHTHEKRSKAHVTLAEKAKKQTTVVVELDPPKTLDTQRFFEGARALKRAGADAITLADNSLASPRISNMAMGALLTKHDIPVLTHLTCRDHNVIGLQSHLLGLSALGMEEVLALTGDPARVGDFPGATSVYDLSSIELIKMIKEMNDGRSILGKSIGPATRFSVGGAFNPHVRHLKAAVKRMERKIDAGAEYFLTQPIYDIALIEEVYEATKHLEQPIFIGIMPLVSKRNADFLHFEVPGITLPEEIRERMDGHETKEAAIEEGIRISQELIDIAMKYFNGIYLITPFLKYEITEHLVKYVREKQEVKEGIN	PGPT0008140_401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008140-yitJ-K24042	NA	NA
AK009_06073	3399	metH	COG0646	Methionine synthase	ATGAAGTGTATAGAAGAAAAATTACAGAATAGCATTTTAATATTAGATGGGGCAATGGGGACAATGATTCAGCAAGAGGATTTAACTGCTGAAGATTTCGGAGGAGAAGAGTACGAGGGCTGTAATGAATATTTAGTAGAAACAAGACCAGACGTTATTTTAAAAATTCATAAAGCTTATATTGAAGCTGGAGCGGATATTATTGAAACAAATACATTTGGGGCAACGAATATTGTACTAAGTGATTATGAGCTGTCTCATTTAGATGAAGAACTAAATGAAAAGGCAGCACTTTTGGCGAAGCAAGCTGTTAAAGAAAGCGGGAAGGAAGTATATGTTGCAGGAGCAATGGGACCAACAACGAAAGCAATTAGTGTTACAGGTGGTGTGACTTTTGAAGAATTGATTGAGGCTTATACAAGGCAGGCACGAGGATTGTTAAAAGGAGAAGTTGATGTATTACTCGTTGAGACGAGTCAAGATATGCGTAACGTGAAAGCAGCTTATATTGGAATTCAAGCTGCTTTTGAAGAAATGAAAAAAACGGTTCCTATTATGATTTCAGGAACGATTGAGCCAATGGGAACGACTCTGGCTGGGCAAACAATTGAAGCTTTTTATTTATCAGTAGAACATATGAAACCATTATCTGTTGGATTAAACTGTGCGACTGGTCCGGAGTTTATGAGGGACCATATTCGTTCACTATCTGATTTATCGGAGTGTTACATTTCTTGTTATCCAAATGCAGGTCTTCCTGATGAAGATGGACATTACCATGAATCTCCATCTTCTCTTGCTGAAAAGGTGAAGCGATTTGCTGAAGAAGGATGGGTTAATATTATCGGTGGTTGTTGTGGCACGACACCAGAACATATAAAAGCAATGAAATCCGCGCTAGCATCTCTTAAGCCTCGTGACCATCATGAGAGAGAAGGACATGGAATTAGTGGATTGGAGGCACTGCAATACGATGAGTCTATGAGACCGTTATTTGTAGGTGAAAGAACGAATGTTATTGGATCACTTAAATTTAAACGATTAGTAGCAGAAGGGAAATTTGAAGAGGCTGCTGAAGTGGCAAGGGCGCAAGTGAAGAAAAATGCTCATATTATTGATATTTGTATGGCAGATCCTGATCGTGATGAAATAGAAGATATGGAGAAATTTTTGACAGAAGTTACGAAAGTGTTAAAAGTACCGATTATGATTGATTCAACGGATGAAAATGTTATGGCAAGAGCACTTACTTATATTCAAGGAAAAGCTGTTATCAACTCTATTAATTTAGAAGATGGAGAAGAGCGTTTTGAAAAGGTAACACCGCTTCTTCGTAAGTATGGTGCTGCAATTGTAGTTGGTACAATCGATGAAGATGGTATGGCAGTAAGTGCTGAAAGAAAATTAGAAATTGCAAAAAGAAGTTACGAATTATTAACGACGAAATATGGAATACGTCCGTCAGATATTATTTTTGATGCACTTGTGTTTCCAGTAGGGACAGGTGATGAAGAATATATTGGTTCAGCGGCAGCGACTATAGAAGGAATTCGTCTTATTAAAGAAGCGTTACCAGAGTGTTTAACGATTTTAGGTGTAAGTAACATATCATTTGGTTTACCACCAGCTGGACGTGAAGTATTGAATTCCGTCTTTTTATATCATGCTACGAAGGCTGGATTAGATTACGCGATTGTTAATACGGAAAAATTAGAACGCTATGCGTCGATTCCAGAGGAAGAAAAACACCTTGCAGATGCATTACTGTTTGAAACGACTAAAGAGACGTTAGAAGAATTTACAAACTTTTACCGAGTCGCTAAAAAGAAAGATGTCGTTGTGCAAGAAACGTTAACGCTTAATGAAAGACTAGCAAATTATATTGTAGAAGGTACGAAACAAGGATTACACGAGGATTTAAGTCTTGCACTTGAAGAAGGAAGAAAACCTCTTGATATTATTAACGGTCCGCTTATGACAGGGATGGACGAGGTAGGACGACTATTTAATAATAATGAACTTATTGTTGCTGAAGTATTGCAAAGTGCCGAAAGTATGAAAGCTGCTGTAAGTTATTTAGAGCCATATATGGAATCTAGTGATAGTGCGAAAAAAGGGAAAGTATTATTAGCAACTGTAAAAGGTGACGTGCATGATATTGGGAAAAATCTCGTTGAAATTATTTTAGCGAATAACGGGTATGAGATTATTAATTTAGGAATTAATGTACGTTCAGATCGAATTGTTCAAGAAGTACAAGAAAAGAATCCGGACATTATAGGACTTTCAGGTTTATTAGTAAAATCAGCGCAACAAATGGTAACGACTGCTGAAGATTTAAAAGCAGCAAATATTGATGTTCCCATTGTTGTAGGTGGTGCAGCGTTAACGAGAAAGTTTACAGATAATCGGATTTCACCATCATATAAAGGGCTCGTTTGTTATGCGAGTGATGCGATGACGGGGCTCGATATTATTAATAAGCTTCAAAAAGAAGAAGAGCGTGAGAAGATGAAACAGGATAAGAAAGAACGGCATCTTCATATCGTAAAAAAAGAGGAGAAGAAAGTAGAAATTCCAGCAGTAATTGAGCCATTACCAAAGGCTGAGGTTATCGTGCCTGATTCAACAAAACGAATTGTATTACGCGATATTCCCGCCCTTCATCTCGCTCCATTTTTAAATAGACAAATGCTACTTGGGCATCACCTTGGATTAAAAGGAAATGTGAAAAAGCTTTTGAAAGAGGGAGATAAGAGAGCGCATGAATTAAATGATTTAATAGATGAATTATTGCAAGAAGGACAATCTTGGTTAAAGCCAAAAGCAGTGTATCAATTTTTCCCAGCGCAAAGCGATGGACAAAACATTGTAATATATGATCCAGAAGATCATACGCGTGTTATAGAGCGTTTCACGTTCCCTAGACAAGGAAAGGCCCCCTATCGTACTTTAGGCGATTATTTGCGCCCAATTGGAGATGAGATGGACTATGTTGCTTTCTTATCTGTTACGGTTGGGGAAGGAGTTCGGGACATTGCTGAAGAGTGGAAGGCGAAAGGTGATTACTTACGTAGTCATGCCATTCAATCGTTAGCGCTTGAATTAGCAGAAGGACTTGCTGAAAAAACACATATGCTCATTCGTGACCGCTGGGGCATTCCAGACTCACCTGAACTGACGATGGAAGAACGTTTCCGTACGAAATATAGAGGAATACGCGTGTCATTTGGTTATCCGGCGTGTCCAGAACTTGCAGATCAAGAAAAGCTATTTCGCTTAATTCATCCAGAGGAAATAGGTATTTCATTAACAGAAGGATTCATGATGGAGCCAGAAGCGTCCGTAACGGCTATGGTATTTTCTCACCCTGAGGCAAGATATTTTAGTGTATTATAG	MKCIEEKLQNSILILDGAMGTMIQQEDLTAEDFGGEEYEGCNEYLVETRPDVILKIHKAYIEAGADIIETNTFGATNIVLSDYELSHLDEELNEKAALLAKQAVKESGKEVYVAGAMGPTTKAISVTGGVTFEELIEAYTRQARGLLKGEVDVLLVETSQDMRNVKAAYIGIQAAFEEMKKTVPIMISGTIEPMGTTLAGQTIEAFYLSVEHMKPLSVGLNCATGPEFMRDHIRSLSDLSECYISCYPNAGLPDEDGHYHESPSSLAEKVKRFAEEGWVNIIGGCCGTTPEHIKAMKSALASLKPRDHHEREGHGISGLEALQYDESMRPLFVGERTNVIGSLKFKRLVAEGKFEEAAEVARAQVKKNAHIIDICMADPDRDEIEDMEKFLTEVTKVLKVPIMIDSTDENVMARALTYIQGKAVINSINLEDGEERFEKVTPLLRKYGAAIVVGTIDEDGMAVSAERKLEIAKRSYELLTTKYGIRPSDIIFDALVFPVGTGDEEYIGSAAATIEGIRLIKEALPECLTILGVSNISFGLPPAGREVLNSVFLYHATKAGLDYAIVNTEKLERYASIPEEEKHLADALLFETTKETLEEFTNFYRVAKKKDVVVQETLTLNERLANYIVEGTKQGLHEDLSLALEEGRKPLDIINGPLMTGMDEVGRLFNNNELIVAEVLQSAESMKAAVSYLEPYMESSDSAKKGKVLLATVKGDVHDIGKNLVEIILANNGYEIINLGINVRSDRIVQEVQEKNPDIIGLSGLLVKSAQQMVTTAEDLKAANIDVPIVVGGAALTRKFTDNRISPSYKGLVCYASDAMTGLDIINKLQKEEEREKMKQDKKERHLHIVKKEEKKVEIPAVIEPLPKAEVIVPDSTKRIVLRDIPALHLAPFLNRQMLLGHHLGLKGNVKKLLKEGDKRAHELNDLIDELLQEGQSWLKPKAVYQFFPAQSDGQNIVIYDPEDHTRVIERFTFPRQGKAPYRTLGDYLRPIGDEMDYVAFLSVTVGEGVRDIAEEWKAKGDYLRSHAIQSLALELAEGLAEKTHMLIRDRWGIPDSPELTMEERFRTKYRGIRVSFGYPACPELADQEKLFRLIHPEEIGISLTEGFMMEPEASVTAMVFSHPEARYFSVL	PGPT0008135_2643	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
AK009_06074	1059	murG_3		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAAGAAAATAGTCTTTACAGGTGGCGGTTCGGCAGGACATGTAACACCTAATTTAGCCATTATCCCACATTTACAGGAAGACAACTGGGATATCTCTTATATTGGTTCTCATCAAGGTATTGAGAAAACGATTATAGAAAAGGAAGGCATTCCCTACTATAGTATTTCGAGTGGAAAGCTACGTCGTTATTTTGATTTGAAAAATATAAAAGATCCTTTTCTTGTAATGAAGGGTGTTATGGATGCGTATGTAAGGATTCGAAAACTAAAACCAGATGTGATTTTTTCAAAAGGCGGTTTCGTATCTGTACCAGTCGTAATTGGAGGATGGCTAAATAGAGTACCAGTTTTATTACATGAATCTGATATGACGCCAGGACTAGCAAATAAAATTGCGCTTCGTTTTGCTTCGAAAATATTTGTTACATTTGAAGAAGCAGCGAAGCATTTACCGAAAGAAAAAGTAATATATACGGGATCTCCTGTACGTGAAGAAGTGCTGAAGGGAAATCCTGAAACAGGTTTAGCATTTTTAGGTTTTTCACGTAAAAAGCCAGTTATTACGATTATGGGAGGCAGCTTGGGCGCGAAGAAAATTAATGATACGGCTCGAGAAGCATTACCAGAACTTCTTAAAAAGTATCAAATTGTTCACCTTTGCGGAAAAGGTAACCTTGATGAAAGTTTACAAAATAAAGAAGGATATAGACAATTTGAATATGTACATGGAGAACTGCCGGATATATTAGCGGTAACAGATTTTGTTATTTCACGCGCGGGCTCCAACGCAATTTTTGAATTTTTAACATTACAAAAGCCGATGGTTTTAATTCCATTATCGAAATTTGCAAGCCGTGGAGATCAAATATTAAATGCAGAGTCCTTTGAAAGGCAAGGGTATGCCTCCGTATTATATGAAGAAGATGTAACTGTAAAATCTCTGATAAAGTATGTCGAAGAATTGAATCAAAATAATGAGAAGTATAAAACAGCACTAAAAAAATATAATGGAAAAGAAGCAATTCAAACAATCATTCAAAATATTTCAGAGGCATGA	MKKIVFTGGGSAGHVTPNLAIIPHLQEDNWDISYIGSHQGIEKTIIEKEGIPYYSISSGKLRRYFDLKNIKDPFLVMKGVMDAYVRIRKLKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIFVTFEEAAKHLPKEKVIYTGSPVREEVLKGNPETGLAFLGFSRKKPVITIMGGSLGAKKINDTAREALPELLKKYQIVHLCGKGNLDESLQNKEGYRQFEYVHGELPDILAVTDFVISRAGSNAIFEFLTLQKPMVLIPLSKFASRGDQILNAESFERQGYASVLYEEDVTVKSLIKYVEELNQNNEKYKTALKKYNGKEAIQTIIQNISEA	PGPT0024150_4660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
AK009_06076	261			hypothetical protein	ATGAGGCGTGAAAATACGAATGGATTAGGAGTGACTGTGTTGGAGCTAAGTCTCTATGAAAATACTGCACTTATTATATGCTTTGTGTTGTACGTTGGTAGTGTTATTGTTTATATTTCAAGGAAATTTTCGCAAGAAAGAGAGCTTGAAAAGTCAGAGATAACAGCTGAACTAGAAATGTTAGCTGATGAAAGTTATAAAAAACAAAAAATAAAAGAAGACCATGAAGCATCCCATCATTTAAACGCAAATAAGTTTTAA	MRRENTNGLGVTVLELSLYENTALIICFVLYVGSVIVYISRKFSQERELEKSEITAELEMLADESYKKQKIKEDHEASHHLNANKF				NA	NA	NA	NA	NA
AK009_06077	375			hypothetical protein	ATGAATTTTTATATCGCCTCAGGTTTCCAAAATAAACATCTGGTATGTTCCGTAGCAAATGAACTGAAACATGCAGGATGGCACCATACATATGATTGGGCCAAAAACGAAAGAGCAGCGAATCAAGAACAATTAAGAGAAATTGGTCAGGCAGAACAAAATGCTGTAAAAGAAGCGGATGTGTTTTTACTTATATTAGATGGCGGAAACGGGAGCCATACAGAGTTTGGAATGGCGATTGCGCTAGAGAAAACGATATATGTATATCATGCAGGAAATCCGCTCCAAACAACGTTCTATCACTTGCCAGAAATAAATATTTTTGAAGGAGATGTAGCTGAGTTTGCATCTTATGTTATGAATCATGTGAAATAA	MNFYIASGFQNKHLVCSVANELKHAGWHHTYDWAKNERAANQEQLREIGQAEQNAVKEADVFLLILDGGNGSHTEFGMAIALEKTIYVYHAGNPLQTTFYHLPEINIFEGDVAEFASYVMNHVK				NA	NA	NA	NA	NA
AK009_06078	489			hypothetical protein	ATGAAATTAGAAAATGGATGGGAAACGAGCTTTTTAGAAGTCGTACAAAATAGTGAATTTAAGAAAGAGGCACTTCTTAGTCAATTGCTTTGTCAGGATAGTGAAGAAGTAGAAGAGCTTGTGGATGATTACGGCTACGAAGAACTTGTTGAACGTGAACATGATGATGAGTTAGCTGAAATCTTAGGAGAAGAACTTTTTAGTGAGATGGAACGCCAAGTATTCTTATCTTCAAACCCAGAAGAAAAACTTATTGCATTCGTCAATGGATTAGGTTTTCATGTGTTAGATTGGATCGTTCTTCTTGAAACAGAATTTGGAATTGATAGTGCAAACTTTACATCAGATGCTGTAAAGGTGTTAGAAAAGCGTTTCAGACAGTTTCCGTACATAGAGGACAATACAATTTTTGATATGACATTTGGAGAATCGATGGATGTATTAGAATCTGTTACAGGATTACAACTAAAGGAAAAGATGAACATATAA	MKLENGWETSFLEVVQNSEFKKEALLSQLLCQDSEEVEELVDDYGYEELVEREHDDELAEILGEELFSEMERQVFLSSNPEEKLIAFVNGLGFHVLDWIVLLETEFGIDSANFTSDAVKVLEKRFRQFPYIEDNTIFDMTFGESMDVLESVTGLQLKEKMNI				NA	NA	NA	NA	NA
AK009_06079	312			hypothetical protein	ATGAATACAAAAATGATAAAAAAAGTAATTGAAGCATTAAAAGTATATGGCTTTCAGGATGTATCATTCTGTGACAAAACGAGGCAATTTTTATTTCATAACGAAACCGATATTATGAGCGGCTATGCAGAAATAACATATAGTAGTCAATTTGAAAAATTCAACGTACAAATTCATCCAATTGAAACACATCACCAAGCAGAGTTACAAGAGGTTGAAAGACATATACAAGCTTGTATAAGAAAAGTGGAATATTTAAACGCACTTCTTACCGGGCAGACAAAACTAGATGATAAAATTATTATTATGTAA	MNTKMIKKVIEALKVYGFQDVSFCDKTRQFLFHNETDIMSGYAEITYSSQFEKFNVQIHPIETHHQAELQEVERHIQACIRKVEYLNALLTGQTKLDDKIIIM				NA	NA	NA	NA	NA
AK009_06080	216			hypothetical protein	TTGAACTTTGATATTGTAGGACAAAAAGCATATATAAAAGATGGACCGCATCGGAACCGAATTGGAATTGTAAAGAAAAACGAGACAAAATTAGCATCGCAGTTTGCTATTGTAATTGGAGAACAAATCATTGATGTAGAGCTAAAGGATATCGTGTTAGTTGGAGTAGACGTAGGACAATTTCATAAATGGTGCGAACAAAATGGTTATTTGTGA	MNFDIVGQKAYIKDGPHRNRIGIVKKNETKLASQFAIVIGEQIIDVELKDIVLVGVDVGQFHKWCEQNGYL				NA	NA	NA	NA	NA
AK009_06081	393			hypothetical protein	ATGAAGTATACAGAACGAGATTTTACACTGGAATTGAAAGAGAAAATTCAATGCATGGAGAAGGAAATAGAACGGATATCACTTAAATTTTATAAAGAGTATTCGCATTTATACATAGAAAAAAACATGGAATTAGATATGGGATTTGCAAGAGAAAAAGAGAATCCCTTTGAGGTGGGTTATTATTCATCAGTTGCTATAGCTATATTAGATGAAGAAAAAGAGATGATTGGATTTTACAATATACCAATTTGGAAATGCGAAAGAATCTTTTTAGGAATGCCAATTCAATCAAACATTTTGGGTAGTAAGAAAGTAGGGGAACTCGCTGATGAATCTTGTTATGAGATTGAGGAAGAGTTAAAAGAGCAATTAAAAGAATACTTGGAGTGA	MKYTERDFTLELKEKIQCMEKEIERISLKFYKEYSHLYIEKNMELDMGFAREKENPFEVGYYSSVAIAILDEEKEMIGFYNIPIWKCERIFLGMPIQSNILGSKKVGELADESCYEIEEELKEQLKEYLE				NA	NA	NA	NA	NA
AK009_06082	1395	tcyP	COG1823	L-cystine uptake protein TcyP	ATGAATACACTGCTTGTCGGAATTAACGTTGCAGTCATGCTCATCTTAGTTGGCGTATTATATTATATGCAACGTAAGCATGTATCTTTTAATAAACGTGTATTTACCGCTTTAGGAGTCGGAATTTTATTCGGTCTTATATTACAATTCATTTATGAGCCAACTTCTAAAGTAATTATTGAATCAAATACTTGGTTTGGCTTAATTGGTAACGGTTATGTGAAATTACTTCAAATGATCGTTATGCCACTTATTTTAGTATCTATTATTTCAGCATTTACAAAATTACAGTTAACGAAAAACCTTGGTAAAATTAGTGGTCTTATTATTGGAATTTTAATTCTTACTACAGGAATCGCTGCAGCTGTCGGTATCGCTGCAAGTGCAGGATTTGATGTATCTGCAACAGGCTTGCAACAAGGTGATGCAGAATCTGCTCGTCTGAAACTAGTTGAAGAAAGATTTACTTCTATTGAAAAGACAACAATTCCAGATAAATTATTAGAGCTATTGCCTACAAATCCGTTTCTTGATTTAACAGGCGCTCGTCCAACATCAACAATTTCTGTCGTAATATTTGCAGCCTTTATCGGCATTGCCTTTATAGGTGTAAAACGAAAATATCCAGAACAAGCAGAGCTATTTAAGAAAATGCTTGATGCTGTATATGCAATCGTAATGCGTATGGTAACATTAATTTTACGCCTTACTCCATACGGCGTATTAGCTCTTATGGCAAAAACAGTTGCTGGTAGCGATATAAATGCTATTTTAAAGCTTGGTAACTTCGTGTTAGCCTCTTATGTAGCACTTATCGTAATGTTTATCATTCACTTATTATTAATTGCATTGTCTGGTTTAAATCCAATTCAATATTTGAAAAAAGTGTTCCCTGTACTAACTTTTGCATTCACATCTCGCTCTAGTGCTGGTGCGATGCCATTAAATATTGAAGCTCAAAAAGAAAAGCTTGGTATCTCCGAAGGAATTGCAAACTTCGCAGCTTCATTTGGGGTATCTATCGGACAAAACGGTTGCGCAGGTATTTATCCAGCAATGCTTGCAATGATGGTCGCTCCAACTGTAGGAATTGATCCATTACAACCACAATTTATTTTAACTTTAATCGCTGTTGTTGCTATTAGCTCATTCGGTGTTGCCGGAGTTGGTGGCGGTGCAACATTCGCAGCTTTAATCGTACTATCTACAATGAACTTACCAATCGGTATTGTTGCTCTAGTTATCTCAGTTGAGCCATTAATCGATATGGGTCGTACAGCTCTTAACGTAAGTGGTTCTATGACAGCAGGTCTTATTTCAAGTAAATGGCTTGGTGAATTAGATCAAGATACGTACAATCAAGACGATACAAAAACTGGTGAAATTGCTTCATAA	MNTLLVGINVAVMLILVGVLYYMQRKHVSFNKRVFTALGVGILFGLILQFIYEPTSKVIIESNTWFGLIGNGYVKLLQMIVMPLILVSIISAFTKLQLTKNLGKISGLIIGILILTTGIAAAVGIAASAGFDVSATGLQQGDAESARLKLVEERFTSIEKTTIPDKLLELLPTNPFLDLTGARPTSTISVVIFAAFIGIAFIGVKRKYPEQAELFKKMLDAVYAIVMRMVTLILRLTPYGVLALMAKTVAGSDINAILKLGNFVLASYVALIVMFIIHLLLIALSGLNPIQYLKKVFPVLTFAFTSRSSAGAMPLNIEAQKEKLGISEGIANFAASFGVSIGQNGCAGIYPAMLAMMVAPTVGIDPLQPQFILTLIAVVAISSFGVAGVGGGATFAALIVLSTMNLPIGIVALVISVEPLIDMGRTALNVSGSMTAGLISSKWLGELDQDTYNQDDTKTGEIAS				NA	NA	NA	NA	NA
AK009_06083	243			hypothetical protein	ATGGATCGCATGTTTCGCGTTCTCGGCTTTTGGACTGGAATTTTCTCGGTTATGTTTTACGTAGGAGATATGCAACAGGCTGCACTACTATTTTTAGGACAAACAGGTTTCTTCGTACTTTTAAGCTATTTAAAATTAACAGAGCGTATGTATATATACGTATTCGGGGCATATTTAACTGTTTTCTTCATAGGATTTACATACTACACGACATTTTTACTTGTCCCTGGGGCTGGACATTAA	MDRMFRVLGFWTGIFSVMFYVGDMQQAALLFLGQTGFFVLLSYLKLTERMYIYVFGAYLTVFFIGFTYYTTFLLVPGAGH				NA	NA	NA	NA	NA
AK009_06084	696			hypothetical protein	ATGGAACAAGCTTTAAAAATTACAGGTGTTTTAGCTGACCCAACTCGTTATTACATTTATAAATATATTTCGCAAAAACATAGTTACGTAACTGTACAAGAAATTGCAGATGAATTCGATATTCATCCAAACGTAGCACGTTTACATTTATCTAAATTAGAAGATGTTCATATGCTTAAATCGGAAACAAAGAAAACTGGAAAAGGCGGAAGACCAAGCAGATTATATGTCTTATCTGAAGATGTTATTCAATTGCAATTTCCATTCCGTGATTATCAATTGTTAGCAAGAATAGCATTTAATTCTTTACTTAGCCTTGGCGCTGCTGGTGAGAAAGCGCTATACGAAACAGGAAAACAATTCGGGGCCGAATTAATGCAACAACATATGCAACGTTTAAATGTGAGTGAAGATGCTTTAACAGTAGAACAAAAAGTTCAAATTGCAAAAGAAGCTTTCTCAACAGCCGGCTTATCACCTGCATTTGAATTAAGTGCAGATGGAACAAAAATTTTCTATGATGTACACAATTGTCCATTTAAAGAAGTGGCTGTTCATCATCCAACTGAAATTTGTAACATGCACGGAGATATGATGAAAGGAATTTTTGAAATCCTATTCCCTAACATGGAATTAACTCGAAATGATAGTCTATTAGATGGATGTAAATCTTGTAATTATAAACTAACAATTTAA	MEQALKITGVLADPTRYYIYKYISQKHSYVTVQEIADEFDIHPNVARLHLSKLEDVHMLKSETKKTGKGGRPSRLYVLSEDVIQLQFPFRDYQLLARIAFNSLLSLGAAGEKALYETGKQFGAELMQQHMQRLNVSEDALTVEQKVQIAKEAFSTAGLSPAFELSADGTKIFYDVHNCPFKEVAVHHPTEICNMHGDMMKGIFEILFPNMELTRNDSLLDGCKSCNYKLTI				NA	NA	NA	NA	NA
AK009_06085	1044	comGA	COG2804	ComG operon protein 1	ATGAATGGGATTGAAATTTTTGCTAATACAATTTTAAAAGAAGCGTGTAGGGTACAAGCGTCAGATTTACATATTGTGCCCCGGCAGAAGGATGTAGCGGTGCAACTACGTATAGGAAAAGATTTAATGACGAGACAATGTATTGAAAAGGAGTTTGGAGAAAAACTTGTCTCACATTTTAAATTTTTAGCATCTATGGATATAGGAGAGAAACGGAAGCCACAGAATGGTTCGTTGTATTTGCAAATTGATGGACAAGAAGTGTATTTACGCCTTTCAACACTTCCAACAGTATATCAAGAAAGTCTCGTTATTCGCCTTCATTTACAAGCATCTGTTCAGCCCTTATCACATCTTTCGTTATTTCCAAGTACGGCAGCAAAACTACTCTCGTTTTTACGCTATTCACAGGGGCTACTCGTGTTTACTGGACCGACTGGTTCTGGGAAGACAACGACAATGTATGCATTATTAGAGGTAATTAGAAAAAAGAAAACACGTCGTATCATTACACTTGAAGATCCGGTTGAAAAAAGAAGTGACGATGTATTACAAATTCAAATAAATGAAAAAGCGGGTCTTACATATGAAACAGGATTAAAGGCTATTTTACGTCATGATCCAGATATTATTTTAGTCGGTGAAATCCGTGATGAAGAAACAGCAAAAATAGCTATAAGAGCAAGTTTGACAGGACATTTAGTAATGACAACGCTGCATACGAATGATGCGAAAGGAGCAATCATTCGTTTCATGGATTATGGTATAACGAGGCAAGAGATTGAACAGTCTTTATTGGCTGTAGCTGCACAGCGACTTGTCGAATTGAAATGTCCGTTTTGCAGAGGGAAGTGCTCAACTTTATGTAAATCAATGAGGCAAGTAAGGCAAGCAAGCATTTATGAGCTGCTATATGGGTATGAGTTAAAACAAGCGCTTAAAGAAGCGAATGGAGAATGTGTTACTTACAAACATGAGACTTTAGAATCGTCAATACGAAAAGGATATGCTTTAGGGTTTTTAGAAGATGATGTTTATGTTTAA	MNGIEIFANTILKEACRVQASDLHIVPRQKDVAVQLRIGKDLMTRQCIEKEFGEKLVSHFKFLASMDIGEKRKPQNGSLYLQIDGQEVYLRLSTLPTVYQESLVIRLHLQASVQPLSHLSLFPSTAAKLLSFLRYSQGLLVFTGPTGSGKTTTMYALLEVIRKKKTRRIITLEDPVEKRSDDVLQIQINEKAGLTYETGLKAILRHDPDIILVGEIRDEETAKIAIRASLTGHLVMTTLHTNDAKGAIIRFMDYGITRQEIEQSLLAVAAQRLVELKCPFCRGKCSTLCKSMRQVRQASIYELLYGYELKQALKEANGECVTYKHETLESSIRKGYALGFLEDDVYV	PGPT0029440_140	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
AK009_06086	1041	epsF	COG1459	Type II secretion system protein F	ATGATGTTTATGTTTAAGAAAACTTGGAGTTTAAGTAATCAAGTAGTATTGTTGAAACGTTTAGGAGAATTATTAGAAAAAGGCTACTCTCTTTTACAAGCATTAGAATTTTTACAGTTTCAATTACCTGTAGAAAAGAAAGTACAATTGCAACGCATGGTTGAGGGATTAAAAGATGGGAAAAGTCTACACGATTCTTTTCATCAGTTAAGGTTTCATCAGGACATGTTAAGTTATTTATTTTATGCCGAGCAACATGGTGATATTTCTTTCGCTTTGCAACAAGGAAGTGCACTTCTTTATAAGAAAGATAAGTATAGGAGAGACATGATGAAAATAATGCAGTATCCTATGTTTTTGGTGTTTTTTCTACTAATCATGCTTTTTATTTTCAACCTCATCTTATTACCTCAGGTTGAAATGGTTTATAGTTCGTTCGGTTCTAATACACCACTACTTACAGAACAAATTTTAAGTGCAATAAAAATGCTACCTTACATTATTTTAACCGCTATTGTAACTGTTATTATTGGATGTAGTTTATATATGTTGTATTTTAGGAAACTTCCACATATTAGACAGGTAAAAATCATGCATCGTATTCCCTTCATCAAAACATTTCTTATTTTAAAGCATTCACATTATTTTGCTACTCAGTTGAGTGGTTTATTAAATGGTGGACTATCAGTATGCGAAGCTTTAACAATAATGATGGAGCAAAGATATCATCCGTTCTTTCAATATGAAGCGAGCCGAATTGAAAGACAATTAATTGGAGGAGAACAGTTACAATCTATCATTGCTAAAAGTGGGTATTACGAGAAAGAACTTTCTTATGTTATTACGCATGGACAAGCAAACGGTAATTTAGCGATTGAATTAGGTGACTATAGCGATCTTATTATGGAAAAGATGGAACGGAAAATTAAACATATGGTAGTTATCATTCAGCCTATTTTATTTACATGTATTGGAGGAATCGTTGTCCTTATGTATTTAGCGATGATTATGCCGATGTTTCAAATGATGAATTCTATTTAG	MMFMFKKTWSLSNQVVLLKRLGELLEKGYSLLQALEFLQFQLPVEKKVQLQRMVEGLKDGKSLHDSFHQLRFHQDMLSYLFYAEQHGDISFALQQGSALLYKKDKYRRDMMKIMQYPMFLVFFLLIMLFIFNLILLPQVEMVYSSFGSNTPLLTEQILSAIKMLPYIILTAIVTVIIGCSLYMLYFRKLPHIRQVKIMHRIPFIKTFLILKHSHYFATQLSGLLNGGLSVCEALTIMMEQRYHPFFQYEASRIERQLIGGEQLQSIIAKSGYYEKELSYVITHGQANGNLAIELGDYSDLIMEKMERKIKHMVVIIQPILFTCIGGIVVLMYLAMIMPMFQMMNSI	PGPT0029445_360	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
AK009_06087	300	comGC	COG4537	ComG operon protein 3	ATGCAGAATGAGGAAGGATTTACTCTGTTAGAGATGCTATTAGTAATGGTTGTCATAACTATATTATTACTATTAATTATTCCGAATGTAGTTACACAGCGCTCATCGATCCAAGGAAAAGGGTGTGCAGCTTACGTGAAATCTATAGAAGCGCAAATACAAGTATATCAATTACAACATAATAAAATTCCATCGTTAAAAGAACTGATAGATGAAAAGTATATTACAATTGATAAGTGTCCGAATGGCGAATCTATTCATATTTCAGATGATGGCACAGTATCAATTAGGACATTGTGA	MQNEEGFTLLEMLLVMVVITILLLLIIPNVVTQRSSIQGKGCAAYVKSIEAQIQVYQLQHNKIPSLKELIDEKYITIDKCPNGESIHISDDGTVSIRTL	PGPT0029450_389	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
AK009_06088	456			hypothetical protein	GTGAAACAACAGGGGTTTACTTTTTTAGAGATGTTACTCGTTTTATTTGCTATTTCTATATTGAGTATAGTTACGTATTTTAGTGTTCATTCCTTATACGAGCGACAAAAAGTTGAACAATTTTTGAGACAGTTTTCAAATGATGTTTTGTATATGCAGCAATTAGCGATAAACCGTCAAAAGCACTATACATTACGTTGGTATAAAGATAGAAATTTGTATGCTATAAAAGAGTTAGGTACAAAGTATTATATCGTCAAGCGGGAGTATGAAGAAGATATACAAATTGATTTGCATACGTTTCCAAACCCGATGACATATAATCCAAGTGGAAATATTAATAGAGGTGGTACGATTATAATTTCGTATCGAAATTATAAATATGAAATTGTATTTCAGCTTGGAAGAGGGAGATTTACGTATCGTGAAATGTCAAAAAGGGTCCATAATGGCTGA	MKQQGFTFLEMLLVLFAISILSIVTYFSVHSLYERQKVEQFLRQFSNDVLYMQQLAINRQKHYTLRWYKDRNLYAIKELGTKYYIVKREYEEDIQIDLHTFPNPMTYNPSGNINRGGTIIISYRNYKYEIVFQLGRGRFTYREMSKRVHNG	PGPT0029455_59	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
AK009_06089	303			hypothetical protein	ATGGCTGAAATGATTGTGTCGTTAAGTGTTTTAATGATGGCTGTATCGTTACTACTACCGCAAACAGTATTAGTTATGCAAGAAAGAAAAAATATACAAATTCGTTATAAGGCATCTGGGTTATTAAAAAAAGAAGCAGCTATATATATGTATGGAAATGAAGAAAAGCGAATAATAGAAAAGAATATGAATGGAATTGTGTATTACACATATTGGGGAGGCAATGAAGTTTGTACCATGTGGAGAGATGTGAAAGAAAGAATGGTGGAACAATGCTTTTATGTAGGAGAAAAAGTAAATTAG	MAEMIVSLSVLMMAVSLLLPQTVLVMQERKNIQIRYKASGLLKKEAAIYMYGNEEKRIIEKNMNGIVYYTYWGGNEVCTMWRDVKERMVEQCFYVGEKVN	PGPT0029460_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029460-comGE-K02247	NA	NA
AK009_06090	471			hypothetical protein	ATGCTTTTATGTAGGAGAAAAAGTAAATTAGAATTTGGTTTTTCATTAATAGAAATGATTGTATGTCTGTTTCTATTATCAATATTTTTTTTGCTCTTTCCCCGCCTACATTTCATTGAAATGGAAAATAAACAGTCAAAAGGATTAAATGATTGGGAGTGGGATGTGTTTTTAGGTCAAACGCAATTGGAGTTTCGTGAAGTATCATCTGGAGAACAGCTAGCATTTGAAAATGGAGAAAGTATTTTAAGATTCCGATCGCGTAATGGGAGTGAAGTATCATATGAAAAAGAGAATAGTCGTCTTATAAGAAAGGTAAATAGGCGTGGGAGAGAAGTTGTTTTACAAAATATTGGAACGGTTTCTTACAAACTAACACCTCATGTACTCATTATAAATGTGAAAGATACTAGTGGGAAAATATATGAAGGGGTAGTTATGCGATATAGTGAAATGGAAATGAATGTATGA	MLLCRRKSKLEFGFSLIEMIVCLFLLSIFFLLFPRLHFIEMENKQSKGLNDWEWDVFLGQTQLEFREVSSGEQLAFENGESILRFRSRNGSEVSYEKENSRLIRKVNRRGREVVLQNIGTVSYKLTPHVLIINVKDTSGKIYEGVVMRYSEMEMNV	PGPT0029465_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029465-comGF-K02248	NA	NA
AK009_06091	372			hypothetical protein	ATGAGAGGGCAAAATGGGTTTACAATGCCTGGAACGATCATCTTTCTTATTTTATTAACTTCTTTTTTTATATACGAAACCAATATGCTGCTTACAGATAAAAATTTTTATATGGAAATAGAACAAAAGTTTTTACTGGATGAACTACTTAACCGATCTATTACAGATATAAAAAAAGACTTACAGCAAAAAGAAAAAGAAGGTGCATTTTTCTTTCAGTATGAAAAGGGAGAAGCGAGTGGGAATTATGTTTTTGAAAATGATTCAATTTTCGTTGCGTTGCAGTGCAAACTCAAACAGGAAGCTTTCTATACGGTGAGCTTTCGGTATAGAAAAAAGGATGGAAAAATAGTCGATTGGATAGAAGGATAA	MRGQNGFTMPGTIIFLILLTSFFIYETNMLLTDKNFYMEIEQKFLLDELLNRSITDIKKDLQQKEKEGAFFFQYEKGEASGNYVFENDSIFVALQCKLKQEAFYTVSFRYRKKDGKIVDWIEG				NA	NA	NA	NA	NA
AK009_06092	747			hypothetical protein	ATGATTAAAAGTTTAAATTTTCTCAAAAAAGAGAAAGGTAGAAAGAATGTGATATATTCATGCTATCCAATCATTATTTTTAGGGAGAATAGGGAAATGACAAACAACAATCAAATAGGTGAAAATAAGGAACAAACTATTTTTGATCATAAAGGAAATACGATTATGACAGAAGATAGAGAAATACACATTATTTCAAAATTCGAAGAACCTCTTATTGTCGTATTAGCAAATGTACTAAGTGATGAAGAGTGTGATAAATTGATTGAAATGTCTAAAAATAAAATGAAGCGTTCTAAAGTTGGTTCATCACGTGATGTAAATGATATTCGAACAAGTAGCGGTGCATTTTTGGAAGACAATGAACTTACTTCAAAGATTGAAAAACGAATTTCATCTATCATGAATGTTCCTGCGTCGCATGGTGAAGGATTGCACATTTTAAATTATGAAGTGGATCAACAATATAAAGCACACTATGATTATTTTGCGGAACATAGTAGATCAGCTGCTAACAATCGTATTAGTACGCTTGTAATGTACTTAAATGATGTAGAAGAAGGCGGGGAAACGTACTTCCCGAAATTAAATCTTTCTGTACATCCTAGAAAGGGAATGGCAGTATACTTTGAGTATTTTTATCAAGATCAATCACTAAATGAGCTTACGTTACATGGAGGGGCACCTGTAACGAAAGGCGAGAAATGGATTGCAACGCAGTGGGTGAGAAGAGGTACTTATAAGTAA	MIKSLNFLKKEKGRKNVIYSCYPIIIFRENREMTNNNQIGENKEQTIFDHKGNTIMTEDREIHIISKFEEPLIVVLANVLSDEECDKLIEMSKNKMKRSKVGSSRDVNDIRTSSGAFLEDNELTSKIEKRISSIMNVPASHGEGLHILNYEVDQQYKAHYDYFAEHSRSAANNRISTLVMYLNDVEEGGETYFPKLNLSVHPRKGMAVYFEYFYQDQSLNELTLHGGAPVTKGEKWIATQWVRRGTYK	PGPT0020375_2733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020375-P4HA_like-K00472	NA	NA
AK009_06093	498	aroK	COG0703	Shikimate kinase	ATGAAATCTATATACATAACCGGCTACATGGGAGCAGGGAAAACAACAATTGGAAAAGCGTTAAGTAAAGAACTTCATATGGATGTTGTAGATACTGATCAAAAAATCGAAGAGAAGCAAGAGAAGGCAATTCGAAATATTTTTGCCGAAGAAGGCGAAATGGCTTTTCGGGAATATGAAAGCGAAATGTTGCGTTCGCTACCAGTCCATAATGTCATTATTACAACTGGTGGGGGAATTATTGAACGAGCGGAAAATCGCAAGTGGATGAAAGAGAACGGAACTGTCGTGTATTTATATTGTGATCCGCATGTAATTGCAGAAAGGCTTCGTGAAGATACGACACGTCCACTATTTCAAAAGAAAGATATAGATGCATTCGTAACGAAATTTGAATCACGCCGAGCTTATTATGAAGAGGCTCACATTCATATCGATACGACAAATAAGTCTGTAAAGCAAATTATGAATGAATTAAAGGAAAAGATTAATGTATAA	MKSIYITGYMGAGKTTIGKALSKELHMDVVDTDQKIEEKQEKAIRNIFAEEGEMAFREYESEMLRSLPVHNVIITTGGGIIERAENRKWMKENGTVVYLYCDPHVIAERLREDTTRPLFQKKDIDAFVTKFESRRAYYEEAHIHIDTTNKSVKQIMNELKEKINV	PGPT0012900_4567	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
AK009_06094	201			hypothetical protein	ATGTCTACTAATGATTATGTTCGCTTTGTGACGCAGCAGTTTGTGTCGTATATGGATGCTCCAAAAGAAGATCGAAAACAAAAGAAAGAACAACGCCGTGCTGAAAAAGAGCCATTTATGAATAAGTGGTTTGGTGTTATGCCGCTGAGTGCTGCTTTGTTTTACCGAAATGTAAAAAGTAAAAGAAAAAAATCAAGTTGA	MSTNDYVRFVTQQFVSYMDAPKEDRKQKKEQRRAEKEPFMNKWFGVMPLSAALFYRNVKSKRKKSS				NA	NA	NA	NA	NA
AK009_06095	633			hypothetical protein	ATGAATCAAAATAAAAAAGCTATATTAGATCTTGTCTTTTATCTCGTAATCCCATTCCTCATTTGGAAATTTGCAAAACCTTATATCGATCCTTATTACGCGATGTTACTTTCCTCTGTTCCGGGGATTATTTATACACTGTATACCTTTAAAAAAGAAAAACAGTTTAACGTGACAGGGTTCTTTATTTTAATTACACTCATTTCTAATACAACGGTAGATTTATTATCTGGTTCAGCTGAACGAATGTTGTGGAATGATGCATATTATCACATCGTACTCGGTATTATCGTCATCTGTACAATTTTCATAAAAAAACCACTCATGTTATATTTCGCTGCGGATATTGCAGCGCTGCAAGGCCATGATCGCGATAAAAGTCGTGAGCTTTATCGTGATAGTCGTATATATCCAGCACTGCAATATTTAACGTTATTTTTCGGGCTACAATTTATATTAAAAAGCTTTTTAAAAATTTATTTCATCTCTGTTTTTGGTGTAGATGGCTATGGTGAAATGAGAGCGATTATGACCGCTGTAGGCTGGGGCATTTCTATTTGTATCGGAATAGGATTTGTATGGGTGAACAATAAAATACATGCCGTTACGGAAGAACAAGAATCCGTGCAGTAA	MNQNKKAILDLVFYLVIPFLIWKFAKPYIDPYYAMLLSSVPGIIYTLYTFKKEKQFNVTGFFILITLISNTTVDLLSGSAERMLWNDAYYHIVLGIIVICTIFIKKPLMLYFAADIAALQGHDRDKSRELYRDSRIYPALQYLTLFFGLQFILKSFLKIYFISVFGVDGYGEMRAIMTAVGWGISICIGIGFVWVNNKIHAVTEEQESVQ				NA	NA	NA	NA	NA
AK009_06096	228			hypothetical protein	ATGAGTAAATTTTTCTTCAATCATAATCCAGCAACAGTAGAGGATGGAAGGCTTGTTAAATATGCTGAAATTATTTATGGAGAAGGTGGCCGTTCTGTATTAGAAAATTTAATGGTGAAGGCATCTATCAGATTGCGTGATCGTTATCCGAATAAATCTGACGAGCAGATCTCGAACCTAGTAAATAAAGGCATCCATGATATGTTTCAAAAATATGTGAGCGAGTAA	MSKFFFNHNPATVEDGRLVKYAEIIYGEGGRSVLENLMVKASIRLRDRYPNKSDEQISNLVNKGIHDMFQKYVSE				NA	NA	NA	NA	NA
AK009_06097	132			hypothetical protein	ATGAGCAATGGAATTGGACGTTCGAAAGAAAATCTTCCAACTGATGCAAATCATGTGAGCGCGAAGGATCGTGCGTATCAAAAACGCATGGCAAAGCAAAAACAAAAAGAGCGTAATGAGGATAGAGAGTAA	MSNGIGRSKENLPTDANHVSAKDRAYQKRMAKQKQKERNEDRE				NA	NA	NA	NA	NA
AK009_06098	798			hypothetical protein	ATGCAGCAACATGAAATTCATAATTACTTATACAATTTCTTTGAGGCGAATAACTGTGAAATTTTAGAACGTTCTCCTCATTTATTAGATGTACAGTTAACAATTGAGATGGATAAATTATTAATGAATCGCCCTTTTTATTGGCACTATCTTGAGAAAACAGGAGGCGTACCGAATCCGATGCGCCTTACTCTTATTACAAATCCAGAAAATGAAGAAAATGATGGTGAGCTTATTCACTACGGTTCACCACGTCTACATCAAATTTTCCAAACGACAAAAGAATTAGGCTCATACATACGTTTATATGAGGATGTAAGACATAATGGAGCAACACATACACCGCTCCACCCTTGGCTCGGTATTAATATAAAAGTTTCCTATCAATGTGATCGAAAAAAAGACATCCTTCACTCGATTGGTATTCATCTCATTTCTGGAACAATGATGGCAAACTTTCATGAAACATTAACAAACATTAAACTTACACCAAAAATACCTGATTTTTGTTTTACGCTCTCGCCCATCATTAAACCTCAAAGTGGTTTACAACGCATAGAAGACGCTTTAAAAAATATAATTGCAGAAGATGACCATACATGGGCAAAAGAAGCAAGAGTGCGTTGGAATCATGATTTAGACCTTTTAAACCGTTTTTATGAAGAAAGTGACGAACTTCCTGAGAGCTATGAAATTGAAAAACAAGCTCTGCAAGAACAGTATGAACCACGTATTACAGTGCAAATTATTAACGGTGGACTCTTTTATGTTACCGCGAATCATTTTCTATCAAAATAA	MQQHEIHNYLYNFFEANNCEILERSPHLLDVQLTIEMDKLLMNRPFYWHYLEKTGGVPNPMRLTLITNPENEENDGELIHYGSPRLHQIFQTTKELGSYIRLYEDVRHNGATHTPLHPWLGINIKVSYQCDRKKDILHSIGIHLISGTMMANFHETLTNIKLTPKIPDFCFTLSPIIKPQSGLQRIEDALKNIIAEDDHTWAKEARVRWNHDLDLLNRFYEESDELPESYEIEKQALQEQYEPRITVQIINGGLFYVTANHFLSK				NA	NA	NA	NA	NA
AK009_06099	1683	rapA_4		RNA polymerase-associated protein RapA	ATGAATGTCGATATTTCCGTAGATCGGACGTGGCAAAACAATTTTTTAAATAGAATTGATGAAGATGGTCCTTGGACAAACTGGGATTTATATCACTTAGCTTATGAAACAGAAAAATCGTTACTTGTTCCTACTTTTGATGGACTACAAGCACCGAAACATTTATCCCATTTCACGCCGCTTCCGCATCAATTAGAAGTCGCTCAAAATGTAATTGAACAAATGAATGGTAAAGCGATTCTAGCAGATGAAGTAGGTCTTGGAAAAACAATCGAAGCTGGACTTATTTTGAAAGAATACATGGTCCGCGGGCTTGTGAAAAAGGTACTTATACTTGTCCCAGCTTCTCTCGTATCACAATGGGCATACGAGCTGAATACAAAGTTTTTCATTCCCGCTGTAGCACAAAAGAAAAGCTACTCGTGGGAACAAGCTGACGTAATCGTATCATCAATTGATACTGCGAAACGTTCACCACATCGCGATATCGTGTTGAACTTAGAATATGACCTTATTATTATCGATGAAGCACATAAACTGAAAAATAATAAAACAAAAAACTATGAATTTGCACAACGATTAAAAAAGAAGTTTTGTTTATTACTAACCGCTACTCCTGTTCAAAATAAGATTGATGAAATTTTTAACCTTGTTTCTTTATTAAAGCCAGGACATCTAGGCAATCAATCCAACTTTGAAGAATATTACGCTTCCAAAAATCGTTCAGCCGAATCAGATGAAGACTTAAAAGCTCTCATTAACAAAGTAATGGTGCGAAATAGACGACATAATACCGGTATCGATTGGCCGAAGAGACATGTACGTACAATTTTTGTTGAGTTTAATGAACAAGAACAAGCTCTATATAATGATATCGAAAATTGGCGAGGACAAGACGCCTTCACATCTGCTTTCTCATCGTTAACTTTAAAACGGGAAGCGTGTAGTAGTCGTGAGGCTGTTTACTATTCATTGAAAAAGCATGTAGAAAAAAGACAGAAAGAAAATGAACATTATATAAAAGATCCACATATCGATGTGCTAATGGACAAAATTAATCATATTCCTTTCAACTCGAAAGCAACTAAAGCTCTAGAGCTTATAAAAGAAATTGACGATAAAGTCGTCATTTTCACAGAATATCGAGCGTCACAAATGTACTTACAATGGTTTTTACAACAACACGGTATTTCTTCCGTTCCATTCCGCGGCGGATTTAAACGCGGGAAGAAAGATTGGATGAAGGAGCTTTTCCAAAACCACGCACAAGTATTAATTGCAACTGAAGCTGGTGGTGAAGGGATTAACTTACAGTTTTGTAGCCATATGATCAATTATGATTTGCCATGGAATCCAATGCGTCTTGAACAAAGAATCGGGCGTATTCACCGTCTCGGTCAAAAGAATGATGTTCATATTTATAACTTAGCTACAAAGCATACTGTTGAAGAACATATTTTGAAACTGTTATATGAAAAAATCAACTTATTCGAGCGTGTTATCGGTGAACTCGATGAAATTTTAACGAGAATTAATATGAAAAACATCGACGCGCACATTCAAGAAATTTTCGCGCAATCAAAAAGCGAAGGTGAAATTAGAATTAAGATGGAAAACTTAACATCTATTATCGACTTTGCGAAACGAAATGAAGCTGAGGTGCAAGGCTATGCAGCAACATGA	MNVDISVDRTWQNNFLNRIDEDGPWTNWDLYHLAYETEKSLLVPTFDGLQAPKHLSHFTPLPHQLEVAQNVIEQMNGKAILADEVGLGKTIEAGLILKEYMVRGLVKKVLILVPASLVSQWAYELNTKFFIPAVAQKKSYSWEQADVIVSSIDTAKRSPHRDIVLNLEYDLIIIDEAHKLKNNKTKNYEFAQRLKKKFCLLLTATPVQNKIDEIFNLVSLLKPGHLGNQSNFEEYYASKNRSAESDEDLKALINKVMVRNRRHNTGIDWPKRHVRTIFVEFNEQEQALYNDIENWRGQDAFTSAFSSLTLKREACSSREAVYYSLKKHVEKRQKENEHYIKDPHIDVLMDKINHIPFNSKATKALELIKEIDDKVVIFTEYRASQMYLQWFLQQHGISSVPFRGGFKRGKKDWMKELFQNHAQVLIATEAGGEGINLQFCSHMINYDLPWNPMRLEQRIGRIHRLGQKNDVHIYNLATKHTVEEHILKLLYEKINLFERVIGELDEILTRINMKNIDAHIQEIFAQSKSEGEIRIKMENLTSIIDFAKRNEAEVQGYAAT				NA	NA	NA	NA	NA
AK009_06100	1101	gcvT_2	COG0404	Aminomethyltransferase	ATGATTACATTACAACGTACACCGTTATTTGATGTATACGCGAAGTATGGTGGAAAAACAATCGACTTCGGTGGTTGGGAATTACCAGTTCAATTTTCAAGCATTAAAGAAGAACACGAAGCTGTACGTACAGCTGCAGGTTTGTTCGATGTGTCTCATATGGGAGAAGTTGAAGTAAAAGGTGTAGATAGTTTAGCATTTTTACAACGTGTTGTTACAAATGACGTATCTACCTTAAAGGTAGGGGGCGCACAATATACAGCTATGTGCTACGAAAATGGTGGTACAGTAGATGATTTATTAATCTACAAACGTGGTGAAGAAGACTATTTATTAGTAATCAATGCATCAAATATAGAGAAAGATTACGAATGGTTAGCAAGTCATGTAATTGGCGATGCGACAGTAGTCAATGTTTCTAGTGAAGTTGCACAGCTTGCAATTCAAGGACCAAAAGCAGAAGGCATTTTACAAAAAGTTGTGTCAGAAGATTTGAAAGAAATTAAGTTCTTTAAATTTAAAAACAATATTCTTGTAGATGGAATTCCAGCACTTGTATCTCGTACAGGTTACACAGGTGAAGATGGATTCGAAATTTACTGTAAGAGTGAAGATGCTGCAAAACTTTGGGAGAAACTTCTTGAAGTTGGAGCAGAAGAGGGCTTAAAAGCATGTGGTTTAGGTGCTCGTGATACACTGCGATTCGAAGCAACATTACCACTTTATGGACAAGAATTATCAAAAGATATTACACCGATTGAGGCTGGAATTGGCTTTGCGGTAAAAACAAATAAAGAAGCAGACTTCTTTGGAAAAGCAACGTTAAAAGAGCAAAAAGAAAACGGTGCGCCTCGTAAATTAGTCGGCATCGAAGTAATCGAACGTGGAATTCCTCGTACGCATTACCCTGTATTTATTGGTGAAGAAAAAATTGGGGAAGTAACGAGTGGTACACAATCTCCAACGTTAAAGAAAAGCATTGGTTTAGCACTAATTGATGTAAAATACGCAGCAGTTGATACAGAAGTAGAAATTGAAATTCGTAATAAACGCGTCAAAGCAGTAGTTGTTCCAACACCATTTTACAAACGTTCAAAGTAA	MITLQRTPLFDVYAKYGGKTIDFGGWELPVQFSSIKEEHEAVRTAAGLFDVSHMGEVEVKGVDSLAFLQRVVTNDVSTLKVGGAQYTAMCYENGGTVDDLLIYKRGEEDYLLVINASNIEKDYEWLASHVIGDATVVNVSSEVAQLAIQGPKAEGILQKVVSEDLKEIKFFKFKNNILVDGIPALVSRTGYTGEDGFEIYCKSEDAAKLWEKLLEVGAEEGLKACGLGARDTLRFEATLPLYGQELSKDITPIEAGIGFAVKTNKEADFFGKATLKEQKENGAPRKLVGIEVIERGIPRTHYPVFIGEEKIGEVTSGTQSPTLKKSIGLALIDVKYAAVDTEVEIEIRNKRVKAVVVPTPFYKRSK	PGPT0008130_3093	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
AK009_06101	1344	gcvPA		putative glycine dehydrogenase (decarboxylating) subunit 1	ATGTTGCATCGTTATCTTCCAATGACAGAAGAAGACAAAAAAGAAATGTTACAAACGATCGGCGTTCAAACGATCGATGAATTATTCTCTGATATTCCAGAGAGTGTTCGTTTTAAAGGGGATTTAAAAATTAAAGAAGCAAAATCAGAGCCAGAGCTTTTAAAAGAGCTATCTCAAATGGCTAGTAAAAATGCTAACTTAAAAGAATACGCTTCTTTCTTAGGAGCAGGCGTATACGATCATTATGCTCCAGTAATTGTAGATCATGTTATTTCTCGCTCAGAATTTTATACAGCTTACACACCATACCAACCGGAAATTTCACAAGGGGAATTACAAGCAATCTTTGAATTCCAAACAATGATTTGTGAATTAACAGGAATGGATGTAGCAAACTCTTCTATGTATGACGGGGGTACAGCTTTAGCTGAAGCGGCAATGTTAGCAGCTGGCCATACTCGCAAAAAGAAAATTCTTGTATCTAGCGCGGTTCATCCAGAATCAAGAGCAGTACTTGAAACGTATGCAAAAGGTCAAAATCTTGAAGTTGTTGAAATTAATCATAAAGATGGTGTAACAGATTTAGACGTATTACAAAGTGAAGTAGATGATACAGTTGCTTGTGTAATCGTTCAATATCCAAACTTCTTTGGACAAGTTGAAAAATTAGCTGATATTGAAAAAATCGTTCATCAACAAAAATCATTATTTATCGTTTCTTCAAATCCATTATCATTAGGCGCATTAACACCACCAGGGAAATTTGGTGCTGATATTGTAATCGGTGATGCACAACCATTTGGTATCCCAACGCAGTTTGGTGGACCGCATTGTGGTTACTTTGCAACAACGAAAGCATTTATGCGTAAAATTCCAGGACGTCTTGTTGGACAAACTGTAGATTCAGATGGTAAACGTGGATTTGTATTAACGTTACAAGCACGTGAACAGCATATTCGCCGTGATAAAGCGACATCTAACATTTGTTCAAACCAAGCGTTAAATGCATTAGCAGCTTCTGTTGCAATGACGGCACTTGGCAAACAAGGTGTGAAAGAAATGGCACGTCAAAACATTTCTAAAGCACAATATGCAAAACGTCAATTTGAAGCGAAAGGCTTTACTGTAACATTTGCTGGACCATTCTTCAATGAGTTTGTTGTAGATTGCAAACGTCCAGTGAAAGAAGTAAACGATGCATTATTACAAAAGAATATTATCGGCGGTTACGATCTAGGCCGTGATTATAAAGAGCATGAAAACCATATGCTTGTAGCGGTAACTGAGCTTCGTACGAAAGAGGAAATTGACACACTTGTAAACGAAATGGGGGCTATCCAATGA	MLHRYLPMTEEDKKEMLQTIGVQTIDELFSDIPESVRFKGDLKIKEAKSEPELLKELSQMASKNANLKEYASFLGAGVYDHYAPVIVDHVISRSEFYTAYTPYQPEISQGELQAIFEFQTMICELTGMDVANSSMYDGGTALAEAAMLAAGHTRKKKILVSSAVHPESRAVLETYAKGQNLEVVEINHKDGVTDLDVLQSEVDDTVACVIVQYPNFFGQVEKLADIEKIVHQQKSLFIVSSNPLSLGALTPPGKFGADIVIGDAQPFGIPTQFGGPHCGYFATTKAFMRKIPGRLVGQTVDSDGKRGFVLTLQAREQHIRRDKATSNICSNQALNALAASVAMTALGKQGVKEMARQNISKAQYAKRQFEAKGFTVTFAGPFFNEFVVDCKRPVKEVNDALLQKNIIGGYDLGRDYKEHENHMLVAVTELRTKEEIDTLVNEMGAIQ	PGPT0020485_829	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020485-gcvPA-K00282	NA	NA
AK009_06102	1476	gcvPB		putative glycine dehydrogenase (decarboxylating) subunit 2	ATGAAGAACCAAGACCAAGCACTTATCTTTGAAGTGACTAAAGAAGGACGCGTAGGATATAGCTTACCCAAATTAGATGTAGAAGAAGTGAAACTAGAAGATGTGTTTGAGAGCGATTATATTCGAGTAGAAGATGCAGAGCTACCAGAAGTATCTGAACTTGATATTATGCGCCACTATACAGCACTTTCAAACCGTAACCACGGTGTTGATTCTGGATTCTATCCACTTGGATCTTGTACGATGAAATATAATCCGAAAATTAATGAGAGTGTAGCTCGTTTCGCAGGATTTGCAAATATTCATCCACTGCAAGATGAAAAGACAGTACAAGGTGCAATGGAATTAATGTACGACTTACAAGAGCATTTAATCGAAATTACAGGTATGGATACTGTTACTTTACAACCAGCAGCTGGTGCACACGGAGAATGGACAGGTTTAATGTTAATTCGTGCATACCATGAAGCAAATGGTGATTTTAACCGTACGAAAGTAATTGTGCCTGACTCTGCTCACGGAACGAATCCAGCATCTGCAACTGTAGCTGGTTTTGAAACAATTACAGTAAAATCAAATGAAAATGGCCTTGTTGATTTAGAAGACTTAAAACGTGTTGTCAATGAAGAAACAGCAGCACTTATGTTAACAAATCCTAATACATTAGGTCTATTTGAAGAAAATATTTTAGAAATGGCAGAAATTGTCCATAATGCAGGCGGTAAATTATACTATGATGGTGCAAACTTAAATGCGGTATTAAGCCAAGCGCGCCCAGGAGATATGGGATTTGACGTTGTGCATTTAAACCTTCATAAAACATTTACAGGTCCTCACGGCGGTGGTGGCCCAGGTTCTGGTCCAGTAGGTGTGAAAGCTGATTTAATTCCGTACTTACCAAAACCGATTTTAGAAAAAACGGAAAATGGTTATCACTTCAACTACGACCGTCCAGAAGCAATTGGTCGTGTGAAGCCATTCTATGGTAACTTCGGAATTAACGTTCGTGCATACACGTATATTCGCTCTATGGGTCCAGATGGCTTGCGTGCAGTAACTGAGTATGCTGTATTAAATGCGAACTATATGATGAGAAGATTAGCGCCATTCTACGATCTTCCATTCGATAGACATTGTAAGCATGAATTTGTATTATCAGGTCGTCGTCAAAAGAAACTTGGCGTACGTACATTAGATATTGCAAAACGTCTGCTTGATTTCGGTTACCATCCACCAACAATTTACTTCCCATTAAATGTGGAAGAATGTATTATGATTGAGCCGACAGAAACAGAATCAAAAGAAACATTAGATGGTTTCATTGATAAGATGATTCAAATCGCTAAAGAAGTAGAAGAAAATCCAGAAGTTGTACAAGAAGCACCGCATACGACAGTCATTAAACGTTTAGACGAAACGATGGCTGCACGTAAACCAGTTTTACGTTATGCAAAGCCAGCTCCTGTACAAGTTTGA	MKNQDQALIFEVTKEGRVGYSLPKLDVEEVKLEDVFESDYIRVEDAELPEVSELDIMRHYTALSNRNHGVDSGFYPLGSCTMKYNPKINESVARFAGFANIHPLQDEKTVQGAMELMYDLQEHLIEITGMDTVTLQPAAGAHGEWTGLMLIRAYHEANGDFNRTKVIVPDSAHGTNPASATVAGFETITVKSNENGLVDLEDLKRVVNEETAALMLTNPNTLGLFEENILEMAEIVHNAGGKLYYDGANLNAVLSQARPGDMGFDVVHLNLHKTFTGPHGGGGPGSGPVGVKADLIPYLPKPILEKTENGYHFNYDRPEAIGRVKPFYGNFGINVRAYTYIRSMGPDGLRAVTEYAVLNANYMMRRLAPFYDLPFDRHCKHEFVLSGRRQKKLGVRTLDIAKRLLDFGYHPPTIYFPLNVEECIMIEPTETESKETLDGFIDKMIQIAKEVEENPEVVQEAPHTTVIKRLDETMAARKPVLRYAKPAPVQV	PGPT0020490_489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020490-gcvPB-K00283	NA	NA
AK009_06103	225			hypothetical protein	GTGGGATATCGATGTTATAGAATGGTATACCATTTAGAAAATGGAGAAACAATTAAAGATGTAAAAGAATTTTGCTATCGAGACCAAGGGAAAGTGTTAGAAAGAGTAGCAAATCGTGTAATGGATAATAGAGAAGTGACGGCAATTGATAAACAAGGAACAATCATTTCAATAGCATGTGAGGACATTGTAAAGGTGGAACTTGATTACATAACAGAAAGTTAA	MGYRCYRMVYHLENGETIKDVKEFCYRDQGKVLERVANRVMDNREVTAIDKQGTIISIACEDIVKVELDYITES				NA	NA	NA	NA	NA
AK009_06104	192			hypothetical protein	ATGGGTAGTACAAGACACTTTTATATGTTTATCTTAGCGTTTGTTCTTGTTGTGGCATTAACGATTTACTTAATCGTTGACAGCAGCTGGTACAACACAGTTCATCCGGCATTTCTTCTGTTTATGTATATAGGAATTGCAGTAGTAAGTTTCGGAATGAGAGACGAGATGTTAGATCGCTTTGAAAAGTGA	MGSTRHFYMFILAFVLVVALTIYLIVDSSWYNTVHPAFLLFMYIGIAVVSFGMRDEMLDRFEK				NA	NA	NA	NA	NA
AK009_06105	189			hypothetical protein	ATGATGAACAAAAGAAAATGGTTATATAGAATAGGGGTACTTTTCGTTTCAATCGGTCTCATATTAGCAAATTTTTATTCAGACATACCATCACCGTTTCCTAATTTGCATAAAGGGATTGGTATAAGTATTGTCATAGTTGGTCTGTTTTGTCTTATTGCATCTAACTTTTATAGAAAATCTGAATGA	MMNKRKWLYRIGVLFVSIGLILANFYSDIPSPFPNLHKGIGISIVIVGLFCLIASNFYRKSE				NA	NA	NA	NA	NA
AK009_06106	258			hypothetical protein	ATGTGGAAAGAAAAAGGGAATCAACTGTTAGCATGGATTACACTCGGGATTGTCATTCTATTACAAATAAGTTTTCATATAATAGAATCATTGTTTCATAAAGTATTATCCATTCTCACATTCCTTCCTAACATGACACTTGAAATTATATCGATTGTTTGGTCCATTATCGCCTCCATTGCAATCGTCATTATATGGAGTATCGCCAAGCTATGGAATAAGTTATTTAAAAAGGACAGTACTTCTAAAAAAGAGTAA	MWKEKGNQLLAWITLGIVILLQISFHIIESLFHKVLSILTFLPNMTLEIISIVWSIIASIAIVIIWSIAKLWNKLFKKDSTSKKE				NA	NA	NA	NA	NA
AK009_06107	315	gdnD_3	COG2076	putative guanidinium efflux system subunit GdnD	ATGGCTTGGGTATTTTTAATTCTAGCTGGTATTTGTGAAATTATTGGTGTACTCTTTATGAAAGTAGCCACTGAAAAGAAAGGCTGGGCACCAAAAGTTATTTTAATCGCTAACTTCGGCGTAAGCTTCTTCTTCTTATCTCTTGCGATGAACACGTTACCGATGGGAACTGCTTACGCGATTTGGACTGGAATCGGAACTGCTGGAAGTGCACTTCTAGGCATTCTCATTTTCCGAGAATCAGCGGATTGGCGTCGTCTTGCTTTCTTAAGCTGCATTTTATGCGGCGCTGTTGGCTTAAAACTATTAAGCTAA	MAWVFLILAGICEIIGVLFMKVATEKKGWAPKVILIANFGVSFFFLSLAMNTLPMGTAYAIWTGIGTAGSALLGILIFRESADWRRLAFLSCILCGAVGLKLLS	PGPT0029170_133	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
AK009_06108	333	gdnC	COG2076	putative guanidinium efflux system subunit GdnC	ATGGCATGGATTTATGTAATCATCGCTGGTATTATTGAAATCTTTTGGGTGATTGGACTAAAAAAAGCGGAGGCACCACTTGAGTGGGCTGGTGTTGCTCTATTAATTACAATTAGTTTCGTCTTATTATTTAGAGCTTATAAAGATTTACCTGTCGGCACTGTATATGCAGTCTTCACAGGAATCGGAGCTGGCGGAATCGTTCTTACAGAGATTTTCATCTTCGGAGAACCTTTCTCTATTGTAAAAGTTTTATTAATCGGTTTAATCTTCTTCGGAGTAATTGGTCTAAAACGAGTAACAGAAGAAAAAGAAACGAAGGAGGCTGCATAA	MAWIYVIIAGIIEIFWVIGLKKAEAPLEWAGVALLITISFVLLFRAYKDLPVGTVYAVFTGIGAGGIVLTEIFIFGEPFSIVKVLLIGLIFFGVIGLKRVTEEKETKEAA	PGPT0029165_330	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
AK009_06109	582			hypothetical protein	ATGAAAATGACAGCAAACCGCATTAAAGCTGTAGCACTTTCTCATTTCGCACGCTACGGCTATGAAGGAACTTCATTGGCAAATATTGCTCAAGAAGTTGGGATTAAAAAACCATCGATTTACGCACACTTTAAAGGAAAAGAAGAGCTATATTTCATATGCTTAGAATCTGCTCTTCAAAAAGATTTGCAGAGCTTCACAGGCGATATCGAAAGCTTTTCCAATTCGTCCACTGAAGAATTGCTTTTAAAATTATTAAAAGGCTATGCAAAACGATTTGGTGAAAGTGAAGAATCAATGTTTTGGTTACGAACTTCTTATTTTCCGCCTGATGCATTTCGCGAACAAATTATTGATAAAGCAAATGTACACATTGAAAACGTCGGAAAACTTTTATTCCCTGTATTTAAAAGAGCAAGCGAACAAGATGAGCTGCATAACATTGAAGTAAAAGACGCCTTAGAGGCTTTTCTATGCTTACTCGATGGTCTTATGGTTGAACTATTATACGCAGGTTTAAATCGTTTTGAGACACGTTTAGACGCTTCTTGGAAAGTATTTTGGCGCGGACTTTCAAACTGA	MKMTANRIKAVALSHFARYGYEGTSLANIAQEVGIKKPSIYAHFKGKEELYFICLESALQKDLQSFTGDIESFSNSSTEELLLKLLKGYAKRFGESEESMFWLRTSYFPPDAFREQIIDKANVHIENVGKLLFPVFKRASEQDELHNIEVKDALEAFLCLLDGLMVELLYAGLNRFETRLDASWKVFWRGLSN				NA	NA	NA	NA	NA
AK009_06110	978	ccpB_2		Catabolite control protein B	ATGGCCAATATAAAACAAATTGCTAAAACTGCTGGTGTATCGATATCAACTGTTTCTCGTGTCCTGAATAATCACCCTTACGTAAAAGAAGAAAAGCGTAAGCGTGTTCTAGATGCTGTTGAAGAATTAAACTACGCAAAAAATATAAATGCTGTCCATTTAATAAGAGGGAAAACATATACAATTGGCGTTATGCTCCCTTTCATTAACCTCCCCTACTTCAGTACCATTATTGAAGGAATTGGTAACGAAGCATTATTAGCTGGGTATCACATTAATTTATGCCAAACAAATTACGATAGCCTTGAAGAAATTCGTGTTCTTGAAATGATGAAAATGAAACAATTTGATGGGATGATTATTTGCTCCCGGACGAGCTCTTGGGAACAAATCGAACCTTTCGCAAAATTTGCCCCTATTATTTCATGTGAAAAAATGAACCATCCCCTCATTTCATCCATCTACGTAGATCATTATGAAGGCTTTCGTCTCGGTACTACCTATTTACTAAGTAAAGGCCATGAAAAGATCGGAATTTGTTTAGCGAGAAAAACAAGTGTAAATTCCATGGAGCGTGAAAAGGCGTTCGCCGATACACTTTGTAATGAAGGGAAGACGTTGCATCCTGAATGGATTTTCCACCAATGCTATACAATGCAGGACGGAGCACAAATACTCCATCGTATTTTAAATATGAAAAATCGTCCAACTGCTATTTTCACAGCGAACGATCAAGTTGCAGCTGGTTTATTAACAGAGGCTCGAAAACATGGCATCCGAGTACCTGAAGACCTTGCTATCCTTGGATTTGATAATCATGAAATTTCAAAGGCATTAGAAATTTCCACAATTGAACATCCCGGTCTCGCAATGGGCTCACATGCTTTTTCTTTATTCCATAAGCAGATTCAAAGCGAGCAAATTGTCGGCAGTCCAAAAGAGCTTTCATTCCATTTAATTAAGCGAGAGACTGTCTAA	MANIKQIAKTAGVSISTVSRVLNNHPYVKEEKRKRVLDAVEELNYAKNINAVHLIRGKTYTIGVMLPFINLPYFSTIIEGIGNEALLAGYHINLCQTNYDSLEEIRVLEMMKMKQFDGMIICSRTSSWEQIEPFAKFAPIISCEKMNHPLISSIYVDHYEGFRLGTTYLLSKGHEKIGICLARKTSVNSMEREKAFADTLCNEGKTLHPEWIFHQCYTMQDGAQILHRILNMKNRPTAIFTANDQVAAGLLTEARKHGIRVPEDLAILGFDNHEISKALEISTIEHPGLAMGSHAFSLFHKQIQSEQIVGSPKELSFHLIKRETV	PGPT0021075_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK009_06111	450			hypothetical protein	ATGGATCGTGTTACGGATCCTATTCCGCTAAAGGAAATTCCAAAATATTTTCCGGTGAAGTTTAAAGTTCCAACGTTTTTACCGTACGACATTATAAGTGATGTAAAGGGTGAAGTAAGAACGCTTGGGAAAAAGAAGGCTGTCTTAACGATTAAATATAAACAGCAGGAGCAAGGTAGAAATGAGTATATTGAGTTAAATGTCGCGAACTTTCCTTATAGTTTTCCGGATTTCGTGGAAGAGAAGCGATTTCAAGAACAAATGAAACTAAATAATGGAACGTCTGCTTATTTTAAAAATAAAGATGATTATGAACGTGGTGACGAATTTGCTACGCTTCTATGGAAAGAGAAAGGAATTGAATATCAGCTATTGTATCGGAATGTAGAAGAGAGCGATAAAGACACGATTAAGCAAAATTTATTATACATTGCGAATAAGATGAAATGA	MDRVTDPIPLKEIPKYFPVKFKVPTFLPYDIISDVKGEVRTLGKKKAVLTIKYKQQEQGRNEYIELNVANFPYSFPDFVEEKRFQEQMKLNNGTSAYFKNKDDYERGDEFATLLWKEKGIEYQLLYRNVEESDKDTIKQNLLYIANKMK				NA	NA	NA	NA	NA
AK009_06112	384	glpE_3		Thiosulfate sulfurtransferase GlpE	GTGTCAACAACTTGGATTATTTTATTAGCCGTAATCGTAGCATTCATCGGCTACACTGTATGGATGTACTTCTATCAGAAAAAATTAATTAAAACTCTTACAGAAGAAGAATTTCGCGCTGGCTACCGTAAAGCACAGCTTATCGATATTCGTGAAACAGATGAATATAACGCAGGGCACATTTTAGGTGCACGTAACATTCCGTTATCACAAATTCGCCTTCGCCATAAAGAACTTCGTCAAGATCAACCTGTTTACTTATATTGCCAAAGCGGATTCCGTACAGGTCGTGCAGCGCAATACTTAAAAAAACAAGGCTACAAAGATTTCTACCAATTACAAGGTGGATTTAAATCTTGGACAGGCAAAATTAAAAAGAAATAA	MSTTWIILLAVIVAFIGYTVWMYFYQKKLIKTLTEEEFRAGYRKAQLIDIRETDEYNAGHILGARNIPLSQIRLRHKELRQDQPVYLYCQSGFRTGRAAQYLKKQGYKDFYQLQGGFKSWTGKIKKK				NA	NA	NA	NA	NA
AK009_06113	837	lipM	COG0095	Octanoyltransferase LipM	ATGGGAAAAGAAAAATGGTGTTATATTAACTCTGGTCAATGTTCACCGGCATTTAATATGGCGTTAGATGAATGTTTATTAAATTGGCAAAGTGAAAAGAAAATGCCACCAACAATTCGTTTTTATGAATGGGAAGTACCAACATTAACAGTTGGATATTTTCAACGTGTTGAAAAAGATATTAATATGGATGTAGTTAACGAAAAGAAATATGGATTCGTTCGTCGTCAAACAGGCGGCAGGGGTGTACTACATGACAAAGAGTTAACGTATAGTGTTATTGTGTCTGAAGATCATCCGAATATGCCGAAAACAGTTACAGAAGCGTATCGTGTTATTTCGCAAGGCTTATTAGATGGTTTTAAGGCATTAGGGCTAGAAGCATATTATGCAGTTCCAAAAACAGAAGCAGATCGTGAAAATTTAAAAAATCCACGTTCAGGCGTATGTTTTGATGCACCATCTTGGTATGAAATTGTAGTGGAAGGAAGAAAAATTGCTGGTAGTGCTCAAACACGTCAAAAAGGTGTTATTTTACAGCATGGATCGATTCCATTAGAAATTGATTTAGATGAACTATATGATCTATTTTTATTCCCAAATGAACGTGTGAAGGAACGTATGAAAAGTATGTTTTCTTCTAAAGCGGTAGCAATTAATGAATTAACAGACCGTACATTTACGATAGAACAGTTAATTAAAGCGTTTGAAATTGGGTTTGAAAAAGGATTGGATGTAGAACTTGTTCCATATGAATTAACAGAAGAACAGTTACATGAAGTTCAAACGTTAGCGAAAGAGAAGTATGAAAGTAATGAGTGGAATTATAAAAAATAA	MGKEKWCYINSGQCSPAFNMALDECLLNWQSEKKMPPTIRFYEWEVPTLTVGYFQRVEKDINMDVVNEKKYGFVRRQTGGRGVLHDKELTYSVIVSEDHPNMPKTVTEAYRVISQGLLDGFKALGLEAYYAVPKTEADRENLKNPRSGVCFDAPSWYEIVVEGRKIAGSAQTRQKGVILQHGSIPLEIDLDELYDLFLFPNERVKERMKSMFSSKAVAINELTDRTFTIEQLIKAFEIGFEKGLDVELVPYELTEEQLHEVQTLAKEKYESNEWNYKK	PGPT0003930_50	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
AK009_06114	843			hypothetical protein	ATGTCAGTTAAGAAGAAAACGCAAGTACGCACCGGCAAAATGGTACGTGAACTAATGTTAGCAGACGAAGATGTAAATGCTTCGCTAATTATGGTATATAGTGAAAACGGTGTAAACGCAGAAATTAAAATCGAGGGCTTAACGCCGAAATGTAACGAAGAATTATTTTTGAGCGGAAACGTGGATTGGAACAAGAGTGTTATTTATAAAATTGTTGATTTCACTGGAAACGCTGAAGTTGGTAAAGTTACATTAACAGCGATGAACAAAAACAATGTTTCTCTAGAAATTGAACGCGTTATGTGGAGTAAAGAAAATAAAGACGCTGCCGAGCAAGAAGAAACACAGGTAGAAGCAGCGCCGAAAAAAGAAGTAGTTGTAGAAGCTCCAAAAGCAATTCCACCCGCTCCTAAGCCTGTTACGCGTGTGGAAACACCTGCTATGGCACCTAAGCCTACTCCGGTACCGACACCGAAGCCAGTAAGTGTAGAAGCGGCTGTAGAACTAACTACTCCAGCACCTGTGAAAAAAGTAGTCCCTACTCCAGTTACAAAGCAAGAAACAGCACCGGTTGCTCCTGCAAAACCGAAGCAGCCTGCTTTGACTGAAACAAATTCAAAACTACAAGAAAATTATGTTAAACTCGTGAAAAAGACAATTGAAGTTTGTCAAGATTACGAGCTTGGCATCGACATAGATGATTCTATTGAAAGCTTAAAAGAAGAACTACAAAGCCAAGGTATTAGCGTTACATTTGACAAAGAAATTATGGACGTTGTAAGTCGCCTTCGTTCTTTACAAGATAAAGGAATCAAAGTAGAAAAAGTACTTAATTTACTATAA	MSVKKKTQVRTGKMVRELMLADEDVNASLIMVYSENGVNAEIKIEGLTPKCNEELFLSGNVDWNKSVIYKIVDFTGNAEVGKVTLTAMNKNNVSLEIERVMWSKENKDAAEQEETQVEAAPKKEVVVEAPKAIPPAPKPVTRVETPAMAPKPTPVPTPKPVSVEAAVELTTPAPVKKVVPTPVTKQETAPVAPAKPKQPALTETNSKLQENYVKLVKKTIEVCQDYELGIDIDDSIESLKEELQSQGISVTFDKEIMDVVSRLRSLQDKGIKVEKVLNLL				NA	NA	NA	NA	NA
AK009_06115	672			hypothetical protein	ATGAATGCACAAGACATGATTGAATTGAATAATAAAAAACGTGAGCTTCTAACTTCCGAAAACGAGGCTGCTTATGGTGATATGTTAGTATATCTTCGAATATCAAACGTACCCGAGCAACAAATGGAGGAACTGTTACTAGAAATATTAGATCACCTCATCGAAGCACAAGCAGAAAATAAAAACGCTTATGACATCTTTGGAGATAATTTACAATCTTATTGCGATGAACTTATATCAGCTTTACCAACTCAAACAAAGTTAGAAAAAACTTCTTTAATTGGATTTTCTATTAGCTTACTTCTTGCTATACAGTTTGGCATAAATGCAATTATTTCATTTTTTATGTTTCTCTTTGAAAAAAACAATACATTATCAAGTCCGCCTTTTAGCATCCTTGGAACTACTTTGTCTGTTTCAATAATTATACTAGGTATACTATTTATTTTATATTTATTAAAGCGTTACTCCTTTGATCAGAAAATGAATTGGAAAAGAAGAATTCTATTTGGATTCGCATTTGCTACTCCATTTTGTTCCGCTGTATTCTTAAATATTTATTTCCAAAAGCAACCTTATCTCATTTACCATCTAAACTTTTGGCAAAGTGCCTTAATTGCTATCTTATTTTTTATTTTATATAAATTACTATACAAAAAATCAAATTTTTAA	MNAQDMIELNNKKRELLTSENEAAYGDMLVYLRISNVPEQQMEELLLEILDHLIEAQAENKNAYDIFGDNLQSYCDELISALPTQTKLEKTSLIGFSISLLLAIQFGINAIISFFMFLFEKNNTLSSPPFSILGTTLSVSIIILGILFILYLLKRYSFDQKMNWKRRILFGFAFATPFCSAVFLNIYFQKQPYLIYHLNFWQSALIAILFFILYKLLYKKSNF				NA	NA	NA	NA	NA
AK009_06116	318			hypothetical protein	ATGCACAGCCAAATGTTAAAAGGTGTGCTCGAAGGTTGCATCCTATACATTATTTCACAAGAAGAAGTGTACGGATATGAACTGAGTACAAAATTAAATAAGCACGGCTTTACATTCGTAAGCGAAGGAAGCATATATCCGTTATTGTTACGTATGCAAAAACAAAAATTGATTGAAGGAACATTAAAAGCTTCCTCACTCGGTCCAAAGCGAAAATATTATCACGTAACCGATAAAGGGTTAGAACAACTTGAAGAATTTAAACAAAGCTGGGGAATGGTTTCTACTACGGTAAATAACTTATTACAGGGGGAGTGA	MHSQMLKGVLEGCILYIISQEEVYGYELSTKLNKHGFTFVSEGSIYPLLLRMQKQKLIEGTLKASSLGPKRKYYHVTDKGLEQLEEFKQSWGMVSTTVNNLLQGE				NA	NA	NA	NA	NA
AK009_06117	1026	splG		Spore photoproduct lyase	ATGAAACCATTTATGCCAAAACTCGTTTACTTTGAACCAAAGGCACTTGAATATCCACTTGGAAAAGAGCTTTATGAGAAGTTTACGAAGATGGGATTAGAAATTCGTGAAACGACATCACATAATCAAATTAGAAATTTGCCAGGAGAAAATGATTTGCAAAAGTATCGTAATGCAAAGGCTACACTTGTCGTTGGAGTGAGGAAGACGCTAAAGTTTGATACGTCAAAACCGTCAGCTGAATATGCAATTCCGCTCGCAACAGGGTGTATGGGACATTGTCATTATTGCTATTTGCAAACGACACTTGGGAGTAAGCCTTACGTTCGTGTGTATGTCAATCTTGATGAAATATTTGAGAAGGCAAAGCAATATATGGATGAAAGGGCACCTGAAATAACAAGATTTGAAGCAGCGTGTACATCAGACATTGTTGGAATTGATCATTTAACACATGCATTAAAGCGGGCGATTGAATTCATTGGAGAAAGTGAATATGGGCGCTTACGTTTCGTCACGAAATATTCGCACGTTGATCATTTATTAGATGCAAAGCATAATGGGAAAACTCGTTTTCGATTTAGTATAAATTCACGATCTGTAATTAAAAATTTTGAACCAGGGACATCGCCGTTTGAGGAGCGAATAGAGGCTGCACGTAAAGTAGCAGGTGCGGGTTATCCACTTGGATTTATAGTTGCGCCGCTTTATATGCATGAAGGGTGGGAAGAAGGATACCGTGAACTATTTGAGCGACTGTACAATGCACTAAAAGATTTGTCGATACCAAATTTAACATTTGAATTAATTCAACATCGCTTTACAAAACCGGCAAAAAAGGTCATTCAAGAGCGTTATCCGAAGACGAAACTTGAAATGGATGAGGAGAAGCGTAAATATAAATGGGGACGATACGGCATCGGAAAATACGTATATAAAAAAGATGAAGCAGCAGTATTGGAAGAAACGATAAGAGGTTATATAAATGAGTTTTTTCCTAATGCAGAAATACAATACTTTACTTAA	MKPFMPKLVYFEPKALEYPLGKELYEKFTKMGLEIRETTSHNQIRNLPGENDLQKYRNAKATLVVGVRKTLKFDTSKPSAEYAIPLATGCMGHCHYCYLQTTLGSKPYVRVYVNLDEIFEKAKQYMDERAPEITRFEAACTSDIVGIDHLTHALKRAIEFIGESEYGRLRFVTKYSHVDHLLDAKHNGKTRFRFSINSRSVIKNFEPGTSPFEERIEAARKVAGAGYPLGFIVAPLYMHEGWEEGYRELFERLYNALKDLSIPNLTFELIQHRFTKPAKKVIQERYPKTKLEMDEEKRKYKWGRYGIGKYVYKKDEAAVLEETIRGYINEFFPNAEIQYFT				NA	NA	NA	NA	NA
AK009_06118	429	mntR	COG1321	HTH-type transcriptional regulator MntR	ATGCCTACCCCTAGTATGGAAGATTATATTGAACAAATTTATTTGTTGATTGATGAAAAGGGTTATGCCCGCGTATCTGATATTGCTGAAGCGCTTAGTGTACATCCATCCTCTGTAACAAAAATGGTGCAAAAATTAGACAAAGATGAATATCTAATTTATGAAAAATATAGAGGGCTTGTATTAACAACAAAAGGTAAAAAAATCGGAGAACGTCTCGTATATCGTCATGACTTGCTAGAGCAATTTATGCGTATTATCGGTGTGGATGAAGGTAAAATTTACAATGATGTAGAAGGAATTGAGCATCATTTAAGTTGGGAAGCGATTGATCGCATTGGTGATTTAGTGGAATACTTTGAACAAGATGCAGTCCGAGTGGAAACACTTCGCGGTGTTCAAAGAGCAAATGAAGAGAAAAGTAATTAA	MPTPSMEDYIEQIYLLIDEKGYARVSDIAEALSVHPSSVTKMVQKLDKDEYLIYEKYRGLVLTTKGKKIGERLVYRHDLLEQFMRIIGVDEGKIYNDVEGIEHHLSWEAIDRIGDLVEYFEQDAVRVETLRGVQRANEEKSN	PGPT0003895_227	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003895-mntR|dtxR|ideR|sirR|troR-K11924	NA	NA
AK009_06119	708	gph_5		Phosphoglycolate phosphatase	ATGGCGTTTCCTTTTTTATTTCAATTCGAAAAGGATGGGAGAATTATGAAAGCAATTATTTTTGATTTTGATGGATTAATTGTGGACACAGAAACGATATGGTTTCACTCTTTCAGAGATGCTGTTCGTGAATACGGCGAAGAACTACCTTTAGAGGAATTTGCGAAATGCATTGGAACAACAGATGAGGTACTTTATGCATATTTAAATGATCAATTAAAAGAGAAGTTTAACAAAAGTGCATTAAAAGAAAAAGTGGCAACTTTACATAAAGAGAAAATGAAAATACCAAAAGCTCGTGACGGGGTAAAAGAATATTTAGAAGAAGCGAAAGAAATGGGATTAAAAATCGCACTAGCTTCTAGTTCGTCTAGAGAATGGGTTATTCATTTTTTAGAAGAGCTACAGATTCGAGATTATTTTGAAGTTATTAAAACGAGAGAAGATGTTGAGAAGGTAAAACCAGATCCAGCTCTTTATCGAATTGCAATAGAAGAATTAGGAATTAAGCCGTCTGAAGCTGTTGTGTTTGAAGATTCATTAAATGGATTGAGAGCAGCAATTGCAGCGGGATTAACGTGCGTTGTGGTACCTAATGATGTGACACGGAATTTACCATTTGAAAATCATCATCTTCGAATTGAAAGTATGAGAGAGAAAAGTTTAAAAGAAGTGCTTCAAAGTATAAAAAAAGACCGTATTTCCTAA	MAFPFLFQFEKDGRIMKAIIFDFDGLIVDTETIWFHSFRDAVREYGEELPLEEFAKCIGTTDEVLYAYLNDQLKEKFNKSALKEKVATLHKEKMKIPKARDGVKEYLEEAKEMGLKIALASSSSREWVIHFLEELQIRDYFEVIKTREDVEKVKPDPALYRIAIEELGIKPSEAVVFEDSLNGLRAAIAAGLTCVVVPNDVTRNLPFENHHLRIESMREKSLKEVLQSIKKDRIS				NA	NA	NA	NA	NA
AK009_06120	402			hypothetical protein	ATGAACGGTCGTTCGTTTACTTTCGCTATATTTGTGCTTATTATCGGATTGGCAATATTCGGCCTTGTTTCATCTGTTATTACAAATCCCATGGGTGTATTAAGAAATATCGGGTACATGTTACTTGTTGTCGGTATCTTTTACTTGCTATACAAGATGTTTACAAATTCCAGTGGTTCTGCAAATTCGCAAAGCTCATATAAGCGTGCGGCAAAACAATCGAACCGCAAACATGGGAAACAAAATGTAGCACCCCTAGGCAATTCTTTCTTTAAGTCAAATACTTCTAATGACAAAAGTAAAAAAGGGAATTCTTCCACTTTGAAACGAAAAAGAAAACAGTCTCATTTAACTGTCATTGAAGGCAAAAAAAGCAAAAAGAAAGACCGTGCTTCCTTTTAG	MNGRSFTFAIFVLIIGLAIFGLVSSVITNPMGVLRNIGYMLLVVGIFYLLYKMFTNSSGSANSQSSYKRAAKQSNRKHGKQNVAPLGNSFFKSNTSNDKSKKGNSSTLKRKRKQSHLTVIEGKKSKKKDRASF				NA	NA	NA	NA	NA
AK009_06121	1011			hypothetical protein	GTGATTGTCTTATTTCAAAACGACAGAACCCAGTATGACAATTGCCTCTTTTTCTACATAAGAGAGAAACAAATACAGGTTGGTGTTAACATGGCAGAAGAGTCAAAACAAATATATGGCGGGCAAGCGGTCATAGAAGGAGTTATGTTTGGCGGTAGAGAATATACTGTTACAGCGGTTCGTCGTAAAGATAAATCGATTGAATTTTATCGATTACCACGCGTTCGTAATAAAGTATTATCTATCCTAAAAAAAATTCCATTTTTACGAGGGATTGCCGCTATTGTGGATGCAAGTGCGAATGGAGCAAAGCATTTAAACTTCGCTTCTGAACGATTTGACGTCCACCCAGAAGATGATGAACAAATTGCTAATAAAAAAGAAGAACAATCAAAATTAACGATGGTATTAGGAGTTGCAGCTGTTGGCGTTTTATCTTTCATATTCGGTAAAGTCATTTTCACAGCAGTTCCTGCACTATTAGCTGAATTAACAAGACCGATTTTCCCATCTCATACTGGGCAAATCATTGTCGAAAGTGTCATTAAGCTCATGCTATTATTGAGCTATATATACTTTATTTCTTTAACCCCACTTATTAAGCGGGTATTTCAGTATCACGGTGCAGAGCATAAGGTAATCAATGCTTATGAGAATGACCTTCCTCTGACTGTAGAAAACGTTCAAAAGCAAACTCGTCTCCATTATAGATGCGGCAGTAGCTTTATTATATTTACAGTCATTATTGGAATGTTCGTTTATTTCCTAGTCCCTACAGATCCTCTTTGGGCACGAGTTATAAACAGAATTTTATTAATTCCAGTTGTACTTGGTATTTCTTTTGAAGTATTGCAATTTACAAATCGATTACGAGATATTCCCGTATTACGCGTACTTGGATATCCTGGATTATGGCTACAACTATTAACAACGAAAGAACCAACAGATGATCAAGTGGAAGTAGCAATTGCATCGTTTGAAGAATTATTACGTTTAGAGAACAAACAATAA	MIVLFQNDRTQYDNCLFFYIREKQIQVGVNMAEESKQIYGGQAVIEGVMFGGREYTVTAVRRKDKSIEFYRLPRVRNKVLSILKKIPFLRGIAAIVDASANGAKHLNFASERFDVHPEDDEQIANKKEEQSKLTMVLGVAAVGVLSFIFGKVIFTAVPALLAELTRPIFPSHTGQIIVESVIKLMLLLSYIYFISLTPLIKRVFQYHGAEHKVINAYENDLPLTVENVQKQTRLHYRCGSSFIIFTVIIGMFVYFLVPTDPLWARVINRILLIPVVLGISFEVLQFTNRLRDIPVLRVLGYPGLWLQLLTTKEPTDDQVEVAIASFEELLRLENKQ	PGPT0015034_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015034-yqhQ-NA	NA	NA
AK009_06122	489			hypothetical protein	GTGAGTCAAGAACAATTAGGAACAAGGAATTTTGTGCAGATCGGTTTGTTTGGTGGAATCTTTTGGGGCGGGATATGGTATTTCCTTCATATATTTTCATTCACGGAGGCGGGACCGAATTATTTCCTTTTACCATTTGCGTTTGGAAGTTGGAAAGAGGGGGTATGGGGCAATGTGTCCGGAATAGTGTGTATGGGACTTCTTTCAATTTTGATTGCCTTTTTATATAAAGCATTTTTTGCAAAGTTTGAAGGGATTATTGCGGGAATTATTTATGGGCTATTTTGGTGGGCATTACTGTTTTTTGGGATGGGTTTAATGGCTCCTGTTATTAAAAGTGCGCTCCATTTGCCAAAAGAGACAATTGTAACGACAATATGTATTTTTATATTATATGGTGTGTTTATAGCATATTCTGTTTCTTATGCAGTAAATAGCAATAAAGTAGAACAAGAAGGGCAAGAGAAGACGAACTATTCAAATAAGTAA	MSQEQLGTRNFVQIGLFGGIFWGGIWYFLHIFSFTEAGPNYFLLPFAFGSWKEGVWGNVSGIVCMGLLSILIAFLYKAFFAKFEGIIAGIIYGLFWWALLFFGMGLMAPVIKSALHLPKETIVTTICIFILYGVFIAYSVSYAVNSNKVEQEGQEKTNYSNK				NA	NA	NA	NA	NA
AK009_06123	441	yqhS	COG0757	3-dehydroquinate dehydratase	ATGAAAAAGTTACTCCTCGTAAACGGTCCTAACCTAAATCGCCTCGGTGTTCGTGAGGTAAATGTATATGGAAAGGGCACGCTAGCGACACTTGAAGCAGATATGAAGCAAGAAGCAGAAACAATGGGAGTGGAGTTAGAATGTTTCCAATCGAATCATGAAGGTGCCATTATCGACATTATTCATGAAGCGGAAGATATATATGAAGGGATCATTTTAAATCCGGGAGCATTTACGCATTATAGCTATGCGATTCGTGATGCCATTGCGAGCATTTCGATTCCTGTTATTGAAGTACATATTTCTAACATTCATCAGCGTGAATCATTCCGTCATGAATCTGTGACGGCAGCTGTTTGTGCAGGTCAAATTGTAGGATTTGGTTTTTATGGCTATAAGTTAGCGTTATTTGCATTAATGGAGAAATTGAGGGGGGCATAG	MKKLLLVNGPNLNRLGVREVNVYGKGTLATLEADMKQEAETMGVELECFQSNHEGAIIDIIHEAEDIYEGIILNPGAFTHYSYAIRDAIASISIPVIEVHISNIHQRESFRHESVTAAVCAGQIVGFGFYGYKLALFALMEKLRGA	PGPT0012905_2778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
AK009_06124	1062	ypdF_2	COG0006	Aminopeptidase YpdF	ATGGAGAAAATTGAAGGATTACGAAGTGCATTTGATGAGGCTGGCATTGACGGTATTTTGTTAACAAATGAACATAGTCGTAGATATATGGCTAACTTCACAGGAACAGCAGGCGTTGTTCTTATTTCAAAAGATCGTGCTCAATTTATTACAGATTTCCGTTACGTCGAGCAGGCAAGTAAACAAGCGGTTGGATATGAGGTTGTACAGCACGCAGGATTGATCATTGATGAAGTGGCAAAGCAAGTGAAAGAGCTTGGAATTCAAAAACTTGGTTTTGAGCAAGATACTCTTACATATAGTTCTTATTCAGTGCATAAGGAAGCGATTGATGCTGAATTTATCCCGACTTCTGGACTTGTAGAAAAGTTACGCTTGATAAAGACTGATTCAGAGATTAAGATATTAAAGGAAGCTGCACAGATTGCAGATGCTGCCTTTGAGCATATTCTATCATTCATTCGCCCGGGAGTATCTGAAATTGAAGTGTCAAATGAACTTGAATTTTTCATGAGAAAACAAGGAGCAACATCTTCTTCGTTTGATATTATCGTTGCTTCAGGTCTTCGTTCGGCATTACCGCACGGCGTGGCATCTGAAAAAGTGATAGAAACAGGAGATTTCGTTACATTAGACTTCGGCGCTTATTACAAAGGATATTGCTCTGATATTACTCGTACGATTGCAGTCGGTGAACCATCTGATAAATTAAAAGAAATTTATAATATCGTTTTAGAAGCACAACTACGTGGTGTGAACGGTATTAAAGCTGGTTTAACAGGTCGCGAGGCTGATGCGCTAACGCGTGACTACATAACGGAAAAAGGATATGGTGAATACTTTGGACACACTACTGGTCATGGAATAGGTCTTGAACTCCATGAAGCACCAGGTTTAGCGTTCCGTTCTGATACAGTACTTGAACCAGGTATGGCTGTAACAGTAGAGCCAGGTATTTATATTCCAGGTATTGGCGGCGTACGTATTGAAGATGATATCATTGTGACAAGTGAAGGTAATGAAGTAATTACGAAATCACCAAAAGAACTTATTATTTTGTAA	MEKIEGLRSAFDEAGIDGILLTNEHSRRYMANFTGTAGVVLISKDRAQFITDFRYVEQASKQAVGYEVVQHAGLIIDEVAKQVKELGIQKLGFEQDTLTYSSYSVHKEAIDAEFIPTSGLVEKLRLIKTDSEIKILKEAAQIADAAFEHILSFIRPGVSEIEVSNELEFFMRKQGATSSSFDIIVASGLRSALPHGVASEKVIETGDFVTLDFGAYYKGYCSDITRTIAVGEPSDKLKEIYNIVLEAQLRGVNGIKAGLTGREADALTRDYITEKGYGEYFGHTTGHGIGLELHEAPGLAFRSDTVLEPGMAVTVEPGIYIPGIGGVRIEDDIIVTSEGNEVITKSPKELIIL	PGPT0006770_6819	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
AK009_06125	558	efp		Elongation factor P	ATGATTTCAGTAAACGATTTTCGTACAGGTTTAACAATTTCAGTGGACAATGCCCTTTGGCAAGTACTTGATTTCCAACACGTAAAGCCAGGTAAAGGTGCTGCATTCGTTCGTTCTAAACTACGTAACATTCGCACAGGTTCTGTTCAAGAGAAAACATTCCGTGCAGGTGAGAAAGTAGAAAAAGCACACATCGAAAACCGTCGTATGCAATACTTATACGCAAGCGGTGAGGCTCACGTATTTATGGATAACGGAACTTATGAGCAAATCGAACTTGGTGAAAAACAAATCGAGCGCGAGCTTAAATTCCTAAAAGAAAACATGGAAGTAGCAATTATGACTTACCAAGGCGAAGTACTTGGTGTTGAACTTCCAAACACAGTTGAATTACAAGTTACAGAAACAGAGCCTGGTATTAAAGGTGATACTGCTTCTAACGTAACAAAACCAGCTACATTAGAAACTGGTCTTGTTGTACAAGTACCAATCTTCATTAACGAAGGCGAAATGCTTATCATCAACACTGGTGAAGGTAAATACGTTTCTCGTGCATAG	MISVNDFRTGLTISVDNALWQVLDFQHVKPGKGAAFVRSKLRNIRTGSVQEKTFRAGEKVEKAHIENRRMQYLYASGEAHVFMDNGTYEQIELGEKQIERELKFLKENMEVAIMTYQGEVLGVELPNTVELQVTETEPGIKGDTASNVTKPATLETGLVVQVPIFINEGEMLIINTGEGKYVSRA	PGPT0016205_4255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
AK009_06126	321			hypothetical protein	ATGAAGGTATTGAAAGTTAGTTTAACCGTTGTAGTAGAATTAGCTCTTATTTATCTTTTTTCATTATTGGTCGGTTGGTCATTTATAGAGACCTTTTTCCTTGGTAGTTTAGCAATATTTGCAATTATGTGGTTAATTATTATGAGTAACCATAGAAATAACATTACAGATCACGCAATAAGTAAAACATTAACTGGCGTTGAGACTGGCGAAATAAAGCCATTTCAAATTGTTTTGACTCCATCTATTATGGGTACTCTTTCACTTGTTTTAGTCAGTTTTATAATAACAGTTATTTACTATCTACCCTATTTCCTATAA	MKVLKVSLTVVVELALIYLFSLLVGWSFIETFFLGSLAIFAIMWLIIMSNHRNNITDHAISKTLTGVETGEIKPFQIVLTPSIMGTLSLVLVSFIITVIYYLPYFL				NA	NA	NA	NA	NA
AK009_06127	579			hypothetical protein	ATGCAGCACGTCACTTTATTACCACTAGATTTATGCTATACAAATGTGATTTTCGAGCTATCAAGTGATCCACATATAAAAAATGCATTGGGGATAACGGTAGAAAACATCGAAGACACGAAAACATTTCTTCTTTTCGCAATAGAAGAAGAGCGTCAAAAGAAATCCTTATCGAGAATGATTGTGAATGAAGAAAATGAAATAATTGGCCTCACCACACTTAAACATATTAATAATGAGAAAAAGCAATCTCACATTGGTAGTTGGCTCGGCTATCCGTACTGGGGAAAAGGCTATAACGAGGCTGCTAAAAAAGAAATCTTTAAAATCGCCTTTTTAGACTTACAACTTTCCTACGTATTTGCTGGTGCTAAAACGAATAATATCCGCTCTTTAAAAGCACAAGAAAAACTACCTTATATTTCATTGCATGTGGAAAACAAGTTTCCAGACGAACACGCTGCACTAGAGAAAGAAGTAAAGTCACCTTGCTCTCTGCATGTCGTGTCACGTGAAAATTTTTTAAACTGGTTGAAATTACAGAATGAGGAGGCAAAATATGAAGGTATTGAAAGTTAG	MQHVTLLPLDLCYTNVIFELSSDPHIKNALGITVENIEDTKTFLLFAIEEERQKKSLSRMIVNEENEIIGLTTLKHINNEKKQSHIGSWLGYPYWGKGYNEAAKKEIFKIAFLDLQLSYVFAGAKTNNIRSLKAQEKLPYISLHVENKFPDEHAALEKEVKSPCSLHVVSRENFLNWLKLQNEEAKYEGIES				NA	NA	NA	NA	NA
AK009_06128	282			hypothetical protein	ATGAAACAGTGGCTAGCGGCAATGGAAACATCCGTGCTTGTTATGGGGGCACTTCGATTATTTTCAGGTAGTGCGGAGATATTTGCTGCTTTGCTTATGCTTTATGTGAATGATGCGAAGAAAGCGTTGTTTATAAATGGTATGTTGGCGTTTGTTGGACCTACCGTATTAATTTTAACAATGACAATTGGGATAGCGAGTGTAGCAAGTGAAATTTCTTTCTTGAAGCTCTTTTTTCTAGCGCTTGGAATTTGCTGTATTTTTATCGCATTACTGAAATAG	MKQWLAAMETSVLVMGALRLFSGSAEIFAALLMLYVNDAKKALFINGMLAFVGPTVLILTMTIGIASVASEISFLKLFFLALGICCIFIALLK				NA	NA	NA	NA	NA
AK009_06129	927			hypothetical protein	ATGAAAGAGGTATTAGAAGTTTTACCAAAAACGATGAAGTACTTAATTGAAGAATGTGAGCAATACGATGCTTTAGAGGAAATTCGTGTTCGAATTGGAAGACCGCTAGAGTGTATTGCACACGGAAAGGTGTTTTTTTATGACTATATCACTACTGCAGAGGATGCTATTTACTTATTGAATAAGTTAAGTCAATTCTCAATTTATACGATGGAAGAGGAATTAAAACGTGGGTATGTGACGCTTCGCGGGGGGCATAGAATCGGGTTAGCGGGAAAAGTCATTACAGAAAAAAGCGCAGTGAAAATGATTCGTGATGTCTCTTCCTTTAATATTCGTATTGCTCGTCAAAAAATAGGGATTGCTGAACCGCTTTTGCCATATTTGTATGAAAAAAGATGGTTAAACACGATGGTAATTGGCCCTCCGCAAACGGGAAAAACGACGCTTTTAAGAGATGTAGCACGTTGCATGAGTCAAGGGGTAAGTGCTTCGGAAATTCCTTCCTGTAAAGTGGGGATCGTTGATGAACGGTCAGAAATTGCCGGCTGTGTGAAAGGGATCCCGCAATATGATTTTGGTACCCGAGTCGATGTGTTAGACGCATGTCCAAAGGCAGAAGGAATGATGATGATGATTCGTTCTATGAGTCCTGATATTTTGATCGTAGATGAAATTGGTCGTAAAGAAGATAGTGAAGCAATTATGGAGGCAGTGCATGCAGGTGTTCAGCTTTTTATAAGCGCACACGGATTTTCCTATGAGGATGTTGTGAGACGTCCATCGCTCAAGGCAGTGCTAGAGCTTCGTATATTTGATAGGTTTGTGGAGTTGTCAAAAGCGAGGGGTCCAGGAACGGTTATGCAGGTGAAAGATAAATATGGAAAACCAGTGTTATCAAATAGAAAGGCTGAGGGCGTATGGTGA	MKEVLEVLPKTMKYLIEECEQYDALEEIRVRIGRPLECIAHGKVFFYDYITTAEDAIYLLNKLSQFSIYTMEEELKRGYVTLRGGHRIGLAGKVITEKSAVKMIRDVSSFNIRIARQKIGIAEPLLPYLYEKRWLNTMVIGPPQTGKTTLLRDVARCMSQGVSASEIPSCKVGIVDERSEIAGCVKGIPQYDFGTRVDVLDACPKAEGMMMMIRSMSPDILIVDEIGRKEDSEAIMEAVHAGVQLFISAHGFSYEDVVRRPSLKAVLELRIFDRFVELSKARGPGTVMQVKDKYGKPVLSNRKAEGVW	PGPT0024720_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024720-spoIIIAA-K06390	NA	NA
AK009_06130	513	spoIIIAB		Stage III sporulation protein AB	GTGAAAATATTTGGTGCAGTGTTAATCGTTGCGGTCAGCACCTTTTTCGGGTTTTCATACGCTAAAAGATACAGTGAAAGGCCGAGGCAACTTAGATTATTAAAATCAGCACTTCAATCATTAGAGGCAGAAATTATGTATGGACACACACCTTTATCAGAGGCTGCCGAGCGATTAGTTAAACAAATGCCGAAGCCATTAAATTGGATATTTCAAAGTTTCGCTAAAAAACTAGAAAGTGGAGAACAAACAGTAAGGGAAGCTTGGATAGATAGTTTGAAAGAGAATTGGAAGTTGACGGCGTTTCAACAAACCGAGTTTGAAATACTGCAGCAATTTGGTGAAACGCTCGGGCAACATGATCGTGAATCACAACAAAAACATATTCGCTTATGTATTACACATTTGGAGAGAGAAGAAGAGGAAGCAAAAGCTTTACAACTGCAATACGAGAAAATGATCAAGAGCTTAGGGGTACTAGCAGGGCTACTTATTGTAATTTTACTGCTATAG	MKIFGAVLIVAVSTFFGFSYAKRYSERPRQLRLLKSALQSLEAEIMYGHTPLSEAAERLVKQMPKPLNWIFQSFAKKLESGEQTVREAWIDSLKENWKLTAFQQTEFEILQQFGETLGQHDRESQQKHIRLCITHLEREEEEAKALQLQYEKMIKSLGVLAGLLIVILLL	PGPT0024725_297	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024725-spoIIIAB-K06391	NA	NA
AK009_06131	204			hypothetical protein	ATGTCCATTGATGTTGGATTAATATTTCAAATCGCCGGAATCGGCATTGTTTTAGCTTTCATTCATACTGTACTAAAAGAATTGAAGCGTGAGGATATTGCAAATTGGGTTATCCTTGTCGGTTTTGTCGTCATTTTATTTCATGTCGCATTTTTAATTAATACGCTATTCGACAAGATTAAAAGTGTCTTTCTCTTCCAGTAA	MSIDVGLIFQIAGIGIVLAFIHTVLKELKREDIANWVILVGFVVILFHVAFLINTLFDKIKSVFLFQ	PGPT0024730_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024730-spoIIIAC-K06392	NA	NA
AK009_06132	279			hypothetical protein	ATGTTTCTTATTTTAATTGATCAAATTCATGCTATTTTACAAATGATTGAGAGAGTAGCGAGTGAAGCGAAAGTTAGTAACGTCTATGTGGAAACGTTACTAAAGATTATTGGAATTGCTTATATTGCTGAGTTTGGAGCCCAAATTACAAAAGATGCTGGTCAAGGTGCCATCGCTTCGAAAATTGAACTTGCTGGGAAAATCCTCATTCTCGTTATGGCAATTCCTATTTTGACGGTTGTAATTGAAACTATTCTCGGATTTTTACCGACGGGATAA	MFLILIDQIHAILQMIERVASEAKVSNVYVETLLKIIGIAYIAEFGAQITKDAGQGAIASKIELAGKILILVMAIPILTVVIETILGFLPTG	PGPT0024735_343	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024735-spoIIIAD-K06393	NA	NA
AK009_06133	1173	spoIIIAE		Stage III sporulation protein AE	ATGTTGAGGAGGTTTGGAGCTAAGCTGCTATTTGCTTGCTTCCTTTTCTTTTCTTTACCGGTTGTTGTACAAGCTTCTCCTGTAGAAACAAACGTCGTTGATCAACAATTGGATAAGCTCGGAATTGAAGATGTGAAGCAATTTTGGGACGGGCTTGTTACAAAATATGGAGGCTATTTGCCAGAGAGTCAAAAAGGGAGTTTTATGGAGTTTGTAAAGGGAGAAAAAGAATTCTCTCTAAAAGAGTGGATGATAGGGTTATTAAAATATTTATTTCATGAGCTTGCAGCTAATGGAAAACTGCTTGGCACACTTATTATGCTCACAATCTTTAGTGCATTGTTGCAATCACTGCAATCCGCTTTTTCAAAAAGTAGCGTAAGTAAAATTGCTGATGCTGTTGTATATATGGTACTTATTATTTTTGCTTTAAATAGTTTTTATGTCGTTATGACATATGCAAGAGAAACGATACAAACAATGGTAGATTTTATATTAGCATTATTGCCAATTTTGCTGGCGCTTATAGCAACTGGCGGGGGGGTTGTATCTGTATCGTTTTTTCATCCGGTTATCATTTTCTTAATGAATACGAGTGGGCTTCTTATGAATTATATCGTTCTACCACTTTTATTACTGGCAACGATATTAAGTATTGTAAGTACAATGAGTGATCAATATAAAGTGACGAAATTGTCCAAGCTTCTGCAAAATGTTAGCGTTGGGATTATCGGTATTTTTTTAACGATTTTTTTAGGAGTATTATCTGTACAAGGAACAGCAACAGCTGTTGCTGATGGAATAGCTGTGAAAACTGCTAAATTTGTAACAGGAAACTTCATTCCAGTAGTTGGAAGGATGTTTACAGAAGCGGCAGATACTGTTATTAGCGCATCAGGATTATTGAAAAACACAGTCGGAATTATTGGGCTCGTCATTTTATGCTTAATTGTTGCCTTTCCAGCGATTCAAATTTTCTGTATCGCATTTATTTATAAATTCGCAGCAGCAGTATTGCAACCGGTTGGCAGCGGAGCAATTATTCAATGCTTAGACATTATTGGACGAAGCATCATTTACGTATTTGCTTGCTTAGCTATCGTATCATTTATGTTCTTTTTAAGTATTACAATTATTATTGCTGCGGGGAATATTACACTTATGATGCGGTAG	MLRRFGAKLLFACFLFFSLPVVVQASPVETNVVDQQLDKLGIEDVKQFWDGLVTKYGGYLPESQKGSFMEFVKGEKEFSLKEWMIGLLKYLFHELAANGKLLGTLIMLTIFSALLQSLQSAFSKSSVSKIADAVVYMVLIIFALNSFYVVMTYARETIQTMVDFILALLPILLALIATGGGVVSVSFFHPVIIFLMNTSGLLMNYIVLPLLLLATILSIVSTMSDQYKVTKLSKLLQNVSVGIIGIFLTIFLGVLSVQGTATAVADGIAVKTAKFVTGNFIPVVGRMFTEAADTVISASGLLKNTVGIIGLVILCLIVAFPAIQIFCIAFIYKFAAAVLQPVGSGAIIQCLDIIGRSIIYVFACLAIVSFMFFLSITIIIAAGNITLMMR	PGPT0024740_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024740-spoIIIAE-K06394	NA	NA
AK009_06134	633	spoIIIAF		Stage III sporulation protein AF	ATGCAATTTGTTACAGAGTGGATTAGAAATATTATCGTTTTTTTGCTCTTAGCGACAATGCTTCATCTTATTCTTCCAAATTCGAATTTGCAAAAATACGTTAAATTTGTTGTAAGTCTTTTGTTAGTTGTATTAATTTTAACGCCTCTTTTTAAATTATTGCAGACAGATGTAAATGAAGTAATTGCAAATTTTAATGAAGAAAAGTACGTAGCAGAAGGATCTGTAAAAAATTCAATAGATTCGAAGAAAAAAGAAATACAAGCTCTAACACGTGCATATAGTTTAGAAGAGATGGCTACCAAAATGAAAAAAGAAGTAGGAAAAGAGTTTGAGAAAAAGTATGGTATGACTGTCTCTGAAATACAAATAGTCGCAGCAGAAAATACAGAAGAAGTAAAGTCGGCGAAAGATATTCAATCTGTTGTTGTGACGTTGAAAGAAAAAGAACGCAGTAAAAATGATGCAATCGAAACAGTAAAGCCAATTGAAATTAATACGAAAGAGCCTCCAAAAAAAGTGGAAGAAACGAATGTGGAAATGAAAGATTTCTTTTCAAGCAGGTGGCAACTAGAGGGTAAACAAATCCAAGTTCAAATGGAAGGGAGGACAGGTAGAGTAAATGGACAATAA	MQFVTEWIRNIIVFLLLATMLHLILPNSNLQKYVKFVVSLLLVVLILTPLFKLLQTDVNEVIANFNEEKYVAEGSVKNSIDSKKKEIQALTRAYSLEEMATKMKKEVGKEFEKKYGMTVSEIQIVAAENTEEVKSAKDIQSVVVTLKEKERSKNDAIETVKPIEINTKEPPKKVEETNVEMKDFFSSRWQLEGKQIQVQMEGRTGRVNGQ	PGPT0024745_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024745-spoIIIAF-K06395	NA	NA
AK009_06135	663			hypothetical protein	ATGGACAATAAAGATAAAAATTCGAAGTTCTCATTTTTTCGAAACTTATTGAATGGGGATCAAAAAGAAAGCAACGAGAAGGGTAAAAAGGTAACACCTAAGTTTTTACTTGTCCTACTCATACTTGGAATTTTGCTTATGTTTTCTAGTAGTCTATTTTCAAGTAAAAAAGAAGAAGTACCTGTATTTAAAGAACAAAAAACTCAAAACCAAGAAAAAGACTTACCAACTTTCGGACAAAAAAATAATGATAGTATGTCAAATGTAGAAAAATATGAAAAAGCGTATGAACAAGAATTAAAAGCTGCTTTAGAAGAAATAGCAGGAGTAAAAGACGTAACGATTAAAGTGAATTTAGATTCATCTGAAGAAAAAATTTTAGAAAAAAATACAGTGAAACGCTCACAAACAACAGGTGAAACAGATAAAACAGGCGGTAAGAGAGAAGTAGAGGACGAGTCTCTTGATGAAAAGACTGTCATTATACGTGAAGGGGATAAAGAAACTCCTGTTGTTTTACGAACAGAGAAGCCGAAAGTACGTGGTGTTCTTGTCGTAGCAAAGGGAGTGGATAATATACAAGTTAAAGCAATGGTAAAAGAAGCTGTGATAAGGCTGCTAGATGTACCAGCCCATCGCGTTTCAGTTTCACCGAAAAATTGA	MDNKDKNSKFSFFRNLLNGDQKESNEKGKKVTPKFLLVLLILGILLMFSSSLFSSKKEEVPVFKEQKTQNQEKDLPTFGQKNNDSMSNVEKYEKAYEQELKAALEEIAGVKDVTIKVNLDSSEEKILEKNTVKRSQTTGETDKTGGKREVEDESLDEKTVIIREGDKETPVVLRTEKPKVRGVLVVAKGVDNIQVKAMVKEAVIRLLDVPAHRVSVSPKN	PGPT0024750_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024750-spoIIIAG-K06396	NA	NA
AK009_06136	645	spoIIIAH		Stage III sporulation protein AH	GTGTTAAAAAAACAAACAGTTTGGCTATTAACGATGTTAAGTTTAGTTGTTGTACTATCTGTGTATTACGTGACAACTCCTGACAAAATGAATACAGCATCGCCGGCAACAGGTGAAAAGATTGGACAAGAAAAACAAGGTACTGATAAAGCAGTAACAAACGAAGCACCTAAAGAAACCCCGAAAAAAGAAAATACAAGCAAGGAAACAACAAATAAAGAAACAGACAAAAAAGAAAATACTAAAAAAGAAACAAGTAAAAAAGAGGGTAATGTATCAGTTCAATCAAGTGATGAGAATTTCACAGCCTTACGTATGCAAATGGAAGATCAACGTAGTGAAGCGAAAGCAAAATTACAAGAAGTGATGAATTCTTCGAAATCTTCAGCAACAGAAAAGAGTAAAGCGAAAGATAACTTTGATGCAATCACTACAATGGAAACGAAGCAAGAATTACTTGAGACAGTAATTAAATCTCAAGGAGGATATCCAGATGCTCTTGTAAGAGCTGATGGTACAGATATTAGAGTAACGGTTAAAGCGGCAAAACATTCACAGAAAGAAGCAAATAAAATTATTCAACTTGTAAGAAGTGAAGGCGGATCAAAAGATGTAGGTGTGAAATTTGATCCACCAGCGAAATAA	MLKKQTVWLLTMLSLVVVLSVYYVTTPDKMNTASPATGEKIGQEKQGTDKAVTNEAPKETPKKENTSKETTNKETDKKENTKKETSKKEGNVSVQSSDENFTALRMQMEDQRSEAKAKLQEVMNSSKSSATEKSKAKDNFDAITTMETKQELLETVIKSQGGYPDALVRADGTDIRVTVKAAKHSQKEANKIIQLVRSEGGSKDVGVKFDPPAK	PGPT0024755_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024755-spoIIIAH-K06397	NA	NA
AK009_06137	195			hypothetical protein	ATGATATGGCTCATCCTCTTTTTACCTGCCGTAATCGTTTGGGCATGTGTTCTTTGCATCCACGTCAAATCCGGAAAAAGTAATCATCAGTACCATGAACCATTAATCTTTTACTCACAACGTGTTTCTCCATTCCGAGTTGAACATAGTAAAAATAACTACAAAGACAAAATAGAAAAAAGCTATCGAAAATGA	MIWLILFLPAVIVWACVLCIHVKSGKSNHQYHEPLIFYSQRVSPFRVEHSKNNYKDKIEKSYRK				NA	NA	NA	NA	NA
AK009_06138	489	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTTTAAAATTCAAGAAGTTCGTGAATTAATTAAATTAATTGATAGCTCTAATATTGATGAATTTGAATACAAAAAAGACGGTACAACAATCAAAATGAAAAAGCGTGGTAATGAAGTTGTTGCTGTGCAAGCACCTGCAGCAAAACAAGCTATGCAACCAGTAGCGCCTGTTGAAGTTGAAACGACAGTAGCAGCAGCGCAAGCAGAAGCACCGAAGCAAGAAGAGAAGAAAACTGTTCAAGATGAAAACCTACATAAGATTACCTCACCAATGGTAGGTACATTCTATTCTTCATCTTCACCTGATACACCTCCATATGTAAGTATTGGGGATAGAGTATCGAAAGATTCTATCGTATGTATTGTCGAGGCTATGAAGTTATTTAACGAAATTGATGCTGATGTAGAGGGCGAAATTGTTGAAATTCTTGTTAATAACGGACAGCTTGTTGAGTATGGACAACCGCTATTTCTTGTAAAAGCGTAA	MFKIQEVRELIKLIDSSNIDEFEYKKDGTTIKMKKRGNEVVAVQAPAAKQAMQPVAPVEVETTVAAAQAEAPKQEEKKTVQDENLHKITSPMVGTFYSSSSPDTPPYVSIGDRVSKDSIVCIVEAMKLFNEIDADVEGEIVEILVNNGQLVEYGQPLFLVKA	PGPT0001700_1170	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
AK009_06139	1353	accC_1	COG0439	Biotin carboxylase	ATGATAAAAAAAGTATTAATAGCCAATCGTGGGGAAATTGCTGTACGAATTATTCGTGCTTGTAAAGAAATGGACATTGAAACAGTTGCAATTTATTCAGAAGCAGATAAAGAGTCACTTCACGTACAGATTGCAGATGAGGCGTATTGTGTAGGACCAACGATTTCGAAAGAAAGCTATTTAAATTTGACGAATATTATTAGCGTTGCGAAGTTAACAGGCTGCGATGCTATTCATCCGGGATACGGATTTTTAGCAGAGAATGCAGATTTCGCAGAGTTATGCCGTGAATGTAACTTGATTTTTATCGGTCCAAGTCCAGAAGCTATTTCAAAGATGGGCACAAAAGACGTTGCTCGTGATACAATGAAAGAAGCAGGGGTTCCGATTGTACCAGGTTCACAAGGGATTATTAAAAATACCGAAGAAGCGATCGAGCTTGCTAATCAAATTGGATATCCAGTCATTATTAAAGCGACTGCAGGTGGCGGCGGAAAAGGTATTCGTGTTGCACGCCATGAAGAAGAGCTTATAAAAGGAATTCAAATTACACAGCAAGAAGCTAGTACCGCTTTTGGGAACCCTGGTGTATACTTAGAAAAGTACGTTGAAGATTTCCGCCATGTTGAGATTCAAATAATGGCAGATACACACGGAAATGCCATTCATTTAGGAGAGCGTGATTGTACAATTCAGCGCCGTTTGCAAAAACTATTAGAAGAAAGTCCATCACCTGCACTTGATGAAGATATTCGCAAGCAGATGGGTGAAGCGGCAGTTAAAGCGGCGGTAGCGGTTGATTATACAGGTGCTGGTACGGTTGAGTTTATTTATGAATATAAAACGAAAACCTTTTATTTCATGGAGATGAATACGAGAATTCAGGTTGAGCATCCAGTTACTGAAATGGTAACGGGAATGGACTTAATTAAAGAACAAATTCTTGTTGCTTCAGGAGAAAAGTTATCGTTACAGCAAGAAGAAGTACAATTTAATGGTTGGGCAATTGAATGTCGAATTAATGCGGAAAACCCTGCCAAAAAATTCATGCCATCTCCAGGTAAAGTAGAAATGTACTTACCACCAGGAGGATTTGGTATTCGCGTCGATTCAGCTGTATATCCGGGATATTCAATCCCACCTTTCTATGATTCGATGGTTGCTAAATTAATTGTTCACGGAAAAACACGTGAAGAGGCAATTGCAAAAATGAAGCGCGCACTTAGTGAATTTGTCATTGAAGGCGTACATACAACAATCCCGTTCCATTTGCAATTGCTAGATCATCCTGATTTTGTAAAAGGTGAGTTTAATACGAAATTTTTGGAAGAGCATGAACTTGTGACGCAGTGA	MIKKVLIANRGEIAVRIIRACKEMDIETVAIYSEADKESLHVQIADEAYCVGPTISKESYLNLTNIISVAKLTGCDAIHPGYGFLAENADFAELCRECNLIFIGPSPEAISKMGTKDVARDTMKEAGVPIVPGSQGIIKNTEEAIELANQIGYPVIIKATAGGGGKGIRVARHEEELIKGIQITQQEASTAFGNPGVYLEKYVEDFRHVEIQIMADTHGNAIHLGERDCTIQRRLQKLLEESPSPALDEDIRKQMGEAAVKAAVAVDYTGAGTVEFIYEYKTKTFYFMEMNTRIQVEHPVTEMVTGMDLIKEQILVASGEKLSLQQEEVQFNGWAIECRINAENPAKKFMPSPGKVEMYLPPGGFGIRVDSAVYPGYSIPPFYDSMVAKLIVHGKTREEAIAKMKRALSEFVIEGVHTTIPFHLQLLDHPDFVKGEFNTKFLEEHELVTQ	PGPT0001705_2432	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
AK009_06140	393			putative protein	ATGGCTGAACATATGTTAGATATGGGTCAAGATACAACTCTTGGTAAAGTAGAAATTGCACCAGAAGTAATTGAAGTAATTGCAGGTATTGCAGCTGCTGAAGTAGAAGGTGTAGCGGCAATGCGCGGTAATTTTGCTACAGATGTTGTTGAGAAGTTAGGTAAGAAAAATCATGGTAAAGGTGTAAAGGTTGAATTAGCAAACGAAGATATTATCGTTGACCTTTATGTTGTAATGTATTTTGGTGTAGCAATTCCAGTTGTTGCTCAAAAGATTCAAGACAATATTCGCCAAGCGCTCTTTACAATGACAGGACTTGAGCCAAAAGAAGTGAATGTTCACATCGTTGGCGTAACATTCGAAACACAAAAAACAGAAATCGAACCAGTGTAA	MAEHMLDMGQDTTLGKVEIAPEVIEVIAGIAAAEVEGVAAMRGNFATDVVEKLGKKNHGKGVKVELANEDIIVDLYVVMYFGVAIPVVAQKIQDNIRQALFTMTGLEPKEVNVHIVGVTFETQKTEIEPV				NA	NA	NA	NA	NA
AK009_06141	393	nusB	COG0781	Transcription antitermination protein NusB	ATGAAACGTAGGACGGCTAGAGAAAGAGCAATGCAAGCATTATACCAAATGGATATTACAGGTGAATTAGAACCGAAAGTAGCAGTGGAAAACACGCTAGATGAAGGCGAAGAAACAAATGAGTTTCTAGAGTCACTTGTAGTGGGTTTTGTAGAAAATAAAGAAGCAATCGATGAAGCGATTCGTCAAAACTTAAAAAAGTGGAAGCTTGAGCGTATTAGTATTGTTGATCGCAGTATTTTACGTGTAGCTGTGTATGAAATGAAATACATGGAAGAAATTCCACACAACGTAACAATTAACGAAGCAATTGAAATTGCTAAAACATTTGGGGATGAGGAATCTCGTCGTTTTATTAACGGCGTTTTATCTAATATAAAAGATACACTGTAA	MKRRTARERAMQALYQMDITGELEPKVAVENTLDEGEETNEFLESLVVGFVENKEAIDEAIRQNLKKWKLERISIVDRSILRVAVYEMKYMEEIPHNVTINEAIEIAKTFGDEESRRFINGVLSNIKDTL				NA	NA	NA	NA	NA
AK009_06142	861	folD		Bifunctional protein FolD protein	ATGGTAGCAGTAATCATCAAAGGAAATGAAGTTGCGGAGAAAAAACGAGCACAATTAACAGAAGAAGTTGTGAAGTTGAAAGAGCAAGGGATTGTACCAGGATTAGCAGTTATTTTAGTTGGAGAAGATCCAGCATCTCGTTCTTATGTAAAAGGAAAAGAAAAAGGCTGTGAACAAGTAGGGATTTACTCAGAGCTAATTGAACTTCCTGAAACAATTACTGAGGAACGCTTGCTTGCTGAAATCGATCGCTTAAATGGCGATGACCGTATTAATGGCATATTAGTGCAATTACCTTTACCGAAACATATTGAAGAAAAAGCTATCATTGAAAGAATTTCACCAGAAAAGGATGTAGATGGATTTCACCCAATTAGCGTGGGACGTATGATGACGGGACAAGATACATTCCTTCCATGTACACCGCACGGTATTGTAGAATTAGTAAAAGAAACGAATCTTGATATTTCTGGAAAACATGTAGTAGTAATTGGAAGAAGTAATATTGTCGGTAAACCAGTGGGACAATTGTTCTTAAATGAAAATGCAACTGTCACATATTGTCATTCTAAGACGCAAAATATGAAAGAGTTATCGAAGTTAGCGGATATTTTAATCGTAGCTGTTGGACGACCTAAAATGATAACAGCGGATTATATTAAAGAAGGAGCGGTTGTAATTGACGTTGGTGTAAACCGTTTAGAAACAGGGAAACTTTGTGGTGATGTTGATTTTGACAACGTGTTAAATGTTGCGGGTTACATTACACCTGTGCCAAAGGGTGTTGGTCCAATGACAATCACAATGCTTCTTCATAATACTGTTGAATCTGCCAAACGTGCAGGTGTCGTTTGTAAATAA	MVAVIIKGNEVAEKKRAQLTEEVVKLKEQGIVPGLAVILVGEDPASRSYVKGKEKGCEQVGIYSELIELPETITEERLLAEIDRLNGDDRINGILVQLPLPKHIEEKAIIERISPEKDVDGFHPISVGRMMTGQDTFLPCTPHGIVELVKETNLDISGKHVVVIGRSNIVGKPVGQLFLNENATVTYCHSKTQNMKELSKLADILIVAVGRPKMITADYIKEGAVVIDVGVNRLETGKLCGDVDFDNVLNVAGYITPVPKGVGPMTITMLLHNTVESAKRAGVVCK	PGPT0008075_3246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
AK009_06143	1359	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	ATGGAGAAGCAATATTTAACCGTTACAGCGTTAACACGCTATATAAAAACAAAAATAGAATATGATCCGCATTTGCAGTCTGTTTGGTTAAAAGGTGAAATTTCCAACTTTAAAAATCATAGCCGTGGCCACATGTATTTTACATTGAAAGATGAAAATGCAAGAATCGCAGCGGTTATGTTTGCGGGTCATAATCGTAATATTAAATTCAAACCTGAAAATGGGATGAAGGTACTCGTGAAAGGGAAAATCTCTGTTTACGAGGCGAGTGGTTCTTATCAAATTTATATTCAAGACATGCAGCCTGACGGAGTCGGAAATTTACATTTAGCGTACGAACAGTTAAAAGTTCGTTTAGAAGAAGAAGGACTTTTTTCTCAAGTTTATAAAAAAGCAATTCCTCCTTACGCTAAAACAATAGGTGTGATTACGTCGCCAACAGGAGCAGCGATTCGTGATATTATAACAACGATTAAACGTCGTTATCCAATTGGGAATGTTATTGTATTTCCGGTACTTGTACAAGGGGAGTCAGCGGCTCCCTCGATTGTACAAGCGATTCGTACAGCGAATGAAATGGGAGAGATAGATGTACTAATCGTTGGCCGTGGTGGAGGTTCTATTGAGGAATTATGGGCTTTCAATGAGGAAATGGTTGCAAGAGCAATCTTTAAGAGTGAAATTCCTATTATTTCGGCAGTAGGCCATGAAACGGATTTTACAATCGCAGATTTTGTTGCAGATTTACGCGCGCCAACACCGACTGCAGCAGCTGAGCTGGCAGCACCTAACATTATAGAGTTACAAGAAAAGGTATTGCAAAGAACTCTGAGATTGCAAAGAGCGATGAGAGAGTTAGTACATAAAAAAGACGAAAAACTACAAGTGTTGCAAAAATCGTATGCGTTCCGTTATCCAAGACAAGTATATGAGCAAAAGGAAGAGCAATTAGATAGAGCGCTAGAACAGCTTGTTTTAGCGAAAGAGCGCTATATTGATAAAAAGGTGAATCAGTTAAAGCAACTTTCATTTTATTTAGAGAAGCACCACCCATCTCAAAAAATTATGCAAACAAAGGTAGCTGTTGAAACGTTGCAAAAGCAATTACAACGTGAAATGCAAACGTTACTTCAAACGAAAGAATTTGCCTTTGTAAGAGCTGCTCAAAAACTTGAAGCGTTAAGTCCGCTTAAAGTAATGATGAGAGGGTACGGGCTTGTATATGATGAAGAGAAGCAAGTGTTAAAAAGTGTGAAAGATGTAAGCCTTGGAGATGCTGTTTCAGTTCAATTACAAGATGGAATACTAGATTGTAGCGTATCAGGCATAGAGGAGCGTGAATTGAATAATGGAAAATAA	MEKQYLTVTALTRYIKTKIEYDPHLQSVWLKGEISNFKNHSRGHMYFTLKDENARIAAVMFAGHNRNIKFKPENGMKVLVKGKISVYEASGSYQIYIQDMQPDGVGNLHLAYEQLKVRLEEEGLFSQVYKKAIPPYAKTIGVITSPTGAAIRDIITTIKRRYPIGNVIVFPVLVQGESAAPSIVQAIRTANEMGEIDVLIVGRGGGSIEELWAFNEEMVARAIFKSEIPIISAVGHETDFTIADFVADLRAPTPTAAAELAAPNIIELQEKVLQRTLRLQRAMRELVHKKDEKLQVLQKSYAFRYPRQVYEQKEEQLDRALEQLVLAKERYIDKKVNQLKQLSFYLEKHHPSQKIMQTKVAVETLQKQLQREMQTLLQTKEFAFVRAAQKLEALSPLKVMMRGYGLVYDEEKQVLKSVKDVSLGDAVSVQLQDGILDCSVSGIEERELNNGK				NA	NA	NA	NA	NA
AK009_06144	231	xseB_1	COG1722	Exodeoxyribonuclease 7 small subunit	ATGGAAAATAAATTAAGCTTTGAAGAGGCAATTTCGCAACTTGAGCATCTTGTTTCTAAGCTAGAACAAGGTGACGTACCGTTAGAAGAAGCGATTTCTTATTTTAAAGAGGGCATGGAATTATCTAAGCTTTGTGATGAGAAGTTGAAGAATGTACAAGAACAAATGGCAGTTATTCTTGGGGAAGATGGAGAGCTTGAACCGTTTACTGCTGTAGGAGATGAAGCATAG	MENKLSFEEAISQLEHLVSKLEQGDVPLEEAISYFKEGMELSKLCDEKLKNVQEQMAVILGEDGELEPFTAVGDEA				NA	NA	NA	NA	NA
AK009_06145	891			Farnesyl diphosphate synthase	GTGACGATTGCTTTTGATACTTTTTTGAAAGAAAGTAAAACTTTCGTAGAAGAGAAACTTGTAAGCTATGCAAATGAATTACAATGTCCAAATGTACTTCGTGAAGCGATGGCATATTCTTTGGAAGCGGGTGGAAAACGTCTCCGCCCGTTACTTTTGTTTGCAACATTACAAGCGTTTGGGAAAGAAAGAAATCTTGGAGTAGGTGCAGCTTGTGCTCTTGAAATGATTCATACATATTCTTTAGTTCATGATGATTTACCTTGTATGGATGATGATGATTTAAGAAGAGGAAAACCCACAAATCACAAAGTATTTGGTGAAGCGATGGCAGTTTTAGCAGGAGATGGCTTATTGACGTATGCTTTTCAAGTAATTATGGCATATGAGCAAAAAGAAATTTCTGCCGAAAAAAAAGTAAGACTTGTACTTGAACTTGCAAAAGCAGCAGGACCAGAAGGAATGGTTGGCGGACAAGTGGCAGATATGGAAGCTGAAGGGAAACGCCTTACGATTGATGAATTGGAGTACATCCATAAACATAAGACGGGAAAACTGCTTGAATTTGCTGTGCTTGCGGGTGCGATACTTTCTGATGCGACAGAAGAGCAAGAAGAAAAGTTGCTTACGTTTGCCAAATATATCGGTCTAGCTTTCCAAATTCGAGATGATATTTTAGATGTCGAAGGAACCGAAGAAGAGATTGGGAAACCGATTGGTAGTGATCTTTCTAACGAAAAGAGTACATATACGACGTTGTTTACTGTAGATAGAGCAAAGGATATTTTAGAAGAAACAATTGCAGAAGCAAAAGGTGCGATTAGCTCCTTGCAATTACAAGATGAATATTTACTATCTATTTGCGATTTAATTGCAAAACGTAATAACTAA	MTIAFDTFLKESKTFVEEKLVSYANELQCPNVLREAMAYSLEAGGKRLRPLLLFATLQAFGKERNLGVGAACALEMIHTYSLVHDDLPCMDDDDLRRGKPTNHKVFGEAMAVLAGDGLLTYAFQVIMAYEQKEISAEKKVRLVLELAKAAGPEGMVGGQVADMEAEGKRLTIDELEYIHKHKTGKLLEFAVLAGAILSDATEEQEEKLLTFAKYIGLAFQIRDDILDVEGTEEEIGKPIGSDLSNEKSTYTTLFTVDRAKDILEETIAEAKGAISSLQLQDEYLLSICDLIAKRNN	PGPT0007560_1775	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
AK009_06146	1893	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	GTGGATCTAACGCAAATTCAAAACCCTAGTTTTTTGAAAGATATGTCTATCAGTGAACTAGAGGGATTGAGTGAGGATATTCGTAAGTTTTTAATTGAAGAGCTCTCTCAAACAGGTGGACATATTGCGCCTAATTTAGGTGTAGTAGAACTCACAATTGCTCTGCATAAATTATTTGATAGCCCGCAAGATAAATTTTTATGGGATGTAGGACATCAATCCTATGTACATAAAATTTTAACTGGACGCGCGAAAGAGTTTGGTACATTAAGGCAATATCAAGGCCTATGTGGTTTTCCGAAACGTTGTGAGAGTGAGCACGACGTATGGGAAACTGGTCATAGCTCGACATCGTTATCGGCTGCAATGGGAATGGCTCTGGCACGTGATTTAAAGAAAACGAAAGAATATGTTATACCAATTATTGGAGATGGTGCTTTAACAGGCGGAATGGCTTTAGAGGCATTGAACCATATTGGACATGAAAAGACAGATATGATTGTTATTTTGAATGATAATGAAATGTCAATTGCACCAAACGTTGGTGCGCTCCATAATGTACTTGGTCGTTTACGTACCGCAGGAAAATATCACTGGGTAAAAGATGAATTAGAGTATATATTAAAGAAAATCCCAGCAGTTGGCGGGAAAGTGGCTGCGACAGCAGAGAAAATAAAAGATAGTCTTAAATATTTACTAGTATCTGGTGTCTTTTTCGAAGAGTTAGGCTTTACATATTTAGGTCCAGTCGATGGGCATGATTATGAAAAGCTATTCGAAACGTTGCAATATGCAAAGAAAACAAAAGGCCCAGTGCTTGTTCACGTTATTACGAAAAAAGGAAAAGGTTATAAACCGGCCGAGAGTGACGTTATTGGAACTTGGCATGGAACAGGACCTTATAAAATTGAATCAGGTGACTTTGTTAAGCCGAAAGAAGTTGCACCAGCATGGAGTGCTGTTGTTAGTGAAACAGTACTTAAGCTAGCGAGAGCGGATGAGCGTATCGTAGCAATTACACCTGCAATGCCTGTTGGATCAAAACTTGAGAAATTCCAAAAAGAATTCCCAAATCGTATGATTGATGTAGGTATTGCAGAACAGCATGCTACAACGATGGCAGCAGGTATGGCAACGCAAGGAATGAAGCCATTCTTAGCAATTTATTCGACATTTCTACAAAGAGCATATGACCAAGTTGTTCATGATATATGCCGCCAAAATTTAAATGTTTTCATTGGAATAGATCGCTCAGGATTAGTAGGAGCAGATGGTGAAACGCATCAAGGCGTATTTGATATCTCATTCTTACGTCACTTGCCAAATATGGTGCTTATGATGCCGAAAGATGAAAATGAAGGGCAACATTTAGTTTATACGGCGATGCAATATGAAGATGGACCAATCGCATTGCGTTATGCGCGCGGTAATGGACTTGGCGTTCATATGGATGAAGAATTAAAGGCGATTCCGATCGGTACGTGGGAGACGTTAAAAGAGGGTACACAAGCAGCTATTTTAACGTTTGGTACGACAATACCAATGGCGATGGAAGCCGCTGAGCGTCTTGAAAAAGCTGGAGTTTCAGTGAAAGTAGTGAATGCTCGCTTTATTAAACCAATGGATGAAGCATATTTACATGATCTTCTAGGAAAGAATATACCGATTTTAACGATTGAAGAAGCTTGTTTAATTGGTGGTTTTGGAACAGGAGTAGTTGAATTTGCATCTGAAAATGGTTACCATAGTGCATTAGTTGAACGAATGGGTATTCCAGACCGCTTCATAGAGCACGGAAGTGTAACAAAATTATTAGAAGAAATTGGTTTAACGACAGATGCTGTCGTAGACCGTATTCATACAATGATTCCATCAAAACAAAAAAGGGCGTAA	MDLTQIQNPSFLKDMSISELEGLSEDIRKFLIEELSQTGGHIAPNLGVVELTIALHKLFDSPQDKFLWDVGHQSYVHKILTGRAKEFGTLRQYQGLCGFPKRCESEHDVWETGHSSTSLSAAMGMALARDLKKTKEYVIPIIGDGALTGGMALEALNHIGHEKTDMIVILNDNEMSIAPNVGALHNVLGRLRTAGKYHWVKDELEYILKKIPAVGGKVAATAEKIKDSLKYLLVSGVFFEELGFTYLGPVDGHDYEKLFETLQYAKKTKGPVLVHVITKKGKGYKPAESDVIGTWHGTGPYKIESGDFVKPKEVAPAWSAVVSETVLKLARADERIVAITPAMPVGSKLEKFQKEFPNRMIDVGIAEQHATTMAAGMATQGMKPFLAIYSTFLQRAYDQVVHDICRQNLNVFIGIDRSGLVGADGETHQGVFDISFLRHLPNMVLMMPKDENEGQHLVYTAMQYEDGPIALRYARGNGLGVHMDEELKAIPIGTWETLKEGTQAAILTFGTTIPMAMEAAERLEKAGVSVKVVNARFIKPMDEAYLHDLLGKNIPILTIEEACLIGGFGTGVVEFASENGYHSALVERMGIPDRFIEHGSVTKLLEEIGLTTDAVVDRIHTMIPSKQKRA	PGPT0008960_3075	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008960-dxs-K01662	NA	NA
AK009_06147	840	tlyA_1	COG1189	Hemolysin A	ATGAGCGTAAAAAAAGAAAGAGTAGATGTACTATTAGTAGAGCGAGGACTTATAGAAACGCGTGAGAAAGCAAAGCGCGCCATTATGGCGGGACTCGTATATGCAAATGAAATGAGACTTGATAAGCCAGGAGAGAAAATCTCGCAAGATACTGAGATTACGGTGAAGGGACAAGTTATGCCGTATGTAAGTCGTGGTGGTTATAAACTTGAAAAGGCATTAGAGACATTTCATCTTGATTTACAAGATAAAGTTATGATAGATATTGGTTCATCAACTGGTGGCTTTACAGATTGTGCGCTTCAAAATGGAGCGAAATTATCTTATGCATTAGATGTAGGATACAATCAACTAGCGTGGAAATTACGTCAAGATGAGCGTGTTGTTGTAATGGAACGAACAAATTTCCGTTACGTGACACCAGCAGACTTAGAACGTGGTTTACCTCAATTTGCAAGTATTGATGTTTCATTTATATCATTAAAGCTTATACTGCCAGTTTTAAAAACAATGCTTATGCCTAACGGAGATGTAGCGGCGTTAATTAAACCACAGTTTGAAGCTGGAAGAGAGCAAGTTGGGAAAAAAGGTATCGTTCGTGATAGAAAAGTACATGAAGCTGTTGTAGAAATGATTGTCGAGTTTGCTTTAAAAGAAGGCTATGATGTGGAAGGTTTAACATTTTCACCAATTACGGGTGGAGACGGTAATATTGAATTTTTAATTCATCTGAAATGGCATGGTGAACGTGAGAATGGCGAAAATCATTCTCCGATTTCTATAGAGCAAGTTGTTACAGAAGCGCATGACGTTCTAAAACAAAAAGGGAAAGGGGAATAA	MSVKKERVDVLLVERGLIETREKAKRAIMAGLVYANEMRLDKPGEKISQDTEITVKGQVMPYVSRGGYKLEKALETFHLDLQDKVMIDIGSSTGGFTDCALQNGAKLSYALDVGYNQLAWKLRQDERVVVMERTNFRYVTPADLERGLPQFASIDVSFISLKLILPVLKTMLMPNGDVAALIKPQFEAGREQVGKKGIVRDRKVHEAVVEMIVEFALKEGYDVEGLTFSPITGGDGNIEFLIHLKWHGERENGENHSPISIEQVVTEAHDVLKQKGKGE				NA	NA	NA	NA	NA
AK009_06148	450	argR_3		Arginine repressor	ATGAATAAAGGTCAGCGCCATATTAAAATCAGGGAAATTATTGCAAACAAAGAAATTGAAACACAAGATGAATTAGTTGATATTTTACGTAATGAGGGATTTAATGTAACGCAAGCAACAGTATCGCGCGATATTAAAGAACTGCACTTAGTGAAGGTGCCATTACATGATGGGCGCTATAAATATAGCTTGCCAGCAGATCAACGATTTAACCCGTTACAAAAATTAAAACGAAATCTAGTGGATTCATTTGTAAAATTAGACACGGCAGGACATATGCTTGTGCTAAAAACATTGCCTGGTAACGCTCATTCACTTGGAGCACTTATTGATCATTTAGAGTGGGATGAGATCATCGGAACCATCTGTGGTGATGATACTTGCTTAATTATTTGCCGTACACCTGACGATACAGGTGTTGTCTCTGATCGTTTCTTAAATATGTTGTAA	MNKGQRHIKIREIIANKEIETQDELVDILRNEGFNVTQATVSRDIKELHLVKVPLHDGRYKYSLPADQRFNPLQKLKRNLVDSFVKLDTAGHMLVLKTLPGNAHSLGALIDHLEWDEIIGTICGDDTCLIICRTPDDTGVVSDRFLNML	PGPT0020105_1828	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
AK009_06149	1803	recN_1	COG0497	DNA repair protein RecN	TTGAATGAAGAACTGAGAAAATCCTTTAGTAAGGGATTATTTTATAACGAGGTGAATGGGGCATTGTTATCGGAATTATCGATTAGAAACTTTGCTATTATTGAAGCATTAAATATTTCTTTTCAAAAAGGTTTAACGGTTTTAAGCGGTGAAACAGGGGCCGGAAAATCGATTATTATTGATGCGATTAGTTTACTTGTAGGTGGCCGTGGATCAGCAGAATTTGTTCGATATGGAACAGAAAAGGCTGAGATTGAAGGGCTATTTTATGTTGAAGATGAGAAGCATCCATGTATTGAAAAGGCAGAAGAGTTAGATATAGAAATAGAAGATGGCATGATTATTTTAAAGCGTGATATTGCTGCGAACGGAAAGAGTGTATGTCGTGTAAATGGGAAGCTTGTTACACTTAGCATATTAAAAGAAATTGGGAAATCACTTGTTGATATTCATGGACAGCACGAAACACAAGATTTAATGAATGAAGAACGACATCTGTTTATGCTTGATCACTTTGATGGGGATCGAATCGTTAAACAATTAGACATATATCAAAATGTATACGCTGACTATGAAAAATTAAAAAAACAATTGAAATCGTTAAGTGAAAATGAACAACAAATGGCACATCGCTTAGATTTAATTCAATTTCAGCATGAAGAAATTCGCAAGGCAGATTTAAAGATGGATGAAGAAAATGAATTAACTGAGGAACGATTGCAAATTTCTAATTTTGAAAAGATTTATAAAGCGTTAGGTGATGCATATCGTTCGTTAAGTGCCGACGGACAAGGGTTAGATAATGTAAGAAGTGCAATGGGACAAATGGAAAGTATTACACATTTAGATGAAATGTATCAAGAGAATTATGATTCAATTGCAAATAGCTATTACTTATTAGAAGAGGTTGCCTATCAACTGAGAGAAAAGCTCGATATGATGGAATATGATCCAAATCGTTTAGATGAAATCGAAACACGTTTGAATGAAATTCGTATGCTAAAGAGAAAATATGGAAATACTGTAGAAGAGATTTTAGCGTATGCAGATAAAATTGAACAGGAAATTTTTACAATTGAAAATAAAGACGTTCATATTGAAACGACGAAGAAACAGTTGAAGGAATTAGAGAGTGTTATTCTGAAAGAAGCAACGTTGTTAAGTAATATGCGTCATGAGCTTGCAGAACATCTTACAAATGCAATTCATCAGGAATTAAAAGAATTATATATGGAAAAAACGAAATTTGAAGTGCGAATTATGAAGAGAGCAGGAAATGCAGAAGAACCCCTTGTGGAAGGTGCACCGGTAAGACTTACGGTGGATGGTTACGATCATGTGGAATTTTATATTTCAACGAACCCAGGAGAGCCGCTAAAACCACTTTCAAAGGTTGCTTCTGGCGGAGAGTTATCTCGTATTATTTTAGCTTTAAAAAGCATTTTTTCTAAGCATCAAGGGGTTGCATCTGTTATTTTTGATGAAGTGGATACGGGTGTAAGTGGCCGAGTCGCACAGGCTATTGCGGAAAAAATTTATCGAGTATCAGTAAACTCGCAAGTACTTTGTATTACGCACTTACCTCAAGTAGCTTCAATGGCGGATTCACATTTATTTATTCGAAAACAAGTAGCGAATGATCGGACAATTACATCAGTTACTGTTTTAACTATGGAGGATAAAGTAACAGAAATAGCTCGAATGATTTCTGGTGTAGAAATCACAGATTTAACGACAGAGCATGCGAAAGAATTACTTACGCAAGCGCATCATTTTAAACAGACAGCAGAGGCTATCCAGTAA	MNEELRKSFSKGLFYNEVNGALLSELSIRNFAIIEALNISFQKGLTVLSGETGAGKSIIIDAISLLVGGRGSAEFVRYGTEKAEIEGLFYVEDEKHPCIEKAEELDIEIEDGMIILKRDIAANGKSVCRVNGKLVTLSILKEIGKSLVDIHGQHETQDLMNEERHLFMLDHFDGDRIVKQLDIYQNVYADYEKLKKQLKSLSENEQQMAHRLDLIQFQHEEIRKADLKMDEENELTEERLQISNFEKIYKALGDAYRSLSADGQGLDNVRSAMGQMESITHLDEMYQENYDSIANSYYLLEEVAYQLREKLDMMEYDPNRLDEIETRLNEIRMLKRKYGNTVEEILAYADKIEQEIFTIENKDVHIETTKKQLKELESVILKEATLLSNMRHELAEHLTNAIHQELKELYMEKTKFEVRIMKRAGNAEEPLVEGAPVRLTVDGYDHVEFYISTNPGEPLKPLSKVASGGELSRIILALKSIFSKHQGVASVIFDEVDTGVSGRVAQAIAEKIYRVSVNSQVLCITHLPQVASMADSHLFIRKQVANDRTITSVTVLTMEDKVTEIARMISGVEITDLTTEHAKELLTQAHHFKQTAEAIQ				NA	NA	NA	NA	NA
AK009_06150	1299	spoIVB	COG0750	SpoIVB peptidase	GTGAACAAGTTGAAATTAGAAAAATTTCGAAAAATAATAGGTCTTTGTCTCCTTGTTTCTTTAGTTTTTATTGGATGTTTTAAACCGCTTCGAACGTTTATTTCATCACCGAAACAACTTGTTGTTTTTGAAGGACAACAATCAGAAATATCATCATTACCAGTTTTCAAAGCTTCATCCACAAATCGTCATGTATTTACAGTGAGTTCGAATGAACAAAAACAAGAACTTATGGTAAATTCTCATCAAAATGGTGAAGCTGATATGGTATTTCAGCTTGCTGGTTTTCCAGTGAAAAAAGTAAATGTGAAAGTGTTAAAAGATTTTAAAGTAATTCCAGGTGGACAATCAATTGGTGTGAAATTAAATACAAAAGGTGTACTTGTTGTAGGCCATCATTTAATTCAAACTGAAAAGGGTAAAATATCTCCTGGTGAAACAGCAGGTGTACAAATTGGAGATATGATTACTGAAATTAATGGTAAAACAATTGAAAGAATGAGTGATGTAGCACCGTTTATTCATAATAGTGGAGAAACAGGTGAACCGCTTAATCTTGTATTGTTAAGAGATGGAAAATATATTCGTACGAAGCTAACTCCACAAAAAGACAACGGTGAATCGTCTTATCGAATTGGCTTGTATATCCGTGATTCGGCAGCTGGAATTGGAACGATGACATTTGTTCATCCAGATTCTATGAAATACGGGGCACTTGGTCATGTTATTTCTGATAATGATACGAAAAAGCCGATTCAAGTCGAAGATGGACAAATTATGCGCTCGACAGTCACATCAATTGAAAGAGGTAGTCATGGGAATCCAGGGGAGAAATTAGCAAGATTCTCACCAGATCGTGAAGTGATTGGCAATATTACAATTAATAGTCCATATGGTATTTTTGGCAAATTAAATACGAATATGAAAAACGGTATAATGGATAAAGCGATGCCTATCGCATTATCTCATCAAGTAAAAGAAGGACCGGCAAAAATATTAACAGTTATTGATCAAGATAAAGTAGAAGCGTTTGATATTGAAGTTGTTAGTACAGTGCAACAAAAATTCCCAGCCACAAAGGGTATGGTAATAAAAGTAACAGATAAACGTCTATTAGCGAAAACGGGCGGTATCGTACAAGGGATGAGCGGAAGTCCAATTGTACAAAATGGAAAAGTAATTGGTGCTGTTACGCATGTATTTGTAAATGATCCAACATCAGGATATGGTGTTCATATTGAATGGATGTTACATCAAGCTGGAATTAATATTTATGATCAAGAGAAAAAAGCGAGCTAA	MNKLKLEKFRKIIGLCLLVSLVFIGCFKPLRTFISSPKQLVVFEGQQSEISSLPVFKASSTNRHVFTVSSNEQKQELMVNSHQNGEADMVFQLAGFPVKKVNVKVLKDFKVIPGGQSIGVKLNTKGVLVVGHHLIQTEKGKISPGETAGVQIGDMITEINGKTIERMSDVAPFIHNSGETGEPLNLVLLRDGKYIRTKLTPQKDNGESSYRIGLYIRDSAAGIGTMTFVHPDSMKYGALGHVISDNDTKKPIQVEDGQIMRSTVTSIERGSHGNPGEKLARFSPDREVIGNITINSPYGIFGKLNTNMKNGIMDKAMPIALSHQVKEGPAKILTVIDQDKVEAFDIEVVSTVQQKFPATKGMVIKVTDKRLLAKTGGIVQGMSGSPIVQNGKVIGAVTHVFVNDPTSGYGVHIEWMLHQAGINIYDQEKKAS	PGPT0024775_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024775-spoIVB-K06399	NA	NA
AK009_06151	831	spo0A	COG0784	Stage 0 sporulation protein A	ATGTCGGAGAATCGATTCGGTAAGGGAGGAAAAGCTGTGGAGAAAATTAAAGTATGTCTTGTGGATGATAATAAAGAACTAGTATCAATGTTAGAGAGCTATGTAGCTGCTCAAGATGATATGGAAGTAATCGGTACTGCTTATAATGGTCAAGAGTGTTTAAACTTATTAGCAGATAAGCAACCTGATGTACTCGTTTTAGACATTATTATGCCACACTTAGATGGTTTAGCTGTATTGGAAAAAATGCGACATATTGAAAGGTTAAAACAGCCTAGCGTAATTATGTTGACAGCATTCGGGCAAGAAGATGTGACGAAAAAAGCAGTTGACTTAGGTGCCTCATATTTCATATTAAAACCATTTGATATGGAGAATTTAACGAGTCATATTCGTCAAGTGAGTGGTAAAGCAAACGCTATGATTAAACGTCCACTACCATCATTCCGATCAGCAACAACAGTAGATGGAAAACCGAAAAACTTAGATGCGAGTATTACGAGTATCATTCATGAAATTGGTGTACCCGCTCATATTAAAGGATATATGTATTTACGAGAAGCAATCTCCATGGTATACAACGATATCGAATTATTAGGATCGATTACGAAAGTATTGTATCCAGATATCGCAAAGAAATATAATACAACAGCAAGCCGTGTGGAGCGCGCAATTCGTCACGCGATTGAAGTAGCGTGGAGCCGTGGGAATATTGATTCTATTTCGTCCTTATTCGGTTATACAGTATCCATGTCAAAAGCAAAACCTACGAATTCTGAGTTTATCGCAATGGTTGCGGATAAGTTGAGACTTGAACATAAAGCTTCTTAA	MSENRFGKGGKAVEKIKVCLVDDNKELVSMLESYVAAQDDMEVIGTAYNGQECLNLLADKQPDVLVLDIIMPHLDGLAVLEKMRHIERLKQPSVIMLTAFGQEDVTKKAVDLGASYFILKPFDMENLTSHIRQVSGKANAMIKRPLPSFRSATTVDGKPKNLDASITSIIHEIGVPAHIKGYMYLREAISMVYNDIELLGSITKVLYPDIAKKYNTTASRVERAIRHAIEVAWSRGNIDSISSLFGYTVSMSKAKPTNSEFIAMVADKLRLEHKAS	PGPT0014750_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014750-spo0A-K07699	NA	NA
AK009_06152	972	xerC_9	COG4974	Tyrosine recombinase XerC	ATGAATAACTTTCAGATGAACGTTGAAAACTTTTTGCTTCATTGTGATGCAAAGCATCTAAGTAGGAAAACAATTCGGTCATATGACCAAACGTTGAAGTTATTTACTTCATATTTAGAAAGGGAATTAAAGATTACGGATGTTGATAAGGTAAAACCTCTTCATATTCGGACGTATATTAAATATTTAAGGGAACGGGGTAAATACACATTTACATCTAATACAGCTAGTGAACAAATTAATTATCCAACACGTAGAACTGATTATGGAAAGACCATTAGTGAAACAACAATTGCTAATTACCTTCGTAATATTAAGGTTTTTTTCAACTTTTTAGAAGCTGAAGAGGATATTGCTAAGAATCCAATATCTAATATTGAATCAATAAAGCCGCAACGGAAACAAAAGATATTGTTATCAGTAGATGAAATAAAGAAAGTGTTGTATTCAATAGATATAAGTACATTCCATGGGTTTAGAAGTTACGTCATGATTAAACTTATTTTAGATACAGGCATACGTGCAGGAGAATGTTGTAGTATGCAAGCCGAAGACCTAGATATAAAAAATAAAAGTATCTTAATTACGAATCCGAAAAATAAGAAACAACGATATGTTTATTTTTCTAATATCATGGCTAACGATTTAAAGCGTTGGTTGAAGTATAGGGATAGATTTAGTGATGCAGAGTATTTGTTTCCTACGATAAGAGGGACAATGTTGAACGTCAATAATTTTGAGGCGAGTATTAGAAGTATTGGTAAAAAGGTAGGTGTACATTTCACACCTCACCAATTAAGAAATAACTTTGCAAAGTATTACATTCTTAATGGTGGTGATTGGTTTAGCTTGTCTAGGGTATTAGGTCATTCATCGGTAGAAGTAACTCAAAGGGCGTATTTAGACTTTACTGATGATGAGATAAAAAATAAATATCAACGTCATTCACCACTAGCAAGTATGAAATTCTAA	MNNFQMNVENFLLHCDAKHLSRKTIRSYDQTLKLFTSYLERELKITDVDKVKPLHIRTYIKYLRERGKYTFTSNTASEQINYPTRRTDYGKTISETTIANYLRNIKVFFNFLEAEEDIAKNPISNIESIKPQRKQKILLSVDEIKKVLYSIDISTFHGFRSYVMIKLILDTGIRAGECCSMQAEDLDIKNKSILITNPKNKKQRYVYFSNIMANDLKRWLKYRDRFSDAEYLFPTIRGTMLNVNNFEASIRSIGKKVGVHFTPHQLRNNFAKYYILNGGDWFSLSRVLGHSSVEVTQRAYLDFTDDEIKNKYQRHSPLASMKF	PGPT0022000_2689	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_06153	837			hypothetical protein	ATGAAAGGTGAAGAAGGAATGATAAATGAATTTAGGCATTTGGATGAAGGGTATACAGTAATATATTGCCCAGATGCAGAAACGCAACAAATGAAAGAGGTATATATTGAAACAGAAGATTTTTCAAAGATTGATATTGCCATAAAAGGGGCATGGAAAAGTTGGAAAAGGGATAAGAAAAAATTTATAGGCGGAGTTGATGGACGAAAAGCAATTAATTTAGCACGACTCATTATGGGTATTGATAATAAGTTAAAACACGTTCTAAATTTAACAGATAATCCTTATGATTTGAGAAAATGTAATTTAATTGTTATTAATTGTGGAGATAACCAAAAATCAGACGTAAGAAGTAAAATAGAAGAATTGAAAAGAAAGGTGCCACCTATATTAAAAATTCAAAAGGAAAAACCTCAAGCATCAATGCAACAGCAGTTAGTACTGCACAATGATGAAGGTGGAAAGTATTTAAACCGTGCTGAAGCAGCTGAAAATCTAGGGATTGCAAAGAGTACTATTAATTATTGGAATAAACGAAATAATCTTTCTGTAAAAAGGGATGAAATGGGGAAGGTTATATATGATGATGAGTTAATGGGAAAACTGAAAGAAATAAAAGATACAGCAAAGCTAATAAGAAAAGAAAAAGTAAAAAAAGAGGATTCAGCAAAACAACAGAATCCCCAAAAACAAGATATCCGAATTCTGAAAGATTACAAAACCAATGACTATTTGTTAGTGGAAATAGAGAGTGCTGGCACACTTTCTGTAATAAAAAAATTTAATAAGAAACAAATAGAACAATTGAGAGAATCTTTTTCGAATATACTTTTATAA	MKGEEGMINEFRHLDEGYTVIYCPDAETQQMKEVYIETEDFSKIDIAIKGAWKSWKRDKKKFIGGVDGRKAINLARLIMGIDNKLKHVLNLTDNPYDLRKCNLIVINCGDNQKSDVRSKIEELKRKVPPILKIQKEKPQASMQQQLVLHNDEGGKYLNRAEAAENLGIAKSTINYWNKRNNLSVKRDEMGKVIYDDELMGKLKEIKDTAKLIRKEKVKKEDSAKQQNPQKQDIRILKDYKTNDYLLVEIESAGTLSVIKKFNKKQIEQLRESFSNILL				NA	NA	NA	NA	NA
AK009_06154	210			hypothetical protein	GTGAACAGAAAGACAGAAGGAGTAAGCATCAAGCCATTAAGACAAGATAGTGAATTCATTGTTCTAACGTTGTTTCTTATCTTGGTGACATCGACAACAAGTTTTAAAAACCCCGGATTATCGGATTATGTTGGAATTGCATCAACAATCGTACTGATCGCAGCCATCGGACTTAAACTAATAGCAAATTGGTATAACAAAAAGGACTAG	MNRKTEGVSIKPLRQDSEFIVLTLFLILVTSTTSFKNPGLSDYVGIASTIVLIAAIGLKLIANWYNKKD				NA	NA	NA	NA	NA
AK009_06155	276			hypothetical protein	GTGGAAAACAATAAAGCATTAGACATCATGTTACACGGGAAAACAATTCGATTCTTTCGTTCCTTAAAAGGTGTATCTTGTCGAGAACTAGCGGAGATAAGCGGCGTTAAACAATCATTACTTCATAAGTTCGAAACGGGGCGTCGCAACATAACTCAATTATCGAACTATCGTATCACACGGGCATTACAAAGTATGGGACTGGATTTAGACGAAATACTTGTAATCAACTTGTATGTAATCCAAAAACACGGGGGTATCACATCAAATGAGTAA	MENNKALDIMLHGKTIRFFRSLKGVSCRELAEISGVKQSLLHKFETGRRNITQLSNYRITRALQSMGLDLDEILVINLYVIQKHGGITSNE				NA	NA	NA	NA	NA
AK009_06156	378			hypothetical protein	ATGAGTAAGAAGCTAACACCAACACAAAGGGATTTTGTAACAGAAGCTTTTTATAGAAAACGAAATGGAGAAAGTTACATCAGTATTGCGGAGTCATTCGGTATCGACCGTAGGACCTTGTTCGGATACAGAAATTGCGAAGAAGGTCAGCAAATTGAAAAGGAATTGCGTCAGAATCTCATATCACAATCCTTTGAGAGTATTATGGAAACCGTGATTGATAAAGCCCGTCTAGGGTCGTTCCAACATGCGAAATTGTTTATGCAGGTTACTGGAAAGTTGAAAAATGAGGAAGTGAACGTGAAGCAAGAAATGAATGTTACGAAAGAAACGACGCCAGAATTGCTAGCACAAATTGACGAGTTACTCAAACAATAG	MSKKLTPTQRDFVTEAFYRKRNGESYISIAESFGIDRRTLFGYRNCEEGQQIEKELRQNLISQSFESIMETVIDKARLGSFQHAKLFMQVTGKLKNEEVNVKQEMNVTKETTPELLAQIDELLKQ				NA	NA	NA	NA	NA
AK009_06157	630			hypothetical protein	ATGGGACTATTATTTAAAAATAGTGTAGAAAAAGCGGATAAAATCATTGCGAAGTACGAAGCGAAACGCACGGAACTACAAGGGAAGATTGTTCAATTAAATGACGATGCACGTTTCTTGCAAAGTGCGGTAGAAGACGATTTTCAGCGTGCAATCATGGAAGATGGCACACCAAACGAGAAGTTGAAAACGGACTTGAATAAAGTTCATGCGGAACGTGAACAAGTTCAGAAGATGCTAGGTAATATGGACAATCTTTTGCGGAAAGCACTTGAAGGAATACGTTCAGAAGTCGAAGCAGATCGCGAGAAGATTTTCAAAAAAACAATGCAAGAACAAGAAGTTATGACGACGAGGTTAAAGGATGCGAAGCTAGCTTATTTGAAGTTACTTGTTGAGTACAGCGACGTAGCGGGTAACGTTGACCGTGAATTAGCTAAGTTTGGTCAGATTGAACAACGATTAGGATTAGAACCAATTCCGCATTATAAACGTCGTGCGTTTGAATTTAATGTGAACCGTAACTATGACAATACTTTTCATCCAATTATAATAACCGAAGATTCCAAAGGGGCGTTTGGTGGGCTTTTAGGCTACTACGCGATCCAATACGAAGGGCAAACGAAATAG	MGLLFKNSVEKADKIIAKYEAKRTELQGKIVQLNDDARFLQSAVEDDFQRAIMEDGTPNEKLKTDLNKVHAEREQVQKMLGNMDNLLRKALEGIRSEVEADREKIFKKTMQEQEVMTTRLKDAKLAYLKLLVEYSDVAGNVDRELAKFGQIEQRLGLEPIPHYKRRAFEFNVNRNYDNTFHPIIITEDSKGAFGGLLGYYAIQYEGQTK				NA	NA	NA	NA	NA
AK009_06158	273			hypothetical protein	ATGGCAAACCAAGAACTAACACCATTACAATTGATAATGGTTGGATATGAAGAATTGAAGAAGGAAGCAACAAAAGAAGAAGACGCGGCGGCGACGCTTGCAAAGGAACAAGAAAAGGTTGCTGAAGGCGTTGCATTGAAACAATCGGGGAAGACGTTTTTTGAAATGTTCAATGAGGGTAATCCATTCAAAAAAGCCGTGCCGGCACACTTGCTTGTTAAAGCGGGCTACGACATTAATAATCGTCCCGAAGATGCAGGAACAACAGAATAA	MANQELTPLQLIMVGYEELKKEATKEEDAAATLAKEQEKVAEGVALKQSGKTFFEMFNEGNPFKKAVPAHLLVKAGYDINNRPEDAGTTE				NA	NA	NA	NA	NA
AK009_06159	576	hin_3	COG1961	DNA-invertase hin	ATGATTATTGGATACGCAAGGGTTAGTACGGTAGAACAGAATTTGGACGCACAATTAAAAGCACTGGAAGAAGCAGGGGCTACGAAAATATACCAAGATAAGAAGTCAGGAAAAGATATGCACCGTGAAGGATTACAAGAAATGCTTTCTACGTTAAAAGCGGGGGACACTTTGGTCATTACAAAGATTGATAGAATCGCTAGAACAATTAAAGGTGGCATTGAATTAATCGAAGAATTAACTTCGAAAGGAATCAAATTACACATTCTTAATATGGGCTTATTCGACGGTTCTCCTACGTCTAAACTAATCATGAATGTTTTACTATCCGTTGCTGAATTCGAACGTGAGATAATGCTAGAACGTCAACGTGAGGGCATTGCAATCGCAAAGGCAAACGGCAAGTACAAGACGAAGCCGAAGAAGTACCATGATAACAATAAAGCTTTAAATACCGCTTTGGAAATGTTAGCAAATCGTAAATCAAACGGATACACGGTTAAACAGATATGCGAAGAATACAACGTAACGCGATCATCACTATATGCAATTGCGAAGGAAAAGGAGATTCTGTAA	MIIGYARVSTVEQNLDAQLKALEEAGATKIYQDKKSGKDMHREGLQEMLSTLKAGDTLVITKIDRIARTIKGGIELIEELTSKGIKLHILNMGLFDGSPTSKLIMNVLLSVAEFEREIMLERQREGIAIAKANGKYKTKPKKYHDNNKALNTALEMLANRKSNGYTVKQICEEYNVTRSSLYAIAKEKEIL				NA	NA	NA	NA	NA
AK009_06160	921			hypothetical protein	ATGACAAAATTAATTACAAGTCAAGAAACATTTATTATTGACGCTAACGTTCGTGAATCTCACATGAACCGTGTAGAGGTACTGGAAAAGGTGAAAGGCTTGCTACTATTACCTAACTTAGAAATGGCAACTACGAAACAAGTTGCGGATTTTTACGAAGTAAACCAAAATACGCTACGCCAACTAATCAAAGAACATCGTGACGAACTAGAACAGGACGGGCTACATTATAAGAAATATGCTGAAATTAAGGCGTTAGGTAATCTCACGCCTAAACTGAATGAACTAAATGCATTAGGTATTAGCCGTGCGGGGGGAAACGTATTCCCACGCCGTGCAATCTTACGCGTTGGTATGTTACTTCGCGATTCAGAAATTGCAAAAGAAGTTCGAACTCAATTGTTACACATCGAAGAGAAAGCAACAAGTGAAGCTAAAGTCGCGGATATTGATGAAGAGATACAATTACAAATGGCGATAGGACAAGCATTTATGTCGGGCGATATCAACGCACTGGCACATGCTTCTGAAAAATTAATAGATTTTAAAAGTCGTCATATTACTAAAATTGAAAACAAGTTACAAGAACAAAAAACGGTAATTAAAACGTTAGCAAAAGAAGAAATGCGGTATAAAACTCCTGAAAAGATTCTTCGCAAGCTTGTTAATCGTTATTCTGTAGTTATTCACGGTACTATTGGGACAAATAAAGGTTGGCAAGACCTTTGCAGTCATCTTGTAAATAAGTTGGAGAAAGGAATTAATCTGAAGTCTCGAAGAACTAACGCGAGAAGAGGTAACCCTAGGGCGTCGTATATAAGTGTCATCCGTCCTGAAGAATTTGAAATCATTATTCCTGCAATGGTGGGAATATGTATGAGTAGTGGAGTGGATGTTTCCGATATCCTGAAAGATGCTTAA	MTKLITSQETFIIDANVRESHMNRVEVLEKVKGLLLLPNLEMATTKQVADFYEVNQNTLRQLIKEHRDELEQDGLHYKKYAEIKALGNLTPKLNELNALGISRAGGNVFPRRAILRVGMLLRDSEIAKEVRTQLLHIEEKATSEAKVADIDEEIQLQMAIGQAFMSGDINALAHASEKLIDFKSRHITKIENKLQEQKTVIKTLAKEEMRYKTPEKILRKLVNRYSVVIHGTIGTNKGWQDLCSHLVNKLEKGINLKSRRTNARRGNPRASYISVIRPEEFEIIIPAMVGICMSSGVDVSDILKDA				NA	NA	NA	NA	NA
AK009_06161	540	prmC_3	COG2890	Release factor glutamine methyltransferase	GTGCGCCGCCTGACCGAGGCGAGCGCGCCTGTCGTTGTTGACCTCGGCACCGGCTCCGGCGCGCTCGCTATCTACATCGCGCACGCGCGTGACGACGCCCGCGTGACCGCAGTCGAGGCGTCGGCGACGGCGCGTCGATACGCGCGCGCGAACGCTGAGCGGCTCGGCGTCAACGTAGACGTCGTTGCGGGGGACATGACCGACCCCGCGCTGCTGTCCGAGCTTGAGGGCAGGGTTGACCTGGTGGTGTCGAACCCGCCCTACGTGCCACTCGGCCCGGACGTCGGCGCCGAGGTCCTACACGACCCCGACGAGGCGGTGTTCTCCGGCGCTGACGGGGTGGACGCGATCCGCGGCCTCGTGCCCGTCGCGGCGCGCCTGCTCGCCCCCGGCGGCGCGCTCGGCATCGAACACGACGACACGACCTCGCAGCTCGTCCAAGATGTCCTCGCAGCTCACGGTCAGTTCAGCGACGTGCAGGCGCGAGAAGACCTCACCGGGCGGGCCAGGTTTGTCACCGCGAGTAAAGTGAAGCGTTAA	MRRLTEASAPVVVDLGTGSGALAIYIAHARDDARVTAVEASATARRYARANAERLGVNVDVVAGDMTDPALLSELEGRVDLVVSNPPYVPLGPDVGAEVLHDPDEAVFSGADGVDAIRGLVPVAARLLAPGGALGIEHDDTTSQLVQDVLAAHGQFSDVQAREDLTGRARFVTASKVKR	PGPT0008010_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008010-pabAB-K13950	NA	NA
AK009_06162	660		COG0009	Putative threonylcarbamoyl-AMP synthase	ATGGCAAGCCAGACCTACGACTGCCTCACCCCGGCGGGACGCACCGACGGGATCAAGGCGGCGGTGGACGCAATCCGCGCGGGACAGTGCGTGGTCATGCCGACGGACACGGTCTACGGCATCGGCTGCGACGCCTTCAACAACGACGCCGTGGCCAAGCTGCTCGCCACCAAGCGCCGCGGGCCCGACATGCCGGTACCCGTCCTCGTCGGCTCGTGGTCCACGGTCCAGGGGCTGGTGCGCGAGTTCACCGACACCGCGCAAACGCTGGTGGAGGCGTTCTGGCCGGGCGGGCTGTCCATCGTCGTGCCCGAGGCCCCGTCTCTGCCGTGGAACCTCGGCGATACCCGCGGCACCGTCCTTCTGCGCATGCCGAACCAGCCGCTGGCGATTGAGCTGCTGCGTGAGGTCGGGCCGATGGGCGTTTCCTCCGCCAACCTCACCGGCAACGAGCCGCCCGTGACCACCTCGGCGGCGCGACAGCAGTTCGGCAACGCCGTGCCCGTCTACCTCGACGGCGGGCGCTCGACGGTGGGGGAGCCGTCGACAATTATTGACATCTCCGGACCCAGCCCGGTGATCCTGCGCAACGGGGCGATCAGCGCCGAGCGCATCGGTGAAGTCTTAAACCTTGACCCGGAGAGTCTCCGGAGGAAGTAG	MASQTYDCLTPAGRTDGIKAAVDAIRAGQCVVMPTDTVYGIGCDAFNNDAVAKLLATKRRGPDMPVPVLVGSWSTVQGLVREFTDTAQTLVEAFWPGGLSIVVPEAPSLPWNLGDTRGTVLLRMPNQPLAIELLREVGPMGVSSANLTGNEPPVTTSAARQQFGNAVPVYLDGGRSTVGEPSTIIDISGPSPVILRNGAISAERIGEVLNLDPESLRRK				NA	NA	NA	NA	NA
AK009_06163	558			hypothetical protein	GTGCAGGATGGTCAGCGAGTACAGCAGGATCGCGCCGCCGGCGATCATGCCCAGGCCCGCGGCAAGGCCGTCGATGCCGTCGACAAAGTTCACGGCGTTGACCAGCACGACGGTAAACAGCGAGGCCACCATCATCCCCTGGACCTGGTCAAGGATGAAGGTGGTGCCGGAGCCGAAGGGGACGAAAAAGACCGTAAACGTCAGCCCCAGAAAGCTCATCAGCACCGCCGCGAAGCACTGCCCAAGGAACTTGGTTGCCGCGCCGAGCTCGTAAAGGTCGTCGACAAGCCCGACGACGACGATGGCGAACGCGCCGGCGAGCACCGCCGTCATCTCGGGAGTGACGGGGGCGAACCCACGGGTGAGCGCGGGGAGCTGCTGGGCGAGAAACACCGCGGAGACGAACCCGGTAAACATTGCCAGCCCGCCGAGCGACGGCGTGGGCTGGGTGTGCACGTCGCGGGTGCGGATCTCAGCGATCCTGCCGGTGCGCACGAGAACGGAGCGCACGACTCCCGTCGCGAGGTACGTAATCGCCGCGGCGACGAGCAGGACTAG	MQDGQRVQQDRAAGDHAQARGKAVDAVDKVHGVDQHDGKQRGHHHPLDLVKDEGGAGAEGDEKDRKRQPQKAHQHRREALPKELGCRAELVKVVDKPDDDDGERAGEHRRHLGSDGGEPTGERGELLGEKHRGDEPGKHCQPAERRRGLGVHVAGADLSDPAGAHENGAHDSRREVRNRRGDEQD				NA	NA	NA	NA	NA
AK009_06164	270			hypothetical protein	ATGGTGGATGTGGCCGGCGTCGGCAGTCGTGGGGCTTTGCCCCTTGGCCACGCGGCGGATCACCGCCCAGACCAGGTCGATGACGGGAAGCGCCACCGCGGCCAGCACCACCATCACGGGGCTGATCAGCGCGATGAAGTCGGCGGCGCCGTAGAGCGAGAGGTTGATCTTACCCGACGCGGAAATAGAGGCCGCCGCCAGCAGCAATCCGATGAGCATGGCGCCGGAATCCCCCATGAAGATGCGCGCGGGCTCGAAGTTGTGCGGTAG	MVDVAGVGSRGALPLGHAADHRPDQVDDGKRHRGQHHHHGADQRDEVGGAVEREVDLTRRGNRGRRQQQSDEHGAGIPHEDARGLEVVR				NA	NA	NA	NA	NA
AK009_06165	213			hypothetical protein	ATGAGGTTTTTAGCGCGTCACGCTAGCCGCGCTGCGGCGCCCCCGCATCAACGGCACCGCGGTCAGCGCGGCGGCGCCGACGACGGCCACAACCGTCATCGCCAGCGCGATCCCGGCTGGCGCGATGGAAAAGCTAACGGCGCCAAACGCGACCGCGCTGACCCAGGCGTACAGCACGAGCACGGTGCGCCTGTGCGTGTGGCCGAGCGCTAA	MRFLARHASRAAAPPHQRHRGQRGGADDGHNRHRQRDPGWRDGKANGAKRDRADPGVQHEHGAPVRVAER				NA	NA	NA	NA	NA
AK009_06166	678	yhfK	COG0702	putative sugar epimerase YhfK	ATGACTAACAAAGCAGCTAACCATTCCACCGTCGCGATCATTGGCGCACACGGCAAGGTTGCACGCCTTGCCATCCCGCAGCTCGTGAAGCGCGGTTTTAAGGTTGCCGGGATTATCCGCAACCCGGAGCACTCCGCGGATATCGAGCAGGCCGGGGCGCAGCCGGTCGTCTTCGACGTCGAGGGCCAGAGCGCGGACGCGATGGCGGAGTTGATGCGCAGCTCGGGCGTCGACACGCTCGTGTGGGCCGCTGGCGCTGGTGGCGGCAACCCGCAGCGGACCTGGGCGGTCGACCGCGACGCGGCGATTCGCGCTATCGATGCCGCGCGCGAGGCGGGTGTCGGCCATATCGTGATGGTCTCCTACTTCGGCGCGGGCGAGGACCACGGCGTGCCCGAGGACCACAGCTTCTACCCCTACGCCCAGGCGAAGACCGAAGCCGATGCCCACCTAGCCGCATCCGGGGTGAGCTATACCCTCCTGCGACCGAGCAAGCTTATCGACGCCCCCGCCACCGCACAGATCGACGCCGACGCGTCCGAGGGGTCCGAGGTGAGCCGCGCCAACGTCGCTCACGCGATTGCGGCCGCCGTCGCCAACCCGCCAGCAGGGTCGCGAACGGTGGAGTTCAACGACGGCTCCACCCCGGTCGATGAGGTTTTTAGCGCGTCACGCTAG	MTNKAANHSTVAIIGAHGKVARLAIPQLVKRGFKVAGIIRNPEHSADIEQAGAQPVVFDVEGQSADAMAELMRSSGVDTLVWAAGAGGGNPQRTWAVDRDAAIRAIDAAREAGVGHIVMVSYFGAGEDHGVPEDHSFYPYAQAKTEADAHLAASGVSYTLLRPSKLIDAPATAQIDADASEGSEVSRANVAHAIAAAVANPPAGSRTVEFNDGSTPVDEVFSASR	PGPT0021315_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
AK009_06167	459			hypothetical protein	GTGAGCACCAATTCTGAGCACTCCGCCTCCCAGCCGCTCAACGTTGAGGACGTGAGCGATATCGACGACCCCCGCCGCCCGCTAACCCGGGCCCTGCGCCTTGGCGCGTGGGCGCTCGTCGCGCTGACCGTGCTGTCGCTGATGGCGTGGGGTGGGGTCTACGGGCTGCAGGGGATCTGGGGCGTGCTGATGGGCGCGGCCGTGGGAGGCGGGTTCGTCCTGCTGACCGCACTGTCTGTTCTCGCGACCTCCGGGACCTCGCCGACCAACACAATGGCCGTGGTGCTCGGCGGCTGGCTGCTCAAGATGGTTGTGCTTATCCTCGTGCTGCTATTCATCCGCGAGCTGACCTTCTACAACCACCTCGCATTTGGCGTGACGACGATCGCCGCGCTCGTGATCGTCCTGGCCGCCGAGGCGTGGGGTGTCATCACCACCCGGGTCAGCTACGTCGGCTAG	MSTNSEHSASQPLNVEDVSDIDDPRRPLTRALRLGAWALVALTVLSLMAWGGVYGLQGIWGVLMGAAVGGGFVLLTALSVLATSGTSPTNTMAVVLGGWLLKMVVLILVLLFIRELTFYNHLAFGVTTIAALVIVLAAEAWGVITTRVSYVG				NA	NA	NA	NA	NA
AK009_06169	774			hypothetical protein	TTGCTAGTGCGAATCAGCGTGCAGCGACAGCTCGATGTACACCGCGGTCAAAAGAGCAAAGATGTACGCCTGCAGGAAGATGATAATCAACTCGTACAGGGTGAACAGCAAAGCTGCGATAAGCGTCAGGCCACTCACGGCCGTCCATGCGTTCAGCTGCCAGAAGAAGAAGTTGGTAGCCGAGTACAGAAGGACGAGAATTATGTGGCCTGCCAGGAAGTTCGCCATAAGGCGAAGTGCCAGTGTGACCGGACGCAGAACGAACGTCGAGAAGAACTCGATTGGCACCACCAAGAGGTGGAGCGCAGGAGGCAGGTTCGGAATCACGAGCGAGTGCTTGAAGTACTTCGCGCCGTAGCGCTGCACGCCTGCGTAGATCATCGCGATGTAGGCCACAGCCGCCAGGACGATCGGCATGCCGATACGTGCGTTAGGCGAGATGTTGAGCCCCGGGATGATCGTTGCCGCGTTCATGAACAAGATCGTGAAAAAGATGGTTGCCAGCACCGGAAGGAACCGCTTGCCATCCTTCTTCCCCAGCGTGTCTTCAGCGATGTTGATGCGGACGAAGTCCACACCCATCTCTGCGACGTTCTGCAAGCCTTTAGGAACCAGCTGAGGCTTCCTGAAAGCAATAACAAAGAGAAGCACCAGGATTGCCGCCACTACAAGGCGGACGATCATGATGCGATCCAGTGCGAACCAACCATTAGCGAAGTCTTCGCCAATGATGTGGCCGTACGTTTGCCCCGGGAAAAATTCTGGACCAAGTGA	MLVRISVQRQLDVHRGQKSKDVRLQEDDNQLVQGEQQSCDKRQATHGRPCVQLPEEEVGSRVQKDENYVACQEVRHKAKCQCDRTQNERREELDWHHQEVERRRQVRNHERVLEVLRAVALHACVDHRDVGHSRQDDRHADTCVRRDVEPRDDRCRVHEQDREKDGCQHRKEPLAILLPQRVFSDVDADEVHTHLCDVLQAFRNQLRLPESNNKEKHQDCRHYKADDHDAIQCEPTISEVFANDVAVRLPREKFWTK				NA	NA	NA	NA	NA
AK009_06170	222	atpH_1		ATP synthase subunit c	ATGAACGAGACCACCACCACCTTCGACGGCCTTCAGTCCATCGGCTACGGTATCGCCACCATCGGCCCGGGCATCGGCATCGGCATGCTCGTCGGCAAGACCGTCGAAGGCATGGCTCGCCAGCCCGAGATGGCCGGCCAGCTGCGTACCACCATGTTCCTGGGTATCGCCTTCGTCGAGGCTCTCGCCCTCATCGGCCTCGTTGCCGGCTTCCTGTTCTAA	MNETTTTFDGLQSIGYGIATIGPGIGIGMLVGKTVEGMARQPEMAGQLRTTMFLGIAFVEALALIGLVAGFLF	PGPT0014302_2746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
AK009_06171	567	atpF_1	COG0711	ATP synthase subunit b	ATGACAAACGTCACCATTTATAACGTGGCTGCAGAAGGTGCTCTTCCGCTCGAGACCGAGCCGTCCATCCTTCTGCCTCCCATGTACGACGTGGTTTGGTCGTTGGTCGTCTTCGTCGTTGTCTTCTTACTCTTCTGGAAGTTCGTTCTTCCGAAGTTCCAGGAAGTGCTGGCGGAGCGCGAAGATCGAATCAAGGGCGGCATCGAGCGTGCTCAGGTCGCCCAGGCTGAAGCCAAGGCTGCCCTGGAGAAGAACAACGCAGAGCTCGCCGAGGCACGCGCCGAGGCCGCTGAAATCCGCGAAGCTGCCCGCGCAAAGGGCAAGGAGATTGAGGCGGAGGCTCGCGTCAACGCCGAAGCCGAATCCCGCCGCATTGTTGAGGCGGGGGAGAAGCAGCTGCAAGCTTCCCGTGAGCAGGTCATCTCCGAGCTGCGGAACGAAATGGGCCAGAACTCCATCACTCTTGCCGAGCGGTTGCTGGGCACTGAGCTGTCCGAGTCGACCCGCCGTTCCTCCACGATCGACGACTTCCTGGCCCAGCTCGACAACGTTTCCACGAGGAAGTAG	MTNVTIYNVAAEGALPLETEPSILLPPMYDVVWSLVVFVVVFLLFWKFVLPKFQEVLAEREDRIKGGIERAQVAQAEAKAALEKNNAELAEARAEAAEIREAARAKGKEIEAEARVNAEAESRRIVEAGEKQLQASREQVISELRNEMGQNSITLAERLLGTELSESTRRSSTIDDFLAQLDNVSTRK	PGPT0014301_1222	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
AK009_06172	834	atpFH	COG0711	ATP synthase subunit b-delta	ATGAAGGCAGCTAGTCGCGAAGCACAAGAGCAGGTACAGGGTCAGCTGGAAGAGCTGATCCGCAACTCCGACGATTCCGTCGCCGCCGCCGCTCAGATCGGAACAGAGCTGTTTCTCGTCGTAGACCAGCTTGACCGCGAGCGCGCGCTGCGTGTCGCTGTTGCGGATCAGTCCCTCGACGCATCCCAGCGCGAAGGCATCATGAACGCCGTACTCGGCAGCAAGGTTGCCGAGCCGACGAAGAAGGTGCTCAGCGAAGCGGCCAAGAGCGAATGGTCCACCCCGCGCGAACTGCGCGAAGGGCTGATCAACCTTGGGCGCCGGGCGCTGCTGATGGGGGCCGAGGAGCAGGGCCAGCTTGAACAGGTCGAAAACGAGCTGTTTGGACTGTCCGTGCTCTTGGAGGACGAAAAGCAGCTGGCCCAGTTGCTGTCTGACCGCACCGCAACCGCGGACAAGAAGCGCGGGCTGCTGGCTAGCGTGATTTACGGCAAGGTGACTATGTTCACCGAAGCCCTGGCCTTGCAGGTCATCGGGCGGCCCGAGAGCAACCCGATTGACGATCTCGCAGGCGTGGCCACCCAGGTGGCGCAACTGCGCGGCAAGACGGCGGCTCGGGTCACCTCCGCTGAGGAGCTTTCTGACTCCCAGCGCGAGACGCTCGCTGGCAAGCTTGAGCAGATTTACGGCCGTGAGATCGCCATCCACTCTGAGGTTGATCCCAGCCTCCTCGGCGGAATGGTGATCCGAGTCGGCGACGAGGTTATTGACGGCTCCACGCGTGGCAAGATCGCGCGCATGCGGGCAGACCTCGCCGCCACGACGGCTTACTAG	MKAASREAQEQVQGQLEELIRNSDDSVAAAAQIGTELFLVVDQLDRERALRVAVADQSLDASQREGIMNAVLGSKVAEPTKKVLSEAAKSEWSTPRELREGLINLGRRALLMGAEEQGQLEQVENELFGLSVLLEDEKQLAQLLSDRTATADKKRGLLASVIYGKVTMFTEALALQVIGRPESNPIDDLAGVATQVAQLRGKTAARVTSAEELSDSQRETLAGKLEQIYGREIAIHSEVDPSLLGGMVIRVGDEVIDGSTRGKIARMRADLAATTAY	PGPT0014299_161	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
AK009_06173	495			hypothetical protein	ATGGTGTCGATGCAGACCGCGGTCTTGCCGGTCTTGCGGTCGCCAATGATCAGCTGGCGCTGTCCGCGGCCGATCGGGGTCATCGCGTCGATGGCCTTCATGCCGGTAGCCATCGGCTCCTCGACCGGCTGGCGGTCGAGAACGCCCGCGGCCTGGAGCTCAAGTGCGCGCTCCTCGGAGGCCTCGATCGGGCCAAGGCCGTCGATCGGCTGGCCCAGTGGGTTGATTACGCGGCCAAGGAAATCTTCCCCGACCGGGATGGACAGGACCTCTCCGGTCCTCTTGACTTCGTCGCCTTCGGTAAGCGTCTCAAAGTTACCCAAGACCACGACACCAATGGAGTCGGTCTCAAGGTTCTGCGCAACACCGATGACTCCGCCTGGGAACTCGAGCAGCTCATTCGTCATGCAGCCCGGCAGCCCAGAAACCTGGGCAATACCGTCTGCCGCCGAAGTAACTACGCCGACCTCCTCACGGGAGGCCTCCGCAGAGTAG	MVSMQTAVLPVLRSPMISWRCPRPIGVIASMAFMPVAIGSSTGWRSRTPAAWSSSARSSEASIGPRPSIGWPSGLITRPRKSSPTGMDRTSPVLLTSSPSVSVSKLPKTTTPMESVSRFCATPMTPPGNSSSSFVMQPGSPETWAIPSAAEVTTPTSSREASAE				NA	NA	NA	NA	NA
AK009_06174	1014			hypothetical protein	GTGCTTCTTAACCTCACCGGCTTCAAGCGGCTCCGCCTCCGGCTCGCGCACAATGCGCTCGCCCTCGGAGGTCTGGAAGCCACGGGCGAAGTCCTCATTGACGCGCAGGAGGGTCTCCTTCGAGGTGTCGTCGAGGGCTGCACCCCCGGCGATCTGCTCGTAGACCTCGGGTGCGGTAGCGCGGATGTGCTCGTGGAGCTCAGTCTCGTAGCGGCGAACGTCTGCGACGGGAACGACGTCGAAGACGCCCTCGTTGGCGAGCCAGATCGAGATGATCTGGAACTCCACGGACTGCGGCGCGTTCTCCTGCTGCTTGAGCAGCTCGACGAGGCGCTGGCCGCGCTCAAGCTGACGCTTGGAGGCGGAGTCCAGGTCGGAGGCGAATGCGGCGAAGGCCTCAAGGTCGCGGTATGCGGCGAGGTCAAGACGCAGGGAGCCGGCGACCTTCTTCATGCCCTTGGTCTGCGCGGCGCCACCGACGCGGGACACGGAGATACCGACGTCGATAGCGGGGCGGACACCCTGGTTGAACAGGTCGGACTGCAGGAAGACCTGGCCGTCGGTGATCGAGATGACGTTGGTCGGAATGAACGCGGACACGTCGTTCGCCTTCGTCTCAATGATCGGCAGGGCGGTCAGGGAACCGGCACCGAGCTCGTCGTTAAGCTTCGCGGCGCGCTCCAACAGGCGGGAGTGCAGGTAGAACACGTCACCCGGGTAAGCCTCGCGGCCCGGCGGGCGGCGCAGCAGCAGCGAAATCGCGCGGTAGGCCTCGGCCTGCTTGGTCAGGTCATCGTAAATGACCAGGACGTGCTTGCCCTGGTACATCCAGTGCTGACCCAGGGCAGCGGCGGAGAACGGTGCCAGCCACTTGAAGCCGGCGGAATCGGACGCCGGTGCGGCGACGATCGTGGTGTACTCCAGCGCGCCGTGCTCCTCAAGGGTGCGGCGCACGCCGGCAATGGTCGAACCCTTCTGGCCGATTGCGACGTAGATGCAGCGCACCTGCTTTGA	MLLNLTGFKRLRLRLAHNALALGGLEATGEVLIDAQEGLLRGVVEGCTPGDLLVDLGCGSADVLVELSLVAANVCDGNDVEDALVGEPDRDDLELHGLRRVLLLLEQLDEALAALKLTLGGGVQVGGECGEGLKVAVCGEVKTQGAGDLLHALGLRGATDAGHGDTDVDSGADTLVEQVGLQEDLAVGDRDDVGRNERGHVVRLRLNDRQGGQGTGTELVVKLRGALQQAGVQVEHVTRVSLAARRAAQQQRNRAVGLGLLGQVIVNDQDVLALVHPVLTQGSGGERCQPLEAGGIGRRCGDDRGVLQRAVLLKGAAHAGNGRTLLADCDVDAAHLL				NA	NA	NA	NA	NA
AK009_06175	858			hypothetical protein	GTGCAGTGCGTTGTACAGCTCGGGCAGCTCGCCGCGCGGGAACTCCACGTCGACGACCGCGCCGATGACGCGAACGATGCGGCCGTTCTCAGAACCCGCCGGGTTCGGAGTGCTAGCGGCCTCGCGGGCTACAGCCTGGTTCTCGGCCTCGCCCGTCGGCTCATCGCGTCCGTCTTGGGACAGAGCAGTTGTCATGATTTAGTCACTTTCTCCACTATCGGCCAGCGCACCCGCGCCGCCGATAATCTCGGTGATTTCCTGGGTGATTTGTGCCTGACGGGCTTGGTTAGCCTCACGGGACAGGTTGTTAGCCAGTTCCGTCGCGTTGTCGGTTGCGTTCTTCATCGCCGTGCGGCGAGAAGCCGACTCCGAAGCGGACGCCTCCAAGAACATAGAGTAGAGCGTCCGCGACACGTATGCCGGAAGCAGCTTGTCCATCAACGTGTCCGGGTCCGGCTCGAACTCCATGTCGGGCCCGACTTCGCCGGAGCTCGACAGCATGCCGTCCTGCTCGTAATTGAATTCCTCAAGCACGGGCTCGATCGGCAGCAGCTGGTGCACGCGGGCCTCCTGGCTAAGCATGGAGACGAACTCGGTGTAGACGACGTGGACCTGGTCGAAACCAGGCACGCGCTCGCCTTCCGCCGCGTTGACGCCCTCGCGCCACTCGACCGTGCCTTCGGAACCGGCGAGGAACCCGTCAATGAGGTGGCTCCGCACGTCGTGCGTTGCCTCCCACGACGGCTTCTGGGACCAACCGGTCCACGCGCCACCGATCTTCTGGTCACGGAACTTGTAGTGCGTCACGCCCTTGCCGCCGGCGACGAAGCGAACAACCTCATAGCCGGCTTCTTCTAG	MQCVVQLGQLAARELHVDDRADDANDAAVLRTRRVRSASGLAGYSLVLGLARRLIASVLGQSSCHDLVTFSTIGQRTRAADNLGDFLGDLCLTGLVSLTGQVVSQFRRVVGCVLHRRAARSRLRSGRLQEHRVERPRHVCRKQLVHQRVRVRLELHVGPDFAGARQHAVLLVIEFLKHGLDRQQLVHAGLLAKHGDELGVDDVDLVETRHALAFRRVDALAPLDRAFGTGEEPVNEVAPHVVRCLPRRLLGPTGPRATDLLVTELVVRHALAAGDEANNLIAGFF				NA	NA	NA	NA	NA
AK009_06176	810			hypothetical protein	GTGGGCGAAGGTGGTCGCCGGGGCCGGGTCGGTGTAGTCGTCGGCAGGCACGTAGACGGCCTGCAGAGAGGTAATCGAGCGGCCCTTGGTCGAGGTAATGCGCTCCTGGAGCACACCCATCTCATCAGCCAGGGTGGGCTGGTAGCCCACGGCGGAGGGCATGCGGCCCAGAAGGGTCGACACCTCGGAGCCAGCCTGGGTGAAGCGGAAGATGTTGTCGATGAACAGCAGCACGTCCTGGTTCTGCACATCGCGGAAATACTCCGCCATGGTCAGGCCGGACAGAGCCACGCGCATACGGACCCCGGGCGGCTCATCCATCTGGCCGAAGACAAGGGCGGTATCGGGAAGAACGCCCATGTCCTCCATCTCGAGGAAGAGGTCGGTGCCCTCACGGGTACGCTCACCGACGCCGGCGAAGACCGACGTACCGGAGAACTCGCGGGCGATACGGGTAATCATCTCCTGGATGAGAACCGTCTTGCCCACGCCGGCGCCGCCGAAGAGGCCGATCTTGCCGCCCTTGACGTACGGGGTGAGAAGGTCGATGACCTTGATGCCGGTCTCGAGGATCTCGGTCTTGCCCTCAAGGTCCTTGAAGGCGGGCGGGTCGCGGTGGATGCCCCAGCGCTCGCCGTCGACGCCCACGGACGGGTCGTCGAGGCACTCGCCGAGGGCGTTGAACACGTGGCCCTTGACCTGGTCTCCCACGGGCACGGAGATCGGGTTGCCGGAGTCCTTCACCTGAGCGCCGCGGACGAGGCCGTCCGTCGGTGCCATGGCGATGGCGCGCACGAGGTTGTCGCCTAG	MGEGGRRGRVGVVVGRHVDGLQRGNRAALGRGNALLEHTHLISQGGLVAHGGGHAAQKGRHLGASLGEAEDVVDEQQHVLVLHIAEILRHGQAGQSHAHTDPGRLIHLAEDKGGIGKNAHVLHLEEEVGALTGTLTDAGEDRRTGELAGDTGNHLLDENRLAHAGAAEEADLAALDVRGEKVDDLDAGLEDLGLALKVLEGGRVAVDAPALAVDAHGRVVEALAEGVEHVALDLVSHGHGDRVAGVLHLSAADEAVRRCHGDGAHEVVA				NA	NA	NA	NA	NA
AK009_06177	381			hypothetical protein	ATGTCTGCCATGGCGGCCCTCCTACTTCTCCTGCAGCTTCTTGTACGCAGCCTCGACGTCGTCCAGACCACCCAGGTTCGAGAACGCCTGCTCCGGGTAGGCGTCGAACTCGCCCTCGGCGAGGCGATCGAACGCCTCGATGGTCTCCTCGAGCGGCACGTAGGAACCCTCGTCGCCGGTGAACTTCTTCGCGACGAAGAAGTTCTGGCCGAGGAAGCGCTGGATCTTACGTGCGCGCATGACGGTGAGCTTGTCCTCTTCGGAGAGCTCGTCCATACCGAGGATGGCGATGATGTCCTGCAGCTCCTTGTTCTTCTGCAGGATGCCGATCACCTTCTGGGCAACCGCGTAGTGGCGCTCGCCGACGATGCCCGGCTCTAG	MSAMAALLLLLQLLVRSLDVVQTTQVRERLLRVGVELALGEAIERLDGLLERHVGTLVAGELLRDEEVLAEEALDLTCAHDGELVLFGELVHTEDGDDVLQLLVLLQDADHLLGNRVVALADDARL				NA	NA	NA	NA	NA
AK009_06178	333	atpC_1		ATP synthase epsilon chain	ATGATCTGGACCGGTGAGGCCAGCATCGTCACCGCGCAGACCACCGAGGGTGAGATCGGCATTCTGCCGGGCCACGAACCGATCCTCGGCCAGCTTAAGGACAACGGCGTTGTCACGATCAACCCGGTCGACGGCGAGCGCATCGTCGCTGCCGTCCAGGGAGGCTTCCTCTCAGTGGTTGGCAACAAGGTCACCGTCTTGGCGGACTGGGCGACTCTCGCGAGCGAGGTTGACTCCTCGGAAGCAGAGTTGAACGCGAACCAGGACGACGACGAGCTGAGCAAGTGGCGCGGCCAGGCAGAACTTGCCGCCGTGCGACGCGCGGGCCGCTAA	MIWTGEASIVTAQTTEGEIGILPGHEPILGQLKDNGVVTINPVDGERIVAAVQGGFLSVVGNKVTVLADWATLASEVDSSEAELNANQDDDELSKWRGQAELAAVRRAGR	PGPT0014295_3517	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
AK009_06179	825	nucS	COG1637	Endonuclease NucS	GTGGTTGGAATCCGCCCCTCACGTGCGCCAGATGCGCCGCGCGGTGAAGATGCCCGCCGGGCGCCCGAGCGGCGGGCGCGCCTCCCGGTCCTGACCGCGATCGAGCGCAGCAGCGCTTGTACTGTAGAGGCCATGCGCCTCGTCATTGCTCAGTGTTCCGTGGACTACGTTGGCCGCCTCGACGCCCATCTGCCGTCCGCGAAGCGCCTCATCATGGTCAAAGCGGACGGTTCCGTCTCGGTGCACGCCGACGACCGCGCCTACAAGCCACTGAACTGGATGACCCCGCCCTGCACCTTAAAGGAAGAGGCGGTCATCGATATCGACGGCGAAGATACCGGCGAGCAGCTCTGGATCGTGGAAAACGGCAAGGGCGAGCAGCTGCGCATCAGCATCGAGGAGGTGCTCAGCGAGACGGCGGTGGAGCTCGGTGAGGACCCAGGCCTGGTCAAAGACGGGGTGGAGTCGCACCTCCAGGAGCTGCTGGCGGAGCACATTGACACCCTCGGCGCGGACTACCGCCTGATCCGGCGCGAGTTCCCCACGGCGATTGGGCCGGTGGACATCCTCGCACGCGACCCCAACGGGCACACCGTGGCCGTGGAGGTCAAGCGCCGCGGCGGAATCGACGGGGTGGAGCAGCTCACCCGCTACGTCGAACTGCTCAACCGCGACGAGCTGCTCGCGCCGGTGCGCGGGGTGTTCGCGGCCCAGGAAATCAAGCCCCAGGCGCGCACGCTGGCTGAGGACAGGGGCTTTCGCTGTCTCGTGCTGGACTACGACGAGCTGCGCGGCATCGAGTCCACCGAGCTGCGCCTGTTCTAG	MVGIRPSRAPDAPRGEDARRAPERRARLPVLTAIERSSACTVEAMRLVIAQCSVDYVGRLDAHLPSAKRLIMVKADGSVSVHADDRAYKPLNWMTPPCTLKEEAVIDIDGEDTGEQLWIVENGKGEQLRISIEEVLSETAVELGEDPGLVKDGVESHLQELLAEHIDTLGADYRLIRREFPTAIGPVDILARDPNGHTVAVEVKRRGGIDGVEQLTRYVELLNRDELLAPVRGVFAAQEIKPQARTLAEDRGFRCLVLDYDELRGIESTELRLF				NA	NA	NA	NA	NA
AK009_06180	354			hypothetical protein	GTGGTCGTCGGGGCGACCGAGAAAGCTGCGATCATGCCGCCCAGCTTAGCGACGTTCCCAGCAATGCCTATGCCAGTGCCGACGCTCGTCGGCCCCACGCCCCGTTTCCCGCGGCCACGCCACCACGTGCGCAACACCCGGCGGGATGTTCTGGTTGCAGCCCGGGCAGACGTAAAACTTGGTGGCGGCCTGCGACCCGATCTGGCGCACGCAGTAGATCTCTCCGTTGCTCCAGCGCGGGCCCTCGACGTGCTGCGTCCCGATGAACGTGGAGCCGTCCCGCGGCAAGACGTAAGCCGGGGTGGTGTTGTGGCGGCGGTTTCGCCGTGGCATGAGACTTCCCCTTCTTCCTAG	MVVGATEKAAIMPPSLATFPAMPMPVPTLVGPTPRFPRPRHHVRNTRRDVLVAARADVKLGGGLRPDLAHAVDLSVAPARALDVLRPDERGAVPRQDVSRGGVVAAVSPWHETSPSS				NA	NA	NA	NA	NA
AK009_06181	1023		COG3118	putative protein	GTGGGACGAGGTCATGGACGTGATCAAACGCGCGACACAGGCGGTCGAGGCCGTCACCCCGCGCGTGTCCCTGGTGATCAAGGCGGATATCCGCCCGGGCCACACCAACATGCTGAAAACGAAGATGCAATCGCTGAACAAGCACTTGGAGGAGAATTCATGACCGGACCGCAGTACCAGGCAGGCGCCGTTGACTTAAGCGCGCTGAAGCAGACCGCCGAGCCCGCCGCCAGCGAAGGCGGGGCGTTCGAGCCGGTTATCACCGCAACCGAGGCGAACATCGAGAACGACGTGCTGCGCGCGTCGGCGAAGGTCCCGGTGATCGTTCACGTTGGCACGCAGCGCTCGCCCGATTCGGTGTCGCTCAAGGCCGCGCTCGAGGACCTCGCTCGCGGGCAGCGCGCCTTCCGCGTCGCCTACGTTGACGCCGACGCGACCCCTGCCGTGGCGCAGATGTTCGGGGTGCGCGTGCTGCCCACGGTCGTCGCGATCGCGGCGGGCCGGCCGGTGACCAGCTTCGAGGGCAACCAGCCCGACGGGCAGCTGCGGCAGTGGGTCGACGCGCTCGTGTCCAACGTGGGCAGCCAGCTCCAGGGCCTCGGCGAGGAGGCCGGCGAGCAGCCGGCGCACGACCCGCGCCTCGACGCCGCCACCGAGGCGCTCAACCGCAACGACTTTGACACCGCAACAAAGCTTTACGACGAGCTGCTTGCCGACGACCCGAAGAACGCCGACATCAAGCAGGCGCGCGCCACGATTGGCGTGCTGCGCCGGCTCGCGACCCGGGGCAACGACCCAGTGGCGGAGGCAGACGCGGATGCGGGGGACGTCGATAAGCAGCTTGCGGCGGCCGATGCTGAGGTGGCCGCGGGCGCGCCCAAGAAGGCCTTTGCGCGGTTGCTGCCGCTGGTCAAGGCGCACCCGGAGGCGAAGGAGCGGCTGCTCGAGCTGTTTGGCCTGTTCGAGGCCAGCGACCCGCGCGTGATCGAAGCGCGCACAAAGCTCGCCTCGGCGCTGTTCTAA	MGRGHGRDQTRDTGGRGRHPARVPGDQGGYPPGPHQHAENEDAIAEQALGGEFMTGPQYQAGAVDLSALKQTAEPAASEGGAFEPVITATEANIENDVLRASAKVPVIVHVGTQRSPDSVSLKAALEDLARGQRAFRVAYVDADATPAVAQMFGVRVLPTVVAIAAGRPVTSFEGNQPDGQLRQWVDALVSNVGSQLQGLGEEAGEQPAHDPRLDAATEALNRNDFDTATKLYDELLADDPKNADIKQARATIGVLRRLATRGNDPVAEADADAGDVDKQLAAADAEVAAGAPKKAFARLLPLVKAHPEAKERLLELFGLFEASDPRVIEARTKLASALF				NA	NA	NA	NA	NA
AK009_06182	156			hypothetical protein	GTGCAGGGTGACCGACTGGGCGAAGTTGTCCCACTCGATCGCCTCCGTTGTCACGGTGTCCAGCAGCGGGTTGCCCGCGCCGCCGTAGATTGCGTCGTCAGTGTTGATCACCAGGTCCCAGTTGCCGGCCTCGGGCAGGCCGAGGCGGTAGTTTGA	MQGDRLGEVVPLDRLRCHGVQQRVARAAVDCVVSVDHQVPVAGLGQAEAVV				NA	NA	NA	NA	NA
AK009_06183	1020			hypothetical protein	GTGCGACGCGCCGGAGAGGTTGACCACCGCGAGCAGGGGCTGGCCGTCGACGCCCCAGCGGATGTAGGCCAGCACGTTGTGCTCGTGGTCGTCGCCCTTGACCCACTGAAAGCCCAGCGGCGTATTGTCCCGGCTGAACAGCGCCGGGGTGTCGCGGTAGACGAGGTTGAGGTCGCGCACCAGGCGCTCAATGCCGCGGTGGTAGTCGTGCGACCACTCGCCGTTGACGTTGTCCCAGTTGATCGAGTTGGCCTCATCCCACTCCGTGGTCTGGCCCCAGTTGCAGCCCATGAACATCAGCTGCTTGCCGGGGTGGGAGAACATGTAGCCAAACATGGCGCGCAGCCCCGCGGCCTTGTTCCAATCGTCGCCGGGCATGCGCGTCCACAAGGAGCCCTTGCCGTGGACGACCTCGTCGTGGGAGAACGGCAGCACGTAGCGCTCGGAGAACGCGTAGACCAGCGAGAACGTGATCTCGTTGTGGTGGTAGTAGCGGTGGATGGGGTCCAGGGAGAAATACTCCAGGGTGTCGTTCATCCAGCCCATGTTCCACTTCAGGGAGAACCCGAGGCCGTCGGCCGCGGTCTGGGCCGTCACGCCCGGCCACGCCGTGGATTCCTCGGCGATGGTGACCACGCCCGGGTGGGTGCGGTGCACGGTGGCGTTGGTTTCCTGCAGGAACTTCACCGCGTCCCAGTTCTCGCGCCCACCCTGGCTGTTGGGCAGCCACTCGCCGTCGGTGCGGGAGTAGTCGAGGTAGAGCATGGAGGCGACGGCGTCGACACGCAGCCCGTCGAGGTGGAACTCCTCGCACCAGTACAGGGCGTTGGCCACGAGGAAGTTGCGCACCTCGTTGCGGCCGAAGTCGAAGACGTAGGTGCCCCAGTCTTTTTGCTCGCCGCGGCGCCAGTCCGGGTGCTCGTACAGGGCGGTGCCGTCGAAGCGACCAAGCGCCCAGGCGTCCTTGGGGAAGTGCGCAGGCACCCAGTCGACGAATACGCCGATGTTGTTGGCGTGTAG	MRRAGEVDHREQGLAVDAPADVGQHVVLVVVALDPLKAQRRIVPAEQRRGVAVDEVEVAHQALNAAVVVVRPLAVDVVPVDRVGLIPLRGLAPVAAHEHQLLAGVGEHVAKHGAQPRGLVPIVAGHARPQGALAVDDLVVGERQHVALGERVDQRERDLVVVVVAVDGVQGEILQGVVHPAHVPLQGEPEAVGRGLGRHARPRRGFLGDGDHARVGAVHGGVGFLQELHRVPVLAPTLAVGQPLAVGAGVVEVEHGGDGVDTQPVEVELLAPVQGVGHEEVAHLVAAEVEDVGAPVFLLAAAPVRVLVQGGAVEATKRPGVLGEVRRHPVDEYADVVGV				NA	NA	NA	NA	NA
AK009_06184	969			hypothetical protein	GTGCTCCGCCACGGGCAGGAACTCGACGTGGGTGAAGCCGTTCTCGACGAGGTAGGGGACCAGCTCTTCGCGCATGGTGTTGTAGTTCGCGCCCTGCTTCCAGGAGCCGATGTGGCACTCGTAGACGCTCATCGGCGCGTTGGTGGCGTCGATGCCCACGCGCCGCTGCATCCAGTCGCCGTCTTTCCACTCGTAGGTGCTGTCCGCGGCGACGACCGAGACGGTTTCCGGCGGGGCGAGCGTCTGGCGGGCCATGGGGTCGGCCTTGTCCACGCGCACGCCGTCGATGGTCTGCACAGCGAACTTGTACTGCGCGCCGGCCTCGATGCCGGGGATGAAGATCTCCCACACGCCCGTCGAGCCGAGGCTGCGCATCGGGTACTGGTTGGGGTTCCAGGCGCAGAAGTCGCCGACGACGGCGACGCCCTTCGCGTTCGGTGCCCACACGGCGAAGGAGGTGCCGCGGACCTCGCCGAGGCTGGTTTGGTAGGTGCGCAGGTTCGCGCCGAGGACTTCCCAGAGGCGCTCGTGGCGGCCCTCGTTGATCAGGTGGAGGTCGAACGATCCCAGGGTGGGCAGGAAGTAGTAGCCGTCGGCGATGATCACCTGGTTGCCGAACGGGTAATGGATGCGCAGGCGGTAGTCGGGCGCGTGGTCGTCGTCAAGCCCGATGACCCAGATGTCGTCGCCGATAGGCTCCATCTCGAGGTGCTCGTTGTGGATGAGCACCTCGACCTTTTCCGCCCCGAGCTGGCGGGTGCGGATGACCGAGCCCTCCGACGTCGCGTGCCAGCCGTAAAAGTCGTGCGGGGCGTGGTGCTTGCACTCAAGCAGGCGCGCGCGGTCCGCGGCAGGGATCAGAAGCTGGAGGTTGCTCGCCATAATCGTCCTTGCGTGGTGGGAAGTGATCGTTTATCCGTTATCCGACGCTACCGAATTTCGACCTCGGTAGCGGGTTACGGCCGGTAG	MLRHGQELDVGEAVLDEVGDQLFAHGVVVRALLPGADVALVDAHRRVGGVDAHAPLHPVAVFPLVGAVRGDDRDGFRRGERLAGHGVGLVHAHAVDGLHSELVLRAGLDAGDEDLPHARRAEAAHRVLVGVPGAEVADDGDALRVRCPHGEGGAADLAEAGLVGAQVRAEDFPEALVAALVDQVEVERSQGGQEVVAVGDDHLVAERVMDAQAVVGRVVVVKPDDPDVVADRLHLEVLVVDEHLDLFRPELAGADDRALRRRVPAVKVVRGVVLALKQARAVRGRDQKLEVARHNRPCVVGSDRLSVIRRYRISTSVAGYGR				NA	NA	NA	NA	NA
AK009_06185	2175			hypothetical protein	GTGGTCCGAGATGCTGCGGAACGCGAGCTGCTCGCGTTTCGACGCCTCCACGACCGGCAGCCGGAAAATGTGGGCGACGTTGGCCTGCGGGGTCAGCCGCACGAAGTTGTCGGTGCTCCACGTGTAGCGCTCGCCGCTGACCAAGTCGTCGACGGTGAAACTCTCACCGGGGGTGAGGCCGATCGCCTCGGCGTCGATGTGGACCATGCCCTCCTGGGTGGCGAAAGGATCGAGGTTGACTACGACCAAAATCGCGTTGCCGCTGATCGCGTCGACCTTGGAGTACGCCATGATCTGCTCGTTGTAGGCCTTGTGGAAATGCAGCTGGCGCAGCTGCTGCAGCGCCGGGTTGTCGCGGCGCAGGCGGTTGAGCAGCGTCAGGTAGGGTTCGAGCGACTCGCCGCGGGCGAGCGCGGCCGCGAAATCGCGCGGGCGCAGCTCGTACTTCTCCGAGTTGAGGTACTCCTCGGAGCCAGCCGTGACAGGCTCGTGCTCGTAGAGCTCGTAGCCGGAGTAGACGCCCCACAACGGGCTCAGCGTCGCCGCCAGCGTGGCGCGGATCGCAAAGGCTGCCTGCCCACCGGTTTGCAGGGACTCGTGCAGGATGTCGGGGGTGTTGACGAAGAGGTTGGGGCGCGAGACGTCGGCGACGTCGATAAGCATCTGCGCGAAGTCTTCCAGCTCAGCCTTCGAGGTCTTCCACGTGAAGTGGGTGTACGACTGGGAGAACCCGACCTTGGACAGGCCGAACATGCGCGGCGGGCGGGTGAACGCCTCGGCGAGGAAGATGACCTCGGGGTGGGTTTCGCGCACTTCCGAGATGAGCCAGTGCCAGAAGTTGACCGGCTTGGTGTGCGGGTTGTCCACGCGGAACGTGGTCACACCGAGCTCGACCCAGTACATGATCACGCGGTAGATCTCCGCGTAGAGCACGTGCGGGTCGTTGTCGAAGTTGATCGGGTAGATGTCCTGGTATTTCTTCGGCGGGTTCTCGGCGTAGGCGATGGTGCCGTCGGCAAGCACCGTGAAAAACTCGGGGTGCTCGCTGGCCCAGGGGTGGTCGGGCGCGGCCTGCAGCGCAAAGTCGAGGGCGACCTCGAGGCCCAGCTCGCGGGCGTGATCCATCATGGCGAGGAACTCGGATTCGCCACCGAGCTCCGGGTGGAACGCGTCGTGGCCGCCGTCGGCGGAACCGACCGCCCACGGCGAGCCCACGTCACTTTCCTCAGGCGTCAGAGTGTTGTTGCGGCCTTTGCGGTTGACCTCACCGATCGGGTGGATCGGGGGAAAGTAGACAGTGTCAAAACCCATCGCCGCCACGCGATCGAGCGCAGCCGAGGTGGTTTCCCACGTGCCGTGCACGGGTTTGCCCTCGGCGTCGACGCCGCCCGTGGAGCGGGGGAAGAGCTCGTACCAGGAATTGACCAGCGCAGCACGGCGCTCGACGTGAACATCGCAGATCGGCCCGCGGGTGACCTGCTCGCGCAGCGGGAACTCGTCGAGGATCTCGCGCACCTCGGCGCTGAGTCCCTCCTCAATGCGGGTCGCCAGGGGGAGGGTGTCGTCGGCAAGCGTCGTCGCTACGGCCTCGAGAACCCCCCGGTCGCCGTCCGGGGATTGGGCTGCGGCGCGGGTGAACAGGTCGATGCCGTGGGCAATGTCGTTGGACAGCTCCGCGGCGGATTGCCCGGCGGCGAGCTTCTTCGACACGGCGTTGCGCCACGTCGACATGGGGTCGCTCCATGCGTCGACGCGGAAGCGCCAGATACCCTGCACATCCGGAACGAACACTGCGTGGACATAGTCGGGGCGGTAAACCTCCTGCTGCATGAGGATGGAATACTGCTCCCCGCTTGGCGACGTCAGCTCCAACGTGGCCGCAACCGCGTCGTGCCCTTCACGCCACACCAGCGCCGAGACCGGGACGACCTCGCCGACTACCGCCTTCGACGGCAGGGTGCGCCCGGAGACCTGGGGGCGAACGTCGTCGATTCCAAAACGGCCGAAAGACGTGATACTGCCAGTGTGGCCAGAGCGTCCGGTCATGGTCATGCGGTTTACCCACCTCGAGACTTCGTGTGTGCCAATGGCTTTCACTTTTCAACAGTAGCCACTGCCACGGTGACGTGCCGGGCGAGGATGCGGTGCCACCGGAGGGGCGATCGTTCGTTTTGA	MVRDAAERELLAFRRLHDRQPENVGDVGLRGQPHEVVGAPRVALAADQVVDGETLTGGEADRLGVDVDHALLGGERIEVDYDQNRVAADRVDLGVRHDLLVVGLVEMQLAQLLQRRVVAAQAVEQRQVGFERLAAGERGREIARAQLVLLRVEVLLGASRDRLVLVELVAGVDAPQRAQRRRQRGADRKGCLPTGLQGLVQDVGGVDEEVGARDVGDVDKHLREVFQLSLRGLPREVGVRLGEPDLGQAEHARRAGERLGEEDDLGVGFAHFRDEPVPEVDRLGVRVVHAERGHTELDPVHDHAVDLRVEHVRVVVEVDRVDVLVFLRRVLGVGDGAVGKHREKLGVLAGPGVVGRGLQRKVEGDLEAQLAGVIHHGEELGFATELRVERVVAAVGGTDRPRRAHVTFLRRQSVVAAFAVDLTDRVDRGKVDSVKTHRRHAIERSRGGFPRAVHGFALGVDAARGAGEELVPGIDQRSTALDVNIADRPAGDLLAQRELVEDLAHLGAESLLNAGRQGEGVVGKRRRYGLENPPVAVRGLGCGAGEQVDAVGNVVGQLRGGLPGGELLRHGVAPRRHGVAPCVDAEAPDTLHIRNEHCVDIVGAVNLLLHEDGILLPAWRRQLQRGRNRVVPFTPHQRRDRDDLADYRLRRQGAPGDLGANVVDSKTAERRDTASVARASGHGHAVYPPRDFVCANGFHFSTVATATVTCRARMRCHRRGDRSF				NA	NA	NA	NA	NA
AK009_06186	852	ylmA	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGGAAAGCGTGACTGATCGTGCAATTGAACCGGAGACCGACCCCGACTTGCTCATCGACTTTCAGGGCGTGGAGTTCGCCCGCGGCGGGGCCACGTTAGTAGGCCCCATCGACTGGCAGGTCGAGCTCGACGAGCGCTGGGTTGTCATCGGGCCCAACGGCGCGGGCAAGACCACCTTGATCCGCATGGCGTCGGCCCAGGAATTCCCGTCAGCGGGTACGGCGTTTGTGGTCGGGGAGCAGCTCGGCCGCACCGACATGCGCGACCTGCGCGCCCAGATCGGCGTGACATCCTCGGCGGTGGCGCAGCGCGTTCCGGCGGAGGAGAAGGTCGGAGACCTCGTCGTTTCCGCCGGCTACGCGATTTTGGGCCGGTGGCGCGAAGAGTACGACGAGATGGACTATGACCAGGCGCTCGAGGTGCTCGAGCAGGTCGGTGCGATGCATTTGATCGACCGCACCTGGGGCACGCTATCCGACGGCGAGCGCAAGCGGGTGCTGATCGCGCGCGCGATCATGACGAACCCGGAGCTGCTGATCATGGACGAGCCGGCCGCCGGGATGGACCTGGGCGGGCGTGAGGACCTCGTCGCCTACCTCGGCGATCTCGCGATGGACCCCGACGCGCCGGCGATTGTGATGATTACCCACCACGTCGAGGAAATCCCGCCGGGCTTCACGCACGCCATGCTTCTCGACGAGGGGGAGGTCGTCGCGCAGGGGCTTATCGACGACGTGCTGACCTCCGAAAACGTCAGCCGGGCCTACCACCAGCCGATCGAGGTGACCTCGCGTGACGGCCGGTACACGGCGCGGCGCACCAGCCGCGGGGGAACGCATCGCGCCAAGTAG	MESVTDRAIEPETDPDLLIDFQGVEFARGGATLVGPIDWQVELDERWVVIGPNGAGKTTLIRMASAQEFPSAGTAFVVGEQLGRTDMRDLRAQIGVTSSAVAQRVPAEEKVGDLVVSAGYAILGRWREEYDEMDYDQALEVLEQVGAMHLIDRTWGTLSDGERKRVLIARAIMTNPELLIMDEPAAGMDLGGREDLVAYLGDLAMDPDAPAIVMITHHVEEIPPGFTHAMLLDEGEVVAQGLIDDVLTSENVSRAYHQPIEVTSRDGRYTARRTSRGGTHRAK	PGPT0003760_894	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
AK009_06187	999			hypothetical protein	TTGGTCAGTGCGACCTCGGCGGCGATCTCATCGATCTCGTCCGCGTGGGCGGCAAGAAAAGCGACCTCGGTCAGGTTAAAGCTCAAAGGGTCTCCCGATGCGGTCTTCCGGGCGCAGTGTGAAAAATTCCGCGTACCGAGGGTTGCTGATCGCGTCGTCGGTAATCGGCGTCATGTCCGCGCCTTTCGCCGCCTCCCACAGGGACTGGGAGGTGTCAAAGTTGGACAGGTCGAGGATCTGCGCCCACGTCGACGGGGCGAAGCGCACGAGCCCGGCGCGCCAGCCGTCGAGAAGCAGGCCCGGCGGAAACCAGTTCGCGTCGTCGGCTTCCTCGGTCGCGCCATCTGGTTCCTGGCCCTCGGGCAACTGAGCCAGCCACGTGAACGTGTCGAACTTCGTACCTCGCTCGGAACGGCCGACCCAGCGCGCGTACGGCGCGACAAGGTCTACGGGAACGCGAAACTGGTTGTCGCGCAGAACGTCCGTCAGCGACAACTCGTGAGATTCCAGGCGCAGACGCTGGCTGTGGAAGGGGCGCGCGTCGACAGGCAGAGCACCGTGCTTGTCGACGGCCAACAGCGTGCCCGTTTCCTCGAACAGCTCCCGCACGGCGGAAAACAGCAGCGCGTGCGCAGTTTCAGCGCTGACCTGCAGCTGACGGCCCAGCGACTCGGCGGAGCGGCCCTGCAACAAATCTTCCGCCCCCGCTCGCGACGGGAAGTCGCGGCTGTCCACCCCGCCGCCGGGAAACACGGTCATGCCCGGGTAATTGGGCATGGACATCACGCGCTCAAACACCCACACCTCGAGGCCACTAGCCCCGTCGCGGGTCAGGATGACCGTGCTGGCGAGGCGCGCGTCATTGACACTGACCACAGCCCATCACCTCCTTCCCGGCATCCTACTTGGCGCGATGCGTTCCCCCGCGGCTGGTGCGCCGCGCCGTGTACCGGCCGTCACGCGAGGTCACCTCGATCGGCTGGTGGTAGGCCCGGCTGA	MVSATSAAISSISSAWAARKATSVRLKLKGSPDAVFRAQCEKFRVPRVADRVVGNRRHVRAFRRLPQGLGGVKVGQVEDLRPRRRGEAHEPGAPAVEKQARRKPVRVVGFLGRAIWFLALGQLSQPRERVELRTSLGTADPARVRRDKVYGNAKLVVAQNVRQRQLVRFQAQTLAVEGARVDRQSTVLVDGQQRARFLEQLPHGGKQQRVRSFSADLQLTAQRLGGAALQQIFRPRSRREVAAVHPAAGKHGHARVIGHGHHALKHPHLEATSPVAGQDDRAGEARVIDTDHSPSPPSRHPTWRDAFPRGWCAAPCTGRHARSPRSAGGRPG				NA	NA	NA	NA	NA
AK009_06188	984			hypothetical protein	ATGTTGACCCGTCTGGGTTTAGGCGGAAGGCCGCTGCCCCCACTGGCGTGCCTCGCACACGTACGCCACCGCGCTCTTGCCCACGCGCGCAATCACGACCCCCATCTGCCGGCCACCCTTGAGCTTGAGTCGGCCGCGCAGCTGGTCGGGGTCAACGTCGACGCCTCGCACGAGGATTTCTACCCCGCCGGCGCCGTAGCCGGACAGTGCGGCCTTAAGCTGGCGCACCGGCACCGCGTCGAGCACCCGGAAACCGCTGTATCCGGGAGGGATACGATCCCCGCTCAGGAACGCGATGTGCTCATCGAGCATCCGCAACCCGTAGCGCGCACCCCAGTGGCGCACCAGACCGGCGCGGATGATCGCCCCGTCCGGCTCGATGACGAAGGCTCCCGGCGCGCCCACCGGCACGTCATCGGATTCACCCGAGGTCACGGTCTCGCTGAACCCATCGCTGCGCAACACAACTGCCTCGCGCGTGTGCCCGCCCGCGAGCCCAGGCGTGTACAGGCACGCCTCTTTCACGGCCCCGTCGACGGAAACCACGCTCACCAGACCCTCCCAGGCGGAGTAGTCGATACCCGGCGCGCACTTGACCGCCATCTCGGACCCCTGGTAGACGTCCAGCAACTCCGGCAGCGGGGGCACGAGCTGCGCGGGGTCGGTGATTCTGCGGCCCCCGGCGCGCCTGGCTGGGTCGGCGACGATGACCGCGCCGCGGGCGACGGGCGCCAGAGCGTCCGCCCGCGCGAGCCACGCACCTGCGCCGAGGTTGTAGCGCGCCATCGACAGGCGCACGGGGTCGATGTCCGAACCGAGCCAGTCCATTCCCGCGAAGGCCGGTGCTTCGGTGCCCACGGAGCAGGTCACGTCGTGAACCACACGAGCCCCGCTGTCCGCGATGCGTTGCGCACGCACGTTCGCCACCGGCGCCGGTGTTGCCTGCTGGGCCGCGTCAAGGTCCGTCAGCCAGCCCGCGGGTAG	MLTRLGLGGRPLPPLACLAHVRHRALAHARNHDPHLPATLELESAAQLVGVNVDASHEDFYPAGAVAGQCGLKLAHRHRVEHPETAVSGRDTIPAQERDVLIEHPQPVARTPVAHQTGADDRPVRLDDEGSRRAHRHVIGFTRGHGLAEPIAAQHNCLARVPAREPRRVQARLFHGPVDGNHAHQTLPGGVVDTRRALDRHLGPLVDVQQLRQRGHELRGVGDSAAPGAPGWVGDDDRAAGDGRQSVRPREPRTCAEVVARHRQAHGVDVRTEPVHSREGRCFGAHGAGHVVNHTSPAVRDALRTHVRHRRRCCLLGRVKVRQPARG				NA	NA	NA	NA	NA
AK009_06189	1125	iscS_3	COG1104	IscS-like cysteine desulfurase	ATGGCATACTTCGACCACGCCGCGACCACGCCGATGCGCCAGTGCGCCATTGATGCCTGGGTTGAATACTCTGCCCAGCTCAACCCCGGCGGGCAATACCGTTCGGGGCGCGAGGCGTCCGCGGTGCTGGCGCAGGCGCGCGAGGACATCGCCGAAGCGCTCGGGGCCGACCCCGTCGAGGTGGTTTTCACCGGCTCGGGCACCGAGGCCAACAACATCGCGGTGCGCGGGCTCTTTCGGGCCTGCGCCAACGAGCGCATCGTCGCCAGCCCCATCGAGCACCCGGCGGTGTTGGAGACGGTCAAGTCCCTCGCCGTGACTGAAGGTGCCAAGGCGCAGTGGCTGCCAGTGAATACGGCGGGCGTTGTCAACGACCTCGGGGCCCTCGACGCCCCGGCGGCGGTGGCGGCGCTGATGTGGGCGAACAACGAAACGGGTGCGATCCAGCCGGTGGCGCAGGCAGTGGCGCGAGCGGCGTCCGCGGGCACGCCGCTGCACGTCGACGCGGTCCAGGTCGTGGGGAAACAGCCTGTGGATTTCCATGAGCTCGGCATGACAACGCTCGCCGCCAGCGCCCACAAGTTCGGCGGGCCGCGGGGCATGGGCATTCTGCTGGCCCGCCGCTCGCCGGCGCCCGCTGCCACGCTCACCGGCGGCGGTCAGGAGCGGGGGTTGCGCCCTGGCACAGTCGATGTGGCCTCGGCAGTCGCGACGGCCGTGGCGCTGCGGGAGGCTGTGGCTGAGATGGAGTCAGAGCGGGTACGGGAGGCGTCGTTACGCGATGAGCTCGTGCGCGGGGTGCTGGCGGCGGTACCCGACGCGCGGCTGACCACGACGTCTGCGGTGCTCGATAGTCACGCGCATTTCCTGTTCCCGGGCGCGAACGGGGACGCGTTGATCATGCTTCTCGACGCCCGCGGGATCGAGGCGTCGACGGGGTCGGCGTGCGCGGCGGGTGTCAACCGCGCCAGCCACGTGCTCGAGGCGATGGGGGTGCCGCCGGTTGATGCGGCGGGGGCGCTGCGGTTGAGCCTCGGCAGGACCACGACGGCGTACGACGTGGAAAAGGTGGTGCGCGAGATAGCGAATGTGGTTGAGCGGGCGCGTGTGGCTGGTGCGCTCTGA	MAYFDHAATTPMRQCAIDAWVEYSAQLNPGGQYRSGREASAVLAQAREDIAEALGADPVEVVFTGSGTEANNIAVRGLFRACANERIVASPIEHPAVLETVKSLAVTEGAKAQWLPVNTAGVVNDLGALDAPAAVAALMWANNETGAIQPVAQAVARAASAGTPLHVDAVQVVGKQPVDFHELGMTTLAASAHKFGGPRGMGILLARRSPAPAATLTGGGQERGLRPGTVDVASAVATAVALREAVAEMESERVREASLRDELVRGVLAAVPDARLTTTSAVLDSHAHFLFPGANGDALIMLLDARGIEASTGSACAAGVNRASHVLEAMGVPPVDAAGALRLSLGRTTTAYDVEKVVREIANVVERARVAGAL	PGPT0000065_7445	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
AK009_06190	1080			hypothetical protein	ATGGTGCGGGACATGCATGCTTCCCGCAGACTCACGCCCGTCCTTGCTGCGCTCACCGCGGCCGCACTGACCGTGGTGCTCGCCGTCGCCGTCCCGTTTAGCCCAACGATGCGTACTGGCGCCAGCGCGCAGAACATCCCCGGCGTCGTCCAGGGCGTCGACGTCGCGGGCCACCAACGCCCCGGCGGCGAGCCCATCGACTGGCGCAGCGTCGCCGGCCCGGGCGGCCAGCAGTTCGCCTTTGTCAAAGCCACCGAAGGAAACGGCTGGAAAAACGAGTTCTACGACGAGGACGCCAACGCCGCGGCCGCAGCCGGACTGAAGGTCGGCGCGTACCACTACGCCCGCCCCGCCGAGGACCCGATAGCCCAGGCGAAGCACTTCGCCGACGTGATCAGCAAGGGCCCGGCCCTTAGCCTGCCCCCGGTGCTTGACCTCGAGGTCGACGAGGGACTGTCGCCGACCGCGCTGGCCGCGTGGACGGGCACCTTCCTCACCGAGCTCGAGCGCTCCACTGGCACGAAGCCGATGATTTACACCTACCGTTACTTCTGGTACGAGCGCATGAACGACACCTCTGCATTTACCGGCTACCCGTTGTGGCTCGCCGCGTACCAAAACCAGGCGCCGCGCCCCGTCGGCGGCTGGGACAAGATCTCATTTTGGCAGCGCTCCGATTCCGGCCGCGTCCCCGGCGTGAGCACTCCGGTCGACCTCAACGTGTTCAACGGTTCCGGCTCCGACCTCGGCGCGTTCTCCGCGGGCAACTACAGCGCCGGCGGGGGAGTCCTCGAGTCCTTCCAGGTTCCCGAATCCGGCGAGCTTGAGGTCCTGGGCCAGGACAACACTGCCCTGGTGGTGTCCATCCTGGGCCTGGCCACGGGAATCCTGAACCAGCCGCAGATCGCGGACGCCGCCGCGCAGTTCGGGTTCAGCCCGGACGACGCCTCGAATATCGCCTCTGCGGTCCAGGGATTGGCTGCGGAGGGCAAGCTGCCCGTCGGTGACCTGCGCGCGATGATGGTCGGCGACTACTCCGTAGGCGACCTGCTCATCTTGCTCAACAACGCGCAGAAGTAG	MVRDMHASRRLTPVLAALTAAALTVVLAVAVPFSPTMRTGASAQNIPGVVQGVDVAGHQRPGGEPIDWRSVAGPGGQQFAFVKATEGNGWKNEFYDEDANAAAAAGLKVGAYHYARPAEDPIAQAKHFADVISKGPALSLPPVLDLEVDEGLSPTALAAWTGTFLTELERSTGTKPMIYTYRYFWYERMNDTSAFTGYPLWLAAYQNQAPRPVGGWDKISFWQRSDSGRVPGVSTPVDLNVFNGSGSDLGAFSAGNYSAGGGVLESFQVPESGELEVLGQDNTALVVSILGLATGILNQPQIADAAAQFGFSPDDASNIASAVQGLAAEGKLPVGDLRAMMVGDYSVGDLLILLNNAQK	PGPT0019160_306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273	NA	NA
AK009_06191	282			hypothetical protein	GTGGTCGGTGCCGCGCCACGCGGCGCCCAGGCCCACCAGGGTGCTCACGCGCTGCCGCACGCGCTCGTCGTCAAGCGAGCGAAGGGCGATAAGGCCCCCGCTGGAGTGGCCGACGATGTCGACCCGCGTGACTGTATCGGGCAGCTCCAGGACGGTTCGGGCGACATCCTCAGCCGAGTTGTCGATCGCACCCGTTCCCCGGGCACCGTGAGTCGGCGCGATCATGTCCACGTCGCGCTCGCCGAGAGCCTCGGACAGCGGGCGAAATACAAAGGGTTCTGA	MVGAAPRGAQAHQGAHALPHALVVKRAKGDKAPAGVADDVDPRDCIGQLQDGSGDILSRVVDRTRSPGTVSRRDHVHVALAESLGQRAKYKGF				NA	NA	NA	NA	NA
AK009_06192	864			hypothetical protein	GTGCCGGGACTGGAAATCATCCAGCGACTGGGCGGCATCGCCCTTGGTAAACCAGTCCATCGGGCTGCCCGGGCTGCCCGCCGTGATCACGAGCACGGGCAGGTCGTGGTTTCTCCAGTAGGCGGGCGGAACGTACGCCACCGCGTCGCGCATCGGCGCCGCGGACAACGTCACCAGGGCGCCCACCTCACGGCCGTGGTCCTTCGGCGGAGATTTCATGGACGTGAACTGGTGCGCATCCACGCTCGCCGCCACGGGGACGGGGTAGAACGACCCGACCGACGGGTACTCCTGGTACACGAGGTTGGACACCAGGTAGGCGTTGGCGAGCGCGACGACCGCCACCAAAGACATCACGAAGCGCCTGCCCTTCTGCACCACCGCGACGCACACCACGAACGCAGTCGAAGCCCCTGCCGCGTAAATCACCCACGGTGCGGAATCCGGAAAGGGTTTGGGCCACACTTCGAAGCCGAATACCGCGACGGCGAGCAATCCCAGGGCGATAACCCTGCGATGCGGGTGCGCCGGTTGAACGGCACCACCGCGAAGAGCGTCGTCGCGAAAACGATGGCTGCGATGGCGATGCTGGCACCCGGTGAGACCAGCGAGAGAGATCGTAGAGCGTCCACGTTTTGTAACGTAGACCCCCATGGCCCTGTTCTCCCACCTTCCGGGCGTACTTCCCGACCCCTCCACGGCGACCTCCCAGTCGAGTGGCCGGGTTGTTGTCGCAGTTCACGGCACGCTCTCAGAACCCTTTGTATTTCGCCCGCTGTCCGAGGCTCTCGGCGAGCGCGACGTGGACATGATCGCGCCGACTCACGGTGCCCGGGGAACGGGTGCGATCGACAACTCGGCTGA	MPGLEIIQRLGGIALGKPVHRAARAARRDHEHGQVVVSPVGGRNVRHRVAHRRRGQRHQGAHLTAVVLRRRFHGRELVRIHARRHGDGVERPDRRVLLVHEVGHQVGVGERDDRHQRHHEAPALLHHRDAHHERSRSPCRVNHPRCGIRKGFGPHFEAEYRDGEQSQGDNPAMRVRRLNGTTAKSVVAKTMAAMAMLAPGETSERDRRASTFCNVDPHGPVLPPSGRTSRPLHGDLPVEWPGCCRSSRHALRTLCISPAVRGSRRARRGHDRADSRCPGNGCDRQLG				NA	NA	NA	NA	NA
AK009_06193	408			hypothetical protein	GTGCGACAATGCGGCGGTCGACATCTCGTCATCCTCGCCGGCGACGAAGCGCCCCACGATCCCATCGTAGTAAGAGGTGCCGCGTGCCTTGTCCAACAGCGTGGCCGCGTTGACTTTCTGGAACGCCTCCTCGCTGCCGCCGAAGATCTCCTGCACCGTCTCTGCGTGGCTGCCCACGTTCGGCTCAGCTTCACCGGAGAAGTCCAGAACCGAGCCGTACGCCTCGGGGTGGTTGGTGATCACCTGCATCGCGCAGGTCCCGCCGTAGCTCAACCCCCCGACCGTCCACCTAGACTGGTCGTCGTTGACGTCGAAGTTCGCCTTGATCATCTCCGGAACCTGTGTGGAGATATAAGTGAGTACCTTGTGCTCCGGGCCGTCAGAGCACGCGGGGTTACCCGTTTCTGA	MRQCGGRHLVILAGDEAPHDPIVVRGAACLVQQRGRVDFLERLLAAAEDLLHRLCVAAHVRLSFTGEVQNRAVRLGVVGDHLHRAGPAVAQPPDRPPRLVVVDVEVRLDHLRNLCGDISEYLVLRAVRARGVTRF				NA	NA	NA	NA	NA
AK009_06194	201			hypothetical protein	GTGCTCCTCCCCCGCCAACCCGTAGCCGAGGACGTCGCGGCCGCGGGAACCGAACACGGCGAAGAGAGCCCACATGACAACGAGCATGGACAGGCTCGCCGGGACCCTGGCCGCGAGAGTTCTTACCCTTTTCATTTCAACCCACCCCTTTCGGCGACGAAGTCGAGGTTGTCCCGAAACGCCACGCGCCACACCTGGTAG	MLLPRQPVAEDVAAAGTEHGEESPHDNEHGQARRDPGRESSYPFHFNPPLSATKSRLSRNATRHTW				NA	NA	NA	NA	NA
AK009_06195	387			hypothetical protein	GTGCCCCGCCACGCAGCCGATCAGGACCGCGCTGAAAGCGACTACTGCGTTGAGGGAGCCGTCGTAAAGCACAAGCGTGGCTGTCAGAGCGATGAGTACCAGGCGCACGCGCCGGCGCCACATCACCCCCATCGACGAGGTGGTGAACGCGAGCGAGCCGAAGATCCACGCAGCGGGCGAGAGATAAGTTTCGCTGACCAAGTCTCCACCCCACTGGTTAAAGCCCGCCCGCTCGACGATGATGGCCGCGACCGCGCCCGTCGGCACCGCCACGGCGTGCGACGCAATCGCCGCCACGGCGAAGCACCGCGTGGTCAGCAGGACCTCGGCGGGTACCGCGAAGACCAGCACCGCGAGAGACGAGTACACCATCCCGGCAACGTGTGA	MPRHAADQDRAESDYCVEGAVVKHKRGCQSDEYQAHAPAPHHPHRRGGERERAEDPRSGREISFADQVSTPLVKARPLDDDGRDRARRHRHGVRRNRRHGEAPRGQQDLGGYREDQHRERRVHHPGNV				NA	NA	NA	NA	NA
AK009_06196	249			hypothetical protein	TTGCTGGTTGATCTGCAGCGCTTCCTGGCAGGTCGCGGAGTTCGCGTCGACGCAGCGCAGGAGGACCTCGTGGGCGGCCACGGCGGGTTCCCACATCAGTTGGCTGACGTCCGCAAACGGCCCGTGGGCCGCGGGGTTGAAAGCAACGAGCACCGGCCCCAACGACACCGCCGCAAAAAGCACGGCGACGAGTATGCGAGATTCACGAACCGAGGCACGCCGGCGGTCGATCTCAGCGCCGATAACTAG	MLVDLQRFLAGRGVRVDAAQEDLVGGHGGFPHQLADVRKRPVGRGVESNEHRPQRHRRKKHGDEYARFTNRGTPAVDLSADN				NA	NA	NA	NA	NA
AK009_06197	1308			hypothetical protein	GTGACCTGCTCAAGGGCGCGGTGCCGGCGCACTTTAAGGGTGAGCGGTGGACGCGGGCGCTGGCGACTTCTCCGCGGCACGATCCGCGGCACGATCCGCTCCCCGACTCGCCAGGAACTCCTTGACCACCCCGGCATAGTCGCTGGCGCGCATCGTGGGCAGGTAGCAGTTGACCACCGCCAGCGCGATGGAGCCGAGCGCGAGCTCGTCGTCGTAGGCGAGGTACCAGCCGGAGTGCGTCGGGTGGAACTTGTACTTCGACGCCGCAAGGGAGCGGAAGCCGTAGAGCGGCTCGATGCTCGCCCCGGCCTTGTCCAGGATGACCTCGAGCACGGACTCGGGCTCGCCCGTGCGCGCCAGCGGGGCGCCGGAGAGCGACACCCACTGCAGCCCCTCGTCGCTAGCGACCTGGGCAGCCTCGGCCAGGAGGAACTCGATGGTGGGGCGGAACCCTGCCGGGCCGCGGCGCATGAAGTCCAGGGTGTAGCCGACGTGCTCGCCGCCCTCGTACACGGGAAGCCAGCTGGTCACGCCGTGCAGGCGGCCGTCGTCGCCGAGCGCGAGGAGCAGCATCGTGCCGTCGACGGAGAGCTCGTCAACGCTGCCGAGGGTAAAGCCCATCTCCGGCAGCGCCTTGTCCGACATCCACTGCTCGGACAGGGCGACAACCTTTTCGCGGGTCTCCACGTCGAGCTGCGCCCAGCTCGACCACAGCGCGCTCACCCCCTCCTTGCCGGCGCGGTTGCGGGCGGTGCGGATGTTCTGGAACTTCTTGCCCTTGAGCTCCAGGTTGTCCGCGTACAGCAGCGACTCTTCCGCGACGTGAATCGTGCGGAAACCGGCGCGCGCGAAATCTTCCGACACCGAGTACCAGGCCACGCGCCACCCCTGCTCCGCGGCGTAGGCCTCGAACGCGTCGGCGACGTCGTCACGGGTCGAGCCCTCCGTGAACACCGGCTCGCCCAGGATGACGGCTACGTTGTTGGAGATGCGGTAGGCCACGTACCCGGTCCCGCGGTCGGCGAAGAAGTACCTGTTGCCCTCCCACAGGCCCATCCACGCGAGGTGGTCGCCGGTGCCGCGCATCAGGATTTCCTTGGCGTGGCCGCGCTCGCTCTCGGCCGCCTGCGACGGCACCGACGTCAGCGCGCGGTGCAGGAAGTAGATCGCCGCGGCCCAAAAGGCAATTCCGACCCACTCGTAGAGCAACCACGACAACGCGCTCTGCGGAATCACGTAGGGCGGCCAGAACATCGCGATGACCGGCGGCATGAAGCGCAGCGGTGTTTCCAGGAGCACATCGCGTAA	MTCSRARCRRTLRVSGGRGRWRLLRGTIRGTIRSPTRQELLDHPGIVAGAHRGQVAVDHRQRDGAERELVVVGEVPAGVRRVELVLRRRKGAEAVERLDARPGLVQDDLEHGLGLARARQRGAGERHPLQPLVASDLGSLGQEELDGGAEPCRAAAHEVQGVADVLAALVHGKPAGHAVQAAVVAEREEQHRAVDGELVNAAEGKAHLRQRLVRHPLLGQGDNLFAGLHVELRPARPQRAHPLLAGAVAGGADVLELLALELQVVRVQQRLFRDVNRAETGAREIFRHRVPGHAPPLLRGVGLERVGDVVTGRALREHRLAQDDGYVVGDAVGHVPGPAVGEEVPVALPQAHPREVVAGAAHQDFLGVAALALGRLRRHRRQRAVQEVDRRGPKGNSDPLVEQPRQRALRNHVGRPEHRDDRRHEAQRCFQEHIA				NA	NA	NA	NA	NA
AK009_06198	540			hypothetical protein	GTGGCCCGTGGCCACGGCGTCGAAGCCCAGCGCGAGCGCCCGGTCGAGCAGGGCGGCGAACTTGATCTTCTCGTTGCAGCGCAGGCACGGGTTGGGGGTTTCGCCGTTTTCGTAGGACCAGACGAAGTTGTCAATCACGTCGGCCTTGAAGCGGTCGGAAAAGTCCCACACGTAAAACGGGATGCCCAGCTTGTCGCAGACCCGGCGCGCGTCGGCGGAATCCTCCAGCGAGCAGCAACCGCGCGCGGATTCGCGGGTAGCCTGGGGGTCGCGCGACAGAGCGAGGTGGACGCCGACGACGTCGTGTCCGGCGTCGACAAGCCGGGCAGCCGCCACCGAACTATCGACGCCGCCACTCATCGCTGCCAAGACCCGCATGAGCGGCAGTGTACCCTCGCGAGGCATGTCCCCAAAAAGCGAGAGTTACGAGATCGACAGCGGCGTCGCCGAGGTGATCCACGAGCACGACGGCTCGCTCACGCTGCTGGTCAACGGCGTTCCCAGCTCGTCGATCGTGCCGGGCGAGCCGGAGCGGCTTGA	MARGHGVEAQRERPVEQGGELDLLVAAQARVGGFAVFVGPDEVVNHVGLEAVGKVPHVKRDAQLVADPARVGGILQRAATARGFAGSLGVARQSEVDADDVVSGVDKPGSRHRTIDAATHRCQDPHERQCTLARHVPKKRELRDRQRRRRGDPRARRLAHAAGQRRSQLVDRAGRAGAA				NA	NA	NA	NA	NA
AK009_06199	135			hypothetical protein	GTGGCGCTTGGCCTCCTCGCGGATCTGGGGCTTTTCGGTATCGCCGACGGGGAAGACGCAGCGGTCGAGCTCGGCGCGGGTGAGCACGCCGAGGACGTAGGACTGGTCCTTGAGCGGGTCGGCGGAGCGTCGTAA	MALGLLADLGLFGIADGEDAAVELGAGEHAEDVGLVLERVGGAS				NA	NA	NA	NA	NA
AK009_06200	135			hypothetical protein	GTGTTCCTTCAGCTGCGTGCCGTCAACGTCGACCACCATCCCGGGGCGCATGCCGATCGAGCGGCCCAGGAACGCCTGCGTGTTGCCGTCCGGGATGAAGCAGATGTCGTAGGAATCAGGCTTCGAGGCCGTTGA	MFLQLRAVNVDHHPGAHADRAAQERLRVAVRDEADVVGIRLRGR				NA	NA	NA	NA	NA
AK009_06201	243			hypothetical protein	GTGCAGCTCAAGTGCCATCTCGTTGCCCTCGACACGCGCGGTGCAGCCGACGACCCCGCCGTGGGCGCGGATCTGCACGTTGGCCTCGAACTCGCCGTGCATCGACGGATGCAGGACCTTGAGCCGATCGGCGCGGATCTCGCGCACCTGCAGCGCCTCGCGCGGGCCGACGGTGACCACGCCGGTGGCGGCGTCGATGTCGGTGACGTAGCGAGGCTGGCCGTCGGCCGCTGGAACGCGTAA	MQLKCHLVALDTRGAADDPAVGADLHVGLELAVHRRMQDLEPIGADLAHLQRLARADGDHAGGGVDVGDVARLAVGRWNA				NA	NA	NA	NA	NA
AK009_06202	804			hypothetical protein	TTGCGCAGTCCAAACTACGCGGACGCAAGCGCCCGACCCAACAAACCAACCGCGCAACGAACGAACCCCGCCAAACTGCGCAGACCAAACTACGCAGACCCCGAATCAGCGCAGCCCCTCCCACATCTCGCGCGCCTCGCGGTAGTTTGCCGCTGCATCGCTAAGCGTCCCAGCCGGCCGCGCCCACACGTCGAGGCCCACCGCAGCCGGGTCGATCTGCAGCTCATCGAGGAACCGCAACACTCGCTTCGGTTCCTCCGGCGCGATCGCGAGCCGCGTCCCGTTCTCAAGAAGCGCCGCCACCCGGTCCTTCCCCGCAGCGTCGAGCGCCGCAACATCGACCGTCAGCCAGTCGGCGTCAACGAGCGCGGTGGTGTGCAGCAGGTGGGCGTCGAAAAGCGAAAGGCGCTCATGCGGCTCGGGCACCGCACGGATGGTTTCGAAGTCGGTCGCGCCCGGCAGCCGCCCCTGCATGACGTCGGGGAGCGCGGGCTCGTCGAGCTGCAGGATCGTGCGCGCGCCAAACCGCTTCTCGACGTCCGCCCGATGCGCCCCGATAGCCTCACGCAGCGCATCCGTCACATCGCGCAGCGCCCCGGGGTCCGTGATCATCCGGTGCCCATTGGCCATTTCGATGCGCGCGGCGAGCGTCCACGGGCCGACGAGCTGGACCTTGACCTCGCTGACCTGGCCCGCCCAGACCTCCTCGAGAACGTCGAGGTCGCGGGCCATCTGGTCCTTGGCGGCGCGGTGCTGGGTGGCCACGCGCCACGAGCGCGGCCCGCGGTCGATCGGGATGTCTAA	MRSPNYADASARPNKPTAQRTNPAKLRRPNYADPESAQPLPHLARLAVVCRCIAKRPSRPRPHVEAHRSRVDLQLIEEPQHSLRFLRRDREPRPVLKKRRHPVLPRSVERRNIDRQPVGVNERGGVQQVGVEKRKALMRLGHRTDGFEVGRARQPPLHDVGERGLVELQDRARAKPLLDVRPMRPDSLTQRIRHIAQRPGVRDHPVPIGHFDARGERPRADELDLDLADLARPDLLENVEVAGHLVLGGAVLGGHAPRARPAVDRDV				NA	NA	NA	NA	NA
AK009_06203	600			hypothetical protein	GTGGGCGTTGTCGAGGCGCACGCCGTAGAACTCGCTGAGCGCACCGAGGTTGCGCTTGCCTTTGCGGTAGCGGTCTTTGGCTCGGTCGATCACGAGCGGGTCGTACACGGGGCCGTCGACGGTAAAAGTGCCGGTCAGGTGCCGCAGCACAGTCAGGTCGTAGGGAGCGTTGAACACCACGAGGGTGAGCCCGTCCTCCCAGCCTTTGCGGATCGCGGCGACCGTTTCGTCGAGCACCTCGTCGTGCGGGCGGCCCTCGGCGCGCGCCTTTTCGGTGGTGATGCCGTGGACGGCAGCTGCTTCTTCCGGGATCTCCACGCCCGGGTCGGCGAGTTCCTCCGAGGACGTGACGGTGGAGCCGTCGATACGCACGAGCGCGGAGGTGACGATGCGTGCCTCGCCTGGGTTGGCCGAGGTTGTCTCCAGGTCAAAGGAGAGCATGCGGGATGCGTCGAACGATGCCATGCCACTAACTCTAGACTGGTGCACTGTGAGCGACATTTCCGCAGACCTGCACCGCCAGTGGGACGACCTTGCCAGCCAGGTGCGTCACCACCGCGACCTGTACTACAACGGCCAGCCGGTGATTTCCGACGCTGA	MGVVEAHAVELAERTEVALAFAVAVFGSVDHERVVHGAVDGKSAGQVPQHSQVVGSVEHHEGEPVLPAFADRGDRFVEHLVVRAALGARLFGGDAVDGSCFFRDLHARVGEFLRGRDGGAVDTHERGGDDACLAWVGRGCLQVKGEHAGCVERCHATNSRLVHCERHFRRPAPPVGRPCQPGASPPRPVLQRPAGDFRR				NA	NA	NA	NA	NA
AK009_06204	471			hypothetical protein	GTGCGGGATATCGGGGATGACTTTGGCGTTGGCGGTGATGTCCTCGCCGACGCGGCCGTCGCCACGCGTGGCGGCGCGAACCAGCTCGCCGTTTTCGTAAACCAAGTCGATCGACAACCCGTCGATTTTCAGCTCCGTCAGGTACGGCCCCGGCGTCTTGGCCAGCCAGTCGGCGAGCTCCTCCGCGGAGAACACGTTATCCAGGCTCATCATGCGTTCGAGGTGAGTGACGTCGGCAAACGCGCTGGAGACGGGAGCGCCGACTTCCTTGGTCGGCGACTCCGGCACGGCCAGCTCCGGGTGGGCCTCCTCGAAGGCGACGAGATTGTTGAACAGCTTGTCGAATTCAGCGTCGGAAATCACCGGCTGGCCGTTGTAGTACAGGTCGCGGTGGTGACGCACCTGGCTGGCAAGGTCGTCCCACTGGCGGTGCAGGTCTGCGGAAATGTCGCTCACAGTGCACCAGTCTAG	MRDIGDDFGVGGDVLADAAVATRGGANQLAVFVNQVDRQPVDFQLRQVRPRRLGQPVGELLRGEHVIQAHHAFEVSDVGKRAGDGSADFLGRRLRHGQLRVGLLEGDEIVEQLVEFSVGNHRLAVVVQVAVVTHLAGKVVPLAVQVCGNVAHSAPV				NA	NA	NA	NA	NA
AK009_06205	174			hypothetical protein	GTGGCAGATCATGCGCAGCTTACGCTTTTTCACGTCCTCGGGGTTTTTCTGGCGCAGCCCGCCCGCGGCGGTGTTGCGCGGGTTGGCGAACGGCTTGCCGCCCTCGGCGATGCGCTGCTCGTTAAGCTCGGGGAAGTCCTCGGGGCGGATGAACACCTCGCCGCGGACTTCTAG	MADHAQLTLFHVLGVFLAQPARGGVARVGERLAALGDALLVKLGEVLGADEHLAADF				NA	NA	NA	NA	NA
AK009_06206	1116			hypothetical protein	GTGGGGCCTTCCGGTCTCCGAGTACACGCGCCGGGCCGAGACGGCCGAGCAGGTCCAGGAGTCAGTGAACTACTGGGCCGAGCATCGCCACGACGCGATCCACGAGATGGACGGGGTGGTGATCAAGGTGGACTCCGTCGCTACGCAGCGTTCCCTGGGCGCGACCTCGCGCGCGCCGCGCTGGGCGATCGCGTACAAGTACCCGCCGGAGGAGGTGACCACGAAGCTCCTCGACATCGAGGTCTCGGTTGGGCGCACCGGCCGCGCCACCCCGTTCGCGGTGCTGGAGCCGGTGCTCGTCTCCGGCTCCACGGTGTCACTGGCGACGCTGCACAACCAGCACGAGGTCAAGCGCAAGGGTGTGCTCATCGGCGACACGGTCGTGATCCGCAAGGCCGGCGAGATCATCCCCGAGGTGCTGGGCCCAGTTGCGGACCTACGCGACGGCAGCGAGCGCGAGTTCATCTACCCGAAGGACTGCCCGGCGTGCGGCACGGAGCTCGCCCCGGCGAAGGAGGGCGACGCGGACTGGCGCTGCCCGAACACGCGCTCCTGCCCGGCGCAGCTGTCGCAGCGGCTGAAGTACCTGGCGTCCCGCGGTGCCTTCGACATCGAGGCGCTCGGGGAGAAGGGCGCCCAGGACCTCATCGCCTCGGGCGTCCTCGTCGACGAGGGCGACCTGTTCGACCTCACCGAGGAGGACTTGAAGAAGTCCAGCGCGTACACCACCAAGGCGGGCAACGTCAACGCCGCAGGCAAGAAGCTGCTGGCCAACCTAGACACCGCGCGCGAGCGGGAGCTGTGGCGCGTGCTCGTCGCCCTGTCGATCCGCCACGTCGGGCCGACCGCAGCCCGCGCGCTCGCCGCGCGCTACACCTCCATGCAGGCGCTTATCGACGCCCCCATCACCGACCTCGCCGACACCGACGGCGTGGGCCTGGTCATCGCGCGATCCTTCAAGGACTGGTTCGAGGAGCAGTGGCACCGCGACATCGTGGACAAGTGGGCCAAAGCCGGTGTGCGGATGGTCGACGACACCACCGACGCCGCCCCGCAGACCCTCGAGGGGCTTACCGTCGTGGTGACGGGAACCCTGGAGAACTTCTCGCGCGATGA	MGPSGLRVHAPGRDGRAGPGVSELLGRASPRRDPRDGRGGDQGGLRRYAAFPGRDLARAALGDRVQVPAGGGDHEAPRHRGLGWAHRPRHPVRGAGAGARLRLHGVTGDAAQPARGQAQGCAHRRHGRDPQGRRDHPRGAGPSCGPTRRQRARVHLPEGLPGVRHGARPGEGGRRGLALPEHALLPGAAVAAAEVPGVPRCLRHRGARGEGRPGPHRLGRPRRRGRPVRPHRGGLEEVQRVHHQGGQRQRRRQEAAGQPRHRARAGAVARARRPVDPPRRADRSPRARRALHLHAGAYRRPHHRPRRHRRRGPGHRAILQGLVRGAVAPRHRGQVGQSRCADGRRHHRRRPADPRGAYRRGDGNPGELLAR				NA	NA	NA	NA	NA
AK009_06207	261			hypothetical protein	TTGAGCAGTTGCTTGCAACCGGCTCGCCTGCGTAGCGACGCACTTGCTCACGGCAATTCCGACAGCTACGGCTGCGAGCAGCGACAATACCGGCCACACCCAAAACGGCACGGCCTCGTGCCAATCGATGGCCCGGGAGAGCAGCAGGACAACGGCCACGGTAATCACGGGGCCGATCAGGCCGCTGAACGACAGTTCGGGCCGGCGCCACGCGCGGACGGCTTCGATGGCCAGCGCTACAGCGCACACGGCGAGGAGTAG	MSSCLQPARLRSDALAHGNSDSYGCEQRQYRPHPKRHGLVPIDGPGEQQDNGHGNHGADQAAERQFGPAPRADGFDGQRYSAHGEE				NA	NA	NA	NA	NA
AK009_06208	252			hypothetical protein	GTGGTCCGGGGACCACACGAGCATGGCCCTGAAGCCACCGGTTCCGCCGTTATGGAAGGTGTACTCGGTCCCGCCGATCTCCCGGTGGCTCCACCCGTACTCCGGGCGGCCGTGGTCGGCGACCCACTGGGCGTATTTCGCCATATCCGCCGGGGTGGAGCGGATCGCGCCCGCCGGGGCCCAGCCGTCCATGTCCCAGGGCTCGGCCGGGCGGCCGCTCAAGCCGAGTCCGCGCGAGCTGTCCTCGCCTGA	MVRGPHEHGPEATGSAVMEGVLGPADLPVAPPVLRAAVVGDPLGVFRHIRRGGADRARRGPAVHVPGLGRAAAQAESARAVLA				NA	NA	NA	NA	NA
AK009_06209	237			hypothetical protein	GTGCGTCTCCGTCATGCCGGCGGGCTCGAAGATCGCGGTGCGCAACAGCTCTTCGTAGCTCATGTCCGCGTTGCGGGCGAGCAGCTGCCCGAGCAGGGCGTGGCCGTAGTTGGAGTAGTTGCGCTCGCCGCGGTCATGAAGCTCGGCTTCAGCGGCGTAGGAGAGGATGTCGTCGGCGGTCGCGTCGCGGTAGGGGTTGGCGTTGGTCAGCGCCACGGCCACGCGGTTGCTGAGTAG	MRLRHAGGLEDRGAQQLFVAHVRVAGEQLPEQGVAVVGVVALAAVMKLGFSGVGEDVVGGRVAVGVGVGQRHGHAVAE				NA	NA	NA	NA	NA
AK009_06210	510			hypothetical protein	GTGGTTGGCCAGCTCTTCCATGGTGACGTCGGCGATCGGGGTGCCGGGGACGTCGATAAGCTCGCCGACTGTTGTTGCGAGGGTGATGTCGCCGCGCTCAATCTGCTGGCGCAGAAGCTCGGCGTTGAAGGTTTTGGTGATGGAGCCGATCTCAAATTCGGTGTGCTCGTCGGCGCCGAGGCCGCCGAAGCGCACACCGCCGTTGCCGAGGTAGAACGCGGCGAGCTCGTGGTGCCCGGGGTCGGCGTGGGTGCGCAGGGCGTCGGAAACGGACGCGTCTCCGGTGGTTTCTTCTCCCAAGGTGATCGGGCGGGGCCCGAGGAGAAGCATCACAGCCAGCGTGACAATCGCGGCGAGGCCACCAGCGGCCACAGACGACGGCTTCATCAGTGGGCCTCGCACGCTGTGATGATCGCCATCAGTGGCACGACGCGGGCGGGGGGAATGGCGAAGCTGCCGTCGTGCTTGGTTACCCAGCCTGCGGCCTGGAGCGCGCTCAAGTGGTGGTAG	MVGQLFHGDVGDRGAGDVDKLADCCCEGDVAALNLLAQKLGVEGFGDGADLKFGVLVGAEAAEAHTAVAEVERGELVVPGVGVGAQGVGNGRVSGGFFSQGDRAGPEEKHHSQRDNRGEATSGHRRRLHQWASHAVMIAISGTTRAGGMAKLPSCLVTQPAAWSALKWW				NA	NA	NA	NA	NA
AK009_06211	312			hypothetical protein	GTGGTGGTAGGCGGTGCCGGGGGAGCTGGCGATGTGCTCCTCGACGAGCTCGGTCACCGTGGCCGGGGAGGTCAGGAGGCGACGCATGATCTCTCCGCGAAGCGGGTTGGCGAGGGCGGACAGGCGGGAAATCTCTTCCTCCCACTCGCTGTCGGTAACCCAGTGGGTCGGGCGCGTCCACTCGTACTCGTAGTGGCGGCCTCCCGTATCCACGACGCCGCCGAAGGTGACGGCGCCGTCGACGAGGTCCGTGTTGGCCTTGAGGGCGTCGATAAGGGCGAGGGCTGTGGGCTGCGGGTTTTCGGGTTCTAG	MVVGGAGGAGDVLLDELGHRGRGGQEATHDLSAKRVGEGGQAGNLFLPLAVGNPVGRARPLVLVVAASRIHDAAEGDGAVDEVRVGLEGVDKGEGCGLRVFGF				NA	NA	NA	NA	NA
AK009_06212	861			hypothetical protein	ATGTGCTCGGTGATCGCGGTTTCCATAAGTTTAGAATGGCAGAATTATGGACTGCTGGCAACGTGTCTATTCCGCGGCCGCCCTGGGCGCGAGCACGAGCGTCGCTACCAGGAGCGTCACGCAACTGGCACCAGCGATAACCCAGTAATCCACGGGACTAGGGCCCGTGGGGAACGCGATGAGGTTCAACGCGGTAAGCGGAACGGCGTGGGCAACAACGGCCGGCCACGCCGACCCGTACCGGTGGGAGACGGCGCTCAGAAAAAGGCCCAAGGGGAAAAGGGTGAGCGTCGACGTTATCGCCGCGTCTGCGGGCAGCGTCCCCTGAGCCACCATGGTGGCGTGGAGCGGAATGTGCCAGATCACCCACAAGCACGAGATGGCCGAGGCGAAACCCCAAAAACCGAGGCTGGAAAGACAAGAGTGGAGGAAACCGCGCCACGCGGCTTCCTCCCCAAGCGTGCTCAGGGAAAAGATCAGGGCGTAAGGGACGATGAGCAGTATCGCCTGCAGATAGAAACCGCTGGGCTGGGGTTCGCCGATTCCGCCGAGCATCACGCTGCCCGCCGCAATGGCGTAGGCGATGAGCAAAGCGCACACGGCAACGAGGCTCCCTACCAGCGCTGTGCGCCACGACGTGCGCAGTCGGAACCAGGTGAACAACCCGCGTTTACGAAAGGCGAGAAGGACCGCAGCCGCGACGAGAGCGGGGATCCACCGCGCGACAATGACAAACCAGTTGGGAATGACGGCATCGAACAGCAAAAACACTGCGCACACCGCCGTGATGGCGATAAGGACGGCGACGGCAAAGACCGCGGCCATGGAGTAGTTGGCGCTCTTTGGGGGCTGCACGGGTGA	MCSVIAVSISLEWQNYGLLATCLFRGRPGREHERRYQERHATGTSDNPVIHGTRARGERDEVQRGKRNGVGNNGRPRRPVPVGDGAQKKAQGEKGERRRYRRVCGQRPLSHHGGVERNVPDHPQARDGRGETPKTEAGKTRVEETAPRGFLPKRAQGKDQGVRDDEQYRLQIETAGLGFADSAEHHAARRNGVGDEQSAHGNEAPYQRCAPRRAQSEPGEQPAFTKGEKDRSRDESGDPPRDNDKPVGNDGIEQQKHCAHRRDGDKDGDGKDRGHGVVGALWGLHG				NA	NA	NA	NA	NA
AK009_06213	768			hypothetical protein	ATGTCTTTCCTAACCTTGGAGATGAAAACGACCTCATCTTACGTCACGGCCCAGACACTCCGGTTGGGGGCGGTGTTTGGGCGCGGTGATATAACTTGTGTTATGTCTTACCTCATCCGCGTCCACCTGCCGGACGTCCCGGGCAGCCTCGGCGAGCTTGCCGAGGCTTTCGGCATGATCGATGCCGACATTCGATCCGTGGACATCGTTCAGATGGATCGCGCGGGGGTAGTCACCGATGACATCGTCGTCGAGCTGCCTACGGGCACGCTTGTCGACGCCCTCATCACCGCAGCCAGCTCAATCGAGGGCGCGGAGGTCGACTCGATTCGCCCGTTCACGGGCACGGTGGATCGCCGCGGCCAGATCCAGATGCTCGCCCGAATCGCCGACACCACGGGCGACGTCACCGCCGCAGCCCACGAGCTGGTCAGCGTGATGCCGCAGGCCATGACGTCGTCGTGGGCGGTGGTGCTGCGCGACACGTCCGAGGGGCTGGAGCGCGTCGCGGCCTCCCAGGCGGCGCCGGGTGACGACGGTTCCAAGCCCACGCTCGTCGACGTCACCACGGCGCGGATCTTGCAGCGCGACTCCGACACCTGGGTGCCGGAGGCGTGGTGGCTACTGGACACCACACTGGCGATCACGCCCCTGACCGGCACGGACCTGGTGCTCGTCGTCGGACGCGTTGGTGGCCCCGACTTCCTCGCCTCCGAGGTCACGCAAATCCGGGACTTGGGCCACATCATCGGCGCGATGCTACGGTAG	MSFLTLEMKTTSSYVTAQTLRLGAVFGRGDITCVMSYLIRVHLPDVPGSLGELAEAFGMIDADIRSVDIVQMDRAGVVTDDIVVELPTGTLVDALITAASSIEGAEVDSIRPFTGTVDRRGQIQMLARIADTTGDVTAAAHELVSVMPQAMTSSWAVVLRDTSEGLERVAASQAAPGDDGSKPTLVDVTTARILQRDSDTWVPEAWWLLDTTLAITPLTGTDLVLVVGRVGGPDFLASEVTQIRDLGHIIGAMLR				NA	NA	NA	NA	NA
AK009_06214	252			hypothetical protein	TTGGTCCAGCGCCTGCGTTTGGGTCAGCGTCTTTTTCTCCACGTCCTCGCGCATCCCGACGTCGATGGAGTGCGGGTGGCTCATCGGCGTCACGCCTTCGGTGTCGACTTGGCGCACCTTGGACACGGCGTCGACGATGTGGTCGAGCTGCGGCGCGATCTGGTCGAGCTCCTCATCGCTCAGCGCGATGCGGGCCAGACGCGCGATGCGCGAGACCTCGTCTCTGGAAATTTCGGACAATGTCTTTCCTAA	MVQRLRLGQRLFLHVLAHPDVDGVRVAHRRHAFGVDLAHLGHGVDDVVELRRDLVELLIAQRDAGQTRDARDLVSGNFGQCLS				NA	NA	NA	NA	NA
AK009_06215	732			hypothetical protein	GTGGCCGGCGATGATCTCGTGCAGCAGCGCCGTGTCGAGCACGTTATTGGCGCAGGGGCCGACCTGGTCGAGCGAGGAGGCGTTGGCGATCACGCCGTAGCGCGACACCCCGCCGTAGGTCGGCTTGGCGCCAACGGTGCCGGTCAGGGACGCGGGCTGGCGGATCGAGCCGCCCGTGTCCGTGCCGATGCCCAGCGGCGCCTGCCCGGCAGCCAGCGCGGCCGCGGTGCCGGAGCCGGAGCCGCCGGGCACGCGGGTGATGTCGTGCGGGTTCTTCGTCGGGTAGTAGGCGGAGTTCTCACCGGAGGAGCCCATCGCGAACTCGTCCAAGTTGGTTTTTCCGATGATCGGGATGCCAGCTTCGCGCAGCTTGGTTACCACGGTCGCGTCATAGGGGCTGATGTAGCCCTCGAGCAACTTCGACGCCGCGGTCGTGGGCGCGTCGGTGGTCACCAGCAGGTCTTTGAGCGCCAGGGGCACGCCGGCCAGCGCGGAGGCGGGGGCCTCGCCTGCCGCGACCTGGGCGTCGACGGCGTCTGCGGCGGCGAGCGCGGCGTCTGCGCTGACGTGGAGGAACGCGCCCAACTCCGCGTCGGTCTCCGCGATGCGGTCCGCAAACGCCTGGGTGACCTCGCGCGAGGTCACCTCGCCGGCCTGGATCTTGGCGGCGAGCTCGTGCGCGGGCAGAGCGATGAGCCCGTCGGCGGGAATGACGTAGTTGGTCATGGTTAG	MAGDDLVQQRRVEHVIGAGADLVERGGVGDHAVARHPAVGRLGANGAGQGRGLADRAARVRADAQRRLPGSQRGRGAGAGAAGHAGDVVRVLRRVVGGVLTGGAHRELVQVGFSDDRDASFAQLGYHGRVIGADVALEQLRRRGRGRVGGHQQVFERQGHAGQRGGGGLACRDLGVDGVCGGERGVCADVEERAQLRVGLRDAVRKRLGDLARGHLAGLDLGGELVRGQSDEPVGGNDVVGHG				NA	NA	NA	NA	NA
AK009_06216	549			hypothetical protein	GTGGCAAGCGCCGCAAGCGCAGAGACTGGCGAGCTAGCGGCGTCCGGCTTCAAAGGCTGCACCGACGCGATACATCTTGTCGTCCTCGAAGGCTGGGGCGATGATCTGCAGGCCGACGGGCAGGTTCGTATCCGGGGCGGTGCCCGCGGGCACGGACATGCCGGGCAGGCCAGCGAGGTTCAGCGGCAGCGTGAACAGGTCGAAGTTGTACATGGCCAGCGGGTCATCGACCTTGTCGCCGAGCTTGAACGCCGTGGTGGGCACGGACGGGCCGGCGATGACGTCGACGCTGTCGAAGGCACGGGCGAAGTCGCGGGCAACGAGTGTGCGCACGCGCTGCGCCTGCAGGTAGTAGGCGTCGTAGTAGCCCACCGACAGGGCGTATGTGCCCAGGATGATGCGGCGTTTGACCTCGTCGCCGAAGCCCTCGCCGCGGGTCAGCGCCATGACCTCCTCGGCCGAGCGGGAGCCGTCGTCGCCGCGGCGCTGGCCGTAGCGCATGCCGTCGAAACGCGCGAGGTTCGACGACACCTCGGATGTCTGGATTAG	MASAASAETGELAASGFKGCTDAIHLVVLEGWGDDLQADGQVRIRGGARGHGHAGQASEVQRQREQVEVVHGQRVIDLVAELERRGGHGRAGDDVDAVEGTGEVAGNECAHALRLQVVGVVVAHRQGVCAQDDAAFDLVAEALAAGQRHDLLGRAGAVVAAALAVAHAVETREVRRHLGCLD				NA	NA	NA	NA	NA
AK009_06217	1239	qacA	COG0477	Antiseptic resistance protein	ATGCCCGTACTCACACCGCACCTGCCCTTCGGCGTCGGCGCGGCGGTGTGGCTGACCAGCGTCTACCTCATCTGCACCGTGGTGCCCATGCCGGTTGCGGGCCGCCTCGGCGACCGCTTCGGTCAACGCCGCATCTTCATCGCCGGCATCGCGCTCTACCTCGGCGCGCTGTTGCTCGCCGCCGCGTCGTGGTCCCTGGCCTCGCTCGTCGCGGCCCGCGCGCTCCAAGGCCTCGGTTGCGCGGCATTTTTGCCCCAAGCCTTCGGCATGATTAACCGGTTCGTGCCTAACGACCGGCGCGGCAGAGTCTTCGCGGTGTGGGGCGTCGTCGGCTCCGTCGGCTCACTGCTCGGACCCATCCTCGGTGGCATCCTCGTCGGCGCCGGCTGGCGCACAGCCTTCGCCGCCCAGGCCGCAATCGCGCTGGTCGGCCTCGTCTTGGCGCTTAAGTTTCTGCCCCAGCTGCCGGTCTCGCCCGCGCGTATCGACGCCCTGTCCACCGCCCTCTCCCTCGCCGGACTCGGCGCACTGGTCTACGGCATCCAGTTCCTGGCCTGGGCCCCGGCGTTCATTGGCGCGGCCCTGCTCGCAGTGTTCTTAGCTATCCAGGCGCGCGGGGGAGACGACGCGCTGGTGCCGGTGCGACTGTTTTCGGACGGCAACTTCGCGGCGGGCACGTTCGGCATTGCCACGATGGGTTTCGCCGTGGCTTCGATGTTCATCCCTGTGATGTATTGGCTGCAGGGCGTGGCCGGGGTGGCGTCGACAAGCGCTGGCCTGCTCACGGCGCCGATGTCGCTGCTCGCGATGGCGCTGACGCCGTATGCCGGCGAGCTCAGTGATCGGGTGAGCCCGCGCGTGCTGTCGGCGGTGGGGTTCGGGTTTATGGCCGCGGGTTTGGGGCTCGCGTGGTGGGTGATGCACACGGGCGCGCCTGCACTGCTCTTCGCCGCGGTGACGTCGCTGCTCGGCGTGGGCAGCGCGTTTGTGTGGGCGCCGAACGCGACAACCACCATGCGGTTCGTGCCCGATCAGGCGGCAGGTGCCGCATCGGGGCTGTACAACACTGTGCGCCAGGTCGGGTCCGTGCTGGGCGTGGCGCTGGTGGGGGCAGTGCTCGCCGGCGGCGATGTTTCCTCTACCGCGGCCCCCGCGATCGTGCTGCCGCTGACGGCTATGCTGTTGGGGCTTGTCAGCACGGCATTCCTGCGCAGGGACGTGACCGCCAAAACCCGCTAG	MPVLTPHLPFGVGAAVWLTSVYLICTVVPMPVAGRLGDRFGQRRIFIAGIALYLGALLLAAASWSLASLVAARALQGLGCAAFLPQAFGMINRFVPNDRRGRVFAVWGVVGSVGSLLGPILGGILVGAGWRTAFAAQAAIALVGLVLALKFLPQLPVSPARIDALSTALSLAGLGALVYGIQFLAWAPAFIGAALLAVFLAIQARGGDDALVPVRLFSDGNFAAGTFGIATMGFAVASMFIPVMYWLQGVAGVASTSAGLLTAPMSLLAMALTPYAGELSDRVSPRVLSAVGFGFMAAGLGLAWWVMHTGAPALLFAAVTSLLGVGSAFVWAPNATTTMRFVPDQAAGAASGLYNTVRQVGSVLGVALVGAVLAGGDVSSTAAPAIVLPLTAMLLGLVSTAFLRRDVTAKTR				NA	NA	NA	NA	NA
AK009_06218	867			hypothetical protein	GTGCGCCACCGCGCTTTCGAGCGGCACCATCTCAATGTTCTCGCCGTGCAGCGCGACGCAGGTGTCAAATTTGCCCTCGTGAACAGCGCGCGCGGCGTTGACGCCGTAACGTGTGGCCAGCACGCGGTCGTAGGCGGTTGGCGTGCCGCCGCGCTGGATGTGCCCAAGGACGGTGGTGCGAACGTCGTAGCCCAAGCGCGATTTGATCTCGTCGGCAATGATCTGGCCCATGCCGTTGAACGTTTTGTGGCCGAACTCGTCCTCCTCGCCCAGGCCCGCGTCCATCGTGCCCTCCTTGGGCACCGCGCCCTCGGCGACGACGATGATGCCGTACTTCTCCCCCATCTGGAATCGCCGCTCCATCGCCTTGCAAATCTCCGCGATGTCGAAGGGCTGCTCCGGGATCACGGTGTAGTGCGCCCCGCCGGCCATGCCTGCGTGCAGCGCGATCCACCCGACATGGCGGCCCATAACCTCGACGATGAGAATGCGGTTGTGCGACTCCGCGGTGGTGTGCAGGCGGTCGATGGCGTCAGTGGCCACGCTGACTGCGGTATCGAAGCCAAAGGTGTAGTCGGTCGCCGCGACGTCATTGTCAATGGTCTTGGGCACGCCGACGACCGGGATGCCGTTGTCGGAGAGCCACTTCGCGCCCTTGAGGGTGCCCTCCCCGCCGATGGCGATCAGGGCGTCGACGCCGGCTTCGTCAAGATTGCGCTTGATCGTGTCCAGTCCCGCCTTGAACTTGTCCGGGTGGAGGCGGCCAGTGCCCAGGATCGTACCGCCACGCAGCAGGATCGAGTCGATGAACGCGTCGTCGTAAAGGTCGATCCGGCGGTCCTCGATGAGGCCGACCCAGCCATCTAG	MRHRAFERHHLNVLAVQRDAGVKFALVNSARGVDAVTCGQHAVVGGWRAAALDVPKDGGANVVAQARFDLVGNDLAHAVERFVAELVLLAQARVHRALLGHRALGDDDDAVLLPHLESPLHRLANLRDVEGLLRDHGVVRPAGHACVQRDPPDMAAHNLDDENAVVRLRGGVQAVDGVSGHADCGIEAKGVVGRRDVIVNGLGHADDRDAVVGEPLRALEGALPADGDQGVDAGFVKIALDRVQSRLELVRVEAASAQDRTATQQDRVDERVVVKVDPAVLDEADPAI				NA	NA	NA	NA	NA
AK009_06219	495			hypothetical protein	GTGGCTGGCCGGGCAGTACATGCCGGTCAGCGCCTCATCGATGGCGCTGTCCATTCTGAAGATGGTGTTCGTGCCCGTCGTTCTGGGCTTGGTGCTGCGGACCGTGGCTCCGAAGGTGGTGGAGGCGATCCTGCCGGTGCTGCCGTGGATCTCCGTCGTTGCAATTTCGACGATTGTGGCGATCGTGGTCTTCGGCTCCCGCGACAAGATCGTCGAGGCGGGCCTGATCGTGCTCGCGGCCGTGGTGATTCACAATATGGCCGGGCTAGTGCTGGGCTACCTTACCGGCAAGCTCACCCGCCAACCCGAACCCGTCAGCCGCACCATGGCCATCGAGGTGGGGATGCAGAACTCCGGTCTCGCCGCCACCTTGGCCGCGACCTACCTCAGCCCGCTCGCGGCGCTGCCCGGGGCGGTGTTCTCGGTGTGGCACAACCTTTCCGGCGCCATCGCCGTGCTCATCGCCCGCCGCGTGGACGAGCGCGCCGCACGTAA	MAGRAVHAGQRLIDGAVHSEDGVRARRSGLGAADRGSEGGGGDPAGAAVDLRRCNFDDCGDRGLRLPRQDRRGGPDRARGRGDSQYGRASAGLPYRQAHPPTRTRQPHHGHRGGDAELRSRRHLGRDLPQPARGAARGGVLGVAQPFRRHRRAHRPPRGRARRT				NA	NA	NA	NA	NA
AK009_06220	453			hypothetical protein	GTGGCAGCGAAACTCCGCGCGCATGAAACCGAGCTCTTCAAAGACGCGGGTGAGAACCAGCAGCTTGAGCGCGGGGTTGACCAAGCCGCCCTGAGCGTCCCGGGAGATCCAGGTGTAGCCGAGCTCGCAGTGCCGGTTGCGCTGGTCGATGTTGTAGAAGCAGGTCACACCGATGGCGTGGCCGTCGCGAAGCACTGCCCACGGCACGTAGTTGTCGCTGCCGGTAAGGAACTCGATCTGCGCATCCACCCCGTCGGGCGCAGGGACGTGATCGACGTACCAGGTTGTGCCCAAGTCCCCCACGGCGGCGCGCAGGTCTGCGGCGTGGGCGGCAGAGAGCGCTTCCAAGCTGATGAAGCGGTTGTGCATGGTCACCGCCTCGCGCGGGTTCGGTGTCGAGGTCATGCTTTTAAAGTTTACGTGCGGCGCGCTCGTCCACGCGGCGGGCGATGA	MAAKLRAHETELFKDAGENQQLERGVDQAALSVPGDPGVAELAVPVALVDVVEAGHTDGVAVAKHCPRHVVVAAGKELDLRIHPVGRRDVIDVPGCAQVPHGGAQVCGVGGRERFQADEAVVHGHRLARVRCRGHAFKVYVRRARPRGGR				NA	NA	NA	NA	NA
AK009_06221	786			hypothetical protein	GTGGCGCGTTTCCTGGACAATCTCCCCACCGTTGTCGAGCACCTGGGCCTGGCGCTGCATCTCGAAGCGCACGGCCTGCTCGACGGACTTCAGCGAGTTGATGTTCTTCGTCTCGGTGCGGGTGCCGAACTTCTCCTGGCCGATGGGCCGCAGCGACACGTTGGCGTCGCAACGCATGGAGCCCTGATCCATGCGCGCGTCGGACACGCCGAGGGCCTTGACCAACTCGCGCAGTGCGCTTACGTAGGCCTTGGCTACCTCGGGGGCGCGCTCGCTGGCGCCGATGATCGGCTTGGTCACGATCTCGATCAGCGGGATTCCCGCGCGGTTGCAGTCGACCAGCGAGGCGGTGGCACCCGTGATGCGGCCGGAAGCCGACCCGAGGTGGGTGAGCTTGCCGGTGTCTTCCTCCATATGCGCGCGCTCGATCTCGACGCGCCACTCGGTGCCGTCGTCAAGCAGCACATCGAGGTAGCCGTCGTAGGCGATGGGCTCGTCGTACTGCGAGATCTGGTAGTTCTTCGGCTGATCCGGGTAGAAGTAGTTCTTTCGCGCGAACCGCGAACTCTCGGCAATCGTGCAGTTCAGCGCCAGGCCGATCTTGATGGCCCACTCCACGCCCTTGGCGTTGACGACGGGCAGCGCACCCGGCAGGCCGAGCGAGACCGGGTCGATATTGCTATTCGGCGCCGCCCCGAAATGCGCGGACGAGGTGGAGAACATTTTCGTCTCCGTCGCCAGCTCGACGTGCACCTCCAAACCCATCACGGGGTCGTACTTCTCTAG	MARFLDNLPTVVEHLGLALHLEAHGLLDGLQRVDVLRLGAGAELLLADGPQRHVGVATHGALIHARVGHAEGLDQLAQCAYVGLGYLGGALAGADDRLGHDLDQRDSRAVAVDQRGGGTRDAAGSRPEVGELAGVFLHMRALDLDAPLGAVVKQHIEVAVVGDGLVVLRDLVVLRLIRVEVVLSREPRTLGNRAVQRQADLDGPLHALGVDDGQRTRQAERDRVDIAIRRRPEMRGRGGEHFRLRRQLDVHLQTHHGVVLL				NA	NA	NA	NA	NA
AK009_06222	528	gatB_1	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	GTGCGACGCGCTCGCATCCAGGAGGAGTGGCAGCTTCCGGAGAAGGAGTTCCGTGACCTCGTCAACGCCGGCGCGCTGGACCTGGTCGTCGATACCGTCGAGGCGGGAACCACCCCCGACGAAGCGCGCGCGTGGTGGGTGTCCTACATCATGGCCAAGGCCAACGAGCAGGGCAAAGACCTCGACGCGATCGGCGTGAGCCCGGCCGACGTTGCCCGCGTCGTTGCGCTGGTCAAGGAGGGCAAGCTGACCACGAAGCTTGCGCGCCAGGCCATCGACGGCGTGATTGCGGGCGAGGGCAGCGTTGATGAGGTCGTCGAGAAGCGAGGGCTAGAAGTTGTTCGCGACGATTCCGCGATCGAGAAGGCCGTCGACGAGGCGCTGGCGGCCAACCCCGACATCGTGGAAAAGTACCGCGCCGGCAACAAGAAGGTTACCGGCGCGATCGTGGGTGCCGTGATGAAGGCGACCCAGGGCAAGGCGGATCCGGGCCAGGTTAACCGGCTGATCGCCCAGAAGCTGGGCTAG	MRRARIQEEWQLPEKEFRDLVNAGALDLVVDTVEAGTTPDEARAWWVSYIMAKANEQGKDLDAIGVSPADVARVVALVKEGKLTTKLARQAIDGVIAGEGSVDEVVEKRGLEVVRDDSAIEKAVDEALAANPDIVEKYRAGNKKVTGAIVGAVMKATQGKADPGQVNRLIAQKLG				NA	NA	NA	NA	NA
AK009_06223	402			hypothetical protein	ATGGTCTTCGTGTGGTTCAGGGACCGCACGCTAATCAAGAACGAGACGCAGCGCCGCGAGCGCCTCGCCGCCCTAGCAGAGAAGGCGCTGGACCCGACCGAGCGCGACCTCACTGACAACCAGCGCGCGGAGGTGGAAGAGCTCGCCGCTCAGTCGCACGTTGAGGAGAACACGCTGTGGCAGTCGGTGCAGGAAGAGGTCGCGGCAACTCTGGATGCCGATCCTGCGAGTGAGTTCTCGCTGGAGGAGACCCCCGCCCTTGACCCTGAGTCCAAGGAATACGAAGGCGCGCCCGAGCCGGCCGGCGATGCCCCCATCGATTGGAGGGCCTACGACGAGGTGTACAAGACCGGCAGCTTCCCCGCCGTGCGCCCGGCCGATAAGGCCGGGCAGGGCGACTAG	MVFVWFRDRTLIKNETQRRERLAALAEKALDPTERDLTDNQRAEVEELAAQSHVEENTLWQSVQEEVAATLDADPASEFSLEETPALDPESKEYEGAPEPAGDAPIDWRAYDEVYKTGSFPAVRPADKAGQGD				NA	NA	NA	NA	NA
AK009_06224	915			hypothetical protein	GTGGTTCGTGGCGGACATCCGTCGCGCCATGGCGTAGAACATGCCGACGGCGGTGTTGTAAATCATCAGGTAGATCACCAGCGCGACCACCACGCCGACGGCCGGGTGCATGTTGTCAAACACCATCAGCAGTGGCAGGTCTGCACCGAAGACGTCCTCAATGTTGGCGAAGATGATAAACGCCAAGATCACCTGCAGCGTGGAAAAAATGATGCCACCAATCAGTCCGCCGATGCCCGCCTCGCGCGGGTTGAGCTGCGAGCCCGCAATGACCAGGATCATGGAGACCGCGACGATGGTGCACATGGCGGCGTAGTTCAGAGCGGACAGCAGCCAGTTGTTGCCCACACCCGAGGCGGGTGCGTTCTGCATCGCGAGCTCGTTGATCGCGGAGAAGTTATCGGGCATGTTGAGGATGGTCACAATCAGCGCGCCGAGAACGGCGAGGATGAGAAACGGCGTGATCGACGAGATCACATTGGTCAACCGGTCGATGTCGAGGAACCCGGAGGCGAGGAGCGCAACGGTCATGATTGCCGCGCCGGCCCACGTCGGAAAGCCAAACTGCTGCTCCAGGTTGGAGCCCGCGCCCGCGACCATGACGAAGCCGATGGCGAACAGGGTGATCATCGTGGAGACATCCATGAACCGCGCGACCACGGGGTGGGAGACCGACTTGAACACGGCGCTGTGGTCGTCGGCCAGGAAGTAAGAGCCGAGCTGGAAGAGTGTCGTGCCCACAAGCACGATGACCAAGCCGGCCACGATCGTGCCGACGATTCCCCAGTAGCCGAACGCGAGGAAATACTGGATTGTTTCCTGTCCGGACGCAAATCCCGCGCCAACGAGGAGGCCGACGAACGCGAGCGCGACCTTGACTGCTCTTCTCATGAAGTTTCAAAACCTGCTTTATGA	MVRGGHPSRHGVEHADGGVVNHQVDHQRDHHADGRVHVVKHHQQWQVCTEDVLNVGEDDKRQDHLQRGKNDATNQSADARLARVELRARNDQDHGDRDDGAHGGVVQSGQQPVVAHTRGGCVLHRELVDRGEVIGHVEDGHNQRAENGEDEKRRDRRDHIGQPVDVEEPGGEERNGHDCRAGPRRKAKLLLQVGARARDHDEADGEQGDHRGDIHEPRDHGVGDRLEHGAVVVGQEVRAELEECRAHKHDDQAGHDRADDSPVAEREEILDCFLSGRKSRANEEADERERDLDCSSHEVSKPAL				NA	NA	NA	NA	NA
AK009_06225	297			hypothetical protein	GTGCTGCTCCACCAGCCAGCCGAGCTCGGGGCCGAGCGGGACCACGCCGGTGGGGTTCACCTCGGCGTGCGTGATGTAGTAATGCTGCTTGATCTCGGTGAAGTCGGTGGTGTCACCGAACCCGGGAAGCTGGAACAACTCCTGGAGGTAGCCGCGCAGGTTGGGCATCTCCGCGATCTTGGTGCGCGACGCCTTGAAGTGGCCGTAGTAGACGGGGTCGAAGCGCACGAGGGTGGGGTAGAGGTAGATGTCAGCCAGCGTGATCTGGTTGCCCACGAGGTAGCGCTGCTGGCCTAA	MLLHQPAELGAERDHAGGVHLGVRDVVMLLDLGEVGGVTEPGKLEQLLEVAAQVGHLRDLGARRLEVAVVDGVEAHEGGVEVDVSQRDLVAHEVALLA				NA	NA	NA	NA	NA
AK009_06226	588			hypothetical protein	TTGCGAGGCCGCAAACCCGCAGCGGTAGACGCCGTTGTTGACGTACTTATATACCCGGTTGGACACCTGGTCGATCTCCTCGCGCAGCGCTTCCGGGTAGAGGTCGGGCGCGCCCTCGCGGTGGAACTCTGTCCACTCGTTGTTGAAGTCGACGGGGATCTGCTTAAACCAGTTGGTAACCACCTTGTTCGGGCCAACCTCCACGATGGCGGGCACGGTGATGCCCTTCGGGTAGTCGGGAAAGCGGTTCTCGTAGGCCTCCTTGAGCTTGTGCAGGCCCGTGACCGGGTCCTTCTCGCCCGGGTCGACATCGAAAACCCACGAGTCCGCGTCGTGGGTCGGCCCGGCCAGCCTGAGCGAGATGGCGTCTTCAAGCCCGAGCAGGCGGCGCGCGATGATCGTGCGGTGGGCCCAGGGGCAGGCTCGCGCGGCCATGAGGCGGTAGCGGCCGGATTCGACGGGCCAGAGCTCGCCCTTTCCGGCATGCTGCTTATCGACGTCCGCGACAATGCGGTCCTCGATATAGGTCGTGTCGCGCTCGAAGGCGCCGTCGGTCGAGGCGTTCTGGGGTGCGTTTTTCCACTGTGA	MRGRKPAAVDAVVDVLIYPVGHLVDLLAQRFRVEVGRALAVELCPLVVEVDGDLLKPVGNHLVRANLHDGGHGDALRVVGKAVLVGLLELVQARDRVLLARVDIENPRVRVVGRPGQPERDGVFKPEQAARDDRAVGPGAGSRGHEAVAAGFDGPELALSGMLLIDVRDNAVLDIGRVALEGAVGRGVLGCVFPL				NA	NA	NA	NA	NA
AK009_06227	804			hypothetical protein	ATGACGAACAACAACTTCCACGACGTCACGCCCGACGACTTCAATGGTTTCGAAGACGTCCCCACCTACGCCGAAGGCGGCTCCACCTCGCGGATCCGCCCAGCCAACACCAGCGACATCTACCAGCGCACCGGCAAGGCAGCACCGACGGAGGTGTTCCCCTCATCCATAAGCCAGCCGACCGAGATGATCGAGCCGGACTACGCGGCAATGCCCGCGCCCGTCGCGGAGCCCGCCTACATTGAGCCGGCCTACGTCGAAGAACCCGTCGCCACCGCGGTCGACGCACGCCGCGGCACAATCGACCTCGGGCTTCTGCTCCTGCGTTTTGTACTCGGCGGCTACCTGATCTTCTCCGCCATCCAGACGTTCTTCCAGCTCGGCTCCTCCCAGGGCATCGCTGGCCTGGAAGCGCAGTTCGGCGCCTACGCCTACGGCAACGCGCTTGCCGTCATCGTTCCTACCCTGGAGCTCGCCGCGGGCGTGTTCATCGTTCTAGGCCTGCTCAGCCCCGTCGCCTCGATGGTGGCGATCGCCGTCACCGGCTTCATGGCCGCCCACACCGCGGCCAACACCGGGACGGGGTTCAACCCCGTAGCGTGGGGAGCTGACGTGTGGCTCGCCGTGATCCTGCTCGGCGTCGCCCTCGCGCACCAGTTCACCGGGCCCGGCTTCTACGCTGTGGACTCAGGACGCGGCTGGGCGCGCCGCCCGCTCGCCTCGTCCTGGATTTTCGCCGCTCTCGGCATCGCCGCCGCCGCGCTGATGTGGTGGTTCGGCACCGGCATCAACCCGTTCGCCTAG	MTNNNFHDVTPDDFNGFEDVPTYAEGGSTSRIRPANTSDIYQRTGKAAPTEVFPSSISQPTEMIEPDYAAMPAPVAEPAYIEPAYVEEPVATAVDARRGTIDLGLLLLRFVLGGYLIFSAIQTFFQLGSSQGIAGLEAQFGAYAYGNALAVIVPTLELAAGVFIVLGLLSPVASMVAIAVTGFMAAHTAANTGTGFNPVAWGADVWLAVILLGVALAHQFTGPGFYAVDSGRGWARRPLASSWIFAALGIAAAALMWWFGTGINPFA	PGPT0028505_203	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
AK009_06228	909			hypothetical protein	TTGCGTGTACTTTGTGCTTTGCGCAGTCACCCGCGGCCGCCTTGGCACCCGCCAGTTCATCGCGCTGGTTGCCGTGGCCTGGGCGTTCGGCGTGTGCATCGAACCTATGCGCTTAAACGCCATGTACGCCCAGATCAACGTGGTCATCATGACGCTCGTCGTGCTCGACGTGGTGCCGCGCAAGCGCTGGCTGCCGCAGGGCTCACTGATTGGCATCGCCGCGGCGATCAAGATCACGCCGCTGGCCATGCTGCTGTTCTTCCTCCTGCGCCGCGATGTGCGCGCGATCCTCGTCGCCGGCGCCTCGGGCCTGATTGCCACGGTGGTCGCCGCCCTCGTGCGCTGGGACGCGACACGCGAGTTCTTCGGCGCGACCCTGCTGAGCATGGGCACGACCTCGGAATTCGGGGTGGATACGACGTATCAGTCCAACAGCTCACTCAAGGGCATGGTGATGCGCTTCTTCCCCAGCGGAGAATCGCTCGCCGCGCACGGGTTGTCATCCAACCTAATCTGGGCGGGCCTGAGCGCGGCCACGGTCGTGCTCGGCGGGTGGCTCATGGTCGCGCTCATTCGCCGCGGCATGCTTATCGACGCCGCCCTGGCCAACGCCGTGATCATGCTGCTGATCTCGCCGGTGTCGTGGTCGCACCACTGGGTCTGGCTGGCGTTGATTTTGCCCGTGGCGTGGTGGCGCTGCGCCACCGTTTTGAAGTGGCCCGTGTTCCTCACCGCCGTGGTGGCGGTGTTCACGGTCACCGTCATCGGGGTGCCGCCGAAGTGGTGGTTCGGCGACGCAATCGCGGTACACGAGCTGCCCCTGTGGGCGAAAATCCTGGTCTCCGACTACGTCTGGCTCGGCATAGCGCTGCTGGCTGCGTGGGCGGCGGCGCTACGCGGTGTGCCTGA	MRVLCALRSHPRPPWHPPVHRAGCRGLGVRRVHRTYALKRHVRPDQRGHHDARRARRGAAQALAAAGLTDWHRRGDQDHAAGHAAVLPPAPRCARDPRRRRLGPDCHGGRRPRALGRDTRVLRRDPAEHGHDLGIRGGYDVSVQQLTQGHGDALLPQRRIARRARVVIQPNLGGPERGHGRARRVAHGRAHSPRHAYRRRPGQRRDHAADLAGVVVAPLGLAGVDFARGVVALRHRFEVARVPHRRGGGVHGHRHRGAAEVVVRRRNRGTRAAPVGENPGLRLRLARHSAAGCVGGGATRCA				NA	NA	NA	NA	NA
AK009_06229	558			hypothetical protein	GTGAGCAGGTGGGATTTCACCCAGGCTAGCCTAGTCCACCTGTCGGACAGCGCCCTTGTCGGCGGAGGTTGCCATCTTGGCGTAGGCGCGCAGCGCCTTGGTCACCTCGCGGGTGCGGTTCGGCGTCCACGGGCGCTCGGACGCCTCCATCTTCGCGCGGCGCTCGGCGATGACCTCCTCATCGACGTCCAGACGGATCTCGCGGTTGGACACCGAGATGCTGATGGTGTCGCCGTTTTCCACAAGGCCGATCAAGCCACCGTGCGCGGCCTCCGGGGAGATGTGCCCGATGGACAGCCCCGAGGTGCCGCCAGAGAAGCGACCGTCCGTGATCAGGGCGCACTTCGTGCCCAGACCCGCGCCCTTGAGGAAGGACGTCGGGTGCAGCATCTCCTGCATGCCCGGACCACCCGCGGGGCCCTCGTAACGGATGACGATGACCTCGCCCTCCTGGACCTCGCGGTTGAGGATGACGGAGACCGCCTGCTCCTGGGAATCGAGAACGCGGGCGGGGCCACTGAATTCCCACAGGCCCTCCTCGACGCCCGCGGTCTTTAG	MSRWDFTQASLVHLSDSALVGGGCHLGVGAQRLGHLAGAVRRPRALGRLHLRAALGDDLLIDVQTDLAVGHRDADGVAVFHKADQATVRGLRGDVPDGQPRGAAREATVRDQGALRAQTRALEEGRRVQHLLHARTTRGALVTDDDDLALLDLAVEDDGDRLLLGIENAGGATEFPQALLDARGL				NA	NA	NA	NA	NA
AK009_06230	324			hypothetical protein	GTGCTCGACGTCGTGGATCACGCCATTGGCGGAGTCCGTGTCCAGCGACTCCCAGCGCGCAGACTGCGAAAACGCCTCGGTGGTGCGCTTGCCGCCGGGCGCGGCGTGGTAGAGCTCGATGGCCTCGGGCAGGGGGGACTCGGCGCGGATGTCCCAGTCCGCCAGCCACTCGTCCAGCGAGGGGTAGGCCACGGTGTGAACGTTCTTGTTCAGCAGCCCGGCCCGGTTGAGCTCGCCGAGGATCGCGGGGATGCCGCCGGCGCGGTGAACATCCTCGACGTGCGCCTCGCCGTTCGGGGCGACTTTGGACAAGCAGGGGATTGA	MLDVVDHAIGGVRVQRLPARRLRKRLGGALAAGRGVVELDGLGQGGLGADVPVRQPLVQRGVGHGVNVLVQQPGPVELAEDRGDAAGAVNILDVRLAVRGDFGQAGD				NA	NA	NA	NA	NA
AK009_06231	519			hypothetical protein	GTGGGAGAGCTCGTCGATGTCGTGGAGGCTGAAGTCCACCTCGCCCTCTTGGGCGGCGGCGAGGATGTGCAAGATGGTGTTCGTCGAGCCACCCATAGCCATGTCCAGCGCCATCGCGTTGCGGAACGCGTCGACGGTGGCAACCGAGCGCGGCAGCACCGACTCGTCGCCCTCGCCGTAGTAGCGGTCGCACAGCTTCACAATGGCCTCGCCGGCCTTCTCAAACAGGGCGCGGCGCGCTGTGTGGGTGGCCAGCGTGGTGCCATTGCCCGGCAGAGACAAACCGAGGGCCTCGGTGAGGCAGTTCATCGAGTTCGCGGTGAACATGCCGGAGCACGAACCACAGGTCGGGCAGGCCGCGTTGGCGATCGACTCGAGCTCGGAGTCGGAGACGGCGTCGTTGGCGGACAGGGAGATCGCGTCGATCAGGTCGGACTTCGGCTTGGTCACGCCGCCTACCGAGAACGCCTTGCCGGCCTCCATCGGCCCGCCGGAGACGAACACGGCCGGGATGTTTAA	MGELVDVVEAEVHLALLGGGEDVQDGVRRATHSHVQRHRVAERVDGGNRARQHRLVALAVVAVAQLHNGLAGLLKQGAARCVGGQRGAIARQRQTEGLGEAVHRVRGEHAGARTTGRAGRVGDRLELGVGDGVVGGQGDRVDQVGLRLGHAAYRERLAGLHRPAGDEHGRDV				NA	NA	NA	NA	NA
AK009_06232	318			hypothetical protein	GTGGGCATTGATCATGTACTCGACGGAGTCGGAGATGATCTCGCGCGAGGGCAGGGAGTACAGCATGCCAGAGTGGCCCATCGCGATGCCGTCGTCGACCGCGATGGTGTTGAACTCCTTAGGCACGCCACCGGCAGCGCGGACGGCCTCGGCGACGATGTCACCGACGTTTTTCAGGTGAACGTGGCCGGGGACGAACTGGGTGTAGGAGTTTACGATGGCCACGATCGGCTTGCCGAATTCCTTCTCGCCGGTGCCGGTCGCGCGCCACAGGGCGCGTGCGCCGGCGGCCTGCCGGCCGACGGTGGTGACTCGTGA	MGIDHVLDGVGDDLARGQGVQHARVAHRDAVVDRDGVELLRHATGSADGLGDDVTDVFQVNVAGDELGVGVYDGHDRLAEFLLAGAGRAPQGACAGGLPADGGDS				NA	NA	NA	NA	NA
AK009_06233	243			hypothetical protein	GTGATCGCGCAGGTACTCGTCATACTCCTCGCGGCTGAGAAGTACCTTGCGGCCTTCGCGGTCGATGACCTCGTACTTGCCGTCGGCGGCCTCCGCGGAGGCGGTGATGACATCCTGGATGCGACCCCCGGAAGCCAGAGCAAGCTCGGGTATAGAGTTAAACGTTACACCGGGCATCGGATATTCCTTGCCGCTCGTTGTGGTGGCCAGCGCCCTGGCGCCCTTGAACGCGATACCGGATAG	MIAQVLVILLAAEKYLAAFAVDDLVLAVGGLRGGGDDILDATPGSQSKLGYRVKRYTGHRIFLAARCGGQRPGALERDTG				NA	NA	NA	NA	NA
AK009_06234	612			hypothetical protein	ATGCTAGCCAAGTGGGTTTCCGGCCTCGGCAGGGGGAGCTTCGCTAATCGACGCCCCTTCCGTCACGCCCGGGGCTGGCGGCTGCGTGGGCTCGCCCTGGGTACTGGTTTCTGCGGGCGACGGAGTCGGAGTCCGAGGCGCCGTCGGCTGTGCCGTGCTGGGTGCCGGAGCCGGCGGCTGTGTCGGCGTCTGGGTCGGCGCGGGGGCGGGCGCCTGGGCTGGCGTGGTCTCGACCGGCTCCTCAGCCTCCGAGGTGGGGTTCTCCGGTGGCGGGGCGAGCCAGCCGCTGCCGGTGCCTTCCCCGTCGGGGTCGATTGTCAGGCCGCGGATGATCAAAAGGACGATGAAGGCGCCGATGAGGAGGGCCGTCGACAAGCGCAGTGCCCCGCCGAACGCCATGCGCGGCATGGCCTTTTCGTCGTCGGTGAGCACGTCGGTCGCCGGGTCCTCGTCAGGATCGGCGGGGGTGAGGTCGTCGTGGTCGCTGCGCTGGGTGCTCAGTGGGCTGACCGGGGGCATGTACTCGGTGGGTGGGTAGCGGTCAACACTGTTGAACTGCTCGGTGTGGTCCACGACGTGGTCGAGGCGAGTGCCCTCGATGGTGGTGGCTGA	MLAKWVSGLGRGSFANRRPFRHARGWRLRGLALGTGFCGRRSRSPRRRRLCRAGCRSRRLCRRLGRRGGGRLGWRGLDRLLSLRGGVLRWRGEPAAAGAFPVGVDCQAADDQKDDEGADEEGRRQAQCPAERHARHGLFVVGEHVGRRVLVRIGGGEVVVVAALGAQWADRGHVLGGWVAVNTVELLGVVHDVVEASALDGGG				NA	NA	NA	NA	NA
AK009_06235	702			hypothetical protein	GTGCACCGTGAGCTCGTCGAGAAGCTTGGGGCGAATATCCGCCCGGTTCAGCGCGCGGCGGGCGGCCGATTCCGAGCGCGCGACGGCCTCGTCGGCGCTGGTCGAGCCGAGCAGCGGGACCGGGATGACGACCACCGCGGAGGCCCAGTAGTTGGATTGGTTGATGCAGATGCGCGCGGTCGAGTTGGGGATGCTGATCGTCGATTGCTCCATCGTGCGGATCTGGGTCGCGCGCATCGTGATCTGGATGACGTTGCCGGAGACCTCGATCCCGTTGCCTTCAAAGGTGACGAAGTCGCCCACACCGTACTGCTTTTCCGTCAGGATGAAAAACCCGGCGAGGAAGTCGGCGATGATGTTCTGCGCGCCGAAACCGATTGCGGCCGAGACCACGGTCGCCGGGATCGCTGCGCCGGCAAGCGAGAACCCGACCTCTTGCAGGAAGAAGACCAGGATGAGGAAGAACGCGATCGCCTGCGCGACATAGATGCCCACACCGGCGATGGCCAGCTGGCTTTTCGCCTCGTCGTTATCCGCTTGGGCGTCGGCGCGTCGTTCAGCGACCCGGTTGGCGAAGCGGCCCGCGCGGGGCACAAGCATCGCGAGGATAATCAGCAGTGCGAGGTTGATTCCGGTGTTGGCGACCCAGCGCCAGGCTTCTTCGGCGATGTAGGCGTACGGCATAGTGCTTTCTTACAGTAG	MHRELVEKLGANIRPVQRAAGGRFRARDGLVGAGRAEQRDRDDDHRGGPVVGLVDADARGRVGDADRRLLHRADLGRAHRDLDDVAGDLDPVAFKGDEVAHTVLLFRQDEKPGEEVGDDVLRAETDCGRDHGRRDRCAGKREPDLLQEEDQDEEERDRLRDIDAHTGDGQLAFRLVVIRLGVGASFSDPVGEAARAGHKHREDNQQCEVDSGVGDPAPGFFGDVGVRHSAFLQ				NA	NA	NA	NA	NA
AK009_06236	183			hypothetical protein	GTGGCGCACGAGGACGTGGCGCAGCTTCTCGGCGGCAAACAGGGACTCGTACAAAGGAAGGACGGCGCCGCCCGGCAAGCCGAAGACGATGTCAGTGCCCAGCGCTTCCAGGCTGCGGACGACAGCGTCCGCGCCGGTCATACGCTCCGGCGAGACCTCTTCGGGTTTGCGGGCCTTGGGTGA	MAHEDVAQLLGGKQGLVQRKDGAARQAEDDVSAQRFQAADDSVRAGHTLRRDLFGFAGLG				NA	NA	NA	NA	NA
AK009_06237	1608			hypothetical protein	ATGTGGCGGTTTGTCTCATCTTTGTTCATGTCAGTTTCCCTTCTCAGTCTCGATCTCAACGACATCGTCGATGTCTTCGGGCGCCTCGCCCGCGGACTCCTCGAGGTCGAAGAACGGGCGGATGTTCATCGCGTACTGGATATCGGAGTTGGACGAACCCGCCGAGATCATCGGCCACACCTGCGCGTCCTCGCCCACGATGAACTCGATGACCACGGGGCGGTCGTTGATTTCGCGCGCGCGCTTAATCGCCGGGAGAACCTCCTCCTCCGTGGTCACGCGGATTGCTTCCGCGCCGAGCGCGTCGGAGAGCTTGACAAAGTCCGGGACGTAGACCTCGCCGCCGAGCTTCGTGTGCGAGTAGTGGCCCCCGTAGAACAGCGTCTGCCACTGGCGGACCATGCCCAGGTTGCCGTTGTTGATCAGGGCGACCTTGAACGGGAAGCCCTCCATCGCAGCTGTGGTGATTTCCTGGTTGGTCATCTGGAAGCAGCCGTCGCCGTCAATCGCCCAGACCTCCTTGTCCGGAGCTCCGGCCTTCGCGCCAAGGGCCGCCGGGATGGCGTAGCCCATCGTGCCCAGACCACCCGAGTTCAGCCAGGTGCGCGGCTTTTCGAAGTCAATGAACTGCGCCGACCACATCTGGTGCTGGCCAACGCCAGCGACGTAGATCGCGTCCGGGCCAACCTCAGCCGAGAGGGTCTCAATGACGTACTGCGGCGACAGGGAGCCGTCCGACTGCGGGTCGTAGCCGCGCGGGAAGCGCTCCTTGAGCTCGTTAAGACGCTCAATCCAGGCGCCGATCTTCGGCGTGGACGCCTTGCCGTCCTTGAACGCGTCGGTCAGCTGCGACAGGACTCGCTTCGCGTCACCGACGATCGGGACGTCGACCTCGCGGATCTTGCCCACCTCGGCGGGGTCGATGTCGGCGTGGATCGTCTTCGCCTCAGGGGCGAAGGTGTCGGTGTCGCCGGTGACGCGGTCGTCGAAACGCGTACCAATGGCGATGAGCAAGTCGGACTCCTGCAGGGCGCCGACCGCGGGGACGGAGCCGTGCATGCCCGGCATGCCCATGTACAGCGGGTGGGACTGCGGGAAGACGCCGAGCGCCATCAGCGTGGTCACCACGGGAACGCCGGTCTCGTTGGCAAACGCGAGCAGCTCCTCGTGGGCCTCCGCCTTGAGCACGCCGCCGCCGATGTAGAGCACCGGGCGCTCGGCCTGGGCGATCATGCGCGCGGCCTGGACGATCTGGCGGGAGTGCGGCTTGGTGTTCGGCTTGTAGCCGGGCAGATCCAGAACCGGCGGCCAGGAGAAGTCGAACTCCTCGTTCTGGACGTCCTTCGGAATGTCCACCAGCACCGGGCCCGGACGGCCCGTCGAGGCGATGTGGTGCGCCTCCGCGATCGCCGCCGGGATCTCGTCGGCGCTGCGCACCATCACGTTGTGCTTGGTAATCGGCATGGTGATGCCGCGAATATCCGCCTCCTGGAAAGCGTCGGTGCCAATGAGCGGCGAGCCGACCTGGCCGGTAATCGCCAGGATCGGGACGGAGTCAAGGTAAGCGTCGGCAATCGCGGTGACCAGGTTGGTCGCACCGGGACCTGA	MWRFVSSLFMSVSLLSLDLNDIVDVFGRLARGLLEVEERADVHRVLDIGVGRTRRDHRPHLRVLAHDELDDHGAVVDFARALNRRENLLLRGHADCFRAERVGELDKVRDVDLAAELRVRVVAPVEQRLPLADHAQVAVVDQGDLEREALHRSCGDFLVGHLEAAVAVNRPDLLVRSSGLRAKGRRDGVAHRAQTTRVQPGARLFEVNELRRPHLVLANASDVDRVRANLSREGLNDVLRRQGAVRLRVVAAREALLELVKTLNPGADLRRGRLAVLERVGQLRQDSLRVTDDRDVDLADLAHLGGVDVGVDRLRLRGEGVGVAGDAVVETRTNGDEQVGLLQGADRGDGAVHARHAHVQRVGLREDAERHQRGHHGNAGLVGKREQLLVGLRLEHAAADVEHRALGLGDHARGLDDLAGVRLGVRLVAGQIQNRRPGEVELLVLDVLRNVHQHRARTARRGDVVRLRDRRRDLVGAAHHHVVLGNRHGDAANIRLLESVGANERRADLAGNRQDRDGVKVSVGNRGDQVGRTGT				NA	NA	NA	NA	NA
AK009_06238	1422			hypothetical protein	GTGCAGCAATTCTTACTGAGCGGTGTCGGTGAGCGGGTTCTTGACCCAGCTCATCATGTCGCGCAGCTCGGCACCGGTCTTCTCGATCGGGTGCTGGGAAATCTTCTCGCGCAGGCCCTCGAGCTCGGTGTTGCCGTTCTCGACGTTGGCGACGAGGCGGCGGGTGAACTCGCCGGACTGGATGTCCTTGAGAACGTCGCGCATGCGCTCCTTCGAGCCTTCGTCGACGACGCGCGGGCCGGAGAGGTAGCCGCCGAACTCAGCGGTGTCGGACACCGAGTAGTTCATGTTAGCAATGCCGCCTTCGTAGATGAGGTCGACGATGAGCTTGATCTCGTGGAGGCACTCGAAGTAAGCCATCTCCGGCTCGTAGCCTGCCTCGGTGAGGACGTCGAAGCCGTTCATGATGAGATGCTCGAGGCCGCCGCAGAGAACAGCCTGCTCGCCGAAGAGGTCGGTGACGGTCTCAGCCTCGAAGGTGGTCGGGATGACGCCAGCGCGCGCGCCACCGATTGCTGCCGCGTAGGACAGGGCGAGTGCCTGGCCGATGCCGGACGGGTCCTGCTCGACGGCGATCAGGGCGGGGACGCCCTTGCCGTCGGCGAAGGTGCGACGAACCAGGTGGCCCGGGCCCTTCGGAGCGACCATGGCGACGGTGATGTTGTCGGCCGGCTCGATGAGCTTGAAGTGGATGTTCAGGCCGTGGCCGAAGAACAGTGCGTCTCCGTCGTTAAGGTTCGGCTCGATGTCGTTCTTGAAGATCTCAGCCTGGGAGGTGTCCGGGGCGAGAAGCATGATCACGTCAGCCCACTTGGCTGCCTCGGCATTGGACTTGACCTCGAAGCCAGCCTCCTTCGCTTTCTCGGCAGACTTAGAGCCGTCGCGCAGGCCGATAACGACCTCCACACCGGACTCGCGGAGGTTCTGAGCGTGAGCGTGCCCCTGCGAGCCGTAGCCGATCACGGCGACCTTCTTGCCCTGGATGAGCGAGAGGTCGGCGTCCTTGTCGTAGAAGACTTCGATTGCCATGGAGGAAACCACGTACCTTTCTTAGTATGTGAGACGGTTGTTTCAAATTATGCCACAGTGGGCGTTGGTTCCGAGAGTAGACCGTGCTACTTCGAGGTGCCCATTGCCTTCGGGCCGCGGTTGAGCGCGACCTGCCCCGAGCTGACCAGCTCGCGGATCCCGAAGGTCTCCATCACGTCCAAGAACGCGCGGAGCTTCGAGGGCGTGCCCGTCGCCTCAATCACGACGGACTCCGGGGCCACGTCGACGACGCGGGCGCGGAAGATGTTCGCCGCATCGACAACCTGCGGGCGGTTCGAGTTGTCGGCGTTGACTTTCACCAAAAGGAGGGATCGCGCGATGGTGTTGGCGTCGTCAAGCCGCGTGACCTTGAGCACCTGGATGAGCTTGTGA	MQQFLLSGVGERVLDPAHHVAQLGTGLLDRVLGNLLAQALELGVAVLDVGDEAAGELAGLDVLENVAHALLRAFVDDARAGEVAAELSGVGHRVVHVSNAAFVDEVDDELDLVEALEVSHLRLVACLGEDVEAVHDEMLEAAAENSLLAEEVGDGLSLEGGRDDASARATDCCRVGQGECLADAGRVLLDGDQGGDALAVGEGATNQVARALRSDHGDGDVVGRLDELEVDVQAVAEEQCVSVVKVRLDVVLEDLSLGGVRGEKHDHVSPLGCLGIGLDLEASLLRFLGRLRAVAQADNDLHTGLAEVLSVSVPLRAVADHGDLLALDEREVGVLVVEDFDCHGGNHVPFLVCETVVSNYATVGVGSESRPCYFEVPIAFGPRLSATCPELTSSRIPKVSITSKNARSFEGVPVASITTDSGATSTTRARKMFAASTTCGRFELSALTFTKRRDRAMVLASSSRVTLSTWMSL				NA	NA	NA	NA	NA
AK009_06239	501			hypothetical protein	TTGATTGAGTGTTGGTTAGCGGGGGCCGGGTGGAGTCCGCAATGCAGAGTGCGCGGAATCCGTCAACACCCAGGTGGCTTTCTGTGCAGTGTTTTCACAGTTTGCCTTTGCTGCTGCGGAGTCCGCAATGCGGACTGGCCACTCTGCCGCTGCAGAGTCCGCAATGTAGAGTCCGCAATGCGGAGTCGGGGCGACCGTGAAGTTGAGCGTCGGCAAGCAAGGCTGCCGGCAGAGTCCGCAATGCGGACTGGCCACTCTGCCGCTGCAGAGTGCGTGGAGTCCACGGGTTCGCAATGCGGACTCACATCCGCGCAAATCGCACCCACCTCACGCGCCCACAACAAAACCCCGCGCCCTGCGCGAGCAGGATGCGGGGTCGAGTTCTACGGGCCGGGGTGGCCACGGCTAGAAACTAGTTGGTGGGAGCTGCGCTCTCGACGGCGTCGCCAGCGTTTTCGGCTGCGCCCTCAGCGGCGTTGCCAGCGCTCTCGGCCGGGTTAG	MIECWLAGAGWSPQCRVRGIRQHPGGFLCSVFTVCLCCCGVRNADWPLCRCRVRNVESAMRSRGDREVERRQARLPAESAMRTGHSAAAECVESTGSQCGLTSAQIAPTSRAHNKTPRPARAGCGVEFYGPGWPRLETSWWELRSRRRRQRFRLRPQRRCQRSRPG				NA	NA	NA	NA	NA
AK009_06240	492			hypothetical protein	GTGCAGGAAGGCGCCGCGGACGTTGATCGATCCCTCTTTGTGGCGGTGCAGGACGACGGCCGAGGCGGCGTTGGCGACGAGGCCGATCAGTGCGACGAGCATCATCGTGCGCGTGTGAATCGGGGCTGGGTCGCGCAATCGCGACAGCGCCTCGACGACGATCCACACCGTCACGGCGATGACGGAGACCGCGTTGACGAGCGCTGTGAGAACCTCGGCGCGGGCGAAGCCGTACGTGGCCACGGCGGTGGAGGCGCGCTGGCTGATCAGTGTGCCGATGACCGCGATCATCAGGCCCGCCGAATCCGAGAGCATGTGCATCGAATCCGCCATCAGAGCCATGGAGCCGGAGAGGTAGCCACCGACGAACTCAACAAAGAACACTGTCGTGGTGATCGCGAGCGCCGTCAGAAGAGCGCGACGCGGCGCGTGTGCTGGCGAATGCTCGTGTGTGTGGCTCATGCGACACACTCTAGCTGGAAAACACGGTAA	MQEGAADVDRSLFVAVQDDGRGGVGDEADQCDEHHRARVNRGWVAQSRQRLDDDPHRHGDDGDRVDERCENLGAGEAVRGHGGGGALADQCADDRDHQARRIREHVHRIRHQSHGAGEVATDELNKEHCRGDRERRQKSATRRVCWRMLVCVAHATHSSWKTR				NA	NA	NA	NA	NA
AK009_06241	618			hypothetical protein	GTGGAAGAGAGACGTCAGGCGCTGCTGACCGTCGAGAAGCAAAAGCCCCGGCTGGACCTGGGCTTGCGGGGCGCCGTCGAGCGGGCGCGATTTGAAGCGCGGGGCGACGTTGCGGGTGTCGAGGGCGAGCAGCGACCCGATCGGGTAGCCGCGCAGGACAGAGGTGACGAGGGTGCGGACGCGGTCGACGTCCCAGATGTATTCGCGCTGGAAATCGGGCAACTGAAGCTCGCCGCGGTGAACGCGTGCGAAAAGGTCGGACAGCGAGTAGCTCGGCGTGGTAAAGCCCATGCCCCACACTCTAAGACAAAAGGGACAGCTCTACCTGCCAAGCGAGGCGCCGCACGCGCGCTCGTGATCGGTGTGGCCTGGCAGCTCCACCTGGATTGTCGGGTGGTCGACGCCGAGGTCGGTGAGGCGCTGCTGGGCGGCGTCGAGAAGCGGGCCGCGGGGCGCGTCTTCGTGCGCGACGAGGTGGGCCGTGACCACGACGTCGGAGCCGCCGAGGGACCAGACGTGAACGTCGTGGACATCAATGACGCCGTCGATGCTTCGCAGGGTGGGCTCGATGCGCTGCGTCGCGAAGCCGCGCGGGGCTTGTTCCAAAAGGACGCGTAG	MEERRQALLTVEKQKPRLDLGLRGAVERARFEARGDVAGVEGEQRPDRVAAQDRGDEGADAVDVPDVFALEIGQLKLAAVNACEKVGQRVARRGKAHAPHSKTKGTALPAKRGAARALVIGVAWQLHLDCRVVDAEVGEALLGGVEKRAAGRVFVRDEVGRDHDVGAAEGPDVNVVDINDAVDASQGGLDALRREAARGLFQKDA				NA	NA	NA	NA	NA
AK009_06242	633			hypothetical protein	GTGGGCGAGGAAGCCCTCGAGGTCGATGCTGAGGATGTCCCCGCGGTGCCCGCGGGCGGGGCCGCGCCGTCCGGTAATCAACAGCGACATTGCGCGCAGAAACTCAATTCGGCCGATGTTGTCCAGCGCTGGGTGTTCGCGCAATTGCTTTTCGACGCCCGCCCAGTGCTCCACTACAACAAACTCAGGGTCCTGGAGCGCAAACGTTGCTGTCAGAAGCTCGAAAACGTCCATCTGCACGCCCGCCGAGTTGGCGTGGGCGAAGATCTGGCCGATGCCCACGAGCGAGGTGTCGCGGTCGATGCGCACCAGGGGGATGTCGTAGGCGGGAAGCTGGCTGACCACGCGCGATTGGAACGCCGCGGCGGCCTCGCGCATCTGCGGGTCCTCCGTGGCGGCCGCGAGATCAAACAGCAGGGTGTTGGCGTCGTCGTTGAGCAGCGCCGAGACAGGGATAACGCCGTGCTCGAGCATGACCTCGCGGGTGTTGAGCCCGCTGCTAATCGCCGGGCCGAAGTGGGAGCGGACGTCGCCGTTAGTATCCACGGCGAAGACGGCCTCCACCGGCAGCGGTTGCGCGGAGACGGCGCGGCGGATGTCAACGAAGAAGCGCCTCGAGATGCGGTTTCCTAG	MGEEALEVDAEDVPAVPAGGAAPSGNQQRHCAQKLNSADVVQRWVFAQLLFDARPVLHYNKLRVLERKRCCQKLENVHLHARRVGVGEDLADAHERGVAVDAHQGDVVGGKLADHARLERRGGLAHLRVLRGGREIKQQGVGVVVEQRRDRDNAVLEHDLAGVEPAANRRAEVGADVAVSIHGEDGLHRQRLRGDGAADVNEEAPRDAVS				NA	NA	NA	NA	NA
AK009_06243	279			hypothetical protein	TTGGCCGGTGCGCCAATCACGCGCGTCGCGGGCCATGAGCAGCGCAAACAGGCCGCGGTAGACGCCGGAATCGGGCCCCGCGGAGACGATGCGCGCGCGAGTGCAGCGCGCGTCCTCGACGGTGCGCGGGGTGGTGTCTGTCTCCCCCATCACCCAGGGCGTGACTTCGTCGACATCCGCCCCGGCGCGGATGATGGGCGAATGCGCGCCGTAAAGTTCACCGAACACGCCCGACCAGAACCAGCGGTTGAGGCGGTCGCGCGACTGCTCGTTGTCTAG	MAGAPITRVAGHEQRKQAAVDAGIGPRGDDARASAARVLDGARGGVCLPHHPGRDFVDIRPGADDGRMRAVKFTEHARPEPAVEAVARLLVV				NA	NA	NA	NA	NA
AK009_06244	855			hypothetical protein	ATGAACCGCCCCACCATTGTTGCCCCTTTCATCGCCGCCGCGTTGGCGCTAAGCGCCTGCTCGTCCGGGCCTGCGGCATCGCCGCTTGACGACGCCCGCACGCAGAACCAGGCCCGCCACGTCGCCGAGCGCTTCGCGCCGCACCCGGTTGTCCTCGACGACCCGTACGGGTTCGAGACCTCCCGGCTGTTCTTCCCGGCCTCGGAGACGGTCGTGGTCACCGACTCCACCCCGCAGGCCCAGCTGCGCGGCTCATCGATCGCGGTGACGGCGCACGCACCGCTTCTGGTCTACGCCCCTGAGCGCCACGGTGAGGTGCTGGAGGAGATTCAGCGCCTCGGGGCCCACACGGTGCTCATCATCGGCGACGTCGCCCTCGCTCCCGCCAGCGGGCAGGTCACAGTCCAGCGCGACCCCGGCGGGCTCGACGCCCTGCACACAATGACGAGCCTGGAGTTTGACGTCCGCGACATCGAGGACACCGCCGATGCGCGCGAGACGGTCGCCGCGGTCGCCTCACTGGCCGGCAATCCGCCCGTGTGGCTGCGCACGCGCGAGGCCCCGGCGACGAAGCCGGGGGCGCAGGCCGCACCCTTCCCGCTGCAGTCGCGCCGGGACGCAGACATGGCACCTGTGGTCGTCGCTACGCCCGCGAGCCCGCTGCCCGCGGTGAGCAACGCCCGCAGTTTCGGCGCCCGCGTCGCGGTCGTCGACGAGCCCGACCCGCGGCAGTCGCGCGAAACCCTGCTCGCGCTCGCCGGGCTGGCGAACGAGCCGCTGATTGCGCTGGGCCCGGAGTTTGGCACGGAGCAGGAACTTTCGCGGCGCATCATGCGGGCCGAAGAATATTATTAA	MNRPTIVAPFIAAALALSACSSGPAASPLDDARTQNQARHVAERFAPHPVVLDDPYGFETSRLFFPASETVVVTDSTPQAQLRGSSIAVTAHAPLLVYAPERHGEVLEEIQRLGAHTVLIIGDVALAPASGQVTVQRDPGGLDALHTMTSLEFDVRDIEDTADARETVAAVASLAGNPPVWLRTREAPATKPGAQAAPFPLQSRRDADMAPVVVATPASPLPAVSNARSFGARVAVVDEPDPRQSRETLLALAGLANEPLIALGPEFGTEQELSRRIMRAEEYY				NA	NA	NA	NA	NA
AK009_06245	1245			hypothetical protein	GTGGCTGCGGGCCTCACTCGCGGTGTCCACGGTGTACTCCAGACCGCGCGACTCCGCGATCGTCGGGGCGTTCACGAAGGTCACCGGCTCAGAGACGATGCCGGAGAACAGCCCGCGCACGGCGGACAGGCCGAGCGTGTCGACGTCCTCGGTGGACAGCTCGCCGCGAGAGGTGACGTGCAGGGAGACCGGGGCGGCGTCGAGAAGCTTGCCAGCGAGAAGGCCCAGCTTGCGCGACAGGTCGAGCCAGGAGGCGACCTCCTCGCCGACGCGGCCGCCGGTGATGTTGACGGCGTCGGCGACGAACTCGCCGCGCAACGCCTTGAGCACGGAATCGGCGACGTCGGTGCCGGCGCGGTCCTGGGCCTCGACGGTGGAGGCGCCCAGGTGCGGGGTGACCACCACCTGGTCCAGGCCGAACAGCGGCGAGTCGGTGCACGGCTCGGAGGCGTAGACGTCGAAGCCCGCGCCGCGGATGCGGCCGGAGACGATGGCGTCGGCAAGCGCCTGCTCGTCGACAAGCCCGCCGCGGGCGGCGTTAATGATGATCTGGCCCTGCTTCGACTTGGCCAGCAGGTCCGCGTTGAACATGCCCGCGGTTTCCTTCGTCTTGGGCAGGTGGATGGTGACGAAGTCGGCCGTAGACATGAGCTCCTCGAGCTCCACGAGCTCAACGCCGAGCTGCGCCGCGCGGGCCGGGTTGGCGTACGGGTCGTAGGCGATGATCGTGGTGTCGAAGGCGGCGAGGCGCTGGGCGAAGAGCTGGCCGATGTGGCCGAAACCGACGATGCCGACGGTCTTGCCGAAGACCTCGACGCCCTTGAACGCGGAGCGCTTCCACTCAGCGTCGCGCAGCGTCTTGTCGGCTGCCGGAATCTGGCGGGCGGTGGCCAGAAGCAGCGCGATCGCGTGCTCGCAGGCGGAGTGGATGTTCGAGGTCGGGGCGTTGGCTACCATCACGCCGCGCTCGGTGGCGGCGTTGATGTCAACGTTGTCCAGACCAACGCCGGCGCGGCCGATGATCTTGAGCTGCGGCGCAGCCTCGATCAATTCGCGGTCCACGGTGGTGGCGGAGCGCACGAGAAGCGCGTCGGCCTCGGGCACTGCGGCGAGCAGCTCGGCGCGGTTGGGGCCATCCACCCAGCGGACCTCAACCCCATCTCCGAGCGCGTCGACGGTGGAGGGGGCGAGCTTGTCAGCGATGAGCACGACTGGTTTGGACACTGCGATGATCTCCTGGGTTAA	MAAGLTRGVHGVLQTARLRDRRGVHEGHRLRDDAGEQPAHGGQAERVDVLGGQLAARGDVQGDRGGVEKLASEKAQLARQVEPGGDLLADAAAGDVDGVGDELAAQRLEHGIGDVGAGAVLGLDGGGAQVRGDHHLVQAEQRRVGARLGGVDVEARAADAAGDDGVGKRLLVDKPAAGGVNDDLALLRLGQQVRVEHARGFLRLGQVDGDEVGRRHELLELHELNAELRRAGRVGVRVVGDDRGVEGGEALGEELADVAETDDADGLAEDLDALERGALPLSVAQRLVGCRNLAGGGQKQRDRVLAGGVDVRGRGVGYHHAALGGGVDVNVVQTNAGAADDLELRRSLDQFAVHGGGGAHEKRVGLGHCGEQLGAVGAIHPADLNPISERVDGGGGELVSDEHDWFGHCDDLLG				NA	NA	NA	NA	NA
AK009_06246	324			hypothetical protein	GTGGCCAAACAGCACGCGCCGGTCGGTGGGGACGAAGTCCTTGCCGTCGTCGATGTACTCGGCTGGGGTCGCGCGGTTGTTGCGCGGCTTGACCACGTTGTACTCGATCAGGCGCGCGTAGAGCGTGTAGCCGATGATGTAGGAGCCAATCGCGGCGAGCACGAGCCATACCGAGCTGATCTCCTCATCGCGGTTGAGCGCGAGCACCGCCCAGCCCAGCGCCGCGATGACGGCCGCGATGGCGATGACGACGCGCTCGACAGTTCCGATGGCCTTTTTCGGCCGAACCCCAACGACGTGCTCGCGCCCGTCGGGCGTCGTTGA	MAKQHAPVGGDEVLAVVDVLGWGRAVVARLDHVVLDQARVERVADDVGANRGEHEPYRADLLIAVEREHRPAQRRDDGRDGDDDALDSSDGLFRPNPNDVLAPVGRR				NA	NA	NA	NA	NA
AK009_06247	465			hypothetical protein	TTGAGCCTTCGCGTCACGGAAGCGCGCGTTCTGCGCGAAGTAGCCAATCGCCGGGTTGGAGTGGAAGATCTTCTGCCAGCTCGCGGTCAGCGTAACCACGAGGTCGAACACGAGCGGGACAACCGGTATCCACACCCACTTGTACATCCCCTTCTTCACCAGCACGACGGTGACCAGGGTCAGAGCGATCGCGGCGAGGAGCTGGTTGGCGATGCCGAACAGCGGGAACAGCACGTTGATGCCGCCGAGCGGGTCGGTCACGCCCATGACCAGGATCGCGCCCCCGACAGCGCGCCGCAGGCGATGGTGATGAACAAAAACGGGAACAGCGACCCGGCGAACACCGGCCCGTTGCCCTCGATGGCGAACGAGGTAATCGCCGGCATCTGGATCAACGGGCGGTCGATGATGATCGCCACCGCGAGCAGGGCGACGACGCCGACCTTCATAAACGTCGACAGGTAA	MSLRVTEARVLREVANRRVGVEDLLPARGQRNHEVEHERDNRYPHPLVHPLLHQHDGDQGQSDRGEELVGDAEQREQHVDAAERVGHAHDQDRAPDSAPQAMVMNKNGNSDPANTGPLPSMANEVIAGIWINGRSMMIATASRATTPTFINVDR				NA	NA	NA	NA	NA
AK009_06248	378			hypothetical protein	GTGGTGCGCGGCGAGGTGCGCGCAGTACTTGGCGTAGTCGTTATCGCCCATGAGCTCCTTGATGTACCAGGTCACCCCGTTGATCACTTTGAGCACCATCTAGTGAGCACCCCCACTCGAGGCGAGCGTGAGCCCCAGCTCCTCGGCAACGCGCTTCTCCTCGGCGCTGGCAGCCATGCCGCGCGGGATGAACCGCGTCGACGGGTGGTCCGGCTCCTCGCTCGTGGGCACGCGCGACCCCGCCGATTGCGCTCGCAGAGCCTTGACGACGGCCACGAGCGCGGTGATCACCACGATGACGACCAGGGAGGCGAACAGAATGGACAGCGCGCCCTGGATGTAGGTGTTGCGGATCACCGCGTCGATCGCCTCGGGTGA	MVRGEVRAVLGVVVIAHELLDVPGHPVDHFEHHLVSTPTRGEREPQLLGNALLLGAGSHAARDEPRRRVVRLLARGHARPRRLRSQSLDDGHERGDHHDDDQGGEQNGQRALDVGVADHRVDRLG				NA	NA	NA	NA	NA
AK009_06249	873			hypothetical protein	GTGCACCGGCTCAAACATGGACGGGTTGGTGCGCGAGGCGTCGATATTGCCCGAGCAGGCCAGGCCGACGCCGCCCGTGACCGCCCCGGCGAGGTCGGTGATGATGTCGCCAAAGAGGTTGTCGGTGACGATGACGTCGTAACGCTGCGGGTCGGTGACCATGTAGATGGTGGTGGCGTCGATGTGGTTGTAGTCGACCGTAACTTCCGGGTACTCGGTGGCGACGGCGTCGACCGTCTTCTGCCACAGCCCGCCCGCGTTGACAAGGACGTTGGTCTTATGCACGAGCGTGAGGTGCTTGCGGCGCTGCATCGCCAGTTCGAAGGCGTAACGCACGACGCGCTCGACCCCGAAGCGGGTGTTCTGCGAGACCTCGCACGCCACCTCGTGCGGGGTGTTGGCGCGCAGCACTCCGCCGTTGCCCGCGTACAAGCTCTCGGTGCCCTCGCGCACGACCACGAAGTCTATGTCGCCGGGGTTGGCCAGCGGGCTGACCGCCGTCGGGTAGAGCCTCGAGGGGCGCAGGTTGACGAAGTGATCCAACGAGAAGCGAAGTGGCAGCAGCAGCCCGCGCTCGAGCACCCCGGCTGGCACGCGGGCTGGGTCGCCGATTGCGCCGAGCAGGATCGCGTCGTGCGCGCGCAGGCTCGCCAAATCCTCGTCCGTGAGAAGCTCCCCGTTGCGCAGGTAGCGGCGGGCGCCGAGGTCGTACTCGGTGGTCTCGACATCGTCGCGTACCGTGCGCAGCACTTTCAGGCCTTCGGCCATGACTTCGGTGCCGATTCCGTCGCCAGCGATCACCGCAATTTTCATGTTGTGGGAGTCCTTCCTTACTGCTTACACAGCGTTCACAGTGTGACCGGTTTAGCCTAG	MHRLKHGRVGARGVDIARAGQADAARDRPGEVGDDVAKEVVGDDDVVTLRVGDHVDGGGVDVVVVDRNFRVLGGDGVDRLLPQPARVDKDVGLMHEREVLAALHRQFEGVTHDALDPEAGVLRDLARHLVRGVGAQHSAVARVQALGALAHDHEVYVAGVGQRADRRRVEPRGAQVDEVIQREAKWQQQPALEHPGWHAGWVADCAEQDRVVRAQARQILVREKLPVAQVAAGAEVVLGGLDIVAYRAQHFQAFGHDFGADSVASDHRNFHVVGVLPYCLHSVHSVTGLA				NA	NA	NA	NA	NA
AK009_06250	264			hypothetical protein	GTGCCCGTAGAGCGCGATCATGCGCCGGCCAGGGAAGACCAACCCGCCGCCACCGGGCAGCTCTCCGGCAGCGGCAAGGTCGACGCGGTGCGCGTACTCCTCAGTTGTGCCCCACTGACTGCCCAGTGCGAGCGTGTCCTGCCCGGTGACGGTGCGCATCGACTCGCTGGTCAGGCGCGGGTCCGGGACCGCAAGCACGTCAAGCCGCGCGCCCGCTGCCCGCGCGGTCGCAGCGGCGCCCAGGGAGGTCTCCTCAGTGGCTAG	MPVERDHAPAREDQPAATGQLSGSGKVDAVRVLLSCAPLTAQCERVLPGDGAHRLAGQARVRDRKHVKPRARCPRGRSGAQGGLLSG				NA	NA	NA	NA	NA
AK009_06251	1551			hypothetical protein	TTGGGCGCGGCTGCTCTTTTTCACGTCGGCGGCCATGTAGATCGGATCAGCTTTGAGCTGCCGCATGATGTCGCTGCTTGTGGCCACACCGATAATTTCCCCGCCGTCGGTCACCGGCAGGTGGTGGGTGCCGAGATCGCCCATCACCAGCATCGCCTCGAACACCAGCGCGTCGCTGGCGATGGTGCGCACCGGCGACGTCATCACCTCCCGCAGCGGAGCCTGCGTATCGACGCCCTTCGCCACCACCCGGGAGCGGAAATCGCGGTCCGTGACAATCCCCGGCTCCGTCGCACCCGTGACGATCAAGCTGGAAATCGCGTGCTCATCCATCAGCCGCGCCCCCTCGGCGATGGTGGCCGCCCCGTCGACGGTGATCAGCCGCGCCCCCGCGACCAGCTCCCCGACCGGGGTGCGCAACACGTCGGACGCCGCGGAGTCCTCCTTCAGCTCATCGGCGGCCGCCTTGATGCGGCGGGAGGCGGTGTCGAAGTAGCGCAACGTCTCGGGGAAGGCATCGACGAGTGCACGGAAGGGCGTGCGCGGCAGCATATAGAGGACGCTGTCTTCCACCGCGGCCATCATGTAGCGCGAGCGGGGGTCGTCGACAAGCGTGGAGTAGCCGAAGGTGCGGCCCACGTCCCTGCGGTCGAGCAACGAATTGTCCGGGCCAACGACGTCGATCGCACCGGAGCGGATGATGTAGAGGGTGTCGTTGACGTCGCCGTAGTTGATGACCGTCTGGCCGCGGCGCACGTAGGTGACGCCCATGTGCTGCGGCAAGCCGTCCAGCGTCTCCGCTGGCAGGTGGGCGAACGGCTCGTGGTCGGCGAGGAAAGCGCGGACCTCGTCGAGTTCGACTGTCATGCACCTATTTTACTGGTAGCTGACAAACCACGGGCGCGGTTCGACCTCCAGATAAGTCTGTTCGGGGGTGAACATCGGCTGGTCTTCGTCGATAAAGTTCTTCCACGCCATGAAGAAGTTCGGGTCGAGGCCTTCGCGCAACACGTTCCAGGTGTCGTACTTCTGCCCGGGGCTACCGTGGCCATCGGCGTGCAGCACGTAGGCCAGCTCCGGGTGAACAGTCTGGATGTTTTCGCGATCCGGGAACATCGCCACCTGGAACTGGTGCAAAACGAACGCTTTCTGCGGCAAGTTGTTCTCGCGCACGAGCTGAGCCAGCCAGTCCGCAACGACGTTGATCTCTTCGGCGCTGGCGGAACCAACGCGCGACAGCGGCGCCTCGCCCGGGTTAAGCTTCCACTCCGAATCGAGGGCGAGACCGACATTCGGGCGCTTGAGCAGCTCCTCGTAGAGCTTTGCCTGGTGCAGGAAGTCGCCTTGGCCCGGCTGCAGGTCCAGCACGGCGTAGCCGCCGGCCTCGGTGATGGCGTCGATCCACGGCACAACCGTCTCCATCGGCGCCTCGTTGGAGTAGTCGCCGTCCTCGCCCGGAAATTCCGAGGCGACGGTGACGATGATCTCGAACGCCGGGATCACCGGCTGCTCCTCCATCGGCTGGTACTGCTGCGCATACTGCGTTGCTAG	MGAAALFHVGGHVDRISFELPHDVAACGHTDNFPAVGHRQVVGAEIAHHQHRLEHQRVAGDGAHRRRHHLPQRSLRIDALRHHPGAEIAVRDNPRLRRTRDDQAGNRVLIHQPRPLGDGGRPVDGDQPRPRDQLPDRGAQHVGRRGVLLQLIGGRLDAAGGGVEVAQRLGEGIDECTEGRARQHIEDAVFHRGHHVARAGVVDKRGVAEGAAHVPAVEQRIVRANDVDRTGADDVEGVVDVAVVDDRLAAAHVGDAHVLRQAVQRLRWQVGERLVVGEESADLVEFDCHAPILLVADKPRARFDLQISLFGGEHRLVFVDKVLPRHEEVRVEAFAQHVPGVVLLPGATVAIGVQHVGQLRVNSLDVFAIREHRHLELVQNERFLRQVVLAHELSQPVRNDVDLFGAGGTNARQRRLARVKLPLRIEGETDIRALEQLLVELCLVQEVALARLQVQHGVAAGLGDGVDPRHNRLHRRLVGVVAVLARKFRGDGDDDLERRDHRLLLHRLVLLRILRC				NA	NA	NA	NA	NA
AK009_06252	951			hypothetical protein	GTGGTTTCGACGTCGACGGCGAGCAGGTGGGCGTCGACAAGCTCGCGGCGAGGGGGTGAAAAACCGAACACGCTACACCGACCTGACCGGGTACTTGTTGCCGAGCGCCGACTGCAGGTTCTTGATCACGCCGAAGGCATCGCGCAGCGCGTCGCGCTCGCGGCTCGGCAGCGCCTTCGGGTCAATGTGGTAGTTCGGCCGCTCGCCGCGGCGCAGCTGCCTCGTCTGCTGTTTCAGCGCAAGGTCCGTGAGGTACTCGTAGGCGCCGAGGAGGTCCTCCGCCCCCTTGACAGACACCGACGAGCCAGCCGAGGCCCTGATGCGGGCCAGGGTGTCTACCTCCCCCACGCCCGCAGTGATTGCGTAGAGGCGAGCCATCTGCACCACCGCGGCGGTGCCGCCCTTTTTCACGTCGAGCGTGTCGGCGTACTCACCACTGCGCTCGACCACGAACCCGCGGAAGAAACCGATCGGGGGCTCGCGCCACGTGGCCAAGGCGGCGAGGTGCGCGTGCAGGCGCTTCGAGCCGCGCGCGGCGACCACGGCGTTGTCATGCACGCGCTGCGCCATCTGTTCTCCCCCGAAAGCCGAGAAGATGCAGCGGAAGTCGAAGAACACCTGCGCGTTGAGCAGGGCATCGGGCTCAGGCGCGGTGACCCACCCGTGGAAGGTGTCGTTCCACTGCGACTCTGTCATCCGCCACTGCGGGTTGTGCGCCATGATGCCCCCGGGGCACAGCGCTTGCCCCGCTTCCGCGAGGCCGGAGCAGATGTAGTCGCCGAGGCGCGCGAAGTAGTCGCCGTGCAGCGCGGCGTCGAAGGAATCATCGAGCACCAACGCGTTGTCCTGGTCGGAGGCGGGGCCCATCTCGCCGCGGGCTTGGGATCCGACGGCGACGAACGCGAATGGGACGGGTGGCTCGCCGAGCTCGGCAACCGCCAGCGCGTATAA	MVSTSTASRWASTSSRRGGEKPNTLHRPDRVLVAERRLQVLDHAEGIAQRVALAARQRLRVNVVVRPLAAAQLPRLLFQRKVREVLVGAEEVLRPLDRHRRASRGPDAGQGVYLPHARSDCVEASHLHHRGGAALFHVERVGVLTTALDHEPAEETDRGLAPRGQGGEVRVQALRAARGDHGVVMHALRHLFSPESREDAAEVEEHLRVEQGIGLRRGDPPVEGVVPLRLCHPPLRVVRHDAPGAQRLPRFREAGADVVAEAREVVAVQRGVEGIIEHQRVVLVGGGAHLAAGLGSDGDEREWDGWLAELGNRQRV				NA	NA	NA	NA	NA
AK009_06253	282			hypothetical protein	GTGGTTGCGGTAGGCCGGCAGCCCGTAGCGTTGCCGCACCCGCGCCAGGCGCAGGTCTTCGCCGCGAGGGTAGGTTGCCATGCGCTCCATGTGACGGCGCTCGAGCGCGAACGTGTCCACCACCTCGTCCTCCCGCAGCCGCCAGCGCGTGCCCCTCACCTGCTTGAATGCGTGGCCGATAAACCCCAACTCCATCTGGGCGAAGTGGGCCAGCAGCTTGCGGCCCGCGATGGCGCGCTCAAAGTGCTCCACAATTTCGGCGATATCCGTCCCGCTCGCTAA	MVAVGRQPVALPHPRQAQVFAARVGCHALHVTALERERVHHLVLPQPPARAPHLLECVADKPQLHLGEVGQQLAARDGALKVLHNFGDIRPAR				NA	NA	NA	NA	NA
AK009_06254	108			hypothetical protein	ATGCTCGGCGGACTGCTTGAACACCTCGGCGACGTGGTCGGCGTAGTTGCGGCCGATCGCAACCACCTTGGAAGGCAGCATCGGGGCGAGCAGGCGGACGTCGGCTAG	MLGGLLEHLGDVVGVVAADRNHLGRQHRGEQADVG				NA	NA	NA	NA	NA
AK009_06255	219			hypothetical protein	GTGCGCCTTGATCGGGGTGTTGGTGAAGTCGAACTTCTCCAGGTCCGTCTCGATCCACGGCCCGAGCGGGCAGAAGGTGTCGATACCCTTCGCCCGCGCCCACTGGCCGTCAGCGAACTGCAAATCGCGCGAGGAGACATCGTTGACGATGGTGACACCGCGCACCACCGACTTCCAGTCCTCCGCCTTGACGCTCTTGCACGGGGCGCCGATGACTAG	MRLDRGVGEVELLQVRLDPRPERAEGVDTLRPRPLAVSELQIARGDIVDDGDTAHHRLPVLRLDALARGADD				NA	NA	NA	NA	NA
AK009_06256	366			hypothetical protein	GTGCAGCTCGCTCACGGTGCCCGAGCGCCCGATCGTGGACAAGACGAACGAGATGTGGCACCTGGCAACACCGATCACGGGAGTGCTGAAAGACCCCGCCCCGAGCGCCCTCGACCTCGCCGAGCGCCTCTACCCCACCCCGGCTGTGTGCGGCACACCGACGGAGGCGGCGAAGGCCTTGATCTGCACGGCCGAGACGGACCGCAGTTTCTACGCCGGCGCGGTGGGTTACACCGAGGCGAACGGCGATGGCGAGTACATGGTCGCGATTCGCTGCGCCGAGGTCAGCGGCGACGGCACCACGGCCCGCGCCTGGGCCGGCGGCGGGCTGGTGGCGGACTCCGACCCGCAGGCGGAGCTGGATGA	MQLAHGARAPDRGQDERDVAPGNTDHGSAERPRPERPRPRRAPLPHPGCVRHTDGGGEGLDLHGRDGPQFLRRRGGLHRGERRWRVHGRDSLRRGQRRRHHGPRLGRRRAGGGLRPAGGAG				NA	NA	NA	NA	NA
AK009_06257	543			hypothetical protein	ATGGAAGCCGGCGGGGGTCAGATCCGCGATGAAACCGTCGCGGGTATAGGACAAATCAATCAGCCGCGCGGCCACCAGGCGCGGATCCACGGGCGGATCGAAGGCGATGTCGACGGCGCGGGCGAGCACGACCTTGTCCAGGGCGGAGTTCTGGATCGTCGCTACCGCCGCCTCAATGCGGCGCAGGTGCTCGACGGGCGAGGGATCGAACCCGCACACCCGCGCGCTCAGTTTGGAGCCCTGACCGACGCGGTAGAAGGGGTGCGGCTCGAGCGTGCCAGGCTCGCACACGATGGTGTCCGGCACCGTCAGCGCAGCCTCGGCGTCCTGATCGAACGGCAGTGCACCGACGATCATCTCCACGGCACCGCGGTCGATGGCGTCGATCGCCTCGTCGATGTCGGTAAACGTCCCAGCGCAGCCCTGCGTGCGCACCGAACCGTGGCTGCGGGACAGCAGGAAGTCGGGCGCTGTGGCGGGGCGTGCGGATTGCATGAGCGACAAGTGTACTGTGCCGCCCGCGGGCAGCGGAGAGGGGGCTGA	MEAGGGQIRDETVAGIGQINQPRGHQARIHGRIEGDVDGAGEHDLVQGGVLDRRYRRLNAAQVLDGRGIEPAHPRAQFGALTDAVEGVRLERARLAHDGVRHRQRSLGVLIERQCTDDHLHGTAVDGVDRLVDVGKRPSAALRAHRTVAAGQQEVGRCGGACGLHERQVYCAARGQRRGG				NA	NA	NA	NA	NA
AK009_06258	1800			hypothetical protein	TTGATTACTATAGCCAGAAGGCTCCGTGGCGAACAAATCGCCAGCTCACGGCGCCTCAATGACACCGATGTAGTTCTATTCGGAAGCCTCGAACGGGGTCTGGGCGCGGGCGGCGCGCAGGCGCGCCAGGGTGGACACGCGGCCAAGCAGCTCCATCGATTCGAACAGCGGCGGCGACACCGCCTCGCCCGAGATGCCGACGCGCAGCGCGCCGAACGCCTTGCGCGGCTTGAGCTCAAGGTCCTCAATGAGCGCCTTGTTCAGTGCCGCCTCGATAGCTGGGGTGGTCCACTCGTCGATGGATTCGAGCGCGGCGATGCCCGCGTCGAGGGGTGCGATGGCGTCGTCCTTCAGGTTTTTCTTCGCGGCCTTTTCCTCCAGCACGAGGTCGGCGTCGTCGGTGACGAGGAATTTGAGGAGACCGTAGGCGTCGCTAAGCACCTTGATGCGCGTCTGCACGAGGTCCGCGGCAATCGCAAACTTCTCCGCCGGGTAATCGGCCGGGAAGTCGGTGTACTCGGTGAGGTAATCGCGCAGGCGCGCGGCGAAGTCCGCGGGCTCGAGCAGACGGATGTGGTCGGCGTTGATCGCTTCGAGCTTCTTCTCGTCGAAGCGCGCGGGGTTGCCCAGGACGTCGTCGACTGTGAAGGCGGCGACCATCTCGTCGACGGTGAAGATGTCCCGGTCGGCGGACATGGACCACCCCAGGAGGGCGAGGTAGTTGAGCATTCCCTCGGGGATGATGCCGTTGTCGCGGTGGTTGAACAGGTTCGACTCGGGGTCGCGCTTGGACAGCTTCTTGTTGCCCTGGCCCATCACGAACGGCAGGTGGCCGAACGCCGGCACCTGCTGGGCGATGCCGAGGCGGATGAGGGCCTCGTACAGGGCGATCTGGCGCGGGGTGGAGGAGAGCAGGTCCTCGCCGCGCAGGACGTGGGTGACGCCCATCAGGGCGTCGTCAAGCGGGTTGACCAGCGTGTACAGCGGCGCGCCGTTGGAGCGGGCGACGACGTAATCCGGCTGGGTGTGTGCCTTGAACGTCATCTCGCCGCGCACCAGGTCGGTCCACGTCCAGTCCTTCTCCGGCATGCGCAGGCGCCACACCGGCTCGCGGCCCTCGGCCTCAAACGCCGCGATCTGCTCCTCGGTGAGGTCCCGGTCGTAGTTGTCGTAGCCGAGCTGCGGGTCGCGCCCGGCCGCCTTGTGGCGCTCCTGAACCTCCTCGTTGGTGGAGTAGGCCGGGTAGACCTCGCCGGCGTCGATAAGCTTGCGCAGCACGTCCTTGTATATGTCCATGCGCTGCGACTGGCGGTAGGGCTCGTGCGGGCCTCCCTTGCCCACGCCCTCGTCCCAGTCGAGGCCGAGCCACGTGAGCGAATCGACGATCGCCTGGTACGACTCCTCCGAGTCGCGCGCGGCGTCGGTGTCCTCGATGCGGAAGATCATGGTGCCTCCGCTGTGGCGGGCCTGCGCCCAGTTGAACAGGGCGGTGCGGACCATGCCCACGTGCGGGGTTCCTGTCGGCGAGGGGCAGAAACGGACGCGCAAGTCGGGGTTTGCACCTGTCGTCGTGGAGGAATCAGTCATGGGTTCAATCGTAGCGTGCGTTCTCAGCCCCCTCTCCGCTGCCCGCGGGCGGCACAGTACACTTGTCGCTCATGCAATCCGCACGCCCCGCCACAGCGCCCGACTTCCTGCTGTCCCGCAGCCACGGTTCGGTGCGCACGCAGGGCTGCGCTGGGACGTTTACCGACATCGACGAGGCGATCGACGCCATCGACCGCGGTGCCGTGGAGATGA	MITIARRLRGEQIASSRRLNDTDVVLFGSLERGLGAGGAQARQGGHAAKQLHRFEQRRRHRLARDADAQRAERLARLELKVLNERLVQCRLDSWGGPLVDGFERGDARVEGCDGVVLQVFLRGLFLQHEVGVVGDEEFEETVGVAKHLDARLHEVRGNRKLLRRVIGREVGVLGEVIAQARGEVRGLEQTDVVGVDRFELLLVEARGVAQDVVDCEGGDHLVDGEDVPVGGHGPPQEGEVVEHSLGDDAVVAVVEQVRLGVALGQLLVALAHHERQVAERRHLLGDAEADEGLVQGDLARGGGEQVLAAQDVGDAHQGVVKRVDQRVQRRAVGAGDDVIRLGVCLERHLAAHQVGPRPVLLRHAQAPHRLAALGLKRRDLLLGEVPVVVVVAELRVAPGRLVALLNLLVGGVGRVDLAGVDKLAQHVLVYVHALRLAVGLVRASLAHALVPVEAEPRERIDDRLVRLLRVARGVGVLDAEDHGASAVAGLRPVEQGGADHAHVRGSCRRGAETDAQVGVCTCRRGGISHGFNRSVRSQPPLRCPRAAQYTCRSCNPHAPPQRPTSCCPAATVRCARRAALGRLPTSTRRSTPSTAVPWR				NA	NA	NA	NA	NA
AK009_06261	468			hypothetical protein	ATGGATCGTAAGGGAGGCGGGTGCGCGCTTCTAGTCGGCGTCGCCTTCCTCATTGGGCTGGTGATGTGGGCTCTCGCGATTGCTCTCGTCATCCTCGCCGGGGTTGTCGCACTCGGCGGGATCATCGTGGGAGGGGGCATCGTCGCACATGCGGTCAGCGAGGTAAAAAGAACGCGCGAGGTCGATGGGATCGGGGAGACGGTAGCCCAGATGAGCGTTGAATCTGAACGCGACCTGCTGGCGACACTCGTTGACCTGGACGAGCTGATCCGCACCCGTGGTGTGGGCACGTCCTTGGAAGGCACGCTCTACACCAACCCCGCGGCTTTGCGAACCGAACGCAGGAGGCTAGAGACCATGCTCACGCGCCTGTCCGTCGCTCCGGACACACCCAGCAGGCTCGCCGCCGTTGTAAGTGCTGAGACCCTGCGCGTCAAGGTCAACGCGGTACTGGACGGGGACTCATAA	MDRKGGGCALLVGVAFLIGLVMWALAIALVILAGVVALGGIIVGGGIVAHAVSEVKRTREVDGIGETVAQMSVESERDLLATLVDLDELIRTRGVGTSLEGTLYTNPAALRTERRRLETMLTRLSVAPDTPSRLAAVVSAETLRVKVNAVLDGDS				NA	NA	NA	NA	NA
AK009_06262	567			hypothetical protein	TTGGCACAGGGCGACCAAGTCGGCGTAGGTCTTCTCGCTCATCCACTTGCGCCTGGACACGAACTCGTCGCGGAAGTAGCCGAGGTGCGCCGTCGGCCCTCCGAAGGAGGTCAGCCCGAGGCGGAGGAAGACGGAGAAGACTTCGGCGACGTTACCTTTAACCTGCTGTGTAGACATCGTGAGATAGCGTCTCACATTTCGCGGCGTGCTGCCGGGTTCGCGAGCTTAATCCGGGTGGCGCGGGTTGATCAGGCCGGAACCCGCCGGCGCGTGGGCTGGGTCCTCGCCGAGCTCAACCTGCTTGTTGTTCTCATCGACGAAGATGACCCGCGGGCTGTAGTCCTTAAGCTCCTGCTCTTCGTAATGCGCATACCCGATGATGATGACGAGGTCGCCAGGGCTGATCAACCGGGCGGCGGCGCCGTTGATGCCGATGACACCCGTCCCCCGGTCGCCCGTGATGGCGTAGGTGGTCAGTCGGTTGCCGTTGTTGATGTCCACCACGTCGATCTGCTCGCCCTCGTAGATGTCCGCGGCCTCCATGAGGTCAGCGTCGATGGTGCATGA	MAQGDQVGVGLLAHPLAPGHELVAEVAEVRRRPSEGGQPEAEEDGEDFGDVTFNLLCRHREIASHISRRAAGFASLIRVARVDQAGTRRRVGWVLAELNLLVVLIDEDDPRAVVLKLLLFVMRIPDDDDEVARADQPGGGAVDADDTRPPVARDGVGGQSVAVVDVHHVDLLALVDVRGLHEVSVDGA				NA	NA	NA	NA	NA
AK009_06263	168			hypothetical protein	GTGCGCAACGACGGCGACCGCCGCGGCTTTCAGGCCCGCCAGCCACCCGGCGTCGGAGATGTCCCCCATGACCGCGACCCCAAGGGCGAAGAGTCCAAGCGCGATAACCGACGGCATGGTGAACGCGAACCACGCCGCGAACATGCCGAGGTAGCCGGCGCGTTGTAG	MRNDGDRRGFQARQPPGVGDVPHDRDPKGEESKRDNRRHGEREPRREHAEVAGAL				NA	NA	NA	NA	NA
AK009_06264	264			hypothetical protein	GTGGCCGCCGCCGAAGACGAGCGCACCGGCGCGGTAGAAGGTGTCAGCGATAAAGGCTGTTGTGCTGCTGGCCGCGGCCGCGAGCACAGGCAGAAGCACGAGCAGGGCTGCGAAAACCGCGAGCGACGCGAACGCCACGCTCTTCGGCACCCGCGAGCTAAACCCAACGCCATCGTCTGCATCGGGAGTCACCCGGAGCGCTGCGAGCCCCGCGACCATACCAACGACGATCGCGCCGACCTGGACGAACGGGTTAGGGATTAA	MAAAEDERTGAVEGVSDKGCCAAGRGREHRQKHEQGCENRERRERHALRHPRAKPNAIVCIGSHPERCEPRDHTNDDRADLDERVRD				NA	NA	NA	NA	NA
AK009_06265	882			hypothetical protein	GTGCGACGGTGCTGCCTTGCCCAGCTTCTCCCAGGTGGAGCGCTTCAGGTCGAGCTTCTCCGGAACTGCCTCAATAATAATGTCCGCCTCAGCGACGGCTGCTTCCATGTCCGTGGTCAGCGAGAGGTTCTCGTGAGCCTTGGCAACGCTTTCCTCGCTAGCAGTGTCGAGGTCGGCGATCATGGACTTGCCAATGGAGTTAAAACGTCCCTTGGCGGCCTCAACCGCGTCGTCGTTGATGTCCCATGCGGTGACCTTAAACCCGGCTTGGACGACGACGAATGCGATCTGGGCGCCCAGGACGCCTGCACCGATGACGGAAACGTTCTTAATGTCAGTCATGACACTTTCGTTGTTATACTAAAAATGTTCATTGCACGTGTCCAAGAATTCACCGATTACGGGAAAGTGCCAGGTTGCTCTATTGAGCTACAGCGCAATCAAACCGATGACGGCGGCGGCAATCACGACCGCCCACGCCGGCAGTTTCCACGCCTGCAGCGCGGTAAACGATGCTGCAGCCACAGCCATCGTGGCTGCGGAGGTCACACCGGCGATGAAGACAGGGTCGTACAGCGCGGCGGCGAGGATGCCCACCACGGCCGCGTTCGCACCAGCGATTGCGCGCGCCGCGGCCGCGTGCTTGCGCAAGCCCTCCCACAGCGGCAACGCCCCGAGGACGAGGAGGGCGGCGGGGAGGAAAATCGCGATCGTCGCCACCACGGCCCCGATCGCCCAGTGCACCCCTTGGGCGGATGCGCCGAGGAAGGAGGCGAAGGTGAACAGCGGACCCGGCACCGCCTGCGCGGCGCCGTACCCGGCGAGGAAGGTGTCGTGGTCAACCAGCCCGGTGGGCACGGTCGCGCTCTCCAGCAGCGGTAG	MRRCCLAQLLPGGALQVELLRNCLNNNVRLSDGCFHVRGQREVLVSLGNAFLASSVEVGDHGLANGVKTSLGGLNRVVVDVPCGDLKPGLDDDECDLGAQDACTDDGNVLNVSHDTFVVILKMFIARVQEFTDYGKVPGCSIELQRNQTDDGGGNHDRPRRQFPRLQRGKRCCSHSHRGCGGHTGDEDRVVQRGGEDAHHGRVRTSDCARRGRVLAQALPQRQRPEDEEGGGEENRDRRHHGPDRPVHPLGGCAEEGGEGEQRTRHRLRGAVPGEEGVVVNQPGGHGRALQQR				NA	NA	NA	NA	NA
AK009_06266	615			hypothetical protein	TTGCGACTCCTAAAAGATAGAACACGCCCCCGCTATCCGACAAATCAGCATGTCGGCACCCCTACCGCGGGCGGGTTACTTCTCGATCTTGTTGCCGTTGTCGTCGTACCTGTAGAAGCCCTCGCCGTCGCCCTGGCCGGAGCGACCTTCCTCGATCATCTGCTTGGCGAAGTCGATGAACTTCTTCTTCCACTCCGGCTGGTCCTCGCCGGAACCCTCAGCAACGTTAACGATGGAGCGCATGCCGATCATGTCCATGATCTCGAACGGGCCCATATCGGTGCTCATGGAGATGCGCCAGTCCTTGTCAATCTGGTCGACGTCAGCGACATCGTTGACGTAGAGGTACTGCGCTGCCTGCAGGAACGGAACCATCATCGTGTTGAGGAGGTAGGCGCGCTGCTCCTTCTTCAGCACGACGGGTGCGAGGTCAGCCTCGTGGGCGAACTCCTCGACAATGTCGCGGTACTTCAGGTCCGTTTCCGGGTTCGGCATGATCTCAACGATGTTCTTGACCCATACGCGGTTGGCGAAGTGGGTGTTGATGAAGCGCTTCGGGTCTCCGGAGGCGTCCGCAATCTCGCTGCCGAGCAGCGACGAGGTGTTGGTGCATAA	MRLLKDRTRPRYPTNQHVGTPTAGGLLLDLVAVVVVPVEALAVALAGATFLDHLLGEVDELLLPLRLVLAGTLSNVNDGAHADHVHDLERAHIGAHGDAPVLVNLVDVSDIVDVEVLRCLQERNHHRVEEVGALLLLQHDGCEVSLVGELLDNVAVLQVRFRVRHDLNDVLDPYAVGEVGVDEALRVSGGVRNLAAEQRRGVGA				NA	NA	NA	NA	NA
AK009_06268	273			hypothetical protein	TTGGGCCGCTGTGAGTTGGCTGGGGGCGACCACGTTCTGCTCGATGGAGCTGTCGTCGGTGCGCACGGCCAACGACGTCAGCAGGGCGCCCACCCACAGGGCGAGCACAGTGTAGAGCGGGGCCATGCCGGCGCCGAAGCTGACGCGTGGGAAAACACTCTTACGCTCCACCTTGACAGGGTCGACAAGGGCGTCGGCCAGCTGCTCCGGGTGCCGGGAGACGAGGTCGGCCAACTGTGTCAGGTCGCCGTCGGAGCGCGCCTTGGCAATTGA	MGRCELAGGDHVLLDGAVVGAHGQRRQQGAHPQGEHSVERGHAGAEADAWENTLTLHLDRVDKGVGQLLRVPGDEVGQLCQVAVGARLGN				NA	NA	NA	NA	NA
AK009_06269	471			hypothetical protein	GTGGGGGGGAAGCGCCGGGGCGACTTGGCCGTTGATGGTGTCGCGCAGGGCCGTGTACTGCTTCACCTGGACATCGACGCGCGCGGCGATGTCCGTCAGGCTCGCGGCGGTGGCCTGGGAGGTGGCGGAAGAGTCCGCCATCAGCTGGTCGACGCGGTCGCTTACGGCGGCAAAGCTTTCCGACGTCGCCGCCAGCGCCGCCGCAAGCGCCGCGCCGTCGCCGTTGAGGCCCGCCCCGGTGGCCCCGAGGTCGGCGGGGCGCACTTGGTCGAGGGAGTCGCCCAGCGCCGCGGAAATCCGCTCAGCGCTGTCGACGAGCGGCACGCTCGACTCGGTGAGGGAGGCGAGAGCATCGACGGTGTCGGCGATGGAGAGGAGCTGGTCGCGGGCGCTGGCGGTGCGCTTCTCGATGGAGTCGAGCGCCTGCTGGGTCTCCGCCTCGTTGAAGAAGTCCGAGGCTGTTTCGATTAG	MGGKRRGDLAVDGVAQGRVLLHLDIDARGDVRQARGGGLGGGGRVRHQLVDAVAYGGKAFRRRRQRRRKRRAVAVEARPGGPEVGGAHLVEGVAQRRGNPLSAVDERHARLGEGGESIDGVGDGEELVAGAGGALLDGVERLLGLRLVEEVRGCFD				NA	NA	NA	NA	NA
AK009_06270	474			hypothetical protein	TTGGGTGGCCTCGCTTTCCCCGCCGGTGGGCCGGATGGTGACACTCGTGCCGGCGGAGTCGTGGCGGTGGATCACGGCGTCGCGCAGCTCGGCCTCACCGAGAAGGGAGACCTGTTCGGCGTCGACGAGGCTCTGGGTGAAGTACTCAACCGCGCCGAGGTACAGGATGACCAGCAGGGACCAGCCCACCACGATGGCGAGCATGATGGTCTTGTCGGTAGGAAGAAGCATTGTCAGCAGGGTGATGATCGCGATGCCGAGAACGCCCGCGCCGATTCCGCCGAAGATGAGGGTGCGGTAGTTTTCCCTGAGCATCCGCGCCCGCTTCTCGACACCCCCACGGAACTCTTCGCGATCAGACAGTGCGGCCATGATGTCGGACGCGCGGTAGGGCGAGCCCATGACCTCGACCTTCTCGTTGGTAATCAAATTGGTGCGCGCGAGCTGGCGGTTGAACAAGAGGTTTGCGTGTGA	MGGLAFPAGGPDGDTRAGGVVAVDHGVAQLGLTEKGDLFGVDEALGEVLNRAEVQDDQQGPAHHDGEHDGLVGRKKHCQQGDDRDAENARADSAEDEGAVVFPEHPRPLLDTPTELFAIRQCGHDVGRAVGRAHDLDLLVGNQIGARELAVEQEVCV				NA	NA	NA	NA	NA
AK009_06271	318			hypothetical protein	GTGGTATCCGTAAAATCCGGCGATGGTTTCGCGCATTGCGTCGATGCCGTAGCGGAAGGGGAGGAACGGGTAGATTCGGCGGAAAAAGCCGGGCATCAGCTCGATGGGGTAGAGCCCGGATGCACCCGGAATCTGGATGACGACGAGGAACACGGCGATGCCGCGGCCGATGTGGCCGAGCGCGGAGACGATGGAGTAGATGATCCCCGTGTAGGCGACCCCGATGGCGATCGCGGTGGCAAGGAAGGCCGTGACGGACTGCATCTGCACTCCGAAGGCTGCGTTGCCGAGCGTCACCACGACGGCCTGGAGCACTGA	MVSVKSGDGFAHCVDAVAEGEERVDSAEKAGHQLDGVEPGCTRNLDDDEEHGDAAADVAERGDDGVDDPRVGDPDGDRGGKEGRDGLHLHSEGCVAERHHDGLEH				NA	NA	NA	NA	NA
AK009_06272	315			hypothetical protein	TTGAGCGGTGGCGGACTCGCCCTGTTCGACCACCCCGTCTACCTCGCTGATGGCCGAGCGGACGCGCCCCTGAGCGGTGCCGAGCTGATCCGTAGCGCCCGCGATGGTGGAGTTGGCGGAGGCGGCGCCGAGGCTGAGCGCGTTGGTGGATTCAACAAGCGCAGTGGAGGTGTCCGCGGTGAACCCGGCGGCGGAGCTCTGCAGCTCGGCGATGATCCCCTCGGCCTCGCCGAGGGACGAGTCGACCGACCCGAGGGTGTCGTCGACGGATTCGACGAGGGCGCTCAGCTCGCCAACGACTGGCCGAGCGCCTGA	MSGGGLALFDHPVYLADGRADAPLSGAELIRSARDGGVGGGGAEAERVGGFNKRSGGVRGEPGGGALQLGDDPLGLAEGRVDRPEGVVDGFDEGAQLANDWPSA				NA	NA	NA	NA	NA
AK009_06273	114			hypothetical protein	GTGGTCGTAGGGCTCCCAGAAGGCGTTGATGTTGAACCACGCGTAAAGTGCGGGGGTGATGAGCACGCCGACGATGATGATGAAGGCTCGGGGAACGCGCAACAGGCGACGTAG	MVVGLPEGVDVEPRVKCGGDEHADDDDEGSGNAQQAT				NA	NA	NA	NA	NA
AK009_06274	363			hypothetical protein	GTGGATGATCGCCTCGGTGATCTCCTCGCGGCTCAGCCCATTAGTCAGCGCGCCGCGCACGTGACCGCGCAGCTCCTCGGTCGCGCGCAGGGCAACGAGCATGCCGATGTTGAGCAGGCTGCGGTCGCGGCGACTCAGCCCCTCGCGCGTCCACACCGACCCCCATACAGTGGAGGTGATGTGGTGCTGCAGCTCCTCGCCGTCGGAACCCTTCGCGCGGGCGAGTGCAGCCTCGACGAACTCGTCGCCCATCACCTCGCGGCGCACGTTAATGCCAGCCTCAAAGCTGTTGTTCGGGGAAGTGTAATCAGTCATGCCACTCTAGTTTATGCGCGTGCTTATCGACGCCCCACCTTCCCCTAA	MDDRLGDLLAAQPISQRAAHVTAQLLGRAQGNEHADVEQAAVAATQPLARPHRPPYSGGDVVLQLLAVGTLRAGECSLDELVAHHLAAHVNASLKAVVRGSVISHATLVYARAYRRPTFP				NA	NA	NA	NA	NA
AK009_06275	1008			hypothetical protein	GTGCTGGTCGCGGGTGCCGTCGCGAAGCCCGTAGGGTGCGAAGCCGGTGCCGGGGCAGTAGCCGAGCTCCACACCGTAGTAGTCACCGTAAAAGCTGTTGATGTGGTCATGGCCGCAGTAGATGCCCTGGACGTCGCCGCGGTCGCGCACGGCGGCGTAGATACCGGAGTTGAATGCGCCGTAGTAGACGTCCTCGTGCTTGACCCCGTCGATGTTGTGCTTGCGGGCAGCGGCGTTGTGGTCGATGTCGGAGGTCTTCGCGGGCCCGCCGAACCACATGTCGCGGTGCTCGTAGGTGGGGATGTGGAAGAACATCAGGCCCGGCACGGGTGCACCGAAGCGCGCCTCGGCGGCACGGGAGCGCCCGAGGTACCAGTCGATCTGGGCGGGGCGGATGTAGTCGTAGTGCGGCGCGTCCTCGCCGGCTGCTTCCTGGAAGTCCTCCGGCATGTAGTTGCCGGAATCCACCAGCCACACGGAGTAGGAGGCGCGGGCCGCGTCGTGGGCGGAGACGATGAGCAGGTGGGCGTCCGAGTGGCCGAAGGGGCGATCACCCGCCGGCGGGTTGAGGTTGTACTTGTAGGTACGAACGAACTCGGCGATGTGGGCTTCGGTGACCCCGGTGCCGTGCTCCTCGATGGAGTCCTCGTCGTGGTTGCCGAAGGTGATCGCCCACGGGATCGCGCGGGACTCCATGGGCAGGACCACGTTGTTGACTGCCTGGTAGACCTGCTCCGGGGTGGTCGGGCCGCCATCGATGACGTCGCCGTTGATCAGCGCGAAGCCGGGCTTTTCGGCGTCGAGGACGCGCTCCATGAACTCGATGGTGCGGTGGTCGGTGAGGTGGTTGTCCTGGGTGTCGTTGAACTGGATGATCTTGAAGCGACCGGAGGCGTCGAAACGCAAGGGCATGGGCGAGTCCGCGGCGCGCTGGGCCTGAGCGGCGGCGCGCGACGCTGCTGGAAGCGAGGCGGCGGCTGCTGCGGTGGCCGCGCCGAAGAGCAGTGA	MLVAGAVAKPVGCEAGAGAVAELHTVVVTVKAVDVVMAAVDALDVAAVAHGGVDTGVECAVVDVLVLDPVDVVLAGSGVVVDVGGLRGPAEPHVAVLVGGDVEEHQARHGCTEARLGGTGAPEVPVDLGGADVVVVRRVLAGCFLEVLRHVVAGIHQPHGVGGAGRVVGGDDEQVGVRVAEGAITRRRVEVVLVGTNELGDVGFGDPGAVLLDGVLVVVAEGDRPRDRAGLHGQDHVVDCLVDLLRGGRAAIDDVAVDQREAGLFGVEDALHELDGAVVGEVVVLGVVELDDLEATGGVETQGHGRVRGALGLSGGARRCWKRGGGCCGGRAEEQ				NA	NA	NA	NA	NA
AK009_06276	243			hypothetical protein	GTGCAGGCGAGACACGCCAACGTTGCCGTTTTCCATGGCCTCGGTGTCGACGAAGAGGTCGAAATCCTTGCCCTTGATCTCGCCGACTTTCTGGGTGAAGATCACGTTCGACAGCGCAAGGTTCGCGGACATGCCCGTCTGCGCCATAACCGTGGTTTCAGCCCCGACGGCGAGCAGACCCGCTGCCAGGATGGCGGCGAACCGCCCCTTCTTGATGTACCCCATCATTGTCCTTCCCGGTAA	MQARHANVAVFHGLGVDEEVEILALDLADFLGEDHVRQRKVRGHARLRHNRGFSPDGEQTRCQDGGEPPLLDVPHHCPSR				NA	NA	NA	NA	NA
AK009_06277	207			hypothetical protein	TTGGTCGGTTGCGTTCAGGCCCGCGGCGTTCAGCCCGAAAGAGCCAGGCAGGGCACGATCGTTGAGCTGTGTTGCGTCGATGCCGATGTGCGGGTTGATCATTGTCATCGAGCCGGAGAGCTCCTTGGCGCCGATGACCAGGTTGGTCGCGGTGGTGCCCTCACCGGGCACGAGCATCTGGAATTTCTTGGCTCCCATGCCCGGTAG	MVGCVQARGVQPERARQGTIVELCCVDADVRVDHCHRAGELLGADDQVGRGGALTGHEHLEFLGSHAR				NA	NA	NA	NA	NA
AK009_06278	552			hypothetical protein	GTGGGCAGTGTTAAATGGGTACCCGGGGTCAGCGCCGACAGAGACGATGACTTCTTCTTCGAGGACGACGTCGACACGGCGATAGTGCCAGTCGCGTCCGAGGTCGAGCCTGAGGACATCGCCGCCGACCCCGCACGCCCGACGTTTACGGAACGCTTCTCCGCGTGGACGTCGAAACGCCCCTTTGCAGGCGGGCTGCTCATGATCCTGGCGGGCGTAGTCATTCTCACCCCGGCGTATATGTCGTTCGAGGTCTCCAACATCCAGGTCCAGATCGCCACAATGTCCGGGGTGTCCACTCTGCTCATCGGCGTGCTGCTGATGTGCTGCGGCCTGATGACGTGGTTCCAGCCCGAAGGCAGGCTACTCGCCGGCGTCGCCGCGATCATCCTCGCGGTCGTGGCCATCCCCACCTCGAACTTCGGCGGCTTCATCGTCGGCGCCCTGCTCGCGCTCATCGGTGGGGCGCTGGCCCTGTCGTGGGTGCCCGGCGTTAAGCCTGCGCGGCGCTCACGTCGGCGCCGGCGCGCCGAAGCAGCGAAGGAAGGATAA	MGSVKWVPGVSADRDDDFFFEDDVDTAIVPVASEVEPEDIAADPARPTFTERFSAWTSKRPFAGGLLMILAGVVILTPAYMSFEVSNIQVQIATMSGVSTLLIGVLLMCCGLMTWFQPEGRLLAGVAAIILAVVAIPTSNFGGFIVGALLALIGGALALSWVPGVKPARRSRRRRRAEAAKEG				NA	NA	NA	NA	NA
AK009_06279	420			hypothetical protein	GTGGTGCCCGAGGGTAAACCCATCCCCTCCACCGGAGCGGGCGGTGCGAAGTCGAGCCCGGGAATCTCCGGCAGCGCGAGCGGGACGCTGGACAGCTGCGGCGGCATGGGGATGCCCTCGAAGCCGGGGACCTGCTGCGGCTGCGCCGACAGTGGAGAGGGCAGCGGCTCTGGCAGCTCCGGCGGCAGAGGTGGCTGCGGGGCGTTGCCCTGCTGCAGCGGGGCGAGCAGCTGGTCAATGGCGGGGATCTGCGCCACCGTGACCGTCGGCGCGGCGGCGCACACTGCGGTTGCGGTGAGCGTCGTAAAGCCAACGCTCAGTGCTATTCGACGCCCACGGGGCGTCTTGAGTCGCGGTGCCATTATCCTTCCTTCGCTGCTTCGGCGCGCCGGCGCCGACGTGAGCGCCGCGCAGGCTTAA	MVPEGKPIPSTGAGGAKSSPGISGSASGTLDSCGGMGMPSKPGTCCGCADSGEGSGSGSSGGRGGCGALPCCSGASSWSMAGICATVTVGAAAHTAVAVSVVKPTLSAIRRPRGVLSRGAIILPSLLRRAGADVSAAQA				NA	NA	NA	NA	NA
AK009_06280	513			hypothetical protein	ATGCGTTTTCCGGTTGCGGCGAGCGCACGGCGCGTAACTTTACTCGCTAATGGTGAGGAAGTCTCCCGTAAAGATGTCGGAGGAGATATAGTAGGTCTCCATCGTCCCGTCGAGCATCACCAGGTTCTCCGACAGGGCATCGGGCGTTCCCGCGCCGACCTGCTTGAGCTTCTGCGCGAGCTCCTCGCCGACCATATCCGCGTTGAGCTCAATCGGCACCGGCAGGGCAATGCCGGCGATCTGAGGAGTCACCTTCATCGATTGCACGAAAATGTGGAAGTTGCCTGTCAGGGTGGTCGTCACCCCCGGCCCGGAGCGCTGCCACTGGTCCGGGGTGCCCTCGAAGCTGCTCGGGAAGCGCACGCGCAGGTTGTCCAGCACGACCTTGTCCGCGTCGATCCGGATCGCCGCGCGCGGGCCCTGCGCGGTGTCGATGGTGACGTAGGACAGTTTTACGTTGCCCGTCAGGGCCGTCGAGTCCGACTGGATCGTATAGGTGGTGCCCGAGGGTAA	MRFPVAASARRVTLLANGEEVSRKDVGGDIVGLHRPVEHHQVLRQGIGRSRADLLELLRELLADHIRVELNRHRQGNAGDLRSHLHRLHENVEVACQGGRHPRPGALPLVRGALEAAREAHAQVVQHDLVRVDPDRRARALRGVDGDVGQFYVARQGRRVRLDRIGGARG				NA	NA	NA	NA	NA
AK009_06281	960	sbnA		N-(2-amino-2-carboxyethyl)-L-glutamate synthase	ATGTCATTAGAACCCCTGCCCGGCGTGCTTTCCGCCATCGGAAATACCCCGCTCGTGGCCCTCGATCAACTGCGACCGCCTGGGGCCGGGCCGCTGTGGGGCAAACTCGAGTCGTTCAACCCCGGCGGCAGCGCGAAGGACCGCACCGCGCGCGCCCTCGTCCGTGACGCGCAGCGCCGCGGCGTACTCACGAAAGACAGCGTGGTCGTCGAATCAAGCTCCGGCAACCTCGGGGTCGCCCTCGCCCGCGAAGCGGTGCTCGGCGGATGGGAGTTCCACTGCGTGGTCGACAGGCGCACCAACGCCTCAACGCTGGCGCACATCCGCGCCCTCGGTGCCACGATCCACGAGGTTGAGCGGCCCGACTTGGAAACGGGGGACTGGCTCGTGGCCAGGCGCGCGCTCGTGGCCACGCTCGTCGATGAGCTCGGTGCGATCAACCTCGACCAGTATTCCAACCGGGCCGCGTTCAGCGCCCACGAGGAAGGAACGATGCGCGAGATCGTCGAGCAGCTCGGCCACGCCCCCGACATCCTCGCCGTCGCGGTGAGCACCACGGGCACGGTCGGCGGCTGCCTGCGCTACGTTGCCAAGCACAAGCTACCCACCCGCGTCGTGGCGATCGATGCGCAGGGCTCTGTGCTTTTTGACGGCGCTCGCGGAGCTCGCGTCCTGCCCGGCTACGGCGCGGGAGTGGTCACCGAACTCTCCACGCTCAACGAGCCCGATGAGGTGATCCGAGTACATGCCCGCGATGCGGTGAACGCCGCGCGAACAACGGCACGCGCCACCGGGTTTTTGCCCGGAGCGTCGGGCGGGGCGGTGGCGTGGGGCGTCGATAAGCTCGCGCGTGAGAATCCGGGAGCCGAGATCGTCGCTATTTTCCACGACGACGGCCGCGCCTACTTGGACACCATCTACAACGACGAGTGGGTCGCGGAAAACGTCACTGACCACTAG	MSLEPLPGVLSAIGNTPLVALDQLRPPGAGPLWGKLESFNPGGSAKDRTARALVRDAQRRGVLTKDSVVVESSSGNLGVALAREAVLGGWEFHCVVDRRTNASTLAHIRALGATIHEVERPDLETGDWLVARRALVATLVDELGAINLDQYSNRAAFSAHEEGTMREIVEQLGHAPDILAVAVSTTGTVGGCLRYVAKHKLPTRVVAIDAQGSVLFDGARGARVLPGYGAGVVTELSTLNEPDEVIRVHARDAVNAARTTARATGFLPGASGGAVAWGVDKLARENPGAEIVAIFHDDGRAYLDTIYNDEWVAENVTDH	PGPT0003440_354	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-STAPHYLOFERRIN_B_BIOSYNTHESIS,PGPT0003440-sbnA-K21949	NA	NA
AK009_06282	858			hypothetical protein	GTGCTCGACGCTGACCAGCTTCTCCGCGTCCACCATAACCTGGTCGATGTCCTTGTAGGCATCCGGGATCTCATCCACCCACGCGTCGCCGGGGCGGTAGACAATCCCGCCCATGCGCTCGTCCAGGTCCGCGGCGGTGAACCGTTTGCGGGCCTCGGTTCGCGAGAAGCGTCGGCCCGCGCCGTGCGGTGCCGAGCGCAGCGCCGGGGCGAAGCCTTTGCCCGACACAACGTAGCTCGAGGTTCCCATCGAGCCAGGGATGAGCGCCTTGACGCCCTCGTCGGCGCGGATCGCGCCCTTGCGGGTCAACCACACCTTCTGCCCGTAGTGCTCCTCCACCTGGGTGTAGTTGTGGTGGCAGTTGATCCGCTCGGCCTCTGCCACCTCGGCACCGACGAACTCTCCCAGCACACGAGCGAAGCGGTCCATCATCTCCTCGCGGTTGAGCCATGCGAAGCGCTGCGCCCAGGCGAGATCGGCGATGTAGGAGTCGAACTCGGCCGTGTCCTCCACGAGGTACGCAAGGTCGCGGTTCTCCAGCAGCACCCAGTGCTTATCGCACTGCTCCTGGGCCGTGGCGATGTGCTTCTGAGCAATCTTGTTGCCCACCCCGCGCGAGCCGGAATGCAGGAACATCCACACCCGGTCCTCCTCGTCGAGGCACAGCTCGATAAAGTGGTTGCCGCCGCCGAGCGAGCCGAGCTGCTGGCGCCACTTCGGGGAGTGCGACAAGTCAACGCCTGTGTCTTCGGCCAGCTCGGCGAGCTCCCGGGTGCGTGCCTCGGCGCTGCCGCCGAGGATCCATTCGTTGTAGTTGCCGGGGGACAGCGGGATCGCCGCCTCGATCGCGTCGCGTAG	MLDADQLLRVHHNLVDVLVGIRDLIHPRVAGAVDNPAHALVQVRGGEPFAGLGSREASARAVRCRAQRRGEAFARHNVARGSHRARDERLDALVGADRALAGQPHLLPVVLLHLGVVVVAVDPLGLCHLGTDELSQHTSEAVHHLLAVEPCEALRPGEIGDVGVELGRVLHEVRKVAVLQQHPVLIALLLGRGDVLLSNLVAHPARAGMQEHPHPVLLVEAQLDKVVAAAERAELLAPLRGVRQVNACVFGQLGELPGACLGAAAEDPFVVVAGGQRDRRLDRVA				NA	NA	NA	NA	NA
AK009_06283	495			hypothetical protein	GTGTGCGTCTGGCATCAGCGCGACGTGCGGGTGGACAAAGGGCAGGCGGGCGAGCTGGTTGGCCTGCTCGGTGACGTTGTCGTCGACAAGCGAGGCGAAAACCTCGACGTGGTGGTTGGTATTAACGGGCCGCGAGGAGAACCGGTTTTTACTACTGGGTCTGCCCCGCTTGTTGCGTGCCATGGAAATCTCCTTCACTCGTGGCGTGACATTCTGGTGCACCTTCGGGTACGTCGTACCCACAGTGCCGCCACAAGGGGGAATGAAAAACCGGCACCGTGGATGTGTGCGTCTCACGATGCCGGGCGCGGTGGTTTTTTAACTCTTTACGCGCACAAGGCCGGGGCCGTGAGACACAGCCTGCTGTTGGAGCAGGTAAAATCGCGACAGGTGCTGCTGGTATGCGCGCATGTCGTCCTCTCCAATCGTGTAGCTGTGTCCCGAAAGTATCTTGATGCCCATCGACGCCGCCTTCAGGCGCGGCGGATGAGCTAG	MCVWHQRDVRVDKGQAGELVGLLGDVVVDKRGENLDVVVGINGPRGEPVFTTGSAPLVACHGNLLHSWRDILVHLRVRRTHSAATRGNEKPAPWMCASHDAGRGGFLTLYAHKAGAVRHSLLLEQVKSRQVLLVCAHVVLSNRVAVSRKYLDAHRRRLQARRMS				NA	NA	NA	NA	NA
AK009_06284	1782			hypothetical protein	ATGGTCGGTCTTGATCGCCGCCGAGACGATGATGCGCTCACCGGCCACGCCGCGGCCCAGCACCTGGCGCAGCTCGTCGTAGCTGGCCACGTCCACGCCGTGGCCCGCGTCGCGCACCGCGTCGACGAAGACCAAGCCCTTGTTCGCCTTGCGCGCGAAGAACACTTTGACCTCTACCCCGCAGCGCTTGCCGGCCTCGACGAGCTCGTTGATGTTGGACTCCATCGGGCCGGGGTCGAGCACGTTGACTGGGCTGGCGTAGGTGTCCAGGAGGTCCTGGCAGGCCTCGGGGTTGGCGACCAGGTCGGCGGCCCAGTTTTCCGTTCGCGCGGTCAGCGGCGGGGCACCGTGGACGCGCCCGGGGTGCGCCATCGCGGCCGCGGAGACCCGGTCGGCCCACGCGGGGATGACCTCGTGCTTGTCGCGGCGCAGCGTGTCGTGGCCGAGGATCCAGCCCTCGTTCATCCGCCCGGCTGCGGCCAGGTGGGACTGGCCGTCGACCGTGCCGTCGCTCGCGACTTTCAGGCTCACGCCGTCGTAGGTGCCGGCGAGGCCCGCGGCCACGAGGTCGCCCACGAGCGTGCCCTCGACGACGCCCGGCGCGGCGGTGACCGAGTCGACCGTGACGCTGGCCCCGACCTCTTTCGCCAGCTCCGCGAGGTCCTCGTCGCCGCGGCTAAGGACGTCGGTACGCACGCGTCCGGCATCGATGGCGTCGACGAGATCGCTCGCCGTCTCGGGCGGAGGGCCGAACGCGACGCGCTCGAGAACACGGGTGAGCCGGTAGAAGCGCTGCCCGCCGAGCGTGTCGCGCCCGCCGAAGGAGGCGCGCTGGATGATCGCGGGGTAGAGCGCGCGCCAGACGTAGCCCACGGCCAGTGCCGCCGTCCACGGCCGCTCACCCGTGGCGGCGGCGAGAGAGGCGCGCAGCTCGGCTACCGCATCGCCGGTAAAATCCTCGCCCTCGATGACCACGCCCACGTCCCCGCTGCCGCCTTGGGCGTCGAGGACCACCCGCGCCGCCTCGGTGAGCACGGAGACAAACTCCTCGTAGGAGGCGCTGGTGGTGATCGCATCGCTGAAGCGGCCCAGGTCCGGTTCACACGCAGGATAGGCCTTGACCTCCATGAACCGCCCCGAGCGGGTCACGGGGAAAAACGCCCGCGCCGGCGCGTAGCGCACAACGTCCATAAACGACAGCGCCGCCCCGCGCACGAGGACCACGTCCTCGGGCGCAATCGCGTCGAGGTTGGTGTGGGGGTAGGCCGCGATCGCCCCGGCAACGGGTGTCGCCTCGGCGTGACCTGTGCACAGCAGGACTTCGTCGAAAAGCGAGCCGTGCACCGCGAAGCGGTCGCCGACCGCGACGAGCTCGGTGACTTTGAGGTCACGCACCTCGACCGTGCACCCGCGCGGGACGTGCTGGACAAGCGCCTGCCACGACTGCGACAGGAACCGCCCGACCTCGCGCCGCGGGGCGAACGGGTCGCTCGCGCCGCGCCACTCGTTGAAGGACCCGAGCCGCGTTTCAATCACATGGGCTGGGACGTTGAGCAGCCACTGCTGCGGCACCGTCGGCTGAAACGCCCCAGCACCACTCGCCGAATCCAGCGGCCCGTCGTTGAACACAGTCAGATCGATGCGCGCGCCGCGCTGGCGGGCGCGCTCCATCAGCTCCTCGGCCGCCCACAGCCCGCGCGGGCCTGCGCCGATGATCGCTACCTTCACTTTTGCCACTACCGTCCTCGGTTGATGTTGTGCGTCGTCTCGCAGATAGCTTAG	MVGLDRRRDDDALTGHAAAQHLAQLVVAGHVHAVARVAHRVDEDQALVRLAREEHFDLYPAALAGLDELVDVGLHRAGVEHVDWAGVGVQEVLAGLGVGDQVGGPVFRSRGQRRGTVDAPGVRHRGRGDPVGPRGDDLVLVAAQRVVAEDPALVHPPGCGQVGLAVDRAVARDFQAHAVVGAGEARGHEVAHERALDDARRGGDRVDRDAGPDLFRQLREVLVAAAKDVGTHASGIDGVDEIARRLGRRAERDALENTGEPVEALPAERVAPAEGGALDDRGVERAPDVAHGQCRRPRPLTRGGGERGAQLGYRIAGKILALDDHAHVPAAALGVEDHPRRLGEHGDKLLVGGAGGDRIAEAAQVRFTRRIGLDLHEPPRAGHGEKRPRRRVAHNVHKRQRRPAHEDHVLGRNRVEVGVGVGRDRPGNGCRLGVTCAQQDFVEKRAVHREAVADRDELGDFEVTHLDRAPARDVLDKRLPRLRQEPPDLAPRGERVARAAPLVEGPEPRFNHMGWDVEQPLLRHRRLKRPSTTRRIQRPVVEHSQIDARAALAGALHQLLGRPQPARACADDRYLHFCHYRPRLMLCVVSQIA				NA	NA	NA	NA	NA
AK009_06285	465			hypothetical protein	GTGGTAGGGGTACGTGGTGGTCAGCGGGTCGGCCTTCCACGTGAACGGCTCGGCGTAGCCGGCGCGCTGCGCCTCGATCGCCTCGAGGTAGTCCTTCCACTGCTCGGCGTCGTCGATGTAGCTCATGGGCACCCCGCCGCCGATGTCGATGAACTCGGGGGCGTGGCCTGCGGTGCGCAGGGAGTCGATAAGCTGCATGCACTCGCGGATGGTTGCGGATCGATCCGCCGCCGCGTAGCCGTGCAGGTGCGCGTGCACCCCGACGACGCGGACGTTCGGCTCGACCGTACTGAGGTGATCGGCCCAGTCGGTGAGGCGCTCGCCGAAGCGCGTCGGGGCCATGGTGGAGGGGTCCGGGGCGAGCCGCGGCGCGACGAGCGCTGTGTTCTCGCCGGCGAGAGCCACGACCCGGTCGTATTCGTCGCGGTTGTCCACAGAGATCACCGCGGAGCCCTCGATGGCTAG	MVGVRGGQRVGLPRERLGVAGALRLDRLEVVLPLLGVVDVAHGHPAADVDELGGVACGAQGVDKLHALADGCGSIRRRVAVQVRVHPDDADVRLDRTEVIGPVGEALAEARRGHGGGVRGEPRRDERCVLAGESHDPVVFVAVVHRDHRGALDG				NA	NA	NA	NA	NA
AK009_06286	141			hypothetical protein	GTGCATGAAGTAGCCGGCGGTATTCGGGATCGCGATGATATCGCCGGCCGAGACACCCTGCGGGAAGCGGATCCTGCGGCGCAGGATCACCTCGTCCTCGATGCAGTAGGCGCCGACGAGGAAGGCCTCGACCTCATCTGA	MHEVAGGIRDRDDIAGRDTLREADPAAQDHLVLDAVGADEEGLDLI				NA	NA	NA	NA	NA
AK009_06287	621			hypothetical protein	GTGGCCCTCCGGCGAGCTCGACGCCATCGACCAGCCCAGCTAGTTCTCGTGCGCCACGACGATCACGGTGCGCTGCGGCTTCGGCCCGGGCAGCGGCGAGTTGAGCAGCATGTGCGTCAGCGTCGCCGAGTCGTCGGGGGAGAGGTGGGCCGTGGGTTCGTCGAGAAGCAAAACGTCAGCGTCGCTGCACAGCGCGCGGGCAAGAAGCAGGCGGCGTCGCTGCCCCGCGGAGAGCGAATCGGCGCCGTTGTCCAGGACGAAGTCGAGCTCGAAGGGGAAGCCGACGGCGGTAAGGACTTGCGCGGCGAGGGCGTCGTCAAGCGAAGGCGTGCCCACACGCAGGTTCTCGCGCACCGATGTCGAGAACACCCACGCGTCCTCGGCGTAGAACCGAGCGTTCGCCGGGGCGAGCGCTTCACCCGAGGCGGCGGGGACGAGGCCCGCGAGCGTTTCCAGCATCGTCGTCTTGCCCGAGCCCGAGGGCCCGCGCACGAGCAGGCGCTCGCCGGGCTCGACGCGGAAGTTCCACACCGTATCGCCGTAGATGGTGCGCAGGTCGCGCGCCTCGACGGTGTCGGATTCCACGGGGCCGGCGACGGCGGCGCGCTGTGTGTTCACTAG	MALRRARRHRPAQLVLVRHDDHGALRLRPGQRRVEQHVRQRRRVVGGEVGRGFVEKQNVSVAAQRAGKKQAASLPRGERIGAVVQDEVELEGEADGGKDLRGEGVVKRRRAHTQVLAHRCREHPRVLGVEPSVRRGERFTRGGGDEARERFQHRRLARARGPAHEQALAGLDAEVPHRIAVDGAQVARLDGVGFHGAGDGGALCVH				NA	NA	NA	NA	NA
AK009_06288	144			hypothetical protein	GTGGCGGGCGGCCGCGGGCAGGGGCCCGTGCGACTCGAACGCCGCCAGCGACAGCATCACCAGCATGCCCAGCCAGGTCGGCTCCCCGCTGTAGGTGGCCACCGCGATCGCGGTCACTCCAAGCGCCGCCGCGCCCGTGGCTAG	MAGGRGQGPVRLERRQRQHHQHAQPGRLPAVGGHRDRGHSKRRRARG				NA	NA	NA	NA	NA
AK009_06289	399			hypothetical protein	TTGCGACGCCCGAGCGACGTCATCGACCAGCGCCTCAGCGCGACCGGCCGCGGCGAACTCCACGCGGTGCTGCAACACCTGGTCGAGGCCGACGGCGAATTCGGCGGATTTCTCCACCTCAAAGGCGCGGCGATACGAGCGCGCGGCGATGCGCGGCACCACGAACCCGGTCACGCAAAGCGCTGCTGCCATCACCAGCGCGGCCGGCGGGCTCAGCCACGCCGCGAGCGCAAGTGCGGCGATCGAGACCACCACCGCAACGAGGCGGGGGATGTGGCTGCGCACCAGAAAGTCCGTGACCCGCTCGGTGTCGTCGACCACGTAGACGTGGCCCTGTCCGCGCGAGGTCGCAGCGGACGAGGCCAGCGCGTCGTAGACTTTCGCGCGCAGCTCGCTTAG	MRRPSDVIDQRLSATGRGELHAVLQHLVEADGEFGGFLHLKGAAIRARGDARHHEPGHAKRCCHHQRGRRAQPRRERKCGDRDHHRNEAGDVAAHQKVRDPLGVVDHVDVALSARGRSGRGQRVVDFRAQLA				NA	NA	NA	NA	NA
AK009_06290	570			hypothetical protein	GTGGCTGGCGACCAGTACCGTGCGCCCGCGCTCGGCCGCGTCGCGGATCGCGTCGAGCACCTCGGCGACGCGCTCGGGGGAGAGGTGCGCGGTGGGTTCGTCGAGAAGCAAAATCGGCGCGGGCGAGGCAAGGGTGCGGGTCAAGCCGATCAGTTGCAGCTCGCCCGCGGAGACGCCGCGCGAGGCGGGGTCGATGAAGCGCTCGGGTCCGACCGTCGGGGCCAGCGGGGTGGGTCTGACGGGCGCGCCGAAGAGCTCGAGGTTCTCGCGCACCGTGCCGGGCACCGTCGCGGGCCGCGCCGCGAGGAAGGCCACCTCGCCGCCCACGGCGATGCGCCCGCTGACGTCGGCATCGGGCAGCGCGCCGAGCACGGCGAGGAAGGTCGTGGACTTGCCCGTCCCGTTCGGCCCGCGCAGCACGGTGACCTCGCCGGGGTGGGCACGGAACGACAGGTTGTGCGGCAGCGTGCCGTCGCGCCCGGTAACGCTCAGGCTGTCTACCTCCACGCCGGACCGAGCAGGCGTGAGGTAGGAGCCAGCGGTGGCGGTGGGGGCGTCGATAAGCGATAG	MAGDQYRAPALGRVADRVEHLGDALGGEVRGGFVEKQNRRGRGKGAGQADQLQLARGDAARGGVDEALGSDRRGQRGGSDGRAEELEVLAHRAGHRRGPRREEGHLAAHGDAPADVGIGQRAEHGEEGRGLARPVRPAQHGDLAGVGTERQVVRQRAVAPGNAQAVYLHAGPSRREVGASGGGGGVDKR				NA	NA	NA	NA	NA
AK009_06291	582			hypothetical protein	GTGGCGCCACGTGCTCACCCGCGGCATGGACGACTTCAGGCCCTACCTCACCGATTTCCTGCCCTCGCTGGTCGCAGGGGTGATCGCAACGCCGATTGCGCTGGTCGCGGTGTTCTCCTTCGACGTCGTCGCCGGTGTCTTCGCGCTGGTCACCCTGCCGCTGATCCCGGCGTTTATGGTGCTCATCGGCACGCTCACCGCCGCGCGCACGGAGCAGCGTCTGCGTGTTTCCACCGCGCTCGGCCACCAGATTGCGGACTTGCTGCGTGGAGCGCCGACGCTGCGCGCGATGCAGGCGTCGACACGCCCGGGCGAGCACATCCGCGACGCCGGTGCGCGGCACGCGGCCTCCACGATGGGCGTTTTGCGCCTGGCGTTCCTGTCGTCGTTCGCGCTCGAGTTCCTGGCCACGCTGTCCGTCGCGCTGGTCGCGGTGAGTATCGGCCTGCGCCTGGTCTACGGCGACATCAGCCTGCTCGCCGGCCTAGTCGTGCTCATCGTGGTGCCCGAGGTGTTCAACCCCGTGCGCAAGGTCGGCGCGAACTACCACGCCGCCGCCGACGGGCTCGAGGCGGTGGATAA	MAPRAHPRHGRLQALPHRFPALAGRRGDRNADCAGRGVLLRRRRRCLRAGHPAADPGVYGAHRHAHRRAHGAASACFHRARPPDCGLAAWSADAARDAGVDTPGRAHPRRRCAARGLHDGRFAPGVPVVVRARVPGHAVRRAGRGEYRPAPGLRRHQPARRPSRAHRGARGVQPRAQGRRELPRRRRRARGGG				NA	NA	NA	NA	NA
AK009_06292	534			hypothetical protein	ATGCGAAACAACGAAACTTTCACCAGCGCACAGTCGCACGGCTTACGGGTAGTCGTACCCGCCCTTCGAGCGCAGTCCGCGCCGCGACGGAGCCTTCTGGTACGGCCACATCGGCATGTGGACCGCGGCCTCGACGGCTGCAACGGTGTCGGCAGACGGCCACACGTCACCCGTGACCCAGCGCGAGAGCACCGAGGGGTGCAACCCGCACCTGCGGGCGAAGTCCGACCGGTTTTTCGCCCAACCCTCGGCAACGTAGTACTCGACCGTTTTTACGAGGTTGTCCCGCAGTGTCCAGGCTTTGCGGTAGACCTCTGGCACCGTCTCGACGTCCACGTCGGGCCACGTTTCGTATGCGCGTCGCGGTGGAGGGAACTGTGCCATGACTGCCACGCTACAGCCCTTCAGTGGCGAACCGTAGTGCAAACATTAGGCGGGGGTACCGGCTTTGCCCTTGTATCTGCTTCCGCCGCGCACCCCGCCTCGTTTACCCGTTGCGAGTTCCGCCCCGAGACCCGAGGCGGTGCAGCATGA	MRNNETFTSAQSHGLRVVVPALRAQSAPRRSLLVRPHRHVDRGLDGCNGVGRRPHVTRDPAREHRGVQPAPAGEVRPVFRPTLGNVVLDRFYEVVPQCPGFAVDLWHRLDVHVGPRFVCASRWRELCHDCHATALQWRTVVQTLGGGTGFALVSASAAHPASFTRCEFRPETRGGAA				NA	NA	NA	NA	NA
AK009_06293	1278			hypothetical protein	ATGACACTGACCAACCAGCAGCGCGAAGAAGTCTTGTGCCGTATTGAAAACTACGCCCCTCAAGGCACCGACGACGGCGCGTGGGAACACATTGCTCACTTCGTCCGCGAGACCGCGAAGAAGGCGACCGTCGAGTCGGAAACCGGGTCGAAGGTGTTCGTTGCGGAACGGAAGTCGAGCGTCGACGTTCGTGGTGTACTGCGTGTGCTGACCCGAGCCTCCGCGAGGGCGTTCAACTCCGGGCGTGCGCTCACCGTTGACTCGGTGCTCAGCGACGCGAACGTCTCAGCGATACTCGCAACCTTGAAGTCGAGGAACTCAGTTTCTCAAGAAGCCTACCTCTACCGGCTCGTGCGCGAGGCGCTCAACGGCCAGGAGTTGTCGTTGTACCACCGACGGGACATCGAAAAGCCGCCGGCACAGCCGTACGAGCCGAACGACTGGCAGCGCCTGCACCACTGGGTCGTTTCACAGTCCACCGAGCTTCGCCGGGAGCGGGCGGCCGTTATTGTCGGCCTCGGCTTAGGGGCCGGCATTGGCCAGGAGGTTGCGCTGGTCAAAGCCCGTGACGTCACCCTCGACTTAAACGGCGTGGTGTGGGTTGCGGTACCGCACCGTGTCGCTGAGGGCGCGGCGACCGCCATTCCGGTGGCGGCGGCGCTTGCTCGAAGTGTGTGGGAAGTGGCGCAAAAGCGTGACCCCGACGAGTTGCTGCTCGGTGGCGCAGAGAGCGACGTTCGCGAAATTACGAAACGGTTGAACCTGAATCGTTCGTTCAGGGTCGAACTCGACAGGTTGCGTGCGACGTGGGTACGTGAGGTGGTGCGCCACTTACCGCGTGAGACTGCGGCGGCCGCGGTGGGCACCGACATTCGTAGCTTTCGACGCCTTGAGAAAACCGCGCGTCTTGACCCGGCGAAGCCGGACTCGCTTGCCGACAGGCTCGACGTGTTGGCAGACCCGCTTCGAGACTGGCCGGCATTGCGGTTGTCTGAGGCCGCACCTGTGGCTGACGTGGAGGAAGGCACCGGTTCCGCCCCGGTCTCCGACGCAGTGGTCGTGACGCTTCCCGGCACGGCCAGCAACAACACGGACGAGGTCGAACCGGAGCGTGAAACCGAGACACCAGAGCCACAGACCGCCGTTGCTTCTTTGGACGCCCACCGACACAAGCAGGCACCCCGCTCAATTTCGAGCAAACTGCCTGCCCCCGAAGAGGGTCGTCTTACTGACTTTGCCCGCGGACCGAACCCCGGTACGGGCCGTCGGGGGTGGTAG	MTLTNQQREEVLCRIENYAPQGTDDGAWEHIAHFVRETAKKATVESETGSKVFVAERKSSVDVRGVLRVLTRASARAFNSGRALTVDSVLSDANVSAILATLKSRNSVSQEAYLYRLVREALNGQELSLYHRRDIEKPPAQPYEPNDWQRLHHWVVSQSTELRRERAAVIVGLGLGAGIGQEVALVKARDVTLDLNGVVWVAVPHRVAEGAATAIPVAAALARSVWEVAQKRDPDELLLGGAESDVREITKRLNLNRSFRVELDRLRATWVREVVRHLPRETAAAAVGTDIRSFRRLEKTARLDPAKPDSLADRLDVLADPLRDWPALRLSEAAPVADVEEGTGSAPVSDAVVVTLPGTASNNTDEVEPERETETPEPQTAVASLDAHRHKQAPRSISSKLPAPEEGRLTDFARGPNPGTGRRGW				NA	NA	NA	NA	NA
AK009_06294	1185			hypothetical protein	ATGTTGACCTGCGAAATTGCGGTGTTTGTCCAGGCAGAACGTTCGGGCACGAGCCATTGGTGTGTGCATGTTTGCATGTTGTGGACCTTGACGACGTGTGCAAATTTGCACACACTGGGGCTAACTCTTTCCACCATAGGAGTAGCCCACGCCACCACCACCTTGCGTGTGGGCGGACAAGGACAAGCGAATATGCCCACCACAACCACTCGCAATAACCCTCACCAGGTCATTGCGGCTTACACCCCGAAAGTTGTCGAACCTCACGAGTGGGACGTTGTCGCACCGTTCGTGCGCGAGCACGTCGCCGCTGTCGCCAGTGCCGACTGGTCGGCTGACCAGTGCCGAAACGCACTTCGACTCGTGACCCGACTCGCGGTGCATGTCTTCAACGCTGGGCGAGACGTCAGCGTTGCAGCCGTGTTTAGCGAGGGTGCGATCAACGCGTTCTGCCACCAGGAACTCGACACTGCTGCAACACACGTCAGAGGAACCTCGCGGGCGACGCTTCGGCGCATCGCCAAGCAGGTCAACCCGAACTTCGACGGACCGCGTCAGCGTCCCGAGTACGGCAACGAGTCGAAGGCCGCGCCGTATACCGAAGCGGAAGTGCTCGACGTGAAGGTGTGGGCGAACGCCGAACACACCGAGTCTCGTCGCCAGCAGGCGAACCTGCTGCTTGCACTTGCACTTGGCGCAGGGCTTCGCTCCGGCGAGGTCGCAAACCTCACGGCCGGCGACGTGGAGACTGATGCAGAAGGCACCGTGGTCTACCCGTGGGGCTACCGCGGGGCGAACAAACGGTTCGTGCCTGTCGAGAGCGAGTGGGCAGGCGTTGTCGCTCAGGCCGTCGAGAACGCAGCAAGCCGTACAGAGTGGCTGTTTCGGCCAATGCGGACAACCGCCGATTCGGGCACCGTTGCGACGTTTACGAAACGCTCTCCGCACCGGGGCACCGTGCTCGACATGGCCCGGGCGCGGACGACGTGGCTTGTCAACCAAGTCAAAAAGGGCGTGCCGGAGACCGCAGTCGTTGAGGCAGCGGGGTTGACCGACTTGCAGCACTACCGGCAGTTCTTAGTCGAACCGACACACGTTTCGGCACGCGAGGCGAGAAGCCTGCTTTCCGGGACGTTGCACGAGACGCCGAAGCGAGGGCTGACGCTCATTCACGGCAGCGCGTAG	MLTCEIAVFVQAERSGTSHWCVHVCMLWTLTTCANLHTLGLTLSTIGVAHATTTLRVGGQGQANMPTTTTRNNPHQVIAAYTPKVVEPHEWDVVAPFVREHVAAVASADWSADQCRNALRLVTRLAVHVFNAGRDVSVAAVFSEGAINAFCHQELDTAATHVRGTSRATLRRIAKQVNPNFDGPRQRPEYGNESKAAPYTEAEVLDVKVWANAEHTESRRQQANLLLALALGAGLRSGEVANLTAGDVETDAEGTVVYPWGYRGANKRFVPVESEWAGVVAQAVENAASRTEWLFRPMRTTADSGTVATFTKRSPHRGTVLDMARARTTWLVNQVKKGVPETAVVEAAGLTDLQHYRQFLVEPTHVSAREARSLLSGTLHETPKRGLTLIHGSA				NA	NA	NA	NA	NA
AK009_06295	456			hypothetical protein	ATGTCGAAGGGACTTCGCACACGCAAATACGCACCCGCGAAGAAAGGCCACCGCCACAACATTCGCCTGGTGGAGGAGCGCCGCGTGTCCTACGCCAATTTGCAGTTGGCCCAGCGCATTGTTGACACCTCCGGCGCGGTTGGTCTCGTGGACTCCTGGCGCGTCGCTGACGGGCTGAAAACCGACAAGGGCGGCCGCCCGCCTGAGGTGGACACCCGCGCGGCGCTGACGCTGTGGACCTACCAGGCAGTCACACAGTCGCCACAGCTCATTGCCCACATGGCAAAGGCCGTCGCCTTCGGCTTAGAGGGCAAGGGCTGGGAACTTCTGGGGCTCACCCCATTCGACTGGGACGAAGCCGACCCGAAGGCGCATTTCGACACCTACATGACCTGGTACAAGCGCATTGCTGCCTGCCTCGACCGCGTTCGCGCGACCATTGAGCCCTTCCCGTGA	MSKGLRTRKYAPAKKGHRHNIRLVEERRVSYANLQLAQRIVDTSGAVGLVDSWRVADGLKTDKGGRPPEVDTRAALTLWTYQAVTQSPQLIAHMAKAVAFGLEGKGWELLGLTPFDWDEADPKAHFDTYMTWYKRIAACLDRVRATIEPFP				NA	NA	NA	NA	NA
AK009_06296	438			hypothetical protein	GTGCGTTGCAGTCTTCTTCGTGTTCTCGCCGTCGTGGTCGCCTTCTTTGGCGTGCCAGCCGAGCGTCGGGGTCGAAGCGACAAGGCGGTGCTTGCCGGCCTTGCCAGAGAGCATGTCCTTCTTGTTCGGGTTGCCGTTTTTGGACACCGGAATAATGGTGCCGTCAACGGCAATGTCGCCGTTCCACTTGGCGAAGGCCTCGGGGTCCATGAGTTCCACAGTCGCCCACACAAGGCGGTTGGTGAGCTCGACGCCGCGGGCCTTTCGCTCCTCGACGCGGGCGAGAACTTCCTTCTTGCCCTTCTCTTCGTCGTAGTACGCAATGAAGGGCACCCACTCCTCGACGGTGTAGCGCTTCTTCTTGCTCACGGGAAGGGCTCAATGGTCGCGCGAACGCGGTCGAGGCAGGCAGCAATGCGCTTGTACCAGGTCATGTAG	MRCSLLRVLAVVVAFFGVPAERRGRSDKAVLAGLAREHVLLVRVAVFGHRNNGAVNGNVAVPLGEGLGVHEFHSRPHKAVGELDAAGLSLLDAGENFLLALLFVVVRNEGHPLLDGVALLLAHGKGSMVARTRSRQAAMRLYQVM				NA	NA	NA	NA	NA
AK009_06297	912			hypothetical protein	GTGGCCTGTGGAGGCTTATGCCGCCTTCGGTGGCGCGTTGTCGCCCAACTTCCATTGCTCAATGTCGTCCGAGCTGGGCTTGCGGCCGCCCCGCGGCGGTGGCGGAGTCGGCTTCTGACCCGTGTGCGGGCGAGACCAGGCAGCAGCGTCGAGCCTGGCGAGGTTCACCCCCGCCGCGGCCATGGCCATGCACAGCATTTGCGCTGCCCAGCCACGCATAAGACGGGTCGTCACGTCGCCGGCACCCTGGTAGGAACCGTTCTTGAGCATGGCGTTGCGCGACTCAATGGTGTTGCGGCGGCCGTACTCTTTACGCCACTCGGCGGTCATAAAAGCCGGACCGTGTTGAAGGAACTTCGCACCGTCCTCGGCGGTGTTCTTCAGCGTCACGGTGCGCTGCTGGCAGACCTTCGGGCAGGAAGCCTTGGAGGGCACCTCGGCAGCAGTCAGCTCGTCCTTCTGGAACCCTGCCTTCTTCTTGCCTTCCTCGGCAGGCGGAACCAGCGGACAGGTAATTTCTGCACCCTCCGCACGCGCCGGACAACCCAGTCGCACGTCGCCCTTCTTGTTCGGCTTCGTACCGTAGCGAGCGAGCGCGAGGCGCTTGCGAGCCTGAAGCAGGTTCGAGAACTGCTGGTCGGTCAGTTGCCCCTTTTCCCACGCGGTGTAGGGGTCGAGCAGACGCGGCATGTTCAGAATTGCAGGACAGTACGCGGTGCCGTCCACAATGGGGGCACCAGACGTCGTAATGGTCTGGACACCACGGGTGTCCCGGCGCATGTCAGCGACAAACCCGTAGCCGAGTTTGCGCATAGGCATTTGGAACTTCACCGGGTTCTGACCCGGCGAGTAGAGCCGGTCGGCAATGAAGTGCCGGCGCGGGAGTTCCGGGCGGTCGGTGAGGTTCTTTAG	MACGGLCRLRWRVVAQLPLLNVVRAGLAAAPRRWRSRLLTRVRARPGSSVEPGEVHPRRGHGHAQHLRCPATHKTGRHVAGTLVGTVLEHGVARLNGVAAAVLFTPLGGHKSRTVLKELRTVLGGVLQRHGALLADLRAGSLGGHLGSSQLVLLEPCLLLAFLGRRNQRTGNFCTLRTRRTTQSHVALLVRLRTVASEREALASLKQVRELLVGQLPLFPRGVGVEQTRHVQNCRTVRGAVHNGGTRRRNGLDTTGVPAHVSDKPVAEFAHRHLELHRVLTRRVEPVGNEVPAREFRAVGEVL				NA	NA	NA	NA	NA
AK009_06299	246			hypothetical protein	GTGCGTGCCGTCGGCAAAACGCACGGTGGGCACGATCCTGTTGCCGTTGTTGACGGAGGCGACCCAGTCAGACAGCTCGGCGTTCTTCGGGTCGTCGACGTCGACGACCTCGTAGTCGACCTCGGTGCGCTTGAGCCCGCCGAACAGGACGCGGCAGTAGGGGCACCAGCTGGTGGCGTAGACGGTGACGGGGGAGGTCATGTTAGGTCCTTTCAAAGCGTTGGAAGCGGTAGCGCAGGCCGGTAG	MRAVGKTHGGHDPVAVVDGGDPVRQLGVLRVVDVDDLVVDLGALEPAEQDAAVGAPAGGVDGDGGGHVRSFQSVGSGSAGR				NA	NA	NA	NA	NA
AK009_06300	132			hypothetical protein	GTGGGCGTCGATAAGCGTGCGCTCGATGACGTCGACCTCGTCGATGGTGGCCTCGTAGAGCTGGGCGCCGCCGATGATCCAGGCGTCGGTTTCAATGTCCGGCAGGTCGCGGGAGACGAACGCACCGTTTGA	MGVDKRALDDVDLVDGGLVELGAADDPGVGFNVRQVAGDERTV				NA	NA	NA	NA	NA
AK009_06301	186			hypothetical protein	ATGGTTGGGGCGCCCCGGCAGTGGTCGCTTCGGCAGCGCCTCCCACGTGCGCCGGCCCATGATGATCGGGTGGCCGAAGGTGATCTCCTTGAAATGCTTCAGGTCCTCCGGCAGGTGCCAGGGCATGCCGGCGCCGTCACCGATCACCCCGTCGAGGCATTGCGCCCAGATTGCGCCGAGCACTAG	MVGAPRQWSLRQRLPRAPAHDDRVAEGDLLEMLQVLRQVPGHAGAVTDHPVEALRPDCAEH				NA	NA	NA	NA	NA
AK009_06302	330			hypothetical protein	TTGCGCCGAGCACTAGACCGACACCTTCGCGGTGATCGCCGGGTGCGGGTCGTACCCAGAAACGGCGATGTCGGCAAAGGAGTACTCGAACAGGCTCGGTGCCTTGGTCAGCTCGAGCTGCGGGTACGGCCTCGGCTCGCGCGACAGCTGCTCTTTGACCTGCTCGATGTGGTTGTTGTAGATGTGGCAATCGCCTCCGGTCCAGATCAGCTCGCCGACCTTAAGTCCCGTCTGCTGGGCGAACATGTGGGTCAGCAGCGCGTACGAGGCGATGTTGAACGGCACGCCCAAAAACATGTCGGCGGAGCGCTGGTAGACCTGCATGCTTAA	MRRALDRHLRGDRRVRVVPRNGDVGKGVLEQARCLGQLELRVRPRLARQLLFDLLDVVVVDVAIASGPDQLADLKSRLLGEHVGQQRVRGDVERHAQKHVGGALVDLHA				NA	NA	NA	NA	NA
AK009_06303	459			hypothetical protein	GTGGCACGGCATCAGCGCCATTTTGTCCAGCTCGGAGACGTTCCACGCCGAGACGAGGTTGCGGCGCGACTCGGGGTCGTCGCGAAGCAGGCGCAGCGACTCGGAGATCTGGTCGATGTGGCGCCCGTCCGGGGTCGGCCACGAACGCCACTGCACGCCGTAGACGGGGCCGAGCTCGCCGTCCTCATCCGCCCACTCGTTCCAGATGCGGATGTTGTTGTCCTGAAGCCAGGTCACGTTCGACTCGCCGCGCAGGAACCACAGCAGCTCGCCGACAACGCCCTTGAAGTAAACCTTCTTGGTGGTCAGCAGCGGAAACGCACTGGAGAGGTCGTAGCGCAGCTGGCGACCGAAAACGCTAAGCGTCCCGGTGCCCGTTCGGTCGCCCTTAGCCGAGCCGTTGTCCAGGATGTCGCGCAGCAAATTTTCATAGGGGGCGGGCACAGTCATGTGCAGTGA	MARHQRHFVQLGDVPRRDEVAARLGVVAKQAQRLGDLVDVAPVRGRPRTPLHAVDGAELAVLIRPLVPDADVVVLKPGHVRLAAQEPQQLADNALEVNLLGGQQRKRTGEVVAQLATENAKRPGARSVALSRAVVQDVAQQIFIGGGHSHVQ				NA	NA	NA	NA	NA
AK009_06304	114			hypothetical protein	GTGACCTTAATGGGTTCGCTACTTGCCAGCAAGGCCATCGAAGGAGCCGTGCTGCTCGAGGTACTCGGCGCAGGCTTTGAGGATGTCCTCGGCCAGCTCAGGGCGGCAGATTAG	MTLMGSLLASKAIEGAVLLEVLGAGFEDVLGQLRAAD				NA	NA	NA	NA	NA
AK009_06305	663			hypothetical protein	GTGCAACCCCGCGGCAATCGACACCCCGACGGGTGCGGCCTGGTCCCATTCGTACTGGCCGCCGGCGTGGATGTAGGCGTCGTAGTCACCCAGCAGCACGTGCATCGCCTTCGCCCCGGCGGAACCGACCCCGACGGTTTCGAAGCCGAGCTTGTCGGCGACGAACTGCGCCACCTCCGGCGGGCGGTTGCGCGACAGCGCGATGCGGCGCGACAGGGGTCCCGAGACGTGGCGCACGTCGGAGGACTTGAACACCACACCGAGGTCGGGGAGGCCGACGGCCGCGTGGGTGGGCACGCCGTTTTCCACCAGCGCGACGTGGACGGCCCAGTCCTGGCGGCCGGTGGCGAACTCCTTGGTGCCGTCGAGCGGGTCGACGATCCAGACGCGCTCCTTGTCCAGTCGCTCGGAGTTGTCGGCGGCCTCCTCGGAGAGGAAGCCGTCGTCAGGCCGGTGCTGGGCGAGCACGCGGGCGATCCAGTTCTGGGCGAGGTCGTCGCCCGCCTCGCCGAGTTCGCGGCCGCGGAGCAGCCCGACGCCGCGGATCCCCTTGAGGATCTCGCCCGTACCCTGGGCGATGAGGTTGGTCAGACGCGAGTCGGAGTGCTGGGAGTCCGGTACAGTCATGGCCCAAACATTACCCGGTTAAAGTGTTGCGCATGA	MQPRGNRHPDGCGLVPFVLAAGVDVGVVVTQQHVHRLRPGGTDPDGFEAELVGDELRHLRRAVARQRDAARQGSRDVAHVGGLEHHTEVGEADGRVGGHAVFHQRDVDGPVLAAGGELLGAVERVDDPDALLVQSLGVVGGLLGEEAVVRPVLGEHAGDPVLGEVVARLAEFAAAEQPDAADPLEDLARTLGDEVGQTRVGVLGVRYSHGPNITRLKCCA				NA	NA	NA	NA	NA
AK009_06306	609			hypothetical protein	GTGCACGCCGCGTTTCGTTCCCGCCAGGGCGTGGATCTCGTCGACGATGACGGTGTCGACTGTTTTGAGGATTCCGGCGGTCTTCGACGTGAGCATGAGGTAGAGCGACTCGGGCGTGGTGATCAGGATGTCCGGGGGCTTGCGCACCTGCCTATTGCGCTCCGCCTGCGGGGTATCGCCCGAGCGCACGCCCACCGAAATGTCCGGGGTGTCCAGGCCCATGCGCTGCGCCACGCGCGCGATGCCGCCGAGCGGGGCGCGCAGGTTGTTCTCCACGTCCACACCCAACGCCTTGAGCGGGGAGATGTAGAGCACCTTGACCCCGCCGTGGGTGGAGCGCGTCGAGCCGTCGATAGGCAGCGCCTGCTGGCCCGCACGCTCCACCAGCGAGTTGAGCGACCAGAGGAACGCGGCGAGCGTCTTACCGGAGCCGGTCGGCGCGACAACAAGGGCGTTCTCGCCTGCGGAGATCGTGCGCCACGCCCCCTCCTGGACCGCGGTCGGGTCTGCAAACACCTCGGAAAACCACGTTGCCACCTGGGGGTGGAAACGGTCCAAAACGCTTGCAGTCATGCGCAACACTTTAACCGGGTAATGTTTGGGCCATGA	MHAAFRSRQGVDLVDDDGVDCFEDSGGLRREHEVERLGRGDQDVRGLAHLPIALRLRGIARAHAHRNVRGVQAHALRHARDAAERGAQVVLHVHTQRLERGDVEHLDPAVGGARRAVDRQRLLARTLHQRVERPEERGERLTGAGRRDNKGVLACGDRAPRPLLDRGRVCKHLGKPRCHLGVETVQNACSHAQHFNRVMFGP				NA	NA	NA	NA	NA
AK009_06307	384			hypothetical protein	GTGCTCAATCGCCCACAGCTCGTTGAGCTGGCTGGTCAGGCGCTCGGCGGTGCGCCGCGAGTTGACAAAGACGATGGTCGAGCGGTGCGCCATCACCTTGTCGTACACCGCGCGCTCGATATGGGGCCAGATGCTTTTCGACGCCCCCACCGGCGCCGGGTCCAGCAAGTCATCTACGATCGCCTCGCCAATCGTCGACGCCTCCTCCGGCACGGGCAGATCACTCATGTCCTCGACGGGAACGTGCACGTCAAGCGACCATTTCTTCTCCGCCGGTGGGTTGACAATCGTGGTCTTCGGGCCGAGGAAGTTCGCGACCTCCTCCAGCGGGCGCACCGTGGCGGAAAGGCCGATGCGCTGGAACGGTCCCGTGATGCGGCGTAA	MLNRPQLVELAGQALGGAPRVDKDDGRAVRHHLVVHRALDMGPDAFRRPHRRRVQQVIYDRLANRRRLLRHGQITHVLDGNVHVKRPFLLRRWVDNRGLRAEEVRDLLQRAHRGGKADALERSRDAA				NA	NA	NA	NA	NA
AK009_06308	687			hypothetical protein	GTGACCCGGCGCGGGCGTGACCTGCACCTGGTCGCGGGTGATGTTCTCGATGCGCCAGCTCGACGCTCCGAGGGTAAACACGTCGCCGACGCGCGACTCGTAGACCATCTCCTCGTCGAGCTCGCCGACGCGACGCGGCGCGGATCCCTCTCCCCCGCCGACGAGGAACACCCCGAACATGCCGCGGTCCGGGATCGTGCCGGCGTTGGTCACCGCCACGCGCTGCGCGCCGGGGCGGGCTTTCAGCACCGCGCCGTCGAGGATCGCGCGGGGCCGAAGCTCCGCGAAGTCCGTCGATGGGTACACGCCCACGACCAGATCAATCACCGCGTCGAACACGTCTCGCGACAGGTTGCGGTACGGCCAGGCGCCGCGCACGGTATCAAACCACTCGTCGACGTCGAGGTCCTCGACGGAGACCGCGGCGATCGTCTGCTGCGTCAACACGTCGAGCGGGGACAGGGGCGTGCGCAGCTCCTCGATCTGGCCGGCGCGCATGCGTGGCACCGTCACCGCCGTCTGCACGAGGTCGGAGCGGTGCTTCGGGTAGAACGCGCCGGCGGAGGTTTCGCCAACGGAGTGCCCGGCGCGGCCGACGCGCTGCAGGCCGGAGGCCACCGACGGCGGCGACTCCACCTGAATCACCAGGTCAACCGCGCCCATGTCGATGCCGAGCTCGAGCGATGA	MTRRGRDLHLVAGDVLDAPARRSEGKHVADARLVDHLLVELADATRRGSLSPADEEHPEHAAVRDRAGVGHRHALRAGAGFQHRAVEDRAGPKLREVRRWVHAHDQINHRVEHVSRQVAVRPGAAHGIKPLVDVEVLDGDRGDRLLRQHVERGQGRAQLLDLAGAHAWHRHRRLHEVGAVLRVERAGGGFANGVPGAADALQAGGHRRRRLHLNHQVNRAHVDAELER				NA	NA	NA	NA	NA
AK009_06309	198			hypothetical protein	GTGCAGCACAACGCGCCAATCACCCAGCTCGTCGGTGAATCGCTCGAGCACCAGCGTGGTGTCGTCCGGGATGATGCCGGTGGCCTCCTCCTGCTCGTCGAGGTAGGCAATCAGGTTGCGGCGCGCGAACTCATCGAGCGAGGCGTCGAGCGGGCCCGAGCGTGCTTGACGACGAAACTCCCCCAACGCCTTGCCTAG	MQHNAPITQLVGESLEHQRGVVRDDAGGLLLLVEVGNQVAARELIERGVERARACLTTKLPQRLA				NA	NA	NA	NA	NA
AK009_06310	756			hypothetical protein	GTGCGACTCCCACGCAGAGGCGGGCAGCCGCACCCCGGCGAGCTGCTCCAATACCGTGTACACCCCGTCGGCGCCACGCAGCGTCGCGACCTGGCCCGCCGGCGCGACGTGCGACCAGCTCGGCAAGAAGCGCCCAAACGCGGACTGGGACACGGGCCGGGTCTGCGCGCGCGCCGCGGCCAGGGAGCGCGAACGGATGATGCGCAGCACCTCCGCCGCCACGTACTCCTGCTCGGACACGCCCTGGCGGTAGCGGCCCTCGATCACCTTGCCCGCGTCCACCAGCGGCGCCAGCGCGGAGTAGGCCGCACCGACCGCGAGGCCGAAGGCGTCGGCAAGCTCGCGCAGCACGAACGGCCCACGAGTGCGCACCCACCTGCTCACCAGCTGCGCGAGCGCGTCGTTGATGGTTGCGACCTGCGCCGCCACCCCGGGCGGAACTGGCACGCCGAGGCCGTCGCGCAACAGCGGCGCGTCGAGCGCCTGGGCGATGTGGCTGCGCCCGCCGATGCGCACCCGCATCACGCGCGCGCCCAACGCCTCCTCGAGCGAGACCAGCGGGACAGACGTGTAGGAATCGAGCTCATCGAGCGGCACCGGGCCGACGATGCGCAGGGTGTCGGCGAACTGCTCAGAGGTCTGCGCCTTGCCCACCCGGCGCAGCGAGGCATCCACCTCGGCGATGATGTCGGCGTCGAGAAGCTCGCGCAGCTCGACGGTGCCCAGCAGCTTCGCAAGCAGCGACGGGTCGAGTGA	MRLPRRGGQPHPGELLQYRVHPVGATQRRDLARRRDVRPARQEAPKRGLGHGPGLRARRGQGARTDDAQHLRRHVLLLGHALAVAALDHLARVHQRRQRGVGRTDREAEGVGKLAQHERPTSAHPPAHQLRERVVDGCDLRRHPGRNWHAEAVAQQRRVERLGDVAAPADAHPHHARAQRLLERDQRDRRVGIELIERHRADDAQGVGELLRGLRLAHPAQRGIHLGDDVGVEKLAQLDGAQQLRKQRRVE				NA	NA	NA	NA	NA
AK009_06311	543			hypothetical protein	ATGCTCGAAAAAGGTGGTCATGGTCTTGCCGCCGCGGGTGATGTGCGCGGCGAGGAGGCCGTCGATAAGCACGACCATAGCTCCGGCAGAGCGCGTCGGCCCCTGGGCGGGCCACGGCAGCGCGGCACCGTAGGGGTTGGCCGGGTCGGTGGCGGCGAGGACGTACACCAGCGGCTCGCGGGTGCCCGAGGGCCACCCCACCACATCGTCGGAATCCTGGTGCCCGCGCAGGCGGTCAATCGTTGCGGGTGTGGAAAACTGCGACGCACCGAGGCCCTCGATGAGGTAGCCGCGCATCGCCTTGCCGGACTCCTCGAAGCCAGAGAGCACCTTGTACGCCAGGGCGAAGCCGCCGAGCACGTCCTCGGCAACGACGCTGCCGCGCGTGACCACGCCGTAGCGGTCGAGCCACGCCTCGCCGAACGCAACCGAGCGGCGGGTCGCATCGGTATCCACGCCCGGCGTGGCGGCCCAGCGGCCCACCATGTCCGGCGGAGTCAGCGTGGCAAAGGAGGTGCGCCCGGTGCGCACCCGCGAACGTGA	MLEKGGHGLAAAGDVRGEEAVDKHDHSSGRARRPLGGPRQRGTVGVGRVGGGEDVHQRLAGARGPPHHIVGILVPAQAVNRCGCGKLRRTEALDEVAAHRLAGLLEAREHLVRQGEAAEHVLGNDAAARDHAVAVEPRLAERNRAAGRIGIHARRGGPAAHHVRRSQRGKGGAPGAHPRT				NA	NA	NA	NA	NA
AK009_06312	402			hypothetical protein	TTGGCCGAAGAGGCGGACGAGGCGCTTCGCGTTGTTGTCCAAGCCGAATGCGTCGTGGCGCTCGGCGTACTGGCCGATGTTTCCCGGGTAGATCGCGGTGTAGAACGTCGCCAGCGCGATGCCCGTCTGGCGGTAGCGCTTGGGAAGGGCGAGCAGGGATGCGCCGAGGGCTATTTCGGCGAGGCCGGAACCAAGGACGACGAGGTCCTTGTCCATTGGGAACCAGTCCGGGACCTGAGCCCGGAAATCCTGGCGTGCAAAAGTGAGGTGGCTGATACCCGCGAAGCTCATGAACGCACCGAGGGCGTAGCGGGTCATCCGCTGAGATTGGCTGGGTTTACGGGACATATGCGTTACCTCCGGGTACGCAAGTTAAAGCGACTGATAGTACGAGGGAGATAG	MAEEADEALRVVVQAECVVALGVLADVSRVDRGVERRQRDARLAVALGKGEQGCAEGYFGEAGTKDDEVLVHWEPVRDLSPEILACKSEVADTREAHERTEGVAGHPLRLAGFTGHMRYLRVRKLKRLIVRGR				NA	NA	NA	NA	NA
AK009_06313	672			hypothetical protein	ATGCTTATCGACGTCCACCTCACGCACTTGTCTCGCCGGGTGCGTGCCCGCGAGAAAACAGATCTCCGCGCGGTACTCGTTTCCGATGCCGGCGGCGTTCTTCTGGTCCAGCAGCGCCCGGCCAATCTCGGTGTCGGGCGTGCGAAGGATGCGCCTGACCACCTCGTCGTGGTCGAAATCCTCGGCCAGCATGTCGGGCCCGAGGTAGCTCATGCGCGTGGGGTATTCGCGCGTAGGGAAGACGTCGACAAGACCGAGCTCGTGGCCGACGATCTCAATCTCGCCCTGTTTGTCGGCCAAGCGCAGCACCACGCGCGCGGTGTGGCCGGGCTTGCGCCAGCGTGTCCCCGCCCGATGGATGGACCACGTGCCTTCCATTTTCAGGTGCGTGTGCAGGGTTTCTGGCCCGAACTGCATGAACAGGTGTTTGCCGAGCGGCCAGACGCGGTCACAGGTCAGGCCGGTGAAATCGACGGTGGCGAAGCGCGGCACCCGCAGTCTCGTGTGGGTGACCTCGCGCCCTGCCATGAACTGCAGGCGCTTGGACAGCTGGTAAACGGAATCACCTTCGGGCACTGCTTGATACTAACGCTACAGCCGTACAACGGGGATTCTGGGGAGTACTATCTCCCTCGTACTATCAGTCGCTTTAACTTGCGTACCCGGAGGTAA	MLIDVHLTHLSRRVRAREKTDLRAVLVSDAGGVLLVQQRPANLGVGRAKDAPDHLVVVEILGQHVGPEVAHARGVFARREDVDKTELVADDLNLALFVGQAQHHARGVAGLAPACPRPMDGPRAFHFQVRVQGFWPELHEQVFAERPDAVTGQAGEIDGGEARHPQSRVGDLAPCHELQALGQLVNGITFGHCLILTLQPYNGDSGEYYLPRTISRFNLRTRR				NA	NA	NA	NA	NA
AK009_06314	471			hypothetical protein	GTGCCAGTTGTCGCCGAGAACGAAGCCCAGGTAGATCAGGATTGCGTTCCAGATCGCGGAGCCGAGCGTCGTCCACAACCCGAAAGTCACGAGGTTCATCCGGTCGAGTCCAGCGGGGATCGAAATCAGCGAGCGCACGCCCGGAATCAGGCGGCCGAAAAACACCGAGACCTTACCGTACTTATCAAACCAGGCCAGGGCTTGATCCACGTCCGAGCCCTTCACCAGCCACATCCACTCCGCGATCGCGCGCAGGCGCTGCGCACCCAACCACGCGCCGAGGCCGTAGAGCAGGTACGCACCGGCCACCGAGCCGATCAGCGACCACACGAACACCGAGACAAAGTTCAACGAACCCTGCGCCACGGTGAAGCCCGCCAGGGGCAAAACCACTTCGGAGGGAATGGGCGGGAACAGGTTCTCCGCCAGAATTGCCAGACCGACGCCGGGGGCGCCGATCACCTCCATTAA	MPVVAENEAQVDQDCVPDRGAERRPQPESHEVHPVESSGDRNQRAHARNQAAEKHRDLTVLIKPGQGLIHVRALHQPHPLRDRAQALRTQPRAEAVEQVRTGHRADQRPHEHRDKVQRTLRHGEARQGQNHFGGNGREQVLRQNCQTDAGGADHLH				NA	NA	NA	NA	NA
AK009_06315	1209			hypothetical protein	ATGCGAGCCGACAAGCTCCACGACGTCAATGGTGCCCAGCGTCGGCCAGTCCAAACGCGCCGTCAACCCATCGCGCGCTCCGGCGATGAAGTTCGCCTCCGCGGTGGCGAAGCTCAACCGCGACCACACTGGCCGCGTCTGCTCGCCGAGGAACTTCACCAGCCCGTAGTAGAACGCGGCGTCGGCAATGATGTCCTTGACCGTCGGGCCCGCAGGCAGGAGGCGGTTTTCCACGCGGATGTGCGACAGCTCCCCGTTGGGATCGTAAATCGGGCGGTTCCAGCGCCACACCGTGCCGTTTTGCAGGTTCAGGTAGTGCAGCCCCGGGTTCTCGCCGCTCATCACGGGCTTGCCGGCCTCGACGCGGCCCTCCGGCAGCAGCGGCGAAAAGTAGCGCACGTTCTCCTCGAACAGGTCGAACACGGAGGTGATCCAGCGCTCGCCGAACCACACGCGCGGGCGCACGCCCTGGTTAATCAGCTCCTGGGTACGCGTATCAATCGCCTGCTGGAACACGGGGACGCGCGACTCGTGCCACAGCCTGCGGCCCATGAACAGCGGCGAGTTCGCCCCAATCGCCGCCTGCACACCCGCGATCGCCTGCGAGGCGTTCCACGCGTCCGCGAAGCGGTTCGGCGAAACCTGCAGGTGCAGCTGCATCGACGTGCACGTCGATTCGGTGGAGATGTCCTCGAAATCGTGCCGGTAGGACTCCATCCGGGCAACATCGATGTGGAGCAGCTCACCGCGCGACTCCATGATCGAGTGGTTCAAGCCGCGGTAGCGGTGCTCGTCGGTGATCCAGCCCGGGTCCTCCAGAAATTCCGTAGTCATCGTCGGCAGGGTGCCGATCATCGCTACACGCGTGCCCGCCTTACCCGCCGCGGCGTGCACCGCGCCGAGGCGCTGGCGCAGGTGGGACTCCAGCGCGCGCAGCCCGTCGCCGTCGATGGACTGCGGGGGCAGGTTCAGCTCCACGTTGTACGAGCCGATCTCCGACTGGTACTCGTCGCCCAAGTTAGCCAGAACCTTGTGGTTCAGCGGCGCTGGATCCATCGCGTCGTCGACCAGGTTCAGCTCGAGCTCGAGACCAATCGTGCCCTGGCTGACAAAATCCGCCTGCTGCAGGTGGCGGTCAAAAACTTCGAGCTCGTCGACAAGCCGCGCGCGGTAGACCGTGCGCTGTCTCGGCGTGTAGCGGTCGGTTGA	MRADKLHDVNGAQRRPVQTRRQPIARSGDEVRLRGGEAQPRPHWPRLLAEELHQPVVERGVGNDVLDRRARRQEAVFHADVRQLPVGIVNRAVPAPHRAVLQVQVVQPRVLAAHHGLAGLDAALRQQRRKVAHVLLEQVEHGGDPALAEPHARAHALVNQLLGTRINRLLEHGDARLVPQPAAHEQRRVRPNRRLHTRDRLRGVPRVREAVRRNLQVQLHRRARRFGGDVLEIVPVGLHPGNIDVEQLTARLHDRVVQAAVAVLVGDPARVLQKFRSHRRQGADHRYTRARLTRRGVHRAEALAQVGLQRAQPVAVDGLRGQVQLHVVRADLRLVLVAQVSQNLVVQRRWIHRVVDQVQLELETNRALADKIRLLQVAVKNFELVDKPRAVDRALSRRVAVG				NA	NA	NA	NA	NA
AK009_06316	1554			hypothetical protein	GTGCTCGTACAGCGCAATCAGTGCACCCAGCGTGTGCGGGGTCAGCTCCTTGGCCACAATCGTGGTGGTCGGGCGGTTGCCCGGCATCACCTTGTGAGGCGCAAGCTGCTTATCGACGCCCTCCGCAACAATCTCGGACTCCGTCTTACCGAACGCCAGGACCTTCGTCTGGGCGAAGAAGTTGCCCATCAACAGGTCGTGCATCGAGCCCGACCCGTCCACGGCCGGCAGGTCCTGCTTCGGGGTGGCGAAGCCGATGAAGTCCGCCGGGATCAGCGTCGTGCCCTGGTGGATGAGCTGGTAGAAGGCGTGCTGGCCGTTGGTGCCCGGTTCGCCCCAGAAGATCTCGCCGGTGTCGTAGCCCACTGCCTCGCCGCCACGGGTGACGGACTTGCCGTTAGACTCCATCGTCAGCTGCTGCAGGTAGGCGGGGAAGCGCGCCAAGTCCTCGGAGTAGGGCAGAACCGCGTGGGTCTGTGCCCCGTGGAAGTTGCGGTACCACACGTTGAGCAGGCCCATCAGCGCCGGGATGTTCTCGCGCAGCGGTGCAGTGCGGAAGTGCTCGTCGACAGCGCGGAAGCCCTCGAGGAAGCGCATGAAGTCGAGCGGGCCGATGACGGCCATGAGCGACAGGCCAATGGCGGAGTCGACGGAGTAGCGCCCCCCCCCCCCAAACCCCAACCGGGACAATTTTGGGGGGTGGATTCCGAAAACAGGGGACATTTTAGCCGTCGGGAACATGTTGGCGGTGTCGATGCCGAACTCTGCGACCTTTTCCGCGTTCGTGGACACCGCGACGAAGTGCTTCGCAATGACGGAGTCGTCTCCGTCGAAATGGTCGAGCACCCAGCGCTTCGCGGCGTGCGCGTTGGAAAGGGTCTCCTGGGTGGTAAACGTCTTCGAGGCCACGATAAACAGCGTCTCTTCCGGGTTGCAGCGCTCCAGCACGCTGACCAAGTCGGCGGGATCGACGTTGGAGACGAACTCGGCGCTAATGCCCGCGGTGGCGTAGGCCCGCAGCGCCTTGGTGGCCATCGCGGGGCCCAGGTCGGAGCCGCCGATGCCGATGTTGACCACCTTCTTGATGGTGTGGCCGGTCGCGCCCTGCCACGCCCCGGAGCGCAGGGCCGAGGCGAAGTCGCGCATCCGCCCGAGCACCTCGTGGACGTCGGCGGCGGCGTCCTGGCCGTCGACACGCAGGTCCTGATCCACCGGCAGGCGCAGCGCGGTGTGCAGCACGGCGCGGTCCTCGGTGTTGTTGATGTGCACGCCCGTGAACATGTCTTCGATGCGTGTGGTCAGGGAGGCTTCGTCGGCAAGCGAAAGCAGGGCCTCGAGGATGTCGTTGTCGATCAGGTTCTTGGACAGGTCGACGTGCAGGCCAGCCGCGTCGAAGGTGTACGTGTCGGCCCGGTTGGCCTCGGCCGCGAACAGCTCGCGAAGCGAAAGGTTTTTCTCGGCATGCAGCTTCTCAAGGCGCGTCCAGGCGGCAGTGGAGGTAATCGAAGTCATGGCCTCTACGCTAGTCAAAAACGCGCGCGCGAGAAGGCATAA	MLVQRNQCTQRVRGQLLGHNRGGRAVARHHLVRRKLLIDALRNNLGLRLTERQDLRLGEEVAHQQVVHRARPVHGRQVLLRGGEADEVRRDQRRALVDELVEGVLAVGARFAPEDLAGVVAHCLAATGDGLAVRLHRQLLQVGGEARQVLGVGQNRVGLCPVEVAVPHVEQAHQRRDVLAQRCSAEVLVDSAEALEEAHEVERADDGHERQANGGVDGVAPPPPKPQPGQFWGVDSENRGHFSRREHVGGVDAELCDLFRVRGHRDEVLRNDGVVSVEMVEHPALRGVRVGKGLLGGKRLRGHDKQRLFRVAALQHADQVGGIDVGDELGANARGGVGPQRLGGHRGAQVGAADADVDHLLDGVAGRALPRPGAQGRGEVAHPPEHLVDVGGGVLAVDTQVLIHRQAQRGVQHGAVLGVVDVHAREHVFDACGQGGFVGKRKQGLEDVVVDQVLGQVDVQASRVEGVRVGPVGLGREQLAKRKVFLGMQLLKARPGGSGGNRSHGLYASQKRAREKA				NA	NA	NA	NA	NA
AK009_06317	312	mhuD	COG2329	Heme oxygenase (mycobilin-producing)	ATGGAGCGCATGAGTATCGTGAAAATCAACGCAATTTCCGTGCCCGCCTCAGGCGGGGAAGAACTCGAGCGTCGCTTCGCCGCGCGCAAGCACGCGATCGATTCGCAGCCCGGGTTCGAGGGTTTCCAGCTGCTGCGCCCGGTCAAGGGCGAGGACCGCTACTTCGTGGTCACGCGCTGGGCGGACCAGGAATCCTACGACGCATGGTGGGCCGGCGAAGGCCGCGGCGCCCACGCGGGCGGCGGCAAGCCGGTGGCAACCGGGGCGCAGCTGCTCGAGTTCGAGGTCGTGCTCGATTCGCTCGAGGACTAA	MERMSIVKINAISVPASGGEELERRFAARKHAIDSQPGFEGFQLLRPVKGEDRYFVVTRWADQESYDAWWAGEGRGAHAGGGKPVATGAQLLEFEVVLDSLED	PGPT0003635_350	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003635-mhuD|hmoB-K21481	NA	NA
AK009_06318	294			hypothetical protein	ATGAGCGACTTCGACATCCGCACGCCGTCTGGGACCGATGATCCGCTATCCGACGCCGAGATCCAGGCCTACCGCAAAGAGATCGACCGGCTCGACCGCGTCATCCTCGACGCGGTGAAGCGGCGCTCCGAGGTGTCTCGGGCGATCGGCAAGACCCGGATGGGCTCGGGCGGCACGCGCCTCGTGCACACCCGCGAGGTCGCGATTATCAACCAGTTCCGCGACGAGATCGGCGAGGAAGGCCCCGCGCTGGCGGGTATCCTGCTGCGCCTCGGCCGCGGCAAGCTGGGCTAG	MSDFDIRTPSGTDDPLSDAEIQAYRKEIDRLDRVILDAVKRRSEVSRAIGKTRMGSGGTRLVHTREVAIINQFRDEIGEEGPALAGILLRLGRGKLG				NA	NA	NA	NA	NA
AK009_06319	762			hypothetical protein	GTGGCGGAAGCGACGCCGGTAGTACTCGGTGACATGGGGGTGCTCCTTGAAGATGCGCACCACTTCCCCGATAAGGTCGTCGAAGTCGAGCGCGTTGGCCTGGCGCAGCCGGCGCTGGTAGTCCGCGTACACGCGCGCGACGGTCAGGTCGAAGGGGTTGCGGGTGCGTTCCGCGCGCTCGCTGGCCTCCGCTGGGCCGACGAGCTCGTTTTTATGGTTCGAGATCGCGTTGGCCAACGTCCGCGCCGAGAACTTCTTGAGATCGAGGTTGTGGTCCTTCGCGATCATGGACAGAAGCCGGCGCGAGTCGTCCGAGTCGTAGATGGTGAAGTTGGTGTTGAGCCCCTCGACGAGTTGCGCCTGCTGGCGCAGGATGCGCACGCACACCGAGTGGAAGGTGGCCACCCACATGCGCTGCGCCTCGGGGCCCACCAGGTTGGCCACGCGCTCCTTCATCTCGGCGGCGGCCTTGTTGGTAAACGTAATGGCGAGGATCTGCCACGGCGCGACCCCGCGTTCCTGCAGCAGGTAGGCAATCCTGCGGGTCAGTACCGCCGTCTTTCCAGAGCCGGCGCCAGCGATGATCAGCAGCGGGCCGCCGCTGTGCTTCACGGCGGCTTCTTGCTGCGGGTTGAGTCCCAAAACCAGATCTGTGTTCATGATGCCCCTAACCCTACAATCACGTTGGGACATAGCCCCCTAGGTGGCATAATGGGCACACATGAGCGACTTCGACATCCGCACGCCGTCTGGGACCGATGA	MAEATPVVLGDMGVLLEDAHHFPDKVVEVERVGLAQPALVVRVHARDGQVEGVAGAFRALAGLRWADELVFMVRDRVGQRPRRELLEIEVVVLRDHGQKPARVVRVVDGEVGVEPLDELRLLAQDAHAHRVEGGHPHALRLGAHQVGHALLHLGGGLVGKRNGEDLPRRDPAFLQQVGNPAGQYRRLSRAGASDDQQRAAAVLHGGFLLRVESQNQICVHDAPNPTITLGHSPLGGIMGTHERLRHPHAVWDR				NA	NA	NA	NA	NA
AK009_06320	645			hypothetical protein	GTGCAGCGCCACCATCGCCTGCGCCTTGTCGCCGATCGCGCGCTTGGGCACGTTGACGATGCGCCGCAGGCTGACCGTGTCGTCCGAGTTGTCGAGGACCTTCATGTAGGCGACGATGTCGCGGATCTCGCGACGCTCGTAAAAGCGCGTGCCGCCGACGACCTTGTAGGGGATGCCGGAGCGGATGAAGATGTCCTCCAGCGCGCGCGAGGCGTTGTTGGTGCGGTACATCACCGCGATGTCGCTGTAGCGGCAGCCCTGGTCGGCAAGGTGGTCGATTTCGCTGGCGATGAAGCGGGCCTCGTCGTGCTCGTTGTCCGCGACGTAGCCGGTGATCTTCTCCCCCGCCCCGTGCGAGGTCCACAGGTTCTTCGGGCGCCGGCCCTGGTTCTGGGCAATCACGGCGTTCGCCGCGCCGAGGATGTTCTGGGTGGAGCGGTAGTTCTGCTCCAGCATCACCGTGGTGGCGTTCGGGTAATCGCGCTCGAACTCCTCGATGTTGCGGATCGTCGCGCCGCGAAACGCGTAGATCGACTGGTCAGAATCACCCACGACCGCGAGCTCCGGGGCGTCCTCGCCGCTGCCGACGAGGGTGTGGATGAGCTCGTACTGAGCGTGGTTAGTGTCCTGATACTCGTCGACTAA	MQRHHRLRLVADRALGHVDDAPQADRVVRVVEDLHVGDDVADLATLVKARAADDLVGDAGADEDVLQRARGVVGAVHHRDVAVAAALVGKVVDFAGDEAGLVVLVVRDVAGDLLPRPVRGPQVLRAPALVLGNHGVRRAEDVLGGAVVLLQHHRGGVRVIALELLDVADRRAAKRVDRLVRITHDRELRGVLAAADEGVDELVLSVVSVLILVD				NA	NA	NA	NA	NA
AK009_06321	243			hypothetical protein	TTGGTTGGCGGCCTCCGAGGAGAACTCGCGGGCCACGGAGACGAGCTCGTTGAGGTTGTCCAAGCGCGCGCCGTCCTGCGGATCGTTGGAGGCCTCCAGCTCCGCGCGGTAGCCGGTGGCCTCCAGGATGCGCGTGACCAGCACCCCCAGGTCCGGCATGCCGGTGACCTCGTTGGTCATCTCGGCCATGTCGGTGCGCAGCTTGTCGAGAAGCGAGACGAAGCCCGCGATCGCGTTCTGTGA	MVGGLRGELAGHGDELVEVVQARAVLRIVGGLQLRAVAGGLQDARDQHPQVRHAGDLVGHLGHVGAQLVEKRDEARDRVL				NA	NA	NA	NA	NA
AK009_06322	489			hypothetical protein	GTGGAGGTGAGGCCCAGTGGAGCGGCCTTCGTTGCCGATTTGCGCGATCTGCTCCCCGGCGGAGACGCGCTGGCCTACCGAGACGCTGTAGTTGCGCATGTGGCCGTAGACCGAGACCTCGCCACCATCGTGCTTGATGACTACCCAGTTACCGAAGCCCTGGGCCGGGCCGGCGTTGATGACGGTGCCGTCCATTACCGCATAGATGGGCGAGCCGGAGTCGTTGGCGATGTCGATGCCCTGGTGGATGCGTCCCCCGCGGGGGCCGAAACCGGAACTCAGGCGGCCTGTCGCGGGAGTGACCACGGTGCGGCCATCAGAGGTCGCGCCCGTCTGGTAGACCACGGTGTCGGAGCCTTCGGGCGGGACGATCTGGATCGTTTCGGCGGGAAGGTTCAGGCGCTGCTCCTCGGCTCGGGGGTCAAACACAATGGAGTGGTCGCCCGCGGTGAACGTGGCACCGTTGGTGTAAATCTTGCCCACGGCTAA	MEVRPSGAAFVADLRDLLPGGDALAYRDAVVAHVAVDRDLATIVLDDYPVTEALGRAGVDDGAVHYRIDGRAGVVGDVDALVDASPAGAETGTQAACRGSDHGAAIRGRARLVDHGVGAFGRDDLDRFGGKVQALLLGSGVKHNGVVARGERGTVGVNLAHG				NA	NA	NA	NA	NA
AK009_06323	321			hypothetical protein	GTGCACCTCGAAGTGCAGGTGGGTTCCGGTGGAGAAGCCACGGTTGCCCATGCCCGCGATTTTCTGGCCGGCCTTCACGCGCTCGCCGACGGCGACATCGAGGGTCTCCATGTGGCCGTAAACGGTGATGGTGCCGTCGTCGTGAAGCAGGCGAATCCACTGGCCGTAACCCTGAGCTGGGCCGGAGTCGAGCACGGTGCCGTCGAGCACGGCGAGGATCGGCGTGTTGGTCACGTTCGCGATATCGATGCCAGCGTGGAACGCGCCCCAACGCGGGCCGAAGCCGGAGGTGAAAGCGCCCTCAGCAGGCTTAACGGATGA	MHLEVQVGSGGEATVAHARDFLAGLHALADGDIEGLHVAVNGDGAVVVKQANPLAVTLSWAGVEHGAVEHGEDRRVGHVRDIDASVERAPTRAEAGGESALSRLNG				NA	NA	NA	NA	NA
AK009_06324	357			hypothetical protein	GTGCTGCACAGCCTTGTTGAGCTGATCCGAGAGGTTCTCCACCGGCTTGTACTCAGCGATCGCGAGGATTTGGGGAGCGGCGTCAGCGGAAGAAAGCTGCGTATCGACGGCATCGGCGTCGGCTGCGAGCTCAAAGTCAACGGTGGGCTCGGAGGCCTTGTCGGACTGGAGAGCTGCAGCAGCTGCGCCGGACACGCCGGCGGTGGACACGGCACCCGTTGCGACGGCGACGAGAGCGACGCGCCCCTTATTGGGGGACTGCTTACGATGCTTGCCGCCCGTGCGCGCCTTCGTGGAATTGTACATCTAGTCCTCTCCAAATTGTCCGCTTGGATCCGTACCGTGAAGGTATCGTAA	MLHSLVELIREVLHRLVLSDREDLGSGVSGRKLRIDGIGVGCELKVNGGLGGLVGLESCSSCAGHAGGGHGTRCDGDESDAPLIGGLLTMLAARARLRGIVHLVLSKLSAWIRTVKVS				NA	NA	NA	NA	NA
AK009_06325	1374			putative protein	ATGAGTACGAAGTCGAGCCCGCAATCAGCCCCGAACGCGACGCGGCGCCGGCGCCGCCGGCCTGAGCGCCGCCCCGCGCCCGCGCCGCGCCCAGCTGCCGCCGAGAAAGCACCTGAAACGTGGGGGCAACGACTCCGCCTGTACCTGCCCACCGCCGCCGCCCCGAGCGGCTTCATCGCGCTCGCGGTCGTCGTTCTCAGCCTCGCGGTGGTGCTCCTGTCGGGCTCTCCGCTGGCGTACCTGCCGGCGTCGATAGGCGAAATGTGGCTTGTCGGCCACGGCGCCCCCGCCCGCTTCGACGGCGTCACGCTGGGGCTCACCCCGGCGCTGGTGCCGCTCGCGATCGCGGCGCTTGTCGCGCAGCGCGTGCGCGCGGCAACCACAAAGCGCGTGAGCATCCTCGACCTCGGCGCGATCGCCGCGCTGGGCCTCGGCATCCCGTTTACGCTGACCTGCATCGCGCTGCTCATGGTCGGCGACGCCTCGAACGTGTACCCCGTTGAGCTTCCGAACATCGCCGCCGCGCTCGCCGTGCCGCTCCTGGTCCACGCGCTCGGCATCGTCGCCGGCATCAGCCCCGTGGTCTGGCGTGCGCTCGCGCGGCGCGTGGGCGTACCCGAGTTCGTTGTCGACGCGGCATTCACCGCCTCAACCATCGTGCTGCGTCTTGTGCTCGCCGCGGCGGTCGTGTTCATCGCCTTGCTTATCGCGGGCAGCGGCCGCATCGCGCAGCTTCTTGACTCCTACCCCACGCTGCCGGGCACCGGCACCGCCACCCTGATTCTGTTGAGCATTCTGTACCTACCCAACGCAGCCGTGGCCACCTTAAGCGCCCTGCTGGGCGGGAGCGTCGAGTACGCCGCGGCCTCGGCCTCACTGTTTAGCGTGGACCCGGTTGCTTTGCCCGCGTTCCCGCTCTTCGCCGCCATCCCCGGCGCCGCCGCTGTGTGGGCTCCCGTGTTGATGCTGATCCCCGCCGCGGTGCTCGCCCAGTTCTTCGCTACCCGCTCGCTGGCGATGAAGAATGTCGCAGTCGTCGCGGCCTGGGTTGGGGTGCTGCTGCTGATCACTATCCCGTACGTCGGGGGAAGTGCCGGGGCGTACGGCTACATCGGCGCCCACCCGCTCGCGCTGCCGCTTCTAGGCATGGCGTGGGTGGTCGCCGTGGGAGGGATCGTCTGGCTCGTCGGGCGCCTGCGCCGCCCAGCACAGCCGGAGCCCGAACCGGAGACCGAACCCGAACCGGAGCCAGAGCCGGAGCCGGAACCAGAGCCAGCACCCGAACCGGAGACCGAAGCAGTGGAAGAGCCGTCGACAAGCGGTGGCAGCACGAAATGGGTGCCTCCCACGGACGATGTCGAGTCCGAGGACTAA	MSTKSSPQSAPNATRRRRRRPERRPAPAPRPAAAEKAPETWGQRLRLYLPTAAAPSGFIALAVVVLSLAVVLLSGSPLAYLPASIGEMWLVGHGAPARFDGVTLGLTPALVPLAIAALVAQRVRAATTKRVSILDLGAIAALGLGIPFTLTCIALLMVGDASNVYPVELPNIAAALAVPLLVHALGIVAGISPVVWRALARRVGVPEFVVDAAFTASTIVLRLVLAAAVVFIALLIAGSGRIAQLLDSYPTLPGTGTATLILLSILYLPNAAVATLSALLGGSVEYAAASASLFSVDPVALPAFPLFAAIPGAAAVWAPVLMLIPAAVLAQFFATRSLAMKNVAVVAAWVGVLLLITIPYVGGSAGAYGYIGAHPLALPLLGMAWVVAVGGIVWLVGRLRRPAQPEPEPETEPEPEPEPEPEPEPAPEPETEAVEEPSTSGGSTKWVPPTDDVESED				NA	NA	NA	NA	NA
AK009_06326	510			hypothetical protein	GTGGGCGCGGCGCAGCACGTCGACGATGAGCGCGCGCTCATGAACCTTGATTCTTTCGTGCAATTCGGCCTCGGTCTCGCCGTCGCGGACCTCCACGGCCTTTTGGGCGATGATCTCGCCCGTATCCACGCCGGCATCGATGTAGTGGACGGTCGTGCCGGTGACCTTGACGCCGTACGCCAGCGCGTCGCGCACGGCGTGCGCGCCGGGGAAGGACGGCAGCAGGGCCGGGTGGGTGTTAATCAGGCGGCCCTCGAAGCGCTCAAGGAACTCTTGACCGACGATGCGCATGAACCCCGCGGAGACGACGATGTCGGGCTCGCCTTGGCTCACGGCATCGCGCAGCGCCCGATTCCACTGCGCGCGATCCTGCCCAAGTTCAACGATTTCCGTGCGCACCCCGGCGGCCGCCGCGCGCTCGATCGCCGGGCAATCGGTATCGGCGACGACCAGGCTCACGCGGTAGGAATCGTCCTGGTTATCGAGGATGGACTGAAGCAACGTCCCTGA	MGAAQHVDDERALMNLDSFVQFGLGLAVADLHGLLGDDLARIHAGIDVVDGRAGDLDAVRQRVAHGVRAGEGRQQGRVGVNQAALEALKELLTDDAHEPRGDDDVGLALAHGIAQRPIPLRAILPKFNDFRAHPGGRRALDRRAIGIGDDQAHAVGIVLVIEDGLKQRP				NA	NA	NA	NA	NA
AK009_06327	513			hypothetical protein	GTGCGAGAAGGCCTCGAGTGCGAGCTCGCGGCGCTGCTCCAGGGAGAAGCCGGGGCCGCGCACGGCGTCGATGACGTCGGCGTAGCGCTCCGGGTCGGTGACGATGGCCACCGAGGGGTGGTTCTTCGCAGCGGCGCGCACCATCGACGGCCCGCCGATGTCGATCTGCTCGACGCACTCGTCAAAGGACGCCCCCGAGGCGACCGTCTCCTCGAAGGGGTAAAGGTTGACCACCACGAGCTGGAAGGGCTCGATGCCGAGCTCGGTGAGCTGGCGCGCGTGGTCGTCGTTACGCAAGTCCGCGAGGATGCCCGCGTGGACGCGCGGGTGCAGCGTTTTCACGCGCCCGCCCAGCACCTCGGGAAAACCGGTGAGGTCCGCGACCTCGGTGACCGCGACGCCGGCGTCGGCGATGCGCTTGGCGGTAGACCCCGTGGAGACGATCTCTACCCCGGCCTCGCCGAGCGCGCGGGCCAGCTCGTCCAAGCCGGTCTTGTCGTAGACGCTGACTAG	MREGLECELAALLQGEAGAAHGVDDVGVALRVGDDGHRGVVLRSGAHHRRPADVDLLDALVKGRPRGDRLLEGVKVDHHELEGLDAELGELARVVVVTQVREDARVDARVQRFHAPAQHLGKTGEVRDLGDRDAGVGDALGGRPRGDDLYPGLAERAGQLVQAGLVVDAD				NA	NA	NA	NA	NA
AK009_06328	489			hypothetical protein	TTGGAACGTGTCGCGCTCTTGGACGAGGAAGCCGCCGGAGATCTGCCTGACCTCCTCGCCGCGGAACTCCGGATCGACCTCGAGGATGCGCAGGTTCTTCTTCTCCTTGAGCAGCTCCAGGGCCGCCTCTTCGTAGGAGGGTGCGACGACGACCTCGGTGAAGATCGGTTTGATGGACTCGGCGAGCTCGACGGTGACCTCACGGTTGACGGCGATCACGCCGCCGTACGCGGAGACGGGGTCGCAGGCGTGGGCGAGCCGGTGGGCTTCAGCGATCGACTCGTCGGACACCGCGATGCCACAGGGGTTGGCGTGCTTGATGATTGCCACGCACGGGCGGTCGTGGTCCCAGGCGGCGCGCCACGCGGCGTCGGCGTCCTGGTAGTTGTTGTAGCTCATTTCCTTACCACCGTGCTGGGTGGCGTCGGCAAGCCCCCAGCCCTCGTTGATCAGGCTCGCCGCTTGGTGCGGGTTTTCGCCGTAGCGTAG	MERVALLDEEAAGDLPDLLAAELRIDLEDAQVLLLLEQLQGRLFVGGCDDDLGEDRFDGLGELDGDLTVDGDHAAVRGDGVAGVGEPVGFSDRLVGHRDATGVGVLDDCHARAVVVPGGAPRGVGVLVVVVAHFLTTVLGGVGKPPALVDQARRLVRVFAVA				NA	NA	NA	NA	NA
AK009_06329	201			hypothetical protein	GTGAGCAAACAACGTGTATTTGCTGCAAGCCGACTAGTGCGCGAAGTGGCGGGTGCCGGTGAGGTACATCGTCACTCCGGCTTCCTTCGCCGCGACGATGACCTCTTCGTCGCGGATGGATCCACCGGGCTGCACCACCGCGGTGACACCGGCGTCCGCGAGCACCTCGAAGCCGTCGGCGAAGGGGAAGAACGCGTCTGA	MSKQRVFAASRLVREVAGAGEVHRHSGFLRRDDDLFVADGSTGLHHRGDTGVREHLEAVGEGEERV				NA	NA	NA	NA	NA
AK009_06330	504			hypothetical protein	ATGACCTACTACGATGCCCCTGAGGATCGGAGCTGGAGTTACCCCGCGCCTGTGCCGCCGAATCGAGGCGGGAATGGGGCACCCATTGCAGTAGGGGTAGTCATCGCGTTTCTCCTACTTGTGCTTGTTGGGATGCTCACGTTTTTTGTTGGGAGGGGGCAGATGGGCTCCGAGGCGGGCTCGAGCCAGGTAGCAACAGTCGTCCAGACTCAAACTCTCCAACCCGCGTCCAATGGTAGCTCAAACCCGGGTGCCGCTGCTCCCGCGTCCCCGAAGTCAAGCTGTAACTACTCGACTTACTGGAGTGCAACCTCTGTGACAAGTGAGGGGTTCGCGGCCAACGTTTATCTCGCAATCCTCGATGCATGCAACAATGCGGGTGGTCCGAACGTCACGGTGGAGGCTTATAGCCCGACCACTGGGCGCACGTACGCGATGAGCTGCTCTGGCACTACAGTCGTGACGTGCCGCGGTGGCGATAACGCCGTTGTCAAGATTTCGTGA	MTYYDAPEDRSWSYPAPVPPNRGGNGAPIAVGVVIAFLLLVLVGMLTFFVGRGQMGSEAGSSQVATVVQTQTLQPASNGSSNPGAAAPASPKSSCNYSTYWSATSVTSEGFAANVYLAILDACNNAGGPNVTVEAYSPTTGRTYAMSCSGTTVVTCRGGDNAVVKIS				NA	NA	NA	NA	NA
AK009_06331	885			hypothetical protein	GTGAGCAAGCGATTCTTCAACGTCGCAGTAGCAGCTACAGCTCTTGCGGTTTTGAGCGGATGTAGTGCCGGGACCCTCGGTATTTCCGACATCGCTCCTACCTCCTCCCGCGATGCAAAGGCGACCGTGACTATCACTACCTTCGTAGTACCTCCTCCCGGCGAGGCATCGCCAACTACCGTCACCCCTGACCTGCGCACGCAGCTTCAAAGCGTCGCTGATTCGGTTGCGATGTACTACGGGGGGACGGTCGGTATCGCTGTGGCAGGCGGGGGCCAAGTTGTCAGCGCTGGAGATGACGCTGCCTACCCCGCCTGGTCGACGATCAAGGTTCCCATAAGCGTCGCGGCGTACCGCAGTGACCCACAGCTTGCGCGCGAGTATGCGCCGCCTGCAATCCGGGCGTCGGATAACGCGGCTGCCGAGCAGATGTGGATCAACCTCGATCCCGAGCAGGTTAATCAGGTCCTAGCCGAAGCGACAGTGGGCGTTGCCGTAAATACAGAGAAGGTTCGCCCTGAATTCTCCACGTACGGGCAGACGCTGCTTTCCACGAGCCAGGAAGCGGTTATCGCGTCCCACCTTGCGTGCTTAGCGGAAGCCGAGCCCGTGATAGCGCTGATGGGCCAGGTCAATAGTGAGCAAGCCTACGGTCTGGGACGGTTGCCCGGTGCAGCGCTCAAAGTCGGCTGGGGCCCAGACACCAGTGGCCGTTACCAGGTGCGTCAGCTCGCACGTGTTACAAGGAGTGATGGGGCCACCAGCGCAATCGCGTTGACGGTCATCCCTGCGGCAGGGGACTACGGAACTGCGCAGGCGATGGCGGACGAAGTGGCAAACGGGCTTTCGCTGCTCTTGGATTCCCTTCCAGAGGCAGACTGCTGA	MSKRFFNVAVAATALAVLSGCSAGTLGISDIAPTSSRDAKATVTITTFVVPPPGEASPTTVTPDLRTQLQSVADSVAMYYGGTVGIAVAGGGQVVSAGDDAAYPAWSTIKVPISVAAYRSDPQLAREYAPPAIRASDNAAAEQMWINLDPEQVNQVLAEATVGVAVNTEKVRPEFSTYGQTLLSTSQEAVIASHLACLAEAEPVIALMGQVNSEQAYGLGRLPGAALKVGWGPDTSGRYQVRQLARVTRSDGATSAIALTVIPAAGDYGTAQAMADEVANGLSLLLDSLPEADC				NA	NA	NA	NA	NA
AK009_06332	282			hypothetical protein	GTGAAGGACGTCGAGGACGGCGTCTGCGATCATCACCGACGGCGCGGGCAGGGCGTCGTCGACAAGCGGGTAAGGCGCCTTGCCGGTGTTGTCGCGCAGCTCGATCGCGGCGAGGGTCATCTGGAAAGGCATCTCGATACGCGGGTCGTCGTCGCCGACGATTTCGGCTGCAAGGTCGCGGAAGACGTCCTCGAGCGAGCGGCGCGCATCGTGGTAGTCGTTGAACTCCTCCGAGTTCGCCACGGGCAGCTGGTACAGCCGGCCGATGTTCCAATTCGATGA	MKDVEDGVCDHHRRRGQGVVDKRVRRLAGVVAQLDRGEGHLERHLDTRVVVADDFGCKVAEDVLERAARIVVVVELLRVRHGQLVQPADVPIR				NA	NA	NA	NA	NA
AK009_06333	633			hypothetical protein	GTGACGATCCGAGATGAACAGACGGAGGGTCTTGACGTCCTTGTAGTCGACCTTCTCAATGCCTTCGGCCTTGAGCGGGTTCTTCTTCGGGCGACGGGACTGCTCCATGCGCTGCTTGCGCTGGTTATTTCCACGCTTCATAGTTTTCGCTCCTCCTTACCACGAGGACTTACGGACGCCCGGAAGCTCACCACGGTGAGCCATCTCGCGCATGCGGACACGGGACAGGCCGAACTTGCGGAGGTAGCCGCGGGGGCGCCCATCGTGCGAGTCGCGGTTGCGCACGCGAGCCGGGGAAGCGTCGCGGGGCTGACGGTTGAGCTCAAACTGAGCCTCGAGACGGTCCTCATCGGACGTCTCTGCATTGCGGATGATTGCCTTGAGCTCAGCGCGACGCTCGGCGTAGCGGGCGACGATCTCCTTGCGTTGCTCGTTCTTGGCGATCTTAGACTTCTTAGCCATAAATTATCGCTCCTCGCGGAATTCGACGTGCTTGCGAACAACCGGGTCGTACTTCTTCAGCGTGATGCGATCCGGGTTGTTGCGCTTGTTCTTACGGGTCACGTAGGTGAACCCGGTGCCCGCGGTGCTCTTGAGCTTGATGATCGGGCGGATATCGTTACGTGCCATTAG	MTIRDEQTEGLDVLVVDLLNAFGLERVLLRATGLLHALLALVISTLHSFRSSLPRGLTDARKLTTVSHLAHADTGQAELAEVAAGAPIVRVAVAHASRGSVAGLTVELKLSLETVLIGRLCIADDCLELSATLGVAGDDLLALLVLGDLRLLSHKLSLLAEFDVLANNRVVLLQRDAIRVVALVLTGHVGEPGARGALELDDRADIVTCH				NA	NA	NA	NA	NA
AK009_06334	624	lnrK_2	COG2197	Transcriptional regulatory protein LnrK	GTGAAGACAACACCGATTCGGGCGTTGCTCATCGACGACCACGAAATGCTGCTGCGCGGCTTGCGCCTGATCTCCGACACCATCGACGGCATCGACATAGTCGCGGCAACGACCGCGGGAGCCGAAGCGCTGATGCTCGCCCGCGAGCACCGGGTCGACATCATCATCACTGACGCCGCGATGCCCGGGGTCGACGGGTTGGGCGTCGTCAAGCAATGCGCGCCCGAATTTCCCGTGCTGGTGCTCACCACCTTCGACGACGCCTCGCTGGTTTCGGCGCTGTTGAGCGCGGGGGCCGCGGGCTACATTCTCAAAGACGTCGCACCGGAGCAGTTCGCGCGCGCCATCGCGGACGCGGCGGCCGGCGGGCTGGTGCTGGACCCGCGGATCGCGCGGTTCGCCCGCGAAGCCCCGACCAACGAGCTCGCCATCTTGACGCGCGCCGAACGCGGCGTGGCGGAACTGATCGCGCAGGGCAAAACCAACCAGCAGATCGCGGCGCAGCTCCACCTGGCGGAGGGAACCGTGAAGAACCACGTGTCCCGGATCCTGGGCAAAGTCGGTGCGCGCGACCGCACGGCGCTAGCACTCCGGTTATCCGGATCGCTGCGCGGTAGCGATTAG	MKTTPIRALLIDDHEMLLRGLRLISDTIDGIDIVAATTAGAEALMLAREHRVDIIITDAAMPGVDGLGVVKQCAPEFPVLVLTTFDDASLVSALLSAGAAGYILKDVAPEQFARAIADAAAGGLVLDPRIARFAREAPTNELAILTRAERGVAELIAQGKTNQQIAAQLHLAEGTVKNHVSRILGKVGARDRTALALRLSGSLRGSD	PGPT0014870_122	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
AK009_06335	753			hypothetical protein	GTGCGGCTGGGAGGAGACTCTGCCACCGATTTTCTCAGCGCGTTCCCGCAGCGAGGTGATGCCGAAGCCGGGCGGCGTGTCGTTTCCCGTTCCGTCGTCGGCGACGCTGACCGCGGTGTCACTGAGCGTGATCACGGCGGTGTCCGCGCCCGCGTGGCGCACGACGTTCGTCAGCGCCTCTTGCACAAAGACAAGGGCGAGGGTGGCCACCTCCTCCGGCGGCGGGGTGCGCAGAGAGCTGTCGAGCGTGATTTTTACCCCTGTTCCCTGAAACCACGCGGCGAGCTGGCGGCACGTTGCGGTCAGGTCGCCGTCGACAAGCTCAAGCGGCGTGATTGCACGAACGGTGGTGCGCATCGACTCCAGCGTCGCGGAAACGTGCCCGCGCAGGGTGTGCAGCTCCTCGGCGGCCGCATCGGGCTTGGTGGGCGTGATGCGGCTAACCGCGTCGATGCCGTACGCGATGATGGTCAGTCGGTGACCCAGGTTGTCGTGGAGGCTGGTTGCCAAACGGTGGCGCTCCTGCACCAGCGTGAGTTCGCGGACCCTGACATTGGCGGCGCGCAGCGCCTCCTCGCTGGCGAAAATCTGGTTCACCGTCCGCCCCAGCGCCACGCCAGCGACGGCCATCACACAAGCGGCGACGAACTCGATGAGGATCTTTGCGGAATCGCTGCCGGCCTGCAGCTGAAGCGCGACGATGACGACGACGGGGATGATCGCGAAGACGCGCGAAGCGGTGTCGCCGAGTGA	MRLGGDSATDFLSAFPQRGDAEAGRRVVSRSVVGDADRGVTERDHGGVRARVAHDVRQRLLHKDKGEGGHLLRRRGAQRAVERDFYPCSLKPRGELAARCGQVAVDKLKRRDCTNGGAHRLQRRGNVPAQGVQLLGGRIGLGGRDAANRVDAVRDDGQSVTQVVVEAGCQTVALLHQREFADPDIGGAQRLLAGENLVHRPPQRHASDGHHTSGDELDEDLCGIAAGLQLKRDDDDDGDDREDARSGVAE				NA	NA	NA	NA	NA
AK009_06336	1353			hypothetical protein	GTGCGGCGGCGGGCATGGCTCATAATCTACGTCGCCAACCCGTGGCCGGGGTCATGGTGTCGCACCGTGAAAAACATGACCGTGGGCACTTTCGGGGTGCCCCTTCTGCGCCGTAGCGCCACACACATGAGTACTACCGCACTTTCTGGCGCGCGCCATGTCGGACTTGACGTCGCCCGCGGCATCGCAATTCTTGGCACCCTCGCCACCAACATCTGGATCTTTTCCGCGTCTGCTGCAGGCGAGAAGTCCCTGACCATGGAGGCACTATTTGGCGACGCCAACTTCGCGTTAGCGCGTGAGCTCAGTGCCAACCCCAGCGTGGACGCCGTGATCAACGCTTTGCTGCACCTGATCACGGACGGCAAGTTCCTCGGACTGCTCACCATCATGTTCGGCATCGGGCTCGAGATCCAGCGTCAGTCGGCCGAACGCCGCGGCCGACGCTGGCCCGGTGGTTATTACTGGCGCGCCGGGCTGCTCGCCGTCGAGGGTCTGATCAACTACATTTTCGTCTTCGAATTCGACGTGCTCATGGGCTACGGGCTCACGGCCCTCGCCGTCGCACCGATCCTGGCGCGTAGCGAGCGGGTGCAGAAGATCTTCATGTGGGTGGCATTAACCGTGCACGTCAGCGCGATCGTCGCCCTCGATACCCTCGTCGCACTCTTTAGCTCCGCCATGCCAGACGGCGGGCAGGATGCACCTGAGGACACGATGCAGCTGGGTGTTCCCACCGACAACTACTGGGCAATGGTGCAGCACCGTGTGAGCCACTTCGTGGACGGCCGCCTCGAGATCCCGATCATGTTCATCATGGGCCTGGGCATATTCATCATCGGCGCGCGCCTCTACCGCGCCGGGTTGTTCGATCCCGCCCGCGCGGATCTGCGCCGCAAGGTGCTGATTGTGGGCCTGGGCATCGGCCTGCCACTGGACTGGGGCATGCGCCTGTTTGCGACGTCCGCCGCGGCGATGACTACCCGCTACGTTACCTCCGCCATCGTCGCCTTCGGTGTCCTGGCGCTGGTCGCGGAATTCTACGTCCGCCGCGGCAACCGCCTCGGCGCGTTAGGGAAGGCTTTCGCCAACGTCGGACGCACCGCGTTGAGCTGCTACATCCTCCAAAACATCATCGCGTCGCTCGTGTTCTACGACTTTGGCCTGGGGCTTGCGCGCGTTACCTCCGGTGAGGGTCAGACGCTGCCCGTGCTCGGCATTTATGCACTGATCTGCCTCGGGTTGATGGCCGCGAGCAGCCTGTGGCTGCGCCGGTTCTCGCGAGGCCCGGTGGAGATTGTGATGCACCGGCTCGTCGACAAGCTTCAAGCAATTAGGCCAGCTCGCTCGTGA	MRRRAWLIIYVANPWPGSWCRTVKNMTVGTFGVPLLRRSATHMSTTALSGARHVGLDVARGIAILGTLATNIWIFSASAAGEKSLTMEALFGDANFALARELSANPSVDAVINALLHLITDGKFLGLLTIMFGIGLEIQRQSAERRGRRWPGGYYWRAGLLAVEGLINYIFVFEFDVLMGYGLTALAVAPILARSERVQKIFMWVALTVHVSAIVALDTLVALFSSAMPDGGQDAPEDTMQLGVPTDNYWAMVQHRVSHFVDGRLEIPIMFIMGLGIFIIGARLYRAGLFDPARADLRRKVLIVGLGIGLPLDWGMRLFATSAAAMTTRYVTSAIVAFGVLALVAEFYVRRGNRLGALGKAFANVGRTALSCYILQNIIASLVFYDFGLGLARVTSGEGQTLPVLGIYALICLGLMAASSLWLRRFSRGPVEIVMHRLVDKLQAIRPARS				NA	NA	NA	NA	NA
AK009_06337	423			hypothetical protein	GTGACATGTAGGATATTTCGAGTTGTCCAGCGCCTGTTGGACCTTTGTTGGACCACGACCATTTTCGCACCCAACTCAGGCACGATCCGCCTAACGAATAGCCGCGCGGAACCGACCTGTAGTTCAATCCTGAGGGAGACGAATCAAGCAATGAAGAATGATATTCACCCGGATTACCATCCGGTGATCATCCAGGACGGTAACACGGGAAACAAGTTCCTGACCCGCTCCACGATGACCTCCGATCGCACCGAGCAGTGGGAAGACGGCAACGAGTACCCGCTCATCGTCGTTGACGTGACCTCCGAGTCCCACCCGTTCTGGACCGGCGCGCAGCGTCTCATGGACACTGCTGGCCGCGTTGAGAAGTTCAACCAGCGCTTCGGTGGCATGGCCCGCCGCAAGAAGAAGTCCGCGAACTAA	MTCRIFRVVQRLLDLCWTTTIFAPNSGTIRLTNSRAEPTCSSILRETNQAMKNDIHPDYHPVIIQDGNTGNKFLTRSTMTSDRTEQWEDGNEYPLIVVDVTSESHPFWTGAQRLMDTAGRVEKFNQRFGGMARRKKKSAN				NA	NA	NA	NA	NA
AK009_06338	222			hypothetical protein	ATGAGCGTTTTCTTAGAACTGCTCGACGTCGATCAGGCCAGCCTGAGCGGCCTTGACCAGGCGGCGCGGGATGCGCACTTCCTGACCGTCGATCTTGACGGTCTGCAGGTCGGGGTTGTCGGCCTTCCACTGGGAGCGGCGCGAGTGCGTGTTAGCGCGGGACTTACGGAATTTCTGTACAGCCATGGTGAGTTTTTATTCCTTCGACCTTCTAGTTCTTAG	MSVFLELLDVDQASLSGLDQAARDAHFLTVDLDGLQVGVVGLPLGAARVRVSAGLTEFLYSHGEFLFLRPSSS				NA	NA	NA	NA	NA
AK009_06339	540			hypothetical protein	GTGCGTGGTGCCGTCGTTAAGCGTGACGGCGATCCTGGCGCCATCGGCGCCCTCGGCAATGACGTGGTGGTTGGTCAGAACGTACCCGTCCGCGGAGATGATGGAGCCGGATCCCTCGGCGCTGCCGCGCGGGGAGTCAACCGTGATCGAGACAACGGCGGGCAGGACCGTGGCCGCTACCTCCTCGACCGAGCCTTCGGGCGCGGGCGCGTTGTCGGTGGCGGGCTTGGCGTCGAGCGCGTCGCTGACGTAGGCCTGGTTGTTCTTGCCGGAGATGGTGCCGGCGGCGAAGCCCGCGCCGGCACCGGCGAGGAGGGACGTGATGAGCGCGATCGCGACAACGGGGCGGCGGCGCGGCTCGGGGCGCGGCTGAGCGGTGCTGACCTGATAGACGCCTTGGGGCGGTATGGGATTTGTCATGTGCGACATTGTTCACGCGTCACCTGTGGCGCTTCTGCGCTGGGCAAAGCGTGTAGCATAACACTTCCTGAACGTTTCCTGAATAACAAAACCGGGCCCCGCAAGCGGGGACCCGGTTAA	MRGAVVKRDGDPGAIGALGNDVVVGQNVPVRGDDGAGSLGAAARGVNRDRDNGGQDRGRYLLDRAFGRGRVVGGGLGVERVADVGLVVLAGDGAGGEARAGTGEEGRDERDRDNGAAARLGARLSGADLIDALGRYGICHVRHCSRVTCGASALGKACSITLPERFLNNKTGPRKRGPG				NA	NA	NA	NA	NA
AK009_06340	399			hypothetical protein	ATGAACTTACTCCGAACTGAGCGTCACATCTACTGTTCTCGGATCTGGGTCCCCCTCGGAGCTAACTTCCAAGGTCACGGTCTCGCCGAAGTCCTGCGATCGGGTGGCCGCGATCAACGCGTCAGCCGAATCGATGGGGCGATCATTCAACCGGGTGATCACGTCGCCCGTCTTGATCCCGGCCGCGTCAGCGGGGCTACCTGGCTCCACCCCGGCCACCGTCGCCCCGTTCGCTTGGTCGACGATGCTGACCTGGACGCCGAGCATCGGCTGGCGCGCCTCGCCCGTATCAATCAACTGCTTGGCCACGCGCTGCGCGAAGTTCGCCGGGATGGCGAAACCAAGGCCGATGGAGCCGGCGCCGCCTTGCGGCCCGGAGGCCATGGACGCGATGACTGA	MNLLRTERHIYCSRIWVPLGANFQGHGLAEVLRSGGRDQRVSRIDGAIIQPGDHVARLDPGRVSGATWLHPGHRRPVRLVDDADLDAEHRLARLARINQLLGHALREVRRDGETKADGAGAALRPGGHGRDD				NA	NA	NA	NA	NA
AK009_06341	498			hypothetical protein	GTGCGCTTCGCGCGTCGCCTTTTTCGTTGCGGGTTAGGCACGGGGCTAGACGCTGTACTTGTTCAGGTCCGCGATGAGGTGCGCGACGAGCGGCTGGAGGGTGGCCATGCCGTCCCGGATCGCCTGGCGGCTCGCCGCCAAGTTGACCACCACCGTCGAGCCGGAGACCCCGCAGATGCCGCGGGAGGTGGCGGCGTCGATGGCGCCGCAGGTCTGGCCGGAGGAGCGGATCGCCTGGCCGACGCCCGGAACCATCTTGTCGATCACGGCGCGTGTCGCCTCCGGGGTCTTATCGCGCGGGCCGACCCCGGTGCCGCCGATGGTCAGGACCAAGTCGACACCGCCGACCACACCGGTCTCGATCGCCTTGCGAATGTCCGACTTCTTCGATTTGACGCGCACAACGGCGTCGACGAGGAAACCCGCCTCCGCGAGCAGCTCGCCGACGAGCTTGTGCGTGTCGTCCGCCGGGTCGTCGTAGCGGTGGTCGGAGACTAG	MRFARRLFRCGLGTGLDAVLVQVRDEVRDERLEGGHAVPDRLAARRQVDHHRRAGDPADAAGGGGVDGAAGLAGGADRLADARNHLVDHGACRLRGLIARADPGAADGQDQVDTADHTGLDRLANVRLLRFDAHNGVDEETRLREQLADELVRVVRRVVVAVVGD				NA	NA	NA	NA	NA
AK009_06342	450	mscL_2	COG1970	Large-conductance mechanosensitive channel	ATGCTCAAGGGTTTCAAAGACTTCATCATGCGCGGGAACGTCATCGACCTCGCGGTCGGTGTTGTGATCGGCGCTGCGTTCACCGCCATCGTCACCGCGTTCTCCGACAACATCATCAACCCGCTCATCGCGGGCCTCGGCGGATCCGAGTTCGGTTTCGGCTTCAACGCCATCCCGGGCAACGACGCGACCTTCCTCAACTTCGGCGCGCTGCTGACGGCGATCATCAACTTCCTGCTCATCGCGGCCGTCGTCTACTTCTTCATCGTCGCCCCGATGAACAAGCTCGACGAGATGCAGAAGCGCAAGCGCGGCATCAGCGAGGACGAGCCCGCCCCAACCGACACCGAGCTGCTCACCGAGATCCGCGACCTGCTCGCGGGCCAGAGCAAGCCGGGCAGCGCCGGCACCACCGGCACCGGCAGCACGATCGACCCTCAGTTGCCGTAG	MLKGFKDFIMRGNVIDLAVGVVIGAAFTAIVTAFSDNIINPLIAGLGGSEFGFGFNAIPGNDATFLNFGALLTAIINFLLIAAVVYFFIVAPMNKLDEMQKRKRGISEDEPAPTDTELLTEIRDLLAGQSKPGSAGTTGTGSTIDPQLP	PGPT0013771_675	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
AK009_06343	282			hypothetical protein	ATGGCCCAGAAACTTTATACCATAGCTTTACGGTTCTCCGCCCAGCAAGACCGTCAGGGGGGTCGACAGGGAGGCGGCGGCCACCGCGGCGGCCTGGGAGTCTTTGAGCAGCAGCATGACGGTGCCCTCGCTGCCGTCCGCGCCGGCGAGCGCGACGCGCCCGCCTGCGGCGATGGTCTCGGGGTGGGTGCCGTCCGCAGACACAGTCACTACGTCCACGGTGGCGCCGTGGTGCAGCATCGGGATGATGTCCGGCTCCGCGAGGGCGACGGGCACCATTGA	MAQKLYTIALRFSAQQDRQGGRQGGGGHRGGLGVFEQQHDGALAAVRAGERDAPACGDGLGVGAVRRHSHYVHGGAVVQHRDDVRLREGDGHH				NA	NA	NA	NA	NA
AK009_06344	306			hypothetical protein	GTGGCCCGCGGCCGCGTCCACCTCCCGCAGCGCGTTGTCCGGGATCGCCTCCTGAGGCAGCCGGCGCAGCTCAACGTCGGCGTCCTGGAGGACCTGGCCCGCGTCGGCGGGCTGCGCAAACGTGACAACGAGCGGGTCCGCGGCCCGGTTTGCCGCCGCGTTGAGCGCGGCCGCAGCGAGAAGCGCCGCGGCCGCGGCCCGGCGGAGCAGGACGCTGCGGCGGTAGCCGGGTTCGCGCAGCGCATCCAGAACGTTCATACCCCTATTGGACTGCGCGCGGGCCCCACAGGTTCCCTCACGGCTTAG	MARGRVHLPQRVVRDRLLRQPAQLNVGVLEDLARVGGLRKRDNERVRGPVCRRVERGRSEKRRGRGPAEQDAAAVAGFAQRIQNVHTPIGLRAGPTGSLTA				NA	NA	NA	NA	NA
AK009_06345	2916			hypothetical protein	GTGGAACCCGCCCGAGCTGAGGCCGAGAAATGCAAGCATGGCCCGCTACCGCTGCTGCAGGAACTCGACGTCGACGAGGTCGCCGGGGCGGACCTCGGTGACGTCGTCAGGGATGCGGATCAGCGCGTTGGCCTCCGCGAAGCCGGCGAGAAGGTGCGCGGGCGCGCCCTCGGCGCCGCTGAGCGGCTGGACCAGGTAGTCGCCTGTTTCCGCGTCACGCATGAGCCGCCCGCGCACGAGGCCGAGGCGTCCGGGGAGCGAGTTGATCGGCCCGAGCGAGCGCGCCTGGACGCTGCGCCGCGTCGGCGTCGCCTTGCCCAGAGACTGCCGGATCGCCGGGCGGATCAGCGTCTCGAAGATGACCAGCGAGCTGACCGCGTTCGTCGGCAGCAAAAACACGGGCACGCGCTCCTCGCCCACCAGCCCGAAGCCCTGCACCGATCCGGGGTGCATGGCCACGCGCGTGGTGTCGATCTCCCCGAGCTCGCGAAGCACCTCCTGCAGCGGCGCCGCGGAGCTGCCCCCGACAGCGCCCGTGATGATGAGCATTTCGCTTCTCGACGCCTGGTGGGCGACCGTTTCCTTCAACCTGCGCGGCTCGGCGTTGATAATCCCGGCGCGGGTCACGGTGGCCCCGGCCTCAATCGCTGCCGCCGCGACCGCGTAGGAGGCGACGTCGTAGACCTGGCCGAGTCCTGGGCTGCGCTCGATGTCGACGAGCTCGAGGCCGTAGGCCATGACGGTGACGCGGGGACGCGGGTACACCAGCACCTTGTTGCGGCCCGCGGCGGCGAGCAGGCCGATCTGCGCCGGGCCGATCACCGAGCCCTGGCGCACGGCAACATCGCCGGGTTGGATGTCGTCGCCGGCCTTGCGCACGAAGTCGCCGGTGCGCACGGGGCGCGACGGGGTCATGCGCTTGCGTCCGCGGTCGCTCCACTGCAGGGGCAGGACGGCGTCGGCAAGCGTGGGCAGCGGCGCACCCGTGGCCACCTTCACGGCCTGCTTGGGCTGCAGGCGCAGCGGCTTCTGCGAACCCGCGGCGACCTCGCCGACGACGGGAAGCGACCGCTCGGCCGCCTTGCCCTCCTCCTGGACCGCGGCGGGCCCGGATCCCAGCGCTACCCCGCCACCGACGTCCACGGCGCGCACCGCGTACCCGTCGACCGCGGCCTGGGCGAAGCCGGGAAGCGGCGCCGCGGCGGCGACTTCCTCCGCGCACATCAGGCCGAGGGCGTCCGAAATTGCGACGCGGATGGGCTCCGGGACAGGCGCGGCGTCGACCACCATCGCCAACTGCTCGTCCACGCTGCGCATCTTGGGCATCATGGTTGCAGACTACATTTCCGCTTCGTACTCACGCAGGATCGCCTTGATGGCGGTGTAGAGCGCCGGGCCGTACTTCTCGTCACGCAAACCGAAGTCGACGTTGGCGGGGATGTATCCCGCCGGGTTGCCCAGGTCGTGGCGCTTGCCCTCGTGCACCACGACGTGGACGGGGTGGCCCTCCTGGATCATCAGCTCGATCGCGTCGGTGAGCTGCAGCTCGCCTCCCTTGCCGGGGGTGATGCGGCGCAGCGCGTCGAAGATGGCGCGGTCCAGCAGGTAGCGCCCCGTTGCGACGAGCGTCGACGGCGCCTCCTCCTTGGCGGGCTTTTCCACCATGCCGCGGACCTTCTTCACCGCGAACCCGTCGAACGCGGCGTCGTGCTGGGCGTCGATGTCCTCGACGTCGAACACTCCGTAGTTGAAAACCTCGTCCGGGGTGACGTTGAACGCGCAGAGCACGGAACCGCCGAGCTCCGCGCGCACGCGCGCCATCTTTTCCATCACTCCGGTGGGCAGAACGAGGTCGTCGGGAAGCATGACCGCCACAACATCCTCGTCGTCGTCGAGCGCCGCCTCGGCGCAGCCGACCGCGTGGCCGAGGCCGAGCGGCTTCTCCTGGATCACCGACACGGCGTCGATCAGCTTCGACGCGCGCGCGACCTTTTCCACCTGGGCGGTCTTGCCGCGCTCGGTGAGCGTCTCGCACAGGGACTCAAACTCGCCGAAGTGGCGCATGATCTCCTGCTTCTCCGGGGCGGTGATGATCGCCAGGCGCCTCGCTCCCGCCTCGGCGGCCTCCTCGGCGATGAGCTCGATGCCGGGCGTGTCCACCACAGGCAACAGCTCCTTCGGCACCGTCTTCGTCGCTGGCAGGAACCTCGTTCCCATGCCGGCCGCCGGCACAACGACGGTTCTGATTCCGGGCGAGGGGTTCTCACTGGTAGTCCGCATAAGGTTGGAGCTTACCCCCGGCCCCCGCCGATTCCGGGAGCGACCCTTGGGTGGCCGGTGTGCGAGAATGCCCCCATGTCACCGAAGTCGGCGATGCGAGAGCGGCACCTCGCTTATCGACGCCACCTCCGCGCCCGCCCCGGCCTCAAGCGCGAGCTCGACCAGGCGATTACCGCGCACGCGGTGGACTACCTGTCGTCGTTCGGCGGGGAAAACGCCGCGGCGTACGTCCCGCTCGCCTCCGAGCCGGGGGGCGACGGCTTCGTCGCCTCCCTCGCCGCCGCGTGCCGGCGCCTCTTTCTCCCCGTCTCGTTGTCTGGCGGAGTGTTGCAGTTCTCGCCGCACGATCACGCGTTGGCCCCCGGCGCCCTGGGCATCGCGGAACCGGTCGGGGCGCGGTTCAACTCGAACGTGCTGCGCTCCTGCCGCGTCGTCATCGTGCCTGCCCTGGGCGTCGGCCGGGACGGCATGCGGCTGGGCAAGGGCGCGGGCTACTACGACCGCGCCCTGGCAGGGTTGGACGTGCCCACCGTGGCGGTGGTCTACGAGCGCGAGTTCGTCGCGGCGGTTCCGCACGACCCGCACGACGTCCCCGTCAACGCCGTGATTACCGAGCGCGGAGTGAGGCTGCTCTAA	MEPARAEAEKCKHGPLPLLQELDVDEVAGADLGDVVRDADQRVGLREAGEKVRGRALGAAERLDQVVACFRVTHEPPAHEAEASGERVDRPERARLDAAPRRRRLAQRLPDRRADQRLEDDQRADRVRRQQKHGHALLAHQPEALHRSGVHGHARGVDLPELAKHLLQRRRGAAPDSARDDEHFASRRLVGDRFLQPARLGVDNPGAGHGGPGLNRCRRDRVGGDVVDLAESWAALDVDELEAVGHDGDAGTRVHQHLVAARGGEQADLRRADHRALAHGNIAGLDVVAGLAHEVAGAHGARRGHALASAVAPLQGQDGVGKRGQRRTRGHLHGLLGLQAQRLLRTRGDLADDGKRPLGRLALLLDRGGPGSQRYPATDVHGAHRVPVDRGLGEAGKRRRGGDFLRAHQAEGVRNCDADGLRDRRGVDHHRQLLVHAAHLGHHGCRLHFRFVLTQDRLDGGVERRAVLLVTQTEVDVGGDVSRRVAQVVALALVHHDVDGVALLDHQLDRVGELQLASLAGGDAAQRVEDGAVQQVAPRCDERRRRLLLGGLFHHAADLLHREPVERGVVLGVDVLDVEHSVVENLVRGDVERAEHGTAELRAHARHLFHHSGGQNEVVGKHDRHNILVVVERRLGAADRVAEAERLLLDHRHGVDQLRRARDLFHLGGLAALGERLAQGLKLAEVAHDLLLLRGGDDRQAPRSRLGGLLGDELDAGRVHHRQQLLRHRLRRWQEPRSHAGRRHNDGSDSGRGVLTGSPHKVGAYPRPPPIPGATLGWPVCENAPMSPKSAMRERHLAYRRHLRARPGLKRELDQAITAHAVDYLSSFGGENAAAYVPLASEPGGDGFVASLAAACRRLFLPVSLSGGVLQFSPHDHALAPGALGIAEPVGARFNSNVLRSCRVVIVPALGVGRDGMRLGKGAGYYDRALAGLDVPTVAVVYEREFVAAVPHDPHDVPVNAVITERGVRLL				NA	NA	NA	NA	NA
AK009_06346	324			hypothetical protein	GTGGTAGTCGTCCGCGTTGAGCGCCACGAAGTGGTGGTCGCGCCACTGCCCGTCGATGTGCAGGTTGCGGCGCATGTAACCCTCTTGGCGGTAGCCGTTGGCCACAAGCACTTTGCCCGAGGCCGGGTTGTCGGGCAGGTAGGTCGCGGTGACCCGGTGCATGCCGACGCGCCCGAAGGCGTGGTCGGTGCCGAGCGCACAAGCGGCCGTCGCCACGCCGCGGCCCATGAAGGCCGAGTGGACCCAGTAGCCGATCCAGCATTCGGAGACGGAGCCGTGCTGGATGTTGCCCAGCGTGACCTGGCCGGCAAAGCGGCCGTCTAG	MVVVRVERHEVVVAPLPVDVQVAAHVTLLAVAVGHKHFARGRVVGQVGRGDPVHADAPEGVVGAERTSGRRHAAAHEGRVDPVADPAFGDGAVLDVAQRDLAGKAAV				NA	NA	NA	NA	NA
AK009_06347	1071			hypothetical protein	GTGGTAGTCGTCGTACTCGTAGCTCACGGCTGCCGGTGCTGCGTAGTGGTAGTCGAGGTTCGCGAAATCGGGGCTTTCGTCGTCAAGCTCGACGATGACGGCGCCGGGCACGCGGCGCTCACGCGGCAGCGCCGCGGAGTCGGCGGAGGTCACCACACCCATCCGAGCGCGGCGCAGCTGGCGCACGCGGCGCGCGTGCAGGGCGCGTTCCTGCTTCACCACGGAACGCAGCACCACCATGAACCAGACCGTCAGCGCAACCGTGATCGCCGGCACGACCCAGGCCCAGCCGCCGACCACGAACGCGAAAACCACGGCGATGACGTCGGCGACGATGAGACCGAGCAGCGTGCGCTGGCGGCGCTTGAACCTGTCCTCGCGAGCCGCGTGCTCGCGCTCTGGGTCCCAGCCGCCGCGGCCGCGGCGGTTCTGCGCGAACGCGATCTCCTCGGCGGTGAGCTCAGAGTGGTCCTCGATCTGCTCGGTGTCGTCCTCCGCTGCCGGAGCAGCCGTGACCTCGTCCTCGACAACGAGCTGCTCGTCGGCATAGCCGTAGTCGCCCGGGGAGGCGTAGGAGTCGTCGACCTCGTAGTGGTCCTGCTCGATGTCGCCCGCATCGTCCGCCTCAGCCTGAAGCACCGACCACGCGGTGGATCCCGAGGGGGCGGGCTGCTCCTCCTCGACGACGACCTCGCCGTCGATGTGTTCCTGCTCGGGCTCGTCGACACGCAGGCTAATCGCGGTGGAGCCGCCGGTACTGGCCAGCGGCGCCGCTTCAGCCTCGACGACCTCGTAGTCGGCCACCGCGGAGTCGTCGTGGCGGTGCACGTCGGCGGCGGAGAGCTTGGGGCGGCGGCGCTGCGCCACCGGCTCGCTGCCGCCGGCGTGCAGCACCCGGGTGGCGTCATAGCCGTCGCCGGAGTGGCGGATCGGCTTGTTGTTGCCCATGACGATCGGGGCCAGGACGATCACCCAGACGACGATGATCAGCACGATGATGAGGCTGAGGCTGCCCATGTGGGGAGGCCACCTTTCTTGCAGCGGGGATTAAACAGCGGAGTCGGGTTGTAA	MVVVVLVAHGCRCCVVVVEVREIGAFVVKLDDDGAGHAALTRQRRGVGGGHHTHPSAAQLAHAARVQGAFLLHHGTQHHHEPDRQRNRDRRHDPGPAADHERENHGDDVGDDETEQRALAALEPVLASRVLALWVPAAAAAAVLRERDLLGGELRVVLDLLGVVLRCRSSRDLVLDNELLVGIAVVARGGVGVVDLVVVLLDVARIVRLSLKHRPRGGSRGGGLLLLDDDLAVDVFLLGLVDTQANRGGAAGTGQRRRFSLDDLVVGHRGVVVAVHVGGGELGAAALRHRLAAAGVQHPGGVIAVAGVADRLVVAHDDRGQDDHPDDDDQHDDEAEAAHVGRPPFLQRGLNSGVGL				NA	NA	NA	NA	NA
AK009_06348	267			hypothetical protein	GTGGTTCGACATCGCCGTCGGTTTGATCATCGCGGTGCTCAACCTCTCGGCCGCGAAGGAGGTCTGGGAGGAGGCGGACTAGGCCTGGGCGCTGCCTTCCGGGGTGGCGTGGTCCTGGTCGACGATGACGTGCAGGACGGCGACGTGGGCGTCGTCAAGCGCGGCGAACGCGCGCTGCACGGCACCGTCGACTTCGTCGTCGCGGCTGACCGTCTCCGCCCACGCACCCATCGCCTGGGCCCAGGCGGCGAAGTCCGGGTTGGATAG	MVRHRRRFDHRGAQPLGREGGLGGGGLGLGAAFRGGVVLVDDDVQDGDVGVVKRGERALHGTVDFVVAADRLRPRTHRLGPGGEVRVG				NA	NA	NA	NA	NA
AK009_06349	162			hypothetical protein	ATGAGCGCGGATCGTGCCGTACTGCTGGTTGTCCACCACCACAATCAGCATCGGAGCCTCGTAGCGCACCGCGGTGACGATCTCTTGGCCGTTCATCAGCAGCTCCCCGTCGCCCGCGAAGACCACCACGGTCCTCTCCGGCAGCGCGAGCTTCGCGGCTAA	MSADRAVLLVVHHHNQHRSLVAHRGDDLLAVHQQLPVAREDHHGPLRQRELRG				NA	NA	NA	NA	NA
AK009_06350	195			hypothetical protein	GTGGTTACCGGCGCCGAACGCAGTGAGCGCGGTGTCGTCGAGTCGGGCCGTGACCTGCTCGAGGACGTGGTAGAAATCCACCGCGCCCTCGGGCAGGTTGGCGAAACGCTCCTCCGGGGCGGGGATGGCGGAAAACTCGGCGTGAATATTGCGGGCTTTGGCGAACCATTGAGTGGTGTCCGGCTTGGAATCTAG	MVTGAERSERGVVESGRDLLEDVVEIHRALGQVGETLLRGGDGGKLGVNIAGFGEPLSGVRLGI				NA	NA	NA	NA	NA
AK009_06351	351			hypothetical protein	GTGGGTCAGCGCCCCGGAGGAGCCCTTAAGTCCGGCGTCGGAGTTGACCACGATGTTGACCGCATCGAGGGACTGGCGCAGCGTGAAGTTGTCGGTGGGCTTGTCCCACAGCTTCGCGCCGATGCACAGCAGCACGTCGGCCTCCTCCAGCAACTGCGCCGTCTCCTCGTTGCGGGCGGTACCCAGCCAGCCCGCGTTGGCGGGGGAGTCGAAGTCGATGTGGTCGGTCGAGCGCATGTCGTTGACCACGGGGATGGTGTAGCGCTCGGCGAAGCTCTGCACCGCGTCGCAGGCCTGCTGGGTCCAGCCCTGGCCGCCTTCGAAGATGAGCGGGGTGCGGGCGCCGCGTAG	MGQRPGGALKSGVGVDHDVDRIEGLAQREVVGGLVPQLRADAQQHVGLLQQLRRLLVAGGTQPARVGGGVEVDVVGRAHVVDHGDGVALGEALHRVAGLLGPALAAFEDERGAGAA				NA	NA	NA	NA	NA
AK009_06352	672			hypothetical protein	GTGGTCCGCCACCGCGCCCTGCGCGGTAGCCATCGGCCCCCCAATCTCCCCGGTGAACTCCTCGAGCAGCACGTCCTCGGGCAGGCCGACGACGACCGGGCCGCGCCGACCCGACTGGGCGAGGTGGAACGCGTTGGCGACGACACGGCTGGCGCGCTGCGCGTCGTCGACGACGAACACGCCCTTGGTGATGTCACCGAACCACACGTTGATGTCGAACTCTTGGAACGACTCCCGGTAGCGGTCCTTCACCGGCACGAGGCCGACGAAAAGAATGAGGGGGACCTCGTCCTGCCACGCCGTGTAGACGCCAATCTTAGCGTTCGCCGCGCCGGGGCCGCGGGTGACCATGGCCACGCCCGCGCGGCCGGTGGCCTTGCCGTGCGCCTCGGCGGCGTAGGCGGCGCCGCCCTCGTGGCGGCACACGATGGAGGCGATGGAGCTGTCGTGCATCCCGTCGAGCACCGCGAGGAAACTTTCCCCGGGGACCATAAACACGTGCGAGACGTGGTGTGCTTCAAGGGACTGTGCGATGGCCTCTCCGACATGCATGGATGCCACCCTACCCCCAGATACCGGAGGAGCCCCTGCGCCAGCTACCCACCAGGTGCGTATCCACAACCCCCGTCGACTCCATTAGCGCGTACATGGTCACCGGGCCAACGAAGCTGA	MVRHRALRGSHRPPNLPGELLEQHVLGQADDDRAAPTRLGEVERVGDDTAGALRVVDDEHALGDVTEPHVDVELLERLPVAVLHRHEADEKNEGDLVLPRRVDANLSVRRAGAAGDHGHARAAGGLAVRLGGVGGAALVAAHDGGDGAVVHPVEHREETFPGDHKHVRDVVCFKGLCDGLSDMHGCHPTPRYRRSPCASYPPGAYPQPPSTPLARTWSPGQRS				NA	NA	NA	NA	NA
AK009_06353	246			hypothetical protein	ATGCTCGATCGAGTCCATGCACGCGACGGCATCGGGGTCGAAGCCGCAGAAGGCCTCGCGCAGCGCGTCGCGCTTTTGCAGGATCAGCCGCCACGACAAGCCCACTTGGAAGCCCTCGAGGCAGACGCGCTCGAACATGCCGCGCTCGTCGGTCACGGGCATGCCCCACTCGGTGTCGTAGTAGTTGCGCAGCAACTCGTCGGCGGCGGCCCAGGGGGGGGCGGGCGCGGCCGTCGTCGCCGATGA	MLDRVHARDGIGVEAAEGLAQRVALLQDQPPRQAHLEALEADALEHAALVGHGHAPLGVVVVAQQLVGGGPGGGGRGRRRR				NA	NA	NA	NA	NA
AK009_06354	297			hypothetical protein	GTGGTCGAGGTGGACAAAGTAGGCGGCCGCCGCGGCGAGCAGCGCCAACACACCCGCGACCAACGTGGTCAGCAGACCGATAATCAGCAGCGCACCGCCGATGAGCTCGACGGACCCGGCGAGGTAGGCGCTGAGCTTAGGCTGGGGCACGCCCCATTCGGCGAATTGCGCCGCCGAGCGCGCCATGCCCGTTTCAAACCAGCGGCGGTAACCGTGGGCGACGAAAACGGCGCCGAGGACAAAACGCAACACCAAAAGCGCGAAGTCGCGAACCGCGGGCCTGTTCATGTGGAATAG	MVEVDKVGGRRGEQRQHTRDQRGQQTDNQQRTADELDGPGEVGAELRLGHAPFGELRRRARHARFKPAAVTVGDENGAEDKTQHQKREVANRGPVHVE				NA	NA	NA	NA	NA
AK009_06355	732			hypothetical protein	GTGATCGCGACCTGCGGTTTCACGGCCGGGCGCGCCTCGACCGTGACATCTCACCGCCCCACCAAACAACGAAAACCCACCCTACGTCGGATCCGCACCCAGCGACCGCCACGCCCGGCGCAGCTGCGGCCCGCGATCCACGGCGAGGGTACCCAGCAGCGCGATGAGGGTCGGCAGCAGGATCAGAACGTGGGGCGCCACGCCCGAACCGGTGTCGAGCACTGCGTCGCGCACCACAAAACCCAGAGTGAAGGTAAACATGGTGCCCACCACCAGCGCGATGCCGGGGATCTGGGCCGGGCGCGCCGCGGTGTAGGCGAGCGCGGTGGCCACGCCGAGGCGCACCGATGCCGTGCCCGACTCCCCTCCATTGACAAGGTGCATCACTGCCCACGCCAGCCACACCAGCGCCGCCGCGACAAGCGCAACACGGCACAGGGTCAGCAGCACCATGCGCCGCTGCGACAGCTTGCGCCACTCGCCCTCGACACCGGCGAGGATCACCGTGGAGAGGTTTTCCGGTGGCGCAATCCCGCCGCCAATCTCGGCGAAACGCAGGTTGCGCGACAGGGAGAGAATCCGCTGGTAGTAGGCGCTGCACTCGGCGCACTCGGCGACGTGGGCGTCGACGACGGCGTCGTCAAGCCCGCTCGATTCCCCGTCGACGCGGGCGGAGAGCGCGGCGCGCACCTGGTCGTGGCTAAGCACGAGTTAACACCCCGTCGAGGCTAG	MIATCGFTAGRASTVTSHRPTKQRKPTLRRIRTQRPPRPAQLRPAIHGEGTQQRDEGRQQDQNVGRHARTGVEHCVAHHKTQSEGKHGAHHQRDAGDLGRARRGVGERGGHAEAHRCRARLPSIDKVHHCPRQPHQRRRDKRNTAQGQQHHAPLRQLAPLALDTGEDHRGEVFRWRNPAANLGETQVARQGENPLVVGAALGALGDVGVDDGVVKPARFPVDAGGERGAHLVVAKHELTPRRG				NA	NA	NA	NA	NA
AK009_06356	645			hypothetical protein	GTGGCTGACGGTGCCGGTGCTGCTGTGGTCTGCGTGGGTGTGGCTGACGCGCCGAGACGTCCGAGTCATCGTGCCGCTCATCGCGTTCGCGGCCGGATTTGTGCCTTGGCTGGCCGCGTTCGACCGTCAGATGTACTTCTTCTACGCTGCCGCGCTCGCGCCGTTTATCTGCGTGCTGCTCGCCATCGCCGTCGGCTACGTGGCGCGGCTTGGCACCGCCGTGCCGCTGAAGTGGGTGCGCAAGCTCGCGGGATACCCCGTGACCACCGGCCAGCTCGCCGTGATTGTGTATCTGGCGATGGTGGTCGGGATGTTCATCTACTTCGCGCCGATCCTCTACGGCATCCGCATCCCGGACTTCTACTACGCGTTGATTATGTGGTTGCCGAGCTGGCGGTAGTTTGGTTTGGTTGTGCGTTGTGCTGGGGTGGGTGTTGCGGTCGGTTAGATGTCACGGTCAACGGCTGGGCTGTGGTTGCGACCTGGGGTTTTGCGGCCGGGTGGGGCTTGAGTGTGACATCTCACCCGGTCAGATGTCACGGTCAACGGTTCTGCCGTGGTTGCGACCTGCGGTTTTACCGCCGGGTGCGCCTTGACTGTGACATCTCACCCGGCCAAACGTCACGGTCGATGGTTGCAGAGTGA	MADGAGAAVVCVGVADAPRRPSHRAAHRVRGRICALAGRVRPSDVLLLRCRARAVYLRAARHRRRLRGAAWHRRAAEVGAQARGIPRDHRPARRDCVSGDGGRDVHLLRADPLRHPHPGLLLRVDYVVAELAVVWFGCALCWGGCCGRLDVTVNGWAVVATWGFAAGWGLSVTSHPVRCHGQRFCRGCDLRFYRRVRLDCDISPGQTSRSMVAE				NA	NA	NA	NA	NA
AK009_06357	339			hypothetical protein	GTGGAAGTCCGCCACCGAGAGGTGGTAGTACAGCCAGCTCGCTACAGCGTCCGGCAGCGCTCCGAGCCAGGGCCAGTCCGAGCCGGAGATCGTCCCATCGACAGCGGCGTGGCGGTAAACGGATGTTTCGGATGCGAACCAGGCGCGCCAGGAGAAGATGTAGAGCAGCGCCGGGACCACCACGAGGGAGGCAAGCGCGGCCGGGACGTCGCGAAGCAGCGTGCCCACGACGGGCTTGGCAACCCCGTAACGGCGGCGCAGCCACAGGTCCCAGAAAGCGGAGAGCAGGCCGAAAAACGCGATGTAGTACAGCCCCGACCACTTCACGGACAGTGCTAA	MEVRHREVVVQPARYSVRQRSEPGPVRAGDRPIDSGVAVNGCFGCEPGAPGEDVEQRRDHHEGGKRGRDVAKQRAHDGLGNPVTAAQPQVPESGEQAEKRDVVQPRPLHGQC				NA	NA	NA	NA	NA
AK009_06358	1065			hypothetical protein	GTGGTGCATGCGCGCGTGGGCCTCGCGCATATCGCCGGCCAGCGTCCAGGCCGCGGCGACGATGAAAAACACCTGGAAGACGTCGAGCATGCCGAACTTCGCAGTCACCAGCAACACGCCGTCGAACACGGCAATGAGCCCGGCCACAAACCCCAACGCCGTCGATTGGGTCAGCCGGCGGCACAGCAACAGGGTGAACACCACGGTCCCGACGCCAAAGAGCGCGGGCATGATCCGCCAACCGAGTGGGGTGTAGCCGAAGAGGAACTCGCCAATGGCCAAAAGCTGCTTGCCCAGCGGCGGGTGCACGACCAGGCCGTAGGCGGGGTTCGACTCGATCCCGCCGAGCACCGGGTTGGAAAACGAGCGCACCATGTCCCACGCCTGCGGGACGTAGTGCTTCTCGTCGAAGATGGGGGTGCCGCTGGCGGTGGGCTGGGTCAGCCCGATGAGCCGGGTCAACAGCGCGAGCCCTGCCACGATAGCCAGCGCCACGGTGTCGCGCCTGGCCCACGGGATGGTTACCGGCGGGCTCGGGGCAACTCGTTTGGGGGAGATGGCCGTAGTCACCCCGGGGATATTACCCTTGGTCCCCATGAGCGAGAGCGAATCCACCGTCCCCGCCACCGGCATCGTGCTCGCGGCCACCCCACTGGGCAACATCGGCGACGCCTCGGCCCGCCTCGTCGAGGCGCTGGGCGCCGCCGACGTGATCGCGGCGGAGGACACCCGTCGCACCCGCCAGCTCGCGGCGGCGCTGGGGGTCGAGCTCGCGGCCAAGGTGGTGTCGAACTTCGACCACAACGAAAAGCTTCGCGTCGACGAGCTTATCGACGCCGCCCGCACCCGCATGGTCCTCGTCGTCACGGACGCCGGGATGCCGCTGGTCTCCGACCCTGGCCACGTGGTCGTCTCCGCCGCGCACGATGCCGGCGTGAACGTCACCTGCGTGCCGGGGCCATCCGCGGTGACCACGGCGCTCGCGCTATCCGGGCTGAACGTGGGCCACTTCATCTTCGACGGCTTCGCACCCCGCAAGTCCGGCCCGCGCCGCGCATGGCTTGA	MVHARVGLAHIAGQRPGRGDDEKHLEDVEHAELRSHQQHAVEHGNEPGHKPQRRRLGQPAAQQQGEHHGPDAKERGHDPPTEWGVAEEELANGQKLLAQRRVHDQAVGGVRLDPAEHRVGKRAHHVPRLRDVVLLVEDGGAAGGGLGQPDEPGQQREPCHDSQRHGVAPGPRDGYRRARGNSFGGDGRSHPGDITLGPHERERIHRPRHRHRARGHPTGQHRRRLGPPRRGAGRRRRDRGGGHPSHPPARGGAGGRARGQGGVELRPQRKASRRRAYRRRPHPHGPRRHGRRDAAGLRPWPRGRLRRARCRRERHLRAGAIRGDHGARAIRAERGPLHLRRLRTPQVRPAPRMA				NA	NA	NA	NA	NA
AK009_06359	309			hypothetical protein	ATGGATGTCGCTCCTTTAGTGCTACTAGTGAGACGATTCTCAGGCGCTAGGCAGACTACCCCACGTCGACGACATTCGTTAACCGAGATCGCGCTGTGCGAGGGCCTCGTCGTACAGATCCCCAGCCTTCACGCCGTGGGCGCGCGCGATGTCTTTCACCACGTCTTTGAGCCTTTCACCAGCATCGACGCGCGCCCTGACGGCATCGACCAGGTCGGTTGCGTTCCGCGCTGCGGGCGCGCCGCCCTCAATGACCACGGTGATCTCGCCGCGCAGCCCCTCGGCCGCCCACTGGGCGAGCTCGCTTAA	MDVAPLVLLVRRFSGARQTTPRRRHSLTEIALCEGLVVQIPSLHAVGARDVFHHVFEPFTSIDARPDGIDQVGCVPRCGRAALNDHGDLAAQPLGRPLGELA				NA	NA	NA	NA	NA
AK009_06360	219			hypothetical protein	GTGCAGCGTCCAGTGGAACATCGTCTGCGCCATGGAGGTGCCCACCTCGTTGGCCGGCCGTCCAGGAACACCGTCGCGGTACATGCTCAGCGGCTCGGATGCGCCGTAGAACATGAGCCCGATGCCCATGCCAGCGGCAAACATCATGGAAATCCACGACGCGGTGGAGAACTCGGGCTGCTCGTCGGGCCTGCCGAGGCGGATGGAGCCGAACTTTGA	MQRPVEHRLRHGGAHLVGRPSRNTVAVHAQRLGCAVEHEPDAHASGKHHGNPRRGGELGLLVGPAEADGAEL				NA	NA	NA	NA	NA
AK009_06361	411			hypothetical protein	TTGGTTCACGTAGGAACCAATCGCGGTGGGCAGCATGTTCAGCATGCTGACCGTTGGCCCGACAACGAAGACGAAAACTGCCAAGAGCGCAGCGATGATCATGTTGAAGTTAGACAACAGCCGGATTCCGCGCGAGACGCCGGAGACTGCGGAGATCAAAAAAGCAAGTGTGAGTACCGAAATGATGCCGATGGTCAGCTGCGTCGAGGGGGATTCGACGAACCCGGAGGCGCGCAGCCCCGAGGTGATTTGCAGCGCGCCGAGGCCGAGCGAGCAGGCCGTGCCGAAGATGGTGGCGAAGATGGCGAGCGCATCGATGATCTTGCCCACGAAGCCCTCAGCGCCCTTTTGCCCGATCATCGGGACAAAGGCGCTGGACAGGAGCTGCTTGCGGCCGAGTCGGAAGGTTGA	MVHVGTNRGGQHVQHADRWPDNEDENCQERSDDHVEVRQQPDSARDAGDCGDQKSKCEYRNDADGQLRRGGFDEPGGAQPRGDLQRAEAERAGRAEDGGEDGERIDDLAHEALSALLPDHRDKGAGQELLAAESEG				NA	NA	NA	NA	NA
AK009_06362	210			hypothetical protein	GTGCAAAAGGCTAAAGAGCTGGTCTTCGGGGTCCCCGGAGCCGTAGATCGAGTTACCCTCCTGCTCGAGTTTGATGGCGTAGCCGCCGAAGATGGTAAACCAGATTGTCGACAGCATCGAAGGCACGAGCAATACGCCGAGGCAGAACTCGCGGATCGTGCGCCCACGCGAGATGCGCGCCAGGAACATGCCGACGAAGGGCGACCATGA	MQKAKELVFGVPGAVDRVTLLLEFDGVAAEDGKPDCRQHRRHEQYAEAELADRAPTRDARQEHADEGRP				NA	NA	NA	NA	NA
AK009_06363	246			hypothetical protein	GTGGCGGCGGCGCTCCACCGCGAGCTGCCGGGCGAAGCGCTCCTGTTCCTTGGCATCGAGGTAGATCGGGTCATTGGAGACATCTTTAACAATCGCGAACATCAGCGCGACGAGGATGAACAAGAACGGTGTCGCCGCGACGATGGTGACCGACTGCAAGGAGTTGAGCGCGTCGCTGCCACCGTTGACCAGCAGCATCAGACCGACACCCGCGGTTCCGAGGCCGAAGACCGCGGCGAGCCATGA	MAAALHRELPGEALLFLGIEVDRVIGDIFNNREHQRDEDEQERCRRDDGDRLQGVERVAATVDQQHQTDTRGSEAEDRGEP				NA	NA	NA	NA	NA
AK009_06364	339			hypothetical protein	GTGGTTACGAGTGGTGGTGCGGGTGAACAAGTCGTAGGACAGGCCCAGGCCCGCGAGGTCCTCGACGATCTGCGCGTTGTAGCGATCCGCGAGCTCCTTGACAGTCACGCCCTCCTTGTCCGCCTGGACCAGAAGCGGGGTGCCGTGCTCATCGGTGCCGGAGACCATGAGCACATTGCGGCCCGTCATGCGCTGGTAGCGCGCAAAAACATCGGAGGGAACCCCGAAACCGGCGACGTGGCCGATGTGGCGGGGGCCGTTGGCATAGGGCCAGGCAACGCAAACGAGGACGTTGTCGTGAGAAGTCATGGCCTCAACCTTACTGCCGGCCCGGGGTGA	MVTSGGAGEQVVGQAQAREVLDDLRVVAIRELLDSHALLVRLDQKRGAVLIGAGDHEHIAARHALVARKNIGGNPETGDVADVAGAVGIGPGNANEDVVVRSHGLNLTAGPG				NA	NA	NA	NA	NA
AK009_06365	204			hypothetical protein	GTGAAGCGAGGGCAAATCGAGCATGAAGTGCTCGGTGTCGACGAACTCCGGGGTCTCCCCGTTGATCTTGGACACCGGGTTGATCAGGTCGGCCGGATCGAGCTGGTTGCCGCAGGTGTCGCACTGGTCGCCGCGCGCGTCGGTCGCGCCGCAGATCGGGCAGGTGCCCTCAATGTAGCGATCCGGCAGGGTGCGACCCGTTGA	MKRGQIEHEVLGVDELRGLPVDLGHRVDQVGRIELVAAGVALVAARVGRAADRAGALNVAIRQGATR				NA	NA	NA	NA	NA
AK009_06366	903			hypothetical protein	GTGCACGCGCTGCGCGGTGTGCGGGATAAAGGGGGTGAGCATGGCGTTGCAGTCGGAGACGACCTGCAGCGCGGTCCACAGCACCGTGGCCAAGCGGTCGCGCTGCGCCGGGTCCTTCGCCAGCTTCCACGGTTCGTTCTCCGCGATGTAGGCGTTGGCCTCTCCGACGACGTGCATGACCTTGGTAATCGCGTTCTTGAACTTCGCCTCTCCCAAGTCCGCGCCGGCCTCGACGAAGGTGCGCTCGGCCAGGTCCAGGATGCGCTGGTCAGATTCCTCCAGCACGCCAGGCGCGGGCACCTCGCCGAAGTTCTTGTGGGCCATGGACACCGTGCGGTTAACCAGGTTGCCCCACCCGTTGGCCAGCTCGTTGTTCACCCGGCGCACGAACTCGTCCCAGGTGAAGTCCGTGTCGTTGTTTTCTGGGCCGGCGACCGCGATGAAGTAGCGCAGCGGGTCCGGTCCAAACTCGGCGAGGAAGTCCTTGACGTAGATCACCACGCCCTTCGACGAGGAGAACTTCGAGCCGGACATGGTGAGAAACTCCGAGGACACGACCTCGGTGGGCAGGTTGAGCTCCCCGAGCACACCCGGGCTGCCGCCGGTCGCGCCCTTGCCCGCGTAGCCGAGCAGCTCCGCCGGCCAGATCTGCGAGTGGAAGGTGATGTTGTCCTTGCCCATGAAGTAGTAGCCCTCGGTGGCGGGGTCCTGCCAAAACGCCTTCCACGCATCCGGGTCGCCCGAGCGCGCCGCCCACTCGATCGAGGCGGAGAGGTAGCCCACCACCGCGTCGAACCACACGTAGAGCTTCTTCGAGGGGTTGTCCTGCCAGCCCTCGACCGGGATCGGGATGCCCCAGTCAATGTCGCGGGTCATCGCACGCGGGCGCATGTCCTCGAGTAG	MHALRGVRDKGGEHGVAVGDDLQRGPQHRGQAVALRRVLRQLPRFVLRDVGVGLSDDVHDLGNRVLELRLSQVRAGLDEGALGQVQDALVRFLQHARRGHLAEVLVGHGHRAVNQVAPPVGQLVVHPAHELVPGEVRVVVFWAGDRDEVAQRVRSKLGEEVLDVDHHALRRGELRAGHGEKLRGHDLGGQVELPEHTRAAAGRALARVAEQLRRPDLRVEGDVVLAHEVVALGGGVLPKRLPRIRVARARRPLDRGGEVAHHRVEPHVELLRGVVLPALDRDRDAPVNVAGHRTRAHVLE				NA	NA	NA	NA	NA
AK009_06367	390			hypothetical protein	GTGCGCAGCAGAAGATCGGCGCGGTGGTGGGTGCGAACACCACGCCCAGGTACCCGGCGGCGCAGAAACCGACACGGTGGCCGAGTAGATGGTGGTCAGCGCGACGATGTGCGCGCCGCCGTACTTGTTGATCCATGCCGGCAGGATCACGTTGACCAGCGCGATGCCGCCCGCCACGGAGATCGTAGCCAGGATAAACAGAGAAATCATCGGAGCGAACGGGCGCAGCGCGAGGCCCGCGGCCGTTGCGATGGCGGCCGCGAGCAGCGTCGGCGTCAACCCGACCCGGCGCGCCAGCGGCACCGCGCTGAGCCCGAAGACGCAAAACAGTGCCCCGGGCATCGCGGTGATCACCCCGCCGATGGAGGCGGGGGCGTTGTAGTGCGCTAG	MRSRRSARWWVRTPRPGTRRRRNRHGGRVDGGQRDDVRAAVLVDPCRQDHVDQRDAARHGDRSQDKQRNHRSERAQREARGRCDGGREQRRRQPDPARQRHRAEPEDAKQCPGHRGDHPADGGGGVVVR				NA	NA	NA	NA	NA
AK009_06368	408			hypothetical protein	GTGGCCGTCCGCCTCCGTGGCCGCGGCGAACTCGTCCCACTGCGCCCCGAGATCGCTGTACGCACAGGTGACGCGCTTTACTACGGCCTCGATCTCTTCGAAGCGCTTCAAGGAGACGTGGCCGTCGCCGATGTCGTCGATAAGCGGGGCGATGAGGTCGAGATCCTCGTCGGCGATGACGAACCCGGCCGCGATATCGAACGCCTCGCCGGGTGGGCTGAAGTAGTAGGCACGCGCGGCCTGGGGCAGCACCCCGACGGATTCGGTGAATTCGTGGAGCAGCGGGTAGTAGTGGTCGAAGAACTCGCGGAGCGCGTCGGGGCCGACAGTGTCGTGGGCGACGAGCGCGGTGTGGGCCGGCAGCGTGATCTGGTTCATACCCGCGACGATACCCGTGAACTCCGCTAG	MAVRLRGRGELVPLRPEIAVRTGDALYYGLDLFEALQGDVAVADVVDKRGDEVEILVGDDEPGRDIERLAGWAEVVGTRGLGQHPDGFGEFVEQRVVVVEELAERVGADSVVGDERGVGRQRDLVHTRDDTRELR				NA	NA	NA	NA	NA
AK009_06369	1299			hypothetical protein	GTGTTCCCTAACATTGGTAAGTGTCCTGGCAGTCGTTGTAACAATACGGTAACAATCCGTAATACGCAATATCGTGCGGGGCTAGACCCCGAACATGCGGCTGTACGTCTGTCCCACCTCGTTGGCAAGCTCGGCGGGCTCGATGCCCCGCGCCTGCGCCACCACGGCCGCGGTGTGCCCGATCAGCGACGGCTCGTTGCGCGCGCCCCGAAACGGTTCCGGGGTCATGTACGGCGCGTCGGTCTCAATCAGAAGCTGCCCCACCGGGGCGAGCGCGGCGGCCTCGCGCAGGTAGTCGTTGCGCTTGAACGTGACGTTTCCGGCAAACGACAGCACGTACCCGCGCTCGATCGCTTCGCGCGCCACATCGACCGGGGAGGAGAAGCAGTGCAGCATCACCTCGCGCGGGCGTGGGGAATCGGCGAGGATGCGCAGCATGTCCTCGTCGCCCTCGCGGTTGTGGATCATCAGCGACTTGCCGGTGTCCACGGCGAGCTGAATGTGGAAGCGAAACGCCTCCTCCTGCACCTCAAGCGGGGCGGTGCCGTCAGGGTCGTGGGTGATCCAGTAGGTGTCCACTCCCGTCTCGCCGATGGCGACGCAGCGCGGGTCCGCGGCCATCTCGGTCAGGCGGGTGCGCGCGGCGCTATCCAGCTCGTGGGCGCGCGTCGGGTGGATCGCGCACGCCGCGACAACGCTTGGGTGCTCGTGGGCGGCGGCGAGTGCCCTTTCCGCCTCATCCAGTCCGTCGCCGACGGTGCAGATCCGCTCCACGCCGGCCGCCTTGGCCCGCGCAACCAGCTCGGAGAGCGGTTCTTTGATGGAGGCGAGGTGCGTGTGGGCGTCGACAAGCCCGGCGATCGGCTCCGCGGGGACCGGCGTCGGGCGCTTCTTTTTACTCATACGATAGAGACTATGGCATTCGCAGACATCGACGCTTCGACCCGCTCCCAGATCGAGACCGACCTGCTCGAGGCCGCCGCGCGCGGCATCACCGGCGACGCAACGGCCATCGCGGAGTCCTTCGAGGCGGTGATCACGGAGTACCTCGCCTCCGACCCCGACCTGAAGCGCTCCTTCCCGCGCGGGGAGACCGCCCGCATTTACGGCACGGCGCTTGGCGACGCCCTCGTGCGCGAGCACGGCTTTTCCTGGAAGCTGCTTCACGACGACTACGGCACCGACCTCGTCGTCATGCAAACCCCGGAGCGCTACACCGCCCCCATCGTCGTGGTCGACTCGCGATTCGAGGATGACGAGCCCGGCAAGCTCACCGCATTCATTAAGCAGTTTCTCTAG	MFPNIGKCPGSRCNNTVTIRNTQYRAGLDPEHAAVRLSHLVGKLGGLDAPRLRHHGRGVPDQRRLVARAPKRFRGHVRRVGLNQKLPHRGERGGLAQVVVALERDVSGKRQHVPALDRFARHIDRGGEAVQHHLARAWGIGEDAQHVLVALAVVDHQRLAGVHGELNVEAKRLLLHLKRGGAVRVVGDPVGVHSRLADGDAARVRGHLGQAGARGAIQLVGARRVDRARRDNAWVLVGGGECPFRLIQSVADGADPLHAGRLGPRNQLGERFFDGGEVRVGVDKPGDRLRGDRRRALLFTHTIETMAFADIDASTRSQIETDLLEAAARGITGDATAIAESFEAVITEYLASDPDLKRSFPRGETARIYGTALGDALVREHGFSWKLLHDDYGTDLVVMQTPERYTAPIVVVDSRFEDDEPGKLTAFIKQFL				NA	NA	NA	NA	NA
AK009_06370	1032			hypothetical protein	GTGGTAGCCGTTGCCGGTGTTGATCGACCAGTTGCCGCCGGACTCGCACTGCGCGATCTGGTCCCACACCGAGCCACCGGCAACCGACGGGGCGCTCGCGGCGGTGGCGGCGGGGGCAGCGGCGACCTTGGTGCCGCGGACGACGGTGGCGGGAACCGCGGGGCGGATCTCCTTCTCGCCGGCCGGGCCGGAGGACTCCACGACGCCGTTGACGGTGACGGTACGGTGCAGCACCTTCTTCTCACCCTTCGCGCCCGGCTCGCGGACCTCCTCGGCACCCGCGGGAAGGTTGTTGTCCTCCACCACGTGGGCCGGGGCGTCGAACTCGACGGTCTCGGAGGTCTCGGAGACGTCGACGCGGTCGAGCACGATCTGCATGTTCGGCTCGAGCGGGGCCTGAAGCGGGACGTTGAGGCGGTCGTTGGAGTCGAAGGTGATCCCGCGGGCGGCGAGCAGGTCGCCGACAGTCTTGGCGGCCTCCGATGTGTAGACGACGTTGCCACCGTCCTTGATGGAGACGATCTTCGGGGTGGTCACGTCGATGGTCATGCCATCGGTCAGCGGCTGGTCCGGGTGCGCGCTCAGGGCCGAGGCGGCGGTAATGCCGGCCTCGCTGACCAGGTCCGCGACCGTCGCGGCGGTGGACGTGAGCTGCTGCTCAGCGCCGTCGATCACCAGCGCGACCGGCTTGGCGGTGCGCACCGTGACGGTGGCCCCGGACTGCAGTGCGTCCGACGGCGCCGGGTAGACGAGGTCGGCTGCGCCCACCTGCACGCCGGCCGCCTGCAGCGCGCCCTCGACGTTGTCCGAGTAGGTGCGCACCGTGGTGGCTTCGCCGTTGACGTCGACGGTGACGTTCTTCTGGGCCGCTGCGGCGGCGGTGGCGGCGCCGCCGACGATGACAGCGCCTGCGACGCTGCCCGCGATAACGCGGCGGGTGGCGGAGGTGGTGGAGTTAATGCGCTTGGCAGCCATAAATCGTGTTCCCTAACATTGGTAAGTGTCCTGGCAGTCGTTGTAACAATACGGTAA	MVAVAGVDRPVAAGLALRDLVPHRATGNRRGARGGGGGGSGDLGAADDGGGNRGADLLLAGRAGGLHDAVDGDGTVQHLLLTLRARLADLLGTRGKVVVLHHVGRGVELDGLGGLGDVDAVEHDLHVRLERGLKRDVEAVVGVEGDPAGGEQVADSLGGLRCVDDVATVLDGDDLRGGHVDGHAIGQRLVRVRAQGRGGGNAGLADQVRDRRGGGRELLLSAVDHQRDRLGGAHRDGGPGLQCVRRRRVDEVGCAHLHAGRLQRALDVVRVGAHRGGFAVDVDGDVLLGRCGGGGGAADDDSACDAARDNAAGGGGGGVNALGSHKSCSLTLVSVLAVVVTIR				NA	NA	NA	NA	NA
AK009_06371	225			hypothetical protein	GTGGGCGACGGAATCGATCAGCCCGAGGGTAAGCGAGCCCAGCCCGGGGCCGACCTCGACGACGACGTCGTCGGCGCTCAGCTCCGCGGCCGCGACGATGCGGCGAACCGTGTTCGGGTCGTGCACGAAGTTCTGGCCGAGCTTCTTCGTCGGGGTCACCCCGAGCTCGCTGGCCAGCTCGCGGACCTCAACGGGTCCGAGGAGGTGGGACTCAACCACCGTTAG	MGDGIDQPEGKRAQPGADLDDDVVGAQLRGRDDAANRVRVVHEVLAELLRRGHPELAGQLADLNGSEEVGLNHR				NA	NA	NA	NA	NA
AK009_06372	318			hypothetical protein	TTGCGCGGACGCGCTGCGCGTGCGCCGGGCGGACATCTCGCGCGCTCCGACGGCGCTAGTGGCCAACCTGCCGTACAACGTCTCCGTGCCGGTGCTGTTGCACCTGCTCGAGGAGTTCCCGACGATTCGCCGGGTACTGGTCATGGTGCAAAAAGAAGTCGCGGACCGCCTCGCCGCCGAGCCGGGCTCGAAGATCTACGGCGTGCCCAGCGTCAAGGCCGCCTTCTACGGGCGCGTCAGCCGCGCCGGGACGATCGGCAAAAACGTGTTCTGGCCAGCGCCGAACATCGAGTCCGGGCTGGTGCGTATGGACGTTGA	MRGRAARAPGGHLARSDGASGQPAVQRLRAGAVAPARGVPDDSPGTGHGAKRSRGPPRRRAGLEDLRRAQRQGRLLRARQPRRDDRQKRVLASAEHRVRAGAYGR				NA	NA	NA	NA	NA
AK009_06373	1047			hypothetical protein	GTGCAGCGCGCGGGCGACCAGCCGCGGCTCCCCGGTAAGCAGGCACCGGGACAGCGTGGTGGTGTTGAGGTGCGGAACGACCGAGGCGTCGTTGTGGCGCAGGTCGTCGAGACGCGAAAACGCCTCCCCCGTCGGCAGCGGCACGCTGGGGTTGATAAACACCCACCAGTACAACCCGCGCGACATCATCTCCACCACCTCGTCACCCCGGCCCGTGCCCAGCGCGGTGCCACCCATCAGACAAAACGGCACGTCGGCGCCCAACGACTTGGCAAGATCCACGATGGTGTCGCGGCTCAGCGTGGTACCGCCGTAGTGCCCCACGAACGCGTTCGCGGCGAGCAGCGCGGCCGCCGCGTCGGCGGAGCCGCCTGCCATGCCGCCAGCGACGAAGACGTTCTTCTCCACCTCAATGCTCACCCGTGGCAGCGACACCGCGCCATCGGTGCGGCGGTAGGCGTCCACCACCGCGTCGACCGCGCGCCACGCGAGGTTCGCTGGGGTGTCGATGTCCTCTCCGGGCCGCTTCACGCCAAACGACGTCGTCATGCCCGTGACCACGGAGCCCTGCGTCACCCGTGGAGCTCGCGTGTCGACGCTCAACCTCACCGTCTCCCACAGATCAACGGATTGGAACACCGTCACCAGATCGTGGTAGCCATCGGCGCGCGCCTCCCCCACCCCGAGGTGGAGGTTCACCTTCGCGGGCGCGGTGGCAACGAAATGGAGGATCACTGCGCGCCCCCGGCCCGGGCGAGGCGGATGAAGTCGTCGACCGAGAGCTTCTCGCCGCGCAACCCGGGGTCGATGCCGGCGTCGACAAGCGCCTGCTCGGCCGCCGCGGGCGAGCCGTACACGCCCGCCAGCGTCGAACGCAGGGTCTTGCGTCGCTGGGCGAACGCGGCGTCGACAAGCGGGAACACGGATGAGCGCAAGTTGCGATCGGTGTCCGGGTCAACGTCCATACGCACCAGCCCGGACTCGATGTTCGGCGCTGGCCAGAACACGTTTTTGCCGATCGTCCCGGCGCGGCTGACGCGCCCGTAG	MQRAGDQPRLPGKQAPGQRGGVEVRNDRGVVVAQVVETRKRLPRRQRHAGVDKHPPVQPARHHLHHLVTPARAQRGATHQTKRHVGAQRLGKIHDGVAAQRGTAVVPHERVRGEQRGRRVGGAACHAASDEDVLLHLNAHPWQRHRAIGAAVGVHHRVDRAPREVRWGVDVLSGPLHAKRRRHARDHGALRHPWSSRVDAQPHRLPQINGLEHRHQIVVAIGARLPHPEVEVHLRGRGGNEMEDHCAPPARARRMKSSTESFSPRNPGSMPASTSACSAAAGEPYTPASVERRVLRRWANAASTSGNTDERKLRSVSGSTSIRTSPDSMFGAGQNTFLPIVPARLTRP				NA	NA	NA	NA	NA
AK009_06374	573			hypothetical protein	GTGCGCGCAGGCCAGCGCGTCGGAATCCGCGGTGTGGTGGACCAGGTCGAAGGTCGGGGCGCAGTAGGCGGCAACCGTCGGCAGCCGGTAGTCGCGCAGCCCCGGGATCAGCCGGCGCGCGGTGCGGCACGTGCAGTAGAACTGCGCAGGGAACGTGCCGGTGAAGTAGTAGGCGTCGAGCGCGCGCCACACCGCGGCGTCGAACGGGGCGTTGTGGGCCCACACGGGCAGCTCGCCGACAAGTGCATGGACGTCGTCGGCGATGTCGTACCAGGTGGGGGCCTGCTCCACGTCGCCGCGCTCGATGCCGTGGATGTAGGTGAAGTCGAAGCGGATGTACTCCTCCGGCGGGCGCAGGTAGGTTACCAGCTGGTCAACCACCCTGTCGCCCGCGACCTTGACCAGCGCGACCTGGCAGGCCGACGCGGGGCTGAGCCGGTTGGCGGTCTCGAAATCGACGGTGACGAACTCAGGCGCGTGAAGCGCCTCGCGCGTCGGGATGTAAACGGCTGGTCTCATGAGCACTCACGCTATCGCCCAGCCCAGACAGACTCCGTGAGGTTTTCGCACTAG	MRAGQRVGIRGVVDQVEGRGAVGGNRRQPVVAQPRDQPARGAARAVELRRERAGEVVGVERAPHRGVERGVVGPHGQLADKCMDVVGDVVPGGGLLHVAALDAVDVGEVEADVLLRRAQVGYQLVNHPVARDLDQRDLAGRRGAEPVGGLEIDGDELRRVKRLARRDVNGWSHEHSRYRPAQTDSVRFSH				NA	NA	NA	NA	NA
AK009_06375	144			hypothetical protein	GTGGGAGACGCGTCCGGCGTCGGGCGCCTCGATTCCGGTGAGGACCTCGAGCAGGGTGGTTTTGCCTCCACCGTTGACGCCGACGATGCCGATGCGGTCACCGGTTTGCACGCCGAGCGACACGCCGTCCAGCAGGGTCTTTAG	MGDASGVGRLDSGEDLEQGGFASTVDADDADAVTGLHAERHAVQQGL				NA	NA	NA	NA	NA
AK009_06376	1080			hypothetical protein	GTGCTGGCGGCGCTGCAGGTACTGCTCAATCCCGCCCGGCAGGTTGGTCAACTCGCCGTCGCCGAACAGCGCGTAGGTGCTATCGGCGATGCGCTCGATGAGGTAGCGATCGTGGGAGATCACGACCAGGGTCCCGGCCCAGCCGTCGAGCAGGTCCTCGAGCTCCTGGAGCGTGTCGATGTCGAGGTCGTTGGTGGGCTCGTCGAGAAGCAGCACGTTGGGCTCGCTCATCAGCACGCGGGTGAGCTGCAGGCGGCGGCGCTCGCCGCCGGAGAGGTCGCCGACCGGGGTGCGCTGGCGCTTCGGGCTGAACCCGAGCCGCTCGGCGAGCTGAGAGGCGGAGATGTCCTTGCCGCCGAGCTGGATGTAGGTGGCAACGTCCTCTACGGCGTCGATGACGCGGCGCGTGGGGTCGAGGTCGTCGAGCTCCTGGCGCAACCAGCCGATGCGGGTGGTCTGCCCCTCGACGCGTTTGCCGGCGGCCAGCGGGTACTCGCCGGCGAGCACGCGCAGCAGCGTGGTCTTGCCGGAGCCGTTGACGCCGACGAGGCCGATGCGCTCGCCCGGCGCGAGGCGCCACGTCAGGTCGTCCGCCAGCACGCGTCCGTCCGGCGCCTCGATGCGCGCGTCGTGCAGCTCGATGACCACCTTGCCCTGGCGCGCCTTCGAAAACGCCATGAGCTCCACAGTGTCGCGCGGGGCGGGCACGTTGGCGATCAGCGCCTCGGCCGCTTCGATACGGTAGCGCGGCTTCGACGTGCGCGCCGGGGCGCCGCGGCGCAGCCACGCGAGCTCCTTGCGCGCGAGGTTGGCGCGGCGCTGCTCGACCGCGTCGGCCTGGCGGGCCCGCTCGGCGCGCGCGAAGGTCCAGTCGTTGTACCCGCCGGCGTAGACGTCGACGGTGCCGTCGTGGACTTCCCACGTGAGCGTGGCCACCGTGTCCAGGAACCAGCGGTCGTGCGTCACCACCACGACCGCGATTTTGCGGGCCAGCAGATGCTCGGCGAGCCACTGCACGCCCTCGACGTCAAGGTGGTTGGTCGGCTCGTCGAGCACGACAAGGTCGAGGTCTTGGACTAG	MLAALQVLLNPARQVGQLAVAEQRVGAIGDALDEVAIVGDHDQGPGPAVEQVLELLERVDVEVVGGLVEKQHVGLAHQHAGELQAAALAAGEVADRGALALRAEPEPLGELRGGDVLAAELDVGGNVLYGVDDAARGVEVVELLAQPADAGGLPLDAFAGGQRVLAGEHAQQRGLAGAVDADEADALARREAPRQVVRQHASVRRLDARVVQLDDHLALARLRKRHELHSVARGGHVGDQRLGRFDTVARLRRARRGAAAQPRELLAREVGAALLDRVGLAGPLGAREGPVVVPAGVDVDGAVVDFPRERGHRVQEPAVVRHHHDRDFAGQQMLGEPLHALDVKVVGRLVEHDKVEVLD				NA	NA	NA	NA	NA
AK009_06377	198			hypothetical protein	GTGCGCCTCGCGCTCCTCGCGCGCGTCGTCCAACTCCTTGGTCACCTGCCCGATCTGCTCGAAATCGGGCGCGTCCGCACTGGAGAGCTCGGCGATGCGTGCCTCCAGCGCACCGACGCGCTCATCGGCCTTGGCGATCTTGCGCTCAAGCGCGTTCATCTGTTTGCGCAGCTCGCGCTCTTCCTGCGAGGACATTGA	MRLALLARVVQLLGHLPDLLEIGRVRTGELGDACLQRTDALIGLGDLALKRVHLFAQLALFLRGH				NA	NA	NA	NA	NA
AK009_06378	342			hypothetical protein	TTGTCGTTCTTAGCCAACTTTGAACTCCGCCATCTCATCCCACTCGGTCTTGCCCTCGATCAGCGTGTTGATGATCTGCGGGGTGCGCTTCAGAATCGTCGGGAAGAGCTCTTGTGCCGCCTTGAAGTGTGGCGAATTCACGTGCGCCTCGGCGGCGTCATCTTTGAAACCCTCGACGAGGATGTACTCGGACGGGTCCTCTTCGCTGCGGTACCAGTCGAAGAACAGGCAGCCCTCCTCCGCGCGGGTGGCATCCGTGAACGGGGCGACGAGCTCGCGGAAATTCTCCACGTGCTCGTCCAAGGGGTGGAATATGACGTTGATCAGGATCATGGCACCTAG	MSFLANFELRHLIPLGLALDQRVDDLRGALQNRREELLCRLEVWRIHVRLGGVIFETLDEDVLGRVLFAAVPVEEQAALLRAGGIRERGDELAEILHVLVQGVEYDVDQDHGT				NA	NA	NA	NA	NA
AK009_06379	687			hypothetical protein	GTGCGAGATGACGTTGATGCGCGAGCGCTTCTTGTCGTCCGATTCCACCGTGTACCACGGCGCCGACGGGATGTCCGTGTGCACGAACATCTCGTCTTTTGCCCGCGAGTAGTCCTCCCACCTGTTGATAGACTCCAGATCCATCGGCGAGAGCTTCCAGCGTCGCAGCGGGTCCTCCCGGCGCGACTCGAAACGGGCGTACTGCTCCTCGTCGGAAACGGAGAACCAGTACTTGCGCAGCATGATCCCGTCCTCGACGAGCAGACGCTCGAAAATCGGCGCCTGGTGCAGGAAGCGGCGGTACTCCTGCGAGGTGCAGAACCCCATGACCCGCTCGACGCCGGCGCGGTTGTACCAGGAGCGGTCGAAGATCACGATCTCGCCGGCCGCGGGCAGGCGCTCGACGTAGCGCTGGAAGTACCACTGGGTGCGCTCGCGCTCCGTCGGCTTGGGAAGCGCCTCAATCCGGCAGGTGCGCGGGTTGAGGTACTGGGTGATGCGCTTGATCGCCGAACCCTTGCCCGCCGCGTCGCGGCCCTCCATGACAATGACCAGACGCTCGCCGGTGGTGACCACCCAGTGCTGCATCGCCACGAGCTCCGCCTGGAGGCGCAACAGTTCCTTCTCGTAAGCCTTTTTCGACAGCTTTGGAGGCTTGTTCTGATTGTCGTTCTTAGCCAACTTTGA	MRDDVDARALLVVRFHRVPRRRRDVRVHEHLVFCPRVVLPPVDRLQIHRRELPASQRVLPARLETGVLLLVGNGEPVLAQHDPVLDEQTLENRRLVQEAAVLLRGAEPHDPLDAGAVVPGAVEDHDLAGRGQALDVALEVPLGALALRRLGKRLNPAGARVEVLGDALDRRTLARRVAALHDNDQTLAGGDHPVLHRHELRLEAQQFLLVSLFRQLWRLVLIVVLSQL				NA	NA	NA	NA	NA
AK009_06380	261			hypothetical protein	GTGGGTCGCGGGGCCGCGCATCGGGATCACCAAAAATGCCGATGCTCCGCTGCGCTTTTACATCCCGGGCGACAAGACGGTCTCCAGCCCGCGGGGAAGGCGTCGTTAAGCTTTCTTGCCCTTCTTTTTCTCCTCGAGCGCGGCTGCGGCGTCGGGAACGTAGCGGAACTCCCCGCGCGGCGGGCGCGTATAGTTCGACGACTCCGGCCGCTGCGGGATCTCCGGCAGGTCCATCGTCAGGTGCTCGTAGGGGATGGTTGA	MGRGAAHRDHQKCRCSAALLHPGRQDGLQPAGKASLSFLALLFLLERGCGVGNVAELPARRARIVRRLRPLRDLRQVHRQVLVGDG				NA	NA	NA	NA	NA
AK009_06381	528			hypothetical protein	TTGGCCCAGGTTGCCCGGCCCGCGGGCGAGGTTCTCATCCGGGATGGGTTTGCGGTCGGGGCGCTGCCGGCGCCCGAGCGCCGTGTCGCGGCCGGAGATGACCTCCCCGCCGCGCATGAGGCAGCCGTGCCCGGTTCCCTCGGGGGCGCACACGATGTTGCCGTTGAAGTGGATGCCGTAGGAGAAGTAGACGTAGAGCCTGCCGGGCGGGCCGAACATCGCCGCGTTGCGCGTCGTCTTCCCGCGGTAGGTGTGCGCCGCCGGGTCCTCGGTGCCGAGGTAGGCCTCGACCTCGGTCAGCCGGATGGCCACCCCGTTGAGTTCGATGATGCAGCCGAGAAGCTGCGGCGCGACAAGGTCGGCGCTTTGGTGGAAATCGATCCCGCTCACGACGTGATCCACCGCTCGATGCGATCGAGCGCCCCGTGCTCGTCGTTGGTGCCGACGACTTCGTCGGCGATGGCTTTTAGATCCGGGTGCGCGTTGCCCATCGCCACGGCCCAGCCCGCTTCCTCGAGCATGGCGTAG	MAQVARPAGEVLIRDGFAVGALPAPERRVAAGDDLPAAHEAAVPGSLGGAHDVAVEVDAVGEVDVEPAGRAEHRRVARRLPAVGVRRRVLGAEVGLDLGQPDGHPVEFDDAAEKLRRDKVGALVEIDPAHDVIHRSMRSSAPCSSLVPTTSSAMAFRSGCALPIATAQPASSSMA				NA	NA	NA	NA	NA
AK009_06382	876			hypothetical protein	GTGCGCGTTGCCCATCGCCACGGCCCAGCCCGCTTCCTCGAGCATGGCGTAGTCGTTGAGATAGTCACCGATCGCGGCCGTGTCCGCGAGGTCGACGCCGAGCGTGTCTGCGAGCGCGCGCAGCGCCACACCCTTGTTCACCCCCGGCGCCATCAGGTCAATCCAGTGGTGCGAACTCACGGTCGCGTTGAGCTCGGGGACGACCTCTCCCAGCCACGGCAGTGCGTCGCGCTCGGCGTCAGTTTCGACGTAGAGGGCGACCTTGACGGTGTCGTCGGGGTCGTTGGACAGGGCGTCGAGAAGCGAGCTGGCGGGCGCATTGGCCAGGTAGTACTTGTCCACCTCCGCCTGGATTGCGGGTGGGGTATTGGCCGCGGTGTAGGAGATCTCGGGCTTGCACAACACCGCATGGGCACGAAACGGGGCGGTGTCGAGAGCAGCGGCGAGGCGGTGCACGGCCCCAGGCGCGAGCGGGCTGACGGAGACGATCTCGCCCTTGTGCCACACCACTGCTCCGTTTTCCGCGATGAAGGTGTCGGGCTCGTTGCGCGAGAACATGTGCTGCAGCGTGGCCAGCTGGCGGCCCGAGGCGGGGGCGATGACGATTCCGGCGTCGAGGGCGCGGTCCAGCAACCCCCAAAACGCCTCGGGAATGGTGCCGGAGGAGTCGACGAGCGTGCCATCCATGTCCAGCGCGACGATACGGGGTGCTGTCATGACCAACTTTCATGTATCACTGGATTGCATGAACCAGCCTGTAAAAACTTCCGTGTTGCACCATACCGGAGTTATCACCCTCGACCGACCCAAGGCCCTGAACTCACTGAACCACGAGATGGTCGGCCTGATCGCCGCCGCGCTCGATCAGTGGCGTGA	MRVAHRHGPARFLEHGVVVEIVTDRGRVREVDAERVCERAQRHTLVHPRRHQVNPVVRTHGRVELGDDLSQPRQCVALGVSFDVEGDLDGVVGVVGQGVEKRAGGRIGQVVLVHLRLDCGWGIGRGVGDLGLAQHRMGTKRGGVESSGEAVHGPRRERADGDDLALVPHHCSVFRDEGVGLVAREHVLQRGQLAARGGGDDDSGVEGAVQQPPKRLGNGAGGVDERAIHVQRDDTGCCHDQLSCITGLHEPACKNFRVAPYRSYHPRPTQGPELTEPRDGRPDRRRARSVA				NA	NA	NA	NA	NA
AK009_06383	915			hypothetical protein	GTGGCGCAGCACCCGGCGGTAGTGCTCGGGTTCGGGAGCCGCGGCGAAGTTCGCGTCGTTGGTTTTGTCGATCAGCACCGCGCGCACGCCCTCAGCGAAATCGGGCTCGCGGCACATCACGGCGGCCAAGGCACGCTCGTTCTCCAGCGACTGCGCGAGGTCGAGCGAGGAGTTCGCCACCATCAGCTCGGACGCGGCAACCAGCGCGCTCGGCGACGCCTGCGCGGTGAGTTTCTCCGTCAACTCCGCCAGCTCGGGTTCAGCCGAGTTAAGCCGCTGCGAAATCTCCGGCCACGAGCCGACGAACACGCCCTCCACTGCGTCGAACCAACGCGCCAGCTCGGAATCGCCCGCTGGAAGGGAAACCTCGTCGAGCACGCCCAGGCCCTCGGCCGCGATGCGCTCGACGAGACCGTCGAGGCTGGCCACCTTGTGCGTCGCCAAGCCGGTGGCGAGCATGTCGTCGGCGCTGAGCCTGTATCCGGTCAGGGCGAGGAAGGTGCCGAGCGCGGCGGAGGGGCGCTTCGGCAGGTTCTGCAGCCTGTGGCTCATGCCGACATCGGTGATAAAGCCGATATTCATCTCCGGCATCGAGGCGAAGGCGTCCTCCGTGACCACCAGGTGCGAACCGTGGGCGGACACGCCCAGCCCGCCGCCCATGATCACGCCGTTGACGAGCGCGATGTAGGGCTTGGGGTAGTTGGCAATGGCGAGGTTCATCTCGTACTCGTCGGCGAAGTAGGAATCGACCTCCTCCGCGCGGCCTTCGACGACACCTTCGCGCGCGGCGCGGACGTCGCCGCCGGCGCAGAAGTGCTTGCCGGAGGAATGGATGATGACTTGCTCAATGGAGGCGTCGTCACGCCACTGATCGAGCGCGGCGGCGATCAGGCCGACCATCTCGTGGTTCAGTGA	MAQHPAVVLGFGSRGEVRVVGFVDQHRAHALSEIGLAAHHGGQGTLVLQRLREVERGVRHHQLGRGNQRARRRLRGEFLRQLRQLGFSRVKPLRNLRPRADEHALHCVEPTRQLGIARWKGNLVEHAQALGRDALDETVEAGHLVRRQAGGEHVVGAEPVSGQGEEGAERGGGALRQVLQPVAHADIGDKADIHLRHRGEGVLRDHQVRTVGGHAQPAAHDHAVDERDVGLGVVGNGEVHLVLVGEVGIDLLRAAFDDTFARGADVAAGAEVLAGGMDDDLLNGGVVTPLIERGGDQADHLVVQ				NA	NA	NA	NA	NA
AK009_06384	1290			hypothetical protein	GTGGTTGCCGGAGGCGATCGTCGCCAGGCCGTCGACCACACCGGCGTGCGTGGAGCCGAGCAGGTCCGTCGAGACGATGTCCGGGGAGTTGATGTAATCAATCTGCTGGCGCAGGCTGGAATCGGTGGACACGCGACGCAGGAACTCGTTGACCTCGTCCTTTTCCACCTCTTTTTCCAGCTCGAGGTTGAGCACGGCCATGGACACGTCCGGCGTGGGCACGCGGATTGCGTTGCCGGTCAGCTTGCCCTCCAGCTCGGGCAGCGCCTTGGACACGGCCTTGGCGGCGCCGGTTTCGGTGAGCACCATGTTGAGCGCTGCGGCGCGGCCGCGGCGCGGGCCCTTGTGGTAGTTATCAGCCAGGTTCTGGTCGTTGGTGTAGGCGTGGACCGTCTCCACGTGACCGTGGCGCACGCCGTAGCGGTCGTTGATCACCTTCAGCACCGGGGTGATGCCGTTGGTCGTGCAGGATGCGGCCGAGATGATGTTGTCCGACTCATCGTTGGTGATGTCGGAGTGGTTGACGCCGTAGACAATGTTGCGCACATCGCCCTTGCCCGGGGCGGTGAGCAGGGCCTTCTGCACGCCCTTGGACTGAAGGTGCTGGGACAGCCCCGCGCGGTCGCGCCAGCGACCGGTGTTGTCGACCACGATGGCGTCGTTAATGCCGTAGGCGGTGTAGTCGATCGAGGAGGGGTCGTCCGAGTAGATCATCTGGATGGCGGTGCCGTTCGCCCAGATGATTTCCTTTTCGTGGTCGACGGTGATGGTGCCGTTGAAGGGGCCGTGGATGGAATCGCGGCGCAGCAGCGAGGCGCGCTTGACAATGTCGTCGTCGCCCTTCTTGCGTACCACCACCGCGCGCAGGCGCACGCCGCCGTAGGTCGCCTCGCGGGCGACCAGGATGCGCGCGAGCAGGCGGCCGATGCGGCCGAAGCCGTAGAGCACCACGTCGCGCGGCTCGGTCTGCTTCTCGCCCCCGATCGCGCCGGCGAGCTCCTGCTCGAGGAAGGAACGCAGGTCCTGGCCCTCGCTGCGCGAGTAGTTCTTCGCCAGGCGGCCCAGGTCGATGGAGCTGGTGCCCAGGTCGAGCTGGACCAGCTCCTTGAGGATCGGCAGGGTCTCATCCAGCGGAAGCTCCCGCTCGACGACGCGGCGCGCGTAGCGGTGCGCCTTGATGATGTCGACGTCAGTGACGCCGACGAGGAGGCGACCATAGATCGACGTCACCGCGTTGTTCTCGCGGTGCAGCTGGCTGATCAGCGGCAGCATCTCCTGTGCGAGCGTTAG	MVAGGDRRQAVDHTGVRGAEQVRRDDVRGVDVINLLAQAGIGGHATQELVDLVLFHLFFQLEVEHGHGHVRRGHADCVAGQLALQLGQRLGHGLGGAGFGEHHVERCGAAAARALVVVISQVLVVGVGVDRLHVTVAHAVAVVDHLQHRGDAVGRAGCGRDDVVRLIVGDVGVVDAVDNVAHIALARGGEQGLLHALGLKVLGQPRAVAPATGVVDHDGVVNAVGGVVDRGGVVRVDHLDGGAVRPDDFLFVVDGDGAVEGAVDGIAAQQRGALDNVVVALLAYHHRAQAHAAVGRLAGDQDAREQAADAAEAVEHHVARLGLLLAPDRAGELLLEEGTQVLALAARVVLRQAAQVDGAGAQVELDQLLEDRQGLIQRKLPLDDAARVAVRLDDVDVSDADEEATIDRRHRVVLAVQLADQRQHLLCER				NA	NA	NA	NA	NA
AK009_06385	414	mhqP_1	COG2259	Putative oxidoreductase MhqP	ATGACAACATTTAGAGATATTGACTTGCTCGTGGCCCGCATTCTGCTCGGTGTCGTCCTCATCGCCCACGGCTGGCAGAAGTTCAACGAATGGACCCTACCCGGCACCGCCGAGGCGTTCGCCGGCATGGGCGTGCCGCTGCCTGAGGTCACCAGCGCGATCGCCGCGATCGTCGAACTTGTCGGCGGCCTGCTCATCATCGCCGGCGCGATTACGCCCATCGTGGGCGTGATCGTGGCCCTGCAGATGCTCGGTGCCTACTTCTTCGCTCACATGGGCAACGGCGTGTTCGTGGACAACGGCGGCTTCGAGCTCGTCGGCGTCATCGCCGCCGCATCCCTGGCGCTTGCCGGCGCCGGCGCGGGCCGTTTCAGCGCGGATCAGCTAATCGACGCCCGCCGCGCGACGCGCTAG	MTTFRDIDLLVARILLGVVLIAHGWQKFNEWTLPGTAEAFAGMGVPLPEVTSAIAAIVELVGGLLIIAGAITPIVGVIVALQMLGAYFFAHMGNGVFVDNGGFELVGVIAAASLALAGAGAGRFSADQLIDARRATR	PGPT0028505_5062	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
AK009_06386	1410			hypothetical protein	GTGAGCGCCGACAACCGGCACGCCCGAAGCGAAGGCCTCAAGCGCCGCGAACCCCAGCGTCTCCGTCGTCGAGGGGAAGATCAGCGCGTCGCCCGAAGCGTACGCCTTGTGCAACTCGTCGCCGGAGAGGTAGCCCGTGAAGGTAACCCAGTCGCGGTCCATCGTGCGGCGCAGCTGGTCGAGCTGCGGCCCGGCGCCGATCAGCGCGAGGCGGGCGTCGGGGACCGACTTGCGCACCGCCTCCATGATGCCGAGCGTGCGCTCGGTCGACTTCTCGGCAGAAATCCGGCCGATGTAGGTGACAAGGGGGGCGTCGGGGTGGCCGTCGCTAAGCCGCGAGCGCATCTCTCGGGTGCGCTTGTCCGGGCTGAAGCTCTGCGTGTCCACTGCCTTCGGCCAGACGTCGACGTTGCCAATGCGGTACTCGGCGGCCTTGTCCAGCATTGGCGCGGAGGTGACCAGGTTGACCTGCGCCCTGCCGTGAAACTGGCGGATGCCCCACTTCGACGGCCCGGCCAGCCACCCCGCGCCGAGGCGAACCGTGTACTCGGGCACGTCGGTGTGAAAGGACCCCAGGATCGGCAGCCCCATCCGCTCGGCGACGAGCGCCGCCGCCCCGGCCAGCCACATCGGGTTGACCACGTGGACCACGTCCGGGTTGAACTCCTTGAGGCGGCGGAACACCCCCGGGGTCGGCAGACCGACCTGAATCTCCGGGTAGATCGGCCAAAAGGGGACCGAGGGCATGCGCACGACCTCGAAACCGGCGTAGCTGGCGGGCGCCTTGCCGGGGGCGAAAATGAGCACCTCGTGGCCAAGCTCTGCCAGCTGATCGAGCGTGCGGGTCACGCGGGTGACAATGCCGTCGATCTTGGGGAGGAAAACCTCCGTGAACAGGGCGATGCGCATCTACTTCTCGCCGCTGGGGACGCCCTCAGACTGGTTGCGGGTCCACAGCGAGCGCGCCGGGATCTTCGTGCGGTCCACGCGGTGCGCGTAGTGCTTGGCCACGTCCTCGACCTCCTGCAGCAGGCCCTCCTCCAGCTTTGTCGGCTTCAGGCCGAGGTCGAGGAAGGTGTCGTTCGTGACGTGCAGCTCGTTCTCGTCGGCCTCCTTGCGCGGGTTGGGCACCAGCGCGAACTCGGTGCCGGACAGGCGCGAAACCAGCTCCGCGAGCTCGCGAACGCGGTGGGTTTCCGTCATCTGGTTCAGGATCAACACCCGCTCGCCGCGCGCCGGCGGGTTCTCCAGGGCGATCTCGATGCACTTGGCCATGTCGCGGATGTGGATGAAGGCGCGGGTCTGCCCGCCCGTGCCGTGAACGGTCAGCGGGTAGCCAATCGCCGCCTGCATGAGGAAGCGGTTGAGCACGGTGCCGTAGTCGCCGTCGTAGTCGAATCGGTTAATTAG	MSADNRHARSEGLKRREPQRLRRRGEDQRVARSVRLVQLVAGEVAREGNPVAVHRAAQLVELRPGADQREAGVGDRLAHRLHDAERALGRLLGRNPADVGDKGGVGVAVAKPRAHLSGALVRAEALRVHCLRPDVDVANAVLGGLVQHWRGGDQVDLRPAVKLADAPLRRPGQPPRAEANRVLGHVGVKGPQDRQPHPLGDERRRPGQPHRVDHVDHVRVELLEAAEHPRGRQTDLNLRVDRPKGDRGHAHDLETGVAGGRLAGGENEHLVAKLCQLIERAGHAGDNAVDLGEENLREQGDAHLLLAAGDALRLVAGPQRARRDLRAVHAVRVVLGHVLDLLQQALLQLCRLQAEVEEGVVRDVQLVLVGLLARVGHQRELGAGQARNQLRELANAVGFRHLVQDQHPLAARRRVLQGDLDALGHVADVDEGAGLPARAVNGQRVANRRLHEEAVEHGAVVAVVVESVN				NA	NA	NA	NA	NA
AK009_06387	570			hypothetical protein	GTGGGTGCCCCAGATGATGCCCTGGTGCAGGTCGGTGATGCGCAGCTCGTCGTTCTTGGCAAAGTACGCGAACAGGTTCTGGTCCAGCACCTTGGTCAGGTGGTAGACCGACCCCGGGTTGGTGGGGTAGAGAATCTGCTGTTCAACGGTGGTGCCCTCGTCGGTATCGACCTTGATGTCGAGGTAGCCCTCCGGGATCTTCATCCCGGCGGTGCCGTAGCCGTAGACACCCATCGTGCCGAGGTGGACAACGTGGATGTCCAGGCCGGATTTGACGATGGCTACGAGCAGGTTGTGCGTGGCATTGACGTTGTTGTCAATGGTGTAGCGCTTCGTGCGCGGGTTCTTCATCGAGTACGGCGCGGCGCGCTGCTCGGCGAAGTGCACTACGGCGTCCGGCTTGAACTCCTGGATGAAGTCGAACAGACCCTCGTAGTCCTGGGCGACGTCGATGTTGCGGAAGCCGATCTCCTTGCCGGATACCTCCTTCCACGCAGCAAGGCGCTCGTCGATAGACGCAATGGGGGTCAAAGACTCTGCGCCGAGCTCCTCATCGATGCGGCGCCGTGA	MGAPDDALVQVGDAQLVVLGKVREQVLVQHLGQVVDRPRVGGVENLLFNGGALVGIDLDVEVALRDLHPGGAVAVDTHRAEVDNVDVQAGFDDGYEQVVRGIDVVVNGVALRARVLHRVRRGALLGEVHYGVRLELLDEVEQTLVVLGDVDVAEADLLAGYLLPRSKALVDRRNGGQRLCAELLIDAAP				NA	NA	NA	NA	NA
AK009_06388	1380			hypothetical protein	GTGGATGCAGCCACCCAGGAAGGTGCCCTCGAGCGCGTTCTTGCCGTGCATTCCGCCGCCGCCGAAGCCGGCGACCTCACCACAGGCGAAGAGGCCATCGAAGACCGAGCCGTCGGCGTGAAGCGCGCGGCCCGACAGGTCCGTCTCGATGCCGCCGAGCGTCTTGCGCGTCAGCACGTGGAGGCGGACGGCGATCAAGGGGCCCTTCTTCTCGTCCAGGATGCGGTGCGGCGGGTGGACACGCACGATCTTGTCGCCGAGGAACTGGCGCGCCATGCGGATGTAGTTGACCTGGATGTCCTTGGAGAAGGCGTTGGAGAGCTGGGCGTCGCGCTCGAGCAGCTGGCGTTCGACAAACTCGGCGTCGATCTCGACGTCGCCAAGCTCGTTCATGCCCTTGACCAGGTCCTCGACCGTGTCCGCGGTGACCCAGTCTACGCCGTTCTTGTGGAACGCCTCGATCGCCATGGGCGTGCCGGGGCCGATCTTGCCCAGCAGCTTCTTAATCTCCTTGTCCGTCAGGTCAGGGTTCTGCTCCGAACCGGAGAAGATGAACTCCTTATCTGCGATTGCCTGGTTGAGGATGAACCAGGAGTAGCCGTGGCCGGTGCGGCCGATGTGCGCGAGCGCGGCGAGGTTGTCGGAGCCCGGGAACAGGTGCGTCGGCAGGCGCTTGCCCTCGGCGTCCATCCAGATCGCGGACGGGCCGGGGATGATGCGGATGCCGTGGTTCGGCCAGATCGGATCCCAGTTGATCATGCCCTCCGGGTAGTGCCACATGCGGTCGGTGTTGACCAGGTTGGCGCCGGCTTTCTTGGCGATGTCGATGCCGCGCCCGTCGACGTACGCCGGCACGCCCGTGACCATGTACTCGGGGCAGGGGCCCCAGCGATCATCCGGCCACATCGCGCGTACCTTATCCAGGTTGCCACCGATGCCGCCGGTGGCGATGACGACTGCCGCGCCGCGGATCTCGAACGCGTCGCCCTCCTGCTTGTTGGAGGCGGCTCCGCGCACGGCGGGGTCGTCGTCAAGCACGATGCCCGTCACGCCTACGGCGCGCCCGGATTCGACGATGACGTCGTCAACGCGGTGGCGGAAGCGGAATTCCACCTTGCCCTGCTTCTCCGCCTCCAGCAACGGCTCGCGGAAGACGCGCACAACCTCGGGGCCGGTGCCCCAGGTGACGTGGAAGCGCGGCACGGAGTTGCCGTGGCCGGAGGCGTCGCCGGAGCCGCGCTCGGCCCAGCCGATCGTCGGCAGCACGCGCAGGCCCAAGTTCTTCAGGTAGGAGTGCATGTCGTGGGCGGCGAAGCGGACGAACTCGCGGCCCCACTGGCGCGGCCACTTGTCGTTGTCGGACGCGTCGTAGTCCGCTGA	MDAATQEGALERVLAVHSAAAEAGDLTTGEEAIEDRAVGVKRAARQVRLDAAERLARQHVEADGDQGALLLVQDAVRRVDTHDLVAEELARHADVVDLDVLGEGVGELGVALEQLAFDKLGVDLDVAKLVHALDQVLDRVRGDPVYAVLVERLDRHGRAGADLAQQLLNLLVRQVRVLLRTGEDELLICDCLVEDEPGVAVAGAADVRERGEVVGAREQVRRQALALGVHPDRGRAGDDADAVVRPDRIPVDHALRVVPHAVGVDQVGAGFLGDVDAAPVDVRRHARDHVLGAGAPAIIRPHRAYLIQVATDAAGGDDDCRAADLERVALLLVGGGSAHGGVVVKHDARHAYGAPGFDDDVVNAVAEAEFHLALLLRLQQRLAEDAHNLGAGAPGDVEARHGVAVAGGVAGAALGPADRRQHAQAQVLQVGVHVVGGEADELAAPLARPLVVVGRVVVR				NA	NA	NA	NA	NA
AK009_06389	414			hypothetical protein	ATGGGATTGATCGATTCTTTGCGCGCCTTGTTCGGTGCTGTGGCCGAAACCCCGCTGGTGGACTACCCCGCCGCGCCTGCCGAGCTCGCCGTCTCGACGCTCGAGGTGCGCACGTTGAACCTCTCGCCCGATACGGACGAGAAGCTAGTCGTGCTCACCCTTCCTTCAGGGGTGGCCGAGCGCGTCGCCGGTATGGATACGGCGCTGCGGGTCGTGCCGGAGGCTGGCCGGGCGGTCACCTTTGTGCGGGTAGGCTTTGACGCCGACCCGGCGCTGGACCCGAAGCTGGGGTGGATCATCCCCGTGACCGAGGCCACCGCCGCCGAGCTGCGCGCCCTGCCGGAAGGGCCCGGCGAGCACGAGCTGACAAGCATCCACCTCGCGATCGTCGTGGAAGACGCCGCGGGAGCTTAG	MGLIDSLRALFGAVAETPLVDYPAAPAELAVSTLEVRTLNLSPDTDEKLVVLTLPSGVAERVAGMDTALRVVPEAGRAVTFVRVGFDADPALDPKLGWIIPVTEATAAELRALPEGPGEHELTSIHLAIVVEDAAGA				NA	NA	NA	NA	NA
AK009_06390	228			hypothetical protein	ATGCGGGTTCAGCGCTGGGGCGTCGGCGAAGAACTCCCGCAGGTCCGCCCCACTGGCAGCCGCGGCGTGGAGGCTTGCGGGCGAGTGGCCAGTGAGCCACGTGAGAATGTGGTCGAGCTCGTCAACAGCTTTACCCTTGCGCTCAACCTTGGCAACGTAGAGGTCGTAAATCTTGCCGAAGGGGTAGGCAAAGACACGCTCGAGGTTGTTCATGACTGCCCAGGGTAG	MRVQRWGVGEELPQVRPTGSRGVEACGRVASEPRENVVELVNSFTLALNLGNVEVVNLAEGVGKDTLEVVHDCPG				NA	NA	NA	NA	NA
AK009_06391	1143			hypothetical protein	ATGACCCAGCCTGAGCACCCTGAGCATGACGTCGCAGCGCACCGTGCGGATTTGGTCATGCCCTATGGCCCAGGCGAGGTCGAAGTCGTCGCCCCGCCGCACCGCCGCGACAACCCGCTTCAGCTCCGCAACAACCGGCTTAACGCCCAGGGTTGGAAGCTGGTGGGCAAGCGGGTTGTGATGGACTTCGGCATGGATGCGATGGTCGATCGCGCAGCCGCGCTGACCTACTACGCCGTGCTGTCGCTTGCGCCGACGGTGCTGGCGCTGTATTCCATCGCGATTCTGCTGCTGCCGCGTGACCAGGAGGCAGTGGCTGAGCTGCTGGCCGAGTTCGTCTCCACGTATGTGCCGGAGGAGCTGCGTGGTGATGCGCTGGAGTTTTTGCAGTCTGTGGTGGGCAGCCCGTCGCAAAGCACTGTGGCTCTGGTGGTGTCGGTGCTGGTCTCGCTGCTTTCCGCCTCGGCGTACGTGCGCTCGTTTTCGCGCAACGCGAACGTGATCTACGGCCGCGCGGAGGGCCGCAGGCTCCCGGTGATCTGGCTGACGATGTGGCTTTTAACCATCGTGCTCGTCGCCGGCGCTGTTGTCTTGATCTTCGCGTCGCTGCTGCAAGAATCGCTGGTCACTGGGGTGCTGAGACCTCTTGCCGAGCCACTGGGACTGACCGAGACGGTGGAGTACCTCACCCAGATCTTCCTGCCGGTGTGGCGCTGGGTCCGCATCCCCGTCATGATCGCTGTCTCCGTGCTGCTTGTGGCGCTGCTGTACTACTTCGCGCCCAACGTGCGCCCGGGGCGCTTCCGGCTTCTGACCCTCGGATCTTTCTTCGCGCTGCTGGTCATCGGCGTCGTGTGGGCGCTATTCGGGCTCTACCTTTCCACGATTGGCGTGCGCAGCGCCTACGGTGCGTTCGGCATCATCCTGGCGCTGCTCGTCGTGTTGTGGGCGATGAACATCGTGCTGCTGCTGGGCCTGAAAATCGACGCCGAAGTGCTGCGCGCGAAGGAGCTGCAGATGGGCCTGGACTCGGAACACCACATCCAGGCGCAGCCGCGGGCGATGGACGCGGTGAAGTTCCGCCTCCAGCAGCAGCGCTGGGCGGATCGCTCCGCTCGCGAGATCAAAGGGCGAAACGCATAA	MTQPEHPEHDVAAHRADLVMPYGPGEVEVVAPPHRRDNPLQLRNNRLNAQGWKLVGKRVVMDFGMDAMVDRAAALTYYAVLSLAPTVLALYSIAILLLPRDQEAVAELLAEFVSTYVPEELRGDALEFLQSVVGSPSQSTVALVVSVLVSLLSASAYVRSFSRNANVIYGRAEGRRLPVIWLTMWLLTIVLVAGAVVLIFASLLQESLVTGVLRPLAEPLGLTETVEYLTQIFLPVWRWVRIPVMIAVSVLLVALLYYFAPNVRPGRFRLLTLGSFFALLVIGVVWALFGLYLSTIGVRSAYGAFGIILALLVVLWAMNIVLLLGLKIDAEVLRAKELQMGLDSEHHIQAQPRAMDAVKFRLQQQRWADRSAREIKGRNA	PGPT0014525_1564	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
AK009_06392	471			hypothetical protein	GTGCGCGATCTGGCGCCCGGCGTTGTTGACCAAGATGTCGATACCGCCCAGGCCCTTGACCGCCGCGTCAACGGTGTCGAAACAGGCCTGGCGGGTTTCCAGGTTGCCCGGGATGGCGACGGCCGTGCGCCCGGCGTCCTCGATCAGGCCGACGATGACCTTGGCGTCCTCTTCCTCCTCGGGCAGGTAGGCGATGGCCACGTCCGCGCCCTCACGGGCGTAAGCGATAGCTACGGCCGCTCCGATACCGGAGTCGCCGCCGGTGATCAGCGCCTTGCGGCCGGTGAGCTTGCAGGAGCCCGTGTAGGACTCCTCGCCTCGGTCGGCAACCGGCACCATGTCCGCGTCAAGACCCGGGTTGTCCTGGGTTTGCGCGGGCGGGGAAATAACGGGGTACTTCTTGCGGGGATCAATCAGTGTCATGGACCCGAGGTTACCCGTAAGTGCGCACTTATGCGTTTCGCCCTTTGA	MRDLAPGVVDQDVDTAQALDRRVNGVETGLAGFQVARDGDGRAPGVLDQADDDLGVLFLLGQVGDGHVRALTGVSDSYGRSDTGVAAGDQRLAAGELAGARVGLLASVGNRHHVRVKTRVVLGLRGRGNNGVLLAGINQCHGPEVTRKCALMRFAL				NA	NA	NA	NA	NA
AK009_06393	429			hypothetical protein	GTGCGGTGTCACGGGCGTCAATCATGCCCACCAGCTTACTTACGGGGTCAGGGCTCCGCCTGTCACGGCGAGCGTCTCACCCGAGACGTAGGAGGCGTCCTCGGAGGCGAGGAACACGTACGCACCGGCGAGCTCGGCGGGCTGGCCAGCGCGGCCCATCTCGGAGTCCTGGCCGAACTGCACCAGCTTCTCCATCGGCTGGCCGTGCGAGGGCTGCAGCGGGGTCCAGATCGGGCCCGGGGCGACAGCGTTGACGCGGATGCCCTTGTCCGCCAGAAGCGCCATGGACATGCCCTTGGACATGTTGTTCATCGCGGCCTTGGTCACCGCGTAGTGCACCAGGGTGTCCGAGGGGTCGTAGGCCTGGATCGAGCTGGAGAAGATAATCGAGCTGCCCGGCTCCATGTGCGGCACGGCCGCCTGCGCTAG	MRCHGRQSCPPAYLRGQGSACHGERLTRDVGGVLGGEEHVRTGELGGLASAAHLGVLAELHQLLHRLAVRGLQRGPDRARGDSVDADALVRQKRHGHALGHVVHRGLGHRVVHQGVRGVVGLDRAGEDNRAARLHVRHGRLR				NA	NA	NA	NA	NA
AK009_06394	819			hypothetical protein	ATGCGCAACTCTTATACCGCACCCGCCATCGTTAAGTTTATTGAGAACAACGTGCAGTTCGGGTGGGTCGGCGGGGTCTCGGCGGGCTCGGTGCACACCCTCAATTACGCCTCGCGGGATGCGCAACGCGCCCGCGTGGCGTTTACCGATTTCGTGGGCCACCCCAACTTCGGGGGCCTGCGTTTTCTCGTTCGTGGCAAGGGCCTGCTCAACAGCCAGTTCATCTACGAGGACTCGGCCGAGGAACTACCCTTTGACTTCGACACCTTCCGCTCCACGCCAGAGGAGATCCACATCGAGGCCACCCGCGCCGACACGGGGGAGACGGTGGTGTGGAACCGCGCCGATTTCACCGAGGTCCAGCTCCTCAACGTCGCCACCCGCGCGTCCTCTACGCTGCCGCTGATCATGCCCGTCACCATGATCGACGGGGTGCCCTACGTTGACGGGGCGCTGGGCTCGTCTGGGGGCCTGCTCATCGACGCCGCCCAGCGCGCCGGGTACGAAAAGTTCTTGGTGCTGGCCACCCGCCCGCGCGAGTACGTCAAAGAGGTGCCGTCGCGGCCGGGCGTCGTCAAGCAGCTCTTGCGCCGCAACCCGGCGGTCGCTGATGCCGTGCTGGCGCGCCCCGAGCTCTACAACGAGGCGAAGCAGCGCATGCTCGATCTCGAGTCCGCGGGCAAGGCGGCGGTGTTCTTCCCGGAGGAGATGATGGTCGAATCGACCGAGCGCAACGTGGCTAAGCTGCGCGACAACTATGCCGCCGGTACGGCGCAGGTCGAGCGCGAGTGGGGCGCGTGGAGGGAATTTCTATCGTGA	MRNSYTAPAIVKFIENNVQFGWVGGVSAGSVHTLNYASRDAQRARVAFTDFVGHPNFGGLRFLVRGKGLLNSQFIYEDSAEELPFDFDTFRSTPEEIHIEATRADTGETVVWNRADFTEVQLLNVATRASSTLPLIMPVTMIDGVPYVDGALGSSGGLLIDAAQRAGYEKFLVLATRPREYVKEVPSRPGVVKQLLRRNPAVADAVLARPELYNEAKQRMLDLESAGKAAVFFPEEMMVESTERNVAKLRDNYAAGTAQVEREWGAWREFLS				NA	NA	NA	NA	NA
AK009_06395	867			hypothetical protein	GTGATTGATGCCCGCGACACCGCGCTCGTCGTCGAGGGCGGGGGAATGCGCAATTCCTACACCGCCCCGGCGATCGTCCGCTTCATTGAGGAAAGCGTGCGCTTCGGTTGGGTCGGCGGGGTTTCCGCTGGCTCAGTGCACGCGGGCAACTACGCCTCGCTCGATGCGGAGCGCGCGAAGGCGGCTTTCACGGATTTCGCGAACCACCCGAAGTTCGGCGGGTGGCTCAAGCTAGTGCGCGGCCAGGGGTACTTCAACTCCGAGTTCATCTACGGCGACCACGAGGACCTCCTGCCCTTCGACTTCACCGCGTTCGAGGCCTCCGGAACCGAGCTGCACATTGAGGCGATGCGCTCGGACACGGGCGAGACGGTGGCGTGGACGCGCGAGGACTTCCTCGCCAGCCCGTGCCTGTTGTCGCTGGCCACCCGGGCCTCGTCGACGATTCCGACAATGATGCCCACCACGCTTATCGACGACACCCCCTACGTCGACGGCGCGCGGGGGGGCGCCCGGGGGCGGGGTTTAGTCGCCGCCCCCCGCGCCGGGGGCACCAAAAAAGGCGTGCTGGGTACGCGCCCGCGCGACTACTGGAAAAACCCAATGACGCAGGTGTCGGCGGTGCGGCGCTTCTTCCGCAAGACCCCAGCTATCGCCGAGGCGCTGGAGGTGCGCTCGCAGCGCTACAACGCCTCGAAACAGAAGATCCTGGACGCTGAGCGCGACGGCCGCGCGGTCGTGCTTTTCCCGGACGACATGCGCGCGGAATCCACCGAACGCCGCCTCGAGCGCCTCAACGCGAACTACCTCGCGGGGATGGAGCAGGTCCAGCGCGAGTGGGATGGGTGGATAGAATTCCTGACCTAG	MIDARDTALVVEGGGMRNSYTAPAIVRFIEESVRFGWVGGVSAGSVHAGNYASLDAERAKAAFTDFANHPKFGGWLKLVRGQGYFNSEFIYGDHEDLLPFDFTAFEASGTELHIEAMRSDTGETVAWTREDFLASPCLLSLATRASSTIPTMMPTTLIDDTPYVDGARGGARGRGLVAAPRAGGTKKGVLGTRPRDYWKNPMTQVSAVRRFFRKTPAIAEALEVRSQRYNASKQKILDAERDGRAVVLFPDDMRAESTERRLERLNANYLAGMEQVQREWDGWIEFLT				NA	NA	NA	NA	NA
AK009_06396	969			hypothetical protein	GTGGCCCAGCGCGATCGCGCCGCCGTGCGGGTTGACTGTGCCGGAATCCACGCCGAGCTGGCGAGCCGAGTGGACGACGACCGAGGCGAACGCCTCGTTGATCTCAATGTGGTCGAGGGAGCCGACGTCCCAGCCTTGGCGCTCGAGCGCGACCTGCAGGGCGTTAGCGGGCTGGGCCTGCAGGGAGGCGTCCGGGCCCGCGACCTGCCCAGGCGCGCGCAGCGTGGCCAGCACGGCCCAGCCGTTGCTCTCGGCGTGTGCGCGCGTGGTGAGGACGACGGCGGCCGCGCCGTCGGTCAGCGGCGAGGAGTTGCCCGCGGTGATGCCGCCGTTGTCGGCGAAGACGGGGCGCAGCTTGGCCAGGCTCTCCTCGGTCACGCCCTCGCGCATGCCCTCGTCCGTGGAAATCGGCGCCTCGACGAGCTCAGCGGCGAACACGCCGTCGCGCGTCGCGGCGAGCGCGCGCTGGTGCGACAGGGCCGCGACAGCGTCCTGCTCTTCGCGCGTCGCCGGGAAAACGTCCGCGTAGCGCTCGGTGAGCTGGCCCATGGAAATGCCCAGCCCGGCGTCGCTCAAGCCGTCGTGTTCGACGTGGTCCAGCACCTCGAAGGAGCCGTACTTCACGCCGCGGCGCGAGCGCGGCAACAGGTGCGGGGCGTTGGACATCGACTCCATGCCGCCCGCCACGACGACGTCGGCCTCACCGGAGCGCAAAAGGCGCGCGGCGTCTATCACCGCGGTGAGCCCGGAGAGGCAAACCTTGTTCACGGAAGAGGTGTGCGCCGCCGGGTGGATGCCCGCGGCCAGCGCCGCTTGCTTCGCGGGGTTCTGCTTCGCGCCGGCCTGCAGGACCTGGCCGAGGATCACGGCGTCGACCGCGTCGCCGGCGACGTTCGCGCCGGCCAGCGCGCCGCGGATCGCCAGCGCGCCGAGCTCGGTCGCGGGTTCGGCGGACAGCCCGCCGAGTAG	MAQRDRAAVRVDCAGIHAELASRVDDDRGERLVDLNVVEGADVPALALERDLQGVSGLGLQGGVRARDLPRRAQRGQHGPAVALGVCARGEDDGGRAVGQRRGVARGDAAVVGEDGAQLGQALLGHALAHALVRGNRRLDELSGEHAVARRGERALVRQGRDSVLLFARRRENVRVALGELAHGNAQPGVAQAVVFDVVQHLEGAVLHAAARARQQVRGVGHRLHAARHDDVGLTGAQKARGVYHRGEPGEANLVHGRGVRRRVDARGQRRLLRGVLLRAGLQDLAEDHGVDRVAGDVRAGQRAADRQRAELGRGFGGQPAE				NA	NA	NA	NA	NA
AK009_06397	846			hypothetical protein	TTGTGGTTACTGTACCGCCGCGCACCCACCCCACGGGCCGTTTTACTTAATTTCAGTGAACTAAGAGTTACTAAACTTCGCCTCTCGCTTCTCGACGAACGCCGCCATGCCCTCCTTCTGATCGTTGGACGCGAAGATCGAGTGGAACGTCCGGCGCTCAAACAGCAGGCCCTGCGACAGCGACGTCTCCCCCACGGCGTTGATCTGCTCCTTGATCATGGTGGTGGCCACCAGCGATTTCGCTGCGATGGTCTCGGCGGTCTCCAGGGCGGAATCGAGAAGATCGGCGGCGTCGACGACGCGGGCGACCAGGCCCGCGCGCTCAGCTTCGTGGGCGTCCATCATCCGGCCGGTGAGGCACATTTCCATCGCTTTCGCCTTGCCGACGGCGCGGGTGAGGCGCTGCGACCCGCCCATGCCCGGTGTGACGCCGAGGTTGACCTCGGGCTGGCCAAACTTGGCGGTGTCCGAGGCGATGATGAAGTCGCACATCATCGCGAGCTCGCAGCCCCCGCCGAGGGCGTAGCCGCTGACCGCGGCGATCAGCGGCGTGCGCGCCCGCGTCAGCTCGTCCCAGCCGGCGAACCAGTCGGAGGTGTACATGTCGGTAGCCCCGCGCGAGGACATCTCCTTGATGTCGGCGCCGGCCGCGAAGGCCTTCTCGGAACCGGTGAGCACGATCGCACCGATCTCGTCGTTGGCATCGAAGTCGCGCACCGCGGCGACGACCTCCTCCATCGTCGCGGCGTTAACCGCGTTGAGCGCCTCCGGGCGGTTGAGCGTGATCAGGCCGACGCGGCCTCGGGTTTCAGTGATGATCATGGTGTCTTAAGCATCCAGAAGTAG	MWLLYRRAPTPRAVLLNFSELRVTKLRLSLLDERRHALLLIVGREDRVERPALKQQALRQRRLPHGVDLLLDHGGGHQRFRCDGLGGLQGGIEKIGGVDDAGDQARALSFVGVHHPAGEAHFHRFRLADGAGEALRPAHARCDAEVDLGLAKLGGVRGDDEVAHHRELAAPAEGVAADRGDQRRARPRQLVPAGEPVGGVHVGSPARGHLLDVGAGREGLLGTGEHDRTDLVVGIEVAHRGDDLLHRRGVNRVERLRAVERDQADAASGFSDDHGVLSIQK				NA	NA	NA	NA	NA
AK009_06398	105			hypothetical protein	GTGGATGTCGTGCAGGCGGGTTTGCTCCTCGGCGCTGAGCTGGTCGGCGATGCCGAGGATGTCGGCGTGCGGGTAAGGGATGGAAGCGAGGTGGTCACGGGGTAG	MDVVQAGLLLGAELVGDAEDVGVRVRDGSEVVTG				NA	NA	NA	NA	NA
AK009_06399	519			hypothetical protein	GTGCGGGATGACAACGTCGGTGAAGGTCATGTTCGCGTTTTGCATGATGCGCAGGCCCATCTTGCCCTCGATCTTTGTCGCCTCCACGCCGTCGCGGTCGAGCTCGACGATGAACGCGCGGATCTCTCCGCCGACGGTGTCGCGGGCGAAGATGATGGCGAAGTCGGCGAACGTGCCCGCCCCGATCCACCGCTTCGCGCCGTTGATGACCCACCCGTCGTCGGTGCGCGTGGCGGTGGTGGACAATCCCCCGGCGATGTCCGAGCCGTGCTCGGGCTCGGTCAGCGCGAAGCAGCCGACGGCCTCGAAGCGGCGCAACCCGGGCAGCCAGCGCTCCTTCTGCTCGTCCGAGCCGAGGGCGTCGATCATGCCGACGACCAGCTCGTTGTGGATGCCCACGAGGGTGGACAGGGAGACGTCGCAACGCGTCAGCTCTGCGTAGACCAGCCCGCGGAAAAGCCGCGAGGTGCCGCTGAGCTCAATCTCGCCCAAGCCCTGGCGCGCGAGCGGCGGCAGTAG	MRDDNVGEGHVRVLHDAQAHLALDLCRLHAVAVELDDERADLSADGVAGEDDGEVGERARPDPPLRAVDDPPVVGARGGGGQSPGDVRAVLGLGQREAADGLEAAQPGQPALLLLVRAEGVDHADDQLVVDAHEGGQGDVATRQLCVDQPAEKPRGAAELNLAQALARERRQ				NA	NA	NA	NA	NA
AK009_06400	687			hypothetical protein	TTGGCCGTTGATGTAGTCGTTGTCGATGATGCTGAGCGCAAGCTGCGCGAACTCCTCGGGCCGCGCGAGACGGCGCGGGAACTGGACGTTTGCCTCCAGCTCGGCGCGGAACTCCGGGGTGATGCCTTCCATCATGGGGGTGGCCACGATGCCCGGTGCGATCGCGTTGACGCGCACGCCGAGCGAGGCGAGGTCGCGCGCGGCGGTGATCGACAGGGCGTGGACGGCGCCCTTGGAGGCGGCGTACGCGGCCTGGCCGACCTGACCCTCGAAGGCCGCGACGGAGGCGGTGTTGATGACAACGCCGCGCTGGCCGTCGTCGTCGATGGGCTCGGTGCCGGCCATCGCCTCAGCGGCGGCGGTGAGCACGTGGAAGGTGCCCATCAGGTTGACGTTGATCGTGGTGGCGAAGACCTTCGGGTCGTGGGTGCCCTTGCGCCCGACGATGCGTGCCGACGGGGCAATGCCCGCGCAGTTGACAGCGACGCGCAGCGGCGCGTCCTGGGCCGCGCGCTTGACGGCGGCGCTGACCGCCTCCGCGTCGGTCACGTCAACGACCTCGTAGCGCACCCCCTCGATGCTCTCACCGGCGCGCAGGTCGAAGCCGGTCACGGCCACTCCGCGCTCGGCGAGCGCGCGCGCCGTTGCCTGGCCCAGGCCCGAGGCCGCACCCGTAACTACCGCTGA	MAVDVVVVDDAERKLRELLGPRETARELDVCLQLGAELRGDAFHHGGGHDARCDRVDAHAERGEVARGGDRQGVDGALGGGVRGLADLTLEGRDGGGVDDNAALAVVVDGLGAGHRLSGGGEHVEGAHQVDVDRGGEDLRVVGALAPDDACRRGNARAVDSDAQRRVLGRALDGGADRLRVGHVNDLVAHPLDALTGAQVEAGHGHSALGERARRCLAQARGRTRNYR				NA	NA	NA	NA	NA
AK009_06401	699			hypothetical protein	GTGGTTTTTCGCCCCGCCGAAGCACTGGGCGCGCTTGCCCGTGGCGGCGCAGCGCTCGTAGATGTACTTCGCAATCGGCGTCGAGCCGACGAACCCGACCGCCTTAATCACGTCGGAATCCAACAGGGCGTCGACCGCCTGCTTATCGCCGTGGACGACGTTGAACACGCCCGCTGGCCCGCCCGCCTCGATGAAGAGCTCCGCGAGCCGCACGGGTACGGAGGGGTCGCGCTCCGAGGGCTTGAGCACGAAGGCGTTGCCACAGGCCAGCGCCGGGCCCGCCTTCCACAGCGGGATCATCGCCGGGAAGTTGAACGGGGTGATCCCGGCGACCACGCCGAGCGGCTGGCGCAGCGAGAACGTGTCAATGCCCGAGCCGACCTGGCTCGAGTACTCGCCCTTGAACTGGTGCGGGGCGCCCAGGCAGAACTCCAGCACATCGACGCCGCGCAGGATGTCGCCCTTGGCGTCGGCAAGCGTCTTGCCGTGCTCCAGCGACAGGGTGCGCGCCAGGGAATCGAGGTTGGCGTGGATCAGGCGGATCCACTCCATGATGACGCGCACGCGGCGCTGCGGGTTCAGCGCCGCCCATGCGGGCTGCGCCTGTTGCGCGACGGCGATCGCGGCGTGGACGTCGTCAACGCTGGCGAGCACGACCTCGGCCTGCGTCTGGCCGGTGTTCGGGTTGAGCACCGGTGA	MVFRPAEALGALARGGAALVDVLRNRRRADEPDRLNHVGIQQGVDRLLIAVDDVEHARWPARLDEELREPHGYGGVALRGLEHEGVATGQRRARLPQRDHRREVERGDPGDHAERLAQRERVNARADLARVLALELVRGAQAELQHIDAAQDVALGVGKRLAVLQRQGARQGIEVGVDQADPLHDDAHAALRVQRRPCGLRLLRDGDRGVDVVNAGEHDLGLRLAGVRVEHR				NA	NA	NA	NA	NA
AK009_06402	621			hypothetical protein	GTGCCATTAGCTCATCACCGGAATCGTGAACTCGGGGCCGGCAGACGTCTCATCTGGCCAGCGCGTGGTAACGGTCTTGGTCTTTGTGTAGAAGCGGAAGGAGTCTGGGCCGTGTTGGTTCAAGTCACCGAACCCGGAGGCCTTCCAGCCGCCGAAGGTATGGTAGGCAATCGGCACGGGAATCGGCACGTTGATACCCACCATGCCGACGTTGACGTTGGTGAGGAAGTCGCGCGCCGCGCCGCCGTGGGCGGTAAAGATTGCCACGCCGTTGCCATAGGCGTTGTCGTTCGGGTACGAGATCGCCTCCTCCAGCGTGTCCGCGCGCACCATGCACAAAACGGGGCCGAAGATCTCCTCGGTGTAGATGCTCATCGACGCCTCAACGCGGTCGAACAGCGTCGGGCCGGCGAAGAAACCGCCCGAGAGGTCGTCGCCGTCGAAGGAGTCGGAGGAGGTGTTAATCCCGCGGCCGTCGACCACCAGCTCGGCGCCCTGGTTTTCGCCTTCTGCGATCAGCCGGTGCACCCGCTCGAGGGAATCCGCGCTGACCAGCGGGCCGTAGTCGGCCTCCGGGTTGAGGCTGTGGCCGACCGTGAGCGAGGGGATGCGTTCCACTAG	MPLAHHRNRELGAGRRLIWPARGNGLGLCVEAEGVWAVLVQVTEPGGLPAAEGMVGNRHGNRHVDTHHADVDVGEEVARRAAVGGKDCHAVAIGVVVRVRDRLLQRVRAHHAQNGAEDLLGVDAHRRLNAVEQRRAGEETAREVVAVEGVGGGVNPAAVDHQLGALVFAFCDQPVHPLEGIRADQRAVVGLRVEAVADRERGDAFH				NA	NA	NA	NA	NA
AK009_06403	819	mmsB	COG2084	putative 3-hydroxyisobutyrate dehydrogenase	ATGGCCGCCAACCTCGCCCGCGCCGGGCACGAGGTGACTGGCTTCGACGTGGTTGCGCGCGAGATCGAGGGCGTGACCAGCGCGGCCACTGCGGTGCAGGCCGCCGAGGATGCGGAGGTGGTGATCACGAGCCTGCCCAACGGGGCGTTGGTCGAGCAGGTGGTTGATGAACTGCTCGCAGCGGATTTATCGCCTCGCCTGTTCATCGACGTCTCCACGATCGCGGTCGCCGAGGCTCGCGAGCTTGCGCAGCGCGTCGCCGCTGCCGGGTCGCGCTTCATCGACGCCCCCGTCTCGGGCGGTATCGCCGGGGCGAGCGCGGCGACGCTGGCGTTCATGGTCGGTGGTGACGCCCAGGACTTCGAGCGTGCACAACCCCTGCTGGGCGCGATGGGGGCGTCGATTACGCACTGCGGCCCCGCCGGCACGGGTCAGGCCGTCAAAGCCTGCAACAACATGATCTTGGCGGTGCACCAGATCGTGCTCAGCGAGGCCCTTGTGCTCGGCGAGCGCCTAGGTTTGGACCCGCAGGCGTTCTTCGACGTCGTGTCTAACGCCACCGGAAACTCGTGGGCGCTCAGCGTCAACGCCCCAGTCCCCGGCCTTGTCGAGGGCTCTCCGGCGAACCGCGATTTCGAGCCGGGATTCGCGTCGACGCTTATGCTCAAGGACTTGGGGTTGGCGATGGAGGCAGCGCAGCAGACGGGCACGGAGACGGTGCTGGGTCGCATTGCGGCGACCCAGTACGCGCAGTTCGTTGAGGGCGGCAACGGCGGAAAAGACTTCTCCGCCATCATCAACAAGGTCAGGGACGCTTAG	MAANLARAGHEVTGFDVVAREIEGVTSAATAVQAAEDAEVVITSLPNGALVEQVVDELLAADLSPRLFIDVSTIAVAEARELAQRVAAAGSRFIDAPVSGGIAGASAATLAFMVGGDAQDFERAQPLLGAMGASITHCGPAGTGQAVKACNNMILAVHQIVLSEALVLGERLGLDPQAFFDVVSNATGNSWALSVNAPVPGLVEGSPANRDFEPGFASTLMLKDLGLAMEAAQQTGTETVLGRIAATQYAQFVEGGNGGKDFSAIINKVRDA				NA	NA	NA	NA	NA
AK009_06404	492			hypothetical protein	GTGCTCCGGGGCGAACTGCGGCATCGGCGGAAACTGCACCTTGCGGCCCGCGTAGATGGTGTCACCGGGCGCCAGCGACCCGGCGTTGACCAAGCCGATGATGTCGCCCGGGAAGGCGGTGTCCACGGTGTCGCGGGTGCGGCCGAACACGGTCAGCGCGTACTTGGTGGAAAACGTGCGCCCGGACTGGGCATGGGTGACCTGCATGCCGCGGTTGAACTCGCCGGAGACGACGCGCATGAACGCCAGGGAGTCGCGGTGGTTCTTATCCATTCCGGCCTGGACCTTGAACACCACGCCGGAGAAGTCGGCGTCGAGCTCGCGCGGGTTGTCCAGCGACTCGCGCTGTGCCGGGGCGGGCGCGATGGCGCACAGGGTGTCCAGGATCTGGTGCACGCCGAAGTTGAGCATGGCGGAGGCGAAGATCACCGGCGAGGTGACGCACTGCTCGAAGAGCTCTTGGTTGTGCACGGCGCCGTCGGCGGCCAGTAG	MLRGELRHRRKLHLAARVDGVTGRQRPGVDQADDVAREGGVHGVAGAAEHGQRVLGGKRAPGLGMGDLHAAVELAGDDAHERQGVAVVLIHSGLDLEHHAGEVGVELARVVQRLALCRGGRDGAQGVQDLVHAEVEHGGGEDHRRGDALLEELLVVHGAVGGQ				NA	NA	NA	NA	NA
AK009_06405	675			hypothetical protein	GTGTTCCTCGGGTGCGATGGTGGAGCCGCCGGCGGTGCGGATGAAGCGGATGTACTGATCGGCCTCGCCGTTGTCGTCTATGTGGGCGAGTCCGCGGAAGTCGCCCGCCTCACCCACCGGCCAGTAGAGCGGGGTGGGCTGCAGGTCGATTTCGGTGACGATCTCGTCGATAAGCTCGAGCGGCTCTCGGCCCACGCGGTCCCACTTGTTGATCACGGTGACAATCGGCAGGCCGCGTGCCTTGCACACGCGGAAGAGCTTGAGGGTCTGCGGCTCGAGGCCCTTGGCGGCGTCGATGAGCATGACCGCGGCGTCGACGGCGGAGAGCACGCGGTAGGTGTCCTCGGAGAAGTCGGCGTGGCCGGGGGTGTCCACGAGGTTGATCACGTAGGGCTCGGGCGCGGTGGAGTTCTCGGGGAGGTACTCGAATTGGAGCGCGGACGAGGCGATGGAGATGCCGCGGTCTTTTTCCATCTCCATCCAGTCGGAGACGGTGGCCTTGCGGTTTCCCTTGCCGTGGACGGCGCCGGCCTCGGAGATGACGTGCGCGTGGAGTGCGAGCGCCTCGGTGAGGGTGGACTTGCCGGCGTCGGGGTGGGCGATTACGGCGAAGGTGCGACGGCGCGCCGCCTCGGAAAGAGTGCTCATAATTGCACCAGAATAGCCCGTGTATAG	MFLGCDGGAAGGADEADVLIGLAVVVYVGESAEVARLTHRPVERGGLQVDFGDDLVDKLERLSAHAVPLVDHGDNRQAACLAHAEELEGLRLEALGGVDEHDRGVDGGEHAVGVLGEVGVAGGVHEVDHVGLGRGGVLGEVLELERGRGDGDAAVFFHLHPVGDGGLAVSLAVDGAGLGDDVRVECERLGEGGLAGVGVGDYGEGATARRLGKSAHNCTRIARV				NA	NA	NA	NA	NA
AK009_06406	546			hypothetical protein	GTGACCATCGGAATCATTCTCGGATCAACCCGCCACGGCCGCGTGGGAGAAGCGGTCGCCCACTGGGTCGATGAGGCAGCGCAGGCCCGCGAGGGCTTCGACTACGCCTTGATCGACCTAATCGATTTTCGCCTTCCGCTTTTCGACGCCGAAACGGTCCCCATGGCCGCCAACAAGAGCTACGACTCGGCCGAGGTGACGCGCTGGTCCGAGGCGATCGACGCCTGCGAGGCCTTCATCTTTGACACCCCGGAGTACAACCACTCCGTCCCGGCGGCGCTGAAAAACGCCGTCGACTCGCTGGGCTCCGAGTGGTCCGGCAAACCCGTCGCGTTCGTCGGCTACGGTGCGGTGGGCGGCGTGCGCGCGGTCGAGCACTGGCGGCAGATCACCGCGAACTTCGAGATGCCCAACGTGCGCAACCAGGTTGCGGTGTCGATCATGACTGAATTCCCCGAGGGCCGCTTCACCCCCGCGCCCTACCAGGCCGACGCACTGACCGCGGTGTTCGACGACCTCGAGGCGCTAATTACCCGCCTGCGCTAG	MTIGIILGSTRHGRVGEAVAHWVDEAAQAREGFDYALIDLIDFRLPLFDAETVPMAANKSYDSAEVTRWSEAIDACEAFIFDTPEYNHSVPAALKNAVDSLGSEWSGKPVAFVGYGAVGGVRAVEHWRQITANFEMPNVRNQVAVSIMTEFPEGRFTPAPYQADALTAVFDDLEALITRLR				NA	NA	NA	NA	NA
AK009_06407	540			hypothetical protein	GTGAATCTCGTTTTGCGCCGCGGTCAGGCCCTTCTCCACGATCAGGCGCACGGCCTCCGCGGCGAGAGAGATCTGCTCGGAGATGTCGCCCTCGATGTCGGAGAGCACGTAGTCCACCACCGCGGTCCCCGCCGGCGGGCGCCCGATGCCCAGGCGCACCCGCAGGTAGTCGCGCGTGCCCAGGTGCTCAGTGAGCGATTTCAGCCCGTTGTGTCCGTTCTCGTTGCCGCCGCGCTTGAGCTTCACCGCGCCCGCGGGCAGGTCGAGCTCATCGTGGCACACGATGATGTGCTCGGCGTCGATCCCGAGCCTGCGCGCCAGCGGGGCGACGTAGTCGCCGGAGCTGTTCATGTACGTCGTCGGCTTAACGCACTTCGCGCGCTCGGGGCAGGTCAGCTCGTCGATGACCATGTAGCCCACGTTGTGGCGGGTCGCGGCGTAGCGCTGCCCCGGGTTTCCGAGGCCCACGATGAGCCATTGCACGCTTGTCGACGCCTCCCGGGCGAACAATTTCCTCACAAAATCCAACACGTCAGATGA	MNLVLRRGQALLHDQAHGLRGERDLLGDVALDVGEHVVHHRGPRRRAPDAQAHPQVVARAQVLSERFQPVVSVLVAAALELHRARGQVELIVAHDDVLGVDPEPARQRGDVVAGAVHVRRRLNALRALGAGQLVDDHVAHVVAGRGVALPRVSEAHDEPLHACRRLPGEQFPHKIQHVR				NA	NA	NA	NA	NA
AK009_06408	606			hypothetical protein	GTGCGAGATGAAGGAGACCAGGCGGACGGGCGAGAACACCAGATCATCGGTCGGGGCGGACTGCATGAGCTCGCCGTTGAGGTAGGTGCGCAACCGCGGGCCCGGCGTCCACTCGGTGTCGAGCCACGGGCCGAACCCCGCGGTCTTTTCCAGGGATTTTCCCTGGTGCCACTGCTGGGTGCGCTTCTGAAAGTGGCGCTGGGTGTAGTCGTTGATGATGCTGTAGCCGGCGATGCAGGCGGTGGCCTCAGCGTCGTCGACGTGGCGTGCGTGGGCACCGATGATGACGGCGAGCTCGCCCTCGAAGTCGAGCGCACCGGCGTTGAACTCCGGCACCTCGGCGTCGTCAAAAGCGCCGATCAGCGCGTCGGCGAACTTCACAAACAGGGTGGGCACGTCGGGTTGCTCGTGGCCCATCTCCTCGATGTGCGCGGCGTAGTTCAGGCCGACGCAGATGATCTTTTCGGGCCGCACCACGATGGGCGCCACCTCGAGCGGGTTAAATTCCACGTCCGGGCCGGGGCGCGTGGCGATCGCGCGCCACTCGGGGTTGCGCAGCAGCTCGCCCACGTCGGCGTAACCCTCGATGAGGGTGGCGCTGCGTAA	MRDEGDQADGREHQIIGRGGLHELAVEVGAQPRARRPLGVEPRAEPRGLFQGFSLVPLLGALLKVALGVVVDDAVAGDAGGGLSVVDVACVGTDDDGELALEVERTGVELRHLGVVKSADQRVGELHKQGGHVGLLVAHLLDVRGVVQADADDLFGPHHDGRHLERVKFHVRAGARGDRAPLGVAQQLAHVGVTLDEGGAA				NA	NA	NA	NA	NA
AK009_06409	519	pth_1	COG0193	Peptidyl-tRNA hydrolase	GTGACTGTTCTCATTGTCGGGCTCGGCAACCCTGGTACGAAGTACGCCGCCACGCGCCACAACGCGGGCGTGCTCGTCCTAGAGGAGCTGCTCGACAGAGAACGTGCGCGTCTTAGCGTGCACAAGAAGACGAACACCGAGGTCGCCGAGCTCAGCGGCGGCCGGGTGCTCGCACGTACCCGCGGGTACATGAACGTCTCGGGTGGGCCTGTCAAGGCCCTCGCCAGGTACTACAAGGCCTCGCCGGCCGAGATCTACGTCATCTACGACGAGCTGGATCTCGGCTTTGGCGAGGTCTCGCTGCGTGTGGGCGGTGGCGACCACGGTCACAACGGGCTGAAGTCGGTCTCCGCGTCGCTGGGCACGCGCGAGTACAACAAACTGGCGGTGGGCATCGGCCGCCCGCCCGGGCGCATGGCCCCGGCCGATTACGTGCTGCGGCCCTTTACTAAGAAGGAAGCCGAGGAGCTGCCGATCATCGCCGCCGACGCGGCCGACCTGTTAGAGGGCCTTTCATGA	MTVLIVGLGNPGTKYAATRHNAGVLVLEELLDRERARLSVHKKTNTEVAELSGGRVLARTRGYMNVSGGPVKALARYYKASPAEIYVIYDELDLGFGEVSLRVGGGDHGHNGLKSVSASLGTREYNKLAVGIGRPPGRMAPADYVLRPFTKKEAEELPIIAADAADLLEGLS				NA	NA	NA	NA	NA
AK009_06410	687			hypothetical protein	ATGGCTACTACCCCTCCCGTCGTCAAGGCGAACAAGCGCGAAGAGTTCGGCAAGGGAGCATCCCGCCGCCTGCGTCGCGACGGCCAGATCCCCGGCGTGCTCTACGAATCCGGTATCGAGAACGTCCACTTCTCCGTCGACCGCATCGAGATGACCGCCCTCGTGCGTAACGACGGCACCAACGCCATCCTCCAGCTCGAGGTCGATGGCAAGCAGCTTCTGTGCATGGTCAAGCACGTTGACCAGAACGTTCTCACCCTCGATATCGACCACATCGACCTGCTCGGCGTCAAGCGCGGCGAGAAGGTTACCGTCGAGGTCCCGGTCATCACCGAGGGCGAGGCAGTGGCCGACGCTGTCGTCCTGCAGGAGACGGACGTGCTCGAGATCGAGGTCGACGCGCTCAACATCCCGGACGAGATCGTCGTCAACATCGAGGGCAAGGAAATCGGCGACCAGATCTTCGCATCCGACGTTGCCCTGCCGGCCGGCGCCGAGCTCACCTCCGACCCGGAGGCGCTCGTGGTCAACGTCACCTACTTCCAGGAGGACGAGGAGCTCGAGGAAGCTGCCGCTGAGGCCGAGGCTGGCGGCGCTGAGGCTGGCGCCGACGCCGACGAGGACCAGGCTGAGGGCACCGTCGAAATCGCCGATGGTGGCGAGGGTGACGAGGGCGCATCCGAGTAA	MATTPPVVKANKREEFGKGASRRLRRDGQIPGVLYESGIENVHFSVDRIEMTALVRNDGTNAILQLEVDGKQLLCMVKHVDQNVLTLDIDHIDLLGVKRGEKVTVEVPVITEGEAVADAVVLQETDVLEIEVDALNIPDEIVVNIEGKEIGDQIFASDVALPAGAELTSDPEALVVNVTYFQEDEELEEAAAEAEAGGAEAGADADEDQAEGTVEIADGGEGDEGASE				NA	NA	NA	NA	NA
AK009_06411	879			hypothetical protein	GTGGGTGCAGGCGATGAGCACGGACTTCGCGCCGGCGTCTTTGAGCACGCCGACGGCGCCGGCGATGGTGCCGCCGGTATCGATCATGTCGTCCATCAGGATGCAGTCCTTGCCCTCAACCTCGCCGACGACGCGGTTGGACACGACCTTGTTGGCGGCGTCGATGTCGCGGGTCTTGTGGACGAACGCCATGGGGGCGTCGCCAAGCGTGTTGGCCCACTTCTCAGCCTGCTTCACGCGGCCGGCATCGGGGGAGACCACGCAGAGGTTGTCCAGCGAGTACTTCGACTTGATGTACTCGGTGAGGATCGGCATGGCGTGCATGTGATCGACCGGGCCGTCGAAGAAGCCCTGGATCTGGTCGGTGTGCAGGTCGACCGAGACGATGCGGTCCGCGCCGGCGGTGGCAAACAGGTCTGCGACGAGGCGCGCGGAGATCGGCTCGCGGCCGCGGTGCTTCTTGTCCTGGCGCGCGTACGGGTAAAACGGCACGATCGCGGTGATGCGCTTCGCCGAGCCGCGCTTGAGCGCGTCGATCATAATGAGCTGCTCCATCAGCCACTTGTTCAGCGGCTGGGCGTGGGACTGCATGACAAAGCAGTCGGCGCCGCGCACGGACTCCTCGAAGCGGATGAAGATCTCGCCGTTGGCGAAGTCGCGGGCCGTGGTGGGGACCAACTCGATGTCGAGCTCCTTGGCCACGGCCTCAGCGAGGTCGAGGTGGGCGCGCCCGGTAAAAACCTTGAGGTCTTTGAAGGTTTGGGTGGAGTATCCGGTCATGTGGCGATCCTTTACTTCTCTTCCTTGGCTGCCGCTGCTGCCGCTGCCGCGTCTGTCCCTGGGCGTTTCTTCTCCACCCAGCCCTCGATGTTGCGCTGA	MGAGDEHGLRAGVFEHADGAGDGAAGIDHVVHQDAVLALNLADDAVGHDLVGGVDVAGLVDERHGGVAKRVGPLLSLLHAAGIGGDHAEVVQRVLRLDVLGEDRHGVHVIDRAVEEALDLVGVQVDRDDAVRAGGGKQVCDEARGDRLAAAVLLVLARVRVKRHDRGDALRRAALERVDHNELLHQPLVQRLGVGLHDKAVGAAHGLLEADEDLAVGEVAGRGGDQLDVELLGHGLSEVEVGAPGKNLEVFEGLGGVSGHVAILYFSSLAAAAAAAASVPGRFFSTQPSMLR				NA	NA	NA	NA	NA
AK009_06412	924			hypothetical protein	GTGGTGCTTGTTCACGCCGTCGTAGTTGGCGAAGACGCTCGAGCAGCCGATGTTGGAGTTGGTGCCCACGGTCGCGTCGCCAATGTAAGTCAGGTGCGGGATCTTCGAGCCGGCACCGATGACGGCGTTCTTCGACTCGACGAACCCGCCGAGCTTGCCGCCCTCGCCGAGCTCGGTGCCGGGGCGGATGTAGGTGAACGGGCCGACCTGGGCGTTGGCGCCGATGACGCTGAGCGAGCCTTGGGTGCGGGTGACCGTCGCGCCGGGGCCGACCTCCATGTCGCGCAGGGTGGTGTCCGGGCCGATCTCGGCGCCGTCGCTAATCACCGTCGATCCCCAGAGATGGGTGTTCGGGTGGATCACGACGTCCGCGCCGATCTCGACGTCCACGCCGATCCAGGTGGTGTCGGGGTCGATGATCGTCGCACCGCCGCGCATCGCGCGCTCGACGAGGCGGCGGTTGAGCTCCTTGCCGGCCGCGGCGAGCTGGACGCGGTCGTTGACACCCGCGAGCTCGCGCGGGTCGGGGGCGGTGAACGCGGTGACGGTGCGACCGTCGCCACGTGCGATGGCGAGCACGTCGGTGATGTAAAGCTCGCCCTGGGCGTTGTCGGAGGTGATGCGCGTCAGCGCGTCGCGGAGCACGGCGCCGTCGAAGGCGAACACCCCGGAGTTGACCTCGGTGACGCGCTTCTGCTCGTCGTCGGCGTCTTTCTCCTCCACGATGTCGACAACGGCGCCGCGCTCGTCGCGGATGATGCGGCCGTAGCCGGTGGGGTTGTCGAACTCGAGGGTGAGCACCGTGACGGCGGCCTGGGCGTTGACGTGGGCGTCGATAAGCTTTTGCAGCGTTGCTCCCTCGAGCAGCGGCACGTCGGCGTTGGTGACGACGACAGTGCCGTCGAAGTCGGGCAGCGTCTCTAG	MVLVHAVVVGEDARAADVGVGAHGRVANVSQVRDLRAGTDDGVLRLDEPAELAALAELGAGADVGERADLGVGADDAERALGAGDRRAGADLHVAQGGVRADLGAVANHRRSPEMGVRVDHDVRADLDVHADPGGVGVDDRRTAAHRALDEAAVELLAGRGELDAVVDTRELARVGGGERGDGATVATCDGEHVGDVKLALGVVGGDARQRVAEHGAVEGEHPGVDLGDALLLVVGVFLLHDVDNGAALVADDAAVAGGVVELEGEHRDGGLGVDVGVDKLLQRCSLEQRHVGVGDDDSAVEVGQRL				NA	NA	NA	NA	NA
AK009_06413	309			hypothetical protein	GTGGCCGGTGCCGTTTTGCTCCTCCTGGACGGCCTGAAGGATCTCGATGCTCATCTGCTGCGCGATCTCGTCGACCGCGGGGGAGACCTGCTCGCGCTGGAACCCGACGACGGCGACGACGTGGCTTGGGCTGACCGCGGCGGCGGCGTGCAGCGAGTGCGACAGGAGGCTTCGCCCGCCGATCTCGTGCAGCGTTTTTTGCGTGGCCGATTTCATGCGGGTGCCCGCGCCGGCCGCAAGGACGACGACAGCACACTGATTCTGCTCAGTCATGGTTTAAAGCATAACGCTAGGCCGAGACGTCCTTGA	MAGAVLLLLDGLKDLDAHLLRDLVDRGGDLLALEPDDGDDVAWADRGGGVQRVRQEASPADLVQRFLRGRFHAGARAGRKDDDSTLILLSHGLKHNARPRRP				NA	NA	NA	NA	NA
AK009_06414	1323			hypothetical protein	GTGACATCTTGGGCGGTGGAATGTCCCAGTCAACCGACGGCAGACGAGAAAACCCCAACGCACATCGTTCACCTCAGATTGCCGCACCAAAGCTGTAACCTAATCGGGGTGGAACACCAGAAACACAACGCGACGCGGTTCATCTGGGCCAACGGCCTGCAGGGCATCGGTGACCAAATCGTCGCCGCGAAAACGCTTCTGCCCTGGCTGTTTACCGTCGCCGGGGTGCCCGCGTTCTTCACTGGCCTGTTGGTGCCGATCCGCGAGTCCGGCTCGATGCTGCCGCAGGCGGCGCTGAGCCCTTGGGTCAGCTCGAAGCCGAAGCGCAAGCGAGTGTGGCTGCTCGGCTCGTGGGGCCAGGCCCTCTCCGGCGTGGGCATCGCGGCCGCTGCCGCCACTCTCAGCGGCGTCGCCCTGGGCCTCGCTGTCATCGTGTGCCTCGCCGCGCTCAGCGTGTTCCGCGCGCTGTGTTCCATCGCCGGCAAAGACGTCCAGGGGCGCACGATCGACAAGGGCAAGCGCGGGCTGATCACCGGCCGCGCCACCGCGCTGTCCGGCGCGTTCACCCTCGCCATCGGCCTGGCGCTGACGCTGCTGCCCAACGAAGTGCCCCGCTGGATGATCGCGGCACTACTACTCGTCGGCGCGTCGACCTGGGGTTTTGCCTCGCTGGTGTTCCAGGGCATCCGCGAACCAGAAGCCGAGCACGACACGACCGTCGATGACGATAACTGGCTCGCCGTCACCTGGGAGCTAGTGACCAAGGACAAGGAGCTGCGCAACTTCCTCGTGGTCCGCTCGTTGATGCTGGTCACAGCTCTGTCCACCCCGTTCATCGTGGTGCTCGCCCAGGAGCAGGGCTCAGACCTGTCCAGCCTCGGTGCCTTCGTCATCGCCTCCGGCGGCGCCGCATTGCTCGGCGGCCGCATCTCCGGGATCTGGTCGGACAAGTCCTCCAAGCTCACCATGGCCTGGGCCGCAGCGGTCGCCTCCATCGTCATTGTGCTTTTGGTCCTGAGCGCTGATTTTGCGTCGTCAAGCGTGAATGCGATTGTCATGCCGGCCGGGTTCTTCGCGGTCAACCTCGCGCACACCGCGGTGCGCGTCAGCCGAAAGACCTACCTGGTGGATATGGCCGACGGGGAGCGCCGCACCCTGATCACCGGCGCATCCAACACGATCATGGGCGTGGTTATGCTCGTCGCGGGCGCGATCAGCTCCGCCGTCGCGGTCTTTGGCACCCAGGCCGCGCTGATCTTTCTCGCCGTGCTGGGCGCGGCGGGCGTGGCTGGGGCGTGGAACCTCAAGGACGTCTCGGCCTAG	MTSWAVECPSQPTADEKTPTHIVHLRLPHQSCNLIGVEHQKHNATRFIWANGLQGIGDQIVAAKTLLPWLFTVAGVPAFFTGLLVPIRESGSMLPQAALSPWVSSKPKRKRVWLLGSWGQALSGVGIAAAAATLSGVALGLAVIVCLAALSVFRALCSIAGKDVQGRTIDKGKRGLITGRATALSGAFTLAIGLALTLLPNEVPRWMIAALLLVGASTWGFASLVFQGIREPEAEHDTTVDDDNWLAVTWELVTKDKELRNFLVVRSLMLVTALSTPFIVVLAQEQGSDLSSLGAFVIASGGAALLGGRISGIWSDKSSKLTMAWAAAVASIVIVLLVLSADFASSSVNAIVMPAGFFAVNLAHTAVRVSRKTYLVDMADGERRTLITGASNTIMGVVMLVAGAISSAVAVFGTQAALIFLAVLGAAGVAGAWNLKDVSA				NA	NA	NA	NA	NA
AK009_06416	396			hypothetical protein	GTGCTCGCCGCCCGGCATCTGGCCGTGCACGAGGATGACGAAGCCGTCCGTGTGGTCCTCAACGTAGCTCAGCAGGGCGAGGATGCCCCGCTCAATGCGCTCGCGCCAACGGCCCTCGCCGATCGAGGACAAAATCGCGTTGAACAGCCGCGCCTGCTCCTCCTCGATCACCGCGACGTACAAGCCCTCCTTGCCGCCGAAGTGCTCGTAGACCACGGGCTTGGACACCCCGGCGCGCGAGGAGATCTCCTCTACCGAAATGCCGTCGAATCCCCGCTCCGCGAAAGCGGACCGTCCGATACCGATGAGTTGCTCCCGGCGCTGCGAACCGGTCATACGCTGTCGAGCCATGCCCAATACCTTACTTGCGGGCGCGTGCGCTACACTATCGCCTGA	MLAARHLAVHEDDEAVRVVLNVAQQGEDAPLNALAPTALADRGQNRVEQPRLLLLDHRDVQALLAAEVLVDHGLGHPGARGDLLYRNAVESPLRESGPSDTDELLPALRTGHTLSSHAQYLTCGRVRYTIA				NA	NA	NA	NA	NA
AK009_06417	252			hypothetical protein	GTGGTGTTACTCAGTTCCCTTCACAGTGTGAATAATCTTCGGCTGCGCCTCCAGCCCAGCCAGCCCATTCCAGCACAGGTTCGCGACATGGGTCGCCACAGCGTACTTATCCGGCGACCGCTGATCCAACCACCACAGAGCGGTCATGGACACGGCGCCCACGATCGCCTGCGCGTGCAACTGAGCGAGCTTGGGGTTCAGCCCGCGGTGACGGAACGCCTCCTCGAGCAGGTGAGACACCTGCACCGTTAG	MVLLSSLHSVNNLRLRLQPSQPIPAQVRDMGRHSVLIRRPLIQPPQSGHGHGAHDRLRVQLSELGVQPAVTERLLEQVRHLHR				NA	NA	NA	NA	NA
AK009_06418	510			hypothetical protein	GTGCTCGTACGCGAATCGCGCAATCGACTCCGTGAGCTGCGTGAAGTCGTACTCGTGATCGCGGGCGATCACGATCGGGTCGATGGCCGGCAACACCGGCTGGCACACCGCGCGCGCAGCTGCGACGATCACCCGCGGCATCTCGTGCAAGACCTTGAAGCGCCTGCCCACCACATCCGCCGCCGGGGAGAGCCGCTCGTGCGGCAGCGTCTCCAGCGCGGGGAAATGCGCGACCTTCTCCGGTCCGATCAGCGCCGCCAACTCCGCGGTGAGATCCTCGGCCTCGTGCCCCGTCGCGGTGACCAACAGCACCGGGACCTCGCGCGACAACGCGGCCGCGGCCCACGGGCGGGTCTGGTCGATCCCCATGACGTGGAGATGATCCTGGCCGATATTGCTCAGCAGGCCCTTGAGCTTCGGGTCCGTCAGCGCAACAGTAAGCAGCCCACCCAATGCGGGCACGGTGGTGGTCATAGTGGTGTTACTCAGTTCCCTTCACAGTGTGAATAA	MLVRESRNRLRELREVVLVIAGDHDRVDGRQHRLAHRARSCDDHPRHLVQDLEAPAHHIRRRGEPLVRQRLQRGEMRDLLRSDQRRQLRGEILGLVPRRGDQQHRDLARQRGRGPRAGLVDPHDVEMILADIAQQALELRVRQRNSKQPTQCGHGGGHSGVTQFPSQCE				NA	NA	NA	NA	NA
AK009_06419	1047			hypothetical protein	GTGGACGGTGCGCTCGGCCATCTTTACAAACCGGCCAATGCCGTGGGTCTCGTGCACCACGTAATCGCCGGGGCTCAGCGCGAGCGGGTCGACCCTGTTGCGCCGCCGCGGGGCGCGCCGCTTCGCGCCCGCGATATCGCCTACGCGGTTACCTGTCACATCGGTCTCAGTGACAACGACCATGTTTGGCCCCGGGAACACCAAACCCGCGTGCGACAACGCTTGGTAGAGCGTGACCTGACCGGTCACCGGTTCGAGCCCGTCCGAGGCAATGCGCGCCGAGATCCCGTGCTCGCGCAGCCGCTCAGCGAAGCGCTCCACCGTGCCTTTGGCCGGGGCGACGAAGGCGGCGGTGCCGTTGTTGCTCTGCACGTGCAGCTTGACAGTGGCGAAGAGCTGCTCGATCGCCTTCGGATCGCCCTTCGGGGCGGGCGCGGGTTCGAACTCCAGCGGCAGGGTCGCCGTGTCGTCTGCGGCAAACATGCCGGGAGGCGCGAACGTCCACCAGCTACTGCCCGCCTTAAGCGTCGAGACGCGCAGCGACTCGAAGGAGCGATACGACGACGCCGAGACGTCGAGCCCCTCCACCGCGACGGGACCCTCCGCCCCCATCGCCGCCGCTTCCCAGCCGGCCTCGAGGAACTCCTTGTCGGTGACCTCGAGGTCTTGGATGCGGGCGCGGACTTTTTCCGGCGCCGTGACCAGCACGATCGACCCCTTCGGCAACAGCTCGGGAAGCACCTGGAAGGGCTTGTCGGTCAGCGCCGGGATGAGCGCCTCCATGCCGTCGGCGTGGTGCCCCTGGGAAATCCGGGTCAGCATCTGCACGAGCGTGGCGTTCTGCGGGTGCGCGCGGGCGAGCTCGTCGGCGCGTGCGGCCACGGGGTCGTCGATAAGCAACTGGCGAGCGGGGAAAAGCTCGACGGAGTCGACCTCGTCGATGCCGCGCTGATCCGCCACCGCGAAGGTGCGGATGTCCGTGACCTCATCGCCCCAGAACTCGATGCGCACCGGGTGCTCGGCGGTGGTTGGGAAAACGTCGATTAG	MDGALGHLYKPANAVGLVHHVIAGAQRERVDPVAPPRGAPLRARDIAYAVTCHIGLSDNDHVWPREHQTRVRQRLVERDLTGHRFEPVRGNARRDPVLAQPLSEALHRAFGRGDEGGGAVVALHVQLDSGEELLDRLRIALRGGRGFELQRQGRRVVCGKHAGRRERPPATARLKRRDAQRLEGAIRRRRDVEPLHRDGTLRPHRRRFPAGLEELLVGDLEVLDAGADFFRRRDQHDRPLRQQLGKHLEGLVGQRRDERLHAVGVVPLGNPGQHLHERGVLRVRAGELVGACGHGVVDKQLASGEKLDGVDLVDAALIRHREGADVRDLIAPELDAHRVLGGGWENVD				NA	NA	NA	NA	NA
AK009_06420	600			hypothetical protein	GTGCTCCTTGTGCTCGACGCCGAAGCGCTGCTCCTCATCGACCACGATGAGGCCCAGGTTCTTCCACTGCACGCCGGTAGCCAGCAGGCGGTGGGTGCCGATGACGACGTCAACGGAGCCGTCGGCAAGCCCAGCGAGCGTCTCCTTCGACTCCTTCGCCGAGGTAAAACGCGACAGCTCGCGGATGGTCACGCCGAAGCCGTCCATGCGGGTGGAGAACGTCGAATAGTGCTGCTGCGCCAGAAGGGTGGTCGGCACGAGCACCGCGACCTGCTTGCCGTCCTGCACCGCCTTGAACGCCGCGCGCACCGCGACCTCGGTCTTGCCGAAGCCGACGTCACCCACGATCACCCGATCCATCGGCGTCGGCTTCTCCATGTCGTCCTTAACCGCGCCGATCGCGAGGAGCTGGTCCTCCGTCTCCACGAACGGAAAGTTGTCCTCCATCTCCGCCTGCCACGGCGTGTCCGGCGCGAACGCGTGGCCCGGCGCGGCCTGGCGCTTGGCGTAAAGCTGCACCAACTCAGCCGCGATCTCCCGCACCGCCGCGCGCGCCTTGCGCTTGGTGCTCTTCCAGTCGGAGCCGCCCATTTTGCTTAA	MLLVLDAEALLLIDHDEAQVLPLHAGSQQAVGADDDVNGAVGKPSERLLRLLRRGKTRQLADGHAEAVHAGGERRIVLLRQKGGRHEHRDLLAVLHRLERRAHRDLGLAEADVTHDHPIHRRRLLHVVLNRADREELVLRLHERKVVLHLRLPRRVRRERVARRGLALGVKLHQLSRDLPHRRARLALGALPVGAAHFA				NA	NA	NA	NA	NA
AK009_06421	810			hypothetical protein	GTGGGCGTCGACAGGCAAATCGATGCGGATTTCCTTCGGGCCCTGGTCGGTGGCATCCACCGTCTCTCCCGTCATCAGCGCCTTGTACGTATCGACGGCCTCCCCAACGAGCCGGACATACATATCGAAGCCGACACCCGCGATGTGCCCCGACTGCTCCGCGCCCAGCACGTTGCCGGCGCCGCGCATCTCCAGGTCCTTTTGCGCCACCGCGATACCGGAGCCCAGGTCGTTGTTCTGCGCGATCGTCGCCAAGCGGTCGTACGAAGTCTCGGTCAGCGTCTTGTCCTTCGGATACAGGAAGTAGGCGTAGGCGCGATCGCGGGAACGACCGACGCGGCCGCGCAGCTGATGCAGCTGGGACAGGCCCATGTTTTGGGCGTTTTCCACGATCAGGGTGTTGGCGTTGGCGATATCCAGGCCCGTTTCCACGATCGTGGTGCACACGAGCACGTCGTACTCGCGGTTCCAGAACCCCTGCACCGTCTGCTCGAGCAGCTGCTCCGACATCTGGCCGTGCGCCACCACGACGCGCGCCTCGGGGACAAGCTCGCGCACGCGCCGCGCGGCCTTTTCAATGTCGGCGACCTTGTTGTGGATGTAGAAAATCTGGCCATCGCGCAGCAGCTCGCGCCGAATCGCCGCCGCGATTTGTTTATCCTCCTGCGGGCCGACGTAAGTCAGCACCGGGTGGCGGTCCTCCGGCGGAGTCGTGATCGACGTCATCTCGCGGATCCCGGTCAGCGACATCTCCAGGGTGCGCGGGATTGGCGTCGCCGTCATGGTGAGCACGTCGACGTGCGACTTTAG	MGVDRQIDADFLRALVGGIHRLSRHQRLVRIDGLPNEPDIHIEADTRDVPRLLRAQHVAGAAHLQVLLRHRDTGAQVVVLRDRRQAVVRSLGQRLVLRIQEVGVGAIAGTTDAAAQLMQLGQAHVLGVFHDQGVGVGDIQARFHDRGAHEHVVLAVPEPLHRLLEQLLRHLAVRHHDARLGDKLAHAPRGLFNVGDLVVDVENLAIAQQLAPNRRRDLFILLRADVSQHRVAVLRRSRDRRHLADPGQRHLQGARDWRRRHGEHVDVRL				NA	NA	NA	NA	NA
AK009_06423	516			hypothetical protein	ATGCAGCATCTCATTCTCGGCCTCCTGCTTACCGGCCCGCTCTCGCTCTACGATGTACACAAGCGCTTCGCTAGCGGCCTCGCGCATTTCTATAGCGCAAGTTTCGGGAGCATCGAACGCGCGCTCAAGCGGCTAGTCGACGACGGCCTGGCTGCGGTGGAGCCTGATCCCGGGAACGCGCGTGGGCGCAAGCTGTATTCCATCACTCAATCGGGGCGCGCTTCCTGGTCGGAGTGGATGCACTCGCCGACCCCGTCGGGATCAGACCTCGAGCAGAGCGTGTTGGCGAAAGTCTTTCTACTTGGGCGCATCGCCGACCCTGCGGAGCGCAGCGAGATCCTTAGACTGATCCGCGAGGAGGCCGAAGCGTCCGAGAGTGCCTTGCTAGATATGGCGGAAAGTATTGATGCACAAGCGAAGACGCTTGACGCTGGCGGTGCTGAATTTTTTGCATACCATCGCGCAACCCTGGAGTACGGCCTAGCGTCGCATCGCACCATGATCGAGTGGCTGTGA	MQHLILGLLLTGPLSLYDVHKRFASGLAHFYSASFGSIERALKRLVDDGLAAVEPDPGNARGRKLYSITQSGRASWSEWMHSPTPSGSDLEQSVLAKVFLLGRIADPAERSEILRLIREEAEASESALLDMAESIDAQAKTLDAGGAEFFAYHRATLEYGLASHRTMIEWL				NA	NA	NA	NA	NA
AK009_06424	168			hypothetical protein	GTGCGCGGCATCCAGCGCCTTGTCGACGTCGGCGGCCGTGCCTCGTGCAACCTGGCAGAACACCTCCCCGGTGACCGGGGTGATGTTGTCGAAGTACTGCCCCATTGCGGGCGCGGCCCACTCACCGTTGATGTAGTTGTCGTAGCGCTTTTTGAAGCTGACCTTTGA	MRGIQRLVDVGGRASCNLAEHLPGDRGDVVEVLPHCGRGPLTVDVVVVALFEADL				NA	NA	NA	NA	NA
AK009_06425	858			hypothetical protein	GTGGCCCGCGCGCAGCGAGACCATCTCCGCCCAGTAACCGAGGAACACAGCGGCCACCGCTGCGACCGGCACGGCGAGGAAGGCACCGATGATTCCGAACAGTGTGCCGCCAAGAGCGACGGAGAGCAGGACGACGGCTGCGTGGAGGCCCATGGCGCGGGACTGCAGGATTGGCTGCAGTACGTTGCCCTCGAACTGCTGGACAGCGACGACGAGCAGCAGGACCAGGATCGCGTTCGTGAAACCGTTGGACACCAGGGCGACCACGACGGCCAGGGCACCAGCGGTAAACGCGCCGATGATGGGGATGAAGCCAGCGAAGAAGGTGATCACCGCGAGCACTGGCCACAGCGGGACGCCGAGCAGGATGAGGCCGATACCGATGAACACGGCGTCGACCGCGGACACGATCGCCTGGGTGCGGATGAATCCGGCGAGGGTGTTCCAGGAGCGCATCAGCACCTCGGTGAGGTGCCAGCCGGCGCGCACGCCTGCGTACTTGCGCACGAACGGCAGGAACTGGTCGCCGTCCTTAAGGAAGAAGAAGGTCAGAATCAGGGTGAGCACCAAGGTGGTGCCCACGCTGGCGACGGCGCCGAGGCCGCTAAACACGCCCGAGGCGATGGTCGAGGCCTGACCGCGGACGAAGTTGGTGAACTGTGCAACTCCCTCTTGGACCCGCTCCGCCTCGATAAATTGGAGGTTCTCCTCGGCCAGGCGCAGAAGTTCGTTGAAACCTGCTTGGGCTTGGAGGATAAGCGTGCTGCCTTGATCGCGCACAATCGGCGCCATCGCAGCAATAACGCCGCCGAAGATGGCAAAGGACGCGACGAGGACGATGAACACGGCCAGTGCTGA	MARAQRDHLRPVTEEHSGHRCDRHGEEGTDDSEQCAAKSDGEQDDGCVEAHGAGLQDWLQYVALELLDSDDEQQDQDRVRETVGHQGDHDGQGTSGKRADDGDEASEEGDHREHWPQRDAEQDEADTDEHGVDRGHDRLGADESGEGVPGAHQHLGEVPAGAHACVLAHERQELVAVLKEEEGQNQGEHQGGAHAGDGAEAAKHARGDGRGLTADEVGELCNSLLDPLRLDKLEVLLGQAQKFVETCLGLEDKRAALIAHNRRHRSNNAAEDGKGRDEDDEHGQC				NA	NA	NA	NA	NA
AK009_06426	300			hypothetical protein	GTGGCGCGCATTAATGGGGCGCGCCACCGGGTTTTATATGCGCGAGGGCCCCTACTTCTCGGAGTCCTTATCCACGGGCTCTGTCGCACGCGACTTGCCTGGGACCTGGCGGTCGTACTTCTTGGACGGCACCTTCTTGTCGGAAGGGATACGAGTCGAACCGGACTTGGTTGCCTTCTTGTCCTTCTTGCTAAAGCCTGGGCGCGCGAGGGTGCGCATCCGCTCACGAACGGCCAGGAAGGCCTCCTTGGAGTCCAGTGTCTGGCTTTGTTGCGTCGCTATCTTAATGTCGTCTGCTGA	MARINGARHRVLYARGPLLLGVLIHGLCRTRLAWDLAVVLLGRHLLVGRDTSRTGLGCLLVLLAKAWAREGAHPLTNGQEGLLGVQCLALLRRYLNVVC				NA	NA	NA	NA	NA
AK009_06427	576			hypothetical protein	TTGGGGTGGGCGTCGATAAGCGAAAGTGCTCTAGCCCGCGAACTCTTTGACGATCGCGCTGTTGAACGCTGGCAGGTCCTTCGGTGTGCGGGAGGAGACGAAGCCGGAATCGACCACGACCTCCTCGTCAACCCAGGTCGCACCTGCGTTTCGCAGGTCAGTCTGCAGCGATTTGAAGGAGGTCAGCTTAACGCCCTTGATCACGTCAGCGTCGGTAAGGATCCAACCGCCGTGGCAGATCACGCCAACGGGCTTGCCCGCCTCGCGCAGCGTCTTCACCAGCTCGACCGCGTTCGCGTCGGTGCGGATGGTATCGGCGTTGCTGGTGCCGCCCGGGAGAATGAGTGCGTCGTAATCGTCAGCTTTCGCTTCAGCGCTGATGATGTCGACGGAAACCTTCGTTCCGTTCTTGCCCTCGATCTCACCGGATTCGGTGGAGATGACGTGGGTCGTTGCACCCGCAGCCTCGACCGCCTCCTTCGGGGAGGTCAGCTCGGAGTCCTCGAATCGGTCCGTTGCAATGATTGCGATGCGCTTGCCGTTGAGATCAGCCATTACATGAATCCTTTCTTCTGA	MGWASISESALARELFDDRAVERWQVLRCAGGDEAGIDHDLLVNPGRTCVSQVSLQRFEGGQLNALDHVSVGKDPTAVADHANGLARLAQRLHQLDRVRVGADGIGVAGAARENECVVIVSFRFSADDVDGNLRSVLALDLTGFGGDDVGRCTRSLDRLLRGGQLGVLESVRCNDCDALAVEISHYMNPFF				NA	NA	NA	NA	NA
AK009_06428	534			hypothetical protein	GTGGGTGGGGCAGACATCCTGCACGGCGATGTTCGCGGCGCTAGCAATCGAGCTCACCTGGGTGGCCGGCTGAATCCCCTCGTCGGTCAGTCTGTAGACGCTGGTGACGTCGATCGAGTCCGGCAGCGGCTTTGCGTGGAGCGCCTGGACGAAATCCGAATTCGGGTGCATCTGCCACGCGATCACGGGGCAGTTGCCCACGGCCTTGCACGCGGGCTCGACCAGGTCGGTGCCCCGGTTTGCACCGGCCACGGAGATGAAGTCGTCCACAAGCGAGGCGGCCTCGGTGTCGTAGCGCAGCGCCCACATGATCGCGGGCGAGCCCGCGCTGTGACCGATCGCGGCGACCTTCTTGTCCAGCCGCTGGTGCGCCAACTTGATGCCGTTAGCCACGTACAACGCGGTCTGCGTGAGGTCGCCGCGGCCGCTGTGCGGGGGCTGAACCCAGCAGACGTCGTAACCCTGAGCGCTCAGCTGCGGGATGTAGCCCCAAGCATACGTTGCTTCGACCGACAGGCCCACACCGGGCACTAG	MGGADILHGDVRGASNRAHLGGRLNPLVGQSVDAGDVDRVRQRLCVERLDEIRIRVHLPRDHGAVAHGLARGLDQVGAPVCTGHGDEVVHKRGGLGVVAQRPHDRGRARAVTDRGDLLVQPLVRQLDAVSHVQRGLREVAAAAVRGLNPADVVTLSAQLRDVAPSIRCFDRQAHTGH				NA	NA	NA	NA	NA
AK009_06429	1158			hypothetical protein	ATGTTTGCCATGAGTAGCGCCGCTGCCGCGGCACTGCCGCGACGCGCCGTGAAAGTGTGCTCAATGGTCTCTCCTATCGCCCGTGGATATTTGCTTATACATCGGGCGGTGTTACCCAACCGTTACGGTAAGTGGGCGGCTGAAGAGGTGTCGATAGTTAAAGTTCCCTTGTTAGCGCGACTTCGCGTGGTCCTCCACGTCCTCGGGCGCGTGCAGGGCATGGCCGATCTGCTCGCGGTCCGAGGCAGCCTTCGAGTGCTGGCGCGCCTTGACCACACCGCGCCACGACAGCACCAGGCCGATGCCCAAGATCAGCAGACGGGGGATCCACAGGTGGCTGTCCAGGCCGATCGCCTTGAGCACGACGGGCAGGTTCAACATCACAATGAGCGTGCCCACGATCCCGCCGAGCAGGATCGGGTTGAGGCGGGTGACCAACCACGCGGCCAGGGGGGCGGCGATGACGCCGCCGATAAGCAGTGCGATCACGGCGGCCAAGTTGGCCACGAGGTCATCCCACATGCCGATGACGAAGCCCAAGGTCGCGGCGAAGGTGACGAAGAACTCCGCGGTGTTAACGGTGCCGATGATGCGGCGCGGCTCCGAGCGGCCTGCGGACAGCAGCGTCGATGTGGTCACCGGGCCCCAGCCGCCGCCACCGGTGGCGTCGACGAAGCCGCCGAAGAGTCCCAGGCTGCCGAGGAAACCGCGGGAGTGCGGCTTGACGTCAAGCTTGCGCCTGGTCAGGCCGCGGGAGAAGCGCAGCATCAGGTTCGCGCCGATCAGCGCGAGGATCAGGGACATGATCGGCTTCGCCGCCTCCGTCGAGAGGTTCGACAGCACCGTCGCGCCGGCGAAGGCGCCGACCGCGCCGGGGATGCCGATGGAGGCAACAACCTTCCAGTCGACGTTGCCGAAGCGCCAGTGGGAGAAGCCGGAGACAAACGTCGTGCCCAGCTCTGCGGTGTGGACAACCGCAGACGCCTGGGCCGGGCCGAGGCCGGCGAGCATGACCAGGATGGTGGTGGAGGTTACGCCGAAGCCCATGCCGAGACCACCGTCGACAAGCTGGGCCGCGAGACCGGCGAGCGCAATGAGTGTCAGCGTCGTGAGGTTTTTCATGAGAGATCTGAGCTTTCGCCTAGGGCTTCGCGGTAG	MFAMSSAAAAALPRRAVKVCSMVSPIARGYLLIHRAVLPNRYGKWAAEEVSIVKVPLLARLRVVLHVLGRVQGMADLLAVRGSLRVLARLDHTAPRQHQADAQDQQTGDPQVAVQADRLEHDGQVQHHNERAHDPAEQDRVEAGDQPRGQGGGDDAADKQCDHGGQVGHEVIPHADDEAQGRGEGDEELRGVNGADDAARLRAACGQQRRCGHRAPAAATGGVDEAAEESQAAEETAGVRLDVKLAPGQAAGEAQHQVRADQREDQGHDRLRRLRREVRQHRRAGEGADRAGDADGGNNLPVDVAEAPVGEAGDKRRAQLCGVDNRRRLGRAEAGEHDQDGGGGYAEAHAETTVDKLGRETGERNECQRREVFHERSELSPRASR				NA	NA	NA	NA	NA
AK009_06430	729			hypothetical protein	ATGCAGGCACTGATCACCCTGTCACACGGCTCGAGGCACGACGTCGCCCAGCGCGGTGTCGAACGCCTCACCGCGGCAGCGGCGATCACGCTCGGTGTCGAGGCCGTCGACGCGCACCTCGAGTTCAACACCCCCGACCTGGCCGGTGCCGCCCAGGTCGCGGCGGATGCGGGCTACACAAGCGCCGTCGTCGTGCCGCTGTTGTTCACCCGCGCCTTCCACGCCACCGTCGACGTTCCGGCCGCGCTAAGCCAAGCCCGCGCCGCGACCGGCGTGCAGCTCACGTTGGCGAACGGCCTCGGCCAGGGCGCCGACATTGTCGATGTGCTCGCCCGGCGGGTGTTGCGCGATTCGCTGCCATCGGTGCCGGTTGTTCTCTACCCGGTGGGTACGTCCAACCTCGAGGCGGCGGCGCGCACCCGGGCGCTTGGCGCAGCGCTGGCGGAGAAGATCGACCGCGACGTCACCGTCGTTCCGGCGACCGGTGCTGGCGACCTCATCGGCAATTCCGGCATCGAGGCGGCCGCGCGGGATCGGGAGCGAATGCACCTGCTTCCGTTGTTCGTCACTGACGGACTCCTGCTCGACCGCGCAACGCGCGACCTGGGGCGCATCCAGGACGCAACCGGTTCAATCCTGACCCACTCGGCACCTCTGACCACAGATCTGTCGGACATTGTCGCTTCGCGCTACCGCGAAGCCCTAGGCGAAAGCTCAGATCTCTCATGA	MQALITLSHGSRHDVAQRGVERLTAAAAITLGVEAVDAHLEFNTPDLAGAAQVAADAGYTSAVVVPLLFTRAFHATVDVPAALSQARAATGVQLTLANGLGQGADIVDVLARRVLRDSLPSVPVVLYPVGTSNLEAAARTRALGAALAEKIDRDVTVVPATGAGDLIGNSGIEAAARDRERMHLLPLFVTDGLLLDRATRDLGRIQDATGSILTHSAPLTTDLSDIVASRYREALGESSDLS	PGPT0009235_765	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009235-cbiX-K03795	NA	NA
AK009_06431	996			hypothetical protein	GTGGGTGACGGTGGTGCTGCGCCCGCCGGCGTGGACGGTGTCGCCGACTGCCACGCTGCCCGCGTTGACCCGCCCGGCGTACGCGCGGTAGTCGGTGGCGTGCTCGCGCAGCACGTACTGGATGTTGAAACGGAAGTCGAGCTCGAGCGCGCGGCCGGAGGTGACGGGGATGGATTCAAGGAGCTCCAGCACCGTCGGGCCGGTGTAGAAGTCCATGTGCGCGGAGCGCTCGACCACGTTGTCGCCCTTGAGCGCCGAGATGGGAACCACGTGCGGGTCCTCGATGCCGAGCTCGGCGGCCTTGGCCTCGAACTCAGTCTTGATGGTGTTGTAGATCTCCTCGGAGTAGTCGACCAGGTCGATCTTGTTCACACCGAGGATCACGGTTTTCACGCCGAGCAGGGCGGCGACGTTGAGGTGGCGCACGGTTTGTTCGACCACGCCGTTTCGGGCGTCGACAAGCAAGACCACGACCTGGGAGGTGGACATGCCCGTGACCGTGTTGCGCGTGTACTGCACGTGGCCCGGGGTATCGGCGAGGATGAAGGTGCGCTTGTCGGTGGCGAAGTAGCGGTAGGCGACGTCGATGGTGATGCCTTGCTCGCGCTCGGCACGCAGACCGTCGACAAGCAGGGAGAGGTCGAGGCCGTCGAAGCCGCGGTCGGCGGAGGTGCGCTCCACCGACGCGAGCTGGTCAGCGAGCACGCTCTTGGTGTCGTGCAGCAAGCGGCCGACGAAGGTGGACTTGCCGTCGTCGACGGAACCGGCGGTGCACAGGCGCAGCGTCTGGCGCTGGGCGAGAAGTTCAGTGGCGCTCATCAGAAGTACCCCTCTTTCTTGCGGTCTTCCATGGAGGACTCGCTCAGTCGGTCGTCGGCACGCGTGGCTCCGCGCTCCGTCAAGGTGGAGTTGGCGATCTCCGCGAGCACGGCGCTAATCGACGTCGCGTCCGACTCAACCGCGCCGGTGCACGACATGTCGCCCACCGTGCGGTAG	MGDGGAAPAGVDGVADCHAARVDPPGVRAVVGGVLAQHVLDVETEVELERAAGGDGDGFKELQHRRAGVEVHVRGALDHVVALERRDGNHVRVLDAELGGLGLELSLDGVVDLLGVVDQVDLVHTEDHGFHAEQGGDVEVAHGLFDHAVSGVDKQDHDLGGGHARDRVARVLHVARGIGEDEGALVGGEVAVGDVDGDALLALGTQTVDKQGEVEAVEAAVGGGALHRRELVSEHALGVVQQAADEGGLAVVDGTGGAQAQRLALGEKFSGAHQKYPSFLRSSMEDSLSRSSARVAPRSVKVELAISASTALIDVASDSTAPVHDMSPTVR				NA	NA	NA	NA	NA
AK009_06432	669			hypothetical protein	GTGCGCGAAGTAGATCTCCGGCAGGCGGATCCCGCGCGCGCCGATGTATTCCCACACGTCGGCCTCGGTCCAATTGGAGATGGGGAACACGCGCACGTTTTCACCCGGGAGCTTTTCGCCGTTGTAGAGATCCCACAGCTCGGGGCGCTGCCGGCGCGGGTCCCAGCCGCCGAAGGTGTCGCGGATGGAGAACACGCGCTCCTTCGCGCGCGCCCGCTCCTCGTCGCGGCGAGCCCCACCGAGCACGGCGTCGTAGCCGACCTCGGCGATGGTCTCCACCAAAGGCACGGTTTGCAACGGGTTGCGGGTGCCGTCCGGGCGCTCCACGAGGTCCCCGCGGTCGATCCAGTCCTGCACCTCGGCGACACGCAGGCGCACCCCGTACTCGGCGACGATGGAGTCGCGGAACTCGATGACCTCCGGGAAGTTGTGGCCCGTGTCAACGTGGAGCAGCTCAATCGGCATTGCGGCGGGCGCGAACGCGCGGCGCACCAGCTCAAGCACCACGCAGGAGTCCTTGCCACCGGAGAACAGCAGCCCGATCTTGTCAAACTGCCCCGCCACCTCGCGCAGGATGTGGATGGACTCGTCTTCCAAGTCCTTGAGGTGGGGCGAGATGCCGCCCGCGTGTGCAGAAGTATTCGTGTTCATAGCAACAGTCATCTATAG	MREVDLRQADPARADVFPHVGLGPIGDGEHAHVFTRELFAVVEIPQLGALPARVPAAEGVADGEHALLRARPLLVAASPTEHGVVADLGDGLHQRHGLQRVAGAVRALHEVPAVDPVLHLGDTQAHPVLGDDGVAELDDLREVVARVNVEQLNRHCGGRERAAHQLKHHAGVLATGEQQPDLVKLPRHLAQDVDGLVFQVLEVGRDAARVCRSIRVHSNSHL				NA	NA	NA	NA	NA
AK009_06433	462			hypothetical protein	GTGGACAGCCAGGGGCTCAACCTTGCGCATGCGGCAACAAGCCTGCGGGTGGGAGCGGTACAGGTTCGGGCCGTAGGTCTCGTCCTGCTCCTCGCGCGAGAGCACGGCCGTGGCGCGCACCAGCTCGTGGTTGGGGTAGCGTTGCTCCACTTCGTCGGCCACCTCGAGGGTTTCCGGGAAGTGGTACTCGGTGTCGAGGAAGAGGAAGTCCGCATCCGGCAGGTGGCGCTCGGCGAGCTCCGCGAGCACGGTATTTTCCATGGACAGGGTCACCACGAGCGGGCCCGGGGCGTGCTCGTGGGCCCAGTCGAGGATGACGTCGGCGGGGGCGTCGTAAAGCTCGCGCGCGTGCTTATCGACGAGCTCCTCGTTGCGCTTTCTCACCTCGGGCGCAAGCGGTGTCGTCTCGCGCGGGCCGTCGGGGCTGACCTCGGGGTCTGCGAAGTTGCCGGAGGATCCTGA	MDSQGLNLAHAATSLRVGAVQVRAVGLVLLLAREHGRGAHQLVVGVALLHFVGHLEGFREVVLGVEEEEVRIRQVALGELREHGIFHGQGHHERARGVLVGPVEDDVGGGVVKLARVLIDELLVALSHLGRKRCRLARAVGADLGVCEVAGGS				NA	NA	NA	NA	NA
AK009_06434	297			hypothetical protein	GTGAGTGTGCGCCGGGCCCCGAATCCGAACCGGAATTTCCCCACGCACTGCCCCTACTGCGCGGGGGAGGATCTCTACCCCAACGAGGAGACCGATTTCGCCTGGAAGTGCGGGGAATGCCTGCGCATCTTCGAGGTGAAGTTTTTCGGCCAGGACGACCCGCACACCGCCCCCGCTCCAGCGCCGTCTACCGAGGATGCCTTCCAGGCGTCGTTGCGCAAGCACGGTCACGCTGCGGTCTTGCGCGAAGTAGGTAACACTGGAGAGAAACGTTTGAAAGGGATTAGCAATGATTAA	MSVRRAPNPNRNFPTHCPYCAGEDLYPNEETDFAWKCGECLRIFEVKFFGQDDPHTAPAPAPSTEDAFQASLRKHGHAAVLREVGNTGEKRLKGISND	PGPT0002785_279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
AK009_06435	492			hypothetical protein	GTGGCGCCGATCCACGTAGTTCTGCACGACGCGGCTGACGTAATCGGTCAGTTCGCTGGAGAGCACCTTGTGCCCGCGCAGTTTGCGGCCGAAGTTCGCGCCCTCGCCGATGGTGCCGCCGAGGTGCACCTGGAAGCCCTCGACCTTCTCGCCCTCGGAGTTGACCACCATCTGGCCTTTGAGCCCGATGTCGGAGATGTGGTGGCGGGCGCACGCGTTCGGGCAGCCGTTGAGCGAGATGGACACGGGCGAGTCGAGGTCACCGAAGCGTTCCTCGAGCTCGTCGGCAAGCTCGATGGCGCGGGACTTGGTGGTGACGTGCGCGAGCTTGCAGTACTCCAGGCCCGTGCACGAGAGCAGGCCGCGGCGGAACTCGCTCGGCTGCGAATACAGGCCCATCTGCTCCAGGTCGCCGCGCAGCTTATCGACGTCCTGTTCACGCACGTCCAAAAAGAGCATCTCCTTGAACGGCGTAAACCTCAGGCGGGTTAG	MAPIHVVLHDAADVIGQFAGEHLVPAQFAAEVRALADGAAEVHLEALDLLALGVDHHLAFEPDVGDVVAGARVRAAVERDGHGRVEVTEAFLELVGKLDGAGLGGDVRELAVLQARAREQAAAELARLRIQAHLLQVAAQLIDVLFTHVQKEHLLERRKPQAG				NA	NA	NA	NA	NA
AK009_06436	1089			hypothetical protein	GTGGCCGAGCGTCGGCTTGACCCCGATGTAGAAGTTGCCGTCCTTTTGCTCGTGGACCCCGATGTGGTCGCGGTCCACGAGGTTGTTCGGCGCCTTCGGGCCGTCGGGAAGCTGGTAACCGAGGTAGTCGCGCTCGAGGATCTCGCGGAACTTCTCGACACCCCACTCGGCGACGAGGAACTTCAGCCGCGCGCGGTTACGCAAGCGGCGGTAGCCGTAATCGCGGAAAATGCGCACCACGTTCGCCCATACCTCGGGCACCTGCTCGAGGGTGACAAACGCGCCAAGCGACTGAGCGAGCATCGGGTTGGTGGACAGGCCGCCACCGACGTAGCACTCGAAGCCAGGGCCGAGCTCGGGGTGCTCGACGCCGATGAAGGCGAGGTCGTTGACCTCGTGGACGACGTCTTGGCGCGAGTTGCCGGAGATTGCCGACTTGAACTTACGCGGCAGGTTCTGGAACTCCTCGTCGGTGACAATCTGCTGGATCTTCTCGATCGCCTCGGTGGCGTCGACGATCTCGTCCTTCGCAATGCCGGCGACCGGGGAGCCCAGCACGACGCGCGGCACGTCGCCGCAGGCGTCCCAGGTGTTCAGGCCGACCGATTCGAGCTTCTCCCAAATCGCTGGGACGTCCTCGATGGCCACCCAGTGCAACTGGATGTTCTGGCGGTCGGTCAGGTCCACTGTGGAGCGGGCCCAGTCCCGCGAGATCTCGCCGACGGCGCGGGCCTGCTCGGTGGAGCAGCGGCCGCCGTCGAAGCGGATGCGCATCATGAAGTACTCGTCCTGGAGCACCGAGTTGTCCTGGCCGGTAAACTCGCCGCCGAGGTTCTGCTTGCGCTGGGTGTACATGCCCAGCCACTTGAAGCGCGGCGCGAGGTCCTCCGGCGGGATGGAGGCGAAGCCCTGCTTCGAGTAGGTGTCGATGACGCGCTGCTTGACCTGCATCACGGGCTCGAGCTGCTTGAGTTCCTCGTCGTGGTTCAGGGGCGCGGTGCCGTCGATAAGCCACTGCCCTTCGGGCTTTTTGGCCCGGGCCTTGACTGCTCGCGTTTTCGCGGTGGGGGCTGTCATAACACTCCTTAA	MAERRLDPDVEVAVLLLVDPDVVAVHEVVRRLRAVGKLVTEVVALEDLAELLDTPLGDEELQPRAVTQAAVAVIAENAHHVRPYLGHLLEGDKRAKRLSEHRVGGQAATDVALEARAELGVLDADEGEVVDLVDDVLARVAGDCRLELTRQVLELLVGDNLLDLLDRLGGVDDLVLRNAGDRGAQHDARHVAAGVPGVQADRFELLPNRWDVLDGHPVQLDVLAVGQVHCGAGPVPRDLADGAGLLGGAAAAVEADAHHEVLVLEHRVVLAGKLAAEVLLALGVHAQPLEARREVLRRDGGEALLRVGVDDALLDLHHGLELLEFLVVVQGRGAVDKPLPFGLFGPGLDCSRFRGGGCHNTP				NA	NA	NA	NA	NA
AK009_06437	1278			hypothetical protein	GTGGGCGACCATCTCTTCCCACTCGACGATCTTGCGGCGCTCGCGCGGCAAAAGATCGCTGGTCTCGCCGAGGCGTCGTTCCTCGGCGTCGAGGCGGTACCAGCCGTCCCAGGTGGTGTAGGCAATGCCGCGCTCGTGCAGCAGGGCGATGATAGCGTCGGGGTCGGGGTACTTCGGGGCGTGCAGCTTGCCGGCGGCGGCGTCCTCGAAGAGCATGTCCGTGGTTTCCTTGGCGTCGGACTTGGTGTTGCCGATCAGGCCGACGGGCCCGCGCTTGATCCAGCCGGTGACGTAGAGGGAGTTCTCGATGCCCTCTTCGTTGAGGACGTGGCCGCCGTCGTTGGGGATAACGTTGCGGTCGTGGTCGAAGGGTACGCCGATGACGGGCTCGGAGCGGTAGCCGATCGCGTGGTAGACCTGCTGCACCGGCCAGTCGGTGAACGTGCCGGTGCCGCGGATGCCGCCTTCGCCGTCGAGTTCCTGGCGCTCCGTGCGCACGCCGACGATGGCGTCGCCTTCGGTGAGTACCTCGACGGGCTCTTCGAAGAAGTGGATGTGTATCTTGTGCGGCGCGTCATCCGGCTCGCGCATCGCGTACTGCTCGAGCACCTGGCAGTTGAGGTCGATGGACTTGTCGGCGCGGCGAAGTTCTTCGGAGAGCTGGTCGTAGTCGATGTCCTCGGGGTCGACGAGCACCTGGATGGTGTCGGAGAGGTCGAGTTCGCGCAGCTCCTTCGGGGTGAACTTCGCCTGGGCGGGGCCGCGGCGGCCGAACATGTGCACCACCTCGGCCTTGTTGTCTTTCAGCGAGTCGTAGACGTTGTCCGGGATCTCGGTGACCAGCAGCTCGTCGCCGGTCTTGGCCAGGATGCGGGAGACGTCGAGGGCGACGTTGCCGACGCCGATGACGGCGACCTCGCGGGCGGAGAGGTCCCAGTCGCGCTCGAAGCGGGGGTTGCCGTCGTAGAAGCCCACGAATTCGCCAGCGCCGATGGACTTGTCTCCACCCGGGATCAGCAAGTCGCGGTCGCGGACCGCACCCGTGGAGATCACAATCGCGTCGTAGTAATCGCGCAGCTCCTCGATGGTGACGTCCTTGCCCACCTCGATGTTGCCGAGCAGCCGCAGGTGGGGCTTGTCCAGCACGTTGTGCAGGGAGGTGACGATGCCCTTGATGCGCGGGTGGTCGGGCGCCACGCCGTAACGGATCAGTCCGAACGGCGCAGGCATCTGCTCGAACAGGTCGACGGAGATGTCGAGCTCTTCGTTGCGGATTAG	MGDHLFPLDDLAALARQKIAGLAEASFLGVEAVPAVPGGVGNAALVQQGDDSVGVGVLRGVQLAGGGVLEEHVRGFLGVGLGVADQADGPALDPAGDVEGVLDALFVEDVAAVVGDNVAVVVEGYADDGLGAVADRVVDLLHRPVGERAGAADAAFAVEFLALRAHADDGVAFGEYLDGLFEEVDVYLVRRVIRLAHRVLLEHLAVEVDGLVGAAKFFGELVVVDVLGVDEHLDGVGEVEFAQLLRGELRLGGAAAAEHVHHLGLVVFQRVVDVVRDLGDQQLVAGLGQDAGDVEGDVADADDGDLAGGEVPVALEAGVAVVEAHEFASADGLVSTRDQQVAVADRTRGDHNRVVVIAQLLDGDVLAHLDVAEQPQVGLVQHVVQGGDDALDARVVGRHAVTDQSERRRHLLEQVDGDVELFVAD				NA	NA	NA	NA	NA
AK009_06438	1515			hypothetical protein	GTGGCGGTGGCGCTCGGTGACGTCGGTGGTGCCGTAGACGTCCGCGACAACGGAGCCCTCCAACAGTGTCGCCGGGTAGGACCCGAGGCGCATGGTGCCACCCAGGTCGGCCTCCCCGGAGACCGCGCGCAGCTGCTCCTCCATCGTCGCGATGACCGGATCGGCGGTGGTCTCGTCGAACTCGGTGGAGGACGCACCCTCCACACCCGCCGCGCGCGCGGCTTCAATCACGATGCACTGCATGCCCAGGCAGATCCCCAAAAGCGGTGTGCCGGTCTGCTTTGCGTAGCGAACCGTCGCGATCTTGCCCTCGATGCCGCGGCCGCCAAATCCGCCCGGGATGATGATCGCGTCGATGCCCTCCATGTTCTTAGCCAGGCCCGCCTCGGTTTCGCATTCGTCGGAGCCGACCCAGCGGATGTTCGCCTTCACGCGGTGGGCGAAACCGGCCGCGCGGACGGCCTCGGCGACGGAGAGGTAGGCATCCGGCAGGTCGATATATTTGCCCACGAGAGCGACGTTGACCCCACCTTCCGGGTTGTGCACGCGGTCGAGCAGGTCACCCCACACGGTCCAGTCGATGTCCTGGAACGGCAGATTCAAACGGCGGATGATGAAGGTATCCAGGCGCTGGTCGTAGAGGACTTTGGGGATGTCGTAGATGCTTGGCGCGTCCGGGCAGGACACCACGCCTTCGCGGTCGATGTCGCACATCAGCGCGATCTTGTCTTTAAGGCCATCGCCCACCTCGCGGTCGCTACGCAGCACCACCGAGTCCGGGACGAGGCCGATGGAACGCAGTTCCGCCACGGAGTGCTGGGTGGGCTTGGTCTTCAATTCCTTCGACGGCCCGAGGTACGGAACCAAGGAAACGTGCAGGTAAAAAACGTTTTCTCGGCCGACATCGTGGCGGATCTGGCGGGCGGCCTCCAAGAAAGGCTGGGATTCGATATCGCCGACAGTGCCGCCGATCTCGGTGATGACGACATCCGGCTTTTCACCGTGTGCGTCCGGGTTTCCCATCGCGATGATGCGGGACTTGATTTCGTCCGTGATGTGCGGGATGACCTGCACGGTCTGGCCGAGGTACTCGCCGCGGCGCTCCTTGGCGATGACCGAGGAGTACACCTTTCCGGTGGTGACGTTGCCGCCGGCCGAGAGGTTGCGGTCCAAGAAGCGCTCGTAGTGCCCCAGGTCGAGGTCGGTCTCGGCACCGTCCTCGGTGACGAAGACTTCCCCGTGCTGGAAGGGGTTCATGGTGCCCGGATCCACGTTCAGGTAGGGATCGAGCTTCTGCATGGTCACCTTCAGACCACGAGAGGTGAGCAAGCGGCCGAGCGATGCCGCGGTCAGGCCCTTTCCGAGGGAGGAGGCGACGCCTCCGGTAACCATGATGTATTTCGTGACCATGGAACTTCAGACTATCAAGTGACAGGCTGCACTGGCAATACGAATGCGGCATCCACCGAGCCTGCGCGCACGCACGGCGAAATGCCTGTCCGCCCCGGCGTGTAG	MAVALGDVGGAVDVRDNGALQQCRRVGPEAHGATQVGLPGDRAQLLLHRRDDRIGGGLVELGGGRTLHTRRARGFNHDALHAQADPQKRCAGLLCVANRRDLALDAAAAKSARDDDRVDALHVLSQARLGFAFVGADPADVRLHAVGETGRADGLGDGEVGIRQVDIFAHESDVDPTFRVVHAVEQVTPHGPVDVLERQIQTADDEGIQALVVEDFGDVVDAWRVRAGHHAFAVDVAHQRDLVFKAIAHLAVATQHHRVRDEADGTQFRHGVLGGLGLQFLRRPEVRNQGNVQVKNVFSADIVADLAGGLQERLGFDIADSAADLGDDDIRLFTVCVRVSHRDDAGLDFVRDVRDDLHGLAEVLAAALLGDDRGVHLSGGDVAAGREVAVQEALVVPQVEVGLGTVLGDEDFPVLEGVHGARIHVQVGIELLHGHLQTTRGEQAAERCRGQALSEGGGDASGNHDVFRDHGTSDYQVTGCTGNTNAASTEPARTHGEMPVRPGV				NA	NA	NA	NA	NA
AK009_06439	1668			hypothetical protein	GTGGCTGCCGCGGGCGACGATCTCCCCGGCTTCCATGACGATGATCTGGTCGGCCTGTTCGATGGAGGCAACCCGCTGGGCGACGATGATGGTTGTCGCGTCGGCGGTGTAGGCGCGCATCGCGTCGCGTACCTTGGCGTCGGTGATGGCGTCCAGGGCGGAGAAGGAATCGTCGAAGAGGTAGATCCTCGGCCGGCTGATCAGCATGCGGGCGATGGACAGCCGCTGGCGCTGCCCGCCGGAGACGTTGGTGCCGCCCTGGGAAATGGGCATGTCCAAGTCGGTGACGAAGTGCGCCTGAGCGGTGCGCAGCGCCTCCCACATCTCGGCGTCGGTGGCATCCGGCTTGGCCATGCGCAGGTTGGACGCCACCGTGCCGGAAAACAGGTAGGGCTTTTGCGGGACCATGCTGACGCGTTCGACGATCTCGGCGCGCGCCATGTCGGTCACGTCGACGCCGTCGAGAAGCACGCGCCCGGACGTGGCCGCCGTAAGGCGCGGGATGAGGGAGAGCAGCGTCGACTTGCCCGCCCCGGTGGAGCCGATGATCGCCGTCGTTTGCCCCGGCACAGCTCTCAGCGATACCTCCTTGAGCACGGGTTCCTCGGCGCCGGGGTAGGTGTAGGAGACTCCCTCGAGCTCGACGGCGCCCGCGCGCGACGGCGCCTTTGCAGGCACGCTAGGTTCCTCGATCGTCGGGCGGCGGTCCAGCAGTTCCTCGATGCGGCGCGCGCAGATGATGGCACGCGGCAGCATCATCGCCATGAAGGTTCCCATCATCACCGCCATGAGGATCTGCATCAAGTACTGCATGAACGCGGTGAGCGAGCCGACCTCGACCTGCCCGGCGTCGACCCGGTGGCCGCCGAACCACAGCACGGCGGCGGTGGCGACGTTGAGGATGAGCATGATCACCGGGAAGAGCATGACGAAGATGCGGCCGATGTTCAGCGAAACCCGGGTGATGTCGTCGTTGGCGGCGGTGAAGCGCTGCGTCTCGTACTCCTTGCGCCCGAAGGCGCGCACGACGCGGATGCCAGTGATCTGCTCGCGCAGCACCCCGTTGACGTTGTCGAGCTTGTCCTGCATGCTGCGAAACAGCGGCATGAGCAGGGCGATGAGCACGCTGACGACGACGGCGAGCGCGCCGACGGCCGCGACGACCAGCCAGCTCATCCCTGGGTCCTGACGCACCGCCATGATGATGCCTCCGACGGCCATAATCGGCGCGGCGACCATGAAGTTGAGGAAGAGCAGGTAGACCATCTGCACCTGCTGCACGTCGTTAGTGCCGCGGGTGATCAGCGTCGGGGTGCCGAAGTAGCTCATATCTTCGGCGGAGAACCGGCTGACGTGCCGGAACACAGCGCGGCGCACGTCGCGTCCGACTCCCATCGCCGTGCGGGAGGCGAAATAGACGGCGACGACCGCGGCGATGACCTGGACCAGCGCGACGACGAGCATGACACCGCCGACGCGCCAGATGTAGGGGATGTCGGCGCGGGCCACGCCGTTGTCGATGATTCTCGCGTTGAGGTCGGGCAGGTAGAGGGTGGCCAGCGTGGTAATCAGCTGGAGCACCACCACGGTGACGATGTAGCCCGCGTAGGGTTTCGAACTGCGGGCGAGGATTCTGACGAGGTCCACTGGGGGATGGCCCTTCCGTGA	MAAAGDDLPGFHDDDLVGLFDGGNPLGDDDGCRVGGVGAHRVAYLGVGDGVQGGEGIVEEVDPRPADQHAGDGQPLALPAGDVGAALGNGHVQVGDEVRLSGAQRLPHLGVGGIRLGHAQVGRHRAGKQVGLLRDHADAFDDLGARHVGHVDAVEKHAPGRGRRKARDEGEQRRLARPGGADDRRRLPRHSSQRYLLEHGFLGAGVGVGDSLELDGARARRRLCRHARFLDRRAAVQQFLDAARADDGTRQHHRHEGSHHHRHEDLHQVLHERGERADLDLPGVDPVAAEPQHGGGGDVEDEHDHREEHDEDAADVQRNPGDVVVGGGEALRLVLLAPEGAHDADASDLLAQHPVDVVELVLHAAKQRHEQGDEHADDDGERADGRDDQPAHPWVLTHRHDDASDGHNRRGDHEVEEEQVDHLHLLHVVSAAGDQRRGAEVAHIFGGEPADVPEHSAAHVASDSHRRAGGEIDGDDRGDDLDQRDDEHDTADAPDVGDVGAGHAVVDDSRVEVGQVEGGQRGNQLEHHHGDDVARVGFRTAGEDSDEVHWGMALP				NA	NA	NA	NA	NA
AK009_06440	2022			hypothetical protein	GTGCGTGCCTTGCTCGACGATGCGACCCTGCTCCATCACGATGATCAAGTCGGCGCCGCGGATCGTGGACAGCCGGTGCGCGATCACGAACGAGGTGCGCTCGGCGCGCAGCGCGTTCATCGCCTCCTGGACCAGCACTTCAGTTCGCGTATCGACGCTCGACGTGGCCTCGTCCAGAATCAGAATCGTTGGCTGGGAAAGAAACGCCCGCGCAATGGTGATCAGCTGGCGCTCACCCGCGGAGATCGCCCCGGAGTCCTGGTCGATGACGGTGTCGTAACCCTCGGGCAGGGCGTGGACGAAGCGGTCGACGTAGGTGGCCTTGGCCGCGGCGATGACCTCCTCGTCGGTGGCGTCGAGGCGGCCGTAGCGGATGTTGTCCATGATGGTGCCCTTGAACAGCACCGCGTCCTGCAGCACCATGCCCATGTTGGAGCGCAGCTCGCTGCGGGTCATCGCGCGCGTGTCCACGCCGTCGATGCGGATCGCCCCGGCGTCGATTTCGTAGAAGCGCATGACGAGGTTGACGAGAGTGGTTTTGCCCGCGCCGGTGGGCCCGACGATCGCGGCTGTGCGCCCCGGCTCCACGCGCAGCGAGAGATCCTGGATCAGCGGGGTGTCGGGGGAGTAGGAGAAGTCGACGTTGTCGAACTCGACCAGGCCGCGGGCGCGCCCGGGCAGGGTTGCGTCCGCGGACGTGTCGGTGACCTCCTCCTCGGCGTCGAGGAACTCGAAGATGCGCTCGGCCGAGGCCACACCCGACTGCACCATCTGCGCCATGCCGGCGATCTCGCCGAGCGGCTGGTTGAACTGACGCGAGTATTGAATAAATGCCGTCGCATCTCCCAGCGTCATGTGCCCGGAGGCCACGCGCAGCCCGCCGGCGACGGCGATGGCCACATACGACAGGTAGGAGATGAACTGCATGATGGGGTGCATCGAATTGGCGAGGAACTGCGCGCGCGAGGCGGCGCCGTAGAGCGCGGAGTTTCGCTCGTCGAAGACGCGGTTGAGCTCCTCGGTGCGGCCGAAGATCAGCGCCAGCTCGTGGCCGGAGAAGGACTCCTCGACGTGCCCGTTGAGTTCACCCGTGGACTTCCACTGCGCGGCGAAATGCTTTTGCGAGCGGGTTCCGATGATCCCCATCACCGCGCCGGTCAGCGGGATCGCCACCAGCGCCAGCAGAGCGAGCTGCCAGGAGATCCAGAACATCATCACGATGATGCCCAGGACCATCATCACGGCGTTGAGGATCTGCGACATCGCCTGCTGCAGGGCCTGCTGGACGTTGTCCACGTCGTTGGTGGTGCGCGAGAGCAGGTCACCGCGCTGGCGGGAATCGAAGTAGTTCAGCGGCAGGCGGTTGACCTTGCGTTCCACGGACTGGCGCAGGTCGAAGACGGTCGCCATGGTCAGCCGGTTCAAAATCGCACCCTGGGCCCACATGAGCAGGGAGGAGACGACGTAGAGGACGATGACGAAGGTGATCAGCTGCGCGAGCCGGTCAAAGTCGATGCCGAAGCCGGGGCGCAGGTCCATCGCCTCGGCCATGTCGGCGAAGCGTTCCTGCCCGGAGGCGCGCAGGCCGTCGATCACCTGCTGCTTGCTCGCCCCCGCGGGGAGATCGCGCGAGATGACGCCGGAAAAGATGACGTCCATCGCGTGGCCCAGCACGCGCGGGGCGTAGACCGCGAGGACGACGGAGCCGATGTTCATTGCCAGCACCAGGACGAGCTTGAACCGATGGGACATGAGCAGCCCGATCAGTCGCTTGGCGCTGGGCCAGAACTGCTTCGCCTGGCGCGGTGCGCTGCCGGAGAAGTCGTCACCGGCCATGCTCGCCTCGAGGGCGGCGAGCTCCTCATCGGTCATATCGGCGGGGTCGGCCGGGGTGGTTGTGCGTGTCTCAGACATGTTAGGCGTCCACCGTTCTTTGGGACTCGACAATTTCGCGGTAGGTTTCCGAGCTCTCGAGCAGCTCCGCGTGGCTGCCGCGGGCGACGATCTCCCCGGCTTCCATGA	MRALLDDATLLHHDDQVGAADRGQPVRDHERGALGAQRVHRLLDQHFSSRIDARRGLVQNQNRWLGKKRPRNGDQLALTRGDRPGVLVDDGVVTLGQGVDEAVDVGGLGRGDDLLVGGVEAAVADVVHDGALEQHRVLQHHAHVGAQLAAGHRARVHAVDADRPGVDFVEAHDEVDESGFARAGGPDDRGCAPRLHAQREILDQRGVGGVGEVDVVELDQAAGAPGQGCVRGRVGDLLLGVEELEDALGRGHTRLHHLRHAGDLAERLVELTRVLNKCRRISQRHVPGGHAQPAGDGDGHIRQVGDELHDGVHRIGEELRARGGAVERGVSLVEDAVELLGAAEDQRQLVAGEGLLDVPVEFTRGLPLRGEMLLRAGSDDPHHRAGQRDRHQRQQSELPGDPEHHHDDAQDHHHGVEDLRHRLLQGLLDVVHVVGGAREQVTALAGIEVVQRQAVDLAFHGLAQVEDGRHGQPVQNRTLGPHEQGGDDVEDDDEGDQLREPVKVDAEAGAQVHRLGHVGEAFLPGGAQAVDHLLLARPRGEIARDDAGKDDVHRVAQHARGVDREDDGADVHCQHQDELEPMGHEQPDQSLGAGPELLRLARCAAGEVVTGHARLEGGELLIGHIGGVGRGGCACLRHVRRPPFFGTRQFRGRFPSSRAAPRGCRGRRSPRLP				NA	NA	NA	NA	NA
AK009_06441	1446			hypothetical protein	GTGATCCATCCTTTAGAACAGAGAATTGGTAGCAAAGACAGCGAGCAGCGGCACGATGAAGAAGACCCCGCCGACCCAGATGAAGACGTAGATCTTGTTCTTCGTCGCGAGCGCAGCCAGCCACTCCGCGCCGCGCGGCGGGAGTGCGCGGAGCAGCGGTATGGACATGATCAGGATTGCGGCGAAGGTGTTGAACATGGTGTGCACCAGGGCGCCGGTCATGGCGGCTTCCGCTTCCACCCCGGAGGCGGAGAATGCGGCGATCAAACCGGTCACCGTGGTGCCGATGTTCGCGCCCACGACGAAGGGGAAGAGCCGGCGCATCTCGAACTTGCCGGAAGCGGCGAGCGGGACGGTAAGCGATGTCGTGGTCGAAGAGGACTGCACGGCCGTGGTGATTACCGCGCCCGAGACGATCCCGCTCAGGGTGCCCTTGCCCAGCGCATTGTGCAGGATTTCCTTCGCGCGGCCGACGAGCAGTCGCGACAGCATGCGGCCGATGAAGCCGATCACCAGCAAGATCAGTACGACGCCGGCGATCGTCAGGGCGATGCCGCCCCAGACACCGCCGATGTTTTCGGCAAGGCCTTCGGCCACACCGACGAGCGGTTCCGTCACCGCGTCGACGAAGTCGCCGATGGCGCTGAAGATGCTATCGAGTACTCCGTCACCCTGGCCGGTGAAGGCTCCCGCCATGGCCCCGGCAACGCGGGAGAGGAACCCGGTGAACAGCTCCAGCGGGAAGAAGATCAACAGCGCCAGCAGGTTGTAGAAGTCGTGCACGGTAGCCATGGAGAACGCGCGCTGGAACTGCTTCTTGTTGCCGGACAGGCCCAGCGCCACCAGCGTGGAGGTCACCGTGGTGCCGATGTTCGCGCCGAAGAGCATGGGCACTGCGACTTCGAGCGGCAGGCCGCCGGCGAGCATGCCCACCACGATGGAGGTCGTGGTGGAGGAGGATTGCAGGATAGCGGTGGCGAGGATACCGATGGCCAAGCCCACAAACGGGTTCTCGGCGAAGGAGAAGAGCTCTTCCGCGCGGTCGCCTGCCGCCATGTTGAAGCCGGAGCCGATCATGCCCACGGCGTTAAGCAGCAGCCAGATCGCGATGACGACGCTGAGCCACTCGGCGATCTTCTTGGCCTGGCCGCTCAGCGGCAAAAACCCGAGCGGGTCCTTCTTGTCGCTGTCGTCGGAATCGTCGCCGTCTACGGTGTCATCGGAATCCTCCGAGTCCTTCGGCTCGGCCTCCTCGTTCCACCGGTTGCGCTCCTCGTAACCCTCGGCCTCATCGAGCGTGTGCACACCGGGTTGCTCTTCCTTCTGCATCGTCGCCTCTTTCCCTTAAAGCGCAGCTGCGCGCGGTATACGGCCTACTTAACCCGCGCCAAGGAAACTGCCAGTAAAAAGAGGGTGAAGTTTAAGCGAAGTAGCGCGTCGGTTTAG	MIHPLEQRIGSKDSEQRHDEEDPADPDEDVDLVLRRERSQPLRAARRECAEQRYGHDQDCGEGVEHGVHQGAGHGGFRFHPGGGECGDQTGHRGADVRAHDEGEEPAHLELAGSGERDGKRCRGRRGLHGRGDYRARDDPAQGALAQRIVQDFLRAADEQSRQHAADEADHQQDQYDAGDRQGDAAPDTADVFGKAFGHTDERFRHRVDEVADGAEDAIEYSVTLAGEGSRHGPGNAGEEPGEQLQREEDQQRQQVVEVVHGSHGERALELLLVAGQAQRHQRGGHRGADVRAEEHGHCDFERQAAGEHAHHDGGRGGGGLQDSGGEDTDGQAHKRVLGEGEELFRAVACRHVEAGADHAHGVKQQPDRDDDAEPLGDLLGLAAQRQKPERVLLVAVVGIVAVYGVIGILRVLRLGLLVPPVALLVTLGLIERVHTGLLFLLHRRLFPLKRSCARYTAYLTRAKETASKKRVKFKRSSASV				NA	NA	NA	NA	NA
AK009_06442	291			hypothetical protein	GTGACTACCTCTCTCCCCGACGACGACTTCAACGCCCGCGCAGACGAGCTAATCCTGTCGTCCGCGCCCGATGCCGAGCTCCGAGAACTGCTCGCTGAGCTCGACGAGACCTCCACGCTGCTGCGCGCCGAGCTGGACAAGCGCCGCACAACGGGAGGGTTGACCCCGGAGCAGCACGCCGAGATCGAGCGCATTCCGGAATATCTCGAACTCACCCGCGCACGCTGGTCCAGCGCCGTGACATTCTGGCGCGAGTTCCGCGATGAGTTGCGCAAGGAGGGGCGCCGATGA	MTTSLPDDDFNARADELILSSAPDAELRELLAELDETSTLLRAELDKRRTTGGLTPEQHAEIERIPEYLELTRARWSSAVTFWREFRDELRKEGRR				NA	NA	NA	NA	NA
AK009_06443	945	sphX	COG0226	Protein SphX	ATGAAACGACTTACGCTCTGCCTTGCCGCAACAGTTGCGCTTGCTGGCTGCGCGGCGGAATCAGAGGAACCGAACACGCCGGCAGCAGATGGTGCGATTCGGGTGACGGGCTCGGCCACCGTGGAGCCGATCACGTCGCTCATCGCCTCACGAACCGGGCATAACGTGGAAATCAGCGCCGACGGCTCGACCGACGGGTTTGAGGCGTTCTGCGCCGGCGAATCCGACATCAACGATTCCTCGGTTCCCATCCCCGGCGAGGGCGAGGACATCGACTACCAGACACAGTGCGCGGACAACGGTGTCGAGTTCATCGAGCTGCCGATCGCACTCGACGCCATCACGTTCGTGAAAAACGACGCCAACGATTGGGCCAGTGACCTAACGATCGAGCAACTGCACGACATCTGGACCTCGGAATCGCCCGTGAGCACGTGGTCCGACCTCAATCCGCAGTGGCCGGAGTCCGAAATCACCCTTTACGGCCGCCCGCCGGGCTCCGGCACGCTTGGGGTGTTCCAAAAGATCGTGCTTGACGACGACCCGATCCGCGACGACTACGCCGCTACCGACGACATGGACGAACTCACCGAGTGGATCGCCAACGACCCCGACGCGCTCGGCTTTATGGGCGTGGGCAACTACCTTGCCGCCGAGGGCGAGGTCCGCAGCTCGATGGACAATATCGCCGTCGACGGCACCTTGCCCAGCTTCGAGCAGACACGCGATGGCCAATACCCGCTGTCCCGCCCGCTGTTTCTCTACGTCAACGTCGAGTCGCTCGACAAACCCGAGGTGGACAGCTTTGTTACGGAGTACCTCGATCGCGTCGAGGCAGTTCTGCCGCGCGTGTACTTCTACCCCTTGCCGGAGCAGGAGTACGACGCCGCGCGCGAGCGGCTGAAATCACGGACAATGGGCACCGACGACCGCTGGACGTCATAA	MKRLTLCLAATVALAGCAAESEEPNTPAADGAIRVTGSATVEPITSLIASRTGHNVEISADGSTDGFEAFCAGESDINDSSVPIPGEGEDIDYQTQCADNGVEFIELPIALDAITFVKNDANDWASDLTIEQLHDIWTSESPVSTWSDLNPQWPESEITLYGRPPGSGTLGVFQKIVLDDDPIRDDYAATDDMDELTEWIANDPDALGFMGVGNYLAAEGEVRSSMDNIAVDGTLPSFEQTRDGQYPLSRPLFLYVNVESLDKPEVDSFVTEYLDRVEAVLPRVYFYPLPEQEYDAARERLKSRTMGTDDRWTS	PGPT0002625_5329	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
AK009_06444	774			hypothetical protein	ATGGAGGCAATCCTACTTCTACTTGCCCTTGAAGCGTTTCACGGTCTGCTGGGCCACGTTCAAGGCTTCGTCGGTGAGTTGGCTCATCTGCTGCCTGCGTGCGGCGCGCCGCGCGGCCACCTCGTGGGCGCGGGCGGATTCGATCTCGAGCTGGCGGATGCGCACGAGCTCGCGGCGCCTGCGCTCGAGCTGGCGCACGCTCGGGGTATACCAGGAATCGGGGCCGACCTTCATCACGTAGAGCAATACGAACAAGGTGGGGATGAGCAAGAGCAGGAGGAACCCGAACCCGCTTCCGGTGGCCACCGCCACGGCGGGGGCGGCGGCCAGCGTGCCGAAGGTGCCCAGCCAAAACGTTCCCGCGCGCATCTTCTGTCCGTCGCGGCGCGCCGCAGTGATCTCCCGTGCGCTGTACATCTCGACTGCGCCACCCTGCTGCACAAACGTGGCCGGGTTGTGCGGGATGTCTCGAAACAGCGGGTCGAGGTCGCTGTGGAACTCCGCGGTGGTTACCGCCTGGCAACGCGAGTCGAACTCGTCCATGGTGAGCCTGCCCTCCGCCAGAGCAGAACTCAGCGCACCGAGGGCGGCGTGGCGCTCCTCGTCGCTGAGGCGAAACATTCCCGGATCATAGGTCACGGTTCTTATTCTAGTGGCAGTGCGGACACGCGCCACCGCGCTGGTTTTTATGACGTCCAGCGGTCGTCGGTGCCCATTGTCCGTGATTTCAGCCGCTCGCGCGCGGCGTCGTACTCCTGCTCCGGCAAGGGGTAG	MEAILLLLALEAFHGLLGHVQGFVGELAHLLPACGAPRGHLVGAGGFDLELADAHELAAPALELAHARGIPGIGADLHHVEQYEQGGDEQEQEEPEPASGGHRHGGGGGQRAEGAQPKRSRAHLLSVAARRSDLPCAVHLDCATLLHKRGRVVRDVSKQRVEVAVELRGGYRLATRVELVHGEPALRQSRTQRTEGGVALLVAEAKHSRIIGHGSYSSGSADTRHRAGFYDVQRSSVPIVRDFSRSRAASYSCSGKG				NA	NA	NA	NA	NA
AK009_06445	1344			hypothetical protein	GTGCTGGTGGTAATCGGCCAGGAAGTTACCCAGGCGCTCGATGGCGTTTTCCAGCTGCGAGGCCCACGGCAGCGTGACCACGCGGAAGTGGTCGGGGGTGGGGTAGTTGAACCCGGTGCCTTGCACCATGAGGATCTTCTCCGACTTGAGCAGGTCCAGCATGAAGCGCTCGTCATCATGGATGTTGTACATCTCGGTGTCGATCTTGGGGAAGCAGTACAGCGCCCCCTTCGGCTCGACGACGGACACGCCGGGGATCTCGCGCAACTTGCGTACCGTCACATCGCGCTGCTCGCGCAGGCGCCCGCCCTCGCCGGTGAGCTCGTAGATGGACTGTCGCCCGCCGAGGGCAACCTGGATGGCGTGCTGGCCGGGCACGTTCGCGCACAGGCGGGTTCCCGCCAGCAGGTTGAGCCCCTCGATGAACCCGGTGGCGCGGCGACGCGGGCCGGTGATGATCATCCAGCCGGCGCGGTAGCCGCACACGCGGTACGTCTTGGACAACCCGTTGAAAGTCACCGTGATCAGGTCGGGCGCGACCTCGGCCATGGAGATGTGCTGCGCGCCGTCGTAGAGGACGCGGTCGTAGATTTCGTCGGCAAGCACCATCAGCTCGTGCTCGCGGGCGATGTCGGCGATGCCCTCGAGCACCTCCCGCGAGTACACCGCGCCGGTGGGGTTGTTCGGGTTGATCACCACGATGGCCTTCGTGCGCTCGGTGACCTTGGAGCGGATGTCCTCGAGCGAGGGGTTCCAGTTGTCTTCCTCGTCGCACAGGTAGTGCACGACCTTGCCGCCGGCCAGCGTGGACGCGGCGGTCCACAGCGGGTAGTCGGGGGCGGGGATGAGGATCTCGTCGCCGTCGTTAAGCAGGGCCTGGGTGACCATGCTGATCAGCTCGGAGACACCGTTGCCGAGGAAGACGTCGTCGATGTCGAAGGGCGGGAAGTCGTCCACCATCTCGTAGCGCGTGACAATCGCGCGGCGCGCCGGGATGATGCCCTTCGAGGTGGTGTAGCCCTGCGATGTCGGCAGCGCGGCGATCATGTCGCGCATGATCACGTCGGGCGCCTCGAAGCCGAAGATCGCCGGGTTGCCGGTGTTGAGCTTGAGAATGGTGTGCCCGTCGCGCTCCATCTCCTCGGCCGTGGTGCTCACCGGGCCGCGGATGTCGTAAAAGACGTTCTTGAGCTTGTCCGCTTCGTCGAAATGGCGGTGCTTCTTCGGGGGCTTCTTGCTTGTCGACGCCCCCGCCGACGTCTCCGTCCCGCTTTTCGTCGTGGGCGTTTCGTCCTGCTCAGTCTTCTTGCTCATGGAGGCAATCCTACTTCTACTTGCCCTTGA	MLVVIGQEVTQALDGVFQLRGPRQRDHAEVVGGGVVEPGALHHEDLLRLEQVQHEALVIMDVVHLGVDLGEAVQRPLRLDDGHAGDLAQLAYRHIALLAQAPALAGELVDGLSPAEGNLDGVLAGHVRAQAGSRQQVEPLDEPGGAATRAGDDHPAGAVAAHAVRLGQPVESHRDQVGRDLGHGDVLRAVVEDAVVDFVGKHHQLVLAGDVGDALEHLPRVHRAGGVVRVDHHDGLRALGDLGADVLERGVPVVFLVAQVVHDLAAGQRGRGGPQRVVGGGDEDLVAVVKQGLGDHADQLGDTVAEEDVVDVEGREVVHHLVARDNRAARRDDALRGGVALRCRQRGDHVAHDHVGRLEAEDRRVAGVELENGVPVALHLLGRGAHRAADVVKDVLELVRFVEMAVLLRGLLACRRPRRRLRPAFRRGRFVLLSLLAHGGNPTSTCP				NA	NA	NA	NA	NA
AK009_06446	906		COG3039	IS5 family transposase IS4811	ATGAGCGGTGTGTTCTACTGCGATACGACTGCCCGCGGTGATTGGGGTCTGCGGATGCCAGTTGATCCCCAATGTCTGAGTTTTCATGTGGTCACCGAGGGCTCATGCTGGTTGATTTCGGACGGCATACCGAAGCTCCAACTCCGGGAAGGGGATGTTGCTCTCGTGCAGCTCGGAAGGGAGCACATGCTCTCCGCCAGCCCGGATAGAACGGTAGCTCCCCGGGTCGATCAATTGCCCCAGAGGTATCTCAGCGAGAACTACTCAATCGTCAACGTAGGTTGCGACGGATCATTCACACGGTTGCTCTGCGGGATGGTGAGTTTTGACGCTCCAGATGTTCACAACATCGTGCAAGCCCTTCCCCCTGTGGTCTCCGCAAGAGGTATGAATTTGAACGACGCTTCGTCCGTCGTGAAGCTAGTCGGCCTCTTGGCAGACGAACTTTCCGCAGACAGGTTGGGTGGGGAGGCCGTAGCGGTTCGGCTGGCCGACATCATCGTGGTGCAGATCATTCGAAAATGGTTCTACGAGGAAAGCTCCTTCGAACCTGGGCTCATCGCGGGATTAGCTGATCCTGCGATCGGGAGAGTCCTACACGCAATCCATGATGAGCCAGAAAAACCGTGGGCGATCGCAGATATGGTAAAAATTTCCGCCATGTCACGCACATCGTTTATCGAGAAGTTCCGCGAGGTCGTCGGAGTAGCGCCGGCAGCGTACGTGACGAACTGGCGCATGGAGGTCGCAAAAACCCGGTTGATTGAGACCAACGAGCCGATCGCAGTAGTTGGTTCTTCGGTGTCGTATTCTTCCAAATCCGCCTTCTCCAAAGCGTTCGCCCGCAGCGTCGGGATCTCACCCAGCGCCTTCAGGCAGGCAGCGCTTCGTCGTCAAGCAAACTAG	MSGVFYCDTTARGDWGLRMPVDPQCLSFHVVTEGSCWLISDGIPKLQLREGDVALVQLGREHMLSASPDRTVAPRVDQLPQRYLSENYSIVNVGCDGSFTRLLCGMVSFDAPDVHNIVQALPPVVSARGMNLNDASSVVKLVGLLADELSADRLGGEAVAVRLADIIVVQIIRKWFYEESSFEPGLIAGLADPAIGRVLHAIHDEPEKPWAIADMVKISAMSRTSFIEKFREVVGVAPAAYVTNWRMEVAKTRLIETNEPIAVVGSSVSYSSKSAFSKAFARSVGISPSAFRQAALRRQAN				NA	NA	NA	NA	NA
AK009_06447	870			hypothetical protein	ATGTTTGCTATTTCCGGTTCGACGGGACGCGTTGGATCCAACGTTGTCGCCGAACTACTCAAGCACGACCAACCCGTTCGAGCTCTCGCGAGATCGGAAGAATCCTTGAAACAGTGGTCAGCGCAAGGCGTCGAGACTGCAGCGGTTGACCTGCTCGACAGCGCGGCATTGTCCGAGGCGCTGAAGGGTGCGGAGGGATTCTTCGCATTGCTCCCGTTCCACTTCGGTGCAGACGACCTTGACCGCTACGCAGATGCAGTCATCGCATCAGTGCGCTCTGCGGTCGAATCCGCAAACGTTCCTCACGTCGTCATGCTCTCGTCGGGAGGCGCCCAACACGAGCATTCAACGGGCCCAATCACAGGACTGCACCGAATGGAGCAGGCACTCCTGTCCGCTACTCCCCTGCTCACCGCCCTTCGGCCGGGACATTTTCAAGAGAAGTTTCAGGATGTGCTGCCCGCAATTCTCCAGGAGGGCGTGTACCCCGTTTTCGGCGCAGCTGATGAGCCGAAGCCGATGGTCGCGACCAAGGATATCGGTGTTTTCGCCGCACACAACTTGATGAATCCTCCCGTCTCTCAAGAGCCGGTTGACATCATCGGTCCGAGCTACACCGAACGGGACGTGGCCGGTGTGATTGCGGAGCAGCTTCACAAAGACGTGGCGGTCGTCGAAATTCCCGATGAGGCGTGGGAGTCCGAGCTCGAGCGGGCTGGTTTTTCAACCGGCGTCGCTCACAGCCTTGCCCAGATGTACCGGGCGGACAGTGATGGGTTGCTTGCACCTTGCGCGTCGAAATCGATCTCGGCCCCGACGCCGCTTACCGAGACGGTCAGCACCGTCCTGCAGAATCGGGAGGGCGCGTAG	MFAISGSTGRVGSNVVAELLKHDQPVRALARSEESLKQWSAQGVETAAVDLLDSAALSEALKGAEGFFALLPFHFGADDLDRYADAVIASVRSAVESANVPHVVMLSSGGAQHEHSTGPITGLHRMEQALLSATPLLTALRPGHFQEKFQDVLPAILQEGVYPVFGAADEPKPMVATKDIGVFAAHNLMNPPVSQEPVDIIGPSYTERDVAGVIAEQLHKDVAVVEIPDEAWESELERAGFSTGVAHSLAQMYRADSDGLLAPCASKSISAPTPLTETVSTVLQNREGA				NA	NA	NA	NA	NA
AK009_06448	471			hypothetical protein	ATGAATCTTCCCATCATCACCAGTGCAGTGGCGCTTTGCGCAACCGTCACCGGCGGGCTGCTCAGCGGTCTCTATTTTGCCTTTGAGGTCAGTACTCGGAAGAGCTTCGCACGTTTACCCGATGATCAGTACGTCGAGGTCTTCGCAGGCATCAACCAGGCGATCCTCAACCCCCGATTCCTGACAGTATTCGCGCTTGCACCACTGTCCTCAGTATTACTGGCCATCCTCGTACCGACCAGATGGACGATTCTCGCTGCAACAGCGTCGCTCGTCGCACTGGGCATCACCGTCGCGGGAAATGTCCCACTGAACAACTACCTCGACAATGCGTTCACAAGTCAGAATGCGGTGTCGGAGATTCGCGCGAACTTCGAGTCCCGGTGGAACTCGCTCAACGCTGCCCGATGCGTAGCGCAGACGGTCGCTGTTGGAGCGACGCTGCTCTTTGCGCTGAACACGAAGGGATAA	MNLPIITSAVALCATVTGGLLSGLYFAFEVSTRKSFARLPDDQYVEVFAGINQAILNPRFLTVFALAPLSSVLLAILVPTRWTILAATASLVALGITVAGNVPLNNYLDNAFTSQNAVSEIRANFESRWNSLNAARCVAQTVAVGATLLFALNTKG				NA	NA	NA	NA	NA
AK009_06449	1374			hypothetical protein	ATGCTTCGGATCGAGCTTCTTGAATTCGGTCCATTCGGTAGCGAGGATGACAAGTTCCGCGCCACGGAGAGCGTCGTCAAGCGAGGTGGCGTAATCCAGCGTCGGGAAGACCTTCTTCGCGTTGTCCATCGCCTCCGGGTCGAACACGCGCACCGCCGCGCCCGCCAGGGACAGCTGACCCGCGACAGCGAGGGCCGGCGAATCACGCACGTCGTCGGAGTTCGGCTTGAACGCCGCACCGAGGACGGTGACGCGACGGCCGATCAACGACCTCAGCTCCTCGCGGGCGAGATCGACCACGCGCTGGCGTCGGCGCATGTTGATCGCGTCGACCTCGCGCAAGAATGTGAGCGCCTGGTCGGCGCCGAGCTCACCGGCGCGGGCCATGAACGCGCGGATGTCCTTGGGCAGGCAGCCGCCGCCGAAGCCGAGGCCGGCGCCGAGGAACTTGCGGCCGATGCGGTCGTCGTAGCCGATGGCGTCGGCAAGCTGGGTGACATCCGCACCCACAATCTCGCAGACCTCGCTGACGGCGTTGATGAAGGAGATCTTGGTGGCCAAGAACGCGTTGGCGGAGACTTTCACCAGCTCCGCGGTTTGCAAATCGGTGACCACGAACGGAGTGCCGGTTTCCAGCGGTGTGGCGTAGACCTCGCGGGCGATCTGCTCGGCCTGGGTGTTATCCGCGCGGGTGCCCAGCACAATGCGGTCCGGCTCAATCGTGTCCTTCACCGCGTAGCCCTCGCGCAGAAACTCCGGGTTCCACGCGATCTCCACCTCGGTGCCCTCTTGTGCGAGCTCGTTGGCGCGCTCCTGCAACGCAGCTGCCGTGCCCACCGGCACCGTGGACTTGCCAAAAATCACGTGGCGGCCCGTGAGCTTAGGCACGAGATCCTCGATCACCGCCTCCACGTAGCGCGTATCTGCCGCATACGAGCCGCGCTGCTGCGGAGTACCCACGCCGATGAAGTGGACGTTGGCGAACTCGGCCGCGCGGGCGTAATCGGTGGTGAAGTCAAGGCGCCCGGCGGCGATGTTACGTTCAAGGACCTCCGGCAGGCCCGGCTCATAAAACGGGACCTTGCCCGCCTTGAGTTGCTCGATTTTTCTCTCGTCCACGTCCACGCCCAGCACCTCGTGGCCCAACTCCGCCATGCAGGCGGCATGCGTTGCCCCGAGGTAGCCGGTCCCGATCACCGTCATTCGCATGGGCGCTACTCTAGTCGCGGAAGTTCAAGTACGCGCGGGATGGAGTGGGGCCGCGCTGCCCCTGGTACTTCGAGCCCAACTTCCCCGAGCCATACGGCGTCTGCGCCGGCGAGGACATGCGGAACAGCGCGAGCTGGCCCACCTTCATGCCCGGCCACAACGTAA	MLRIELLEFGPFGSEDDKFRATESVVKRGGVIQRREDLLRVVHRLRVEHAHRRARQGQLTRDSEGRRITHVVGVRLERRTEDGDATADQRPQLLAGEIDHALASAHVDRVDLAQECERLVGAELTGAGHERADVLGQAAAAEAEAGAEELAADAVVVADGVGKLGDIRTHNLADLADGVDEGDLGGQERVGGDFHQLRGLQIGDHERSAGFQRCGVDLAGDLLGLGVIRAGAQHNAVRLNRVLHRVALAQKLRVPRDLHLGALLCELVGALLQRSCRAHRHRGLAKNHVAARELRHEILDHRLHVARICRIRAALLRSTHADEVDVGELGRAGVIGGEVKAPGGDVTFKDLRQARLIKRDLARLELLDFSLVHVHAQHLVAQLRHAGGMRCPEVAGPDHRHSHGRYSSRGSSSTRGMEWGRAAPGTSSPTSPSHTASAPARTCGTARAGPPSCPATT				NA	NA	NA	NA	NA
AK009_06450	369			hypothetical protein	GTGTCCGGAAAAGCCGGGGTCGATAAAACCGGCGGTGGAGTGGGTGAGCAGGCCCAGGCGGCCCAGCGAGGACTTCCCCTCGAGCCTGCCGGCGAGATCATTCGGCAGGGTAAACGTCTCCAGCGTCGAGGCCAGCACGAATTCGCCGGGGTGCAGCACGAATGCGTCCCCGTCTGCCACCTCGACCAGCGTGGTCAGGTCCGGCATCTCCTGCTTCGGGTCGATGTGCGTGTAGCGCGAGTTGTTGAACACGCGGAAGAACTTGTCTATACGCACGTCAATCGACGACGGCTGCACGAGCTCCGAGTCGTACGGCTCAATGGTCAAGCGGCCCGAATCGATGGCGGCGCGGATGTCATGGTCGGATAA	MSGKAGVDKTGGGVGEQAQAAQRGLPLEPAGEIIRQGKRLQRRGQHEFAGVQHECVPVCHLDQRGQVRHLLLRVDVRVARVVEHAEELVYTHVNRRRLHELRVVRLNGQAARIDGGADVMVG				NA	NA	NA	NA	NA
AK009_06452	348			hypothetical protein	ATGACAAACAACGAGGCAGTGGTCCATGCAGAAATCCAATTCGACAATGGGCGACTCGAGCTGGGCGAAGCGTCCTCTGACTACAACACCGTTGCTTCTGAACCAGAGTCGGATACGGTGGCATTCTCCCTAGCTTTGTACTGCACGAACGTGGATCGGGTAGTTGAACTGGCCATTGCCCATGGAGCCACACTTCGCGAGCCAGTGGCCTACTTCGCCTCCGGCGATCGCTATGGCAGTATTCGTGATCCCTTCGGGGTTCGGTGGACGATCATGACGCGCGTCGAAGACTTGAGTGACGAGGAGTCTGAGCAGCAGGTCAAGGAGTGGATGGAAACGCTTGGCTAG	MTNNEAVVHAEIQFDNGRLELGEASSDYNTVASEPESDTVAFSLALYCTNVDRVVELAIAHGATLREPVAYFASGDRYGSIRDPFGVRWTIMTRVEDLSDEESEQQVKEWMETLG	PGPT0030505_78	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK009_06453	906	rhaS_2		HTH-type transcriptional activator RhaS	GTGGAGTATCCGTGTGGCACGCCGTTTGTGGTGTGCGCGCCATCGGCTGGCGTGGTGTTATCGGTCATGAAAATCAAAGTAGAGGGCCCAAGCGACGCTCGCTTGTATATTTGTGCCATGAATGATCCGCTATCTCGCGCGGAGCGGGGAGTACTCAGGCCGGACTTGCTGCCGGTTGCTTTCCGACGACTCGCCCCCGCCGAGAGCATTTCCGGGCTCGTTCGCTGGTGGTGGTTCTCTTCGTGGGACCTTCCACATGGGCAATCGGCGACCCAACAAATTTTGGCCTTTCCATCTTCAAACGTGGTGGTTGAGCCCCACATGGTTGGAATATCCGGGCCCACAACGAAGAGCTCCACCCGAACGTTGGAAGGCAGTGGCTGGGCCGTCGCCGCGCTTTTGCAACCCGCGGCAGTTCCCGCAGTGGTCGGAGATCCCGCACGATACCGCGATAGCTACCGTGCATTGGCCGCCCCGGGACTACTCAAGGATGTGGGGGAAAGCGTCGCAAAGCTTGACGTGGAGGCAGCCTTCTGCGCGTTTGAACATTGGCTGACCAGCACAGTTGGGCCCGTAAGTAGCAATGGCTTGTTGGCCAACGCAGTGATGGAGCGAGTTGAGTCTGATCCCCCGATCCGCAACGTCACGGAGTGGGCAGGCGCCGCGCATGTGTCAGTGCGCACACTGCACCGGCTCACTGCGAAGCATGTAGGGTTAACGCCCCTAGCCATAATCCGGCGCCGGCGGCTTCAAGATGCCGCCCATGAGCTGCGCGCAACCCCGGCGCCGGTGGGAGCCATCGCCGTTCGCATGGGATACGCGGATCAATCGCATTTCACGCGCGAGTTCCGCGCTACGTTCGGGACCACACCATCCGACTACCGGAGGACGGCGCATACCCTCTAG	MEYPCGTPFVVCAPSAGVVLSVMKIKVEGPSDARLYICAMNDPLSRAERGVLRPDLLPVAFRRLAPAESISGLVRWWWFSSWDLPHGQSATQQILAFPSSNVVVEPHMVGISGPTTKSSTRTLEGSGWAVAALLQPAAVPAVVGDPARYRDSYRALAAPGLLKDVGESVAKLDVEAAFCAFEHWLTSTVGPVSSNGLLANAVMERVESDPPIRNVTEWAGAAHVSVRTLHRLTAKHVGLTPLAIIRRRRLQDAAHELRATPAPVGAIAVRMGYADQSHFTREFRATFGTTPSDYRRTAHTL				NA	NA	NA	NA	NA
AK009_06454	459			hypothetical protein	ATGCCCTTCCATCACCTGAACCTGGTCACAGGGCAGAGTCGGCTACTTCTGCGGCGCGGTGCACGGCGCGATCGGCGTTGGCGAGACCCAGAAGATTGCAAAGCTGCCGTTGGGCCGCTTCTTACCGCGCAACAAACTGAACCGCGGGTGGTACGCGACAGCATCATCGTGGTCCAGCACGAAGTGGTTGTAGACATCGAGCGTTTCCTCTGGGGTGTTAAGCGTGACCCGGTTGCCATCCACTTCGATGATCTCGACCGGCACCCAATCGGCGGCCGGGACTCGGGAAGCTCCTCGGATGCCGGCGATGGAGGGGAGATGGCCCCGGGAAAGCAGGTCGCATTCGCGGGGTGTGACCTGCACACGTTCGCCATTCGGCTGCGGCAGGAGGACAACCTCGCCATCGTCGAACCGCACGGCGTTTCGGGCGGGAGAGTAGTCAAACTTTCGCGTGAGTGA	MPFHHLNLVTGQSRLLLRRGARRDRRWRDPEDCKAAVGPLLTAQQTEPRVVRDSIIVVQHEVVVDIERFLWGVKRDPVAIHFDDLDRHPIGGRDSGSSSDAGDGGEMAPGKQVAFAGCDLHTFAIRLRQEDNLAIVEPHGVSGGRVVKLSRE				NA	NA	NA	NA	NA
AK009_06456	228			hypothetical protein	GTGGTCGATGACGGTGCCGTTGACCGCGTCGGCGGCCATGGATTGGGACTGCTTGAAACCCGGCCCGGGGGTGGGGGCGGGCCCGGTCGGCCAGAGGACGGCGAGCGCGACAAGTGTCGCGACGAAGGCTGCGACGAGGACCCCGGCGAGGATGAGCCGGGCGGTAGAGCGTGTGCGCGGCGGCATTATTGTTGCGTGCTTTCCCATGCTGATAACCGTAGTCGTTAA	MVDDGAVDRVGGHGLGLLETRPGGGGGPGRPEDGERDKCRDEGCDEDPGEDEPGGRACARRHYCCVLSHADNRSR				NA	NA	NA	NA	NA
AK009_06457	294			hypothetical protein	GTGAACCAAAAACAGCACGGGGAAGAGGATCGCGGCGCCGGCGGCCATCGCCACCGCCGTGGGGTCGGTGCCGCGCAGCAGCGCGGGGATGAGGAAGCCGAACACGACCAACCCGGTCAGCACCAGCCCGACGAGGCCCAGCAGGCCGCGCAGGGCGCCGATGGCCACGATGAGTATCACCGCCACGGCGATCCACAGCCAGATTGCCTGGCTGCGCTCCATGTCCAAAAGCGTGTAGGTGGTGGTGTCGCCGTCGGTGTTGGTTGCCAGGGTGATCGCGTCGCCGGTGGCTAG	MNQKQHGEEDRGAGGHRHRRGVGAAQQRGDEEAEHDQPGQHQPDEAQQAAQGADGHDEYHRHGDPQPDCLAALHVQKRVGGGVAVGVGCQGDRVAGG				NA	NA	NA	NA	NA
AK009_06458	474			hypothetical protein	TTGGGGCTTGCGTGCGCGGACGGTGTGCGCGGCGATGAAGGTGGTGATCGGAACCGCCAGGACCAGCGAAATCGCGCCGATCGCCGAGCGGATCAGCTCGGTGGCAACCACGTCGGAGGACAGCGCCTGCATCAGCGGGCGGTCGGAGACGCTCAGCAGCATGGCCAGCGGCAGCGCGGTGCCCAGGTACGCCAGCACGAGGGTGTAGACCATCGAGGCGATGTGGTCGCGGCCGACGCGCAATGCCGCGGCGAAGGTGGAGCGCGCCGAGGACTCCGGGGAGGCGAGGAAGAGTTCGTGGACGGTGGAGGATTGCGCGATGGTGACGTCGTTAAGCACGCCGAGCGCTCCAATGATGAAACCCGCCATGAGCAGCCCGGGGACGGATACCTCAGGCAGGTAGAGGTGGATGAGCAGGTTGTCCTCGTTGCCCAGGCCGCGCAGTTGAGAGGTGTCCACCGCGACGTTGCCTAG	MGLACADGVRGDEGGDRNRQDQRNRADRRADQLGGNHVGGQRLHQRAVGDAQQHGQRQRGAQVRQHEGVDHRGDVVAADAQCRGEGGARRGLRGGEEEFVDGGGLRDGDVVKHAERSNDETRHEQPGDGYLRQVEVDEQVVLVAQAAQLRGVHRDVA				NA	NA	NA	NA	NA
AK009_06459	411			hypothetical protein	ATGTTGTACACCGTGGCTGCGCCGACAACGAAGACCAGCGCGGATAGCGCGGTGAAGGCCCAGCACAGGGCGCGCCAGTTGCTGTCGGTCAGCTCCAAAATGAAGCCCGAGGCCAAGATAGCTATCGACGGCCCGAGGGTGGTCATGGAGCCCATGATTCCCATGTACTTGCCGATCTTCGGCTTCGGGGAGACCGTGAGCGCGATCATTATGCCGATCGGGACCAACAAGCCGGTGCCGATGGACTGGATGATGCGCCCGGCGAGCAGGACGGGGAAGTTCGGTGCCAGCGCGGTGACGATACCGCCGATCACCAGTGTGGATGTGGTGGCGAGGAAGAGCGGTTTGGTGCCGAAGCGGGTGATAAAGAACCCGGCGGTGGGCGTCATCACGGCGGCGCCGAGCATGTAG	MLYTVAAPTTKTSADSAVKAQHRARQLLSVSSKMKPEAKIAIDGPRVVMEPMIPMYLPIFGFGETVSAIIMPIGTNKPVPMDWMMRPASRTGKFGASAVTIPPITSVDVVARKSGLVPKRVIKNPAVGVITAAPSM				NA	NA	NA	NA	NA
AK009_06460	738			hypothetical protein	GTGGGCAAGAACCGCGCCGTAGATTCCGGTGGACAGCACGGTACCGAGGCAGCCGGCGATCTGGAAGCTGGTGGAGAAGATCGTCACGCCGTCCGGGTTGAGCTGGCGGGGCAGCGAGCCCAGCGCGAAGGACTGCACTGGGCCGATGGTCAGGGCAGAACCCACGATCGCGGGGATGTAGACCAGGGTGATCATCCACAGGGCGTCGACACGCATGGTGTACGCGGTGGCGAGCGCGAAGATGGCCATCAGCGTCATGCCGGCGGGCAGCAGCCAGCGCGCGCCGTGCGCGTCGTAGATGTTACCGGCGATGGGGCCGAACACGGCCGCGCACAAAATCGCGGGGAAAAGCACGAGCGAGGCGGTCAGCCCCGAGGTGCCCTGCACGCTTTGCAGGTGCGTGGGCACGAGGATGTTCATGGAGAACACGATGATCAGCGCCACGACGTTGATGACCACGCCCGCGGTAAACGGGAAGACCCTCAGCGGGGCGAGGTTGATCAGCGGGTTGGCAATCGTGCCCTGGCGCTTAACGAACAGCCCCAGCGCCACCGCGCCGACGAAGAATGCGGCGGCCGCGGTGAGCTTCGCCGGGCCGAAGATGGTGGAAATGCCGTAGAGCAGGCCGATCAGGCCGATCGCGACGAGTACAAGCGAGGGGTAATCCAGGCGCGCCTTCTCGGACTCGGAAATGTTGTACACCGTGGCTGCGCCGACAACGAAGACCAGCGCGGATAG	MGKNRAVDSGGQHGTEAAGDLEAGGEDRHAVRVELAGQRAQREGLHWADGQGRTHDRGDVDQGDHPQGVDTHGVRGGEREDGHQRHAGGQQPARAVRVVDVTGDGAEHGRAQNRGEKHERGGQPRGALHALQVRGHEDVHGEHDDQRHDVDDHARGKREDPQRGEVDQRVGNRALALNEQPQRHRADEECGGRGELRRAEDGGNAVEQADQADRDEYKRGVIQARLLGLGNVVHRGCADNEDQRG				NA	NA	NA	NA	NA
AK009_06461	462			hypothetical protein	GTGCCGCGGGGGCGCGATGAGCTAGGCGTCGATGTAGGTGCTCACCAGGAAGCGGTTGATGTCGGAGCGGTTGATCACGCCGACGACATGGCCTGCGTCGTCGACCACGGGGGCCTTCTTCAGATGCCGGTCCGCGAGCACTGCGGAGATGTGGCCGAGATCGTCGTTGACGTTGACGGTGATGACCGGTTCCGTGGCAATGCTCGCAACCCTCCGGTCCAGCACGGTGGAAACATCCGTGGAGAACTCGGGGGAGTCCTCGTTCTTCAACAGTGCGTACGGGGTGGTGAAGGCGGGCACCGAATCGCTAATGGCGTTGAGCACGTCACCGTCGGAGACGAAGCCTCGCAGCGTCCCGTTCGTGATCAGCGGGGCGCCGGAGATGCGGTTGGACACGAACAGGTGCAGGGCCTCGCGGATCGTGGCGTCGGGTGCGAGGTGGTAGACGTCGGTCTTCATTAG	MPRGRDELGVDVGAHQEAVDVGAVDHADDMACVVDHGGLLQMPVREHCGDVAEIVVDVDGDDRFRGNARNPPVQHGGNIRGELGGVLVLQQCVRGGEGGHRIANGVEHVTVGDEASQRPVRDQRGAGDAVGHEQVQGLADRGVGCEVVDVGLH				NA	NA	NA	NA	NA
AK009_06462	168			hypothetical protein	GTGCAGCACGGGGATGATCGCGGCCAGGCTCGCGCGATCGTTGGTGCCGTAGTCGAAGCCCCACGTCCAATAACCGTGTTCGCGCAGGTACAGGGCGTTAACGGTGAACGTGTTCGTGGCGCTGGTGAACCCGTGGACATACAGCACCGGGGTCGGGTGGGAGGGTGA	MQHGDDRGQARAIVGAVVEAPRPITVFAQVQGVNGERVRGAGEPVDIQHRGRVGG				NA	NA	NA	NA	NA
AK009_06463	501			hypothetical protein	GTGCCGGTGTTACTGCGGGGTGTGGGCCTCGCGCTCGAGTCCCCACCGCGTCAGCTCGGCGACGTTCGGGTCGCGCGGCAGCAGCGAGTGGATCACCGGGGCGAAGCCCGGGTAGGCCTTTTCCAGGTCGATGTTGATCACGTCCGCCCCGTCGACGCTGTCGAGGATGGACGCCTCGTTTGGGGTGACCGTGCGGTCGGCCGGGGTGTAGATCGAGGTGTAGACCACCCGCGGGTCGGAATCGGGCAGGTCGCCGATCTCCTCGAAAAACGGCGAGCCCGCCAGCTGCTGCAGCGCGCTCGTGCTGGCGACGGCCTCGGCGATGCCGGGGCGGCGCTGGATAAACGGGATGACGCGCTCGGCCAACCCGCCGATGTCGGTGCCGTGGAAGTTCGCCCCGATGGCCACGACGCGGCGGACGTTTTCGGCGCCGCCGCTGGCGATGTAGAGCTTGGTCAGCAGCCCGCCCTGGGAGTGGGCAACAATGTCGACCTTGTCTGA	MPVLLRGVGLALESPPRQLGDVRVARQQRVDHRGEARVGLFQVDVDHVRPVDAVEDGRLVWGDRAVGRGVDRGVDHPRVGIGQVADLLEKRRARQLLQRARAGDGLGDAGAALDKRDDALGQPADVGAVEVRPDGHDAADVFGAAAGDVELGQQPALGVGNNVDLV				NA	NA	NA	NA	NA
AK009_06464	159			hypothetical protein	ATGCGTGGTCGCAGAGTCCTCCGACTGGCCTTGGCGGGCGGGCGGGCGGTAGCGGTGGCAGTACTCGGGCGCACACAGGTGCGAGCCGCCCTTGACCACCCGGCGCGGGTAGGTCTCGCCCGGAGCCGTCGCCACGCGGCGCGCCTCATCCAGGGCTGA	MRGRRVLRLALAGGRAVAVAVLGRTQVRAALDHPARVGLARSRRHAARLIQG				NA	NA	NA	NA	NA
AK009_06465	474			hypothetical protein	TTGCCGCGCGCCCGGCGCGGGCAGCGCACTCGAGTTCCAGCTCGGTCGGCAGCCGGCGCCCCGCCCACCGCGCGTACGCCGCGGCGTCCGGGTAGGCCACCTGGACCACCGGGTGATCCGGAATGTCCTCTGGCTCACGCCGGACGGCCCGTACGGCGCGCGCCACGACGCCCCAGGCTCGAAGCGCCACCACTGCCGCCAGTCGCGCAGGTCCACCGGGTCCGTGGTGGGCTGAAACACCAGCGCGCCCGCGACCAGCAGATCCAGGTCGACGCCGGGGAATTCCTCCGCGGACGGCACCCGCTCGGCCACGGTGACGTAGCCCGTCTCTTGGACGAACCGCGCGAATCGGGCGTTGGTGACGGGGTCGGCCTCCAGCGCAAACGCGTTGACGCGGACTGTTCGCTGCGGGGACTCCTCAGGGTAGAAATCGTTAGACCCGGCCGTAAAGGTGGTCGGCGCGACGTCGATTAG	MPRARRGQRTRVPARSAAGAPPTARTPRRPGRPPGPPGDPECPLAHAGRPVRRAPRRPRLEAPPLPPVAQVHRVRGGLKHQRARDQQIQVDAGEFLRGRHPLGHGDVARLLDEPRESGVGDGVGLQRKRVDADCSLRGLLRVEIVRPGRKGGRRDVD				NA	NA	NA	NA	NA
AK009_06466	768			hypothetical protein	ATGGTTGTGGCTAACTTCTTGGTTGTGCCCGGTGTGATGCTGTTGTTCATCATCATCGCCGGCATCGGCGCGCCGTACTCGGCGGCGCTGATCCTGTTCGCCTGCGCGGCCGGCGCCCCGCTGCTGATCAAGCTAACGCAGGAAAGCGACAACGACATCGCTGCCGGCGCGACCATACAGATGGTACTCATGGTCTCCACCGTCGGCTTTTTGCCTTTCCTGTTGCCCCGCCTTATCGACGGCATCGAGGTCGACGTATGGCAGATCGCCCAGGCGCTTCTGCTCCAGATGATTCTTCCGCTGGCGCTCGGCATGGTCTGCCACGTTGGCGTCGAAAAGCTCGCGGCGACCGTGCAGCCCTGGGTGGCGAAGATTTCTAACCTGGCGCTCTACGGGCTGCTCATCTTCACCATCATTGGCTACCTGCCCGAGATGGCGGACGTTGACCTGTGGATCGCGATCATCATCGGTGTCGTCGTGCTTCTGATCGCCTTCTACATGGGATACGGTACTGGCCAGGGCAACACGAACCGCGCTCAGCTCGGTGCACTGGGCACCGCGCAGCGCAACACTGCCGCAGCAATCATCACGGCGCAGAGTTTCGACGACCCGCTGGTGTTTGTCACCATCGCGCTGCTCAACACGTTGATGATGTTTGTGCTGCTCAAGCTCGCTACTCGCTTGGGCAACGACTCCGCCATTGCGTTCTTAGAACCCCTTGAAGCGGACATGCCCGGCGGCATCACCCGACCCTATGCCCAAAACTAG	MVVANFLVVPGVMLLFIIIAGIGAPYSAALILFACAAGAPLLIKLTQESDNDIAAGATIQMVLMVSTVGFLPFLLPRLIDGIEVDVWQIAQALLLQMILPLALGMVCHVGVEKLAATVQPWVAKISNLALYGLLIFTIIGYLPEMADVDLWIAIIIGVVVLLIAFYMGYGTGQGNTNRAQLGALGTAQRNTAAAIITAQSFDDPLVFVTIALLNTLMMFVLLKLATRLGNDSAIAFLEPLEADMPGGITRPYAQN				NA	NA	NA	NA	NA
AK009_06467	1578			hypothetical protein	ATGCGCATGGAACTTCCCGACGACGTCGAGCTTCCCGCACTGCAGTCGCTGATGGACAAAGGCGTCACCCTCGATCAACACTATTACACGGTTCCGCAGTGCACGCCGTCTCGTACCGCGATGTGGACCGGCCAGCACGCGAAAACGCTGGGCACGTGGGACAACACGGACTTCGCCTGGATCAAGCCGCTGACACCGGACACCCCCACGCTCGGGCACATGATGCGCGAACAGGGCTACTACACCGCGTTCAAGGGCAAGTGGCACCTCTCGGACACCGGCTTTGGCACCTCGGAGGTGCTCGAGAAGTTCGGCTTCTCCGACTACCAGCTCTGGGGTGACAACTGGGGCCGCCCGCTCGAGGGCCAGGTCAAGGACGGCACGGTTGCGATGGAGACAGTCGATTGGCTGCGATACAAAGCACCGAAGGACCAGCCCTGGCTGCTAATCTCATCCATGGTCAACCCCCACGACATTATGTACTACCTGGCGGATCAGGACGAGCTGGGCCACGAAAATGGCGTGATGCGCCCGAAGCTGCACGGTTTGCCTTCCATGGCGGAGCTCGAGCGCTGGTGGGACCCTGCACTTCCGGAATCGGTCGACGACGACATGGCGCAGCAACCGCTAGGCCCGCACAACTACAAGGAGTTCGCACAGCTCAACTACACCGACGTACCGAAGGGTCGCGCCGATATTTGGAAGCAGCGCCGCAACTACCTGATTAACTGCATGCTCCTTGTCGATGCCGAGTTCGGCAAGATCCTCGACGAGCTCACCGCCCAGGGCCTGTGGGACAACACGGTGGTCATCTTCACGTCCGACCACGGCGAGATGAACGGCGCCCACGGCATGACGCAGAAGGGTGGCATCCACTTCGACGAGGCGACCGTGGTGAACATGACAGCCGTGGTCCCCGGCGGGGCGAAGGGCGTCGAGAGCACCGCTGTCGGTTCGCACATCGATCTCGTGCCCACCGCCCTCGCTTTTGCCGGGCTTGACGACGCCACCCGCACTAAACGCTACCCCGCTCTACCGGGCCGCAACCTCTCCGCAGTGCTGACCAACCCGACCTCGACGGTACCGCCGCGCGGCAGCGCCAGCGAGCCCGGTGACGGTGCGCTGTTGATGTGGGAAGGATTGCACCAACTCGACCCGGCGTGGGCCGTGACCGGCGCACTCGGCGAGTTGGTGGACCTGCCGCTGGACACAGAGTTGCGCGAGGAAAAGATGCGCGAGGCGGGTGAGAAGTTCGGCGCGCCCGACTTCACGCGCCGATCCTTCTTCCGCGCGGTCGTCGATGGGCGCTACAAACTGGTGCGTTGGTTCTCACCGGAAGAGTACTGCACCCCGTCCACGGTCGAGGAGCTCTACGCCACCTCGGATGTGTCCCTGCACGATCTGGTGGAGGACCCTAATGAGCTGGAAAACCTGGGCAACCCGGAGCACCCTCGCTACGACGTAGAGCTAGTCGCCACGCTGTTGGCCAAGCTCAACGCACTGATCGAACGTGAGCTTGGCGACGACACGTGCCCGATGGACCTCGACATGTTCGGCACCCGCGTCGTGACCTACTAG	MRMELPDDVELPALQSLMDKGVTLDQHYYTVPQCTPSRTAMWTGQHAKTLGTWDNTDFAWIKPLTPDTPTLGHMMREQGYYTAFKGKWHLSDTGFGTSEVLEKFGFSDYQLWGDNWGRPLEGQVKDGTVAMETVDWLRYKAPKDQPWLLISSMVNPHDIMYYLADQDELGHENGVMRPKLHGLPSMAELERWWDPALPESVDDDMAQQPLGPHNYKEFAQLNYTDVPKGRADIWKQRRNYLINCMLLVDAEFGKILDELTAQGLWDNTVVIFTSDHGEMNGAHGMTQKGGIHFDEATVVNMTAVVPGGAKGVESTAVGSHIDLVPTALAFAGLDDATRTKRYPALPGRNLSAVLTNPTSTVPPRGSASEPGDGALLMWEGLHQLDPAWAVTGALGELVDLPLDTELREEKMREAGEKFGAPDFTRRSFFRAVVDGRYKLVRWFSPEEYCTPSTVEELYATSDVSLHDLVEDPNELENLGNPEHPRYDVELVATLLAKLNALIERELGDDTCPMDLDMFGTRVVTY				NA	NA	NA	NA	NA
AK009_06468	1695			hypothetical protein	GTGACTACGGTAAATGCAACAGGTGCCCGCGGTGGGCGCGGGGTCAGCACCGGGAAGATTCTCCTCGGTGTGCTTCTCGGCGTGCTCGCGGTGCTGCTTGCGATCTACCTCGCCGACCTCGCAATGAACCGCGGGAACGTGCCGCGTGGCACCGCCGTCGGCGGTGTCGAGATCGGCGGCATGAGCCACGACGAGGCCACCGCGAAGCTCGAAGCAGAGCTCGGTGAGACGGCGAGCAACCCCGTGACGGTGAAGGCGGCATCGCAAAGCTCGCAGCTCGTGCCCGCCGAGTCCGGCCTCGGCATCGACTGGGAGGCGACCGTAGCAAGCGCGGGCGAAGAGTCCGCGAACCCGTTCACTCGCCTCGCCGGGCTGTTTCGCACCCGCGAAGTCGACATTGTGTCGACCGTGAACGAGGCCGCTCTCACCCCGCAGCTTGAGCGCGTGGCCGGCGAGTTGCACCTCGACCCCGCCGACGGCGCGATCGCCATCGAAGGCGGCGAGGCGAAAGTGACCGAACCGGTGCCGGGCCAGGAGGTTGACAAAACCGAGCTGTTCGAACGTGTCACCACCGGCTGGCTCAACCCCGACGGTGTAGAGGTCGAGCCGCGCGAAATCGAACCCGCTATCGGCGACCAGGCCATCAAGGAAGCCTTAGACGGGCCGGTTAAGGCGGCGCTGTCCGGAGCGTTGACACTGCACGGTCGCGACGGCGTCGACGGTGTCATTGCCCAAGAGCGCATCGGCGAGGTCGTCCAATTCCCCAACGTCGACGGCAAAATCGCCCCCGAGGTGAACGTGGAAAACGCCCAGGGCATCTTGGTCGAGCAGCTCGCTGCGACCGAGACGCAGATGAAAAACGCGCGCGTGCTGCCCGGCGGCGGGGTGGAACCGTCCGTCGATGGCTCCATCATCGACTGGGAGGCCGCGATGGACGGTTTCGACGAGCGGTTGATCGGTTCCGCCGAGCGCACCTGGGACGCGCAATACAAGGCCCGCCCGGCCGACTTCACTACAGAGGAAGCCCAACGTGCCAGCTTCGACGAGGTGGTGGGAAGTTTCACCACCGGCGGGTACAGCGGCGCATCCGGCACGAACATCGCTACGGTGGCCCGCGTTGTCAACGGCGCAATTGTCAACCCCGGTGAAACCTTCTCGCTCAACGGCTACACTGGCGCGCGCGGTGCCGCGCAGGGTTACGTCGAGTCGGGCATCATCGAAAATGGACGCCCCGGCAAGGCAGTGGGCGGCGGAATCTCCCAATTTGCCACGACCTTGTACAACGCGGCTTACTTTGCCGGCATGACGGATGTCGCCTCCACCCCGCACTCCTACTACATTTCACGCTACCCGGCTGGCAGGGAGGCGACCGTGTATGAAGGGGCGATTGACCTGCAATTCCGCAACGATTCGCCCCACCCGGTCAAGATTTCCACGAGCGTCGGGGGCGGCGAGGTGACGGTGAGCCTGATGGGCACCAAGACCGTCGAGGTGGAGTCCATCAACGGAGGGCGCTGGGCCTACACCTCGCCGAAGCCCGTGACCGTCACCAGTGGTGACTGCATTCCCTCGGGCGGGGTACAGGGCTTTACCACCTCCGATACCCGGATTGTGCGTGACCTCAGCGGCAATGAGATCAGTCGCAACACCTCCACCACGGTCTACGACCCGCAGCCCATCGTGCGCTGCGAGTAG	MTTVNATGARGGRGVSTGKILLGVLLGVLAVLLAIYLADLAMNRGNVPRGTAVGGVEIGGMSHDEATAKLEAELGETASNPVTVKAASQSSQLVPAESGLGIDWEATVASAGEESANPFTRLAGLFRTREVDIVSTVNEAALTPQLERVAGELHLDPADGAIAIEGGEAKVTEPVPGQEVDKTELFERVTTGWLNPDGVEVEPREIEPAIGDQAIKEALDGPVKAALSGALTLHGRDGVDGVIAQERIGEVVQFPNVDGKIAPEVNVENAQGILVEQLAATETQMKNARVLPGGGVEPSVDGSIIDWEAAMDGFDERLIGSAERTWDAQYKARPADFTTEEAQRASFDEVVGSFTTGGYSGASGTNIATVARVVNGAIVNPGETFSLNGYTGARGAAQGYVESGIIENGRPGKAVGGGISQFATTLYNAAYFAGMTDVASTPHSYYISRYPAGREATVYEGAIDLQFRNDSPHPVKISTSVGGGEVTVSLMGTKTVEVESINGGRWAYTSPKPVTVTSGDCIPSGGVQGFTTSDTRIVRDLSGNEISRNTSTTVYDPQPIVRCE				NA	NA	NA	NA	NA
AK009_06469	1155	lpqI	COG1472	Beta-hexosaminidase LpqI	ATGAGCCGAGCACGCATCACTGTGGCCTCAACGGCGCTGGTGATCGCGCTGACGGCCTGCGCCCCGCCCCCGGCCCCGGAGGTGGTGGAGACGACGCTGACGGTGACCTCCACGCAGACGGAGACCAGCACGGCCCCGCCGCCCCCGCCGAGCGCCGCGCAGCGCGTCCCGGACGACCTGCGCGCGAAGGTCGCCTCGCTGATAGTCGTCGGTGTAGCCAATTACGACCAGGCCCGTTTCGCCCTCGATCAGGGCGTCGGCGGGTTATTTATCCCGTCGTGGGCGGACCCGGCGCTGCTTGTCGAGCCAGGTCGCGACATCAACGCCTTGCGTGCCGAGTACGACCGGCCGTTTTCCGTGGCCGTGGATTTCGAGGGCGGGCGTGTGCAGCGCCACACGCAAGTCTTCGGGCAGTGGATGCCGCCGCGCGCGCTGGCCGGGCAACCGGACGAAGTGATCCAGGGTTCCGGTTACGACATCGGCCGCTCGCTGCGCGAGCGCGGCGTCAACGTCGACTACGCCCCGCTGCTTGACCTCGACGTCACCGGCCTCGACATCATCGGCGATCGCTCCTTCGGCGCGGAGCCGGGCGACGTGGCGCGCGTCGGCGGGTTGTTCTCGCAAGGGCTTATCGACGCCGGCGTGACCCCCACCTTCAAACACTTCCCCGGCCACGGCCGCGCCACGGGGGACACGCACCTGACGCTGGCCACGACACCTCCCCTCGATGTGCTGGAGGGCTCGGACATGCAGCCTTACGCAGAGGTGCTGCCTTCCCGTCCGACGGCGTCGGTGATGATGGGCCACATGATCGTGCCGGGTCTTGGCGGCGGCGACGTGCCCAGCTCCTTGAACCCGGAGGCCTACCGCATCCTGCGCGAGGGCGACTACCCGGGCGGCGAGCCCTTCGACGGGGTGATCGTCACCGATGACCTGTCTGGGATGCGCGGCATCACGGACTACCGCCCCACCCCGGAGGCGGTGCGCGATGCGATCGCAGCCGGGGCGGATCAGGCACTGTGGTCATCGGGGGAGGACCTCGTGGTAATTATCGACCTGGTTACCTCGGCCGCCACGGACGGCACAATCACGCCCGAGCGCATCGAGGCCGCCGCGGTGCGCACGCAGCAGCAGTTAATCGACGTCGGGCTCTAA	MSRARITVASTALVIALTACAPPPAPEVVETTLTVTSTQTETSTAPPPPPSAAQRVPDDLRAKVASLIVVGVANYDQARFALDQGVGGLFIPSWADPALLVEPGRDINALRAEYDRPFSVAVDFEGGRVQRHTQVFGQWMPPRALAGQPDEVIQGSGYDIGRSLRERGVNVDYAPLLDLDVTGLDIIGDRSFGAEPGDVARVGGLFSQGLIDAGVTPTFKHFPGHGRATGDTHLTLATTPPLDVLEGSDMQPYAEVLPSRPTASVMMGHMIVPGLGGGDVPSSLNPEAYRILREGDYPGGEPFDGVIVTDDLSGMRGITDYRPTPEAVRDAIAAGADQALWSSGEDLVVIIDLVTSAATDGTITPERIEAAAVRTQQQLIDVGL	PGPT0012175_2481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK009_06470	366			hypothetical protein	GTGGGTGAGGTTGAACTTGGTGTCGGCCGCGACTTGCCCCGGCGGCTGGGCGAACGAGATGAGCGTCAGCGCCAACCAACCGAGCAGGTGGGCGGCGAGCGGGTGTTGCAGGTGGGCGCGCACGCGGAGCGCCTACTGTCGAGAGCCGTACTCCGGACCACCCAGCACGGCCTGGTCGGCGGTGACAGCGTTACCCGCCGGGACGGTCGACTGCCCCGAGAACGTGGCGATGCCGATCACGCCGATGGCACCGAGCACGATACCCATCACGGCGCTGGCAAGCACACTGGTGGCGGCGCGGCGGGGAGCGGAGGCGACCCCGGCGGCGTCAAAGGCAACGTCACTAGGCATGGTGACACATCTTAG	MGEVELGVGRDLPRRLGERDERQRQPTEQVGGERVLQVGAHAERLLSRAVLRTTQHGLVGGDSVTRRDGRLPRERGDADHADGTEHDTHHGAGKHTGGGAAGSGGDPGGVKGNVTRHGDTS				NA	NA	NA	NA	NA
AK009_06471	723			hypothetical protein	GTGCGCGGTGCCCAAGATGAGCACGCCGAGCGAGAACAGGACCACCAGGAAGCCGCGCCAGGGCATGTCCGCGCGCGCGAGACCGGCCAGGCCGAGCGCGGCGACGGCCATGGTCGCCAGGATGAAGACCGGCTCGGAGACCAGCAGGAACCCGGCAGTGCGCTCGGTATCCACAAACGGCGCCCAGCTCGTCGTGCCGCGCAGCACCTCGGCCAGGTTGAGCCAGTGCGAGGTGACGAAGGCCGACTCGATGAACTCCGTAAACGGCGGGGAGTAGCGCCCCAACACCAGCAGCGGCCCGAGCCACCAGGCGCTGACCAGGACGCAGCCCGCGAGGTACAACGCCGCGCGCGAGAAGTCGCGGCGCCACACAAGCAGCACCAATGCCGGCAGGCACGCCGCGATGGTGGCGGTTGCGTTGACCGCGCCCATCAGGGCCACCGCCACCAGCGCGGGCGCGACCTGCGGGCGCCGGTTGAGCAGCGGCAGAATCGTCCACGGCACCAACGCCACCGGCCACGCCTCGGAGGAAATCGCCGTCAGCGTAGTCAAGATCCGCGGGCTCAGCGCGTAGAGCAGCGCTGGGATAACCCCTGGCACGCCCATGCGACGTGCCACGGCAAGGGTGCCGGAATACGCGACGCACAGCAAAAGCGCCCACCACAGCCGCTGCACCACCCAGTCCGGCAACGGCAGCAGGAAGAACGGGCCCTGCGGAAATAG	MRGAQDEHAEREQDHQEAAPGHVRARETGQAERGDGHGRQDEDRLGDQQEPGSALGIHKRRPARRAAQHLGQVEPVRGDEGRLDELRKRRGVAPQHQQRPEPPGADQDAAREVQRRAREVAAPHKQHQCRQARRDGGGCVDRAHQGHRHQRGRDLRAPVEQRQNRPRHQRHRPRLGGNRRQRSQDPRAQRVEQRWDNPWHAHATCHGKGAGIRDAQQKRPPQPLHHPVRQRQQEERALRK				NA	NA	NA	NA	NA
AK009_06472	1155			hypothetical protein	TTGGAAGAAGTAGGTGTCGGCCGTGCCGGGGACGTCGACAATGCGGCTCACGCCGGTGTCGAGCTCGGCGATCCCGACCGGTTCCGTCAGCTCGATGCGCACCGTGTCGCCGGGGACGCTGACCGTGCGCGGCTGCTCCGCCACCAGGGAAAGATCCCGAGACTGACCGTCGGAGACCACGCGCACCACGGTGGAGTCGGTGGCGGTGATGGTGACGCGCCCGCCGGAGACCGTCGAGCTAATCCAGCCGAGATCACCCGGCGCGGGCCACCAGGCGGTGTCCTCCAGGCCGTCGAAGGCGGCCGTGAGCGAGCGCGACGGGTTCGCCCCGCCGAACGCGGTGGCGTCGGCCGCCGAGCTCGATGCCGAGGCAGTGCCGCCCGACATGTCCACGCCCACGCGCGTGCCGGCGGACGGGTAGTCGGGCAGGCGGTTGCGCACGTCCGCGCCCTCCTCGGGGGAGGCGAGGTGCGCCGACACGGGCGAGTCGAGGGTGCCGTAGTTGCGTACTGCCGCGGCCGGGGTGTCGGTGACTATCTGCGCACCCGAATCCACCAACACGGCGGGGAAGTAGCCGTATTGCTGCCAGAGAAGGGCCAGCACCTCCCCGCCGCCGTCGACACGCACGGGCGCATCCGAGGTCGCCATCATGCCGCGCTCGGGGGAGATGAGGTGGATCTCCAGCTCGCCGAACGTCGCGTCCGGCTCACCCGGCCACTCGGCGCGCGCGCCGGAGTCGAGATCGCCGCGCACGACCACCGCGCCGACGCCGATGGAGCGCAGCGCGTCGGTATCCAGGGCCTCCATCTGGCCGTCGAGGCCGCGGATTGCCTCCGGGTCCACCAGGGGGATCGCGTCGCGCACGGCAAACGGGGCGCGGGTGACGGCCTGGATCGGTTCGTCGCGCGTCCACCCCCACGTCTGCCGCGCGAACGACGCCGGCGGGATCACCACGGTGCGGGTCCCGGCTGCGTTTTGGTTAAGCCACTGGCCCGCGGCAACCCAGTCCGGGGAGACCTCCGACCACGTGCCCGTCGGCAGCAGCCGCAGCGACCACGCCGGGGCCACGGCGGTGGCAACCACCAGCGACACCGCGACGATGCCGGGGGTGCGCACCTTAGAGGCAACCCAACCTACGCCCAGCACCAGCGGTAG	MEEVGVGRAGDVDNAAHAGVELGDPDRFRQLDAHRVAGDADRARLLRHQGKIPRLTVGDHAHHGGVGGGDGDAPAGDRRANPAEITRRGPPGGVLQAVEGGRERARRVRPAERGGVGRRARCRGSAARHVHAHARAGGRVVGQAVAHVRALLGGGEVRRHGRVEGAVVAYCRGRGVGDYLRTRIHQHGGEVAVLLPEKGQHLPAAVDTHGRIRGRHHAALGGDEVDLQLAERRVRLTRPLGARAGVEIAAHDHRADADGAQRVGIQGLHLAVEAADCLRVHQGDRVAHGKRGAGDGLDRFVARPPPRLPRERRRRDHHGAGPGCVLVKPLARGNPVRGDLRPRARRQQPQRPRRGHGGGNHQRHRDDAGGAHLRGNPTYAQHQR				NA	NA	NA	NA	NA
AK009_06473	615			hypothetical protein	ATGGCGGTAAAGCGGCGCACCGCCCACGCCAGCCCCACCGCCACCGCGCCGGGCACAAGGCCCACCGCCAAAGCGGTGAGCAGCGGCGATACCGGCGTCGACGCATCACGCGGGTTGAAGCGCGAGAGGCGCCGCCACCGCACCCACAGGCAGAACGCCACGGTGAGCAGGGACACCAGGGCGCCGATCAGAAGGCTCCACCGGTACAGCGCGTCGCCGGCGAAGCGCATCTCAAACGCCCCGCTCACGCCCGCTGGCACGCGAAACGCCTGCATGCCGGCGTCGATACGCACGGGCTCGACCTCGACACCGCCGACGCGTGCGCGCAGCCCCTCGTTGAAGCCGCGCGCGGTGAGGATGAGCTGCTCGCTTGTCGACGCCCCCACCACGCCCCCGAAAGCCTCCGCGCGAGCCGTGGGCACCTCGCCGCGCGTGATGGTGATGGTCTCGGCGTCGGTGACTAGCTCGTGCGCCCCGGCGGGGAGGAACACCTCGCCGTCAACCTCCTCGCCGTCGATGGTGGCGGGTGCGCTTAAACGCCACGTCGCGTCGGTGGCGGTGGTGAACCGGCGCTGCAGCACGTCGGTGTGGGGGAGCAGGCGTTGGAAGAAGTAG	MAVKRRTAHASPTATAPGTRPTAKAVSSGDTGVDASRGLKRERRRHRTHRQNATVSRDTRAPIRRLHRYSASPAKRISNAPLTPAGTRNACMPASIRTGSTSTPPTRARSPSLKPRAVRMSCSLVDAPTTPPKASARAVGTSPRVMVMVSASVTSSCAPAGRNTSPSTSSPSMVAGALKRHVASVAVVNRRCSTSVWGSRRWKK				NA	NA	NA	NA	NA
AK009_06474	636			hypothetical protein	ATGCACAGGTTCCGCCGAAACTCGGGGCACATCGGGGGTGTCCGGGTTTCGGCGGTAGCGGGAGTTGACCCAGCGCGCGCCCGGCACCTCCACCCACTCGTAGGAAACGTACGACACTGCCACGCTCACCGCGACCGTAAACGCCAGCACGGCGACGAAGTGCCCGCCGAAGATCGGCACCCCAAGCAGCGGGAAGGCGAACGCCAGGACCCAGACGTGCCACAAAAAGATCGAGTACGACCACCTCCCGAGCCGCCGCATAGCGCTCGAGGCCAAGAGGCCGTCCTCGCGCGGCGACAGCACGAACGGCGCGACCACCAGAGCGGCGAACGCGGCGCCCAGGATCACGCGCGCGTTGAACTCCGCCGGCGACGGGTGCTGCAACCCAACAGGGCCGACAACGCCCGCGAACCACGCCACGGGCAGCGCCAACAGCGCAAACGGCAGGCGGGGGCCGCGGTAGCCGACGCCGAGGCGTTCCAGCTCAGCCAGGATGAGGCCGACGGCGAACCACAGAACGTAGGAGGGCGGCCAGATCTGCATGTTCACCACCGTGACGCCCGCGATCGCCCACGGCCACGCCAGGGACAGGGGTATGGCGAGGGCGAGGGTGAGCGTGCGAAGGGGCGCCGATAA	MHRFRRNSGHIGGVRVSAVAGVDPARARHLHPLVGNVRHCHAHRDRKRQHGDEVPAEDRHPKQREGERQDPDVPQKDRVRPPPEPPHSARGQEAVLARRQHERRDHQSGERGAQDHARVELRRRRVLQPNRADNAREPRHGQRQQRKRQAGAAVADAEAFQLSQDEADGEPQNVGGRPDLHVHHRDARDRPRPRQGQGYGEGEGERAKGRR				NA	NA	NA	NA	NA
AK009_06475	213			hypothetical protein	GTGCCTCGTGGTGCTCGTCGCTGGGTTCGTGCTGAACTTGATCTCGCCGGTGGTGATCGCGCAGCAGCGCACGATCCACCCCGGGGAGAGCACCGTGATCACGTACGACGGTCCCGCGGAGCTGGTCACAACGCTGTCGACGGAGAAGGGCCCGAAGTCCGGCCACGTAGTGATCAACGCCGTGACCACGCTCGACGGGACCGAGTTGGCTGA	MPRGARRWVRAELDLAGGDRAAAHDPPRGEHRDHVRRSRGAGHNAVDGEGPEVRPRSDQRRDHARRDRVG				NA	NA	NA	NA	NA
AK009_06476	1320			hypothetical protein	GTGGCCGTCGATACGCAGCTCGCCGGACTCCACCACGTTCATTGCCTTGGTGGCGGGATCGACCACGGGGATGCCGTCCTGGCGCGCCAGCAGTGCGGGGCGGTCGACGAAGAACACGTCGCGGCCGCGGTCGTCGATGTTGGGCACGCTGACCTGCACCGGGGCCAGCTTTGCGACGGCCACAGGTGCGTCAGGCACCGACAGCAGCGCCAGCACGCAGGCCGCCGCGGCAAGCCTCGGCCGGAGCGCCCCGGCGGCGTAGACGTACGCGGGGATGGCCAGGATCACCCACTTCTGGCCGTCGCGAAGCAAGCCCGCGCCCGGCAGCCACTCGACGACGAGCCCCACAACTCCCAGCCACGACGCGATTGCGACGCCGAACCCCACCGCGGCGAGGACGAGCAGACGGCGCGGTACCTCGCGCCACGCGCAGGAAAGCAGGACGAACAGCACGACGCCAAAGACAGCGAAGGCCGCAGAGCGCGAGGGCGGGACCGCCTCGGCGTTCCAGATCCCGCCGAGGCCAAGCAGCGCGCCGAGGGTGCCCACCCACTTCTCGGCGCGCGGGGCGAACGCGGCCGCCGAAGACGCGGTGGCGGTGCCCGACCCCGCGGCGACGAACCCGGCGACGACCCACGGCGCGCACATCAGCACCGCGGCGATGACGTGGCGCCGGCGCGTGGCCAGACTCACCGCCGCCAGCGCGCCCGTCGGGGTCAGCGAGGCAACCCACATCGCCACAATCGAGCCCGTGCACGCGATCAGGGGCATCAGCCACGCCGCAACAGCCAGCGACCACTGGCCCTGGAGAAGACGCTCGATGACAAACGGGTTCCACACCGCGACCGTCATCGCCGCCGCCCGGCCAAACGGGGAAGCGCCGATGCGGTAACCCGCGTAGGCCGCGGCGCAGGCGGCGCCGATGACGATGAGCCGCACGACCAGCACCGGCGCCGGCACAAGCGCCAACACCGCGTCCTGCGGCACGTTGCGCGCGGGCAAGTCGCCGAAGCCGAGCGAGGCGTGGGTGAGCGCCATGTCGGGAAGCACCACCATGTCGCGCAACGCGAACGCGGGGCCCGGGACCATAAAAGGCCAGGTCACGGCCACGACGAGCACGGCGGCCCAGGCGCCGAGGGCGCTAGCGGCGCGCAACCGTCACCGCCGCCCACGCCAGCGCGGCGATGGCCGCGAACCGCGTCACCCACGCCAGCACCTGCAGCGCACGCAGCACGCGGACCTGCCCCGCCGCGTGCTCGCGCGCCTGCGCCCGCGACTGCTCCGACATGCGGAACAGCCCCTCGACTGGGCCCTGGTTGA	MAVDTQLAGLHHVHCLGGGIDHGDAVLARQQCGAVDEEHVAAAVVDVGHADLHRGQLCDGHRCVRHRQQRQHAGRRGKPRPERPGGVDVRGDGQDHPLLAVAKQARARQPLDDEPHNSQPRRDCDAEPHRGEDEQTARYLAPRAGKQDEQHDAKDSEGRRARGRDRLGVPDPAEAKQRAEGAHPLLGARGERGRRRRGGGARPRGDEPGDDPRRAHQHRGDDVAPARGQTHRRQRARRGQRGNPHRHNRARARDQGHQPRRNSQRPLALEKTLDDKRVPHRDRHRRRPAKRGSADAVTRVGRGAGGADDDEPHDQHRRRHKRQHRVLRHVARGQVAEAERGVGERHVGKHHHVAQRERGARDHKRPGHGHDEHGGPGAEGASGAQPSPPPTPARRWPRTASPTPAPAAHAARGPAPPRARAPAPATAPTCGTAPRLGPG				NA	NA	NA	NA	NA
AK009_06477	414			hypothetical protein	ATGTCAGCGCGAAATCGAGGCATCACGGGCCCCAGATCGACGCTGAGATCTTCCCCAACAAGCACCCCAAAAAACACACGCGAAGTCCGCAGCACTCACTACGAGTCCAAGAGCTCCTGCTGCCGGGAATCCCTCATGTTCACGATGGTGACAACGAACGCGATCGTGGCCCACGGGCCGATCAGGCTCAACGTGCCCAGCGCGGAAGTGCCGAGCAGTATGGAGATGAGTGTCGCCACCCCAACAACAGCCCACAGTGCGATAACGAGGCTCGCCTTGGGAAAACACGACGACATTGAATGTTTATTGCACTCCTTCTGGGTTGAACTGCATCTAGACCTACGCTACTCCTGGCAAAAGCTTTCCGCGCCGCGGCACAAGCGCCAGCAGCGGCACCGCGCCCCACAGCGCTAG	MSARNRGITGPRSTLRSSPTSTPKNTREVRSTHYESKSSCCRESLMFTMVTTNAIVAHGPIRLNVPSAEVPSSMEMSVATPTTAHSAITRLALGKHDDIECLLHSFWVELHLDLRYSWQKLSAPRHKRQQRHRAPQR				NA	NA	NA	NA	NA
AK009_06478	234			hypothetical protein	ATGACTAACAACATCGACTTCAGCATCATCCGCGAGCGCGCCCTGCGCAACATTCGCGAAGACCTCGTCACCGAGTGGGCAAACACCTACCCGGCAGAGGACATCCAGGAGACCTTCGACGCCGTCAAGGCCGAGCACAAGAATAACGCAGTCATCGAAGACTTCGTCCCCGTCCTCGTCGAGGCAGAAATGAAGGAACGTCTGCGAACCCGCGACCTGGACATCCCCGCGTAA	MTNNIDFSIIRERALRNIREDLVTEWANTYPAEDIQETFDAVKAEHKNNAVIEDFVPVLVEAEMKERLRTRDLDIPA				NA	NA	NA	NA	NA
AK009_06479	255			hypothetical protein	GTGCTGCGCGGCCTCGATGACCGCGATCCCCCAGCCCTCTTTCACACTCGGCATCAGGTGCAGCGACGCGCGCGAGAGCACGGCGTGCTTGTACTCGTCGCTGACGTGTCCGTGGAAGATCACGCGCCCCTCGAGCCCCGCAGCGTAGGTGCGCAGCTCGTCCTCCCACCAGCCGGAACCAAGCACGTCGAGCACCACGCCGTCGAGCTCGCGCACGACGTCGATCGCCTGCTCAATGCGCTTGTGCGGCACTAG	MLRGLDDRDPPALFHTRHQVQRRAREHGVLVLVADVSVEDHAPLEPRSVGAQLVLPPAGTKHVEHHAVELAHDVDRLLNALVRH				NA	NA	NA	NA	NA
AK009_06480	756			hypothetical protein	GTGCACCACCGCGATGTCGGCGTCGCGCACGCCCAGGGCGATGAGGTCCTCGCGCGAGGCGTCGGACACGGTGACGTACTGCGCGCCGCGGTAAACGCGCGGGGCGACGCGGCGCTCCAGAAACGACCCGAGCCGCCCAATAAAAGGCCCCGCGACTGGCCATTGCCGCAGGTGACTGTGGTGGGTGAGCAGCACCGTCTCCGCCCGCGAGTACAACCGCGCGAAAAACGGGATGCCGTTTTGAGTATCCACAATCACGTCCGGGCGGTGCCGCCACGCCGCCAGCGGCGCGAGCAGGTAAACGCCGTACTTGCCGCCGGAGCGCTCGATGCGCACCCCGTTTTTGACGCTGCGGCGCGGCGCGTCAGTGTACGCGGCCGTGCGCAGCACCACGTCGTGGCCCTGGCGCGCGAGATACTCACCGACGCGCTCGATGTAGGCTTCCGATCCACCTCCCTGAGGGTGGGACATGTCGCGCCAACACAGCAGCAGTATCTTCATACGTGTGTACCGTACCCGCCGCCTCGCCACCTGGAACCGCTCAGTGCGCCTTCTCCGCTCCTTTGTGTACGAGCCGTTCCGGCCAGCCATTTTCTACGGCGGCCTCGCCCGCGACACCGCGCTGCTTATCGACGCCCTCTCCAACGACCTGACCCACTCACCGCTGAAGGCCAAGAACGTCCTCGACGTCGGGGGCGGCCCGGGCTACTTCGCCGCGGAGTTCGCCCGCGTCGGCGCGCACTACGTCGGCCTTGA	MHHRDVGVAHAQGDEVLARGVGHGDVLRAAVNARGDAALQKRPEPPNKRPRDWPLPQVTVVGEQHRLRPRVQPREKRDAVLSIHNHVRAVPPRRQRREQVNAVLAAGALDAHPVFDAAARRVSVRGRAQHHVVALAREILTDALDVGFRSTSLRVGHVAPTQQQYLHTCVPYPPPRHLEPLSAPSPLLCVRAVPASHFLRRPRPRHRAAYRRPLQRPDPLTAEGQERPRRRGRPGLLRRGVRPRRRALRRP				NA	NA	NA	NA	NA
AK009_06481	477			hypothetical protein	TTGCTCGCGCGCCCACCTCAGGCCGTCGGTCGCGGAGACGTCGAAAAGCGACATGCCCCAGACGTTCTTCGGCTGGCGGCCATGCTTGCGCGCGTAACGACGCCTCGCGTACTCGCCGCCCACATAATGCGGCCACAGGCCGGTCTCGTGGCCGCCGAACGGGCCGAGCCACACGGTGTAGCTGAGCACGACCAGCCCGCCCGGGGCGCACACCCGGATCATCTCATCGGCCATGTCGCGCCAATTCGGGATGTGTTCGGCGACGTTGGAGGAATACACCACATCGAAAGATGCGTCGGCAAAGGGCAGTGCGGCGCCGTCGCCGCGCACCGCGCCGTAGCCGCTGAGGCCCGCCGCCGACATCTCGGACACGTCCGGCTCAAGGCCGACGTAGTGCGCGCCGACGCGGGCGAACTCCGCGGCGAAGTAGCCCGGGCCGCCCCCGACGTCGAGGACGTTCTTGGCCTTCAGCGGTGA	MLARPPQAVGRGDVEKRHAPDVLRLAAMLARVTTPRVLAAHIMRPQAGLVAAERAEPHGVAEHDQPARGAHPDHLIGHVAPIRDVFGDVGGIHHIERCVGKGQCGAVAAHRAVAAEARRRHLGHVRLKADVVRADAGELRGEVARAAPDVEDVLGLQR				NA	NA	NA	NA	NA
AK009_06482	1872			hypothetical protein	TTGAGTTCGTGGCGTTCCCGCGCTATCACCCGTCGTGGGCGTGGTGGGTGGCGCGGGTGCCGCTGCTGCGCGAGTTCGCGACCTCCAACCTGGTGGTGGCGCTGCGCGTGCCACCCGAAGTCGACCGGTGAACTACTTCGCGGCCTTGACGCGGTCGGAGAGCTTGTCCAGCTGGTCGAAGATTTCGCTCGGGACCCGCTCGCCGAGGCGCTCGAAGTAGCGGCGCGAATCCTCGATGTCGCCGGACCACAGCTTCGGGTCGGCGTGGAGGGCTTCCTCCACATCGGCGAGCGGGGTGTCCAGGCCGGTCAGGTCGAGGTCCTCGGCGCGGGCGGTATGGCCCACGACGGTTTCGTCGGCGCCGACCTTGCCCTCGATGCGGTCGATGATCCACTTCAGCACGCGGGAGTTTTCACCGAAGCCCGGCCACAGGAAGCGACCGTCGTCGCCGCGGCGGAACCAGTTGACCAGGAAGATCTCCGGCATGCGCTCTCCGCCGCGGTTGCCCATGTCGATCCAGTGCTGGAAGTAGTCGCCCACGGCGTAGCCCATGAACGGCAGCATGGCCATCGGGTCGTGGCGCAGGCTACCGACCTTCGCCTCGGAGGAGGCGGCGGTCTGCCCGGAGGAGAGCATCGCACCGATCATGGTGCCGTGCTCCCAGTCGAGCGCCTGGGTCACCAGCGGCACGGTGTCGGGGCGGCGGCCACCGAAGAGAATGGCATCGATCTTCACACCGTTCGGGTCGTTGAACTCCGGCGCGGCGGTCGGGCACTGCTCGATCGGCACGCAGTAGCGCGAGTTCGGGTGGGCGGCGTCCTGGCCGGAATCCGGGGTCCAGTCGGCACCGCGCCAGTCGATCAGGTGCGCGGGCTCTTCACCGTCCATGCCCTCCCACCAAATATCGCCGTCGTCGGTGAGCGCGACGTTGGTGAACAGGGTGTTGCCCGGCTCCATGGTGCGCATCGCGATCGGGTTGGAGGCGTAGTTGGTGCCCGGCGCGACGCCGAAGAATCCGTTCTCCGGGTTCACCGCGTACAGGCCGTCCTCCTTGAGGTGCATCCAGGCGATATCGTCGCCGACGACCTCGGCGCTCCAACCCTCGAGCGTCGGGGTGATCATCGCGAGGTTGGTCTTGCCGCAAGCCGAGGGGAATGCGCCGGCGATGTGGTAGGTCTTGCCCTCCGGCGAGGTCAGCTTGAGGATGAGCATGTGCTCCGCCATCCAGCCTTCCTCCTTGGCCATAACGGAAGCGATGCGCAGCGCGTAGCACTTCTTCGCCAGAATTGCGTTACCGCCGTAGCCGGAGCCGAAGGACCAGATCTCCTTGGTCTCCGGGAACTGGGAAATGTATTTCGTGGAGTTGCAGGGCCACGCCACGTCCCGCTCACCCTCGGCCAGCGGGGCGCCGACGGAGTGGAGGCAGTGCACGAAGTTGTCGCCCTCGATCTTGTCCAGCGCTTCCTGGCCCATGCGGGTCATGATGCGCATGGACATGACAACGTACTCCGAGTCCGTGAGCTGCACGCCCAGCTTCGGGTCGGGGTCGGTGATGGGGCCCATGCAGAACGGCACGACGTACATGGTGCGCCCCTTCATGGAGCCGCGGAAGTGCTCGCGCATCTCGTCTTTGAGGGCCTCGGGCTTCATCCAATTGTTGGTGGGGCCGGCGTCCGCCTCAGCCTCGGTGGCGATAAAGGTGCGCGACTCGACTCGTGCAACGTCGGACGGGTTGGAGCGCGCCAGGTAGGAGTTCGGGCGCTTTTCCTCGTTGAGCTTGATCAAGGTGCCCTTCTCAACCAGGTCGGCAGCAAAGGCGTCCCACTCCTCTTGGGAACCGTCTACGAAGACCACGCGCTCCGGCTGGAATAG	MSSWRSRAITRRGRGGWRGCRCCASSRPPTWWWRCACHPKSTGELLRGLDAVGELVQLVEDFARDPLAEALEVAARILDVAGPQLRVGVEGFLHIGERGVQAGQVEVLGAGGMAHDGFVGADLALDAVDDPLQHAGVFTEARPQEATVVAAAEPVDQEDLRHALSAAVAHVDPVLEVVAHGVAHERQHGHRVVAQATDLRLGGGGGLPGGEHRTDHGAVLPVERLGHQRHGVGAAATEENGIDLHTVRVVELRRGGRALLDRHAVARVRVGGVLAGIRGPVGTAPVDQVRGLFTVHALPPNIAVVGERDVGEQGVARLHGAHRDRVGGVVGARRDAEESVLRVHRVQAVLLEVHPGDIVADDLGAPTLERRGDHREVGLAASRGECAGDVVGLALRRGQLEDEHVLRHPAFLLGHNGSDAQRVALLRQNCVTAVAGAEGPDLLGLRELGNVFRGVAGPRHVPLTLGQRGADGVEAVHEVVALDLVQRFLAHAGHDAHGHDNVLRVRELHAQLRVGVGDGAHAERHDVHGAPLHGAAEVLAHLVFEGLGLHPIVGGAGVRLSLGGDKGARLDSCNVGRVGARQVGVRALFLVELDQGALLNQVGSKGVPLLLGTVYEDHALRLE				NA	NA	NA	NA	NA
AK009_06483	198			hypothetical protein	ATGTTTGACTGGGTAGCGCGTGGCGTTTGTGCAGGATGTGCGCCGTTTTGCGGGGTGGGCGGGGGTTTTGGGCGCCCTAAAACGGGGGTGGCAAACGGGCATGTCGGCGCGGGTTTTGCGTGTTATGGGTCACTGGGCGGCGGTGGAATGTCGGCGCGAATTGTAGCGTTAGTGCCCGTAGACGCTGGTTTTCGATAG	MFDWVARGVCAGCAPFCGVGGGFGRPKTGVANGHVGAGFACYGSLGGGGMSARIVALVPVDAGFR				NA	NA	NA	NA	NA
AK009_06484	492			hypothetical protein	TTGGATGATGCGGCGCTTGTGGTGGCGCGCCTTCGGCCACGGGTCGGGGAAGAAGATGCGCACGCCGTCGAGCGATTCCGGCTCGAACATGCGGGCCAGGACCTCAACGCCGTCGCCGCGGATCATGCGCACGTTGTCGATGTCATTGCGCACGACCGCGCCGAGCAGCTTCGCCAGCCCCGGCTTGTACAGCTCGACGGCGACGATGTTGGTGTCCGCCTCAAGCGGCGCCATCGCGGCGGTGGAGGTGCCGGTGCCGGAGCCGATTTCCACGATCGTCGGGTGCCCGGCGCGGCCGAACCATTCGTCGACGTTGAGGGGGGCGTCGTCAAGCAGGCGGCCCAGCCGAGGCCAGTGCTCGTCGAAGAGGGCTTCCTGGTTGTCGGTGAGCGTGCCGCGGCGGAAGGTGACGGAACCGAGGCGCGGGTAATCGAGCCCGGTGGTGAACTCGGTTTGGGGCGGGCGCCCGGCTGGAAGTTCACCCGTGCCTGA	MDDAALVVARLRPRVGEEDAHAVERFRLEHAGQDLNAVAADHAHVVDVIAHDRAEQLRQPRLVQLDGDDVGVRLKRRHRGGGGAGAGADFHDRRVPGAAEPFVDVEGGVVKQAAQPRPVLVEEGFLVVGERAAAEGDGTEARVIEPGGELGLGRAPGWKFTRA				NA	NA	NA	NA	NA
AK009_06485	957			hypothetical protein	GTGGCGGTACGCGAAAGCGCCCCAGTTGTAAAACACGCGTGCTTCTCCTTACGCCTGGGCCGAGTGCGCGTTGCTGCGCTCTGTACGCTCGCCGCGCGAGCTGTGCAGCAGCGCCGTGAGCGGGCGGAAGGGCTGCAGCCAGGCGCCCTCTTCCGGGAGCTGGTCCAGGTTGACGCGCGGCAGCGGCTCGCGGAAGACTCCCGGGATGTCCTCGAGGTCGACGAAGTCGATCTCCTCGTTGATCACCGCCCACGAGGCGTGCTCGTGGAAGCCGAGGACGGTCACCGGGACGCCCTCGCTGAGCAGGTCCTCGATGGTGGACATGAAGTTCTGGCCATCCGCCGAGGCGACGACGAGCCCGCGCAGCACACCTTCGTCGCGGCGGCGCTCAATGTGGGCCAGCATGTCTTGGTCCACGTCAGAGTCGTCGCCGTTCTTCGGCTTGGCAAACACGGCGAAGCCGACGTTGCGCAGCGCCTCGACCCAGGGCCGCACGACGTCGGCGCCCTGGGCTGCGATGTTGGTGAACACGGTCGCCTCGGGCTCGACGCGCTCGCCGGTTTCGGCTGTGGCGTCTTCCGCACGCGAGATGAGCCAGCGGCCGATCGCGTCGAAGCGGGGGCGGTAGGCGGCGGTGGGGCGCCCGCCGAGGATGGCGCCGAGGCCCATGTCAAGGTTCGGCGCATCCCAGACCAGCAGGAAGCTGTCGGGGCCGGCCTGCGCGCCCGGGGTGTACGGGTGGGTCATCTCGTGGAGGTCGTGCATTCTCGTCCTGCTTCCCGGTTCTATTTCTTTACCCAGAGGTACTCGCGGATGACATGGTCCTTGTCCAGGCCCTTGCCCTCGAACTTGGTAATCACTTGGCGGTCGGTCAGAAGCGGCGCTTCGGGCCAGGGCCACCCCTTAAACTCCAGCATTGGCTCGACGTCCACCAGCTCGTCGATCCATTCAGCGTAA	MAVRESAPVVKHACFSLRLGRVRVAALCTLAARAVQQRRERAEGLQPGALFRELVQVDARQRLAEDSRDVLEVDEVDLLVDHRPRGVLVEAEDGHRDALAEQVLDGGHEVLAIRRGDDEPAQHTFVAAALNVGQHVLVHVRVVAVLRLGKHGEADVAQRLDPGPHDVGALGCDVGEHGRLGLDALAGFGCGVFRTRDEPAADRVEAGAVGGGGAPAEDGAEAHVKVRRIPDQQEAVGAGLRARGVRVGHLVEVVHSRPASRFYFFTQRYSRMTWSLSRPLPSNLVITWRSVRSGASGQGHPLNSSIGSTSTSSSIHSA				NA	NA	NA	NA	NA
AK009_06486	345			hypothetical protein	TTGAATGGTCCGGAAGTCGCGCAGGGTTTGCTCCCCGTCGCCGGCAAGCCCGATCGCTGCGAACGCCTTGGTGCCGTCCTCGGTGATCTGCTGCGGGTTGGGGGTGGCGAAGTAGCTGCTTATGCTTTCGATTTCCTCCGGGAACTGGTCCCGCAGCGCCTCGATCTGGCGGTTCGCGGCGTCGAACACCTCACCTTCGGCGACCCCGTTAGGCGAGGTCACCAGGAGGATGACGTCACCGGAGTTGTCGCGGCCGAAGGTGTCCTGCTCGATCACAGCGGCGGCGGTGGAGTCGGCGCCCGGGTCCTCCCAGCCCTCCTGCGAGAGGCGGTCGGCGAGCTTTGA	MNGPEVAQGLLPVAGKPDRCERLGAVLGDLLRVGGGEVAAYAFDFLRELVPQRLDLAVRGVEHLTFGDPVRRGHQEDDVTGVVAAEGVLLDHSGGGGVGARVLPALLREAVGEL				NA	NA	NA	NA	NA
AK009_06487	525			hypothetical protein	GTGGGTCTTCGGCAGCGTCGTCGCCGCGGCGATGCCGCTGATCGTGGGCGTGCTCTCCATCGCCGGGTCGCTGTCGCTTCTGGCTATCCTGGCGCAGTTCCAGCAGGTCAACGTGTTCTCCCAGTCGGTGATCACGCTGCTGGGCCTCGGCCTGGCGATCGACTACGGACTGTTTATGGTCTCGCGCTTCCGCGAGGAGCTGGACAAGGGCCTCGACGTCGACGAGGCGGTCGCGGTCACCACAGCCACCGCCGGCAAAACGGTGTTCTTCTCGGCGCTCATGGTCGGCGTTGCGCTTTCGGGCCTGCTTATGTTCCCGCAGGCGTTTTTGAAGTCGGTCGCCTACGGCGCGATCGCCGCGGTGGTGCTCGCCGCGGTCATCTCCGTCACCGTGCTGCCCTCCCTGTTCGGTCTCCTCGGCCGGCGCATCGACCTGTGGTCGGTGCGCAAAACCGCGCGCGTGGGCCGGCGCATCGAAGACACCGTCTGGTACCGCATCCCGCGGTGGTCAATGCGCCACGCTAA	MGLRQRRRRGDAADRGRALHRRVAVASGYPGAVPAGQRVLPVGDHAAGPRPGDRLRTVYGLALPRGAGQGPRRRRGGRGHHSHRRQNGVLLGAHGRRCAFGPAYVPAGVFEVGRLRRDRRGGARRGHLRHRAALPVRSPRPAHRPVVGAQNRARGPAHRRHRLVPHPAVVNAPR				NA	NA	NA	NA	NA
AK009_06488	1476			hypothetical protein	GTGTGCGACGGGCCGCTCCACGTTGATCAGCAACTGCATGACGGCGGCCATGCACACGATCGACAGCAGCGCGCACGCGATGGCGACGGCGACGGGGGCGGCAGGGGCGTCGGCAAGCGCGCGGGCCGCCTCGCCGATAAACGAAAGCTCGTCGCGGAACACCAACGCGAGGAGCACGAGCACCGCGAGCGGGGCCAGCCACCTGACCCACCGCCACACTTGCGAGCGCACGGGTTAGCGACCGTCGCCGTGTTCGTCGTTAAGCCGCCTCATCAGCTCCTGGAAGGGGATGAGCTCGCGGTCGTCTGCAACGGACCTGCCGCCGCGCGCGGGTTGGTTGTCCACCACGGTGTCGGCGACTGCGATGTCACCATTGTGCAGCTCGGTGTGCGCGGCCTCCAGCGCGAGGGGCGCGAGGGCCGGGGAAAGGGCGTTCGCGCCGGCGGGGACGTGCTCGGAGTGTTCGCCGATCCGTGCGTAGACGCGCTTGACCCAGCGCGGGGCCCACCAGTTGTCCTCGCGCAGCAGGTGCATCACGGCGGGCACGAGGAGCAGGCGGATCACGGTGGCGTCGAGCGCGAGGGAGAAGATCATGCCGAAGGCGATGTACTTCATCATCACGATCTCGCTCATGGCAAATGCGGCGGCGACGACGATCATGATGGCAGCCGCGGCGGTGATGATCCCGCCGGTGCGCGCTGTGCCGTAGGCGATCGCGCCGTCGGTCGAGGCGTTGTTGTGGCGGGCCTCGACCATGCGCGAGAGCAGGAAGACCTCGTAGTCGGTGGACAGGCCGTAGAGGATGGCAATGATGAGCACCAGCACCGGGCTCATCAACGGCCCCGGGGTGAAGTCGAGCAGCCCCGCGCCGACGCCGTCGACGAAGACGAGGGTGAGGAAGCCCAGGGTCGCGCCGATGCCGAGCAGGTTCATGATCACGGCCTTCGCCGGCAGGATCATCGAGCCGAACAGCAGCGCCATGAGGATAAACGTCGCGGCGACCATATAAAGCGCCATCCACGGCAGGCGCGCGAGCAGCGCCTCGATGGACTCGACCTCCATCGCGGGTGTGCCCGAGACGTACAGCTCAACGCCCTCCGGGGCTTCAATCGCGCGCATTTGCTTGACGACGTCCGCCCCACCGTTGCGGTCCTCAAGCGGCGCCGACAGGATCGTCGTCCCGTCCTGCGTCGGGTGCGAGGGAGCAAGCGGTTTTGCCAGGCCGGTGATCTGGCGCGCCTGCATGACGACGTCGACAAGTTGCTGGTTATCCGCACCGGTGACCACGATCTTGACGGGGTCGGTGCGGAAGGCGGGGAAGGAGGTGTTGAAATCGTCCTGGGCCTGGCGGGTTTCCTGGCTCGGAGGCAGGTAGGTTTCGTTGATGCCGCCGAAGGTGATGCCGACCACCGGCACGGTGAGCAGGATCAGCAGCGCCGTGGTGCTCACGACAACGCCCTTAGCGTGGCGCATTGA	MCDGPLHVDQQLHDGGHAHDRQQRARDGDGDGGGRGVGKRAGRLADKRKLVAEHQREEHEHRERGQPPDPPPHLRAHGLATVAVFVVKPPHQLLEGDELAVVCNGPAAARGLVVHHGVGDCDVTIVQLGVRGLQREGREGRGKGVRAGGDVLGVFADPCVDALDPARGPPVVLAQQVHHGGHEEQADHGGVEREGEDHAEGDVLHHHDLAHGKCGGDDDHDGSRGGDDPAGARCAVGDRAVGRGVVVAGLDHAREQEDLVVGGQAVEDGNDEHQHRAHQRPRGEVEQPRADAVDEDEGEEAQGRADAEQVHDHGLRRQDHRAEQQRHEDKRRGDHIKRHPRQAREQRLDGLDLHRGCARDVQLNALRGFNRAHLLDDVRPTVAVLKRRRQDRRPVLRRVRGSKRFCQAGDLARLHDDVDKLLVIRTGDHDLDGVGAEGGEGGVEIVLGLAGFLARRQVGFVDAAEGDADHRHGEQDQQRRGAHDNALSVAH				NA	NA	NA	NA	NA
AK009_06490	390			hypothetical protein	GTGGATCAGACCCACCTTCTCCTGCTCCACACCTGGCAGGTAGCCGGGGGTGTCCACCACGAACACGAGCGGAATGTTGTAAGCGTCGCAGATGTGGATAAACCGCGCACCCTTGTCCGCGGCGTCGGCGTCGATGCAGCCGGCGTAGTGCATGGGGTTGTTCGCCACGAAACCGACCGTGCGGCCGTCGATACGCCCAAAGGCGCAGATGAGGTTCTCGGCGTAGTTGGCCTGGATCTCCACGACGTCCTCGTCATCGCCAAGCTGGACCAGCAGGTCCATCATGTCGTAGCCGGCGTTGGTGTCGTCCGGCATGAAGGTGTCGAGGTCGGAGTCGTCGAGCTCGTCGTCGGCGGGCGCCCACGCCACCGGGGCCTCGTCGAAAGTTGA	MDQTHLLLLHTWQVAGGVHHEHERNVVSVADVDKPRTLVRGVGVDAAGVVHGVVRHETDRAAVDTPKGADEVLGVVGLDLHDVLVIAKLDQQVHHVVAGVGVVRHEGVEVGVVELVVGGRPRHRGLVES				NA	NA	NA	NA	NA
AK009_06491	297			hypothetical protein	TTGGATACCGATCACCGGGCAGCCGATCTTGATGGCCATGTCCATGATCTCGGTGACTTTGCGTCCGAAGGTGACGCCGACGGAACCGCCGTAGACGGTTTTGTCGTGGGCGTAAATGGCCACGGGGCGGCCGTCGATACGCCCGTAGCCGGTGACCACACCGTCGGAGTAGACGGCGTCCGGGTCGCCGGGGGTGCGAGCGAGCGCGCCGACTTCGACGAAGGTGCCTTCGTCCAAAAGCGCGTTGATGCGCTGGCGCGGCGTGGTTTGGCCAGCGTCGTCGCGCCTCTTGCGTGA	MDTDHRAADLDGHVHDLGDFASEGDADGTAVDGFVVGVNGHGAAVDTPVAGDHTVGVDGVRVAGGASERADFDEGAFVQKRVDALARRGLASVVAPLA				NA	NA	NA	NA	NA
AK009_06492	1824			hypothetical protein	ATGCACGATTTCCAGGTCGTCGACGATGGCCCCCCAGCCACCGTCCTCGTCAATGTGGGCGTAGGCCGGCTCGAGGATGATCGCGCCCTCGTGCATCCGCTCCGCGCGGAACAGCAGCACCGGCACCTTCACCCCAGCCCAGCGGGCGAAGTCGAGGTTGCCCAGGATCTGGTTGTCCACGAACGATGCCCGCTGGTGCTCCAGCACACCGGCAGCCAACCCGTGGGCGGAGGCGTCGGTGGTGGCGAGGAACTCGCCGAGCATGTTCAACACGGCGTCCTCACCCGCGCTGTCGAGCAGGTCGTAGGGCACCGGGAAGTCGAGCCCGTAGGTGTCCTTGGCAAACTGCGCGTAGCGTTCCCAGCGCTTGCGCGTCTCCTCCTTCGTCTTCGGCGCGGGATTAGACGGCCGCGTGGTGTCCAGCAGCGCGATGAAGGCGACCTTGTCGTTGCCGAGCTGGTGGGCGACCTCGTAGGCCAGGGCGCCGCCGAAGGACCAGCCGGCGAGGACGACCGGGCGCCCGTCGGAAAGCCGCTCGATGTCGGCGACGTAGGCCGCGGCGCGCTCCTCGAGCGTGCCCTCAAGGCGCTCAATGCCGTAGACGGGCACGTCGCTGGCGAGGCGACGCGACAAGGGCTCGTAGACCGAGCTCGATCCCCCGGCCGGGTGGAAGACGAACACGCTTGGCTTATCGACGCCCTGCCCACGCTCCCGGAACACCCGCACGTTGCCGTCCACGGGCGTTTCCAGGCCCTCGCGGACCTTGTTGGCCAGGGTCTCGAGCGCGTCCGCGCCGCTGACCTCGGCTGCCGTGACCTCGATGCCGGAGCGCTCGGACAGGTGCGCGGCGATCTCGGCGGCGACGGCGTCGTCGATTGCCGGCAGCGGGGAGGTCACACCGGCAGCAGCTGCGCCGGCGTACTTCGCCCAGGCGCCGAACACCATGCGCTCGGAGGCGTCGCGCGGAGCAACGCCCACCCCAGTTGTCCCGGCGGCCTCGGCCTTGGCCACCTCGGAAGCGACGTCGCGGGTCGGCGAGTTGTCGGGGCGCGGCTGCGGGGCGCCGCTGTTGCCGGCGACGGCCTGCTCGACGATGCGGACCACGTCGGCCACGGAGGCGTCGCGAAGCGTCTGCACCTGCAGCGGCGGAATCTGGAAGTCGTTTTCGACGCGGTTTTTAATGCGCATGCCCATGAGCGAATCCAACCCGAGGTCGATCAGCGGCAGCTCGTCGGGCAGGTCATCGGCGTCGTAGCCCATCGTCTCGGAGACGATCGCGCGCAGGCGCTGCGCCACCGTTTCACCCGAGCTCGGGTCCCAGCGCACGGCGTCGACCTCCTCGACGCTGCGCAGCGGTGCTGCCTCGGCGGGCTCGGCGACCTCGGCCACACCCTGCGGCGAGCGCGGGCCCGCCAGATCGAGCGTGGTAGCGAAGCCTTCGACGAGCAGCGTGTCACCGCTGTAGACGGAAACGCTGGTGCCGCCGAGGGAGTGCGCCGCGAACGTGGTCAGCTCGCCGTGCGCGGGCAGGACCCCGTGCTCCTGGGTGGCCACAACGCTCGCGCCCGGGCTGACCTGCTCCGCCACGGCCTCGATGAGCTGGTGCGGGCTGTAGACCTGGTCGGCCTGCACCGCGTACGCCACCTTGCCGTCGGGCAGTGCGACCTTGGTGCCCAACAGCGACGCGCTGCCGGACAGCGGTCGCGCGGAGGTCCACAGGCGGTTGCGCTTCATCGTCGTCGCGGGTGCGGCAAGAAGCGGACCCGGACCGTAGAAGCCGGTGAAGTCCACGGGCACGCCCTGGACGTAGAGCTTGGCCGCTAG	MHDFQVVDDGPPATVLVNVGVGRLEDDRALVHPLRAEQQHRHLHPSPAGEVEVAQDLVVHERCPLVLQHTGSQPVGGGVGGGEELAEHVQHGVLTRAVEQVVGHREVEPVGVLGKLRVAFPALARLLLRLRRGIRRPRGVQQRDEGDLVVAELVGDLVGQGAAEGPAGEDDRAPVGKPLDVGDVGRGALLERALKALNAVDGHVAGEATRQGLVDRARSPGRVEDEHAWLIDALPTLPEHPHVAVHGRFQALADLVGQGLERVRAADLGCRDLDAGALGQVRGDLGGDGVVDCRQRGGHTGSSCAGVLRPGAEHHALGGVARSNAHPSCPGGLGLGHLGSDVAGRRVVGARLRGAAVAGDGLLDDADHVGHGGVAKRLHLQRRNLEVVFDAVFNAHAHERIQPEVDQRQLVGQVIGVVAHRLGDDRAQALRHRFTRARVPAHGVDLLDAAQRCCLGGLGDLGHTLRRARARQIERGSEAFDEQRVTAVDGNAGAAEGVRRERGQLAVRGQDPVLLGGHNARARADLLRHGLDELVRAVDLVGLHRVRHLAVGQCDLGAQQRRAAGQRSRGGPQAVALHRRRGCGKKRTRTVEAGEVHGHALDVELGR				NA	NA	NA	NA	NA
AK009_06493	513			hypothetical protein	GTGCCCGGCGCACAGGGCCGCTTCCGTGGCGTCCTGGAAGAAGACGGGTTGGCGGGTCATGCTCAGGAAGTACTCGTCGTTGTGCACCGTCTCGCCGGCGGCGTACACCACGCCGCGGTCCACGGAGGAGTACAGGGGCACGCGCAGCGGCTGGCCGGTCAACCCGGCGAGCTCACCGGCGAGTTCGCCCATAATGGGATCAAGCATGCTCGTGTGTCCCGCGCCCTTGACCTGCAGTTTGCGGGCGAACTTCTCCTCGGCCTCAAGTGCACCAACCAGCACGTCGACCGCCTTTGCGGGCCCGCCCACAGTGGTCATGCCGGGTCCGGCATAGACCGCGGGCTCCACGCCCTCGGCCTCGGGGTGGGTGCGCACGAACTCGGCAAGCTCCTCGCGCCCGAGCTCGACGACGGCCATCGCACCCTCGGCATCGGTGCCGGCGATCTGCTCCACGCCCTCGTTCATCAAACGGGCACGGTGGCACGCGATGCGCACGGCCTCTTCACCCGTTAA	MPGAQGRFRGVLEEDGLAGHAQEVLVVVHRLAGGVHHAAVHGGVQGHAQRLAGQPGELTGEFAHNGIKHARVSRALDLQFAGELLLGLKCTNQHVDRLCGPAHSGHAGSGIDRGLHALGLGVGAHELGKLLAPELDDGHRTLGIGAGDLLHALVHQTGTVARDAHGLFTR				NA	NA	NA	NA	NA
AK009_06494	1020			hypothetical protein	GTGTTGCGAGCCGAATCCGGAGTAGACGAACACCGGGCCGACGGGCGCCGGGGAATCGGCCACAGCGATACCCGGCCCGGTCTTGCCCTCGGCGACCTGGCGCAGCCGCTTGACGGCTTCTGCGATGCCCGCCGCCTGGACAACCGCAGCGGAGCGGGCGTGGTTGCGCTTCGCCAGCGAGCGCGCAACGGGCACGAGGTCCGCGTCCTTGCGGCCCTCAAGGTAGTCAGCCAGGGCGGCCGCAGCATCTTTGCGTCGCGACGGCAGGTGGCCGGAGACCGGCAGGGCGACCGCGGCGCTGTCGCTGTGGGCGCCGACAAGCTCAGCTGGCGTCGAAACAGGTTCCGAGGAGTAATCGGCGGGGTCGAAGTCACTCACCACAACGTGGGCGTTTGTACCGCCGAAGCCGAAGCCGGACACGCCCGCGATGCGGCGGCCCGAGTAGCGCGGCCACTCGCGCGGGTCCTGGACCACCTCGATGTGGGCGGCGTCGAAATCGACGTACTCGTTCGGGGCGGTGTAGTTCACCGACGCCGGGATGGCGTCGTTCTTGAGTGCTTCGACCACCTTGATCAGGGCGGCTGCGCCCGCGGCGGACTCGGAGTGGCCGATGTTCGATTTCGCGGAGCCGAGCAGCAGCGGGGCGGCGTTCGTGCGCTTTTGCCCGAGCACGGCTCCGAGGGCGGTGGCCTCAATCGGGTCGCCGAGGATTGTGCCGGTGCCGTGCGCCTCGACGAGATCGACCGTGGCCGGGTCGATGCCCGCATCCGCGTACGCGCGGCGCAGGACATCGACCTGGGCCTCCGGGTTCGGTGCGGTCAGCCCGTTGGAGTGCCCGTCGGAGTTGGTGGCCGAGCCCTTGATCACACCGTAGATTGTGTCGCCGTCGTTCATCGCGTCGTCAACGCGCTTGAGCACGAGGAACCCGGCGGCCTCCGAGCGCACGATGCCATCGGCATCGGCGGAAAACGCGTGGATGCGCTCGGTCGGGGAAATCACCCCGAGCTCGGAGAACATTAG	MLRAESGVDEHRADGRRGIGHSDTRPGLALGDLAQPLDGFCDARRLDNRSGAGVVALRQRARNGHEVRVLAALKVVSQGGRSIFASRRQVAGDRQGDRGAVAVGADKLSWRRNRFRGVIGGVEVTHHNVGVCTAEAEAGHARDAAARVARPLARVLDHLDVGGVEIDVLVRGGVVHRRRDGVVLECFDHLDQGGCARGGLGVADVRFRGAEQQRGGVRALLPEHGSEGGGLNRVAEDCAGAVRLDEIDRGRVDARIRVRAAQDIDLGLRVRCGQPVGVPVGVGGRALDHTVDCVAVVHRVVNALEHEEPGGLRAHDAIGIGGKRVDALGRGNHPELGEH				NA	NA	NA	NA	NA
AK009_06495	624			hypothetical protein	GTGCGGGCTGGCCATGATGTTGACACCACCGGCAAGGGCGACGTCGCACTCCCCGTCGCGCAGCGCGCGGACCGCGTGGTGGGTGGACACCAACGACGCCGAGCAGGCCGTGTCCACGCTGACAGAGGGTCCGCGGAAATCAAAGGCGTAGGAGATACGGTTCGGGATGATCGCCGAGGACGCGCCCGTCAGTCCGTAGGGGTGCGCCGTGGTGGGGTCCGAGGACATGAGAAGGCCGTAATCGTTGTTCGAGGAACCGACGAACACCCCGACGGGGGCACCCCGCAGGGAGCTGGCGGGAATGTGCGCGTCCTCGAGCGCCTCGAACGCCAGCTCCAGCATGATGCGCTGCTGCGGGTCCATGTTCTCGGCCTCGAGCGGGCTGAGACCGAACATTTCGTTGTCGAAGGACGCGATGTCGCTCAAATACCCGCCGGCGGTGCTTTCGTCCTCCAGCTTGGTGCGCATGAGGGGGTCGGCCAGGTACTCCGACCAGCGCCCCTCGGGCAGGGGTCCGGTGGTCACCTGGCCGTCGATAAGCAGCTGCCAAAACTCGCTGACGCTGTCCGCGCCGGGGAAGCGGCCCGCGGTGCCGACGATGGCGATGTCGCGGGTGCCCGGTGA	MRAGHDVDTTGKGDVALPVAQRADRVVGGHQRRRAGRVHADRGSAEIKGVGDTVRDDRRGRARQSVGVRRGGVRGHEKAVIVVRGTDEHPDGGTPQGAGGNVRVLERLERQLQHDALLRVHVLGLERAETEHFVVEGRDVAQIPAGGAFVLQLGAHEGVGQVLRPAPLGQGSGGHLAVDKQLPKLADAVRAGEAARGADDGDVAGAR				NA	NA	NA	NA	NA
AK009_06496	291			hypothetical protein	ATGATCCGCGCGATTGCGCGCGGCCTGATACTGCGGAGCGTCCGGGGTCTTCTGCGCGGTCAGCGCGGCAGCCAACGAAGCGATCGTCGGGTACTGGTAAGCGATCGTCGGATCGATCCGCGTGCCAAGCAGATTCTCCAGCTCACCCGACATGATCACAGCGTCGCGCGAGGACAAGCCGAACGTTTGCATGGGCTTGGCCGGGTCGATGTCGGCGATGTCGGCTCCCGTGGTCTGGGCAACCCACTCGCGCAACCAGGTGATCAGCTCAGTTTCGTTCATAAGCATTGA	MIRAIARGLILRSVRGLLRGQRGSQRSDRRVLVSDRRIDPRAKQILQLTRHDHSVARGQAERLHGLGRVDVGDVGSRGLGNPLAQPGDQLSFVHKH				NA	NA	NA	NA	NA
AK009_06497	750			hypothetical protein	GTGGTCGGTGGCCTCCATCACGGTGGCTTCGATGTCCTGCGGGTAGTGGTTGCGCCCGGCGACAACCACCAGCTCCTTGAGACGGCCGGTGATGTAGACCTCGCCGTCGTAGATGGTGCCCAGGTCACCGGTGGCAAGCCACGAGTCGCGCGGCAGGCCCTCGCGCAGCGTCTCGTTGATGGAGTTGTCGAAGGAATCCTTGGTTTCTTCCTCGCGGTCGAGGTAGCCCCCGGCAACGTTGGCGCCGTGGATCCAGATCTCGCCGATGGAGCCGTCCTCGAGCTCGTTGCGGGTTTCCGGGTCGACGATCGCAAAGTCCATCCAGCGCACCGGGTGGCCGGTCGAGGCCATGGCCAGGCCGTCTTCGGCTTCCACGGCGCGGCCCAGGGCGAGCTGCTCGCGGTCAAACCTGGTAAACCGCGGCTCGTCGGCGAGCGTGACAATCAGCGTCGCCTCGGCCAGGCCGTAGCCGGGACGAAGCGAGTCGCGGCGCATACCGGCAGGCTCGAAGGCCGCCATGAACGTGTCCACACCGGCCTGGGTGACGGACTCGGAGCCGATGATCAGCCCCTCGACGCCGGACAGGTCAATGTCGTCCGATTCGGTGACCGGGGCGTAGCGTGCGGCGACGTCGAGGGCGAAGTTTGGGATCACCGAGTAGACGTGCATGTCGTTGGGCTCGTCTGCGCGGCGTGCCAGCTGTTTGATGAAGCGCTTCGGCTGCTGGATGAAGTCACGCGGGGCCATTAG	MVGGLHHGGFDVLRVVVAPGDNHQLLETAGDVDLAVVDGAQVTGGKPRVARQALAQRLVDGVVEGILGFFLAVEVAPGNVGAVDPDLADGAVLELVAGFRVDDRKVHPAHRVAGRGHGQAVFGFHGAAQGELLAVKPGKPRLVGERDNQRRLGQAVAGTKRVAAHTGRLEGRHERVHTGLGDGLGADDQPLDAGQVNVVRFGDRGVACGDVEGEVWDHRVDVHVVGLVCAACQLFDEALRLLDEVTRGH				NA	NA	NA	NA	NA
AK009_06498	513			hypothetical protein	ATGTCCCGGCTCGTTGGGGTCATAGAGCGGGATCGGGACCTGGCTGGCGTACATCGCGCCCATGAACCCGAACAGGTACTCCGGGGAGTTCGACGCCAGGATGGCGACGCGATCGCCGGGCTCGCCGACCTGCATGAGACGCGCGGCCACGGCCTTGATGCGAGTGTTGACCTCGCGGCGGGAGTATTCAACAACCGTGCCCTCCGCACTCTCGGAGTAATCCCAGTAGCGGATGTTTGTGTCATCGATGTTGCCCATCTGGGCACCCATGAAGTACAGCATCTCGGTCAGTGCCGGGATGGTGAAGTTTTGGGGGAGGACGATGTTTCCGTCTTCGTCGATGAAGCGCTGGATGATGACTCCGAGATCCATGGGACTCCTTTGCGTGAGTTTCGGCGGGCGGGGTGTGTAGACCCATTACTATATAGTTTCGTTATCAAAATTGTTACCTTGAGCGCAACTCCTCGTCGATCACGCCACGCGCCCAATCTACCGTCCATTGCGGAGCCGTAG	MSRLVGVIERDRDLAGVHRAHEPEQVLRGVRRQDGDAIAGLADLHETRGHGLDASVDLAAGVFNNRALRTLGVIPVADVCVIDVAHLGTHEVQHLGQCRDGEVLGEDDVSVFVDEALDDDSEIHGTPLREFRRAGCVDPLLYSFVIKIVTLSATPRRSRHAPNLPSIAEP				NA	NA	NA	NA	NA
AK009_06499	831			hypothetical protein	GTGCGTGCCGTTAGCCAGCATCAAGTCGCCCGCGCGGGCAATCAAAGTGCCGATATCCTGAGGCGCGTCGCAGATGGAGTCGTCGGGCGCGCAGATCTGAAACGCCCAGTCGGAGACCTCGCCGAAGCCGCCCGGGCGCGGCCCGCGCATCGTCGCACCCGGGGTCACTGCCCCGACAACCCCCTGGACGGGTTGCAGCGCGATCTCCGCGCCAACGCCCGGAAGCTCGCCGCCGGGATTTATGCCCACACCGTTTTCCCGGCGCCCGTCAGCGATCATCACCGCACCGAGCAGCTTCTCCGGCGGCACCGGGTGGTTACGCGTGCCAATCTGGTTAGCAATGTCGCCGGCGATCACCGCGCCCTGGGAGAACCCGGCGATGATGAACTTCGTGCTGGGGCAGGTGGCGTTGACGAACTCGAGCTCGCCGTTGGTGCGCACCGTGCCTTCCTCGCGGGACTGGTCGTAGGTCATCTCCTGGCGGCCCTGTTTCGACTGGATGTTGCGGAACTGCGCGGTGTACGGGGTCGTCCACACGCGCACCTGCCCGATGTCGTAGGCCTCCTGGAGAGGTCGGCTGATCGAGAGCATGAAGCTGTAGGGGTTCGCCTGCGGGTTGAACGGGTCGTCGTCAGGCGAGCTCTCCCACGTGCCCGGAATCGAGACGAACTGCACCGCGGGGCACCACTCGGGTTCCGCGGGTGGCTCCGGCGAGTCGTCGGTCGGCAACGCAATCGGCGGCTCCGGCAAGGTCGGCCCCTCACCGGAGCGCCACTGGGCGATGCCCATCGCGATGAGGATCACCACAATGACGACGGAGACGACGATTAA	MRAVSQHQVARAGNQSADILRRVADGVVGRADLKRPVGDLAEAARARPAHRRTRGHCPDNPLDGLQRDLRANARKLAAGIYAHTVFPAPVSDHHRTEQLLRRHRVVTRANLVSNVAGDHRALGEPGDDELRAGAGGVDELELAVGAHRAFLAGLVVGHLLAALFRLDVAELRGVRGRPHAHLPDVVGLLERSADREHEAVGVRLRVERVVVRRALPRARNRDELHRGAPLGFRGWLRRVVGRQRNRRLRQGRPLTGAPLGDAHRDEDHHNDDGDDD				NA	NA	NA	NA	NA
AK009_06500	234			hypothetical protein	GTGCGCGGAGTCGTCGATAAGCGTAGAGACGGTGTCGGGAGCGAGCTCGGTGCGACGCTGCTCGATGAGCTGCCCGGCTACCGCGTCACGAGTGATGGTACTTCCGTCGCAGACACTAACCCCAGTGGCTGTGAGTTGGGCTTCAACCCCTTGGACGTTGATGCCCTGGTTCCTGAGCGCTTCCAGGTAAGCGTCTTCCTCAGGGGTGAACGCCGGGCCCTGCTCGGGCACTGA	MRGVVDKRRDGVGSELGATLLDELPGYRVTSDGTSVADTNPSGCELGFNPLDVDALVPERFQVSVFLRGERRALLGH				NA	NA	NA	NA	NA
AK009_06501	750			hypothetical protein	GTGTGCGCCGGTGGCCGGCGACCAGTAGATGTTGCCCTTCTCAAACTGCTGGAACGCGCCGCCCGGGATGGCGATCTCGTTGCTCCTCGGGTACCCGAGCGGGGAGGCGGCGGTGTTCATCTCGCCGTACTTCGCGCCGATCGCACCGTGGAGAATGTTGTGGCTTCCGTCCGGGTTGCGGGTGAGGTAGCCGTTTTGGAACTTCTGCACGTAGCCGTCGCCGATCTGCTTCGCCTCGGCGACCGGGTAACCCAGGTCGCCGCGCTCGTAGCCGTTTTCGCCCCAGGCCGTGAACATGTCGCCCGGGATGGCGTACGCGCCGGTGGACGGGGTCCAGTAGATCGAGCCGTTCTGGAAGTGGACGTAGCGCCCCACCCCGTCCGGGGTGGTCATCTCGCCGGTCTTGGGGAAGCCGAGCCAGCCCTGCGGGCCACCGAGGCTGTTGTACTTGGCCAGGATAGCGCCGAAAAGCGCGTGCGCCCCGGTGTCCGGAGTCCAGTACGCGGTACCGCCGCGGAAGTCCTCGGCCTTACCGTCGGCGATGTCGTACTCGTTGTTGACGCACGAGCCGATGATGCCGGACTTGGTGGCCTCGGCGATCGCGCCGATGGGCGCGCAGTCTGCGCCGCGATCGTCCTTGGACAGCCCGAGCGAATCCGCGATGTACGGCCACGCCTGGACCATCTCGAACTGCCAATACTCCCAGGAGTGAACGCCCGAGGGACGGAAGTGGACGATCGGCTTGACTGA	MCAGGRRPVDVALLKLLERAARDGDLVAPRVPERGGGGVHLAVLRADRTVENVVASVRVAGEVAVLELLHVAVADLLRLGDRVTQVAALVAVFAPGREHVARDGVRAGGRGPVDRAVLEVDVAPHPVRGGHLAGLGEAEPALRATEAVVLGQDSAEKRVRPGVRSPVRGTAAEVLGLTVGDVVLVVDARADDAGLGGLGDRADGRAVCAAIVLGQPERIRDVRPRLDHLELPILPGVNARGTEVDDRLD				NA	NA	NA	NA	NA
AK009_06502	1014			hypothetical protein	GTGGTCGATCCAGTCCTGCGACCCGACTGGGCCCCACATGGCCAGGGAGTCGTACCCGCCGGCATCCATCTGTGCCGCCTGAATGGCCTGGGGCATGCCCGTCGTGGTGGTGTCCAGGTAGCCGGAGAAGGAGCCGACGAAGTCGAACAGGTGGGGGTTGCGCTCCGCGAGGTTCATCGCGGCGGTGCCGCCCATGGAGAGGCCGACCACGGCTCGCTTGCCGTTGGAGCGGAACTCGTTGTCGAGGATCGGAACGAGTTCCTTCGTCAGGAAGGTCTCCCACTTGTAGTTCTTGCCGTTGTTCGGGCGCTGCCAGTCGGAGTAAAAGGAGGATTCGCCGCCGACAGGAAGGACGACGTTGACGTTCTTATCGGCGTAGAACTGCTCGATGTTCGTCTCGATGGTCCATCCGTTTTCGTCGTCACGCGCGCGCAGCCCGTCGAGCGCCCAAACCTCGGGGAACGTCGCCTCCGGGTTGGAGTGCCAGTCGCGGGCGAGCAGGATCTGCACCTGCATGAGCTGCTCCGGCATCGCCGCCGACTTGATAAAGACGGCGACGCGGCGGTTGGTCAGCCACTCGATGCGGTCGACCGACACCCCGGCGGGAAGGCCCGGGATCTGCGGATTCCTGTCCACCTCGATGGGGGTGCGCTTCGGCGGGTCGGACGGGCGGATGTTGTCGGAGAATCCCGAGCTCGACAGCCCCGGCAGGCTGTTTTGGGCGACAGCGGGAGCCGCGGATGCGCCGACCACCAGCGCGGTGGGGATTGCGGCCGCGATGAGCCAGTTGCGGCTCTGAGTGAGACGCGGGGAACGAAGTTCACGCATGAATATCCTGCCTTTTCCTGTTTGTGGGTCCGTGAAAGGTACGTCATGCGCCCGTTCCGGGGGTTCCCCTCCCCCGGTACGCATGCACAACGAGTTAATCGGTCGCACCGGTGTACTTGTTACGGTACTCGAAAGCTTAAGTTTTACTTGAGAGTTTATACGTGTGACACGCCGCAACCAATGTGA	MVDPVLRPDWAPHGQGVVPAGIHLCRLNGLGHARRGGVQVAGEGADEVEQVGVALREVHRGGAAHGEADHGSLAVGAELVVEDRNEFLRQEGLPLVVLAVVRALPVGVKGGFAADRKDDVDVLIGVELLDVRLDGPSVFVVTRAQPVERPNLGERRLRVGVPVAGEQDLHLHELLRHRRRLDKDGDAAVGQPLDAVDRHPGGKARDLRIPVHLDGGALRRVGRADVVGESRARQPRQAVLGDSGSRGCADHQRGGDCGRDEPVAALSETRGTKFTHEYPAFSCLWVRERYVMRPFRGFPSPGTHAQRVNRSHRCTCYGTRKLKFYLRVYTCDTPQPM				NA	NA	NA	NA	NA
AK009_06503	756			hypothetical protein	ATGTTTGCGAGAGATGAGGTTGAGCATCCACTGTCGAGGCACAAGCCGCGACACCGGAAACGCCAGCCACGCTGCCGATCCGCACGCATAGAACGGCTTCGGCTTATCCGCCTCAACTACCTGAGCAATTTGCTTAGCGACGCGCTCGGCACTGATCCCGGAGCGCTCGTTGGCGTCGAGTTGCTCAAGCATCCTGGAAAACTCCTCGACGAACGGCCCGCCCTCGTCGACGTACTTGGTGCGGCGCGCGGACAGGCCCGTGGCGATGGAGCCGGGCTCGACGACGCTAAACCACACCCCGAACGGCGAGTACTCGCGCCGCGCCGCAAGCGCGAAACCCTTGATCGCGGCCTTGGAGGCGACGTAGCTGGAACGGTACGCCAGCGGGAAGCTGCCCAGCATCGAGCCGACCATAACCACTCGACCGCGCCCGGCGTCGCGCATTGCGGGCGCGAGGCGCTGGGTAAGGTCCACGTGCCCGATCACGTTGACTTGGAACAATCGCTCGAGCGCTTCGCGCGGCAGCTCCTCGAACGGCCCCGACTGCGACTCCCCCGCGTTGTTGGCCACAACCTCGGGCGTGCCCACAGCGAGGATCTCTTCCGCGCAGCGCTCGATCGAGTCAGGGTCTTGCAGGTCACGGCCGAGGTAGGTCACCCCGGCAATCGCGTCGGAGACCGACTCCGGATTCCGGGTTGTGCCAATGACGTGGTAGTCAGCGCAAAGCCGCTGCGCTGTGGCGCGGCCGATTCCTGA	MFARDEVEHPLSRHKPRHRKRQPRCRSARIERLRLIRLNYLSNLLSDALGTDPGALVGVELLKHPGKLLDERPALVDVLGAARGQARGDGAGLDDAKPHPERRVLAPRRKRETLDRGLGGDVAGTVRQREAAQHRADHNHSTAPGVAHCGREALGKVHVPDHVDLEQSLERFARQLLERPRLRLPRVVGHNLGRAHSEDLFRAALDRVRVLQVTAEVGHPGNRVGDRLRIPGCANDVVVSAKPLRCGAADS				NA	NA	NA	NA	NA
AK009_06504	876			hypothetical protein	GTGCACACCGGTCGGGGTGTAGACCTCGGTGAAGTTGATGCCGGAGGCGCGGGCTTTCAGCCCCCACAGGCGGGTGGTGAAGTTCGAGTACGCCTCCAGCGCAACGCCCGAGGCGATGTGCTGCGGCAGGTAACCCGCGTCACCCGGGCCCGGCACGGCCGCGCCCGCGGAAACGTAGACGTCCGAGTTACGCAGGCCATCCATGTTGAGGAACGGGTCGTTCTCAAAGCGCTCCGGGCTCAAGATCGAGCCGTACATCGCGTTGATGTTGAAGCCGCCACCGTCGAGAAGCGCCAGGCGCAGGGCGGTCTGGCCACCCGGGATCGTTGTGGCGAGGTAGCCCGAGAAGGACAGGACCTGGCGGAACTGATCCGGGTGCTTCGCCGCGAGGTTCATCGCGGCTGTGCCACCCATGGACAGGCCGAGGATGGAGTTGTTGTTCGGCGCGACCCCGAAGTGCTGCTGCAGATAGCCGGGCAGCTCGGAGGTGAGGAAGGTCTCCCACTTGTACACGACCGGGTTGTTGAAGTCGTACGTCGCCGGGGCCCTCCAGTCGGCGTAGAAGGAGGACTTGCCGCCGACGGGCATCACCAGGGTGATGTTGGAGTCGACGTAGGTCTGCGCGGCGTTGACGTCGCTCAACCACGCGTTGGTGTAATCCGTCGCGCGCAGCCCGTCGAGCAGGTAAAGACCGGCGTTGCCGCCGCGTGCCGCCGGCTGGATCTGGACCGGGATGTTGCGACCCATCGAGTCGGACCACACGTCGCAGCGCTGCACCCAGTAATTGACCGGGTCCCACTCGCAGGCGCCGGTCGCGTCGGCGCGCAGCCAGTCCCGGTTCGCCGCGTGGGCTTTCGGGGCAGCGACAATCATTGA	MHTGRGVDLGEVDAGGAGFQPPQAGGEVRVRLQRNARGDVLRQVTRVTRARHGRARGNVDVRVTQAIHVEERVVLKALRAQDRAVHRVDVEAATVEKRQAQGGLATRDRCGEVAREGQDLAELIRVLRREVHRGCATHGQAEDGVVVRRDPEVLLQIAGQLGGEEGLPLVHDRVVEVVRRRGPPVGVEGGLAADGHHQGDVGVDVGLRGVDVAQPRVGVIRRAQPVEQVKTGVAAACRRLDLDRDVATHRVGPHVAALHPVIDRVPLAGAGRVGAQPVPVRRVGFRGSDNH				NA	NA	NA	NA	NA
AK009_06505	333			hypothetical protein	TTGCTTATCGACGCCCTCCGGCAGCGCATCAACATCCACAGCGGTGTCCGCGATCTGCCACGTAAACGGCAGCCACTTGTCGTGGCCGATGCGCCCCTCCGGGTCGCGGGGCATGCGTGCGGCCAGCGGCGTGGCCAGTCCCACGGTGTCGAGCACGCGCGTGTCAAGGCCCGAGTTCATGCTGGTCATACCAAGGTTGAGCAGGTAGAGGCTCAGCGGCAGGTTGTTCAGATCGGTTTGCGCCTGCGTGCGCGGGCGGGGGTACCAGAAGAAGGTTGCCGGCTCCTCGTCGGTTTGCCCAATTTCCATCTGCGCCGCGTTGAGTCGGTGTGA	MLIDALRQRINIHSGVRDLPRKRQPLVVADAPLRVAGHACGQRRGQSHGVEHARVKARVHAGHTKVEQVEAQRQVVQIGLRLRARAGVPEEGCRLLVGLPNFHLRRVESV				NA	NA	NA	NA	NA
AK009_06506	585			hypothetical protein	GTGTTTCGTGGCCCAGGCCCAAAATCCCCGTTCGTCCACAATCCAGGTCCCGTCTGGGGCGAGCGAGTCCGGGTCGTACGGGTGCGACTTTGCCACGATTGCGCCCGCCCACAGCGCCACAACCAGCACCACCGCACCGATGCGGCGCGTCAGTGGGACAACCATCACCGGCAGCAGAAGGGCAAACAGCGGCAGCAGCAGCATGCGGCCGTGCATGAAGTCGCCGCCGACACGCAGTACGTAAAGGACGTGGACCACACCGCACCCCAGCGTGAGGAGCACGATCGTGCGCTCGCGACCGTGGGCGCCGCGCATCAACACGATGCCGATCGCCAGCACAGCGGCAATGACCAGCCACAGAGCGTACGGACCGACGAAATCCCACAGGTAGACAAACCCCTGCCCCCAGGCGGAGTCAGACGCCGACTTGGCCACCGCGGTGTGCGGGGTGAGAAGGCCGTAGTAGCCCATCCGGAAAATTTGGTAGGCCGCCGGAAGCGGAATCGCCACCAACAAAATCCTCCACCACTTGCCTGGACTCGCGGCCAAAAGCACGATGCCCGTCACACCGCCGTAGAGTGCTAG	MFRGPGPKSPFVHNPGPVWGERVRVVRVRLCHDCARPQRHNQHHRTDAARQWDNHHRQQKGKQRQQQHAAVHEVAADTQYVKDVDHTAPQREEHDRALATVGAAHQHDADRQHSGNDQPQSVRTDEIPQVDKPLPPGGVRRRLGHRGVRGEKAVVAHPENLVGRRKRNRHQQNPPPLAWTRGQKHDARHTAVEC				NA	NA	NA	NA	NA
AK009_06507	645			hypothetical protein	ATGGACGCGACGTTGGATCAGCGACGACGGCCTGATCGTGCTGCGCACCGTGCGCAACATCCTCGTTGGCAACGGCCCCGTCTTCAACGTCGGCGAGCGGGTGGAAGCGAACACGTCGACGCTGTGGCAGTACGCGATCAGCGCCGCCGCCTGGTTAACGGGCGCGCGGTTGGAAGCCGTCGCTATGTGGCTCGCACTCGCCTTCACCGTCGCCGCCTGCGCAGTAGCGACCTGGGCAACGGGCCGCTTCTGGGCGGATACGGTGTTGCCTTTTGGCGTCATCATCTACCTCGCCCTGCCCCCGGCGCGCGACTTTGCCACCTCCGGGCTGGAGTGGGGCCTATCCATCTTCTGGTTCGCGGTGTGGTGGGCGTTGTTGGTCCGGTGGGCGCGCCCGGTCGGCGGGGTGCAGTCCACGCAGGTGGGCTACTTCCTTGCCTTCTGGTGCGGGCTGTCGTGGCTGGTCAGGCCCGAACTAGCACTCTACGGCGGTGTGACGGGCATCGTGCTTTTGGCCGCGAGTCCAGGCAAGTGGTGGAGGATTTTGTTGGTGGCGATTCCGCTTCCGGCGGCCTACCAAATTTTCCGGATGGGCTACTACGGCCTTCTCACCCCGCACACCGCGGTGGCCAAGTCGGCGTCTGA	MDATLDQRRRPDRAAHRAQHPRWQRPRLQRRRAGGSEHVDAVAVRDQRRRLVNGRAVGSRRYVARTRLHRRRLRSSDLGNGPLLGGYGVAFWRHHLPRPAPGARLCHLRAGVGPIHLLVRGVVGVVGPVGAPGRRGAVHAGGLLPCLLVRAVVAGQARTSTLRRCDGHRAFGRESRQVVEDFVGGDSASGGLPNFPDGLLRPSHPAHRGGQVGV				NA	NA	NA	NA	NA
AK009_06508	1104			hypothetical protein	TTGGCTGTTAAGCAACCCCGGGAGCAACTACCTCAGAGCAGGGATGACGTAAACGGCCATCACAATGCAGAGGATCCACGCCAGGGCGAGCAGCTGGAGCACGCGGTCTTCCAGCGCGATCTCGTCCGGGGCGCCGCCGTGGCCGGAGTCGACCTTCGCGGCGTAGCGCAGGATCGCGATGACGAACGGCACCATCGAAATCTGGTACCAGATCGACGCGGCGCCGTTGATCGCGTTGGCGAGTTGGAAACCCCACAGCCCGTACGACATCACCACGGCGGTCGCGGACAGAGTCCACACAAACCGCAGGTAGGTCGGCGTGTAGCCTTCAAGTGCCTTGCGGATCTTCACGCCAGTCTCCTGCGCGAGCAGCATCTCCGCGTAGCGCTTGCCGGAGGCCATGAACAGCGAACCGAAGGCGGCGACCAGCAGGAACCACTGCGACAGGTCAATCCCTGCCGCGACGCCGCCGGCCATGGTGCGCAGCATGAAGCCGGAGGACACCAGCGCGATGTCGATCACGGGGATGTGTTTCCAGCCGAAGCAGTAGCCAAGCTGCAGCACGATATAAATGCCAATCACCCACGCCAGGGCGGGGTCGGTGGCGAGGAAAGACAGTCCGATCGCCGCGACGATGAGCACGACAGCCATCGAGTACGCGAGGTTGATCGGCAGCATGCCCGAGGCGATCGGGCGGAACCGCTTGGTGGGGTGCTCGCGGTCGGAATCGACGTCGCGCGCGTCGTTGACCAGGTAGATCGCGGAGGCGCCAAAGCAGAACACCACGAACGCGATGAGGACGTCGATAAGCGAGCGCGAGGTCAAGCCGTCGAGGCCAGCGGCGAGCGGGGCCGCGAGGACGAGGACGTTTTTGACCCACTGCTTGGGCCGCAGGCCCTTGATCATCGCGTCGGCGAGGTTCTTCGGCGGCGTCTTTTGGCGCGCGATGTCGACGCCCTCGGTGTGGGGTTCGGACTTCAGAAACGGCTCTTCATGGCCAGGCGTCGGGTTGACAGTGCTCACCGTGTCTCCTTCTCCAGGCCAATGGCCACTTTCGCTACCCTGGCCCCGATGAGGGACCCGATCAAGGTGTCTGTCGGGTAA	MAVKQPREQLPQSRDDVNGHHNAEDPRQGEQLEHAVFQRDLVRGAAVAGVDLRGVAQDRDDERHHRNLVPDRRGAVDRVGELETPQPVRHHHGGRGQSPHKPQVGRRVAFKCLADLHASLLREQHLRVALAGGHEQRTEGGDQQEPLRQVNPCRDAAGHGAQHEAGGHQRDVDHGDVFPAEAVAKLQHDINANHPRQGGVGGEERQSDRRDDEHDSHRVREVDRQHARGDRAEPLGGVLAVGIDVARVVDQVDRGGAKAEHHERDEDVDKRARGQAVEASGERGREDEDVFDPLLGPQALDHRVGEVLRRRLLARDVDALGVGFGLQKRLFMARRRVDSAHRVSFSRPMATFATLAPMRDPIKVSVG				NA	NA	NA	NA	NA
AK009_06509	504		COG0671	Putative decaprenylphosphoryl-5-phosphoribose phosphatase	ATGAGCAAGCGTGAGGCTGACATCCTCGTCGCCGTTCAAAAGGCGCTGCTCAGCGACCGCGTCGCCGCTGGGGCACGGGCGTTGAGCCATTTCGGCGAGCACGATCTGGGCTGGCTGGCTACGGCCGGCGTTGGGGCGGGCGTCGATAAGCGAAACCGCCGTAAGTGGGCAGCGATGGCCGCGGGCACCTTCACCGCGCACGCGGTATCGGTGGTGCTCAAGCGCATCGTGCGCCGCGCGCGGCCGAGCGATCCGCGCATCACAATCGGGGTGTCCACCCCATCGCGGCTCAGCTTCCCGTCCTCGCACTCCACCTCGACGGCCGCCGCGATGGTGCACCTGGCGGACATTTCTGGCTCGAAGGTGCCGTATGTCGGCATTCCGATCATGATGCTTTCGCGTATGGTGCTTGGCGTGCATTACCCGACAGACACCTTGATCGGGTCCCTCATCGGGGCCAGGGTAGCGAAAGTGGCCATTGGCCTGGAGAAGGAGACACGGTGA	MSKREADILVAVQKALLSDRVAAGARALSHFGEHDLGWLATAGVGAGVDKRNRRKWAAMAAGTFTAHAVSVVLKRIVRRARPSDPRITIGVSTPSRLSFPSSHSTSTAAAMVHLADISGSKVPYVGIPIMMLSRMVLGVHYPTDTLIGSLIGARVAKVAIGLEKETR				NA	NA	NA	NA	NA
AK009_06510	1626			hypothetical protein	GTGCAGCTGCCGGGTCTGCGCCACCAGGTCGTCGGCAAGCTGCTTGTCGCGCTTGCGGAAGGCGACCCCGGTGCCGCCGGCGGTAGACACGGTCGCGGAGTCCACGCGCGAGAGGGTGAACCAGCGCGCCTCCCCGGCGGTGAGGTTGAGCTGCGGCGCCTCCCAGTGCTCACGGTCCTCGCTGTGCGCCAGGTGCACCAGCGACTTCGCCACCCACGGCAGCTTCTTCAGCTTCCCCAGCCGGCCGCCGATGTTGGCGGTGGGCACGCCCGGCGCGCCGGTGGCGGCGGGCAGGTCGGCCGCGGACGCGACGACCTGGGCATCGGAATAGTTGCTGCGCACGCCCTGGATGCGCGGCAGGGAGCTCTCCAAGATGTCGAACAGCTGGTCGGGGCCGGCGAGGAAGTCCTTCATCGCCTCGATCTGGATCGCCATGGTGGAGTACTCCATGCACATAGCGTGCTTGGCGGTGGCCTTCAACATGTTGCGCTGGATGCCGCGCGGGTCGTCGGGGCCGTAGATGGCGGCGACGATCAGGCGGTTGCGGACGTGGAAGTAGGCCTGCCAGTCAATCGCGTCGTCCTTGTCGGCCCAGGCCATGTGCCAGATCGCCGCCCCCGGCCACGTCACCGTGGGGTAGCCGGCGGCCTTGGCGCGCAGGGCGTACTCGGTGTCGTCCCACTTGATGAACAACGGCAGGGGCAGCCCGAGCTCCTCTGCGACGACGCGGGGGAAGAGGTTCATCCACCAGCCGTTGTAGTCCACGTCGACGCGCCGGTGCAGTGCGCGCGAGGTGATCTTGCGCGGGTTGGCCTGCTCCTCCGGGGTGCCGAGGTACCCCAGCGGGTAGGCGGCGAAGTCGTGGTCGTAGACGGCGTGGGGGGCGGCGCCCCACATGAAAGTCGCGCGGTCCACCGCCTCGCCCGTGGTGCGCAGCTGGGCACGGTTCTGCAGGTTGAGCATCTGCCCACCCACCAGGATCGGGCTCTTCGCGTAGCGGGCGGCCTGGACGGCTCGCAGGATGGAGTCCGGCTCAATCGCGATGTCGTCGTCCATGTACAGGATGTAGGGCGCATCCGTGCTGCCCACCCCCTCGTACATGATGCGCGAGTAGCCGCCGGAGCCGCCCAGGTTGCCCTGCGGGAAAATCCGCAGCCGGCCGCCGAGTTTCTCCTCGGCCTCGGCGAAGTCCGGTTCATCCGACGGGTGCTGGTTTCCCTGGTCCGGCATGAGCACGTCGGTGATGGCTGCCAGAACCACCGGGTCCTCCGCGAGCGCGTGGAGCGCGTTGACGGCGTCGCGCGGGCGGTTGAACGTGGGGATTCCGACGGCGACTTTCTTGTCTTCGGGGCCCGTGGTGGAGCCGTCGGCAAGCAGCTGCGGCCCGGGAAGGTGCGGCGCGCACCAGGCGGCGTCGGTGATGGTGACATCGGTTTCGGCGGTGACGTCGAACCACAGCCAGCCGCCGTCCTCGAAGTTGCGCAGCTCCAGCGGAATTTCGACGCGGCCACCCGGCGCCTCGACGCTGGTGACGGCGATGCGCTGGCCGTCCTCCTTCGAGCGGTAGACCGAGAGGGTGGCGCGGCCGTCGACCTCCATGGCCAGGACGACGCTGCCGAGCTGTGA	MQLPGLRHQVVGKLLVALAEGDPGAAGGRHGRGVHAREGEPARLPGGEVELRRLPVLTVLAVRQVHQRLRHPRQLLQLPQPAADVGGGHARRAGGGGQVGRGRDDLGIGIVAAHALDARQGALQDVEQLVGAGEEVLHRLDLDRHGGVLHAHSVLGGGLQHVALDAARVVGAVDGGDDQAVADVEVGLPVNRVVLVGPGHVPDRRPRPRHRGVAGGLGAQGVLGVVPLDEQRQGQPELLCDDAGEEVHPPAVVVHVDAPVQCARGDLARVGLLLRGAEVPQRVGGEVVVVDGVGGGAPHESRAVHRLARGAQLGTVLQVEHLPTHQDRALRVAGGLDGSQDGVRLNRDVVVHVQDVGRIRAAHPLVHDARVAAGAAQVALRENPQPAAEFLLGLGEVRFIRRVLVSLVRHEHVGDGCQNHRVLRERVERVDGVARAVERGDSDGDFLVFGARGGAVGKQLRPGKVRRAPGGVGDGDIGFGGDVEPQPAAVLEVAQLQRNFDAATRRLDAGDGDALAVLLRAVDREGGAAVDLHGQDDAAEL				NA	NA	NA	NA	NA
AK009_06511	585			hypothetical protein	ATGCGGCTCGCCTTTGCGAGGCATGAGGATGCGTTGGAGGACGTCGACTGCCAGTGTGTCGCTCACAAATCTCACTTTCGACTCATTGATAACGAGATACGTAGTTCAACACTACTGGCACGGCCGGACAAGACGGCGCCTCGACGCGACGGTAGCTACCTGTTCGACCGGAACGCGTTTTCGCGGCCCGAAAAACGGATTTCCGGCGTTCCGGTCGAACACGCGGGCGCGGATGCGCCGCGGCGGCATCTCCGATACGCCGCATCGCGACCCGATACCCTAGAAACTATGCCCACAACACACTTCGCTATCGGCGGCGCGCTCATTGTGGTGGCCGTCGGCTCCTTCGTCTTCCTCGACGGCTCGACCGCCGTGTTCATCGGCATCGCTTCCGCCATCGCGGGCGCGCTCTTCCTTGTCATGGGCGCGCAGGGCCCGAAACAAGACCCGGACGTCGGGCTGCCCTCGCTCGACGGGACGGTCGTTGAGCCCGATCTCTGGGCGCAGTTCGACCGCGAGCACGGCCTGGGACAGGATTTGCCCGATTTCCCCGATATCGACGACGAGCCGCGCCGCAACACGTAA	MRLAFARHEDALEDVDCQCVAHKSHFRLIDNEIRSSTLLARPDKTAPRRDGSYLFDRNAFSRPEKRISGVPVEHAGADAPRRHLRYAASRPDTLETMPTTHFAIGGALIVVAVGSFVFLDGSTAVFIGIASAIAGALFLVMGAQGPKQDPDVGLPSLDGTVVEPDLWAQFDREHGLGQDLPDFPDIDDEPRRNT				NA	NA	NA	NA	NA
AK009_06512	783			hypothetical protein	GTGCCCGCGCGCCTGCTCCAGCGGCTCGCCGTTTTCAAAGTGGGGGCGCAGGTGGTTGTCGAACAGCGACAGCGCCGCGCCGATGGCCATGTGCATGTCCAGGTACTGGTAGGTGCCCAGGCGCCCGCCGAACAGGACGCCGTTGTCGCGGGACTCGGCGGCGGCGAGGCGTCGGTACGCGGTGAGCTTCTCGCGGTCCTCGGGCGTGTTGATCGGGTAGTAGACCTCGTCATCCTCGCCGGCGAAGCGGGAGTACTCCTTGACAATGACGGTCTGGTCGTCGGGGTACTCGGTGCGCTCCGGGTGGTAGTGGCGGAACTCGTGGATGCGGGTGTAGGGCACGTCCGCGTCGTTATAGTTCATCACCGGGGTGCCCTGGAAGTCGCCTGTGTCCAGGACTTCCCGCTCGAAGTCGAGGGTGCGCCAGCCGAGGCGTCCTTCGGAGTAATCGAAGTAGCGGTCCAGCGGGCCGGTGTAGACCACCGGGATGCCCTGGTACCGCTCGCGCACGTCGAACCAGTCGGTGTTCAGCTCCACGTCGATGAGCTCGTGGTCGGCCATGCTCTCGAGCCAGGCGGCGTAGCCCTCGATGGGCAGGCCTTCGTAGGTGTCGTTGAAGTAGCGGTTGTTGAAGGTGTAGCGCACGGGCAGGCGCGAGATGATCTCCGGCGGCAGGTCGGTGGGGTCGGTTTGCCATTGTTTGGCGGTGTAGTGCTTGACGAAGGCGTGGTACAGCGGTTTGCCGATCAGCGCGATGCCCCGTCCTCCAGAGTGTCGCGATAG	MPARLLQRLAVFKVGAQVVVEQRQRRADGHVHVQVLVGAQAPAEQDAVVAGLGGGEASVRGELLAVLGRVDRVVDLVILAGEAGVLLDNDGLVVGVLGALRVVVAELVDAGVGHVRVVIVHHRGALEVACVQDFPLEVEGAPAEASFGVIEVAVQRAGVDHRDALVPLAHVEPVGVQLHVDELVVGHALEPGGVALDGQAFVGVVEVAVVEGVAHGQARDDLRRQVGGVGLPLFGGVVLDEGVVQRFADQRDAPSSRVSR				NA	NA	NA	NA	NA
AK009_06513	603			hypothetical protein	ATGTACGGCGGGCTAGGCTGGTGTGCAACCATGAACAAGTTCTCGTTGGACCACCAGTTCTCGGAATCGTCCGCTGCCGTTGCGAATGCGACCATCCGCATCATCGCGTCGCGGGGCCTTGACGCAGTCAGCGTGCGCGAAGTGGCCAAACAATCCGGATTCGCGGCGGGATCCGTGCAGTACCACGCCCCGAACAAAGAGACCCTGCTTGCTCACGCGTTCATCCGCTCCATTCAGCGGCAGAACGCCCGCGTGGTCGGGGCAGAAGTGCCCGACGATGAATTCGAGGCCTGGGTGGTGCGGCTGTCTGAACTTCTCCCCCTTGGCGGCGAGCGTCTCGAGGACGCGGCGATGTGGGTTACCTACGGCTCCGCGTCAGCAACGCGCGAGTGGATTGCCGACCTTTACAGTCAGGTGCTCCGCGGCTTCCAGCAAACGGTCGTAGAGGCACTGGGCGACGTGGACCAAGCTGAGCGAAAGGCGCGACTGGTCACGGCGTTGGTGAACGGCTTGACGATCGACAATTTGGGGGCACCCGCTTCGGAGGCGGATCGTGTTGTCGGGGACCTCCGCGACGGCCTGCGGTTGATTTTCGGCGTTTAA	MYGGLGWCATMNKFSLDHQFSESSAAVANATIRIIASRGLDAVSVREVAKQSGFAAGSVQYHAPNKETLLAHAFIRSIQRQNARVVGAEVPDDEFEAWVVRLSELLPLGGERLEDAAMWVTYGSASATREWIADLYSQVLRGFQQTVVEALGDVDQAERKARLVTALVNGLTIDNLGAPASEADRVVGDLRDGLRLIFGV				NA	NA	NA	NA	NA
AK009_06514	675			hypothetical protein	ATGCAGTCCCTCCTTCCGCTCGTCGGTCTGGCCCTGCTCGACAGTTTGAGCATCGGCACCCTGGTCATCCCGTTGGCACTCATTCTCCTATGGCGAAACGTGCGCGTGCCCGCGCTCGCTGCGTACCTCCTCACCGTCGCGGCAGTGTACTTCGCCCTTGGAGTGGCCATGCTCCTGGGGTTCACCGGCCTCAGCTCGTACGTAGAACGAATCACCGACACCCCCGCTTTTCCCTGGATCACGTTGATCCTCGGCGCGATTCTGGCCGCCTATGGAATCTTCGGACCCGATCCAGTCAAACCTACGCCGGGTGAACTGCCGAAACAGCTGAACAAGCCCATTCAAACCAGCCTGCCCAAGATGGTCCTCTTGGGCTTAGGCGCTTCGCTGACAGAAGCGGCGACGATGCTGCCCTACATCGCAGCGATGGGAATCATCAGCGACTGGGATGCGCCGATGGCGGGACAAGTAGCAGCCATCGCCACATACTGCGGCGTCATGATTGTGCCGACGGTGATTCTGGCGGCGATCGCTCTCGTGGCCGGGCAGAAATTCTTCCCCCGCCTCGAGAAGGCCGTTCCCCGCCTTCAGTACGAGGCCAAGGTGACTCTGCTCTGGATCGCGGCGATCGTCGGCATCTACATGGTCGTCAACAGCGTGGGCGCGCTCCGCTAA	MQSLLPLVGLALLDSLSIGTLVIPLALILLWRNVRVPALAAYLLTVAAVYFALGVAMLLGFTGLSSYVERITDTPAFPWITLILGAILAAYGIFGPDPVKPTPGELPKQLNKPIQTSLPKMVLLGLGASLTEAATMLPYIAAMGIISDWDAPMAGQVAAIATYCGVMIVPTVILAAIALVAGQKFFPRLEKAVPRLQYEAKVTLLWIAAIVGIYMVVNSVGALR				NA	NA	NA	NA	NA
AK009_06515	186			hypothetical protein	GTGCCCGCGCAGCTGGTCGATGGGCTTGCCGCCCTCGAAGTAGAGGCGGACATGGTTGTCGAAGACGGAGAGGGCGACGCCAATGGCCATGTGCATCTCCAGGTACTGGTAGGTGCCCAGACGGCCACCGAAGAGGACCTTGTTGTCGCGAAAGTCGGCGGCGGCGAGGCGTCGATAAGCTTCTAG	MPAQLVDGLAALEVEADMVVEDGEGDANGHVHLQVLVGAQTATEEDLVVAKVGGGEASISF				NA	NA	NA	NA	NA
AK009_06516	1107			hypothetical protein	GTGGCGTACGCGCCGCTCATCGATAACCTCCAGGCGGCCATCGCCGAGTTCACCAAGAGCTCGTCCACCGGGGATGAAAAGGTGATCGGCCAAAACATCGAGGAAGCGCTGGTGATCGTGCGTGGGTTCGTCGAGAAGCTCAACGCCCTCACTGGTGAAGAATGGCGCAAGCTCGAAGCCATCGGCGAGCAACGCCAAGCGCGCCTGCAGTTGCTGGCCAAATTACGTAATCCGCACACGGTTGATGAGAACGAGCGCTACCCGCTGGCAAAGGAGTTCAACTCAACCGCCGGCAAGTTGGCCAGGGCGTGGGCGCTTGCGTCCGGGAGCCCGAATGCCAACGAGTACCGCTCCGACGTTCGGTTCTACTCGGACGTGCGCAACCAGCTAATCAAGATGGAAGCCGCCGATCGCCGGGCTAACGGGGAGCCGCTGAGCGAGGAGATCATCACCTTGCTCAGCCAACTCGCCGTGGACTCCACGGCGTCCTCGCAGGTGATCGACGTTTACGGTGAGATCGGCCGCGAGCTACCCAACCTGCAGGACCTGAACATCGAGGCACTCAATCTCAGGTCCAGGGACGAATCCGAGACCGCATTGCTAATCGACGCCCTCCGGCGCGACCTCCTCCAAGAATCCCGCAACGCCACCGGAAATAACGAGGTACGAGCCAAGCAGTTCTCCGAGCGCATCCGCGAACTGATGAACCGGTACACCAACCAGCAACTCACCTCCGCGGAAGTGATCGCCGAACTCATCGAGCTGTCCAAGGAAATCGTCGCGGAGAGCAATCGCGGTGAACAGTTCAGCCCACCCTTAAGCAATGACGAGCTCGCGTTCTACGACGTGATGGCCACCAACGACTCGGCCGGCGAAGTGCTTGAAGACGACGTTCTAGCGCAGATCGCCCGTGAGCTTGTGTCGACGCTTCGCCGCGACGCGAAAACGGACTGGACAGTGCGCGACGACGTCCGCGCCAAGCTGCGCCGCTCCATCAGAACCCTCCTGCGCAAGCACAAGTACCCGCCGGAACAGCGCAACGAAGCCGTCGTGCTAGTGCTCGAGCAGATGGAGCGGTTTGCTCCACGGTGGTCGGAGGCAGCGTGA	MAYAPLIDNLQAAIAEFTKSSSTGDEKVIGQNIEEALVIVRGFVEKLNALTGEEWRKLEAIGEQRQARLQLLAKLRNPHTVDENERYPLAKEFNSTAGKLARAWALASGSPNANEYRSDVRFYSDVRNQLIKMEAADRRANGEPLSEEIITLLSQLAVDSTASSQVIDVYGEIGRELPNLQDLNIEALNLRSRDESETALLIDALRRDLLQESRNATGNNEVRAKQFSERIRELMNRYTNQQLTSAEVIAELIELSKEIVAESNRGEQFSPPLSNDELAFYDVMATNDSAGEVLEDDVLAQIARELVSTLRRDAKTDWTVRDDVRAKLRRSIRTLLRKHKYPPEQRNEAVVLVLEQMERFAPRWSEAA	PGPT0027170_1528	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
AK009_06517	897			hypothetical protein	ATGGATAGAATTGAACCGATTCCTCCCGCGCCAAAGGCACAAGCTGAAGAAATCATCACTTTGCGCCAGATTGAAGCCATCAGAGTGAAACTTCGACTTTTTGACCGTCAGTTGGAAGCTAGCGCTCAAGCAGCAGCATCAGGAACCCCGCAGGAGTTAGCTTTTAAGACAGCCTGCACAAAATTTCTGGATGATCTTTCGAGCATTCGTTTCGGATTGCGCAGCGAAGAGATTCGCAACCAAGTTAAAAAGTCCCTGCCTAATTCCGACCCAGCTTCCGAGAGAGAGCCCAGCGTCCACCTAACAGCGCCGGGTGGGCAACAGAAGAAAAATAACCCCGCGAAAAAGGTCAGTGGTGGGTCGCCCAGAAGCGATTACGCAGAGCAACCCGCGCCTCCGAAACGCGTGAAACCTTCACCCGACTCAGACACCCCAGCAGGTGAGAGCTCAAAGAAAACTGCGAAGTTTACACCGCTAGATCGTGCTCAGCTCCTAGTAGATCGAGAAGCCGTCGATGCGCGCCTCGCCTATGAAGAGGAACGCACGGTTTTACTCGAAAAGCTCAAGGCAATCCGAGACGGAGAGCTCGATGCTGGTCTGAAACCGGAAGTTCTCAGCCAGCTTGATGAGGTCGAGAAGAATTACTCCAGCATCTGGCGCCGGCTGGAATCGGGTGTCCGGGGTGCGGAGATCCTCGCTTCTATCACCAAGACGAAACGCAAAACCGGAAAGAAACGCGGAGGCAGAAACCAGCAAGCGCCCCCTCCAAGAACGCGAATCAAAAGGAACTCGTCCTCAAACGATTTCGTGCGGGCGATTCGAGCACTCGATCGCGAAGCGAGGGAGCAGGCCCGACTCGCGGCCCAACATCGAGAATTCAAATCGATGGTCCAATAA	MDRIEPIPPAPKAQAEEIITLRQIEAIRVKLRLFDRQLEASAQAAASGTPQELAFKTACTKFLDDLSSIRFGLRSEEIRNQVKKSLPNSDPASEREPSVHLTAPGGQQKKNNPAKKVSGGSPRSDYAEQPAPPKRVKPSPDSDTPAGESSKKTAKFTPLDRAQLLVDREAVDARLAYEEERTVLLEKLKAIRDGELDAGLKPEVLSQLDEVEKNYSSIWRRLESGVRGAEILASITKTKRKTGKKRGGRNQQAPPPRTRIKRNSSSNDFVRAIRALDREAREQARLAAQHREFKSMVQ				NA	NA	NA	NA	NA
AK009_06518	1221			hypothetical protein	ATGGTGAACGGGTATATTCCACGATTGGCGGATGCCGAATTGGAGCGATCGCTCCGCAGACAGGGTGGTGTCCTTATACAGGGGCCGAAAGGCTGTGGGAAAACAGAGACGGCGAAGCAGCAAGCAGCGAGTTTTCTTAATGTAGAGACTGATCCCGGAGTCACCCTCGCTATGGATAATGACCCGCGGCTGCTGCTTGAAGGTGCCACACCGCGACTCATCGACGAATGGCAGTTGCAGCCGAGATTGTGGGATTTCGCGCGGCACGTTATTGATGAACGTCAGGCGAAGGGGCAGTTCATCTTCACCGGGTCCACGGCCCCTGGGGCGGACGCGACGAGCCACTCGGGTGCGGGCCGGTTCGCGCGAATGACGATGTCGACTATGACCCTCTTTGAAACCGGGGAATCGGATGGGTCGGTTTCACTTGCCGCTGCGGTTGCAGGTGACCCATTGCCGTTTTCGACACCGGACTTAACACTGCCTCAATTGGCGGAACGCGTGTGCCGGGGCGGCCTTCCTTACAACGTTGGTCTCCCGACTGATGATGCGTTGGAGAACGTCCGGGACTACGTACAAACCGTTGCGAACGTGGACATCCACACAGTTGGCGGCGTGAATCGTGATTCAGAGCGAGTGCGGAGAATGATCCGTTCGTTAGCCCGTGGTGTGGGCACCGAACTGGAGCTGCAAACCATCGCCACAGATTCAGATACCTCACGGGAAACAACACGCGACTATCTCGACGCTCTTGCAAGCATTTTCGTCTCCGTGGATCAGCCTGCTTGGTTCACGCACTTACGTTCCAAGGCGACGTTGAGGAAGGCACCGAAACGCCATCTCGCTGATCCCTCCTTTGCTATGGCAGCGTTGGACCGAGGGCCTGAGCATCTACTTCGGGATCCCGCTTACTTCGGCCAACTCTTTGAGTCATTAGTGGTGCACGAACTTCGTGCGCTAACTGGAAGAACGGTGCACCACGCTCGGCTAAACACGAAACTGGAGGTCGACGCTGTCGCGAACGTTGGCGGCCGAGACGTGCTTGTTGAAGTGAAATTGGGCTACACCCCGGAGGTGATTGAGCATGCAGCCGGCACACTCAAGCGGTTTGCAGGGCACCTTGAGGACGACCCAGCCTTGGTGGTCATCACCTCGGGAGGACCCGCACTACGCCGGAGCGACGGGGTTGCAGTAATTCCTATTGGGGCTCTGGGTCCGTAG	MVNGYIPRLADAELERSLRRQGGVLIQGPKGCGKTETAKQQAASFLNVETDPGVTLAMDNDPRLLLEGATPRLIDEWQLQPRLWDFARHVIDERQAKGQFIFTGSTAPGADATSHSGAGRFARMTMSTMTLFETGESDGSVSLAAAVAGDPLPFSTPDLTLPQLAERVCRGGLPYNVGLPTDDALENVRDYVQTVANVDIHTVGGVNRDSERVRRMIRSLARGVGTELELQTIATDSDTSRETTRDYLDALASIFVSVDQPAWFTHLRSKATLRKAPKRHLADPSFAMAALDRGPEHLLRDPAYFGQLFESLVVHELRALTGRTVHHARLNTKLEVDAVANVGGRDVLVEVKLGYTPEVIEHAAGTLKRFAGHLEDDPALVVITSGGPALRRSDGVAVIPIGALGP				NA	NA	NA	NA	NA
AK009_06519	561			hypothetical protein	ATGGCGTGGGCGGGCATGCGCGGGCTGGTCACGCTGGCGCTCGTGCTGGCAATCCCGGCATCGGCGACGAGCTACCACCACGAGCTCTCTGTCATCGCGTTGACCGTGCTCACTTGCACGATGGTGGTGCCGGGGCTGTTGCTGCCGTGGCTCGTCGATAAGCTTGACCTGCAAAACGGCCCCGCCGGCGACAAGGCGCTCGAGGAGCTGAACCAGCGCGCCTTCGAGGCGGCGCGCAAGGCGGTCCGCGACCACGGCGAGGAGTACGCGCCGGAGGCGTACGCGATGATGCAGGAGCGCCTCGACTCGATCGCGGAGCAGCGCCTGCAGGACCCCGAGGGTTCGGAGGAACGCAAGGCTGCCTTCGACCGTGCCCGCGCGGGGGCTGCGCAGTTGCAGGAGGTCGCGTTGCGGGCTGCCAGCCGCGAACTGCAGCAGGCGCGCCGCGAGCGCAAGTACAACCCCGCGGACTTCGATGCGGTGATCGCGGACCTGGACCGCCTCATCCTCGCGCGCGACCGCAAGGCCCTCACCGCGCCGAGTTCGATGTGGGAGAAGTAA	MAWAGMRGLVTLALVLAIPASATSYHHELSVIALTVLTCTMVVPGLLLPWLVDKLDLQNGPAGDKALEELNQRAFEAARKAVRDHGEEYAPEAYAMMQERLDSIAEQRLQDPEGSEERKAAFDRARAGAAQLQEVALRAASRELQQARRERKYNPADFDAVIADLDRLILARDRKALTAPSSMWEK				NA	NA	NA	NA	NA
AK009_06520	657			hypothetical protein	GTGGTGCTTTTTCTCGTTGAGCTTGTACAGCACCCACATCCACACGAAGCGCACCGCAAACGCGACGACGGACAGGACAACGCCTACCTGCACCGCCTGCCAGATGTGCGTGCCCGCGGTGTCCAGCGCGTCGCGCACGCTCATGCCGATCAGGCCGAACGCCACGCCGGTGAACAGCAGTTCCACCGTCTCCCAGAAAGAGTGTCCGGTGAGGCGGTCCTCGGCGGTCATGGCCGAGCGCGAGGACATCTCCACCGCGGCGATGACGATCGCGATGACGCCGGAGGCGTGAATGGCCTCGCAGCCGGCATAGATGGCGAATGGGAGCACCCAGGTAAACGCGGTGCGGATCACGGAATCGGGTACGGAGTTGGCGAACATGGCGGCCAACCTGCCCACGACCAGGCCGATCAGCACCGCGGCGATGGCGGCGTAAAAGAACTGCAGGGCGCCTTTGCCGAAGTCGACCTCGCCGTGCGCGACCGCGGCTGCCATGGCGACATTGAAGGTCACGATGGAGGCGGCGTCGTTGAACAGCCCCTCCGTCTGCAGCGTGCCGGTGATGCGCTTCGGGATGCCCGCCGGGCCCGCCACTGCGTCCACCGCCACCGGATCCGGCGGGGCGATCGCGGCGGCGAGCACCATCGCGGTAGCTAG	MVLFLVELVQHPHPHEAHRKRDDGQDNAYLHRLPDVRARGVQRVAHAHADQAERHAGEQQFHRLPERVSGEAVLGGHGRARGHLHRGDDDRDDAGGVNGLAAGIDGEWEHPGKRGADHGIGYGVGEHGGQPAHDQADQHRGDGGVKELQGAFAEVDLAVRDRGCHGDIEGHDGGGVVEQPLRLQRAGDALRDARRARHCVHRHRIRRGDRGGEHHRGS				NA	NA	NA	NA	NA
AK009_06521	198			hypothetical protein	TTGCCCCCAGCTCGTGCGCCGGGCCAGCGACCACAGCAGCGGCGGCAGGAAGATCGGCAGGATCAGGTGCGGATCGATGGACACCGTGTCGATGCCGGGGATAAAGATCACCGGCACGACCACCACGGTCAGAAGCGCCGGCCACGGCAGGCCGGTGCGCCCACCTACGGCGGCGACGAGGACGGTGGCGAGCAGTAG	MPPARAPGQRPQQRRQEDRQDQVRIDGHRVDAGDKDHRHDHHGQKRRPRQAGAPTYGGDEDGGEQ				NA	NA	NA	NA	NA
AK009_06522	756			hypothetical protein	TTGCCGAGACAAGCCGGTTACTACGAATGGGACGATCCTGAGCTTCACCCGGGCAACAAAAAGGAGGGAGGTTGGCACCAAACTCTTTTTGATGCCGACGGAAAGCTCAAGGGCAATGCCCGGTTCGTGCCAATGGAAGAGTCAGAGCTCAAACCGGAAGTTATCCATGAAACCGTATACGTCACTAGTGACGCCAGGCGGGAGGAATTCCTCGATGATGAGATGAGGGAGGCTATCGCCTGGGCTCTGGCTGCTCTTGTAGTAAAGGGCGCTGAATTAGCGGCCCCCCGCGTCAAAGCGTGGTGGGACAAGGGGGCAGGGTCGTTCCGGCGCGTCAAGAGGCGATCTCTTCGTGCGCGAAGTAGGCCTACCACAAGCGAGAATCAAGATCGTGTTGAAGAAGCCCAGTCCTCCGATCTCGCTCAGAAGGACGAGGGGACTTCACGAGCGAAGATGTCGAGTGCGGAAGCGCAGGCTCGAATGATTGCCGCGGCGGCTGCGCGAGCCTTCGCAGAAGAACAGATGCGTTTGGTTACCGGTGCGGAAATCGTGGGGGCTACAAATCTGGACGAGGTCCGCGCGCAGCTTGCATCTATCCCGGAACACGAAATGGAGCAACTGACCGGATTGCTTGTTCGCCAGCCCGATCTGCTCACTGACGACAGTCTGGCCAATCTCGCAGCTTCATTACAACTTCAGCACCTTGAATTGGAACCTGTTCGCAAGCGCGGGAGAGGCGACGGCAGCAAATTTTAG	MPRQAGYYEWDDPELHPGNKKEGGWHQTLFDADGKLKGNARFVPMEESELKPEVIHETVYVTSDARREEFLDDEMREAIAWALAALVVKGAELAAPRVKAWWDKGAGSFRRVKRRSLRARSRPTTSENQDRVEEAQSSDLAQKDEGTSRAKMSSAEAQARMIAAAAARAFAEEQMRLVTGAEIVGATNLDEVRAQLASIPEHEMEQLTGLLVRQPDLLTDDSLANLAASLQLQHLELEPVRKRGRGDGSKF				NA	NA	NA	NA	NA
AK009_06523	225			hypothetical protein	GTGGATGCGGGTGTAGGGCACGTCCGCGTCGTTATAGTTCATCACCGGGGTGCCCTGAAAGTCGCCTGTGTCCAGGACTTCCCGCTCGAAGTCGAGGGTGCGCCAGCCGAGGCGGCCCTCGGCGTAATCGAAGTAGCGGTCCAGCGGGCCGGTGTAAACGGTGGCGATGCCCTCGTACTCGTTGCGCACGTCGAAGTAGTCGGTGCCCAGGCGCACGTCGATTAG	MDAGVGHVRVVIVHHRGALKVACVQDFPLEVEGAPAEAALGVIEVAVQRAGVNGGDALVLVAHVEVVGAQAHVD				NA	NA	NA	NA	NA
AK009_06524	720			hypothetical protein	GTGGTCGGCCATCTTTTCCAGCCAGGCGGCGTAGCCGTCGACGGGCAGGCCCTCGTAGGTGTCGTTGAAGTAGCGGTTGTTGAAGGTGTAGCGCACGGGCAGGCGCGAGATGATTTCCGGCGGCAGCTCGGTGGGGTCAGTCTGCCACTGCTTGGCGGTGTAGTACTTGACAAAGGCGTCGTAGAGCGGCTTGCCGATCAGCGCGATGCCGCGTTCCTCCAGGTTCGTTGCGGCCTCGGGGTCCTTGCCCTCGCGCTGGGCCTCGATGAGCGCGCGCGCCTCGTCCGGCGAGTAGTACTTGCCGAAGAACTGATTGATCAGGCCCAGTCCCATCGGGAACTGGTACGCCGTGCCGTCGTGCATGGCGAAGACGCGGTGCTGGTAGTCGGTGAACTCGGTGAAGCGGTTGACGTAGTCCCACACGCGCTTGTTGGAGGTGTGGAACAGGTGGGCTCCGTATTTATGCACCTCGATGCCGGTGTCCGGGTCCTTTTCCGAGTAGGCGTTGCCGCCGATGTGGCCGCGCTTTTCCAGCACGAGCACGCGCTTGCCCAACTCGCTCGCGGCTTGTTCTGCGACGGTGAGGCCGAAGAACCCGGATCCAACAACGATGAGGTCGTAAGTCATGGCGCCCATTTTCGCACATTCGCGTATCTACGCCTCACGTCCCGACACACCCATAAAGTCTCAATACTTCCTTTAGACTTCTTTCTCCCCTAG	MVGHLFQPGGVAVDGQALVGVVEVAVVEGVAHGQARDDFRRQLGGVSLPLLGGVVLDKGVVERLADQRDAAFLQVRCGLGVLALALGLDERARLVRRVVLAEELIDQAQSHRELVRRAVVHGEDAVLVVGELGEAVDVVPHALVGGVEQVGSVFMHLDAGVRVLFRVGVAADVAALFQHEHALAQLARGLFCDGEAEEPGSNNDEVVSHGAHFRTFAYLRLTSRHTHKVSILPLDFFLP				NA	NA	NA	NA	NA
AK009_06525	453			hypothetical protein	GTGCTTGGTGCCGGACGTGGTATCGCCGGCGTCGATGGCGGCCGTATCCATCTGGTACCACTCGGACCAGGTGCCGTCGGCGCGCTGGGCGCGGACGTAGGCGACGATGTCGCGCTCGTCTTCCCAGGTCAGGCCGACAACGGAGAAGGGCTTTTCGCGGGTGAACTCCTTGACCACGCGGTGCTCGACCTGCTCACCGCCCTGCGTCATCACGGCCGCGTCGTCGACGGTGACGTTGTCGCCGGCAGCGAGGGATTCGCTGGCGAGGTCGACAGAAACGCCGCCGCCAGGTCCGAGGGATTGGACGTTGACAATGTTGCTGCCGCCAAACGCGGCCGCGGCGACGAGCGCCAGGGTTGTCAGGGTCGTCAGGGCGGCCAGGACCGGGTTCTTCCCCGGCGCGGGCCGGGTGAGACGTCGACGTTGTTGCACGGTAAGGCTCCTGTTACGTAA	MLGAGRGIAGVDGGRIHLVPLGPGAVGALGADVGDDVALVFPGQADNGEGLFAGELLDHAVLDLLTALRHHGRVVDGDVVAGSEGFAGEVDRNAAARSEGLDVDNVAAAKRGRGDERQGCQGRQGGQDRVLPRRGPGETSTLLHGKAPVT				NA	NA	NA	NA	NA
AK009_06526	459			hypothetical protein	GTGCGCGTTAATCGTGGGGAAAGTCGCGGTCTGGCCGGCGGCGTACTTGCTTCCCGTGAAGTTTCCGGAGGCTGTGAGCTGGGTCGAACCCAGCGGGTTAATCTTCGACTGCGCGGACTTCCAGCCGATGATGTCGCCCATCGCCTTCACGCCTGCGGCGCTGGGCTGTGCGGTCTCGTAGTTGCCCAGCATGGAAATTCCCCAGGTGTTGCTGTTGAAGGAACCGACGTGGGCGCCCATGGGCCCGCGGTCGAGACCGCCGGCGCGGCCTTCGTAGATGTTGCCGTACTTATCCACCAAGGCGTTGTAGCCGATGTCGCCCCAGCCCTGGCCCTGGTGGTAGGCCTGGATGCTGCGCACGATGCCGGGTGCTTGCGCCGCGGTGTAGTTGTTGGAACCGGCGGTGTGGTGGATGGTGATCGCCTTGGTCGGCTCGGTGTAGTACGGGTTCTGGCGTGA	MRVNRGESRGLAGGVLASREVSGGCELGRTQRVNLRLRGLPADDVAHRLHACGAGLCGLVVAQHGNSPGVAVEGTDVGAHGPAVETAGAAFVDVAVLIHQGVVADVAPALALVVGLDAAHDAGCLRRGVVVGTGGVVDGDRLGRLGVVRVLA				NA	NA	NA	NA	NA
AK009_06527	228			hypothetical protein	TTGCAGCCACGCGTCGGCGAGCTCGCCGACGAGGGTGTAGATGTCGCCCTGGTTGTTCTGCACGGCGATGCCATTCGAGTAGAAGGCGAAGTTGTTGCCGCCGACGCCGGTGGCAGCGCCCTGCAGGGTGCCGAGGATTGGCTCGAACTGCTTCCATGTGTCTGCCGCCTCATCGCCGCCGACGAACTGCAGGATTTTACCGATTTGCGGTGCGAGCGAGGACAGTGA	MQPRVGELADEGVDVALVVLHGDAIRVEGEVVAADAGGSALQGAEDWLELLPCVCRLIAADELQDFTDLRCERGQ				NA	NA	NA	NA	NA
AK009_06528	909			hypothetical protein	GTGCCACGTCGTTGTGTCACCCAGGGTCAGCGGCGCGGTGATAAGCCCCGCCCCGATTCCGGCCGCCGACGCCGCGCCCATCACAGTGGTCTCAATGTTGTCCGGCCGGGAGACACGGGAATTGAGCAGGTCCGCCTGCATCTGCATGAGCAGCCGGTTATCGGTCATGCCGCCGTCGACACGCAGCTCCGCGATGCGCGTGCGCGCATCTTTCTGCATGGCGCGCACGACCTCGCACGTCTGAAAACACGTCGCCTCCAGCGCGGCGCGAGCTACGTGTCGACGATCAGTAAACCGCGTCAACCCCGTTATCACCCCACGCGCGTCCGGCCGCCAGCGCGGCGCGAACAGGCCCGAGAACGCCGGGACGATGACAACGCCGGCGCTGTCGTCCACCTGCGCCGCGAGCGTCTCGCTCTCCGCCGCGTTGCGCAGCATCCCGAGTTGATCGCGCAGCCACTGGATCAGGGAACCCCCGACCGCCACCGAGCCCTCCAGCGCGTACACCGGATCCTGGCCCTGCATGTGGTACGCCACCGTCGTCAGCATCCCGTGCCCGCTCCACTGCGGGGTCGCGCCCGTGTTGAGCAACATGAACAGGCCTGTCCCGTAGGTCATCTTCGCGTCGCCCTCATCCAGGCAGCCCTGCCCAAACAGCGCCGCCTGCTGGTCCCCCAGCACCCCGGTGATGGGCACGCCCGAGAGCGGGCCGCGGCGCCGCACCACCCCGAACTCGCCTATCGACGCCCGAATCTCCGGCAACATCACCCTCGGAACACCCACCTCGGCGCACAGCTGCTCATCCCAGTCCAGCGTCTCCAGATCCATCAGCAGGGTGCGACTCGCGTTGGTCGCGTCGGTGACGTGCGTGGCCTCGTGCCCCTCGTCACCGCGCGCCCCGCCCGTTAA	MPRRCVTQGQRRGDKPRPDSGRRRRAHHSGLNVVRPGDTGIEQVRLHLHEQPVIGHAAVDTQLRDARARIFLHGAHDLARLKTRRLQRGASYVSTISKPRQPRYHPTRVRPPARREQARERRDDDNAGAVVHLRRERLALRRVAQHPELIAQPLDQGTPDRHRALQRVHRILALHVVRHRRQHPVPAPLRGRARVEQHEQACPVGHLRVALIQAALPKQRRLLVPQHPGDGHARERAAAPHHPELAYRRPNLRQHHPRNTHLGAQLLIPVQRLQIHQQGATRVGRVGDVRGLVPLVTARPAR				NA	NA	NA	NA	NA
AK009_06529	408			hypothetical protein	GTGGTTAGTGCGCGTGTCCTGCCACACGATCGCGTTGTATATCGGCTTGCCCGTGCTCTTCTCCCAGATCACGGCCGTTTCCCGCTGATTTGTCACCCCGAGTGCGGCGATGTCCTCGTCGGTGATGTCCTTGCTCGCCATCGCCTCGACCACGGCCCGGCGCGTGTTGCGCCAGATCTCCATGGGGTCGTGCTCGACCCACCCCTGCCTGGGCATGATCTGCTTGTGCTCGAACTGCGCTTGTGCCACGACCTCGCCTTCGGTCTTTGTCAAGATGAAGCGCGTCGTCGTGGTGCCCTGGTCAATCGCGGCGATGTATGGCATGCGGACAGTGTAGTTTTGATGCCTTTGCGCGGGTTCTGTGCGTTGGTTTTGTGTGGCTGGTTTGTGTGCTTGTTTCTGTGCTGA	MVSARVLPHDRVVYRLARALLPDHGRFPLICHPECGDVLVGDVLARHRLDHGPARVAPDLHGVVLDPPLPGHDLLVLELRLCHDLAFGLCQDEARRRGALVNRGDVWHADSVVLMPLRGFCALVLCGWFVCLFLC				NA	NA	NA	NA	NA
AK009_06530	438			hypothetical protein	GTGGCGGGCGGATTCGATGGCGACGAGGGCGTCGGTGCGCGGGTGATAGCGGTAGGTGTCGAAGAGGGCTCGGATGCCGGTGACGACGGCGATGCCGTCGACCGTCGTGATGTCCTCCGGGCGGAGAATGCCGCTGCGGTAGGTGCGGCCGGCGCTCGGTGTGGTGGTGTCGAAAGCGCGGGCGGTGCCGCGCAGTGCGAGGTCAACGATGGTGACCCACCTGTACGTCTTGATTCCGTGCAGCCGCAGCGCCGCAGGGCCGGTGACCACCGACGTGCGGCAGCGTGCGGCGACGCTTTTGATGAATGCCGTTTCCTCCCCCGAGTCCATGCGTCGGATTCTGCCACGCGTGGGGGACATTCCCGGCGCGGCGGGTGCGGGGCTGTGGATAACTGGTGGGGTGTGGATAACTCGGTTTCGTTGAGGTCTAGTAGCTAG	MAGGFDGDEGVGARVIAVGVEEGSDAGDDGDAVDRRDVLRAENAAAVGAAGARCGGVESAGGAAQCEVNDGDPPVRLDSVQPQRRRAGDHRRAAACGDAFDECRFLPRVHASDSATRGGHSRRGGCGAVDNWWGVDNSVSLRSSS				NA	NA	NA	NA	NA
AK009_06531	246			hypothetical protein	TTGGATCGGCTCGGCGACGCAGATCTCGACGCCACCAATGGCGTCGACCACGCCTGCAAACCCGCCCATGCCGATCTCCGCGTAGCGGTCCACGCGCAGCCCCGTGTTCTGCTCCACGGTCGTCGCCAGCAGTTTCGGCCCGCCGTAGGCGAAGGCGGCGTTGATCTTGTCCATGCCGTAGCCTGGGATGGAGACGTACGAGTCGCGCGGGATGGACACCAGGGTCGCCGGCCCCGTGCGCGGTAG	MDRLGDADLDATNGVDHACKPAHADLRVAVHAQPRVLLHGRRQQFRPAVGEGGVDLVHAVAWDGDVRVARDGHQGRRPRAR				NA	NA	NA	NA	NA
AK009_06532	1182			hypothetical protein	GTGGGCTGTGCCGGGGATGTTCACCGTCAACACGGGCGACCACGTGTGGAACTTGGCGCGTATCCCGCTCGCGATGCGCGGCGGGCTGAAAACGGAAACGGTGCCGCTCGGTGGCTTTTTAGACACCGAGGTCGGCAACGTTATGTTGTGGGACGAGGCTGGCGCCGAGGCGCTGTTCTCGTCGCTGCGTTAAACCGTCTTCTCAGTCTTTACCGCAGCGGCAGGCAACTCGGTCCACGTGCCGGCCGCGACCATGTCGGCCTTTCGCTTGACCCAGAAGTCCGCGCCCTTGATGCCCAGCGCCTCGGGGTCGAACTGCGGGTCGAGCCCGGCCTTCTTCTGGCGGCGGTAATCCCACAGGCACTTCAGGGCCGGGCCCTGGATGACCAGGATGGCCAGGATGTTCAGCCACGCGGTCGCGCCGACGCCGATGTCACCCAGCGCCCAGGCGGCACCCGGCGTGCTGGTCGCACCGATGTAGACAGAGATGAGGATGAGCACTCGCAGCACCCAGATAATGACCCGGCGGGCGGTCTCGTTGTTCACCCAGCGGTTGAGGTAGGTGAAGTTCACCTCGGCGAGGTAGTAGTACGCAAGCACGGTGGTAAACGCGAAGAACATAATCGCGATAGCCACGAACGACGGTCCGATGCCCGGCGCGAGGGTGTTCAGGCCCTCCTGGACAAACCCGGGTCCGACCTCGACGCCGTCGGGAAGCGAGCCTGCGTAGCGCACGGGGCCGTCCTCAGACTGGCCGTCGAACACCTTGTACATGTCGGTGGAGATGATGATGAACGCCGTCGCGGAGCAGACGAACAGCGTATCGACGTACACCGCAAAGGCCTGCACAAAGCCCTGCTTGGCGGGGTGGGAAACCTCGGCCGCAGCCGCGGACTGCGGGCCCGTGCCCTGGCCAGCCTCGTTGGAGTAGATGCCGCGCTTGACGCCCCAGAGGATCGCGGCGCCGAGCATGCCGGAGAACATTGCCTCCTGGTCGAAAGCGGAGCGGAAGATCAGGCCGAAGACCTCGGGGATCTGCCCGGCGTTGACCGCAAGGATAACGATGGCCGCGATGATGTACACGATCGCCATCACAGGCACGACGAGGGAGGCGAACAGCGCGATGCGCTTGACACCACCGATGACGATGATGCCGAGCAGAACCACCATGGCCACGCCTGA	MGCAGDVHRQHGRPRVELGAYPARDARRAENGNGAARWLFRHRGRQRYVVGRGWRRGAVLVAALNRLLSLYRSGRQLGPRAGRDHVGLSLDPEVRALDAQRLGVELRVEPGLLLAAVIPQALQGRALDDQDGQDVQPRGRADADVTQRPGGTRRAGRTDVDRDEDEHSQHPDNDPAGGLVVHPAVEVGEVHLGEVVVRKHGGKREEHNRDSHERRSDARREGVQALLDKPGSDLDAVGKRACVAHGAVLRLAVEHLVHVGGDDDERRRGADEQRIDVHRKGLHKALLGGVGNLGRSRGLRARALASLVGVDAALDAPEDRGAEHAGEHCLLVESGAEDQAEDLGDLPGVDRKDNDGRDDVHDRHHRHDEGGEQRDALDTTDDDDAEQNHHGHA				NA	NA	NA	NA	NA
AK009_06533	243			hypothetical protein	GTGCGCTGCGGCCTTTTCAATGTAGAAGGCCGGGCCGCCGCGGTACTCGCCGGTGTCGCGGTCCTTCTCCTTGTAGATCTGCGCCAGGGTGCACTCCACGAACGAGGTTGCAGATCCCAGCAGCGCAACAAGCCACATCCAAAACACCGCGCCAGGCCCACCGAAGGCGATTGCGGTGGCCACACCGGCGATGTTGCCCACCCCCACGCGGCCGGCGAGCGAAATCATCAGCGATTGGAATGA	MRCGLFNVEGRAAAVLAGVAVLLLVDLRQGALHERGCRSQQRNKPHPKHRARPTEGDCGGHTGDVAHPHAAGERNHQRLE				NA	NA	NA	NA	NA
AK009_06534	612			hypothetical protein	GTGCGCCGCCACGATGTCGTGGATCAGCCGCGCCGCGGTGCGCGCAGTGCGCGCGTCGATGTCGTAGCGCGGGTTGAGCTCGACTACATCGACCAAAGCCAACCGCCCGGTTTGCGCCACGGCGACGGCCATGGCGCGGACCTTGTCCAGGGCGACTCCGTATCCGGCCGGCGCAGAGACCCCCGGCGCGGTCGCTGCGGGCAGCACGTCCAAGTCAATGCTCAGGTGGATCGGCCACTGCCCCGCCACGCAGTCGAGCGCCACGCGTGCGCACTCGGCCGGGCTGAGCTGTGCGAGCTCGGTGTCGAGCACGGTGCGCACCCCGAGCCGCGCGGCGGTATGAAACAGCGTTGCGGTGTTGTTCGGCTCGGAGACGCCCAGCACCGAGTAGTTGAACTGATCTCCGCACAGCTGCGCGACCTGGGCAAACGGGGTTCCCGACGTGGGCCGATCGGAGTCGCGCAGGTCGAAGTGGGCGTCGAGGTTGATAATGCTCATCTCCCCGCGCGCCTCGCGAACCCCGCGGTGGGTGGCAAAGGAGGTTTCGTGCCCGCCGCCAAGTACCACGACCAGGGTGCCTGCCGCGGCGAGGTCGCGCACGCGCTTGGATAG	MRRHDVVDQPRRGARSARVDVVARVELDYIDQSQPPGLRHGDGHGADLVQGDSVSGRRRDPRRGRCGQHVQVNAQVDRPLPRHAVERHACALGRAELCELGVEHGAHPEPRGGMKQRCGVVRLGDAQHRVVELISAQLRDLGKRGSRRGPIGVAQVEVGVEVDNAHLPARLANPAVGGKGGFVPAAKYHDQGACRGEVAHALG				NA	NA	NA	NA	NA
AK009_06535	333			hypothetical protein	GTGCTCGTCGTGGATGGCCAGGTCCGCCAGGGCGCGTCGCAACGCAGTTGGGCCCTCCGCGGCGCCGACGCGCCCGCCGTTTCGCTCCACGCCCTCGTCGGAGGCGTACCCGATCAGCGCGACTGCGCCCGTGGCCACCTCGCCGCGGATCACGCTGTGCCAGCGGGCGTGCTCGGTGCCGGGGCCGTCGTCACGCCCGCTCCACGGCTCGGCGGGGCTGTAGAGGGGAGCGCAGACCGTGTTCATGAGGCTGATCCTCCAGTGGTGTTGCGGACAAAGCCGCCGGGGACGGGGTTGTTCACGCCCTCGACCCGGTGGCGGCCGGTGGCGTAG	MLVVDGQVRQGASQRSWALRGADAPAVSLHALVGGVPDQRDCARGHLAADHAVPAGVLGAGAVVTPAPRLGGAVEGSADRVHEADPPVVLRTKPPGTGLFTPSTRWRPVA				NA	NA	NA	NA	NA
AK009_06536	1419			hypothetical protein	GTGGCGGCCGGTGGCGTAGTAGGTGGCGATGCAGGCGACGGAGAACACCACACCGACGGCGAGCGGCATGCGGAACTCCGGCAGCCACGCCATCACGCCGAAGGTGAACAGGATGAACGCCAGCGCGAAGTACTGGCCGAGCGGCCACAGCGGCACGCGGTAGCCCAGGGTCTGCGCCTCGGCGGGTGGCATGTGGCGTCGAGAAGCAAGGTGGGCGAGCAGGATCATCATCCACACGAAGATGGTGGCGAAGGTGGCCAGGGCGGCGATGATGGCGAAGACCGACTCCGGGATCAGCGCGTTGAGCACCACGCCAATGATCAGGACGCCGAGCAGGATAAAGGTGGTCATGACCGGCACCCCGCGCACCGTTTTCGCCATGGCCTGCGGCGCGAGGTGCTGGTTGGCCAGGCCCGCGAGCACGCGGCCGGCGCCGAAGATGTCGGCGTTGATGGCGGACAGCGCTGCAGTGATCACCACGACGTTGAGCAGCGCGGCGGCCCAGTTGACGCCGAGTGCGGTGAAGATCTGCACGAACGGCGACTCATCGCCCGTGATCGTGTGCCAGGGGTTGATCATCAAAATCACGAGGATCGCCAGCACGTAGAACAGCAGGATGCGGGCGGGCACGGTGTTAATCGCCTTCGGGATCGCGCGCGAGGGGTCCTCGGCCTCGGTACCGGCCACGCCGATGATCTCCGTGCCGCCGAAAGCGAAGAGCACAAGGATGAAGGAGGCCGCCATGCCGCCGAGGCCGTTGGGGAAGAACCCGCCGTGGATGACCAGGTTCTGCGGGCCGGTGGTCTCCGCGTTCGACAGCCCGAGGATAAGCACCGCCGCGCCCGCCACAATCATCGCGACCACAGCGCCGACCTTGACGATTGTGAACCAGAACTCCAGCTCGCCGAAGACGCGTGTCGACGCCACATTCGCCGCGCCGACGATCAGCAGCGCCACGACGATCCACACCCAGCGCGACACGTCCGGGAACCAAAAGCCCATGTAGATGCCAATCGCGGTGAGGTCGGCCATGGCGACGATGACCATCTCAAACGCGAACATCCAGCCAGTGAGGAAGCCCGCCGAGCCGCCCAGGTGGGCGCGCGTGTACTCGGCAAAGGAGCCGCGCACGGGGTGGCGCACGGCCATCTCACCGAGGGCGCGCAGCACGAAGTACACCACCGCGCCGCCGAGGAGGTAGACAAGCAGCACCGCAGGCCCCGCGGCCTGGATCGCCCCAGCCGAGCCGTAGAACAGGCCGGTGCCGATCGCGGAGCCCAGCGCGATGAAGTGGAGGTGGCGCGAGGTCAGTCCGCGGCCCTGCGATTGGCCGGCCGGGCCACTGGGGTGAATGGTCGTCATAGGTATCGAAGTTTAAATCCCCCGATCACGTCGCCGCGAAACTCTCTCGCCGCCTAG	MAAGGVVGGDAGDGEHHTDGERHAELRQPRHHAEGEQDERQREVLAERPQRHAVAQGLRLGGWHVASRSKVGEQDHHPHEDGGEGGQGGDDGEDRLRDQRVEHHANDQDAEQDKGGHDRHPAHRFRHGLRREVLVGQAREHAAGAEDVGVDGGQRCSDHHDVEQRGGPVDAECGEDLHERRLIARDRVPGVDHQNHEDRQHVEQQDAGGHGVNRLRDRARGVLGLGTGHADDLRAAESEEHKDEGGRHAAEAVGEEPAVDDQVLRAGGLRVRQPEDKHRRARHNHRDHSADLDDCEPELQLAEDACRRHIRRADDQQRHDDPHPARHVREPKAHVDANRGEVGHGDDDHLKREHPASEEARRAAQVGARVLGKGAAHGVAHGHLTEGAQHEVHHRAAEEVDKQHRRPRGLDRPSRAVEQAGADRGAQRDEVEVARGQSAALRLAGRATGVNGRHRYRSLNPPITSPRNSLAA				NA	NA	NA	NA	NA
AK009_06537	417			hypothetical protein	GTGGACGTAGACGATCTCGGAGCCCGCCATGCGCGAGAGGTGGGTGGACCCGCCGATGTGCGCGGCGATGGCCTCGAGGTCTTTCGCGGCGAGGCGCACAAGCGGCTGCTGCGTGGTGTAGGCGGCGGCCATTTCATACGCCGCAGGTCCCAGGCCGTAGGTGCCCGGGTTGGCGAGGTGCACCACAAACCCGCAGTGCTCGAGCTCGCGCAGCAGGTGGTAGGTCGACGAGCGGGGCAGCTCAAGCTCTCGTTGGATCCGCGCTGCGGACAAGGGGGCGTCGGACTGCGACAGCAGCGACAGGATGCGCAGGGTGTTGTGCGCGGCGGGGACATGCGGTGTGGCCATACCCTTAAAGTCTGGCATACGAGACTAGGCGGCGAGAGAGTTTCGCGGCGACGTGATCGGGGGATTTAA	MDVDDLGARHAREVGGPADVRGDGLEVFRGEAHKRLLRGVGGGHFIRRRSQAVGARVGEVHHKPAVLELAQQVVGRRAGQLKLSLDPRCGQGGVGLRQQRQDAQGVVRGGDMRCGHTLKVWHTRLGGERVSRRRDRGI				NA	NA	NA	NA	NA
AK009_06538	255			hypothetical protein	TTGTCATGCGGTGCACCGCTTCGCGCTGACTCACACCCCACCAAAGAACCGCTCCGACACCCGCCCCGCCGCCGTGCTCAAGCGCCCGATCACTTCCGCGCGCTGCTCCTCGTCACGGCTGCCTACCGCGAACGTCGCTGCGAGCGCCGCTGCGGGCCTGCCCAGGTGGTCGAGTACCGCCACGGCGACGGATTCCTGCCCGCGCGAGACCTGCTCGCGCTCCTCGTCCCAGCCGCGCTCGCGCACAAGTTTTAG	MSCGAPLRADSHPTKEPLRHPPRRRAQAPDHFRALLLVTAAYRERRCERRCGPAQVVEYRHGDGFLPARDLLALLVPAALAHKF				NA	NA	NA	NA	NA
AK009_06539	768			hypothetical protein	TTGATTAAAATCGAATGGGTGTCGGAGGACCGTCTAACGCCATACATCGATAGAACTTGGGGTTGTCCGGATCGGGCACGCGAGCTCTACGAGCTAGACCGCCGACTCAGCGCACTATTATTCGAGGCGATTTCGTATATAGAAGTTGTCCTGCGCAACTCGATTAATGCTTATTTAACCGAGACGTATGGCGATGATTGGTACACGCAGGTCGAAGTTGGTTTCGACAATCGAGTACGAGCGAACATCACCGAATCCTGGGAGAGTCTACCTAAGAGATTCACTTCGGTAAACGCGGATCGGAACAGGAAATTGGGCGGCCGGGTTGTTGCTGCGTCAATGTTCCGAACCTGGACAAACATGCTGGATAAGGGAGACGTCTCGGCGCTTCCCGCTCCGTTCGATCGGGCTGACCACGATAGAATCTGGGACGTTAAGGCCCTAAATCGCGTGTTTCCCGGAGCACGGCAACTTGCGCGGCAACAAGATCCCGATTTCGAGCATCACGGCCTTACTCGCCAGTGGGTCTACACGAAAGTATTTCCGGTAAGGCAAATAAGAAACAGAATTGCTCACCACGAATCCTTAACCCCGAAAGGCGTTCCAATTACAGGGACAAATACCCGGTTGACTCCGCGTGCATGCCATCACGCTTGTCTCGAACTCGGTGCCATGATTGACCGAGACCTGCGTTCTTTCCTGGAAAATCTTGCAGTCACTAATGCTCTGAATGAGCTGGATTCCTTCACCGGATCGCTGCAAACGTAG	MIKIEWVSEDRLTPYIDRTWGCPDRARELYELDRRLSALLFEAISYIEVVLRNSINAYLTETYGDDWYTQVEVGFDNRVRANITESWESLPKRFTSVNADRNRKLGGRVVAASMFRTWTNMLDKGDVSALPAPFDRADHDRIWDVKALNRVFPGARQLARQQDPDFEHHGLTRQWVYTKVFPVRQIRNRIAHHESLTPKGVPITGTNTRLTPRACHHACLELGAMIDRDLRSFLENLAVTNALNELDSFTGSLQT				NA	NA	NA	NA	NA
AK009_06540	1623			hypothetical protein	GTGCTGGGCGGGTTAGCGCAGCGTGCCGACGGCCGCTTCCACCGCCTCGACGTAGGATCCGTCCTTCACCAGGGCCACCGAGTACTCGATCTCGGGGGAGAGGAAGCGGTCGGTGCCGGGGCCGTCGACACGCTCGCGCAGCACGTCAATCGCGGCCTTCGTGCCCGAAGCGGGGGCGGCTCCGCGCATCTCGATCGCGCGCGCCGCGGTGAGGATCTCGATCGCGAGCACGCGCTGCAGCCCATCGACGCTGCGGCGCAGCTTGCGCGCGGCGGACCAGCCGAGCGAGACGTGATCCTCCTGCATCGCCGACGACGGGATCGAATCCGCCGACGCCGGGTTCGCGTTGCGCTTGAGCTCGCTGACGATGCCTGCCTGCGTGTACTGCGCGATCATGTGCCCGGAATCAACCCCAGGGTCGTCCGCAAGGAAGGCGTTGAGCCCGCGGTTGCGTGCGGTATCGAGGAAGCGGTCCGTGCGGCGCTCGCTTATCGACGCCAGATCCGCAACAACAATGGCCAAGAAATCCAGCGCGTAGGCCACGGGCGCGCCGTGGAAGTTGCCGTTCGAGGTCACTCGGCCGTCGAGGGCGACGACGGGGTTGTCCACCGCCGAGGCGAGCTCGCGGCCCGCCACCAGCTGGGCGTGCGCCAGCGTGTCGCGGAAGCCGCCCGCGACCTGCGGGGCGCAGCGCACCGAGTAGGCGTCCTGGACCTGCTTCTGCTTGAACTCGGCCGCCGCCGCCCCGAGGATCTCCGAGCCGTCGGCCACCGCGCGGATGTTGGCGGCCGCGTCCGCCTGCCCTGGGTGCGGGCGCAGCTGCTGGAGATCGTCGGCGAAGACGGTGAGCGTGCCGGTCAGCCCCTCCACGGTCATGGCGGTGGCGATGTCGGCGACCTTGGCGGCTTCGCGCAGGTCCTCAATAGCCAGGCAGAGCTGGCCGAGCATGCCGTCGGTGCCGTTGATCAGCGCCAGGCCCTCCTTCTCCTTCAGCGCGAGCGGGGCGATGTCCGCTGCGGCCAGTGCCTCGCCGGCGGGGACGATTTCGCCGCCGTTGACACGTACCTCGCCTTCGCCGAGCAGGGCCAGGGCGCAGTGGGCGAGAGGTGCGAGGTCGCCGGAGCAACCGAGCGAGCCGTACTCGCGCACGACCGGGGTGATGTGCGCGTTGAGCACGGCGGCGTAGGTTTCCGCGACCACCGGGCGCACGCCGGTGCGCCCGGTGCACAGGGTGGACAGGCGCAGCAGCATCAGTGCCCGGATGACCTCCTGCTCGACCTCGGGGCCGGAACCGGCGGCGTGGGAACGCACGAGCGAGAGCTGCAGCTGGGCGCGCATCGCCTCGGGAATGTGGCGGCGGGCAAGGGCACCGAAGCCGGTGGAGATGCCGTAGACGGGGGTCGGGTCGTTGGCGAGTTCCTCGATGCGGTCGCGGGTGGCGGCGACTTCGGTGAGTGCGGCCGGGTCGATCTCGACAGAGGCGCTGTGGCGGGCGACGGCGACGACTTCGTCGATGGTGAGCGCGCCGATGCCGACGGTCACGGTGGAGGGGTAAGTGGTGGTCATGGCTGTCCTCTTTATGGTTGCGTGGGAAACCCGCCCTCTAAGCAGGGCGCGGGATAG	MLGGLAQRADGRFHRLDVGSVLHQGHRVLDLGGEEAVGAGAVDTLAQHVNRGLRARSGGGSAHLDRARRGEDLDREHALQPIDAAAQLARGGPAERDVILLHRRRRDRIRRRRVRVALELADDACLRVLRDHVPGINPRVVRKEGVEPAVACGIEEAVRAALAYRRQIRNNNGQEIQRVGHGRAVEVAVRGHSAVEGDDGVVHRRGELAARHQLGVRQRVAEAARDLRGAAHRVGVLDLLLLELGRRRPEDLRAVGHRADVGGRVRLPWVRAQLLEIVGEDGERAGQPLHGHGGGDVGDLGGFAQVLNSQAELAEHAVGAVDQRQALLLLQRERGDVRCGQCLAGGDDFAAVDTYLAFAEQGQGAVGERCEVAGATERAVLAHDRGDVRVEHGGVGFRDHRAHAGAPGAQGGQAQQHQCPDDLLLDLGAGTGGVGTHERELQLGAHRLGNVAAGKGTEAGGDAVDGGRVVGEFLDAVAGGGDFGECGRVDLDRGAVAGDGDDFVDGERADADGHGGGVSGGHGCPLYGCVGNPPSKQGAG				NA	NA	NA	NA	NA
AK009_06541	981			hypothetical protein	GTGCCACTCGTCGACGGTGATCTCGGTGGGCAGGTACGCCAGCGGGTCGTGGGCGGAGGTCTGGTCGGTGACAATATCCACGCTCAGCTCGCCGGCGCGGTGGCGGCGCAGCATCTCAGGGAAGACGTCGGCGGCGTTGCCGACCAGGCCGACCGACAGCGCGCGGCGCTCGTTCTTGGCCTCGGTAACCAGGCGGATTGCCTCCTCGAGGTCGGTGGTGACGGTGTCGAGGTAGCGCTTGTCCACGCGCCGGCGCAGGCGGGACTCGTCGACGTCGACGATGAGGCAGACGCCGCCGTTGAGGGTGACGGCGAGCGGCTGCGCGCCACCCATGCCGCCGCAGCCGCCGGTGAGGGTCAGCGTGCCGGCGAGGGTGCCGTCGTAAAGCTTTTTGGCCACGGCGTAGAAGGTTTCAAAGGTGCCCTGCAAGATGCCCTGGGTGGCGATGTAGATCCACGAGCCGGCCGTCATCTGGCCGTACATCATCAGCCCCTCGTCTTCGAGGGCGCGGAAGTGCTCCCAGTTGGCCCAGTCGCCGACGAGGTTGGAGTTGGCGATGAGCACGCGCGGGGCCCACTCGTTGGTGGTGAACACGCCAACCGGTTTGCCCGACTGGATCAGCAGCGTCTCATTCGATTCGAGCTGCTTGAGCGTATCGACGATCGCGTCGAACGCCTCCCAGCTGCGCGCGGCGCGCCCGGTCCCGCCGTAGACGACGAGCGTGTCGGGGTGCTCGGCGACCTCCGGGTCGAGGTTGTTGTGCAGCATGCGCAGCGGCGCCTCGGTCTGCCAGCTCTTGGCGGAGATGTCGGTGCCGCGCGGCGCGCGCACCTCACGCGCGCCCTCGGCCCAGTTCTTGTCGCTCATCGTGCTTCCCTTCTGTGCGTGGCAACATCGCAACAGTTCGCCTGGGTGCGTTGGGCCGGTGTCCCGGGGCTGTCCCCGCCGCTTATCAGCGAATCGCGTTGCGGATGTACGTGA	MPLVDGDLGGQVRQRVVGGGLVGDNIHAQLAGAVAAQHLREDVGGVADQADRQRAALVLGLGNQADCLLEVGGDGVEVALVHAPAQAGLVDVDDEADAAVEGDGERLRATHAAAAAGEGQRAGEGAVVKLFGHGVEGFKGALQDALGGDVDPRAGRHLAVHHQPLVFEGAEVLPVGPVADEVGVGDEHARGPLVGGEHANRFARLDQQRLIRFELLERIDDRVERLPAARGAPGPAVDDERVGVLGDLRVEVVVQHAQRRLGLPALGGDVGAARRAHLTRALGPVLVAHRASLLCVATSQQFAWVRWAGVPGLSPPLISESRCGCT				NA	NA	NA	NA	NA
AK009_06542	570			hypothetical protein	GTGGGCGCGGGTATAGCCGGCGTCGACGTGGCGGATCACACCCATGCCCGGGTCGTTGGTGAGCACGGCCTTGAGCTTCGCCTCGGCCAGCTCGGTGCCGTCGGCCACGGTGACCTGGCCGGTGTGGATGGAGCGGCCCATCCCGACGCCGCCGCCGTGGTGGATGGACACCCAGGTCGCGCCGCCGGCCACCGCGGTCATGGCGTTGAGCAGCGGCCAGTCGGCTACGGCGTCGGTGCCATCCAGCATCGCCTCGGTCTCGCGGTAGGGCGAGGCCACCGAGCCGGAATCGAGGTGGTCGCGGCCAATCACGATCGGCGCCTTGACCTTGCCCTCCTTAACCAGGTTGTTGAAGATCACCCCGGCCTTGGCGCGCTCACCGTAGCCGAGCCAGCAAATGCGGGCGGGCAGGCCCTCGAACTCGACGTACTCCTCGGCGGCGTCGAGCCAGTGGTGCAGGTGCTCGTTGTCGGGGAAGGCGTCCTTGATCGCCTGGTCGGTGACTTTGATGTCCTCCGGGTCGCCAGACAGCGCGACCCAGCGGAACGGGCCGAGGCCCTCGCAGAATAG	MGAGIAGVDVADHTHARVVGEHGLELRLGQLGAVGHGDLAGVDGAAHPDAAAVVDGHPGRAAGHRGHGVEQRPVGYGVGAIQHRLGLAVGRGHRAGIEVVAANHDRRLDLALLNQVVEDHPGLGALTVAEPANAGGQALELDVLLGGVEPVVQVLVVGEGVLDRLVGDFDVLRVARQRDPAERAEALAE				NA	NA	NA	NA	NA
AK009_06543	852			hypothetical protein	GTGGTCGACGCTGGCCGCCCCGAGCTCTACGGCAAGGCGCACGCCCGGGCCCTCGCCGAGCTGGTTGCCGTGCACGCGCAAGCCCAGGCCCGCAGCGCGGCCGGCCTCGAGCACGCGGCGCGACTGCGCCTCGGTAAACGCGCCGCGCTCGCAGAACACGTCGATCCACTGCACGTGATCGCGCACAGCCTTGAGCATGGGGCCTGTGACCTCGTCGACGTAGGTCTCCGGGTCTGCACCTGGCGGGACGAGGTGCGCGCCGAGGAAGGTGACGTCACCGACATGGCGCGCCGCCACCTTCGCGGCCTCGGCCTCGGAGGTGACGTCGAGGCCATAGCCGGTTTTCGTCTCAAAGCTGGTGGTGCCGCCAGCGTGGCCTGCGGCGACGCGTTCGGCCACCAGGGCGTCGAGACGCGCGGCGCTGGCCGTGCGGGTCGCCTCCATGGTCACCGCGATCCCGCCGGCGGCGTAGGACTTTCCCGCCATGCGCGCCTCGAACTCGTCCGCGCGGTTGCCGTCGAAGACCATGTGGGTATGGGAATCCACCCAGCCGGGCAGCACCGCGCGCCCGCCGAGGTCAACGGTCTCCTCGGCGGGCGGGGCTTGGTCAGCCGGCCCGACCCACTCGATCACCCCGTCGCGGACAACCAGCGCGGCGTTTGTGATCGTGCCCAGCGCAGAGACGGTGCGAAGTTCCGAGATCCCGGTAAACAAAGTAGCCATGCCGGAAACCCTAGTCGCGGGCCTGGAATTTCATCGGAATGCGCACCCCGCGCTCCTTCGCCACCTCGTGGGCGCGGGTATAGCCGGCGTCGACGTGGCGGATCACACCCATGCCCGGGTCGTTGGTGA	MVDAGRPELYGKAHARALAELVAVHAQAQARSAAGLEHAARLRLGKRAALAEHVDPLHVIAHSLEHGACDLVDVGLRVCTWRDEVRAEEGDVTDMARRHLRGLGLGGDVEAIAGFRLKAGGAASVACGDAFGHQGVETRGAGRAGRLHGHRDPAGGVGLSRHARLELVRAVAVEDHVGMGIHPAGQHRAPAEVNGLLGGRGLVSRPDPLDHPVADNQRGVCDRAQRRDGAKFRDPGKQSSHAGNPSRGPGISSECAPRAPSPPRGRGYSRRRRGGSHPCPGRW				NA	NA	NA	NA	NA
AK009_06544	285			hypothetical protein	GTGGAGGTCGGCGGCCGCACCGGGCACCAGCGTGCCCTTTGCGGGGCGCCCCTGCGGGTCCTTGCCCTCACCCACGTCATGGCGGCGCAGGGCTTTGGCGCCACCAGTGGTTGCGGCGGCGATCGCCTCGTCGAGGGAGAGGTGCTGCTGCAGCACCGCCGTGGTGACGCAGAAGTTCATCGCCGAAGTGTACGAGGTACCGGGGTTGAGGTTAGAGGCGATGGCGACGGTGGCACCGGCATCGATAAGCGTGCGCGCGGGCGCGAGCTTTTCGCGAGTGGATAA	MEVGGRTGHQRALCGAPLRVLALTHVMAAQGFGATSGCGGDRLVEGEVLLQHRRGDAEVHRRSVRGTGVEVRGDGDGGTGIDKRARGRELFASG				NA	NA	NA	NA	NA
AK009_06545	1098	msiK	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	ATGGCGAACGTAGTCTTTAAGCAGGCCTCGAGGATCTTTGACGCCTCGCAGCCCCCGGCCGTCAACCGCATCAACCTCGAGATCGCCGATGGCGAGTTCCTCGTCCTCGTCGGCCCTTCCGGATGCGGAAAGTCCACCACCTTGCGCATGCTGGCGGGGCTTGAACCCGTCGACGAAGGTGAGATCCTCATTGATTGCAAGGATGTCTCCAGTACGCGCCCGCGCGACCGCGATGTCGCCATGGTCTTCCAGTCCTACGCTTTGTACCCCAACATGACGGCACGCCAGAATATGGCCTTTGCTTTACAGAATGCGAAGGTGGGCAAGCCGGAGATAGAAAAGCGCGTCGCCGTCGCCGCCCGCATGCTTGAGCTTGAGGGTCTGCTTGACAAGAAACCGGCACAGATGTCGGGCGGCCAACGCCAGCGCGTCGCCATGGGACGTGCGATCGTGAGGGATCCGAAAGTTTTCCTCATGGATGAGCCCTTAAGCAACCTCGACGCCAAGCTGCGGGCGTCGACACGCGCACAGATCTTGCAGCTCCAGCGCGAGCTGGGCACCACCACGGTCTACGTCACCCACGACCAAACCGAAGCGATGACCTTAGGTGATCGTGTCTGCGTGCTCAACCGGGGCGTGATCCAGCAGGTGGATACGCCACGCACACTTTACGACAACCCAGGCAACACCTTTGTGGCAAGCTTCATTGGATCCCCCGCGATCACGCTTATCGACGCCCTGCCTGCGCGCCAGGGGTACGTCACGTTCAACGGCTCTCAGATGAGGCTGCCGGAGCCGGTAGCGGCTAAGGTCCGCGAGGACCGTGTCGTGCTGGGGGTGCGCCCGGAGAACTGGGAGATCGTTTCCGCGGGCGAGGGCATGCCGATGTCTGTCGACATTGTCGAGCACCTCGGAGCTGAGGAGTACGCCTACGGTATATGCGCTGCTGAAGGGGTTTCGGTACGCGGCGGCCGACTCACCGTCCGTGTCCCGCACGGGGGGCACGTGGAGCAGGGCAGCACAATTTACCTGCGGCCCGCCCCCGGAGGCGCGCTGTACTTCCACCCCGAGACCGAGATCAACTACGACTACCTCTGA	MANVVFKQASRIFDASQPPAVNRINLEIADGEFLVLVGPSGCGKSTTLRMLAGLEPVDEGEILIDCKDVSSTRPRDRDVAMVFQSYALYPNMTARQNMAFALQNAKVGKPEIEKRVAVAARMLELEGLLDKKPAQMSGGQRQRVAMGRAIVRDPKVFLMDEPLSNLDAKLRASTRAQILQLQRELGTTTVYVTHDQTEAMTLGDRVCVLNRGVIQQVDTPRTLYDNPGNTFVASFIGSPAITLIDALPARQGYVTFNGSQMRLPEPVAAKVREDRVVLGVRPENWEIVSAGEGMPMSVDIVEHLGAEEYAYGICAAEGVSVRGGRLTVRVPHGGHVEQGSTIYLRPAPGGALYFHPETEINYDYL	PGPT0016850_217	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
AK009_06546	783			hypothetical protein	TTGCCTTCCCGCTCGCTGAGCTTAAAGCTTCGGCTCGATGTCGCGCTTGACCACTTGCTCGGTTTCGCTGTCGAGTTCAGCGAACACCTTCTCCACGTCCTCCCCGCCAATGGTGATGCGATCGAGTGCCGCACCGATGCGCTGTCCGCCACCCGGGACGAAGACGCGGGCGAAGTCCTGCGACTTGGTGTTCTCCCCGAGCTGTTCGATTGCGGTGCGCGCGTTCGGGTTCTCGTTGAGGAAGGACTCCTCACGCGGGTTGTCCACCGCGTTCTTGCGCACCGGCATGTAACCCGTCGCCTGGGTGAAGGTGATGGTGTTATCCTCGCTGGTCATGAAGTCCATGAACTTTACAGCGTTCGCCTTGCGCTGATCGGAAATGCCGTTCGGGACAGCCAGGCCAGCACCACCGGTTGCAGCCGACGGGCCGGGGCCCGGCAGGAAGGTGGTCATGAACGGCACCGTCGCGGTCTTCTTCAACCCACCGAGAGAACCGGTCGACTCGAGCAAGCCGGAGGCCTTGCCACTGCCGAAGGCGACGGTGGGGTCGGTACCGATCTCAATGTGGCCCTTCTTCACCTGATCCTGCAGGAACTTTCCTGCCTCAATGGTCTCCGGGGAGCTAAACATCGGTTTCCACTCATCCGAGTAAGCACCGCCGAACGCCCACACCATGCCTTGGAAGTACCAGTCCAGGTAGTTCGAACCGTCCGGCACGGTCAGCGCCGGCTTGTTCAGCTCCGCCTTGATCTTGGCAGCCCATTCGTCGAACTCCTGCCATGA	MPSRSLSLKLRLDVALDHLLGFAVEFSEHLLHVLPANGDAIECRTDALSATRDEDAGEVLRLGVLPELFDCGARVRVLVEEGLLTRVVHRVLAHRHVTRRLGEGDGVILAGHEVHELYSVRLALIGNAVRDSQASTTGCSRRAGARQEGGHERHRRGLLQPTERTGRLEQAGGLATAEGDGGVGTDLNVALLHLILQELSCLNGLRGAKHRFPLIRVSTAERPHHALEVPVQVVRTVRHGQRRLVQLRLDLGSPFVELLP				NA	NA	NA	NA	NA
AK009_06547	291			hypothetical protein	GTGCATGTCGTTGTAGAGGTAGTCATCGCGCAGGGTGTCCACATAGGAGTCGGCGTCAACGCCGTTTTGTTCCCACAGCTCGTCGAGCGGGGTTGTGGCTTCATTGAGCGCGAAGTTAAACCACGTGACATCGGAGGCGACGATGACATCGGGCAGGTCACCCCCGGCGAGTGCGGCGTTGAAGCGCTGTGCAACCTCTTCGTAGTTCTTACCTGCGGTCACGAGCTCGACCTGGAGGTCAGGGTTTTGCTTTTCAAATTCCTCGATGAGCTGAAGCTCTACATCGCGTGA	MHVVVEVVIAQGVHIGVGVNAVLFPQLVERGCGFIEREVKPRDIGGDDDIGQVTPGECGVEALCNLFVVLTCGHELDLEVRVLLFKFLDELKLYIA				NA	NA	NA	NA	NA
AK009_06548	135			hypothetical protein	GTGGTTCGACCAGAAGGTAATCGTCGAGGCGTCGCCCTCCTGCGCGGTGTCGTTAGCAGTGTTGCCGGCAGAGGTGCTGCCGCCAGCGCAGGCGCTCAGGCCGGTAGCGAGCGCGAGCGCCGCACCGAGCGCTAA	MVRPEGNRRGVALLRGVVSSVAGRGAAASAGAQAGSERERRTER				NA	NA	NA	NA	NA
AK009_06549	717			hypothetical protein	GTGGCAGAGCTCCGGCTTCTCCAGCTACCTACGCAACTCCGTGATCATCACACTGGCTCTCACCGTGGCGGAGGTGACTCTGGGCGTGATGTCCGCCTACGCCTTCGCTTTCCTCCGCTTCCCTGGCCGCGACCTGCTGTTCCTGCTCGTCATCGCCGCGCTCATGGTGCCCAACGAGATCACCATCATTTCCAACTACGCGCTGGTCGCGTCGCTGGGGTGGCGCGATACCTACCTCGGCGTCATCGTGCCTCTTGCCGGTGTCGCCTTCGGCGCCTTCTTAATGCGCAACCACTTCCAATCCCTTCCGTCGGAGATCCTGGAGGCGGCGAAAATGGACGGGTCCGGGTTTTTCACCACCCTGTTCCGCGTGGTCCTGCCGATGTCGTGGCCGACCCTCTCGGCCTTCGTGCTGATCACGGTGGTCACCGAGTGGAATCAGTACCTGTGGCCGTTCCTCATCACCGACACCCCTGCGGCGGCGACCTTGCCGGTTGGTTTGACCCGACTGCAGGACGCCGAGGGAGTAACCAACTGGGCACCGGTGATGGCTGGAACTGTCCTGACAACCCTGCCCATGATCTTGATCTTCATCGCCATGCAGCGGCAGATGATCAAGGGATTGACAGCTGGCGCAGTCAAAGGCTGACGTCGCTCACACACTACCAGTACGAAGGAGTACACACATGTCCCACACTTTTCGATCGCGCGTCTTAG	MAELRLLQLPTQLRDHHTGSHRGGGDSGRDVRLRLRFPPLPWPRPAVPARHRRAHGAQRDHHHFQLRAGRVAGVARYLPRRHRASCRCRLRRLLNAQPLPIPSVGDPGGGENGRVRVFHHPVPRGPADVVADPLGLRADHGGHRVESVPVAVPHHRHPCGGDLAGWFDPTAGRRGSNQLGTGDGWNCPDNPAHDLDLHRHAAADDQGIDSWRSQRLTSLTHYQYEGVHTCPTLFDRAS				NA	NA	NA	NA	NA
AK009_06550	891	melD	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	TTGCGGGGCTCGCGTCTCCGGGTCAATTGGCGTGAGGTGGGACTCGCAGCGGCCTTGATCGGGCCGAACTTGATCCTGTTGATCCTGTTTACGTATCGCCCGTTGGTAGACAACATCCGGATCTCCTTCTACAACTGGAACATCGCCTCACCGACGATGAACTTCGTCGGGTTCGACAACTACATCCAGTGGTTCCAGGCCCCGGAAACGGGGCGGGTTGTGTTCAACACCGTCGTTTTCACATTCAGTGCTGTGGCCGGATCGATGATTCTGGGTCTAATCCTCGCGCTGCTGCTCGACCAAAAACTCGCGGGGCGCGCTGCGATGAGGTCCGTCGTGTTCGTGCCCTACGTGGTAGCGGGAGCTGCCATCGGCGTCGCGTTTCAATTTGTTTTCGATCCCAACTACGGGTTGATCCAGTACGCCCTTGGCCTCATTAATGTGCCGGTGCCCAATTTCTATCAGAACCAGAACTGGGCTCTGTTTATGGTGACGGTGACCTACATCTGGAAGAACACCGGCTACACCTTCGTGATCTATCTCGCTGCGTTGCAGGGGCGTCGGAAGGATTTAGACGAAGCCTCGGAAATCGACGGTACCCCGACCATCCGTCACTTCTTTCGCGTGGTTGCGCCCCAGCTGCGGGGGTCGACCTTCTTCCTCCTTATCACCGTGCTACTCAATTCTTTCCAAGTTTTCGACATCATCAGTGCGATGACCAATGGCGGTCCTTTTGGTTATGGAACCGCAACGATGGTCTATCAGGTGTACCAGGAGACCTTCATTAATAACCGGGCAGGCTACGGCGCCGCGATTGCCACGATCATGTTCGTGGTCGTGCTTGCGATCACGGTTGCGCAGCTTCAGCTCCAACGCAGGATGGAGAAATAG	MRGSRLRVNWREVGLAAALIGPNLILLILFTYRPLVDNIRISFYNWNIASPTMNFVGFDNYIQWFQAPETGRVVFNTVVFTFSAVAGSMILGLILALLLDQKLAGRAAMRSVVFVPYVVAGAAIGVAFQFVFDPNYGLIQYALGLINVPVPNFYQNQNWALFMVTVTYIWKNTGYTFVIYLAALQGRRKDLDEASEIDGTPTIRHFFRVVAPQLRGSTFFLLITVLLNSFQVFDIISAMTNGGPFGYGTATMVYQVYQETFINNRAGYGAAIATIMFVVVLAITVAQLQLQRRMEK	PGPT0016840_149	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
AK009_06551	870			hypothetical protein	ATGAGCCGTCGCCAGGCCAAACTCGCCGCCCGCGCCGCTGAGCGTGAGGCGCTGCAGAAGGATCCCCGCCCGTACGCAGGCTTGGCGGCGGAGGCGGATCTGATCGCGTTACAGGAGTTCGTCCCCTCCGCAGTGGCCCGGCTCGAGGTCGGTGGTGAGCCCGTCAACATCGTGACCGTCCTGCCCGGTGCGGGCGCTGCTTTACGACGCTCCGCGGCCGACGGAGGTCAGAGATTTGTAGCGTTGCAGGTCGGCGCGCACTCCCAGAACCCCGGTCGCGATCTCGCCTACGCGCTGAACTGGGTGCTTTCCGCCGCGCCGGGTGAGTCTTTGCAGTCGACGGTATCCGATGGCACCCAGCCCGAGCTTTCCTCGCTAATCGACGCCGCCGCCACGCTCGAGATCACCGAGCACCAAGACTTCTCCTGGTGGTTCCCGGAGGATGCGGCCGTGCCCGCCGAGGTGCGCCAGGCATTGTCCCGGGCCAACGATGCGGTGATTCCGTCGACACGCGTCGCCGCGGACGTGCCAGGTTCCATCTGGTGGGTCAACCCCGGCGGCGGCAAGGGCCATATCCGCTGGGTGCGCACCGACGACAACGAAAACCAGATCCTTGCCGCCCTGGCACGTATCGCCGCGCGTGGGGAGCTCACCGTCGGCGAGGGCAGCAAGTTTGCCGGTGCGTTTCGCACCCACGGCATCGTGGCGCCGGTGTGGGACGTCGATCCTTCCGTCGATGCGGCCTCCTACGCCGGTGCGCTTGAGCAGCTCGAGAAAAAGATTTCTGCGGAGTACTCCAACGACGCGCAGCTGAGCGCCGATGAGCGCAAGCAGCTCGACAACATCAAGTCGCGCCAGGTCACGATTTAG	MSRRQAKLAARAAEREALQKDPRPYAGLAAEADLIALQEFVPSAVARLEVGGEPVNIVTVLPGAGAALRRSAADGGQRFVALQVGAHSQNPGRDLAYALNWVLSAAPGESLQSTVSDGTQPELSSLIDAAATLEITEHQDFSWWFPEDAAVPAEVRQALSRANDAVIPSTRVAADVPGSIWWVNPGGGKGHIRWVRTDDNENQILAALARIAARGELTVGEGSKFAGAFRTHGIVAPVWDVDPSVDAASYAGALEQLEKKISAEYSNDAQLSADERKQLDNIKSRQVTI				NA	NA	NA	NA	NA
AK009_06552	339			hypothetical protein	ATGCTACCGCACCGCCGCCGGGTTAACCGGATTCTTCGCAAAGGTCTCCACAGCCAGGTGCGGCAGATCGGTGGCGAAGACGTCGACGCCGTTGTCGCGGCACCACAGCATCTGCTTCGGCAGGTTCACCGTCCACGTGTAGGTTTTCAGCCCCTTGAAGCCCATCAGCTCCGGCTTGGCCTGCAGGTGCGCGAGCGCCGGGCCCACGCCGTAGGGGCGAGACAGCATGTGGTTGTTCTTGTTCCACTTCTTCTCGCGCAGGCGGAACAGGTAGTAGGTCTCCAACTCCGGGGCGAACTCGGTGAAGTAGCGCATCGCCCGGTGGGAAAACGAAATTAG	MLPHRRRVNRILRKGLHSQVRQIGGEDVDAVVAAPQHLLRQVHRPRVGFQPLEAHQLRLGLQVRERRAHAVGARQHVVVLVPLLLAQAEQVVGLQLRGELGEVAHRPVGKRN				NA	NA	NA	NA	NA
AK009_06553	336			hypothetical protein	GTGCACGCGCTCGGATTCGCGCAGGCCCGCGTAGTGCAGGCCGCGCAGCGTCTGCTCGTCGACCTCGGGCCCGTAGCGGGTGGGGTGCTTCGTTTCCACGTAGATGTGCTTGTCGGGGTAGTCCTGCATGAGCTCGAGCAGCTCGGCAAGCCGCATGATGCGCTGCGGGTTGTCCGGCGTGCCCGCGTTGAGGGTGCGCAGCTCCGACCAGTCGGTGGCCGACACCCTGCCCCGCCCGTTGGTGGTGCGGCTCAAAATCGGGTCGTGGAAGACAACCAGCTGCCCGTCGCGGGTGAGCCGGACGTCGCACTCGATGCCGTGGATCGGCAGGCGTAA	MHALGFAQARVVQAAQRLLVDLGPVAGGVLRFHVDVLVGVVLHELEQLGKPHDALRVVRRARVEGAQLRPVGGRHPAPPVGGAAQNRVVEDNQLPVAGEPDVALDAVDRQA				NA	NA	NA	NA	NA
AK009_06554	2097			hypothetical protein	GTGCGCGACGATTCCGGGGTCGTTGCTGGTCTCACGCTCTCGAGCTGCGTTACTGCTCGTCAGGATGGTCACGTCTGTTTAACCTACAACCGCTTGGCCAATTGCGCGACCGGAGCGAAGTCCGTCCTGCGAGATGTAGCTCTTTTTGCAACAATGCTGGTTATGCAATCGCCTCTGAAGCGCCTGCCGCGCTTCCCCCTCGCAGCCGTCCTCCGCAACCGTGCTGCGGACGCACCGACGCTTGATGAAGCGATCGAAAACGCTAAGCAGCGCTACAAGTTTCAACGTCACGGCATCCTGGCCGCGCCGTTGATGGTGGTGGAGGTCTGGGCCGATCTCACCCCCGGCCTGCGGCTGAGGGGGCTGCGCCGCCTACCTAAAAACTTCGGCCCCGGCGTTTTGGGCGCGGAAATAGCGACCTGGGGTGCGATTTCACCGTCGCTTCTGCCCCACCGTTGGTGGGCGGTAGCGGCCAACGTCGCGATCTGCCAGGGCGTGGGCCACATCGCGGGCAACGTGGTCAATCAGACCGTCGCGCGCGGTGTGCGCTCGAGTGGGATTGTGCGCGACGAGCGCGTCGGAAAGTGGTCGAACACCGCGCTGCACTGGGGGATGAGCGCGGTGACTGTCGTTACATTCATCCAATCGGCGCGGCGCCACGTTAAGCAGGTCGATTTGGTGGGCGGCGAGGACGAGTTCAGCGTCGCAGAGTCCTTCGTCGGGATCACGCTGGGCACGCTCGGTTACGGGGTACTGCTCGCCACGGGCGAGGCGCTGCAATCAATCGTCGATACCGCGGCTGAGCTTCTGGGCCGGCGCCTGCCGCCGGTGACGTCGTGGCCGCTGGCGATCATCGCCGCCGGAACGGTCGTGGGCGTGTTCACCGACAGGCTCGTCGTGCGCCGCTTCCTCTCGCGCGCGTACAAGAGTGCCGAGGAGCTCGACCGCCAGTTCATGCAGGGCGCGGATCGGCCGACCGAGCCGGAGCGTTCGGGCTCGCCGCATTCTGAGGAGCGTTGGGCGACGATGGGCCGCCAGGGCCGCGCGGTTGTCGCCGGCGGGCCCCGCAAACGTGATATCGCAAGGATCATGGGGTCTGCCACCGCCGAACCGATCCGCATCTTCATCGGGCTTGACGACGGCCGCTCCTACGACGACATGGTAGCCGCGGCGCTGCGCGAGCTGGATCGCACTGACGCCTGGTCGCGCACCCACCTCGCTGTGATGTCGGCGGCCGGGACGGGCTGGATCAACGACTTTCTCACCTCCGGGTTCGAGTTCGTCGGCCGCGGCGACACCGCGATCGTGGCCATGCAGTACTCCTACCTGCCCTCCGCCTACTCCTACCTCGCGGACCGCGACTCCCCCGTGCGCTCATCGCGCCTGCTTATCGACACCATTCGCAAACGCTTGGGGGAACTTCCCGAAGACTCGCGCCCGAAGCTCTACGTCGCAGGCGAGTCCCTGGGCGCCTACGGCGTCACCGACGCCTTCGACACCATCGACGAGTTCCTCGACGGTGTCGCCGGTGGCGTGTTCACCGGCGTACCGGGATTCTCGCGCAGCCACAGAGAACTGACCGAGAACCGCGACGCTTCAAGCCCGCAGCGCCTCCCCATCGTCGACGGCGGTCGCCACATCCGGTTCGCCGCGCACCCGAGCCACATCCGCCACGACTTCGAGGGCAAGCCCTTTGCCAACGAGTGGGAAGAACCGCGGGCCGTGTTTGCGCAGCACGCCTCCGACCCGGTGGTGTGGTGGGATTGGAAGCTGATCTACCAGGTGCCGGACTGGCTGAAAGAGCCCGGCTCCCGCGGAGTCGAGGCCCCCCGCGCGCAGCGCCTCGACGTTCCCGCCACGCTGCGCTGGGCGCCGTTTATCACGTTCTGGCAGGTCGGGATGGACCAGCTGGCCTCAAAGGACTACCCCTCGCCACACGGGCATAACTACCACGATGAGACGCTGGCCTACTGGGCGGCGGTGATGGACGTCGACGAGCCGGAGGAAACCCTCGAAGACGCCGCGAGCTGGATCCACAGGGACGCCACTAAGCTGCGCCGCCCACCGGGCGGGTTTGCCAACCGCCACGGGTACTAA	MRDDSGVVAGLTLSSCVTARQDGHVCLTYNRLANCATGAKSVLRDVALFATMLVMQSPLKRLPRFPLAAVLRNRAADAPTLDEAIENAKQRYKFQRHGILAAPLMVVEVWADLTPGLRLRGLRRLPKNFGPGVLGAEIATWGAISPSLLPHRWWAVAANVAICQGVGHIAGNVVNQTVARGVRSSGIVRDERVGKWSNTALHWGMSAVTVVTFIQSARRHVKQVDLVGGEDEFSVAESFVGITLGTLGYGVLLATGEALQSIVDTAAELLGRRLPPVTSWPLAIIAAGTVVGVFTDRLVVRRFLSRAYKSAEELDRQFMQGADRPTEPERSGSPHSEERWATMGRQGRAVVAGGPRKRDIARIMGSATAEPIRIFIGLDDGRSYDDMVAAALRELDRTDAWSRTHLAVMSAAGTGWINDFLTSGFEFVGRGDTAIVAMQYSYLPSAYSYLADRDSPVRSSRLLIDTIRKRLGELPEDSRPKLYVAGESLGAYGVTDAFDTIDEFLDGVAGGVFTGVPGFSRSHRELTENRDASSPQRLPIVDGGRHIRFAAHPSHIRHDFEGKPFANEWEEPRAVFAQHASDPVVWWDWKLIYQVPDWLKEPGSRGVEAPRAQRLDVPATLRWAPFITFWQVGMDQLASKDYPSPHGHNYHDETLAYWAAVMDVDEPEETLEDAASWIHRDATKLRRPPGGFANRHGY				NA	NA	NA	NA	NA
AK009_06555	570	msrA_2		Peptide methionine sulfoxide reductase MsrA	GTGCTGGCCCGGCCCCGACCCCACGCTGTGTTGGGCACCCCGATTACGGGCCCCTGGCGCGAGGGGCAAAAGAGGCTGCTCATCGGACTGGGCTGTTTCTGGGGCGTGGAAAAAATGTACTGGCAGCTAGATGGTGTCGAATCCACCTCCGTCGGTTACGGCGGTGGGGTGACCCCGAACCCGACCTACCGCGAGGTCTGCTCCGGAGGAACCAACCACACCGAGCTGGTCGAGGTGGTCTACGACCCGCAGCGCATCACACTCAAGGAGCTCGTCCGCGCCGGGCTTGAGGCCCACGACCCCACCCAGGGCTTTCGCCAGGGCAACGACGTGGGCACCCAGTACCGCTCCGCCTTCTACACCGACACCGAGGAGGAGGCCGAGCTGATCCGCGGCTGGGTGGACCAGTACGGCGAGCAGCTTGCCCAGGCGGGCCTGGGGCCGATCACCACCGAGGTGCGCTCAGGCGCCGACTACTACCTCGCCGAGGACGACCACCAGCAGTACCTGCACAAGGTGCCGGGCGGTTACTGCCCGCACCACTCCACGGGAATCGCCTGCGGCATTTAG	MLARPRPHAVLGTPITGPWREGQKRLLIGLGCFWGVEKMYWQLDGVESTSVGYGGGVTPNPTYREVCSGGTNHTELVEVVYDPQRITLKELVRAGLEAHDPTQGFRQGNDVGTQYRSAFYTDTEEEAELIRGWVDQYGEQLAQAGLGPITTEVRSGADYYLAEDDHQQYLHKVPGGYCPHHSTGIACGI	PGPT0013065_2444	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
AK009_06556	648			hypothetical protein	GTGCTCCCACATGTCGAGCATGAGCAGCGGGGTGAAGTCAACCGAGATGTTGCCCTGCTGGTCAGTCATCTGCTGGATGATAAGGCGACCAGCGATGTGATCGTAGCCGAGCACAGCCCAGCCGGAGCCCTGCAGGCCGTTAGCGATGCCCTCGAAGTGCGCCTGGAAGTTTTCGAAGGAGCCGAAATCGCGGTTGATGGCCTCGGCGACCTCACCGGTCGGCGCGCCACCGGCGTTCGGCGCCATGTTCTTCCAGAAGATGGAGTGGTTGGTGTGGCCACCCAGGTTAAACGCCAGGTTCTTGGTCAGGGCGCGCAGGGTATCCGGGTTAGCCTCACCGCCCCGCTCAGCCTCGAGTGCCTCGAGTGCAGCGTTAGCGCCCTTGACGTAGTTGGCGTGGTGCTTGGAGTGGTGAAGCTCCATGATCTCGGCGGAGATGTGGGGCTCCAGCGCGTCGTAAGCGTAGGGCAGGTCAGGAAGCTCGTAAACAGCCATGATTCCTCAAATTCCTTTCGGTTGTTTTTATGGTCCGCATCCCATGATAGGGAAAATCCTGGGGACGTGTCCCCGGGTTGCATGCTCAGGGAACATTCCCGCGACCGGCCACGTTGGCTCGGGTATGGGATTTCTTTTTGGACGCACACCTGA	MLPHVEHEQRGEVNRDVALLVSHLLDDKATSDVIVAEHSPAGALQAVSDALEVRLEVFEGAEIAVDGLGDLTGRRATGVRRHVLPEDGVVGVATQVKRQVLGQGAQGIRVSLTAPLSLECLECSVSALDVVGVVLGVVKLHDLGGDVGLQRVVSVGQVRKLVNSHDSSNSFRLFLWSASHDRENPGDVSPGCMLREHSRDRPRWLGYGISFWTHT				NA	NA	NA	NA	NA
AK009_06557	879			hypothetical protein	GTGCATGGCGAAGAAGCTCGCGGTAAACACGAGCAGGCCGGCGAGCGCGAGCCACAACGCGCCGCTGCCCGCGGCCAGCGCGCCGAGGAGCATCAGCGTTGCGCCCGCCCCGACCACGCGGCCGCTCCCGAATCGGTGCACCATCGAGCCCGCGCGTGCCGACGACCACGTGCCCGAGAGGTACATCACGAACACCAGGCCAGCCAACGCCGGCGGCAGGCGGAAGTGGTCAACGGCGCGGTAGCCGAAGAAGTTGTACATGGACACGAACACGCCCATGCCGATGAACGCGGTGAGGTAGAGCGCAACAAGGCGCGGGTTTTTCAGGTGGCGCGCCATGGCCCGGATCTCCGCGCTGGGGCGGATGGACTCCTTCGGGCGGAAGTTGCGTTGCTGCGGCAGCAACAGCGCCACCGCGACGGCGAGAACGAGGGCGAAGGCCGACGTGGCCACGAGCGCGACGCGCCACGACGCGAACTCGAGCACGAGCGAGGGAATCAGGCGCCCGCTGAGCCCGCCTATCGACGTCCCCGCGACGTAGAGCCCCATCGCCGCGGGCAAATCCGCGTCGTCGACTTCCTCCGCCAGCCACGTCATCGCAACCGCAGGGGCCCCGGCGATCATCGCGCCCTGCACCGCGCGCAACGCGATGAGCTGCGGCGCGCTCTGCGCGAGCGGCAGCGCCAGGCCGATCAACGTGGCGGCGAGCGCCGAGATGATCAGGATGCGCCCACGGCCGTACTTCTCCGAGAGGACGGAGAAAGGCACCACGCACAACGCCAGCGCCCCGGTGGCGGCGGAAATGCTCAGCGCCGCGACCGAGGGCGATACCTCAAGCTGCTGGCTCAGCGTCGGCAGCAGCGCCTGAGTGGAATATAG	MHGEEARGKHEQAGEREPQRAAARGQRAEEHQRCARPDHAAAPESVHHRARACRRPRAREVHHEHQASQRRRQAEVVNGAVAEEVVHGHEHAHADERGEVERNKARVFQVARHGPDLRAGADGLLRAEVALLRQQQRHRDGENEGEGRRGHERDAPRRELEHERGNQAPAEPAYRRPRDVEPHRRGQIRVVDFLRQPRHRNRRGPGDHRALHRAQRDELRRALRERQRQADQRGGERRDDQDAPTAVLLREDGERHHAQRQRPGGGGNAQRRDRGRYLKLLAQRRQQRLSGI				NA	NA	NA	NA	NA
AK009_06558	852			hypothetical protein	ATGCGCGAACACGTCGACCCACTGCGCGGAGGCGATGAACTCGCGCACCTGCTCCTCATCCACGGACCCGAAGCGCCGCGCCGAGGACTTCAGCCAGTGGTTTTCCCCGCCCGCCGCGTAGCAGTACGCCGCGAACGTCTTGCCCGCGGCGAGCGCCTGCTCGCGCTGCTCCATCAGCCACGTCCAAAAGTCGAGGAAGTTCGCTTCCTCCCACTCCCCGCCGACTTCGTCCCAGGTCACGAACGCCCGGTACGCCTCGCCGTCAAAGGTGCCCCACAGGTAGGCGCCCTGATCGAGGTAGGCCTCCATGTCGATGTCGATCTCCACGTCGGCGCGCGGCACGCTCATCTCGGTGGTGCGCTTGAGCACGGGGATCCCCTCGCGCCAGGCGCGCGCGATGGTGGAGGGTTCGCCGGCGCGGGCGTCGATAAGCGCTTGCACCGTGGTGATGCCTTGCGCGCGGAAACCGTCGGCGCGCCCGCCGGGCAGGACCAGCGAAATGTCGTCCGCGCTTTCGAGCTGCGGCTCGCACAGCGGCCAGAAGCGGCAGGAGGCGCACTGCTTCAGCCTGCGCGGTTCGGTGGGCGTCGGCGCGCGCAGGGCGGCAAGCAGCGGGGGGATGAAGCGCTGAACGTCGGTGAGGTAGGCGCGCGAGCGGTCCTGGCCGATCAGCGCGGTGCGGGCGTCGGCACGCTCACCGAGCAGAAGGTGGGCCAGCGCAAGCCGGTAGCCGTCGATGGTGTGGTGGCGCAGCTTCGCCCCCGTTGCCAGCGGCGCACCCAAGGACAGCCGGTGCGCGGGCACGAATTTGAGCTTTTCGCTTGTCGACGCCCTAGCCACGCGGTGGTTTGA	MREHVDPLRGGDELAHLLLIHGPEAPRRGLQPVVFPARRVAVRRERLARGERLLALLHQPRPKVEEVRFLPLPADFVPGHERPVRLAVKGAPQVGALIEVGLHVDVDLHVGARHAHLGGALEHGDPLAPGARDGGGFAGAGVDKRLHRGDALRAETVGAPAGQDQRNVVRAFELRLAQRPEAAGGALLQPARFGGRRRAQGGKQRGDEALNVGEVGARAVLADQRGAGVGTLTEQKVGQRKPVAVDGVVAQLRPRCQRRTQGQPVRGHEFELFACRRPSHAVV				NA	NA	NA	NA	NA
AK009_06559	810			hypothetical protein	TTGCGGCTGACGGGCGAGCGCCTCGGGCAGCGGCGGGATGTCCGGGTGCGCGTGGCGCTGGCGCAGCCGGTAGCGGCAGCCCACGAGGTCGGAGGCCCGGATGAGTTGAAAGTCGCTCACAGCGACCCCCATCCTATCGGCCCATTGGCAGGTAAGGTATGTCACATGGGAATTATTGAAACGATCCGGAAGAACCGGGCAAAGACCAAGGCCGAGATTAAGGCCGCTGAAGTACGCGCCCGCCAGCTTGCTAAGAATGAGGCGAAGCAGGAGCACCGCACCGCCAAGTTGCTCGATAAGGCCGAGAAGCGCCTGCTTAACGAGGAAAAGGAGGGCCTCAAGCGCAAGCGCAAGCACGAGAAGAAGCTTGCCGAGGCTCACCTCAAGCGCGTTGAGGAGTCCGGGCTGACCAAGAAGAAGGCGAAGAACTGGGTCGGCGCCGCACGCGTTTTAATTCCCGTTCTGCTTCCGCTCGCGTACAAGGCGATGACCTCGTACCAGCAAAACCGCATCGAGTCGCGCGCCAACTCGATGGGCCTGAGCTCCCAGGACCTGGCTCGCCACTCCGGCCGCGGCGCGGAGCTCAAGGCGCGCATCGAGGCGCTGCGCGGCCAGACCAACAACCTGCACAACACCCCGTCGCTGTCGTCTAGCTTTATCAAGGACGTTGAGGTGCGTCTCGACGAGCTCGAACAGGCAGTGAGCAACGCAGAGCGCCTGGATACCGAGCAGCAGCGCCTCGCCCACATCGCCATCGAGCGCGACCTCGACGAGGTCACCGGCGAGATCCAGGAGAAGTCGGGCCGCTAG	MRLTGERLGQRRDVRVRVALAQPVAAAHEVGGPDELKVAHSDPHPIGPLAGKVCHMGIIETIRKNRAKTKAEIKAAEVRARQLAKNEAKQEHRTAKLLDKAEKRLLNEEKEGLKRKRKHEKKLAEAHLKRVEESGLTKKKAKNWVGAARVLIPVLLPLAYKAMTSYQQNRIESRANSMGLSSQDLARHSGRGAELKARIEALRGQTNNLHNTPSLSSSFIKDVEVRLDELEQAVSNAERLDTEQQRLAHIAIERDLDEVTGEIQEKSGR				NA	NA	NA	NA	NA
AK009_06560	825			hypothetical protein	TTGGGACAGCGCGGCGTCGCCTCGCGCGGCGGAGCGCACCGCCGCCACGAGCTCGGCCGGCGGGGCGTCTTTGAGCAGGTAGCCCACCGCGCCCGCCTCTATTGCGCCGAGGATGTCGGCGTCGGTGTCGTAGTTGGTCACCACCAGCACCTGCGGCGGGGACTCCATCGTGCGGCGGATCTCGGCGGTGGCCTCGGCTCCGGTGGTGACCTTCGCGCCCTCCGCCCCGGCGCCGAAGCGCAGGTCCATCAGGATGACGTCGATGCCGCCGGCCTGGGCCGTCGAGATCGCGCCCTCGGCGGTAGCGACCTCGCCGACCACCATGATGTCGTCGGCTTCTTCCAACACGGCGCGCAATCCCAGCCTGACAATCTGGTGGTCATCCGCCAGCAGCACCCGAATCATTTACATCTCCTCCATCTTTTGATTGATGTTACCGGGTACCGCGGCGGTCACGGCCGTCGGCCCGCCCGGCGCCGACTCCACGATCAGTTCCCCACCGAGCTCTTCGGCGCGCGAGCGCATCGCGGAGAGCCCGAGGTGGCCGAGCCCCGTCGGCGCGCTGCTCAGCGCCAGCGGGTCGAACCCGCGCCCGTTATCCACCACGTCGAGCCGCACTTCCTCGGGGCTGTACGTCAGGGTGACGCGTATGAGCGTTGCGCCAGAGTGCTGCACCGCGTTCGACACCGCGCCCTGGGCGATGCGCAGCAGACCCGCCTCGCACCGCATCGGCAGAAGCGTGTGCTCCCCGTCCGCGTCGACCTCGATGTCGATGCCGCTGGCCTGCGAGAAGTCGCGCGCGATCCGTTCGAGCGCTTGGCGTAA	MGQRGVASRGGAHRRHELGRRGVFEQVAHRARLYCAEDVGVGVVVGHHQHLRRGLHRAADLGGGLGSGGDLRALRPGAEAQVHQDDVDAAGLGRRDRALGGSDLADHHDVVGFFQHGAQSQPDNLVVIRQQHPNHLHLLHLLIDVTGYRGGHGRRPARRRLHDQFPTELFGARAHRGEPEVAEPRRRAAQRQRVEPAPVIHHVEPHFLGAVRQGDAYERCARVLHRVRHRALGDAQQTRLAPHRQKRVLPVRVDLDVDAAGLREVARDPFERLA				NA	NA	NA	NA	NA
AK009_06561	648			hypothetical protein	GTGCAGCAGCATCTGGATGCTGGACAGGCCCTGGGCGACGGTGTCGTGGATCTCGTGGGCGAGGCGTTCGCGCTCCTGGGACACGCCCGCTTCGCGCTCTGTGGCCGCGAGCTGCTGGCGCGTGGCCAAGAGCTCGTCGATAAGCGACTCGCGCTCCTTGCTCACGCGGGCAATGGTGGTAAACGCGTAGTTGGTGGCGATGACCACCAAGGCGGACAAGACGGGCCCGATCACGCCGCCGAACGTCAACCCGGTGGGCACCTGCGCGCCGACCGCGATGCCCAGGCCGAGGGCAACCCAGACCACGCCCCGCCAGTCGTTGAACGTGCGCAGGTAGACGAAGAAGAGGATGAACACCCAGTAGACGGCAAGCGGGGTGACCATCATGTCGGCGATCCACATGCCTGTCAGCGCCATCAGCCAGCCTGCCTGCCCGACGCGGCCCCAGCGCGGCATCTCGACGAGGCCGTAAAAGAGCAAAAACGCGAAAATCGAGACCAAGACGATGTGCAGCAGCGCCGAGTTCAGCGGCATCTGCACGAGCGCCAGCAGGGAAACCACCAGCAACGATGCCGACAGCACCGTGATCCCGGTGTCCAGCGCCTTGTTGTCGGGGACCTCGCGGGGTTCGCTGTCCAACTTCACTAG	MQQHLDAGQALGDGVVDLVGEAFALLGHARFALCGRELLARGQELVDKRLALLAHAGNGGKRVVGGDDHQGGQDGPDHAAERQPGGHLRADRDAQAEGNPDHAPPVVERAQVDEEEDEHPVDGKRGDHHVGDPHACQRHQPACLPDAAPARHLDEAVKEQKRENRDQDDVQQRRVQRHLHERQQGNHQQRCRQHRDPGVQRLVVGDLAGFAVQLH				NA	NA	NA	NA	NA
AK009_06562	600			hypothetical protein	ATGCGCTTTACCCTACCCACCCCCGGCCGGCGCCTTACCGGGCCTGGCGTGGCGCTTGCGATCGCCGGACTCGCGGTACTCGGCGCCGGCTGCGCGCCGGAGCCCTCGGCGGAACCCAGCGCTACTCCCAGCGCCGCACCGCAGCCGGTCAGCGACTCTGGATTGGGCGTGACCGAGCTGCCCGCCGTGGAGAAGGACCCAGCCGGAACCTGCCCCTACTTAGATACGCAGTGGGTGGCCGAGGCTAACGGCCAGAAGGTCACGGCCATCGGGGTTGACAATCGCTTCGACACCCCGGCGTGCGTTTTCTGGTCGTACCCGGAAGAACCCCAGCTCACGGTCATGGTGCGGCACATGGCCAGCCCCGAGGAAGCGATGGCGGTGGTCGATTGGGCGGCACCCATTGACTACACCGACCCCGCCAGCGAGCCTGAGGGGTGGAACGGCGGCCGCCACGGCGGCGGCGCTGTGCCCGAGCGCATCGGCGCGGCGTACTCGGTGGCGAAGGGGCCCGTGGCGGTGACGGTGTTTACCAACCAGAACGAGTCGGTCAAGGCTCAGGTTGTGGCCGAGCAGGTTATCACTAACCTAAACCTGTGA	MRFTLPTPGRRLTGPGVALAIAGLAVLGAGCAPEPSAEPSATPSAAPQPVSDSGLGVTELPAVEKDPAGTCPYLDTQWVAEANGQKVTAIGVDNRFDTPACVFWSYPEEPQLTVMVRHMASPEEAMAVVDWAAPIDYTDPASEPEGWNGGRHGGGAVPERIGAAYSVAKGPVAVTVFTNQNESVKAQVVAEQVITNLNL	PGPT0013330_2747	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
AK009_06563	387			hypothetical protein	GTGGTGCGGGTCGACCCAGCGGACCTCGTCGATCTCGCCGCTGGCGACTGGGTGCAGCGCGCCGGGCGCGGGCTTGCGGATGAACACCGTGCCGGTGACCATAAAGCCCGGCTCGTTGGAGGCCTCGGCGGTAAAGACGCCGACAAAACCCAGCCCGGAGGCATCGATGTTAAGCCCGACCTCCTCGCGCGTCTCGCGCAGCGCGCAGTTAATCAGGGGCTCATCGCCCTCGGGTTTGCCGCCCGGCAGCTGGAACCGGGGGCTGCCCACTTTGCGCACGCACAACACGCGGCCAGCGTCGTCGCGGATCACGAGCGCCGCTACGCGGATGGGCTGGGGGAGGGTCACAGGTTTAGGTTAGTGATAACCTGCTCGGCCACAACCTGA	MVRVDPADLVDLAAGDWVQRAGRGLADEHRAGDHKARLVGGLGGKDADKTQPGGIDVKPDLLARLAQRAVNQGLIALGFAARQLEPGAAHFAHAQHAASVVADHERRYADGLGEGHRFRLVITCSATT				NA	NA	NA	NA	NA
AK009_06564	252			hypothetical protein	ATGGTTGGTCAGCACACCAATCACGTTGCCGTTGTGGGACGTCGTCGCCTCCGCGACCCGGCCCATGATGCCGAGGCGCGAGCCACCGTAGACCAAAGCGATTCCGCGGCGGGCCAGGGCGGCGCCGAGGGCGTCGGCAAGCTTCGCGTTGGCGGGGTCGCTGCCCAAGTTCGCGCCCGCGAAAACGGCGATGGCGTTGATCTCACGCGCGCGCAGGGCGGGGAAAATCTCCCCGGCGAGCAGCGGCGCTAG	MVGQHTNHVAVVGRRRLRDPAHDAEARATVDQSDSAAGQGGAEGVGKLRVGGVAAQVRARENGDGVDLTRAQGGENLPGEQRR				NA	NA	NA	NA	NA
AK009_06565	210			hypothetical protein	GTGATCAATCATAGACACGAATGGGCTCCAGAATTGCACCCCGAGCAAGCCAATAGGCCGGCTATGGTAGCCCAATTGCTGGCTGGTCCACTGGTCGAAGAGCTCATCAAGGGTGCCCGTGCCGCCGGGCAGCGCTACGACGGCGTCGGACAGCTGCGCCATCCGCGCCTTGCGCTGCGCCAGGGTGTCCACCATCTCCAGCCTGGTTAG	MINHRHEWAPELHPEQANRPAMVAQLLAGPLVEELIKGARAAGQRYDGVGQLRHPRLALRQGVHHLQPG				NA	NA	NA	NA	NA
AK009_06566	969			hypothetical protein	ATGAGGCGTGTCGCGGCATTCGCCGCCACCGCCGTCACCTCCGCGTTCCTGCTTACGGGGTGTCAATCCACACCGATCGACAACGTGAGCACGCACACGTCGGTCGCCCCGCCCCTAGGCGTGACCCCGACTGTCGACCCGAACCCCACCCGCGAGCAGGCCACCGCGATGATGCCAATCGCCGACCTTGAGCCCTCCGACATCGACGTCTACGTCGCCATGGGCGATTCGTATGCGTCGATGGGCTCGGCAACGGGCGAGAAGGCAGACTCCAGCTTCTGTGCGAAGTCGAAGGACAACTACCCGAACGAGCTCGCGAATCGCCTCGGCCGCTCGGTCGAGTTCACGGACGCCACGTGCCAGGGCTCGACGACGGAAAACATTATGGGCCCGCGCATCGAGGAGGACGAGAACGTCAACATCGCCCCGCAGATCGAAAGCCTGCCGCGCGACGCTGACCTGGTCACGATCTCCATCGGCGGCAACGACATGGACTTCGCCAACATCGCCCGCTGCATTAACGAGATGATGGAGGGCTCGGACCGCAACTGCGCCCAGGAGTTCGCCCTGCCCACCGCCCAGCGCCTCGCGGAGCTACCGTCCAAGTTGACCGCGGTTCACGATGAGATCCGCAAGCAGGCCCCGACCGCGATCGTGATCGCCACCGGCTACACCCCGTTGGTGTCGGTGGAACAGCAGTGCGAGCTGACGGAGCAGGTGGGGCGTGAGGGCGTCGAGTGGGCCGTGTGGCTCACCGCTGCGATCAACAACGCGGTGAAACAGTCCGCGGAGGCCAGCGGCGCGATCTTTGTGCTGCCTGACGACGTCGAGCACCACACCTCATGCGCCGTGCCCAAGGAGCGCTGGGCCGACATCGACGGCTCCGACACGAATTCCTACCCCGCGCACCCGACGCCGAACGGCCAAGAGACGATGGCGAAGACCGTCGCAGAGGTGCTGGGCCGCTAG	MRRVAAFAATAVTSAFLLTGCQSTPIDNVSTHTSVAPPLGVTPTVDPNPTREQATAMMPIADLEPSDIDVYVAMGDSYASMGSATGEKADSSFCAKSKDNYPNELANRLGRSVEFTDATCQGSTTENIMGPRIEEDENVNIAPQIESLPRDADLVTISIGGNDMDFANIARCINEMMEGSDRNCAQEFALPTAQRLAELPSKLTAVHDEIRKQAPTAIVIATGYTPLVSVEQQCELTEQVGREGVEWAVWLTAAINNAVKQSAEASGAIFVLPDDVEHHTSCAVPKERWADIDGSDTNSYPAHPTPNGQETMAKTVAEVLGR				NA	NA	NA	NA	NA
AK009_06567	153			hypothetical protein	ATGTACGAGGCCCTGTGGCACCTGCTGCCCGGACCGAAGCCCGTCAAGGTGCTGCTCGCCCTTGCGCTGGCCGTCGCCGTGTTCTTCCTGCTCATGGAAGTGGTCTTCCCGTGGGTTTCCACTCAGATGCCGTACAACGACGTCGTTGTGTAG	MYEALWHLLPGPKPVKVLLALALAVAVFFLLMEVVFPWVSTQMPYNDVVV				NA	NA	NA	NA	NA
AK009_06568	612			hypothetical protein	GTGGCGGCCTTGAACCTGGGAGTAGTCGCCGCCGATGACCCTCTGCGCGATGTCGCCCGGCAGGCAACCGGAGGCCTCGGCGGAGCGGGTGCCCGCGTCGGTAGCCATGGGCAGCACCCTGTAGGTAACCCACTGCGTTTGCGTTTCCACCACGATTGCGTCGCACGCGCGAAGGGCACCCAGGTCGTTGAAGGGAGCGCCCTTGCCCACGCGGTGCCCGGCGACGGCGAAGTTACCTGGCTCCCCGGGCAACTGGGTATCGGGGTAGCGGCCGGGCCCGGCCAAAAGGTCCTGCTCGTCGACGCCCTCGATAATCGCGAACTGGTAGTCGGAGCCGAACGCCGGGATGTACATGCGGGCGAACGCCTCGCCCAGCTCGCGCGTCGATGCGGTGCGGGGGTTGACCCACTGCTGCTCAAGGGAGTTTTCGGCATTGTTTTGCAGTTTCGCCGAGGCGAGGTTTGTCCAAAACGCTTCGTAGAACGCGAAGAGCAGGAGCAACACGCCAAAGGTGAGCAGCGCTTCGCCAACGACCTGGCTCGCGCTGGTGCGCCGTCGCGGCGGGGCGACGGGTGGCGGCTGGGTGGAGAGCATGGCCTAACATTAACCTAG	MAALNLGVVAADDPLRDVARQATGGLGGAGARVGSHGQHPVGNPLRLRFHHDCVARAKGTQVVEGSALAHAVPGDGEVTWLPGQLGIGVAAGPGQKVLLVDALDNRELVVGAERRDVHAGERLAQLARRCGAGVDPLLLKGVFGIVLQFRRGEVCPKRFVEREEQEQHAKGEQRFANDLARAGAPSRRGDGWRLGGEHGLTLT				NA	NA	NA	NA	NA
AK009_06569	1134	yidC		Membrane protein insertase YidC	ATGATTGATGCCTTTGTCTACCCCGTATCGGCGGTGATGAAGTTCTGGCACTGGCTCCTCGCCGGAGTTTTCGGAATGGAAAGCTCGAACTCTTGGGTCGCGTCGGTGGTTTTGCTGGTGGTGACAATCCGCATCGTCATCGTTCCTTTGCAGTGGTACACGTACAAGACTGCCCGCGTGGTTGTGCTGATGCGCCCCCGCTTGGCGGAGATTGAGGCGCAGTACGCCGATGAGATCACCCCCGAGAGCATCCAGGCGCACGAGCGCGCGAAGAAGGAGCTGCACAAGGAGTACAACTACAACCCGCTGGCGGGGTGCCTACCTGCGCTGATTCAGATTCCGTTCTTCCTCGGCCTGTACCGCTTGTTGCTGCGGATGGCGGTGCCCTCTTCCTCAGCGGGCCACTCGCTGGGCGTGCTCAGCCCGGCCGAGGTGGAGTCCTTCCGCGCTTCGACGCTCCTCGGTGTGCCTTTGCCCGCGTACGTCTCAATGACGCCCGAGCAGTTCGCCCATCTGGGCACAACGCTTGCCGACGTCCGCGCCCTCGCGATCCCGATGCTCCTCGCCGCAGTCTGCTTCACGACGCTCAACCTGGCGATCTCGCAGATTCGCTCGCGATCCACGCTGGACTGGGGAAGCGCACTGGCGCACCGCTCCTACGTGTTCATCTGGGCACTGGTACCCGTCGCCGGCCTTGGCCTGGCGTTCGCCGGGCTGACGGGCTTGGTCCCCATCGCCCTGCTGCTGTACTGGGTTAGCGGAAACTTCTTCACCTTTATTCAGACGATCGTGCTGTGGTATCTGATGGTCAAGCTTTATCCGCTTGCCGACGACCACCGCGCCCACATCTTGGAGAAGAAAAGCGTGGAGCTCTCCCACCGCCGCGAGGCACGCGACAAGAAGCGATCGCGCCGGCGCAGGAAGCTCTCGGCCATGTCCAACCCCTCGGCTTACGCGCAGGTGCGCACCGAGATCAGGGCTGAGAAGGACGCGGACAAGGCCGCCGCCGAAGAGGCGAAGGCGGAGAAGAAGCGCGCGAACGCCCAGCGTCGTGAAGCAATGCGGGAGATTAGGAGAAAGCGTATCGCGGAGAGGAAGCAGCGCGGCTCGTCTGACGATTCTCAGATGGAGTAG	MIDAFVYPVSAVMKFWHWLLAGVFGMESSNSWVASVVLLVVTIRIVIVPLQWYTYKTARVVVLMRPRLAEIEAQYADEITPESIQAHERAKKELHKEYNYNPLAGCLPALIQIPFFLGLYRLLLRMAVPSSSAGHSLGVLSPAEVESFRASTLLGVPLPAYVSMTPEQFAHLGTTLADVRALAIPMLLAAVCFTTLNLAISQIRSRSTLDWGSALAHRSYVFIWALVPVAGLGLAFAGLTGLVPIALLLYWVSGNFFTFIQTIVLWYLMVKLYPLADDHRAHILEKKSVELSHRREARDKKRSRRRRKLSAMSNPSAYAQVRTEIRAEKDADKAAAEEAKAEKKRANAQRREAMREIRRKRIAERKQRGSSDDSQME	PGPT0024530_4363	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
AK009_06570	576			hypothetical protein	TTGCTGGTCGGACGCGTAGCCGTTTTTCGCGGTGAGAAGCTGGGTCATGGTCGAGTGCAGCCACTCCCGGTGCGCCGTAGCCGCCGCGACGATGCGTCGCTCGGAGTCGGTTTCCGGGCGGGGGTATTCATTGGCGGCGTTGAGGAAGGGGGACCCGCGGAACTCCTTTTGGGGTTCTTCCTCGATCGCCATGTCAAAGAAGGCGAGGATTTTCTGGTCGGTATCGCGGGTCTTCTCTGTCCGCGCCTGCCAGCGGCTGCGGTAGCCCTTGTCGAGCTCTTCGAGGTACGCGATGACGAGGTTGTCTTTCGAGCCGAGCAGCGAGTAGAGCGACGCCTTAGCGACGTCTGCCTCACGGAGGATGCGGTCAATGCCGATGACGCGGATGCCCTCTTCGGTGAAGAGCTTCGTCGCTGCGTCGAGAAGCCGGTCCCGCGGTGTTGGCCGATTTCGGCGCCGCGCGGGTGCCTTCTTCTTGCCCGGCGATCCGGTCGTCACCTCTACCCCTTGTCTGTCACCCTAAATCGTTCCCTACTCAATATAGACAAACCGGTACGTTCACACCAGCCCGGGTAG	MLVGRVAVFRGEKLGHGRVQPLPVRRSRRDDASLGVGFRAGVFIGGVEEGGPAELLLGFFLDRHVKEGEDFLVGIAGLLCPRLPAAAVALVELFEVRDDEVVFRAEQRVERRLSDVCLTEDAVNADDADALFGEELRRCVEKPVPRCWPISAPRGCLLLARRSGRHLYPLSVTLNRSLLNIDKPVRSHQPG				NA	NA	NA	NA	NA
AK009_06571	618			hypothetical protein	GTGGCCGCTTGGCAGCGGTCGAAGCGCTTAGCGGCGCGAACCGCTGAACATGTTCACGATGGTCAGCAGGATCACTGCACCAAACAGGCAGGTGATGAAGCTCATGAAGATGTTGCTCATCGGGTCGTCCATGAACAGGCCGAGCAGCCAGCCGCCGAGCAGGCCGCCGATGATGCCGACGATAATGTTCAGCGGGATGCCCATCTGAGCGTCGCGGCCCTTAATCATCGAAGCAACCCAACCAGCGATGCCACCGATGATGATCCAACCAATCCAACCCCAGGTCATAGTTCAAGTTCCTTTCAAGTAGCGATCAATGTCTTCTCTATTGTGCATCATTGCCGCACGCTTCTCTGCACCAAACTACCCAATTTCGGTTACGAGTCGGAAACGATTCAGATTCCGCGAACAACCATCATGGGGCACGGTGCGGACTGCAAGAGCGCACGCGACGTAGATCCTAGCAGCATTCCCTTGAAACCACCGCGCCCGTGGGAGCCCGTGATCAGTAGCTGCGCGCCTCGCGCCGCCTCCGTCAGAGCCCGGACGGGACGATCGCGGGTGATGATCTTGCGCACCGGGACATCGCCGTACTGCTCCTGCAGCCCGCTCAGGTAG	MAAWQRSKRLAARTAEHVHDGQQDHCTKQAGDEAHEDVAHRVVHEQAEQPAAEQAADDADDNVQRDAHLSVAALNHRSNPTSDATDDDPTNPTPGHSSSSFQVAINVFSIVHHCRTLLCTKLPNFGYESETIQIPRTTIMGHGADCKSARDVDPSSIPLKPPRPWEPVISSCAPRAASVRARTGRSRVMILRTGTSPYCSCSPLR				NA	NA	NA	NA	NA
AK009_06572	645			hypothetical protein	TTGGATGGGGGCGTCGATCCAGGTGTGGACGGCGACGAGTTCCGCGTCGCGGGCGACGGCCTCCTCGAAGGCGACCTCGGTCGCTCGCTTGGACACCTCGGAGCCGTCGACGCCAACCACCACAGGACCGTACTTGTTGTCCTCGGTGACGTTGTTGTCCTCGCGGACTACTACGACGGGGCAGGAGGCGTGCGACACCACAGCGCCGGAAACGGAGCCCAGGACCATGCCCGAGAGCCCGCCGAGGCCGCGCGAGCCCATGACGATCATGGTCGCGTCGTTCGACATCTCAAGGAGCATGTCAATCGGCGAGCCCTCCGCGACCGCGTGACCGATCCGGATGTCAGGGGCGATGCTCAGCGCGAGCTCACGGGCGGCATCAATCTTGGCCGTGGTCTCGCGCTGGAGGTCGTCGAAAAGCTCTTGTGGCGGAACCATGCCTTCCGCGTACAAGAACTGGGGCATGGTGTAGCTGGCCGCGAGCTTCAGGGAGATGTCGCGCTTTGCGGCGGTGTTCGCCGCCCATCGCACTGCGTTGTCGGACGCGGGGGAGCCGTCAACGGCAACGACCACAATGTCTTCGCGGTTTGCGCTAGTCATGGGAAACACCCTTTCGGTTGTCGGTGCGTTCCGGCCCTAACCTGA	MDGGVDPGVDGDEFRVAGDGLLEGDLGRSLGHLGAVDANHHRTVLVVLGDVVVLADYYDGAGGVRHHSAGNGAQDHAREPAEAARAHDDHGRVVRHLKEHVNRRALRDRVTDPDVRGDAQRELTGGINLGRGLALEVVEKLLWRNHAFRVQELGHGVAGRELQGDVALCGGVRRPSHCVVGRGGAVNGNDHNVFAVCASHGKHPFGCRCVPALT				NA	NA	NA	NA	NA
AK009_06573	441			hypothetical protein	GTGCAGCGCGGTGCCGTCGCGGAGGACAACTTCCCCGGAATCGAAGCGTTCCAGAACCGCGGAGTCATCGTCATCCGGGTGCCGATGCCGCTGCTCAGCGATGACGCGGGCGATGAAATCGAATGCTGTGACCGGGTCGCCGTCGGGAAGCCGCACGCGGCTCGCGCCCAAACCACTTCGAGGGGGCAAAGGAATTGCCCCGTTTTTCTTCCTCCGCGCCATAATTGCGCTAAGTTTAGTGCATGGATTTTAACGCTATTCTCACGCCGCTCGTGGCGTTCTTCTCTGACGGTATTGGCAAGATCATCTTCGACGTACTGCAGGCGATTTACGGCTTCCTGTACCCGTCGAACGCTGACGCGGCGTACCCCATCGAGATCCCGAAATAAGCATAGCGACCACAGACTCAGCCCACCGCGGGGCGCTAGAATAAGGGTGTAG	MQRGAVAEDNFPGIEAFQNRGVIVIRVPMPLLSDDAGDEIECCDRVAVGKPHAARAQTTSRGQRNCPVFLPPRHNCAKFSAWILTLFSRRSWRSSLTVLARSSSTYCRRFTASCTRRTLTRRTPSRSRNKHSDHRLSPPRGARIRV				NA	NA	NA	NA	NA
AK009_06574	657			hypothetical protein	GTGTGCACTCCCCACGCCAGTCCGCACTGCGGACTCCCCTTAGGACACCTCCAAGAACCCGGGGACACCGAACTCACGCTCCGCGCCCGTAAGGGGATCGCGGAAGCCGAGGTAAACCGACTTCAACCGCATGGGCACCGCGAAGTCCTCCTCCCCGAAGGGGTTGACGGTGGGGTACACGGGGTCTCCGAGAATGGGTGCTCCTGCCTCGTTCATCTGCACCCGCAGCTGGTGGGTGCGACCGGTGACGGGCTCGAGGAGGTAGCGCGCGAGGGGGAATGTAACGCTGTGGAGGGATTGCATGGTGGGGGCGTCGATACGCAGTGCCTCGAGCACGTGAGTGAGCGCGTTGGGTTCCCTGCCCTCGATCACGGTGGAGGCGATCTCGCCATGCTGTTTGTCAATGTGGTGGTGCCACGATGTGGGCGCGGTGATGCCGATGTCTTCGGCTATCGCTTCATAGCGCTTGCGAACCTGCCGGGCGGCGAAGAGCTCCTGGTAGGCGCCGCGGTGCTGTCTTTGCTTCGTCAGCAGGAGCAGCCCCGAGGTCATGCGGTCGAGGCGGTGCGCGGGCGTGAGGTCTTCGTTGCCGGTTGCGCGGCGCAGCCGCACGGTGGCGGATTCGGTGATGTGCGCGGCGCGTGGCATCGTCGCTAA	MCTPHASPHCGLPLGHLQEPGDTELTLRARKGIAEAEVNRLQPHGHREVLLPEGVDGGVHGVSENGCSCLVHLHPQLVGATGDGLEEVAREGECNAVEGLHGGGVDTQCLEHVSERVGFPALDHGGGDLAMLFVNVVVPRCGRGDADVFGYRFIALANLPGGEELLVGAAVLSLLRQQEQPRGHAVEAVRGREVFVAGCAAQPHGGGFGDVRGAWHRR				NA	NA	NA	NA	NA
AK009_06575	453			hypothetical protein	GTGCGCGCTCATCGAAGACGAGGCGCTTTGGCTTCACCGCGTAAGCCGGCACGTCCTTCGACTCTGCCGTGGCGGAGTCGGCGGAGTCCGCAATGCGGAGTGGCCGGGGGGTGGAGCGCTCGTGGATCGAGCGATGCGTTGGTTCGAGCATCATCTCACTCTGCCACGGCAGAGTCCGCACTGTGGACTAGCCGAGAGCGAAGCATGTTGGCGCACAACGAAACAGCTTCGGGAAACGCCACCCAACTCAGCCGCTGCAGAGTGCGCCGTGCCGAAGAGCTCGTCCATTTAGGAATGCGCCGCGGGCAGCGGCTGGGTCACACGTTATACAACTTCGCCATGGCGGAGTCCGCATTGCGGACTAGCCGAAGCCGAACCATGTTGTCGTCCTCGTTCTGGCTAGTGCGAATCCTATGGACTCTGCCACGGCGGGGTTGGTGGAGATCGCAATGA	MRAHRRRGALASPRKPARPSTLPWRSRRSPQCGVAGGWSARGSSDALVRASSHSATAESALWTSRERSMLAHNETASGNATQLSRCRVRRAEELVHLGMRRGQRLGHTLYNFAMAESALRTSRSRTMLSSSFWLVRILWTLPRRGWWRSQ				NA	NA	NA	NA	NA
AK009_06576	414			hypothetical protein	GTGGTCGGGGGGTGCGTTCTACTTTTGCCCACAACACATGGGTTACCTGATTGGTTCCTACAGCAAACTCCGCCACCGCAGAGTCAGGATGGCGCTCTAATCTGCACCGCGGACTCCGCCACGGCAGAGTTGGGAACAAGTTCATCGTGCCGGCTCAGTAAAGCGAGCACGAAGTATTCGCAACTCTGTAGCGGCAGAGTTAGGTGGCGTTTCCCGAAGCCGTTTCGTGGTGCGCCAACATGCTTCGCTCTCGGCTCGTCAGCACTGCGGACTCTGCCACGGCAGAGTGAGATGATGCTCGAACCAACGCATCGCTCGATCCAAGAGCGCTCCACCCCCGGCCACTCCGCATCGCGGACTCCGCCACGGCAGAGTCGAACCGCCTTTGGGCCGGCCTGCCGGCTTACACGGTGA	MVGGCVLLLPTTHGLPDWFLQQTPPPQSQDGALICTADSATAELGTSSSCRLSKASTKYSQLCSGRVRWRFPKPFRGAPTCFALGSSALRTLPRQSEMMLEPTHRSIQERSTPGHSASRTPPRQSRTAFGPACRLTR				NA	NA	NA	NA	NA
AK009_06580	258			hypothetical protein	GTGGTAGGTAGCGAGCGGTCCGTGGGGGCCTTCAATCACTTTCACTTCGGTGTTGAAGATCTCGGTAAGGAGGTCGTCGCGCATGATCTCCGCCGGCGTGCCGAACGCCACGATCTGCCCGTCCTTCGCCGCGCAGATAAAATCGGCGTAGCGCGCCGCGAAGTTGATGTCGTGCAACACAATGATGATTGTGCGCCCCAGCTCGTGGGCGGCGTCGTAAAGGTGCTTCATCATCTCCACGGAGTGGGCGATGTCTAG	MVGSERSVGAFNHFHFGVEDLGKEVVAHDLRRRAERHDLPVLRRADKIGVARREVDVVQHNDDCAPQLVGGVVKVLHHLHGVGDV				NA	NA	NA	NA	NA
AK009_06581	333			hypothetical protein	GTGGTTCTCCTGGCGCAGGATCGAGATCGTCTTCGCGAGGTCCTTCGACTTGGTCTGCGTGACGTCCATCGAGCCGATTTCCACGGTGCCCGCGTCGAGCGAGAGAAGCCGCCCAATCATCGTCAGCAGGGTCGACTTGCCTGCGCCGTTTGGCCCCACCAGCGCGGTGATTCCACCTGCGGGGATTTGCAGGTTGACGGGGCCGATGGCGACGTCGTCGCCGTAGGCCTTGCGGACATCGGTCAGGGTAATCACAAGCGTCCCTTTCTCAAGATCACGACCAGGAAGGTGATTCCTCCCACCAGCTCGATGATGATCGAGACCACGCCTTGA	MVLLAQDRDRLREVLRLGLRDVHRADFHGARVEREKPPNHRQQGRLACAVWPHQRGDSTCGDLQVDGADGDVVAVGLADIGQGNHKRPFLKITTRKVIPPTSSMMIETTP				NA	NA	NA	NA	NA
AK009_06582	420			hypothetical protein	GTGGTTCATGATGAAGTAGGCCCCCGTGAGCACGACGTAACCGAGCACAATCGCCATGGGGAAGACGTAACGGTGGTCGTAAGTGTCCGTGAACTGGTACGCGAGCGTGGCCACGAGGAACCCGAGGAAGGTCATCGGCCCGACCAGCGCGGTGGACACCGCCATCAGGATGGACACCAAAATCAGCGTGTAGATGGCATTTTTCCGAAAACCCACCCCGAGGTTGACGGTGACGTCGCGGCCAAGCGAGAGCACGTTGAGCCGGCGGGAGTTCAGCAGCACCAGGGTCACGGCGATGAGCACGAGCGGAATCGCGACGGGATAGAACGCCGGGTCGGCGTTGTTGACGGAGCCGAAGAGTCGGGCGGTGAGCACGTCGAACTCGCTGGGCGTGAGCATGCGTTGCATGAACGTCGATAA	MVHDEVGPREHDVTEHNRHGEDVTVVVSVRELVRERGHEEPEEGHRPDQRGGHRHQDGHQNQRVDGIFPKTHPEVDGDVAAKREHVEPAGVQQHQGHGDEHERNRDGIERRVGVVDGAEESGGEHVELAGREHALHERR				NA	NA	NA	NA	NA
AK009_06583	471			hypothetical protein	GTGCAGATTGGCGGCGTTGTCGGTGAGCAGCCAGGAGTACAACACGAGCGACAGGCCCACCATGAGCACGAGCTGCAACACGAACGTCTCGAGCGTGCGCGAGGCCAGCAGCCCGGAGGCGCCGAGGAAGTAGATGGTGGCGGTGTTGATCGCGATATAGAGGGACTCGAACCCCATGATGGAAGGGGTAAGAATCCGGTTGTTGGTCACGGTCTGGAAGGCGACCGTCGCCACGCCCTGGCACACGGCGACCACCGCCATCGCGATCACCGCGTTCAGGCGCCGCTCCGCGATCAGCCAGTACGCGCGAGTACCAAAAGCCACGGGGTTGTCCCACGCGAGGAGCCCCGCGGTGAAGACCACGGCGAGCGCAACCATCACGCCGAGCGCGATGAAATAGCGCCGCTTGCTTTTCGACGTCTGAAACGCGCCGACGTTACGAACCACGCTACCCATGGCGGGCCTGCCTGA	MQIGGVVGEQPGVQHERQAHHEHELQHERLERARGQQPGGAEEVDGGGVDRDIEGLEPHDGRGKNPVVGHGLEGDRRHALAHGDHRHRDHRVQAPLRDQPVRASTKSHGVVPREEPRGEDHGERNHHAERDEIAPLAFRRLKRADVTNHATHGGPA				NA	NA	NA	NA	NA
AK009_06584	390			hypothetical protein	ATGGCGGGCCTGCCTGATAATCAGCGCGATGAACACAACGGCGCCGACGAGGCCGAGGATCACCGAGACCGGCATCTCGAACGGCGCGATGATGGTGCGGCCGATCAGGTCGCAGGCGGCGATGATACCGATGCCAAGGAGGCACACCCAGGGCAGGTTGGAGCGCAGGTCATCGCCACGGATCATGGAAACGATGTTGGGGACGATCAGGCCCAGAAATGGCAGGTAGCCGACCACAACGGTGACCACACCGGCGGCAATGGCCACCAGCGAGGTGCCCACGAGCACGATGCGGTTGTAGTTCAGCCCGATGTTGGTGGCCACGTCCTCACCCAGGCCGGCGGCGGTGAGGCGATCTGCGTAGAAGAACACCACGGCGACGACGAATAG	MAGLPDNQRDEHNGADEAEDHRDRHLERRDDGAADQVAGGDDTDAKEAHPGQVGAQVIATDHGNDVGDDQAQKWQVADHNGDHTGGNGHQRGAHEHDAVVVQPDVGGHVLTQAGGGEAICVEEHHGDDE				NA	NA	NA	NA	NA
AK009_06585	507			hypothetical protein	GTGGGCCATGTTCAACGCCACGCGCGTGCCGCGCACCATCGCACTCGTGCTCGCCGGCGCGGCCATGGCGATGAGCGGGCTGATCATGCAGATGCTCACCCAAAACCGCTTCGTCGAACCCACCACCACCGGAACCACCGAGTGGGCTGGCCTGGGCCTTCTGGCCACCATGGTGTTTGCGCCGAACGCGTCCATCCTGGTCCGGATGATCGTGGCGGTAGCCTTCGCCTTTATTGGAACCATGGTGTTTTTCGCCTTTCTGCGGCGCGTGACGCTGCGCTCCAGCCTCATCGTGCCGATCGTAGGCATCATGCTGGGCGCCGTGGTCAGCTCCGTGTCAACGTTTTGGGCGCTACAGACGCAGTTGTTGCAATCCCTAGGCGTGTGGTTCGCCGGCTCGTTCACCAGCGTCATTGCCGGACAGTACGAGGTCTTGTGGATCGTCCTATTCGTCGTCGCCGTGGTGTTCTTCTACGCAGATCGCCTCACCGCCGCCGGCCTGGGTGA	MGHVQRHARAAHHRTRARRRGHGDERADHADAHPKPLRRTHHHRNHRVGWPGPSGHHGVCAERVHPGPDDRGGSLRLYWNHGVFRLSAARDAALQPHRADRRHHAGRRGQLRVNVLGATDAVVAIPRRVVRRLVHQRHCRTVRGLVDRPIRRRRGVLLRRSPHRRRPG				NA	NA	NA	NA	NA
AK009_06586	1068			hypothetical protein	GTGCCGGGCGGGTGGCGGTGGGGGCAGAGGACATTACTTGGCGGCCTCGAACTGGTCGGCGATGTCGTTGAGGATCTCGGTGTAGGTGATGATGGACTCGTTGGTGTAGGTGTCTGCGGGCGCAACGTAGAGCTGGCCTTCCTTGACTGCCGTGGCGTTTTGCAGCGGCGCAGAATCCTCGATCACGCTCAGCGCTGCCGGGGAACCCTCATCAGTGCGCGTGCCAGCGTCGCGGTCGAGGATGAGCATCCAGTCCGGGTTGGCTGCAGCGATGGACTCGACGGAGATGTCATCGCCCTGATGGTCGTCGGTGGCGTTTTGGACCTCGAGAGCGGGCTTCATGCCGATCAGGTCGAACAGCGGGCCCCAGGTGCGGCCGACGCCCGGCGCGACGTAGCCGATCTCGCCGCCGGAGATGTTGACAGCCATCACGGTCTGCTCGGGGTTGTAGGCGGCCTTGGCGCGTTCGAGGGCGTTTTGGAAGTCGTCGACAAGCTGGGCGGCTTCCTCCTGCTTGCCGAAGATCTCGCCGAGGGACTCGGTGTGGCGGATCAGCTCGGCGTCGAAGGGCTCGCCGTCGCGCGGCTCGAAGTCGACCAGGATGGCGTCGGGGACGAGCTTCTCAATGTCGGCGTCGTGGGTCTGGAAGCGCTGGCCGGAGACGATGACGTCGGGCTCGGCTGCGACGATGGCCTCGAGGTTGGGCTCGCGATGGTTGCCGATGTCGACGATGTTGTCGTTGTCGCCGATGCCCGGGATGGTCACCGGGACGAGCGCGCGCGCCGCGGCGACGGGCTCAATGCCCCAGGTGTCCAGGAGCTCGAAGGAGCGGTTGTCCAGCGCGACGACGCGTTGCGCAGGGCTCGGGACCTCCTTGACGCCGTAATTGTCTTCGACGGTGACCGTGTTCTCGGCCTGCGCCGCCGTGGTGTCCGTGGCATCAGACGCCTGCTCCTGCGCGCCGGAGCAGGATACAACGGTCAGCGAAACGGCTGCGACGAGCGCTGCCACGGCGGTTCGGGTATTGAAACGGGACAAGGTCCGCGTCCTTTCTCTCTCAAAACTTAG	MPGGWRWGQRTLLGGLELVGDVVEDLGVGDDGLVGVGVCGRNVELAFLDCRGVLQRRRILDHAQRCRGTLISARASVAVEDEHPVRVGCSDGLDGDVIALMVVGGVLDLESGLHADQVEQRAPGAADARRDVADLAAGDVDSHHGLLGVVGGLGAFEGVLEVVDKLGGFLLLAEDLAEGLGVADQLGVEGLAVARLEVDQDGVGDELLNVGVVGLEALAGDDDVGLGCDDGLEVGLAMVADVDDVVVVADARDGHRDERARRGDGLNAPGVQELEGAVVQRDDALRRARDLLDAVIVFDGDRVLGLRRRGVRGIRRLLLRAGAGYNGQRNGCDERCHGGSGIETGQGPRPFSLKT				NA	NA	NA	NA	NA
AK009_06587	393			hypothetical protein	GTGTTTTCTAATTCAGTCGGCGGGGGTAATTTCCGGCATCACGTACTGAATGAACTCGTCGATCTGCTCTTCCGCATCGCGCTCAGAAATGCGGAAGTTGACCATCACGTGACTGATCCCGATCTCGCGCTGCTTGTGCAGCAAACGAATCAGCGCGTTGCGGCCCAGCCGGTAGCCGAAGTGGTGCCCTTCCGCCGCGGCGTCCGGGTTCGGATGCAGGTCAAGCCACAGCGACTCGGCGAAGGGCTTCCACCCGCCGCCGAGCGTATCGACGGCGGCGTTCCAGTTGTCCACGTTGACCTTCTGCATCTCAAGGCCCTTGTGGTACATCAGCCACCCGTGCGTGTGCTCGGCGCGCCACTGCATCGTCTGCTGGAGCGAACCGGTGGCTAA	MFSNSVGGGNFRHHVLNELVDLLFRIALRNAEVDHHVTDPDLALLVQQTNQRVAAQPVAEVVPFRRGVRVRMQVKPQRLGEGLPPAAERIDGGVPVVHVDLLHLKALVVHQPPVRVLGAPLHRLLERTGG				NA	NA	NA	NA	NA
AK009_06588	465			hypothetical protein	GTGCTCCGCCATCACGTCTCCCCTGGTCCCGCGATCTTGCCCGAAGGCGGGAAACTCCTCCGGCCGATCCCCCGTGGCGATGCCGAACAAGAACCGCCCTCCCGAGAGCCTGTCCAGCGTTGCCGCACGCTTAGCCATGAGCAGCGGGTGCTGGAAAGGCACTACAACCGCCGCCGTGCCAAGCGCGATCGTCGACGTCCGCGCGGCCAGGTAGGACAAGTACATCCACGGGTCCCACACCTGGCCGACGTCGCCGAAGGTCTCCACCCGCAGCGGGATGTCGCGCACCCAAACGGCCGCGAACCCGGCGTCCTCTGCCTTGCGGATCAAGCGCACCTGATTGTCGAGCGAATCCTCGGGGCTTTCCTCCGCACCTTCCTCGATCGGCAGGCTCAGGCCCACCGTCAGCTCGCCGCGTCGAAACGTGCGGGCAAACCCCGGCAGTTCTGTGTGCGGGGTCTGTGA	MLRHHVSPGPAILPEGGKLLRPIPRGDAEQEPPSREPVQRCRTLSHEQRVLERHYNRRRAKRDRRRPRGQVGQVHPRVPHLADVAEGLHPQRDVAHPNGREPGVLCLADQAHLIVERILGAFLRTFLDRQAQAHRQLAASKRAGKPRQFCVRGL				NA	NA	NA	NA	NA
AK009_06589	699			hypothetical protein	ATGGCTCGGCCCAACGACGATTTCTCGCACGTTCTAAGGGTCTTGGGTCCACCGGAGGATGCAGCGTCCACCGAGATCGTCTGGGGGCAAACGGAGACTTTCCGCCCCGAGTGGTGGGTTAAAAGCTGGCCGAGTAATCTACCGCTGCCTCATTTCCTGGCCAGGGATGACCGTTTCCTTTCTGTGTCCCGGCAGCGGTTGTTCGAACTCGGGGAGTCCGTAGAGACCGAGGCTGAGGCCGTGAGCTTCTACGTTGCCGTGTGCTCGTGGGGCGCTGGGATGAGCGCGCAGCAAACACAGCGGTGTCTTCGGCCTTTACACCAGCCCGATGCGCCGGCGAAGTTACTCCAGGGTTTGAAGGCCGCAGCGCTCAACTCAGCCGATGACGCTTACTTTGAGTTCAGGAATTACAGCAGGTCCAGGATTAAACACCTGGGGCCGGCATTCTTTACCAAACTGCTCTACTTCGCCTCGGGCCGTCCTTCACCAGCGCAGAATCGTCACCCCCTGATCCTCGATCGCAGGGTCGCGGACGCGATTGGATGGGCAAACACCTCAGGATGGCTAACCGCCGAATACTCGCGCTACCTCGACATCATCGAGCAAGTTCACGGGCAGTGGCGCCCGGACTTGCCCACCGACGTTATCGAGTACACCCTTTTCCAAGCTGGACGCTCCATTCAGGCTCCCAGCATTTAG	MARPNDDFSHVLRVLGPPEDAASTEIVWGQTETFRPEWWVKSWPSNLPLPHFLARDDRFLSVSRQRLFELGESVETEAEAVSFYVAVCSWGAGMSAQQTQRCLRPLHQPDAPAKLLQGLKAAALNSADDAYFEFRNYSRSRIKHLGPAFFTKLLYFASGRPSPAQNRHPLILDRRVADAIGWANTSGWLTAEYSRYLDIIEQVHGQWRPDLPTDVIEYTLFQAGRSIQAPSI				NA	NA	NA	NA	NA
AK009_06590	222			hypothetical protein	ATGCGCATTGAAGCAATCGAGATTTCCCAGCACGAAGGCGACACCCTCTACTTCCGCACCGAGCACCCGGAGACGGGTGAAGACCGCGTGGCGCAGCTGTGCGAGGCCATCGAGAACGGGACTGAGTTCACCGCCGAGGACCTCCTCGGTCGTATCCAGACGATTCATCCGGACAATATCGAGACCTGGGAAAAGCGCCGCGTGGAGGACACCGCGCTTTAG	MRIEAIEISQHEGDTLYFRTEHPETGEDRVAQLCEAIENGTEFTAEDLLGRIQTIHPDNIETWEKRRVEDTAL				NA	NA	NA	NA	NA
AK009_06591	315			hypothetical protein	TTGTCGGTACCACGTGATGTGGCATTGGAGATCCTGTGGGTAGCAACCGGTGCATGTTCGTATTGGTCGCGCCCTGTCGTGGCGGAAACCGACTCTGCATCCGGTAGGCCGTCGAAGGTAGCTTTCACTGACGATTCCGGGGTGAACCGTATCGCCGATGTGGATCAGGTCGCTCGAGCGGCCGGCGAGTGGGCTAAGGGGGCGTCGGGCGCGTTGGCGGCCGCGTTGCGGGACGGCGAGGCGCCGGTCCGGTACCCAGCTGCTGACGTGGATCAGATTGTGCAGACGGCGGTGTTTGGCGCTGTGCGCTACTAG	MSVPRDVALEILWVATGACSYWSRPVVAETDSASGRPSKVAFTDDSGVNRIADVDQVARAAGEWAKGASGALAAALRDGEAPVRYPAADVDQIVQTAVFGAVRY				NA	NA	NA	NA	NA
AK009_06592	477			hypothetical protein	GTGCGGGTTTGCAGGTGCCGTTGCATTCGCCTGGACCGCCTGTCGCCCCGCTTCACCCACCCCGAAATCCGCAAAAGTGGCATGGGTGCGCCATGTCGGCGTGGCGGCGGACGCTGCCCATATTGGTACCGTGCGGAGTTGCTAACTACGCACACGTTGCATAAGGCCATCACATTGTTGACCAGGAGAAATAGAACAAACCCCCCGATCATCTCCGATCAGGGGGTTTGCTACCGGTGGAGCTGCCGGGAATCGAACCCGGGTCCTTCATCACCTCGCCAGGGCTTCTCCGTGCGCAGTTCGCGCATCGTCTCTGCTCGACCCACCGGATCAGGCGAACATGTCCGGTTGACGGGCCCAGCCAGTGTGAAAAGTCCCCGCGGGCCGCACTGGCACGGCCCTTGGGCAAGTTCCCTAAGTCGATGCCAGGTACCGGGCTGGGAACGGGCCCGGCCTGACAGACACGCTAGTCGCTAG	MRVCRCRCIRLDRLSPRFTHPEIRKSGMGAPCRRGGGRCPYWYRAELLTTHTLHKAITLLTRRNRTNPPIISDQGVCYRWSCRESNPGPSSPRQGFSVRSSRIVSARPTGSGEHVRLTGPASVKSPRGPHWHGPWASSLSRCQVPGWERARPDRHASR				NA	NA	NA	NA	NA
AK009_06594	381			hypothetical protein	ATGAAGTCGAAACCAAAAATCAACCCCATTAACTACGGGAACCGTAGGAGGGTTAACCCTACGCCTCACTCAGGATTTGCGCAAGGGGGTCACACGCAGGAAGTCAATCACCGTTTCCGGGCTCAGGTCCACGGCCAGCCGTGCCACGCGCGCGACGTCCGCCGGGTCCATCTTTACCCGGTCATCGGCGGCAATCATGTCCGTGTCAGTTGGCCCGGGGTGCAGGGAGGTCACGCCCACGCGCCCCTGCTCCTCCAGCCGCAGCACGTCGGTGAACCCTTTCAGCGCGTACTTTGTCGAGCAGTACACGCTGCCCTGGTCGACGCCGTGGAAGCCGGCGCCGGAGTTGATGGTGATGATCAGTCCACGCGAGCGTCGTAA	MKSKPKINPINYGNRRRVNPTPHSGFAQGGHTQEVNHRFRAQVHGQPCHARDVRRVHLYPVIGGNHVRVSWPGVQGGHAHAPLLLQPQHVGEPFQRVLCRAVHAALVDAVEAGAGVDGDDQSTRAS				NA	NA	NA	NA	NA
AK009_06595	480			hypothetical protein	GTGCCTTCTTCACGCCTTGATCCCCTTGAACTTCTTGCCCAGGTCGCGCGCGATCTCGCGGTCCTCGGTGCGCTTCTTAATCGCCTGGCGCTTGTCGTAATCCTGCTTACCTTGCGCCAGCCCGAGTTCCACCTTGGCCTTGCCCTCTTTCAGGTAAATGGACAACGGCACGAGCGTGCGGTTGCCGTCGCGGACCTTGCCCTCGAGCGAATCGATCTCGCTACGGTGCATGAGCAGCTTGCGGGTGCGTCGCGGCGAGTGGTTCGTCCACGACCCCATCGAGTACTCGGGGATGTGCAGGTTGCGCAGCCACACTTCCCCGTTGTCGATGGTGGCAAAGGCCTCGACGAGGCTGGCCTTGCCGTCGCGCAGCGACTTGATCTCCGTGCCCACAAGCACGATGCCGGTCTCCCAGGTATCCAGGATGGTGTAGTCGTGGCGAGCTTTCCGGTTCGTCGCAACGACGTTTCCGGAGGGTGA	MPSSRLDPLELLAQVARDLAVLGALLNRLALVVILLTLRQPEFHLGLALFQVNGQRHERAVAVADLALERIDLATVHEQLAGASRRVVRPRPHRVLGDVQVAQPHFPVVDGGKGLDEAGLAVAQRLDLRAHKHDAGLPGIQDGVVVASFPVRRNDVSGG				NA	NA	NA	NA	NA
AK009_06596	459	ftsX_2	COG2177	Cell division protein FtsX	ATGCCGCAGGTGACCGTCATCACCGACCAGGCCGACACCGTCCGTGAGGCCGCGGGCACGATGGACACCTTCCGCAACGTCACCTTCGTCGTCGCGGCGGCGCAGGCGGTGGCGGCGCTGTTCCTGATCTCCAACATGGTGCAGCTCGCCGCATTCAACCGCCGCGAGCAGATCGGCATCATGCGCATGGTCGGCGCCTCGCGCTGGTTCACCCAGGCCCCGTTCGTCCTTGAGGCGGTGGTCTCCGTGCTGATCGGCGGGGTGATCGCCACCGTCGGCGCGTGGCTGGCAAAGCGCTTCCTCGTCGACCCGATGCTGGGCGATCTCTACGCCTCCCAGCTCATCGCGCGCGTGCCGGATTCCGCAGTCTGGGTAACCATGCCGCTTGTCACCCTCGCGGCGATGGTGCTCGGAGGTGTCGCAGCACAGGTGGCACTGCGTTCCTACGTGAGGAAGTAG	MPQVTVITDQADTVREAAGTMDTFRNVTFVVAAAQAVAALFLISNMVQLAAFNRREQIGIMRMVGASRWFTQAPFVLEAVVSVLIGGVIATVGAWLAKRFLVDPMLGDLYASQLIARVPDSAVWVTMPLVTLAAMVLGGVAAQVALRSYVRK				NA	NA	NA	NA	NA
AK009_06597	396			hypothetical protein	GTGCAACGCCGCGGGAAGCGCGTCGGGCGTGGTTTCGCGCACGAGATCAGGATCGGTGTCCTGGAACAGTTCGACGAATCGGTCGTAGGACTGCTGGCGCGAGCGGAAGGTAACCTGCTCCACCCCGTTGCTCTCCTGCAGGCGATCACGCACTTCGCGGCAGGCGGGCGAGGAGCAGTCGGTGTCGTTGGCGGAAATCTCCTCGTCCAATTCGATCATCACCTCGACGCGGTCGAGGTAGAGGGCCTTGGTCTCGGAGGTGGCCTGCGAGATCAGGATGCCCGCGCCCACGAGCATGAGCGACAGCGCGGTGGTGATCACCAGCGCCACGGTCATGGTCAGGTTGCGGCCGAGCCCGCGAAACGCTTCGCGCAGCACAAAACTGAAGTTCATTAG	MQRRGKRVGRGFAHEIRIGVLEQFDESVVGLLARAEGNLLHPVALLQAITHFAAGGRGAVGVVGGNLLVQFDHHLDAVEVEGLGLGGGLRDQDARAHEHERQRGGDHQRHGHGQVAAEPAKRFAQHKTEVH				NA	NA	NA	NA	NA
AK009_06598	498			hypothetical protein	GTGCTTTTCGTCGCGGACCAGCTTGCCCAGGTTGAGTTCGAGGACGCGCTGGCGCAGGTCGTTGACGGCGCGCGCGTTGTGGGTGGACATCACCACGGTGGACCCCAGCCGGTTGATGCGCGTGAGAAGCGCCATGATCTCGTCTGCTGTTTTCGGGTCAAGGTTGCCCGTGGGCTCGTCGGCAAGCACGAGCGGGGGCTTGTCGACGAACGCACGCGCGATCGCCACCCTCTGCTGCTCACCGCCCGAGAGCTCGTGGGGGTAGCGGTTCGCCTTCGCGTCGAGGCCGACGAGCCCGAGCGCGTCGGGAACCAGCTTGGCTATCTTCGCCTTCGGCTTGCCCGTGACCTGCAGGGCGAACGCCACGTTGTCGTAGACGTTGAGTTTGGGCAGCAGGCGGAAGTCTTGGAAGACGTAGCCGATGGACTGCCGCAGCCGGTTGATCTCCTTGCCTTTGAGCGCGTTGACGTGGAAATCGTCGAAGCGGATGTCGCCTGA	MLFVADQLAQVEFEDALAQVVDGARVVGGHHHGGPQPVDAREKRHDLVCCFRVKVARGLVGKHERGLVDERTRDRHPLLLTARELVGVAVRLRVEADEPERVGNQLGYLRLRLARDLQGERHVVVDVEFGQQAEVLEDVADGLPQPVDLLAFERVDVEIVEADVA				NA	NA	NA	NA	NA
AK009_06599	705			hypothetical protein	GTGACGTTGGTGAATGTAATCACCCGTCACACCCTACCCTTTGGTTTCAGCCATCCTCCACCTGATGCCGGACTCCAAAAAGCCGTCGATGTCGCCGTCGAGCACCTTCTGCGGGTCGCCTACCTCGTAGTTTGTCCGCAAATCCTTCACCATTTGGTAGGGGTGCAGCACATAGGAACGCATCTGGTTGCCCCAGGACGCGTTACCCCCGGCGCCGAGGGCGTCCATCTCGGCCTTTTCCTCCTGGCGCTTGCGCTCAAGCAGCTTCGACTGCAGGACCCCCAGCGCGGAGGCCTTGTTCTGGATCTGCGACTTCTCGTTCTGGCACGTGACCACGATTCCGGTCGGCAGGTGCGTGATGCGCACCGCCGAGTCCGTGGTGTTGACCGACTGCCCGCCGGGGCCGGAGGAGCGGTACACGTCGACGCGGATGTCGGAATCAGGAATGTCGATGTGGTCCGTCTGCTCAACCACCGGCAGCACCTCGACTTCGGCGAACGAGGTCTGGCGCCGGCCCTGGTTGTCGAACGGCGAGATACGCACCAACCGGTGCGCACCCTGCTCCACCGAAAGCTGGCCGTACATGTACTCCCCGCGCACCACGAAAGTGGCGGACTTGATGCCGGCCTCCTCCGCGTAGGAGATGTCGTAGACCTCGACCTTGTGGCCGTTCTTCTCCGCCCAGCGCGTGTACATGCGCATTAG	MTLVNVITRHTLPFGFSHPPPDAGLQKAVDVAVEHLLRVAYLVVCPQILHHLVGVQHIGTHLVAPGRVTPGAEGVHLGLFLLALALKQLRLQDPQRGGLVLDLRLLVLARDHDSGRQVRDAHRRVRGVDRLPAGAGGAVHVDADVGIRNVDVVRLLNHRQHLDFGERGLAPALVVERRDTHQPVRTLLHRKLAVHVLPAHHESGGLDAGLLRVGDVVDLDLVAVLLRPARVHAH				NA	NA	NA	NA	NA
AK009_06600	606			hypothetical protein	ATGCGCATTAGCATCTCCGCCCAGTCCGCGGCGTCGACGCCGCCGGCGCCGGAACGGATGTTGACCACGGCCTCGCGCTCGTCGTACTCGCCGGAGAGCATCGTCTGCACCTCCAGTGAGCCGATCGACTCCTCCAGCGCGGAAAGCTCGTCGTCAACCAGTGCCGGCTCACCCTCTTCCTCGGCGAGCTCGTACATCACCGGAAGGTCGTCGATACGCTCGCGCAGCGACGCGACCTTCTTCAGCCGCGCCTGCACGTTCGACAACTCCGTGGTCACCTTCTGCGCGTGCGCCGGGTCGTCCCACAGCGAGGGGTCGTTGGCCTGCTGCTCGAGCTCCCTCGCGCGCGCCGCAAGCTCGTCTAAGTCGATCACCTTTTCAATGGTGGTCAGCGTCGAATCGAGGTTCTGGATGCGTGCCTGGGTCTCCGGTTGCATAACATGTAAGTCTAGCCTGCGCGTTCGCGCGGGCCCCGGACGAGGGAGCCGTACCCGGGAGCGCGACAAGACGGCCAGAAAGTACGCACCATGGCATGGATCATTCTGCTCCTTTCCGGCGCTTTCGAGGCGGTGTGGGCAATCGCTCTGGACCGCTCGCAGGCCCTGA	MRISISAQSAASTPPAPERMLTTASRSSYSPESIVCTSSEPIDSSSAESSSSTSAGSPSSSASSYITGRSSIRSRSDATFFSRACTFDNSVVTFCACAGSSHSEGSLACCSSSLARAASSSKSITFSMVVSVESRFWMRAWVSGCITCKSSLRVRAGPGRGSRTRERDKTARKYAPWHGSFCSFPALSRRCGQSLWTARRP				NA	NA	NA	NA	NA
AK009_06602	867			hypothetical protein	ATGCTCAGAGAGTTTACCCGCCACCTCATCGACGATGAGCGGGTTGCCGGCCACGCACCACGCGACACCGCCGGCCTGAACCTTGATCGCGCGCCCGCCGACGGCTTCGACGAGCGCCTTGCCGGGCAGCCAGTCCCAGTCCGCCACGGAGTGCTGCAGCCAGCCGCCGATGCCGCCGGAGGCAACGGTGGCCAGGTCGACGGAACCCGCGCCCCACATGCGGATAGTGGCGGCGTCCTTGACCGCCGAGACCCAGGCCTGGCGAATCGACTCGTGACTCATCGAGCGCGGGTGCAGGTAGGTCGCCAGCGCGAGCTGGTCCAGCCCCGCGCTTTCAAGCTGTGGCAGTCGCTCGCCGTTGCGCGTCGCCACGCCGCCCGCCGCGAGCCAGGTCGTGGCAAACGCGGGTCGGTGCACCGCGCCGAGAATAAGCTCATCGGGCTCGCTGACATCGCCCGCAACGAGCGCGAGCGCGGAGCAGAAGTAGTCGGAGCCGTGGGAGAAGTTGTAGGTCCCGTCGACCGGGTCGATCACCCAGGTCCGCCCGCTTGTCGACGCCCGGGCAGTGCCCTCCTCGCCCACGACGCCATCGTCGGGGCACAGCGCCAAAAGCGCGTCGGCGACGAACTGCTCTGCGGCGCGGTCGGCGTCGGTGACCACGTCGGAGACGGAGGTTTTCTGCTGCGTGGACAGGCCGTCGTCACGCATGCGCAACGCGAGGCGGCCAGCGTGCTCGACGAGTGCCGCGGCGAGCGTGGCGTCGTCGGAATCGGCATGGGCGGAGATGAAGGCAGCAGTCATGCAGACCATTATGGCGCGTTAGCCAACCAGCTTCAGCCCGGCGATGCCGCCGACGACCATGAGTAG	MLREFTRHLIDDERVAGHAPRDTAGLNLDRAPADGFDERLAGQPVPVRHGVLQPAADAAGGNGGQVDGTRAPHADSGGVLDRRDPGLANRLVTHRARVQVGRQRELVQPRAFKLWQSLAVARRHAARREPGRGKRGSVHRAENKLIGLADIARNERERGAEVVGAVGEVVGPVDRVDHPGPPACRRPGSALLAHDAIVGAQRQKRVGDELLCGAVGVGDHVGDGGFLLRGQAVVTHAQREAASVLDECRGERGVVGIGMGGDEGSSHADHYGALANQLQPGDAADDHE				NA	NA	NA	NA	NA
AK009_06603	675	hisN	COG0483	Histidinol-phosphatase	ATGACCCCCGTCTCCGACGCCGACCTGGCCGTCGAGGAGGCGCTGCGCGCCGAGCTTGCGACCGCGCGCCCGGCCGACGCCGTGCTCGGCGAGGAGTTCGGCGGCGAGGCGGTCATCGGGGGCCGCCAGTGGGTGATCGACCCGATCGACGGCACCAAAAACTTCGTGCGCGGCGTGCCCGTGTGGGCGACGCTCATCGCGCTGCTTGTCGACGGCCAGCCGGTCGTCGGCGTCATCTCCGCCCCCGCCCTGGCGCGCCGCTGGTACGCCTCCGCCGGAACCGGGGCGTGGCGCACCTTCAGCACGGGCGCGCTGAAGCGCCTGAACGTGTCCAAGGTCGCCGAGCTGTCTGACGCCTCTATCTCCATGTCCTCGCTGGAGGGCTGGCAGGAGCGCGGCCTGCGCGACAACTTCATCGCTCTGACCGAGAAGGCCTGGCGGCTGCGTGGCTACGGCGATTTCCTGAGCTACTGCTTCGTCGCCGAGGGCGCGGTCGACATCGCGCTTGAGCCCGAGGTGTCGCTGTGGGACTTGGCCGCGCTCGCCGTTTTGGTTTCTGAGGCCGGGGGCACGTTTACGTCGTTAAGCGGCGAAGAGGGCCCGCACGGCGGCGACGCTGTCGCGACCAATGGGGCCCTCCACGAGGCAGTGCTGAAAGAGATTACGGGAGCCTAA	MTPVSDADLAVEEALRAELATARPADAVLGEEFGGEAVIGGRQWVIDPIDGTKNFVRGVPVWATLIALLVDGQPVVGVISAPALARRWYASAGTGAWRTFSTGALKRLNVSKVAELSDASISMSSLEGWQERGLRDNFIALTEKAWRLRGYGDFLSYCFVAEGAVDIALEPEVSLWDLAALAVLVSEAGGTFTSLSGEEGPHGGDAVATNGALHEAVLKEITGA	PGPT0012270_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PUROMYCIN_METABOLISM,PGPT0012270-pur3-K12634	NA	NA
AK009_06604	819			hypothetical protein	ATGGTCCGCCGCCTGCTCGCCCCTCTTTTCGCCCTTATCGTCGTCATGGCGGGGGCGCCGCTCGCCCACGCGCAGGAGGACCCGAATTACATCTGGCGCACCGATCCGGTGTCCAAGGTGCTGGCCGGAAAGCCCGCGGCTGATCGCGTGCTTCACCGCGTGCCGGGGTCGTTTCACGATGCCGCCCCGATCGCCCCGGAGGCGTGGGACGCGCAGGTCAACCGCGGTAAAGCTCTGTACGGGCCGGGCACTCCGGTCTACATCAATGGCTCAGCAATGTGCACCATCGCCGCGGCCGGCTACGACGCCGCCGGCCGCATGGTCGCCGTCACCGCCGGCCACTGTGGCTCGGAGGGCCAGTCAGTGATCTCTGCCGACGCGCTCGGCGTGGGTGAATCCGGCCGCATCGCCGCGGTCAACCGCGCACTGGATTACGCCGTCATCGAGCTTTACCCCAACGCGGAGGTTAGCCGCACTTACAACGGCGTGACGGTCAACCACCTCGGCGCCGCGCCGCGCGCGTTCGGCCAGGTGGTGTGCAAGTCCGGCTACGCCTCGGCGCAGACCTGCGGTGTGACCTGGATCGATGATGGGGTCACCAACCTCAACCAGGTGTGCGCGATGCAGGGCGACTCCGGCGCGCCCCTGCTTGCCGGCGACTCCCTGGTGGGCATCATCAACGGCGGCATCATCAACGCGCCCTGCTACTCGCCGCTGCAGGGCCCGATCTTCTCCCCGACATCCTCGGCGCGCTTCGACACGATCCTCGCCGCCATGAACAGCGGATCCGCGCCGGGCAGCGGGTTTAGGCTCCCGTAA	MVRRLLAPLFALIVVMAGAPLAHAQEDPNYIWRTDPVSKVLAGKPAADRVLHRVPGSFHDAAPIAPEAWDAQVNRGKALYGPGTPVYINGSAMCTIAAAGYDAAGRMVAVTAGHCGSEGQSVISADALGVGESGRIAAVNRALDYAVIELYPNAEVSRTYNGVTVNHLGAAPRAFGQVVCKSGYASAQTCGVTWIDDGVTNLNQVCAMQGDSGAPLLAGDSLVGIINGGIINAPCYSPLQGPIFSPTSSARFDTILAAMNSGSAPGSGFRLP				NA	NA	NA	NA	NA
AK009_06606	312			hypothetical protein	GTGGTTGACGTTGTTCGGGATGATTGCGCGGCCTGCGGCGACTTGCGAGCGCACCTTCTCTACGTCGCAGTGCTCGCGCAGGGCGACGAACTCCATCTCGGGGCTGATTTCGCCGCGGCGGGCGTAGTGCATCTGGGTCACGCGCTTGCCGGGGTGGGCGCGCAACGGGTTTCGCCTGGCTCCCCGCCACTCCTCGGAGGCGGAGCCGCGCTTGGCGGCCCGTGTGCCGTCGTCAAGAAGGTTGCGTTGGCGCCCGGTGTACTCCTCGACGTCGCCGCGCTCGGCGATCCACGTGCTGCGCAGCGCCGGTAG	MVDVVRDDCAACGDLRAHLLYVAVLAQGDELHLGADFAAAGVVHLGHALAGVGAQRVSPGSPPLLGGGAALGGPCAVVKKVALAPGVLLDVAALGDPRAAQRR				NA	NA	NA	NA	NA
AK009_06607	462			hypothetical protein	TTGGGCGGCGTCGTTGGCGTCGGCCACGGAGCCGGGGCGCAGGCCGTCACCGAGCGAGAAGGAGACGTCGTAGGCCGCGAAGATCTCGCAGAGCTCGTCGAAGTTCTCGTAGAGGAAGGACTCCTTGTGGTGGGCGAGGCACCAGCCGGCCATGATCGAGCCGCCGCGGGAGACGATGCCCGTGACGCGCCGGGTGGTCAGCGGCACGAACGGCAGGCGAACTCCGGCGTGGATGGTCATGTAGTCCACGCCCTGCTCGCACTGTTCGATGACGGTGTCGCGGAAGATTTCCCAGGTCAAATCCTCGGCAATGCCGCCGACCTTCTCCAGGGCCTGGTAGATGGGCACGGTGCCGATCGGGACGGGGGAGTTGCGGATGATCCACTCGCGGGTGGTGTGGATGTCGTTGCCGGTGGACAGATCCATCACGGTGTCGGCACCCCAGCGGGTTGCCCAGCGTAG	MGGVVGVGHGAGAQAVTEREGDVVGREDLAELVEVLVEEGLLVVGEAPAGHDRAAAGDDARDAPGGQRHERQANSGVDGHVVHALLALFDDGVAEDFPGQILGNAADLLQGLVDGHGADRDGGVADDPLAGGVDVVAGGQIHHGVGTPAGCPA				NA	NA	NA	NA	NA
AK009_06608	744			hypothetical protein	ATGTCGGGGAGGAGCAGTCTTTGCTTCGCGGGTGTTTTGTCCATGCCCACAACCTACTCGGGTGGCTTACTCGGGGAGGTAGACCTGCGAGCCGTGTTCGCGGAAAACATGCGCCATGTGCTGCTCGCCGAGGACGGCGTCGACGGTGGGCATGCCCAGGGATTCGATGGTGTCGCCGAACTCGTCCCGGATGTCCTGGGAGATCCGCATCGAGCAGAACTTCGGACCGCACATGGAGCAGAAATGCGCGGTCTTGGCCGGTTCGGCGGGCAGGGTCTCGTCGTGGTAGGCGCGCGCGGTGTCCGGGTCGAGGGAGAGCGCGAACTGGTCCTCCCAGCGGAACTCGAAGCGGGCCTTGCTCATCGCGTCGTCCCAGTCCCGGGCGCCCGGATGCCCCTTCGCCACGTCGGCGGCGTGCGCGGCGATCTTGTAGGTGATCACGCCCGTCTTCACGTCGTCCTTGTTTGGCAGGCCGAGGTGCTCCTTCGGGGTGACGTAGCACAGCATCGCGGTGCCGCCCGCGGCGATGTTGGCCGCGCCGATCGCGGAGGTGATGTGGTCATACCCCGGAGCGATGTCGGTGACCAGGGGGCCAAGCGTGTAGAAGGGTGCCCCGCCGCACCACTCCTCTTCCTTGTCGTTGTTGATCTGGATCATGTCCAGCGGCACGTGGCCGGGGCCCTCGATCATCACCTGGACGTCGAAATCCCAGGCGCGGTGGCACAGCTCGCCGATGGTCTTTAG	MSGRSSLCFAGVLSMPTTYSGGLLGEVDLRAVFAENMRHVLLAEDGVDGGHAQGFDGVAELVPDVLGDPHRAELRTAHGAEMRGLGRFGGQGLVVVGARGVRVEGERELVLPAELEAGLAHRVVPVPGARMPLRHVGGVRGDLVGDHARLHVVLVWQAEVLLRGDVAQHRGAARGDVGRADRGGDVVIPRSDVGDQGAKRVEGCPAAPLLFLVVVDLDHVQRHVAGALDHHLDVEIPGAVAQLADGL				NA	NA	NA	NA	NA
AK009_06609	600			hypothetical protein	GTGCGCCCACTCGAACGGGCCCGGGGCGCGCGTGGCCTCGAGGACGGAGGCAAAAAGCAGCGTGATCAGCCAGACCAGGAGGCCCACTCCAAGCTTGCCGGTGACGGTCGCGTCAAGGCCGAGCCCGAACCCGAAGGGCGAGACGAGGACAATAAACAGCAGCGACTGTGCGAGGTAGCCGGACATGGAGCGCTTACCCAGCGCGATCAGTGGGTAGGCCCAGCCAGGCGCGGCCTGCGCCTCGGCGGCGCGCTTTTGCATCCCGTTGGTGGCCAGCGCGAACGCGGCGAGGATGCCGGGGCCGGTGAACGGCCCCCAGGACTGGTTGAGGATCCAGAAGAACTCCTCGAGGCCCGGGTCGATCACCCCGATCGCCGCGAGACCCCACGGAAGCCCGAGCAGCAGGGTGATCGCCACGGCGACATAGACCCATTGCCGCAGAATAGCGCGATGCTTATCGACGTTCAACAGGTAACCCTCCGTCGCCCAGACGTAGCCGATGATGCTCAGCCCGGCGAGAGAAGCGACCGCGAAGGGGATCGAAGTGAGCATCAGCATCGCCGCGGAAAAGTTGGCGCTGAAGTAGTCACCCACGGTTAA	MRPLERARGARGLEDGGKKQRDQPDQEAHSKLAGDGRVKAEPEPEGRDEDNKQQRLCEVAGHGALTQRDQWVGPARRGLRLGGALLHPVGGQRERGEDAGAGERPPGLVEDPEELLEARVDHPDRRETPRKPEQQGDRHGDIDPLPQNSAMLIDVQQVTLRRPDVADDAQPGERSDREGDRSEHQHRRGKVGAEVVTHG				NA	NA	NA	NA	NA
AK009_06610	660	thiE_2	COG0352	Thiamine-phosphate synthase	ATGCCTAAACCCGACCTCGACCTGCGCTGCTACTTCGTCACCGGCAGCGGTAGCGAGCGCGACATCGTCGCCCGCGCCCGCGACGCCGCGCGCGCCGGAGCTGGCGTGATCCAGGTACGCAGCAAGCCCATCTCAGCGCGCGACCTCTACAACCTCGGCCTCCACGTGGCGCGCGAGGTGCACCACGCCAACCCCGCCACGCGCGTGCTTATCGACGACCGCGTCGACGTCGCCCTCGCCCTGCGCGACGCGGGGGTCAGCGGCGTCCACCTCGGCCAAGACGACCTCGACGTGCGCGTTGCCCGGCGCCTGCTCGGCCCCGACGCCGTCATCGGGCTGACCACGGGGACGCTCGAGCTCGTGCGCGGTGCAAACGACCTCGCCGACTACATCGACTACGTCGGGGCCGGCCCGTTTCGTGCCACCCCGACGAAGAACTCGGGCCGGCCACTGCTCGGTGTCGACGGCTACCGCCCGCTGGTCGCGGAATCGCTCGTGCCTGTGGTCGCCATTGGCGACGTCACCGTCGACGACGCCGCCGAGCTCGCCTCCACCGGCGTCGACGGCCTCGCTTTGGTCCGCGGCATCATGAACGCCACCGATACGCAAGCGTATGTCGCGCGCGTGATCTCCGAGTTCGAACGCGGCGCACTACATTAG	MPKPDLDLRCYFVTGSGSERDIVARARDAARAGAGVIQVRSKPISARDLYNLGLHVAREVHHANPATRVLIDDRVDVALALRDAGVSGVHLGQDDLDVRVARRLLGPDAVIGLTTGTLELVRGANDLADYIDYVGAGPFRATPTKNSGRPLLGVDGYRPLVAESLVPVVAIGDVTVDDAAELASTGVDGLALVRGIMNATDTQAYVARVISEFERGALH	PGPT0008995_1628	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
AK009_06611	282			hypothetical protein	GTGGGACAGCGCCAGGCCCAAATTCCCGATCGCAGAGATGATCGTGCCAGTAATGACGATCGGGCGGCCGCCGAAACGGTCGGCAAGGATGCCACCGACCAAGAGGCACGGAAACAGGCCGGCTGCGTAGATGCCGTAGGCGCCGTTGACCAGCAGCGTCTCGAGGTTCGCGCGCTCCTTAAGCACCACGAGGACGGCCGCGAAGTGGTTCGCGGCCCATCCCGCTGTGACGAGGAAGAAGATGACGCTGAGGAAAACTTTGCGGCTGGACATGGGGACTAA	MGQRQAQIPDRRDDRASNDDRAAAETVGKDATDQEARKQAGCVDAVGAVDQQRLEVRALLKHHEDGREVVRGPSRCDEEEDDAEENFAAGHGD				NA	NA	NA	NA	NA
AK009_06612	351			hypothetical protein	GTGCAGGGGTGCGTAGGTGTCGACGTCGAGAAGCCCATCGCGCAGGCACAAGCCGTAGGCGGCGCCGAGGGCAATGGTGGCGACGGCGAAAGCGAGAAGCGACGGGTTGGCCCCGGAGAATCCGGTGATCGCCAGGCCAATTGCGGAGCAGAGCGCCCCGATGACGCCGGCGCGCGGGCCCCACTCGAAGCGCCTGCCCAGCGCCTGGAGCACCAGCGCGGTACCGAAGCCAAGCCCTGCCGCGATTCCGGGCATGAACACGCCGGTGGGGAAATAGTGGGAGACGCGCGCGGCGAGCCCGATGACCGCGGTGGTGATGGAGGCGAAGACCCACACCGCAACCGGCAGTGA	MQGCVGVDVEKPIAQAQAVGGAEGNGGDGESEKRRVGPGESGDRQANCGAERPDDAGARAPLEAPAQRLEHQRGTEAKPCRDSGHEHAGGEIVGDARGEPDDRGGDGGEDPHRNRQ				NA	NA	NA	NA	NA
AK009_06613	138			hypothetical protein	GTGCGCGTCGATGTCGTCGATTTCCGCAAACGGGCACTGCTGCTCGACGACAAACACGTCAACGCGCAGCTTGAACAGAGCGTGGGCTTGCAGGGCAGTCAGGTCCGCCAAGGGGGAGATCGCGATCATGGTTTCTAA	MRVDVVDFRKRALLLDDKHVNAQLEQSVGLQGSQVRQGGDRDHGF				NA	NA	NA	NA	NA
AK009_06614	1044			hypothetical protein	GTGCGCCCGAGTTTTCCCCACAGACTCGGGCAGCCGGTTTGGGCGCTTCGTTGTCGACCCGGCCGCGCGTGGCACGGGCCTTGGCCACGACATCATGCGCACCGGCATCGACTACACCCGCCGCTTTCCAGGCGACCTGGTCATCGAGGCCCAGTCCGGGCTGGTGGGGTACTACGCCGGTTTCGGGTTCGTCGCGGAGGGCGAAGAAGTCCTCGACGCCGGCATCCCCCACGTTACTATGCGGCTGGCGCGCTAACGCTAGAACAGGTCGACGAGCGAGAGCCCGCCGAGAACCAGGGTGACCAGGAAGATCAGCCCGCCGAGAATGTTTCCCACGATGGAGTTCGCGTGCTCACCCAGCAGGCGCTTGTTGTTCATCGTGAGCAGCAGGAAGAACGTAATGACGGGAAGCAGAATGCCGTTTGCGGCCTGGGCGAGGATGATGATCTGGATCGGGTTGAACCCCGAGATGGCAATCGCCGCGCCGAAGAGGACCACCACGACGACGATGATGCGGAAGCGCTGGCTCTTCATGTCGGTGGGCCAGCCCATGACGCCGCAGATCGCGTACGCCGCGCCCATCGGGCCGGCGACCGCGGAGGTCAGGCCCGCGGCGAACAGGCCGATGGCGAGCAGCCACGGGGCGGCGTCGCCAAGCATTGGGCGAAGCGGCGCGGCGAGGTCGGCGGCGGAGGTAGCCTCAAGCCCCTGGGCGAACATGACCGCCGCAGCCGTCGCGACGATCGCGAGCGTGATCAGGCCGCCGAGGCTGATAGAGACGACGTTGTCTACCCTTGCCTTTTTCAGGGCGGGATCGCGCGGCTCATCGCCCCATTTCTCCTGCACCAGGTTGGAGTGCAGGAAGACGTTGTAAGGAACGACGGTGGTGCCAATCAGCGCGACCGCGGAGAGCAGCGCGCCGTCCGGCACGGTGGGGATGAAGGTGGAGCGCAGCATTGCCCCGAGGTCGGGGCGTACGCTGATGGCGGTGATAACGAAGGTCAGCGCCAAAATGGCCACGAGCACCGTCATCACCTTCTCTAG	MRPSFPHRLGQPVWALRCRPGRAWHGPWPRHHAHRHRLHPPLSRRPGHRGPVRAGGVLRRFRVRRGGRRSPRRRHPPRYYAAGALTLEQVDEREPAENQGDQEDQPAENVSHDGVRVLTQQALVVHREQQEERNDGKQNAVCGLGEDDDLDRVEPRDGNRRAEEDHHDDDDAEALALHVGGPAHDAADRVRRAHRAGDRGGQARGEQADGEQPRGGVAKHWAKRRGEVGGGGSLKPLGEHDRRSRRDDRERDQAAEADRDDVVYPCLFQGGIARLIAPFLLHQVGVQEDVVRNDGGANQRDRGEQRAVRHGGDEGGAQHCPEVGAYADGGDNEGQRQNGHEHRHHLL				NA	NA	NA	NA	NA
AK009_06615	408			hypothetical protein	GTGCGGCAGGCTTGTGACGCTGGCCAGCGCGAGCGCGGTGCCCGTCGTGTCGCCCCCGGCGTACGCTGCGCCGCCGATGCCGATTGCGGAGACGACCAGGATGATCATCAGCGACTTGATAATCTGCGAGTTGAACGTCTGGCGCAGTGCCTCGCCGGTGCTCAGGCGCGCGGCGAGACCGAGGCGCACCGACATTTCCTGCAGGATGATCGTCGCCACGATGGAGAAGACGATCGCCCAGACGAGCGCGTAGCCAAAGTTCGCGCCGGTCACCGTGGCGGTGGTGACCGTGCCGGGGCCGATGAACGAGGCAGCGATGAGCAGCCCCGGGCCGAACAGGCCGGACTTGCGCTTCGGCGCTGGAGTGATTTCAACAGTGGACATCGCGGACCTCGAATCCGTCATTGA	MRQACDAGQRERGARRVAPGVRCAADADCGDDQDDHQRLDNLRVERLAQCLAGAQARGETEAHRHFLQDDRRHDGEDDRPDERVAKVRAGHRGGGDRAGADERGSDEQPRAEQAGLALRRWSDFNSGHRGPRIRH				NA	NA	NA	NA	NA
AK009_06616	801			hypothetical protein	GTGCCCTTAGTAGGAGCTGAACCCGTCTTCGCTCAGGGTGTGCTTCTCATCGCCGGTGATCGCCGGGTTGAAGATGCTGACCAGGATCAGGTCCTCGTCCTTGCCGCCGCGCAGGTAGTGGGCGTCGTGCTCGTCGAGCACGTAGATGGTGCCCGGGGTGATCGGGTAGACGTTGCCCTCGGTGTCTTCGACCTCACCGGAGCCGCCGATGCAGTAGCACGCCTCCAGGTGGTTGCGGTACTGCAGCTTAGACTCGGTGCCTGCGTGGACCACCGTGTGCGCCACGGCGAAGCCCATGTTGTCCTTCGCGGTGAGCACGCGCTCGGAGGTTCCTCCACCCCACTCAACCGTTTCCACATCGTTACGAGACCTCGTGAACATGAAATCCTCCTAGAATCCCAGAATTTTGTGTTGCACCTTCCAACCCTACGGAAACTTCGCGCGCTCGGGCAGGCCCGTCGCGCAACCTGGGGTGTGGAACAATGGGCCCATGTCTGGCACGCCAACCGCCGTCATCGGCGCGGGAATCATCGGGCTGAGCACGGCCTTAAGCCTGGCGGATCGCGGCCACGCGGTCACCGTGTACGACCCCGAGCCCACCAGCGGCGCCTCCCACTACGCGGGCGGAATGCTCGCGCCAGCCTCGGAGGTGGTGTACAAACAAGACCCGCTGCTGCCGCTGATGCAGGCCTCGGCGACTCTTTACCCGGAGCTGATCTCGCTGTGCGCGAAGTACTCCGATTTGCCGACCGGCTACCGCACCGACGGCACCATCGTGGTCGCCCGCGACCGCGCGGATAG	MPLVGAEPVFAQGVLLIAGDRRVEDADQDQVLVLAAAQVVGVVLVEHVDGARGDRVDVALGVFDLTGAADAVARLQVVAVLQLRLGACVDHRVRHGEAHVVLRGEHALGGSSTPLNRFHIVTRPREHEILLESQNFVLHLPTLRKLRALGQARRATWGVEQWAHVWHANRRHRRGNHRAEHGLKPGGSRPRGHRVRPRAHQRRLPLRGRNARASLGGGVQTRPAAAADAGLGDSLPGADLAVREVLRFADRLPHRRHHRGRPRPRG				NA	NA	NA	NA	NA
AK009_06617	615			hypothetical protein	TTGCTTCTCGACGAGCTCCGCTGCGCACCGCGCCGCCAGTGCCGCCAGCAAAATCCCGTGGCGGAAGTACCCGGTGCTGACAACCACGCGCTCGCTAACACGCCCGAGGTAGGGCAGATCGTCCGGCGTGGCGGGCCGGGCGCCCGCGCCGGCTTCCGCGAAGTCGCAGTCCTCAATGCCGGGCAGAATTTCAATCGCGTCGCGCAGAAGCTGGTACACGCCCTGGGCCTGCGCGCTCGCGCGGCCATCCTCGCGGCTGGTCGCGCCGACCGTGAGCGTCGCGTCCTCGCGCGGGATGACGTAGATCGCCCTGCCCTCCACCACGCCGCGGACCACACGGGTGGCGAGGGGATGCAGGTGCGCCGGGGCCCGCAGGTGCAGGATGTCGCCGTAGACCGGGCGCAGCTGCAGCGGGCTAACGTTATCGTCGCCCCACCCGGCGATGTCTTGTGCCCCGAGGCCGGCGGCGATGACGACTTGCTCCTGCGGCAGGTGGGAGACGTCGGTCACGAGCTCGCGGATGAAGCTCACCCCGGCGTGGGTGCAGGCGTCGATAAGCGAGCGCGTGAACAGCCGCGGTTGGACCTGGTGGTCGCCGCTGCTGAGCACCGCTGA	MLLDELRCAPRRQCRQQNPVAEVPGADNHALANTPEVGQIVRRGGPGARAGFREVAVLNAGQNFNRVAQKLVHALGLRARAAILAAGRADRERRVLARDDVDRPALHHAADHTGGEGMQVRRGPQVQDVAVDRAQLQRANVIVAPPGDVLCPEAGGDDDLLLRQVGDVGHELADEAHPGVGAGVDKRAREQPRLDLVVAAAEHR				NA	NA	NA	NA	NA
AK009_06618	210			hypothetical protein	ATGAGCACACACATCTTGGTCAACGACACCGCGCGCGACACCCACGCCGCGACGGTGAGCGAGCTCGTGCACGAGGTGCTCGGGCACGTGCCCGACGCCGGCACGGCCGTCGCGATCGACTCGGCCGTCGTCCCGCGCTCGAAGTGGGAATCGACCCAGCTTGCCGACGGTGCGCGCGTGGACATCCTCACCGCCGTCCAGGGAGGCTAG	MSTHILVNDTARDTHAATVSELVHEVLGHVPDAGTAVAIDSAVVPRSKWESTQLADGARVDILTAVQGG	PGPT0008970_853	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
AK009_06619	663			hypothetical protein	GTGGGCCATAGTCTCCGGGTCCTGGCTGCGGTTGATGGCGCTGGCCAGCAGCACCCCGGAGCAGCCGAATTCCATGGCGAGCGCGGCGTCGGAGGCGGTGCCGAGGCCGGCGTCGATAAGCACGGGCACCTCCGCGCGCGAGCAGATCAGCTCGATGTTGTGCGGGTTGAGGATGCCCAACCCGGTGCCGATCGGCGAACCCAGCGGCATCACTGCCGCCGCGCCGATGTCCTCGAGGCGCTTCGCCGCCACAGGATCGTCGGAGGTGTAGGCGAGCACGGTGAAACCGGCGTTGATGAGCATCTCGCAGGCGTCGACGGTCTCGACCACGTCGGGCAGCAGAGTGCGGTCGTCGGCGATGACCTCGAGCTTGACCCAGTTGGTGTGCAGCGCTTCGCGGGCGAGCTCGGCGGTGATCACCGCGTCGCGGGCGGTTCTGCAGCCCGCCGTGTTCGGCAGCGGCGAGATGCCCAGCCGCCGCAGCATGTCGAAGACCGACTCACCGCTGCCGCCGGCGGCGTGGCGCCGCATGGCGACGGTCGTCAGCTCCGTGCCCGAGGCCACCAGGCAGCGCTCGAGCATGTCCATCGAGCTCGCCCCGCCGGTGCCCATGATGAGGCGGGAGGAAAATTCCCGGCCAGCGATAGTCAGCACGTGCGCTAG	MGHSLRVLAAVDGAGQQHPGAAEFHGERGVGGGAEAGVDKHGHLRARADQLDVVRVEDAQPGADRRTQRHHCRRADVLEALRRHRIVGGVGEHGETGVDEHLAGVDGLDHVGQQSAVVGDDLELDPVGVQRFAGELGGDHRVAGGSAARRVRQRRDAQPPQHVEDRLTAAAGGVAPHGDGRQLRARGHQAALEHVHRARPAGAHDEAGGKFPASDSQHVR				NA	NA	NA	NA	NA
AK009_06620	504	ectP	COG1292	Ectoine/glycine betaine/proline transporter EctP	ATGGTGATGGACATGTTCGCCTCGGGTGAGGAGAACAAGACCCCGACGTACTACAAGGTCGGCTGGGTCATCGCCATCGGCGTGGTCACTGCGGCCCTGCTGTTTATCAACGACACCGGCATCCAGGCGCTGCAGGAAGTCGTAATTATTATCGCGCTGCCGTTCTTCATCCTCTACTTCTTCATTATGTTCGCGCTACTCAAGGCGATGAACGACGACTCCGCCGCGCGCCGCCGCGTCCGCACCCGCCAGTGGGAAAAGACCGATAGTGCCGAGAAGCTTGAGGAGGCGGAAAACCGCCCCGCGCCGGGCTACGACGCCGAGGGCAACGAGCTGGCCCGCCCCGAGCTCGAGTACGACCCGGAGGAAGGCGGTTGGAGGCTGTCGGACTCGCTGATCATCGAGGGTGACCTCGCGATCGGCGGCGAGGTCGACCAAGAGTGGAGCGAGGAATCAGAACCCACGGTGAAAATCGTCGACGAGGAAAGCCCCAAGCGCCGCTAA	MVMDMFASGEENKTPTYYKVGWVIAIGVVTAALLFINDTGIQALQEVVIIIALPFFILYFFIMFALLKAMNDDSAARRRVRTRQWEKTDSAEKLEEAENRPAPGYDAEGNELARPELEYDPEEGGWRLSDSLIIEGDLAIGGEVDQEWSEESEPTVKIVDEESPKRR				NA	NA	NA	NA	NA
AK009_06621	657			hypothetical protein	GTGCCAGCCCGGGTTGTCGTTGTAGGAATCAACCCAGAACATCAGCTCCGGAAGCGAGTTGGCGTAGATGCCGAAGGACTCGGTGATCTGCCCGATGAGCCTGAGCGTTGGGCCCGCCAGCAGCACGAACAGCATCAGTACGACGGTCGCGGCGATGTTGAGGTTGGACAGGATCTTGATTCCCTTATCCAGGCCGGAGGCGACGGAGAGGCACGCGGCAGCCGTGATCGCGAGGATGATGCCGAGCTGCACCGGGGTGATCAGCGGAACCGACCACATAATGTTCATCCCGGCGGAAATCTGCAGCACGCCCAAGCCGACGGAGACGCCGATGCCGAAAACTGTGCCGATGATGCCGGCGGCGTCGATGAGCTTGCCCGGCCACTTATAGACGCGCTTGCCCAGAAGCGGGGAGAACAGCGAGGACATGCGCGCCGGCATTTTGCGCTTGTAGCTGAAATAACCCATGGCCAGGCCTGGGAGAGTGAAAATCACCCACATGTGGATGCCGAAGTGGTAGTAGGTGAACTCGAACGCCTGGGTGATCGCCTCGCGGCTCATCGGCTCGTAGTCACCGCGGGGCGGGTTGTAGGCGTGGTGCAGCGGTTCCGCGGCGCCCCAGAACATGAGCGTCGCGCCCATGCCGGCCGCGAATAG	MPARVVVVGINPEHQLRKRVGVDAEGLGDLPDEPERWARQQHEQHQYDGRGDVEVGQDLDSLIQAGGDGEARGSRDREDDAELHRGDQRNRPHNVHPGGNLQHAQADGDADAENCADDAGGVDELARPLIDALAQKRGEQRGHARRHFALVAEITHGQAWESENHPHVDAEVVVGELERLGDRLAAHRLVVTAGRVVGVVQRFRGAPEHERRAHAGRE				NA	NA	NA	NA	NA
AK009_06622	1122	moeZ	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGCGTGACCTGCCCCACCACGAACTTCGCCGCACCGCCCGCCAGATGAACCTGCCCGGGTTCGGCCTCGAGCAGCAGACGGCGCTGCACAACGCCCACGTCTTTGTCATCGGCGCCGGCGGGCTCGGCTGCCCGCTGATGCAGACCCTGGCCGCCACCGGAATCGGGCGAATCACCGTGATTGACGACGACACCGTGGACGTAAGCAACATCCACCGCCAGATTCTCTTCGGCGCGGACGACGTGGGCCGCGCGAAGGTGGACGTCGCGGGCGAGCGGCTTCGCGCACTGCAGCCCGGCATCGAGCTGAACTGCATCAACGGCCGGTTCACTGCATCCAACGCGCTGGATATGCTCGCGGGTGTCGACGTGCTTGTCGACGGCTCTGACACGTTTGCCACCAAGTTCCTCGCCGCCGACGCCGCCGAAATTGCCGGCGTACCCCTCGTCTGGGGCTCGGTGCTGCGCTACCGCGGTGATGTTGCCTTGTGGTTCAGTGGCCCCGGCGCGCCGGCCGATGGGGCGGGTCTGCGCGACCTCTACCCCACCCAACCCGGCGCGGACTCGGTGCCCGACTGCGCCACCGCGGGAGTACTCGGGGTGACCACCAGCGTTGTCGGTGGGCTGATGGCGACCGAGGTAATCAAGTACGTCACCGGGGTCGGGGACTCGGTGGTGGGCCGGCTAAGGATGTACGACGCGCTCACGGCCACGATCCGCACGTTCGACGTCGCCCGCGACCCGGCGCGCGAGCTTGTGACCGGTTTCGGCGTGTACGGCGGAGGGAGGTGCGAGGTGGTGGGGGCGTCGACACGCGAGCTGCTAGGCAGGATGGCGCGCGGCGAGGTCCTCGGGCTGGACGTGCGGGAGGAGCACGAGAGGGCGCTCTCCGACATCCCCGGCGCGACCCACCACCTGCCCACAAGCGAATGGGAGGCAGACGACGACGCCGCGGCGCGTTCGCTGCTCGATGCCCTACCCCGCGATGCCGAGGTGGTGGTCTACTGCGCCTCCGGCTCGCGCTCGCAGCGCTTTGTGGAACGCTTCGCCGACGTCGCGCAGCGCCGCGGCATCACGCTGACGAGCCTGCCCGGCGGGGCAAACATGCACGGGATAGAATAA	MRDLPHHELRRTARQMNLPGFGLEQQTALHNAHVFVIGAGGLGCPLMQTLAATGIGRITVIDDDTVDVSNIHRQILFGADDVGRAKVDVAGERLRALQPGIELNCINGRFTASNALDMLAGVDVLVDGSDTFATKFLAADAAEIAGVPLVWGSVLRYRGDVALWFSGPGAPADGAGLRDLYPTQPGADSVPDCATAGVLGVTTSVVGGLMATEVIKYVTGVGDSVVGRLRMYDALTATIRTFDVARDPARELVTGFGVYGGGRCEVVGASTRELLGRMARGEVLGLDVREEHERALSDIPGATHHLPTSEWEADDDAAARSLLDALPRDAEVVVYCASGSRSQRFVERFADVAQRRGITLTSLPGGANMHGIE				NA	NA	NA	NA	NA
AK009_06623	1074			hypothetical protein	GTGTACCACCGTCGTCGCGCCCCCGAGCGTGACATCGATGCCCTCTTCGATCATGTCCGCGTACTCGTGGGAGCGATCCACGCTCCACTGGCCCGGCACCTGCATGACCACGTTGACAAAACGCTCCCGGCCGAAGGCGGCGGTGCGCACGTCGGTGAACTCCACGTCGTGATCTACGGAGAACTCGTCGAGGAATGCTTTGATGGCAAGTCGCTCGTCTTCCGGCAAGGCCTCCGAGAGCAGGCTGATGAAGGAGTTTTTCAGGAGCATGTAGCCGGTGAACAGGATGTTGACGCCCACCGCCAAGGCAATGAGCGGGTCGAGGATCTCCCAGCCGGTCAGCCACACGAGCACGATGCCTGCGATAACGCCCACGGTGGTCCACACGTCGGTAAGCAGGTGGTGGCCGTCGGCGCCCAGCGTCGCCGAGCGGTACTTCCTGCCAGCGCGAACCAGCGCCATGCCGACGCCGAGGTTGAGTCCGGCGGCGAGCGCGGAGAGGACCAGGCCCACGCCAGCCTGCTCGATGGGCTGGGGCTCAATCAGGCGCTGCACCGCGGTGTAGATGATCGCTACCGCCGCCAGCAGGATCATCGAGCCCTCTACCTGGGCGGAGAAATACTCCGCTTTGGAGTGGCCGAAGTTGTGGTTCTCATCCGCCGGTTTCGCAGCGACCTTCAGCGCGATGAGCCCGACAATAGCGGCCGCCAGGTTGATAAAGGATTCGATGGCGTCGGAGAGGAAACCCACGGACCCGGTGACCCAGGCCGCGGCGAGTTTGAGCGCAATCGTTGCCACGGAGGCCGCGATGGACAACCACATGAACCGCTCGAGCAGCTTCTGTTCATCAATCACAAGACGGTTGTCCTTCCCTGTGGCCCCAGTCCTCTACACTTGGCGGGCATGGATATGAGTCGCTGGATCATCGCAATCGCAGGCGCCGTTATCGGAGCGCTGTTCTTCGGCTGGCTGCTGCAGATGCTGGGCGTAACCGGCATTTTATACACGGTGCTCGTGCTCGTCGGCTCGGCCGCAACGTCCTCGCTGGCCGGCACCCTGTTCAAGCCCCGCTAG	MYHRRRAPERDIDALFDHVRVLVGAIHAPLARHLHDHVDKTLPAEGGGAHVGELHVVIYGELVEECFDGKSLVFRQGLREQADEGVFQEHVAGEQDVDAHRQGNERVEDLPAGQPHEHDACDNAHGGPHVGKQVVAVGAQRRRAVLPASANQRHADAEVESGGERGEDQAHASLLDGLGLNQALHRGVDDRYRRQQDHRALYLGGEILRFGVAEVVVLIRRFRSDLQRDEPDNSGRQVDKGFDGVGEETHGPGDPGRGEFERNRCHGGRDGQPHEPLEQLLFINHKTVVLPCGPSPLHLAGMDMSRWIIAIAGAVIGALFFGWLLQMLGVTGILYTVLVLVGSAATSSLAGTLFKPR				NA	NA	NA	NA	NA
AK009_06624	252			hypothetical protein	GTGGACGGTGCGCTCGGACCTGACGGCGAAGATGATCGCGCGCATCCTGCGTCGCCTGCGCGCCAGCCAATCGACATCGGTCACCCCGGTCACCCCGGCGACGGTGGGCGAGGGCAGACCGTACATGGACATGCAGTCCGGCTACCTGTCGCGCGCAGCGGCCGTGATGCCGAGGTCGACGCAGAACTACCCGTGGTCAGCCAAGCAGAACGTGCTCGAAGACACCTGGAACACCTCCCGTGCGCGCCTTGA	MDGALGPDGEDDRAHPASPARQPIDIGHPGHPGDGGRGQTVHGHAVRLPVARSGRDAEVDAELPVVSQAERARRHLEHLPCAP				NA	NA	NA	NA	NA
AK009_06625	564			hypothetical protein	TTGCGCGCTGTTTTTGCTCCGCATGACGGTGTTTGCCAGTTTGCGCGGCAACACCGAGCGGATGACGTTGCCAAGCTTGTCCACCCGCGGCTGGCTGAGCACGTAGGTGGGCGTGCGCTGCAGCATAGTCACCTTGGCGGCCTTTTCCGCCAGCACAGGCACAAGCGTCATTGCTGTCGCGCCCGAGCCGATGACCACGACGTTCTTTCCGGTGAAGCTTATGTCCTCGGGCCAAAACTGCGGGTGGAGGATGGTCCCGGTGAAGTCCTCGACGCCCGCGAAGGCGGGGTCGTGGGGGTTGTCGTAGTCGTAGTACCCGCTCGCGGCGACAAGGAACCTGGCGGTGTAGACAACGCGGTTGCCGTCCTGTTCGCAGCTGACGGTCCACTGACCCGACTCGCTGTCCCAGTTCGCGGCGACGGCGCGGGTGTTGAAGGTGATGCGCTCCGAGATGCCGTAGTGGTCCGCAGTGTCCTCGATGTAGTCGCGCAGGTCTGCCCCATCGACGATGGAATTGTGGCCGGTCCACGGTCGAAATGGATAGGACAGCGTGAACACGTCTGA	MRAVFAPHDGVCQFARQHRADDVAKLVHPRLAEHVGGRALQHSHLGGLFRQHRHKRHCCRARADDHDVLSGEAYVLGPKLRVEDGPGEVLDAREGGVVGVVVVVVPARGDKEPGGVDNAVAVLFAADGPLTRLAVPVRGDGAGVEGDALRDAVVVRSVLDVVAQVCPIDDGIVAGPRSKWIGQREHV				NA	NA	NA	NA	NA
AK009_06626	390			hypothetical protein	TTGGATTCAACAAGCTACGGATTAGTGCTCGTCGTAGTGGTCGCCGTGAGCGGCGTGGCGGTGGCCGTCGTGGATGTAGTCCACGTGATCGCCGTGGGGGATGGCGACGTGGCCGCAGCCCTCACCGTGGGTGTGGTCGGAGTGGTCCTCGTGAGCCTTGTGGTCAGTGGGCTCGCACTCGTCCCAGTGGCCATCGTGGCTGCGGTGGATGTGGCCGTCGTGGATGTAGTCGACGTGGTCGCCGTGGGGGATGGCGACGTGGCCGCAGCCCTCACCGTGGGTGTGCTCGTGGGTTTCGTGAATGGTGTGAGTGCTCATAAGAGCAGTCCTCTCAAGATCGTGTTTTCAACTAGTTTTCATTTAAGCACGGTTCCATTTAGCTTTCAATAA	MDSTSYGLVLVVVVAVSGVAVAVVDVVHVIAVGDGDVAAALTVGVVGVVLVSLVVSGLALVPVAIVAAVDVAVVDVVDVVAVGDGDVAAALTVGVLVGFVNGVSAHKSSPLKIVFSTSFHLSTVPFSFQ				NA	NA	NA	NA	NA
AK009_06627	744			hypothetical protein	GTGGTAGCTACCGGTGATGAAGGACGCCTCGTCGCTAAGCAGGAACGCGACCAGCGCGGCGACGTCGTCCGCCTCGCCCAAACGACCAGCCGGGTGCTTGGCAGTCAGGCCCTCGCGGGCGTCGTTAGGCAGGTTCTGCAGCAGCGGAGTGTCGATGTAGGCCGGGCCGACAGCGTTGACGCGGATGCCCTCGGTGCCGTACTCGACAGCGGCGTTCTTGGTCAGGCCGACGACGCCGTGCTTTGCGGCGGTGTAGGCGGAGTTGCCGGGAGCTGCGACCGCGCCGTGGATCGACGCCATGTTCACGATGGCGCACTCAGACGTGTTGTCCTGCGTCAGGAACTGCTCGATCTGGTAGCGGTTGCCGTAAGCGACGCCGGAGAGGTTAATCGCGATAACGTTGTCCCAATCCTCCAGGTCCATCTCGCCGACCTTGTTGGACTTGCCGCCGATACCAGCATTGTTCACAGCAAGCTCCAGCGAACCGAAGTTCTCGACGGCGAACGCAACCGCTTCCTTGTTCTTCTCCGCATCAGCGGTGTCGATTTCGAACGACGCGGCCTCTCCACCGGCGTTGACAATCTCCTCCACAACGCTGTCGGCGGAGTCGAGCTTAAGGTCTGCCACGACGACCTTCGCGCCATCGGCGGCGAGCTTCTTGGCTACCGCCGCGCCGATTCCCGAACCGGCACCGGTGACGAGTGCAACTTTGCCCTGAAAAGTAGACATATTCTTTCCCCTTAA	MVATGDEGRLVAKQERDQRGDVVRLAQTTSRVLGSQALAGVVRQVLQQRSVDVGRADSVDADALGAVLDSGVLGQADDAVLCGGVGGVAGSCDRAVDRRHVHDGALRRVVLRQELLDLVAVAVSDAGEVNRDNVVPILQVHLADLVGLAADTSIVHSKLQRTEVLDGERNRFLVLLRISGVDFERRGLSTGVDNLLHNAVGGVELKVCHDDLRAIGGELLGYRRADSRTGTGDECNFALKSRHILSP				NA	NA	NA	NA	NA
AK009_06628	429			hypothetical protein	GTGGACAGCTTCGTTGCCGATGCTGGCGCACGACAGCAGCGCGCAGACCAGGAGGGTCAGTGGGGTGAGCTTGAAGCCTCGCTCGCGAAACACCAAAGCGATGATTGCCGCGAGGGCGGCGAGCATACCGATCTGCCACAGGATGATGAGCGCGTTGTCCGCCAGATACGCGAACGAGGTAAACAGCACACCTGCGAACGGCGGGTAGGTAAACGGCAGGTCGAAGATGTAGGCCTTGTCGTACAGGTTCTCGCCCCGCAGCAGCGCCTGCCCGCCCATGCGATAGATCTCCAGATCGAGGGGGACTCGCCAGCGCAACGCGTGGTCCTCGGGCTGGGTGAAGATGCGCACAACCATCCATGCGATCAGCGCGCCCAACCCAACGATAAGAACGGGCGCCCCGGCGAGTTCCTTTTCCGGGGGCGTTGA	MDSFVADAGARQQRADQEGQWGELEASLAKHQSDDCREGGEHTDLPQDDERVVRQIRERGKQHTCERRVGKRQVEDVGLVVQVLAPQQRLPAHAIDLQIEGDSPAQRVVLGLGEDAHNHPCDQRAQPNDKNGRPGEFLFRGR				NA	NA	NA	NA	NA
AK009_06629	510			hypothetical protein	TTGGGAGAGCTCGTCGATTCCGCGAGACGACATAGCGCGCCACACCGGGTAGGAGACGAACGGGATGTGGAAGCAGACGATGGCCGCGAGGGACGCGAGGCCAGCGAGGGTGCCGTTAAACGAAGCGCCGAAGCGGTCGGCCGCCCACTCGTTGACGGCGATGAAGAGCACCATGCTCAGGGGTACGAGCCAGACGAAGTGGTGGTACCAGGAAAAAGGGGACACCAGACAGGAGCTGATGCCGGTGAGCGCGAACGCCATCGAGCGGTTGTTACGCAGCATTGCCGTGCGCAGCGCGAGGCAGGTGAAAACGAAGATAACAATCACCGAGAGGATCCACACTGTGCCGCCCTCCAGCCCGAAGGTGCGCTGCATCACGGAGAGGACGGATTTGGACCCTGTGTTTTCGGAACTGCCGACGCGCGAGGAATCGAACATAGCGTGTTCCCAGAAGTGGCGGGCGTCGGGCACGAAGGCGAAACCGATGATCACGGTCGCGAAGAAAGTTAG	MGELVDSARRHSAPHRVGDERDVEADDGREGREASEGAVKRSAEAVGRPLVDGDEEHHAQGYEPDEVVVPGKRGHQTGADAGERERHRAVVTQHCRAQREAGENEDNNHREDPHCAALQPEGALHHGEDGFGPCVFGTADARGIEHSVFPEVAGVGHEGETDDHGREES				NA	NA	NA	NA	NA
AK009_06631	1200			hypothetical protein	TTGGGCTGCGGCGGGGTTGATACCCACCTGGCTCAGCGCCTGCGAAATCGTCGGCGCGTAACCCACGCGGCCCTGGTAGAACACCAGCACACGCAGCAGCTTCGGGAAGGCCGATTCCTGGTCCTTGCGCTGGGAGTACACCGGCTCGACGTAGAGCACCTCGCCGCCGCCGACAGGCAGCGCCAGCAGGTTGCCGTTCTGCATGTCGTTAGTGCCCTCCCAGAGGGTGCGGTCGCGGGCGACTTGGTCGGACGACATCAGCGCATCCTGCGCCTGCTTCGGTCCAGGGCTCTGCGTGTTGGTCGGCAGCACGCGGACCGTGATGTTGCCGTAGTTCTGCGGGTCCGAGGCAACCGACATGTGCGCGGAGAGGAACTCACGGTTCAGGCCGCGGTACGGGGTGATCAGCTGGAACGACGGCTCGCGGGTTTCCGGGTCGGCCGCGACGATGTAGTACGGCGGCTGGTTAAGCTCCTGGCGGCCCTCCGGCGCGGTCGGGTCGTTGGGCACGGACCAGAACGCGTCGTTGTTGAAGAACACGCCAGGGTCATCGACGTGGTAGCGAGCCAGCAGTTCACGCTGGACCTTGAACAGGTCCTCCGGGTAGCGCAGGTGCTCGCGCAGCGCGTCGGAAATCTCGCTGCCCGGCTTCACCGTGCCCGGGAACACACCCATCCACGCCTTGAGCACAGGGTCCTCCTCGTCGAAGGCGTAAAGCTCGACCGTGCCGTCGTACGCATCGACGGTCGCCTTGACCGAGTTGCGAATGTAGCCCAGGTTGTTGTTCACCAGGCGCTGGGTCGTGCCGTCCGGGTTCAGTGCGTCCTGCGTGGTGTCCTCCATCGAGGTGCGCGTGGAGTACGGCAGGTGGGACAGCGTGGTGTAGCCGTCCACGATCCACTTCACGCGGCCGTCGACAACCGCGGGGTACGTCGCCGAATCCGTGGTCAGCCACGGTGCAACGCGCTCGACACGCTCGCGCGGGTCACGGTCGTAGAGGATCTTCGATGCAGGGCCGACGCGGTCGGACAGGATGAAGTTAAGCTCCTGGTACTTCATTGCGTACGCGGCGCGCTTGAACCAGTTGCCAATCTCAACGCCGCTGTCACCTTCGTAGGTGTAGTTCAGGTTGTCGGTGTCGTACTCGACGGGCCCCTGGCCGTTGTCGCCCACGATGGCGTAGTCGAGCCCATCGCTTGA	MGCGGVDTHLAQRLRNRRRVTHAALVEHQHTQQLREGRFLVLALGVHRLDVEHLAAADRQRQQVAVLHVVSALPEGAVAGDLVGRHQRILRLLRSRALRVGRQHADRDVAVVLRVRGNRHVRGEELTVQAAVRGDQLERRLAGFRVGRDDVVRRLVKLLAALRRGRVVGHGPERVVVEEHARVIDVVASQQFTLDLEQVLRVAQVLAQRVGNLAARLHRAREHTHPRLEHRVLLVEGVKLDRAVVRIDGRLDRVANVAQVVVHQALGRAVRVQCVLRGVLHRGARGVRQVGQRGVAVHDPLHAAVDNRGVRRRIRGQPRCNALDTLARVTVVEDLRCRADAVGQDEVKLLVLHCVRGALEPVANLNAAVTFVGVVQVVGVVLDGPLAVVAHDGVVEPIA				NA	NA	NA	NA	NA
AK009_06632	822			hypothetical protein	TTGGGTGGCAATCGCGTTGGTCTGCAAATCGGACACGGTGAAGATGGGCAATCCACCGCGGGTCGAGCCGGCGTCCTGAGCCGCCTCGTCGACAGTGTTCGCCTGCGCCGCGATGAAGCCGTTGCCGTGGGTGTACACGGTGTGGCGGTTGATCCAGTCGCGCTGGTTCTCGCGCAGCGCGTTCGGGTCAAGCTCGCGGGCGGCGACGACGAAGTCGCGCATCTCCCCGTCCACCTGGTAGCGGTCCATGGCCAGCGTCTCCGGGAAGCCGTAGAAGTTACGCAGCTGCTGGTTCTGGGTGAACGTCGGAGCGATGATGTCCGGGTCCAGCAGGCGGATGTTGGAGATGGTCGCCTCGTCGGCTGCGACCTGCTCGTCGGAAACGTCCTCGGTGCTCCAATTTTCCAGGTACGTCACTTTGTCGTCGGTAAGCCCGTAGGCGTAGCGCGTGGCCTCGATGTTGCGGCCGATGTACTCGAACTCCTTGGCCTGGCGGTTGGGCTTGACGGAGAACTGCTCGAGCATGGCCGGCCAGATGCTGCCGATCGCCAGCGAGGAGACGAGCATGAGCACGGTCGCCAGGACCGGGATGCGGAAATCCTTGTACACGATGGAGGCGAAGAAGGCCGCGGCGACGATCACCGCGATGACCATCAGGGCGATCTTCGCCGGCAAGGTGGCGTTGATGGCGGTGTAGGAGGCGCCGGTGAAGATGTCGTTCTGCTGGTACAGCAGCGTGTAGCGCTCCAGCCAGTAGGACACAGCCTTGACCAGCATCCACAGGCCCGCGGTTACCGCGAGCTGGATGCGAGCGGAGCTTGA	MGGNRVGLQIGHGEDGQSTAGRAGVLSRLVDSVRLRRDEAVAVGVHGVAVDPVALVLAQRVRVKLAGGDDEVAHLPVHLVAVHGQRLREAVEVTQLLVLGERRSDDVRVQQADVGDGRLVGCDLLVGNVLGAPIFQVRHFVVGKPVGVARGLDVAADVLELLGLAVGLDGELLEHGRPDAADRQRGDEHEHGRQDRDAEILVHDGGEEGRGDDHRDDHQGDLRRQGGVDGGVGGAGEDVVLLVQQRVALQPVGHSLDQHPQARGYRELDASGA				NA	NA	NA	NA	NA
AK009_06633	525			hypothetical protein	ATGTCCGAGCAGCAGGCGCTGAACAAAGCGATGATGGAGGCTGTGGAGTTTGTCCACGCCGAGGGCTGGGATGCGGGCCCGACCCTGTTCGGGCTCGTTCCCACCTCGCTCCTGATCGACCAGCTCGACCCCGACCTGGCCGACGCTCCCCTGACGCTGGTGGTGCAGGACCTTCCGGCGACGATCCTGCCCGGTTCGGAGGAGCTGGCCGAGTACGTCGCGCGCCTGGCCTGGCCGCGCGAGGTCGAGGGCGTGGTGCTGGCCCAGGAGATTTCGTTCGTCGATTCCTCCGCCCCCGCCGAGCAGGGCCCACGGCCGGCGCGCTTGTTCTCCGGCGTGCTGCGTGACGACGACACCGAGCTCACGCTTCTCCAGCTACGCCCCACGGACGACGAGCTCACCGAGCGCGGCCCGTTTGCTCAAGACGACATCGAGCTGCGCGGCGGGCCCGGGGTAGCGCCGAACATCATCGCCGCGCTGCGCTACGGGCTTGAGCAACCATTGGATGAAGCCGAGTTCGAGTAG	MSEQQALNKAMMEAVEFVHAEGWDAGPTLFGLVPTSLLIDQLDPDLADAPLTLVVQDLPATILPGSEELAEYVARLAWPREVEGVVLAQEISFVDSSAPAEQGPRPARLFSGVLRDDDTELTLLQLRPTDDELTERGPFAQDDIELRGGPGVAPNIIAALRYGLEQPLDEAEFE				NA	NA	NA	NA	NA
AK009_06634	441			hypothetical protein	TTGCGCCGTCTCGGTTTCGGCCGCAGCCGCGCTGTCCTCGTCGACAAGGCCCAGCTTGATGATGCGCTCGCGCGGGTCCTCCCGGTCGGACGAGACGAGCTGCTGCATCACCTGCCCCTTGGAGTTGTCCACCACGGTGATAATCGCCGAGGTGCCCAGCGTCGACCAGCCGACGACGCGTTCGCCGGTGTCCTCCACAATGCGCGAGCTGCGCAGCTCGGTGAGAAGCTGCGTCGTCGAGGCCGCCTTCGAGTCCGAGTCGAAGAATTGGAACTGGCCGATATCGGCGCCCGAGCAGTCGAAGGAGCTCTCCACGTCGACAGCGACGCACGTATCAAGCTGCTCGAAAAACTCGGGCGGGGCGAGCGTCGAAAAGCGTTCCGCGACCAACTCCACGGCCGCTTCTTCCTCGGCCTGCGTCGTCGTTGCGCTTTCGCTTGA	MRRLGFGRSRAVLVDKAQLDDALARVLPVGRDELLHHLPLGVVHHGDNRRGAQRRPADDAFAGVLHNARAAQLGEKLRRRGRLRVRVEELELADIGARAVEGALHVDSDARIKLLEKLGRGERRKAFRDQLHGRFFLGLRRRCAFA				NA	NA	NA	NA	NA
AK009_06635	396			hypothetical protein	GTGAACGTCGCGGCCCTCGTTGAAGTCGGCCATGGCACGCACGGCGTCGTCAAGCGTGGCGACGCTCGCAACGACCATATCCCCGGAATTTACCCGCGATGCCTCTGCGCAGTTGCCCTCGGGCGCGAGGAACAGCTCCGCCCCCGTATCGCGCGCGGCGCGGATCTTGTGGGTGATGCCGCCGATCGGGCCGACCTCGCCGTCCTCGCTAATCGTGCCGGTGCCGGCCACAAAGTTGCCGCCGTTGAGCGCGCCAGGCGAAAGCTTGTCTATCACCGCGAGAGAGAACATCATGCCCGCGCTCGGGCCGCCGACGTCGTTGAGGTTGTACTCCACCGAGATCCCGCCCGCGGGCTCCGACGTCATCAGGATGCCGAGCTGGGCCGCGCCCGGTGA	MNVAALVEVGHGTHGVVKRGDARNDHIPGIYPRCLCAVALGREEQLRPRIARGADLVGDAADRADLAVLANRAGAGHKVAAVERARRKLVYHREREHHARARAADVVEVVLHRDPARGLRRHQDAELGRAR				NA	NA	NA	NA	NA
AK009_06636	735			hypothetical protein	TTGGCCCTCGCGCGCGATAGTCAGCGTGATCGTCCCCCCCGGCGCGTGGGCAAGCACTGCATCCTGGACCTCGCCCGGCTCCGAGACCTCCACCCCGTCGACCGCGGTGATCACGTCGCCCGCAGCAAGGATGTCCTGAGCTGCGGAATCGTCGACAACGTCGTGGACCACCACGGTGGTGGGCTTGCCCAGGTAGTTCATCGCCGCCACGGTCGCCGCGGCCTCGGAACCGACGAACGCCGCTTCGTTGAACTTCTGAAAGTCCTCCTCGGACACGTCCGGCGGAACGACCTGCTGCAAAGGCACCAGCGTGTCCTGGGAGCCGATCCACCTGGCCAGCGCTTGGGCGAGCGTCATGTTCGTGCGCACGGCGACCGTGGTCATGTTCAGATTTCCGGAGGTCTTGTCCGTCTCGGTGCCCTCGATGTCGACCACGGGGGTGCCGTCGATCTCGGCCAGGGTGTTGAACGTCGGCCCCGGCCCCTGGGCCGCGTAGGGCACCGTCAGCGACACGTCAGTGAAGGGAATGTGGTCCACCGACAGTGTTACTGCGAGCAGGCCCACGGGCAGGGCACCCCACACGATGGTGGACCAGCGCCGCTGCCTCAAAGCCGTCGTCTCCGTCACGGGGCAACATCTTATCCGCCGCCGCCCCGGCGGCCCTATTCGCGTTCGCTGTCAGCGTCCGCTAGGCCATCGCGTGCGTTCGGCGCGGCTAGTAGTGTGGTCGTATGA	MALARDSQRDRPPRRVGKHCILDLARLRDLHPVDRGDHVARSKDVLSCGIVDNVVDHHGGGLAQVVHRRHGRRGLGTDERRFVELLKVLLGHVRRNDLLQRHQRVLGADPPGQRLGERHVRAHGDRGHVQISGGLVRLGALDVDHGGAVDLGQGVERRPRPLGRVGHRQRHVSEGNVVHRQCYCEQAHGQGTPHDGGPAPLPQSRRLRHGATSYPPPPRRPYSRSLSASARPSRAFGAASSVVV				NA	NA	NA	NA	NA
AK009_06637	1302			hypothetical protein	GTGGTCCCAAACCTTGTCGCGGCGCTCCATGCCAACCGCGGTGTTAGCGCGGCGCCACAGCTCGGCGGCTTCGCGCACCTTGGGGGCGGACAGCTCGATGCCGACGATGTTGGCGAAGGCCTGCTCGGCAGACCCTCCGGTGGCGCGGCGGCGCGCCCACGCCTCGGCGAGCTGCGGCGTGGACGGGATACGATCCGCGAGCGCTTCGGTGACAACGACGTCGATCCAGCCCTCCACCAGCGCCAGCAGCGTTTCCAGGCGGGAGGTGGCCAACTCGTTGCGAGAACTGACCCGCGGGGTGAGGTCCATGCCCTGGAGCTCGCCGAGCTTTTCCTGCAGCTGCTGCGGGTCGCCCGACTCGAGGTCGAGGTTGCGCGCGATCTCCTCGATGTGGGAGGTATCGATGACCAGGCCGGCGGCGTACTCCTCCACAGAGGACACGAGGCGTTCGACCAGCCACGGCACGTGGGTGAACAGGCGCTGGCGGGCGGCCTCGCGCGCGGCGATATAGACCAGCACCTCCTGACCCGGCACGCCGAGGTCGTCGGAGATGGCCGAGACGTTCTTCGGCAGGATCGCCGCGATGTTGCGGGGAGCGACCGGCAAACCGAAGTCGGTGCCGGTCAGCGCCTGCTGGGCGAGGTCGCCGAGGGCGTGGCCGAGCTTCATGCCGAAGTTCATCGCGTTCATGGAGTTCATCATCCCCGCCATCGGGCCCATCATCTCGCGGGCCTGCTCGGGCATCGACTCCATCTGCGCCCGATTCATGTTCTCGGCGACCGGGTTCACCATCCGCTTCCACATGGGCATCGTGTTGGAGAGCCAGTCTTCCGCGTTCCATGCCGCGGGCTGGGCGGAGGAGGCGGGCAGCGTGGTGGCGTTATCGATCCACAGATCCGCCAGGCGCAGGGATTCGGTGACCGCAGTGGTGTCGGCCGAGGACACGGCCGGCGACGAGCCAATACGCTGGCGCGCCATGCGCAGCGCCAGCTCGAAGTTCACGGCGTCGCCGCCGGAGCGCTCGTTGAAGCTCGTGCCCATGCCGGAAAGCATCTGGCCGAACTGGTTGAGGATGTCGCCCAAGTTGCCTCCCTGGCCTGGTTGCGCGCCGAATCCGAAGGCGGCGAAGGGGTTCTCGCCGCCCTTGCCGGTGCCGTCGTTGTTCTCGCCGTTGCCCTTGTCGCGATCGTTGGGGTCGTTGTTGGGGAAGGAGAAACCGAATCCGTTGCTCATACGACCACACTACTAGCCGCGCCGAACGCACGCGATGGCCTAGCGGACGCTGACAGCGAACGCGAATAG	MVPNLVAALHANRGVSAAPQLGGFAHLGGGQLDADDVGEGLLGRPSGGAAARPRLGELRRGRDTIRERFGDNDVDPALHQRQQRFQAGGGQLVARTDPRGEVHALELAELFLQLLRVARLEVEVARDLLDVGGIDDQAGGVLLHRGHEAFDQPRHVGEQALAGGLARGDIDQHLLTRHAEVVGDGRDVLRQDRRDVAGSDRQTEVGAGQRLLGEVAEGVAELHAEVHRVHGVHHPRHRAHHLAGLLGHRLHLRPIHVLGDRVHHPLPHGHRVGEPVFRVPCRGLGGGGGQRGGVIDPQIRQAQGFGDRSGVGRGHGRRRANTLARHAQRQLEVHGVAAGALVEARAHAGKHLAELVEDVAQVASLAWLRAESEGGEGVLAALAGAVVVLAVALVAIVGVVVGEGETESVAHTTTLLAAPNARDGLADADSERE				NA	NA	NA	NA	NA
AK009_06638	555			hypothetical protein	GTGGTCGCGGTTAGCTGCACGAGAACTATTGCAGCACAGATAGAATCACTTTTCATGTGGTCGACAGAACAGGTGCGCGTGATTCGTTCGCCGCGGCGCAGGCGCACTGTGCAGGCCCGCCTCAACGGATCGGTGGTTGAGGTGCGCATCCCAGCCACGTTCACGGCCCGTCAGGAGCGCGAGGCGGTTGAGGAGATGCTGGGCCGGCTCGAGCGCAAGGCCATGGCGTCGGTCAGCTCGGACGAGGAGCTTCTGCAGCGTGCGCAGCGACTCAATAAGGAGGTCTTGGCATCTCGCGCTCGCGTCACGACGATCCGCTGGTCACCCAGGCAGAACTTCCGCTGGGGCTCGTGCACCGTCGCCACGGGCGAGATCCGCATCAGCGATCGTCTCAAGCATGTGCCCGACTACGTCCTCGACGCGGTGATCGTGCACGAGCTGGCGCACACGATCGTCGCGGAGCACTCGGCGCAGTTCTGGGAGCTGGCGGACCGGGCCCCGCTTGCTGAGCGGGCGAAGGGCTACCTCGAGGCTTACCAGCGCTTCGGCTCCTAG	MVAVSCTRTIAAQIESLFMWSTEQVRVIRSPRRRRTVQARLNGSVVEVRIPATFTARQEREAVEEMLGRLERKAMASVSSDEELLQRAQRLNKEVLASRARVTTIRWSPRQNFRWGSCTVATGEIRISDRLKHVPDYVLDAVIVHELAHTIVAEHSAQFWELADRAPLAERAKGYLEAYQRFGS				NA	NA	NA	NA	NA
AK009_06639	270			hypothetical protein	GTGTTCGGCGACGATGACGCGGTAGGCCACGAGCTCGTCGATGAGGTTGCGCGCTGCCGCGGGCACCATCCCGGCCTGGGCAAGGGCGTCGAGCACCTCGCCCAGCGGCGCCGGTGCACTCAGGCGCTCGAGCACGGGCTGGAGGTGCTCGGCGAGAGAGGTGTCGATGACGCCGCAGCGGGTCGCGTCGAGCCCGAACTGCAGCACGCTGCGCCCACGCACGAGCACGCGCACGCCGGGTGCGAGGCGAATGGGCGTGGTCGCGGTTAG	MFGDDDAVGHELVDEVARCRGHHPGLGKGVEHLAQRRRCTQALEHGLEVLGERGVDDAAAGRVEPELQHAAPTHEHAHAGCEANGRGRG				NA	NA	NA	NA	NA
AK009_06640	510			hypothetical protein	GTGTGCCGAGCGCACGAGCGGCACCGGCCCGAAGGGGTCGGCGATGAGCATCTCACCCCGCGCCGGCGCTTTGGCGGAGACCCCGGGTGGGTCGGGCACCCCGGCGAGTCGGCGCAGCACGGTGGCGGCGGCGACTGCCCCAGCCGCGGTCGTCACAGCGTCGGGTTGCGCGGGTGCTGCCGCGAGCGTGTCGACGAGGTGTTCCCACTGCGCATCGCGCTGGGCGTGGTAGAGGTGCGCGCAGTACAGGCACGGCCCGGCGCGCCCGACGCCGAGCGGGCCGATGAACACGCGAGCGTCGACGGTCGAGACGGGCAGCGACGCCCCGCTGCGGTGGCGCACCAGGCGGGCGATGTCGCGCGCGTGGGGCAGCTGGTCGACGAAGGCCGCCGGCGTGCTCGGATCGGCAGACGCCAGCGCCCGGCTCAGCGGCTCGGAGGCCAGCGGCGAGCGCACGGTGATGCCGGAGGCTCGCAGGAGCGTGGACAGGGCGTCGGCAAGCGGGCTTGA	MCRAHERHRPEGVGDEHLTPRRRFGGDPGWVGHPGESAQHGGGGDCPSRGRHSVGLRGCCRERVDEVFPLRIALGVVEVRAVQARPGAPDAERADEHASVDGRDGQRRPAAVAHQAGDVARVGQLVDEGRRRARIGRRQRPAQRLGGQRRAHGDAGGSQERGQGVGKRA				NA	NA	NA	NA	NA
AK009_06641	264			hypothetical protein	GTGTCCCGCCTCCCGGGCGACATCGAGGCGCCACGCCTTGAGCGCGAAAAACGCGTCCTCATTGTACTCCGGCTCGCAGTCCGCGTGGCGGCCCAACGTCTTTTCCGCCGGGGTGTCCAGCGGGTTGCCGCACACCCGGCACGCGCGGGAGCGCTTCAACCTGTCGGGGGATTTCTCCACGTCGAGCTCGGGAGCGATGCCGTCGAGGAAGCGAGTGCGGCTGCGCGATTTCCGCCCGCCCTCTTGGCGAGCCAGGGACCATGA	MSRLPGDIEAPRLEREKRVLIVLRLAVRVAAQRLFRRGVQRVAAHPARAGALQPVGGFLHVELGSDAVEEASAAARFPPALLASQGP				NA	NA	NA	NA	NA
AK009_06642	300			hypothetical protein	ATGCAGGTGCTCCCGGGCGCGGGTGATGCCGACGTAGAACAGGCGGCGCTCCTCCTCCACTTGGGCGTCGCCCGCCTTGATCGCGTGCGAGATGGGCAGGGTGTTTTCCACCAGCCCCACCAAAAACACCGCGTCCCACTCCAGGCCCTTCGCGGCATGCAGGCTGGCCAGGGTGACACCATCGACGCTTGGCGGTTGCTTCGCGTCGGCGCGCTGACGCAGGGAGCGCAGCACGTCGGTCAGCGTCGATGCCTCCTGGGTGTTCACGATCTCCTCGATCAGGTCCACCAGGGCGCTTAA	MQVLPGAGDADVEQAALLLHLGVARLDRVRDGQGVFHQPHQKHRVPLQALRGMQAGQGDTIDAWRLLRVGALTQGAQHVGQRRCLLGVHDLLDQVHQGA				NA	NA	NA	NA	NA
AK009_06643	483			hypothetical protein	TTGCCAGCGCTCGCGCGCCTGCGCACCCTCCGGTTCCTGCGCCGAGAGCCCCAGCGGCGCGAACGCAGCGCGCGCGACGGCCACCGGGTCGTCCGGCAGGTCGTCGCGACGCGCTGCGGCGACCAGGGTGTTTATCGCCTCGCGGATCTCCGCGCGGTGGAAGAACCCCTCACCGCCGCGCACCTGGTAGACGATACCGGCGTCCGCCAGCGCCGCTTCAAACGCCGCGGACTGGGCGTTGATGCGGTAGAGCACGGCGATCTCGCGGGCGGCCACGCCGGCGTCGAGAAGCGAGCGGATCGCCCGGGCCACCTCGCGCGCTTCGGTCGGCTCGTCGTCGTGCGCGGCGAAGGTTGGAGCGGGGCCGGGCGGGCGCATGCCCTCGAGCTCGAGGCGGGTGCCCGCGGCGCGGCCCGTCGCGCGCGAAATCACCGTGTTCGCCAGGTCCGTGACCTGCGGCGTCGAGCGGTAGTCGCGCTGTAG	MPALARLRTLRFLRREPQRRERSARDGHRVVRQVVATRCGDQGVYRLADLRAVEEPLTAAHLVDDTGVRQRRFKRRGLGVDAVEHGDLAGGHAGVEKRADRPGHLARFGRLVVVRGEGWSGAGRAHALELEAGARGAARRARNHRVRQVRDLRRRAVVAL				NA	NA	NA	NA	NA
AK009_06644	750			hypothetical protein	GTGCTGGTAGGTGCGCGAGAAGTTCAGCAGGTAATCCGGGGTCGCGCCGGTGAACGAGTAAATCGTCTGGTTCGCGTCCCCGACCACGGTCAGGTCGTCGCGCTGACCGAGCCAGCCCTCCAGCACGCGCTGCTGCAGCGGGGTGACGTCCTGATACTCGTCCACCACGAACGTCTGGTACTGCATGCGGAACTCCTCTGCCACCGCGGGGGCGTTCTCCAGGGCGCCGGCGACGTGCAGCAGCAGGTCGTCGAAGTCGAGCAGCATCCCCTCCGGGCTGGTCTTGGCCTCCTCGTAGAGGCGGTAGACGTGGGCCACCTTCGCCGGGTCCGCCGGCAGGGTGCGCTTGGTAGCAGCGACCTTCTCCGCGTAGTCGTCCGCGCCGATCACCGACGCTTTTGCCCACTCGATCTCGCTCAACAGGTCGCGCACCATTTCCTTGCCGGAGTCGAGACCCGCGGCGCGGGCGGCGCGGCCGACGAGGGGGAACTTGTTGTCCAGCAGCCGCCACGGCAAGTCCCCGGCAATTTGTGGCCAGAAGTAGCGCAGCTGACGCAGCGCCGCGGAGTGGAAGGTGCGCGCCTGCACACCACCGATGCCGAGAACGCGCAGGCGATCGCGCATCTCGCCCGCCGCGCGCTGGGTAAAGGTCACGGCGAGGACCTTCTGCGGCGACACGACGGACTGGTCGATGAGGTGCGCGATTCGGTAGGTAATCGTGCGGGTCTTGCCAGTGCCTGCGCCCGCTAA	MLVGAREVQQVIRGRAGERVNRLVRVPDHGQVVALTEPALQHALLQRGDVLILVHHERLVLHAELLCHRGGVLQGAGDVQQQVVEVEQHPLRAGLGLLVEAVDVGHLRRVRRQGALGSSDLLRVVVRADHRRFCPLDLAQQVAHHFLAGVETRGAGGAADEGELVVQQPPRQVPGNLWPEVAQLTQRRGVEGARLHTTDAENAQAIAHLARRALGKGHGEDLLRRHDGLVDEVRDSVGNRAGLASACAR				NA	NA	NA	NA	NA
AK009_06645	849			hypothetical protein	GTGCGGGTCTTGCCAGTGCCTGCGCCCGCTAAGATGCAGACCGGGCCGCGCGGGGCGGTCGCGGCGACGCGCTGGTCGTCGTCGAGAAGCGAAAGATCAATTGCCATTGACGCCCTCAGCCTTGCCCGGCAGGTCGCGGGTATGGCGCACGTAGAGGAGGCGATCGCCCGGCTCGACGGTTTCCGCCTCCGGCGAATCGATGCGGTAGAGCTCGCCGGAACGCACCACGCCCAGCACGATGTCGGCGAGGTGGCGCGGGTTTGCCCCGACCTCGTCGTCGCCAATCGGGCGCTCCGCCACCGCGAAGCCGTCGTCCGGGCTGAGCAGGTCCTCCACCATGGCCACCACCGGCGGGGTGACCGTCGCGATGCCAAGCAGACGGCCGGCGGTTTCGGAAGACACCACGACCGAGTCCGCACCGGACTGCATCAACAGGTGCTGGTTTTCGCTCTCGCGTACCGACGCCACAATCATCGCGCTCGGGGCAAGCTCGCGCACCGACAGGGTGATCAGCACGGCGGTGTCGTCGCTAGACGGGGCGACCACGACGGAGCGCGCCCGGGTCACACCGGCGACCTTAAGCACGTCAGACTTCGTCGCGTTTCCGTGCACGGTGACCAGGCCGCGCTTCTCGGCGCGCGTGAGCACCGCCGCGTCCTTATCGACGACGACGATGTTGGACGCCGAGGCGCCGTCGGCAAGCAAAGCGTCAATGGCGGAGCGGCCCTTGGTGCCGTAGCCGAGCACGATGGTGTGGTTGCGCACAGTTTTCCTCCACTGCTGGATCTGAAGGGTTTTGCGGGAATCCTCGGTGAGGACCGACAACGTGGTGCCGACGAGCAACAATAG	MRVLPVPAPAKMQTGPRGAVAATRWSSSRSERSIAIDALSLARQVAGMAHVEEAIARLDGFRLRRIDAVELAGTHHAQHDVGEVARVCPDLVVANRALRHREAVVRAEQVLHHGHHRRGDRRDAKQTAGGFGRHHDRVRTGLHQQVLVFALAYRRHNHRARGKLAHRQGDQHGGVVARRGDHDGARPGHTGDLKHVRLRRVSVHGDQAALLGAREHRRVLIDDDDVGRRGAVGKQSVNGGAALGAVAEHDGVVAHSFPPLLDLKGFAGILGEDRQRGADEQQ				NA	NA	NA	NA	NA
AK009_06646	468			hypothetical protein	GTGGCGCGACCGGTTTCAGGCCGACGCCGACGTCAGCAGCATGCCCGTGCACACGCTGCTCGACGTCGTCACCATCCCCACTGCGGAGCAGGCGACCCCCTGGGCGATCATCCTGCGTCGCTTCCTTTATGCCTCAATCTTGATGGTCGTCGTTTCCGTCATCGTGTACGTCGACCGCGATGGCTATTCCGAGCCGCTCACGTTTATCGACGCCCTTTATTATTCGGCGGTGTCGCTGTCGACAACCGGCTACGGCGACATCACACCTGTGACGCAGGGCGCGCGACTGATGAACATCTTCGTGATCACGCCGCTGCGCATCGCGTTCCTATTGTTGCTCGTCGGCACCACGTTGTCGGTCCTCACCGAGGATTCCCGCAAAACCCTTCAGATCCAGCAGTGGAGGAAAACTGTGCGCAACCACACCATCGTGCTCGGCTACGGCACCAAGGGCCGCTCCGCCATTGA	MARPVSGRRRRQQHARAHAARRRHHPHCGAGDPLGDHPASLPLCLNLDGRRFRHRVRRPRWLFRAAHVYRRPLLFGGVAVDNRLRRHHTCDAGRATDEHLRDHAAAHRVPIVARRHHVVGPHRGFPQNPSDPAVEENCAQPHHRARLRHQGPLRH				NA	NA	NA	NA	NA
AK009_06647	3399			hypothetical protein	TTGCCGAAGCAGCTGCTCCAACTGATTCGAACCCGGCAGGTCGGAGGGCTCGTAGTCCTCCCCCGTACGCACGTAGAAGAACACCGCGCGCACATCCCGGCCGTCGCCCGCTATTCGACGCCACGCCTCGCGGTACACCGCAAGCTGCAGCATCGCGCTTTTCATCTGCGCGGGCGCGGGCTTTGTACCCGTCTTCCAATCGACCACCGTCCACCCGTTGTCGTCTACAAACACCGCGTCCATGCGGCCGCGCACGACCGACTCGCCCAGCGCGAGCTCGAAGGGGTGCTCCACGAAAGCGGGGGTGCGCTGCGCCCAGTGGCTGCTCTCGAAGTTGCTCTTGAGCTGCTCAAGCGTGCCCGTATCCACCTCGGACTCATCGGCTCCGGGCAGCTCATCTTCTGTGAGCAGGGGGCGCGCGCCGTAGAACTCCTCCAGCCATTCGTGGAACGCGGTGCCGCGCTTGGCGTAGGTGTTGGGCTTGAACGGGACGGGTCGGCGGGCCCGGCGGGCGAACTGCTCCGGGTCGGCGCTGAGCGCCACCACGTCGGAGGCGGTGAGCTCGCCCGGCAACATGACGGGCACTTCCCCGCTGGCCGCGGCAACGTGTTCCTCGATGAGGGCGCTCGTGTCGCGCTCCCAGAGGCCGTAGAGCTCGCCCGCGCTGAGCTCGGGCAGGTTCTCGCGCGCCTGCGCGACCAGCGCGGCGGCCTCGGCATCGCCCGGCTCGACGCGCAGGTGGGGCCACAACCCGGTGCGCTCCGGCGCGGCATTTTCATGCTCTTCGACTTGTTCGTCGTCTCTTGCAGAGTGGCCGTCGTACCAGTGAACGACGCTGGTTTCGGGCACGAGGTCACGGATAGCGGCGAAGTGCTTGTAGGGCTCGGCGACCTTCTTGCGGCCATGCTTTACCGCCGAGCCGGTGACGATGAGCTTGCGCGCCGAACGGGTCACCGCCACGTAGAACAGCCGCGCAGACTCTTCCTCCAACTTGGTGCGCACCGACTCGCAGTAGGCGTTGGCGGCTTTGGCGAACTGCGTGCGCGTCTCGGCGTCGTCAAAGGCGTCGAAATCCTCGTCGGGCACGATCTGGGCTTGAGTGAGGAAGGTCGAGACGATCGGTTTGTAAGTTTCCGCGTCCGCCCGGACCACGGCGACCGTGTCCCACTCCAGTCCCTTCGCCTTGTGGGCGGTGAGGATCTGGACGCGGTCGGTGCGCACCGGCACAGTGCCCGGGGTCAGCCCGCCCTCGTGCTCACGGGCGAGCTCGAAGTAGTCCAGCAGCGCCGTCAGGCTCGTTCCGGGGTACGAGGCGACCTCTTCCAGCAGACGGTCGAGGTGGACGGTGCCCGTCGTCGAGGGGCGCGCCAGCGCCTCCGTGCGGATTCCGAATACCGAGATGATGTCGGCGAAGACATCGGGCAGGCGCTTGCCGAGCGCGTGCGTGCGCAACCAGCGCAGCTTCGAGGCCAGCGACTTGATGCGCTGCAGGCCCTCGGGGGTGTAGCGCTCGGTTTCGCCCAAGTCCGCGACCGCGTCGGTCAGCCCCGCCGGGGTGTCGGCGCCGGCGGTGATGCGCTGGGCTTCCGCCACAGATTCCTGCAGCTGCGCCTCAAACCGGCTGGTGGGGTCGGCGGCTTCATCCAGCTGTACTGCGGTGGGCGTCACCCCGCGCAGGTTAGCGGCGCGGCGCGAGAGCGCATCGAGGTCGGCCAGACCCAGCCCGACGGCGGGGCCAGCCAGGATGCGCAGTGCGGCGGCGGAGTCTCCGGGGCGCACCAGCATCGCCGCGATGGCGATGGCGTCGGCGACCTCGGGGACGTCGAGCAGCCCGGCGAGCCCGACTATTTCGAAGGGCACGCCGCGCTCGTCGAGCGCCTCCGCGACCTCGGGCGAGGTCTTGTTCGCGCGGACCAACACGGCCGCGTTGAACGGCTCACCCGCGGCCCGGGCAGCCTCGTACTGGGCCGCAAGAGTGTCGGCGACGAAGTCGAGCTCCTCATCCTCGTACTCGAAGAACCCCAGCTCAACCTCGCCTGCGCCCGCGCCAGGGCGGGGCTCGAGCGCGGCGACGACGCGGTCACTGCCGGTGCCCAGCAGAGAGTCGGAGACGCAGTTAGCCAGGGTGAGCACCTCTGCCGGGTTGCGCCACGACGTGGTCAGCTGCTTCGTGGGCGCGAGCGCGCCGGTCGGCTCCGGGAAGTCCTCAACGAAGGCAGCGAGGTTGGCAGCCGTTGCTCCACGCCACCCGTAAATCGCCTGCATCGGATCACCCACGGCGGTGACGGTCAGCGGGTGGCGCCGGGAGTCGTCGTCGGGGCCTTGCCCGAACAAGCTGCGCAGGAGCACGCGTTGGGCGTGAGAGGTGTCCTGGTACTCGTCGAGCATGACTACCCGGTAGCGCTGGCTCTGGGACGCGCCGACGAACTCGTGGTCGTGGGCGAGCCGGGCGGCCACAGACATCTGTTCGTTGAAGGTGACCAGCCCGCGCTCGCGCAGCTGCGCGTTGAGCTCCTCCACCAGCGGCAGGTAGGCGCGACGCAGCTCCTGGGTGTCGCGCCAGCCGGTCATTTTACCGGTAAAGGTCGGGGGGTTGCCCCGGCCGGGCAGGGACTCGGTCTCAGCGAGGAAGTCGTGCGCATGCTCGGCGATAAACTCCGGTTGCATCAGAGAGTTCCCCATCGAGGTGACCAGGCCGAGGACATTCTTGACGACCGTGGCCACGCTCGGGTTTTTCCCGCTTTCCGCCACAAGCGTGCCGCGGTAGCCGAGGACGACCTCGTGGGCGATCGCGTGCAGCTCCGCAGCCGTGATCAGGCGCGCGTCCGGCTCGACGGGAACCAACAGCCCGTACTCGCGCACCAGGTCCCCCGCGTACGAGTCGTAGGTGGCGACAGTCGGTGCGATGACTCGCAGCGTGTCGGCGAGCTCTCCGCTCGGGTCGAGGCGGCGCAGCAGCGCATCGTTCGCTGCGAGGACGCCGAGCCGGTCCCGGATGCGTTTGCTCAGTTCCTGGGCAGCTTTGCGCGTAAACGTCAGCCCGAGAACCTCTTCGGGGCGCGCGTATCCGTTGGCAACGAGCCAGACGACGCGCGCCGCCATCGTCTCCGTCTTGCCGGCTCCGGCGCCCGCAACGACGAGCAAGGGCCCCGGGTCGGCCCCGATGATGTCCGCCTGCTGCTCAGTCGGCGGGTAGGCCTGCCCGAGGTACTTCGACAGCACCGTGGGGCTCATCGGCGTGTGGGGGGCGTTAGCCACGGGGAACCACCTGTCCTTCTGGTTGTACGGGGCACAGCGCGCGCACCGCGCACCTGTCGCAGTGGGCACCGGCGGAGGCGAGCAGCTCAGGGCCTGCCACCAGCTGCGGGAGCGGGGCAACGACCTCCGCGAACTCCGTGA	MPKQLLQLIRTRQVGGLVVLPRTHVEEHRAHIPAVARYSTPRLAVHRKLQHRAFHLRGRGLCTRLPIDHRPPVVVYKHRVHAAAHDRLAQRELEGVLHESGGALRPVAALEVALELLKRARIHLGLIGSGQLIFCEQGARAVELLQPFVERGAALGVGVGLERDGSAGPAGELLRVGAERHHVGGGELARQHDGHFPAGRGNVFLDEGARVALPEAVELARAELGQVLARLRDQRGGLGIARLDAQVGPQPGALRRGIFMLFDLFVVSCRVAVVPVNDAGFGHEVTDSGEVLVGLGDLLAAMLYRRAGDDELARRTGHRHVEQPRRLFLQLGAHRLAVGVGGFGELRARLGVVKGVEILVGHDLGLSEEGRDDRFVSFRVRPDHGDRVPLQSLRLVGGEDLDAVGAHRHSARGQPALVLTGELEVVQQRRQARSGVRGDLFQQTVEVDGARRRGARQRLRADSEYRDDVGEDIGQALAERVRAQPAQLRGQRLDALQALGGVALGFAQVRDRVGQPRRGVGAGGDALGFRHRFLQLRLKPAGGVGGFIQLYCGGRHPAQVSGAARERIEVGQTQPDGGASQDAQCGGGVSGAHQHRRDGDGVGDLGDVEQPGEPDYFEGHAALVERLRDLGRGLVRADQHGRVERLTRGPGSLVLGRKSVGDEVELLILVLEEPQLNLACARARAGLERGDDAVTAGAQQRVGDAVSQGEHLCRVAPRRGQLLRGRERAGRLREVLNEGSEVGSRCSTPPVNRLHRITHGGDGQRVAPGVVVGALPEQAAQEHALGVRGVLVLVEHDYPVALALGRADELVVVGEPGGHRHLFVEGDQPALAQLRVELLHQRQVGATQLLGVAPAGHFTGKGRGVAPAGQGLGLSEEVVRMLGDKLRLHQRVPHRGDQAEDILDDRGHARVFPAFRHKRAAVAEDDLVGDRVQLRSRDQARVRLDGNQQPVLAHQVPRVRVVGGDSRCDDSQRVGELSARVEAAQQRIVRCEDAEPVPDAFAQFLGSFARKRQPENLFGARVSVGNEPDDARRHRLRLAGSGARNDEQGPRVGPDDVRLLLSRRVGLPEVLRQHRGAHRRVGGVSHGEPPVLLVVRGTARAPRTCRSGHRRRRAAQGLPPAAGAGQRPPRTP				NA	NA	NA	NA	NA
AK009_06648	717			hypothetical protein	ATGGTCGGCCTCGACTCCTCGCTGCACATGGTGTGGGGTTCGATGGCGCACGCCTACTTCGAGGCCCTCGGCCGCGGGGTCGATGAAGCCTACGCCCGCGAAGCGGTGCTCGACGCGCGCCGCAGCGTCGACGACGCGCCCGGGTGGAAGCTCGAGCGCGAGATCGCGGAGTTCGACGCGCTGCTGCAGCGCACGCATCTCTGGCTGCAGACCTCCCGCGCGGCGTTCGAGCAGGTCGCCGTCGAGGCCGACATCGACGTCACCATCGCCCCGGGCCTGCGCATCGTGGGCCGCGCCGACCGCATCGAGCGCGACGGCAGCGGCGCACTGCACATCGTCGACCTGAAAACCGGCTCAGCCCTGCCTTCCCAAGCAGAGGCCGAGGCCAACCCGCAGCTCGAGGCGTACCAGCTCGCGCTGTCGCGTGGCGTCGTGGACGGTGAGACGGTGCGCAGCGCCGCGCCGGGCGAGGCACCCAGCGACGTCGGCGGGGCGGTGCTCGTCTACCCCAAGGCGGACAGGAAGGCAGTGGCGACGCGGGAGCAGGCGTCGAAAAGCGAGGAGCGGCTCACGGAGTTCGCGGAGGTCGTTGCCCCGCTCCCGCAGCTGGTGGCAGGCCCTGAGCTGCTCGCCTCCGCCGGTGCCCACTGCGACAGGTGCGCGGTGCGCGCGCTGTGCCCCGTACAACCAGAAGGACAGGTGGTTCCCCGTGGCTAA	MVGLDSSLHMVWGSMAHAYFEALGRGVDEAYAREAVLDARRSVDDAPGWKLEREIAEFDALLQRTHLWLQTSRAAFEQVAVEADIDVTIAPGLRIVGRADRIERDGSGALHIVDLKTGSALPSQAEAEANPQLEAYQLALSRGVVDGETVRSAAPGEAPSDVGGAVLVYPKADRKAVATREQASKSEERLTEFAEVVAPLPQLVAGPELLASAGAHCDRCAVRALCPVQPEGQVVPRG				NA	NA	NA	NA	NA
AK009_06661	459			Protein SprT-like protein	ATGGACGAGAAAGAAATTCAACGGCTAGTGGAAGAAGTATCGCTACAATACTTCGGAATGCCATTTTTACATAAAGTAAAGTTCAATAGTAGGTTGCGTACAACTGGCGGGCGTTATCTGTTGAAGAGTCACAATGTTGAACTGAATTATCGATATTACGAAATGTATGGTAAGGAGGAATTAATCGGAATCATCAAACATGAACTGTGTCATTATCACTTGCATATTACAGGAAGAGGGTATAAGCACAGGGACAGAGATTTTCGTGAGTTGTTAAAGAAAGTTGATGCACCTCGTTTTTGTAAACGAATGATTAATGAAGAGAAGGAAAAAAAGATTTATAAGTATGAATGTATGGAGTGTTTACTTCAATATGTAAGAAGGCGTCAAATAAATACAAAAAGATATGTCTGCGGAAAGTGTAAAGGGAAACTCAAACCGATATCGAAAACATCTTGA	MDEKEIQRLVEEVSLQYFGMPFLHKVKFNSRLRTTGGRYLLKSHNVELNYRYYEMYGKEELIGIIKHELCHYHLHITGRGYKHRDRDFRELLKKVDAPRFCKRMINEEKEKKIYKYECMECLLQYVRRRQINTKRYVCGKCKGKLKPISKTS				NA	NA	NA	NA	NA
AK009_06662	2169	yhgF	COG2183	Protein YhgF	ATGGAAATGGTAGATAATCGACAAGCGTTAATGAAAATGTTAGTGAAAGAATTAGGCTTTAGCGAAAAGCAAGTTCGTCATGTTATTCAATTAACAGAAGAAGGTAACACAGTTCCATTTATTGCTCGTTACCGAAAAGAATGGACAGGCTCTTTAGATGAGGTGCAAATTCGTGCGATTTTAGAGAGATGGCAATATATGATGCAACTTGAAGATAGGAAGGAAGAAGTTATTCGTCTTATTGGTGAGAAGGGAAAACTGACAGGAGAGCTAAGGCTGCAAATTGTTAAAGCTACAAAGTTGCAGGAAGTAGAAGATTTATATCGTCCATATAAAGAGAAAAGAAGAACGAAAGCAACGATTGCAAAAGAAAAAGGGTTAGAACCGTTAGCTGAATGGTTATTGTTATATAAGAAAGAAGATCCGGCTAAAAAGGCAGTGGAATTTATTAATGCAGAGAAAGAAGTGCAATCTGCAGAAGAAGCTTTACAAGGTGCACAAGACATTATTGCAGAAATGATTTCAGATGAAGCTACGTATCGTAGTTGGATTCGAAATATTACTTTTAGAAAAGGTATTATGTCTTCGTCTGTAAAAGGTGAAGAAAAAGATGAAAAGAATATATATGAAATGTATTACAGTTATGAAGAACCATTGCAAAAAGTAGTACCACATCGTGTATTAGCAATGAATCGCGGTGAGAAAGAAGATATATTGAGAGTTTCTGTTGTCCCACCAGTAGATGAGATATTAAATTTCTTAAATAAGAAAGTAATTCGTGATAACGATTCTAAAAGTGCGCATTATGTACAATTAGCGATTGAAGATGGTTATAAACGATTAATTCAATCTTCAATTGAAAGAGAAATTCGTAAAGAATTAACAGAAACAGCTGAAGAACAAGCGATACATATTTTCTCTGAGAACTTACGTAACTTATTATTACAACCTCCGATGAAAGGGAAAGTCGTGCTAGCGGTAGACCCGGCATATAGAACTGGTTGTAAATTATCTGTAGTAGATGATACGGGGAAAGTACTACATATTGATGTTATTTATCCGCATCCGCCTGTTCGTAAATATGATGACGCAAAAACGAAAGTTCTTTCTATTATAGATAAATATCAAGTTGAAATGATTGCAATTGGTAATGGGACAGCATCTAGAGAAACAGAGGAATTTATAGTAGATGTATTGCAAAGTGTGAAACAGGAAGTCTTTTATATTATTGTAAATGAAGCGGGTGCTAGTGTATATTCAGCTTCTGATTTAGCCCGTGAAGAATTCCCAAATTTACAAGTTGAAGAGAGAAGTGCTGTTTCTATTGGAAGACGTCTGCAAGATCCACTGGCTGAACTTGTGAAAATTGATCCTAAATCAGTTGGAGTTGGACAATACCAACATGATGTATCTCAAAAGAGATTGAATGAGTCATTAACATTTGTAGTAGAGACAGCTGTTAACCAAGTTGGGGTTAATGTAAATACGGCTTCGGTTGCATTGTTACAATATGTTTCAGGTTTATCGAAAACTGTTGCGAAAAATATTGTGGCAAAGAGAGAAGAGGATGGGAAATTCACAAAGCGCACGGAATTAAAGAAAATCCCACGTTTAGGTGCAAAGACGTACGAACAATGTATAGGTTTCTTGCGTATATTAGAAGGAGCGAATCCATTAGATCGGACAGGTATTCATCCTGAACAATATAAAAATGTTGAATTGTTATTGAAGAGTTTAGGGTTATCGATAGATGACGTAGGACAACCGCAATTACAAAAGAGATTGGAAGAAGTAGAGATTTCTAAGTTGTCTCAAGAAACGAGAGTTGGGGAGCCGACGTTAGTTGATATTATAGATGCACTCATTAGTCCAGAACGAGATACGAGGGATGAGTTGCCTAAACCACTTCTGAAAAAAGGGATTTTGAAATTAGAAGATTTAAAACGTGGTATGGAACTAGAAGGAACAGTGCGTAACGTTGTTGATTTTGGTGCTTTTGTTGATGTTGGCGTAAAGCAAGATGGTTTAGTGCATATTTCTAAGCTTAGCAAACAGTTTGTAAAGCATCCGTTAGATGTTGTATCAGTAGGACAAATTGTAAAAGTATGGGTAGATGATATTGATACAAAAAAAGGACGCGTTGCACTATCTATGTTGCCGATTGAATAG	MEMVDNRQALMKMLVKELGFSEKQVRHVIQLTEEGNTVPFIARYRKEWTGSLDEVQIRAILERWQYMMQLEDRKEEVIRLIGEKGKLTGELRLQIVKATKLQEVEDLYRPYKEKRRTKATIAKEKGLEPLAEWLLLYKKEDPAKKAVEFINAEKEVQSAEEALQGAQDIIAEMISDEATYRSWIRNITFRKGIMSSSVKGEEKDEKNIYEMYYSYEEPLQKVVPHRVLAMNRGEKEDILRVSVVPPVDEILNFLNKKVIRDNDSKSAHYVQLAIEDGYKRLIQSSIEREIRKELTETAEEQAIHIFSENLRNLLLQPPMKGKVVLAVDPAYRTGCKLSVVDDTGKVLHIDVIYPHPPVRKYDDAKTKVLSIIDKYQVEMIAIGNGTASRETEEFIVDVLQSVKQEVFYIIVNEAGASVYSASDLAREEFPNLQVEERSAVSIGRRLQDPLAELVKIDPKSVGVGQYQHDVSQKRLNESLTFVVETAVNQVGVNVNTASVALLQYVSGLSKTVAKNIVAKREEDGKFTKRTELKKIPRLGAKTYEQCIGFLRILEGANPLDRTGIHPEQYKNVELLLKSLGLSIDDVGQPQLQKRLEEVEISKLSQETRVGEPTLVDIIDALISPERDTRDELPKPLLKKGILKLEDLKRGMELEGTVRNVVDFGAFVDVGVKQDGLVHISKLSKQFVKHPLDVVSVGQIVKVWVDDIDTKKGRVALSMLPIE				NA	NA	NA	NA	NA
AK009_06663	351	ndoA	COG2337	Endoribonuclease EndoA	TTGATTGTAAAACGCGGCGACGTGTATTTTGCAGACCTTTCCCCAGTTGTTGGTTCTGAGCAAGGAGGCGTTCGTCCGGTTCTTGTCATTCAAAATGACATCGGAAATCGTTTTAGTCCAACGGTGATTGTAGCGGCTATTACTGCACAGATTCAAAAAGCGAAATTACCCACTCATGTGGAAATTGATGCGAAAAAGTATGGTTTTGAGAGAGATTCTGTTATTTTACTTGAGCAGATTCGAACAATCGATAAGCAACGCTTAACGGACAAAATCACTCATTTAGATGAAGTGATGATGAGTCGTGTAGATGAAGCGTTACAAATTAGTTTAGGACTAATAGATTTTTAA	MIVKRGDVYFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTVIVAAITAQIQKAKLPTHVEIDAKKYGFERDSVILLEQIRTIDKQRLTDKITHLDEVMMSRVDEALQISLGLIDF	PGPT0027390_1052	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
AK009_06664	288	ndoAI	COG0864	Antitoxin EndoAI	GTGTCCGAATCAAGTGTAACTACTGAAATCGTGGTTCGGTTGCCAAAGCAAATGGTAACGGAATTGGACGGAATTGGAAAACAAGAGAATAAGAATCGCCATGAACTAATTTGCCAGGCAACACAATTGTTATTGCGTCAACATAAGACGAAGAAACGCTACCAACATGAATCAATGCGACGTGGGTATATTGAAATGGGAAAAATTAATCTTGGTATTGCATCTGAAGCTTTCTTAGCGGAGTATGAAGCAGCTCATACAGTAGAACGCTTAGTTAGCGGGGGGTAA	MSESSVTTEIVVRLPKQMVTELDGIGKQENKNRHELICQATQLLLRQHKTKKRYQHESMRRGYIEMGKINLGIASEAFLAEYEAAHTVERLVSGG	PGPT0027400_71	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
AK009_06665	1170	alr		Alanine racemase	ATGGAAGAAGCACCATTTTATCGTGACACGTGGGTGGAAGTGGATTTAGATGCCATTTATAACAACGTTACACATATTAAAGAGTTCATCCCAAGTGATGTAGAGATTTTTGCTGTAGTTAAAGCGAACGCATATGGGCACGATTATGTACCGGTTGCTAAAACGGCATTAGAAGCGGGTGCAACAAGGTTAGCTGTTGCTTTTTTAGATGAAGCTCTAGTGCTTCGGAGGGCCGGTATTACTGTGCCGATTTTAGTGTTAGGTCCCTCGCCGCCGCGTGATGTAAATGTAGCTGCTGAAAATGATGTAGCGCTAACTGTTTTTCAAAAAGAATGGGTGGACGAAGCAATTAAACTTTGGGATGGTTCATCTGTAATGAAATTTCATATTAATTTTGATAGTGGTATGGGGAGAATTGGAATACGTGAAAGAAAAGAGCTGAAAGAATTTTTAAGGAGTTTAGAAGGTGCACCGTTTTTAGAGTTAGAAGGAGTATACACGCATTTTGCAACGGCAGATGAGGTTGAGACTTCGTATTTTGATAAGCAATATAACACGTTCTTAGAGCAGTTAAGTTGGTTGAAAGAATTCGGAGTGGATCCTAAGTTTGTCCATACAGCTAATAGTGCTGCCACGTTACGTTTTCAAGGGATTACATTTAATGCAGTGCGAATTGGGATTGCAATGTATGGATTATCTCCTTCTGTAGAAATACGTCCTTTTTTACCATTTGAATTAGAACCGGCGCTATCACTGCATACGAAAGTAGCTCATATTAAACAGGTGATTAAAGGTGATGGAATTAGTTATAACGTCACTTATCGAACGAAAACTGAAGAATGGATCGCGACTGTAGCGATTGGTTATGCAGATGGATGGCTTAGAAGATTACAAGGATTTGAAGTGCTTATAAATGGTAAAAGGGTACCGATTGTAGGGCGAGTAACAATGGATCAGTTCATGATTCATCTTCCTTGTGAAGTGCCGCTTGGTACGAAAGTTACGCTTATTGGAAGGCAGGGAGATGAGTATATTAGCGCTACAGAGGTTGCGGAATATTCAGGGACTATTAATTATGAAATTATTGCAACGATCAGTTTCCGTGTGCCAAGAATATTTATACGGAATGGTAAGATTGTAGAGATAATTAATTACTTGAACAATATATAG	MEEAPFYRDTWVEVDLDAIYNNVTHIKEFIPSDVEIFAVVKANAYGHDYVPVAKTALEAGATRLAVAFLDEALVLRRAGITVPILVLGPSPPRDVNVAAENDVALTVFQKEWVDEAIKLWDGSSVMKFHINFDSGMGRIGIRERKELKEFLRSLEGAPFLELEGVYTHFATADEVETSYFDKQYNTFLEQLSWLKEFGVDPKFVHTANSAATLRFQGITFNAVRIGIAMYGLSPSVEIRPFLPFELEPALSLHTKVAHIKQVIKGDGISYNVTYRTKTEEWIATVAIGYADGWLRRLQGFEVLINGKRVPIVGRVTMDQFMIHLPCEVPLGTKVTLIGRQGDEYISATEVAEYSGTINYEIIATISFRVPRIFIRNGKIVEIINYLNNI	PGPT0020040_1174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
AK009_06666	1014	ydcC	COG2834	Sporulation protein YdcC	ATGAAAAGGCGTCTGTTTTTAGTTCTTGTCGGTTTGTTGACCGTTTTTGTATTGGCGGGTTGTGTGGAAAAGAAACAAGATGATGTCGTGAAAGATTTAGAAGCGAAAGTAAAAGGGATGAAAAGTTATCAAGCTGAAGCGAAATTATCTATTAAAACAGGAAATGAGCCTCAGGAGTATAACGTAGAAATTTGGCATAAGGAACCGTCTTTTTATCGTGTGAATTTAAAGAATGCAAAAAAAGATCAGAGCCAAATCATTTTAAGAAATGAAGAAGGTGTATTTGTATTAACGCCAGCACTTAATAAGAGCTTCCGTTTTCAAAGTGATTGGCCGCAAAATAGCAGCCAGGCTTATTTATATGAATCACTTGTAAGAGATATTTTGCAGGATAAGAAAAACCTTACTTTCGAGAAAACAGATAAGTATTATATTTTTAAAACAAAAACAAACTATCAACATCAAAATATGTTGCCGAAACAAGAGATTACACTGAAGAAGAGCGATTTGACTCCAGTTTCAGTGAAGTTAATGGATAATGATCAAAATGTTCTTGTAAAAGTAGATTTCTCTAAGGTAAAATTCGATGCGAAATTTGATAAAGGTGCATTTGATACGAAACAAAATATGTCTAGAGCGCAGGTAGATGTTCAAACAACAGCGAAAGAAGACAAACCGTTTGCTACTTTGTATCCGCTTGATACACCACAAGGTATGACTCTGCAAGATGAAAAAGAGTTGAAGACAGACAGTGGCAAGCGTGCGATACTCACATACACTGGAAATAAGAAATCCTTTACTTTAATACAAGAAAAGGCAAAAGTTGCAGAGGCTTCATCAGCGGTAAGTGTAAGTGGAGAACCGGTTGATCTTGGGTTTACGATTGGTGCGTTGACGAAAGACTCTGTAACGTGGTCGTATAACGGAGTAGAATATATGCTCGTGTCTAAAGGTTTAGAGCCGAAGGAGCTGTTAATGGTTGCTCGTTCAGTTACAGCGAAGCAGGTGAAGTAA	MKRRLFLVLVGLLTVFVLAGCVEKKQDDVVKDLEAKVKGMKSYQAEAKLSIKTGNEPQEYNVEIWHKEPSFYRVNLKNAKKDQSQIILRNEEGVFVLTPALNKSFRFQSDWPQNSSQAYLYESLVRDILQDKKNLTFEKTDKYYIFKTKTNYQHQNMLPKQEITLKKSDLTPVSVKLMDNDQNVLVKVDFSKVKFDAKFDKGAFDTKQNMSRAQVDVQTTAKEDKPFATLYPLDTPQGMTLQDEKELKTDSGKRAILTYTGNKKSFTLIQEKAKVAEASSAVSVSGEPVDLGFTIGALTKDSVTWSYNGVEYMLVSKGLEPKELLMVARSVTAKQVK				NA	NA	NA	NA	NA
AK009_06667	360	acpS_1	COG0736	Holo-[acyl-carrier-protein] synthase	ATGATTATAGGGATTGGAATCGATATTATTGAATTAAATCGTATTGAAAAAATGCTAGATGGAAAGCTTAAATTTATGGAACGTATTTTAACAGAAAATGAACGTAATGTTGCTATGGAGCTGAAAGGAAGTCGCCTTACAGAGTTTGTAGCTGGAAGATTTGCAGCGAAAGAGGCATATTCAAAAGCTGTAGGTACTGGTATCGGGAAAGAAGTGAGCTTTTTAGATGTTGAAGTGAAAAATGATGAAAGAGGTAAGCCGATTCTGATTACAAGTACAGAGTATGTTGTTCATTTATCAATTAGTCATAGTAAGGAATTTGCTGTTGCTCAAGTTGTTTTAGAAAGCTCGTCACGCTAG	MIIGIGIDIIELNRIEKMLDGKLKFMERILTENERNVAMELKGSRLTEFVAGRFAAKEAYSKAVGTGIGKEVSFLDVEVKNDERGKPILITSTEYVVHLSISHSKEFAVAQVVLESSSR	PGPT0008840_3154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
AK009_06668	573	glpG_1		Rhomboid protease GlpG	ATGCTAATAAGATCCACTCAGATTTCTTTACAATCGACTATTCTCACCTTACTTCTTATTCACTTAGTCCTGATGATATTAGGCGACTTTTTCCTCTTCCCACTGGCAGCCTCTAATGAATATATCGCTAAAGGAGAATGGTGGCGTGTCATAACTTCCCTTCTGGTACACGTAGACTTACAACATTTTCTTTCTAATAGTATTTTTTTGTTTGCACTTGGTTCTTCTATCGAAAAGCAACTCGGACACTTTTCTTTTTTTATTCTATTTTTTATTTCTGGAATTTCTGGAAATATTTCTTCTTATATTATTATGCCACCTGAATATATTCACGCAGGTGCATCAGGTGGGATTTTCGGACTATTAGGCGCACAATTATTTTTATTGTACAATCGTTACCACTCTTCACAACCAAAAGAAATTGCCATTTTCTCAATTATGATACTTCTATTACTGCTATTTACTTTCTTTAACCCTTCCGCCAATCCGATCAGTCATTTAACAGGTTTAATAACCGGCGGCATTTTAACTCCTTTTTTAACCAAAAAAAACGATGGTGCAAAGCTTATTTAA	MLIRSTQISLQSTILTLLLIHLVLMILGDFFLFPLAASNEYIAKGEWWRVITSLLVHVDLQHFLSNSIFLFALGSSIEKQLGHFSFFILFFISGISGNISSYIIMPPEYIHAGASGGIFGLLGAQLFLLYNRYHSSQPKEIAIFSIMILLLLLFTFFNPSANPISHLTGLITGGILTPFLTKKNDGAKLI				NA	NA	NA	NA	NA
AK009_06669	963	uvsE_2	COG4294	UV DNA damage endonuclease	ATGCTTGTAAGGCTTGGTTACGTTGCGATGAGTGTGCATTTGAAGAATGCATCCCCATCTCAAACGATGACGTACGCACAGTTTCAGAAAATAGATGATCGTGATGCTGCAATTCGTAAACTTGAAAGAATTGCTAATTCCAATTTGGAAAATTGTTTGCGTTTATTAAAGCATAATAAGGGACATGACATATCTTTCTTTCGGCTTAGTTCTAAGCTCATTCCTTTAGCGAATCATGAGGAATTGTTAGAGTGGAACTATATTCGTCCTTTAAAAGAAAAATTGAAAGAATTAGGTGAATATGCAATTCATATGAATATGCGAATTGATTTTCATCCAGATCATTTTGTTGTACTAAATTCACCTGAGGAGAGTGTTTTCAAACAATCTGTAAAGACATTGCAGATGCACAAAAAATTATTAAAAGGCATGGGGATTGAACATAAGCAACGATGTGTACTACATGTTGGAGGAGGGTATAAAGATAAAGAACTTGCATTAGAGCGTTTTATAGAGAATTGGTCTAATGTCCCAAGGGGTATTCAAGAAATGATTATATTAGAAAATGATGATACAACTTTTACGTTAGAGGAAACATTATATTTAGGAGAAAAATTAGATATTCCCGTCGTGTTTGATTTGCATCACCATATGATGAATAATGAGCAAGAAGATTGGTATGAAGATTGGGCACGTGTTGTTCATACGTGGGAAACATCTTTGTTGCCAGTTAAAATGCATATCTCTAGCCCTAGAGAGGGAAAAGATCCAAGAGCTCATGCAGATTATATTAATGTAGACGCATTTTTATCTTTTTTAAGAAGGATAAAGGGAAGTGTTCCGCAAATTGATTGTATGATTGAGGCGAAGATGAAGGATGAGTCTTTATTTCAATTAATGAGGGATTTAAGCGAACAGGTAGATGTAGAAATTATCGATGGTGCAAGCTTTTATATTAAATAA	MLVRLGYVAMSVHLKNASPSQTMTYAQFQKIDDRDAAIRKLERIANSNLENCLRLLKHNKGHDISFFRLSSKLIPLANHEELLEWNYIRPLKEKLKELGEYAIHMNMRIDFHPDHFVVLNSPEESVFKQSVKTLQMHKKLLKGMGIEHKQRCVLHVGGGYKDKELALERFIENWSNVPRGIQEMIILENDDTTFTLEETLYLGEKLDIPVVFDLHHHMMNNEQEDWYEDWARVVHTWETSLLPVKMHISSPREGKDPRAHADYINVDAFLSFLRRIKGSVPQIDCMIEAKMKDESLFQLMRDLSEQVDVEIIDGASFYIK				NA	NA	NA	NA	NA
AK009_06670	1566	cshA	COG0513	DEAD-box ATP-dependent RNA helicase CshA	TTGACAACATTTCGAGAATTAGGATTAAGTGAGTCTTTACTGCAATCGGTTGAAAGTATGGGCTTTGAAGAGGCTACGCCGATTCAAGCTGAAACAATTCCACATGCATTGCAAGGTAAGGATATTATTGGGCAAGCGCAAACAGGTACAGGGAAAACAGCAGCATTCGGATTACCACTATTAGATAAAGTGGATACAAATAAAGAAGCAGTTCAAGGTATTGTTATCGCGCCAACGCGTGAATTAGCAATTCAAGTTGGAGAAGAGCTATACAAAATTGGTAAACATAAACGTGTTCGTATTCTACCAATTTATGGTGGTCAAGATATTAACCGCCAAATTCGTGCTCTAAAAAAACACCCACACATTATTGTTGGTACGCCGGGTCGTATTTTAGATCATATTAACCGTAAAACACTTCGCTTACAAAACGTAGAGACTGTTGTTCTTGATGAAGCGGATGAAATGTTAAACATGGGCTTCATTGAAGATATTGAAGCGATTTTAACAGATGTGCCAGAAACACATCAAACATTATTATTCTCAGCGACAATGCCAGATCCAATCCGTCGTATTGCTGAGCGTTTCATGACTGAGCCTCAACACATTAAAGTAAAAGCAAAAGAAGTAACAATGCCAAACATTCAGCAGTTCTATTTAGAAGTGCAAGAAAAGAAAAAGTTTGACGTGTTAACACGCTTACTAGATATTCAATCTCCAGAGCTTGCGATCGTATTCGGTCGTACAAAGCGTCGTGTTGATGAATTATCAGAAGCATTAAACTTACGTGGTTATGCAGCAGAAGGTATTCATGGTGACTTAACACAGGCGAAACGTATGTCTGTATTACGTAAATTTAAAGAAGGTGCTATTGAAGTTCTTGTTGCAACAGACGTTGCTGCACGTGGTCTTGATATTTCAGGCGTAACACACGTATACAACTTCGATATCCCACAAGATCCAGAATCATACGTTCACCGTATCGGTCGTACTGGCCGTGCAGGTAAAAAAGGTATTGCAATGTTATTTGTAACACCACGTGAATCAGGACAATTAAAAAATATCGAGCGTACAACAAAACGTAAAGTTGATCGCATGGAAGCACCGACACTTGATGAGGCATTAGAAGGTCAACAACGTTTAATCGCTGAAAAACTTCAAAGCACGATTCAAAATGAGAACTTATCATACTACAAGCGTATTGCAGAAGAAATGTTAGAAGAGAATGACTCTGTAACAGTAGTAGCTGCTGCTTTAAAAATGATGACTAAAGAGCCGGATACAACTCCGATTGCTTTAACATCAGAACCACCAGTTGTTTCAAGAGGTGGCGGTTCTAAAAAACGTGGCGGTAACGGAGGCGGATACCGTGATGGTAACCGTAATCGTAGTCGTGATGGACGCGGTGGTGGCGATGGTCGTAACCGTGATGGACGTAATCGTGACGGAAACCGTGATCGCAATCGTGATGGTGGTAGTCGTGGTCGTAGAGGTGAAGGTCAAGGTCGCCCAGGATCTTCAAATGGACGCGGCGAAAGAAAACATCATAGCCGTCCACAAGCTTAA	MTTFRELGLSESLLQSVESMGFEEATPIQAETIPHALQGKDIIGQAQTGTGKTAAFGLPLLDKVDTNKEAVQGIVIAPTRELAIQVGEELYKIGKHKRVRILPIYGGQDINRQIRALKKHPHIIVGTPGRILDHINRKTLRLQNVETVVLDEADEMLNMGFIEDIEAILTDVPETHQTLLFSATMPDPIRRIAERFMTEPQHIKVKAKEVTMPNIQQFYLEVQEKKKFDVLTRLLDIQSPELAIVFGRTKRRVDELSEALNLRGYAAEGIHGDLTQAKRMSVLRKFKEGAIEVLVATDVAARGLDISGVTHVYNFDIPQDPESYVHRIGRTGRAGKKGIAMLFVTPRESGQLKNIERTTKRKVDRMEAPTLDEALEGQQRLIAEKLQSTIQNENLSYYKRIAEEMLEENDSVTVVAAALKMMTKEPDTTPIALTSEPPVVSRGGGSKKRGGNGGGYRDGNRNRSRDGRGGGDGRNRDGRNRDGNRDRNRDGGSRGRRGEGQGRPGSSNGRGERKHHSRPQA	PGPT0013740_1601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
AK009_06671	1377	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATAAAGCGAATGTTAAAGCAAGTAGAACAGATGGTAAATGGTACTGGATTAGCAGAGCAATATGAGGGAACTATTATTCAAGGCGTGTCTATTGATACGAGAAAAATTGAAAAAGGAAACTTATATGTTCCGATTCAAGGGGAGCGTTTCGATGGACATGCTTTTGTAGATAAAGCAGTTGAAAATGGAGCTGTAGCTACATTATGGATGAAAGATGTAGCAAATCCACCCGAGAATCTTCCGGTTATTTTTGTAGAAGATACGCTATCTGCACTGCAAATGTTAGCGAAAAACTATCGCGATCAATTGGATGTTAAAGTTGTTGGTGTGACAGGTAGTAACGGTAAAACATCCACGAAAGATATTGTGACAAGTATTCTCGCGACTAAGTTCAAAGTTCAAAAAACAGAAGGAAATTTCAATAACCATATTGGGTTACCTCTCACTATTTTAAACTTAGAAGAAAATACAGAAGTAGCTGTATTAGAAATGGGTATGTCAAGCCGAGGAGAGATTGAATTTTTATCTAAGTTAGCTCGTCCTAATGCAGCTATCATTACGAATATTGGTGAGGCACATTTAATGGATTTAGGATCTCGTGAGGCAATTGCTGAAGCGAAATTAGAAATTGTTACAGGGTTACAAGAAGGTGGCGTGTTCGTATATAATGGAGATGAGCCGTTATTAACGAATCGTGTTCCTGAAATGAATTTAGCAGCAGAAACAGTTACGTTTGGTGATGCAAGAGCCAACGATTACTATCCAACAACTGTAACATTACAGGCAACTGGGACACATTTTAAAATGAATAGAGATGAAAATATTTCATTCTACCTACCGGTGTTAGGAAAACATAATGTGTACAATACACTTGCTTCAATGGCAATTGCGACACATTTTGGGGTGACGTGGGAAGAAATGAAACAAGGTTTAGTAACACTTCAAATGACGGGCATGCGTATGGAGATTGTAAAAACGGATAGTGGATTAACAATTATCAACGATGCTTATAATGCAAGTCCGACGGCTATGGAGGCAGCATTCCATTTAATGAATGGTTTAGATGGATTTACTAAAAAAATCGTTGTGCTCGGTGATATGTTAGAACTTGGAAATCAAGAAGTGCAGTTCCATTATGAGGTAGGTAAATTAATCGATCCAGCAAAAATCGCACATGTATTCACATACGGTAGATTAGGAGCTCAAATTGCTGAAGGAGCGAAAATTAATTTCCCTAATGAACGTGTAAAGGCGTATGATAATAAAGAAGAGTTAGTAAGAGATTTACAAGCGGTAGTCGATGCCAAAGATGTTGTATTAATAAAAGCATCTCGCGGTATGAAATTAGAAGAAGTAATTACGATGTTGAAATAA	MIKRMLKQVEQMVNGTGLAEQYEGTIIQGVSIDTRKIEKGNLYVPIQGERFDGHAFVDKAVENGAVATLWMKDVANPPENLPVIFVEDTLSALQMLAKNYRDQLDVKVVGVTGSNGKTSTKDIVTSILATKFKVQKTEGNFNNHIGLPLTILNLEENTEVAVLEMGMSSRGEIEFLSKLARPNAAIITNIGEAHLMDLGSREAIAEAKLEIVTGLQEGGVFVYNGDEPLLTNRVPEMNLAAETVTFGDARANDYYPTTVTLQATGTHFKMNRDENISFYLPVLGKHNVYNTLASMAIATHFGVTWEEMKQGLVTLQMTGMRMEIVKTDSGLTIINDAYNASPTAMEAAFHLMNGLDGFTKKIVVLGDMLELGNQEVQFHYEVGKLIDPAKIAHVFTYGRLGAQIAEGAKINFPNERVKAYDNKEELVRDLQAVVDAKDVVLIKASRGMKLEEVITMLK	PGPT0024145_2926	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
AK009_06672	1086	ddl_2		D-alanine--D-alanine ligase	GTGACAAAAATTAAATTAGGTTTATTATATGGTGGAAAATCAGCTGAGCATCAAGTTTCGTTACAGACGGCTCTTGCTGCTATTAAAGCGTTAAATCAAGATAAATTCGAGATTCATCCAATTTATATTACAGAACAAGGTCAATGGGTACGTGGTGAGCGTATTGAAGGCGAAGTAACAGATGTTGAAGCTTTAAAAATGAGTAGTGCAGAAAATGCGATTTCTCCGTTATCATTAAGTACAGAGATTATTCCATCTGCAGCTTCTGAGGAAAACGCTATTGACGTTATTTTCCCATTACTACATGGACCAAACGGTGAAGATGGAACGGTTCAAGGACTATTAGAATTGATGAATATTCCTTATGTAGGAAATGGTGTTCTAGCATCATCTGCTGGTATGGATAAAGTTGTTATGAAAAACATCTTTGCAGAGGCTGGTTTAACACAAGCAAAATATGCGTCTTTCATTCGCAGTGCATGGGAAAAAGATCGTGAGGAAGCTTATTCTAAAGTAGAAGATAAGTTAGGATATCCTTGTTTCGTAAAACCAGCAAACCTTGGTTCAAGTGTTGGTATTAATAAGTGTAAAAATCGTGAAGAACTTGAGAATGCATTTGTAGAGGCATTCCAATTTGATCGCAAAATTATTGTAGAAGAAAATATTGTAGGTCGTGAAGTAGAAGTGGGGGTACTAGGTAATGATGAGCCGAAATGTTCAGTTGTAGGTGAAATCGTTCCGAAAAAGGACTTCTATGATTATAAGTCGAAATATATCGATGGTGATACGGCGTTAATTATTCCAGCTGAAATGACAGAAGAAGAATCTGATGTGATTAAGCGTGATGCAATTATTGCGTTCCAATCATTAGATGGTGCAGGCTTAACGCGAGCTGATTTCTTCTTAACGAAAGACGGAGAAGTGTATATTAACGAAGTAAACACTATGCCAGGATTTACACCGTTTAGTATGTTCCCTCTATTATGGCAACATACTGGGTTACCGTATCCAGAGTTAATCGAAGAGCTAATTCGTTTAGCGATTGAACGTCACGAAGAAAAACAAAAAATTAAATATACAATCTAA	MTKIKLGLLYGGKSAEHQVSLQTALAAIKALNQDKFEIHPIYITEQGQWVRGERIEGEVTDVEALKMSSAENAISPLSLSTEIIPSAASEENAIDVIFPLLHGPNGEDGTVQGLLELMNIPYVGNGVLASSAGMDKVVMKNIFAEAGLTQAKYASFIRSAWEKDREEAYSKVEDKLGYPCFVKPANLGSSVGINKCKNREELENAFVEAFQFDRKIIVEENIVGREVEVGVLGNDEPKCSVVGEIVPKKDFYDYKSKYIDGDTALIIPAEMTEEESDVIKRDAIIAFQSLDGAGLTRADFFLTKDGEVYINEVNTMPGFTPFSMFPLLWQHTGLPYPELIEELIRLAIERHEEKQKIKYTI	PGPT0020050_1711	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK009_06673	1275	mdrP_5		Na(+), Li(+), K(+)/H(+) antiporter	ATGATGAAAAATACGTGGCGTGAGTTAAGGGAGATGGACCGTAACGTATGGATTCGATTTATTGGAGAGACGTTAAATGGAATTGCAATGATGATGTTAATGCCTTTTTTTGCATTATATTTAAAAGATAAGGTAGATTCGTTGTTGGAAGTTGGGGTTATTATGGCGCTTTCTCCAATTGCTGCAAGCTTTGGATCACTTATAGGAGGAAGAATTGCTGACATATATGGAAGAAAACCGATTATGATATTTTCTATGGCAAGTAATGCATTATTAATGCTCGGTTTTCTATTTATAGAAGGATTTATTCCATATGCAATTTTATCTATTTTTTTAGGATTGAGTAATTCTTTATTTCATCCAGCTGCATCAGCTATGGTCGCAGATGTAACGGCACCAGAAAAAAGAACAGAGGCATATGGTTTATTACGAATGGGACACAATATAGGTGCTGCGATTGGTCCGATAATGGGAGCATCAGTAGTTGTGTTGTCAAAGAATCTTGTGTTTATTATTGCCTCTTCTACAATGCTATTTTATGCGTTACTTGTATTACTTCTTATTCAAGAGACGATGCCAAAGAGGACAGATAAGGAAGAACATAAAGAAAAGGAATCTGGGGCAGTTTGGAAAATTGTAATGCGAGATAAGGTATTAATGATTTACTTATTAGCAGGTATTATCATTTCGATGGGGTTTTCTCAAACAGAAGGCATGTTGCCACTACATTTTGATAACGAAATGAAGCGTATTTTTGGAACGAATAATCCATATCCATATTTAATGGCGTTAAACGGACTATTAGTTGTTTTATTCCAATTTCAAATTTCAAAATGGGCTACGGATAAACCAGTCGGGAAGACGATGTTATATGGTGCATGTTTGTTCGGGATTGGATTATTTTTTATAGGGTGGTTACCGAAGTGGTTTGGAGAGTTTAATACAAATGCTACAGTTATTTTAATAACACTACTGTTCGTTTATGCTATATATACGTTAGGTGAGATGATTATGTCGCCTGTACAAATGACATTTGTAGCAAACTTGGCACCTGAGCATTTGAGAGGGACTTATATGGGCGCTGCAAGTTTGCAGTGGATTACAGGAAGCGCATTTGGTCCACTTTTGGGAGGCTTTTTATTAGATCGATTACTTGGCCACTTTCTATTTACAATTTTAGCTGTAGGATGTGTAGTTGCAGGTATTGTATATATTTCTTTAGATCGCCTTGTTGAGCAAAGGCAAAAAGATACACTAACCAAACAATCTTCTTAG	MMKNTWRELREMDRNVWIRFIGETLNGIAMMMLMPFFALYLKDKVDSLLEVGVIMALSPIAASFGSLIGGRIADIYGRKPIMIFSMASNALLMLGFLFIEGFIPYAILSIFLGLSNSLFHPAASAMVADVTAPEKRTEAYGLLRMGHNIGAAIGPIMGASVVVLSKNLVFIIASSTMLFYALLVLLLIQETMPKRTDKEEHKEKESGAVWKIVMRDKVLMIYLLAGIIISMGFSQTEGMLPLHFDNEMKRIFGTNNPYPYLMALNGLLVVLFQFQISKWATDKPVGKTMLYGACLFGIGLFFIGWLPKWFGEFNTNATVILITLLFVYAIYTLGEMIMSPVQMTFVANLAPEHLRGTYMGAASLQWITGSAFGPLLGGFLLDRLLGHFLFTILAVGCVVAGIVYISLDRLVEQRQKDTLTKQSS				NA	NA	NA	NA	NA
AK009_06674	1416	yhdG_5	COG0531	putative amino acid permease YhdG	ATGAAGCAAATTTTTCAAAAGAAGCCAATTGCAAAGTTAATGCAAGAAAGTAAGCAAAAAACGTTAGCAAGAACATTGGGCGCGCTAGATTTAACTATGCTTGGAATCGGAGCAATTGTTGGAACTGGTATTTTTGTTCTAACGGGTGTTGTGGCAGCGAAACATTCTGGGCCAGCTATTATATTATCATTTGCGATTGCCGCGCTAGCTTGTGCCTTTGCTGCATTTTGTTATGCTGAATTTGCTTCTTCAGTTCCTGTATCGGGCAGTGTGTATACGTATACATACGCGACGATGGGAGAAGTATTCGCATTTTTAATTGGCTGGGATCTAATGCTTGAATATTTACTTGCTACATCTGCTGTAGCAAACGGTTGGTCTGCATATTTTCAATCTTTATTAAAGGGGTTTGGAATTCACATTCCGACTATTCTCTCCTCGGCTCCTGGTACAGGGAAGGGTGGAATAATTGATCTACCTGCAGTTCTAATTATTTTAGTGATGACAGTTCTTTTATCTAGGGGTGTTCGTGAAAGTGCACGAGTAAATAACATTATGGTATTTATTAAAATAGCAGTTGTTCTTATTTTTATCTTTGCTGGTTTTAATTATGTGAAACCTGAAAACTGGACGCCTTTTATGCCGTTTGGTTTAGATGGTGTAATGGCTGGAGCGGCTACAGTATTCTTCGCATTTATAGGATTTGATGCAGTTTCAACAGCGGCAGAAGAAGTGAAACGTCCGCAACGTGATTTACCAATTGGTATTATTGCATCGTTATTAATTTGTACAGTTCTTTATATCGTTGTTTCGCTTATTTTGACAGGAATTGTTCCATACGGACAGTTAAATATATCAGATCCAGTTGCTTTTGCACTTCAATTTATTGGACAAGATGGCTTAGCTGGAGTAATTTCAGTAGGAGCAATTACAGGAATTACAACAGTAATGCTAGTTATGATGTATGGGCAAGTTCGTGTTTCTTATGCGATGAGCCGAGATGGTTTATTACCGAAGCGTCTTGCTAAAGTTCATCCGAAATTTAAAACGCCATTTTTAAATACATGGACAACGGGAATTATTGCGGCACTGATTTCAGGATTAATAGATTTAAATGTTTTAGCACATCTTGTAAACATGGGGACATTGTCAGCATTTGCACTCGTAGCTGTTGCGGTAATTGTAATGAGAAGAACCCATCCAGACTTACCAAGGGCATTTAAGGCTCCGCTTGTACCGTTTTTACCAGCGTTAACAGTGATTTTCTGTTTATACTTAATGCTTCAATTATCGGGGACAGCATGGATTAGTTTTGGGATATGGATGGTTATTGGTATAGCGGTTTACTTCTTATATAGCCGAAAACATAGTGCTTTAAATAATAGTAAAAAAGAAGAAGATGTTGCGAATTTATAA	MKQIFQKKPIAKLMQESKQKTLARTLGALDLTMLGIGAIVGTGIFVLTGVVAAKHSGPAIILSFAIAALACAFAAFCYAEFASSVPVSGSVYTYTYATMGEVFAFLIGWDLMLEYLLATSAVANGWSAYFQSLLKGFGIHIPTILSSAPGTGKGGIIDLPAVLIILVMTVLLSRGVRESARVNNIMVFIKIAVVLIFIFAGFNYVKPENWTPFMPFGLDGVMAGAATVFFAFIGFDAVSTAAEEVKRPQRDLPIGIIASLLICTVLYIVVSLILTGIVPYGQLNISDPVAFALQFIGQDGLAGVISVGAITGITTVMLVMMYGQVRVSYAMSRDGLLPKRLAKVHPKFKTPFLNTWTTGIIAALISGLIDLNVLAHLVNMGTLSAFALVAVAVIVMRRTHPDLPRAFKAPLVPFLPALTVIFCLYLMLQLSGTAWISFGIWMVIGIAVYFLYSRKHSALNNSKKEEDVANL	PGPT0020810_3426	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
AK009_06675	1179	hmgA		Homogentisate 1,2-dioxygenase	ATGGGCATGTTTTATCGTCACATGGGAGAACTACCTCATAAACGACATGTACAATTTCGTAAAAAAGATGGATCGCTTTATCGTGAACAGGTAATGGGAACAAAAGGTTTTTCTGGTACGCAGTCTATTTTGTATCATCACTATATGCCAACAGAAGTAGGTCATTCTGCATTATCGCATTCTTGTCAGTTGCAGTATGAAGAGGATGTTGCTCTTTCTCATCGCCACTTCCGAACGAAAGAAAATAAAAAAAGTGGTGATGCAATAAGTGGACGAAATTTCATACTTGGAAATGAAGATTTGTTAATTGGAGTAGTGAGCCCAACAGAAAAAATGGATTATTTCTATCGTAATGGTGATGGCGACGAAATGTTATTTGTTCATTATGGAACAGGGAAAATTGAAACGATGTTTGGAACGATTCACTATAGAAAAGGCGACTATGTAACGATCCCAATTGGAACGATTTATCGTGTTATTCCAGATGAAGGAGAGACTAAGTTTCTTGTTGTAGAGGCGAATAGCCAAATTACAACGCCGCGTCGTTATCGAAATGAATACGGACAATTGTTAGAGCATAGTCCGTTTTGTGAAAGAGATCTTCGTGGTCCAGAAAAATTAGAGACCTATGATGAAAAAGGCGATTTTGTCGTAATGACAAAATCAAGAGGTTATATGCACAAACATGTTTTAGGACACCACCCGTTAGATGTTGTTGGATGGGATGGCTATTTGTATCCGTGGGTATTTAATGTAGAGGATTTTGAACCAATTACAGGGCGCATTCATCAGCCGCCGCCAGTACATCAAACATTTGAAGGGCATAATTTTGTTATTTGCTCTTTCGTACCACGTTTATACGATTATCATCCAGAGTCAATTCCGGCACCATATTATCATAGTAATGTTAATAGTGATGAAGTTCTTTACTATGTAGAAGGAAACTTTATGAGTCGCAAAGGTGTGGAAGAAGGTTCTATTACACTTCATCCGAGCGGGATTCCCCATGGGCCGCATCCGGGGAAAACAGAGGCAAGTATAGGGAAGAAAGAGACACTTGAATTAGCTGTTATGATAGACACATTCCGTCCGCTTCGTATTGTAAAACAAGCACATGAAACAGAAGATGAAAAGTATATGTATAGCTGGATTGAACAAGGTTCATATACTGTGAAATAA	MGMFYRHMGELPHKRHVQFRKKDGSLYREQVMGTKGFSGTQSILYHHYMPTEVGHSALSHSCQLQYEEDVALSHRHFRTKENKKSGDAISGRNFILGNEDLLIGVVSPTEKMDYFYRNGDGDEMLFVHYGTGKIETMFGTIHYRKGDYVTIPIGTIYRVIPDEGETKFLVVEANSQITTPRRYRNEYGQLLEHSPFCERDLRGPEKLETYDEKGDFVVMTKSRGYMHKHVLGHHPLDVVGWDGYLYPWVFNVEDFEPITGRIHQPPPVHQTFEGHNFVICSFVPRLYDYHPESIPAPYYHSNVNSDEVLYYVEGNFMSRKGVEEGSITLHPSGIPHGPHPGKTEASIGKKETLELAVMIDTFRPLRIVKQAHETEDEKYMYSWIEQGSYTVK	PGPT0006025_1592	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006025-HGD|hmgA-K00451	NA	NA
AK009_06676	957	yisK_2	COG0179	putative protein YisK	ATGAAATTTGTTACATTTCGTCTTCCTTCAAAAGAAATACGGGCTGGATGGCTTGAAGGTGACAAAGTAATAGATATGAATCTTGCTAGTGAAGGGAGAATCCCTTCTTCTATGATGGCTTTTTTAGAGAAAGCTGATGAGTATGTAGAAGTAGTGAGGAATGTTAAGAATCCAAATAAGGGTATATATGCTTTAGAAGAAGTACAATTGACAGCTGCTCTTCCTAATCCGAGTAGTATTCGAGATTTTTACGCATTTGAACAACATGTAAAAACAGCTCGCGGACGAAGAGGACTAGATGTTGTGCCTGAATGGTATGATATTCCGGTTTTTTATTTTACTAATCATCGTGCTGTAATTGGTTCCGGTGATTTTGTAATTGGTCCGAAAAAGTCTAAAAAGCTTGATTACGAGTTGGAGATCGCTTGCGTAATAGGAAAAGAAGGGCGAAATATTTCTCGTGAGCAAGCAGAGGAATATATTTTTGGTTATTGTATTATGAACGACTGGAGTGCGAGAGACTTACAAGCAACAGAAATGAAAGTAGGTCTCGGTCCAGCGAAAGGAAAGGACTTTGCAACTTCGTTAGGAGCACATCTTGTTACGAAAGAGGAATTAGATGTTTATCGTAATGGTGATCGATATGATTTAGAAATGACTGCTCATGTAAATGGAAAACTATTATCAAAGGGAAACTTCCAAGATATTTACTATACATTTGCTGAAATGATTGAACGTGCTTCAGAGGACGTTACGTTATATCCAGGAGATGTGATTGGTTCTGGGACAGTAGGAACAGGCTGTATTTTAGAACTTGGTACAGAAGAGTGGCTACAAGATGGAGATGTTGTAGAGCTGTCGATTACTGGTTTAGGTACACTACGTAATACGATCAAAAAAGAAAAGGAAGCGAGTGATGGGCATGTTTTATCGTCACATGGGAGAACTACCTCATAA	MKFVTFRLPSKEIRAGWLEGDKVIDMNLASEGRIPSSMMAFLEKADEYVEVVRNVKNPNKGIYALEEVQLTAALPNPSSIRDFYAFEQHVKTARGRRGLDVVPEWYDIPVFYFTNHRAVIGSGDFVIGPKKSKKLDYELEIACVIGKEGRNISREQAEEYIFGYCIMNDWSARDLQATEMKVGLGPAKGKDFATSLGAHLVTKEELDVYRNGDRYDLEMTAHVNGKLLSKGNFQDIYYTFAEMIERASEDVTLYPGDVIGSGTVGTGCILELGTEEWLQDGDVVELSITGLGTLRNTIKKEKEASDGHVLSSHGRTTS	PGPT0001615_969	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001615-faaH-K16171	NA	NA
AK009_06677	1158	hpd	COG3185	4-hydroxyphenylpyruvate dioxygenase	ATGGACCATTTAATCTATTTACAGGGGGATGAAGATATTATGAAACAAAAATCTATGGATACGCTAGCTGCACAAATGGAGGACTTTTTTCCAGTACGTGATGTAGATCATTTGGAATTTTACGTAGGGAATGCAAAGCAATCGAGTTATTATCTTGCGAGAGCATTCGGATTCAAAATTGTGGCTTACTCTGGATTAGAAACTGGAAACCGTGAAAAGGTATCTTATGTTCTTGTGCAAAAAAATATGCGTTTCGTTGTGTCTGGAGCTTTAAGTAGTGAAAATCGTATTGCAGAGTTTGTAAAGACTCATGGTGATGGCGTGAAGGATGTGGCACTACTTGTTGATGATGTTGATAAAGCATACTCAGAAGCAGTGAAACGTGGTGCCGTCGCAATTGCTCCACCAGAGGAATTAACAGATGAGGACGGTACATTGAAAAAAGCAGTTATTGGTACGTATGGTGATACAATTCATACGCTTGTAGAGCGTAAAAATTATAAAGGGGCATTTATGCCAGGATTCCAAAAGGTAGAGTTTAATATTCCATTTGAAGAGTCTGGTTTAATTGCTGTCGATCATGTAGTTGGTAATGTTGAAAAAATGGAAGAGTGGGTTAGTTATTACGAGAATGTCATGGGCTTTAAACAAATGATTCATTTTGATGATGACGATATTAGTACAGAGTATTCGGCGTTAATGTCGAAAGTTATGACGAATGGAAGCCGTATTAAGTTTCCGATTAACGAACCAGCAGACGGAAAGAGAAAGTCACAAATTCAAGAGTATCTAGAATTCTATAATGGAGCTGGTGTACAGCATCTTGCTTTATTAACAAGTGATATTGTTAAAACGGTTGAAGCGCTTCGTGCAAATGGGGTGGAGTTTTTAGATACACCTGATACTTATTATGATGAGTTAACTGCACGAGTTGGAAAAATCGATGAAGAAATTGATAAGCTAAAAGAATTAAAGATCTTAGTAGATCGTGATGATGAAGGTTACTTACTACAAATCTTTACGAAACCAATTGTAGATCGCCCGACTCTATTTATTGAAATCATTCAACGTAAAGGTTCCCGTGGATTTGGTGAAGGAAACTTTAAAGCGTTATTCGAATCAATTGAAAGAGAACAAGAGCGTCGCGGAAACTTATAA	MDHLIYLQGDEDIMKQKSMDTLAAQMEDFFPVRDVDHLEFYVGNAKQSSYYLARAFGFKIVAYSGLETGNREKVSYVLVQKNMRFVVSGALSSENRIAEFVKTHGDGVKDVALLVDDVDKAYSEAVKRGAVAIAPPEELTDEDGTLKKAVIGTYGDTIHTLVERKNYKGAFMPGFQKVEFNIPFEESGLIAVDHVVGNVEKMEEWVSYYENVMGFKQMIHFDDDDISTEYSALMSKVMTNGSRIKFPINEPADGKRKSQIQEYLEFYNGAGVQHLALLTSDIVKTVEALRANGVEFLDTPDTYYDELTARVGKIDEEIDKLKELKILVDRDDEGYLLQIFTKPIVDRPTLFIEIIQRKGSRGFGEGNFKALFESIEREQERRGNL	PGPT0009480_720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
AK009_06678	111			hypothetical protein	ATGAACAGTGAACAAGTGTTTCAAGTAACAAAAACAGATTTATTAGGATCCTTAGGTGGAGCGGTAATATTAACATCATTTATTCTATTCCTTGCAAGTGTATTAGTATGA	MNSEQVFQVTKTDLLGSLGGAVILTSFILFLASVLV				NA	NA	NA	NA	NA
AK009_06679	108			hypothetical protein	ATGAAAGAGCAAGTATTACAAGTAACAAAAGGTGACTTCGTAGGATCAGCAAGTGGAGCGGTAGTATTAACAGCATTAATCGTATTTCTATCAAGTGTATTAGTATAA	MKEQVLQVTKGDFVGSASGAVVLTALIVFLSSVLV				NA	NA	NA	NA	NA
AK009_06680	108			hypothetical protein	ATGAAAGAGCAAGTATTACAAGTAACAAAAGGTGACTTCGTAGGATCAGCAAGTGGAGCGGTAGTATTAACAGCATTAATCGTATTTCTATCAAGCGTATTAGTATAA	MKEQVLQVTKGDFVGSASGAVVLTALIVFLSSVLV				NA	NA	NA	NA	NA
AK009_06681	108			hypothetical protein	ATGAAAGAGCAAGTATTACAAGTAACAAAAGGTGACTTCGTAGGATCAGCAAGTGGAGCGGTAGTATTAACAGCATTAATCGTATTTCTATCAAGCGTATTAGTATAA	MKEQVLQVTKGDFVGSASGAVVLTALIVFLSSVLV				NA	NA	NA	NA	NA
AK009_06682	873	ywpJ_2	COG0561	Phosphatase YwpJ	TTGAAATTAATCGCATTAGATATGGATGGTACACTACTATCATCTAATCTTGAAATCTCCAAAGAAAACCTACAAGCAATCCAAACTGCACAAGAAGCTGGTCATATTGTAATGATTTGTTCTGGTCGTGCGAAAGAGGATGCTTTAAAGCTATTGGAAGAATATAAATTATCTCTTCCAGTCGGAGCAAGCAATGGGGCTATTGTTTATGTGGATGGAAAAGTAATTAACTCGCGTTGTATACAAAACGACAAAGTGTACAAACTTGCAAAATTACTAGAATCTGAAAGTTTCCCATATAAGTTATATACAAATAAAGGAGTTTATTCTCCATATACATGGCAAGATCAAGTGATGCAAGCATTCGAAGAAAATAAGCAGGCGCTCGATGTTACATTAGAGGAACTTGAACGAATTACAGAAAAGCAAAAGAAATCGAACTTAATTACTGATTTCAAAAAAATAGAAGATGTTGTAAATAACCAAGAACTAGAAATATCTAAATTCTTCATTTCAACATTTAATGCAGCGCATCGCGCACAGCTATTAAGCGTGTTACAAGAAGACGCTGATATTATGGTTACAGCATCAGCTCCTACTAACTTAGAAATTATGGATAAGAATGGACATAAAGGAAACGGGCTACAGCAGATGGCAGCTCATTTTAATATTCCTATTGAAGATACAGTTGCTATTGGTGATAATTTTAATGATGTACCAATGTTAGAAGTAGCAGGCTTATCTGTTGCAATGGGCAACGCTGAAGAAGATGTAAAAAAACTATGTGATGTTGTAACATTAACAAACAATGAACATGGTGTTGCTCACGCAATCGAGCAATTTGTATTGAAACAAACTTCATCTAGTAAATAA	MKLIALDMDGTLLSSNLEISKENLQAIQTAQEAGHIVMICSGRAKEDALKLLEEYKLSLPVGASNGAIVYVDGKVINSRCIQNDKVYKLAKLLESESFPYKLYTNKGVYSPYTWQDQVMQAFEENKQALDVTLEELERITEKQKKSNLITDFKKIEDVVNNQELEISKFFISTFNAAHRAQLLSVLQEDADIMVTASAPTNLEIMDKNGHKGNGLQQMAAHFNIPIEDTVAIGDNFNDVPMLEVAGLSVAMGNAEEDVKKLCDVVTLTNNEHGVAHAIEQFVLKQTSSSK				NA	NA	NA	NA	NA
AK009_06683	966	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTGAACCATTATTAGAGGTAAAAAACCTAAAGACATATTTTCCAATTAAAGGTGGCATATTTAGTAGAACGATCGGACATGTAAAAGCAGTTGATGGAGTAAGTTTTACTATTAATAAAGGCGAAGTGTTTGGTCTCGTTGGCGAATCAGGGAGCGGAAAAACAACGATAGGAAAAACAATTTTACGTCTCATTCAAAAAACGGAGGGGGAAGTGAAGTTTAAAGGGAAAGATGTTCATTCTTTATCGAAGGATGAATTGAGAAAACATCGTCCTAATATGCAGCTCGTTTTTCAAGATCCATTTAGCTCATTAAATCCGAGAATGAGAATTGGAGAAGCGCTTGGAGAGCCGATGTTGGCCCACGGATTAGCGACGAAAGAAAATGTTCGTGAAAAGGTAATTGAAGTATTGGAGTTATGTGGCTTAGCTCCTTATCATATTGACCGGTATCCCCATGAGTTTTCTGGTGGACAACGTCAGCGTATCGTAATCGCAAGGGCTATGGTGTTAAATCCAGAATTCATTGTAGCTGATGAACCTGTGGCGGCACTAGATGTATCTATCCAAGCACAAATTATTAATTTATTTAGTGAGTTACAGGAGAAAAAGGGATTATCTTATTTATTCATTTCACATGATTTGAGTGTAGTAGAACATTTATGTACGAAAATCGGAATTATGTATTTAGGTACGATTGTGGAGACGGCGCCGCGTGATGAGTTATTTACCAATCCGCTACATCCGTATACAAAAGCATTGTTATCAGCCGTTCCAATACCAGATCCAACAGTGAAGCGAGAGCGAATTATACTAGAAGGGGATATTCCAAGTCCAGCAAATCCACCTTCAGGTTGTCGTTTTCATACACGTTGCCCGTTTGCAACAGATGTTTGTAAAAAAACAATACCAGAATTTCGTAATGTTGGTGATGATCATTTTGTTTCTTGTCATCATGTATAA	MSEPLLEVKNLKTYFPIKGGIFSRTIGHVKAVDGVSFTINKGEVFGLVGESGSGKTTIGKTILRLIQKTEGEVKFKGKDVHSLSKDELRKHRPNMQLVFQDPFSSLNPRMRIGEALGEPMLAHGLATKENVREKVIEVLELCGLAPYHIDRYPHEFSGGQRQRIVIARAMVLNPEFIVADEPVAALDVSIQAQIINLFSELQEKKGLSYLFISHDLSVVEHLCTKIGIMYLGTIVETAPRDELFTNPLHPYTKALLSAVPIPDPTVKRERIILEGDIPSPANPPSGCRFHTRCPFATDVCKKTIPEFRNVGDDHFVSCHHV	PGPT0004440_8106	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
AK009_06684	981	oppD_3	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAGTAGGGCGGTAGTAGAGCTAAAAGACTTACAAACACACTTTCAAACGGAGGAAGGGACAGTGAAGGCTGTAAACCATGTTAGCTTTGCTGTTCGGGAAGGTGAAACGGTTTGTGTAGTAGGAGAATCAGGTTGCGGGAAGAGTGTAACGGCTTTATCTATTATGGGGCTTATTGCTGAATCTGGCAGTGTAGTAGGTGGAGACATTTTATATGAAGGAAAAAGTCTTTTAGGAATGAAAGAGAAAGAACTTCGTAGTTTACGAGGCAATGATATTGCGATGATTTTCCAAGAACCGATGACATCGCTAAATCCGGTCTTCACTGTAGGTGAGCAAATTGTAGAAACGCTAAGGGAGCATGAATTACTTAGTAAAAATGAAGCGTATAAGAAAGCAATTGAGTTAATTCGTAAAGTTGGCATAGCCCGTGCTAATGAAATTGTTCATTCTTATCCGCATGAATTGAGCGGCGGGATGTTACAACGTATTATGATTGCTGTTGCGCTTAGTTGTAATCCTAAGTTATTAATTGCTGATGAACCGACAACGGCTCTTGATGTTACGATCCAAGCTCAAATATTAGACTTATTAAGACAAGTAAAAGAAGAGTTTAAAACATCTATTTTACTAATTACACATGATTTAGGCGTTGTAGCAGAAATGGCTGATTACGTTGTTGTTATGTATGGCGGGAAAGTTATTGAAGAAGCCCCAGTACTAGAGATATTCCAAAATCCGAAACACCCGTATACGAAAGGCTTGTTGAAATCAAAACCAGTGATGGGAAAACGAATAGATAAACTATATTCTATTCCAGGGCAAGTTCCTAATTTAGTTGGTTTGGATGAGTTTTGCTACTTTAGCGGGCGTTGTGAGCATTGTATGGAAATATGTGAAAAAGAAGTCCCAAATCTAAATGTAAATGATGAAAATCATAAAGTAGCTTGCTGGTTATATGAGGAGCGTGCGGAGCAATGA	MSRAVVELKDLQTHFQTEEGTVKAVNHVSFAVREGETVCVVGESGCGKSVTALSIMGLIAESGSVVGGDILYEGKSLLGMKEKELRSLRGNDIAMIFQEPMTSLNPVFTVGEQIVETLREHELLSKNEAYKKAIELIRKVGIARANEIVHSYPHELSGGMLQRIMIAVALSCNPKLLIADEPTTALDVTIQAQILDLLRQVKEEFKTSILLITHDLGVVAEMADYVVVMYGGKVIEEAPVLEIFQNPKHPYTKGLLKSKPVMGKRIDKLYSIPGQVPNLVGLDEFCYFSGRCEHCMEICEKEVPNLNVNDENHKVACWLYEERAEQ	PGPT0004435_10996	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
AK009_06685	921	oppC_2	COG1173	Oligopeptide transport system permease protein OppC	ATGGAGACTGTTACAGTAATTACAGAAAAAAAAGAAAAAAAGAGAAGAAACGCATCATCACCATGGCGACAAGCTTTTAAAAAGATAAAGAAAAATAAGATGGCACTTGTAGGGTTTTATGCATTAATTTTTATGTTTTTATTTTGTTTTATCGGTCCGTTCTTTTCTCCATATGCATCAGGAAAAATACAAGTTGCGCTCATTAACAAACCACCTAGTTTTTCTCATTGGCTTGGTACAGATCAATTAGGAAGAGACATTTTAACAAGGCTTATGCAAGCGGGACGTATTTCATTAACCATTGGTTTAGCTTCAATGGTTTTATCAGTTATACTTGGAGCTTTATTAGGAGCGATTGCAGGTTTTTATCGTGGTATTGTGGACAATATTATTATGCGGCTTGCAGATATTTTAATGTCGATGCCAGGATTACCGTTACTTATTATAATGGGTGCGATTTTATCAGAGTGGAAAGTACCGTCTGATTATCGGTTGTATGTCATTATGATTATTTTAAGTTTAGTAGGTTGGCCAGGGCTTGCACGCCTTGTAAGAGGGCAAATTTTATCACTTAGGGAGCAAGCATTTATGCAAGCTGCTGATGTGTTAGGAATAAAAGATTACCGGAAAATTATATATCACTTAATACCTAATGTTTTACCCATTTTAATTGTCGTATCTACATTAGGTGTTGCAGGTTCTATTTTGGGAGAATCCGCGCTAAGCTACTTAGGTCTCGGCGTCGTCCCACCTACACCATCATGGGGGAACATGATTAGCGCAGCTAACTCATTAATTGATTTCCAAAAGCGTCCGTGGTTATGGATTCCGCCTGGTTTTGCAATCTTTATAACGGTTGTATCAATTAATTTACTTGGTGATGCACTTCGTGATGCGTTAGATCCAAAGATGAGACGGTAG	METVTVITEKKEKKRRNASSPWRQAFKKIKKNKMALVGFYALIFMFLFCFIGPFFSPYASGKIQVALINKPPSFSHWLGTDQLGRDILTRLMQAGRISLTIGLASMVLSVILGALLGAIAGFYRGIVDNIIMRLADILMSMPGLPLLIIMGAILSEWKVPSDYRLYVIMIILSLVGWPGLARLVRGQILSLREQAFMQAADVLGIKDYRKIIYHLIPNVLPILIVVSTLGVAGSILGESALSYLGLGVVPPTPSWGNMISAANSLIDFQKRPWLWIPPGFAIFITVVSINLLGDALRDALDPKMRR	PGPT0004450_5818	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
AK009_06686	957	dppB_1	COG0601	Dipeptide transport system permease protein DppB	GTGAAAACATATATTGTTCGTAGGTTGTTACAAATGATTCCTACACTGCTTGGTACATCAATTATTATCTTCGTCCTGTTCGCACTTCTTCCTGGGGATTATATTGATTCAAATCCGAAAATTACACCGGAAAGAGCAGCTGAACTGAGGGAATTATATGGGTTGAACAAACCGATTGTTGAGCGTTATTTTCATTGGTTAGGTAATGCATTGCAAGGGGACTTTGGCTTCTCGCTTCAATATCAAGAGCCTGTAACGTCATTATTAAATAAATTTATTTGGAATTCTTTTAGTGTAGCAATTATTGCATTGTTTTTTATTTGGCTAATTGCACTTATTATCGGTGTATTCTCGGCGACGAAGCAACATTCTTTGTTCGATAAACTTGTAACAATCGGTGTTTTTGCAGCAATGTCATTCCCTTCATTCTTTATCGGTTTGTTTTTAATTAAGGTGTTTGCGGTTGACTTTAAGTTATTACCGATAGGTGGAATGATTGATGTTGGCAGTAATTCAACAGGATTTGCTTACGTGATAGAAGTTGCAAAACATATGATTTTACCAGTATTTATTTTGACACTTCTTGGGGTCGGCTCGCTAACTCGTTATTTTAGAACAAGTATGTTAGAGGTTGTAAGACAAGATTACATACGAACAGCAAGAGCGAAAGGTTTGAAGGAGAAGACGGTTATTTATAAGCATGCATTAAAAAATGCAATTTTACCGGCAATTACGTTATTAGCATTTGAATTACCTGGCTTGTTTTCTGGGGCAATTATTATTGAACAAATTTTTAACTGGCCAGGAATTGGTAATATTCAATTAGAAGCATTAAATTTCCGTGACTATACAGTATTGATGGCATTTACGATGTTTCTTTCTTGTTTAACAATCGTTTCAAACTTTTTAGCAGATATCGTATATGCAGTTGTTGATCCACGAATTCGGTTGAAGTAA	MKTYIVRRLLQMIPTLLGTSIIIFVLFALLPGDYIDSNPKITPERAAELRELYGLNKPIVERYFHWLGNALQGDFGFSLQYQEPVTSLLNKFIWNSFSVAIIALFFIWLIALIIGVFSATKQHSLFDKLVTIGVFAAMSFPSFFIGLFLIKVFAVDFKLLPIGGMIDVGSNSTGFAYVIEVAKHMILPVFILTLLGVGSLTRYFRTSMLEVVRQDYIRTARAKGLKEKTVIYKHALKNAILPAITLLAFELPGLFSGAIIIEQIFNWPGIGNIQLEALNFRDYTVLMAFTMFLSCLTIVSNFLADIVYAVVDPRIRLK	PGPT0004445_9344	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
AK009_06687	1728	appA_2		Oligopeptide-binding protein AppA	ATGAAGAAAAAGACAAAAAAATGGGCTGGTGTATTTTCAGTATTACTTAGTAGTTCGCTTGTGTTGTCTGCTTGTGGGGGACAGGAGGACGCGGCTTCTACAGAACCGGTTAAACAGCAGGATTTAAAAAATGTGAAAATTGAAAAGATCGCTGCGACAGATAAAACGAAAGTGCCAGACAAAGCGAAGAATAGAAAAGATACGTTAGTAGTTGGTATTAGTAAGCCAGGCGGCGTATTTTTACCATACTTCCAACAAAATGGTTGGGATGGAAACGTAACTTCAGTTATTTTTGCATCTCTCGTATCAACCGATAAACAAGGGAAACCAATTCCAGAATTAGCTGAGAAGTGGGACGTTTCTTCTGATCAGTTAACATATACATTCCATTTACGTAAAGATTTGAAATTTAGTGATGGATCGCCATTAACGGCGGATGATGTAGCTTTCACATTGACGCTTTTACATGATAAGGCATATGAGGGTGAAGTAGATATCTCTCAATATGCGGTTAAAGGTGGTAAAGAATATAAAGAAGGAAAAGCAACTTCAATTGAAGGTATTCAAGTTGTTAATCCACAGACAATTAAAATTACAACTGAAAAAGTGAATTCACAAGCTATATTTGTTTTAGGAGGTACAGTACTATCAAAAGCTTATTATGGAAAAGATTATAAGCAAAATACAAGCTTAGATTACTTAAAAGATTTATATGGAAAGCCATTAGCTGCGGGTCCATATAAATTTGAAAAGTATATTCCAGGTCAAGAAGTTCGTTTTGTAGCAAACGAAAATTATTATGCGGGTAAACCAAAAATTCAAAACTTCATTTATAAAATTACTTCTGGTGATACGAAGCTTCAGTTGTTCCAAACAGGAGAAGTTGACCATACTGGCTTAGGTACTGGTGATGAGGTTCTTGAACAGGCTAAGGCTTTAGAATTCGCAAATATCCAAATCGAAACAGCACCGTCATATAGTTATATTTATATGAATAATAATAAGCCTTACTTAAAGGATAAAAAGGTTCGCCAAGCACTTATTTACGGATTAGACCGCAAAAAATATGTTGATACAGCGTTAAAAGGATACGGTACAGTAGCCAATGTACCAATTCATCCAACTTCTTGGGCTTATACGGAAGAAGGAGTTAATAAATACGAATACGATAAAGAAAAAGCGAAAAAATTATTAGATGAAGCAGGGTGGAAAGTTGGTTCGGATGGAATTCGTGAAAAAGATGGTCAAAAATTAAAACTTTCTTATTTCGGTCCAAGTTCGGCTAAAGATAGTGATTTATTAATTCCGATTGCGAAAGAGAATTATAAAGAAATAGGTGTAGAGTTTAATCCTGAATTTATGGACTTTAATACGATGCTTTCTAAGGTAAACAAAGGGGATTATGATTTAGCTTCTGTTTCGACACCGATTACAAGTGACCCGAGTGAAACAGCTGGTGAATATTTGTCTACTGCAAATGAAACTAGTCTTGGTTATAAGAATGCAAAAGTAGATGAGCTAATTCAAAAAGGTATTGAAACTGTAGATATCGAAAAGCGTAAACCTATTTATAAAGAATTGTATAAAGAATTAAGTGATGATCCACCAGTAATTCTATTAAACTACCGTAGAACAATTACTGGTTATAACGGGAATATAAAAGGAATTGATCCTGAAAAGTACAACAGTATTAGTGCAAACTTACCAGTATTATCATTTGAAAAATAA	MKKKTKKWAGVFSVLLSSSLVLSACGGQEDAASTEPVKQQDLKNVKIEKIAATDKTKVPDKAKNRKDTLVVGISKPGGVFLPYFQQNGWDGNVTSVIFASLVSTDKQGKPIPELAEKWDVSSDQLTYTFHLRKDLKFSDGSPLTADDVAFTLTLLHDKAYEGEVDISQYAVKGGKEYKEGKATSIEGIQVVNPQTIKITTEKVNSQAIFVLGGTVLSKAYYGKDYKQNTSLDYLKDLYGKPLAAGPYKFEKYIPGQEVRFVANENYYAGKPKIQNFIYKITSGDTKLQLFQTGEVDHTGLGTGDEVLEQAKALEFANIQIETAPSYSYIYMNNNKPYLKDKKVRQALIYGLDRKKYVDTALKGYGTVANVPIHPTSWAYTEEGVNKYEYDKEKAKKLLDEAGWKVGSDGIREKDGQKLKLSYFGPSSAKDSDLLIPIAKENYKEIGVEFNPEFMDFNTMLSKVNKGDYDLASVSTPITSDPSETAGEYLSTANETSLGYKNAKVDELIQKGIETVDIEKRKPIYKELYKELSDDPPVILLNYRRTITGYNGNIKGIDPEKYNSISANLPVLSFEK	PGPT0004430_3659	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
AK009_06688	198			hypothetical protein	ATGGACAACCTATTCCAATACGTCCTGCACTACGTATTATTAACAATTATGATAGTCGGGGCGCTATTACTATTCCCGTTCTTCCCAAAGTTCGTCCTCTTTTTAGCTTTTTTTATCATGCTCGGGATCGCTATTATAATTTCAACGAGAGAAGATACCACGCAAAAAGAGAGCAGAGTTCAGCGCGTAAAGCTGTAA	MDNLFQYVLHYVLLTIMIVGALLLFPFFPKFVLFLAFFIMLGIAIIISTREDTTQKESRVQRVKL				NA	NA	NA	NA	NA
AK009_06689	1881	yheS_2	COG0488	putative ABC transporter ATP-binding protein YheS	ATGACTATTTGTAGTGTAAATAATGTAACGAAATCTTTTTGTGGAAACATCATATTTGAAAATATATCGCTTGAAATAAAGAATGGTGAACGTGTTGGGTTAGTTGGTCGTAACGGTAGTGGGAAGACAACAATCTTTGGGCTTCTAACGGGAATGGAGAGTTTGGATACAGGAGTTATTCATATGAAGAAAGGTACACGTATTGGTCATGTCGCACAAATTCCGAAGTTTGATGAGGCCATGACTGTATATGATGTATTGAGTTCCGCTTTTAAAGTAGAAAAGGAATTAGAAAAAGAAATGCATACTCTAGAAAAAAATATGGCAGAAGAGCAGGAACAATCTTCTTTGCAAAAGCTAATGGAGAGGTACGGAGTAATTCAAGAAAAATTTGCATTTCTCGGTGGTTATGAAATAGAGGCAAATATAATGAAGGTAGCAAATGGCTTACAAGTGACAAACTTATTTTCAAGAGTATTTACGGAATTAAGTGGAGGAGAACAGACGAAAGTAAGCCTTGCATATATGCTATTGCAGAAACCAGATTTACTTCTATTAGATGAACCAACAAATCATTTAGATTTGTTTGCAGTTGAATGGTTAGAGCAATTTTTAAAAGAATATAATGGAACAGTTATGGTTATTTCACATGATCGCTATTTCCTTGATGAAGTTGTAACGAAAATTTTTGATTTGGAAGATGGAGAGATTCACGTGTACCATACGAATTATTCTCAGTTCGTTGAGGAGAAGGAAGAAAGATTACTTCGAGAGTTTCAAGCTTATCAGGAGCAACAAAAGAAAATAAAGAAAATGAAAGAAGCAATTAAGCGTCTACGTGAATGGGCAAATCAAGCGAACCCTCCGAATGAAGGATTGCATAAAAGAGCGAGAAATATGGAACGTGCGTTAGAACGTATAGAGAAATTAAAGAGGCCGATTTTAGAACGAAAACAGATGGGTCTTCAGTTTGAAGGGCAAGAGAGAAGCGGGAAAGATGTTGTTGTAATGAAAGAAGTGAGTAAAGGTTTTGCTGGCCGACCTTTATTTGAACAAGCGAATTTACATGTTCGTTTTCAAGAGCGTGCTGCTATCGTTGGTCGCAACGGCACAGGGAAGACCACTTTACTAAAATTACTATTAAAAGAAATGGAACCAGAAGCTGGCGCAATTAGGGTTGGTAGTAGTGTGAAAATCGGTTATTTATCACAGCATACGTATGAAAATATGAAGAGTAATGTATTGGAAGCATTCAGGGAGAATGTGGCTGTAACAGAGGGAGAAGCAAGACATATATTAGCTAAGTTTTTATTTTATGGTCCAGCAGTATTTAAGAAAGTAACGCAACTTAGTGGTGGAGAAAAAATGAGGTTAAGACTTGCGCAACTTATGTATCAAGACATCAATTTTCTAATTTTAGATGAGCCGACAAACCATCTTGATATTGAATCAAGAGAAGTTTTAGAGGAAGCCCTTGAGCAATATAACGGGACGATTTTAGCTGTTTCACACGATCGATATTTTTTAAATAAGTTATTTGAAAAGACGTACTGGATTGATGAATGTAAATTATTTGAGTTTGCAGGAAACTATGCATGGGCTCGTCAAAAGTGGGAAGAAAAGCTTGAGAAGCAAGTAATAAAGCAGAAACGCCAAGGAAAAAAAAGTGTTGAAACGGTTCCTGTAAAAGAGAAAGAAGCTAGGAATCTTGAAGAGATTGAAAACGAGTTAATGCATGTAGAAGAAGATGTATATGCAATAGAATGTGAAATGGAACATGTAGCTGATGTTGAAAGACTTGAAAAATTATATGAGGAAAAAACGAAGAAAGAGTTGTTACGAGCAGAGTTATATAATGAATTAGAGAATATTGTGGAGTAA	MTICSVNNVTKSFCGNIIFENISLEIKNGERVGLVGRNGSGKTTIFGLLTGMESLDTGVIHMKKGTRIGHVAQIPKFDEAMTVYDVLSSAFKVEKELEKEMHTLEKNMAEEQEQSSLQKLMERYGVIQEKFAFLGGYEIEANIMKVANGLQVTNLFSRVFTELSGGEQTKVSLAYMLLQKPDLLLLDEPTNHLDLFAVEWLEQFLKEYNGTVMVISHDRYFLDEVVTKIFDLEDGEIHVYHTNYSQFVEEKEERLLREFQAYQEQQKKIKKMKEAIKRLREWANQANPPNEGLHKRARNMERALERIEKLKRPILERKQMGLQFEGQERSGKDVVVMKEVSKGFAGRPLFEQANLHVRFQERAAIVGRNGTGKTTLLKLLLKEMEPEAGAIRVGSSVKIGYLSQHTYENMKSNVLEAFRENVAVTEGEARHILAKFLFYGPAVFKKVTQLSGGEKMRLRLAQLMYQDINFLILDEPTNHLDIESREVLEEALEQYNGTILAVSHDRYFLNKLFEKTYWIDECKLFEFAGNYAWARQKWEEKLEKQVIKQKRQGKKSVETVPVKEKEARNLEEIENELMHVEEDVYAIECEMEHVADVERLEKLYEEKTKKELLRAELYNELENIVE				NA	NA	NA	NA	NA
AK009_06690	129			hypothetical protein	ATGAATATGAAGAAAGCCATTATTATAATTGCAAGCACAGCAATTACCTTATACACAATAAAAAATAGAAAAAAGAAAAATACTGAAAATGTTCTATATTATCCATACACACTATTAGAGAAAAAATAA	MNMKKAIIIIASTAITLYTIKNRKKKNTENVLYYPYTLLEKK				NA	NA	NA	NA	NA
AK009_06691	762			hypothetical protein	ATGGATACACAACAACTATATTTTTTAAACGATATCGGTAAACAAAAACCAGAAAGTATTCGGAATAGAAGCGCTGCATGTCCATTTTGCGATACAGAACATTTAACGGATATTTTAGCAACTGATGGTTCTATTATTTGGTTAAAAAATAAATTTCCTACATTACAAGATACATTTCAAACAGTGTTAATTGAAACCGATAATTGCGAAGATCATATCGCAACATATACAGAAGAACATATGCGGAAATTAATGCAATTTTCTATTCAACATTGGTTACACTTACAGAAGAAAGAAGAGTTCGCATCTGTAATTTTATACAAAAATCACGGTCCATTTTCAGGTGGAAGTTTGCATCATGCACACATGCAAATTATCGGAATGAAATATGTAGATTATCTTGAAAATATTGAAGAAGAAAATTTCCAAGGGGTAATTGTTCAAAAAAACGAACGCATTGAGCTTAATATTTCAGAGCGTCCCATTATTGGCTTCACTGAATTCAATATAATCATTGATAATATTTCATATATAGATGACATGGCAAATTACATTCAGCAAACTGTACGTTACATACTGACAGATTTCCATAAAGGATGCAGTAGTTATAACTTATTCTTCTATTACTTAAATGGAAAAATCATTTGTAAAGTTGTTCCTAGGTTTGTCGTTTCACCGCTGTATGTAGGATATAAAATACCTCAAGTTTCCACAAAACTAGAATACGTAAAAATACAACTAGCGGAGTATTTCACAAAATGA	MDTQQLYFLNDIGKQKPESIRNRSAACPFCDTEHLTDILATDGSIIWLKNKFPTLQDTFQTVLIETDNCEDHIATYTEEHMRKLMQFSIQHWLHLQKKEEFASVILYKNHGPFSGGSLHHAHMQIIGMKYVDYLENIEEENFQGVIVQKNERIELNISERPIIGFTEFNIIIDNISYIDDMANYIQQTVRYILTDFHKGCSSYNLFFYYLNGKIICKVVPRFVVSPLYVGYKIPQVSTKLEYVKIQLAEYFTK				NA	NA	NA	NA	NA
AK009_06692	534			hypothetical protein	GTGAAGAAATTCTTTGTAGGATTTTTAGTTGTTCTTGGAGTATATTTATATTTCCAAGGAAAGTCTGAAGGAATGGATAAGCTAGTGAATGGAACAAGCTATGTTGATTCAGAAGAAGCAAAACAGATGAAACAAATCATTATAGAGGAAGCGAAGAAAGTAAATCTTCCGGAATGGATACCTCTTGCAATTGCTGAGCATGAAAGTCGATTAAATCCAAGAAGTGTTGGAGATAATGGAACTTCATTCGGATTGTTTCAACTACACCGCGGCGGCGGGCTTGCACCAGAACATTTAACTGATGATGAGCTGAAAGATCCACGTACAAATGCGCAAATTGCAATGCCGCATTTAATGAAAGGATATAAGCGTGGGGTGCAAAAAGGTTTGACTGATTTTGCATTACTGAAATATATAGCGAATACATCTGGATGGCCAGGGAATTTAGGGCCAGAGTGGACGGATAATAACATGAAGTATAACATCGGATTAGAAGATGTGTACTATCGAAATAAAGGTGTAATTAAAGAGTAG	MKKFFVGFLVVLGVYLYFQGKSEGMDKLVNGTSYVDSEEAKQMKQIIIEEAKKVNLPEWIPLAIAEHESRLNPRSVGDNGTSFGLFQLHRGGGLAPEHLTDDELKDPRTNAQIAMPHLMKGYKRGVQKGLTDFALLKYIANTSGWPGNLGPEWTDNNMKYNIGLEDVYYRNKGVIKE				NA	NA	NA	NA	NA
AK009_06693	1650			hypothetical protein	ATGAAAAAATGGCTGTTACTCTTATTTAGTTTACTACTATTAATTCCTGTCCCTATTTCCGCACAAAAAACCGAACAACCAAAAACCCTTATTTTATACAGTTCAAACGATGATCAAATTACAAGTGATATCCAAATACTTAATACACAAGTAGGACATTTCACTAATAATATAACAATTAAAAACATAAAACAGTTAGCTGAAATAACTGATAAATCTTCGTATACACATGTTATTTACATGAGTGAAAAACAAGAAGAACTTTCTACTGAAGCAAAGAAATTTCTAGAAGGATTCCCAGGACCATTACTAGTTTTAGGTCAAAATATAGAACAGTTATCTAATCGTTTTTCATTTATCACACTTAACAATGAAGATATAAACTCTGATACAATTGAATATCCAACACGTAAACTAAAGAATATATTAGAAGAAGAAAGAACAATTAAACAACTTGACACAAATGGAACAATTCTCGCCCATGCTTTAAGAGGAAATAATACTTATCCATTAATTGTACAGCAAAACAATTCTTATTATGTAGCAACTTCTAACCTCTTTGATTGGATATCTTATTATATTGGCGAAAGCCTATTTTCTTATTTTCAGCAAAAACCCGAAACTAATAAAAAATTAGCTTATTTACGTCTTGAGGATGTTCACCCAGCCGCAGATACATATCAATTAAAAGAAATTGCTGAATTACTAAAAGAGAAAAAGATTCCTTACATGATCACTGTTATTCCTGTATATACAGATCCAGATACAGGTAAAACACTACATTTAAAAGATAAACCCGAACTAGTTGATCTTTTACGCTCTATGCAAGATGATGGTGCAGCGATTATTATGCATGGTTACACTCATCAATTTTATGATAGTGAAACTGGGGAAGGTTTTGAATTTTGGGACGTAAAGACAGATCAACCAATTCGCCAACCGAAACATGAAAAACCTAAGACAAAAGATGACTTTCCAAATATAGAGGCATATAACCAATATGTAAAAAAAGGGGAAGAGTTTGAGGAAAAATATACGACAGATCATATCGAAAAGGGGATTCAAGAACTTGTAGATGCTAAACTATATCCTGTCGCCTTTGAAGCACCTCATTACACAATGTCTCAAAAAGGGTATGAAATATTATCAAGATACTTTTCAACTTATGTAGGACAACTACAGTTAAGTGATACAACTTGGAAATCCATGCACTCTCCAGCATATAGAAGTACACCATCATTTCTACATGGAATGAAATTAATGCCTGAAACAGTCGGTTTTATTGAAGAAGATAAGCCACAAGCTATTGCTAAAATGAAAGCAAATGCTTTATCTGTTGCTAAATTATACGATGGGGTTATTGGAGCATTCTATCATCCTTACTTAGGTGTGAAACCATTAAAAGAAGTGTTAAAGGATCTAGAGAGTATTCCAAATATAGAATGGATTGATTTACAAAAGGAAAAGAATGAAGTAAAAATGAAAGATATTCATATTACGACGAATAAAGATGGCATTCACGTTGAAAAACCAACCAGTGCGAATGACATAATTGATTATATAAAGCAATATGGCTTCTTCCTTATACTAGGGTTCGTTATCATTGTCTTTCTTTTATTATTAAAACGTGCGAAAAAATTAGAATCCTAA	MKKWLLLLFSLLLLIPVPISAQKTEQPKTLILYSSNDDQITSDIQILNTQVGHFTNNITIKNIKQLAEITDKSSYTHVIYMSEKQEELSTEAKKFLEGFPGPLLVLGQNIEQLSNRFSFITLNNEDINSDTIEYPTRKLKNILEEERTIKQLDTNGTILAHALRGNNTYPLIVQQNNSYYVATSNLFDWISYYIGESLFSYFQQKPETNKKLAYLRLEDVHPAADTYQLKEIAELLKEKKIPYMITVIPVYTDPDTGKTLHLKDKPELVDLLRSMQDDGAAIIMHGYTHQFYDSETGEGFEFWDVKTDQPIRQPKHEKPKTKDDFPNIEAYNQYVKKGEEFEEKYTTDHIEKGIQELVDAKLYPVAFEAPHYTMSQKGYEILSRYFSTYVGQLQLSDTTWKSMHSPAYRSTPSFLHGMKLMPETVGFIEEDKPQAIAKMKANALSVAKLYDGVIGAFYHPYLGVKPLKEVLKDLESIPNIEWIDLQKEKNEVKMKDIHITTNKDGIHVEKPTSANDIIDYIKQYGFFLILGFVIIVFLLLLKRAKKLES	PGPT0015296_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0015296-ydaL-NA	NA	NA
AK009_06694	765	ycfH	COG0084	putative metal-dependent hydrolase YcfH	ATGAAATGGATTGATAGTCATATACATGTTGATCAATATAAGGATGAAGAGAAGAGCAGATTACTAAAAGAGGTGGAAAATAGTAATGAAATAAAGGGGCTTATTGCAGTATCTATAAATTATCACTCTTGTAAGGAAACGTTATCTTTAGCGAAGAAGTATCCTTTTATATATCCAGCGATAGGGTTTCATCCAGAGCAACAGATTCATAAAGAGGAGTGTGAACAGATTTATCAACTTATTGAACAGAACGCAGAGGGAATTGTTGCGATTGGTGAAGTAGGTTTGCCCTATTATTTGAGAAAAGAAGATGAAAGAATTGCTGCAGATCCATACATAGCTGTATTGAAAAAATTTATAGAACTAGCTAGTAAGTATAATTTGCCGATTGTATTACACGCAGTTTATGAAGATGCTGACATTGTATGTGATTTGCTAGAGAAATATAAAGTTTCACGTGCACACTTCCATTGGTTTAAAGGAAGCGATGAAACAATGAAACGGATGATGAGAAATGGTTATTATATTTCGATTACACCGGATGTTTTACATAAGGAGAAGATTAGAGAAATCGTTTCGTATTATCCGCTTGAATATATGATGGTAGAAACAGATGGACCGTGGGAATTTCAAGAGGATGTTATAACGCACCCAAGAATGATTCGAGAGGTATTAAAGGAAATTAGTTCTATAAAAAACATATCCATTGATAAGGTCGCAGAAACAATATATGAAAATACAAGTCGATTTTATTTGAAAGGATAG	MKWIDSHIHVDQYKDEEKSRLLKEVENSNEIKGLIAVSINYHSCKETLSLAKKYPFIYPAIGFHPEQQIHKEECEQIYQLIEQNAEGIVAIGEVGLPYYLRKEDERIAADPYIAVLKKFIELASKYNLPIVLHAVYEDADIVCDLLEKYKVSRAHFHWFKGSDETMKRMMRNGYYISITPDVLHKEKIREIVSYYPLEYMMVETDGPWEFQEDVITHPRMIREVLKEISSIKNISIDKVAETIYENTSRFYLKG				NA	NA	NA	NA	NA
AK009_06695	114			hypothetical protein	ATGCGTAAAGAAGAAGTAGTGAAGTTACCAATTAAAGATTTCTGTAGCTACTTTACTGTTGCCGTAGTGTGTATTGGATTATTTGATATCATAACAAACTTAATTGTTAAATAA	MRKEEVVKLPIKDFCSYFTVAVVCIGLFDIITNLIVK				NA	NA	NA	NA	NA
AK009_06696	357			hypothetical protein	ATGAAGAAAAAAATGATCACTACTATAATAGCGATGATAGTAATAGTAGTAATGTTACTGCCTACGAAACTTGGGCCGGTTATCGATAAATATAATCCATTTTATAAGACGAAAGAATACTATACGGTTGTGAATACAATTGGTCAGCATATTGGTGATGAGTGGTATGAATATGAATTTATTGCATTCGATGAACGTGGTAGAGAGCAGAAAATAAAGAAAACGGTTAAGCATATGTTAAAGAGAGATGAAGCATTAAAGGTTTTTGCAAAAGGACGTTACGGTGAATCGATTGAAGAGATTGAGGTTGCAAATATTCCTATAAATGCGAAGAGCAAACTTTTAACGATGAGATAG	MKKKMITTIIAMIVIVVMLLPTKLGPVIDKYNPFYKTKEYYTVVNTIGQHIGDEWYEYEFIAFDERGREQKIKKTVKHMLKRDEALKVFAKGRYGESIEEIEVANIPINAKSKLLTMR				NA	NA	NA	NA	NA
AK009_06697	837			hypothetical protein	ATGGTTAATCAACGTATAAAGGAAATAACACTAATTACAATTGGTTCATTATTATTCGCAATTGGTATTAATTACTTTGCAATTCCAAACCGTTTATCGGAAGGTGGAATTATTGGTTTAACGGTTGTTACGTACTACTTATTTGATTGGTCACCAGGAATTGTGAACTTTGCTATAAATGCAATTTTACTAGCTGTTGGTTATAAATTTTTTGATAAGAAAACAATGATTTATACAATTTTAGGGATTGTAGAAACATCTTTGTTTTTATACGTTACAGAACATATTGAATATCATGTAAATAGTGATACATTATTAGCAGCTTTATTTGCTGGCTTATTTGTGGGTATTGGATTAGGCTGTATGTTCAAAGCCGGAGGTACATCGGGAGGATCAGCAATCTTAGCTCAGTTAGCGAATCAATATTTAGGTTGGAGCGTAGGTAAAGGCGTACTAATTATTGATATTGTTGTAATTGCTGGTTCTGTATTTATAATAGGGCAAGAAAAGGCAATGTATACACTTGTAGCTGTGTTCATCGGAGCGAAGGTGATTGATTTCATTGTAGAAGGAATGGATACAAAAACGGCTGTTACGATTATTTCGAATCAACCAGATTTAATTCGTGAGGCTATTACGAAAAATATGACACGCGGTGTTACTGTATTAGAAGGGCGCGGCGGATATACTGGTAAAAATAAAGAAGTTTTATATGTTGTTATTAATAAACAAGAGCTTGTTAAGTTAAAACAAGTTATTAGCCGGGTAGATGAAGATGCTTTCGTTGTTATACATGATGTACGTGATGTACTTGGCGGTGGCTTTAAAGCAAGCTAA	MVNQRIKEITLITIGSLLFAIGINYFAIPNRLSEGGIIGLTVVTYYLFDWSPGIVNFAINAILLAVGYKFFDKKTMIYTILGIVETSLFLYVTEHIEYHVNSDTLLAALFAGLFVGIGLGCMFKAGGTSGGSAILAQLANQYLGWSVGKGVLIIDIVVIAGSVFIIGQEKAMYTLVAVFIGAKVIDFIVEGMDTKTAVTIISNQPDLIREAITKNMTRGVTVLEGRGGYTGKNKEVLYVVINKQELVKLKQVISRVDEDAFVVIHDVRDVLGGGFKAS				NA	NA	NA	NA	NA
AK009_06698	330			hypothetical protein	ATGAATGAACTTTTATTGAGTATGAAAAAGTATGTAGATGATGATGAAAAGATTTTGGCCTTTGTGGTAGGGATATTTGAGAAGGATAATTTTATATTATCGTATCAACATGGGATTTTTGTTGCCACTACTAGACGTCTCCTTTTTTACGGGAAATTTCCGTACTATTCTTCAACATTTAAAGAGTATTCATATTTGCATATAGATAGCATAGATTTTCATCCGTATTTTGAGTTTACTTGTAATCATGAAACCATTCGCGCTAAGTATATTCAGAAAGGGAATGTGGAGCAATTTGTCCGTGCAGTTAGAGCAAATATGAATAATTAA	MNELLLSMKKYVDDDEKILAFVVGIFEKDNFILSYQHGIFVATTRRLLFYGKFPYYSSTFKEYSYLHIDSIDFHPYFEFTCNHETIRAKYIQKGNVEQFVRAVRANMNN				NA	NA	NA	NA	NA
AK009_06699	978	ccpB_3		Catabolite control protein B	ATGGCTAATATTAAAGATATTGCAAAGATGGCGGGAGTTTCAGTTACGACTGTTTCGAGAGTGTTGAATGATCACCCATATGTAAGTGAAGAAAAAAGAAAAGCGGTTATAGAGATAGTTGAGAAATTGAATTACTCGCAAAACGCAAATGCTGTTCATTTATCAAAAGGAAAAACGAATATTGTTGGTGTGATTTTACCGTATATTAATCATCCGTGTTTTGATGCGATGGTGAGCGGAATGATGGAGACTGCGTTAGCGCATAATTACAGGGTGCTACTTTGCCAAACGAATTATAATAAAAAAGAAGAAATGAAAAGTTTACATATGTTAAAAACAAAACAATTGGATGGTCTTATTATTTGTTCACGTGCAAATGATTGGGAAACGATAGAACCGTATGCTTCTTACGGCGCAATAATTGCTTGTGAAGACAATGATATTTCAAACATCTCAAGTGTATATACGAATCATTCAGCGGCCTTTCAATTAGGAATGGATTATTTGATTGAGAAAGGTTATAAAAAAATTGGTTATTGTACGGGAAGAAAATTAGGGCCGAGTAGTCAAAAGCGTTTTGATGTTTATAAACAGCAATTGCAATCTATAGACGAAGAGGTTAATGAAGAATGGATTTTTACAGAATGTTTTACACTAGAAGATGGTGTAAAAGTGGCTCATAAGTTAAAAGAGATGCAGGATCTTCCTGAAGCATTAATAGTAGCAGGTGATGAAGTTGCGATTGGGGTTATGACAGAGGTTGAAAAATTAGGGATTCAAGTTCCTGAGGATTTAGCGATTATTGGCTTTGATAATCAACCTATCTCGCAAGTGTTACAATTGACAACTATTGATCAAAATTTAAAGGAGATAGGGAAAACTGCTTTTGAAATGTTGCATAGAAAAGTGAATGACGAGAGTTCTGAACAAGAAAAGCTGGAAATTCCATACGAACTTGTGGAACGCTCTACAGTTTAA	MANIKDIAKMAGVSVTTVSRVLNDHPYVSEEKRKAVIEIVEKLNYSQNANAVHLSKGKTNIVGVILPYINHPCFDAMVSGMMETALAHNYRVLLCQTNYNKKEEMKSLHMLKTKQLDGLIICSRANDWETIEPYASYGAIIACEDNDISNISSVYTNHSAAFQLGMDYLIEKGYKKIGYCTGRKLGPSSQKRFDVYKQQLQSIDEEVNEEWIFTECFTLEDGVKVAHKLKEMQDLPEALIVAGDEVAIGVMTEVEKLGIQVPEDLAIIGFDNQPISQVLQLTTIDQNLKEIGKTAFEMLHRKVNDESSEQEKLEIPYELVERSTV	PGPT0021075_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK009_06700	102			hypothetical protein	ATGATGAACAAAATGAAAACAAACAATTTCTTAAATACAATGGGCATGGTATTTTCCGCTCTTATCGACGCAAAAGCTGTTGCTTCTACATTAAACAAGTAA	MMNKMKTNNFLNTMGMVFSALIDAKAVASTLNK				NA	NA	NA	NA	NA
AK009_06701	96			hypothetical protein	ATGAATAACATCACTTTTAACAAATTAGATTTTTTAGGACTAGCTAGTGGCTCGCTTCTTCTTACTGCTTTTATTTACGCCGCTACGCTTGTATAA	MNNITFNKLDFLGLASGSLLLTAFIYAATLV				NA	NA	NA	NA	NA
AK009_06702	606	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	ATGTATAAACCAATTACATTTTTGTTGAAATATATATTTAAAACAGCTGGAAAAGTAGAAGTACAAGGAAGAGAAAAGCTACCAGAAGGTGGACCGTATGTTGTTGCATGTACACATACAAGTTTTATGGATGTATTAATGTTAGCTACAGGGATGTATCCAACTCAAATTCATTACATGGCCAAAAAAGAATTATTTGAAGGGAAATTCAAAAAATGGTTCTTTAAAAATGTAAATGCATTCCCTGTAGATCGTGCGAACCCAGGACCAAGTACACTTAAAATTCCATCACGTTTATTAAAAGAAGGAAAGGTAGTAGGGATTTTTCCGAGTGGAACGAGATCAGCGGAAGATGTTTCATTAAAAGCGGGTGCTGTGACAATTGCGATGCGTTCTAATGTTCCGTTAGTACCAGCAGCTTATGTTGGTCCATCAAGTGTAAAAGAATTAATAAAGGGGAAAAAGGCACAATTGATTTTTGGAGATCCAATTCAAATTGAGGCTGGAGAACAAATAGATCGAAAAACCGCTATGAAAATGATGACAGATCAATTAAATGAGAAGTTTGAGGAGTTAAAAGAAGCTTTGCAATCAAATCAAAAATAA	MYKPITFLLKYIFKTAGKVEVQGREKLPEGGPYVVACTHTSFMDVLMLATGMYPTQIHYMAKKELFEGKFKKWFFKNVNAFPVDRANPGPSTLKIPSRLLKEGKVVGIFPSGTRSAEDVSLKAGAVTIAMRSNVPLVPAAYVGPSSVKELIKGKKAQLIFGDPIQIEAGEQIDRKTAMKMMTDQLNEKFEELKEALQSNQK	PGPT0024380_6785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
AK009_06703	102			hypothetical protein	ATGATGAACAAAATGGAAACGAACAATTTCTTAAATACAATGGGCATGGTATTATCAGCTCTTTTCGATGCAAAAGCTGTTTCTTCTACATTAAACAAGTAA	MMNKMETNNFLNTMGMVLSALFDAKAVSSTLNK				NA	NA	NA	NA	NA
AK009_06704	96			hypothetical protein	ATGAATAACAGTACTTTTAACAAATTAGATTTTTTAGGATTAGCTAGCGGCTCTCTTCTTCTTACTGCTTTCATTTACGCTGCTACGCTTGTATAA	MNNSTFNKLDFLGLASGSLLLTAFIYAATLV				NA	NA	NA	NA	NA
AK009_06705	141			hypothetical protein	ATGTTAGAAAGTTTATTGTTTTTCTTCGCCGTCGGAGTTGCCTGTGAGCTTGCAGCAATTAATCGAAATGGTCGTAAAAAGATAAAACAACAAGCTGAGCTGATACAGCTTTTAAAAGAATTGAAAGAAAGAAAAAATTAA	MLESLLFFFAVGVACELAAINRNGRKKIKQQAELIQLLKELKERKN				NA	NA	NA	NA	NA
AK009_06706	954			hypothetical protein	ATGATAATAGGGGCTTTAGCTTGTTTAATTGCGAGTATGTCATGGGGAGCGATGTTTCCAGTTGCTGATCATGCGCTAGAATACATAGATCCATTTTATTTTTCGCTTATTCGCTATGGAGCGGTGGCGATCGTACTGATTGTATTGTTGTTAATGAAAGAAGGAAAACAGGCATTTCGTTTAGAGGGAAGAGGAAAGTTACTCGTCTTTTTTGGAACGATGGCATTTACAGTATATAATGTCCTCATATTTTTAGGGCAAATGTTAATGGGTAAGTCGGGTGTAATGGTAGCTTCCATTATGGAGGCACTTATGCCGATGATTTCTATTTGTATTTTATGGGGATATAAGCATATAAAACCGAAGAAGTATATGATAACGAGTATGGTTATTGCTTTTGTAGGAGCTGTGTTTGTTATTACAAAAGGTGACATGAGTTTCTTTGTAACATTGAAAGATAATATGTTCTCATTAGCATTTATATTTATTGGTGTTGTAGGCTGGGTTATTTATACGATGGGTGGTCAAACTTGTAGTGATTGGTCAACATTACGTTATTCTACGTTGACGTGTGTATTCGGTACGACTGTTACAGGAATTATAACGGTAATTATTACGTCGCTTGGATATATTTCAGTTCCGAGTATGGGAACGATTTCTATTGTAAAATATGATTTGTTATTTATGATGACATTGCCAGGTATTGTAGCGCTACTTGCTTGGAACTACGGTGTGAAAATTTTATCATCCATTAATGGGATTTTATTTATTAATTTTGTACCAATTACGACTTTAGCTATTATGATGATGCAAGGGTATCAAATCACAATGTTTGATATTATAGGGACTGTACTTGTTATTGCAGCGCTTATTCGCAATAACGTTTGTCAGAGAAAAGAAGAAAATATAAATAAGAGAGTTTTACAAGAAGAGCAATTACGTCAAGCTGTTTAA	MIIGALACLIASMSWGAMFPVADHALEYIDPFYFSLIRYGAVAIVLIVLLLMKEGKQAFRLEGRGKLLVFFGTMAFTVYNVLIFLGQMLMGKSGVMVASIMEALMPMISICILWGYKHIKPKKYMITSMVIAFVGAVFVITKGDMSFFVTLKDNMFSLAFIFIGVVGWVIYTMGGQTCSDWSTLRYSTLTCVFGTTVTGIITVIITSLGYISVPSMGTISIVKYDLLFMMTLPGIVALLAWNYGVKILSSINGILFINFVPITTLAIMMMQGYQITMFDIIGTVLVIAALIRNNVCQRKEENINKRVLQEEQLRQAV				NA	NA	NA	NA	NA
AK009_06707	867	gltR_5	COG0583	HTH-type transcriptional regulator GltR	ATGGAATTAAGAGACTTACAAATCTTTAAAAGCGTTGCCGACCAGGGTAGTGTAAGTAACGCAGCAAAGGAATTAAATTATGTACAATCAAATGTAACTGCACGTATTAAACAACTAGAAAACGAATTAAAAACCCCACTCTTTTACCGCCATAAACGAGGCATGACTTTAACAGCTGAAGGAAGAAAAATGCTCGTTTATGTTAATAAAATTTTGCAAGATGTCGACGAACTAAAACAAGTATTTTTAGATAGTGAAACACCCTCCGGTATATTAAAAATCGGTACAGTAGAAACAGTAAGTACATTACCTACCATTTTATCTTCTTACTATAAAAGCTATCCGAATGTCGATTTATCATTACAAGCGGGTCTAACAGAAGAATTGATTAGAGAAGTACTTGATCATCAATTAGATGGTGCCTTTATATCAGGTCCTATTAAACATCCACTAATCGAACAATACGATGTTAGTACAGAAAAATTAATGCTTGTAACACAAAATAAAGCTTTTCATATAGAAGAATTTACAACAACGCCTCTACTCGTTTTTAACCAAGGATGTGGATACCGTTCCAAACTAGAACGATGGCTGAAAGACGAAGGTTTGCTACCAAAAAGAATTATGGAATTCAATATATTAGAGACAATATTAAACAGCGTTGCACTCGGCCTCGGAATTACACTCGTACCACAGTCTGCTGTCCATCATCTTTCTAAAGCAGGTAAGGTACATTGTCATGCAATCCCTGAAAAATACGGCAGTATTTCAACGGTTTTCATACGCCGTAAAGATAGCTATATGACGAATTCAATGCGTAGTTTTTTAAAAACAATTGAAGAACATCATCATATCAATATGCTGTGA	MELRDLQIFKSVADQGSVSNAAKELNYVQSNVTARIKQLENELKTPLFYRHKRGMTLTAEGRKMLVYVNKILQDVDELKQVFLDSETPSGILKIGTVETVSTLPTILSSYYKSYPNVDLSLQAGLTEELIREVLDHQLDGAFISGPIKHPLIEQYDVSTEKLMLVTQNKAFHIEEFTTTPLLVFNQGCGYRSKLERWLKDEGLLPKRIMEFNILETILNSVALGLGITLVPQSAVHHLSKAGKVHCHAIPEKYGSISTVFIRRKDSYMTNSMRSFLKTIEEHHHINML				NA	NA	NA	NA	NA
AK009_06708	102			hypothetical protein	ATGATGAACAATATGAAATCAAATAAATTTTTAAATACAATGGGCATGGTGCTATCCGCACTTGTCGATGCAAAAGCTGTTGCAACTACATTAAACAAATAA	MMNNMKSNKFLNTMGMVLSALVDAKAVATTLNK				NA	NA	NA	NA	NA
AK009_06709	921			hypothetical protein	ATGGATCATCATTCCTACACAACGGAAGAAGTAGCAAAGCGATTAAAGGTATCAAAATTAACTGTATACGACTTAATTAAAAAAGGAGAACTTCCTTCTTATAGAGTTGGTAGACAGATGCGCATTGATGCAGTGGATTTAGATCAATATATAAAACAAATGAAAACAGGAAAGGTACAAGTTACTCCTGTGAAAAACGATGGTAGTAGTATCTTGAACACGTGTATTATTAGTGGTCAAGAACTAACGTTAGATATGTTAGCTAAACGTATAGAAAATCGTTTGCCAAGTTCTAATGTTTTAAGAGCGTATCAAGGTAGCTTAACAAGTTTAGTGAAAATGTATCAAGGAGAAGGAAGTATCGTTAGTTTGCATTTGTTTGATGGTGAAACGGGTACATATAATGTTCCTTACGTAAAACGCATTTTAGTAGGTCAACCATGTATTATGATTAATTTATTGTCCAGAAATGTAGGGTTTTATGTCCAAAAAGGAAATCCGAAGAAAATAAAGACATGGGCTGACATATCCGGATCCACTATAAAGTTTGTAAATCGAGAAAAGGGTTCTGGTATTAGAGTGTTAGTGGATGAACAATTACGAATCCAAAAATTAAATAAAGCTGATATTAGTGGATATGAATGGGAAGAATCGAATCATCTGGGTGTTGCCACGCAAGTTGCAAATGGAAAAGCTGATGTAGGAGTAGGTTCAGAAAAGTTTTCGCAAATTGTAAATGTGGACTTTATTCCAATCATGAAAGAACAGTATGATTTAGTAATTTTGAAGAATAAAGAAAATGAAGAGCTGATTGAAGTCGTGAAAGACATTCTGCAATCGGAAGAATTTCATAATGAATTAAATGCAATTGGCGGATATGATACTAAGAAAACAGGTCAAATTATATATGAAACAAACTAA	MDHHSYTTEEVAKRLKVSKLTVYDLIKKGELPSYRVGRQMRIDAVDLDQYIKQMKTGKVQVTPVKNDGSSILNTCIISGQELTLDMLAKRIENRLPSSNVLRAYQGSLTSLVKMYQGEGSIVSLHLFDGETGTYNVPYVKRILVGQPCIMINLLSRNVGFYVQKGNPKKIKTWADISGSTIKFVNREKGSGIRVLVDEQLRIQKLNKADISGYEWEESNHLGVATQVANGKADVGVGSEKFSQIVNVDFIPIMKEQYDLVILKNKENEELIEVVKDILQSEEFHNELNAIGGYDTKKTGQIIYETN	PGPT0008430_240	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK009_06710	807	modA	COG0725	Molybdate-binding protein ModA	ATGAATAAATTTACATTACGTTCTATTGGGGCACTTATACTTTCTTTCCTTCTTATATTTAGTGCTGCTTGTACAAGTGGGGAAAAGAATACAAAGTCAGCTGCTAAAGAAGATAAAACAGTTGAACTGACTATCTCAGCTGCTGCAAGCTTACAAGATGCATTAAAAGAAATTGAAAAACAATATAAAGAAAAAGAGCCAAATATCAAACTTTCTTTTAACTTCGGTGCTTCTGGAGCACTTCAACAACAAATTGAACAAGGTGCACCTGCTGATTTATTCTTCTCTGCAGCAGAAGATAAATTCCAAACCCTTGTAAAGAAAGGATTCATTAATGAAAAAGAAGGGAAAAATCTTCTTGGAAATGAACTAGTTCTAGTCATCCCTAAAGATAGTTCTCTTACAAAATTTCAAGATTTAAAAGATGAGAAAATCAAAAAAATTGCACTTGGTACACCTGAATCTGTACCTGCTGGAAAATATGCAAAGGCTTCTCTAACACACGAAAACCTTTGGAATGATGTTCAAAATAAAGTCGTATTTACAAAAGATGTTCGCCAAGTGTTAACATATGTAGAAACAGGGAATATCGATGCTGGTATCGTATACAAAACAGATGCTCTCATTTCAGATAAAGTAAAGATTGGTGAAACAGCAGCAGCTACTTCTCATGAGCCAATCCACTATCCTTTAGGTGTTATAAAGGAATCTAAACATAAGAAAGAGGCGACTTCATTTTATGAGTATTTGCAGTCAAAAGATGCACAATCTATCTTTAAGAAATATGGATTTACAGTCCTGTCGTAA	MNKFTLRSIGALILSFLLIFSAACTSGEKNTKSAAKEDKTVELTISAAASLQDALKEIEKQYKEKEPNIKLSFNFGASGALQQQIEQGAPADLFFSAAEDKFQTLVKKGFINEKEGKNLLGNELVLVIPKDSSLTKFQDLKDEKIKKIALGTPESVPAGKYAKASLTHENLWNDVQNKVVFTKDVRQVLTYVETGNIDAGIVYKTDALISDKVKIGETAAATSHEPIHYPLGVIKESKHKKEATSFYEYLQSKDAQSIFKKYGFTVLS	PGPT0008435_1076	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
AK009_06711	675	modB	COG4149	Molybdenum transport system permease protein ModB	ATGAGCATTGATGCTATTATATCGCCTGTCTTTCTATCTTTAAGAGTAGCTGCGTGTGCCACTATTCTCGTTACAATTTTAGGGACGATTGTCGGGCGAGCACTAGCTCGCTCCTCATGGCGATATAAAGTACTATTAGAAACCATATTTTTATTACCAATGGTACTTCCACCAACTGTTATCGGCTTCTTTCTCATTATCATCTTTGGAAACAACAGCCCGATTGGAAGGTGGGTTGAATCATTATTTCAGCAGTCTATTATGTTCACATCTACCGCTGCGATCATCGCTTCTACAGTTGTTGCATTTCCGCTTATGTACCAATCAGCGAAAACGGGATTTTCTATCGCAAATGTACAAATTGAAGAAAGTGCTCGTGACCTTGGCGCAAGTGAATATCAAGTTTTTCTGCACGTTACACTTCCGCTCGCATTTCCTGCATTACTAAGCGGGATGATTTTGAGCTTTGTCCGCGCGCTCGGTGAGTTTGGTGCTACACTCATGTTTGCCGGGAACATTCCTGGTAAAACACAGACAATCCCAACTGCAATTTACATGGCCATTGACGCAAGTAATATGCAACTCGCCTGGACACTTGTGGTTATCACTATTAGTATGTCACTCCTATTTCTGCTATGTATTCAGCTTATTAACAAAAGAATTACTAACCTTTAA	MSIDAIISPVFLSLRVAACATILVTILGTIVGRALARSSWRYKVLLETIFLLPMVLPPTVIGFFLIIIFGNNSPIGRWVESLFQQSIMFTSTAAIIASTVVAFPLMYQSAKTGFSIANVQIEESARDLGASEYQVFLHVTLPLAFPALLSGMILSFVRALGEFGATLMFAGNIPGKTQTIPTAIYMAIDASNMQLAWTLVVITISMSLLFLLCIQLINKRITNL	PGPT0008440_2865	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
AK009_06712	852	glcU_2	COG4975	Glucose uptake protein GlcU	ATGGACATTTTATTAGCGCTTCTTCCTGCAATTGCATGGGGAAACATCTTATTAGTAAGCGTAAAAATGGGCGGTGGTGCATATAGCCAAACGGTAGGTATGACAATCGGTGCTCTATTCTTCGCAACAATTATGTATGTATTTACTCAACCAGCTTTAACAATGACAGTCTTAATTGTTGGTTTTATTTCAGGTTTATTCTGGGCTTTAGGACAAGTAAACCAATTAAAAACAGTTGAAAAACTAGGTGTTTCAACTACCGTAACAATTTCTACTGGTATGCAACTTGTTGCAACTTCTATCTTTGGGGTTATCGCTTTCCGTGAATGGACTACTACGACAACAATTGTTCTGGGAACGATTGCAATCCTATTAATCGTAGTTGGTGTTGTATTCACATCACTAGATGATAAAGAAAATGCTCAGCCACCAGGACAATTGAAAAAAGGACTTCTTACTTTAATTGTTTCTACTTTCGGCTATCTTGTATATGTAATTATTATTCGTTGGTATAATATCGATGGTTGGTCTGCTATTTTACCACAAGCAGTTGGTATGTTTGTTGGTGCGGTTGTACTGACGTCTAAACATAAACCATTTAACAAATATGCAATTCGTAATGCTTTATCCGGTTTACTATGGGGAACGGGAAACTTATTCTTACTTCTTTCATTACCACGTGTCGGAGTAGCAACAAGCTTCCCATTATCTCAAACTGGAATCGTTATCTCAACATTCGGTGCAATTGTCTTCTTAGGTGAAAAGAAAACAAAACGTCAATTGATCTTTATTGCACTAGGCAGTGTTTTAATTATCGGCGGTGCTGTATTACTTGGTATGACAAAAGCATAA	MDILLALLPAIAWGNILLVSVKMGGGAYSQTVGMTIGALFFATIMYVFTQPALTMTVLIVGFISGLFWALGQVNQLKTVEKLGVSTTVTISTGMQLVATSIFGVIAFREWTTTTTIVLGTIAILLIVVGVVFTSLDDKENAQPPGQLKKGLLTLIVSTFGYLVYVIIIRWYNIDGWSAILPQAVGMFVGAVVLTSKHKPFNKYAIRNALSGLLWGTGNLFLLLSLPRVGVATSFPLSQTGIVISTFGAIVFLGEKKTKRQLIFIALGSVLIIGGAVLLGMTKA				NA	NA	NA	NA	NA
AK009_06713	144			hypothetical protein	ATGGTAAAGGAAAGGGCTATTACTTATACTGGTTTCTACGTCATACTAATATTAGCTGTTATTAATCTCTTTATATGTGTAGCTGGTTTGCTAGAGTGGAAGAGCAATTATAAGGGGCAAGAACATACAAATAATTATATCTAG	MVKERAITYTGFYVILILAVINLFICVAGLLEWKSNYKGQEHTNNYI				NA	NA	NA	NA	NA
AK009_06714	804	proC_5		Pyrroline-5-carboxylate reductase	ATGCTAACTAAACATCGAATTTTATTTATTGGTGCCGGTCGTATGGCCGAAGCTATATTTTCCGGATTACTTAAAACAAGCAAAGAGTACATCGAAGAAATTATCGTCTCTAACCGAAGCAACGCAGAAAAACTAAAACAGTTACAACATCGATATAATGTGTCTACTGCAACAGATTGGAAGCAGCATGTTACATCTGTCGATACGGTTGTTTTAGCAATGCCACCTTCTGCTCATGAAGAGTTATTAGCTGAGCTATCTCCGTTAATATCAAATCAACTTGTCGTAACAGTAGCAGCTGGCATTGGACCATCTTATTTAGAAGCTAGACTCCCAAAAGGCACGCCTGTTGCTTGGATTATGCCTAATACAGCTGCTGAAATTGGAAATTCTATCTCCTTATATACAATGGGACAATCAATAAAAGAGATGCATCAAGAAACCCTGCAACTGCTTTTAAGAGGTATTGGTACTTCGCAACTTTGTACTGAGGAAGAAGTTCATCAGCTTACTGCAGTTACTGGAAGTGCACCAGCCTTCCTTTATTACTTTGCTGAAAGCTTAATTGAAGCAACAAAAAGTTATGGAGTCGATGAAGAAACCGCAAAACATCTTGTCATTCAAATGATTTCTGGCTCTGCTTCTATGCTCGAACAAACGCAAGATCCAGCTAACCTCCGCGAACAAGTAACAACGCCAGGTGGTTCCACAGCTGAGGGTCTCAAAACTTTATATGAATATAATTTTTCAGAGGCAATTCAAAAAGCAGTAGAAGCAACAAACAAAAAAGCTAGGGGGAAATAA	MLTKHRILFIGAGRMAEAIFSGLLKTSKEYIEEIIVSNRSNAEKLKQLQHRYNVSTATDWKQHVTSVDTVVLAMPPSAHEELLAELSPLISNQLVVTVAAGIGPSYLEARLPKGTPVAWIMPNTAAEIGNSISLYTMGQSIKEMHQETLQLLLRGIGTSQLCTEEEVHQLTAVTGSAPAFLYYFAESLIEATKSYGVDEETAKHLVIQMISGSASMLEQTQDPANLREQVTTPGGSTAEGLKTLYEYNFSEAIQKAVEATNKKARGK	PGPT0014225_4627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK009_06715	834	yvgN	COG0656	Glyoxal reductase	ATGACTTTAACAAGTTTAAAGGACTATACAACATTACATAACGGTGTAAAAATGCCTTGGTTTGGTTTAGGTGTTTTTAAAGTAGAAGATGGTTCAGAAGTAATTGATTCTGTAAAAGCAGCAATTAAAAATGGCTACCGCAGCATCGATACTGCAGCAATCTATCAAAATGAAGAAGGCGTTGGACAAGCGATTCGTGAATCCGGTGTTTCACGTGAAGAATTATTTATTACCTCAAAAGTATGGAATAGCGATCAAGGATATGAAACAACACTTCAAGCATTTGAAACTACATTAGAGAAATTAGGTCTAGAATATTTAGATTTATATTTAGTACATTGGCCTGTAAAAGGGAAATATACCGAATCATGGAAAGCATTAGAAAAGCTTTATAAAGATGGCCGTGTTCGCGCTATCGGTGTGAGTAATTTCCACATTCACCACTTACAAGACTTATTTGAAATTGCTGAAATTAAGCCAATGGTCAACCAAGTGGAATACCACCCACGTTTAGCACAAGAAGAGTTACACGCTTTCTGTAAAGAACATAATATCCAGCTTGAAGCTTGGTCACCATTAATGCAAGGACAACTACTAGATAATCCAACGTTACAAGAAATTGCGACAAAATATAATAAATCAACTGCGCAAATTATTTTACGCTGGGATTTACAAAACGAAGTTGTAACAATCCCTAAATCAATTAAAGAACATCGCATTATTGAAAATGCAAACATCTTCGACTTTGAATTAAGTGCTGATGATATGAAAGCAATTCAAGCTTTAAATGAAGATCGTCGCGTTGGTCCAGATCCAGATAACTTTAACTTCTAA	MTLTSLKDYTTLHNGVKMPWFGLGVFKVEDGSEVIDSVKAAIKNGYRSIDTAAIYQNEEGVGQAIRESGVSREELFITSKVWNSDQGYETTLQAFETTLEKLGLEYLDLYLVHWPVKGKYTESWKALEKLYKDGRVRAIGVSNFHIHHLQDLFEIAEIKPMVNQVEYHPRLAQEELHAFCKEHNIQLEAWSPLMQGQLLDNPTLQEIATKYNKSTAQIILRWDLQNEVVTIPKSIKEHRIIENANIFDFELSADDMKAIQALNEDRRVGPDPDNFNF	PGPT0014985_334	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
AK009_06717	1641	dppE_9	COG4166	Dipeptide-binding protein DppE	ATGAAAAAGAAGTTTGTACCCGGTATTGCATCAGTTGTAGGAGTAAGTATTTTATTAACTGGTTGCGGTAGTTATAAAAACGAAGCAAGCGGAGCAAATGCAAAAGACGAGGCACCTAGCAAACAGGTTTTAAATTTATCTTCACCTACTGAAATACGAACAATGGATACGGCCCGTGCTACAGATACTGATTCTGGTCAAGTAATGAGAAACGTATTTGAAGGTTTGTATAATCTTGGTGAAGGTAACAAACCTTTCCCTGGCGTTGCAAAATCTCATGAAGTAAGTGGCGATAAAACAAAATACACATTCCACCTGCGAGATTCAAAATGGTCAAACGGCACTCCTGTTACAGCGAAAGATTTTGTGTTCGCTTGGCAGAGAGCCGTAGATCCAGCAACAGCCTCTGAATATGCATTTCTATTCTTTGATATTAAAAATGCAACAAAAATTAACAACAAAGAACTTCCAGCCGACCAACTTGGTGTAAAAGCAGTTGATGACCATACGTTTGAGGTAGAATTGGAGCGTCCTGTTCCGTATTTTATTAGCTTAACAGCGTTCCCAACATTTCTACCAATTAACGAGGAATTCTTTAGAGCACAAGGTGATAAGTACGCTTTAGAAGATCATACAATCTTGTACAATGGAGCTTTTACACTAAGCGATTGGAAGCACGAACAAAGCTTTAAATTCAAGAAAAACCCTACCTATTGGGATAAAGATACTGTCAAACTAGAAGAAATCAATTTTAACGTCGTAAAAGAAAAATCAACAGAAGTAAATTTATTCGAGTCAAAACAATTAGATCGTATAAAACTAACATCTGACTTTGTCGATAAATATAAAAAGGATGCTAACTTTAAAGAACGTCCAAACGTAGGCGTACAATTTTTACGTATGAATCAACAAAACAAAGTACTTCAAAATGTTTCTGCACGCCAAGCAATTAATCAAACAATTGATAGAAAATCCTTTGTAAATACGTTATTAAATGATGGCTCTACATCAACACTTGGTCTCGTTCCAAAAAACTTTGCAAAAGGACCTGAAGGAAAAGACTTCCGTACTGCAAACGGCGATTTAACAAAAGTTGATACAAAATCTGCACAAGAGTTATGGAAAAAAGCTAAACAAGAGCTTGGTTCTGAAAAGATAACATTAGAATTATTAACGAGTGATGCTGACCTTGATAAGAAAACTGGTGAATTCTTAAAAGGGCAACTAGAAAAGAATTTAGATGGATTAACAGTAAATATAAAACCGCAACCGCGTAAGCAACAAGTTTCGCTTTTATTAAAAGGTGACTACGAAATCGGAATTGACGGCTGGAGCCCTGACTTTGCGGATCCAATTACATTCCTTGAGCTATTTACAACGAATAACCCTTATAACTTAGATCATTACTCTAATAAGGAATTCGATGAAACAATAGCAAAAGTGAAAACAACTTTAGCTGGTGATGAAAAAGCTCGCTGGGAAGCATTACTAGCATCCGAGAAAATATTATTTAAAGACTCTGTTATCGCTCCTCTTTACCAAAAAGGCGAATCTTATTTAGAACGTTCTTATGTGAAAGGAATTGTGCAAGTAGACTTTGCGGGTCAATTAAATTTCAAGTGGGCAAAAATTGAAAAATAA	MKKKFVPGIASVVGVSILLTGCGSYKNEASGANAKDEAPSKQVLNLSSPTEIRTMDTARATDTDSGQVMRNVFEGLYNLGEGNKPFPGVAKSHEVSGDKTKYTFHLRDSKWSNGTPVTAKDFVFAWQRAVDPATASEYAFLFFDIKNATKINNKELPADQLGVKAVDDHTFEVELERPVPYFISLTAFPTFLPINEEFFRAQGDKYALEDHTILYNGAFTLSDWKHEQSFKFKKNPTYWDKDTVKLEEINFNVVKEKSTEVNLFESKQLDRIKLTSDFVDKYKKDANFKERPNVGVQFLRMNQQNKVLQNVSARQAINQTIDRKSFVNTLLNDGSTSTLGLVPKNFAKGPEGKDFRTANGDLTKVDTKSAQELWKKAKQELGSEKITLELLTSDADLDKKTGEFLKGQLEKNLDGLTVNIKPQPRKQQVSLLLKGDYEIGIDGWSPDFADPITFLELFTTNNPYNLDHYSNKEFDETIAKVKTTLAGDEKARWEALLASEKILFKDSVIAPLYQKGESYLERSYVKGIVQVDFAGQLNFKWAKIEK	PGPT0004430_6741	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
AK009_06718	1641	dppE_10	COG4166	Dipeptide-binding protein DppE	ATGAAGAAAAAAGTTGTACCTGTTGTTGCATCTGTTTTAGGGGCAAGTCTATTACTAACTGCTTGCGGGGGAAATAAAGATAATGCAGGCGGAGCGAAAGCAAACGATAAAGTACCTGATAAACAAGCAATTAACTTATCATTCGCTTCAGAAATTCCAACAATGGATGTTGCAAAAGCAACGGATGGGGAATCCATGAATGTAATGCGCAATGTTTTTGAAGGTTTATATGCAATGGGAGAAGATAATAAACCGATTCCTGGTGTTGCTGAGTCGGTTGACACTAGTCCCGATAAAACAAAATATACATTCCATCTGCGTGATTCAAAATGGTCAAACGGTACTCCTGTTACAGCAAAGGACTTCGTCTTTGCTTGGCAACGTGCCGTAAATCCTGATACAGCAGCTGAATACGCATTCTTATTCTTCGATGTACAGAATGCGAAACAAATAAACCAAAAACAATTACCAATTGATCAACTAGGGGTCAAAGCTGTTGATGACAAAACGTTAGAAGTACAACTAGACCGTCCTGTTCCTTACTTCTTAAGCTTAACGACATTCTCAACATTCTTGCCAATTAATGAAGAGTACTTAAAGTCTCAGGGCGATAAATACGGTTTAGAAACAAATCATTTAATTTACAACGGTGCTTTCACATTAGATAACTGGAAACACGAACAAAGTTTCCAATTGAAGAAAAACCCTAACTATTGGGATGCTAAAACGGTAAAATTAGAAGAAATCAACTTCAATGTCGTTAAAGATAAGTCTACAGAAGTGAATTTATATGATTCAGGACAAATTGATCGCGTTGCTTTAACTGCAGAGTTTGTTGATAAATATAAGAGCGATCCAAACTTCAAGGAACGCGCTGAAGTCGGCATTCAATTCTTACGACTAAATCAGAAAAATGAAACATTAAAAAATCAACATGCACGCCTTGCTATTAACGGCGCAATGAATAAAAAAGCATACGTAGAAACAATTTTAAATAACGGTGCTGTTCCAGCTGAAGGAATGGTTCCTGCGAAATTTGCAAAAAGTCCAGAAGGCAATGACTTCCGTAAAGAAAATGGAAATCTAGTCAAGGATGATGTGAAAACAGCGAAAGAAAACTGGAAAAAAGCAAAACAAGAACTTGGTACTGACAAAGTAACAATCGAACTATTAACAAGTGACAATGCTTTAGCTAAAAAGACTGGCGAATATTTAAAAGGTGAGTTAGAAAAGAACTTAGATGGATTAACAGTGAATTTAAAACCGCAACCACGTAAACAACAGTTGAAACTACTATTAAGTGGTGACTATGAAATTGGTATTGACGGCTGGGGCCCTGACTTCGCTGATCCAATTACATTCTTAGATTTATTTACAACAGATAGTGCTTATAACTTCGATAAGTACTCTAACAAAGAGTACGATGAGCTCATTCATAAAGTGAAAACAGATTTAGCTGGCGATGAAAAAGCACGCTTTGAAGCAATGAAGCAAGCTGAAAAAATTCTATTACAAGACGGCGCTGTCGCTCCTTTATACCAACAAGGTCGTTCTTACTTACAACGCTCTTTCATTAAAGGACTTGTAACGACTGACTTCGGCGGTGAATTTAACTATAAGTGGACAGAAGTTGCAAAATAA	MKKKVVPVVASVLGASLLLTACGGNKDNAGGAKANDKVPDKQAINLSFASEIPTMDVAKATDGESMNVMRNVFEGLYAMGEDNKPIPGVAESVDTSPDKTKYTFHLRDSKWSNGTPVTAKDFVFAWQRAVNPDTAAEYAFLFFDVQNAKQINQKQLPIDQLGVKAVDDKTLEVQLDRPVPYFLSLTTFSTFLPINEEYLKSQGDKYGLETNHLIYNGAFTLDNWKHEQSFQLKKNPNYWDAKTVKLEEINFNVVKDKSTEVNLYDSGQIDRVALTAEFVDKYKSDPNFKERAEVGIQFLRLNQKNETLKNQHARLAINGAMNKKAYVETILNNGAVPAEGMVPAKFAKSPEGNDFRKENGNLVKDDVKTAKENWKKAKQELGTDKVTIELLTSDNALAKKTGEYLKGELEKNLDGLTVNLKPQPRKQQLKLLLSGDYEIGIDGWGPDFADPITFLDLFTTDSAYNFDKYSNKEYDELIHKVKTDLAGDEKARFEAMKQAEKILLQDGAVAPLYQQGRSYLQRSFIKGLVTTDFGGEFNYKWTEVAK	PGPT0021015_2057	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_06719	216			hypothetical protein	ATGCTTTCTAAAACGTATCAAACGATCGGTGAATTATTTCAAGCAACATATGCAGCAAATGGCTATTATACAATAATATTCGGAGGAGTTAGTTTAGAGAGAAATATTATTTCATTATTAGTTATTGTATTGGTTACACAATTAGTAGCAGTGACGACTTTAGCTATAAAAGGAATGGTAAAGGGAAGAGGAAGCTCTGTAGTTAAAGTTGTATAA	MLSKTYQTIGELFQATYAANGYYTIIFGGVSLERNIISLLVIVLVTQLVAVTTLAIKGMVKGRGSSVVKVV				NA	NA	NA	NA	NA
AK009_06720	468			hypothetical protein	ATGAGAATTCTACTATCAGTTTTATTAGCTCTTATGCTAGTACCTGCATTAACAGGATGTAAAGCCCCTGCAAAAGAAGACACAACTTCTAATAAAAAGACGACTGAAGAAGCAAAAAATGAGGCTCCTGCAGATTTAAAACTAAACTTTAATGAATTTAGTTTAGATGCAGACTATCAAGATACGAAGAAAGACTACGAAGCTGATTATAAGAATGTAGCCGCTGATAAGAAAATGGAAGCAAAGCTTGAAGACCATAAAACAAATGCAAAGTTTACAGGTGACGAGGCTATTACAAAATTAAGCCCACTTCTACAAGAATTAAAATTTGATAAAGATACTCCTGACCAAGAAGTAATCGATCAAGTAGTGAACGTGTTCAAACTTGATAAAGACTACCAAAAATTCGATTTAGAAGTTGTCTTCTCTGATGGAACGAAAAAAGAATATAAAAGAGAAATAAAATAA	MRILLSVLLALMLVPALTGCKAPAKEDTTSNKKTTEEAKNEAPADLKLNFNEFSLDADYQDTKKDYEADYKNVAADKKMEAKLEDHKTNAKFTGDEAITKLSPLLQELKFDKDTPDQEVIDQVVNVFKLDKDYQKFDLEVVFSDGTKKEYKREIK				NA	NA	NA	NA	NA
AK009_06721	1611	dppE_11	COG4166	Dipeptide-binding protein DppE	ATGAAGAAGTTTTTACTGTTTGTCATTATGACTGTTTTAGCAATTACTTCTGTCGCTTGCGGTAAGAAAGAGACGCAAAAGGCGAGTGCTGGTAAGGGAGAAGGAGATCGATTAGTAACGAATATTGGTAGCGATCCATATACACTTGATTCCGCTATTGCGACAGATAGCACGTCAGGTTATGTAATTGGACATTTATTCTCAAGCTTATATACGCAAGATAGTGATGGGAAATATCAAAATGAATTAGCAGAGAAAGAAGAAGTAAATGCTGATGGAACTGAGTATACAATTCATTTAAAGAAAGATATTAAATGGTCAGATGGTTCTGCTATTACAGCAAATGATTTTGAATTTGCATGGAAGCGATTATTGAATCCGAAAACGGGTTCTATGAATGCAACAGAAATGTATTTTATTAAAGGGGCAGAGGCATACAATACTGGAAAAGGTGAAGAAGGACAAGTTGGTATTCAAGTCGTTGATCCTCAAACATTAAAGGTAACTCTTGAACATCCAGTTGCTTCTATTAAACAGAAATTAGCAAGCTCATTATTTATTCCATTAGCTAAAAAGTCGATTGATGATAATAATAAATTAAAAACAGATCCAAAAGAGTTAATTACGAACGGGCCATTCACATTAAAAGAATGGAAGCATAATCAGGCTATTACAGTACAAAAAAATAAAGAATACTATGATAAAAAGGTAACATTAAAAGAAATTGAGTTTCGTATTATTCCAGATTCTAAAACAGCGTACCAATTATATAAATCAAAAGAATTAGATTTACTAAGCGGTTTACCGCAAGAAATGATTGAAAAAGAAAAAGGAAATAAAGAATATAAACGTGTTGCAGGATTTTCATCTTATATTTATTCGTTTAACGTAGAAAAAGAGCCATTCACAAATGCGAAAGTACGTAAAGCATTCTCATTAGCAGTTGATCGTAAGTTTATTGTTGAAAAACTGTATAAAAACAATGCACAAGAAGCAAATGCATTCGTTCCAGAAGGAGCAAAAACACAAAGTGGGCGTGATTTCCGTAAAGAAAAAGGTGGTTACGTTAAATTTGATCCAGCAGAAGCGAAAAAATTATTAGAAGAAGGCATGAAAGAACAAGGCTGGTCTACATTACCTGAAGTAACATTAAAATTCACTACAGATACACAACATAAAAAAGTAGCAGAAGCAATGCAAGAAATGTTTAAGAAAAATCTTGGCGTAGATATTAAATTAGAAAATAAAGAGTGGAAGAGTTACATCGACACATATAAGCAAAGTGATTTCCAATTGGCTTATATGGGATGGGGCGGTTCTTTATTAGATCCAATTACTAAATTAGATTTATATGCAGGTGATGGTCCAAACAATTATGCAAAATGGCATAATAAAGAATTTGATGCTTTAGTGAAGGAAGCAGAAGTTGAACAAAATGAAGATAAGCGTTTTGACTTATTGCATAAAGCGGAAGATATTATGTTTACAGATTCACCATTAATTCCAATTATATTCCCGTCGGATTCCTATTTACAAAAACAAACGGTATCTGGACTTCAATATTATGTTGGATCTAAACCAGATTTAAGATATGCAAAAATAAAGAAGTAG	MKKFLLFVIMTVLAITSVACGKKETQKASAGKGEGDRLVTNIGSDPYTLDSAIATDSTSGYVIGHLFSSLYTQDSDGKYQNELAEKEEVNADGTEYTIHLKKDIKWSDGSAITANDFEFAWKRLLNPKTGSMNATEMYFIKGAEAYNTGKGEEGQVGIQVVDPQTLKVTLEHPVASIKQKLASSLFIPLAKKSIDDNNKLKTDPKELITNGPFTLKEWKHNQAITVQKNKEYYDKKVTLKEIEFRIIPDSKTAYQLYKSKELDLLSGLPQEMIEKEKGNKEYKRVAGFSSYIYSFNVEKEPFTNAKVRKAFSLAVDRKFIVEKLYKNNAQEANAFVPEGAKTQSGRDFRKEKGGYVKFDPAEAKKLLEEGMKEQGWSTLPEVTLKFTTDTQHKKVAEAMQEMFKKNLGVDIKLENKEWKSYIDTYKQSDFQLAYMGWGGSLLDPITKLDLYAGDGPNNYAKWHNKEFDALVKEAEVEQNEDKRFDLLHKAEDIMFTDSPLIPIIFPSDSYLQKQTVSGLQYYVGSKPDLRYAKIKK	PGPT0021015_4345	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK009_06722	774	oppF_4	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACGACAGATTTAATTACTATAAAGCAAGTAACGAAAACGTATGGAAGTAAAAGTAAAGAAATCACAGCGTTAAAAGACATATCACTTTCTATTCCGAAAGGAACAACACTTGGCATTATTGGTGAAAGTGGTTCAGGAAAAACAACACTTGGAAAGCTCATAGCAGGGATTGAGAGTCCAACGTCTGGTGAAATTGATTATAACGGTCAAGTCGTTCACAAGCTGAAATCAGCTCATAGGCGAGATTTTTTACAGAAAGTACAGTTCATTTTTCAAGATTCCACAGCAGCATTAAATCCGCGCTGGAAAGTACGCGATAGCGTAACGGAGGGTTATATTTCATTCGGTTTAGGTGATAAAGGATTAAAGGATAAAGTAGCAGGTGATGCGCTAGAACGTGTGGGATTAGATAGACGATATATCGATCGCTATCCGCACGAATTTAGCGGAGGACAACGTCAACGAATTGCTATTGCAAGAGCGTTATTGTGTGAGCCAGAAGTATTGATTCTTGATGAACCAATTTCAGCATTAGATGTTTCATTGCAAATTCAAATTGTACATCTGCTGCAAAAGATTCAAAAGGAACAAGGCTATACATATTTATTTATCGCACATGATTTGCCGATGGTTCACTATTTATGTGAAAAAGTGGCTGTCTTATATAAAGGAGAACTTGTTGAATTTGGAAATACGGACGAAGTGTTCTGTAATCCACAACATTCTTATACAAAAACACTATTGGCATCAACACCAAAAATTTCAGGTTAA	MTTDLITIKQVTKTYGSKSKEITALKDISLSIPKGTTLGIIGESGSGKTTLGKLIAGIESPTSGEIDYNGQVVHKLKSAHRRDFLQKVQFIFQDSTAALNPRWKVRDSVTEGYISFGLGDKGLKDKVAGDALERVGLDRRYIDRYPHEFSGGQRQRIAIARALLCEPEVLILDEPISALDVSLQIQIVHLLQKIQKEQGYTYLFIAHDLPMVHYLCEKVAVLYKGELVEFGNTDEVFCNPQHSYTKTLLASTPKISG	PGPT0004440_9303	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
AK009_06723	1011	oppD_4	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGCACAGCTCTTATCTTTAGAAAACGTAACATTGACCGTTGAAAAAGAGAATAGTAAGCAAGCAATTGTGAAGCATGTTTCCTTTTCTATTAATGAAGGTGAAATCGTTGCACTTGTAGGAGAAAGTGGTTCAGGAAAAAGTGTTACAGCACAATCTATTGTCGGATTAAATCAAGAATCTATTCATATCGATGATGGGAATATAGCTTTCCAAGCAAATGAATTAACGAATTTACAAGAGTCAGAATGGAATCAAATTCGCGGAAAAGATATTTCCTTTATATTTCAAGATCCGCTTTCATCTTTAAACCCAACGATGAAGGTAGGCAAACAAATTACAGAAGTAGTTTTGCAACATGGGAAAAAATCGAAAAGAGAAGCAAAGGAAATTGCGATTAACTTGTTAATGGGTTTAGGGATACATGAAGCAGAGAAACGCTTTGAACAGTACCCACATCAATTAAGCGGAGGTATGAGGCAGCGTATTTGTTTAGCAATTGCGTTTGCTTGTCACCCAAAGCTTGTAATTGCAGACGAGCCGACAACAGCGTTAGATGTAACGATTCAGAAACAAATTATGGGGCTATTAAAAGAAAGAAAAGAAAAACAAAATACGAGTATTTTATTAATTACACATGATTTGGCACTTGTACGTGAAGTAGCTGATCGAGTAGTTGTTATGTACGGGGGACGTGTTGTTGAAAAAGGAACGATACAGGAGGTAATAGGTTCTCCTAAACATCCATATACGAAAAGTTTATTACAAGCAATTCCGAATATGGATGATTCCGAAAAGGTATTACGTGCTATAGAAGGAACGACACCTTCCATTGAAACATTAAATAGCTTTGGTTGTCCTTTTGTAAATCGTTGTCCAGTAGCGATAAAAGAATGTATTCATCGTTTTCCAGAGAGAACCACATATTCTAAGGAGCATAGTTCACATTGTTGGCAACATGTTCTAGAGCATAATAAAGCGAAATCAAAAGAGAAGGTGAATGCCTCATGA	MAQLLSLENVTLTVEKENSKQAIVKHVSFSINEGEIVALVGESGSGKSVTAQSIVGLNQESIHIDDGNIAFQANELTNLQESEWNQIRGKDISFIFQDPLSSLNPTMKVGKQITEVVLQHGKKSKREAKEIAINLLMGLGIHEAEKRFEQYPHQLSGGMRQRICLAIAFACHPKLVIADEPTTALDVTIQKQIMGLLKERKEKQNTSILLITHDLALVREVADRVVVMYGGRVVEKGTIQEVIGSPKHPYTKSLLQAIPNMDDSEKVLRAIEGTTPSIETLNSFGCPFVNRCPVAIKECIHRFPERTTYSKEHSSHCWQHVLEHNKAKSKEKVNAS	PGPT0021030_1652	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
AK009_06724	1005	dppC_2	COG1173	Dipeptide transport system permease protein DppC	ATGGGAGCTTATGAGATTAATGAACAGTTATTAACGAAAGAAGAGAAAAAAGAATTAACGATAAATAAAAATCAGCAAACAATTAGCAGAAAGAAAGAAGTGTTTCGTAAGTTTATATCGAATCCAATCGCAGTTTTAGGAACAGTGACGTTATTGCTAATTATTGTTTTCTCGCTTATTGGCGAAAGTTTAACTTCATTTACTGCGAGTGAACAAGTAAAAGAGGCAACAAATTTACCGCCGAGTAGTGAACATTGGTTTGGAACAGATGATCTAGGGAGAGATATTTGGGCACGTACTTGGGCTGGTGGGAAGATTTCACTAACAGTTGGATTAGTAGCAGCTGCCCTCGATATAGGGTTTGGTGTACTGATTGGTGGATTTAGTGGATATGTGAGAGGGCGTAATCGTCTTGGAACGTTAATAGATGAATGGATTATACGAGGGATTGAAGTGTTATATGGTATCCCATATTTATTAATTGTTATTTTACTATTGATCGTGATGAAACCAGGACTTTTTACAATTATAATCGCTCTTGCGTTAACAGGATGGATTGGCATGGCACGTCTCGTTAGAGCGCAGGTCTTGTCTTTAAAACAAAGAGAATTTGTTATTGCAGCAGAGCGATTAGGTACATCGCATATGAAGATTATATACGGACATATCATTCCGAATTTAACAGGCATTATTATCGTAAATTTATCATTTACAATTCCAGCAGCTATTTTTTCAGAATCATTTTTAAGCTTTATAGGACTTGGAGTACAATCACCAGCGGCAAGTTGGGGGACGATGACGAATGATGCACTCGGGACATTATTGAGCGGAGAATGGTGGCAGCTATTTTTCCCGGCAATCATGATTGCACTCATTATGTTCGCATTTAATGCAATTGGTGATGGTTTGCAAGATGCGATTGATCCAAAAATCGTCAAACGGAATCGAAAGGAGAAAAAACATGGCACAGCTCTTATCTTTAGAAAACGTAACATTGACCGTTGA	MGAYEINEQLLTKEEKKELTINKNQQTISRKKEVFRKFISNPIAVLGTVTLLLIIVFSLIGESLTSFTASEQVKEATNLPPSSEHWFGTDDLGRDIWARTWAGGKISLTVGLVAAALDIGFGVLIGGFSGYVRGRNRLGTLIDEWIIRGIEVLYGIPYLLIVILLLIVMKPGLFTIIIALALTGWIGMARLVRAQVLSLKQREFVIAAERLGTSHMKIIYGHIIPNLTGIIIVNLSFTIPAAIFSESFLSFIGLGVQSPAASWGTMTNDALGTLLSGEWWQLFFPAIMIALIMFAFNAIGDGLQDAIDPKIVKRNRKEKKHGTALIFRKRNIDR	PGPT0004450_3106	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
AK009_06725	918	dppB_2	COG0601	Dipeptide transport system permease protein DppB	GTGTATGTAATTAAAAAATTATCGGTTATGGTGTTCACACTATGGGTTATTACGACAGTGACATTTCTAATTATGCATATTATTCCGGGAGATCCATTTTCATCAGATGCAAAAATCTTTCCTGAAGAAGTGATCCAAAACATGAGAGCGAAGTATCACCTTGATGAACCGTTATGGAATCAATATGTTGCTTATTTAGACGGTGTAGTTCATTTTGATTTTGGTGAATCGGTTCAATCAACCGGGCAAGGTGTATCAGAAATTATAACAACTGGCTTTGGTCCATCAGCAATTATTGGTCTACAAGCACTTGTTATTTCATTGTTAGTAGGAATTGCGGCAGGGACATTTGCTGCTCTATATCATGGGAGAGTAATTGACTATAGTGTGAGTTTGCTCGCAATTTTAGGTATTTCTATTCCAAGTTTTATTTTAGCACCACTATTTATACAAGTATTCGCTATCCAATTTGAGTTTTTACCAGTAGCCTCTTGGGGAACATTCGAACATACGGTATTGCCATCCTTTGCATTAGCGTTAGGGCCAATCGCAGTTATTACAAGGTTTGTTCGTTCTAATATGATCGAAGTACTGCAGAGTGATTATATTAAGCTAGCAAGAGCAAAAGGTATACCAATTAAGAAGATTATTATAAGACACGCTCTTCGAAATGCGATTGTTCCAGTACTTACATTTGTTGGACCGTTAATGGCTGGACTTTTAACAGGGACTTTCGTTATTGAAAAAATATTTTCCATTCCTGGTCTAGGAAAATATTTTGTAGATAGTATTTTTAACCGGGATTATCCGGTCATTATGGGAACAACGATTTTCTATAGTGCATTATTAATTTCTTGTATTTTCATTACAGATATTATTCATCGCATTGTTGATCCGCGTATTCGTTCTATTACATAA	MYVIKKLSVMVFTLWVITTVTFLIMHIIPGDPFSSDAKIFPEEVIQNMRAKYHLDEPLWNQYVAYLDGVVHFDFGESVQSTGQGVSEIITTGFGPSAIIGLQALVISLLVGIAAGTFAALYHGRVIDYSVSLLAILGISIPSFILAPLFIQVFAIQFEFLPVASWGTFEHTVLPSFALALGPIAVITRFVRSNMIEVLQSDYIKLARAKGIPIKKIIIRHALRNAIVPVLTFVGPLMAGLLTGTFVIEKIFSIPGLGKYFVDSIFNRDYPVIMGTTIFYSALLISCIFITDIIHRIVDPRIRSIT	PGPT0004445_14392	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
AK009_06727	216			hypothetical protein	ATGGACCCCTTACTTCTTGCTACTATAGGATTACCCTTAACAATCGTTATACTTGTCATCATCGGCTCCTATAAACTCTTTATTAAAAAGAAACGTATTACTTCTTTTTATACTCCTTTCGATAATATTACCGGGCAAACTATTTCCGAATTTCACGAAGAACAGAAAATATTAGTATCTGAGGATGAAGACAGAGATGGCAAGAAGAAAAAATAA	MDPLLLATIGLPLTIVILVIIGSYKLFIKKKRITSFYTPFDNITGQTISEFHEEQKILVSEDEDRDGKKKK				NA	NA	NA	NA	NA
AK009_06728	504			hypothetical protein	ATGAAGAAGGTTTTGGGTATTGCTGTAATGGGAAGTATGATCCTTCTAGCAGGATGTAATGGAAATAAAGATACGAAAGAACCGAAAGAAAAGGTAGAGCAATCTACTGAACAAACAGAAGAGATGAAAGAATACCTTGCAGTACATGAAAAATACGATATAAAAATGAATAAAGAAATTAATAAAGCACTGCATTTATTTGAAGTGGCAAAAGAAAAGGGCGGTAAGGAAATAACGAATGCAACATATAAAGAAGACGTGCAAAAGGTAACAACGAGCATGTTAGAAGATATTGATCATATACGTAAAGAAATTCGTGTTCCGAAGTCGAAAGAGCAAGAACATGAGGTATATGTTGGTTTCTTGAATGAATCAGAACAAGCGATGAAAAAATTACAGAAGTTAGCTAAAGAAGAAGATTCATCGTTGATTCGTGATATAGAAATTAACTTTGCAACAGCATCGACATACTATAAACGTTTTCAAGCAGAAACGAAAAAATAA	MKKVLGIAVMGSMILLAGCNGNKDTKEPKEKVEQSTEQTEEMKEYLAVHEKYDIKMNKEINKALHLFEVAKEKGGKEITNATYKEDVQKVTTSMLEDIDHIRKEIRVPKSKEQEHEVYVGFLNESEQAMKKLQKLAKEEDSSLIRDIEINFATASTYYKRFQAETKK				NA	NA	NA	NA	NA
AK009_06729	447			hypothetical protein	ATGTACAACACAATGCCTTTTATGGGAGAAGATATTCGTGTCCTTATTCGCGAAAAATCACTTCATATCGAAAATACAGAGAGCCTTCGCCGCGTATTAAAGAAGAAGCATGCTCCATTTAAGTTAGCTCAATATTTAAAACAACAACATACAAATCAATTTCATACCGTGCTAAATATATCGGATAAATCATTAACAATCGAAATCATCGGTCATGTCTACATTGGAAACTTTGCAGATACCTTAAAGGAAATCCCACGTATACCGAAGATTGCTCCTATTATCGTTAAAAAAGCGTATAAAATTACTGACCATACCGATATTATCGACTGTGGGGAAAAAGAAGTCGATAGTAATCGCTGGGTGTGGGATAAACTTGCTGTTTTATATGATACGATCATGAATAATATGTATGAGGTATTTCAAAGAAATGAAAAAAAGAACTGA	MYNTMPFMGEDIRVLIREKSLHIENTESLRRVLKKKHAPFKLAQYLKQQHTNQFHTVLNISDKSLTIEIIGHVYIGNFADTLKEIPRIPKIAPIIVKKAYKITDHTDIIDCGEKEVDSNRWVWDKLAVLYDTIMNNMYEVFQRNEKKN				NA	NA	NA	NA	NA
AK009_06730	1251	bcr		Bicyclomycin resistance protein	GTGAATGAAGTTAATCACGAAATATATAAACCTGTAAAGGCAAACAGGTTATGGATGATTCTTGTATTAGGAACACTTACGGCGATTGGGCCATTATCTATTGATATGTATTTGCCTTCATTACCGAAGTTAACGGATGACTTGCAAACAGGTGCATCCCTAGCGCAGCTTACATTAACAGCTTGTCTGCTTGGGCTGTCAGTAGGACAATTATTTGTTGGCTCAATTAGTGATATTTACGGAAGACGCAAACCACTTATTATTGCTCTTATTATTTATGTTGCTTCTTCTTTACTTTGTGCTGTTGCGCCATCTATTTGGACATTAGTGTTATTGCGCTTCCTACAAGGAGCTTCAGGATCAGCCGGGATTGTTATATCACGTGCGATGGTACGTGATATGTACTCAGGTTCTGAAATGACGAAGTTTTTCTCACTGCTTATGTTAGTAAACGGAGCAGCACCTATTTTGGCACCGATTATTGGGGGGCAATTATTACAGTTTACAACGTGGCGCGGTGTTTTCATCGTTCTTGGAGCAATTAGCGTATTCATGTTAATCTCAGCTACTTTTGTATTGCGTGAAACATTACCTCCTGAAGAAAGAGAAACGGGTGGTTTGTCAGGGACTTTGGCGACGTACGGAAAATTGTTAAAGGACCGTCTGTTTATGGGATATGCATTGTCACAAGGATTAGTAACAGCGGCAATGTTTGCATACATTTCGGGCTCACCATTTGTGTTGCAGAACATATACGGAGCATCACCACAGCAATTTAGTTTATTCTTTGCGATTAACGGCATCGGTATTATTATTGCTAGTCAGGTAACGGGTCGTTTAGCGGGGAAAGTGAATGAGAAGACATTATTTGTTGCTGGTATTATTATCGCAGCTGTTGGTGGCCTATCTTTACTACTGACAATCGTACTAGGAATAGGTTTAATCGGTGTTTTATGTTCGTTATTCCTTGTTGTATCAAGTGTCGGGGTTGTATCAACAACTGGGTTCTCATTAGCGATGAGAAATCAGAAGCAAGCTGCAGGAACAGCGTCAGCTTTATTAGGCTTATTACAGTTCATTTCAGGAGCGCTTGTCGCTCCGCTAGTAGGTATTGGTGGGAGTAATACAGCGTTACCGATGGGTGTTGTTATTGCGCTTTGTGAAGTAGGGGCAGTATTATGTTATCTATTTATGGCCAGAAGAAGTGAGAAGCAGTTTGAACTGCAACAAAGACAAAATTTAGAGGCTTAA	MNEVNHEIYKPVKANRLWMILVLGTLTAIGPLSIDMYLPSLPKLTDDLQTGASLAQLTLTACLLGLSVGQLFVGSISDIYGRRKPLIIALIIYVASSLLCAVAPSIWTLVLLRFLQGASGSAGIVISRAMVRDMYSGSEMTKFFSLLMLVNGAAPILAPIIGGQLLQFTTWRGVFIVLGAISVFMLISATFVLRETLPPEERETGGLSGTLATYGKLLKDRLFMGYALSQGLVTAAMFAYISGSPFVLQNIYGASPQQFSLFFAINGIGIIIASQVTGRLAGKVNEKTLFVAGIIIAAVGGLSLLLTIVLGIGLIGVLCSLFLVVSSVGVVSTTGFSLAMRNQKQAAGTASALLGLLQFISGALVAPLVGIGGSNTALPMGVVIALCEVGAVLCYLFMARRSEKQFELQQRQNLEA	PGPT0029005_989	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
AK009_06731	1719			hypothetical protein	ATGAAATTTGTAGTTTTAGCTATTCTTACTTTGTTTTTGATTCCATGGACAAGAAGTAGTAGTAAGCTTCGAGCAGTGGATAAGAAGGGAGATAAGAAGGTTGTAAAGGGTAAGAAATCATCTATTTTAGTTATTCCTGTTTTATTTTGGATAGGTATTGCAATCTATGAATACTTTTGGCTAATTGATGATCGAGTAGATTCGATTCTTACTCATTATTCTGTTGCAGTAGCAATTTTAATTGGGCTTGTTTTATTTTCACAAGATCAAATAGGTAAATTAGAAGGTACGTTAAAAGGACTTCTAATGTTTATTTTACTCGCAAGTTACGGTTACTTTGGTTATTTGCACGATATAGTAATCTCGCAAAAGAAATATGATTCTGTTGTTAAGGTAGAGAAAGATATTTCAGAGCCATTTACTGAAAATGACCAGCCGTTTACAGTGCCGCCAAAGACAGCGGAGAATAAGATGAAAAAAGTATTTGGTGATATTCCGAAAGTAGCTTATTTTGAGCTAGGAGAATTAACGCCACAAATGGTAAACGGCGAAGCTTTATATGTAGCGCCGATTGAAGTTTCAGGATTTTTTAAAGCGCGTAAAGCTGAGACAATTCCAGGGTATGTAACGATGTCAGGTACAAATCCTGATGCGGAAGCGAAACTGCACCTCGGTTATAAAATGAAATATGTGCCAAGCATGTTTTTTGGTAATAATTTAGAGCGTGTGGTAAGGCAAGCAGAACCAGATTTAATCTTTAAAGGAAAACCTAAATTTGAGGTTGATGATAAAGGGAAACCATATTATACAATGACGTATGGTGAATTTATTTCAGGAAGATCTGGATTTGAGGTAGAGGGTGTTGTCGTAGTAGACGCACAAACAGGTGAAGTGAAAAGGTATGATAAAGGAAAGGCACCTAAATTTGTTGATGGTGTATTAAATCATGAGACTGCATCTACGTTAAATACGTACTTTGGTAAATATATTCACGGATTTTGGAATACGAAATTCTCGCAAACTGATATGAAGATTCCGACTGAGTGGGGAACGAAAGAAGGCGTGACCCCGATCTTTGGTAAAGATGGAACACTATATTATTTTACAGACTTTACTTCTCCAAAAGAAGGAGTAGATTCAGCCCTAGGCTATTCATTAGTAGATGCACGCACAGGCAAGCTATATTACTATAATGGAAAAGAAGTGAAGGGGATTATGGATGGTTCAGCAGCTACAGAAGTAGTGGATAATTCCTTTAAGAGAGAGAAATGGCATGGGACAATGCCTGTCATTTATAACGTATACGGTAAACCAGCTTGGATTATTCCGGTTGTTGATGATGGAGGCCTAGTACGTGCACATACAGTTGTATATGCTGCTAATGCAAAAATATTTGCGACAGGTTCTTCGCAGAAAGAAGCGCTTGAGAATTATAAAAACGTAATGAGTGGTAATGGTGATACCTTTAGACCAACCTCAACAGGAAAAGAAGCGCAAAAAGAAGGTATTGTACAACGTGTATATAAAGAGAAATCAGGTGAAAATACAATCGTGTACGTACTTTTAGAGAATGAACAAAAGGTATTTATGATACCGGTGAAGAAATTCCCGTATGCTATGTTTACAGAAGTAGGAGACCCAATTCAAATTACATATTTAGATACAGGAGAGACGATGGCCTCAGTATCTAAATTTACGAATAGCAATGTGAAAAAGTAA	MKFVVLAILTLFLIPWTRSSSKLRAVDKKGDKKVVKGKKSSILVIPVLFWIGIAIYEYFWLIDDRVDSILTHYSVAVAILIGLVLFSQDQIGKLEGTLKGLLMFILLASYGYFGYLHDIVISQKKYDSVVKVEKDISEPFTENDQPFTVPPKTAENKMKKVFGDIPKVAYFELGELTPQMVNGEALYVAPIEVSGFFKARKAETIPGYVTMSGTNPDAEAKLHLGYKMKYVPSMFFGNNLERVVRQAEPDLIFKGKPKFEVDDKGKPYYTMTYGEFISGRSGFEVEGVVVVDAQTGEVKRYDKGKAPKFVDGVLNHETASTLNTYFGKYIHGFWNTKFSQTDMKIPTEWGTKEGVTPIFGKDGTLYYFTDFTSPKEGVDSALGYSLVDARTGKLYYYNGKEVKGIMDGSAATEVVDNSFKREKWHGTMPVIYNVYGKPAWIIPVVDDGGLVRAHTVVYAANAKIFATGSSQKEALENYKNVMSGNGDTFRPTSTGKEAQKEGIVQRVYKEKSGENTIVYVLLENEQKVFMIPVKKFPYAMFTEVGDPIQITYLDTGETMASVSKFTNSNVKK				NA	NA	NA	NA	NA
AK009_06732	534	mdtG		Multidrug resistance protein MdtG	ATGACATATAGAAGATTTGTAGCTTCGCAAAGTATCATCATGATGGCAGGAAGTATGGTATTTCCTTTTTATATATTATTGCTTCGAAACGTTGGAAATAGCTTCTCGCAATTTGGCTGGGCGTATGGCTTATTTGCTTTAACATCAGCACTTGTATATCCACTAGTGGGAAAGGTATCTGATCAAGTAGGTGATAAAAAATTATTAATAATATACGCTTGGTCCATGGCAATCTTAATGCTTTGTTTTCCGATTGCCACGGAAGTATGGCATGTGTATCTTCTTCAAATTGTAATGGGAGTTTTAGGTGCTGTGCAGCGTAATACTGAGAAGACTTCGTTAGCACGAAAGGTTGCGCAGGAAAAGGCTGGTTATGAGATTGGAAAATACCATGTGTGGACATCCATTGGCGGAGCAGTAGCGGTTATTGCCACGGGATATTTAGTAGATTTCTTTACGATTGGTACAATTTTTTATATTGCATCTATTCTATATGTAGTAAGCGGGATTGTATTAAGTAGTAAAAAAATATAA	MTYRRFVASQSIIMMAGSMVFPFYILLLRNVGNSFSQFGWAYGLFALTSALVYPLVGKVSDQVGDKKLLIIYAWSMAILMLCFPIATEVWHVYLLQIVMGVLGAVQRNTEKTSLARKVAQEKAGYEIGKYHVWTSIGGAVAVIATGYLVDFFTIGTIFYIASILYVVSGIVLSSKKI				NA	NA	NA	NA	NA
AK009_06733	1437	dprE1	COG0277	Decaprenylphosphoryl-beta-D-ribose oxidase	TTGAAAAAAAGAAAGATAGCAGTGGTCATTGCGGCATATACGGTTTTGCTTGCAACGTCTGTACATACGTATAAAAAACAAATTGATCATCCTATTATGAGTGATGTAGGTAAATTGCTTCCGACAAAAATAAAACGAGTTGAAAGTGCTACGGAAGAGCACTCGTTAATAAAATTAGTGCGAGATGCAAAAGTTTCAGGAGAGAAAATTTCCATTGCAGGTATGCAACATAGCCAAGGAGGACAGACATATTATCCGAATGGTACGATGCTCGATATGAAAGGATATAATAAAATATTAGAATTTGATCCAGAGAAGAAGCGGATTACAGTTCAAAGTGGTGTCACGTGGAATGATATTCAGAAGAAAATAAATCCATATGGCCTTGCGGTACAGGTCATGCAGTCTCAAAATATTTTTACTGTTGGTGGTTCATTAAGTGTAAATGTACACGGGCGTGATATTCGTCATGAGGCACTGATTGATACAATAGAGTCATTTAGATTGTTAATGGCAGATGGCACGGTACGTAATGTAAGTAGAGAAGAAAATGCAGCGTTATTTCCATATGTCATTGGTGGTTACGGTTTATTTGGAGTTATTTTAGATGTGACGCTGAAGTTAACAGATGATGAATTATATGAAATGCACACGAGAATGATAGATTATAAAGAATACGCATCTTATTTCAAAGAGAAAGTGAAAAGAGATGAGAATGTTCGTATGCACTTAGCACGTATTTCTGTTGCTCCAAATTCATTTTTAAAAGAGATGTATGTGACAGATTATACTTTGGCACAAAATCAAAATATGAGAGAAGAGTACAGTGAATTAAAGGAAGAAAATATTATAGCTGCACCGAAATTTTTACTTGGGTTATCACGTTATAGTGATTGGGGAAAGAATACATTTTGGAATATACAAAGAGGTTATTTTGAACGTACAGATGGAAAGTATGAGACGCGTAATAATGTTATGAGATCAGATAGTGCTTTTATGGAATATGAAAATCCAAATAGGACCGAAGTGTTACAAGAATACTTTGTGCCTATAGATGCTTTCACGGAGTATATAGATGATTTACGTAACGTATTAAATGAAGAAGAGTTTAATTTGCTCAACATTACGATTCGTTACGTGGAAAAGAATGAAAATGCAGTTTTGTCCTATGCGAAAGATGATATGTTTGCGCTGGTTCTTTTAATTAACCAGGGACGCTCAGATAGTGAGATAAAGAAAACAGAGGATGTCATTCGGAAGATGATTGATGTTACTTTAAAGCATAACGGTAGTTACTATTTGCCGTATTATTCTTATCCAACGAAAGAGCAGTTAAAGAAGGCATATCCTCGTATTGAAGAATTTCTCAAGAAAAAGAAGGAAGTAGATTCAGAAGAGAGATTTGTGAATTTATTTTATAGGGAGTATACGAAATGA	MKKRKIAVVIAAYTVLLATSVHTYKKQIDHPIMSDVGKLLPTKIKRVESATEEHSLIKLVRDAKVSGEKISIAGMQHSQGGQTYYPNGTMLDMKGYNKILEFDPEKKRITVQSGVTWNDIQKKINPYGLAVQVMQSQNIFTVGGSLSVNVHGRDIRHEALIDTIESFRLLMADGTVRNVSREENAALFPYVIGGYGLFGVILDVTLKLTDDELYEMHTRMIDYKEYASYFKEKVKRDENVRMHLARISVAPNSFLKEMYVTDYTLAQNQNMREEYSELKEENIIAAPKFLLGLSRYSDWGKNTFWNIQRGYFERTDGKYETRNNVMRSDSAFMEYENPNRTEVLQEYFVPIDAFTEYIDDLRNVLNEEEFNLLNITIRYVEKNENAVLSYAKDDMFALVLLINQGRSDSEIKKTEDVIRKMIDVTLKHNGSYYLPYYSYPTKEQLKKAYPRIEEFLKKKKEVDSEERFVNLFYREYTK				NA	NA	NA	NA	NA
AK009_06734	765			hypothetical protein	ATGAAAAAACTTATTTTAATTTCAAGTTTAGTACTTGCAGTTGGTCTAGGAGTAGGGTGTAGTAATGAGGAAACAAAAAAGACTGATGAACCGAAAAAAGAAGCTGTGCAGAAAGAAAAGGAATTAACAGCGAAGGATGTTTTCAATAAAGCGAATGAAGCTTTTAAAAACGAAGAAAATGTAACGATGACATATGATGTGGGAATAAAGGCTGAAGGAACAGAGATGAATGTAATGAAGGCTAAAATGCAACTAGAGCCGAAGAAAAAAAACTCTCGTTCTGAAATGAATGTTTCTGGTACAGAGGTTATTGTTTATGATGTGGGTGGAAAAATTGCTGGTCAGGTGAAAAATCCTAATTCGGGTGAAGTTATGTCTGTACCAGAGGAACAATTAAATGCTAACGGAATGAATGCGACTCAAGGAATGGTAGATAATTTAGAGATTCCATCGGAAATTTTAAATAAAGTGAAGATGGAGAAAAGTGGAGATAATTATAAGCTGAAGTTTGCATTAAAAGGGAAAGAGACAGAGAGTATGCTAGCTAGTATGGATGAAAAGCAGAAACAAATGCTACAAGGCCAAAATGCAAAAATAGAAGAAATAGATGGGGAATATATTATTACAAAAGATTTTAAATATGAATCAGCAAAGATAGATATGGTTATGAGTAGCAATGGTGAAGATAAAGCGCACATTATTACGGATGCAAAGTTTACATCGTATGATAAATTTGATCCAATACAATTGCCAGCAGCAAAGTAA	MKKLILISSLVLAVGLGVGCSNEETKKTDEPKKEAVQKEKELTAKDVFNKANEAFKNEENVTMTYDVGIKAEGTEMNVMKAKMQLEPKKKNSRSEMNVSGTEVIVYDVGGKIAGQVKNPNSGEVMSVPEEQLNANGMNATQGMVDNLEIPSEILNKVKMEKSGDNYKLKFALKGKETESMLASMDEKQKQMLQGQNAKIEEIDGEYIITKDFKYESAKIDMVMSSNGEDKAHIITDAKFTSYDKFDPIQLPAAK				NA	NA	NA	NA	NA
AK009_06735	909			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCAATTATTTGCACAAAGTATGGACCACCTAATGTTCTCCAGATTCAAAATGTAGAAAAGCCTAAACCTAAAAAAAATGAAGTATTAGTTAAAATTCACGCAACAAGTGTATCGACTGGAGATTGTAGAATACGTGGCTTTAATAGCCCCCTCTTATTTTGGATTCCTATGCGGATCATATTAGGTTTCAGAAAACCGAGGAAACCTATACTTGGCGTAGAGTTATCCGGTGAAATCGAAGACATTGGAACAGATGTAACACAATTTAAAAAAGGAGATCCAGTTTTTGCATTAACAGAACTAAACCTTGGTGGTTATGCCGAATACACATGCGTGCATGAAAGTGGATTAATAGCATTAAAACCTACCAATGTGACATATGAAGAAGCTGCCGTTATTCCTTTTGGCGGAACTTCAGCATTGCACTTCCTTAGAAAAGGACAGATAAAAAAAGGGCAACGAGTACTTATATACGGCGCCTCTGGTTCAGTAGGGACAGCTGCCGTACAACTTGCTAAATACTTCGGGGCGACTGTCACAGCTATTTGTAGTAGTTCGAATTTCGATTTAGTTACAGCCTTAGGGGCAGACAACGTAATTGATTATATGAAAGAAGATTTTACTAAGCGGGGCGAGCACTATGATATTATATTTGATGCAGTTGGAAAATATAATAAGTCTCTTTGTACAGATGCATTAATGCCTAATGGAAAATATGTATCTGTGAACGGAATGATGGCAAAAGTCAGTAAAGAAGATATGAACCTACTAAAACAACTAGCTGAAACAGAAAAGCTAAAGCCTGTTATTGATAGAACTTACCGATTAGAAGAAGTTGTAGAAGCCCATACGTATGTAGAAATGGGCCATAAGAAAGGAAATGTTTCGATTACCTTAAAATAA	MKAIICTKYGPPNVLQIQNVEKPKPKKNEVLVKIHATSVSTGDCRIRGFNSPLLFWIPMRIILGFRKPRKPILGVELSGEIEDIGTDVTQFKKGDPVFALTELNLGGYAEYTCVHESGLIALKPTNVTYEEAAVIPFGGTSALHFLRKGQIKKGQRVLIYGASGSVGTAAVQLAKYFGATVTAICSSSNFDLVTALGADNVIDYMKEDFTKRGEHYDIIFDAVGKYNKSLCTDALMPNGKYVSVNGMMAKVSKEDMNLLKQLAETEKLKPVIDRTYRLEEVVEAHTYVEMGHKKGNVSITLK	PGPT0006375_1339	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
AK009_06737	813	metQ_3	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAAAAGGTATTATTAAGCATTGTAAGCGGAGCAGTATTATTATTAGGCGCCTGTAGCGTGAGTTCAGATAAAGAGGTAAAAGCATTAGACGAGAAAAAGATTACTGTCGGTGTAACAGGTGGACCACATGAACAAATTTTTGAAAAGGTAAAAGAAGTTGCAGCAAAAGATGGTCTCGAAATTGATATAAAAGTATTTAATGATTATGTAGCGCCGAACGTATCTTTAGATGAAAAAAGCCTTGATGTAAATAGCTACCAAACAAAATCGTATTTAGATGTATTTAAAGCTGAACGCAATATGAAATTAGCTGAAGTATTTTCAACAGTAACATTCCCTATGGGCATATATTCTAAAAACATAAAAGATGTAAAAGACTTAAAAGAGGGCGATGCAATTGCTGTACCAAATGACCCAACGAATGAACTGCGAGCTTTAAAATTATTTGAAAAAGCAGGGGTTTTAAAAGTTGATCCGAAGGCTACAGAAAAAGCGACTGCGAAAGATGTAATTGAAAACCCGAAAAATTTAAAGATTGTTGAATTAGAAGCTTCTCAATTACCAACGCAACTAAGTGAAGTGAAAGCAGCTGCAATTAACACAAACTTTGCATTAGGTGCAAAATTAAGTCCAGCGAAAGATTCTATTTTCCGCGAAGGAAAAGATTCACCATATGTGAACTGGGTCGTTGTTCGTACTGAAAATAAAGATGATGCCGTTGTAAATAAATTAAAGAAAGCTTATCAATCTAAAGAAGTAAAAGAGTTTATCGAGAAAAAATTTGATGGTTCAGTTTTACCATCTTGGTAG	MKKVLLSIVSGAVLLLGACSVSSDKEVKALDEKKITVGVTGGPHEQIFEKVKEVAAKDGLEIDIKVFNDYVAPNVSLDEKSLDVNSYQTKSYLDVFKAERNMKLAEVFSTVTFPMGIYSKNIKDVKDLKEGDAIAVPNDPTNELRALKLFEKAGVLKVDPKATEKATAKDVIENPKNLKIVELEASQLPTQLSEVKAAAINTNFALGAKLSPAKDSIFREGKDSPYVNWVVVRTENKDDAVVNKLKKAYQSKEVKEFIEKKFDGSVLPSW	PGPT0020510_3799	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK009_06738	1041	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGATTGAATTAAAAAATATATCCAAAGTATTTACAACAAAAAAAGGGAATGTTGAGGCTCTTAAGTCTACTTCCCTTAAAGTAGAAAAAGGCGAGGTATTTGGAATCATTGGGTATAGTGGCGCTGGTAAAAGTACATTGATTCGATGTGTAAATTTATTAGAAAAACCAACGACAGGAAATATCATTGTAAACGAACAAGACTTAACAACGTTATCGACAAAAGAACTAGCAAAAGCGAGACAAAAAATCGGAATGATCTTTCAAGGATTCAATTTACTTAAAACTGTTAGCATCTATGAAAACATTGCATTACCTTTACGCCTTGCTGGTATTCCAAAAGTGGAAATTAAAAAAAGGGTAGAAAAATATTTACGCATTGTCGATCTTTTCAATCGAAAAGATGCTTATCCAAGTGAACTTTCTGGCGGTCAAAAACAGCGCGTTGCAATTGCACGTGCACTATCACATGAGCCTGAAGTGTTATTAAGTGACGAAGCAACGAGTGCTTTAGATCCAGAAACAACTGATTCTATTCTTGATTTGTTATTAAAGATTAACGAAGAAATTGGAATTACGATTTTACTCATTACACACGAAATGAATGTTATCCAACGTATATGCGACCGCGTTGCCGTTATGGAACATGGATCTGTAGTCGAAAGCGGGACTGTGAAAGATATTTTCACAAACCCACAACATGTAACAACGAAGAAATTTGTAAATAGCGCCTTTGCAGCTAAAATTCCAGAAGAGGTACAGAAAGAACTACAGAATACTGGAGAAATTGTAACACTTTCTTTTATAGGAAGTTCTTCAGGGGAACCAGCACTAGCTGTCGCCACAAAACGTTTCCAAGTATATCCAAATATTTTATCTGGTAATATTACACAGTTAAAACATGAGGCATATGGGAAACTTGTCGTTCATATGCAAGGTGAAAAAAATGAAGTAAACCGTGCTTTAGCATTCTTACAAGAGAAAGGTATCATCGTAGAGGGAGGGAAAACAGACTATGGAAAACAAGTCCTTTTTGGATGA	MIELKNISKVFTTKKGNVEALKSTSLKVEKGEVFGIIGYSGAGKSTLIRCVNLLEKPTTGNIIVNEQDLTTLSTKELAKARQKIGMIFQGFNLLKTVSIYENIALPLRLAGIPKVEIKKRVEKYLRIVDLFNRKDAYPSELSGGQKQRVAIARALSHEPEVLLSDEATSALDPETTDSILDLLLKINEEIGITILLITHEMNVIQRICDRVAVMEHGSVVESGTVKDIFTNPQHVTTKKFVNSAFAAKIPEEVQKELQNTGEIVTLSFIGSSSGEPALAVATKRFQVYPNILSGNITQLKHEAYGKLVVHMQGEKNEVNRALAFLQEKGIIVEGGKTDYGKQVLFG	PGPT0020520_1403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK009_06739	669	metP_2	COG2011	Methionine import system permease protein MetP	ATGGAAAACAAGTCCTTTTTGGATGAATGGAGTAAAGTCATATGGGAAGCCACAATCCAAACCTTTCAAATGACATCTATTTCATTACTCATCTCGATCCTTATTGCACTGCCACTTAGTGTAACACTTGTTTTAACAAGACCTGGTGGACAGCACGAAAATAAAATCATTTATCCTATTCTTAATACAATTATTAATATAATTCGCTCTCTTCCATTTATCATTCTATTATTCTTCATCTTACCTTTTACAAAGTTTCTAATGGGAACATCCATTGGCGTGCAAGGTGTGATCGTACCGCTTGTCGTCTTCACAGCTCCTTATATCGCACGTTTAATGGAGACAGCCTTACTAGAAGTAGATCGCGGTGTTATTGAGGCCTATCAAGCAATGGGTATCTCTACTATTAAAATCATTTGGCACGTCATGGTGAAAGAAGCTCGTCCCTCCCTTGTACTTGGATTAACAATTGCAACAATTGGCTTAATTGGCGCAACAGCAATGGCTGGACTCGTAGGTGCTGGAGGGCTAGGGGACTTGGCATACCGCTTCGGACATTTACGCTATGAACCTGAAGTAATGTATGCAACAGTCTTTATTTTAATTATCCTCGTTCAAGGATTACAGTCTTTAGGGAATGGTGTTGCACGAAGATTGAAGAAAGATTAA	MENKSFLDEWSKVIWEATIQTFQMTSISLLISILIALPLSVTLVLTRPGGQHENKIIYPILNTIINIIRSLPFIILLFFILPFTKFLMGTSIGVQGVIVPLVVFTAPYIARLMETALLEVDRGVIEAYQAMGISTIKIIWHVMVKEARPSLVLGLTIATIGLIGATAMAGLVGAGGLGDLAYRFGHLRYEPEVMYATVFILIILVQGLQSLGNGVARRLKKD	PGPT0020515_1615	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK009_06740	777	fabG_11		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGATGAATCAATTAAAAAATAAAGTAGCAATTGTTACAGGGGTAAGTCGTCTAGATGGTATTGGGGCAGCGATTTGTAAAGAATTAGCTGAAGCAGGATACGATATGTTTTTTACGTATTGGACAGCTTACGATAAAGAGATGCCTTGGGGCGTCGATAAAAATGAACAAATACAATTAAAAGAAGAGCTATTGCAAAACGGTGTTAGAGTATCGAGCATGGAGTTAGATTTAACTCGGAATGATGCACCGAAAGAGCTTATAAATAAAGTTACTGAACAATTAGGGTACCCTTATATATTAATTAATAATGCAGCGTACTCTACGAATAATGATTTCTCTACGTTGACTGCTGAAGAACTAGATAAGCATTACATGGTAAATATCCGTGCGACTACATTGTTAAGTAGTCAATTTGCCCGGAGATTTGGTAAGAAATCTGGTGGTAGAATTGTTAATATTACTTCGGGGCAATTTCAAGGTCCTATGGCAGGAGAACTAGCTTATGCGACAACGAAGGGAGCTATTGATGCTCTTACTAGTACATTGTCAGCAGAGGTAGCTCATTTAGGAATAACAGTGAATGCAATTAATCCAGGACCAACCGATACAGGATGGATGACTGAAGAGATAACACAAGGGTTAAAGCCGATGTTTCCTTTTGGCAGAATTGGTGAGCCAAAGGATGCAGCTAGACTCATTAAATTTTTAGTAAGTGAAGAAGCTGAGTGGATTACTGGGCAAGTTATTCATTCAGAAGGTGGATTTAAAAGATAA	MMNQLKNKVAIVTGVSRLDGIGAAICKELAEAGYDMFFTYWTAYDKEMPWGVDKNEQIQLKEELLQNGVRVSSMELDLTRNDAPKELINKVTEQLGYPYILINNAAYSTNNDFSTLTAEELDKHYMVNIRATTLLSSQFARRFGKKSGGRIVNITSGQFQGPMAGELAYATTKGAIDALTSTLSAEVAHLGITVNAINPGPTDTGWMTEEITQGLKPMFPFGRIGEPKDAARLIKFLVSEEAEWITGQVIHSEGGFKR	PGPT0003180_6194	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
AK009_06741	507			hypothetical protein	ATGATTATCAATTTTTTAAGAACTGATAAACGTGCTACTTTCATATTATTACTTTTACGTCTTTACATAGGATATACATGGCTCGCTGCTGGGATAGGCAAAGTCTTCGGACAATCTTTTGACGCAAGTGGTTTTCTAAAGGGTGCTATTGCTCAAGCATCAGGTGACCACCCTGCAGTACAAAGTTGGTGGGCAGATTTTCTTCAACATTTTGTCCTTCCAAACGCAGACCTATTTAGCTTTTTAGTTCAATGGGGAGAAATTTTAGTAGGTCTAGGTTTAATTTTAGGCGGATTAACAAAAACAGCTGCATTTTTCGGAATCATAATGAATCTTTCATTTTTATTAAGTGGAACTGTTAGTGTAAACCCAAACCTGCTTATTTTGACTATATTCATTTTAGTTGCAGGGCAGAACGCTGGACGTATTGGATTAGATGGCTATATTTCCCCTAAACTTTTCCATAAAAACAACCACGGAACATATAAATTAAGTAAAACTGCGTAG	MIINFLRTDKRATFILLLLRLYIGYTWLAAGIGKVFGQSFDASGFLKGAIAQASGDHPAVQSWWADFLQHFVLPNADLFSFLVQWGEILVGLGLILGGLTKTAAFFGIIMNLSFLLSGTVSVNPNLLILTIFILVAGQNAGRIGLDGYISPKLFHKNNHGTYKLSKTA				NA	NA	NA	NA	NA
AK009_06742	567			hypothetical protein	ATGACAGGAAATAAAAATGACTTACTAGTAGAAAAACGTGAAGAGTTATTGAAAGTATTGAAAGCTCGTTTTGAGAAAAACATGAACCGCCATGAAGGTCTTGAATGGGCTAAAGTTGAAGCGAAGCTGACTACTAATAATGAAAAATTGTGGTCACTTAATGAAATGGAAGTAACTGGCGGTGAGCCGGATGTTGTTGGTTATGATGAAGAAAAGGACGAGTATACTTTCTATGATTGTTCAAAGGAGAGTCCTAAAGGCCGCAGGAGTCTTTGTTATGATCTTGAAGCGTTAGAATCAAGAAAAAAACATAAACCAGAAAATAACGTTATTGATGTTGCAAATGCTATGGGCATTGAACTATTAACTGAAGAACAATATCGGGAATTGCAAAAACTTGGGGATTTCGACATGAAATCATCAAGCTGGGTACAAACACCTTCAGATATTCGAGAACTCGGTGGTGCTCTATTTTGCGATTATCGCTTCGGACATGTTTTCGTGTACCACAATGGAGCAGACTCTTACTATGCTGCCAGAGGTTTTCGTGGCTCGTTAAAAGTTTAA	MTGNKNDLLVEKREELLKVLKARFEKNMNRHEGLEWAKVEAKLTTNNEKLWSLNEMEVTGGEPDVVGYDEEKDEYTFYDCSKESPKGRRSLCYDLEALESRKKHKPENNVIDVANAMGIELLTEEQYRELQKLGDFDMKSSSWVQTPSDIRELGGALFCDYRFGHVFVYHNGADSYYAARGFRGSLKV				NA	NA	NA	NA	NA
AK009_06743	1965	dpp5	COG1506	Dipeptidyl-peptidase 5	ATGAAAGTGAATAAAAAAACATATCTAAGTATAGAAGAGATTATTTCATTACCAACCTTATCAAGTACAAACATAAGTGATGATGGTAAAAACGTAGCGTTTGTTAAGAAGACGGCTAACTGGAAAGACAATACATATAGGAATCATGTATGGATATATGGAAAAGAAAAGGGACAGAGTTGTTTATTGATAAATGGAGATATAGAAAGTACATGCCCATTATGGTCTCCAAATTCTAGGGATATAGCATATCTTAGCCCCGTTGGTAATGGGAAAAATCAGATCTTTGTTAAGTCACTAGATGGTTATGAAGGGGTTCAAATTACTGATGAGAAAGAAGGAGTCAGTACATTCAAATGGGGTCCTACTGGCAAGGGTCTTTATTATGTTACGCAGTCAAAAGAATGTGTGGAGATAAAGAAGCGTAGGGATCTATATGGAGAGTTTCAACATATAGGTAAGGAACACCAGAATAATTGTTTATATTACATTGAAATAGAAAAGGTGATACAAAGTGATACATATGAACACGAGAAAAGAGTTGTTTATCAATTAACTGATGGTAAGGATTTTCATATCCATGAATTTGATATTTCAAATGATGGGAAGAAGATTGTGTTTATGGCGACACCAAGCTCAAATATGGCGGATTATATAAATGGAGATTTATACATACTCCATACTAAAGCTGGAGAGCTACAAAAGCTGAATGTGGATAAGTTGTTGGGCGGTAGCGTCTGCTTTTCTCCTGAAGGCAGTAAAATATGTTACACAGCAAGTATAAGAGAGAAGGATTACTATAGAAACCATATACAAGACAGTACGTTAGAGGTATATGATATAAATACAGGAGAGGTAATTCAACCTGTAACAGATTTTGATAGTACTGTTATGCCATTACAGTGGACAGCTAAAGGAATTTTAATTAGATGGCAGGATAAAACGAATTATCGTATTGGATTACTAGCTGAAGATGGTACTGTAGAAGCATTAAGCGAAAAAGTAGATGGCTTTATAATGGATGCTTCTATAACAAAGGATGGAAAACATATATCCTATAATAAGGCTATAACAAATGAAACCTTTGAAATCTATTTAGACGATAAAAAAATAACGGATGAAAATAACTTTTTCAAAGGGAAACTTAAAAGTAACAGGGAAATCATCTCATGGAAAAGTAGTGATGGTCTTGAAATAGAAGGTGTTTTATCAACGCCAGTAGAGTTTGACGTAAATAAAAAATATCCTTTATTAGTAGTAATTCACGGCGGTCCGGCTTGGGCATCCTTTCCGATATTTTCAGACTGCTTCAATGAGAAATATCCGATTGAACAGTTTATCGAAAAAGGCTTTATCGTTTTAGAGCCAAACTACAGAGGAAGTTCTGGTTATGGTAATGAATTTTTAAAAGCAAACTATAGAAAACAGGGAATCGCTGACTATGATGATGTTATATCAGGGGTGGATAAACTAGTTGATCAAGGGATTGTAGATAATGATAAAGTAGGAGTTATGGGATGGAGTAACGGAGGATATATATCAGCTTTCTGTTCTACATTTAGTAGCAGGTTTAAAGCTATTTCAGTTGGAGGCGGAATCACGAACTGGAGTACTCATTATGTAAATACAGATATCCCTTATTTTATTAGAATGTATTTAGGAAATACCCCATGGAATGATCGAGAGATATATACGAAGACATCACCTATGACGTATATTAAATCAGCTTGTACGCCTACCTTAATTCAACATGGGGAAAAGGATGCAAGAATTCCAATTACAAATGCATATGATCTATATCAAGGATTAAAGGATATGGAAGTTGATACAGAATTAATTATATTTAAAGGAATGGCATATAGTCCTAATCAGCCGGGAATGAATGTAGCTATTATGAAGCAGAATTTGATGTGGTTTTCACACTATATTCTTGGAGAGAGTGTAGAGGGTTTTAGGACTTTATAA	MKVNKKTYLSIEEIISLPTLSSTNISDDGKNVAFVKKTANWKDNTYRNHVWIYGKEKGQSCLLINGDIESTCPLWSPNSRDIAYLSPVGNGKNQIFVKSLDGYEGVQITDEKEGVSTFKWGPTGKGLYYVTQSKECVEIKKRRDLYGEFQHIGKEHQNNCLYYIEIEKVIQSDTYEHEKRVVYQLTDGKDFHIHEFDISNDGKKIVFMATPSSNMADYINGDLYILHTKAGELQKLNVDKLLGGSVCFSPEGSKICYTASIREKDYYRNHIQDSTLEVYDINTGEVIQPVTDFDSTVMPLQWTAKGILIRWQDKTNYRIGLLAEDGTVEALSEKVDGFIMDASITKDGKHISYNKAITNETFEIYLDDKKITDENNFFKGKLKSNREIISWKSSDGLEIEGVLSTPVEFDVNKKYPLLVVIHGGPAWASFPIFSDCFNEKYPIEQFIEKGFIVLEPNYRGSSGYGNEFLKANYRKQGIADYDDVISGVDKLVDQGIVDNDKVGVMGWSNGGYISAFCSTFSSRFKAISVGGGITNWSTHYVNTDIPYFIRMYLGNTPWNDREIYTKTSPMTYIKSACTPTLIQHGEKDARIPITNAYDLYQGLKDMEVDTELIIFKGMAYSPNQPGMNVAIMKQNLMWFSHYILGESVEGFRTL				NA	NA	NA	NA	NA
AK009_06744	1803	glmS	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATCGTAGGATTTATTGGAGAGCAAGATGCAAAGGAAATTTTATTAAAAGGTTTAGAAAAGCTAGAATATCGTGGATATGATTCAGCAGGTATTGCAGTACAAGCAGAGAACGGTGTTGTTGTATACAAAGAAAAAGGCCGTATCGCAAAACTTCGTGAAATCGTAGATGAGAACGTAGCAGCAAGCGTAGGTATCGGACATACACGCTGGGCTACACACGGTGTTCCAAGTAAAGTAAACGCGCATCCGCATCAAAGTACATCAAAACGCTTTACACTAGTTCATAACGGTGTAATTGAAAACTATGAATTAGTGAAAAAGGAATATTTACAAGATGTAACGTTCGTAAGTGAAACAGATACAGAGATTATCGTACAGCTTATGGAACAACAAGTGAGCACAGGATTAAGTGTAGAAGAAGCGTTCCGTAATACGCTATCTCTTTTACATGGCTCTTATGCAATCGGATTACTTGATGCTGAAAATCCAAACATGATTTATGTTGCTAAAAACAAAAGCCCGCTATTAGTAGGTGTTGGTGACAACTTTAATGTTGTGGCAAGCGACGCTATGGCGATGTTACAAGTTACAGATCAATTTATTGAGTTAATGGATAAAGAAATCGTAATCGTAACGAAAGAAAGTATTACAATTAAAAACTTACAAGGTGAAACGATTGAACGTGCACCTTTTACAGCGGAATTAGACGCAAGTGATATTGAAAAGGGAACATATCCTCACTTCATGCTTAAAGAAATCGATGAGCAACCACTTGTAATCCGTAATATAATTCAAAAGTATCAAGATGAAAATGGCGAAATTGAATTAAATCAAGACATCCGCAATGCGATTTTAGATAGCGATCGTATTTACATCATTGCATGTGGAACGAGTTATCATGCAGGTCTTGTTGGAAAACAATTTATCGAGAAGTTTGCAAAAATGCCAGTTGAAGTACATGTAGCAAGTGAATTCTCTTACAACATGCCATTATTAACAGAAAGACCATTCTTCATTTACATTTCACAAAGTGGTGAAACAGCTGATAGCCGTGCAGTACTTGTACAAACAAATGAAATGGGTCATAAAGCATTAACAATTACAAACGTGCCTGGTTCTACTCTTTCTCGTGAAGCTGATTATACACTTCCATTATACGCTGGACCAGAAATTGCAGTTGCATCAACGAAAGCTTACACAGCACAGCTTGCAGTACTTTCAATTTTAGCAGCTGATATTGCTAAAGCAAAAGGTGAAGTTCTTGATTTCGATTTAACACACGAACTAGGACTTGTAGCAAATGCAATGATAGAACTTTGTGATCAAAAAGAAGAAATGGACGCATTAGCAAAACAATTTTTAGCAACAACGCGTAACTGTTTCTTCATCGGACGTAGCGTAGACTTCTACGTAGGATTAGAAGGTGCGTTAAAACTAAAAGAAATCTCTTACATCCAAGCAGAAGGATTCGCTGGAGGAGAGTTAAAACACGGTACAATCGCTTTAATCGAAAATGGTACACCAGTTATCGCACTTGCTACACAAGAGCACGTAAACCTTGGAATTCGTGGTAACGTGAAAGAAGTAGTAGCACGCGGTGCTAACCCATGTATCATCTCAATGAAAGGCTTAGAAATGGAAGGTGACAGCTTCGTATTACCAGCTGTCCATGAAGCACTAGCACCGCTAGTAGCAGTTATTCCATTACAACTTATCTCATACTACGCAGCACTTCACCGCGAGTGTGACGTTGATAAGCCACGTAACTTAGCTAAATCTGTTACTGTTGAGTAG	MCGIVGFIGEQDAKEILLKGLEKLEYRGYDSAGIAVQAENGVVVYKEKGRIAKLREIVDENVAASVGIGHTRWATHGVPSKVNAHPHQSTSKRFTLVHNGVIENYELVKKEYLQDVTFVSETDTEIIVQLMEQQVSTGLSVEEAFRNTLSLLHGSYAIGLLDAENPNMIYVAKNKSPLLVGVGDNFNVVASDAMAMLQVTDQFIELMDKEIVIVTKESITIKNLQGETIERAPFTAELDASDIEKGTYPHFMLKEIDEQPLVIRNIIQKYQDENGEIELNQDIRNAILDSDRIYIIACGTSYHAGLVGKQFIEKFAKMPVEVHVASEFSYNMPLLTERPFFIYISQSGETADSRAVLVQTNEMGHKALTITNVPGSTLSREADYTLPLYAGPEIAVASTKAYTAQLAVLSILAADIAKAKGEVLDFDLTHELGLVANAMIELCDQKEEMDALAKQFLATTRNCFFIGRSVDFYVGLEGALKLKEISYIQAEGFAGGELKHGTIALIENGTPVIALATQEHVNLGIRGNVKEVVARGANPCIISMKGLEMEGDSFVLPAVHEALAPLVAVIPLQLISYYAALHRECDVDKPRNLAKSVTVE	PGPT0017630_5844	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
AK009_06746	1347	glmM	COG1109	Phosphoglucosamine mutase	ATGGGTAAATATTTTGGTACAGATGGAGTACGCGGAGTTGCAAATAAGGAGTTAACACCTGAATTAGCTTTCAAAATTGGGCGTTTTGGTGGTTATGTATTAACAAAAGATACAGATCGTCCAAAAGTAATTATCGGTCGTGATACACGTGTATCTGGCCATATGTTAGAAGGAGCTTTAGTAGCAGGTCTATTATCAACTGGAGCAGAAGTAATGCGCCTTGGCGTTATTTCTACACCGGGTGTTGCTTATTTAACAAAAGCACTAGACGCACAAGCGGGTGTTATGATTTCTGCATCTCATAATCCAGTACAAGATAACGGTATTAAATTCTTTGGTTCAGACGGCTTTAAATTAACAGATGAGCAAGAAGCTGAAATTGAAGCTTTATTAGACAAAGAAGTTGATGAACTACCACGTCCAACAGGTACTAACCTTGGACAAGTGAGCGATTACTTTGAAGGTGGACAAAAATATTTACAATACATTAAACAAACTGTTGAAGAAGACTTCTCTGGCCTACATATCGCTTTAGATTGTGCACATGGTGCCACATCTTCTTTAGCTCCATACTTATTTGCAGATTTAGAAGCTGATATTTCAACAATGGGGACTTCACCGAACGGTATGAATATTAACGAAGGTGTAGGATCTACACATCCAGAAGTATTGGCTGAATTAGTAAAAGAAAAAGGTGCTGACATCGGACTTGCTTTTGATGGCGATGGCGACCGTTTAATTGCTGTAGACGAAAAAGGAAACATCGTTGACGGTGATCAAATTATGTTTATTTGTGCGAAATACATGAAAGAAACTGGTCAATTAAAACATAATACAGTTGTTTCAACTGTTATGAGTAATTTAGGTTTCTACAAAGCACTTGAAGCAAACAATATTACAAGCGATAAAACAGCAGTTGGTGACCGCTACGTAATGGAAGAGATGAAACGCGGTGGTTACAACTTAGGTGGAGAACAATCAGGCCATATTATCTTACTTGATTACATTACAACTGGTGACGGAATGTTAAGTGCACTTCAACTTGTAAACATCATGAAAATGACGAAAAAACCATTATCTGAGCTTGCAGGAGAAATGACGAAATTCCCACAATTGCTAGTAAACGTTCGTGTAACAGATAAAAAATTAGCATTAGAAAATGAAAAAATTAAAGAAATTATTCGTGTTGTAGAGGAAGAAATGAACGGTGATGGCCGTATTCTTGTTCGTCCATCTGGAACAGAGCCACTTATTCGTGTAATGGCAGAAGCACCAACACAAGAAGTTTGTGATGCATTTGTACATCGCATTGTAGAAGTTGTGAAAGCTGAAGTTGGCGCTGAATAA	MGKYFGTDGVRGVANKELTPELAFKIGRFGGYVLTKDTDRPKVIIGRDTRVSGHMLEGALVAGLLSTGAEVMRLGVISTPGVAYLTKALDAQAGVMISASHNPVQDNGIKFFGSDGFKLTDEQEAEIEALLDKEVDELPRPTGTNLGQVSDYFEGGQKYLQYIKQTVEEDFSGLHIALDCAHGATSSLAPYLFADLEADISTMGTSPNGMNINEGVGSTHPEVLAELVKEKGADIGLAFDGDGDRLIAVDEKGNIVDGDQIMFICAKYMKETGQLKHNTVVSTVMSNLGFYKALEANNITSDKTAVGDRYVMEEMKRGGYNLGGEQSGHIILLDYITTGDGMLSALQLVNIMKMTKKPLSELAGEMTKFPQLLVNVRVTDKKLALENEKIKEIIRVVEEEMNGDGRILVRPSGTEPLIRVMAEAPTQEVCDAFVHRIVEVVKAEVGAE	PGPT0018950_2124	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
AK009_06747	1488	cdaR_2	COG4856	CdaA regulatory protein CdaR	ATGGATAAGTTAATGGAGAATCATTGGTTTTTAAAAGGGATCTCATTACTATTGGCGTGTATGCTTTTTATGTCAGCGACGTTAACTGAAAAAAATACGACATCAGGTATATTACCTTTTGCAAATGATACGAAAGAAACATTAACTAATTATGCGATTAACCTTAAGTATGATGAGGAGAAATATATTGTAAGTGGTATTCCAGCAGAGGGCGTTAAGGTGAAGTTAGAAGGCCCAAAAGCATCAGTTGCTACAGTAAAAGCAAAAAAACAATTTGACATACCAATTGATTTGCGAGATAGTCCAAAAGGAACTTATGAGATTTCTTTAAAAACGAACGGGCTTCCAGATGATGTGAAAGGAACAGTTCAGCCATCAACAATTAAAGTTACTCTTCATGAAAAGGCGAGAAAATATGTTCATGTAGATTTGAAATTATCAAATGAGGATCAGATGCCAGCGGGGGCTACTCTCGAAAAATCAAGCCTTAAACCGGATACTGTTGAGGTAGTTGGGACGAAAGAAGAAATTGAAAGCATTTCATCTGCCAAAGCGTATGTTGATTTAAAAGGTGTTAATAAAACTGTTACAAAAACGCCCGAAGTTACATTATACAATAAAGAAGGAAAACGTTTAAATGTAAGAACAAGTCCATCTAAGATTAGTGTAACGTTGAATGTGGCAACGCAAACTACAGCCAATAATACTGAAAAAACTGTTCCTGTAACGTATACGAAGAAGGGGAGTTTAGCAGAAGGGTTGGCAGTTACAAATATCAGTGTCGAGCCGAGAGAAGTAACGATAGCTGGTCCAAAAGATATTTTGGATAATATACAATCGCTAGAGGGGGTCGAAGTAGATTTTAGTCAATTGACAGAGTCTACAACATTCGATGCCTCTGTTTTATTACCCAAGGGTGTAACAAGTGCAAAACCGAATCAAGTGAAGGTTTCGGTGGGAGTACAAAAAACAAAACAAACGAAAACAAAAACGATTGATGGTATCCCAATCCAAAAAAATGGACTTTCTAAAGATGTTACGGCTCAGCTAATTTTGCCGCAAGATGAAAAGATAAGTGTTGATATTTCAGGAGAAGCAAGTATAGTAGATAAAATAACAGCTGCTCAAATAACAGCGGTAATTAATCTGCAAAATGTATCTTCAGGGACGAAAGATATTTCTATTCAAGTGAGTGGTCCTGGTAATATTTCAATAGAGCCAAAACAAAAAAGTGCTAAAGTTACTATTGTAAAGAAAGAAAAACCAGATAAAGAAGTACAGGGTAACGGTCAACAACCGGATTCAAACACCAATCAAGAAAATCAAAATGAGAAGCCAAAAAATCCTGAACCCGATCCAGAAAAGGAAACGGAACAGGAAAATAATCAAAACCAAAATCAAGATAAAGATAAAGAAACTAGTCAAGAACCAACAGTAGATAACCATAATCAAAAAGAGCAAGAAAAAGGAGCGAATCATAATGGGTAA	MDKLMENHWFLKGISLLLACMLFMSATLTEKNTTSGILPFANDTKETLTNYAINLKYDEEKYIVSGIPAEGVKVKLEGPKASVATVKAKKQFDIPIDLRDSPKGTYEISLKTNGLPDDVKGTVQPSTIKVTLHEKARKYVHVDLKLSNEDQMPAGATLEKSSLKPDTVEVVGTKEEIESISSAKAYVDLKGVNKTVTKTPEVTLYNKEGKRLNVRTSPSKISVTLNVATQTTANNTEKTVPVTYTKKGSLAEGLAVTNISVEPREVTIAGPKDILDNIQSLEGVEVDFSQLTESTTFDASVLLPKGVTSAKPNQVKVSVGVQKTKQTKTKTIDGIPIQKNGLSKDVTAQLILPQDEKISVDISGEASIVDKITAAQITAVINLQNVSSGTKDISIQVSGPGNISIEPKQKSAKVTIVKKEKPDKEVQGNGQQPDSNTNQENQNEKPKNPEPDPEKETEQENNQNQNQDKDKETSQEPTVDNHNQKEQEKGANHNG				NA	NA	NA	NA	NA
AK009_06748	822	cdaA	COG1624	Cyclic di-AMP synthase CdaA	ATGCCTTTTGAAGATACGACCATTTTGAAATATCTTAGTACGGCATTAGATATTGCCATTGTATGGTTTATTATATATAAGCTGATTCTCATAATCCGAGGGACGAAAGCTGTTCAACTTTTAAAAGGGATTACAGTTATCATTGTCGTTAAGATGATTAGTATTTTCCTTGAATTGCATACGTTATCTTGGCTAACTGAACAAGTATTAACATGGGGATTTTTAGCCGTTATTATTATCTTTCAGCCAGAATTGCGAAGAGCACTTGAGCAGCTAGGGCGCGGGAGTTTATTTTCGCGTGGTGGACCGCATGAGGATGATGAACCTGAAATGGTTGCAACAGCGATAGCAAAAGCAACCGAATATATGGGGAAACGTAGAATTGGTGCATTAATTACTTTGTCAAAAGAGACCGGTATGGGTGATTATGTGGAAACGGGTATTCCGCTGAATGCAAACGTATCATCGGAATTACTTATTAATATTTTCATTCCAAATACACCTCTTCATGACGGAGCGGTAATTATGCAAGGAAGTACAATTAAAGCAGCAGCATGCTATCTTCCATTATCAGAAAGTCCGTTTATTTCTAAAGAATTAGGAACTAGACATCGTGCTGCAATGGGAGTTAGTGAAGTTACTGATAGTATTACAGTAGTTGTGTCTGAAGAAACTGGTCAAATTTCTTTAACGAAAAATGGTAAGTTGCATCGTGATTTGAAGACAGAACAGCTGAAGGATATGTTATTAGCTGAATTTAGTGGGAACGAAAAAACGACTTCTTCGTCTTTATGGAATTGGAGGAGAAAGCGTCATGGATAA	MPFEDTTILKYLSTALDIAIVWFIIYKLILIIRGTKAVQLLKGITVIIVVKMISIFLELHTLSWLTEQVLTWGFLAVIIIFQPELRRALEQLGRGSLFSRGGPHEDDEPEMVATAIAKATEYMGKRRIGALITLSKETGMGDYVETGIPLNANVSSELLINIFIPNTPLHDGAVIMQGSTIKAAACYLPLSESPFISKELGTRHRAAMGVSEVTDSITVVVSEETGQISLTKNGKLHRDLKTEQLKDMLLAEFSGNEKTTSSSLWNWRRKRHG				NA	NA	NA	NA	NA
AK009_06749	894	rocF		Arginase	ATGAAAAAAGAAATTTCAGTTATTGGAGTTCCAATGGATTTAGGACAGATGCGTCGTGGAGTTGATATGGGACCGAGCGCGATCCGTTATGCAGGGGTAATTGAAAGAATTGAAGAAATTGGATATGACGTTAAAGATATGGGAGATATATGTATAGAGAGAGAAAAAGAGGTAGATGAAAATACAAAATTAAGAAACCTTACACAAGTTGCAACTGTATGTAATGAATTAGCAAGTAAGGTGGATCATATTATAGAAGAAGGTCGTTTTCCACTTGTATTAGGTGGTGACCATAGTATTGCTATCGGTACATTAGCTGGTGTAGCCAAACATTATAAAAACTTAGGTGTTATTTGGTATGATGCACACGGTGATCTAAATACAGAGGAAACTTCACCATCTGGAAATATTCACGGTATGTCACTTGCAGCAAGTTTAGGTTATGGACATTCTTCACTTGTAGATTTATACGGAGCATATCCAAAGGTGAAAAAAGAGAATGTTGTAATTATCGGTGCGCGTGCATTAGATGAAGGAGAAAAAGACTTCATTCGCAATGAAGGTATTAAAGTGTTCTCGATGCATGAAATTGATCGTATGGGGATGACGGCTGTTATGGAAGAAACAATCGCATATTTATCTCATACTGATGGTGTACACTTATCATTAGATTTAGATGGTCTTGATCCTCATGATGCACCAGGTGTTGGAACGCCTGTAATTGGTGGTCTATCTTATCGTGAAAGCCACTTGGCGATGGAAATGTTAGCGGAAGCTGATATTATCACATCTGCTGAATTTGTTGAGGTAAATACGATTTTAGATGAGAGAAATAGAACGGCAACAACAGCAGTTGCTTTAATGGGTTCTTTATTCGGTGAAAAACTAAAATAA	MKKEISVIGVPMDLGQMRRGVDMGPSAIRYAGVIERIEEIGYDVKDMGDICIEREKEVDENTKLRNLTQVATVCNELASKVDHIIEEGRFPLVLGGDHSIAIGTLAGVAKHYKNLGVIWYDAHGDLNTEETSPSGNIHGMSLAASLGYGHSSLVDLYGAYPKVKKENVVIIGARALDEGEKDFIRNEGIKVFSMHEIDRMGMTAVMEETIAYLSHTDGVHLSLDLDGLDPHDAPGVGTPVIGGLSYRESHLAMEMLAEADIITSAEFVEVNTILDERNRTATTAVALMGSLFGEKLK	PGPT0020100_1925	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
AK009_06750	1146	garK	COG1929	Glycerate 2-kinase	GTGAAAGTTGTTATTGCATCTGATTCATATAAAGAAAGCCTAAAAGCTATAGAAGTATGTGGAGCTATTGAAAGAGGTTTTAGAGCGATTTTTCCTAATGCAGAGTATGTGAAAATACCAATTGGAGATGGAGGAGAAGGGACGGTTGAATCACTTGTTGATGCTACAGGGGGGAGAATTATATCAATTAGTGTGACAGGACCGCTTAGAGAAGGTGTACAAGCTTTTTATGGCATTTCTAAAGATAAAAAGACAGCGTTTATTGAAATGGCAGCAGCATCAGGATTACAGCACGTTCCAGTTGAAAAGCGCAACCCACTTATTACAACGACAAAAGGAACAGGAGAACTTATATTACATGCGCTAGATCAAGGAGTGGGGTACATAATTTTAGGACTTGGAGGAAGTGCTACAAATGATGGTGGGGCAGGTATGTTAGCAGCTTTAGGAGTAAGATTTATAAATGACAAGGGTGAAGTAATAGATCCATCTGGAGGCGCATTACATTCAATTGATGCTATTGATTTTTCACAACTGGACCCACGCTTAAAGGGAGTAAAGATAGAAGCGGCCTGTGATGTGGATAATCCATTAGTCGGAATGCAGGGGGCATCTTTCGTATTTGGGAGACAAAAGGGTGCGAATGTAGAGATGATGAAAGAGCTAGATGAGAATTTAAAACATTACGCGAATATCCTTAAACGATATGTATCTTTTGATGTATCTGAAATACCTGGTGCAGGGGCAGCAGGAGGAATGGGAGCGGCTGTTATTTCAGTGTTAAAGGGAGAGTTGCGAAGGGGCATTGAAATTGTATTGAATTATACAAATTTCGATAAACATATAGAAGATGCAGATCTCATTATAACTGGTGAAGGTAGAATAGATGAACAAACTGCATATGGGAAGGCTCCTGTTGGTGTTGCGGGGCGTGCGAAACGTTTTTCTGTGCCTGTAATTGCTATTGGAGGGTCTGTATCATCTGATTATCCAGCTGTTTACGAGAAAGGAATAGATGCGGTATTTAGTATTACAACAAGACCGATGACACTAGAAGAAGCATATAGAGTAGCAGAAGAAAATATTGAAATGACAACGAAGAATATTGCAGCAGTATGGAAAATAGCGTCAGAAAAACACTTCTAA	MKVVIASDSYKESLKAIEVCGAIERGFRAIFPNAEYVKIPIGDGGEGTVESLVDATGGRIISISVTGPLREGVQAFYGISKDKKTAFIEMAAASGLQHVPVEKRNPLITTTKGTGELILHALDQGVGYIILGLGGSATNDGGAGMLAALGVRFINDKGEVIDPSGGALHSIDAIDFSQLDPRLKGVKIEAACDVDNPLVGMQGASFVFGRQKGANVEMMKELDENLKHYANILKRYVSFDVSEIPGAGAAGGMGAAVISVLKGELRRGIEIVLNYTNFDKHIEDADLIITGEGRIDEQTAYGKAPVGVAGRAKRFSVPVIAIGGSVSSDYPAVYEKGIDAVFSITTRPMTLEEAYRVAEENIEMTTKNIAAVWKIASEKHF	PGPT0018175_1414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK009_06761	1206			hypothetical protein	GTGTTAATGAGAAATAAAAAATTAGACGAAAGAATACAGGAGTACATCGATAAACAGTTTATGGATGTAAAAGGAACACAACAACTATTTGATATGAAAGAAGAGTTGTTTATAAATCTAAAAGAACGAATTTCAGATATGATTAAGGAGGGGTATACAGAAGAAGACGCATTTAAAAAAGGAGTCATTTCAATCGGAGATTTAAGTGATCTAGTAGAAGAAATGCAATCGTATGGTCAAGATGAAATGAAACAATCTATTGACTCTAAAGAAGCACAACATATGTCAACAAAAGGAATGATTGGTGGCATATTATTATTTCTTTTTGGGATATTCGCATCCTTAATAGCAAATTATGTACTTGGATCGCAATTATTTTTGATTACTTCTTGTCTTTTCACTGTTCCAGGTATGTTGTTGATTATTTATGGTTTACTAATAAAAGAGACACGTAAACGTTATGCAATGAATAAAACTCGTGCTAAACGTTATATTTTAGCAATCGGAACTTTTCTGTATGGTTTGTGTATATCAATTATAATCTACTCAATTCCACTAGAACTTGTTGCACTAGTCTTATTCATGGTATCCATTTTGACTAGTCTGGCTATCCTTTTACCGCTTCTACTGGCTGGAAGAAGTCGCTTAAAAAACAGGAGGATATATGGGATGAATGAATTCAAACATAAAACCCTTAAATTTTCCATTGTCGGTATAGGTATTATTTTGGTATTAGGAGGACTAGGACTTTTTCTCACCAATAAAGTTTTAATTGGTCAAGATAAACAAGCCTTTAAAAATCCAATCAATTTTAAAGAAGTTGACACGATTTTGTTGACTACCCATATACCAGAAGGGCATGAAGCAATTTGGAATCAACTGCAAAAGTATGAAGAACAAAAAGATGTTCGTATTAGCATGGTAAATTTAATAGACATAAGATCTCAACAAACACGAGAAATACATACGAAAACCTACAGTCCCTTCTTTCACGCATCAAATTATTCAGAAAGTAAGGTGCCTATAAAGGTCACATTATATGAAAATCATGAAGTCAAGTATGAAAAGACACTGCAACCAGGTGACATGTTTGCAATAAACGAACAACTAGGTCGTGGTAAGTATAGTCTAAAACTAGGATGTATAGGTCAAGGTTATTGTAAAGGTAAAGGTGCGATAACTGCTGGAGATATTAATTGGGATTAG	MLMRNKKLDERIQEYIDKQFMDVKGTQQLFDMKEELFINLKERISDMIKEGYTEEDAFKKGVISIGDLSDLVEEMQSYGQDEMKQSIDSKEAQHMSTKGMIGGILLFLFGIFASLIANYVLGSQLFLITSCLFTVPGMLLIIYGLLIKETRKRYAMNKTRAKRYILAIGTFLYGLCISIIIYSIPLELVALVLFMVSILTSLAILLPLLLAGRSRLKNRRIYGMNEFKHKTLKFSIVGIGIILVLGGLGLFLTNKVLIGQDKQAFKNPINFKEVDTILLTTHIPEGHEAIWNQLQKYEEQKDVRISMVNLIDIRSQQTREIHTKTYSPFFHASNYSESKVPIKVTLYENHEVKYEKTLQPGDMFAINEQLGRGKYSLKLGCIGQGYCKGKGAITAGDINWD				NA	NA	NA	NA	NA
AK009_06762	354			hypothetical protein	ATGAGTGTTATATCTACAGACTTAATCCGTGGACATACGGACATGATCATCTTAAATGTTCTTCGTCAAGGTGATAGTTATGGATATGAAATGTACAAAAGGATTATTGAATTAAGTGACAATCAATATGAATTAAAGGAAGCCACTTTATATACAGCTTTTCGTCGATTAGAGAAAGAAGATTACATCTCTTCCTATTGGGGAGATGAAACTCAAGGGGGAAGACGAAAATATTACCGCATTACAGAATCTGGTATGAGTTTTTACGAAAATAGTAAAAAAGAGTGGAACATTGCGAAAGAGATTATAGATCGTTTAATTAAAGGAGCGATTACAGGTGTTAATGAGAAATAA	MSVISTDLIRGHTDMIILNVLRQGDSYGYEMYKRIIELSDNQYELKEATLYTAFRRLEKEDYISSYWGDETQGGRRKYYRITESGMSFYENSKKEWNIAKEIIDRLIKGAITGVNEK				NA	NA	NA	NA	NA
AK009_06763	381		COG3385	IS4 family transposase ISBce7	ATGGAATATAGTGGAAATCATTTTTTTCAAATTCATCATTGTAAAAAGATAAAGCCAGAACGATTAAAATGCCATTTGTATGGTCAATTGATTGCCATTCTACTTTGTTCCTCTATCATGTTTAAAATGCGCCAATTACTCCTCATGAAGAAAAAACAAGAGCTTAGTGAATATAAAGCCATATATATGATTAAAGACTATTTTCTTCTTCTATTCCAAACAATACAAAAAGACACCCAAAAGTTATCAAAGATACTACTTCGCCTGTTCAACCTTCTACAGCAAAACGGACGAAAATCCCATAGGTACGAGAAGAAAACAGTCTTTGATATTTTAGGCGTCGTATACAATTATTCCATGTCTCATAATCATGCAGCTTAA	MEYSGNHFFQIHHCKKIKPERLKCHLYGQLIAILLCSSIMFKMRQLLLMKKKQELSEYKAIYMIKDYFLLLFQTIQKDTQKLSKILLRLFNLLQQNGRKSHRYEKKTVFDILGVVYNYSMSHNHAA				NA	NA	NA	NA	NA
AK009_06764	249			hypothetical protein	GTGTATATCACAGGTGCTTTTTATTTTTATTTTGATCTAGGACTTGAATTAAATTTTTATACTAAAATATATATAGGAAAAGGTGGAAGTTCATTGTACAAAATTATTTATGGAATATTAATTTTAATTTATACTTTGTATTCATTTTTTGTAAGTGATGGAAGTGAAGTAAGGTTTATTATGGTGTTAACTATAGTACTTATATTTTCTGTGGTTTTAGAAAAAGGGAATGTAAAAAAACAGGATTGA	MYITGAFYFYFDLGLELNFYTKIYIGKGGSSLYKIIYGILILIYTLYSFFVSDGSEVRFIMVLTIVLIFSVVLEKGNVKKQD				NA	NA	NA	NA	NA
AK009_06765	192			hypothetical protein	ATGACTACAACAGTATTAACAGGGCACTCTTTTAAATACGGGAAATTATTAGCAAATGGAGAAAATGTTGAAGATGTACAAACAGATAAACATATTCCATATAAACAAAATGAATTGCAACAAGCTAAAAGTACGATTCTAAGAAGTTTGAGTTATAAAAAGAAAATAGATAAGTATAGTGAAAATAGATAA	MTTTVLTGHSFKYGKLLANGENVEDVQTDKHIPYKQNELQQAKSTILRSLSYKKKIDKYSENR				NA	NA	NA	NA	NA
AK009_06766	474			hypothetical protein	ATGATTAAAACATTATTAGCAGGAGCATTTTTAGGTACAGGATTATTAGCAGGAGGTGCAGAAGATGTGAAAATGGACAACCTAAAATCAAATGAAAATAGTCCAAATCAATCGATTACAATGAGTGCAGATGGAACAACGTCTTTCTCACAAAACTTTGAGTTACCTAAAGATACAGTACCAGCAACTCCTAAAGGAGATGCAAAAACTGTTGAAAGAACAGAAGGTACAGGTACAGATTCTGGGGAAGGAAAAATGGTAGAAACAAAAGTGGGAGCCCCTGAACAACGAGAAGGTGCAAAAACTGTTGAAAGAACAGAAGGTACAGGTACAGATTCTGGGGAAGGAAAAATGGTAGAAACAAAAGTGGGAGCTCCTGAACAACGAGAAGGTGCAAAAACTGTTGAAAAAACAGAAGGTACAGGTACAGATTCTGAAGAAGGAAAAATGGTAGAAACAAAAGAAGGAAATTAA	MIKTLLAGAFLGTGLLAGGAEDVKMDNLKSNENSPNQSITMSADGTTSFSQNFELPKDTVPATPKGDAKTVERTEGTGTDSGEGKMVETKVGAPEQREGAKTVERTEGTGTDSGEGKMVETKVGAPEQREGAKTVEKTEGTGTDSEEGKMVETKEGN				NA	NA	NA	NA	NA
AK009_06767	801			hypothetical protein	ATGAATACAATCGGTAAAGAAATTCGTGAATTTAGAAAGACATATAACCTAACTCGAAAAGAGCTATGTAAAGGAATATGTCCAGTATCCCATTTAAGTTTTATAGAAAATAATAAAGTAGAAGCAAAACCCGAAGTAAAACAATTACTTTTAGAGCGAATTGAGGAATTTAAGTCTAATCCTGAAATTAAGAATGATACGGTTTCGAATGAAAATATAGGAAAATTCTTTTTTAATGAACGATTAAAACATGGAATAAAACAAGAAAATTTGTGTTATGGCATATGTACGGTATCTTATTTAAGTAAAATTGAAAATAATAAACTTGTTCCAAGCTGTAATATCAAAAAATTGTTATATAAGAGATTAGAAGAAATCAAAAACAATACACTAACAGTAGATTTAGAAATACTTGAATTAGAAAAGTTATATGATACTATGATTTCATTTTTTTATAAGGAAAAAATGAATGATGCTAAAAAGATGTTAAATCGAGGGTTACGAACTACCAAAAATAAATACCCTAAACTATATTGTTTATTTTCCTATCAAAATCATTTATATTTTGACCAAACAAATTTTAAAAATTTTCTTGAAAAAACAGCCATTCCTTTTTTCAAGAATGAAAAAGATAATAAACAATTATCCATATCTTATATTGACTTAGCGACCTGTTATCAAAAGGAAAATCAATTTGAAACAGCTTGTTTATATTACCAAAAAGGCATCTCTTGTATAAGGATAGTTAAAAGTTTAAATATCATATCATCTCATAAAAATGTTCAGTTACAATTTTCATAA	MNTIGKEIREFRKTYNLTRKELCKGICPVSHLSFIENNKVEAKPEVKQLLLERIEEFKSNPEIKNDTVSNENIGKFFFNERLKHGIKQENLCYGICTVSYLSKIENNKLVPSCNIKKLLYKRLEEIKNNTLTVDLEILELEKLYDTMISFFYKEKMNDAKKMLNRGLRTTKNKYPKLYCLFSYQNHLYFDQTNFKNFLEKTAIPFFKNEKDNKQLSISYIDLATCYQKENQFETACLYYQKGISCIRIVKSLNIISSHKNVQLQFS	PGPT0011700_307	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
AK009_06768	1548			hypothetical protein	ATGAAATTAATATCAAAGATAGTAATGACTGCGTTAATAGTATTGAGTACATTTGCATTCAACTTAGGTGGAGAATTTGATAAGAGTTTTCTTTCTACCCCAAAAGCATATGGGGATGTAATCAAGGCACTTCCACAAAATGCGTCAAAGATAGAGTTAGATTATGCTTCTGTGTATGACTACGACACAGACGGGTGTTATGCGACTGCAGCAATTTCTCCAGATGGCACGACTAACCCTGGCCTAAGTTTGGGCGGTTCCCCGGAAAGTGTCTGTAGAGATGTTAACCGACTGGAAAATTCAAACACTTATTCTCGGGCCAAATCAAATAATGGTTGGACTGCCATTATGTATGCGAGTTACTTTGAGAAAGATCAATCAACTTCGGGCCCTGTTGCGCTTGGACATCGACATGACTGGGAACACACAATAGTTTGGGTTAAAGATAGTCAGGTTCAATATGTAACTTATTCAGCACATGGTAATTGGTACACTAACCCTCGCTCAAACGTTAGATTCGATGGAAACCACCCGAAAATTGTATACCATAAGGACGGCGGCTCGACACATGCTTTTCGCCTGGCTAATAGCAATGACGAGCCGCCAGAAAACTATTATCACCAGTGGCTCCAACTACCAATGGTTGGTTGGAATGGCTATCCAAGCCCAAATATTCGTGAAAAACTAATGACTACGAACTTTGGAGATGCAACACTTGAGATCAAAGATGGAAGATTTGAAAAAGCCCTTGCTAACGCAAAGCCACCCATTAACTTTGACCCTTATGCACCTGAACTGGAAGATGGTGGTACTTATCAAATAGTTTCTATTTTAAATAATAGTAGTGTCGTTGACTTAAATCAAGCAGATGGAAATGTTCAATTGTGGCAAAATGGCAACGCTAATAATCAAAAATGGAAGCTAGTATATGATTCAAATAAATCAGCATACCAAATTAAAAATATAGCAAATCAAAATTTAGTGTTAACTTGGAATAATCTTAATGGTTCCAATAATGTAGTTGCTACAACTAATCAAAATAAGGAAGAGCAATATTGGATACCAACAGAAGCAGGAAATGGATATTATTATGTAAGGAATAAGAAGGATCAAAACAAAGTGTTAGATGTAAGTGGTTATGGTACTGCAAATGGAACAAATGTTACAGTATATAATTTCCATGGTGGTAATAATCAAACATTCCAATTGTCTAATGTAACAGGGACTTTAACAAGAGAAGTGGAGTCACTCTATAAGGCACAGCCTGGTCAAACCAGTAGATCAAGTAATAATTTTTCACTTGAACATCTCGCGGCAGGTACCAAAGTACGAGTTGTTTTAGAAGGAGCAGGTGCTACCTCTTTGTCATTTAAAATCGCAAGAGATAAATCAGGTACAGACCCTGTAATTTGGTCAAATGTTAGAGATGGTTCTATTCTAACGATCCCTTCAGGAGATGATAGAAAGAATTTGTATATCGCAGGTCCTCCTAGCGGATATACTTCTAACGGTACATTTAAAGTGAAATTTTACGCTCTTCCAAACTAA	MKLISKIVMTALIVLSTFAFNLGGEFDKSFLSTPKAYGDVIKALPQNASKIELDYASVYDYDTDGCYATAAISPDGTTNPGLSLGGSPESVCRDVNRLENSNTYSRAKSNNGWTAIMYASYFEKDQSTSGPVALGHRHDWEHTIVWVKDSQVQYVTYSAHGNWYTNPRSNVRFDGNHPKIVYHKDGGSTHAFRLANSNDEPPENYYHQWLQLPMVGWNGYPSPNIREKLMTTNFGDATLEIKDGRFEKALANAKPPINFDPYAPELEDGGTYQIVSILNNSSVVDLNQADGNVQLWQNGNANNQKWKLVYDSNKSAYQIKNIANQNLVLTWNNLNGSNNVVATTNQNKEEQYWIPTEAGNGYYYVRNKKDQNKVLDVSGYGTANGTNVTVYNFHGGNNQTFQLSNVTGTLTREVESLYKAQPGQTSRSSNNFSLEHLAAGTKVRVVLEGAGATSLSFKIARDKSGTDPVIWSNVRDGSILTIPSGDDRKNLYIAGPPSGYTSNGTFKVKFYALPN				NA	NA	NA	NA	NA
AK009_06769	111			hypothetical protein	ATGGAAGAAGGGCGTATTTCCTTTCAACAAGGGGTTAAAGAGTTTCTTATTATGATTGTCTGTTTTTGGTTCATTATGTTTCTCATGTATGGTGAAAGCCTGTTACAATAG	MEEGRISFQQGVKEFLIMIVCFWFIMFLMYGESLLQ				NA	NA	NA	NA	NA
AK009_06770	102			hypothetical protein	ATGAAAATTGGTGTATCTGAGTGGAAAGCATTGAAAAGAGAGACAAAGTTAAAGTTATTACGTTATGCGATGCTGGAAAGCGAGTATAAGTATGCAAAATAA	MKIGVSEWKALKRETKLKLLRYAMLESEYKYAK				NA	NA	NA	NA	NA
AK009_06771	261			hypothetical protein	ATGGAGCAGTTAACCATTTTTGACGTAATGGATGAAACTAAAAATAAACTTTATGAGGTATTAGAGAAAAATGGATTAAATTATAAAATTCATAAATACTATTTATATTCGAATTATGAAGGGGTTGTTCAGTATTATTATATAAGAACAACTGATAATACAATTATTGATTTGTGTCTCTCGGATTTTCCAGAAATCTTCGCTGTCCATGAAGGATTTAGCGATAAACAAATTAGAACGATTTACAATTGGAACTTATAA	MEQLTIFDVMDETKNKLYEVLEKNGLNYKIHKYYLYSNYEGVVQYYYIRTTDNTIIDLCLSDFPEIFAVHEGFSDKQIRTIYNWNL				NA	NA	NA	NA	NA
AK009_06772	189			hypothetical protein	ATGGAACGGAAAGTTAAAAAGATGATGGCTGATCTTCAATTTATTATGAATCATGGTCAAATAAGTGTAGATTTTATGGATCAAGGATATAAAAGAATGCTTTTTAGTGCATTAGAAGCTACAGGAAAACAGTTTAATGTGTATACCAATGAGCATAATGAAACAATCTTGTTCTTAGAGTTAGTTTAG	MERKVKKMMADLQFIMNHGQISVDFMDQGYKRMLFSALEATGKQFNVYTNEHNETILFLELV				NA	NA	NA	NA	NA
AK009_06773	153			hypothetical protein	ATGGCTGTTAATAAAGACAAGTACACTCAAATTTTAGTTACTTTTACAAAAGAACAAGTAGAACAAATAGAAAATTATTGGCATGAAAATAAGCTGAAGAACCGAAACGAAGCAATTCGTCAGATCGTAGACAAAGGGTTAAGTCGTAAATAA	MAVNKDKYTQILVTFTKEQVEQIENYWHENKLKNRNEAIRQIVDKGLSRK				NA	NA	NA	NA	NA
AK009_06774	663			hypothetical protein	GTGTCTAATCTACCAGAAATGCCAAACATATTACAAATTTTGATATATGGTTTTATCCTTTATGTTCTTTTTCGTATTTGTAAATTCATGTACCGGAAGATCCAGGAGCGAAGAATATTAAAGCGAATGGCTAAGTCTGGTATTCGTTATATAGACAAAATGGACGGACATCAATTCGAAGTGTACTTAAAAGCTCTTTTTCGAGAGTTGGGTTATTCTCCAACAGTTACAAAACAGTCAAATGATTTCGGAGCGGATCTGGTGTTAAAGGGGAAAAATCGTATTGTAATCCAGGCAAAACGCTACGGGATGAAAAATAGAGTTGGCATTAGTGCCGTACAAGAGATATATGCAGCACAAGCCTATTACAAAGCACACGAAGGCTGGGTTGTAACAAACAGTGTATATACAAGACAAGCGAAAGAATTAGCGGAAGCTTGCAATGTAAAACTAATAGATCGTGTAGAACTTCAGAAATTGATTAATAAAATCAATCAAGAATATTCGGCTGAAGATGTATATCAAGGGGTAACACCTGCAGCACGGAAATGTCCAACATGTAAACATGATTTAGTCGTTCGTAATTCAAATAAAACAGGAAATAAGTTTTTTGGCTGTTCACAATATCCTACATGTACACATACAGAACCAATCAATACATGA	MSNLPEMPNILQILIYGFILYVLFRICKFMYRKIQERRILKRMAKSGIRYIDKMDGHQFEVYLKALFRELGYSPTVTKQSNDFGADLVLKGKNRIVIQAKRYGMKNRVGISAVQEIYAAQAYYKAHEGWVVTNSVYTRQAKELAEACNVKLIDRVELQKLINKINQEYSAEDVYQGVTPAARKCPTCKHDLVVRNSNKTGNKFFGCSQYPTCTHTEPINT	PGPT0027250_1729	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
AK009_06775	978			hypothetical protein	ATGGCATATGTCAGTGCGGAGGATGCGATGAAAGCAAGAAACGTTGACTTGATTTCATATCTGGAAGCAAAAGGAGAAACGTTTAAGAAAGAAGGAAACTATTATCGTCATACGGAACATGACAGTCTCATCATTAAAGGAAACCAGTATGCCTGGAATAGTCGAGGGGAAAAAGGATATGGAGCGATTAGCTTTGCCATGATGTACTATGATATGACATTCCCACAAGCCGTGATGGACATTCAGAAGGGGGACTACAAAGAGTTTGATCGTTCAAAAGCGGAAGAGGAGCGCAAAAAAGAGCAGCAGCCGTTTAGTTATCCAAAACACTTAGAGGTTTTGAAACAAACAGAAATCAAGCAATACTTAATTGATGAGCGGAAAATAGATCCTCGCCTGGTGAACTGGTTGATTAAAAAGGATCTCATCGCCCAGGATAAGAAAAACAATGTCGTGTTCAAATGGAGAGAAGAAGGTGGCAAAGGGCAAGTCATTGGAATGAACCGTCAAGGTACTGTCAAAATGGAGAATAAGAGAGGAAGCTTTAAGCAAATTGTCCCGAATTATGAAAAAATCAATGCCGGTTTTACGGTTGATGTAGGTAAACCGGATAAGATTTATTTTTATGAAGATCCAATCGACATGTTATCTCATTGGAGTATCAAGCAAAATAAGATACAAAACGCTCGCCTGGTTTCTATGCATGGATTGAAGTCAAAAACAGTGATTCAATCTTTAATGGATGCGAAAAAAGAAGGGCACGATATTAAAGAGATCATTATGGCAGTTGATAATGATAAAGCTGGGAAAGACTTCATTCAGACAATGAAATGCTTTGTCGATCTTAAAGAGGATATCCCAACGAATGAAAAGGATTGGAACGATGTCCGGAAGAAACAAGTGAGTGAGCAACAGGCAAAAGAAACAGCCCAACCAAAGAAAATGAAACCAATTAAAGAGGTGGAGCGAAGTGTCTAA	MAYVSAEDAMKARNVDLISYLEAKGETFKKEGNYYRHTEHDSLIIKGNQYAWNSRGEKGYGAISFAMMYYDMTFPQAVMDIQKGDYKEFDRSKAEEERKKEQQPFSYPKHLEVLKQTEIKQYLIDERKIDPRLVNWLIKKDLIAQDKKNNVVFKWREEGGKGQVIGMNRQGTVKMENKRGSFKQIVPNYEKINAGFTVDVGKPDKIYFYEDPIDMLSHWSIKQNKIQNARLVSMHGLKSKTVIQSLMDAKKEGHDIKEIIMAVDNDKAGKDFIQTMKCFVDLKEDIPTNEKDWNDVRKKQVSEQQAKETAQPKKMKPIKEVERSV				NA	NA	NA	NA	NA
AK009_06776	2658	topB_3		DNA topoisomerase 3	ATGGGGAAAACATTATTTATTGCTGAAAAGTCGAAGGTAGCTGTTGAATTATTAAAATCACCTAGATTTAGAAACTCACAAAGGTATTCGGGGAGCAAGCCATATTATGGCTACTATGAAAATGAAAATTACATTATTAGTTGGTGCCGTGGGCACTTATTAGAACTAAAATATCCGGAGGAAATGGATGAAAAATACAAAGAGTTTAAATTTGATCACTTACCCATTATTTTAGAGCCGGAATATAAAGAAAAACCGGATAGTCTTGAACAAATTCAAATATTGGTTAAGTTGTTAAATCGTCCCGATGTAGATCATGTGGCAAACGCTTGTGATGCTGATAAGGAAGGTGAGCTTATCTATCGTGAAATAGTTGAATATGCAGGTGTGAACAAGCGAGAATCACGCCTGTTTATCTCTTCTTATGAAGCCGCAGAACTAGAGGGAGCCTTGAACCGATTAGAACCAAGAGCAGATTATGATGGACTTGCTCAATCCGCTAAAGCAAGGCAATACCTGGATTATATTCTAGGGATTAATGTTACAAGAGGATGTACATCCAAACTAGCAAAAAATCAATTTTTATTGGCTTCTGGTCGTGTTCAAATGTGTATCTTGAATGAAATCCGTCAGAGGGAAATCGCTATCCAAAATTATAAAGAACAAACCTATTACAATTTGAAGCTACTAACGGAAAACGGTTTATCACCAGTAATGAAAACAGAAGATCAACTGATAGATCCATCGCCATTACAAAAGCTTGGAGATAGCTTGAAAGAAACGAATGTAATCGTAACGGAATTTAAAGAGAGTACGAGAAAAAAGAAACCAAAATTATTATATAACTTAACGGATATCTACAAAGATGCTCACGCCAAACTGAAGATAAATGCGGAAACAGCAAAAAAACACATTCAGAGTTTGTATGAAGAAGGCTTTATTACTTATCCTCGTTCTTCATCCAGGCATTTACCTACTGAGCAAGTGGAACGAGTGAAAGAAGTAATGGCAGCATTAGAAAAAAGCACCTATGCAAATCTCGTACAACAAGTAATTCCATCTTCTATTACAAAAAAACACACTACATTTAATGATGAATTAGTCAGTAGTCACTTTGCCATCATCCCAACAACAAAATTATATGTCGGGACCAACCGAGATCCATTAGAAAAACAGTTATATGACTTAATTGTAAAACGATTTATCGGGAATTTTATGAAACCAGCAATCTACCTGGTAAGAGAAGTGCATTTTATAGATCAAGAGGGCAACACATACAGTACAAAAGAAAAGATCCTACAAGAGAAAGGGTTTCTAAGTGTGTTTCAAGAGGATATAGAGGAGGGGTCAGTTGAAGCATTCCAGATACCTATTTTACAAGAAGGAGATTCTTTCAGAATCGTTCAGTATGACTTGATTGAGTCTCGAACGAAGAAACCAGCCTTTCATACGGAAAGTTCTATTTTAACCTTTATGGAAACGGCAGGACGTAAATTAGATGATGAACATTTGAAGGAACTCATGAAAGGGAAACGGATTGGGACAGTGGCAACGGAAGAAACATTTATTCCGAAACTGTTAGATCGTAGCTATATTGATGTCACCAATAATCAAATTCGAACGACACCTATTGGTCGTGCTTTTATAGATGCTTTTCCGGTCGATACAATTAAAAATCCAGCTTATACGGCTGAAATGGAAGGGATGATTTACATGATTGAAAAGAACGAAATGAAATATGAGGAATTTGTAGAGAAAACAAATACGTTTGTAAAAGATACGGTGGAACAATTAGGCGCAATGGATGATAAGGTTTCGGATAGCATTATTAATACTTGGAATCAGCAAATCGAAGTGTGTAAATGCCCTTGTAGAAAGGGAAAAATCCTTCATAAAGGAAATTTTTACGGGTGCAGTAATTATCCGGAATGTGAAATCTCCTTACCGAAAAAAATTAAAGAAAAAGCGATTCCGGAAGCGCAAGCGAAAAAGCTGTTTGAAGATAAGAAAACAGATCTTTTAAAAGGATTTAAGTCCAATGAGAAGGAGTTTTCCGCTTATCTCGTGTTACATGAAGGAAAAGTTAAATTTCAGTTCCCAACACAAGAGGAGCTGTCATTTGGTAAATGTCCAAAATGTAAAAAAGGGGATATGCTTTATCGTAAAACATTTTATGGATGCACGGAGCATAAAAACGGATGTGATTTTATGTTACCAGCCAAAATGAAAGGGAAAGCAATCCCTGGCAATCAAATGAAGAAGCTACTTCAGTATAAAACAACGGATTTTATCAACGGCTTTCAAGGAGAAAAGGGAGAATTTACAGCAGCTATCTATATGGAAGCGGACGGAAGTTTGAAATTCCGTTTTCCAACGACTGAAGATCGTACCATTGGTAAATGTCCATTGTGTAAGAGTAGGGTTCTTGTAGGGAAAAGTAACTACTTATGTGAGAAATACAAAAAAGGCTGTGACTTCATTATTTTTGGTACATTCTCTGGTAAAAATTTAAGTAGTAACCATGTGAAAAAGTTATTAGAAAAGAATGTAACGGATCAGATCAAAGGGTTTATCTCAAACAAAAACGGGAAGAAATTTGACGCTCGTTTATCATACAGCGTACAGGAGAAGCGATTAAAATTCTTATTCGGCAAATAA	MGKTLFIAEKSKVAVELLKSPRFRNSQRYSGSKPYYGYYENENYIISWCRGHLLELKYPEEMDEKYKEFKFDHLPIILEPEYKEKPDSLEQIQILVKLLNRPDVDHVANACDADKEGELIYREIVEYAGVNKRESRLFISSYEAAELEGALNRLEPRADYDGLAQSAKARQYLDYILGINVTRGCTSKLAKNQFLLASGRVQMCILNEIRQREIAIQNYKEQTYYNLKLLTENGLSPVMKTEDQLIDPSPLQKLGDSLKETNVIVTEFKESTRKKKPKLLYNLTDIYKDAHAKLKINAETAKKHIQSLYEEGFITYPRSSSRHLPTEQVERVKEVMAALEKSTYANLVQQVIPSSITKKHTTFNDELVSSHFAIIPTTKLYVGTNRDPLEKQLYDLIVKRFIGNFMKPAIYLVREVHFIDQEGNTYSTKEKILQEKGFLSVFQEDIEEGSVEAFQIPILQEGDSFRIVQYDLIESRTKKPAFHTESSILTFMETAGRKLDDEHLKELMKGKRIGTVATEETFIPKLLDRSYIDVTNNQIRTTPIGRAFIDAFPVDTIKNPAYTAEMEGMIYMIEKNEMKYEEFVEKTNTFVKDTVEQLGAMDDKVSDSIINTWNQQIEVCKCPCRKGKILHKGNFYGCSNYPECEISLPKKIKEKAIPEAQAKKLFEDKKTDLLKGFKSNEKEFSAYLVLHEGKVKFQFPTQEELSFGKCPKCKKGDMLYRKTFYGCTEHKNGCDFMLPAKMKGKAIPGNQMKKLLQYKTTDFINGFQGEKGEFTAAIYMEADGSLKFRFPTTEDRTIGKCPLCKSRVLVGKSNYLCEKYKKGCDFIIFGTFSGKNLSSNHVKKLLEKNVTDQIKGFISNKNGKKFDARLSYSVQEKRLKFLFGK				NA	NA	NA	NA	NA
AK009_06777	129			hypothetical protein	ATGAATGTATGGCTGTTTGCGGGCTGTATGTTCCTTGTAGCTGTCTTTTTGAACATGTTGCTATTATTTGGGCACAGAATAATGAAAAAGCGGAGAAACAAGAAATCGAAGCGTGAAATTGCAGATTAA	MNVWLFAGCMFLVAVFLNMLLLFGHRIMKKRRNKKSKREIAD				NA	NA	NA	NA	NA
AK009_06778	2466			hypothetical protein	ATGACAGCTTACGCTGTATCTTCTTATTTTGGGATTGATACAAGTGAATATTCGTTAGGATATTTAGCGAGCTGGACACAAGGAAAAGAAATGAAAGATAAAACGAAGTTGTTGAAAGAAGTACATGAAACTTCAATTGAATTTATTGAAACAATTGAAAGCTCGTTGGAAAAAGAAAAAACAAACGAAAAAGGAGTAGATCATATGGCAAAACAAGTGTCTGAAAATAAAGATGGGAATGTAAGAGACAATTTTGAGGTTTTAACAGACATCCAACAAAATGCGCAGCGACTTATCAATGAAAGGCTTGGATTAAATTTTGAAAAACATTGGGAAAACTATGAAATTCAACTTTCAGAAGATAATCGTGTATTAGAAGAAATAAATCCTAATATTCGTTTGAATTTAGGGGAGATGGAACAGATTGTTTATGAATTTGGTACAAACAGAGAACAAGATACATTTAAAAAAATTGTGGATACATTAGAGCAATATTATGAAGCTGATTTGTTAGAAGATAGTTTCAATGATATACCAATCGCTAAGGTTTCGTTAGATCGTGAAAAGCGTTTAAAAGTCGATTGTATTAATGAGCATGTGAAAGAAAATCATAAAGATTTTTGGTTTCAAAATTCAGTGAGTTTGGCTTTGAATGTAATTAATCATCGAATTTCAACAGCACATAAAGAAGTAATGAATAATGAGATTGAATATAAAGGACTATATCCTAAATCTGAATCAGAAGTGATTTATTGCCAAGAAACAGGTAAGCCATTACAGCACAATGAAGAAGTTTTTCATGTAGAGGGTCATGGATATACAGTAGCAGAAGAGGCAAGTTTTAAAGGTTTGGATCAAGAGGATGGGTATTATACAACGATTGAATATGAGCAGGTTGAAGAAAAAATACTTGCACCAATTGGACTAGAAAAAAATGCTCAACCTAGCTTTGTAAATGAAAAACAGAATGAAAAAAATATTTTATTGGTGGAATACATGAGTTTAAGTAATACGACACAAGAGCTTGTTTCTGTTGCAGAGTTAAGGGAACAAGCAGATAGGAATCGAGCGTTTGAACCTGTAGAAGGTGCAGGGAAATTGAGTGATAAAGAATTTATTGATGCATTTAACGAAGCGAATCAAGAAAAGTATGCAGCATTAAATCAGGACGAAATTAATCGTCCAACTATGCTAGTTCAATGGAGCGACAACGAAACTTTTAAGAATAATCAACTGATTCCATTTGGAGAAGCCAATGAAAAAATGGCTGAAGTTATTACAAGTATTGAAAAAGCAAGGGAAGAAGCTAGAGAAAGAGGTGAAACCATCCCTTACGATCAAGCTCGTTATCATATTGTCATTCCAAAAGGAGTAGATAGGGATTTTGGGAGAATGGAGCTTGTGAGTATGGATCGTATGAATATGGGAGATGGGGACTACAAAACGCCATATGAACAAGTATTAAACGAGAAAAGGTATCTATCGGATGAAGTGAAGCAAGCGTTACGGGATGAGGTAGTGAATCATAGGAATAACAAAGAAATAACGATGGAAAAAGCACAGGAAAGTACATTAGAAAGCTTGAAAGAGGCACCTACTCATTTAGTTACAATTGAAGTGTTGGCGAAGGATATGCAAGATGAAGAGGTTGCAAGGATTCACATGATGGATGGTGTTACGAAAGATATTAATTATTTATCGGTATGGAACCAAGATAAAACAAATCCAGAAGATTTATATGTTTCGTTAATGGAGAAAAATGGAGAACGAGAAAATGTCTATTTAGATAACATTTTGAAGCCAGATTTATATGCAAAGGTTCAAAGCTCTATTTTTGATGGAAGAGGAAATTTATCATTTGTCATTCATGAAAAGGATACAAATATGAGTCTAGATGAAATCGTAAAAGATGAACTGTATGGACTCTTAGTTGATAAGGGGGAGGCGCAAAAGGATTACTCATTTAATGAAAAAGAAGTGGAATTATATAAAGAAATGAAGATGGAGGGATATGCACCTATTGCTTCTCTAAATCAACAAATTCAGCCTTTAAAAGAAAAGGAGCCAACTACATTAGATAAAGATTTAAGCCGGAAATTCGAAGCTTACAGACGTTCACAATATGAAGAGACACCAGATAATATTGATAGCATTGTCACTCGTGTAAAAGCTGAAGAGCGATATTATACAACAAAGTATGTTTCAATTGATAATGAGCTAGTAAGCCAGGAACATATAGTGAAATTAGAAAACCAGGTGGATGAGAAACTTGGGAAAGAAGGAATAACGGTGAATCAGTCTACAACTTCAAAGGAAACGGATTTTGATAAAAAGTTTCAGCCGGTGAATGGAAAAAAAACGAATGATAAAGAAAAAGAAACGGAAATAGATCCTGGTAATGTAGATCAGCCGAAGTCTACAAAGAAATCGGGTAGAAAAAAAGAAACAATGGAAATGGAACGATGA	MTAYAVSSYFGIDTSEYSLGYLASWTQGKEMKDKTKLLKEVHETSIEFIETIESSLEKEKTNEKGVDHMAKQVSENKDGNVRDNFEVLTDIQQNAQRLINERLGLNFEKHWENYEIQLSEDNRVLEEINPNIRLNLGEMEQIVYEFGTNREQDTFKKIVDTLEQYYEADLLEDSFNDIPIAKVSLDREKRLKVDCINEHVKENHKDFWFQNSVSLALNVINHRISTAHKEVMNNEIEYKGLYPKSESEVIYCQETGKPLQHNEEVFHVEGHGYTVAEEASFKGLDQEDGYYTTIEYEQVEEKILAPIGLEKNAQPSFVNEKQNEKNILLVEYMSLSNTTQELVSVAELREQADRNRAFEPVEGAGKLSDKEFIDAFNEANQEKYAALNQDEINRPTMLVQWSDNETFKNNQLIPFGEANEKMAEVITSIEKAREEARERGETIPYDQARYHIVIPKGVDRDFGRMELVSMDRMNMGDGDYKTPYEQVLNEKRYLSDEVKQALRDEVVNHRNNKEITMEKAQESTLESLKEAPTHLVTIEVLAKDMQDEEVARIHMMDGVTKDINYLSVWNQDKTNPEDLYVSLMEKNGERENVYLDNILKPDLYAKVQSSIFDGRGNLSFVIHEKDTNMSLDEIVKDELYGLLVDKGEAQKDYSFNEKEVELYKEMKMEGYAPIASLNQQIQPLKEKEPTTLDKDLSRKFEAYRRSQYEETPDNIDSIVTRVKAEERYYTTKYVSIDNELVSQEHIVKLENQVDEKLGKEGITVNQSTTSKETDFDKKFQPVNGKKTNDKEKETEIDPGNVDQPKSTKKSGRKKETMEMER				NA	NA	NA	NA	NA
AK009_06779	204			hypothetical protein	GTGAAAATTATTGAGCTGAAGCAAGAACTTGGGGTTACAAAGGGAGTTAGTTACACCTTAACAAAAGAGGTTGCTTTGAATCCTAGAAACAGTGAATTGCAAAATGTAAAAACACTTCTTCACGAATTGGCGCATGCCAAACTTCATACAGCAGAGACACATATGCATTACACAGCACCAGAAAAAGAGTTCAAGCAGAAATGA	MKIIELKQELGVTKGVSYTLTKEVALNPRNSELQNVKTLLHELAHAKLHTAETHMHYTAPEKEFKQK				NA	NA	NA	NA	NA
AK009_06780	582			hypothetical protein	ATGAGTAAAAGTTATAAGAAAAAGTATCAAACGAAATCACCAGAAGAAAAGAAAGAAGCGGTGCAAGCTTTAACAAAAAAGATGGAAAAAAGCGTTGAAGGTTATTTTCGTACACCGGGAGATTTAAAAGAGTATCTAACGTTTATGGCAAAGTTTTATCACTATTCACCATCTAATATTTCATTAATACAGAGTCAATTCCAGGGAGCCAGTGCAGTTGGTTCCTTTTCTTTTTGGAAAGAAAAAGGATTTCCCGTTAAGAAGGGTGAGAAAGGAATTAAAATTCTTGTTCCAAACCGAACTGTAGCAAAATTTAAGGACAAAGAAGGCACTTGGAAAACAGTAACTAAAGCAAATGAGCAAGAGAAAAAACAAATTGAATCTAAAAGCGTAGAAGTGAAACCAGGTCGCTTATATTTTGCTGTCGGTCATGTGTTTGATGTGTCCCAAACAAACGCAAAAGCGGAAGATCTTCCTCGTATTTTTCCGAATCGTTGGCTAGACGGGAGCGTAACAGATTACAAGAGTTTGTACAAGGGAATGGAAGCCATTGCGGAAAAAAAACGGTGTGAAAATTATTGA	MSKSYKKKYQTKSPEEKKEAVQALTKKMEKSVEGYFRTPGDLKEYLTFMAKFYHYSPSNISLIQSQFQGASAVGSFSFWKEKGFPVKKGEKGIKILVPNRTVAKFKDKEGTWKTVTKANEQEKKQIESKSVEVKPGRLYFAVGHVFDVSQTNAKAEDLPRIFPNRWLDGSVTDYKSLYKGMEAIAEKKRCENY				NA	NA	NA	NA	NA
AK009_06781	276			hypothetical protein	ATGTTATTATTTCATGAAGATATCGCATTAGGAGTCATTAAAGAGGTTGGAGAAGGTGAACTTATTTTACTTGTAAAAGAGGAAGAACTAACAATCAAATTTACACGAGAACAAGAGGAAGAACTTGCAGTCCATGTCATGAATCAAGAAAATATGTTAGTTCCAGTTAATGTGAAAACTCATGAGCTTTTCTTTGATACAGCTGAGAGATGGAATGAAGAGGAAATGGAGGAATTACAAAAAGCAAGTGAAAGAGTAGGAGAAGATCATGAGTAA	MLLFHEDIALGVIKEVGEGELILLVKEEELTIKFTREQEEELAVHVMNQENMLVPVNVKTHELFFDTAERWNEEEMEELQKASERVGEDHE				NA	NA	NA	NA	NA
AK009_06782	432			hypothetical protein	ATGAAAGACTTTCGCATGCAAATTACATTGGATGAGGAAACAGATACGTATATTAAAGATTACATGGAAGAACACAACATCAGATATAACGGTGAAGCAATTGTTAGGATTTGTAGAGAACATCAGGCATCCAAAAATACAGAATGGTCATTGAATTATATTTCCGAAATTGTATCAAAGAATTTACACGATGTGTTGAAAAGTGAACTAACAAAAATTCGTCTTGGTGCAAATAGTGCGGATAGAAATACGCAAATTTTAATCGAATTATTAAATGGTTATTTCTTTTTAGAGGGTGTAGATAGTCTTATTACGACTGATAAACAAGAGATGGGAAGTGTGAAGATAGCAAAAGAAGTCGTAGCGGAACGGATTAGTAACGCAAGACAAAAACGTTTAGATCATGAGGCATCAAAGAACAATGTAACGTAA	MKDFRMQITLDEETDTYIKDYMEEHNIRYNGEAIVRICREHQASKNTEWSLNYISEIVSKNLHDVLKSELTKIRLGANSADRNTQILIELLNGYFFLEGVDSLITTDKQEMGSVKIAKEVVAERISNARQKRLDHEASKNNVT				NA	NA	NA	NA	NA
AK009_06783	1194			hypothetical protein	ATGAATAATGCCATTCCTGTTCAATCTTCCGTCACACCAGGTGTTGTTTTAAAAACGAAATTTGTGTTGCCAAGTTCGGATGCTTTTCAAAACTATATTGATTATGTAGATCGGGAGGAAGCGAAAAGTGAAGTGAAGCTGAATCCGAAAATGTTCGAAACGTATCAAGAATACATGGGGAATTCAGAAAAGACATCGGCATTATTTACGGAACACGCAAATCGTTTAACAGAAAGTGAAAAAAAGTCCTTAAAGGAAATGTTTAAAACCGCTCATGAGAATGGAAGTATCATGTGGCAAGATGTCATTTCTTTTCATAATCCCTGGTTAGAGAAACAAGGAATTTATGATGAGATAACAAAAACGTTGGATGAAAAAAAGTTAATGGATGTAACACGGCTTGCGATGAGGGAAATGCAAAAAAGAGAGGGGTTAGAAAAAAGCTCTATCTGGTCGGCAGCCATTCATTTTAATACGGATAATATTCACATTCATGTGGCAACTGTTGAACCATATCCAACGAGAGAACGTGGTAAAAGAAAACCAAAAACATTAGATGCGATGAAGGGGAAAGTTGTAAATAATCTATTAGATCGTAAGCAGGAACAAAAACAAATTAATGATCTGATTAGAAATAATATGGTGGGAAGGAAAAAAGAGGATTCCGTTTTTGATTGGCGTAATCAACATCTGAAACCGTTGTTTTTACAAATCTATAAACAGTTACCAAGTGATAAAAGACAGTGGCAATATAGCTACAATACGATTCAACCATTAAAGCCGGAAATTGATAAATTAAGCAGTCGATATATTCAACATCATCATAAAAAAGATTACGATCAGTTTCTCCAAAAGTTAGATAAAGAAGTGCAAGTGTTTAAAGAAGCTTATGGGGAAGGGAAGTATGATAAGAAGCAATATGAAAATTATAAAACGAATAAAATCAATGACCTATATAAAAGAATGGGTAACGCCTTTTTACAAGAAATGAAGGCATATGATAAAGAGCAAAAGAGAATCCAGCATATGAAAAAATCAAAGCCGTTTCAAAAATTTAAGCAGAATATATCTATTCAGTACTCTATGAGAAAAGTGGAAAGTGCTTTTAAAAGTGAATATGAAAGTTGGAAGAACCAAAAGTATTATGAACGTATGCAAAAAGAAAGTGCATATCAAAATGAGAGGGGTTATTAA	MNNAIPVQSSVTPGVVLKTKFVLPSSDAFQNYIDYVDREEAKSEVKLNPKMFETYQEYMGNSEKTSALFTEHANRLTESEKKSLKEMFKTAHENGSIMWQDVISFHNPWLEKQGIYDEITKTLDEKKLMDVTRLAMREMQKREGLEKSSIWSAAIHFNTDNIHIHVATVEPYPTRERGKRKPKTLDAMKGKVVNNLLDRKQEQKQINDLIRNNMVGRKKEDSVFDWRNQHLKPLFLQIYKQLPSDKRQWQYSYNTIQPLKPEIDKLSSRYIQHHHKKDYDQFLQKLDKEVQVFKEAYGEGKYDKKQYENYKTNKINDLYKRMGNAFLQEMKAYDKEQKRIQHMKKSKPFQKFKQNISIQYSMRKVESAFKSEYESWKNQKYYERMQKESAYQNERGY				NA	NA	NA	NA	NA
AK009_06784	261			hypothetical protein	GTGAATCTAAAAATAAGAGATATAGATCCAGTTGCCTTAAAGAAAATAGATGAAATAGCAAAAAGGAAAGGAGTATCTAGGCAAAAATTTTTGAAAGCTCAAATTGAAATGTTGGCATTTTTTCAGCAACAAAATAAAAGGGAAATGGAATTAGAAAATCTTATTGAAAAGAACATCCATATGATGAGTGATTGTTATAACGCAATGGAAAAAATGAATGAGTTTATTCAAATGATGATGCAGGATGTTGAAAATGAATAA	MNLKIRDIDPVALKKIDEIAKRKGVSRQKFLKAQIEMLAFFQQQNKREMELENLIEKNIHMMSDCYNAMEKMNEFIQMMMQDVENE				NA	NA	NA	NA	NA
AK009_06785	897			hypothetical protein	GTGATAGGAGCGATTGGTAAGAAGAGTGAAAGAATCAATCTAAGAAAGAATAAGTCGTGGATCTACTTAACAATTATCAGCTTTCTATTTTTTGGTTTTTTCGCTTTCTTGACATCAAAAATTTACATGCCAAACGATGAAAAACTATTTCATACAGAAACAAATAAAGTAATTAAGTTGTCGGGTATGGGGAAATTGATTGTAGAGAAAAGGGAATACAATCCACACAAAAACTTTATACAAATTTCCTTTCGATTAGAAGGATATGAGGAAACAGGATATACATTTAAAGCACAGCAAAAAGCAAATCCAGGTGTCCAATTACCTGTCAAAGTATTGTATGAGGAGAACGGAAAATACGTAGTAGAAGTAAAAGACTTATCTCTGAATTGGGGAGCGTTAGCTTTCGATATTTACAATAAAAGTAGTGAAAAAGAACAAATGGATATTCGTAAATTTACACAAGATGTGAACGAATATGAAGAAGAAAATGCATCAACAAAGAGTCCAAATAAATTAGTTCAGACGATTTTTACCGATCAAAGAAAAACAAAAGCAAATGACGAATTGATAGCTGAAGATAAAAAAACATATGAGCTAGATTTTATAGAAAGAGACAAAAAGGATATCGAAACAAAGATAAAAAATTATGGGAAAGCAATCAAACTGGAAGAAGAAAATGCAAAGACAGTTTATGAAAAAGTAAAGGAATTACAAGATGAAATGAAGTACCAAACGGAAGCAGAAAAAACGGAAACACAATCAAAGATAGCATCCTTAGAATCTAAAATAAAATCATCAGAAAAGAACGTGGAATTGTTTAAAGGAGAACAAAAAATTGCACGAGATAAAATCAAAAAATTAGAAGAAAAGTCACAAGAAATTAATAAAAAGTGA	MIGAIGKKSERINLRKNKSWIYLTIISFLFFGFFAFLTSKIYMPNDEKLFHTETNKVIKLSGMGKLIVEKREYNPHKNFIQISFRLEGYEETGYTFKAQQKANPGVQLPVKVLYEENGKYVVEVKDLSLNWGALAFDIYNKSSEKEQMDIRKFTQDVNEYEEENASTKSPNKLVQTIFTDQRKTKANDELIAEDKKTYELDFIERDKKDIETKIKNYGKAIKLEEENAKTVYEKVKELQDEMKYQTEAEKTETQSKIASLESKIKSSEKNVELFKGEQKIARDKIKKLEEKSQEINKK				NA	NA	NA	NA	NA
AK009_06786	579			hypothetical protein	ATGAAAGATAAACGAAAATCTTTGTTTATTGTGTTTGTCATTTTAGTTATAGGTGTGACAGCTTTTAATATCTATTTGAGCAAAAAATCAATGAGTGATGGCAAAGAAAAACAGTTAAAACTTTCAAATGAATTACTAACAAAACAAAATGAAGACTTAAAAAAACGACTGGATAAGGTGCTTCCTTCCGCACAAGAACAACAGAGAAGGGCGTATTTATCGACAGCCGAAACGTTTATTCAATTATCATTTCATCGAGAAAAAGAAGGCTACAGTGAACGAAAAGAAAAAGCAAAATCCATTATGAGTGAAGAACTATTACAACAATTTTATCCAACTGATAAATACGAATTAGGAGATACGTATAAAACGAAACCAATAGAAATGAAGTTTTATTTACAAGAAAATGAACCCGATAAAGAGGAGGTAAATGTGTTAGCTGAATTTATAAATGTCACGACAGATTCAACGCAAAACCGAGAAGAAAAAGTAAACAATGTGTTACGAATCATCATGAAAAAAGAAAATGAAACATGGCGAGTTACAAGTGTGGAAGAGTTAAATATGAAAGTTTTATAA	MKDKRKSLFIVFVILVIGVTAFNIYLSKKSMSDGKEKQLKLSNELLTKQNEDLKKRLDKVLPSAQEQQRRAYLSTAETFIQLSFHREKEGYSERKEKAKSIMSEELLQQFYPTDKYELGDTYKTKPIEMKFYLQENEPDKEEVNVLAEFINVTTDSTQNREEKVNNVLRIIMKKENETWRVTSVEELNMKVL				NA	NA	NA	NA	NA
AK009_06787	273			hypothetical protein	ATGTTGTCGTTAAATAAATCGAAAGTATATCTATTCTTAGTGGTTATGGCTGTCAATTTAGTATTAGGTCTTGTAAGTGTAAATATTGATTTAATCGTTGCGGTTCCATTCTTAGCACTTACGGTATTTATTGCAGTTAATGATGAAATTTTAGAGGAAGCTACAAAAGGTAAAGTAACTACATTATTTAAAAAGAAGACAGAACTAATGCTACTAATCTTGTTATGTCTTCTTTGTTTTTGTTCGGGGATTTTAATTTATAGAATCATGTAA	MLSLNKSKVYLFLVVMAVNLVLGLVSVNIDLIVAVPFLALTVFIAVNDEILEEATKGKVTTLFKKKTELMLLILLCLLCFCSGILIYRIM				NA	NA	NA	NA	NA
AK009_06788	477	cwlO	COG0791	Peptidoglycan DL-endopeptidase CwlO	TTGTACGTTGATGCAGTTTTAAAATATTATCAGCCGGGTTCTGTTGTTTCTGGTGGAGGAGGAAATCCAGGAAGTGGCGGAAGTAGCGGTTCAAAAGTTGCCGATGTAGGTCGCCAATGGATAGGGCGTTCTACCTATGTATTTGGTGGAGGACGTAACACAAATGACATCGCAAGAGGAATATTTGATTGTTCAAGTTTTGTACGCTGGGCGTTCGAACAAGTAGGTATGTATACCAGTCCAATAGGAGCTGTAAGTACGGAAACATTAAATAAAATTGGTACAAAAGTATCAGCAAATGATATGAAACCGGGTGATGTTATTTTCTTTGATACCTACAAACATGACGGACACGTTGGCATTGTAATTGATAAAAATACTTTCATTGGATGCCAAACGAATAAAGGTGTTTCTATTGAAGATTTAAATAATCCATATTGGAAAAAAGTCTTTTCTGGTCACGTAAGGCGATTCTAG	MYVDAVLKYYQPGSVVSGGGGNPGSGGSSGSKVADVGRQWIGRSTYVFGGGRNTNDIARGIFDCSSFVRWAFEQVGMYTSPIGAVSTETLNKIGTKVSANDMKPGDVIFFDTYKHDGHVGIVIDKNTFIGCQTNKGVSIEDLNNPYWKKVFSGHVRRF	PGPT0023995_1521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK009_06790	1824	ltrA	COG3344	Group II intron-encoded protein LtrA	ATGCAAAGTCCAAAAGTAGTATTAAGCAACCTGCAAAAACAGAGTCAGAAGGAAGACTATAAATTCCGACGACTCTATCGAAATTTGTATAATCCAGAGTTCTATTTCACGGCGTATGACAATCTTAGTAAAAATGATGGTGCACTCACAATGGGTGTAGATAAACGATCTATTGATGGATTTTCAATAGAAATTATTGAAGAACTTATAGAAACTCTTAAGCAACGGACATATCAACCGTTCCCATCAAAAAGAGTATATATCCCTAAGAAAAACGGAAAGAAAAGACCATTGGGTATACCTAGTTTTGCGGATAAATTGGTGCAAGAAGTTGTGAGAATGATATTGGAAGCGATATATGAACCAACGTTCTCCATATCATCACATGCTTATCAAAAAGGTAAAAGCTGTCACACGGCACTTCAAGAAATCCAAAGAACGTTTACTGGTAGCAAATGGTTTATTGAAGGGGATATTAAAGGGTTTTTTGATAACATAAATCATCATACTTTAATTGGCATCTTAAGAAAACGTATTGAAGATGAGGCATTTATTGAACTGATATGGAAATTTCTTCGTGCTGGATACATGGAAGAATGGAAATTTCATAATACCTTTAGCGGTGCACCGCAAGGTGGTATTATCAGTCCACTTCTTTCGAATATCTATTTAAACGAACTGGACAAATACATGATGGATTTTATACAAAAATTCAATCAAGGAAAGAAACGTAAGATAAATCCAGACTACGAAAGAAAATATACTCAAATGAGAAAAGCGATTCGGAAGTATAAAATTGCATTAGAAAATGAACAAATGGGAGAAGCGGAGCAACATTTAGAACAAGCTAAAGCATTAAAGAAGGAATTAAGCTCAATTCCATATAGCAATCCGATGGACTCAAATTATAAACGTCTTACTTATGTCAGATACGCTGATGATTTTCTAATTGGTGTGATTGGTTCGAAGTATGACGCTAGAAATATTAAGGAAACACTGACTGAGTATCTAATGGAGACACTTCAATTGGAATTGTCACAAGAGAAAACGCTTATAACCCATGCTTCCGAAAATCATGCAGGATTTCTCGGTTATAACATTCGTGTTTTTAGAGGAAGTGAACCTCGAAAAGATGCGATTGGCAGAGTATGTAGATACCTTAATGGAAAAGTTCAGTTAAAAATGCCTCACGAAGCTTGGGTTAACAAGTTGAAGAAATACCAAGCTATCAAAATGAGTGCCGATGGCACATGGATGCCAAAAGATAGAGGGTACTTCCTTCATAATGAAGATTTAGAGATTGTCGCTCAATATAACAGTGAAATAAGAGGGTTATACAACTATTATCGGCTAGCAGAAAACGTGAGTAATCATATGCATCGTTTTGCTTACTTTATGTATTACTCTATGCTGAAAACATTTGCATCTAAGTATAGAGTTAAAACAAAAGAGATTCGAAAACGATATGAGAAAAATAAGCGATTTACTGTCACATATAAAACATCTCGAGGAGAAAAACAAACATATTTCATCGAACGTAGTTTTCCAAGAGAGAAAAGGTCAAAAGAAGCGAATCTAGACCTACTTCCAGCTACAAAATATGTGTTAAGTGAAACGAGACTTTCTGATCGAATCAAAGCAGAACAATGTGAATTGTGTGGGAAAACCAACACCATAATTCATATGCATCACGTAAAAAGGTTGAAAGACATTAAAAATAAGCCGAATAAATCCTTCCTAGAGCAACGTATGGTTTCAAGGAATCGTAAAACCATAGCGTTATGTAAGGAGTGCCACGTTAAAAGGCACAAAGGAGAAGTATAA	MQSPKVVLSNLQKQSQKEDYKFRRLYRNLYNPEFYFTAYDNLSKNDGALTMGVDKRSIDGFSIEIIEELIETLKQRTYQPFPSKRVYIPKKNGKKRPLGIPSFADKLVQEVVRMILEAIYEPTFSISSHAYQKGKSCHTALQEIQRTFTGSKWFIEGDIKGFFDNINHHTLIGILRKRIEDEAFIELIWKFLRAGYMEEWKFHNTFSGAPQGGIISPLLSNIYLNELDKYMMDFIQKFNQGKKRKINPDYERKYTQMRKAIRKYKIALENEQMGEAEQHLEQAKALKKELSSIPYSNPMDSNYKRLTYVRYADDFLIGVIGSKYDARNIKETLTEYLMETLQLELSQEKTLITHASENHAGFLGYNIRVFRGSEPRKDAIGRVCRYLNGKVQLKMPHEAWVNKLKKYQAIKMSADGTWMPKDRGYFLHNEDLEIVAQYNSEIRGLYNYYRLAENVSNHMHRFAYFMYYSMLKTFASKYRVKTKEIRKRYEKNKRFTVTYKTSRGEKQTYFIERSFPREKRSKEANLDLLPATKYVLSETRLSDRIKAEQCELCGKTNTIIHMHHVKRLKDIKNKPNKSFLEQRMVSRNRKTIALCKECHVKRHKGEV				NA	NA	NA	NA	NA
AK009_06791	216			hypothetical protein	ATGACTTCAAGGCTCTGCCAAGAAGTGTGGCTCATGAATATCCAATACGGTAACGGAGTCTTCATAGTAGTCCGAGCTAGGGAAAGCCTAGTGCATGGCGAAGGAAGACAGTCTGTCCGCTTAAAAATGAAATTGGGGAGGTGCGAAAGGCATCATGCAAAGTCCAAAAGTAGTATTAAGCAACCTGCAAAAACAGAGTCAGAAGGAAGACTATAA	MTSRLCQEVWLMNIQYGNGVFIVVRARESLVHGEGRQSVRLKMKLGRCERHHAKSKSSIKQPAKTESEGRL				NA	NA	NA	NA	NA
AK009_06792	663			hypothetical protein	ATGCATCTAGTTTTAAAGGTTATACCAAAGAAATGGCTCATCACTTTAGCGCTACTTGTGATGGGTCTTTTTTCTTTTCTTTTACTTGGAGTTATGAGTATTTTTATTGCGGCAATGGGTGAAGAGAGTGGAACAGACGCAGGTGATATTACGTATACAGGTGAAGGGCAGGTCATGAATGTTTCGCCCGAAGTTTTAAAATGGGAGCCTACGATTCGAAAGCATGCAAAAGCCTTTGGTGTGGAACCATTTGTAGCTTTAATGCTTGCTCAAATGATGCAAGAGAGCGGAGGACGTGGTAGTGATCCAATGCAGAGTTCCGAAGGCGCTTTTAATACGAAATATTGTAAATCACCAAACTGTATTACAGATCCAGACTATAGTATTTGGGCTGGTGTACAGGAGTTTAAACATGCGATAGAAAGAGCCGGAGTAACGAGTCCTGGTGACATGGATCATATCAAAACAGCCCTCCAAGAGTACAATTTCGGGACAGGATTTTTTGATTTTGTTGGCGCAAATGGTGGTAAATATACGAAAGAATTAGCAATCAAATTTTCACAACAACAGTATCAAAAAGTAAAACATACAGGAATGTATCATTGTCTTAGACCAGAAGCCGTACCGTATCAAGCGTGTTATGGCGATATTGTGCGCCCGTAA	MHLVLKVIPKKWLITLALLVMGLFSFLLLGVMSIFIAAMGEESGTDAGDITYTGEGQVMNVSPEVLKWEPTIRKHAKAFGVEPFVALMLAQMMQESGGRGSDPMQSSEGAFNTKYCKSPNCITDPDYSIWAGVQEFKHAIERAGVTSPGDMDHIKTALQEYNFGTGFFDFVGANGGKYTKELAIKFSQQQYQKVKHTGMYHCLRPEAVPYQACYGDIVRP	PGPT0023995_1521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK009_06793	1938			hypothetical protein	ATGTTTGCGTTCAGGAGTAAAAAATCTAAAAAAGAAAAACAAGAGGAACTAAAAAAGAAGAAAGGTTACAACCCCTTTTTAGTGGCTAGAGTTCAGCCACAAGGGGGAATTAGTTTTAAAGAAAGTTATTTTCAAACAGGTGATGGATTAGGTACTTGCATTCATGTCTATGATTATCCAACAGAGGTAAATGATTTTTGGTTAGAGCAAATTATGAATATGCCAAATGTGATCACAACATTAGATGTCATGAGTGATAATCGAAATGAAGTTGTTGAATCAATTAATAAATCCATGAGTGAGCAAAGCGTTCGGCATGATACAGCAAAGGATAATATAGATCGGATCGATGCAAAAAATGAATTTTTAGAGCTGGAAGCTCTTTATACGGATTTGAAACAAGGTGAGGTCATGAAACGTATTCACATTCGTATTTATGTTTCCGCTAGAACAATAGATGAGCTAGAAAAACAAGTAAAAGAGATCCTGGAAACATTAGAATCTTATAATTTTCGAGGAGCTGTCTTTTTAAATGAACAAGAGTATGAATGGGATGCACTCGTAACGAGCTTTGATACACAAAAAAATTATGTGAACCGAAGAAAAGGGAAAGAAATTCCGGCAGTCAGTTTGGCTGGTGGGTGTCCGTTTCATTATTCCTATTTGCACGATCCATACGGTACGTATTATGGAACAACGAAAACAAAAGGAAATGTTATTTTTGATATCTTCCACAAAGACAATCAAAGAAAGAGTTATAACGGTGTAATGATTGGGAAGTCTGGTGCGGGGAAATCAACATTGTTAAAAAAGAAAAGTGTGGATTATGCAAGTAAGGGTCATTTTGTTCGGATATTTGATGTTGTAGAAGAGTTTACAGATACAGTGAAAGAACTAGGAGGAAAGACCATCTCATTAGACGGTTCTCAAGGTCAAATTAACCCACTTCAAGTCTACAAAACAGCAGAACTTGAAGAAGTTAGTTTCACTCAACATCTATCTAAATTGACAATTTTTTATCGATTCATTGCGCCAGAGGCAAAAGATGATGAAATTAAAGAATATGAAAATTTGCTTCGTAAATTATATATTCGTATGGGATTATGGAATGACGAAAAAGGAGCGAAAAATGAAATTACAACAAGAAAATCAAAAGAATATCCGATTTTCTCTGACTTTTTAATGTTTGTTCGTAAAGAATTATATCAAGATGTAGAAGCTAGAAAGCATCATGATAATTTAGGAGACAGTAGAATTCATCGTTTAGAATTAATTGAATTAAATCTTACAAATTTAGTAGAAGCATATGCAGAATTATTTGATGGTCATACTACAATTGAAGATTTCAAGAAAGAACAAGTTGTATCCTTTTCCTTACGGAATATATCCAGCTTTAAACCAGAAGTATTCCAGGCACAGATCTTTAATGTGTTAAATCTCCTTTGGGATGAAATGATTTCAAATGGTGCGCCTCAATTAAAAGCCTTTAACAAAAAGCAACTTGCTTTTGAAGATGTAGTTCGTTATTTCATTATTATTGATGAGGCACATCATATTATTAACACAAAAAAAGAAAGCGCTCATGCCCTACAATTTTTAACGAAACTTAGCCGAGAAGATCGAAAATACTTTGCAGGGCTTTTATATGCAAGTCACACGATTCGTGATTTTGTACCGGAAGGATCTTCACAAGAAATGATTGATGAAATTAAAAAACTATTTGAACTTACACAGTACAAATTTATCATGCAGCAAGATAATAACAGTTTAGATATGTTACGAAAAGTATTTGCAGGACAGTTAAGTGAAAGTGAGATTGCAGCGATTCCACATTTGCCAACAGGGGATGTCATCTTAAGTATTGGGGCTGTAAAAAACATTCACTTCCATGTAGAAGTAACGGACGAAGAATTGATGTTATTCGGGGGAGGTGCTTAA	MFAFRSKKSKKEKQEELKKKKGYNPFLVARVQPQGGISFKESYFQTGDGLGTCIHVYDYPTEVNDFWLEQIMNMPNVITTLDVMSDNRNEVVESINKSMSEQSVRHDTAKDNIDRIDAKNEFLELEALYTDLKQGEVMKRIHIRIYVSARTIDELEKQVKEILETLESYNFRGAVFLNEQEYEWDALVTSFDTQKNYVNRRKGKEIPAVSLAGGCPFHYSYLHDPYGTYYGTTKTKGNVIFDIFHKDNQRKSYNGVMIGKSGAGKSTLLKKKSVDYASKGHFVRIFDVVEEFTDTVKELGGKTISLDGSQGQINPLQVYKTAELEEVSFTQHLSKLTIFYRFIAPEAKDDEIKEYENLLRKLYIRMGLWNDEKGAKNEITTRKSKEYPIFSDFLMFVRKELYQDVEARKHHDNLGDSRIHRLELIELNLTNLVEAYAELFDGHTTIEDFKKEQVVSFSLRNISSFKPEVFQAQIFNVLNLLWDEMISNGAPQLKAFNKKQLAFEDVVRYFIIIDEAHHIINTKKESAHALQFLTKLSREDRKYFAGLLYASHTIRDFVPEGSSQEMIDEIKKLFELTQYKFIMQQDNNSLDMLRKVFAGQLSESEIAAIPHLPTGDVILSIGAVKNIHFHVEVTDEELMLFGGGA				NA	NA	NA	NA	NA
AK009_06794	822			hypothetical protein	ATGGCGTTATTCAGCGAAAAAGATGTAGAGAAAGAAGAGCCAAAACAACTAGAGAGACCAAAGAAAAATGCATTTCGATTTAACGAAAAAAATGTAAAAGAATCAATTTCTGAACCAAAAGAAATTGTGAGAGTGGTACCCAACAAAAAGAAAGAAGAAAAACCAAAGGTAGAACCAAAAGTAGAACCAAAGGTAGAAAAAAAGAAGAAAGAAAAGCCAAAGAAAGACGCTTCGAAAAAGAAAAATCCAAAACTGTTAGGTTTTTTATCTAGAAAAAAGAAAGAAGCACCACCAAAGGTAAAGAAAAGTATTGCGGATATTATGCAAATTGTAGACATGACAGAGGATGGCATATTTGAACTGAAAAATGAGGAGTTTTTAGAAATTCTTCAAGTGGAAGGTGATGATATGTTCTCTAAGAATAGCGATGAACAAGCATTTGTCATTTTCTCACATGCGTATTTTTATCAAGCATACAAACAGTCCATAAAACTCGTTTTTTTAAACTTCCCATGTCAAACAACTGAACAACAGCGATATATTGAGAAGAAAATTAAAGAATGTACCAGTCCTTTGTATGAACGAATTTTAAATCAAAAGTTAAAAGAACTGCAGTTTTTAGAATGGGGCAGAACCAATCGGGAAGCCTTCTTATTTATTTACGGAGAAACGGAGTTAATCGTAAAAGAACGTGTAGATGCAGCAAAGCGATATATCAAACGCTCTACGGAACTATTAGAGGTGGATGAAGAGAAAAAGTTAGAGCTTATGTTTAAATTGTTTAATCAAAATGCAAAATTAGGAACGAAAAATATATGGTAG	MALFSEKDVEKEEPKQLERPKKNAFRFNEKNVKESISEPKEIVRVVPNKKKEEKPKVEPKVEPKVEKKKKEKPKKDASKKKNPKLLGFLSRKKKEAPPKVKKSIADIMQIVDMTEDGIFELKNEEFLEILQVEGDDMFSKNSDEQAFVIFSHAYFYQAYKQSIKLVFLNFPCQTTEQQRYIEKKIKECTSPLYERILNQKLKELQFLEWGRTNREAFLFIYGETELIVKERVDAAKRYIKRSTELLEVDEEKKLELMFKLFNQNAKLGTKNIW				NA	NA	NA	NA	NA
AK009_06795	288			hypothetical protein	ATGAGAAGCTATCGGATTCCGAAGGAAATCAGTACAGAATTACGGATTAATAAAGTGCTTTATTTAATAGATTTCTTTTTATTAATTGGTTTATTAGTTGTAACAATGATTCTTAGGAACTTCGTACATGAGTCCTTTCAGTTACCATTTATTCTTTTCATGGTAGCTATTGCAATTATCATGATTTGGCGACCAAGTACGAATCCTCAAAAACGAATGTATGAAGTATTGATTATTACATTGCTAAGAAGGAAAGGTGCATATTGCGCCATTGATAACGATCAATAA	MRSYRIPKEISTELRINKVLYLIDFFLLIGLLVVTMILRNFVHESFQLPFILFMVAIAIIMIWRPSTNPQKRMYEVLIITLLRRKGAYCAIDNDQ				NA	NA	NA	NA	NA
AK009_06796	2463			hypothetical protein	GTGAAAGATGAAGAGATTTTAAAGGTTTTAGAATCGTTTTCGGATTATCTTCAAGTAGGAGACATAGTGAACTATGTATTGCGTTGGTTAGGATGGTTCCTAATTGTAGGTTTATCTTTAGTTGTAGATGCTTTAGAAGGTGTGACAGATGCCATACTGGGGATTAAAGGATTCTTTAATTCACCGGAAATACAAAATTTTGTTGATATGTTATATCCATTGTTTGTTGTTCTTTTAGCCATTTCGTTTTTATATATTGGCTACATGTTTATTATGAACAAACAAATGAATCGTTCTCAAATTATCATCAATATTTTCATAACATTGAGTGTACTTTGTTTATTAAGTACTGGTATGACAAAGGTTGATAAGTTTACCGATGATGCCATAGCGGTTGTAAAATCTGAACAAAAGGGTTCTTTAAGTGATGAAATTATTAAGAAGAATATAACGGATGTTGCAGTAATAGATCAAAATGGATGGAAAAAGAAAGAGGATATGAATCCGAAAAACAATATTCCTGAAAAAAATATTAGACAGATAGATATTACTGAAAAAATAGATAAAGATTTTGCGTTCACAAAGGATAAAAATTTATCGGATGATGGTCAGAAAATTTTGCAGAATAAAAGAGTTATGGATGCGTTAGGAGTCGCATCTTTAGCCGAATTAAAAGATGGATGGTTTGATTTCTTTCCAGAAAAGTATTATCGCTGGCATTGGAATTTTTGGAACATATTCTTTACTTTACTGATAACAGGATTAACTTTGTTGTTAGTAAGTATTAAATTAGCTAGATTATTTTATGAATTGTCTTTTAACTATTTGTTAGCAAATATATTAGCACCAGCCGATGTTGCGAATGGTCAAAAGTTAAAAGCTGTATTATCTAATATCCTCAATATATTTATAGCAACGATTATGATATTCCTATCTTTGAAGCTATACCTAATAGGAACAGCTTTTCTTCATGACAAATTAAATGGTGTACCGTATCTGATTGCTTTAGCCGCATTTAGTATGGCTGTTCTAGATGGTCCAGCAGCCGTAGAAAGGTTATTCGGTATAGATATTGGATTAAAGAGCAGTTGGGGTATGTTAGTAGGTGGTTTCGCACTTGGCAAAGGAATTGGCAGTCTTGCAAATTCAAAACCTATGAAGAGTCTCGGAAATATGATTGGAAAAGGAGCGAAAGGTGCAGCAGAAGGAACGGGTGTTGCAGCAGCTAAAACAGCAAGTGCGGCAGCAATGGCAACAGGTGGCGTGGCAGGGCTTATAAGCGGTTTGAAAAAAGGGAATGAGTCTGAAAATAAAGAGTCCTTGCAAGATCAAATGAAAAAAGCGGATCAGAAAAAAGCAAATGGTAATGATTTAGCAAAGAATGAAAAAGAAAAAGGTAACTTAAATAAGGAAAAAGATAAAAAGAATGGTGGTACGCCATCTATTCAAGAAGACATGAAAAAAGGAGGGTATGAAAACCCAGGGGGAGCAAATGAAGGAAGTCAAACACCGGGAACAGTAAGACAAGGAGCGAGTGAAGGAGGTCAAACACCAGGAACAGTAAGACAAGGAGCAAGTAAAGGAGGTCAAACACCAGGAACAGTAAGACAAGGAACAAGTGAAGGAAGTCAAACACCAGGAAGCGTAAGACAAGGAACAAGCGGAGGAAGCCCGGCACCAATAGAAACACCAAGACCAGCATCAAGCGGAGGAAGCCCGGCACCAGTAGAAACACTAAGATCAGTACCAAGTGGAGGAAGCCCAGCACCAATAGAAACACCAAGACCAGCATCAAGCGGAAGTAGCCCAGCACCAGTGGAAACACCAAGATCAGTACCAAGCGGAAGTAGCCCGGCACCAGTGGAAACGCCAAGATCAGTACCAAGTGGAAGTAGCCCAGCACCAGTAGAAACACCAAGATCAGTACCAAGTGGAGGAAGCCCGGCACCAATAGAAACACCAAGATCAGTACCAAGTGGAGGAAGCCCGGCACCAATAGAAACACCAAGATCAGTACCAAGTGGAGGAAGCCCGGCACCAATAGAAACACCAAGATCAGTACCAAGCGGAAGTAGCCCGGCACCAATAGAAACACCAAGATCAGTACCAAGTGGAGGAAGCCCGGCACCAATAGAAACACCAAAATCAGTACCAAGTGGAGGAAGCCCGGCATCAGCCGACATCGTAACGGTGACACATAGTAGTCCAATTATTCCTTATGAAAGTGATAAAGAAGTAGCAGCAAGTAGAGGTCAAGAAACACGGACATTAGGACAATATACAACCGAAAAAGTTAAACATACGACATCATCGGTGAAACAAAAGGTAAGAGGAGTGCAAGAACGCATTCATAATTCGGAAACGGTACAGAATACAAAGCGTTTTTATCAGATGGGGCAAAACACGAGTAAAAGTTGGAGAGATATTGTGAACAAAAATAAAAACAATACAGATAAAAAATAA	MKDEEILKVLESFSDYLQVGDIVNYVLRWLGWFLIVGLSLVVDALEGVTDAILGIKGFFNSPEIQNFVDMLYPLFVVLLAISFLYIGYMFIMNKQMNRSQIIINIFITLSVLCLLSTGMTKVDKFTDDAIAVVKSEQKGSLSDEIIKKNITDVAVIDQNGWKKKEDMNPKNNIPEKNIRQIDITEKIDKDFAFTKDKNLSDDGQKILQNKRVMDALGVASLAELKDGWFDFFPEKYYRWHWNFWNIFFTLLITGLTLLLVSIKLARLFYELSFNYLLANILAPADVANGQKLKAVLSNILNIFIATIMIFLSLKLYLIGTAFLHDKLNGVPYLIALAAFSMAVLDGPAAVERLFGIDIGLKSSWGMLVGGFALGKGIGSLANSKPMKSLGNMIGKGAKGAAEGTGVAAAKTASAAAMATGGVAGLISGLKKGNESENKESLQDQMKKADQKKANGNDLAKNEKEKGNLNKEKDKKNGGTPSIQEDMKKGGYENPGGANEGSQTPGTVRQGASEGGQTPGTVRQGASKGGQTPGTVRQGTSEGSQTPGSVRQGTSGGSPAPIETPRPASSGGSPAPVETLRSVPSGGSPAPIETPRPASSGSSPAPVETPRSVPSGSSPAPVETPRSVPSGSSPAPVETPRSVPSGGSPAPIETPRSVPSGGSPAPIETPRSVPSGGSPAPIETPRSVPSGSSPAPIETPRSVPSGGSPAPIETPKSVPSGGSPASADIVTVTHSSPIIPYESDKEVAASRGQETRTLGQYTTEKVKHTTSSVKQKVRGVQERIHNSETVQNTKRFYQMGQNTSKSWRDIVNKNKNNTDKK				NA	NA	NA	NA	NA
AK009_06797	210			hypothetical protein	ATGTATGTACCAACAATCACGGATAAAATGCAGTTGATTTTAGATAGTTACTCGCCATTTGTAACAGAAGAAAATGAGGTCATTCTTGGTCTAGAAGATGCGGTTCTTTTCCTTTCAGTAGATCGGGAACAAAAAGGAAAATTGATTATTCGTATCGACAGACTGAATGAAAGGGTGAATTGGACAGCAAAAGAAGTATTGGGACAATAG	MYVPTITDKMQLILDSYSPFVTEENEVILGLEDAVLFLSVDREQKGKLIIRIDRLNERVNWTAKEVLGQ				NA	NA	NA	NA	NA
AK009_06798	2583			hypothetical protein	ATGTATAGTGAAAAGATATCAATCAAATATAAATTAGCTGAAAAAGAAGTACTCATTCCATTGAGTACTTTTTTGTTTGTTGGAATGTTTTTAATCGCTAATTTTTTATTAAACTTAACTTTAGAGCTGATAGAAACAACATTTAGTGATTTATTACATCCCAAACCATTTCATATGGAGGTAGGATTTCTTTTTCAGATGCCAATTGCAGAACATCCGATTTACTACATGCTTGTTTTCCTTGTAGTGATTGGAACCATTGCAAGAACAGTGTACAAATTGAAATCTTCCTTTAAAAACTTAAATAATCATGAGAAAGAATCTAGTCGTTTTACAACAGTTGAAGAGCTGAAAAAGCAGTACCGAGCTGTACCAGATCGAGAGGAAACATTTAAAGGTGGCGGTGGTGTTGTTATCTCCCGATTAGGTGACAAGGTATTTATTGATGATAGCCCGGTAAACAATTTAATCATTGGTACAACACGCTCTGGTAAAGGAGAAACCTTTGTATTTCCTACAATTGATGTCTATTCTAGAGCGGAACATAAGCCATCTTTAATTTTTAACGATCCAAAGGGGGAATTGTTCAGCGCATCAAAAGAAACGCTGGAAGAACGAGGGTATCACATTGAAGTTTTGAATTTATTAACTCCACTTGATTCTATGAGTTATAACTTATTGCAGCTTGTCAAAGATGCTTATAAAGATGGAGATTATTCAACAGCGCAAGCACTATGTAAAACACTCTCACACACTTTGTATTATAAACCAGGTGTTAAAGATCCTTTTTGGCAAGATTGCGCTATGAGCTTATGTAACGCCATGATTTTAGCCATAACAGATAAATGTATTGCAGAAGGAACAGAAGAAAAAATAACGATGTATGCAGTAGCTAACATGCTATCGGAACTTGGTTCGAAAGAAATAATTATAGATCCAGAGGAACCGCCGAAAAATGCTTTAGATTTATATTTTGAGAATTTACCATCAGACAGTGTTGCGAAAATGCAATATGCAACTTCTAATTTCTCAAAAGGGCAAGCTAGAGGTGGTATTTTTACACAAACAATGAACGGGTTATCTATTTTTACATTTGATGAAATCGCTAAAATGACCGCAAAAAATAGTGTGGATTTAAAACGTGTAGGTTTTGGAAAAACAATAAAAGGAAAAGTGACACCTAGAAAACGAATAGAAATTGTATTTCCGGATGGCTCAAAGGAGTCTACCAAATCAGATATTACGGGACGTTTTGCATTAGATTTTAAGAAAGTAATAAAAGTTGGGGATACCATTCAATTTAATGAAAAAGGAAATAAGAAAAAGAAAACATCTATTTCTATTCTGAAAATAGATGAAAAGACAGGTGATACAGAATTTAAAGTAGTAGAAGAAAATGAAGATATACAAGTAATAACAGTGGACTATTTCGATAAACCAGTCGCTATTTTTATGATTACACCAGACTTTGATTCTTCAAATCATGTGATTGCTTCTATTTTTGTAAGGCAGCTTTATTTTATATTGGCAAAGGGTGCATCCCTCGCTCGTGGAGGGAAATGTCACCGTGAAGTGATTTTTTGCTTAGATGAGTTTGGAAATATGCCGAGTATTGAAGGAATGGCAAATATTATCACGGTTTGTCTTGGTAGAAATGTTCGCTTTAACCTTGTAATCCAGGCATATGCACAATTGAAAAATAAGTATGGTGAGGATGCAGATACGATTGATGGAAACTGTGGGAATACAATTTACATTCTAACTAACGATCAAGAAACCGCCGAGAAAGTGTCTAAAAAACTAGGGAATCAGACGATTAATCTATCTTCCCGAAGCGGAAAAGGTCTTTCTACTGATAAAAATAAAACGGAAAGTCTAGATCAACGACCACTGTTAACAGCAAATGAACTTATGAATTTTAAAGAAGGAGAAAGTGCCGTTATTCGTGTCATAAAACGTCAGGATAATAACAGAAAACGGATCAGACCTCGCCCGATTTATAATACGGGGGAAACAGCCCTAAAATACAGATGGGAGTACTTAGGAGTAGAGTTCGATACAGATAAATCTATTTTAGATATAGATATTGATTCTCTACATGATGATGTAAATCCAAAATCACTTATTGTAGATTTTCTAGGAGAGAGAAAAGCAGAACAAATTGAGGAAAAAACGTCAGAACCAGAACAAGTACAAGAACAAGAAGTTTCTTCCCAAATAGAGACACCGCAGCCAGTAGAAGAGCCAACAATGATGGGAATTGATGAAGAGATTCCGGAAGAGGCATTTCAGCAGGAAGATAATCCGTTTGATTCCCTCTCCATTGAAAATTGGAAAGAAAAAACGGTTAACGAATTTTTCGAATCTGATTTAGCGGTTTTAAAACTGGTCGATAAGTTCTTTTTAGCGCAGTTAGGCAAATCATTAGATGAAGTTAAAAATCAAGAAATGGGCGAGTTTTACAGTGAATTTCAAATGTTAGCTCACAATGACCATATCGACAAAAGTGTTTATCAAGCAGTCGAAAACAAGATAAATCGAATCTTGCGTAATTTAGAAGAAAAAGAACAAGTGACAAGTTAG	MYSEKISIKYKLAEKEVLIPLSTFLFVGMFLIANFLLNLTLELIETTFSDLLHPKPFHMEVGFLFQMPIAEHPIYYMLVFLVVIGTIARTVYKLKSSFKNLNNHEKESSRFTTVEELKKQYRAVPDREETFKGGGGVVISRLGDKVFIDDSPVNNLIIGTTRSGKGETFVFPTIDVYSRAEHKPSLIFNDPKGELFSASKETLEERGYHIEVLNLLTPLDSMSYNLLQLVKDAYKDGDYSTAQALCKTLSHTLYYKPGVKDPFWQDCAMSLCNAMILAITDKCIAEGTEEKITMYAVANMLSELGSKEIIIDPEEPPKNALDLYFENLPSDSVAKMQYATSNFSKGQARGGIFTQTMNGLSIFTFDEIAKMTAKNSVDLKRVGFGKTIKGKVTPRKRIEIVFPDGSKESTKSDITGRFALDFKKVIKVGDTIQFNEKGNKKKKTSISILKIDEKTGDTEFKVVEENEDIQVITVDYFDKPVAIFMITPDFDSSNHVIASIFVRQLYFILAKGASLARGGKCHREVIFCLDEFGNMPSIEGMANIITVCLGRNVRFNLVIQAYAQLKNKYGEDADTIDGNCGNTIYILTNDQETAEKVSKKLGNQTINLSSRSGKGLSTDKNKTESLDQRPLLTANELMNFKEGESAVIRVIKRQDNNRKRIRPRPIYNTGETALKYRWEYLGVEFDTDKSILDIDIDSLHDDVNPKSLIVDFLGERKAEQIEEKTSEPEQVQEQEVSSQIETPQPVEEPTMMGIDEEIPEEAFQQEDNPFDSLSIENWKEKTVNEFFESDLAVLKLVDKFFLAQLGKSLDEVKNQEMGEFYSEFQMLAHNDHIDKSVYQAVENKINRILRNLEEKEQVTS	PGPT0029925_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029925-virD4|lvhD4-K03205	NA	NA
AK009_06799	753			hypothetical protein	ATGCCTTTAAATTATGAGAATCTGTACAAAAAAATGGGAATTGTTTTTCTTGGTGGTTCATTGATATTAAGTACGACAGGTTGCAGTTGGTTTGGAAGTAAGGAATCATCAAAAAGTAAATCAGCTATTACAAAAAAAGTAGATAAGAATAAGCCGGAGGAAAAGAAAGAAGATCTGAATAAACAAGATTTTGAAGCAATTACAGAGAATGCAATTCAAAGTAAGGATAATGAAGTTGCTTATGTACTCGAAGAGCTGGATAAATCAAAAATTAATTTTAAAGAAAAATCTATTGTAAGTAATCTTCAAAATGGGGATGACACCACTTCTCGTGTTCTAGCACTCTTTGATAAAGAAACAACAGATAAAACACTTCAAGATACAACAAAAGATAATGTGATTGCAGCTATTACAGATAATAAGCCACAAGTCACCGTGAATGGAGATCATTTTGCATTTGGTGATCTAAATATTGATTCTTCAGTAGCGAGTATAGGTGATATTCTTCCACCAGAGAAGAAACTAGATACAATTGTAAACCCACCAATTATAACGGAGGGTGAGAATGGCAATACGGAAAATACAGGGACAGAAAAACCAAAGCCACCAGAGCCGGAAAAACCAACAAATCCAGAGAAGCCAACAGAACCGGAAAAACCAACAAATTCAGAGAAACCGACAGAGCCGGAAAAACCAACGAATCAAGAAAAGCCAGTTTTGAAACAAAATGAAAAGATGGTAGCGAGTAAATAA	MPLNYENLYKKMGIVFLGGSLILSTTGCSWFGSKESSKSKSAITKKVDKNKPEEKKEDLNKQDFEAITENAIQSKDNEVAYVLEELDKSKINFKEKSIVSNLQNGDDTTSRVLALFDKETTDKTLQDTTKDNVIAAITDNKPQVTVNGDHFAFGDLNIDSSVASIGDILPPEKKLDTIVNPPIITEGENGNTENTGTEKPKPPEPEKPTNPEKPTEPEKPTNSEKPTEPEKPTNQEKPVLKQNEKMVASK				NA	NA	NA	NA	NA
AK009_06800	1086			hypothetical protein	ATGTTTGTCATTTTTAAGAGTAGCAATGGAACAGAAATTGAGTCGGGTAAGCAATATTCGTTTCATGAAGCTTATATCTTAACGAAACGATTAGAACGAGTTTATAGAGAGGCTGGGCGACAAGAACATATTGATTTCGATTTGTTAGATGGTCATTCTAATGAAATTTATAACGGTACATTATCACTTGGTTCGAGATATGCAAATCACATTTTTGATCACATTTCTAAAAAAATGAATGTGATGCAATTACATCCGGAACAAGAGGAACAAAAGAAGGAGCTGTTAGAAACATTAGAAAGAGAAATCAATGATTCTCCTTTTCATGAAGAATATGAATATCAAGAAGAATCATCAGAAAGGAAGGAAGAACCCTCTTATAGTCCAGCGCATGAAGTAAAAACACTAGTAAAGCCTGGAAAGGAAAATAGAAAAGGATTCAAGATTATTGCGAGTGTCATAGGAAGCGTGGTGTTAATTGGAGCTGGTGCTGTATTTGCCTTTAAGTTATTCTCTTCCGAACCAGTTTCGAGTGCAAATGCTGGCTCGGAACAATATGTAGTAAAAGGGTTACAACAGGCAGCCATTCAGCAGTATGGAGAAGCCGTTAAATACTTCGATAAGGTCAATTACACAGAATTAGATAAAGATAGTCAGAAGGCAGTTTTATTTACTTATTTATTAAACGGAAAGGCAAATAAAGCATTACAATATGAGCCGAAATTTGCAGAAAGTGTGGTTGTTTATTTTATTGGGATAGACAACATGAATAAAATCAATGAAATTGATGTCAAAAATGATGTAATCGACTTTGAAAAGGCAGCACTTAATAAGAAATATGAGGAGGTAATCAAACTTAAAGGTAAAGTCAATATGGACGGTAGACGTGAAAAACTCATTGTTGAAGCTTTTGTAAATCTAAAAAAATATGAAGATTGCTATTCTTTCGCTAAAACGCAAGGAAATAAAAACGTAATGAAAGAGGTCAAAGAATTAGAGAAACGTGATATTCAACAATCTACGATAAGTGAAGAGGAAAAGAAAATTAAGATTGAAAAAATTGATAAAGATCTACAGAACATCTAA	MFVIFKSSNGTEIESGKQYSFHEAYILTKRLERVYREAGRQEHIDFDLLDGHSNEIYNGTLSLGSRYANHIFDHISKKMNVMQLHPEQEEQKKELLETLEREINDSPFHEEYEYQEESSERKEEPSYSPAHEVKTLVKPGKENRKGFKIIASVIGSVVLIGAGAVFAFKLFSSEPVSSANAGSEQYVVKGLQQAAIQQYGEAVKYFDKVNYTELDKDSQKAVLFTYLLNGKANKALQYEPKFAESVVVYFIGIDNMNKINEIDVKNDVIDFEKAALNKKYEEVIKLKGKVNMDGRREKLIVEAFVNLKKYEDCYSFAKTQGNKNVMKEVKELEKRDIQQSTISEEEKKIKIEKIDKDLQNI				NA	NA	NA	NA	NA
AK009_06801	309			hypothetical protein	ATGTCAATGTTGGAAACATTATCTCAAATGTTAGTGTTAGGTGATGCGATGGACGGTCTAATTAATACAGGGAATTCATTTATTGCATGGATGCAAAGAGGGGCAATGGTTAGTACAGCGATTGTATTTTGCTGGGGCGCTTATCTATTAATTTGGGGCGGTGAACGAGGAAGACATAAATGTATTTGGTGGTTTCTTGGTGGGGCAGCCGGACTCGTTATTGTAATGGGATGCCAATACTTAGCAGAGAGCGTAAATAGCAATGTGAAATTTGGTCAAATCTTATTCCCGTTTCTTTGGATGAAATAG	MSMLETLSQMLVLGDAMDGLINTGNSFIAWMQRGAMVSTAIVFCWGAYLLIWGGERGRHKCIWWFLGGAAGLVIVMGCQYLAESVNSNVKFGQILFPFLWMK				NA	NA	NA	NA	NA
AK009_06802	225			hypothetical protein	GTGGCGATTACACAAAGGGAATTAAAAAAAGAAAAAGATATGGTAGCAAACCTATTAAGAGCCAATGGTCAGGATTATAACCATTGGCTTCATTTACATCATCAGAAATACATTGAAGAAAATCAAGATTTAGTAATGAAAGCTTTACAAGCTTATAAGGCAACAACTACAGGAGTGAAAGAAGACAGCAAGGCGAATGAATCAAGTCAGCTTAGTAACGTATAA	MAITQRELKKEKDMVANLLRANGQDYNHWLHLHHQKYIEENQDLVMKALQAYKATTTGVKEDSKANESSQLSNV				NA	NA	NA	NA	NA
AK009_06803	444			hypothetical protein	ATGAGTCGTAAAGGGTGGATCATTTCCGCTATTGTTGGACTGTTAATTGCAATTGGTATTGGTTCAACATTTGTCTTTAGTTCGGGAAAAGGGGAAGTAATGGATCTTAGTCCGTTAGAAATGAAAAAGTTCATGAGTGAGGATGGCACAGGTTTTGTTATGTTGAATTCTAATATGAGACATAGTAATGATTGGATTTTTCTTGTAAAGAATATAGCTGAAAAGGAAAAAATTCAAGTAAGAGGGTTGAATGAAAATCGTGAGGACATTCCAGGTTCAAGTAATCCTCATGATTGGGGCTTATCACAACGAAGGGATTCTCTCGCTTATTATGAAAAAGGAAAACTGAAAAAAGATATTGATTTTTCTAAGTTTAAAGAGTCCGAACTTGAAAAAGAAGTTACCTATTTTGTCCAAAATTGCAAAGAGCAATATCAGAAGTAA	MSRKGWIISAIVGLLIAIGIGSTFVFSSGKGEVMDLSPLEMKKFMSEDGTGFVMLNSNMRHSNDWIFLVKNIAEKEKIQVRGLNENREDIPGSSNPHDWGLSQRRDSLAYYEKGKLKKDIDFSKFKESELEKEVTYFVQNCKEQYQK				NA	NA	NA	NA	NA
AK009_06804	249			hypothetical protein	ATGGGAAAAGAAAAAAGACTTACATTTTATGATATTGCGGCATCACAAGCTCATAGTGTTAAAACTTTTGATGGAAAAACATACGAACTGAAAGGCACGATAGCAATTGAAAATAGCACAGGAAGCATTGAGAAGGTGGCTCAAATTTATTATCAAGTGCGCTCAGTTAGAGATGAACATCAAAACTTGATTGCTAAACGAAAAAATAAACATGCGGAATTAGTAGCTGTAAAACAAAAGTGTAAATAA	MGKEKRLTFYDIAASQAHSVKTFDGKTYELKGTIAIENSTGSIEKVAQIYYQVRSVRDEHQNLIAKRKNKHAELVAVKQKCK				NA	NA	NA	NA	NA
AK009_06805	576			hypothetical protein	ATGTTAGGCGTAGCTAAGAAGTATACAAAGGTGATTAGAGCGTTGAAAGAACTGAATGAAGGGGAAAAGGTTGCGGGTGTCATAAAAGCTCGTTTTGGAGCTTATAAAACGGTCATAGAAGATGTGAAGAAAACAACAGATGATTTTATTTTCATTTTTGATCCGAAAGGCATCTTTTATGAAGATACCCATCAAGAAAAACGAAAACAAGGATATCAAATCATCAAACATGATTTACTAACTGGTTATGAAACACTACAAATGGATCTAAAACAAAAATCCGTTGTCTACATCAGTGTAGAAACGGAAACGAGTACGTATCAAGAGAGAGGGGAAGCATTATCAAATTTTCTTCAATATCTAACAGAATGCAAGAATATAAGACCGATTCACCTGGTATTTCATCAATATGATTTGTACCCAATCCCTCATATGGAGCAGTTTTTGAAAGAAAGCGCAACATACCACATTCAGCATTCAATCGTAGTTGAATCTCAATCCGCATTACAACACATTTACGGAAAAGAAGCAGCGCAACGCATCATAACCTCGTATAACACAACAATCCTAGCATGA	MLGVAKKYTKVIRALKELNEGEKVAGVIKARFGAYKTVIEDVKKTTDDFIFIFDPKGIFYEDTHQEKRKQGYQIIKHDLLTGYETLQMDLKQKSVVYISVETETSTYQERGEALSNFLQYLTECKNIRPIHLVFHQYDLYPIPHMEQFLKESATYHIQHSIVVESQSALQHIYGKEAAQRIITSYNTTILA				NA	NA	NA	NA	NA
AK009_06806	459			hypothetical protein	ATGCCAGAAATCTACGTCGGTAAAATGAAAAATTTAGGGAAACCTGGGGAAGACGTTATGCAGCGCAAGAGTGCTTGGTTACCTGAAGAATTGATGCAAGCAATCTCAATCGCTCAAACTGTAATTAAACCATTAAAGCAACATGATTATTGGATAGAATCCGCTACAAAATTATTGGCAGGAAGTATTTTGTATCTGGATCAACGGCATAAAAACCTATATTACCTAGATGTGAAAAAAGTTATTGAGTTCACGGAAAAAATGTATGAGAGTGAAGCGAACTTGGTAGAGGTAGTAAATTTGCTCGAGAATGAGCATCCAGCTTATCATATCTTCCATGAGCTAGGTCTTTATTCAAAAGAAACAAGGGATGCGATAACTATCACTTTGCTATACATTCTTGAAAAACATCAACGTGAAAAGCAAGGGGTGCAAAAAGAGTATTTTTGGTTTCAGTAG	MPEIYVGKMKNLGKPGEDVMQRKSAWLPEELMQAISIAQTVIKPLKQHDYWIESATKLLAGSILYLDQRHKNLYYLDVKKVIEFTEKMYESEANLVEVVNLLENEHPAYHIFHELGLYSKETRDAITITLLYILEKHQREKQGVQKEYFWFQ				NA	NA	NA	NA	NA
AK009_06807	2001			hypothetical protein	GTGGGCAAATTGCGTACTGCATATGGACTACGTTCACCGAATGGTGAGGATCTTCCAGAAGTAGGGCGAACAGATAATGTGGTATATAGAATTTTAATGAATGGATACCCACAGAAATCTCCACAAGAATTAGGTGTTTCGAATTGGAAGGAAGCTCATTATGCAACGCAATTAGCGGTTTGGAATGCATTAGGACAATTATCTATTTCGGAGCTTGAGCATCGTAATGCTAATGTTGAAAAAGCAGCTAAGGAAATTATTTATGCGGTGAATCATAGTAACGCAATACAAGAAACTTACATGTATGTAATTCCAACTGATAAACAAGAAGCAAAACTTAATGGAGAGTACTTTGAAACGAGTTTGTACCAAGTAGAAAGTAACGCTAAAAATGGTGTATTCACTGTAAACCTTAAAAATGCACCGAATGGTACAAAAATTGTTGCTGAGAATGAAGAAATGAAAGAACAATTCCAATTAGGAGAGAAATTTCGTATTTTGGTTCCGAAATCCTCCAATACAGGTAACCTTTCTTTAAAAATCACTTCTAACCTAGTCAATTTACATGCAGTTGCTTACAAAGGAACTGATAAAATTCAAGATGCTACCGTACTATTAGAGCGTAGTGAAGAAAAAGGAAGTACGGATTTAAATGTGAGTTGGAAATCAGTAGGTCAATTAGAAGTTATTAAAGTAGGAGAACAAAAAGAAATATTACAAGGTGCTGTATTTGATGTGTTTAATAGTACGAATGAAAAGGTTGGTACTATTACTACAAATGAAAAAGGAATTGCTAGCCTTTCTAGTTTAGAAATCGGAACTTATACTTTTAAAGAGGTGAAATCACCTACTGGTTATGTAATGAACGAACAGCCACAACAGATTGAAGTTAAAACAGGTGAGATTGCAAGAGTTACAGTACAAAATAATAAAGTAAAAGGGAGTATCGAAATTAAGAAATTAAGTGACAGAGGAAAGACTCTTTCAAAAGTAGAGTTTACAGTGTTCACAGCAGAGGGAAAAGAAGTCACAAAAACAATTACAAACGAGCAAGGGATCGCACAAGTGAAGGATCTTCCATATGGAAAGTATTATTTTGTTGAGACAAAAGGGGTAGAAGGATACCTCCTTAATCAAACTAAATATCCATTCGAGATTAAAGAGCAAGGAAAAACGCTAACTTTCACAGTCGAAAATAAAGAAGTAAAAGGAAACATGCAACTTCTAAAAGTAGATGGAGAGAATCCAGATGAAAAATTAGATGGTGCAGTGTTCGTTCTTCAAGATAGTAAAGGGAAGAAAATAAGTGAACACAAAAGTGATAAAAACGGTTTGATTGAAGTGAAAGACTTACCATTTGGAGCATACTCATTTGTTGAGAAGCAAGCACCAACTGGCTATGTTTTAACGAAAGAATCTATTCCTTTTAGTATCTCGGAACAAGGAAAGACAATCATGCTAACAGCGAAAAATAAGCACATCACAGGAGAATTAGAGATTAGCAAGGTAGATATTGCAGATGGCAACAATAAGCTTCCGAACGCTGAATTTACTATCTTTAACGAGCAAGGAAAAGAAGTTGCAAAAGGAAAAACGGATGAAAACGGCATTGCAAAATTCAAGCTTCCATATGGAAAGTACACGTATAAAGAAACATTCGCACCAGACGGCTATTTACTGAATGAAGAAATATTCAATTTTGAAATTAAAGAGGATGGCCAAATTATTAAGCACACGGTGAAGGATCAGAAGAAACCGACACCACCTACACCAGAGACACCAAAACCAGAACAGCCAGAACAACCACAAAAACCAGAGCAACCAGAAGCACCACAACCACAGGTACCGGAACAACCAAAAGTAACCGAAAAACCTGTCATTCCACAACTAGAGAAACCACAACTAGAACAAACACCAAAGAAAATCGAAACGTATTTACCGACAACAGGCGGTAAAGCCGAAAATCCATATATAAAATGGCATGTGTCGTACTTGGCTTAA	MGKLRTAYGLRSPNGEDLPEVGRTDNVVYRILMNGYPQKSPQELGVSNWKEAHYATQLAVWNALGQLSISELEHRNANVEKAAKEIIYAVNHSNAIQETYMYVIPTDKQEAKLNGEYFETSLYQVESNAKNGVFTVNLKNAPNGTKIVAENEEMKEQFQLGEKFRILVPKSSNTGNLSLKITSNLVNLHAVAYKGTDKIQDATVLLERSEEKGSTDLNVSWKSVGQLEVIKVGEQKEILQGAVFDVFNSTNEKVGTITTNEKGIASLSSLEIGTYTFKEVKSPTGYVMNEQPQQIEVKTGEIARVTVQNNKVKGSIEIKKLSDRGKTLSKVEFTVFTAEGKEVTKTITNEQGIAQVKDLPYGKYYFVETKGVEGYLLNQTKYPFEIKEQGKTLTFTVENKEVKGNMQLLKVDGENPDEKLDGAVFVLQDSKGKKISEHKSDKNGLIEVKDLPFGAYSFVEKQAPTGYVLTKESIPFSISEQGKTIMLTAKNKHITGELEISKVDIADGNNKLPNAEFTIFNEQGKEVAKGKTDENGIAKFKLPYGKYTYKETFAPDGYLLNEEIFNFEIKEDGQIIKHTVKDQKKPTPPTPETPKPEQPEQPQKPEQPEAPQPQVPEQPKVTEKPVIPQLEKPQLEQTPKKIETYLPTTGGKAENPYIKWHVSYLA				NA	NA	NA	NA	NA
AK009_06808	231			hypothetical protein	ATGTTGAAACGTTCGTATCAAATGCTACTCATCACAATGAGTACGCTTCTTGTAGCAATAAACTTCCTATTTCCGTTTACTAAGGTAAGTGCTGAAGTAATTCAGCGTGAGCAATATAAAATGGATTGGAGTTATAGCCATCAATATGGGAAAGATGTTCGAACGGAACTCCTCAAAAATTCTAGTGGGCAAATTGCGTACTGCATATGGACTACGTTCACCGAATGGTGA	MLKRSYQMLLITMSTLLVAINFLFPFTKVSAEVIQREQYKMDWSYSHQYGKDVRTELLKNSSGQIAYCIWTTFTEW				NA	NA	NA	NA	NA
AK009_06809	210			hypothetical protein	TTGACTGTTATACGCAATATTAGAGAATCAAAAGGGTTAACAATTCAAGAGCTGTCGGAGGCTTCTGAAATACCCGTGAAAACTCTGTATCACATTGAAACTGGTACAAAAGGAGTTATTGAAAATAGGGCAAAACTTCTTGCCAATATTTTTAATGAACCAATTGAAAACCTTTTTTTTGCTACGTACTATCGAGCAAGATTAGAATGA	MTVIRNIRESKGLTIQELSEASEIPVKTLYHIETGTKGVIENRAKLLANIFNEPIENLFFATYYRARLE				NA	NA	NA	NA	NA
AK009_06810	393	xre	COG1396	HTH-type transcriptional regulator Xre	ATGATACAGAATTATTTCGGGGAAAATGTTAGAATTCTAAGAACACTTAAAGGATTAAATATGAAGGAACTTGGTGATGTTTTAGGAGTCGCTAGTAGTACTATTTCCAACTGGGAAAATAACAGGAAAGAGCCAAGTTTTGAAACGCTCCAAAAGATCTCCATTTATTTTAATGTAAGTACTGATCGACTCCTAAATCATAAAATTGGTGATAGTGAAGCTCTTACAACAGAAGATCGGAAAATAATTGTAGAACGTTTAGCCCAAGATTTGTACGAAAGTTATAAAAATGTTCCTGATAAAGATAAACCACTATTAGAAAATGAATTGATTGAGTATGCAAAATATTTAACGCATAGAATTGAGACTAAAAATAAACTAAAAGATAGCTGA	MIQNYFGENVRILRTLKGLNMKELGDVLGVASSTISNWENNRKEPSFETLQKISIYFNVSTDRLLNHKIGDSEALTTEDRKIIVERLAQDLYESYKNVPDKDKPLLENELIEYAKYLTHRIETKNKLKDS				NA	NA	NA	NA	NA
AK009_06811	108			hypothetical protein	ATGAATCTTAATCAAGAATGGTTTAATGAAATGATTGACCAGGACAATCAAATTTTAGAAACTTATCGTGAATTATTACTGTTAATTGGAAACTTCCAAGAAGAATAA	MNLNQEWFNEMIDQDNQILETYRELLLLIGNFQEE				NA	NA	NA	NA	NA
AK009_06812	147			hypothetical protein	GTGAATAAATTTTTAGCGGTTACGTTATATACCGTAATACTATTGACATCGTTTTTTCAATTAGAAACAACAGGTTCACAACATGCAAAAATGCAAGATACAAATAAATATGTTATGCAAAGAATGGTCGACCCCGGCGGTGGTTAA	MNKFLAVTLYTVILLTSFFQLETTGSQHAKMQDTNKYVMQRMVDPGGG				NA	NA	NA	NA	NA
AK009_06813	1143			hypothetical protein	TTGAAGAATTTAATGGGGAAATTGTCGAAAATTAAAACTGAAAAGAAAATAAGTAGTAGACAACTAGCAAAGGAAATTGGAACAAGTAAAACAACAATTGATAACGGACTTCAATGTAAAACAGAAGAGTTTAAATTTGAGATTTTCTTAAAGTTAGTTCAAGCCATTTGTGATAGTTCGGAAGAGCAAGGAAAAATCATTCATGAATATATTCTTCATTGTAAAACACCATTAAATGTACAAAAAGCATTATGCTATTGCCAAGCAATGGGAGAATATAAATTAATAGCAGATATTATAGAAAAACATTCAGATACAAAAGGATTAAAGAAGTACTTAGCGGTTTATAAAATACAGAACAAAAGGAATCAAAACATAGCAAGAGGTCAGCAACTATTGGATGAGATGTATGATAAAGATTTCTCTTCAGATACGGTGTGCCAAGCAGCCTTAAACATTTTATATATGGAAGCTATGTATGATAAGCAAAATTATAATGCTATTATCCCTTATGCTGATCGCACAGATGTTATTTTAAAAGAAGTAAAACAAGAGTACGTTAAGCAATGCTTGGAAATGAAATATAAAGAGCGTTTGGCTTATATATACTTAATGAGAAATGACTTAGAAAGATGTCGCAATACATGCTATGAAATTCTGGATTCTGAATTAGATATTTCTATTATTAGAGCTACAGCTTGGTGTTGTTTAGGAGAAAGTTTCACATTTGAATGCCCATCTACAGCTGAGAAGTATATTAAGAAAGCTATTTCTCTTTGTGAAAGTATTCAAGTTCCACAAAAAACACAAAAATATGTAGCGTTTCATACTACACTAGCGCATTTATACATAGAAAATGGTGTTAATTTGGATGAGATAAGATTTGATCTTATTCATTTATCTGAGAAAGCTTTTTTTGAATGTATGCATGGTGATAGGGAAACAGGAATTAAGCTATATGAAGAACTGAGAAAAGATGGCAAAAAATTCACGGCTTTTCAACAGTATTCGTTTTCGAAAATAAATAATGATATAATAGGATTAAAAGAATCCTTAGAATCTTTTGAATTAACAGGCAATATATTTTATTCGCAATACGTCAAGAAAGAGCTATTAAAAGAAGAGGTGAAGTCAAGTGAATAA	MKNLMGKLSKIKTEKKISSRQLAKEIGTSKTTIDNGLQCKTEEFKFEIFLKLVQAICDSSEEQGKIIHEYILHCKTPLNVQKALCYCQAMGEYKLIADIIEKHSDTKGLKKYLAVYKIQNKRNQNIARGQQLLDEMYDKDFSSDTVCQAALNILYMEAMYDKQNYNAIIPYADRTDVILKEVKQEYVKQCLEMKYKERLAYIYLMRNDLERCRNTCYEILDSELDISIIRATAWCCLGESFTFECPSTAEKYIKKAISLCESIQVPQKTQKYVAFHTTLAHLYIENGVNLDEIRFDLIHLSEKAFFECMHGDRETGIKLYEELRKDGKKFTAFQQYSFSKINNDIIGLKESLESFELTGNIFYSQYVKKELLKEEVKSSE				NA	NA	NA	NA	NA
AK009_06814	969			hypothetical protein	GTGATTTCACGAAACTTTTTGTTAAGTCGAGCAAAAGCGGAACTAAGTCCCCACATTCATCACTTATCTAAAACTCCTGGAGCTATCAATCAAGAAATCAAGAAAATAATTTCTTATATTGATAGTATTGTCCTAGAGTGTGAAGGTGCTACCACAAAAGATTATCTTACCAAAAGGAAATACGAAGCTTTAGAGACTGTTTTATCTTATTTAGTACAAGAAGGCTATAGTCAAGTTAGACAAGAACACATCAGCAAAAAATCTGGAATTTCAAAACCTATTATTAATTACGTTTTTAATTGGCTGCAAGATTTAGGAGTATGCCAACAAATAAAGGTAAGACGGCATGGAAAGATCGCCCCCTCTGTTTACATCTTAACAATACATAATAACTATTTAAAGATTGTTGAATATTTCAAGATAAAATGGGCTGTAGCAATTGATGTTTGTGCTACTTTTACTAGATTTTTAAAGAACAAAATTAGTAAAAAGTCTGATGTAACAGATCTTGAATTTATGCAAAAAAACAATTTTAAACCTTCACCTTCCTTAGATTTTTTCGGCATTGAAGAGCAATCAAAACCTGCTGTCCATCATGAGGAACAAGTAAAAAATAATAGATTACAAGACTTAAATGATTATTTGAGTGAAGATCAGAAAAGAGCGTATTACTACATTTTGAGTCAAGAGCTAACATACCTATCCGAAAATGATGCGTATACAATTGCTTTAAGATTGCCACCGGATATTGATCGCTACATAAGATGGGATTTTGAAGAATGTGTGCAATGGTTCCAGTTTAATAAAGCTGAAAACAGTAATCCTGCACATTTCATAAAAATGTTTAATCAAAAATCTAAACAGAAGCAAGAACGTAGAAAACGTAATGCACAAAATACAAGCTCACTCTTAGATACAACTAATAGTCATACATTTGTTTTCTATAATTTTTTAGAAGAACACGATTAA	MISRNFLLSRAKAELSPHIHHLSKTPGAINQEIKKIISYIDSIVLECEGATTKDYLTKRKYEALETVLSYLVQEGYSQVRQEHISKKSGISKPIINYVFNWLQDLGVCQQIKVRRHGKIAPSVYILTIHNNYLKIVEYFKIKWAVAIDVCATFTRFLKNKISKKSDVTDLEFMQKNNFKPSPSLDFFGIEEQSKPAVHHEEQVKNNRLQDLNDYLSEDQKRAYYYILSQELTYLSENDAYTIALRLPPDIDRYIRWDFEECVQWFQFNKAENSNPAHFIKMFNQKSKQKQERRKRNAQNTSSLLDTTNSHTFVFYNFLEEHD				NA	NA	NA	NA	NA
AK009_06815	111			hypothetical protein	ATGTTAGAACAAAATGTAGATTGTACTATAGTTGAAGAGGGGGACGAAGACGCTTGTATAATGAAATCAGTTGTTAAGACAGTGCGTGAAATAAGCTATTATACCTTTTAA	MLEQNVDCTIVEEGDEDACIMKSVVKTVREISYYTF				NA	NA	NA	NA	NA
AK009_06816	555			hypothetical protein	TTGGAATATGGATATTTTGCACAAGAAGTAGCAAAACAACTAGATATAAACACCAATACACTTCGCAGATGGTCAATTGAACTAGAAAAAATGGAATATATATTTGAAAGAAATGAGCGTAATCAACGAATTTACTATGAGAATGATATAGATATATTAAAGCAAATGAAAGAATACTTAAATCAAAACTGGAAACTAGAAGAAGCTGCAACAAGAAGCATGGAAAATACTGAAGAGAACGCTCAGAAAACGGATAGCGTTCATGAGGAAAATGAAGTTCAAGTAACGCTCAGAAAACGTTCAGAAACTGATATTTTGATGATTCAAGAAAAATTTTCTCACATGCTTGAGCAACAGGATAAAATTGTACAACAAAACCAAGATATCATTAAATTGTTATTACAGGAACGCTCAGAAAAAGAAGACAAAGATCTACAGATTCAGTTATTACAAGAAAAACTGGATAAAGCAATTGAACTATTAAATGAAGATCGCCAAGAACAGCAAGATAACACTAAAAAAACGTTCATTCAGCGTTTGTTTAATTTAAATTAA	MEYGYFAQEVAKQLDINTNTLRRWSIELEKMEYIFERNERNQRIYYENDIDILKQMKEYLNQNWKLEEAATRSMENTEENAQKTDSVHEENEVQVTLRKRSETDILMIQEKFSHMLEQQDKIVQQNQDIIKLLLQERSEKEDKDLQIQLLQEKLDKAIELLNEDRQEQQDNTKKTFIQRLFNLN				NA	NA	NA	NA	NA
AK009_06817	1188			hypothetical protein	ATGGCAAGTTTAAAAGGTAAAACTCTTCATATAGACATAGAAGGTGATATTGGGAACGATTCATTTAAAGGTTACATCAATGGTGAATACATAAAAATGAAAAATGTATATCAAAGTGTTTACTCAATGCCTAATGTTACAGAGACAAACATACAAAAAAACGTAGTTAATTTAGTAGATAATATGTTCGTGAATATTGCTAGTAAATCAATTCGAAGATCCGGGATGTATTTCATTGGAAATCGTGCGATGTTAACAGGTAAAAACCCTAAAAACATGAACATTAAAGTCGGTCAAAAATACAATGATGATTTACCACTAATTAATATGCTGGGATTAATCGCAAACAAATCAGTTCAACTTGAATGGGAACGAACAGAACAACTGCCACAATCAATCAATGTGACTGTTGACCTTATTTCAGCTATCCCAGCAAGCCAATGGACACCCGTAAACGCTAAACATTTAGAACAGCGTTTTACTAATTCAAATCATGTTGTAGTGGTTTATGTAGGAGAAGAGCAGGTAACGGTTAGCTTAACATTTAATAGTGCAAACATTACACAAGAGGGTGTTCCTCCGTTATTTGCAATTCTTGAAGGGGAAGAGGAGATGTTTACTGATTTCACTAAACTATATGCAAAAAAACTTGAAATCAAAAAAATTGACGGCGCCTTCTTTAAAAACAAAAAGATTTTACATTCTGATATTGGAGATGGAACAACTGAGTATATCTATACAGTTGGCGTGAACCCAGTAATTGATGCTTGTAGCGGTGAAAGACGTGGTGTCGGTCATGCTACAGAAGAAGCTGTAAAATTATTAAATCAAGAACGTGGCACAAACATTAAACGCCAACAATTCTCTCAAATTCTTCAAGATATAGATCATAAATACCATGAAGAGGCAACAACCCACTTTAATATTACAAAAGTGGAACAAGCTGAACTAATCCTAGAAGATACAGATGAAAAATATGTAAACAATACAGCCAGTGAAGCTGAAGTTTTATGTGTGTATGGTGGGGGAAGTATTACTTTTAAAGATGAATTATATAATCAATTATTAGAGTATTGTGAGCGAGTTGGAATGTACTTATTGTGGATTCCAGAGAAATACGCTGTAGATATGAATGCTAAGGGGATGCAAATTATCAAGAAAATTCTTTCTCGAAAAAAGGTGAAATAG	MASLKGKTLHIDIEGDIGNDSFKGYINGEYIKMKNVYQSVYSMPNVTETNIQKNVVNLVDNMFVNIASKSIRRSGMYFIGNRAMLTGKNPKNMNIKVGQKYNDDLPLINMLGLIANKSVQLEWERTEQLPQSINVTVDLISAIPASQWTPVNAKHLEQRFTNSNHVVVVYVGEEQVTVSLTFNSANITQEGVPPLFAILEGEEEMFTDFTKLYAKKLEIKKIDGAFFKNKKILHSDIGDGTTEYIYTVGVNPVIDACSGERRGVGHATEEAVKLLNQERGTNIKRQQFSQILQDIDHKYHEEATTHFNITKVEQAELILEDTDEKYVNNTASEAEVLCVYGGGSITFKDELYNQLLEYCERVGMYLLWIPEKYAVDMNAKGMQIIKKILSRKKVK				NA	NA	NA	NA	NA
AK009_06818	438			hypothetical protein	ATGTCCGACAAAAAAAGAGAATCCTTCTTCTGGAACCTCAAGAAGATTGAGAATGAAGAATTCTTTAAATGGTTCGAGTCACAAAGCAATATAGCCGATTCTTTGTATAAACTTGTTTGCTATTTTATTGATAAACACGGATTACAAGACGTGGCTGATTATAAGATACAGCAACAAATGCAAAAAGAAATTTTACTTCAAGATAAAGACTTTTTAAATGATGTTAAGCGTATACTTTTAAATAATTCAAACCTTACTATTCAAAAAGAAAGCCAAGCAATTGAAGAAGAGGTAGCTGATTCAAATAGAATAATCTCATCTAATGAAAAGAATTCTACTTCTAAAGATACACATATAGAAAATGAATCAACAACTGAAAAAGCAGTACTAAAAGATGAATATGAAGATCTTGATACGGCCAATTTATTTGGTAACTAG	MSDKKRESFFWNLKKIENEEFFKWFESQSNIADSLYKLVCYFIDKHGLQDVADYKIQQQMQKEILLQDKDFLNDVKRILLNNSNLTIQKESQAIEEEVADSNRIISSNEKNSTSKDTHIENESTTEKAVLKDEYEDLDTANLFGN				NA	NA	NA	NA	NA
AK009_06819	1668			hypothetical protein	ATGGATAATGTTCTACAATTGTTTAAAGATGCATTAGTAATATCAGCACCTATCTATAAACATAATGAACAATTGTGGTATAAATGGAATGCTTATTACTTAGAAGTTAAAGAAGATACTAGTAGGATCGTAACTTCGGACTATTTTTCCCCATCATTTTCAATGCTTGTACAGTGGCTTGAACAGCAGCAAAAAAAGGGAATCTCCTCTTTGGAAATATTCACTAACATAGAAACTTACCAAATTGAAATTGATGTGGCGATAGGATTATTTGTGGAGCAAGAGTTTTCAAGAGCTAACAATGAAACCTTGCAGGAACCAAAGGAATCTAATACAGGTTTAGAGCACGATAATTATTATGAAGTAAATAATTCTGCGGTTTATTATAAATTAAGAGATGGTATAGCAAAGAATCAATTTGAAGAAGATGAAAATACAAAGTTGAAATCTTATCCAATTGAAACGAAAGATAGTAGTGGAGTTGCACAACTTTCTTCACATAAAGATGAAGATTTAAGATTAATAAATATTGAAGAAGCCGCTCGTTGGAATACATTGGTTGATGGTGTAATGAGTAATATGGATGATTTAACTGCTGACTGTCTAGATGCAATTACTATCCAATGGTTAAATGAGGCAAAGTCTCCTGATGAATTCATAGACTTTTCATATAATCAGGTATTAGAAATGTGTAGCATACCTAAGGCAAAGGCAAATAACACAGAATATTATCGAGCAGAAGATAAAATAAAGGTTGCTAAACGTATTGCTGCCTTAGCAAGTATTTTTATCTATTTAAATGATGATAATGAGGTAGTTGTATTAAATGATCGAGCTGAAGCAGGTAAACATTATGAAGTAAAGCGAGAAGTTATTAAGAGGCTTTTTGTATTAGATTCTGTGGTACTCTGGAGAGATACTAACACTAACGAATATATGGGGATAGAATCTTGCAGGATTAAGCCAGGGAGCTTCTTATCAAGTTATTTATATGGTTCTAGTAGTACAACGGCACTTTTATCAAAAAAAGCGTTAGAATATAATAGTTATAGACATAAATATCATAAGAGGTTGATTCGTTATTTAACTTGGCAGTGGAGAATTCGTCAAATGTTCTCTAGTTTAAAAAGGCCTTACTCTATAGGAGGAGATAAGGGATTACTGGCTGTCATGGGTATAAATCAAAATCAAAAGCCAAATCGTATCCGTGAACAGTTAGAAAATGTTCTTATTGATTTAGAGAAGGAAAAGGTAATATCACATTGGGAGTACAGTGAAGATTTAAAAGAGGAAATGTTAACAAAGAAGAATTGGTTTAAGAACTATTATGCTCAGTTAGGTATAATAATTTTACCGCCGAAAGAATTAATGAATTCAATAGAAAAAATAGCGAAGAAAAAAACAGTAGAGATCATACAAGAAGATTCTCCAGTGAAAATAGAAAATAACACTTTAGATGTTGATGATTATGAAAATTCAATTAGAGAAAAAATATCATTCTTCCATATGAATAAAAATATTACAATGCGAGAACTTTCAAAAGAAATAGGTATATCACAACCTACCCTTTCTAGGTTTTATAATAAGAAAACAAAACGCCTTTCAGGCACAGCTAAAGATAAATTAAATCAGTGGTATAAAAGACAAATTATTATCGATAAGATGTAG	MDNVLQLFKDALVISAPIYKHNEQLWYKWNAYYLEVKEDTSRIVTSDYFSPSFSMLVQWLEQQQKKGISSLEIFTNIETYQIEIDVAIGLFVEQEFSRANNETLQEPKESNTGLEHDNYYEVNNSAVYYKLRDGIAKNQFEEDENTKLKSYPIETKDSSGVAQLSSHKDEDLRLINIEEAARWNTLVDGVMSNMDDLTADCLDAITIQWLNEAKSPDEFIDFSYNQVLEMCSIPKAKANNTEYYRAEDKIKVAKRIAALASIFIYLNDDNEVVVLNDRAEAGKHYEVKREVIKRLFVLDSVVLWRDTNTNEYMGIESCRIKPGSFLSSYLYGSSSTTALLSKKALEYNSYRHKYHKRLIRYLTWQWRIRQMFSSLKRPYSIGGDKGLLAVMGINQNQKPNRIREQLENVLIDLEKEKVISHWEYSEDLKEEMLTKKNWFKNYYAQLGIIILPPKELMNSIEKIAKKKTVEIIQEDSPVKIENNTLDVDDYENSIREKISFFHMNKNITMRELSKEIGISQPTLSRFYNKKTKRLSGTAKDKLNQWYKRQIIIDKM				NA	NA	NA	NA	NA
AK009_06820	1692			hypothetical protein	ATGAGCAAATCATTTGTTATTCGTAATCAACGTAGTCTAAATGGACAATCTACTAATGCGGTTATAGTTACATTAAAATCTTGGCAAGCACTTGTTGATGCATTGGAAGGAAAATACTATAGCTATAAAGATACATACCTTGAAGATATTATTAATCAAATGTCGTATGAAGAACGTATTGCGGATATCGATGGATTTGTTGCACAGGCAAAACCATCTTTTTCACGTCATACTATTTCAAAGACAATGGGAAGAAAACATAAATTGTACGGTATTACAAATGCAGATCTTGAAGTATTCCTTTATCTACATAAAAAATGCTATACGAATGGTATTATTCCAAACGTAACAGTACATATGCTTTGGGAAGACTATAAACAATACAAAGAAGAATTGGCATGTATACAGCATTCTCAATTCTATATTGCATTAAGAAAATTAAGCCTACATAACATTATTACGATTGAAAATGAATTAGATAGTCGATACACAATTAAAATAACTCATTTTATGAATGAAGAAACAGAAAAAGCAAATCCTTATGTTTACATTAGTCCTGTAGTCTTTACAAAGGCTTTCTTTGAACTTTCAATAGCATCTAAGAAGCTATTCTTAGATATTGCTATGCAACAGCATAGAGAAACTACATTAAAACGTTCTTTAGACAAACAGGATGAAAGAGGTAATAAGACTCACTTGGGTGGGATGTACCGCTTTCTACATAAGAAGTATCCACATCAAATTCGTGCAGTTATGAAAGAACTAACGACTGTATTGCCTTGTACAGGAACTCCACTATTCAAAATCTGTAAACTACAAAAAGGGGTTCAAAACAAGAAAAAATACACGACTTTATTTTTATCTATTCATTCAGACTTCTTATGTGGAAAAGAATCAGGCGAACTACAGTATCGTGATCCTTTTACTCCAAAGGTTACGTATGCCCGTAAAGCTCGATTTATTGAATCTACACTACAAGAAATGCATATTGGTGAATTTACACGAGACATGAATAAATTTATTCATGTACTTAAAAATACCTGTCATCGACAAATTCGTAGTGTAATACATAGTTTGCGTGACATGATTGATCGCACTGAAAAATATCCAAGTAAGTTAGTATATACACTGAAAAAATTATTGAATCAAACATCACAGTATCATATTCTTGATACCGCAGCTAAAGAAGGGGTTTATCCTCTTATTACACAGCACGTACCCGCAAAACAAAAAGAACAAGCTATATTTGATTTCGGATTGCATTTCTCTATGTACTCTCGCCGAAGCATCAAGAAGCTGTTCCGTAAAACATTTGAGTTATTAAAGAACAAATTTGCCGTACCTGTTACAGAGGAATCTTACCGTCGTAATTATCTAAGATATCAAGAAGAAACATTATTTAGAAAATACGCTTATGAACAAGGTGCAAATCTAAATGCTTATATGGCTTTAGAAATAGAAATGCGTGAACTTCTAAAAATAAAAGGACATAAGGAACGCTTTATTCCTAGCGATGTACGTGAATTGTTCATTGAAAAGATAGATAAATTACCAAAAGAAAAGCTAAGGGTAATTGAAGTACCTGATAGCATAAATTTAATTACCTTTATACGTGCCTTGGAAAAGCTGATACGTACTGGAATTCAAGTAACATCAACTGAACAGGTATTAAAAGTAATGGAAGAAATGTAA	MSKSFVIRNQRSLNGQSTNAVIVTLKSWQALVDALEGKYYSYKDTYLEDIINQMSYEERIADIDGFVAQAKPSFSRHTISKTMGRKHKLYGITNADLEVFLYLHKKCYTNGIIPNVTVHMLWEDYKQYKEELACIQHSQFYIALRKLSLHNIITIENELDSRYTIKITHFMNEETEKANPYVYISPVVFTKAFFELSIASKKLFLDIAMQQHRETTLKRSLDKQDERGNKTHLGGMYRFLHKKYPHQIRAVMKELTTVLPCTGTPLFKICKLQKGVQNKKKYTTLFLSIHSDFLCGKESGELQYRDPFTPKVTYARKARFIESTLQEMHIGEFTRDMNKFIHVLKNTCHRQIRSVIHSLRDMIDRTEKYPSKLVYTLKKLLNQTSQYHILDTAAKEGVYPLITQHVPAKQKEQAIFDFGLHFSMYSRRSIKKLFRKTFELLKNKFAVPVTEESYRRNYLRYQEETLFRKYAYEQGANLNAYMALEIEMRELLKIKGHKERFIPSDVRELFIEKIDKLPKEKLRVIEVPDSINLITFIRALEKLIRTGIQVTSTEQVLKVMEEM				NA	NA	NA	NA	NA
AK009_06821	309			hypothetical protein	ATGCAACTAAAAAATGTAACACCTATGGGATTAAATGATGAGGTATTCAAAACAATTATTAATAAAACTGAAAATACATTTCCATCATTTTTTTTCATTAATCCGTCAGGTAATGTTGTCATACCAAAATATTTGAACAAGGATATATGTATGTATGCAGTTTTCGGTGAAACAATGGTTATAATTGATAATGAAATTGAGATATTAAGGCATCAACAAATATTGTATTTTAATGCTGAGGTGTATATTGAATTGAGAAATAATACAACTGAGAATGTAATTGTATATATTGATGGTGTAAATAAGTAA	MQLKNVTPMGLNDEVFKTIINKTENTFPSFFFINPSGNVVIPKYLNKDICMYAVFGETMVIIDNEIEILRHQQILYFNAEVYIELRNNTTENVIVYIDGVNK				NA	NA	NA	NA	NA
AK009_06822	2634	adhE_2		Aldehyde-alcohol dehydrogenase	ATGACAAACAAGACAGATGAAAAAGAAGTACAAGCAATGGTCAACGTAGTAATTAAAGATGAAAATGATGTACAAGAAGTTGTTAATACTTTAGTTGAAAATGGAAAAGAAGCACTAAAAGCACTAGAATCTTATACGCAAGAGCAAGTAGATCATATTGTTCATGAAATGGCACTATCTGGATTAGATCAACATATGCCATTAGCAAAGATGGCGGTTGAGGAAACTGGTCGAGGTGTGTATGAGGATAAATGTACAAAGAACATATTTGCGACTGAATATATTTGGCATAGCATAAAAAAAGATAAGACTGTAGGAATTATTCATGAAGATCCACATGAAGAAGTCATCGAAATTGCCGAACCAGTAGGTGTAGTTGCTGGTGTGACACCAGTAACGAATCCTACTTCAACAACTATGTTTAAAGCAATTATTGCAATGAAAACACGAAATCCAATTATTTTCGCTTTTCATCCATCTGCTCAGCAATGCTCTGTTGCAGCGGCTAAAATTTTAAGAGATGCTGCAATTAGGGCAGGGGCACCGGAGAATTGCATTCAATGGATCGAAAAACCTTCTGTTGAGGCAACAAAAAGATTAATGAACCATGAGGGGGTTGCACTTGTTCTTGCAACCGGGGGTGCTGGAATGGTGAAATCAGCATATTCTACAGGGAAACCGGCCTTAGGAGTAGGACCTGGGAATGTACCTTGTTATTTAGAGAAATCAGCACATGTAAAACGAGCTGTAAATGATTTAATTTTATCAAAAACATTTGATAATGGTATGATTTGTGCTTCTGAGCAAGCAATCATTGTAGATAAAGAAATCTATAATGGTGTAAAAAAAGAAATGCAAGACAACAACTGTTATTTTGTTACAGAAGAAGAGAGAATAAAATTAGAGAAGCTTGTTATTAATGAAAATACATGTGCAGTAAATAGTGATATCGTTGGGAAATCAGCACATTATATTGCATCATTAGTAAGCATTAAGGTACCAGAAGATACAAAAATACTTGTAGCTGAAATTAAGGGAGTGGGTGCAGAATATCCACTATCACGTGAAAAATTGAGCCCAGTATTAGCTTGTATCAAAGCAAATTCACAAGAAGAAGGATTTAAATATTGTGAAGAAATGTTAAATTTAGGTGGCTTAGGGCATTCAGCGGTTATTCATTCTACAAATAAAGAAGTACAAAAACAATTTGGTTTAAGAATGAAAGCTTGTCGCCTTATTGTAAATTCACCATCAGCACAAGGTGGGATTGGTGATATATATAACGCATTTATTCCATCTTTAACATTAGGTTGTGGATCATACGGTAAAAATTCTGTTTCTCAAAACGTAACAGCTACACATTTAATAAATGTAAAGCGTTTGGCGAATAGAAAAAATAATATGCAATGGTTCAAATTACCACCTAAGGTTTTTTTTGAAAAACATGCGACACAATATTTAGCTAAGATGCCAAACATTTCACGAGCATTCATTGTAACGGATCCAGGAATGGTAGAACTGGGATATGTGGACACAGTTACACATTACTTACAACAGCATTTAAATGATGTAAAAGTAGGTGTTTTCTCAGAGGTAGAACCAGATCCATCAGATGAAACAGTATTCAAGGGTGCTGAGATGATGAGAAGCTTCAAACCTGATGTAATTATTGCATTGGGCGGAGGTTCAGCAATGGATGCAGCAAAAGGAATGTGGCTATTTTATGAATATCCAGAAACAAAATTCTTTGGAATCAAACAAAAGTTTTTAGATATTAGAAAACGTACATGTAAATTTCCAACACTAGGGCAAAAAGCACAATTTGTTGCGATTCCAACAACATCAGGAACAGGGTCAGAAGTGACACCATTCGCGGTTATTACAGATAAAAAAAATAATATAAAATATCCACTTGCTGATTATGAATTAACACCAGATGTAGCGATTATTGATCCACAGTTTGTAATGACAGTGCCACCTCATGTAACAGCAGACACTGGAATGGATGTATTAACACATGCAATTGAAGCATACGTGTCTATTATGGCAAATGACTATACAGATGGATTGGCCTTAAAAGCCATTGATCTAGTATTTAAATATTTACCGAGAGCATATAAAAATGGAAATGATGAAGAAGCACGTGAGAAAATGCATAATGCTTCTGCAATTGCAGGTATGGCTTTTGCAAATGCATTTCTTGGTATTAATCATAGTTTGGCACATAAGCTTGGACCAGAATTTCACATTCCACATGGACGCGCTAACGCAATCTTAATGCCGCATGTAATTCGCTATAATGCTATTAAGCCGAGAAAACATGCATTGTTCCCAAAATATGAGCATTTTGTGGCAGATGAACGTTATGCATATATTGCAAGAACATTGGGGCTGCCAGCAAGTACAGTAGAAGAAGGGGTAGAATCTCTGGTACAAGCAATTAGCAGCCTTGGAAAAGAATTGAATATTAATATGAGTATTGCAGGACAAGGAGTAAAACAAGAAGCATTTGAAAATGTTGTGGATGTCTTATCGGAAAGAGCATTTGAAGATCAATGTACACCAGCAAATCCGAAACTTCCATTGATTTCAGAATTAAAAGAAGTATATAAACAAGCATATAAAGGTCTGTAA	MTNKTDEKEVQAMVNVVIKDENDVQEVVNTLVENGKEALKALESYTQEQVDHIVHEMALSGLDQHMPLAKMAVEETGRGVYEDKCTKNIFATEYIWHSIKKDKTVGIIHEDPHEEVIEIAEPVGVVAGVTPVTNPTSTTMFKAIIAMKTRNPIIFAFHPSAQQCSVAAAKILRDAAIRAGAPENCIQWIEKPSVEATKRLMNHEGVALVLATGGAGMVKSAYSTGKPALGVGPGNVPCYLEKSAHVKRAVNDLILSKTFDNGMICASEQAIIVDKEIYNGVKKEMQDNNCYFVTEEERIKLEKLVINENTCAVNSDIVGKSAHYIASLVSIKVPEDTKILVAEIKGVGAEYPLSREKLSPVLACIKANSQEEGFKYCEEMLNLGGLGHSAVIHSTNKEVQKQFGLRMKACRLIVNSPSAQGGIGDIYNAFIPSLTLGCGSYGKNSVSQNVTATHLINVKRLANRKNNMQWFKLPPKVFFEKHATQYLAKMPNISRAFIVTDPGMVELGYVDTVTHYLQQHLNDVKVGVFSEVEPDPSDETVFKGAEMMRSFKPDVIIALGGGSAMDAAKGMWLFYEYPETKFFGIKQKFLDIRKRTCKFPTLGQKAQFVAIPTTSGTGSEVTPFAVITDKKNNIKYPLADYELTPDVAIIDPQFVMTVPPHVTADTGMDVLTHAIEAYVSIMANDYTDGLALKAIDLVFKYLPRAYKNGNDEEAREKMHNASAIAGMAFANAFLGINHSLAHKLGPEFHIPHGRANAILMPHVIRYNAIKPRKHALFPKYEHFVADERYAYIARTLGLPASTVEEGVESLVQAISSLGKELNINMSIAGQGVKQEAFENVVDVLSERAFEDQCTPANPKLPLISELKEVYKQAYKGL	PGPT0006360_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072	NA	NA
AK009_06823	162			hypothetical protein	ATGTCTAATTATAAGAAGTTAAATCAAGTAATTGAAAAAAAAGAGGAATTAATATCGCTTGTTAAGCAGTATGGATTCACTCATGAAAAGGTAATTTGTTATAGTAGAGAATTAGATTTATTATTATATAATTTGATGAAATCTAATAGAAATAATAAGTAA	MSNYKKLNQVIEKKEELISLVKQYGFTHEKVICYSRELDLLLYNLMKSNRNNK				NA	NA	NA	NA	NA
AK009_06824	1113	mftC	COG0535	Putative mycofactocin radical SAM maturase MftC	TTGATAAATCGTGATTATAATGAAAACCCATTTATTGTAATATGGGAGTTAACAAGAGCATGTGAATTAAAATGTCTACATTGTCGTGCTGAAGCTCAGCATTATCGCAATCCTTTTGAGTTAACATTAGAAGAAGGAAAAAAACTAATTGATGATATATATGAAATGGATAATCCGATGCTGGTTTTTACTGGTGGGGATCCATTAATGCGTTCGGATATATATGATATTGCTGAATACGCGGTGAAGAAAGGTATTCGGGTTTCCATGACACCCAGTGCTACTCCAAAAGTTACTAAAGAAGCGATTAAAAAAGCAAAAGATGTTGGGATTGCTAGATGGGCATTTAGTATAGATGGACCAACAGCTGAAGTACACGATCATTTTAGAGGAACAGAGGGGTCATTTAAATTAACAATGGATGCAATTCATCATTTAAATGAATTAAAAATCCCTATTCAAGTCAATACAGTTGTTTCTAATTATAATTTGAGTGTACTTAAAGATATGGCAAATTTAGTAGAAGAATTAGGTTGTGTGTTGTGGAGTGTATTTTTCTTAGTCCCAACAGGACGTGGTAAAGAGAAAGATATGATTTCACCAATTCAACATGAAAGAGTGTTCCGCTGGCTATACCAGCTAAGCAGAACTGTTTCTTTTGATATAAAAACTACTGCTGCTCAGCACTATAGACGCGTTGTTCTTCAAGAAAAAATGAAGGGAATTAAAAAAATAGATCAAATTATTCAATATAGAGATGTACTGATGGAAGGGATCATGGACGGAATTAATGGATTTGGACGCGCTCCAAAAGGAGTAAATGATGGAAATGGAGTTGTATTTATTTCTCATATTGGAGATGTATACCCAAGTGGGCTATTACCTATTAAAACCGGGAATATTAAATCAACACCGATAGCTGAAATTTATCGAAACTCGCCTGTTTTTCAAAGTCTTCGTAATCCAGACAATTATAAAGGAAAATGCGGTGTTTGTGAGTTTCGATATGTTTGTGGGGGATCTCGTTCTAGGGCATTTGCGATGACGGGGGATTACATGGAAAGCGAACCTTTTTGTGTATATGTTCCAAAAGCATTGCAAAAAAAATGTTAG	MINRDYNENPFIVIWELTRACELKCLHCRAEAQHYRNPFELTLEEGKKLIDDIYEMDNPMLVFTGGDPLMRSDIYDIAEYAVKKGIRVSMTPSATPKVTKEAIKKAKDVGIARWAFSIDGPTAEVHDHFRGTEGSFKLTMDAIHHLNELKIPIQVNTVVSNYNLSVLKDMANLVEELGCVLWSVFFLVPTGRGKEKDMISPIQHERVFRWLYQLSRTVSFDIKTTAAQHYRRVVLQEKMKGIKKIDQIIQYRDVLMEGIMDGINGFGRAPKGVNDGNGVVFISHIGDVYPSGLLPIKTGNIKSTPIAEIYRNSPVFQSLRNPDNYKGKCGVCEFRYVCGGSRSRAFAMTGDYMESEPFCVYVPKALQKKC	PGPT0008515_277	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008515-ahbD-K22227	NA	NA
AK009_06825	450	nrdG_2	COG0602	Anaerobic ribonucleoside-triphosphate reductase-activating protein	ATGAAGGTAATGAATATTATTCATGATAGTGTAGTAGATGGTGAAGGGTTACGGACAGTTGTGTTTTTTGCAGGTTGTCCGCATCATTGTTTAGGTTGCCATAACCCAAAATCATGGAATCTTTATAATGGTACCGAGATGAGTGTGAAAGAAATTATAAAAGAAATTTCCAAAAACCCTCTAACTGATGTAACATTTTCAGGTGGTGACCCATTTTTTCAAGCTATCGAGGTCAAAGAAGTTGCAAAAGCTGTAAAAAGTTTAAACAAAAATCTTTGGATTTACACTGGCTATACACTAGAAGAGATACAAAATTCACAAAATAAAGATATGATTGAGCTGTTACATTATGGAGATGTTTTAGTTGATGGAAGATTTGAAATCAAAAAAAGAGATTTGACTCTTCCATTTCGCGGAAGCTCAAATCAACGTATTATACGCCTAAAATAA	MKVMNIIHDSVVDGEGLRTVVFFAGCPHHCLGCHNPKSWNLYNGTEMSVKEIIKEISKNPLTDVTFSGGDPFFQAIEVKEVAKAVKSLNKNLWIYTGYTLEEIQNSQNKDMIELLHYGDVLVDGRFEIKKRDLTLPFRGSSNQRIIRLK				NA	NA	NA	NA	NA
AK009_06826	1866	nrdD_2	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGAACACCTCAGACAATGTAAAACAGCAAAAGAATACTTTATGGACAACTTTTGATAAAATTATAAAAAGTAACGATCAAGACTTAATGCAAGAAAATGCAAATGTTGATGGTCGATCTCCAATGGGAATGATGGGAACGTTTGCATCAGAGAGCGCAAAACTTTATGTAAGAGAACATTTGCTTTCTAAACAAGTAAAAGAAGCTATTAATCAAAACATTTTATATCCACACGATTTAGATTTTTATGCAACAGGAACAACCACATGCTCACAAATCCCTTTAGCACAATTGCTGAAAAAAGGGTTCCACACTGGACATGGCCATATGAGACAACCACAAGATATTAAAAGTGCATTAGCACTCTCGTCTATTATTCTTCAAGCTAATCAAAATATGCAGCATGGTGGGCAATCTCTTGCCATGTTTGATATAGATTTAGCACCCTATGTGAGAAAAACATTTGAAAAAAATAAGAAAAAGTTAATAGACTATCCGTTAACAAAGGAACAAATCGAAGTGTTTGCATGGAAAGAAACAGAAAACGATACATATCAAGCATGTGAAGCATTCATTCATAATTCCAATAGTATGCATAGCCGTGGTGGTGGACAAGTTCCATTTATTTCAATTAATTATGGAACGGACACATCAAGGGAAGGAAGGCTATTAATTAAACAATTACTACAGGCAACACAAGCGGGATTAGGAAAAAGCGAAACGCCTATTTTTCCCATTCAAATTTTCAAGTTAAAAAAAGGCGTAAATTTTGAAGAAAAAGATCCAAATTATGATTTATTTGAACTTGCACTAGAAACAACAGCGAAGCGATTGTTCCCTAACTTTTCATTTTTAGATGCGCCATTTAATGCAGCGTATTATAATGGGCACCCAGAAAGTGAAGTATGTTATATGGGGTGTCGTACTCGTGTGATGTCTAATATTCATGGTGAGGAGACAGCAATTGGCAGAGGAAATTTATCATTTACATCTATTAATCTAGTAAAACTGGCTTTAGTCAATGATTCAAAAGAGGGATTTTTCAAATCGTTAAATTATTATATCAAACTTGGCATTCGTCAATTGCTAGAAAGATATTCATATCAATGTACAAAAAAAGCAAGAGATTTTCAATTCCTATATTCACAAGGGATTTGGCGAAATGGAGAAAAACTTCAACCAGAAGATTCAGTTACTGAGATTTTAAAGCAAGGAACATTGAGCCTTGGTTTTATTGGACTTGCGGAATGCCTGGTTGCCCTAACAGGAAAACACCATGGGGAAGATACTGATTCATGGCGACTTGGAAAAGAAATTGTTACCTTTATGAGAAAAAAGATGGACCAAGCAACAGAAGAGCATTGCTTGAATTTCACCTTAATTGCAACTCCTGCCGAGGGACTATCAGGGAAGTTTATCAAAAAGGATCGTGCTGAATTTGGAACTATTACAGGTGTAACCGATCATGACTACTATACAAATTCATTTCATATTCCAGTTTATTATCCTATTCAAGCAATTAATAAAATACGTTTAGAAGGACCGTTTCATGCTCTTTGCAACGGTGGGCATATTACGTATATTGAACTAGATGGAGCAGCAGTACATAATCAACTGGCTTTAAAACAGATTGTTCAAGCAATGGCACAGTATGAAGTAGGATATGGTTCAATTAATCATCCTGTGGATCGTTGTAAATGTTGTAACTATAATGGAGTTATTGAAAATGAGTGCCCTAGCTGTGGAAATATAGAAGATCATCATATTGAAAGAATTCGCCGTATTACTGGATATCTTGTGGGGGACATGTCAAAATGGAACAATGCAAAGCGTAGTGAAGAAGCAGATCGTGTGAAACATAAATGA	MNTSDNVKQQKNTLWTTFDKIIKSNDQDLMQENANVDGRSPMGMMGTFASESAKLYVREHLLSKQVKEAINQNILYPHDLDFYATGTTTCSQIPLAQLLKKGFHTGHGHMRQPQDIKSALALSSIILQANQNMQHGGQSLAMFDIDLAPYVRKTFEKNKKKLIDYPLTKEQIEVFAWKETENDTYQACEAFIHNSNSMHSRGGGQVPFISINYGTDTSREGRLLIKQLLQATQAGLGKSETPIFPIQIFKLKKGVNFEEKDPNYDLFELALETTAKRLFPNFSFLDAPFNAAYYNGHPESEVCYMGCRTRVMSNIHGEETAIGRGNLSFTSINLVKLALVNDSKEGFFKSLNYYIKLGIRQLLERYSYQCTKKARDFQFLYSQGIWRNGEKLQPEDSVTEILKQGTLSLGFIGLAECLVALTGKHHGEDTDSWRLGKEIVTFMRKKMDQATEEHCLNFTLIATPAEGLSGKFIKKDRAEFGTITGVTDHDYYTNSFHIPVYYPIQAINKIRLEGPFHALCNGGHITYIELDGAAVHNQLALKQIVQAMAQYEVGYGSINHPVDRCKCCNYNGVIENECPSCGNIEDHHIERIRRITGYLVGDMSKWNNAKRSEEADRVKHK	PGPT0021330_1991	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
AK009_06827	726			hypothetical protein	ATGAAATTAATTATTCCAAAGCAGCATGGAGCCTGGGGAATGCTGCTTATTCCATTTGTTTTAGGTATTTTAACTGGTAAATGGACATGGTATCATATACCTCTTTTTTTAGCGTGGTTTTTTGTGTATTTAGCTACATATCCCTTATTAATGTATGTAAAACAGCCGCGAAAGAAGTATTATTTATATTATTTTTTTCTTTACTTTGGTGAGGCTTGTATATGTACAGCTATTGCTCTTAGTTATGAATGGCGTATAGTTTACTTTTCTATTATTATGCTCCCGTTTTTTTGTATAAACATTTATTTTTCTAGCAAAAAAAATGAACGAGCCTTATTAAATGATGTATGTGCAATTCTTTTGTTTTGTATAGGGGGCATTATAAGTTATTACTTCACAATGAAAACAGTCGATAAAAATATATTGATAATAGCGACTATAACATTTTTATATTTTATAGGAAGTACGTTTTATGTAAAAACAATGATACGTGAAAAAAAGAATCCAACGTATCGCATTCTGTCATGGTGGTACCATTTATCACTTGTAATTGTTACGCTTATTTTATCACCAACGATTACCATTATTTTCATCCCAAGTTTGATACGGTCTATAGTACTGTATGGAAGGAATATTTCAATCTTAAAGGTGGGGATTTTAGAGAGTATAAATGCTATTTACGTTTTTATTACAACAATAATAGTATTTAAATATTTTGTCTCGTAA	MKLIIPKQHGAWGMLLIPFVLGILTGKWTWYHIPLFLAWFFVYLATYPLLMYVKQPRKKYYLYYFFLYFGEACICTAIALSYEWRIVYFSIIMLPFFCINIYFSSKKNERALLNDVCAILLFCIGGIISYYFTMKTVDKNILIIATITFLYFIGSTFYVKTMIREKKNPTYRILSWWYHLSLVIVTLILSPTITIIFIPSLIRSIVLYGRNISILKVGILESINAIYVFITTIIVFKYFVS				NA	NA	NA	NA	NA
AK009_06828	708			Glycine/sarcosine/dimethylglycine N-methyltransferase	ATGACTTTTTACCAAAAATTAATGCCGTATTATGATGAAATTTTTCCGAAAAATGAAAAACAATTGAATTTTATTGCTTCATATTTACAAGAGGGGGACTCCGTAATTGATGTAGGTGCGGCAACAGGGAATGTGGCTAATGCATTAGTTGAAAAAGGAATGATTGTAACTGCGATGGAACCAGAGAAGAAAATGGCTGATAAAATTTCTGAGAAGGCTATAACCCATAAGGGAAGACTTTTTGTAAATACACTTAGAATGCAGCAAATAGACGATGTACCTGGGATATTTGATGGTATTTATTGTATTGGAAATACGTTGGTTCATTTGGACAATGTACAGGAAATTACTGATTTCATTCAACGTTCTTTTAAAAAACTTAAGAAAAATGGAAAGTTCATAGTTCAAATTGTAAACTATGAAAAAGTATTAAATCAAAAAAAATTCATATTTCCAGTAATTAAGAAAGAACATTTCTCATTCAAACGAGATTATGCAATAGAGAGAAACAAGGTGCTATTTACTGTAACATTAAATACAAGTGGTGAAGAATTCTCAAATAGTATAGAGTTATATCCAATTACAAAAAAAAAATTACTTCCCATATTAATAGATTGTGGATTTGAGTCAGTAGAAACTTACGCTAATTTTGATAAAAAAATATATTCACTTGATGGTCCGGCATTAGTAATTGTAGCAACAAAATAA	MTFYQKLMPYYDEIFPKNEKQLNFIASYLQEGDSVIDVGAATGNVANALVEKGMIVTAMEPEKKMADKISEKAITHKGRLFVNTLRMQQIDDVPGIFDGIYCIGNTLVHLDNVQEITDFIQRSFKKLKKNGKFIVQIVNYEKVLNQKKFIFPVIKKEHFSFKRDYAIERNKVLFTVTLNTSGEEFSNSIELYPITKKKLLPILIDCGFESVETYANFDKKIYSLDGPALVIVATK	PGPT0013540_141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013540-gsmt_like-K18896	NA	NA
AK009_06829	1236	norV	COG0426	Anaerobic nitric oxide reductase flavorubredoxin	ATGGGCAAAGAAATTAAGTTAACTAAAGATATATATTGGGTAGGAAAAGTTGATAATAGAGAAGTTCCATTTCATCGTTTAATCTTAGCAAAAGGAACAACTTATAACGCGTACTTGCTAAAAACGGAAAAACCAACAGTGATTGATACAGTTGATATAGAGTTTGGAAGAGAATTTGTAGAATCATTAAGTAAATTAATTGATCCACAAGAAATTCAGTATATTGTAGTGAATCATACAGAACCCGACCATTCAGGGGGATTGGCAGCATTAGCATCAAGAGCTACTAATGCAACGATTGTATGTACAGAAATTGCAGTACCAGAAATACAAGAGATGTATAAACTGCATAATCGAAAGTTTTTAATAGTAAAAGATGGTGATACATTAGACATTGGTGGAAAAACATTGAAATTTAAAGAAACGCCATATCTTCATACTGAAGAAACAATGATTACCTACTGTGTAGAGGATAAAATTTTATTTCCTTGTGATATTTTTAGTACTCATATAGCAAATGACGAGATTTTCAGTGATAAAGCGAATGTAGATATTACGGAAGATTTTATTGGCTATTATAATGCCATTATCCATCCACATAGAAGATATGTAAGAACATTAATAGAAGCTCTAAAAGATTTGGATGTACAAATGATTGCACCATCACATGGCTACATTTTACGTCAGGATATACAGAAGTATATTAAATTATATGCGGATATGAGTAGAGATACGAATCAAGATAAAAAAGTAACAATTGTATATACAACAATTAAAAATAATACAAAAAAAGTAGCAAATATTATTAAAGAAACTTTAGAAGCAGATAATATTCATGTAACAGTATTTAACGCTGATAAATCAAAAAAATTAGAGGTTTTAAAGAGTATCCAAGAAGCAGATGCAGTCTTCATAGGATCTTCAACTAGATATGCAGATATGATTGGTAATTTAGAAGACATTTTAAAAGAAATGACAGAAATGAACCTAGAAGGGAAAATTGCAGCTTCATTCGGTTCATATGGTTGGAGTGGAGAGGCAATTGAGGTGATACAAGATTACCTCAATGAAACAAATATGAATGTACAAAGCACATCAAAAGTTATCAAATCTACAGGTATGACTCATGTTGAATTTCCTATTCGGATTAGATTCTCTCCAAGAGATGAGGGAAAAGTAAAGAAAATCCAACATGCAACAACATTTGTTACAGATTTATTATTGAGTTCTATTTAA	MGKEIKLTKDIYWVGKVDNREVPFHRLILAKGTTYNAYLLKTEKPTVIDTVDIEFGREFVESLSKLIDPQEIQYIVVNHTEPDHSGGLAALASRATNATIVCTEIAVPEIQEMYKLHNRKFLIVKDGDTLDIGGKTLKFKETPYLHTEETMITYCVEDKILFPCDIFSTHIANDEIFSDKANVDITEDFIGYYNAIIHPHRRYVRTLIEALKDLDVQMIAPSHGYILRQDIQKYIKLYADMSRDTNQDKKVTIVYTTIKNNTKKVANIIKETLEADNIHVTVFNADKSKKLEVLKSIQEADAVFIGSSTRYADMIGNLEDILKEMTEMNLEGKIAASFGSYGWSGEAIEVIQDYLNETNMNVQSTSKVIKSTGMTHVEFPIRIRFSPRDEGKVKKIQHATTFVTDLLLSSI	PGPT0000380_282	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000380-norV-K12264	NA	NA
AK009_06830	1215	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGGAAAAGAATTTTGTTATTATTGGGAGTGGTGTAGCTGCTGTAAATGCCGCTAAAACTATTAGAGAGTATGATAAAGGATCAAATATATTTATTTTTGGTGAAGAGCCATTACTACCTTATAAAAGAATTAAATTATCAAAGGATCTGTATTCAGATTTACACAGTGAAAAAGTGTTAATTAAAAAGAAAAAGTGGTATCAAGATAATCACATATCATTTTTTATAAATACAAAGGTGGTAAAAATTAATACAGATGAGCAATTTATTGTTACATCCAATGAAGCGGTATTTTCTTATCATAAACTATTAATTTGTACAGGAGCGAATAATAGAAGATTAGAGATAAATGGAATTAATAAAAAAAATATTTTTACTATTAGGGACATGAAAGAAGCAGATGAGCTTAAAGGTCATTTAGAAGACAAAGAAAGTGTTGTGACCATTGGTGGGGGTGTACAAGGGTTAGAAACAGCATGGTCTATTCTGAAAGCTGGTAAAAAGGTATCCATTGTAGAAGTAGCTCCTTTATTAATGAGAAGACAATTAGATACAAAATCTTCGCTTCTCTTGAAACGAAAAATTGAAAAGGAAGGAGTAAAGGTGTATTTAAATACTTCTATTGATTCTATTCTCGGGAAAGAATCTGTAACTGGCATAAAGATGAACGACAATTCTCAAATTAATTGTGATAGTATTGTTTACTCAATTGGCGTTACTCCGAACACTAAACTTGTACATGATACTGCTATTAAATTAAATAGAGGTATTGTTGTAGATGAGAAGATGAGAACAAATATAGACTCCGTATACGCTGCGGGAGATGTTGCAGAAGTAAATAATGAAATTGAAGGCTTATGGGGGACTGCCTTGGAACAAGGAAGAGTAGCAGGTAGTAATATGGTCTCTAAAACTGCCATTTATAAAAAAGAAATTCCAACCACTATTTTTAACGCATTCAATGTATCTTTATTTTCAATTGGAGTTGTTAATAAAGAGCAATGTGATACAACAATTGTTGAAGAAGACGGTAAGGAGAAGTATACAAGGTTATTTATTAAGGATAATAAAATAGTCGGTGTGATTTCATTAGAAGGAGTTGCTGCATCTATTCCTTACAAATCTGCGATTGAAAAGCATGTGTCGTTAGAAGGAATAGATTTATTAAATACAAACATAAGTGAAATAATGAGCAAGTTAAAAGAAAAAATATAA	MEKNFVIIGSGVAAVNAAKTIREYDKGSNIFIFGEEPLLPYKRIKLSKDLYSDLHSEKVLIKKKKWYQDNHISFFINTKVVKINTDEQFIVTSNEAVFSYHKLLICTGANNRRLEINGINKKNIFTIRDMKEADELKGHLEDKESVVTIGGGVQGLETAWSILKAGKKVSIVEVAPLLMRRQLDTKSSLLLKRKIEKEGVKVYLNTSIDSILGKESVTGIKMNDNSQINCDSIVYSIGVTPNTKLVHDTAIKLNRGIVVDEKMRTNIDSVYAAGDVAEVNNEIEGLWGTALEQGRVAGSNMVSKTAIYKKEIPTTIFNAFNVSLFSIGVVNKEQCDTTIVEEDGKEKYTRLFIKDNKIVGVISLEGVAASIPYKSAIEKHVSLEGIDLLNTNISEIMSKLKEKI	PGPT0000450_2832	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK009_06831	165	rub3	COG1773	Rubredoxin 3	ATGAAAAAATACATTTGTTTACCATGTGGATATATTTATAACCCAGAGGTAGGGGATCCAGATGAGGATATAGAACCAGGAACAAGTTTCGAAGATTTACCAGAGGACTGGGTTTGTCCTGTGTGCGGAGAAGATAAAAATCATTTTGCACCACTAGATGAATAA	MKKYICLPCGYIYNPEVGDPDEDIEPGTSFEDLPEDWVCPVCGEDKNHFAPLDE	PGPT0000630_1114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-HYDROXYLAMINE_REDUCTION,PGPT0000630-hcp-K05601	NA	NA
AK009_06832	708	glxR	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGGACGATAATCATAAAAAATCAAGAGAGCTTTGCCCAAGAAAAGTACTAATTTTTAAGACCCTTTCTGAAGAGGAAATTAGTAATATAGCTTCAATGACAAAACATAGGAAGTTTAAAAAGGGTCAGCCATTAATTCTTGAGGGAGATAAATCAGATACATTATTTATTATTAATAGTGGACAAGTAAAGCTCTGTACATTAACTCTTCAAGGGAAAGAGCAAATATTGCATATACTAACAAGTGGTGAATCCTTTTGTGAATTAAATATATTTAATTATGATGAAAAAAGTAATTTTAGTGCGTATGCTATAGAAGATACTCATATCTGTATGCTAAAAAAAGAAAATATGGATTATATAATGGAACGAAATCCAAGTATTGCATTAAAGTTGTTAAAAGTTGTCACAAAACGTTTAGCTAAGATAGAGAATTTAGTGCAAAATTTAGCGACAAACAATCCTGAAGTTAGAATTGCTCATATACTATTGGAGTTTTGTGATAAATATGGCAAAAGTACTGAGGATGGAATACTTATTAACTTGCCATTGACACGAGAGGAATTGGCAAATTATGCGGGGGTAACAAGAGAGACTATTAGTCGTAAATTGAATAAGTTTGAAAGTTTAGGACTCATGGCCTCTGTTGGAAATAAGAAAATAATAATAAAAAATCAGTTAGCTATTAGAAGACTTATCAGTTTCTGA	MDDNHKKSRELCPRKVLIFKTLSEEEISNIASMTKHRKFKKGQPLILEGDKSDTLFIINSGQVKLCTLTLQGKEQILHILTSGESFCELNIFNYDEKSNFSAYAIEDTHICMLKKENMDYIMERNPSIALKLLKVVTKRLAKIENLVQNLATNNPEVRIAHILLEFCDKYGKSTEDGILINLPLTREELANYAGVTRETISRKLNKFESLGLMASVGNKKIIIKNQLAIRRLISF				NA	NA	NA	NA	NA
AK009_06833	399			hypothetical protein	ATGAAATTAGATAGTAATAACCATTCAGTATTCTTGTTGTATTATCACCTTGTGTTGGTTGTGAAATACAGAAGAAATGTGTTTGATGATGATATGTCAGACTATGCAAAAGATATGTTTGTTCGACTATCTGAAAACTATCACATCACATTAGTTGAATGGAATCATGATGTAGACCATGTTCATATTTTGTTAAAGGCACACCCTAATACAGAAATGACAAAATTCATCAATGCTTATAAAAGTGCAAGTTCTCGACTTATTAAAAGAGACTTTCCACAAGTGAAAAAGAAACTTTGGAAAGAGATGTTTTGGTCAAGAAGCTTTTGCTTACTAACTACTGGTGGTTCGCCAATAGACGTAGTAAAAACATATATTGAAAATCAAAGTGAAAAATGA	MKLDSNNHSVFLLYYHLVLVVKYRRNVFDDDMSDYAKDMFVRLSENYHITLVEWNHDVDHVHILLKAHPNTEMTKFINAYKSASSRLIKRDFPQVKKKLWKEMFWSRSFCLLTTGGSPIDVVKTYIENQSEK	PGPT0030655_4764	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
AK009_06834	1113			IS200/IS605 family transposase ISBth16	ATGACAAAGCAGAATAAAGCATATAAATTCCGTTTGTATCCAACAGGAGACCAAGCACATCTTATACGTAAAACCTTCGGTTGTGTACGTTTCGTGTATAACAGAATGTTAGCCGAACGGAAAGAAGCGTATGAAAAACATAAAGATGATAAGGATCAACTAAAGAAACAAAAGCTTCCCACTCCTGCAAAATACAAAGCAGAATTTGAGTGGTTAAAAGAAGTTGATTCATTAGCTTTGGCAAATGCTCAACTAAACTTGCAAACTGCCTATAAAAATTTCTTTTGTGGTCAAAATGACTTCCCAACATTCAAAAGCAAAAAAGACAGAAAGTCTTATACAACGAATGTAGTGAACGGAAATATTATGTTGCTTAACGGTCATATCAAATTGCCAAAACTGAAAATGGTACGTATCAAACAGCATAGAGAAATACCACAAGGCCATATAATCAAGTCATGTACGATTTCTATGACACCTACTGGTAAATACTATGTGTCCATTTTGACTGAATACGAAAAGGAGATCGTACAAAAAGAAGTAGAAACAGTTGTTGGATTAGACTTTGCGATGGATCAATTATACGTCAGTTCTGAGGATGAGAGAGCCAATTATCCTAAGTTCTATCGTGAAATATTAGACCGATTAGCAAAGGCTCAACGAGTATTATCAAGACGTACAAAAGGTTCAGGGCGTTGGAATAAACAACGTATCCGTGTAGCTAAGCTGCATGAAAAAGTAGCAAACCAACGTAAGAACTTCCTTCATCATAAGTCTAAAGAGTTAGCTACTCATTTTGATGTTGTAGCTATTGAAGATCTAAATATGAAGGGAATATCGCAAGCACTTCATTTTGGAAAAAGCGTCGCTGATAATGCTTGGGGTATGTTCACTTCTTTCTTAGCTTATAAACTAAATGAACAAGGCAAACAGCTTGTGAAAATAGACAAATGGTTTCCTTCGACAAAAACATGTAGCAGTTGTGGAAATGTGAAAAATATGTCATTGTCTGAGCGAGTCTATTCTTGTATATGCGGTGTAAATCTCGATAGAGATTATAACGCCGCTATCAATATCAAAAATGAAGCAATACGCCTATTAGCGTTAGCATAG	MTKQNKAYKFRLYPTGDQAHLIRKTFGCVRFVYNRMLAERKEAYEKHKDDKDQLKKQKLPTPAKYKAEFEWLKEVDSLALANAQLNLQTAYKNFFCGQNDFPTFKSKKDRKSYTTNVVNGNIMLLNGHIKLPKLKMVRIKQHREIPQGHIIKSCTISMTPTGKYYVSILTEYEKEIVQKEVETVVGLDFAMDQLYVSSEDERANYPKFYREILDRLAKAQRVLSRRTKGSGRWNKQRIRVAKLHEKVANQRKNFLHHKSKELATHFDVVAIEDLNMKGISQALHFGKSVADNAWGMFTSFLAYKLNEQGKQLVKIDKWFPSTKTCSSCGNVKNMSLSERVYSCICGVNLDRDYNAAINIKNEAIRLLALA	PGPT0030680_5967	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
AK009_06835	747			hypothetical protein	ATGCAACGACACAAAAATATTTATCTATTAATTATTTTATGCACGGTATTATGTATAATAATTCTAGTCCATAAAGGTGAAAATAATAGCGTTAAAAATACAACATATGAGATGGATAAACTTGTTAAAATTGATGAAAAAAAACTATCTTCTAAAGAGAATAATCCTTTAGAAGTCCCTTTGATTTTACAAAATCCAGAATTAGAACGTGGATGTGAAGTTACAAGTTTAGCAATGCTTTTAAATTTTAAGGGTCTATCCGTTGATAAATTAGAGTTAGCTGAAAATATTAAATATGTACCTTTTCAAAACAATGGATTTATGGGAAATATGGACGAAGGATTTGTTGGAGATATGTATGACATAGATATGCCTGGTTTAGGTGTGCATATTAAGCCGATTTTAGAGTTAGCCAAATTATACATATCAGAGAATTGTATTATAGACTTAACCGGAAGTAATCCTGAGGATTTATATAAAGCAATTGATAAAGAACACCCTGTTTGGATTTTAACAAACGCGAGCTTTCGCAAACTACCTGATTATGAATTTCGTACTTGGAAAACAAATATGGGTGAGAGACAGGTTACATACCGTCAACATAGTGTTTTACTAACTGGATACACCGATCAATATGTATACATTAATGATCCATTAGATACGGAAAAAAATAAAAGAATTGATAAGAAGGATTTTGAAGAAGCATGGGTTCAATTAGGCAGACAAGCCCTAACTATCATTCCTTAA	MQRHKNIYLLIILCTVLCIIILVHKGENNSVKNTTYEMDKLVKIDEKKLSSKENNPLEVPLILQNPELERGCEVTSLAMLLNFKGLSVDKLELAENIKYVPFQNNGFMGNMDEGFVGDMYDIDMPGLGVHIKPILELAKLYISENCIIDLTGSNPEDLYKAIDKEHPVWILTNASFRKLPDYEFRTWKTNMGERQVTYRQHSVLLTGYTDQYVYINDPLDTEKNKRIDKKDFEEAWVQLGRQALTIIP				NA	NA	NA	NA	NA
AK009_06836	933	nasD_3	COG1251	Nitrite reductase [NAD(P)H]	ATGAGAAAACGAAAACGCTTAGTAATAATCGGTAATAGTATATCTAGTTTACGCTGTATTGAAGAGATTTTAATACAAAATCCTAATATGTATAGCATTTCTATTTTCAGTGATGAACTCTATCCTCTCTACAATCAAATAAACACTATTTCATTACAATTAGATATTAAAAATAGAATACAAAAGCAATATAATTGGTACAAACAACATAATATTAAGCTTTTTACAAACGAAAAGGTAATAGAAATTGATCGTGAGGACGAGGTCATTGTTACAGATAAACGCCGTATTGTTTTCTACGATAAACTCATCATTGCAACAGGATCTACTGCTTTTATTTTTCCCGTTAAAGGACTGCAATTATTTGGAGTAAATAAACTTAGAACAACTGAAGAAATCCAATTTCTATTAAATATTAAGAAGCATGCAAAAAAAGCTATTATTATTGGTAATGGCATGCTCGGTCTAAAAATTGCACAAAAATTATTTGATTTTGGAATAGACGTCCACGTAGTTCATTTCAGTTCACACTTAATGGCAAAACAAGATATCTTGGCTTGTTCATTACTATGTAACAAGCTAAAAGCAAAAGGGATTCAATTTCTCATGGAAAAAAACACGGTTAAAATCCTAGGTACAGACTATGCAGAGGGGATCCAATTCGAAGATGGCACTATTAAAAAATACGATTTAATTGTAATACCTATTGGTAGGCGACCTAATACACATTTAGCAAAAAAAGCTGGCTTATATGTTAAACGTGGCATAGTTGTTAATAAGTATATGCAAACAAATGATAAATTAATTTATGCAATTGGTGAATGCACTGAACACAATGGTATTACATTAGGATTTCCAGCCCCCCTCCACGCACAAGCTACTGTATTAGCCGAGCATATAACAAATGTACAGACAAATACTCTTTTTGCATAA	MRKRKRLVIIGNSISSLRCIEEILIQNPNMYSISIFSDELYPLYNQINTISLQLDIKNRIQKQYNWYKQHNIKLFTNEKVIEIDREDEVIVTDKRRIVFYDKLIIATGSTAFIFPVKGLQLFGVNKLRTTEEIQFLLNIKKHAKKAIIIGNGMLGLKIAQKLFDFGIDVHVVHFSSHLMAKQDILACSLLCNKLKAKGIQFLMEKNTVKILGTDYAEGIQFEDGTIKKYDLIVIPIGRRPNTHLAKKAGLYVKRGIVVNKYMQTNDKLIYAIGECTEHNGITLGFPAPLHAQATVLAEHITNVQTNTLFA	PGPT0000450_2906	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK009_06837	849	nirC_2	COG2116	Nitrite transporter NirC	ATGTTAGAACAAGGGATAGCTGATGCTATAAAACTTGCACAAAAGAAGAAACAAATATTAGATATAAACCCAATACAATATTTTGTTCGTGCATTACTAGCCGGCATCTATATTGGATTTATTATAGTATTATGTTTTAAATTAGGGGATTTTTTTCACGTTGTAAATTCACCTGCAACTTATTTAAGTGCTTCTTTATTTTTTGGAATTGCACTTATATTAATAATATATGGTGGAGCGGAATTATTTACTGGGAATACAATGTATTTTACAATTTCGACCTTACGAAAAAAAACAACGGTCTTAGATACTTGTCGTAACTGGGGTGCTTGTTTTTTAGGTAATCTGGTAGGTGCAATATTTTTTGCGTTATTATTTTATGGTACTGGTATTTTTGATCAAATTGAATATGAACATTTGATAAGTAATGTTGTTGAAGTAAAAATGAATACACCGACAATACAGCTATTTTTCAAAGCTATTTTATGTAATTGGCTTGTTTGTCTAGCATGCTTCCTTCCTTCTCAAGTAAAAGGGGATACAGCAAAAATAATTGTTATGATGTTATTGGTTTTTACATTCTTTTTATCTGGATATGAACATAGCATTGCAAATTTATCGCTATTTGCAATCTCCCTGGTATCGCCACATCCCAATACTATTTCTTTTAGTGGGGTTATTTATAATTTAATTCCAGTTACAATTGGAAATATTATTGGTGGATCTGTATTTGTTGGCATGGTATATCATTATATAACCCAAAACAACCCTACAGCTGAACAGAAGGGCGATTTAGTTGAATCTCAATGTGAGGAAAACATCCCATTACAAACACAAATAAAAATTTAA	MLEQGIADAIKLAQKKKQILDINPIQYFVRALLAGIYIGFIIVLCFKLGDFFHVVNSPATYLSASLFFGIALILIIYGGAELFTGNTMYFTISTLRKKTTVLDTCRNWGACFLGNLVGAIFFALLFYGTGIFDQIEYEHLISNVVEVKMNTPTIQLFFKAILCNWLVCLACFLPSQVKGDTAKIIVMMLLVFTFFLSGYEHSIANLSLFAISLVSPHPNTISFSGVIYNLIPVTIGNIIGGSVFVGMVYHYITQNNPTAEQKGDLVESQCEENIPLQTQIKI	PGPT0000565_44	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000565-nirC-K02598	NA	NA
AK009_06838	945	ldh1_4	COG0039	L-lactate dehydrogenase 1	ATGAATAAAAATATTAATCGTGTAGTTTTAATTGGTACAGGGGCCGTAGGATGTAGTTATGCATATTGTATGATTAATCAGGGCCTGGCAGAAGAATTCGTTCTTGTGGATGTAAATGAAGCAAGAGCAGAAGGAGAAGCAATGGATTTAAGTCATGCAATTCCTTTTTCACCATCACCAACAAAAGTATGGAAGGGTAGCTGTGACGACTGTAAAGATGCGCAAATAGTTGTAATTACAGCTGGATTACCACAGAGATCAGGTGAAACACGTTTAGACTTAGTTGAAAAAAACACTAAGATTTTTAAAGAAATTATACGTAATGTTATGTCAAGCGGATTCGATGGCATTTTCTTAATTGCAACAAATCCAGTGGACATCTTAACATATGTAACTTGGAAAGAATCTGGGTTGCCGAAAGAACGCGTAATTGGTTCAGGTACAACACTTGATTCTGCACGTTTCCGTTACATGTTAGGAGAATATTTTGAGATCGATCCTCACAATGTTCATGCTTATATAATTGGTGAACATGGTGATACGGAGCTTCCGGTTTGGAGTCATGTGTCAGTTGGCGTTCAAAAGCTGCAAACCATTTTAGAAAATAAAAGTCAGTATAATCAAAGTGACTTAGACGAAATTTTTGTTCGTTCACGTGATGCGGCCTATCATATAATTGAACGTAAGGGAGCGACCTGTTATGGAATTGGAATGTCTTTATTACGTATAACAAAGGCAATTTTACATCATGAAAATAGTGTGTTAACAGTATCTGCATACCTTGAAAATGAATATGGTCATAATGATGTATATATAGGAGTTCCTGCTGTTATTAATCGCGAAGGTATTCGAGAAATTATAGAAATTGAGTTAAATGCGGAAGAAAAGTTTAACTTTAATCATTCGGTACATACATTAAAAGATACCATGTCACCAATACTATAA	MNKNINRVVLIGTGAVGCSYAYCMINQGLAEEFVLVDVNEARAEGEAMDLSHAIPFSPSPTKVWKGSCDDCKDAQIVVITAGLPQRSGETRLDLVEKNTKIFKEIIRNVMSSGFDGIFLIATNPVDILTYVTWKESGLPKERVIGSGTTLDSARFRYMLGEYFEIDPHNVHAYIIGEHGDTELPVWSHVSVGVQKLQTILENKSQYNQSDLDEIFVRSRDAAYHIIERKGATCYGIGMSLLRITKAILHHENSVLTVSAYLENEYGHNDVYIGVPAVINREGIREIIEIELNAEEKFNFNHSVHTLKDTMSPIL	PGPT0001760_2403	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK009_06839	1053			hypothetical protein	ATGAGAAATTTTTTTGAAGAAAAATATACAAATTTAGAATTTAAGAGAGAACTAATAAATACTATAAGTAAAATCAGTGAATATAAGGGAGCGATAGCGGCATATCAAACTCAAAAACCAGAGATATTTAATCTTTTGGAAAAGAGTATATCACTGCAATATATTAAAACTTTTCCTAATATATATGAAAAGTTTACATTCTCAAATAAACAGTTAAAAAAATTAGTTGATCATCATGCTAGCCCTCAAACATTAGAAGAGGACGCTTTATTTTGTTATTGCAAAACATTAGAACTTGTGCAAAAAGAAAGCCACAAATTACCTATTAAACCGCAAACAATTCAAGAATTGCACTTCCAATTAATGAATTATTCAACTTCTGAAAGTGGTAATTGGAGAAAAAGCGAACTTGTACTATCTTCTATTCCAAAGTTAAAAGATCAATTTAAATTACGTACAGTTGTTTTATATGATATGGTTCCGCAATATTTGTATCATCTATGCGAACAGTATAATGCATTAAGGGCTAAAGGGAATTTTCATCCGCTCCTACTAATTCCTCAATTTATCTTAAATTTCCTATGTATTTATCCATTTAATAAAGGGAATGGCAAGTTAGCAAAAATATTAATTCAATGGTTATTAATTGAAAGTGGATTTACATTTGTAAAATATACATGTATAGATAAATATTTCAAAGAATATGAATCAGATTATTATGATGCTCTGTATAAATCTGCAGCTCACTGGTATCAAGGCGATCATAATGTAGTTTTCTGGATGAAAATTTTTTTAGATATTGTTTTAGTTGCATATAAAGAATTAAATTATGTAATAAAAAATTGTATTAGCACTCATACTAAAAGAAAAAGAATTGAAAAATACATAGACAGACAGGATAATCCTTTTACTAAAGAAAATATTCGAAACATGTATCCAGACATAAGTGAAAGTACTATAAATAAAACATTACACGCTTTAAATTCACAGGGATACATTAAATTAGTTTCTAAAGGTAGAAATGCAACATGGATAAAGCGTAAATTAACTTAG	MRNFFEEKYTNLEFKRELINTISKISEYKGAIAAYQTQKPEIFNLLEKSISLQYIKTFPNIYEKFTFSNKQLKKLVDHHASPQTLEEDALFCYCKTLELVQKESHKLPIKPQTIQELHFQLMNYSTSESGNWRKSELVLSSIPKLKDQFKLRTVVLYDMVPQYLYHLCEQYNALRAKGNFHPLLLIPQFILNFLCIYPFNKGNGKLAKILIQWLLIESGFTFVKYTCIDKYFKEYESDYYDALYKSAAHWYQGDHNVVFWMKIFLDIVLVAYKELNYVIKNCISTHTKRKRIEKYIDRQDNPFTKENIRNMYPDISESTINKTLHALNSQGYIKLVSKGRNATWIKRKLT				NA	NA	NA	NA	NA
AK009_06840	1356	steT_2	COG0531	Serine/threonine exchanger SteT	TTGTCACAACAACAACTAAAAAAGGATATTGGTTTCTTTGCAGCATTAACCACAGTTATTGGTACCGTTATCGGCGCCGGAGTATTTTTCAAGCCCACTGCATTATATGGAGTAACAGGAACAGCTAGCCTAGGATTACTTGCATGGGTAATTGGTGGTATCTTGACCGTTTGCGCAGGACTAACTGCTGCTGAACTATCTGCCGCTATTCCTGAAACGGGGGGAATGATGGCATATTTAAAGAGGACTTATGGAAACTTAACTGCTTTCTTGCTTGGCTGGGCACAAACTGTCATATACTTCCCTGCAAATATTGCAGCTCTTGCTATTATTTTCGGGACACAAACGGTTAGTTTATTTGGCCTAAATGTTAATGAACACAAAATGCTAATTATCGCAATTGCAATTATCACAGCAACATTTGTAACTCTTATGAACTTTTTAGGAGCTAAAGCAGCTGGTGGAATCCAAATGGCTTCGACTATATGCAAATTGGTTCCATTAGCATTGATTATTATTTTTGGATTACTACACAAAAGTGACGTTACTTTTCAGCTTTTTCCAATTGAGGCAGGGCCGAACAAATCTATGATATCTGCCCTTGGATCTGGTTTACTCGCAACAATGTTCGCCTATGATGGATGGATTCATGTAGGGAATATTGCTGGAGAAATGAAAAACCCTAAAAAAGACTTGCCTAAAGCAATCGTATTAGGATTATCAACAGTAATGGTTGTTTATTTACTAATTAATGTCGCGTTTCTAATGGTCATGTCTGCAACATCGCTCGCAGGTACTGATACACCCGCTTCTCAAGTAGCTACAATTCTATTTGGAGCTATGGGAGGAAAACTAGTTACCATTGGCATTTTAATTTCCGTATTTGGAACAATTAATGGTTATATTATGACAGGAATGCGAATTCCTTATGCCATGGCTATTGAGAACAAACTACCATTTAGTAAATGGTTTGCTACATTATCTAAAAATAGTCGGGTCCCTTATAATTCTGGTCTATTTATGCTATTTATTTCAATTATTATGATGGCCGTCGGCGGATTCAATACTCTTACTGATATGTTGGTATTTGTAATATGGATATTCTACACAATGACATTCCTTGCTGTATTCATCTTACGAAAAAAGGAACCCGAACTTGTGCGACCTTATAAAGTTCCATTGTATCCTTTTATACCATTAGTTGCTATTATTGGCGGATTGTTCATTGTTATTAATACCTTATTCACTCAACCTCTGCTAGCTTTATGTGGAATAGGTCTAACTGCACTCGGCCTCCCTATTTATTACACTATGCGTAAAAAGGGACAATTTGGTTTAGAAAATCATAACGAGTAG	MSQQQLKKDIGFFAALTTVIGTVIGAGVFFKPTALYGVTGTASLGLLAWVIGGILTVCAGLTAAELSAAIPETGGMMAYLKRTYGNLTAFLLGWAQTVIYFPANIAALAIIFGTQTVSLFGLNVNEHKMLIIAIAIITATFVTLMNFLGAKAAGGIQMASTICKLVPLALIIIFGLLHKSDVTFQLFPIEAGPNKSMISALGSGLLATMFAYDGWIHVGNIAGEMKNPKKDLPKAIVLGLSTVMVVYLLINVAFLMVMSATSLAGTDTPASQVATILFGAMGGKLVTIGILISVFGTINGYIMTGMRIPYAMAIENKLPFSKWFATLSKNSRVPYNSGLFMLFISIIMMAVGGFNTLTDMLVFVIWIFYTMTFLAVFILRKKEPELVRPYKVPLYPFIPLVAIIGGLFIVINTLFTQPLLALCGIGLTALGLPIYYTMRKKGQFGLENHNE	PGPT0020810_5139	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
AK009_06841	252			hypothetical protein	GTGGCCGGCGATGCGCGTGGCTGCCGGGACCTTGTTCTCGGTGAAGAACTCCGCGGCACGCACGGCGGGCATGTCCAGCACCTCGGCGATGTTGAGCCCGCCGAAGGTGTGCACGAGCACGGCGTCGTCGAAGCGCTTGCCCTCGCACACGTCGCACGTGATGTCGACGCCCTGCATCATGCCCAGGTCGACGTAGACGACGCCGGCCCCCTTGCAGTTGGCGCAGGCGCCTTCGGAATTCGGCGAAAATAG	MAGDARGCRDLVLGEELRGTHGGHVQHLGDVEPAEGVHEHGVVEALALAHVARDVDALHHAQVDVDDAGPLAVGAGAFGIRRK				NA	NA	NA	NA	NA
AK009_06842	555			hypothetical protein	GTGCTTGGCAAACGCCTTGCGGATCGGGTCCAGCGCGCCGGTGTAGGTCGCGGGATTCGATCGGCGCGAGCCGCTAATCGAAGCCTGGTCCACCCACACGGCGGAATCATCAAGCGGGATCGCGCGCACGAGCGAGGACTTGCCGGAACCCGCCACGCCGGTGATCACGGTCAGCGCCCCGCGCGGGATGTTGGTGTCCACACCCACCAGGTTGTTCTCGCTCGCGCCGCGGATCTCGAGTGTGCCGTCGCCCGCCCGGCACTCCGCGTCCGGCTTGAGCCGGTAGCGCTTGTGCAGGTGGCGGCCGGTGATGGTGTCAGAGCACTTGAGCGTATCGACGCCCCCCTCAAACACCACCTCTCCACCCGCGGCACCCGCCCCGGGGCCCAGCTCGACGACGTGGTCGGCGATCTCGATAGTCTGCGGCTTGTGTTCAACCACGAGCACTGTGTTGCCCTTGTCGCGCAGCTGCAGAAGCAAGGTGTTCATCCGCTCGATGTCGTCGGGGTGCAGCCCGGCGGTGGGCTCGTCGAAGACGTAGGTCACGTCCGTTAG	MLGKRLADRVQRAGVGRGIRSARAANRSLVHPHGGIIKRDRAHERGLAGTRHAGDHGQRPARDVGVHTHQVVLARAADLECAVARPALRVRLEPVALVQVAAGDGVRALERIDAPLKHHLSTRGTRPGAQLDDVVGDLDSLRLVFNHEHCVALVAQLQKQGVHPLDVVGVQPGGGLVEDVGHVR				NA	NA	NA	NA	NA
AK009_06843	1500			hypothetical protein	GTGGCGGATCATTTTTATGCGCTGCGCCTCGCCGCCGGACAGCGTCGACGTCGGGCGGTCGAGGGTGATGTAGCCGAGCCCGATGGTGACGAAGTGGGCCAGCGTTTCGCGTATCGCGGAGGTAAGCGGAGCCGCGGAGGCGTCGTCAAGCTGAGCGAACCATGCGGCGAGGTCGGCGACTTCCATCGCGCACAGCTCGGCGATGTTCTTGCCGCGGATGCGCGACTCAAGTGCGTGGTCGGCAAGACGCGTGCCACCGCAGGCGGGGCACGGCGCGGTGGTGACGGCGCGCTCGACGAACTCGCGCATCGCCTTTTGCATTCCCTCCTTTTCCTTGGTCAGCAGGGACTTGCTCAGCTTCGGTATCAACCCCTCGTAGGTGGTGTTGATGCCCAGGAAGTCCACCTTGCGCGGCTCGGCGTACAACAAAGTGTGCAGCTGCTCGTCGGTGAACTCGCCGACGGGCCGGTCGGTGGGGAAGAAGCCGGAGTCCGAGTAGTGACGCAGCTGCCACGACCCGGGCTTGTACCCGGGCACCGTCACCGCGCCCTCATCGAGCGATTTCTGCTTGTCGACGACCTCGTCAACGTCCAGGACCGAAGCACGCCCCGTGCCTTCGCAGTCGGGGCACATTCCGCCGGTGCGCTTGTAATCTTTGAGGACCTTTTTGTTGCCGCGGGCGTCGGTAAGCACGCCCCCGGCGCTGACGGAGGGGACGTTGAAGGAGTAGGCGCCGGGGCCGCCCGCGTTGGGTTGCGCGATGCGGGAGAACAGCACGCGCAGCATGGCGGTCGCGTCGGTCGCGGTTCCGACGGTGGAGCGCGCGTTCGTGCCGAGCTGGTTTTGATCTACGATGATCGCCGTGGTCAGACCCTCGAGGCGGTCGACGTCGGGGCGCGCCATAGACGGCATGAAGCCTTGGATAAATGTGGAGTAGGTCTCGTTGATCAGCCGGCGCGATTCGGCGGCGATGGTGTCGAAGACCAGCGAGGACTTGCCGGAGCCGGATACGCCCGCGAACACGGTCAGGCGCCGTTTCGGGATGTCGAGGGAGACATTTTTGAGGTTATTCTCGTGCGCCCCGACGACGCGGATGAACTCGTAGTAGTCCGCCGCGCGCGTGTCACTCATCGGCTCGACTTGGCAGGCAGCATCTTCTTCACCAGCGTGACGACGCCGACGACGAGAAGACCCGTGATCAGGCCGACGATGAGGGAGACGCCAGTGTCAACGAACCAGCCTGCGACGCCGCCACCGACGGCTTCCTGGCCGGAGACGATGATGTCGTGCAGCCAGTGCAGGCCGAACACCTCGTCGAGACCGCGGATAATGAGGTGGCCGCCGACCCACAGCATGGCGACCGTGCCGATTATGCCGATCGCGCTGAGCACGTACGGCATGGCCTTAACCAGCGCGCGGCCGAAGCCCACAGCATTGCCGCGGCGGATCATGCCGAGGCCGATGTCGTCGATCTTGACCAGCAGGGCCACCGCGCCGTAG	MADHFYALRLAAGQRRRRAVEGDVAEPDGDEVGQRFAYRGGKRSRGGVVKLSEPCGEVGDFHRAQLGDVLAADARLKCVVGKTRATAGGARRGGDGALDELAHRLLHSLLFLGQQGLAQLRYQPLVGGVDAQEVHLARLGVQQSVQLLVGELADGPVGGEEAGVRVVTQLPRPGLVPGHRHRALIERFLLVDDLVNVQDRSTPRAFAVGAHSAGALVIFEDLFVAAGVGKHAPGADGGDVEGVGAGAARVGLRDAGEQHAQHGGRVGRGSDGGARVRAELVLIYDDRRGQTLEAVDVGARHRRHEALDKCGVGLVDQPARFGGDGVEDQRGLAGAGYAREHGQAPFRDVEGDIFEVILVRPDDADELVVVRRARVTHRLDLAGSIFFTSVTTPTTRRPVIRPTMRETPVSTNQPATPPPTASWPETMMSCSQCRPNTSSRPRIMRWPPTHSMATVPIMPIALSTYGMALTSARPKPTALPRRIMPRPMSSILTSRATAP				NA	NA	NA	NA	NA
AK009_06844	285			hypothetical protein	GTGCAGGATCTTCTCCGCGCCCTCGAAGCAGAGGTAGGCGCCGCCGATCATGAGGATCGGCACCAGCGCCCACGGGGCGATGGCGTTGAGCAGCAGTGCGATCGGGAGGATGAAGAGCAGCTTGTTGCGGAACGAGCCCTTTGCAATGCGCCAGATCATCGGCAGCTCGCGCGCCGGGGTGACGTCGCGCACGTACTGCGGGGTCACTGCGGCGTCGTCGATCACCACTCCGGCGGCCTTGGCGGAGGTCTTGGCGGTCATTGCGGCGACATCGTCGGCGGATGA	MQDLLRALEAEVGAADHEDRHQRPRGDGVEQQCDREDEEQLVAERALCNAPDHRQLARRGDVAHVLRGHCGVVDHHSGGLGGGLGGHCGDIVGG				NA	NA	NA	NA	NA
AK009_06845	333			hypothetical protein	ATGTCTGATCTAGTGACATCCACGGCGCGTGTCGCCACGGAAAGGCCCGCACGCTACGCGAAACAACTGGCCAGCCACCTCGGCCGGAAAATCGAGACTGCCTTCGACCCGGATACCGGCCGCGGCCAGCTCATTTTCCCACCGCGCGACGGCGTCCCGGTGGGCACCTGCGACATGTTGTGCGGGGACAACGTGCTGGTGCTCGCCATGGAGGCGCCGTCTGAGAATATCGACCAGGCTGAGGAGATTGTCGGCAAGCACCTCGAGCGCTTTGGAGAAACTGATGGGCTTGTAGTGACGTGGGTGCGCACGGGGGAGGGAAAGCGGGGGTGA	MSDLVTSTARVATERPARYAKQLASHLGRKIETAFDPDTGRGQLIFPPRDGVPVGTCDMLCGDNVLVLAMEAPSENIDQAEEIVGKHLERFGETDGLVVTWVRTGEGKRG				NA	NA	NA	NA	NA
AK009_06846	1515			hypothetical protein	GTGTTACTGCTTAGTGATCTCGTGGTAGACCGGCTGGGACTTCCACGAGAACGTTACGTTGTCGACGTTTTCAGAAGATCCGCCCGTGACGTTGGAGTACCACAGCGGGACCGCCGGGAGGTCTTCCAGAAGAATCTCCTGAGCCTCGTTGTAGATCGGGGTTGCGCTCTCAATGTCGCCGGAGTTGGCAGCGTCCTTGAGCAACTGGTCGAACTTCGCGTTGGAGTAGTCACCGTCGTTGGAGCCAGCGCCGGTGCCGTACAGCGGGCCGAGGAAGTTGCCCAGCGAGGGGTAGTCGGCCTGCCAGCCGGTGCGGAACGCGCCGGTGATAGTGCGGTTGGTCACGTCGTCGCGCAGGGACTTGAAGTCCGGGTAGGCGTTGCCCACCGCGTCGATGCCAAGCGTGTTGCGGATCGAGTTGGCCACGGCGTCGACCCAGGCCTGGTGGCCTCCGTCAGCGTTGTAGGAGATGCTGAACTGGCCGTTAAACGGCGAGATCGCGTCCGCCTCAGCCCACAGGCGCTTCGCCTCCTCCGGGTCGTAGGTGAGCACCTCGGAGCCATCCAGGCTGTCGGAGTGGCCCGGGATCACAGGGGAGGTGAAGTCGGTCGCCGGAGTGCGCGTGCCCTGGAAGATCGTGTCGGTGATCTCCTCACGGTTGATCGCGCGCGACAGCGCGGCGCGGCGCAGCTTGCCCTCCTCGCCGGAGAAGTGCTCAAGCTTCTCCGGAATGGTGAAGGACTGGAACACAGCAGCAGGCTGGTTCACAGCACGCTCACCGAGCTCGTCCTGGAAGGTGGCGAAGGCGGAGTCCGGAACGGCGTCGAGCACATCCAGGTTGCCGGCGAGCAGGTCGGCGTAGGCCGCGTCCTGCTGAGCGTAAAACACAAAGTTCACACCGTCGTTCTGCGCGGCGCGATCACCGGTGTACTCCTCGTTCGGGACGATCGTGGCGTCTTGGTTGTGGTTCCACTCGGCCAGCTTGTAGGGGCCGTTGGAGATCGGGTTTTCACCGTAGGCGTCGATGTTGTCGTACGCGCTCGGGTGCATCGGGTAGTAGGCGGAGTAGCCCAGTCGGGAGACGAAGTCGGCTTCCGGCTGGTTCAGCTCGATGGTGAACGTCTTGTCGTCGACGACCTCGAGGCCCTCCATCTCGGCCTTGCCCTCTTCGTAGCCCAGGATTGGCTCGAAGAAGTAAGCGCTCAGAAGGGCGTTCTCGACGGTGTAGTTCCACGCCTTAACAAAATCTTCGGCGGTGACCGGGGAGCCGTCGGACCACTTGATGTCGTCCTTGAGCGTTACGCGGTAGGTCTTGTCCCCCTCGAGATCGATGGATTCAGCGAGCTCGTTATGCGCGTTGCCTTCCCCGTCGTAGTACACGAGGCCGGAGAAGATGTTTTCCACGATGCGGCCGCCGCCGGTCTCGTTGGTGTTGCCCGGAATCAGCGGGTTCTGTGGCTCGCTGCCGTTAGCGAGGACGTAATTGTCACCGCCGCCACCCTGAGCGTTGTTTGA	MLLLSDLVVDRLGLPRERYVVDVFRRSARDVGVPQRDRREVFQKNLLSLVVDRGCALNVAGVGSVLEQLVELRVGVVTVVGASAGAVQRAEEVAQRGVVGLPAGAERAGDSAVGHVVAQGLEVRVGVAHRVDAKRVADRVGHGVDPGLVASVSVVGDAELAVKRRDRVRLSPQALRLLRVVGEHLGAIQAVGVARDHRGGEVGRRSARALEDRVGDLLTVDRARQRGAAQLALLAGEVLKLLRNGEGLEHSSRLVHSTLTELVLEGGEGGVRNGVEHIQVAGEQVGVGRVLLSVKHKVHTVVLRGAITGVLLVRDDRGVLVVVPLGQLVGAVGDRVFTVGVDVVVRARVHRVVGGVAQSGDEVGFRLVQLDGERLVVDDLEALHLGLALFVAQDWLEEVSAQKGVLDGVVPRLNKIFGGDRGAVGPLDVVLERYAVGLVPLEIDGFSELVMRVAFPVVVHEAGEDVFHDAAAAGLVGVARNQRVLWLAAVSEDVIVTAATLSVV				NA	NA	NA	NA	NA
AK009_06847	927	dppB_3	COG0601	Dipeptide transport system permease protein DppB	ATGCTGAGATACATTGGCCGACGCCTCCTCCAGATGATCCCGGTATTCTTCGGCGCCACGCTGCTTCTGTACGCGCTGGTGTTTTTGATGCCGGGTGACCCGGTCCAAGCCCTCGGTGGCGACCGTGGACTGACGGAGGCGGCGCGAGCGCGCATCGAGGCTGAATACAACCTCGATAAGCCTTTCATTGTGCAGTACCTGCTTTACCTCAAGGGCATTTTCACCGGAGACTTCGGCACCACGTTCTCGGGCCAGCCAGTCTCCTCCGTGATGGCGAACGCCTTCCCCGTCACCATCAAGCTCGCGCTCATGGCGCTGGCATTCGAGGCCTTCTTCGGCATCATCTTCGGCGTCATCGCCGGCGTGCGCCGCGGCGGAATCTTCGACTCCACCATCCTCCTCGTCTCCCTGTTCGTCATCGCGGTACCGTCCTTCGTCATCGGCTTCGTGCTCCAGTACGTCGTCGGCGTGCAGTGGGGGCTTTTGCCTGTAACGGTGGGCCGCAACGAATCGTTTACCGCGCTATTGATGCCGGCGGTGGTGCTTGGTGCCTTGTCGTTTGCCTACGTGATCAGGCTGACGCGCCAGTCAGTCAGCGAGAACCTGCGCGCGGATTATGTGCGCACCGCCCGGGCCAAGGGCTTGAGCAACGGCCAGGTGATGAACCGCCACGTGTTGCGCAACTCCCTCATTCCGGTGGTCACTTTCCTGGGCGCCGACCTCGGCGCGCTGATGGGTGGCGCGATTGTCACGGAGGGCATCTTCGGGATCAACGGCGTGGGTGGCACCATCTACCAGGCGATTATCAAGGGCGAGCCCGCGACCGTGGTGTCGTTTACTACGGTGCTGGTGATCGTCTACATCATCGCCAACCTCATTGTCGATCTCCTCTACGCCGTTTTAGACCCAAGGATCCGCTATGCATAA	MLRYIGRRLLQMIPVFFGATLLLYALVFLMPGDPVQALGGDRGLTEAARARIEAEYNLDKPFIVQYLLYLKGIFTGDFGTTFSGQPVSSVMANAFPVTIKLALMALAFEAFFGIIFGVIAGVRRGGIFDSTILLVSLFVIAVPSFVIGFVLQYVVGVQWGLLPVTVGRNESFTALLMPAVVLGALSFAYVIRLTRQSVSENLRADYVRTARAKGLSNGQVMNRHVLRNSLIPVVTFLGADLGALMGGAIVTEGIFGINGVGGTIYQAIIKGEPATVVSFTTVLVIVYIIANLIVDLLYAVLDPRIRYA	PGPT0021020_1389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
AK009_06848	966	gsiD_2	COG1173	Glutathione transport system permease protein GsiD	ATGCATAAGCCAAAGCTTGTCGACGCCCGCCTGCGACGCGGGCAGGAATACTTCATCGCGGACACCGACGAGACCGGGCTCGGTGCCGTCGATGCGGTGCCAGATGACTCCGCCCCGTCGAGCCAGTGGGGTGAGGCCTGGCGTTACCTGCGCCGCCGCCCGCTGTTTTGGGTCTCCGCCCTCTTGATTCTTGTGGCGCTGGCCATGGCACTTGTCCCGAGCCTTTTCACCAGTGTCGACCCGCGCGAATGCATGCTGTCGCGCTCGCTGGGCGGGCCGGAGGCGGGCCACCCGTTCGGTTTCGACCGTCAGGGTTGTGACATCTACTCCCGCACCATCTACGGTGCCCGCGCGTCGGTGACCGTGGGCGTGCTCACCACCCTCATTGTCACGCTCGTCGGTTCACTAGTGGGCGCGATCGCCGGTTTCTACGGCGGGATCTGGGATACGATCCTTTCGCGCATCACCGACATCTTCTTCGCGGTTCCGCTCGTGCTCGCCGCGATTGTCGTGATGTCGATGTTCCAAGACCGCCGCTCCATCTGGATGGTTGTCCTTGCACTCGCCATGTTCGGCTGGACGCAAATCGCCCGCATCACCCGCGGAGCGGTGCTGGGCGTCAAAAACGACGAGTTCGTCACCGCGGCGCGTGCCCTGGGAGCCTCGGACGTGCGGATCATCTCATCGCACATCATGCCGAACGCGGCCGCGCCGATCATCGTTTATGCCACGGTGGCGCTGGGCACGTTCATCGTCGCTGAAGCCACGCTGTCGTTTTTGGGCATTGGCTTGCCGACGACCGTGGTGTCGTGGGGCGGCGACATTTCGGCGGCGCAGGCGTCGCTACGTACTCAGCCGATGGTGCTGTTCTACCCGGCTATCGCGCTTGCGCTGACGGTGCTGAGCTTCATCATGATGGGCGACGCCGTGCGCGACGCTCTTGACCCGAAGGCGAGGACCCGATGA	MHKPKLVDARLRRGQEYFIADTDETGLGAVDAVPDDSAPSSQWGEAWRYLRRRPLFWVSALLILVALAMALVPSLFTSVDPRECMLSRSLGGPEAGHPFGFDRQGCDIYSRTIYGARASVTVGVLTTLIVTLVGSLVGAIAGFYGGIWDTILSRITDIFFAVPLVLAAIVVMSMFQDRRSIWMVVLALAMFGWTQIARITRGAVLGVKNDEFVTAARALGASDVRIISSHIMPNAAAPIIVYATVALGTFIVAEATLSFLGIGLPTTVVSWGGDISAAQASLRTQPMVLFYPAIALALTVLSFIMMGDAVRDALDPKARTR	PGPT0021025_1151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
AK009_06849	1713		COG1123	putative ABC transporter ATP-binding protein	ATGAGTTCCAGCATTTCTAGCACCGCGGTTGAGCAGCCGCTGCTCGACATCTCCGATCTCAAGATCGCCTTCGAGTCAACCACCGGCACCGTCGAGGCTGTACGCGGCTTCGACCTCACCATCTACCCTGGCCAGTCTGTTGCCATTGTCGGTGAGTCTGGCTCCGGCAAGTCCACGGCGGCCATGTCCATCCTCGGGCTCCTGCCCGGCACGGGCAAGGTGACCAACGGCTCAATAAAGCTCGAGGGTGAAGAGCTGACTCAGCTGGATGAAAAGGGGTGGCAAGCTGTCCGCGGCGACCGCATCGGCCTAGTGCCGCAGGACCCGATGAGCAACCTCAACCCGGTGTGGCGAATCGGCACCCAGGTGGAGGAGTCTCTGCGCGCCAACAACGTCGTCGAGGGTTCCAAGCGTCACGAGCGTGTCGTCGAACTGCTCGAAGAGGCCGGCCTGCCGGACGCTCAGCGTCGCGCGAAGCAGTACCCGCACGAGTTCTCCGGCGGCATGCGCCAGCGTGCGCTCATCGCCATCGGGTTGGCTGCGCGCCCGAAGCTGCTCATCGCCGACGAGCCGACGTCCGCCCTCGACGTAACGGTGCAGAAGAAGATCCTGGACCACCTGGACGGGCTCACCCAGGAACTAGGGACAGCCCTGCTGTTGATCACCCACGACCTGGGTCTCGCAGCGGAGCGCGCGGACTACCTCGTGGTCATGCACCGCGGCCGCATCGTGGAGAAGGGCCCGAGCCTGCAGATCCTGCGCAACCCGCAACACCCGTACACAAAGCGCCTTGTCAAGGCGGCTCCGTCTCTGGCGTCGGCACGCATCCAATCGGCCAAGGCCAAGGGCCTTAAGACGGAAGAGGCGCTGACCAGCGGCCACGTCAGCAACGAAGCCGTCATCCAAGTCGCGAACCTGGTCAAGGAGTTCGACGTGCGCGGAGCACGCGGCGATAAGAAGCTGCTCCGCGCAGTCGACGACGTCTCCTTCGACCTGCGCCGCGGTTCCACATTAGCCCTGGTCGGCGAGTCCGGATCGGGCAAGTCCACGGTGGCCAACATGGTGCTTTCGCTGCTGGAGCCCACGAGCGGCTCCGTAACGTTCGAGGGCCGGGACGTTGCCTCCCTCAAAGGCCGCGAGCTGTTCGACATGCGCCGCAAGATGCAGGTGGTGTTCCAAAACCCCTACGGTTCTCTGGACCCGATGTACTCCATTTACCGCTGCATCGAAGAGCCTCTGACCCTGCACAAGGTGGGCAACCGCAAGCAGCGCGAGGAGCGCGTCGCCGAGCTGCTCGACATGGTTCAGATGCCGCGCTCCGCGATGCGCCGCTACCCGAACGAGCTGTCGGGCGGTCAGCGCCAGCGCATCGCGATCGCGCGTGCGCTCGCGCTTGGGCCCGAGGTCATCGTGCTCGACGAGGCGGTCTCCGCGCTCGACGTGCTCGTCCAAAACCAGATCCTGCAACTGCTGACCAGCCTGCAGGACGAACTGGGGTTGAGCTACCTGTTCATCACCCACGACCTGGCGGTGGTGCGGCAAACCGCCGACGATGTTGTGGTCATGCGCCAGGGTGCCGTGGTGGAGCAGGGCACCGCGGATGCGATCTTCGACCACCCGGTCGACGACTACACCAAAAACCTCATCGATTCCGTGCCTGGTCTCGGTATCGAGCTGGGCACAGGGGAGAACCTGGGCATCGAGGTGAAATAG	MSSSISSTAVEQPLLDISDLKIAFESTTGTVEAVRGFDLTIYPGQSVAIVGESGSGKSTAAMSILGLLPGTGKVTNGSIKLEGEELTQLDEKGWQAVRGDRIGLVPQDPMSNLNPVWRIGTQVEESLRANNVVEGSKRHERVVELLEEAGLPDAQRRAKQYPHEFSGGMRQRALIAIGLAARPKLLIADEPTSALDVTVQKKILDHLDGLTQELGTALLLITHDLGLAAERADYLVVMHRGRIVEKGPSLQILRNPQHPYTKRLVKAAPSLASARIQSAKAKGLKTEEALTSGHVSNEAVIQVANLVKEFDVRGARGDKKLLRAVDDVSFDLRRGSTLALVGESGSGKSTVANMVLSLLEPTSGSVTFEGRDVASLKGRELFDMRRKMQVVFQNPYGSLDPMYSIYRCIEEPLTLHKVGNRKQREERVAELLDMVQMPRSAMRRYPNELSGGQRQRIAIARALALGPEVIVLDEAVSALDVLVQNQILQLLTSLQDELGLSYLFITHDLAVVRQTADDVVVMRQGAVVEQGTADAIFDHPVDDYTKNLIDSVPGLGIELGTGENLGIEVK	PGPT0004435_3131	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
AK009_06851	615	ykoE	COG4721	Putative HMP/thiamine permease protein YkoE	ATGGTCAGTACTTCACGTGCATCCTCGCGCCTTCAGTGGCGCGTCATCGATATTGTTACCGCGGCCGTGCTCGGCGTGGCATGCGGCCTCATTTTCTGGGTGTGGAACACCGTCGGTTACGCGGGTTTTACCGCGATGGACGCGCTCACCCCGGGCCTCGGCGGGTTGTTCAACGGCGTCTGGTTCCTCGGCGGTATCATTGGCGGGCTGGTGATTCGCAAGCCGGGGGCGGCGATTTTTGTGGAGGTGCTCGCCGCGTGCGTGTCGGCGGTGCTGGGCAGCCAGTGGGGCATTGAAACCATCTACTCAGGTCTCGCCCAGGGCATCGGTGCCGAGCTCGTCTTCGCCGCATTCGCTTACCGACGCTTCTCCCTGAGCACATCCGTGCTCGCCGGCGTTGGTGCCGGCATCGGCGCGTTCCTGCTTGAGTTGTTTACCGCCGCCAACCTCGCGATGAGCCTGTCGTTCAACCTGATCTACCTCCTGTGCACCGCCATTTCCGGAGCTCTGCTTGCCGGGGTGCTCGGGTGGATGCTGGTGCGCGCCCTCGCGCAGACCGGGGCACTGGATCGCTTCGGCCCTGGCCGGGAACGTTTCGCGACGCCGGCGTCGTAA	MVSTSRASSRLQWRVIDIVTAAVLGVACGLIFWVWNTVGYAGFTAMDALTPGLGGLFNGVWFLGGIIGGLVIRKPGAAIFVEVLAACVSAVLGSQWGIETIYSGLAQGIGAELVFAAFAYRRFSLSTSVLAGVGAGIGAFLLELFTAANLAMSLSFNLIYLLCTAISGALLAGVLGWMLVRALAQTGALDRFGPGRERFATPAS				NA	NA	NA	NA	NA
AK009_06852	1326	ykoD_3	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGGCCGCGATTCTCGCGCGCGAGCTGGGCTACAAGCACGCGACACGCGCCGAGCCCGCGTTTGCGGGCGTGGACCTGACAGTCGAGCGAGGCGAGCGGATCCTGATCTCCGGCAATTCGGGCTCAGGCAAGTCGACGCTGCTGGCCGTGATCGCCGGTCTCGCAGCCGATGGCGATGACGGCCACTCCATGGGGTCGGTCACGGTCGACGGGACCGTGGGCATGGTCATGCAGGATCCGGAGTCGCAGACGATTTTGTCTCGCGTCGGTGACGACGTCGCCTTCGGCGCTGAAAACATCGCGGTGCCCGCCGCGCAAATCTGGCCCCGCGTGCGCTGGGCGCTTGATGCGGTGGGCCTCGACGTGGAGCTCGATCACAGCACGGCGCGGCTTTCGGGAGGGCAGAAGCAACGCCTCGCGCTGGCGGGGGTGTTGGCGATGGGCGCGGATATCATCATCCTCGATGAGCCGACCGCGAACCTGGACCCGAAGGGCCGCGACGAGATTATTCGCGCTGTCGATAAGGTCTGCGCGCAAACAGGCGCAACGCTGGTGGTCGTGGAGCATCGCCCGGCGCCGTGGAGTGCCGTGGTGGAGACCTACTACCGTCTTGATGAAGCGGGGCTGCACCGCATCGGTGAGTCCGAGCTCGCCCCCACCCCGCAGCTACCGCCGGCGAAAACGATCCCTGAGGGATGTGCCACGGCGGTGCGCGCCAGCGGGCTGCGCACCCGGTTTGGCCCGCGGCACGACCTGGCGATTGCGCAGGGCTACTCCACGGTGATCACGGGTGAAAACGGCACAGGCAAGACCACCCTGGCGCTGGCCCTGGCGGGTTTGACGGCACCACGTGAGGGGACAGTGGCCTACAGCGAGGACATCGCGCAGGGGCTGACAAAACCCTCCCACACGTGGTCGTCGACGCACTTGTCGCAGCGAATCGGCTACGTCTTCCAGGAACCTGAGCATCAGTTTGTCACACCCACGGTGCGCCGTGAAATAGCACTGACCGGCGCGCCGGCGCAGCGCGTCGATACGCTGCTTGCGCGCCTGCGCCTCGAGCACCTCGTCGACGCCAACCCGTTTACCCTATCGGGCGGCGAGAAGCGCCGGCTGTCGGTGGCGACGGCGCTGGTCAACGCACCGCGGCTGGTGTTTTTGGACGAGCCGACCTTCGGCCAGGACGACACGACGTTCGCCGAGCTCGTCGCTCTTATCCGGGAACTGACCGAGGAGGGCATCACCGTGGTGTCGATCACCCACGATGAGGCATTCATGGCTTCGCTCGGTGACGCCGTGCTCGCGCTCGAGGCGGTGGCGCGGTGA	MAAILARELGYKHATRAEPAFAGVDLTVERGERILISGNSGSGKSTLLAVIAGLAADGDDGHSMGSVTVDGTVGMVMQDPESQTILSRVGDDVAFGAENIAVPAAQIWPRVRWALDAVGLDVELDHSTARLSGGQKQRLALAGVLAMGADIIILDEPTANLDPKGRDEIIRAVDKVCAQTGATLVVVEHRPAPWSAVVETYYRLDEAGLHRIGESELAPTPQLPPAKTIPEGCATAVRASGLRTRFGPRHDLAIAQGYSTVITGENGTGKTTLALALAGLTAPREGTVAYSEDIAQGLTKPSHTWSSTHLSQRIGYVFQEPEHQFVTPTVRREIALTGAPAQRVDTLLARLRLEHLVDANPFTLSGGEKRRLSVATALVNAPRLVFLDEPTFGQDDTTFAELVALIRELTEEGITVVSITHDEAFMASLGDAVLALEAVAR				NA	NA	NA	NA	NA
AK009_06853	765	ecfT_3	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	GTGAACGTGCTCAAAACCGTCAACCCGGTGACCCGCATTCTCGCACTGGCCCTTCTCACCACGCCGCTGATGCTCACCCTCGACGTCGTCTCCGCCGCGGTGACGGTCGCGCTCACGGTCGCCGCTGCGCCGTTTTGCGGGGTTTCCTGGCCCAGGCTGCTCCGCCGCGCCTGGCCGCTGCTTCTCATCGCGCCGATCGCCGGGATTCCCATGGCGCTGTACGGCCGCAGCGGGGGAGAGGTGTACTTCTCCTGGGGGCTGATCAACGTCACGGAGCTGTCGCTGAGCTTGGCGCTCGCGGCGGGCGTGAGGGTGCTGGCGGTGGCGCTGCCCGTGGTCGTGCTGTCCGCCGAGGTGGACCCAACCGACCTCGGCGACGGCCTGGCGCAGGTGCTCAGACTCCCGGAGCGCTTCGTCATCGGCGCAGTCGCCGCGCTGCGCATGCTCACGCTGCTGCGCGAGGACCTCGACGCGATGCGGATGTCGCGCCGGGCGCGCGGCGTCGCCGACACCGGCCGCATCCGCCACCTGTTCTCGCTGGCCTTCGGCGTGCTCGTCATGTCACTGCGCCGCGCCGGCAAGCTCGCCACGGCGATGGAGGCTCGCGGCTTTGGCTCCGGTCCGCGCACGCACGCGCGCGTATCGACGCTTAACGCACGCGACGGCCTCGTCATGGCGGCCTGTCTCGGTGCGGCGCTGCTCAGCCTCGCGATCGCGTGGTACACGGGGCACCTTCGCCCCGTGTGGGCGGTGTCGATTTCGTGA	MNVLKTVNPVTRILALALLTTPLMLTLDVVSAAVTVALTVAAAPFCGVSWPRLLRRAWPLLLIAPIAGIPMALYGRSGGEVYFSWGLINVTELSLSLALAAGVRVLAVALPVVVLSAEVDPTDLGDGLAQVLRLPERFVIGAVAALRMLTLLREDLDAMRMSRRARGVADTGRIRHLFSLAFGVLVMSLRRAGKLATAMEARGFGSGPRTHARVSTLNARDGLVMAACLGAALLSLAIAWYTGHLRPVWAVSIS	PGPT0004015_2863	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
AK009_06854	471			hypothetical protein	GTGACACGCTACACGCTGCTCATCGACGGCCCTTCCGGCGCCGGGAAGACCACCCTCGCCGTACTGATCGGCGAGCGTCTTGGCATCAGGGTCGTGCACCTCGACGACTTTTACCCCGGCTGGGGCGGCCTGGCTGAGGGTGCGCGCATGGTCGCCGACGACGTGCTGCACCCAACCAGGCCGGGTTACTGGCGGTGGGACTGGCAGCGCCAGACGTGCGGCGAGTGGGTGCCGCTCAACCCGGGCGAGGACCTCATCGTCGAGGGTGTCGGTGCGGTGACGGGGGCGTCGCTATGCGCCGCGCGCAGGCTGGGGGATGTGGACACGCTGCGTATTGTGGCAGACGACGCGACGAGGAAGGCCCGCGCGCTCTCACGCGACGAGGATTTCGCCCAGTACTGGGACATGTGGGCAGCCCAGGAAGAAGCTCTGGAGAAGCCGCCTGTCGATGTCACTGTGTGGGTGGACTAA	MTRYTLLIDGPSGAGKTTLAVLIGERLGIRVVHLDDFYPGWGGLAEGARMVADDVLHPTRPGYWRWDWQRQTCGEWVPLNPGEDLIVEGVGAVTGASLCAARRLGDVDTLRIVADDATRKARALSRDEDFAQYWDMWAAQEEALEKPPVDVTVWVD				NA	NA	NA	NA	NA
AK009_06855	228			hypothetical protein	GTGGGTGGACTAAATCGCCGGTGTAAGTTCGACGTTATCGGCCCACGTCAGGTCCATGCCAAGAGTGCGCAACCACTGCATGGCGTCGTCGTCGTGGCGCGTGATGCCCTCGACAGCGTTGAGCGTGACGTCGATAGCTTTCTCGGCTTCCTCGGCCGTGATCAAGCCCGCGGAGGTCGCGGCGGCGAGCTCGTCGATATCGAGCACGTCAATCGGGTTACCGGTTAG	MGGLNRRCKFDVIGPRQVHAKSAQPLHGVVVVARDALDSVERDVDSFLGFLGRDQARGGRGGELVDIEHVNRVTG				NA	NA	NA	NA	NA
AK009_06856	360			hypothetical protein	GTGGGCCACGTCGAAGTAGAAGTCCTGCTCGCGCTCCGAGCCCTCGCGAAAGTGGAAGATGTTGGCGCGCAGCCCGAGATCGGGCAGCAGCCAGCTTTCCAGGTAGCCGAACTCAGGGTGATTCGCGCCGCGCGCCATGTACAGGCCGAATTCGGTGACCTTGAACGTGTCCACCTCGCGCAGAAATCCCTTCGGGTCCGTGTTCGTCTTGGATGCGATATCGAAGGTCTCCTGCTTCACCGGGTGGAGGTCGGCGCTCATGATCTACCTCACATGGAAACTAGCTGCGGTCGGGGCGAAAGCGCAGACGTTGGTGGAGGTGCGGACACTTCCTCCGACGACTGCGAGAACCCGGCCTGA	MGHVEVEVLLALRALAKVEDVGAQPEIGQQPAFQVAELRVIRAARHVQAEFGDLERVHLAQKSLRVRVRLGCDIEGLLLHRVEVGAHDLPHMETSCGRGESADVGGGADTSSDDCENPA				NA	NA	NA	NA	NA
AK009_06857	456			hypothetical protein	GTGGAGTCCTTCGCCGATGCAGTCCAGCGACACCGTCGGCCAGATGAACTGGGCAAACGTCGGCGCGTCAGAGGGCAGCGGCGGTCCGCCGATCTCGCCGGTGCCCGCGAAGAAGGACACGGCCGCGCGCAGGGCGTCCGCGGCCTCGGCGGGGACAAACGGCTGGCTGGCGAACTCGTTGACCTTCGCCACCGCGAGCGGGGTGGGGCGGCCGAGGTCGTCGATGTAGCGCGAGGCGTCGGGCAGCGCGGACATCTCGGCCGCCTGGGCGGCGGGCGCGGCGAACGTGGCGGTCAGGGCCAGCAGCGCGGCGGCTGCGGCGGACGCGTGGCGGTGGCGGCGTCGAGAAGCGAAAGAGGGGGCAGGCACAGCGCGGGTCCTTTTGTGAGGGAAATTAATAAAAGAGAAATTTACTCTAATCACAGTAATCACATCATGGCGGTAGTCAAGTGGTAA	MESFADAVQRHRRPDELGKRRRVRGQRRSADLAGAREEGHGRAQGVRGLGGDKRLAGELVDLRHRERGGAAEVVDVARGVGQRGHLGRLGGGRGERGGQGQQRGGCGGRVAVAASRSERGGRHSAGPFVREINKREIYSNHSNHIMAVVKW				NA	NA	NA	NA	NA
AK009_06858	1911			hypothetical protein	GTGAGACGGGGCGTTGAGAAGAACTGCACGCGAGCCAAACCTTTAAGCGAGGTCGACCTACTTATTCAACTGCTTCGCGCGGGAACGGGCGCGGCCGCGCTCGGTGGCGTTGAGGATGATTTTGCGCACGCGCATCGCGTTCGGGGCAACCTCGACGCACTCGTCCTCGTCGCAGAACTCAATTGCCTCATCCAGCGACAGGGTGCGCGCCTTGGCCAGGGTGACCGTCGCGTCCGCGGTGGCGGAGCGCATGTTGGTCAGCTTCTTTTCCTTGGTGATGTTGATGTCCATGTCCTCGTCGCGCGAGTTCGCGCCTACGACCATGCCCTCGTAGGCCTCGGCACCCGGCTCGACGAAGAAGTCGCCGCGGTCGGACAGCTGCATCAGCGCGTACGCGGTGACCTGGCCGGAACGGTCTGCGACCAGCGAACCGGTCGGGCGGCCCTTGATCTCGCCGGCCCACGGGCGGTGCTCGATGGAGTACGAGTTGGCAATGCCCGCGCCACGGGTTTCGGTGAGGAAGGTGGTGCGGAAGCCGATCAGGCCGCGCGACGGGATGTCGAACTCCATGCGCACCCAGTCGCCGGAACCGGTGTTCGACATGCCGGTCATCTGGCCCTTGCGGTTGGCCATGAGCTGGGTCACCGCACCTTGGTACTCGGTGGGGGTGTCGATGATCACGTGGTCGAAGGGTTCGTGGACCTTGCCGTCGATCTCCTTCGTCACCACCTGCGGCTTGCCCACGGTCAGCTCGAAGCCTTCGCGGCGCATGGTCTCGATGAGCACGGTCAGCGCCATCTCACCGCGGCCCTGCACCTCCCACGCGTCGGGGCGCTCGGTGGGCAGGACGCGGATGGAGACGTTACCGATCAGTTCCTGGTCCAGGCGCGCCTTGACCATCCGGGCGGTGAGCTTGTCGCCGCCGCCGCGGCCAGCCAGCGGGGAGGTGTTCACGCCGATGGTCATGGAGATGGCCGGGTCGTCGACCTTGATGCGCGGCAGCGGGACGACGTTCTCGGGGTCGGTCAGGGTGTCGCCGATCATGATCTCGTCGATGCCGGACACAGCGGCGATGTCGCCCGCGACGACCTCACCGGTCGCCGGGATGCGCTCGAGGCCCTGGGTGATCAGCAGCTCGGCGATCTTGACGTTCTTGACGTGCTGGTTGCCGTCGGCGTCGTAGTGCACCCAGGCCACGGTTTGGCCCTTCTTCACCGAGCCGGCGTAGACGCGGATCAGCGCGATACGGCCGAGGAAGGACGAAGAGTCCAGGTTGGTCACCTGCGCCTGGAACGGCGCGTCGATGTCCGCCGAGGGCTCGGGCAGGGTGTCGTAGATGACGTCGAAAAGCGGCTGCAGGTCGTCGTTGTCGGGCAGCTCGCCGTTGCCCGGGTTGTTCAGCGAGGCGCGGCCTGCGCGACCCGAGGTGTAGAGCACGGGCAGCTCAAGCAGGTTCTCGGCGGCATCGGCGGCGGCGGGATCTTCCAAGCCAGCGCCGAGCTCGAGCAGGAGGTCCTGGGCTTCGTCGACGACCTCGTCGATACGCGCGTCGGGGCGGTCCGTCTTGTTCACGCAGATGATGACGGGCTTTTTCGCCTCCAGTGCCTTGCCCAGGACGAAGCGGGTCTGGGGCAGCGGCCCCTCGGAGGCGTCGATAAGCAGCACGACGCCGTCGACCATGGACAGGCCGCGCTCGACCTCGCCACCGAAGTCGGCGTGGCCCGGGGTATCGATGACGTTGATGACGAGGTCGCGCCCGTCCTTGCCCGCGCCCGCGCGGCGGATGGAGGTATTTTTGGCCAAAATCGTGATTCCGCGCTCGGACTCGAGCTCGCCGGAATCCATCACCCGATCTCCGTGTTCACCGTGGTCGGCGAAGACGCCGGACTGCTCCAACATCGCGTTGACTAG	MRRGVEKNCTRAKPLSEVDLLIQLLRAGTGAAALGGVEDDFAHAHRVRGNLDALVLVAELNCLIQRQGARLGQGDRRVRGGGAHVGQLLFLGDVDVHVLVARVRAYDHALVGLGTRLDEEVAAVGQLHQRVRGDLAGTVCDQRTGRAALDLAGPRAVLDGVRVGNARATGFGEEGGAEADQAARRDVELHAHPVAGTGVRHAGHLALAVGHELGHRTLVLGGGVDDHVVEGFVDLAVDLLRHHLRLAHGQLEAFAAHGLDEHGQRHLTAALHLPRVGALGGQDADGDVTDQFLVQARLDHPGGELVAAAAASQRGGVHADGHGDGRVVDLDARQRDDVLGVGQGVADHDLVDAGHSGDVARDDLTGRRDALEALGDQQLGDLDVLDVLVAVGVVVHPGHGLALLHRAGVDADQRDTAEEGRRVQVGHLRLERRVDVRRGLGQGVVDDVEKRLQVVVVGQLAVARVVQRGAACATRGVEHGQLKQVLGGIGGGGIFQASAELEQEVLGFVDDLVDTRVGAVRLVHADDDGLFRLQCLAQDEAGLGQRPLGGVDKQHDAVDHGQAALDLATEVGVARGIDDVDDEVAPVLARARAADGGIFGQNRDSALGLELAGIHHPISVFTVVGEDAGLLQHRVD				NA	NA	NA	NA	NA
AK009_06859	219			hypothetical protein	ATGCGGGTTGAGCCCGCCGCGCAGCGGTTCCGCGCCGACCTGGATCTCGGTGCGTTCCGGGCGCTCTTCCGTGGGCGTCGTTGTGGTCGTGGCCGACTGGTCGAGCCGATCCAGTTCCTCCTGCTGCACCAGCGGCGGCGGGCCCGGGTCCGCGGCGCAGGCGGGCAGCGCCAGCGCCAGCAGCGCGGCGCCGGCCACCGCGGTGAGACGGGGCGTTGA	MRVEPAAQRFRADLDLGAFRALFRGRRCGRGRLVEPIQFLLLHQRRRARVRGAGGQRQRQQRGAGHRGETGR				NA	NA	NA	NA	NA
AK009_06860	1191			hypothetical protein	GTGCAGCAGAGGCACCCACACGGCCTGGCCCGTGAGCACCTCGTCGACCTTGTCGCGCGCGTCCGCCAGCGTGTAAGCGCCAGCGAGGATGTCTCCTGCCAGCTCGTCGGTCTCCGGGCTGCACAGCCCTGCGAGGTTGCCGGAGCGGTAGTCCTGCGGCGGGCAGGCGACACGGCTTGCGGCGTCGTTAAGGTTCGCGGCGGCGGGTTCCCAGTGGACGAACACGTCAACCGAGCCCGAGGGCAGGCCGGTGGACACGACGCTCAAGGTGTCGGTGGACACCACCCGCGCCTGAACCCCACGTTGGACCAGCAGGTCCGCCAAGGAGCGGGCGGCGGCAGAGGCCTCCGGGTCGGCAGCGTCGGCGGCGATGCGCAGCGAACGGTTTTCGCTCACGCGCGCCGGCAGCACGGTCGGTCCTTCGTCTGTCGGCAGCTCGTGGTCGGCGACGACGAGCTCGGAGGAGCGCCCAGCGGCCAGGCGCGCGAGCAGGGGGACGTCGACAAGCGAGCGCAGCTCTTTGCGCGCGTCCTCGCTGGACAGAAGCGGCGAGGTGGTGGACAGGGTCAGGCCGAGGGTGCGTGGGCCGTCGACAAGCCGGGTTTGGGTGCCGGGGATGAGCTCGAAGACCTCGCGCGTGGTCTCTTCTGGGATTTTGTCCACGAAGCCGAGCTGGCCGGAGCGCAGCTGGTCGGCGATCTGGGTCGTGTCGCGCACGGCGTTGATGGTGAGCACGTCGACGCGCGCGGGGTTGTCACCCCAGAACCTGTCGTTGCGGTTGAGCGTGATTGTCCCGCGGCCCCGATCAACCGACTGCAGCATGAACCGCCCGCCGGACGCGGGCAACCCGTCGTGTGCCGCGGTAGCGAAGTCGGACGCGTCGGCGGCAAGCAGGTGCGAGGGCAAAAGGTAGTTGAACAGCGACTGCCAGTCCTCCACGCGCGTGGAAAAGTCCACGTCAACGGTCTTGCCGGCGGGCCCGGACACGCGCACGTTAGAAACCGCGAGGTAGCCCGCCGGATCGATCGCACCGGCGGTGGTGGACATGCCTCGCCACAGGTACGCGAAGTCGGCGCCGGTCAGCGGCGTCCCGTCAGACCACTGCGCCTCCGGGTTGATCACGTAGCGCACCGTCATCGCCGCCGGCGAGGTCGCGCGCACCGCGGCGCCAACGACCACGTCATTGTTTAG	MQQRHPHGLAREHLVDLVARVRQRVSASEDVSCQLVGLRAAQPCEVAGAVVLRRAGDTACGVVKVRGGGFPVDEHVNRARGQAGGHDAQGVGGHHPRLNPTLDQQVRQGAGGGRGLRVGSVGGDAQRTVFAHARRQHGRSFVCRQLVVGDDELGGAPSGQAREQGDVDKRAQLFARVLAGQKRRGGGQGQAEGAWAVDKPGLGAGDELEDLARGLFWDFVHEAELAGAQLVGDLGRVAHGVDGEHVDARGVVTPEPVVAVERDCPAAPINRLQHEPPAGRGQPVVCRGSEVGRVGGKQVRGQKVVEQRLPVLHARGKVHVNGLAGGPGHAHVRNREVARRIDRTGGGGHASPQVREVGAGQRRPVRPLRLRVDHVAHRHRRRRGRAHRGANDHVIV				NA	NA	NA	NA	NA
AK009_06861	291			hypothetical protein	ATGTTTTACAAGTCGGACGTCCGCGCGACGTTGATGGCCTACGACCCGACGGCGACGCCCGAGCACGTGGACTCGCTCTACCAGCAGATAGCAACCGAGTGGGAGGGGCAGTGGAACAGCCTGCTCAATAGGGCGGTCGACGATTACCACGAGCAGACGGGGCTCTGGCCGGACGGCGTGCAGAGGGGGGAAGTTCGTGGACCAGGCGAAGCAGCTGGCGACCGATCTGGTGATGGGGGCGTATCTGGAACCGATGACGCAGGAGATCGTGCAGCGGCTGTTGGACAATGA	MFYKSDVRATLMAYDPTATPEHVDSLYQQIATEWEGQWNSLLNRAVDDYHEQTGLWPDGVQRGEVRGPGEAAGDRSGDGGVSGTDDAGDRAAAVGQ				NA	NA	NA	NA	NA
AK009_06862	300			hypothetical protein	GTGGAAGGCCTTTTCGGACCTCGTTCCGAGCCGGGACGCGACGGACATGATGAAGGAGCTGTGGATCGACGAACCGATTCGCTTCCAGGTACTGGCGGAGAGACTGTTCGAGAGGAGGCGGAATCTGGGTCTCGAATTACCCAACGGCCCGCAGCACAGAGATTATCAGCCGATCATGGAACAGATTCAGCAGGCAGTTCGTCGAACGAAAGCACGAGACCGGGCACGCGAGCAGGCTCTAAACTCGCGCTAGCATCCTTAACCCGCACGCAAGCCTATTACGCTGGTGTCAACGCTTGA	MEGLFGPRSEPGRDGHDEGAVDRRTDSLPGTGGETVREEAESGSRITQRPAAQRLSADHGTDSAGSSSNESTRPGTRAGSKLALASLTRTQAYYAGVNA				NA	NA	NA	NA	NA
AK009_06863	876	mshB		1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase	ATGGCGCAGCGTGACTTGGCAGGCTACAGGGTAGTGGCGGTGCACGCCCACCCGGACGACGAGGCGATTTCCACGGGAGGCGCCCTCGCTGACCTCGCCTCCCGCGGTGCGGACGTCCTCGTTGTCACTTGCACCCTCGGCGAGGAGGGCGAAGTTATCGGAGACACCTACCGCTACCTCGTGGCCGATCAAGCCGACCAGCTTGGCGGATTCCGCATCGGCGAGCTCGCCAGGGCGTGCGAGATCCTGGGGGTGCGCCAGCAGTTCTTAGGCGGCGCTGGCCGCTACCGCGACAGCGGCATGGCGGGCGCGTTGTCGAGCGAGCACCCGCGGGCCTTCGTCAACTCTGGCGATGCCGCGGTGGCTGATCTCGCCGACATCTTCACCGCGGAGCGACCACACCTTGTGCTCACCTACGGCCCCGATGGTGGCTACGGCCACCCGGATCACATCCGCGCCCACGAGATCACCCACGCCGCCGCCGAGCGCGTCGGGGGCGTGGGGCGCATCCTGTGGGTCGTGCGGTTGCGCGAGGAGCTCGAGGCGAACCTGCCCACGACGGTGCCGCACGGGTGGACGGCGGCCGCGCCGGGCGAGCTCGATGCGGTCGATGCCTGCGACACGTGGGTGGATCTAAACGACCTCGTCTACACCGCCAAGGTTGAGGCGATGCGGGCGCACGCGACTCAGGTGTGGATCGGGGACGGGTACGCCTCCGTGACCAACCCGCACTCCGCCGTCGCGGCCGGCCCGGTCACCGCCTACGCGCTCTCCAACCTCACCGCCCAGGCTGTGCTGCGCCGCGAGCACTATAAATTCGGCGCCTACACCCCGATTGAGCACAGGGCGGGTCTGCTCAGCGGGCTGGACAAGTGA	MAQRDLAGYRVVAVHAHPDDEAISTGGALADLASRGADVLVVTCTLGEEGEVIGDTYRYLVADQADQLGGFRIGELARACEILGVRQQFLGGAGRYRDSGMAGALSSEHPRAFVNSGDAAVADLADIFTAERPHLVLTYGPDGGYGHPDHIRAHEITHAAAERVGGVGRILWVVRLREELEANLPTTVPHGWTAAAPGELDAVDACDTWVDLNDLVYTAKVEAMRAHATQVWIGDGYASVTNPHSAVAAGPVTAYALSNLTAQAVLRREHYKFGAYTPIEHRAGLLSGLDK				NA	NA	NA	NA	NA
AK009_06864	375			hypothetical protein	GTGAGCGAGACAGTCGTCCGCGACAACTTCAGCCGCGGCGAGGCGGTGTGGGGGATTGTCTGGCTGTGCATCGGCGCGGCCGTCTCAGTCCTGCTCGAGGTAGTCTACCTCGGCGCGACGGTTTTCGGGGTGCCGTTGCCGATGAGCATCGTCGTCGCGTTCCTGTTTAACGCGGTGCTGACGAGGACGGCGTTGCTGTGGGCGTCGATACGCGCGATTGCTCTTATCCCGCTGGCGGTGTGGGTGGGGGTCTTCCTGATTTTGCTGGCGGTGCTACCCGCGAGCGGAACAATGCTGGTGCCTAATAATATTCTCACTGTTGTCCTGATGTTTGCCGGACTGGCCGGAGGCGTGTGGCCCGTTTTGAAACGGTAG	MSETVVRDNFSRGEAVWGIVWLCIGAAVSVLLEVVYLGATVFGVPLPMSIVVAFLFNAVLTRTALLWASIRAIALIPLAVWVGVFLILLAVLPASGTMLVPNNILTVVLMFAGLAGGVWPVLKR				NA	NA	NA	NA	NA
AK009_06865	498			hypothetical protein	ATGCCGTCGGGATGCGCGGCGGCGCGTTCCTTGACGTCGGCGATCGTGTCCCAGGGGAAGTCGGGCAGCTTCGAGCCCAGCGGGGTGCGCGGCATACTACTCCTGGTTCTGTGGCGGCAGAGCGGCGACAAACGGGTGGTCGAAGTCCTGGGGGCCGAGCTTCATTGCGCCCCCCGGGGAGCCGAGGTTGTCGAAGAAGGCGACGTTGACGTCGTAGTAGTCGGCCCACTCCTCCGGGGTGTCGTCCTCGTAGAAGATGGCTTCCACCGGGCAGGCAGGCTCGCAGGCGCCGCAGTCGACGCACTCGTCCGGGTGGATGTAGAGCATGCGCTTACCTTCGTAGATGCAGTCGACGGGGCACTCCTCGACGCAGGAGCGGTCCAGCACGTCGACACACGGCTGAGCAATGATGTAAGTCATGCCCGTCATTATGTCACTACCGTTTCAAAACGGGCCACACGCCTCCGGCCAGTCCGGCAAACATCAGGACAACAGTGA	MPSGCAAARSLTSAIVSQGKSGSFEPSGVRGILLLVLWRQSGDKRVVEVLGAELHCAPRGAEVVEEGDVDVVVVGPLLRGVVLVEDGFHRAGRLAGAAVDALVRVDVEHALTFVDAVDGALLDAGAVQHVDTRLSNDVSHARHYVTTVSKRATRLRPVRQTSGQQ				NA	NA	NA	NA	NA
AK009_06866	564			hypothetical protein	GTGGTCGATGCTGAACCCGGCGTTGGTCAGGGCGTAGCTAAGCACCTCGCGGCGCTTGGCGTAGATGAGGCGCTGGAGCTGCTCGTGCTCGTCGTCGACAAGCGCGGCTATCATCGCGTGCTGGATGGGGCCGGGCACCATCAGGCCGGCGTGCTTGCGCGCGAGCAGCAGCTCTTGGATGAGCGCCTCGTCGCCGGCGAGGAAACCCGCGCGGTAGGAGGCGAGGTTGGACGTCTTCGACAGCGAGTGGATTGCAAGCAGGTTCGTGTTGTCGCCGTCGGTGACGCGCGGGTCGAGCAGGGAAACCGGCTCGGCGGACCAGGCAAGGCCCAGGTAGCACTCGTCGGAGGCGATGATCGCTTGCGTGTCGCGGGCAAAGGCCACCCACGCCCGCAGCTCGTCAATGGTGCGCACCTGCCCGGACGGGTTCGACGGGGAGTTGATGAAGACCAGCTCTGCACCCTCGGCGTCCTCGGGGGCATCGGCGCGCACCACTCGGCAGCCCGCGATGAGCGCCCCGACCTCGTAGGTCGGGTAGGCGACACTCGGGATCGCAACCGTTGA	MVDAEPGVGQGVAKHLAALGVDEALELLVLVVDKRGYHRVLDGAGHHQAGVLAREQQLLDERLVAGEETRAVGGEVGRLRQRVDCKQVRVVAVGDARVEQGNRLGGPGKAQVALVGGDDRLRVAGKGHPRPQLVNGAHLPGRVRRGVDEDQLCTLGVLGGIGAHHSAARDERPDLVGRVGDTRDRNR				NA	NA	NA	NA	NA
AK009_06867	327			hypothetical protein	GTGGTAGTAGCGGATGTTAAAGCGCGTGCCAAAGAGGTTGAGAAACGCGTCGGCCTCGTGAATGCCGAAACCCAGCTCGAGCGCCTTCTTGAACACGTAGAACGCGACCAGGTTCACGGCGAGGCCGGAGCCGCCGACGAGCCCGAACTTCACAAACTCCCTGATGCCCGCGCGCAGGCGTACCGCGGTGCTGGGCATCTAGGACACCAAACGCGACGCGGCAGCGGCGATCCGCTCGTCTGTGGCGGTCAGGGCGACGCGCACGTGGTTGGCCCCCGCCGGGCCGTAGAAGTCGCCGGGGGCGGCCAGAATACCGCGCTGCGCTAG	MVVADVKARAKEVEKRVGLVNAETQLERLLEHVERDQVHGEAGAADEPELHKLPDARAQAYRGAGHLGHQTRRGSGDPLVCGGQGDAHVVGPRRAVEVAGGGQNTALR				NA	NA	NA	NA	NA
AK009_06868	318			hypothetical protein	TTGGAACTACCAGCTCAACCGTTCGTGGACGTTCAAGCACATCCCGAAGCGCAACTGGTTCGCCGGGTTCTTCCCGTTTTTGACCACGGGCGCGCTCGCGTTTGTCGTCTCGCTGACGTTTATGACGCTGCTAATGAACCCGACCTCGCCGATCGCGCTGCCGGATCACATTTTCGACGACTCCACCGGCCTGCGCACCAAGTCGTACTGGGCGCAGGCCATCTCGACGCTCATCGCGATGCCGGTGAACTTCCTGGTGAACAAGTACTGGGCGTTTCGCAAGCCAAAAATCGCCGGCATCTAAGAGCTGGGCTCTAG	MELPAQPFVDVQAHPEAQLVRRVLPVFDHGRARVCRLADVYDAANEPDLADRAAGSHFRRLHRPAHQVVLGAGHLDAHRDAGELPGEQVLGVSQAKNRRHLRAGL				NA	NA	NA	NA	NA
AK009_06869	978			hypothetical protein	GTGGAGCTCGGTGTTGAGCTCGACACCCTTCGCCCGCAGCGCCTCGACGGCGCCGGTCAGGGAGTTGCGGCGGAACAGGATGCCGCTCTTGCCGGAAAGCTCAATCGCCTTGATCTCGGCGCCGTCGGTGTAGCCGTACGCCGACGCGACGTCGCCGGTGACCTTTACAAGGGTGCCCGCGGTGACGTAGAGGCCGGCCTCGACGATGCAGTCGTCGCCAAGCGAGATGCCCACGCCGGCGTTCGCGCCGAGCAGGCAGCGCTGGCCGAGGGTGATCGTTTCCTTGCCGCCGCCGGACAGGGTGCCCATGATGGAGGCGCCACCGCCGATGTCGGTGCCGTCGCCCACGGTCACGCCCGCGGAGATGCGGCCCTCAACCATGGAGGCGCCGAGCGTGCCGGCGTTGAAGTTGACAAAGCCCTCGTGCATCACGGTCGTGCCCTCGGCCAGGTGGGCGCCGAGGCGGACACGGTCGGCGTCGCCGATGCGCACGCCGGAGGGAACCACGTAGTCGACCATGCGGGGGAACTTGTCCACGGACAGAACAACGACGGGGCCCTTCGCCGCGAGGCGGGAGCGGGTGAGCTGGAAGTCGGAGACCTCGCAGGGGCCGTAGTTGGTCCACACGACGTTAGCCAGCAGGCCGAAAACGCCGTCCATGTTCGCCCCGTGGGGCGCGACAAGGCGGTGGGACAGCAGGTGCAGGCGCAGGTAGACGTCGTAGGCGTCGATGGCGGGCTCGGAAATGTCGGCGATCGAGGTCTCTACCTGGACGCGAGCCACGCCGCGGTCCTCGTCGGCGCCGACGAGGTGGGCAAAGCGAGCGTCCGGCTCGTCGATACACACCGTGCCCGTGGTATCGACCGCCTCGCCCAGCTTAGGGGCGGGGTACCAAACATCAAGAACGGTTCCGTTATGGGTGACGGTGGCGATGCCGCGGGCGCGCGCAGACACAGGGGTCGAGTTAGTCATGCATGA	MELGVELDTLRPQRLDGAGQGVAAEQDAALAGKLNRLDLGAVGVAVRRRDVAGDLYKGARGDVEAGLDDAVVAKRDAHAGVRAEQAALAEGDRFLAAAGQGAHDGGATADVGAVAHGHARGDAALNHGGAERAGVEVDKALVHHGRALGQVGAEADTVGVADAHAGGNHVVDHAGELVHGQNNDGALRREAGAGELEVGDLAGAVVGPHDVSQQAENAVHVRPVGRDKAVGQQVQAQVDVVGVDGGLGNVGDRGLYLDASHAAVLVGADEVGKASVRLVDTHRARGIDRLAQLRGGVPNIKNGSVMGDGGDAAGARRHRGRVSHA				NA	NA	NA	NA	NA
AK009_06870	1281	gabP_2	COG1113	GABA permease	ATGGGCCTGGGCATGGCCGTCGGCGCCGGACTGTTCCTGGGCGTCGGCGCGGGCATCCGCGCGGCCGGCCCCGCGATCCTGCTTGCCTACATCGTCGCCGGCGCGATCGTCGTGGCGGTCATGCGCATGCTCGGAGAGATGGCGGCGACGCATCCCTCCCCTGGTTCCTTCGCCACCTACGGCAGGCTGGCGTTTGGCAACTGGGCCGGTTTCCTGCTCGGCTGGTTGTACTGGTTCCTGCTGATCATGGTCGGCGGCGCGGAGATCACCGGCGCCGCGGCGATCATGTCGCAGTGGTTCGGCGTGCCGCAGTGGCTCCCCGCCCTGATCACGGTGCTGTTCTTCACCGCGATCAACCTCGCCCAGGTCAAGGGCTTCGGTGAGTTCGAGTACTGGTTCGCGATGATCAAAATCGTCGTCATCGTCGGCTTCCTGATCATCGGCACGGCACTGTTCCTCGGCCTGTTGCCCGGCACAAACTTCGTCGGCTTCGACAACATCGCCGAGTCCGGTTTCGCGCCCAACGGTATCGCCGGGATTGCCGCGGGCCTTCTCGCCGTCGCGTTTGCCTTCGGCGGCATCGAGGTGGTCACCATCGCCGCGGCGGAGTCGAAAGACCCCGCGGCCGCCGTCAAGAAGGCGGTTAGCTCGATCATTTGGCGCATCGGCCTGTTCTACATCGGCTCGGTCATCATCATCATCTTGCTGCTGCCGTATTCGCGTATCGACGACGCCCAGTCCGCCGCCGACTCCCCCTTCACCCAGGTCCTCGCCCTGGCGAACATCCCCGGCGCCGTCGGTTTCATGGAGGCTGTGATCGTGCTGGCGCTGCTGTCGGCGTTCAACGCCCAGATCTACGGCACCTCGCGCATGGCCTACCAGCAGGCGCTAGACGGCGACGCGCCCGCCTGGCTGCGCCGCACCAACGCCCAAGGCGTTCCCATCAACTCGGTGCTGGTCTCGGTGTTTTTCGCCTTCGCGTCCGTCGGGCTGCAGTGGTGGAACCCGCCGGGGCTGCTCACCTTCCTCATGACCGCGGTCGGCGGCTGCCTGATCGTCATCTGGGTGATGATCGCGCTGAGCTACATGCGCCTGCGCGAGCGTCTCAGCGGCGACGACATCGAGCGCAGCCCCCGTTGGCTCGCACCCGTCACGCTCGTCGCGCTCGTCGGCATCGTCGCACTGATGCTTTTCGACGCCTCAGCGCGCAGCCAGATCCTCGCGGTGCTTGCCCTGTCCGCGGTTCTCGTCGGCATCTCCGCACTCACCCGACGGGCCTGA	MGLGMAVGAGLFLGVGAGIRAAGPAILLAYIVAGAIVVAVMRMLGEMAATHPSPGSFATYGRLAFGNWAGFLLGWLYWFLLIMVGGAEITGAAAIMSQWFGVPQWLPALITVLFFTAINLAQVKGFGEFEYWFAMIKIVVIVGFLIIGTALFLGLLPGTNFVGFDNIAESGFAPNGIAGIAAGLLAVAFAFGGIEVVTIAAAESKDPAAAVKKAVSSIIWRIGLFYIGSVIIIILLLPYSRIDDAQSAADSPFTQVLALANIPGAVGFMEAVIVLALLSAFNAQIYGTSRMAYQQALDGDAPAWLRRTNAQGVPINSVLVSVFFAFASVGLQWWNPPGLLTFLMTAVGGCLIVIWVMIALSYMRLRERLSGDDIERSPRWLAPVTLVALVGIVALMLFDASARSQILAVLALSAVLVGISALTRRA	PGPT0020806_182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237	NA	NA
AK009_06871	522			hypothetical protein	GTGTGTTTAGTGCTCACGATGGGTCCTCTCGTTGTGGAGTGCGGTGCGCTGTGTGTAGGTGGCTGTGTGCGTCCAGACCAACCCGGCGATGGTGACGACGCCGACGACGACGAGTACCGCCAGCATCTGGAAACGGCCCTGCGCGGTACTGAGCATCAGCGCGACGATGCCGCCGGCAAGAGCGATAGTGGCCCACGGCAGCACGCGCGGTGCCCACATGCGCACGTGGGTGATCTCGCCGGTGGCCACCAGGCGCGGGTGCAGGCGCAGAAAGGAAAACGCGATGGCGAACCACAGGACGATCAGGCACCCGCCGACCGCGTTGAGCAGAAATGGCAGCAACCGCGGCGGGTTCCAATACTGCAGCGCCACGGCGACGAAGCCGAAGAACACCGACAGCACGACAGCGCGCAGCGGCACCCCGCGCGAGTCGGTGTCCTTAAAGAAGACGGGGGCGTCGCCGCGGTGCGCGAGGTTGTGCAAGAACCGCGAGGAGCCGTAAATCTGCGTGTTGCAGGCTGA	MCLVLTMGPLVVECGALCVGGCVRPDQPGDGDDADDDEYRQHLETALRGTEHQRDDAAGKSDSGPRQHARCPHAHVGDLAGGHQARVQAQKGKRDGEPQDDQAPADRVEQKWQQPRRVPILQRHGDEAEEHRQHDSAQRHPARVGVLKEDGGVAAVREVVQEPRGAVNLRVAG				NA	NA	NA	NA	NA
AK009_06872	318			hypothetical protein	GTGCAACACGGCGGTGAATGGCGACTCGGCGGCGACGTCCGCGCCGCCGATGGCGGAGTAGGGCAGCAGCAGGGTGATCAGCACGACGGAGCCGATGTAGAAGATGCCGATGCGCCACATGATGGAGCGAATCGCGGAGTGAACGGCGACCTCGGGGTCCTCGGACTCCGCCGCGGCGATGGTGACCATCTCGATGCCGCCGAAGGCGAACGCCACGGCGAGCAGGGCAGTGGCAACACCGCCGAAGCCGTTGGGCATGAACCCGACCTCGGCGATGTTGTCGAAGCCGACGAATCCGCTTGCGGGCAACAGGCCTAG	MQHGGEWRLGGDVRAADGGVGQQQGDQHDGADVEDADAPHDGANRGVNGDLGVLGLRRGDGDHLDAAEGERHGEQGSGNTAEAVGHEPDLGDVVEADESACGQQA				NA	NA	NA	NA	NA
AK009_06873	156			hypothetical protein	GTGGGCCGGCTTCGCCGTCGGCTGGCTGTACTGGTTCATGATGATCATGATCATGGCGGTGGAAATCACCGGCGCGTCCCGGATCGTCGCCGGCTGGTTCGGCGTCTCCCCGTGGATCCCCGCCTTGGTCGCCATCGTGTTCTTCACCGTGATTAA	MGRLRRRLAVLVHDDHDHGGGNHRRVPDRRRLVRRLPVDPRLGRHRVLHRD				NA	NA	NA	NA	NA
AK009_06874	633			hypothetical protein	GTGAACCACCGGCAGAACCTAAAAACCCAGGTCGGCCGCCCCGACAACCGCCTGATCGTGACTTCCCACCTACCGCAATGTCACGGTCAACCGACAAAACGCGAAACCCCACTACCGCGGCCGGAGCACGGGGCACGCCGAGTTCGGCTCGTTGGTAATGCTGATGTCGCTTTGCCCCGCGATGGCCCCGGCGGAGATCATCGCCCCGGAGCGCGAATCCACGATGGTGGTTGTCGGCTCGAGCATGACGTTGACGCCGATTTCGCAGCGATCGCCCAAATCGACACCGATCACCCCGGCTGCGGGTCGCAGCACGCAGTCGCGGCCGACGCGCAGCGGGGTGCGGTTGTGACGCTGCGCCGACGTCGCGATCAGCGCCGAGGACAGCCCGACATTGGTGCCTTCCCCCACGACGACCGCGGAGGACAGCCGGCCCTCAATCCGGGCGCGCCCCAGCGACCCCGAGTTGTAGGACACGTAGCCTTCGCGCATCACGGAGGTGCCCGGCGCGAGGTAGGCGCCGAGGCGGACGCGCTCGGCCTCGGCGATGGACACTCCGGACGGCACGACATAGTCGACCATCCTCGGCAGGCGCTCGATGCCGTAGACGTGGATCTGCCCGCGCGAGCGTAG	MNHRQNLKTQVGRPDNRLIVTSHLPQCHGQPTKRETPLPRPEHGARRVRLVGNADVALPRDGPGGDHRPGARIHDGGCRLEHDVDADFAAIAQIDTDHPGCGSQHAVAADAQRGAVVTLRRRRDQRRGQPDIGAFPHDDRGGQPALNPGAPQRPRVVGHVAFAHHGGARREVGAEADALGLGDGHSGRHDIVDHPRQALDAVDVDLPARA				NA	NA	NA	NA	NA
AK009_06875	165			hypothetical protein	GTGCTCGAAGTTGTCGCTCAAGCACGGACCCTTGTTTGTCCACACCGCCGGCACGAGGTGCTCCAGGCAGTCGGTCATGTTCAACTCCAGGGGCTTGACCAGCCGGTGGGAGAGCAGGTGCAGGCGCAGGTAGACGTCGTGGGCGTCGACGGGTGGCTCGGATAG	MLEVVAQARTLVCPHRRHEVLQAVGHVQLQGLDQPVGEQVQAQVDVVGVDGWLG				NA	NA	NA	NA	NA
AK009_06876	264			hypothetical protein	GTGCAGCACCCCGTCCTCCAGGCGGTGCGGGGTATTGCCTGCCAGGGGGACGGTATCGACGTGGCCAGCGAGCACGACGCGCTGCGGCAAGCCGTGGTGGGTCCTCGCGACGACCGTGTTCCCCCGGCGGATCACCTCGACCCCCTCGAGCTCGCGCAGGGCGGCCTCGATCGCGTCCGCGATGTCGCGCTCGTGGTGCGAGGGCGACTCGATGTCGATCAAAGCCGCGGTCAGATCAACGGGATCAGCGAAGAGATTCAGTAA	MQHPVLQAVRGIACQGDGIDVASEHDALRQAVVGPRDDRVPPADHLDPLELAQGGLDRVRDVALVVRGRLDVDQSRGQINGISEEIQ				NA	NA	NA	NA	NA
AK009_06877	759			hypothetical protein	GTGGGCGGGCCGGGCCGCGAGGTAGGCCTCGAGCGTGCGGGCGACGGTGTAAATCTGCTCGGTTGGGCACTGCTCGTCCACCTTGTGAGCGAAGCCGGGGTCGCCCGGCCCGAAGTTCACGGCCGGAGTTCCAAGGGTAGAGAACCGCGCCACATCCGTCCATCCGAACTTCGCCCGCACGTTTCCGCCCACGGCCTTGATCAGGTCGCGCGCCACCGGGTCGTCAAGCCCCGGCAGCGCCGCCGGGGCGATGTCGTCCCACACCAGCTCCAGGCCTTCTTCCAACTGCAGCGCCTCGACGAGGTGCGCCTTGGCGTCATCGACACTGCGGTCTGGCGCGTAGCGGAAGTTGATGGTCAGCTGGGCGAAATCCGGGATCGTGTTCGTCGCCACGAACCCCTCGAGCCCCACGACGTTGAGCCCCTCGCGGTACTCGCAGCCCGCGATGGTGACGCTGCGCGGCTCGTAACCCGCCACGCGCGTGAGCACGCCCGCGAGCTTGTGCGCGGCGTTGTCGCCCAGCCAGCTTCGCGCCGAGTGGGCACGCGTGCCGTGGGCACGCACGAACACGCGGATCGTGCCCTGGCAGCCGGCCTCGATGATCGCGCCGGAGGGCTCGCCGAGCAGCGCCAAGTCGCCGGCGAGCAGCTCGGGGCGGTCGCGCTCCAGGTGGTACAGGCCGTTGTGTTCGCTGGAGACCTCCTCGCCCTCGTAGGCGATCAGTGTCAGATCGAAAGCGCTGGCGTGGGGCGTCGATAA	MGGPGREVGLERAGDGVNLLGWALLVHLVSEAGVARPEVHGRSSKGREPRHIRPSELRPHVSAHGLDQVARHRVVKPRQRRRGDVVPHQLQAFFQLQRLDEVRLGVIDTAVWRVAEVDGQLGEIRDRVRRHEPLEPHDVEPLAVLAARDGDAARLVTRHAREHARELVRGVVAQPASRRVGTRAVGTHEHADRALAAGLDDRAGGLAEQRQVAGEQLGAVALQVVQAVVFAGDLLALVGDQCQIESAGVGRR				NA	NA	NA	NA	NA
AK009_06878	609			hypothetical protein	TTGCACCATGCACAGCACCTCGAAGACCTCGTCGAGGGTGCCGTAGCCGCCCGGCAGGGTGATAAACGCCTGGGAGTACTTCAAAAACATGGTCTTGCGGGCGAAGAAGTACCGGAAGTTCAAGCCCAGATCGACCCAGTCGTTGAGGCCCTGCTCGAACGGCAGCTCGATGCCCAGACCGACGGAGAGGCCGCCCGCCTCGTGCGCGCCGCGGTTCGGGCCCTCCATCAGCCCCGGCCCGCCGCCGGTGATCACGGCGTAGCCCGCATCCACCAGCGCCTTGCCCACTTCGCGGGCCTGCTCATACTCGGCGGTGCCCTCGCCGAGGCGGGCGGAGCCGAACACGGTCACGGCCTTCGGCAGCTCGGACAAGGCGTCGAAACCGGCGACGAACTCCGACTGGATGCGCATCACGCGCCACGGGTCGGCGTGCTTCCAGTCGTGGTCGCTGCTGCCCTGGGACTCCAGCAGGCGCTGGTCGTGGGTGGACTGCTGCTGCTCGTCGCTGCGCAGCATGATCGGCCCGCGCAGTTTACGGTTGCGCTCGGGCTTCGGGGTGATGTGGGGCGCCACGTTTCCCTCTCGTTGGTCGGTGAAGAAAGTATGTGA	MHHAQHLEDLVEGAVAARQGDKRLGVLQKHGLAGEEVPEVQAQIDPVVEALLERQLDAQTDGEAARLVRAAVRALHQPRPAAGDHGVARIHQRLAHFAGLLILGGALAEAGGAEHGHGLRQLGQGVETGDELRLDAHHAPRVGVLPVVVAAALGLQQALVVGGLLLLVAAQHDRPAQFTVALGLRGDVGRHVSLSLVGEESM				NA	NA	NA	NA	NA
AK009_06879	828			hypothetical protein	GTGGACGCGGAAGGCGGCCACTCCCCGCGCCGCGGCCCAGGCGGTAGCCGCGAGCGTGCCCGCGACGCGCCCGCCGACTGGGCGGTCGACGGTCTCTCCGACGAAGTCCTTGTTGGACAGCGCCATGAGCACCGGCCACCCCGTGGCCACGAGCTCATCGACGCGGCGCAGGATCTCGAGCCCGTGGAACGTGTTCTTGCCGAAGTCGTGCGCCGGGTCGATAAAGACCTTGTCTTCGGGCACCCCGAGCGATGCCGCGCGCTCGGCCAGGCCGACTGTTTGCGTGACGACGTCATGGACAACGTCGTCGTAATGCACGCGGTGCGGCCTCGTGCGCGGCGTTGCCCCGCCCGTGTGCGAGCAGACGTAGCCGATCCGCAGCGCCCCGGCGGTCTCGACGAGCTCGGGGTCCCAGCCCGCCCACGTGTCGTTGATCAGGTCCGCGCCGGCCGCGGCCGCGGCCTCGGCGACGGGGGCGCGCCACGTGTCCACCGAAATGCCCACGTCGCGGTGGCGCTCGCGCACCGCCGCGATGAGCGGCACGACCCGGCCGATCTCTTCTGCCACGGAGACCTGCTCACCCGGCCCCGCCTTGACCCCGCCGACGTCGACGATGGAGGCTCCGTCGGCGATGACGGCGTCGGCACGCTCAAGCGCCTTCTCCAGGTGGAAGGTTGCGCCCTTGTCGTAGAAGGAATCCGGGGTGCGGTTGATGATCGCCATCACCCGCGCGAGCTCGGCGGCCACGTTCTACTCGGTGTCTTTCAGGCGCTGGTCCGTCATCACCTTGTGCGCCTCGACGATGTAGGCCACGGCCTCGTCGACTGA	MDAEGGHSPRRGPGGSRERARDAPADWAVDGLSDEVLVGQRHEHRPPRGHELIDAAQDLEPVERVLAEVVRRVDKDLVFGHPERCRALGQADCLRDDVMDNVVVMHAVRPRARRCPARVRADVADPQRPGGLDELGVPARPRVVDQVRAGRGRGLGDGGAPRVHRNAHVAVALAHRRDERHDPADLFCHGDLLTRPRLDPADVDDGGSVGDDGVGTLKRLLQVEGCALVVEGIRGAVDDRHHPRELGGHVLLGVFQALVRHHLVRLDDVGHGLVD				NA	NA	NA	NA	NA
AK009_06880	741	gpgS	COG0463	Glucosyl-3-phosphoglycerate synthase	GTGAGGGTCAGCGTCGTCATCCCAGCGCTCAACGAGCAAGACACCGTGGCGCACGTCGTCGCCGCGTGCCTGGCCTCGCAGGCGCACGAAGTCGTCGTCGTCGACTCCGACTCCACCGACGCCACCGCCAGCCGGGCCCGCGAGGCCGGGGCGCGGGTAATCAACTGGGCCGATGTGTACCCGCAGCTCCCACCGCGCCCGGGCAAGGGCGAGGCGCTGTGGCGCGGGGTGAAGGCAGCCTCCGGGGACGTGGTGGTGTTCATCGATGCCGACGTCACCTCGGTGGAAGCTAGATGGGTAGACACGCTCGCCGCGCCTTTCGTTGATGCGGGGATCCACTTGGTTAAAGCGTCGTACAGGCGCGACCTCGGCGCCGTGGCTGGCGGTGGCGGGCGGGTTACCGAGCTCACCGCTAAGCCTCTGCTGCGCGCGCTGTTCCCCGAGCTCGCCGATATCACCCAGCCCCTGGCAGGCGAGTACGCGATCCGCCGCGACACCGCGCTCGAGCTGCCGTTCGTCGACGGCTACGGGGTGGAAGCGGGCTTGCTTCTCGACGTCGCCGCGACGCACGGCCGCGAAGCGATCAGCCAGGTGGAGCTCGGCGCGCGCCAGCACCGCAACCGCCCCTTGACCGAGCTCGGCCCGATGGCGGACGTGGTGGCCGCGACCATCCTTCAGCGCGCCGGGGTCGCGTCTGCGGGAGTGGGGCAACGATCACCGTGGGCGAGCGTTAGGATGTGA	MRVSVVIPALNEQDTVAHVVAACLASQAHEVVVVDSDSTDATASRAREAGARVINWADVYPQLPPRPGKGEALWRGVKAASGDVVVFIDADVTSVEARWVDTLAAPFVDAGIHLVKASYRRDLGAVAGGGGRVTELTAKPLLRALFPELADITQPLAGEYAIRRDTALELPFVDGYGVEAGLLLDVAATHGREAISQVELGARQHRNRPLTELGPMADVVAATILQRAGVASAGVGQRSPWASVRM	PGPT0022460_866	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022460-gpgS-K13693	NA	NA
AK009_06881	1344			hypothetical protein	GTGGCGCGCCGAGGGGCTCATGCCCACCTGCGCGGCGATCGAGTCGCGGTCGAGGCGCATGGAGTAGTCCAGCACCTCCGGCTCGCCGATGAGCTCGAGGTGGCCTTCCGCCTGCTCGACGAGGCGCTCCAGCTTGCCTTCCTCCACGCCGAGGATGCCCAGCGGGGCGCGCAGCTCGTCGAGGTGGCCGCTGCCCGGGATCATCACGATGACCTCGCCCTCCGGGGCGAGCACGCGGGCGAACTCCGCTGGGTTGCGGGGCGCGAAGATGACGGTGATGGCGTTGATGGAGGCGTCGAGAAGCGGCAGCCCTTCCCAGACATCCGCAACGACCGCACCGACCCGCGGGTGGGCCTTGGCCAGGCGCTTCGCCGCGGGCACAGAAATGTCGAGGCCGACGCCACGCACGCCGGCGATGCTGTCGAGGGTGTGCGCGAGGTAGTAGCCGGTGCCCGCGCCGACCTCGAGCACGACCGGCTCCGCGGCCTGGGTGGCCTCAAGGGCGTGGGAGACGCGTTCGGTGACGGCCTCGACGAAGGGGGCGAAGTGGCCCTGGGAGAGGAACACCTCGCGGGATATCACCATCTCCAGGCTGTCGCCCTCGTGGTTGAGCCCGGCGCCGGGGCTCAGCGTGACATAGCCCTGCTTGGCCACATCGTAAGAATGACCCGACTCGGAAACGAGCCGGGTGAAATCTTCGGCGCCGGCAAGGCGGGTGCCGTCGATGGGGTCTGCGAGAACGTCGACAATGTAAGAGAGCATGGGCAGATCTTACCCCCGCCCGCGACGAAGCACGGCAGTGGAGCTTACTCCCCCGCCGCCTGGAGCAACAGGGCGCCAAGCTCGGACGCTTCCTCGGCGTTCAACTCCACCACGAGGCGACCACCGCCGTCAGACGGGATGCGCATGACAATCTTGCGGCTTTCCACCACTGCTTCCATGGGACCGTTGCCGGTGCGGGGTTTCATTGCTGCCATTGGGTTTTACTCCTTCTCACGCAGGCGTTTCACCCGATCCTACGCCGTTTTTGGCGGTGGCAGCGCGAATTTCGCTGTCGGGTGTCAGTCGGCGCAGGTCAGCGAGCTGGGTCAGAAGGGCATCAACCTGGTCCATTTTGTAGCCGCGGTGCACGACCTCGAGCTGCACCGCGTTCATGTCGCCCTGTTCGACCGCGCGGCGGTTGTGCTCGATCACGTCGGTGGTCTCCGCCAGAGGCGGCAGCGCCTCGCCCCGGCCGAAGAGATACACGCTGGCCATCACGCCAATCAGGCAGACGATGGCGACGATGAGCATGAGCAGGATCCAGGACAGCATGGGTCACATCCTAACGCTCGCCCACGGTGA	MARRGAHAHLRGDRVAVEAHGVVQHLRLADELEVAFRLLDEALQLAFLHAEDAQRGAQLVEVAAARDHHDDLALRGEHAGELRWVAGREDDGDGVDGGVEKRQPFPDIRNDRTDPRVGLGQALRRGHRNVEADATHAGDAVEGVREVVAGARADLEHDRLRGLGGLKGVGDAFGDGLDEGGEVALGEEHLAGYHHLQAVALVVEPGAGAQRDIALLGHIVRMTRLGNEPGEIFGAGKAGAVDGVCENVDNVREHGQILPPPATKHGSGAYSPAAWSNRAPSSDASSAFNSTTRRPPPSDGMRMTILRLSTTASMGPLPVRGFIAAIGFYSFSRRRFTRSYAVFGGGSANFAVGCQSAQVSELGQKGINLVHFVAAVHDLELHRVHVALFDRAAVVLDHVGGLRQRRQRLAPAEEIHAGHHANQADDGDDEHEQDPGQHGSHPNARPR				NA	NA	NA	NA	NA
AK009_06882	414			hypothetical protein	GTGGGTGATCACGGCCGCGACGTTTCCTTCGCCGTCAATGATCTCGGCTGTGACCGAGCCGGTCTCGCCGACCGGGATCTCGCACAGGCCCGTCCACATCCGGGCGCGCTCCGTCTCGGCCACGGCGTCGGGAAGCCCGCGCGGCGGGGTCTGGTACAGCGCCCCGCCCTGCAGGGTCAACCGGCGCGGGATGCTCAGGGTGGTGGCCCAGCCCTCGGCCTCCCAGTTCGGCTCGGCGGTCGCGTCGCCGCCGCGGCCGGTGTCCGTCATCACCCCGAAGATGTAGGCGTGGCTGAGCCGCTCGTCTTCGGCGACGCTGCCCGGGGTGTAGTTCGTGCTGCGCGGACGGGTGAAATCGTGGCCAAAGTCGATGTGGCGGGCCTCCTTGGCCACGGTGAACACCGCGCCCTGTAG	MGDHGRDVSFAVNDLGCDRAGLADRDLAQARPHPGALRLGHGVGKPARRGLVQRPALQGQPARDAQGGGPALGLPVRLGGRVAAAAGVRHHPEDVGVAEPLVFGDAARGVVRAARTGEIVAKVDVAGLLGHGEHRAL				NA	NA	NA	NA	NA
AK009_06883	630			hypothetical protein	GTGCTCGGCGTCCGGGTCGAACCCGGGGTCGCCGGCGAACTCGAGCGGGCCGATCACCCCCCAGGAAGTGCCGTCCTCGGAGCTGAGCACGACGGGTACGGGGGCCTCGGGCTCGCCCGTCATCGCCAGCATCAGCCACCCGGACTGACCCTTGTCGCGGTCGTCCGCTTCCTCCCAGTTCGGCACCACGCAGGGGGAGCGGAAGCGAGTGTAGCCGCCCTCGTCGGACAGGACGTCGCCAAGCCGGCGAATGCCCGGGTCAACCTGGTAGTCCTCGTCGACGTCGTCGCAGAGCGCATCGAGGTCGTCGGCACGCGAAATCTGGACCGACATGCCGGCCTTGGTGACGGAGGTGAAGTAGAAATCGGCGCCCTCGCTGTGCGCGACGACGGAGCCTGCGCGCACGCCGGTCTCCCCGCCGAACGGCGCGACCGCGTCGTTGCACTCCACCCAGTCGAAGGCGGAGCCCTCCGAGACGCTGTGGCCCCAGCGGCTTGGCGCGTCCGGGTCCGTCCGGTACTGGAAGAACATGTGCCAGATGTCCTTGCCGTCGCGCAGGATACCGGCGGCGGCGTCCAGGATGCCACGCTCGACGGTGACGTGCAGTTCAGGTCGGTAAACGCTCATTGA	MLGVRVEPGVAGELERADHPPGSAVLGAEHDGYGGLGLARHRQHQPPGLTLVAVVRFLPVRHHAGGAEASVAALVGQDVAKPANARVNLVVLVDVVAERIEVVGTRNLDRHAGLGDGGEVEIGALAVRDDGACAHAGLPAERRDRVVALHPVEGGALRDAVAPAAWRVRVRPVLEEHVPDVLAVAQDTGGGVQDATLDGDVQFRSVNAH				NA	NA	NA	NA	NA
AK009_06884	597			hypothetical protein	GTGGGCGGCGGCCTTGAGCAGGTGAGGCACGCCCTTCTGGCGCGTGATGCGGCCGACGAACGCGACGACGGGGCGGGAGGTATCCACCCCGAGCTCCTCGGCAATGGTGGCGTCGCCGGGGTACCAGGTGGCGGTATCAATTCCGTTGAGGACGACGTGCACCTTGGAGTCGTCGATACGCGGATAGGCGTTGAGGATGGATTTCTTCATCCCGGAGGACACGGCGATGACGGCGTCGGCGTACTCGAAGGCGTTCTTCTCCGACCAGGAGGAGACGTCGTAGCCGCCGCCGAGCTGCTCTCGCTTCCACGGCCGATCCGGCTCCAGCGAGTGCGCCGTGGCCACGTGGGGGATGTCGTAGAGCAGGCCGGTGAGGTGGCCGCCCATGCCCGCGTACCAGGTGTGCGAGTGCGCGACCTGCAGGTTCGAGGCGGCATCGGCGATGCGCAGCCCGGTCGACAGCGTCTTGATCGCACCGTTGGCGTCGGCCAGCTGCGGGTCGACGCCGTGGACGTGGACGTTCTCGCCGTCGCGCGGCTCACCCATGCAGTGCACGTCAACCTCCACGCCGTCGATCTCGCGCATGAACCGCGTTAG	MGGGLEQVRHALLARDAADERDDGAGGIHPELLGNGGVAGVPGGGINSVEDDVHLGVVDTRIGVEDGFLHPGGHGDDGVGVLEGVLLRPGGDVVAAAELLSLPRPIRLQRVRRGHVGDVVEQAGEVAAHARVPGVRVRDLQVRGGIGDAQPGRQRLDRTVGVGQLRVDAVDVDVLAVARLTHAVHVNLHAVDLAHEPR				NA	NA	NA	NA	NA
AK009_06885	837			hypothetical protein	GTGCGCCTCGTAGAACGAGTCGATGGTGCCGACGTCGCGCCAGTAGCCCTTGTCGCGATCGGTTGCACCCGGCACCTCGTTGCCGGAGAAGTCGTAGACGTTGGCCTGGCCCTTGTTGACGAAGTAAGGGATGATGTCGCCGCCCATGTCGTGGTCCGAGTCATCGTTCTGCTCGTCCTCAAGCAGGGCCTTGATCAGCGGCTCGGTGGAAAACACGTAGTTGCCCATCGAGGCGAACGTCGCGTCCGGGTCGTCCGGGGTGCCCGGCGGGTCGGCCGGTTTCTCCAGGAACTCCGTAATCGTGCCGTCCTCGTCGGCGTGGATGCAGCCAAACGCGGTGGCCTCGTGGCGCGGCACGCGGATGCCGGCGACGGTCGCGTCCTTACCGGAGGCGATGTGGTTTTCCACCATCTGCGAGGGGTCCATGCGGTAGACGTGGTCCGCGCCAAAGACCAGCACGTAGTCCGGCTTGTCGTCATAAATCAGGTTCAGCGACTGCACGATCGCGTCCGCGGAGCCGGAGAACCAGCGCTTACCGCGGCGCTGCTGTGCGGGCACCGAGGCGATGTACTGCGGGGTCGGCCCGGAGACGTTCCACGCGGTCGCAACGTGCCGGTCCAGAGAGTGCGACTTGTACTGCGTAAGCACCGCGATGCGCATGTAACCGGCGTTGACCAAGTTCGACAACACGAAATCGATCAGGCGGTAGTTCCCGGCAAAGGGGACCGCAGGTTTTGCGCGGTCGGCGGTCAGGGGAAACAGGCGCTTCCCCTCGCCTCCCGCAAGAACGATGGCAAGAACTCTCGGCTGTGTCTTCACAGTTCCTTAGCCTATTAA	MRLVERVDGADVAPVALVAIGCTRHLVAGEVVDVGLALVDEVRDDVAAHVVVRVIVLLVLKQGLDQRLGGKHVVAHRGERRVRVVRGARRVGRFLQELRNRAVLVGVDAAKRGGLVARHADAGDGRVLTGGDVVFHHLRGVHAVDVVRAKDQHVVRLVVINQVQRLHDRVRGAGEPALTAALLCGHRGDVLRGRPGDVPRGRNVPVQRVRLVLRKHRDAHVTGVDQVRQHEIDQAVVPGKGDRRFCAVGGQGKQALPLASRKNDGKNSRLCLHSSLAY				NA	NA	NA	NA	NA
AK009_06886	255			hypothetical protein	GTGGCCGATCCACTCCACGGAGGAAGGCAACCTGCCGCCGGCCAAGTTCGTCCTCGGCGGGATCTCGCAGGAGTCGATTGTCGCATCCGGGTCGATCATCTCGGGCGCGACGGTGCGCAACTCGGTCGTCTCCACCGACGTGCTCGTCGAGGAGGGCGCCACGGTGGAGGGCTCGGTGCTGCTGCCGGGCGTGCGCGTGGGCAAGGGCGCGGTGGTGCGCCGCGCCATCTTGGACAAGAACGTCTACGTCTCTGA	MADPLHGGRQPAAGQVRPRRDLAGVDCRIRVDHLGRDGAQLGRLHRRARRGGRHGGGLGAAAGRARGQGRGGAPRHLGQERLRL				NA	NA	NA	NA	NA
AK009_06887	675			hypothetical protein	GTGACTGACACAGCGTTTACGACCATGAACACCTACATCGCCTCCCGCCCCGTCGCGGGCGCAGCCGATGCCGCCGAGCAGTTCGCGCAGGGTTTCGACGCCGCGCGCACCGAGGCCGAGGAGAACAACCTCGCACTTCCCTCGCCCGCCGTCGGCTCGCTGCTGTCCACGCTGGCCGCCGCGACCACCTCGGCCCACGGCGCGGTGGCGGTGACCCCCGCGGCGGGCGTGGTGGGGCTCTACATTCTGCGCGGCCTACCGGAAAAGGCCACGGTGACCTGCATTGACCCGGAGGCCACGCACCAGGCCAGCGCCAAGGAGGCCTTCCGCCTCGGCGGGTTCGCCGCCTCGCGCGGGCGGTTCCTCACCGCGCGCCCGCTCGACGTCATGAGCCGGCTTGCCCCCGCTTCCTACCAGCTGGTGTACGCGGACGTCGAGCCGACCGAACTCAGCACGGTCATCAAATCCGCGTGGCCGCTGCTCGCCCCCGGCGGCACCCTCGTTCTCGCTGGCTCGCTTCTCGACGGTACCCTCACCGATGCCACTCGCCGCGACCGCGCGACGGAGGCCGCCCGCGCCGCCGAGGACGACGTGGACGCGCTCGCGGCGTCGGAGGGTGCCGTCGTCACGCGGCTGCCGCTCGATAGCGGCCTGACGCTCGTGACGAAGCGCTAA	MTDTAFTTMNTYIASRPVAGAADAAEQFAQGFDAARTEAEENNLALPSPAVGSLLSTLAAATTSAHGAVAVTPAAGVVGLYILRGLPEKATVTCIDPEATHQASAKEAFRLGGFAASRGRFLTARPLDVMSRLAPASYQLVYADVEPTELSTVIKSAWPLLAPGGTLVLAGSLLDGTLTDATRRDRATEAARAAEDDVDALAASEGAVVTRLPLDSGLTLVTKR				NA	NA	NA	NA	NA
AK009_06888	219			hypothetical protein	GTGCTGGTTACCGGAGAGGCGAAACGCGAGACGGTAGACGCTGTTCGCGTGCTCGGCCACCAGCTCCGCCCACGACGGCATCTCTCCCGCACCCGCGTCGAAGGCGGCGGTGCCGGTGAGCGTGTCGGGAGCGTCGTGCAGCGTATCCATGGATATATGTTCGCACGCGTTGATCTCGAAAGCCAGAAAAGAGCCTTCGAAATACCTGAAAGTAGGTAA	MLVTGEAKRETVDAVRVLGHQLRPRRHLSRTRVEGGGAGERVGSVVQRIHGYMFARVDLESQKRAFEIPESR				NA	NA	NA	NA	NA
AK009_06889	483			hypothetical protein	GTGCGCGCGATTTTGCCAGTGGGCGCGCCGCACGGATTTAGCCTAGCGGGCGCGGATCAAGTCCTTTGCGGACTCGTCGATTGCCGCCTGGGCCTCCAGGCTGCGCCGCAGATGCGAGCGCCCGCGGTGGATGCGCGAGCGCACGGTGCCCATCTTCACGCCGAGGGTGTCGGCGATTTCCTCGTACGTCATCCCGACGACGTCGCACAGCACGACCGCGACGCGGAAGTCGGGTCCGAGCTCATCGAGCGCGGTCTGCAGGGCCGGGTCGAGGTTGGACACCGAGTAGGCCTGCTCGGGCGTCATGTCGGTGCCGGGGACGCGCTCGTAGTCTTCCGGCAGGGCCTCCATGCGGATCTTCGCGCGGTGGCGCACCATGTCCAGAAAAAGGTTCGTGGTAATCCGGTGCAGCCAGCCCTCAAACGTGCCCGGCTGGTAGCTCTCGAGGCTGCGGAAGACGCGCATGAACGTCTCCTGCGTTAA	MRAILPVGAPHGFSLAGADQVLCGLVDCRLGLQAAPQMRAPAVDARAHGAHLHAEGVGDFLVRHPDDVAQHDRDAEVGSELIERGLQGRVEVGHRVGLLGRHVGAGDALVVFRQGLHADLRAVAHHVQKKVRGNPVQPALKRARLVALEAAEDAHERLLR				NA	NA	NA	NA	NA
AK009_06890	375	rseA		Anti-sigma-E factor RseA	ATGGCGATGAACTTGCCCGGCCCTGCGCCGCGGAGGAGGAAGGGGTTTTCCTCCACGGAGCACTTAAGCCCCGAGGCTGTGGCCGCGTTCGCGGACCAGGAGCTTTCGAAAAGCGCGCTCCACCGAGCGCGGGTGCACGTTGTTCTGTGCGAGGAGTGCCGCGCCGAGGTCAACCACCAGCGCGCTGCGGCTGAGCACCTGCGCTGCTGCAACGCGGACGACTCCGTGCGGGCACCCCGATCGCTGGTGCAGAAGCTGGCCGAAATGCCCGAGAATAGCCGATACGAGCAGCCCCGCGGCCCGCGCCCGGTGACGGAGCTCGTGGAGGTCGCCTACCGTGCGCTGAGGGGACGCGGCGGCGGGGGTAAGCTGTAA	MAMNLPGPAPRRRKGFSSTEHLSPEAVAAFADQELSKSALHRARVHVVLCEECRAEVNHQRAAAEHLRCCNADDSVRAPRSLVQKLAEMPENSRYEQPRGPRPVTELVEVAYRALRGRGGGGKL				NA	NA	NA	NA	NA
AK009_06891	429	tatB		Sec-independent protein translocase protein TatB	GTGTTCTCCAGCATCGGATGGGGCGAGATCTTTTTCATTCTCGTCATCGGATTAATCATCATCGGCCCTGAGCGGCTGCCCGGGCTGATCGAGGACGTGCGCGCCGCCATCTACGCGGCGAAAAAGGCGATCAACAACGCGAAAAAGGAGCTCGACGGCGAGCTCGAGGGGTTCGAGGAGTTCCGTCAGCCGCTCAACACCGTGACCCAGTACGCCGCGATGGGCCCGCGCCGCGCGATGGCGAAGGTGCTTTTCGACGGCGACGAGCGCTTCTTCGACGAATTTGACCCCCGCAAGCAGCTCGAAGGTACCCCCGCCACCCCGGCCCAGCCGGCGAACCCGGGCCCGCGCCCGAAGCCGGCCGGATCAACCCGGGTGGACGACCCGGAGAAGCGCGGCGGCAGCTTCTCCTGGGCTGACATCACTTAA	MFSSIGWGEIFFILVIGLIIIGPERLPGLIEDVRAAIYAAKKAINNAKKELDGELEGFEEFRQPLNTVTQYAAMGPRRAMAKVLFDGDERFFDEFDPRKQLEGTPATPAQPANPGPRPKPAGSTRVDDPEKRGGSFSWADIT	PGPT0014360_1836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
AK009_06892	363			hypothetical protein	GTGCTGTCGCAGCTGCGGGTCGAGCGGTACGGAGCCGAGCAGCGCGACGTTGTCGGTGTCCGTCAGCGCGCTGAGGCGCTCGGCGACCTGCTCGCCGCCGCCCTCGCCGAAGACGTTGAGCACGGTGCCGTCGTCAAGCACCATGCCCGACATGTTTTCCACCACGCCCGCGATCTTCTGGCCCGTCTGCTGGGAGATCGTGCCGGCGCGCTCGGCGACCTCCGCGGCGGCGGCCTGCGGGGTGGTCACGATGAGAAGCTCCGCGTTGGGCACGAGCTGGGCCACGGTGATCGCGACATCGCCGGTGCCCGGCGGCAGGTCCATGAACAGCACGTCGAGGTCGCCCCAGTAGACGTCGCTTAA	MLSQLRVERYGAEQRDVVGVRQRAEALGDLLAAALAEDVEHGAVVKHHARHVFHHARDLLARLLGDRAGALGDLRGGGLRGGHDEKLRVGHELGHGDRDIAGARRQVHEQHVEVAPVDVA				NA	NA	NA	NA	NA
AK009_06893	234			hypothetical protein	GTGCAAGTGAACGTCCACGCTGCCCACACCGTCGAGCTCCTCGAGCACGGCGCGAGTATTCGAGGCGATGGTGTCACGCATGGGGCAGGCAGCGATGGTCAGGTAGACGCCGACGGAGACGTCCGCGCCGTTGATGGCGATGGATTCAACCATGTCGAGCTCGGTAATGGGCTTGCCGATCTCAGGGTCATCCACGCGCGAGAGCGCTTCGCGGACCTGGTCTTGGGAAAGTGA	MQVNVHAAHTVELLEHGASIRGDGVTHGAGSDGQVDADGDVRAVDGDGFNHVELGNGLADLRVIHARERFADLVLGK				NA	NA	NA	NA	NA
AK009_06894	375			hypothetical protein	GTGCCTAGAGCTACCGCCACCGCTGAAGTGGTGTACGTCCGTGCAGAGCGTGGCATGCGGGTTATCGTACCCGCCGCCGGCGTTTTACTGGGCCTCCCCCGTGGGTACGGTGCCGATCTTCATCTCGGCGATCAGATCGCGCGCCCGAGGTGCGGAGCTGGGATCACACAGAACGTCGTAACGCCCAGCGACAATCGTGGTCATGGACGAGAAGTCGCGCTCACCGCCAGTCAACGCATGGCCGACTGCGGCGAAGATGAGCCCGAAGATCGCGCCGATGAGGATCGACCACAGGAAGATGCTCCAGCCGGTGCCCGGCAGCGCGAAGATAGCGAAGATAAGGCCGATAAAGATACCCATCCATGCACCGGATAG	MPRATATAEVVYVRAERGMRVIVPAAGVLLGLPRGYGADLHLGDQIARPRCGAGITQNVVTPSDNRGHGREVALTASQRMADCGEDEPEDRADEDRPQEDAPAGARQREDSEDKADKDTHPCTG				NA	NA	NA	NA	NA
AK009_06895	621			hypothetical protein	TTGGGTGTCCACGGTGATTTTCGTACGCTGGAGCATCCACTCGGCCACGACATTGCGCACCGTTTCGCCCCTTTCGACCTCCTCGATCATCGCGTTGAGGTCTTCTGTGCTGAGCACGCGATTGACAAAGTTCAGGCGGTTGACCTGGCCTCGGTTGAGCTCTGTCTTGTTGAACACCGGGATGATATTGGTCGGCAGCGAGCCCTCCCCCGGCTCCTGGCCTTCCGCGGCGCACCCTTGGGCTGGGGAGGGGTCAACTGTCATGACGTTTCCCGGGAAAGACCCAACGGCGTATTCGTAGGTCGTCTCGGAGATGCTGTTGTCATTAAGGTCACCGGCAGAGTCGTCCTCCGCGATGTCCGCAGCCGCCTCCTCGGCAAGCTGGGGGTCGATCTGAGTCAGCAACGTCCCGGTGCACGCGATGGCCATGTCCGCCTGGCCGGACAGCACGAGTTCGACGGCGGGATCGGTCGCGGCCTTGTCTACCACCTCTACGGTGGAAGGGCGCCCGACGGATTCGAGCAACACCCGGTAGATCTCCCCCAAGATGGCCTGCTCGACCGAGTCCGGGGCGACGGCGATGACGAAGTCATCGCTGCGTTGACCCCCCGCAGACGGTGA	MGVHGDFRTLEHPLGHDIAHRFAPFDLLDHRVEVFCAEHAIDKVQAVDLASVELCLVEHRDDIGRQRALPRLLAFRGAPLGWGGVNCHDVSRERPNGVFVGRLGDAVVIKVTGRVVLRDVRSRLLGKLGVDLSQQRPGARDGHVRLAGQHEFDGGIGRGLVYHLYGGRAPDGFEQHPVDLPQDGLLDRVRGDGDDEVIAALTPRRR				NA	NA	NA	NA	NA
AK009_06896	681			hypothetical protein	GTGCACCTTGGCAACGCCGGTGGCGGTGGTGGACTGGGAGCGGCGCGAGACGCGGACCATTTCCGGCATGTCGGCCACGAAGTTGCGCAGGTGCTCGTTGTAGAACGGCCACGGTCCCTGGTTGGCCGGCTCATCCTGGACGAAACGGATCTGCTGAGCGTTCGGGTAGTTGGCAAACGCATCGGAAAGGCGGTTGAACGGGATCGGGTGCAGCATCTCGATGCGGATGATCGCCACGTCGTCGCGCTTGTCCTTCTGGCGGCGCTTGTCAAGCTCCCAGTAGATTTTTCCGGAGCACAGCAAGATGGTCTTCACCTTGGAGTGGTCGGCGCCCTCGACCTTCTTATTGCCGCGGGCAACGAAGAAGGGGTCGTCGATGACGGACTGGAAGCGGTTGACCTCGATGAAGTCGGCCGGCTGAGACACGGCCGCCTTGTTGCGCAGCATGGACTTCGGTGTGAACACAATCAGCGGGCGCTTCATGTTGCCGAGTGCCTGGCGGCGCAACAGGTGGAAGTGATTGGCCGGGGTGGACGGCTGGGCAATGGTCATCGAGCCCTCGGCGACGAGCTGCAGGAAACGCTCGATGCGCGCGGAGGAGTGGTCCGGGCCCTGGCCCTCGTAGCCGTGGGGCAGAAGCGAAATCAGGCTCGAGAGCTGACCCCACTTGGTCTCACCTGA	MHLGNAGGGGGLGAARDADHFRHVGHEVAQVLVVERPRSLVGRLILDETDLLSVRVVGKRIGKAVERDRVQHLDADDRHVVALVLLAALVKLPVDFSGAQQDGLHLGVVGALDLLIAAGNEEGVVDDGLEAVDLDEVGRLRHGRLVAQHGLRCEHNQRALHVAECLAAQQVEVIGRGGRLGNGHRALGDELQETLDARGGVVRALALVAVGQKRNQARELTPLGLT				NA	NA	NA	NA	NA
AK009_06897	1536			hypothetical protein	GTGGTCGAGCGGGTTGAAGCTCTCGCCCGTCTCCGGGTCGTAGAGCACCGCGTGGCGCTGGGTAAACGTGCCGCGCTGGGAATCCTCGCCGGCGAGGCGGACGAACTTGCCCTCCTCGGCGAGCGAGCCGAAGGCGAGAAGTTCGCCCCAGCCCCAGTCGATGTCGCCCTCGGTGAGCGAGGCGCCGCGCTTCTTCAAAACGGAGTTCAGCCGCTTGTTCGGCGTGAAGTCCTCCGGCAGGTTGGCGTAAGCCTCGGCGAGCCGCGCGAAAGTCTCCTCGGTGATGTTGGTGTCCAGCCCGCGGGTCAGGCTCTGCGCCTCCGTGATGCCGGTCTGCTCGCTCGGCTTGCCCTCGTTCGCCTTGACATCGGAGAAGACCGAGTCAAGCTGGTCGTGGAAGTCCTGGGCGGCGATCTCGGCCTCGTCGGCGGTGATGTCGCCGCGGCCGATGAGATCGTTGGTGTAGCGGGTGCGCACCGACGGGTGGGACTGGATCGCGTCGTACATCCGCGGCTGGGTCACCGTCGGGTCGTCGGCCTCGTTGTGGCCGCGCAGGCGGTAGCAGATCAGGTCGATGAAGACATCCTTGCCAAACTCGCGGCGGTACTCCGTGGCCAGCTGGGCGACCCAGGCGGCAGCCTCGGGGTCATCGCCGTTGACGTGGAAAACCGGGCAGTCGAAGCCCTTGGCCAAGTCGGTGGCGTAGTAGGTGGAGCGGCCCGAATCAGGAGTGGTGGTAAACCCGATCTGGTTGTTGACCACGATGTGGACGGTGCCGCCGACGGAGTAGCCGGGCAGGTTGGACAGGTTCAGCGTCTCCTGCACCACACCCAGGCCGGCGAAGGATGCGTCGCCGTGCAGCATCAGCGGCACGATCGGGTGATCGGTGCGGCCGTGGCTGTGGCGCAGAAGGTCGTCCTTCGCGCGCGCGATACCCACCATGACCGGGTCGACGGCCTCGAGGTGGGAAGGGTTGGCGGCCAGGGAGACCTTGATCTCGCCGTCGCCGAACATCTGGATGTGCTCGCCCTCGAACCCGAGGTGGTACTTCACATCGCCCGAGCCGCCCTGCTGCGCCGACTGCATGTTGCCCTCGAACTCGTTGAAGATCGTCGAGACCGGCTTGCCGACGATGTTGAACAGCACGTTGAGGCGGCCGCGGTGCGGCATGCCGATGACAACCTCTTCGAGGCCCTGGCCCGCGGCGGTGTCGATCACAGCGTCCATCAGCGGGATCAGCGTCTCCGCGCCCTCGAGCGAGAAGCGCTTCTGGCCCAGGTATTTGGTCTGCAAAAAGTTCTCGAAGGCCTCGGCGGCGTTGAGCTTCTGCAAGATGTACTTCTGCTCCGCGCTGGTCGGCTTGGGCATGCCCGCCTCGATGCGGTCGCGCAGCCATTCACGCTCGTCGCGGTCGAGGATGTGGGTGTACTCGGCGCCCACGTGCAGGGTGTAGGCGGCGCGCAGGCGCGAAAGCACCTCACGCAGCGTCATCGTCTCCTTGCCGCCGAAGCCGCCGACGTGGAAGGTGCGGTCTAG	MVERVEALARLRVVEHRVALGKRAALGILAGEADELALLGERAEGEKFAPAPVDVALGERGAALLQNGVQPLVRREVLRQVGVSLGEPRESLLGDVGVQPAGQALRLRDAGLLARLALVRLDIGEDRVKLVVEVLGGDLGLVGGDVAAADEIVGVAGAHRRVGLDRVVHPRLGHRRVVGLVVAAQAVADQVDEDILAKLAAVLRGQLGDPGGSLGVIAVDVENRAVEALGQVGGVVGGAARIRSGGKPDLVVDHDVDGAADGVAGQVGQVQRLLHHTQAGEGCVAVQHQRHDRVIGAAVAVAQKVVLRARDTHHDRVDGLEVGRVGGQGDLDLAVAEHLDVLALEPEVVLHIARAALLRRLHVALELVEDRRDRLADDVEQHVEAAAVRHADDNLFEALARGGVDHSVHQRDQRLRALEREALLAQVFGLQKVLEGLGGVELLQDVLLLRAGRLGHARLDAVAQPFTLVAVEDVGVLGAHVQGVGGAQARKHLTQRHRLLAAEAADVEGAV				NA	NA	NA	NA	NA
AK009_06898	1329			hypothetical protein	GTGGGTTTCCATCTCCAGGTCGCGGGAGTCCGGCTTGGGCAGGCCGGGCTGCTCCCAGCGCAACGGGTTGGTGTCCGCGATGAGGTGGCCGCGGGAGCGGTACGCCTCGATGAGCTGCATGACGCGGGTGTCCTTGTTGACGCCCGAGTTGGGCAGGTCCTGGGCCCAGCGCAGCGGCGAGTAGGGGATACCCATCGCGTGGAAGATGTCGTCCCAGAAAGCGTCGTCGATAAGCAGCTGCGAAATCGTGCGCAGGAATTCGCCCGACTCCGCGCCCTGAACCACCCGGTGGTCGTAGGTGGAGGTCAGCGTCACGAGCTTGCCCACGCCGAGCTCGGCGAGGCGGTCCTCGGAAGCGCCGGCGAACTCTGCCGGGTAGTCCATCGCGCCGACACCGACGATGGTGCCGATACCCGTGGTCAGGCGGGGAATGGAGTGGCGGGTGCCGATGCCGCCCGGGTTGGTCAGCTGGATGGTCACACCCGAGAAGTCGTCCATGGTGAGCTTGTTGTCTCGAGCGCGGTTGACGATGTCTTCGTAACCGTCGACGAACTTATCGAAGCTGAGTTTCTCGCACTCCTTGATGGCGGCGACGACGAGCGCGCGGCTGCCGTCTTTTTGCGGCAGGTCGATAGCCAGGCCCAAGTTGATGTGCTCCGGCTGGACCACGAAGGGCTTGTTGTCTTTGACCTTGTAGTTGACGTTCATGCCCGGGTGGAGCTGGGCGGCCTTCACAATGGCGTAGCCGATGATGTGGGTAAAGGAGATCTTGCCGCCGCGGGTGCGCTTGAGGTGGTCGTTGACCAGGGAGCGGTTTTCGAACATGAGCTTGACCGGCATGTCCCTCACGGACGTTGCCGTCGGCAGCGACAAGGACTCGTCCATGTTCTTGGCAATGGCCTTGTAAATGCCCTTGAGCTGGCGCTCGCCCGGCTCGACGCTAACGTCCGCGATCTTCTGCAGCGGGGACTGCTTCGGCTTCGGAAGAACCTTGGAGCGCTTCGAGGCAGCTTCGGCAGCGGCCTGATCCACCTTGGTTTGGCGGCCGTCCTGGCTCGGTGCGCCGGTGGTTCTGGCCACCTTCGGGTCCGTCTTTTCGCGAGACTCCTTCGCGTCGCCGGCCTTCGCGGGACTCGGCGCGGGGGAGACGTTTTTGTCACCGCCTGCGGTCTGCGGTGCCCCGTTACGCTCGAAGAGTTCCCGCCATTCCGGGTCCACGGAGCTGGGGTTCTCCCGATACTGCTGGTACATTTCGTCGACCAGCCAGTCATTTTGCCCGAAAGTACTGTCGCTGCTCACGGCAGGTTCTCGCCTCTCTTCATTGTTTGA	MGFHLQVAGVRLGQAGLLPAQRVGVRDEVAAGAVRLDELHDAGVLVDARVGQVLGPAQRRVGDTHRVEDVVPESVVDKQLRNRAQEFARLRALNHPVVVGGGQRHELAHAELGEAVLGSAGELCRVVHRADTDDGADTRGQAGNGVAGADAARVGQLDGHTREVVHGELVVSSAVDDVFVTVDELIEAEFLALLDGGDDERAAAVFLRQVDSQAQVDVLRLDHEGLVVFDLVVDVHARVELGGLHNGVADDVGKGDLAAAGALEVVVDQGAVFEHELDRHVPHGRCRRQRQGLVHVLGNGLVNALELALARLDANVRDLLQRGLLRLRKNLGALRGSFGSGLIHLGLAAVLARCAGGSGHLRVRLFARLLRVAGLRGTRRGGDVFVTACGLRCPVTLEEFPPFRVHGAGVLPILLVHFVDQPVILPESTVAAHGRFSPLFIV				NA	NA	NA	NA	NA
AK009_06899	474			hypothetical protein	GTGGGTACCGTCTTCTATGATACGTCCTTCGTTGACAACGAGTATTCGGTCCGCTCGGCGCGCCGTCGCAAGGCGGTGCGCGACGATGACCGACGTGCGCCCCACGGTGGTGTGCTCGGCGGCGTCGAGCACGGCGCGTTCGGTGGCGGGGTCGAGGGTGGCGGTGGCTTCGTCGAGAAGAACGACGTCGGGGTGGAGCATTTCCGCGCGCGCCAGCGCGATGATCTGGCGCTGCCCGGAACTCAAGCCGCGGCCCCGCTCGCCAACGAGGTGGTTGAACCCACCGGGGATGGAAGCGATGATGTCGAGCGCGCCGATGCGCTCGACCGCGGCCTCGATCTCGGCTTCGGTGGCGTCGTTGACCCCGTAGGCGATGTTGTCGGCGACGGTGCCCGGAAACAGGTACGACTCCTGCGGAACCTGGGCCAGCGCTCGGCGCCATTCGCTCAGAGGAAAGCTCGCAATATCGCTTGA	MGTVFYDTSFVDNEYSVRSARRRKAVRDDDRRAPHGGVLGGVEHGAFGGGVEGGGGFVEKNDVGVEHFRARQRDDLALPGTQAAAPLANEVVEPTGDGSDDVERADALDRGLDLGFGGVVDPVGDVVGDGARKQVRLLRNLGQRSAPFAQRKARNIA				NA	NA	NA	NA	NA
AK009_06900	1134			hypothetical protein	GTGCATCTGGGAGATGCGGATTCCGCCGATGAGCTCGGCGAACTCGCCGTTGACCAGCGAGACCTGGGCGCGCGCGGCGTGGTAATAACGCTTGGACAGGATGCGAAAGACCACGGTGGCGGCAACGATGACGGGCACCGCGAGCAGCGCGATGAGTGTGAGCCGGCCGTCGGTGGCCACCAGCATCACGGTCACGCCGATCAGCGTGCCCACCGCAACGATTGCCTGGGCGAGCCCGGTCTGCAAAAACGACGACAGTGTGTCGATGTCGGTGGTCATGCGCGTCATGATCCGCCCCGAGAGATGGCGTTCGAAGTAGCTCAAACCAAGCTGCTGCAGGTGCGCGTAGCTGCGCAACCGCAGGCCGTAGAGCAGGCGCTCACCCGAGCGCGAGCTCAGCACCGTCATCAGCACCTCGGCGGCCCAGGCGATGGCGACCACGCCGAGAGCCAGCGCGCCGACAGTCCACAGGGCGTCGGTGTCGCCCGGCGTGATGCCGCGGTCGATGGCCGCGCGGATCAGGGTGGGCAGGGCGAGGTCCGCCAGCACGCCGATGACGAGCAGGATCACGGTCGCCGCGATCAGCCAGCGCACGGCCTTGAACAGGTCCGCGACCTTGAAGGTGGACGTGGGTTCGCGCAGCTCCGCGACCTTGGTGTCGGCGAGGTTGGGCTGTTCGGTTGCGCGGGGCAGGGCGTCGACACGCGCGAGCAGCTTCTCACTGGCGGCGATGGAGCTACCGGGGCCGCTGGTGTTGAAGTGCTCGCGGTACCCGTGGTCGACCTGCGGCCACAGTTCATCGTGAGACGGTTGCGTCCGTCTCGGCGCAGGGGCGTCTGGCGCGGGGTCCATCAGCGCGCGATAGGCGTCGAGGGCGACGATCTCCTCGCGGGGCCCGTCGGCGATGACGCGGCCGCGATCCATGATGACGACCCGGTCGGCATGGTCGACGGTGGACTGGCGGTGCGCCACCGCGATCATGGTCACCCCGCGCAGGTGCGTGCGCAGGTTGTTCAGGATGGCCGCCTCGTTGTCGGCGTCGATGGCGCTGGTGGCGTCGTCGAGCACCATCACGGCCGGGCGCGACAGCAGTGCGCGGGCCAAGGCGATGCGTTGGCGCTGGCCGCCGGATAG	MHLGDADSADELGELAVDQRDLGARGVVITLGQDAKDHGGGNDDGHREQRDECEPAVGGHQHHGHADQRAHRNDCLGEPGLQKRRQCVDVGGHARHDPPREMAFEVAQTKLLQVRVAAQPQAVEQALTRARAQHRHQHLGGPGDGDHAESQRADSPQGVGVARRDAAVDGRADQGGQGEVRQHADDEQDHGRRDQPAHGLEQVRDLEGGRGFAQLRDLGVGEVGLFGCAGQGVDTREQLLTGGDGATGAAGVEVLAVPVVDLRPQFIVRRLRPSRRRGVWRGVHQRAIGVEGDDLLAGPVGDDAAAIHDDDPVGMVDGGLAVRHRDHGHPAQVRAQVVQDGRLVVGVDGAGGVVEHHHGRARQQCAGQGDALALAAG				NA	NA	NA	NA	NA
AK009_06901	837			hypothetical protein	GTGGCCGCCGGTGGCGAAGTGAACGTCGTCGAAGCGGATGCCGACGCTTCCGGGCGGAGCTGGCTGGGGGGCTGCGGGATCGTCGCGCTCGGTGCGCAGAGTCAGAACCTGGTTGAGGCGATCGACCGAGCTCAAGCCCATCTGCAGGCGCACGTACTGGTTGGTCAGCATCGACAGCAACGACGACATCGAGGTCAGGTACGCGCTGAAAGCCACGAAGGCGCCAATCGTGATCGCCCCACTGACCGCAATCAGGCCGCCGGCGACGATCGTGATCACCAGGGCAATCTTCGGCAACTGGGAGAGCAGCGGCTGGAAGCGCGCCGTGAGTTTCGCCGCCCGCATCTTCACCGCGTACAGGTAGCGGCCCAGCTCGTCGAGGCGATCGATTTCGCGGTCTTCGCGCCCGAAGGCCTTGACCACCCGCACGCCGGAGACGGTCTGCTCGACGTGGCTGGCCAGATCCGCCGCGGTTTGCTGGTTGACCCAGGTCGCGGCGTAGAGCGCCGTGCGCGAACGGTTGGCCTCCCACAGGATCAGCGGCATCAGCGCCAACGACAGCAGCGTCAAGCGCACGTCCATGGTCAGCATGACAACGATCGTGGCCAGAAGCTGCAGAGCGCGGGTCACGAACATGGGCGCGGACCCGAGCACCATGTGGAACTGGTTGAGGTCCGTGATCGAACGCGACACGATCTGGCCGGTGACAATGTCATCTTGTCCCGGCCCGTCGAGGCGGTGCAGGGTTTTCAGCAGGCCGACGCGCACCCAGTGCTGGGAGTTCGTCGCCAAAAGCCCCGAGGACCAGCGGCGCATCCAGCTAAGGGCGTAGGTTAG	MAAGGEVNVVEADADASGRSWLGGCGIVALGAQSQNLVEAIDRAQAHLQAHVLVGQHRQQRRHRGQVRAESHEGANRDRPTDRNQAAGDDRDHQGNLRQLGEQRLEARREFRRPHLHRVQVAAQLVEAIDFAVFAPEGLDHPHAGDGLLDVAGQIRRGLLVDPGRGVERRARTVGLPQDQRHQRQRQQRQAHVHGQHDNDRGQKLQSAGHEHGRGPEHHVELVEVRDRTRHDLAGDNVILSRPVEAVQGFQQADAHPVLGVRRQKPRGPAAHPAKGVG				NA	NA	NA	NA	NA
AK009_06902	891			hypothetical protein	TTGTTTTCGCGGACGACGCGGCGCAGCAGCGACGCCTCGCGCGGCCTAGCCACGGTTGCGTCGAGCGCGGGTGCGCTTGTTATCGCCGGTGTCGCTCGTGTTGTCGGAATCGGACTTCTGGCCGCCGACCGCGCCCGCGATGAAGCTCAAGAAGGCGCGCGGGTTTTTCGCGCGCTTGACCATCTCTTGCTCCTCCGCGGACGCCTCGGCGGGCAGCTCCTGGGCAAACCGCGGCGGCAGCGGGCCGAGGGAGGCCGAGACATTGTCGCTGACGACGGTGGCGAGCTTGCGGTTGGCGATAGTACCCGCCACCGCGCCGATGCCCAGCGGCAAGAACTTGCCCAGCCAGGTGCGTCGCAGCCGTTTCGTCACCGAGCGCAACGCGGTGCGGGTGAGGATGTTGTTGGCCTCCACCAGCGTCGGCCCGGAAAAGCGCGAGAGCATGTTGGTGCGGGTGAATTTGCCGCCGCTGCCGAGGACGGAATCGACCACGGCGAGGCCCTGGGTGCCGGTGAGGGTGACCAATACGACGGCGCGGCGGCGCTCCGGGTCGTCGATGTCGATGCCGCGCAAGTAGGCGCTGGCCACGGTGTAGAACGCGGCGATGTCCAAGAAGACGACCGACTCGCCGGCGATGGCGGCGGCGCCGGTGATCAGCCCGATGCCGGGAACAGCGGCGGCGAGTCCGGCGCCCGCGCCGGTGCCGGAGACAGTGGTGCGGAAGTGGCGGTCCATCTTCGCCTGCACTTCGGCGGGGGAGGCGTCCGGGTTTTGGCGGCGCAGCCAGTTGACGTGGGCCTTGATGCTGCCCGACTGCAGGTGAACGGCCTTGTCCACCACGGCAATGAAGCTCTTGCCGATGCGGCCGGCCTCATCCTCCAAGGTCTTTGA	MFSRTTRRSSDASRGLATVASSAGALVIAGVARVVGIGLLAADRARDEAQEGARVFRALDHLLLLRGRLGGQLLGKPRRQRAEGGRDIVADDGGELAVGDSTRHRADAQRQELAQPGASQPFRHRAQRGAGEDVVGLHQRRPGKAREHVGAGEFAAAAEDGIDHGEALGAGEGDQYDGAAALRVVDVDAAQVGAGHGVERGDVQEDDRLAGDGGGAGDQPDAGNSGGESGARAGAGDSGAEVAVHLRLHFGGGGVRVLAAQPVDVGLDAARLQVNGLVHHGNEALADAAGLILQGL				NA	NA	NA	NA	NA
AK009_06903	630			hypothetical protein	GTGCACGCTTGCCGCCGGCGGCGACTGCGCGATCGCCCGATGAAACAGCCCGCGCGCCGCCGGGGCACACATCAGGTGCAGCACCGCAGCCCCGCCAGCCGACTCCCCCATCAGCGTCACCGCGTCCGGGTCGCCGCCGAACGCGGCGATGTTCTCGTGCACCCAGCGAAGCGCCAGCACCTGGTCGTGGATCGCCGGGTTGGCGACGCAATCGCCTCCCACCGAGCGCATGTCCAAGTACCCGAGAACGCCGAGCCGGAAATTGACCGGGACGTACACCACATCCGTCGCCTGGCTCAAGAAGTGCCCCTGCAGCACCTTTTCGTGCGACGAACCGGTGATAAACGTTCCACCGTGGAAGTACACCACCACCGGCAAGACGTCGTCGGTATCAGGGCGCACAATGTCGAGAGAGAGGCAGTCCTCGGAGCCGATCACGCTGTCTTTGAAGCTGAACGTGGTCTGCATCGCAGGCGGCGCGAACACGGACGCGTCGCGCACGCCCTCCCACTCCGGCGCCGGCCGCGGGGCGCGGAAACGCTGGGCGCCGGCGGTGGAATCGCCGAACGGCACGCCCCGCCACGTTCGCGCCCCCGTCATCGGGTCGACAACGCCGCGTACCACACCTGA	MHACRRRRLRDRPMKQPARRRGTHQVQHRSPASRLPHQRHRVRVAAERGDVLVHPAKRQHLVVDRRVGDAIASHRAHVQVPENAEPEIDRDVHHIRRLAQEVPLQHLFVRRTGDKRSTVEVHHHRQDVVGIRAHNVEREAVLGADHAVFEAERGLHRRRREHGRVAHALPLRRRPRGAETLGAGGGIAERHAPPRSRPRHRVDNAAYHT				NA	NA	NA	NA	NA
AK009_06904	867			hypothetical protein	GTGGCTGAAGAGTGTCCTCATGACGGCCCCAGCCTAGCCCCGAATAGCCGGGCGCGCGCACCTCGCGCTCTACTCGTCGTCAGTGTCCGGCAAGTCGAACCCGAAGAACTCTGCCAGCGACTCCATCAGCTCCCCGCGGTTGTTGCCCCACTCGCGCATATCGAAGTCCTCCCAGGCCAGGCGCTTCGAGCTCTTCGGGTCGTATTCCACGAATCTCTCGGCACCGAAGACCGCGGTCGCACGCCCGGGGATATCGTCGCGCCGAAATCCATACTCCGGCCATTCCCCGCCCGGCCGGCCGGTGTGGAAGAAACTCCCCCAATGCCGTTGCATGGTTCGGCTGACCTCGGCGAACGCCTCGCGGGAGCCGAATCGGTCCAACTTGGACATGCGGGTGGAGTGCGGGTCCCCGAACACAGCGACCAGGTCCGCCGAGTGCATCGCACCCAGACCCAGCCTGCGCATCGTCGCCGAGGCGTACTCGAAGCGGTACATCCACGTCGACGCCAGCCGCCGGTGCGCCGTGGCCAGCATCACCGACGGGGCCCAAAACACAGCGTCAGCGATCAGGTCCGCGAACTCCGCGCGCCCGCCCGCGTACCCGTACGCCTCCATCACGAGGTGCGCGTTGTCCGCATCGAACGCCTCCAATGCCCGGCGCGCGGCGCGCTGGCGCGACTTCATCGTCTGGTACATCGCTTTGGCGAAACTCGCCTCGTCCGAGTTCGTTCCGATGATCAGCGGAACCGCGGCCTGTTGGCCGTCCTCGAACATGTCGATGGGGTGTGCCGGCAGCGTCGCGTTGTCGACCGTGGGCATGAACGCCGTGTTGAACTGCACGACCTCCTTGCCGGTGAGCATCATTGA	MAEECPHDGPSLAPNSRARAPRALLVVSVRQVEPEELCQRLHQLPAVVAPLAHIEVLPGQALRALRVVFHESLGTEDRGRTPGDIVAPKSILRPFPARPAGVEETPPMPLHGSADLGERLAGAESVQLGHAGGVRVPEHSDQVRRVHRTQTQPAHRRRGVLEAVHPRRRQPPVRRGQHHRRGPKHSVSDQVRELRAPARVPVRLHHEVRVVRIERLQCPARGALARLHRLVHRFGETRLVRVRSDDQRNRGLLAVLEHVDGVCRQRRVVDRGHERRVELHDLLAGEHH				NA	NA	NA	NA	NA
AK009_06905	1008			hypothetical protein	GTGAGCTTTTTCGAGGATATCGCCGCCGCCCTTGACCGTGACGGCATTGAATCCCGCGTGCACGATGAGACCATGTTCGTGCCCATTACTGCCGAAGTGGAAATCCAGTTCGTGGAGATCGACCCGCACCTGCCTGCGGCGAACGTCTACATTGCTGCGGCCGACGTCGACGAGGACGACGACGAGTTCGAGGCCGTTTTGGTCTCGGTCGTGTTCTCAGTCGAGGACGCGGTGGCAACGGTTGCGGAACACGTGGCGACGGACCAGGTAGTGACCGTGCTGCGCGACCTTCACGAGGCCACCGATGAGCGCATCAGTGATCTGGAGTTCTTCCCGGACCCGGTGAATACCCAGCTCATGCGCGCGGAGGTCGGGGACAGCGCTGAACTGCAGGTCCTCGTTGAGGTTGTCGACGGGGAGCCGTGCGCCACCGTGACGTTCGTGGCCCTGTCGGATAACTACGACGATTTGATGGACGACGCCATCGGTGAGCTGTGGGAGTCGGATGGGGATGCGGAGCTGACGGACGAGGATCGCTCGCGCTTGTTTGAAACCATCCACGCGGAGGCCGTTTCCGAGTCGGAGGTTCTTGCACTGGGCAAGTTCACCGATTTCGATCGCCTCTTTGACGTCCTCTCCCTCGCAGCCGACCAGGCGGAGGAGTGGGAGTCGCATTTACTGCCCGTGGAGGACGGGTTTGACGAGCCGGAGGTCTACGACATTTTCGGCCGCGATGGGCTCGACGAGGAAATCGACGGTGCCGACGACGGTGCCGACGACGTTGCTGGCTCCGATGACTTGGACGAGTTCGACGACGATGACGACGATGACGACTTCGACGATGATTTTGACGAAGATGAAGATGACGCGGTAGATGCGGATGACACGCGCATCCCGAACGCCACTGCCGCAGTGGCGCCGGATGCGTCGGACGCGGCCTCGGCGCGCCGCGTCCATAACACCGACATTGACCCGAACACGCAGGTTCCGGTCACCGACGAGGTATAG	MSFFEDIAAALDRDGIESRVHDETMFVPITAEVEIQFVEIDPHLPAANVYIAAADVDEDDDEFEAVLVSVVFSVEDAVATVAEHVATDQVVTVLRDLHEATDERISDLEFFPDPVNTQLMRAEVGDSAELQVLVEVVDGEPCATVTFVALSDNYDDLMDDAIGELWESDGDAELTDEDRSRLFETIHAEAVSESEVLALGKFTDFDRLFDVLSLAADQAEEWESHLLPVEDGFDEPEVYDIFGRDGLDEEIDGADDGADDVAGSDDLDEFDDDDDDDDFDDDFDEDEDDAVDADDTRIPNATAAVAPDASDAASARRVHNTDIDPNTQVPVTDEV				NA	NA	NA	NA	NA
AK009_06906	306			hypothetical protein	GTGCGTGGCCAGGCCGAGCGAGCCGGTGAACACCGTCGTGGCGGCGAGGCCCGCGATGATGAGGGGTTTGCGGCCGACGGCGTCGGCAAGCCTGCCCGAGAACTGCAGGGTGACCGCGGTGCCCAGGGCAAAGGCCGTGAGCGCCAGACCCGCCGCGGCCGAACCGTTGGCGAACACGCTGGCCGCGAACAGGGGCAGCACCGAAACCCGGGCACCGAAGTTCGCCCAGCCGTTGGCAAAACCAGAGGTGAGCAGGCTTTGGTACGTGGGCAGACTAATGGCTTCGCTCAACCGCATCGGCGGTAG	MRGQAERAGEHRRGGEARDDEGFAADGVGKPARELQGDRGAQGKGRERQTRRGRTVGEHAGREQGQHRNPGTEVRPAVGKTRGEQALVRGQTNGFAQPHRR				NA	NA	NA	NA	NA
AK009_06907	951			hypothetical protein	GTGGCGCGTGGCGTCGAGGTCGGCGCTGCCGCCGAAGAACTTCGCGTGCACTCCGCAGGCCCGCACAAACTCGCGGTGAGCTGCGTCGACATCGGCGCGTGCGACGACGCACGCGTTGGCTTTCCCGGTCACAATCGTGCTCGTTCCACGATGGTCATCGTCGTCGCTGTGAACCGTGATTGTGGTCGAAGGGGCGTCGAAAAGCACCGTGCCGAGCGCGACCATGGTGGTGAGCAGGTCGTGGACCTGGGCGACATAGCCCAGGTTTTCCAGCTCGTGGAACTCGAAGTAGAAGCGCAGGATCTCGCCGAGGTCGCGCGCTATCGGGGCCGGGCCGAGAGCGTCGATCGCTGTGGTGAGCGTCTCCGGAGTGAGCACCATGCGCTCTGTTACGCCCAGCGAGCACAGGGTGATGGGGACCGGGGTGTGTGCGAACACCTCGCTGGCGGCGTGAGGATCCACCCAGAAGTTCCACTCGGCGGTGTCGGTGGTGTTGCCTGGGTAGTCAATCGCCCCGCCCATCACGGTGATGTGCTTGAGCTCGGCGAAATGCGAGGGGTGCAGGCGTCGGAAGGCGGCGAGGTTGGTCAAGGGGCCCGTGACCACCAGGTGCAAATCGTCCGTGCCGCGCTCGATGGCGTCGCACCACAACATGTCCCAGTCGGTTTCGACGTGGCGCGAAGGCGCGGACACGTAGCCCAGGCCGGTCTCACCGTGGGTCTCCGGTGTGGTGGTCAGCGGCAGGACCAGCGGGTTGGCCATGCCGGCGGCGAGCGAAATCGTGCGCAGGCCGCACTGGGCGAGCACCCACGCGGCGTTGACCGCGCATTGGGTGGCCTCGACGTTGCCGGACGTGGTGGTCACAGCCTCCAGCTCCACACTGCCCTCGTGGTGCAAGGCCGCCAGGTAGATCAGCGCACAAGTGTCGTCGATGCCGGGGTCGCAATCTAA	MARGVEVGAAAEELRVHSAGPHKLAVSCVDIGACDDARVGFPGHNRARSTMVIVVAVNRDCGRRGVEKHRAERDHGGEQVVDLGDIAQVFQLVELEVEAQDLAEVARYRGRAESVDRCGERLRSEHHALCYAQRAQGDGDRGVCEHLAGGVRIHPEVPLGGVGGVAWVVNRPAHHGDVLELGEMRGVQASEGGEVGQGARDHQVQIVRAALDGVAPQHVPVGFDVARRRGHVAQAGLTVGLRCGGQRQDQRVGHAGGERNRAQAALGEHPRGVDRALGGLDVAGRGGHSLQLHTALVVQGRQVDQRTSVVDAGVAI				NA	NA	NA	NA	NA
AK009_06908	309			hypothetical protein	ATGACTACTTACACAACAAACGTCGAGGTCGATGTCCGCAACGTGGACGAGGCGGCCGCAACCGTAAACACTTCTTCCGCCGCCGCTTTCGTCTTTGAGCAGCTTATTCAGCGCGCCGGAACCTTCGGGGCGATTAGCGCCGCCGGGGACGCCACCGGCGACACCTTCCCGGTGAAGGTGGAGGCGGCCAACGTCAACGATGCCGACGATCGGCTGAACGACACCTTCCGTCCCCGCCTGGTCGACGGGGTTGATTACGCGATTTCCTGGACCCTGCCGCGCACCGCCACCGGCGGGTTCTTCGACTAG	MTTYTTNVEVDVRNVDEAAATVNTSSAAAFVFEQLIQRAGTFGAISAAGDATGDTFPVKVEAANVNDADDRLNDTFRPRLVDGVDYAISWTLPRTATGGFFD				NA	NA	NA	NA	NA
AK009_06909	1005			hypothetical protein	ATGATTCTCCCACCGTTAGCGCTCCAAGGTCCGCGGGGCGCCCTCGGGACGGTCGAACGTCTTGCCCGGGTTGAGGATGCCAGCCGGGTCGATCTCCCTTTTGACCGCCTTGAGAATGTCAATGCCGAGCTGGCCCACCTCAGAGTCCATCCACGGCAGGTGGTCGGTGCCCACCGCGTGGTGGTAGGTGACGGTGCCGCCGTTGTCCGTCATCGCCTGGGTGGCGGCGGACTTGACGGCGCGCCACTTGCGCTCGACTGCCTCCGGATTGTCCCCGCCGCCGGCGACGACGGTGAAGAACAGCGAGCAGCCGGTGGCGTAGACATGGCTGACGTGGCACATGATCAGCGCCGGGGAGTCCCCGACGAGCTTGGAGGCGAGGGCTTCGCCGACGGCCTTCTTCAGGCGCGGCACATTGGACCAGTCGGTCGCGGTCTCCACCGTTTCGCACATTGCGCCGGCGTCCATCAGTGGATCGCGCAGCACCGGCGCCCCGAAGCGCTCCTTTTCCCACTGCCGGGCCGGGCCTTCGCCGACGGAGGTCGCACCGTGCGTGAGCATGATCGCCCGCGTCTCCTGGTGCGGGCGCGTGGCATGCTCTTTTGTTCCCTCGAACATGGCGATGGACAGGCAGCCAACCCGACGCCATGCTCGACGAAGAGCATCGCCCTCGTCGGCGCCTCCCTCGAACGCTCGCCGCGCAGCTCAGACAACATCGCCACCGCAAGCGCAGTAACGACTATGCCGCCCCGCTCGCTGGTCGAACGCTACGGCGCAGAGGCGTACAACGTGCTCGCCGCCTGCGCCCTCGACAACGCCACGGAGCGCATCGCGGGTCTTGACATCACCAGGGCGGAACTCTCGAACGCGGTCACCCACGAGGGCGCGATAAGCGTGGACGACATCCTTGTCCGACGCACCCGCATCGGGCTGGTTGCCACGGACCGCGCAGCTGCAGAACCCGCCGCCCGAGAAGCACTCGCGGCGGCGGGTGTGCAGGCCTAA	MILPPLALQGPRGALGTVERLARVEDASRVDLPFDRLENVNAELAHLRVHPRQVVGAHRVVVGDGAAVVRHRLGGGGLDGAPLALDCLRIVPAAGDDGEEQRAAGGVDMADVAHDQRRGVPDELGGEGFADGLLQARHIGPVGRGLHRFAHCAGVHQWIAQHRRPEALLFPLPGRAFADGGRTVREHDRPRLLVRARGMLFCSLEHGDGQAANPTPCSTKSIALVGASLERSPRSSDNIATASAVTTMPPRSLVERYGAEAYNVLAACALDNATERIAGLDITRAELSNAVTHEGAISVDDILVRRTRIGLVATDRAAAEPAAREALAAAGVQA				NA	NA	NA	NA	NA
AK009_06910	288			hypothetical protein	ATGCGCATCGCACAAGATGCGCACGACCGCTTCTCGCACCATGGCATCGATGATGTGTCGCTGCAGGGGGCCACCGCGGAGCGCTCCCTCGAGCTCGCCGAGGCTGCGCTGGAGGAGTCCCGTCTCGACGCCCTGGTTGTGTGCGGCGGTGACGGCCTGATCAACCTCGCGCTGCAGTCTTTAGAGCACTATCCCGGCCTAGTTGGCCACGCCGATCGATTCCAACACCTTACGCAACGTCGCAGCGGAGGCGTCGAAGCGCTCGAATTCTTCCTCGTTCAGGCGTAG	MRIAQDAHDRFSHHGIDDVSLQGATAERSLELAEAALEESRLDALVVCGGDGLINLALQSLEHYPGLVGHADRFQHLTQRRSGGVEALEFFLVQA				NA	NA	NA	NA	NA
AK009_06911	792			hypothetical protein	ATGCGGGTTCTTTTCCGCCTCCTTGTCCACGATGCGCGGGATTTGTACTCCCGCAATGGTTCCGGAGGACAGCACCGGCAACTCGGAATCCCCGTGCTCGCCGATGACGTAGGCGTGCACAGCCGAGGCAGCAATGCCGAAGCGTTTGCCAAGGTTGTGGCGCCAGCGCGCGGTGTCGAGCACGGTGCCGGAGCCGATGACCTGGTTCGACGGAAGCCCCGTCTGTTTCCAGGTGACGTAGGTGAGGATGTCCACCGGGTTCGTGGCCACCAAGTAAATGCCGTTGAAACCGTTGTCCATCACCTGGCGGTTGATGGACTCGAAGATCTGGACGTTGCGCGCCACAAGGTCGAGGCGAGTCTCGCCCTCGCGCTGTGCCACACCCGCGCAGTTGACCACGATTGCGGCATCCCGGCAGTCGGCATAGGTGCCCACCGTGACCTGGATGTTATGGCCGGAGAAGGGGACGGAGTGGGAGAGATCCTCCACCTGCGCCCACGTCATATCCTCGTTGAGATCTATGATGGCGAGGTGGTCTGTCAGACCCTGGTTAAGCAGAGCGTAGGCGTAGGCGATACCGACGGCGCCAGCACCGATGAGGACGATTTTTGTTCCTTGGGTCACGGTCATGGTGTCCCGCCTTTTCGTGTGGGGGTTGGGCACTTCGGAGTTTATGAGGTGGTGTGGGGTACCGCTACCGATGCGACGGTTTTCGAGGCGGTGATGGCGTCGAAGATTTCCTGGGGAATTGGGTGGTGGAGTATGAGGTCCGTCGTCACCACGTCGAGGTAA	MRVLFRLLVHDARDLYSRNGSGGQHRQLGIPVLADDVGVHSRGSNAEAFAKVVAPARGVEHGAGADDLVRRKPRLFPGDVGEDVHRVRGHQVNAVETVVHHLAVDGLEDLDVARHKVEASLALALCHTRAVDHDCGIPAVGIGAHRDLDVMAGEGDGVGEILHLRPRHILVEIYDGEVVCQTLVKQSVGVGDTDGASTDEDDFCSLGHGHGVPPFRVGVGHFGVYEVVWGTATDATVFEAVMASKISWGIGWWSMRSVVTTSR				NA	NA	NA	NA	NA
AK009_06912	2943	uvrB_2		UvrABC system protein B	GTGGAGAGCTCTAAAGCAACGTTGCGGCCTGCCGTCGACCACGGTTTCATCCAAGCTAATTCCAGCCAATTTCACGACCGTGGTCCCTCGCTAGTTCTCAACGATTCGGCAATGACGATGGGCGGCGTCCTCCGCACCGAGCTTGAACGCGCAGATTCATTCCAATTTTCCGTAGCGTTTGTCACCACCGACGGGATTGGGACAATCACCCAACAGCTAAGCCAATTCAAGGGCAAAGGAACGATTGTCACGTCCGATTACCAGGACTTCAATGAGCCCGATGCGTTACGCGAACTGTTGAAGTTCGACCACATTGAGGCACGGATTCTTGTCGGCAAGCCGCACCACGCGAAAGGGTACATTTTTCACCACAGCGACCACCTCACCGCACTGGTTGGAAGTTCCAACCTGACCAGGAACGCTTTACTCAGCAACAACGAGTGGAACCTAAAGTTTTCGAGCCACGACGACGGCGACATCGCGATTCAGCTGAGTAGGGCGGTTAAATGGCAGCGTGAAAATTCGGTTGTGTTGACCGAAGACTGGATTGATCAGTACGAAAAGCGCCGGAAGCAGCGCACAGTAATTTTCGACGACGTGTCTCAACCCATTTCACTAAGCGATGACGGTGAAGAGATATTGCCCAATCTCATGCAGACCGAGGCGCTGGAAAACCTTCAGCGCGTTATCGACGCCGGCGAGCGCCGAGCGATCATCATTTCTGCAACGGGTACTGGAAAAACAATTCTTTCGGCACTAGCAGTGAGGCAGATTAAGCCACGCCGTGTCCTCTTCGTCGCCCACCGAGAACAAATTCTGAACAAGGCCGCTGAAGAGTTTCAACGAGTGCTCGCCTGCCCGCCAACTGATATCGGTTTTATCGTCGGGCAACGTAAGGAAGCTAATCAACGCCTGGTCTTTGCAACAATTCAATCCCTAGGCCGCGGCGACACGCTGAGCGAGATTTCCCCCAAGCAATTTGACCTTGTCATCGTTGACGAGGTCCATCGCTCTGGAGCCGAGTCTTACCAGAAGGTGCTCAACCATTTCCGCGCGGACTTTACGCTAGGGCTTACTGCGACCCCGGAACGCACCGATGGGTTCAATGTTTTTGAGCTTTTCGACTACAACGTGCCCTACGAGATTCGATTGGAGGACGCGCTCGAAAACCACATGCTTGTCCCCTTTGACTACTACGGCGTATCGGACTACGAATCCGCATTTGGGTCGGTGATCTCGGATAACTCGACCTTGCAACAGTTGGCAGCCCCTGAGAGGGTGCATCATCTAGCGAAAATCATTCAAGACTACTCCTTTGCGCGAGGTTCCAAGGGGTTGATCTTCTGCAGCAGCAACGCCGAAGCGGCCGCTTTAAGCAAGGGGCTAAACACAGAATCGGTCCATGGCCGTCCGCTACGTACCATCGCGCTATCCGGCGGGGACTCAATCGAAACTCGTGAGAACACCGTGGAGAAGCTGGCTCAAGGCGAAATCGACTACATCCTCACGGTCGACATTTTCAACGAAGGCATCGACATTCCTCCTGTCAACGTGGTGGTTATGTTGCGCAGCACCCAATCATCGATCGTGTTCACCCAGCAACTTGGCCGCGGCCTGCGCAAATATGCGGGCAAGCGCTCGCTACGTGTCATCGACGTGATTGGTAACTACGCCACGAATTTTCTCGTTGCGGTCGCGCTTACGGGCGATCGATCCGGCAGCAAGGACGTGATCAAGGAGGGACTGCATCGAACACGCACGCACCCTTTAGCCGGTGCCTCGACCGTGAGCTTCGATCGGGTCTCCATGCAGCGAATTGTTGAATCTTTGCAAAAGGCCCGCATTGCTGACCGGAAGGCGAAGCGGGAAGCAATTTTAAACTTGCAGTACCGGTTGGGGAGGATCCCTTCACTTGTTGACTTCGAAAACCACGAGTCGATGAACCCATTCATTCTCGCCGCAACGGACAACAATGCGTCGAACTATTGGTCCCTCCTGAACGCGCTCAAGTTCGTTGGAACGCCACCTTCTTCGCATGAGGCGGCAGTACTGTCCATGCTGTCTACTGAGCTGCTGAACGGTAAACGGCCCCACGAATTACTCCTCCTCCGAACCCTGATCGAAAACGGCCCGATCAGTGTCGATAGTTTCAGAAACTCACTGCAACGGCAGGGGCTAGACGCCTCGGCGAAGCATCTCGAATCGGTAGAGCGGATCTTGAACCTGTCATGGTTTGTAAAGGCCACGGCTCAAAAATATGGCTCGAAACCAATCGTGGAACGCGTGGGCAATCAGTACCGACTCGGTCGCGAGTTTGCCTCTCTCTACGGGTCCTACGCCGCGGAGCACCCGCACCCCGAAATGAGTTTCCGAGCCCACGTCGACGACATCCTCGCGACGGGTCTGCTGATCAATCGCAAGCACTATGGCAGCGGCGACCGCCTCCTCCCGGGCAAGCTGTATTCGCGCAAAGATGCGTGCCGGCTGCTCAACTGGAAACAGAATGCGGAGAGCACAATCATGGGCTACAAAGTCGATAAGCATTCCGGTACCTGTCCGATTTTTGTCACCTACCACAAAGATCCGGACGTCGATACGCGCCTGCAGTACGGCGATCATCTCGTAAATCGATCCACCATGCACTGGTTTTCGCGGCACGGGCGAACTTTGGAAAGCAAGGAACTCCAACCAATTTTGTCCAATTCGGTTGAGTTGCATCTTTTCGTTAAACGCGAAGATGCGGACGGCCTTGAGTTTCACTATCTAGGCCAAGCCGATTCGACCGATGCGCAAAACACGACGATGAGGGGCAACAACGGTGATTACCTCGACGTGGTGACGACGGACCTCATACTCCACCACCCAATTCCCCAGGAAATCTTCGACGCCATCACCGCCTCGAAAACCGTCGCATCGGTAGCGGTACCCCACACCACCTCATAA	MESSKATLRPAVDHGFIQANSSQFHDRGPSLVLNDSAMTMGGVLRTELERADSFQFSVAFVTTDGIGTITQQLSQFKGKGTIVTSDYQDFNEPDALRELLKFDHIEARILVGKPHHAKGYIFHHSDHLTALVGSSNLTRNALLSNNEWNLKFSSHDDGDIAIQLSRAVKWQRENSVVLTEDWIDQYEKRRKQRTVIFDDVSQPISLSDDGEEILPNLMQTEALENLQRVIDAGERRAIIISATGTGKTILSALAVRQIKPRRVLFVAHREQILNKAAEEFQRVLACPPTDIGFIVGQRKEANQRLVFATIQSLGRGDTLSEISPKQFDLVIVDEVHRSGAESYQKVLNHFRADFTLGLTATPERTDGFNVFELFDYNVPYEIRLEDALENHMLVPFDYYGVSDYESAFGSVISDNSTLQQLAAPERVHHLAKIIQDYSFARGSKGLIFCSSNAEAAALSKGLNTESVHGRPLRTIALSGGDSIETRENTVEKLAQGEIDYILTVDIFNEGIDIPPVNVVVMLRSTQSSIVFTQQLGRGLRKYAGKRSLRVIDVIGNYATNFLVAVALTGDRSGSKDVIKEGLHRTRTHPLAGASTVSFDRVSMQRIVESLQKARIADRKAKREAILNLQYRLGRIPSLVDFENHESMNPFILAATDNNASNYWSLLNALKFVGTPPSSHEAAVLSMLSTELLNGKRPHELLLLRTLIENGPISVDSFRNSLQRQGLDASAKHLESVERILNLSWFVKATAQKYGSKPIVERVGNQYRLGREFASLYGSYAAEHPHPEMSFRAHVDDILATGLLINRKHYGSGDRLLPGKLYSRKDACRLLNWKQNAESTIMGYKVDKHSGTCPIFVTYHKDPDVDTRLQYGDHLVNRSTMHWFSRHGRTLESKELQPILSNSVELHLFVKREDADGLEFHYLGQADSTDAQNTTMRGNNGDYLDVVTTDLILHHPIPQEIFDAITASKTVASVAVPHTTS				NA	NA	NA	NA	NA
AK009_06913	408	nudG	COG0494	CTP pyrophosphohydrolase	ATGCCGAACCAGATCGACGTCGTCGGAGCCGTATTCATTCGCCGCGGCAGCGTTTTCGCGGCACGGCGCGGTCCCGACAAGGCAATTCCCGGCGCCTGGGAATTTCCAGGCGGGAAGATCGAGCTCGGTGAGAGCCCGCGGGACGCGCTAGTCCGCGAGCTTAGGGAAGAGCTACTTATCGACGCTCGCGTGGATGCGCACCTGACAACAACGGCGCATGCTTACGACTTTGGGGTCGTCAGTCTCTCCACTTACCTGTGCGAATTAGTATCCGGCGATCCTGTGTTGACTGAGCATTCCGAAGCTCGCTGGGTTGCTGTTGAGGACCTTCCTTCGCTGGATTGGGCGCCCGCCGATATTCCCGCTGTTGAATTGCTCGTTGAAAGGGGTCAACGTGGAGAGCTCTAA	MPNQIDVVGAVFIRRGSVFAARRGPDKAIPGAWEFPGGKIELGESPRDALVRELREELLIDARVDAHLTTTAHAYDFGVVSLSTYLCELVSGDPVLTEHSEARWVAVEDLPSLDWAPADIPAVELLVERGQRGEL	PGPT0021430_207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021430-nudG-K08320	NA	NA
AK009_06914	687			hypothetical protein	GTGGTCGGCAAACGACTGGAAGGAGTCGGCGACCTGCAGGGCGAGCTCGCGCGTGGGGGCGAGAACGAGGGCCTGCGGGTGGCGCAGCTGCGGGTCGATCTGGCTAAGGACCGGGAGCGCGAACGCGGCGGTCTTACCGGTGCCGGTCTGGGCGAGGCCGACGACGTCGCGGCCCTCCATCAGCAGCGGGATGGTCTCGGCCTGGATGGGCGACGGCTGCTCGAAGCCGACCATTTTTACCGCTGCGATAACGGAATCGGGCAGGTCCAGCTTCTCGAACCCATTCTTGGGCTCCTCGGCTTTAGGCTCATCAGCCTTGGGAGTGTCGTCGGCCTGTGGCTTATCCCCCGCCTCAGGCTCAGAGACCTTCTCGGTCTCAGTGGCGTGTGCAGGCGCTTCTTTGGCGTCTGCGTTCTCATTTACGGTGACTTCGGCCGCGGCCGAAGCGCCGGTGTCCTCAGAATCTCCCGCATCCCTGGTGTCTGCTGCAGCCTCATTCTCAGATGCTACGACAACCTGCGGGGTGTCCTGATTTTCCGACAGTTTCATGTCCGGCTCAAAGTCGCTGCCGGTAGCGTTTTCGGAAGTGCTCATTGTTTCCCCACCTTACGCGAGACGCGCCGGTATTACTATTCGACGGTGGCGACATGGGAGCCATGTCACCAGCACCCCTTGCAGCGTGACTGA	MVGKRLEGVGDLQGELARGGENEGLRVAQLRVDLAKDRERERGGLTGAGLGEADDVAALHQQRDGLGLDGRRLLEADHFYRCDNGIGQVQLLEPILGLLGFRLISLGSVVGLWLIPRLRLRDLLGLSGVCRRFFGVCVLIYGDFGRGRSAGVLRISRIPGVCCSLILRCYDNLRGVLIFRQFHVRLKVAAGSVFGSAHCFPTLRETRRYYYSTVATWEPCHQHPLQRD				NA	NA	NA	NA	NA
AK009_06915	1452			hypothetical protein	GTGCCGGCGCCGATCCAGCCGTTTCGGGCTGACGAACTAGTCGCGCCAGTCGCGGTCACGGCCACCGCGGCCGCCAAAACCGCGTCCGCCACGGTCATCGCGGTCCCGGCCACGTCCGCGGCCGCCGAAGCCGCCACGGCCGCCTCGGTCACCGCCGAAGCTGCGCGCCGCGCCGCCCTTGTCGCGCTGGATGTTGATGAGCTGGCCGGAAATCCTGGTGTCCGACAGGCGATCCAGCACGGACGAGTCGAGATTCTTCGGCAGCTCCACCAGTGTGAAGTCGCCGCCGATGGTGATGCGGCCGAAGTCGCGCGAGTTCAGCCCGCCCTCATTGGCAAGAGCACCGACGATGGCGCCCGGGCGGACGTGCTGGCGCTTGCCGACATCCAACCTGTACGTATCGAAGTTCTCACTGTCATTCTGGCGCCCGCGCCCACCACGGTCACCGCGGTCACCCCTATCGCCGCGGTTAAACCGATCCCGGCGCCCGCCGCGATCACGGTCGCGTCGATCGTCGCGGTCCCAGCCGTCGCGGTCGCGGCGGTCGCGCTTGTCCTTCGGCGGTTCCTTCATCAGGAACTCGCCCGCGGCATTCGCCTGTGCTGCCAGTGCCGCCGCGATGTCATCCATCGGGATGTTGTTCGTGTTGGAGTACTCGCGCACCATCGCCTTGAACACGTCCTGGTCCTTGGACTCGAGCGAGGCGGTGATGGAGTCCATGAACTTCAACTTGCGGCTCTCGTTGACTTCGTCAACGGTCGGCAGCTCCATCTCCTCAATCGTCGCGTTGGTCACACGCTCGATGGAACGCAGCATGCGGCGCTCGCGGGGCGTGACGAAGAGGATCGCCTCACCGGTGCGGCCCGCGCGGCCCGTGCGGCCGATTCGGTGGACGTAGCTTTCGATGTCGTTCGGGATGTCGTAGTTGAACACGTGGCTGATGCGCTCGACATCGAGGCCGCGGGCGGCGACGTCGGTGGCGACAAGGATGTCGAGGCGGCCGTCGCGAAGCTGATCGACGGTGCGCTCACGCTGCTGCTGGGCGATGTCGCCGTTAATCGCGGCGGCGGAGAACCCGCGGGCACGCAGTTTCTCAGCGAGTTCCTCGGTCTCGTGCTTGGTGCGCACGAACACGATCATCGCCTCGAACTCGGTCACCTCGAGGATGCGGGTGATCGCGTCGAGCTTGTTACGGTGCGCCGTGAACAAGTAGCGCTGAGTGATGTTGGTGTTGGTGCGGGTCTCGGACTTCACCGTGACCTCAGCCGGATCGTTGAGGTACTGCTTGGAGATCTTGCGGATGCCATTAGGCATCGTCGCGGAAAACAGTGCGACCTGCTTGGTGTTCGGCGTGTCCTCGAGGATGCGCTCGACGTCTTCCTGGAAACCCATGTTGAGCATCTCATCGGCCTCATCGAGGACGAGGAAGCGCAGGTTGGAGATGTCGAGTGA	MPAPIQPFRADELVAPVAVTATAAAKTASATVIAVPATSAAAEAATAASVTAEAARRAALVALDVDELAGNPGVRQAIQHGRVEILRQLHQCEVAADGDAAEVARVQPALIGKSTDDGARADVLALADIQPVRIEVLTVILAPAPTTVTAVTPIAAVKPIPAPAAITVASIVAVPAVAVAAVALVLRRFLHQELARGIRLCCQCRRDVIHRDVVRVGVLAHHRLEHVLVLGLERGGDGVHELQLAALVDFVNGRQLHLLNRRVGHTLDGTQHAALAGRDEEDRLTGAARAARAADSVDVAFDVVRDVVVEHVADALDIEAAGGDVGGDKDVEAAVAKLIDGALTLLLGDVAVNRGGGEPAGTQFLSEFLGLVLGAHEHDHRLELGHLEDAGDRVELVTVRREQVALSDVGVGAGLGLHRDLSRIVEVLLGDLADAIRHRRGKQCDLLGVRRVLEDALDVFLETHVEHLIGLIEDEEAQVGDVE				NA	NA	NA	NA	NA
AK009_06916	558			hypothetical protein	GTGCCGATCCCCAAAAACGCGCCAACGGTTCGGTGGCATAAGAAAATCGGCAACCCGGATGCCCGGGCTGCCGCTGAGATGAAACCTCTAGGCGAAGATGTCCGATGGCAGGTACATCAGAATCAAGATGATCATCACGAGCAGGTTGAAAATACCCGCCCCGGAGGTTGCCTTGGCCTTTGCGCCTTCGAAATTAGAGGTGTAGTCGCGCTGGTCCGCTTCCGCCGGGTCAAGCGCGTTGAGTGTTCCCATCATCTTGCGCTGCTGCGGGATGACCATGCCGAAAAGGATGCCCCACGCAATCAGTGCCAGGATGATGGCGGTGTGGAGGAAGTAGTTTGTTTTGTAATTTTCCCAGCCGAAGATGAGCACCACAGCGCCGAGCAACGGAACCAGGACGGACAGCATGCCGTAGGTGGACGTGAGACGCTGCAGAACGGTGGCTCGGCCCACCGATTCCTGGGCACCGGAACGGGCTTCCGCAGCTTGGCGGGGGAACATGGAGGCGGCAACCATGACGGGGCCGAGCAGGAGGATTGCGGCGGCTACGTGCAGTAG	MPIPKNAPTVRWHKKIGNPDARAAAEMKPLGEDVRWQVHQNQDDHHEQVENTRPGGCLGLCAFEIRGVVALVRFRRVKRVECSHHLALLRDDHAEKDAPRNQCQDDGGVEEVVCFVIFPAEDEHHSAEQRNQDGQHAVGGRETLQNGGSAHRFLGTGTGFRSLAGEHGGGNHDGAEQEDCGGYVQ				NA	NA	NA	NA	NA
AK009_06917	1338			hypothetical protein	ATGTGCGCCGGCGTCCCACGCCGCGGCGAGGGGATAGAGGTGGTCAATCTCGACATCAGCGGGTTCCAATGGGGCGCCCGTGTAGGGGTCCGTGATGGGGCCGGAGACCCACTGGCTGTGCGGGGATTCGCACGAGACGGCGCCGAACGCCTCGGCCATCAGCGTGTCACGGGTGTCGCATCCGTCGGCGACGGGTGCCCAGCCGGGGCCGAAGGCGTCTCGCTCGTAGCCCAGCACCGTGGTGCGCTGGGCGGGGGAGGCGTTGGTGGGGGCGTCGATAAGCGAGCGCGGGGTGGGGAACGGAATGACCGCGAGGGTGAGGGCGATGAGGGCAGCGAGGTAGTAGCGCACACCCTCTTAGACTTAGGCGCCGGCGCCGCGGTTCCGCTCGAGGGCTTGCTCGAAGCTGGCCTCCGGGTTGCGCATCGCGTAGTCATTGACCCGCATCGCCGTATCAAACTCCTCGGCCACGCCGGGCCGGGTACGGGTGGTGGCGGACACGGCGACCATCAGCGCGGTGGCGAGGATGACCCCGGGCACGATCTCGTACATCTCGGTGATGGGCGAGTCGACGGAACCCCACATGAACACCGTGACCGCCCCGGTGATCATGCCGGCAATCGCGCCCTGGGAGGTCAGGCCCTTCCAGTACAGAGAGGCGATGACGACGGGGCCGAACGCGGCGCCGAAACCTGCCCACGCGAACCCGACAAGGCCGAGGATGGTGTCCGAGGGGTTGGCGGCCAGGGCAATGGCGACGAGCGCGATGAGCACGACCATGGCGCGCGAGAGCAGGAGCAGACGCTCGCCGGCCAGCTGGCGTTTGCCAAGCACGCGGTAGAGGTCCTCGATCAGCGCCGAAGAGGTGATCAGAAGTTGCGAGGACATCGTCGACATGATCGCGGCGAGCACGGCGGTGAGGACGATGCCGGCCACCAAGGGATGGAACAGGACGCGGGTCATGTCGAGGAAGATGGTCTCTCCGTTGGGGTCGGTGACCTGCGCGCCTGTCTGTGTGAAGAAGACAGTGGCGACGAGCGCGGTGAAGATCGCGCCGATGTAGCACAACGTGACCCACAAGGTGCCGGTGCGGCGAGCCGAGGCCGCCTCAGCCGGGGAGCGCAGTGCCATGAATCGGGTGATGATGTGCGGCTGGCCCATGTAACCGAGCCCCCACGCGAGGTTGCTGATGATCGTCACCGCAGACACGCCGGCGAACAGGTTGAAGTAGGTGGGATTCGCCTCCGGGAACGGCCCGTAGGGGTTCTCAGCGGCAAAGGAGAAGATCTCGCTGGGGGTATCCAGGGCAAACAGGGCGATGATCGGCACGGTGAGTAG	MCAGVPRRGEGIEVVNLDISGFQWGARVGVRDGAGDPLAVRGFARDGAERLGHQRVTGVASVGDGCPAGAEGVSLVAQHRGALGGGGVGGGVDKRARGGERNDREGEGDEGSEVVAHTLLDLGAGAAVPLEGLLEAGLRVAHRVVIDPHRRIKLLGHAGPGTGGGGHGDHQRGGEDDPGHDLVHLGDGRVDGTPHEHRDRPGDHAGNRALGGQALPVQRGDDDGAERGAETCPREPDKAEDGVRGVGGQGNGDERDEHDHGAREQEQTLAGQLAFAKHAVEVLDQRRRGDQKLRGHRRHDRGEHGGEDDAGHQGMEQDAGHVEEDGLSVGVGDLRACLCEEDSGDERGEDRADVAQRDPQGAGAASRGRLSRGAQCHESGDDVRLAHVTEPPREVADDRHRRHAGEQVEVGGIRLRERPVGVLSGKGEDLAGGIQGKQGDDRHGE				NA	NA	NA	NA	NA
AK009_06918	1047			hypothetical protein	GTGTTGAACAGGATCGACCAAGTCGCTGACCTCCACCGCCCGGTTCAGAGCCTGGCGCAGGGTCTGGGCGGTGGCGGCGTCGTAGTCGTGCAGGCGCACTGGCCGCGGCGAATCGGGGCCGGAGCGGACCTGCACCCGCACGGGCCACTGCGCGGCCTCACTGCCATCGTTGGTGTCGGCGGCCTCGTCGGCGTCGGCGGGCTGCCCCACGATGAACACCAGCTGCAGGTTGACTGCGGTGATCGAACCATTCCAATCGCTGAGCTTGCGTGTCAGCTCCGCCCCGCCGCGGCGCAACGGGGACGCGGTGAGCAGCGAGTGCACGAAATCGTGCCACGGGTAGGGCCGGGTGTTCTCGTTCAAGCCCTCGAGCTGTGCGGTAGCGATCCAGTGCACGAGCGTGTGGGCGAGGTCCTCGTCCAAGCTCGGGTTGTTCACCGCCAGCACCCCGGGGGCCGCGGCGACCATCTCGGCGAGCCAGCCACGCTCTTCCACCCCCGTGCCCAGCTGCCACTCGGCGTACCACTGCCCGTCGCGATACGGCACGTGGATGCTCACCCGTCCGGCGCGCACGAACCGGTGCAGTCCGACATACATGCGGATCAACCACCGAAGATCCGGGGCGATCGCAGCGCGCTGGGACGCCGTCGCCGCGGGGGAATCAGAGTCCACGAACATCAGCGTCGCGAGGAAAGAGACAGTCTCAGCCGGGGCGAACGCGGCCGTCGGCACGCGAAGCTCCACGTGCTTTCCGCGCGGGGTTTGCAGGCGCACGCGGCGTCGGTGACGGAACCTGGAGTCGTCGACAAGCTTTTCAACAACGGGCGGGAACGTGCCCACAGGAACCTGGGACGGAAGCACAATCCGGTGTCCCTCCACCTGCTCAACCCACAGGTTGAGACCGGACTCGGGCAACCAGAGTCCGTGGAGGAGGAATTCAGGCATAACCTCCCTTATACCACGCGTGCGGGACACGATACGCTGTGTGAAACTTTCGACCCGCTGAAAAAACCAAGGAGCAGGACAACGTGGACAACGCGTGGATGA	MLNRIDQVADLHRPVQSLAQGLGGGGVVVVQAHWPRRIGAGADLHPHGPLRGLTAIVGVGGLVGVGGLPHDEHQLQVDCGDRTIPIAELACQLRPAAAQRGRGEQRVHEIVPRVGPGVLVQALELCGSDPVHERVGEVLVQARVVHRQHPGGRGDHLGEPATLFHPRAQLPLGVPLPVAIRHVDAHPSGAHEPVQSDIHADQPPKIRGDRSALGRRRRGGIRVHEHQRREERDSLSRGERGRRHAKLHVLSARGLQAHAASVTEPGVVDKLFNNGRERAHRNLGRKHNPVSLHLLNPQVETGLGQPESVEEEFRHNLPYTTRAGHDTLCETFDPLKKPRSRTTWTTRG				NA	NA	NA	NA	NA
AK009_06919	183			hypothetical protein	ATGCGGGTTGGCTTCAGCGGCGACGTTGAGCTTGGCGGTGGTTTCCGCTGTCGACCACGCGCGAGGCAGCATCACCGCAAATCCGCTCATGCGCAGCTTCACCGCGTCCAACCGCACGAAACGCACAATCTCATCGGTGGTCAGGTACGCATCCCAATCCCCCTCCATCTCGGGCGAGGCTAA	MRVGFSGDVELGGGFRCRPRARQHHRKSAHAQLHRVQPHETHNLIGGQVRIPIPLHLGRG				NA	NA	NA	NA	NA
AK009_06920	1875			hypothetical protein	GTGCATCTTGCCGTCGAGCACATCCTGGATGGATTCCTCCAGCGTGCCGCGGGTGATCATCTTGTACACGGTGACGTTTTTGTCCTGGCCGATGCGGTACGCGCGGTCGGTCGCCTGGTTCTCCACGGCCGGGTTCCACCACCTGTCGAGGTGGATGACCACCGAGGCTGCGGTGAGGTTGAGCCCGGTACCTCCGGCCTTCAGGGAAAGCAGCATCGCGCGCGGTCCGCCCACGGATTGGAAGCTGTCCACCATCGCGTCGCGCGCGTCCTTGCTCACCCCGCCGTGCAAGAACGGCACCGGCTCGCCGAGACGCTCCGCCAGGTACGGCTGCAGCAGCGCGCCGAATGCCTTGTACTGGGTGAAGATGAGCACGCGCTGCTCGGAGTTGATCGCCTCGCCGAGCAGCTCCATAAGCATGGCCACCTTGCCGGAGCGGTGCTTTCCCTTCAGCGTGACCGCAGAGCCGTCACCGAGGAAGTGCGCGGGGTGGTTGCAGATCTGCTTGATGCGGGTGATGGTGGCCAGCACCATGCCCTTGCGCGCCATGCCCTCGCGCTCTTCGAGCTCGGCCTGGGCATCGCGCACCAGCGCGGTGTAGAGCGCCGCCTGCTCGGGCGTCATGTCCACGGTGACAATGTGCTCGTTCTTCTCCGGCAGGTCGTCGATAATCGCGGGGTCGGTCTTGAGCCGGCGGAGGATGAACGGGGTGGTCAGCCGCCGCAGGCGCTCGCTCATCTCCTCGGCGAGCTCGACGTCGCGGCGCGACTCGATGACCTTGGCAAAGTGGTTGCGGAAAAAGGTCTCGCTGCCCAACATGCCGGGGTTGACAAAGTCGAGCAGGCTGCGCAGCTCAGAGAGCTTGTTCTCGATCGGCGTACCCGTCAGCGCGATGCGGTGCCTCGCCGGGATCGCGCGCACGCTTCTCGACGCCCTCGTGCCCGCGTTCTTGATCGCCTGGGCCTCATCCAACACAACGTGGTCGAACTCAATACGCGAGAGGTCCTTCATATCGCGCCCGGCCACCCCGTAGGAGGTAATCACCACGTCCGCGGAATCGATCTGCCCGAACAGCTCATCTCCGCTGAGGCGCTGCGTGCCATGGTGCACCACGACCTTCAATTTGGGAACGAAGCGTTTGGCTTCGCGCGCCCAGTTTCCCACCACGGAGGTCGGTGCGACCACGAGTGTCGGGCCGGTGCGCTCGCCCCGCTCGCGTTCCACGGCGATCAGGGTCAGCAGCTGCAGTGTTTTCCCCAGCCCCATGTCATCGGCCAGCACGGCGCCCAAGTTGGAGCGCGACATGAAGTACAGCCAGTCAACCCCGCGGCGCTGGTACTCGCGCAGCTCAGCGTTGACCCACCCGGGGATGTCCACGCGCTCCGGGGCGGGCCGCTGCGTGCCCGCCACCAGCGAGGTAAACCACGGCGAGCCGGAAAACTCCACCGGCGCCTCATCGTCGGCCGCGGCGGATTCCAGGGCAAGGTCGCGCAGCTCAGCGGCGGTGACCGCACCCTCAGTGTTGTTGGAGGCCTTGAGCTGCTCGTAGCGCTCGCGCAAGCGCTCTGCCTCTGCCGCCAGCTCGGCGGCATCGCCGGCACCATTGGCCTCGGCCAGCGCTGCCCGGGTCCGTGCGGCCTCGGCCTCGCGCTCGGCGCGCGTCAGCGAGCTTTCGGCGAGCTTTTCCATGTAGCGCTGCGTGCGGGCCAGAGCGTTGCCGTCGGCAAGCACCCACTGCCCGCGCAGCTTGACCAGCCCGGATTTGGAGTTGATCAACTGCGCCATTTCGGCATCGTCAAGCTCGATGTCCCCGACGGAGATTTTCCAGTCGTAGGAAACGAGAGTGTCAAAGCCCAAGTGGGTGACCGTGGATGA	MHLAVEHILDGFLQRAAGDHLVHGDVFVLADAVRAVGRLVLHGRVPPPVEVDDHRGCGEVEPGTSGLQGKQHRARSAHGLEAVHHRVARVLAHPAVQERHRLAETLRQVRLQQRAECLVLGEDEHALLGVDRLAEQLHKHGHLAGAVLSLQRDRRAVTEEVRGVVADLLDAGDGGQHHALARHALALFELGLGIAHQRGVERRLLGRHVHGDNVLVLLRQVVDNRGVGLEPAEDERGGQPPQALAHLLGELDVAARLDDLGKVVAEKGLAAQHAGVDKVEQAAQLRELVLDRRTRQRDAVPRRDRAHASRRPRARVLDRLGLIQHNVVELNTREVLHIAPGHPVGGNHHVRGIDLPEQLISAEALRAMVHHDLQFGNEAFGFARPVSHHGGRCDHECRAGALAPLAFHGDQGQQLQCFPQPHVIGQHGAQVGARHEVQPVNPAALVLAQLSVDPPGDVHALRGGPLRARHQRGKPRRAGKLHRRLIVGRGGFQGKVAQLSGGDRTLSVVGGLELLVALAQALCLCRQLGGIAGTIGLGQRCPGPCGLGLALGARQRAFGELFHVALRAGQSVAVGKHPLPAQLDQPGFGVDQLRHFGIVKLDVPDGDFPVVGNESVKAQVGDRG				NA	NA	NA	NA	NA
AK009_06921	942			hypothetical protein	ATGAAGGTCAGAGGTTTCATGGCATTGTTTGTAGCAAACGCGCCCGACATCACGGCTTCACTGCCTGGTCAACTCCTCGTACAGGTCTTCGATGTCGGCCACAGCGCGCAGCTGATCGATGTTGGTAAAGGACACCGACTGCATAGCGCGGTGCAGCATATCGATGTCGGAGTCCTCGATCATCGGCGCGAGCTTCGGCTCCGGCAGCCTCGGCATCTCGCGGCCGTCCCAGAAGTACTCCGAGCCTTCCTCCGAGTTCTCCTTCGCCACCGAAACGGCGCGGTTGCGCACCCCCTGCTCGAAGGTGGCCAGGTTCAAGTTGCGCAGCGAGAAGATGACCTCGGGGGAGGCGTCGATAAGCTCGGCGGCTTTCTGCGCGACGGCCACGGCGTGCTTGCACACCGCCGCGGGGTCCGGGCAGGTGCAGAAGAAGCGGACGCTGGCGGGGTCGGGGGCGAGCAAGATGTCGAGCACGTCGTCGTCGAACTCTCCCGCTCGTGCCCTGGCCACCGAGTTGGCACGCCGCGCCATGATGTCCAGTGCGTCCTGGACGTCGGTCGGGGCACGGCGCGGCAGCTGGATGCTGACGCTAAACGGGTCGTTCTGGCTCCCCGCGACAACCCCGTCAAAGCCCCCGGAGCGCACGGTGACGTCGAGCACGTGCTCGCCGGCGGCATACTGCTGGCCGCGCTTGGTGCGCGCCGGATCGGTTTGGCGCACCGCGGCGTTGAACACGCGCATCGCCGCGGGCGAGAACGACGGGGCGCGCTGCAGCGGAGGCTGCGCGGCACCCGCCTCCTCCGGGCTAGTCACCCGCCGGCGCGCCCCGAAGTTGGCGTAGATGACGTTGTCTTCTCTCGGCCTGTTGTGCTGCGCCATGTCAGCCCTCCTCCGCTCGGTAGCTCATCAGCCGCGCGAGGTCCTCGGTGTCGAGCTCGGTGA	MKVRGFMALFVANAPDITASLPGQLLVQVFDVGHSAQLIDVGKGHRLHSAVQHIDVGVLDHRRELRLRQPRHLAAVPEVLRAFLRVLLRHRNGAVAHPLLEGGQVQVAQREDDLGGGVDKLGGFLRDGHGVLAHRRGVRAGAEEADAGGVGGEQDVEHVVVELSRSCPGHRVGTPRHDVQCVLDVGRGTARQLDADAKRVVLAPRDNPVKAPGAHGDVEHVLAGGILLAALGARRIGLAHRGVEHAHRRGRERRGALQRRLRGTRLLRASHPPARPEVGVDDVVFSRPVVLRHVSPPPLGSSSAARGPRCRAR				NA	NA	NA	NA	NA
AK009_06922	552			hypothetical protein	GTGCGTGTCGCCCAGGGCCACGTAGTCGATGGTGCCGTCGGCAAGCTTAGTCTCGAGGTTGTCCAGGTCGATGGTGTCGGGGACCACCTCGCCGGTGCGCGACTGCGTCTGCCCGTGCCCGACGAGCACGCGCAGCGCCTCGGTCGGCGCAAGCGGCGCAAGCGCTGCGGCGCACAGGTCCTCGGAGGCGTACTTGGCCTTCAGCGGCGCGCCGACGATCTCGACGCCCTCGCGTACCTCGACAACATCGGTGGAATCGAGCATCGTGACCCCTGCGAGATCGTGCGTGCGGCTAAAAATCGAGTCCGCCACCAGCGGGTCGTGGTTGCCGGGCAAAAGGTACACGGGAACGGGCAGGTTATCAAGCGCCTCGAGCGCCCGGCCGAGGGTGCGCCTTTCCAGGGCGTTGTGCTCGAAGACGTCACCGGCGACAACAATGAACTCGGCGCCGCGCTCTGTGGCGAGCTCGCCGAGGCGGTGCACGGCGCGCAAGCGGGCGTCGTCGAAACGCGATTGCGCTTCCGGGGGCAAGAACTTGCGCGTCATGCCTAA	MRVAQGHVVDGAVGKLSLEVVQVDGVGDHLAGARLRLPVPDEHAQRLGRRKRRKRCGAQVLGGVLGLQRRADDLDALAYLDNIGGIEHRDPCEIVRAAKNRVRHQRVVVAGQKVHGNGQVIKRLERPAEGAPFQGVVLEDVTGDNNELGAALCGELAEAVHGAQAGVVETRLRFRGQELARHA				NA	NA	NA	NA	NA
AK009_06923	396			hypothetical protein	GTGCAGATCCATCAGGCGGGTGCGCTCACGCAGAGAGGCAAACACCGGCTCAAGCTCGGCCAACCCCTCCTCCAGCCGCCGCGTATCCTCCAGCCCGAGCGTGCCCACGATGGCGTACTTAATCACCGTGCGCTCCTTGTCCGGGTACGCACGCAGCTGAACCAAAAGCTTATCGACGTCCACCCCACCACCGACCTCGAAGTGCAGGGCGTGAAACACCCACGCGCCCACCGGTACTTTCTCCACGTCCGCGAGCCCCTTGGACAGCTGCACCACCAGCGCATTGCCGGAGTCGACCTCGCCGCCGGCAACGCCCGGGGTCAGGTCGTGGAAATCGGTCGTCTCCGGCGAGCCGGAGTACCAGACGCTACCGGAGGCACCAAGCGAGCGGGTTGA	MQIHQAGALTQRGKHRLKLGQPLLQPPRILQPERAHDGVLNHRALLVRVRTQLNQKLIDVHPTTDLEVQGVKHPRAHRYFLHVREPLGQLHHQRIAGVDLAAGNARGQVVEIGRLRRAGVPDATGGTKRAG				NA	NA	NA	NA	NA
AK009_06924	2640			hypothetical protein	ATGAAGATCCACTCCATTTCGCTGCGCAACGTCCGCGCCGTGGAACACCTCGAGCTTGACGACATCCCGGACACCGGCGTGATGCTGCTGCACGGCGACAACGAGGCGGGTAAATCCACCGTGCTCGACGCCATTGACGCCGTGCTCAACTTCAAGCACTCCACCTCCGACAGCAGGGTCAAGGTCTTAGCGCCTGCCGGAAAAGACGTTGGGCCGGAGATCACGCTTCGCGCCACGGTGGGCCCATACACGTTCAGCGTGCGCAAGGTGTTCCTGCGCAAGAAGCGCTCGGAGTTGACCATTACCGCGCCGAAGCGCGAGCAGTTCACGGGCCGGGAGGCCGACGACAAGCTCGAGGCCATCTTGGACGAGCACCTGGACAAAACCCTGGCGGCGACGCTGTTTCTGCGCCAGGGCGAGCTGGACCCGGGCATCGCCGCCGCCGGCATTCCCTCGATCACCCGCGCCTTGGACACCGGTGAGGCGGGCAGTGACGAGGCCGCGCCTGGGACCGAGGACACTGCGCTGATGCAGCGCATTGAGGCGGAGTACCTGCGCTTTTTCACCGCGAAGGGCCGCAAAAACGCCGCGTACGCCGACCTGGAGAAGCGTGTTGAATCCGCGAGCGCGTCCGTCGCCGAGCTCGACGCGGAGGTTGCCAGGCTCTCCGGTTTCGTCGACGAGGTCGCGCGCAAGGAGACGGAGATCGCGAGGATTTCCGCTGAGCTGCCCGAGGCCGTTGAACAGGAGGCAACCCGCGCGGAAGAGGCCGCTGCCGCCAAGGCACTGGCGGACAAGGCGGAGGCGGCGCAGCAGGCGAAGGACCGCGCCGAGATCGACCTCGAGCGCGCCACCGAGGACATCGCCGCGCGCGCCGCCGCCCGCTCGCGTGTCGACGCCCTCACCGCCGAGGCCGCCGAGCTCTCGGCCTCACTGGTTACGGCGCGCGAGGCAGCAGAGGGCGAACAGGCGCGCGTGGTGGAACTGACCGGGGCGCGCGATCGCGGGAAGGAGCGCCTCGCCCAGGCCCGCGCGGACGTCAAGGACGCCGAGGCTGCGCGCCAGCAGGTGCGTGGCCGCATCCGGGCCGCCGAGCTCGGCGAAATCATCGCCCGACTGGACGCCGCCGACAAAGAACTGGCGGATCTGCGCGCCGCGCAGCCCGAAAAGCCCGTCACGGACGCTGACGTGCGCGCGGTGGAAACGGCGCGAGAGGAGCTTGGCCTGCAGCGCAGGCTTCGCGACACCGCGTCGGCCAAGCTCGAGATCACCGCCCCAGAGGGTTCTGTTTTAAGCGTTGACGGCGATGTTGTGGATTTCGAAGGTACTGCGACCGTCGGTGTCCACCACGGCACGCGGGTCGGCATCGGCGACGTCGACGTAGTCTACCGCGGTGCCCAGGGCACGGAGCAGGCCGCCGAGGCGGTGGAGAGCGCGCAGCGGGAGCTGAGCGAGCTACTCGACGCCCACGGTTGCGACGACATCGATGCCCTACGCAGCCTGCGCGACACCCACGCGGAACTTGCTGGAGAGTTGACGATGGCGCAGCGCCGCCGCGAAGACGTCCTCGGCGCGCGCGACGCGGAGGAGCTGCGGGCCGAGCACGCCCGGCTTGCTGCGCTGGTAGAGGGGGATGCCGTTGTTGGGGAGCTCGGTGAGGACGAGGCGGAGGCAGCCTTAAGCGCAGCGCAGCGCGAGTTGGACGAGGCAAGCGATGCGCTCGAGCTAGCCGAGGGTGCGCTGCGTCCCTGGGCGGAGCGTAAGGAGGCGACCGCGCTCGCTGTGTTGGAGGAGCGCGCCGAGGCGAAGACCGCGGAGAAAGATGCGGCGGTGGCGAGCTTGGCCGCGGCGGAGGAGAAGACTCCGACCGAGCAGCTTGAGACTGCGCGCGAGCGGGCAGCCGTTGCGCTGGACGCGGCGAAGAAACAGGCAGAAGTACTTGCCGTCGAGCTCAAGCGCGCAGACCCGGAGCTGGCCGCCGACCTTCTGGAAGGCGCCCAGGTCAAGGTGCGCAATCTGCGCAACCGGCTGGGGGAGGCGGAGCGCAGGGTTGCGGAGCTATCAGGGCGTATCGAGCAGGCCGCCGGCGTGGCGGAGCAGGCGGATCGGGCCGCCTCCGCGCTCGAGGCAGCCGAATCGGAGTTGGCCACAACTACGCGCCGGGCGGAGGCCGCGCAGCTGTTGCGCGAGACGATGCTGCGCCACCGCGACGAGGCCCGCGCCCGCTACGCCGCGCCCTTTGCGGAGGCGCTCAACCGCTACGCCACGCGGGTTTTCGGCCCGGATGTCGAGTTCACCCTGGGCGAGTCGCTGGAGATCCAGGCCCGCACGTTGCACGGCGCAACCGTGGCGCTCGACCAGCTTTCCGGGGGCGCGAAAGAGCAGCTTGCCCTGCTGGTGCGTTTCGCCATTGCGGAGCTCGCCGGAACGGGCCAAGCAGGTAAAAGCCCCGTGCCGGTGATTGTCGACGATGCCTTGGGGGCGACGGACCCAACGCGCTTGGAACTGATGAACTCCCTGTTCAACCAGGTGGGGCGCGAGTCGCAGGTGTTTGTACTGACGTGCTTCCCGCAGCGCTTTGACCGCGTGTCTGTTGCCAAGGTGGCGTCGATTAGCGAACTTAAGCAGGTGGGGGAGTAG	MKIHSISLRNVRAVEHLELDDIPDTGVMLLHGDNEAGKSTVLDAIDAVLNFKHSTSDSRVKVLAPAGKDVGPEITLRATVGPYTFSVRKVFLRKKRSELTITAPKREQFTGREADDKLEAILDEHLDKTLAATLFLRQGELDPGIAAAGIPSITRALDTGEAGSDEAAPGTEDTALMQRIEAEYLRFFTAKGRKNAAYADLEKRVESASASVAELDAEVARLSGFVDEVARKETEIARISAELPEAVEQEATRAEEAAAAKALADKAEAAQQAKDRAEIDLERATEDIAARAAARSRVDALTAEAAELSASLVTAREAAEGEQARVVELTGARDRGKERLAQARADVKDAEAARQQVRGRIRAAELGEIIARLDAADKELADLRAAQPEKPVTDADVRAVETAREELGLQRRLRDTASAKLEITAPEGSVLSVDGDVVDFEGTATVGVHHGTRVGIGDVDVVYRGAQGTEQAAEAVESAQRELSELLDAHGCDDIDALRSLRDTHAELAGELTMAQRRREDVLGARDAEELRAEHARLAALVEGDAVVGELGEDEAEAALSAAQRELDEASDALELAEGALRPWAERKEATALAVLEERAEAKTAEKDAAVASLAAAEEKTPTEQLETARERAAVALDAAKKQAEVLAVELKRADPELAADLLEGAQVKVRNLRNRLGEAERRVAELSGRIEQAAGVAEQADRAASALEAAESELATTTRRAEAAQLLRETMLRHRDEARARYAAPFAEALNRYATRVFGPDVEFTLGESLEIQARTLHGATVALDQLSGGAKEQLALLVRFAIAELAGTGQAGKSPVPVIVDDALGATDPTRLELMNSLFNQVGRESQVFVLTCFPQRFDRVSVAKVASISELKQVGE				NA	NA	NA	NA	NA
AK009_06925	528	yceI		Protein YceI	ATGTCTCACCTCACTGGAACCTGGAACCTCGACCCCGACCACACCGAGATCGGCTTCGTCGCCCGCCACGCAATGGTGACCAAGGTCCGCGGCAACTTCCCCGAGTTCACCGCGCAGCTCACTGTCGACGGGGAGAACCCGAAGGCGACCGCGACCATCAAGACCGCCTCGATCGACACCGGCAACTCCGACCGCGACGCACACGTGCACGGCGAGGACTTCTTCGACGTTGAGAAGTACCCGGAGATGACCTTCGAGTCCACCGCCTTCAACGTCGATGAGAACGGCAACGGCACCGTCGAGGGCAACTTGACCATCAAGTCCACCACCAAGCCGGTCACCCTCACCGTGGAGACCTTCGGCGTGGAGACCGACCCCTTCGGCAACGAGCGCCTAGGCTTCGAGGCCAGCACCACAATCGACCGCACCGACTTCGGTGTGGACTTCCAGGCACCGCTAAAGTCCGGCGGCGTGCTGGTGTCCAACAAGATCACCATCGTGATCGAGGGCTCCGGCATCAAGGCTTAG	MSHLTGTWNLDPDHTEIGFVARHAMVTKVRGNFPEFTAQLTVDGENPKATATIKTASIDTGNSDRDAHVHGEDFFDVEKYPEMTFESTAFNVDENGNGTVEGNLTIKSTTKPVTLTVETFGVETDPFGNERLGFEASTTIDRTDFGVDFQAPLKSGGVLVSNKITIVIEGSGIKA				NA	NA	NA	NA	NA
AK009_06926	543			hypothetical protein	GTGATCTTCTTTGAAGCAGTTGACGCACAAGGTAACCTCAGTGTTATGGCTGAACAACCGCGCTGGCTCAACGATGGTGAACAGGAACTGTGGCGACTCATGCTCGCCGCATCCCGAAAGGTCGACCGCGTCATCGACGAGACCCTTCAAGCAGGGTCGAACCTTTCGTCCTCCGAGTTCGCCGTCCTCGTGTCCCTGTCCGAGGCAGAGGGCAAAGAGCTGCGCCTGCGCGATCTCTGCGCCGTTCTGGATTGGGACCGCTCGCGCACCTCGCACCAGGTCACCCGCATGCAGCGCCGTGGACTGATCACCAAGTGCAAGTCGCCTGGCGACGCCCGCGGGGTGTTAGTCAAGCTCACCGACGACGGCCTGACCCGCGTCACCCACGCCGCACCTGACCACGTCGAAAGCGTGCGCCGCATCATCTTCGACCACCTCGAGCCCGAGGACATCGCCGCTTTACGACGCTTCTTCGGCGGCATCATGGGAGTCGACAACGTCCCCGGCATCCCGAAGTGCTCGGAGATCAACAAGTTCGACTAA	MIFFEAVDAQGNLSVMAEQPRWLNDGEQELWRLMLAASRKVDRVIDETLQAGSNLSSSEFAVLVSLSEAEGKELRLRDLCAVLDWDRSRTSHQVTRMQRRGLITKCKSPGDARGVLVKLTDDGLTRVTHAAPDHVESVRRIIFDHLEPEDIAALRRFFGGIMGVDNVPGIPKCSEINKFD				NA	NA	NA	NA	NA
AK009_06927	762			hypothetical protein	GTGCACGCCGACGTCGACAAGCGAGCGAGCGAACGTCACCGCCTCGTCGCGCAGCGGGTCGAACCCCGCGGCCGCGATGTAGGCGGGCGCAACCCGGGCGAGGAGCTCGGGCGGCGCCAGCGACGGCGAGATCTCCCAGTTCGTCAGGTCGTCGGACGCGCTGGTGTACAGCTCGCGGTAGTACTCCAGCTGCTTGCGCGTCAGGTAGGTGCCCGTGTCGAACTCGCGTTGCGACGGCGTGTCCAACGTGGCCAAATTCGTCGAGGGGACGATGAGCACTTGGAGCGCCGGCTGGCTCTCGCCGCGGGCGGCCCTGCGCAAACAAAGCGCCGCGCTGAGTGTCGCGCCGGCGGAATCCCCAGCGAACGCGACGCGGGCGGGATCGATACCGTCGACCTCGCCGGCCAAGACCGCGCTCGTCACCGCATCGCTGGCGTCGAGCCCGGCTGGGAACTCGTGCTCTGGGGCGAGCGGATAATCCACCGAGATCACCGCCACGTCGCCGTACGCGCACAGGAAGCGGCACGTGTTGTCGTGGGATTCCAAAGAACCCGTGGCCCAGCCGCCGCCGTGGAAATAGACCACCGTCGGCAGATCACCGGTGGCATGCGCAGGGCGGTAATGGCGCACCGGGGTCGAAGCAATATGCCCGTCCCACACCGCACCCACCTGAATGGGTGGCCCCGCCGCCAGCCTCGCCTGCGATTCGATCTCCTTGCGCGCCTCCTCAACGTCGAGGTCCGCCGTATCCTTCGCAATTAG	MHADVDKRASERHRLVAQRVEPRGRDVGGRNPGEELGRRQRRRDLPVRQVVGRAGVQLAVVLQLLARQVGARVELALRRRVQRGQIRRGDDEHLERRLALAAGGPAQTKRRAECRAGGIPSERDAGGIDTVDLAGQDRARHRIAGVEPGWELVLWGERIIHRDHRHVAVRAQEAARVVVGFQRTRGPAAAVEIDHRRQITGGMRRAVMAHRGRSNMPVPHRTHLNGWPRRQPRLRFDLLARLLNVEVRRILRN				NA	NA	NA	NA	NA
AK009_06929	642			hypothetical protein	GTGCATCAGCGTCGACTTACCCGAGCCCGACGGGCCCATGATCGCGGTGAACTGCCCGCGCGCGAACTCGACCGTCACACCGGCGAGCGCCACGACCGCGGTATCACCCGAACCGTACTGCTTGGACAGCTCAACCGCTCGAGCCGCAGCCTCCGATCTTTCATCCTGCTGCCCGAGTCTGTCTTCCGTCCGATGTTTCGCCATAGCCTTGGACCCGCCTCACCTTGTGCCAAATACTTCTTCCGGTTCATGCTACGTGGGACAGCCCCACAACGTCGCAACCGGTACCCATGTGGCCGTAGGTATCTCCGCTCCTCAAGCCGTTCGCGGGGATGGGAGCGCCTGCTTATCGACGCTCAAACTCTGCCACGGCGGAGCCCGTGGGTGTCGAGGGGGGGCGGGCTCTGCAGCTGCGGAGTTGCCTGCCGGGAACCCGCGGCGAGAATCCCGTGGGCGGGACCGGAGCGATGCGCGCGCCTGTGGGCTCCCGGACTGGTGCTTCTCGCTCTGCAGCAGCAGAGTTGGTGGAGTCCGCCGTGCTGGCTTTACCGAGCGAGCTCGATGGACCCGTTCCCAACTCTGCCGTGGCAGAGTGGGGGGAGCCCGCCAGTGGACTCAGCAAGGAGGGTCTCTCTGGATTAA	MHQRRLTRARRAHDRGELPARELDRHTGERHDRGITRTVLLGQLNRSSRSLRSFILLPESVFRPMFRHSLGPASPCAKYFFRFMLRGTAPQRRNRYPCGRRYLRSSSRSRGWERLLIDAQTLPRRSPWVSRGGGLCSCGVACREPAARIPWAGPERCARLWAPGLVLLALQQQSWWSPPCWLYRASSMDPFPTLPWQSGGSPPVDSARRVSLD				NA	NA	NA	NA	NA
AK009_06930	1248			hypothetical protein	GTGGGCGTTGCGCAGATCGTCGACAAGCTGCTGCGCCGTGGTGCCATCCACCGCGGACAGCGAAACGCGGGGCACGGAAGTGCCGTCAGTGTAGAACTGGCTGTAGGTTTCGGGGCTGACCTGGAAGGCGAGGGAGGAGCTGGGGGTCATGTCGTCGTCGTAAAGCCCGACAATGCGGTACGTTTCGCGCCCCATTGTGTCGACGACAGTGAGTTCCTGATCGAGCGCGATGCCGTACTTCTCGGCGGCGTTGCTATTGACGATCGCCTCGCCCAGCGCCGTCGGCTCCCGGCCCTCAGCGATGCTCGGCGCCTGCCCGACCGCCTCCGCCGGCGGGTAGTAAATGCCGGCCGTCGACGTGCCCTGGCCGGTCTGGATGGGGTTGTTGTCGGTCGTCGCCGCGACCACCGTCTGGCTCGCCTCAACATTAAGCTTGTCGACGCCCGGACCACCACGCAGCTCATCCACCACGTCGTTCGGGATGGCCTGCATCTCCTCCCCCGGGGCGGCGACCGCGTCGACGCCCTCGAACTGGGAGCTGACCGCGCTGTCGAAGGTGTTGCCCAGCATGTTCGTGAACATGAGCGACCCGGCGATGAACGCCGTGCCGAGGACGACCGCGAGCACCGTCAGAGCGAGGCGGAGCTTGTGCGCGACAATGTTGCGCAGCGAAACCCGAGTCATAGCGGATCGCATCTAGCCCTCAATCCCCGACATGACCTGCAGAATGGACTCCATCGTCGGCTTCCACAGCTCATCGACGATCTGGCCGTCGCGAAGGAAGATAACCCGATCGGCGTAGGAGGCCGCGCGCGCGTCGTGGGTGACAATAACGACGGTCTGGCCGTCCTCATCCACCGCCGTGCGCAGGATCTGGAGAACTTCGCGCGAGGAGTTCGAGTCAAGGTTTCCGGTCGGCTCGTCGCCGAAGATGATTTCCGGCCGGCTCACCAACGCGCGCGCACACGCGACGCGCTGCTGCTGACCACCCGAGAGCTCGCTCGGGCGGTGCGACAGGCGCTCCGCAAGGCCAAGCCGCGTAGTGATCTCATCGAACCAAGCCTTGTCCACCTCGCAACCAGCGATGTCCGACGGCAGCGTGATGTTTTCCGCGGCAGTCAACGTTGGCACCAGGTTGAACGACTGGAAGATGAAACCGAGGCGGTCACGACGCAAATCCGTCAGGTCGCGGTCGTTCAACCCCGACAACTGGGTGCTGCCGATGTACGCCGCCCCCGAGGTGAATGA	MGVAQIVDKLLRRGAIHRGQRNAGHGSAVSVELAVGFGADLEGEGGAGGHVVVVKPDNAVRFAPHCVDDSEFLIERDAVLLGGVAIDDRLAQRRRLPALSDARRLPDRLRRRVVNAGRRRALAGLDGVVVGRRRDHRLARLNIKLVDARTTTQLIHHVVRDGLHLLPRGGDRVDALELGADRAVEGVAQHVREHERPGDERRAEDDREHRQSEAELVRDNVAQRNPSHSGSHLALNPRHDLQNGLHRRLPQLIDDLAVAKEDNPIGVGGRARVVGDNNDGLAVLIHRRAQDLENFARGVRVKVSGRLVAEDDFRPAHQRARTRDALLLTTRELARAVRQALRKAKPRSDLIEPSLVHLATSDVRRQRDVFRGSQRWHQVERLEDETEAVTTQIRQVAVVQPRQLGAADVRRPRGE				NA	NA	NA	NA	NA
AK009_06931	150			hypothetical protein	TTGGCGTCGCGACGCCCCCAGCGCGCGCAGCAGAGCGAACTCTTTCGTGCGCTGCGCAACGATCATGGAGAAAGTATTCGCAATCAGGAACGTGCCCACGAGCAGGCCAACCAGGCCGAACGCGATGAGGAAGTAGCTGACAAAGCTTAA	MASRRPQRAQQSELFRALRNDHGESIRNQERAHEQANQAERDEEVADKA				NA	NA	NA	NA	NA
AK009_06932	1248			hypothetical protein	TTGCCCGCGCCGGCTTCCGACGGCACGCAGCATGCCAATCTCTTGGCGACGCTCAATAACCGACAGCGTCAGCGTGTTCACGATGCCCAGGACCGCGATGATCACCGCAAGCGACAACAGCGCATAGAGGATGAACAGCATTTGGTCGATCAGGCCCGTGACCTGCCCGGCCATTTCCTCCGTCGAGCGCACCTGCACGATGATGTCGGGCCGAACCTCTTCCTCGAGGTTGGCGCGCAGCTGCTCGGGATCGACCGTGCCGTCGCCGTTGACCCCGACCATGTTGATACTGAGGGCCTCGGCGGGCACCACCTTTTGCGCGGTCTCGTAGCCAATCGCCGGTGCCCTGACCGTGTTCGATTCTGCGAAGATGCCGCCGATCGTCACCTCCACGGAAGCCGGTGTCAGACCCGGGGCGGTAAGCGTGACCTTGTCGCCGAGGTTCCATCCGCGCTCCGTCGCCCACGGCTCAGGGGCGATGATGGTGTCCCCCTCGACCGAGGAGGTGCCCTGGAGCATCTCAAGCTTCATCAGCTTTGTGGGGTCGCCGGAAAACACCGGCGACGCGCCGTAAGGCCCGAACTGGTAACCAAATTCACCGTTAATGGCGATCGGCGCCTCCGAGTACGCGACCACGTCGCCCACCCCGTCGACGTCGTCAAGCCTGCTCGGCAGGTCCGGCGGAATGGGGAAGGAGCCGTTTTGCGGCCCGGTGAGCACGTAGTCCGCGGTGATTTCGTTCTCGGTGACGTCCGCGATGGATTGTTTCATGGTCGCACCCAACATGCCGATCACAGTGACCAGCGCGATGCCCAGCATGAGCGCAAAGGCGGTCGCCGAGGTGCGGCGCGGGTTACGCCGCGTGTTGGTGGAGGCAAGCCGACCCATCGCCCCGAACGGGGCACCGATGAGGCGCCCGAGCGGCGGCACAATGGGCAGCGAGAATGCCGGTCCCGCGAGGAACAGCCCCGCGATAACACCCACCGCGGCAACTCCGACGAGGATCGCGCGATTCGCGGTCGTCCCGTCCTCCCACAGAACGCCCGCCGCCGCGGCAATAATCGCCGCAACGATCAGGACTGTGCCTATAATCGTGCGGATCTTCAGCGGCTGGGGCGACGACGACTCGCTCGCCCGCATCGCCTCCACCGGCTGCACCTGGCCCGCGCGTCGCGCTGGTGCCCAGGCGGAGATCATGGTGACGATGACGCCGACGACGACCGGAACGACCACAGCGCGCGTCGATAA	MPAPASDGTQHANLLATLNNRQRQRVHDAQDRDDHRKRQQRIEDEQHLVDQARDLPGHFLRRAHLHDDVGPNLFLEVGAQLLGIDRAVAVDPDHVDTEGLGGHHLLRGLVANRRCPDRVRFCEDAADRHLHGSRCQTRGGKRDLVAEVPSALRRPRLRGDDGVPLDRGGALEHLKLHQLCGVAGKHRRRAVRPELVTKFTVNGDRRLRVRDHVAHPVDVVKPARQVRRNGEGAVLRPGEHVVRGDFVLGDVRDGLFHGRTQHADHSDQRDAQHERKGGRRGAARVTPRVGGGKPTHRPERGTDEAPERRHNGQRECRSREEQPRDNTHRGNSDEDRAIRGRPVLPQNARRRGNNRRNDQDCAYNRADLQRLGRRRLARPHRLHRLHLARASRWCPGGDHGDDDADDDRNDHSARR				NA	NA	NA	NA	NA
AK009_06933	837			hypothetical protein	GTGGGCACTTATCGGCACCATGCTCGGCGGCACGGTTGTGGTCGGCATCCTCGCTGCGCTATGGCCGGGGCACCGGGCGGCGAAGACGCCGCCGCTGGACGCTATCGCGGACTAGGTGGGGCTGGACTCTGCCGTGGCGGAGTGTTGTTCTGTTGCTGGCGGGGGTGTGGGCAGGCAGAATCGGCGGTGTTCTTAGGTTTGCGACAATGTGGGGGTTTGTCGGTGCGTCGGTTCGGTGTGTTTGTTGGCTTGGTCGGGGTTGTCGGTTTAGTGTCGGGGTGTTCGTCGGGTGCGGATGTGGGTGCGGCGGGTCAGACGGGTGCTGCTGGGCCTGCATCTTCGGAGGCGGCTGTTTCTCCGGAGCCGGCTGCGTTTCACTTTGACAGCGGGGACTTGGTGATCGGGCCGTTTGATCCCGAGGAGGTCAAGCACAATCTTTTCGACCCGTGCACGGAAATCTCCGATGCGGAGTTCGCGGCGGCGGAGATGGTGAAGAGCGAGGTGCAGCCTGAGCCAAGGGTGCTCAGTGATCGATTCATCGTGACCTGCGCCATAGAGGGGGAGGACCCCTACACTGAGACACTTTTAGTAACGAATGCAGCACCGAAATCGGTCATTCTGTCGACTTCGCAGCAGTTCAATTCCCACTCCGCCCAGGTGCCGGGAATATTTGCGTTCGGGCCCCCTAACGGAGGAACGGAAATGTGTGATGTGGCCGTAGAGACACAACGCGGTACTTTCTCCGCGAGCGTTTTTACGTACCGCGCCTCCGGTGACGTGACTGATTTATGTGCAAAAGCAGCTGATACGCTCGGCAAGCTTTATTTGGTCGGTTAG	MGTYRHHARRHGCGRHPRCAMAGAPGGEDAAAGRYRGLGGAGLCRGGVLFCCWRGCGQAESAVFLGLRQCGGLSVRRFGVFVGLVGVVGLVSGCSSGADVGAAGQTGAAGPASSEAAVSPEPAAFHFDSGDLVIGPFDPEEVKHNLFDPCTEISDAEFAAAEMVKSEVQPEPRVLSDRFIVTCAIEGEDPYTETLLVTNAAPKSVILSTSQQFNSHSAQVPGIFAFGPPNGGTEMCDVAVETQRGTFSASVFTYRASGDVTDLCAKAADTLGKLYLVG				NA	NA	NA	NA	NA
AK009_06934	1659			hypothetical protein	GTGAATTCGCGGATAATGCTCGATGTCAACGGGGTCAGAGGGGCAATCGACGAGTTGAGAAGTTGCGCATCTCATGTAGGGCTCAATTTTGGCCGAGATTTGCGTTCAGATCTTGCGGGTTTTTCTCCTGTGTCGGGTCTTGATGAGTCGGGGGTGTCGCATGGTCGTGTGTCGTCGGTGAGTCGTCCGGAGGCGTTGAAGGCGTTGGCGGCGCATGTGCTGGATGCTGCGGTGTTGCTGGAGGCGAGTTTGGATAGTGTTGTTGGTGCTGATGGGGCGTTTTCCCACATGGTGGGTTCTATTGGGTTAGCCAATGTGTGGGGTGCCTCGGCGTCGGCGGTGGATGTGGATATGAAGTTGGCGCAGGTGGAGAACCCGTCGACGAATCCGTTTGTGTTCGGCCGTCCGGTGGCTGGGTTTGTGGCGTCGTTGCCGGTGTTGCATGGCCAGTTCCAGGCCACTGATCCATCACGTGCGCTGTCGGAGGCGGCGGCGTGGGAGTCGACGGCGGTCAAGGTTTCTGAGGTGGTGTCTCGGTTGGATGCGGTGGTGGCGGCGTTGGGGTCGTCTGCGGAGACGTCGTGGGTGGATAAGGCGATTGAGCGGGTGCGGCGGATTCAGTGGGCGGGTGGCCAGTTTGCGGCGCATGCTTCGGCGATGGGGGTGCATGCGGGTAATTTGGCGGCGGTTGCTGGTGCGGAGAAGGCGACTGCGGCAGCGGCGTATGCGTCGTGGTTGGCGGCGCCGGTGGAGGTTAAGCCGGTGGTGGAGCAGGCGTATATGGCGGCGTTTCCGCCGCGGTTGACGGCAGGGTTGGTGCCGACGGTGCCGCCTTTTAATCAGTTGTTGCCGGCGTTGGATGCGATGCCTGCGGCACCGTTTTCACCGGAGGCGGTGGTGGTGCCTGCCGCACCAGCGTTTGAGAGCCGTGTGTTGCCGCAGGTGGTCAAAGATGCGTTGGTGGCTAACGGGTTTTCGGATGTGGCGTATGCGACTACTCCGCAGGACGTGTTGGCGGCTGCACCCGCAGGTGGCGCGGGTGTTGGTGCGGGTGGCCTGTCACCGGTTGCGGGTGCGACGCAGGCGGCATCGGTGGCGACGCTGCCACCGGTTACGGCAGCTCCGGCTGGGTCTGCCCCGGTGGTGTCGGCGGGTCATGCCGGGTTTGGTGGTTCACCGTTTGGTGTCACCCCGGGTGTGAGTCCTGTGTTGGGCACAGGTGGTGCTCATAGCGGTGCCCGCGGTGCTGTGCCGGGTGGCCGTGTAGGTGGCAGGCAGGGTGTGGGTTCTGCTGTGGGTGCGGGTGCTGGGTCCGCGGTGGGCCTTATCGGCCGCGGCGGTGCGGGTGTGGGTACGATCCCACCCGGTCTCACGGGCCCGGGGCTCACGGGCCCTGGTGTTGGCGCACCGCTGGCACCGGGGTCCACTACCGCATCGACCGCAACGAGTGCGCACACCGCGAATCGTTCCGTGGCGGTCGGTGGCCCGATGAGCCCAAGCGCCCACGCAGGCGGTGGTGGGTCGAGGAAGCGTCGCGTGCGGGCGGTAACCAGCGCGGTGGAACGCAACGGCAACCTGCGCGCCCTGCTCGGTGATGCCCCCGCAGTACTGCCCGACGTCATCGGCGACGACGTCCGCACCCCACGACACACAACCTAA	MNSRIMLDVNGVRGAIDELRSCASHVGLNFGRDLRSDLAGFSPVSGLDESGVSHGRVSSVSRPEALKALAAHVLDAAVLLEASLDSVVGADGAFSHMVGSIGLANVWGASASAVDVDMKLAQVENPSTNPFVFGRPVAGFVASLPVLHGQFQATDPSRALSEAAAWESTAVKVSEVVSRLDAVVAALGSSAETSWVDKAIERVRRIQWAGGQFAAHASAMGVHAGNLAAVAGAEKATAAAAYASWLAAPVEVKPVVEQAYMAAFPPRLTAGLVPTVPPFNQLLPALDAMPAAPFSPEAVVVPAAPAFESRVLPQVVKDALVANGFSDVAYATTPQDVLAAAPAGGAGVGAGGLSPVAGATQAASVATLPPVTAAPAGSAPVVSAGHAGFGGSPFGVTPGVSPVLGTGGAHSGARGAVPGGRVGGRQGVGSAVGAGAGSAVGLIGRGGAGVGTIPPGLTGPGLTGPGVGAPLAPGSTTASTATSAHTANRSVAVGGPMSPSAHAGGGGSRKRRVRAVTSAVERNGNLRALLGDAPAVLPDVIGDDVRTPRHTT				NA	NA	NA	NA	NA
AK009_06935	906			hypothetical protein	GTGGTGTCTGGGGCGGATTTTATTCTTCCTCCCACCAGTCCACCACTAGCGGGGGCTTGCGCCCTCGAAGGGAGTTTTCCTATGTCAACCTTGTACACCGCCCCCGTCGGGCCAGCCCAGCCGGTCGCACCGGTGGAGCCACCTCAGCGCAACACCGTTGGAATCATCGCGCTCGTCTGCGCGATTGCCGGCTTCATTTTCGGCTGCATCCCTGGCGCATTCATCCTCGGTTGGATCCTTCTGCCGATCGGCTTCATCCTCGGCATCATTGGCTTGTTCATGAAGGCTAAGAAGGGCACCGCCGTGGCCGCCGTCATCGTCTCGATCGTCGGAACCATCGTTTCGGTAATTGTTTTCCTATTCGCCGTCGGACGGGCCTTCGACGAGAGCTTCAACCAGGACGTATCCGTAGCAGGACCGGAAAGTGCGGTCGCCCCGGTCGCGGAGGGCTCCGCCGCTCAGGGAGGGTCAGCCGCAGGGTCCACGCGCGACAACCCGCTGCCGATCGGCGCCACTGTGGAAAACGAAGAATGGTCCGTCACCCTCAACAGCGTCGACCTCGATGCAACAGATGCGGTGACCGCCGAAAACCCGGTCAACGATCAGCCGGGCCCAGACCAGACCTACGCGCTGGCGAACGTCACCATCACCTACAAGGGTGACAATCCGCAGGGCTCGATGCCCATGCCCCTAATCGAGTACGTCACCCCCGACGGCCGCAGCGTGACGTCTTTCGACACGCTTGTCGTCGCCCCCGACGCCCTGGACACGCTGACGTCGCTCTACAGTGGCGCGTCGGTAAGCGGCAACGAGGCGTTCCTGATTCCCGCCGGCACTGCTGGTGAGGGCGTTCTCGCGATCCAGCCGGACCTCTTGAGCAAGAAGGCGTTCTTCGCTGTGCGTTAG	MVSGADFILPPTSPPLAGACALEGSFPMSTLYTAPVGPAQPVAPVEPPQRNTVGIIALVCAIAGFIFGCIPGAFILGWILLPIGFILGIIGLFMKAKKGTAVAAVIVSIVGTIVSVIVFLFAVGRAFDESFNQDVSVAGPESAVAPVAEGSAAQGGSAAGSTRDNPLPIGATVENEEWSVTLNSVDLDATDAVTAENPVNDQPGPDQTYALANVTITYKGDNPQGSMPMPLIEYVTPDGRSVTSFDTLVVAPDALDTLTSLYSGASVSGNEAFLIPAGTAGEGVLAIQPDLLSKKAFFAVR				NA	NA	NA	NA	NA
AK009_06936	249			hypothetical protein	GTGGCCGACGAGAATTGCTGTCGCGATGACGGAAACGAGAAACGCGACCGTGAAGGAAATCAGCGCCGAGACGACGGGGAACCCTCCCACGCTCAAGCGCAATCGCGAATTGGCGGCCGTTTGAATCGGAATGATCGAGCCGATAGCGAGAGCTGCGAGGATGGCGAGCATGACGGTGAGGTTACCCCGAATCGACCGATTTCCCAGCCCCCACCCAGCGGCTTAGAACATTCTGTCGAGGTCCTGTGA	MADENCCRDDGNEKRDREGNQRRDDGEPSHAQAQSRIGGRLNRNDRADSESCEDGEHDGEVTPNRPISQPPPSGLEHSVEVL				NA	NA	NA	NA	NA
AK009_06937	669			hypothetical protein	GTGATGTTCGTGATGGGCAACATTCTGCTGTTTCCCCGCATCGGGGCGGTGGCCACGGTGGTGCTGCCGATCCTCGGGCAGGTAGTGATGGGCCTGACCATCGACCAGTTCGGGTTGTTCCGTGCGCCTCAGCTCGACGTCGGGTTAGGGCGGATTCTGGGTGCGATCGTGGTCGTGGTGGGGATTGCGCTTGTGGTGGGCGTCGGCAAGCAAGGCGCGGTGGTGAGCGGTTCGTGGGCGTGGCGCGCGGTTGGGGTGGGGATTGGTATGGCCTCGGCGGCGCAGACGACGATCAACGGGCACCTGGGCACGGTCGCGGGGTCGTCGCTGCATGCTGCGGAGATCAACCTTGCCGTCGGGGCGCTGCTGCTGTTCGCCATTGCGCTGGTGACATCGCCGCGGCAGCTGGTCACGCGGCCTGAGCCGGGGCCGTGGTGGATGTGGTCCGGCGGTGTGATCGGCGCGATCTTTGTCGCAGGTGGTGCGACGCTTGCCCCGGTGCTGGGCACGGCGACGACAGTGATTGGGATCAACGCAGGCACGATCGCGGGCGGCCAGGTGATTGAGTCGATGGGGTGGTTTGGGGCGAAGCGGCTGCGTGTCGACCCCCTGCGCGCGGTGGGGCTGGTGCTCATTTTCGCGGGCGTGGTCGCGGTGCGCACTCTCTAA	MMFVMGNILLFPRIGAVATVVLPILGQVVMGLTIDQFGLFRAPQLDVGLGRILGAIVVVVGIALVVGVGKQGAVVSGSWAWRAVGVGIGMASAAQTTINGHLGTVAGSSLHAAEINLAVGALLLFAIALVTSPRQLVTRPEPGPWWMWSGGVIGAIFVAGGATLAPVLGTATTVIGINAGTIAGGQVIESMGWFGAKRLRVDPLRAVGLVLIFAGVVAVRTL	PGPT0009795_457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK009_06938	303			hypothetical protein	ATGACTACGACACTCGCCGCCACCACGTCCGCCGTCATCGACATTGACGGGATGCCCGCGCGCCTGCGGGGGGACGTCGAGAAGCTATTGTGCGAACTGCCCCAGGACCGAGCCGACTATTCGCTTTTCGACGTCTGGGACACAGCCTGGTTCACCCGCTGGCACCGCAACCCCGACGGCACGATCGGCTGCCGCGAACTGGTGTACGCCCCCGCTGCGGACCTGGCGCGCTTCCGCGAAAACCTCGCTGATCTTGCGCAACGCGCAGGATTCGCGGCGCAGCTCACAACCCGTGTCGCATAG	MTTTLAATTSAVIDIDGMPARLRGDVEKLLCELPQDRADYSLFDVWDTAWFTRWHRNPDGTIGCRELVYAPAADLARFRENLADLAQRAGFAAQLTTRVA				NA	NA	NA	NA	NA
AK009_06939	336			hypothetical protein	GTGGTCTGCGTAGTAGCCGAAGATGTCGACGACGTCGTCGACCTCGTTGTCGCCCTCGCGCAGGGACTTGCCCATCTCCTCGGCGATGATCTTCGAAAGCTCGTCGCGTTGGGCGTCGAAAAGCGAGGCGACCTTGCGCAGGACCGCCGCGCGCTCCTCGAGCGGCGTCTCGCGCCACGTGCTAAACGCCTCGTCGGCTGTGGTGAGGGCGCGCTCGAGGTCGGCGTCGCTGATGGTCTCGAAGGTCTCGACGACCTTGTTGGTTTTCGGATTTTGAACTCGGTAAGTACTTGTCATGGTTCCCATAGTAGGGAAACTATGCGACACGGGTTGTGA	MVCVVAEDVDDVVDLVVALAQGLAHLLGDDLRKLVALGVEKRGDLAQDRRALLERRLAPRAKRLVGCGEGALEVGVADGLEGLDDLVGFRILNSVSTCHGSHSRETMRHGL				NA	NA	NA	NA	NA
AK009_06940	243			hypothetical protein	GTGGGAGGCGTACACGTTGGTGAACACGCCCGCGGGAGCGCCGGCTTCCTCGAGGATCTCCTGGATCTTCTGGGACGAGCGCGCGCAGATCTCGGCGTGCTTGAGCAGCACGGTGTTGCCGGCCATAAGGGTAGGCGCGGCAAAGCGCGCGACCTGGTAGTACGGGTAATTCCACGGCATCACGCCGACGATGACACCCAGCGGTACCTTGCGCATCACGGCGGAACCGCCCTCGGTCTCTAG	MGGVHVGEHARGSAGFLEDLLDLLGRARADLGVLEQHGVAGHKGRRGKARDLVVRVIPRHHADDDTQRYLAHHGGTALGL				NA	NA	NA	NA	NA
AK009_06941	375			hypothetical protein	GTGGATCATGCCGGTAACCACCTGGTTGGCCACGCGCTTTGCACGCTCCTCGTCGGTGGAGAAGACCGCACCGCCGAGGCCGTACTGGGAGTCGTTGGCAAGTTTGATGGCCTCCTCCTCATCGGCCACGGAGTAGATCTCTGCCACGGGGCCGAAGAACTCCTCGTAGTAAGCTTCGGAGCCGACGGGAATGCCGGTGATGACTGCCGGGGAGTAGTAAGCGCTGCCCTCGGCCAGCTCGCCGCCGGTGTGCAGGGTCGCGCCTTCCTCGACGGCTTTCTTCACCTGCTCGTCGAGGGTCTCCGCGGCGTCACGCGAGGACATCGGATAGTACTCGCCCTTCTGCGGGTTCATCGGATCGCCTTGGTCGAATGA	MDHAGNHLVGHALCTLLVGGEDRTAEAVLGVVGKFDGLLLIGHGVDLCHGAEELLVVSFGADGNAGDDCRGVVSAALGQLAAGVQGRAFLDGFLHLLVEGLRGVTRGHRIVLALLRVHRIALVE				NA	NA	NA	NA	NA
AK009_06942	285			hypothetical protein	ATGAAGCTTTCGCAACGGCTGGACTTGGGCGCACTGAACCTCGAGGCGGAGGAGCCGACCGACCGCAGCCTCGAGGCGCGGCTGATCGACCTCGTTTCCCGCATCACCGGCGACGAAGTCGACCCCGCAAAGACGCTCGCCGAGCTGGGCATCAGCTCACTCGACCGGATCGAGCTTGCGGTGCGCGCGGAGGAGGAGTTCGGCGTGCTTGTCGACGACTCCCTCTACACAGATTCCCTCACAGTCAACGAATTGGCCGCCAGTCTCGCTCAGGCGTCCGAGTGA	MKLSQRLDLGALNLEAEEPTDRSLEARLIDLVSRITGDEVDPAKTLAELGISSLDRIELAVRAEEEFGVLVDDSLYTDSLTVNELAASLAQASE	PGPT0011375_850	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK009_06943	243			hypothetical protein	TTGCATGTAGAACGACTCGGAGGAGATGTTGAAACCGTGGACGTAGAGCACGGTCAGCTCCGCGTCTTCGGGGCCGCGGTCGTAGTAGCGCACATTCACGTCGCCGTTTTCGACCGTCCCAGTGCGGTCATACTGCAGGCCAATATGAGAGATGCCGCAGTGGAGGCGGTGCCGAGAAGCAAGGAGTGTGCGCGCCGCTGCGAACCGTTGGTGCATGTTGCCAGTGTATATATGGGTGCATGA	MHVERLGGDVETVDVEHGQLRVFGAAVVVAHIHVAVFDRPSAVILQANMRDAAVEAVPRSKECARRCEPLVHVASVYMGA				NA	NA	NA	NA	NA
AK009_06944	336			hypothetical protein	ATGTCCGCTTTCGGGCAGCACCTGGACGTGCGCACGGGGCCAGATGTCGTGGAGGCGCTCGGACTGGGAGACCGGCGCGACGGTATCGCGCTCCCCCACCAGGATGTAGCCGGGAATGTCCGCGAGGACTGCCGCGGCGTCGAGCTCGGAGTGCTCAAGCAAGTCGTCGAAGAAGCCAGCGTAGGTGGCCAGGGGCGTCTTCTGAATCATGTCGGCATGGAAACGCACGAGGTCAAAATCCATGGGGCGGAAGTAAAACCCCAAGGCCAGGAACGGAGCGATCATGCTGGTAACAGCCTTCCTGATACCCTCCGCAAAGCCTGGAGTGTGGTCTAG	MSAFGQHLDVRTGPDVVEALGLGDRRDGIALPHQDVAGNVREDCRGVELGVLKQVVEEASVGGQGRLLNHVGMETHEVKIHGAEVKPQGQERSDHAGNSLPDTLRKAWSVV				NA	NA	NA	NA	NA
AK009_06945	627			hypothetical protein	GTGGTGGGTATATTTTTCACGTTCCCACTCGTGGTGCTGATCTTCGTCCTAGGTGCGGCGATGGAGCGCTACAGCGTCAAGGAAGTTCCCATTTCACGTTTGCTTGTACCGTCGGGGCTTTCACTGGGCGCGGGGATCTTGGTCAGCTTAGCTTTAGGTGTCTTTTCTCGCCTCGCCTCCAGTCAGGCTCAGTGGCTCATTACTCCATTGGGCAGCACCGTACTGGGGCTCGGGATGCTCGGGCTCTGCGTCATCGCCGGCGTCCTCGGGTGGAAGTACGCAGACGGTGGGCGCCGCTGGTCTCTCGCGGGTGCGATCGCGGCCAGTGTGACTTTCGGTGCGAACGCTGCGTTATTGCCCACACTGAACGATCAGACGCGGGGCCTAAGCGGCGCGGAAGCCGCCGGAGCTGGGCTCTGGATTTTCTTTCTTGTGCTCCCTCCCACACTTCTGATGCTGCCGCTGGTATCGTTCGCTGCCGCGGAAAGTGCCATTCGCATTCGTCGCTCCCACTCGACCTCGGTGGCACAGCCGGTACGGAAAGAGTCTAAGGCGGCTTCTGATCTAGCTGAGCAACCGGTCGACGAGCCGGATGATGGCCGTACTCACGGCACCGGGAGCGTCTAG	MVGIFFTFPLVVLIFVLGAAMERYSVKEVPISRLLVPSGLSLGAGILVSLALGVFSRLASSQAQWLITPLGSTVLGLGMLGLCVIAGVLGWKYADGGRRWSLAGAIAASVTFGANAALLPTLNDQTRGLSGAEAAGAGLWIFFLVLPPTLLMLPLVSFAAAESAIRIRRSHSTSVAQPVRKESKAASDLAEQPVDEPDDGRTHGTGSV				NA	NA	NA	NA	NA
AK009_06946	525			hypothetical protein	ATGAGTAGTGAGGTCTACGTCGCTCTCACCCTCGTCCCGATGGTGCTAGCGGGAATTGCCTTGGTGTTCGCGTTCCTGCGCTACTCCAAAATGGGCGGCGATCTCAAACTCCTCGGGATCTCCATCGCGGTTTCCGCGTTGATCGCGGGGGCGGTGCTGTATTACCTCGCCGCCGTGAGTGATATGTTCGCGTCGGAAGTGCTTTTCGTGTTCGCGCTCGTCGGAGCTGGCGCATCGGCCATTCTCGGCTGGTTCTTTACTAGCGCGGGCAGGACCTGGTCCCTGGCGTTGGCGATCGCGGCGTCAACGATGCTGGGCTCGGCTCTTGGAGCTTCTTTGAAGCTAAGCCAGACATACGGGAGTACGCCGACCCCGGAGACCGTAGGACCGGAGCTCTCTGTGTGGTTCGTAGTCATTCCCGCGATCGTGTTCTGGGTTCCGCTTGCGTCCTTCTTTGCGGCCGCGATCGCCGCTCTGTGGCGGGATTCCCGTGAAAAATCGACGGTTGCGGAGGGTTCTGTCTAG	MSSEVYVALTLVPMVLAGIALVFAFLRYSKMGGDLKLLGISIAVSALIAGAVLYYLAAVSDMFASEVLFVFALVGAGASAILGWFFTSAGRTWSLALAIAASTMLGSALGASLKLSQTYGSTPTPETVGPELSVWFVVIPAIVFWVPLASFFAAAIAALWRDSREKSTVAEGSV				NA	NA	NA	NA	NA
AK009_06947	1893			hypothetical protein	GTGCAGGTCCTTGGCGGCCTGCGCGGCAACCGACATGTCGATCTTGCCTTCGTTGGCCAGGCCCATCAGTGCAGCGACGACCATCGACTCGGCATCGATGTTGAAGTAGCGTCGCGCCGCCTCGCGGGTGTCGGAGAAACCGAAGCCGTCGGCACCGAGCACGATGTACTGGCCAGGGACGTACGGGCGGATCTGCTCCTGCAGCGCCGTGGTGAAGTCGGAGGTGGCGACGTAGGGCCCCTCGGTCTGCTTGAGCGCAGTGGTGGCGAAGGGCTCGCCGACGTCCTCGCCCGGGTGCAGCAACTGCTGCTTGGCAAGCGCCGCCCCGTCCCGGGCGAGCTCGACCCAGGAGGTGACGGAGTAGACGGCCGCGCCGACGTCGTAACGCTCCTGCAAAATTTCCTGCGCCCGCAGCGCCTGCTGCATACCGACGCCCGAGGCGAGCAGCGAGACACGGTTGGTCTTCTCCGCACCGCGATCAAACAGGTAGATGCCCTTGTGCAGCCCGTCGACATCGAGGTCGTCCGGACGCGCGGGCTGGTGCGTCGGCTGGTTGTACACGGTGATGTAGTACATGACGTTCTCGCCGCCGTCGGGCCCGTACATGCGCTCGATGCCCTTGGTGATGAGGTAGGGCATCTCGTAGGCGAACGCCGGGTCGTAGCAGGCAACCGCGGGGTTGGTCGACGCGAGCACGTGCGAGTGGCCGTCCATGTGCTGCAGGCCCTCGCCAAACAGCGTGGTGCGACCAGCGGTGGCGCCGATGATGAAACCGCGCGCGTGCTGGTCGCCGGCGGCCCAGAAGTTATCGCCCGTGCGCTGGAAGCCGAACATGGAGTAGAAGATGTACATTGGGATCATCGGCTCGCCGTGCGTCGCGTACGACGTGCCGGCCGCGATGAAGGACGCGGAGGAGCCGTCCTCGTTGATGCCTTCGTGCAGGATCTGGCCGTCGGTGGCCTCGCGGTAGGACAGCTGCAGGTCGTGGTCGACCGGGGTGTAGTTCTGGCCCACCGGGTTGTAGATCTTCAGCGTCGGGAACCACGAGTCGAGGCCGAAGGTCCGGGCCTCGTCCGGGATGATCGGCACGAGGCGCTTGCCCAGCTCCTTATCGCGGGTCAGCGCCTTAAACGTGCGCACCAGCGCCATGGTCGAAGCAACCTGCTGCTTGCCGGAATCCTTGAAGCTGGCCTTGAACGTCTTCTCGAAGTCGGGCAGCTCAAGCGGGGTGTACGTCGTGCGGCGCTGCGGCAGGAACCCGCCGAGCTCCTCGCGGCGCTTCTTCAGGTACTTGATCTCGTCCGCATCCTCACCCGGGTGGTAGTAAGGCGGCAGGTAGGGGTCGCGCTCAAGATCCTCATCAGAAATCGGGATCTGCTGGGTGTCGCGGAAGAGCTTCAGGTCATCGAGCGTCAGGCTCTTCATCTGGTGGGTGGCGTTGCGGCCCTCGAAGCTGTGGCCGAGTCCGTAGCCCTTCACCGTGTGGGCCAGGATCACCGTCGGCTTGCCCTTGGTTTCCATCGCGCGCTTGTAGGCTGCGTAGACCTTGCGGTAGTCGTGGCCGCCGCGGCGCAGCGCCCAGATCTCGTCGTCCGTCATGTCCCCGACCAGCTTCGCGGTGCGCGGGTCGCGCCCGAAGAAGTGCTCGCGCACGTAGGCGCCGTCGTTGGCCTTGAACGTCTGGAAGTCGCCGTCGCGCGTGGAGTTCATGAGGTTGACCAGCGCGCCGTCCTCGTCCTTTTCAAACAGCGGGTCCCACTCGCGGCCCCAGGCAATCTTGATTACGTTCCATCCGGCGCCGATAAAGAAGGCCTCGAGCTCCTGGATGATCTGCCCGTTACCGCGCACGGGGCCGTCGAGACGCTGCAGGTTGCAGTTGATTACGAACGTTAG	MQVLGGLRGNRHVDLAFVGQAHQCSDDHRLGIDVEVASRRLAGVGETEAVGTEHDVLARDVRADLLLQRRGEVGGGDVGPLGLLERSGGEGLADVLARVQQLLLGKRRPVPGELDPGGDGVDGRADVVTLLQNFLRPQRLLHTDARGEQRDTVGLLRTAIKQVDALVQPVDIEVVRTRGLVRRLVVHGDVVHDVLAAVGPVHALDALGDEVGHLVGERRVVAGNRGVGRREHVRVAVHVLQALAKQRGATSGGADDETARVLVAGGPEVIARALEAEHGVEDVHWDHRLAVRRVRRAGRDEGRGGAVLVDAFVQDLAVGGLAVGQLQVVVDRGVVLAHRVVDLQRREPRVEAEGPGLVRDDRHEALAQLLIAGQRLKRAHQRHGRSNLLLAGILEAGLERLLEVGQLKRGVRRAALRQEPAELLAALLQVLDLVRILTRVVVRRQVGVALKILIRNRDLLGVAEELQVIERQALHLVGGVAALEAVAESVALHRVGQDHRRLALGFHRALVGCVDLAVVVAAAAQRPDLVVRHVPDQLRGARVAPEEVLAHVGAVVGLERLEVAVARGVHEVDQRAVLVLFKQRVPLAAPGNLDYVPSGADKEGLELLDDLPVTAHGAVETLQVAVDYER				NA	NA	NA	NA	NA
AK009_06948	708			hypothetical protein	GTGCTGCTCGCTGGTGTCCTTGATCCCGCGATCCTGCAGATACTTGTTGAATCGCGCCTGGTAGATCGCGTTCATCGGGCCGAGGCCCATGGACACGGTCGGGAATTCCCAGAACTCCGGCATGCCGTGGGGGTGCGGGTAGGCGGGCAGGCCGCCCTGCGGGCGGGAGTGCTCCTGGCGGAACCCGTCGAGGTCGTCTTCGCTCAGGCGGCCTTCGAGGAACGCGCGGGCGTAGATGCCGGGGGAGGCGTGGCCCTGGATGAAGATCTGGTCACCGCCGCCGGGGGCGTCCTTGCCGCGGAAGAAGTGGTTGAAGCCGACCTCGTAGAGCGCGGCCGCGGAGGCGTAGGTGGAGATGTGGCCACCCACCTTGATGCCCGGGCGCTGCGCGCGGTGCACCATGATCGCGGCGTTCCAGCGCATCCAGCGGCGGTAGCGCTTCTCCACCTTCTCATCACCGGGGAACTCCGGCTCGAGCTCGGTCGGAATGGTGTTGACGAAGTCCGTCGACGACAGCGCGGGCAGCGGCACGCGCTTGGCGGACGCGCGCTCCAAAAGGCGCAGCATGAGGTAGCGCGCACGTTCGGGGGAGGAGGACTCCAACAGCCCATCGAAGGAGTCCATCCACTCCTTCGTTTCCTCTGGGTCGTGATCGTGCAGGTACGAGGCGACTCCCTCGCGGATCAGTTCGATGTTCGAGTTGCTTGA	MLLAGVLDPAILQILVESRLVDRVHRAEAHGHGREFPELRHAVGVRVGGQAALRAGVLLAEPVEVVFAQAAFEERAGVDAGGGVALDEDLVTAAGGVLAAEEVVEADLVERGRGGVGGDVATHLDARALRAVHHDRGVPAHPAAVALLHLLITGELRLELGRNGVDEVRRRQRGQRHALGGRALQKAQHEVARTFGGGGLQQPIEGVHPLLRFLWVVIVQVRGDSLADQFDVRVA				NA	NA	NA	NA	NA
AK009_06949	411			putative protein	GTGGGCGCCCCTGGTGCTGTCAGTTACGCGGAACAGCTTGGAATTAGCGGCGATGTCATCGTCCAAGAAATCGGTTGGGACGAGGACGCCGACACAACTATCTCCGAGGACATCGAAGACGCCATCGGGCAGCCGCTTCTCGACGAGGACACCGACGAGCTGTGCGATGTCGTGCTTCTCTGGTTCCGCGCCTCAGACGGCGACCTCGTCGACTCGCTTGTCGACGCCGCCCGCAACCTCACCACCGGCGGCAAGATCTGGCTGCTCACCCCGGCTCCCCGCACACCCGGCGGCGTGCAGCCCGGCGAGGTGTCCGAGTCCGCCCAGCTTGCGGGCCTGGTGCAGACCAAGTCTGACCGCTTCGGCGACTGGCAGGGCGCCTGCCTCACCGGCGCGAGCATCAAGAAGTAG	MGAPGAVSYAEQLGISGDVIVQEIGWDEDADTTISEDIEDAIGQPLLDEDTDELCDVVLLWFRASDGDLVDSLVDAARNLTTGGKIWLLTPAPRTPGGVQPGEVSESAQLAGLVQTKSDRFGDWQGACLTGASIKK				NA	NA	NA	NA	NA
AK009_06951	480			hypothetical protein	ATGTTCAAAATGCACAATTGTACGATTCCGCTGGCGGCGGCTTCAGCAATGGTCCTATCCGGATGCTCGAACGACATGGGACCAATGCAAGCTGATTCCGATCAGGTCACTGCCTCAGGAGGCAGTCCGGCACCTGAGGTTGCAGGTCGGGGTCCAGAAGATCCGATCCTTGGGACCGGTTCTGCAGACGGGCTCTGCGACGAATCGGTTGTGAAAATCGATCGCGGAAGGCCTACTGCAGACATTACGTACGTGGGGCAACCGGGAGATCGGGTGGAAATCACGTTAAAGAGAACCGCTGAATCGGAACCTCCTGTTGTTCAAAGTTTTGAAATGTCGCGCATGCAAACCGAGATGCAGCTGCCTACGGGTGTTCCCAACGAGACCATATCCGAATTACCGTCAAGGCTGATGGTCGAGTCGGTCAATCAAGAGAGTGCAGAATCGACGTTAGTTAGAGACAGGATGGATCGTCGGTGA	MFKMHNCTIPLAAASAMVLSGCSNDMGPMQADSDQVTASGGSPAPEVAGRGPEDPILGTGSADGLCDESVVKIDRGRPTADITYVGQPGDRVEITLKRTAESEPPVVQSFEMSRMQTEMQLPTGVPNETISELPSRLMVESVNQESAESTLVRDRMDRR				NA	NA	NA	NA	NA
AK009_06952	354			hypothetical protein	GTGGTCAAACGTCACGGCGGTCACGCCCGAGGGCACGATCGCGGCGATGAGGTCGAGCTCGGGACTTTCGTTAGTCAGGTCGTAGTCCATGTCGACAACGTCCCACTGCCCGACGCGCAGCCGTACGGATCCGGAGGTGTCGGAGCCAGGGTCTGCAAAGGCGACGCATTCCACAAGCTGCGTCCCGGCGGCGCTGCACAATTGCTCTGCGCACGTCTCAAGCTGGGCAAGTGTGGTGCGCGGCTCAGCGCAGGTATCGCACCAGACGTTGTCGAACAGCGGGGTGTCCTCCGGATCGCGGAGCCCGATGAGGGTGGCCAGGGGGCGGATGCGGAACGACCCCAGCTCGTCTAA	MVKRHGGHARGHDRGDEVELGTFVSQVVVHVDNVPLPDAQPYGSGGVGARVCKGDAFHKLRPGGAAQLLCARLKLGKCGARLSAGIAPDVVEQRGVLRIAEPDEGGQGADAERPQLV				NA	NA	NA	NA	NA
AK009_06953	375			hypothetical protein	TTGCTCCCTATCGTAAGCCGAGGCCCAGGGGTTGCGCTTGGTGTGGCCGTAGCGCCCGCGCGGGGCGGGGGTGGACGCGGTGGTGGGGGCGTCGACAAGCAGCTCTTCTTGCTCCTGCTTGAAGCGCCGCCGCTCGCGCACCTCGGCCCACAGAAAGTAAATCAGGCCCGCCGGGGCCATGATGCCGAAGGCGATCCACTGCAGGCCGTAGGAGAGGTGGTTGCCGGTTTCCAGCATCGGCAGCGGGATGGGTTCAAGCACGCCGGACTCACCGGGGGAGAGCTGCAGGTACGACGGCGCGAGGTCGGCACCCGTGATCTCGGAGGCCTGCGCGGAGCTGATGGAGTACACCATCGCGTGGCCCTGGTCGAGTAA	MLPIVSRGPGVALGVAVAPARGGGGRGGGGVDKQLFLLLLEAPPLAHLGPQKVNQARRGHDAEGDPLQAVGEVVAGFQHRQRDGFKHAGLTGGELQVRRREVGTRDLGGLRGADGVHHRVALVE				NA	NA	NA	NA	NA
AK009_06954	477			hypothetical protein	GTGCGGGCCTTCGTCGAGACGCAAAAGCCCCGTGATGGTGACCTGGCTGGTGGGGGCGGGGTCGATGGGAGGCACGGTGGTGCCGCCGTCGGTGGCGGGGACCCAGCCGCGGTTGACCAGCATGGTTGGGCCGTTATCGATGCGAAACGGGGTGAGCACCTGGAAGGCGGGGGTTTTATCCACCGGACGCAGGCGCAGCAGAACCTCGTCCTCGGGTACGTAGCGGCCGGTCATGGTCACGCGCGACCACTCGTCTGCGGGCGCGACCTCGCCATCGGGGGCGACAGCCGAGTACGGGACCGGATCGTTGTCGAAGGCCTCGACGATGTGCTCGTTGCGCTCGACGAGGCGCTCGTTTTTGCCGAGCTGCCAGGGCGCGAGGAAGGTAAACGCGAAGTAGGAGAACAGCGCGATCAAAATAGCCGCGATCGCCCAACCGGGGGTGAGAAAAGTCTTCCTCATAGGCACCTAGTCTAG	MRAFVETQKPRDGDLAGGGGVDGRHGGAAVGGGDPAAVDQHGWAVIDAKRGEHLEGGGFIHRTQAQQNLVLGYVAAGHGHARPLVCGRDLAIGGDSRVRDRIVVEGLDDVLVALDEALVFAELPGREEGKREVGEQRDQNSRDRPTGGEKSLPHRHLV				NA	NA	NA	NA	NA
AK009_06955	480	ptpA	COG0394	putative low molecular weight protein-tyrosine-phosphatase	ATGGCTTCTGACCCACTCCACATCGACTTCGTCTGCACCGGCAACATCTGCCGCTCCCCAATGGCGGAGGTGATCGTGCGCGACAAGCTTGAACGGACCGGGCTCGGCGACCGGGTCCGCGTCAGCTCCTCGGGCATCGGCGGATGGCACGTGGGCAACCCCGCGGACGAGCGCGCGCTGCAGGAACTCGAGGCCAACGGCTACGACGGCTCCCGCCACCGCGCCCAGCAGTTCGGCGCCGCGCAGCAGGGGGCGGACCTGCTTATCGCGCTCGACCCGCGCCACGTCTCTGAACTGGTCGCCAGCGGAGTGGACGAGGACAAAATCCGCCTGATCCGCTCCTTCGACCCCGCCTCGCCCGAAGGCGCCGGCGTCGAGGACCCGTACTACGGCGGCATGGAGGGCTTCACCACCACGCGCGAGCAGATCGAGGCCAGCGCCGACGGCATTATCGAATGGGTGCGCGACCAGCTAGACTAG	MASDPLHIDFVCTGNICRSPMAEVIVRDKLERTGLGDRVRVSSSGIGGWHVGNPADERALQELEANGYDGSRHRAQQFGAAQQGADLLIALDPRHVSELVASGVDEDKIRLIRSFDPASPEGAGVEDPYYGGMEGFTTTREQIEASADGIIEWVRDQLD	PGPT0014530_5342	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
AK009_06956	384		COG0546	putative protein	GTGTTCGATGGCATGGCTGAGCTCGTTGCCGAGTGGAAGGCCGAGGGTTACGAGGTGGTCACGGCGACGTCGAAAGGCGAAGGCTTCGCGCGCAAGGCGCTTAAGCGCGCCGGAATCTACCAACACATCGACTTCCTCGGAGCCGCGCAGGAGCACGGCCCACGCAAGCGCAAAGTCGATGTGATCGAATACGTGCTGGATCACGTCTCACCCGAAAAACCGCTGATGATCGGGGACCGCCACCACGACTTCGAGGGGGCAGCGCACTTCGATATTGCCTCCGTGGCCGTCACTTGGGGCTACGCTGATGCCCGAGAGTACGACCTTGCCACCTACATCGCCCACACCGCGGAAGAGTTAAAGGACATTATCAATGGCTTCTGA	MFDGMAELVAEWKAEGYEVVTATSKGEGFARKALKRAGIYQHIDFLGAAQEHGPRKRKVDVIEYVLDHVSPEKPLMIGDRHHDFEGAAHFDIASVAVTWGYADAREYDLATYIAHTAEELKDIINGF	PGPT0001730_7115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK009_06957	2046			hypothetical protein	TTGCGGCAGTGTGATGAAGCAGGAGTTGCAGGTGCGGCCGTTGAAGGCGGCCGCCCCGACGTCGTCGTAAAGCGAGAGCAGCTCGGCGGGGAGCTGGCCGCGCAGCGCGTCGGTATCGACAACCTCGCGCGGGGGAAGCGCGTCGACGGCACGGCGGGCGGCCTCGACCTTGCGGTCCATCTCGTCGAGGCGAGCGCCGTGGATGTCGCGGTTGTTGCGCAGCGCCTTGACCTCACCGTGGGCCTCCTTGAGCTCGTAGTACAGATCGGCCAGGCGGGATTTCGCCGCGTAGCGGTCGTGCTCGAGGTCCTTGCGGCGCTCCGGGTCGGTCTCTGCGGTGAGCTGGCGCTTGTTGTCCAGGTCGCGCTTCTTCAGCTTGCGCTCGTCCTCCTGGATGCGCAGGATGTCCAGCTCAAGGTCGTCCACCGCCATCTGCGCCGCGGCCGCGGCGGAGGCGAGGCGCTCACGTTGCGTGGTGAGGTCGGCGAGCTCCTTCTCCTCCGCACTCAGGCGCGTGGGGTGGCGCTGGGCGCGGTCGGCGTCGGCAAGCTCGAGCAGCACCATCTGCTTGTCGGGAGAGAGGTTCACGAATGTAGCCCTTCTTTCTTAAGTTCGCGGGTGGGCGGAGACGGTCCACGGGTCCGTGCGGATGGGGATGATCTCGGTGTTAACGTCCAAAGTGTCAACGATACCTTTCGCCTGGGTCGTCCACGGAAACTCCGAGGCCCAGTGCGCTGTATCGATCACCGCTGGCCCGCCGGCGCGCAGGTGCTCGTCCACCGGGTGGTGGCGCAGGTCCGAGGTGACGTAGACGTCGACGCCGAGCGCTGCGACATCAGAAAGGAAGCCGTCGCCGGAGCCGGAGGACACCGCCACCGTGCGCATCATCTGCTCCGGGTCGCCCGCGGCGCGCACGCCCCAGGCGGTTTCCGGAAGCGCGTCGGCGACCTGCTGTGTGAACTCACGAAGCGTAATCGGCTCGGGCAGGGTGCCCACCCGGCCCAGGCCGGGGGCGCGGTCCAGCGGGGTGTCGTCGGCGATTGCCACGATGTCGAAGGCGGGTTCTTCGTAGGGGTGGGCGTTGCGCAGGGCGTCGATAAGCGAGGTGCGCAAGCGCGAGGGCGCGACGAACTCGACTTTGACCTCGGGGGCCGAGTAGTGCTGACCGACCGTGCCTTCGGTCGGGTTGGCGCCGGCGCGGGGGATGAACCCGCCGGTGCCGTCGATACGGAAGGAGCAGCGCTCGTAGTCGCCGATCGCCCCGGCGCCGGCTGCGAACATCGCGTCCATGACACTGTCCGCGTGCTCCGGTGGCACGTTGACGCCCCACTTGTCCACTCTGCCGCGCCGAATCGGCTTGATCGGGCGGCCCGGGGTGATGCCGACGAGCTCGGCGAGCAGGTCGGACACGCCCGGGCGCGCCGAATCCGCGTTGGTGTGCGCCGCGAAGAGCGCGACCCCGCCGCGCAGCAGCGTGTGGATGACCTTGCCCTTCGGGGTGTTCGCGGCCACCGAGGACACCCCGCGCAGCAACAGGGGGTGGTGCACGACGAGCATCTGCGCGCCGATCTCCACCGCGCGCTGCGCCACCTCGAGGGTGCAGTCGAGGGCGAAGGCGACATTGGACACCTCGTCGTCAGGGTCGCCGCAGATCAGCCCCACCTTGTCCCAGTCCTCGGCCAGCGCCGGCGGGTACGCCGCCTCCAGCGCTGCTACAACATCGGCCACCGTCGTTTTGCTCATGCGTCCAGCCTACAAAGCTGCCATGCTTTAAGGCATGCGCACCACTTTGCTTCTCGACGTCGACGGCACCCTCATCGACTCCTACCCCGGCATCCGCACGGGCTTCCTCATCGGCCTCGACGCGGTTGGCTTCGAGCACCCCGGCGAGGAGTTCATCCGGCGCATCCCCGGCCCGCCGATGACGGAGACGTACGCCAGTCTCGGGATGACCCCGGAGCAGAACACGCGCGCCATGGCGGCGTACTCCGACTACATGGCGGGCGACGGGTGGAGCAACTTCACTGTGTTCGATGGCATGGCTGA	MRQCDEAGVAGAAVEGGRPDVVVKREQLGGELAAQRVGIDNLARGKRVDGTAGGLDLAVHLVEASAVDVAVVAQRLDLTVGLLELVVQIGQAGFRRVAVVLEVLAALRVGLCGELALVVQVALLQLALVLLDAQDVQLKVVHRHLRRGRGGGEALTLRGEVGELLLLRTQARGVALGAVGVGKLEQHHLLVGREVHECSPSFLSSRVGGDGPRVRADGDDLGVNVQSVNDTFRLGRPRKLRGPVRCIDHRWPAGAQVLVHRVVAQVRGDVDVDAERCDIRKEAVAGAGGHRHRAHHLLRVARGAHAPGGFRKRVGDLLCELTKRNRLGQGAHPAQAGGAVQRGVVGDCHDVEGGFFVGVGVAQGVDKRGAQARGRDELDFDLGGRVVLTDRAFGRVGAGAGDEPAGAVDTEGAALVVADRPGAGCEHRVHDTVRVLRWHVDAPLVHSAAPNRLDRAARGDADELGEQVGHARARRIRVGVRREERDPAAQQRVDDLALRGVRGHRGHPAQQQGVVHDEHLRADLHRALRHLEGAVEGEGDIGHLVVRVAADQPHLVPVLGQRRRVRRLQRCYNIGHRRFAHASSLQSCHALRHAHHFASRRRRHPHRLLPRHPHGLPHRPRRGWLRAPRRGVHPAHPRPADDGDVRQSRDDPGAEHARHGGVLRLHGGRRVEQLHCVRWHG				NA	NA	NA	NA	NA
AK009_06958	768			hypothetical protein	TTGCCGGGCGCGGGTTTGCGGGGAGGTGACAATGAGGTCGACCCCGCCAAGCGCGGTTACGGCGCGAGCGGCGCGCTGGGCCTGCTCGTGTCCGATGTCGGTGAGCTCCGGATCGGAGGAGCCGGAGTACAGACGGGCCGCGGAGTGCGCGGTCTGGCCGTGGCGCAGCAGGATAAACCGGGTGCGTGGCGCGTTCGTGCCCGACCAGTGCGCGGGGCTGGCGACCTCGTGCTGCGCGCTGGCCTCCTTTTTCGCCCCGACGATGCCCGGCTTCGCCCCGGCGGCAGCGGCGTCCATGGCCACGTTGGACAGCTCGTCGGCCTTTTTGTTCTTCGCGCGCGGCACCCAGGTGTAGGTCACCGACGCAAACCCGGCGGCCAGCGATCGGGCCTGGCGGGCGAGATCGGCCATGTCGGGATGCTTGATTTTCCAGCGCCCAGACATCTGCTCGACCACGAGCTTGGAGTCCATAAAGACCTCCACCTCGGTAGCGCCGAACTCTCGCGCGGCCTCCAGACCGCGCAGCAGACCGTGGTATTCGGCGACGTTGTTGGAGGATTTCTGCCCGACAACGTAAGCCACCTCCGCGAGCGTCTCGCCACCCGAGCCGTAAACAACAGACCCGGACCCGGCCACGCCGGGGTTACCGCGCGAGCCGCCGTCGGTGTACACGCTGACCTTCATCGCTTACTCCCCCGCCGGCGAGACGCGCACGAGCAGCGTGCCGCAGTTGGGGCACAGCGGCACCTCGTCGGCGTCAGCGCTTAA	MPGAGLRGGDNEVDPAKRGYGASGALGLLVSDVGELRIGGAGVQTGRGVRGLAVAQQDKPGAWRVRARPVRGAGDLVLRAGLLFRPDDARLRPGGSGVHGHVGQLVGLFVLRARHPGVGHRRKPGGQRSGLAGEIGHVGMLDFPAPRHLLDHELGVHKDLHLGSAELSRGLQTAQQTVVFGDVVGGFLPDNVSHLRERLATRAVNNRPGPGHAGVTARAAVGVHADLHRLLPRRRDAHEQRAAVGAQRHLVGVSA				NA	NA	NA	NA	NA
AK009_06959	204			hypothetical protein	GTGGCAGGCGTCGTCAAGCAATGCTCCCCCCGGCGGGGAATCACTCACCGCGCTGCATCGACGCATCACGAGGGCGCGCCTGGCGCTGCAGGAGAGGCACGAAGGTGCGACGATTCTGGTGGTCACGCACATGACGCCGATCAAGTCGATTATCCGCCAGGCACTCGGTGTGGGCGCGGAGGCGTTCAAGCACATCTATCTTGA	MAGVVKQCSPRRGITHRAASTHHEGAPGAAGEARRCDDSGGHAHDADQVDYPPGTRCGRGGVQAHLS				NA	NA	NA	NA	NA
AK009_06961	291			hypothetical protein	GTGCTCGGCGTACTTGGATTTGCCGTCGATCTCGACGATGAGGAAATCGTCGAAGAGGAAGTCCGGTCGATACTTCCCAATCACGGGCTGGAAGCGCCACCCGCGCACTCCCCGCTCGATGAGCCCGGCGCGGAACCAGCTCTCGAAAGGCGAATCGGACAGGCTCGTCGCCCACTCCGCGCAGCGCAGCACCGTGGCCTTGCCAACGAACCTGCCCATCCGGTGCACCTCCCGTTTCAGCTGCTCAGTGGTGTAGCCGCGCACGGAAAGCAGCCAGTCCGCAGCGACTAG	MLGVLGFAVDLDDEEIVEEEVRSILPNHGLEAPPAHSPLDEPGAEPALERRIGQARRPLRAAQHRGLANEPAHPVHLPFQLLSGVAAHGKQPVRSD				NA	NA	NA	NA	NA
AK009_06962	291			hypothetical protein	ATGCACCGTGTATCCGCTGGCAGAGCGCTCAATGCACACGGCCTGGTCCAGGTCCATCGAGCCGGGCGGGTCAATGGTGACGAACTCGATGTCGCGGGCGTCCCGACGCGTGGCTGCCAGGGAGTCCGTCAGGCGCTGCGCGGCCTCGTGCTGCTGCGCGGAGAACTCCGTGGGCACATTGAATTCGCGCGCGATGTCTCGAAAGTTCAGGGGCGCCGCATACAGCTTCATAACCCGCCATTGTTGCAAAGATCCCGGCGGGGCGCAGGGCGCGGGCGCCGCTTACCCTAA	MHRVSAGRALNAHGLVQVHRAGRVNGDELDVAGVPTRGCQGVRQALRGLVLLRGELRGHIEFARDVSKVQGRRIQLHNPPLLQRSRRGAGRGRRLP				NA	NA	NA	NA	NA
AK009_06963	714			hypothetical protein	GTGCGAGTAGTAGCCGCCGATGCCCGCGTGCACCTCCGGCTCCTTCTCCTCGAGGTTGATGTAGCCCGCGCCGCGCAACAGCTTCTGGGCCTCGCGCATCACGGCCATGCCGCGTGGGGTGTCGGCGTTGACGCTGGCCAGGAACTCGCCGATCGGCTCGTCGCCGATCTGGAAACCCAGGTTGCGCATTTCCTGGCGAAACTCCTTCTCCGCGCCGTTGGTGGCGGGGCTCAACGTGCGCAGGAAACCCTTGCCAGCCTGAACCATCATCTGGCCCGCGGCCATGCCGGTGAGCAGCGAGATCTCGGAGTTGTAGTCCATCACGGGGTGGCGCGGCTCGATGACCAGCTCGAAGCGCCCCTGATCGGTCTCCACGACGCGCACGCTCGGCAGGCGCAGGTTGATCGCCTCGCGCCGCAGCGAACTCTCCTGCCGCAGGGTGCCTACCTCCGCGAGCAAGCTTATCGACGCGTGCACCACGCCCCGGTCCATCCCCTCCTGCACCTCGTCGTAGTCGAACCGCGCGCGGCTGCGCACGAGCGCACGCTCGACGAAGGTGTCGGTGACCTCGCCGCGGGAGTCGAGCTGGAAGGTCCACAGCACGGCGGGGCGGTCGACGTCGGGAAGCAGAGATGCCGAGCCCTCACTCAGCTCCGGCGGGTGCAGGCGCGCGGGCTCGTCGGGCAGGTAGATCGTTTGGCCCCGCTTGAGTGA	MRVVAADARVHLRLLLLEVDVARAAQQLLGLAHHGHAAWGVGVDAGQELADRLVADLETQVAHFLAKLLLRAVGGGAQRAQETLASLNHHLARGHAGEQRDLGVVVHHGVARLDDQLEAPLIGLHDAHARQAQVDRLAPQRTLLPQGAYLREQAYRRVHHAPVHPLLHLVVVEPRAAAHERTLDEGVGDLAAGVELEGPQHGGAVDVGKQRCRALTQLRRVQARGLVGQVDRLAPLE				NA	NA	NA	NA	NA
AK009_06964	633			hypothetical protein	GTGGGCCTCCGACGGGGAGTTAAGCAGGGTAAACAGCTCGTCGGTGCGGCGCGAACGCAGCGCCTTCACCGCGGCCAGAGAGCGCAGCGTCTCCGTCTCGCAGTAGCGCACCCACTCGCGCGCCGTCTGCGGGTCCGGGGCGGTGTCAACGCCGGCGACATCGCGGCGCGCCTGGACCCACTCCACAACGCGTTCGGCCGCGCCGGGAAGCTGGCGCAGCGAGGTGACGCCGAAGTTGGTGCAGGCCTCGTCGATGAATTCGCGGCGGGCGGTGATACGCTGCGCCTGCTCAACGTGCGGAGTGCCCAGGGAGCGCGCGACGGAGAAGATGCGCACGCCCAGTCGGCTCGGGTGCGGGGCGTGGGTGACGGAGCCGTCGGCGTAATCAATTACGGAGACCGTGTCGCCTGCGCCGCGCAGCGCGGCTGTGTGGCGGGCGCGCAGGATGGACAGGGAGGAGTTCGCGGATGCGGCCGCCGAGCAGATCTCGGCGAGGCGTGCGCGGGTGGGGGCCTCGTCGAGCTCGGCGGTGCCCGCGAGGTCGGCGAGCGCCAGGGCGAGCGCCGCGTCTCCCGCGTAGAGCGCGCCGAGGCCGCCGCCGGCGGTGATGTCGGAGGCGATCGAGATGTCTAG	MGLRRGVKQGKQLVGAARTQRLHRGQRAQRLRLAVAHPLARRLRVRGGVNAGDIAARLDPLHNAFGRAGKLAQRGDAEVGAGLVDEFAAGGDTLRLLNVRSAQGARDGEDAHAQSARVRGVGDGAVGVINYGDRVACAAQRGCVAGAQDGQGGVRGCGRRADLGEACAGGGLVELGGAREVGERQGERRVSRVERAEAAAGGDVGGDRDV				NA	NA	NA	NA	NA
AK009_06965	207			hypothetical protein	ATGGCTGACGAACAGTTCTACTACAACCCCACCACCGGCGAAGTAACCCAGGGCAAGGAATCCGCCTGGGATGAGCGCATGGGCCCCTACGCCACCCGCGAGGAAGCAGAGGCGGCGCTGCAGACCGCCAACGCGCGCAACAAGGAAGCCGACGCAATCGAGGAGGCCGACGAGAACTGGGGCAAGCCGGCCTCCTGGGAGAAGTAA	MADEQFYYNPTTGEVTQGKESAWDERMGPYATREEAEAALQTANARNKEADAIEEADENWGKPASWEK				NA	NA	NA	NA	NA
AK009_06966	975			hypothetical protein	GTGGACGTACTCCTCGCGGTCGTGCAGCGGCAAATCGGTGTCATGGTAGTACTTCTGCACCTTCGCGTCACGCTTGGTAACTTTCTTGAAGCCCTCGGCGAGGTGGTCGTAAAGGATTGCCTTAGACGCGCCCTTGGTCGACTTGTCGTTTCTGCCCGAGTCCTTACCCTTGTCGCCCTCGATCTCGGCGGCGATCTCGGAGCTGACCGGCGGGTTGGCCAGCAGGGCGTCGATGTCGTCGAGAAGCGTCAAGAAGCGCTCGGAGTTGAGCATGCCGACGATCTCCTCGTGGGCGGCCTCGTAGTCGGCGCGCATGTCGTCGCGGATGTGTTCTGCCGCGGCGTCGTCGATAAGCCCGGACTCGTCGGAGTCGAGCAGCTCGATGAAGCGCTCCTCCACAACCTCCGCGTCGCGCGCGACACCCAAGGTTGCGGCGGTGTCTTTCAGCTCGGCCTCGAGGTGTCCGAGTTGCTCGCCTTCCAAGATTCCCTCGAAGGTTTCCAAAAGCGAACGCATCTCACGCGTGGACACGCGCATCTGGTGCACCGAGTCCCACTCGTCGGCACGCACGCGCGGGTCCCAGCTCACGATGGAGTCACGCTGGCCACGCAGCGCTTCGACCACAGCGCCCTCCGGGGACTGAGGGTCGAGCCCCGTCTCTGTCATGTGCGGCGGCAGGGGAGCGGAGTGCAACGAGTCGCCGAGAGCGGTAAACAGCTTCGAGGGCGAGGAGGACTTGCGCGCGCCGGAGGAGATCAAAAAGCTAGTCGCTTGGTGGATCAGCTCGGCGCCGGCCTCGGTGCCGGCGGTGAACGCCCCGAGTTCGACTTCCCATTCGCGCCACGACGAGCGCTCGCCGCCTGGCAGGAGCGACCACGCGGTGACGTGGTCGTCGCAAAACTCGGCGACTTTCTCACCCGTCGGGGATCCGAGCGAGATGACGACGCGGCGGTTATCCACCTGGGCAATCGGTGA	MDVLLAVVQRQIGVMVVLLHLRVTLGNFLEALGEVVVKDCLRRALGRLVVSARVLTLVALDLGGDLGADRRVGQQGVDVVEKRQEALGVEHADDLLVGGLVVGAHVVADVFCRGVVDKPGLVGVEQLDEALLHNLRVARDTQGCGGVFQLGLEVSELLAFQDSLEGFQKRTHLTRGHAHLVHRVPLVGTHARVPAHDGVTLATQRFDHSALRGLRVEPRLCHVRRQGSGVQRVAESGKQLRGRGGLARAGGDQKASRLVDQLGAGLGAGGERPEFDFPFAPRRALAAWQERPRGDVVVAKLGDFLTRRGSERDDDAAVIHLGNR				NA	NA	NA	NA	NA
AK009_06967	294			hypothetical protein	TTGGGCGTTGCGCACGATGGCGCGGACGTTGTCGGTCAGCTCCGCCGGAATTTCGGAGGGGTTACCCAATTCGGCGCGCATCTCGGTGCGGGCGGAGCCGGCCGGAAGCTTCAGGTGCCAGCCGTCGTCGTCGCCGCCCGTGCGGCGGCGCAGAGTGATCTTCGCCCGCGTCAGGCGCAGATCGTCCGTGTCGTAGTAAATCGCGGTCAGGTTGTGCTCCTCGGTGGACAAGATCTCATCCACCCCCGGCAGTTGTGTCAGGTCGGGAATGCCGGTGGTCTCGTCGACCGCTAG	MGVAHDGADVVGQLRRNFGGVTQFGAHLGAGGAGRKLQVPAVVVAARAAAQSDLRPRQAQIVRVVVNRGQVVLLGGQDLIHPRQLCQVGNAGGLVDR				NA	NA	NA	NA	NA
AK009_06968	852			hypothetical protein	GTGCTCGATGATGCCGGCGATGAACTGGCGGCCGGTCTTCGACAGGGAAAACTCATCGTCGGGGTCGTGGAACGCGTTGGTTTCGCCCTCGAACAGCGAGAAATGGGTGTGCATCGCGGAGCCGTCCCTATCCGCGAACGGCTTGGGCATGAACGTCGCGTGGATGCCGTTGGCCTCGGCGATGGTTTTGACGATGTAGCGGAAGGTGACAATGTTGTCCGCCATCGTCAGGGCGTTGGTGTGGCGCAGGTCGATCTCCTGCTGCCCCGGCGAGGCCTCATGGTGGGAAAACTCGGTGACAATGCCCATGTATTCCAGCGCGGAGATGGACATGCGGCGAAACTTCGGCGCGACGTTGCGCTTGGCCTGGTCGAAGTAACCACCGTAGTCCGCCGGGCGTGGCATCTCTCCGGGTTGCACCGGCTTGACCGCGTAGAACTCAATTTCGGGGCTGGCCATAAACTCGAAGCCGGCGTCGCGGGCCTCTTGGATCTGGCGGCGCAAAACCTGGCGCGGATCCGCGAACAGCGGCTCGCCGTCGGGCATGGTGATGTCGCAGAACATCCGGGCCGTTTGCAGGCCGTCTTCCTCGTCGAACGGCAGCGCCTGGTACGTCGAGGGGTCGGGGCGCAAAAGCGTGTCGGATTCCGAGATCCGCGAAAACCCCTCGATGGAGGAGCCGTCGAAGCCGACGCCCTCGTCGAAGGCGGCCTCAAGCTCCGCGGGCGACATCATGATCGTTTTCAGCGAGCCCAAAATATCCGTAAACCACAGCCGGATAAACGAAATGTCCTGTTCATCGACCTTTTGAAGCACGTTTTCCTGTTGGCTGTTCATACCCGCCTACTCTAG	MLDDAGDELAAGLRQGKLIVGVVERVGFALEQREMGVHRGAVPIRERLGHERRVDAVGLGDGFDDVAEGDNVVRHRQGVGVAQVDLLLPRRGLMVGKLGDNAHVFQRGDGHAAKLRRDVALGLVEVTTVVRRAWHLSGLHRLDRVELNFGAGHKLEAGVAGLLDLAAQNLARIREQRLAVGHGDVAEHPGRLQAVFLVERQRLVRRGVGAQKRVGFRDPRKPLDGGAVEADALVEGGLKLRGRHHDRFQRAQNIRKPQPDKRNVLFIDLLKHVFLLAVHTRLL				NA	NA	NA	NA	NA
AK009_06969	381			hypothetical protein	GTGGTTGTCGATCTCCCAGCGGGTGATCTGGGAGGTGTAGTTGTGCCACTCGTCCCACTTCGAGCGCAGGAAGAACTCGTAGACCTGCTCACCGAGCACCTCGGCCATGAACTCCGACTTCTCCAGGTGCCGCAGCGCCTGGTCCAGCGAGTTCGGCAGATCCCGGTAGCCCATCGCGCGGCGCTCCCGGCGCGTCAGGGAGAAGACGTCGTCACGCGCTGGCTCATCGAGCTCGTAGCCCTCGTTGATTCCCTTCAAGCCCGCGGCGAGCACCGCGGCGAACGCGAGGTAAGGGTTGCAGGCGGAGTCGAGCGACCGCACCTCGATGCGGCGCGAATCCGCCTTGTGCAGCCGGTAGGTGGGAACGCGCACCATCGCTGA	MVVDLPAGDLGGVVVPLVPLRAQEELVDLLTEHLGHELRLLQVPQRLVQRVRQIPVAHRAALPARQGEDVVTRWLIELVALVDSLQARGEHRGEREVRVAGGVERPHLDAARIRLVQPVGGNAHHR				NA	NA	NA	NA	NA
AK009_06970	207			hypothetical protein	GTGGGTAATCGCCCGGTAGCCCATCATGGGCTGGGCGTCGCCGCCCCGATTCGTAGATGCGAAGGTGCCCGCCAGGTCAGCCGCCGCGAAACGCATGATCAGGGTGCGGTACGCGGAGCGCAGCGCGTTGCGCGCGTTCGTACCGTCGAAGTACGTCTCACCAGCGCGGTAGGTGCCCGCGGCGGTGCGCGCCTCATTCGCCGTTGA	MGNRPVAHHGLGVAAPIRRCEGARQVSRRETHDQGAVRGAQRVARVRTVEVRLTSAVGARGGARLIRR				NA	NA	NA	NA	NA
AK009_06971	243			hypothetical protein	GTGCGTGCGTTTGAAGCGGTGCAGCTGCAGACGGTGCTCGAGCAGCCGCAGGAACCCATAGGCGTCGATGAGCTGGCGCGCGTCCTCGCGGCCGATGTAACCGCCCTTGGTGAGAGCTTCGAGCGCGACGACGGTGTTGGGGTTGCGCAGCGTTTCATCGAAACGCCCGTGAACAAGCTGCAGCAACTGGACCGCGAACTCAACGTCGCGCAACCCCCCGTGGCCCAGCTTCAGCTCGCGTAG	MRAFEAVQLQTVLEQPQEPIGVDELARVLAADVTALGESFERDDGVGVAQRFIETPVNKLQQLDRELNVAQPPVAQLQLA				NA	NA	NA	NA	NA
AK009_06972	1299			hypothetical protein	GTGCAACCGCGGGTGGTTGTGGGCGTGCATCATCGTCAGAAGCTGCACGGTCCACTCGACGTCGCTAAGCGCGCCGCGGCCAAGCTTCGTGTGGGTGGCGCGGTCCGCGCCGCGGGGCAGGCGCTCGTCGTCCACGCGCGCCTTGATGCGCCGGATTTCGCGGATGTCTGCCTTCGACGCCCCGGACTCCGGGTAGCGGAACGGGTCGATCGCGCGCAGAAATGCCTTGCCTACCTCTTCGTCACCAGCGATCTCGGTGGCGCGAAGCAGGGCTTGCTTCTCCCACACCTCGCCCCACTCTCGGTAGTAGCGCTCGTAGGAGGCGATGGTGCGCGCCACCGCCCCCGAGCGCCCCTCCGGGCGCAGGCCCAGATCCACCTCCAGGGGCGGGTCGCCCGAGGGGGTGGACAGGCGCGTGCGCATCTGATCGATGATGCGAACAGCCCAGGCCACCGCCTCGGATTCCTCCACCCCGTCCGCAGGCTCAGCGACGATCATCACATCGGCGTCGGAACCGTAACCCAGCTCGGCGCCGCCGAGGCGACCCATGCCGATCACCGCGATGCGTGCGGGCGGATCCTGCTTGCCCGAAGCCAGCAGGTCAGCGCGAATTTCCGCGCGCAGCGCGGCCTCAAGCACCGCCTCCCACACCCAGGTCAACTCGATGCACACCTGGCGCACATCCATGAAGCCAAGCAGGTCGGCGGCGGCGATGCGTGCGAGGTCCGCGCGGCGCAGCGAGCGCGCAATCCCCACCGCGCGGACCGGGTCCTCATGGCGCTTCGTGGCGGCGAGGATCGCCTTGTACACCTGGTCGGGAGCGACGTCGAGGAGCTTCGGCCCGCTCGCACCGTCGCCGAGCAACTGCACCACGTCCGGAGACGCAATGATGAGGTCCGCGATGTAGGGAGAGGTCCCCAGAATGTGCATGAGGCGCTGGCCGACCACGCCCTCGTCGCGAAGCATGCGCAGGAACCAGCTTTTGTCCTCCGCCGCCTCGGAGAGCTTGCGGTAGTTGAGCAGGCCGGCGCCCGGGTCGGCGGTGTCGCCGAGCCACTTCATCAGCGTCGGCAGCAAAATCGCCTGCAGCTTCGCCTTGCGCGAGCTGCCCTTAACCAGCGCACTCAAGTGCTCGTAGGCGCGGGCCGGGTGGCGGTAGCCCAGCGCCTTGAGCTGGGCCTTGACCGTATCGGCCGACAGCGTCGCTTCGCCGACGGACAGGTCCACCACGGCGGACAGGAGCGGGCGGTAGAACAGCCTCTCGTGAAGCTGAGAGACGGATTTGCGTACCGTGCGTAG	MQPRVVVGVHHRQKLHGPLDVAKRAAAKLRVGGAVRAAGQALVVHARLDAPDFADVCLRRPGLRVAERVDRAQKCLAYLFVTSDLGGAKQGLLLPHLAPLSVVALVGGDGARHRPRAPLRAQAQIHLQGRVARGGGQARAHLIDDANSPGHRLGFLHPVRRLSDDHHIGVGTVTQLGAAEATHADHRDACGRILLARSQQVSANFRAQRGLKHRLPHPGQLDAHLAHIHEAKQVGGGDACEVRAAQRARNPHRADRVLMALRGGEDRLVHLVGSDVEELRPARTVAEQLHHVRRRNDEVRDVGRGPQNVHEALADHALVAKHAQEPAFVLRRLGELAVVEQAGARVGGVAEPLHQRRQQNRLQLRLARAALNQRTQVLVGAGRVAVAQRLELGLDRIGRQRRFADGQVHHGGQERAVEQPLVKLRDGFAYRA				NA	NA	NA	NA	NA
AK009_06973	261			hypothetical protein	GTGTGCCCGGCGCGTATCGCGCAGGTAGTCCTCCAGGAACTGCTGCTGGTCCTCCGGGTCGTAGCCCGCGGAGCCTGCAACCTGCGCGAGCTGCGGGCCCGGCGCGGGCAACTGATCCGTGCGCTTGCCCGAGACCAGCACCAGCGCGTTTCGCGCGTTCGTCGCCGCGAGCCACGCGGTGCGCAGCGTGCGGGCCTGGGCGCCGCGGATCACCTCCGGATCGTCGAGCTCGTCGAGGTAATCGAGCACCTGCAGCGTTGA	MCPARIAQVVLQELLLVLRVVARGACNLRELRARRGQLIRALARDQHQRVSRVRRREPRGAQRAGLGAADHLRIVELVEVIEHLQR				NA	NA	NA	NA	NA
AK009_06974	672			hypothetical protein	TTGCGACGCCGGCGAAGCGTGAGACGGGGTCCGCGCCGCTTGGCGACGCCGCAATCCGGTCCGTCATCGACATCCTCAACGGGCGGCTTGAACCGCCGCGCCCGTAGGGGTGCCGCTGGGGGTGGGCTGAGGTTTAGTAGCTACAGCGCGCAGACTCCGAGTGAGCACCTAGCGTGCGCGCCTGCCACGGACCACGTAGTAACGCGAGGTGAACAACCCGGCGAGCAGCATGCCCCAGAGGATGAATGCGGCAACCCAGGCGTAGCGGAAGTCGCCCCAGGTGTAGTTGCCGTCGGGCGCTGCGGCGTCGAGAAGCAGGCCGATGAGTTGCGCGGAAATCATGCCGGTGAAAAAGCCTCCCATGTTGCCCAGGCCCGTGCCGGAGGCGACGATGCTGCGCGGCATTTCCTCGCGGATGGTGTCGAACCCGAAGTTCGACACCGGCGTGGCCAGGCCCATAATCACGGCGAGCACGATGAGCGCACCGAAGCCGCGGGAAGTGGGGGAGGCGAAGAAGATGATCCAGGCGACGCAGTGCAGCGATGCGACCAGCGCTGCGGCGAGGTCGCGGTTTTCGCCCGTGCGCCCCGACAGTGGTGCGAGGCACGGCCCGCCGAGCATCGTGGTCACCGTAAACGCCGTCAGCACCGTCCCCGCCTGGGCGGCGCTTAA	MRRRRSVRRGPRRLATPQSGPSSTSSTGGLNRRARRGAAGGGLRFSSYSAQTPSEHLACAPATDHVVTRGEQPGEQHAPEDECGNPGVAEVAPGVVAVGRCGVEKQADELRGNHAGEKASHVAQARAGGDDAARHFLADGVEPEVRHRRGQAHNHGEHDERTEAAGSGGGEEDDPGDAVQRCDQRCGEVAVFARAPRQWCEARPAEHRGHRKRRQHRPRLGGA				NA	NA	NA	NA	NA
AK009_06975	234			hypothetical protein	TTGGCCGGTTGCCGAGGTCAGTTGCGTAAACAGCGGCGTGCGGCGCATCGGAAACCAGTAGGGCAACAGGCGCAGCGCGGAGAGGAACGCGGTGGCGTCGCCCGCGCCGATGAGCACGCGCGCGGCAATGGCCAGCGGGTAGGAGTCAGTGAATCCGAGGATGACCTGGCCGGTGGCCATGACCAGCGCTCCTGTCACGAGCATGAATCGCGGGCCGCGGCGGTCGATGAGTAG	MAGCRGQLRKQRRAAHRKPVGQQAQRGEERGGVARADEHARGNGQRVGVSESEDDLAGGHDQRSCHEHESRAAAVDE				NA	NA	NA	NA	NA
AK009_06976	312			hypothetical protein	GTGCGCGATGTAGAGAGCTTCGTCGAGCTTTGTTACCGGGACGATCTCCTCGGTGGAAAACACCGGGGTGCGGTAGGCACGCGCGGTGATCTCCTCGATCTGCGCCGGCGGGATGTCGTCGACGAAGAGCTTAACCACCTCGGCGGCGAGGGCTGCGTAGCCTTGGGCGTCGAGAAGCGTGCGCCACGCGTCGAGAAGATCGGGCGTAATGCGCGGGTAGACGGCCGGAAGATAAAGACCACCGTCGGGGGCGAGGCCCATCAAGAGGATGTCGGTGAACTTGGCGGCCGCGGCCTTGGAATCGCGCGTTGA	MRDVESFVELCYRDDLLGGKHRGAVGTRGDLLDLRRRDVVDEELNHLGGEGCVALGVEKRAPRVEKIGRNARVDGRKIKTTVGGEAHQEDVGELGGRGLGIAR				NA	NA	NA	NA	NA
AK009_06977	495			hypothetical protein	ATGGGTCTCGGCCGCCGAGCGCGGGCGGTAGTTGCCGCCGGAGAAAAAGTCGTGCAGCACGTCGTTTTCGTTGGTGGCCACGATAAGCTTGTCAATCGGCAACCCCATCTGCTTGACCACATGGCCTGCACAGATGTCACCGAAGTTGCCGGTGGGCACGCAGAAGGAAAGCTGCTCGTCGTTGGACTCGGTGACGCGCAGGTAAGTGGAAATGTAGTACACCGTCTGGGCCACAAGCCGCGCCCAGTTAATGGAGTTGACCGCTCCAATGCGGTACTTCGCCTTAAACGCCGCGTCCGCGGACACCTCCTTGACCACGTCCTGGCAGTCGTCGAAGACACCATCGAGGGCGATGTTGAAGATGTTGGGATCGTCAAGGCCGAACATCTGTGCCTGCTGGAACGCGGTCATGCGCCCGGCTGGGGTCAGCATAAACACGCGGATGTTGTCGCGCCCACGCATTGCGTGCTCAGCGGAAGATCCGGTGTCGCCTGA	MGLGRRARAVVAAGEKVVQHVVFVGGHDKLVNRQPHLLDHMACTDVTEVAGGHAEGKLLVVGLGDAQVSGNVVHRLGHKPRPVNGVDRSNAVLRLKRRVRGHLLDHVLAVVEDTIEGDVEDVGIVKAEHLCLLERGHAPGWGQHKHADVVAPTHCVLSGRSGVA				NA	NA	NA	NA	NA
AK009_06978	252			hypothetical protein	GTGGCGCTCGGCATCCAAGATGTGTGCGAACCTCTCAGGCACATCCGGGGCGAAGCCCAGCGCCTCGGTGATCGTCTCCGAGAACTTCACCGGCAGCGCAGTCTCCAACACCACGATCGGGGTATCAACCTGCTGCGCGACACCTCGCGCGACAAACATGCCGTCAGCGGTGTGCGGGTCGATCAGGTAGTCGTACTTCTCGTGGACAGCCTTGATCGTGGCCACCCTGTCGGCGTGGGTGGACGTGCCTGA	MALGIQDVCEPLRHIRGEAQRLGDRLRELHRQRSLQHHDRGINLLRDTSRDKHAVSGVRVDQVVVLLVDSLDRGHPVGVGGRA				NA	NA	NA	NA	NA
AK009_06979	618			hypothetical protein	TTGCGCGATCCCGGTCTCGATCGGGTCGCCCACCAGCGACATGTACCGCTGCGGGTCCGTGATCTCGATCACGGCAACGTCAATATCCGGCGCGCCCTCGCTGTAGAGGCCCGAGTAAATGAAGTGGCCCACCTCGGTCGCGTAGTCCTGCGCCGTGGTCGCGTTTGTCGGCCACACCAGATCCCCCTCGCGACCGCAGTGGCCAGCCGTGACGGCGAAGTTCCGGCCCTCGGCGTTGCTGAAAGAAAACGCGACGGTGCACGACTGCGCGGTAAAGGCCTCGCCGGGGCGCGGGTAGTGATCCGTGGATTGGATCAGCGTGCCCGGCGCCCACAGGGCGAAGCTGGGCATGCGAATGACGTTGACCACCTCGCCCGGAGCGACCTCCGCCGGGGCCGCTGGCGGGGCGCCGGCGTTGTCGCCCGGGGTCTGCACGGCCTCGAGCGCCTGGCGCTGTTGGATGGTGGCGGTCGGAAACTGCGACGCGTTGATCCCCGCCCACACGATCATCGCAACCGTGAACAGGGTGATGACCAGGATCGTCGTCCAGGCTCCAATCCCGACGCCCCGCACGGGGGCCGCGTGCCGCGCCGATTGCGGATTAGGACTGCTCACTGA	MRDPGLDRVAHQRHVPLRVRDLDHGNVNIRRALAVEARVNEVAHLGRVVLRRGRVCRPHQIPLATAVASRDGEVPALGVAERKRDGARLRGKGLAGARVVIRGLDQRARRPQGEAGHANDVDHLARSDLRRGRWRGAGVVARGLHGLERLALLDGGGRKLRRVDPRPHDHRNREQGDDQDRRPGSNPDAPHGGRVPRRLRIRTAH				NA	NA	NA	NA	NA
AK009_06980	552			hypothetical protein	GTGCTACGAGGGGATGGACAACCCGAGGCTGATGTCGTACTCGAACGTGGATCAGACGATGCAGGTCATCAACGCGGTTGTGCCGGACGCGTTGTGGGAGATTCGCAGCGTCTAACCGCGTTGCTGCGCGTCCCACTTTTCGCGGAATGCCTCCCCGGTGGGGTCCTCGAAATGTGCGTCCGACCGATCAACGCGCGGACCGTACTTTTCCTGCACGCGGACCTTCTCGGGGTCGTAGGCAGTGAGAACGAGCTGGTCGGTGGGGGCTACCGGTTCACGGTCATCCCAGCTGTCGACGATCGCATCGGCTGCGGAGGTGGAATTGCTGAACCAGGTCATGGCCACCATGTGCTCAACGGGGCGGCCGGGGTAGAAGTAGAAGGACACGGAGTCGGTCGTGCCGGCCAACGCGTCGGTGACGTAGCTCTCAATGGTCGCCGGGCCGGGGGAGTTGTAGCAGTATCCCCAGAGGTTGATCCGCAGGTTGTCCTGCGTGCGCACCGTCATGTTGTCGACGCAGTTTTGCTCGAGGAGCCGCGAGACGTGGCCTGA	MLRGDGQPEADVVLERGSDDAGHQRGCAGRVVGDSQRLTALLRVPLFAECLPGGVLEMCVRPINARTVLFLHADLLGVVGSENELVGGGYRFTVIPAVDDRIGCGGGIAEPGHGHHVLNGAAGVEVEGHGVGRAGQRVGDVALNGRRAGGVVAVSPEVDPQVVLRAHRHVVDAVLLEEPRDVA				NA	NA	NA	NA	NA
AK009_06981	183			hypothetical protein	GTGAGAGCTCGCCGTGTCTGCCAGGACAATGCCGCCGGCGATCAGCCCGATGAGCACGGCGCCGTAAGCGACGGTGAACACCGGCGCGGGCAGCGCGCGCAGCATCCGGATGTTGGCGTCGACGGGCTCGTTAGCTGGGGCGTCGGCAAGCTGGGGCTCGGTCATGATGGTTGGCAATTCTAG	MRARRVCQDNAAGDQPDEHGAVSDGEHRRGQRAQHPDVGVDGLVSWGVGKLGLGHDGWQF				NA	NA	NA	NA	NA
AK009_06982	651			hypothetical protein	GTGACAACCCGTCCTGGTGCTCGGAGACGTCGATACCGAAACGCATCAGCGCTTGGTCAGCCCCAGCCGGGGCACGAACTGCCCGGGGTGGCGGCGTTGCGAAGCAGCGTCCGCGATCACCAGGCGCCATTTCGGGTCCGTCACCGGCATCGAGGAGATCGGAAACCACCCGACGTCGACGGACTCATCGTCGCCCACCACGGGCTGCGCGGCCGGGTCGTCCGCCTCCAGGCGCAGCTGCACCGACATGTACGAGGCGCGATCGCCATTGACGTGGGTGATCGGCCCCACCGACCCCACGCCAAGCAGCGCCACCGACCGCGCGGCGACACCGGTCTCCTCGAACACCTCACGCTCGGCGGCGTGGTGCGGCTCCTCGCCCGGATCGCAGATCCCCGTCACCGGCGTCCACTCACCGTTATCGGAGCGCTTCACCAGCAGCACATCGGGCACCGCCCAGGGCGAATCGGTGGTCGAGTCGCGCAACACAATCGCTGTCACCGACGGCAGCCACATCAGATCCGTGCCGATCTTTTCGCGCATGGCAACGATGAACTCGGGAATGGGCATGGCTCAAGTGTAACGCCGCAACCGTGGGCTAGAATTGCCAACCATCATGACCGAGCCCCAGCTTGCCGACGCCCCAGCTAA	MTTRPGARRRRYRNASALGQPQPGHELPGVAALRSSVRDHQAPFRVRHRHRGDRKPPDVDGLIVAHHGLRGRVVRLQAQLHRHVRGAIAIDVGDRPHRPHAKQRHRPRGDTGLLEHLTLGGVVRLLARIADPRHRRPLTVIGALHQQHIGHRPGRIGGRVAQHNRCHRRQPHQIRADLFAHGNDELGNGHGSSVTPQPWARIANHHDRAPACRRPS				NA	NA	NA	NA	NA
AK009_06983	375			hypothetical protein	GTGGGAGAGCAGGTCGAGGCCAGTCTCGCCGTGTTACAGGACCTGCGTGTGCCCATGTGGCTCGACTGCGAGACCCCGGCGGGTTTAGCGCTTGACGACGTCGCCCGCGCGCACTCCCTCTTCACCTCTGCGGGCGTTGACGTTGCCGGCATCTACACCTCGCGTCGCTGGTGGCGTTGGCGCATGCTCGGAGCTGACACCCGGCCTTTCGGGAAGCTGTGGTTAGCTGAGTACGGAGCCGACGACGGAAGCTACCCTGGCGATTCCGCGTGGCCGAAGGCGGTGGGAAAGCAGGTGCCCGCGATGTGGCAGTTCACCTCGCGCGGCCGTGTGCCCGGATACGGGGGCGACGTCGATGTGAATGCGCGGCGCTAG	MGEQVEASLAVLQDLRVPMWLDCETPAGLALDDVARAHSLFTSAGVDVAGIYTSRRWWRWRMLGADTRPFGKLWLAEYGADDGSYPGDSAWPKAVGKQVPAMWQFTSRGRVPGYGGDVDVNARR	PGPT0019160_1767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273	NA	NA
AK009_06984	945			hypothetical protein	ATGCGCGGCGCTAGAGTGCAAGGCATGAAGATTCTGATTGTGGGTGCCGGTGGCGTCGGCGGGTATTTCGGCGGGCTGCTCGCGAAGGCGGGACAAGATGTCGGTTTCATTGCTCGCGGGGAGACGCTTGACGCATTGCGCGGCTCCGGGCTGCGGTTGACTAGCCCGGAGGGTGCAACCACCGTGACGGATTTCGTGGCGGGTCAGGGCGCTGAGGAGGTCGTCGACAAGCTAGGCGGCGTCGATGTGGTCATCGTCGCGTCCAAGGCGCTGCCCGGCAACGCCACCTTCGCGGACGTGAACACCGTGCCTGACGTACCGGTGGTAACCACGCACAACTCCGTGGAGGTGCACTTTGACGCCGCGGAAGTGTTCGGGGCCGAGCGCGTGCTCGCCGGGGTCGTGCGCGGTTACATGACCCGCACCGCGCCAGCGAAGATCACGCTCAACCCTGGGCCGCTCTCGCTTAGCTTCGGGTTGCTTCCTGGGGTCACCGAGACGCCGGAAGTTGCGCCGTTGCTTGTCGACGCCCTGAAGAACGCCGGGATCGGTTCGACGTACCACGGTGCTGACGGGGTCGTGTTGACCGATGCGTGGATGAAGGCGATGTTCGTCGCCACCACGGGCGTGCTCGGGGCGGTGGCGCAACGGCCGCTCGGCTACCTGCGTACCGAGCTGCGGCCGCAACTCAGGGGCCTGATGGAGGAAGTCTTCGCCGCGGGCCGCGCGCTGGGGGTGGAGCTTAGTGACGACGCCGTAGAGACAAACCTCGCGTTCTGCGACGCGCAGTACGAGCAGGCGACGAGCTCCATGCACCGCGATATTGCGGCGGGCTTGCCCAATGAGCTGGACGCGCAGGTGGGGGCGCTGCGGCGGATGGCGCAGCGGGGCGGTGTTCAGACCCCGCTTTTGGACATGGTGTACGCGCTGGCCCTGACGCGCTAG	MRGARVQGMKILIVGAGGVGGYFGGLLAKAGQDVGFIARGETLDALRGSGLRLTSPEGATTVTDFVAGQGAEEVVDKLGGVDVVIVASKALPGNATFADVNTVPDVPVVTTHNSVEVHFDAAEVFGAERVLAGVVRGYMTRTAPAKITLNPGPLSLSFGLLPGVTETPEVAPLLVDALKNAGIGSTYHGADGVVLTDAWMKAMFVATTGVLGAVAQRPLGYLRTELRPQLRGLMEEVFAAGRALGVELSDDAVETNLAFCDAQYEQATSSMHRDIAAGLPNELDAQVGALRRMAQRGGVQTPLLDMVYALALTR	PGPT0008745_3605	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
AK009_06985	270			hypothetical protein	GTGCGAGCGCGAGGTGGACGCGCCGTCGGAGCCGTAGCCGACGAGGGCGACCGGCTTGCCCGTCCACTCGGCGTAGAGAAGGTCGAAGGCGTCCTTCATCGGGCCGGGAACGGAGGCGTTGTACTCGGCGGTGACGAAGATGAATGCGTCGAAGCCATCGATCAGTTTGGCCCAGGCACGGGTCTTCTCATCGGCGTAGGCACCGTCTTTGACCCCCTTCGGCGGAGCGGCGGTGTTCGGGTTAAGATCCTGCTCCACAAGGTCGATTAA	MRARGGRAVGAVADEGDRLARPLGVEKVEGVLHRAGNGGVVLGGDEDECVEAIDQFGPGTGLLIGVGTVFDPLRRSGGVRVKILLHKVD				NA	NA	NA	NA	NA
AK009_06986	1413			hypothetical protein	GTGCAGGCGCGAGGGTGTGATCTCGCGGTCGTACTTGAGCTTGATATAGGACTCAATAAGGTCCTCGGTGAACACGTCGCCCTCGGTGAGGAAGTCGTGATCGTGCTCCAGCGCCACCAGCGCCGCCTCAAGCGAGGTCGGGGCCTGCGGGATCTCCTTGGCCTCCTCCGGCGGGAGCTCGTAGAGGTCCTTATCCACCGGGGCGTGCGGCTCGATGCGGTTCTTGATGCCGTCGAGGCCCGCCATCATCATCGCGGCGAACCCGAAGTAGGGGTTGCCCGAGGGGTCCGGGGCGCGGAACTCGATGCGCTTGGCCTTGGGGTTGGAGCCGGTGATCGGGATGCGGATCGCGGCCGAGCGGTTGCGCTGCGAGTACACCAGGTTGATCGGAGCCTCGAAGCCTGGCACGAGGCGGTGGTAGGAATTCAGCGTCGGGTTTGTAAACGCCAGCACCGCGCCGGCGTGCTCGAGGATGCCGCCGATGTAGTAGCGCGCAATGTCGGACAGGCCGCCGTAGCCAGCCTCGTCGTAGAACAGCGGCTTGCCGTCCTTCCACAGCGACTGGTGGGCGTGCATGCCGGAGCCGTTGTCGCCGGCCAGCGGCTTCGGCATAAACGTCGCCGTTTTGCCGAACTGGGTGGCGGTGTTCTTCACGATATACTTGAAATCCTGCAGGTCGTCCGCTGCGTGCAGCATCGTGTTGAACTTGTAGTTGATCTCCTGCTGGCCGCCGTTGCCTACCTCGCGGTGGAAGCGCTCCACGTCGAAGCCGGAGGCAGCGAGGTTTTTGACCATCGCGTCGCGCACATCCACCGTCTTGTCGTACGGCGGCACGGGGAAGTAGCCGCCCTTGACGCGGTTCTTGTAGCCCAGGTTGGGGGAGCCGTCGATCTCGGACTCCGCGCCGCGGTTCCACCAGCCTTCCTCGGAATCGAACTCGAAGAACTGGTTGTTGCCGGTGACCTCGTAGCGAACGGCGTCGAACAGGTAGAACTCGGCCTCGGCCCCGAAGAAGCAGGTATCCGCAATGCCTGTCGACGCGAGGTAGTCCTCCGCCTTCCGGGCAACGTTGCGCGGGTCGCGCGAGAAGGGCTCGTGCGTGAACGGATCGTTGACGAAGAACTTCACGTTCAGCGTCTTCTCCGCACGGAAGGGGTCAACCTTCGCGGTGGCGAGGTCCGGCATGAGCGTCATGTCGGACTCTTCGATGGTGGTGAAGCCGCGTATCGACGACCCGTCGAACGCCAATCCCTCCTCAACGACGTCTTCGTCAAACATCGACGCCGGGATGGAGAAGTGGTGCTCCGTTCCGGGAACGTCGGTGAAGCGGACGTCGACGAACTCGACATCCTCGTCTGCAATGAAATTTTTGGCGTCCTCGATATTGTCGAAGGCCATTTTTTCACTCCTTGA	MQARGCDLAVVLELDIGLNKVLGEHVALGEEVVIVLQRHQRRLKRGRGLRDLLGLLRRELVEVLIHRGVRLDAVLDAVEARHHHRGEPEVGVARGVRGAELDALGLGVGAGDRDADRGRAVALRVHQVDRSLEAWHEAVVGIQRRVCKRQHRAGVLEDAADVVARNVGQAAVASLVVEQRLAVLPQRLVGVHAGAVVAGQRLRHKRRRFAELGGGVLHDILEILQVVRCVQHRVELVVDLLLAAVAYLAVEALHVEAGGSEVFDHRVAHIHRLVVRRHGEVAALDAVLVAQVGGAVDLGLRAAVPPAFLGIELEELVVAGDLVANGVEQVELGLGPEEAGIRNACRREVVLRLPGNVARVAREGLVRERIVDEELHVQRLLRTEGVNLRGGEVRHERHVGLFDGGEAAYRRPVERQSLLNDVFVKHRRRDGEVVLRSGNVGEADVDELDILVCNEIFGVLDIVEGHFFTP				NA	NA	NA	NA	NA
AK009_06987	495			hypothetical protein	GTGCATGCCGCGTCCGTTGGCATCGACCATGGCGGCGGGCAGGATGAACCCGGTGAGAAGCGTGCGCACTGCCGCGCGCCAGAAGCCGACGCGCTTACCGGGGGCGTCAACACGCGCCACGCCCATGCCCAGCGCCATCATGCCCGGGGTGCGGGCCAGCAGCCAGCCGCAGAGGATGCCCAGCGCCAGCCACAGCAGGTAGGTCAGGGTTGCGGTGTCCCCGAGTGCGTCGGTGTTGAAGCGGATGAACGCGGCCGCTGCCCAGCAGATGCCCCAGTCGATGGCGACCGCCCCGGCGCGGCGCGCCACGGAGGCTTGCGCACCCGGCCCGGTTTCGGGGAGGCCGAGGTCTTGCCCGGCGTAGGTTCCAAACTCAGCGAACTCGGCATCGCGGCCTCGGGAATTTGCCATGCACCTAGAGTACTTGGGCGCGCATTGGCCGCGGCAATCGCTCGGGGCACCCGTGGCGCGTCGTCTGTAGGATGGTCTTGTTAG	MHAASVGIDHGGGQDEPGEKRAHCRAPEADALTGGVNTRHAHAQRHHARGAGQQPAAEDAQRQPQQVGQGCGVPECVGVEADERGRCPADAPVDGDRPGAARHGGLRTRPGFGEAEVLPGVGSKLSELGIAASGICHAPRVLGRALAAAIARGTRGASSVGWSC				NA	NA	NA	NA	NA
AK009_06988	789			putative protein	ATGGCAGATCCAAAGAACAAGGCAGCTTCGAAGGCTGCGAAGAGTGAAGAACGCGCCGCGAAACGCGCCAAGCGCAAGAACACCCGCGGCCAGATCTGGCAGGCGTTCAAGATGCAGCGCGAGCGCGACAACAAGCTCATCCCGCTGATGATCTTGTGCGTGCTCGGCGTGGGCCTGCTGTTCTTCCTCATCGGCCTTCTGTTCAACGCCGAGTGGTTCATGCTGATCCCGGGCCTGCTGCTCGGCGCGGTGCTGGCGATGTTCGTCTTCTCGCGCCGCCTCGAGGCCTCAATGTACGCCGAGGTTTCTGACACCCCGGGTGCCGCCGCGTGGTCGTTGGAGAACATGCGCAACACCATGGGCATCGTGTGGCTGACCAAGACTGCGGTGGCCGCGAACACGCAGATGGACACGGTTCACCGCGTCGTCGGCAACCCGGGCGTTGTCTTAGTTGGCGAGGGCAACGCGAACCGTCTCAAGCCGCTGATGGCGAAAGAGCGCAAGCGCGTCGACCGCCTGCTGGCCGGTGTGCCCATCCACGAGGTCTACGTCGGCGAGGCCGAGGGCCAGACCAGCATCCGCGACCTGCAGAAGACGCTGCTGAAGCTGCCCAAGAACTACAAGAAGGACGAGGTTTACGCCCTGTCCACCAAGCTCGACGCGATGGATGCGCGCTCGCGCCCGGGTCAGCCCGCTGGCCTGCCCGGTGGTCCGCTGCCGAAGGGCGCGCAGTCGATGTCGGGGATGAACCGCAAGATGCGCCGCATGCAGCAGCGCCAGGGCAAGTAA	MADPKNKAASKAAKSEERAAKRAKRKNTRGQIWQAFKMQRERDNKLIPLMILCVLGVGLLFFLIGLLFNAEWFMLIPGLLLGAVLAMFVFSRRLEASMYAEVSDTPGAAAWSLENMRNTMGIVWLTKTAVAANTQMDTVHRVVGNPGVVLVGEGNANRLKPLMAKERKRVDRLLAGVPIHEVYVGEAEGQTSIRDLQKTLLKLPKNYKKDEVYALSTKLDAMDARSRPGQPAGLPGGPLPKGAQSMSGMNRKMRRMQQRQGK				NA	NA	NA	NA	NA
AK009_06989	993			hypothetical protein	GTGCAGCTTCTCCGGCTTGGAGGTGCTGCGCAGCTGGATGTTGACGCTTTCGTCACCCTCCGGCACAACCCACTCCGCTACGCGGGTCGGGATGACCACGGGCTTGTAGAACTCCACGCGGTAGCGCAGCGCACCGCCGAGCTTGCCCTCAAGGAAGCGCAGCGCAGCGGCCGCGGAGTACATGCCGTGGGCGATGATCCCCGGGAAGCCGAACAGCTTCGCACCGATGTTGGAGGTGTGAATCGGGTTCTTGTCGCCCGAGGCCTCCACATAGTTGCTCACCGTCTCGCCGGTGACCTTGATATGGCCGTTGGCGGCGTACTCGGGCAACTCCGGGGAGTCCAGGCGGCGGCCGTTGTCCGCGCCGCGGGTGGTCACCGAGACCGGGGCGTCCTTGGCAAACTTCTGGCCCTGGGCGAGGAAGGTCGACACCTGGGTCCACAGCGGCTCCCCATCGGTCTCACCGTCGAGGAAGACCTGGGTGACCATGTCGATGAGCAGGCCCTTGCGGTGCGGGCGCAGCTTCTCGCCGTGGGCGCGCACGGTGTAGGACTCGTCGACACGCAAAGCGCGCTTCTGGGTGATCTCGTTGGCGATGTGAACCGCGCCGGTGGCGGCGAAGGGGAAGTCTTCGCGCGCCATGAGGTCCATTGTCAGCGGGAACGCGACGACGAAGAAGTAGGTCGGCGGCAGCTCGTTGGACAGGCGCAGGCCGGTGGCCTGGGTGTAGGCGGCGAGCTTGGCCACATCCACCTTGACGCCGCGCACCTCGGATCGCGAGGTCGGATCGGCATCAGCGGAGTGCTTGGTGCCCACGACCGGCAGCATGCCGCGCTTGATGTCGTTCATCACCTTGTCCAGGTCCGGAACGGCCTTGAGAACCTTGTAGGGTGCCTCCGGAGTCTTGTCCGGCTGGGAGGAAGAAATGCGGGTGGTCATAGACTTACGCCCCCAGCAGGCTCTGGCCGCACACGCGCACGATGTTGCCGTTGA	MQLLRLGGAAQLDVDAFVTLRHNPLRYAGRDDHGLVELHAVAQRTAELALKEAQRSGRGVHAVGDDPREAEQLRTDVGGVNRVLVARGLHIVAHRLAGDLDMAVGGVLGQLRGVQAAAVVRAAGGHRDRGVLGKLLALGEEGRHLGPQRLPIGLTVEEDLGDHVDEQALAVRAQLLAVGAHGVGLVDTQSALLGDLVGDVNRAGGGEGEVFARHEVHCQRERDDEEVGRRQLVGQAQAGGLGVGGELGHIHLDAAHLGSRGRIGISGVLGAHDRQHAALDVVHHLVQVRNGLENLVGCLRSLVRLGGRNAGGHRLTPPAGSGRTRARCCR				NA	NA	NA	NA	NA
AK009_06990	1305			hypothetical protein	GTGGTCATAGACTTACGCCCCCAGCAGGCTCTGGCCGCACACGCGCACGATGTTGCCGTTGACAGCCTTGGAGGAAGCAGCAGCGAAGTATGCGACGGTCTCGGCAACGTCGATGGTCTGGCCACCCTGCTGCAGCGAGCTCATGCGGCGGCCAACCTCGCGCGGGCCGGTCGGCATAGCGGCGGTCATGTCCGTTTCGATGAAGCCCGGGGCCACGGCGTTGATGTTGCCGCCGAGGTCAGCGAGGCGGTCGTGCAGCGCGTCGACGAAGCCGATCACGCCGGCCTTGGTGGTGCCGTAGTTGGTCTGGCCGCGGTTGCCCGCGATACCGGCGATGGAGGAAACACCGATGACAGCCGGGGAGTCGCCGAGAGCGTTGGCCTCGAGAAGCTTCTCGGTGATGCGCACGGGGGCGACCAGGTTGATGTTCTGGACCATGTTCCAGCGGCTGTCGTCCATGTTGGCGAGCAGCTTGTCGCGGGTGACACCAGCGTTGTGGACCAAGATGTCGATCTTGCGGCCGTAGCGCTCCTCAGCGTGCGCTGCGAGCTTGTCGGCGGCCGCAGGGTCGGTCACGTCGAGCGGAAGCGCGGTGCCCTTGACCTTGTTCGCGGTCTGGGTCAGGCCCTCTCCAGCCTGCGGGATGTCAACGCAGATGACCTTGGCGCCGTCGCGTGCGAGCGTCTCAGCGATCACCGCGCCGATACCGCGGGCGGCACCGGTGACCACGGCGAGGCGGCCTGCCAACGGCTGCTCCCAGTCGGCCGGGGCGTCGGCGGCTACGTCGGTGATGCGGATGACTTGGCCGTCCACGTAGGCGGACTTGCCGGAGAGCAGGAAGCGCAGGGTGGATTCGACCTGGCTGAAGTTGTTGGAGTCGATGGCAGGATCGACGTAGACGAGCTGGGCGGTGGCGCCCTTGCGCAGCTCCTTGGCCACGGAGCGGGAGAAGCCCTCCAGAGCGCGAGCGGCGATGCGGGCGTCGGCGTCCTCGATCAGCTCCGGGGTCGTGCCGATGACGACGATACGGGCGTTGTCCGCAATCTTGCGCATCTGCGGGTTGAAGAAGTCGAACAGCTGCTTGAGATCCTCGGGGCGGGCAATCTCCGTGGCGTCGAAGACGATGCCGGCGCGGGGGGTGTCTGCCTCTGCCTTGAGAAGCTTGTAGGGGCCCTCGAGGGTGGTGGTGAGAGCCTCGACCAGTCGACCCCGGCCACCAACGACGACGGGGGCGTGCAGCAGCGGCTCGCCAGCCTTGTAGCGGCGCAGCGGGTAGCCTTGCGGGACTCCAGCCTTAGCCGCTAG	MVIDLRPQQALAAHAHDVAVDSLGGSSSEVCDGLGNVDGLATLLQRAHAAANLARAGRHSGGHVRFDEARGHGVDVAAEVSEAVVQRVDEADHAGLGGAVVGLAAVARDTGDGGNTDDSRGVAESVGLEKLLGDAHGGDQVDVLDHVPAAVVHVGEQLVAGDTSVVDQDVDLAAVALLSVRCELVGGRRVGHVERKRGALDLVRGLGQALSSLRDVNADDLGAVACERLSDHRADTAGGTGDHGEAACQRLLPVGRGVGGYVGDADDLAVHVGGLAGEQEAQGGFDLAEVVGVDGRIDVDELGGGALAQLLGHGAGEALQSASGDAGVGVLDQLRGRADDDDTGVVRNLAHLRVEEVEQLLEILGAGNLRGVEDDAGAGGVCLCLEKLVGALEGGGESLDQSTPATNDDGGVQQRLASLVAAQRVALRDSSLSR				NA	NA	NA	NA	NA
AK009_06991	1005			hypothetical protein	GTGGACGAAGTCGACAGCGGCGACCTCGGAGTCAACGATGAAGGCCTGAGCCTCGAGGCCGTGCTCGCTGGCCCACTCTTCGGTGCCGAGCAGCACGGCAGCGGCACCGTCGGTCAGCGGGGTGGAGTTGCCGGCGGTCATGGTTGCGGTGCCGCCGTGCTGGATTGCGTCCTGCTTGCCAAAGACCGGCTTGAGCGCAGCGAGCTTCTCCGCGGTGGAGTCGGGGCGCAGGTTGGTGTCGCGCTGGACGCCGAGGAACGGGGTGATCAGGTCGCTGAAGAAGCCAGCGTCGTACGCCTTCGCCAGGTTCTGGTGCGACGCTGCGGCGAGCTCGTCCTGAGCCTCGCGGGAGATCTCCATCTCACGGGCGGTGATGGCGGCGTGCTCACCCATCGACAGGCCGGTGCGGGGCTCGCCGTTCTGCGGCTGCTCCGGTGCCAGCTGGCTCGGACGGATGGAGCCGAACAGCTTGAGCTGGTCGGCCGGCTTCTTCGCGTTGGACGCCTTGATCAGGGTCTTGCGCAGGGTGTCGTTGACGGCCAGGGGCGCGTCCGAGGTGGTGTCGGTGCCGCAGCCGATGCCCGCGTCGATGCGACCCATTGCGATGGCGTCGGCGACCTGGATTGCGGACGTCAGCGAGGTGCCACAGGCGTGCTGGACGTCGACGGCCGGGGTGGTCGGCGCAAGAGCGGAACCAAGCACGCACTCGCGAACGAGGTTAAAGTCGCGAGCGTGCTTGAGGACGGCACCGCCGGAGACGAGTCCGAGGCGCTCATCCTGCAGGCCGTAGCGGGCGACGAGGCCGTCGATCGCGGCGGTGAGCATGTCCTGGTTGGACGCGTTTGCGTATTCCTTGTTGGAACGTGCAAAGGGGATGCGGTTGCCGCCGAGGATGGCGACCTTGCGAGGCTGATTCACTGTACTTTCCCTGCTTTCAACTGGTGGAAGTTCGGAGTTGAAGTTCATTCTCGTTGTACTATACAACACAAAAGAGTAGTGCTGTAA	MDEVDSGDLGVNDEGLSLEAVLAGPLFGAEQHGSGTVGQRGGVAGGHGCGAAVLDCVLLAKDRLERSELLRGGVGAQVGVALDAEERGDQVAEEASVVRLRQVLVRRCGELVLSLAGDLHLTGGDGGVLTHRQAGAGLAVLRLLRCQLARTDGAEQLELVGRLLRVGRLDQGLAQGVVDGQGRVRGGVGAAADARVDATHCDGVGDLDCGRQRGATGVLDVDGRGGRRKSGTKHALANEVKVASVLEDGTAGDESEALILQAVAGDEAVDRGGEHVLVGRVCVFLVGTCKGDAVAAEDGDLARLIHCTFPAFNWWKFGVEVHSRCTIQHKRVVL				NA	NA	NA	NA	NA
AK009_06992	390			hypothetical protein	TTGGACCTTTCAGATGAGGTAGGGATTTTAGCGTTCGATGATTGCGACGACGCCCTGGCCGCCTGCGGCACACACGGAGATAAGCGTGCGGCCGCCGCCGTTTTCAACGAGGGTCTTCGCGGCGGAAGCGAGGATGCGTGCGCCGGTAGCAGCGAACGGGTGGCCGGCTGCCAGCGAGGAGCCCTTGACGTTGAGCTTGGAGCGGTCGATCGAGCCCAGCGGGGCGTCGAGGCCGAGGCGCTCGCGGCAGTAGGTCTCGTCTTCCCAGGCCTTGAGCGTGGCCAGAACCTGCGAGGCGAACGCCTCGTGGATCTCGTAGAAGTCGAAGTCCTGCAGGGTCAGGCCCTGGCGCTCGAGCAGGCGCGGCACGGCGTAGGTCGGGGCCATTAG	MDLSDEVGILAFDDCDDALAACGTHGDKRAAAAVFNEGLRGGSEDACAGSSERVAGCQRGALDVELGAVDRAQRGVEAEALAAVGLVFPGLERGQNLRGERLVDLVEVEVLQGQALALEQARHGVGRGH				NA	NA	NA	NA	NA
AK009_06993	2115			hypothetical protein	GTGCGCGCTGGGGCGCTAGCTGAGGTCGGTGCCGCCGTTGGACATCATCGGGCGGTCGAGGACGACCTGCGGGATCTTGAAGGCATCCACAAGTACCTCGGACCACGGGGCAAGGGAGTCAACGAGGTCGTTGACAGCGGCCTTTGCAGCCTTGACGCGGCCGCTCGGCAGCACACCGTGCTCCTGGTACCAATCGGCCTTCTCAACGATGGTGTTGAGCACGAACAGGTGGCGCAGCTGCTCGTAGACGGAGCGTGCGGAGGAGTTCTCCGGAAGCGCCTCCTCGGCCTCAATCATCGCCTGCACCAGCATGCGGTCGCCATATGCGACGGCAGCCTCGAGCAGGTGGTCCTGGGCGCGGTTGATGACCTCAGCGGCCTCCTTGCGCTCCATCTTGCGGGCGACCTGCACGCGGCGCACCAGGGAGTTGAGCACGTGCTCCTCGCGGGCCTGGACGATGCGCAGCTGGGTGTCGGCGTCGAAAAGCGAGCCGGTGCCGGTAACGCGGTCGGACAGGGACTGAACGCTGGCGGCGATGCCGGAGCGGCGGGTCAGGATGTCGCCGATGTTGGAGACGACGAACTTGGCCATGCCGAACGGGGACATCTCGGAAACTTCCCAGCCGTAGGCGGTCAGGAGGTTCTTGCCCACGAGCTGGCGCAGAATGGTGTCGTCACCCTCGAAGGTGGTGAAGATGTCCACGTCAGCGCGGAAGGTCGTCAGCAGGTTCTCGGACATGTAGCCAGCACCACCGCAGGCCTCGCGGCACTCCTGGAGCGTCGCGTTGGCGTGGGTTGCGGCGGTGGCCTTAAAGATGGCCGCCAGGGACTCCATCTCGCGGCCCGCGCGGTCCTGCTCGCGGGTCGGGTTAGCCGGATCCCAGTCACCGGCCATGATGGCGTCGGTCTGCTCCTGGAAGCGATCCAGCAGCTTGTTCTGGAACATGGCCAGCGCGTAGGACTTCGCCAGCGGGATCAGCAGGCGGCGACGGTGCACGCGGTAGTCGATCAGACGGGACTCCTCGCCGACCTCGCCCGCCTCGAACTGGCGGCGGATGTTGGCGTACTTCACGGCGATGGCCAGGCCCGCGCGGGTTGCGCCGGCAGCGGATGCGCCGACACCAAGACGGCCGCGCACGAGGGTGGCGAGCATGGTGAAGAAGCGGCGGTTCTTCGACTCGATCGAGGAGGTGTAGGTGCCGTCCTCGGCGACGTCGGCAAACTTATTCAGGAGGTGCTCGCGCGGGATGCGCACGTTGTTGAATACGAGCATGCCGTTGTCAACGCCGAGCAGGCCGCCCTTGTGGCCGTGGTCGGAGGTGGTCACGCCCTCGGCGTCGGTGCCGTCCTCCTCGCGGATGCGCACGATGAAGCAGTGCACGCCCTTGGACTCCTCAGAGTCCGGGGTGATCAGCTGGGCGAACACGGCGGCCCAGCGGCCGTCACGGGCAGCGTTACCGATGTAAGCCTTCTTTGCGCCCGGGGTCGGAGTGTTGATCACAAACTCCTGAGTCTCCGGGTCGTAGGTGGCGGTGGTCTCGATCTCCTGGACGTTGGAGCCGTGGCCCATCTCGGTCATGGCGAAGCAGCCGAGCATGGACAGGTCCATCGCTCCTTGGGCGAACTTCACGTGGCGCTCGGTGCCGAGGGCGTCAATCGCGCCGCCCCACAGGCCGAACTGGACGCCGGACTTGATGCAGGCCGAGTTGTTGATCTGAGCGATCAGCTCGAGCGAGGACACGCCCGCCGCGACCTGCCCTTCGCCGCCGTTGAGCGGGGAGAAGGAAGGCTGGATACGGCCACTGGAGGCGACCTTCTTGACGTTCTCCAGGTTGTTGGCGCGGATCTCGTCGAGGGTGCCGTCGAGCTTCGGCAGGATCTCCGGGTCATTCAGCAGCGGGCGCAGCGAATCCTTGCGCTCCTTGTACTTGCCGTCAAGGACGTCAGCGAGGTCCTGGACCGCGTTGGAGTCCGGGGTCGCCGGCAGGCGTTCCGGCTGGTTCTTCTCCGGGTGGCCGCTCGCCTTGGTGGTGTCGGTGGCGAGGTGCTTGGCGTCTTTAAAGTCTTCCTTCGGGGGGTTAGGAAGGGGCATGGTTGGACCTTTCAGATGAGGTAG	MRAGALAEVGAAVGHHRAVEDDLRDLEGIHKYLGPRGKGVNEVVDSGLCSLDAAARQHTVLLVPIGLLNDGVEHEQVAQLLVDGACGGVLRKRLLGLNHRLHQHAVAICDGSLEQVVLGAVDDLSGLLALHLAGDLHAAHQGVEHVLLAGLDDAQLGVGVEKRAGAGNAVGQGLNAGGDAGAAGQDVADVGDDELGHAERGHLGNFPAVGGQEVLAHELAQNGVVTLEGGEDVHVSAEGRQQVLGHVASTTAGLAALLERRVGVGCGGGLKDGRQGLHLAARAVLLAGRVSRIPVTGHDGVGLLLEAIQQLVLEHGQRVGLRQRDQQAATVHAVVDQTGLLADLARLELAADVGVLHGDGQARAGCAGSGCADTKTAAHEGGEHGEEAAVLRLDRGGVGAVLGDVGKLIQEVLARDAHVVEYEHAVVNAEQAALVAVVGGGHALGVGAVLLADAHDEAVHALGLLRVRGDQLGEHGGPAAVTGSVTDVSLLCARGRSVDHKLLSLRVVGGGGLDLLDVGAVAHLGHGEAAEHGQVHRSLGELHVALGAEGVNRAAPQAELDAGLDAGRVVDLSDQLERGHARRDLPFAAVERGEGRLDTATGGDLLDVLQVVGADLVEGAVELRQDLRVIQQRAQRILALLVLAVKDVSEVLDRVGVRGRRQAFRLVLLRVAARLGGVGGEVLGVFKVFLRGVRKGHGWTFQMR				NA	NA	NA	NA	NA
AK009_06994	201			hypothetical protein	GTGGCGCAGGTTCACCGGCAGCTCGCGCTCGCGGTGCTTCATCGCCTCGACGTAGAGCTTGCCCGCGCGGTACGACGAACGCACCAGGGGACCAGACATGACGGCCCCGAAGCCCATCTCGTAGGCCGCGTCGCGGTACTCGATGAACTCCTCCGGCTTCACCCAGCGCTCAATAGGGTGGAATTGCGGGCCCGGGCGTAG	MAQVHRQLALAVLHRLDVELARAVRRTHQGTRHDGPEAHLVGRVAVLDELLRLHPALNRVELRARA				NA	NA	NA	NA	NA
AK009_06995	735			hypothetical protein	GTGGAGCGCCTCCATGACCTCCTCGCGGGTCTCTCCCATACCCAGGATCAGGTTGGACTTGGTGATGAGCCCGAAGTCGCGTGCCTGGCGGATCACGTCGAGGGAGCGGTCGTAGCGGAACGCGGGGCGGATGCGGCGGAAGATGCGCGGCACGGTCTCGATGTTGTGCGCGAACACCTCAGGACGGGCCTCGAAGACCTCCTGCAGCAGGTCGGGTTTGCCCGAGAAGTCGGGGGTGAGGTTCTCCACGCCGGTGTGCGGGTTGAGCTCGTGGATCTTGCGCACGACCTCGGCGTAGAGCCAGGCGCCCTCGTCCTCGAGATCGTCGCGGGTCACGCCCGTGATGGTGGAGTAGTTGAGGTTCATTTCGCGGACCGACTCCGCGACGCGCAGTGGCTCACCGCGGTCAAGCGGGTCCGGCTTCGCGGAGTTGATCTGGCAGAAGTCGCAGCGGCGCGAGCAGTTCGCCCCACCGATGAGGAAGGTTGCCTCGCGCGATTCCCAACATTCGTGGATGTTGGGGCAACCCGCCTCTTGGCACACCGTGTGAAGGGACGCTCCCGCCACCTTCTTCTTCATGTCCTCGTACTCAGGGCCAGTTTTCACGGCGTTGCGGATCCACCGCGGCTTCGCCTCGATTGGGGTCTGCGCGTTTCGCTTCTCGACGCGCAGCAGCTTACGGCCTTCAGGTGCAACAGTCACCCCTTAAGGGTATCCCGTATGTCAAGCCACTAG	MERLHDLLAGLSHTQDQVGLGDEPEVACLADHVEGAVVAERGADAAEDARHGLDVVREHLRTGLEDLLQQVGFAREVGGEVLHAGVRVELVDLAHDLGVEPGALVLEIVAGHARDGGVVEVHFADRLRDAQWLTAVKRVRLRGVDLAEVAAARAVRPTDEEGCLARFPTFVDVGATRLLAHRVKGRSRHLLLHVLVLRASFHGVADPPRLRLDWGLRVSLLDAQQLTAFRCNSHPLRVSRMSSH				NA	NA	NA	NA	NA
AK009_06996	1185			hypothetical protein	GTGGTTCTCCACCGCGAGCTCGCCGGACAGGGCGCGGTCGAGGGCGTCGAGAAGCGGGGTGCTCAACTCGTCGGTGGTGACATCGCGGCCGAGTTCGAGGCTCAGGGTGGTCACGTCGGCGTCGTTGATGCCGCAGGCGACGATGTGGCGGTAGGCGTCGAGAGTGTTGTTGCAGTTGAGAGACAGCCCGTGCATGGTCACCCCGCGGGTGACGCGGATGCCGAGAGCGGCGATCTTGCGGTCGCGCGTCGGCGCTTCCGGGTTGGCAGCGCGGGTGCTGTGGGGGACCCAGACGCCGGAGCGGCCGTCGATACGCCCAGCGGTGGTCACTCCCGCTTCGCGCACGGCGTGGATGATGGCCTCTTCGAGCCGGCGCACGTAGTCGACGACGTCGACCGGGTCGGCGAGCTTGACGATGGGGTAGACCACAAGCTGGCCCTCACCGTGCCACGTGATGCGCCCGCCGCGGTCGACCTGCACCACCGGGGCGTCATCGTCGGGCATGTCCGCAGGCTGCGTGCGCTTGCCCGCGGTGTAGGTGTACGGGTGTTCCAGGACCAAGACGGTGTCGCCGATGTCGTCCTTGGCGCGCTGGGCCGCAAGATCGGCCTGGAGTTCCCAGGCGTTGGTGTAGTCGATCAGGCCGAGGTGGCGCACGTCCAAAGGCCCACCAGAAGATCGGATGGGCTCGTTGGCGGGAAAGAAGGGTTCGCGCGGAGCACTCATGCTCCACACTTTAGTCGCGTTTTAGACGCCGTTGGAAGAGGCGTACTCGTCGGCGGTCATCAGCGGGCCGGCGGCCGAGATGGTGACCTCGAAGAGCCACCCCTCGCCGAACGGGTCCTTGTTGATGATCTCGAAGTTGCCGTCGATCTCCTCGTTGACGGCGGCGACGGTGCCGCTGACGGGGGAGTAGAGATCGGAGACGGACTTGGTGGACTCGACCTCGCCGCAGGTCTCGCCCGCGGTGACCTCGTCGCCCACCTGGGGCAGGTCAGCGAAGACGATCTCGCCGAGGCGGTCGGTGGCCACCGAGGTGATGCCGACGCGCACGACGGTGCCCTCGGCAACGTCCTGCGGAGCGTTGATCCACTCGTGGTCTTCGGAGTAGGAGAATTCTTGGGGCAGGGAGTCAGCCATGAGCTTAGGAGTCCTTTCGGGAGTAGAACGGTGTCTCAACGATAG	MVLHRELAGQGAVEGVEKRGAQLVGGDIAAEFEAQGGHVGVVDAAGDDVAVGVESVVAVERQPVHGHPAGDADAESGDLAVARRRFRVGSAGAVGDPDAGAAVDTPSGGHSRFAHGVDDGLFEPAHVVDDVDRVGELDDGVDHKLALTVPRDAPAAVDLHHRGVIVGHVRRLRALARGVGVRVFQDQDGVADVVLGALGRKIGLEFPGVGVVDQAEVAHVQRPTRRSDGLVGGKEGFARSTHAPHFSRVLDAVGRGVLVGGHQRAGGRDGDLEEPPLAERVLVDDLEVAVDLLVDGGDGAADGGVEIGDGLGGLDLAAGLARGDLVAHLGQVSEDDLAEAVGGHRGDADAHDGALGNVLRSVDPLVVFGVGEFLGQGVSHELRSPFGSRTVSQR				NA	NA	NA	NA	NA
AK009_06997	765			hypothetical protein	ATGAGCTTAGGAGTCCTTTCGGGAGTAGAACGGTGTCTCAACGATAGTAAACGGGTAACGGCGCCCGCGGATGTCAATTTCGACGTCGGTGCCAATTTCTGCGCGCTGCGGGTCGAGGTGGGCGAGCGCGACCGGGTAGCCCAGCGTCGGCGACGGCTGGCCGGAGGTGACCACGCCGATCTTCTCGTCGCCGATGTATACCTCGGCGCCCTCGCGCGCGGCGCGGCGATCCTGCGAGGTCAAACCCGCGATGGCCACGGAGGGCTCGCGGCCGGTCAGGGCCTCCTTGCCCACGAAGTCGGCCTCCTTCTTTGCGAAGGCGCGGCCCATGCCCGCCTCCACCGGGGTGATGTCCGCGGTCAGCTCGTGGCCGTAGAGCGGCATGGAGGCCTCCAGGCGCAGCGAGTCGCGCGCGGCGAGGCCGCACGGGGTGCCGTGGCCGATAACGGCCTCCCACACAGAGGGCGCGTTGTCGAAGCTGGAGTAGATCTCGAAGCCGTCCTCGCCGGTGTAGCCGGTGCGGGCGACGATGACGTCGATGGTGTCAGCGCCCTCGCCGAGCTTCATTTCGCCGGCGGAGTAGTAGGGCAGGTCGCCAGGGGCGCCGTCGACAAGCGGCTCGAGCACCTCGAGCGCGCGCGGGCCCTGGACGGCGATGAGGGCGATCTCCTCGCTGCGGTTGGTCAGCTCGACATCGAAGTCGCCGACGCGCGACTGAAACGCCAGCCAGACGGCATCCGTGTTGGCCGCGTTGGGCACCACTAG	MSLGVLSGVERCLNDSKRVTAPADVNFDVGANFCALRVEVGERDRVAQRRRRLAGGDHADLLVADVYLGALARGAAILRGQTRDGHGGLAAGQGLLAHEVGLLLCEGAAHARLHRGDVRGQLVAVERHGGLQAQRVARGEAARGAVADNGLPHRGRVVEAGVDLEAVLAGVAGAGDDDVDGVSALAELHFAGGVVGQVARGAVDKRLEHLERARALDGDEGDLLAAVGQLDIEVADARLKRQPDGIRVGRVGHH				NA	NA	NA	NA	NA
AK009_06998	141			hypothetical protein	GTGGGACAGGTCGAAGATGCCGACGTCGGAACGCACCGCGCGGTGCTCCTCGAGCTCACTGCCGTATTTGAGCGGCATGGTCCAGCCGCCGAAGTCCGTGAAGGAGGCGTTGAGCGCCTCGTGCGTGCTTTTCAGGGGTGA	MGQVEDADVGTHRAVLLELTAVFERHGPAAEVREGGVERLVRAFQG				NA	NA	NA	NA	NA
AK009_06999	2295			hypothetical protein	GTGATTCTGGCATGGTATAAGCCTTTCCTACTTGGAGTTTTCTTCGGTGACTACCACGTCGACCTCTTCGACGGCATCGGGCTCGATGTCGAAGGCCTCGGGCGGCGGGCAGGCGCACTGCAGGTTGCGGTCGCCGTAGGCCTCGTCGATGCGGCGCACCGGCGGGAAGTACTTGTTGTGGATCAGGTTCGGCACAGGGTAGGCCGCCTGCTCGCGCGAGAACTCGTACGGCCACTCGCTGCGCGCGACGCTATAGGCGGTGTACGGGGAGTTGTGCACGACGGACTTCTCGTACTCGATGGTGCCGTCGACGATCTCCTGGATCTCGGCGCGGATGCTGCGCATCGCTTCGATGAAGCGTTTCAGCTCGGCGAGGTCCTCGGACTCGGTGGGTTCGACCATGAGCGTTCCCGCCACGGGGAAGGCCAGGGTCGGGGCGTGGAAGCCGTAGTCCACCAGGCGCTTGGCCACGTCGGTGGCGGTGACGCCGGATTCGGCGGCGATGCCGTTGAGGTCGAGGATGCACTCATGGCCGACCAGTCCGGCGTTGCCGGTGTAGAGGATCGGGTAGGAGTCTTTGAGCTCGTTGACGAGGTAGTTCGCCGCCAAGACTGCGTTCTGGGTGGCCTTCTTCAGCCCCTCGGCGCCCGACATGGCGATATACGCCCACGAGATCGGCAAAACGCCGGCCGAGCCGTGGGTGGTCGACGAGATCGGCACTCCCGCGCCTTCCGGCACGTCGGTGGATGCGTGCTCGCGGGAGACCTGGGGGTCGGCCGGCAGGAAGGGCACGAGGTGCTCCGCCACGCCGATCGGGCCGACGCCCGGGCCGCCGCCACCGTGCGGGATGGTGAACGTCTTGTGCAGATTCAGGTGGCTGACATCGCCGCCGAAGTCCCCCGGGCGGCCGATGCCGGTCAGGGCGTTCATGTTGGCGCCGTCGATGTAGACCTGCCCGCCGGCCGCGTGGACCTTGTCGGCGACGGTCTGGACCGTGTCTTCGTACACGCCGTGCGTGGAGGGGTAGGTCAGCATGATCGCCGCGACGCGTCCGGCGTGCTGCTCCAGCTTGGCGTCGAGATCCGCGATGTCGATGGAGCCGTCGGCGGCAGTCTTAATGACGGCGACGCGCAGGTTGGCCAGCGTCGCCGAGGCGGCGTTCGTGCCGTGCGCGGAGGCCGGGATGAGGCAGATGTCGCGTTCGGAATCGCCGTTGGCGACGTGGTAGCGGCGGATGGCCAACAGGCCGGCCAGTTCGCCCGTGGCGCCGGAGTTCGGCTGGACACTCACGGCCGCGTAGCCGGTGAGTTCAACGAGCCAGTCGGACAGCTCGGTGATCAGCTCGCGCCAGCCCTCGGTGTACTCGTCGGGGGTGAACGGGTGCACGTTGGCGAAACCCGGCCAAGTGATGGACTCCAGGCCCGCGGTGGGGTTGAGCTTCATCGTGCACGACCCCAGCGGGATCATGGTGCGATCCAGCGCAAGATCTTTATCGCCCAGGGTGCGGATGTAGCGCATCATCTGGGTCTCGGAGTGGATGGCGTTGAACGTCTCGTGCGTAAGGAAGTCGGTGGTGCGTGCGAGCTCCTCCGGCAACGTGTTTTCACCGGCGGTAACGGTGCCGCCGAACGCCTCGACGAGCACGCGCAGGTCCTCGTCCTCGGTGTCCTCGCCGAAGCTGACCACGACGGTGTCGGTGCCGATGGTGCGCACGAGGTAGCCCTTGTCGGCCAGCGACTGCTTGATTTCCGCGGCCCGGCCAGGCACGTCCACGGCGACGGTGTCGAAGAAGTGCGCGTGGCGCACGGTGCCTTCGCTAATCGACGCCGCAAAGCTCGCAGCCCGGTCATGAACGGCCTTAGCGATCTCGGTGAGCCCCTGAGGCCCGTGGTAGACGGCGTACATCGACGCCGTCACCGCGAGCAGGGCCTGGGCGGTGCAGATGTTGGATGTCGCGCGCTCGCGGCGAATGTGCTGCTCGCGTGTCTGCAGCGCCAGGCGGTAAGCCGGATAGCCCTCAGCGTCGACGGACACGCCTACGAGCCGGCCAGGCATCTGGCGCTTGAGCTTGTCGGACACCGCCATGTACGCGGCGTGCGGGCCGCCGTAGAACAGCGGCACGCCGAAGCGCTGGGTGGTGCCGATGGCGATGTCGGCGCCGAGCTTGCCCGGGGACTCGAGAAGCGTGAGCGCGAGGATGTCGGCGTCGACGGCGGCGAGGCCACCGCGCTCGTGGATGGCCTCGATGATCGGGCGCGGGTCGAAGATGTCGCCCTCGGTGCCCGGGTAGGCTAG	MILAWYKPFLLGVFFGDYHVDLFDGIGLDVEGLGRRAGALQVAVAVGLVDAAHRREVLVVDQVRHRVGRLLARELVRPLAARDAIGGVRGVVHDGLLVLDGAVDDLLDLGADAAHRFDEAFQLGEVLGLGGFDHERSRHGEGQGRGVEAVVHQALGHVGGGDAGFGGDAVEVEDALMADQSGVAGVEDRVGVFELVDEVVRRQDCVLGGLLQPLGARHGDIRPRDRQNAGRAVGGRRDRHSRAFRHVGGCVLAGDLGVGRQEGHEVLRHADRADARAAATVRDGERLVQIQVADIAAEVPRAADAGQGVHVGAVDVDLPAGRVDLVGDGLDRVFVHAVRGGVGQHDRRDASGVLLQLGVEIRDVDGAVGGSLNDGDAQVGQRRRGGVRAVRGGRDEADVAFGIAVGDVVAADGQQAGQFARGAGVRLDTHGRVAGEFNEPVGQLGDQLAPALGVLVGGERVHVGETRPSDGLQARGGVELHRARPQRDHGAIQRKIFIAQGADVAHHLGLGVDGVERLVRKEVGGACELLRQRVFTGGNGAAERLDEHAQVLVLGVLAEADHDGVGADGAHEVALVGQRLLDFRGPARHVHGDGVEEVRVAHGAFANRRRKARSPVMNGLSDLGEPLRPVVDGVHRRRHREQGLGGADVGCRALAANVLLACLQRQAVSRIALSVDGHAYEPARHLALELVGHRHVRGVRAAVEQRHAEALGGADGDVGAELARGLEKREREDVGVDGGEATALVDGLDDRARVEDVALGARVG				NA	NA	NA	NA	NA
AK009_07000	633			hypothetical protein	GTGCAGGCGGGCGTCGAGAAGCACTCGGCGGCCCTTCTTCACCGCGCGCGACATCAGGCCGATGGCCTCGCCGGCGGCGGAGGCTTCGTCGAGAAGCGAGGCGTTAGACACGGGCAGGCCGGTGAGGTCTTGCACCATGGTCTGGAAGTTCAGCAGCGCCTCGAGGCGTCCCTGGGAAATCTCGGGCTGGTAGGGGGTGTAGGCGGTGTACCAGCCGGCGTCCTCCACGACACCGCGGCGGATCACCGGCGGGGTCAGGGTGGAGGAGAACCCCTGGCCGTAGAAGGCCTTGAGAACGACGTTCTTGTCGGCCAGTTCGCGCAGGCGGGTCTGCGCCTGCTGCTCACTCAACGCCGGCGGAAGGGTGATCTCTTTTTTCGCCTTGATGCCGGGCGGCATGGCCGTGTCAACGAGAGCTTCGACGCTGTCGTATCCCAAGGCTGCGAGCATCTCCTGCTCTTCAGCTTGGTCGGGCCCGATGTGACGGGAAATGAAATCCAACGCGTTCTCCTTGAATCGGGGGTGCAGTGTTACCAACAGTTTAACGAGTCCTCCGACACAGTCGCGTGCGGTTGGTGGCATAAGCCACACCTAGGCCCCTGTACTGGGAAAACAATGGCCTCCCCGGTGTGA	MQAGVEKHSAALLHRARHQADGLAGGGGFVEKRGVRHGQAGEVLHHGLEVQQRLEASLGNLGLVGGVGGVPAGVLHDTAADHRRGQGGGEPLAVEGLENDVLVGQFAQAGLRLLLTQRRRKGDLFFRLDAGRHGRVNESFDAVVSQGCEHLLLFSLVGPDVTGNEIQRVLLESGVQCYQQFNESSDTVACGWWHKPHLGPCTGKTMASPV				NA	NA	NA	NA	NA
AK009_07001	243			hypothetical protein	TTGAGCTTAGAGCCCCAGATCGTCTTCGAACGCGGCGGTTTCGATGCGGTCGCGGATCGTGGTGACGAAGCGTCCGGCGTCGGCGCCGTCGACAAGCTGGTGGTCGTAGGTGAACGGCAGGTAGGTCATCTGACGGATCGCGATAGCGTCCACGCCGTTGTCGGTGACAACAACCGGGCGCTTCTCAATCGCGGCGGTGCCCAAGATTCCGGCCTGCGGCGGGGTGAGGATCGGCGTGTCTAG	MSLEPQIVFERGGFDAVADRGDEASGVGAVDKLVVVGERQVGHLTDRDSVHAVVGDNNRALLNRGGAQDSGLRRGEDRRV				NA	NA	NA	NA	NA
AK009_07002	1608			hypothetical protein	GTGGTAGGTGATCTCCTTGGCCTCGGCGTTGTAGGACGCGTTGACGTTGGGGTGGGAGACCAGGGCCTCGGCGGCAGCTTTGACGAAGAACGCCAGGTAGGTGATGTTGACACCGTACTTCTCCACGAACTTCGGCTTCACCTTCTTGCGCAGGGCAGCGACAGCGGTGACGTCGACTTCCTGGACGTGGGTGAGCTGCGCGGTGGTCTGCAGCGACTCGACCATCTTCGTCGCCGTGATCTGGCGGATACGCGAGACCTTCTGCGTGGTGCCAATGAGCTCCTGCTTGGAGGAGTCGACACCAGCGGTGGACCAGTTCGAGCGCGGGTCCTTGGAAGCCGGCGCCTTATCGGCGGCCGCCTCGCTGGAGGAGTCGCTCGAGGCGCCGCTCGCGGCCTCAGCGGCGGCGAGGACGTCCTGCTTGCGGATGCGCCCGCCCACGCCGGTGCCCTCGATCGAGTTCAGGTCGATGCCGTGCTTGTCGGCGAGCTTGCGCACCAGCGGGGTGACATACGGAACCTTGTCGCCGCGGTTGTCCAGCTTCGTCGACGCGGCAGACGCGTTGGTGGCCTCCTCGTCGGCGCTGTCCTTCTTGGCGTCCTGCTCAGAGCGCTCGTTGGCGGCGGAACCAGCAGCGGCCTTGTCGTCCTGCTTGGGCTCTTCCTTCTCCTCTTCCTCGGCAGGCTCCTCAGCCGCAGCCTCGGACTCTGGGGTGTCCTCGCTGGAGTCGCCCGCGGCGGCTTCCGCGTCGCCGATAATGGCGATTGTCTCACCGACCTCGACGGTGTCGTCCTCCTTGGCGAGGATCTCCAGGATGGTGCCCTCGACAGGGGAGGGAATCTCGGTGTCAACCTTGTCGGTGGAAACCTCGAGCAGCGGCTCGTCGACCTCGACGATGTCACCGACCTGCTTCAGCCAGGTGGTGATGGTGCCCTCAGTAACGGACTCGCCGAGCTCGGGCATCTCGACCTTGGTGGACTCGCCGGAGCCCTTCAGGTTGGTTGCGGAGGAGTTCTTCTCGTCCTTCTTCGGTGCGTCCTCCGGGTTGGTGCCCTCACCTGCGGAGGAGTTGTCCTCGGTGACCTCTTCGTCGGCGTCTGCGACGTTGTCCTCACCGCGGTTGGTCTGCTCGGGCTCGTCGGATGCTGCGGAGGCAGCGGCATCTGCGTCGCCGACGCGGGCGATGACGGCGCCGACCTCGACGGTGTCGTCTTCCTCAGCGAGGATCTCAACGAGTGTGCCCGAAACCGGCGAGGGGATCTCGGTGTCAACCTTGTCGGTGGAGACCTCGAGCAGTGGCTCGTCGACCTCGACCTCGTCGCCGACCTGCTTCAGCCAGGTGGTGATGGTGCCCTCGGTGACGGACTCGCCCAGCTCCGGCATCTCGACGTCGGTGGCGGAACCGGATGCGGGCTTGTCGGCCTTCTTGGCCGGAGCCTGCTGTTTCTTTTCTTCCTCCTGGGCAGGAGCCTTGGACTCGTCAGAATCGTCGGCGGAATCGCCAGACGGCGCCTCGCCCTCTTCACCAATTATTGCGATGGTCTCACCGACCTCGACGGTGTCGTCTTCCTGCGCCTTGATCTCGAGGATCACACCTGCGACGGGTGA	MVGDLLGLGVVGRVDVGVGDQGLGGSFDEERQVGDVDTVLLHELRLHLLAQGSDSGDVDFLDVGELRGGLQRLDHLRRRDLADTRDLLRGANELLLGGVDTSGGPVRARVLGSRRLIGGRLAGGVARGAARGLSGGEDVLLADAPAHAGALDRVQVDAVLVGELAHQRGDIRNLVAAVVQLRRRGRRVGGLLVGAVLLGVLLRALVGGGTSSGLVVLLGLFLLLFLGRLLSRSLGLWGVLAGVARGGFRVADNGDCLTDLDGVVLLGEDLQDGALDRGGNLGVNLVGGNLEQRLVDLDDVTDLLQPGGDGALSNGLAELGHLDLGGLAGALQVGCGGVLLVLLRCVLRVGALTCGGVVLGDLFVGVCDVVLTAVGLLGLVGCCGGSGICVADAGDDGADLDGVVFLSEDLNECARNRRGDLGVNLVGGDLEQWLVDLDLVADLLQPGGDGALGDGLAQLRHLDVGGGTGCGLVGLLGRSLLFLFFLLGRSLGLVRIVGGIARRRLALFTNYCDGLTDLDGVVFLRLDLEDHTCDG				NA	NA	NA	NA	NA
AK009_07003	339			hypothetical protein	TTGCTCGGCGCGCCGGCGCAGGATGCGCTCCTGCTCCATCTTCTTGCGCATGCGCTCCGGGTAGCCCGTCTCCTCGACGTCGTAAAGCGTGATGCCCAGAAGCTTGGCTACGGCGTCAATGCCTTTCGGGCCGCCGATGCGGCGGCGGGTGAAGTTGCCGGCTTCGTCGACAAGCACGACGGACATTTCGTTGACCACGGTCTCCGGCTCTACGAAACCCTCGACGTAGGCGCGACCCGCGACCCACTGGCGCAGGTACTGCGCGTCGTCCGGGCGGATCGTCTCCCCTGGAGCGCGCGGGGGCTTGAGCGGCGAGGAGGATTTCCGCTTGCCGAATAG	MLGAPAQDALLLHLLAHALRVARLLDVVKRDAQKLGYGVNAFRAADAAAGEVAGFVDKHDGHFVDHGLRLYETLDVGATRDPLAQVLRVVRADRLPWSARGLERRGGFPLAE				NA	NA	NA	NA	NA
AK009_07004	177			hypothetical protein	GTGCACACTCCCGGTGTTCCAGGACGGCCCGGCGATGTCCATGTGCACCCACTGCGTGTCATCGTGGATGAATCGGGACAGGTAGAGCCCAGCGTAGAGCATGCCGCCGTTGCGGGAATTGTGCACGTTGCGCATATCGGCGATGGGGGAGCGCAGCTCCTCCTCCTGCTCCTCTAG	MHTPGVPGRPGDVHVHPLRVIVDESGQVEPSVEHAAVAGIVHVAHIGDGGAQLLLLLL				NA	NA	NA	NA	NA
AK009_07005	369			hypothetical protein	TTGCGCGCCGGTCAGCGTGGCGACCTCGATAAGGTAGTCGGGGGCATCTTCGGAAGCGCGGGCGAGGGCGTCGGCAAGCACGAGGCGCCCCTCGGCATCGGTGTTGAGAACCTCGCTGGTCAGCCCACCGTAGTGGGTGATCACGTCACCGGGGCGCGTGGCGCTGCCCGAGGGCATGTTCTCCGCCAGCGGCAGCCATGCTTCGATGCGCGCGTTGACGCCGAGGCGCGCGGCGGCGGCGATGGAGGCCAGCTGAGCGGCCGAGCCGCCCATGTCGGAAATCATGTCCTCCATCTGCGGCGCGGGCTTCAGCGAAATCCCGCCAGTATCGAACGTGATGCCCTTGCCCACCAGAGCAATCGCGCGTGA	MRAGQRGDLDKVVGGIFGSAGEGVGKHEAPLGIGVENLAGQPTVVGDHVTGARGAARGHVLRQRQPCFDARVDAEARGGGDGGQLSGRAAHVGNHVLHLRRGLQRNPASIERDALAHQSNRA				NA	NA	NA	NA	NA
AK009_07006	336			hypothetical protein	ATGAACGAGCCGCGGCGGGCGCGCGGAGCCCTGGCCCACGGCGACGATGCCGCCGAACCCGTTGGCCGCGAGGTACTCCTCGTCGTAGACCTCCACGTCAAGCCCGCACTGGCCGGCGACTTCCTCCATGATGCGCGCGTAGGTCTCCGGGTAGAGGAAGTTGCCGGGGGTGTTGACCAAGTCGCGGGCGAGCAGCGCGGATTCGGCGATGATGACGGCGCGGTCGAACTCCGCGCGGGACTCGGCGGAGTCGCTACCGACGACGGTGATGCGCGTCGGCGCGGTCTCCTCCTCCGGCTGGGCCTTCAGCCCCGCGTAGCTGTAGCCGCCGAGTAG	MNEPRRARGALAHGDDAAEPVGREVLLVVDLHVKPALAGDFLHDARVGLRVEEVAGGVDQVAGEQRGFGDDDGAVELRAGLGGVATDDGDARRRGLLLRLGLQPRVAVAAE				NA	NA	NA	NA	NA
AK009_07007	273			hypothetical protein	GTGGTCGTCGATAAGCAAGCGGCTCACTTCGCCCTGCTTGCCTCGCGCGCCGACGGCCTCGAGGCTCTCCAGCAGTCCCTGGGCGGCGAGCGCCGTGACCGGCAGCTCCAGACCGTCGCTAGTGGATACGGGCACGAGCGCAACACCCGGATCAGCCGGAACCTCCGTGGCGAATTCCAGCTCAACGGTGGTGCCGCGTGCCGGCAGCGAAACCTCGAACGTCATTTACAACCAATCCTTTCTTCCTGGGGAAATCGGAAAGTTTATTTCTGA	MVVDKQAAHFALLASRADGLEALQQSLGGERRDRQLQTVASGYGHERNTRISRNLRGEFQLNGGAACRQRNLERHLQPILSSWGNRKVYF				NA	NA	NA	NA	NA
AK009_07008	1224			hypothetical protein	GTGGGTGTCCTCGACCTCGCCTTCCTGGATGGCGCGCAGCTGCTTGCGCAGCTTTATGCTCACATCGCCCGCCTCGTTGCCGCCGATGGTGAACTCGCCGGAGTTGGACAACACCTTGCCCACAGGCGTGATCACGGCCGCGGTGCCGCAAGCCAGCGTCTCGGTGATCTCGCCGGAGGCGACACCGTCGCGCCACTGATCGACAGTGATGCGACGCTCCTCGGTGCCGTAGCCGAGGTCCTTTGCCACCTGCAGGATGGAGTCGCGGGTGATACCCGGCAACAGCGAGCCAGACAGCGACGGGGTGACGATGGTGACGCCCTCGGCAGAGTCCTCGGACCCGTAGACGAACATCAGGTTCATGCCGCCCATCTCTTCGATGTAGGAGCGCTCGATGGCGTCGAGCCACACGACCTGGTCGCAGCCCTTCTGCTCCGCCTGGGCCTGCGCGAGCAGGGACGCGGCGTAGTTGCCGGCGAACTTCGCGTCGCCGGTGCCGCCCGGCGCGGCGCGCACGTAGTCCTCGGAGATCCACACCGACACCGGCTTCACGCCGCCGCGGAAGTACGCGCCAACCGGCGAGGCAATGACGTAGAAGGTGTAGGACGAGGACGGCTTGACACCAAGGGATGCCTCGTTAGCGATCATGAACGGGCGCAGGTACAGAGACGATTCCCCGCCGGCTTCGGGGACCCACGCTTCGTCGATGGTGACGAGCTGACGCAGCGACTCCAGAAACAGCTCGTCGGGAAGCTCCGGCATGGCGAGTCGGCGCGCGGACGAGCGCATGCGCGCGGCGTTCTGCTCGGGGCGGAACGTAGTGATCCCACCGCCGCGGTTACGATACGCCTTCAAGCCCTCGAAGATCGCCTGGCCGTAGTGCAGCACGCTCGCCGCGGGGTCGAGCGAGATCGGCCCGTAGCGGCGGACCTGCGGATCGTGCCAACCGCGTTCCCTGCTCCAATCAATGGAGACCATGTGGTCGGTGAATACCTGCCCGAACTTCGGCTCCCGCAAAACCTCGGCGCGCTCGGCGTCCGGAGTTGGGTTGGGGTTGTTCGTGACAGTGAATTCAGTGGAGTTCAGGGTGGTCATGCGAACATACTCTACTCCTTTGACACGGTACGGTTGATCAGAAATAAACTTTCCGATTTCCCCAGGAAGAAAGGATTGGTTGTAAATGACGTTCGAGGTTTCGCTGCCGGCACGCGGCACCACCGTTGA	MGVLDLAFLDGAQLLAQLYAHIARLVAADGELAGVGQHLAHRRDHGRGAASQRLGDLAGGDTVAPLIDSDATLLGAVAEVLCHLQDGVAGDTRQQRARQRRGDDGDALGRVLGPVDEHQVHAAHLFDVGALDGVEPHDLVAALLLRLGLREQGRGVVAGELRVAGAARRGAHVVLGDPHRHRLHAAAEVRANRRGNDVEGVGRGRLDTKGCLVSDHERAQVQRRFPAGFGDPRFVDGDELTQRLQKQLVGKLRHGESARGRAHARGVLLGAERSDPTAAVTIRLQALEDRLAVVQHARRGVERDRPVAADLRIVPTAFPAPINGDHVVGEYLPELRLPQNLGALGVRSWVGVVRDSEFSGVQGGHANILYSFDTVRLIRNKLSDFPRKKGLVVNDVRGFAAGTRHHR				NA	NA	NA	NA	NA
AK009_07009	621			hypothetical protein	GTGGAACCAGGTGCTCGTCGAGGCGCCCGCCACCGCGTAGCTGCCTTAGCCCTCCTGGCCGCCGAGCTCCTCACCAGCGAGCTCGGCGGCCGCGTTGATAACGGGCAGGGCGAGCATCGCGCCGGCGGCCTGGCCGGTGGACATGTCGAGCGCCAGCACCGGGGTGAGCTCGAGCGCCTGGACGCATACCGCGTGGCAGGGCTCTGGGCTGAGCTGCCCGGCGATCAGCCACCGCTTGGTGCCCGGGGCGAGTTTTTCTGCGACGAAGGCGGCGACGGCGACGTACGCGCCGTCGATAAGCACGGGCGTGCGGCGAACCGCGGCCTGGGCGATCAACGCGACGAGCGTGACGAAGTCCGGCCCCGATATCGCGCGCAGCACCGCGGGGACGTCGTCGCGGAACCCGCGGACGCGGAACATGGCATCGCGCACGGCGACGACCTTGACCTTCCACACCTCGTCGTTGATGCCGCTGCCGCGCCCGATTGCCACAGCGGGCTCCGTGCGGGTGAGTGCGCCGAACACCGCCGCGGCGACCGTGGTGTTACCCACGCCGAGGTCGCCGGGGATGATCAGGTCCGTGCCGGCGTCGACCTCGTTGTCGGCGATCTGGGTGCCTAA	MEPGARRGARHRVAALALLAAELLTSELGGRVDNGQGEHRAGGLAGGHVERQHRGELERLDAYRVAGLWAELPGDQPPLGARGEFFCDEGGDGDVRAVDKHGRAANRGLGDQRDERDEVRPRYRAQHRGDVVAEPADAEHGIAHGDDLDLPHLVVDAAAAPDCHSGLRAGECAEHRRGDRGVTHAEVAGDDQVRAGVDLVVGDLGA				NA	NA	NA	NA	NA
AK009_07010	258			hypothetical protein	GTGCGGGGCGTCGGCGAAGTCGTCGACAAGCCGCAGCGTGCAGTTGGCCATGCGCGCCGCGGTGTTGGCGGGGCCGCCGCCGGCGCGGATCTCCTCGACCTGTACGGCCGTTGCCTCCGGCAGCAGCGCCGAAATGCCGCGCTGCGCCACGGCGTGGTTACCCGCGACGATGATCGCGCGCGCCCGGTCGAACGGTTCCGGGGTAGCAGACGAGGTCACGGACGCGACCCAGGCGGCGATCTCTCCCAGGCGGCCTAG	MRGVGEVVDKPQRAVGHARRGVGGAAAGADLLDLYGRCLRQQRRNAALRHGVVTRDDDRARPVERFRGSRRGHGRDPGGDLSQAA				NA	NA	NA	NA	NA
AK009_07011	837			hypothetical protein	TTGCGAGCCAGCCTACCTACTGCCCGCTTCTTGGGGTACAACGCCAATGCGGCAAGCCATATTCCCGTAACGTCAGCGAGGCCTTGTAGCCTTAAGGGCGTGAAACTTCCGTGGCAGAAAACCGAGAACACCAAGGCGGCTGCCGGCTCCACCAAAATTGAGCTGCCGCAGTCCACTGCAGGCACAAGCGAGCCTGTCGACGCCGCCACAACGCGGGAGGAAAAGAAGCTCCCCAAGGGCTACACCCCGCCGAAGGGCCGCCCGACCCCGAAGCGCATTGAGCAGGAGGTCAAGCGCGGTGTCGTGCGCGACCCCAACGCGCTGACGCCCGCGCAGCAGAACCAGCGCAACAAGGAACTGCGCAAGTCCATGTCCAAAGAGGAGTGGAAGGCCTACAAGAAGAAGCAGCGCGATGAGCGCCGCGCCTCCAACCGCGAGATGCAGGCCCGGATGGACCAGGGCGACGAGCGCTACCTGATGGACCGCGATAAGGGCGAGGTGCGCCGCTACGTGCGCGATTGGATCGATTCGCGCTACTTCATCAACAACTGGGTCATGCCCATCGCGCTGGTGATCCTGGTACTAACGTTTCTGGTGTCGTTTGCCAGCCCGCAGGTGGCCAACATCATTACGTTTATCTCCATGGCGTTTATGCTGACGATTATCGCCGAGGGCTTCATCATCGGCCGATCCGCGAACAAGGCCGTGCGCGCCAAGTTCCCCGACACGGATGAAACCGGCTTCCCGCTAGGCATGTACGCCTTCTCGCGCGCCACCCAGCCGCGCAAGTGGCGCACGCCGAAGCCGCAGGTCGCAGCCGGATCGAAGGTTCAGTAG	MRASLPTARFLGYNANAASHIPVTSARPCSLKGVKLPWQKTENTKAAAGSTKIELPQSTAGTSEPVDAATTREEKKLPKGYTPPKGRPTPKRIEQEVKRGVVRDPNALTPAQQNQRNKELRKSMSKEEWKAYKKKQRDERRASNREMQARMDQGDERYLMDRDKGEVRRYVRDWIDSRYFINNWVMPIALVILVLTFLVSFASPQVANIITFISMAFMLTIIAEGFIIGRSANKAVRAKFPDTDETGFPLGMYAFSRATQPRKWRTPKPQVAAGSKVQ				NA	NA	NA	NA	NA
AK009_07012	399			hypothetical protein	TTGCTGGGGGCGTCGAGAAGCGAGCGCGACTTAGTTGAACGAGTCGCCGCAGGCGCAGGACCCGCCAGCGTTGGGGTTGTCGATGGTGAAGCCCTGCTGCTCGATGGTGTCGGCGAAGTCAATGGTCGCGCCCATCAGGTAGGGCACGCTCATCTTGTCTACGACGAGACGGACGCCGCCGATCTCGTCGGCCTTGTCGCCGTCGAGGTCGCGGTCGTCGAAGTACAGCTGGTAGCGCAGGCCAGCGCAGCCGCCCGGCTGAACGGCAATGCGCAGCGCGAGGTCGTTGCGTCCTTCCTGGTCGAGGAGGGCCTTGGCCTTAGCCGCGGCCGCGTCGGTCAGCGTGACGCCGGTGGTGGAGGTGGGTGCAGTCATGTGATGCTCCTTGACAAACTGTGA	MLGASRSERDLVERVAAGAGPASVGVVDGEALLLDGVGEVNGRAHQVGHAHLVYDETDAADLVGLVAVEVAVVEVQLVAQASAAARLNGNAQREVVASFLVEEGLGLSRGRVGQRDAGGGGGCSHVMLLDKL				NA	NA	NA	NA	NA
AK009_07013	429			hypothetical protein	GTGCTCGATGTCCGGGTCGATGCGGTGCTCGATGAAGATGCCGTGCCAGACCATGAACGCCAGCACCGTCCACAGACGCCGGGAGTGGTCGGCTACCCCGTCGCGGTGCTCCTTGAGCATCTCCAAGACCTCGGCCTTATTGAAGATGTCGTCGGTCGCGGACTCGCGGATGGTGTCCTGGGCCCAGCCGAAGAGCTCGTCGCCGGCGAGCCAGTGGCGCATCGGCACCGGGAAGCCAAGCTTCTTGCGGTGCAGCACGTGTGCCGGAACAATCTGCTCCATCGCCTTGCGCAGCGCGTACTTGGTCGTGCCGTGGGCAATCTTCTGGTCGAACGGGATCGTCTGGGCGACCTTGAACACTTCCTTGTCCAAAAAGGGCACGCGCAGCTCCAGCGAGTTCGCCATGTTCATCTTGTCGGCCTTGACTAG	MLDVRVDAVLDEDAVPDHERQHRPQTPGVVGYPVAVLLEHLQDLGLIEDVVGRGLADGVLGPAEELVAGEPVAHRHREAKLLAVQHVCRNNLLHRLAQRVLGRAVGNLLVERDRLGDLEHFLVQKGHAQLQRVRHVHLVGLD				NA	NA	NA	NA	NA
AK009_07014	1473			hypothetical protein	GTGATCCCACTCACGCTTGGCCCACGGCAGAACGCGCTGGAGCTGCTCGAAGTTAAACGACCGCGCGTTGCCGTAGTAGCGCTCCTCCATAGGGGTGGTGCCGCGCTCGAGCAGGCTCTTTCCCTTCATGCCGTCCGGCAGGACGCGGCTGAGCCGGTTGAGCCCGCGCGCAAGAGGAGTGGGCAGCTTCTCAAACGGCGCGAGCGACAGCGGCTCCTTGTAAATTGTGTAGCCGCCGAACAGCTCGTCGGCGCCCTCGCCGGAGAGCACGACCTTGACGTGCTTGCGCGCCTCTTGCGCCACGAAGTACAGCGGCACGAGCGAGGGGTCGGCCACCGGGTCGTCGAGGTACCACATGATCTTCGGGATCGCCGCGGCGTACTCCTCGGGGGAGACGATCTTCACGATGTGCTCGACGCCGATCGCCGCAGCGGATTCAGCGGCGACGTCGACCTCGGAGTAGCCCTCCCGCTCGAACCCGGTCGTGAACGTCAACAGGTTCGGGTTGTGCCGCTTGGCCAGCGCGGCGATCGCCGTGGAGTCGATCCCGCCCGAGAGGAAGGAGCCCACGGTCACGTCAGCTCGCATGTGCTTTTCGACGCTGTCCTCCAACGCGCGGGCGATGGCGTCGTAAAGCGATTGCTCACTGCCCTTGGCCACGGGCGACGCCTTGAACTCGGGGGTGAAGTAGCGCTTGGCGTCGACAGTGCCGCCCGGGCGAATGGTGACGGTGCTGCCGGATTCGACGCGGCGGATCTGCGCGTGCAGGCTCTCCGGCTCCGGCACGTACTGCAGGTCGGTGTAGTGGACGATCGCGCGGCGGTCCAGCTCCAGCCCCAGGCCCAGCTCATTGGCCATCTCGAGGATGGACTTCTTCTCGGAGGCGAACACGGTGCCCGTGTCGGTGGAGGCGAAGTACAGCGGCTTGATGCCGAACTGGTCGCGCGCGGCGAACATCGTGCGCGTCTCGGTGTCCCAGATGACAAAACCGAACATGCCGCGCAGGTGGTTGACCACGTCGGCGCCCCAGTGGTGGAAGCCAACCACGATCGGCTCTCCGTCGCCCTCGGTGTTGAAGGTGTAGCCCTCGGCCGCGAGCTCGTCTCGCAGCTCGAGGTAGTTGTAGATCTCACCGTTAAACACGAGCGCGTAGCGGCCTGGGTTTTCGGCGGGGCCCCAGCGCAACGGCTGGTCGGAGTGCTCAATGTCGATGATCGCCAGTCGGTTGAAACCGAACACAGCGTCGTCGTCGTTCCACGTACCTGCGGCATCCGGACCGCGGTGGTACATGCAGGGCAAAGCCCTTTCCACTGCCCCTACGAAGTGAGATGCGTCATTGTTCGCGGCGAGAAAACCGACGAGACCGCACATGCGTCAATGCCTCCTATATATAAGGTCGCGCCGCTTGAGCGACGCCATCGTCCCAAGAATAGAGTTTCCCCGCCGCGCAGTGTGAACCGACCTGGCCGGTGA	MIPLTLGPRQNALELLEVKRPRVAVVALLHRGGAALEQALSLHAVRQDAAEPVEPARKRSGQLLKRRERQRLLVNCVAAEQLVGALAGEHDLDVLARLLRHEVQRHERGVGHRVVEVPHDLRDRRGVLLGGDDLHDVLDADRRSGFSGDVDLGVALPLEPGRERQQVRVVPLGQRGDRRGVDPAREEGAHGHVSSHVLFDAVLQRAGDGVVKRLLTALGHGRRLELGGEVALGVDSAARANGDGAAGFDAADLRVQALRLRHVLQVGVVDDRAAVQLQPQAQLIGHLEDGLLLGGEHGARVGGGEVQRLDAELVARGEHRARLGVPDDKTEHAAQVVDHVGAPVVEANHDRLSVALGVEGVALGRELVSQLEVVVDLTVKHERVAAWVFGGAPAQRLVGVLNVDDRQSVETEHSVVVVPRTCGIRTAVVHAGQSPFHCPYEVRCVIVRGEKTDETAHASMPPIYKVAPLERRHRPKNRVSPPRSVNRPGR				NA	NA	NA	NA	NA
AK009_07015	636			hypothetical protein	GTGGATCGGGTTGGCGTTCGGCAAGTCCTCTGCGTCGAACTTCGTATCCTCAGCCTGTGCTTGGCGGGCCTCGTCGACACCGTTGTAGAGCTGGCCCGTCGGGGAAAGGTCCGCGCCAATCTGGGAGTAGCCGAACTTCCAGTTCCACTGGAATGCGGTGACGTCGACGGTCACCTCGGGGTCCTTATCCAGGGCGACTGCCTTGGTCTGCGCCTGAACGGTGAAGAAGAACAGAACGAAGACGATGATGATCGGGAGGATCGTCAGGCCGAGCTCGAGCGGCACGTTGTACTGCAGCTGCTTCGGGAACTCGTCGTCAGTCTTCTTCGCCTGCGCCTTGGCGTTCCACTTGAAGATGGCGACGAGGAACAGCACCCACATGATGATGCCGATGGTCCAGGCGGCAACCCAGACCCACACCCAGAAGTTGTACATCTGGACACCCTCGGGGGTGATCGGGTCGGGCCAGCCCATGTCGAGCACGTTGGCCAGCGCTGCCGGCGGAGCTACCTCGCAACCAGCCAGAGCGAAGCTGCCGAGCAGGAGCGAGCCCGCGACTGCGACCTTTTTGGCCAAGCTGCGGTTCTTTTCCTTTTCCACGTGTGTCTGCCTTCCTGTCCACACTTCAACAATTGA	MDRVGVRQVLCVELRILSLCLAGLVDTVVELARRGKVRANLGVAELPVPLECGDVDGHLGVLIQGDCLGLRLNGEEEQNEDDDDREDRQAELERHVVLQLLRELVVSLLRLRLGVPLEDGDEEQHPHDDADGPGGNPDPHPEVVHLDTLGGDRVGPAHVEHVGQRCRRSYLATSQSEAAEQERARDCDLFGQAAVLFLFHVCLPSCPHFNN				NA	NA	NA	NA	NA
AK009_07016	711	rplA_1	COG0081	50S ribosomal protein L1	ATGGCTAAGAAGTCCAAGCGCTACAACGAGCAGTTCGCCAAGGTGGACCGCGATAACCTCTACCACCCGCTCGAGGCCGTCACCCTTGCGAAGGAGACGTCCTCCGACAAGTACGACGCCACCATCGACGTGGCGATGCGCCTGTCCGTCGACCCGCGCAAGGCTGACCAGCTCGTGCGCGGCACGGTTTCCCTGCCGAACGGCACCGGCAAGACCGTCCGCGTCGCAGTCTTCGCCGAGGGCGAGAACGCAACCAAGGCTGAGGAGGCCGGGGCGGACATCGTCGGCACCGACGCTCTCATCGAGCAGATCAACGCCGGCCAGATCGACTTCGACGTCGCCATTGCGACGCCGGACCAGATGGCCAAGGTCGGCCGCGTTGCGCGCGTGCTCGGCCCGCGCGGTCTCATGCCGAACCCGAAGACCGGTACCGTCACCCCGGATGTTGCCAAGGCAATCGCCGATGTCAAGGGCGGCAAGATCGCTTTCCGCGTGGACAAGGCCGCGAACCTCCATGCGTTGATCGGCAAGGCATCGTTTACCCCGGAGCAGCTCGCGGAGAACTATGGCGCGCTTCTCGATGAGGTGCTGCGCCTCAAGCCGGCGTCTTCCAAGGGCATCTACCTGAAGAAGATCACCGTCTCCGCGACCCAGGGCCCGGGCGTCCCGGTCGATCCTTCTGTGCAGAAGAACTACGCCACCAAGGCCTAA	MAKKSKRYNEQFAKVDRDNLYHPLEAVTLAKETSSDKYDATIDVAMRLSVDPRKADQLVRGTVSLPNGTGKTVRVAVFAEGENATKAEEAGADIVGTDALIEQINAGQIDFDVAIATPDQMAKVGRVARVLGPRGLMPNPKTGTVTPDVAKAIADVKGGKIAFRVDKAANLHALIGKASFTPEQLAENYGALLDEVLRLKPASSKGIYLKKITVSATQGPGVPVDPSVQKNYATKA				NA	NA	NA	NA	NA
AK009_07017	483			hypothetical protein	ATGCGAGCACGAAGCTCACTAACTCAGAAGCAACGAGAACAACTCGTCGACTATTTTGAACAAGGCCTCGGTGCCCAAGCCCTGGCCACGCTCATGGGCGTGCACCGCGATAGCGTCCGAGTTCTGCATCGACGATGGAAACTGCATGGCAGGCTATGCCTTGTGGAGAAACCAACCAAGCAGACCTACTCCTTCGAGACCAAGAAACAGGTCGTCGACCGGTTCAACGCCGGCGAATCAAAGATGGAGCTGGCCGCGGAATTCCAGTTGTCCTCCGATCAATTGGTCACCGGCTGGGTCCGGGCCTGGCGCCAGGGCGGCGATGAGGCACTCATGCCCAAGCCCAAAGGCCGACCCAAGAAATCGGTGGAGCCGACACCCGAATCCGAGGAAGACAAACTCCGCCGCGAACTGCGCCTGCTCAAGGCCGAAAACGCCTACCTAAAAAAATTGCGGGACTTGAGGGAGCAGGGACACGCCTGA	MRARSSLTQKQREQLVDYFEQGLGAQALATLMGVHRDSVRVLHRRWKLHGRLCLVEKPTKQTYSFETKKQVVDRFNAGESKMELAAEFQLSSDQLVTGWVRAWRQGGDEALMPKPKGRPKKSVEPTPESEEDKLRRELRLLKAENAYLKKLRDLREQGHA				NA	NA	NA	NA	NA
AK009_07018	831			hypothetical protein	TTGCGTGTTGTACCAGTCGATGTAGTCCTCAACCTCGGCGAGGAAATCCTCCACACTGGCGAAGTGCTCACCGTGAAACATCTCGGACTTCATGTGCCCGAAGAAATTCTCCATCACCGCATTGTCGTAGCAGTTGCCCTTACGCGACATCGACTGCACGCCCGCACACCCGGCAATGAGATTGCGCCACGAGGTGTGCTGGTACTGGAAACCCTGATCGGTGTGCACCAGCAGGCCCGCATCCGGCGTCCACGCGGCCAGGGCGTCCGACAAGGATTGCGCCGTCAACGCCGTCGACGGCGACCTGGACACCGCATAGGAGATGATCGAGCGGTCGTACAGGTCCATGATCGGCGACAGGTAGACCTTCGTGCCGGCGACCTGGAATTCGGTGACGTCGCTGACCCACTTCATGTTCGGCGCATCCGGCTCAAAGTCGCGGGCCAGGACGTTCTCGGCGATGTGGCTGACGGTGCCGCGATAGGAGGAGTACCTGCGCCGCGGCCGGACCTTGGACTTCAGGCCCATCTGCCGCATGAGTTTGAGCACCAGCTTGTTGGACACGACCCAGCCCTCTGCCTGCAGCAGCATACGGATACGCCGGTAGCCGAAACGGCGTTTGTGTTCGGTGAACCTCGCACTGATGACCTCCTTGAGCTGGGCGTGCTTGTCGGGCTGGTTAAGCAGCACCTGGTGGTAGAAGAAGGTGGAGCGGGCCATCCCGGCCACCGTGAGCAGGTCGGCCAGTCGGTGCTCGGACTTGAGGGTGACGATTGCCTTTACTTTCAGGCGTGTCCCTGCTCCCTCAAGTCCCGCAATTTTTTTAGGTAG	MRVVPVDVVLNLGEEILHTGEVLTVKHLGLHVPEEILHHRIVVAVALTRHRLHARTPGNEIAPRGVLVLETLIGVHQQARIRRPRGQGVRQGLRRQRRRRRPGHRIGDDRAVVQVHDRRQVDLRAGDLEFGDVADPLHVRRIRLKVAGQDVLGDVADGAAIGGVPAPRPDLGLQAHLPHEFEHQLVGHDPALCLQQHTDTPVAETAFVFGEPRTDDLLELGVLVGLVKQHLVVEEGGAGHPGHREQVGQSVLGLEGDDCLYFQACPCSLKSRNFFR				NA	NA	NA	NA	NA
AK009_07019	114			hypothetical protein	ATGGTCATGGTGAGACTCCCCGTCTTCGCACAAAGTGAGCATAATGTAGAAACTGACTCATCGAACCTTAAGGTTCAACACTTGCGCACCGAAGAATCTGAGGTGAACAGTTAG	MVMVRLPVFAQSEHNVETDSSNLKVQHLRTEESEVNS				NA	NA	NA	NA	NA
AK009_07020	1992			hypothetical protein	GTGCTGGACGTTGACCATCACGCGCTCCTCGGTCACGATCGGGCCACAGGTCTCAGCGTCCTTCGGCACCGTGAGGAAGCACTTGACCTGGCCGCGGTTCTCGCCTTCGAGGCCAACAGCGTAGAGACCGTCGTTGCTGCCCAGCGCGTTGCCGTCGGTGGAGATCCAGAGGTTTCCGTAGGTGTCGAACGCAAGGTTGTCCGGGCAGGAGATCGGGGAAACCTTGTCCTTGTCGAAGCCGCCAAAGTAGGTCGACGCCGCAGCCGGGTCACCACACACCAGAAGCAGGTTCCAGGTGAAGTTCTCGCCCGCGAAGTCATCCTCGATCTCCATGACAAGACCGTTCTTGTTCTCGCGGATCGGCGCGTACTCCATCACGTCTTCCTTGCTCTTCGACGCGTTCTCGCCGGTCGCACCGCGGTAGGAGTTGTTGGTCAGGGCAACGTAGACCTTTTCGTTGACCGGGTTGACCTCAAAGTCCTCCGGGCGATCCATCTTCGTCGCACCGACCTCATCGGCCGCGAGGCGGGTGTAGACCGCAACCTCCTCGGGGGTGAAGCCGTCGACATGCGACTCGGCACCATTCTCGGTCACCGTCAGCAGCTTGACCCACGTGCCCTTACCGTCGAACTCGCCGTCGGACGGCAGGTCGCCGTCGCCAGTGATCTCGCTCTGCGGGGAGTCGCCCTCGAGCTTGGCCACGTAGAGGGTGCCCTCGTCGAGGATGCTCATGTTGTGCTCGACGTCGCCCTCGTCCATCTTCTTGGAGGAGACAAACTTGTAGATGTACTCGAAGCGGGAATCGTCGCCCGAGTAGCACACCACGGTGCCATCCTTGTCAACGTGGACGTTTCCGGCCTCGTGCTTGAAGCGGCCCATCGAGGTGTGCTTGATCGGGGTGGAGTTCGGGTCCAGCGGGTTGATCTCGACGATGTAGCCGAAACGGTTGAACTCGTTGGGCTCCTTCGCCAGGTCGAAGCGATCGTGCAGGCGCTCCCACTTGCGCTCGGAGGCCTCATCATCCACGCCGAAACGCTTCACGTCTGCGGCCGGGCGCTCGCCCGTAACGGCGGCACCGTTAGCGAAGTACTGGTCGATGTTCTCCTCGCCCGACAGGAAGGTGCCCCACGGGGTCATGCCGCCCGCGCAGTTGTTCAGCGTGCCCAGAACCGTCTTGCCCTCCGGGTCTGCGCTGGTCTTGACCAGGTCAGCACCAGCGAGGATACCGCGGAGCTCAAACGGGGTGTTCGCGGTGATGCGGCGGTTCAGCGGGCCGAACTCGCGCTTGAGCTCGCCGGTGTCGCCCACCTTGGACACCTCGAGGATGGTGTGGCCGTGGTTAGCCAGGCCGATGTTGATCTGCTCATCGGTGGGGTTGTCCGCGTCGTAGCCCGGGAACATCTGCGGCTCGGTGGTGTACTCGTGCGAACACACGTACACCATGCGGCTGTCATCGTCCGGGTGGTCCATCAGACCAGCGAAGTCGTTGTTGAAACCGAACTGCTTCTCCGCGTCAGCCGCGGTCTGGTTCTCTGGGTCGAACTCCGGAGCGTCCTTGAAAATCGGGTCGCCCCAGGCAATAAGAACGCTGGTGGCGTAGCCGGTCGGGACAACAACCTTGTCCTCGGTATTCGGTGCGACCGGCTCGAACTGCATGCCCTTGAGCGCCTTGACCTCGGTAGCTGTGGCCGAGGAGCTGCCCGTCGCCGCGGACGCGGTGGTCGTACCAGCCGCGCCACTGCCCGGCTCGGAGCTGCAGGCCGCGAGGGCGGCACCGCCGCCGACGGTGACCACACCGAGGCCGAAGGACTTCAGCACTCCGCGGCGCGAGACGAGGTCGCCGAAGTAGGCGTTATCGGAGGTGTTAGTGCACTCGCCCCAACATGCGTTACCGCACTTGTAGGTACAGGTCAGCTTGGACCGCTTGGACTGGAACAGAAGGTTAAGGCCCTTGATGGTCATGGTGAGACTCCCCGTCTTCGCACAAAGTGA	MLDVDHHALLGHDRATGLSVLRHREEALDLAAVLAFEANSVETVVAAQRVAVGGDPEVSVGVERKVVRAGDRGNLVLVEAAKVGRRRSRVTTHQKQVPGEVLAREVILDLHDKTVLVLADRRVLHHVFLALRRVLAGRTAVGVVGQGNVDLFVDRVDLKVLRAIHLRRTDLIGREAGVDRNLLGGEAVDMRLGTILGHRQQLDPRALTVELAVGRQVAVASDLALRGVALELGHVEGALVEDAHVVLDVALVHLLGGDKLVDVLEAGIVARVAHHGAILVNVDVSGLVLEAAHRGVLDRGGVRVQRVDLDDVAETVELVGLLRQVEAIVQALPLALGGLIIHAETLHVCGRALARNGGTVSEVLVDVLLARQEGAPRGHAARAVVQRAQNRLALRVCAGLDQVSTSEDTAELKRGVRGDAAVQRAELALELAGVAHLGHLEDGVAVVSQADVDLLIGGVVRVVAREHLRLGGVLVRTHVHHAAVIVRVVHQTSEVVVETELLLRVSRGLVLWVELRSVLENRVAPGNKNAGGVAGRDNNLVLGIRCDRLELHALERLDLGSCGRGAARRRGRGGRTSRATARLGAAGREGGTAADGDHTEAEGLQHSAARDEVAEVGVIGGVSALAPTCVTALVGTGQLGPLGLEQKVKALDGHGETPRLRTK				NA	NA	NA	NA	NA
AK009_07021	1041			hypothetical protein	ATGAAGAAGTTTGGATTCCTTTCCTTCGGCCACTACGCGTTTTCCGGGCAGCAGGGCCCAGGCGCGAAGCAAACCCTGCAGGACACCGTAGAGATCGCGCGGCAAGCGGACGCGATCGGCGTCAACGGCGCCTACGTCCGGGTGCATCACTTCGCCCCGCAGTTCTCATCACCGATCGCGCTGCTCTCCGCAATGGCCGCGGTAACGAAGCACATCGAGGTGGGAACGGGTGTGTTGGATATGCGCTACGCCAACCCGCTGCAGCTCGCCGAGGACATCGCCACGCTCGACCTGCTCTCCAACGAGCGCGTCGCCCTCGGTGTGTCCCGCGGTTCACCCGAGCCCGCCGACAAGGGCTGGGAGTCATTCGGCTTCACCGCCCAAGCGGACAACGGCGCGGACTTAGCAAGGGATCACTTGGAGCGCTTCATGGCCGCGCTGCGCGGCGAGGGGATGGCGGTCTCGGCGCCGCTGGACAGGCAGTACCCGCGGATGTATCGCCCGGGCATCGATCTGCCGGTGCTGCCGCACTCGCCGGGCGCGGACCGCCGCATCTGGTGGGGTGCGGGGTCCTTCGAGTCCGCTGAGCAGGCGGCCCGTGACGGGGTGAACCTGATGAGCTCGACGCTGATCAGCGAGGCCGACGGGTCGTCGTTAGGCGAGCTCCAGGCCCGTCAGATTCAGCGCTACCGCGAGTCGTGGGCCGAGGCCGGCCACGAGTGGACGCCGCGCGTGTCGGTGTCGCGCAGCGTTTTTCCGATCGTTGACGACACCTCGCGCCGCCTGTTCGGGATGCAGGGCAGCTCGGAGCAAATCGGCTCGCTCGGCGAGAGCCGGGCGGTGACCTTCGGCAAGACGTACGCCGCCGAGCCGGACCAGATCATTGCGGAGCTCAAGGCGGATCCCTCGATCCAGGCCGCGGACACGCTGATGCTGACCATCCCGAACCAGCTTGGGGTGGACCTCAACGTCAAGATCCTCGCCGACTTCGCCGAGCACATCGCCCCGGCGCTGGGCTGGGTGCCGGCCAACGAGAGCTAG	MKKFGFLSFGHYAFSGQQGPGAKQTLQDTVEIARQADAIGVNGAYVRVHHFAPQFSSPIALLSAMAAVTKHIEVGTGVLDMRYANPLQLAEDIATLDLLSNERVALGVSRGSPEPADKGWESFGFTAQADNGADLARDHLERFMAALRGEGMAVSAPLDRQYPRMYRPGIDLPVLPHSPGADRRIWWGAGSFESAEQAARDGVNLMSSTLISEADGSSLGELQARQIQRYRESWAEAGHEWTPRVSVSRSVFPIVDDTSRRLFGMQGSSEQIGSLGESRAVTFGKTYAAEPDQIIAELKADPSIQAADTLMLTIPNQLGVDLNVKILADFAEHIAPALGWVPANES				NA	NA	NA	NA	NA
AK009_07022	807			hypothetical protein	TTGTCGACGCTGTGCCTCCGTCGCCGCAGCCAGAGCCTCTTCGGCGCGCGCGATCGCCCCGCGGGCCTCGCCCACGAATTCTTGGCCGCTATAGGTGTCCAGCCAGGCGCGGTAGGCGTGAGTGGGGGAGTTGCTGTCCGCCAAGTACAAGCCCACCTCGGCGTAGAGCCAGAAACACGGCAGAACCGCGGCCACGCCGACGGGGTAGTCCTCCAGCGCGACCTGCGCCTTGAGGAAGCTGACGTAGCCCAGGGTCACCGGAGAGATCGGGGTGGTGTCGACGTCGATGCCGTGGTCGCTAAACCACGAGCGGTGCAGTTCCTGCTCCGCGACGATCGCCTGCTGGGCGGTGTGCGCCCACCACACTTGCTCGTCGGCCGCGGGGGCTTTGGCGCTCAAACCCGCGAGCGCGCGGGAGTAGTCGCCGAGGTAGTGTGCGTCCTGGGCGAGGTAGAAGTCGAACTCGTCGCGCGCCAGCGTGCCGTCGCGAAGGTCCCGGATAAAGCCCGAGCCGAGGATCTGCGGCCAAACGACGCGCGCCGCCATCTCCCAGAGCCGACGCGTGTGCTCGCCGGCGGGCGCGATCCGCGGGGCGGGCAGCGGCGTATCGACGCCCCCCTCATGCCACCGGTCCGTCTCACCCCAGGGGCGCGTGGAACCGCTCGCGGCGCGGCGCCGCAGGGCGTGGAAGTGGTCGACGGGGCCGTGGCCGCCCCCGACGTGCAGCGCGTCGGCGTGAGAAATCGCCTCGTGCAGCCAGTGCGAGGCCCACTCGGCGGCGGCGTTTCCGGAGGCGTCGATAGTTAG	MSTLCLRRRSQSLFGARDRPAGLAHEFLAAIGVQPGAVGVSGGVAVRQVQAHLGVEPETRQNRGHADGVVLQRDLRLEEADVAQGHRRDRGGVDVDAVVAKPRAVQFLLRDDRLLGGVRPPHLLVGRGGFGAQTRERAGVVAEVVCVLGEVEVELVARQRAVAKVPDKARAEDLRPNDARRHLPEPTRVLAGGRDPRGGQRRIDAPLMPPVRLTPGARGTARGAAPQGVEVVDGAVAAPDVQRVGVRNRLVQPVRGPLGGGVSGGVDS				NA	NA	NA	NA	NA
AK009_07023	612			hypothetical protein	GTGGCCGCCTTTGACCAGCACGCTCACGCCGGTGTCGGCGGCAAACGAGGCGCCCTGGGCAACCGCAGCGTCGAAGTCGGTGGCCGCAGCGGCGCCGGTGAGCACCGCGAGCTCCGGGATGTTGGGGGTGACCACCGTGGCGTGGTCGCGGATCAGCTGACGCAGCGCCTCCTCGGCATCCGTGCTCAGCAGGCGATCGCCCGAGGTGGCCACCATGACGGGGTCGACCACCACAATCGGGACCGGGTGCGCCCCGAGGAAGGTAGAGACGGTGGCGGTGGTGGGGGCGTCGCCAAGCATGCCGATCTTGATGGCGTCGATGGTCACGTCGTCGACAACCGCGTCCAGCTGCGCGCGGAGGAACCCCTGTGGCGGGGTGTGGACCTCGCGTACACCGCGGGTGTTCTGCGCCACGAGCGCGGTGACCACGGCCATACCGTAACCCCCGGCGGCGGCGATCGATTTAAGGTCGGCGTGGATGCCCGCCCCGCCGGTGGGGTCGGTGCCGGCGATGGACAGAACGCGGGGCTGCTGATTGGACATGCACACCGGTTTACACTAAAAGCGAAGCGGCGTCCGGGGTTTTGCTTTCTGCGAGGTCGGCGTGGTTGA	MAAFDQHAHAGVGGKRGALGNRSVEVGGRSGAGEHRELRDVGGDHRGVVADQLTQRLLGIRAQQAIARGGHHDGVDHHNRDRVRPEEGRDGGGGGGVAKHADLDGVDGHVVDNRVQLRAEEPLWRGVDLAYTAGVLRHERGDHGHTVTPGGGDRFKVGVDARPAGGVGAGDGQNAGLLIGHAHRFTLKAKRRPGFCFLRGRRG				NA	NA	NA	NA	NA
AK009_07024	369	rplN_1		50S ribosomal protein L14	GTGATTCAGCAAGAATCGCGTCTGAAGGTCGCCGATAACACTGGTGCACGAGAAATTCTGTGCATCCGCGTCCTCGGCGGCTCTGTCCGACGCTTCGCCGGCATCGGCGACACGATCGTCGCCACCGTGAAGGAAGCCACCCCCGGTGGCAACGTCAAGGAGGGTGAGGTCGTTCGCGCCGTCATCGTCCGCGCCAAGAAGGAGACCCGTCGCCCGGACGGCTCCTACATCTCATTCGACGAAAACGCTGCCGTTCTGATCAAGAACGACACTGAACCCCGCGGTACCCGTATCTTCGGCCCGGTCGCGCGCGAGCTGCGCGACAAGAAGTTCATGAAGATCGTTTCTCTCGCACCGGAGGTGATCTAA	MIQQESRLKVADNTGAREILCIRVLGGSVRRFAGIGDTIVATVKEATPGGNVKEGEVVRAVIVRAKKETRRPDGSYISFDENAAVLIKNDTEPRGTRIFGPVARELRDKKFMKIVSLAPEVI				NA	NA	NA	NA	NA
AK009_07025	342			hypothetical protein	GTGGATGGGTGCTTCCTGGGTGACGATGCCGCCGGACTCGGCGCCGCGCTCGTTGTAGGAGTTAGCGACGTGCTTCTTGATGCGGTTGACGCCCTCGACGAGGACCTTGTCGCGCTGCGGGTAGGCCTCAATGACCTTGCCCTGAGCGCCCTTGTCCTTGCCAGAGATGACCTGGACCATATCGCCCTTCTTGATCTTCATGGGTTAGATCACCTCCGGTGCGAGAGAAACGATCTTCATGAACTTCTTGTCGCGCAGCTCGCGCGCGACCGGGCCGAAGATACGGGTACCGCGGGGTTCAGTGTCGTTCTTGATCAGAACGGCAGCGTTTTCGTCGAATGA	MDGCFLGDDAAGLGAALVVGVSDVLLDAVDALDEDLVALRVGLNDLALSALVLARDDLDHIALLDLHGLDHLRCERNDLHELLVAQLARDRAEDTGTAGFSVVLDQNGSVFVE				NA	NA	NA	NA	NA
AK009_07026	537			hypothetical protein	GTGGCGCAACAGGGCACGGCCCTCGTCATCGTTCGTTGCGGTGGTCACGAGCGTGATGTCCATGCCGCGCACGCGATCGACCTTGTCGATGTCGATCTCGTAGAACATGGTCTGCTCATTCAGGCCGAAGGTGTAGTTGCCCGCACCGTCGAACTGCTTGTCGTTCAGGCCGCGGAAGTCACGGATACGCGGCAGAGCGATGGAGAGCAGACGGTCGAGGAACTCCCACATGCGATCGCCGCGCAGAGTAACCTTCGCCCCGATCGGCATGCCTTCACGGAGTTTGAAGTTAGCAATCGACTTCTTCGCGCGACGCAGCTGCGGCTTCTGGCCGGTGATCGCGGTGAGGTCTTCGAGTGCGCCGTTGATGACCTTGGAGTCGCGGGCAGCGTCACCAACGCCCATGTTGACCACGATCTTGGTCAGACCCGGAATCTGCATGACGTTGTCGTAGCCGAACTCTTCGCTGAGCTTGGCGCGGATGTCGTCCTTGTAGCGGCTCTTCAGGCGCGGGGTGTAGTTCTCAGCCATGCTTAG	MAQQGTALVIVRCGGHERDVHAAHAIDLVDVDLVEHGLLIQAEGVVARTVELLVVQAAEVTDTRQSDGEQTVEELPHAIAAQSNLRPDRHAFTEFEVSNRLLRATQLRLLAGDRGEVFECAVDDLGVAGSVTNAHVDHDLGQTRNLHDVVVAELFAELGADVVLVAALQARGVVLSHA				NA	NA	NA	NA	NA
AK009_07027	489			hypothetical protein	GTGGCGCAGCGCGGGCAGGGCGGAGGCGTCGGCGACGAGCAGTTGCGAACCGGTGGGTGGGGTCCACAGCGCTGGGCAGGTGAACATCCCCGCGGTTGTGCCGGGCCGGGCGCGGCGGATCCACCGCGAGCCGGGGCCGGAGTCGCCGTGGGTGACCACGTCGACGTCGATAAGCTTTTTGTCCTTGTCAAGCTTGCGGATGGTGTACCAGCGCAGGTCGGGGCGGGTGTCCTCGGGCAGTGCCGCGACCGCCGCGCGGATGTTGACGCCGTCGATGTCAAACGGCTCGAAGTCTCGGCCAGGTTTGGGCATGACGAGGCCGAAGTACTCATCCGGGCCGGTGAGGGGGAAGCCGGCGAATGCATCTGCGGTGAATGTCAGCCTATGCAAGCGGGGCTTGAGCTGCTGATTGTCGAGCAGTGTGACGGTGTGGAGGGCGTGGGTATGCATGGCACCAATCAGTCTCTAGTAAGGCAAGGCTTGCTTTAG	MAQRGQGGGVGDEQLRTGGWGPQRWAGEHPRGCAGPGAADPPRAGAGVAVGDHVDVDKLFVLVKLADGVPAQVGAGVLGQCRDRRADVDAVDVKRLEVSARFGHDEAEVLIRAGEGEAGECICGECQPMQAGLELLIVEQCDGVEGVGMHGTNQSLVRQGLL				NA	NA	NA	NA	NA
AK009_07028	945	yfmC	COG4594	Fe(3+)-citrate-binding protein YfmC	ATGGGAATTTTCTCGCGCAAGCCCACCACTGCAGTCGCGCTTGTGGCCGCCGCAGCACTCGCACTCGCAGGCTGCACACGAGGAGAAGGCGAGCCTGCCACAACCGATGGCGCAGGTGAGGCGAGGATAGTGAGCCTCGGGCTTGGCGACGTCGACACGCTGCTCGCGCTCGATGTCACCCCCGTCGCCATTGCCCCCTGGGGCGCCGAGGGCGACGGCGACGAAAGCGGCGTCGGGCCGTGGTCGAAGGAGCTGCTCGGCAGCGCGCGACCGGCGACAATCTACAACACGGCCAGCGGCTTTACCGCCGATGTCCTCGAACAGGTCGCCGCCACCGAGCCCACCCAGATCATTGCGGTCAACCAGGCCGTCGACGTCCAAGCCCAGGACTCGCTCGAGCAGATCGCGCCGACGACACTCAAGCCCGAGGGCTACGACAACTGGCAGATCCCCTGGGACAAGCAGGTTGAGACAATCGCCGCGGCCGTCGATAAAAAAGCCGAAGGTGAGGAGTTGATCGCGAAAACCGAAAAGGCTTTCGCCGACTTCCGCGACAGCCACCCGGAGCTCGTTGGAAAGAGCGCCGCGATCGTGATGCCCTACGAGGGAAAGATTGGCCTCTACACCGCCGGCGACGGGCGCGGGCAGTTCATCGAGAACCTGGGCTTTAGCATCCCGCCCGAGCTTCAGGGAGACGGCTCCAGCTTCTTCGTCGACTACGCCCCCGAAAACTACGCGGCTTTAAACGGCGTGGATTACCTATTCGTCCTGGACTACAACGGCGCGCTCACCGCGCTGGAGAACGACCCAACGTTCCAAAACCTGGACATCGTCAAAGACGGCCGAGTGCGCTACCTCGCCACCGACGTCGGCAACGCGATGAGCATGCCCAACCCAGTGACCATTCCGTGGGCCATCGATAAGTTTGCCGAACAGCTGTCCTAG	MGIFSRKPTTAVALVAAAALALAGCTRGEGEPATTDGAGEARIVSLGLGDVDTLLALDVTPVAIAPWGAEGDGDESGVGPWSKELLGSARPATIYNTASGFTADVLEQVAATEPTQIIAVNQAVDVQAQDSLEQIAPTTLKPEGYDNWQIPWDKQVETIAAAVDKKAEGEELIAKTEKAFADFRDSHPELVGKSAAIVMPYEGKIGLYTAGDGRGQFIENLGFSIPPELQGDGSSFFVDYAPENYAALNGVDYLFVLDYNGALTALENDPTFQNLDIVKDGRVRYLATDVGNAMSMPNPVTIPWAIDKFAEQLS	PGPT0003765_8799	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
AK009_07029	1014	fepD	COG0609	Ferric enterobactin transport system permease protein FepD	ATGAGCGTCGCACGACGAAGCACACGTCATACCGGCATTGTGTGCGCCGCGTTGCTCGTCGCCGTTGCTGCGGCGGTCGTGGCGTCGTTGTTTGTCGGCTCCCGCGCCGTGCCGGCGAACGAGGTGCTTCTTGTCCTGCGCGGTGCCGGCACGGCAGAGATTCGGGGAATCGTGTGGGACCTGCGCGTCCCGCGCACGCTCATTGCGTTCGCAGTCGGCGCCTCGCTTGCGCTGGCAGGCGCGCTGGCCCAGGCGTGGACGCGCAACCCGCTCGCCGATCCCGGCTTTATCGGCATCACTGCGGGTGCTTCCTGCGCCATGGCGATCGGAGCGGTCCTGGGCGTGAGCGCCACTGTCACCGGTTCGCTCACCTTCGCCTTCGGGGGCGCCGCCGCGGCCACCGGCGTCGTCATGCTCATTGCGCGCCGCTCGTTGTCGCCACTTACCTTGATCCTTGCCGGGGTCGGGGTCGACGCGGCGCTGCGCTCCGTTGCGACCCTGCTCGGATTATTCGACACAGAAGTCTTCGACTCCATGCGCCACTGGGTGGTGGGCTCCACCTTCGGCCGCGGCTACGCGGAAGCGGCCGTCGCCTGGGCCGGGTGCGCCGTCGGCGGGGTGTGCGCCCTGTTCGCTGCGCGTCCGCTCGACCTGCTAGCGATGGGCAGGGACACCTCCCTCGCCCTGGGCGGTTCCGAGCGGCGAGCGCATGTTGGCGCCGCGGCTGGGATCGTGCTCTTGGCCGGCAGCGCTACCGCGGCAGCCGGGCCGGTCGCCTTCGTCGGGTTCGCCGCCCCGCACATTATGCGCAGGCTTGTCGGCCCGCAGCTTACGGTCTTGCTGGTTCCCGCCGCGCTTTTCGGGGGCACCATCGTGCTGCTTGCCGACGTCCTCGGCAGGCTCGTGCTTAGCCCGGGGGAGCTGGAAATGTCCATCGTGATCGCGTTCATTGGCGCGCCGCTGCTCATCGCCGCGGTGCATCGGGGCGAGGGCGCGAACAAGACGGTGATCTAG	MSVARRSTRHTGIVCAALLVAVAAAVVASLFVGSRAVPANEVLLVLRGAGTAEIRGIVWDLRVPRTLIAFAVGASLALAGALAQAWTRNPLADPGFIGITAGASCAMAIGAVLGVSATVTGSLTFAFGGAAAATGVVMLIARRSLSPLTLILAGVGVDAALRSVATLLGLFDTEVFDSMRHWVVGSTFGRGYAEAAVAWAGCAVGGVCALFAARPLDLLAMGRDTSLALGGSERRAHVGAAAGIVLLAGSATAAAGPVAFVGFAAPHIMRRLVGPQLTVLLVPAALFGGTIVLLADVLGRLVLSPGELEMSIVIAFIGAPLLIAAVHRGEGANKTVI	PGPT0003770_9684	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
AK009_07030	1002	yfhA_3	COG0609	putative siderophore transport system permease protein YfhA	ATGCGAAAAACCTCACGACTCATCGGCGCCACAGTGCTGTTCGCCGCGATCGCGGCTGCGGCCTACATCGCGCTTCTGGGCCAAGGCGCCGTGGAGCTGAGCCCCGCCCAGGTACTCCACGTCCTGCGTGGCGGCGGAACAAGCCGGGAGATTGCCGTGGTGTGGGATCTGCGCCTGCCGGTCGCCGTGGCCACGCTCCTTGTCGGGGCTGCGCTCGGAATGGCGGGGGAGTGGACCCAAACAATGGCGCGCAACCCGCTGGCATCGCCCGATATTCTGGGCGTGACCTCGGGGGCCGCGCTGCTCGTGGTGCTGGGAACGGTGACGTACCGCCCGGAGTTTTCGCAAGCGCTGCCCGACTTCTGGTGGCGCGCCGTCCTCGCGCTCTGTGGTGCAGCGGGCGTGGTCGTGCTTCTGGTCGCGCTCGGCGGGGTGGGTACCAGCGACAGAATCGTGCTCACGGGGTTCGCGCTCTCACTCATGCTCCACGCCGCGGTGAGCTACCTGCTGCTCAAAGCTGAGGTGTTGCGCGCCGTGGAGGCGCAGACCTGGCTGGCGGGCTCGACTGGTTTCGTTCGCATGGATGGCGTTATCGCGCTGAGCGTTGGTGTGCTCCCGTTCGTTGCCCTCGGGTTGTGGTGTGGGCGCGATCTGCCGTTGCTTGCCCACGACGACACTTCTGCCACCGCGCTGGGTGTCAACCTTAAGGCGCGGCGCGCGGCTCTGCTAGTAGCGGCGACGGGGATCTCGGCGGTGGTGGTTTCTGTGGTCGGGCCCATCGGTTTCGTCGCGCTGCTCGCCCCGCACCTGGGGCGCATCGTTGCGCGCACGCCGAACCCGGCACCGGTGGTATCCGCCGCCGCGGGTGCCGCGCTGCTGGCGGTATGCGCGGTGGTGGCGGGGCTAATCCCCGCCGCTGCACCCGTAGGCGCAGTGTCATCAGCAATCGGCGGCGTCGCCCTCGTATTGCTGGTGTGGCGGCAGTCTCGGAGCACACGATGA	MRKTSRLIGATVLFAAIAAAAYIALLGQGAVELSPAQVLHVLRGGGTSREIAVVWDLRLPVAVATLLVGAALGMAGEWTQTMARNPLASPDILGVTSGAALLVVLGTVTYRPEFSQALPDFWWRAVLALCGAAGVVVLLVALGGVGTSDRIVLTGFALSLMLHAAVSYLLLKAEVLRAVEAQTWLAGSTGFVRMDGVIALSVGVLPFVALGLWCGRDLPLLAHDDTSATALGVNLKARRAALLVAATGISAVVVSVVGPIGFVALLAPHLGRIVARTPNPAPVVSAAAGAALLAVCAVVAGLIPAAAPVGAVSSAIGGVALVLLVWRQSRSTR	PGPT0003770_8081	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
AK009_07031	810	fepC_2	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGAACGCAGGGCAACCAGTCGTCGCGCGCGATATCGTCGCAGGTTACGGCAGCAGCAGCGACGTGCTGCACGGCGTGAGCTTGGTCGCGCGCCCTGGCGAGGTGACCACTTTGATCGGCCCGAACGGATGCGGCAAGTCGACGCTGTTAAAGACGATGTCGAAGGTTCTCACTCCTCGCGCCGGCACGGTGACGGTTGGCGGTGAAGATGTCCATTCGCTGTCGTTTCGGCAGGCAGCGACGCGCATCGCGATGCTTGCGCAGAACCCCGTCGCCCCTGATGGGCTGCGCGTCGGAGAGCTTGTCGCCCGTGGCCGCCACCCGCACCGGGACCGCCTGCGGGGCCTTGGCGCCGAGGACCGGGAGGCGATTGAACGGGCCTGCGCGGAAACCTCAGTCACCGAGCTCGTTGATCGAGACATTGCGGAGCTCTCCGGCGGGCAGCGCCAGCGCGTGTGGCTAGCGATGGCGCTCGCGCAGGACACGCCAGTTTTGCTTCTCGACGAACCAACCACGTTCCTTGACCCCGCCCACGCCATCGCCATGCTCGAGCTCGCCCGCGGCCAAGCGCGCCGAGGCAAGGCCGTGGTGATGGTGTTGCACGATCTGATGCTGGCGGGGATGTACTCCGACACCCTGGTTGTGATGAAGCAGGGGCGCATCCTGGCCGAGGGCGCCCCCTCGCAGGCGTTGACTCCGCAGGTGTTGGAGCAGGCCTACGGGCTGCGCGCCGAAGTGTGGGAGGACCCGGCGGGAGGCTCGCCGGTCATTGTCCCGCGCGGCGTTGTATACAGCGATTGGCCCAACTAA	MNAGQPVVARDIVAGYGSSSDVLHGVSLVARPGEVTTLIGPNGCGKSTLLKTMSKVLTPRAGTVTVGGEDVHSLSFRQAATRIAMLAQNPVAPDGLRVGELVARGRHPHRDRLRGLGAEDREAIERACAETSVTELVDRDIAELSGGQRQRVWLAMALAQDTPVLLLDEPTTFLDPAHAIAMLELARGQARRGKAVVMVLHDLMLAGMYSDTLVVMKQGRILAEGAPSQALTPQVLEQAYGLRAEVWEDPAGGSPVIVPRGVVYSDWPN	PGPT0003760_2783	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
AK009_07032	243			hypothetical protein	GTGCGCGCCCTGGGTGCCAAAGAGCTCCTCGACGCTGTCCCACAGCTCGTCAGGTACGGATTCGTAACCATCGACGTGCGTCACCGCGTCGGTCAGGGCGAGCACCGCGGTTTCCTTCTCGTCGAAGCGGTCGCGATGGTTGGTCCAGTCCTCCGCCCGCAAAATTCGCGTTTCGTCCCAGCCGTCAGAGCGGGCATCGCGACGATGCGTGGTGATGCAGGCTCTGCAGTCGTTGATCGCTGA	MRALGAKELLDAVPQLVRYGFVTIDVRHRVGQGEHRGFLLVEAVAMVGPVLRPQNSRFVPAVRAGIATMRGDAGSAVVDR				NA	NA	NA	NA	NA
AK009_07033	732			hypothetical protein	ATGGCAACGACCGAGAAGATCAGGGACAAGGTTCAGAAGCTGCTGAATCAGGCGGCGGATCGGCAGGGCACGGCCGAGGGGGAGTCCTACTACGCCAAGGCCTTTGCTCTGATGGCCAGCCACGGCTTCGATGAAAGAGATGTGCACTCGCCCGATGCGGGCGATGACGTGGGGCATAAAAGCGTTGGGCTCAGTGGGGCTTACACGGATATGCAAGCCGCCCTGTTGCTCGGCATCGCCGCGGCCTTGCACTGCACGGGTTTCAGTCAGAGGGTGCGCCGTTCCACGCGGATCAGTTCGGTGACTATTTTCGGGCTGCGGCGCCACCTCGATCGCGTCAATCTGCTCTTCACGCTGCTCAACCCAGCGATGATCGCGGCTGCGGGGGCGATCGTCGCCGGCCCGTTCGACGCGACCTCCACGGTCGTGCAGCGCCGCTCGTTCATGACTGGTTTCACGCACAGCATCGCGTATCGGTTGAGGGCGGCGGAGCAAAGTGTTGCGGGAACCTCGGGCGAGTATGCGCTAGCGCTTGTCGACGACGCCGAGAAAGCGCGCCAGGCTCAAGAGGATTTCGGTCGCCACCACGGTCTGTTCTTCGAGAACTTTCGCTCGCAGCGAACCTTCGACGGCGAGTCTTACGGGCAGGGAGTGGAAGCGGGGGAGAGGTCGGATTTGGGGCAAGCCCGCGTTGGATCCCGACCTGCGCTTACGTTCCGAAAAATTGTTTAG	MATTEKIRDKVQKLLNQAADRQGTAEGESYYAKAFALMASHGFDERDVHSPDAGDDVGHKSVGLSGAYTDMQAALLLGIAAALHCTGFSQRVRRSTRISSVTIFGLRRHLDRVNLLFTLLNPAMIAAAGAIVAGPFDATSTVVQRRSFMTGFTHSIAYRLRAAEQSVAGTSGEYALALVDDAEKARQAQEDFGRHHGLFFENFRSQRTFDGESYGQGVEAGERSDLGQARVGSRPALTFRKIV				NA	NA	NA	NA	NA
AK009_07034	1158			hypothetical protein	GTGGTTGTAGGTGGACAGCGGCGGGAGGATGTCATCGCGGTAGACCACGGGCACCCCCTTCGCGCACCAGGCGCGGGCAAGGACCTTGGCTTGGTCGTATGCGACATTCTGGTCGTAGCGGCCGGAGACGATCATCACCGGAACTTGCGGCGTACCATTGCCAATGAACTGCTCGTCGATTGCGTTTCGCGCGGCGGGGTACTCATTGGCCAGCTCGCCGAGCGTGCGGTCTCCGTTGATCCACGCGCGGGTGTAGACGCCGTCATACTCCCTCATGATGTCATTGGTGCACATGTTGGTTACCTTTTCCAGCGCATCGCGCCCCGCTGGAGAAACGTTCGCCTCGATGATTTCGCCGAGCTCCGGGTAACGGACTTTCAGCCCGTTGATGGCGAAACCGATCACGCCCGAAAGGTCGGAGCCATCGATGTTTTCCTGGACTTTAATGAGGTCCGCCGGCGGTGCCGAGGCGTAGCTGGCCACCAGGTTGACATCGGGTGCGTAATCGGGCTGCGACTCTGCGGCGGCCGCCGATGCACCGCCGCCCTGGGAGTGCCCGTAGACGGCTACTTTGCCGAACTGCCCGCCGCGGCTTTCAACGAGCTCACGCGCGGCGCGCGCGGCGTCGAGCATCGCATGCGCCTGGTCCTTTCGGTTCATGTAGGTGTGCAAGCCCGGGGTGCCCATCCCGATCAGGTCCGTAACGACGACGCGCACACCCTGGCTAGCAAACATCATGTCGTAGTTGCCCTCAAGGTTGACCGTCCTGCCCGTGTAGACCGGATCTGGCTGCCCGTCAAGCGGCCAGTTGCGCGAGGGCGCGCAATGGTCGCCCTGCCCGACCGTCCCGCGCACGATCACCAGGGTGGGTCGCGGTCCTTCGCCGCGCCACGGCACCGTTGGTTCGAGCACGTACCCGGTCACGGGCGTCAGTTTCCCGTCGGCGTCTTCGGTGGTGTACATAATCTTGTCCACACTGGTGGGAAGACCCGGCGAACCGTTTCCGAGGATTCCGGAATAAGGCGCCGGTTGCGTGCGCAAGATCTCGCCGACTCGACTCGGGGCGACGCCGGAAGTGTCATAGAAGGGGTCCACTGCACCGGGCTGGACGGGGCCCTGCGTCACAATCGACGAGCCGACCGTGGAGCCTTCCAATGA	MVVGGQRREDVIAVDHGHPLRAPGAGKDLGLVVCDILVVAAGDDHHRNLRRTIANELLVDCVSRGGVLIGQLAERAVSVDPRAGVDAVILPHDVIGAHVGYLFQRIAPRWRNVRLDDFAELRVTDFQPVDGETDHARKVGAIDVFLDFNEVRRRCRGVAGHQVDIGCVIGLRLCGGRRCTAALGVPVDGYFAELPAAAFNELTRGARGVEHRMRLVLSVHVGVQARGAHPDQVRNDDAHTLASKHHVVVALKVDRPARVDRIWLPVKRPVARGRAMVALPDRPAHDHQGGSRSFAAPRHRWFEHVPGHGRQFPVGVFGGVHNLVHTGGKTRRTVSEDSGIRRRLRAQDLADSTRGDAGSVIEGVHCTGLDGALRHNRRADRGAFQ				NA	NA	NA	NA	NA
AK009_07035	807	fdhD_3	COG1526	Sulfur carrier protein FdhD	GTGGGACGGATCAACCGCAGCTTTGCCGTGACGACGCTGTCGCTTGACGACGCCTCCGCGGCGGCACAGGTCTTCTCCGACACGCGTGCCGGAACCGCGGCCGCGGAGGAGCCGCTGCAACTGCGCTCTCGCGGCGTCACGCTGTTAACCACGACCCGCACCCCGGGAAACGACGTCGAGCTTGTCCACGGGTGGTTGTTTACCGAGGGGCTGATCCGCGACGCCTCCGATGTTGCAACGGCGCGGTACTGCGCGGGCGCCGTGGATACCGGCGGGCGCAACACCTACAACCTGATGGACGTCGACATCGCTGCCCCGCTTACCCCTGTCTCTCCGCTAGCGGATTCCTGTGGCGTGTCGCGGGAGCAGACCATCTCCGAGATCGTGCACAGCGCCCCCGGCCCGGTCACCCCGGTCGATGTCGCGGCTGAGACGTGGTTTCGCTTCGCCGATCTTGTCGTCGAACGCAACGCCAAGGCGCCGACTCGCGTCGCTGTTCTCGCTACCGCAGAGGCTGACAGTGTGCTGCGGCGAGAGGACTTAAACGTTGCCCACGCCGTCGATAAGCTCGTTGGCGCCCTGGTTCTCGACTCCGCGGTTCCCGCGGCCGGGCGAGTTCTGGTGCTCGACTCGCATGTGACGCTTCAGATCGCGCGCAAAGCGTTGATGGCGGGGATTGCCGCCATCGTGACTCCTGCAGACGCGACGTCGCTGGCAGTGGAGCTAGCCCGACACGCAGGCATGACGCTGGTAGCCCGCGCGAGCGCGAACCGCGTCAGCGTCTACGCGGGCCTACAAACGCCCTGA	MGRINRSFAVTTLSLDDASAAAQVFSDTRAGTAAAEEPLQLRSRGVTLLTTTRTPGNDVELVHGWLFTEGLIRDASDVATARYCAGAVDTGGRNTYNLMDVDIAAPLTPVSPLADSCGVSREQTISEIVHSAPGPVTPVDVAAETWFRFADLVVERNAKAPTRVAVLATAEADSVLRREDLNVAHAVDKLVGALVLDSAVPAAGRVLVLDSHVTLQIARKALMAGIAAIVTPADATSLAVELARHAGMTLVARASANRVSVYAGLQTP				NA	NA	NA	NA	NA
AK009_07036	267			hypothetical protein	ATGAACTTGTTGAATCTCCGTGGACGCCATGTGTCGGGCCCAGAAGTCCAAACGAGAACCCTACCGGCCGCAGCAGCTAAGAAGCAAATTGCTACCAGGGGCGTTCGCCTCCCAGTGCGCGGCAGCGCGCGTGGATACGGAACACGGCGCGGTGTCGACCCAGTTGTGCTCCCTTCCACCTTCGCGCTGCGGCTGCAGACGAGTTCGCCGGGGGTTTCTGGCACGGAGCGCGTGTTGGAGGGTGCCGCGGCACGGGTAGGCTCGTAA	MNLLNLRGRHVSGPEVQTRTLPAAAAKKQIATRGVRLPVRGSARGYGTRRGVDPVVLPSTFALRLQTSSPGVSGTERVLEGAAARVGS				NA	NA	NA	NA	NA
AK009_07037	399	rpsH_1	COG0096	30S ribosomal protein S8	ATGACGATGACTGATCCAATCGCAGACATGCTGTCTCGCGTGCGCAACGCAAACAATGCGCAGCACGAGACTGTGTCTATGCCCTCCTCCAAGTTGAAGGTCAACATTGCGGAGATCCTCAAGCAGGAGGGCTACATCGCTGACTACAAGGTTGAGGACGTCAAGGTTGGCAAGACGCTGACCCTGGACCTCAAGTACGGCCCCACCCGCGAGTCCTCCATTGCAGGGCTGCGCCGCGTGTCCAAGCCGGGTCTGCGTGTGTACGCAAAGTCGAACGACCTGCCGCAGGTTCTTGGCGGCCTTGGCGTGGCAATCATTTCCACGTCGCAGGGCCTCCTGACCGATCGTCAGGCCCAGGAGAAAGGCGTAGGCGGAGAAGTTCTCGCCTACGTCTGGTAA	MTMTDPIADMLSRVRNANNAQHETVSMPSSKLKVNIAEILKQEGYIADYKVEDVKVGKTLTLDLKYGPTRESSIAGLRRVSKPGLRVYAKSNDLPQVLGGLGVAIISTSQGLLTDRQAQEKGVGGEVLAYVW				NA	NA	NA	NA	NA
AK009_07038	330			hypothetical protein	GTGCGAGTAGCCCAGGGAGAACTCGAGGTCCTTGCCCTTGGCCTGCACGCGGTAACCGACGCCGAAGATCTCCATGTTGACCTTGTAGCCCTCGGTCACGCCCACGACCAGGTTGTTCACCAGGGAGCGGGACAGGCCGTGCAGGGCGCGGCTGGTGCGGTTGTCGTCCGGGCGGGACACCACGATTTCGTTTTCAGCAACGGAAGCGGTGATCGGCTCCGGGAGTTCGAGCGACAGGGTGCCCTTCGGGCCCTTGACCTGAACGTTACGGCCGTCAATAGTGGTCTCGACGCCGTTGGGGATTGCGATGGGTGCTTTACCTACGCGTGA	MRVAQGELEVLALGLHAVTDAEDLHVDLVALGHAHDQVVHQGAGQAVQGAAGAVVVRAGHHDFVFSNGSGDRLREFERQGALRALDLNVTAVNSGLDAVGDCDGCFTYA				NA	NA	NA	NA	NA
AK009_07039	402			hypothetical protein	GTGGTACTTGTAGCCAGCGCGGTCGAAGACAACCGCGTCGATGCCGGCTTCCTTCGCGCGCTGAGCGATCAGGGTGCCAACCTTTGCTGCCTTGTCCTTCTTATCGCCCTCGGCACCGCGGATGTCGGCTTCCATCGTGGAGGCGGACACGAGCGTGTGGCCGGCGAGGTCGTCGATGACCTGCACGTGCATGTGACGAGAAGAGCGGTGCACGACGAGACGCGGGGTCTCCGGGGTGCCACGCAGCGTCTTGCGGATACGGAAGTGGCGACGTGCGCGGGCCTCGCGGCGGCGGGAAGAAATGTCCTTGCCCACCGGGGTGCGCTTGGTGTTCTCTGCAGTATTGCTCATGATTACTTACCCGTCTTTCCGACCTTGCGGCGAACCTGCTCGCCTGCGTAG	MVLVASAVEDNRVDAGFLRALSDQGANLCCLVLLIALGTADVGFHRGGGHERVAGEVVDDLHVHVTRRAVHDETRGLRGATQRLADTEVATCAGLAAAGRNVLAHRGALGVLCSIAHDYLPVFPTLRRTCSPA				NA	NA	NA	NA	NA
AK009_07040	663			hypothetical protein	ATGGCCGAACGTGAACGGCGTGACGGCGGACGCTCCGCCGACAACCAGAACAACAACGACCGCAACCAGCGCAACAACGACCGTGGCGAGCGCGGTGGCCGCGGAGGCCGCCGCGACCGCGACGACCGCCGCAACCAGAACGACGATCGCGACAAGTACATCGAGCGCGTTGTCACCATCAACCGTGTTGCCAAGACCGTCAAGGGCGGCCGCAACATGTCCTTCACCGCCCTCGTCGTCGTTGGTGACGGCCAGGGCATGGTCGGCGTTGGCTACGGCAAGGCAAAGGAAGTTCCCGCTGCCATCCAAAAGGGTGCTGAAGAGGCTCGCAAAAACTTCTTCCGCGTCCCGATGATCGGCGGCACCATCCCGCACCCGGTCCAGGGTGAGGCAGCAGCTGGCATCGTGATGCTGCGCCCGGCCGCACCGGGTACCGGTGTCATCGCCGGCGGCGCTGTGCGCCCCGTGCTCGAGTGTGCTGGCATCCAGGACATCCTGTCGAAGTCCCTCGGCTCCGACAACGCCCTGAACGTGGTCCACGCGACCGTTGCCGGCCTCAAGGAGCTCGTGCGTCCCGAGGAGATTGCTGCCAAGCGCGGCAAGTCCGTCGAGGACATCGCACCGGCCCGCATGCTGCGCGCACGCGCGGGACAGGAGGCTTAG	MAERERRDGGRSADNQNNNDRNQRNNDRGERGGRGGRRDRDDRRNQNDDRDKYIERVVTINRVAKTVKGGRNMSFTALVVVGDGQGMVGVGYGKAKEVPAAIQKGAEEARKNFFRVPMIGGTIPHPVQGEAAAGIVMLRPAAPGTGVIAGGAVRPVLECAGIQDILSKSLGSDNALNVVHATVAGLKELVRPEEIAAKRGKSVEDIAPARMLRARAGQEA				NA	NA	NA	NA	NA
AK009_07041	186	rpmD_1		50S ribosomal protein L30	ATGGCTCTGAAGATTACGTTGAACCACGGCAAGGTCGGCGAGAAGCCGACGACCCGCGCAAACCTGGACGCACTGGGCTTGCGCAAGATTGGCCAGTCGGTGATCAAGAAGGACAACGCCGCAACCCGCGGCCAGATCCTGAAGGTGCGCCACCTGGTCACCGTCGAAGAAGTTGCAGGGGAGTAG	MALKITLNHGKVGEKPTTRANLDALGLRKIGQSVIKKDNAATRGQILKVRHLVTVEEVAGE				NA	NA	NA	NA	NA
AK009_07042	447	rplO_1	COG0200	50S ribosomal protein L15	ATGGCTGACATCATCAAGCTCCATGATCTGCGCCCGGCACAGGGCGCGAAGAAGTCCAAGACCCGCGTCGGCCGCGGTGAGGCATCCAAGGGCAAGACCGCAGGTCGCGGTACCAAGGGCACCGGCGCTCGTAAGCAGGTTTCGGCCGCTTTCGAGGGTGGCCAGATGCCGCTGCACATGCGTCTGCCGAAGCTCAAGGGCTTCAAGAACCCGAACAAGGTCATTTTCCAGGTCGTCAACGTTGCCGACCTCGAGAAGGCGTTCCCGAACGGTGGCGCTGTGGCCATCGCCGACATCGTTGCAGCGGGCCTCGCTCGCAAGAACGAGCCGGTGAAGGTTCTGGGTAACGGTGACTTGGGCGTCAAGCTCGACGTCACCGCCACGAAGTTCTCCAAGTCCGCTGTCGAAAAGATCGAGGCAGCCGGAGGCACCGTCACCGAGGCTTAA	MADIIKLHDLRPAQGAKKSKTRVGRGEASKGKTAGRGTKGTGARKQVSAAFEGGQMPLHMRLPKLKGFKNPNKVIFQVVNVADLEKAFPNGGAVAIADIVAAGLARKNEPVKVLGNGDLGVKLDVTATKFSKSAVEKIEAAGGTVTEA				NA	NA	NA	NA	NA
AK009_07043	345			hypothetical protein	GTGGAAGACGAAGAGGCCGAGGAAGAAAAGGACCATGGTCACGGACCAGATGATCGTGTCGGCGGCCTGAACCTTCTTGCCCCGGGTGAGCACCCGGTCAAGCTCGGCATCGGGGTCCAGCTCGCGCGGCTGGGTTTCGGTGGGGGAGTACTGCTCGATCGACTCCGGCATGTCCGTAAACAGCTTGTCCAGGTCGCTCCTGTGGCTGGCCCGCGTCAGCTCGGCGGTGCGCGCATCGAACTCGGTGACGTCGAGGTAGCCGTTGGTAAACAGCTGGGTCAGCCTGTCGAAGGCGGCGGAGCGCTCTGGGTCTCCGATGCGCACATCCCGAGATTCGTCCACTGA	MEDEEAEEEKDHGHGPDDRVGGLNLLAPGEHPVKLGIGVQLARLGFGGGVLLDRLRHVRKQLVQVAPVAGPRQLGGARIELGDVEVAVGKQLGQPVEGGGALWVSDAHIPRFVH				NA	NA	NA	NA	NA
AK009_07044	390			hypothetical protein	ATGCGCTTGGCGTACTGCACCGGAATGCGGCGCTGCCCCTGCTCCATGAAGATGATGCCGATAACCAGAACGATCAGCGCCGCTACAACCAAGCCGAATGTGACACCGCCGGACTGTTCGAGGATAAGCGCACCTTGTGAAGGGATCTGGGTGGCGATACCGGCGAAGATCAGAAGCGACATGCCGTTGCCTACGCCCTTTTCCGTGATGATCTCACCGAGCCACATGATCAGCACCGCGCCGGAGGTCATGACGATAATCATCATGATCAGCGTCCAGATGTTGCGGTCTTCCACCAGAATGGGCATGCCTTGCCCCAGCAACTGTTCGCGATCCGCCAGCGCCACGATGCCCGCGGACTGCAACAGCGCAAGGCCGACGGTGAGGTAG	MRLAYCTGMRRCPCSMKMMPITRTISAATTKPNVTPPDCSRISAPCEGIWVAIPAKIRSDMPLPTPFSVMISPSHMISTAPEVMTIIIMISVQMLRSSTRMGMPCPSNCSRSASATMPADCNSARPTVR				NA	NA	NA	NA	NA
AK009_07045	519			hypothetical protein	TTGGGATTCGATTTGCTTCACCGTGGTCAGTGCCACAGACACCATAATCAGGATAGCGGTGCCGCCGAAAGCGGTCATCCCCATGCTGCCGGTGCCGCCCACCCCGGCGTCCAGTGCGAGGTTCGGCAGAATCGCGATCAGGCCAAGGTAGAACGCGCCGACGAACAGCAGGCGGTTCATCACATACGCGAGGTACTGCGCGGTGGGGCGACCTGGGCGGATGCCCGGGATGAACCCGCCGTACCTCTTCATGTTGTCTGCTTGCTCCACGGGGTCGTACTGGATGGAAACGTAGAAGTAGGAGAAGAAGACGATCAGGCCGAGGTACAGCACAATGTACTGCCACGAACCGGGGTTCTGCAGCCAGGCCATGACGTTGTTCGTCCACCAGTTGTCGGGCGGAGTCGGATTGTTCATGGTCACGATCTGCGTAATCAGGATCGGAACGTACATCAGCGAGGAGGCGAAGATGACGGGGATAACGCCCGCCTGGTTGACCTTCAGCGGCAGGTAGGTTGA	MGFDLLHRGQCHRHHNQDSGAAESGHPHAAGAAHPGVQCEVRQNRDQAKVERADEQQAVHHIREVLRGGATWADARDEPAVPLHVVCLLHGVVLDGNVEVGEEDDQAEVQHNVLPRTGVLQPGHDVVRPPVVGRSRIVHGHDLRNQDRNVHQRGGEDDGDNARLVDLQRQVG				NA	NA	NA	NA	NA
AK009_07046	615			hypothetical protein	TTGCCGGGGATGCGTCGTCGGCGTGGGTTGAAAATCATCGCGGGTGGTGCGCCGGGCCTACTTTCCCAGATTTTCCAGCTCGCTCATCGCGCGGCCGTTGACCTCGTCGACCTCACCGACGGCGTCGATGTTGATGATCTCGTCGCCGTAGTGGTCGATCAGCGGGGCGGTCTCGTCGCGGTAGACGCCGAGGCGGGTGCGGATCGTTTCCTCGTTGTCGTCCTCGCGGCCGCGGGCGAGCATGCGCTCGACGACGACGTCCTCGTCGACCTGGAAGTTGAGCACGCCGTCGAGGGCGACGCCCTTCTTGCTCAGCAGCTGCTCGAGGATCTCTGCTTGCTCCACGGTGCGCGGGAAGCCGTCAAGAAGAAAGCCGTTGACGGCGTCCGCCTCCTCGAGGCGGGCCTCGACCATGCGCGCGGTCACGTCGGTGGGCACGAGGCGGCCAGCGTCGATGTATTCCTTGGCTTCGACGCCAAGCGGGGTGCCCTCGCCGATGTTGGCGCGGAACAGGTCACCAGTGGAGATGTGGGGCACGCCGAGCTTGTCGGAGAGGATGGCAGCTTGGGTACCTTTGCCGGCGCCGGGAGGGCCGAGGAGAACGAGACGCATTAG	MPGMRRRRGLKIIAGGAPGLLSQIFQLAHRAAVDLVDLTDGVDVDDLVAVVVDQRGGLVAVDAEAGADRFLVVVLAAAGEHALDDDVLVDLEVEHAVEGDALLAQQLLEDLCLLHGAREAVKKKAVDGVRLLEAGLDHARGHVGGHEAASVDVFLGFDAKRGALADVGAEQVTSGDVGHAELVGEDGSLGTFAGAGRAEENETH				NA	NA	NA	NA	NA
AK009_07047	744	map-1	COG0024	Methionine aminopeptidase 1	ATGGAAGCCGCGGGCCGCGTCGTCGGCGTTGCTCTGCAGGAAGTACGCAAGGCCGCGGCGCCGGGGCGCACCACCGCCGACCTCGACCGGGTTGCCGACGAGGTCATCCGCTCCTTCGGCGCGGTGCCGACATTCCTTGGCTACCAGGGGTTCCCAGCGTCGATCTGCGCCTCGGTCAACGACGTCGTGGTTCACGGCATCCCGAGCGACACGGTCATCCTGAAAGAGGGGGACCTGGTCTCGGTGGACTGCGGCGCGACGCTCGCGGGCTGGGTGGGGGACTCCGCGTGGTCCTTTGGTGTCGGCGAGCTTGCCGAGGACGTCGACAAGCTCAATCGCGCCACCGAATGGGTCCTTAACGAGGGCATTAAGGCAATGATCCCCGGCAACCGGCTGACGGATGTTTCCCACGCGCTCGAGGTGGCCACCCGCGCCGCTGAGCAGCGCTTCGGCGTCGCGCTCGGCATCCTCGACGGGTACGGCGGGCACGGCATTGGCCGCTCTATGCACGAAGAACCCTTCCTTGCCAACGAGGGTAAACCCGGCCGCGGCCCCGAGATCCAGGAGGGCTCGGTGCTCGCGATCGAGCCAATGCTGATTCTCGGGGGAGAGGTGGACAGCGAAGTGCTTGACGACGCCTGGACGGTGGTCACCCTCGATGGCTCGCCAGCGGCACACTGGGAACACACCGTCGCCGCTACTGCAAAAGGCCCGCGGATTCTCACGCCACGAACCCAGGCGTAG	MEAAGRVVGVALQEVRKAAAPGRTTADLDRVADEVIRSFGAVPTFLGYQGFPASICASVNDVVVHGIPSDTVILKEGDLVSVDCGATLAGWVGDSAWSFGVGELAEDVDKLNRATEWVLNEGIKAMIPGNRLTDVSHALEVATRAAEQRFGVALGILDGYGGHGIGRSMHEEPFLANEGKPGRGPEIQEGSVLAIEPMLILGGEVDSEVLDDAWTVVTLDGSPAAHWEHTVAATAKGPRILTPRTQA	PGPT0020010_5003	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
AK009_07048	594			hypothetical protein	ATGCGGGGAGATGCGCCGGCTAGTAATTGGCTAGTAAACGACGACCTTGTCGCCGACCCTCAGATCGTTGAAGTAGCGCTCGGCGTCTGCGCGGTGCATACGCACGCACCCGTGGGACAGGTACGCGGGATCTCCCTCGTGGAAGGCGATTCCGTTGTAGGTGAAGTACGTTGCAAACGGCATCGGCGCGTTGCCGAACTCGTAGGAGATTTCGTCCTTGACCTTGCGGTTTACGTAGAACGTGCCGCGCGGGGTTTCGTAGCCCGGCTTGCCCGTGGCGACGTGCTCGGCAACGTAGTACTGCTGCCCGCCCGACTGCAGCCAGGAACGCTGTCCGGCGATGTCGACGCACACCTTGGCGTCCTTGGGGCACGCGCCGTAATCGAAGCCCGCGGACTGGGGCGCAGGAGCCGAAGCCGGAGCCGGAGCGGGGGCCGGCGGCGTGTGCTCGGCGAGCAGCCCAGGGAAGAGCGCCTCGAAGGTCTGGTCAATCTGAGCGCGCGCCTGCTCCGGCAGCGCAGGGTTGATCGCCGCCAGCGAGCCAGCCTGGGCAATCAGCGACTCGCGCACGTTCCATGCGGCATCGCGGCTTGA	MRGDAPASNWLVNDDLVADPQIVEVALGVCAVHTHAPVGQVRGISLVEGDSVVGEVRCKRHRRVAELVGDFVLDLAVYVERAARGFVARLARGDVLGNVVLLPARLQPGTLSGDVDAHLGVLGARAVIEARGLGRRSRSRSRSGGRRRVLGEQPREERLEGLVNLSARLLRQRRVDRRQRASLGNQRLAHVPCGIAA				NA	NA	NA	NA	NA
AK009_07049	219	infA_1	COG0361	Translation initiation factor IF-1	ATGGCAAAAGAAGGCGCAATTGAGGTTGAGGGCCGCATCGTCGAGCCCTTGAAGAACGCGATGTTCCGTGTCGAACTCGACAACGGCCACGAGGTTCTCGCCCACATCAGTGGCAAGATGCGCCAACACTACATCCGCATCCTCCCGGAGGACCGGGTGATTGTAGAGCTGTCGCCCTACGACCTCGACCGTGGACGTATCACGTACCGCTACAAGTAA	MAKEGAIEVEGRIVEPLKNAMFRVELDNGHEVLAHISGKMRQHYIRILPEDRVIVELSPYDLDRGRITYRYK				NA	NA	NA	NA	NA
AK009_07050	696			hypothetical protein	GTGCTCCATTGCCTTGCGGGCTGCACTTTCAGCGGCCATCTGCGCGGCGAACGGGGTGGACTTACGCGAGCCCTTGAAGCCGACGTGGCCGGAGGACGCCCAGGAGATCACAGCACCGTTCGGGTCCGTGATGGACACGATGGTGTTGTTGAAGGTGGACTTGATGTACGCGTGGCCAGCGGCCACGTTCTTCTTGACGACGCGACGGCCGGTACGGCGCGCGCCGGAACGAGTCTTCGGTGGCATGTGTTACTTCTTCTTTCCTGCGATGGTCTTCTTCGGTCCCTTGCGAGTACGCGCGTTGGTCTTCGTGCGCTGGCCGCGAACGGGCAGCCCGCGGCGGTGGCGCAGACCCTGGTAGGAACCGATCTCGATCTTGCGGCGAATGTCAGCCTGAACCTCACGGCGCAGGTCGCCCTCGACGGTGTAGGAGGACTCGATGGCGTCGCGAAGCGCGGCGAGCTGATCGTCGGTCAAGTTGTCGGTGCGCAGGTCAGGAGAAATGCCCGTCTTCTCGAGCAGTTCCTTGGATCGGGTTGCCCCGATTCCGTAAATGTAGGTGAGTGCGATCTCCATGCGCTTGTTGCGCGGCAGATCGACACCAGCGAGACGTGCCATGTGGGACGTGCCTTTCAGGTTGGTACGGTGGTTTTCTCCCCACCCGTCCACGCCACGCGACGCTTTACCCGGTCCTAA	MLHCLAGCTFSGHLRGERGGLTRALEADVAGGRPGDHSTVRVRDGHDGVVEGGLDVRVASGHVLLDDATAGTARAGTSLRWHVLLLLSCDGLLRSLASTRVGLRALAANGQPAAVAQTLVGTDLDLAANVSLNLTAQVALDGVGGLDGVAKRGELIVGQVVGAQVRRNARLLEQFLGSGCPDSVNVGECDLHALVARQIDTSETCHVGRAFQVGTVVFSPPVHATRRFTRS				NA	NA	NA	NA	NA
AK009_07051	1428			hypothetical protein	GTGTTGTTACTCGGTGTCTTCCGCGGTGACGTCGACGTAGTCGCCAGTCTCGGCGTCGTACCCCTCGATCTGGGTCGGGTCGAAGTCTTCCGGCGCGTCCTTCAGGGTCAGCCCCAACGAGGCAAGCTTGATCTTGACCTCGTTGATGGACTTCTGCCCGAAGTTACGGATGTCCAGCAGGTCACTTTCGGTGCACTCGGCGAGCTCACCGACGGAGTGGATCTCCTGGCGCTTCAGGCAGTTGTAGGAGCGGACGGAGAAGTTCAGGTCCTCAATCGGCAGGTTGTACGCAGCGATGTACTCCGTCTCCTGCGGGGACGGGCCAATCTCCAGGCCCTCGGCAGCCGTGTTCAGCTCGCGGGCGAGGCCGAACAGCTCCACCAGGGTCGAACCTGCAGACGCCAGGGCGTCACGGGCCGTCATGGAGTTCTTGGTCTCCACGTCGATGATGAGCTTGTCAAAGTCGGTGCGCTGCTCAACACGAGTTGCCTCAACCTTGTAGGCAACGCGGGTGACCGGGGAGTAGATCTGGTCGACCGGGATGCGGCCGACCTCTCCACCTGCGTACGGCATGGCCGGGACGTAGCCGCGGCCGCGCTCGACGACGAGCTCCATCTCGAGGCGCGCGCTGTCGTTGAGCGATGCGATGTGCAGATCCGGGTTGTGGATCGCAATATCGGCAGGCAGCTCAATATCGCCAGCGGTGACGTTGCCCGGGCCCTCCTTGGACAGGTACATGACAACCGGCTCGTCGGAGTCGGAAGACAGCACGATATTCTTGACGTTGAGGATGATCTCGGAAACGTTCTCCTTGATCCCGTTGATCGTGGTGAACTCGTGGAGCACACCGTCGATCTTGATCGAGGTCACGGCCGCGCCCGGGATGGACGACAGCAGCGTGCGGCGCAGGGAGTTTCCGAGGGTGTAACCGAAACCAGGCTCGAGCGGCTCGATGACGAACTTCGAGCGGTTGGTGTCGATGTACTCCTCAGTCAGTTGAGGGCGCTGAGAGATAAGCATGGACTTCTCCTTTGTCGGCAACCACTATTTGATGCCGGTAGGAACGGATGGTGCGGAAGGTTTTTACGAAGTAAGAGATTACTTCGAGTAGAGCTCGACGATGAGCTGCTCCTGCAGCGGCACGTCGATCTGAGCGCGCTCGGGCAGCTGGTGCACGAGAATGCGCAGGGTCTCCGGAACGACCTGCAGCCAGGCCGGAACGACGGAGTCAACCAGGTTGTCCTGGGCCTCCTCGAACCAGATCATGGCGCGGGACTTCTCGCGGACATCAATGATGTCGTACTGCGAGACGCGGTAGGACGGGACGTTCGTGCGCTTGCCGTTGACCGTGAAGTGGCCGTGGGAGACAAGCTGGCGTGCCTGGCGTCGGGTGCGTGCCAGACCAGCGCGGTAGACGACGTTGTCTAG	MLLLGVFRGDVDVVASLGVVPLDLGRVEVFRRVLQGQPQRGKLDLDLVDGLLPEVTDVQQVTFGALGELTDGVDLLALQAVVGADGEVQVLNRQVVRSDVLRLLRGRANLQALGSRVQLAGEAEQLHQGRTCRRQGVTGRHGVLGLHVDDELVKVGALLNTSCLNLVGNAGDRGVDLVDRDAADLSTCVRHGRDVAAAALDDELHLEARAVVERCDVQIRVVDRNIGRQLNIASGDVARALLGQVHDNRLVGVGRQHDILDVEDDLGNVLLDPVDRGELVEHTVDLDRGHGRARDGRQQRAAQGVSEGVTETRLERLDDELRAVGVDVLLSQLRALRDKHGLLLCRQPLFDAGRNGWCGRFLRSKRLLRVELDDELLLQRHVDLSALGQLVHENAQGLRNDLQPGRNDGVNQVVLGLLEPDHGAGLLADINDVVLRDAVGRDVRALAVDREVAVGDKLACLASGACQTSAVDDVV				NA	NA	NA	NA	NA
AK009_07052	582			hypothetical protein	GTGCTCTTACTTCTCGTCCTCGGTGGTTTCAGTCTCGACGACCTCGACAACCTCGGTTGCCGGCTCGGCCTCGACGGTCTCGGTGGCGACGACCTCAGCCTCAGCCTGCTTGGAGGCAGCGGCGCGGGCGGCGCGGGACGCCTCGGACGACACGGTCTCCTCGAGAACGAGGGAGATGTGGGTCATCGGCGCGTTGTCGCCAGCGCGGTTCTCGAGCTTGATGGAGCGGGTGTAACCGCCATCGCGGTTCGCGAACTTCGGCGCGAGCTCGTTGAACAGGTACGCAACGATGTCCTTGTTCGGCAGCTCGGCGGCCACGGCGCGGCGGTCAGCCAGCGTGCCCTTCTTCGCCTTGGTGATCAGCTTCTCTGCGTAGGGGCGCAGAACCTTGGCCTTGGCCTCGGTGGTCTTAATTGCCCCGTGCTCGAAGAGGGACATAGCCAGGTTGGAAACGATGTGTTTCTGGTGGCTGGCGGAACCTCCGAGACGGGCGCCCTTCTTAGGGGTCGGCATTTTCGTACTCCTCGTGTGCGGTTAGTTGAGCGCGTGCTCTGTGTTGTTACTCGGTGTCTTCCGCGGTGA	MLLLLVLGGFSLDDLDNLGCRLGLDGLGGDDLSLSLLGGSGAGGAGRLGRHGLLENEGDVGHRRVVASAVLELDGAGVTAIAVRELRRELVEQVRNDVLVRQLGGHGAAVSQRALLRLGDQLLCVGAQNLGLGLGGLNCPVLEEGHSQVGNDVFLVAGGTSETGALLRGRHFRTPRVRLVERVLCVVTRCLPR				NA	NA	NA	NA	NA
AK009_07053	843	truA_2	COG0101	tRNA pseudouridine synthase A	ATGACCGACGAAACGCTGCGCCTGCGCCTGGACATCGCCTACGACGGCACGGATTTCCACGGCTGGGCACGCCAGGGCACGTCCACGCGCACGGTTCAACACACCATTGAGTCGGCGCTGTCGATGGTGCTGCGCACCCCGGTTGAGCTGACGGTAGCGGGGCGTACCGACGCCGGGGTGCACGCCTCCGGCCAGGTCGCGCACGCGGACATCCCCCGGGCCGCGCTCGACCAGCGCTCCATCGACGGCGACCCGGCCCGCCTCGTTCGGCGGTGCGCGAAGCTCCTGCCCGCCGACGTGCGGATCTTCGACATCTCCGAGGTGAGCCCGCTTTTCGACGCCCGCTTCTCCGCGTTGAACCGCTCCTACGTTTACCGGGTGACCACGCACCCCTCCGGCGCGTTGCCGACCCGCGCGCGCGATACCGCCGTGTGGCGCCGCCCGGTCGACATCGACGCCATGCAGGCGGCGGCTGACGCGTTCGTGGGGCTCCACGACTTCGCCGCGTTCTGTAAGGCGAAGCCGCACGCCACGACGGTGCGCGAGGTGTTGAGGATGCGCTGGGTGGAGGCGTCGACAAGCAAAGAGCCCAACCTGTACGAAGCGCACGTCGCTGCCGACGCCTTCTGCTGGAACATGGTCCGTTCGCTCGTTGCGTCGTGCCTGCAGGTCGGGGAGGGGTCGAAGGACCCCGGCTGGGTTGAGCCGCTGCTCGGCGAAACGTCGCGCAGCCCGCAGGTGCTGCTCGCCCCCGCCAAGGGGCTGACGCTTGTCGACGTCTCCTACCCCGCGCCCGAGCACTACGCCGAGCGTGCCCGCCTGACCAGGGCAAAACGGGATTGA	MTDETLRLRLDIAYDGTDFHGWARQGTSTRTVQHTIESALSMVLRTPVELTVAGRTDAGVHASGQVAHADIPRAALDQRSIDGDPARLVRRCAKLLPADVRIFDISEVSPLFDARFSALNRSYVYRVTTHPSGALPTRARDTAVWRRPVDIDAMQAAADAFVGLHDFAAFCKAKPHATTVREVLRMRWVEASTSKEPNLYEAHVAADAFCWNMVRSLVASCLQVGEGSKDPGWVEPLLGETSRSPQVLLAPAKGLTLVDVSYPAPEHYAERARLTRAKRD				NA	NA	NA	NA	NA
AK009_07054	1296			hypothetical protein	GTGGACGGCCGCCATGGCGCTGATCCCGAAGAAGAGCACGGGCCACACCTGGCGGCGCCACGCGACGACAACCACCGCGCCGAAAACGGCCAGCCACAGCAGAACCGTCGCGTCGAAGTCGGGGAAGAACTGCACCGAGTGGCGGGTGCGCATCATCAGGATGGTCTTCCACGGTGTCGGAGTCAGGTCTCCTTCGGTAGCCCCCCACTCGGCAACCTCTTCGGCTTGGCCAGAGCCCTGCAGCATTTGTGGCAGGTAAAGCAGTGCGCCGACCACGGCGGGCCCCGCGATCCAGAGGAAGTCCTTGAGCCGGGTTGTAACCGGGACGAACAGCAGCCGGGTGAGCCAAAACAGGGTGACTGCAACGGCGACGATGGTGACCGCCGACGGGTGGACGACCAGGACGCCGAGGAAGCCGAGCATCGCGGGAAAGGCCAGCGCGGGCCGGGCCGGGGTGGAGCAGAACTGCCAGATCACGATGCCGGTCAGCGTGACCGCGAAGAGGTAGGGCCACATTCCGACGTAGTCGGGAATCCACATCAGCGTCGGTGCCACGTAGCAGGCCAGCGCCGCCAGCGCGGCAGCGACCTGCGCGGTCAGCCCGCGCGACTGCGTCACCGCCAGCGCGAGACACGCCATCGTCAGCGGCAGCGTCAGGCCGGGGAGAATGGCAGCGGCAATGTTGAGCGCTGGGATCGGCTCAAGCCCGGCAACCTGCGCAAACAGTGCGATGCCCGAGTGGTAGCCGGTGGGGTACAGAAGCTGCGCCTGCGTTTCAATGTTTTGCAACTCACCCATCCGCGTGGGCGAGGCGATGCCTTCCTCCCGGATGAACCGCACCACGTTGGCGTGCCACTGCACGTCCCAGCCCTGCACGATGTTGTCCGTGCCGTGCGGCACGCGCGCCAACCAGTTCAAGCGATCGCCGACGATCATCCACGCACCACCGATAACGCCTATCGCGGGGACCACCCACGCTGGGTCCGCCACGCTGCCGGCCCGCCACCCCTCGGGCAAGAACCGCTCCCGCCACGTCGACGCCGTGCGCAACCGTCGGTCCATCGCCCAGCGCCACAGCACCGCGCAGCCGAGCGTGAACAGGAAGCTGATGGTGAATGTGAGCATGTTAAACGGCGCGGTCGTCTCGCCCCACATCCATGCGCTCATCCCCATGATGCCGAAGGTCACCGGCATCGCGCTCGCGGCCGCCGCTGGCGCCTTCACCCCCGCGACCCAGGAGATGATGAATCCTGGCAGCGTGAACAGCATGACGGCGACCACAAAGGCGCCCGTTAG	MDGRHGADPEEEHGPHLAAPRDDNHRAENGQPQQNRRVEVGEELHRVAGAHHQDGLPRCRSQVSFGSPPLGNLFGLARALQHLWQVKQCADHGGPRDPEEVLEPGCNRDEQQPGEPKQGDCNGDDGDRRRVDDQDAEEAEHRGKGQRGPGRGGAELPDHDAGQRDREEVGPHSDVVGNPHQRRCHVAGQRRQRGSDLRGQPARLRHRQRETRHRQRQRQAGENGSGNVERWDRLKPGNLRKQCDARVVAGGVQKLRLRFNVLQLTHPRGRGDAFLPDEPHHVGVPLHVPALHDVVRAVRHARQPVQAIADDHPRTTDNAYRGDHPRWVRHAAGPPPLGQEPLPPRRRRAQPSVHRPAPQHRAAEREQEADGECEHVKRRGRLAPHPCAHPHDAEGHRHRARGRRWRLHPRDPGDDESWQREQHDGDHKGAR				NA	NA	NA	NA	NA
AK009_07055	702			hypothetical protein	GTGACATCGCAACAGCCCCAACACCTACCCGGCCCCAGCCGCCCCGATGGGTTCAAGCTGCGGGATCTCCTCGGAACCGTGCTCCCGCGCGTCACGCTTCATAGCCCGCAGCTCGGCGGGGGTGAACGCATCGTTGACCGCGAAGATCACGGTATTGCCCCGCGCGTACACGGGTGTCGCCCCCTCGGCCACCCACAGGCCCTTGAGCTGCTCATAACGCGGAACGACGTGCCACCAGAAGTTGTCGGGGCTGGAAATAATGAATTTCACGCCGAGTTCGATGGCCGCTTCGTCGACGGGGTTTTCCGATCCCGGGTCGCCACGCAGCCCCTCGCCGAGCGCGTCGGTGTGATAGTGGATCCGGTCCATCATGGAGCCGCGCCCCGAGGTGGGCCACAGGTAGTGCCGCGACAGCGTGGGCACACCGTTGTAGGCGTAGATCCAGGAGTGCCCGTCGTCGGGTTCGCCGTAGGTCAGCCCTTCCCATGCGGCGGGCTGGGTGGCCAGCCAGTCGAAGGCGATGCGGTCGTTGTCCGAGACCATCCTCATGTCCATCCTGGCCCCGGTGTATGCCCCTTGCGCACCGAGCTCGGACGTGTCGCGCGCCCACGCCACGGTCCCCGCGCCCGCGATGAGAGCGACAACGAGCGAGGCGCTTATCGACGCCCACCGCCAACGCGGCGAACCCTTCCGCGCAGCTAG	MTSQQPQHLPGPSRPDGFKLRDLLGTVLPRVTLHSPQLGGGERIVDREDHGIAPRVHGCRPLGHPQALELLITRNDVPPEVVGAGNNEFHAEFDGRFVDGVFRSRVATQPLAERVGVIVDPVHHGAAPRGGPQVVPRQRGHTVVGVDPGVPVVGFAVGQPFPCGGLGGQPVEGDAVVVRDHPHVHPGPGVCPLRTELGRVARPRHGPRARDESDNERGAYRRPPPTRRTLPRS				NA	NA	NA	NA	NA
AK009_07056	1251	eccB3		ESX-3 secretion system ATPase EccB3	ATGTCGTCTCATTCGCCGCGGCGGTTGCTGCCCACCACGCGCGCCCAGGTGTCGGGGCACCGCTTCATGCGCCGCAGGGTTGAGCACGGGCTGATCTTCGGGGATATCCGGATGATCCACGACCCGTTGGCGTCGCGGCAGCGCGCCACGATATTCAGCGTTGTTGCGGTGCTGCTCATCGCCGCGATCACAGCGCTGTTTGCGTGGCTGCGGCCCAACGCCGATCCGGGCGATGCACCCATCCTGCGCTCCTCCAGCGGCGAGCTGTATGTCCGCATCAACGACATCGTTCACCCGGTCACGAACCTGACCTCGGCGCGGCTGATCGTCGGTGCGCCCGAGCAGCCGCAGCGCATTGGCGACAACAACCTGCTCGCGCAGCCGCGCGGGGTGCCGGTGGGCCTCGCGGTGGCGCCGTCGTTGTTCGCCCCGCGCGATAGCGCGGACCTGTCGTGGTCGGCGTGCACGTCAGGCGGCGAGGTCGGCGTCATAGCCGGGCCGGCTGCGAGTCCGCTCGCCGGGGCGTCGGCCGTGCTCGCCGAGGTGGGCGGGCAGCAGTGGTTGGTCACGGGCGAAGGCCGCCGCGAGTTGCCGCCCGCCGACACCCCCACAGGTCGCGTTATCCGCCGCGCGCTCGGCGTCGATGCCAGCACCCCGCGCTGGTCGCCGCCGTCGCAGCTTCTCGACGCCATCAAGGAAGACGCCCCGCTTGACCTGCCTGACCCGCTGCCCGAGGTCGCTGTCAATGGCGCCGACGCGTGGGCAATCGCAGCCGATGGCGGCGTCCAGCCGCTGAGCCGGCTGCAGAGCGAGATCCTCACTCAAGCCGGCGCGTCGCAGCGCTCGGTGGACAGCGCCGAACTCGCGCAGCTTCCCGACGCCGACCCGCCAAGCGACATCCGCCTGCCCGCCGAGGTGCCGGCCTGGGTCGACCCGGCCACGGAAACGGTGTGCGCCACCGAAGCGCAGGTCGGCGCGACGTACACCGCGCCCGTGCCCTCCTCGATCGCGCTGTCCGGCGACGCGCTCGCGGTCGCTTTCTCGGGGCTTGACGACGGCTCCGTTGCCGTCGATTCAGGCCACGGCTACCACGTCGTCTCTATCATCGGCATGCGTCACGACGTCCCGAACCGCAACGTGCTCGACATGATCGGCGCCGAGCACGTCGAGCAGGTGCCGTGGGAGATCATCGCGCTGCTGCCGCAGGGAGACACGCTGACCCAGGATGGGGCGCTGGTGACGGCGTATTAG	MSSHSPRRLLPTTRAQVSGHRFMRRRVEHGLIFGDIRMIHDPLASRQRATIFSVVAVLLIAAITALFAWLRPNADPGDAPILRSSSGELYVRINDIVHPVTNLTSARLIVGAPEQPQRIGDNNLLAQPRGVPVGLAVAPSLFAPRDSADLSWSACTSGGEVGVIAGPAASPLAGASAVLAEVGGQQWLVTGEGRRELPPADTPTGRVIRRALGVDASTPRWSPPSQLLDAIKEDAPLDLPDPLPEVAVNGADAWAIAADGGVQPLSRLQSEILTQAGASQRSVDSAELAQLPDADPPSDIRLPAEVPAWVDPATETVCATEAQVGATYTAPVPSSIALSGDALAVAFSGLDDGSVAVDSGHGYHVVSIIGMRHDVPNRNVLDMIGAEHVEQVPWEIIALLPQGDTLTQDGALVTAY				NA	NA	NA	NA	NA
AK009_07057	1320			hypothetical protein	GTGGCTGGGGTTTTCTTACTTCCTCGCGGCGCTAACGCTGACCGCGCCGCTGTGGTCGGCCCGGGTGCCCGATTTGGAGCCGACGTCGCTGGTGTGGTTCGAGCGCGCGGAGGCACTCGCGATTATCGCGGTGTTCCCGCTCGGGCTGTTACTAATGGGCGCCTTCGACCTGATTCGGGGCGCGTGATGCGCGGGCGCGCTGCCATCGTCGCTGCCACATTCCTCGCGCCCGCCCTGGTCGCGCCGGGTGCCGCCGCCCAGGACGTAGTGTGCGCCCCGCCCGCCCACGCGGACGCACCCGCCACGCCCGAGTGGGCCCCGCAACTGCGCCGGTTCGCCACCGGCGCGGGAGTGCGTGTGGCGGTGATTGACACCGGGGTGGCCGCCTCGCCCGAGCTGGACCAGCTCGTCGCGGGCGGGGACTTCGTCACCCCGGACGCACCCGACGCGCTGTTTGACTGCGACGCCCACGGCACCGTCGTCGCCGGAATCATCGCGGGCACGACCGCCGGCATTGCCCCGGACGCGGAGGTGATTTCCATCCGCCAAACCTCCGCCCACTACCGCGAGCAGGAATCGAGCCCCGGCGCGGGCAGCGTGCGAACGCTTGTCGACGCCCTTAACAACGCCCTCGACCTCCAAGCCGACGTAATCAACATTTCCGTCGTCTCGTGCCTCGACCCGCGCGTTGCCCCGCGGGTCGACACCACCGGCCTCGATGCCGCCCTCGCGCGGGCGGAGGCCGAAGGGGCCGTGGTGGTGGCCGCGGCAGGCAACGTCACCTCGCAGTGCCCGCAGGGCTCGAGCGTGATCCCATCGCACTCCCCGACCGTGCTGGCGGTTGGTGCGCGCTCGGACGCGCACCAACTCGCCGACTATTCCGTTGAGGTGCCGGAGTCGTCGACGCAGCTGTCGGCGCCGGGCGATGTGGCGGTTGCGCTGTCACCCGATGGGCGCGGCTGGGCCGCAGGCACGCTCGACGCGCAGGGCAACGTGATTGCGTTTGAGGGCACAAGCTTCGCCGCACCCGTCGTGACGGGCTCAGTGGCGTTGCTGCGCCAGAGGCACCCAGAGCTCACGCCCGCCGAGGTCCGCACCCTGGTTGCCGCCTCGGCGCAGCCGCACGGCGGCGCCATCGACCCGCTATCAGTGGTGACCCAGCTGCGGCCAGAGTCCCCGACGCAGGATCACACCGTGCTGGTCTCCGCCGCGCAGCAGTCGACGTCCGCGGCGGCCGAGCGCTGGCGCAGCGTCGTCATCGGCCTCGCGGCAGTGCTGGTCATCGCCGTCGTCGGCGCTGCTATTCGACGCCCCCACTAA	MAGVFLLPRGANADRAAVVGPGARFGADVAGVVRARGGTRDYRGVPARAVTNGRLRPDSGRVMRGRAAIVAATFLAPALVAPGAAAQDVVCAPPAHADAPATPEWAPQLRRFATGAGVRVAVIDTGVAASPELDQLVAGGDFVTPDAPDALFDCDAHGTVVAGIIAGTTAGIAPDAEVISIRQTSAHYREQESSPGAGSVRTLVDALNNALDLQADVINISVVSCLDPRVAPRVDTTGLDAALARAEAEGAVVVAAAGNVTSQCPQGSSVIPSHSPTVLAVGARSDAHQLADYSVEVPESSTQLSAPGDVAVALSPDGRGWAAGTLDAQGNVIAFEGTSFAAPVVTGSVALLRQRHPELTPAEVRTLVAASAQPHGGAIDPLSVVTQLRPESPTQDHTVLVSAAQQSTSAAAERWRSVVIGLAAVLVIAVVGAAIRRPH				NA	NA	NA	NA	NA
AK009_07058	411			hypothetical protein	GTGCGCGTTGTCGGTTACGGCGAGGCAGGCGCATGCGACCGCGGCGTACGCCGTAACAGCGAGCGCGATGCGCGACGCGGTGTCGTGGTGGCGAAACGAGTGCAGCACGAGCGCACCGCCTGTGCAGAGGCTAAACGCGCTCACCCAGCCCCCGCCGAGCCATCCCAGCCACGTGAGCGCGGGCACGCAGCACAAACACACCCCGGCGGACACGCCGGCGGTGACGCGGCGCGCCACCCGCCCGCGCACGTCGACGTCGTGCTGGTGGGTGTCCGCGATGGAGAAGTTCTCTCCCGCGGTGGGCACCCGCGGGATGGCGATGCCCGAGGCACGCGTTGCCACGGCGGGCGTGAACATCACCGCGCCGAGCCCGGCGAGCACTACCGCGGCGGCCGGCGCGGTGGGAGGTGA	MRVVGYGEAGACDRGVRRNSERDARRGVVVAKRVQHERTACAEAKRAHPAPAEPSQPRERGHAAQTHPGGHAGGDAARHPPAHVDVVLVGVRDGEVLSRGGHPRDGDARGTRCHGGREHHRAEPGEHYRGGRRGGR				NA	NA	NA	NA	NA
AK009_07059	480			hypothetical protein	TTGCGGCGCGCGGTCGTCGGCGGATGCGGCCGCGAGGGACTCCGCGGCGTCGCGCACAACGGGCGGGGGCACGGGTTCGCGAGGGCGCAGCACGATGATGTGGCCGTCGCTAAGCCGCTGCTGATACAGCGGGCGATGCTGATCGAGCAGGGCTCCGGCGACGGTGGTGACCTCCCACGGGCGCGACAACGGGGGCAGATCGACCAAGCGCGCCAACTCAGGCAGGATCTCGGCGAACGTGGACGACGTCGGCAGCGTCAGGTCGATGTCGCGGTGAAACGATGCGACGTCAATGCGGACGGTGACGCGAACGATGTGGTGCGCAGACGTGGCAACCATAGATACCCCCGAAAACTTCCCGCGCGAACCCCCGTTGCCGCGCGTCTGCGCCAATTATTGCTTAAGATGTCCACCACGTCCACAGCTATGGGGAGCTCGGGACTATTTCTACGGGGGGTAAATCTGCTGTGCTCGGTCTAG	MRRAVVGGCGREGLRGVAHNGRGHGFARAQHDDVAVAKPLLIQRAMLIEQGSGDGGDLPRARQRGQIDQARQLRQDLGERGRRRQRQVDVAVKRCDVNADGDANDVVRRRGNHRYPRKLPARTPVAARLRQLLLKMSTTSTAMGSSGLFLRGVNLLCSV				NA	NA	NA	NA	NA
AK009_07060	1257			hypothetical protein	GTGCGGGCCCATGCCGCCGTGGGCGGACTCTTTAAGATCCAGGTGCACGGGCACCCCGTCGGGCGTCGCGCCGAACGGCACGACCAGGTTCTGCCGGGTGCCCTCCCTGCCGCGCCACATCGAGTGCGGGTTGAGGTCGTCGATATCGGCAATGCCCAGCATCGAGAGCAGATCCGACGAGGCCCCGCTGACACCGGTGTCCTCCGGGCGGTGGTAAAACGCCAGGTGGCGAGCGAGCAACTGCGCCTGCGCGACGCTGAACGCGTCCGGCCTGCCCAGCGTCTCGGCCCCCTCGAGGGTGTGCGCGACAATTTCCTCGGCGCAGGACAGGTGGAACGAGTCCTCGTCGCCGATGTAGTCGGGGTCCGCGTCGACCGCGATCACGCAGTCGATCCCGGGTGTCAGAAGAGCGGCGCTGGCCTGCGCGCTGTCGGCGACGGCGACGCACAACGCCGCGTGGTCTGGGTCGCGCGTGTGCGGCAGCCACTTGACCCACCCGAAGTCTGGGTCCCCGTGGAGGTTGACCACCCCCACCATCTCCGGGCCGTGGAAGAAGCAGAGCTGGCTGATCACCGCGCGCGCCACCTCCGCGGCGCGCGGGCCAGCCAGAGTGATCGCCGGAAACGCGCTAAGCTGCACGACGATCGGCATGCCCGGCACCGTGCTCACCGCCGCCACCGTGCGACGCAGACTCACCGCGCACACGGGGTCCAAGTCCTCCGGCGAGCCCGGGTCGCCCACCTCAATCGGGGTGCACAGCGAGGTCGCGCCCTCGCCGAAGCGCACCTCCCAGGCGCGCGGCGAGTCAAAGGCCCGCTCCCAGACCCGCGACGTCGGCGTGGCGTGGATCAGCTCGGCCGGCTCGGGGTGGAAGTGCGTGACGTGGGCGCGCTGCAGCCTCGCATTACGACGCGCCTGCGCCGCCAACGCGTCGAGGTGGCGCAGGTACACCCGCCGAGTTTCGTCGATATCGCCCTGCTGATCGGGCGGGTTAACCAACATGAGCGTGCTCAGCACCATCATCAGCGGGAAAATCATCATCATCGGGCTGACGTCGCGGCCCGACAACGCGAGCGTGGCGACCATCGCGCCAATCGCAACGACCATCACCACCGGCATCAGGATTTTCATGATCGGCTGTGGCGCGTCGCGCCGCGCCTCCGGCACGGGCTCGGCGATGAGCCTGCCCTGCGGCAGCGGCGGCGCCGGTTCCGCCGCGTGAGCGTGTTGCGGCACCAAAACGGCAGTGTGGTCTAG	MRAHAAVGGLFKIQVHGHPVGRRAERHDQVLPGALPAAPHRVRVEVVDIGNAQHREQIRRGPADTGVLRAVVKRQVASEQLRLRDAERVRPAQRLGPLEGVRDNFLGAGQVERVLVADVVGVRVDRDHAVDPGCQKSGAGLRAVGDGDAQRRVVWVARVRQPLDPPEVWVPVEVDHPHHLRAVEEAELADHRARHLRGARASQSDRRKRAKLHDDRHARHRAHRRHRATQTHRAHGVQVLRRARVAHLNRGAQRGRALAEAHLPGARRVKGPLPDPRRRRGVDQLGRLGVEVRDVGALQPRITTRLRRQRVEVAQVHPPSFVDIALLIGRVNQHERAQHHHQRENHHHRADVAARQRERGDHRANRNDHHHRHQDFHDRLWRVAPRLRHGLGDEPALRQRRRRFRRVSVLRHQNGSVV				NA	NA	NA	NA	NA
AK009_07061	816			hypothetical protein	TTGCGCGCGCGTCGCGGTACCCGCAACGTGCGGCAGCACCGCGAGATCCTCCATACGCCCGGCGCCAGCGTCGATCGCGTAGAAGCACAGCTCGGCGGTGGAATGCGTCACAGCGAGCGCCGCGACGATCGTGCGCAGCGCCATGGACTTGCCCGACTGGGGCCCGCCCGCCACAGCGACGTGTCCCCCAGCCGCGGAGAAATCTACGCTCGCGTGCTCTTGGCGCTGGTGGTAGGGGTCGTCGATAAGCCCGATGGAGACGCTCAGCGGCTGCGACGACTCGCACACCGCCGACAGCTCCACCGACTCGGGCAGCGGCGGCAGCCACACCTGGTGGGCGCGCAACCCACGCAGCCCAGCGGTCTGGCGCGCCTTGGCGACGACAGCGTCGAGAAGCGTCGTCGACTCATCCACGCTCACCACCGTCGACCCCTCGGACGCGGCGAGCTCCGGCGACTCCCAGCCGCGAAACAGCCCCACGCTCGGGCGCGCCTGGACCTCCCCGAGCTCCACACGGCGGGTCAGCGGCCCGGACACGTACGCGGCGCGGAAGCGGGTCAGCTCCGGCGCACCCGCCTTGAGGTAACCGTTGCCGGGCTCGTTCGGCAGCTCGTAGGCGTCGGGCACGCCGAGCACCTGGCGCGACTCGCCCGCGGAGAACGTGCGCAGACCAATGCGGTACGACAGGTGGGAATCCAGCCCGCGCAACTTGCCCTCCTCCAAGCGCTGCGAAGCCAGCAGGAGGTGAACACCCAGCGAGCGGCCCAGCCTGCCGACTGCGACAAACAGGTCCACAAAGTGCGGGTGCTGAACTAG	MRARRGTRNVRQHREILHTPGASVDRVEAQLGGGMRHSERRDDRAQRHGLARLGPARHSDVSPSRGEIYARVLLALVVGVVDKPDGDAQRLRRLAHRRQLHRLGQRRQPHLVGAQPTQPSGLARLGDDSVEKRRRLIHAHHRRPLGRGELRRLPAAKQPHARARLDLPELHTAGQRPGHVRGAEAGQLRRTRLEVTVAGLVRQLVGVGHAEHLARLARGERAQTNAVRQVGIQPAQLALLQALRSQQEVNTQRAAQPADCDKQVHKVRVLN				NA	NA	NA	NA	NA
AK009_07062	441			hypothetical protein	GTGCGTGCGCCGCGGATCCACGAGCACGATCCGGGCGCGCTGCCTCGGCAGCGAGCAGATCCCCGCCAAAAGCGTGGCAATCAGCGTCGACTTGCCGCTTCCCCGCGAGCCGATCGCCAAAAGGTGCGCGGCATCGAGGAAGAGCGTGTCAAGCTGGCTGCCCCCGATGCCGAAGGGGAGGCGCTGGCCGGTGGGGGCGTCGAGAAGCGAGCGTGCATCCACCACCGCGGGCAGGACCTTGAGCTGCGGCACCCGCGGCTGCGCGGCGGCCTGGGCGGCAATGTGCGCGAGGTCTTGAGGGTGCGTGGCGGCAACGAGCATGTGCCTGCCGTCTGGCGCGAGACCGCGGCCCGGCGCGGCAGGCACCCTGAGCTGCTCTTTCCTGCTGATCAGCGAATCCGCCGCCTCGGCAAGGTGCAGCTCGAAGCGCGTCCCGATTAG	MRAPRIHEHDPGALPRQRADPRQKRGNQRRLAASPRADRQKVRGIEEERVKLAAPDAEGEALAGGGVEKRACIHHRGQDLELRHPRLRGGLGGNVREVLRVRGGNEHVPAVWRETAARRGRHPELLFPADQRIRRLGKVQLEARPD				NA	NA	NA	NA	NA
AK009_07063	324			hypothetical protein	TTGCCCCTCGCCTTCCGGTTCGAGAGTGGCAATCTGAACGTCGCCAGCGTTGTGCCCGGCGCGCATCAACGTCGCCCTCCCGGGCGGCTTCGACGCGGGTTTGACCCCGAACAGGGCACCTTCGTCTTTGTTGCCGTCGAAGATGAGGACGTCGGGGGTGAGGTCTTTCAGCGCGGCGAGCAGACCGCTGTAGAGCGCCCTGGCGCTGCCGCCGAACTTGCGCGCGACGATGACGTGCAACCCGACATCGTGCGCGTGGGGCAGCAGCGACAGCAGGGGCCGAAACGGCTCGTCGCCGACAATGTCGAGGTCATCGATAATTAG	MPLAFRFESGNLNVASVVPGAHQRRPPGRLRRGFDPEQGTFVFVAVEDEDVGGEVFQRGEQTAVERPGAAAELARDDDVQPDIVRVGQQRQQGPKRLVADNVEVIDN				NA	NA	NA	NA	NA
AK009_07064	270			hypothetical protein	GTGGGAGAGCTCCACGTCGTAGCCGCCAAGCGCCCGGGCAATCAGGGCAAAGTCCTCGGCCTCCGCCACGACGCGGACGTGCGCGTTGCCCGGCGCGGGCCCGAGCACGCTTCGGATGTAACCTGCGATCTCCGCGGGTGTCGGGTGATCGTCGCGGCGCACGTTGGCCAGCCCGGCGAAAGTCGTCGTATCAGAGTTGACGGTGACGGTGATGTCGGCAGCGGTGGTCGTCATTGCCCCTCGCCTTCCGGTTCGAGAGTGGCAATCTGA	MGELHVVAAKRPGNQGKVLGLRHDADVRVARRGPEHASDVTCDLRGCRVIVAAHVGQPGESRRIRVDGDGDVGSGGRHCPSPSGSRVAI				NA	NA	NA	NA	NA
AK009_07065	432			hypothetical protein	TTGGTAGAGCGGGTCGACGGCCAGCTGCAGCCGAAAATCGGGGTCGCTGCCCGTCGCGCGCCACATGTCGCCATCGGCCTCGACGCTAAACCCCGCGGGCACCTCCACGGTCAGGCCTTGCCGCGAAATCACCGTCGGCGGAGGCGGCGCTTGCTCGCTTGTCGACGGCTCACTCTCCGACGTCGTCTCAATCTCCGGCGCCGGCTCGATCTCAGACTCCACCACAACGTCGCCGTCACCGGAACCAGCAGCCAGCACCGTCGACAAGATCGCGCCGAAACACAGCACCACGGCAATGCCGATCACGACGATCTGCCACCCGTCGAGGGGGAAGATCCCGGGCGCTTCCGCCTCGGGGCGCGCTATGTCGATCGGCCCATCGTCGAAGAAATCCGCGGGCTCCGCATCCCGTATCGCGTGTTTGCCCCCTGA	MVERVDGQLQPKIGVAARRAPHVAIGLDAKPRGHLHGQALPRNHRRRRRRLLACRRLTLRRRLNLRRRLDLRLHHNVAVTGTSSQHRRQDRAETQHHGNADHDDLPPVEGEDPGRFRLGARYVDRPIVEEIRGLRIPYRVFAP				NA	NA	NA	NA	NA
AK009_07066	912			hypothetical protein	ATGTGCGGTGTTCTAGCCCCAGCTTTGCGCGGCGGCGTTGTTGACCTGCTGCATGCGGCTGTTGCCCCCGTCAACAGCCTCGGCGACGCTGTTCAGGATGGCGTTGAGGTCGCTCGCCGCCGAATCCCACTCGCTTTGGTGGACCTTGTAAGCCTCGGCCGCGTCACCCGTCCAAGTGGAGACCATGGGTTGCAGGCCGCTCTTGAGCTCGTCGAGCATCCGGTTGATCTGCGCGACCGAACCACGCAGGTCCTCGGCCGCCCCGGCGAGCTGGCCGAATTCGTACTTGATTGTCATAGTCGTTCTACCCCTTCGTCTCTAGAGCGCAAGGCCCGCGCTGGTGCTGATGGAGCGCAGGTCGTCGGTGTTGGAGGCTTCGATGTTTTCGTAGTTCTTCGCGTTGTCGCGCAGGTTCTCGGCGATCGCGGCGAGCGCCTGGCCGAGGCGGCGCTGCGCATCGTCGTACCGCAGCATGACCCCGTCGAAGCTGGTCTGGGCCTCGCCCTGCCAGTACGAGCGGGTGCCTTCGACGACGCCCTGGATGCGTTCGATCTCTCGGTTGACTGCGTTGTTTGTGTCGTCCACGTTGTTTGCGGCCGAGCGCATGACGTCGGCTTCAGTTTGGAGCTGAGCCATAGTGTCTCCCCCTTGTATGTGCGTCCGTGTGTGGGCCCGGATGTGGCCTCACCCCTATTTGACTGCCCCGAGGCGCCTCCGGTTCCATCCGACCCGAAAGTTTTTCTACTCGGCCGCACTAAACGTCGCCGACTCCATGGCCATCCGGCACGTCGCGCTGTGCACCGTCGTCGGTTCGGCGCGGGTGTGGCACCCCACCGAAAGCTGGTGGTCCGCCTCGGCCCAGGTTTTCCACAGCGCGTGCGACCCGTCGGCGCTGTCCTCGCGGTAGGTTAG	MCGVLAPALRGGVVDLLHAAVAPVNSLGDAVQDGVEVARRRIPLALVDLVSLGRVTRPSGDHGLQAALELVEHPVDLRDRTTQVLGRPGELAEFVLDCHSRSTPSSLERKARAGADGAQVVGVGGFDVFVVLRVVAQVLGDRGERLAEAALRIVVPQHDPVEAGLGLALPVRAGAFDDALDAFDLSVDCVVCVVHVVCGRAHDVGFSLELSHSVSPLYVRPCVGPDVASPLFDCPEAPPVPSDPKVFLLGRTKRRRLHGHPARRAVHRRRFGAGVAPHRKLVVRLGPGFPQRVRPVGAVLAVG				NA	NA	NA	NA	NA
AK009_07067	1131			hypothetical protein	GTGGGGGCGCGCTGTTTAGTAGATCGCATCTCCGTACCGCAGGTACGGATCACTGGCGATCAGCGCCGCAACGTCGGCGTCGAGATCATCGCCATCGTCCAGTGGCGGTTCGAACGGGAAGGTCATGCCGAACTCACGTTCAAGATCCACCAGCGCCTCCATGCAATCATGGACGTTCTGCGTGAGGTCGAAGTCGTCGAGGATCTTGTGCCCGCGGGCGAAGAACGTCCTCACCCGGTCGCGCTCGCGCAGCCTAGAATCCAGGTCGATATTCCACCTCGGGTTGTGCGGGCTGATGTGCTCACCAATAAACCCTTCGGGTTGCGACAGCTGGTAGGTCCCGTCCGGGAACAGCCACACGATGTCACCGGTGGCGGGATCCGGGACGTAGTACGCCCGGCGGTCCGTCTTCACGTTGTGGTGCCGCTGACAGAGCGAGTACAAATTCGACGGGGTCGTCGCGCCATTTTCCTGGAACGGAACCCGGTGGTCCAGCTGGCATTCCGTGGCATCGCGGTCGCAGTCAGGCCAGATGCACACCCCGTCGCGGGCAATTGCGTAGGCGCGCATGCTAGACGACGGCACGTAGCCGGCAATCTCGTGCTCCGCTACCTCATCGAGGTTGATGATGCGCGGCGGGTTGGCCTCGGTGAGGTCGTCGAACTCGGACGTTCCCGCGGCGTCCGTCCACCCGCTTCCGGGGAAGAACACCGACGCCCCGGGCACGACGGTGCCCTCCGGGGTCAGCGGCGCGTACCCGAAAATGGTGACGTTGGGCTGCGTGGTGTGGCGGCCGGTGAGGATCAGTTTCGCGGCTTCGCTCTCGGAGACCTTGTGCTCCCGGGCAACCTGGCGGCGAAACTCCTTCATCACCGCGTGCGTCGTGTTGTCGCACTCAACCGTCAGGCCGGAGCGCTTGCCGGCGGAAAACTCGTAGAGGGTGAAGTCCTCAGCCGCCTTCGCCCGGTCCTTGCGCTTCTTCGGGTCGTAATCAACCCGCTCGTCGAACTTGGCGATGAACCGCTTCAGCCGGTGCGTGATCGCCTTCGGCGACAGCAGCGGCTGGTTTGCCTTGCGTGGGGTGAAAGTGTCGGTGAGGTAGGCGTCGATAAGCTGCAGAACCTCGTGTGA	MGARCLVDRISVPQVRITGDQRRNVGVEIIAIVQWRFEREGHAELTFKIHQRLHAIMDVLREVEVVEDLVPAGEERPHPVALAQPRIQVDIPPRVVRADVLTNKPFGLRQLVGPVREQPHDVTGGGIRDVVRPAVRLHVVVPLTERVQIRRGRRAIFLERNPVVQLAFRGIAVAVRPDAHPVAGNCVGAHARRRHVAGNLVLRYLIEVDDARRVGLGEVVELGRSRGVRPPASGEEHRRPGHDGALRGQRRVPENGDVGLRGVAAGEDQFRGFALGDLVLPGNLAAKLLHHRVRRVVALNRQAGALAGGKLVEGEVLSRLRPVLALLRVVINPLVELGDEPLQPVRDRLRRQQRLVCLAWGESVGEVGVDKLQNLV				NA	NA	NA	NA	NA
AK009_07068	396			hypothetical protein	GTGCTCGGAGCCGACGAAGACGTGAAGCTTCTTGATGGACTGGCGAGAAAGGCGGTTGTGCGGCATCATGCCGCGCACTGCCTCCTCGACGACGCGATCCGGGCGCTCATCCAGAGCACGACCCAGGGTCATGGACTTCAAACCGCCCGGGTAACCGGAGTGGCGGTAGCGCATCTCGCGTTCGCGCTTGTTGGAGGAGATGTGGACCTTGTCGGCGTTGATCACGATGACGTGGTCGCCGGTGTCAACGTTGGGCGTGAACTGGGGCTTGTGCTTGCCGCGCAGGATGTCCGCTGCGGTGGAAGCGAGCTTGCCCAGTACCACGTCGGTTGCGTCGATGACGTACCACTGACGGGTAATGTCACCGCTCTTCGGGTGGTAAGTAGACATGTATGA	MLGADEDVKLLDGLARKAVVRHHAAHCLLDDAIRALIQSTTQGHGLQTARVTGVAVAHLAFALVGGDVDLVGVDHDDVVAGVNVGRELGLVLAAQDVRCGGSELAQYHVGCVDDVPLTGNVTALRVVSRHV				NA	NA	NA	NA	NA
AK009_07069	1203			hypothetical protein	GTGAGCGAGGTAGCGCTCGCGGGCATCGGGGGCTTCCTCGATGACGCGCCCGACGCCGGTTCCGGTCGGGCCGTTGTCGTCCAGATGCTCCATCGCTGCTTCGATCTTGTCCTCGACCTCGTCGGGAAGCTTGCGCCCACCGGCGGAGAAGAACTTGATGCCATTGTCCGGCATGGGGTTGTGGGAGGCGGAAATCATTACCCCGATGTCGGCCCCGTAGTCGTCGGTAAGAAAGGCCAGGCCGGGGGTTGGGATCACGCCGACGCGCAGCACGTTGACACCTTTCGACGCCATGCCTGCTGCCATCGCGGCCGCCAGCATTTCGCCGGAGACGCGCGGGTCGCGCCCAATGATGGCGGTCGGGCGGCGCTTGCCGCTACCACGGTTCTCCGTCAGCACCATCGCGGCGGCTGCGCCCAGCTTCAGCGCCAAGGGAGCGGTCAGAACTTCATTGGCCAATCCACGGACGCCGTCCGTTCCAAACAAGCGAGTCATTCGTGTCATTATGCCCGAGCAACCACGCACACCCAGACAGGACCCCACCGTGGCGAATACAAAAACCGCCCCCGCGCTCGCAGTGGCGAACGTGGGGGCGGCGAGGCGCACAAGCGATTAACGCTTCGAGTACTGCGGTGCGCGGCGGGCCTTGTGCAGACCTGCCTTCTTGCGCTCCACGGCACGTGCGTCACGGGTGAGCAGGCCGGCCTTCTTCAGGGTCGGGCGCTCAGCCGGGTTGTAAACGTTGAGTGCGCGGGCGATAGCGAGGCGCAGTGCACCGGCCTGGCCGGTGGGGCCGCCACCGGAGATGTTGGCCTTGATGTTGAACTGGCTCTCGCGATCGAGCAGCGTCAGCGGCTGCAGGATGTCCTGCTGGTGCAGCTTGTTCGGGAAGTAGTTCTCAAACTCGCGGCCGTTGACGGTGATGGTGCCGTCGCCCTCCGTCACGGTGACGCGGGCGATGGCGCGCTTACGGCGGCCAACGGTCTGGATCGGACCCTCGTGCAGGGACACCGGCTCGACGGTCTCCTCGGACCCCTCCTCCACCACGGGAGCGACGGCGTCGCCGATGGTGTAGTTGAATTCCTCGGTCGCGGCGGTCGCCAGGTTGACGTCGACCTCTGCGTCGAAGTTCTCTTCGGTGTAGTTGTTCGGCTCGGTCATTACTGGGCCACCTGCTTAAACTCGAAGGTTTCCGGCTTCTGA	MSEVALAGIGGFLDDAPDAGSGRAVVVQMLHRCFDLVLDLVGKLAPTGGEELDAIVRHGVVGGGNHYPDVGPVVVGKKGQAGGWDHADAQHVDTFRRHACCHRGRQHFAGDARVAPNDGGRAALAATTVLRQHHRGGCAQLQRQGSGQNFIGQSTDAVRSKQASHSCHYARATTHTQTGPHRGEYKNRPRARSGERGGGEAHKRLTLRVLRCAAGLVQTCLLALHGTCVTGEQAGLLQGRALSRVVNVECAGDSEAQCTGLAGGAATGDVGLDVELALAIEQRQRLQDVLLVQLVREVVLKLAAVDGDGAVALRHGDAGDGALTAANGLDRTLVQGHRLDGLLGPLLHHGSDGVADGVVEFLGRGGRQVDVDLCVEVLFGVVVRLGHYWATCLNSKVSGF				NA	NA	NA	NA	NA
AK009_07070	642			hypothetical protein	TTGCTCCTGCTCAGAGGCCTCCACCATGACGCGGAATACCTCCTCGGTGCCCGAGGGCCGCAGCAACACGCGGCCGTTGTCACCGAGTTCAGCCTCGACTTCCGCAACCGCGGCCTTGACGTCTTCGGCGTCGATGATGCAGGACTTGTCGGACACCGGGACGTTGATGAGCACCTGTGGCAGGACCTTCATCACGCCCGCAAGTTCCTCAAGGCTCTTGCCGGTTTCCGCCATGCGCGCCATCAGCAGCAGGCCGGACAGGGTGCCGTCGCCGGTCGTCGCAAAGGCGGGCACGACGATGTGGCCGGACTGCTCGCCGCCGAGCGAGTAGCCGCCGCGCCCGAGCTCCTCGAGTACGTAACGGTCCCCCACCTTGGTCTGCTTCATGGTGATTCCCTCGCGCTGCATCGCGAGCTTGAGGCCGAGGTTGCTCATCACCGTCGCCACCAGCGTGTTTTCCTGCAGGATGTTCTTGTCGCGCATCGCGGTCGCGAGGATCGCCATGATCTGATCGCCGTCGACGATGTTGCCCTTGGCGTCGACGGCAAGGCAGCGGTCCGCATCGCCGTCGTGCGCCAAGCCGATGTCGGCACCGTGGCGCACGACGGCCTGCTGCACCTGCTCCATGTGCGTCGAGCCTGA	MLLLRGLHHDAEYLLGARGPQQHAAVVTEFSLDFRNRGLDVFGVDDAGLVGHRDVDEHLWQDLHHARKFLKALAGFRHARHQQQAGQGAVAGRRKGGHDDVAGLLAAERVAAAPELLEYVTVPHLGLLHGDSLALHRELEAEVAHHRRHQRVFLQDVLVAHRGREDRHDLIAVDDVALGVDGKAAVRIAVVRQADVGTVAHDGLLHLLHVRRA				NA	NA	NA	NA	NA
AK009_07071	300			hypothetical protein	ATGGAGCAGGCTTTGAACGTGGATCCGGAAGCCGTTCGCCAACGGCTCGATTCCGCGATTGCCCAGTACGAGGAACTCGCGGCGCAGCTGCGCGACAACGCGCCTACCTTTCCGGCGCATGCCGTCGGGGCGGGTTTTGAAGCCCACGGGCGCGCGTTGGCGGAAGCCATGTCGCGGATGCAGGAGCGTAACGTCGAGTTCCTCGCCAACCGGGTTGAGGGATGGCGCCAGCTGCGTAGCCTGATGGATTCCGTGGAACAAACCGATGCCGCCAACGCGTCGGAGGTGGGGCTGCGATGA	MEQALNVDPEAVRQRLDSAIAQYEELAAQLRDNAPTFPAHAVGAGFEAHGRALAEAMSRMQERNVEFLANRVEGWRQLRSLMDSVEQTDAANASEVGLR				NA	NA	NA	NA	NA
AK009_07072	1284			hypothetical protein	ATGACAACGACGGTGACGCAGAACCTCTCATCGTTAGCGGCGGAGGCGGCGACGATCCCAGGGTCGGACCCCGCGGTGGTGGCCAGGATCGACTCTGTTGCCAAAGCGATCGCCCGCGAATACCTCAAGACCGAGGGTATGAACCTCGATGTTGTAGCGGCGAGCGCGAACAAGCTGGGCACATCAGCCACTGCGCCCAGGCGCGGCCGCGGCATAGGCGGTTTCGCGGCCAATTTCATCAAAGACGTGCTCAGCAAGATCGGCGCCGAGCACACCTCCAACTGGTTCGACTCGATCGGTGTGTCCACCGATGAGAAGGGGCGCGAAGACGCCGAGGGGATCCAGGGGGATAACGCCGAGCAGCTGTGCCACGACGTGACCCACTGCTGCGACGCCATCCGCGAGATCGACACCACCGCCGACGAAGCCATTGGGGGAGTGGCCGACGTCATCTCCGCCCTGCTCAGCATCGCCAGGATCCACCCGATCGGCCGGAAGGCTGGGCTTATCCTGCCACTCGTCCTCAATGGCTTCGAGCAAATTAAAGGAATCGTAGACGACCGAAACGGCCAGGTTGAAACCTGCCTCGGAGCCGTCACGCAGGCGTGCAACGACATGCTCGAGCACCAGCCCCAACCTCACAAGCAGTGGGATTGCCCGCCGGTGAGCACCGCCCCGTCACCCACTGCACCCGCCGTGCCCGCCGCGCCCACCGCACCCGCCTCGCTTGACGACGGCTGCGAGCCCCAGGCACAACCCCAAGCCTCAACCCAAGCCTCAACCCAAGCCCCGACCTCGATTTCTTTTAACTTCGATCTCGGTGCGTCATCTGAGCTGCAGACTCACTCCGTTGCATTGCAACCGCCCACCTGCGACGTCGCGGCGCAGTTCTCTTCGCCGCAACCTGACGCGTCACCGTTGACCGGGATTCTCGCGCAGATTGGGATCAGCATCACCCTGGAGTGCCTCAACCACCTGGCGGAAAGTATTGAGGCAGCCGCCGAGTGCCCGGGGGAGACCTGCTGCACCCACGGCGAGACGGAGGAAGTCGCCGAAGTTGCTCCCGCGGAACCCGTTGCCGCAGCGCCGCCGGAACTGGCGGAGGTCGAAGAGCCACCGGCGCCGGCTGCAAAGCTTCAGGCGGCAGGTCTCCAGACGCCCCCGCCTGCTCCACCGCCCGTGCAGGCTGAAACGCAGCCCGTGCAGGCTGAAACGCAGCCCGCGGAGGTTGAAACACCGCCCGCGGACCCTACACCCAAGATGAGGAAGTCAGGTGAATGGTGA	MTTTVTQNLSSLAAEAATIPGSDPAVVARIDSVAKAIAREYLKTEGMNLDVVAASANKLGTSATAPRRGRGIGGFAANFIKDVLSKIGAEHTSNWFDSIGVSTDEKGREDAEGIQGDNAEQLCHDVTHCCDAIREIDTTADEAIGGVADVISALLSIARIHPIGRKAGLILPLVLNGFEQIKGIVDDRNGQVETCLGAVTQACNDMLEHQPQPHKQWDCPPVSTAPSPTAPAVPAAPTAPASLDDGCEPQAQPQASTQASTQAPTSISFNFDLGASSELQTHSVALQPPTCDVAAQFSSPQPDASPLTGILAQIGISITLECLNHLAESIEAAAECPGETCCTHGETEEVAEVAPAEPVAAAPPELAEVEEPPAPAAKLQAAGLQTPPPAPPPVQAETQPVQAETQPAEVETPPADPTPKMRKSGEW				NA	NA	NA	NA	NA
AK009_07073	246			hypothetical protein	ATGGTGATGGATTTCGTCGAATTCGTGGAGCAGTACAAACTCCGAACCGCGAAACGGATGGTTGATTTCGAGGCGGCGATCGCCGAGGCTCACCGCCAAATGGAGCAAGCTGGGCGACAGCAGGCCATAGCGCGGGAAATGAAGCTGCGCCCGGCACCGGTCACCCCGCGGGGCGTTTACCGACCTGTGCGCCGAAACGGCCGCGTGCAGGGAGTGCTGCGCCGCGACGACAAGGACGAGACGTAG	MVMDFVEFVEQYKLRTAKRMVDFEAAIAEAHRQMEQAGRQQAIAREMKLRPAPVTPRGVYRPVRRNGRVQGVLRRDDKDET				NA	NA	NA	NA	NA
AK009_07074	855			hypothetical protein	GTGTCTGCGAAATTGAAGAAGCTGTCTGATCTGACAAAGCGTGGCCCGCACCGGGTCCTCGAGGGCGACCTTGGCTACACCGGCCTGCCTGGGAAGGTGTACGCCCCGGCGGAAGGCGAGGGCCTTCCCGCGATTGCTTTCGGCCACGACTGGATGAAGAGCATCGACGATTACCATGCCACCCTGCGCCACCTGGCCAGCTGGGGAATTGTCGTCGCGGCCCCCGCCACCGAGTCGGGCTTCAAACCTGACCATGCCGGATTCTCCGCAGACTTGGACAGTGCGATGCAGATCCTTGCGGGCGTGCGCCTCGGCAACGGAAACATCACCGTGGCCCCGGGCAAGATTGGCGTTGCGGGACACGGCATGGGCGGCGGCGCCGCAGTGCTGTCCGCGGTGGACAACGACAAGGTCAAAGCCGTCGCCGCGATTTACCCGGCCAACACCGCGCCCTCGTCGATCCAGGCGGCGCGGAACATCTTCCTGCCGGGCATGGTCATCGGGGCCGACGATGACTCCGACTCCCTGTTCGACCCGGGCAACCCCGCGAAACTGGCGTACAACTGGGCTGGAGATGTGGTTTACCGAATCCCGGCCAAGGGGAGCCAGGCAAGCTTTAGCGAAGACGGCATAGTCAAGCGCATCCTGGGGCTGGCTCGCCCCAACGGGAAGGTGCAGGCAACGGTGCGCGGGCTGCTCGTGGGTTACTTCCTTCACCAGCTCGACGGCCAGAGCAAGTACTCCGACTTCAGCGAGGCCGACGCCACCGGCGCGAAGGTCACCTCGCTGCACGGGGACGATCTCGCGGAGCGCGCCGGCCTGACTCGCGACGACTCCAGCTTCTCCTTCTTCTAA	MSAKLKKLSDLTKRGPHRVLEGDLGYTGLPGKVYAPAEGEGLPAIAFGHDWMKSIDDYHATLRHLASWGIVVAAPATESGFKPDHAGFSADLDSAMQILAGVRLGNGNITVAPGKIGVAGHGMGGGAAVLSAVDNDKVKAVAAIYPANTAPSSIQAARNIFLPGMVIGADDDSDSLFDPGNPAKLAYNWAGDVVYRIPAKGSQASFSEDGIVKRILGLARPNGKVQATVRGLLVGYFLHQLDGQSKYSDFSEADATGAKVTSLHGDDLAERAGLTRDDSSFSFF				NA	NA	NA	NA	NA
AK009_07075	810			hypothetical protein	GTGCTCGATGGCGTACTTGGCCGCCAGGCCGGAGTGGTAGGCGGATCCACAGGCCACAACGAACACCTGGTTGAAGGACTTCAGCTCCGTGGGGGTGAGGTTGTTTTCATCCAGCGTGACACGGCCGTTGGCCCAGTGGCCGGCCAGGGTGTCGCGCACTGCGGCGGGCTGCTCGAAGATCTCCTTCATCATGAAGGAGTCGTAGCCGCCCTTCTCCGCGGCCTCGAGGTCCCAGTCGATGGTAAATGGTTTGCCCTCGGCGGGCGTGCCGTCGAAGTTGAGGATCTCGTAGTCGTCCTTGGTGATGATCACCACGGAGTCGTGGCCCAGCTCGACGGCCTGCTTCGTGTGCTCGATGAAGGCGGCGACATCGGAGCCGAGGAACATCTCGCCCTCGCCGACGCCGACCATCAGCGGCGTAGAGCGACGCGCGGCGATGATCTGGTCGGGGTGGTCGGCGTGCACGAACAAAAGCGTGAACGCGCCCTCCAGGCGGCTGAGAACGTGCAGCGCGGAGGCGCGGAAGTCGCCCGCGGTCTTACCCTCGTTGTACGCCTTGGCCAGCAGGTGCGCGGCGGTTTCAGAGTCTGTGTCGGAAGTCAGCTCGACGCCGTCGCGCTCGAGCTCCGCGCGCAGCGCGGCGAAGTTCTCGATGATCCCGTTGTGCACGATCGCGACCTTGCCGTCGAAGGAGATGTGCGGGTGCGCGTTCTCGTCCGTCGGTCGGCCGTGGGTGGCCCAGCGCGTGTGGCCGATAACTGTGGTTCCGGTGAGGGTGTCTTCGCCGATCTCAGAGATTTTGTCCTCTAA	MLDGVLGRQAGVVGGSTGHNEHLVEGLQLRGGEVVFIQRDTAVGPVAGQGVAHCGGLLEDLLHHEGVVAALLRGLEVPVDGKWFALGGRAVEVEDLVVVLGDDHHGVVAQLDGLLRVLDEGGDIGAEEHLALADADHQRRRATRGDDLVGVVGVHEQKRERALQAAENVQRGGAEVARGLTLVVRLGQQVRGGFRVCVGSQLDAVALELRAQRGEVLDDPVVHDRDLAVEGDVRVRVLVRRSAVGGPARVADNCGSGEGVFADLRDFVL				NA	NA	NA	NA	NA
AK009_07076	885			hypothetical protein	GTGCTTGACGACGATCCCCACCGCGACGATCACCCCGATCAGCAGCAGGTTGATCGAGTCGACGAAAGCAAGGGAGAGGGCTCCGAGCATGCTGAAAGGTTCTCGCGCCTACTCGACCGTGACCGACTTGGCCAGGTTGCGCGGCTTGTCGATGTCTTCGTTGCCGTTTTCGCGCGCGATGTCCGCCGCAAGGAACTGCAGCGGCACGGTGGCGAGCAGGGGCTGCATGATCGTCGGCGTCTGCGGGATGCGCAGCAGCCAGTTGGCGTACGGCTCGACGGCGGTGTCGCCCTCCTCCGCGATCACGATCGTCTTCGCCCCGCGCGCGCGGATCTCCTGGATATTGGAGACGATCTTCGAGTGCAGCTGGCTCACGCCGCGCGGGCTGGGCACGATGACCACGACCGGCAGGTCGTCTTCAATCAGCGCGATCGGCCCGTGCTTGAGCTCGCCCGCCGGGAAGCCCTCGGCGTGGATGTAGGCGAGCTCCTTGAGCTTGAGCGCGCCCTCCAGGGCGATCGGGAAGCCGACGCCGCGGCCGAGGAAGAGCATGGTTTTTACAGCACCCAGGGTCTCAGAGATCCGCTTGACCTCGTCGCGCACGGTCAGTGCGGTGGCGATCTTGTCCGGGATGGCCTCGAGTTCCTTCCAGATCTCGGTGATCTCGTCCGGGTATTTCGTCCCCTTCGCTTGCGCCAGGGCGAGGCCGACGATGTAGTTTGCCGCGACCTGCGCGAGGAACGCCTTGGTCGACGCCACGCCGATCTCCGGGCCGGCGTGGGTGTAGAGCACAGCGTCGGACTCGCGCGGGATCTGCGAGCCGTTGGTGTTGCAGACCGCGAGCACCTTCGCGCCCTGCGTCTTCGCGTGGCGCACGGCCTCTAG	MLDDDPHRDDHPDQQQVDRVDESKGEGSEHAERFSRLLDRDRLGQVARLVDVFVAVFARDVRRKELQRHGGEQGLHDRRRLRDAQQPVGVRLDGGVALLRDHDRLRPARADLLDIGDDLRVQLAHAARAGHDDHDRQVVFNQRDRPVLELARREALGVDVGELLELERALQGDREADAAAEEEHGFYSTQGLRDPLDLVAHGQCGGDLVRDGLEFLPDLGDLVRVFRPLRLRQGEADDVVCRDLREERLGRRHADLRAGVGVEHSVGLARDLRAVGVADREHLRALRLRVAHGL				NA	NA	NA	NA	NA
AK009_07077	471			hypothetical protein	GTGCGCCTCGATGAGCCCCGAGCGGTGCATGCCGGTGTCCACTTTGATGTGCAGGGGGGCGCCGATGTGGGTGTCGATAAGCCAGCGAAGATGCTCCAGGGTGGGCACGCCGAGCTCGATGCCGGCGGGGATGTCCTGGCCCGGCACCCACAGCCACGACACCACGGGCTTGGCGGTCAGCTCGCGTACCTCGGCAGCCTCGGCGAGCGTGGCGGTGCCGAAGGCGTCGGCGCCCGCGGCGTCCATCACCGGCACGACCCGGGCGACACCGTGGTTGTAGGCGTCGGCTTTGACCACGCACATCAGGCGCGCGCCGCCCGCGAGCTGGGACAACAGGCGCGTGTTGTGCGCGATCGCGTCCAAGTCAATGCGTGCGGTGAGCAAATCCATGGCCACTATTGTGCCGGATCTAGACGAGGTGGAGTCCACCGAGGATCACCAGTAGCACGGACACTGCCCACGTCGCCGTGA	MRLDEPRAVHAGVHFDVQGGADVGVDKPAKMLQGGHAELDAGGDVLARHPQPRHHGLGGQLAYLGSLGERGGAEGVGARGVHHRHDPGDTVVVGVGFDHAHQARAARELGQQARVVRDRVQVNACGEQIHGHYCAGSRRGGVHRGSPVARTLPTSP				NA	NA	NA	NA	NA
AK009_07078	621			hypothetical protein	GTGAAAGCTGCGCACCGTGCGCCCCTTCGGGGAGCACACGATCTCGTAGTTGATGGTTCCGACGCGCTCGGCGAGCTCGGTCGCGCTCATCCCGCCGGCGCCGAAGATGATCGCCTCGTCGCCCCTCGCCACACCCTCCGGGTTGCCGCCGAGCCAGATCAGGAACTGGTCCATGCACACGCGCCCCACCTGCGGGTAGCGCCTGGCGCCGATGGCCACATCCAGGTTGCCCTGCCAGGAGCGCCCCACGCCGTCGGCGTAACCCGCCGGAACGACCGCGATGAACCCGTCCTCAGGTGCGCTCCAGGTCAGCCCGTAGCTCAGCGCCTCGCCCGCCGCCAGCGGCTTGACCGCAAGGATCCGCGCCACCCACGTCATCGCTGGGCGCAGGCCGTGCTCGGCCCCCGCGATCGGTTCGAGCCCGTAGAGGCCCAGCCCGGCGCGGACCTGGTCGAAAACAAGATCCGGGCGGCTGAGCAGCGACGGCGTGTTGGCGAGGTGGTTGCACTGCACGTCGAGGCCGTGCGCGCGGGCGCGCTCGATCGCGCGGCGAAACGCCCGGGCTTGGACGTCGTTGTACGGGTGCGCCGGCTCGTCGGCCACGGCGAGGTGGCTCATTAG	MKAAHRAPLRGAHDLVVDGSDALGELGRAHPAGAEDDRLVAPRHTLRVAAEPDQELVHAHAPHLRVAPGADGHIQVALPGAPHAVGVTRRNDRDEPVLRCAPGQPVAQRLARRQRLDRKDPRHPRHRWAQAVLGPRDRFEPVEAQPGADLVENKIRAAEQRRRVGEVVALHVEAVRAGALDRAAKRPGLDVVVRVRRLVGHGEVAH				NA	NA	NA	NA	NA
AK009_07079	459			hypothetical protein	GTGGCTCACCTGCGCCCCTCCCCTCGTCATGGGGATGAAAATGATGGCGATGAGGACGATTACCCACAAGGCGAGGGCGAGCCCGATCCAGCGGCGGTTGGCGTTGTTCAGCTTGAGCATGGACTAGATCCTACATCGCTACTGCTCTGGGACTCTTATTTCCCAAAAGATCAGCCTGCCCTCGGAGTCCGGATCCTGGGCGACGAGCGTCTCGCGGTCAATCGTGACCTTGAGGTAGGCCGAGGCGATCTGCTCGACCAATCCCCCGCCCCACTCCGCGACAACAACTGCCGTGTCAAGGTCCGTCTCCAAGTCCAGCGCATCGAGCTCGCCGAGCGGGTCGCCGGACGAGCCCTCACCGATGAGCCGGTAGGCGTCGACGTGCACGAGCGACGGCCCGCCGTCCCGCGACCTGTGCTCGCGGGCAATGACGAACGTCGGGCTGGTCACCCGACCTGA	MAHLRPSPRHGDENDGDEDDYPQGEGEPDPAAVGVVQLEHGLDPTSLLLWDSYFPKDQPALGVRILGDERLAVNRDLEVGRGDLLDQSPAPLRDNNCRVKVRLQVQRIELAERVAGRALTDEPVGVDVHERRPAVPRPVLAGNDERRAGHPT				NA	NA	NA	NA	NA
AK009_07080	330			hypothetical protein	GTGGGCCCGCGTCTGTGTCACCGATTCCGCGATCGTCCGGGGCTCATCCGACGCGTCGACGAGGCCGACCACGAGGTCGCTCGTCGCGGTGTCCAGTGCCAGAACGATCACAAGCGAGCTCCCTTAGGAGTTAATGCCCATCGTCCACGTGCCCTCGTTGACGTAGAACGGGATCGGGGTGTTCAGCGGGAAGGACTCGGACTGCGCGACGGTGCAGATGTTCACGGTGTCCAGGTTGATCTTGTCCAGGGTGACATCGCCGCCGCGCTCCGCGGGCAGCAGCACCATGTAGCCGTACTTGCCGCTCAGGTCGACCTCGGCGGCATCTAG	MGPRLCHRFRDRPGLIRRVDEADHEVARRGVQCQNDHKRAPLGVNAHRPRALVDVERDRGVQREGLGLRDGADVHGVQVDLVQGDIAAALRGQQHHVAVLAAQVDLGGI				NA	NA	NA	NA	NA
AK009_07081	555		COG1214	putative protein	GTGCCCGAGGTCACCCGGCTTTTGGACCAGGCAGGGCTCGGTTTCGGCGACCTCACGGCGATCGTCGTCGGCTGCGGCCCCGGCCCCTTCACCGGGCTGCGCGTCGGCATGGCCACGGCGGGAGCCTTCGGTCTAGCGCTGGGGATCCCCGTCCATGGCGTGGTCACCCACGACGCCGTCGCCTCGCTTATCGACGCCCCCACCGAGCGCCCCGTTGTCGTGGCCACTGACGCGCGGCGCAAGGAAATCTATTGGGCGAAGTTCGTCGGCGGCGCGCGCGTCGCGGGGCCGAGCGTTACGGCTCCGGGGGACGTCGATACGCGCGGAGCGGCCGTGATTAGCGTCCCGGAGCACCTGAGCCCGCAGCTTGAGGTAGGCGAGGCGACCGTGACCTACGTAGCGCCGAGCCCGGTCGGGCTCGCGCGCGTTGCGGACCTCGACGCCGAGCCCGCGCCGCTGGTCCCGCTCTACCTCAGGCGGCCGGACGCGGTGCCGCCGAAGCCCGCCGCGCGCTCGGCCGCGATTCCGGCCGTGGACCTCGGGGAGCTTGCGTGA	MPEVTRLLDQAGLGFGDLTAIVVGCGPGPFTGLRVGMATAGAFGLALGIPVHGVVTHDAVASLIDAPTERPVVVATDARRKEIYWAKFVGGARVAGPSVTAPGDVDTRGAAVISVPEHLSPQLEVGEATVTYVAPSPVGLARVADLDAEPAPLVPLYLRRPDAVPPKPAARSAAIPAVDLGELA				NA	NA	NA	NA	NA
AK009_07082	486	rimI_1	COG0456	N-alpha-acetyltransferase RimI	GTGAGGCTGCGGGAGTTAACCATCGCGGACGCGACCCGGGTCACGGAGATTGAGCAGGCGTTGTTCAAGGGGGACAACCCGTGGTCGCGCGACGTGTTTGTGGCGCAATTCGCCCAGCCGTACACGTTCTACGTCGGCGCCTTCGTTGATGAAGACGGTGCCGAGACTCTTGTCGGGTACGCGGGCCTGGCCATGCTCGGCCCGCGCGACGACCCAGAGTTCGAGGTCCACACCATCGCGGTGGACGGCGCCTACCAGGGCCGCGGCATCGGGCGGGTGCTCATGGACCAGCTCGTGCACACCGCCGACCTGATGGGCGGGCCAATGTTTCTAGAGGTGCGCACGGACAACACCCCGGCGATCGCGCTGTATGAGAGCTACGGTTTTTCGGTGTTGGCGACGCGCAAGGCGTACTACCAGCCGTCGGGCGCAGACGCGTTTTCCATGATGAGGCACCCGCGCGGCGAGGAGGATCCAGGGACATGA	MRLRELTIADATRVTEIEQALFKGDNPWSRDVFVAQFAQPYTFYVGAFVDEDGAETLVGYAGLAMLGPRDDPEFEVHTIAVDGAYQGRGIGRVLMDQLVHTADLMGGPMFLEVRTDNTPAIALYESYGFSVLATRKAYYQPSGADAFSMMRHPRGEEDPGT				NA	NA	NA	NA	NA
AK009_07083	1035			hypothetical protein	ATGCACGAGCGGCACCGCGACGTCGAGAGTGGTGTCCGTGCCCACCCCGAGACTCGAGGCCGTCCCGCCCTCGTGGATCAGCTGCGCGGCCAGCGCCGCGATCATCACGCCGTTGTCCGTGCACAGCGACAGCCGCGGCACGCGCAGCTCAACGCCGGCGGCCTCGCAGCGCTGTGCGGCGAGCTCGCGCAGTCGCCGGTTCGCCGCCACTCCGCCGCCCAAAAGCAGCACGCGCGCGCCGGTATCCTCGCAGGCCATCAGCGCTTTTTTAGTCAAGACGTCGCACACCGCCTCCTGGAACGACGCGCACACATCCTCCACCGAGATCACGCGCCCCTCGCGCTCTGCGGCCTCCACGTAGCGCGCCACGGAGGTCTTCAGCCCCGAAAAGGAAAAGTCGTAACGGTGCTCGCCACGCAAATCCTCGGCCTTGCTCAGCCCGCGCGGGAAAGGAATCGAGGCGGTGCCTTTCGCCGCGAGCTTATCGACGACCGGCCCGCCCGGGTACCCCAGCCCCAGAAGGCGTGCGACCTTGTCGTAGGCCTCGCCGGCGGCGTCGTCAAGCGTGCTGCCCAGCTCCCGCATCGGCTTGCCCACGGCCTCGACCTCCAGCAGCTGCGTGTGCCCGCCGGAGACGAGCAGCGCCACCGAGTGCGGCAGGTCCTCGGCGCCGTCGAGGTTCGCCACCGCGACGTGGCCACCGAGGTGGTTGACGCCGTAGAAGTCCACGCCCCACGCCGCCGCGTACGCCTTAGCTGCCGACGCCCCGACGAGCAGCGCCCCGGCCAGTCCCGGACCAACCGTGGCGGCGACGGCATCGGGTTTGATGATCCCGGCGTCGCCAAGCGCCGCCTCCATCACCTGCGGCAGCGCCTCGAGGTGGGCTCGCGACGCGATCTCCGGCACCACGCCGCCGAACCGGGCGTGCTCGTGCATGGACGACGCCACCCGGTCGGCGAGGATCTCCATCGACCCGTCGTTGCCCAGCGCGACGATCCCGACCGCGGTTTCGTCGCAGGAGGTCTCGATACCTAA	MHERHRDVESGVRAHPETRGRPALVDQLRGQRRDHHAVVRAQRQPRHAQLNAGGLAALCGELAQSPVRRHSAAQKQHARAGILAGHQRFFSQDVAHRLLERRAHILHRDHAPLALCGLHVARHGGLQPRKGKVVTVLATQILGLAQPARERNRGGAFRRELIDDRPARVPQPQKACDLVVGLAGGVVKRAAQLPHRLAHGLDLQQLRVPAGDEQRHRVRQVLGAVEVRHRDVATEVVDAVEVHAPRRRVRLSCRRPDEQRPGQSRTNRGGDGIGFDDPGVAKRRLHHLRQRLEVGSRRDLRHHAAEPGVLVHGRRHPVGEDLHRPVVAQRDDPDRGFVAGGLDT				NA	NA	NA	NA	NA
AK009_07084	300	groS_1	COG0234	10 kDa chaperonin	ATGGCAAACGTCAACATCAAGCCGCTCGAGGACAAGGTCCTGGTTCAGATCGCTGAGGCGGAGACCACCACCGCTTCCGGCCTGGTCATCCCCGATTCTGCCGCTGAGAAGCCGCAGGAAGCCGTCGTCATCGCTGTGGGCCCGGGTCGTCTCGACGACTCCGGCAACCGCGTACCCGTCGACGTCAAGGAGGGCGACAACGTCGTGTTCTCCAAGTACGGCGGCACCGAGCTGAAGTACAACGGCGAGGAGTACCTGCTGCTCTCCGCCCGCGACCTGCTCGCCGTCGTCGAGAAGTAG	MANVNIKPLEDKVLVQIAEAETTTASGLVIPDSAAEKPQEAVVIAVGPGRLDDSGNRVPVDVKEGDNVVFSKYGGTELKYNGEEYLLLSARDLLAVVEK	PGPT0014565_2033	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
AK009_07085	1611			hypothetical protein	ATGACCGTGGTCGTCGCCGGACTCAGCCGGCTTGGTCACCACGGACGCCTCGGTGGTCAGGATCATCCGCGCCACGGACGCGGCGTTGACCACTGCGGAGTGGGTCACCTTCACCGGGTCGATGATGCCCTCCTCGATGAGGTTGCCGTACTCGAGCGTGGCGGCGTTGAAGCCTTCGCCGTTGGAGCGCTCCGCGACCTTGGACACCACAACGGCGCCATCAAGGCCCGCGTTCTCCGCGATCCAGTAGGCAGGCTTGGTCAGCGCGCGCGACACCGCGAGCACGCCGGTGCGCTGCTCACCCTCGAAGTTGTCGGCATACGCCTCGAGCTCGCGGGAGATCTGCACGAGGGCGGAGCCGCCGCCGGCGATGATACCCTCCTGCACGGCTGCGCGGGCCGCGTTGATCGCGTCCTCGACGCGCAACTTGCGCTCGTTGACCTCGGTCTCGGTGGCAGCACCGACGCGGATGACGGCGACACCGCCGGACAGCTTGGCCAGGCGCTCCTCCATCTTTTCCTTGTCCCAGGTCGAGTCCGTGGCCTCGATGTCGCGGCGGATCTTCGCGCGACGCTCCTCGACGGCCTCGGCGGAGCCGGCGCCGTCGACGATGATGGTGTCATCCTTGGTCACCGTGACGCGGCGGGCGGAACCGAGCAGGTCCAGGGTGGCGTCCTTGAGGTTAACACCGACCTCCGGGTCGATCACGGTGGCGTCGGTGACCACCGCGAGGTCGTCCATGAACGCCGCGCGGCGCTCGCCGAAGTACGGGGACTTTACGGCAACGACCTTCAGCGACTTGCGGATGGTGTTGACCACCAGCGTCTGCAGCGGCTCGCCCTCGACGTCCTCGGCGATGATGAGCAGCGACACGGATTCCGCGGCGATCTGCTCCAGCAGCGGCAGGAAGTCGGGCAGCGAGGAGATCTTGCCGCGCACCAGCAGCACGCGGGCGTCGTCAAGCACTGCCTGGCCGGCGTCGGGGTCGGTCATGAAGTACGGCGAGAGAAATCCCTTGTCAAAGGAGATGCCCTCGGTCAGGTCAACGTAGGAGTCCATGGTCTGGGACTCCTCGACGGTGACAACGCCGTCCTTGCCCACCTTGTCCATCGCGCCGGCGACCATCTCACCGACCTCCGAGTCGCGCGAGGACACGGTGGCCACGTTGGCGATCTCCGCCGAGGCGGAGACTGCGGTGGCGCGGGCCTTGAGCTCCTCGACGGCCTTCTCGGCGGCGGCCTTAATGCCCTTGTTCAGCTCGACGGGGTTCGCGCCCGCGGCGACGTTGCGCAGGCCCTCGGCGACGAGCGCCTGGGCGAGCAGGGTCGCGGTGGTGGTGCCGTCGCCGGCGATGTCGTTGGTCTTGACGGCGACGGACTTGACCAGCTGCGCGCCGAGGTTCTCAAACGGGTCCTCGAGGTCAATCTCGCGGGCGATGGTCACGCCGTCGTTGGTCACTGCCGGGCCGCCGAAGGCCTTGGACAGGACCACGTTGCGGCCGCGCGGGCCGAGGGTGACCTTCACAGCGTCGGCGAGAATGTCCACGCCGCGCTGGATGCCCTCACGGGCCTCCTGATCAAATGCAATAAGTTTTGCCATGGGTGGCTCTAG	MTVVVAGLSRLGHHGRLGGQDHPRHGRGVDHCGVGHLHRVDDALLDEVAVLERGGVEAFAVGALRDLGHHNGAIKARVLRDPVGRLGQRARHREHAGALLTLEVVGIRLELAGDLHEGGAAAGDDTLLHGCAGRVDRVLDAQLALVDLGLGGSTDADDGDTAGQLGQALLHLFLVPGRVRGLDVAADLRATLLDGLGGAGAVDDDGVILGHRDAAGGTEQVQGGVLEVNTDLRVDHGGVGDHREVVHERRAALAEVRGLYGNDLQRLADGVDHQRLQRLALDVLGDDEQRHGFRGDLLQQRQEVGQRGDLAAHQQHAGVVKHCLAGVGVGHEVRREKSLVKGDALGQVNVGVHGLGLLDGDNAVLAHLVHRAGDHLTDLRVARGHGGHVGDLRRGGDCGGAGLELLDGLLGGGLNALVQLDGVRARGDVAQALGDERLGEQGRGGGAVAGDVVGLDGDGLDQLRAEVLKRVLEVNLAGDGHAVVGHCRAAEGLGQDHVAAARAEGDLHSVGENVHAALDALTGLLIKCNKFCHGWL				NA	NA	NA	NA	NA
AK009_07086	366	whiB_1		Transcriptional regulator WhiB	GTGAATCCTCGTTCTCACGGCGCCGCGGATAAAGGAGTCTCAACTTTCATGTCTCAGCCTCAGCAGCTTCCCGGACCGAACGCAGATTTTTGGGATTGGCAGCTCCACGGCGCCTGCCGCGGCGAAGCATCAGAGGTGTTCTACCATCCGGACGGCGAGCGAGGACGCGCCCGCACCCAGCGTGAAAACCGCGCCAAGGCCATCTGCTACAACTGCCCGGTGCTGTCGCAGTGCCGCGACCACGCGCTGCAGGTAGCCGAGCCCTACGGCATCTGGGGCGGCATGAGCGAGTCCGAGCGCCAGGCCATCCTGCGCGCCGGCTCCTCGCGCGGCGGGATGAAGGTCGCCGCGGTCTCCGCGAAGTAG	MNPRSHGAADKGVSTFMSQPQQLPGPNADFWDWQLHGACRGEASEVFYHPDGERGRARTQRENRAKAICYNCPVLSQCRDHALQVAEPYGIWGGMSESERQAILRAGSSRGGMKVAAVSAK				NA	NA	NA	NA	NA
AK009_07087	606	sigD		ECF RNA polymerase sigma factor SigD	ATGGGTGCGGAAGGGAGTGCAGTGGCTGCGTCGGAAGTAGACAGCCAGCTCGCGGATTTAGTTCCGCTGGCTGCAGCGGGTGACCGCCGCGCCCTGCAGGACGTGGTGCGGCTCATACACCCGCTCGTGCTGCGCTACGCCCGCGCTCGGCTTGGCGGGGGACGCATGCCCACACCCGAAGACGTTGCGCAGGAAATCTGCCTCGCGGTGGCGACCTCGATTGAGAAGTACGTTGATCGCGGCAAGCCGTTCATGGCGTTCGTTTACGGCATCGCGTTCAACAAGGTTGCCGACGCGCACCGAAGCCTGGCGCGTGACAAGCTCTCCCCGACGGAGCAGGTTCCAGACGAGGAACTTTCCGGCGAGACACCGGAGGAGTTCATACTGGTCAGCGATGGTAGTAACAGAGTTCGTGAACTTCTCGATTTACTGAGTGATAAGGCTAGAGACATCATCATCCTGCGCGTGTTTGTCGGACTCTCCGCTGAGGAAACAGCGGAGGCCGTCGGCGGCACCGCAGGCGCTGTACGAGTGGCGCAGCACCGCGCCCTAGCCACCCTGAGAAAAGCTATCCAAGAAGGTGGGAGCTATGAGTCGTCACTATAA	MGAEGSAVAASEVDSQLADLVPLAAAGDRRALQDVVRLIHPLVLRYARARLGGGRMPTPEDVAQEICLAVATSIEKYVDRGKPFMAFVYGIAFNKVADAHRSLARDKLSPTEQVPDEELSGETPEEFILVSDGSNRVRELLDLLSDKARDIIILRVFVGLSAEETAEAVGGTAGAVRVAQHRALATLRKAIQEGGSYESSL	PGPT0014960_5133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_07088	762			hypothetical protein	ATGAGTCGTCACTATAACGGCAACGACAGCACGCCAGAGCTGCAGTCGCTTGTCGACGACGACGCGTTCCTCACCGCACTCTCCCGCGGCGAGGACCCGTCCGGCGGCAGCGATCCGCTCGCCGCGATGCTCCTTGAGCTGCGTGACGACGTCCACCAAGAGATGCCCCCGGCCCCCGTCGTGAAGACCCCTGCTCGCCACAAGCGCCCCCACCCGCTGCTCGCGGGCCTGGTCGGCGCTGCCGCGGCGACCGTCATCGTGGCTGGATCCGGCGCCGCACTGTACAACGCCACGCCCGGTTCCCCGCTGTGGGGTGCATCGACCGCCGTGTTCGGCGAGCGCACCTCCGTGGTCGAGCTTGCCAGCACGCTCGAAGAGCTCGAGGTCGCCAGCGCGAAGGGCGATGTCGAGGGCGCGCGCAACCTGCTGAATCAGGCACGCGCGCTTGTCAACGCCATTGGTGCGCGCGAAAACGCCCCAGCAGCTCCGGAGAACCCGGAGAGCCCGGAGAATAACGTCACCGTCACGGTGACGGAGACCCGGCAGCCGCAGGCCCCGGCCCCGGTTGCGGCCGAGCCCTCCGATAACCCGCAGCCTGCCTCCGAACCGGCCGCGACGGTCACGCAGACCGTGACGGTGACGCAGACCGTCACCGAGCCCGCGCCGACCAGCGCCGCCCCGGTTACGGCGACGACGCCAACGGGCGAGCCGACACCGCCGCCCGCCTCGCCGTCAACGGCGAACGAGGCGGCCTTGCGTTAG	MSRHYNGNDSTPELQSLVDDDAFLTALSRGEDPSGGSDPLAAMLLELRDDVHQEMPPAPVVKTPARHKRPHPLLAGLVGAAAATVIVAGSGAALYNATPGSPLWGASTAVFGERTSVVELASTLEELEVASAKGDVEGARNLLNQARALVNAIGARENAPAAPENPESPENNVTVTVTETRQPQAPAPVAAEPSDNPQPASEPAATVTQTVTVTQTVTEPAPTSAAPVTATTPTGEPTPPPASPSTANEAALR				NA	NA	NA	NA	NA
AK009_07089	432			hypothetical protein	ATGATATATCGCGGCACCGGAATTGCCCCATGCCGGGCTGGGCAATTAGGGTTAGGCAGTGTGAACTATGACGATATGATGCCCCTCGACCCGTTCAAGGATGACCCGAACGATCCGGCATCGTTTATCGAGGACGACGAAGTCGTCGAACCGCTCACCGACGAGGAGCGCGTCCACATCATCCGCGACCTCGCCCAGGTCCGCGAGTTCAAGGACGTTCTGCGCCCGCGCGGCATCCTAGGCATCTACTTCCTGTGCGAGGATTGCGAAGAGATGCACTACTACGACTGGGAAATTATGGAGCAGAACATGCTCGCCACGCTCAACGGTGAGCTGCCCCCGGTCCACGAACCAAGCGCCCAGCCCAACGTCGAGGCGTACGTGCCGTGGGATTACGCCCTGGGCTACCTCGACGGGCTCGACGCGCGCTAG	MIYRGTGIAPCRAGQLGLGSVNYDDMMPLDPFKDDPNDPASFIEDDEVVEPLTDEERVHIIRDLAQVREFKDVLRPRGILGIYFLCEDCEEMHYYDWEIMEQNMLATLNGELPPVHEPSAQPNVEAYVPWDYALGYLDGLDAR				NA	NA	NA	NA	NA
AK009_07090	1524	guaB_1	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGGCGACCGAGCGAGTACTCACAGGCGGAGACGACCCAAACAAGGTGGCTCTGCGCGGCCTGACCTTCGATGACGTGTTGCTGCTTCCCGCCGAATCCCACATCGTCCCCTCCGAGGTGTCGACGGCGACGCAGTTCACCCGCAACATCCGGCTTGGCATCCCGATCGCGTCTGCCGCGATGGATACCGTCACCGAGTCGCGTATGGCGATCGCTATGGCGCGCCAGGGCGGTATCGGCGTGTTGCACCGCAACTTAAGCGCCCGGGACCAAGCGGAGCACGTCGACATTGTGAAGCGCTCTGAGTCCGGAATGATTTCGGATCCCGTCACCGCCTCTCCCGAGATGACGCTGCACGACGTCGACGCGCTGTGCGCCCGGTTCCGCATCTCCGGCCTGCCTGTCGTCGATGACTCGGGCACCCTCGTCGGCATCATCACCAACCGCGACATGCGCTTCGAGGCGGATTTTGACCGCTCCGTGTCCGAGGTGATGACGGCAATGCCGCTCGTGGTGGCCCGCGACGGGGTGTCCAAGGAGGAAGCGCTGGCGCTGCTATCGGCCAACAAGGTGGAAAAGCTGCCGATCGTTAACGAGGCTGGGTCGCTGACCGGCCTGATCACCGTGAAGGACTTCGTCAAGTCCGAGCAGTACCCCAACGCGTCGAAGGACAGCCAGGGCCGGCTGCTGGTGGCCGCCGGGATCGGCACCGGCGAGGACTCCTACGACCGCGCCGGGCTCCTGGTCGAGGCCGGCGTCGATGCGCTGGTGGTCGATTCGGCGCACGCGCACAACAACCGCGTGCTCGAGATGGTCGCGCGGGTGAAGAAGGACTTCGGCGACCGGGTCGATGTTATCGGCGGCAACCTCGCCACCCGCAGCGCGGCCCAGGCCATGATCGATGCCGGTGCGGACGCCATCAAGGTTGGTATCGGCCCGGGTTCGATTTGCACCACGCGCGTCGTCGCTGGCGTGGGCGCGCCACAGATCACGGCGATCCTTGAGGCGTCGGTGCCGGCGCACAAGGCAGGGGTGCCGGTGATCGCCGACGGTGGCATGCAGCATTCCGGCGACGTCGCTAAGGCGCTGGCGGCGGGCGCATCCACGGTGATGCTGGGCTCGATGCTGGCGGGGACAAAGGAGGCCCCGGGCGACATCGTCGTCGTGGGCGGCAAGCAGTACAAGCGCTACCGCGGCATGGGCTCGATGGGCGCGATGCAGGGCCGTGGGCTGTCGGGGGAGAAGCGTTCGTTTTCAAAGGACCGCTACTTCCAGGCGGATGTCGCTAGCGAGGATAAGCTGGTGCCGGAGGGCATCGAGGGGCGCGTGCCGTACCGCGGTGAGCTCGACTCGATTACGCACCAGATTGTTGGCGGTTTGCGCGCGGCGATGGGCTACACCGGCTCGTCGTCGGTCGAAGAGCTGCAGACCAAGCAGTTTGTGCAGATCACCACCGCTGGCCTGCGCGAGTCCCACCCGCACGACATCACCCAGACCGTCGAGGCCCCCAACTACCGCGGCTAA	MATERVLTGGDDPNKVALRGLTFDDVLLLPAESHIVPSEVSTATQFTRNIRLGIPIASAAMDTVTESRMAIAMARQGGIGVLHRNLSARDQAEHVDIVKRSESGMISDPVTASPEMTLHDVDALCARFRISGLPVVDDSGTLVGIITNRDMRFEADFDRSVSEVMTAMPLVVARDGVSKEEALALLSANKVEKLPIVNEAGSLTGLITVKDFVKSEQYPNASKDSQGRLLVAAGIGTGEDSYDRAGLLVEAGVDALVVDSAHAHNNRVLEMVARVKKDFGDRVDVIGGNLATRSAAQAMIDAGADAIKVGIGPGSICTTRVVAGVGAPQITAILEASVPAHKAGVPVIADGGMQHSGDVAKALAAGASTVMLGSMLAGTKEAPGDIVVVGGKQYKRYRGMGSMGAMQGRGLSGEKRSFSKDRYFQADVASEDKLVPEGIEGRVPYRGELDSITHQIVGGLRAAMGYTGSSSVEELQTKQFVQITTAGLRESHPHDITQTVEAPNYRG	PGPT0021445_924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
AK009_07091	1227			hypothetical protein	ATGAGCTGCGCGTACTGGGCTCCGAAATCGACAACAAGGACGGGGCGCTGCTGGGCTGTAGTCACAACTGCAGATATTAGCCGACGCGCCGCCGGCGAAAATACTCCGGCAGCGCTAGCGCTGAACCGTCAGACCAACCTTCTGGAACGACTTGATGTCCGTGTAACCGCACTTTGCCATGATGCGGCGCAAACCTCCGACCACGTTTGTCGTCCCGTTGGGTTCCGCAGCGGGGCCGTGGAGCACCCGCTCGAGGGGGATACGCTTGCCGAACAGATCGTAGGGCTCTACCGAACCCCGCGGGTAGCGCGGGTGCGCGGCCGCCGATTCCCAGTAGTAGCCCTGACCCCCCGCTTCCTCTGCCTGGGCAAGCGGCAGGCCAAGCATCACGGCGTCCGCGCCGCAGGCGATCGCCGCGGCGACATCCCCGCTGCTGAGAATCTCCCCGTCGGCAATCACGTGGACGTAGCGCCCGCCCGTCTCGTCGAGGTACTCGCGGCGCGCTGCAGCGACGTCGGCGATGGCGGTGGCCATGGGCACTCCCACGCCGACCGAGGGGTAGCTCGATACCGCTCCGGAGCCGACGATGACGCCCGCCGCGCCGGCGCGCATCAGGTGGGTTGCGGTGGTGTAGTCGTACACCGCGCCCGCGATCACGGGCACCTCGAGGCTGCCGATGAACTCTTTCAGGTCCAGCGGCTCCCCGCCCCGCTTGACGTACTCCGCGGAGATGACCGTGCCCTGGATAAACAGGAGCTCGGCCCCGGCCTTGATCACAACCGGCGCGAGTTCGCGGGCGTTCTGCGGGGAGACGCGCACGGCAACGGTCACCCCGGCGTCGCGGACTTGGGCGATGCGCTCGGAAAGCAGGTCGTGGTCGAGCGGCGCGGCGTGCAGCTCTTGCAGGGCAGCCGTGGTGTCACGGCTTGCGCGGCGAAACTCCGAAATCGAGTAATCGGAATCAGCGACTTCGCTTTTCACACCGGACCCCACAACGCGGGATACGGCCTCCTCGAACGAGGCGTGGCGCGCCAGGATCCCCTCGGCGTTGAGCACGCCCAGACCGCCGCGCTTTCCCATCTCGATCACGAACTCGGGGCTCGCCAGCGCATCCGTCGGGTGCGCAACCAGCGGCATGTCGAAGGTGTAGGCGTCGATGTGCCAGCTCGTGTCCACGTCCGAGGAGGACCTCGTGCGACGCGAGGGCACCAGAGAGATATCGCCTAG	MSCAYWAPKSTTRTGRCWAVVTTADISRRAAGENTPAALALNRQTNLLERLDVRVTALCHDAAQTSDHVCRPVGFRSGAVEHPLEGDTLAEQIVGLYRTPRVARVRGRRFPVVALTPRFLCLGKRQAKHHGVRAAGDRRGDIPAAENLPVGNHVDVAPARLVEVLAARCSDVGDGGGHGHSHADRGVARYRSGADDDARRAGAHQVGCGGVVVHRARDHGHLEAADELFQVQRLPAPLDVLRGDDRALDKQELGPGLDHNRREFAGVLRGDAHGNGHPGVADLGDALGKQVVVERRGVQLLQGSRGVTACAAKLRNRVIGISDFAFHTGPHNAGYGLLERGVARQDPLGVEHAQTAALSHLDHELGARQRIRRVRNQRHVEGVGVDVPARVHVRGGPRATRGHQRDIA				NA	NA	NA	NA	NA
AK009_07092	360			hypothetical protein	GTGCGGCGAGTGCATGACCTCCGGGTGGTACTGAACACCCGCAAACCGCTTCTCGACGTTCTCAAAAGCCGCCACGGGAGCACCCGGCGTCGACGCGGACACCACGAAACCCTCCGGGGCCTGGGTAACGGAATCACCGTGGCTCATCCACACGGGGTGCTCGGTCGGCAGACCGCCGTGGAGCACGCCGTCGGTGCTCAGCATCGTGGTCCGCCCGTACTCGCGCGCGCCGGTCTTCTCTACCTTGCCGCCGAGCGCTTGGGTCATCACCTGGAAGCCGTAGCAGATGCCGAAGATGGGCAACCCCAGCTCAAAGATCTCGGGGTCGAGCTGCGGCGCGCCCTCCTCGTAGACGGATGA	MRRVHDLRVVLNTRKPLLDVLKSRHGSTRRRRGHHETLRGLGNGITVAHPHGVLGRQTAVEHAVGAQHRGPPVLARAGLLYLAAERLGHHLEAVADAEDGQPQLKDLGVELRRALLVDG				NA	NA	NA	NA	NA
AK009_07093	822			hypothetical protein	GTGGCCGTAGGTGCGTCCGTCGCCCTGGACACCGACGGAGCGGACGTCGGCAAGCAGCACCACCGGGCACTGCCAGATCTGGCTGTCCAGGCCCGCGCGGGTGAGCTCCTCGCGCGCGATCGCGTCCGCCTGGCGCAGCGTCTCCAGACGCTGCTCGGTGACCTCGCCGATGATCCTGATGCCCAGGCCCGGGCCCGGGAAGGGCTGGCGGTTGACGATCACCTCGGGCAGGCCCAGCTCGCGTCCGACGGCGCGCACCTCGTCCTTGAACAGCAGCCGCAGCGGCTCAACGAGCTTGAACTCGACGTCGTCAGGCAGCCCGCCCACGTTGTGGTGGCTCTTAATGTTCGCGGTGCCCGTTCCCCCGCCGGATTCAACAACGTCCGGGTACAGGGTGCCCTGCACCAGGAAATCCACGGTGTGGTCCGACAGCACGGTGCTCACGGCGCGCTCAAAGGAGCGGATGAACTCCGCGCCAATGGCCTTGCGCTTCGCCTCCGGCTCGGTCACACCCGCCAGCTTGTCCAAGAACGCCTCGCGCTCGTCGACGGTGACCAGCTTCGCGCCGGTCGCGGCGACGAAGTCCTGCTCCACCTGTTCGCGCTCGCCCAGGCGCAGCAGGCCGTGGTCGACGAAGACGCAGGTCAGACGGTCGCCGATGGCGCGCTGCACGAGTGCCGCAGCGACGGCGGAGTCTACGCCGCCGGACAGGCCGCAGATCGCGTGCCCGTCCTCACCGATCTGCTCACGCACCTGCTCAATGAGCTGCTCGGCAATGTTCGACGCCGTCCACGACTGCTCCAAGCCCGCAATGTCGGTTAA	MAVGASVALDTDGADVGKQHHRALPDLAVQARAGELLARDRVRLAQRLQTLLGDLADDPDAQARAREGLAVDDHLGQAQLASDGAHLVLEQQPQRLNELELDVVRQPAHVVVALNVRGARSPAGFNNVRVQGALHQEIHGVVRQHGAHGALKGADELRANGLALRLRLGHTRQLVQERLALVDGDQLRAGRGDEVLLHLFALAQAQQAVVDEDAGQTVADGALHECRSDGGVYAAGQAADRVPVLTDLLTHLLNELLGNVRRRPRLLQARNVG				NA	NA	NA	NA	NA
AK009_07094	282			hypothetical protein	GTGGGTTCCGATACCTTCCCCGCACGCGAACTCCACGCGGGTGTCCCGAGGAGGGATGATCGTGAGGGTGCCCACTCCGTGCTGGACGTCGACTTCGCGGTCGTCGTCAAGCGGCTTCAGGCCAGACAGGTCGAGCGTCGCATCGCCGATGCCCGAGCTGTAGGAGGACGCGAGGTCGTCGGCTGCGGTGATAGTGGTGTCCACCGGCACCTCGGGTTTGTAGATGATGTATGCGCCGGCTGCGCTGACCAGGACAATCGCCGTGAACAACGCGATGCCTAG	MGSDTFPARELHAGVPRRDDREGAHSVLDVDFAVVVKRLQARQVERRIADARAVGGREVVGCGDSGVHRHLGFVDDVCAGCADQDNRREQRDA				NA	NA	NA	NA	NA
AK009_07095	147			hypothetical protein	GTGCCAGAGCTCGGGGGCAACGCCGAGGGGATCCCACTGCGGCGGGGTGGTGCGACCCACGGTGGGGTGCGGGTAGCCGGCGGGGGTTGTGAGGTGGGAGGTTTCAACCTGCGGCCCAGCGGTGGTGGCGCTGGTGGAGACGCTTAG	MPELGGNAEGIPLRRGGATHGGVRVAGGGCEVGGFNLRPSGGGAGGDA				NA	NA	NA	NA	NA
AK009_07096	798			hypothetical protein	ATGCGCGCGGTGCAGCAGGTAAAACGCCCCGGTGGCGATAAAGAGGGTGATCACGGACGCGGTGGCGAGGCCGCCCGTGCCGATCGTGATGGAGGGCAGGAAGATGATCAGGCCGACAAGCAGTGCCCAGCCGGTGTCGCGGTCCTTCTTTTCCAGCGCGCTGAGCTGGACTTTAGGGGTGTTGATGGCGCGCCATGGCGAGGTGGTCATGCCGTAGCGGGGTATGTTCATCCACAGCAGGAGGTAGACGAAGATGCCGCCGCCGAAGGTCAGGGTCAGGCCGACGAAGGCGAGGCGGACGATGATGGGGTCGATTTGGTAGCGGGCTCCGATGCCCTCGCACACGCCGGCGACCAGGGCGTTGCCGCCCTGGCTTTTGGGAATGCGTACGGGGCGGGTGTACCACATGTCTTTGAGCGTTGTCTCGATGCTGGTGTTGGTGTCCATGACTTAAGGATCGCGCGTGAGGGCCTCGAAGCGCTATCGGGAAGCGCCCTGATTTCGCGGTTCAGGGTTATCCCTGATTTGCCTGAGAAGTTTAAGTGCAACAATCGGGGGCATGACTTCTACCACCGCGTATACCCCTGCCCCGGGGCGGCTGTACCCGCGTTTCGAGCGGCGCCGCTCCGGCCGCGTCGTTGCGGGAGCGGCGGCGGGGCTGGCCACGCACCTTGGGGTGCGGGTGCAGTGGGTGCGCATCGCGTTGGCCCTGTCGTGCTTCGCCAGCGGTTTGGGGCTGATCCTGTACGCGCTGCTGTGGGTGTTTACCCCGCTAGAAGCCACGAAGACACCCCCTGA	MRAVQQVKRPGGDKEGDHGRGGEAARADRDGGQEDDQADKQCPAGVAVLLFQRAELDFRGVDGAPWRGGHAVAGYVHPQQEVDEDAAAEGQGQADEGEADDDGVDLVAGSDALAHAGDQGVAALAFGNAYGAGVPHVFERCLDAGVGVHDLRIAREGLEALSGSALISRFRVIPDLPEKFKCNNRGHDFYHRVYPCPGAAVPAFRAAPLRPRRCGSGGGAGHAPWGAGAVGAHRVGPVVLRQRFGADPVRAAVGVYPARSHEDTP				NA	NA	NA	NA	NA
AK009_07099	462	purE_1	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGGGAAGTACGTCAGACTGGGAAACAATGAAATATGCTTGTGACATTTTAGATGAATTAAATATACCGTATGAGAAAAAGGTTGTATCCGCTCATCGGACTCCGGATTATATGTTTGAATATGCAGAGACGGCTCGTGAACGTGGATTGAAGGTTATTATTGCTGGAGCTGGTGGAGCAGCACATTTACCAGGAATGGTTGCAGCGAAGACAAATCTTCCTGTAATTGGAGTTCCAGTTCAATCAAAAGCATTAAACGGCTTAGATTCATTATTATCCATCGTCCAAATGCCAGGGGGGGTTCCAGTTGCAACTGTTGCAATTGGTAAAGCCGGTTCAACGAATGCTGGATTACTTGCTGCACAAATACTTGGATCATTCCATGATGATATACATGATGCATTAGAATTGAGACGAGAATCGATTGAAAAAGATGTGCGCGAAGGTAGTGAGCTAGTATGA	MGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRRESIEKDVREGSELV	PGPT0021545_3608	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
AK009_07100	1152	purK		N5-carboxyaminoimidazole ribonucleotide synthase	ATGACGAGAATCATTTTACCTGGAAAAACAATCGGCATTATTGGAGGCGGCCAGCTAGGAAGAATGATGGCATTGGCAGCCAAGGAGATGGGATATAAAATTGCTGTTTTAGATCCTACAAAGCATTCACCATGTGCACAAGTTGCTGATATTGAAATCGTTGCACCGTATGACGATTTAAAGGCAATTCAGCATTTAGCAGAGATAAGTGATGTTGTCACATATGAATTTGAGAATATTGATTATAGATGTTTACAATGGCTTGAAAAACATGCTTACTTGCCACAAGGTAGTCAGTTGTTAAATAAAACGCAAAATCGTTTTACAGAAAAGAATGGAATTGAGAAGGCTGGGTTACCAGTAGCAACGTATAGATTAGTTCAAAATCAAGATCAGCTTACAGAAGCAATTGCTGAGTTATCATTCCCTTCCGTCTTAAAAACGACGACAGGTGGATATGATGGGAAAGGGCAAGTTGTTTTAAGAAGTGAGGCTGATGTTGAGACAGCAAGAAATCTTGTGGATAAAGCAGAGTGTATTTTAGAGAAATGGGTGCCTTTTGAAAAAGAAGTATCTGTTATTGTGATTCGTAGTGTAAGTGGTGAAACGAAAGTGTTTCCAGTAGCGGAAAATATTCATGTAAATAACATTTTGCATGAATCTATCGTTCCAGCTCGTATTACAGAAGAGCTTTCTCAAAAAGCAATTGCTTATGCAAAGGTACTTGCGGATGAATTAAAACTTGTGGGAACACTAGCTGTAGAGATGTTTGCTACAGCTAATGGTGAGATTTACATTAATGAATTAGCACCAAGACCTCACAATTCAGGACACTACACACAGGATGCATGTGAAACGAGCCAATTTGGTCAACATATTCGAGCAATCTGTAATTTACCTCTAGGAGAAACAAATTTGTTAAAACCAGTTGTCATGGTAAACATTTTAGGCGAACATATAGAAGGGGTCCTAAGACAAGTGAATAGACTAACCGGGTGCTATTTACACTTGTATGGAAAAGAAGAAGCAAAAGCACAGCGAAAAATGGGGCATGTTAATATTTTAAATGATAATATTGAAGTTGCTCTAGAAAAAGCGAAGAGTTTGCATATTTGGGACCATCAAGAACAACTGTTGGAGGGAAAAAGATGA	MTRIILPGKTIGIIGGGQLGRMMALAAKEMGYKIAVLDPTKHSPCAQVADIEIVAPYDDLKAIQHLAEISDVVTYEFENIDYRCLQWLEKHAYLPQGSQLLNKTQNRFTEKNGIEKAGLPVATYRLVQNQDQLTEAIAELSFPSVLKTTTGGYDGKGQVVLRSEADVETARNLVDKAECILEKWVPFEKEVSVIVIRSVSGETKVFPVAENIHVNNILHESIVPARITEELSQKAIAYAKVLADELKLVGTLAVEMFATANGEIYINELAPRPHNSGHYTQDACETSQFGQHIRAICNLPLGETNLLKPVVMVNILGEHIEGVLRQVNRLTGCYLHLYGKEEAKAQRKMGHVNILNDNIEVALEKAKSLHIWDHQEQLLEGKR	PGPT0021550_1392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
AK009_07101	1308	purB	COG0015	Adenylosuccinate lyase	ATGATTAGTCGTTATACACGCCCTGAAATGGGTGCGATTTGGACGGAAGAGAACAAATTTAAAGCGTGGTTAGAAGTTGAGATTTTAGCTTGTGAAGCATGGGCTGAGCTTGGCGACATTCCAAAAGAAGATGTTAAAAAAATTCGTGAACATGCATCATTTGATATTGATCGTATTTATGAAATTGAAAAAGAAACACGTCATGACGTAGTTGCATTCACTCGTGCTGTATCAGAAACGCCGACATTAGGCGAAGAACGTAAATGGGTTCATTACGGTTTAACATCTACAGACGTAGTAGATACAGCATTATCTTACATCTTAAAACAAGCGAATGAAATCATATTAAAAGACTTAGAGAACTTTGTAAGCATTTTAGCTAACAAAGCGAAAGAGCATAAATACACAATCATGATGGGAAGAACACACGGTGTTCATGCAGAACCAACAACATTTGGTTTAAAACTTGGTCTTTGGTATGAAGAAATGAAACGTAACGTAGAGCGTTTCAAGCAAGCAGCTGATACAGTTCGCGTTGGTAAATTATCTGGTGCGGTTGGTACATATGCAAATATCGATCCATTCGTAGAAAAGTATGTTTGTGAAAACTTAGGATTAGAAGCAGCACCAATTTCAACACAAACATTGCAACGTGATCGCCATGCTCATTACATGTCAACACTTGCACTAATCGCAACATCTATCGAAAAGATGGCAGTTGAGATTCGTGGTTTACAAAAGAGTGAAACACGTGAAGTTGAAGAAGCTTTCGCAAAAGGTCAAAAAGGTTCTTCTGCAATGCCGCATAAGCGTAATCCAATTGGATCTGAAAATATGACTGGTTTAGCTCGTGTTATCCGCGGTTATATGATGACAGCTTATGAGAATGTTCCATTATGGCATGAGCGTGATATTTCTCACTCTTCAGCAGAACGCGTAATTTTACCAGATGCTACAATCGCGTTAAATTACATGTTAAATCGCTTTGGTAATATCGTTAAAAACTTAACTGTATACCCAGAGAATATGAAACGCAATATGACAAGAACATACGGCTTAATTTATTCTCAGCGCGTAATGCTTACACTAATCGACAAAGGTATGGTACGTGAAGAAGCTTATGATATCGTACAGCCTAAAGCGATGGAAGCTTGGGAAACACAAGTACAATTTAAAGAGCTTGTAGAAGCTGATGAGCGTATTACAAGCAAGTTAACACAAGAAGAAATTAATGAATGCTTCAACTATGAGCATCACATGCAACACGTTGATACAATCTTTGAACGCCTTGGATTAAACGAAGCGTAA	MISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPTLGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAADTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA	PGPT0021555_4329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
AK009_07102	720	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGCAAAAGCTAGAATTGCTGTATGAAGGTAAGGCAAAAAGAATTTATCGTACAGAATCAGCAGATATGGTTTGGGTAGAGTACAAAGATAGTGCGACTGCTTTCAATGGGGAGAAAAAAGAGACGATTACAGGAAAAGGTCGTTTGAACAATGAAATTACAACTTTATTGTTCAGAAAGTTACAAGAAGTGGGAATTAAAACACATTTTGTTGAGAAGTTATCTGAAACAGAACAACTTGTTAAAAAAGTGAGTATTATTCCTTTAGAAGTTGTCACAAGAAATGTAATTGCAGGAAGTCTTTCAAAACGATTAGGAATGGAAGAGGGAACTGTACTTGCAGAACCAATCGTAGAATTTTACTTCAAAGATGATGATTTAGGAGATCCGCTTGTAACGGAAGATCATATTCGTGTATTAAACGTTGCATCGCCAGAGCAAGTAAGTGTATTACGAGATATGGCTCTACAAATCAATCAAGTGTTGATTGATCATTTCGCAAGCTGTCGTGTAAGATTAGTAGATTTCAAATTAGAGTTTGGTGTAACGGAAGAAGGAGAAATCATTTTAGCGGATGAAATTTCACCAGATACTTGCCGTTTATGGGATGAAACGAGCAATGAAAAGTTTGATAAAGACGTATTCCGTCGTGATCTTGGAAATTTAACAGAAGCTTATGAAGAGATTTTAAAACGTTTAGGGGGAATTTCACATGTATAA	MQKLELLYEGKAKRIYRTESADMVWVEYKDSATAFNGEKKETITGKGRLNNEITTLLFRKLQEVGIKTHFVEKLSETEQLVKKVSIIPLEVVTRNVIAGSLSKRLGMEEGTVLAEPIVEFYFKDDDLGDPLVTEDHIRVLNVASPEQVSVLRDMALQINQVLIDHFASCRVRLVDFKLEFGVTEEGEIILADEISPDTCRLWDETSNEKFDKDVFRRDLGNLTEAYEEILKRLGGISHV	PGPT0021565_3620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
AK009_07103	255	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	ATGTATAAAGTTAAGGTATATGTAACATTAAGAGAAAGCGTATTAGATCCACAAGGAACAGCAGTAAAAGGAGCACTTCATAGTCTTTCATTTACAGAAGTACAAGACGTTCGAATCGGAAAGTACATGGAACTAACAATTGATAAATCTGTATCTGATTTAGATAGCAAGGTAAAAGAAATGTGTGAAAAACTATTAGCGAACGTTGTAATGGAAGACTTCCGTTATGAAGTTGAGGAGGTTGTCGCACAGTGA	MYKVKVYVTLRESVLDPQGTAVKGALHSLSFTEVQDVRIGKYMELTIDKSVSDLDSKVKEMCEKLLANVVMEDFRYEVEEVVAQ	PGPT0021725_579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
AK009_07104	684	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	GTGAAATTTGCCGTAATAGTATTTCCGGGTTCGAACTGTGATGTCGATATGTTCCATGCAATTAAAGATGAGCTTGGCGAAGAAGTAGATTACGTTTGGCACGATACAGAGAATTTAGATGAATATGATGCAATTCTACTACCAGGTGGATTTTCTTATGGTGACTACTTACGCTGCGGTGCTATTTCTCGCTTTGCTAATGCAATGAAAGCAGTGCAAAAAGCTGCTGAGCAAGGAAAGCCGATTTTAGGTGTATGTAATGGATTCCAGATTCTTGTTGAATCAGGATTACTACCAGGAGCGTTAATGAGAAACGAAAACTTAAAATTTATGTGTCGCACTGTTCAGTTGCGTGTTGAAAATAATGAAACGATGTTTACATCACAATATGAAAAAAATGAAATAATCAATATTCCAATCGCTCATGGTGAGGGGAATTACTATTGTGACGAAGAGACTCTTAAACAATTAGAAGAGAATAATCAAATCGCATTCCGTTACGTAGAAAATCCTAACGGTAGCGTTTCAGATATTGCTGGTATTGTAAACGAAAAAGGAAATGTACTTGGTATGATGCCACATCCAGAGCGTGCTGTAGATGAATTACTTGGCGGTGCTGAAGGGTTAAAAGTCTTTCAATCTATCTTAAAACAGTGGAGGGAAACATATGTCGTTAATGCTTGA	MKFAVIVFPGSNCDVDMFHAIKDELGEEVDYVWHDTENLDEYDAILLPGGFSYGDYLRCGAISRFANAMKAVQKAAEQGKPILGVCNGFQILVESGLLPGALMRNENLKFMCRTVQLRVENNETMFTSQYEKNEIINIPIAHGEGNYYCDEETLKQLEENNQIAFRYVENPNGSVSDIAGIVNEKGNVLGMMPHPERAVDELLGGAEGLKVFQSILKQWRETYVVNA	PGPT0020220_1083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
AK009_07105	2220	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGTCGTTAATGCTTGAACCAAATCCAACACAAATTAAAGAAGAGCGTATATATGCGGAAATGGGGCTAACAGACGAAGAGTTTGCCATGGTTGAAAGGATTTTAGGTCGTCTGCCAAATTATACAGAAACAGGATTATTCTCTGTAATGTGGTCTGAACATTGTAGTTATAAAAATTCAAAACCAGTTCTTCGTAAGTTTCCAACGACAGGTGAGCGTGTTCTGCAAGGACCTGGAGAAGGTGCTGGGATTGTAGATATAGGTGATAATCAAGCAGTTGTATTTAAAATGGAAAGTCATAACCATCCTTCAGCTATTGAACCATATCAAGGAGCTGCAACAGGTGTTGGTGGTATTATTCGTGACGTATTCTCTATGGGAGCACGTCCGGTAGCTCTATTAAACTCACTTCGTTTCGGTGAATTACAGTCACCACGTGTGAAATATTTATTCGAAGAAGTAGTAGCAGGAATTGCAGGATACGGTAACTGCATCGGTATTCCGACTGTTGGCGGCGAGGTACAATTTGATCCATGTTATGAAGGAAATCCACTTGTAAATGCAATGTGCGTAGGTTTGATTAATCATGAAGACATTAAAAAAGGGCAAGCGCACGGTGCTGGTAACACAGTAATGTACGTAGGGGCATCGACTGGTCGTGACGGTATTCACGGTGCAACATTCGCGTCGGAAGAACTATCTGAAAGTTCAGAAGCGAAACGTCCAGCGGTTCAAGTAGGGGATCCATTTATGGAGAAACTTCTTATTGAAGCGTGTTTAGAATTAATTCAATCTGATGCACTTGTTGGAATTCAAGATATGGGTGCGGCTGGTTTAACATCATCTTCTGCAGAAATGGCAAGTAAAGCAGGAATGGGTATTGAAATGTATTTAGATGATGTACCACAGCGTGAAACAGGAATGACACCATATGAAATGATGCTATCTGAATCACAAGAGCGTATGTTAATTGTTGTGAAAAAAGGTAGAGAACAAGAAATAGTAGATTTATTTGAGAAGTATGGTCTTGCAGCAGTTACGATGGGGAAAGTAACAGAAGATAAAATGCTTCGTTTATTCCATAAAGGTGAAAAGGTAGCTGAAGTTCCAGCAGATGCTTTAGCAGAAGAAGCACCAATTTATCATAAGCCATCAAAAGAAGCAGCATACTTTGCTGAATTCCAAGCAATGAAAATGGAAACGCCAAAAGTAGAAAATTATAAAGAAGCGTTATTCGCTCTATTACAGCAACCAACAATTGCAAGTAAAGAGTGGGTATACGATCAATACGATTACCAAGTTCGCACAAGTACAGTTGTGACACCAGGTTCAGATGCTGCAGTTGTACGTGTACGCGGTACAGAAAAAGGATTAGCAATGACGACAGATTGTAACTCTCGCTACATTTATCTAGATCCAGAAATGGGCGGTAAAATTGCAGTAGCAGAGGCAGCGCGAAATATCGTATGTTCTGGCGGGGAGCCACTTGCAATTACAGATTGCTTAAACTTCGGTAACCCAGAAAAACCAGAGATTTTCTGGCAGATTGAGAAATCAGTAGACGGTATGAGTGAAGCTTGTCGCACATTACAAACACCAGTTATCGGCGGAAACGTATCGATGTATAACGAGCGTAGTGGCGAAGCTGTATATCCAACACCAACTGTTGGGATGGTCGGACTTGTACATGACTTAAAACATGTAACAACACAAGAGTTTAAGCAAGCTGGCGATTTAGTTTATGTAATCGGTGAGACGAAAGCTGAGTTTGGCGGAAGTGAATTACAGAAAATGATTCACGGTAAAATCTTCGGGCAATCACCAAGTATCGATTTAGATGTAGAATTAAAACGCCAAAAACAAGTATTAGAAGCAATTCAAGCTGGTCTTGTTCAATCTGCACATGATGTTGCTGAGGGTGGTTTAGCAGTTGCGATTTCAGAAAGTGCAATTGGTGCTAAAGGCTTAGGTGCTACTGTGAAATTAGATGGAGAAGCAACAGCAGCATTATTCGCTGAATCACAGTCTCGCTTCGTGATTACTGTAAAACGTGAAAATAAAGAGGCGTTTGAGAAAGCGGTAGAAGCAATCCAAGTTGGAGAAGTAACAAGTACAAATGAAGTAACAATTCATAATGAAGAAAATGAAGTATTACTTACAGCAAATGTAGATGAAATGAGAAAGGCTTGGAAAGGGGCAATCCCATGCTTGCTGAAATAA	MSLMLEPNPTQIKEERIYAEMGLTDEEFAMVERILGRLPNYTETGLFSVMWSEHCSYKNSKPVLRKFPTTGERVLQGPGEGAGIVDIGDNQAVVFKMESHNHPSAIEPYQGAATGVGGIIRDVFSMGARPVALLNSLRFGELQSPRVKYLFEEVVAGIAGYGNCIGIPTVGGEVQFDPCYEGNPLVNAMCVGLINHEDIKKGQAHGAGNTVMYVGASTGRDGIHGATFASEELSESSEAKRPAVQVGDPFMEKLLIEACLELIQSDALVGIQDMGAAGLTSSSAEMASKAGMGIEMYLDDVPQRETGMTPYEMMLSESQERMLIVVKKGREQEIVDLFEKYGLAAVTMGKVTEDKMLRLFHKGEKVAEVPADALAEEAPIYHKPSKEAAYFAEFQAMKMETPKVENYKEALFALLQQPTIASKEWVYDQYDYQVRTSTVVTPGSDAAVVRVRGTEKGLAMTTDCNSRYIYLDPEMGGKIAVAEAARNIVCSGGEPLAITDCLNFGNPEKPEIFWQIEKSVDGMSEACRTLQTPVIGGNVSMYNERSGEAVYPTPTVGMVGLVHDLKHVTTQEFKQAGDLVYVIGETKAEFGGSELQKMIHGKIFGQSPSIDLDVELKRQKQVLEAIQAGLVQSAHDVAEGGLAVAISESAIGAKGLGATVKLDGEATAALFAESQSRFVITVKRENKEAFEKAVEAIQVGEVTSTNEVTIHNEENEVLLTANVDEMRKAWKGAIPCLLK	PGPT0021730_1530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
AK009_07106	1416	purF	COG0034	Amidophosphoribosyltransferase	ATGCTTGCTGAAATAAAGGGGTTAAACGAAGAATGTGGCGTTTTCGGAATTTGGGGGCATGAAAATGCAGCACAAGTTTCATACTACGGATTGCACAGTTTACAGCACCGTGGACAAGAAGGCGCAGGCATTGTCGTAAATAATGGTGAGAAAATCGTCGGTCACAAGGGGTTAGGTTTAATATCAGAAGTGTTTTCAAGAGGCGAGCTAGAAGGATTAAATGGAAAATCAGCAATCGGACATGTACGATATGCAACAGCTGGTGGAAGTGAAGTTGCTAACGTTCAACCATTGTTGTTCCGTTTTTCTGATCATAGTATGGCGCTAGCTCATAACGGGAATTTAATTAATGCAAAAATGCTTCGCCGTGAATTAGAGGCAGAGGGAAGTATTTTTCAAACAAGTTCAGACACAGAAGTACTTTTACATCTTATTAAACGTAGTACGAAAGACTCTTTAATTGAAAGTGTAAAAGAGGCTCTGAATAAAGTGAAAGGTGCGTTTGCGTATCTTTTACTAACTGGAAATGAAATGATCGTTGCGTTAGATCCAAATGGATTCCGTCCGCTTTCAATTGGAAAGATGGGGAATGCTTACGTTGTAGCATCTGAAACATGTGCTTTTGATGTAGTAGGTGCAACATACATTCGCGATGTAGAACCTGGTGAATTACTTATCATTAATGATGAAGGAATTCACGTAGATCGTTTTACAAACGATGTAGAACATGCGATTTGTAGTATGGAATACATTTACTTTGCACGACCAGATTCTAATATTGCTGGTGTTAACGTTCATGCAGCGCGTAAAAATATGGGAAAACGTTTAGCAGCGGAAGCTCCTATTGAAGCGGATGTTGTTACTGGTGTACCAGACTCTAGTATTTCAGCAGCGATTGGCTATGCGGAGGCAACAGGCATTCCGTATGAATTAGGATTAATTAAAAATCGTTACGTTGGACGTACTTTTATTCAGCCTTCTCAAGAACTGCGTGAGCAAGGGGTTAAGATGAAGCTTTCAGCAGTAAGAGGTGTAGTGGAAGGGAAACGAGTTGTTATGATTGACGATTCTATCGTAAGAGGAACGACAAGTAAACGAATTGTTCGTATGCTTCGTGAAGCTGGAGCGACAGAAGTTCACGTAAGAATCGCTTCACCACCTCTTAAGTATCCATGTTTTTATGGCATTGATATTCAAACGAGAAAAGAATTAATTGCAGCAAATAATACAGTAGAAGAAATCCGTGAAATGATCGGAGCAGATTCTTTAACATTTTTAAGCGAAGATGGATTAGTAGATGCAATTGGGCGTCCATATGAAGGGAAATATGGCGGTCTATGTATGGCTTATTTTAATGGGGACTATCCAACAGCTCTTTATGATTATGAGCAAGAGCTTTTAGAAAGTATGAAATAA	MLAEIKGLNEECGVFGIWGHENAAQVSYYGLHSLQHRGQEGAGIVVNNGEKIVGHKGLGLISEVFSRGELEGLNGKSAIGHVRYATAGGSEVANVQPLLFRFSDHSMALAHNGNLINAKMLRRELEAEGSIFQTSSDTEVLLHLIKRSTKDSLIESVKEALNKVKGAFAYLLLTGNEMIVALDPNGFRPLSIGKMGNAYVVASETCAFDVVGATYIRDVEPGELLIINDEGIHVDRFTNDVEHAICSMEYIYFARPDSNIAGVNVHAARKNMGKRLAAEAPIEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQELREQGVKMKLSAVRGVVEGKRVVMIDDSIVRGTTSKRIVRMLREAGATEVHVRIASPPLKYPCFYGIDIQTRKELIAANNTVEEIREMIGADSLTFLSEDGLVDAIGRPYEGKYGGLCMAYFNGDYPTALYDYEQELLESMK	PGPT0020225_4628	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
AK009_07107	1041	purM_1	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGGCGAATGCATATAAGCAAGCAGGAGTAGATATTGAAGCTGGATATGAAGCGGTATCTCGCATGAAAAAACACGTACAAACAACTATGAGAAAAGAAGTACTAGGCGGTTTAGGCGGTTTTGGAGGTATGTTTGATCTATCAAAATTTGCATTAGAAGAACCTGTATTAGTATCTGGAACAGATGGCGTGGGAACGAAATTGATGCTCGCTTTTATGGCAGATAAACATGACACAATTGGTATTGATGCAGTAGCAATGTGTGTAAATGATATTGTTGTCCAAGGAGCAGAGCCGCTTTTCTTCCTTGATTATATTGCTTGTGGTAAAGCTGAACCTAGTAAAATTGAAAACATCGTCAAAGGTATATCAGAGGGCTGTCGCCAAGCTGGTTGTGCATTAATCGGTGGAGAAACAGCTGAAATGCCAGGAATGTATTCTACGGAAGAATATGATTTAGCTGGTTTTACAGTTGGGATTGTTGATAAGAAGAAAATTATAACAGGTGAAAAAATTGAAGCTGGTCACGTGTTAATTGGCTTAGCATCTAGCGGTATTCATAGCAATGGTTACTCTTTAGTACGAAAAGTGTTACTAGAAGATGGAGAACTATCTTTAGAGCGTATTTATGGTCGCTTAGAGCTACCTCTTGGTGAAGAATTATTAAAACCAACGAAAATTTATGTCAAACCTATTTTAGAACTATTGAAGAAACATGAAGTATACGGTATGGCGCATATTACAGGTGGCGGATTTATTGAAAATATTCCACGCATGTTGCCAGAAGGAATCGGTGCTGAGATTGAACTAGGATCTTGGAAAATTCAGCCGATCTTTAGTTTACTTCAAGAAGTTGGAAACCTGGAAGAGAAAGACATGTTCAATATTTTTAACATGGGTATTGGTATGGTAGTGGCAGTAAAGGAAGAAGATGCAAAAGATGTTGTTCGTCTTCTTGAAGAACAAGGAGAAACGGCTCGTATTATTGGACGTACTATACAAGGAGCTGGTGTTACTTTTAATGGGGGCACAGCACTATGA	MANAYKQAGVDIEAGYEAVSRMKKHVQTTMRKEVLGGLGGFGGMFDLSKFALEEPVLVSGTDGVGTKLMLAFMADKHDTIGIDAVAMCVNDIVVQGAEPLFFLDYIACGKAEPSKIENIVKGISEGCRQAGCALIGGETAEMPGMYSTEEYDLAGFTVGIVDKKKIITGEKIEAGHVLIGLASSGIHSNGYSLVRKVLLEDGELSLERIYGRLELPLGEELLKPTKIYVKPILELLKKHEVYGMAHITGGGFIENIPRMLPEGIGAEIELGSWKIQPIFSLLQEVGNLEEKDMFNIFNMGIGMVVAVKEEDAKDVVRLLEEQGETARIIGRTIQGAGVTFNGGTAL	PGPT0021570_3099	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
AK009_07108	588	purN		Phosphoribosylglycinamide formyltransferase	ATGAGTAGATTAGCGGTTTTTGCTTCTGGAAGCGGATCTAACTTTCAATCTCTCGTTAATGCGGTAGAAGAAAAAAGATTGGATGCAGAAATTAGTTTATTAGTATGTGATAAACCAGAAGCACGCGCTGTTGGTCGGGCACATTATCATCATATTCCGTGTTTTGCTTTTTCAGCGAAAGCATATGAGTCAAAAGAAGCGTTTGAAAAAGAGATATTAAAGAAGCTAGAAGAATATGAAATTGACTATGTTATTTTAGCTGGATATATGCGTTTAATCGGGCCGACGTTACTAGAAGCATACGGCGGGAAGATTATTAATATTCATCCATCATTACTACCGAGCTTTACGGGTAAAGATGCTGTCGGTCAAGCATTAGAAGCAGGTGTGAAAGTAACTGGAGTAACGATTCATTATGTAGATGCAGGTATGGATACAGGGCCAATTATTGCGCAAGAAGCAGTAGTTGTTTCTGAAGGGGATACGAGAGAAAGCTTACAAAATAAAATTCAACAAGTTGAACATAAATTATACGTAAATACAGTGAATCAAATTGTTCAGTCTGTGAAAGAATCAACTGTTAACTAA	MSRLAVFASGSGSNFQSLVNAVEEKRLDAEISLLVCDKPEARAVGRAHYHHIPCFAFSAKAYESKEAFEKEILKKLEEYEIDYVILAGYMRLIGPTLLEAYGGKIINIHPSLLPSFTGKDAVGQALEAGVKVTGVTIHYVDAGMDTGPIIAQEAVVVSEGDTRESLQNKIQQVEHKLYVNTVNQIVQSVKESTVN	PGPT0008095_3454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
AK009_07109	1536	purH	COG0138	Bifunctional purine biosynthesis protein PurH	ATGAAAAAGCGTGCATTAGTAAGTGTTTCAGATAAAACAGGAGTAGTAGAATTTGTTAAAGGATTACTAGAACAAGGGATTGAAGTTATTTCAACAGGTGGTACGAAAAAGTTACTAGAAGCAAACGGCTTACAAGTAATTGGTATTTCTGAAGTAACTGGTTTCCCTGAAATTATGGATGGCCGTGTGAAAACATTACATCCAAATATTCATGGTGGTCTATTAGCAGTTCGTGATAATGAAACACATGTAGCGCAAATGAATGAATTAGGTATTCAGCCAATTGACTTTGTTGTTGTTAACTTATACCCATTTAAAGAAACAATCGCTAAGCCTGATGTAACATTTGCTGATGCAATTGAAAATATTGATATCGGTGGCCCGACGATGATTCGCTCTGCTGCGAAAAATCATCAATTCGTATCTGTAATTGTAGATCCAGTAGATTATGATGTTGTATTAGCAGAACTAAAAGAGAACGGCGAAGTAATGGATGAAACGAAACGTAAACTAGCAGCGAAAGTATTCCGTCATACAGCAGCATATGATGCGCTAATTTCTAACTATTTAACAGAGCAAATGGGTGAAGAAAGTCCAGAAACATTAACTGTGACATTCGAGAAAAAGCAAGACTTACGTTATGGCGAGAACCCACATCAAAAGGCAACTTTCTATAAAGCGCCATTCGCAGCAACTTCTTCTGTTGCATACGCAGAACAATTACACGGTAAAGAATTATCGTATAACAATATTAATGATGCAGACGCAGCGCTCAGCATCGTAAAAGAATTTACAGAACCAGCAGTAGTAGCAGTAAAACATATGAATTCATGTGGTGTTGGAGTAGGAACTGATATTCACGAAGCATATACTCGTGCTTATGAAGCAGATCCAGTATCAATCTTCGGCGGTATTATTGCAGCAAATCGTGAAATTGATAAAGCTACAGCAGAAAAGTTACACGAAATTTTCTTAGAAATCATTATTGCACCTTCTTTCTCAAAAGAAGCTTTAGAAGTATTGCAAAGTAAGAAAAACTTACGTCTACTAACTGTAAATATTGAAAAAGCGACAAGTGCAAGCAAAAAACTAACTTCTGTACAAGGTGGGCTTCTCGTTCAAGAGGAAGATACGTTATCATTAGATGAAAGTACAATTTCAATTCCAACGAAACGTGAACCTTCAGAGCAAGAATGGAAAGATTTAAAACTAGCTTGGAAAGTTGTAAAGCATGTGAAATCAAATGCAATTGTTTTAGCGAAAGATGATATGACAATTGGTGTCGGTGCAGGACAGATGAACCGTGTAGGTTCTGCAAAAATCGCAATTACACAAGCTGGTGAAAAAGCACAAGGTAGCGCACTTGCATCTGATGCTTTCTTCCCAATGCCAGATACATTAGAAGAAGCAGCAAAAGCAGGAATTACAGCAATCATTCAACCGGGCGGATCAATCCGTGATGAAGATTCTATTAAAGTGGCGGATACGTATGGGATTGCTATGGTGTTCACTGGCGTACGTCATTTCAAACACTAA	MKKRALVSVSDKTGVVEFVKGLLEQGIEVISTGGTKKLLEANGLQVIGISEVTGFPEIMDGRVKTLHPNIHGGLLAVRDNETHVAQMNELGIQPIDFVVVNLYPFKETIAKPDVTFADAIENIDIGGPTMIRSAAKNHQFVSVIVDPVDYDVVLAELKENGEVMDETKRKLAAKVFRHTAAYDALISNYLTEQMGEESPETLTVTFEKKQDLRYGENPHQKATFYKAPFAATSSVAYAEQLHGKELSYNNINDADAALSIVKEFTEPAVVAVKHMNSCGVGVGTDIHEAYTRAYEADPVSIFGGIIAANREIDKATAEKLHEIFLEIIIAPSFSKEALEVLQSKKNLRLLTVNIEKATSASKKLTSVQGGLLVQEEDTLSLDESTISIPTKREPSEQEWKDLKLAWKVVKHVKSNAIVLAKDDMTIGVGAGQMNRVGSAKIAITQAGEKAQGSALASDAFFPMPDTLEEAAKAGITAIIQPGGSIRDEDSIKVADTYGIAMVFTGVRHFKH	PGPT0008110_4138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
AK009_07110	1272	purD	COG0151	Phosphoribosylamine--glycine ligase	ATGAATGTTTTAGTAATTGGCCGCGGTGGGCGTGAGCATGCTTTAGCTTGGAAGTTTGCACAATCTGAAAAAGTAGAAAAGGTGTATGTAGCACCAGGTAATGAAGGTATGCGCGATGTTGCAACACCAGTTGATATTGATGAAAATGATTTTGATGCATTAGTTTTATTTGCTAAAGAGAATAAGGTTGAATTAACTTTCGTTGGACCAGAAATTCCACTTATGAATGGAATTGTTGATCGATTTAACGAAGAGGGACTTCGCGTATTTGGTCCGAATAAAGCGGCTGCTGTTATTGAAGGTAGTAAAGCTTTTACGAAAGAATTAATGAAAAAATATGATATTCCAACTGCGGCGTATGAAACTTTTACAGATTATGAAGAAGCAGTACAGTACATTCAAAAAGTTGGTGCACCAATCGTTATTAAAGCTGACGGCCTAGCTGCTGGTAAAGGCGTGACAGTAGCAATGACACTTGAAGAGGCATTACAAGCTGTGAAAGAAATGCTGCAAGATGTGAAATTCGGCGCGGCAAGTAAGAAGGTCGTTATTGAAGAGTTTTTAGATGGACAAGAATTTTCATTAATGGCATTCGTGAATGGAACAACTGTACATCCAATGGTAATCGCCCAAGATCATAAAAGAGCTTTTGATGGTGATAAAGGTCCAAATACGGGCGGAATGGGTGCGTATTCTCCAGTGCCACAAATTCCAGAATCAGCAGTTCAAGAGGCGATAAAAACGGTATTACATCCAACTGCTAAAGCGATGATTGCAGAAAACCGTTCGTTTACAGGCATTTTATACGCAGGTCTTATTTTAACAAATGATGGTCCAAAGGTAATTGAATTTAATGCACGCTTTGGTGATCCTGAAACAGAAGTAGTATTACCTCGCTTAGAAAACGATTTAGTTGATGTATGTAACGCTGTATTAGATGAAAGTGAGCTAACGTTACAATGGTCAGAGGAAGCAGTAATTGGTGTTGTACTTGCTTCGAAAGGATATCCAGAAGCATATAAAAAAGGTGACATTATTAAAGGATTAGATGCACTGCAAGATGCGATTGTTTTCCATTCAGGCACAGCGATGAAGCATGGTGATTTTGTAACAAACGGTGGCCGTGTACTATTTGTTGCTTGCAAGGCGAATAGTTTACAAGAAGCAAAAGATAAAGTATATAAAGAAATCGGTAAAATTGAGAGTGATGGTCTATTTTATCGAAGTGATATAGGATATCGTGCAATTGAGCATAAGATGACGAGAAGTTAA	MNVLVIGRGGREHALAWKFAQSEKVEKVYVAPGNEGMRDVATPVDIDENDFDALVLFAKENKVELTFVGPEIPLMNGIVDRFNEEGLRVFGPNKAAAVIEGSKAFTKELMKKYDIPTAAYETFTDYEEAVQYIQKVGAPIVIKADGLAAGKGVTVAMTLEEALQAVKEMLQDVKFGAASKKVVIEEFLDGQEFSLMAFVNGTTVHPMVIAQDHKRAFDGDKGPNTGGMGAYSPVPQIPESAVQEAIKTVLHPTAKAMIAENRSFTGILYAGLILTNDGPKVIEFNARFGDPETEVVLPRLENDLVDVCNAVLDESELTLQWSEEAVIGVVLASKGYPEAYKKGDIIKGLDALQDAIVFHSGTAMKHGDFVTNGGRVLFVACKANSLQEAKDKVYKEIGKIESDGLFYRSDIGYRAIEHKMTRS	PGPT0021575_3070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
AK009_07111	165			hypothetical protein	ATGGCTAAAAAGAAAAGCTTTCCATTACGTATTGATCCTGAATTACACGCAGTCATCGAAAAATGGGCAAATGATGAGTTTCGTAGCGTCAATGCACACATCGAGTATTTACTTCGAGAAATGGCAAAGCAAAAAGGGAAATTAAAAAAAGATAAAGATGCATAA	MAKKKSFPLRIDPELHAVIEKWANDEFRSVNAHIEYLLREMAKQKGKLKKDKDA				NA	NA	NA	NA	NA
AK009_07112	846			hypothetical protein	ATGAAAGAAAAACAAGTATTTTATGTAAATGGTTTTCTCGGTATTATTGGAATTTTGATTTTAGCGGCTATCGGTGTATTTTTCCTTGCACAAGAAATTTTTATAGGAGCAGCACTAACTATTGTATTAGCCGCAATTCTCGCTACGGGTATCGGGATTGTTCAACCAAATCAAGCGAAAGTTATTACGTTCTTTGGTAATTATTTAGGAACAATTCATCAAAACGGTTTATTTTTAACGATTCCGTTCGCATTCCGTCAAACTGTATCTTTACGTGTTGAAAACTTTAATAGTAAGAAATTAAAAGTAAACGATGTTGAGGGAAATCCGATTGAAATTGCAGCTGTTATCGTATATAAAGTAGTTGATTCTGCAAAAGCAATGTTCGGTGTTGAACATTACGATCGATTTGTAGAAATTCAAAGCGAAACGGCAATCCGCCACGTCGCAACAAAATATCCATATGACAATTTCCAAGATGAAACTTGCATTACGTTACGCGGAAATACTGAAGAAATCTCTGAAGAATTAAAACGTGAGTTAGAGGCACGTCTTGAAATTGCTGGTGTAGAAGTATTGGAAACTCGTTTAACGCATTTAGCTTACGCAACAGAAATTGCCCATGCAATGCTACAACGTCAACAAGCAAAAGCAGTATTAGCTGCTAGAAAAGAAATTGTTGAAGGTGCTGTGAAGATGGCCAAAGATTCAATCCATATGTTAGATGAAGAAGGCGTACTGGAACTCGATGACGAGCGTAAAGCAAATATGGTAAACAACTTATTAGTTGCCATCGTTTCAGATAAAGGTGCGCAACCGGTTATTAATACAGGAAGCCTATACTAA	MKEKQVFYVNGFLGIIGILILAAIGVFFLAQEIFIGAALTIVLAAILATGIGIVQPNQAKVITFFGNYLGTIHQNGLFLTIPFAFRQTVSLRVENFNSKKLKVNDVEGNPIEIAAVIVYKVVDSAKAMFGVEHYDRFVEIQSETAIRHVATKYPYDNFQDETCITLRGNTEEISEELKRELEARLEIAGVEVLETRLTHLAYATEIAHAMLQRQQAKAVLAARKEIVEGAVKMAKDSIHMLDEEGVLELDDERKANMVNNLLVAIVSDKGAQPVINTGSLY				NA	NA	NA	NA	NA
AK009_07113	378			hypothetical protein	ATGAAGCAAAACATCGGGACAATAAACGCTCTAATTCGAATTACACTTGGGCTTGTCCTCTTCGGATGTAGTGCAACTAAACTTGTACGCAAGCCATGGTGCACTTGGTCTAACATTTTTCTATGGATTGGTGCAATGAAAGTTGCAGAGGGAATTGTTCGCTTCTGCCCTATTGTTGAAGCGTGGAAGTTTGGAAAATACATGAATATGGGTGCATTTAAAATGCCTAGCATGAATTTTACTGAAAAAGGACATGCTAAAGAAGAAGTGAATCAAACTTCCTCTCATGACAAGCCAAAGTCAAAAGGAAGTTATGACGCTTCTGACAAAGAGATTGAGTCAGCGATTGAAGAAATAATCCTGGCAAAACCGCTTTGA	MKQNIGTINALIRITLGLVLFGCSATKLVRKPWCTWSNIFLWIGAMKVAEGIVRFCPIVEAWKFGKYMNMGAFKMPSMNFTEKGHAKEEVNQTSSHDKPKSKGSYDASDKEIESAIEEIILAKPL				NA	NA	NA	NA	NA
AK009_07114	690	pcrB	COG1646	Heptaprenylglyceryl phosphate synthase	ATGTACGATATTTCCGGATGGAAACATGTATTTAAGCTTGATCCAAATAAGGAGTTAAGCGATGAACATTTAGAAATGATTTGTGAGTCTGGAACTGATGCGGTTATTGTAGGCGGAAGTGATGGGGTTACAATTGATAACGTATTACACATGCTAGTTAGCATTCGTAGATATGCTGTTCCTTGTGTATTAGAGGTCTCTGATGTAGAAGCAATTACACCAGGATTTGATTTTTATTACATCCCAAGTGTGTTAAATAGCAGAAAAGTAGAATGGGTAACAGGTGTTCATCATGAGGCATTGAAAGAATTTGGGGATATTATGGACTGGGACGAAATTTTTATGGAAGGGTATTGTGTTTTAAATCCAGAAGCGAAAGTAGCCCAGCTTACAGATGCGAAATGTGATTTAACAGAAGATGACGTTATTGCATATGCTCGTTTAGCAGACAAGTTATTACATTTACCGATATTTTATTTAGAATATAGCGGTACGTATGGAGAAGTTGAACTTGTTAAAAATGTAAAAGCAGAATTGAAACAAGCTCAGTTATACTATGGCGGCGGTATTTCTAATGCAGAACAGGCGAAAGAAATGGCACGATATGCTGATACAGTAGTTGTTGGAAATATTATTTATGATGATATAAAATCGGCGTTAAAAACAGTTAAAGCAGTAAAAGGAGAGTAG	MYDISGWKHVFKLDPNKELSDEHLEMICESGTDAVIVGGSDGVTIDNVLHMLVSIRRYAVPCVLEVSDVEAITPGFDFYYIPSVLNSRKVEWVTGVHHEALKEFGDIMDWDEIFMEGYCVLNPEAKVAQLTDAKCDLTEDDVIAYARLADKLLHLPIFYLEYSGTYGEVELVKNVKAELKQAQLYYGGGISNAEQAKEMARYADTVVVGNIIYDDIKSALKTVKAVKGE	PGPT0024385_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATE_SYNTHASE_ACTIVITY,PGPT0024385-pcrB-K07094	NA	NA
AK009_07115	2262	pcrA_2	COG0210	ATP-dependent DNA helicase PcrA	GTGCAGGCGTATATGAGTATGACAGATAAGTTATTAAACGGTTTAAATCCACAGCAACAAAAAGCGGTACAAACAACGAATGGACCACTTCTATTAATGGCAGGTGCAGGTAGTGGTAAAACACGTGTGTTAACACACCGTATTGCGTATTTGCTTGGTGAAAAAGGTGTAGCACCATGGAATGTATTAGCTATTACCTTCACAAATAAAGCAGCTCGTGAAATGCGCGAGCGTATTGATACACTTGTGGGACCAGAAGCAGAAGATATTTGGATTTCGACGTTCCACTCTATGTGTGTACGTATTTTACGACGTGATATCGATCGTATTGGCATTAATCGTAACTTTACAATCTTAGATTCAGGTGATCAGTTAACGGTAGTCAAAAAAATTATGAAAGAGCGCAATATTGATCCGAAGAAATTTGAGCCGCGCTCTATTTTAGCGGGTATTAGTAATGCGAAAAATGAACTGTTATCTGCGGATAAATATGCAAAAAAAATTACAATGGCTGATCCATATGAAAAATTAACGAGCGATGTATACACAGAGTATCAAAAACGTCTTTTGAAAAATAATTCATTAGACTTTGATGATTTAATTATGACGACGATTCAGCTATTTGAACGTGTTCCAGAAGTATTGGAGTTTTATCAGCGTAAGTTCCAATATATTCACGTTGATGAGTATCAAGATACGAATAAAGCGCAATATCTTCTTGTTAAACATTTGGCAGCGCGTTTTAAAAATCTTTGCGTTGTAGGTGACTCTGACCAGTCTATTTATCGCTGGCGTGGTGCAGATATTTCTAACATTTTGTCATTCGAAAAAGATTATGAGAATGCACAAGTAATTTTGTTAGAACAAAACTATCGTTCGTCACAAAATATTTTAAATGCAGCGAATGCTGTTATTGAAAAAAATACGAATCGTAAACCGAAGAAATTATGGACGGACAATCAAGTTGGGAGCAAAATTTCGTATTATCGTGCTGCAACTGAAAAGGACGAAGCGTATTTTGTTGCGAAAAAAATTCGTGACGATCTTCAAATGGGGAAACGAAAATACACTGATTTTGCAGTACTATATCGTACGAATGCTCAGTCTCGTATGGTCGAGGAGATTTTCCTTAAATCTAACATCCCGTACAAAATTGTCGGGGGTACGAAGTTCTACGACCGTAAAGAGATTAAAGATATTTTGGCGTACTTACGTTTAATCGGTAATCCAGATGATGAAATTAGTTTTGCACGTATTATTAACATGCCAAAGCGTGGTATTGGTGCGACTTCTATTGATAAAATTATTAATTATGGTGTGCAAAACGGAATTTCATTAACTGCTGTATTTGATGAGATTGAGCATGTTGGAGTAAGTGCAAAAATTACAAAGGCAGTAAAAGAATTCGCAAGTTTATTACACAACTGGGTAAATATGCAAGAGTATTTATCTGTTACAGAATTAGTAGAAGAAGTTATTGAAAAAACAGGCTATCGCGATATGTTGAAAAATGAGCGTTCTTTAGAAGCGGAAGGTCGTTTAGAAAACTTAGACGAGTTCTTATCTGTTACGCAAACATTTGAATCTCAAAGCGAAGATAAGAGTCTTGTTGCATTCTTAACAGATTTAGCACTTGTTGCTGATATTGATCGTGTAGATGAAGACCCAACTGCTGGTGAAGAAGTTATCTTAATGACGATGCACTCAGCGAAAGGATTAGAGTTCCCGGTTGTCTTTATTGTTGGTTTAGAGGAAGGGATATTCCCTCATACTCGTTCTCTTATGGAAGAGGATGAAATGCAAGAAGAACGTCGTCTTGCTTATGTAGGTATTACTCGTGCAGAAGAAGAGCTATATTTATCTAATGCGCAAATGCGTACTTTATTTGGTAGAACAAGTATGAACGCTGCGTCTCGCTTCATTACAGAAATCCCGACAGAACTAGTGGAATCATTAAATGAAACAGCGCCGAAGCGTGAAAATTCGTTTGGTGCAAAAGGCAGAACAGCAAGTAGCAGTAAAATGACAACGACAACCACAACACGCTCTCGTTCAGCTTTCGCGCGTCCTGCAGCTAAGACGACAGGCGGTGAGCAAATTGGCTGGGCAGTAGGCGATAAAGCTTCCCACCAAAAATGGGGAATCGGTACAGTTGTAAGTGTAAAAGGTGAAGGTGATGCAAAAGAATTAGATATTGCCTTCCCAAGCCCGATTGGTGTTAAACGTTTGTTAGCAAAATTTGCACCTGTGACGAAACAATAG	MQAYMSMTDKLLNGLNPQQQKAVQTTNGPLLLMAGAGSGKTRVLTHRIAYLLGEKGVAPWNVLAITFTNKAAREMRERIDTLVGPEAEDIWISTFHSMCVRILRRDIDRIGINRNFTILDSGDQLTVVKKIMKERNIDPKKFEPRSILAGISNAKNELLSADKYAKKITMADPYEKLTSDVYTEYQKRLLKNNSLDFDDLIMTTIQLFERVPEVLEFYQRKFQYIHVDEYQDTNKAQYLLVKHLAARFKNLCVVGDSDQSIYRWRGADISNILSFEKDYENAQVILLEQNYRSSQNILNAANAVIEKNTNRKPKKLWTDNQVGSKISYYRAATEKDEAYFVAKKIRDDLQMGKRKYTDFAVLYRTNAQSRMVEEIFLKSNIPYKIVGGTKFYDRKEIKDILAYLRLIGNPDDEISFARIINMPKRGIGATSIDKIINYGVQNGISLTAVFDEIEHVGVSAKITKAVKEFASLLHNWVNMQEYLSVTELVEEVIEKTGYRDMLKNERSLEAEGRLENLDEFLSVTQTFESQSEDKSLVAFLTDLALVADIDRVDEDPTAGEEVILMTMHSAKGLEFPVVFIVGLEEGIFPHTRSLMEEDEMQEERRLAYVGITRAEEELYLSNAQMRTLFGRTSMNAASRFITEIPTELVESLNETAPKRENSFGAKGRTASSSKMTTTTTTRSRSAFARPAAKTTGGEQIGWAVGDKASHQKWGIGTVVSVKGEGDAKELDIAFPSPIGVKRLLAKFAPVTKQ				NA	NA	NA	NA	NA
AK009_07116	2010	ligA_3		DNA ligase	ATGTCAAAAGAGATAGCAAAAAAACGTATAGAAGAACTGCGTGATTTGTTAAATACATTTAATTATCAATATCACGTATTAGACAATCCTTCTGTTTCTGATGCGGAATATGACCGTAATATGCAGGAGCTTATAGAATTAGAAGCAGAGAACCCAGAGTTTATGAGTGAGGATTCTCCCTCCGTTCGCGTTGGGGGAACTATTCTTGATATATTCGAAAAAGTAACACATAAGTCACCAATGTTAAGTTTAGGAAATGCATTTAACGAAGGAGATTTACGTGATTTCGACAGAAGAGTACGTCAAGGAATTGATGATGCGAATGTAAGATATATATGTGAATTAAAAATTGACGGGCTTGCCGTTTCGCTTCATTATGAAAAAGGACGCTTCATTCAAGGGGCGACACGTGGTGATGGTGTAACGGGTGAAGATATTACTCAAAATTTAAAAACGATTAAAGCTATCCCACTTCGTTTAAATGAAGAAGTAACGTTAGAAGCACGAGGCGAAGCTTATATGCCGAAGCGTTCATTTGTTAAACTAAATGAAGAAAAAGAGCAAAATGGAGAAGATGTATTTGCGAATCCGCGTAATGCGGCAGCAGGCTCAATACGTCAACTTGATCCGAAAATTGCAGCGAAGCGTAACTTATCTATGTTTGTGTACGGTCTTGCGAATGTAGAAGAAAAAACAATTCCATCGCACAGTGAATCGCTTGATTTCCTAGGTGAACTCGGATTTAAGACAAATCCAAATCGCCGTACATGTGAAACAATCGAAGAGGTTATAGCTTATGTAGAAGAATGGCAAGAAAAACGTCCGCATCTTGATTATGAGATTGATGGAATCGTTATAAAAGTAGATGATGTTGCTCTTCAAGAAAGTCTAGGAACTACAGCGAAGAGTCCAAGATGGGCGATTGCTTATAAATTCCCGGCTGAAGAAGTTGTAACGAGATTAACAGGCATTGAATTAAGTGTTGGCCGAACAGGGGTTGTAACACCGACTGCAGAGCTAGAGCCAGTGAGAGTTGCTGGTACGATCGTTCGTCGTGCTTCTTTACATAACGAAGATTTAATTCGTGAAAAAGACATTCGAATTGGTGACTACGTTGTTGTGAAGAAGGCTGGAGATATTATTCCTGAAGTTGTGAACGTTATTTTTGATAAGCGTACTGGTGAAGAAGAAGAATACCGCATGCCAACGCATTGCCCAGCATGTGAGAGTGAACTTGTTCGTTTAGAAGAAGAAGTAGCACTTCGATGTATAAATCCAACTTGTCCAGCTCAAATTCGCGAAGGATTAATTCATTTCGTTTCAAGAAATGCAATGAATATTGATGGGCTTGGAGAACGTGTCATTACACAACTTTTTGATGCAGATTATATTCGTACATTTGCTGATTTATATGCATTAACGAAAGAGCAGTTATTACAGTTAGAACGTTTTGGTGAAAAATCAGCAACAAACTTAATACAAGCAATTGAAAATTCTAAAGAAAACTCGTTAGAGCGATTATTATTTGGTCTTGGAATTCGACACGTTGGAGCGAAAGCAGCACGTACATTTGCAGAGCACTTTGAAACGATGGATGAGCTTGTAAAAGCAACAGAAGAAGAACTAAAAGCAATTAATGAAATTGGCGAAAAAATGGCTCAATCTGTTGTGACATATTTTGATAATGAAGATGTATTAGAGTTATTACAGCAGTTTAAAGAGTATGGCGTGAATATGACATACAAAGGTATAAAAATTGCAGATTTACAAAATGTTGAATCTTACTTCGCAGGAAAAACGGTTGTTTTAACAGGTAAGCTAGAAGTTATGGGACGAAGTGAAGCGAAGAAGAAGATTGAGGCATTAGGTGGAAAAGTAACAGGAAGTGTTAGTAAGAGTACAGATTTGGTTGTTGCAGGTGAATCGGCTGGTTCGAAATTAGCACAAGCGGAGAAACATAATGTTGAGGTTTGGAATGAAGAGAGGTTCTTACAAGAGCTAAATAAGTAA	MSKEIAKKRIEELRDLLNTFNYQYHVLDNPSVSDAEYDRNMQELIELEAENPEFMSEDSPSVRVGGTILDIFEKVTHKSPMLSLGNAFNEGDLRDFDRRVRQGIDDANVRYICELKIDGLAVSLHYEKGRFIQGATRGDGVTGEDITQNLKTIKAIPLRLNEEVTLEARGEAYMPKRSFVKLNEEKEQNGEDVFANPRNAAAGSIRQLDPKIAAKRNLSMFVYGLANVEEKTIPSHSESLDFLGELGFKTNPNRRTCETIEEVIAYVEEWQEKRPHLDYEIDGIVIKVDDVALQESLGTTAKSPRWAIAYKFPAEEVVTRLTGIELSVGRTGVVTPTAELEPVRVAGTIVRRASLHNEDLIREKDIRIGDYVVVKKAGDIIPEVVNVIFDKRTGEEEEYRMPTHCPACESELVRLEEEVALRCINPTCPAQIREGLIHFVSRNAMNIDGLGERVITQLFDADYIRTFADLYALTKEQLLQLERFGEKSATNLIQAIENSKENSLERLLFGLGIRHVGAKAARTFAEHFETMDELVKATEEELKAINEIGEKMAQSVVTYFDNEDVLELLQQFKEYGVNMTYKGIKIADLQNVESYFAGKTVVLTGKLEVMGRSEAKKKIEALGGKVTGSVSKSTDLVVAGESAGSKLAQAEKHNVEVWNEERFLQELNK				NA	NA	NA	NA	NA
AK009_07117	1194			hypothetical protein	ATGAAAAAAATAGCATTAGCGGTATTAAGCCTTGGCCTACTTGTAAGTGGGTGTAGTGCAGGTGCCGACAAAGATGAAAAAGTGTCTGAGAAATCGGGGAAAGCAAAAGAACAATCAGTTGTCCCAAAATACGCTATGTCGGATGAATATTATAAGACGACTATTCCATTTTATGGTGGAAAGGCACGTGGTTTAGTCGTGCAAGGAGTAAATAATCGTCTTGATATAGATGAATTTGAAACAGGATTAATGCGTATTGCGAAGGAATCATTTAGTACGAAAGATCATTTCTTTAAAGGCGGAGATACTCTAGAGGCTCAATATGTACAAATGCTTGTTAAAAGAAAGCGTACAAATGCTGAACAGAAAGAACTAGAAGATACATTAAAAAAAGATGCAGTTAAATTTCCAAACATAGGATTAAATCCAGCTTTAGGTGAAGGATCCGAAATACTAGAAGAAAAAAACAAAAAAAATCCAATATATATTTCCAATATTTTAGAGCATGATTATTATGTGAAAAACGGCGACAAAGATGAGCGTAGCGGCATTGTAGTTGGATTAGCAATGAATTCAGTACATTATTATAATGAAGAACATGGTTACCCGCGTGAAGCTACAATCTCGAATGAAAAAATGTTAGCTGAAGGGAAAAAAATGGCGCAAGAAGTCTTGAAGTTTATGCATCAAAAAGATCCTGAAACAAAAAACCTTCCGATAACATTTGCAATTTATCGTCAGGCTCCGAAGGCGTCACTTGTGCCAGGTAATTTTGTTTCTTATGCAAATGTTGAAAAAGGTAGTGAAACGGTTGAAGATTGGAAACAAATTAATGAAAAATATTATTTGTTCCCATCAGAGCAAGCGAAAACAGATAATAAACGTGAAGATCTTGCAAGAGTATCCAACTTTAAGGCAAAACTAAGCGATTATTTCCAAGGCGACTATACAGCTGTTATTGGTACGGGTATGTATAGAGATGATGAATTAAGAGAAATGAAGCTTGATATTCCTGTCCAATTTAATGGAAAAGCTGAAATAGTTGGTTTTACACAATATGTGGCAGGGCTTGTTATGGAATACTTCCCGAATTATATGAAAGTACAAGTAACAATTAAATCTGTAGAACGCCCAGAAGCCATTATTATACGTGAAGCAAAACAAGATGAACCACTTGTGAAAATTTTAGATTAA	MKKIALAVLSLGLLVSGCSAGADKDEKVSEKSGKAKEQSVVPKYAMSDEYYKTTIPFYGGKARGLVVQGVNNRLDIDEFETGLMRIAKESFSTKDHFFKGGDTLEAQYVQMLVKRKRTNAEQKELEDTLKKDAVKFPNIGLNPALGEGSEILEEKNKKNPIYISNILEHDYYVKNGDKDERSGIVVGLAMNSVHYYNEEHGYPREATISNEKMLAEGKKMAQEVLKFMHQKDPETKNLPITFAIYRQAPKASLVPGNFVSYANVEKGSETVEDWKQINEKYYLFPSEQAKTDNKREDLARVSNFKAKLSDYFQGDYTAVIGTGMYRDDELREMKLDIPVQFNGKAEIVGFTQYVAGLVMEYFPNYMKVQVTIKSVERPEAIIIREAKQDEPLVKILD				NA	NA	NA	NA	NA
AK009_07118	771	yfcA_4	COG0730	putative membrane transporter protein YfcA	ATGGAAGAATTAAGTTTTCAAGTCATTATTTTATTAATTGCATTCGGTTTTTTAGCAGCTTTTATTGATTCGGTTGTTGGAGGAGGAGGGTTAATTTCGCTTCCGGCGCTTATGTTTGTTGGCTTATCGCCAGCTTCGGCAATTGCAACGAATAAATTAGCGGCAACGATGGGGACGTTTACGAGTGCGATGTATTTCATTCGATCAGGAAAAGTTGATTTTAAAATTGTAGGAAAGTTAATCCCGTTAACTATTGTTGGAGCTGTTGCAGGCGCTTTAGTAGTAAAATTTATTCCATCGGATATTTTACGCCCATTAGTACTTGTAATGTTGGTATTTATTGCTATTTATATTATTGCAAAAAAGAATTGGGGAAGTGTGTCTACCTATAAGAAGATGACGCAAAGAAAAACATTAATATTTTTCTTTGCTATTTTAATGATAGGATTTTATGATGGATTTTTTGGACCAGGGACAGGGTCGTTTTTAATTTTTGCATTTTTATTAATTGGCTTGGATTTTATTCAAGCGGCAGCATCTGGAAAACTTTTGAACTTTGTTAGTAATATTGTATCTTTAATTACTTTTTTATTTTTAGACATAATTCATTTTGAATACGGTATTATCATGGGATTATCAATGATCTTAGGTGCTTATTTTGGATCGAAGTTTGCGGTTCAAAAAGGTGTTGGATATGTAAGAACTTTATTTTTATTAGTTACTATATTATTGATCGGGAAAAATGTTTTGGAATATACTCATATTTTGTAG	MEELSFQVIILLIAFGFLAAFIDSVVGGGGLISLPALMFVGLSPASAIATNKLAATMGTFTSAMYFIRSGKVDFKIVGKLIPLTIVGAVAGALVVKFIPSDILRPLVLVMLVFIAIYIIAKKNWGSVSTYKKMTQRKTLIFFFAILMIGFYDGFFGPGTGSFLIFAFLLIGLDFIQAAASGKLLNFVSNIVSLITFLFLDIIHFEYGIIMGLSMILGAYFGSKFAVQKGVGYVRTLFLLVTILLIGKNVLEYTHIL				NA	NA	NA	NA	NA
AK009_07119	1548	rocA	COG1012	1-pyrroline-5-carboxylate dehydrogenase	ATGGTAGTAGCATACAAACATGAGCCATTTACAGATTTTTCAGTGGAGGCTAACAAATTAGCGTTTGAAGAAGGTTTAAAGAAAGTAGAATCTTATCTTGGACAAGACTATCCATTAATTATTGGGGGAGAAAAAATCACTACAGAAGACAAAATTGTTTCTGTAAACCCTGCAAATAAAGAGGAACTTGTTGGTCGTGTTTCAAAAGCAAGCCGTGAGTTAGCTGAAAAAGCAATGCAAGTAGCGGATGAAACATTCCAAACTTGGAGAAAATCAAAGCCAGAAATGCGTGCAGACATTTTATTCCGTGCTGCAGCAATCGTTCGTCGCAGAAAACATGAATTCTCTGCTATTCTTGTAAAAGAAGCAGGTAAGCCATGGAATGAGGCAGATGCTGATACAGCAGAAGCAATCGACTTTATGGAATATTATGGTCGTCAAATGTTAAAATTAAAAGACGGTATTCCAGTAGAAAGCCGTCCAATTGAATATAATCGTTTCTCTTACATTCCATTAGGAGTAGGTGTTATCATTTCTCCTTGGAACTTCCCATTCGCAATTATGGCAGGTATGACAACAGCTGCTTTAGTTTCTGGTAACACAGTATTACTAAAACCAGCTAGTACAACTCCTGTAGTAGCAGCGAAATTTATGGAAGTATTAGAAGAAGCTGGCTTACCAGCTGGCGTAGTAAACTTCGTTCCAGGTAACGGTTCTGAAGTTGGTGACTACTTAGTAGATCATCCTCGTACACGTTTCGTAAGCTTCACGGGATCTCGTGATGTAGGTATCCGTATCTATGAGCGTGCAGCGAAAGTAAACCCAGGACAAATTTGGTTAAAACGTGTTATCGCTGAAATGGGCGGTAAAGATACAATCGTTGTTGATAAAGAAGCAGATCTTGAATTAGCAGCTAAGTCTATCGTTGCATCAGCATTCGGATTCTCAGGACAAAAATGTTCTGCATGTTCTCGTGCAGTAATCCATGAAGATGTATACGATCACGTATTAAATCGTGCTGTTGAATTAACGAAAGAATTAACAGTTGCTAACCCAGCAGTATTAGGTACAAACATGGGTCCTGTTAATGACCAAGCTGCATTTGATAAAGTAATGAGCTATGTTGCAATTGGTAAAGAAGAAGGTAGAATCTTAGCAGGTGGCGAAGGAGACGATTCTAAAGGCTGGTTCATCCAACCAACAATCGTTGCTGACGTTGCAGAAGATGCTCGCTTAATGAAAGAAGAAATCTTCGGACCAGTAGTAGCATTCTGTAAAGCGAAAGACTTCGATCATGCACTTGCAATTGCAAACAATACGGAATACGGTTTAACAGGTGCTGTTATTACTAACAACCGTGACCATATTGAAAAAGCACGCGAAGACTTCCACGTTGGTAACTTATACTTCAACCGTGGATGTACTGGTGCAATCGTAGGTTACCAACCATTCGGTGGCTTTAACATGTCTGGTACAGACTCTAAAGCTGGTGGACCTGATTACTTAGCACTTCACATGCAAGCAAAAACTACTTCTGAAACTTTATAA	MVVAYKHEPFTDFSVEANKLAFEEGLKKVESYLGQDYPLIIGGEKITTEDKIVSVNPANKEELVGRVSKASRELAEKAMQVADETFQTWRKSKPEMRADILFRAAAIVRRRKHEFSAILVKEAGKPWNEADADTAEAIDFMEYYGRQMLKLKDGIPVESRPIEYNRFSYIPLGVGVIISPWNFPFAIMAGMTTAALVSGNTVLLKPASTTPVVAAKFMEVLEEAGLPAGVVNFVPGNGSEVGDYLVDHPRTRFVSFTGSRDVGIRIYERAAKVNPGQIWLKRVIAEMGGKDTIVVDKEADLELAAKSIVASAFGFSGQKCSACSRAVIHEDVYDHVLNRAVELTKELTVANPAVLGTNMGPVNDQAAFDKVMSYVAIGKEEGRILAGGEGDDSKGWFIQPTIVADVAEDARLMKEEIFGPVVAFCKAKDFDHALAIANNTEYGLTGAVITNNRDHIEKAREDFHVGNLYFNRGCTGAIVGYQPFGGFNMSGTDSKAGGPDYLALHMQAKTTSETL	PGPT0020210_2515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
AK009_07120	546	sttH_2		Streptothricin hydrolase	ATGAAAACAGCTCTTTTACTCGTCGATATTCAAAACGATTATTTTCCAAATGGAAAGATGGAATTGCGTAATCCAGTAGAAGCAAGCGAATATACTAATCAGTTATTACAACACTTTAGAACAAACAGCGAACCTATTTTTCATATCCAACACATAGCTATAAAAGATGACGCTACTTTTTTCCTACCTAATACAGAAGGTGTACATATTCATGAAAGCGTACGTCCACTTAGAGAAGAAACAGTTATAGTCAAACATTATCCAAATAGCTTCCGAGAAACTAATCTTCTAGAGCAATTAAAACGTTTAAATATTGAACATGTCGTTGTATGCGGGATGATGACTCATATGTGTATCGATGCAACAGTAAGGGCTGCATTCGATTTTGGCTTTCAATGTACCGTTATACATGACGCTTGTGCTACAAAAGACCTTTCTTTTAAGAACGCTACTATACCAGCTGTTTATATTCACAATACAATTTTAGCTAGTTTAAATGGCGTATATGCAAATGTAATAAGCACGCAAGAATTTTTAGCTACATAA	MKTALLLVDIQNDYFPNGKMELRNPVEASEYTNQLLQHFRTNSEPIFHIQHIAIKDDATFFLPNTEGVHIHESVRPLREETVIVKHYPNSFRETNLLEQLKRLNIEHVVVCGMMTHMCIDATVRAAFDFGFQCTVIHDACATKDLSFKNATIPAVYIHNTILASLNGVYANVISTQEFLAT				NA	NA	NA	NA	NA
AK009_07122	1020	metN_3	COG1135	Methionine import ATP-binding protein MetN	ATGATTTCTTTTAACAATGTAAGTAAAGTGTATGAATCAGCTGGGCAATCTGTTCATGCGGTGGAGGATGTAACATTATCAGTTGAGAAAGGCGAAATTTTTGGCATTATCGGTTTTAGTGGAGCTGGAAAGAGTACATTATTACGCTTAGTAAATATGTTAGAGAGACCGACGGCAGGAACGATTTCAATAGATGATAAAGATATTACATCATTATCGACGAAAGAATTACGCAAACTAAGACAAAGAATCGGAATGATTTTTCAAAGCTTTAATTTATTTAATTCAAGAACAGTGTTTGGGAATATTGCTTATCCATTAAAGTTAGCGAAATTGCCAAAGAACGAGATAAAGGAACGAGTGAATGAACTGCTGAGGTTTGTAGGGTTAGAAGATAAAGCAAACTATTATCCAGAACAGCTATCAGGGGGACAAAAGCAGCGTGTTGGTATTGCTAGAGCACTTGCGACATCGCCAGATATTCTTATATGTGATGAGGCAACATCAGCCTTAGATCCAGAAACGACGACAGAAATTCTAAACTTATTAAAGAAAGTAAATCGAGAATACAATTTAACAATTCTTCTTATTACACATGAAATGCATGTTGTGAAAGAAATTTGTCACCGTGTAGCTGTAATGGAGAAGGGAAAAGTTATTGAAGAAGGAAAACTGTTTGATGTTTTCACGCAACCAAAAACAAAGACGACTCAAAACTTTGTACGTTCTGTTATTAATGATCATTTACCAGAAAGTGTTCTAGCGAAAATTCAAAATGGTGGTCAAATTTATCGTCTAACATTTACTGGTGAGGAGACAGGACAGCCGGTACTATCATATATCGCAAAAAACTATAACGTTGATGTAAATGTACTGTACGGAAATATTATTGAACTTCAAAATGTGCTATTTGGAAATCTGCTTGTAGAATTGCAAGGTGAGCAGAGGGAAATTCAAAAAGCATTACAACATCTAAGACTGCAAGTGCAGCTGAAGGAGGTAGAAGCTCATGCGAGTTGA	MISFNNVSKVYESAGQSVHAVEDVTLSVEKGEIFGIIGFSGAGKSTLLRLVNMLERPTAGTISIDDKDITSLSTKELRKLRQRIGMIFQSFNLFNSRTVFGNIAYPLKLAKLPKNEIKERVNELLRFVGLEDKANYYPEQLSGGQKQRVGIARALATSPDILICDEATSALDPETTTEILNLLKKVNREYNLTILLITHEMHVVKEICHRVAVMEKGKVIEEGKLFDVFTQPKTKTTQNFVRSVINDHLPESVLAKIQNGGQIYRLTFTGEETGQPVLSYIAKNYNVDVNVLYGNIIELQNVLFGNLLVELQGEQREIQKALQHLRLQVQLKEVEAHAS	PGPT0020520_2873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK009_07123	666	metP_3	COG2011	Methionine import system permease protein MetP	ATGCGAGTTGATTGGAGTATATTTTGGCCGCGCATACTAGATGCGACGGGAGATACCCTCTTAATGGTAATTGTAACACTTATATTCGCTACAATTCTGGGTATACCTCTAGGTTTACTTTTATATGTAACGAGAAAAGGAAACTTTTTAGAAAATAAATGGGTCTTTTCTATTCTTAACATCATAATTAATACAATTCGTCCGGTACCATTCATTATCTTTTTAGTAGCTTTAAGCCCACTAACAAGAAGCGTTATTGGAACGACGATTGGAACAGCAGCGGCAATTTTCCCGATGACGTTAGTCGCATCAATTGGTATTGCTAGAATGGTTGAAACAAATCTTGTTTCCGTTCCGAAAGGAGTAATTGAAGCAGCGCAAGCAATGGGCGCCTCGCCAATTAGAATCGTTTTTGAAATCCTTGTACCAGAAGCGTTAGCACCATTAATCTTAGGTGTCACGTTTATGACAGTTGGTTTAATTGAATTTTCTGCAGTTGCTGGGCTTGTCGGTGGTGGCGGTCTTGGTGACTTGGCAATGACATATGGTTATCAACGTTTTGATACATCGGTTATGTTCGTAACGGTCGTGTTACTTATCATTCTCGTACAGATAGCTCAAAATTTAGGAAACTACTTTCCGAAAGTCTTGTTACGCAGATCATAA	MRVDWSIFWPRILDATGDTLLMVIVTLIFATILGIPLGLLLYVTRKGNFLENKWVFSILNIIINTIRPVPFIIFLVALSPLTRSVIGTTIGTAAAIFPMTLVASIGIARMVETNLVSVPKGVIEAAQAMGASPIRIVFEILVPEALAPLILGVTFMTVGLIEFSAVAGLVGGGGLGDLAMTYGYQRFDTSVMFVTVVLLIILVQIAQNLGNYFPKVLLRRS	PGPT0020515_2292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK009_07124	855	metQ_4	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAGAAAATTTTAGCATTTGCATTATCAGCGATTGTAGGAGTCTCAGCATTAAGCGGCTGCTCAAGTGGAGACACGGGTGCAGGAGCGAAAGAAAAAGTAGTTCGCGTCGGTGTAACTGGAACGGATGGAGACGCTTGGGAAATCTTGAAGAAAAAAGCTGAAAAAGAAGGGATTAAAGTTAAACTGATTGAGTTCTCTGATTACACAACGCCAAATAAAGCGTTAGCTGATGGAGATATTGAATTAAACTCATTCCAGCATATTGCTTTCTTAGAGCAATTTAAAAAAGAGCATAAGTTAGATATTACAGCTGTTGGTACAACGCAAATTGCACCAATGGGTTTATACTCTGAAAAATATAAGAAAGCAAATGAAATCCCAGATGGTTCAGAAATTGCAATTCCAAACGATCCAACGAACCAAGCACGTGCATTAAAACTTCTTGATGCAGCTGGATTATTAAAGCTTAAAAAAGATTTTGGCTTATTTGGAGATCCAAGCGGCATTGCTGAAAATCCGAAGAAATTAAAAATCACGCCGGTTATCGCACAGCAAACACCTCGTGTATTAAAAGATGTAGCAGCTTCAGTTATTAATAACGGTGTTGCTGGTCAAGCTGGATTAGATCCAGCGAAGGATCCTATTTTCTTAGAAGATCCAAAGAATGAAAATGCGAAGCCTTATATTAATATTTTCGCAGCTCGTACGAAAGATAAAGATGATCCAACACTGAAAAAAGTAATTGAATTATATCATTCAAAAGAAGTAACAGATGCAATTAAGAAAGAAACAAATGATGGTTCAATTTCAGTTGACCTTTCACTTGAGGAGCTTGAAAAAATCGTAAAATAA	MKKILAFALSAIVGVSALSGCSSGDTGAGAKEKVVRVGVTGTDGDAWEILKKKAEKEGIKVKLIEFSDYTTPNKALADGDIELNSFQHIAFLEQFKKEHKLDITAVGTTQIAPMGLYSEKYKKANEIPDGSEIAIPNDPTNQARALKLLDAAGLLKLKKDFGLFGDPSGIAENPKKLKITPVIAQQTPRVLKDVAASVINNGVAGQAGLDPAKDPIFLEDPKNENAKPYINIFAARTKDKDDPTLKKVIELYHSKEVTDAIKKETNDGSISVDLSLEELEKIVK	PGPT0020510_1079	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK009_07125	468			hypothetical protein	ATGAAAAAGCATTCCACTACTATACTCTGGATCATTCCCTTATTATTTTTCATTCATAACCTTGAAGAAGCTTTCCAAATGCCACAATATCTTGCTAATCAATTTTCAATCCGTATTATAACTAGCCAACAATTCTTCATTGCCATTTCCGTATTAACAATCTTTGTATTACTTATCGTCTTTCTATATCAACTTAACTTCTTGTCTTCTATATGCTGGATTATTTTTATACAAGGGGCCATCTTCTTTAACTCTGTTCAACATATTATTTTGTTTTTCATTTATCGCTCCTATAACCCCGGCGTAATATCAGCATTTTTCATTACTCTCTTTTCTATTTTCTTTTTTTTATCAAAAAAACACTTAATTCATCAAAAGCAATTCGTAATTACACTCCTTTTCAGCTTATTTTCTTATCCCATTATAATTTGGATTACCTTACTGTTCGCTATCTACTTTCATTCATAA	MKKHSTTILWIIPLLFFIHNLEEAFQMPQYLANQFSIRIITSQQFFIAISVLTIFVLLIVFLYQLNFLSSICWIIFIQGAIFFNSVQHIILFFIYRSYNPGVISAFFITLFSIFFFLSKKHLIHQKQFVITLLFSLFSYPIIIWITLLFAIYFHS				NA	NA	NA	NA	NA
AK009_07126	192			hypothetical protein	ATGCATGAGGAATTACTACGAAGGGTAATTCTTACAAAAGTAAAAGTCGGGATGCATATATTAGAAGAGCTACCTAATCCAATCCAGCAATCAGCTAAGCAAATATTAAATATTTTACAAGAGGAACTAGCTGCTTATCCGAAAGAACGAGAGCATCATGATGTTAATTTAAAAAATATCATAATTGAATAA	MHEELLRRVILTKVKVGMHILEELPNPIQQSAKQILNILQEELAAYPKEREHHDVNLKNIIIE				NA	NA	NA	NA	NA
AK009_07127	1179			hypothetical protein	ATGAGAATTATTTTGTATACAGGTAAAGGCGGCGTAGGAAAAACTAGCATTTCAGCAGCAACAGCGCTTCAAAGCGCAAAACAAGGATTAAAAACATTAGTAATGAGTACAGATCCTGCTCATAGTTTAGGAGATTCATTTGGTATAAAGCTATCTTCTGAGCCATTAGAAATTCGTGAAAATTTGTGGGCACAAGAAATTAATACGATTTATGAGATGGAAAAAGGCTGGGGGAAATTACAGAAATATATTACGCTACTCTTCACTTCCAAAGCAGCTGATGATATTACAACAGAAGAGTTAACGATGTTTCCTGGTATGGAAGATTTAATTAGCTTACTTCGCGTACTCGATTATTATAAACAAAACACATATGATGTTATTATCATTGATTGTGCTCCAACAGGAGAAACATTAGCAATGCTCAGCTTTCCAGACATGCTCAGCTGGTGGATGGAAAAACTCTTTCCTATTAAAAGAAAAGTTTTAAAAGTTGTTCGCCCTGTAGCTCAACCACTTCTTGGTGTTCCTCTTCCAACCGATGATATTATGGACGAATTAACGAATACACTTGAACAGCTCGGAGAAATGAGAGATATTTTATCAAACCGAGAAATAACAAGTATCCGCATCGTTGTAAATCCCGAAAAAATGGTCATTAAAGAAGCTCAGCGTAGCTTTACTTATTTAAATTTATACGATTATAACGTAGATGCCATTATGATTAACCGCGTCATCCCTAACACTGTCACCGATCCTTATTTTCAAGCATGGAAAGATACTCAAAAAAAATATAAAACATTAATTCAAGATAGTTTTCAGCCGCTTCCTATTTACGAAGCTCCAATGTTTGAACAAGAAGTTGTTGGTTTACCTATGTTAGAGCGTGTAGGAGATGCTTTATTTAAAACTGATCATTGTCCTACTGAAGTGAAATTTAACGGCCGCACACAATATGTAAAAAAAGATGGCGATGATTATATTTTCATTCTTTCTATTCCCTTCTCAAATAAAAGTGAACTTTCATTAAATCAAAAAGGTGATGAACTTATTATTCGAGCCGGTTCTGTTAAACGGAACATCACGTTACCCAAAACATTAACACACCTTTCTATTCAAGGAGCAAAATTTGAAGAAGATGTACTAAATATTCGCTTTGGAGGTGTAGTACATGCATGA	MRIILYTGKGGVGKTSISAATALQSAKQGLKTLVMSTDPAHSLGDSFGIKLSSEPLEIRENLWAQEINTIYEMEKGWGKLQKYITLLFTSKAADDITTEELTMFPGMEDLISLLRVLDYYKQNTYDVIIIDCAPTGETLAMLSFPDMLSWWMEKLFPIKRKVLKVVRPVAQPLLGVPLPTDDIMDELTNTLEQLGEMRDILSNREITSIRIVVNPEKMVIKEAQRSFTYLNLYDYNVDAIMINRVIPNTVTDPYFQAWKDTQKKYKTLIQDSFQPLPIYEAPMFEQEVVGLPMLERVGDALFKTDHCPTEVKFNGRTQYVKKDGDDYIFILSIPFSNKSELSLNQKGDELIIRAGSVKRNITLPKTLTHLSIQGAKFEEDVLNIRFGGVVHA	PGPT0004700_1126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551	NA	NA
AK009_07128	483			hypothetical protein	TTGTTGCAATATGAACATTTTTTAGACTTACTGCTAGATAACGCCAAGAAACTTTTCTATCCTGAAGAATGGGTAAGCCTAGATTTAACACTTTCTAAAACAGAAGTATTTTGTTTACTTTGGATGGAGCGAAATACAGATATTACAATGACAAAAATTGCTGACCTTCTTGATATACCGATGAGTACAACGACAGGTGTTGTAAATCGCCTCGTAAAAAAGGGATATATTGAAAGGTACCGTGATGAAAACGACCGACGCATTGTATTAATTCGTTTAACAGAAAACGGCGTAATGCTCGTCCAAGAAGTAAAACAAAATGCAGCCCATTACTTTAACCTAGTGACAGAAGCATTATCAGAAGAAGAAAAAGCATTCTTACTACAAATCTTCCAAAAGATCATGAATCACATCGCTACGTCACAGCAAAAAACAGAAGAAAAGGTTTCTACACCTAAAATGAAAAACATTCCGATTGAATAA	MLQYEHFLDLLLDNAKKLFYPEEWVSLDLTLSKTEVFCLLWMERNTDITMTKIADLLDIPMSTTTGVVNRLVKKGYIERYRDENDRRIVLIRLTENGVMLVQEVKQNAAHYFNLVTEALSEEEKAFLLQIFQKIMNHIATSQQKTEEKVSTPKMKNIPIE	PGPT0013155_751	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK009_07129	237			hypothetical protein	ATGAGAAGACGTAATACGCAAGCGTTCACATTTTTAGCATGGACTTCATTTGTTTGTGCGCTTTCAGGTATGCTAATTGGGATTTATACGTTAGATGAAACGCTTAGTGTAAAAGGATACTATTTAATTGGAACACTATTTTTAACGATGTCTTGTTTTGTGTTACAAAAAACAATTCGTGATAATGAAGAAGATAACGAGAGATTTCCGAAAAATAAACCGTTAGATAAAGAGTAA	MRRRNTQAFTFLAWTSFVCALSGMLIGIYTLDETLSVKGYYLIGTLFLTMSCFVLQKTIRDNEEDNERFPKNKPLDKE				NA	NA	NA	NA	NA
AK009_07130	291	gatC		Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C	GTGTCAAGAATTTCCGTTGAGAATGTAAAGCACGTAGCACATTTAGCACGTCTTGCAATTACTGATCAAGAAGCTGAAAAATTTCAAAAACAACTAGATGCAATTGTTACATTTGCAGAACAGTTAAATGAATTAGATACAACAGATGTAAAACCAACAACTCATGTATTAACTATGAAAAATGTTATGCGTGAAGATGTACCAGAAAAAGGTTTACCAGTCGAAGAAGTATTAAAAAATGCACCGGATCACAAAGATAATCAAATCCGTGTTCCAGCAGTATTAGAATAG	MSRISVENVKHVAHLARLAITDQEAEKFQKQLDAIVTFAEQLNELDTTDVKPTTHVLTMKNVMREDVPEKGLPVEEVLKNAPDHKDNQIRVPAVLE	PGPT0023460_2187	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
AK009_07131	1458	gatA_3		Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGTCATTATTTGATCATTCAGTATCAGAGTTACATAAGAAATTAAACAACAAAGAAATTTCCGTTACGGATTTAGTAGAAGAATCTTACAAACGTATTGCGGATGTTGAAGATAACGTAAAAGCTTTTCTTACATTAGATGAAGAAAATGCACGCGCAAAAGCGAAAGAATTAGATGCAAAAATCGGCGCTGAAGATAATGGTTTATTATTCGGTATGCCGATTGGTGTAAAAGATAACATTGTAACTAACGGCCTTCGTACAACTTGTGCGAGTAAAATGTTAGCAAACTTCGATCCAATTTATGATGCGACAGTTGTGCAAAAGCTAAAAGCTGCTGACACGATTACAATCGGTAAATTAAACATGGACGAGTTTGCAATGGGTTCTTCAAATGAAAACTCAGGATTCTACGCTACGAAAAACCCATGGAACTTAGATTACGTTCCGGGCGGATCTAGTGGTGGTTCTGCAGCAGCTGTAGCAGCGGGAGAAGTACTATTCTCTCTAGGTTCTGATACGGGTGGTTCTATCCGTCAGCCGGCTGCATATTGCGGTGTTGTAGGTTTAAAACCAACTTACGGACGCGTATCTCGTTACGGATTAGTAGCATTCGCATCTTCACTTGACCAAATCGGACCGATTACACGTACAGTAGAAGACAATGCATACTTATTACAAGCTATTTCAGGTATTGACCGCATGGATGCAACTTCTGCAAATGTTGAAGTTGGAAACTATTTAGCTGGTTTAACAGGCGATGTTAAAGGTTTACGCATTGCTGTACCGAAAGAATACTTAGGCGAAGGTGTTGGCGAAGAAGCTCGTGAGTCAGTACTAGCTGCTTTAAAAGTATTAGAAGGTATGGGCGCAACTTGGGAGGAAGTATCTCTTCCGCACTCTAAATACGCTCTAGCAACGTATTACTTATTATCTTCTTCTGAAGCATCTGCTAACCTTTCACGCTTTGATGGCGTGCGTTACGGTGTTCGTTCTGATAATGTAAATAACTTATTAGATCTTTACAAAAACACACGTAGTGAAGGTTTCGGTGATGAAGTTAAACGTCGTATTATGCTTGGTACATTTGCCCTTAGCTCTGGTTACTATGATGCATATTACAAAAAAGCACAACAAGTACGTACATTAATTAAAAATGACTTTGAAAATGTATTTGCTAACTATGATGTTATTATTGGACCAACAACACCAACTCCGGCATTTAAAGTTGGAGAAAAAGTTGACGACCCAATGACAATGTATGCAAATGACATTTTAACAATCCCAGTAAACTTAGCGGGTGTTCCAGCGATTTCAGTTCCATGTGGATTCGGTGCTAACAACATGCCACTTGGTCTACAAATCATTGGTAAACACTTCGATGAAGCGACAATTTACCGCGTTGCACATGCGTTTGAGCAAGCAACAGACTATCATACAAAAAAAGCAAGTCTGTAA	MSLFDHSVSELHKKLNNKEISVTDLVEESYKRIADVEDNVKAFLTLDEENARAKAKELDAKIGAEDNGLLFGMPIGVKDNIVTNGLRTTCASKMLANFDPIYDATVVQKLKAADTITIGKLNMDEFAMGSSNENSGFYATKNPWNLDYVPGGSSGGSAAAVAAGEVLFSLGSDTGGSIRQPAAYCGVVGLKPTYGRVSRYGLVAFASSLDQIGPITRTVEDNAYLLQAISGIDRMDATSANVEVGNYLAGLTGDVKGLRIAVPKEYLGEGVGEEARESVLAALKVLEGMGATWEEVSLPHSKYALATYYLLSSSEASANLSRFDGVRYGVRSDNVNNLLDLYKNTRSEGFGDEVKRRIMLGTFALSSGYYDAYYKKAQQVRTLIKNDFENVFANYDVIIGPTTPTPAFKVGEKVDDPMTMYANDILTIPVNLAGVPAISVPCGFGANNMPLGLQIIGKHFDEATIYRVAHAFEQATDYHTKKASL				NA	NA	NA	NA	NA
AK009_07132	1428	gatB_2	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGAATTTAGAAACAATTATTGGTTTAGAGGTTCACGTTGAGTTAAAAACAAATTCGAAAATTTTCTCTGCGAGTCCAACAGAATTCGGAGCGGAGCCAAATACACAAACAAGTGTAATTGACTTAGGATACCCAGGGGTACTTCCTACTTTAAATAAAGAAGCAGTTAACTTTGCAATGAAAGCTGCAATGGCATTAAACTGTGAGATCGCAACGGAAACGAAGTTCGACCGTAAAAACTATTTCTATCCAGATAATCCGAAAGCTTACCAAATTTCTCAATTTGATAAGCCAATTGGTGAAAATGGTTGGATTGAAATCGAAGTAGACGGTAAAAAGAAACGTATCGGTATTACACGTCTTCATTTAGAAGAAGATGCTGGTAAATCAACGCATACAGCTGATGGTTCATTAGTAGACTACAACCGTCAAGGTATGCCTTTAATCGAGATCGTATCTGAGCCAGATATGCGTACGCCAGAAGAAGCATATGCATATTTAGAGAAGTTAAAATCAATCATTCAATATACTGGTGTATCTGATTGTAAGATGGAAGAAGGTTCTCTGCGTTGTGATGCGAACATTTCTCTTCGTCCAGTTGGACAAGAGAAGTTTGGTACAAAAGCGGAACTGAAAAACTTAAACTCATTCACTTACGTACAAAAAGGTCTTGAGCACGAGCAAGTGCGCCAAGAAAAAGAACTGTTATCTGGTGGTATCATCCAACAAGAAACACGTCGTTATGATGAAGCAACGAAGAAAACAATCTTAATGCGTGTGAAAGAAGGATCTGACGATTACCGTTACTTCCCTGAGCCAGACTTAGTTGAACTTTACATCGACGATGAGTGGAAAGAAGCAGTTCGAGCTTCTATTCCAGAACTTCCAGATGCGCGTAAAGCTCGCTACGTTGCAGAAATTGGCTTACCAGCTTATGATGCACACGTATTAACATTAACGAAAGAAATGTCTGATTTCTTTGAAGCGACTGTTGCAGACGGTGCTGATGCGAAATTAACATCGAACTGGTTAATGGGTGAAGTACTTGCATACTTAAACAAACAACAAAAAGAATTAAAAGACGTTGCATTAACGCCTGCTGGTTTATCTAAAATGGTTCAATTAATTGAAAAAGGTACAATTTCTTCTAAAATTGCGAAGAAAGTATTTAATGAATTAATCGAAAAAGGTGGAGACCCAGAAGAAATCGTTAAAGCGAAAGGTCTTGTTCAAATTTCTGACGAGGGTACACTTCGTAAAGTTGTAACAGAAATTCTTGATAATAATGGGCAATCTATCGAAGACTTTAAAAACGGTAAAGACCGTGCAATTGGGTTCTTAGTTGGTCAAATTATGAAAGCTACAAAAGGACAAGCAAATCCACCGCTTGTTAACAAAATCTTACTTGAAGAGATTAATAAGCGATAA	MNLETIIGLEVHVELKTNSKIFSASPTEFGAEPNTQTSVIDLGYPGVLPTLNKEAVNFAMKAAMALNCEIATETKFDRKNYFYPDNPKAYQISQFDKPIGENGWIEIEVDGKKKRIGITRLHLEEDAGKSTHTADGSLVDYNRQGMPLIEIVSEPDMRTPEEAYAYLEKLKSIIQYTGVSDCKMEEGSLRCDANISLRPVGQEKFGTKAELKNLNSFTYVQKGLEHEQVRQEKELLSGGIIQQETRRYDEATKKTILMRVKEGSDDYRYFPEPDLVELYIDDEWKEAVRASIPELPDARKARYVAEIGLPAYDAHVLTLTKEMSDFFEATVADGADAKLTSNWLMGEVLAYLNKQQKELKDVALTPAGLSKMVQLIEKGTISSKIAKKVFNELIEKGGDPEEIVKAKGLVQISDEGTLRKVVTEILDNNGQSIEDFKNGKDRAIGFLVGQIMKATKGQANPPLVNKILLEEINKR				NA	NA	NA	NA	NA
AK009_07133	906	dagK	COG1597	Diacylglycerol kinase	ATGATGAAGCGAGCAAGAATTATTTATAATCCTACTTCTGGGCGTGAGCTATTTAAGAAGAGCTTACCAGAAGTATTACAAAAATTAGAACAAGCTGGCTATGAGACATCTTGTCATGCGACAACGGGTCCTGGAGACGCTACTGTGGCGGCGAGGCAAGCTGCGGATCGTAAGTTTGATGTTGTTATTGCCGCTGGTGGCGACGGTACATTAAATGAAGTAGTAAACGGTTTAGTTGGACATGAATTCCGCCCGAAATTTGGAATTATTCCAGTTGGAACGACAAATGACTTTGCACGTGCGATTGGTGTACCTCGTTCTATTGAAGAGGCAGCAGATATTATTTGCGAAGGAAAAACAGTGCCATTAGACCTCGGTAGAGCGAACGATACATATTTTATTAACATCGCTGGTGGCGGTCGTATTACAGAATTAACATACGAAGTACCGAGTAAGTTAAAGACAGTATTAGGACAACTTGCTTATTACCTAAAAGGTATCGAGATGTTACCATCATTGCATCCGACATATGTTGAAATTGAGTATGATGGAAAGTTACTACAAGAAGAAATTACGATGTTTTTAATTACGAATACTCGTTCAGTAGGTGGATTTGAAAAGGTAGCACCGTATGCATCTATTAACGATGGGTTATTTGACCTATTAGTACTGAAAAAAGGTTCTATCGCTGATTTAATTAAAGCAGCAACACAAGCACAACGTGGTGAACATATTAATAATCCAAAAGTGTTATATACACAAGCGAACCGAATTAAAGTACATTCACCAGATAAACTAATGATTAATTTAGATGGTGAGTATGGTGGAGATGCACCGATGGAATTTGAAAATATATATCATTGTTTAGAACTATTTGTTCCTGAACATCAAGAGGATGCCTTGTAA	MMKRARIIYNPTSGRELFKKSLPEVLQKLEQAGYETSCHATTGPGDATVAARQAADRKFDVVIAAGGDGTLNEVVNGLVGHEFRPKFGIIPVGTTNDFARAIGVPRSIEEAADIICEGKTVPLDLGRANDTYFINIAGGGRITELTYEVPSKLKTVLGQLAYYLKGIEMLPSLHPTYVEIEYDGKLLQEEITMFLITNTRSVGGFEKVAPYASINDGLFDLLVLKKGSIADLIKAATQAQRGEHINNPKVLYTQANRIKVHSPDKLMINLDGEYGGDAPMEFENIYHCLELFVPEHQEDAL	PGPT0024345_1596	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK009_07134	747	gph_6		Phosphoglycolate phosphatase	ATGGAGAAGGTAAAAGCAATACTATTTGATAAAGATGGGACATTAATGGATTTTCATTCAATTTGGATAAAAGTAGCTGAAGAACTTGTAGCTGAATGTATAAGTTTATATCATTTACCAAGTACAATAGGGCAGACCTTATTAGAAGAGATTGGTGTAGAGGGAGCATTTGTTAATCCGAGGAGTGCAATAGCTGCTGGAACAAGCCTTGATGTAGCGAAGGGGCTTTGTAATTATATTGAGTCTGCTAGAGAAGAAGAGATGCATCATTGGGTAAGTGAGAAGTTATTTTCCCTTATGTATGAGCATCGTTCGCATATGAAAATGACAGCAGATTTACCGAAAGTGTTACAGGCATTAAAAGATAAAGGATTTATATTAGGGGTTGTCACGGCGGATGATTTCGCACCAACAGAATTATTTTTAAAACAATATAAGTTGGAGAACTTTTTTGATTATATTATAGCCTCGGATACATTCCTTGCGCAAAAACCAGATAAAAAGATTATAGAAGTGTTTTGTGAGAAATTTAATTTAGAATCATGTGAGGTTGCGGTTGTTGGAGATACGCCAACTGATTTACATTTAGCTAAAAATGGTGGTGATTGCTATGCAATTGGGGTGCTATCTGGTACGGGAGACCGTCCAACATTAGAACCACTTGCTGATTTAGTGTTAGATTCTGTTGGAGAGTTTATTTCTCAATCGGGTGAGTTTTTCTGGGAGAAAGAAAAGTCTAATGTGTAA	MEKVKAILFDKDGTLMDFHSIWIKVAEELVAECISLYHLPSTIGQTLLEEIGVEGAFVNPRSAIAAGTSLDVAKGLCNYIESAREEEMHHWVSEKLFSLMYEHRSHMKMTADLPKVLQALKDKGFILGVVTADDFAPTELFLKQYKLENFFDYIIASDTFLAQKPDKKIIEVFCEKFNLESCEVAVVGDTPTDLHLAKNGGDCYAIGVLSGTGDRPTLEPLADLVLDSVGEFISQSGEFFWEKEKSNV	PGPT0001730_594	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK009_07135	1365	davT	COG0160	5-aminovalerate aminotransferase DavT	ATGAACACAAAAAAATTTGCTAAAGTAAATGAACAAATTCCAGGACCGAAAGCGGCATCTTTATTGGAACGCCGTCAAAATATAGTACCAAAAGGAGTAAGTAACGGCATCCCAACGTTTGTACAATCTGCAAATGGTGCTCTTGTAACGGATGTTGATGGCAATCAGTACATTGATTTTGCAGGAGCAATCGGGACAATTAACGTAGGACATTGTCATCCAACGGTTAAAGAAGCGCTCCATAAACAAGTCGATCAATACATTCATACTGGATTTAATGTCATGATGTATGAGCCATATATTGAATTAGCGGAAAAGCTTGCGGCATTGGCACCAGGAAGTTTCGATAAGCAAGTCCTATTTTTAAATAGTGGTGCAGAAGCAGTTGAGAACGCGGTGAAAATCGCTCGTAAATATACGAAGAGACCTGGTATTATCGCATTTTCTAAAGGTTTCCACGGGCGTACATTAATGACAATGACGATGACAAGTAAAGTGAAGCCATATAAATTTGGGTTTGGTCCCTTTGCTCCAGAAGTATATAAAGCGCCATTTCCATACGAATACCGTCGCCCAGAGGGATTAACGGAAGAGCAGTATGATGATTTTATTATTGAAGAGTTTAAGAACTTCTTCATATCGGAAGTAGCACCAGAAACAATTGCAGCTGTTGTAATGGAACCTGTTCAAGGGGAAGGTGGATTTATCGTCCCAAGTAAGAAATTTGTTCAAGAAGTACGCCGCATTTGTTCAGAGAACGGCATCTTATTTGTAGCGGATGAAATACAAACAGGCTTTAGTCGTACAGGAAAATATTTTGCAATTGATCACTATGATGTCGTTCCAGATTTAATTACAGTGTCTAAATCATTAGGGGCTGGTGTACCGATAAGTGGTGTCATTGGACGTAAAGAAATTATGAATGAATCTGTACCAGGTGAACTTGGTGGAACGTATGCAGGAAGTCCATTAGGATGTGCGGCTGCATTAGCTGTTCTCGATGTAATAGAAAATGAGAAACTAAATGATAGAGCGATAGAATTAGGAAAAGTCGTAATGAACCGATTCGAAGAGATGAAAAATAAATATCATTGCATCGGTGATGTGCGTGGGTTAGGCGCAATGTGTGCATTTGAGGTCGTTCAAGATCGTAAGACGAAAGCACCTGACAAAACGTTAACGGCTAATCTATGTGCAGAAGCAAATAAGCGTGGGTTACTTTTATTATCAGCAGGAACGTATGGAAATGTTATACGTGTGTTAATGCCTTTAATTATTACAGATGAGCAACTTGAAGAAGGATTAACAATAATTGAAGAATCGTTGCAAGCTTGTTATGAGCAAACAAACATCGCTCGCGTTTAA	MNTKKFAKVNEQIPGPKAASLLERRQNIVPKGVSNGIPTFVQSANGALVTDVDGNQYIDFAGAIGTINVGHCHPTVKEALHKQVDQYIHTGFNVMMYEPYIELAEKLAALAPGSFDKQVLFLNSGAEAVENAVKIARKYTKRPGIIAFSKGFHGRTLMTMTMTSKVKPYKFGFGPFAPEVYKAPFPYEYRRPEGLTEEQYDDFIIEEFKNFFISEVAPETIAAVVMEPVQGEGGFIVPSKKFVQEVRRICSENGILFVADEIQTGFSRTGKYFAIDHYDVVPDLITVSKSLGAGVPISGVIGRKEIMNESVPGELGGTYAGSPLGCAAALAVLDVIENEKLNDRAIELGKVVMNRFEEMKNKYHCIGDVRGLGAMCAFEVVQDRKTKAPDKTLTANLCAEANKRGLLLLSAGTYGNVIRVLMPLIITDEQLEEGLTIIEESLQACYEQTNIARV	PGPT0007660_296	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
AK009_07136	1368	norR_3		Anaerobic nitric oxide reductase transcription regulator NorR	ATGGTTGCAGAAAAGGAACGAGTGTTAATGGATTTAAAAGATGTATTTGAATATGCGTTTGACGAAATTTTTGTTACAGATGAGCAAGGGATCGTTGTGCGTGTAAATAGTACATGTGAAAGGCACTACCAACTAGCTGCCGAAGAGTTAGTGGGTAAGCATGTAAAAGAACTACAAAAGGATGGAATCTTTTATCCATCAGCGACATTAGAAGTGATTGAAAAAAAGAGGCCAATTGAACTCGTTCAAACTACAAAATCAGGAGAGTATTTACACGTTCGTACAAGGCCTGTTTTTGATGATGAGGGAAATTTAAGAAGAGTGATTAGTTATTCTCGCGACCTTACTGAACTCTATCAATTACGTCAAAAGGTAGAGGAAATGGATAATCAGCTAAAAACATATAAAAAAGAATTAAGAGAAACATATGAGCATGAAGGACTTATTTTTAAAAGTCTAGCTATGCAAAAAATAGTCGATACAATCAAAAAAGTATCTGTAGTGGATAGTACTGTTCTCGTTTTAGGCGAGACTGGAGTAGGAAAAAGTCGATTAGTACGCCATTTACATGAGGTGAGTCATCGGAAGAATGAAAGTTTCTATGAAATTAATTGTGCGGCATTGCCAACTAATTTAATTGAATCGGAGCTTTTTGGATATTCAGGTGGATCTTTTACAGGTGCAAATCGTGAAGGGAAAAAGGGACTATTAGAATCCGCGCATAAAGGAACTCTTTTTTTAGATGAAATCGGTGAAATGCCGATTGAAATCCAAGCGAAGCTTTTGCAAGTATTGCAAGAAAAAACATTTCGTCCTATAGGCGGAAGAGAATTAAAAAAAGTGGATGTTCGAATTGTCGCGGCAACAAATAGAGATTTAAGCGAGATGGTGAAACAAGGAACATTTCGGAAAGATTTATACTATCGTCTGAATGTCATTCCAATTGCAATTCCCCCGCTTAGGGAAAGAACAGAAGATATTTTACCGCTTATTTATCATTACTTGCAGCACTTTAATAAAAAGTACGGACGTGATGTGAAACTAGCACCGGGTACATTACAAATGTTTGTTGGATATCCGTGGGAAGGAAACAATAGAGAAATAGAGAATGTAATTGAGAGAATTGTTATTACTGTCGATGATGTTGTAACGGTAGAGGATTTGCCACTCTCTATGCAAGAGGCTGCAGTTGAACAATCGGGGCAAAGCCTTTATAAAATGCTGGAAGAGGTAGAGAGAAATATTATTCTTAAAGCGTATAAAACGTATGGATCAAGTTATAAAGTGGCTGAGTTTTTGCAAATTAGTCAATCTGCTGCTACTAGGAAAATTAAGAAGTTCATAGAGGGGGAAGAAAACATTGGATAA	MVAEKERVLMDLKDVFEYAFDEIFVTDEQGIVVRVNSTCERHYQLAAEELVGKHVKELQKDGIFYPSATLEVIEKKRPIELVQTTKSGEYLHVRTRPVFDDEGNLRRVISYSRDLTELYQLRQKVEEMDNQLKTYKKELRETYEHEGLIFKSLAMQKIVDTIKKVSVVDSTVLVLGETGVGKSRLVRHLHEVSHRKNESFYEINCAALPTNLIESELFGYSGGSFTGANREGKKGLLESAHKGTLFLDEIGEMPIEIQAKLLQVLQEKTFRPIGGRELKKVDVRIVAATNRDLSEMVKQGTFRKDLYYRLNVIPIAIPPLRERTEDILPLIYHYLQHFNKKYGRDVKLAPGTLQMFVGYPWEGNNREIENVIERIVITVDDVVTVEDLPLSMQEAAVEQSGQSLYKMLEEVERNIILKAYKTYGSSYKVAEFLQISQSAATRKIKKFIEGEENIG	PGPT0001030_2507	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
AK009_07137	1452	gabD_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	TTGGATAAAAAGGCGACTTTCGTAAGTATAGATAAAAAGGCGATGTATATAAATGGTGAGTGGATTACACTACAAGAACAAATTGAAGTAAATAATCCTGCGACGAAGGAAATATTTGCAACTGTACCAAAAGGCGGAGTAACAGAGGCAAAGCAAGCTGTTGATGCTGCACATGAAGCTTTTAAAACGTGGTCTAAGTTAACGGCAGCAGATCGTGCAACGAAGTTAAAAAAGTGGTTCATGCTTATTGATAAAAATAAAGAAGAGATCGCAGCGATTATGACGAAGGAACAAGGAAAGCCGTTTGCAGAAGCGCTTGGTGAAGTAAATTATGCAAATAGCTTTGTTGAATGGTATGCAGAAGAGGGGAAACGTGTATATGGTGAAATGATTCCTGCTTCTCATCCGAATAAGCGCATTTTAGTTATGAAGCAACCAGTTGGCGTTATGGCAGCTATTACACCATGGAACTTTCCAGCTGCTATGATTACGAGAAAGGTAGCCCCAGCGCTTGCAGCAGGCTGTACAGCAGTTGTAAAACCTGCAAGTCAAACACCACTAACTGCATTAAAATTAGCTGAATTAGCACATGAAGCGGATATTCCAAAGGGTGTAATTAATATCGTAACAGGTAGTGCAAAAGCAATTGCTGATACGTGGATGGAAGATGGTCGTGTGCGAAAAGTGTCCTTTACAGGGTCAACGGAAATCGGAAAAGAGTTAATGGCTAGTGCGGCGCAAACGATGAAAAAAGTTTCACTGGAGTTAGGTGGTCACGCTCCGTTTATCGTAATGAATGATGCAGATTTAGATAAAGCAGTAGAAGCGGTGATTGGTTCGAAATTCCGTAACGCAGGACAAACGTGTATATGTACAAACCGAGTATTCGTTCAAGAAGAAGTATACGAAGTATTTGTAGAGAAGTTCCAAAAGGCAGTAGGGCAGTTGAAAGTAGGAGACGGTTTCGGTGACGGAACGACTGTCGGACCACTTATTGATGAGAATGCAGTTTCAAAAGTACAAGAACATATTGAAGATGCTATTCAAAAAGGTGGAACAGTTTTATATGGTGGTCAAAAGGTCGCAGAGTTAGAGGGACATTTCATGCAACCGACTGTAATTGGGTTGGCAAATGATACGATGCTTTGTATGAACGAAGAAACATTTGGGCCAGTGGCACCAGTTGCGAAATTTAAAAAAGTTGATGAAGTAATCGAACGTGCAAATAATACACCATACGGTTTAGCTGCGTATATTTTCACGAAAGACATTAGCCAAGCATTCCAAATTAGTGAAGCGCTAGAGTACGGTATTATTGGTCTAAATGACGGTCTTCCATCAGTTGCACAAGCACCATTCGGTGGCTTTAAAGAAAGTGGTATCGGCCGTGAAGGAGGCCATTTCGGCATCGAGGAATATTTAGAAATTAAATATATTTCATTAGGACTATAA	MDKKATFVSIDKKAMYINGEWITLQEQIEVNNPATKEIFATVPKGGVTEAKQAVDAAHEAFKTWSKLTAADRATKLKKWFMLIDKNKEEIAAIMTKEQGKPFAEALGEVNYANSFVEWYAEEGKRVYGEMIPASHPNKRILVMKQPVGVMAAITPWNFPAAMITRKVAPALAAGCTAVVKPASQTPLTALKLAELAHEADIPKGVINIVTGSAKAIADTWMEDGRVRKVSFTGSTEIGKELMASAAQTMKKVSLELGGHAPFIVMNDADLDKAVEAVIGSKFRNAGQTCICTNRVFVQEEVYEVFVEKFQKAVGQLKVGDGFGDGTTVGPLIDENAVSKVQEHIEDAIQKGGTVLYGGQKVAELEGHFMQPTVIGLANDTMLCMNEETFGPVAPVAKFKKVDEVIERANNTPYGLAAYIFTKDISQAFQISEALEYGIIGLNDGLPSVAQAPFGGFKESGIGREGGHFGIEEYLEIKYISLGL	PGPT0001580_3513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK009_07138	324	nepA		Nicotine metabolites export pump subunit NepA	ATGGTATATTGGCTATTATTACTTGTTACAATTATTTTTGAAGTGGCTGGAACAATTGCGATGAAACTATCAAATGGTTTAACAAAGCTCGTTCCAAGTGTATTGATTTTCGTATTTTATGGAATTTGTTTCAGCGTGTTCGCCATCGTTGTGAAGAAGATTCATTTAAGTATTGCTTATGCTATTTGGTCTGGCGTTGGAACATTACTTATTACAATCATTAGTGTGTATTTTTTTAAAGAGCACATTAGCTTATTCCAAGCATTTTGTATTCTTTTTATTGTTTTGGGTGTCATTGGTCTTAAGGTTTCATCGGCATCCTGA	MVYWLLLLVTIIFEVAGTIAMKLSNGLTKLVPSVLIFVFYGICFSVFAIVVKKIHLSIAYAIWSGVGTLLITIISVYFFKEHISLFQAFCILFIVLGVIGLKVSSAS	PGPT0029230_2131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
AK009_07139	492			hypothetical protein	ATGTTAAAAAAGGTGAGTCAAATTGTTTTAATTTTTGGCATAGCTTTTAGTTTAAGTGCTTGCACTGAGACTAAAGATAGTAATGAAAGTAAACAAGAAGATGTTCAAGATAAAGTGTATAAAATAGGGGAGACAGTAGACGTAGATGGTTTGCAAGTAACTATCGATTCAGTTAAATTAGGATATCCGGATTATGATGAGGATAAAAAGAAAGAAGAGATTTTGGGGGTTATTTTCAAAGTGGAAAATAATAGTAAAAAGGAAATACCTTTTGCATTTTATGAATTTGAGATTATCGATAAGAAAGGTACAAGATTTAAAGAATATAATAACCCTGATAGCTTTATTAGTAAAAAGTTAGCACCAGATGAAAAAATTCAAGATATCATGCTATTTGACGTAGCGAAAGAAAATACGTATATCGCTACGTATAGACCGGAGTTTACGCGTGAAAATAGAACGATAAAATTTGAATTGAAACCAAATAAATAA	MLKKVSQIVLIFGIAFSLSACTETKDSNESKQEDVQDKVYKIGETVDVDGLQVTIDSVKLGYPDYDEDKKKEEILGVIFKVENNSKKEIPFAFYEFEIIDKKGTRFKEYNNPDSFISKKLAPDEKIQDIMLFDVAKENTYIATYRPEFTRENRTIKFELKPNK				NA	NA	NA	NA	NA
AK009_07140	1230			Aminopeptidase 2	ATGTCATTTGAACAAACGTTAGAGAAATATGCTGCTCTTGCAGTTAATGTTGGTGTTAATATTCAACCTGGACAAACTTTATCAATTAGTGCACCTCTTGAAGCTGTACAATTTGTACGCCTCGTTACAGAGAAAGCATATAAATCTGGTGCAAAACACGTATATGTGGATTGGAATGATGAGACGTTAACACGCTTAAAGTTCGATCTAGCTCCTGAAGAAGCTTTCTCTGAATTCCCTTCTTGGAAAGCACATGCTCGTGAGGAATTAGCAAAAGAAGGCGCTGCATTTATGTCTATCTATGCAGAAAACCCTGATTTATTAAAAGGTGTAGAAGCATCGCGTATTGCAACAGCTCATAAAGTAGCTGGAGAAGCGATGAAAGTATACCGTGATTACGTACAAGCCGATAAAGTAAGCTGGTGTGTAATTTCTGTTCCTACGAAAGAATGGGCTGCGAAAGTATTCCCTGACATAGCGCCAGAAGAACAAGAAGCAAAGTTATGGGATGCTATTTTCAAAGCTACTCGTGCTGATTTAGAAAATCCTGTAGAAGCATGGAAAGAACATGATGAAACATTACATACAAAAGTGGATTACTTAAACGAAAAGCATTATAAAGCTCTTCACTATACAGGTCCTGGAACAGATTTAACAATCGAACTTCCAGAAAAACATGTATGGGCTGGTGCTGGTAGCTTAAATGAAAAGAACGTACCATTTATGGCTAATATTCCAACTGAAGAAGTATTTACAATGCCACTTAAAACAGGTGTAAACGGCCAAGTTTCTAGTACAAAACCGTTAGTATTTGCAGGTAATATTATCGATAATTTCACGTTAACATTTGAAAACGGACGTATCGTAGACTATAAAGCTGAAGCTGGTGAAGAAGCTTTAAAACATTTAGTAGAAACAGATGAAGGTTCTCACTTCTTAGGAGAAGTAGCTTTAGTACCTCATGACTCACCAATTTCAAACACAAATGTTTTATTCTACAATACACTATTTGACGAAAATGCATCTTGCCACCTTGCAATCGGAAATGCTTATGCATTTAACTTAGTTGGCGGAAAAACAATGTCTAAAGAAGAACTTGCTGAAAACGGCGCAAACGCTAGTATTACACACAACGACTTCATGATTGGATCCGCTGAGCTTGATATCGATGGTATTACAGCTGATGGCAGACATGAGCCTATCTTCCGTAAAGGTAACTGGGCGTTTTAA	MSFEQTLEKYAALAVNVGVNIQPGQTLSISAPLEAVQFVRLVTEKAYKSGAKHVYVDWNDETLTRLKFDLAPEEAFSEFPSWKAHAREELAKEGAAFMSIYAENPDLLKGVEASRIATAHKVAGEAMKVYRDYVQADKVSWCVISVPTKEWAAKVFPDIAPEEQEAKLWDAIFKATRADLENPVEAWKEHDETLHTKVDYLNEKHYKALHYTGPGTDLTIELPEKHVWAGAGSLNEKNVPFMANIPTEEVFTMPLKTGVNGQVSSTKPLVFAGNIIDNFTLTFENGRIVDYKAEAGEEALKHLVETDEGSHFLGEVALVPHDSPISNTNVLFYNTLFDENASCHLAIGNAYAFNLVGGKTMSKEELAENGANASITHNDFMIGSAELDIDGITADGRHEPIFRKGNWAF	PGPT0020940_1140	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
AK009_07141	1083			hypothetical protein	ATGAGAAAATACGCAACAATTGCTTTATGTACGTCTGCCATTCTAGCAGGCTGCAATACTAGCAATGTAAGCCAAGAACCTAAAAAAGAGAAAAAGGTTCAAGAAGTAGCTAAACAAAAAGAGACTGTACAAGAACAAGGTAAAATTTCTTATACTCCCATCACATACGAATCTACAGACACTACTATTCATATGACAGATATAAAAGATAATTTAACTGAGGTACAATATAAAATTTGGCGCACAGCTGATGGAAAGGAAAGTGCTAAATCTTTTTCTTCTAAAGAAAAAGAGAAACAATTTACACTTCCTTTTGATATAAAAGAATTTGAAGGAAAACGCGGTGAGTTCCAAATTGAAGCAACAGGAATGAAAGAAGATGGGAAAACAATCTCGCTTACGAAATCTACTATTACTTTCGAACAAAAGGTTCCTGTTCTTATGTATCACGCAATTGATGATTATCATGGTCAAGGTATTAAAGACTTATTCGTATCACCAGCTAACTTTGAAGCACAAATGAAACATTTAAAGGACAATGGTTATACGCTGTTAACGTTTGAACGCTGGAGTGATATAAATAAAGTAAATAAGCCGATTTTCGTTACATTTGATGACGGTATGAAAAATAATATGAATGCATTTCGCGTTTTACAAAAGCTAAAAGATGATACTTTCAAACCGGTAGCAACAGAATATATGATTGTTGATAACGTTGATGTAGAAGGAGCATTGTCTACTTCTGAAATAAAAGAAATGGTTGATTCCGGCATTTTCTCGGTGCAATCTCATACTGCAACACATGCAGACTTGCCGAAAATTACAAACTATGAGGAAGAGTTAAAAGGTTCAAAAGAAAAGCTAGAAAAAATAACAGGTAAGCCTGTTATCGCAATCGCATATCCATTCGGCCATGTAGATGATAAGGTTGTTGCAGAAACGAAGAAGTATTATCAATTTGCGACGACGACAAAGCCTGGGCAATTCATTACGAAGGGTGAACCTGATGAATTGTTAAAGATGAAGCGCGTTCGTATACACCATACAACGACTGTAGAGCAATTTGCTTCTTCAATTAAGTAA	MRKYATIALCTSAILAGCNTSNVSQEPKKEKKVQEVAKQKETVQEQGKISYTPITYESTDTTIHMTDIKDNLTEVQYKIWRTADGKESAKSFSSKEKEKQFTLPFDIKEFEGKRGEFQIEATGMKEDGKTISLTKSTITFEQKVPVLMYHAIDDYHGQGIKDLFVSPANFEAQMKHLKDNGYTLLTFERWSDINKVNKPIFVTFDDGMKNNMNAFRVLQKLKDDTFKPVATEYMIVDNVDVEGALSTSEIKEMVDSGIFSVQSHTATHADLPKITNYEEELKGSKEKLEKITGKPVIAIAYPFGHVDDKVVAETKKYYQFATTTKPGQFITKGEPDELLKMKRVRIHHTTTVEQFASSIK				NA	NA	NA	NA	NA
AK009_07142	174			hypothetical protein	ATGAAAGCCCACGCAATTTTCGATTTCTTACATTTACTAGTCTTAACCCTAAAAAGCTATTATGTATGGGGAATGCCTATCTATGTCTTTATTATTCCTCTTATCTTTGTAGTCGGTTATATTATTATTAATTCTAATAAGAAACAAAAAAATACATCTATTCAAAGTCACTAA	MKAHAIFDFLHLLVLTLKSYYVWGMPIYVFIIPLIFVVGYIIINSNKKQKNTSIQSH				NA	NA	NA	NA	NA
AK009_07143	726			hypothetical protein	ATGGAGTGGAGAATAGAAATGAAATATAAAAAAATAATATATATCTTTTTCATATCGCTATTTATAGTTGGTTGTCAAAGTGAAGTGAGTAAAGCGAATAGTGTGGAAGAGTATATTCCATCGCATCTTATGAATGCGGAAGTGACGGCGGATATTATGACACTAGAGATGGATCGTGATACACGTAAAAAAGTAGAGGTTATTACTAAAAAGATGAGTGATCATGTAAAGAATGATAAAGAGTGGTACATAAACTATATATCAGGGCATATAGATAAACAGGTGAAACCGTATCATCCTAACTTTGGTATTACAGAAGAAGAATATAACTTTTTTAGAAACGCCGTTGAGAATAGTAGTTTATCTAATACAAGTGATGGAAAACTTCGATTTAAGCAAAAAAGTAACCATGAAATTGAAATTGTTTCAAGTAGAAACCTAGAACTATTCCAGCATCTAGTAATTGATACAGAGAAGAATATAATAAAAACTTCTTTTGGAGAATGTCAGTATGTTGGAGAAATAAAGCCATCTTCAGAAAAAAGAATATTAGGTCGAGTAAATGGCAAACAATGGATGTTACAAAAAGAAAATTTAATCTATTTATTCTCTTTAGGAAAGCTTGAAGGAGAAGATAAATCTGTTATGGTTATTTCAGTAAAAGGCATACACGAAGGAAAACTTATTAGTAACGAGGAAGTAGTCGAATTCCGTTCGATTTCATAA	MEWRIEMKYKKIIYIFFISLFIVGCQSEVSKANSVEEYIPSHLMNAEVTADIMTLEMDRDTRKKVEVITKKMSDHVKNDKEWYINYISGHIDKQVKPYHPNFGITEEEYNFFRNAVENSSLSNTSDGKLRFKQKSNHEIEIVSSRNLELFQHLVIDTEKNIIKTSFGECQYVGEIKPSSEKRILGRVNGKQWMLQKENLIYLFSLGKLEGEDKSVMVISVKGIHEGKLISNEEVVEFRSIS				NA	NA	NA	NA	NA
AK009_07144	1197	nupC_6	COG1972	Nucleoside permease NupC	ATGCAATATGTAATGAGCATTATCGGTATTCTTGCCGTGTTAGGTTTATGTTTTGCTTTGTCAAACAACAAAAGTAAAATCAACTTCCGTGCAATTGCAATTATGATTGGTTTCCAAATTTTAATCGGTTGGTTTATGTTTGCTACAAAGATTGGTCAACAAATCATTATTTTCATTAGTAAAGTTTTCAACAAACTAATTAAACTTGGTACGACAGGTGTCGATTTTCTCTTTAATGGAATTCACAGAGATTTTGTCTTTTTCTTAAACGTATTATTAATTATCGTATTTTTCTCAGCACTACTTTCAATCTTTAGTTATTTAGGTGTTTTACCATTCATCGTTCGTGTTGTCGGCGGTGCAATTTCAAAAATTACTGGTTTGCCGCGCGTTGAGTCATTCCACGCAGTAAACTCTGTATTCTTCGGTTCAAGTGAAGCGTTAATCGTCATTAAAAACGATTTACAGCATTTCAATAAAAATCGTATGTTTATCATTTGTTGTTCTGCGATGAGCTCCGTTTCTGCTTCTGTTACAGCATCATACGTAATGATGTTAGATGCAAAATACGTACTAGCAGCTCTTCCGCTAAACTTATTCTCAAGCTTAATCGTTTGTTCGTTATTAACACCAGTTGATACGAAAAAAGAAGATGAAGTGATTCAAAAATTTGATAGAACTCTATTCGGAGACAGCTTTATCGGCGCAATGATTAACGGTGCGCTTGATGGTTTAAAAGTAGCTGGTATCGTTGCCGCATTAATGATCGCCTTTATCGGTGTGATGGAAGTTGTAAACTACGTAATTAGTGCAGCTTCAGGCGCAATGGGACATGCTGTTACTTTACAACAAATCTTCGGTTACGTACTTTCTCCATTCGCATTCTTAATGGGTATTCCAACTCAAGATATTATCCCAGCTGGTGGTATTATGGGTACGAAGATTGTTTTAAACGAGTTTGTAGCAATCCTTGATTTAAAAGACACAGCTACAACATTAGCTCCACGTACAGTTGGAATCGTTACAGTATTCTTAATTAGCTTCGCAAGTATTAGCCAAATTGGTGCAATCGTTGGTACAATCCGTGCCCTTTCTGAAAAACAAGGAAGCGTTGTTTCTAAATTTGGTTGGAAAATGCTATTTGCATCAACACTTGCTTCTATTTTATCTGCAACAATCGCTGGATTGTTTATTTAA	MQYVMSIIGILAVLGLCFALSNNKSKINFRAIAIMIGFQILIGWFMFATKIGQQIIIFISKVFNKLIKLGTTGVDFLFNGIHRDFVFFLNVLLIIVFFSALLSIFSYLGVLPFIVRVVGGAISKITGLPRVESFHAVNSVFFGSSEALIVIKNDLQHFNKNRMFIICCSAMSSVSASVTASYVMMLDAKYVLAALPLNLFSSLIVCSLLTPVDTKKEDEVIQKFDRTLFGDSFIGAMINGALDGLKVAGIVAALMIAFIGVMEVVNYVISAASGAMGHAVTLQQIFGYVLSPFAFLMGIPTQDIIPAGGIMGTKIVLNEFVAILDLKDTATTLAPRTVGIVTVFLISFASISQIGAIVGTIRALSEKQGSVVSKFGWKMLFASTLASILSATIAGLFI	PGPT0021065_208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK009_07146	1377	rlmCD_2	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGAGTACTAAAATGACGCCACCAGTTGAGAAAAACGAGTTTATAGATGTAGTATTTGAAGATTTAACACATGATGGTGCCGGTGTTGCGAAAGTAAAGGGCTATCCTATTTTCGTTAAAAACGGATTACCAGGTGAAGAAGCGCAAATTAAAATTATTAAAGTGAAGAAAAACTTTGCATTTGGTCGTTTAATGAAGCTTCATACAGAAAGTCCATATCGTAAAGATGCTGAATGCCCAGTATATAATCAGTGCGGCGGTTGTCAGCTTCAGCACTTAACTTATGAAGGACAATTACAAGCGAAAGAAAAACAAGTACGTGACGTTATGCAGCGTATCGGAGGACTAGGTGATGTTCCTGTTCATCCTGTACTTGGCATGAAGAACCCGTGGGTATACCGCAATAAAGCACAAGTACCAATCGGAGAACGTGAAGGTGGGCTTGTAGCTGGTTTCTATCGCCAAGGAACGCATGACATCATTAATATGGAATCATGCTTAATTCAGGCAGAAGAAAACGATACATTAATTCAAGAAGTAAAACGTATTTGTGAAAAGCACGGTATCACTGCGTATAACGAAGAGCGTAACAAAGGAACACTTCGTCACGTAATGGCTCGTTACGGACAAGTAACAGGGGAAATTATGCTTGTCTTCATTACGCGTACAGCGGAATTGCCAAACAAAAAAGCAATCGTTGAAGAAATTGCAGCGAAATTCCCAGAAGTAAAATCAATCGTTCAAAACGTAAATACGAAGCGTACAAACGTAATTTTCGGAGATAAAACGACAGTACTGTACGGATCAGAATATATTTATGACTTTATCGGTGACATTAAATTTGCGATTTCAGCACGTTCATTCTATCAAGTAAACCCAGAACAAACGAAAGTGCTATACGATAAAACGTTAGAATACGCAAAATTAAATGGTAACGAAACAGTAATTGATGCCTATTGCGGAATCGGATCAATCTCGTTATTCCTAGCGCAAAAAGCGAAAAAAGTGTACGGCGTTGAAATCGTCCCAGAAGCAATCGAAGACGCAAACCGAAACGCAGCACTAAACAACATGACAAACGCTGAATTTGGCGTAGGAGAAGCAGAAGTAGTCATTCCAAAATGGTACAAAGAAGGCGTAATCGCCGACACAATGGTCGTAGATCCACCGCGTAAAGGCTGTGACGAAGCATTACTAAACACAATCATCGACATGAAGCCAAACCGCGTCGTATACGTATCGTGTAACCCAGCAACATTAGCACGTGACTTAAAAGTACTAGAAGAAGGCGGATATAAAACACAGGAAGTACAGCCTGTTGATATGTTCCCGCATACGACTCATGTGGAGTGTGTGGCTTGGCTTAAGTTAGTATAA	MSTKMTPPVEKNEFIDVVFEDLTHDGAGVAKVKGYPIFVKNGLPGEEAQIKIIKVKKNFAFGRLMKLHTESPYRKDAECPVYNQCGGCQLQHLTYEGQLQAKEKQVRDVMQRIGGLGDVPVHPVLGMKNPWVYRNKAQVPIGEREGGLVAGFYRQGTHDIINMESCLIQAEENDTLIQEVKRICEKHGITAYNEERNKGTLRHVMARYGQVTGEIMLVFITRTAELPNKKAIVEEIAAKFPEVKSIVQNVNTKRTNVIFGDKTTVLYGSEYIYDFIGDIKFAISARSFYQVNPEQTKVLYDKTLEYAKLNGNETVIDAYCGIGSISLFLAQKAKKVYGVEIVPEAIEDANRNAALNNMTNAEFGVGEAEVVIPKWYKEGVIADTMVVDPPRKGCDEALLNTIIDMKPNRVVYVSCNPATLARDLKVLEEGGYKTQEVQPVDMFPHTTHVECVAWLKLV				NA	NA	NA	NA	NA
AK009_07147	990	dus		putative tRNA-dihydrouridine synthase	ATGATAGATAATTTTTGGCGTGAATTACCACGACCATTTTTCGTACTTGCACCAATGGAAGATGTGACAGACGTTGTTTTCCGTCACGTAGTAAGTGAGGCTGGTCGTCCAGATGTATTCTTTACAGAGTTCACAAACTCAGATAGCTATTGTCATCCAGAAGGTATGAAAAGTGTACGTGGTCGTTTAATTTTTACAGAAGATGAACAGCCAATGGTGGCACATATTTGGGGAGATAATCCTGAATATTTCCGTCAAATGAGTATTGGTATGGCAGAGTTAGGATTTAAAGGCATTGATATTAATATGGGCTGCCCTGTACCGAATGTAGCATCAAGAGGAAAAGGTAGTGGTCTTATTCTACGTCCAGACGTTGCAGCAGAACTTATCCAAGCAGCAAAAGCGGGCGGACTACCTGTCAGCGTAAAAACAAGACTTGGCTTTAAAGAGTTAAGCGAGTGGGAAGATTGGTTAACGCACATTTTCAAACAAGATATTGCGAACCTTTCTATTCATTTACGCACAAGAGAAGAAATGAGCCAAGTAGATGCGCATTGGGAACTAATTCCGGAAATTAAAAAATTACGTGACCGTATCGCACCAAATACGTTAATAACAATCAATGGAGACATCCTTGATCGTAAAATGGGACTGGAACTTGCTGAAAAATACGGCATTGATGGCGTAATGATCGGACGAGGCATCTTCAAAAATCCATTTGCTTTTGAAAAAGAGCCAAGAGAGCATAGCAGTAAAGAACATCTAGATCTTTTAAGACTACAACTTGATCTTCAAGATCAATATGCAGAAGTACTGCCACGCTCAATCACAGGACTTCACCGCTTCTTCAAAATTTATGTGAAGGGCTTCCCAGGAGCTGCGGAATTGAGAAATCAATTGATGAGTACGAAATCGACCAATGAGGTGCGTGCTTTGTTGGATAAGTTTGAGGATAGTGTTGGTGTTGCTCAGGATAGTGAGACGGTTTAA	MIDNFWRELPRPFFVLAPMEDVTDVVFRHVVSEAGRPDVFFTEFTNSDSYCHPEGMKSVRGRLIFTEDEQPMVAHIWGDNPEYFRQMSIGMAELGFKGIDINMGCPVPNVASRGKGSGLILRPDVAAELIQAAKAGGLPVSVKTRLGFKELSEWEDWLTHIFKQDIANLSIHLRTREEMSQVDAHWELIPEIKKLRDRIAPNTLITINGDILDRKMGLELAEKYGIDGVMIGRGIFKNPFAFEKEPREHSSKEHLDLLRLQLDLQDQYAEVLPRSITGLHRFFKIYVKGFPGAAELRNQLMSTKSTNEVRALLDKFEDSVGVAQDSETV				NA	NA	NA	NA	NA
AK009_07148	519			hypothetical protein	ATGGCAATGAGCAACAACGATATATTAAAAAGAGTACGATACGCTTTAGATATAAGAGATATAGATATGGTGGAAATCTTTAAACTCGGCGGGATGGAAGTAACGAAAGAAGACGTAGTTGATATGCTTACAAAAATAAAGAGAGCTCCTCAGCATGAAGCCGAAGATGCGGATGTAATCGAAGATGAGTACGTAAAAACATGCGATATGATGATGTTAGAGGCATTTTTCAATGGATTTATTACTTTAAAAAGAGGAAAGCAAGATCCGAAACCAGGGCAGCCTGCACCTGTACAGAGTAAGGAGAGTGCCAATAACCTTCTTCTAAAGAAAATGAAAATCGCACTATCTTTAACGAGTGAGGATGTACTTGATATATTAGATAGCGTAGGCGTTACGGTAACAAAAGGAGAGTTAGGCGCTCTATTAAGAAAAAAAGGTCATAAAAATTACAAAGAGTGCGGCGATAGATACGCAAGGAATTTCATTAAGGGATTAGGTGTAAAGTATAGAGGATAA	MAMSNNDILKRVRYALDIRDIDMVEIFKLGGMEVTKEDVVDMLTKIKRAPQHEAEDADVIEDEYVKTCDMMMLEAFFNGFITLKRGKQDPKPGQPAPVQSKESANNLLLKKMKIALSLTSEDVLDILDSVGVTVTKGELGALLRKKGHKNYKECGDRYARNFIKGLGVKYRG				NA	NA	NA	NA	NA
AK009_07149	708			hypothetical protein	ATGGTACATACATATTTAGGTGAGACAATTAATTTTCATATAACTTATAAGAAGAAAAAGTCCGTGCGTCTTTTTGTAGATTCGTATGGAAATGTGGAAGTGCAGGCTCCGAAAGGGACACCTGTTGAATACTTAGTCCAGTTGCTAGAGGAGAAGTGGGATTGGATTCAGACAACTCGTAAGGAAATGGCGGAGCGAGCGCATGGACCACAGGAAAAGGATTATGATCAAGGAGAGGGCTTTTTGTATTTAGGGAATACGTATCCGATACAGATTTCCCAAGATGCAAGCATTGAGCAAGACAACGCAGTATTTGAAGGGGATAAGTTACATATTTATGTGAAAGAGCTTAAGGATGAGAAAATACAACAAGCTTTAAAACGATTTTACTATAAGCAGTGTAAATCTTTAGTAGAGAAGAGTATTAAAGCGCATCAAAGTAATTTCAAAACAAAACCACGTTCTATTCGTATTACAGATAGTAGTCGTACTTGGGGTACTTGCGATTCGAATTTACAACTAACATTCAATTGGAAGCTAGCAATGGCACCACAGCGAGTAATTGACTATGTAGTCGTTCATGAAATGTGTCATATGGTTCATTTAAATCATGATCGCTCTTTTTGGCGTCTTGTCGGGAAGATAATGCCTGATTATAAGGAAATGGAGAACTGGTTAGCTTTATCTAGTTGGAAGATGACGGTTTAG	MVHTYLGETINFHITYKKKKSVRLFVDSYGNVEVQAPKGTPVEYLVQLLEEKWDWIQTTRKEMAERAHGPQEKDYDQGEGFLYLGNTYPIQISQDASIEQDNAVFEGDKLHIYVKELKDEKIQQALKRFYYKQCKSLVEKSIKAHQSNFKTKPRSIRITDSSRTWGTCDSNLQLTFNWKLAMAPQRVIDYVVVHEMCHMVHLNHDRSFWRLVGKIMPDYKEMENWLALSSWKMTV				NA	NA	NA	NA	NA
AK009_07150	192			hypothetical protein	GTGGCATCTCCTCTTTTCGATTTGTTGAACAATCCTGTAGTAAATGAAATTATATCAACGATTTTTCGAATATATCTATCAAAACTTACAATATATCAACGATTTTTAAAATATATCTATCAAAACTTACAATATATCAACGATTCGACAAGAAATATCGATTTACCGACAAAAATTGATATCCCTTCCTAA	MASPLFDLLNNPVVNEIISTIFRIYLSKLTIYQRFLKYIYQNLQYINDSTRNIDLPTKIDIPS				NA	NA	NA	NA	NA
AK009_07151	696			hypothetical protein	ATGACGGTTCTATACGAAGGAACATTAAAACAAAATAACGAATCATTTCACGTTACATTACTATCACTAGAGCACATCGAACAAATTTTATCACTACAAAACATTGTAGTTGAAGCACTAGAAGATAAAAGTCGTTTACAACCACTCTCACAAGAAGAATTTCAATACATTCTAAAAGGAAACGGCATGATGATCGGTGCTTTTATCGAAAACGAACTCATCGCATTTCGCGCTCTACTCGTCCCGCCTATCGATGATGAACATTTAGGGCTTGATATTGGTTTGCCAGAAAGTGAACTACACCGCGTCATCTATCAAGAAATCTCAAACGTTCATCCGAACTGCCGAGGAAATGGTATGCAAAAAATATTAGCAAACATCATCATGGACGAATTGCAAAAAGAAGATAGCAAATATGATTATGTATGCTGCACCGTTGCTCCTTTTAACATCCCGAGTTTGAAGGATAAATTTGCGCAAGGGATGGAGATTGCTGTGTTGAAGGAAAAGTATGGTGGTAGTCTGCGGTATGTTTTTGTGAAGAAATTGCGCGGAGATAATGAAAGAGATTGGACGGATGTTCAAAGTATTCTAATGAGTGATGCTAGTGGACAGCAGGCTTTGCTTTCGGAGGGGTATCGTGGGTATGAGATGGAGAAAGTTGATGAAGAATTTGTTGTGAAGTTTGGACGATAA	MTVLYEGTLKQNNESFHVTLLSLEHIEQILSLQNIVVEALEDKSRLQPLSQEEFQYILKGNGMMIGAFIENELIAFRALLVPPIDDEHLGLDIGLPESELHRVIYQEISNVHPNCRGNGMQKILANIIMDELQKEDSKYDYVCCTVAPFNIPSLKDKFAQGMEIAVLKEKYGGSLRYVFVKKLRGDNERDWTDVQSILMSDASGQQALLSEGYRGYEMEKVDEEFVVKFGR				NA	NA	NA	NA	NA
AK009_07152	1110		COG4948	N-succinyl-L-Arg/Lys racemase	ATGAAAATTACAGCTATTCATCTTTACGCAATTCGTTTACCGCTTCGCAGTCCGTTTGTTATTAGTTATGGCTCTTATTCTGATATGCCCTCTATTATCGTCAAAATGGAAACAGATGAAGGTATTATCGGTTACGGTGAAGGCGTTGCTGATGATCACGTCACAGGTGAATCATGGGAAAGTACTTTCCATACTTTAAAACATACGCTAACCCCTGCTCTAATCGGGAAAAATCCAATGAATATCGAAAAAATACACGACATGATGGACAATACAATTTACGGTGTTCCAACAGCGAAAGCCGCAATTGATATTGCTTGTTTTGATATAATGGGCAAAAAACTAAATCAACCTGTATATCAATTAATTGGTGGGCGCTATCATGAAGAATTCCCTGTCACTCACGTTTTAAGTATTGCCGATCCTGAAGATATGGCTGAAGAAGCTGCTTCTATGATTCAAAAAGGTTACCAATCTTTCAAAATGAAAGTTGGTACGAATGTAAAAGAAGATGTGAAACGTATTGAAGCTGTACGAGAACGTGTAGGAAATGACATCGCTATTCGCATTGATGTAAACCAAGGCTGGAAAAATAGCGCGAACACATTAACAGCACTGCGTTCATTAGGACATTTAAACATTGACTGGATTGAACAACCTGTTATCGCGGACGATATTGATGCCATGGCTCATATTCGTTCTAAAACAGATCTCCCGCTTATGATTGATGAAGGACTAAAAAGTTCTCGTGAAATGCGCCAAATTATTAAATTAGAAGCTGCCGATAAAGTGAATATAAAACTAATGAAATGCGGCGGCATATATCCAGCTGTAAAGCTCGCTCATCAAGCTGAAATGGCCGGCATTGAATGCCAAGTGGGATCAATGGTCGAATCCTCTGTTGCCTCTTCCGCAGGATTCCATGTCGCTTTCTCAAAGAAAATCATTACGAGCGTAGAGCTAACAGGACCATTAAAATTCACGAAAGACATTGGAAACTTACATTACGATGTACCATTCATTCGCTTAAACGAAAAGCCGGGACTCGGCATTGAAATAAACGAAGATACACTACAAGAACTAACCGTCTTTCAAGACGTTGTACGCTAA	MKITAIHLYAIRLPLRSPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGKNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPEDMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRIDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDVVR	PGPT0020045_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
AK009_07153	1272			hypothetical protein	ATGATGATAAAAATTGCAGTTGTCGGTTCAAAGGAGTTTATGGAGAACCTTTTTCCTATTGCTCAAAAATTAGAAGGAATAGAAATTGATTCCTATATTTACCTTCATCCGGCAGAATCTTCTGAACTATTAAAGTGTCTAAAGCCTTGTGATGTCATCTTTTTCTCAGGTGCTTTACCTTATTATATGGCAAAAGAAGTAAGAGAACAATTACGAATTCCAAGTACATACTTACAGCAAGACGAGACAACTGTCGCATCTTCCATTCTTTCTATCATGTATCATCAAAGTATTCAACCACATAACATTTCCATCGATTTAGTAGACCGCTCGTTTATTACAAATGTGTTCCATGATATCGGTATAAAAGAAAGTCCGCAAGTGTTGGATTATGAAAATATGCTGTGGAGTAAAGATGAAATAAATAGAGTTATCGATTTTCATGTAGCTAAATATCAATCTGGAGAAGCTCATTTAGCTTTAACTAGTATTCACGCTGTTTACGACGAGCTTCAAAAAATGGGTGTTCCTTCAGAGCGTATGATTGATCCAACACAATCCATTATACATGGGCTAAAAGATGCAAAAATAAAAGCTGAGTTAGCAAAAAGCTATTCAGCTACTGTTGGTACTTGTATTATTTCGTCCTTAGAATTACGAACGAGTTTGCTTGAAAAACTAGATGTCATTTCAAAAGAACTACGTGGTTCATTTAAACAAGTGGATGAAATGACATGCATTTTGTATACAACTCGTGGTGATATCGAATCAATTATTAAAACAAATGCGATAGATAACTTGTTTGCGAGTGTAGAAGGAACGATAGCTATTGGATTTGGTTATGGAAAAACCGTGAAAGAAGCGGAGCAAAATGCAAAAATTGCTCAAAGTTTTGCAAAGAATAATCCAATAGATCGTTGTTTTTATATACTAACAAGTGATAAAGATTTGTTTGGTCCATTCCCGAAAGAACAGAGAGTACAAAGTTTGAAAAATGATAATCCGGAACTAATGAAAATAGCGAAGGAAACGAAGCTTAGTCCGGCCAACTTGTCAAAAATTATTCAATTTAGTCAATCGCATCCGTCATTGAAATTTACAGCAGCTGACCTTTCTGAGTACTTACAAGTGACTCGAAGATCGACAGAAAGGTTGTTAAAGAAATTAGTTGATTACGGGTATGCTCATATTTGCGGCGAGGAAATGCCCTATCAACAAGGGCGACCTCGCGCACTATATGAACTGAATTTACCGCTATTTTTAAGCTTCTAG	MMIKIAVVGSKEFMENLFPIAQKLEGIEIDSYIYLHPAESSELLKCLKPCDVIFFSGALPYYMAKEVREQLRIPSTYLQQDETTVASSILSIMYHQSIQPHNISIDLVDRSFITNVFHDIGIKESPQVLDYENMLWSKDEINRVIDFHVAKYQSGEAHLALTSIHAVYDELQKMGVPSERMIDPTQSIIHGLKDAKIKAELAKSYSATVGTCIISSLELRTSLLEKLDVISKELRGSFKQVDEMTCILYTTRGDIESIIKTNAIDNLFASVEGTIAIGFGYGKTVKEAEQNAKIAQSFAKNNPIDRCFYILTSDKDLFGPFPKEQRVQSLKNDNPELMKIAKETKLSPANLSKIIQFSQSHPSLKFTAADLSEYLQVTRRSTERLLKKLVDYGYAHICGEEMPYQQGRPRALYELNLPLFLSF				NA	NA	NA	NA	NA
AK009_07154	1422	mleN_2	COG1757	Malate-2H(+)/Na(+)-lactate antiporter	ATGAAAAAAGAAATACCTTTTGGAATAGCAATTATCCCTATTATCATTACCGTTGCAGTTATGATGGTTACAATTGTTGTATTAAAACAAAGCCCTCACGTTCCACTTATTATCGGTACAACCGTTGCTTCTATTGTCGCTTGGCGTTACGGTTACAAATGGAATGATCTTGAAGAAGCAATGTATAAAGGGATTCGTCTTGCATTACCCGCTATCGTCATTATTATTCTTGTTGGCTTAACAATTGGTGCTTGGATTGGCGGTGGAATCGTCGCAACGATGATTTATTACGGTTTAAAACTTTTAACTCCATCACTATTTTTAGTTTCCATTACTGTCATTTGTTCTATCGTTGCATTAGCGATTGGTAGCTCTTGGTCTACAATGGGTACAATTGGTGTTGCTGGAATGGGAATTGGCCTAAGTATGGGAATTCCAGCTCCAATGGTTGCTGGTGCCATTATTTCAGGCTCTTATTTTGGCGATAAAATGTCACCGCTTTCAGATACAACTAACTTAGCCGCAGGATTAACAAATACAGATTTATTCGCACACATTCGTCATATGTTATTTACTACAGTTCCCGGTTTAATTATTACTCTTATCGTATACGCGGTCTTAGGAAGAAGCTTCGGCGCTAACAATATTGATGCGAAGAGCATCGATCAAACGTTACAAGTATTGCAACAAAACTTTGTTATCTCGCCTTTCCTACTCATTATACCCGTAGTCGTTATGGTATTGGTCGCTAAAAAAGTCCCTGCTATACCAGCGATTCTCGTCGGTATTATTTTAGGATTCTTATCACAAGTCTTTATTCAAGGTGGTTCTGTCTCAGCATCTGTCGGTGCACTCCAAGCTGGATTTGTTATAGACACTGGAAACAAGCTAGTAGACGAACTATTTAACCGCGGTGGCTTAGATTCGATGATGAATACAGTCTCTATGACAATTGTCGCTATGACTTTCGGAGGAGTATTAGAACATACAGGTATTCTTCGCTCAATTGTAAATCAAATTTTAAAGTTAGCGAAATCAGCAAAAGGGCTTATCGCTTCTACTATCGCATCTTGTTTTGCAACAAACCTTACTTGCTCTGAACAATATATTTCAATTGTTGTCCCTTCAAGAATGTACGCAAATGCATACACGGAAAAAGGACTACATTCAAAAAACTTATCCAGAGCATTAGAAGATGGTGGAACATTAACTTCTGTCTTCGTTCCTTGGAATACGTGCGGTGTATTTATTCTCGCAACACTTGGCGTAGGTGCATTTGAATATGCTCCTTATGCTATTTTGAATTTCATCGTACCTATTATCTCAATCATTTATGGTATAACAGGCTTCACAATTGTAAAACTATCAGACATTGAAAAAGCAGAACTACTAAAGAAACAAAAAGCTCAACTAGAAGCTTAA	MKKEIPFGIAIIPIIITVAVMMVTIVVLKQSPHVPLIIGTTVASIVAWRYGYKWNDLEEAMYKGIRLALPAIVIIILVGLTIGAWIGGGIVATMIYYGLKLLTPSLFLVSITVICSIVALAIGSSWSTMGTIGVAGMGIGLSMGIPAPMVAGAIISGSYFGDKMSPLSDTTNLAAGLTNTDLFAHIRHMLFTTVPGLIITLIVYAVLGRSFGANNIDAKSIDQTLQVLQQNFVISPFLLIIPVVVMVLVAKKVPAIPAILVGIILGFLSQVFIQGGSVSASVGALQAGFVIDTGNKLVDELFNRGGLDSMMNTVSMTIVAMTFGGVLEHTGILRSIVNQILKLAKSAKGLIASTIASCFATNLTCSEQYISIVVPSRMYANAYTEKGLHSKNLSRALEDGGTLTSVFVPWNTCGVFILATLGVGAFEYAPYAILNFIVPIISIIYGITGFTIVKLSDIEKAELLKKQKAQLEA	PGPT0013945_813	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
AK009_07155	1116	scmP_2	COG1473	N-acetylcysteine deacetylase	TTGAAAACATTAGAACTACAAGAGCGCTTAACGGAGATTTTTCAGCATTTACACGAAAACCCTGAAGTAAGTTGGAAAGAATATGAAACGACAGCGTATATTACTGACTTTTTAAAAGAAGAAGGAATTTCATATAGAACATTTGATGATTGTCCAGGTGTAATTGCTGAGATTGGAGGCGGGAATCCAGTTATTGCGATTCGTGCTGATATGGATGCACTTTGGCAAGAAGTAGATGGAGAATTTAAAGCGAACCATTCATGTGGTCATGATGCTCATATGACCATTGTAATGGGAGTTATTTTACAATTGAAAAATATGAGATGGAAAAGTGGTACGGTTAGGTTTATTTTTCAGCCGGCAGAAGAGAAGGGTAATGGTGCTTTGAAGATGGTGGAGAAAGGTGCTGTAGATGATGCTGATTTCTTATTTGGTGTCCATCTAAGACCGATTGAAGAACTATCTTTGAAACAAGGAGCCTCATCTATTCGCCATGGAGCAGCTGGATTTTTAGAGGGGATGATTCATGGGGAGGATGCACACGGGGCGAGACCACACCAAGGTGTGAATGCAATTGATGTCATTTCCATGATTAATATCGGTTTGAAAAATATTTGGTTGCCACCGCAAAGTTCCTATTCAGTAAAAATGACGAGATGCCAAGCTGGTGGCGATAATTTAAATATCATTCCGGGAAATGGTCATTTCAGTTTAGATGTAAGAGCAGAGAGTAATATACTATTAGAAGAATTAAAGGAAAAGATTGAGCATGTAATAGAATCAGCTGCATCGATGGGGTCGAAAACTTCATATGAATGGATGGATCTTGCACCAGGAGCAGAGGTTTCCGAAGAAGCAGAGCGCTTTATGCGTAAAGGTATTATCGAAGTGTATGGGGAAGAGAGATGTACGGGACCTCTCTATACGACAGGAAGCGATGATTTCCATTATTACACAGTGAAAAGACCACATTTAAAAGCTGTCATGCTTGGACTAGGAGCAGACCTACAACCTGGATTACACCATCCGTATATGAGGTTTGATCATAGTTGTATTATGGATGGAGTAGAAATATTGAAACAAACTGTATTGAAAGTGTTAGAAGACAGGGGCTAG	MKTLELQERLTEIFQHLHENPEVSWKEYETTAYITDFLKEEGISYRTFDDCPGVIAEIGGGNPVIAIRADMDALWQEVDGEFKANHSCGHDAHMTIVMGVILQLKNMRWKSGTVRFIFQPAEEKGNGALKMVEKGAVDDADFLFGVHLRPIEELSLKQGASSIRHGAAGFLEGMIHGEDAHGARPHQGVNAIDVISMINIGLKNIWLPPQSSYSVKMTRCQAGGDNLNIIPGNGHFSLDVRAESNILLEELKEKIEHVIESAASMGSKTSYEWMDLAPGAEVSEEAERFMRKGIIEVYGEERCTGPLYTTGSDDFHYYTVKRPHLKAVMLGLGADLQPGLHHPYMRFDHSCIMDGVEILKQTVLKVLEDRG	PGPT0013588_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013588-opuAC-NA	NA	NA
AK009_07156	606			hypothetical protein	ATGAACGAACAATATTACGATGCAGTTTTACATATAAAAACAGTCGGTGAGCAAAAGGGGTTTAACAAGTCTATGCATTATCACCGCTATGAACCGACGCCCTATAGCGGATTAGATGAGTTACTGAATCAATATGAAATACGAAGTAGCGACCGAATTGTAGACTTTGGGTGCGGAAAAGGAAGATTAAACTTTTATATGCATCATAAATGTGGTGCATCAGCAGTTGGAATTGAAATGAATGAAGAGTTTTATAAAGAAGCGATGGATAATCGAGATCGTTATGCACGAAAGACACGAAACAGTAAGGGGAAAATCCAGTTCCAATGTTGTTTAGCGCAGGAATATGAGATTGATCCGCATGATAATAGGTTTTATTTTTTTAATCCATTTTCTGTACAAGTGTTTATGAATGTAGTAAATAACATTTTGCTTTCGGTAGAAGAAACGGGGAGAGAAGTGGATATTATTTTATATTATCCTTCTGAGGACTATATTTTCTTCTTAGAAAATCAGACTGCGTTTGAGCTGAAGAAAGAAGTTAGATTGCCAGGTGCTTATGAGAAGAATGGGAATGAGAGGTTTTTAGTTTATACATTAAGGTAA	MNEQYYDAVLHIKTVGEQKGFNKSMHYHRYEPTPYSGLDELLNQYEIRSSDRIVDFGCGKGRLNFYMHHKCGASAVGIEMNEEFYKEAMDNRDRYARKTRNSKGKIQFQCCLAQEYEIDPHDNRFYFFNPFSVQVFMNVVNNILLSVEETGREVDIILYYPSEDYIFFLENQTAFELKKEVRLPGAYEKNGNERFLVYTLR				NA	NA	NA	NA	NA
AK009_07157	1527	ahpF		NADH dehydrogenase	ATGATACTAGATGCAGATATAAAAACACAACTATCCCAATACCTTCAGTTAATGGAGAACGATATTTTACTTAAAGTAAGCGCAGGAGACGATAACGTATCTAAAGATATGTTAGCTCTAGTAGACGAATTAGCTACTATGTCATCTAAGATTACAGTAGAAAAAGTTGAATTAGAGAGAACACCAAGCTTTAGCGTAAACCGCCCTGGTGAAGACACTGGTGTCGTATTCGCTGGTATTCCATTAGGACACGAATTTACATCATTAGTGTTAGCTTTACTACAAGTAAGTGGACGCGCTCCAAAAGTTGAACAGAAATTAATCGATCAAATTAAAAACATTCAAGGCGAATATCATTTTGAATCTTATATCAGCCTAAGTTGTCATAACTGTCCTGATGTTGTACAAGCTCTTAACGTAATGAGCGTTCTTAACTCTAGTATTACACATACTATGATTGATGGCGCTGCATTCAAAGAGGAAGTAGAAAGCAAAGACATCATGGCAGTACCAACTGTTTACCTAAACGGCGAATCTTTCGGAAGCGGTCGTATGACACTTGAAGAAATTTTAGCTAAAATGGGTAACGGTCCAGATGCATCAGAGCTTTCTGATAAAGATCCATACGATGTTCTTGTTGTTGGTGGCGGCCCTGCTGGTGCAAGTGCAGCAATTTACGCAGCACGTAAAGGCATCCGCACTGGTATCGTTGCTGAGCGCTTCGGTGGTCAAGTAATGGATACTATGGGCATTGAGAACTTCATCAGCGTAAAAAAGACTGAAGGTCCTAAGCTAGTAGCAAGTCTTGAAGAGCACGTAAAAGAATACGATATCGATGTAATGAATCTACAACGTGCGAAACGTTTAGAGAAAAAAGAACTTATTGAAGTGGAACTTGAAAACGGCGCTATTCTGAAAAGTAAGAGCGTAATCGTTTCAACAGGTGCTCGCTGGCGTAACGTTGGCGTACCGGGTGAAGCTGAGTTCAAAAATAAAGGTGTAGCATACTGCCCACACTGTGACGGTCCATTATTCACTGGAAAAGACGTAGCAGTTATCGGCGGAGGTAACTCTGGTATTGAAGCAGCTATCGACTTAGCAGGTATTGTTAAGCACGTAACTGTTCTTGAATTCATGCCAGAATTAAAAGCTGATGCTGTATTACAAGAGCGTCTTAACAGCTTACCAAACGTAACTGTTCTGAAAAACGTTCAAACGAAAGAAATTACTGGTACTGATAAAGTAAACGGTATTTCTTACATCGATCGTGAAACTGAAGAAGTTCATCACGTTGAATTACAAGGTGTATTCGTACAAATCGGTCTTGTGCCAAACACAGACTGGTTAGGCGAAACAGTTGAACGCGCTCGCGGTGAAATCGTAACAGACAAGCACGGCGCTACAAACGTACCAGGAGTGTTTGCTGCAGGTGACTGTACAAATAATCCGTACAAACAAATCATCATCTCTATGGGTTCAGGTGCAAACGCAGCTTTAGGTGCATTTGATTACTTAATTCGTAACTAA	MILDADIKTQLSQYLQLMENDILLKVSAGDDNVSKDMLALVDELATMSSKITVEKVELERTPSFSVNRPGEDTGVVFAGIPLGHEFTSLVLALLQVSGRAPKVEQKLIDQIKNIQGEYHFESYISLSCHNCPDVVQALNVMSVLNSSITHTMIDGAAFKEEVESKDIMAVPTVYLNGESFGSGRMTLEEILAKMGNGPDASELSDKDPYDVLVVGGGPAGASAAIYAARKGIRTGIVAERFGGQVMDTMGIENFISVKKTEGPKLVASLEEHVKEYDIDVMNLQRAKRLEKKELIEVELENGAILKSKSVIVSTGARWRNVGVPGEAEFKNKGVAYCPHCDGPLFTGKDVAVIGGGNSGIEAAIDLAGIVKHVTVLEFMPELKADAVLQERLNSLPNVTVLKNVQTKEITGTDKVNGISYIDRETEEVHHVELQGVFVQIGLVPNTDWLGETVERARGEIVTDKHGATNVPGVFAAGDCTNNPYKQIIISMGSGANAALGAFDYLIRN	PGPT0013150_1440	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
AK009_07158	564	ahpC	COG0450	Alkyl hydroperoxide reductase C	ATGTTATTAATCGGCACAGAAGTAAAACCGTTTAAAGCTAATGCTTACCATAATGGAGAATTTATCCAAGTTACTGACGAAAGTTTAAAAGGAAAATGGAGTGTAGTTTGTTTCTACCCAGCTGACTTCACATTCGTTTGCCCAACTGAACTTGAAGACTTACAAAACCAATATGCAACTCTAAAAGACTTAGGCGTTGAAGTATACTCTGTATCTACAGACACTCACTTCACTCACAAAGCATGGCATGATAGCTCAGAAACTATCGGCAAAATCGAGTACATCATGATCGGTGACCCAACTCGAACAATCACTACAAACTTCAACGTTTTAATGGAAGAAGAAGGTCTTGCTGCTCGTGGTACATTCATCATCGATCCAGACGGCGTTATCCAATCTATGGAAATCAATGCTGACGGTATCGGCCGTGACGCAAGCATTCTTGTTAACAAAATTAAAGCTGCTCAATACGTACGTAACAACCCAGGTGAAGTTTGCCCAGCTAAATGGCAAGAGGGTTCTGCAACACTTAAACCAAGCCTTGACCTTGTAGGCAAAATCTAA	MLLIGTEVKPFKANAYHNGEFIQVTDESLKGKWSVVCFYPADFTFVCPTELEDLQNQYATLKDLGVEVYSVSTDTHFTHKAWHDSSETIGKIEYIMIGDPTRTITTNFNVLMEEEGLAARGTFIIDPDGVIQSMEINADGIGRDASILVNKIKAAQYVRNNPGEVCPAKWQEGSATLKPSLDLVGKI	PGPT0003260_851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
AK009_07159	1230	drdK		5-deoxyribose kinase	ATGTCTAAGTTCACGAAGTATTTTTTAATGGAAGCTAAAGATGTGATTGCATATGTGAAAGAGAAATTGTCTAAGTTTGAACATGCAAAGGAGTTACAGTGTAAAGAAATAGGTGATGGCAATTTAAATTATGTGTTCCGCGTTTGGGATGAAAAAGAGAACATGTCAGTCATCGTAAAGCAAGCTGGGGATACAGCTCGCATTTCAGATGAGTTTAAGTTGTCGACAAAACGTATTCGTATAGAATCAGATGTTTTGCAGTTAGAGGATGAGTTAGCACCCGGACTTGTTCCTAAGGTGTATTTATTTGATAGTGTGATGAATTGTTGCGTAATGGAAGATTTATCGGATCACACAATATTACGTACAGCACTTATAAATCATCAAATATTTCCGAGGCTTGCGGATGATTTAACTACTTTTATGGTAAATACACTTTTATTAACATCGGATGTTGTAATGAATCATAAAGAGAAGAAGGAACTTGTGAAGAATTATATAAATCCTGAATTATGTGAGATTACAGAGGACCTCGTATATTCAGAACCATTTACCAATCATAATAAGCGTAATGAGTTATTTCCGTTAAATGAGGGATGGATTAGGGAACATATTTATAGTGATAAAGAGCTTCGTATGGAAGTAGCGAAACGTAAATTTTCTTTTATGACGAATGCACAGGCATTACTTCATGGTGATTTACATACTGGTTCTGTTTTTGTAAGAGATGATTCTACAAAGGTTATTGATCCTGAGTTTGCTTTTTATGGACCTATGGGATATGACGTTGGGAATGTAATGGCGAATTTAATGTTTGCTTGGGTGAATGCAGATGCAACGATGCCACCTGGAGCGGAGAAAGATACGTATATGGATTGGTTACAAACTACGATGGTAGAGGTAATTGATTTATTTAAGAAGAAGTTTTTAGATGCTTGGGATATTCATGTGACCGAGATTATGGCGAAGGAAGAAGGCTTTAGCGAAGTATATTTACAATCTGTATTAGAGGATACGGCTGCAGTGACAGGTCTGGAATTAATTCGCCGTATTGTTGGATTAGCGAAAGTAAAAGATATTACTTGTATTGAGAATGAGGAAGCACGTGCTAGAGCGGAGCGAATTTGTCTTCAAGTAGCGAAGAGTTTTATTTTACGAGCGAATCAATATAGAACGGGTGCACGTTTTGTAGAAACGTTAAAAGAACAGTCAATGCACTACGCGAAGTAA	MSKFTKYFLMEAKDVIAYVKEKLSKFEHAKELQCKEIGDGNLNYVFRVWDEKENMSVIVKQAGDTARISDEFKLSTKRIRIESDVLQLEDELAPGLVPKVYLFDSVMNCCVMEDLSDHTILRTALINHQIFPRLADDLTTFMVNTLLLTSDVVMNHKEKKELVKNYINPELCEITEDLVYSEPFTNHNKRNELFPLNEGWIREHIYSDKELRMEVAKRKFSFMTNAQALLHGDLHTGSVFVRDDSTKVIDPEFAFYGPMGYDVGNVMANLMFAWVNADATMPPGAEKDTYMDWLQTTMVEVIDLFKKKFLDAWDIHVTEIMAKEEGFSEVYLQSVLEDTAAVTGLELIRRIVGLAKVKDITCIENEEARARAERICLQVAKSFILRANQYRTGARFVETLKEQSMHYAK				NA	NA	NA	NA	NA
AK009_07160	1044	drdI		5-deoxyribose 1-phosphate isomerase	ATGGAAGAGCAATTAATACCCATTCAGTGGAAAGATGATGCTTTAGTTTTATTAGATCAAACATTATTACCGAATGAGGTTGTCTATGAATCTTTCAAGACAGCTGAAAGTGTGTGGGATGCCATTCAAGTAATGAAAGTACGAGGAGCACCAGCAATTGGTGTTTCGGCAGCGTACGGTGTGTATTTAGGAACAAAGGAAGTTATTCAAAGTAAGATGGAAGACTTTATAGAGGAAGTCAAAAAGGTATGTGCATATTTGGCAACATCAAGGCCAACAGCAGTAAACTTATTCTGGGCACTTGAAAGAATGGAAGCGGTAGCGACAGAGAACGCGCACTTATCAATCGTCCAGTTGAAAGACAGATTACTAGAAGAGGCAAAAGAGATTCATAGAGAAGATGAAGAAATTAATCGTCAAATTGGAGAGCATGCATTAACATTATTCCATGATGAAATGGGAGTATTAACACATTGCAATGCTGGTGCGTTAGCGACGACTAAGTATGGTACTGCGACAGCACCAATGTACTTAGCGAAAGAAAAAGGATGGGACTTAAAAATCTATTCAGATGAAACTCGTCCTAGGTTACAAGGTTCAACGTTAACAGCATTAGAACTACAGCGAGCGGGAATTGATGTTACTGTCATTACGGATAATATGGCAGCTATGGTCATGTCACAAGGAAAAATCGATGCTGTAATCGTTGGATGTGACCGCGTGGCAGCAAACGGTGATGTAGCAAATAAAATTGGCACATTAGGCGTATCTATTTTAGCTAAATACTACAACATTCCGTTTTATGTAGCAGCGCCAACACCAACAATCGACTTAAAAACACCGACAGGAAAAGAAATTCCGATTGAAGAAAGGGATGCTTCTGAAGTGATTAATCGTTTCGGACAATATTCAGCTCCGAAAGAAAGTAAAGTATATAATCCAGCATTTGATGTTACTCCATATGAAAATGTAACAGCGATTATTACAGAAAAAGGGATTGTAAAGGCACCGTTTACGGAGAATTTAAAAAAGCTATTTCAATAA	MEEQLIPIQWKDDALVLLDQTLLPNEVVYESFKTAESVWDAIQVMKVRGAPAIGVSAAYGVYLGTKEVIQSKMEDFIEEVKKVCAYLATSRPTAVNLFWALERMEAVATENAHLSIVQLKDRLLEEAKEIHREDEEINRQIGEHALTLFHDEMGVLTHCNAGALATTKYGTATAPMYLAKEKGWDLKIYSDETRPRLQGSTLTALELQRAGIDVTVITDNMAAMVMSQGKIDAVIVGCDRVAANGDVANKIGTLGVSILAKYYNIPFYVAAPTPTIDLKTPTGKEIPIEERDASEVINRFGQYSAPKESKVYNPAFDVTPYENVTAIITEKGIVKAPFTENLKKLFQ				NA	NA	NA	NA	NA
AK009_07161	642	drdA		5-deoxy-D-ribulose 1-phosphate aldolase	ATGTTATTACAAAAAGAAAGAGAAGAAATTGTAGCGTATGGAAAGAAAATGATCTCTAGTGGTTTAACAAAGGGGACTGGGGGTAATATTAGTATTTTCAATCGCGAACAAGGTCTTGTTGCGATTAGTCCAAGTGGTTTAGAGTATTATGAAACAAAACCTGAAGATGTAGTTATATTAAACTTAGATGGTGAAGTGGTAGAGGGAGAGAGAAAGCCATCAAGCGAACTAGATATGCATCTTATTTATTATAGAAATCGTGAAGATATAAATGCGCTTGTGCATACACATTCTCCTTACGCAAAGACGATTGCGTCATTAGGATGGGAGCTTCCTGCTGTTTCATATTTAATTGCTTTCGCAGGCCCGAATGTTCGCTGTGCACCGTATGAAACATTTGGTACGAAGCAATTAGCGGATGCTGCTTTTGAAGGCATGATTGATCGTCGTGCTGTGCTACTTGCAAATCACGGTTTAATTGCTGGTGCAAATAATATAAAAATGGCGTTTACTGTTGCAGAAGAGATTGAGTTTTGTGCTCAAATTTATTATCAAACGAAAAGCGTCGGAGAACCGAAGCTTTTGCCAGAAGATGAGATGGAGAATTTGGCGAAGAAGTTTGAAGGGTATGGGCAGCAGTAG	MLLQKEREEIVAYGKKMISSGLTKGTGGNISIFNREQGLVAISPSGLEYYETKPEDVVILNLDGEVVEGERKPSSELDMHLIYYRNREDINALVHTHSPYAKTIASLGWELPAVSYLIAFAGPNVRCAPYETFGTKQLADAAFEGMIDRRAVLLANHGLIAGANNIKMAFTVAEEIEFCAQIYYQTKSVGEPKLLPEDEMENLAKKFEGYGQQ	PGPT0017430_1492	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
AK009_07162	324			hypothetical protein	GTGGCCGGTAATCAACAGGCCGGACAGCGAAGCGAGCGACATGATGCCCAAGCCACCGAGCTGTATCAGCGCAAGGATGATCCCTTGACCCAGTGGTGTCCAGTAGGTACCGGTGTCCACCACAGTCAGCCCTGTCAGGGAGACTGCAGAAGTCGCGGTGAACAGAGACGGCAGAAACGGCGCCCACTGCGGACCCGCGGTGGAGAAGGGCATCATCAGCAGGAGGGTCCCGGTCAAGATGAGTGCGAGGAAGACCACGGCGGTGAGCCGCGCAGGCTCGAAGAGGCCGACAGGGCGGGATTTATCCACGAGCGAATATCTTAG	MAGNQQAGQRSERHDAQATELYQRKDDPLTQWCPVGTGVHHSQPCQGDCRSRGEQRRQKRRPLRTRGGEGHHQQEGPGQDECEEDHGGEPRRLEEADRAGFIHERIS				NA	NA	NA	NA	NA
AK009_07163	723			hypothetical protein	GTGGGTTTCGATCCGCCGAACGGCTTAAACATGTTAGCCAATGAAGGGCCTTTCCTCTGGGTACCGGAAGCGGCGACTGACGGCCGTGGCAGCCAGCGCCGCAATCAGTGTTGTCGGGCCGACGCGGCCCAGGTACATGATGAGACACAGGATAACCTGCGACGGTGCCGACAGCTCGGCGGTGATACCCGTCGACAGACCCACCGTGGCAAAGGCGGACATCACCTCAAACGACACCTCGTCGCCGCTGAACTGCGGATCGAAGATGCGCAGCGCGCCAATGCCGGCGGTGACCACCGCGACCCCGGCGAAGGCCAGCGCCAGCGACTGGCGCGTCACCGAGCGCGGCAGGGTGCGGTGACCGATCGAGGTGTCCTCGCGCCCGAGGAATTCGGCGGCCATCGCCGCAATGAGCACGCACGCGGTGGTCACCTTGACGCCGCCGGCGGTGCCGGCAGAACCGCCACCGATGAACATGAGAATGTCGGTACCCATCAGGGTGATCGGGTGTGCTTCGCCGTAGTCAAAGGTGTTGAACCCCGCCGTGCGCGACGTCGCCGAGGCGAAAAAGGCGTTGAGCACCCTCTGCCAGACGGGCATGTCGCCGAACACCCCATTCCACTCGGCAAACGCCATGAAGATCGCGCCGGTAAGAAGGAGGAACGCGGTGGCTGTCAGTGTCATGCGTGCCGTAATGGAAATACGGTGAACGCGAACTTGTGA	MGFDPPNGLNMLANEGPFLWVPEAATDGRGSQRRNQCCRADAAQVHDETQDNLRRCRQLGGDTRRQTHRGKGGHHLKRHLVAAELRIEDAQRANAGGDHRDPGEGQRQRLARHRARQGAVTDRGVLAPEEFGGHRRNEHARGGHLDAAGGAGRTATDEHENVGTHQGDRVCFAVVKGVEPRRARRRRGEKGVEHPLPDGHVAEHPIPLGKRHEDRAGKKEERGGCQCHACRNGNTVNANL				NA	NA	NA	NA	NA
AK009_07164	561			hypothetical protein	GTGCGTGCGCCAGACGTCGCCAAGCACGAGTGGGCGACCCACCAACGCGGCGGGCGGGGCCAACCGGGTAATGCCATAGTCGGGCGCAATCTCGGCGAAGTCGCGGAACCGGCCGCCGAGCAGGTGGGCGACACGGCGGCCGGTGTCGCGCTCGGGGCGAATCACGTGGTGCACGCCGATCTGGCGCAGGATGCGCTCGTGGGCCTCGGACGTTGCCTTCGCCCAGATGTCCTTGGTGCCCATCTCCATAAGGTTCGAGGCGGTGAGGATGGATGCCTCGAGGTGGCTGCCGATAGCCAACACGACGCGGTCGACGTCATCGACGCCCAGCTGGCGCAGCGCCTCGGGGTCGGTTGTGTCGGCGCACACCGCCTCAGTCAGATACGGGGCTTGTTCGCGAACCAACTTTTCGCTGGTGTCAATGCCGAGAACCTCTACGCCGTGAACCATCAATTCGTGCGCGAGAGACGCGCCGAAGCGACCCAACCCAATGACTACGACCGGGGGAATGTCAATCGTGGGTTTCGATCCGCCGAACGGCTTAAACATGTTAGCCAATGA	MRAPDVAKHEWATHQRGGRGQPGNAIVGRNLGEVAEPAAEQVGDTAAGVALGANHVVHADLAQDALVGLGRCLRPDVLGAHLHKVRGGEDGCLEVAADSQHDAVDVIDAQLAQRLGVGCVGAHRLSQIRGLFANQLFAGVNAENLYAVNHQFVRERRAEATQPNDYDRGNVNRGFRSAERLKHVSQ				NA	NA	NA	NA	NA
AK009_07165	525			hypothetical protein	GTGATCGTGCAGCAGCCCCACGACCTCGCGCACCGTCATCTCGGGGGTGACGTTCGGCACCTTCGGCGACATGCGCCGGCCCACAGTGCCCTTGCGGTAGCCGAGCACGACGCTGGTGACGCGCTGGTCGTCCTCGTCGAGTTGGCGCACGAGCCGCTCCGCGATCTCCACCGGCAAGTGATCGAGCAGCGCCACGCGGTCCTCTGCGCCGATTGCGCCGAAGTAGTTGACCACTTTGTCGTCGCCGAGCGCGCGGATGAGGTCGGCCTGGTGCGCCGCGGTGAGGGCGTCGAAAAGCGCGGCCGATCGCTCCGGCGGCAGCAACCGCAAAATCTTCGCCCCGCGCGAGGCGCTGGTGCGCCCGAGCAGGCTTGTCAGTTCCCGCAGGCTCAGGGTGGCGAGCTCGCTCTGCACCTCTTCGAGCTCTTCGAGGCTTGCTTCTCGACGCCCACTCAAACGCCGCTCCAGAGCCTTCACTTTGAAAACCTCTCGAGGTCGCCGGGGCTGCCAGCGGCGACGATGTAG	MIVQQPHDLAHRHLGGDVRHLRRHAPAHSALAVAEHDAGDALVVLVELAHEPLRDLHRQVIEQRHAVLCADCAEVVDHFVVAERADEVGLVRRGEGVEKRGRSLRRQQPQNLRPARGAGAPEQACQFPQAQGGELALHLFELFEACFSTPTQTPLQSLHFENLSRSPGLPAATM				NA	NA	NA	NA	NA
AK009_07166	210			hypothetical protein	GTGAGCTTCGTCGTAGGTGAAGATGCCGATCAGCCGGTTGTCGTCGTCGACCACGGGCACGGCGAGCCGGCCGGAGGAAAGCAGCCATCGCGCGGAGTCCTCCAGGTCGTCGCCGGCGTGGAACACGCTGGCGTCTTCCATCATCTCCGCGACGCGATCGTCATCGGCGGCCCGAAACAGCGAGCGCAGGCGCAGCACCCCACAGACTGA	MSFVVGEDADQPVVVVDHGHGEPAGGKQPSRGVLQVVAGVEHAGVFHHLRDAIVIGGPKQRAQAQHPTD				NA	NA	NA	NA	NA
AK009_07167	465			hypothetical protein	ATGAAGGGGTTGGAAAACACCGCCGGGTCCGCCCCCACCGCCTTGGCGGTGATCGGCATCATCCCGCCAACCGTGGCGGAGATGGTGCAGATGATTAACAGCGTCGAACCAATCACCGTTCCGATCCCCAGCCCGAAAAATGCTGTGGCCAGAAGGAAGCCCAGTGAGCCGAGGACGGCGCCGAGCAGCATGCCCACCCGCAGCTCCCGCCACAAGACGCTGAGGATGTCGCTCTTGCGGACGTCGTTAAGCGCAAGCGCCCTCGTCACCGTCGTTGCCGCCTGGTTGCCGGTGTTTCCGCCGGTGCCGGTGAGAAGCGGGATGAACAGAGAAAGCACGACGACCTGCTCCAGCGTCGCCTGGAAGATATCGAGCACCTGGACGGTGAGGATCGCCGACAGCGCGAGCACCAGCAGCCAGACGATTCGGCTGCGCACCAGGCGCAGCACAGGCGTGGACAGGTAG	MKGLENTAGSAPTALAVIGIIPPTVAEMVQMINSVEPITVPIPSPKNAVARRKPSEPRTAPSSMPTRSSRHKTLRMSLLRTSLSASALVTVVAAWLPVFPPVPVRSGMNRESTTTCSSVAWKISSTWTVRIADSASTSSQTIRLRTRRSTGVDR				NA	NA	NA	NA	NA
AK009_07169	537			hypothetical protein	GTGGTCCCCGACTATGGCCAGTGCCTCCGCAATCACGTGGGGCAGGTGCGAGACGCGCGCGACGGCCTCGTCGTGCCGCGCGACAGAGACCGGCACCGCCTCCGCACCGGTCAGCGCTGCGAGGGCGCACACGTTTGTGAACAGCCTCGACCACGACTCGGGCACAGCCTCGCCGGCGGCGTCGAGCTCGTAGGCGAAGTCGTAGGTGACGGCCCACGCGGCGCGGTGGAACAGTCCCTCGTGGGAGGCGCCCCACCCGGAGTTCTCGGTGCCCGCCATCGGATGGCCTCCGACGTAGCGCGCCTGGAACCCGTGAGCGCGCACGAGGTCGTAAACGGGCTTCTTCACGCTGACAACGTCAGTGATTCCGCAGTGTCCGGCGTGTTCGGCAATGGCGTCGAACACGCCGGACACGGCGTCCATCGGGACGGCGACGACGAGCAGGGCATCGCTTTCTGCAGCCCGCGTCAGGGTCTGCGCCAGATCGGAGGAGACGTCGAAGCCGTCCTTTTGCGCGGCGCGTGTCGCCGAGCGTGA	MVPDYGQCLRNHVGQVRDARDGLVVPRDRDRHRLRTGQRCEGAHVCEQPRPRLGHSLAGGVELVGEVVGDGPRGAVEQSLVGGAPPGVLGARHRMASDVARLEPVSAHEVVNGLLHADNVSDSAVSGVFGNGVEHAGHGVHRDGDDEQGIAFCSPRQGLRQIGGDVEAVLLRGACRRA				NA	NA	NA	NA	NA
AK009_07170	465			hypothetical protein	GTGCTCCGCGATGCTCTCGATCACGGCGTGCGGGTCCTCGTCCGGGTCGACGAGAACGCTCAGCGACTCTTCGCCGAGGCCGAGGTCGGCCAAGATCGCGAAATCCCCATCCGCGTAACCGTCGACGTCGTCAAGCTCAGCGGGGTCGATGTCGGGGATCTCGATGCCCGCCTCCTCGGCGATCTCCGCCGCGAAGTCGTCGTCGACGGCCATCGTGGCGTCGGAAAGCAAAAGCCTGATGCGCGAGGGGCCCGGGCGCACGATGACGAAAAAGTCCTCCTCCACGTTGAGCAACGCGAACGCGGCGCCCTCTGCGCGCAGGGCACGCACCGCGCCGACGGAGGTGGCCAGGCGACGGAAGGAATCGTCGAATTCTCGGACCAGCCAACCTCCGTTGTGCTGCGCCATGGTGACCGCGTACCCCTCCGCGAAACCGTCCTTACTTCTGCCTTGGCTCATGGGTAG	MLRDALDHGVRVLVRVDENAQRLFAEAEVGQDREIPIRVTVDVVKLSGVDVGDLDARLLGDLRREVVVDGHRGVGKQKPDARGARAHDDEKVLLHVEQRERGALCAQGTHRADGGGQATEGIVEFSDQPTSVVLRHGDRVPLRETVLTSALAHG				NA	NA	NA	NA	NA
AK009_07171	534	tadA_2		tRNA-specific adenosine deaminase	ATGATGCCCTTGGCTGATCGGCGCATGGCGCGTGCACTCGAGGTCGCGCGCACGACTCCGCCCGGTGATGTCCCGGTAGGCGCCGTTATCTACGACGCACTGGGCCGTGAAGTGGGGCATGGGGTGAACCGTCGAGAAGCGAGCGGCGATCCCACCGCCCACGCCGAGGTGGAGGCGCTGCGGGCCGCTGCCCGCACACTGGGCACCTGGCGTTTCGACGGCTGCGAGCTGGTGGTCACGCTCGAGCCGTGCACCATGTGCGCGGGAGCGATTCTCGGCGCCCGGGTCAAAAGCCTCGTTTTCGGCGCGTTCGAGCCGAAGACCGGGGCGGTGGGCTCGCTTTTCGACGCCCTGCGCGACCCGCGCCACCTCCATATTGTCGAGGTGCGCGCCGGGGTGCGGGAAGCGGAGTGCGCGGCGCTTCTCACCGAATTCTTTGCGGATTTGCGGTCTCCCGAGACGCAATTGTTATCCCCGCCCGAGGCAGGCGGTGGTAGTTTGGGCACTACAAAGTTCACCGACCGAATAATTTAA	MMPLADRRMARALEVARTTPPGDVPVGAVIYDALGREVGHGVNRREASGDPTAHAEVEALRAAARTLGTWRFDGCELVVTLEPCTMCAGAILGARVKSLVFGAFEPKTGAVGSLFDALRDPRHLHIVEVRAGVREAECAALLTEFFADLRSPETQLLSPPEAGGGSLGTTKFTDRII	PGPT0006855_39	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
AK009_07172	210			hypothetical protein	ATGGCACTTGAAGGCAAGGGCGACCAGCTCAAGGGAAACATCAAGGAAGGCCTCGGCGAGGTCACCGATAACAAGTCCTTGGAGAACGAGGGCAAGGCAGATCAGCTCGGCGGCGACATCCGCGAGAAGGCTTCCGAGGCGGGCAACGCGATCAAGGACAAGTTCAACGATGCCGCCGCCAAGATCCAGGATGCGCGCGAGAACAAGTAA	MALEGKGDQLKGNIKEGLGEVTDNKSLENEGKADQLGGDIREKASEAGNAIKDKFNDAAAKIQDARENK				NA	NA	NA	NA	NA
AK009_07174	2385	ydfJ_2	COG2409	Membrane protein YdfJ	GTGGCGAAGTTTCTCTTTCAAGTGGGGCGCTGGTCGTACCTGCACAAGTGGCAGGTCATCATCGCTTGGCTGCTCATCTTGGCCGGCACCGCCGGGGCCGCGTTCACCCTGTCGAAACCCTTCACTTCAGAGTTCGCGATTTCCGGTACCCCGGCGATTGAGGCTCTGAACACGCTGGACGCGAACTTTCCCGGCACTGGTGATATCGCGAACGCCCCGACGGTGAACCTGGTCTTCGCCGCACCCGAGGGCGAGCGGCTGGACTCGCCGGAGAACATGGAGGCGATCGATGCCACAGTGGGCTACATCGCCGACAACCTCGAGGGCATCACCGCAACGGAGCGGTTCGGAAACCCGGTTGAGGTCAACGAGGAACTGACGCGCACCATCGTGGGGCAGATGACCGAGATGGGGTTGCCCGCCGAGGCCGCGAAGGCCGACGCCTACAACGTGCGCACGTTGTCCGACGACGCAAGAATCGGGTTCACCACCTTCAATTTCGGTGCCGAATCCTCGATGACGGTGACGCAGGAGGAACGCGATGTGGTCAACGCGGCCATGGACATTGGCCGCGACGCCGGCTTGCAGGTGGAGGCCGGCGGGCCAGGTTTCGGCGAACCGATTGAGATCAAGACGACCAGCGAGTTGATCGGATTGGGCGTGGCGTTCATCGTCCTGCTGATCACTTTTGGATCTTTGGTGGCGGCATCGATGCCCGTGGTTACGGCCGTGATCGGCGTTGGCATTGGCGCGCTTCTCATCCTCGTGGCCACCCGATTTGCCGAACTCAATGAAATCACCCCGGTGCTCGCCGTCATGATCGGCCTGGCGGTGGGGATCGATTACGCGCTATTCATCCTCTCGCGCTACCGGCAGGAGCGAAAACACCTGCCAGCCGCAGACGCCGCGGGTTTGGCCACCGGCACCGCAGGTTCTTCCGTGGTGTTCGCCGGGTTAACCGTGTTTACTGCGCTGATCGCGCTGGCGCTGGCGCAGATTGAATTTCTCACGTGGATGGGTTTGGCCGCTGCGGTCACCGTCGCCATTGCCGTTCTCATCGCCCTCACCCTTATCCCGGCGCTGCTCGGCGCGTGGGGGGACCGGTCCTTCGGCGTCAAGCTCCCAGGTGTGGCGGGCAACCCCGGTCCGGGGAAGCGCCCGGCGAAAGACTTGACCGAGCGCTCCATGGGCCGCAGCTGGGTGTCACTGGTCCAGCGGTTCCCGGCGTTGGTCATGGCCGTCGTCGTCCTCGGCTTGGGTGCTCTGTCAATCCCGGTGCTCAACCTGCAGATGGCCCTGCCTTCTGATACCACTTCAAATCTCGACACCACGCAGCGCAAGTCGGCTGAAATGATCGCGGAGGGTTTCGGGCCGGGAGTCAACGGGCAGTTCCTTGTCGTTGTGGATGCGCACAACGTCAATCCTGACGCCGCCATTCTTCAACCCTTCATGGATTCGATGCCGGATGAGGTGGGCGGGGACGCGGAGAAGGCGGCGCTGGCTTCCTTCTTGTACACCGTCAGCGAGGCGAAGAGCGTCAACGGCATCCGCCACGCCCAGCTCGTCGCGGTGAACGATGATCTCACCGCGGCGCAGATCGCGGCGACCCCGACGGCCGGTCCGGAGCAGGAGTTCACTCTTGACGTCGCCCACGGCCTGCGCGAGACCAACAACCGAGTCGAAGACGCCACTGGGGTGACTATCGGGTTGACGGGGCTGACCGCGGTGCAGATGGACATCACGGAGAAGTTGGCCAGCGCGATGCCGCTCTACCTCGGCATCGTGGTGGGGTTGGCCATTATCCTGCTCATCCTGGTCTTCCGCTCCATCATGGTTCCTCTGGTCGCGGGCCTGGGGTTCTTGTTGTCGGTGGGCGCCGCGTTCGGTGTGACCATCGCGGTATTCCAGATGGGATTCTTGGATTTGGTCAACACTGCCGCCCCGATTATTTCGTTCATGCCGATCTTCCTCATCGGCGTCACCTTCGGGCTGGCGATGGACTACCAGGTGTTCCTGGTCACCCGCATTCGTGAGCGCTACCTCAAGGAGCGTGACAAGGGCCCCGGTGCGGAACTGCGCGCGGTCGAGAGCGCCACGGTGGAGGGTTTTGCGCAGGGCGCACGCGTGGTCACGGCTGCGGCCGTGATTATGATCGCCGTTTTCGTTGCTTTCGTGGACCAACCTCTGCCATTCATCCAGATTTTCGGGTTCGCGCTGGCGGCGGCGGTGTTCTTCGACGCCTTCTTCATCCGCATGACGCTTGTCCCCGCCACCATGTTCATCCTCGGCCGCGCAACCTGGTGGATGCCGCGGTGGCTGGACCGCATCCTGCCCGAGGTCGACGTCGAGGGCACGGAGTTGGAGAAGGAGTTCGAGCGTGGATGA	MAKFLFQVGRWSYLHKWQVIIAWLLILAGTAGAAFTLSKPFTSEFAISGTPAIEALNTLDANFPGTGDIANAPTVNLVFAAPEGERLDSPENMEAIDATVGYIADNLEGITATERFGNPVEVNEELTRTIVGQMTEMGLPAEAAKADAYNVRTLSDDARIGFTTFNFGAESSMTVTQEERDVVNAAMDIGRDAGLQVEAGGPGFGEPIEIKTTSELIGLGVAFIVLLITFGSLVAASMPVVTAVIGVGIGALLILVATRFAELNEITPVLAVMIGLAVGIDYALFILSRYRQERKHLPAADAAGLATGTAGSSVVFAGLTVFTALIALALAQIEFLTWMGLAAAVTVAIAVLIALTLIPALLGAWGDRSFGVKLPGVAGNPGPGKRPAKDLTERSMGRSWVSLVQRFPALVMAVVVLGLGALSIPVLNLQMALPSDTTSNLDTTQRKSAEMIAEGFGPGVNGQFLVVVDAHNVNPDAAILQPFMDSMPDEVGGDAEKAALASFLYTVSEAKSVNGIRHAQLVAVNDDLTAAQIAATPTAGPEQEFTLDVAHGLRETNNRVEDATGVTIGLTGLTAVQMDITEKLASAMPLYLGIVVGLAIILLILVFRSIMVPLVAGLGFLLSVGAAFGVTIAVFQMGFLDLVNTAAPIISFMPIFLIGVTFGLAMDYQVFLVTRIRERYLKERDKGPGAELRAVESATVEGFAQGARVVTAAAVIMIAVFVAFVDQPLPFIQIFGFALAAAVFFDAFFIRMTLVPATMFILGRATWWMPRWLDRILPEVDVEGTELEKEFERG				NA	NA	NA	NA	NA
AK009_07175	960			hypothetical protein	GTGGCGCGGTTTGTCGGCGGGAAGTTCGTCGGTGACCCAGCCGACGATGGTGCCCAGGTTCTCCTTTTCCAACGCGCCGCCAATGCCGAAGCCGCCGAAGCCGCGCTTGCCCTCGCCGCGCGCCTGCCGGTCCAGTTCCAGAAGGCCGCGCGTGGCCTGGCGGCGCAGGTCCTCGTACTGCGCGCCTTGAATCACGCCCCACAGCGATTGCAGCGGCTTGCCCACACGCTGACGGGTCAACCGGTCGTGCTCATCCAGGCAGCGCTTTGCCCACCGGTGGGTGCGCTCCACAGACTTTTCCTGGTAAATCCGGGTATCCGCCAGGGTGGTCAGCTCGTCGAACGCGAAGATAATGTCGGCGCCCAACTGATGTTGAATCTGCATGGACACTTCCGGTGTGAAGCGGTGCAGGGAGCCGTCGATGAAGCTTTTGAAGTCCACGCCGTCCTCGTCCACCTTGGCGAGGCGTTCCTTCTCACCCGCGCGGATGTCGTTGCGGTTGTGGTGGACGGTGTCCATCGCCAGTACTTTCTTGTACCCCACACCCAGGCTCATCACCTGGAACCCGCCAGAGTCGGTGTAGGTGGGCCCGTGCCAGTTCTCAAACGCGGCCACTCCCCCTGCTTCGTCCACAATCTCGGGGCCCGGCTGAAGGTAGAGGTGGTAGGCGTTGGACAAAATCGCCTGCGCGCCAACCTGGCGGATCTGCTCTGGGGTCAGCGTCTTCACCGTCGCCTTTGTGGCCACCGGAATGAACGCAGGCGTGGCAATGTCACCGTGCGGTGTGTGGATCACACCGGTGCGCGCCGTGCCCAACTCGGTGCCCACCTCAGTGCCCACCTCGAAGCTCAAATCATCCACGCTCGAACTCCTTCTCCAACTCCGTGCCCTCGACGTCGACCTCGGGCAGGATGCGGTCCAGCCACCGCGGCATCCACCAGGTTGCGCGGCCGAGGATGA	MARFVGGKFVGDPADDGAQVLLFQRAANAEAAEAALALAARLPVQFQKAARGLAAQVLVLRALNHAPQRLQRLAHTLTGQPVVLIQAALCPPVGALHRLFLVNPGIRQGGQLVEREDNVGAQLMLNLHGHFRCEAVQGAVDEAFEVHAVLVHLGEAFLLTRADVVAVVVDGVHRQYFLVPHTQAHHLEPARVGVGGPVPVLKRGHSPCFVHNLGARLKVEVVGVGQNRLRANLADLLWGQRLHRRLCGHRNERRRGNVTVRCVDHTGARRAQLGAHLSAHLEAQIIHARTPSPTPCPRRRPRAGCGPATAASTRLRGRG				NA	NA	NA	NA	NA
AK009_07176	261			hypothetical protein	GTGCATCGTGCACAAGGTTCCCGCGAGGAACTCCTTCGCCTTGAGCAGGTGGTGGATGTAGGCGCGGGAATAATTCTCGGAAACGTATCCGCCGAACTCCTCATCGACGCCCGCAAAGTCGCGTTTGAAACGCGCCCCGGTCAAATTGAGGCGCCCGTCGAGGGTGTACACACCACCGCGTCGGCCCAGGCGCGTCGGCGCGACGCAGTCGAAGGTGTCCGCGCCGGCTTCAACCGCGGCAAAGATGTCGTCCGGCTCTGA	MHRAQGSREELLRLEQVVDVGAGIILGNVSAELLIDARKVAFETRPGQIEAPVEGVHTTASAQARRRDAVEGVRAGFNRGKDVVRL				NA	NA	NA	NA	NA
AK009_07177	435			hypothetical protein	ATGGAACGTACGCTGAATTTAAGCGAGAGTTTCTGGGGCGCTACTACGCTCCAGCCGCTTCACCCACGCAATGACCTGGTAAGTGACGGGCACGAGCACAGCCTCCATGAGCGTCTTCCACGCGAAGCCGACGACGACGTAGTTGATGAACTGCCCCGGTGTCTCAATGCCGATAACGCCGGCGGCGATGGCGCAGAAAATCAGCGTGTCAAAGAACTGACCGACGATGGTGGAACCGATCAGGCGCGCCCACAGGTGGCTCGGGCCGTAGCGGTCTTTCATCTTCTGCAGCACCCACGCGTTGAGCAGCTGGCCGACAACGTAGCCCGCCAGCCCGGCGATGAGGATCCGGGGCAGCGTGCCCAAAATCGAGGCGAAGGTCTCCTGCGCCTCGTAGAAGGGCGCGGGAGGAAGGGCGATGGCGATGCTGAATGA	MERTLNLSESFWGATTLQPLHPRNDLVSDGHEHSLHERLPREADDDVVDELPRCLNADNAGGDGAENQRVKELTDDGGTDQARPQVARAVAVFHLLQHPRVEQLADNVARQPGDEDPGQRAQNRGEGLLRLVEGRGRKGDGDAE				NA	NA	NA	NA	NA
AK009_07178	894	gltX1		Glutamate--tRNA ligase 1	ATGACGGCCGGACGCTATGCACCCTCCCCGAGCGGGGACCTCCACTTTGGCAACCTGCGCACTGCTGTCTTGGCGTGGCTCTTCGCGCGGCACAGCGGCCGCGCCTTCTACCTGCGTGTCGAGGATATTGACTCGGAGCGGTCTTCCCCGGAGTCCGCCCGCCGCCAAATCGAGGATCTGCAGGCGATCGGCCTGGATTTCGACCCGCCGGTTATCTACCAGTCGCAGCGCTCGGAGTTGTACGAGGCCGCGCTGTCTCGCCTGCCTGTCTACGAGTGCTACTGCACGCGCCGCGACATCCGCGAGGCGTCCGGCGCGCCCCACGCGACGCCCGGACCGTACCCGGGCACGTGCCGCGACCTCAGCGAGGATGAGCGCGCTTATCGACGCTCCCAGCTACGCGCCGAAAACCGCCTCCCGTCACTGCGCCTGCGCGCGTCGGTAAGAGAATGGACAGTGCGGGATCTCTACCGCGGAGAGTACACCGGCGCCGTTGACGACGTCGTGTTGCGGCGCGGTGGCAATGTCAATCAGGCGCAGGCCGGAGACTGGGCGTACAACTTGGCCGTGGTCGTCGACGACGGCGAGCAGGGCGTCGACCAAGTCGTGCGCGGCGACGACCTTCTAGACTCCGCTCCGGCCCAGGCCTACCTGTCCTCGCTGCTGGGCTACGTGGAGCCGGAGTACGTCCACGTTCCGTTGGTGGTCAACAGCGAGGGCACACGCCTGGCCAAGCGCGATGGGGCGGTGACGCCGCGCGAGATGGGACCCGCGCAGGATGTGGTTGTCCGCATTGCGGACTCGCTCGGGTGCGCGGGTGTGGCGTCGATCAGCGAACTGCTCGCCGCCTTTGATCCGGAGCGTTTGCCGCGCGAGCCGTGGGTGTGGGCTTAG	MTAGRYAPSPSGDLHFGNLRTAVLAWLFARHSGRAFYLRVEDIDSERSSPESARRQIEDLQAIGLDFDPPVIYQSQRSELYEAALSRLPVYECYCTRRDIREASGAPHATPGPYPGTCRDLSEDERAYRRSQLRAENRLPSLRLRASVREWTVRDLYRGEYTGAVDDVVLRRGGNVNQAQAGDWAYNLAVVVDDGEQGVDQVVRGDDLLDSAPAQAYLSSLLGYVEPEYVHVPLVVNSEGTRLAKRDGAVTPREMGPAQDVVVRIADSLGCAGVASISELLAAFDPERLPREPWVWA	PGPT0008460_6163	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
AK009_07179	258			hypothetical protein	ATGCGCCGGCATGTCGGGATGCGTGATGGGGGTGTCCGGCGAACACGCTGCCTCGGCGTCGAGGTTAACGACGTTCGCGCCGGGCACCGGGGAGAAATAGGATGCCGAGTTCGGGGTGACGGTGGTGTCGTTGGGGGAGAAGAGGGACGTGTACGTCACGCCCGCGGCCGTGTCGGGGAACGAGTTTGCCTCGGCCATCGTGGCGGAGCCGGCGAGTTGCTGGATCGCGGCGGTCGACGCGAAGAACGCGGTAAGTGA	MRRHVGMRDGGVRRTRCLGVEVNDVRAGHRGEIGCRVRGDGGVVGGEEGRVRHARGRVGERVCLGHRGGAGELLDRGGRREERGK				NA	NA	NA	NA	NA
AK009_07180	315			hypothetical protein	GTGCAGGCTGGCGCCCATGGTGACAACGCGGTCGACCTTGTCGGCGTCGCCGAAACGTGGGATGTAGTTCTTGGCCTGCAGCGCGCCCTGGGGGTTGGCGACGATGTCGACCTTTTCCGCGCCCGTCTGTTCCAGCACGTTGTCGATAAATCCAGCGACTTCCTCCGAACTGGAGTTGAGGTCCGCCGTACCGTAGAGCGAAGGCACGATAGCCTGGGCGGTGAGCAGTTCCTTGCCGTAGTTGATGCCATACGAGCAGTACCCCTCATCCTTGAGGTAGCGCGCGAGCTTGTTGAATTCCCACATGTTCGCTGA	MQAGAHGDNAVDLVGVAETWDVVLGLQRALGVGDDVDLFRARLFQHVVDKSSDFLRTGVEVRRTVERRHDSLGGEQFLAVVDAIRAVPLILEVARELVEFPHVR				NA	NA	NA	NA	NA
AK009_07181	3399	rapA_5		RNA polymerase-associated protein RapA	ATGCACACAGAAAACCGGGCCATAGGAATTGCCACCCAAGGCGTTGATGTTTTCTCAGCTAAAGCGCTTGAGCTTGTGGTGAAAGGGTTCATTCCCACTTTCACCGCCGATGCCGCGGATTTCCGTTTGGCGGCGGAGGCGCTGCGTATTAACTATGCGGGGCTCTACGACCCCATGGCCGCCGTCCACTCCTCCGCGGTGGATCCCTTGCCCCACCAGATTCGTGCAGTCTATGGCGAGCTGCTACCGCGTATCCCGCTGAGGTTCCTCCTCGCGGACGACCCCGGCGCGGGCAAAACCATCATGGCGGGCCTCTATCTCAAGGAGCTGCTTCTGCGCTCGGCTCTCAAGCGCGCGCTCATCATCGCGCCGGGTGGGCTGGTGGATCAGTGGTGCGCCGAACTGGAGGAGAAGTTCGGGCTCCGCTTCGATGTGTTCGATCCGGCGATGGTCCATCAGCACGGATGGCCGGACACGCACCCTTTTCTCGTGGCCAAAATGGACCAGGTGGCGCGGCGGGAGGACCTCGTCGGTGCGGTGGCGCAGGCGGACTGGGATGTCGTTGTAGTCGACGAGGCGCACCGCATGTCCGCGCACTATAGCTCGTGGGCGGGCGGGGTGAAGGCAACGAGGAGATTCGAATTGGGGCGCGCCTTGGTGAGCTCGGCGAGCAACGCCCTGCTGATGACGGCAACCCCGCATGCTGGCAAGGAGGAGGACTTCCAGCTGTTCATGTCGTTGCTAGACCCTGATCGGTTCGAAGGTGAGTTCCGCAGCGGCGTCCACACCACGGACACCGAAGGGCTGATGCGCCGGATGGTCAAGGAAGACCTTCTCACCTTCGAGGGCAAGCCGCTCTTCCCGGAGAGGCGAGCGTACACGGTGGTCTACGACCTCACTGATGCAGAACGTGCCTTGTACGACGACGTTACGGACTATGTGCGCACGCAGATGGGTCGCGCGGAACGCATTAAGGATAGGAAGCGCGGTAACGCGGTTGGGTTCGCGCTCATGGTCCTGCAGCGGCGCTTAGCCTCGAGCCCGGAGGCGATTGTGCTCTCTCTCAAGCGGCGGCGCGATCGGCTTGATGAGCGCGCGAGGCTGCTCGAACAAGGTTACCTGGACCCGGTCGTAGATCCCAGGTTAAGCGAAGACGATGTGGAGCGGTTGAGCTCCTACGACGAGGAATTTTCCGCCGCCGAGGTGGAGGATGTCGAGCAGGAAGTTCTCGATGCTGCGACGGCCTCGCAGACTGTAGAGGAGCTCCGCGCGGAGATCGCCGCGCTTGACGCGCTTGTTGCCCAGGCCCAGAGTGTGCGCAATGCGGAGGAGGACTCCAAGTGGGTGCAACTGCGCTCGATCTTGAACACCAGCGTGCTCGGCACGCCGACGGCTGACGGTGCACCGCGCAAGCTCATCGTCTTTACGGAGCACAGGGACACTCTCGACTACCTGAATCGGCGAATCACCGCGCTGCTTGGGAGCCAAGATGCCGTGGTGGCGATACACGGCGGGGTAGCCCGTAAGGAGCGAACGCGGATCCAGGAAGAGTTCACGCGCAACCCCAACGTGGTCGTCCTCGTGGCCACCGATGCGGCAGGGGAGGGTCTTAACCTCCAGCGCGCGCACCTCATGGTCAACTATGACCTTCCCTGGAACCCGAACCGTATTGAGCAGCGGTTCGGGCGCATCCACCGCATCGGTCAGAGGGAAGTGTGCCACCTGTGGAACTTGGTCGCCGGCGGCACCCGAGAGGGTGACGTGTTCGCGGCGCTGTTGGGCAAGATTGAGGTGATGGGGCAGGCCTACAATGGCAGCTTGTTCAACGTGTTGGGAAACGGCGACGCCTTCGAAAACGAGTCGCTCAAAGACCTGCTTGTCAAGGCAATCCGATACGGTGATGATCCCGCCACAAGGCGCCGTATGAACGAGGTTATCGATGCAGGTATCACGTACGGCCTGCGCGAGCTCGTGGAGGAAACCGCCTTGGACCAGGACACGCTCGGTGAGGCAGACGTCGCTGAGATTAAGCGAGCGATGGAGGTCGCACGCGAGCGCAAACTACAGCCTGGCGCCATCGATGCCTTCGTCAGGTCCGCGCTAGAGCGCTTTGGGGGTGGAATTTTCGAGCGGGAGCAGGGCCGCTACGAGGTGACGCATGTGCCCGCCGCGGTTTGTGCCAGGGCGCGGGCTGCAGGGGGTGCGGTGGCCCGCAGCTACGAGCGCGTGACGTTTTCGCCTCAGCGGGTCTCGGTGGAGGGCGCGCCCGAGGCGGTGCTGCTCGCGCCAGGGCACCCGCTTCTCGACGCCTTGGTTAACCACACCATCGACCAGCTCTCCGAGACGCTTACCACCGGTACAGTGCTGGTGGATCGCAGGGATACCCCTGTGACCGTCCCGCACCTGCTCTACATCGTTGAGCAGACCATTCACACGGCTGGCGCGGAGACTGACGTGATCTCGCACCACTTCGACTACGTGGTCATCCCGGCCGACCCGCAGGAGACGGACGTCCCGGTGGAGACGGGATCGAGCCCAGCCCACCTGTCGTTTGATGCCGCGTCGGAGGAGGAGTACGCCTACGCGCTCGCGAATGGCCTGACGAAGAAGCCTGCTGCCGAGGTGACGGTCACGGCGCTTCGCGAGGCCTACGAGGACGGTGCGCTTCCGCGCCTGGGCGAACTGGCGCGGCGCAGGAACGCGGAGCTCGATCGCACCGCCCAGCAGGTGCGCGAGAGGTTGACCGCGGAATCTAATCGCTGGTACAGCCAGGCCATGCGCCTTGCCGGTGACGGCGACAAACACGATGAGGAGATTTCGGAGGCGGCAGCCCGGCGCAAGGGCGAGGAGTTGCAGGAGCGGCTGGGCCAACGCCTCGCCGACATCGAGCGGCAGCGCCGCCTCGTGGCCGCGCCCGGCGTGATTCGCGGGGTAGCGCTCGTCCTCCCGCCCGGTATCGTCGGCCCCAGAAAAGAAGACAAAGACCCGGACACCTTTGCCATCAGCACCGAGGAATCGGAGCGCCGCGGAGTTGACCTGACGATGGCGGCGGAACGCGCGCTCGGGCGCACCCCGGTTGAGATGCCGCACAACAACAAGGGTTTTGATATTCGCTCCACCGATGCGAACGGGGATGTCTACTTTATCGAGGTTAAGGCGCGCACCCGCGGCGCCGATTTGTTCACAGTGACGGCGAGCGAGATCCAGTTTGCGCAAAACCAGAGCGAGGACAACCGCCATATCCTCTCGCTGGTGAGCCTGTCTCCTGACGGGCCCGCGCATGATGACATCCGCTACGAGTACCGCGCCTTCAACGGCATTCGTCCCGGGCTGGGTACTGGCACCGTCAACGAAAAGTGGGCCTACCACTGGAACAGGGGGATCGATCCGCGGGCCTAG	MHTENRAIGIATQGVDVFSAKALELVVKGFIPTFTADAADFRLAAEALRINYAGLYDPMAAVHSSAVDPLPHQIRAVYGELLPRIPLRFLLADDPGAGKTIMAGLYLKELLLRSALKRALIIAPGGLVDQWCAELEEKFGLRFDVFDPAMVHQHGWPDTHPFLVAKMDQVARREDLVGAVAQADWDVVVVDEAHRMSAHYSSWAGGVKATRRFELGRALVSSASNALLMTATPHAGKEEDFQLFMSLLDPDRFEGEFRSGVHTTDTEGLMRRMVKEDLLTFEGKPLFPERRAYTVVYDLTDAERALYDDVTDYVRTQMGRAERIKDRKRGNAVGFALMVLQRRLASSPEAIVLSLKRRRDRLDERARLLEQGYLDPVVDPRLSEDDVERLSSYDEEFSAAEVEDVEQEVLDAATASQTVEELRAEIAALDALVAQAQSVRNAEEDSKWVQLRSILNTSVLGTPTADGAPRKLIVFTEHRDTLDYLNRRITALLGSQDAVVAIHGGVARKERTRIQEEFTRNPNVVVLVATDAAGEGLNLQRAHLMVNYDLPWNPNRIEQRFGRIHRIGQREVCHLWNLVAGGTREGDVFAALLGKIEVMGQAYNGSLFNVLGNGDAFENESLKDLLVKAIRYGDDPATRRRMNEVIDAGITYGLRELVEETALDQDTLGEADVAEIKRAMEVARERKLQPGAIDAFVRSALERFGGGIFEREQGRYEVTHVPAAVCARARAAGGAVARSYERVTFSPQRVSVEGAPEAVLLAPGHPLLDALVNHTIDQLSETLTTGTVLVDRRDTPVTVPHLLYIVEQTIHTAGAETDVISHHFDYVVIPADPQETDVPVETGSSPAHLSFDAASEEEYAYALANGLTKKPAAEVTVTALREAYEDGALPRLGELARRRNAELDRTAQQVRERLTAESNRWYSQAMRLAGDGDKHDEEISEAAARRKGEELQERLGQRLADIERQRRLVAAPGVIRGVALVLPPGIVGPRKEDKDPDTFAISTEESERRGVDLTMAAERALGRTPVEMPHNNKGFDIRSTDANGDVYFIEVKARTRGADLFTVTASEIQFAQNQSEDNRHILSLVSLSPDGPAHDDIRYEYRAFNGIRPGLGTGTVNEKWAYHWNRGIDPRA				NA	NA	NA	NA	NA
AK009_07182	2769			hypothetical protein	GTGACTGACACCCCGCGCAAGAAGCTCATCGAGGTCGCCCTGCCGCTCGAGGTTATCAACGCCGAGTCCGCCCGCGAGAAATCCATTCGCCATGGCCACCCCTCGACGCTGCACCTCTACTGGGCGCGCCGCCCGCTCGCGGCCGCACGCGCGGTGCTCTTCGCGCAGCTTGTCGACGACCCCTCTTCCCACCCCGAGCTTTTCCCCACGGAGGAGGAACAAGACGCCGAGCGCGCCCGCCTGCACGAGCTGCTGGAAAAGCTCGTGGTGTGGGAGAACTCCAACGACGAGAAGCTCCTTGCGCAGGCGCGCGAGGAGATTAGAAAATCCAACGGCGGTGAACTTCCCGCCGTGGTGGATCCCTTCGCCGGTGGTGGTGCGATCCCGCTCGAGGCGCAGCGCCTCGGGCTTGAGGCACATGCCAGCGACCTTAACCCGCTGGCGGTGCTCATCAACAAGGCCATGATTGAGATCCCGCCGAAGTTTGCCGGCCAAGCCCCTGTGAACCCGGACGCTCCCGCGCCGACGAACGGCTGGTCGCACGCGGAAGGGCTTGCAGAGGACGTGCGCTTCTACGGCGAGTGGATGCGCGACGAGGCGGAAAAGCGCATCGGCCACCTCTACCCGAAGGTCACGGCGCCAGGCGGCACCGAGCACACGGTGATCGCGTGGATCTGGGCGCGCACGGTGAAAAACCCGAACCCCGCCAACCCCATCGAGGTGCCGCTTGTGCGCTCGTGGTGGTTGAGCAAGAAGAAGGGCAAGGAAGCCTGGGTCGAGGCCAAGGTCGTAGACGGCGAGGTGCGCTACGAGGTCCGCCACGACGCCGAGGGGCCGAAGGGCGATGCGGATGGGACGGTGTCGCGCAAGGGGGCGGTGTCGATTGCCGACGGCACGCCGATCGACTTCAAGTACATCCGGTCGGAGGCACAGGCGGGTCGCATGGGAGAGCATTTGATTGCAGTCGTTAGTGAAGATCGGCGTGGAAGGATCTATGTATCGCCGACTAGAGAGCATTTTGATGTGTCTCGCGTCGAAAAGCCAGTGAGCGTGCCGCACGGTGATGTTTTCGATTGGCCGGGACGGATAAACGTATATCGCTATGGCATGACTGATTGGGCAGACCTCTTCACCAACCGTCAGCTCGTCGCGCTGACCACGCTGAGTGACCTAGTCTCCAAGGCGCGCGAGAAGGTGCTTAGCGATGCCCTCGCGTCGGGTATGGAGCGCGGTGCCCGCCTGGACACCGGCGGCAGCGGTGCGGAGGATTACGCGGATGCGGTCGCTGCATATTTGGGCTTAGTTCTAAGCCGTGCTAGTGACCGCAATTCTTCTCTTTCATCGTGGGACTCGTCGAATCCTAACGTCAGAAATACTTTTGGAAGGCAAGCGCTACCGATGGTGTGGGACTATGCCGAATCAAATCTGCTTTCGCGATCAACTGGTAGTTTTGATAGCCAGCTTAATTACATAGTCAAGGTCGTCGCCGCGTTACCGTCTTCCGCTCGAGGGCTAGCTGAGCAGGCAGACGCATCGGTGCGCTCATATCATAATGTGGTTATTTCGACCGACCCGCCCTATTACGACAACATCGGGTACTCCGACCTGTCGGACTTCTTTTACGTGTGGCTGCGACGCTCACTGCGGGAAATCCTCCCGAGCGTCTTCGGCACAATGCTCACGCCTAAAACTGATGAGCTGGTCGCCAACCCGTATCGCCACGGCGGGAAGGAGGGCGCGGAGCAGTTCTTCGTCGAAGGCTTCAACAAGGTCTTCGCGCGGATGCGGGAAGGCGCTAGGGGCGATGTCCCGCTGACCGTCTACTACGCGTACAAGCAGCAGGACGTTCGCGATGCCGGCACGTCCTCGACAGGATGGCACACGCTGCTCGATGGGTTGATGGGCGCAGGGTGGGAGATTACTGCGACGTGGCCGATGCGGACAGAGACCTCGAACCGCATGATTGCATCCGGCACGAACGCGTTGGCGTCGTCAATCGTGCTCGCCTGCCGTCCGCGCCGCGAAGACGCGCCGACAACCACGCGCCGGGCGTTCGTCCGCGAACTCAAGCGCGAGCTGCCGGAGTCGCTGCGCGCACTCATGCAGGCGACCATCGCGCCGGTGGATCTTGCTCAGGCCGCGATTGGCCCGGGCATCGCGGTGTATTCCCGCTACTCGCTCGTGCGCGAGCCCGACGGGTCCAACATGGGGGTGCGCGATGCTCTCATCCTCATCAACCAGGTGCTCGACGAGGTCCTCGGCGAGCAGGAGGCAGACCTCGACCCGGACTCGCGGTTCGCGCTGCGCTGGTACCGCACCTACGCGTGGGGCAAGGAGAGCTCAGGCATCGCCGACCAGCTTGCCCGCTCGTCCGACACGTCGCTCGGCGGATTGGTGCGCGGTGGCATTCTAGAAGCCAGCGGAGGCAAGGCGCGCCTCATCCCGCCGGAGGAACTCGCCGAGGTATGGGACGTGGCCAGCGACGAATCCGTGAGCATCTGGGAAGCCACCGTGCGGCTAACAGGTGCGCTCAGCGTTGACGGCATCGACAGGGTTGCCGGCATGCTCAACGACATCGAAGGCCGCGTCGATTTAGACGCCGTCAAGGAGCTCGGCTTCCTGCTCTACCACGAGGCAGAAAAGAACGGTGATACCTCCCACGGTGTCATGTTCAACGCGCTGGTGACCTCGTGGAACGACCTTACGGAAAAGGCGCGCCAGCTCGCCGCGGAGCTTCCTGCAGGTGCCCAGGGCCACCTGGAGTTTTAA	MTDTPRKKLIEVALPLEVINAESAREKSIRHGHPSTLHLYWARRPLAAARAVLFAQLVDDPSSHPELFPTEEEQDAERARLHELLEKLVVWENSNDEKLLAQAREEIRKSNGGELPAVVDPFAGGGAIPLEAQRLGLEAHASDLNPLAVLINKAMIEIPPKFAGQAPVNPDAPAPTNGWSHAEGLAEDVRFYGEWMRDEAEKRIGHLYPKVTAPGGTEHTVIAWIWARTVKNPNPANPIEVPLVRSWWLSKKKGKEAWVEAKVVDGEVRYEVRHDAEGPKGDADGTVSRKGAVSIADGTPIDFKYIRSEAQAGRMGEHLIAVVSEDRRGRIYVSPTREHFDVSRVEKPVSVPHGDVFDWPGRINVYRYGMTDWADLFTNRQLVALTTLSDLVSKAREKVLSDALASGMERGARLDTGGSGAEDYADAVAAYLGLVLSRASDRNSSLSSWDSSNPNVRNTFGRQALPMVWDYAESNLLSRSTGSFDSQLNYIVKVVAALPSSARGLAEQADASVRSYHNVVISTDPPYYDNIGYSDLSDFFYVWLRRSLREILPSVFGTMLTPKTDELVANPYRHGGKEGAEQFFVEGFNKVFARMREGARGDVPLTVYYAYKQQDVRDAGTSSTGWHTLLDGLMGAGWEITATWPMRTETSNRMIASGTNALASSIVLACRPRREDAPTTTRRAFVRELKRELPESLRALMQATIAPVDLAQAAIGPGIAVYSRYSLVREPDGSNMGVRDALILINQVLDEVLGEQEADLDPDSRFALRWYRTYAWGKESSGIADQLARSSDTSLGGLVRGGILEASGGKARLIPPEELAEVWDVASDESVSIWEATVRLTGALSVDGIDRVAGMLNDIEGRVDLDAVKELGFLLYHEAEKNGDTSHGVMFNALVTSWNDLTEKARQLAAELPAGAQGHLEF				NA	NA	NA	NA	NA
AK009_07183	738			hypothetical protein	GTGCAGAGACTCGCCCGGGTTCGTGCCGGTGCGGTCGGCCTCCGCGACGATCTCGTACGCCTCAGGCCCGCCGAGCTGCCAAGCGAGTTCGCCCCAGAGCGTGTGCACCTGCGTGCCATCGGGCTTTGTATCAACACTCCCCGGGTGCAGGTACGTGCCAACGAGCACAACGCGGCGCAGCCCGAGGCCTTCCAGGTCCACGTTGCCGTTGCTAGCCACGAGCTCCTGGACGTCCTGGGGGTATGCCCGCGCTGGGAGCCCACTGAACAGGTGGTAGAGCGCCAGCATGGAGTGGGTCTTGCCGCCGCCGAAATTCGTTTGCAGGTTCACCACGGGGCTGGCGTTGTCGTCGCCGCCGAAGCGCTTGAGCGCGCGCGAGAGCAGATCGGTCAAACCTTCTGTGAGGTAGGTGCGGTTGAAGAACTCAACCGGGTCGGCGTACTCCGCAGCGTCAGTCTCTTGCTTGTGCACTTTGTGCAGGTCGGCGGCGAACTCCGCGGCGGTAAAGTTGCCGTTAAGCACGTCGTCGTGCGGCAGGATCACCTCGCGCCAGGGTTTCATGCCCGCGCTGGGTTCCACGGAGACCGCTTTCGTGCGGGTATCGCTCCGCGTCTGTTCCTGGAAGACCCGTCGTTGCAGCAGCTTTCGCTGTCTGGCCACGTCTTCGGCCGAGTCGGCAGAGTCCACCGCGCGAAGCAGGCGCTCGATGGAATCGAGCGCTCGAATCGTGTCCTCTGA	MQRLARVRAGAVGLRDDLVRLRPAELPSEFAPERVHLRAIGLCINTPRVQVRANEHNAAQPEAFQVHVAVASHELLDVLGVCPRWEPTEQVVERQHGVGLAAAEIRLQVHHGAGVVVAAEALERAREQIGQTFCEVGAVEELNRVGVLRSVSLLLVHFVQVGGELRGGKVAVKHVVVRQDHLAPGFHARAGFHGDRFRAGIAPRLFLEDPSLQQLSLSGHVFGRVGRVHRAKQALDGIERSNRVL				NA	NA	NA	NA	NA
AK009_07184	1236			hypothetical protein	ATGGACCCAATCGCGCGCGGGGTTAACCTTCCCGCTGCGCGAATACGGGTACTTGGGGTGGACGATGACGAGGGCGACGGTGTCTTGGTCTGGAACGTCACCGCTTGCCGTCGGTGCCGCGTGAATCCGCTGGAAGTGATTATCCGGCTTGGCGGTGCGCTGCAGCCTGGTAACCACTTCGTTCCATACGGTGTCGGGGTCTTCGCGCAGCCTTTCGGCGTAGTCCGCGGCTGTCTTGGCCACAGAGGGCTGGGTATCGAACCAGTAGTGGCCGTTTTCCTCGTAGAAGTAGGTCGAGCGCTGGGAGAGCTGCTCGAGGGCGCTGCCGAAGTTGCCCAGCTGGTCCCCTGGAACTGCCACGCCCAACCAGACGTACTGCTTATCCAGGCCCTTTCGAGAGGTGCGGGGAGCAGCCCCCATGAAGATTGTGCGCGCGATGCGCTGGGTTACCGATCGCGCACCGAGCACGGGCTTTTGCTTATCAACGACCGCCGCTGTCGATCCTTCCCCGTCAATGTCGGCGTCGATAATAGGCTTCCAAGAATCCTCCAAGTACTGCGTGAGTTCGGTGCCGACAGCGTTCGATCCCACGGGCACGGACCCTGGCATGATCACCGGCGATGTGTCGTTCGTGGCCCACAGCGTGGAGACGATGGTGGAGACGAGCTTGAGCACGCCGCGGGTGCGCTGAAACCGCTCGAGAGCCGACCAATCCTCGTAAAGCCTATCCATGAGATCGGGGTGGATCGGGTACGAGCGCTTGATGCGGGTCTCATAGTCGTTGCTTGCGGTGGCCGCCTCGCTGGGGAAGAGCGGGGAATCTTTCCGGTACATCTCCGCGAACAGGCGCGCCGTCGCGCTTATTTGGCGCAGCTGATCGGCATCGGGGTCCCGGAATACGCGGCGCCGGACGATTTCGAAGGACTCCTCCTTCGTCGAGGGGCGCCACTGGTCAGCCACACGCCCGATGACGTTTTGCAGGTTCTGCAGTGCCGCCTTGCCGCGGGCGCCGCCAACCTCGTTATCCCTGGCCTCACCGTCGGCGGCCTCCTCGGACGCCGGGATGGAGACCAACAGCATCGTACGCGGGGTCGTACGAACTGCCTCCGTGAGCGTTTGCGCAAAGGTAAATTGCGTTTCAAAACTGCCCGCGTGCAGCCCCGTTGCATCGACGAGCTGGCGGGCGTAGGCCACCCATTCGTCGATAAGGATGAGCGACGGGGAATACTCGCGTAA	MDPIARGVNLPAARIRVLGVDDDEGDGVLVWNVTACRRCRVNPLEVIIRLGGALQPGNHFVPYGVGVFAQPFGVVRGCLGHRGLGIEPVVAVFLVEVGRALGELLEGAAEVAQLVPWNCHAQPDVLLIQALSRGAGSSPHEDCARDALGYRSRTEHGLLLINDRRCRSFPVNVGVDNRLPRILQVLREFGADSVRSHGHGPWHDHRRCVVRGPQRGDDGGDELEHAAGALKPLESRPILVKPIHEIGVDRVRALDAGLIVVACGGRLAGEERGIFPVHLREQARRRAYLAQLIGIGVPEYAAPDDFEGLLLRRGAPLVSHTPDDVLQVLQCRLAAGAANLVIPGLTVGGLLGRRDGDQQHRTRGRTNCLRERLRKGKLRFKTARVQPRCIDELAGVGHPFVDKDERRGILA				NA	NA	NA	NA	NA
AK009_07185	201			hypothetical protein	TTGGGTCGCGCCGGCGATGGCGGAATCGAGAACCTCCCTGCGTGCAAGCCGCATCATATAGGGGAAGCGCGCGAAGTATCCCCACAGCTCACCGACCGTGATCTCCCCCTGTTCATCCCAGATCGCGCGAAGCTGGTCGCGCAGGGTCATCCCGAGGGTCTCCGCGCCGAGGTCCGCAACGAGCTGGCCGCCGCGGATTAG	MGRAGDGGIENLPACKPHHIGEAREVSPQLTDRDLPLFIPDRAKLVAQGHPEGLRAEVRNELAAAD				NA	NA	NA	NA	NA
AK009_07186	1266			hypothetical protein	GTGGATACGGGAGTAGTTCTCGGGCGGGAGTACCGTCCGCGGTTCGTCGATAAGCAGGTGGAGAAAGCACTCGCCGCACACGGAGCCGTCGTGCTTGAAGGGCCGCGCGGTTGTGGGAAGACGATGACCGGTGTCGCGCATGCGGCCTCGGCCGTGTTTATGGACGATCCTGCGACGGTCACGCTTGCCGATATTGACGCCGACTACCCGTTGATAGGGGAAAGGCCGCGCCTGATTGATGAATGGCAGCTGAGGCCCGAAGTATGGAATCAGGTGCGCCGACAGGTGGACCGAGCGGAGGGCTTCGGCAACTACATCCTCACAGGCTCTGCCATTCCGAGCGATGACATTACTCGACACAGCGGTGCTGCTCGTTTTCTCCGCATTCGGCAGCGCACCCTCACGTGGGCGGAGAAGGGGAAATCGCAGCCGCGCGTCGCGCTGAATGAGCTCTTTAGCGGGGCAGATGTTCCGACCGATCCAACCCAGTTCAGCCTTGATGACAACCTCGAGGCACTCTTAACCTCCGGGTTTCCCGCTCACATTTCGCTTTCGCCCGAACAATCGCGAGGTCCACTTCGTGCTTACCTTTCTGAGACGGCGCGCACGGACGTCTACCGTCTCCACGACTTCCGTCACGATCCGATTGTCCTCGACCAGCTCCTGGCATCCCTCGCGCGCGTGACCGCCTCAGAGGTAACCCACACCACGATTCGCAAGGACCTCACGGCGGTGGCGCCCTCGATAAGTGTTGAGTCGGTCGCGATGCTCGTCGATACCTTAGAAAGGATATTTGTCATCGAATCGGTCCCTGCGTGGGCCCCCCGGTTGCGCTCAAAGGCGCGACTGAGGACCAGTAGGAAATACCACCTCGCCGACGCATCCCTGGCTGCAGCCGCTCTAGGAGCGACGGCTGAGAGCCTGCGCCGCGATCCTGAAACGCTTGGCTTTTTGTTCGAGTCGGCCGTCGTTCACGACCTTTCGGTCATGGCGGAAGCCCTCGGGGGTCGCGCGTACCACTACCGCGACTCTAACGGGTATGAGATTGATGCTGTCATCGTGCTTGACGACGCCCGCTGGGGTGCCGTCGAAGTCAAGCTTGGCTACGGCCAGGTCGATGAGGGGGTCCGCCGCCTGCGCAAGGCACTCGACCAGATCGATGCCGACACGCCCCCATCCTTCGCAGCCGTTATCACCGCGACTGGGATGAGCTACACCACCGAAGACAAGATCTGCACGTTTCCCTTCCTCGCCCTGGGCCTCTAG	MDTGVVLGREYRPRFVDKQVEKALAAHGAVVLEGPRGCGKTMTGVAHAASAVFMDDPATVTLADIDADYPLIGERPRLIDEWQLRPEVWNQVRRQVDRAEGFGNYILTGSAIPSDDITRHSGAARFLRIRQRTLTWAEKGKSQPRVALNELFSGADVPTDPTQFSLDDNLEALLTSGFPAHISLSPEQSRGPLRAYLSETARTDVYRLHDFRHDPIVLDQLLASLARVTASEVTHTTIRKDLTAVAPSISVESVAMLVDTLERIFVIESVPAWAPRLRSKARLRTSRKYHLADASLAAAALGATAESLRRDPETLGFLFESAVVHDLSVMAEALGGRAYHYRDSNGYEIDAVIVLDDARWGAVEVKLGYGQVDEGVRRLRKALDQIDADTPPSFAAVITATGMSYTTEDKICTFPFLALGL				NA	NA	NA	NA	NA
AK009_07187	4758	rhlE		ATP-dependent RNA helicase RhlE	ATGGAACTTGACGACCTTTTTGACCAACTCTTCCAGACCACTGGGACGGATTCGCAAACCACACCCCAGGCGATTTCGGCGCAAACATCGGGGCAGAACGTCGATCCCGTGGAGGCGGCGACCACCATCAGCGAGGACTACCGCCGGTACCTCACAACGCTCATGCAGCCACGCATCCCGGCGGTGGCGCACGCCCTAGACGACGCCCTCGCTACAGACGAATTCCTAGGCAGGGGTCCGTACCTCCAGCTCTCCCCCTCGTACGCTCCCGGACGTAGCGCTCGCGAGCTTATCGACGCCGGGATACTCCACACCTCGTTCGCCGAGCTTTTTGAAAGCCTGGACCTCGACCGTCCCCTCTACCGCCACCAAGAGAACTCACTCACCAAGATTCAGCGGGGCCGCAACGTCATCGTCTCGACGGGAACCGGTTCAGGCAAGACCGAGAGCTTCCTCCTTCCCATCGTCGATGACCTCCTGCGGCAGCGAGACAGCGGAAAACTAGGCCCCGGGGTTCGCGCGCTGCTCTTGTACCCCATGAACGCACTGGCGAACGACCAGGTCAAACGACTCCGCCAGTTACTTGCGCACACCCCCGACATCACTTTCGGTCGATACACGGGAGAAACCAAGACGAAGCGGAGCGATGCGCTGGAGTACTACAAGTCCATCGAAGGACTCAGCTCGAACCCCCTGCCCAACGAGCTCATCAGCAGGGAGGAAATGCAGGCGACGCCGCCCCACATTCTGCTGACGAACTACGCGATGCTGGAGTATCTCCTGCTTCGTCCTCGCGACACCGCGTTTTTCGACGGCGAACACGCCAACAGCTGGAAGTTCATCGTGATCGACGAGGCCCACGTCTACTCCGGCGCGCAGGGCACCGAGGTCGCCATGCTGCTCCGGCGTCTTCGCGATCGCGTGGAGAGATCCACCCCCCTACAGTGCATTGCCACATCTGCTTCCCTCCAAGGAGACAAGGCCAGGATCACGAAGTTCGGCAGCGACCTGTTCGGCACAACGTTCGAATGGGTAGACTCCGATCCCGCACGCCAGGATGTGGTATTCGCGGAAAAGACCGAGCACCCCGTGCAACCCACCTGGGAGCTTCCGGAACAGCTTTTCGACGCTGAATTCGCCGCAGGTGCACTCCTTGACACCGCCTCGGAATACGCCGAAGGCAACGGCCAGACGACCTTTGCCGCTCTTTCCAGCGAAAAACACGTCGTCTCCCTGCGCACGAACCTTTTGCAGCAGAGCAGGCCGATGTCGGAGCTAGCCGCTGCGTTGTGGCCGCAGAGCGATTCTTCAGCAGCCCTGAAGCGCTTGCACAATCTGGTCCTCCTAGGGGAGTCTGTCACCGACGGCGCAACCCCCGTCCTCTCCGCCCGGTACCACATGTTCGTCCGCGCCACGGAGGGCGCATACCTTTCCTTCTCCCCCGATTTGGCCCCCACCATCAGCCTTTCGCGCCAGACCCACAACGAGGGCAGCCCCTCGTTCCGCATGGGCACCTGCATCCGTTGCGGCGCAGTCCACCTGGGAGTGCGCCAGGAGGACCACATTCTCGTCCCGGATGTCTCCGCGAACGGAAAGTCCCCCGCGCAATGGGCTGTCATCGTCGACGATGAGCAAGACCCCCAGCTCGACGAGGAGGATTCGCTCATCTACGGGATTCAGGATGCGGACGAGGGCGCTTCTGTGCAGAGCCCCGTGCTCGGAATGTGCTCGCAGTGCGGTTGGCTGACCAGCCACGATTCCACAGTGTGCGGCAACAAAGAATGCGGAAGCAGCGCGATTCTGAGAATCCGGGTATTGGAAGCGACAAGAGGCGACAACAAGGCGCTCAAGTGCCTCGTCTGCGGAGGCAACTCCGAAGGGCAGATTCGAGAGCTCATGACAGACCGAAATGCGGCCCCTGCGGTGCTTACCTCTTCGCTCTTCCAGCTCTTACCGCAGTCGCGGGATCCGGAGAGCCAAGAGATGGTGGGGGGAGGCAGGAAGCTACTGACGTTTTCCGACTCCCGGCAGGCTGCGGCGTTTGCTGCCCCTTACCTCGAGAGCTCGTACAACCGGCTACTCCAGCGAAGGGCGATGGTCGAGGCGCTCCGGTCGGCCAACGGAAGCCCATTGGGCTTCACCGGCCTGTGCAACCGCACCATTTCAGTAGCCAAGAAGCACCGCCTGTTCCAGGGCTCCGGCGAAAGCGCGATGAGCCGGGAAGAAAGCCTGTGGCAGAACGTGACGACGGCCCTTTACGCCGACCTCGCTTCCACTCGCCGACGACTGTCGCTCGAGGGACTCGCACTCGCGAAGGTCGAAGTGAACGCAGACGCGCTGCGAGAACTTCGCTGCTTCCCTCGCATTGAAAAAATGTTTAGTCTTAAAGATCCACAGCACGGGAAGGATACCGCGCGTGCGTTTCTCAACGTGTTGATTCAAGAAATGCGGCAGCGCGGAGCACTCGTCGGTACCGTCGAAGTCGACTGGTCCTCCGAGCTGCTCTCCCCGAGAAATGCGCAATTCGCCTATCAGCGGCAAGGCGGAGGCGACCCAAAGCGGTGTCTCTACTCGTGGACCGCCGCGCGCAATACGAACAACCGTGAGAAGTTTGTCGGCCGGATACTCGACGCCCTGGGAATAAAGGAGAAGAAGGCGGAAAGGGTCCGCCAGGTCTTGTGCGAGGTATTTGATTCGCTCTCGGACAGCGACATCACCGAGGGAACCACGGAGCTGGCCGTAAAACCATCAGCTTTGGAGTTCACCCTCGGCGGCTCCGATGAATGGTACGAATGCGACACCTGCCGCAACATCACGGCCTTTAACGTCTTGGATCTCTGCCCCAACGGTTGGTGCAAGGGGACGCTGAGAACGCTAGATACCAATTCGAGTGCGTTCACCAGCGAACACTACCGACACATGGCGATGTCAATGGAGCTAGCGCCGCTGTCCGCCCGTGAGCACACCGCACAGTGGGTCCCGGAGAAGGCCGCCCGGATCCAGCAGGAATTCATCAAGGGCGCTATCAACGTCCTGAGCTGCTCAACAACGTTCGAGCTGGGCGTGGACGTCGGCGACTTACAATCGGTGGTCCTGCGAAACGTGCCCCCACGGACGGCCAACTACGTCCAGCGGGCGGGTCGCGCGGGCAGGCGCGCTGGATCCGCTGCATTCATTTTGACCTTCGCCAATCGCGCATCCCACGACCTGACCGTTTTTCGGGACCCCGGACAAATGATTGATGGGGCTATGGAGGCGCCGTTTATCAACACAAGCAATCCCCGAATTGCGGAGCGCCACCTGTACTCCATTGCGTTTGCAGCCTTCCTCCGAAGGCACGCGGACCGAGGAACCGAATGGAATCAAATCGGAGAGTTCATCTTGGGAGACAACAACTCTCCGGAAGGCCTCCCGCTGTTGGAGCAATTCGTTGCCGAGCTCCCCACCAGCGTGTCCGACGCGGCCCTTCGCGTCTTCCCGGACGAGATTCACCGCGAGATTGGATTGGACAGAAACCAATGGGTGAAGGGATTTCTCGAGCGTTGGCGGGACGCCACCGACGGGTTCCGCAGCGAGTACAACGAGCTCAAGGAACTACAAGATTCGTATTATGAGCATCAACAGGGAAAGAAAGGCGATGCCATCAGATACACCCTCCACACACTGAGCCGTGAACAGCTCTTTAGCTTCATGTCCAAGAAGAATCTCTTGCCCAAGTATGGATTCCCAGTTGACACCGTCGAGCTGGCAACGGCCTTCAGCCCGCGTGGATCCGAGCTCAACCTCTCTCGCGACCTCCAGCTCGCGATCAGTGACTACGCCCCGGGCTCAACGATGGTAGCCGGCAATCACCTGTGGGACGTCGTCGGACTACGGACGTTACCGCAGCGGGATCTTAAGAATTACTTCTGGAAACTGTGTTCTCACTGCCACCACGTGGAGTCCAGCCTCACCCCATTCGGCGCCCAGGCGGCATGCAGTCGATGCCACACGCCGTTTCCGGAAACCAAGACGAGGGAGTTCATCATTCCGCAGTTCGGTTTCATCGCCAAGCTGAACAGCAGGCCCGTGGGAATGGTGCGGCCGCAGGCCCGATGGAACCGCATCGAATTTGTCAAAGACTTCGGCACCCAACACGAAGAGAAGACGTATCGGGCTCCCCACAGCGAGGTACGGGCATCGTCGTGGACCCGCTCGGAAATGGGCATAGTTGAGATGGGAAGTGGCGCCGGATTCTGGTACTGCCCACGCTGTGGTTTCGCCGCTCGAGGTGCAAAGGCTCCGCAGTCCCACAACAACCCCCGCACGGAACACAATTGTTCCTATCGACTCGAGCTCAAGTCCTTAGGACACACATACCAAACGGACATTGCTTCCATTTCCATTCCCACGTGCGGCATAGAAGAGCCGGAATTCTGGCGCAGTGGGCTGTACGCACTGATCGAGTCTGCATCGGAACTGCTCGAAATCGACCGAAACGATTTGAACGGCACCATCGCTCAGTGGGAATCCCTGCCCACCATGGTGCTGTACGACACGGTCCCGGGCGGTGCGGGCATTTCCAAACGGATTATCGAAAATCTTCCCTCCATCGTGGAAGCCGCGCTCGAGCGCGTCTCGGGATGCACCTGCGGCGAGGACACGTCGTGCTACTCCTGCCTGCGCTCCTACCAAAACCAGCGGTACCACGAGGAATTGATGCGCAAGAATGCCATACAGCTTTTTAGCGCCATGAAGGAGGCGGTTTCGGCTGGCTAA	MELDDLFDQLFQTTGTDSQTTPQAISAQTSGQNVDPVEAATTISEDYRRYLTTLMQPRIPAVAHALDDALATDEFLGRGPYLQLSPSYAPGRSARELIDAGILHTSFAELFESLDLDRPLYRHQENSLTKIQRGRNVIVSTGTGSGKTESFLLPIVDDLLRQRDSGKLGPGVRALLLYPMNALANDQVKRLRQLLAHTPDITFGRYTGETKTKRSDALEYYKSIEGLSSNPLPNELISREEMQATPPHILLTNYAMLEYLLLRPRDTAFFDGEHANSWKFIVIDEAHVYSGAQGTEVAMLLRRLRDRVERSTPLQCIATSASLQGDKARITKFGSDLFGTTFEWVDSDPARQDVVFAEKTEHPVQPTWELPEQLFDAEFAAGALLDTASEYAEGNGQTTFAALSSEKHVVSLRTNLLQQSRPMSELAAALWPQSDSSAALKRLHNLVLLGESVTDGATPVLSARYHMFVRATEGAYLSFSPDLAPTISLSRQTHNEGSPSFRMGTCIRCGAVHLGVRQEDHILVPDVSANGKSPAQWAVIVDDEQDPQLDEEDSLIYGIQDADEGASVQSPVLGMCSQCGWLTSHDSTVCGNKECGSSAILRIRVLEATRGDNKALKCLVCGGNSEGQIRELMTDRNAAPAVLTSSLFQLLPQSRDPESQEMVGGGRKLLTFSDSRQAAAFAAPYLESSYNRLLQRRAMVEALRSANGSPLGFTGLCNRTISVAKKHRLFQGSGESAMSREESLWQNVTTALYADLASTRRRLSLEGLALAKVEVNADALRELRCFPRIEKMFSLKDPQHGKDTARAFLNVLIQEMRQRGALVGTVEVDWSSELLSPRNAQFAYQRQGGGDPKRCLYSWTAARNTNNREKFVGRILDALGIKEKKAERVRQVLCEVFDSLSDSDITEGTTELAVKPSALEFTLGGSDEWYECDTCRNITAFNVLDLCPNGWCKGTLRTLDTNSSAFTSEHYRHMAMSMELAPLSAREHTAQWVPEKAARIQQEFIKGAINVLSCSTTFELGVDVGDLQSVVLRNVPPRTANYVQRAGRAGRRAGSAAFILTFANRASHDLTVFRDPGQMIDGAMEAPFINTSNPRIAERHLYSIAFAAFLRRHADRGTEWNQIGEFILGDNNSPEGLPLLEQFVAELPTSVSDAALRVFPDEIHREIGLDRNQWVKGFLERWRDATDGFRSEYNELKELQDSYYEHQQGKKGDAIRYTLHTLSREQLFSFMSKKNLLPKYGFPVDTVELATAFSPRGSELNLSRDLQLAISDYAPGSTMVAGNHLWDVVGLRTLPQRDLKNYFWKLCSHCHHVESSLTPFGAQAACSRCHTPFPETKTREFIIPQFGFIAKLNSRPVGMVRPQARWNRIEFVKDFGTQHEEKTYRAPHSEVRASSWTRSEMGIVEMGSGAGFWYCPRCGFAARGAKAPQSHNNPRTEHNCSYRLELKSLGHTYQTDIASISIPTCGIEEPEFWRSGLYALIESASELLEIDRNDLNGTIAQWESLPTMVLYDTVPGGAGISKRIIENLPSIVEAALERVSGCTCGEDTSCYSCLRSYQNQRYHEELMRKNAIQLFSAMKEAVSAG				NA	NA	NA	NA	NA
AK009_07188	3714			hypothetical protein	ATGCTGGGCGTTCATGTTGGCGGACGGCACGTCTTCAACAATGCATTCGAATATCAGCCTTCCAATGTCGCCTGCCCGGATATTCTATCGATTATGAAAAGTGCGGTACACCACTCCAACGGCAGCAAGGAACTGCTCGCTGAGCGGCTCCGAGATGCAGAACACGCTGCGTCTTCTGATGAATACGTCCAGCAGACGACGGCGGCACTTTACGACGCATTGGCGTCTGTTAGGAATTCTCCCGGCTTCCTACCCGATGGCGAAAAGCCGATCATCGCGGACCTACACGTCGATAAGGCCGGATACGAACACGCCTTCAAAGCTCTGCGGACGGTGCTCGAGGGTCGCACCAACCCGACCGACATCCAGCAAACGCTCGACCAGAACTCGCTCCTGCTGCTCGTCGGGCTCACCGGGTATTCGATGACAAACGATGCCAGTTCATACTGGCAAAACTTCAGCGAATCGCTTGGGCTTGAGCAGCAGTCATGGTTCGAGGGCTATATTCGCGACAACCTAATCCGATGGCTGCGCCGCCACGGCTTGAATTCGTTCGAATCGGTGGACCTACGGCGAACCGGGTACCTTGCTCGAATAAACCTTAACGCCGGCATTACAGCGAGCGACGCAGTCTCGCTCAGCCGCACCATTCGCCGCCGCCTCGACGCCGGGGACGCCTCCGACTCCCCCGAGGCATTCGCAACCTTCTTGAGTGACAGGGCCGAGAACCAAGACGCTCCATGGACAATTAGGAACCTCTTTCGAGCAACGCCGGATCGCGCCAAGGACATCGTGCGCCGACTCTATGAAGTTGTGGCGATCCAAGGACGAGATGACGCATGGCTCGAGGGCTTTGAAGAGGGGGAAACGAACGGCCTTCCGGAGCCTGTGTTCAGGAAACTCACCGAGCATCTCGCAGACAAGGCTACCGACGACTCCACGTCAAACACAGCCCACAGCGTGCCCCGCGGCTCCGCCATGCCCTACGTGCAATTCGATCTCGAAAACCTCACCTGCAATGTCGTCCTTCCTCCGGTTCGACTGGAAGATCCAGATGATTTTTCGCCCATCGAACGCACCCTGCTCATCGATAACACCCCACGCACGGTTCGACAGCGACGCAACCTCAGCTCACACGAGTACGAAGCCCTGGCGGTAAACATAGACCGGCCCGTGCGCCTGGTATCGGAGGTTGTCGACGACGAGAAGAAGCAGATCGCCCGGTTACAAGACAAAGACTCAGTTGTCTTGTGGTTGAGCCGGAACGGAAAAATTAGGAGCGAACAGAAAACCGTCGGCGGCTCCTCGGCTGTTTGCCTCCTTAGGCCGGGAACAAAGGTCTCTCCTCCTTCTTCAACGACCGAGCTCGGAGAGGTACAGGGCTGGCCGGGATGGATCCTGGCAACCGTGGACGGAAGTGGCGACAGCATTTCGATCACCCGAGCATCCAGAAAGTGGAAGATTCCTGTCCGCGCCACTTCGGGGCCGAGCTGGAATTTCGAGGGCTGCGAAATAGCAAACCTGGTCGGGCAGAACGACCATCCTGTCCTCGGGAGCATCCCGACGATCACCTTTCCACAGGACCGGAATAGCTGGGAGATCGAGTACTTCTCTCGTTCTCCTGAGGGCACAGAGGAGAAGATCGACCAGTACACCGTCGAAGATGACGTGCGAGGTATCGAGATGCCCATCCTCGACGCCTACGACAACGAAGCGTGGGTCGGAGTTTTCGTCGTCAAGGTTTTCAAGAACAAGGTGCTGTACGATACGACGACCTTGAACCTGGCGGAAGGCCTCAACGCGAAGCTGAACTACGAGGGCACAAGGCAGTTCCGCGTCCTCAAGCCGGGTTCTTCACATACGACGCGCAGCACAGCCATTGAAGCGCTGAAAAACAGGAAGCTCTCCGATGCGTATGTGGAATTCACCTCTTCCATGAAGCCGCTGAACGTTCCGTCCGGTAGTAGGCGCACCACCGAGGAGGACGGGAAAGCCCGCGCGTTCACAATCTCGACCCCTGGGTACGCAAGCACTCAAGAACTGACCGTCAAGGTCAGGGCAGCTGCGATGAGCACCCGAATCAGCCGCATCGATGACGTCACGACGTGGACGTCGGCATTCCAGGTTCTCAATTTTGAGAGCATCGACCCGAATGGATCCTTCACCGTGAAGTTCCCTCAACGCGTGTACAAGGATGTCACTTTACAGGTTGCGCGAATGGGCAAGACCAGCCTTTCGGACCAGAAAAGCTACCGCCTCTCCCCTGCAACCTCGGGACCGCGCGGCACGCACTGGACCATCTCCTTAGGAAACATCCTTCCCCAGTTTAACAGCGACAGCGGTTACATCATCAGTGTTTCTTGGTACGATGAATCGCCCGAGGAGTACGCACGCAGGCATAATCCGGCGTGGAAGAAGCGAAGGAAGACTACCGACTTGCGTCCTACTCCGGCCCCCGTTCCCATCGCTCTTATCACCCGCCGGGCGCTGCTCGCATCGGTGTCCTGGGACGACCGAGATATCACGGCGAGCTTCGGCAGGAGCCCCATGGACGACGTCAGAGCGAAAGCCTGGAAGGTTCTGGATCCGATGGACCCCCCAACCGATCTCCAGGTGGAAGGAAAGTGGATTAGGGTACCGGAGGAACTTCAAAATGTGGGGCCGCTCGTCGTAGAACTGCACGAGGTTGGGTGGCTCGATTCCTGGGAGCCATCCGTGCCCTCGCCGAGCGCAAAGGTTGCGGACAACGGATCCATCAGCCCCTGGACAACGGCGATCCCCAACCGCTGGATGTACCTAAGGCACGATGTCAGGCTGAACGCGTCGGAGCTGCGCTCGGTGTGGGAGTACCGCCACGTCCTTGACCCAGTTCTCGGGGATTCCAATCAGGTCATCCAAGATTTCAAGGATGCTTCCGGCCACTACCTCCGCGCACAGCCTCGCCCGGCACTTAACGTGCTCAGCTCGACGACCTTGACGGAGGCCGAACGCCTCCACGCGTTCATTTCGTCGGGCTTGGTTCTTGAGAGCTTCGCCTCGGATGAAACCGGCGGGGACATCCACCCGACCCCGTGGGTCGGCCTATTACAGGAGGCAAACGACGTCGAAACGCTGGCGCACCAAGGACAGGCGGCTTCGGAGGAGTACCGAAACTCTAGGCAGTATCTCCAGCGGGTAGGTGGCCAAACACTATGGCACATGCTCTCGGGCGAAAAGGATGCCTCTGCAAACATTCCGACGCCGGAGCAGCTGACGAACATCGCAACCGGCGCCGTGAGAGAGGAGGAGAATCTCACTGCTGATTCGTCCCTGTCCGATTACGGGGACGCGCTCGCGCAGGCCCGCCGAGCGCGGGCGAACCTGCGCAAAGCGACAGATCTTCGTGAATTCGACCTCGCCCTTCAAAAGGTTGAGGATGTTCTTAGAATGTACAATCTTGGCTCGGCCTACCGGGCGACCACGTCGCTACGTGAATTGGGCGAGACCAACAATGAGGATTGGCTCCTCGTGCCCTACATCTCATATGTTTCCTCGCTCCTTGCACGCCTTATCGCCCATGGAGTGCTCGAGCCCCTGCCATGGTTGGAGAGCTACCTCCCGACATGGTCCTTTCTCGCCCGCCACGCTCCCGATCTGATTGCACACGATCTCGTTCACGCCGAAGCGGCAGTCATCAACTCGCACCGCCGACCCGGATACCGCCTGACTGACTAG	MLGVHVGGRHVFNNAFEYQPSNVACPDILSIMKSAVHHSNGSKELLAERLRDAEHAASSDEYVQQTTAALYDALASVRNSPGFLPDGEKPIIADLHVDKAGYEHAFKALRTVLEGRTNPTDIQQTLDQNSLLLLVGLTGYSMTNDASSYWQNFSESLGLEQQSWFEGYIRDNLIRWLRRHGLNSFESVDLRRTGYLARINLNAGITASDAVSLSRTIRRRLDAGDASDSPEAFATFLSDRAENQDAPWTIRNLFRATPDRAKDIVRRLYEVVAIQGRDDAWLEGFEEGETNGLPEPVFRKLTEHLADKATDDSTSNTAHSVPRGSAMPYVQFDLENLTCNVVLPPVRLEDPDDFSPIERTLLIDNTPRTVRQRRNLSSHEYEALAVNIDRPVRLVSEVVDDEKKQIARLQDKDSVVLWLSRNGKIRSEQKTVGGSSAVCLLRPGTKVSPPSSTTELGEVQGWPGWILATVDGSGDSISITRASRKWKIPVRATSGPSWNFEGCEIANLVGQNDHPVLGSIPTITFPQDRNSWEIEYFSRSPEGTEEKIDQYTVEDDVRGIEMPILDAYDNEAWVGVFVVKVFKNKVLYDTTTLNLAEGLNAKLNYEGTRQFRVLKPGSSHTTRSTAIEALKNRKLSDAYVEFTSSMKPLNVPSGSRRTTEEDGKARAFTISTPGYASTQELTVKVRAAAMSTRISRIDDVTTWTSAFQVLNFESIDPNGSFTVKFPQRVYKDVTLQVARMGKTSLSDQKSYRLSPATSGPRGTHWTISLGNILPQFNSDSGYIISVSWYDESPEEYARRHNPAWKKRRKTTDLRPTPAPVPIALITRRALLASVSWDDRDITASFGRSPMDDVRAKAWKVLDPMDPPTDLQVEGKWIRVPEELQNVGPLVVELHEVGWLDSWEPSVPSPSAKVADNGSISPWTTAIPNRWMYLRHDVRLNASELRSVWEYRHVLDPVLGDSNQVIQDFKDASGHYLRAQPRPALNVLSSTTLTEAERLHAFISSGLVLESFASDETGGDIHPTPWVGLLQEANDVETLAHQGQAASEEYRNSRQYLQRVGGQTLWHMLSGEKDASANIPTPEQLTNIATGAVREEENLTADSSLSDYGDALAQARRARANLRKATDLREFDLALQKVEDVLRMYNLGSAYRATTSLRELGETNNEDWLLVPYISYVSSLLARLIAHGVLEPLPWLESYLPTWSFLARHAPDLIAHDLVHAEAAVINSHRRPGYRLTD				NA	NA	NA	NA	NA
AK009_07191	1128			hypothetical protein	GTGCGGGAAGGAGGCACCCGCCTTGGTCAAGGCGATGCCTGCCTGCTTCGCCAGCTCCCACACCCGATCGGCGGTGCCGTCGATGACGTCAAGGGAGATGAAGTAACCGCCCTCAGGCTGTGTCCACCGCGCAACGTCGTACTCGCCGAGGCGCTCGTCGAGAATCTCGAGCACTGCCGAGAACTTCGGCGCCAGGGAGCCGGCGTGCTTGCGCATCAGTGCTCGCACGCCCTCGGCGTCGCCGAAGTAGCGCGAGTGCGCGAGCTGGTTGACCTTGTTCGGGCCGATCCCGCGGGTCCCTGCGATCTGGGAGTACCAGTTCAGGTTCTCCTTCGACGACGCGAAGAAGGACACCCCGGCACCCGCGAAGGTGATCTTGGACGTCGAGCTCATGTACCAGAACCGGTTGGGGTTTCCCTTTTCCGCGGCAATGGAAATAACGTCCGGGTTGTCTGGGAACTCATCCGTCAACGTGTGCACGGCGTAGGCGTTGTCCCACACGATGCGGAAGTCTGGGGCGGCTGTTTCCATCGCGGCGAGTCGCTCGACGATATCGCGGGAATAGGTAATGCCGGTGGGGTTGCCGAAGATGGGGACCGACCACATTCCCTTAACACAAGGATCTTTCACCAGCTCCTCGATCGCGGCCATGTCCGGGCCGTCCTCCAACATGGGCACCTGGACCATCTCGAAGCCGAACTGCTCGGTGATGGTGAAGTGGCGATCGTAGCCTGGCACCGGGCAGATCCACTTGACGTTGTCCTCGTCCTTCCACGGGCGCTCGGAATCGTTGTTGCCGAAAGCGTAGGAAAAGGAGATGAGGTCGAACATGATGTTGAGCGAGGATGCATCTCCCGCGATGAGGTTCGCGTGGTCGATGCCGACGACTTCGGCCCAGAGCTCGCGGATGTCCGCGATACCAGCGAGGTTGCCGTAGTTGCGCACGTCCGCGCCGGTGTTGTCGGTGTAATCACCCTCCCCCGGCAGCGCGAGGAGATCGTTGGAGAAGTCGAGTTGCTCCGCGGATGGCTTGCCGCGGGTCAGATCGAGCCTCAAGTCCTTGGCTTTGAGCTCCTCGTAGCGGGCGCGGACATCGGCGGCGAGCTGGTTGAGCTCGGTCTTGTCTAG	MREGGTRLGQGDACLLRQLPHPIGGAVDDVKGDEVTALRLCPPRNVVLAEALVENLEHCRELRRQGAGVLAHQCSHALGVAEVARVRELVDLVRADPAGPCDLGVPVQVLLRRREEGHPGTREGDLGRRAHVPEPVGVSLFRGNGNNVRVVWELIRQRVHGVGVVPHDAEVWGGCFHRGESLDDIAGIGNAGGVAEDGDRPHSLNTRIFHQLLDRGHVRAVLQHGHLDHLEAELLGDGEVAIVAWHRADPLDVVLVLPRALGIVVAESVGKGDEVEHDVERGCISRDEVRVVDADDFGPELADVRDTSEVAVVAHVRAGVVGVITLPRQREEIVGEVELLRGWLAAGQIEPQVLGFELLVAGADIGGELVELGLV				NA	NA	NA	NA	NA
AK009_07192	531			hypothetical protein	GTGACGGGCGACGAGGCAGCCGCCTGGATTGCGACGTTTCTGCCGGGCATGAGCTTGTCGCTTGTCGACGCTCGCCCTGTCGCCCTGGGCATCATCGACGGCCTCCCCACGGCTGTGACCGCCGGGTTTTCCACCGTGGACACCGGTCTTGTGATGCAGGATGACCAGGCCACGTCCGTGCGCTGCGAGCTGATCTGCCGTGCCGACGCGCAGCCGCACGCGGTAGCTGGTGCCGTGGTGGCCGCGACCCGAATGCTGGAAACGCTCGGCGTCCCCGCGCAGCCCGGTGTGCTGTTGGACGACCTGCAACCGCAGCACGCGCTGCGGCACGGATACCTGCGGGAACCCGAGATTTTCTCCCGGGGCACCCCGCTTTATAATGAGCCGGGTGTTATGACGCTGCTGCTCGAGTTGATCCTGCTCAGCGACGAGGAGCTCGCGATTCTGCGCGAGCGCGGTTACCCGGCTCTTCAGACGCGCCTGCGCCGCCGCGGCGCGAGCGTTGGGGACTGGGGCCGCGAGGTGGATTAA	MTGDEAAAWIATFLPGMSLSLVDARPVALGIIDGLPTAVTAGFSTVDTGLVMQDDQATSVRCELICRADAQPHAVAGAVVAATRMLETLGVPAQPGVLLDDLQPQHALRHGYLREPEIFSRGTPLYNEPGVMTLLLELILLSDEELAILRERGYPALQTRLRRRGASVGDWGREVD				NA	NA	NA	NA	NA
AK009_07193	951			hypothetical protein	ATGAGTTTTCGCGCGCGGGTCAGCACCGCCGTTTGTGTGGTGCTTGCGTTGCTGTTCGGCTCCGCACCGGTGCAGGCGGCGTCGTCGCAGGATGCGCTGCCGCAGTTCGACGGCCACGCGGGTGCGGTCCAGCGCCAGGGCAGCACCATGATGGCACCGGAGGGGACCAACGACCCGCGGTGCACAGCCGACGAGATCGTCGTGCTCGTGCACGGCACTGACGCGACCTTCTACGCGGACTACGCGCTCATTGGCGAAACGCTCGCCAGGTCCGGGTGGTGCGTTTACGGAATCGACTACGGCTACGGCGAAAACTCATACGGGTGGGCCCCGCTTGTCGACTCCGCCGCGCAGATCGACAGGTTGGTGAGCAGCGCGATGGCCACCTCGGGTGCGACGCGCGTGCACATGGTGGGGTATTCCCAGGGCGCAACCGTGACACGGTACTGGGTCAACGAGATGTCTCACGGCAGGGCCGCATCCTGGTTCGGGCTCGGCTCGCCCACCAATGGTGTGAACCTGCCCGGGATTGACCAGCAGCTGCACACGAGTTCGGCGCAGCAATCCGTCATCGCCCCGGCCTTGGTCGACCACGTGGGCGGCAGTGAGGTCATGCGCTCGCTGGCGCAGACGCCAATCATCGAGGGCGTGCGCTACGCCACCTTCGGAAGCCGATTTGACGGTGTGCTGCTTGCCATTGACCAGCGATTGCCCGGGGCGACGAACATCGTGTTGCAAGACGTCTGCCCGGCAGATCTTTCCGGGCATTTCTTCCTCCCGTACAACCCCACCGTTATCGAGGCGATTGTGCAGTGGCTTCGCGACGGCGAGATCGGGAAGTTGCCGTGCCAGCCCAGGGCTCTCGGCCACGGCGTGGCGGACCTGGCCATCGTGAGCAACTTCGGCAATGGGCAGCTCCCGCCGCCGGTGGTCTACCCGCCGTCGCCCTGA	MSFRARVSTAVCVVLALLFGSAPVQAASSQDALPQFDGHAGAVQRQGSTMMAPEGTNDPRCTADEIVVLVHGTDATFYADYALIGETLARSGWCVYGIDYGYGENSYGWAPLVDSAAQIDRLVSSAMATSGATRVHMVGYSQGATVTRYWVNEMSHGRAASWFGLGSPTNGVNLPGIDQQLHTSSAQQSVIAPALVDHVGGSEVMRSLAQTPIIEGVRYATFGSRFDGVLLAIDQRLPGATNIVLQDVCPADLSGHFFLPYNPTVIEAIVQWLRDGEIGKLPCQPRALGHGVADLAIVSNFGNGQLPPPVVYPPSP	PGPT0024445_1123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
AK009_07194	753			hypothetical protein	GTGGCCGGCCTCGATGACGTCGTCGATCGTGGCGAACATCGCGGCCGCGTCGCGGGATGCCAGGGCGTCAACGGTGGCGTCGATAAGCGAAAGCTCCGTGACCCCCAGCAGCGGGATCGCGAGATCGTACGTCAGGCCCTCGGGCCCGGAGCCGGCGAGCAGCTGGTCCAATATGGACAGGGTATCGCGCGGCGAACCCCCGCCGGCCTGGATGACCAGCGGATACACGGCATCCTCGACCGCCACACCTTCCTCGCGCACCACGTTTTCCAGCAGCTGGCGCATTGCCTGCGGGGTGAGCAGGCGGAACGGGTAGTTGTGGGTGCGCGAGCGGATCGTGCCCAGCATTTTCTCCGGCTCGGTGGTGGCGAAGACGAAGATGAGGTGCTCCGGCGGCTCTTCGACCACCTTGAGCAGGGCGTTGTTGCCCTGCGTCGATATCATGTGCGCCTCGTCGATGATGAAGACACGGTAGCGGAACTCGGCTGGGGCGAACAGTGCGCGCTCACGCAGCTCGCGCATGTCATCGACGCTGCCGTTCGACGCGGCGTCAAGTTCCATCACGTCCAGGTTGCCCGGCCCGCCCGGCGCCAGCGACACGCACGAAGGGCACTTGCCGCACGGCGTCGACGTCGGGCCCTCGACACAGTTGAGCGAGCGCGCCAAGATACGTGCCGACGACGTCTTGCCGCAGCCCCTCGGCCCGGAAAACAGGTACGCATGGTTGATCCGCCCGTTGTCCAGCGCCGTTGA	MAGLDDVVDRGEHRGRVAGCQGVNGGVDKRKLRDPQQRDREIVRQALGPGAGEQLVQYGQGIARRTPAGLDDQRIHGILDRHTFLAHHVFQQLAHCLRGEQAERVVVGARADRAQHFLRLGGGEDEDEVLRRLFDHLEQGVVALRRYHVRLVDDEDTVAELGWGEQCALTQLAHVIDAAVRRGVKFHHVQVARPARRQRHARRALAARRRRRALDTVERARQDTCRRRLAAAPRPGKQVRMVDPPVVQRR				NA	NA	NA	NA	NA
AK009_07195	792			hypothetical protein	TTGCTTATCGACGCCCGCCGGCGCAGGCTCCTCAGGCTCCGGCTCGCGCGGGGCCTTTTTCGCGTTCGGGTTCCACACCTGCGCGGCTGGGGCGTCCGACGGTGTAAACCCCGCCTTGCTGGGGTCGGTGCCCACGACGCAGCGCACCTTAATCGGCGTGCCCAGGTGCTCGGAGAACACAGCGGCAATGTCGGTGTTGTTGGACTCTGCGTTGATACGCTCGGCGAGCGCGCCGGTGTTGTGGCCGACAACGAGGGTGTCGTCCTCCATGCCGAGGGGTTTGGCCTCGGTGAGCATGATCTCGGCGACCTTGTTGCGCGCGCCCACGGCCTGGCGCATGCGCGTGAAATCGGCGCGGACCTTGTCAAAGAGGTCGCCCTCGTCAGCAGCGGCAGCAACAGCGGGCTCGGGTTTGTCCGGCTTCTCCGTTTTCTGCGGCGGGGGCGGCTTCTGCGGCCCCGGGGTAGACGTGGTGCGCGGGGCGCGCTTCTCGCCGGCGGCGGCTGCCGCTGCCGCAGCTGCGGCCGCTCCCGAGGCTTTCTTGGTCACCGGCGCCGGCTGCGCGGGCTGGGTCGGCAGGTCCGGACCCGGCAACTGCGCGGGCGCGGAGACCTCGGGGGTGGTGATCAGGTGCGCCATCATCACCTCGAGCAGCAGGCGCGGACTGGTCGCCCCGCGCAGCGACACCATCCGCTCGTTGACCTCGGAGGCCAGGGTAGCCAGCTCGTTTCCGGAGAAGCGCTCCGCCTGCCCGCGCAGCACCGCCTCCCGCTCCGTCGGCGCGTTGACTAG	MLIDARRRRLLRLRLARGLFRVRVPHLRGWGVRRCKPRLAGVGAHDAAHLNRRAQVLGEHSGNVGVVGLCVDTLGERAGVVADNEGVVLHAEGFGLGEHDLGDLVARAHGLAHAREIGADLVKEVALVSSGSNSGLGFVRLLRFLRRGRLLRPRGRRGARGALLAGGGCRCRSCGRSRGFLGHRRRLRGLGRQVRTRQLRGRGDLGGGDQVRHHHLEQQARTGRPAQRHHPLVDLGGQGSQLVSGEALRLPAQHRLPLRRRVD				NA	NA	NA	NA	NA
AK009_07196	651			hypothetical protein	GTGAACATTGACCTCCCAATAGGAAAAGGCTTAAAAATGAAGCGCATTCTCGCAGTATCCGGGGCTATCAGCCTCGCCCTCCTCACCGCGGCGTGTGCCGAGGGCGACACCACTACCCAGGCAACCTCGTCGTCCATGGCATCGTCTGAAGCCAACACCTCAATGGCCAACACGTCAATGGAAGAGACGACCGCGGAGGCCACGTCCGCTGAGGCCGCTGCAAACGGCGACATCGTTGACACCGCAGTAGGTGCAGGATCGTTCAACACCTTAGTGTCCGCCGTCCAAGCGGCGGGCCTGGAAGATACCTTGAGGGGCGAGGGTCCGTTCACGGTTTTCGCGCCGACCGATGAAGCGTTCGACGCATTGCCGGAGGGCACCCTCGATGAGCTTCTTGCCGATCCGGAGGGTGACCTCGCGGAAATCTTGAAGTACCACGTCGTCTCCGGCGAGGTTCCCGCAGCCGACATTGCGATGATGGACGGACAGACCATCGAAACAGTTCAGGGTGGCACTCTCACCGTGGAAGTTGACGGTGACAAGGTTGCACTGGTCGACGCCGCTGGAAACCGCGTCAACGTCGTCACCACGGACGTCGAGGCGGATAACGGTGTCATCCACGTCATCGACGGTGTCCTAAGCCCGATGTAG	MNIDLPIGKGLKMKRILAVSGAISLALLTAACAEGDTTTQATSSSMASSEANTSMANTSMEETTAEATSAEAAANGDIVDTAVGAGSFNTLVSAVQAAGLEDTLRGEGPFTVFAPTDEAFDALPEGTLDELLADPEGDLAEILKYHVVSGEVPAADIAMMDGQTIETVQGGTLTVEVDGDKVALVDAAGNRVNVVTTDVEADNGVIHVIDGVLSPM				NA	NA	NA	NA	NA
AK009_07197	663	idi_2	COG1443	Isopentenyl-diphosphate Delta-isomerase	ATGATTGGCGACAGCCCCCTTTCTCAAGCTCGGCCATACCGCGGCCCGACGGTGTTACAAACCCCGAGCGCCTGCGGGGCAAAAGAATGGAACGTGAACATGGTTAACGACGTCGAGATGGTAGTTCTAGCAGACAGAAATGGAAGACCTGCTGGCTCTGCGCCAAAAGCGTCGATTCACACGTCCAACACGCCGCTTCATTTCGCTTTCTCCTGTTTTCTTCTCGACGAGCGCGGGAAACTGCTCGTGACTCGCCGCGCCCTGAGCAAGAAGACGTGGCCGGGCGTGTGGACCAACAGCTTTTGTGGCCATCCTGCGCCGGGAGAAACCACTCTTGAGGCGGTCGAACGTCGAAACTGCCAAGAGCTGGGATGCGAGCCAGGGTCACTTCACGGGATATCGGCCATCCTCCCGGATTTTAGCTACCGGGCTGTTGATTCAAGCGGAATCGTTGAGAATGAAATCTGCCCCGTCTTCGTGGCCCACTTGAAACCAGGCGCGGCGCTGGACCCTCACCCACACGAAGTTGACTCTCATGTGTGGATTGATCCGGAAGCCCTGATCGCGGCGGTGAACGCCACGCCTTTCGCGTTCAGCCCCTGGCTCGTGGAAGAACTTGCGGATACACGTCTGCAGGAAGCTATCCTCCAGAAACGCGCGTGA	MIGDSPLSQARPYRGPTVLQTPSACGAKEWNVNMVNDVEMVVLADRNGRPAGSAPKASIHTSNTPLHFAFSCFLLDERGKLLVTRRALSKKTWPGVWTNSFCGHPAPGETTLEAVERRNCQELGCEPGSLHGISAILPDFSYRAVDSSGIVENEICPVFVAHLKPGAALDPHPHEVDSHVWIDPEALIAAVNATPFAFSPWLVEELADTRLQEAILQKRA	PGPT0007530_2978	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
AK009_07198	366		COG0718	Nucleoid-associated protein	GTGACCCAACCAAACCAGCCGAGCATGCCGAACGACATGCAGGAACTCATCCGCCAGGCCGCCGAGATGCAGGCTCACCTGCAGCGCGCGCAGCAGGAACTACTCAGCACCACCGTTGAAGGCACCGCGGGCGGCGGGCTGGTCACCGTCACCATGACCGGCGGCGCTGAAATCACCGACCTGTCCATTAAGCCCGAGGTTGTGGATCCGGAGGACGTCGAGACGCTGCAGGACCTCATCCTCGCCGCCTACCGCGACGCGCACACCAAGGCCGGCCGCCTCGCCGAGGATAAGATCGGCCCGCTGGCCAACCCGGGTGGCGCCCAGCAGGGCCCCGGCGAGATCCCGTTCGGCGGCCTTATCTAA	MTQPNQPSMPNDMQELIRQAAEMQAHLQRAQQELLSTTVEGTAGGGLVTVTMTGGAEITDLSIKPEVVDPEDVETLQDLILAAYRDAHTKAGRLAEDKIGPLANPGGAQQGPGEIPFGGLI				NA	NA	NA	NA	NA
AK009_07199	501			hypothetical protein	GTGCACGTTGGGCGCCTCCGCGCCCTCGACATCCGGCAGCACCGCGCCGATGCGCTGCAGAAGTGCGGCGATGGACAGGTCCTTCGGCCCGACATTGGCCAGCGGGTCCAGCGCGCCGCCGAGCACGTGGTAGCGCCCGCGGAACTCGCCGGTGCGCTCGATGACCTGGATGTCTTTTGCGTCCTCGACCACGCACACCAGGCCCGCGTCGCGCGACGAGTCCGCGCAGATGCGGCAGACCTCCTCGCGCGAGACGTTAGAGCAGATGCGGCAAAAGGTCACCCCGTCGCGCACAGCGTTAAGCGCGCCGATGAGGCGATCGACGTCGTCCGGGTCCTGCTTGAGCAGGTAGAACGCGATGCGCTGGGCGCTTTTCGGGCCGACGCCCGGCAGGCGGGACAGCTCGTCGATAAGGTCCTGCAGCGGGCCTTCAAACATCAGCGCACCTTCCTTCAACGCTCCAAAAAGCGCCCGGCAGTCATGCCAGGCGCCTTAATGTAA	MHVGRLRALDIRQHRADALQKCGDGQVLRPDIGQRVQRAAEHVVAPAELAGALDDLDVFCVLDHAHQARVARRVRADAADLLARDVRADAAKGHPVAHSVKRADEAIDVVRVLLEQVERDALGAFRADARQAGQLVDKVLQRAFKHQRTFLQRSKKRPAVMPGALM				NA	NA	NA	NA	NA
AK009_07200	729	gatD		Lipid II isoglutaminyl synthase (glutamine-hydrolyzing) subunit GatD	GTGGTTAGAGCGTCGAGAAGCGTGCGTATTGGGCTTGTCCTGCCGGACGTGTTGGGCACCTACGGCGATGACGGTAACGCGCTGGTGCTGCGCCAGCGCGCGCGGATGCGCGGGATGAGCGCTGAGGTCGAGCGGATCGGGCTTGACGACGCCATCCCCGACGACTGCGACATCTACAGCATCGGCGGCGGCGAGGATTCCGCCCAGGTCATCGCCGCCGCGCGGCTCGCCGCCTCGCCGGGGCTGCAGTCCGCCGCAGCCGATGGCCGCCCCATCTTCGCGGTTTGCGCGGGCATGCAGGTGCTCGGCCGCACCTTTACCGCCCACGGAGACACCGTCGATGGCCTCGGGCTTATCGACGTCACCACCTCCCCCATGCGCACCCGCGCCATCGGAGAGATCGCGTCGGCCCCCTCCCGCGCTGGAATCACCGCGGGGCTGACGGAGACGCTTACCGGGTTTGAAAACCACATGGGTGGCACGGTGCTTGGCGACGACGCCGAGGCCCTAGGTAGCGTCAAGCGCGGCGTGGGCAATGCCGAAGAAACAAGCGTCGAGGGCGTGGTGCAGGGCAGTGTGATCGCCACGTACATGCACGGCCCGGCGCTGGCGCGCAACCCGCAGCTCGCGGACCTGCTGTTGGCCTACGCGCTCGGGATCCCGATGAGCGATCTGGAGCCTCTGGAGCTCGCCGAGATCGACCGGCTGCGCCTCGAGCGGCTGCGCTAG	MVRASRSVRIGLVLPDVLGTYGDDGNALVLRQRARMRGMSAEVERIGLDDAIPDDCDIYSIGGGEDSAQVIAAARLAASPGLQSAAADGRPIFAVCAGMQVLGRTFTAHGDTVDGLGLIDVTTSPMRTRAIGEIASAPSRAGITAGLTETLTGFENHMGGTVLGDDAEALGSVKRGVGNAEETSVEGVVQGSVIATYMHGPALARNPQLADLLLAYALGIPMSDLEPLELAEIDRLRLERLR	PGPT0023770_636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-LIPID_II_ISOGLUTAMINYL_SYNTHASE,PGPT0023770-gatD-K07009	NA	NA
AK009_07201	186			hypothetical protein	ATGCTCGATGCCCGCGTACAACAGGCGCACCGCGAGATCCGTGCCGCGCTCGCCGGCGGCGACCACCTTGAGCCCCTCGAAGTCCTCGAACTTGACGTCCCACAGCCAGGACAGGTCCTCGCCGTCGGCGACCTGGCCGTTGGTGGCGATCACCAGCCCGTCGGCGCTGCGGTCGACCATGCTTAA	MLDARVQQAHREIRAALAGGDHLEPLEVLELDVPQPGQVLAVGDLAVGGDHQPVGAAVDHA				NA	NA	NA	NA	NA
AK009_07202	948			hypothetical protein	GTGCACCTCCCGCTCGCCCAGGTGGACGCTGGAGTAGCGGCCCGCGACGTTGTCGACGGCCTCGGTGGCGCGGACCGCCTTCTCAAACGGCACGCCGAAGGCCTCGACGGCAGCGGCGATGGCCTGGGCGGCGTTGCCCAGGTTCGCGCGCCCAGGGATGCTCAACTTCAGCTCGGTTGTGCCGTGGGGGGTGTGCAGCGTGGTGCCCTCGAGCCAGTAGGTGGGGGAGGGACGGCGGAACTCGCGGCCGTCGGCAAGCTTTTCCACGCCGTACCAGTCGCCGTCGGCCTGCACGACGTGGCCGCCGGAGCGCGGGTTGGTCACCGAATCGCCCAGCCAACCGGCCCCGGCAGCAACCCACACCACGTTGGGGTGATCGTACGCCACGGACGTCATCAGGACGTCGTCGCAGTTCGCGATCACCGTCATGTCCGGGTGTTCGTTGACGGCACCGCGCAGTGTGCGCTCGATCTTGTTGATCTCGCCGACGCGGTCGAGCTGGTCGCGCGAGAGGTTGAGCAGCACCAGTGCCTTCGGATCGAGGCGCTCGGCGACCTTCGGCACGTGCAGCTCGTCGACCTCCAGCGCGATGTGGGAAGCGCGGCGGCCCGCCATGAGCGCCGAGATGATGCCGGCGTCCATGTTGTCGCCGCCGTCGTTCGTGGCCACCGTGTGGCTCACCGCGAGTGCGCCGGCGAGCATGCGCGTGGTGGTGGACTTGCCGTTGGTGCCCGTGACCAGCACCGCGGGGCGCCCGCCGGACAGGGACTGCATGATCGAGGGGTCAATCGCACCCGCGACGAGCCCGCCGATCATGCCGCCAGCACCGCGGCCGGTCGCTCTCGAGGCGGTGGTGGCCAGCGACGCCGCCGTGACCGCAGCACGCGAACGCAGCCGGGAAAGTGGACCTCTTTTCATGCGCTCCACCCTACGCCTAACGGCGGTTAA	MHLPLAQVDAGVAARDVVDGLGGADRLLKRHAEGLDGSGDGLGGVAQVRAPRDAQLQLGCAVGGVQRGALEPVGGGGTAELAAVGKLFHAVPVAVGLHDVAAGARVGHRIAQPTGPGSNPHHVGVIVRHGRHQDVVAVRDHRHVRVFVDGTAQCALDLVDLADAVELVAREVEQHQCLRIEALGDLRHVQLVDLQRDVGSAAARHERRDDAGVHVVAAVVRGHRVAHRECAGEHARGGGLAVGARDQHRGAPAGQGLHDRGVNRTRDEPADHAASTAAGRSRGGGGQRRRRDRSTRTQPGKWTSFHALHPTPNGG				NA	NA	NA	NA	NA
AK009_07203	855			hypothetical protein	GTGCTGAACACCGGCTCCGACCCCGGCCCGCGTCACAACCACGGCCTTGAGCCGAGCGACTTCGCCCAGGCACCGCGCTTCTCGCGGCATCTAAAGACGCTGGATCGCCTTATCGACGACCGAACGCTCGTGCTTCACGACGCCCCCCTGGCGTGGGGGTTCATCGTCTCCGAGGCCCGGCGCGCGATGACCGCCGCCGCCCGGGCGAACCGGTCGCGCGCGAAGCGCGGCGGCAGGCGCCGCCAGCGCGTCGGGCATGTGCCGCGCCCGACCGCGATTGTGGACACGCTGGCGAGTGCGCGTCGTCAAGGCGAAATCCCGCTCGATATCCGCCCCGCCGCTGTGGCGCGGCTGATCGGTTTGAGCGCCGAGGACCCTGCGGCCTCGGTGGAGCGCGCACTGCGCCCGGAGGAAGATACCTCTCGCGAGCAGACGCTGCTGATCAAGGACCTGTTCTTCGCGCTGCGCGAAAGCGGTGAGCTGGCGCAGGTCGTGCCGGACGACCTCGTGGCCGACCGCTTCGGGCTGCAGCGCTCGATCGTGCGCGTGGATGCCGAAAACGACACAGCAACCGCCGAGAATCCGGGCCCGTACACCGCGTCCGGTGGGCTAAAAGAGGGCATGGAGATCGTTGTCACCGACGACGTCGCGGCAAACCCGGACGAGATTATCTCGGCTGCCCTCGACCACGGCCTGAGCTACGTGGAGAAGCTCTCGCGCCAGACCTCGCTCGTGGTCTCGGACGCCAAGGCCACGGGCACGCCGCTGCTCGGCAAAGCGATGCACGCGGACCGCAAGGGCATCCCGGTGCTCTCGGTCGAGGAGTTTGAACGCGCCGTGGCGCGCCTGGGTTAA	MLNTGSDPGPRHNHGLEPSDFAQAPRFSRHLKTLDRLIDDRTLVLHDAPLAWGFIVSEARRAMTAAARANRSRAKRGGRRRQRVGHVPRPTAIVDTLASARRQGEIPLDIRPAAVARLIGLSAEDPAASVERALRPEEDTSREQTLLIKDLFFALRESGELAQVVPDDLVADRFGLQRSIVRVDAENDTATAENPGPYTASGGLKEGMEIVVTDDVAANPDEIISAALDHGLSYVEKLSRQTSLVVSDAKATGTPLLGKAMHADRKGIPVLSVEEFERAVARLG				NA	NA	NA	NA	NA
AK009_07204	1977			hypothetical protein	ATGCCCGTGGTGACCACACTCACCGCCACGAACGGGAAATTGTCCGGCACGGGTTTACACCCCGCCGGTCGGCGCGGAGGTCAGGCCGCGGTTGACCGCCGACACCATCGCCTTGAGCGACGCCCGCGTGGTCGAGCCGGCGATACCCACGCCCCACACGGTCGCACCGTTGACCTCGGCGCGGATGTAGCAGGCGGCGTCGGCGTCGTCACCCGCCGAGCGCGAACGCTGCGTGTAATCCTGGACCTCGAAGTCAATGCCAATGGCTTCCAGCGCCTGCGCAAACGCAGCGACGGGGCCGTTGCCGGAGCCGCGCAGCGAGTGGTTTTCGCCATTAAAGGCCACCTCGACCTCGATGGAAGAGTCCTCGTCCTCGTTAACCGCGCCGGTGACCTCGTAGCTGACCAAGTCCAGCGGCGAATCCAGGTCCAGGTAGGTCGCGGCGAAGATGTCCCACATGTTCTTGGAGTTGACCTCGCCGCCCTCGGTGTCAGTGATGGCCTGCACCACCGCGGAGAACTCCGGCTGCATCGGCTTGGGCATGTTGATGCCGTGGTCCGTCTTCATGATGTAGGCCACCCCGCCCTTGCCGGACTGGGAGTTGACGCGGATCACGGCCTCGTAGGTGCGGCCGACGTCCTTGGGGTCGATCGGCAGGTAGGGCACCTCCCACACGGTCTCGCGCAGCTCCTCCCAGCGCACGTCGGTGGACGACGCCCCGGGGCGTACCTTCTGGGCCAGCGCGTCGAGGCCCTTGTTCACCGCGTCCTGGTGCGAGCCGGAGAACGCAGTGAACACCAGGTCGCCGCCGTAGGGGTGGCGCTCGGGAACGCGCAGCTGGTTGCAGTACTCCACGATCTCGCGGATGCGGTTGATGTCGGAGAAGTCGATCTGCGGGTCAACGCCCTGGGTGAGCATGTTCAGGCCCAGGGTGACCAAGTCGACGTTGCCGGTGCGCTCGCCGTTGCCGAACAGGCAGCCCTCGATGCGGTCCGCGCCGGCGAGGTAGCCCAGCTCGGCGGCAGCCACGCCCTCGCCGCGGTCGTTGTGGGGGTGCAGCGACAAGATGATGGAGTCGCGCTTGGCCAGGTTTCGGTGCATCCACTCGATGGAGTCGGCGTAGACGTTCGGGGTGATCATCTCCACCGTGGACGGCAGGTTGATGATCATCGGGTTGTCCGGGGTCGCGCCCATGATGTCGACCACCGCGTCGCACACCTCAAGCGCGAAGTCCAGCTCGGTGCCGGTGTAGGACTCCGGCGAGTACTCCCAGCGCCAGTGGGTGTCGGGGTAGTCGGCGGCGATGGTCTTGATCAGCTCGGCGGCGTCGGTGGCGAGCTTCTTGATCGCCGCGCGATCCTTGCGGAACACCACCTCGCGCTGCAGCTTGGAGGTGGAGTTGTAGAAGTGCACGATGACGTTCTTGGCGCCCGCGCAGGCCTCGAAGGTGCGGCGGATCAGGTGCTCGCGCGCCTGCACGAGGACCTGGATGGTCACGTCCTCGGGGATCATGTCCTGCTCGATGATCTCTCGCACGAAGTCGAAGTCCGTCTGCGACGCCGAGGGGAAGCCGACCTCGATCTCCTTGTAGCCCATCTGTACGAGCAGGTTGAACATCCGGCGCTTGCGCTCGGGGCTCATCGGGTCTATCAGCGCCTGGTTGCCGTCGCGCAGGTCCACGGCGCACCACTGCGGCGCGGAGGTGATTTTCTTATCCGGCCAGGTGCGATCCGGCAGGATGATGTCCTCTACCTCTTGCGCAAACGACAGGTAGCGCGATACTGGCATGAGGGAACCACGCTGCTTGTTCCACGCGGGCTGTCCCTCGCGGCGGGGACCAGACGGGGTGCGGATGTCGTTCGGGGCGCTAAATTGCGGGTTCAGGGGGCTCATGGTGGGTCTCAAATCCTCGTTCTCGGGTGGGTTCTTCCACGGCCGGCAACGACAATCTCCGCGGCGGGGTGCCGGCCGTGCTAA	MPVVTTLTATNGKLSGTGLHPAGRRGGQAAVDRRHHRLERRPRGRAGDTHAPHGRTVDLGADVAGGVGVVTRRARTLRVILDLEVNANGFQRLRKRSDGAVAGAAQRVVFAIKGHLDLDGRVLVLVNRAGDLVADQVQRRIQVQVGRGEDVPHVLGVDLAALGVSDGLHHRGELRLHRLGHVDAVVRLHDVGHPALAGLGVDADHGLVGAADVLGVDRQVGHLPHGLAQLLPAHVGGRRPGAYLLGQRVEALVHRVLVRAGERSEHQVAAVGVALGNAQLVAVLHDLADAVDVGEVDLRVNALGEHVQAQGDQVDVAGALAVAEQAALDAVRAGEVAQLGGSHALAAVVVGVQRQDDGVALGQVSVHPLDGVGVDVRGDHLHRGRQVDDHRVVRGRAHDVDHRVAHLKREVQLGAGVGLRRVLPAPVGVGVVGGDGLDQLGGVGGELLDRRAILAEHHLALQLGGGVVEVHDDVLGARAGLEGAADQVLARLHEDLDGHVLGDHVLLDDLSHEVEVRLRRRGEADLDLLVAHLYEQVEHPALALGAHRVYQRLVAVAQVHGAPLRRGGDFLIRPGAIRQDDVLYLLRKRQVARYWHEGTTLLVPRGLSLAAGTRRGADVVRGAKLRVQGAHGGSQILVLGWVLPRPATTISAAGCRPC				NA	NA	NA	NA	NA
AK009_07205	774			hypothetical protein	GTGGATGCCCGTGCACAACAACGCCCTCGCCATCTCGTTCGCGCTTCTGTCCGCGGTGACGATTGCGGTGGGCACGGTGTGGCGCCACCACATCTTGCGGGCGGGGCTCAGCCGCACCGAGGCCAACAGCACTCCATTGAGCGCGATGCGCCGCCCGCAGTGGTGGCTGTCGATACTGCTCGCTTTCGTTGCTTACGCCCTTCAGGCGCTCGCGCTGGCCTTCGGGTCACTGCTGGTGGTGCAGCCGATCCTGGTCCTGTCGCTGATGTTTACGCTGGTTCTCGCCGCGCGCGTCGAACACCGACGGATGGAACCTGCCGAGACGCTCTGGGCCTTCGTGCTCACCGCGTGCGTTGGTGTCGTGGTCATCCTCGGCCGCCCGCTGCCGGGTGCGCGCTCCGCGCCCGACTGGGAGTGGGCGACGGTCATCGGCGTCGGGGCGGTTGCGTGCGCGATCATTTTCGCCCTTGCTTATCGACGCTCCCCCGCCGCCCAGGCCCTCCTCTACGGCATCGTCTGCGGCGCCGTCTTCGGCTACCTCGCGGTGTTTTCCAAGGTGGCGGTCGACGCGTTCGCCGCTGGCGGCCTGCCCGCGATGCTTTCCACGTGGCAGTTCTGGGCGATGGTTGTTTCCTCCCTGTTTGGCACTGTGGTGCAGCAGTACGCCTTCGGCGCAGGGGTGCTTTCGCGTTCCCTGCCCGCCATGAAGATCGTGGAGCCGCTCATCGCACTCTTCCTCGGCCTGTCTATCCTGGGCGAATACTTGCAGGTTGA	MDARAQQRPRHLVRASVRGDDCGGHGVAPPHLAGGAQPHRGQQHSIERDAPPAVVAVDTARFRCLRPSGARAGLRVTAGGAADPGPVADVYAGSRRARRTPTDGTCRDALGLRAHRVRWCRGHPRPPAAGCALRARLGVGDGHRRRGGCVRDHFRPCLSTLPRRPGPPLRHRLRRRLRLPRGVFQGGGRRVRRWRPARDAFHVAVLGDGCFLPVWHCGAAVRLRRRGAFAFPARHEDRGAAHRTLPRPVYPGRILAG				NA	NA	NA	NA	NA
AK009_07206	1260			hypothetical protein	GTGCAGCGCACGCGCGGCCTCGGGCAGGTCCTCCTGGCGCACCACGGCGGTGATGCGGATTTCGGAGGTGGTGATCATTTCAATGTTGATGCCCGCGTCGCGCAGCGCCTCGGTGAAGTCGGCGGTAACGCCCGGGTGGGACTTCATGCCGGCACCGACGAGGGACACCTTGCCGATGTTGTCGTTGTAGCTGACCTCGTCCCACCCCTCGGCGGACGCGAGAGCGCGCAGCAGTTCGACACCGCGTTGGCCGTCGGCAAGCGGGAGCGTGAACGTGATGTCGGTCTTGTTGTCTTCGGCCGAGGAGATGTTCTGCAGCACCATGTCGATGTTGATCTCGGCGTCCGCGAGCGCGCGGAACACCTTGGCCGCCTCGCCGGGGGTGTCCGGGATGCCGAGGATAGTTATCTTCGCCTCGGAGTTGTCGGTGGCCACACCGGACAGGACTGCTTCTTCCACGGGGATATCCTCCAATGCTCCGGCAACCAGCGTGCCGGTGTCGTTGCTGTAAGACGAGCGTACCCGCAGGGGCACGTTGAAGGCGCGGGCGTACTCGACGCTGCGCAGGACCAAGATCTTCGAGCCACTCGCCGCGAGCTCGAGCATCTCCTCGAAGCAGAGCTGATCCAGCTTGCGGGCGTCGGGCACGATGCGCGGGTCGGCGGTGTAGACGCCGTCGACATCGGAGTAGATCTCGCACTCGTCCGCGCCCATCGCCGCGGCGAGCGCCACGGCGGTGGTGTCGGAGCCGCCGCGGCCCAGCGTCGTGATGTCGCGGGTGTCGCGGTTGACCCCCTGGAACCCGGCGACGATCGCGATCTTGCCCTGCTGCACCGCCTCCTGGACGCGGCCCGGGGTGACCTCGATGATGCGGGCGTTGCCGTGGCGCTCGGTGGTGATCACGCCCGCCTGCGAGCCGGTGAACGACTGCACGTCCACGCCGTGGGCCGCGACCGCCATGGCGACAAGGGAGTTGGAGATGCGCTCGCCGGCGGTGAGCAGCATGTCCATCTCGCGCAGCGGCGGCGTGGGGTTGACCTGGCTGGCCAAATCCAGCAGCTCGTCGGTGGTGTCACCCATTGCGGAGCAGACGACCACGACGTCGTTGCCCGCGTTGCGGGTGGCCACGACGCGCTCGGCGACGGCGCGAATGCGCTCGGCACTTTCGAGGGAGGACCCCCCGTACTTCTGCACAATCAGAGCCATGCCTTCTTCAGTCACCTTCCGGTTCGCGGTTTTTTAAAATGCGCATACCGATAA	MQRTRGLGQVLLAHHGGDADFGGGDHFNVDARVAQRLGEVGGNARVGLHAGTDEGHLADVVVVADLVPPLGGRESAQQFDTALAVGKRERERDVGLVVFGRGDVLQHHVDVDLGVRERAEHLGRLAGGVRDAEDSYLRLGVVGGHTGQDCFFHGDILQCSGNQRAGVVAVRRAYPQGHVEGAGVLDAAQDQDLRATRRELEHLLEAELIQLAGVGHDARVGGVDAVDIGVDLALVRAHRRGERHGGGVGAAAAQRRDVAGVAVDPLEPGDDRDLALLHRLLDAARGDLDDAGVAVALGGDHARLRAGERLHVHAVGRDRHGDKGVGDALAGGEQHVHLAQRRRGVDLAGQIQQLVGGVTHCGADDHDVVARVAGGHDALGDGANALGTFEGGPPVLLHNQSHAFFSHLPVRGFLKCAYR				NA	NA	NA	NA	NA
AK009_07207	825			hypothetical protein	GTGGACAACCATGGTGTGGCCTGTGAACACGGGCACGCGCACGCAGGTGCCGGAGACCAAAAGATCCGGCAGGCCGAGGATCTTGCGCGACTCGTTGCGCAGCTTCTGCTCCTCGTCCGTCTCCTCGGTGCCGTCGTCGACCAGATTGCCAGCCAGTGGCAGCACATTGTATGCGATTGGTGCGACGTAGGGCCCCAGATCTTCTGGCTGCATGAGCGATCCGTCGCGGGTCAGTTCGGGGGCTCGTTCGCCGATTTGCTCAACCTGATGCGCCAGCGTATCGACACCCGCCAGTCCCGAGCCCGACACCGCCTGGTACGACGCGACGCGCAGGCTGCGCAGCCCGGCGGCGTCGTGCAGGGCCTTCGCCACGGGCATCGCGGCCATCGTCGTGCAGTTCGGGTTGGCGATGATGCCCTTCTTCACCTGCGCCGCCGCGTCCGGGTTGACCTCGGAGACGATCAGCGGCACCTCGTCGTCCTTGCGCCACGCAGACGAGTTGTCCACCACGGTTGCCCCGGCAGCCGCGAAGACGGGCGCGTACTGCTTGGAGGTCGAGCCACCTGCGGAAAACAGGGCAACGTCGACGTCGGCGACGGACTCGGGCGTAATCTGCGTGAGGTCCTCGACCTCAATGTCAGCGCCGCCGAAGTCCAGACGCTTGCCAGCGGAGCGCGGGGAAGCGAAAAACCGCACCTTGTCGGCGGGAAACTTGCGCTCGATCAAGATCTCGCGCATCACGCGGCCCACCTGGCCGGTGGCACCTACTACTGCGATGGTGGTCATGGGTTTAACAACCCCTTCCTGCTTGGCTGTGAGGTCTGA	MDNHGVACEHGHAHAGAGDQKIRQAEDLARLVAQLLLLVRLLGAVVDQIASQWQHIVCDWCDVGPQIFWLHERSVAGQFGGSFADLLNLMRQRIDTRQSRARHRLVRRDAQAAQPGGVVQGLRHGHRGHRRAVRVGDDALLHLRRRVRVDLGDDQRHLVVLAPRRRVVHHGCPGSREDGRVLLGGRATCGKQGNVDVGDGLGRNLREVLDLNVSAAEVQTLASGARGSEKPHLVGGKLALDQDLAHHAAHLAGGTYYCDGGHGFNNPFLLGCEV				NA	NA	NA	NA	NA
AK009_07208	483			hypothetical protein	ATGGCTCTACAGAATCGTCTGCGTCTCGGCGCCGTGGCAGTTGTCGCGGTCGTCACTCTGTCGTGCCCTGGTGCCGCCGAGGCTGGGGAGCCCGTTCAGACGACTGAAGTCGCCGTGGCCCAGGTCGTCGAAACCGATGCCGGCTACGAGATCACCATCGCTCCTGGCCAGACGCTGCCGCTGGAGCCAGAGGCGGAATCGATCGACGCCTACATCATCGAGGAGGGCGAGGAATCGACCCTGCCGGCGGGCTGGAGCGTTCTCACCAACTCTGACGGGCTGCGCATCACGGCACCGTCGACCGCCGCCGACGGCGAATTCGCCGTCGTCGAGGCCGTCCGCGCCGACGGAACGACAGAAGAGGTTCGCGTCGTCGTTGAGCGCGAAGACGTGCTCCCGCAGCCCACGCCTTCAAGCTCCGCCGACTCGTCGAGCTGGGTCAGTGGCCTGCTGGGCAAGGTCGCCACATTCTTCGGCTCCTAG	MALQNRLRLGAVAVVAVVTLSCPGAAEAGEPVQTTEVAVAQVVETDAGYEITIAPGQTLPLEPEAESIDAYIIEEGEESTLPAGWSVLTNSDGLRITAPSTAADGEFAVVEAVRADGTTEEVRVVVEREDVLPQPTPSSSADSSSWVSGLLGKVATFFGS				NA	NA	NA	NA	NA
AK009_07209	648			hypothetical protein	ATGGTACGTGGGCTCCCCTGCCTCGGCAACGAAGACCAGGATTCTGTGCGGTTTCGCCTAATCATGGGCCCGATTCTGCTGCTGGTATGGTTTTCTGCTGTGAGCAGCCGGGACTCTGTCGACCCTGTCGATACCGTCACTGAGCTGGCCCTGCGGGCCGGCCGGGGGGATAAAAGCGCGCTGACTCAGTTCATCGAGGCCACGCAGGGCGACGTGTGGCGCTTTCTGGCCCACCTCGCGGGCCGCGAGCAGGCCGACGACCTGACCCAGGAAACGTACCTGCGCGTGCTGGGAGCGCTGCCCAGGTTCGCCGCGCGCTCGTCGGCACGCACGTGGCTGCTCACGCTCGCGCGACGGGTGTGGATCGATTCGATTCGCCACGACTTGGCGCGCCCGCGGAAGTCAATCACGCAGTACGACGATGTCGCGGCGCAAAAACCCAGCCCGGACAACCCCAACACCTGGTCCGAGGTCATCGACGCGCGCACGCTTCTCGACGCCCTGCCCGCCGAGCGTCGGGAAGCTATCGTGCTCACCCAGGTCTTGGGCTACACCTACGAGGAGGCGGCCCGGATCGCGGGCGTGCGCATCGGCACGATCCGCTCACGCGTCGCACGCGCTCGGCGCGACCTCATCGACGGCGCCTAG	MVRGLPCLGNEDQDSVRFRLIMGPILLLVWFSAVSSRDSVDPVDTVTELALRAGRGDKSALTQFIEATQGDVWRFLAHLAGREQADDLTQETYLRVLGALPRFAARSSARTWLLTLARRVWIDSIRHDLARPRKSITQYDDVAAQKPSPDNPNTWSEVIDARTLLDALPAERREAIVLTQVLGYTYEEAARIAGVRIGTIRSRVARARRDLIDGA	PGPT0014960_7451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_07210	1413			hypothetical protein	GTGCACGAAACGCTCGCGCGCTGCGTCGTCGAACACCTCGGTGTAGAGGGTACGTGCCTGGCCGAAGTCGTCGTCCTCGGCGTGCTTGACGTACGCCGCGCGGGTCAGGTCGGTGCCGTGCGGGTCCGGGTTGACGTAGAGGTCGCTGGCCTGCCCGTAGGTGGTGTGGTTCGAGGAGGAGTCCTCGTTGTTGTCCAGGTAGCCTGCACCCTTCTCCGTGTTGTTCGGAGTGTAGTTGTGCTCACCCTCGTTGTTGAAGAAGTACGCCATCGGGCCGCGCTCCGCGTAGGTGTTGACCTCGTTGATCGGGCGGTTGACCGGCAGGTCCTTGTAGTTCGGGCCGATGCGGTAGCGGTGCTGGTCAGCGTACGCCCACGCGCGTGCCTGAAGCATGCGGTCCGGGGACAGGCCGACGCCCGGCACCAGGTTGCCCGGATCGAGCGCGATCTGCTCGATCTGTGCGTGGAAGTTCTTCGGGTTGCGGTTGAGCACGAAGTAGCCCACGTCGACCAGCGGGTAGTCCTTCTGGGACCAGATCTTGGTCAGGTCGAACGGGTTGAAGCGGTAGTTCTCCGCCTCCTCGAACGGCATGATCTGAACCTTGACGTCCCAGATCGGGTAGTCGCCGCGCTCAATCGCGTCGAAGAGGTCCTGGCGGTGGTGGTCGGCGTTCTTGCCGGCCATCTCCGTGGCTTCCTCGTCGGTGAAGGTCTCCCAACCCTGGCGGGTCTTGAAGTGGTACTTGATCCACACGGCCTTGCCCTCTTCGTTGACCCACTGGAAGGTGTGGGAGCCGAAGCCGTCCTGGTGGCGGGAGGTCTTCGGGGTGCCGCGGTCACCCATCAGGTAGGTCACCTGGTGAGCGGACTCCGGGGTGCGGGACCAGAAATCCCACTGCATCTCGTCGTCGCGCAGGCCGGTGTGGGGCTGGCGCTTCTGGGAGTGGATGAAGTCGGCGAACTTCATGCCGTCGCGGAGGAAGAACGTCGGGGTGTTGTTGCCCACGATGTCGTAGTTGCCGTCCTCGGTGTAGAAACGCAGCGCGAAGCCGTGGACGTCGCGCCAGGTGTCCGGGGAGCCGGCTTCACCGGCAACGGTGGAGAAGCGAGCAGCCATCGGAGTGACCGTGCCCGGCTGGAACAGCTTCGCCTTAGTGTACTGGGAAACGTCCTCGGTGATGTGGAGCTCACCGAAAGCTCCGTGGCCCTTGGCGTGGGGGATGCGCTCCGGAACGTTCTCGCGGTTGAAGTGCGCGAGCTTCTCAATCAGGTGAATGTCGTTGAGGACATTCGGGCCCTGCGGGCCGGCCGTGATCGAGATGTTTTCGGACGCGACCGGCTGGCCGCTCGGGCGGGTGGTCTTGCCTTTACCGGCGGGGCGCTCGCCGCGTGCGACGATGTCCTCTGCCTTTGA	MHETLARCVVEHLGVEGTCLAEVVVLGVLDVRRAGQVGAVRVRVDVEVAGLPVGGVVRGGVLVVVQVACTLLRVVRSVVVLTLVVEEVRHRAALRVGVDLVDRAVDRQVLVVRADAVAVLVSVRPRACLKHAVRGQADARHQVARIERDLLDLCVEVLRVAVEHEVAHVDQRVVLLGPDLGQVERVEAVVLRLLERHDLNLDVPDRVVAALNRVEEVLAVVVGVLAGHLRGFLVGEGLPTLAGLEVVLDPHGLALFVDPLEGVGAEAVLVAGGLRGAAVTHQVGHLVSGLRGAGPEIPLHLVVAQAGVGLALLGVDEVGELHAVAEEERRGVVAHDVVVAVLGVETQREAVDVAPGVRGAGFTGNGGEASSHRSDRARLEQLRLSVLGNVLGDVELTESSVALGVGDALRNVLAVEVRELLNQVNVVEDIRALRAGRDRDVFGRDRLAARAGGLAFTGGALAACDDVLCL				NA	NA	NA	NA	NA
AK009_07211	270			hypothetical protein	TTGGGTGCTGCCAGTCGTGATGCACATGATCACCGTCGCGGTGAGCAGGAGAAGACCGCCGCCGACTGTGACCAGCAGCGTGCGGATCGCGGGCGCGTAGCCCTTTTCTCCCCCGTTGGCGATGAGGAAGAAGGAACAGAGCGTGGTCATCTCCCACGCGATGTAGAACACCACGAGGTTGTCGGTGAGCACGAGTGTGCTCATCGCCGCGGCGAAGCCGCACATGAGAAGGAAGAAAGATGGCTTGCTTTGATGCAGGTACCGGGTTGA	MGAASRDAHDHRRGEQEKTAADCDQQRADRGRVALFSPVGDEEEGTERGHLPRDVEHHEVVGEHECAHRRGEAAHEKEERWLALMQVPG				NA	NA	NA	NA	NA
AK009_07212	384			hypothetical protein	GTGCTCGACGATGCCGATCGACATGAACAGCGCCGCCTTGAACACGGCGTGGGCGATGGTGTGCACGATGGCCGCGGTAAGGGCTTCCTGCGTACCGATCCCCACGACCGCAACCAGGAGGCCGAGCTGGGACATGGTCGAGTACGCCAGCAGTGCTTTGAGGTCCGATTGCTTCACCGCCGTCATCGCGCCGAACAGCGAGGTGATAAGGCCTGCCGTGACCAAGGCGATGTGCCACGCGTCAACCCCCGCGAACATCGGCGAGTAGCGCAGGATCAAGTAGATCCCGGCCTTGACCATGGCCGCGGCGTGCAGGTAGGCAGAGACTGGGGCGATGGCGACCATCGAGTCGGGCAGCCAGGCCTGGAAGGGAAACTGGGCTGA	MLDDADRHEQRRLEHGVGDGVHDGRGKGFLRTDPHDRNQEAELGHGRVRQQCFEVRLLHRRHRAEQRGDKACRDQGDVPRVNPREHRRVAQDQVDPGLDHGRGVQVGRDWGDGDHRVGQPGLEGKLG				NA	NA	NA	NA	NA
AK009_07213	249			hypothetical protein	TTGGTTGCGCCGGTCGCCCAACACACCGAGCACGTAACGGTAGGAGTAGGCGAAGGTGAAGATAGAGGTAACCACGATCCCACCGGTAACCAGGGTCACCAGCGCCTCCTTGTGGGGCGCGGAGAGCCCTGCGGCGAGGAGCATTTCCTTGGACACGAAACCGGCCAACGGAGGCAGACCCGCCATCGAAGCGGCGGAGATGACCACGATAGCCTGCGTCACCGGCATGCGCACGCGCAGATTACGTAG	MVAPVAQHTEHVTVGVGEGEDRGNHDPTGNQGHQRLLVGRGEPCGEEHFLGHETGQRRQTRHRSGGDDHDSLRHRHAHAQIT				NA	NA	NA	NA	NA
AK009_07214	180			hypothetical protein	GTGCCAGAGCGCGAGGTGCGGGTCCTCAAATTCGCCGGTGGTCGCGAGCACGGCGTCGGCAACCGGGCCATTGAGCATGTGCGGGTAGATGCCAATCGCGACCGTCGCAGCCGCCAGGATCGCGGGCACCGCAAAAAAGCTTGGCGACGCCTCCCCCACCGTCTTGGTCGTGCCGGATAG	MPEREVRVLKFAGGREHGVGNRAIEHVRVDANRDRRSRQDRGHRKKAWRRLPHRLGRAG				NA	NA	NA	NA	NA
AK009_07215	204			hypothetical protein	GTGGCGGCGCTGGGACGTGGTTCCGGTGGCCGCGGTGAAACGCTCGCCGAGCGCGATGGTCCCGCTGCGGAAGGATTCGACCACTTCGACTCCGGTGATCGGCGCCCGGAAATCGTCGAGGAAGGCGCTGACGGCCCAGCGTCGCCACGCAAGCACCGCCCCACACGCGATGACCAGGGCCGAGAGCGCGAGCGGCAGGTTTAA	MAALGRGSGGRGETLAERDGPAAEGFDHFDSGDRRPEIVEEGADGPASPRKHRPTRDDQGRERERQV				NA	NA	NA	NA	NA
AK009_07216	231			hypothetical protein	GTGCTCTCCGTCGATGATGAGCCCGACGTCGCCTTGGCCGGCCTCGGGAACCCCGTCCTCGGGTTCACCTGGGTCGTCAGCGGGGATTCCGGCGAGGTTGATTGCCGCGAGGATGACCCCGAGGACTGCGAGGTAAACGCCGAGGTCGAAGATCAGCGCGGTAGTCAGGTGGATGCCGAAAACGTAGGCGTGCAGCGGGGTGAGATAGGAGCCTTCGAAGTAGCCCAGTAG	MLSVDDEPDVALAGLGNPVLGFTWVVSGDSGEVDCREDDPEDCEVNAEVEDQRGSQVDAENVGVQRGEIGAFEVAQ				NA	NA	NA	NA	NA
AK009_07217	423	mrpC	COG1006	Na(+)/H(+) antiporter subunit C	ATGATCCTGGCACTGTCAGTGGGCATACTCATGGCGGGGGCCGTCTACCTCATGATGCGGCCCGACATGTTCCGCATAACCATCGGTTTCGTCATGCTCAGCCACGCCGCTAATCTGGTGATCATGTCTGCGGGGGGCGTGTCGTGGCGGGGTGAACCCTTCGGGGCGCACGACGACACATCAACGGCCGCCGATCCACTGCCCCAGGCATTCGTGCTCACCGCCATCGTCATCTCCTTTTCCATCACCATCGTCATGCTCATCTCATCCGTCGTGGGCAAACCGGGCGACGCAACTCGGGCGGATGACGACGTTTCCCGCGAATCGCCCCGGCGCCCGGATGCGGACGATGTCGACGAGCTCTATCACGAGCTCGCGCCCGACGCCCGCGCAACGCCCGAGGTAGGGGAGAAGACGCGATGA	MILALSVGILMAGAVYLMMRPDMFRITIGFVMLSHAANLVIMSAGGVSWRGEPFGAHDDTSTAADPLPQAFVLTAIVISFSITIVMLISSVVGKPGDATRADDDVSRESPRRPDADDVDELYHELAPDARATPEVGEKTR	PGPT0013905_907	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
AK009_07218	312			hypothetical protein	GTGAATTGTGTAGACGTACAACCCGTAGGAAGGCAAGAGCATCACTTCGAGGAAAACGAAGAAGTTGAAGATATCCGCGGTCAGGATCGCGCCGTTGACACCCGTCATGAGCACCAGCACAAGCGGGGCGAAGTAGCGCTCTCGGGCGTACCCGCTCGCGACCGCGAACCAGGCGCACACGATCGCCAGGATGCCCGTTGTCGTCAGCATGAGCGCGGAAAACATGTCGGCAGCGAACGGGATCGCGATACCGAACGGCCAGCTTCCCGTGCCCTTGGCGTAGGTGGTGCCGTCTGCGGTGCCGGCAATTAA	MNCVDVQPVGRQEHHFEENEEVEDIRGQDRAVDTRHEHQHKRGEVALSGVPARDREPGAHDRQDARCRQHERGKHVGSERDRDTERPASRALGVGGAVCGAGN				NA	NA	NA	NA	NA
AK009_07219	480			hypothetical protein	GTGGTGCACCAGGTAGAAGATGCCTGCGACGAGTCCGAGCTCGGTAAATATCGCCAGCCCCAGCAGAATGTAGCCGAGCTGGGACACCATGTGGAAGGTCAAAATGGAGCGGGCGTCTTTCTCCCCCACTGCGCCGAGCACGCCGATCAGCATCGTCAGGGAGAAGAGTGCGACGAGGATCCAGAGGAAGCGTTCATCGCCGTCGAAAAGCACGGCGTAGATGCGGTACAGAATGTACACGGCAACCTTAGTGTGCAAGCCGGAGAACAGCGCTGTCACCGCCGGCGACGTGTACGGGTAGGAGCGTGCGAGCCAGGAGTGAACCGGGACAACCGACGCTTTGGTCAACATGGAGAGCATGACCACGCTGGTCGCAATCGCCACCGCGGGGTCTTGCGCCGCGGCGCCCTGCAACTGCGCGAGGTTGACGGACCCGGCCGTTCCGTAGATCAGCGCCACGCCGGTGAGGAACATGGTTGA	MVHQVEDACDESELGKYRQPQQNVAELGHHVEGQNGAGVFLPHCAEHADQHRQGEECDEDPEEAFIAVEKHGVDAVQNVHGNLSVQAGEQRCHRRRRVRVGACEPGVNRDNRRFGQHGEHDHAGRNRHRGVLRRGALQLREVDGPGRSVDQRHAGEEHG				NA	NA	NA	NA	NA
AK009_07220	474	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGTCTACCGGCGCCATTGAGGTGACGTACGGGACCGGCAAGATCGGAGCCCTGGCGGGGATGGCTCGGCGCGAGCCGTGGATGGGCGTTGCGTTTTTCGCGGCCGCGTTGTCTCTTGCGGGCATCCCGCCGTTCTCCGGTTTCGTGGCGAAGTTTTCGCTGCTGCTCGCGGCGTACGAAAAGGGCGAGTTCTACGCCCTGGTAGTCATGGTTGTGGTGTCGTTGATCACGCTGCTGTCAATGCTCAAAATCTGGGACGGCATGTTCTGGGGCAGGGCAGAAAAGGCTGAGGTCGCGTCAGCTGACGACGGCCGAGCTCGTGTCGGATTCTGGCTGGGTGCCCCAGCCGTTATTCTCGCGGCGCTGACGCTGGCGATCGGACTGGGTGCGCAAGTCCTCATGGGATGGTCTGAAGTAGCGGCGCAGAATCTGTTGGACACTTCCGGTTACGTGAATGCGGTGATGAACGGATGA	MSTGAIEVTYGTGKIGALAGMARREPWMGVAFFAAALSLAGIPPFSGFVAKFSLLLAAYEKGEFYALVVMVVVSLITLLSMLKIWDGMFWGRAEKAEVASADDGRARVGFWLGAPAVILAALTLAIGLGAQVLMGWSEVAAQNLLDTSGYVNAVMNG	PGPT0013910_1436	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
AK009_07221	381			hypothetical protein	ATGAAAGATTTTCTAACGTGGCCGTTTAGGATCCTCGGGTTCTGGGCCTGGTACGCAAAAGAGTTTGCCGTGGCAAATGTTGCGGTGATTAAGGACGTGGTCACTGTCGGCAACGACGCGACGCCCTCGATCGTGCGGCTTGAGTGCTTAAGCTTCACGGAGGGGTTCTACACCCTGTTGGCGTCGCTGATCACGATCACACCCGGCACGCTTGTGGTGGGAGCCGGTGACAATACGAGCAAGGGAGTGCGCGTGATGTACGTTCATGCGTTGTACTACACCGACATGGATGAACTACGCGCGGACCTTCGCGAAATGGAGGAGCGCATGCTCAAGGGCCTGATGCTTCGGCCCAAGCTGAACAAGGAGGCCACGTTGTGA	MKDFLTWPFRILGFWAWYAKEFAVANVAVIKDVVTVGNDATPSIVRLECLSFTEGFYTLLASLITITPGTLVVGAGDNTSKGVRVMYVHALYYTDMDELRADLREMEERMLKGLMLRPKLNKEATL	PGPT0013915_1780	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
AK009_07222	258			hypothetical protein	GTGATAGCGGTTGACATCGCGATCGTGATTTTCGGGTTGTGCGCCATGCCGGCCGGGTACCGGATGCTCGTCGGCCCGTCGCGGGCGGATCGGGCGACGGCAGCGGACTTGATGGTGTTCTTGCTCATCGGCATGGTTGCCTTGATCGGTTTCCGCAACAACTCCGGCTACACCCTAGATATCGTGCTGGTTGCGGCGCTCGTGGCGTTCTTGTCCACGGTGTCGTACGCTCGCGTGCTGCTACGGGGTGATCGCTGA	MIAVDIAIVIFGLCAMPAGYRMLVGPSRADRATAADLMVFLLIGMVALIGFRNNSGYTLDIVLVAALVAFLSTVSYARVLLRGDR	PGPT0013920_1549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
AK009_07223	381			hypothetical protein	ATGGACATCATGGACGTCATTGGTGATGTGTTGGTCATCTTCGGGGCACTCAACTTCGCGATTTGCGCCATTGGCTTGATCACGTTCCACGACTTCTATGCGCGCGTCTCCGCTGTGGGCACGGCGGCTGGGTTCGGGATCTCCTTCGTCGTTCTCGGCGTGTGGTTCAAGAATCCTTCGCTGGCGAGTTTTTTCGTCGCCCTGGTTGCGATTTTGTTGCTGTTGGGAACCTCCGCGCTGGGGTCGATGTTCATTGCGAGGTCCGCGGCGCTGCGGGGAACCCAGATGACGAATCCCGTGGCCGATGAACTTGGAGTGCTCACCCCGGAGCAGTTCGAAGCGCGCATGAACGGCCGAGGTGTCCCGGCGGAGGAGTCTTAA	MDIMDVIGDVLVIFGALNFAICAIGLITFHDFYARVSAVGTAAGFGISFVVLGVWFKNPSLASFFVALVAILLLLGTSALGSMFIARSAALRGTQMTNPVADELGVLTPEQFEARMNGRGVPAEES	PGPT0013925_497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
AK009_07224	1386			hypothetical protein	ATGAAATGGCGTCTTCTCGTGGCCCTGATTGTCCTGATTGCGGGGGCTTTTTTGCCGATGTCTCCGGTAAGCACGTGGTCGTCGGGCGATGAGGCGACGGGCGCGCCACAGGTTACCCCTGGCCCCGATGGGCTTATCGACGCCCGCCGCGCCGCCGGTGAGGCTGCCGCGAATGCTAGCTTGTTGACCAGCGGCACCGGCCAGCTCAAAGACGGCGTCGTCACGCTCGACGAGGGCTCGACTGCGCTTATCGACGGCATCGCCGCCGCAAGCACGGGCGCCACGGAGCTCTCCAACGGGATGGTGGAACTGCAGGCGGGCACGGGTCAGCTTGCCGCAGGTGCGACGCGGGTGGCCGATAGCGTCGGTGGCGTGGTCGACCAGGTTGTCGGGTTCGAGGCGGTCCGCGGCCAGGTGCTGTCCACGATCGACTCAACGCTGGAGCGGATGAAAGACTCCAGGGACCCCGACGTCGTCCAGGCCCGAGAGGCGCTTGAAGGGTTGCGCGAACAGGCGCAGACCGCGCAGCTGCCGGCGGACGCGGTGTCGCAGCTCACCGAGCTGAAAAACGGCTCGCGCGAAGTGGCCAACCAGCTCTCAGTGCCTGGTTACGCCTACCACGACGGTGTGTACTCGGCGACCAACGGCGCCGCGGAGTTGGCGAGCGGGTTAAGCGAGCTCAACAACGGCGCCGCCCCGGCTCAAGAGGGCATCAAGCAGCTTCGCAACGGCTCCGAAAAGCTCGACGAGATGGCGGCAAAGACGTCGGACTCCCTCGACAGCGTGCGCCGGGCGATTCCAGCCCCGGCACCCGCTGCGGCGTCGGCAGGCCAGGCGGAGCAGGGTGCGCCGACCTCGGCGCTGGCGCCGTTGGCGGCGATGCTGATCGCCGCGCTGGTCACCATCGGTGGGCTGGCGCTCGCCGTCGCGGTAGCTTTCCTGCCGGGGCGGAAGTGGTGGGCAATCGCCGCGGGAACTGGTTTCCTCGCGCTCATCGGTCTCGTTTTGATTGTGGTCGTGGGCGTGTCCCTGTCCCCGCTCGCGGTTGCTACCACGGCGCTTGCGCTTGCTGTGTCCGCGCTTGCCGCGGCCGGTTTGAGCTGGATGCTGATGTCGGCCTTCGGCGCTAGGGCGGGACTGGGCAGCGCCGCCGTCCTCGCCGTGGCCCAGATCGGCATTGTTGGCTGGGTGTGGAAGTCTGCCGCGGCTGGGGCAGTGTCCTCCATCGCGGCCGCGGTGTCCAGCGCGATGCCAATGCACTGGCTCACGGCCGCGCTTTCAGCGGCCGGCAACGGGGGGTCCACCACCGCCCTGTGGGTCGGCATCGGCCTGAGTACGGTACTAGCGGCGCTGGGCCTGATCGGCCTGAACCGAACCAGGGCGTAA	MKWRLLVALIVLIAGAFLPMSPVSTWSSGDEATGAPQVTPGPDGLIDARRAAGEAAANASLLTSGTGQLKDGVVTLDEGSTALIDGIAAASTGATELSNGMVELQAGTGQLAAGATRVADSVGGVVDQVVGFEAVRGQVLSTIDSTLERMKDSRDPDVVQAREALEGLREQAQTAQLPADAVSQLTELKNGSREVANQLSVPGYAYHDGVYSATNGAAELASGLSELNNGAAPAQEGIKQLRNGSEKLDEMAAKTSDSLDSVRRAIPAPAPAAASAGQAEQGAPTSALAPLAAMLIAALVTIGGLALAVAVAFLPGRKWWAIAAGTGFLALIGLVLIVVVGVSLSPLAVATTALALAVSALAAAGLSWMLMSAFGARAGLGSAAVLAVAQIGIVGWVWKSAAAGAVSSIAAAVSSAMPMHWLTAALSAAGNGGSTTALWVGIGLSTVLAALGLIGLNRTRA				NA	NA	NA	NA	NA
AK009_07225	957			hypothetical protein	GTGGACCAGAGCCCATTTATCGAAATCGGACTGCCGATCGCCCTTTTCGTCATCATGATCGGCATCGGGCTGAGCCTCACCAGCGCCGATTTCGTCGCCCACGCACGACGCCCGCGGGCGTCGATAGTTGGGCTCATCGGCCAGCTCACACTGCCGCCGCTGTTGGCGCTGGGTATCGCGTGGGCGTTCGGCCTCACCCCGCTGATGGCGCTCGGGGTCGTGCTCGTCGCTGCCGCGCCCGGCGGAGCAACGTCCAACCTCGCGACCTACCTGGCGCGCGGCTCCGTGGCACTGTCGATCATCCTCACCGTCGCCGCCTCGCTTGCCGCGATCATCACCCTGCCACTGTGGATGGACTTTGCCACCCGCATCATCCCCGGTGTCGAGAGCCTGGATGTGCGCATGCCGCTGGGCGAGACCTTCGCACTGCTCATCGGGGTGGTGCTCGCCCCGGTCGCGATCGGTATGGTCCTGCGCGCGAAGAGGCCGCAGCTGGCGGAGAAGATCGAGCGGTTCGTCGGCCTAGTGGGAATGATCGTCCTGGTACTGCTCATCGTGTTTATCGTCATCGATGTACGCGGCCAGATCGTGGAGCTGCTCATCGCGGTCGCACCCGTCGCCGCCGTGCTCAACCTCTGCCTGATCCTCATCGGTGGGCTCGTCGGCTGGCTCGGCAGACTAGACGTCACAGACCAACTCGCGATCGCCATCGAATACAGCATCCGCAACACGACACTCGCCATGGTGCTGGCATTTGCGGTGATGCAGAAACCGGAGGTTGGCGTCGTCTCTGCGGTGTACTCGATTGTCATGTACGTGACCATGTTCCTCGTCATCGCGGCGGGAAGGCGGATGGTGGCGCGAGACGTCGCGACGCAAGCCGCGCACAGCGATACAGTGGGCGGCGAGAGGAGCCTCGCGCATGGATCAGCAAAGACCGACGTCATACTGGGATAA	MDQSPFIEIGLPIALFVIMIGIGLSLTSADFVAHARRPRASIVGLIGQLTLPPLLALGIAWAFGLTPLMALGVVLVAAAPGGATSNLATYLARGSVALSIILTVAASLAAIITLPLWMDFATRIIPGVESLDVRMPLGETFALLIGVVLAPVAIGMVLRAKRPQLAEKIERFVGLVGMIVLVLLIVFIVIDVRGQIVELLIAVAPVAAVLNLCLILIGGLVGWLGRLDVTDQLAIAIEYSIRNTTLAMVLAFAVMQKPEVGVVSAVYSIVMYVTMFLVIAAGRRMVARDVATQAAHSDTVGGERSLAHGSAKTDVILG	PGPT0013890_1437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
AK009_07226	399			hypothetical protein	TTGCTGCGCGGCAAGGACCATCATGTCGACCGCGACGGTGATGCCGAGGATCGCGGCGCGTGTCCGTTCGCCGGTGTGGCGCTTAATGCTCAAGGTGTACCTGTGCGGGCGTCCGAATTCTTGAAACATCCCGTCCCACTGCCGCTGCAAGGTGGCGGCGGGTTGGGTACCACGCGTCAACCGCGCAGTGAGCGGCGAATTGGAGAATTCAATGCTGCACGGCGCACCGGAAATCGTCGCGTCCATTTTGGGGCGGAAGAACCCGTGCCTCGCGGTCGCGATCTCGGTGCCGCCGCAGCCGGTGACGCTGTAGTTGCTGCCGCTGCGCACCAGGGTGAGCGAGACGCCGCCGTCACCGGTGATCGAGTATTCAGTAGGGGTGAACCGGCGGTTGATTAA	MLRGKDHHVDRDGDAEDRGACPFAGVALNAQGVPVRASEFLKHPVPLPLQGGGGLGTTRQPRSERRIGEFNAARRTGNRRVHFGAEEPVPRGRDLGAAAAGDAVVAAAAHQGERDAAVTGDRVFSRGEPAVD				NA	NA	NA	NA	NA
AK009_07228	720			hypothetical protein	ATGATCCCGGGCCAAGACACCAAGATCGCGTGGGTCCGCGCCCTCGACGCCCTACAGCCGGACCTCGTGATCAACACCGGTGATAACCTCTCGGACCTGCGCGGGGTGCCTTACGTCCTCGACGCCCTCGAGCCGCTGCTCAACCGCCCCGGCGCGTTCGTCTTCGGCACCAACGACTACTGGGCGCCGCGGCCGGTCAACCCGCTGAAGTATCTCGTTAACGCCAAGCGCGAGCCCTCATACGTGGACCTGCCCTGGGAGGGCATGCGCGCTGCATTCGTGGAACGCGGCTGGCGCGACGCCACGCACCAGCGCCTGGAGTTCAAGGCCTCCGGGGTCAAGCTCGCGCTCGCCGGCGTCGACGACCCGCACCACGACCTCGACCGCTACGAAGAGATCGCCGGAGCCCCGAACGCGGACGCCGATCTGGCCATCGGCTTGCTGCACGCCCCCTACCGGCGCGTGCTCTCCGCGTTCGAGGCCGACGGCTACGACCTAGCGTTGGCGGGCCACACCCACGGCGGCCAGATCTGCCTGCCCGGCGAGCGCGTGATCGTGGCCAACTCCGACATTGACAGGGAGCGTGCCTCCGGGCTGCACCGCTACGGGTCGATGTGGATGGAGGTCACAGGCGGGCTCGGCACCTCGAAGTACGCCCCGGTGCGCATCTTCTGCCGCCCTTCCGCCGCGCTGATCCGCATTACCGAGCGGCGCGCCTAA	MIPGQDTKIAWVRALDALQPDLVINTGDNLSDLRGVPYVLDALEPLLNRPGAFVFGTNDYWAPRPVNPLKYLVNAKREPSYVDLPWEGMRAAFVERGWRDATHQRLEFKASGVKLALAGVDDPHHDLDRYEEIAGAPNADADLAIGLLHAPYRRVLSAFEADGYDLALAGHTHGGQICLPGERVIVANSDIDRERASGLHRYGSMWMEVTGGLGTSKYAPVRIFCRPSAALIRITERRA	PGPT0022365_2780	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK009_07229	471			hypothetical protein	ATGATCTGCGTGGACAAGCTGCAGGTCATCGACTTCCGCCCGACACGGTGCACACCACTGGCCCCAAGCGTTGAGGACGACGACCTCGCCTTCAAAATCAGACAGGCTGATCTTCTCACCCTCCTCCATCAGCGCCGGGCCGGAGAAGTCCGGCAGCGGGCCACGTTCCTCCTCTGCGTAGATAATCTCGGTTTTCCGGGGCCGTGGGGAAGAAGACGGTGTTCTGGTTGTCCCGGAAGACCACAACACCGAGGAAGGTCATCGTGCTGCCCGGTGGGTGGTCTGCAGCGACCCAGCTCACCCCAGCGACCGACCATGCTGTGGGGGTTACTCGTAGCGAAGCGAGCTGAACATCCCGGTTTCCATGTGATAGGCGTTATGGCAGTGAAATGCCCACTCACCGGGGTTGTCAGCGATCAGGTCGGCGATCATGGTTTCACCGTGGCGGAGAAGGACGGTGTCCTTGCGTAG	MICVDKLQVIDFRPTRCTPLAPSVEDDDLAFKIRQADLLTLLHQRRAGEVRQRATFLLCVDNLGFPGPWGRRRCSGCPGRPQHRGRSSCCPVGGLQRPSSPQRPTMLWGLLVAKRAEHPGFHVIGVMAVKCPLTGVVSDQVGDHGFTVAEKDGVLA				NA	NA	NA	NA	NA
AK009_07230	849			hypothetical protein	ATGGGGCATCATGGTCCTGTTGCGCATGACCATCCGCAGGCGCTGGCTCTCCTGCACGGTCGCGGAGGAGGATTGGCCGTCGGTGAGAATGCTCCATTCATACGGCATCATCTGCCCGCCCAGGTCGATGCTGACTTCTCGGTCTGGTGTGCCCTCGGGCAGGAGTGCACGGTCTGCAGGCTTCAGGGAGGACAGAAGCAGTCCGGCGGACGACAACTCGGGGAAGTCGACATCGGGGCGGGGGGCCTGGCCGCCGGCGGTGCGGATGACGGCGAAGGCGCGGTCGTCCTTACCCACCGCCAAAGCCGTGAGCGGGAAGACGCCGTCGCCGAGGATGACCTCGACGTCGACACGCTCGCCCATCGACAGGTAGATCGATTCGGTCTCCCTGGGCTGGACAGGGAAGCCGTCGGTGTGGGTGACGGTCATGCGGTGACCACCGAGGGCCACCTTGAAGATGGTGTCAGCGCCGGCGTTGATAAACCGCAGGCGGGCCTTGTCGCCCGGGCGAGCCTCGAAGGTCCGGTGAGCACGGGGGATACGCCCGTTGATGAGGTAGTGCGGATACATCACATCGCCGGCATCCCCGCCCAGAGCCAGATCGGGCGTGCCGTGGGCCATCATGCCCCCCTCACCACCCATATCCATCCCGCCGTGGCCACCCATGTCCATGTTTCCGTGTCCGCCCATGTCCATCCCCGTCAACATGGTCAGCTGATCTTCGGGACTGCTGCCGTCGATGCCATCGACCCAGTCGTCGAGCACGATGGTCCACTCGACGTCCTGGTCCTCAGCGTCTTGCGGGTCACGGACGATCAGTGGGGCGTGCAGACCCCGGTCGAGTTGTAG	MGHHGPVAHDHPQALALLHGRGGGLAVGENAPFIRHHLPAQVDADFSVWCALGQECTVCRLQGGQKQSGGRQLGEVDIGAGGLAAGGADDGEGAVVLTHRQSREREDAVAEDDLDVDTLAHRQVDRFGLPGLDREAVGVGDGHAVTTEGHLEDGVSAGVDKPQAGLVARASLEGPVSTGDTPVDEVVRIHHIAGIPAQSQIGRAVGHHAPLTTHIHPAVATHVHVSVSAHVHPRQHGQLIFGTAAVDAIDPVVEHDGPLDVLVLSVLRVTDDQWGVQTPVEL				NA	NA	NA	NA	NA
AK009_07231	477			hypothetical protein	ATGGTAGAAGTAGGTGCCACCGTGGGGGACTTCAAAAACATAGGAGAAAGACTCGCCAGGTTCAATGGGGTCCTGGGTCATGCCGGGCACACCGTCGGCTGCGTTGTGGAGCGCGATGCCGTGCCAGTGGATGGAGGTGCTCTCAGGCAGTTCATTGGTGATATCGACCTGGAGGACGTCGCCGGCGGTGGCCTCAATGGCCGTATCCCCGGTGTCAGAGACGTATCCCCACGTCTTGGCTTCGATGCCGCCGATATCCAGGGAGAGGGGCCGGGCGGTCAGTGTCCGGCGCACCGTCGGCTCACCGAGCGCACGGGGGGTGGGAGTGGGGCGAAGGGAGGGACCTGGTGCCGGGGCAGCGGGTCCAGGGTCGCTGGTGCAGGCGGCCACGGCCCCGGTACCGGCGAGGACGAGCCCGCCGAGCAGAAACTGTCGTCGGGAAAACGCGTTCGTCATGATTTAACCTTCCTGGTGTAA	MVEVGATVGDFKNIGERLARFNGVLGHAGHTVGCVVERDAVPVDGGALRQFIGDIDLEDVAGGGLNGRIPGVRDVSPRLGFDAADIQGEGPGGQCPAHRRLTERTGGGSGAKGGTWCRGSGSRVAGAGGHGPGTGEDEPAEQKLSSGKRVRHDLTFLV				NA	NA	NA	NA	NA
AK009_07232	414			hypothetical protein	GTGACACGGGAGACAGGCGCAGGTGAGGACCCTGCTGAGCTATCACGTCAGGCGCAGGTCTGTGACACAGGTGGCGCCGTCGTCGGTGGTGGAAAACTCCGTGGTGCCGGTACGCCCCTGGTAGCTGACCTCAATCAGGCCGGTGGCATCATCGGGAAGCCAGAAGCCAATAAACCCGTTGTCGAAGGTGGTTGTCGCCTCGTCCACCAGCACCTCACCGGTCTCCTCATCGGTGATCGTGACCTGGATATCCTCATTGTCGAGTTCCCCCAGGCAGGTCGTGAGGCTGTGGTAGAAGCAGTCGTGGGTGGAGGTGAGATAGGGTGCGATCGAGACATACGTCTGATTGTCGGGAAGATCGACCACGACTTCCTGGTCATCGCTCGAGAGCAGCAGTTCATTGGCACGTACTGA	MTRETGAGEDPAELSRQAQVCDTGGAVVGGGKLRGAGTPLVADLNQAGGIIGKPEANKPVVEGGCRLVHQHLTGLLIGDRDLDILIVEFPQAGREAVVEAVVGGGEIGCDRDIRLIVGKIDHDFLVIAREQQFIGTY				NA	NA	NA	NA	NA
AK009_07233	912			hypothetical protein	GTGGACATCGACGATGCGTTCATCACCGACCCAGGTGGTGTCCCAGACCTCGGTGACCAGGTCGTGGCGGGTCAGCACCTGGCCGGGGCGCAGGGCCAGGGCAACCAGCAGCTCGAACTCCGTGCGGGTGAGCTCCACGGTCGTCTCCCCCACCCGCACCTGATGGGCGACGGGGTCAAGGATGAGGTCACCAACGATCAAAGGGGTGGTCACCTGCGGTGGGGTGGTGCTGGTGCGCGGGCGGCGCAGCACCGCATGCACCCGGGTCACCAGTTCCCGGATGCTAAAAGGTTTGGTGATGTAGTCATCCGCCCCCAGGGTCAAACCGCTGATCTTGTCGTCCTCGCTGCCACGCGCGGTGAGCATGAGGATGTAGCAGTCCGAGAAGGTGCGGATCCGTCGGCACACCTCCAGGCCGTCGAGTTCGGGCAGCCCCAGATCCAGCACCACAACATCGGGGGAAAAGCGACGGGCCTCGTCCACGGCCTGGGTGCCGGTGTGCGCCTGGCGGGTATCGAAGCCGGCCCGGATGAGGTAGGAGGCCACCATCTGAGCCAGGGGTTGTTCATCATCGACGACCAGCACCCGCCCCGGGGGCGTGGCGGTGGTCGGTGTGCGGTCAGCCATAGACCCCAGTATCGCTCCGGCCAGGGGAATACCACCCTCGCTCAGTGCCCGGCGGGGAAAACTTCATCAAATCTTCAAACATCGCCCTTCGACCGTCGTCACCTCTGTGCCCCACCCCGGGCCGGCGACATCGCCTCCCCTGGTCGGTTCAGCAGGCGCCACCAGGGATTTCACTGCCTGCACCGCATACCCGGGGCGGGTGGAAGGACATCGCCCACGGCTGTGGGGTGGTGTTCCGGTGGTGACCCAGCCCACCGAATTCACCCCCTTTTCGCCCTGTTATAA	MDIDDAFITDPGGVPDLGDQVVAGQHLAGAQGQGNQQLELRAGELHGRLPHPHLMGDGVKDEVTNDQRGGHLRWGGAGARAAQHRMHPGHQFPDAKRFGDVVIRPQGQTADLVVLAATRGEHEDVAVREGADPSAHLQAVEFGQPQIQHHNIGGKATGLVHGLGAGVRLAGIEAGPDEVGGHHLSQGLFIIDDQHPPRGRGGGRCAVSHRPQYRSGQGNTTLAQCPAGKTSSNLQTSPFDRRHLCAPPRAGDIASPGRFSRRHQGFHCLHRIPGAGGRTSPTAVGWCSGGDPAHRIHPLFALL				NA	NA	NA	NA	NA
AK009_07234	186			hypothetical protein	ATGGAACAGCTCCAGCGAGGGGTCCTCCCGGCCGGTCATCAACATATGATCATGGAACAGGGTCGGGCCCACCACCGTGGCCACGGCCGCGGCAACCAGCAGGCTAATCACCACGACCAACACCTGGGCGGCCAGGAAGCGGAAGGTCAGGCCGGGTCCGTGATTCATGGCTGCCCCACCCGGTAG	MEQLQRGVLPAGHQHMIMEQGRAHHRGHGRGNQQANHHDQHLGGQEAEGQAGSVIHGCPTR				NA	NA	NA	NA	NA
AK009_07235	201			hypothetical protein	GTGGGCCAGATCAGAGAGCATCTGGCGGCGGACCTGTTCGGTGTGTTCCAGCCGGTCGGCCATGGTGTTGAAGGAATGCGCCAGGGTGGTGACCTCGGGGCCTGCTTCTCCGACGGACACGCGGATACGGTAGTTGCCGGCCGTCAGGCTGGTAGCGGCGCGGGTGAGATCCTGCAGGGGGGTGCGCAGGCGACGCGATAA	MGQIREHLAADLFGVFQPVGHGVEGMRQGGDLGACFSDGHADTVVAGRQAGSGAGEILQGGAQATR				NA	NA	NA	NA	NA
AK009_07236	195			hypothetical protein	ATGGAGCAGATCCCCGAGCCCTTCCTCCGCCATGTCCAAATCGATCCGGTGTTCCTGGGCCCGGGAGACATCGTCGATGTCTTCCATCAACCGGGTCAGGCGGGTGAGTTGGTCAGCCATGATCGTGTGGGTGGCATTATTCCAGTCCACGACCCCGTCCTGGAGACCATCGAGGTAGACCGTGAGCACCGATAA	MEQIPEPFLRHVQIDPVFLGPGDIVDVFHQPGQAGELVSHDRVGGIIPVHDPVLETIEVDREHR				NA	NA	NA	NA	NA
AK009_07237	474			hypothetical protein	GTGGGAGGCCATCGGCAAGAGGCGGGGCGGGGAGGTGATCATGGGAAAGCTCCTACGGGTCGGTGGGATGCGGTAACGCTCGCTAGCATATACCCCCCCGGGGTACATTTTCAAGGGGTGGAGGGCACGGCCCTCACGCGGGGCAGGGTGTGGTCACCGAGCAGCCTCCTCACTGTCGGGAGGGGACAGCGGGAGGCGGAGGGCAAACACCGCTCCGCGACCGGGTCCGGGGGAGGTGGCGGTGAGAGTGCCGCCGTGGGCCTCGACCAATGCCTTGGAGATGGTCAGACCGATACCGGCCCCGCCGTTGTCCCGGCTGCGGGCGGCATCCCCCCGGTAGAAGCGTTCGAAGATCTGTCCGAGCTGGCCAGGTGGGATGCCCTCGCCGTCATCGGCGACGTGGATGAGCGCGGTGGACGCCCCCTGTCGGTGGACGCTGATCCGGACCTGCCCGCCGGCCGGGGTGTGCCGTAG	MGGHRQEAGRGGDHGKAPTGRWDAVTLASIYPPGVHFQGVEGTALTRGRVWSPSSLLTVGRGQREAEGKHRSATGSGGGGGESAAVGLDQCLGDGQTDTGPAVVPAAGGIPPVEAFEDLSELARWDALAVIGDVDERGGRPLSVDADPDLPAGRGVP				NA	NA	NA	NA	NA
AK009_07238	1611			hypothetical protein	ATGGAGCACACCGGCCCCACGCCCGGTCCAGGCGCTGGTGATGTCGGTGAGCTCGGCCGGGGTGGTGAGGTTGAACTCGCGCAGCATGTTCGGCCCGCCCACGAGGATCTCAGCGCCATCGACAGTGGCCCGGACCCCCCGGCCGGAGGCGGCGCTGAAACCAGTTGCACGGATTTGCCGACGGGAGGCCTCGGGATGGGCGGCCGCGGCCGCCAAGATGGCGCGGGCCACGGGGTGCTCGCTGTCGGCCTCCGCGGCAGCGGCCAGGGCCAGCAACTCGCCCTCGGTGACGCCGACAGCTGCCGCGACACCGGTGACCGCGTGCGCCCCCTCGGTCAGAGTGCCGGTTTTGTCGAAGAGCACCACGTCGATGGTGCGCATCCGCTCGAGCGCCATCCGGTCCTTGATGAGCACCCCGGATTTCGCGGCCCGCTCGCTGGAGATCGCAATGACCAGCGGAATCGCCAGGCCCAGGGCGTGCGGACAGGCGATGACCAGCACCGTGACCGTGCGCACCACGGCATCGTCCGGGCTGCCGATAATGGTCCACACCACCGCGGTGATCAGAGCGGAGATCAGCGCGAACCAGAACAACAACGCCGCCGCCCGATCCGCCAGGGCCTGGGCCCGGGAGGAGGACTCCTGGGCGTCGGCAACCATGCGTTGGATCCCGGCCAGGGCGGTGTCCCCGCCGGTAGCCTCCACCCGGATGCGGACGGTGTTGTCGGTGGCCACGGTACCGGCGACCACCTTGTCACCGGTGTCGCGGAAGACGGGACGGGATTCGCCGGTGATCATCGCCTCATCGAATTCGGCGGCTCCGTCGATGATGGTTCCGTCGGCCGGCACCCGGGCACCGGCCCTCACCAGCACGACGTCGTCGACAACCAGCTCGGAGATGGCCACGGTGCGGGTGGTCCCGTCGATGACTTTCTCGGCCTCATCCGGCAGCAGGGCAGCCAGCGCGTCAAGCGCGGAGGACGCGGCCCCGAGAGCGCGCATCTCCAGCCAGTGGCCCAGCAGCATGATGGTCACCAGCAGGGCCAGCTCCCACCAGAAGTCCAGGTCAAAACCGCCCAGCCCCAGAGTGGTGACCCAGGAGGCGACAAACGCCACGGTGATGGCCATGGCGATCAGGAGCATCATCCCGGGTTGGCGGGATTTCAGTTCGTTCCATCCGCCCTTGAGGAAAGGCGTTCCGCCGTAGACGAAGATGATTGTGCCCAGCACCGGGGGGATCCAGGTGGATCCGGGGAATGCCGGGAGGTGGTAGCCGAGCAGGTGGGCGACCATGGGGCTGAAAATAACGACGGGAATGGACAGAATCAGCGACCACCAGAAGCGGTCCCGAAACATTGCGGTGCTGTGTCCGGCGTGTTCGCCGTGACCATGAACGTGGTGGTCTTCGTCCAGGGCGGAGTGCGGGTGATCGTGGGGCATCGCCTGGCCGTGGGTGTCGACATCTGCGTGGTGTTCGTGGCTGGCATGATCCGGGTGGTGGGTGTGGTCTGTTTCCGGAGCGGGGTGATCACCATGGTGATCACCGGAATGGTGGGGAGTGCTCATGACGTTCCTTTCGATCAACCCGGTCGGGGTCGAGATGATGGGTAA	MEHTGPTPGPGAGDVGELGRGGEVELAQHVRPAHEDLSAIDSGPDPPAGGGAETSCTDLPTGGLGMGGRGRQDGAGHGVLAVGLRGSGQGQQLALGDADSCRDTGDRVRPLGQSAGFVEEHHVDGAHPLERHPVLDEHPGFRGPLAGDRNDQRNRQAQGVRTGDDQHRDRAHHGIVRAADNGPHHRGDQSGDQREPEQQRRRPIRQGLGPGGGLLGVGNHALDPGQGGVPAGSLHPDADGVVGGHGTGDHLVTGVAEDGTGFAGDHRLIEFGGSVDDGSVGRHPGTGPHQHDVVDNQLGDGHGAGGPVDDFLGLIRQQGSQRVKRGGRGPESAHLQPVAQQHDGHQQGQLPPEVQVKTAQPQSGDPGGDKRHGDGHGDQEHHPGLAGFQFVPSALEERRSAVDEDDCAQHRGDPGGSGECREVVAEQVGDHGAENNDGNGQNQRPPEAVPKHCGAVSGVFAVTMNVVVFVQGGVRVIVGHRLAVGVDICVVFVAGMIRVVGVVCFRSGVITMVITGMVGSAHDVPFDQPGRGRDDG				NA	NA	NA	NA	NA
AK009_07239	414			hypothetical protein	GTGTTCCTCCTTCGACTCGGTCGGAGCCAGGTGAGCCGGCTCCAGATCAATGCGGCGCAACAGCTGGGCGTTCAGGGCCACCACGATGGTCGAGGCAGACATCAAGATCGCGCCCACGGCCGGGGACAGCACGAACCCGATCGAGGCGAGCACGCCGGCGGCCAGCGGCACGGCGAGGATGTTGTAGCCAGAGGCCCAGATGAGGTTCTGGATCATCTTGCGGTAGCTGGCCTGCGAGAGCTCAATCATCGACAGCACTGCACGCGGGTCATCACTGGCCAGGACCACTCCGGCGGATTCCATGGCCACATCCGTGCCGGCCCCGATGGCGATACCGACCTCCGCGCGGGCCAGAGCGGGGGCGTCGTTGACACCGTCGCCGACCATGGCCACGCTCAGGCCACGCTCCTGTAA	MFLLRLGRSQVSRLQINAAQQLGVQGHHDGRGRHQDRAHGRGQHEPDRGEHAGGQRHGEDVVARGPDEVLDHLAVAGLRELNHRQHCTRVITGQDHSGGFHGHIRAGPDGDTDLRAGQSGGVVDTVADHGHAQATLL				NA	NA	NA	NA	NA
AK009_07240	741			hypothetical protein	GTGGGTGGACTATTCGGCGGGTTGGATCTCGCTCTCGGTGACCCATTTGTGGTTGATCATGGTCATCTCCCCAGTGTCAATGTCGACCATGTAGACCGTTTCCTGCGTGGAGTAGTCGATGGTGGCGGTCGCGCCCTGCATTCCCGGCATGTGCTCGGCGTTCAGGACCACCTTGGTGCCGCCGGGGAGCGGTGCCTCGCCCGGGTCGACAAGCTCCTCGTGCACGACCCACCGGTGATCGGTGACCGGCTCACCACCGTCAGTCGGGGTGTAACTGACCGAGTAGGTGGTGGTGTCGAAGGCCCCGGAGATCGTGGCCTGCGCACCGTCCATGCCCGGCATGTGATCAGCCGTGAGCATCACCTCGGAGCCGACCGGGTAGGTCGGATCCGTGGCTTCAGTGATGCCCTCCGGGGGCGGGCCACCGTCTTCCGGGTGCTCCATGTCATGACCACCGTCGTCGGCAGTGGTGGTGTCTTCCTGGTGGGTCTCGTTGGTCTCTGCGGTTGCCGTCGTGGTGCTGGTGGTGTCGGCATCGTCGGAGTTGTCGGTGGCGTCGCTGCAGGCGGTCAGCGCCAGGGTGGAGGTCAGTACCAAGGCGGCGAGGGTAATGCTGCGTTTCATGAGCGTTCCTTTCAAAGGTGGTGTGAGTTAGGGGTCGAGAGACAAGGTCAGTCAGTAACGGTTACGGGGGATATCGACCCACTGTGTTCCTCCTTCGACTCGGTCGGAGCCAGGTGA	MGGLFGGLDLALGDPFVVDHGHLPSVNVDHVDRFLRGVVDGGGRALHSRHVLGVQDHLGAAGERCLARVDKLLVHDPPVIGDRLTTVSRGVTDRVGGGVEGPGDRGLRTVHARHVISREHHLGADRVGRIRGFSDALRGRATVFRVLHVMTTVVGSGGVFLVGLVGLCGCRRGAGGVGIVGVVGGVAAGGQRQGGGQYQGGEGNAAFHERSFQRWCELGVERQGQSVTVTGDIDPLCSSFDSVGAR				NA	NA	NA	NA	NA
AK009_07241	153			hypothetical protein	GTGGGCCCTGTGGGCGTGCAGGTTCCGTGTGTGGCTGGTGTGCTGCGGCATGGTCGGCAGCGACTGATGACCGACTCTGGAGCGGGTGCCTTGTCTGGTCTCGCGGTTCAGGGTGGGTGGACTATTCGGCGGGTTGGATCTCGCTCTCGGTGA	MGPVGVQVPCVAGVLRHGRQRLMTDSGAGALSGLAVQGGWTIRRVGSRSR				NA	NA	NA	NA	NA
AK009_07242	408			hypothetical protein	ATGGGTATCTTCTCGGGTCGTCATTTCCCTCGCGAGGTCATCCTGTGGGCGGTGCGGTGGTACTGCCGCTACGGGGTGAGCTACCGAGACTTGGAGGAAATGATGACCGAGCGGGGCGTGCCGGTTGATCACACCACGATTCTCACCGCTGGGTCCAGAAATACGCCCCTGAGCTGGGCAAGCAAACACGGTGGTACCGGCAGGTACCTGATTGGCAGGCCAGTTCCTGGCGGGTGGATGAGACCTATATCCGGGTCGGCGGCAGGTGGTGCTACCTCTATCGGGCGATCACCGCCGGTGGCCAGACCCTGGACTTTTACCTCTCTCCGAAGCGGAACGTGGCCGCAGCGAAGCGTTTCCTGGCCAAGGCCCTCAGATCCAATGCGTCAGCCGGGTATCCCAGAGTGA	MGIFSGRHFPREVILWAVRWYCRYGVSYRDLEEMMTERGVPVDHTTILTAGSRNTPLSWASKHGGTGRYLIGRPVPGGWMRPISGSAAGGATSIGRSPPVARPWTFTSLRSGTWPQRSVSWPRPSDPMRQPGIPE	PGPT0030615_501	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_07243	501			hypothetical protein	ATGTGCTCGGCCATCTGCCAGCCGAGGTGCTGTTGCAAAGTTGGGGGAGAACAGCGAAGACTCAGTTTCTCATTCTCTGATGGCCGCTGCGTGTGGGCGTTCTCAGGCCGTCTCGAAGACCCGGTTGACGTTCACCGCGTCCGGGTTCGGTTGCCCGTGAGGTCAAACATCGTGCCTTGCCCTTTCCGCAATGAGTGCATCGCCTCCATCCCTTTCAACGTCCGATATGCAGATGTCCGGTTCTTAAACGCGCCTTTCGGCCCGAGGATCCGCTTCAGCCGACCATGGTCGCCTTCCAGGATGTTGTTGAGGTATTTCACCTGCCGGTGTTCCACTGTTGGCGGGCAGATTCCCTCTGACTTCAACTCGGCGATTGCCCTGGCTAGGGAGGGTGCTTTATCGGTGTTGATCACTCTGGGATACCCGGCTGACGCATTGGATCTGAGGGCCTTGGCCAGGAAACGCTTCGCTGCGGCCACGTTCCGCTTCGGAGAGAGGTAA	MCSAICQPRCCCKVGGEQRRLSFSFSDGRCVWAFSGRLEDPVDVHRVRVRLPVRSNIVPCPFRNECIASIPFNVRYADVRFLNAPFGPRIRFSRPWSPSRMLLRYFTCRCSTVGGQIPSDFNSAIALAREGALSVLITLGYPADALDLRALARKRFAAATFRFGER				NA	NA	NA	NA	NA
AK009_07244	687			hypothetical protein	ATGAAGCGCACCCTTGTTCTTTCCGCTCTCGCCGTGGCCTCCACCCTGGCGCTGGCCGCCTGCGGTGAGGCCACCGAGTCAGGCAACACCGACGCCACCACCTCGGCCACCAGCACTGCGACGACTACCGCTGAGACGACCGAGACCACCACGGCGACGACTGAGGCGGACGGGGAGATCTCCGCCGATCACAACGACGCGGACATCATGTTTGCCCAGATGATGATCCCCCATCACCAGCAGGCCGTGGAGATGAGTGAGATGCTCCTGGCCAAGGAGGGTATCCCCGCCCAGGTCGTGGAGTTTGCCCAGGGGGTTATTGACGCCCAGGGACCGGAGATTGACCGGATGAACGCCATGCTCGAGGCCTGGGGCCAGCAGCCGGTCACCGACTCTGGGGGCATGGGGACCATGGACGAGATGGGTGGAATGGATCACGGCGAGATGGGTGGCATGAGCGGGATGATGAGCCAGGAGGACATGACAGCCCTTGAGGAAGCCCAGGGCACCGAGGCTGCCCGCCTCTACCTGGAGCAGATGACCGCCCACCACGAAGGTGCGGTCGACATGGCCCGTGACGAGGTTGCTGACGGCCAGAATCCCCATGCGATCACCCTGGCCGAACAAATTATCAACGACCAGGAGGCCGAGATCGCCCAGATGCAGCAGATGCTCACTGACCTATGA	MKRTLVLSALAVASTLALAACGEATESGNTDATTSATSTATTTAETTETTTATTEADGEISADHNDADIMFAQMMIPHHQQAVEMSEMLLAKEGIPAQVVEFAQGVIDAQGPEIDRMNAMLEAWGQQPVTDSGGMGTMDEMGGMDHGEMGGMSGMMSQEDMTALEEAQGTEAARLYLEQMTAHHEGAVDMARDEVADGQNPHAITLAEQIINDQEAEIAQMQQMLTDL				NA	NA	NA	NA	NA
AK009_07245	186			hypothetical protein	GTGGGATGTCGCGGGCGAGGTGAAATTCCTGAAACCGGGAAAGGGAACCATCACGGCGGTGATGGAGATCTCCGACGAAACCTACGATCTGATCAAGGAAAAGACGGCCGACGGATCAAAGTACCTGCACTGGTTCGATACCGAGGTCACCAGCGAGGCGGGCGAGGTCGTCGCGCATGTGCGTAG	MGCRGRGEIPETGKGNHHGGDGDLRRNLRSDQGKDGRRIKVPALVRYRGHQRGGRGRRACA				NA	NA	NA	NA	NA
AK009_07246	1485			hypothetical protein	ATGGTGTGCACTCTACCGCTCGTCATCGCGTGTCGATGCCGGCAGCAGGCGCGGCACCACCTTGCCTGTGGCATTGCGCGGCAGCTCGGTCACGAAGTTAATGTCTCGCGGCACGGAGTGATCGGCGAGGTTGAGACGGACCCATTCACGGATTGCGTCGGAGGTCAGGGCATCTCCTGCCTCGTCGTCAGTGGGGACAACCCACACGGCGACGCGCTTGAAGGTGTCCTCGTCGTCAACACCTCCGGAATGGATCTCATCGATGCCGGGCATGCGCTCGAGAACCTCGGTGACGGACTGCGGGTGGACGTTCTCCCCGCCGACAATGATCATGTCGTCGTTGCGGCTGAGCACGTGGAGGTGCCCGTCGGTGTCGAAGTAACCCAGGTCGCCCATCTCGATGAGGCCGTCGATCTCCACGATGGGGGTCTGGGGGTTGGAATAGCCCTTCAACGCAGTTTCGTTAGTGAGGAAGATCCGCCCTACCTCGCCGGGCTTGGTCTCGCGCCCATTGTCGTCGTAAATCCGCAAGATCGTGCCCGGAGGAATGCGGCCGGCGATGGTCGGATCCGCCGCGACCATCTCCGCGTTGGCACAGGCCGCCAGGGCCAGCTCGGTGGAGCCGTAGTAGTTGGCCAGGATGGGCCCGAAGCGCTCGGTCATGCGCTCCACCAGAAGCGGTGTCAGCGCATTTCCGGACGAGGCGATGAACTTCAGGTTCGAGGTGTCGAACATCTTGTTGCCGGGGATGGCGAGCATCTGCTTGAAAAAGATCGGCGAGGACACCAGCCCGTCACAGCGGAAGTCCTGGATCTGGCGGAACACTTTCTCTGGGTCGAAGACGCGCTGGGTGATGATGGTGTTGCGCAGCGCGAGCGAGACATTGACCGCCGACCAGCCCCAGGTGTGGAACATGGAAGCGGTCAGTTGCACCGTCATCCCGGATCGCCACGGCACGGTGGAGAGGTACCCGCCGATCACGAACGGCAGGATGGGCTCCGGGCGGAGGATGCCCTTCGGCACCCCGGTGGTGCCCGAGGACATCAGGACGATGTTGCCGTGGGAGGGGAAAAGCGGCAGTTGCGGTGCGTTGTCGGCCTGCTCCACCCCTTCCGCGATGCGGGCGAGGGTGGGTTCGCTCCCGTGTGCCGTCGTGGTGTGTGCCCAGATGACCTCGATGCCGTCCATGTTCGCAGGGATCCGGTCGGCGAATTCGTCGTCGATAAACAGCACGTTGATGCGGTTCTCCGCGAAGATGCCGGCGAGCTGCTCCGGGGAGGAACCGACGTTGAGCAGGAACAGGTGCCCTCCGGTGAGGCCTTTCGCACCCATGGGTATGACCACACCGCGGCCGTTGCGGGCCATCACCGCAACACGGAGCTCTTCCACCCCCCCGGTCGCGCTTGCGAGCGAGGAGCCACGTGGCCACAGCGCGGGTCTGATCGCGTAGCTGGCGGTAGCTCAGGACCCCGTCGTCGTCGATAA	MVCTLPLVIACRCRQQARHHLACGIARQLGHEVNVSRHGVIGEVETDPFTDCVGGQGISCLVVSGDNPHGDALEGVLVVNTSGMDLIDAGHALENLGDGLRVDVLPADNDHVVVAAEHVEVPVGVEVTQVAHLDEAVDLHDGGLGVGIALQRSFVSEEDPPYLAGLGLAPIVVVNPQDRARRNAAGDGRIRRDHLRVGTGRQGQLGGAVVVGQDGPEALGHALHQKRCQRISGRGDELQVRGVEHLVAGDGEHLLEKDRRGHQPVTAEVLDLAEHFLWVEDALGDDGVAQRERDIDRRPAPGVEHGSGQLHRHPGSPRHGGEVPADHERQDGLRAEDALRHPGGARGHQDDVAVGGEKRQLRCVVGLLHPFRDAGEGGFAPVCRRGVCPDDLDAVHVRRDPVGEFVVDKQHVDAVLREDAGELLRGGTDVEQEQVPSGEAFRTHGYDHTAAVAGHHRNTELFHPPGRACERGATWPQRGSDRVAGGSSGPRRRR				NA	NA	NA	NA	NA
AK009_07247	900			hypothetical protein	ATGGTAACGAGGCGACTAGGAGTTAGCGATGACGCGGGCCACGTGATCGTGGCCCCGCTGGTTCACGTGGATCGGCAAATTGCCGGGACCTGCGTAGAAATCGACCAACCCGGCCCACATCCGCTGATCGTCCGGGGCGCACATGTTGTTGTTCCACGTCGAGGGCTTCACATCCAGGAACTCGGTGCCCGTCGCCCGGGCAGCATCGACCGACATCCACTGCGCCTGATCCTCCCAGCGCTGGATCTGCGCGAACGGCGTCCAGTCCGACACGTTCGGCGCGATGTGGAACAGGCACACCTTGTCGCCGGAGGTGATCTTCGGGTAACCCACGAACTGGATCCGCGCATTCGGCGCGGCGGCACGGATGCGGCTGACCTGCGGAATCATGTAGTTGACAAAGTCGCGGCGCACGTCAGCATCCGGACGGCCCTCGTTGTTGTAGGTGTCGTTGAAACCGGTCGTGATGATCACCCGGGCCGTGCCCGGGTTCAGCGCACCGTCGGACAATGCACGGTCGACCTGGGTGTACAGCTGCGGGCCGGGCGAGACCGTCACCGTACCCGTGCAGGAGTAATCGGACGCCGCCAGCCCGAGCTGCGCCGCCGCCTGCCGCCCCCAGCTCGTCGGGCTCTGCGGGCACCACGTGCCGACACCCGACGACCCGCGCGGGTCGAGCCCGAGCTTGCCGGCCAACCACTGCGGAGCGTTCGGGTCCGAGATGACCGAGTCCCCGAAAATCACCATGTTGCGCTGCTGCGCGTTCGCGGGAGCGTGCGCCATGGACAAGGCAGCGAGCGCGGTGGCGCACACGGCCACTACACGGAGGCGGATGGTACGGGCGAGCATGCAGGACTCCTCTACAACTACAACGTCACAGGCATTTCTATTGCATCCTAG	MVTRRLGVSDDAGHVIVAPLVHVDRQIAGTCVEIDQPGPHPLIVRGAHVVVPRRGLHIQELGARRPGSIDRHPLRLILPALDLRERRPVRHVRRDVEQAHLVAGGDLRVTHELDPRIRRGGTDAADLRNHVVDKVAAHVSIRTALVVVGVVETGRDDHPGRARVQRTVGQCTVDLGVQLRAGRDRHRTRAGVIGRRQPELRRRLPPPARRALRAPRADTRRPARVEPELAGQPLRSVRVRDDRVPENHHVALLRVRGSVRHGQGSERGGAHGHYTEADGTGEHAGLLYNYNVTGISIAS				NA	NA	NA	NA	NA
AK009_07248	1011			hypothetical protein	GTGCAGGTCGACGTACGCGGGGAAGTCACGCTCGGGCAGGCAGTCGCCGTACCATGCCGGCTTGATCGAGCCTCCGTGGCCGTAGAGGTCGATAGCGGGCACGTCGACGTGGTCGGTCTGGTTGGGCACACCCACCATGACCATGCGCCCGGCAAGGTCGCGGGAGTAGAACGCCTGGCGCCAGGTCGGCTGGATCCCGACGGCGTCGATGGTGACGTCCGGGCCGAAGCCGTCGGTAAGTTCGCGCACGGCGTCGATCACCTCGTCCTCGCTCTTGCCCTTGGAGCACACCGCGTGGGTCGCGCCGAAGCGCTCGATGGCCGCATCGCATTTGCGCTGGTCAAGGTCGACGGCAATAATTGTCGACGCCCCGGCCAGCTTGGCTCCGGCCACGGCCGCCAGGCCGACGCCGCCAAGGCCGAACACGGCGACCGACTCGCCGAGCTGGATGTCGCCGGTGTTTACCGCCGCGCCCAGGCCGGCCATGATGCCGCAGCCGAGCAGGCCGGCGGCCGCCGGATCCTCCTCGGGGTTGACCTTCGTGCACTGCTTCTCGTGCACCAGGGTCTTCTCGGCGAACGAGCCGATTCCGAGGGCGGGGGTCAGCTCGGTGCCGTCGTCAAGCGTCATGCGCGCCGACGCATTGTGGGTGTTGAAGCAGTTCTTCACGTCGCCCTTGCGGCAGGCGCGGCACTCGCCGCATACCGCGCGCCAGTTCAGCACCACGAAATCGCCCACTTCGACGTGGGTGACGTTCTCGCCGATCGTTTCAACGATGCCGGCCGACTCGTGACCGAGCAGGAAGGGGAAGGCATCCTCGATGTCCCCGTCGCGGTAGGCGAGGTCGGTGTGGCAGACTCCGGTGGTCTGCACCTTGACGATAACGTCGTTCGGCCCCGGCTCCGGAAGGGTAATGTCGACCACCTCGACGGGGCTACCTTTTTCGCGTGCAATGACTCCTTGTACTTTTTCGCTCATACCCCCAATGGTAACGAGGCGACTAGGAGTTAG	MQVDVRGEVTLGQAVAVPCRLDRASVAVEVDSGHVDVVGLVGHTHHDHAPGKVAGVERLAPGRLDPDGVDGDVRAEAVGKFAHGVDHLVLALALGAHRVGRAEALDGRIAFALVKVDGNNCRRPGQLGSGHGRQADAAKAEHGDRLAELDVAGVYRRAQAGHDAAAEQAGGRRILLGVDLRALLLVHQGLLGERADSEGGGQLGAVVKRHARRRIVGVEAVLHVALAAGAALAAYRAPVQHHEIAHFDVGDVLADRFNDAGRLVTEQEGEGILDVPVAVGEVGVADSGGLHLDDNVVRPRLRKGNVDHLDGATFFACNDSLYFFAHTPNGNEATRS				NA	NA	NA	NA	NA
AK009_07249	627	gloB_4		Hydroxyacylglutathione hydrolase	ATGGCCTTGAAAATCGACCATGTGCTGACCTCCGGCGTTTTCGCCCTCGACGGCGGTGAGTGGGACGTGGATAACAACGTCTGGATCGTCGGCGATGACACCGAGGTCTACATTATCGACGCCGCGCACGATGCCGAGGCCATCGCGAAGGCGGTCGGCGACCGGAAGGTCAAGGGCATTATTGCCACGCACGGCCACAACGACCACGTGGATGCCGCACCGCTGCTAAGCAAGCTTGTCGACGCTCCCGTCTACCTGCACCCGGGCGACGACATGCTCTGGTTCGATGCGAACCCGACGGAGAAGTTCGTCGAGATGGCGGACGGGGAGGTATTCAAGATCGCGGGAACCGAACTCAAGGTGCTCTCCACCCCGGGACACTCTCCGGGTTCTGTTGTGCTTTATGCCGAGGAAGCAGGCGAGCTGTTCTCCGGAGACACCCTCTTCCAGGGCGGCCCGGGTGCGACGGGGCGGTCGTACTCCTCCTTCGACACGATCATCGAGTCGCTGCAGAAGCGGGTGCTCGACCTGCCTGCGGAGACCGTCGTGCGCACCGGTCACGGCGATCACACCACGATTGGTGAGGAGGCGCCCCACCTCGAGGAGTGGATCAAGCGAGGGTACTAG	MALKIDHVLTSGVFALDGGEWDVDNNVWIVGDDTEVYIIDAAHDAEAIAKAVGDRKVKGIIATHGHNDHVDAAPLLSKLVDAPVYLHPGDDMLWFDANPTEKFVEMADGEVFKIAGTELKVLSTPGHSPGSVVLYAEEAGELFSGDTLFQGGPGATGRSYSSFDTIIESLQKRVLDLPAETVVRTGHGDHTTIGEEAPHLEEWIKRGY	PGPT0001770_7282	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK009_07250	255			hypothetical protein	GTGGATCAAGCGAGGGTACTAGGGCGTGCTCGGCGAGTCAGGCTGCTCCGCGTTTTGCAGCGCAACGGCGCGGGCGAGCCGGGCGTAGCGCAGCTCCTGCTCGCGGAAGCGGGTCCACGTGGAAATCGTGGTGAAGAAGAACGCGACGATGAGCACGTAGAGCATGAGGTCGGTGCCGCGGTCGACGCCGAGCCAGTTGGCCAGCACTGTGACGTCGTTGGGCCGCAGGATTGCCCAGACGGCGGCCACCATTAG	MDQARVLGRARRVRLLRVLQRNGAGEPGVAQLLLAEAGPRGNRGEEERDDEHVEHEVGAAVDAEPVGQHCDVVGPQDCPDGGHH				NA	NA	NA	NA	NA
AK009_07251	603			hypothetical protein	GTGGGACATTCCGTTCATGCGGATGTTCATCTCATCCGCGACCTTCTTGGTGAAGGCCCGCAGCCCGTTGTGCGCATCCGACAGGCCCAGGCGACGGGTGCGCGGGGAAAGCATGACGACGGTTTTCAACACCACGCGCTTGATCCAGGGCACCTGGGTGTTGTCCTGCCCGGCGAAACGTGTGCCCACCACGATATCGAGCGGCTCCCGGCGCAGCCGGGAAATCATCCTCACCACGTCCTTGACCTGGTGCTGGCCGTCCGCGTCGAAAGTGACGAAGTACCGCGCTCCCGGTTGGGCACGCGCGTACTCGACACCGGATTGAATCGCAGCGCCCTGTCCCAGGTTCACCGGGTGGTTGACAAGGTGCGCGCCCGCCGCGCGGATGGCTGCGGCGGAGTTGTCCTTGGAACCGTCGTTGACCGCGACGACGTTGGGGAACGTCTCGCGGGCGTGCTCGATCACCTCCTGGATGACTGGCCCCTCGTTGTAACAGGGGATGACCAGCCACGTGTCCGAGTAATCTCGCAAGTCCTGGGTATCGTTCATCTCACGCCACACGTTACCTGCTGTGGTGAAAAAGACGGGTGTACACCCGGGTAA	MGHSVHADVHLIRDLLGEGPQPVVRIRQAQATGARGKHDDGFQHHALDPGHLGVVLPGETCAHHDIERLPAQPGNHPHHVLDLVLAVRVESDEVPRSRLGTRVLDTGLNRSALSQVHRVVDKVRARRADGCGGVVLGTVVDRDDVGERLAGVLDHLLDDWPLVVTGDDQPRVRVISQVLGIVHLTPHVTCCGEKDGCTPG				NA	NA	NA	NA	NA
AK009_07252	684			hypothetical protein	GTGAAAAAGACGGGTGTACACCCGGGTAAGTACGGCTGTCGGCAGAAGCCGGTACGCGGTTCTGACTGCGAGGTTGAACCGGGCGCGCCACGGCCCGACCAGACCGTATGTCACGAGGCGGGACTGCATCTCGCGCTCTGCCGCGAACATGCCTTTACCCGTGCGGCGGGCGAACTGGGCGGGGCTGACACGGAAGTACGTCAGCGGCTCCGGCAGGTTGTGCAGCTTCTTCCCGGCGGCGATGAGGCGCGCCCAGAGGTCGTAGTCCTCCATGAAGTGCACTCCTTCATAGCCGCCGACCTCCTTGATGGTGGCGGTGCGCAGCATCGTGGAGGGGTTGTTCAACGGGGAGTTGATGCGCGCGTAGGAGGCGATTTCCTCGTGGGTTTCGGGCAGCGAGCGAACCGGCCCCGCGTCGAGGTCCGCTGTTTCGTCCTCGAACTCACGCACCGCGGTGCCCAGCGCCGCGACGTCGGGGTGGGATTCCATGAAGGCGAGTTGCTTTTCAAAGCGGCTGGGGTGCGCGATGTCGTCGCTGTCCAGGCGGGCGATGTAGTCGAAGGAAATCGCATCTACGCCGGCTTGCGATGCCGGGCCCGACCCGACGTTTTCCGGCAGCTCGATCACGCGGACCTCTGTTCGCTTTTCCGAGTAGTCGCCCACAACGTGGCGCACCTCGTCTGA	MKKTGVHPGKYGCRQKPVRGSDCEVEPGAPRPDQTVCHEAGLHLALCREHAFTRAAGELGGADTEVRQRLRQVVQLLPGGDEARPEVVVLHEVHSFIAADLLDGGGAQHRGGVVQRGVDARVGGDFLVGFGQRANRPRVEVRCFVLELTHRGAQRRDVGVGFHEGELLFKAAGVRDVVAVQAGDVVEGNRIYAGLRCRARPDVFRQLDHADLCSLFRVVAHNVAHLV				NA	NA	NA	NA	NA
AK009_07253	861			hypothetical protein	TTGGCACAGGGGTTGATCCTAGCGGGGTCAGGCGGCCTGCGGGTCGGGGTAGGGTGGTTCCTCCTCGTCAGGTTCGGGTGGGATCCAGGACAAATCCTCCGGGTCCGGAGTGAACTCGAACTCGAGGCCGAATTCCCGTTCCAGGTCAGCGATCGCCTCGGCACAGGCGTCGTAGTCGCCGTCGATCTCGTATCTGTCGCAGAGTACGTGGCAGGCGGCGTGGAAGCGTGCGACCCGCGCCCGGGCCGCGCGCAGGCCGTCCCGGTTGGTTTTCCACCGTGGCTGGGTGGGGGTGACCTGCGGGCGCAGAATTCCGGTGTCCTCGGCTATCGCCCACGACCCGGTGGAAAACAGCCAGAGAGTCTCCCCGGTAGCGGGGTCGGGGACGTAGAAGGCCCGGCGATCGGTCTTCATGTTGTGGTGGCGCTGGCACAGGCAGTACAGGTTGGGCGGGGTGGTTCTTCCTCCCTCCCCGTAGGGGATGCGGTGGTCGAGCTGGCACCGCTCGGCCGGGACGTGGCAGCCGGGGAAGACGCAGGTTCCGTCGCGGGCCCGGATATACGCCGCCATCTTCGGGGTGGGTACGTAACCGTCGACCCGCGAATCCGCGGTGGCGTCGAGGTCGGTGACGGTGCGCTCGCTGCGGCCGAAAAGTGCGTCGACGCTGTCGGCGAGCCAGCCGTAGCGAGGCATGAACGCCTGGCCGGCGACGGAATACACCTGAATCGTGGCGTGCGCCTCCGGGGCGAGCTGGCCGGTGAGCAGCTTGATGATTGTCTCCGCGAGCCCGAGCTTGTGGGCGCGCGCAGTTGCCCCGACGAACGCGTCGACTCCCGCGATGGTGGCGGTGTCCGCGGTTAG	MAQGLILAGSGGLRVGVGWFLLVRFGWDPGQILRVRSELELEAEFPFQVSDRLGTGVVVAVDLVSVAEYVAGGVEACDPRPGRAQAVPVGFPPWLGGGDLRAQNSGVLGYRPRPGGKQPESLPGSGVGDVEGPAIGLHVVVALAQAVQVGRGGSSSLPVGDAVVELAPLGRDVAAGEDAGSVAGPDIRRHLRGGYVTVDPRIRGGVEVGDGALAAAEKCVDAVGEPAVARHERLAGDGIHLNRGVRLRGELAGEQLDDCLREPELVGARSCPDERVDSRDGGGVRG				NA	NA	NA	NA	NA
AK009_07254	279			hypothetical protein	TTGAGATTTCTCGCGCCTACGGCGCTTGACTGGGTTGAAGTTCACCGAGGAGTCCACCTCGGCGACGAGGTGCCGCAGCACGCGCGTCAGCTTCCACACGCTGGGAAGTGGCCTGCCCCGTGTAGCCGGGGTGAACATCTCGAGCAGCAGTTCGTCGAACAGGGCGAACGTGTCCGCGTCGGTCTCGGGCGGGAGGACGCACAGCGTTCTGTCGATTGCGGCGAGCCGGGGGACGTCGACAAGCTTGTGCAGCTCGTGGAAGGAACGCAGCAGCGGTAG	MRFLAPTALDWVEVHRGVHLGDEVPQHARQLPHAGKWPAPCSRGEHLEQQFVEQGERVRVGLGREDAQRSVDCGEPGDVDKLVQLVEGTQQR				NA	NA	NA	NA	NA
AK009_07255	510			hypothetical protein	GTGTGCGGCGTCGATAAGATAGCGTCCGTAACCGGACTTGAGCATCCCCCGCCCCAGCTCAACCAACGCCTCGGCGGAGATCAGCCCCTGGCGGTACGCGGCGACCTCGGGCGAGCCGATCACGGTCCCGGTGCGCTTTTGCAGCACCTCGACGTACGCGCTGGCCTCGCTCATCGAATCGATGGTGCCGGTGTCCAGCCAGACGTCGCCACGCTGCAGGCGGTGGACCTGGAGCTTTCCTCGGCGCAGGTACTCCTCGTTGACGGAGGTGATCTCCAGCTCCCCGCGCGAGCTCGGGGTAATGGCGCGGGCGATCTCCACCACGTCGTTGTCGTAGAAGTACAGCCCCACCACGGCGTACGGGGACTTCGGGGCAGCAGGCTTCTCCTCGATCGAGGTCGCCATCCCGCGCTCGTCGAAGCTGACGACGCCGTAGCGCTGCGGGTCGGAGACCTCGTAGGCGAAGATTGCGCCGCCCGAAATCTCGCGGATCCCGCCGAGGATGCTTGA	MCGVDKIASVTGLEHPPPQLNQRLGGDQPLAVRGDLGRADHGPGALLQHLDVRAGLAHRIDGAGVQPDVATLQAVDLELSSAQVLLVDGGDLQLPARARGNGAGDLHHVVVVEVQPHHGVRGLRGSRLLLDRGRHPALVEADDAVALRVGDLVGEDCAARNLADPAEDA				NA	NA	NA	NA	NA
AK009_07256	1020			hypothetical protein	GTGGGAGCGCCTGCGCGACCACCTCAGCGACAAAGAGATCACAGCCCTGCTGTTACTCGTGACCAACTACGACGGCCTGGCAACCGTCATGGACGTCCTCCAGGTACCCCTGGACGAGAAGCGCTAGAGCATCGCGTCCTTCGCCACCCACCGAAACGCGCGGTTGATCCCCCGCATGGCTCCTGCGTAGAGCCAGGGTGCGTTGACCTGCGCCCAGCGCGCCAGTGCCACATCTGCGCCGGTGGTTATCAGCGGCTTATTCTTCTCCACGCCGCGAAGGATGATCTCGGCGCACTTCTCCGGCGAGATGGCATGGCCCTGGAAAAGCTCGCGCGCCTTGCGTACCCGGGGGTTGTCCATGTCCACCCCGTCGACGTCAATGGTGCGCACCAGCCCGGTGTCCACCGCGCCCGGCGCGACGGCGTGCACTCTAATGCCGTAGGGGGCGAGGTCGAAGCGCAGCACCTCGCACATCGCCAGCACGCCTCCCTTGGATGCCGAGTACGCCGCGTGCCAGGGCAGCGCGAGGATGCCCGCGGAGCTGGAGACGCAGACCAATCGGCGGGGGCCGATTTCCTGTTGCTCCTGCCTGGGCAGAGGGCCGGCCTTCATCATCGCCGGGGTGAAGGCGCGTGCCACGTGGATGGTGCCCATGAGGTTGACGTCGATAAGAGTGCGCCACTTCTCAAGCGGCATCGTGTCCACCCTACCCCAGATGGAGATGCCTCCGACGTGGTGGACGGTGTGGGCAGGTCCGTGCTGCTGAGCAAGTCCACTCGCCCAGGAATCGACGGCATCTGCGTCGGCGACGTCGACCACGGAGGCGTCGATAAGCTCGGCTCCCCGCGCCTCGCAATCGCGCGCGGTGGCCTCGAGCCCGGCGGAATTGATATCGCTGATGGCAAGCCGCCAGCCGAGATCGGCCAGCTGGAGGGCGAGGGCGCGTCCGATGCCGGAGGCGGCACCGGTGACGACGGCGTAGTGGCGGGTACCGAACATGGGCGCTCCTTTGCTGTGTAG	MGAPARPPQRQRDHSPAVTRDQLRRPGNRHGRPPGTPGREALEHRVLRHPPKRAVDPPHGSCVEPGCVDLRPARQCHICAGGYQRLILLHAAKDDLGALLRRDGMALEKLARLAYPGVVHVHPVDVNGAHQPGVHRARRDGVHSNAVGGEVEAQHLAHRQHASLGCRVRRVPGQREDARGAGDADQSAGADFLLLLPGQRAGLHHRRGEGACHVDGAHEVDVDKSAPLLKRHRVHPTPDGDASDVVDGVGRSVLLSKSTRPGIDGICVGDVDHGGVDKLGSPRLAIARGGLEPGGIDIADGKPPAEIGQLEGEGASDAGGGTGDDGVVAGTEHGRSFAV				NA	NA	NA	NA	NA
AK009_07257	465			hypothetical protein	ATGTCCCGACTGGCAAGCATGTACTGGTCAGCATCTGGGGCGAGAGCTTTCCTATTGTTTTATGGTGGAAAGTATGAAGCCTATGCCCATCACCTCATCCACCCGCCCGGGTCCCGGCCGCGGCACAGACATCGCCCTGCTCGCGCGGCTGGCCAACCGCATCGGCGCGCAAGTACAAGGGACGAAGACACTGAACCTGTTCGGCGCGGTCGGCCGGGCGAGGCGCAACTTTTTACCGTGGCTGCTCTATTCCGGCTCCTTGATGCCCTTCGGTATCTTGCCGCGCAGGCAATCCGAGCTGGTCATCTTGCGCGTCGCTACGCTGCGCGATTCCCGCTACGAACTCGAGCACCACACCACGATGGGCAAGCGCTTCGGCCTCAGCGACTCCGACATCGAAGCTGTCAAGCGGCCCGAGCACGGCTTCACCGGTCGCACGGGGGTGATCCTGGATGCTACCAATGA	MSRLASMYWSASGARAFLLFYGGKYEAYAHHLIHPPGSRPRHRHRPARAAGQPHRRASTRDEDTEPVRRGRPGEAQLFTVAALFRLLDALRYLAAQAIRAGHLARRYAARFPLRTRAPHHDGQALRPQRLRHRSCQAARARLHRSHGGDPGCYQ				NA	NA	NA	NA	NA
AK009_07258	1065			hypothetical protein	ATGCGCGATGCCGTGCGCCAGATCGTCGGCATGCGTGGGCCTGCCTCGCTGGTCGGACACCACGCTGGGGCTCACGCCCTTGTCCGCGAGCCGGGCCATGGTGGCCATGAAGTTCGCGCCCTCACCGAACACCCAGGACGTGCGGATCACGTAGTGGCGCGGCGTGGCCCGGGCGGCGGTTTCGCCCGCGCTTTTCGACGCCCCATAGGCGCTGAGCGGCGATGGCAGCTCGTGCTCAGTGTGTTCTGTATTCAACCCATCGAAGACGTAGTCGCTGGAGACGTGCACCAGGGTCAGGTCGTGCTCGGAGGCGATGCGGGCAAGCCCCGCCACCGCGTCCGCGTTGACCGCCCACGTTGTGCCCCTTTCTGTTTCCGCCCCGTTGACGTCGTTGTAGGCGGCGCAGTTGATGATGGCGTGGTACTCGTTCCAATCCCGCGCAGGAGGGGCGGTGATGTCGAACTCGGCCCGGGTGCAGAATTCCGCCTCGCGCTCCGAGTAGACCTTGCGCAAGGCCCGGCCGAGCTGCCCGTTCGCGCCGGTGACAAGGATTTTCCGCGGCGGTACGGTGCGGGCGTCGGCAAGCGGTGGGTGCTTTTGGTCCGCCTCGGAGAGCTCCGTGGGCTTAAGAGGCCAGTCGATTTCGCCGTAGGAGCAGTAGGCGTAGGTACCGTTCGGGTTGTAGCGGGCGTTGACCAGGTAGGTGTAGGTTGTGGCGTCCTCAAGCGCCTGGAAGCCGTTGGCCACCCCGCGCGGGACGAACACCGCGGTGTCGGGGCCAATCTCGATTCCGAACTTCTCCCCGAAGGTGGCCGAGCCCTCGCGCAGGTCAACCCAGGCGGCAAAGACGCGCCCGGTGGCCACGGAGACCCATTTGTCCCAGGGTTCGGCGTGCATGCCGCGGGTCGCACCAATCCGGGCGTTGAAAGAGATGTTGTTTTGTACCGGGCGCAGACGCTGGCCGGACCAGTTTTCCTTGAACCAGCCGCGGTTGTCCGCGTGGAGGGTGAGCGGGTGGATCTCCAGGCCGTCGATGGGGGTGGGGGTCATGGGAGTCAAGTGTAG	MRDAVRQIVGMRGPASLVGHHAGAHALVREPGHGGHEVRALTEHPGRADHVVARRGPGGGFARAFRRPIGAERRWQLVLSVFCIQPIEDVVAGDVHQGQVVLGGDAGKPRHRVRVDRPRCAPFCFRPVDVVVGGAVDDGVVLVPIPRRRGGDVELGPGAEFRLALRVDLAQGPAELPVRAGDKDFPRRYGAGVGKRWVLLVRLGELRGLKRPVDFAVGAVGVGTVRVVAGVDQVGVGCGVLKRLEAVGHPARDEHRGVGANLDSELLPEGGRALAQVNPGGKDAPGGHGDPFVPGFGVHAAGRTNPGVERDVVLYRAQTLAGPVFLEPAAVVRVEGERVDLQAVDGGGGHGSQV				NA	NA	NA	NA	NA
AK009_07259	813			hypothetical protein	ATGAACCCGACAATGGTCCTATTGTCCGTTTTGCGCATACCGCTTCTCGACGTCCCCCTTCATGCCCCGCCACCAGTTCTCGTTTTCGGCGTACCACGCGATGGTGCTCTCCAACCCGGTGCGCAGGTCCGGGGCGTGCCGGGGACGCCACCCGAGCTCGCGGGTGAGTTTGGTGGCGTCCATGGTGTAGCGCTGGTCGTGACCGGGGCGGTCGGCGACGTGCTCGTACGTGCCGCCCATGATCTCGCAGATCATCTCAACGACCTGCTTGTTGGTCACGTGTGTGCCGCCGACGCCGATGTTATAGGTTTCCCCGATCTTTCCCCGCTCCAAGATGGCGAGCACGGCGTCGTTGTGGTCGTCGACGTGGATCCAGTCGCGCACCTGCGCGCCGCTGCCGTAGAGCTTGGCGGGGCGGCCGTCGATAATGTTCGTGATCTGCCGCGGGATGAACTTCTCTATGTGCTGGTACGGCCCGTAGTTGTTCGAGCAGTTCGAGATCGTCGCCTTGATACCGAAGGAGCGCACCCAGGCGCGCACGAGGTGGTCGGAGCCGGCCTTGGTTGCCGAGTACGGGCTCGAGGGGTTGTAGGCGGTGGTTTCGGTGAACTTCTCGTCCCCGCCAAGCGGCAGGTCACCGAACACCTCATCGGTGGAGATGTGGTGGAATCGGGCGTCGTAACGCCGCACCGCCTCAAGCAGAGTGAACGTGCCTACCACGTTGGTGTGGACGAAGGGGGAGGGGTCTGCCAGCGAGTTGTCGTTGTGGGATTCGGCGGCGAAGTGGACCACGGTGTCGCTCTCCGCCACTAA	MNPTMVLLSVLRIPLLDVPLHAPPPVLVFGVPRDGALQPGAQVRGVPGTPPELAGEFGGVHGVALVVTGAVGDVLVRAAHDLADHLNDLLVGHVCAADADVIGFPDLSPLQDGEHGVVVVVDVDPVAHLRAAAVELGGAAVDNVRDLPRDELLYVLVRPVVVRAVRDRRLDTEGAHPGAHEVVGAGLGCRVRARGVVGGGFGELLVPAKRQVTEHLIGGDVVESGVVTPHRLKQSERAYHVGVDEGGGVCQRVVVVGFGGEVDHGVALRH				NA	NA	NA	NA	NA
AK009_07260	219			hypothetical protein	ATGCACCGCGGCTCCGGCAAGTGGGCCTGCGTACAGGGCCGCGCACACCGAGGTGACCACCCCGTAGGGCAGGGCGAAAAGCAGCGCGAACGCGACGACGGTCGCGACCACCCAGCCGGCCACGTACACGCCGTGGCGCTCGGTGGAGAGCACGGCCACGCCGGTGATCATGAGCGCGCCCATGAACGCCGAGGCGAAGGTGAGCGCGCCCAGGGTTAA	MHRGSGKWACVQGRAHRGDHPVGQGEKQRERDDGRDHPAGHVHAVALGGEHGHAGDHERAHERRGEGERAQG				NA	NA	NA	NA	NA
AK009_07261	345			hypothetical protein	GTGGATGCGCTCGCGCTGCTCCACGAACCGCACCACCAGCGCCGACTGGAAGCGCTGCAGCGGCACGAGCACGGGGGCGCGGGTGAGCAGCACCGCGTTGATGATCGCGGCGACTGCCGTGCCCCCGCCGAAGGGGAACGCTGCGTTGATGGCGACGGGGAAGCCGGTAATCAGCGCCGCCGAGGCCCCGGAGGCCACCATCGCGGAGGACACCCGGCGAGAAAACGCCGCGCGATCTACGTCCAGGGCCACGCGGATACTGTCCCGGGCAGCGCGCGAGCCACCAAGAATAACCAACCAGCTCGCTGCGCCGATTACCGTGATGATTGCGAACGCCCACAGTGA	MDALALLHEPHHQRRLEALQRHEHGGAGEQHRVDDRGDCRAPAEGERCVDGDGEAGNQRRRGPGGHHRGGHPARKRRAIYVQGHADTVPGSARATKNNQPARCADYRDDCERPQ				NA	NA	NA	NA	NA
AK009_07262	429			hypothetical protein	GTGCATAAACAGCACGCCGCCGACGGCCGTCGCGACGGCGACCAGCGCGGCAATCAGCGCCCCGACCCGCCACGGGTTAGCGGAACCGCGCGCACCCGATTCCCGGGCGCCGGCGACGGCGCGGGTGGTCTCGTGGGTCAGGCCGTCGATAAGCCCGGTGGCGGCGAAGAACAGCGACCAGAAAGCGGCGAAGTAGCGGTAGTCCGTCTCCGCGGGCAGGACGCGCTGGGCGACCCAGAGCACCGCGAAGCCGCTGATTGCGGCGAAAAGAGTGGCGAAGGAGAGGCTTCTCACGGGCACTCCGGAAGCTCGGGCCGGTTAATCCAGGCGTCGATAACCCCCTCGACATCCGCGCCGGGGGCGTGGGCCTTCAGCGCGTTGACCAGGTCGAAGGGCTCGACGACGCTGTGGGCGTTCTTGGCCACGTAG	MHKQHAADGRRDGDQRGNQRPDPPRVSGTARTRFPGAGDGAGGLVGQAVDKPGGGEEQRPESGEVAVVRLRGQDALGDPEHREAADCGEKSGEGEASHGHSGSSGRLIQASITPSTSAPGAWAFSALTRSKGSTTLWAFLAT				NA	NA	NA	NA	NA
AK009_07263	213			hypothetical protein	ATGCAGCGTGATCGCGCCGCGCTTGTACACGCGGTCGTCGAACATGTCGCGGGGGCCGGGGTCGGCAAGAGTGAAGCTCTGCCGCGTGAGCCTGCGGTAGTGCTGGCGCACGCTGACATCAACCGGGGTGCCTTGGTGATCCGCCCACAGCCACTCGCAGTAGCAGGCGAAACCCTCGTTGAGCCAGATGTCGCTCCACTGGGCAACACCTAG	MQRDRAALVHAVVEHVAGAGVGKSEALPREPAVVLAHADINRGALVIRPQPLAVAGETLVEPDVAPLGNT				NA	NA	NA	NA	NA
AK009_07264	822			hypothetical protein	GTGCGCCAGCTCGTGGGCGATCAGGCGCTCCTCACCGCGCAGGTGGTTGACCCCGAAAATCGACATTGCGGCTGCCTCGAGGGGGATCTCCAAGTCGTCCTCGGTAACGACCACCTCGTAGCGTTCAAACGGGTAAGGCCCGAAAGTCTCCTCGAAAAAGTCCAGCATCGCCTGCTGCTTTGTAAAATCACCCGGGCCAACGTTGTACGGCAGCCACGCACTCACGTTGCGCCCGAGGTCGACCCGGGAGTACCTGCCAACCTGCACGGATGCCAGGTAGGTGGGCATGGGCCTGGTGGTGGGGTTGGTGATCACCGTGTAATCGCGGTCCGCGCGGACGTTGAAGCAGTAGGTTGCCTTCTCGTCCGGGGTGTCGTCGCAGGGGAACCAAGTGGGCGCGCCGTTGGGCTGGCTGGCAACCAGCGAGCCCTCGGTAAGTTCTTCCCAGCCCAGCAGGCCCCAGGGGGTGCGGCGCGGGCGCGGGTTGCCCCCGTAGCTGATAACCAGCTCGAACTCCTCGTCCACAGCGATCGCCTCGGCGAAGCTGATGCGCAACTTGCCGTGCGACTGCTTGAAGCGCCGCACGCGGATATCCCCGCCCGTGAGACTGCGGGAGGTGACCCGCCGTGCCACCATCGACGGCTGCAGGTCGAGAGTCATGTGGTCGAGTTCGCGCCAGTTGGTCAGCGTCAGCGTCGCAGTGCCTTCGAGGCGGTTCGGGCCGACCTTGTAGGTCAGATCGAGGACGTAGTGGTGGACGTGGAACCCCAGGTTGAACTCCACGCCCGTGTAGGCATCGACGGTGCCGGGAACGGGAGTTGA	MRQLVGDQALLTAQVVDPENRHCGCLEGDLQVVLGNDHLVAFKRVRPESLLEKVQHRLLLCKITRANVVRQPRTHVAPEVDPGVPANLHGCQVGGHGPGGGVGDHRVIAVRADVEAVGCLLVRGVVAGEPSGRAVGLAGNQRALGKFFPAQQAPGGAARARVAPVADNQLELLVHSDRLGEADAQLAVRLLEAPHADIPARETAGGDPPCHHRRLQVESHVVEFAPVGQRQRRSAFEAVRADLVGQIEDVVVDVEPQVELHARVGIDGAGNGS				NA	NA	NA	NA	NA
AK009_07265	1026			hypothetical protein	GTGGTTTGTCATCGTCGCAATAGTGTACCCCCGCCTGTGGGCCAACGAGGACGCCCCACCCCTGGCCACGAGGTCATCCCGTGGGCTGGGGTGGGGCGTCGACTACCGGCTGAGAAAGTCTTACATGCCGAAAGCCGGTGCGATGGTGCTGTACCAGGACTTCTCGATGTCTTCGCGCCAGTACGGCCACGAGTGGGTGCCGACGTTGCGGAACTCGTACGTCGCCGGGATGCCTTCGCTCTCGAGCTTGGCGCGCAAATCGTGCGAGCACTTGTTGATGGCAGCTTCGATCACGCCGCCTTCGACCTGCAGAGTGGTCGCGCCCACGCTCGCGGCTGGTGCAGGTGCGCCCTGGCCGATGAGGTAGCTGACCTGATCCGAGCGGCCGGCCAGGCCGGTCGCCGTGGAGATGTAGAGCGCGGTGCCACGCAGCTTATCGGCGTTGAGCAGCGCGTCGTTGTGGCGGTTGTACTCGCCGCCCATCGGGCCCCACATCTGCTCCGGGGTCACTGTCTTGAAATCGCCGGTACCGGAGGCGCGGTTGATGGTCACGCGGGCGAAGTTGTAGGCGTGCGGGGAGGAGGTTGCGGCGCAGCCGGAGAAGGAGGCGGCGGCGTCGTAGAAACCGGGGTTGTGCGCTGGGAGGACGAGCGCGGAGGTACCGGACATGGAGAATCCGACAATAGCGCGGCGGTTGTCGGCGTTGAGGGTCTTCTCGATCGGGCCCGGAAGCTCCTTGGTCAGGAAGGTCTCCCATTTCTGGGGGCCATTGATGTAGGGCGACTTGACGTTCTCGTCGACCCAGTCGGTGTAGTAGGTAAACGCGCCGGCCTGCGGGATGACCACGTTGACACCCTTGCCCGCGAAGAAGTCCCTGGTGTCGTACATCTTCAGCCAGTCGGCGTTCTGCTCCGCGCCGCCAGCGCCGTTGAGCAGGTAGATCGTCGGAGCGTTGTCCACGCGCCCACCATTGTCATCGGTTGCCGGGATGACGGCGATGGGGATGTCGCGCTTCATCGACGGTGA	MVCHRRNSVPPPVGQRGRPTPGHEVIPWAGVGRRLPAEKVLHAESRCDGAVPGLLDVFAPVRPRVGADVAELVRRRDAFALELGAQIVRALVDGSFDHAAFDLQSGRAHARGWCRCALADEVADLIRAAGQAGRRGDVERGATQLIGVEQRVVVAVVLAAHRAPHLLRGHCLEIAGTGGAVDGHAGEVVGVRGGGCGAAGEGGGGVVETGVVRWEDERGGTGHGESDNSAAVVGVEGLLDRARKLLGQEGLPFLGAIDVGRLDVLVDPVGVVGKRAGLRDDHVDTLAREEVPGVVHLQPVGVLLRAASAVEQVDRRSVVHAPTIVIGCRDDGDGDVALHRR				NA	NA	NA	NA	NA
AK009_07266	159			hypothetical protein	GTGGATGAGCTGGCCGAGGACCTCGTTGATCTGGAGCTGAATGATTTCGAGCAGGTTCATGGTGTTCCTTCGGTAGGTGTTGGGGGTTTTTGGTCTTCGACATCGACGTCGGAGCTGCGGCGGTCATTGTTACACGGTGTAGCGACGGTGTCTGGGTAG	MDELAEDLVDLELNDFEQVHGVPSVGVGGFWSSTSTSELRRSLLHGVATVSG				NA	NA	NA	NA	NA
AK009_07267	456			hypothetical protein	GTGGATCTCGGTGATCTCGTTTTTCTTCATCAGGTAATGCACGCCGCCGACGATCTTCTCGGAGACCTTGCGGGAGCGTTCGTGGGCGTCCGCGTAATCGAACTCCACGTCACCCTTGATGCCGAAGGTCTTGGCCTCACGGGTAAAGATGTGGGCCACTTCGGCATTCTTAATCAAAGACTTAGAGGGGATGCAGCCCACGTTCAGGCAGACACCACCCCAGTACTTCTTCTCTACGACAGCAACTTTTTTGCCCAGTTGGGCAGCTCGGATGGCGGCGACATAGCCACCGGGGCCAGCGCCGAGGACAACAACGTCAAAATGTTCGTTACTCACGCCCAACAGAATACGTGGACTTTTGAGTCAGCGTCTGTCGGGCGCACGTTGGGGGTAGGGCTTAGAACCAGCCCAGTTGCAGCGAAAGGTTCGACGATGCCGAGGATCCTGCGTGGATGA	MDLGDLVFLHQVMHAADDLLGDLAGAFVGVRVIELHVTLDAEGLGLTGKDVGHFGILNQRLRGDAAHVQADTTPVLLLYDSNFFAQLGSSDGGDIATGASAEDNNVKMFVTHAQQNTWTFESASVGRTLGVGLRTSPVAAKGSTMPRILRG				NA	NA	NA	NA	NA
AK009_07268	750			hypothetical protein	GTGCCCCTCGACGCCGTGGGCGACCTCCTTGAGGGCCTCCGAGAGCGTTGGGTGAATGTGGATGTTGCGTGCGATCTCACCGGCGGTCAGATCGAAGCGCTGGGCCAGGGTAATCTCCGGCAGGAGCTCGGAGGCGTTCGCGCCGACGAGGTGGCAGCCGAGGATCTCGCCGTGCTCGCCGTCGGTGATCAGCTTGGCAAAGCCGGCGGACTCGGCCAGGCCGATCGCCTTGCCGTTGGCGGAGAACGGGAACATTGCGACCTTGATGTCGCGATCCGGCCAGTTCTTACGGGCCTGCTCCTCGGTGTAGCCCATGGAGGCAACCTGCGGGTTGCAGAAGGTCGCGCGCGGGGTCATCATGTAGTCCTCGATCTCGAGGGTTTCGGCGTCCGCGATGGTCTCGGCGGCGATGATGCCCTGGGACTCTGCGACGTGGGCAAGCTGCAGCTTCGCGGTGACGTCACCGATGGCGTAAATGCCCTTGACGTTGGTGCGCAGGCGGTCATCGACGGCGATCGCGCCGCGCTCGGTCAGCTCCACGCCCGTGTTCTCCAGCCCAAAGCCCTCGACGCGCGGGGCAAAACCGACGGAGATCATGACGCGGTCAACGGTGAGTGTCTCGGTCTTGTCCGAGCCGTTCTTTGCGATGTCCACCTCGACCGAATCGCCGTTGTCGCGCACCGCGGTAGTGGCGTGGCCGGTAAGAAGCTTCACGCCCATCTTCTTGTAGGCGCGGGCGATCTCCTTTGA	MPLDAVGDLLEGLRERWVNVDVACDLTGGQIEALGQGNLRQELGGVRADEVAAEDLAVLAVGDQLGKAGGLGQADRLAVGGEREHCDLDVAIRPVLTGLLLGVAHGGNLRVAEGRARGHHVVLDLEGFGVRDGLGGDDALGLCDVGKLQLRGDVTDGVNALDVGAQAVIDGDRAALGQLHARVLQPKALDARGKTDGDHDAVNGECLGLVRAVLCDVHLDRIAVVAHRGSGVAGKKLHAHLLVGAGDLL				NA	NA	NA	NA	NA
AK009_07269	216			hypothetical protein	TTGGAGGGCGAAGACCTTGTTGCGGGTCTGGTAATCGCCGTCCTCCTTGGTCATGTTCATTGTGAAGGTGTCGCCCACGGACTGGAAGCGCTCGGCCTGATCGGCGGAGACGACCATTCCGGAGTTGTCCGTTTCAGCGTGGCGCTGCGGGTTGGTCAGCAGGTCGTAGATGTCGGCTGCGGGGGCGTCGATGACTCGGGTTGCGGAATTAGTTGA	MEGEDLVAGLVIAVLLGHVHCEGVAHGLEALGLIGGDDHSGVVRFSVALRVGQQVVDVGCGGVDDSGCGIS				NA	NA	NA	NA	NA
AK009_07270	324			hypothetical protein	GTGCGGGTCAACTTCAATTCCGTGCTGGATGGAGGGGAAGGCACGCTGCGCGCAGGCCTCGCGTGGGCACACGCGGCACCCCGCTCCGATCGGCGTCGCCTGGGAGACGTCGTCAAGCGCCATGCCCTCGGCGTAGATGGTGCGCTCGGCGTGGCGGGTCTCGCAGCCAAGGCCGATGGCGAAGAGCTTTTCCGTCTCGCGGAAGTGGAAGCGGTGGTGGCGCACGGTGCGCGCCACCCACAGGTAGGTGCGCCCGTCCGGCATCGTCGCGTGCTGGCGCACCGTCTCGCCGGGGCGGGTAAAGGATTCGTAGATCCCCCATAG	MRVNFNSVLDGGEGTLRAGLAWAHAAPRSDRRRLGDVVKRHALGVDGALGVAGLAAKADGEELFRLAEVEAVVAHGARHPQVGAPVRHRRVLAHRLAGAGKGFVDPP				NA	NA	NA	NA	NA
AK009_07271	198			hypothetical protein	GTGGTAGCCGGTCGCGGATTGGCGCTTGGAGATGTTGCCGGCGCGGTCGACGCGCACGAAGGTAAACGGCACGCCGCGCATGTTCGCGCGCTGCAGCGTCGACAGGCGGCTGGCCACGGTTTCGTAGCCGACGCCGAAGACGTGGCAGAGGTAGTCCACGTCGTAGCCGTTCTTCTCCGACTCGAAATGCATCAGTGA	MVAGRGLALGDVAGAVDAHEGKRHAAHVRALQRRQAAGHGFVADAEDVAEVVHVVAVLLRLEMHQ				NA	NA	NA	NA	NA
AK009_07272	597			hypothetical protein	GTGCAGAACCCCGGACTCCGACGGGCTCGTGCGCACCTCAACGTCGTGCGTCTCGGTGACGTAGCGGGTCAGCGCGCGCTCGGTGTCGAGGATGCCGAAGCGCTGCACCCCAATGCGCCCGGCCAGCTCCTCGGCCTTGTGGTCGATGTCGTCGAGGTAGTTCTGGCGGGAGTAAAAGAAGTCGCGCACCTCGTCGTGGGGCATTGTCAGCGTTTCCGGGCTGGACACCCGCGAATCCAGAGCCAGCGTGAGCTTGTCGCGGGCGTTGGAGTAGCGGCGGTGCATCTCGACGACGGACCGGGCGATGGAGGGGTGGCGGTAGACGAGCTCGGAGAGCTCTTGGAGTTCGACGTTGGCCGCGCCCAGCTCCTGGTCCGCCACGACGTCCTTGAGCTCGGCGAGGAGCCGGGAGTCGTCGTCACGCGAGAAGAAGGTGGCGTCGACGCCGAAGGCCTCGGTAATGCGCTTGAGCACCGGGACGGTCAGTGGGCGCACGTCGTGCTCGATCTGGTTGACGTAACTTGCGGAGAGCTCGAGAGTCGCAGCCAGGGAGGCCTGGCTGAGGTTTCTCTCCCGGCGCAACTGGCGCAGCCGTGA	MQNPGLRRARAHLNVVRLGDVAGQRALGVEDAEALHPNAPGQLLGLVVDVVEVVLAGVKEVAHLVVGHCQRFRAGHPRIQSQRELVAGVGVAAVHLDDGPGDGGVAVDELGELLEFDVGRAQLLVRHDVLELGEEPGVVVTREEGGVDAEGLGNALEHRDGQWAHVVLDLVDVTCGELESRSQGGLAEVSLPAQLAQP				NA	NA	NA	NA	NA
AK009_07273	288			hypothetical protein	ATGTGCAAAGATTCGTGCGAAGGCCTTGCGAAAAATCTTTACAAACAAAAGTTTGACACCCTTCGGGGTGACTGTTCAGTGGGTCGGCGCATGCGCGGGCCCGGATGTGTTCAAGGTCACAGTGTCGGTGTTAAAGGCGTGTCTGGTGTGGCGGATGAGTCGATCACAAGGGTAGAAAATGCTGCACGCAGGGGTACGAAACCCTTAGGAAACCCCCCGCGACGCACACAGTTTGCGCCGGTAAAACCCGCCGCACCTGTGGGTAGCGTCCACCCCCACAACCGTTAA	MCKDSCEGLAKNLYKQKFDTLRGDCSVGRRMRGPGCVQGHSVGVKGVSGVADESITRVENAARRGTKPLGNPPRRTQFAPVKPAAPVGSVHPHNR				NA	NA	NA	NA	NA
AK009_07274	843			hypothetical protein	GTGTCCGCGCTTGCCCAGCCAGCCCAGGTCGGAGACCGCGAGGTACACGCCGTGCGTGAGGTGGAGAAGCAGGGCGAGGTTAGCGATGACGTAGATCGCGACAACCCACCAGCGTCCCGGCGCGAAGGTGGCCAGCAGGTTGTTGCGCACCGCGCCGTGGACGAACTCGTCGGAAGCGACGACCTGGCCGAGGGTGAGGTCGAGAATGTGGAAGATGATGAACAGCAGCAGGATAACGCCGGTGATCAGCATCGAGCGGGTGGCGGTGGACTGCCAGCCGCCCATCAGGTTCGTGCGCTTGAACTTGCCACGGGACTTCGCCGAGCGCCCGCGCAGGGCGAACGCGCCCCACACGTGCAGCACAAGGGCGACGAGCAGGACAATGCGGATCAGCCACAGCAGCGCGCCGTAGGGCAGGATGGGCTCGCCCATCGTACGCAGGAAGTGGCCGTACTCATCGATCGGGGCTACGCCGTTGCTGTGCAGCGGCATGAAGATCTTGAGGTTTCCGACCATGTGGCCGAGAACGTACAGGCCGAAGAGCAAGCCGGTTACGGCCATGATCATCTTCAGAGCCCACGTGGGGACGGATGGCCGCTCGCGCAGCGGCGCTTCGGTAATTTTTCCGTGTCGAATTGCGTCACGGTCTGCGTTTTGTACAGTCATGGCACCTCCAGTGTCGCTATTACTCTACGAAATGCGCCCGACCTTTACCTACTTAACGGTTGTGGGGGTGGACGCTACCCACAGGTGCGGCGGGTTTTACCGGCGCAAACTGTGTGCGTCGCGGGGGGTTTCCTAAGGGTTTCGTACCCCTGCGTGCAGCATTTTCTACCCTTGTGA	MSALAQPAQVGDREVHAVREVEKQGEVSDDVDRDNPPASRREGGQQVVAHRAVDELVGSDDLAEGEVENVEDDEQQQDNAGDQHRAGGGGLPAAHQVRALELATGLRRAPAQGERAPHVQHKGDEQDNADQPQQRAVGQDGLAHRTQEVAVLIDRGYAVAVQRHEDLEVSDHVAENVQAEEQAGYGHDHLQSPRGDGWPLAQRRFGNFSVSNCVTVCVLYSHGTSSVAITLRNAPDLYLLNGCGGGRYPQVRRVLPAQTVCVAGGFLRVSYPCVQHFLPL				NA	NA	NA	NA	NA
AK009_07275	2073			hypothetical protein	GTGGCGGATGAAGCCATCCTTGCCGGCGGGCTCCCACGCGGAGACGAAGCACCAGTTGTCGTCGTCACGCTGCGCCTCGCCGTCTTCGGTAAGGTGGTCGTCGCGGTAGTGGGCACCGCAGGACTCGTCGCGATCCAGCGCGTCGACGCACATCAGCTCGCCGAGGTTGATGTAATCCGCCAGGCGGATCGCGGCCTCGAGCGTCTGGTTCATGTCGTTCGGGGTGCCCGGGATGGAGATGTTGGTCCAGAAGTCCTCGCGCAGGCGGCGGATCTTCTCGATGCCGGCCTTGAGGCCCTCCACCGAACGGGACACGCCGCAGTGCTCGTAGAGGATGTCGCCGAGCTGCTCGTGGAAGTGCTCCGGGCCGTGCGGCTCGGGGCCGTTGACGCTCATCAGGCGCTGGATCATGTCCTGGGTGCGGGTGACAGCCTCGTGGACCTCGGGCGCGTCAACGTCGAGGGCTTCCTCACCGAGGTGGTCGGCGAGGTAGTTCGGCACCGTGAACGGCAGGGTGAACCAGCCGTCGACGGACGCGGAAAGCAGCGAGTTCGCGCCCAGGCGGTTCGCACCGTGGTAGGTCCAGGATGCCTCGCCGGCAGCGAACAGGCCGTCAAGCGAGGTCATCTCGTTGAAGTCGGTCCACAGCCCGCCCATGGTGAAGTGCACCGTCGGGGCGATGCGCATCGGCTCCTGGTACGGGTCAGCGCCCGTGGAGTCCTCGTACATCTCGAAGAGGTTGGAGTAGCGCTCGCGGATGGTGTCCACACCGAGGCGGTCGATGGCGTCGGTGAAGTCCAGGTAAGCGGAGTTACGCAGCGGGCCGACGCCGTAGCCGGCGTTGAGCTGCTGCGAGATCGCGCGGGATGCGACGTCGCGGGGCACCAGGTTGCCGAACGCCGGGTAGCGGCGCTCGAGGAAGTAGTCGCGCTCCTCCTCCGGAATGTCCTTCGGGTCGCGCTCGTCGCCCTTCTCCTTCGGCGTCCAGATGCGGCCGTCGTTACGCAGCGACTCCGACATCAGAGTCGTCTTCGCCTGCCACTTCGCGTTGACCGGCAGGCCAGTCGGGTGGAACTGGACGAAGCAGGGCGAGGCGAGGTAGGCGCCGCGCTCGTAGGCTCGCATCATGGCCGAGGCGTTGGAGTTCTTGGCCAGCGTCGTCTTGTGGTAGACGTTGCCGTACCCGCCGGTCGCCAGGATCACGGCGTGGCCGGTGAAGGGGGTGATCTCGCCGGTGATCAGGTTGCGGGTGACGATGCCGCGGCAGGTGCCCTTGCCCTGGCCCTCAGCGCCCTCGGACACGATCAGGTCCATCAGGTCGTGGTGGGTGAAGATCTCCACGTTGCCGAGGTGGATCTGGCGCTGCAGCGCGGACGCAGTGGACAGCTGCAGCTGCTGACCCGTTTGGCCGCGGGTGTAGTAGGTGCGCGAGACCTGCACGCCGCCGAAGGAGCGGGTGGCCAGGGTGCCGCCGTACTCGCGGGCGAACGGTGCGCCGATGGCGTTCATGTGGTCGATCACGCGGGCGGACTCGATGGCGAGGCGCCAGCAGTCGGACTCGCGGCAGCGGTAGTCGCCGCCCTTGACGGTGTCCTTGGTGTGGCGGTACGCGCCGTCGTTATCCACCTTCTTTCCGCGGGCGGAGTTCACGCCGCCCTGCGCTGCGATGGAGTGGGCGCGGCGCGGTGCGTCGTGGTAGGTAAACGCCTTGACCTTGTAGCCAAGCTCGCCGAGAGCGGCCGCGGCGGCGCCGCCGGAGAGGCCGGTACCGACGACGAGGATGGTGAACTTGCGGCGGTTGAGCGGGGAGACCAGGTTCATGTGGTCTTTTTGCCACTCCCACATGTCCTTCATGCGGACCTTGGTGCTGTCCGGCTCGTTGTTGGCCAGGATCAGGCCCGGGGTAACGCCCGGCACGGTGGACTCGGGCTGGCGGAACTCGCCCGCCTGGTTCGTCGTGTTGGCGTCGCCCTGGGCGGCGTGGAAGGTTTCGGGCGAAGCGGCCTGCTGGCCTGCCGCCGAGTTGTGAGCGGTTGTCATAATGTAATTCTCCTTGTCAGCCGTCTACCTTGA	MADEAILAGGLPRGDEAPVVVVTLRLAVFGKVVVAVVGTAGLVAIQRVDAHQLAEVDVIRQADRGLERLVHVVRGARDGDVGPEVLAQAADLLDAGLEALHRTGHAAVLVEDVAELLVEVLRAVRLGAVDAHQALDHVLGAGDSLVDLGRVNVEGFLTEVVGEVVRHRERQGEPAVDGRGKQRVRAQAVRTVVGPGCLAGSEQAVKRGHLVEVGPQPAHGEVHRRGDAHRLLVRVSARGVLVHLEEVGVALADGVHTEAVDGVGEVQVSGVTQRADAVAGVELLRDRAGCDVAGHQVAERRVAALEEVVALLLRNVLRVALVALLLRRPDAAVVTQRLRHQSRLRLPLRVDRQASRVELDEAGRGEVGAALVGSHHGRGVGVLGQRRLVVDVAVPAGRQDHGVAGEGGDLAGDQVAGDDAAAGALALALSALGHDQVHQVVVGEDLHVAEVDLALQRGRSGQLQLLTRLAAGVVGARDLHAAEGAGGQGAAVLAGERCADGVHVVDHAGGLDGEAPAVGLAAAVVAALDGVLGVAVRAVVIHLLSAGGVHAALRCDGVGAARCVVVGKRLDLVAKLAESGRGGAAGEAGTDDEDGELAAVERGDQVHVVFLPLPHVLHADLGAVRLVVGQDQARGNARHGGLGLAELARLVRRVGVALGGVEGFGRSGLLACRRVVSGCHNVILLVSRLP				NA	NA	NA	NA	NA
AK009_07276	561			hypothetical protein	GTGCTTCAGCTTGGCGCCGGTGAACAGGTGCGCAGCACCGTTCGGGCAGGCCGCGACGCAGGCACCACAGCCGATACAGGCCGCGTAGTCGAGCGCGAGCTCGGCGGTCTCGTGGTTGACGTGCAGGGTATCGGCGTCCGGGGCGGTACCAGCCTGGACGGAGATGTAGCCACCCTGCTGCATGACGCGGTCCAGCGCGGAACGATCCACGGCCAGGTCCTTGATCACCGGGAACGCGCCCGAGCGGAACGGCTCGATGCGCAGCGTGTCGCCGTCCTTGTAGTTGAACAGACGCTGCAGGCAGGCGGTGGTTTTCTGGCCAGCGCCGTGCGGGCGGCCGTTGACGGTCACGCCACAGGTGCCGCAGATGCCTTCGCGGCAGTCGGAAGCGAAGGTGAACGGCTCCTTGCCAGCCTCGACGTAGTTGTTGTTCACGTGGTCGAGGAGCTCGAGGATGGACATCTGCTCCACCGCGTCGTCGACCTGGACGGTTTCGAAGTTTCCGTCAGTATCGGGTCCGGCCTGACGCCAGATCTCAAGTGTCAGTTTCATTACTTGTAG	MLQLGAGEQVRSTVRAGRDAGTTADTGRVVERELGGLVVDVQGIGVRGGTSLDGDVATLLHDAVQRGTIHGQVLDHRERARAERLDAQRVAVLVVEQTLQAGGGFLASAVRAAVDGHATGAADAFAAVGSEGERLLASLDVVVVHVVEELEDGHLLHRVVDLDGFEVSVSIGSGLTPDLKCQFHYL				NA	NA	NA	NA	NA
AK009_07277	471			hypothetical protein	ATGCCCTCGATTAAAGCACCTGGGCTAAGACATGAAAGAACTCCCCGCCAGCGAGGGCGGGGAGTTTCGCTTTTCCGTCTAGTTAACGCGACCGGTGCGCGTGCGGTACTCCTTGTACCCGCGGCGGCCCATGGACATGAGCACGATCGCGGCGATCATCGTCACGGCGAACTCAATGACACCGAGGATGAGGAGGCGGGAGCCGATGTTGGACTCCGAGCCCATGCCCCAAACCATCGCCGCGCCGCCCCAGACGGCGAGACCGACGCCGAAGAGAGAGGCGAGGATCAGGCCCATGGCGATCCACAAGGAATGGGTGTTCAGCGAGGAGTGCGGGGCGCCCAGGGAGACGGGGTCGTATCCCTCGATGTAGGCGTCCTCGATGCGCTGCTGGTAATCCGGGAAGCTCTCGCTGCGGATATCTGCAACCGACTCGGGAGTGTTTGCCATGGGGTGTGTCCTTTTCTCTAG	MPSIKAPGLRHERTPRQRGRGVSLFRLVNATGARAVLLVPAAAHGHEHDRGDHRHGELNDTEDEEAGADVGLRAHAPNHRRAAPDGETDAEERGEDQAHGDPQGMGVQRGVRGAQGDGVVSLDVGVLDALLVIREALAADICNRLGSVCHGVCPFL				NA	NA	NA	NA	NA
AK009_07278	1320			hypothetical protein	GTGGGGCTAGTTAAAGAGCAGCTGAGACACAGTGTAAATGGCCAAGCCCGCCAGCGCACCGACTACGGTTCCGTTCAGTCGAATGAACTGCAGGTCCTTGCCCACCATGAGCTCGATCTTGTCGCTGGCCTCTTTGCCGTCCCACCGCGCGATGGTCTCGGAGATGATGCTGACGATCTCACCGGCACCGTTTTCCGCGAGGTACTTCGTCACCGCCGCGAGGCGGGTTTGCGCGCTGTGCGCCACCTGCGGATCCGTCTGCAGCTTGTCACCCCATTCGATGCACAACGACACCAGCTTGCGCCGCAGCGGGGATGCAGGGTTGGAGGAGGCGTCGATAAGCGCTTGCGAAACCTGCGCCCACAGCCCGCCGGCCGTCGAAGTCACGGCGTTCGAGCCCATCACGTCGGCCTTAATCGACTCGACGCGCGAGATCATGTCCGGGTCGAACTGCAGGTCCTGGGCGAACTGGTTGATGTGGCGACGCACGGCGCGGCGCGCCTCGTGCCGCGGGTCCGTGTCCATTTCGCGCATGAACTCCACCAGCTCGCGGTACACCCGCTCCCCGACCAGGTCCTTCGCAAACTTCGGCGCCCACTTCGGCATGCGCTCGTCGATCATGGTGACCACGACCTCCTCCATGCCCTCGACCTTGCGGCGGCCCCAGGCGATGACGTCGTCGACGATCGGCTCGACCTTGCCGTCCTGGATCAGCCCCTCGAGCGCCCTGCCCAGCGGCGGGCCCCACGTCGGCTCCGCGAAGCGGTTAATCACGTGGGTGTTGATCACCCGCTCAGCCTCAGCCGGGTCGATGGACTGCACGATCCGGATGGTGAACCCGCCGACGTGTTCAGAGACCCGCTCCGCGTTGTCCGGCTGCACCAGCCACGCGCCGACTCGCTGCGGGACCTTCGCCTGGACCACCTTGTCCGTAATCGTCTGCGCGTTGAGGAAGTTCTCGCTGACGAAATCACCAAGAGCGCCGGCGACCTGGTCCTTCTTACGCGGGATGATCGACGTGTGCGGAATGGGCAAGCCCAGCGGGCGGCGAAACAGCGCGGTCACCGCGAACCAGTCCGCCAGACCGCCCACCATCCCGGCCTCCGCGGCGGCGCGCACGTAGCCGACCCAGCCCGGGGCCGTGCCCTGCGACTGCCACCACGAGCAGGAGAGGAAGATCACCGCCATCACGCCGAGCAGGCTGGTGACAAAAATCTTGTGGTTGCGCAGCACCCGGCGGCGCTGCGACTCGTTGTCCGGCGTGGGCAAGGGGATCGGGTCCGGCCCCTCAAGCGCGTGTTGTGCCATGCCCTCGATTAA	MGLVKEQLRHSVNGQARQRTDYGSVQSNELQVLAHHELDLVAGLFAVPPRDGLGDDADDLTGTVFREVLRHRREAGLRAVRHLRIRLQLVTPFDAQRHQLAPQRGCRVGGGVDKRLRNLRPQPAGRRSHGVRAHHVGLNRLDARDHVRVELQVLGELVDVATHGAARLVPRVRVHFAHELHQLAVHPLPDQVLRKLRRPLRHALVDHGDHDLLHALDLAAAPGDDVVDDRLDLAVLDQPLERPAQRRAPRRLREAVNHVGVDHPLSLSRVDGLHDPDGEPADVFRDPLRVVRLHQPRADSLRDLRLDHLVRNRLRVEEVLADEITKSAGDLVLLTRDDRRVRNGQAQRAAKQRGHREPVRQTAHHPGLRGGAHVADPARGRALRLPPRAGEEDHRHHAEQAGDKNLVVAQHPAALRLVVRRGQGDRVRPLKRVLCHALD				NA	NA	NA	NA	NA
AK009_07279	636			hypothetical protein	ATGACTTCCAACAACGACAACAACTCGATCATGGACAGCCTGCGCGGTGCGGGCGAGGCCTGGCTGTCAGCGGGCTCCGCTGTCGGCGGCGTCGTCAGCGAGTTCGCCACGAAGCTGCGCGAGGACCGCAGTGCAACCGAGCCGACGGGGGCGCACGCCGCCGCTGATGCATCCCCGCAAGAGGGCCTGCTGCAGCAGCTGCGTGGCGCCGTCGACAATGCGCGCGGCGCGTTCAACTCCGCGGACAACGACCGTGACTTCCGCGCTGCCGCGACGACGTTCGCCACCGATGCCGAGGCCATCTTCCGCGACGTCGCGGGCTCCGTTTCCCGCGCGGGCAGCGCCGCAGCTCAGTCCGGCCAGGCTGACGAGGCGAAGGCCGCCTTCAGCAACGCGTTAGGCGAGGTGAAGGAGACCTTCAACCAGGCGGTCGCCGGTGTGCGCAACCGCGCCGAGGAGTCCGACGTGGATGCCGAGGGGGTTGTCAAGGATCTGCGCGAGCGCCTGGACACGCTCATTGCGAAGGTATCCGAGCAGGTCTCCCGCCCGGATTCGGGCGAGCAGAAGGCGGAGGATATCATTGACGGGGAAGTTATCCGTGACCATGATGGCGACAACGGCAACAGCACCGTTTAG	MTSNNDNNSIMDSLRGAGEAWLSAGSAVGGVVSEFATKLREDRSATEPTGAHAAADASPQEGLLQQLRGAVDNARGAFNSADNDRDFRAAATTFATDAEAIFRDVAGSVSRAGSAAAQSGQADEAKAAFSNALGEVKETFNQAVAGVRNRAEESDVDAEGVVKDLRERLDTLIAKVSEQVSRPDSGEQKAEDIIDGEVIRDHDGDNGNSTV				NA	NA	NA	NA	NA
AK009_07280	294			hypothetical protein	ATGGCCAGCCACTCGAGGTCATCCACTAGCCTACCAGCCGTGGTTACCACGGATGATGTTGTTCAGGTGCGGGCGGACGTCGAAGAAGTAGACGCCGATCGCCACCGCACCGAACCACGCAATGAATGGGAAACGCAGCAGGCAGACGGCCGCGGCGCCGCCGACGATGGCGACCCACACCCACTTGCCCTGGCGCCCGGCGGCCTCAAAAGCGTCCTCGCGGGTCGTGGCCGCCAAAACGGCACCGACGATGCCGGCGATGCCCACCAGCATAAACAGCAGGTTGCGAACTAG	MASHSRSSTSLPAVVTTDDVVQVRADVEEVDADRHRTEPRNEWETQQADGRGAADDGDPHPLALAPGGLKSVLAGRGRQNGTDDAGDAHQHKQQVAN				NA	NA	NA	NA	NA
AK009_07281	435			hypothetical protein	GTGGTCGAGCCGACGCGGGTGCAGGCGGCGAAGCGCACGGGCGTGCCCGTCATCGCCGTGGTGGGATGGCAGGACGGGCGCCACCACAGCGTGATCAAGGCGGCGGAGGCGCGCCTGGCTGTCGAGATGGGCGCTGCCGAGGTGTGGCTCGCCGTCGACGCGGACGCCGAGGGCGACAACGAAGTGTTAGCCGATGTCCTCGCCGTGCGCCAGGCCGTCGAGGCGCCCGCCAGGCTCGGGCTGCTTTACGACGCCCGCCCTTCGGTGATCCGGGCTGGGGAGCTGGTGGGCGTCGATAAGCTTGTGTGCCCAAGCGGTGCTGAGCTGCCCCGCACGACGCTGGACGTGGCCGCAATCGGGGTCGACGACAGCGTCGAGGCGGTCGTCGACGCGCTCGAGGCCGGCGCCGCGGTGGTGTTTACAGAGCCTCGCTGA	MVEPTRVQAAKRTGVPVIAVVGWQDGRHHSVIKAAEARLAVEMGAAEVWLAVDADAEGDNEVLADVLAVRQAVEAPARLGLLYDARPSVIRAGELVGVDKLVCPSGAELPRTTLDVAAIGVDDSVEAVVDALEAGAAVVFTEPR	PGPT0017445_4196	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
AK009_07282	285			hypothetical protein	ATGGCCGTTGAGCGAGACCAGCAGGCCGCCGTCGATAACGGTGACATCGCGCACGCGCATCGGCCCGAACACGGCGTCCTGCATGCCCTCGCGAAGGGCCTGCGAGAGGCTCTCCGCAACCCCGCCCGGCAGGTCGATGCCGAACAGGCTGGTGGAGTCGGCGGTAAAGGTGAGCTCGTCGCCGTCCTTTTGCGGGCGCAGGTTGATCCCGGCGAGCCCGTTGTTGAACTGGATGGCCACGGTTCCGGCATCCGGGTTCGACTCCACGCCGGAGATGTTGACTAA	MAVERDQQAAVDNGDIAHAHRPEHGVLHALAKGLREALRNPARQVDAEQAGGVGGKGELVAVLLRAQVDPGEPVVELDGHGSGIRVRLHAGDVD				NA	NA	NA	NA	NA
AK009_07283	270			hypothetical protein	GTGGGGGACGGTGCCGGCAAGCAGGCCGAACGTGAGCGGTTGAGGCCCGAACGCGACCTGGGGGTTAGCCGTCGTCGGAACGGGGGCGGCGTTGGCGAACTCCGTTTCAATCCGGTTGGACACATAGGCGCGCAGCCCAAATTCTGCGACGACGATCAGGATGAAGATTACCGCGAGTACTCCGACGAAGATTTTCCAGGCGAGCGAGCCTTTGGTGCGAGTCATGCGGCTATCATACGTCCACCGCGACATGCTCCCAATCGATTGTAA	MGDGAGKQAERERLRPERDLGVSRRRNGGGVGELRFNPVGHIGAQPKFCDDDQDEDYREYSDEDFPGERAFGASHAAIIRPPRHAPNRL				NA	NA	NA	NA	NA
AK009_07284	462			hypothetical protein	GTGCGAGTCATGCGGCTATCATACGTCCACCGCGACATGCTCCCAATCGATTGTAAACATATTGTCCCGCAGCCGGCGGCGCACGGGGTGCAGTGGCCAACCGCTGCCGATGAGCTCCTCGCGGGCGCGGGCCCACCGGACGCGGGGGCCGTGGGGTGCCCAGCCGGCGGCGTGGTCCCACGCCGCGTCGGCGGCGGACAGAAGCTCATGGATGCTCTCACCTGGGACGTTGCGGTGGATCAGTATCTTGGGCAGCCGCTCCGCGACGTCGGAGGGCCGGGTGACGTCCTGCGGGTCCCAGGCCAGGGTGAGGGAGCGGGGGCCGGTGGCATCCAGCAGCACCCACGCCGCACGCCGGCCCAGCTCATCGCAGGTGCCCTCAACAAAAAGTCCGCCCGGGGCGAGGCGGGAGGTCACCGACTCCCACACTGCGGGCACGTCGGCGACGTCGTATTGGCGTAG	MRVMRLSYVHRDMLPIDCKHIVPQPAAHGVQWPTAADELLAGAGPPDAGAVGCPAGGVVPRRVGGGQKLMDALTWDVAVDQYLGQPLRDVGGPGDVLRVPGQGEGAGAGGIQQHPRRTPAQLIAGALNKKSARGEAGGHRLPHCGHVGDVVLA				NA	NA	NA	NA	NA
AK009_07285	369			hypothetical protein	GTGCGGGGTGTAGCCGGCGAGTTCGAACCCGCCGAGTTCGAAGCGCACGCCGTCGCGCGGCTGAAGAACTCTCTCGGGGTGGATCTCCAGCCCCACGACCTCAACGCGCGGGTTGATCTGGCGCAGCCACCTGGCCCACTCCACGGTGGTGGTGTGCGAGGCGCCGTAGCCCACGTCCAGTGCGAGCGGGGCGGGCACGGATCGGAGCAGCTCGCCGACCTGCGGGTTGAAGCGGGTCCAGCGGTCGGAGCGGCGCAGCCGGTTGACGCCCGTCGTGCCCCGGGTGATCACGCCAAACGGCCGGTCGCGCCCAGACTGCGCGCGCAGGTTGTGGGCGTGACCGGCCATGGAGGGTTGAAAAAGGTTTAG	MRGVAGEFEPAEFEAHAVARLKNSLGVDLQPHDLNARVDLAQPPGPLHGGGVRGAVAHVQCERGGHGSEQLADLRVEAGPAVGAAQPVDARRAPGDHAKRPVAPRLRAQVVGVTGHGGLKKV				NA	NA	NA	NA	NA
AK009_07286	492			hypothetical protein	ATGACCGCACACAGCGAAGTAACCGTTACCATCAATCACCCCGCCGCCAAGGTGCACCAGGCGCTGAGCACCAAGGAGTACTGGGAGTTCATCGCGGCCAACCTCTCCCCGGAGCCGGGCAGCCTCAACGAGTTCAACGGCGATTCCGTCGTCCTCTTCGAGATCCTGCCGCAGACTATCCTGCCCGAGGCCGCTCAGGCGATGATCTCCCAGGACCTCAATCTCAAGCGCACCGTGAACATCGGCGCGCTCGCGGGCGAGACCGCCAAGCTCGCCTACACCGGCGACGTCAAGGGCACCCCGGTGGACTTCTCCGGCGACATCGAGCTCACCGGCGCCGGCGAGACCACCACCCTTGCCTACGCCAACGAGGCCAAGGTCTCCATCCCGTTCATGGGCGCCGCCCTTGAGCCGAAGGTCGGTGAAGCGCTCGAGGAGATCTTCTCCAACGAGGGCAAGCTCACCGAGCAGTGGATCAGCGAGAACCTCTAA	MTAHSEVTVTINHPAAKVHQALSTKEYWEFIAANLSPEPGSLNEFNGDSVVLFEILPQTILPEAAQAMISQDLNLKRTVNIGALAGETAKLAYTGDVKGTPVDFSGDIELTGAGETTTLAYANEAKVSIPFMGAALEPKVGEALEEIFSNEGKLTEQWISENL				NA	NA	NA	NA	NA
AK009_07287	861			hypothetical protein	GTGCTTCGTGCTCAGCCGCGCCGGCGCGCCGTGGCCCGGGTAGCCCCGCGGGAACCCGGCGCGCTCGATGAGCCACGCAGCGGAGAGCTTGACGCGCCCGTCGGGCTGCGCGAAGCGCGGCATCGTGTCCTCGCCGGTGTCGTTGGCGATGGCGTCGGCAAGCGAGGCTGGAACGATCGGGTTGGTGAAGAACGAGCCCGCGGACCAGGTGTCGTGGTCGCTGTCGTCAAGCACCATGCCCTTGGCGCGGCGGGTGGCGATGATGTTCTCGCGCGCCTGCGCCAGGGGGAGGCGCTGCCCGCCGAGGTGGCGCAGCGGCGCGGACAGCTCCGCCGGCTCAAGGCGGAGCTCGAGCTCGAGCACGACCGCGCGGGCGGTGAACTTCAGGTTGGAGTAGCGGTACGCCAGATCCAGCGACTCGGCCGGCACCCACTCGTCGGCGCCCGTCTCGCGGTTATACAGGCGCACGCGGGTGAGCACGTCGGAGATTTCCGCGCCGTAGGCGCCCACGTTCTGCACGGGCGTGGCGCCCGCGGAGCCGGGGATGCCGCTGAGCGCTTCGATGCCGCCCAGGCCGCGATCCACGGCAAACGCCACGACGTCGTCCCACACGGTGCCGGCGCCGATGCGGAGCGTGGAGGCGTCGATAAGCGAAAGCGATTCGTTGCCCGCGATGACCGCTGTCAGGTCGAGCGGGCCGTCGGCAACGACCAGATTCGAGCCGCCGCCGACGACAAGCAGCTTCTCGCCTGCCGCATCGAGGCGCGCCACCGTCTCGGCGAGCTCGTCGGCCCTCGTGCAGCGGACGAGATCGCGGGGGCTGCCGCCGATGCGCAAAGTGGTAAGCGAGGCAAAAGATGA	MLRAQPRRRAVARVAPREPGALDEPRSGELDAPVGLREARHRVLAGVVGDGVGKRGWNDRVGEERARGPGVVVAVVKHHALGAAGGDDVLARLRQGEALPAEVAQRRGQLRRLKAELELEHDRAGGELQVGVAVRQIQRLGRHPLVGARLAVIQAHAGEHVGDFRAVGAHVLHGRGARGAGDAAERFDAAQAAIHGKRHDVVPHGAGADAERGGVDKRKRFVARDDRCQVERAVGNDQIRAAADDKQLLACRIEARHRLGELVGPRAADEIAGAAADAQSGKRGKR				NA	NA	NA	NA	NA
AK009_07288	1029			hypothetical protein	GTGGGTGGGCGTGGAGATCTAGTCCTCGAGCTGAGCGAGCAAGTCCGCTTGGACCTCGCGGCGGCGGATCTTGCCCATGGGGTCGCGGGCGAGCTCCTCGAAGTGGTAGAACGTGCGCGGCACCTTGTAGGCGGTGAGGTGTTTCTTCGCGTAAGCGCGCAAGCCCTCGGAGTCCAACTTGGCACCGTCGGTGAGGGTGACGCAGGCAACGACATCCTCGGAGCCGTCCGGGCGGGGTCGGCCGACGACGGCGACGTCCTCGACATCCTTGTGCGCGCGGATGACCTCCTCGACCTCGGCGGGGTAGACGTTGAACCCGCCGGTGATGATGAGCTCCTTGATGCGCGAGACGAGCTTGACAAAGCCGTCCGACTCCATGATTCCCATGTCACCGGTGCGGAACCAGCCGTTGTGGAACGCCTGTTCGGTGGCCTCGGGGTTATCCAGGTAGCCGCCGAACACCTGGGGGCCGCGGGCGAGGATCTCGCCGGCCTCGCCGTAGGGCATGTCCTCATCCAGGTTCTCCGGGTTGGCGATGCGGATATCGGTATCCGGGAAGGGCAGGCCGATGTAGCCGGGGCGACGATCCGCGCTTTCGGGGTTGCCGATGAGGATCGGCGAGGTTTCGGTCAGGCCGTAGCCCTCCACGAGGCGGCCGCCGGTGAGCTTTTCCCACTCGTCGATCACCGCGACCGGGAGCGAGGAAGCACCGGAGAAAGCAATGTTGAGGCTCGAGATGTCGACGTTATCTTCCTTGGCCTGCGCGACGATGCGCTCGAACAGTGTGGGCACGCCCGGCATGAAGGTCGGCTTGTACTTCTTAATGGCCGACATGATGAGGTCGATCTTCGGGGCAGGCAGGAGAATCACTTCGCTGCCGATCTTCATCGCGAGGGTCAGGGAGAACGTCAGGCCGAAGGAGTGGAAGAACGGCAGGGTGGCCACCATCCGCTGGTCGCGCTCCTGGAAGTCCTTGACCCACGCGATGCCCTGGGTCACGTTGGCGCACAGGTTGGCGTGGGTCAGTAG	MGGRGDLVLELSEQVRLDLAAADLAHGVAGELLEVVERARHLVGGEVFLRVSAQALGVQLGTVGEGDAGNDILGAVRAGSADDGDVLDILVRADDLLDLGGVDVEPAGDDELLDARDELDKAVRLHDSHVTGAEPAVVERLFGGLGVIQVAAEHLGAAGEDLAGLAVGHVLIQVLRVGDADIGIREGQADVAGATIRAFGVADEDRRGFGQAVALHEAAAGELFPLVDHRDRERGSTGESNVEARDVDVIFLGLRDDALEQCGHARHEGRLVLLNGRHDEVDLRGRQENHFAADLHREGQGERQAEGVEERQGGHHPLVALLEVLDPRDALGHVGAQVGVGQ				NA	NA	NA	NA	NA
AK009_07289	408			hypothetical protein	GTGGTCGGCAAACTGCGGGCGCAGCTCGGCGGCGGTGTAGAGCGGGTTGTGCTCGGCGACGACCGCGCCGAGCAGCTGTGCGGCGAAGAAAGCCACCACGTGCTGCGGGCAGTTCGGCAGCATGATCGCCACGCGGTCGCCCGCTTTGACGCCGAAGGATTTCAGCCCGGCGGCGGCGCGGCGGACCTCGCTATCAAGCTCGGCGTAGGTCATCGTGCGACCGAAGAAACGGGTCGCTATCTTCGACCCGTTTGCCGTGATGTTGTCGGCGTAAATCTTCGTGAGCGTCGCCGTGCTGTAATCCAGGTTGGGGGCGGTCCACTCCGTGTAGTAATCGAGCCAGGGTTTGTCTGCGTGAGAAGCCATGCCCCCAAGTATAGGGACTACGGTTACCGCCCCGTAGCTTAG	MVGKLRAQLGGGVERVVLGDDRAEQLCGEESHHVLRAVRQHDRHAVARFDAEGFQPGGGAADLAIKLGVGHRATEETGRYLRPVCRDVVGVNLRERRRAVIQVGGGPLRVVIEPGFVCVRSHAPKYRDYGYRPVA				NA	NA	NA	NA	NA
AK009_07290	924			hypothetical protein	GTGGTAGAAGGTGCGCGGCACCTTGTACGGGGTGAGGCGCTCGCGCGCGTACGACTGGAGACTATCCGGGTCCAGTGGCGCACCCTCGTGCAGGGTGACGCAGGCGACGACGTCCTCGGAACCGTCGGGGCGCGGGCGGCCGACGATCGCGATGTCGTCGATGTCCGGGTGGTGCTTGAGCACCTGCTCCACCTCGTCGGGGTAGACGTTGAAGCCGCCGGTGATGATCATCTCCTTGATGCGGGCAACCAGGCGGATAAACCCGTCTTCCTCCATCACGCCCATGTCGCCGGTACGGAAGAAGCCGTTGTGGAAGGCCTTTTCGTTGGCTTCCGGCTTGTTCAGGTAGCCGGAGAAGACCTGGGGGCCGCGGGCCAAAAGCTCGCCCGGCTCGCCGTCCGGCATGGTCTCGTCGGGGTTATCCGGGTTGGCGATGCGGATTTCGGTGTCGGGGAAGGGCACGCCGATGTAGCCGGGCCGGCGGTTGCCGTCGAGCGGGTTGGCTGTGAGAATCGGCGCGGTCTCCGTCAGGCCGTAGCCCTCCACCAAACGGCCGCCGGTGACCTTCTCCCACTTCTCCAGCGTGGCGGTGGGCAGCGTCGCCGCGCCCGAGAAGGAGTAGCGGATGGATGTGATGTCCTTGTTGTTGTCGATGGCCCAGTCGGAGATGCGTTCGTAGAGCGTCGGCACGCCCGGCAGCATGGTCGGCTTCGTCTTCTCGATCGCGGAGAACATCAGCTCCGGCTTCGGCGCGGGCACGAGAATGGACTGCGCGCCCACCGCGAAACCGATGGCGAAGTTGAGCGTCAGGCCGTAGACGTGGAACAGCGGGAGCACGGCGAAGATGCGCTCGTCCTGCTCGCCGAAGTTGCCGAACCACTCCAGGCCCGCGGCGACGTTGGCGTTGATGTTGCCGTGCGTTAG	MVEGARHLVRGEALARVRLETIRVQWRTLVQGDAGDDVLGTVGARAADDRDVVDVRVVLEHLLHLVGVDVEAAGDDHLLDAGNQADKPVFLHHAHVAGTEEAVVEGLFVGFRLVQVAGEDLGAAGQKLARLAVRHGLVGVIRVGDADFGVGEGHADVAGPAVAVERVGCENRRGLRQAVALHQTAAGDLLPLLQRGGGQRRRAREGVADGCDVLVVVDGPVGDAFVERRHARQHGRLRLLDRGEHQLRLRRGHENGLRAHRETDGEVERQAVDVEQREHGEDALVLLAEVAEPLQARGDVGVDVAVR				NA	NA	NA	NA	NA
AK009_07291	672			hypothetical protein	GTGCCACGGCATGGCGTCGATCATGTTGACGGTGATGACCTTTTCAAGCTGGGTCGTGCGCGCCAGCTCCTTGTACACCGGCGTGGCCTTGTCCCACGCGATGACGACCTTCGCACCGTGGTCGTCGAACTGATCCTTGAGCTCGTAGGCGGTGTAGAGCGGATTGTGCTGGACAACCGTTGCCCCGAGGCTGTGCACCGCGAGAATGGAAACGACGTGCTGCGGGCAGTTCGGCAGAGCGATGGCCACGCGGTCGCCCTGCTTGACGCCGAGGCCGCTGAGTCCGGTGGCGACGCGGCGGACCTGGTCTTCGACCTCGCCGTAGGTGAGCTCCTTGCCCATAAACCACGTGAACTTCTTGTTGCGGTGCTTTGCTACCGCGTCGTTGAAACGGGAGACGAGAGTGTCATCTCCGTAAGGCAGCTGGCGGTCGGTCCACTCCGCGTAGTGCTGCAGCCAGGCCTTGTTTTCAAAAGCTCCCATAGCGAGCGCGCTCCTTGTATGTCGTTGCCGTTGATTAGTTCATTCTACCTAAGGTCTCCGGTACATCTTACAAGCTCAGTGTGGGGCGTGTGTAGGAAATCCGCGACATATCTTTTGTACGTGGTTAAGCGAGCTAGCTCTTTTCCTCGCCGACCTTGGTGCCGTCGCCCTCTTCGAGCATCTCAATGA	MPRHGVDHVDGDDLFKLGRARQLLVHRRGLVPRDDDLRTVVVELILELVGGVERIVLDNRCPEAVHRENGNDVLRAVRQSDGHAVALLDAEAAESGGDAADLVFDLAVGELLAHKPRELLVAVLCYRVVETGDESVISVRQLAVGPLRVVLQPGLVFKSSHSERAPCMSLPLISSFYLRSPVHLTSSVWGVCRKSATYLLYVVKRASSFPRRPWCRRPLRASQ				NA	NA	NA	NA	NA
AK009_07292	735			hypothetical protein	GTGCTCCTTCATCACCTGCTCCACCTCATCCGGGTAGATGTTGAAGCCGCCGTTGATGATCATTTCCTTGATACGGGAGACCAGGCGAATGAAGCCGTCCTCCTCCATCACGCCCATGTCACCGGTGCGGAAGAAGCCGTCGTGGAACGCGTCCTCGGTCGCCTCCGGCTTGTTCAGGTAGCCCTTGAACACCTGCGGTCCGCGGGCCAGCAGCTCGCCCGGCTCGCCGTCCGGCATGGTCTCGTCCAAGTTGTCCGGGTTGGCGATGCGGATCTCGGTGTTCGGGAACGGCAGGCCGATGTAGCCCGGGCGGTGGTTGCCGTCCATCGGGTTGGCGGTCAGGATCGGGGAGGTCTCGGTCAGGCCGTAGCCCTCGACGAGGCGGCCGCCCGTGATGCTCTCCCACTTCTCAATCGTCGATTCCGGCAGCGTCGACGCACCAGAGAAGGAGTTGCGGATCGTCGGGTACGTCTTGTCGTTGTTCAGCGCCGCCTCCGCGATCTTCTCGTAGAGGGTGGGCACGCCCGGGAAGAACGTCGGCGGGTTTTTCTTCATCGCCATGGCGATCAGCGGCGGCTCCGGGGCCGGCACCAGGATCAGCTCGGCACCGGTGCCGATGGCGAGGCCCATGGTCAGGGCCAGGCCGTAGACGTGGAACAGCGGGAGGATCGTCATGATCTTCTCCTGCTCCTTGCCCAGGTCCTTGACCCACACGAGGCCGGACTTGAGCATTGA	MLLHHLLHLIRVDVEAAVDDHFLDTGDQANEAVLLHHAHVTGAEEAVVERVLGRLRLVQVALEHLRSAGQQLARLAVRHGLVQVVRVGDADLGVRERQADVARAVVAVHRVGGQDRGGLGQAVALDEAAARDALPLLNRRFRQRRRTREGVADRRVRLVVVQRRLRDLLVEGGHAREERRRVFLHRHGDQRRLRGRHQDQLGTGADGEAHGQGQAVDVEQREDRHDLLLLLAQVLDPHEAGLEH				NA	NA	NA	NA	NA
AK009_07293	192			hypothetical protein	GTGGGTGAGCTGGGCGCCCTTCGGCGGGCCGGTGGTGCCCGAGGTGTAGAGGATCAGGACGGTGTCATCCTGCGTAATCTCCTCCGGAGCCTCAAAGGGCTTGTCAATCAGCAGGGACGACCACGGCATCGTCGCTGGGGCGTCGCCGGTGAGCCGCTCGCGCAGCTCCTTGGCCTTCGGCAGCGGCAGTGA	MGELGALRRAGGARGVEDQDGVILRNLLRSLKGLVNQQGRPRHRRWGVAGEPLAQLLGLRQRQ				NA	NA	NA	NA	NA
AK009_07294	399			hypothetical protein	GTGGTCCTGGAACTGGGGGAGAAGCTCGGAGGCGGTGTAGAGCGGGTTGTGCTCCACGACGGTCGCGCCGAGGCGCATCACGGCGCTAAAGGCGATGATGTGCTGCGGGCAGTTGGGCATGACGAGCGCGACGCAGTCGCCCTTCTTCACACCCAGCTCCTGCAGGCCAGCCGCGGCCTTGAGGACCTGCTCGTTGAGGTCCGCGTACGTCATGGTCTTTTCGAAGAACCAGGTCGCCGTGCGGTTCGAGTGCTTGGCCAGGTTGCGTTCGTAGACGTCAACAAGGGTATCCTCGCCAAGCTCAACCTCGTGCGGTGTCCAGGGTGCGTAGTGTTTCAACCACGCCTTTTCTTCGAATGCGCCCATAAGAGACTCCTTCGGGTTTTCGGTCGGCATTGA	MVLELGEKLGGGVERVVLHDGRAEAHHGAKGDDVLRAVGHDERDAVALLHTQLLQASRGLEDLLVEVRVRHGLFEEPGRRAVRVLGQVAFVDVNKGILAKLNLVRCPGCVVFQPRLFFECAHKRLLRVFGRH				NA	NA	NA	NA	NA
AK009_07295	963			hypothetical protein	ATGGAGATCATCGCGACGCGCATGCAGCCCAATTCTAGAGGCGCTTTTGGTCTAGTAGGCAGCGTGGCGGTGCCAGGAGTCGAAGTCGGCGGCGACCTCCGCTGCCAGCAGCCGGTAGGCCTGCACCGTTTTCGGGTGGAGACGGTCAAGCTCGACCACGGCGCCCTCCGCCAAATGGCGGTCGTAGGGGATGACGTGCACGGCGCGGGTGCGCGACGCGAAGTGCTCCGCGAGCTGGTAAATGTCAATAGTAGGGCTACCTGGAGCATTGGTCGAGACAACCACCACTGCATTGGCGGCGAGCTGGTCGTGGCCGTGCAGGCTCAGCCAGTCCAGCGTGGCCGCCGCGGACTGCGCGCCATCGAGCGCCGGCGAGGTCACCAAGATCAGCGAGTTGGCCAGGTCGAGCACGCCCGCCATGGCGGAGTGCATCAGCCCGGTGCCGCAGTCGGTCAGGATGACGTTATAGTGGTGCTGCAGGATGTCCACGGCTCGGCGGTAGTCGGCCTCGCTAAACGCCTCGCTGACTGCCGGGTCGCGCTCGGAGCCAATGACTTCGAGGCGCGAGGCCGCCTGGTGCGTAAATGCCCGCACCTGCGCGTAGCGCGATGTGTCGCGCGCGGCGAGCAGGTCGCGGATCGTCGCTGGGGTGGGCACCGCGGCGCGCTGAGCCAGGGTGCCCAGGTCCGGGTTGGCGTCGATGGCGATCACCCGGTCGCCACGCAGCTGGGCGAACACTGCCCCGAGTACCACGGTGGTGGTTGTCTTGCCCACCCCGCCTTTCAGCGACATCACGGCGATGCGGTAATCGCCGCGCAACGGGGCGCGGATGGCGTCGATAAGCTGCTGCTCCTGCAACTCCTTGCGGGAGCCGCCTGGGTTGATCCGCCCACCGGAGGCGGTGTGGAGCATGCGCCGCCAACCGCGCTGTGGCGGCGCGGTGACCGGGTTGAGAAGCGTTGA	MEIIATRMQPNSRGAFGLVGSVAVPGVEVGGDLRCQQPVGLHRFRVETVKLDHGALRQMAVVGDDVHGAGARREVLRELVNVNSRATWSIGRDNHHCIGGELVVAVQAQPVQRGRRGLRAIERRRGHQDQRVGQVEHARHGGVHQPGAAVGQDDVIVVLQDVHGSAVVGLAKRLADCRVALGANDFEARGRLVRKCPHLRVARCVARGEQVADRRWGGHRGALSQGAQVRVGVDGDHPVATQLGEHCPEYHGGGCLAHPAFQRHHGDAVIAAQRGADGVDKLLLLQLLAGAAWVDPPTGGGVEHAPPTALWRRGDRVEKR				NA	NA	NA	NA	NA
AK009_07296	561			hypothetical protein	GTGCCGCGCCAGCTCCGCGATCTCGTCCGGGGTGTTGGCCACCACGGTGTTCGCGTTGTCCACGAGCTGCTGCTCGCAGATGCGGCGCGCCTCGCCCTCGGGCTCGGCGTCCGGGGAGCGGTGCGCGTTTTTCACCGCCGCCCACGTGTGCCCCGTGTGGACCAGGGGCACCCGCGCGAGGTCGGCCATGAGCCACCCCACCTGGCCGGAGAGCCAGTAGTGCGAGTGGATCAGGTCGTAGGACAGGTCGTACGTGCGGGAGAACTGCAGGATCCCGCCGGCAAAGGCGGCGAGCTGGGTGGGCAGATCCTCCTTCGCCAGCCCCTCGTAAGGCCCGGCGACGATGTTGATCACGCGCAGACCCTCGCTGACCTCGACGATTTCGCCCCGGCTGGGCCGGGTCGCCCGTGTGAAGATGTCCACTTCGAGGCCGCCGCGCACGAGCTCGCGCGCGATGTTGAGAACGTAGACGTTCATGCCGCCAGCGTCCCCGGTGCCCGGTTGCTCGAGCGGGGAGGTGTGCATGGAGATCATCGCGACGCGCATGCAGCCCAATTCTAG	MPRQLRDLVRGVGHHGVRVVHELLLADAARLALGLGVRGAVRVFHRRPRVPRVDQGHPREVGHEPPHLAGEPVVRVDQVVGQVVRAGELQDPAGKGGELGGQILLRQPLVRPGDDVDHAQTLADLDDFAPAGPGRPCEDVHFEAAAHELARDVENVDVHAASVPGARLLERGGVHGDHRDAHAAQF				NA	NA	NA	NA	NA
AK009_07297	495			hypothetical protein	GTGGCCCACCGCGGCCGCGCCCATCTCGATGCGCCGGGCGTCGTCGTTAAGCAGCTGGCCAAGCGCGTCGGCCCACGCCTCGGTGCCGTGCCCGTCGACAAGCAGCCCTGTCTCGCCCTCGGCGATGGCCAGCGGGAGCCCGCCGACGCGGGCCGCGACCACGGGGGTGCCCGTCGACTGCGCTTCGACGGCGACCAGGCCGAAGGACTCGTTGTAGCTGGGCACCGCGACGATGTCGGCCGCCTGGTAGATCGCCACCAGCTCCTCCGGGGGCCGCGGGCCCAGGAAGCGCACCCGACGCGCGATGTTTTCCTCGCGGGCGAGCGCGCGGTAGCGCTCCACGCTCGCATCGCTTCCCGACGCCCCACCGCAGATAATGACGTGCACGTCGCGCGCCGGGTCGCGGCGCGCCATCTCCCCTACCGCGCGGATCAGCACCTGGGGGCCCTTGAAATCCTGCAGCCTGCCAACGAACGCGACGACCTTGGCGTGTAG	MAHRGRAHLDAPGVVVKQLAKRVGPRLGAVPVDKQPCLALGDGQREPADAGRDHGGARRLRFDGDQAEGLVVAGHRDDVGRLVDRHQLLRGPRAQEAHPTRDVFLAGERAVALHARIASRRPTADNDVHVARRVAARHLPYRADQHLGALEILQPANERDDLGV				NA	NA	NA	NA	NA
AK009_07298	552			hypothetical protein	GTGCTTGACCAGCGCGCGCAGGGAGTTGCCGTGAGCGGCGACCATGACGTTCTTGCCCTGCAGAACCTCTGGCAAGATAACGTCCTCGTAGAACGGCAAGAAGCGCTCCACGACGTCCTTGAGGCACTCGGTGCGCGGCACCTGCGGCAAAAAGGCGTAGCGCGGGTCGTTGGCCTGGGAGAACTCGTTGTCGTCGGCAAGCTCCGGCGGCGGGGTGTCGTAGGAGCGGCGCCACGTCATGAACTGCTCCTCGCCGAACTCCTCGCGGATCTCGGCCTTGTTCAGGCCCTGCAGCTTGCCGTAGTGGCGCTCATTGAGGCGCCAGTTGCGCTCGACGGGGATCCAGTGGCGGTCAGCGGCGTTAAGCGCGATGTTCGCGGTGCGGATCGCGCGGCGCAGCAGCGAGGTGAACACGATGTCGGGGAGGATGCCCTTGTCCACGAGAAGCTGGCCCGCGTTGGCCGCCTCCTGCTCACCCTGTTCGGTCAGGTCAACGTCGACCCAGCCGGTGAATTGGTTGGACTTGTTCCATGTGCTTTGTCCGTGCCGTAG	MLDQRAQGVAVSGDHDVLALQNLWQDNVLVERQEALHDVLEALGARHLRQKGVARVVGLGELVVVGKLRRRGVVGAAPRHELLLAELLADLGLVQALQLAVVALIEAPVALDGDPVAVSGVKRDVRGADRAAQQRGEHDVGEDALVHEKLARVGRLLLTLFGQVNVDPAGELVGLVPCALSVP				NA	NA	NA	NA	NA
AK009_07299	303			hypothetical protein	GTGGGATTCCTTGAGCAGCTTCTCGCCGAAGTACGTCACCATCTCCGGGTCACCCGGGTCTTGCAGCAGCGCCTGGGCCAGCAGGGAGACTCCACCGACCGGGGTTTTCAGCTCGTGCGAGACGTTGGCCACGAAGTCGCGGCGCGCGGACTCCATGCGCACGTTCTCGGACTCATCGGTGCCGTAGACGATGACGAAGGAGGTGTCCGTCAGCGTCAGCGGTTTCACCACGGCGCGCACGCTGCGCACGAGGCTGCCTGTGGCGCGTTTCGGCAGGTCGAGGTCAATCGTGCGGGTCTCTAG	MGFLEQLLAEVRHHLRVTRVLQQRLGQQGDSTDRGFQLVRDVGHEVAARGLHAHVLGLIGAVDDDEGGVRQRQRFHHGAHAAHEAACGAFRQVEVNRAGL				NA	NA	NA	NA	NA
AK009_07300	387			hypothetical protein	ATGATTGGCCACGACGTGCTTGACGATGGCCAAACCCAAACCCGTGCCTCCCGTCGAGCGCGAGCGCGCCCTGTCCACGCGGTAAAACCTCTCGAAAACGCGCTTCTGGTCCTCGGGCGCAATCCCGATGCCGCGGTCGGTGACGCGGATCAAAATCACCGAGTCCCGCACCACTTTCTGGGTGATGGTCACCGGCTGGTTGTTTGGCGAATAGTTAATCGCGTTGGACACCAGGTTCGACACCGCGGCGGTGAGCAGCGCCCGGTCCCCCATCACCTTGATGCCGGTGTGGCCGGAGCGGGTCAGCTCGATTTCCCTGTTGTCCGCGGTGACCTGGTTGCGCTGGATCGCGTCGTCGATGACGTCGTCGACACGCACGGGCGTTAA	MIGHDVLDDGQTQTRASRRARARPVHAVKPLENALLVLGRNPDAAVGDADQNHRVPHHFLGDGHRLVVWRIVNRVGHQVRHRGGEQRPVPHHLDAGVAGAGQLDFPVVRGDLVALDRVVDDVVDTHGR				NA	NA	NA	NA	NA
AK009_07301	558			hypothetical protein	GTGGCGCGTGACGTCCATCCTCACGCGGCCGCCCTCGAGGATGCGCTCGTCTGCCTCGAGCTCCTCGACCGCCACCTCAGGCCCGCGGCGCAGCACGGCGCGGATCCGGGCGATGAGCTCGCGGCTGGAGTAGGGCTTGGTCACGTAGTCGTCGGCGCCGAGCTCCAGGCCGACGACCTTGTCGATCTCGGAGTCGCGGGCGGTGACCATGATGATCGGCACCGCGGAGGTCGCGCGGATCTTCTTGCACACGTCGGTTCCGCTCATCCCGGGCAGCATGAGGTCAAGCAGAACCAAATCGACGCTGTTGCTGTCGAACTCGCTCAGCGCGCTCTGCCCATCCGGGGCCACGATCGCCTCAAACCCCTCCTTGCGCAGCAGGTAGGCCAACGGGTCGGCCAAGGATTCTTCGTCTTCAACGATGAGAATCGTCGTCATTGCTTCTCCCTTTCCTTACGGCGCGTCGCAACCCGGGTGACCGCCTGCTTCAAACCCGGCTGGGGCTCGGCAGACTGCGCGCCGGGCTGCTCCGTCTCCCGATCGGCCAGAGTGACCTGA	MARDVHPHAAALEDALVCLELLDRHLRPAAQHGADPGDELAAGVGLGHVVVGAELQADDLVDLGVAGGDHDDRHRGGRADLLAHVGSAHPGQHEVKQNQIDAVAVELAQRALPIRGHDRLKPLLAQQVGQRVGQGFFVFNDENRRHCFSLSLRRVATRVTACFKPGWGSADCAPGCSVSRSARVT				NA	NA	NA	NA	NA
AK009_07302	111			hypothetical protein	GTGGACGTCGAGGGTCTTGGTGTCGCCCACGTAGTCGGCGCCCCAGATGCGCTCGATGAGCTGGCCGCGGGTGAGGACGCGGCCGGCGTTGCGCATCAGGTACTCCAGTAG	MDVEGLGVAHVVGAPDALDELAAGEDAAGVAHQVLQ				NA	NA	NA	NA	NA
AK009_07303	198			hypothetical protein	GTGGGTGTTGGGCGCGCCCGTGCACCACCAGTCGAAGTCCTCGCCCCCTCCGCCCCACTGGCGCCGGTCGTATTCGCCGATGGTGGTGCGCAGCACCTGCTCGCCGTCGGAACGTTCGACCCACTCGTCCTCGCGCGACAACGGCACCTGCCAGCACACCTCGGGCTTGGAGCCGACGATGTTGCACCCCTCCGCTAG	MGVGRARAPPVEVLAPSAPLAPVVFADGGAQHLLAVGTFDPLVLARQRHLPAHLGLGADDVAPLR				NA	NA	NA	NA	NA
AK009_07304	366			hypothetical protein	GTGCAGCGCGCAGCCCGGGCCCGTCTCGGCGTCGGCGCGGTTGGCAAAGATGCAGGCACCGTCCACGCGCGTCGTTTTCAGGCCCGGTTCGTCCTCATCGTCGTCCCACTCCAGCCACGGCTCGAGCACTACCGGGTCGGCGGCCTCGATGTAGGAGTCGACATCGTGGGGGCGCAGCTGCCAGTACTTGGCGGGCATTTTGGCGACGGCGTTGTAGAGGTCGTCGCGGTCGGACTCGTCGGAGAGGTAGGCGCCGTGGATGCAGCAACCGACCACCGGGAAGCTCTCGTCGATGCCGTGGCACTCCGGGGTGCCGAACCGGCAGCTCCACGTCGATTCCAGCCAGGTGAGATCGACCACGATTAG	MQRAARARLGVGAVGKDAGTVHARRFQARFVLIVVPLQPRLEHYRVGGLDVGVDIVGAQLPVLGGHFGDGVVEVVAVGLVGEVGAVDAATDHREALVDAVALRGAEPAAPRRFQPGEIDHD				NA	NA	NA	NA	NA
AK009_07305	150			hypothetical protein	ATGCTTCGGGTCGTCCGGGTTGGTGAACTCGAACCACTCGCGGGGGAAATCCGGGGCAACCTCGCGCCCCGCGAGGATGGACTTCCCGGCGGGGGAGGAGGCGGGAAAACCGAGATAAACGGGGCTTCGGGTTGGTTGATTCACACTTGA	MLRVVRVGELEPLAGEIRGNLAPREDGLPGGGGGGKTEINGASGWLIHT				NA	NA	NA	NA	NA
AK009_07306	483			hypothetical protein	GTGCGTCAGCCTGCCCGCGCCGAGATCCAGGGAGACGGCAAGGTCGGGGGTTTCCTCGGTGCCGGTCGACATTTCCAGCGAGCCGCCGCCAATGTCGATGTTGGTGATCCGGCCAGCGGACCAGCCGTGCCAGCGGCGCGCGGCGAGAAACGTCAGGCGCGCCTCCTCCTCGCCCGTGAGGATCCGCAGGTCCACGCCGGTTTTTTTCTCTACGCGGCGCAGCACGTCGTCGGAGTTGGTGGCGGAGCGAATGGCGGAGGTGGCGAACGCGAGGAACTCCTCGCACTTCAGGTTCGTCGAGAGGTCTTTCGCCTCCTGCACAGCGCTCACGAGCTTATCGACGCCCCTGTCCTCGATCGCCCCGTCCTTATCGAGGAGCTCAACGAGCCGCAGGGGCTGCTTCCAATCGCTCATCGGAGTCGGGCGCCCGCCACTGTGGGCATCGACCGCCACGAGGTGGACGGTATTGCTGCCTACATCTAA	MRQPARAEIQGDGKVGGFLGAGRHFQRAAANVDVGDPASGPAVPAARGEKRQARLLLAREDPQVHAGFFLYAAQHVVGVGGGANGGGGEREELLALQVRREVFRLLHSAHELIDAPVLDRPVLIEELNEPQGLLPIAHRSRAPATVGIDRHEVDGIAAYI				NA	NA	NA	NA	NA
AK009_07307	357			hypothetical protein	GTGGTTCGACACCGACCCGCCGGAGCGCAAGAAGATCAACCTCCTGCGCGACTTCATCGACGCCGAGCTCGCCGCGCCCGCCGAGCAGTTCCGGGCGCTCGGGGGCAGCGGGTTGGCCGTGGGCACGTCGAAGACGCTGCGCACGCTCGCGCGCCTGACCGGCGCCGCACCGTCCTCAGCTGGGCCTTTTGTCAAGCGCACGCTCACCGCGCCGGGTCTGCGCCAGCTCATCGCCTTCATCTCACGCATGACGGCGGCGGACCGCGCGGAGCTCGAAGGCATCAACGCGGACCGCTCCCACCAGATCGTTGCGGGCGCGTTAGTGGCGGAAGCCGCAATGAGAGCCTTAAATATTGA	MVRHRPAGAQEDQPPARLHRRRARRARRAVPGARGQRVGRGHVEDAAHARAPDRRRTVLSWAFCQAHAHRAGSAPAHRLHLTHDGGGPRGARRHQRGPLPPDRCGRVSGGSRNESLKY				NA	NA	NA	NA	NA
AK009_07308	783			hypothetical protein	ATGCCACAACCCCGTGTGCGCCCGCAGCCGCGGTTACAGGCCGCTGATCAACCCAGGGCCGAGCGTGACGACGAGCGCAGCCAGGCCAGCCAGCGTCATCGTCAGCCCGTCCTTGCCGGTGCGCATCGCGCGCACACCAAACACCACGGCCGCGGTGACCACCAGCGCCAGGATGAGGGCGACCGCCAGCGGCAGGTTCGCCCACACCCACTGGAAGGCGATGAAACCGAGCACGCCCGCGATCAGGCCCAAAAAGACGAACAGAACGAGCATGATCGGGTTGACCGCGGCCTCGGCCTCAGCCTCCGCCTCCGGGAGGAACTCGGGCTGCTCAGCGTAGACGGACTCGTCGTAAACGGGCGCAGGTGCGGGGGCGGGGGCATCCGCGACGACCGGGATCTCGCCGGTGACCTCGGCGGGCTCCTGCGCCGAGCGCTCGAACTTCGACCATGTGGTGGTAGTAGTCGCAGCGGCCGCGGGTTTCGGCTCCACCTCCACCTTCTTGATAACGGTGGTCTCGGACGCGTCCACGGGTTCCGGCTCAACTGCTTCGATGGGCTTGACCGGTTCCGGCTCAACCGGGTCGATGGGCACGCTGGAGTGCTTCGACTCCACAGGGCGCGCCTCGACCTTGCGCAGGGAGCCAGTGAGCTCAGCAACCGACACGCCGCCTTCGTCGAGGCTGCGGCGGCGGCGCCGGCGCGGCTGTTCGGCGCCCGGGTTTTCTTTCTGGGCTCGCGAGAGAAGCTCCGCGACAGTGAGCTGAGAGTCGTCAGACATTAG	MPQPRVRPQPRLQAADQPRAERDDERSQASQRHRQPVLAGAHRAHTKHHGRGDHQRQDEGDRQRQVRPHPLEGDETEHARDQAQKDEQNEHDRVDRGLGLSLRLREELGLLSVDGLVVNGRRCGGGGIRDDRDLAGDLGGLLRRALELRPCGGSSRSGRGFRLHLHLLDNGGLGRVHGFRLNCFDGLDRFRLNRVDGHAGVLRLHRARLDLAQGASELSNRHAAFVEAAAAAPARLFGARVFFLGSREKLRDSELRVVRH				NA	NA	NA	NA	NA
AK009_07309	390			hypothetical protein	GTGCCCGGTCACAGCCAGCGCCTCGAGTACTTGGGCGCGCTTATCCTCGTCGACGTAGCGCCCGCTCGCCGCGACGTGAACGCCTTTACCCACCAGCATGGGGGTGTTCGGCATGACGCGCACCAAGGGGGTGCCGGCGGCGGAGACGGCGCTTTCCATCGAGGCGAGCGTGATGCCCGCGGCCATCGACACCACCGCGGTGGATTCGTCGTGGCGGGCGATCGTGTCGCTGATCTCCTCGAGCACCTCGAGGATCTGACCCGGCTTGACGCACAGAAAGCAGATGCTGGCGTCCGTCACGGCCTCGGAGTTGTCACTGCCCGTGATGATTCCGTAGCGCTCAGCGAGCTGCGCAGAGCGCTCCGGCGAGCGGTTGGTCGCGAAGATTGA	MPGHSQRLEYLGALILVDVAPARRDVNAFTHQHGGVRHDAHQGGAGGGDGAFHRGERDARGHRHHRGGFVVAGDRVADLLEHLEDLTRLDAQKADAGVRHGLGVVTARDDSVALSELRRALRRAVGRED				NA	NA	NA	NA	NA
AK009_07310	192			Putative DNA-binding proteinA	ATGGCTAACGAAGAAAAGGGTAAGTTCCTCACTGTTGCTGAGGTTGCCGACATCATGCGTGTCTCCAAGATGACGGTGTACCGCCTGGTACACGCTGGCGACCTGCCCGCTGTGCGGGTGGGACGCTCATTCCGCGTCAACGAGAACGCTGTTACCGAGTATCTCGACTCCTCGGTCTACAACGTCGGTTAA	MANEEKGKFLTVAEVADIMRVSKMTVYRLVHAGDLPAVRVGRSFRVNENAVTEYLDSSVYNVG				NA	NA	NA	NA	NA
AK009_07311	249			hypothetical protein	GTGGCGCTTTCCGGGCCCGTGCAGGATGTCGCCGACCAGCCGCCCGGTAAACAGGCCGTCTTCCGCCTCCGCGACGGTGCCCAGCGCGCCCGTGAACCCGAGGCGCGCGGCGAGCGCCTGGCCGATCTGCACCGGGGTGGCCGAGACGAGCCACACCTGCTGGCCAGCGGCGAGGTGCATGTGGGCCAACTGCAACGTCGGGTCGAACGCCCGGCCAAGGATTTGGTGGTCGACTATGTCGTCGGCTAG	MALSGPVQDVADQPPGKQAVFRLRDGAQRAREPEARGERLADLHRGGRDEPHLLASGEVHVGQLQRRVERPAKDLVVDYVVG				NA	NA	NA	NA	NA
AK009_07312	354			hypothetical protein	GTGGGCGCGGCCGCTGGCGATGTCGGAGGTTTTCTCCGAGCCGAAGACGCGGTAGCGCAACTGCTTGGTCAGTCCGGGCAGCAGCTCGCGCAACGTGATCATGCGTTTCTTCGCCAGCCCCCGGCCGAGCAGCACGAGCGACGAGCCCTGGATCAGGGTGTTGTCGATATCGAAAAACGCTGCCGCCTCGGCGTCCTGCGGCACGTCGGGGTCCGGCTGGGTGACCCTCGCCGCGCCGGCGGTGGCGAATGCGCCGCCAACGGTGTCGACCCCAAGGGTGAACTCGTCGATGCTGAGCCCAAACGTTTCTTCAATGGCGGCGGCAGCTGCGGCTTCGCCGGCGGCGCGCTGTGA	MGAAAGDVGGFLRAEDAVAQLLGQSGQQLAQRDHAFLRQPPAEQHERRALDQGVVDIEKRCRLGVLRHVGVRLGDPRRAGGGECAANGVDPKGELVDAEPKRFFNGGGSCGFAGGAL				NA	NA	NA	NA	NA
AK009_07313	237		COG0526	putative protein	GTGAAAAACGTCGAGCTGATGGTTCGCGCCACATGCGGTTCCTGCGACCGCGTCGCGCGCCAGATCGCCCCGATCGTCGAGGCGGCGGGCGCGACGCTGACGCTTGTCGACGTCGACACGGACGCCGAGATCGCTGCCGAATACGGCGACCGCGTGCCCGTGGTCGTGATCGACGGCGAGGAGTTCGCCTGCTGGGAAGTAGACAACGCCGACCTCGCCGCCGAGCTCGCAAGCTAG	MKNVELMVRATCGSCDRVARQIAPIVEAAGATLTLVDVDTDAEIAAEYGDRVPVVVIDGEEFACWEVDNADLAAELAS				NA	NA	NA	NA	NA
AK009_07314	1317	hemA_2	COG0373	Glutamyl-tRNA reductase	GTGAGTGTTCTCGTCGTAGGGATGTCGCATCGCTCGGCACCCGTCGCGTTACTTGAGCGCCTCAGCATGGACGACACCGTGCAGACGGAGACGACAACCGCGTTGGTCAGCCAGCCCTCGCTGTCCGAGGCGATGATTATCTCGACCTGCAACCGCCTCGAAGTGTATGCGGTAACCAACTCCTTCCACTCCGGCGTCGAGGACGTGCTCAGCGTGCTCGCGGACAAGTCTGGGGTGGAGGAAGGGGAGCTGCGCTCCTACCTGTATGTCCGCTACGCCGACGCGGCGGCCGAGCACATGATGACGGTCGCCTCCGGCCTGGACTCGATGGTGGTGGGAGAGCAGCAGATCATCGGCCAGGTCCGCTCCAGCTACCAAGATGCCACCGTGCGCGGCACAGTCGGCCCCGGCCTGCACTCGCTGGCGCAATCCGCGCTCTATACCGGCAAGCGCGTGCACACGGAAACGGAGATCGACGACGCCGGCGCCTCCATGGTCACCCTCGCACTGGAGGAAGCGATGAAGATTATGGGCGTGGAGGATTTCACGGGCAAGACCGCCTTAGTCCTCGGCGCCGGGGCCATGGCCTCGCTGGCGGCGACGCACCTGGGCAAACGCGGGATTAACAACCTGATCATCGCTAACCGCACCCGCTCGCGCGCCGAACGCCTCGCCGAGCACTCCCGCGAGGCGGGCGTGCCGGCGGAGGTCGTGGACTTCAACTCCCGCGCCGGGGCGCTGGCCCGGGTCGACATCGCCGTTTCCGCGACCGCGAGCGATGAGTTCACCATCACGGCGGAAGACATCTCCGGGCCCGTTATGCTCGCTGACTTGTCGCTGCCGCGCGACATCGAGGACGCCGTCACCGAGCGCGACGGCGTGCACCTGGTCAACATCGAGTACCTGCACCAGCGCATGCGCGAGAGCGACGACAAGGATTCCCGCTCGCGCGCCGCCGCCGAGGCGATCGTCGCCGAGGAGGTCAGCAACTTCAGCTCCCGCCAGCGCGTGCGCGAGGTCGGGCCCGCCGTGGCGCAGCTGCGCAAGGCGGCCAGCGAGGTTACCGACGGGGAGCTCGCCCGGCTGCGCGCGCGGGTGCCGGACCTAAGCGAGGAGGACTTCGACCAGGTCTCCCGCACGGTTCGGCGGGTCGTCGACAAGATCTTGCACACGCCGACGGTGAAGATCAAGGAGCTCGCGGCGACCTCGGATACGGTGAGCGTGGAAACGGCCATCGAGGAGCTCTTCGGCTTAGGCCGCAGCTCCGTGGCGATCGACGCGCAGCGCCTGCCCAAGCTCAGTGAGATCACGGAATAA	MSVLVVGMSHRSAPVALLERLSMDDTVQTETTTALVSQPSLSEAMIISTCNRLEVYAVTNSFHSGVEDVLSVLADKSGVEEGELRSYLYVRYADAAAEHMMTVASGLDSMVVGEQQIIGQVRSSYQDATVRGTVGPGLHSLAQSALYTGKRVHTETEIDDAGASMVTLALEEAMKIMGVEDFTGKTALVLGAGAMASLAATHLGKRGINNLIIANRTRSRAERLAEHSREAGVPAEVVDFNSRAGALARVDIAVSATASDEFTITAEDISGPVMLADLSLPRDIEDAVTERDGVHLVNIEYLHQRMRESDDKDSRSRAAAEAIVAEEVSNFSSRQRVREVGPAVAQLRKAASEVTDGELARLRARVPDLSEEDFDQVSRTVRRVVDKILHTPTVKIKELAATSDTVSVETAIEELFGLGRSSVAIDAQRLPKLSEITE	PGPT0003650_1511	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
AK009_07315	906	hemC_2	COG0181	Porphobilinogen deaminase	ATGCTGCACATTGGAACCCGAGGCTCGCACCTGGCCACGACGCAGGCCGGCCACGTCCGCGACGAGATCATCGCCGCCGGCCACGACGCCGAGCTGACCATCGTGACCACGCCCGGTGACCTGTCGCAGGCCCCGGTCGAGCGTATCGGCGTAGGCGTGTTCACCTCCGCCCTGCGCGACGCGCTGTTCCGCGGCGAGGTCGAGATCGCGGTCCACTCGTTCAAGGACCTGCCCACGGCCGACGAGCCCCGCGCCCACATTGTGGTCCCGACCCGCGAGGACAACCGCGAGGCGCTGATTGCCCGCGACAACATGCAGCTTGCCGACCTCCCGCAGGGTGCGCGCGTGGGCACCTCCGCACCGCGGCGCATCTCCCAGCTCAAGGCGATGCGCCCCGACTTGGACATCCGCCCGCTGCGCGGCAACATCGAATCCCGCATGGGGCGAGTCACCAGCGGCGAGCTAGACGCCATCGTGCTCGCCTACGCGGGCCTGTCGCGCGCCGGCTACGGTGATCGCGCCACGCAGCTTTTCGACGCCACCACGTTCCTGCCCGCCCCTGCCCAGGGAGCTCTAGCCGTGGAGTGCCGCAGTGACGACGCCGCAACGCGCGCGGTGCTCGACCCGCTGATGGACACCACCGCCGCGCTGCAGATCTCCGCAGAGCGCCACGTGTTGGCCACCCTCGAGGCCGGGTGCACGGCGCCGGTCGCCGCGCACGCCGCGTACGACGACGGTGTGCTGACGCTGCGCGCCGGGGTGTTCGCCCTCGACGGCTCGCGCCAGCTGGTGGAAACGGGCTCGGTCCGCCTCCCGGATGTGCTTGACCGCGAGGCGGCGCGGGGGCTCGGGCGAGAGCTCGCCTCGACGCTTCTTGAGTCGGGCGCGGCCGAGCTCATGACGTAG	MLHIGTRGSHLATTQAGHVRDEIIAAGHDAELTIVTTPGDLSQAPVERIGVGVFTSALRDALFRGEVEIAVHSFKDLPTADEPRAHIVVPTREDNREALIARDNMQLADLPQGARVGTSAPRRISQLKAMRPDLDIRPLRGNIESRMGRVTSGELDAIVLAYAGLSRAGYGDRATQLFDATTFLPAPAQGALAVECRSDDAATRAVLDPLMDTTAALQISAERHVLATLEAGCTAPVAAHAAYDDGVLTLRAGVFALDGSRQLVETGSVRLPDVLDREAARGLGRELASTLLESGAAELMT	PGPT0003660_4614	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
AK009_07316	246			hypothetical protein	TTGCGGCACCGGCAGCTTGGAGGCGATAACGTCACGCACCCCCTGAAGGACATCGGGGTCAACGACGGCGATAGAGTTAGACTCCATCACCTCGCGGGCGCGGATCGTCAGCAGATCTGGGTTGCCCGGGCCTGCGCCAACGAAGATGATCTTCCCCGGCTGGGGCGTGGTGGAGGGCAGAGTCATAAAAAGGTTCTTTTCTTTAAAAAAGGCGTAAGCGTAACCCCGGCAGCCGGGGCCGACTAA	MRHRQLGGDNVTHPLKDIGVNDGDRVRLHHLAGADRQQIWVARACANEDDLPRLGRGGGQSHKKVLFFKKGVSVTPAAGAD				NA	NA	NA	NA	NA
AK009_07317	657			hypothetical protein	GTGAACGCCGGCAAAAGCGCGGGCGTCGAGACCGAGCTCCTCGAACTTGTCCCACACCGCGTCCACCGCATTCGTCGAGGTGAACACGATCCACTGGTAGCGGCCCTCAACAATGCCCTTGATCGCGCGGTCCATCTGCGCCGGGTTGCGCGGCGGCTCCATGGAAATCGTCGGCACCGACTGCGGGATCGCGCCGTAGGTGGACAGCCGCGCGTTCATCGGCCCTGCCTGCTCCTTCGCGCGCGGGACCAGCACCCGCCAGCCGTACAGGGGGCGGTTTTCCCACCAGGAGTACTTGGAGCGGTCGTCAACCGCCGTGCCGATGGTGACAACCAGGTTGCCCTCCAAGTCGGCGTCGATCTTGCCGATCGTCTCCAGCGTCGCGTCGAAGGTGCGCTGCAGGCGCGTCGTGCCGTTCGTGGTCACCGTCAGCGACGTCGATGGGGAGAAACCGCGCTCGATGAGCTCTGCGGAGATGAGCGGCAACTGCTCCGCCACCGCCTGCAGCACCAGGGGCTGCGGGGCGTGGGCCAGGCCCTCCCAGTCGACGGGCTCATTCGACAGGTCCGCCTCGGTGTACGTCGAACCGAGAGCGATGCCAGCAAACGAGGGCACCGTCGACGGCAGAGACATGCCGGGCACGACCTGGAACTCTAA	MNAGKSAGVETELLELVPHRVHRIRRGEHDPLVAALNNALDRAVHLRRVARRLHGNRRHRLRDRAVGGQPRVHRPCLLLRARDQHPPAVQGAVFPPGVLGAVVNRRADGDNQVALQVGVDLADRLQRRVEGALQARRAVRGHRQRRRWGETALDELCGDERQLLRHRLQHQGLRGVGQALPVDGLIRQVRLGVRRTESDASKRGHRRRQRHAGHDLEL				NA	NA	NA	NA	NA
AK009_07318	2472	gyrA_2	COG0188	DNA gyrase subunit A	ATGTCAGACAATCAACAACAAGCACGAATTCGAGAAATTAATATTAGTCATGAAATGCGTACCTCATTTTTAGATTACGCAATGAGTGTTATCGTATCTCGTGCATTACCAGATGTTCGTGATGGATTAAAACCTGTGCATCGTAGGGTTTTATATGCGATGAATGATTTAGGAATTACAGCTGATAAAGCGTATAAGAAATCAGCACGTATTGTCGGTGAAGTAATCGGGAAGTATCACCCTCATGGTGATTCAGCCGTTTATGAAACAATGGTACGTATGGCGCAAGATTTCAGTCAACGTTATATGCTTGTAGATGGGCATGGTAACTTCGGTTCTGTAGATGGAGATTCAGCAGCGGCAATGCGTTATACAGAGGCAAGAATGTCTAAGATTTCTATGGAATTAATACGTGATATTTCAAAAAATACAATTGATTATCAAGATAACTACGATGGTTCGGAAAGAGAGCCGATTGTATTACCAGCGCGTTTTCCTAATTTATTAGTAAACGGTACGACAGGTATTGCAGTTGGTATGGCAACAAATATTCCGCCGCATCAACTTGGCGAAGTAATTGATGGTGTGTTGGCATTAAGTCATAACCCGGATATTACTATAGCGGAGTTAATGGAATATATTCCTGGACCAGACTTCCCGACATCAGGTTTAATCTTAGGTCGAAGTGGCATCCGTAGAGCTTATGAAACAGGGCGCGGTTCTATTATGCTTCGTGCCAAAGTTGAAATTGAAGAGAAATCAAATGGTAAACAATCTATTATCGTAACGGAACTACCTTATCAAGTTAATAAGGCACGATTAATTGAAAAAATCGCAGAATTAGTTCGCGATAAGAAAATTGAAGGTATTACAGATTTACGTGATGAATCAGACCGAAATGGTATGCGTATTGTCATGGAAGTACGTCGTGACGCCAATGCAAACGTACTATTAAACAATCTATATAAACATACAGCACTTCAGACAAGTTTCGGTATTAATATGTTGTCTCTTGTAAATGGAGAGCCTCAAGTACTAAATTTAAAACAAAACTTATATCATTATTTGGAGCACCAGAAGGTAGTAATCCGTAGACGTACTGCGTATGAATTAGAAAAAGCAGAGGCACGTGCTCATATTTTAGAAGGATTACGAATTGCTTTAGATCATCTTGATGAAGTTATTACGTTAATTCGTAGTTCAAAAACGGCTGATATTGCAAAGCAAGGCTTAATGGAACGTTTCGGTTTAAGTGAGAAACAAGCGCAAGCGATTTTAGATATGCGTCTGCAACGTTTAACTGGATTAGAACGTGAAAAAATCGAGCAAGAATATCAAGATTTAATGAATTTAATTGCTGAATTAAAAGCGATTTTAGCAGATGAAGAGAAAGTTCTTGAGATTATTCGTGAAGAATTAACAGAAGTAAAAGAGCGTTTCAATGATAAGAGACGAACAGAAATTACAATTGGCGGTATGGAATTTATTGAAGATGAAGATTTAATTCCTGAGCAAAATATTGCAATTACGTTAACTCATAACGGTTATATTAAGAGGTTACCAGCTTCTACGTACAAAACACAGAACCGTGGGGGACGTGGTGTACAAGGAATGGGTACGAATGATGATGACTTTGTTGAACACTTATTAACAACGTCTACTCATGATCATATTTTATTCTTTACAAACAAGGGTAAAGTATACCGTACGAAAGGATATGAAATCCCAGAGTATAGTCGTACTGCAAAAGGGCTACCAATTATTAACCTATTAGGGGTAGATAAGGGTGAGTGGATCAATGCCATTATTCCAATTCGTGAATTTGGTGACGACCAGTTCTTATTCTTTACAACGAAACAAGGTATTTCTAAGAGAACGCCACTTTCATCATTTGCAAATATACGTACGAACGGTTTAATTGCAATTTCGCTTCGTGAAGAAGATGAAGTGATTTCTGTACGTTTAACATCTGGCGATAAAGATATTATCGTAGGGACAAGCAACGGTATGTTAATTCGCTTCAATGAACAAGATGTACGTTCTATGGGCCGTAATGCAGCTGGTGTAAAAGCTATTACATTAGGCGAAGAGGACCAAGTAGTAGGTATGGAAATTGTTGAAGAAGATACGAATGTCTTAATTGTAACGAAAAACGGGTATGGTAAGCGTACTCCAGTTGAAGAGTATCGACTACAAAGCCGTGGTGGTAAAGGTCTTAAAACTTGTAACATTACAGATAAAAACGGTAAGTTAGTAGCGGTTAAGTCTGTAACAGGTGAAGAAGACATCATGCTAATTACAGCCGCAGGCGTTATTATTCGTATGCCGGTTGATCAAATCTCTCAAATGGGACGTAATACACAAGGTGTTCGTCTAATTCGTTTAGAGGATGAGCAAGAGGTAGCGACAGTAGCAAAAGCACAGAAAGATGAAGAAGAAGAATCTAATGAAGAGGTTTCTTCTGAAGAATAA	MSDNQQQARIREINISHEMRTSFLDYAMSVIVSRALPDVRDGLKPVHRRVLYAMNDLGITADKAYKKSARIVGEVIGKYHPHGDSAVYETMVRMAQDFSQRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMELIRDISKNTIDYQDNYDGSEREPIVLPARFPNLLVNGTTGIAVGMATNIPPHQLGEVIDGVLALSHNPDITIAELMEYIPGPDFPTSGLILGRSGIRRAYETGRGSIMLRAKVEIEEKSNGKQSIIVTELPYQVNKARLIEKIAELVRDKKIEGITDLRDESDRNGMRIVMEVRRDANANVLLNNLYKHTALQTSFGINMLSLVNGEPQVLNLKQNLYHYLEHQKVVIRRRTAYELEKAEARAHILEGLRIALDHLDEVITLIRSSKTADIAKQGLMERFGLSEKQAQAILDMRLQRLTGLEREKIEQEYQDLMNLIAELKAILADEEKVLEIIREELTEVKERFNDKRRTEITIGGMEFIEDEDLIPEQNIAITLTHNGYIKRLPASTYKTQNRGGRGVQGMGTNDDDFVEHLLTTSTHDHILFFTNKGKVYRTKGYEIPEYSRTAKGLPIINLLGVDKGEWINAIIPIREFGDDQFLFFTTKQGISKRTPLSSFANIRTNGLIAISLREEDEVISVRLTSGDKDIIVGTSNGMLIRFNEQDVRSMGRNAAGVKAITLGEEDQVVGMEIVEEDTNVLIVTKNGYGKRTPVEEYRLQSRGGKGLKTCNITDKNGKLVAVKSVTGEEDIMLITAAGVIIRMPVDQISQMGRNTQGVRLIRLEDEQEVATVAKAQKDEEEESNEEVSSEE	PGPT0027705_867	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
AK009_07319	1929	gyrB	COG0187	DNA gyrase subunit B	GTGTCAATGGAACAAAAACAAATGCAAGAAAATGCATATGATGAAAGTCAGATACAGGTACTTGAAGGACTAGAGGCAGTTCGGAAACGTCCGGGTATGTATATTGGATCTACGAGTGGAAAGGGACTTCACCACCTTGTATGGGAGATTGTCGATAATAGTATCGATGAAGCGTTAGCAGGATATTGTGATGAAATTAACGTTAGTATCGAAGAAGATAATAGTATTCTTGTAACGGATAATGGACGTGGTATTCCAGTTGGTATACAAGAAAAAATGGGACGTCCTGCAGTAGAGGTTATTATGACTGTCCTCCACGCTGGTGGTAAATTTGGCGGTGGCGGTTACAAAGTTTCTGGTGGTTTGCACGGTGTTGGTGCATCTGTTGTAAATGCCTTATCAACAGAATTAGAAGTATTTGTACATCGTGATGGTAAAATCCATTACCAAAAATACGAAAGAGGTATTCCGGTTGCAGATTTAAAAGTCATCGGTGATACAGATAAAACTGGAACAATAACTCGCTTTAAACCGGATCCAGAAATTTTTAAAGAGACGACAGAATATGAATTCGATACGCTAGCGACTCGTATGCGTGAGTTGGCGTTTTTAAATCGTAATATTAAATTAACAATTGAAGATAAACGTGAACATAAGCAAAAGAAAGAGTTCCACTATGAAGGTGGAATTAAATCATATGTTGAACATTTAAATCGTTCAAAACAACCAATTCATGAAGAGCCTGTATATGTAGAAGGTTCAAAAGATGGTATTCAAGTTGAAGTTGCGCTTCAATATAACGAAGGATATACAAATCATATTTACTCATTTACAAATAATATTCATACGTATGAAGGTGGTACACATGAGGTAGGATTTAAAACTGCCTTAACACGTGTGATTAACGATTATGGTCGTAAAAATAACATTTTAAAAGATGCGGATAGTAATTTGACTGGTGAAGATGTTCGTGAAGGTTTAACAGCAATTGTGTCAATTAAACATCCAAATCCACAATTTGAAGGGCAAACGAAGACGAAACTTGGAAATAGTGAAGCGAGGACGATTACGGAGTCAGTATTCTCTGAGGCTTTTGAAAAATTCTTACTGGAAAATCCCAATGTTGCACGTAAGATTGTAGATAAAGGAACGATGGCAGCACGTGCGCGTGTAGCAGCTAAAAAAGCTCGTGAGCTAACTCGCCGAAAGAGTGCTTTAGAAGTTTCAAGTTTACCAGGGAAATTGGCAGATTGTTCTTCTAAAGATCCAGCAATTAGTGAAATTTATATCGTAGAGGGTGACTCTGCGGGTGGATCTGCAAAACAAGGACGCGATCGTCATTTTCAAGCAATTTTACCGCTGAAGGGTAAAATTATTAATGTTGAAAAGGCACGCTTAGATAAGATTTTATCAAATGATGAAGTTCGTACAATTATTACGGCGATTGGTACAAATATTGGTGGGGACTTCGATATCGAAAAAGCACGCTATCATAAAGTTATTATTATGACCGATGCCGATGTTGATGGTGCGCATATTCGTACCCTATTATTAACGTTCTTCTATCGTTATATGCGTCAAATAATTGAGTGTGGATATATATATATAGCACAGCCACCGTTGTTTAAGGTGCAACAAGGTAAAAAAATTCAATATGCTTATAATGATAAAGAGCTTGAAAAAATATTAGCTGAGTTACCAGCCCAGCCGAAACCAGGAATTCAACGTTATAAAGGTCTTGGAGAGATGAATCCAACTCAGCTATGGGAGACGACAATGGATCCAGAAGTACGTTCGTTACTTCAAGTTTCTCTTCAAGATGCAATAGAAGCAGATGAAACATTTGAAATTTTAATGGGTGATAAAGTGGAACCACGTCGTAACTTTATCCAAGAGAATGCAAAATACGTGAAAAACCTTGATATTTAA	MSMEQKQMQENAYDESQIQVLEGLEAVRKRPGMYIGSTSGKGLHHLVWEIVDNSIDEALAGYCDEINVSIEEDNSILVTDNGRGIPVGIQEKMGRPAVEVIMTVLHAGGKFGGGGYKVSGGLHGVGASVVNALSTELEVFVHRDGKIHYQKYERGIPVADLKVIGDTDKTGTITRFKPDPEIFKETTEYEFDTLATRMRELAFLNRNIKLTIEDKREHKQKKEFHYEGGIKSYVEHLNRSKQPIHEEPVYVEGSKDGIQVEVALQYNEGYTNHIYSFTNNIHTYEGGTHEVGFKTALTRVINDYGRKNNILKDADSNLTGEDVREGLTAIVSIKHPNPQFEGQTKTKLGNSEARTITESVFSEAFEKFLLENPNVARKIVDKGTMAARARVAAKKARELTRRKSALEVSSLPGKLADCSSKDPAISEIYIVEGDSAGGSAKQGRDRHFQAILPLKGKIINVEKARLDKILSNDEVRTIITAIGTNIGGDFDIEKARYHKVIIMTDADVDGAHIRTLLLTFFYRYMRQIIECGYIYIAQPPLFKVQQGKKIQYAYNDKELEKILAELPAQPKPGIQRYKGLGEMNPTQLWETTMDPEVRSLLQVSLQDAIEADETFEILMGDKVEPRRNFIQENAKYVKNLDI	PGPT0027710_1124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
AK009_07320	1128	recF	COG1195	DNA replication and repair protein RecF	TTGTTTATTTCAGAAATACAATTAAAAAACTATCGCAATTATGAAAAATTAGAGCTTTCCTTTGAAGATAAGGTAAATGTAATTATCGGCGAAAATGCACAAGGGAAAACAAACTTGATGGAAGCTATTTATGTTTTAGCGATGGCGAAATCTCATAGAACCTCTAATGATCGCGAACTTATCCGCTGGGATGAAGAGTTTGGTCAAATAAAAGGGAAATTACAAAAAAGAAACAGTTCTTTGTCTTTGGAATTAAATATTTCGAAAAAAGGTAAAAAGGCAAAATTAAATCAACTTGAACAACAAAAGTTAAGTCAATATATTGGCGTGATGAACGTTGTCATGTTTGCCCCAGAAGATTTAAATCTTGTAAAAGGAAGCCCTCAAGTAAGAAGACGCTTTTTAGATATGGAATTAGGACAAATAGCTCCTATATATTTGTATGAATTAAGTCAATATCAAAAGGTGCTCACGCAACGAAATCACTTGTTGAAAAAAATGCAAGGGAATAGTAAGAATGAGGAAACGATGTTGGATGTATTTACACTTCAACTAATTGAGCATGGTGCGAAAATACTGCAAAAACGTTTTGAATTTTTGCATTTGCTACAGGAATGGGCAGCTCCAATTCATCGCGGTATAAGCCGTGGATTAGAAGAGTTAGAAATTGTCTATAAACCAAGTGTAGATGTATCAGAATCAATGGATTTGTCGAAAATAAAAGAAGTATACTATGAAAGTTTTCAATCTGTGAAACAACGTGAAATTTTCCGTGGTACGACTTTAATTGGTCCTCATCGTGATGATTTACAATTCTTCGTTAATAGTAAAAATGTTCAAGTCTTTGGTTCGCAAGGGCAACAACGAACGACCGCACTATCCCTAAAATTAGCTGAAATTGAATTAATTTATTCAGAGGTTAAAGAATATCCAATCCTTTTGCTGGATGATGTTTTATCAGAATTAGACGATTATCGTCAATCACATCTGTTAAATACAATTCAAGGAAAGGTGCAAACATTTGTTACAACGACGAGTGTCGACGGAATTGAACACGAAACATTAAAAGATGCGAAAACAATTCATGTAACGAACGGCACGGTAGATTGTGAAATAGATAGGGCATAA	MFISEIQLKNYRNYEKLELSFEDKVNVIIGENAQGKTNLMEAIYVLAMAKSHRTSNDRELIRWDEEFGQIKGKLQKRNSSLSLELNISKKGKKAKLNQLEQQKLSQYIGVMNVVMFAPEDLNLVKGSPQVRRRFLDMELGQIAPIYLYELSQYQKVLTQRNHLLKKMQGNSKNEETMLDVFTLQLIEHGAKILQKRFEFLHLLQEWAAPIHRGISRGLEELEIVYKPSVDVSESMDLSKIKEVYYESFQSVKQREIFRGTTLIGPHRDDLQFFVNSKNVQVFGSQGQQRTTALSLKLAEIELIYSEVKEYPILLLDDVLSELDDYRQSHLLNTIQGKVQTFVTTTSVDGIEHETLKDAKTIHVTNGTVDCEIDRA				NA	NA	NA	NA	NA
AK009_07321	213			hypothetical protein	ATGAAACATATTAAAATTTCAACAGAGTATATTACACTAGGACAATTTTTAAAGTTAGCTGATGTAATTGATACAGGTGGCGCTGTAAAATGGTTTTTACAAGAATATGAAGTGTACGTGAACAACGAACTTGAAAATAGAAGAGGTCGCAAACTATATGCGAATGATGTTATTGAAATTCCAGGAAGCGGAACTTTCCAAGTTCAGGCATAA	MKHIKISTEYITLGQFLKLADVIDTGGAVKWFLQEYEVYVNNELENRRGRKLYANDVIEIPGSGTFQVQA				NA	NA	NA	NA	NA
AK009_07322	1146	dnaN_2	COG0592	Beta sliding clamp	ATGCGTTTTACAATACAAAAAGACTATCTTGTAAGAGGTGTACAAGATGTAATGAAGGCAGTTTCTTCTCGTACAACAATCCCGATCCTTACGGGAATTAAAGTTGTAGCTACTGAAGAAGGGGTTACATTAACAGGAAGCGATGCTGATATTTCTATTGAATCGTTTATTCCAGTCGAAGAAGATGGAAAAGAAATCGTAGAAATAGCTCAATCAGGAAGCATTGTTTTACAAGCAAAATATTTTAGTGAGATTGTAAAAAAACTACCTAAGGATACTGTCGAAATTTCTGTGGAAAATCATTTTATGACAAAAATAAAATCTGGAAAATCAGAGTTTAACTTAAATGGTTTAGATTCTGCAGAATATCCGTTATTACCACAGATTGAAGAACATCATGTATTTAAGATACCAACAGATTTACTTAAACATATGATCAGACAAACTGTATTTGCAGTTTCTACTTCTGAAACAAGACCAATCTTGACAGGTGTAAACTGGAAGGTATATAACAGCGAGTTAACTTGTATTGCAACAGATAGTCATAGACTGGCACTTCGAAAAGCGAAAATCGAAGGACATAATATTGCAGATGAATTTCAAGCTAATGTTGTTATTCCAGGTAAGAGCTTAAACGAATTAAGTAAAATTCTGGATGAGTCTGAAGAAATGGTAGATATTGTAATAACTGAGTATCAAGTATTATTCCGTACAAAGCATTTATTATTCTTCTCAAGATTGTTAGAAGGAAATTATCCAGATACGACACGTTTAATTCCAGCAGAGAGTAAAACGGATATTTTTGTAAATACAAAAGAATTCCTACAAGCAATTGATCGTGCTTCACTATTAGCGAGAGATGGCCGCAATAACGTTGTCAAATTATCAACTTTAGAGCAAGAAATGCTAGAGATTTCCTCGAATTCACCAGAAATTGGAAAAGTTGTCGAAGAAGTACAATGTGAAAAAGTAGATGGAGAAGAGTTAAAAATATCTTTTAGTGCAAAATATATGATGGATGCATTGAAAGCTCTAGATAGTACAGAGATTAAAGTTAGCTTTACTGGGGCGATGAGACCGTTCTTAATTCGTACAGTAAATGATGATTCAATTATTCAATTAATTTTACCGGTTCGTACTTACTAG	MRFTIQKDYLVRGVQDVMKAVSSRTTIPILTGIKVVATEEGVTLTGSDADISIESFIPVEEDGKEIVEIAQSGSIVLQAKYFSEIVKKLPKDTVEISVENHFMTKIKSGKSEFNLNGLDSAEYPLLPQIEEHHVFKIPTDLLKHMIRQTVFAVSTSETRPILTGVNWKVYNSELTCIATDSHRLALRKAKIEGHNIADEFQANVVIPGKSLNELSKILDESEEMVDIVITEYQVLFRTKHLLFFSRLLEGNYPDTTRLIPAESKTDIFVNTKEFLQAIDRASLLARDGRNNVVKLSTLEQEMLEISSNSPEIGKVVEEVQCEKVDGEELKISFSAKYMMDALKALDSTEIKVSFTGAMRPFLIRTVNDDSIIQLILPVRTY				NA	NA	NA	NA	NA
AK009_07323	1341	dnaA	COG0593	Chromosomal replication initiator protein DnaA	TTGGAAAATATCTCTGATTTATGGAATAGTGCCTTAAAAGAATTAGAAAAAAAGGTAAGCAAGCCTAGTTATGAGACATGGTTAAAATCAACAACGGCTCATAACTTGAAGAAAGACGTATTAACGATTACAGCTCCAAATGAATTTGCTCGTGACTGGCTAGAATCTCATTACTCAGAACTAATTTCAGAAACACTATACGATTTAACAGGGGCAAAATTAGCAATTCGCTTTATTATTCCCCAAAGTCAAGCGGAAGAGGACATTGATCTTCCTCCAGTTAAGCGGAATCCAGCACAAGATGATTCAGCTCATTTACCACAGAGCATGTTAAATCCAAAATATACATTTGATACATTTGTTATCGGCTCTGGTAACCGTTTTGCCCATGCAGCTTCATTAGCTGTAGCCGAGGCGCCAGCTAAAGCGTATAATCCACTCTTTATTTACGGGGGAGTTGGGCTTGGAAAGACGCATTTAATGCACGCGATTGGCCATTATGTAATTGAACATAATCCAAATGCAAAAGTTGTATATTTATCATCAGAAAAATTCACGAATGAATTTATTAACTCTATTCGTGATAATAAAGCTGTTGATTTTCGTAATAAATATCGCAATGTAGATGTTTTATTGATAGATGATATTCAATTTCTTGCTGGAAAAGAACAAACTCAAGAAGAGTTTTTCCATACATTTAATGCATTACACGAAGAAAGTAAACAAATTGTAATTTCTAGTGATCGACCACCAAAAGAAATTCCAACTTTAGAAGATCGTCTTCGTTCTCGCTTTGAATGGGGACTTATTACAGATATTACGCCGCCAGATTTAGAGACACGAATTGCAATTTTACGCAAAAAAGCAAAAGCTGAAGGGCTTGATATACCAAATGAAGTTATGCTTTATATCGCAAATCAAATTGATTCAAATATTCGCGAATTAGAAGGTGCACTTATCCGAGTTGTAGCTTATTCATCTTTAATTAATAAAGATATTAATGCTGATTTAGCAGCTGAAGCACTTAAAGATATTATTCCAAATTCTAAGCCGAAAATTATCTCTATTTATGATATTCAAAAAGCTGTCGGAGACGTTTATCAAGTAAAATTAGAAGATTTTAAAGCGAAAAAACGTACAAAATCAGTTGCGTTTCCTCGCCAAATTGCAATGTATTTATCACGCGAACTTACGGATTCCTCTTTACCAAAAATAGGTGAAGAATTTGGTGGACGTGATCATACAACAGTTATCCATGCCCATGAAAAAATTTCTAAACTACTAAAAACCGATACGCAATTACAAAAGCAAGTTGAAGAAATTAATGGTATTTTAAAGTAG	MENISDLWNSALKELEKKVSKPSYETWLKSTTAHNLKKDVLTITAPNEFARDWLESHYSELISETLYDLTGAKLAIRFIIPQSQAEEDIDLPPVKRNPAQDDSAHLPQSMLNPKYTFDTFVIGSGNRFAHAASLAVAEAPAKAYNPLFIYGGVGLGKTHLMHAIGHYVIEHNPNAKVVYLSSEKFTNEFINSIRDNKAVDFRNKYRNVDVLLIDDIQFLAGKEQTQEEFFHTFNALHEESKQIVISSDRPPKEIPTLEDRLRSRFEWGLITDITPPDLETRIAILRKKAKAEGLDIPNEVMLYIANQIDSNIRELEGALIRVVAYSSLINKDINADLAAEALKDIIPNSKPKIISIYDIQKAVGDVYQVKLEDFKAKKRTKSVAFPRQIAMYLSRELTDSSLPKIGEEFGGRDHTTVIHAHEKISKLLKTDTQLQKQVEEINGILK	PGPT0014800_4133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
AK009_07324	135	rpmH		50S ribosomal protein L34	ATGAAAAGAACTTACCAACCAAATAAACGTAAGCGCAGCAAAGTACATGGTTTCCGCAGCCGTATGAGCACAGCGAACGGACGTAAAGTGCTAGCAGCTCGTCGTCGTAAAGGAAGAAAAGTATTATCTGCGTAG	MKRTYQPNKRKRSKVHGFRSRMSTANGRKVLAARRRKGRKVLSA				NA	NA	NA	NA	NA
AK009_07325	348	rnpA_1	COG0594	Ribonuclease P protein component	ATGAAGAAAAAACATCGTATAAAGAAGAATGATGAATTCCAGGCGGTTTTTCAAAAAGGAAAATCAAATGCGAATCGTCAGTTTGTTGTATACCAATTAGATAAAGAAGAACAGCCAAACTTTCGCATCGGCCTTTCTGTTAGCAAGAAAATAGGAAATGCAGTAGTTCGTAATCGAATTAAGCGCATGGTCCGTCAAGCTATTACAGAGTTAAAAGATGAGATAGATTCTGGAAAAGATTTTGTTATAATAGCAAGGAAGCCTTGTGCAGAGATGACATATGAAGAAGTAAAGAAAAGCTTAATTCATGTCTTTAAACGCTCTGGTATGAAAAGAATAAAAAAGTAG	MKKKHRIKKNDEFQAVFQKGKSNANRQFVVYQLDKEEQPNFRIGLSVSKKIGNAVVRNRIKRMVRQAITELKDEIDSGKDFVIIARKPCAEMTYEEVKKSLIHVFKRSGMKRIKK				NA	NA	NA	NA	NA
AK009_07326	768	misCA	COG0706	Membrane protein insertase MisCA	TTGAAAAAGAAATTAGGTTTACTAGCCATGGTCGTTGCATTAATGGCGATTGCCACCGGTTGTAGTGAAACGGGTCAGCCGATTACATCGAAAAGTACTGGGATTTGGAATGAATATTTCGTATATCCGCTTTCTCAGTTAATCACGTATTTTGCCGACTTATTTAACAGTAATTACGGTTTAGCAATTGTTATTACAACTCTTATCATTCGTTTTGCATTATTACCATTAATGATTAAACAAACAAAGAGTACAAAAGCAATGCAAGCGTTACAACCAGAAATGGTGAAGTTAAAAGAGAAATATAGTTCTAAAGATCAAGCAACACAGCAAAAACTACAACAAGAAATGATGCAGTTATATCAAAAGAATGGTGTAAATCCATTGGCAGGATGTTTACCGATATTTGTTCAGATGCCTATTTTATTCGCGTTTTATCATGCGATTATGAGAACAACAGCAATTAGTGAACATACATTTTTATGGTTTGATTTAGGACAGGCAGATCCGTTCTATATCTTACCGGTTGTTGCAGCAATTACGACATTTATTCAGCAAAAGCTTGCAATGGCAGGAACAGCTGGTCAAAATCCGCAAATGGCAATGATGCTTTGGCTTATGCCGATTATGATTTTAATCTTTGCAATTAACTTCCCAGCTGCATTATCACTTTACTGGGTTGTTGGTAATATCTTTGGTATTGCTCAAATGTACTTTATCAAAGGGCCAGAGATTAAGGCTAGCAAAGCTGGAGGCTCAAGCAAGTGA	MKKKLGLLAMVVALMAIATGCSETGQPITSKSTGIWNEYFVYPLSQLITYFADLFNSNYGLAIVITTLIIRFALLPLMIKQTKSTKAMQALQPEMVKLKEKYSSKDQATQQKLQQEMMQLYQKNGVNPLAGCLPIFVQMPILFAFYHAIMRTTAISEHTFLWFDLGQADPFYILPVVAAITTFIQQKLAMAGTAGQNPQMAMMLWLMPIMILIFAINFPAALSLYWVVGNIFGIAQMYFIKGPEIKASKAGGSSK	PGPT0024530_6230	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
AK009_07327	618			hypothetical protein	GTGAGTATAATTACTGCTAAAGGACAAACAGTCGAGCTGGCAGTAGAGGATGCTTTAAGGCAATTAAATACATCAAAAGATCGAGTAGATATAAATATTGTCGATGAGGGTAAAAGAGGATTCTTAGGTTTATTTGGGAATCGTCCTGCAGTAGTAGAAGTTGTATTGAAGAAAGATCCAATTCAGGAATGTGAAGAATATTTAAGAAATGTTATTCACAATATGGGTGTGGAAGTTGAAATTAGTAAAGTTGTAAAAGGACGCGAGATCGAATTTACAATTTCTGGTGATGATGTAGGAGTTTTAATTGGAAAAAGAGGTAATACACTAAACTCTTTACAGTATTTAACAAAACTTGTTGCGAATCGTAACACGAAGCAGTATATAGGTATTACACTAGATGCTGAAAATTATCGTAGTAAAAGAAAAAGTACGCTAGAATCACTTTCTTATCGATTAGCGAAACAAGTATCTAATACGAAAAAAAGAGTTATTTTAGAACCGATGCCATCTTTTGAACGAAAAATTATTCATCAGGCATTATCAAATCATCAAGGTATCAAAACAACTTCTGAAGGAAATGAACCACATCGGCATGTTGTAATATCTCCTAAATGA	MSIITAKGQTVELAVEDALRQLNTSKDRVDINIVDEGKRGFLGLFGNRPAVVEVVLKKDPIQECEEYLRNVIHNMGVEVEISKVVKGREIEFTISGDDVGVLIGKRGNTLNSLQYLTKLVANRNTKQYIGITLDAENYRSKRKSTLESLSYRLAKQVSNTKKRVILEPMPSFERKIIHQALSNHQGIKTTSEGNEPHRHVVISPK				NA	NA	NA	NA	NA
AK009_07328	1377	mnmE	COG0486	tRNA modification GTPase MnmE	ATGGAATTTGATACAATTGCTGCGATTTCCACAGCGCTTGGAGAGGGTGCAATTGCCATTGTTCGAGTAAGTGGGGATGATGCGGTTGAGAAAGTTGACCGTATTTTTAAAGGGAAGGATTTAACAGAGGTTCCTTCTCACACTATTCATTATGGTCATATCGTTGATTTAGATACAAATCAAGTTATTGAAGAAGTTATGGTGTCTATTATGCGCGCACCAAGGACTTTTACACGTGAAAATATAGTGGAAATTAACTGTCATGGCGGACTTGTTTCAGTAAATAAAGTATTGCAACTTATTCTAGCGCAAGGAGTACGATTGGCAGAACCGGGCGAATTTACAAAACGTGCTTTTTTAAATGGACGTATCGATTTATCACAAGCAGAAGCTGTTATGGATTTGATTCGAGCAAAAACAGATCGTGCGATGAATGTAGCAATTAATCAAATGGAAGGGCGATTATCTAAATTAATTGGTCGCCTACGTCAAGAAATATTAGAAACATTAGCTCATGTTGAGGTAAATATAGATTATCCAGAATACGATGATGTAGAAGAGATGACACATAATATTTTAATTGAGAAAGCGACGCATGTTCGTTCGGAAATCGAAAAAATATTAGAAACATCAAAACAAGGGAAAATTTTACGTGAAGGTATTGCTACAGCAATTATCGGTAGACCTAATGTTGGGAAATCATCGTTATTAAATAGTCTTGTTCAGGAGAAAAAAGCAATTGTAACTGATATTGCAGGAACAACTCGTGATGTTATTGAAGAGTACGTTAATGTGCGTGGTGTACCTCTTAAACTTATAGATACAGCCGGTATTCGTGAGACAGAAGATGTTGTTGAACGAATTGGTGTGGAGCGATCAAAAGAAATGATGAGCCAAGCAGATTTAGTATTAGTTGTTGTCAACTATAGCGAGGCTTTAACAAATGAGGATGAAGATCTATTCCATGCGGTACAAGGAAAAGACTTTATTGTTATTGTGAATAAGACTGATTTACCGCAAGCGATTGATATGGAACGTGTTACAGAGTTAGCTGCGGGAAATCGTGTTATTACAACATCCTTAATTGAGGAACAAGGAATAGATGAACTCGAAAAGGCAATAGCTGATTTATTCTTTGAAGGAACAATCGATTCTGCAGATATGACATATGTTTCTAATGCGAGACATATTGGATTATTAACACAAGCGGGACAAACAATCGGTGATGCAATTGAGGCAATAGAAAATGGTGTACCAATTGATATGGTGCAAATTGATTTAACAAGAACGTGGGAAATACTTGGTGAAATTACTGGTGACACAGTCCATGAAAGCCTAATTGACCAGTTGTTCTCTCAATTTTGTTTAGGAAAATAA	MEFDTIAAISTALGEGAIAIVRVSGDDAVEKVDRIFKGKDLTEVPSHTIHYGHIVDLDTNQVIEEVMVSIMRAPRTFTRENIVEINCHGGLVSVNKVLQLILAQGVRLAEPGEFTKRAFLNGRIDLSQAEAVMDLIRAKTDRAMNVAINQMEGRLSKLIGRLRQEILETLAHVEVNIDYPEYDDVEEMTHNILIEKATHVRSEIEKILETSKQGKILREGIATAIIGRPNVGKSSLLNSLVQEKKAIVTDIAGTTRDVIEEYVNVRGVPLKLIDTAGIRETEDVVERIGVERSKEMMSQADLVLVVVNYSEALTNEDEDLFHAVQGKDFIVIVNKTDLPQAIDMERVTELAAGNRVITTSLIEEQGIDELEKAIADLFFEGTIDSADMTYVSNARHIGLLTQAGQTIGDAIEAIENGVPIDMVQIDLTRTWEILGEITGDTVHESLIDQLFSQFCLGK				NA	NA	NA	NA	NA
AK009_07329	1890	mnmG		tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGGGATACAATGCCGGTTCATACGATGTCATAGTAATCGGTGCAGGTCATGCAGGATGTGAAGCTGGTCTTGCGGCAGCACGAATGGGCTCAAAAACATTAATGTTAACAATTAACTTAGATATGGTAGCTTTCATGCCATGTAACCCTTCTGTTGGTGGACCAGCAAAAGGGATTGTTGTTCGTGAAATTGATGCATTAGGCGGAGAAATGGGACGTAATATTGATAAAACTCATATTCAAATGCGTATGCTAAATACAGGTAAGGGGCCAGCTGTACGTGCACTTCGAGCGCAAGCTGATAAATTCTCTTACCAACATGAATTGAAGAAAACAATTGAAGAAACACCAAACTTAACGTTATTCCAAGGAATGGTAGAGCGTTTAATCGTTGAAGATGGTATGTGTAAAGGGGTAGTTACACAAGCTGGTGCAGAATATACAGCAAAAACCGTTGTAATTACGACTGGAACATTTTTACGTGGCGAGATTATCATGGGCGACTTAAAATATTCAAGCGGTCCAAATAATCAGCAACCGTCTATTACATTATCTGAGCATTTAGAGGAACTTGGGTTTGATCTTGTTAGATTTAAAACAGGGACACCTCCGCGTGTAAACAGTAATACAATTGACTACAGTAAAACAGAAATTCAACCGGGTGATGATAAGCCACGTTCGTTCTCTTTTGAAACAACGAAATTTATTATGGATCAAATTCCATGTTGGTTGACATATACAAGTACAGAAACACACCGTTTAATAGATGAAAATTTACATCGTTCAGCTATGTATTCTGGTATGATTAAAGGAACAGGCCCTAGATACTGTCCTTCTATTGAAGACAAAGTAGTAAGATTTAATGATAAACCACGTCATCAAATTTTCTTAGAGCCAGAAGGGCGTAATACACAAGAAGTATATGTGCAAGGTTTATCCACAAGCCTACCAGAAGATGTACAACGTGACATGCTTAGAACAATTCCAGGCCTAGAAAATGTTGAAATGATGCGCACAGGTTATGCAATTGAATATGATGCAATTGTGCCAACACAACTATGGCCAACACTTGAAACGAAAAAGATTAAAAATTTATATACAGCAGGACAAATTAATGGAACTTCTGGTTACGAAGAGGCGGCAGGACAAGGGCTTATGGCTGGGATTAATGCAGCATGCCGTTCTTTAGGTAAAAAAGAAGTTGTTTTAGGTCGTGAGGATGCTTATATTGGTGTCTTAATTGATGATCTTGTTACGAAAGGTACAAATGAACCATATCGTTTATTAACATCTCGTGCAGAATACCGTCTATTATTACGCCATGATAATGCTGATCTTCGTTTAACTGAAGTTGGTCGTGAAATTGGATTAATTAAAGAAGAGCGCTATGAGCGATTTACAAATAAAAAACTACAAATTGAACAGGAAAAGGAACGTTTAAGCAGCATTATTATTAAACCACGTCCTGAGGTTCAAGAATTAATTCGCAATATTGGCGGAAGTGAATTGAAAGATGGAATACGTGCGAGTGACTTATTACGTCGTCCAGAGATGACATATGAGCATATTCATCTTTTAGTACCAAGTGAAGTAGAATTAAGTGATGAAGTTACAGAACAAGTTGAAATTCAGATTAAGTACGAAGGATACATTGAAAAATCTTTACAGCAAGTAGAGCGTATGAAGAAAATGGAGAGTAAAAAAATACCTGTAGATATTGATTATGATGCGATTTCTAGCCTTGCCTCAGAAGCTAGACAGAAATTGAAAGATGTTCGTCCACTTTCAATGGGGCAGGCTTCACGTATTTCTGGCGTAAATCCAGCGGATATTTCCATTTTACTTGTTTATATAGAACAAGGAAAAATTGCGCGCGTATCGAACCAATAA	MGYNAGSYDVIVIGAGHAGCEAGLAAARMGSKTLMLTINLDMVAFMPCNPSVGGPAKGIVVREIDALGGEMGRNIDKTHIQMRMLNTGKGPAVRALRAQADKFSYQHELKKTIEETPNLTLFQGMVERLIVEDGMCKGVVTQAGAEYTAKTVVITTGTFLRGEIIMGDLKYSSGPNNQQPSITLSEHLEELGFDLVRFKTGTPPRVNSNTIDYSKTEIQPGDDKPRSFSFETTKFIMDQIPCWLTYTSTETHRLIDENLHRSAMYSGMIKGTGPRYCPSIEDKVVRFNDKPRHQIFLEPEGRNTQEVYVQGLSTSLPEDVQRDMLRTIPGLENVEMMRTGYAIEYDAIVPTQLWPTLETKKIKNLYTAGQINGTSGYEEAAGQGLMAGINAACRSLGKKEVVLGREDAYIGVLIDDLVTKGTNEPYRLLTSRAEYRLLLRHDNADLRLTEVGREIGLIKEERYERFTNKKLQIEQEKERLSSIIIKPRPEVQELIRNIGGSELKDGIRASDLLRRPEMTYEHIHLLVPSEVELSDEVTEQVEIQIKYEGYIEKSLQQVERMKKMESKKIPVDIDYDAISSLASEARQKLKDVRPLSMGQASRISGVNPADISILLVYIEQGKIARVSNQ				NA	NA	NA	NA	NA
AK009_07330	720	rsmG_1	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGAACATAGAACAATTTCAATCTATGCTAGAAGAGAAGGGGATCACCCTCTCTTCTAGACAGTTAGAGCAGTTCAAAATCTACTTTGAAACATTAGTAGAGTGGAATGAGAAAATGAACTTAACGGCTATTACAGAAAAAGAAGAAGTATACTTAAAACACTTTTTTGATTCTATTACAGCTGCTTTTTATTATGATTTTTCAAAACCGTTCTCAATTTGTGATGTTGGTGCAGGGGCTGGATTCCCAAGTATTCCTTTAAAAATCTGTTTCCCGCACTTAAAAGTAACAATTGTAGATTCATTGCAAAAACGTATTAATTTCTTAAATCACTTAGCACAAAAGTTAGAATTAAGTGATGTTGCATTTTGTCATGATCGTGCTGAAACATTTGGGAAAAAAGAAGGTGTACGTGAATCATACGATATTGTAATGGCACGTGCAGTTGCACGTCTTTCTGTATTAAGTGAGCTATGTTTACCACTTGTAAAAGTTGGAGGAACATTCATTGCAATGAAAGGTGCAGCAGCAAATGAAGAAATCGAAAATGGTAAGTATGCTTTAGAGGTGCTAGGCGGAGAGTTAAAAGAGATGTCTACGTTCCAATTACCGTTTGAAGAGAGTGAACGTAATATTTTATTAATCGAGAAAAAGCGCAAGACACCAAAGAAATATCCACGCAAACCGGGAACGCCCAATAAATTACCTATTGAAAAATAA	MNIEQFQSMLEEKGITLSSRQLEQFKIYFETLVEWNEKMNLTAITEKEEVYLKHFFDSITAAFYYDFSKPFSICDVGAGAGFPSIPLKICFPHLKVTIVDSLQKRINFLNHLAQKLELSDVAFCHDRAETFGKKEGVRESYDIVMARAVARLSVLSELCLPLVKVGGTFIAMKGAAANEEIENGKYALEVLGGELKEMSTFQLPFEESERNILLIEKKRKTPKKYPRKPGTPNKLPIEK				NA	NA	NA	NA	NA
AK009_07331	873	noc	COG1475	Nucleoid occlusion protein	ATGAAAAATACGTTTTCTCGTTTATTTGGCTTTGGAGATAAAGAGAGCGAATTCGAATTACAAGACGAAAGCCATGAAGAAATAGATAAAAAGGTATATGAAGAAATACAAGAAATTCCGATAGTAAATATTACCCCTAACCGTTATCAACCAAGAACAGTTTTTGATGATGCGCGTATTGATGAGCTAGCATTAACGATTCGTACACATGGACTTATTCAACCGATTGTTGTAAGGCAATATGAGGATGATAAGTACGAGATTATCGCTGGAGAAAGACGCTTTCGTGCGGCAACAAAGTTAGGTTGGGAAAAGGTTCCTGCAATTATAAAGAACTTAAATGATACAGAGACAGCTTCTGTAGCTTTAATTGAAAACTTGCAACGCGAGGAACTAACGGCAATCGAGGAAGCTGTGGCATATCAAAAGCTGATTGAGTTACATAATTTAACACAAGAAGCATTGGCACAACGACTTGGAAAAGGACAATCTACAATCGCAAATAAGTTGCGATTGTTAAAGTTGCCTGAAGAAATAAAAAGTGCATTATTAGAAAAAAGCATTACAGAACGTCACGCCCGCGCTCTCATTCCTTTAAAAAATGAGGAATTACAACTGAAGGTTTTACAGGAAATTGTGGAGAAACAACTGAATGTAAAGCAAACAGAAGAACGAATTGTGAAGTTACTAGAGGAAGCAAAACCGAAGCGTAAGGCAAAGCAAAAAGCAGTAAGTCGAGATACGAGGATTGCTATGAATACAATTAGACAATCTTTACAAATGGTTACTGAAAGTGGTTTGAATGTTAATTCTGAGGAAGAAGAATTTGATGAGTACTATCAAATTACAATTAAAATTCCAAAGAAAAAATAA	MKNTFSRLFGFGDKESEFELQDESHEEIDKKVYEEIQEIPIVNITPNRYQPRTVFDDARIDELALTIRTHGLIQPIVVRQYEDDKYEIIAGERRFRAATKLGWEKVPAIIKNLNDTETASVALIENLQREELTAIEEAVAYQKLIELHNLTQEALAQRLGKGQSTIANKLRLLKLPEEIKSALLEKSITERHARALIPLKNEELQLKVLQEIVEKQLNVKQTEERIVKLLEEAKPKRKAKQKAVSRDTRIAMNTIRQSLQMVTESGLNVNSEEEEFDEYYQITIKIPKKK	PGPT0014815_6709	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK009_07332	762	soj	COG1192	Sporulation initiation inhibitor protein Soj	ATGGGAAAAATCATTGCTATTGCTAATCAAAAAGGCGGTGTTGGAAAAACCACAACATCTGTTAATTTAGGGGCTGGATTGGCGCAAGTAGGTAAAAAAGTCCTTCTTGTAGATATTGATGCTCAAGGAAATGCAACGACTGGTGTGGGAATTGAAAAATCTGAATTAGATCAATGTATTTACAACGTTCTTGTGGAAGATGCAGATGTTCAAGGGGTTATACAGAAAACCGCAACGGAAAACTTAGATGTTCTACCCGCTACAATTCAATTGGCTGGTGCTGAAATTGAATTGGTACCGACTATTTCCCGGGAAGTACGTTTACAAAGAGCATTACAGCCAGTTCGTGATGAATATGATTATATTATTATCGACTGTCCCCCATCTTTAGGGTTATTAACAATTAATGCATTAACAGCAGCAGATTCTGTTATTATTCCTGTACAGTGTGAATATTACGCACTAGAAGGGTTAAGTCAGCTATTAAATACAGTTCGACTTGTACAAAAACATTTAAATAAAAATTTAGCAATTCAAGGTGTATTGTTAACGATGTTGGATGCCCGTACAAATTTAGGGATCCAAGTTATAGATGAAGTGAAAAAGTATTTTAGGGATAAAGTATATCGCTCGATTATTCCGCGTAATGTACGCTTGAGCGAGGCTCCAAGTCATGGGAAACCTATTATGCAGTATGACGCTAAATCAAGAGGAGCAGAAGTATATATAGATTTAGCAGAGGAAGTGATTGCAGGTGGCTAA	MGKIIAIANQKGGVGKTTTSVNLGAGLAQVGKKVLLVDIDAQGNATTGVGIEKSELDQCIYNVLVEDADVQGVIQKTATENLDVLPATIQLAGAEIELVPTISREVRLQRALQPVRDEYDYIIIDCPPSLGLLTINALTAADSVIIPVQCEYYALEGLSQLLNTVRLVQKHLNKNLAIQGVLLTMLDARTNLGIQVIDEVKKYFRDKVYRSIIPRNVRLSEAPSHGKPIMQYDAKSRGAEVYIDLAEEVIAGG				NA	NA	NA	NA	NA
AK009_07333	852	spo0J	COG1475	Stage 0 sporulation protein J	GTGGCTAAGGGATTAGGAAGAGGAATTAATGTGTTTTTTCCTGATTTAGATGTGAAAGAAGAGGAAACAATTCAGGAGATTCTTGTAACTGAATTAAGGCCAAATCCATATCAACCGCGTAAACACTTTAATAAAGAGGCTATTCAGGAATTAGCAATTTCGATTAAGGAACACGGTATTCTACAACCATTAATTGCTAGGAAGAGTATTAAAGGATATGAAATCGTTGCAGGTGAAAGACGATTTCGTGCTGCAAAAGAGGCTGGTTTAGAAAAGGTACCTGCGGTTGTAAGACCATTAACTGAACAGCAAATGATGGAATTTGCTTTGTTAGAAAACTTACAACGAGAAGATTTAAATCCTATGGAAGAGGCAATGGCATACCAGATGTTAATGAATGAGCTAAATGTAACGCAAGAACAATTAGCGAAACGTCTTGGCAAAAGCAGACCTTACATTGCAAATTATACTCGGTTATTAAGCCTCCCTTCGTTCGTCCAAGATATGATTGCAAATGGTCAACTTTCAATGGCTCATGGGAGAACTTTACTTACGATAAAAGATGAAGAACAATTGAAGTCCTTATTGAAACGCATTGAAAAAGAAGGATTAAATGTTCGTCAATTAGAGAAAATCGTCCAAGAGATTAATCAACACGTTTCACGTGAAACAAAAAAAGTGAAAAAAGAGCGAAATATATTTTTCGTAGAACGTGAAACGTTCTTAAGAGAAAAGTTTGGCACAGATGTGAAAATCAAAGAGACGAAAAAAGAAAAAGGTAAAATCGAAATTGAATTTTTTAATAAAGAAGATTTGAATCGTATTTTAGAACTATTATCACAAAAAAAATAA	MAKGLGRGINVFFPDLDVKEEETIQEILVTELRPNPYQPRKHFNKEAIQELAISIKEHGILQPLIARKSIKGYEIVAGERRFRAAKEAGLEKVPAVVRPLTEQQMMEFALLENLQREDLNPMEEAMAYQMLMNELNVTQEQLAKRLGKSRPYIANYTRLLSLPSFVQDMIANGQLSMAHGRTLLTIKDEEQLKSLLKRIEKEGLNVRQLEKIVQEINQHVSRETKKVKKERNIFFVERETFLREKFGTDVKIKETKKEKGKIEIEFFNKEDLNRILELLSQKK	PGPT0014815_7707	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK009_07334	597			hypothetical protein	ATGAATATTGGAAGTTTTCGCTTACCATTTTTTGAGAAAGAAACTCAAAACGTTATGCACCAGGATCTAGAAGCCTCTGAGATAATCAGTAATTTCTTACTTACCCACATTCCTATTAAAACTAATATACCACTCATTCTCGTTTGTATCGGAACAGATCGTTCTACAGGTGACGCACTCGGCCCGTTAGTTGGTACAAAACTTGAACAAATAGACATCAAAAACCTCCAAGTATTCGGTACACTAGATGAGCCAGTACATGCGCTAAATTTAGAAGAAAAAATTCAAAATATACAGAAAGAATATCCTGCTGCATTTATAATTGCTGTTGATGCATGTTTAGGAAAGTCTCAAAATATCGGGTCAATCACTACTGGAAAGGGCCCTAGTAAGCCTGGAGCTGCTATGAATAAGAAATTACCTGCAGTTGGTGATCTGCATATACACGGTATCGTCAATCTAAATGGGTTTATGGAGTTTTTCGTTCTTCAAAATACAAGATTAAGTTTAGTTATGAAAATGGCCGATGTAATCGCACAAAGTATAAAAGAGACGGATCAAAAATTATCCGCACTAAAAAAAGCAAACCATCTATAA	MNIGSFRLPFFEKETQNVMHQDLEASEIISNFLLTHIPIKTNIPLILVCIGTDRSTGDALGPLVGTKLEQIDIKNLQVFGTLDEPVHALNLEEKIQNIQKEYPAAFIIAVDACLGKSQNIGSITTGKGPSKPGAAMNKKLPAVGDLHIHGIVNLNGFMEFFVLQNTRLSLVMKMADVIAQSIKETDQKLSALKKANHL				NA	NA	NA	NA	NA
AK009_07335	882	mscS	COG0668	Small-conductance mechanosensitive channel	ATGGATTTATTAACGAAGTGGTTTAATTCTACGAAACAGTATTTATTAGATGCTGATCGTTGGGCTCATATTGGAGTTGCGACATTAAAAATATGTATTATTTTAATAATCGGTGCAGTTGTTGTGCGAATTGCAAGAGCGGTTGTACGAAATGCGTTTCGTATGGGGAGTCGTTCTCCAATTCAAATTTCAGAACGTCGTACAGTTACAGTAGCGAAATTACTTGAAAATATTGTAGCGTACGTTGTTATGTTTATTATGCTGATTGCGATTTTAGGTGTGTTTGATATTAATGCATCAGGTTTATTAGCGGGTGCCGGGGTAATTGGTTTAGCAGTCGGATTTGGTGCTCAAAGTTTAGTGAAGGACGTTATTACAGGTTTATTTATTTTGCTAGAAGATCAGTTTTCAGTTGGCGATTATGTTAAAATCGGTCAATTTGAAGGAGTCGTTTTAGAAATTGGACTTCGTACAACGAAAGTAAAGAGTTGGACAGGTGAAATTCATACTTTACCAAACGGAAGTATTATTCAAGTTACTAACTACTCAGTTAGTAATAGTGTAGCATTTGTTGATGTATCTATTTCATATGAGGCTGATATTGCGAAAGCAGAGCAGGTTATTGAAGATTTATTAGTAGAGTTACCTTCAAAGTACGAAAAAATGGTAACAACACCTCAATTATTAGGTGTGCAAACGTTAGCTGCATCAGAAGTTATATTACGCGTTATTGCTGAAGTAGAGCCGATGCAACATGCAGTTATTGCAAGGGCACTTCGTAAAGAGATTAAAAATCGTCTTGATTTACATGGAATTGAAATTCCATATCCACGTATGGTTTTATATAATCGTGAAGAATTGGTTAGTGGAAAAGCAATTTAG	MDLLTKWFNSTKQYLLDADRWAHIGVATLKICIILIIGAVVVRIARAVVRNAFRMGSRSPIQISERRTVTVAKLLENIVAYVVMFIMLIAILGVFDINASGLLAGAGVIGLAVGFGAQSLVKDVITGLFILLEDQFSVGDYVKIGQFEGVVLEIGLRTTKVKSWTGEIHTLPNGSIIQVTNYSVSNSVAFVDVSISYEADIAKAEQVIEDLLVELPSKYEKMVTTPQLLGVQTLAASEVILRVIAEVEPMQHAVIARALRKEIKNRLDLHGIEIPYPRMVLYNREELVSGKAI	PGPT0013695_2259	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
AK009_07336	198			hypothetical protein	GTGGAGCAAAAGGAATATAACTTGTACGATGTTGTGGAAATGAAGAAAGCACATCCATGTGGCGAGAATCGTTGGAAAATTATTCGTATGGGAATGGATATCCGCATTAAGTGCGAGGGATGTGACCATTCAGTAATGATTACTCGAAGAGAGTTTGATCGTAAGGTGAAAAAAATACTTGTGAAGCACGAAGAATAG	MEQKEYNLYDVVEMKKAHPCGENRWKIIRMGMDIRIKCEGCDHSVMITRREFDRKVKKILVKHEE				NA	NA	NA	NA	NA
AK009_07337	1101	ychF	COG0012	Ribosome-binding ATPase YchF	ATGGGATTAACGGCTGGGATTGTTGGATTACCTAACGTAGGGAAGTCCACTTTATTTAATGCAATTACACAAGCAGGAGCAGAATCTGCGAACTATCCATTCTGTACAATTGATCCAAACGTAGGGATTGTAGAAGTACCAGATGAGCGTTTAAATAAATTAACGGAATTAGTAGAACCGAAAAAGACTGTTCCGACTGTATTTGAGTTTACTGATATTGCAGGTATCGTAAAAGGTGCTAGTAAAGGTGAAGGTTTAGGAAATAAATTCTTATCTCACATTCGTCAAGTAGATGCAATTTGCCAAGTTGTTCGTTGTTTTGAAGACGAAAATATTACGCACGTTTCAGGGAAAGTAGATCCAATTGATGATATCGAAACAATCAACTTAGAGCTAATTTTAGCGGACTTAGAGTCTGTTGATAAGCGTATCGAGCGTGTTGCGAAATTAGCAAGACAAAAAGATAAAGAAGCTGTATATGAGCATGAAATTTTAGTTCGTTTAAAAGAGGCTTTTGAAGAGGGGAAACCGGCTCGTACTGTTGAATTTACAGAAGAGCAGATGAAGATTGTTAAAGGCCTTCATTTACTTACAACAAAAGAAATGTTATACGTAGCGAACGTAAGTGAAGACGATATTATCGATCCTTCGGAAAATAAATACGTACAAATGGTAAAAGAATTTGCAGAAAATGAAAATTCTCAAGTAATCGTTGTATGTGCAAAAATCGAATCAGAAATCGCTGAATTAGACGAGGAAGAGAAAAAAGTATTCCTTGAAGAACTAGGTATTGAAGAGTCTGGTTTAGATCAATTAATTCGTGCAGCATATGACCTATTAGGACTTGCTACTTACTTTACAGCTGGCGTTCAAGAAGTACGTGCTTGGACATTTAAACAAGGTATGAAGGCACCACAATGTGCTGGTGTTATTCATACAGACTTTGAGCGTGGATTTATTCGTGCAGAAACAGTTTCTTACGATGACTTAATGACAAACGGTTCTATGACAGCTGCAAAAGAAGCTGGAAAAGTACGTTTAGAAGGAAAAGAGTATATCGTAAAAGATGGAGATGTTATGCACTTCCGTTTTAACGTTTAA	MGLTAGIVGLPNVGKSTLFNAITQAGAESANYPFCTIDPNVGIVEVPDERLNKLTELVEPKKTVPTVFEFTDIAGIVKGASKGEGLGNKFLSHIRQVDAICQVVRCFEDENITHVSGKVDPIDDIETINLELILADLESVDKRIERVAKLARQKDKEAVYEHEILVRLKEAFEEGKPARTVEFTEEQMKIVKGLHLLTTKEMLYVANVSEDDIIDPSENKYVQMVKEFAENENSQVIVVCAKIESEIAELDEEEKKVFLEELGIEESGLDQLIRAAYDLLGLATYFTAGVQEVRAWTFKQGMKAPQCAGVIHTDFERGFIRAETVSYDDLMTNGSMTAAKEAGKVRLEGKEYIVKDGDVMHFRFNV				NA	NA	NA	NA	NA
AK009_07338	291	rpsF_1	COG0360	30S ribosomal protein S6	ATGAGAAAGTACGAAATTATGTACATCATTCGTCCTGGCGTTGAAGAAGAAGCTCAAAAAGCTTTAGTTGAACGTTTTGCAGGTGTTTTAACAAACAATGGTGCAGAAATCATTAACACGAAAGAGTGGGGTAAGCGTCGTTTAGCTTACGAAATCAACGACTTACGTGAAGGTTTCTACATGATCTTAAACGTGAACTCTAACGCAGAAGCGATTAACGAATTCGACCGTTTAGCTAAGATCAACGAAGATATCCTTCGTCATATCGTTGTTAAAGAAGAAGAAAAATAA	MRKYEIMYIIRPGVEEEAQKALVERFAGVLTNNGAEIINTKEWGKRRLAYEINDLREGFYMILNVNSNAEAINEFDRLAKINEDILRHIVVKEEEK				NA	NA	NA	NA	NA
AK009_07339	519	ssbA_3	COG0629	Single-stranded DNA-binding protein A	ATGAATCGTGTTATCCTCGTTGGTCGTTTAACTAAGGACCCTGACTTACGTTACACGCCCAATGGTGTTGCAGTAGCTACTTTTACGTTAGCTGTGAATCGCGCATTTGCGAATCAACAAGGTGAGCGTGAAGCTGACTTTATTAATTGTGTAATATGGCGTAAACAAGCAGAAAACGTAGCAAATTATTTGAAAAAAGGAAGCTTAGCAGGCGTAGATGGACGTCTTCAAACTCGTAATTACGATGGACAAGACGGTAAACGTGTGTATGTAACAGAAGTTCTTGCGGAAAGCGTACAATTTTTAGAGCCGCGTAATGGCGGTGGGGAGCAACGTGGTTCATTCAATCAGCAACCATCAGGAGCTGGTTTCGGTAACCAAAGCTCTAACCCATTTGGTCAATCTAGTAATTCAGGTAACCAAGGTAATCAAGGGAACTCTGGATTTACGAAGAATGACGATCCATTTTCAAATGTAGGTCAACCGATCGACATTTCCGACGACGATTTACCGTTCTAA	MNRVILVGRLTKDPDLRYTPNGVAVATFTLAVNRAFANQQGEREADFINCVIWRKQAENVANYLKKGSLAGVDGRLQTRNYDGQDGKRVYVTEVLAESVQFLEPRNGGGEQRGSFNQQPSGAGFGNQSSNPFGQSSNSGNQGNQGNSGFTKNDDPFSNVGQPIDISDDDLPF				NA	NA	NA	NA	NA
AK009_07340	234	rpsR		30S ribosomal protein S18	ATGGCAGGACGCAAAGGTGGACGTGCGAAACGTCGTAAGGTGTGTTTCTTCACAGCTAACGGCATCACTCGCATTGACTATAAAGATGTTGATTTATTAAAACGTTTCGTTTCTGAGCGTGGTAAAATTTTACCTCGTCGTGTAACAGGGACAAGCGCAAAATACCAACGCAAACTTACAGTTGCAATTAAACGTGCTCGTCAAATGGCACTTTTACCATATGTTGGTGAATAA	MAGRKGGRAKRRKVCFFTANGITRIDYKDVDLLKRFVSERGKILPRRVTGTSAKYQRKLTVAIKRARQMALLPYVGE				NA	NA	NA	NA	NA
AK009_07341	936			hypothetical protein	GTGAAACAAACAAAGTTTATTACAGAAGGTGCAGCGTTATTAGCTATATATGCAATTTTATTGCTTATATCTATGTATGTTCCGATTTTGGGTACTGTTGTAACTTTTGCTTTGCCGTTACCATTTATACTATTAACGATAAGACATAAACTATCTAATGTGCTCATGATTTTTGTAGCATCACTTTTTGTTACTATTATTGTGAGTCAACCTATGAATTTAGTGAAGACAATTATGTTTGGATTGATAGGGATTGTTTTAGGATATATGTATAAAACAAGAAAAAAGTCAGTAGAAATCTTAATAGCGGGGACGCTTGCATACTTAATTGGTTTTGTACTTATTTATGTTGCGAGTATAAAGTTTTTCAACATAGATATAATGAAGCAAATGCAAAGTATGTTTAGTGAAAGTATGGTGCAAAGTGAAAAGATAGTAAGTGCTACAGGTATGCCGATTAGTAAGGAACAAAAAGAGTTACTTACACAAATGAATGATATATTACAATCGTTATTTCCAAGTATACTTGTTCTAGTTTCAGTATGTTTTTCTTGGATTACAGTGATAATATCAGGTAGTGTTTTGAAAAAGTTAAAACATGACATTATACCTTGGCCTAAATTTAAAGATATACAATTACCAAAGAGTATTGTTTGGTATTACGTTATATTTATTTTGTTAGTAACTTTTATAAAAGTAGAACCAACATCATATTTACATATGGTATTTTCTAACCTAAATGTCATATTTACACTATTGCTTGTACTGCAAGGTCTGACATTTATCGCCTTTTTAGCGTATAGAAAAGGTTTTACTAAAGGGATTCCTATTATTAGTTTTATTGCATGCATGTTTATTCCGATGCTGTTTCCTCTTGTGACAATCTTAGGTATAATTGACTTAGGGATTTCATTGCGTTCTAAAATAGGGGGATAA	MKQTKFITEGAALLAIYAILLLISMYVPILGTVVTFALPLPFILLTIRHKLSNVLMIFVASLFVTIIVSQPMNLVKTIMFGLIGIVLGYMYKTRKKSVEILIAGTLAYLIGFVLIYVASIKFFNIDIMKQMQSMFSESMVQSEKIVSATGMPISKEQKELLTQMNDILQSLFPSILVLVSVCFSWITVIISGSVLKKLKHDIIPWPKFKDIQLPKSIVWYYVIFILLVTFIKVEPTSYLHMVFSNLNVIFTLLLVLQGLTFIAFLAYRKGFTKGIPIISFIACMFIPMLFPLVTILGIIDLGISLRSKIGG				NA	NA	NA	NA	NA
AK009_07342	1974	gdpP	COG3887	Cyclic-di-AMP phosphodiesterase GdpP	ATGCCTGAATTTGATAAGAAACAGTGGTTTTTATATCCTGTTTATGTATTGGCATTTTTTGTGTTTGTGCTCATTTCAATTCTCTGTTATTTTCATTTAATTATGGGAATAGCTGCTTTTGTCATTTTTTGTATCGTATTTTTTATCGTTATACGATTTGAACTTAATTTTCAAAGGAATTTCGAAAAGCATACGACAGATATGATTACAAGAGTAAAGAAAGTAAGTAATGAAGCATTTAACCAAATGCCGATTGGTATTTTGTTATACAATAAGGATTATGGGATTGATTGGGCAAATCCTTATTTATCTTCATGTCTGGGACAGCATGCATTAGCTGGATGGCACCTTTACGATGTATCAGAAACATTACTTCTTTTCATTAAAGGAGAAACTTCTGATGATATAGTCTCTTTAAATAATCGAAAGTTTCGCGTTTTTGTAAGGAAAGAAGAAAAGTTAATTTATTTCTTTGATGTAACGGAACAAACAGAAATCGAAAAGATGTATGAGGATCAACGTACTGTTTTAGCTGTAATTTATTTGGATAATTATGATGAAGTTACACAAGGATTAGATGATCAATTACGTACAAATATAACAAGTCTTGTGACATCGCGACTAAATGAATGGGCACTTAAGTATGGTGCGTATTTAAAACGTGCATCTTCAGAAAGATTCTTCGTTGTGCTAAATGAAAGTATTCTGACGCAAATGGAGAAAGGGAAATTTAGTATTTTAGATCAGGTGCGTGAAGAAACATCTAAAAGGAATATACCACTTACATTAAGTGTAGGTGTCGGATCAGGTGATTTACCTTTGTCAGAGCTTGGGTCAATGGCTCAATCTGGTTTAGACCTTGCGCTTGGACGCGGGGGAGATCAAGTAGCTATTAAACAAGCGACAGGTAAAGTTAAGTTCTATGGAGGCAAGACAAATCCGGTTGAAAAGCGTACCCGTGTACGTGCTAGGGTCATTTCGCATGCGTTAAAGGATTTAGTATTAGAAAGTAGTAATGTCATTATCATGGGGCATAGGGCTCCTGATATGGACGCAATTGGTGCTGCGATTGGTATTTTAAAAGTGGCTCAATTAAACGAGCGTAAAGGATATATTGTATTAGATGAAAATGATTCTGATAAGGGAATTAAACGCTTGATGGACAAAGTGAAACAAAATGAGGAATTATGGTCTCACTTTATTACTCCAGAGCAAGCGATGGAATTTGCGAATGATGAGTCATTACTTGTTGTTGTTGATACACATAAACCTTCTATGGTGATGGAACAAAAATTGTTACATAAAATTGAAAATGTAGTAGTTATCGATCATCATCGCCGTGGAGAAGATTTTATTGAAGATCCATTGCTAGTTTATATGGAACCATATGCTTCTTCAACGGCAGAACTGGTTACAGAATTACTTGAGTATCAACCGAAAAATTTAAAGATGACAATGTTAGAAGCAACGGCATTGTTAGCGGGGATTATTGTCGACACGAAAAGTTTCACATTCCGGACGGGGGCTCGTACGTTTGATGCTGCTTCCTATTTACGCTCACATGGTGCAGATACTGTACTTGTACAAGAACTTTTAAAGGAAGATATGGATCAGTATTTACGGGTTGCAAAAGCTATAAAAAATGCGTACATTTATAAAAATGGAATTGCGATTGCTAAAGTTGATAGTGATGATTACTACGATCAAGTGCTTATTGCGCAATCAGCTGACACGTTATTAACAATGACAGGAATTATTGCATCATTTGTTGTTGCGAAACGTGGCGAGAATCTCATTGGAATTAGCAGCAGGTCTTTAGGTGAAGTGAATGTGCAGCTAATTATGGAAAACTTAGGTGGTGGCGGGCATTTGACGAATGCAGCCACACAAATGAAAAATGTTACAGTAGATGAAGCCGAGGAGAAGCTTCGATTTGTTATTGATGACTATTTACAGGGAGGCACACAATCATGA	MPEFDKKQWFLYPVYVLAFFVFVLISILCYFHLIMGIAAFVIFCIVFFIVIRFELNFQRNFEKHTTDMITRVKKVSNEAFNQMPIGILLYNKDYGIDWANPYLSSCLGQHALAGWHLYDVSETLLLFIKGETSDDIVSLNNRKFRVFVRKEEKLIYFFDVTEQTEIEKMYEDQRTVLAVIYLDNYDEVTQGLDDQLRTNITSLVTSRLNEWALKYGAYLKRASSERFFVVLNESILTQMEKGKFSILDQVREETSKRNIPLTLSVGVGSGDLPLSELGSMAQSGLDLALGRGGDQVAIKQATGKVKFYGGKTNPVEKRTRVRARVISHALKDLVLESSNVIIMGHRAPDMDAIGAAIGILKVAQLNERKGYIVLDENDSDKGIKRLMDKVKQNEELWSHFITPEQAMEFANDESLLVVVDTHKPSMVMEQKLLHKIENVVVIDHHRRGEDFIEDPLLVYMEPYASSTAELVTELLEYQPKNLKMTMLEATALLAGIIVDTKSFTFRTGARTFDAASYLRSHGADTVLVQELLKEDMDQYLRVAKAIKNAYIYKNGIAIAKVDSDDYYDQVLIAQSADTLLTMTGIIASFVVAKRGENLIGISSRSLGEVNVQLIMENLGGGGHLTNAATQMKNVTVDEAEEKLRFVIDDYLQGGTQS				NA	NA	NA	NA	NA
AK009_07343	447	rplI		50S ribosomal protein L9	ATGAAAGTAATTTTTCTAAAAGACGTAAAAGGTAAAGGTAAAAAAGGAGAAGTAAAAAACGTACCAGATGGCTATGCAAATAACTTCTTACTAAAACAGGGATTGGCTGCTGAAGCAACAAATAGCAGTATGAAAACTTTAGAAGCTCAAAAGCGTAAAGAAGAAAAAGATGCAGCAGCAGAAGTTGAGAATGCAAAAGAGCTGAAAGAAACATTAGAGAAATTAACTGTAGAAGTAAAAGCGAAATCTGGAGAAGGTGGCCGTTTATTCGGTTCTATTACGAGCAAACAAATCGTAGATGCGATGCAAAAATCACATAAAATTAAACTTGATAAACGTAAATTTGAAATGGATGATGCAATCCGTGCATTAGGCTACACAAATGTAACAGTGAAATTGCATCCGCAAGTAACAGCGACAGTAAAAGTTCATGTTAGTGAACAATAA	MKVIFLKDVKGKGKKGEVKNVPDGYANNFLLKQGLAAEATNSSMKTLEAQKRKEEKDAAAEVENAKELKETLEKLTVEVKAKSGEGGRLFGSITSKQIVDAMQKSHKIKLDKRKFEMDDAIRALGYTNVTVKLHPQVTATVKVHVSEQ				NA	NA	NA	NA	NA
AK009_07344	1350	dnaC_2	COG0305	Replicative DNA helicase	ATGAGTAATGTACTTGCTGATCGTACCCCTCCGCATAATATAGAAGCCGAGCAGGCGGTTTTAGGGGCCATATTAATTGATCAAGATGCGTTAACATCAGCATCAGAGTTATTGGTACCTGACTCATTCTATCGAACGAAACATCAAAAGATTTTTGAGGTAATGCTTGGGTTATCTGACAAAGGAGAACCGATCGATTTAGTAATAATGACATCAGCGATGGCTGATCAAGGATTACTAGAAGAAGTTGGTGGAGTGTCTTATCTAGCAGAGTTAGCAGAAGTTGTTCCAACAGCTGCTAACGTTGAATATTATGCACGTATCATCGCTGAAAAGGCACTTTTACGTCGTTTAATTCGAACAGCGACTCATATTGTGTCGGATGGATACGAGAGAGAAGATGACGTAGACGGCCTTTTAAATGAGGCCGAGAAAAAAATATTAGAAGTATCCCATCAAACGAATGCAAAAGCATTTCAAAATATTAAAGATGTTCTTGTAGATGCTTATGATAAAATTGAACTTTTGCATAATCAAAAAGGTGAAGTTACTGGGATACCAACTGGATTTACTGAATTAGATAAGATGACGGCAGGTTTCCAGCGAAATGATTTAATCATCGTAGCAGCACGTCCGTCAGTAGGGAAAACTGCATTTTCATTAAATATTGCACAAAACGTAGCGACGAAAACGGATGAAAATGTAGCGATTTTTAGTTTGGAGATGGGCTCCGATCAGCTTGTTATGCGTATGCTTTGTGCAGAAGGAAATATCGATGCGCAAAGACTTCGTACCGGGTCATTAACTTCTGATGATTGGGCGAAATTAACAATGGCGATGGGTAGTCTTTCAAATGCCGGTATATATATTGATGATACACCAGGAATTAAGGTAAATGAGATTCGAGCGAAATGTCGTAGACTAAAGCAAGAACAAGGTCTTGGTATGGTTTTAATTGACTACTTACAGCTTATTCAAGGAAGTGGGAAATCAGGTGAGAACCGTCAGCAGGAGGTATCTGAGATTTCTCGTACTTTAAAAGGGATTGCGCGTGAATTGCAAGTGCCTGTTATTGCCTTATCACAGTTATCTCGTGGTGTAGAATCTCGTCAGGATAAACGCCCGATGATGTCTGATATTCGTGAATCTGGTAGTATTGAGCAGGATGCTGATATTGTAGCTTTCCTATATCGTGAAGATTACTATGACCGTGAAACGGCAAATAAAAATACGATTGAAATTATCATTGCAAAACAACGTAATGGTCCGGTAGGTTCAGTAGAGCTTGCGTTTGTTAAAGAATTTAATAAATTCGTTAATTTAGAACGACGCTTTGAGGATGGGGCATAA	MSNVLADRTPPHNIEAEQAVLGAILIDQDALTSASELLVPDSFYRTKHQKIFEVMLGLSDKGEPIDLVIMTSAMADQGLLEEVGGVSYLAELAEVVPTAANVEYYARIIAEKALLRRLIRTATHIVSDGYEREDDVDGLLNEAEKKILEVSHQTNAKAFQNIKDVLVDAYDKIELLHNQKGEVTGIPTGFTELDKMTAGFQRNDLIIVAARPSVGKTAFSLNIAQNVATKTDENVAIFSLEMGSDQLVMRMLCAEGNIDAQRLRTGSLTSDDWAKLTMAMGSLSNAGIYIDDTPGIKVNEIRAKCRRLKQEQGLGMVLIDYLQLIQGSGKSGENRQQEVSEISRTLKGIARELQVPVIALSQLSRGVESRQDKRPMMSDIRESGSIEQDADIVAFLYREDYYDRETANKNTIEIIIAKQRNGPVGSVELAFVKEFNKFVNLERRFEDGA				NA	NA	NA	NA	NA
AK009_07345	1290	purA_1	COG0104	Adenylosuccinate synthetase	ATGTCTTCAGTAGTAGTTGTAGGAACACAATGGGGCGACGAAGGAAAAGGTAAAATCACTGATTTTCTTTCTGAGCATGCGGAAGTAGTTGCAAGATATCAAGGTGGAAATAACGCGGGACATACAATTGTTTTCGGCGGAGTTAAATATAAGTTACACTTAATTCCATCTGGTATTTTCTATAAAGAGAAAATTTGTGTAATCGGAAATGGCTTAGTAGTAGATCCGAAAGCATTACTTGAAGAGTTAAAATACTTACACGACCGTGGTGTAAGTACTGATAATTTACGTGTAAGTAACCGTGCACACGTTATTTTACCTTATCACTTAAAACAAGATGAGTTAGAAGAGGCTAGTAAAGGTGATAACAAAATCGGTACAACGAAAAAAGGTATCGGTCCTGCATATATGGATAAAGCTGCTCGTATTGGTATCCGTATGGCTGATCTTTTAGACCGTGAAGCATTTAAAGAGAAGCTTGAGCGCAATTTAGTAGAGAAAAATCGTTTGTTTGAAAAAATGTACGATACAGAAGGTTTCAGCGTAGAGGAAATCTTTGAAGAGTACTTCGAATATGGACAACAAATCGCACAATATGTATGCGACACATCTGTTGTATTAAATGATGCACTAGATAACAATCACCGTGTATTATTTGAAGGTGCACAAGGTGTTATGCTTGATATTGACCACGGTACGTACCCGTTCGTTACATCTTCTAACCCGATTGCGGGTGGTGTAACAGTTGGAACTGGAGTTGGCCCTGCGAAAGTTACTCGCGTTGTAGGTGTATGTAAAGCATATACAAGCCGTGTTGGTGACGGTCCATTCCCTACTGAACTTAATGATGAAATTGGTCATCAAATTCGTGAAGTTGGTCGTGAGTACGGAACAACAACTGGTCGTCCGCGCCGCGTAGGTTGGTTCGATAGCGTTGTTGTAAGACATGCGCGTCGTGTTAGTGGTTTAACGGATCTATCATTAAATTCTATCGACGTTCTAACAGATATTCCAACTCTTAAAATTTGTGTTGCTTACAAATACAATGGCGAAGTTATCGATGAAGTTCCAGCAAACTTAAACATTTTAGCGAAATGTGAGCCTGTATATGAAGAGCTTCCAGGTTGGACAGAAGATATTACTGGTGTAAAATCATTAGACGAGCTTCCTGAAAATGCAAGAAAATACGTAGAACGTGTTTCTGAGTTAACAGGAATTCAATTATCTATGTTCTCAGTTGGACCAGATCGTAACCAAACGAATATTGTTCGTAATGTATACGAAGCTTAA	MSSVVVVGTQWGDEGKGKITDFLSEHAEVVARYQGGNNAGHTIVFGGVKYKLHLIPSGIFYKEKICVIGNGLVVDPKALLEELKYLHDRGVSTDNLRVSNRAHVILPYHLKQDELEEASKGDNKIGTTKKGIGPAYMDKAARIGIRMADLLDREAFKEKLERNLVEKNRLFEKMYDTEGFSVEEIFEEYFEYGQQIAQYVCDTSVVLNDALDNNHRVLFEGAQGVMLDIDHGTYPFVTSSNPIAGGVTVGTGVGPAKVTRVVGVCKAYTSRVGDGPFPTELNDEIGHQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGLTDLSLNSIDVLTDIPTLKICVAYKYNGEVIDEVPANLNILAKCEPVYEELPGWTEDITGVKSLDELPENARKYVERVSELTGIQLSMFSVGPDRNQTNIVRNVYEA	PGPT0020140_3282	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
AK009_07350	708	walR_6	COG0745	Transcriptional regulatory protein WalR	ATGATGGGAAAGAAAATTTTAGTAGTTGATGATGAAAAGCCGATTGCAGATATTTTGAAGTTTAATCTAGAAAAAGAAGGTTTTGAAATAGTAATGGCGCATGATGGTGATGAAGCAATTGAAAAAGCTAATGAAGAACAACCAGATATGGTTTTATTAGATATTATGCTACCGGGTAAAGATGGATTAGAGGTTTGCCGTGAAATACGTAAAAGTTCAGAAATGCCGATTATTATGCTTACAGCAAAGGACTCTGAGATTGATAAAGTATTAGGGCTTGAGCTTGGGGCAGATGATTATGTAACGAAGCCATTTAGTACGAGGGAATTACTTGCTCGTGTGAAGGCGAATTTACGCCGTCATCAACAAGGTGGTTCTGCAGAAAAAGAAGAAAATACAGAAATGGTTATTGGACCAATTGTTATTAATCCAAATGCATATAGTGTAACGAAGCGCGAGGAAAATATCGAGCTTACACATCGTGAATTTGAGTTGCTACATTATTTAGCGAAACATTTAGGACAAGTTATGACACGCGAACATTTATTACAAACAGTTTGGGGTTATGACTATTTTGGAGATGTGCGCACAGTAGACGTAACAGTACGTCGTTTGCGTGAAAAAATTGAAGATAATCCAAGCCATCCTACTTTAATTGTAACTAGACGTGGAGTAGGGTATTACTTGCGTGACCCAGAGCAGGAATAG	MMGKKILVVDDEKPIADILKFNLEKEGFEIVMAHDGDEAIEKANEEQPDMVLLDIMLPGKDGLEVCREIRKSSEMPIIMLTAKDSEIDKVLGLELGADDYVTKPFSTRELLARVKANLRRHQQGGSAEKEENTEMVIGPIVINPNAYSVTKREENIELTHREFELLHYLAKHLGQVMTREHLLQTVWGYDYFGDVRTVDVTVRRLREKIEDNPSHPTLIVTRRGVGYYLRDPEQE	PGPT0013765_431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK009_07351	1842	walK_1		Sensor histidine kinase WalK	ATGAAGAAAGTTGGTTTTTTTCAATCTATTCATTTAAAATTTGTGCTTATATATATGCTATTAATATTAATAGCGATGCAAGTTATTGGGGTTTATTTCGTAAGGGAATTAGAGAAGAGCCTAGTACAAGGTTTTAGGGATTCTTTAACGCAGCAAACAAACTTATTATCATATAACTTGAAACAAGAGTTTAAAAAAAGTTATACAAAAGCAGAAACAGAGTCAACAGATGAAACCATTAAAACTTCTATTCGAAAATTTGCCTCTGATCAAAAGAAAGTTATACAAGAGGTAAGTGTATTTGATTCGCATAGAAAGTTATTGGCTATTTCAGATGAATCAAAGCAGAATAAGGTGAATAGAACATCAACTGATATAGCTGTTCAGCGAGTGTTAGTACAAAAAAAGCCAGAAGTGAAAATTGAGAAGGATGGTAGTACAGGCCATCGTGTTCAAGTTATGCTTACTCCGATTCTAGATGATAATGGCAAGGATGCGCTTGGTGTTATATACATCGTTGCATCTATGGAAGATGTATATAAACAAATGAAGGATATAAATCAAATTTTTGCTACGGGAACAGTAATTGCCTTATTAGTAACGGCCGTACTTGGGATTTTATTGGCTCAAACAATTACAAGACCAATTTCAGATATGCGGAGACAAGCAATCGAAATGGCAAAAGGAAATTATTCGAGAAAAGTAAAAGTGCATAGCCATGATGAAATTGGACAACTGGCATTATCCTTCAATAATTTATCAAAAAAATTACAACAAGCTCGTTCTTCTACAGAAAGTGAAAGGCGTAAATTATCATCCGTTTTATCACATATGACAGATGGAGTAATTGCTACTGACCGAAAAGGGGATATTATTTTACTAAATGACCCTGCGGAAAAGATGTTAAATGTTTCTCGTGAAACAGCGCTCGATCAATCTGTTTTAGAGGTATTAGGGATACAGGAAGAATTTACGCTCGATCATTTATATGAAGAGCCAGATTCTGTGTTATTAGATTTTAGTACGAGAAACGAACCATATATTTTACGTGCTAGTTTCTCTGTTATTCAAAAAGAAACAGGGAAGGCCAATGGCTTAATTGCTGTACTATATGATGTAACAGAGCAGGAGCGTATAGAAGGGGAACGCCGTGAGTTTGTGGCGAATGTCTCTCATGAATTAAGGACGCCATTAACGACGATGCGCAGTTATTTAGAGGCACTTACAGATGGAGCGTGGCAGGATCCGAATATTGCACCACAATTTTTAACGGTTACACAAGAAGAAACAGAAAGAATGATTAGACTTGTAAATGCGTTGTTACAGCTATCTAAACTTGATAGTACAGAGCACCGTTTAATGAAAGAATGGGTCGACTTTACTGATTTCTTTAATAATGTTATTGATCGCTTTGAAATGTCTAAAGAGCAAAATGTAAGTTTCAAACGATCTTTCTCTAAAAAATCTAGGTTTATTGATATGGATACTGACAAAATTACTCAAGTGCTGTATAACATTATTTCTAACGCATTAAAGTATTCACCAGAAGGTGGAACAGTAACATATCGCTTACGTGATCGCGGTGATTTATTAGAAATTAGCGTAAGTGACCAAGGAATGGGTATTCCAAAAGAAAACGTTGATAAAATCTTTGAACGTTTTTATCGCGTAGATAAAGCTCGTTCAAGACAAATGGGTGGTACGGGACTTGGATTAGCAATTGCAAAAGAAATGATTGAGGCACATGGTGGCTCTATTTGGGCGAAGAGTGAAGAAGGAAAAGGGACAACTATTTATTTCACGTTACCAATGGCAGCAGATGAAGAGGACGATTGGGAATGA	MKKVGFFQSIHLKFVLIYMLLILIAMQVIGVYFVRELEKSLVQGFRDSLTQQTNLLSYNLKQEFKKSYTKAETESTDETIKTSIRKFASDQKKVIQEVSVFDSHRKLLAISDESKQNKVNRTSTDIAVQRVLVQKKPEVKIEKDGSTGHRVQVMLTPILDDNGKDALGVIYIVASMEDVYKQMKDINQIFATGTVIALLVTAVLGILLAQTITRPISDMRRQAIEMAKGNYSRKVKVHSHDEIGQLALSFNNLSKKLQQARSSTESERRKLSSVLSHMTDGVIATDRKGDIILLNDPAEKMLNVSRETALDQSVLEVLGIQEEFTLDHLYEEPDSVLLDFSTRNEPYILRASFSVIQKETGKANGLIAVLYDVTEQERIEGERREFVANVSHELRTPLTTMRSYLEALTDGAWQDPNIAPQFLTVTQEETERMIRLVNALLQLSKLDSTEHRLMKEWVDFTDFFNNVIDRFEMSKEQNVSFKRSFSKKSRFIDMDTDKITQVLYNIISNALKYSPEGGTVTYRLRDRGDLLEISVSDQGMGIPKENVDKIFERFYRVDKARSRQMGGTGLGLAIAKEMIEAHGGSIWAKSEEGKGTTIYFTLPMAADEEDDWE	PGPT0013760_306	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013760-vicK|walK|yycG|micB-K07652	NA	NA
AK009_07352	1317	yycH	COG4863	Two-component system WalR/WalK regulatory protein YycH	ATGAGTATGGAAAACTTTAAAACAATAGTTTTAATTAACCTAGTCGTAATTAGCCTATTTCTTACTTTTAACCTATGGACGTATGTGCCAGATTCTACATCCATGCAAAACGCGAAATTTGTACAGGGCAATGAAGGAACGAATCAAACTAAAATTGCCGATGTTGTCCGTCCTACTTCTATCATCGTGCATAAAGATAAAAATCATTATGGGAGCAGAAGAGAGGCAGATATAGAATCAATCTATAAGCCTCTGGAAGTAGGGGAACTACATGAGTTTAGAGAGATATCAATCACTAAGGGTGATTTCCTGTCCTATGTGCATGGTGAAGGGAAAATTGAACTTGTTTTCCCTACCGATATCCCATTTGATGCAGTTAAATCCATGTTTAACATGAAAGAGAAAGGTACAGATAAGCCTAAACATTTTAATCGTATTCTTATTGATCCTTCTAGAAGTAAGGATCAAGAAATTAAAATTAACTTTGTTTCTGATGGTGATAACTTTAAAATATATGAGGCAAAATTAAGTGGCGTGTATTTAAAAGATATTGTAAATGCCCAAAATCAATTTATATTATCAGCAAAGCCTTATTTTGATTATCAAATCAATGATATGAAAAAGTTATTTTTACCAGATGGAACGACAGAGTTAAACAATATAACATATATCTCATCTAATTTAGCAGTGGATACGTTTAAGAATGCTCTGTTTAGTGATCCTCGTTATTTAAGTCCAATTACTGAGATATCGAAAGAAACATTTACAGATGGTATTAGATCTATGGAAATTGAAGACGATCTTCACATGCTAAAGTATAAAAACTCTTCTGTCTTAACTGAGAAAACGATAGATAATTTAATGCTGTTACAAAAAAGCTTTGAATTTGTAAGTGGTCACAGTGGAAGTTTGGATTCATATCGTTTGGACTATATGAATAAAGGAGAGACAGTGTTTCGCTTACATGAAGATGGATATTCCGTATTCAATACAGATGGATTAGCTGAATTGAGACAAAAATGGGGATCAGAAGAAGTAATGGAATATGAAAGACCGTTGCTGTCTTTAAATACTAAAGGCATAGAACAGAAGGTTACTCTTCCGTCAGGGCATGTTGTAATAGCATCTCTAGAAAATAATCCAGAGATAAAGAAACAAGTAATTAAGGATATTGGTATTGGATACAAGTTATCACTAGATGGACAAGTAGTTCGACTACAACCAATTTGGTATGTAAAGCTTGTTGAAGGTGAAACAGGTAAACAGAAAATCTATGAGTGGAGTGAGGGGGGACTAAATGGATTGGGATCGGATTAA	MSMENFKTIVLINLVVISLFLTFNLWTYVPDSTSMQNAKFVQGNEGTNQTKIADVVRPTSIIVHKDKNHYGSRREADIESIYKPLEVGELHEFREISITKGDFLSYVHGEGKIELVFPTDIPFDAVKSMFNMKEKGTDKPKHFNRILIDPSRSKDQEIKINFVSDGDNFKIYEAKLSGVYLKDIVNAQNQFILSAKPYFDYQINDMKKLFLPDGTTELNNITYISSNLAVDTFKNALFSDPRYLSPITEISKETFTDGIRSMEIEDDLHMLKYKNSSVLTEKTIDNLMLLQKSFEFVSGHSGSLDSYRLDYMNKGETVFRLHEDGYSVFNTDGLAELRQKWGSEEVMEYERPLLSLNTKGIEQKVTLPSGHVVIASLENNPEIKKQVIKDIGIGYKLSLDGQVVRLQPIWYVKLVEGETGKQKIYEWSEGGLNGLGSD				NA	NA	NA	NA	NA
AK009_07353	843	yycI	COG4853	Two-component system WalR/WalK regulatory protein YycI	ATGGATTGGGATCGGATTAAAACCATATTTATTGTGACCTTTTTTGTTTTGGACCTCTTTCTCATTTTTCAATTCATTCAAAAGCAAGATAGTAATCAATTGGAGCTTATTGCAGAAACAAAGATAGATCAAGAATTAAAGGCAAACAAAATTACTATAGGGAATATCCCTAAGGAACCGAAAAAAGAGTCGTTTATTAGAGCGGAAAATAAAGCCTTTAAAGAAGATGATATACAGTCTTTGAAAAATCAAACGGCGCATATACAAAATATGTACAAGATAGAAAGTAAGCTAAAAGAGCCTTTTTTAAATACGAAATCATTATCAAAAGATAAGTATAATGAATTTTTGAAGAACTATGTATTGGATGGACAAAAGTATGAATTTGGAGCGGTGAAAGACTCTAAAATTTATTTCTTCCAAAAATATAAAGATAAGCCTATTTTCTATAATAATCAGGCGATGATTGTTGTGGAATTAAATGAAAAAAATGAACTTGTTTCATATACGCAGACAATGCTAACTGATTTAAAAGAAATGGGCGAAGGTGAAAAAACGAAAGAGCAAGAAATTATTACGGCTCAAACAGCTTTAGAAAATTTGTATTTAAAAAATAAAATTCATGGAAATACGCATGTTAAAGAAGCACAAATTGGCTATGCCACTCTTACCGCATCTACTTCTAATAACCAAGTACTTGCTCCAACGTGGAATTTAAAAACGGAGCAGAAACAGGACTTCTTTGTGAATGCAATTGAAGGACAAGTTATGGAATTAGGGGAAAAGGAAAATCAAGTGGTTGATGAACATACTGGAGTGAGAAAGAATGGGGTTGCATTTTAG	MDWDRIKTIFIVTFFVLDLFLIFQFIQKQDSNQLELIAETKIDQELKANKITIGNIPKEPKKESFIRAENKAFKEDDIQSLKNQTAHIQNMYKIESKLKEPFLNTKSLSKDKYNEFLKNYVLDGQKYEFGAVKDSKIYFFQKYKDKPIFYNNQAMIVVELNEKNELVSYTQTMLTDLKEMGEGEKTKEQEIITAQTALENLYLKNKIHGNTHVKEAQIGYATLTASTSNNQVLAPTWNLKTEQKQDFFVNAIEGQVMELGEKENQVVDEHTGVRKNGVAF				NA	NA	NA	NA	NA
AK009_07354	795	yycJ	COG1235	Putative metallo-hydrolase YycJ	ATGGGGTTGCATTTTAGCGTACTTGCAAGTGGAAGTACAGGAAATATGCTATACGTAGGAACCGATGAAAAAAAATTACTAGTCGATGCAGGTTTAAGTGGTAAAGCGACAGAGGCTTTATTTAAACAAGCAGAACTGAATATAAATGATGTATCAGGTATTCTTGTAACACATGAGCATAGTGATCATATTAAAGGGTTAGGTGTATTGGCGCGTAAATATGATTTACCCGTTTATGCGAATGAGAAAACATGGAATGCAATGGAACATTTAATAGGAAATATCCCAACTGAGCAAAAATTCATTTTCTCAGTTGGGGATGTGAAAACATTTGGTGATATTGAAGTCGAATCATTTGGAGTTTCTCATGATGCGGCAGAACCGATGTTTTATGCTTTCCATAACAATAATAGGAAATTAGCACTTATTACAGATACGGGATACGTAAGTGACCGTATGAAGGGCGTTATTAAGGGAGCTAATGCTTTCGTATTTGAAAGTAATCATGATGTGGAAATGCTTCGTATGGGACGTTACCCATGGAGCATTAAACGACGTATTTTAAGCGACGTTGGGCATGTTTGTAATGAAGATGCTGCATTAGCAATGGCAGATGTAATTACAGATGAGACAAAGCATATTTATTTAGCCCATTTAAGCTTAGATAATAACATGAAAGAACTAGCTCGTATGTCAGTATCACAAGTACTAGAGGAAAAAGGATTTGGAGTGGGTGAATCCTTTGAAATTCACGATACAGATCCAAAAATGCCTACAAAAATTCAATACGTATAA	MGLHFSVLASGSTGNMLYVGTDEKKLLVDAGLSGKATEALFKQAELNINDVSGILVTHEHSDHIKGLGVLARKYDLPVYANEKTWNAMEHLIGNIPTEQKFIFSVGDVKTFGDIEVESFGVSHDAAEPMFYAFHNNNRKLALITDTGYVSDRMKGVIKGANAFVFESNHDVEMLRMGRYPWSIKRRILSDVGHVCNEDAALAMADVITDETKHIYLAHLSLDNNMKELARMSVSQVLEEKGFGVGESFEIHDTDPKMPTKIQYV				NA	NA	NA	NA	NA
AK009_07355	1176	htrA_1	COG0265	Serine protease Do-like HtrA	ATGTCCTTTATTGATGAAGAAAATTATCGTATGAAACGTGCAGGGAAAAAGAAGCATAAAGGTATAGTTCTTTCTAGTATAGCGGGAACAATTGTAGGAGCTTCTTTATTTGCGTTTGGAGCTCCTTTATTTTCAAATTCTGCTGATACGCTTCCGCAAGCTGAAGCAAGCGGAAGTAATATGGCCGAAGCTCAAGGAATTAAACAGATTAGCTTTGTAGATGCTGTTGACCGTGCATCTGAAGCTGTTGTGGGCGTTATTAACATTCAACGAGATAACTTTTCAGAGGCAGATTCAGAGGCTGGTACAGGATCAGGAGTAATTTATAAAAAGACAAATGGTCAAGCTTATATTGTAACGAATAATCATGTTGTAGCTGGAGCGAATCGTATTGAAGTAAGTTTAAGTGACGGTAAGAAGGTTCCTGGAAAAGTATTAGGAACCGATGTAGTCACAGATTTAGCTGTATTAGAAATAGATGCAAAGCATGTGAAAAAAATAATTGAAATCGGCGATTCTAATACTGTTCGCAGAGGAGAGCCAGTCATTGCGATTGGAAATCCACTCGGACTGCAATTCTCTGGAACTGTTACACAAGGTATTATTTCAGCTAATGAACGTATTGTCCCTGTAGATTTAGATCAAGATGGACACTATGATTGGCAAGTAGAAGTGTTACAAACGGATGCGGCGATTAATCCGGGGAATAGTGGCGGTGCGCTTGTAAATGCAGCAGGACAATTAATTGGTATTAATTCAATGAAAATTGCTGCAAAAGAAGTAGAAGGAATCGGACTTGCTATTCCGGTGACTAGGGCTGTTCCGATTATGAATGAACTTGAGAAGTATGGAAAAGTAAGAAGGCCGTATGTTGGGATTGAACTTAGGTCATTAAATGAAATTCCAAACTATTATTGGTCAAAAACATTACATTTACCAGGTACTGTAACAGAAGGAGTTTGTATTTTGGATGTGAAAAGTCCTTCGCCAGGCGCAGATGCTGGTTTAAGAGAACATGATGTTATTGTGGCAGTAGATGGAAAACCGATTCGCGATATTATTGGATTCCGCACGGCCTTATATGATAAGGAAATTAATGATAAAATGACTCTTACGTTTTATCGTGGTACAAAAAGAGTAACAACAACAGTGAAATTAGGCATTCAAAAGTATTAA	MSFIDEENYRMKRAGKKKHKGIVLSSIAGTIVGASLFAFGAPLFSNSADTLPQAEASGSNMAEAQGIKQISFVDAVDRASEAVVGVINIQRDNFSEADSEAGTGSGVIYKKTNGQAYIVTNNHVVAGANRIEVSLSDGKKVPGKVLGTDVVTDLAVLEIDAKHVKKIIEIGDSNTVRRGEPVIAIGNPLGLQFSGTVTQGIISANERIVPVDLDQDGHYDWQVEVLQTDAAINPGNSGGALVNAAGQLIGINSMKIAAKEVEGIGLAIPVTRAVPIMNELEKYGKVRRPYVGIELRSLNEIPNYYWSKTLHLPGTVTEGVCILDVKSPSPGADAGLREHDVIVAVDGKPIRDIIGFRTALYDKEINDKMTLTFYRGTKRVTTTVKLGIQKY	PGPT0015105_5668	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
AK009_07356	186			hypothetical protein	ATGAATTTACCTTGTTGTTTAGAACATGTTGAATTAGCGTTAGATATTATTGTGGATGAGTGTGAAGTTGCGCCGGTTATCAACAATGTGGATAACTCAGAAAAAGAGAAAAAAACATGTGAATTTTGTCAAAATGAGGCGACATATGTTGTATCGAACACAGATTCTCACACAATATGTGGGTAG	MNLPCCLEHVELALDIIVDECEVAPVINNVDNSEKEKKTCEFCQNEATYVVSNTDSHTICG				NA	NA	NA	NA	NA
AK009_07357	480	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	GTGAATATCTCGATTATTTCAATTGGGAAATTAAAAGAAAAATATTTGAAACAAGGTATAGCAGAATACTTAAAACGATTATCAGCATACGCAAAAGTAGAAGTAATTGAATTGCCCGATGAAAAGGCGCCAGAAAATTTAAGTGAAGCAGAAATGTTAATTGTAAAGGAAAAAGAAGGTATACGTATACTGGATAAAATTTCTGATGACACGCATGTGATTGCATTAGCTATAGAAGGAAAGCAAAAGTCATCAGAAGAATTTGCGGTAAGTCTAGATCGCCTTGCTACATACGGAAAGAGTAAAGTCGCATTTGTAATTGGTGGATCACTCGGACTAAGTTCAGAAGTGATGAAGCGTTCAAACGAATCACTTTCTTTTTCAAAGATGACATTACCACACCAATTAATGCGATTAGTATTGCTTGAACAAGTGTATAGAGCGTTTCGGATTAATCGTGGGGAACCGTATCACAAGTGA	MNISIISIGKLKEKYLKQGIAEYLKRLSAYAKVEVIELPDEKAPENLSEAEMLIVKEKEGIRILDKISDDTHVIALAIEGKQKSSEEFAVSLDRLATYGKSKVAFVIGGSLGLSSEVMKRSNESLSFSKMTLPHQLMRLVLLEQVYRAFRINRGEPYHK				NA	NA	NA	NA	NA
AK009_07358	987	tmk_2		Thymidylate kinase	ATGAGTTCATTATTAAATATTATTGAAAAGTTTCAGTATAGGGAAGATTTCTTTTTAAATACTGAGGATTTACCTGAGAAATTAATAAATAAATTATTAAAATGGTATGATGGAAATCCTTATAATAAGTCAGATAAAAGAATAAAAGATGCATTTCATATTCTTTCATGGTGCTATGATAAATCAGATATAGATTATTTACCTCGAGATATGAGAGCGAAGCGATTTGAAGCAGCAGCACAGGCTTTAAACATATCTCATGAAAAATTAGTAAAACTTTTTAATTCTCATACAAAAGTTTTGTTCCCTAGTCCAAAAGAAACAAAGATAATTGCAGTTGAAGGTATTGATGGTAGTGGAAAAACAGTTCAAATGTCTTTGCTAGAGAAACAGCTTAAGGAAAAGGATAAAAATGTAATAATTAAATCCTTCCCTGTGTACGATAGCTTTTTTGGGAAAAATATTGGACAATTTTTATCTGGAAACGAAGAGGTTAATGCAAACAATGTAGATCCTAAATCAATGTCTTTATGGTATGCTTTGGATAGATGGAAAGAATTTGAAAACTCTAATTATATTAATTGTGATTATTTATTATTGAATCGATTTACACTTTCAAGTGCTGTATACCAAAGCTCTAGGGTAAAACCAGAATTAAGAGAAGAATTTATACAATGGATATTTGAGTTAGAGCATTCCCAATTAGGATTACCTGCCCCAGATTTATACATAGTTTTCGATCTTAATACAGAAACTTCTAAAAAAAATGTATCAAATAAAGGGTTTCGGGATTATGTAGGAGAAAAAGCGGATGTATATGAAGAATCTGCTGATATAATGAGTAATGCAAGGGGAATTTATCAAGATTTAGCGAAAAAATATAATAACATTGTTATTATTAATTGTTTGGACGAAAACAACAAGATGAAAACACCAGAAGAAATCAATCAAATTGTGATGAAGGTGATAGAAGATGGGGAGTATTAA	MSSLLNIIEKFQYREDFFLNTEDLPEKLINKLLKWYDGNPYNKSDKRIKDAFHILSWCYDKSDIDYLPRDMRAKRFEAAAQALNISHEKLVKLFNSHTKVLFPSPKETKIIAVEGIDGSGKTVQMSLLEKQLKEKDKNVIIKSFPVYDSFFGKNIGQFLSGNEEVNANNVDPKSMSLWYALDRWKEFENSNYINCDYLLLNRFTLSSAVYQSSRVKPELREEFIQWIFELEHSQLGLPAPDLYIVFDLNTETSKKNVSNKGFRDYVGEKADVYEESADIMSNARGIYQDLAKKYNNIVIINCLDENNKMKTPEEINQIVMKVIEDGEY	PGPT0021395_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK009_07359	906	moaA_4		GTP 3',8-cyclase	ATGGGGAGTATTAAGTACGATTCAGATTTAAACGAGTTTTATAGTTCAAGTAGTGATGAAGTATCAATTTTACCACAAATTATATGGCATATTACGGACAGGTGTTTTTTATCCTGTCCTTATTGTTTTGCAACAAAAACTGGTAGAGAGACGGAACTGGATAAGATTGATGATTCTATGGAAGTATTTAAGAAACTTGGGGTTCAAAAAATAGATATTGCAGGCGGTGACCCGCTAACTTATTCACATTTAGATGTAATTTGTAATGCACTTTCTAAATTAGGTATCCAAATGACACTGACAACAAGTGGTGTAGGGAAAAAAGATGTTAAAGAGTGGTTAATTAATAATGCAGAGATATTTAGTTGGATATTAATATCTATAGATGCCCCAACTGCCGAACAACATGATGCTTTAAGAAGAAAGGTAGGAACATTCGAGCAATTAAATAATTTAATAGGGGATTTAAAGAAAAAGCAATATGAAAATATAAGAATAAACACTGTGATAACTAAATTATTTCTTGATGAAGAGATTGTAGAGCAGTTTATAGAGTTAATAGAGTTAATCCAACCAAAAGAGTGGTGTCTAATCCAGCCACATCCAGCAAATAAAAAAGAAAAATATGATGAATATGCAACAAGTGATAAGGAATATGAGGGGGTAGTACGGAATATTCAAGAGAAAATTATGGAAAGGTCTTCTTATAATACGAATATTACGTTAAGATATAATCACAACTATTCTAAATATTGGGTCTTATATCCTAATGGAAAGTTAAAACAGCACACTGAAAATAGTGAAGATCGATTTGGTTTTGAATTTATTCCTAAAAATATCAATAAGATTAAGGAATATGTAGAAGAATATGGTGTATGGCTACCAATGAAGAAAGAAGGAATATAA	MGSIKYDSDLNEFYSSSSDEVSILPQIIWHITDRCFLSCPYCFATKTGRETELDKIDDSMEVFKKLGVQKIDIAGGDPLTYSHLDVICNALSKLGIQMTLTTSGVGKKDVKEWLINNAEIFSWILISIDAPTAEQHDALRRKVGTFEQLNNLIGDLKKKQYENIRINTVITKLFLDEEIVEQFIELIELIQPKEWCLIQPHPANKKEKYDEYATSDKEYEGVVRNIQEKIMERSSYNTNITLRYNHNYSKYWVLYPNGKLKQHTENSEDRFGFEFIPKNINKIKEYVEEYGVWLPMKKEGI				NA	NA	NA	NA	NA
AK009_07360	306			hypothetical protein	ATGACAAACGTTGAAAAAGTATTAATTGAAAATGTCCAAGAAAATGAATTTGTATCAGATTTACTAAAAGGATTAGAACAGGCCTTACGTAGCGAGACGAGTTCAATTGAAGTGCAAAAAAAAATTCAAGAAAATGCAAAAGGTGAAATAATAACGGCCATTGTTGTAGGTTTAGCAACTAACTTAATTTATGATTATCTAAAGTCAATCCTTAAAATGGATAAACAGCGTGAAGATTATAATGTTAATATTACAATTAAAATTGAAGGTAAAGAATACTCACTTGAGGAAATTGAAAAAAAATAG	MTNVEKVLIENVQENEFVSDLLKGLEQALRSETSSIEVQKKIQENAKGEIITAIVVGLATNLIYDYLKSILKMDKQREDYNVNITIKIEGKEYSLEEIEKK				NA	NA	NA	NA	NA
AK009_07361	1818			hypothetical protein	ATGAACTATTTAATATCAGTTGGGATTAAAAAGTGTAGAGAAGAGTCAATTGGGGAAATTCCTTGTGCCTATGATGATGCTAATTTAATATATGAAACTCTAAAAAATATTTTAGATACAGATTTCTCAGACAGCCAGAGTATTTGTTTAACAGGACCAAACCTTAAAGAGTTTTCGTCTGTAGTAAAAATGCTAAAAAGAAATTTAGATGAATCAGACAATTTAATCATCTATTTTAGTGGACACGGTGATTTATTAGATAGAGATGAATTGGTCTTATTATTTAGTGATGCTGATGATGGGGAAGAAGGAAGATATAATTTATTACAATTAAAGCAAGACTTACGTCAAGCGAAATTTCAAACTATTTTAATACTCGATTGTTGTTATTCAGGTGCGGGTCTAAGCATTGCTAATAGTACAAATATATTTAGCAATGACAAAATTTCTGTATTGGCTTCAAGTAGTCCATTTAATAGAGCTACGTTTGATGCAGAAGGAAGTATATTCACTAGATCTTTGTGTAATATTCTTAATGGTCTAAATGAATCAGGTAGATTGATTTCGTTGCGTATTTTGGCAGAAGAAATACGAAAAACTGGAAATAAGTGCTATGTAAATATTTCAAATGGTTCACCTGATAATATATTAGTTAATCCCACTATGCTTATTGAGGATAATGAGGATTTTAAAAAAAGGTTTTTAATGAGAATTAAAGAAGTGGATACTACTACTAGGGAAATGCACTGGTATTATTTAATGGACTTACCTGAGATAACAAAATTTGAGGTGTTAAATAGTTACTTTGCAGAAGAGATAAGTGAACCTCATTGGCTAGTGAGGAGGGCAATTGGTTCCGTAATTAGTGAATTCAAGAATTTCAAAATGAAAGAATCTATTATTTTGAATTTATTACGTTCAAGGGACTGGATGGCCCAATGTATTGGTCTTATAGGTGCACGTAGAAGTCTCGATCACGAATCAATTAGGGATGAAGTAAAAAGTATTCTTTTAAGTGATACTCAAATTGATGCAATATGGCTTGCTAATCTATACTTATCAGATTATGGGGATTTGGATATAGATAGTGTTTTATCTTCCTCGCTTTCAAATACACCGTGGGGTGTGCTTGATATATGGATAAGATACTCAGGAAAGATAGATAGGCATAGTCTTTTAGAAAAGATTAAAGAAACAGTAGATAAATCACTGCTTACACCATTATTTATTCATATGTACTTTGAAAGTGGGCATATAGAAGATGAAGAGCTATTAGGGCCAATTAGAAATAGTAAACTAATACCTTTCCTGTATGAACTTAAGAAAAGGGGCGAGACAAAATCTGCAAAACAGAAATGGTTATTCTCTTCCTTATATGGTAACTGGAGAGATCAATTAGATTTAAAATTACGTAATTTTTTCTATTATGCTCGTGATGGAGAAGTACATACTGAGTTAGAATTAGCTTCAAATTTACCGTTAGTAGAGATGAGAATGGCAATATTCCAATATGTAACAATATACCCAGATTCAAAATATTATGACTGCTTAAAATGGGGTATAAGTGATCCACATCCTTGGGTTAAAAGAACTGCTATACGTGCTTTGCAGGAGCAGCCAACCTTGTTAAGGGAGGCTTTTCAGGAAGGAATTAATGGTCAATTATATCCTGGTAAATTCGACTTTATTTTAGAAGCTATATCAATTGGTATTGATTGCAATGATTATACGGCTCAGCATACTCTAAGTAGAAATGAGGAAGAGAGTATAAAATGGGCTACTCAGAACATTATGAAGGAAAGAAGAATATCAATTTAA	MNYLISVGIKKCREESIGEIPCAYDDANLIYETLKNILDTDFSDSQSICLTGPNLKEFSSVVKMLKRNLDESDNLIIYFSGHGDLLDRDELVLLFSDADDGEEGRYNLLQLKQDLRQAKFQTILILDCCYSGAGLSIANSTNIFSNDKISVLASSSPFNRATFDAEGSIFTRSLCNILNGLNESGRLISLRILAEEIRKTGNKCYVNISNGSPDNILVNPTMLIEDNEDFKKRFLMRIKEVDTTTREMHWYYLMDLPEITKFEVLNSYFAEEISEPHWLVRRAIGSVISEFKNFKMKESIILNLLRSRDWMAQCIGLIGARRSLDHESIRDEVKSILLSDTQIDAIWLANLYLSDYGDLDIDSVLSSSLSNTPWGVLDIWIRYSGKIDRHSLLEKIKETVDKSLLTPLFIHMYFESGHIEDEELLGPIRNSKLIPFLYELKKRGETKSAKQKWLFSSLYGNWRDQLDLKLRNFFYYARDGEVHTELELASNLPLVEMRMAIFQYVTIYPDSKYYDCLKWGISDPHPWVKRTAIRALQEQPTLLREAFQEGINGQLYPGKFDFILEAISIGIDCNDYTAQHTLSRNEEESIKWATQNIMKERRISI				NA	NA	NA	NA	NA
AK009_07362	183			hypothetical protein	ATGAGATCGAACCAGCTCGTTGGGTTAAAGCTTATATTTTTTAATATGCATTTAAGTCATGATGATTTTAAAAAAATACTTAGAATACTTTATAAGATTATTATAGCCTATGAAGGATTTTTTGTACTAAATTGGTCAATATTGCTAAGATTACATATAATTTATAAGTACAATAAGTGTTAA	MRSNQLVGLKLIFFNMHLSHDDFKKILRILYKIIIAYEGFFVLNWSILLRLHIIYKYNKC				NA	NA	NA	NA	NA
AK009_07363	456			hypothetical protein	TTGCAAAAATGTGATCTGAAAGAAATGAACACGGTGCAAAAAGGATATTACGGGGAAGGTCTTGCGAAATTAAAATTTAGGCAGTATGGTTTTGAGGTTTTTAATACTGAGTTCAATAATAAAACTTTAGGGTTTAGAGTGAAGAGAAATAATGGTTATTATGATATTAAAGTAAGAACACGTATAGGGGGAGGGTATATATATTTTCCTAAAAAGGTAACCCCATTAAGGGATAATTTATTTGCTTTGTATGTCCTAATTAAAGAAAATAAAGACCCTGACTTTTATCTTATACCATCAATAGAATGGGAGAACCCTAATACTATTTTTAAAAGTTATGATTATAAGGAGGAGGGATTGCAGTCTGATCCAGAGTGGGGAATAAATATGTCGGGTAAGAATTTATTGAGAATGGAAAAATATCGTTTTGAAAAAGCGGTATTAAATATGATTTAA	MQKCDLKEMNTVQKGYYGEGLAKLKFRQYGFEVFNTEFNNKTLGFRVKRNNGYYDIKVRTRIGGGYIYFPKKVTPLRDNLFALYVLIKENKDPDFYLIPSIEWENPNTIFKSYDYKEEGLQSDPEWGINMSGKNLLRMEKYRFEKAVLNMI				NA	NA	NA	NA	NA
AK009_07364	825			hypothetical protein	ATGCTAGGGGTAGAAGTAACAATCGATAAGTTTGTTACGGAGTATAAAGATATTCCACATTCAGTATTTTTACATTTGTATATGATTGTAGCGCAGAAATATAAAGTAAGAAAAAAGACATACACAAGTTCATACGGACATGAAATATACATAAGGAAATATAATGGCGCATATATGTACTTGTATTATAAAAACCTTAGGGAAACGGATGGATATTTACACACCTTAAGGATAGAAACAAGACCAGATCATTATGCACAATTTCAAGAAATATTAGGAATGATAGTAGAGAAAGCAAGTCGAATAGAATTTGTAAGTTGTGACGTAGCGTATGATATACCAATAGGAATGGAAGAGGTAGTTGTAATACCAACAGATGTGCGTAGGAAAATGAGTCACTATGAGACAACCCGCTATTTTGGTAAACCCGAACAACGAAAGCAAAATGCATACTGTCGAATTTATGATAAGAGATTGGAATTAGAGCAGAATCAAGGTATTTATATAAAACATGATTTAAGTAGGGTAGAGATTGTGTATAAGGTCAGTGAGAAAGTATTGTTGAATGATATAGTAGAATACCCACCGAAACAGAATGAAAGTTATTTTGCGGCAGTGGTAACGGACTGGGAAGCTTTAAAAAGAAAACAAGTGGAGAGAATAATAAATTTGCGAGATGGAAAAGAGGCATATACACAATATGTGAGAAGAGGGATAAAAAAGAACCTTGCCAACCAGTATCGAGTGGACTTCGACGAGTTAGCAAGGAGGACTTGGGAAAAGTTAATAACAGGGCCTTGTTCAACTATACTTGGAATAGCATAA	MLGVEVTIDKFVTEYKDIPHSVFLHLYMIVAQKYKVRKKTYTSSYGHEIYIRKYNGAYMYLYYKNLRETDGYLHTLRIETRPDHYAQFQEILGMIVEKASRIEFVSCDVAYDIPIGMEEVVVIPTDVRRKMSHYETTRYFGKPEQRKQNAYCRIYDKRLELEQNQGIYIKHDLSRVEIVYKVSEKVLLNDIVEYPPKQNESYFAAVVTDWEALKRKQVERIINLRDGKEAYTQYVRRGIKKNLANQYRVDFDELARRTWEKLITGPCSTILGIA				NA	NA	NA	NA	NA
AK009_07365	168			hypothetical protein	ATGATGACATACTTACCAGTAATAACACTTATTTTTATGCTAACAAATTATTTATTTCCGAATTTATTTCCTAAAATAGGTAAATACCTCTTAAAAAATACAATAGCTACTAGCCTTGGTGCAATTAATATAGCCTTAATTGTATTCATTGCGTACAAGCTATTATAA	MMTYLPVITLIFMLTNYLFPNLFPKIGKYLLKNTIATSLGAINIALIVFIAYKLL				NA	NA	NA	NA	NA
AK009_07366	102			hypothetical protein	ATGAAAGCTAAGCTATATGAAGAAGATGGTTTATTAGAAAAAATATTCGAGATACTTAATGATTTACGTGAACAATGCCGGAAACAATTGGAGGGCTTATGA	MKAKLYEEDGLLEKIFEILNDLREQCRKQLEGL				NA	NA	NA	NA	NA
AK009_07367	237			hypothetical protein	ATGAAACTTAATGTAATTGATATTCAACAAATTGAAGGCGATAAGAAGTTAAAAAGATTTTTAGAGAAGAGTGGTGAAGACCTAAAAGGATTGTCTAAATTAAAACTTAATACATATGTAATTACTAAAAATACCTTTAAGTGTTTAGGGGAAATGAATAAAAAACAAAGAAATCATCTTCTTTATGAGTTGAAATGTGTAGTTGAGTATATGAACCTTACTGAAGGAGAAATGTAA	MKLNVIDIQQIEGDKKLKRFLEKSGEDLKGLSKLKLNTYVITKNTFKCLGEMNKKQRNHLLYELKCVVEYMNLTEGEM				NA	NA	NA	NA	NA
AK009_07368	324			hypothetical protein	ATGAAAAAAGAAAAACCTTATTTTGACCCTTATGTTTTTCAAAAAGCACTAGAGGACGTGTGGCTTCCACCATATTCTAATCAAGTATTGAAACCATGGAATGTATCAGCAAAGCAGAAATTTCTATTTCGTGGATTTGAAAAAAAGGTAAAAAGGCATCTAGAGGAAGAACAGAAATTAATTAGAAATATTGTGAATGAAGAAATGAGTTATTATCTTTCTTGTGTAGAGGATTATATAAGACCAGATGAAGAGGACAGAAAAAGGTGGTTTGAGAAACTTAGAAGAGATCTTGAATTACCGCCTAATTATAAATTTGAATGA	MKKEKPYFDPYVFQKALEDVWLPPYSNQVLKPWNVSAKQKFLFRGFEKKVKRHLEEEQKLIRNIVNEEMSYYLSCVEDYIRPDEEDRKRWFEKLRRDLELPPNYKFE				NA	NA	NA	NA	NA
AK009_07369	879			hypothetical protein	ATGAAAGTAGTTGGATATGTACGAGTAAGTTCGGAATCACAAATTGAAAACACATCAATTGTTGAGCAAGAGGAACGAATACAAGCATATTGCAAGGCTCAAGGATGGGAACTAATAAAGATATTCAGAGATGAAGGTTTAAGTGGTAAACAAACTGAAAAGCGTGTAGGTTACAATGAAATGATTGAATATGTAAAAAGAACCACTGAAAATATAAAAGCAATTTTGGTACTGAAGTCAGATAGAATTCATCGTATGTTAAAGAACTTGCTTGTCATGATACAAGATGAGCTGAAACCTTTGGATATATCCTTTATTAGTGTTACAGAGATGTTTGATACAAGTTCACCACAAGGCATGATGTTTTTACAAATGATTGGTAGCTTTGCCGAATTTGAGAGAGAATTGATTTACCAACGTACAAAGGGTGGACGTATTAGCACAGCTAAAAACAATAAGTTTGCGGGTGGGGAGTTACCTTATGGATATGAAATTGTAGATGAGGGAGTCATAAAACATCAAACACAAGCATCGATTATAAAACGTATTTATCAAGATTACTTAGAAGGGCATTCGATGTATAAGATTGCAAAGAAACTAAATAATGAGGGAATAAGTCCTAAAAGAAGTACTAAATGGACATCACAAGGTATTAAGAACGTACTTTTAAATCAAGTGTATAAGGGAATTAAAATATATGACGGTAAAATCGAAAAAAACGGCATTGTACAAAAGGGAGTATTCCCTAGAATTGTTAGTTCTCAGCTTTGGAACTCGGTGAATGAGGTTATAAAAAAGAGGGGATATACACAGGAAATAAGGCATGAAAATATTAAGGGGGTACGCTTATATGAAGCTAAAGTGTCTAAGTGGTCATGA	MKVVGYVRVSSESQIENTSIVEQEERIQAYCKAQGWELIKIFRDEGLSGKQTEKRVGYNEMIEYVKRTTENIKAILVLKSDRIHRMLKNLLVMIQDELKPLDISFISVTEMFDTSSPQGMMFLQMIGSFAEFERELIYQRTKGGRISTAKNNKFAGGELPYGYEIVDEGVIKHQTQASIIKRIYQDYLEGHSMYKIAKKLNNEGISPKRSTKWTSQGIKNVLLNQVYKGIKIYDGKIEKNGIVQKGVFPRIVSSQLWNSVNEVIKKRGYTQEIRHENIKGVRLYEAKVSKWS				NA	NA	NA	NA	NA
AK009_07370	357			hypothetical protein	ATGAAGCTAAAGTGTCTAAGTGGTCATGACTTTATAGATAGTTTTGATAAATTTATTGAAGCACCTAAATTCAATAGGTTATTTATAAAAAGGTGGTTCATTGAAAATGACAATGGTTCAGGAGTCTATGTGATATTTAATAAGCAATTTGAGCCATTATATGTTGGCTGTTCTAAGGATTTAAAAACAAGATTGCCATCACATTTATATAAGGGTAAACGAAAATTAGAAGGATACTTTGATGAAGTGCTTTTTATAGGAATAAAATATACGCAAGGTGATCCAACAATATTAGAGCGTAAATACATAAAAAGGTTTGAACCACTTTTAAATCAGTATAGATACCTTTCTAGTTAA	MKLKCLSGHDFIDSFDKFIEAPKFNRLFIKRWFIENDNGSGVYVIFNKQFEPLYVGCSKDLKTRLPSHLYKGKRKLEGYFDEVLFIGIKYTQGDPTILERKYIKRFEPLLNQYRYLSS				NA	NA	NA	NA	NA
AK009_07371	105			hypothetical protein	ATGGAAAATAATCAATATGTAGCAGAGTTAAAAAAGAATGAAGCAATTAAAGTAATGGCACAGCTTATTAGAAAGTATATGAAGGAATTAACAAAAGAAGGATAG	MENNQYVAELKKNEAIKVMAQLIRKYMKELTKEG				NA	NA	NA	NA	NA
AK009_07372	1590			hypothetical protein	ATGAATAAGAAGGTAAAGGCAGGAATTTATATAAGGGTATCAACAGAGGAGCAAAAACAAGGTCATTCATTAGAAGCACAAGAAAGCATGCTAAAGGAATTTGCAGATAGAAAGGGTTATGAAATATATGATGTATATAATGACGGTGGATATTCAGGAAAGAATTTTAATAGACCTGAAATTCAAAGGTTATTAAGGGATTTAAAGGATGATAAAATTGATGTGATTTTAGTATGGAAGGTTGATCGATTATCCCGTAATAATACTGATGTTATGTCACTAATAGATACTGAATTAACACCAAGGAAGAAGAATTTGATTATTACTTCTATTGATATGGATTCATCTTCACCGACAGGACATATGTTTATATCCTTACTTAGTACATTTGCAAGGTACGAAAGGGCAACTATTATAGATCGTGTAAAAGCAGGAATGCAAAAGAGAGCCGAAAAAGGCTACTGGAATGGTGGCTTAATTTTAGGATATGATTCAGTAGATAAAAAGTTAATTATTAATGAGAATGAGAGTGAAATTGTTAGAGAAATATTTCAACTTAGAGCAGAGGGGAAAGGGTATAAATTTATAGTTAATATCTTAAATGACAAGGGGATTAAAACTAAGACAGGTAAAAACTTCAGTATTCCAGCAATTAAAGTAATTGTTAATAATTATATATATAATGGTAAGATGGTATGGAAAAAACATCAAGACTGGAATACAAGGAGGAGAACAGGAAAGTCAGAGCCTATAATTGTAGAAGGTATACATGATGCTATTATAGACGAGGGGTTATGGACAAGGGTACAAAAAGTTAATGAGCTCCAAAAGAATTCATTCTCTTCTAATAGAAATTTTAATGGAAACTTTCTTTTAACTGGAATACTAAAATGCCCCAAATGCGGGGCGGGTACTGTTATGAGTAAAACAAAAAAGAGAAATAGTGATGATTACCATCTATATTATATGTGTCAAGCTTATCACAATAAGGGATCAAGTGTATGTAGCGCAAATTTAATAAGAAAAGACCAAGTTGAACAACAAGTATTAAATATAATATCACTTTTAGTGAATGAAAATGATATTATAAATGCATTGATAGATGAATTGAATAGTGATAATAATAAAACTAATGAGTCACATATAGCACATATAAAAATGTTAAAAAAACAACTTGGCAAAGCATATGACAAACGTAAAAAATTGGATAATGATTACTTTGAGGGAAATATAGAAGGTAGTACTTATAATCGATTAATGAACGAACTACAGTTAGATATTAATAAATTAAAAAGAAATGTTAGAGAATCTGAGAGTGAAATTATAAAAAATGACTCTACGATAAACAAAGAAGAAGTAATATATGCTCTTGGAAATTTTAATAAGCTCTTTAAGATAGTAAATGATGAAGAAAAAAAGTTACTTATAAGGTCTTTAATTAGAGAAGTTCAAATGGAAGCGAATCGGAAAGATGTAAAAGAAATAACCTTCTGGTTTTTACCCAGTAGTGTTTTACCATCTAATAAAGTGCGCAGAACCGTATCACAAGTGATAGTAAAGCGGAAATGGGAGATTGAAATTTGTTATTAG	MNKKVKAGIYIRVSTEEQKQGHSLEAQESMLKEFADRKGYEIYDVYNDGGYSGKNFNRPEIQRLLRDLKDDKIDVILVWKVDRLSRNNTDVMSLIDTELTPRKKNLIITSIDMDSSSPTGHMFISLLSTFARYERATIIDRVKAGMQKRAEKGYWNGGLILGYDSVDKKLIINENESEIVREIFQLRAEGKGYKFIVNILNDKGIKTKTGKNFSIPAIKVIVNNYIYNGKMVWKKHQDWNTRRRTGKSEPIIVEGIHDAIIDEGLWTRVQKVNELQKNSFSSNRNFNGNFLLTGILKCPKCGAGTVMSKTKKRNSDDYHLYYMCQAYHNKGSSVCSANLIRKDQVEQQVLNIISLLVNENDIINALIDELNSDNNKTNESHIAHIKMLKKQLGKAYDKRKKLDNDYFEGNIEGSTYNRLMNELQLDINKLKRNVRESESEIIKNDSTINKEEVIYALGNFNKLFKIVNDEEKKLLIRSLIREVQMEANRKDVKEITFWFLPSSVLPSNKVRRTVSQVIVKRKWEIEICY				NA	NA	NA	NA	NA
AK009_07373	1293			hypothetical protein	ATGATAGATTATAATGGTATTGAAAAAAGCTTTAATGTGCTTTATCCGGAAATTGAAAATGCAACATATTTAAGTCAAGTTAATTATTCAGATGAATTAAAAAGACCTTACCAACGTTGGTATAGGTATAAAGAGGGTTTTTCAGTTGAGCTTGTTAAAAGATTAATTAAAGAACAAGCTAAGAGATCAACAGGAACTATATTAGATCCATTTTCAGGTAGCGGGAGCACATTAATTGGTGCTAATGAATTAGGATATAAAGGACTAGGGTTTGAGGTTAATCCATTTTCTTACTTTTTAAGCAAAGTTAAATTAGAAAATTATACTTTAGGAGAAATTACGCTTTTTAAGAGCTTGTTTGAAAAGGTGTTAAATGAAGAAAATGGAATATTTCCGATGCCAAATTTATCTTTTGCTGATAAGGTTTTTAATAAAGAAGTACAGGATAAACTTATGTCGATTAAAAAAAATATAATTGACCTTGAAAATGAAGGTATAAATCCAAATGTTGTAAATTTATTGAAATTGGGTTGGTTATCTTCTATAGAAGAATTATCTAATTATAGAAAAGCTGGTAATGGATTAAAAAAAAGAAAGTTAAAGAATCCAATCGTACTAAATAAAGAGGACGTTTACTATAAACTGGATCATATTTATTCGAATATGTATACAGATCTTGAAACAAAGAAGGGTACGCGAAATATACAACTTATAAATCATACATGTATTGATATGGATAAATTTATTGAAGATAGTAGCGTTACAGGTGTTATTTTTTCTCCACCTTATGCTAATTGCTTCGACTATACTGAAATTTATAAGTTAGAGCTGTGGTTTGGGGGCTTTGTAGCAAACTATGAGGAAATGAGAACTCTTAAAAAATCTTCACTAAGGTCACATCTTAATGCTAATTTTAAAGAAGATATAGATAATGTTTATACAATTCCATTATTAGAAGATATATTAAGTGAATTGAAAGAAAAGAAACTGTGGGATAAAAAGATACCGATTATGTTGAAATTGTATTTCCATGATATGTTTAGAGTGATTGAAAAATGCTATTCAGCATTAGAACCAGGTGGTTTTTGTACTATTGTAGTAAGTAATTCTTCTTATGGAGGAATTGTGGTACCAACTGATTTATTGTTCTCAATTTTTGCGGAAAAGATAGGTTTTGAAGTAAGTAGAATTGAAGTTGCACGTTATATAATCACAAGCTCTCAACAATATAATATTACAAAGGAACAAAAAAACTTTTTAAGGGAAAGTGTTATATGTTTAAAGAAGAATTAG	MIDYNGIEKSFNVLYPEIENATYLSQVNYSDELKRPYQRWYRYKEGFSVELVKRLIKEQAKRSTGTILDPFSGSGSTLIGANELGYKGLGFEVNPFSYFLSKVKLENYTLGEITLFKSLFEKVLNEENGIFPMPNLSFADKVFNKEVQDKLMSIKKNIIDLENEGINPNVVNLLKLGWLSSIEELSNYRKAGNGLKKRKLKNPIVLNKEDVYYKLDHIYSNMYTDLETKKGTRNIQLINHTCIDMDKFIEDSSVTGVIFSPPYANCFDYTEIYKLELWFGGFVANYEEMRTLKKSSLRSHLNANFKEDIDNVYTIPLLEDILSELKEKKLWDKKIPIMLKLYFHDMFRVIEKCYSALEPGGFCTIVVSNSSYGGIVVPTDLLFSIFAEKIGFEVSRIEVARYIITSSQQYNITKEQKNFLRESVICLKKN				NA	NA	NA	NA	NA
AK009_07374	1317			hypothetical protein	ATGTTTAAAGAAGAATTAGCTATTGAGAAAATGGAAGATGAAGTAGTAATAGAAGTTGAAAGCTTACCAATGTGTATAGAAAACGGAAAAACTTATGCAATAAAACAACCAAATCCCAATTCATATACACACGGTTATTTCAAATATCCATGTAAATTTATTCCGGAAATACCAAGATGGTTTATGAATAAGTACCTTGGGGAGGGAAAGGCAAGCATTTTAGACCCATTTAGTGGTAGCGGAACTACATTATTAGAATCCATTATAAATGGACATGATGCTTATGGAACAGAAATAGATAATTTTGCTAAGTTATTAATTAAGGTTAAGACGACTCCTTTAAAGTTACAAGAAATCAATGAAATAATCGATTGGCTAGAAAGAATAATTAAACAATATCAAGAATCTTATATGGATTATAAAAATCCTGTAGTTCCTCAAATAAACAACTTGTATCACTGGTTTTCAGAGCAAAATGTTCAAAAACTAGGTCTTATTAAAAATGAGATAAATGAATTGGAGAATTCAGCAATAATAGATTTTTTAAATGTATGTTTAGCAAGTTCAATTAGGAAATGTTCGAATGCTGATGATGTGTCTCCTAAGCCATATGTATCAAGTAAAATTGAAAAAGTACCTTCTGATCCCTTTATCGTGTTTCCTAATATTGTGAATAAATACTTAGCATATATGGAAGAATTTTTAAATTACACTCTAAGTAATAAGGTAGGAAAAGTAGAAATATTAGAGGGGGATGCTTTAAACATAAAGGCAAATTCAAAAATTGACGTAGCAATTACGTCGCCTCCTTATATAAATGCATTTGACTATGCTAGGACATTAAGATTAGAAAATTTATGGCTAGGCTTAGACTCCGAAGAAACAATTAAGGATAAGAAAAAATCTTATGTAGGTACTGAAAATATAACTACTAAAAAAGTAAAATCAGAATTAGATTTGTCAATTTTAGAACTAAGTAAGCAACTTAAGGAAGTATATTACGATATTGAAAAAATTGATCAAAAGAGGGCACTTATTGTTAAAAAGTTTTTTGAGGATATGCATAAGAACTTAATTGAGGTTTATAATGTGTTAGCAGAAGGTGGTAAATATTGTATTGTTATTGGAAATAGCAGTATAAGGAAAATTAATGTTGAAAGTTGGAGCATTATTTGTGATATAGCGAGAGTGATTGGATTTGAAATTGATACTTACTTTAGCTATATAATTAAAAATCACTATTTAAGAATTCCTAGAGGTAATAAGGGTGGGAAAATAAATAAAGATTTTGTATTTGTTTTAAAAAAGTCTACTTAA	MFKEELAIEKMEDEVVIEVESLPMCIENGKTYAIKQPNPNSYTHGYFKYPCKFIPEIPRWFMNKYLGEGKASILDPFSGSGTTLLESIINGHDAYGTEIDNFAKLLIKVKTTPLKLQEINEIIDWLERIIKQYQESYMDYKNPVVPQINNLYHWFSEQNVQKLGLIKNEINELENSAIIDFLNVCLASSIRKCSNADDVSPKPYVSSKIEKVPSDPFIVFPNIVNKYLAYMEEFLNYTLSNKVGKVEILEGDALNIKANSKIDVAITSPPYINAFDYARTLRLENLWLGLDSEETIKDKKKSYVGTENITTKKVKSELDLSILELSKQLKEVYYDIEKIDQKRALIVKKFFEDMHKNLIEVYNVLAEGGKYCIVIGNSSIRKINVESWSIICDIARVIGFEIDTYFSYIIKNHYLRIPRGNKGGKINKDFVFVLKKST				NA	NA	NA	NA	NA
AK009_07375	1500			hypothetical protein	ATGGTACAAAAAAATAGAAGTAAAGAGGTATGGCTTGTTCCAAAAAGAGGAAGTCTTCACCAAACGATTTGTTTAATAGAATCCCTTATAAATAGGAATTATGATCAAACACGTTGGAATGAGCAAAAACAAAATAATATTGGAAATGATTTAAGAAAACGTGGGGCAGTAAGGGAAAAAAGATCCCCTTCAAATCAATCTATTCGTACTTTACTTGCTTCAATTCCACAGTATTTAGGGTTTTTATACATAGATAGCAGTACAACGCCTAATACTGTAAAAATCACAGATGCTGGTAGATACTTATATAATTTTCATAAAGATAGCATTGAAAATATCGGAACCTTAGGGGAAGGTAAAAAAAGTGGAGGTTTAATTGAAACTTCATCGGTATTTCTTGAACAATTTGAAAAACTCCAAATCACTAATCCGGTAATATTAAAAGATTGTGAAAATATTTTAGTCTTTCCATTTAGGGTTATTTTAAAGTTATTAATTGAATTAAATTATCTTGATCGAGAGGAATTGGCGTATTTTGTATTTTCGATTAGGGATGAAAGTGAAATTCCACTTACAATAGAGAAAATAAAAAAGTACAGGAAACAAGATTTAATGGAACGAGATACTGAAATTAAACTTTTTAAGGAAACACATATAGGTAATATTACTCTTGTAAAGGCATCTTCAGCATCTTATTTTGAAAACCTGTGTTATAGTACGGGGATTATTGAGAGATTTAAAATTCAGATACCGAACCCTGGAAGCTCTGATTCCAATAAATTACCTGCAATTAAAATTAAAGATGAACAAGAAGTTTATGTTAAAGAGGTTTTAAGTAGTAAATATGAAAATTCACAAGTATATAATTTTGGTAATAATTTAAAGTTATGGGTGGATTACATTGGAAATCCTAATAGAAAAATACCACCAAGGGATATTGAGATTGAAAATAAAGGAAATAGCAATTTAATAATAATTATTGAACAAAATGGGGTAATGATAAAAGGTGATTTAATAAAAAGTGGTTGCTCATTAGTTTCTCCAATGTTCATAAATGAGAATTATGACATTATTTTTATAAGCCCGATGGATGGAACTGTTTTGGAAAAGGCTACAATCAAGCCGGATTATTTAAGTGGAGAATATGAATTTGATATTAATTCAAACCTTAGTATTACTAATAATGAAAATATAGATGAAATAGGACAAATCATCAATGAACACTCTGCGGCAAAAACATTTGATAAGAATTATTTGTCTTATCTAGGAATTATAGGAGACATTATAGGAGCTGATTTAACTAATAATAAAAACCTTAGGGGAGCTTATTATGAATATTTATTTTATAAATTATTGGAGCAGCTACGAGAAGAAAAAATAATAGATGATGTGTATTGGAATGGTAAAGTAGGGGAATTTGGTCTTCCAAGACCAGCGCCAGGGGGAAGACAGGAACCCCAGATATTATTTTTATTATTAATGATGAATTCTTTATATTAG	MVQKNRSKEVWLVPKRGSLHQTICLIESLINRNYDQTRWNEQKQNNIGNDLRKRGAVREKRSPSNQSIRTLLASIPQYLGFLYIDSSTTPNTVKITDAGRYLYNFHKDSIENIGTLGEGKKSGGLIETSSVFLEQFEKLQITNPVILKDCENILVFPFRVILKLLIELNYLDREELAYFVFSIRDESEIPLTIEKIKKYRKQDLMERDTEIKLFKETHIGNITLVKASSASYFENLCYSTGIIERFKIQIPNPGSSDSNKLPAIKIKDEQEVYVKEVLSSKYENSQVYNFGNNLKLWVDYIGNPNRKIPPRDIEIENKGNSNLIIIIEQNGVMIKGDLIKSGCSLVSPMFINENYDIIFISPMDGTVLEKATIKPDYLSGEYEFDINSNLSITNNENIDEIGQIINEHSAAKTFDKNYLSYLGIIGDIIGADLTNNKNLRGAYYEYLFYKLLEQLREEKIIDDVYWNGKVGEFGLPRPAPGGRQEPQILFLLLMMNSLY				NA	NA	NA	NA	NA
AK009_07376	123			hypothetical protein	ATGAAAGCAATTCTTGATCCACTAGGAATTAATTTAAAATGTATTGAAGATAGAGAATTAGTAGATTTGTTATTATCTAAAGATAGAAATCTCATTTACAGTGAATTAAAAAGTGGTAAATAA	MKAILDPLGINLKCIEDRELVDLLLSKDRNLIYSELKSGK				NA	NA	NA	NA	NA
AK009_07377	462			hypothetical protein	ATGGATTTATCCAAAGGCTTTATCTGCATTACTAATCCTTCTTGGTGTTACACATTATCTTCAAATAATATGCAACTAGCTTGTATTTGGTTAAGGAGAACGACCTTTAAAGCTATAGAGCAACATCAACCTATTTTTTTTGTAGAAAAGAAAAGTAGATTCCTTCGTGGTTACGGTTATTTTGATAAATTTGAAGTTAATACAACCAGACAATGTTGGGAAAAATATGAAATGTTAAATGGTTCTAAAACATTTAATGAATTTTTAAATCAGTTAAATTTTCCTAATGAGGAAAAAGGGTGGGCTCAGCCTATTGGAAATATATTAATTAAAAAAATTAAATGGCTTAATAAAGAAATACCTATTCACCAAATAAACGTAAATTTTCCAAAACCTACTGTAACAGGTAAAACTATAAACCCTGAGGAAGTTAAAATACTTCTCTCCTATTTTAATGCTTAA	MDLSKGFICITNPSWCYTLSSNNMQLACIWLRRTTFKAIEQHQPIFFVEKKSRFLRGYGYFDKFEVNTTRQCWEKYEMLNGSKTFNEFLNQLNFPNEEKGWAQPIGNILIKKIKWLNKEIPIHQINVNFPKPTVTGKTINPEEVKILLSYFNA				NA	NA	NA	NA	NA
AK009_07378	216			hypothetical protein	ATGACAAAAAAAGTTATAGTAAAAATACATGAATTAACTAAAGAAAAGGGAATCTCCTTAAGGGAATTATCACGATTAACAGATATCCGTCACGCAGCTTTAAGTGAATTAGCTAATCAAAAAAGGCAAAATATTAACTTTAAACATATAGAGAAGATTGCAGAAACTTTTAACATTAAAGATATTAGAGAAATTATTGATTTTGATAAAAACTAA	MTKKVIVKIHELTKEKGISLRELSRLTDIRHAALSELANQKRQNINFKHIEKIAETFNIKDIREIIDFDKN	PGPT0014940_906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK009_07379	444			hypothetical protein	ATGAGAAATTTGAAAGAGGATGTAGTAGTACATAAAGAAGTAAAGAGACCTATTTGGAAAAAGAAAATATTTTGGATTTTAGGTATTATTTTAAGTCTTTTTATTATCTCGAATTTAGGTGGTTCAGCTGATATACCAAGTGGAATAGAAGAAGATTTTTATAAAAGTTCCCTTTATAGTTTTCACGAACTAAATGTAGCAATTGAGGATAACGAATTTCCTGATAAAAAGGTGACTAAGTGGGTGGCTGATCATATGCGTGCAATGGAAAATTATCCGAATGATTATAGCGAAAAGGAAAGGATGATATTAATTCATTTTAGGGGGCTAATTACAAGCGTAGGATTGTTAAAACAATCGGGGGATAGGAATATGTTAGATGAGAAAATTAATGAAGTTCGTTCAAATTTAGCCAATATCTTAGAAGTTGAAGAGGATTATTAA	MRNLKEDVVVHKEVKRPIWKKKIFWILGIILSLFIISNLGGSADIPSGIEEDFYKSSLYSFHELNVAIEDNEFPDKKVTKWVADHMRAMENYPNDYSEKERMILIHFRGLITSVGLLKQSGDRNMLDEKINEVRSNLANILEVEEDY				NA	NA	NA	NA	NA
AK009_07380	756			hypothetical protein	ATGCCTGGTTATAATTACAAATTTGTAGAGTTGGGGAGGTTTTTAAAGGTAGTTGAATATGAAAGGGAAGTTAAAACAGGGATAAATAAACATTGTAATAGGCCGTTAAAGAAACGAAATAAATTGAATTTCGTGAGTGAAGGAAAGAAAAAAGAAACAAAAGTAAGGGGATTGAAAAATAAGGAAATCGACGATTTCCACCACCTTTTATATCTTAATTTTAAGAATTATAGGGATCAATTAATTACTTTAACTTATAAGGAAAATGTAGCTGTAGAGAAAGCATGTAAAGATTTTGAAAGATGGATAAAACGTATGCGCTCCAAATTTGGAGATTTTAAATATTTAGCTGTTCGTTCTTTTCAAAAGCGTGGAACAATTCATTATCATGTATTGGTTAACATTCCAAGGGTTCCACTTGAAATGTTACGCAATAAGGAATTTGAAAATATATGGGGACATGGAGGGGTAAATATAACGAAGATATACGATGTAAATGTTGTTTATTCTCAATCTAAACTATCTCAATACTTAGTGGATAATATGCAGAAGTTTAAGAAGGATGAAAGAGGATATGGAAAACAAGCTTACACATTTAGTAAAAATTTTAAAAAACCTAAGGTTAGAACTGGTAACTATGATGAATTTATAAAATGCCTCGAATTGATAAATTTGGAAGCTATAGATGAGAAAGGATATAAAAATGAGTATCGAGGCGATGTAAAAGTAACTATTTATAAGAAAAAAAGTTCTTAA	MPGYNYKFVELGRFLKVVEYEREVKTGINKHCNRPLKKRNKLNFVSEGKKKETKVRGLKNKEIDDFHHLLYLNFKNYRDQLITLTYKENVAVEKACKDFERWIKRMRSKFGDFKYLAVRSFQKRGTIHYHVLVNIPRVPLEMLRNKEFENIWGHGGVNITKIYDVNVVYSQSKLSQYLVDNMQKFKKDERGYGKQAYTFSKNFKKPKVRTGNYDEFIKCLELINLEAIDEKGYKNEYRGDVKVTIYKKKSS				NA	NA	NA	NA	NA
AK009_07381	858			hypothetical protein	ATGATTTTAATTGTTAATATTTTACATTTTATTCGAAACGTTACGTTAATTTTAAATATCGTTACGCTAGGGGGATTTTTTGTGAATGTGATTGGCTATGTTAGGGTATCAACCCAAGGACAAGCTAAAGAAGGTTATAGTGCTTTATATCAACAAGATGAGATTAGAAAACTTTGTAAGGATAATGATTGGAATTTGATTGATATATACAGTGACCTTGGTATTAGTGGAGCGAAAGTAGATGAAGAAGCACTTGAAGTAGAACGAGAAGGATTTCAAAATATGCTATCAAGACTTCGGACGAAGGATATAGATTATGTAGTGGTTTTAAATACAAATCGTTTATGGCGCTCGGATATTGTGAAAGTGTTGATACATCGAGAGTTTAATAAGTATCAAGTTGATGTGAAAAGTATTGAACAACCGAATTACAGTATTTATAAGAAAGATCCAAATGACTTTTTAATTAATGGATTGATGGAGTTATTGGACCAATATCAACGTTTAGAAATCGCTCTTAAGTTAGGACGCGGACGTAATAAAAAAGCCCAGGAAGGTGGGTATGCAGGCGGAAGAGTGGCTTATGGTTATAAGGCTAGAAAAGGTCAAAAGTATATTGAGGTTAATGTTAAGGAAGCCGAAGCTGTAAAGCGTGTATTTACCTTAAGAGCACTCTATCCTAAGTGGTCACTATCGAATTTAGCTGAGCAATTAAATACCGAAGGATTTACTACTGCAAAAGGGAAAAAGTTTACGAAAGTACAAGTTAAAAGAATTCTGGATAGAAAATCTTTTTATCAAGGAATGTATAGCTATGGAAATATAAATGTAGAGGGTAAGCATAAGCCTATTATTTAG	MILIVNILHFIRNVTLILNIVTLGGFFVNVIGYVRVSTQGQAKEGYSALYQQDEIRKLCKDNDWNLIDIYSDLGISGAKVDEEALEVEREGFQNMLSRLRTKDIDYVVVLNTNRLWRSDIVKVLIHREFNKYQVDVKSIEQPNYSIYKKDPNDFLINGLMELLDQYQRLEIALKLGRGRNKKAQEGGYAGGRVAYGYKARKGQKYIEVNVKEAEAVKRVFTLRALYPKWSLSNLAEQLNTEGFTTAKGKKFTKVQVKRILDRKSFYQGMYSYGNINVEGKHKPII				NA	NA	NA	NA	NA
AK009_07382	162			hypothetical protein	GTGAGGAAATTGAAAAAGGAAGAAATGAACTTTAGTCGTAGTCAGCAGGAGTTAGGAAATATGATTATTCCAAGTGTGGAAGAGACAAAATGGAATCAATTAATAGAAATATTAGGGTTGATTGTAATTGAAAATATAGAACTAAAAGACATTACTAATTAA	MRKLKKEEMNFSRSQQELGNMIIPSVEETKWNQLIEILGLIVIENIELKDITN				NA	NA	NA	NA	NA
AK009_07383	1569			hypothetical protein	ATGAATCATAGTAAGCGTAAAGTAGCTATTTATATTAGGGTATCGACCGAGGAGCAAGCGAATGAGGGATTCTCTCTAGGGGCACAAGAAGATTGTTTAAAACAATATGCTAACGCTAAAGGTTATGAGGTATACGATATATACGTTGATGATGGCTATTCAGGAAAGGATTATAATCGACCTGAAATACAGCGTTTATTTAAAGACCTTTATCAAGAGAAATTTACAGGAATATTAGTTAAATCTGTTGACCGAATATCAAGAAGAGTAAGTGATGTTACTAAGTTAATAGATGATGTCCTTGCTCCAAGAAAATGTTGTGTGTTAGTAAGCGATAATAACTTAGATAGTTCTACGACTGGAGGAACTGCATTTATCCAATTATTGGCTACATTTGCTGAATATGAGCGTTCAATGATTGTACAAAGGGTAAAATCTGGTATGTCTAAGCGAGCAGAGTTAGGTTATTGGAATGGAGGACGTGTACTTGGATATGATGTTAAGAACAAGGAGCTAAAAATTAACAAAGAAGAAGCTGAGATTGTACGGAAGGTATTTGATTTAAGAGTTGAAGGAAAAGGGTATAAATCCATTGCTGTTATTTTAAATCAACAAGGTTTTAAAACGAAGAGAGGGAGATTATTTAGTATAGGTACAATTAAAACAATTTTAGAGAATCCGCTATATATCGGATACTGTAGATGGGGGCGACATAAGAATTGGAACGTAGAAAGAAGAAAAGGAAAAACAGACGAATATAAGTTTGTTAAAGGTAAACATGAACCTATTGTATCTGAGGATTTATGGAAAAGGGTCCAAAGTGTGAATTATGCCCACAAGAAAAGTATTTCTAAAAATCGTAATTTTAATGGGGAATTTGTACTATCTGGTATTTTACGTTGTCCATCTTGTGGAGCAGGAATGGTAATGTGTAAAACTAAGAAACGAGATAAATCAGGATATCATTTATACTATATGTGCCAAGCATTTCATAGTAAGGGGAAGTTGGCCTGTAAATCTAATCTTATTCGTAAGGAAGATATTGAGGAAAAGGTATTGCAATGTATTAATAAAATTATTTTAATACCTTCAATTGTTGATAAAACGTTTGAACGTATCCAAGAGAAAAAAGAAAATGGAATAAAAAGAATAAAAAATGATTTATCTTATATAAATGAAGAATTAAAAAGAAAGAAGCAATTTATAAAAAAACTTAATAAGGATTATTTTGATGAGAAAATTCGAGTAGAAACATATACGGAATTATCCGAGCCCTTAAGAGAAGAGATGGTTGAACTAGAAAGGGAAAAAAGTAAATTAGATAGGAAGATTGAGAGTTCGGAAATACCTATTACGAAAGAAATGGTTATAAAGGCACTTGAAAATTTCACTAATCTATATGAAAATGCTACTTATGAACAAAAAAAGTCTCTATTGCGAGCAATAATCAAGAAAATAGAGGTTCAACCTAATCGTAAAGAAATAAAAGGAATAACTTATTGGTTTGATTGTGATAATGGTCAAGATGACGCTTTACTAGTTAGTAAAGAGGGGAGAACTGTATCATAA	MNHSKRKVAIYIRVSTEEQANEGFSLGAQEDCLKQYANAKGYEVYDIYVDDGYSGKDYNRPEIQRLFKDLYQEKFTGILVKSVDRISRRVSDVTKLIDDVLAPRKCCVLVSDNNLDSSTTGGTAFIQLLATFAEYERSMIVQRVKSGMSKRAELGYWNGGRVLGYDVKNKELKINKEEAEIVRKVFDLRVEGKGYKSIAVILNQQGFKTKRGRLFSIGTIKTILENPLYIGYCRWGRHKNWNVERRKGKTDEYKFVKGKHEPIVSEDLWKRVQSVNYAHKKSISKNRNFNGEFVLSGILRCPSCGAGMVMCKTKKRDKSGYHLYYMCQAFHSKGKLACKSNLIRKEDIEEKVLQCINKIILIPSIVDKTFERIQEKKENGIKRIKNDLSYINEELKRKKQFIKKLNKDYFDEKIRVETYTELSEPLREEMVELEREKSKLDRKIESSEIPITKEMVIKALENFTNLYENATYEQKKSLLRAIIKKIEVQPNRKEIKGITYWFDCDNGQDDALLVSKEGRTVS				NA	NA	NA	NA	NA
AK009_07384	495			hypothetical protein	ATGGCACGGGGAGCTGAGTCGGTCGCGGATGAAGCCTGGAGCGATGTTTCCGGGGCTGTGCGGGGCCTCGATGACGCGCACGGTGAACGCTCCGACCGCGATGTCATCGCCGTCGGCGATCAGGGCCATCTGCGAATCGGTGAGGCCCTCTCCCCTGCCGTAGTTCAGCGTCGACTCCGAGCCGTACATTGTCCCGCCCACCTTTTTAACAACGGCGGGTGCGTCCATAAGGTGGTCGTAGTGCGAGTGCGCGACAAAGAGAGCATCGAGCTTGTCGACGCCGCCCCTGCCCAGCGCCGCGTCGATCTCACTGTCGCTGGGTCGAAGCCGCCCGACCACGAGGCGGGCGAGCGAGGGGCGCGTGAGGAAGGCGTCGACGAAGATGCTGGTCTCGCCGTCTGTGAGGTGCACGCTGGATGTTCCGTAGAACGTGCTGGTAATCATGTGCCCAATGTTAGCACCCAGATGGTATGTTGCAGAAGTAAATTAGTGTGA	MARGAESVADEAWSDVSGAVRGLDDAHGERSDRDVIAVGDQGHLRIGEALSPAVVQRRLRAVHCPAHLFNNGGCVHKVVVVRVRDKESIELVDAAPAQRRVDLTVAGSKPPDHEAGERGAREEGVDEDAGLAVCEVHAGCSVERAGNHVPNVSTQMVCCRSKLV				NA	NA	NA	NA	NA
AK009_07385	516			hypothetical protein	GTGCATCCAGAAGAAGGTGCCGATACCGTCGTTTGCGGCCCATTCGATGGTGTTGTAGTTGCCGTAGACGCCCGTGGCGTAGCCCGCGACGCTGAGCGCGGTGCAGAACGCGCGCAGGTAGGGGCGGATCTGGTTGTCGTACTGGGCGCGGGTGGGGTTGTCGTCAATCGCGATGTAGATCGGGCGCCCCGTCGGCCCGCCCGCCGCGCGGTGCAGTTCGATGGCCTGCGGGGCGTGGATCGCCGCGGAGGCCGCCCCGCCGAGCCAGTCGGCGGTCTGGGCGCGGCCGAACTGGTAGACGGACGCCGTCGCCAAGCCGTTGGCCTTGAAATCCTGGGTTTCTGTAAGGGCGACGGGCTTGCCCCTCATCCAGGTGGCGTTGGGGCGCGGCTGGGAGACGTAGCGCACCGCACCGAGGTGGCCGGCGGCCTTGACCGAGCGCCCCGAAGGCACGCCCGCAGAGTAGTCGAGCACGGTGCCCACCACGGTGCGCTGGGCCTTAGCGACGGGGGATAG	MHPEEGADTVVCGPFDGVVVAVDARGVARDAERGAERAQVGADLVVVLGAGGVVVNRDVDRAPRRPARRAVQFDGLRGVDRRGGRPAEPVGGLGAAELVDGRRRQAVGLEILGFCKGDGLAPHPGGVGARLGDVAHRTEVAGGLDRAPRRHARRVVEHGAHHGALGLSDGG				NA	NA	NA	NA	NA
AK009_07386	870			hypothetical protein	GTGGTCGACCGGGGCCTCCACGCCGACGCCGGTCAGCGACCGAACTTCCATCTCGGACTGCAGAGCGTCCAGATTGTCCGTCTTGCCCAGGTAGGTGCCGATGATGCCGGCGAGGAACGCCAGCGGGATGGACACGATGCCGGGGCTGGTCAGCGGGAAGATCGACCAGTCGGCGTTCGGGAACATTGCGGACGGGGCGCCGGACACCGCCGGGGAGAAGAAGATGAGCAACAGGGCGGAAATCAGACCGGTGTACATGGAGGCGACCGCACCGGTGGTGTTGAAGCGCTTCCAGTACAGCGAGTACAGGATGGTCGGCAGGTTGGCGGATGCCGCGATGGCGAACGCCAGGGAGACCAGGAAGGCGACGTTCTGGGACATGGCCAGGATGCCCAGCACGATGGAGACCACACCGATGACAACCACAGTGATGCGCGAGACCCGCACCTGCTCGGCCTCCGTGGCGGTGCCGTCGCGAAGCACGGCGTCGTAGATGTCGTGGGCGACCGAGGCGGATGCGGTAATGGCCAGCCCGGCCACGACGGCCAGAACCGTCGCGAAGGCAACCGCGGAGATCAGCGCCATGAAGATGGAGCCGCCGAGCTCGAAGGCGAGCAGCGGCGCCGCCGCGTTCGCCCCGCCCGGGGCTGCCAGGATGCGGTCCGGGCCGACGAGCGCAGCTGCGCCGTAGCCGAGCACCAGGGTGAGCAAGTAGAAGGCACCGATGAGCACGATGGCCCAGGTTACGGACTTGCGCGCCTCCTTAGCGGTGGGCACGGTGTAGAAGCGCATCAGGACGTGCGGCAGGCCGGCGGTGCCGAGCACCAAGGACAGGCCGAGCGAGATGAAGTCGATCTGGCTGGTCAGTGA	MVDRGLHADAGQRPNFHLGLQSVQIVRLAQVGADDAGEERQRDGHDAGAGQREDRPVGVREHCGRGAGHRRGEEDEQQGGNQTGVHGGDRTGGVEALPVQRVQDGRQVGGCRDGERQGDQEGDVLGHGQDAQHDGDHTDDNHSDARDPHLLGLRGGAVAKHGVVDVVGDRGGCGNGQPGHDGQNRREGNRGDQRHEDGAAELEGEQRRRRVRPARGCQDAVRADERSCAVAEHQGEQVEGTDEHDGPGYGLARLLSGGHGVEAHQDVRQAGGAEHQGQAERDEVDLAGQ				NA	NA	NA	NA	NA
AK009_07387	405			hypothetical protein	GTGCGCACCAATTGCGTCGGTGAACAGGGTGTTCATACCACCGCGCACTGCGATAAAGACGAGCACGGTCATGATCGCGACACCGCTAATGAGCAGCACGGCCTTGATCATCTGCACGTAGGTGGTGCCCTTCATGCCGCCGATGAGCACGTAGGCGATCATCACGATGCCGACGACGAAGACACACAGTGCCTGCGCCCAGAAGGTGTGCAGGTCAAGCAGTACCGAGACGAGGGAGCCTGCGCCCGCCATCTGCGCGATGAGGTAGAACAGCGAGACGAACAGCGTGCCGAAGGCCGCCGCGACGCGCACGGGCTTCTGGCGCAGGCGGAACGACAGCACGTCGGCCATGGTGAAGCGGCCCACGTTGCGCAGCGGCTCCGCGACGAGCAGCAGGGCGACTAG	MRTNCVGEQGVHTTAHCDKDEHGHDRDTANEQHGLDHLHVGGALHAADEHVGDHHDADDEDTQCLRPEGVQVKQYRDEGACARHLRDEVEQRDEQRAEGRRDAHGLLAQAERQHVGHGEAAHVAQRLRDEQQGD				NA	NA	NA	NA	NA
AK009_07388	192			hypothetical protein	TTGCGTGCCGCTAAAAGAGGCGCCACCGGTGTAGAAGTCCGCGGACTCGGAGGTGGTCTTGCCAGCGCGGGTCACAATGAACATCGTGACGATGATGAAGACAGCGAAGATGGCAATGTTGAGCAGCGGATTGCCCACGCCTTGCGGTTGTGCGGCCTCCTGGGCCAGGTAAGTGGTGTTCATGGTGCCTAG	MRAAKRGATGVEVRGLGGGLASAGHNEHRDDDEDSEDGNVEQRIAHALRLCGLLGQVSGVHGA				NA	NA	NA	NA	NA
AK009_07389	327			hypothetical protein	ATGAGCCGCGCGCGGCTCAATGTTTTTGTTCGCGTACTTGACGTAGACGTACGTGATGATGAACGTGGTGATGAACTGGGCGATACCCAGCCAGATGCCCACGTTCATCCCGAGGAAGGGCTGTGCCATCGTCTGTGGGAAGAATGTCGCCACGACGACGTAGAAGATGTACCAGACGAAGAAGGCGACGGAAACCGGGAAGGTGAAGCCGCGGTAGGATTTCCGAAGCTCCTGGAACTCCTCGCTGTTTTGCATGGCGACGAACTCGTCCGGAGTCGGTTCTCTTCGGGTGGGAAATGCGGTGGATCCTTGGGATTGCGACACTGA	MSRARLNVFVRVLDVDVRDDERGDELGDTQPDAHVHPEEGLCHRLWEECRHDDVEDVPDEEGDGNREGEAAVGFPKLLELLAVLHGDELVRSRFSSGGKCGGSLGLRH				NA	NA	NA	NA	NA
AK009_07390	1116			hypothetical protein	ATGCGGTGGATCCTTGGGATTGCGACACTGACCCATCCTTTCTGTGCTGCCTACGTGTGGAAACTAACGCTCTCACATGCGTTGGTTATAACTGGACACACAAAATTTATCGGAAGCGCCAAGCTTTTTTGCCAAGTTCGCACATCAAAATCTTCGCTGGATCAGCCCGCTACCCCCGAGAAGGTAGTTTTACTGCGGAGACTAACTGTCCCCCCGCTACCCCCGCCGCGCTCGCTAATCGACGTCCCCGAGAAACGTCAGCGGATCCCCCGACATCCTCTCTCCCGCGATCCCGTCCAACGCCGCGATCTCGGCCTCGCTCAGCGCCACATCCACGGCGCCGAGGTTCTCCACGAGGCGCTGCGGGTTGGACGTCTTCGGGATCACGGAGCAGCCATGCCGCATCAGGTGCGCGAGCACCACCTGCGCCGGCGTGGCGCCGTGCGCGTCGGCGATCGCTCCAATCTCGGGCTCGGAGAAGTTCTCACCGCGCGCCAGCGGCGCCCACGCCTCGGTGCAGATGCCATGGCTGGAGTGGAAGTCGCGCAACTCGGGCTGCGTAAAGCCCACGTGGAGTTCAACCTGATTGAGCACCGGAGTTACCCCGGTGGCGGCGATGACCTCCGAGAGCACCTCCGGGTAGAAGTTGGCTACCCCGGCGGCCTTGAGCGCCCCGCCCTCCTTGAGCCGCGCGACGCGCTCGAAGGCTTGGGCGTAGAGGCCGCGCTGCGGCCACGGCCAGTGCACGAGGTAGATGTCGATGTAGTCGAGCCCGAGACGGCGCAAGGATTCCTCGAAGGCCTCCTCCACGCGGTCCTGGTCGTCGTTCCACAGCTTCGTGGTCACGATCAGCTCGTCGCGGGTGACGTCGCCGGCCGCGATCGCATCGTTGATCGCCCGGCCGACTTCCTCTTCATTGCCGTAGAGCGCCGCGGTGTCTATGTGCCGGTAGCCCAGCTCGATCGCGGTGCGGACAATGGTTTCGGCCTCGGCGCCTACCAACTTGTAGGTGCCGAGGCCCAGGAGCGGAAGCTCAGTTCCGTTGTTCAGGGTTGTCGCAGGAATTCGCATAACCCCGATTGTGCCAAATTTAGCTGGCGTCGAGCAGATCGATGA	MRWILGIATLTHPFCAAYVWKLTLSHALVITGHTKFIGSAKLFCQVRTSKSSLDQPATPEKVVLLRRLTVPPLPPPRSLIDVPEKRQRIPRHPLSRDPVQRRDLGLAQRHIHGAEVLHEALRVGRLRDHGAAMPHQVREHHLRRRGAVRVGDRSNLGLGEVLTARQRRPRLGADAMAGVEVAQLGLRKAHVEFNLIEHRSYPGGGDDLREHLRVEVGYPGGLERPALLEPRDALEGLGVEAALRPRPVHEVDVDVVEPETAQGFLEGLLHAVLVVVPQLRGHDQLVAGDVAGRDRIVDRPADFLFIAVERRGVYVPVAQLDRGADNGFGLGAYQLVGAEAQERKLSSVVQGCRRNSHNPDCAKFSWRRADR				NA	NA	NA	NA	NA
AK009_07391	375			hypothetical protein	GTGCCAAATTTAGCTGGCGTCGAGCAGATCGATGACGAACACGAGCGTGCGCCCGGACAGCGGGTGCCCGCCGCCGGCCGGCCCGTAGGCCTTCTCCGGCGGGATGGTCAGCTCGCGACGGCCGCCGACTTTCATGCCCGGGATGCCCTCCTGCCAGCCTTCGATGAGGCCTGCCAGCGGGAACTCCGCGGCCTCGCCGCGGTCCCAGGAGGAGTCGAACTCCTCGCCGGTCTCGTAGTCGACGCCCAAGTAGTGCACTCGGACGAAGCCTCCTTCAACAGCTTCGGCGCCCTCACCGACGGTGAGGTCCTCGATAACAAGGTCGACGGGTGCCGGTTCGGTCGGGAGGGAAATCGTGGGCTTTTCCATTGTTGA	MPNLAGVEQIDDEHERAPGQRVPAAGRPVGLLRRDGQLATAADFHARDALLPAFDEACQRELRGLAAVPGGVELLAGLVVDAQVVHSDEASFNSFGALTDGEVLDNKVDGCRFGREGNRGLFHC				NA	NA	NA	NA	NA
AK009_07392	1404			hypothetical protein	GTGGGCTTTTCCATTGTTGAGACAGCTCCTTGTCTAGCGCTGGTCGCGCGGTACGAATTCGCGCTTGGTGGCGCCGGTGTAGATCTGGCGCGGGCGGTTGATCTTGGAGTTCATTGCCAGCTGCTCGCGGTAGTGAGCGATCCAGCCCGGCAGGCGGCCGATGGCGAAGAGCACCGTGAAGAAGTTCGTCGGGAAGCCCATCGCGCGGTAGATCAGGCCGGTGTAGAAGTCAACGTTCGGGTAGAGCTTGCGGGAGATGAAGTAGTCGTCGTTCAGAGCGATCTCCTCGAGCTTCATAGCGAGGTCAAGCAGCTCGTCGCCGCCGAAGTGCTCGAGCACCTCGTGAGCGGTCTCCTTCACGATCGCGGCGCGCGGGTCGTAGTTCTTGTACACGCGGTGGCCGAAGCCCATCAAGCGCACGCCCTTTTCCTTGTTCTTCACGCGGTCCATGAAGTCGGTGGCGTCGCCGTCGTGGTTGTTCTTGATGTCCTCGAGCATCTCGAGCACGGCCTGGTTAGCGCCGCCGTGAAGCGGGCCAGCCAGTGCGTTAATGCCACCGGCGATGGAGACGAACATGTTCGCCTGCGCGGAGCCGATCATGCGGACGGTGGAGGTGGAGCAGTTCTGCTCGTGGTCAGCATGCAGGATGAGCAGCTTGTCCAGCGCCTTGATCAGGACAGGGTCGACCTCATACGGCTCGGTCGGGTAGCCGAACATCATGCGCAGGAAGTTCTCTCGCGGGTTCAGGGAATTGTCCGGGTACATGTACGGCTTGCCCTTGGACGCGCGGAACGCGTACGCCGCGAGCATCGGCACCTTCGCCATGAGGCGCACGGTGGCCTTGTCCAGCTGCTCCTCGTCCAGCGGGTCAAGCTGATCCTGGTAGTAGGCGGAGAGGATGTTCACCGAGGAGGCCAGCACGGCCATCGGGTGGGCGTTGCGCGGGAAGATGTTGAACGCGGCCTTGAAGTCCTCGTCCAGGAGGGTGTGGTGGCGCAGCTCGGAGTTGAACTTGTCCAGCTCCTCGGTCGTCGGCAGCTCACCGTTGATCAGCAGGTAGGACACCTCGTTGAAGGTGGCGTTGTTGGCCAGATCAGCGATGTCGTAGCCGCGGTGGCGCAGAATGCCCTCGTCGCCGTCGATGTAGGTGATCTTCGACTCGGTGGAACCGGTGGATACGTAGCCGGGGTCGAAGGTGACCAGGCCGGTCTCGCCGAGCAGCTTGCCCAGCTCAAAGCCGTCGTTTCCCTCGGTGGCACGCTTGATTTCCATCTCGTACTCGCCACCCGGGTAGTGGAGCACGACCTTGTCGTTGTTCTCAGTAGCCACTGCAAACCTTTCCTCGTAAGAGTAGATGGGCACCCCATCGAGCCGCACGCGCGACGGTGGGAGCGTTATCAGTAA	MGFSIVETAPCLALVARYEFALGGAGVDLARAVDLGVHCQLLAVVSDPARQAADGEEHREEVRREAHRAVDQAGVEVNVRVELAGDEVVVVQSDLLELHSEVKQLVAAEVLEHLVSGLLHDRGARVVVLVHAVAEAHQAHALFLVLHAVHEVGGVAVVVVLDVLEHLEHGLVSAAVKRASQCVNATGDGDEHVRLRGADHADGGGGAVLLVVSMQDEQLVQRLDQDRVDLIRLGRVAEHHAQEVLSRVQGIVRVHVRLALGRAERVRREHRHLRHEAHGGLVQLLLVQRVKLILVVGGEDVHRGGQHGHRVGVAREDVERGLEVLVQEGVVAQLGVELVQLLGRRQLTVDQQVGHLVEGGVVGQISDVVAAVAQNALVAVDVGDLRLGGTGGYVAGVEGDQAGLAEQLAQLKAVVSLGGTLDFHLVLATRVVEHDLVVVLSSHCKPFLVRVDGHPIEPHARRWERYQ				NA	NA	NA	NA	NA
AK009_07393	492			hypothetical protein	GTGCGCCCAGGCGACGACGTCCGCGTCGACCCCGGAAAGCGCCTGCGGGTCGGGGGCGTCGCCCGGCTCGGCCTCGACCACGTGCGGGTCGTTCAGCCACGGGGCCTTCTTCGCAGCCTTTGCAAACTTGGAGGAAAACTCGCCGAAGCTCAAGTGCGCCGACGTGTTCTCAATCACGCCGAAGGTGGCCGCGTCCCAAAAGGCGGTTGCGCCGCCGAGGGAGAGGACAATCTCGTAGCCATCGGGGAGGCTGAAGAGCTCACTCAGACCCTCCCGAACCTCGCCCACGACGTCCTTGACCGCGAGCTGGCGGTGGGAGGTGCCGATGATGGAGGTGGCACCGCGAGTCAGCGCGTCAAGCTGGGCGGGGCGCACCTTCGACGGCCCACAGCCGAAACGGCCATCAGCTGGGAGAAGTTCGCTGGGGAGGGTGGGGTAGTTGCTCATTCGTGCCTCAATCTTTTCTGTGTGTTACGTGGTGTCGAATACTAG	MRPGDDVRVDPGKRLRVGGVARLGLDHVRVVQPRGLLRSLCKLGGKLAEAQVRRRVLNHAEGGRVPKGGCAAEGEDNLVAIGEAEELTQTLPNLAHDVLDRELAVGGADDGGGTASQRVKLGGAHLRRPTAETAISWEKFAGEGGVVAHSCLNLFCVLRGVEY				NA	NA	NA	NA	NA
AK009_07394	336			hypothetical protein	GTGATTCTCCGCCCACCCGTAGAGTGCCTCGGCGTTCGCGCTGGTGCGCTTGACCATGCCGTCGAGGCCACCGTTGTCGTTCATCCACTTCACCTGGTCGGCGAGCATGAGGAGGGTCCCCACGGCCGGGGTGTTGTAGGTCTGATTCTTGCGCGAGTTCTCCACGGCCGTCTGCAGGTCCAGGAAGGCGGGGATGAAGCGGCCCGAGGCGTGGATCGACTCGATGCGCTCGATCGCGGCGGGGCTCATCGCAGCCAGCCACAGGCCGCCGTCGGAGGCAAAGCTCTTCTGCGGCGAGAAGTAGTAGATGTCGGCTTGGGACATGTCGACCGGTAG	MILRPPVECLGVRAGALDHAVEATVVVHPLHLVGEHEEGPHGRGVVGLILARVLHGRLQVQEGGDEAARGVDRLDALDRGGAHRSQPQAAVGGKALLRREVVDVGLGHVDR				NA	NA	NA	NA	NA
AK009_07395	888			hypothetical protein	ATGCGTGAGCTCTACGCGGTCGCCGAGGAGTCGACCGAGACGTTCCTCGTTATGCGCGATGCCGACGGTGTGCGCTACCAGTTGGCGCGCGCGCAGCTGCACTCGCTTCACGGCCCTGCCGAGCACGACGCCGAACCCCTCGATGTTGAAGTAGTCGAAGCCGAGGTAGAGCCTTCGGACACCCCGACCTACGACTCGCTGCCGCGCGTGCCCTCCTTGCCGGACCCGGACCCGCTGTTCGCCACTCCCCTGTCGATGCGCCCGAGCGAGATCCAAGCGAAGATCCGCGCGGGTGCGACGCAAAAGGAACTGGCCGACGAAATGGGCGTTGCCGAAAGCCGCATCGAGGCCTACGCCCACCCGGTGCTGCTGGAGCGCTACCAGGTCGCCGAAGCCGCGAAGCAGTCGCACCCGCTGCGCGAGGGCGGGCCGGCCAAGCTCACGCTCTTTGAGATCCTCGCCACCGCGTTTGCCGCGCGGGGCAATTCGCTCAGCCACGCGGAGTGGGACGCAACGCGCGAACCCGGCGACGATTGGGTGGTCCACGTGCGGTGGAAGTCGGGGTTGAGCGAGAACGAGGGGCTGTGGTCGTTTAAGCGCGCCATGGGCGCCAAGGCCACGACGCAGCCACGCAACTCCGTCGCCGCCGACTTAACCGACCCCGACTTCGTGCAGCCGATTCGCTCGCTCACGGCCGTGGAGCCCGACACCCCGCAACTGCTCGAGCCGGAGGCCGGGACGGACGATTCCCCGGTGGTGGAGGGCGACTTCCTGCGCCACCCCGACGGCGACGAGCAGCCCCAGCAGCGCCGGCGCAAGGCCGTCACCCCGCACTGGGAAGACGTTCTGCTCGGAGTGAGAACGAACACGAAACGCCCCCGGAAGTAA	MRELYAVAEESTETFLVMRDADGVRYQLARAQLHSLHGPAEHDAEPLDVEVVEAEVEPSDTPTYDSLPRVPSLPDPDPLFATPLSMRPSEIQAKIRAGATQKELADEMGVAESRIEAYAHPVLLERYQVAEAAKQSHPLREGGPAKLTLFEILATAFAARGNSLSHAEWDATREPGDDWVVHVRWKSGLSENEGLWSFKRAMGAKATTQPRNSVAADLTDPDFVQPIRSLTAVEPDTPQLLEPEAGTDDSPVVEGDFLRHPDGDEQPQQRRRKAVTPHWEDVLLGVRTNTKRPRK				NA	NA	NA	NA	NA
AK009_07396	249			hypothetical protein	GTGTGCGAACCCGGCAAAGTCCGAGTCGGTGCCCTCCACGAAAACGAACGTATCGGCGGCGGGCAAGGTCTCGCGCAGCGCAGACGCCGCCTCGGACGCGGTGGTCACGTCTTCGACGAAGGTTTGCACCACGGCCACGCCGGGGTAGCCGGCGATGTAGAACTCCGCCCGGCCCGGCTGCGAGGAGCGGTTGAGCGGGAAATCGCCGATCGCGGTGATCGGCCAGGCGGGGTTGAGCTGGGCGAGTAG	MCEPGKVRVGALHENERIGGGQGLAQRRRRLGRGGHVFDEGLHHGHAGVAGDVELRPARLRGAVEREIADRGDRPGGVELGE				NA	NA	NA	NA	NA
AK009_07397	612			hypothetical protein	GTGGCGGCTCGTGTCGCTAACCCCCGACGACGCCGCGGAGCATCTCGCCGAGGCGCTAGTCGACGCCACCGGGCGCCCCTGGGACAAAGTCGCGCTGCTCGTCGGCGGCGAGGGCCCAGGGCTGACCGAGCACGCGATGCGCGCCACCGACGTCCGCGCCCGCATCCCCATGGCCCCCGGCACGGACTCGCTCAACGTTGCGACCAGCGCCGCGATCGCCTTCTACGAGCGCCAGCGCAGCCTGCGCTAGCGGTCCGAGTGGCGGATGCGCTCCTGCACCTTCGCCGCCAGCGCCTTGGCGCGCCGGGAGAGTCCGCGCCCGATGCGCTTTGCCGCGGCCAGGGAGGCGTCGGCAAGCTCGGCGAACTCCCCGCCGTCACCTGGCTCGGCATCGGCGGCGACGTAGTCGTCGTAGCCTTTGTCCTTCTCCGCGAGGCGCGACGCGACCTCCGCGACGGTCTTGGTCCGCGGGGCGGGGGCCGCGATCTTCGGCTCGGGTCGGCCATCCACCGCGTAGCCCACGACGTTCAAGTCGGGGCCATCCGGGGAGACGTCGACGCCGATCCAGCTTGTCTGGGCCGCGGCGGCGAGTTCCTTGGGTACGAAGGGTAG	MAARVANPRRRRGASRRGASRRHRAPLGQSRAARRRRGPRADRARDARHRRPRPHPHGPRHGLAQRCDQRRDRLLRAPAQPALAVRVADALLHLRRQRLGAPGESAPDALCRGQGGVGKLGELPAVTWLGIGGDVVVVAFVLLREARRDLRDGLGPRGGGRDLRLGSAIHRVAHDVQVGAIRGDVDADPACLGRGGEFLGYEG				NA	NA	NA	NA	NA
AK009_07398	447			hypothetical protein	GTGCAGCTCGTCCAGCGAGCGCTGCCAGGTGGTTGCGGCACCGTCGAGGTGCGCGAACGGCAGGCGGAGCGCGTGGCCCATGGAGACGCGCACGCTGCGGCGGTACAGCGGGTCGGCGGTCGCGGCGCCGAAGAGGACCCCGTCGACGTCCATGCCGGCGGCGTTGCGGAAAATCGCGCCGATGTTCTCGTGGTCGCCGACGCCCTCGAGGACCACCAGCGTGCGGGCTCCCTCGGTAACGTCGGCGACGCTCAAGGGCGCGGGGCGCTCGGCCACCGCGATCAGCCCGCGGTGCATGTCGTAGCCCGCGACCTCGGCCAGAAGCGGGCGCGTCACCTCGTAGACCCCCACCGACTCGGGCAGGCGCCCGCCGTAGTCGGAGAGGAAGCTGTCCAGGCGTCCCCCAAAGCCGATCACGCTGCGCAGCGGGAAGCGCGATTCCACTAA	MQLVQRALPGGCGTVEVRERQAERVAHGDAHAAAVQRVGGRGAEEDPVDVHAGGVAENRADVLVVADALEDHQRAGSLGNVGDAQGRGALGHRDQPAVHVVARDLGQKRARHLVDPHRLGQAPAVVGEEAVQASPKADHAAQREARFH				NA	NA	NA	NA	NA
AK009_07399	495			hypothetical protein	GTGTCGGAGTGCTTCAGGTCGCGGACGTCGTCAAGGCGGGCGTCGGCGGGGTCGTCAATACGCGTGCGCATGCTAGGCGCCGAGCGCGGCCATGACGGGGCCGTGGGCAAAGAAGACGATAAACAGCGCGGAAATCAGCCACATGATCCAGTGGATCTCGCGGCTCTTGCCCGCAAACAGCGCCATGAGGGTAAAGGAGATGAAGCCGACGCCAATGCCGTGGGCGATGGAGAAGGTAAACGGCATGATCACGATCGTCAGAAATGCGGGCAGGGCGATGTGGAACTCGTTCCACTGAATCTGGCCCACCTGCATCATCATCAGCGCGCCGACGACGACGAGTACTGGGGCGGCGGCCTCGATGGGCACGATCGCGTACAGCGGAGTGAAGAACATTGCGGCGAGGAACAGAAGGCCGGTGACCACGTTGGCCAGGCCGGTGCGCGCGCCGTCGGCGATGCCTGCAGAGGAATCGACGTAGACCGTGTTCGATGA	MSECFRSRTSSRRASAGSSIRVRMLGAERGHDGAVGKEDDKQRGNQPHDPVDLAALARKQRHEGKGDEADANAVGDGEGKRHDHDRQKCGQGDVELVPLNLAHLHHHQRADDDEYWGGGLDGHDRVQRSEEHCGEEQKAGDHVGQAGARAVGDACRGIDVDRVR				NA	NA	NA	NA	NA
AK009_07400	1071			hypothetical protein	GTGTTCGATGACGCCGAGGCCGCGCCGCCGACGACCGCGCCGAGGCCCTCGACGACCAGGGCGCGCTTCATCCCCGGCAGGTTACCGTCGGCGTCGGCAACGCCCGCCTGGCGGCCCAGCGCGGTCATGGTGCCCATCGCGTCGAAGAAGTTGGCCAGCACCAGGGTGAACACCAGCAGCGAGGCCGCGACGACACCCGCGTGGACGAAGCCACCGACAAGGTCGATGTCGCCGACGATAGACAGATCGGGCACCCCGCCCAGGGACTCCGGGATCTGGGGCACGGCCAGTGACCAGCCCTGCGGGCTGTCCGCCGAGGAGCCGGAGCCGGTCAGCGCCTCGACGATCAGCGCGATAATCGTCGTCGCCACGATGCCGATGAACAGCCCGCCGCGGATGTTGCGGATCACCATGAACCCGCAGATGATCAGGCCGATGACAAAGACGAAGGTGGGCCACGACGCGATCGAGCCGCCGATACCCAGCTGGACGGGCACGGTAGTCATCGCGGCGTCTGGGACACGGCGCACGAAGCCGGCGTCGACAAGCCCAATGAGCGCGATGAACATGCCGATGCCCACGCTCATGGCCACCTTCATCGAGTCGGGGATGGCGCGGAACACGGCGGAACGGAACCCGGAGATCGCGAGGATGCAGATGATGATGCCGTCGATGACCACCAGGCCCATGGCCTCCGGCCAGGTCAGGCCCTCCTGGCCAACGAGCGTGACCGCCACCAGGGTGTTCAGGCCCAGGCCCGCTGCGATGCCGAACGGGTACTTCGCCACCACGCCGAACAGGATGGACATCACTCCGGCGGCCAGGGCGGTGGCCGCAGCGACCTGGGGGATGCCGAGGACCACGCCGTCGCGGTCGGGGCTCGTGCCGATGATCAGCGGGTTGAGCAGCACGATGTACGCCATAGCGAAGAAGGTGACCACGCCGCCGCGGATCTCGGTACCCACTGTCGAACCGCGCTCGGAAATGTGGAAGTATCGGTCAAGCCAGCCGGTGCTGGTGCCGGTCACGGCGGTGGATCCGCTAGAGCTCACGTGTTGTCCCCTTGTCTGA	MFDDAEAAPPTTAPRPSTTRARFIPGRLPSASATPAWRPSAVMVPIASKKLASTRVNTSSEAATTPAWTKPPTRSMSPTIDRSGTPPRDSGIWGTASDQPCGLSAEEPEPVSASTISAIIVVATMPMNSPPRMLRITMNPQMIRPMTKTKVGHDAIEPPIPSWTGTVVIAASGTRRTKPASTSPMSAMNMPMPTLMATFIESGMARNTAERNPEIARMQMMMPSMTTRPMASGQVRPSWPTSVTATRVFRPRPAAMPNGYFATTPNRMDITPAARAVAAATWGMPRTTPSRSGLVPMISGLSSTMYAIAKKVTTPPRISVPTVEPRSEMWKYRSSQPVLVPVTAVDPLELTCCPLV				NA	NA	NA	NA	NA
AK009_07401	687			hypothetical protein	GTGGGTGGGCACACCGGCGCGGTTGATCGAGGTGCGCCCGCTGACGAGCGCGCCGTACTCGCGCCACGCGCTGACAAGCCGGGCCCCGTAGACGGGGTCGATCACCCACGTCTCCAGGCGCTTGAGCTCGTGGGCGGAGAACCCCGTGGGCGAGCGCTCGATGGAGCAGCCCAAATCCCCCAGGATGCTCAACACCCCGTCGAGCGCGATCGACGGGGTCGTGTCGGGGTGGGCGGAGACAGTGATTACTCCGTCGGCCACGGTGAGCAGGGGAGACGTGACGCACTGGACGACGCGGGAAGAGGCGTCGACAAGCAATGCTTCGTGCATGGGGAGCTCGACGAGCACGCTGCGCTGCCACCCCAGGTCCGGGCCGTAGTGGGCGGGGTGGAGGCGGTTGTCTTTGACGGGCAGCGCCTCGACGGTGATCTCCGTCGGCGCGGGGGCGAGGGGGCGCAGCGCCACCGACACCGTGGGGGAGGTGCCCTGCGAGACCTCCACCACGACGCGCCGCGTTCCGCTCAAGGTGGCCAGCCGCACCCGCAGGCGGTTCACCTCGGCCGCCGACACGCCAAGTTCGCGCAGCGCGCGGACGTAGGCGCGACCGTCGGTGACGAAGCCACCGACGATGACGAAGGTAAAGACGTGCACGATTTCGACCTTAAACTCTCTGTCATTTCGGTTTGA	MGGHTGAVDRGAPADERAVLAPRADKPGPVDGVDHPRLQALELVGGEPRGRALDGAAQIPQDAQHPVERDRRGRVGVGGDSDYSVGHGEQGRRDALDDAGRGVDKQCFVHGELDEHAALPPQVRAVVGGVEAVVFDGQRLDGDLRRRGGEGAQRHRHRGGGALRDLHHDAPRSAQGGQPHPQAVHLGRRHAKFAQRADVGATVGDEATDDDEGKDVHDFDLKLSVISV				NA	NA	NA	NA	NA
AK009_07402	663			hypothetical protein	GTGTGCCCCGCAGCCGTAGCTCGAGGCGACGAGGCGCCCGTCCGCGGCGTACTCGTTGGCGCACACGCCGAAGTTCTCCCCCACAGGCGGGGCCATCGGGATGTAAAACGCGCACGTCCGACACGCCATCGCGGCCTGCTCGGCGAATTCGCTGGTCGGCCCGAAATCGCCGGTACGCCAGCGCTGCTTCGCCTCCTCCAGCCCGTTGACCGTGAGGTAGTTCGCGGTTTCGCGCCCGACAAAGGTAACGGCGTTTTTGTCAAAGGAGTCGTCGGTCAGCCGGTGGTCGTCCGGGGCGGGCTCCATGACGTCGCCGGGGCCGAGGTCGCCGGGGCGCAGGCGATCGGAGTAGGGCACCCACTCGGGTGCCTGCAGGGCGTCGGAGGCGGGGACGAGGGCGACTTCGTTGATGGTGACACGGCTCGCCCCGGTCGCACAGGCGACGACCGCGTTCCACTCCCAGCCCGGGTAGCCGGGCACGTCTGCCTCGAAGCGGTGGGTGGCCACGTTCGGGGACACGGCCGCTACGCCGATGTGGGGGCCGATGTCACCCTCGGCGATTTCTTCCAGGGCCTGCCTCGCAGCCGCGACGGCTGCCTCGCCGAGCAGAGGGCTGTTAGCGCGCCGGTGAGCGCGATTCCTGGACTGAGACACGAGGCCTAG	MCPAAVARGDEAPVRGVLVGAHAEVLPHRRGHRDVKRARPTRHRGLLGEFAGRPEIAGTPALLRLLQPVDREVVRGFAPDKGNGVFVKGVVGQPVVVRGGLHDVAGAEVAGAQAIGVGHPLGCLQGVGGGDEGDFVDGDTARPGRTGDDRVPLPARVAGHVCLEAVGGHVRGHGRYADVGADVTLGDFFQGLPRSRDGCLAEQRAVSAPVSAIPGLRHEA				NA	NA	NA	NA	NA
AK009_07403	840			hypothetical protein	TTGCTCCTCGTTGGCCGCTGGGTCGTCGTAAATGCTCAGCAGGCGCCAACTCGACGCCGCGAGATCCTCGGGAACGCTCACGCTCACCTCGGAGGCGGGATCGAGGTCAAACGACGGCGGCTCGCCCCCGACGCACTCCGCGTCCAGCTCGCACACCGTATAGGGAGCGACCTCGAGCTCGGTTCCGCCGTTGGACACCACCACGCGAATCTCGCCCACGGGGGCGGCGGGCTTGCTGCGCTGGTAGTCAACAATGAGGTAGAACCCGCCGACGAGCACCACCGCGGCGACGATGAGGAGAGCCAGAAGCTGCCACGCCTTGAGTTTCATGGATCTCTACCCTACGGCAGCGGGTTGAAAGCTCACCCTGTAGAGGTCCGGCCAGCGCTTGCCGGAGAGGTAGAACTCCTCGGTGCCCGGGATGTGCGCAATCCCGTTGAGCACGTTGTTCGGGTCGGGCGCGGCGTTGTTCGGCAGCGAGGAGGCGTCGATCACGGCGGTGACGTCGCCCGTGGTGGCGTCGATACGCACGATGTCGGTGGTGAGGAAGACGTTGGCGAAGATCTGGTCGCCCACGCACTCGAGTTCGTTGAGCCGCGGCACTTCCGTGCCGTTGAGGGTGACGTCGAAACGCTCGCGCTCGGCGAGGGTCTCTGGGTCCATGCGCCGCAGCTGCGAGGTGCCGTCGGAGAGGATCACCTCGCCGTCGCGGGCGCACACGCCCCAGCCCTCGCCCTCGTAGGTGGTGCGCCCCAGCTCGTCGAGCGTCTGCGCATCGCGCTTGATGGCGACACCGTCCTGCCAGGTCAGCTGCCACAGGTGGTCGTCGACGCGCGTTAA	MLLVGRWVVVNAQQAPTRRREILGNAHAHLGGGIEVKRRRLAPDALRVQLAHRIGSDLELGSAVGHHHANLAHGGGGLAALVVNNEVEPADEHHRGDDEESQKLPRLEFHGSLPYGSGLKAHPVEVRPALAGEVELLGARDVRNPVEHVVRVGRGVVRQRGGVDHGGDVARGGVDTHDVGGEEDVGEDLVAHALEFVEPRHFRAVEGDVETLALGEGLWVHAPQLRGAVGEDHLAVAGAHAPALALVGGAPQLVERLRIALDGDTVLPGQLPQVVVDAR				NA	NA	NA	NA	NA
AK009_07404	384			hypothetical protein	ATGCCCGTTGGAAAAGTGAAGTGGTACGACGCTGACAAGGGTTTCGGCTTCGCCTCAAACCCGGGCGATGAGGACGTGTTCGTGGGCAAGAACGTCCTACCCGAAGGCGTCGACGAGCTCGTCGCTGGCCAGCGCATCGAATTCGACTTCGCCGCTGGGCGCCGCGGCCCCCAGGCGCTGCGCGTCAAGGTCTTGGACACGCCGAAGCGGCGCCAGACGCACCGCTACAAGCCCGAGGAGCTCAACAAGCTGCTCGCCGACATGATGACGGTCCTTGAAACGCAGATCCAGCCGGCCCTCGAGGCGGGTCGCTACCCGGACCGAGCGCACGGCAAGCAGGTTGCCGAGATCCTGCGCGCTGTGGCCAAAGAGCTCGACGCTTAA	MPVGKVKWYDADKGFGFASNPGDEDVFVGKNVLPEGVDELVAGQRIEFDFAAGRRGPQALRVKVLDTPKRRQTHRYKPEELNKLLADMMTVLETQIQPALEAGRYPDRAHGKQVAEILRAVAKELDA	PGPT0014675_1362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_07406	627			hypothetical protein	ATGGCACGTCACTCTAAGCAGAACGCATCCTTCGCTAAGAAGGCGCTCGCTGGCACCGCTGCCGCGGCAGCACTGACCGGTATCATCGCACCGGCAGCCAACGCTGCTCCGGACTCCGATTGGGACCGCTTGGCTCAGTGCGAGGCCGGCGGCAACTGGTCCATCAACACCGGCAATGGCTACTACGGCGGTCTGCAGTTCTCCGCGTCCACCTGGCGCGCCTACGGTGGCGGCCAGTTCGCACCGTATGCTCACCAGGCAACCCGCGAGCAGCAGATCATCGTCGCCGAGCGCACCCTCGCCGGCCAGGGCTGGGGCGCATGGCCTTCCTGCTCCGCTCGCCTTGGCCTGAACTCCGCTCCGACCAACCGCGACGCCCAGGCCGCGCCTGCTCCGGCACCTGCTCCGGCCCCGGCAGCCGCTCCGGCCGCAGCGCCGCAGGTTGACGCTCTGTACCACGCGATCGTTGCCCGCCTGAACGAGAACAACATCGCCGTCCCGGCCGAGCTGCACACCGCGTACGCAGCGAACCGCGACAACTACAACAACTTCTACCTCGCCAACAAGGCGCTTATCGACGCCGTCCTCGCCGGCGACGTCAACGCTGTCATCGCCAAGCTAGTCTAG	MARHSKQNASFAKKALAGTAAAAALTGIIAPAANAAPDSDWDRLAQCEAGGNWSINTGNGYYGGLQFSASTWRAYGGGQFAPYAHQATREQQIIVAERTLAGQGWGAWPSCSARLGLNSAPTNRDAQAAPAPAPAPAPAAAPAAAPQVDALYHAIVARLNENNIAVPAELHTAYAANRDNYNNFYLANKALIDAVLAGDVNAVIAKLV				NA	NA	NA	NA	NA
AK009_07407	150			hypothetical protein	GTGGCCGTTGTCGGCGGCCCACTGCGGGATGGACTCGGTTGCCTGCGTGCAGTCGAAGTCGATGACCAGCTTCTCGCCGTCGTCAAGCTCGGCGATGGCGTCCTTGGCCTCGATCAGCGGAAAGGGGCACACCGCCCCGAGGGTGTCTAG	MAVVGGPLRDGLGCLRAVEVDDQLLAVVKLGDGVLGLDQRKGAHRPEGV				NA	NA	NA	NA	NA
AK009_07408	651			hypothetical protein	TTGCGTTGTGGGCACGGTGATCAGTCCCGTTGCCACCTGGAACCCGCCGCCCTGCGGGGTGGATTCAATCACCGCGTCCTCCGCGGACCGGATGGAGTCCTCGGTGCTGTAGGTGCCCTGCGGCGCAGCAACCGAGGGCTTGAGCCAGATCTTGGACCCGACGAAGACGCCCAGGGCGATGAACCCGAGGGCGACCCACCCCTGGTAGCTGAACAGGGAGGTCTGCACCATGCCGTTGCCCACGGTGCAGCCGCCGGCGAGCGCCGCACCGACGCCCATGCCGATCCCGCCGACGATGGCGCGCACGGTCGTGGTGGCGTCAGGCACGCGCACGCGAAATTCCCCGGACGCCTTCGCGGCGATAAACGCGCCGATGAACAGGCCGATCACCAGCAGGGTGCCCCAGTTCAAGAACTTCTCCTCGCCCGTGGTGATGAAGGAGACTGCGTGCGCGCTCGGCGTGGTAATCCCGAGGCCGTCGTTGCGCCCGGTGGCGGCGGAGAGCGGCCACGCGATCACACCAAGGATGCCGATGAGCGTGCCCGCGGTGTAGGGGTGCAGCGCTTTCTTGTACCAGGGTTGCTGCAAGGTGACCTTCGGTCGCGCGGCGTCCTTGGCCAGGTAGTAATGCGCGGCCCAGGCCGTCGCTAG	MRCGHGDQSRCHLEPAALRGGFNHRVLRGPDGVLGAVGALRRSNRGLEPDLGPDEDAQGDEPEGDPPLVAEQGGLHHAVAHGAAAGERRTDAHADPADDGAHGRGGVRHAHAKFPGRLRGDKRADEQADHQQGAPVQELLLARGDEGDCVRARRGNPEAVVAPGGGGERPRDHTKDADERARGVGVQRFLVPGLLQGDLRSRGVLGQVVMRGPGRR				NA	NA	NA	NA	NA
AK009_07409	138			hypothetical protein	GTGGACGGCGATGACGATGAAAAGGGCGACGAGTCCGCGGCCCTTTTTCTGCAGAAAGACATCGCGCAGCATGCCGGTGACGCAGAAGCGGCCGCGCTGCATGATGGCGCCGAGGGCGGCGCCGACGACAAGACCTGA	MDGDDDEKGDESAALFLQKDIAQHAGDAEAAALHDGAEGGADDKT				NA	NA	NA	NA	NA
AK009_07410	1362			hypothetical protein	GTGGGTCGCGGCCGCGTCGTTGATCAGGAACAGCAGCCCCTGCGGGACCTCGCCGACGCAGTGCTGCTCCAACCAGCGCGTCAGCTCCGCGCCGGTGCGCCCGGCGTTCAGCGCGCGCTGCACCGTCGCCGGCGTGACCCGGTACACACTCGCCATCCCGGGCGATTCGAGGTCGGCGAAGGACTCCAGCGTCGCCGCCATTTCCGGGGGCAGGGGCCCTGGGGCGAGGATGGTCAGATCCGCCTGCGCGATGACGTAGTTGATCTCCGCGGGCACGAGCGCTCGCGTCGCCTCGACGAGGTCGGTGCCTTCGACCACCGTGCGCCCGGGCGCGGCAGCGGTGTCCAGCGCGAGCGCGCCGATCGCGTGGCCCTCCTCGACAATGCTGCCCAGCAGAGCAGGCGAGATCCCGGAGGCCAGGATCGGGCTGTAGTGGTGCAGGTTTGCGCTCAAAGTCTCGCTATCCATCGCGCCAGCGCACAACCGCTTGACGACGCTCAACCTCACAAACCGGATCTCCGGCGCCCGCGAATCCTCGCTGAGCAGCTTCGTGTCCAGCTCGGTGCGCCACGGCGAGGCCAGCCACCCCAGAATCAGCACCGCCCACTGCTCGGGCAGGGCGCTGCCCAGCCAGGTGACACCGTCGCGGGTCGCGGCCAGGCAGTCCGTGTCGTCGATCGCGCCGCGACCGATCAGGCCTGCGGATTCGGCCACGGTGACGGCAAGCGCGGGGTCGAACCCGAGCTCCTTTTCCAGCGCGCCGCGGGCGCGCACCCCGACGCTGCCGTCTTTGAGCAGCTCGACCGGGGAGTCGAGCAGGTGGGCTATCGTGCGGCGGACCTGGCGCACGGCTTCGAGCCCGGCGGCGGTAGAGGCGGCGTCGACACGCGATTGCTCAACCGCATGCGTCGGCGCGACCGGTTCGAGCGGGTAGGTGCGCACGGGCGTGCCGCGCAGGGCTTCGCGCACCGGCCGCGGCAACCGCACGGTCGTGGAGTTCACCCGCACGAGCAGCCCGAGGGAGAGCAGACGCGGCACCGGCAGCGTCGGGTCGGCGTCCGGGGCGGCGCCGCGGGTCGTGCCGATCGAGCCGGAGGCAGCAAGCGTGTCCAGCACCTGCCGCTCCCGGGGACTGATCGTGTCGAGCGACTGCGCCAGGTTGGCGGGGGCGGGGTCGAGGATGCGCCAGCCCGCGGGCAGCGCCGAGAGGACGCCGGGGGCAACGCGCAACGCCTCGTCGGGTCCGAACACGAGGGCGTGGGTGCGCAGGCGCGCCAGCGGCTCGCGCGTGTCAAAGGGTACGTTGATCGCGTCGAGTGCAACCGGGTCGAGCTCTGCGCCGGCGTCGCCCAGCGTTTCTAG	MGRGRVVDQEQQPLRDLADAVLLQPARQLRAGAPGVQRALHRRRRDPVHTRHPGRFEVGEGLQRRRHFRGQGPWGEDGQIRLRDDVVDLRGHERSRRLDEVGAFDHRAPGRGSGVQRERADRVALLDNAAQQSRRDPGGQDRAVVVQVCAQSLAIHRASAQPLDDAQPHKPDLRRPRILAEQLRVQLGAPRRGQPPQNQHRPLLGQGAAQPGDTVAGRGQAVRVVDRAATDQACGFGHGDGKRGVEPELLFQRAAGAHPDAAVFEQLDRGVEQVGYRAADLAHGFEPGGGRGGVDTRLLNRMRRRDRFERVGAHGRAAQGFAHRPRQPHGRGVHPHEQPEGEQTRHRQRRVGVRGGAAGRADRAGGSKRVQHLPLPGTDRVERLRQVGGGGVEDAPARGQRREDAGGNAQRLVGSEHEGVGAQARQRLARVKGYVDRVECNRVELCAGVAQRF				NA	NA	NA	NA	NA
AK009_07411	495			hypothetical protein	TTGCTACAGTTCTGTCGCGGTATCCTCCACGCCGGTAATGCGCGACAGCTCAACGCGCAGCACGCGGCCGGTGGCCTCGTCGAGGGCGTCGATCAGCCCGGCGTTGACAGTGACGGGGATGACCTTGCGCTGCGTGCGCTGCCCGCGCTTGTCCACGTAGCCGATGGTGACCGGCCGCCGCGCCCGCACCGAGGCGCGCAGGGTTTCCAGGAAATCCCGCTCCTCGGTTTCAGCCGCCCCGCCCGTCGCGCGCAGCGAGCGGATGACCTCCTCGCGGTGCGCCTCGTCGATGCTGCGCTCGCGCGGCACCGTCGACGGCGTCGGCGCGACGAGCTGTGGGGCGTCGTGAAGCGTAAGCAGCGCGGTGCCGTCGCCGTCGGCGGCGGGTTGAAAGCCGCGCTGGCGCAAGAGCGCGACGAGCTGCGGCACGGGCACCTGCGAGATCGCGACCGTCGGGGCGATGAGCTCCAACCCGTCGACGCGCGCCACGGCTGA	MLQFCRGILHAGNARQLNAQHAAGGLVEGVDQPGVDSDGDDLALRALPALVHVADGDRPPRPHRGAQGFQEIPLLGFSRPARRAQRADDLLAVRLVDAALARHRRRRRRDELWGVVKRKQRGAVAVGGGLKAALAQERDELRHGHLRDRDRRGDELQPVDARHG				NA	NA	NA	NA	NA
AK009_07412	885			hypothetical protein	GTGCCATTACTGCACTGCCTCCTTGAACAGGTCGGTGAGGTCAGGGACCACGCGGGTGAATTCGTGCACGTCGCCGGCGTCCATCGCGGCGCGGAGGATGTCTTGGTCGAATCCAGCCTCGACACCGGTGACTTCGAGTACGACCGACTCCGCGTCCTCCTGGACGACCGCGGTGCCCGCCGGGTACCAGCCGCGTGCGCTGGTGCCCACGCGGTAGCGCACCGGGCCGCGGCTGCGCAGCTCCTCGACCCCGCCCTCGGCGACCATCCGGCCGTGGGCGACGATGCCGACGCGGTCGCACAGACGTTGCACGAGGTCGAGCTGGTGGGAGGAGAAAATCACGGGCACGCCGTGCTGCTTCGCGCGGTTGATGAGCATCCGGCTCATCACCTCGACCGCGACGGGATCGAGGCCGGAGAAGGGCTCATCGAGGATGAGCACGTCCGGGTCGTGGATCAGGCTGGCCGCGAGCTGGACGCGCTGCTGGTTGCCCAGCGAGAGGTCGTCGACCTTGTCGTCCGCGCGCTCGCTCAGACCGAGCTCCTCGAGCAGCGCAGTGGCGTTGTTCGTGGCCGTTTCAGTGCTCAAGCCGTGCAGCTTGGCCAGGAATACGAGCTGGTCGAGGATCTTTTCCTTGCCGTACAGGCCGCGTTCCTCCGGCATGTAGCCGATGCGGCGGCGGGTGTCATCGTCAAGCGGGCGGCCGTCGAAAAGCACCTCGCCCGAATCGGTCGCGAGCACCCCGAGCGCGATGCGCATGGTGGTGGACTTGCCGGCGCCGTTCGAGCCGACGAAGCCGTACATCTCGCCCTCGCGAACGGTAAGGCTCATGTCGTCGAGCGCTTGGGTGGTGCCGAACCTCTTCCTGAGGTTGCGGATTTCTAA	MPLLHCLLEQVGEVRDHAGEFVHVAGVHRGAEDVLVESSLDTGDFEYDRLRVLLDDRGARRVPAACAGAHAVAHRAAAAQLLDPALGDHPAVGDDADAVAQTLHEVELVGGENHGHAVLLRAVDEHPAHHLDRDGIEAGEGLIEDEHVRVVDQAGRELDALLVAQREVVDLVVRALAQTELLEQRSGVVRGRFSAQAVQLGQEYELVEDLFLAVQAAFLRHVADAAAGVIVKRAAVEKHLARIGREHPERDAHGGGLAGAVRADEAVHLALANGKAHVVERLGGAEPLPEVADF				NA	NA	NA	NA	NA
AK009_07413	564			hypothetical protein	TTGCGGTACCGGAAAGCGGGAGAAGCGCTCGAGCGTATCGACGGCCTGTTCCGCGTCGAACCCCGCGGCGCGCGCATTCCACAACGCAAGCGGGGTGATGCGGTACGTGTGGACGTGCTCGGGGGCGCGCTCCAGCTCAGCGAACGGGGCGAGCGCGGCGCGGGCGGCCCCGGCGTCGGGGTGGTTGACGTCGAGAAGCACCGTCCGGTCAGATTGGACAATGAGCGGGCCGTCTGGCTGTGCGGGCATAGGCCCACGCTATCAGGCGCGGATTGCCTGCAACCACGACCTCTTGCCGCCGTTGTAGAGGATAGAGCTGCGGTAGATGCGGCCCGCGAGCCAGATCGCCACCACCGTGGCCACGAGGGCGAGCGCGTAGGAACCGAGCAGCTGCGTGGCGGTGAAGTCGCCGCCGGCGTAGGTGATCGGCGCGGTGAAGATGGAAAACGGCGGGATCCAGCTGAGCGCCTGCATCCACGTCGCGTCGGTGTGCATCCAGCCGAAGAATGGTACGTACATCGACCCCATCAGCAGAAACAGGATCGGCGCCTGGGTGGATTGTAG	MRYRKAGEALERIDGLFRVEPRGARIPQRKRGDAVRVDVLGGALQLSERGERGAGGPGVGVVDVEKHRPVRLDNERAVWLCGHRPTLSGADCLQPRPLAAVVEDRAAVDAAREPDRHHRGHEGERVGTEQLRGGEVAAGVGDRRGEDGKRRDPAERLHPRRVGVHPAEEWYVHRPHQQKQDRRLGGL				NA	NA	NA	NA	NA
AK009_07414	453			hypothetical protein	TTGAAGCGTCGTGCGGCGCAGCAGCTCGTCGCGCCACTGCCGCCCGGCGACCGTGTTCGTGACCAGGATCAGCGTGGTGGTCTTCGCCTGCGCCATCGACGCCGCGCCCACAATCGTCTTGCCGGCGCCGCAGGGCAGCACCACCACACCGGAGCCTCCCTCCCAGAAGGACTCGGCGGCGTACGCCTGGTAGTCGCGCAGCTGCCAGCCGTCGTGGTTGAGCTCGATCGGGTGGGATTCGCCGTCGACGTAGCCGGCGAGGTCCTCGACCGGCCAGTTAATCTTGGTCAGTTCCTGCTTGATGCGGCCGCGCTCGGAGGGGAACACGGCGACGGTGACATCGTCAATGGCTGCGCCGAGCAGGCCCCGGATCGCCTTGTGGCGCGATATCTCCGTCAAGATGGCGGGGTCGTCCGCCTCGAGCACGAGGCCGTGTGCCGGGCTGTTGACTAA	MKRRAAQQLVAPLPPGDRVRDQDQRGGLRLRHRRRAHNRLAGAAGQHHHTGASLPEGLGGVRLVVAQLPAVVVELDRVGFAVDVAGEVLDRPVNLGQFLLDAAALGGEHGDGDIVNGCAEQAPDRLVARYLRQDGGVVRLEHEAVCRAVD				NA	NA	NA	NA	NA
AK009_07415	774			hypothetical protein	ATGTTAAAGGTCGTCGGCGTCGACGAGGCGGTAGGCATAGCCTTGCTCGGCGAGGAAGCGCTGGCGGCGCATGGCGTATTCCGCGTCGAGGGTGTCGCGCGCGACGACCGTATAAAACAGTGCGCCGCCGCCGTCGGCCTTCGGGCGAAGCAGCCGACCGAGGCGCTGCGCCTCCTCCTGGCGCGAACCGAACGTGCCGGACACCTGGATGCCGACTGCGGCATCGGGAAGGTCGATGGAGAAATTCGCCACCTTGGACACCACGAGAGTGGAAATCTCACCGGACCGAAACGCGTCGAAGGCCTCCTCGCGCTTCTTCGTCGACGTCGTGCCGTGCACCAGCGGGGCGTTCGTCCGGGCGGCGATACCTTCGAGCTGCTCGACGTAGGCACCGATGATCAGCACCTGCTCTCCCTGGTGCCGCGCAAGAAGCTTGTCGACGACCGCGTCCTTGCCCCGCGACGTCGCCGCGATCCGGTAGCGCTGCTTGGTTTCGGCGGTGGCGTAGGCCATTCGCTCCTCGGAGGTGAGCGTCGTGCGCACCTCCACGCACTCGGCCGTGGCGATGTAGCCGGCCATCTCAAGCTCTTTCCAGGGGGCGTCGTAGCGCTTGGGCCCGATCAGCGAGAACACGTCGTCTTCCCGGCCGTCCTCGCGCACGAGTGTGGCGGTGAGCCCGAGGCGGCGGCGCGATTGCAGGTCGGCGGCCATGCGAAACACAGGGGCGGGCAGCAAGTGGACCTCGTCGTAGATGATCAGTCCCCAGTCGCGTGA	MLKVVGVDEAVGIALLGEEALAAHGVFRVEGVARDDRIKQCAAAVGLRAKQPTEALRLLLARTERAGHLDADCGIGKVDGEIRHLGHHESGNLTGPKRVEGLLALLRRRRAVHQRGVRPGGDTFELLDVGTDDQHLLSLVPRKKLVDDRVLAPRRRRDPVALLGFGGGVGHSLLGGERRAHLHALGRGDVAGHLKLFPGGVVALGPDQREHVVFPAVLAHECGGEPEAAARLQVGGHAKHRGGQQVDLVVDDQSPVA				NA	NA	NA	NA	NA
AK009_07416	1827			hypothetical protein	GTGCAGGTTGTGCATGAACTGCAGCGGTCCAGGGATGGTCGGCAGCGGCCAGACACCGCCGAAGACAAACAGGCCGAGAGCGAAGACGCCGATGGAGAACAGTCCACCAACCAGGCGGCCGAACAGGATGCGGAACAGCTGGAACATGGCGGCGCCGCTGGCGGCGATGAGGAGGATCACCGCACCCATCGACAGCCAGTTGTCGGGCCTCCAGCCGAGGACCACGGACAGGGCGGTGAAGATGCCCATGACCAGGAGGTTGATGCCGAAGATCATCGCCAGGGCGCGCAGGACCGGGCCGGCACCGGTGCGGCTCTCACTGCGGCGACCAACGACGTGCGGCAGCAGTGCGGACAGGATCGCCATGACGAGGTAGCCGAACACGAGCATGATGATGATGGAGAAGCCGCTCTCGATCGACTTCACGGTCGGGTTAGCCGGGTCCACGAGCTCCTGCGTGGGGTGCATGTTGGCTTCCTCGAAGATGATCGGGACAGCCATCTGCTGTGCGGAGCGGTCGACGTACGACACGACCGGGGCCTGGGCAGCGCCCTCGTCAAGCTTCGACTTCAGCTCGCCGGAGCCGTCCTTGAGCTGCTGGACGCCGTCGGCAAGCTGCGTGCCGCCGTCGGTAAGTTGGGTGGTGCCGTCCTTGAGACGCACGGTGCCGTCGGCGAGCTGGGTGGTGCCGTCCTTGAGGCGGCCCGTGCCCTCGAGGAGGCGATCGGTGCCGTCGAGCAGTTCGGTGGAGCCGGAGGCGAGCTGCTGGGAACCGTCGATGAGCTGGTTAACGCCGCTGATGTAGGGGGCGTCGGGGCTGTTGAGGTTGTAGCTCAGCTCGGCGGTGCCGGCGCGCAGACGGTTGAGGTCGTTGACGATGTTGGCCGGGTTCGCTGGGTCGATACGCGATATCGCGGACTCAATCTGGGCTGCCTGGTCATTGAGGCCGAGGCTGCGCAGGGTGCCGATCACCGGAGTGACCTGGGTGACAATGCCCTGCGCCTGCTCGAGAATCGGGATCAGGGTGCCGGTCAGTTCCTGGACGCCGGCGTCGATCTGTGCGGCACCGTCGCCAAGCTGCGTCGTGCCGTCCTTGAGTGTGACAAGGCCGTCGTTGAGCTGGTACGCGCCGTCCTCGAGGCGGCGGGCGCCGTCGTTGAGTTCGCCAGCGCCACTGTTGAGCTCGGAGGCGCCGGCATCGAGCTGCACCGCACCGTCGTTCAGGTCGGTCGCGCCGCTATCGAGCTGGTTAATACCGTCGACGGCCCGTCCGGCGCCATCCTGGAGTCGGCCGAGTCCGTCGTCGATCTGGCCGGCGCCGTCTGCGGCGCGCTTGATGCCGTCGCCGAGCGAGTTAAGGCCGGTAAGGGTCTCGGTGGCGTACGTTTCCGAGATGGTGGAGGAGATCTCGGCCTGCAGCTGCGGAATCAGCGAGGAGGTGATGATCTTGCCGTTGGTGCCGCCGTAGTCGTTGTATTCCACGAGAACTTCGGACTGGCGGGGGTTGTCGGTGATCAGCGAGACCGTCCGCTCGGAGAAGTCCTCCGGGATGGTGACCACGAACAGGTAGTCGCCCTTGGTCAGGCCGAGCTGGGCCTCATCGGCGGGAAGTTCCTCAAAGTCGAGGTATTCGGTTTCCAGCAGCCCCTGGACCACCTGGTCGCCGACAACTTGGAACTCGCCGCCGTTTTCGGCGCCCTTGTCCTCGTTGACCACTGCGAGGGGAACGTTGGGGAGCGTCTTGGCGGGGTCCCACATGGACCACATGAACGTTGCTGCGAGAAGGAGCGGGATGACCAGGCACAGTACGATGACGATGCGGGCTAG	MQVVHELQRSRDGRQRPDTAEDKQAESEDADGEQSTNQAAEQDAEQLEHGGAAGGDEEDHRTHRQPVVGPPAEDHGQGGEDAHDQEVDAEDHRQGAQDRAGTGAALTAATNDVRQQCGQDRHDEVAEHEHDDDGEAALDRLHGRVSRVHELLRGVHVGFLEDDRDSHLLCGAVDVRHDRGLGSALVKLRLQLAGAVLELLDAVGKLRAAVGKLGGAVLETHGAVGELGGAVLEAARALEEAIGAVEQFGGAGGELLGTVDELVNAADVGGVGAVEVVAQLGGAGAQTVEVVDDVGRVRWVDTRYRGLNLGCLVIEAEAAQGADHRSDLGDNALRLLENRDQGAGQFLDAGVDLCGTVAKLRRAVLECDKAVVELVRAVLEAAGAVVEFASATVELGGAGIELHRTVVQVGRAAIELVNTVDGPSGAILESAESVVDLAGAVCGALDAVAERVKAGKGLGGVRFRDGGGDLGLQLRNQRGGDDLAVGAAVVVVFHENFGLAGVVGDQRDRPLGEVLRDGDHEQVVALGQAELGLIGGKFLKVEVFGFQQPLDHLVADNLELAAVFGALVLVDHCEGNVGERLGGVPHGPHERCCEKERDDQAQYDDDAG				NA	NA	NA	NA	NA
AK009_07417	798			Insertion sequence IS5376 putative ATP-binding protein	ATGACCCGCACCAGCGCCCACGACACCGCGGCGGCAATTAGTCACCTCGCACGGGAGTTGAAAGCCCCACGCATCGACAACGTCTACTCAACCATCGCCAATCAAGCACGTAGCCAATCCTGGACATTCGAGGAGTACCTCGCCGCCGTGCTATCCGTCGAAGCGACCGCCCGCGCGGAATCCGGAGCATCATTACGCGTCAAACGCGCCGGCTTTCCGGCCGTGAAAACCATCGCCGACTTCGACTTCACCGCACAACCCAGTATTGACCGCACTGAAATCGCACGCCTTGAAACCGGGGCCTGGGTCGCCACAGCTGAAAACGTCGTCCTGCTCGGCCCACCCGGAACCGGCAAAACCCACCTCGCCACCGCACTTGGCATCACAGCAGCGCAGCAAGGCTATCGCGTCCTCTTCGACACCGCCGCCGGGTGGATAAACACCCTCACCGAAGCCCACAACACCGGCAAACTCGAAACGCTGCTGAAACGATTAAACCGCTACCACCTGCTCATCATCGACGAACTCGGCTACATTCCCGTCGAAGCTGACGCGGCGAACCTGTTTTTCCAACTCGTCTCCAGACGCTACGAACACGGCTCCATCATCGTGACCTCAAACCTAGCGTTTTCCCAATGGGCGCAATGCTTCGGCGACATCACAGTAGCCACCGCCATGGTCGACCGCATCGTCCACCACGCCAAAATCTTTCAACACCGAGGAGTAAGCCACCGCATCAAAGGACGCGAAATACCCACACCAACAACCCCCTCACCAACCCCACATCAGGCACAATAA	MTRTSAHDTAAAISHLARELKAPRIDNVYSTIANQARSQSWTFEEYLAAVLSVEATARAESGASLRVKRAGFPAVKTIADFDFTAQPSIDRTEIARLETGAWVATAENVVLLGPPGTGKTHLATALGITAAQQGYRVLFDTAAGWINTLTEAHNTGKLETLLKRLNRYHLLIIDELGYIPVEADAANLFFQLVSRRYEHGSIIVTSNLAFSQWAQCFGDITVATAMVDRIVHHAKIFQHRGVSHRIKGREIPTPTTPSPTPHQAQ				NA	NA	NA	NA	NA
AK009_07418	897			hypothetical protein	ATGCCCGCCGACCCAGTCGATACCCTTACTCACTCCCCGGGGCGTGAGATCCAATGTGATCTCACTTTTGCACCGGGTGGACTACCTGATGCTGATGGGGTCTACCGCGCGTTGCCGGTGTTGGTGATGGCAGCCTCGCATTCTCGTTTCGCTGCGGCGTGTGTGCTTCCCTCGCGCACGACTGATGACTTGATCGCCGGGATGTGGCAGTTGATAACACGTGATTTCCAAGCGGTACCAGATCGGCTCGTGTGGGATCACGAGTCCGGGATTGGCAAGGCGAAGCTGTGCGAGCCTGTTGCCGCATTCGGCGGGGCGCTGGGCTGCAGAATCGTTCAGACCCCACCGCGGGACCCGGAATCTAAAGGCATCGTCGAGCGCACCAACGGGTACATGAAGCGTTCCTTCTTCCCCGGGCGCCGGTTCAGCGACCCGGTGGATGTGCAAGCCCAACTTGATGAGTGGTTCACCACAATCGCCAACGCACGCGTTCACACCACGTTGAAGGCCACACCGGCGGACTTGTTCGCAGCTGATCAGCGAGCGATGCGCCCCTTGCCACCGTATCCGCCGGTGTTCGGTGTCAGGCCCGCGGTGCGCCTGCCGCGTAACTACTACGTCACCGTTGACACCAACCAGTACAGCGTGGATCCGACATTCATTGACCGACTAGTCACTGTGCGCAGCACGCTTGATGAAATCGCCGTGACCGGGCCACACGGTGAACCCGCCGCGGTGCACCCACGCCATTGGGGCCAGCACAAGGTCATCACCGACCCCGCCCACGCCCAAACTGCCCGCGCCATGCGCCGCGACCTAGCTACGGCGGGCGAGAGATTCCAGCCAGATACCGCTGTTGACATCGCTGACCTATCCATCTACGACCACATCGCCTAA	MPADPVDTLTHSPGREIQCDLTFAPGGLPDADGVYRALPVLVMAASHSRFAAACVLPSRTTDDLIAGMWQLITRDFQAVPDRLVWDHESGIGKAKLCEPVAAFGGALGCRIVQTPPRDPESKGIVERTNGYMKRSFFPGRRFSDPVDVQAQLDEWFTTIANARVHTTLKATPADLFAADQRAMRPLPPYPPVFGVRPAVRLPRNYYVTVDTNQYSVDPTFIDRLVTVRSTLDEIAVTGPHGEPAAVHPRHWGQHKVITDPAHAQTARAMRRDLATAGERFQPDTAVDIADLSIYDHIA				NA	NA	NA	NA	NA
AK009_07419	183			hypothetical protein	ATGGGTGATTTCATTGGAGGAATGGGCGCAGATCCGATACCTGCGTGGGCAGGGTCTGTCATTGAGGAAGATCGCGGCCGAAGTGGGCTGTGCGAAGAAGACGGTGGAGAAGGCTTTGGCTTCAGATTCGCCGCCTTGTTACAAGCCACGGGATGCCAAAGGAACGAGTTTCGATCCGTTTGA	MGDFIGGMGADPIPAWAGSVIEEDRGRSGLCEEDGGEGFGFRFAALLQATGCQRNEFRSV				NA	NA	NA	NA	NA
AK009_07420	378			hypothetical protein	GTGAAGCAACTACAACAGGCGGACCACCCGCACACCCGTGCCTTGGCCGAGGTCATCGAGGAGATGGGCCGGCTCTACGGCGGGATTCATGCCCACCTGGAGCCATCCCAGGTTCCTCCCTTGCCACCGTGGCTTATCCAGGCCTTGGAAAATGATCTTCGTCTTTCACCTGAGGTCATCAATGAACTCAGCCAAGATGAAGCCCAGCAGCTCCTCATCCCTTACTGGACACAACCCCAGGATCAGAGCGAAACACCCACAACCAGGTCCGGTTGTGGGGATTGGTCAATGCTGCCCAAAGGCAGCTGCACGAGCCATCCATTGATACAGGTACGGGTGGCCCAGTTCCTGGGACCTGGGCCACCCGGCCTTCGGTAG	MKQLQQADHPHTRALAEVIEEMGRLYGGIHAHLEPSQVPPLPPWLIQALENDLRLSPEVINELSQDEAQQLLIPYWTQPQDQSETPTTRSGCGDWSMLPKGSCTSHPLIQVRVAQFLGPGPPGLR				NA	NA	NA	NA	NA
AK009_07421	936			hypothetical protein	GTGGGCGAGGTTGCGTACTGTGAGCAGGATAAACAGCGGGACCATCATCGCCCACACCACCATGCAGTACAGGCACAAAATATGGATGACGAACAGCGCCTGGTACCACAGCCAGATGATGAACAGCAGGCCCACGGTCACACCCGCCTGCAAACCTCCCCAGTACCAGTCGGCGAAGCGTGCCCCCGACAGCATGGCCATCGCGGTGGTGATGACCACGGCGAAGGCGACGATGCCGATCAACGGGTTGGGGAAGCCGAAGAGTTCGGACTGCCAGGTTCCCATCACTTTTCCGCAGGAGACCAGGGCGTTGATGTCACAGGTGGTGACATGCTCGGCGTCCTCGTAGAGGGCCAGGCGTTCAAGCACCAGGATGCCGGAGGCCACCCAGCCGATCACGCCGGTGACCAGCAGGATGAGGGCGAAAGGACGCTGGCGGGCAAAGACCGGCAGGAAGGTGTCGTTGTTCGGCTCGGTCACGAGAACCTCATTGTCGTCGGCGGTGGCTGGGTGCGTCATGGATTCGGGTTAGTCGGCGGCGGCCGCGTCGACCTCGGCCCGGAACTGCTCCAGGGAGTCCGGGGTCAGGAGCTGGCCGTCGAGGAAGAAGGTCGGGGTGCCGCGCACACCCAGGGCCGTGCCGTCAGCCACATCGAGTCGGACCCGTTCCTCGGTGGCCGGATCGGCCACAGCGGCGTCAAAGGCGGCCATGTCCAGACCCAGGTCCTCGGCGAAGCCGCGGAAGACCGCACTGTTGTCCTCGGCGGACTCACCCCACTCAGACTGGGTCTCAAACATCCGCTGGTACATCGCTTCGTACTGGCCCTGCTGGGCGGCAGCCTCCACAGCCACGGCAGCGGGCATGGAGTTGCGGTGACCCGGCAGCGGGAAGTAACGGTTGACGAAGGTGACGGTGTCGGAGTACTCCGCACGTAG	MGEVAYCEQDKQRDHHRPHHHAVQAQNMDDEQRLVPQPDDEQQAHGHTRLQTSPVPVGEACPRQHGHRGGDDHGEGDDADQRVGEAEEFGLPGSHHFSAGDQGVDVTGGDMLGVLVEGQAFKHQDAGGHPADHAGDQQDEGERTLAGKDRQEGVVVRLGHENLIVVGGGWVRHGFGLVGGGRVDLGPELLQGVRGQELAVEEEGRGAAHTQGRAVSHIESDPFLGGRIGHSGVKGGHVQTQVLGEAAEDRTVVLGGLTPLRLGLKHPLVHRFVLALLGGSLHSHGSGHGVAVTRQREVTVDEGDGVGVLRT				NA	NA	NA	NA	NA
AK009_07422	297			hypothetical protein	GTGCTCGGCGAACCAGGGAGCCGGGTCCACGGCGCCGCTGCCGGTCGGGTAGAGCTCAAAATGCAGGTGGGAACCGGTGGAGAAACCTCGGTTACCCATGCCGGCGATCTTCTGGCCGGCGGTGACCTTCTCACCCACGCTGACATCGAGGGTTTCCATGTGGCCGTAGACGGCAATGGAGCCGTCATCGTGCTGGATGCGGATCCACTGGCCGAAACCGGAAGCCGGTCCGGAGTCGATGACGGTGCCGCCCATGGCCGCAAGAATTGGGGTGCCCACGACGTTGGCGATGTCTAG	MLGEPGSRVHGAAAGRVELKMQVGTGGETSVTHAGDLLAGGDLLTHADIEGFHVAVDGNGAVIVLDADPLAETGSRSGVDDGAAHGRKNWGAHDVGDV				NA	NA	NA	NA	NA
AK009_07423	519			hypothetical protein	GTGCCGCCCATGGCCGCAAGAATTGGGGTGCCCACGACGTTGGCGATGTCTAGTCCTGCGTGGAGGCTGCCCCAGCGCATACCGAAACCGGAGGTGAAGGTGCCCTCAGTGGGTTTGACCACGGATGAGGCGTTGGCCAGGCGTTCTGCCTCAATGCGTTCTGCTTCCAGACGTGCAGCCTCAGCGCGGGCGGCCTCGGTGCGCTCGGCGGCGTACTCAACCGCCTTGTCCAACTGCTCGTTGATATTGGTTACCGGCTTATACTCCGAGATCGTCAGGATCTGCGGGGCCGTCTCCGTCGTGTCCGGGGGCAGCGCGGTGTCATTGGTGGCCAACTGCACGCCACCGACAGTGTCCTGCGGGGAGATCGGGGCCTCAGCCTGGGTCTGCAGCGTGGCGACGGCGGCACCACTGAGACCCGCAGACGAGACCGCGCCCGTGGCCACGGCCACCAGGGCTACGCGGCTCTTGGTTTGCGGGGTGGGGATCTTGCGGTGTTTTCCTCCGGCTGATCGCTGA	MPPMAARIGVPTTLAMSSPAWRLPQRIPKPEVKVPSVGLTTDEALARRSASMRSASRRAASARAASVRSAAYSTALSNCSLILVTGLYSEIVRICGAVSVVSGGSAVSLVANCTPPTVSCGEIGASAWVCSVATAAPLRPADETAPVATATRATRLLVCGVGILRCFPPADR				NA	NA	NA	NA	NA
AK009_07424	1359			hypothetical protein	ATGGGCGGGGGGATCACCAAGGGAAAGGCCTGTCTCGGGCTTGTCGCTGGCCTCGTCGAGGCATGGGCCATGGCTGCGGGAGCCCGGGAGGAGGTCACGCGACCAGTTCCTCGCTGGCCCCGTGAGGGGCCGGCGGTGAGACCGGGGTGGTTAAGGCTGGTCGGTTGTCCGGGTGCCGTGGTCGGACGTGGGGGTCTTACCGTCCGTGGTGGGGCCGAGGAATGTGGTGTGGTTTTCGTTCTCGGCGTTGCTACCGGTGGTGGTCTTTTCCTCGTTGCCCGTGGTTTTCCCGACCGTGCCCGGCCAATGGCCGATGAGCAGGAGGGCGACGACGGCCAGTGGGACCACACCTGTGGCCCAGGCCAGGACGGCGGTGCGTTGGTCGGCGAGCAGATCGAGCTCCCAGGGCAGGAGCAGGGAGCGGTAGAACTCCTCGCCCAGGATCGTGTCCAGGCGCAGGAGATAGACCCCGACGAGCAGGTGGACGGGCAGGGAGGCAACCAGCCAGCCCAGGCGGACGGTGGCTGGGCGCCGGCGCGGGATCGGGTCGGGTCCGAGCATCCCCCAGACGTAGAAGCAACCGGAGACCAGGAGCACGGTGTTCATGATCAGCTGCCCCGCGTACTTGGAGATCAGCAGCTCATAAAGCGGGATGAACAGGTACATGACGTAGAAGAACACCAGGAACTGCAGGGTGTTGACCACCGGATGGGTGATCACCCCCACCAACCGGCTGCGGGTGAAGGCGCGCACCCAGTCGTGGATATTCGGCCTACCCGGGGCCCCCGGGGCGAAGGCGGTCATCAGCAGGGTCAGCGGGGCACCCAGCACCAGGAAGATGGGGATGACCAGCGACAAGATGATGTGGCCGACCATGTGCACCGAGAAGACCGCGGGCATATTCAGCCCGATCCCGGAGCTCATCGTCACCAGCAGGGTCACACATCCGGCCAACCACCAGGCGGTGGGGGTACTCGACCAGGTGTGACCTGCCTGGCGGGTGCGCCACACAGCGGCCAGATAGCCGACGGCCAGCAGCAGGGCGAGGGCACCAAACAGCAGGTCAAAGCGCCACATGCCCCACACGTTGAGGATGGTGGGCTTCTCGGACAGCTCGTAGCCGAGCTTGGTGGCCATCTGCGAGAGGTTCGGGATGCGCGGTGGGGGCGGCGGGGTGCGCCCCATGGTGATGGCGATACCGGTGACCGCCGCCATGACAAGCACCTCGACGATGGCGACCTGGCGGAACAGGCGGCGATCAGCGGGGTTGGCCTGCACCTGCGGAATGACCCACGCCCGGTGGATCCACCCGAAGACACCGAGGATGATCACGCCGATGGTCTTGGCCACGATGATTAA	MGGGITKGKACLGLVAGLVEAWAMAAGAREEVTRPVPRWPREGPAVRPGWLRLVGCPGAVVGRGGLTVRGGAEECGVVFVLGVATGGGLFLVARGFPDRARPMADEQEGDDGQWDHTCGPGQDGGALVGEQIELPGQEQGAVELLAQDRVQAQEIDPDEQVDGQGGNQPAQADGGWAPARDRVGSEHPPDVEATGDQEHGVHDQLPRVLGDQQLIKRDEQVHDVEEHQELQGVDHRMGDHPHQPAAGEGAHPVVDIRPTRGPRGEGGHQQGQRGTQHQEDGDDQRQDDVADHVHREDRGHIQPDPGAHRHQQGHTSGQPPGGGGTRPGVTCLAGAPHSGQIADGQQQGEGTKQQVKAPHAPHVEDGGLLGQLVAELGGHLREVRDARWGRRGAPHGDGDTGDRRHDKHLDDGDLAEQAAISGVGLHLRNDPRPVDPPEDTEDDHADGLGHDD				NA	NA	NA	NA	NA
AK009_07425	159			hypothetical protein	TTGGGTGATCCACGCCCGGCTCATCAGGCCCGTACAACCGGTGACCAGGGCAATAAGGGCGACGATCAGCCACACCTGGGCCATGGCCACCTGCTCGACGGCCACCGTCAGGGTCTCCAGGCCCAGTGTCTGGGCCAGGGGGGTGCCGGAGACATCTGA	MGDPRPAHQARTTGDQGNKGDDQPHLGHGHLLDGHRQGLQAQCLGQGGAGDI				NA	NA	NA	NA	NA
AK009_07426	1224			hypothetical protein	GTGGTCGTGATCACCGCCGGGCAACCGTGGGGAGATGAGGAAAGCAGCGAACAGGAAAGAACCGGCGGACAGGGCAGCGAGCATCCAACCGACCGCACGGAAAAACGGCAACCCGAAGGTGGTCGCGATGCCCGGGTTGGGGATCCCCAGGGCCGCGAGGGATTCACCGAGGAAGCTGTAGGCCACCGTCCCGCCGATGGCACCGGCGACGGCGAAAAAGAGCAGGTACAACGGCCACGTGGGGCGTACCCGCTCCTGAGGCCGGCTCCCGATGGTGGGGGTCGTCCCTGTGGTCGTATCCGTGGCAGTGGGGGTGTCATTTACCGGGTGGGTCATCTGTGTCCATTTCGCCGTCCATGCCGCCTCCGCTCTCATGGTGTGCTCGGAAGCGGGCGTGAGGTTCACCCTAATGGGGCCTGCGGGTGTTCTTGTACATTGCCCAGGGACCGGTCTCTTCCTCCGGTTCGCCCCCTGCAGGGGGCACCGACCTGGGAAGAACAACACCCGGTGAAGGCGGCGTGGCCGGGAACTTTCCTCCCGCCCGTTCCGACCACTCTCTTGGTACCTCCCGCAGGCAGGTGTCGTAGTCGCTCACATCCGGTTGAAGAACCGGCCCAGTCCAGGAGGACTTTCGTGATCATCTCCCCCATGCTCCCTCGTCGTGTGCTGGCTACTGTTGTGGCGGTCGGGGCCCTGACGGTCGTAGCCACCCCGGTTGCCCTCGCGCATGACTCCGTGATCGGCGGCAATCCCGCGGACGGTGAAGTGGTCGAGGAATTTCCGCGCCGCATCGAGCTGGAGTTTTCCGGGCTGCCCCAGGAGGGTTTCAGCACCGTGGCCATCACCGACCAGGGCTCCGGTGATCTCCTGTTCAGTGGTGAGCCGACCATCGACGGCCGACTGGTGACCCTTGATCTACCTGCGGGTGTCAGCGGCGGGCCAGGTGACTACACCGTCGGCTTCCAGATCCTCTCCTCCGACGGCCACGCCACCCGCAGCGAGACCACCTTCACCGTCGCCGGTGACGCCCAAACGGCCGCCACCACCACGGGCGCCGACGCCAGGCCTGGGGAGGAGACCACAGCCGCCGAGAGCACCGCCGAGGAGGACACCTCCGTAGTCAGTAATCCGATAGTCCTGATTCTTGCGGGGTTGGCCCTCATCGGTGTCATCGCTGCCGTCCTCGTGCTGATCCTTAGGGGTCGGAACACGCCCACGGGGTAG	MVVITAGQPWGDEESSEQERTGGQGSEHPTDRTEKRQPEGGRDARVGDPQGREGFTEEAVGHRPADGTGDGEKEQVQRPRGAYPLLRPAPDGGGRPCGRIRGSGGVIYRVGHLCPFRRPCRLRSHGVLGSGREVHPNGACGCSCTLPRDRSLPPVRPLQGAPTWEEQHPVKAAWPGTFLPPVPTTLLVPPAGRCRSRSHPVEEPAQSRRTFVIISPMLPRRVLATVVAVGALTVVATPVALAHDSVIGGNPADGEVVEEFPRRIELEFSGLPQEGFSTVAITDQGSGDLLFSGEPTIDGRLVTLDLPAGVSGGPGDYTVGFQILSSDGHATRSETTFTVAGDAQTAATTTGADARPGEETTAAESTAEEDTSVVSNPIVLILAGLALIGVIAAVLVLILRGRNTPTG				NA	NA	NA	NA	NA
AK009_07427	318			hypothetical protein	GTGAGCTTCCATCAGGGCCCGGGAGATGGTCAGGCCGATACCGGAACCGCCGTGGTCGCGGTCGCGGGCGGTGTCCCCGCGGTAGAACCGTTCGAAGACGTGCCCGAGTTGTTCCGCAGTCATCCCGCCCCCGGTGTCGACGACCTCAATGAGGACACTGTTGGCCCCTCGGCGGGCAACGCGGATGCTGACTTGACCGCCGGGCGGGGTGTGGCGCAGCGCGTTGGTCAGCAGGTTGTCCATCTGGATCCGGCTGCGACCTTCCGCCGACGGGAGCTCCACGTTCGTGGAGATGGGTGGCCTGGCCCGCACCGATAG	MSFHQGPGDGQADTGTAVVAVAGGVPAVEPFEDVPELFRSHPAPGVDDLNEDTVGPSAGNADADLTAGRGVAQRVGQQVVHLDPAATFRRRELHVRGDGWPGPHR				NA	NA	NA	NA	NA
AK009_07428	156			hypothetical protein	GTGGAGATGGGTGGCCTGGCCCGCACCGATAGCGCCGGCTGGGGTGGGGAGTTCGACAAGCTCCACCGTGCACTGCTCGGCCTGCCCGATCCAGACGACATCGATGAGCAGGCCGAGGAGAACACACCTGTTCTGGTCACAAGCCCCAGTCAGTAA	MEMGGLARTDSAGWGGEFDKLHRALLGLPDPDDIDEQAEENTPVLVTSPSQ				NA	NA	NA	NA	NA
AK009_07429	804			hypothetical protein	GTGCAGACCAGAGACGACCAGGTTGATGAAAAACAGATTGAAGATCATCGTGGCCAGGGCCAGGATATTGATCCACGCGGCCTTGTGATCGCGCCACCCGGCGGTGGCACGGGCATGCAGGTAGGCGGCATAGAGCACCCAGGAGATAAAGGATGCGGTCTCCTTCGGATCCCATCCCCAAAACCGGCCCCACGAGGCCTCAGCCCAGATCGCACCCAGAACAATGCCCAACCCCAGCACGGGCAACGTAATGATGGCGGACTTGTAGGCCAGGGCGTCGAGCTTTTTCGCACTCGGCAGCGGCTTGGCCACAGCACCGAAGAAGCCACGCTCTCTGCCCTTCGGCTGCCAGATACGCAGCAGGTAGAGCAGGGAAGCGATGCCCGAGACGATGCCAATCGCCGCGCCCAGGGACACAGTGGAGACATGGACGGGCAGCCAGTAGGACTGCAGGGCGGGCACGACTGGGGCGGAGTTGGAGTAGAGGCTGGTGCCACCGAAAAACAGCAGGACCAGGATCGGGACCAGCAGCCACGGCCACACGCTGCGCCACTCACGGCGCTGGATGACAATCGCTGCGGAGATGACCGCCAGGACGCAGATCATGGAGATGTACTCGTACATGTTGCCCAGCGGGAAGCGGTCGGTGGCCAGGCCGCGCAGAACCACCGACATCAGGTGGACCACTGCGCCCAACCAGGCCAGAGCCTGAGTCATGCCACCGAATTTATCGGCGGAGGCCTCCTGGGCAGCATATTGCTCATCGGTGAGCAGGGGGTCGGTGGCGTTAACGTCTCCGATTGA	MQTRDDQVDEKQIEDHRGQGQDIDPRGLVIAPPGGGTGMQVGGIEHPGDKGCGLLRIPSPKPAPRGLSPDRTQNNAQPQHGQRNDGGLVGQGVELFRTRQRLGHSTEEATLSALRLPDTQQVEQGSDARDDANRRAQGHSGDMDGQPVGLQGGHDWGGVGVEAGATEKQQDQDRDQQPRPHAAPLTALDDNRCGDDRQDADHGDVLVHVAQREAVGGQAAQNHRHQVDHCAQPGQSLSHATEFIGGGLLGSILLIGEQGVGGVNVSD				NA	NA	NA	NA	NA
AK009_07430	276			hypothetical protein	ATGGCAGTTGTCAAGCTCCCACGCTGTCACCTCCCCACCATCCGTTGTCGGAGTGGTACCGGACTCCTCGACCAGGTCGGTGAGGCGGCGGGCGCTGTGGGAAGCCTCGTCGGCGTGGATCGCGGCCTCCGAGAGCTGCGCGTGGGACTCGAAAGCCGCCAACGGCAGCAACACCACCATGCCCAGCCAAGTGGGATCCCCAGTGTATGCCAGCGCGGCGACGATCACCGTCAGTGCCCCGGCCAGGCCGGTGGACCACTGGATCAGCGCCTGTGA	MAVVKLPRCHLPTIRCRSGTGLLDQVGEAAGAVGSLVGVDRGLRELRVGLESRQRQQHHHAQPSGIPSVCQRGDDHRQCPGQAGGPLDQRL				NA	NA	NA	NA	NA
AK009_07431	465			hypothetical protein	ATGCAGCAAAGTAGCCCCGGCCACTGCAAAGACGGTGAGTACCACCGCCACCCCAGCGGGCACGACGGCGCGCACGATGACATCGGTGACGCGTTCGGTGTCTGCAACCAGGCGCACCAGCCCGTCGCCGCGGGTGAACAGATGCCCCCGCCCGGAACCGGTATGGTCGAAGGCCAGCGCATCGAAGACCCGAGAACGCAACGTGGTCAGGGCACGCAGCGCGATGCGGTGGCTGAGCAACCGATCCACGTAACGGAATACCGCCCGAGAAATGCCCAGCGCCCGCACGGCGGTGACCGCGACCGTCAGGTCCATCACCGGTGGCATCTGCCAGGCCTTGGTGATCAACCAACCGGAGACGATGGTCAGGGTCAGCGCAGAGATCAGGGTGATGGAGCCGGCCGCGACGCCCGCGATAATCTCACGGTGCCGCACCCCAGCCAGGCGGAGCATTCCGTTAAGTGA	MQQSSPGHCKDGEYHRHPSGHDGAHDDIGDAFGVCNQAHQPVAAGEQMPPPGTGMVEGQRIEDPRTQRGQGTQRDAVAEQPIHVTEYRPRNAQRPHGGDRDRQVHHRWHLPGLGDQPTGDDGQGQRRDQGDGAGRDARDNLTVPHPSQAEHSVK				NA	NA	NA	NA	NA
AK009_07432	171			hypothetical protein	GTGATCGAATATCTGCTCTCACAGGTACACCACCTCATCTGCGATTGCGGCCAGGCGAACGTCATGGGTGGCCAGCACCACCGTGTGTCCGGCCGCAACCCGCCGGCGCAGCTCGGTGGAGAGGGCATCTACCAGCTCCGGGCTCAGGTGCGCGCTGGGTTCATCCAATAG	MIEYLLSQVHHLICDCGQANVMGGQHHRVSGRNPPAQLGGEGIYQLRAQVRAGFIQ				NA	NA	NA	NA	NA
AK009_07433	630			hypothetical protein	GTGCAGCGTGGGTCCGCTGCCGCGGGCCAGAGTGCGGGCCAGGGTCAGGCGTTGGCTCTGGCCCGCCGAGAGGCCCTCGCCCTGTGGGCCGAGACGGCGTTTCAACGGTACGTCGAACCACAGGTTCCCGGCGGTTTCGGTGGCCGGTTTGCGCTGCGCACCCAGCAGCACGAGGTTGTCCTCGACGCTGCCGGGCACCAGCACCGGCCGGGCTGGCAGATAGGCCGTGCGTTCCGGCGGCGGGGCGGTGATCTCTCCGGTGACCAGGTCATCCGGCAGCGCGCCCAGGACGGCGAGGAACACGGTGGACTTTCCGGAGCCGTTGTCGCCGTACAGGACGGTGATCTTCCCGGGTTCGGCGGTGAAGCTCAGGTTCTCCGGCTTCGTGCCGTCGCGGCCGCCCACGCTGAGGTCGGTGACTGTCAGCTGGACGCCCGCGGGGGAGCCACAGTGGGTCAGGTAGTTCCGGCCGTGGTGGCCCACGGGGCGAGTCTCATCTTCGTCCAGCAGCTCCAGGATCTCCTCGGCGGCGGTGAGTCCGTCGGCGGCGGCGTGGAAGTTCGTGCCCACCTGCCGGATCGGGTTGTACACCTCCGGCACCACAATCAGTGCGATCAGTCCTGCGGTTAG	MQRGSAAAGQSAGQGQALALARREALALWAETAFQRYVEPQVPGGFGGRFALRTQQHEVVLDAAGHQHRPGWQIGRAFRRRGGDLSGDQVIRQRAQDGEEHGGLSGAVVAVQDGDLPGFGGEAQVLRLRAVAAAHAEVGDCQLDARGGATVGQVVPAVVAHGASLIFVQQLQDLLGGGESVGGGVEVRAHLPDRVVHLRHHNQCDQSCG				NA	NA	NA	NA	NA
AK009_07434	387			hypothetical protein	GTGGCGACGCCCCGTGGACCGCAGCTGTCTGCTCGGCTGGTGGGTGGCGCCCAGTGCCCGCAGTGTCAGCGAGCCGGACAACAAGTCCGCCAGCTGCCCGCCCAGAGCGCTAGTCACCTCCAGACGACGTCGTGTATGGGCGGCGGTCAGCTTACCGATCAACACCATGAAGGCCGGAATCAATGGCACTGTCACCAGCGCCAAGATCCCGGAGACGGGGTCAGCCACCAGCACCACGACCAGGGCGGCCGGAGTCGCCAGCGCGGCAGCGACCAGGGAGGGCAGGAATTCGTTCAGGTAGGGCCGAAAATTCTCGGTGCCATCGGTGAGGACCTCGCGCCAGTGGGCCGATTCCTCCTGCACGCGGCGGGGATCGCGACGTCGTAA	MATPRGPQLSARLVGGAQCPQCQRAGQQVRQLPAQSASHLQTTSCMGGGQLTDQHHEGRNQWHCHQRQDPGDGVSHQHHDQGGRSRQRGSDQGGQEFVQVGPKILGAIGEDLAPVGRFLLHAAGIATS				NA	NA	NA	NA	NA
AK009_07435	354			hypothetical protein	TTGCGCGCGGGCAGCCACGACGCCGTGGACGGCGATGGCGGCGAAGAGGGCCACCACTGGCCAGGTCAGCACCTCCCAGTCGGCACCACGGTCCAGGATGACGCGCGCGGCGACCCAGCCGATGAGCACGCCGCGGGCGAGCACCAGCACGGTGATAAACGCCTGCAGCACGCCCGTGCGCAGGATCAGGCCCCGCACCGGCGGAACCAGGGCGAGGAGTCTAGGGTCAATAGGCCCCTGCATCCGGCTCACACCTTGATCCGCTTGGCGAAGGACCAGAAGGTCCAACCCTGCGATGCCAGGACGAACGGCACCAGAATTAGGGCGCCCCAGGACAGGAAGGTCAAAGTGTAG	MRAGSHDAVDGDGGEEGHHWPGQHLPVGTTVQDDARGDPADEHAAGEHQHGDKRLQHARAQDQAPHRRNQGEESRVNRPLHPAHTLIRLAKDQKVQPCDARTNGTRIRAPQDRKVKV				NA	NA	NA	NA	NA
AK009_07436	414			hypothetical protein	GTGCCCCAGCTGGGTCCATGCCGCAAAGCCGAAGGTGGCCAGCGCGGCGGGGATGGTCAGCCGACGGGCCAGCCAGTGGGCACGGCTGCGCAGCGGTTCATGCACCTTCATGCCCAGGAAGGTGGCGCCGTGCACCATGAACAGCAAGACGAAGGCCAACGCCCCCAGCACAGCGTACGGGTTGAACAGGCCGAACATGGCACCCAGGCTGGAATCAATTTGCCGGTTGGCATCGATCGCCAAGCCCTGGACGATATTGGCGAAGGCCACACCCCAGAAAATCGCCGGCACCCAGCTGCCGATCGCCAGCCCAATGTCGCAGCGGTCGCGCCAGACCTGGGTGTCCACCTTGACGCGCCACTCCAGCGCGACACCGCGCAGGATCAGGGAGATCAGGATGAGCAGCAACGGTAG	MPQLGPCRKAEGGQRGGDGQPTGQPVGTAAQRFMHLHAQEGGAVHHEQQDEGQRPQHSVRVEQAEHGTQAGINLPVGIDRQALDDIGEGHTPENRRHPAADRQPNVAAVAPDLGVHLDAPLQRDTAQDQGDQDEQQR				NA	NA	NA	NA	NA
AK009_07437	234			hypothetical protein	ATGCGCCGCTTCGTGGTTGCCGGGGCGCTCGCCCCCGGTGCTTCCGAGAACATCGCTGAGGACACCTACGGTCCGGACGCCGAGGAACTGGAACCGCTGAGCTTCAGCGCCGACAGTGCTGAGAACACCGAGGGCGCCGAGGGCGTCGAGTCTACCGGCTGGAATTCCACAGCTGTCGCCACGAAACCGCGCCGGCAGCGCGGCGAGCGCACCGATGATGGGCAGGAGAGCTGA	MRRFVVAGALAPGASENIAEDTYGPDAEELEPLSFSADSAENTEGAEGVESTGWNSTAVATKPRRQRGERTDDGQES	PGPT0026700_125	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
AK009_07438	600			hypothetical protein	GTGGTTGGACACACCGAAGTCCACGATCATGTGGATGTCATTTTCCCCATTCGGACTGTTCTCCGGCCCGAAGTCGGGGTTCGGGTACACCACCCAAGGTTGGCGTCCCATCTCGGTGAAGATCCAGCCGGCGGAGTTGGACAGGAAGGGGAACGGAATCGCGATGAGGCCGAGCCAGGCGAACCACCGCTTGTCGGTGGTGCGCTTCCTGCGGGTCAGCCAGAAGCCGAGGATGACTACCAGGATGGAGGCAGTCATGAAGCCAATCATCAGGCGGAAGGACCAGTAGGTGACGAACAGGTTCGGCGAGTAGTTTCCCGGGCGGTAGAGCTGCTCGGCCTGGGCCTGCAGATCCGTGACGCCCTGCAGCGTCACACCGGCAAACTGGCCGCCAGCCAGGAAGGACAGGACCCAGGGAACACTGAAGATCTCGGAGACCGAGTTACAGTCGTTGAACGTGCTGATGGCCAAAATAGAGAACCACGGATCCTCCTCGGTGTGGCACAGCGCCTCCGCGGAGGCCATCTTCATCGGCTGGACCTCGAACATCACCTTCGCCTGCAAGTCACCGGTGATCGAGACGAATACGATCCCCAATAA	MVGHTEVHDHVDVIFPIRTVLRPEVGVRVHHPRLASHLGEDPAGGVGQEGERNRDEAEPGEPPLVGGALPAGQPEAEDDYQDGGSHEANHQAEGPVGDEQVRRVVSRAVELLGLGLQIRDALQRHTGKLAASQEGQDPGNTEDLGDRVTVVERADGQNREPRILLGVAQRLRGGHLHRLDLEHHLRLQVTGDRDEYDPQ				NA	NA	NA	NA	NA
AK009_07439	657			hypothetical protein	TTGTCCGGCGTCCTCGGAGTTCCCGTCCATCTTGGCTGCGTGGCGGCGGGACCGCACCATCCACCAGGCGCTGATGCCAGCGACGAAGGTACCGGCCACGAGCACGGAACCAGCCACCGCGTGCGGGAAGGCCACCAGTGCCACCGGGTTGGTCAGCAGCTCCCAAACATCGATCAGTTCTGCGCGCCCGTTCTCGTAGTTCATCGCCGCGCCTACCGGATGCTGCATGAAGGAATTGGCCACGATGATGAAGTAGGCCGAGACGTTGGTCGCGGCCGCCACGATCCAAATCGAAGCCAGGTGCATCCAGCGGGGCACGCGTTCCCAACCGAAGATCCAGACCCCCAAGAAGATGGACTCGAAGAAAAAGGCGGCCAGCCCCTCGAGAGCGAGCGGCCCGCCGAAGACGTCACCGACGAAGCGGGAGTACTCACTCCAGTTCATACCGAACTGGAATTCCTGGACGATGCCGGTGACCACTCCCATGGCGAAGTTGATCAGGAAGAGCGTGCCGAAGAACCTGGTGGCGCGGTACCACATGTCCTTCCCGGTCCGGTGCCAGGCCGTCTGCATCATGGCCACCAGGGGGGCAAGCCCAATGGTCAGGGGGACGAATATGAAGTGATAGACAGTCGTGATGCCAAATTGCCAGCGTGA	MSGVLGVPVHLGCVAAGPHHPPGADASDEGTGHEHGTSHRVREGHQCHRVGQQLPNIDQFCAPVLVVHRRAYRMLHEGIGHDDEVGRDVGRGRHDPNRSQVHPAGHAFPTEDPDPQEDGLEEKGGQPLESERPAEDVTDEAGVLTPVHTELEFLDDAGDHSHGEVDQEERAEEPGGAVPHVLPGPVPGRLHHGHQGGKPNGQGDEYEVIDSRDAKLPA				NA	NA	NA	NA	NA
AK009_07440	249			hypothetical protein	GTGGGTTCTGTGCTAGGCGATGTAGCGGCGGATCATCTTCGTCTGCTCCCGATGGTTGGAAAAATTGGTGCCGTTCAGGGCGCCGCTACCGCTCGTTTCGCCCGCTCCTGGCTTGACGTCGCCCTAGGAAAGGATCCCCGCGCAGCCAGCCAGGGGATTCCTGCAAACCCAGCACAGGGAGTCATCTTCTCGCCCGGAGACACATATTTTCAGGTAAGGGCTCTGGATTTTTCATTAGTCTTTCAATAA	MGSVLGDVAADHLRLLPMVGKIGAVQGAATARFARSWLDVALGKDPRAASQGIPANPAQGVIFSPGDTYFQVRALDFSLVFQ				NA	NA	NA	NA	NA
AK009_07441	213			hypothetical protein	GTGCTGACGACGCCCGAGGATCAAGGCGGAGATCGCGTTGGCGGCCAGGCCGACCATCGCGACGATGAGCATCACGCCGGTGTCGAGGGGGACCTGTTCGCCGATCCGACCGAGCGCGCGCACGACGATCATCACCGAGATGGCGCTGACGATGGTCGCATTGATCAGCGCGGTGAACACCTCGACGCGGCGGTGGTTGTAGGTAGCGGTTGA	MLTTPEDQGGDRVGGQADHRDDEHHAGVEGDLFADPTERAHDDHHRDGADDGRIDQRGEHLDAAVVVGSG				NA	NA	NA	NA	NA
AK009_07442	282			hypothetical protein	GTGATTCGGTGCCAACGGTGTTCCAAGTCTGCAGGTCGCGCACGGAAGCGACCCGGGCAGGCCGAGCAGTGTTGCTTCTACGTCGCGGGCGTCGATGTTCTTCGGGGTGTGGTTCATCAGCACCGCGAGGGAGTCGACCATCAGGCGCAGTGGTCTCGGCAGCACCATCGCGGCGATGAACAACGAGGCGATGATGTCGGTGGGCAGCCGGCTGGTGAACCGGATGATCAGGACAGCGATGATCACCGCGACCGAGCCGAGCAAATCGGAGAGCACACGTAG	MIRCQRCSKSAGRARKRPGQAEQCCFYVAGVDVLRGVVHQHREGVDHQAQWSRQHHRGDEQRGDDVGGQPAGEPDDQDSDDHRDRAEQIGEHT				NA	NA	NA	NA	NA
AK009_07443	402			hypothetical protein	TTGCCAACTAGTCATCCCCCACTGTATGGTCAGTGCATGCTGACTATTGCCTCCCGTCTTGATGTGATGAACCGGCTGGGACGCGCCATGGCCGATCCCACCCGGTCCCGAATCCTGTTGTCCCTGCTTCAGGCCCCTGGCTATCCAGCACAGTTGGCCCGGGACCTGGAGTTGACGCGCTCGAACGTCTCCAACCACCTGGCGTGTCTGCGTGACTGCGGAATCGTCGTCGCGGAACCGGAGGGCCGGCGCACCCGTTATGAGATCGTCGGCGCCCACCTCGCCCGGGCGCTTGCCGTCCTGGTGGAGACCACCCTGGCCGTCGATGAGAACGCCGAGTGCCTGGACCCGCAGTGTCCGGTTGCTGGTTGCTGCGATGAGGAAAGAGGCCAGCGGTCATGA	MPTSHPPLYGQCMLTIASRLDVMNRLGRAMADPTRSRILLSLLQAPGYPAQLARDLELTRSNVSNHLACLRDCGIVVAEPEGRRTRYEIVGAHLARALAVLVETTLAVDENAECLDPQCPVAGCCDEERGQRS	PGPT0004390_213	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885	NA	NA
AK009_07444	1143			hypothetical protein	GTGGATGACGACCACGGTCATGCCTTGTTTTTCCAGGTCCTCGACCTGACCGGCCAAGGGGCCGGGGGACAGCCAGCGGGGGCTGCCCACGGCGATCTGCGCTCCGTCAATAAGTCCGGTGATGCCCTGCCCGGCGGCTTCGTCGACCTGCTGGGCGGCCGGGGCCTGCGGTGTAGCGGCGGTAATGGCGGCAGCCAACGGGTGGGTGCTGTGAGCCTCCAGCGCCGCGGCCCAACCGAGGACATCCGCCCGGGCGGCTCCACCAGTGGTGAGCACATCTACGACGGTGGGCCGGTTGCGGGTCAGGGTGCCGGTCTTGTCCAGGGCCAGATGCCGGATACCACCGAGGCGCTCGAAGGCGGCGCCGGACTTGATGACCACGCCGAATTTGCTGGCCGCCCCGATCGCGGAGACGACCGTGACCGGCACCGAGATCGCCAGGGCACACGGCGACGCCGCGACCAGGACGACCAGGGCACGTTCAATCCATACGCCCGGATCCCCCAGCCAGGACCCGATGACGGCGACGAGGATGGCGAGGATGAGGACACCGGGCACCAGGGGACGGGCCAGGCGGTCGGCGATCCGGGCCCGTTGGCCCTTATCGTGCTGGGCCTGTTCCACCAGGGCGACCACGGTGGTCAGGGAGTTGTCCGTCCCGCCGGCGGTGGCCTCGACCTCGAGCGCCCCGGTGGTGTTGATCGACCCGGCCAGCACCGCATCACCGGGGCCGACTTCGACGGGGATGGATTCTCCGGTGATCGCCGAAACATCCAGGCTGCTGTGCCCGGAGCGGATGATCCCGTCGGTGGCCAGGCGTTCCCCGGCAGCCAGGCGCAACACGTCCCCGGGGACCAGCTCCTCGACCGCCACACTGCGGGTCACCCCGTGGGAGATGATGGTCGCGGTGGAGGGGATGAGGGCCAGCAGGGCACGCAGGCCCGAACGCGCCTTGTCCATCGCCTTATCTTCCAGTGCCTCGGCAATCGAGTAGAGGAAGGCCAGGGCGGCGGCCTCCTCGATGAAGCCCAGCAGGACGGCACCGAGGGCGCTGATGGTCATCAGCAGCCCGATACCCAGTTTTACCCGGGTGACCAGCCCCTTGAGGGCTCCGGGGACGAATTGGGAGGCGCCCAGCAGTAG	MDDDHGHALFFQVLDLTGQGAGGQPAGAAHGDLRSVNKSGDALPGGFVDLLGGRGLRCSGGNGGSQRVGAVSLQRRGPTEDIRPGGSTSGEHIYDGGPVAGQGAGLVQGQMPDTTEALEGGAGLDDHAEFAGRPDRGDDRDRHRDRQGTRRRRDQDDQGTFNPYARIPQPGPDDGDEDGEDEDTGHQGTGQAVGDPGPLALIVLGLFHQGDHGGQGVVRPAGGGLDLERPGGVDRPGQHRITGADFDGDGFSGDRRNIQAAVPGADDPVGGQAFPGSQAQHVPGDQLLDRHTAGHPVGDDGRGGGDEGQQGTQARTRLVHRLIFQCLGNRVEEGQGGGLLDEAQQDGTEGADGHQQPDTQFYPGDQPLEGSGDELGGAQQ				NA	NA	NA	NA	NA
AK009_07445	477			hypothetical protein	ATGGGGAAAGCACTACGAGACCCGGGACCTTCCGTACGCATCCTCGTCGGCAGTGACCGTGGCCGCCTCGACGGGCTTCAGGTCAAGATGCTTGGTGCGGGCGGCCCGCAGGCCGTTGGCGATGACGATGACCTCGGCCACCTCGTGGACCAGCACGACAGCAGCCAGTCCCAGCACACCGGTGATCGCCAGCGGCAACAGGACGATGATGATCGCCAGGGACAGCACAATGTTCTGGTTGATGATCGCCCGGCCCCGGCGGGCGTGGCGCAGGGCCCGGGGGATCAGGCGCAGGTCATCGCCGGTAAACGCCACATCCGCGGACTCGATCGCCGCGTCCGAGCCCTTGGCACCCATGGCGATACCGATATCGGCTCGGGCCAGGGCGGGCGCGTCGTTGATGCCGTCACCGATCATCGCCACCGGGCCGCGGGTCCCCAGTCCGGCCACGGCGGTGGCCTTGTCCTCCGGGCGTAG	MGKALRDPGPSVRILVGSDRGRLDGLQVKMLGAGGPQAVGDDDDLGHLVDQHDSSQSQHTGDRQRQQDDDDRQGQHNVLVDDRPAPAGVAQGPGDQAQVIAGKRHIRGLDRRVRALGTHGDTDIGSGQGGRVVDAVTDHRHRAAGPQSGHGGGLVLRA				NA	NA	NA	NA	NA
AK009_07446	948			hypothetical protein	ATGGGCGAGACCCTGGGTGTCATTTTCCGGGTGAGTGGTGCGGAGGGCGCCCACCGTGTCGGAATCTGTCTCTTCGTCCTGGGAGTCCCCGGTCTGCTGCGAGGATGTCGATCCGTCGGCCAGCTCGGCCTCCTCGCGGCGCACACGGCGGCGTTCCTTCAGCTCCGCCCAGATAAAATACCCCAGGCCGAGCGGGGCCATGATGCCGAAGGCGATCCACTGGAAGGCGTAGGACAGGTGCGAACCGCGGTCGAGCATGGGCACCGGGATGGCGTTGATCTCCCCGGCCTGCCCCTCGGCCAGCTGCACATAGTCCTCCGCCAGTTCCATGCCGGTCACCTCGGCGATCTGCGCGGTGTTGATGCCGTAGACCTGGCGGTAGCCCTGGTCCTCGATCGGGGGGGGGGACATCGGTGTCTGCTCGGTGAATCGGGCGTGGCCGACGATGGACTGCTCACCGGCTGGCGCAGTATCCATCGGTGGGACACCGCCCTCAAGCGGCGGGTTGAAACCCCGGTTGACCAGGATGACCTCACCGGAGTTCAGCTGGAAGGGAGTCAAGGCATGGAAGGCAGGGGAGGAGTCGACCGGACGGTTGCGCATCAGCACCTCATCCTCGGGCAGGTAGTGGCCCTGAAGGATCACCCGGGCCCATTCCTCCCCGGGCTCGATACTGCCCCGGGCGTCAAAGATCTCCTCGGCGGGGACGGGCTCGACCTCGAAGGCGGATTCGATCTGCTCGTTGCGCTCGACGATAGTGCTATCCCTGCTCAGCTGCCACGGCGCCAGAAAGGTAAAGGCGACGTAGGAGAAAGCGATGATGGCAAGGACACCGAACACCCAGCCGGGCCGGAGGAATGTCCGCCAGCCCTTCTTCTGCGGGGCCCGACCGTACCTGCGTTCACCTGTGCTGCTCACAGCCATGAAGTCTACTGCCCCGTCCGGTGA	MGETLGVIFRVSGAEGAHRVGICLFVLGVPGLLRGCRSVGQLGLLAAHTAAFLQLRPDKIPQAERGHDAEGDPLEGVGQVRTAVEHGHRDGVDLPGLPLGQLHIVLRQFHAGHLGDLRGVDAVDLAVALVLDRGGGHRCLLGESGVADDGLLTGWRSIHRWDTALKRRVETPVDQDDLTGVQLEGSQGMEGRGGVDRTVAHQHLILGQVVALKDHPGPFLPGLDTAPGVKDLLGGDGLDLEGGFDLLVALDDSAIPAQLPRRQKGKGDVGESDDGKDTEHPAGPEECPPALLLRGPTVPAFTCAAHSHEVYCPVR				NA	NA	NA	NA	NA
AK009_07447	735			hypothetical protein	GTGCATCGTCCGTGTGGGGTCGGACACCGGTTCCTTCTCCACGGGGATCGACTCGCCCGTGACTGCCGATTGATCAACGGCGGACATTCCGGAGATCACGAACCCGTCCGAGGGGATGCGGGAGTTCGGACGGATGACAACGATGTCTCCGACCACGAGCTCCTCCACCGGTACTTCCACGGGTTCGGTTTCGCCGCGGCGCACCAGGGCGCTGCGGGGGGCGAGCTCGGCGAGGGCCTCGATGGACTTGCTGGCACGGCTAAGGGCGTACTCTTCGAGCGCGTGGCCGAGGCTGAACAGAAACAGCAGCACCGCACCCTCCGCCCACCGGCCGATGAGAGCGGCGCCGACCGCGGCGACGAGCATGAGGAAGTCGACCTCGAACTTCCCTCGCAGCGTGGAGGAGATAGCGGTGCGGATGGTGAAGAACCCACCGAAGAAGTAGGTGGCGAGGAAGAACGCCAACGGCCATCCGACCATCGGCAGCCCCAACGCGAACTCCGCGATCATCCCACCGGTGTAAGTGACGCCGGCGGCGATCGCGAACCACAGCTCCCAGCGTGCGGAACCGTGGGCATGATCTTGGGTATGAGTGGCCGCCGATGTCGGTGGCAGGGTTGTGGGGGATCCGTTCGGGGCAGCGTAGTCGCCGGGGTCAGGGTCATGATCGTGCTCGCTCATGCCTGTAGTCTAACGGGGAAAACCCCTTATTGCAAGCTTATTGAAAATCCTTGA	MHRPCGVGHRFLLHGDRLARDCRLINGGHSGDHEPVRGDAGVRTDDNDVSDHELLHRYFHGFGFAAAHQGAAGGELGEGLDGLAGTAKGVLFERVAEAEQKQQHRTLRPPADESGADRGDEHEEVDLELPSQRGGDSGADGEEPTEEVGGEEERQRPSDHRQPQRELRDHPTGVSDAGGDREPQLPACGTVGMILGMSGRRCRWQGCGGSVRGSVVAGVRVMIVLAHACSLTGKTPYCKLIENP				NA	NA	NA	NA	NA
AK009_07448	936			hypothetical protein	GTGAATGACCTTGTCCTCGGGGAGGAGCTCTCCGATCGCCGTGTCGACGCCGACTTCCTGACCTACCGCGTCGGCGACCCGCTGATTGTCGCCGGAGATCATGACCAGATGGCCGACCCCTGTGTCCCGGAGCGCGTTGAGCACCTGGGCGGATTCGGCGCGGGAGGCGTCCATCACTCCCACGACCCCCAGGAAGCGGTCACCACGACGCACGATCATCAACGTCTGCCCAGAGTCGCGGGCTTCGGCGTAGGCCTTGGCCAGCGAGGAGGGCAGTTCAAGCTGCTGTTCGTCGAACATGCGCAGGTTGCCGATTTCGACCCGCTCTCCGTCGATCGTCGCGGTGATGCCGCGGCCGGTGAGTGCCGAGAGGTCGGTGGCCACCAGCCGCCCGGTCTCGGGGACGCGGGGTGCAAGGTCGCGGACGATCGCGGCGGCGAGGGGGTGGTCGCTGAGAGATTCGACCGACACGAGTGTCGGGATCAGTTCCGATTCGGACGTGTCATCGGCGGGAACGAGCGAGGTCACTCGTGGTGCGCCCCACGTGAGGGTGCCGGTCTTGTCGAACGCTATCGCCTCTACTCGTCCGAGTGTCTCGAGCGGGGCACCTCCCTTGACGAGCACGCCGGCACGGGCGGCGCGGGCCACGCCCGCCAGGACTGCGGCTGGGGTGGCGATCGCGAGAGCGCATGGGCTCGCGGCGACGAGCACAGTCATGGCGAGGTAGAAGGCGTCGCGGAACGGCTGCGCGAACGCGAACATCGACACCAGCAGGGTGGCGATGACCCCGAGGATCACGGCGGGCACGTACCAGCGCTGGAACCGGTCGATGAACTGCTGTGTCGGGGACGCAGCCTGGTCGGCGGTGCGAACAAGCTCAACGACCTTGCTCAGTGTCGAGTCAGCGGCGGTCGCGGTGACCTCGATCTCGAGTAG	MNDLVLGEELSDRRVDADFLTYRVGDPLIVAGDHDQMADPCVPERVEHLGGFGAGGVHHSHDPQEAVTTTHDHQRLPRVAGFGVGLGQRGGQFKLLFVEHAQVADFDPLSVDRRGDAAAGECREVGGHQPPGLGDAGCKVADDRGGEGVVAERFDRHECRDQFRFGRVIGGNERGHSWCAPREGAGLVERYRLYSSECLERGTSLDEHAGTGGAGHARQDCGWGGDRESAWARGDEHSHGEVEGVAERLREREHRHQQGGDDPEDHGGHVPALEPVDELLCRGRSLVGGANKLNDLAQCRVSGGRGDLDLE				NA	NA	NA	NA	NA
AK009_07449	285			hypothetical protein	GTGCGTGGGCTTTTCTTCGTGGTCGATGCCGGCGTGTTCCTGGCCCTTCTGGAAGTTGAGCAGGCGAAGCGCGTTCGCGACGACGATGAGGGTGGATCCCTCATGGATGAGCACGACGGCGCCGATATTAAGCCCAAGGAAGGTCGCGATGATGAGGAAAACGACGATGGCGAGGCTGGCGATGAGGTTCTGTCGGATGATCCGGCTGGCGGCCCGGCTCAGCCGGACAGCGAACGGGATGCGTCCGAGGTCGTCGCTCATCAGCGCGATGTCGCAGGTCTCTAA	MRGLFFVVDAGVFLALLEVEQAKRVRDDDEGGSLMDEHDGADIKPKEGRDDEENDDGEAGDEVLSDDPAGGPAQPDSERDASEVVAHQRDVAGL				NA	NA	NA	NA	NA
AK009_07450	1380			hypothetical protein	ATGCTTCTCCCCGCGAGTCACCAGTGGGGCCCGTGGCGAGAACAGTCCGTCCGATCTGTCGGAGAACCGCTTACCCCCACTCAACCCCCGGGCTATCCAGAGGAACTCACTCATGGATTGTCCCGTCAGCGGCACCGTATGGGTCATATCAGACGGGACTGGAATCAACATCGACTTCCGGACACTCCTTCCGGCCTGTCAGACGATCGCCGGGAGTTTGGTTCCCTGGGGGAAGCTCGCCTAGTGTCCTGCGCCGTTAATTCGCTGCTGGATCATTGTAAAATTGGGTATGCACACCGAGGACCGGCGTTAGCCCCACTGACCTTGACCGATGATGAACGCGACCAACTGCAACGCTGGGTCCGGCGACGCAAAACCACCCAGGACCTCGCGCTCCGCTCCCGGATCGTACTGGAATGCGCAACCGGGGCATCGAACTCGGAGGTCGCCCGTCGGTTGGGGATCTCATTGCCGACGGTGGGTAAATGGCGGGCCCGCTTCATCGACAAGCGCCTCGACGGACTGGTCGACGAGCCCCGGCCGGGTCGGCCCGCGACGATCGGTATCGACCGGGTCGAGCAGGTCATCATCGACACCCTGGAATCAACCCCTGCGAATGCGACCCATTGGTCGCGGGCGAGCATGGCCGAGAGATCCGGCCTGTCGAAGTCCACGGTCGGTCGGATCTGGAAGGCTTTTGGACTCAAGCCCCACCTGGAGGAGGGGTTCAAGCTTTCCAACGATCCCTTTTTCACCGAGAAAATTTATGACATCGTCGGGTTGTATCTGAACCCACCGGAGTCAGCGGTCGTGCTGTGTGTCGATGAGAAAAGCCAGGTACAAGCCCTACAGCGGTCCCAGCCGGCCTTTCCGATGATGCCGGGAACACCCGAGCGCCGCGCACACGACTATGTCCGCCACGGCACCACGAGTCTGTTCGCCGCACTCAATGTTGCCGATGGGACGGTGATCTCCCAGGTCCACCGCAAGCACCGCTCGGTGGAGTTCAGAAAATTCCTGGTCAAGATCGACAAAACCGTCCCCGAGGGCCTGGACGTGCACGTCATCTGCGACAACTACGCCACCCACAAACACCCGACGATCCAGACCTGGCTGGGCAAGCACCCCCGGTTCCACATGCACTTCACGCCCACCTACTCCTCCTGGATCAACCAGGTGGAGCGGGTGTTTGCCGAGGTGACCCGAGAGCTCCTTCAGCGCAGCGACCACCGAAGCGTGCAGGCACTGGAGAAAGACCTCCGCGACTGGGTGAGGGCGTGGAACGAGGACCCGAAGCCGTTCATCTGGACTAAAACGGCCGAGGACATCCTCGACTCCATCGCCCGATCCTTACAACGAATTAACGGCGCAGGACACTAG	MLLPASHQWGPWREQSVRSVGEPLTPTQPPGYPEELTHGLSRQRHRMGHIRRDWNQHRLPDTPSGLSDDRREFGSLGEARLVSCAVNSLLDHCKIGYAHRGPALAPLTLTDDERDQLQRWVRRRKTTQDLALRSRIVLECATGASNSEVARRLGISLPTVGKWRARFIDKRLDGLVDEPRPGRPATIGIDRVEQVIIDTLESTPANATHWSRASMAERSGLSKSTVGRIWKAFGLKPHLEEGFKLSNDPFFTEKIYDIVGLYLNPPESAVVLCVDEKSQVQALQRSQPAFPMMPGTPERRAHDYVRHGTTSLFAALNVADGTVISQVHRKHRSVEFRKFLVKIDKTVPEGLDVHVICDNYATHKHPTIQTWLGKHPRFHMHFTPTYSSWINQVERVFAEVTRELLQRSDHRSVQALEKDLRDWVRAWNEDPKPFIWTKTAEDILDSIARSLQRINGAGH	PGPT0030670_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030670-putative_transposase-K07494	NA	NA
AK009_07451	285			hypothetical protein	ATGCCAGCCGAGCCAATGTCGACCCTCGAAGTGGTCGAGTCCCAGGCCGTGCTTGAGTTCGCGGTAGTCGTGTTCGATCCGCCACCGGATCTTTCCCAGGCGCACCAACTGCTCGATGGGGGTGGTCTCGGGCAGGGTCGACAACCAGTAATCGGTGGGTTCGTCTTCTCCGGCGGGCCATTCGACCAGCAGCCAACACTCTGGGGCGGTGCCGTGAACCGCTACGGCTTTGTTGCCGCCGTTAGATTGGGTGAGCCGCCGTCGCAGGTGACCCAGGAATTGTAG	MPAEPMSTLEVVESQAVLEFAVVVFDPPPDLSQAHQLLDGGGLGQGRQPVIGGFVFSGGPFDQQPTLWGGAVNRYGFVAAVRLGEPPSQVTQEL				NA	NA	NA	NA	NA
AK009_07452	396			hypothetical protein	ATGCAGCCGGTGGTGGTTGTGCCACTGCACCCACGCCATGGTCGCGAGTTCGACGTCGACGATCGACTCCAGGTTCTGTGCGGTGAAGATCCGGGAGCCGATGCACTCGGTCTTGTCCAGCCCGTTGCTCGACTCCATCAGCGCATTGTCGTAGGCATCACCCACACTCCCGATCGACGGGGTGATGCCCTGCAGGGCCAGGTTCTCAGTGAATTTCACCGCGGTGTGACTTGCTGCCCGCATCCGAGTGGTGCGTCAGCTCACCACGGACAACGGGACGCTGGGTGCGGTCACGCTCCCACAGCACCGGGTACCGTGGGATACGCACCAGTTCGACTCCGCGGGAGGTCTGCGCGTGCCAGCCGACGATGCGCTGCGAGTACACGTCAACGATGA	MQPVVVVPLHPRHGREFDVDDRLQVLCGEDPGADALGLVQPVARLHQRIVVGITHTPDRRGDALQGQVLSEFHRGVTCCPHPSGASAHHGQRDAGCGHAPTAPGTVGYAPVRLRGRSARASRRCAASTRQR				NA	NA	NA	NA	NA
AK009_07453	717			IS3 family transposase ISPfr13	GTGAGAGGCCAACGAGATTTTGAAGAAGGCCACGGTTTTCTTCGCCGGGGAGCTCGACCCCGGAAACCGTTGATCGTCGCCTTCATCGACCAGATGAAAAAAGAAGGCTTTGCTGTCGAGTCGGCCCGCCATGTGCTGCGTGAGCAGGGCGTGCAGGTCGCGGCGAGGACCTACCACCACTGGAAGAAAGTACCGGCCACACGGACCATGACGGACGCGCAGATCCTCAACGCCCTCTACGAGCTTCGGGACGCACCGGAATCCCTGTACGGGCGGCGCAAGATGGTCGCCCACCTGCGTCGGCAGGGTCATGCGAGGGCGCATTGCACCGTCGGCCGGTTGATGCGCCTGGCCGGGATGAACGGTATCTTCAGGCGCCGGACCACGGTGCGGACCACGATTCCCGGGTCCGGGGACCGTGCCCCTGACCTGCTGAACCGGAACTTTACCGCCGAGGCGTCCAACCGGGTATGGGTCGCCGATTTCACCTACGCCCGCACCGGTTCGGGCTGGGTCTATGTGGCCTTCATCGTTGACGTGTACTCGCAGCGCATCGTCGGCTGGCACGCGCAGACCTCCCGCGGAGTCGAACTGGTGCGTATCCCACGGTACCCGGTGCTGTGGGAGCGTGACCGCACCCAGCGTCCCGTTGTCCGTGGTGAGCTGACGCACCACTCGGATGCGGGCAGCAAGTCACACCGCGGTGAAATTCACTGA	MRGQRDFEEGHGFLRRGARPRKPLIVAFIDQMKKEGFAVESARHVLREQGVQVAARTYHHWKKVPATRTMTDAQILNALYELRDAPESLYGRRKMVAHLRRQGHARAHCTVGRLMRLAGMNGIFRRRTTVRTTIPGSGDRAPDLLNRNFTAEASNRVWVADFTYARTGSGWVYVAFIVDVYSQRIVGWHAQTSRGVELVRIPRYPVLWERDRTQRPVVRGELTHHSDAGSKSHRGEIH				NA	NA	NA	NA	NA
AK009_07454	198		COG2963	Insertion element IS6110 uncharacterized 12.0 kDa protein	ATGGTCCAGCAGCATCGTGAGGACTACCGATCGCTGACCGTCACCTGCACCGCCGTCGGGGACGAGCTCGGTGTCTCGCGCGAAACCCTGCGCAACTGGGTCCGCCAGGCCGAGGTCGACGCCGGCCACGTCCCCGGTGTGAGCACCGAGGAAAACGAGGAAATGACCCGCCTGCGCAAGGAGAACAAACGCCTGTGA	MVQQHREDYRSLTVTCTAVGDELGVSRETLRNWVRQAEVDAGHVPGVSTEENEEMTRLRKENKRL				NA	NA	NA	NA	NA
AK009_07455	357			hypothetical protein	GTGACGGTTCAGACCGAAAGCACCGCCGCCGACGAGGATGAAAATGCCCAGGCCGATCAAAACGATGGGGAACAATACATGTTCCCAGCGTTCGAGGACCTCGGCGATGGGCGGACGGGTGGCAACGAATTTTGCCAGCAGGACCAAAACTGCCACCAGGACGAGGAAGACGACGCAGTAGGTGATGACCGTGGCGGTTCCCACATTAAGGAAGACGGGGACGTAGACGCCGATATTGTCGCCGCCGTTGGCAAACGTCACCCCGGCGACCGTCAGGATACCCACCTTCTTCCCGGCGACCTTCCCGGCGTCATCGTCGTCATCATCGCTCCGCCAGGCCTGCCAGGCCGCCCATAA	MTVQTESTAADEDENAQADQNDGEQYMFPAFEDLGDGRTGGNEFCQQDQNCHQDEEDDAVGDDRGGSHIKEDGDVDADIVAAVGKRHPGDRQDTHLLPGDLPGVIVVIIAPPGLPGRP				NA	NA	NA	NA	NA
AK009_07456	126			hypothetical protein	GTGCTCATCCACCGCGAGCGTGACGTCCAGCAACGCGTTGAGCGCCTGGGCGAGGTGGGCGTCGACGATTTCGTAGCGAGTCTGCCGGCCCTCCGGTTCGGCAACGATGATGCCGCAGTCGCGTAG	MLIHRERDVQQRVERLGEVGVDDFVASLPALRFGNDDAAVA				NA	NA	NA	NA	NA
AK009_07457	591	ideR	COG1321	Iron-dependent repressor IdeR	ATGGGCACGACCACGCCCAACGTCTCAGACACGGTCAGACGGCTGGCAGCCCAGGGACTCGTGGAGTACCAGCCCTACAAACCTGTCATGCTCACCGAGCGGGGCGAGCAGTACGCCATCGCGATGGTACGCAGGCATCGGCTGCTCGAGACCTTCCTCGTCACCACCCTGGGCTACCCGTGGGAGGAGGTCCACGACGAGGCCGAACGGCTCGAACACGCCGTCTCAGAAACCATGATCGAGCGTATCGACGCTCTCCTCGGGAACCCCGCCACCGATCCCCATGGTGACCCCATCCCTACTGCCACCGGGTATGTCTCCCGTCCCATCGATGCCATCCGGCTCACCCGCGTTGTTCCGGGTGACTACGTAATCATCCGCATCTCTGATGCTGACTCAGGGCAGTTGGCCGGCTTTAGGAGGCGGGACATAGTTCCGGGCGCACTAGTCAACGTCGCTGGTGGGGATCCTCGCCAGGACAGGATTGTCCTCAAAGGCGCTGATGGGAAAGAGGTCATCCTCACCACGGAGCAAGCCAATGCCATTTGGGTAGCGCTCTCCCCCGGCATCGGGGGCGGCACTTCCTTGTAG	MGTTTPNVSDTVRRLAAQGLVEYQPYKPVMLTERGEQYAIAMVRRHRLLETFLVTTLGYPWEEVHDEAERLEHAVSETMIERIDALLGNPATDPHGDPIPTATGYVSRPIDAIRLTRVVPGDYVIIRISDADSGQLAGFRRRDIVPGALVNVAGGDPRQDRIVLKGADGKEVILTTEQANAIWVALSPGIGGGTSL	PGPT0003890_474	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
AK009_07458	669			hypothetical protein	GTGCAGCAATCCGCCCATGATCGTGGATCCGGCGTAGCAACCCACCGAGGTGGACGCCAGCCCGGAAGCCAGCAAACCGACACCGAAGGCCACCCCCACTGCCGGGCCCAGCGTGGCGGTGATCACCGCGTGGGCCCCTTCGATGCTGTCGGTACCCGGGATGCCGTTCAAGTTTCCGGCAGCCAACAACAGCATCGCGATATTGACCGACCCGGCCACCAGCAGCGACAGGAGAACATCCCACCGGGTGACACGGAGCAGACGCGGCAATGCCTCGGGCGCGATGGTGTCACCGTGGCGGTCTCGGGCGAGGGAGGAGTGGGCGTAGATGGCATGGGGCATCACCGTGGCCCCGAGCATGCTCGCGGCCAACACCACCGTCGGGGTCCCCTCAAAGCGCGGGACAACCCCGGCCAATGCCTCGCTCCAGGAAACAGTTCCGATGAACATGCCCGTGAGGAAGCCGACGGTGATGACTACCAGCAAACCTACTATGACGAACTCAAAGGGGCGCTGACCGTGCCTGGATTGGACGGCCAGCAGCAGCATCGATACCAGACCGATGAGCAGGCCCCCCATCAACAAGGGGAGGCCGAAGAGAATGTGGAGGGCGATCGCCCCGCCGATCACCTCGGCCAGGTCCGTGGCCGCGGCCACTGTCTCTGTTAG	MQQSAHDRGSGVATHRGGRQPGSQQTDTEGHPHCRAQRGGDHRVGPFDAVGTRDAVQVSGSQQQHRDIDRPGHQQRQENIPPGDTEQTRQCLGRDGVTVAVSGEGGVGVDGMGHHRGPEHARGQHHRRGPLKARDNPGQCLAPGNSSDEHAREEADGDDYQQTYYDELKGALTVPGLDGQQQHRYQTDEQAPHQQGEAEENVEGDRPADHLGQVRGRGHCLC				NA	NA	NA	NA	NA
AK009_07459	792			IS21 family transposase ISMyma9	ATGACCCGTCCTCAACACACCACACTCGACTCCGAACTGGCGTATCTGGCCAGGGCGCTGAAGGCCCCACGAATCGGATCAGACTATGCGACCATCGCCGAGAAAGCACGCCAAGCGTCGTGGACCTACGAGGAATACTTGGCAGCGGTGCTGTCGGTCGAAGCGTCGGCCCGGGCGGAATCCGGCGCCGCAGGCCGGATAAAAAGGGCGGGCTTTCCCCAGATCAAAACGATTGACGAGTTCGACTTTTCCACCCAGCCCGCACTCGACCGGGCCCGTATCGCCCGGTTGGAAACCGGCGGATGGATCACCGAGGCCGCAAACGTCATCTTCCTCGGCCCGCCGGGCACCGGCAAAACGCACCTGGCAACTGGGTTAGGGGTCATCGCAGCCCGGCAAGGCTACCGGGTCGCTTTCGACACCGCCGCCGGATGGATCACCCGCCTGACCCAAGCCCACAGCATAGGCGGGCTGACAACATTGTTGGCCAAACTCAACCGCTACCACCTGCTCATCATCGACGAGGTGGGCTACGTCCCGATCGAGGCAGAAGCAGCGAACCTGTTCTTCCAGCTAGTGTCCAACCGATATGAGCGCGGCTCGTTGATCATGACGTCGAACCTGCCGTTCTCTCGCTGGGGCGAATGCTTCGGTGACGTCACCGTCGCCGCCGCGATGATTGATCGCATCGTCCATCACGCGGAAATCTTCACGCACACAGGCACCAGCTACCGAATCGCCGGCCGAGAAAGTGTACTACCGTCGATCACCGCACAACGTCAGGCAGAATAA	MTRPQHTTLDSELAYLARALKAPRIGSDYATIAEKARQASWTYEEYLAAVLSVEASARAESGAAGRIKRAGFPQIKTIDEFDFSTQPALDRARIARLETGGWITEAANVIFLGPPGTGKTHLATGLGVIAARQGYRVAFDTAAGWITRLTQAHSIGGLTTLLAKLNRYHLLIIDEVGYVPIEAEAANLFFQLVSNRYERGSLIMTSNLPFSRWGECFGDVTVAAAMIDRIVHHAEIFTHTGTSYRIAGRESVLPSITAQRQAE				NA	NA	NA	NA	NA
AK009_07460	1209			hypothetical protein	GTGGAAGATTGGGCCAAGATCAGGTATCTGCGTCGGCAGGGCCTGTCGATCAGGAAAATCGCGGCCGAAGTTGGCTGCTCGAAAAAGACGGTGGAAAGGGCGTTGGCCTCAGATGCGCCGCCTGTGTACAAGAAGCGTGCAAGCTCCGAAACCAGCTTCACCCCGTTTGAATCGCGGGTGCGTGCCCTGCTGGAGCAGAGCCCGACGTTGCCTGCCACTGTGATTGCGCAGCGTGTGGGGTGGTGTGGGTCGATCACATGGTTTCGCGATAATGTGCGCCGCATCCGACCTGACTACCAGCAGGCGGACCCGGTGGACACGCTGATTCACCGCCCTGGTGAGCAAATCCAGTGTGATCTGACTTTCCCCGCTGGCGGGATTCCCGACGGGTCCGGGCAGAAAGTGGCGTTTCCGGTGCTGGTGATGGTGGCGTCGTATTCGAGGTTCATGGCCGCGCGTGTGCTGCCGACACGCACGACCGCAGATCTTGTTGCAGGGATGTGGGCATTGTTGTCGACATCGTTTCAGGCCGTACCTGAGCAGTTGTTGTGGGACCGAGAGACTGGAATTGGGCAAAAGGCGCTCACCCAGCCGGTGCTGTCTTTTGCTGGCATTTTGGGCACCAGGATTCAGCAGGCTCCACCTCGTGATCCGGAAACTAAAGGCGTGGTGGAGCGGGCCAACGGGTATCTGAAGTCCTCGTTTTTCCCCGGCCGCGATTTCACGTGCCCAGCAGATGTCCAACGCCAGCTCGACGAGTGGATTACTGAGGTGGCTAACCAGCGTATCCACGCGACCACAAGGAAAATTCCGGCGGTGGCTTGGACAGTCGACAAGGCGCACATGGCCGCTTTGCCGCCGTATCCCCCGCAGATCGATGTGCTACGACAGGTGCGGCTGCCACGTAACTACTACGTCGCCGTCGACGCCAACCACTATTCAGTGGATCCGCGAATGATCAACCGAATTGTCACCGTCCACGCTGGCTTGGAGCAGGTGGTCGTGCGCGCCCCGGACGGGACGATCGTCGCCCGCCACGAACGGGTGTGGGGCACACATCAGACAATCACTGACCCGATGCACGCCGCCACCGCGAAGCAGATGCGCCGCCAACTGGCCACGCCACCTGTTTCACCGCAGGCGATCGAGGTCGAACAGGCAGACCTGAACATTTACGACCGGCTGACCGAACTGGAGGTAGAGTCATGA	MEDWAKIRYLRRQGLSIRKIAAEVGCSKKTVERALASDAPPVYKKRASSETSFTPFESRVRALLEQSPTLPATVIAQRVGWCGSITWFRDNVRRIRPDYQQADPVDTLIHRPGEQIQCDLTFPAGGIPDGSGQKVAFPVLVMVASYSRFMAARVLPTRTTADLVAGMWALLSTSFQAVPEQLLWDRETGIGQKALTQPVLSFAGILGTRIQQAPPRDPETKGVVERANGYLKSSFFPGRDFTCPADVQRQLDEWITEVANQRIHATTRKIPAVAWTVDKAHMAALPPYPPQIDVLRQVRLPRNYYVAVDANHYSVDPRMINRIVTVHAGLEQVVVRAPDGTIVARHERVWGTHQTITDPMHAATAKQMRRQLATPPVSPQAIEVEQADLNIYDRLTELEVES				NA	NA	NA	NA	NA
AK009_07462	219			hypothetical protein	TTGCTTGGGCTGATGTTGACAAAAGAAGAGAGAAAAGAGATGGAATACATATTAAAGAGAGAGTTAGAGGAACTTTTATTTGATTTTGAAGATGAGCGTATTCATGAAGTTGTAAAAAAGGCGATGGAAGAAAGATATAAAATCATTTTTTGTTTGTTTCGGAGAGTTGCTAACGCAGAGGAATGTATTCGTTATGTAAGAAGAAGAACTTTTTATTAA	MLGLMLTKEERKEMEYILKRELEELLFDFEDERIHEVVKKAMEERYKIIFCLFRRVANAEECIRYVRRRTFY				NA	NA	NA	NA	NA
AK009_07463	765			hypothetical protein	ATGTTTTTCTTTTTTATTACGAGTAAAAGAACTTTTAAACACATTAGCTTAATAGTGATACTTTCCTTATTTACAGCATGGCTACTCTTTTTAAAAACATATTCACATGAATCTGCTTTTTCAACTGCTACAGGCCCTAAAGTAATTTACAAAGGAGATACCGCTAAAAAGCAAGTTGCATTTACGTTTGATATTAGTTGGGGAGACAAAAAAGCAATTCCAATCCTTGATACTCTTAAAGAAAGAGAAATTAAGAATGCAACCTTCTTCCTTTCTGCTGCATGGGCCGAAAGACACCCCGATATTGTAGAGCGCATCATGAAAGATGGACACGAAATCGGTAGTATGGGTTACAATTACACATCTTATACTTCTCTAGAGACGAATGAAATAAGACGAGACCTTTTACGAGCACAAGATGTTTTTACAAAACTTGGTGTAAAACAAGTCAAACTGTTACGTCCACCTAGTGGCGAATTTAACAAGGCAACCCTTAAAATTGCAGAATCACTTGGATACACCGTCGTGCATTGGAGTAATAATTCAAACGATTGGAAAAACCCAGGTGTAAACCACATCGTTTCCACCGTCTCTAATAATTTGAAAGGTGGAGATATTGTCTTATTACACGCATCCGATTCTGCCCTTCAAACAAATAGAGCTTTACCGCTGCTCCTGCAAAAATTAAAAAGTGATGGATATGAGCAAATATCCGTATCACAACTTATTTCCAACACAAGTACGAAAAGTGAAGATGTGAAATAG	MFFFFITSKRTFKHISLIVILSLFTAWLLFLKTYSHESAFSTATGPKVIYKGDTAKKQVAFTFDISWGDKKAIPILDTLKEREIKNATFFLSAAWAERHPDIVERIMKDGHEIGSMGYNYTSYTSLETNEIRRDLLRAQDVFTKLGVKQVKLLRPPSGEFNKATLKIAESLGYTVVHWSNNSNDWKNPGVNHIVSTVSNNLKGGDIVLLHASDSALQTNRALPLLLQKLKSDGYEQISVSQLISNTSTKSEDVK	PGPT0012156_533	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
AK009_07464	612			hypothetical protein	GTGAATAGCCGCAAGTGGGTACGACTATTTTTAACGACGTTGTTTCTTGGTGGGATTAGCACAGTTATTATTGGTTTTGTTTTGGAGTGGGACAGGTACAATGAATTTTTTAAAAATTTCGACGTTAAGGAGATTTTAGCGGTATCTTTCTGGTTGATGGGTGTAGGATTTATTTTTAGCGTTATAAGTCAAATGGGATTCTTTGCATATTTAACAATCCATCGTTTTGGACTAGGGATGTTTCGCTCATCGTCTTTATGGAATGCAGTCCAGCTCTTCTTTATTGCATTCGTATTATTTGATTTTGTGTATTTAAGGTCTGTACTTATTGCAAATGGGGAAGTCTCATTGGGGAATAACATACTTGTTGCTGGAATTTTATTTGTGTTTGGAGCAATTGTTGCTTATGTAAAAAGTAAAGAAACAAATAAAAAAGCATTTGTGCCAGCTCTGTTCTTTATGGTTGTTGTAACAATTCTTGAATGGGTACCGGCGCTTCGGATTAATGATACAGATTGGTTATATTTAATGGTTATACCGCTATTGTTATGTAATGCATATCAATTACTTGTATTACATCGTTTAATCGGAAAAACGAGTAAACCTGCTTAA	MNSRKWVRLFLTTLFLGGISTVIIGFVLEWDRYNEFFKNFDVKEILAVSFWLMGVGFIFSVISQMGFFAYLTIHRFGLGMFRSSSLWNAVQLFFIAFVLFDFVYLRSVLIANGEVSLGNNILVAGILFVFGAIVAYVKSKETNKKAFVPALFFMVVVTILEWVPALRINDTDWLYLMVIPLLLCNAYQLLVLHRLIGKTSKPA				NA	NA	NA	NA	NA
AK009_07465	618	gerD		Spore germination protein GerD	ATGAAACGGATACTATTCATTTTCGTTTCTTCTTTTCTACTTATCGCACTTGTAGCATGCGCACAAGGAAAAGAAACGAAATCCGAACTAGATTACGATCAAACAAAGAAAATGATTGTTGATATTTTAAAAACAGATCAAGGTAAGAAAGCTATTCAAGATGTATTAACTGATGAAAAAATGAAACAAGCACTCATACTAGATGAAACAGTAGTAAAGAAAACGATTGAAGATGCAATGGTATCCGATAAAGGGCAACAATTCTGGGAAAAGCTCTTTAAAGATCCTGAGTTCTCATCGAAGTTCGCTAAAAGTATGGGGAAAGAACAAACCCAATTAATGAAAACCTTATTAAAAGACCCTGAATACCAAGCAGGCGTTATAGAAATCATGAAAAATCCTGAAGTAGAAAAAATGATGTTACAAACAATGAAGAGTAAAGAATACCGTCAATATCTACAACAAGTACTAACAGAAACTGCTGAAAGTCCACTCTTCCAATCCAAGATGATTGATATCATTAGTAAAGGTGTACAAAAGGCTGAAAAAGGTGGATCTGATAAGAAAGAAGCAGGCGGTGACGGTGGTTCTCAAGGCGAGAAGAAGGAAGAACAGTGA	MKRILFIFVSSFLLIALVACAQGKETKSELDYDQTKKMIVDILKTDQGKKAIQDVLTDEKMKQALILDETVVKKTIEDAMVSDKGQQFWEKLFKDPEFSSKFAKSMGKEQTQLMKTLLKDPEYQAGVIEIMKNPEVEKMMLQTMKSKEYRQYLQQVLTETAESPLFQSKMIDIISKGVQKAEKGGSDKKEAGGDGGSQGEKKEEQ	PGPT0025045_128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025045-gerD-K06294	NA	NA
AK009_07466	1068	salA_2	COG0489	Iron-sulfur cluster carrier protein	ATGGTAACGAAAGAACAAGTGGTTGAAGCGTTAGAAGGGATTGTAGATCCGTTTTTACATAAAACATTAAAAGAAACAAGTGCAATTAAAGAGGTAACAGTCAAGCCTGAGAAGGAACATGTGAGTGTCAAAATTGCAATCGTAAAAACTGGTACAGCGGAACAAATGCAGTTGCAGTCTGGAATTGTAAAGTTAGTAAAAGAACTTGGAGCAGCAACAGTTGGACTTCGTTTTGCAGAATTTACAGAAGAGGAATTAGCTCAGTTTGCACCAGAACAAGAAGCAGAGCAAAGTGAATCTTTATTGTCACCAAATTCAAAAACGACATTCTTAGCAGTAGCGAGTGGAAAAGGTGGCGTGGGAAAATCAACCGTTTCCGTTAACCTTGCAGTTGCTTTAGCTCGTTTAGGAAAAAAAGTTGGTATTATTGATGCGGACATTTACGGTTTTAGTGTGCCAGACATGATGGGGATAGAAAAACGTCCCATCGTAAGAGGTGACAAGATAATTCCGGTGGAACGTTTAGGTGTAAAGGTAATCTCAATGGGCTTCTTTGTAGAGGATAATGCACCAGTTATTTGGAGAGGACCTATGCTTGGGAAAATGTTAAACCACTTCTTCACAGAAGTGGAATGGGGCGATTTAGATTATTTAGTACTAGATTTACCACCAGGAACAGGTGATGTTGCGTTAGATGTGCACTCAATGTTGCCATCTTGCAAAGAGATTATTGTAACGACGCCTCATCCAACAGCTGCGTTTGTAGCAGCGCGTGCTGGAGCGATGGCATTACGCACTGAACATAGTATTCTCGGTGTTGTTGAGAACATGGCATATTTTGAAAGTAAGGTAACTGGTGAGAAAGAATATGTATTTGGAAGAGGCGGGGGAGATAAGTTGGCTACCGAACTACAAACAAATGTTCTTGGTCGTATTCCGCTGCAACAACCTGATTGGAATAAAGAAGACTTTGCTCCTTCAGTATATGAAGATACACATACAACCGGCATTATTTATAGTAAAATAGCCGAAGTGGTAATTGATAAAACAGCTGTTACACAAAAATAA	MVTKEQVVEALEGIVDPFLHKTLKETSAIKEVTVKPEKEHVSVKIAIVKTGTAEQMQLQSGIVKLVKELGAATVGLRFAEFTEEELAQFAPEQEAEQSESLLSPNSKTTFLAVASGKGGVGKSTVSVNLAVALARLGKKVGIIDADIYGFSVPDMMGIEKRPIVRGDKIIPVERLGVKVISMGFFVEDNAPVIWRGPMLGKMLNHFFTEVEWGDLDYLVLDLPPGTGDVALDVHSMLPSCKEIIVTTPHPTAAFVAARAGAMALRTEHSILGVVENMAYFESKVTGEKEYVFGRGGGDKLATELQTNVLGRIPLQQPDWNKEDFAPSVYEDTHTTGIIYSKIAEVVIDKTAVTQK	PGPT0013215_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
AK009_07467	714	cwlD	COG0860	Germination-specific N-acetylmuramoyl-L-alanine amidase	ATGAAGAGAATTCGAATTATCTCTTTTGCACTCGCTGCGGTTGTTTTGTTTTTTTTAGTCAAACAAGAATTTCAAATCACAAAATCGTGGCGAGCTTGGAATTTACCCTTATCAGGGAAAGTAATCGTATTAGATGCTGGGCATGGTGGACCAGATGGAGGGGCTGTTGGTGGAAAGGATATTATAGAAAAGGATATTACGCTTGAAATTACAAAAAAGGTACAAGACTATTTACAAGAACAAGGTGCACTAGTTATTTTAACGCGTGAGGGAGATTATGATTTAGCTAACAAAGATACAAAGTCATATAGTAGACGTAAAGCGGAGGATTTAAAAAAACGTGTAGAAATCATCAATAAACCAGATATAGACTTTTTTGCAAGCATTCATTTAAATGCTTTAACTAGTAGTGGATCGAAAGGCGCACAAACATTCTACTATCGCTCTTCAATTGAAAATGAACGTGCTGCTAAATTTATACAGGCTGAATTGAGAACGAGTTTAGAAAATACGAATCGTTCTGCTAAAACAATCTCTCACGTATACTTATTGAAGTATGCGAAAACACCAGGTGCTTTAATTGAAGCCGGCTTTTTATCGAATGTGAACGAAAGGTATATGTTAAATTCGGAGAAATATCAACAGAAGGTAGCAGCTGCAATATACCGTGGTATATTGCGTTATTTCACGGAAAAAGGAAATCCTCCAGAATAA	MKRIRIISFALAAVVLFFLVKQEFQITKSWRAWNLPLSGKVIVLDAGHGGPDGGAVGGKDIIEKDITLEITKKVQDYLQEQGALVILTREGDYDLANKDTKSYSRRKAEDLKKRVEIINKPDIDFFASIHLNALTSSGSKGAQTFYYRSSIENERAAKFIQAELRTSLENTNRSAKTISHVYLLKYAKTPGALIEAGFLSNVNERYMLNSEKYQQKVAAAIYRGILRYFTEKGNPPE	PGPT0024160_6861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_07468	429			hypothetical protein	ATGAATGTCATTGTCAGCTTACAAGAAAAACAAAAAGAAAAGCAGTTAAAATACGAGCGGAAGATGCTGCGAGAATTATCATTAAAAACATTGCGCTCAAATATTCGTGATGCCTTTCAAATGCAAGAGCTTCATCGTCAGTATGAAGATTACTGTATTGAATTAGGGATAGAATCTTATTTATTAGGAGCGAGATATAGTAAATTTGGTTATTATGGTGAATCGTTTTTTGATGTGAAATATAGAGCTTTAGAAGAAGAACAACAATTAACTGAAACGCTATTTCAATTTTTAACGAGTATGACTATGCGAGAAATAAAGTTGAAAGATGAGGAATTACTTTTTGAATCTTGTCAGCAGTTTATAGGATTGTGGTGGCAAGAAGGGTATGAAAAAGGTGAAAGAAGATATCGATTAAAGCTTCATTAA	MNVIVSLQEKQKEKQLKYERKMLRELSLKTLRSNIRDAFQMQELHRQYEDYCIELGIESYLLGARYSKFGYYGESFFDVKYRALEEEQQLTETLFQFLTSMTMREIKLKDEELLFESCQQFIGLWWQEGYEKGERRYRLKLH				NA	NA	NA	NA	NA
AK009_07469	393	rpsI	COG0103	30S ribosomal protein S9	TTGGCACAGGTTCAATACTATGGCACTGGACGTCGTAAGAGTTCAGTAGCGCGCGTACGCCTAGTTCCAGGCGAAGGACGCGTTATCATTAACGGTCGTGATTTTGAAAACTATATCCCATTTGCTGCATTACGTGAAGTAGTGAAACAACCTCTAGTTGCAACAGAAACTTTAGGTAACTACGATGTACTTGTAAACGTAAATGGTGGTGGATACACTGGTCAAGCTGGTGCTATTCGTCACGGTATTTCTCGCGCTTTATTAAAAGCTGATCCAGAATACCGTCTAACACTAAAACGTGCAGGTCTATTAACTCGTGACGCACGTATGAAAGAGCGTAAAAAATACGGTCTTAAAGGCGCACGTCGTGCACCTCAGTTCTCAAAACGTTAA	MAQVQYYGTGRRKSSVARVRLVPGEGRVIINGRDFENYIPFAALREVVKQPLVATETLGNYDVLVNVNGGGYTGQAGAIRHGISRALLKADPEYRLTLKRAGLLTRDARMKERKKYGLKGARRAPQFSKR				NA	NA	NA	NA	NA
AK009_07470	438	rplM	COG0102	50S ribosomal protein L13	ATGCGTACGACTTTTATGGCAAAAGCTAACGAAGTTGAGCGTAAATGGTATGTGGTTGATGCTGAAGGTCAAACTTTAGGTCGCCTATCTACTGAAGTAGCATCCATTTTACGTGGTAAAAACAAACCTACATTTACACCACACGTTGACACGGGTGATCATGTAATTATTATTAACGCTGAGAAAATTCATTTAACAGGTAATAAATTAAACGATAAAATTTACTACCGTCACACTAACCACCCAGGTGGACTTAAGCAAAGAACAGCTCTTGAAATGCGTACAAACTACCCTGTACAAATGTTAGAGCTTGCAATTAAAGGCATGCTTCCAAAAGGACGCTTAGGCCGTCAAGTTTCTAAGAAACTTAACGTGTATGCTGGAGCAGAGCATCCACACCAAGCACAAAAACCAGAAGTTTACGAACTTCGCGGATAA	MRTTFMAKANEVERKWYVVDAEGQTLGRLSTEVASILRGKNKPTFTPHVDTGDHVIIINAEKIHLTGNKLNDKIYYRHTNHPGGLKQRTALEMRTNYPVQMLELAIKGMLPKGRLGRQVSKKLNVYAGAEHPHQAQKPEVYELRG				NA	NA	NA	NA	NA
AK009_07471	744	truA_3	COG0101	tRNA pseudouridine synthase A	ATGGATAGAATAAAATGTACGGTTGCATATGATGGTATGCATTTTTGTGGTTATCAAATTCAGCCGAAGCATCGTACTGTTCAACAGGAGATAGAAAAAGCATTACAGAAATTGCATAAGGGAGAACTTGTTCGTGTTCAGGCGTCTGGTAGAACAGATTCTACGGTTCATGCAAAAGGGCAAGTAATACACTTTGATACTCCTTTGTCTCTTGAGGAGTGGCAATGGAATAACGCTTTAAATACAATGTTGCCAGATGATATTGTTATTAGGCGAGTAGAGAAAAAAACAGAAGAATTTCATGCACGTTACGGTGTTGAGAAAAAAGAATATCGTTATCGTGTATTATTATCAAAGACTGCGGATGTATTCCGTAGAAATTACGTATATCAATATCCATATCCGCTCGAAATCAATTCTATAAGAAAAGCAATTCCTTATTTTATTGGAACGCATGATTTCACTTCTTTTTGCTCGGCAAAAACTGACAAAAAAGATAAAGTGCGAACAATTTATGAAATCGAGTTAATTGAGCAAGATGATGAATTAATTTTTCGTTTTGTAGGTAATGGATTTTTATATAATATGGTCAGAATTATTGTTGGTACGTTACTTAACGTAGGGCAAGGAAAGCTTGATCCTGATAGCATTCCAGAGATTTTAGCGAAACAAAATCGTCAGTTTGCTGGAAAGATGGCTCCAGGTCATGGGCTTTACCTATGGGAGGTAAACTATAACAACTAA	MDRIKCTVAYDGMHFCGYQIQPKHRTVQQEIEKALQKLHKGELVRVQASGRTDSTVHAKGQVIHFDTPLSLEEWQWNNALNTMLPDDIVIRRVEKKTEEFHARYGVEKKEYRYRVLLSKTADVFRRNYVYQYPYPLEINSIRKAIPYFIGTHDFTSFCSAKTDKKDKVRTIYEIELIEQDDELIFRFVGNGFLYNMVRIIVGTLLNVGQGKLDPDSIPEILAKQNRQFAGKMAPGHGLYLWEVNYNN				NA	NA	NA	NA	NA
AK009_07472	795	ecfT_4	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	ATGCAGCAGTTGATTATTGGGAGATATATCCCGGGGAATTCACTTATTCATCAACTTGATCCACGTACGAAGCTGCTGATTGTCTTTTTATATGTATTTGTTGTTTTCTTAGCAAATAATGCGATTTCATATGGATTTTTATTTTTATATGCACTCATTGCTTTATTTTTTGCAAAAGTGCCGATTCGTTATGTACTTTCGGGCTTAAAACCAATTTTATGGATTTTTCTTTTTACATTTTTCCTGCATATTTTTACAAATAAAGAGGGGGATGTACTACTCCAGCTTGGTTGGTTTTCGATACATGAAAAAGGATTAGAGCAAGGGATATACATTTCTGTACGGTTCTTCGTTATTATTTTAATGACGACATTATTAACGTTAACGACGACACCTATTGAAATTACAGATGGTTTGGAGACGTTATTAAAGCCATTGAAGCGTATAAAGGTTCCTGTTCATGAAATCGCATTAATGATGTCAATTTCTCTTCGTTTTATCCCGACATTAATGGATGAAACGAGTAAAATAATGAAAGCACAAGCATCACGTGGTATTGATTTCGCTGGTGGACCGATAAAAGATAGAATGAAAGCTATTATCTCACTGCTCGTTCCTCTGTTTATCAGTGCTTTTAAGCGTGCAGAGGACTTAGCTATTGCGATGGAAGCTCGTGGATATCAAAGTGGTGAAGGACGTACTAAATTTAGGCAACTACGCTGGAAAACAAGCGATACAGTAACGATTGTAAGCTTATTTTGTTTAGCTTGTATTTTGGCATGGGTGCGATCGTAA	MQQLIIGRYIPGNSLIHQLDPRTKLLIVFLYVFVVFLANNAISYGFLFLYALIALFFAKVPIRYVLSGLKPILWIFLFTFFLHIFTNKEGDVLLQLGWFSIHEKGLEQGIYISVRFFVIILMTTLLTLTTTPIEITDGLETLLKPLKRIKVPVHEIALMMSISLRFIPTLMDETSKIMKAQASRGIDFAGGPIKDRMKAIISLLVPLFISAFKRAEDLAIAMEARGYQSGEGRTKFRQLRWKTSDTVTIVSLFCLACILAWVRS	PGPT0004015_2243	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
AK009_07473	882	ecfA2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA2	TTGGAGATTACATTCCAAAAAGTAGAACATCGTTATCAATATAAAACTCCATTTGAAAGACGCGCACTTTATGATGTAGACGTGTCGTTTCCAAGTGGGGGCTATTATGCCATTATCGGTCATACTGGTTCAGGTAAGTCGACGATGATTCAACATTTAAATGGTTTATTGCAGCCGACAAATGGTACAGTTCAAATTGGTGAACATTTGATTTCGGCAGGAAAGAAAGAAAAAAAGCTAAAGCCACTACGTAAAAAAGTAGGGGTTGTCTTTCAATTCCCGGAACATCAGTTGTTTGAAGAAACTGTGGAGAAAGATATTTGCTTCGGACCTACTAATTTCGGGGTATCTGGAGACGAAGCGAAGCAAAAGGCTAGAGAGGCAATAGAACTTGTAGGGCTAGAACCGGAACTGTTAACACGTTCTCCGTTCGAATTAAGTGGTGGACAAATGAGACGTGTTGCTATAGCGGGTGTACTGGCAATGGAACCTGAAGTGCTTGTATTAGATGAACCTACAGCAGGTCTAGATCCAAAAGGGCAGAACGAACTTATGCAGATGTTTTATAAGTTGCATAAGGAGAAAGGGCTTACAGTTATCCTTGTAACGCATAATATGGAAGATGCTGCTCAGTATGCGGAACAAATTGTAGTTATGCATAAAGGAACGGTCTTTTTGCAAGGAAGTGCAGAGGAAGTATTTTCACATGCTAATGAACTAGAGAAAATTGGTGTGGATCTTCCTATGTCATTAAAGTATAAACGTGCAATTGAAGAGAAGTTTGGTATTTCAATTCCAAAGGCTACCTTATCTTTAGAGGATCTTACTCATGAAGTTGTGCAGGTGTTACGAAAAGGTGGTCATGAATCATGCAGCAGTTGA	MEITFQKVEHRYQYKTPFERRALYDVDVSFPSGGYYAIIGHTGSGKSTMIQHLNGLLQPTNGTVQIGEHLISAGKKEKKLKPLRKKVGVVFQFPEHQLFEETVEKDICFGPTNFGVSGDEAKQKAREAIELVGLEPELLTRSPFELSGGQMRRVAIAGVLAMEPEVLVLDEPTAGLDPKGQNELMQMFYKLHKEKGLTVILVTHNMEDAAQYAEQIVVMHKGTVFLQGSAEEVFSHANELEKIGVDLPMSLKYKRAIEEKFGISIPKATLSLEDLTHEVVQVLRKGGHESCSS	PGPT0004455_470	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
AK009_07474	843	ecfA1		Energy-coupling factor transporter ATP-binding protein EcfA1	TTGAAAAAAGAGAAACTTCGGATAGGAAATATATCATTTCAATATCCTGGGGCAGCCACGTATGCATTAAAAGATGTTTCATTTTCCTTATATGAGGGAGAATGGGTATCTATTATTGGACAAAACGGTTCAGGAAAGTCTACACTTGCAAAATTATTGAATGGTTTGTTTTTGCCGGAAGCAGGGACTATTACAGTAAATGATTCAATGGTTTTATCAGAGGAAACGGTATGGGATGTTCGAAAACAAATTGGAATGGTATTTCAAAATCCAGATAATCAATTTGTTGGAACAACAGTGCAAGATGATGTTGTATTTGGTTTAGAGAATATCGGAATGCCAAGAGAACAAATGATTGAAAGATTAGAACAGGCCTTACGACTTGTCCGTATGGAAGATTTTCTTAATGATGAGCCTCATTCCTTATCTGGTGGGCAAAAACAGCGAGTGGCAATAGCGGGCGTTTTAGCACTTCAGCCATCTATTTTAATATTAGATGAAGCAACGTCAATGTTAGATCCTCAAGGAAGACGTGAAGTAGTAGAAACGGTTAGACAACTTGTTAATCAAAAAGGTATTACCGTGTTATCAATTACGCACGATTTAGAAGAAGCGGCGCAGTCAGATCGTGTCATTATTTTAAATAAGGGAGAAATATTAGAGGAAGGGACTCCAGAGAAAATTTTCAAGTCCTCTCATATGCTCCAAGAAATTGGCTTAGATGTACCGTTTTCGGTGAAAATAGCAGAATTATTAAAAAGAAATGAAATTCTTTTGCAAAATACGCATCTTACAATGGAAAGCTTGGTGAACGAACTTTGGAGATTACATTCCAAAAAGTAG	MKKEKLRIGNISFQYPGAATYALKDVSFSLYEGEWVSIIGQNGSGKSTLAKLLNGLFLPEAGTITVNDSMVLSEETVWDVRKQIGMVFQNPDNQFVGTTVQDDVVFGLENIGMPREQMIERLEQALRLVRMEDFLNDEPHSLSGGQKQRVAIAGVLALQPSILILDEATSMLDPQGRREVVETVRQLVNQKGITVLSITHDLEEAAQSDRVIILNKGEILEEGTPEKIFKSSHMLQEIGLDVPFSVKIAELLKRNEILLQNTHLTMESLVNELWRLHSKK				NA	NA	NA	NA	NA
AK009_07475	363	rplQ		50S ribosomal protein L17	ATGGCATACAGAAAATTAGGCCGTACAAGTGCGCAACGTAAAGCTATGTTACGTGACTTAGCTACTGATTTAATTATCAACGAGCGCATCCAAACGACAGAAACTCGTGCAAAAGAACTTCGTTCTGTAGTGGAAAAAATGATCACTTTAGGTAAACGCGGAGATCTTCATGCTCGTCGTCAAGCAGCAGCTTTCATTCGCAATGAAGTAGCTAACGCTGAGACTGGTCAAGATGCACTTCAAAAATTATTCGCTGATGTAGCTCCACGCTATGCTGAGCGCCAAGGCGGATACACTCGTATTGCAAAAATTGGTCCACGTCGCGGAGACGCAGCACCAATGGTAATTATCGAGTTAGTATAA	MAYRKLGRTSAQRKAMLRDLATDLIINERIQTTETRAKELRSVVEKMITLGKRGDLHARRQAAAFIRNEVANAETGQDALQKLFADVAPRYAERQGGYTRIAKIGPRRGDAAPMVIIELV				NA	NA	NA	NA	NA
AK009_07476	945	rpoA	COG0202	DNA-directed RNA polymerase subunit alpha	ATGATTGAAATCGAAAAGCCGAAAATCGAAACGGTTGAACTTAACGAAGATGCTAAATATGGTAAATTCGTAATTGAACCGCTTGAGCGTGGATATGGTACTACTTTGGGTAACTCCTTACGTCGTATTCTTTTATCCTCACTCCCTGGTGCCGCTGTTACTGCTATCCAAATCGATGGCGTATTACATGAATTTTCAACAGTTGAGGGCGTAGTAGAAGACGTTACGACGATCATCTTAAACTTGAAAAAGTTAGCTCTTAAAATCTACTCTGAAGAAGAGAAGACGTTGGAAATTGATGTGCAGGGCGAAGGTATTGTCACAGCTGCTGATATTACTCACGATAGTGATGTAGAAATCTTAAATCCAGATTTACACATTGCAACGTTAGCAAAAGATGCGCATTTCCGCGTGCGTTTAACTGCAAAGCGTGGCCGTGGGTATACGCCAGCTGATGCAAATAAAAGCGAAGATCAACCAATAGGAGTAATTCCTATTGATTCTATTTATACTCCAGTATCACGTGTGACTTACCAAGTGGAAAAGACACGTGTCGGACAAGTGGCTAATTATGATAAGCTTACGCTTGATGTATGGACGGATGGAAGCATCGGGCCAAAAGAAGCTATCTCTTTAGGTGCCAAAATCTTAACTGAGCATTTAAATATCTTTGTTGGTTTAACTGATGAAGCACAAAATGCTGAGATTATGGTCGAGAAGGAAGAAGATCAAAAAGAGAAAGTTCTTGAGATGACTATCGAAGAACTAGACCTTTCTGTTCGTTCTTATAATTGCCTAAAACGTGCAGGAATTAATACTGTACAAGAGCTTGCGAACAAAACAGAAGAAGATATGATGAAAGTTCGTAACTTAGGACGTAAATCCTTAGAAGAAGTTAAACATAAACTTGAGGAATTAGGTTTAGGTTTACGTAAAGACGACTGA	MIEIEKPKIETVELNEDAKYGKFVIEPLERGYGTTLGNSLRRILLSSLPGAAVTAIQIDGVLHEFSTVEGVVEDVTTIILNLKKLALKIYSEEEKTLEIDVQGEGIVTAADITHDSDVEILNPDLHIATLAKDAHFRVRLTAKRGRGYTPADANKSEDQPIGVIPIDSIYTPVSRVTYQVEKTRVGQVANYDKLTLDVWTDGSIGPKEAISLGAKILTEHLNIFVGLTDEAQNAEIMVEKEEDQKEKVLEMTIEELDLSVRSYNCLKRAGINTVQELANKTEEDMMKVRNLGRKSLEEVKHKLEELGLGLRKDD				NA	NA	NA	NA	NA
AK009_07477	390	rpsK		30S ribosomal protein S11	ATGGCACGTAAAACAAACACTCGTAAAAAACGTGTGAAAAAGAATATCGAAGCTGGTATAGCTCATATTCGTTCTACTTTCAACAACACAATCGTAACACTTACAGATACTCACGGTAACGCACTTTCTTGGTCTAGTGCTGGTGCACTTGGTTTCCGTGGATCTCGTAAATCTACTCCATTCGCTGCGCAAATGGCTGCTGAAGCTGCTGCTAAAGTTGCAATGGAGCACGGTTTAAAAACTTTAGAGGTTACTGTTAAAGGTCCTGGTGCTGGTCGTGAAGCTGCAATTCGTGCTCTTCAAGCTGCAGGTCTAGAAGTAACAGCAATTAGAGATGTTACTCCAGTTCCTCATAATGGATGTCGTCCGCCAAAACGTCGTCGTGTGTAA	MARKTNTRKKRVKKNIEAGIAHIRSTFNNTIVTLTDTHGNALSWSSAGALGFRGSRKSTPFAAQMAAEAAAKVAMEHGLKTLEVTVKGPGAGREAAIRALQAAGLEVTAIRDVTPVPHNGCRPPKRRRV				NA	NA	NA	NA	NA
AK009_07478	366	rpsM	COG0099	30S ribosomal protein S13	ATGGCACGTATCGCAGGTGTAGATATTCCTCGAGACAAACGCGTTGTTATTTCTTTAACTTACGTATTCGGCATTGGTCGCACAACTGCTGAAAAAATTCTTACTGAAGCTGGTATTTCTTCAGAAACACGAGTTCGTGATTTAACGGAAGACGAATTAGGACGTATCCGTGATGTTATCGATCGTATTAAAGTTGAGGGAGACCTTCGTCGTGAAGTATCTCTTAACATTAAACGTCTAATGGAGATCGGTTCTTACCGTGGTCTTCGTCACCGTCGTGGTTTACCAGTTCGTGGTCAAAATTCTAAAAACAATGCTCGTACACGTAAAGGTCCACGTCGTACAGTAGCAAATAAAAAGAAATAA	MARIAGVDIPRDKRVVISLTYVFGIGRTTAEKILTEAGISSETRVRDLTEDELGRIRDVIDRIKVEGDLRREVSLNIKRLMEIGSYRGLRHRRGLPVRGQNSKNNARTRKGPRRTVANKKK				NA	NA	NA	NA	NA
AK009_07479	114	rpmJ		50S ribosomal protein L36	ATGAAAGTAAGACCGTCAGTTAAACCAATCTGCGAAAAATGTAAAGTTATTCGTAGACGTGGAAAAGTAATGGTTATTTGTGAAAACCCTAAACATAAACAAAAACAAGGTTAA	MKVRPSVKPICEKCKVIRRRGKVMVICENPKHKQKQG				NA	NA	NA	NA	NA
AK009_07480	219	infA_2	COG0361	Translation initiation factor IF-1	ATGGCTAAAGATGATGTAATTGAAGTCGAAGGTACCGTTCTTGAAACGTTGCCAAATGCTATGTTCAAAGTAGAATTAGAGAATGGGCATGTCGTATTGGCTCACGTTTCTGGTAAAATCCGTATGAACTTCATTCGTATTTTACCAGGAGACAAAGTTACGGTAGAATTATCTCCGTACGATTTAAATCGTGGTCGTATTACGTACCGTTTTAAATAA	MAKDDVIEVEGTVLETLPNAMFKVELENGHVVLAHVSGKIRMNFIRILPGDKVTVELSPYDLNRGRITYRFK				NA	NA	NA	NA	NA
AK009_07481	747	map_2	COG0024	Methionine aminopeptidase 1	ATGATCATCTGCAAAACTCCTCGCGAGATAGAAATCATGCGAGAAGCTGGCAGAATCGTTGCTTTAACTCATCAAGAGTTGAAACAGCACATTACTCCAGGAATTACAACGAAAGAGCTCGATCAAATAGCGGAAAAGACGATTCAAAAATATGGTGCTACGCCATCTTTTAAAGGATACAACGGATTTCCGGGGAGCATATGTGCTTCTGTAAATGAAGAGCTTGTACACGGAATTCCAGGAAAGCGCAAGCTCAAAGAGGGCGATATCATCAGTATCGATATTGGTGCGAAATACAATGGGTACCATGGAGATTCTGCATGGACGTATCCAGTTGGAAACATTTCTGAATCTGTTCAAAAGCTACTTGATGTCACAGAAAAATCGTTGTATCTTGGTCTAGAACAAGTAAAACCAGGCGAGAGATTATCAAATATCTCACATGCGGTTCAAACCCATGCTGAAGAGAATGGATTCTCGATCGTTAGGGAGTATGTTGGTCACGGAATCGGGCAAGACTTACATGAGGACCCTCAAATCCCGCACTATGGTCCACCAAATAGAGGCCCTAGATTAAAGCCGGGAATGGTCATCTGTGTTGAGCCGATGGTGAATCAAGGAAGACGATATGTAAAAACACTATCTGATGACTGGACAGTGGTAACGGTAGATGGTAAATGGTGTGCCCATTTTGAGCACACGATTGCTCTTACAGAAGCAGGATACGAAATCCTTACCACTTTATAA	MIICKTPREIEIMREAGRIVALTHQELKQHITPGITTKELDQIAEKTIQKYGATPSFKGYNGFPGSICASVNEELVHGIPGKRKLKEGDIISIDIGAKYNGYHGDSAWTYPVGNISESVQKLLDVTEKSLYLGLEQVKPGERLSNISHAVQTHAEENGFSIVREYVGHGIGQDLHEDPQIPHYGPPNRGPRLKPGMVICVEPMVNQGRRYVKTLSDDWTVVTVDGKWCAHFEHTIALTEAGYEILTTL	PGPT0020010_8990	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
AK009_07482	651	adk		Adenylate kinase	ATGAACTTAATTTTAATGGGGCTTCCTGGTGCTGGTAAAGGTACACAAGCCGAACAGATTGTAGCCAAGTATAACATCCCTCACATTTCAACAGGAGATATGTTCCGTGCAGCTATGAAGGCTGAAACTGAAATGGGTCTACAAGCAAAATCTTTTATTGATAAAGGTGCACTTGTTCCAGATGAAGTTACAATCGGAATTGTTCGTGAACGTTTAAGTCAAGAAGACTGCGTAAGAGGTTTCTTACTAGACGGTTTCCCACGAACTGTTGCACAAGCATCAGCTCTTGAAGAGATTATGAAAGATCTTGGCAAAAAAATCGACTATGTTTTAAACATTAATGTGGATTCAGGGTTGTTATTAAAACGCCTTACAGGCCGTCGCATTTGTAAAGAGTGCGGTGCGACTTACCACTTAGAATTCAATCCACCAGCAAAAGCTGATGTGTGCGATAAATGTGGTGGCGAATTATACCAACGCTCTGATGACAATGAAGAAACTGTAGCAAATCGTTTAGATGTAAATATTAAGCAAACAAAACCTTTGCTTGATTTCTACGACGAGCTTGGTTACTTAAAAAGCATTAATGGTGAGCAAGATATCAATAAAGTATTTGCTGATATCGATGTTCTCATCGGAGGCTTAGCGTAA	MNLILMGLPGAGKGTQAEQIVAKYNIPHISTGDMFRAAMKAETEMGLQAKSFIDKGALVPDEVTIGIVRERLSQEDCVRGFLLDGFPRTVAQASALEEIMKDLGKKIDYVLNINVDSGLLLKRLTGRRICKECGATYHLEFNPPAKADVCDKCGGELYQRSDDNEETVANRLDVNIKQTKPLLDFYDELGYLKSINGEQDINKVFADIDVLIGGLA	PGPT0009040_4207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
AK009_07483	1302	secY_2		Protein translocase subunit SecY	ATGTTTCGTACAATCTCCAACTTTATGCGCGTTGCTGAGATAAGACGTAAAATATTATTCACTTTAGCGATGTTAATCGTATTCAGGATTGGCACGTTTATCCCAGTGCCATTTACAAATGGAGACGTACTGAAAGCACAAGACCAATTAAATGCTTTAGGCATCCTAAATACATTTGGCGGTGGCGCCTTGAAAAACTTCTCCATCTTCGCGATGGGAATCATGCCGTATATTACAGCATCCATCATCGTGCAATTATTGCAGATGGATGTTGTTCCTAAATTTTCGGAATGGTCGAAGCAAGGTGAAATGGGCCGTCGTAAACTAACGCAATTCACGCGTTACTTTACAATTGTTCTTGCGTTTATTCAGGGGTTTGGTATGTCAATCGGTTTTAACGGTATGGTAGGTGGGCAATTAATTTTGAATCCTGGTTGGAGCACTTATTTATACATTGCTACGGTACTGACTGCTGGTACTGCATTTTTAATGTGGTTAGGCGAACAGATTACAGCTAAAGGTGTAGGTAATGGTATTTCCATCCTTATCTTTGGCGGTATTGCTGCAGCGATCCCAAGTGTTATATCTCAAGTGTATCAACAACAGTTTCAAAATATCGGAGATCAATTGTTCATGAGTATCGTTAAAGTTGCATTGATTTTACTAGCTGTGCTAGCAGTTATTGTTGGTGTTATTTTCATTCAACAAGCTGTTAGAAAGATCCCAATTCAATACGCGAAGCGTGTAACAGGAGGGAATGGGAATCATGCTGGAGCACAAAACACACATTTACCGCTTAAGGTAAATAGTGCGGGTGTTATTCCAGTCATTTTTGCTGTTTCATTCTTAATTACGCCTCCAACTATTGCACAGTTCTTCCCGAAACATGATGTATCGCAGTGGATTATTGCAAACTTTAACTATTCTCACCCAGTGGGAATGATCATATATGTTGCGCTCATTGTAGCCTTCACATATTTCTATGCATTTGTTCAGGTTAATCCAGAGCAAATGTCAGAGAATCTAAACAAGCAAGGTGGATATGTTCCAGGTATTCGTCCGGGTAAGAATACAGAACAATATCTAACAAAAATCTTGTATCGTTTGACCTTTGTAGGATCAATTTTCCTAGCAGCGATTGCAATCTTACCAGTTATTTTTACGAAATTGGGAAATCTTCCTCCATCTGCACAGATTGGTGGAACGAGTATGTTAATCGTTGTCGGCGTTGCTTTAGAAACAATGAAGCAGCTAGAAAGCCAACTGGTAAAACGCCATTACAAAGGGTTTATCAAGCAGTGA	MFRTISNFMRVAEIRRKILFTLAMLIVFRIGTFIPVPFTNGDVLKAQDQLNALGILNTFGGGALKNFSIFAMGIMPYITASIIVQLLQMDVVPKFSEWSKQGEMGRRKLTQFTRYFTIVLAFIQGFGMSIGFNGMVGGQLILNPGWSTYLYIATVLTAGTAFLMWLGEQITAKGVGNGISILIFGGIAAAIPSVISQVYQQQFQNIGDQLFMSIVKVALILLAVLAVIVGVIFIQQAVRKIPIQYAKRVTGGNGNHAGAQNTHLPLKVNSAGVIPVIFAVSFLITPPTIAQFFPKHDVSQWIIANFNYSHPVGMIIYVALIVAFTYFYAFVQVNPEQMSENLNKQGGYVPGIRPGKNTEQYLTKILYRLTFVGSIFLAAIAILPVIFTKLGNLPPSAQIGGTSMLIVVGVALETMKQLESQLVKRHYKGFIKQ	PGPT0025725_3704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
AK009_07484	441	rplO_2		50S ribosomal protein L15	ATGAAACTTCATGAATTAAAACCTGCAGAAGGTTCTCGTAAAGTACGTAACCGTGTCGGTCGTGGTATCGGTTCTGGTAACGGTAAAACTGCTGGTAAAGGTCATAAAGGACAAAACGCACGTTCTGGTGGCGGTGTTCGTCTTGGCTTCGAAGGTGGTCAAACTCCATTATTCCGTCGTTTACCAAAACGCGGCTTCACAAACATTAACCGTAAAGAGTTTACTATTGTAAACTTATCAACGTTAAATCGTTTTGAAGATGGTACAGAAGTAACACCTGAATTATTGCTGGAAACTGGCGTTATCAGCAAGTTAAACGACGGTGTTAAAATTCTTGCAAGCGGAGCAGTAGAGAAAAAACTAACTGTTAAAGCGCACAAGTTCTCTTCAAGTGCTAAAGAAGCAATTGAAGCAGCTGGCGGATCAGTTGAGGTGATCTAA	MKLHELKPAEGSRKVRNRVGRGIGSGNGKTAGKGHKGQNARSGGGVRLGFEGGQTPLFRRLPKRGFTNINRKEFTIVNLSTLNRFEDGTEVTPELLLETGVISKLNDGVKILASGAVEKKLTVKAHKFSSSAKEAIEAAGGSVEVI				NA	NA	NA	NA	NA
AK009_07485	183	rpmD_2		50S ribosomal protein L30	ATGGCGAAAAAGTTAGAAATTACCCTCACTCGTAGTGTAATTGGTCGTCCACAAGATCAACGTGCGACGGTAGAAGCTTTAGGTCTTAAAAAGTTGAATTCAACTGTAGTTAAGGAAGAAACTCCTGCTATTCTTGGTATGATCAACAAAGTTTCTCACCTTTTAACTGTAAAAGAAGCTTAA	MAKKLEITLTRSVIGRPQDQRATVEALGLKKLNSTVVKEETPAILGMINKVSHLLTVKEA				NA	NA	NA	NA	NA
AK009_07486	501	rpsE	COG0098	30S ribosomal protein S5	ATGCATCGCATTGACCCAAGTAAATTAGAACTTGAAGAACGTGTAGTTACGATAAATCGTGTCGCGAAAGTTGTTAAGGGTGGTCGTCGTTTCCGCTTTGCTGCACTAGTTGTAGTTGGCGATAAAAACGGTCATGTTGGATTCGGTACTGGTAAAGCACAAGAGGTACCAGACGCAATTCGCAAAGCTATCGAAGACGCTAAGAAAAATTTAATCGCTGTACCATTAGTTGGTACAACAATTCCACACACAATCAACGGTCACTTTGGAGCTGGTGAAGTATTCTTAAAACCTGCTGCTGAGGGTACTGGTGTTATTGCTGGTGGACCTGTTCGTGCGGTTCTTGAATTAGCTGGTGTACAAGATATTCTTTCGAAATCTCTTGGTTCTAACACACCAATCAACATGATTCGCGCTACTGTGAACGGATTAAGCGAACTTAAGCGCGCTGAAGATGTTGCAAAATTACGCGGTAAATCTGTAGAAGAGCTACTAGGTTAA	MHRIDPSKLELEERVVTINRVAKVVKGGRRFRFAALVVVGDKNGHVGFGTGKAQEVPDAIRKAIEDAKKNLIAVPLVGTTIPHTINGHFGAGEVFLKPAAEGTGVIAGGPVRAVLELAGVQDILSKSLGSNTPINMIRATVNGLSELKRAEDVAKLRGKSVEELLG				NA	NA	NA	NA	NA
AK009_07487	363	rplR	COG0256	50S ribosomal protein L18	ATGATCACTAAAGCTGATAAAAATGCGACTCGTAAGAAAAGACATGCACGTGTACGTGCTAAACTTACTGGTACTGCAGAGCGTCCACGTTTAAACGTGTTCCGTTCTAACCAACATATTTACGCTCAAGTTATTGATGATGTGAATGGTGTAACGTTAGTAAGTGCATCTACTCTTGATAAAGACCTTGCTCTTAACGGTACTAGCAATACTGAAGCTGCTACGAAAGTTGGAGAATCAGTTGCTAAGCGTGCTGTAGAGAAAGGCGTTAAAGAAGTAGTATTCGATCGCGGTGGTTACTTATACCATGGCCGTGTTAAAGCTCTAGCTGAAGCTGCTCGTGAGGCTGGATTACAATTTTAA	MITKADKNATRKKRHARVRAKLTGTAERPRLNVFRSNQHIYAQVIDDVNGVTLVSASTLDKDLALNGTSNTEAATKVGESVAKRAVEKGVKEVVFDRGGYLYHGRVKALAEAAREAGLQF				NA	NA	NA	NA	NA
AK009_07488	540	rplF	COG0097	50S ribosomal protein L6	ATGTCTCGTATTGGTAAAAAGATTCTTGAAATCCCTGCAGGTGTTACTATTACAATTGCAGAAGACAATACTGTAACAGTAAAAGGCCCTAAAGGTGAATTAACTCGTAAATTCAATGCTGATATGTCTATCAAAATTGAAGAAAATACACTAACAGTTGAGCGTCCATCTGAACAGAAGGAACACCGTGCATTACACGGTACAACTCGTGCTTTAATCGGAAACATGGTTGAAGGTGTAACTGCAGGTTTCGCACGCGGACTTGAATTAGTCGGTGTTGGTTACCGTGCTCAAAAACAAGGAGATAAACTTGTTTTAAGCGTAGGTTATTCTCATCCAGTAGAAATGACTCCGGAAGCAGGTCTTGAAGTTGAAGTACCTGCACCAACTAAAATCGTAATTAAAGGTATCGACAAGCAACGTGTTGGCGAATTTGCTGCTAACATCCGTGCTGTACGTGCTCCTGAGCCTTACAAAGGTAAAGGTATTCGTTACGAAGGCGAAGTTGTTCGTCGTAAAGAAGGTAAAACTGCTAAGTAA	MSRIGKKILEIPAGVTITIAEDNTVTVKGPKGELTRKFNADMSIKIEENTLTVERPSEQKEHRALHGTTRALIGNMVEGVTAGFARGLELVGVGYRAQKQGDKLVLSVGYSHPVEMTPEAGLEVEVPAPTKIVIKGIDKQRVGEFAANIRAVRAPEPYKGKGIRYEGEVVRRKEGKTAK				NA	NA	NA	NA	NA
AK009_07489	399	rpsH_2	COG0096	30S ribosomal protein S8	ATGGTGATGACAGATCCAATTGCAGACATGCTTACTCGCATCCGTAATGCGAACATGGTACGTCATGAGAAATTAGAGGTTCCTGCTTCTAAAATCAAAAAAGAGATCGCTGAACTTTTAAAACGTGAAGGTTTCATTCGTGATGTAGAATACATCGAGGATAACAAACAAGGTATCCTTCGTATTTTCCTGAAATATGGTGCAAACAATGAACGTGTAATCACTGGATTAAAACGTATCAGTAAACCTGGCTTACGCGTTTACGCTAAAGCTGACGAAGTACCACGTGTACTTAACGGATTAGGTATCGCTCTTGTTTCTACATCTAAGGGAGTAATGACAGACAAAGACGCTCGTCAATTACAAACTGGTGGAGAAGTAGTAGCATACGTTTGGTAA	MVMTDPIADMLTRIRNANMVRHEKLEVPASKIKKEIAELLKREGFIRDVEYIEDNKQGILRIFLKYGANNERVITGLKRISKPGLRVYAKADEVPRVLNGLGIALVSTSKGVMTDKDARQLQTGGEVVAYVW				NA	NA	NA	NA	NA
AK009_07490	186	rpsN1	COG0199	30S ribosomal protein S14	GTGGCTAAAAAATCTATGATAGCGAAACAAAAGCGTACTCCTAAGTTTAAAGTACAAGAGTATACACGTTGCGAACGCTGCGGTCGTCCGCATTCTGTATACCGCAAATTTAAACTTTGCCGTATTTGTTTCCGTGAACTTGCATATAAAGGTCAAATTCCTGGTGTTAAAAAAGCTAGTTGGTAA	MAKKSMIAKQKRTPKFKVQEYTRCERCGRPHSVYRKFKLCRICFRELAYKGQIPGVKKASW				NA	NA	NA	NA	NA
AK009_07491	540	rplE	COG0094	50S ribosomal protein L5	TTGAATCGCCTTAAAGAGAAGTTCCAAAAGGAAATTACTCCTGCTCTAGTGAGCAAGTTTAACTATAAATCTGTGATGGAAGTACCGAAAATCGAAAAGATCGTAATCAACACTGGTGTTGGTGACGCGGTATCTAACTCAAAAGCTTTAGACAATGCAGTAGAAGAATTAACACAAATCGCAGGTCAAAAACCTGTTGTAACTCGTGCTAAAAAATCAATCGCTGGTTTCCGTCTTCGTGAAGGTATGCCAATCGGTGCGAAAGTAACTTTACGCGGCGAGCAAATGTATGAGTTCTTCGACAAATTAGTATCGGTTTCTTTACCACGTGTACGTGATTTCCGTGGTGTTTCTAAGAAATCATTCGATGGTCGTGGGAACTACACATTAGGTGTTAAAGAGCAACTTATCTTCCCTGAGATTGATTATGATAAAGTAAGCAAAGTGCGCGGTATGGACATCGTAATCGTTACTACAGCGAAAACTGATGAAGAAGCTCGTGAACTTTTAACACAATTCGGTATGCCATTCCAAAAATAA	MNRLKEKFQKEITPALVSKFNYKSVMEVPKIEKIVINTGVGDAVSNSKALDNAVEELTQIAGQKPVVTRAKKSIAGFRLREGMPIGAKVTLRGEQMYEFFDKLVSVSLPRVRDFRGVSKKSFDGRGNYTLGVKEQLIFPEIDYDKVSKVRGMDIVIVTTAKTDEEARELLTQFGMPFQK				NA	NA	NA	NA	NA
AK009_07492	312	rplX		50S ribosomal protein L24	ATGCATGTAAAAAAAGGTGATAAAGTACAGGTAATCACTGGTAAAGACAAAGGAAAACAAGGCGTTATCCTTGTGGCTTTCCCAAAGCAAAACCGTGTTATCGTTGAGGGTGTTAACATCGTTAAAAAACACTCTAAGCCATCTCAATTAAATCCACAAGGTGGAATTATTACTAAAGAAGCACCTATTCACGTTTCTAACGTTATGATTTTAGATCCGAAAACAGGTGAACCTACTCGCGTAGGCTTCAAAGTAGAAGATGGTAAAAAAGTTCGTATTGCAAAAAAATCTGGTGAATTATTAGATAAATAA	MHVKKGDKVQVITGKDKGKQGVILVAFPKQNRVIVEGVNIVKKHSKPSQLNPQGGIITKEAPIHVSNVMILDPKTGEPTRVGFKVEDGKKVRIAKKSGELLDK				NA	NA	NA	NA	NA
AK009_07493	369	rplN_2	COG0093	50S ribosomal protein L14	ATGATCCAACAAGAATCTCGTTTGAAAGTTGCTGACAACTCTGGTGCACGTGAACTTTTAACAATTAAAGTATTAGGCGGCTCTGGTCGTAAATATGCTAACATTGGTGACATTATCGTTGCTACGGTAAAACAAGCAACACCAGGTGGCGTTGTTAAAAAAGGTGACGTTGTTAAAGCAGTAGTAGTACGTACGAAGAGCGGAGCTCGTCGTCCGGACGGTTCTTACATCAAATTTGATGAAAACGCAGCGGTTATCATTAAAGACGATAAGAGCCCACGTGGTACTCGTATCTTCGGACCAGTAGCTCGTGAATTACGTGATAGCAACTTCATGAAGATCGTTTCTTTAGCTCCAGAAGTTCTATAA	MIQQESRLKVADNSGARELLTIKVLGGSGRKYANIGDIIVATVKQATPGGVVKKGDVVKAVVVRTKSGARRPDGSYIKFDENAAVIIKDDKSPRGTRIFGPVARELRDSNFMKIVSLAPEVL				NA	NA	NA	NA	NA
AK009_07494	264	rpsQ_1	COG0186	30S ribosomal protein S17	GTGAGCGAACGTAACCAACGCAAAGTTTATACTGGTCGTGTAGTGTCTGACAAAATGGACAAAACGATTACAGTTTTAGTTGAAACTTACAAAACTCATTCCTTGTACGGAAAACGTGTTAAGTATTCTAAGAAGTACAAAGCCCATGATGAGCAAAACCAAGCGAAACTTGGCGATATCGTTAAAATCATGGAAACTCGCCCGCTTTCTGCTACTAAGCGTTTCCGTTTAGTTGAAATCGTTGAAGAAGCGGTTATTATCTAA	MSERNQRKVYTGRVVSDKMDKTITVLVETYKTHSLYGKRVKYSKKYKAHDEQNQAKLGDIVKIMETRPLSATKRFRLVEIVEEAVII				NA	NA	NA	NA	NA
AK009_07495	201	rpmC_1	COG0255	50S ribosomal protein L29	ATGAAAACTAATGATATTCGTGAATTAACCACTGCCGAAATCGAAACAAAAGTTAAAGCTTTAAAGGAAGAGTTGTTTAATCTTCGCTTCCAACTTGCTACAGGACAATTAGAGAATCCAACTCGCATTCGTGAAGTGCGTAAAGCAATTGCTCGTATGAAAACTGTAGTTCGTGAAAGAGAGATCGGAATTAATCGATAA	MKTNDIRELTTAEIETKVKALKEELFNLRFQLATGQLENPTRIREVRKAIARMKTVVREREIGINR				NA	NA	NA	NA	NA
AK009_07496	435	rplP	COG0197	50S ribosomal protein L16	ATGTTAATGCCAAAACGCGTAAAATATCGTAGAGAGCATCGTGGTAAAATGCGTGGTCGTGCTAAAGGTGGAACTGAAATTGCTTTCGGTGAATTCGGTTTACAAGCACAAGCTGCTTCATGGATTACAAACCGTCAAATCGAAGCTGCTCGTCGTGCAATGACTCGTTACATGAAACGTGGCGGTAAAGTATGGATTAAAATTTTCCCTTCTAAACCTTACACTGCAAAACCTCTAGAAGTACGTATGGGTTCCGGTAAAGGGGCACCAGAAGGCTGGGTAGCAGTAGTAAAACCTGGGAAAATTATGTTCGAAATCGCGGGTGTATCTGAAGAGGTAGCACGCGAAGCATTACGTCTTGCAGCTCACAAGTTACCTGTGAAATGTAAATTCGTAAAACGTGAAGAAAATGGTGGTGAATCTAATGAAAACTAA	MLMPKRVKYRREHRGKMRGRAKGGTEIAFGEFGLQAQAASWITNRQIEAARRAMTRYMKRGGKVWIKIFPSKPYTAKPLEVRMGSGKGAPEGWVAVVKPGKIMFEIAGVSEEVAREALRLAAHKLPVKCKFVKREENGGESNEN				NA	NA	NA	NA	NA
AK009_07497	660	rpsC	COG0092	30S ribosomal protein S3	ATGGGTCAAAAGGTTAATCCAATTGGTCTTCGTGTCGGTGTTATCCGTGACTGGGAATCTCGTTGGTTCGCTGAGAAAGATTACGCTACATTATTACATGAAGACATCAAAATCCGTGAGTACATTAATGTACGCTTAAAAGATTCTGCTGTTGCTAAAGTAGAAATCGAACGTGCAGCAAATCGTGTAAATGTTACAATTCACACTGCAAAACCTGGTATGGTAATTGGTAAAGGTGGTACTGAAGTTGAAGCACTTCGTAAAGCTCTTAACCAATTAACAGGCAAGCGTGTACACATCAACATTTTAGAAGTTAAGAGAGCTGATCTTAACGCTAAATTAGTAGGCGAAAACATCGCTCGTCAATTAGAAAACCGTGTATCATTCCGTCGTGCACAAAAGCAAGTTATTCAACGTGCTATGCGTGCAGGTGCTAAAGGTATTAAAACACAGGTTTCTGGTCGTCTTGGCGGAGCTGATATCGCTCGTGCAGAATCTTACAGTGAAGGAACTGTTCCACTTCATACACTTCGCGCTGATATTGACTATGCAGCAGTTGAAGCTGATACAACATACGGTAAATTAGGCGTAAAAGTATGGATCTACCGTGGAGAAGTCCTTCCTACAAAAAAGAAAGCTTCTGAGGAAGGAGGAAAATAA	MGQKVNPIGLRVGVIRDWESRWFAEKDYATLLHEDIKIREYINVRLKDSAVAKVEIERAANRVNVTIHTAKPGMVIGKGGTEVEALRKALNQLTGKRVHINILEVKRADLNAKLVGENIARQLENRVSFRRAQKQVIQRAMRAGAKGIKTQVSGRLGGADIARAESYSEGTVPLHTLRADIDYAAVEADTTYGKLGVKVWIYRGEVLPTKKKASEEGGK				NA	NA	NA	NA	NA
AK009_07498	342	rplV	COG0091	50S ribosomal protein L22	ATGCAAGCTAAAGCAGTAGCGAGAACAGTTCGTATTGCTCCTCGTAAAGTTCGTTTAGTAGTAGACTTAATCCGAGGTAAGCAAGTGGGTGAAGCGATTGCTATCCTTAACCACACACCAAAAACTGCTTCTCCAGTTGTAGAAAAAGTTTTAAAATCTGCAATCGCAAATGCAGAGCACAATTATGAGATGGATATTAACAACCTAGTTGTTGAAAAAGTCTTCGTTGACGAAGGTCCAACGTTGAAACGTTTCCGTCCACGTGCAATGGGTCGTGCAAGCCAAATTAACAAACGCACAAGCCACATCACAGTTGTGGTATCAGAAAAGAAGGAGGGATAA	MQAKAVARTVRIAPRKVRLVVDLIRGKQVGEAIAILNHTPKTASPVVEKVLKSAIANAEHNYEMDINNLVVEKVFVDEGPTLKRFRPRAMGRASQINKRTSHITVVVSEKKEG				NA	NA	NA	NA	NA
AK009_07499	279	rpsS	COG0185	30S ribosomal protein S19	ATGGCTCGTAGCTTAAAAAAAGGACCATTTGTCGATGATCACTTAATGAGCAAAATGGAAAAATTAGTTGCATCTGAGCAAAAACAAGTTGTTAAAACTTGGTCTCGCCGTTCAACAATCTTCCCTCAGTTCATCGGACACACAATCGCTGTATATGATGGTCGTAAACACGTACCTGTGTACATCACTGAGGATATGGTTGGCCATAAGTTAGGTGAATTCGCACCAACTCGTACGTATAAAGGTCACCTTGCTGACGATAAGAAAACTAGAAGATAA	MARSLKKGPFVDDHLMSKMEKLVASEQKQVVKTWSRRSTIFPQFIGHTIAVYDGRKHVPVYITEDMVGHKLGEFAPTRTYKGHLADDKKTRR				NA	NA	NA	NA	NA
AK009_07500	831	rplB_1	COG0090	50S ribosomal protein L2	ATGGGAATTAAAAAGTATAATCCAACTACTAACGGTCGTCGTAATATGACTACGAATGATTTCGCTGAAATCACGACTGACAGACCCGAAAAGTCTTTACTTGCTCCTTTAAGCAAGAAGGCTGGTCGTAATAACCAAGGTAAAATTACTGTACGTCATCAAGGTGGCGGACATAAGCGTCAATACCGTATCATCGACTTTAAGCGTAACAAAGATGGAATTCCAGGACGCGTTGCTACGATCGAATACGATCCAAACCGCTCTGCGAATATCGCATTAATTAACTACGTTGACGGTGAAAAACGTTACATTCTTGCTCCTAAATCATTAGAAGTAGGTATGGAAGTTATGTCTGGCCCAGAAGCTGACATCAAAATCGGTAACGCATTACCATTAATCAACATTCCAGTAGGTACTGTTGTTCATAACATCGAGCTTAAGCCTGGTCGTGGCGGACAATTAGTTCGTTCTGCTGGTACATCTGCTCAAGTACTTGGTAAAGAAGGTAAATACGTACTTGTACGTTTAACTTCTGGTGAAGTACGTCTTGTATTATCTGCTTGTCGCGCTTCAATCGGTCAAGTAGGTAACGAACAACATGAACTTATCAAAATCGGTAAAGCAGGTCGCTCTCGCTGGTTAGGTAAACGCCCAACAGTTCGTGGTTCTGTAATGAACCCGGTTGATCACCCACACGGTGGTGGTGAAGGTCGTTCTCCAATCGGACGTAAGTCTCCAATGTCTCCATGGGGTAAACCAACTCTTGGATTCAAGACTCGTAAGAAAAACAAAGCGTCTGACAAATTTATCGTTCGTCGTCGTAAAAAATAA	MGIKKYNPTTNGRRNMTTNDFAEITTDRPEKSLLAPLSKKAGRNNQGKITVRHQGGGHKRQYRIIDFKRNKDGIPGRVATIEYDPNRSANIALINYVDGEKRYILAPKSLEVGMEVMSGPEADIKIGNALPLINIPVGTVVHNIELKPGRGGQLVRSAGTSAQVLGKEGKYVLVRLTSGEVRLVLSACRASIGQVGNEQHELIKIGKAGRSRWLGKRPTVRGSVMNPVDHPHGGGEGRSPIGRKSPMSPWGKPTLGFKTRKKNKASDKFIVRRRKK				NA	NA	NA	NA	NA
AK009_07501	291	rplW	COG0089	50S ribosomal protein L23	ATGAGAGATCCTCGTGATATCATTAAGCGCCCAGTTATCACTGAACGTTCTATGGAAATGATGGCTGAAAAAAAATACACGTTCGATGTGGACGTTAAATCTAATAAAACAGAAGTTAAAGATGCTCTTGAAGCGATCTTTGGTGTTAAAGTAGAAAAAGTGAACATCATGAACTACAAGCCGAAAGCAAAACGCGTTGGTCGTCACGCTGGTTTTACTAGCCGTCGTCGTAAAGCAATCGTTAAGCTAACTGCTGACAGCAAAGAAATCGAAATCTTCCAAGGCGTTTAA	MRDPRDIIKRPVITERSMEMMAEKKYTFDVDVKSNKTEVKDALEAIFGVKVEKVNIMNYKPKAKRVGRHAGFTSRRRKAIVKLTADSKEIEIFQGV				NA	NA	NA	NA	NA
AK009_07502	624	rplD	COG0088	50S ribosomal protein L4	ATGCCAAAAGTTACTGTATATAACCAAACTGGTTCACAGGTTGGTGAAATCGAATTAGCTGAAGCTATTTTCGGTATCGAACCAAATGAAGCTGTACTTTTCGAAGCTGTAATGATGCAACGTGCATCTTTACGTCAAGGTACACACAAAGTAAAAACTCGTTCTGAAGTTCGCGGTGGTGGTCGTAAACCATGGCGTCAAAAAGGAACTGGACGTGCTCGTCAAGGGTCTATCCGTTCTCCTCAATGGCGTGGTGGTGGTACGGTATTCGGACCTACACCAAGAAGCTATGCGTACAAACTTCCTAAGAAGGTTCGTCGTTTAGCAATTAAATCTGCATTAGCTACTAAAGTAGTTGAGAACAACATTGTAGTTCTTGAAGACCTAGTATTAAATGCACCAAAAACAAAAGACATGCTAGCAGTACTTAAAGGATTAACTGTTGAGAAGAAAGCTCTTATCGTAACTGCTGATGCAAACGAATCTGTAGAGTTATCTGCTCGCAATATCCCTGGAGTAACAGTAATCACTGCTGATGGCGTAAACGTTTTAGACGTGCTTCATCATGATAAGCTAATCATGACAAAAGCGGCAGTGGAAAAAGTAGAGGAGGTGCTTGCATAA	MPKVTVYNQTGSQVGEIELAEAIFGIEPNEAVLFEAVMMQRASLRQGTHKVKTRSEVRGGGRKPWRQKGTGRARQGSIRSPQWRGGGTVFGPTPRSYAYKLPKKVRRLAIKSALATKVVENNIVVLEDLVLNAPKTKDMLAVLKGLTVEKKALIVTADANESVELSARNIPGVTVITADGVNVLDVLHHDKLIMTKAAVEKVEEVLA				NA	NA	NA	NA	NA
AK009_07503	633	rplC	COG0087	50S ribosomal protein L3	ATGACCAAAGGAATCTTAGGAAGAAAGATCGGTATGACTCAAGTATTTGCTGAGAACGGTGAGTTAATCCCAGTAACAGTTATCGCTGCTAATCCAAACGTTGTTCTTCAAAAGAAAACAACTGAAACTGATGGCTACAATGCAATCCAGTTAGGATTTGAAGATAAACGTGAAAAGTTAACTAACAAACCTGAACAAGGCCACACTGCTAAAGCATCTACAACTCCTAAGCGCTTCATTCGCGAAATCCGCGATGCAGACGTGGACGGATTAGAGGTTGGTCAAGAGGTAAAAGTTGAAGTTTTCGCTGCAGGTGAAATCGTTGACGTAACAGGAATTTCTAAAGGTAAAGGTTTCCAAGGTGTTATCAAACGCCACGGACAATCTCGCGGACCTATGTCTCATGGTTCTCGCTATCACCGTCGTCCAGGTTCAATGGGCCCAGTTGCTCCGAACCGTGTATTCAAAGGCAAAAAACTTGCTGGACGTATGGGTGGAGACCAAGTTACTATCCAAAACTTAGAAATCGTTCAAGTTGACACTGAGCGCAACTTATTACTAGTAAAAGGTAACGTTCCAGGTGCTAAGAAATCTCTTGTAGTTGTTCAAGGCGCTGTGAAGGTTAGCAAATAA	MTKGILGRKIGMTQVFAENGELIPVTVIAANPNVVLQKKTTETDGYNAIQLGFEDKREKLTNKPEQGHTAKASTTPKRFIREIRDADVDGLEVGQEVKVEVFAAGEIVDVTGISKGKGFQGVIKRHGQSRGPMSHGSRYHRRPGSMGPVAPNRVFKGKKLAGRMGGDQVTIQNLEIVQVDTERNLLLVKGNVPGAKKSLVVVQGAVKVSK				NA	NA	NA	NA	NA
AK009_07504	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCAAAAGAAAAAATTCGTATCCGTTTAAAAGCTTATGATCACCGTATTCTTGATCAATCAGCTGAGAAAATTGTAGAAACAGCTAAGCGTTCTGGGGCAACAGTTTCTGGTCCGATCCCATTACCAACTGAGAAGACTATTTACACAATTCTTCGTGCTGTTCATAAGTACAAAGATTCTCGTGAGCAATTCGAAATGCGCACACACAAACGTTTAATCGATATCGTGAGTCCTACTCCACAAACAGTAGATTCATTAATGCGTTTAGACTTACCGTCTGGTGTAGATATCGAAATTAAACTATAA	MAKEKIRIRLKAYDHRILDQSAEKIVETAKRSGATVSGPIPLPTEKTIYTILRAVHKYKDSREQFEMRTHKRLIDIVSPTPQTVDSLMRLDLPSGVDIEIKL	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
AK009_07505	1188	tuf	COG0050	Elongation factor Tu	ATGGCTAAAGCTAAATTCGAACGTTCTAAACCCCATGTTAACATCGGTACAATCGGCCACGTTGACCATGGTAAAACTACATTAACTGCTGCGATCACTACAGTTCTTGCAAAAGCTGGTGGTGCTGAAGCACGCGGATACGATCAAATCGACGCTGCTCCAGAAGAAAGAGAGCGCGGAATCACAATCTCAACTGCACACGTTGAGTACGAAACTGAAACTCGTCACTATGCACACGTTGACTGCCCAGGTCACGCTGACTATGTTAAAAACATGATCACTGGTGCTGCTCAAATGGACGGCGGTATCTTAGTAGTATCTGCTGCTGATGGCCCAATGCCTCAAACACGTGAGCACATCCTTCTTTCTCGTCAAGTAGGTGTTCCTTACATCGTTGTATTCTTAAACAAATGCGACATGGTTGACGACGAAGAATTATTAGAATTAGTAGAAATGGAAGTTCGTGACCTATTATCTGAATACGGATTCCCAGGCGACGACATTCCTGTAATCAAAGGTTCTGCTCTTAAAGCTCTTCAAGGAGAAGCTGATTGGGAAGCAAAAATCATTGAATTAATGACTGAAGTTGATGCTTACATCCCAACTCCAGAACGTGAAACTGACAAACCATTCTTAATGCCTATCGAGGATGTATTCTCTATCACAGGTCGTGGTACAGTTGCAACTGGTCGTGTAGAGCGCGGAATCGTTAAAGTTGGTGACGTAGTAGAAATCATCGGTCTTGCTGAAGAGAATGCTTCTACAACTGTAACTGGTGTAGAAATGTTCCGTAAACTTCTTGACCAAGCTCAAGCTGGAGACAACATCGGTGCTCTTCTTCGTGGGGTTGCTCGTGAAGACATCCAACGTGGACAAGTTCTTGCTAAAACTGGCTCTGTAAAAGCACACGCTAAATTCAAAGCTGAAGTTTTCGTATTATCTAAAGAAGAAGGTGGACGTCACACTCCATTCTTCGCTAACTACCGTCCTCAGTTCTACTTCCGTACAACTGACGTAACTGGTATCATCCAATTACCAGAAGGTACTGAAATGGTAATGCCTGGTGACAACATCGAAATGACTATCGAACTTATCGCTCCAATCGCTATCGAAGAGGGAACTAAATTCTCTATTCGTGAAGGTGGACGTACAGTAGGTTACGGTGTAGTTGCTACTATCGTTGAGTAA	MAKAKFERSKPHVNIGTIGHVDHGKTTLTAAITTVLAKAGGAEARGYDQIDAAPEERERGITISTAHVEYETETRHYAHVDCPGHADYVKNMITGAAQMDGGILVVSAADGPMPQTREHILLSRQVGVPYIVVFLNKCDMVDDEELLELVEMEVRDLLSEYGFPGDDIPVIKGSALKALQGEADWEAKIIELMTEVDAYIPTPERETDKPFLMPIEDVFSITGRGTVATGRVERGIVKVGDVVEIIGLAEENASTTVTGVEMFRKLLDQAQAGDNIGALLRGVAREDIQRGQVLAKTGSVKAHAKFKAEVFVLSKEEGGRHTPFFANYRPQFYFRTTDVTGIIQLPEGTEMVMPGDNIEMTIELIAPIAIEEGTKFSIREGGRTVGYGVVATIVE	PGPT0015245_3764	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
AK009_07506	2079	fusA	COG0480	Elongation factor G	ATGACAAGAGAGTTCTCTTTAGAAAACACTCGTAATATTGGTATCATGGCTCACATCGATGCTGGTAAAACAACAGCAACTGAGCGTATTCTGTATTACACAGGACGTATTCATAAAATCGGTGAAACTCATGAAGGTGCATCTCAGATGGACTGGATGGAGCAAGAGCAAGAGCGTGGTATCACAATTACTTCTGCTGCAACTACAGCTCAATGGAAAGGTCACCGTGTAAACATCATTGATACTCCAGGACACGTAGACTTCACAGTAGAAGTAGAACGTTCTTTACGCGTACTTGATGGTGCGGTAGCAGTACTTGATGCACAATCTGGTGTAGAACCACAAACAGAAACTGTTTGGCGTCAGGCTACTACTTACGGTGTACCTCGTATCGTATTCGTTAACAAAATGGATAAGATCGGTGCAGATTTCTTATACTCTGTAGGAACAATCCACGATCGTTTACAAGCAAACGCACATCCAATTCAGTTACCAATCGGTGCTGAAGATGAGTTCAATGGTATCATTGATCTTGTTGAAGAGTGTGCTTACATGTACGGTAACGATTTAGGAACAGACATCGAGCGTGTCGAAATTCCTGAAGAGCACAAAGAACTAGCTGAAGAATACCGTGGAAAGCTTATTGAAGCGGTAGCTGAGCTTGATGAAGAAATGATGATGAAGTACCTAGAAGGTGAAGAAATCACTGTAGAAGAGCTTAAAGCTGGTATCCGTAAGGCTACAACTTCTGTAGAATTCTTCCCAGTAATCTGTGGTTCTGCATTCAAAAACAAAGGTGTTCAAATCCTGTTAGACGCAGTTATCGACTACCTACCATCTCCATTAGATGTACCTGCTATTAAAGGTACTCTTCCGGATACAGATGAAGAAGTAGAACGTAAGTCTAGCGATGAAGAACCATTCGCAGCTCTAGCATTCAAAATCATGACTGACCCTTATGTTGGTAAGTTAACGTTCTTCCGTGTGTACTCTGGTGTGTTAAACTCTGGATCATACGTGAAAAACTCAACTAAAGGTAAGCGTGAGCGTGTAGGACGTATCCTACAAATGCACGCTAACAGCCGTGAAGAGATTTCAACAGTTTACGCTGGTGATATCGCTGCTGCTGTAGGTTTAAAAGATACTACTACTGGTGATACTCTTTGTGACGAGAAGAGTCTTGTTATCCTTGAGTCTATGGAATTCCCAGAGCCAGTTATCTCTGTAGCTATCGAACCAAAATCTAAAGCTGACCAAGATAAAATGGGTACAGCATTATCTAAGCTTTCTGAAGAAGATCCAACATTCCGTGCTCACACTGACCAAGAAACTGGCCAAACTATCATCGCTGGTATGGGTGAACTTCACCTTGATATCATCGTTGACCGTATGCGCCGTGAATTCAAAGTCGAAGCAAACGTTGGTGCTCCTCAGGTAGCATACCGTGAAACTTTCCGCGCTGCTGCGAAAGTTGAAGGTAAGTTTGCTCGTCAATCTGGTGGACGTGGACAATTCGGTCACGTTTGGATTGAGTTTGCACCTAACGAAGAAGGTAAAGGATTTGAATTCGAAAACAAAATCGTCGGCGGTGTAGTTCCACGTGAATACATCCCAGCTGTTGGAGCGGGTCTTGAAGACTCACTTAAAAATGGTGTACTAGCTGGTTACCCACTAGTTGACATTAAAGCAGCATTAGTTGACGGTTCTTACCATGATGTCGATTCATCTGAGATGGCGTTCAAAATCGCTGCATCTATGGCACTTAAAGCTGCGGTTTCTAAATGTAACCCAGTAATTCTTGAGCCAATGATGAAAGTTGAAGTTGTAATCCCTGAAGAATACATGGGAGACATCATGGGTGACGTAACATCTCGTCGTGGACGTGTAGAAGGTATGGAAGCTCGCGGTAACGCACAAGTTGTTCGCGCTATGGTTCCGCTTTCTGAAATGTTCGGTTATGCGACAGCATTACGTTCTAACACTCAAGGACGCGGAACATTCTCAATGACATTTGATCATTATGAAGAAGTACCGAAGTCTGTTTCAGAAGAAATTATTAAAAAAAATAAAGGCGAATAA	MTREFSLENTRNIGIMAHIDAGKTTATERILYYTGRIHKIGETHEGASQMDWMEQEQERGITITSAATTAQWKGHRVNIIDTPGHVDFTVEVERSLRVLDGAVAVLDAQSGVEPQTETVWRQATTYGVPRIVFVNKMDKIGADFLYSVGTIHDRLQANAHPIQLPIGAEDEFNGIIDLVEECAYMYGNDLGTDIERVEIPEEHKELAEEYRGKLIEAVAELDEEMMMKYLEGEEITVEELKAGIRKATTSVEFFPVICGSAFKNKGVQILLDAVIDYLPSPLDVPAIKGTLPDTDEEVERKSSDEEPFAALAFKIMTDPYVGKLTFFRVYSGVLNSGSYVKNSTKGKRERVGRILQMHANSREEISTVYAGDIAAAVGLKDTTTGDTLCDEKSLVILESMEFPEPVISVAIEPKSKADQDKMGTALSKLSEEDPTFRAHTDQETGQTIIAGMGELHLDIIVDRMRREFKVEANVGAPQVAYRETFRAAAKVEGKFARQSGGRGQFGHVWIEFAPNEEGKGFEFENKIVGGVVPREYIPAVGAGLEDSLKNGVLAGYPLVDIKAALVDGSYHDVDSSEMAFKIAASMALKAAVSKCNPVILEPMMKVEVVIPEEYMGDIMGDVTSRRGRVEGMEARGNAQVVRAMVPLSEMFGYATALRSNTQGRGTFSMTFDHYEEVPKSVSEEIIKKNKGE				NA	NA	NA	NA	NA
AK009_07507	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCTCGTAAAGGACCTGTTGCGAAACGTGATGTGTTACCAGATCCAATGTACAATTCTAAGCTAGTAACACGCCTTATCAACAAAATGATGGTTGACGGTAAAAAAGGTAAATCTCAAACAATTCTTTATAACGCTTTCGATATCGTTCGTGAACGTTCAGATAAAGAACCAATGGAAGTATTCGAGCAAGCTCTTAAGAACATCATGCCTGTTCTTGAAGTACGCGCTCGTCGTGTTGGTGGTGCTAACTACCAAGTTCCAGTTGAGGTTCGTCCAGAACGCCGTACAACTTTAGGTCTTCGCTGGTTAGTAAACTATGCTCGTCTTCGTGGTGAAAAAACTATGGAAGAGCGTCTAGCTTACGAAATCTTAGATGCAGCTAACAACGCTGGTGCATCTGTTAAGAAACGTGAAGACACTCATAAAATGGCAGAAGCTAACAAAGCATTTGCTCATTACCGTTGGTAG	MPRKGPVAKRDVLPDPMYNSKLVTRLINKMMVDGKKGKSQTILYNAFDIVRERSDKEPMEVFEQALKNIMPVLEVRARRVGGANYQVPVEVRPERRTTLGLRWLVNYARLRGEKTMEERLAYEILDAANNAGASVKKREDTHKMAEANKAFAHYRW				NA	NA	NA	NA	NA
AK009_07508	423	rpsL_1	COG0048	30S ribosomal protein S12	ATGCCTACTATTAACCAATTAGTGAGAAATGGTCGTACTGATAAAGTATGGAAATCTAAATCACCTGCGTTAAACAAAGGTTTTAACTCTTTAAAGAAAAAATCAACTGATATCTCTGCACCTCAAAAACGTGGTGTATGTACTCGTGTTGGTACAATGACTCCAAAGAAACCTAACTCAGCGTTACGTAAATACGCTCGTGTACGTTTAACAAACGGGATTGAAGTTACAGCTTACATCCCAGGTATCGGTCATAATTTACAAGAGCATAGCGTAGTATTAATTCGCGGTGGTCGAGTAAAAGATTTACCAGGGGTACGTTACCACATCGTTCGTGGAGCGCTTGATACAGCTGGTGTTGACAAACGTATGCAAGGACGTTCTAAATATGGTACTAAGCGACCAAAACCTGCTAAAAAATAA	MPTINQLVRNGRTDKVWKSKSPALNKGFNSLKKKSTDISAPQKRGVCTRVGTMTPKKPNSALRKYARVRLTNGIEVTAYIPGIGHNLQEHSVVLIRGGRVKDLPGVRYHIVRGALDTAGVDKRMQGRSKYGTKRPKPAKK				NA	NA	NA	NA	NA
AK009_07509	249	rplGB	COG1358	Ribosome-associated protein L7Ae-like protein	ATGTCTTATCAAAAAGTGTCAAATGCTGAAAATGTAGTCGTTGGTCATAAACGAACATTGGAAGCAATCAAAAATGGTATAGTTAAAGAAGTTGTTATTGCAGAAGATGCTGATGTGCGGTTAACCCATGTTATCATTCGCACTGCTTTGCAACATAACATACCCATAACAAAAGTTGAATCAGTTCGTAAGCTTGGAAAAGTTTCGGGGATTCAAGTGGGAGCTTCAGCAATAGGAATAATAAGTTAA	MSYQKVSNAENVVVGHKRTLEAIKNGIVKEVVIAEDADVRLTHVIIRTALQHNIPITKVESVRKLGKVSGIQVGASAIGIIS				NA	NA	NA	NA	NA
AK009_07510	3612	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	TTGATAGATGTAAATAACTTTGAATATATGAAGATTGGACTTGCTTCACCTGACAAGATTCGTTCTTGGTCATACGGTGAAGTTAAGAAACCAGAAACTATTAACTATCGTACGTTAAAGCCTGAAAAAGATGGCTTGTTCTGTGAGCGTATTTTCGGACCACAAAAGGACTGGGAATGTCATTGCGGAAAATACAAACGTGTACGTTATAAAGGTGTAGTTTGTGATCGATGTGGCGTTGAAGTAACGCGTGCAAAAGTACGTCGTGAACGTATGGGTCATATTGAATTAGCTGCTCCTGTATCTCATATTTGGTATTTCAAAGGTATCCCGAGCCGCATGGGACTTGTCTTAGACATGTCCCCTCGCGCGCTTGAAGAAGTAATTTATTTCGCTTCTTATGTTGTAACAGAAAGTGGAGATACACCACTTGATAAGAAGCAATTACTTTCTGAAAAAGAATACCGTGCATATCGTGATCGATATGGTAGCACATTCCAAGCTGCTATGGGTGCAGAAGCGATTAAAAAGCTACTACAAGACATCGATTTAGATAAAGAAGTAGACTTCTTAAAAGAAGAATTAAAAACAGCACAAGGACAACGCCGTACTCGTGCTATTAAACGTCTAGAAGTATTAGAAGCATTCCGCAACTCTGGAAATGAACCATCTTGGATGATCTTAGATGTTCTACCAGTAATCCCACCAGAACTACGCCCAATGGTACAGTTAGATGGTGGACGTTTTGCTACTTCTGACTTAAACGACTTATATCGTCGTGTAATTAACCGTAACAACCGTTTAAAACGTCTATTGGACCTAGGTGCTCCAAGCATCATCGTTCAAAACGAAAAACGTATGTTACAAGAAGCTGTAGACGCATTAATCGATAATGGCCGTCGTGGCCGTCCGGTTACTGGACCAGGTAACCGCCCATTAAAATCACTATCTCACATGCTTAAAGGTAAACAAGGACGTTTCCGTCAAAACTTATTAGGTAAACGTGTTGACTACTCTGGCCGTTCTGTAATCGTTGTAGGACCGAACTTAAAGATGTACCAGTGTGGATTACCGAAAGAAATGGCGCTTGAACTGTTCAAACCTTTCGTTATGAAAGAGTTAGTTGGAAAAGGCTTAGCACACAATATTAAGAGTGCGAAACGTAAAATTGAGCGTGTACACCCTGAAGTTTGGGACGTTTTAGAATCTGTGATTAAAGAGCATCCAGTACTTCTAAACCGCGCACCAACACTTCACCGTCTTGGTATCCAGGCGTTTGAACCTACATTAGTAGAAGGTCGCGCAATTCGTCTTCATCCACTTGTATGTACTGCATACAACGCGGACTTTGACGGTGACCAAATGGCGGTTCACGTTCCGTTATCATCAGAGGCACAAGCAGAAGCTCGTATTCTTATGTTAGCGGCACAAAACATCTTGAATCCAAAAGACGGAAAACCAGTTGTTACTCCATCTCAGGATATGGTATTAGGTAACTACTACTTAACACTTGAGCGTGAAGGCGCAATCGGTGAAGGTATGGTCTTCAAAGATGCAAACGAAGCAATACTTGCATACCAAAATGGATATGTACATCTGCACACACGTGTTGCAGTTGCTGCAAGTTCAGTAAATAACGTAACGTTTACTGAAGAGCAAAAGGGTAAGCTTCTATTAACAACAGTTGGTAAATTAATATTTAACGAAATCTTACCAGAGTCGTTCCCTTATATTAATGAACCGACAAACTCAAACCTTGAAAAAGAAACACCAGCGGAATATTTCGTTGAAAAAGGTGCGAACATTAAAGAAATTATTGCTAGTCGCGAAGAAGTGGCACCATTTAGCAAGAAGATCCTTGGTAACATCATTGCGGAAGTATTCAAACGTTTCCAAATTACGGAAACATCTCGCATGCTTGACCGTATGAAAAACTTAGGATTTAAGTACTCTACAAAGGCTGGTATTACAGTTGGGGTATCTGATATTCTTGTATTAGGTGAAAAAGATGAAATTCTCCATGAAGCACAAGCAAAAGTAGATAATGTAATTAAACAATTCCGTCGCGGTTTAATCACGGAAGAAGAACGTTACGATCGCGTTATCTCTATTTGGAGTAATGCAAAAGATGTTATCCAAGGAAAACTGATGAAATCCTTGAATAAACGCAACCCAATCTTCATGATGAGTGATTCCGGTGCCCGTGGTAACGCATCGAACTTTACTCAGCTTGCTGGTATGCGTGGTCTGATGGCCAATCCATCTGGTCGTATTATCGAACTTCCAATTAAATCAAGTTTCCGTGAAGGTTTAACAGTACTTGAGTACTTCATCTCTACGCATGGTGCGCGTAAAGGTCTTGCCGATACAGCACTTAAAACTGCCGATTCTGGTTACTTAACGCGTCGTCTTGTAGACGTTGCACAAGATGTAATTGTCCGTGAAGATGATTGTGGAACAGATCGTGGTCTATTAATTGGTGCGATTAAAGAGGGTAATGAAGTAATTGAGTCATTATATGATCGTCTTGTTGGACGTTTTGCAAGAAAAACTGTAAAACATCCTGAAACAGGTGAAGTATTAGTTAGTGAAAACCAATTAATTACTGAAGATATCGCTCATATCGTTGAAAATTCGGGTGTTGAAACTGTAAACATTCGTTCAGCGTTCACGTGTAACACTCGCCACGGTGTATGTAAGAAGTGTTACGGTCGTAACTTAGCAACTGGTACAGACGTAGAAGTAGGAGAAGCGGTAGGTATTATCGCAGCTCAATCTATCGGTGAGCCAGGTACACAGTTAACGATGCGTACATTCCATACAGGTGGGGTTGCCGGAGATGATATCACTCAAGGTTTACCTCGTATCCAAGAGATCTTCGAAGCTCGTAATCCGAAAGGTCAGGCAGTTATCAGTGAAATCGACGGTGTTATCGCAGCGATCAACGATGTTAAAGATCGCCAAGAAGTAGTTGTACAGGGTGAAGTTGAAGCTCGTACGTATGCTATTCCTTACGGTGCTCGTCTGAAAGTAACTCCAGGACAGCCAATTAGCCACGGTAAAGAGTTAACAGAAGGTTCTATTGATCCGAAAGAATTACTAAAAGTAACGGACATTACAGCAGTGCAAGAATACTTATTACGTGAAGTTCAAAAAGTATACCGTATGCAAGGGGTAGAAATTGGTGACAAACACGTAGAAGTAATGGTACGCCAAATGCTACGTAAAGTTCGTGTAAGTGATGCAGGTGAAACAGATGTATTACCAGGAACATTACTAGATATCCATCAGTTTACTGATGCGAATGCGAAGGTGTTACTGAAAGGTAAACAACCAGCGACAGCTAGACCTGTTCTACTTGGTATTACAAAAGCTTCACTTGAAACAGATTCGTTCTTATCTGCAGCTTCGTTCCAAGAAACAACTCGTGTTTTAACGGATGCAGCAATTAAAGGTAAACGCGATGAGCTTCTAGGATTGAAAGAGAATGTTATTATCGGTAAGCTTGTTCCTGCTGGAACAGGTATGAATCGTTATCGTAAAGTGGATCTTGTAAAAACAACACAAGATAACATGAATGTAGAAAACGATGAAGTTTATGTGGAACAGTAA	MIDVNNFEYMKIGLASPDKIRSWSYGEVKKPETINYRTLKPEKDGLFCERIFGPQKDWECHCGKYKRVRYKGVVCDRCGVEVTRAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFASYVVTESGDTPLDKKQLLSEKEYRAYRDRYGSTFQAAMGAEAIKKLLQDIDLDKEVDFLKEELKTAQGQRRTRAIKRLEVLEAFRNSGNEPSWMILDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPNLKMYQCGLPKEMALELFKPFVMKELVGKGLAHNIKSAKRKIERVHPEVWDVLESVIKEHPVLLNRAPTLHRLGIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSSEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLEREGAIGEGMVFKDANEAILAYQNGYVHLHTRVAVAASSVNNVTFTEEQKGKLLLTTVGKLIFNEILPESFPYINEPTNSNLEKETPAEYFVEKGANIKEIIASREEVAPFSKKILGNIIAEVFKRFQITETSRMLDRMKNLGFKYSTKAGITVGVSDILVLGEKDEILHEAQAKVDNVIKQFRRGLITEEERYDRVISIWSNAKDVIQGKLMKSLNKRNPIFMMSDSGARGNASNFTQLAGMRGLMANPSGRIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIVREDDCGTDRGLLIGAIKEGNEVIESLYDRLVGRFARKTVKHPETGEVLVSENQLITEDIAHIVENSGVETVNIRSAFTCNTRHGVCKKCYGRNLATGTDVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQEIFEARNPKGQAVISEIDGVIAAINDVKDRQEVVVQGEVEARTYAIPYGARLKVTPGQPISHGKELTEGSIDPKELLKVTDITAVQEYLLREVQKVYRMQGVEIGDKHVEVMVRQMLRKVRVSDAGETDVLPGTLLDIHQFTDANAKVLLKGKQPATARPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELLGLKENVIIGKLVPAGTGMNRYRKVDLVKTTQDNMNVENDEVYVEQ				NA	NA	NA	NA	NA
AK009_07511	3534	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	TTGACAGGTCAACTAGTTCAATACGGACGCCACCGCCAACGAAGAAGTTATGCCCGTATTAGTGAAGTATTAGAGTTACCAAATCTTATCGAAATTCAAACCTCTTCTTATCAGTGGTTTCTTGATGAGGGTTTGCGAGAAATGTTCCAAGACATTTCTCCGATTGAAGACTTTACGGGAAATCTATCGCTTGAATTTATCGACTACAGCTTAGGTGAACCTAAATACTCTGTAGACGAATGCAAAGAGCGTGATGTGACGTATGCAGCACCACTTCGTGTAAAAGTGCGTCTAATCAACAAGGAAACTGGTGAAGTAAAAGAACAAGATGTGTTCATGGGAGATTTCCCACTCATGACAGAGACTGGAACATTCGTAATTAACGGTGCAGAACGTGTTATCGTTTCCCAGTTAGTTCGCTCTCCAAGCGTATACTATAGTGGCAAAGTGGATAAAAACGGAAAACGTGGTTTTACTGCTACTGTAATTCCAAACCGCGGAGCTTGGTTAGAGTATGAGACAGATGCTAAGGATGTTGTATATGTGCGTATTGACCGTACGCGTAAACTTCCTGTAACTGTTTTGTTACGCGCATTAGGGTTTGGCTCTGATCAAGAAATCACCGAGCTTTTAGGTGATAACGAATACTTAAGCAACACATTAGAAAAAGACAACACAGATAGCACAGAAAAAGCATTGCTTGAAATTTATGAGCGTCTACGTCCTGGTGAACCACCAACAGTAGAAAATGCTAAGAGCTTACTTGTGTCTCGTTTCTTCGATCCAAAGCGCTACGATTTAGCAAATGTAGGTCGCTATAAGATCAACAAGAAGTTACACATTAAAAACAGATTGTTTAATCAACGTTTAGCTGAAACATTAGTGGATCCAGAAACTGGTGAAATTTTAGCGGCAGAAGGAACAATCTTAGATCGTCGTACACTTGATCGCATTTTACCTTACTTAGAGAAAAACATTGGATTCAAAACAGCGAAACCAATGGGTGGAGTGGTAGAAGGCGATGTTGAGCTGCAATCTATTAAGATTTATGCTCCTGAGTCGGAAGGCGAACGCGTAATTAATGTAATTGGTAATGCAAACATTACTCGTGATGTGAAACACATCACACCAGGTGATATCCTTGCTTCTATCAGTTACTTCTTCAACCTACTATACAAAGTAGGAGATACAGATGATATTGACCATTTAGGAAACCGTCGTCTGCGTTCTGTTGGAGAACTATTACAAAACCAATTCCGTATCGGCCTTTCTCGTATGGAACGTGTTGTTCGTGAGAGAATGTCGATCCAAGATACAAATGCAATTACACCACAGGCATTAATTAATATTCGTCCTGTTATTGCATCTATTAAAGAGTTCTTCGGAAGTTCTCAGTTATCTCAGTTCATGGACCAAACAAATCCATTAGCAGAGTTAACTCACAAACGAAGACTATCTGCATTAGGACCTGGTGGTTTAACGCGTGAGCGCGCAGGCTTTGAAGTACGTGACGTTCATTACTCCCACTATGGTCGTATGTGTCCGATTGAAACACCAGAGGGACCAAACATTGGTTTGATTAACTCATTATCTTCGTTCGCGAAAGTAAATGAGTTTGGTTTCATTGAAACACCATACCGTCGTGTTGACCCAGAAACTGGTCTTGTAACAGGGCATGTTGATTATTTAACAGCAGATGAAGAAGATAACTATGTTGTAGCCCAAGCGAATATGAAATTATCTGATGAAGGTGAATTCCTAAGTGAAGATATCGTAGCTCGTTTCCGTGGCGAAAATATTGTCACAAATAGAGAACGCATCGACTACATGGATGTATCTCCAAAACAAGTAGTGTCGGCAGCGACAGCTTGTATTCCGTTCTTAGAAAACGATGACTCTAACCGCGCACTTATGGGAGCGAACATGCAACGTCAGGCGGTTCCGTTAATGAATCCGGAATCTCCGATTGTAGGTACAGGTATGGAGTACGTATCAGCAAAAGACTCGGGTGCTGCAGTAATCTGTAAACATCCTGGTGTTGTTGAGCGCGTAGAAGCACGTGAAGTTTGGGTACGTCGCTATGTAGAAGTTGACGGTCAAACAGTAAAAGGCGACTTAGATCGCTACAAAATGCAAAAATTCATTCGTTCTAACCAAGGAACTTGTTACAACCAACGTCCAATCGTAAGTGTTGGAAATGAAGTTGTAAAAGGTGAAATCCTTGCGGATGGTCCTTCTATGGAATTAGGTGAACTAGCACTTGGACGTAACGTGCTTGTTGGCTTCATGACTTGGGACGGTTATAACTACGAGGATGCGATTATCATGAGTGAGCGCCTTGTAAAAGATGATGTGTACACTTCTATTCATATTGAAGAATATGAATCAGAAGCTCGTGATACGAAGCTTGGACCAGAAGAAATTACACGTGACATTCCAAACGTTGGGGAAGACGCATTACGTAACCTTGACGAGCGCGGTATCATTCGCGTTGGTGCTGAAGTAAAAGATGGAGATTTACTTGTTGGTAAAGTAACACCTAAAGGTGTAACAGAATTAACAGCTGAAGAACGTCTATTACATGCTATCTTTGGAGAAAAAGCGCGTGAAGTACGTGATACATCACTACGTGTACCACACGGTGGTGGCGGTATTATCTTAGACGTAAAAGTATTCAACCGTGAAGATGGCGATGAATTGCCACCAGGTGTGAATCAACTTGTACGTGCATATATCGTTCAAAAACGTAAAATTTCTGAAGGTGACAAGATGGCCGGACGTCACGGTAACAAAGGTGTTATTTCTCGTATTTTACCAGAAGAAGATATGCCTTACTTACCAGACGGTACGCCAATCGATATTATGTTAAACCCATTAGGGGTACCATCTCGTATGAATATCGGTCAGGTATTAGAGCTTCATCTTGGTATGGCAGCAAGATACCTGGGCATTCACATTGCAACACCAGTATTCGATGGTGCTCGTGAGGAAGATGTTTGGGGCACAATTGAAGAAGCTGGTATGGCAAATGACGCGAAAACAATCCTGTATGACGGACGTACTGGTGAACCATTCGATAACCGCGTATCTGTTGGTGTCATGTATATGATCAAACTTGCGCACATGGTTGACGATAAACTTCATGCTCGTTCTACTGGACCATACTCACTTGTAACGCAGCAACCTCTTGGAGGTAAAGCTCAGTTCGGTGGACAGCGTTTCGGTGAGATGGAGGTTTGGGCACTTGAAGCTTACGGTGCTGCTTATACTCTTCAAGAAATCTTAACAGTGAAGTCTGATGATGTTGTTGGACGTGTTAAGACTTATGAAGCAATTGTTAAAGGCGAAAATGTTCCAGAACCAGGCGTTCCTGAATCATTCAAAGTATTGATTAAAGAGCTGCAAAGTTTAGGTATGGACGTTAAAATGATGTCTAGCGACGATACAGAAATTGAAATGCGTGATACAGAAGATGATGATGATCATCAATCAGCAGATAAATTGAATGTTGAAGTTGAGACAACTAAGGAATAA	MTGQLVQYGRHRQRRSYARISEVLELPNLIEIQTSSYQWFLDEGLREMFQDISPIEDFTGNLSLEFIDYSLGEPKYSVDECKERDVTYAAPLRVKVRLINKETGEVKEQDVFMGDFPLMTETGTFVINGAERVIVSQLVRSPSVYYSGKVDKNGKRGFTATVIPNRGAWLEYETDAKDVVYVRIDRTRKLPVTVLLRALGFGSDQEITELLGDNEYLSNTLEKDNTDSTEKALLEIYERLRPGEPPTVENAKSLLVSRFFDPKRYDLANVGRYKINKKLHIKNRLFNQRLAETLVDPETGEILAAEGTILDRRTLDRILPYLEKNIGFKTAKPMGGVVEGDVELQSIKIYAPESEGERVINVIGNANITRDVKHITPGDILASISYFFNLLYKVGDTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTNAITPQALINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLTRERAGFEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSFAKVNEFGFIETPYRRVDPETGLVTGHVDYLTADEEDNYVVAQANMKLSDEGEFLSEDIVARFRGENIVTNRERIDYMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMNPESPIVGTGMEYVSAKDSGAAVICKHPGVVERVEAREVWVRRYVEVDGQTVKGDLDRYKMQKFIRSNQGTCYNQRPIVSVGNEVVKGEILADGPSMELGELALGRNVLVGFMTWDGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALRNLDERGIIRVGAEVKDGDLLVGKVTPKGVTELTAEERLLHAIFGEKAREVRDTSLRVPHGGGGIILDVKVFNREDGDELPPGVNQLVRAYIVQKRKISEGDKMAGRHGNKGVISRILPEEDMPYLPDGTPIDIMLNPLGVPSRMNIGQVLELHLGMAARYLGIHIATPVFDGAREEDVWGTIEEAGMANDAKTILYDGRTGEPFDNRVSVGVMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVKSDDVVGRVKTYEAIVKGENVPEPGVPESFKVLIKELQSLGMDVKMMSSDDTEIEMRDTEDDDDHQSADKLNVEVETTKE				NA	NA	NA	NA	NA
AK009_07512	600	rsmC	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGGCAGACCATTATTTTTCTAACGACCCTTCTAGTAAAAGTGATCGTAAGCGATGGGAATTTGCACTTCGTGGATCTCAATTTACTTTCTTATCCGACCATGGGGTGTTCTCGAAAAACGAAGTGGACTTTGGTTCCCGTCTTTTAATTGAAGCTTTTCAAATGCCAGATATTAAAGGTGATATATTAGATGTAGGTTGCGGATACGGTCCTATTGGTTTGTCGCTAGCGAAAGAGTTTCAAGGTCGTGAAGTTCACATGGTGGATGTGAATGAAAGGGCGCTTGGACTTGCGAAAGAAAACGCCGCTAATAACAAAATCGAGAATATACGTATTTTTCAAAGTAGCGTCTATGAAAATGTAGATGGCAAGTATGCTGCTATTCTATCTAACCCTCCAATTCGTGCGGGTAAAGATGTCGTACATGAAATTTTAGAAAAAGCTGTGGAGTATTTAGTTCCAGGTGGAGAACTTTGGATTGTTATTCAAAAGAAGCAAGGTGCACCATCTGCGCTGAAAAAACTAGAGGAAGTATTTTCTGAAGTTGAGGTTGTAGAAAAGAAAAAAGGATATTATATCATAAAATCAAAAAAACGTTGA	MADHYFSNDPSSKSDRKRWEFALRGSQFTFLSDHGVFSKNEVDFGSRLLIEAFQMPDIKGDILDVGCGYGPIGLSLAKEFQGREVHMVDVNERALGLAKENAANNKIENIRIFQSSVYENVDGKYAAILSNPPIRAGKDVVHEILEKAVEYLVPGGELWIVIQKKQGAPSALKKLEEVFSEVEVVEKKKGYYIIKSKKR				NA	NA	NA	NA	NA
AK009_07513	360	rplL_1		50S ribosomal protein L7/L12	ATGACTAAAGAACAAATCATTGAAGCAGTTAAATCTATGACTGTATTAGAACTTAACGACTTAGTAAAAGCTATCGAGGAAGAATTCGGCGTAACTGCTGCTGCTCCTGTAGCTGTTGCTGGTGGCGCTGGAGAAGCTGCTGCTGAGAAAACTGAATTTGATGTGGAACTAACTAGCGCTGGTGCACAAAAAATCAAAGTTATCAAAGTTGTTCGTGAAATCACTGGTCTTGGCTTAAAAGAAGCTAAAGAATTAGTTGACAACACTCCAAAAGTAATCAAAGAAGCTGCTGCTAAAGAAGAAGCTGAAGAAATCAAAGCTAAACTTGAAGAAGTTGGCGCTGCTGTAGAAGTTAAGTAA	MTKEQIIEAVKSMTVLELNDLVKAIEEEFGVTAAAPVAVAGGAGEAAAEKTEFDVELTSAGAQKIKVIKVVREITGLGLKEAKELVDNTPKVIKEAAAKEEAEEIKAKLEEVGAAVEVK				NA	NA	NA	NA	NA
AK009_07514	501	rplJ_1	COG0244	50S ribosomal protein L10	ATGAGCAAAGTAATCGAAACTAAACAACAAGTTGTAACTGAAATCGCGGACAAACTTCGTGCTAGTAAATCTACGATCGTTGTTGACTACCGTGGTTTAACAGTTTCTGAAGCAACAGAATTACGTAAGCAATTACGTGAAGCTGGCGTTGAGTTCAAAGTTTACAAAAACTCTCTAACTCGTCGTGCTGCAGAATCTGCTGAAATGGCTGAGTTAAACGAATTCTTAACAGGACCAAACGCAATCGCGTTCAGTAACGAGGATGTAGTTGCTCCTGCGAAAGTATTAAACGACTTCGCTAAAAATCATGAAGCTTTAGAAATTAAAGCGGGCGTAATCGAAGGTAAACTTGTAACACTTGATGAGGTTAAAGCAATCGCTACTCTTCCATCACGTGAAGGCTTACTTTCTATGCTTCTTAGCGTTCTTCAAGCTCCAATCCGTAACCTTGCACTTGCTACTAAAGCAGTTGCAGAACAAAAGGAAGAGCAAGGCGCTTAA	MSKVIETKQQVVTEIADKLRASKSTIVVDYRGLTVSEATELRKQLREAGVEFKVYKNSLTRRAAESAEMAELNEFLTGPNAIAFSNEDVVAPAKVLNDFAKNHEALEIKAGVIEGKLVTLDEVKAIATLPSREGLLSMLLSVLQAPIRNLALATKAVAEQKEEQGA				NA	NA	NA	NA	NA
AK009_07516	693	rplA_2	COG0081	50S ribosomal protein L1	ATGGCTAAAAGAGGTAAAAAGTACGTAGAAGCTGCAAAGCTTGTTGACCGTGCAGCTGCTTACTCTGCAACAGAAGCAGTAGAATTAGTAAAGAAAACAAACACAGCTAAATTTGATGCAACTGTAGAAGCTGCATTCCGTTTAGGTGTTGACCCTAAGAAAGCTGACCAACAAATCCGTGGTGCAGTTGTTCTTCCGCACGGTACTGGTAAAGTACAACGTGTATTAGTGTTCGCTAAAGGTGAAAAAGCTAAAGAAGCTGAAGCTGCTGGAGCTGACTTCGTAGGCGATACTGATTACATCGGTAAAATCCAACAAGGTTGGTTCGATTTCGATGTAGTAGTAGCAACTCCTGACATGATGGGTGAAGTTGGTAAACTTGGTCGCGTATTAGGACCTAAAGGTTTAATGCCAAACCCTAAAACTGGAACAGTTACTTTCGATGTAACTAAAGCTGTTAACGAAATCAAAGCTGGTAAAGTTGAATACCGCGTTGATAAAGCTGGTAACATCCACGTTCCAATCGGTAAAGTATCTTTCGAAGATGCTAAATTAGTAGAAAACTTCAAAACAATCGCTGATACTTTATTAAAAGTTAAGCCATCTGCTGCAAAAGGTACTTACATGAAGAACGTAACAGTTGCTTCTACAATGGGACCTGGCGTACGTGTAGACGTTTCTACATTAGCGTAA	MAKRGKKYVEAAKLVDRAAAYSATEAVELVKKTNTAKFDATVEAAFRLGVDPKKADQQIRGAVVLPHGTGKVQRVLVFAKGEKAKEAEAAGADFVGDTDYIGKIQQGWFDFDVVVATPDMMGEVGKLGRVLGPKGLMPNPKTGTVTFDVTKAVNEIKAGKVEYRVDKAGNIHVPIGKVSFEDAKLVENFKTIADTLLKVKPSAAKGTYMKNVTVASTMGPGVRVDVSTLA				NA	NA	NA	NA	NA
AK009_07517	426	rplK	COG0080	50S ribosomal protein L11	GTGGCTAAAAAGGTAATTAAAATGGTAAAGCTTCAAATTCCTGCAGGTAAAGCTAACCCAGCTCCACCAGTTGGTCCAGCATTAGGACAAGCAGGTGTTAACATCATGGGCTTCTGTAAAGAGTTTAACGCTCGTACAGCAGATCAAGCTGGTCTTATCATCCCTGTTGAAATTACGGTATTTGAGGACCGTTCATTCACTTTCATTACTAAAACTCCTCCTGCTGCTGTTCTTCTTAAGAAAGTAGCTGGTATTGAGTCTGGTTCTGGTGAACCAAATCGTAATAAAGTGGCAACTGTTAAGCGTGATAAAGTACGCGAAATCGCTGAAACTAAAATGCCTGACCTAAACGCTGCTAGCGTAGAAGCTGCAATGCGTATGGTTGAAGGTACTGCACGCAGTATGGGCATCGTTATCGAAGACTAA	MAKKVIKMVKLQIPAGKANPAPPVGPALGQAGVNIMGFCKEFNARTADQAGLIIPVEITVFEDRSFTFITKTPPAAVLLKKVAGIESGSGEPNRNKVATVKRDKVREIAETKMPDLNAASVEAAMRMVEGTARSMGIVIED				NA	NA	NA	NA	NA
AK009_07518	534	nusG	COG0250	Transcription termination/antitermination protein NusG	ATGGAAAAAAGTTGGTATGTTGTCCATACTTATTCTGGATATGAAAATAAAGTAAAAGCAAACCTAGAGAAGCGTGTAGAATCAATGGGTATGCAAGATAAAATTTTCCGTGTTGTTGTCCCGGAAGAAGTAGAAGTAGAAATGAAAAACGGAAAAGAAAAATTAATGAAAAGAAAAGTGTTCCCAGGTTATGTATTAGTAGAATTAATCATGACTGATGATTCTTGGTATGTTGTACGTAACACGCCGGGTGTAACTGGGTTCGTTGGTTCTTCTGGTTCTGGATCTAAGCCATCGCCTCTATTAGAAGAGGAAGTTGTTACCATTATGAAACATATGGGAATGGACAACGAAGTGGTTGATTTCGACTTTGAACTTCATGAGACAGTACGTGTAAATGAGGGGCCATTCGCAGATTATACAGGTGCTATTGAAGAAATTGATGTGGAGAAGAAAAAGGTTAGTGTACTTGTGGACATGTTTGGTCGCGAGACTCCAGTTGAACTTGACTTCCATCAAATTGAAAAATTATAA	MEKSWYVVHTYSGYENKVKANLEKRVESMGMQDKIFRVVVPEEVEVEMKNGKEKLMKRKVFPGYVLVELIMTDDSWYVVRNTPGVTGFVGSSGSGSKPSPLLEEEVVTIMKHMGMDNEVVDFDFELHETVRVNEGPFADYTGAIEEIDVEKKKVSVLVDMFGRETPVELDFHQIEKL				NA	NA	NA	NA	NA
AK009_07519	180	secE		Protein translocase subunit SecE	ATGCGTTTAACGAACTTTTTCGGCGATGTAGGTCGCGAAATGAAAAAAGTAAGTTGGCCTAAAAAAGATGAATTACTCCGCTCAACAGCGACTGTTGTTGCTACAGTTGTGTTCTTTGCGATTTTCTTCGCAGTAGTTGATATGGGCATTTCTTCTTTAATTCGGTTAATTCTTGGTTAA	MRLTNFFGDVGREMKKVSWPKKDELLRSTATVVATVVFFAIFFAVVDMGISSLIRLILG	PGPT0025715_3660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
AK009_07520	660	sigH	COG1595	RNA polymerase sigma-H factor	GTGGAAGCAGGCTTCGTAAGTGTAGGCGACGTTACATTTCGTGATTTAGAGGATGAGGCAATCGTTGAGTTAGTTCGAAAAGGTAATACTGACGCTCTAGAATATTTAATTCACAAGTATAAGAACTTTGTTCGCGCGAAATCAAGATCTTACTTTTTAGTGGGTGCCGATCGAGAAGACATTGTTCAAGAAGGTATGATAGGGTTGTTTAAAGCAATTCGTGATTATAAAGAGGACAAGCTGTCTTCATTCAAAGCATTTGCTGAACTGTGTATCACTCGACAAATTATTACCGCTATTAAAACGGCAACAAGACAAAAACATATTCCCTTAAATTCATATGTGTCTTTAGATAAGCCGATTTACGATGAGGAATCTGATCGAACATTATTGGATGTTATTTCTGAAGCGAAGGTAACTGATCCTGAAGAGATGATTATTAGCCAAGAAGAATATACAGACATAGAATCAAAAATATCAGAATTATTAAGCGATTTAGAAAGAAAAGTACTTTCTTTATATCTAGATGGGCGTTCTTATCAAGAGATTTCAGAACAGTTAAACAGACATGTAAAATCTATTGATAACGCTTTACAGCGGGTGAAGAGGAAATTGGAACGATATATGGAAATGCGAGAAAGTACAACTTTAAATTCATAA	MEAGFVSVGDVTFRDLEDEAIVELVRKGNTDALEYLIHKYKNFVRAKSRSYFLVGADREDIVQEGMIGLFKAIRDYKEDKLSSFKAFAELCITRQIITAIKTATRQKHIPLNSYVSLDKPIYDEESDRTLLDVISEAKVTDPEEMIISQEEYTDIESKISELLSDLERKVLSLYLDGRSYQEISEQLNRHVKSIDNALQRVKRKLERYMEMRESTTLNS	PGPT0014795_1610	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
AK009_07521	513	yacP	COG3688	putative protein YacP	ATGAACGATATTTTAATCGTTGACGGTTACAACATTATCGGAGCTTGGGGAGATTTGAAGAAACTGCGGGATGTAGATTTACAATCATCAAGAGATGCACTTATTGATAAGATGGCGGATTATCAAGGTTATACAGGCACAAAAGTGATGATAGTCTTTGATGCCTATACAGTACATGGTATTGAAAAAAAGATGAAACAATCTCGTGTGGAAGTAATATTCACACGAAAGAATCAAACTGCAGATGAAAAGATAGAGCAACTTGCGATAGAGCTTAGAAATATAAATACACGAATATATGTTGCGACTTCTGATTACACGGAACAATGGGTTATATTTGCGCAAGGTGCCCTTCGGAAATCTGCGCGTGAATTAGAGTTGGAAGTACAGGCAATGGAGCAACAAGTAAGAAGGCGTACAAAAGACACGAAAGAACAGCAACCCGCCATGCGAAAGATATTTAGTAAAGATATTACAGAAAAATTAGAAAAATTAAGAAGAGGAGAGCGTTGA	MNDILIVDGYNIIGAWGDLKKLRDVDLQSSRDALIDKMADYQGYTGTKVMIVFDAYTVHGIEKKMKQSRVEVIFTRKNQTADEKIEQLAIELRNINTRIYVATSDYTEQWVIFAQGALRKSARELELEVQAMEQQVRRRTKDTKEQQPAMRKIFSKDITEKLEKLRRGER	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
AK009_07522	744			Putative TrmH family tRNA/rRNA methyltransferase	ATGAGTAGTGAATATATTATCGGACGTAACCCTGTAATTGAAGCGTTACGATCAGGGAGAGATATTAATAAAATTTGGATCGCAGAAGGTGCTGCCAAAGGACAAGTGCAGATTGTACTAGCGTTAGCGAAAGAAAATAAGGTTATTTTACAACATGCACCAAAGAAAAAGTTAGATCAATTAGTTGAGGGTAATCATCAAGGTGTAATCGCTCAAGTAGCTGCATATCAGTATGCGGAGTTAGAAGATTTATTCAAAGTGGCAGAAAAACGTAATGAAGATCCATTCTTCTTAATTTTAGATGAGATTGAAGATCCGCATAACTTAGGTTCTATTATGCGTACTGCTGATGCGACAGGAGCTCATGGGATTATTATTCCAAAGAGAAGGGCTGTGGGGCTTACAGCGTCAGTTGCGAAAGCATCAACAGGAGCAATTGAATACATTCCTGTTGCACGCGTAACGAACTTATCCCGTACAATTGATGAATTAAAAGAACGTGGACTTTGGATTGCTGGTACAGATGCCAAAGGAAAAACGGATTATCGTAATTTAGATGGTAAAATGCCGATTGGGTTAGTAATTGGTAGTGAAGGAAAAGGTATGAGCCGTATTATTGGTGAAAAGTGTGATTTCCTAATCACTCTACCGATGGTTGGTAAAGTTACATCCTTAAATGCTTCCGTAGCCGCAAGTTTGTTAATGTATGAGGTATATCGTAAACGTCACGAAATTGGTAAATAA	MSSEYIIGRNPVIEALRSGRDINKIWIAEGAAKGQVQIVLALAKENKVILQHAPKKKLDQLVEGNHQGVIAQVAAYQYAELEDLFKVAEKRNEDPFFLILDEIEDPHNLGSIMRTADATGAHGIIIPKRRAVGLTASVAKASTGAIEYIPVARVTNLSRTIDELKERGLWIAGTDAKGKTDYRNLDGKMPIGLVIGSEGKGMSRIIGEKCDFLITLPMVGKVTSLNASVAASLLMYEVYRKRHEIGK				NA	NA	NA	NA	NA
AK009_07523	408	mrnC	COG1939	Mini-ribonuclease 3	ATGATTGATGCAAAGCAATTAAACAGCTTGGCGTTAGCGTATATGGGTGATGCGGTATATGAACAATATATCCGCTATCACCTCCTTCAAAAAGGAAAGGTTCGCCCTAATCAATTACATCGCTTAGGGACGAGCTTTGTTTCAGCAAAAGCACAGGCGAAAGTTGTTTATCATTTATTAGAGACGTCGTTTTTGACAGAGGAAGAAGAGGCGGTATTAAGAAGAGGACGTAATGCAAATTCAGGTACGGTTCCGAAAAATACGGATGTACAAACATATCGACATAGTACAGCCTTTGAAGCGCTAATTGGTTATCATCATTTATTAAATAACCGTGAAAGATTAGACGAAATTGTATATAAGGCAATTGCAGTTTTAGAAGAAAAGGAAGGGGGCACATCATCATGA	MIDAKQLNSLALAYMGDAVYEQYIRYHLLQKGKVRPNQLHRLGTSFVSAKAQAKVVYHLLETSFLTEEEEAVLRRGRNANSGTVPKNTDVQTYRHSTAFEALIGYHHLLNNRERLDEIVYKAIAVLEEKEGGTSS				NA	NA	NA	NA	NA
AK009_07524	1398	cysS	COG0215	Cysteine--tRNA ligase	ATGACTATTCACATTTATAATACGTTAACACGTCAAAAAGAAGAGTTTGTTCCATTAGAAGAAAATAAGGTAAAGATGTATGTATGCGGACCTACAGTCTATAACTACATTCATATTGGCAATGCAAGACCTCCTATGGTATTCGATACAGTACGTCGCTATCTAGAATATAAAGGGTACGATGTGCAATACGTATCGAACTTTACGGACGTAGATGATAAATTAATTAAAGCGGCAAATGAATTAGGTGAAGATGTACCGACAATTGCTGATCGTTTTGTTGAAGCGTACTTTGAAGATGTAACAGCGCTAGGTTGCAAACACGCAACAGTCCATCCTCGTGTAACAGAAAATATGGATATCATTATTGAATTTATTCAAGAACTTGTGAATAAAGGGTATGCATACGAATCAGAGGGTGATGTGTACTTTAAAACGAAGGAATTCGAAGGTTACGGTAAATTATCACATCAACCAATCGCAGATTTACGTCACGGTGCTCGTATTGAGGTAGGGGAAAAGAAACAAGACCCTCTTGATTTTGCTTTATGGAAAGCTGCGAAAGAAGGAGAAATCTTCTGGGAAAGCCCTTGGGGGCAAGGGCGTCCAGGGTGGCATATTGAATGCTCAGCAATGGCACGTAAGTACTTAGGGGATACAATTGACATTCATGCTGGTGGTCAAGACTTGGCGTTCCCGCATCATGAAAATGAAATTGCGCAGTCGGAAGCATTGACTGGAAAAACGTTTGCACGTTACTGGATGCATAATGGATATATTAATATTAACAATGAGAAGATGTCTAAATCGCTTGGTAACTTTATTTTAGTTCACGATATTATTAAGCAATACGACCCACAGTTAATTAGATTCTTTATGTTATCAGTACACTATCGTCATCCGATTAACTTTAGTGAAGAGTTATTACAAAGTACGAATAATGGGCTGGAAAGAATTAAAACAGCTTATGGAAACTTAAAGCATCGTATGGAAAGCAGTACGGATTTAACAGACCATAATGAGAAATGGTTAGTTGAAATAGAGAAATTCCAGACTGCATTTGAAGAGGCAATGAATGATGACTTTAACACTGCGAATGCAATTACCGAATTATACAATGTAGCCAATCATGCAAATCAATATTTACTTGAAGAGCATACATCTAAAGTTGTGATCGAAGCATACGTAAAACAATTGGAAACGTTATTTGATATTTTAGGATTAGAATTAACGCAAGAAGAATTGCTGGATGAAGAAATTGAAGAACTTATCCAAAAGCGCATTGAGGCTCGTAAAAATCGCGATTTCGCATTGTCTGATCAAATTCGTGACGATTTAAAAGGACGTAATATTATTTTAGAAGATACCGCTCAAGGTACAAGATGGAAAAGAGGATAA	MTIHIYNTLTRQKEEFVPLEENKVKMYVCGPTVYNYIHIGNARPPMVFDTVRRYLEYKGYDVQYVSNFTDVDDKLIKAANELGEDVPTIADRFVEAYFEDVTALGCKHATVHPRVTENMDIIIEFIQELVNKGYAYESEGDVYFKTKEFEGYGKLSHQPIADLRHGARIEVGEKKQDPLDFALWKAAKEGEIFWESPWGQGRPGWHIECSAMARKYLGDTIDIHAGGQDLAFPHHENEIAQSEALTGKTFARYWMHNGYININNEKMSKSLGNFILVHDIIKQYDPQLIRFFMLSVHYRHPINFSEELLQSTNNGLERIKTAYGNLKHRMESSTDLTDHNEKWLVEIEKFQTAFEEAMNDDFNTANAITELYNVANHANQYLLEEHTSKVVIEAYVKQLETLFDILGLELTQEELLDEEIEELIQKRIEARKNRDFALSDQIRDDLKGRNIILEDTAQGTRWKRG	PGPT0002985_4107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
AK009_07525	666	cysE	COG1045	Serine acetyltransferase	ATGTTTAAGAGGCTTCGGGAAGATATTGAAGTCGTTTTTGAACAGGATCCAGCGGCAAGAGGTTATTTCGAAGTCATTTTAACTTACTCTGGATTACATGCAGTTTGGGCTCATCGAATTGCACATGCTTTTTATAAAAGGGATTTTTTCTTTCTTGCACGTTTTGTTTCACAAGTTAGTCGTTTTTTTACTGGCATTGAGATTCATCCAGGAGCAACTATTGGTCGACGCTTTTTCATAGACCATGGAATGGGAGTTGTAATTGGAGAAACTTGTGAAATTGGTGATAATGTAACAATTTATCAAGGGGTTACATTAGGTGGTACAGGAAAAGAAAAAGGCAAGAGGCATCCAACAATTCAGGATAATGTATTAATTGCGACGGGTGCTAAAGTCCTTGGTTCTATTACTGTGGGAGAGAATTCTAAAATCGGGGCAGGGTCTGTCGTATTAAAAGAAGTTCCTGCACATTCTACAGTTGTAGGTATACCTGGCCGAGTCGTTATTCAAAATGGAGTAAAGATTGGTCAAGAATTAAATCACTCTGACCTTCCGGATCCAATTTTTGATAAATTAAAGGCTATGGAAGTAGAACTTGATAAATTGAAGAAACAACTGGAAGTAAAGGTAGAAAGGAAGGATAAAAATGACTATTCACATTTATAA	MFKRLREDIEVVFEQDPAARGYFEVILTYSGLHAVWAHRIAHAFYKRDFFFLARFVSQVSRFFTGIEIHPGATIGRRFFIDHGMGVVIGETCEIGDNVTIYQGVTLGGTGKEKGKRHPTIQDNVLIATGAKVLGSITVGENSKIGAGSVVLKEVPAHSTVVGIPGRVVIQNGVKIGQELNHSDLPDPIFDKLKAMEVELDKLKKQLEVKVERKDKNDYSHL	PGPT0020265_4128	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
AK009_07527	1476	gltX		Glutamate--tRNA ligase	ATGGAAGGTGTACCAATTATGGAAAAGCAAGTGAGAGTGCGCTATGCGCCAAGTCCAACAGGACACTTACATATCGGAAATGCGCGTACGGCATTATTTAATTATTTATTTGCTCGTCATTTAGATGGCAAGTTTATTATTCGTATTGAAGATACTGATGTAAAACGTAACGTGGCTGGTGGAGAAGAAAGCCAATTAAAATACTTGAAATGGCTCGGTATGGACTGGGATGAAGGTGTTGATGTTGGTGGTGAATTTGGACCATATCGTCAAACAGAGCGTTTAGATATTTATAAAAAATTATATCTAGATTTATTAGAGCGTGGTTTAGCTTACAAATGTTATATGACAGAAGAAGAGCTAGAAGCAGAGCGTGAAGGACAAATTTCTCGTGGTGAAACACCTCGTTATGCAGGTAACCACCGTGATTTAACTGAAGAACAAATGAAAGAATTTGAAGCTGAGGGACGTATTCCAAGTATTCGTTTCCGTGTACCAGCTGATCGTGATTACACATTTAAAGATATCGTAAAAGATGAAGTAGCATTCCATTCAAATGATTTCGGTGATTTCGTTATCGTGAAAAAAGATGGAATTCCAACTTATAACTTTGCGGTAGCAGTAGATGATCACTTAATGGAAATTACACATGTACTTCGTGGTGATGACCATATTTCAAATACGCCAAAACAAATGATGATTTATGAAGCTTTCGGTTGGGATATCCCGCAATTTGGCCATATGACTTTAATTGTAAATGAAAGCCGTAAAAAATTAAGTAAGCGTGATGAATCTATTATTCAATTTATTGAGCAATATAAAGAGCTTGGATATCTTCCAGAAGCAATCTTTAACTTTATTGCACTACTAGGTTGGTCGCCGGTAGGAGAAGAAGAAATCTTCTCTCAAGAAGAGTTTATCAAAATGTTCGATGCAGCTCGTTTATCAAAATCACCTGCATTATTTGATTCTCAAAAATTAAAATGGATGAACAACCAATATATGAAAAAGCAAGATTTAGATACGGTGGTAGAATTAAGCTTACCGCATCTAGTGAAAGCTGGACGTATAGGTGAAACTTTAAGTGAACAAGAGCAAGCTTGGATTCGTGATGTAATTGCGTTATATCATGAACAAATGAGTTTTGGAGCTGAAATTGTAGAGCTTTCTGAAATGTTCTTCAAAGATCATGTTGATCATGAAGAAGAAGGACAAGAAGTATTAAAAGGTGAACAAGTACCAGAAGTACTTCGTGCATTTGCTGGTCAAGTAGAAGCACTAGAGGCGATGGAACCAGCAGCAATTAAGGCGGCTATTAAAGCAGTTCAAAAGGAAACAGGTCATAAAGGTAAAAACTTATTTATGCCAATCCGTGTTGCAACTACTGGTCAAACACATGGCCCAGAGCTTCCTAATGCTATTGCACTTCTTGGAAAAGAAAAAGTTTTAAATCGTCTTCAAAAAGTAATTGGTTAA	MEGVPIMEKQVRVRYAPSPTGHLHIGNARTALFNYLFARHLDGKFIIRIEDTDVKRNVAGGEESQLKYLKWLGMDWDEGVDVGGEFGPYRQTERLDIYKKLYLDLLERGLAYKCYMTEEELEAEREGQISRGETPRYAGNHRDLTEEQMKEFEAEGRIPSIRFRVPADRDYTFKDIVKDEVAFHSNDFGDFVIVKKDGIPTYNFAVAVDDHLMEITHVLRGDDHISNTPKQMMIYEAFGWDIPQFGHMTLIVNESRKKLSKRDESIIQFIEQYKELGYLPEAIFNFIALLGWSPVGEEEIFSQEEFIKMFDAARLSKSPALFDSQKLKWMNNQYMKKQDLDTVVELSLPHLVKAGRIGETLSEQEQAWIRDVIALYHEQMSFGAEIVELSEMFFKDHVDHEEEGQEVLKGEQVPEVLRAFAGQVEALEAMEPAAIKAAIKAVQKETGHKGKNLFMPIRVATTGQTHGPELPNAIALLGKEKVLNRLQKVIG	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
AK009_07528	477	ispF_1	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGTTTCGAATTGGACAAGGTTTTGATGTGCATGAATTTGCGGAAGGTAGACCGTTAATTATTGGCGGAATTACAATTCCACACGAGAAAGGATTAATCGGTCATTCAGATGCAGATGTATTGTTACATACGATTGCTGATGCATGTTTAGGTGCCATTGCAGCAGGAGATATCGGAAAGCATTTTCCTGATACAGACCCAGCTTTTAAAGATGCAGATTCAGCTGTATTGTTACAAAAAGTTTGGGAATTTGTGCGTGAACAAGGTTACGAGTTAGGGAACTTAGATTGTACAATTATTGCTCAAAAGCCAAAAATGGCACCGCATATTGAAAGTATGCGTAAACGTATTAGTGAACTGTTAGAAACGTCTATAGATAACATTAATGTAAAGGCAACAACAACAGAGAAATTAGGATTTACAGGTAGAGAAGAAGGAATTGCTTCTCAAGCAGTGGTATTATTACAGAAAAAATAA	MFRIGQGFDVHEFAEGRPLIIGGITIPHEKGLIGHSDADVLLHTIADACLGAIAAGDIGKHFPDTDPAFKDADSAVLLQKVWEFVREQGYELGNLDCTIIAQKPKMAPHIESMRKRISELLETSIDNINVKATTTEKLGFTGREEGIASQAVVLLQKK	PGPT0007595_2279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK009_07529	681	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGTATACATTAATTATTCCGGCAGCCGGCCAAGGAAAGCGGATGGGTGCTGGCAAAAATAAGTTGTTCTTACTTATAAACGAAGTACCGATTATCGTTCATACATTACGTGCTTTTGAAAGAGATAAAGAGTGCAAAAGTATTGTTATGGCAATTAACGAAGAGGAACGCCCGTATTTTGAGGAATTAATGCAGAAGTATCCGATTGAAAAACAGGTACAATTTATTCAGGGTGGAGCCGAAAGACAAGATAGTGTATATAACGCGATTCAGCATGCGAGTGATGTTGAATACGTTCTTGTACATGACGGAGCGCGCCCATTCGTAACGAATAAAGTGATTCAAGACGTATTAACAGCAGCAGAAAAATATGGAGCTTCCATTTGTGCAGTGCCAGTAAAGGATACAGTTAAGAAAGTAGAGCAAGGTGTTGTTGTCGAAACGGTAGAACGATCTCAGCTTAAGGCTGTACAAACACCGCAAGGGTTCTCTGTTTCTCTTTTGTTAGAAGCTCATAGAAGTGCAAAACAGAGTTGTTTTCTTGGTACAGATGATGCAAGTCTCGTGGAACGTATTGGTAAGCAAGTAGGTGTAGTAGAGGGGAGTTACTATAATATTAAAGTGACGACTCCAGAGGATTTACTAATTGCTGAAAGTTTCCTTCATGTTCAGAAAAAATAG	MYTLIIPAAGQGKRMGAGKNKLFLLINEVPIIVHTLRAFERDKECKSIVMAINEEERPYFEELMQKYPIEKQVQFIQGGAERQDSVYNAIQHASDVEYVLVHDGARPFVTNKVIQDVLTAAEKYGASICAVPVKDTVKKVEQGVVVETVERSQLKAVQTPQGFSVSLLLEAHRSAKQSCFLGTDDASLVERIGKQVGVVEGSYYNIKVTTPEDLLIAESFLHVQKK	PGPT0007590_2837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
AK009_07530	1104	yacL	COG4956	putative PIN and TRAM-domain containing protein YacL	ATGTTAAAACGGATCGTACAGCTCTTCTTTCTAGTAATCGGGGGAGCGTTAGGGATTTACTTAATCCCAAAAGTTATTAATGTATTAGACATCGGTGCTGTTCCTTTATTGGAAGGATCGTATGTTCGTGCGATTATTGGTGCAATTATTTTATTTTTAACAACATTTTGGCTTGTAGATTATATTGTTCAACTTATTAAGCATATTGAAGAGGCTCTTGTAAAGGCGCCTGTAGCAGATGTTTTATTTGGTACATTAGGATTGATCTCTGGTCTTATTGTTGCATATTTAATTTTAATACCGATTCGTGAATTTACAATTCCGGTTATTAGTACGGTGTTGCAAGTGTTCTTCACTCTTTTACTTGGATATTTAGGATTCCAAGTAGGATTTAAAAAGAGGAATGAATTGCTAGGATTATTTACATTACCCCAACGCGGAGGTAAGAAGAAAAATAATAGCGAGAACGAAGAGGTAGAAGCAGAAAAATCTACGACTCATTGGAAAATTCTCGATACGAGTGTAATTATCGATGGACGTATTGCTGATATTTGCCAAACGAAGTTTTTGGAAGGAACAATTGTGATTCCACAATTCGTATTAGAAGAGCTTCAGCATATTGCCGATTCTTCCGATGCTTTAAAGCGTAATCGTGGTCGCAGAGGACTAGACATTTTAAATCGTATTCAAAAAGAGATGCCGATTCCGGTAGAAATTTATGAAGGCGATTTCGAGGATATCCAAGAGGTGGATAGCAAACTTGTAAAGTTAGCAAAAATCACCGGTGGAACTGTAGTAACGAATGATTTCAACTTAAATAAAGTTTCTGAATTACAAGGAGTAACGGTGTTAAACATTAATGATTTAGCTAATGCAATTAAACCAGTTGTACTCCCTGGCGAAGAATTAAATGTTTATGTTGTGAAAGATGGTAAAGAGCAAAACCAAGGTGTTGCGTACTTAGATGATGGTACGATGATTGTAGTAGAAGATGGTAGAGAGTATGTAGGTTCGCAACTTAATGTACTGGTTACTAGCGTATTACAAACATCGGCTGGTCGTATGATTTTCGCAAAACGTAAATTATTAGAAAAAGCATTATAG	MLKRIVQLFFLVIGGALGIYLIPKVINVLDIGAVPLLEGSYVRAIIGAIILFLTTFWLVDYIVQLIKHIEEALVKAPVADVLFGTLGLISGLIVAYLILIPIREFTIPVISTVLQVFFTLLLGYLGFQVGFKKRNELLGLFTLPQRGGKKKNNSENEEVEAEKSTTHWKILDTSVIIDGRIADICQTKFLEGTIVIPQFVLEELQHIADSSDALKRNRGRRGLDILNRIQKEMPIPVEIYEGDFEDIQEVDSKLVKLAKITGGTVVTNDFNLNKVSELQGVTVLNINDLANAIKPVVLPGEELNVYVVKDGKEQNQGVAYLDDGTMIVVEDGREYVGSQLNVLVTSVLQTSAGRMIFAKRKLLEKAL				NA	NA	NA	NA	NA
AK009_07531	1074	disA_1		DNA integrity scanning protein DisA	ATGGAAGAAAATAAGCAACGTGTCAAAAGTATGATTAATATTTTACAGCTCGTGGCCCCAGGAACACCACTGCGTGAAGGGATAGATAATGTACTTCGCGCACAAACAGGGGGGCTAATTGTTCTTGGATATAATGAGCAGATTAAAAGTATTGTGGATGGTGGTTTTCACATTAATTGTGCATTCTCTCCTGCTAGTTTATATGAATTAGCAAAAATGGACGGGGCACTTATTTTAAATGAAACGGGAAGTAAAATTTTAATAGCGAATGCACAGTTAGTTCCAGAGGCATCTATTGATTCTATTGAAACCGGTATGCGTCACCGAACAGCAGAACGTGTAGCGAAGCAGACGGGCAGCCTTGTTGTGGCCATTTCACAAAGACGTAACGTAATTACGCTATATCAAGGGAACTTACGTTATACACTAAAAGATATAGGGGTTATTTTAACAAAGGCAAACCAAGCTATTCAAACGTTAGAAAAATATAAGGCTGTATGGAATGATGGTATTACGAATTTGGGCATTCTAGAATTTGAAGAGGTCGTTACAATGTCTGAGGTAGTTCACGTTTTACATAGTGTTGAAATGGTACTGCGTATTAAAAATGAAATATTGAGCTATATTCATGAGCTAGGAACAGAAGGTAGGTTAATTCGTTTACAGCTTACAGAATTACTAGCTGATTTAGAAGCAGAGGCAGCATTGTTAATTAAAGATTACCATCAGGAGAAAACACAAGACCATCATCAAATTTTGAAAAAGTTACAGGACCTTGCAAATACACAACTTTTAGAGGATAGTGATTTAGTTAAATTACTTGGCTATCCAGGGCAAACTAGTTTAGAAGAAAGTGTGACGCCAAGGGGATATCGAATTACAAGCAAAATCTCTCGTGTTCCGCCACTTATCATTGAAAATTTAATTAATCGATTCAAAACGTTGCAAGGAGTTTGTCGCGCGACGATTCATGAATTGGATGATGTGGAAGGAATTGGGGAAGTAAGGGCGAAGAAAATACGAGAAGGCCTAAAAAGAATTCAAGAGCATCTCTATATGAGTAGACACAATTAA	MEENKQRVKSMINILQLVAPGTPLREGIDNVLRAQTGGLIVLGYNEQIKSIVDGGFHINCAFSPASLYELAKMDGALILNETGSKILIANAQLVPEASIDSIETGMRHRTAERVAKQTGSLVVAISQRRNVITLYQGNLRYTLKDIGVILTKANQAIQTLEKYKAVWNDGITNLGILEFEEVVTMSEVVHVLHSVEMVLRIKNEILSYIHELGTEGRLIRLQLTELLADLEAEAALLIKDYHQEKTQDHHQILKKLQDLANTQLLEDSDLVKLLGYPGQTSLEESVTPRGYRITSKISRVPPLIIENLINRFKTLQGVCRATIHELDDVEGIGEVRAKKIREGLKRIQEHLYMSRHN	PGPT0014770_477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
AK009_07532	1377	radA	COG1066	DNA repair protein RadA	ATGGCTAAAAAGAAAACGAAATTTATATGTCAAGAATGTGGTTATCAGTCACCAAAATATATGGGTAAATGTCCTGGATGTGGTCAATGGAATACACTTGTTGAAGAAATGGAGCCAGTTGTATCATCTAGGCGCCTTAATTACGCGAATGCAATTCAAACGGAAGTAACAAAACCAAGACGTCTTACCGAAGTAGAAACAAAGTCTGAGGCACGTATTGAAACGGAATTTCAAGAGTTTAATCGTGTGCTTGGTGGTGGAATTGTAGATGGGTCCTTAGTGCTTATTGGTGGAGACCCTGGGATTGGAAAATCAACATTACTATTACAGATTTCATCACAATTAGCAGATTCTTCATATGATGTATTATACATATCGGGTGAGGAGTCGGCAAAGCAGATTAAACTTCGTGCAGATCGTTTGCATGTAAAGGGTAGCAATCTATTTGTTGTAGCAGAGACAGACCTGCAGCGTATTGCAGCACATATTGAAGAGATGAATCCAGCTTTTGTTGTTATTGATTCTATTCAAACGATACATTTACCTGAAGTGACGTCAGCACCAGGAAGTGTGGCACAAGTACGTGAATGTACAGCGGAATTAATGAAACTTGCAAAAACAAAAGGAATCCCTATTTTCATTGTCGGGCATGTGACAAAAGAAGGAGCAATTGCAGGACCTCGTATGTTAGAACATATGGTCGATGCAGTTCTTTACTTTGAAGGAGATCGACACCATACGTATCGTATTTTACGGGCTGTGAAGAACCGTTTTGGTTCCACGAATGAAATGGGTATCTTTGAAATGAAAGAGCTTGGTCTTGCGGAAGTTTTAAATCCTTCTGAAATCTTCCTTGAGGAAAGGCCGGTTGGTGTTGCAGGATCAACAGTAGTTGCTTCAATGGAAGGAACAAGACCGGTTTTAGTAGAAATACAAGCTTTAATCTCCCCTACTAGTTTTGGAAATCCTCGAAGAATGGCGACGGGAATTGATCATAACCGTGTTTCGCTTATTATGGCAGTATTAGAAAAAAGAACAGGTTTACTATTGCAAAATCAAGATGCATATTTAAAAGTAGCTGGTGGTTTGAAATTAGACGAACCGGCAATTGATTTAGCAGTGGCTTTAAGTATAGCCTCAAGTTTTAGGGATAAATCTACGGCACCAACTGATGCAGTAATAGGAGAAGTAGGATTAACTGGAGAAATAAGAAGAGTATCAAGAATCGAACAACGTGTACAAGAAGCGGCTAAATTAGGATTTCAACGTGTTATTATTCCTAGAAAAAACTTAGGAGGATGGACAATTCCGGATGGGATTGAGGTTGTAGGTGTTTCTAATTTAGGAGAAGCGCTTCGTTTGACATTAGGAGGCTAG	MAKKKTKFICQECGYQSPKYMGKCPGCGQWNTLVEEMEPVVSSRRLNYANAIQTEVTKPRRLTEVETKSEARIETEFQEFNRVLGGGIVDGSLVLIGGDPGIGKSTLLLQISSQLADSSYDVLYISGEESAKQIKLRADRLHVKGSNLFVVAETDLQRIAAHIEEMNPAFVVIDSIQTIHLPEVTSAPGSVAQVRECTAELMKLAKTKGIPIFIVGHVTKEGAIAGPRMLEHMVDAVLYFEGDRHHTYRILRAVKNRFGSTNEMGIFEMKELGLAEVLNPSEIFLEERPVGVAGSTVVASMEGTRPVLVEIQALISPTSFGNPRRMATGIDHNRVSLIMAVLEKRTGLLLQNQDAYLKVAGGLKLDEPAIDLAVALSIASSFRDKSTAPTDAVIGEVGLTGEIRRVSRIEQRVQEAAKLGFQRVIIPRKNLGGWTIPDGIEVVGVSNLGEALRLTLGG	PGPT0014905_2062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
AK009_07533	2436	clpC	COG0542	Negative regulator of genetic competence ClpC/MecB	ATGATGTTTGGAAGATTTACAGAAAGAGCACAGAAAGTGTTAGCTTTATCTCAAGAGGAAGCAATTCGTATTGGGCATAATAATATTGGAACAGAACATATTTTACTTGGGCTTGTACGCGAAGGTGAAGGAATTGCAGCAAAAGCATTAATTGCTCTTGGATTAAGTCCAGAGAAAGTTCAAAAAGAAGTAGAAGCGTTAATTGGGCGAGGAACAGAAGCTTCTCAAACTGTACATTATACACCTCGTGCTAAAAAGGTTATTGAATTATCTATGGATGAAGCGCGTAAGCTAGGCCATTCTTACGTTGGAACAGAACACATTTTACTCGGTTTAATCCGTGAAGGTGAAGGTGTAGCCGCACGTGTTTTAAATAATTTAGGTGTAAGTCTAAATAAAGCAAGACAACAAGTGTTACAACTTCTTGGAAGTAATGAAGCTAGTTCAGGTCATCAAGGTGGTTCAGCAACAAATGCAAATACACCGACACTGGACAGTTTAGCAAGGGACTTAACAGTTGTTGCACGTGAAAATCGCTTAGACCCTGTTATTGGACGCGGTAAAGAAATTCAACGTGTAATTGAGGTATTAAGCCGTAGAACGAAAAATAACCCAGTATTAATTGGTGAGCCTGGTGTAGGTAAAACGGCAATTGCAGAAGGATTAGCACAGCAAATTGTAAATAATGAAGTTCCTGAAACTTTAAGAGATAAGCGTGTTATGACACTAGATATGGGTACAGTGGTAGCTGGAACAAAATATCGCGGTGAATTTGAAGATCGTTTAAAGAAAGTGATGGATGAAATTCGCCAAGCAGGCAATATTATTCTATTTATTGATGAGCTTCATACATTAATTGGTGCAGGTGGAGCAGAAGGTGCAATCGATGCATCGAATATTTTAAAACCATCTTTAGCACGAGGAGAGCTACAATGTATTGGGGCAACAACTTTAGATGAGTATCGTAAATATATTGAAAAAGACGCGGCTTTAGAAAGACGTTTTCAACCAATTCATGTTGATGAGCCAAGTTTAGAAGAATCGATTCAAATCTTGAAAGGTTTACGTGATCGTTATGAGGCGCATCACCGTGTATCTATTACAGATGACGCTATTGATGCAGCTGTAAAACTTTCAGATCGTTATATTACAGATCGCTTTTTACCGGATAAAGCAATTGATTTAATTGATGAAGCTGCTTCAAAAGTTCGCTTACGTTCTTATACAACACCACCAAACTTAAAAGAGCTTGAAGTGAAGCTTGAGGAGATTCGAAAAGAAAAAGATGCAGCTGTACAAAGTCAAGAATTTGAAAAGGCTGCATCCTTACGTGATATGGAGCAACGCTTACGTGAGAAGTTAGAAGATACAAAACGTCAATGGAAAGAGCAACAAGGAAAAGAAAATTCAGAGGTTACGGTAGAAGATATTGCAAATGTCGTTTCTACATGGACGCGTATCCCAGTTTCTAAACTTGCACAAACAGAGACTGATAAATTATTAAATTTAGAATCCATTCTTCATGATCGTTTGATTGGTCAAGATGAAGCAGTAGTAGCAGTAGCAAAAGCTGTTCGTCGTGCAAGAGCAGGATTAAAAGATCCGAAGCGCCCGATTGGTTCATTTATTTTCTTAGGACCAACAGGTGTAGGTAAAACAGAACTTGCAAGAGCACTAGCAGAATCTATGTTCGGTGATGAAGATGCAATGATTCGCATCGATATGTCAGAGTATATGGAGAAGCATTCTACTTCCCGTTTAGTTGGTTCTCCTCCAGGATATGTTGGATATGAAGAAGGTGGACAATTAACAGAGAAAGTTCGTCGCAAGCCATATTCAGTTGTATTATTAGATGAGGTAGAGAAAGCTCATCCGGATGTATTTAATATTCTACTACAAGTATTAGAAGATGGTCGTTTAACAGATTCTAAAGGACGTACAGTTGATTTCCGTAATACAATTGTTATTATGACGTCTAACGTTGGTGCCGAGGCGTTAAAACGTAACAAACATCTTGGATTTAATGTCCAAGATGAAAGCCGTGATTATTCGGATATGAAAGGTAAAGTAATGGATGAGTTGAAAAAGGCATTTCGTCCAGAATTCTTAAACCGTATTGATGAAATTATCGTATTCCATATGCTTGAGAAAAAACATATTCAAGAGATTGTAACTCTTATGGTAAATCAGTTAGTAAATCGCTTAAAAGAACAAGAAATCGAATTGCACTTAACGGAAGAGGCAATTTCAGCTATTGCTGATAAAGGATTTGATCGTGAGTACGGTGCTCGTCCACTTCGTAGAGCAATTCAGAAACATGTAGAAGATAGACTATCAGAAGAACTTTTAAAAGGTGCTATTGAGAAAGGACAAAAAGTTATCTTTGATGTAGAAGGAGAATCATTTGTCATTCATAGTGCGGAAAAGGTAAAATAA	MMFGRFTERAQKVLALSQEEAIRIGHNNIGTEHILLGLVREGEGIAAKALIALGLSPEKVQKEVEALIGRGTEASQTVHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNEASSGHQGGSATNANTPTLDSLARDLTVVARENRLDPVIGRGKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIVNNEVPETLRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIHVDEPSLEESIQILKGLRDRYEAHHRVSITDDAIDAAVKLSDRYITDRFLPDKAIDLIDEAASKVRLRSYTTPPNLKELEVKLEEIRKEKDAAVQSQEFEKAASLRDMEQRLREKLEDTKRQWKEQQGKENSEVTVEDIANVVSTWTRIPVSKLAQTETDKLLNLESILHDRLIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESMFGDEDAMIRIDMSEYMEKHSTSRLVGSPPGYVGYEEGGQLTEKVRRKPYSVVLLDEVEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTIVIMTSNVGAEALKRNKHLGFNVQDESRDYSDMKGKVMDELKKAFRPEFLNRIDEIIVFHMLEKKHIQEIVTLMVNQLVNRLKEQEIELHLTEEAISAIADKGFDREYGARPLRRAIQKHVEDRLSEELLKGAIEKGQKVIFDVEGESFVIHSAEKVK	PGPT0014585_2955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
AK009_07534	1065	mcsB		Protein-arginine kinase	ATGTCACTGGACAAAATTATGAACGAAGCAATTAGTCCATGGATGAAGGGGGATGGCCCTGATTCTGATATTGTTTTAAGTAGTCGAATTCGTTTGGCTCGTAACTTTAAACAATATCAATTTTCCACTATGCAAAACGAAGAAGAAGCTAAACAGATTCATGAATTATTCAAAAAGAAATTCATAAATAAAGCAGTAGGGTCTTTTGGGGAGTTTGGACTATTAAAGATGAATGAATTAACCCCTCTTCAAAGGAGAGTTTTAGTCGAAAAGCATTTAATTAGTCCAAATCTTGCAGGGACAGAATATGGAGCATGTCTACTATCAGAAAGTGAACATATTAGTGTTATGCTTAATGAAGAAGACCATATTCGGATTCAGTGCCTATTTTCAGGATTACAGTTATCAGAGGCACTTCAAAGTGCCAATCAAATAGATAATTGGATTGAGAAAGAAGTTGAATACGCTTTTGATGAATCACTTGGATATATTACGAGTTGTCCTACTAATGTTGGCACAGGGTTAAGAGCTTCTGTGATGATACATTTACCGGGACTGGTTTTAACAAAAAGAATTAGCCGTATTATACAAGTAATTCAAAAATTAGGGTTAGTAGTAAGAGGAATATACGGTGAAGGTAGCGAAGCGTTAGGTAATATATTTCAAGTTTCAAATCAAATGACGCTAGGAAAGTCTGAAGAAGATATTATTGCAGATTTAAAGAGTGTCATTCAACAAATTATACAGCAAGAAAAAATGGCTAGAGAATTAATTGTACAAAATTCAAGTATTGAACTTGAAGATAAGGTTTATCGTTCTTACGGCATACTAGCAAACAGTCGTTTAATTCAATCTGCAGAAGCAGCCAATTGCTTATCAGATGTACGACTTGGTATTGATCTAGGATATATAAAAGTTATATCGAGAAATATTTTGACTGAGCTAATGGTTCTTACGCAACCAGGTATTTTACAACAATACGCAGGTGGACCTTTAGGGCCAGAAGAAAGAGATTATCGAAGAGCAACCTTAATCCGTGAGCGATTACGTATTGAAAAAAACTAA	MSLDKIMNEAISPWMKGDGPDSDIVLSSRIRLARNFKQYQFSTMQNEEEAKQIHELFKKKFINKAVGSFGEFGLLKMNELTPLQRRVLVEKHLISPNLAGTEYGACLLSESEHISVMLNEEDHIRIQCLFSGLQLSEALQSANQIDNWIEKEVEYAFDESLGYITSCPTNVGTGLRASVMIHLPGLVLTKRISRIIQVIQKLGLVVRGIYGEGSEALGNIFQVSNQMTLGKSEEDIIADLKSVIQQIIQQEKMARELIVQNSSIELEDKVYRSYGILANSRLIQSAEAANCLSDVRLGIDLGYIKVISRNILTELMVLTQPGILQQYAGGPLGPEERDYRRATLIRERLRIEKN	PGPT0014660_379	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014660-mcsB-K19405	NA	NA
AK009_07535	549	mcsA	COG3880	Protein-arginine kinase activator protein	ATGACTTGTCAAAACTGTAATATAAGACCAGCAACTTTACATTATACAAAAGTAATTAACGAGAAGAAGGCGGAAATTCATCTTTGTGAGCAATGTGCAGAGCAAAGTGGCTATACGTCTTTCTTTCCATCATCGCAGTCTAACTTTTCATTTCATGATTTATTTGCTGGTTTATTACACGGTGAATCAACAATGTTTGAAGAAGGAAAAAATGGATTTTCAAATGCAGATATAGTAAGATGTCCAGATTGTAAGATGACATATGAACAATTTACAAAAGTCGGACGTTTTGGCTGTTATTCTTGTTACGATACATTTAAGGAGCATTTAAAGCCATTATTAAAACGCCTTCACGGTGGGCATACAGAACATTGTGGGAAAATTCCGGAACGTATAGAAGGAAATATCCACTTAAAGAAAGAATTAGATGAACTAAAACTTATTCTGAAACAATACGTACAGAAAGAGGAATTTGAGAAAGCTGCAGAAGTAAGAGATAAGATCCGAGGTCTTGAAATACAGCTTAGTGAGCATAGAGAGGGGGAATAG	MTCQNCNIRPATLHYTKVINEKKAEIHLCEQCAEQSGYTSFFPSSQSNFSFHDLFAGLLHGESTMFEEGKNGFSNADIVRCPDCKMTYEQFTKVGRFGCYSCYDTFKEHLKPLLKRLHGGHTEHCGKIPERIEGNIHLKKELDELKLILKQYVQKEEFEKAAEVRDKIRGLEIQLSEHREGE	PGPT0014655_178	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014655-mcsA-K19411	NA	NA
AK009_07536	462	ctsr		Transcriptional regulator CtsR	ATGAGAAATATATCTGATATCATTGAGCAATATCTAAAGCAAGTTATTGACTTAAGTAATAATAATGTGATTGAAATCAAGAGAAATGAGATTGCGGATCGATTCGAGTGCGTACCATCTCAAATCAATTATGTAATCAATACCCGTTTTACGTTAGAAAGAGGATTTGTAGTAGAAAGTAAACGTGGTGGAGGAGGTTACATTCGCATTATAAAAGTCAAACTGCATGACGATATAGATATTATTGATCAAATGCTTCATATGATTGATCATAGCGTTGCGCAAGGGAATGCAGAAAGTATGATTATACGTTTAATAGAAGAGGGAATTATAACAAATCGTGAAGCGAAACTGATGTTAAGCGTAATAGATCGTTCTGTATTATCAATGGATGTTCCTTCTCGAGATGAACTTAGGGCTCGAATATTATGCGCAATGTTAAGAACACTGAAATATAAATAA	MRNISDIIEQYLKQVIDLSNNNVIEIKRNEIADRFECVPSQINYVINTRFTLERGFVVESKRGGGGYIRIIKVKLHDDIDIIDQMLHMIDHSVAQGNAESMIIRLIEEGIITNREAKLMLSVIDRSVLSMDVPSRDELRARILCAMLRTLKYK	PGPT0014610_441	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014610-ctsR-K03708	NA	NA
AK009_07538	600			hypothetical protein	ATGATGAGAAAGATTTTTTATAGCGCCTTTATTCTTTTTATATTAAGCGCATGTTCACAAAAGGAAAAGGAAAATGTTGATACTACAAAAGATGAAATGCCTCCTATGCAAAACGTAGAGATTCCTAGTAATATTTTTACCTCTGAAAAACAAAATAGAATAATAGACGAAGAAGAAATAAAATCAAGTATAAAAACATACTTGGATAGCTATGAAGAGTTATCTAATGCTAGTGAACCATTTCAAGAGATTATAGACGAAGAAAAAAAATTGCAAGGAAATGAATTAGAGAAATTAGGCCAAATTTACAAGCTTCTAAAAGAAAATGATAAAAATTTTTCTAACTATATTTTAAATAATACATTGCCCGAAAGCTATCAAGAAGAATCTAAAAGAATTAGCCGGTACATCACAGCTTTAAATGAGACCCTTTATAAACTAGATGAAAGACTTGATCATTTTATAGATGACGTAAGTAACGGAGATCTTCCAAAGAAACCAATAATTGATCAAGTCGATGTAGTGAATGGAAGGGAGCAGAAAAAAATAGAAAATTTCCTTAATAAGAACAATATTGATACTAAAGCATTTGGAGGGTAA	MMRKIFYSAFILFILSACSQKEKENVDTTKDEMPPMQNVEIPSNIFTSEKQNRIIDEEEIKSSIKTYLDSYEELSNASEPFQEIIDEEKKLQGNELEKLGQIYKLLKENDKNFSNYILNNTLPESYQEESKRISRYITALNETLYKLDERLDHFIDDVSNGDLPKKPIIDQVDVVNGREQKKIENFLNKNNIDTKAFGG				NA	NA	NA	NA	NA
AK009_07539	567			hypothetical protein	TTGAACCAGAAGGATTTTTTGAAAATACTCAAAAATAGTTTGAAGTTTATGCCGGAAAAAGAAAAAAGGGATATAATAGATGAATATGTTATTCACTTTAATGAGGGAAAACATACAAATAAAAGTGAAGAGGAAATCTCTAAAGAATTAGGAAATCCTGTAGAGATTGCTAAAGAATTAAATGCAATTTATTCTATTAAGAAGGTTGACGAGCATAAAAATATTAAAAATATGCTTACAGCAATGTTGTCAATTATGGGATTAAGTTTAATAAATTTTATTATTATTATATTGGGTTTAATTACACTGGTAATATTGACACCATTTATATTAGCTTATATCATCAGTGTCCCTATCATGATTCTGTCTCCATTGATTTTAATTATAATGGGATTTGTTAATGGATTTAGTACAATTGGAGTTGAAGAAGTTTTCGATTCTATAAAAGGGGTTATCGTGGGTTCTATTTTAGCATTCCTAGGGTATTATATTGGGAAGTACTTTTTTAGACTATTCATTAAATACTTGAGATGGAATATGTTAATTGCCAGGGGGAATAAACTATGA	MNQKDFLKILKNSLKFMPEKEKRDIIDEYVIHFNEGKHTNKSEEEISKELGNPVEIAKELNAIYSIKKVDEHKNIKNMLTAMLSIMGLSLINFIIIILGLITLVILTPFILAYIISVPIMILSPLILIIMGFVNGFSTIGVEEVFDSIKGVIVGSILAFLGYYIGKYFFRLFIKYLRWNMLIARGNKL				NA	NA	NA	NA	NA
AK009_07540	354			hypothetical protein	ATGAATGCTCAGTTTAAAAAAGGGGTACTTGAGTTAATAGTCTTATTGATAATAAATAAAAGGGATGAATATGGATATGCATTAGTAAAAAAAATATCGAGTAAAATTGTCATATCTGAAGGCACTGTTTATCCAATATTAAGAAGACTAGTCAAAGAAAAACATCTAACTACCTATCATCAAGAATCAACAGAAGGACCATTTAGAAAATACTACACAATCACAAAGGATGGGGTTGATAAACTTGAAGATTTGAAATTTGAATGGAATGAGTTTTTCCTAATAATTAATCGCTTTATCGAGGAGAATGATAAACTTGAACCAGAAGGATTTTTTGAAAATACTCAAAAATAG	MNAQFKKGVLELIVLLIINKRDEYGYALVKKISSKIVISEGTVYPILRRLVKEKHLTTYHQESTEGPFRKYYTITKDGVDKLEDLKFEWNEFFLIINRFIEENDKLEPEGFFENTQK				NA	NA	NA	NA	NA
AK009_07541	1707	bmrA_2	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGAATGCATATAAAGTGCTCCTTCTAGCAATTAACGATAGAAGAAAAAAGTTACTTCTAAGTGCGATAATAATTGTATCAATTTTATTTACAGTAGCATCCCTAGTATTCCCGCTTTTAGTGAAAGATATTGTCGATGAATTTTCAGTTAATAAGATCAGTCTATGGATGATTGGTGGGTTGGTATTATTTCTAATAGCAAAGTCTATAATTGAATCAGTGAATCAGTATATAATAGCTAAATTTGGTAACATGATAATTCGTGATTTACAAAAAAATATATATACTAAGATGCTCCATTTTAAAGTTGACTTTTTTGATGAGCACCATAGTGGTGAATTATCCAGTAGAATTGTTAATGATACGGAAATTATAAAGGATCTAATAACGTACCACATCCCTAAATTAGTTACGGGTGTTATTATGATACTTGGTGGATTAACATTAACAATTATTTTAGATTGGAAATTAACGATTGTTATACTAATAATCTCCCCATTTATATTTGGTATCATCTTTCCTCTTATGAGAAAGACGGAACAAACGGGGGATAGACAACAAAAGGAAATTTCTGTTTTTATTGCGAAAACTCAAGAGACTTTTAAAAATATAAAAATGGTGAAAGCTTCTACAGCAGAAAAGCATGAAAAGTCAATAATGTATAAGTGTATTGACAGGCTGTATAATGCAAACTTATATGAAAGTAAGATTTTCGCCATGGTAGCACCTTTAGTGAGCCTTTTACTTATTCTAGGTTTATTAATAGTGGTGGGGTATGGAGCTTATAGAATATCGGTAGGAACGTTATCTATCAGTACATTAATTGCGTTCGTTATTTATGCATTTCAAATGATGACCCCAATGAGCTCAATTAGTGGGTTTATTGGAGAGTACCACAAAGCAAACGGTGCTATCAAGAGTTTAAATACTATACTGAATAATAATGAAATTGAACAAACTAGCAATACTAAATATGCATTTCAAAACGAGGTATCCTTTAAACAAGTTAACTTTGGATATAAAGATAACTTGATTCTAAAAAATATTACTTTCAATATAAAACGTGGAGAAGCTTTAACTATTGTTGGGCCGTCTGGATCCGGAAAAACAACTTTAATTAACTTATTGGAGAAGTTTTACTTTCCAACAAATGGTGAAATAACGATAGACAATGTAAATATCAATCAATTGAATACTTATGAGTTGCGAAAAAACATAGGTATAGTAAGTCAAGGTTCCTCATTAATTAGTGGTACTATTTTGGAAAATTTGCTGTATGGTCTTGATGAAAAGTATATTGATGAATCTAATATAAGGGAAGCTTTAAGATATGCAAATTTAGAAGAATTTGTTGAAAAGCAAAAAGATAAACTTGATACGAACATAGGCGAGAGTGGTGATAAATTATCAGGGGGGGAAAAACAAAGGTTGAATATAGCCAGATTATTCTTAAAAAACCCGGATATAATTTTGTTAGATGAACCTACATCTAATCTAGATATAGAATCTAGAAATTTAGTCTTAGAGTCTATAAAGACACTTACAAAGGGGAAGACAGTAATTAAAGTAACTCATAATTTAGAAGAAGTACAACCGGATGATAATATATTATTCCTTGAAGATGGAGAGATTGTATGCAAAGGCTCACATGAAAGAGTTAGTGAAATAAATAAAAGATATAAAGAGTTTATATCTATGGTAATGTAA	MNAYKVLLLAINDRRKKLLLSAIIIVSILFTVASLVFPLLVKDIVDEFSVNKISLWMIGGLVLFLIAKSIIESVNQYIIAKFGNMIIRDLQKNIYTKMLHFKVDFFDEHHSGELSSRIVNDTEIIKDLITYHIPKLVTGVIMILGGLTLTIILDWKLTIVILIISPFIFGIIFPLMRKTEQTGDRQQKEISVFIAKTQETFKNIKMVKASTAEKHEKSIMYKCIDRLYNANLYESKIFAMVAPLVSLLLILGLLIVVGYGAYRISVGTLSISTLIAFVIYAFQMMTPMSSISGFIGEYHKANGAIKSLNTILNNNEIEQTSNTKYAFQNEVSFKQVNFGYKDNLILKNITFNIKRGEALTIVGPSGSGKTTLINLLEKFYFPTNGEITIDNVNINQLNTYELRKNIGIVSQGSSLISGTILENLLYGLDEKYIDESNIREALRYANLEEFVEKQKDKLDTNIGESGDKLSGGEKQRLNIARLFLKNPDIILLDEPTSNLDIESRNLVLESIKTLTKGKTVIKVTHNLEEVQPDDNILFLEDGEIVCKGSHERVSEINKRYKEFISMVM	PGPT0028965_441	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
AK009_07542	120			hypothetical protein	ATGAATAAAGTACTATCTTTACAAAAAGAATCTATTTCTAAAGATGTTCAACTGAAGGCGAAATCCTCTAAAAGTGTTCAATGTAAAACAAGCAGCAATGCAAGCTGGTTCTTCTGCTAA	MNKVLSLQKESISKDVQLKAKSSKSVQCKTSSNASWFFC				NA	NA	NA	NA	NA
AK009_07543	120			hypothetical protein	ATGAATAAAGTACTATCTTTACAAAAAGAATCTATTTCTAAAGATGTTCAACTGAAGGCGCAATCTTCTAAGAGTGTTCAATGTAAAACAAGCAGCAATGCAAGCTGGTTCTTCTGCTAA	MNKVLSLQKESISKDVQLKAQSSKSVQCKTSSNASWFFC				NA	NA	NA	NA	NA
AK009_07544	120			hypothetical protein	ATGAATAAAGTACTATCTTTACAAAAAGAATCTATTTCTAAAGATGTTCAACTGAAGGCGCAATCTTCTAAGAGTGTTCAATGTAAAACAAGCAGCAATGCAAGCTGGTTCTTCTGCTAA	MNKVLSLQKESISKDVQLKAQSSKSVQCKTSSNASWFFC				NA	NA	NA	NA	NA
AK009_07545	129			hypothetical protein	ATGAAAGATGTTCTTGCATTACAAAAAATGAATAAAACAAAACAAAAGGGTAAGGGCCAAAATCCAGCAAAATCAAGCATAAGTCTGGGGTGTTCTCCATCAAGTAATACTAGCTGGTTCTTTTGCTAA	MKDVLALQKMNKTKQKGKGQNPAKSSISLGCSPSSNTSWFFC				NA	NA	NA	NA	NA
AK009_07546	2604	ramC	COG0515	putative SapB synthase	ATGGATAATAGGTATATAAAGTATATAAATAAAAATCCTTACTATAGTGTTGCTGATGAAATTAGTCAAGGGTTATTAAACGTAGACTATCCATTTGATAATTATATATTAATTGATGGTGAGCATTGGACAAACCTAATGCCTAAAAATGCAAGACTCCCTAAACAAGGATGGAAAATTCATGTTAGTACGGATATCAGAGAATCGCAACAAACTTTAGATATTGTTTCCAAGTTAATGATAGAAAGAAACATATCGTTTAAATATGTCAGAAGTAATAAGGAGCTAGTACTGAAGGATTCAAAATACGGAGATAGAGGTTCATCAGGGAAGTTTATAACTATATATCCTGAAAATACTTATCAATTTATTGATTTATTGAGATTATTAGAAAACAACTTAGCCCATTTAAAACCTGGCCCTTATATATTAAATGACAAAAGATGGTATAACTCTAATGTATATTTTAGATATGGTGCTTTCATGTCTAGGTATGTATATATAGATGGTGAGAAAGTTGATGCTATAGAAAATTTAGAAGGTGAACTTATTGAAGATAAAAGAGTTCCTTACTATTACTTACCTAATTTTGTAGAAGAGCCAATAGAAATTAGAAAAATGGATGAAGAGTTGAATCAAGTTGACACCTCATCCCCTCTAGATAATTTTGATATAAATGAAGCATTGCATTTTAGTAATGGTGGTGGCGTTTATATCTGTAAAAATAAAAGTAATAATATGAAAGTCATTCTAAAAGAAGGAAGGCCCCATGCTGCAGTAGACGCTCAAGGGCAGGATGCTTTTTCTAGAATTGTTAATGAAAGCGAGATATTAGATAAATTAGAAAAGGCACAATATCCAGTTAAAAAAATAAGTTCTTTCCGTGCCTGGGAACATTATTTTATAGAAGAAGAGTATATTGAAGGTGATTCTTTATCTGAATGGCTAGTGAAGAACTACCCTTTTAGTTCTAATATAAAAAATGAATCTTATACAGAGTCCTGTATAAATATCATCAATCAACTAATTGAGTCTATACACGAACTTCATAGAAATGATATAGGTATGGGAGACTTACAACCTGCTAATATCATAATTACAGCAGAAGAGAAAATTAGATTAATTGATTTTGAAACTGCAAGTTCAATAAGCGATTCTCTTTCTGGATTAATGACTCCCGGTTTCATAGGGAATCAAGAAATGAATAAAGAACAAAGTGATTGGTTTGCATTATTAAGGATAGCAAAACAGCTATTTGTACCAATTGGTTGTGTTCAAGATATATCCTGGAATATGGACACTATTCATAGTAATTGGATTCAAGTTGTATTTGGAGAAAGAGCAAATACAATAATTGAACGTATTGAGTCATTATGTGAATTGTACGGATCACGTCCTATGGAAGAATTACTGACTACAAATGGACACATGAAACAAAAATTTGACCTATCAGTCATGAAATTAAAACTACGTAATTCCATTTTAAAGGACGTTAAAAATGAAGAGAGGCTATTACCTGGAGACATTCGGCAATATGAAATGGAGACAGGCATGCAAAATGTGTTAACTGGTGGTTTTGGTGTTGCGATGGCATTACATAGAACTGGCGGAATAAATCAGAAAGTAAAAGATTGGATTGAAAATCAAGATATCAATAAACTTATTCAATTAGAAAATGGTTTATTCACCGGTAAGATGGGGATAGCATCGGTTTTATGGGAACTAGGTTATCAGGAGAAAGCAAAGGCTCTATTCGACTCGTTTATTGATTTTAAACATATTGAGGATATTTCTTTTGCAGCAGGTTTAAGTGGAATTGGATTCGCATACTTAGGATTTAGTTACGAAGTCGATGATCCAAAATATTTAAACATTTGTCTCTATATTGGAGAAATATTAATAAACAAGTTGAATGCCGATGCACCAATTATTACTTATGATTACGATGTTGTTGATAAAGGGGTTATGACCAGTTGGGCTGGAGTTTCCCTGTATTTTACTGCACTGTATAAAAAAACAAACGATAATAAATGGTTAGTATTATCAGAACAGGCATTGGAAAAGGAAATGAAACTAGGAATATTCGATGATACTGGCTTGTATCAAATTGATGATGATTTTAGGATATTACCTTATCTTGCCGGTGGAGGAAGTGGCTTAGCTTTACCGATTGTTGAACTAGAGATAAATGCAAAATTGAAGAAATGGAATAAAGAAATTGATGGTATTAGTAAAATATCAAAAAGTAAATGCTTTTATAATGCTGGATTATTTCAGGGAACTACGGGTATTTTAGCTGTTGCAAATTTATTAGAGTTATATACCAAAAAAAGTAGTTTGGTTAACTCGGCATTATTTACACTTAATTTACACTTATTAGAGGATGCTGATTGTATATTTGTTCCTGGTGATTCGTGTTTTAGAATTTCTGGTGATATCATGTCTGGCTCTTCTGGTTTATTGTTAACGATAAATGATATTTTAGAAAGTAAGAACCATTCATGGATACCTATACTCAATTTAGAAAAAGTATTTAGTTCTTCAACTTTTACAGAAGAAAGTTTTCAAAATATAGTTGAACCTCTTTCTTCTGTCGTAAGATGA	MDNRYIKYINKNPYYSVADEISQGLLNVDYPFDNYILIDGEHWTNLMPKNARLPKQGWKIHVSTDIRESQQTLDIVSKLMIERNISFKYVRSNKELVLKDSKYGDRGSSGKFITIYPENTYQFIDLLRLLENNLAHLKPGPYILNDKRWYNSNVYFRYGAFMSRYVYIDGEKVDAIENLEGELIEDKRVPYYYLPNFVEEPIEIRKMDEELNQVDTSSPLDNFDINEALHFSNGGGVYICKNKSNNMKVILKEGRPHAAVDAQGQDAFSRIVNESEILDKLEKAQYPVKKISSFRAWEHYFIEEEYIEGDSLSEWLVKNYPFSSNIKNESYTESCINIINQLIESIHELHRNDIGMGDLQPANIIITAEEKIRLIDFETASSISDSLSGLMTPGFIGNQEMNKEQSDWFALLRIAKQLFVPIGCVQDISWNMDTIHSNWIQVVFGERANTIIERIESLCELYGSRPMEELLTTNGHMKQKFDLSVMKLKLRNSILKDVKNEERLLPGDIRQYEMETGMQNVLTGGFGVAMALHRTGGINQKVKDWIENQDINKLIQLENGLFTGKMGIASVLWELGYQEKAKALFDSFIDFKHIEDISFAAGLSGIGFAYLGFSYEVDDPKYLNICLYIGEILINKLNADAPIITYDYDVVDKGVMTSWAGVSLYFTALYKKTNDNKWLVLSEQALEKEMKLGIFDDTGLYQIDDDFRILPYLAGGGSGLALPIVELEINAKLKKWNKEIDGISKISKSKCFYNAGLFQGTTGILAVANLLELYTKKSSLVNSALFTLNLHLLEDADCIFVPGDSCFRISGDIMSGSSGLLLTINDILESKNHSWIPILNLEKVFSSSTFTEESFQNIVEPLSSVVR				NA	NA	NA	NA	NA
AK009_07547	138			hypothetical protein	ATGTCTAGATTTGATGTTTTATCATTGCAAAGTTTAAAAAAACATAAAAATAATGATAAGCCCATTGGTTCAAATGTTAGTGTTAATTGTAAAACCCAAAGTGGTTTAAGCCTTTTTTTCTGTGTTAGTCCTAAATAA	MSRFDVLSLQSLKKHKNNDKPIGSNVSVNCKTQSGLSLFFCVSPK				NA	NA	NA	NA	NA
AK009_07548	666			hypothetical protein	ATGGAAAATAATGAAAAAAAAACAATGAATACAGGATTATTGAAAATAAAACAAAATAAAAACAAGTTTATAAGTAATGCTTCCTTAATTAAAGGGTTGAACTATCCCATAGTTTGTACTGCTGCACATTGTGTCTTTGACTGGTATAAACAATTATCTGCAAATGAAGTAACCTTTATAACGAATGATAATAAAGAATATGAAATTGAAGAAATCTACATTAGTACTGAGTGGGTTAATAATGGGATAGTAGACTATGACACTGCCTTTTTGACATTAAGGGAACCTCCTGTAGCAATGGACAATTTAATCAAACCTATATTTAATAACTCATCAAAAAAACAGAATGCATTAGTACCTTACATAAGTAAAAAATTCCTCAGGAAGAAAAAAGTCGAGGTAATAAGAAATATTACTTTTGAAGACCATATATATAATTCAACATTGTTAGGTTTAAAAGGAAAGTTGGGCGTGGGCAGTTCAGGAAGTCCTTGGATAATGAAAATGAATAATGAATATTTTCAATTTTCTAATACAAGTTTGTCATTTAATAGTGTTAAAGATATAATTTGGGGACCTTATTGGGGAGAACATATAGAAAATTTATTTCTACAAGCAAATAAAAAGGTTAGTAACTTGGAAAATATAAATATTTATAAACTATGA	MENNEKKTMNTGLLKIKQNKNKFISNASLIKGLNYPIVCTAAHCVFDWYKQLSANEVTFITNDNKEYEIEEIYISTEWVNNGIVDYDTAFLTLREPPVAMDNLIKPIFNNSSKKQNALVPYISKKFLRKKKVEVIRNITFEDHIYNSTLLGLKGKLGVGSSGSPWIMKMNNEYFQFSNTSLSFNSVKDIIWGPYWGEHIENLFLQANKKVSNLENINIYKL				NA	NA	NA	NA	NA
AK009_07549	1227			hypothetical protein	ATGACGTATGTACATATGTCTATAAATCAAGATTTGCAAATTAAAGAGAATAATATTGTCTCCAAATCAAATACATTGATTGAAGCTAATTCACGTTTGAATTTAGTTGAACAAAAAATGTTACTTTGTTTGGCTAGTAATATTGAACCCAACGACCGGGATTTTAAAACATACACATTCCCAATTAAACAATTTCATGATTTACTTGGTTTGAATGGATCTACTAAATATACAGAGTTAAGTAAAATTACAAAGGAACTCTTATCTAAAGTAATTGAAATTCGAGCAGGAGAAGAATTAATTCAAGTATCTTGGCTTTCTTCAGCAATTTACAATAGAAATAAAGGGACAATTGATATGCGTTTCGATCCTTTATTGAAACCATTCTTATTAGAACTAAGTAGCAAATTTACAAGCTATAGATTGGCTAATGTTGTTAAATTAAAAAGTACATATGCTATACGTATTTATGAACTACTTAAGCAATATGAAGATTTAAGGGAACGTACAATTAGTCTAGAAAATTTAAGGTATTACTTAGATGCAATGGATGTATACCCTAACTATGCAAATTTTAAGCAACGTGTGTTGAAGCCATCTCAAAAAGAATTAAATCAAAAAACAGATATTTCTTTTGAATTTGAGGAAATTAAACTAGGTAGGAAAGTCCACAAAATTAGATTTATCATCCGTGCTCAGAAAAAGAAAGATTCTGATTTAGTTCATTTTGAAAAAAAGTTAGATAAATTTCAACAGCCAAATACATTTGAACAAAAAATTAAAAGATTTGAAGAACGTTGTAAAGAAAAAGTGTTTCCTAAAGTGTTTGAGAAATGGGAAGAGCATAAAGAAATTGTATTAGAGATAATTGAGGATATACGTTTTCGCTCAGATATTGATTCGCCAATCGGTTATGTAGAATTTATTCTAAATTCCCGATTAAAAGAACTTTCCGATAAAAAAATATTAAACAACAGTAGTCAAAATGAAGAGGAGTCTAATAATAAGTTACTAGAAATTGATACTATTATAGATTCTGTTATTAGTAAATATTCAACAGCTACAGGGGCTATAGCTACATTTTTAGTTAAAGATACAGCAATTGAGGAGTTAGTGAGAGTAGTTACATTAGAGGAAGCTGAAGTTATTTGGAAAGAAAAAGAAGAGTTTGTTATGGATAAAATTTATGGACTCATTAAAAGAAATAGAAATAAGAAAAGATACTAG	MTYVHMSINQDLQIKENNIVSKSNTLIEANSRLNLVEQKMLLCLASNIEPNDRDFKTYTFPIKQFHDLLGLNGSTKYTELSKITKELLSKVIEIRAGEELIQVSWLSSAIYNRNKGTIDMRFDPLLKPFLLELSSKFTSYRLANVVKLKSTYAIRIYELLKQYEDLRERTISLENLRYYLDAMDVYPNYANFKQRVLKPSQKELNQKTDISFEFEEIKLGRKVHKIRFIIRAQKKKDSDLVHFEKKLDKFQQPNTFEQKIKRFEERCKEKVFPKVFEKWEEHKEIVLEIIEDIRFRSDIDSPIGYVEFILNSRLKELSDKKILNNSSQNEEESNNKLLEIDTIIDSVISKYSTATGAIATFLVKDTAIEELVRVVTLEEAEVIWKEKEEFVMDKIYGLIKRNRNKKRY				NA	NA	NA	NA	NA
AK009_07550	378			hypothetical protein	ATGTTTAAACAGAAATTTTTAATTGTATTTTGTGGATTCATAATGATAGTTTTATTTACATCTCCAATAGAAGGAAAGGCAGAAAATATATCTAATACAGATTTTTATGATTCTTATAATACTTTATTAGCTCCTTACGCAAGTGAAGCTATCCGAAGTAAACTAGGACCAGATTATCAGTATAGTTTAACGGATGCAAAAATTATAAAAATTGAGCGATCCAAAAAATATACTTTCACCTTTATTGTGGTAGCTAAATATAAAACATATACCAACGCTCACAATCCACCTAATCATGTTGTAACAATAACTTATAATGTTAGTCCAAACGGGGTAAAAGTTATTGATTTCAAACAAAAAAAGAAAGTGAGTTTGTAA	MFKQKFLIVFCGFIMIVLFTSPIEGKAENISNTDFYDSYNTLLAPYASEAIRSKLGPDYQYSLTDAKIIKIERSKKYTFTFIVVAKYKTYTNAHNPPNHVVTITYNVSPNGVKVIDFKQKKKVSL				NA	NA	NA	NA	NA
AK009_07551	510			hypothetical protein	ATGCAAAATATTATTTTCAAGTTAATGATAGCATTATTTGTGTTTATGCCAGGTAGTCAGTTTCATATCAATGCGTATACTGAAAATGTAGATGTAGTCAATAAAGGATTTTCCTTGAATGAATTAAAAGGAAAGACTTCTTTTAATTGTTTTATTCCTAAAGAGATAGCCAAGGATTGGAATATAGAATTAAAATATCCGGAGCAAGTACATAAAAATATGGAGAAAATACAAATACATTTTTTGAATAGAGAAGAAACGCAATTAAAAGTTGCAATTATTGAAAGCGTGGCAACAGACAAAGATATTCAACCGGGGGAACATAGGGAAAGAGTGAAAATAAACAATATAAATGGTATGTTTTATCCGTTAACATCAACAAAAAGAATTAAGGATGTACAAGGGGGACAATTAATGTGGGTACAAGATGGAACAATGATTGAGTTATTTAGTTCAAGAATTTCTAAGCAAGAATTAATTACAATAGCTCAATCAATGGAGAAATTATAA	MQNIIFKLMIALFVFMPGSQFHINAYTENVDVVNKGFSLNELKGKTSFNCFIPKEIAKDWNIELKYPEQVHKNMEKIQIHFLNREETQLKVAIIESVATDKDIQPGEHRERVKINNINGMFYPLTSTKRIKDVQGGQLMWVQDGTMIELFSSRISKQELITIAQSMEKL				NA	NA	NA	NA	NA
AK009_07552	174			hypothetical protein	ATGAAAGAACATAACAAACAAAAATCATATTATATAAGAGAATACACATTAAGAGATAAGAGTACTAAATCAATTAGGGTTGAACCCTGGCGCTCTTTTAAAGAGGAAATGAAGGTACTTGGTATTACGGATAATGACATTTTTCAAATCCAACTGATTAAAAAACGTATATGA	MKEHNKQKSYYIREYTLRDKSTKSIRVEPWRSFKEEMKVLGITDNDIFQIQLIKKRI				NA	NA	NA	NA	NA
AK009_07553	897			hypothetical protein	ATGTCTAACCAACAGTTAGTAAATTTACGCATTGATTTTGCTTTTAAACAATTATTTGGTACAAGTGGAAATGAAGATATTTTGATTGCTTTTTTAAACGCGATATTGCAGGATTCTTTAGAATCACCCATTGTTTCGTTACAACTAGAAGATCCACACTTGCACCGTGAACATGAAGAGGATAAATTATCAATTTTAGATATTTCCGCTACATTAGATACAGGAACAAAGGTAAATGTAGAAATACAGCTGAATAACAATCATGACATGATTAAGAGAAGTTTATATTACTGGGGAAGGCTATACACATCCCAACTTCAAAAAGGAATGCCCTATAGTTCTCTTCATAAAACAATTACGATTAATTTATTAAACTTTGTCATGTTTCCAGAATACGAAGCATTCCATACAACAGGAATCTTATGGAATCAACAACAACAGAAAATATTGAGTGATGATATTGAAGTTCATATTGTGGAGATTCCAAAACTCATGCAACAGTGGCGAAATGAACAAATAAATCCCTGGGAAGATTCGTTTGTTCGTTGGTTGTTATTACTTCCAGCGAATGAGGATGAACAATTAACCCAAACATTGGAGGATATTGCGATGAACCAAGACCCTATTTTACAAAAAGCAATGAATAAATGGGAACGTATGAGTCAAGATTCTTCTTTCCGACAAGCGTATGAAGCAAGGGAGAAAGCGTTGATGGATGAAGCCGCAAAATTTGCTCATGCTCGTAATGAAGGAAAGAAAGAAGGGCGTCAAGAGGGGATTGAAGAAGGGAAAATTCAACTAATTCGTGGAATGCATAAAAATGGAATGCCAATAGAAGATATTGCAAAGTTTACAAATTTACGTATAGAAGAAATACAAAACATTTTACAAGTCTAA	MSNQQLVNLRIDFAFKQLFGTSGNEDILIAFLNAILQDSLESPIVSLQLEDPHLHREHEEDKLSILDISATLDTGTKVNVEIQLNNNHDMIKRSLYYWGRLYTSQLQKGMPYSSLHKTITINLLNFVMFPEYEAFHTTGILWNQQQQKILSDDIEVHIVEIPKLMQQWRNEQINPWEDSFVRWLLLLPANEDEQLTQTLEDIAMNQDPILQKAMNKWERMSQDSSFRQAYEAREKALMDEAAKFAHARNEGKKEGRQEGIEEGKIQLIRGMHKNGMPIEDIAKFTNLRIEEIQNILQV				NA	NA	NA	NA	NA
AK009_07554	600			hypothetical protein	ATGTTTAAAAAGAATCTAGGTAAATTAGGTGTAAGTGCTATAGCGTTAGGAGTTATGATTCCTTCAACAGCAGCGTTTGCTGAAGAATCAACTCCGGTCTCTGCTGTAAATTATGAACAAAATAATGTAACTAGTGAAACACAAAACCAAGAATTGAGCGTAGAAGTGTATGATAAGAACGATAATTTAGTTAAAGTCTATACAAAAGAAGAAATTGAAGCGTTTAATGCTCAATTCGCTGCGAATCCTACAGCAGCGTTTCAATATATTAATAATGTAAGTCCGTTAGCTTTAAATACTACTTCTTTTGGTAAAGCTCAATTTAGTAGTTCATTATGGATTAGAGGTGGAGCAACATTTAAAAAACCTCAAAGTGTTGCAGTAGAGTCTCCTGGTAATACATATGGTTTAGGAATCTATGTATATCATGATGGATCTCAAGAAGGTAGATATAAAGTAAATGGCACGTTTACTGGTGGATTAAATATACCAATTGGGCATCTTACAAAAGATTATAATTATTACAGTCTTAAACTTGCAAACATGAGTGAAAATGGTGGCACAATTACTTTAAGTGGCGGAACAGTTTTCCATCAATAA	MFKKNLGKLGVSAIALGVMIPSTAAFAEESTPVSAVNYEQNNVTSETQNQELSVEVYDKNDNLVKVYTKEEIEAFNAQFAANPTAAFQYINNVSPLALNTTSFGKAQFSSSLWIRGGATFKKPQSVAVESPGNTYGLGIYVYHDGSQEGRYKVNGTFTGGLNIPIGHLTKDYNYYSLKLANMSENGGTITLSGGTVFHQ				NA	NA	NA	NA	NA
AK009_07555	597			hypothetical protein	ATGGGAAAGAGAAAAGTTTTATGTATTTCTGTATTATCACTCGCTTTATTGTGTTCCTGCCAGGGGAATACAGAAGAACCAAAGAGCGAGGGTTCAAAAGTTATGGAGGCAGTTAACAAAACTGTAAATAAAAAATCTTTTGTCAGTGCTGCTATATGGGATGAGAATACAAGAAGGTTAGATATAGAAATTTCTGATACTGAAGATTCCTCTAAAGTAAAAACAGAAATTAATAATCAGTTGAAAAATCAAGGGATTAAGCCGTACACAATCAATATAAAAGAACGGGATATGAAGATTGTAGAGAAAGAAAAAAGATGGAATAAAGTTACTGGATCTATTTTAGGAAATATATTTACCAAAAATGAGTATAAGGGGTCTGAGATCCATCAAATGAATATCGAAGCAGAACAGCCATATGTTTTGACTATAAATACAAAAATCAGTAGTGCTGATCCAAATGCCAAAGAGTTTGGGAAGAAATTAGAAAAAGAAATCACTGATTTGTTTAAAACAGAAGAAGTAAGCAAATGGATTGGAAAAGATTCATACACTATCGAAATTTATAGTAACGATAAACAAAAGATTAACTTATAA	MGKRKVLCISVLSLALLCSCQGNTEEPKSEGSKVMEAVNKTVNKKSFVSAAIWDENTRRLDIEISDTEDSSKVKTEINNQLKNQGIKPYTINIKERDMKIVEKEKRWNKVTGSILGNIFTKNEYKGSEIHQMNIEAEQPYVLTINTKISSADPNAKEFGKKLEKEITDLFKTEEVSKWIGKDSYTIEIYSNDKQKINL				NA	NA	NA	NA	NA
AK009_07556	267			hypothetical protein	ATGGAATTAGCAAAAGGCTTATTTCCTTCATTACATACAATGGAGGACGCATCACAACGTTTTAATTCATTTCAATCAAGAGAGGAGTCACAACCTATGGGATTAGCGAAAGGCTTATTTCCTTCATTACATACAATGGAAGACGCATCACAACGTTTTAATTCATTTCAACAGCAAGAAAAAGAGAGGAATAATAAAAAGGGTGATTTCATAAATAAAATGCTTAATAATTGTCACTATATACACTCTACTTTTCATTTGAAGTGA	MELAKGLFPSLHTMEDASQRFNSFQSREESQPMGLAKGLFPSLHTMEDASQRFNSFQQQEKERNNKKGDFINKMLNNCHYIHSTFHLK				NA	NA	NA	NA	NA
AK009_07557	462			hypothetical protein	ATGGGTAGAAAAGGACTAGGAGATTATGAATTTACCCATCCAGGAGGAACAAAAGATTTAAGTTGCTATCACTGTTCAACAGTCATACCAGGAGTTCGCTACTATGATGATTATGATGAAGAAGGCTGTAAAAGTAGTTTAGAGCTATATAAAAACAAATTAAATGGCCTTATTTGTAGTGCTTGTAATGCAATAGAAGGTGATCTCAAAGGCATTTCTTTTGTTAAATTAAAAAAACTACATAATAAACTTTACTGTCAAAATTGTATAGTGGAAGTTGGTAAAAATCAAATCCCCGATCCTTCAAATGAAAATGAAAAATATAATTTTAATGGAAATACTTTAAAGTGGGAATTAGATAAAGTACGTATTGAGTGTCCTTCTTGTCATAGAAAAAGATGGCTAAATGCTGAAAACCGTTGGAGAAAGCAATGTAAGCCCTGCTATTATGCTAAATCATAA	MGRKGLGDYEFTHPGGTKDLSCYHCSTVIPGVRYYDDYDEEGCKSSLELYKNKLNGLICSACNAIEGDLKGISFVKLKKLHNKLYCQNCIVEVGKNQIPDPSNENEKYNFNGNTLKWELDKVRIECPSCHRKRWLNAENRWRKQCKPCYYAKS				NA	NA	NA	NA	NA
AK009_07558	996			hypothetical protein	ATGAAAAATACAATGAATGATGCACTAAATCTAGAAAACATTTTATTGTCTAAAAATCAAATGCAATGGCACCAAAATATGTTAAATGAAAACAAGAAGTCAATGGCCGCTCTCTTGTCTATTCCAAAGTCTTATACTTTAAATGAGACAATTTTTAAGATGAATTGGGAACAAATTTTGCCTTCCAAAAATCAAATGCAATGGTACCAAAATTTATTAAATGAAAACAAGAAGTCAATGGCCGCTCTCTTGTCTATTCCAAAGTCTCATACTTTAAATGAGCCAATTTTTAAGATGAATTGGGAACAGATTTTGCCTTCCAAAAATCAAATGCAATGGTACCAAGACGCACTAAAGTCTTTCTCATATTCAGAAACTTTAATAGATACACTTCGCTCGGTAACAATTCCTGCATCAACTTTAAACATCCTTTCTGCCATTGATTTTGATGAGGTTCAGCCATTTTTTGAATTAGAAGAAGTTCAAGATGAGGTTGAACAGGAATTGGTTTCCTTACAAGAACAAACAAATCCTAAAAATATTATTGATACTATAAACAGTCGGGCTAATCAATTAATAGAATCCCATGATAATCTAAAACAAACAGCACCAGCGATATATATATTGGTGGTGATTTTATATTTTATGTTTAATCACTTTATAGCACCCGCTATGGAAGATGTATTTAAGGAAAAAGTTCTTCATGTATCTGAATTCATATCTAATAAGCCCGAAGAAAATGCAAAGCAAGTAAAAACAACTTTAGAAAGGGATTTTGGTATCGCTCGGTCTGCTGTAAACAAAGTTCGAGTTACCAACAGAGAAACGCCTGTTTTCCGATCACAACAACGTATTTCTGGTGTAATTGATACCATTCCTTATAATAAACCCGTAATTATTATTGAAAAGAAACGAAATTGGTCATTTATAATGTATACAAATTCATTAGATGAAGAAGTAAATGGTTGGGTTTTCACTGGGAACTTAGCAAAATAA	MKNTMNDALNLENILLSKNQMQWHQNMLNENKKSMAALLSIPKSYTLNETIFKMNWEQILPSKNQMQWYQNLLNENKKSMAALLSIPKSHTLNEPIFKMNWEQILPSKNQMQWYQDALKSFSYSETLIDTLRSVTIPASTLNILSAIDFDEVQPFFELEEVQDEVEQELVSLQEQTNPKNIIDTINSRANQLIESHDNLKQTAPAIYILVVILYFMFNHFIAPAMEDVFKEKVLHVSEFISNKPEENAKQVKTTLERDFGIARSAVNKVRVTNRETPVFRSQQRISGVIDTIPYNKPVIIIEKKRNWSFIMYTNSLDEEVNGWVFTGNLAK				NA	NA	NA	NA	NA
AK009_07559	207			hypothetical protein	TTGATACATCAATATGAATTGAACTTTTCAGTGATGTATAGTGGCAAGGTAACAGGCTCACAATCTACAATTATTCCAGCAAGTTCTTTAGAGGAAGCAAATGAAAAATTACAATCGGAAGTAAAGCGGCGATTAGGAAAATGTAGTATAAAAGTTAATGCGGCAAGTTTATGTGTTTCAGAGGATAGCCGATATACCATTGAATAA	MIHQYELNFSVMYSGKVTGSQSTIIPASSLEEANEKLQSEVKRRLGKCSIKVNAASLCVSEDSRYTIE				NA	NA	NA	NA	NA
AK009_07560	321			hypothetical protein	ATGATTTTTTTTAAGGTCATTGCATATATTTTGCTAAGTATAGGAGTTTGTACGCTTCTTTTGGCAGGAATTGCCGCGATTGTAAAGAAACAAATGATAATCGCAAATATAAACCTATTATTGGCCATGTATTATTTTTGTTCGGGAAGTCTTCTGTATTTGTGCACGTTATGGGAAACACAAGATATTTTTCTACAAGCCTTTTTGATTTTAATTGTGGGAATTGCGATCATCCGATTAAGAAAAAGCTGGTATGTACCGCAAATGCGTACCTATCTTCAAAAACAACAGGAGCAAGCGACAAATAAGAATGATCTGTGA	MIFFKVIAYILLSIGVCTLLLAGIAAIVKKQMIIANINLLLAMYYFCSGSLLYLCTLWETQDIFLQAFLILIVGIAIIRLRKSWYVPQMRTYLQKQQEQATNKNDL				NA	NA	NA	NA	NA
AK009_07561	297			hypothetical protein	ATGATCGTATTGGGAATTGGGCTGTCAGTTTTGCTGATAGCCTTTTTATTTATCCAGGTATATCCGTTCCATAAACAGAAGTTAGAACAAAGAAAATATGATGAATATGGAATTTGGATCATTATTTGCACAGGGGTATGTCTTTATGTTTCGCATCATTTTTTACAAGAAAACATGTGGCAATGGGGATTAAAAATTGTTGGTGCAACATTTTTCACAGGATTTTCAATCGGATGTGTTGGAAAACAATGCATATATGATTTTCAACATAAAAAGTTTCCCTTTCAGAAAAAATGA	MIVLGIGLSVLLIAFLFIQVYPFHKQKLEQRKYDEYGIWIIICTGVCLYVSHHFLQENMWQWGLKIVGATFFTGFSIGCVGKQCIYDFQHKKFPFQKK				NA	NA	NA	NA	NA
AK009_07562	318			hypothetical protein	ATGAATCAAAATGTATTGCATCATATTGGGTATGAAGTATTACAAGAAACGTTTGCGTTAATTCGAAATGTATTTTCCTATTCAAACGAAGATGAATACAGTGTGACGTATGTACGAGAAATTGCGGATGCCTTGCATAATATCCCGCATTCTATCCAGAAACAACATGATAAATTCCTAGAATTTGAGTTCAAACTGTTAGAAGAGACATTAATGCAAATGGACTTTGAAAAAGTTGCCGCACAAAATATTCCCTATTTTAGAATGTATGCGGCGCGTATACAGCAATTATTACAGAAGCGGTATAAAGAGGTTTAA	MNQNVLHHIGYEVLQETFALIRNVFSYSNEDEYSVTYVREIADALHNIPHSIQKQHDKFLEFEFKLLEETLMQMDFEKVAAQNIPYFRMYAARIQQLLQKRYKEV				NA	NA	NA	NA	NA
AK009_07563	585			hypothetical protein	ATGAAACAGGGAATCGTTGGTTTAGTCATACTTGTACTGGTAGGTATTAGTTTATGGTTATGGAATCAAAATCGTACTTTACAGCATAAAGTCGAGCAAACAGAAAAGAAATGGACGAAACAAGTAAAAGAGCTAAAAACAGAGAATCGAGTATTAGAAAAGCGCGTGGCAGTTTTAACAGAAAATACACAAGATAAGGGGCAAGAAGTGGCGAAACAGTTCGTAGAGCTGTTGATAGAGAATGATAATAAGCAAAAAGAAAAGCCAGGAATTGAGAAAATCAAAGAAATGATAACAGGAGAAGCACGAAACAAATTATTAAACACGCCAGAGGAAGAACATAAACATATAGAAGATGATGGCTCTATGCATATCCAAACGAAAGCAAAGATAACAGATATGTACTACATCAAAACCGCTGATAATAAAGCGGATGTAACGGTTAAATATGATTATCTTGTAACGATAGATGGAACAGAACAACAAGAAAAACACACCATGAAATTAAATTTATTATTAGAAGGTGACAAGTGGTTTGTAGAAAATTACGAGTTTCAAATCAATACAGGAATTGAAGGACCATAG	MKQGIVGLVILVLVGISLWLWNQNRTLQHKVEQTEKKWTKQVKELKTENRVLEKRVAVLTENTQDKGQEVAKQFVELLIENDNKQKEKPGIEKIKEMITGEARNKLLNTPEEEHKHIEDDGSMHIQTKAKITDMYYIKTADNKADVTVKYDYLVTIDGTEQQEKHTMKLNLLLEGDKWFVENYEFQINTGIEGP				NA	NA	NA	NA	NA
AK009_07564	1128			hypothetical protein	ATGAGACCAGAAATAAAAGAAGTTGTAGATAAAACGGTACAAGAAGAGATTGCACAAGAACAAAAAAAGAAGAAGAAAAAGAAATCCTGGTTACTGACATTTCTTTTTGGGAGTTCTACTTTCACGATAGGATTGTTCGTTTGTATTGGATTTCTTTTATTTATCGTTTTGGGGCAAGGCATTGGCAAAAAAGAAGAGGAAGCACCAGCAACCATCCCAAGTAATGGCATGACGGTCTGTCGTCCAGGTGGAAAAACAGTGGCACCAGAAGAACTACAACCCCACCTGGGCGGCGTTTTTACAGGGAAAGCACAGGCCTTTTTAAATGCAGGAACACAAAACCAAATCGATCCTGTTTTATTAGCGGCCATTGCGAGATTAGAAACGGGTAATGGTACTTCTAATGCAGTAAAGAACTATAACAACCCAGGCGGCCTTATGGACCCTAGCAGTTCACAAATGAAAGGGTTCATGAAGTTTGCCACTTTAGATGAAGGAATCAACGCTATGGCTCGAAATTTATATAAAAACTATATCGGTATGGGGATTACAACTATAGAAGCAATTGGAGCGAAATATGCACCGCCAGGAGCCGCAAACGATCCGCATGGTACAAATGGTTTATGGCCAGTATTAGTAACAAAATTTGTGGCGCAAATGGGCGGCCTTACTTTCAATTGTGAAGCTGGAAAACCAGGCGGCGTTGTAGATACGGGATCAGCAAGCTCACAAGGGTTTATTCGTCCTATTGCTCAAACAACGATTACAAGTCCATTTGGACCGCGCTGGGGCACGATTCATAAAGGTATTGATTATTCTTGCCAGGACGGTGTCACTCAAATTGCCGCGTCGAAAAGTGGCGTTGTAGAGTGGGCGAAATTTGGCGCTTCTGGTTCTGGTTTTGGCGGATATGGAAACGTAGTTGTCATTAATCATGGGAATGGATATTGGAGTTTATACGGTCATATGTCGTCTATTACTGTACAGGAAGGGCAAAACATTGGAGTCGGTCAACAGGTAGGCGTTTGCGGAAGAACAGGGCAGGTAACAGGGCCACATCTTCACTTTGAGATCAAAACATCTTTGATGTTTGGTCAAGTCGACCCAGCACCGTATTTGCCGAAATAA	MRPEIKEVVDKTVQEEIAQEQKKKKKKKSWLLTFLFGSSTFTIGLFVCIGFLLFIVLGQGIGKKEEEAPATIPSNGMTVCRPGGKTVAPEELQPHLGGVFTGKAQAFLNAGTQNQIDPVLLAAIARLETGNGTSNAVKNYNNPGGLMDPSSSQMKGFMKFATLDEGINAMARNLYKNYIGMGITTIEAIGAKYAPPGAANDPHGTNGLWPVLVTKFVAQMGGLTFNCEAGKPGGVVDTGSASSQGFIRPIAQTTITSPFGPRWGTIHKGIDYSCQDGVTQIAASKSGVVEWAKFGASGSGFGGYGNVVVINHGNGYWSLYGHMSSITVQEGQNIGVGQQVGVCGRTGQVTGPHLHFEIKTSLMFGQVDPAPYLPK				NA	NA	NA	NA	NA
AK009_07565	399			hypothetical protein	ATGAAACACTGGGGATTAACGTGTATGAAAATGGTGAGTATCAGTATTTTTCTCTGTATTGGGTGTTTAGGATGGATGAACATAATCATTCTTTTCATACAGAGAGAATGGCCGACAGATTTATTAGGATGGATTGGTTTAGGGTTACTTATCTGGTATACGCTCATTCTTTTAACTCTCCAAATTATCCATAATGAGTTACGTTGCTCTATTGATGACAGGGCCAAACTAGCCTTTTTTATCTGGTTTGTAGGAATCGGTCATTTTGGATTATTAGACTTTATACAAAACCAGCAATCTACTCTTTTAACGTTACTATTTCATGTTTTAGCGATTATACCTATTCTTTTGGCCCTTACATATGGGCTGATTGTTCGAAAGTATTCCAATCAATCTTGA	MKHWGLTCMKMVSISIFLCIGCLGWMNIIILFIQREWPTDLLGWIGLGLLIWYTLILLTLQIIHNELRCSIDDRAKLAFFIWFVGIGHFGLLDFIQNQQSTLLTLLFHVLAIIPILLALTYGLIVRKYSNQS				NA	NA	NA	NA	NA
AK009_07566	2652			hypothetical protein	ATGAAAAAACTTTTCTCTATTTGTATGATTCTTGCATTCTTCTTACTACCGTTAGGGTCCCATGTGGCCCTAGCGGAAGATACAAAAACAGAAGAAAAACAGGAACAAAAAGGAGCGCGAATCTCTGAAAATCTATTTAGTGGGTACACAGATGGGATTTACAAAGATAAGTATTACGAAATCGACACATATCAACCAAAGGAAGAAGATAAGAACGTATTTCAAAAAGTTGGTGGATACTTATTTGGTGATGATAGTGTAGGGAAAGACTTACAACGGATGCTGTATACAACCTGTCAATGGTTTGCGAACATGGCGTTTCAGTTAAATGTAATTCTTGGCCAGTTAACAATTTTTTTAGTCGATCAAGCATTGAACCTGGATATTGTAGATACCGTAGCGGATAAATTAGGTGCGGCTATGCAAAATATCGCTGGTATTGGAAAAGGCGGTTTTTCATCTTCTGGACTATTCCCAGCAATTATCGGCATTGCTTGTGTGTTATCGGCTTGTTATGCGGGCTATATTTTCTTTATTAAGCGTCAGCCCTCAAAAGGTTTAAGTGAGTTAGTGAAAACGGTTTTGGTTATCGCTTTTATTGTTACGTACATTGGAAATGCAGGTACGATTTTAAAGAGTGCAAATACGATTAGTTCTGAAATTAGTGTAACGGTATTAGCAAAAGCAACAGGAACGGTTGCAGGTGATCCAGGACGTTCCAAAGTGGATGCAATCTTTTCAGTGAAAAAGCAGATTTGGGATTTGTTAGTTGAACGACCATATTTGTTTCTACAGTATGGGGAAGATTCAAAAGAAAAATTGGGAGCTAAACGAGTAGATGAATTATTGGCAAAAGCGCCAGGTGAAGATCGTATAAAAATAGTACAAAAAGAGGTAAAGGATCAAGGAAACCAAATGATGGTTATTTCCTCTGTAGGAGAGCGCCTTGTATTTACAGTCATGTATTATGTCGTGAATACATTCGCAGGTGTTCCAGTAATTGCGTTTTGTTTATTGATTGTAGCATTCCAATTATGGTTCCTTGTCATGAGTATTATCTCACCAATTGTTATGGCGGTGGCTCTATTGCCAGGACACCGCAGAGTCATTGAAAGCTGGGCTTCACAATGGATTCGCCCATTGGCATTAAAAATCTTTATGTCAGTTATGCTTGTTATCATCTTTACAGTGGCAGAATTACTGTATGTATTACCAGAAGCGGGCGTTGCAGGATATGTGTCTACAATGATTTTCCAAATTCTTGTTTTCGTTTTATGTTACATCTTTAGAGGAAATATTGTTGCGGCCTTTAGTCGAGCACGTGGCGTGTATGAAACGGTCACAAATATATCTCTTATGACTGAAAACTTTGTAGATAAGGGAAAAGAGTATGCTGGAAATACAATGTCTTATATTGGAGACAAAATGGGAATGCATTTTAACAACGCGGCTGAATTGGCGGCGGCAGGCGGCCAGTTAGAAAATGCAGGGACAGACGGCGAAAAGAAAAAAGCCAACCCGTTAGTGCAAGCGAATATACCGAATGATTTACCAAATAATCAAACGGAACAAGAAAAAGAAGAGAATAAAAAGAAAGGAAAGCTTATTTCCTTACAGGATCGTGATAAAGAAGGGAATTTACCACAGCAGGAAGAGGAAGGAAAAGAACAAACGATACCAGGTGAAGAAGAGGCACCAATGCAACAAGACCTTATCAGTTTAGATAAAGAAGCATTAGAACAGGAAGTAGAAGGACAACAAGAAGGAACAGAGGTAGAAGAATCAGAAATGGACGTTCAACCAGAACTTGTATCTTTAGAGAATGAGGAAATTCCAACAGTGGAAGAAATACCAGCTGATATAGAGGGATATGAAGAAATTCAACCAGAATTACCAGAACAAGAGGTACCATTAGAAGAGGTTCCAACTGATATGGAGGCATACGAAGAAATCCAACCAGAATCACTAGAACAAGAAATACCACTAGAAGAAGTTTCAAGCGATATGGAGGCATATGAAGAGATTCAAATAGAAGTACCAACACAAGAACTTCCATTAGAGGAAGTTTCAACAGATCATGAAGCATATGAAGAAATCCCATCCGATATCCCACAACAAGACATTCCAACAGAAGAAATTCCGATCGATATTTCAAGAGAAGAAATACAGCCAGAACAGGAAACTTCAACACATATTCCACAACAAGAAATCCCAACACCAATTGAAACAGAGGCAAATGATCCTTTAATACCAGATACAATTCGTGCAGATGTAAATGAGGAGGGTGTCATTGTCCCTCATACACCAGAAACAACAAGTGCAGATATTCCAGATGCTATTCCTGCAGAAGTAAATGAGTCTGGGGAGATTGTTGCAAAAAAACCTAATATAGATGTCGAGTCAACTGTACAAGAAATAAATTCTTCTGACTCATTTATCCCAACGGAATCCATTTCCCCTACTGATTTAACACGAGTAAATGAGAAAGAAGTAAGCAAAAATGAACCGATTCAAGGAGAAGCGGAAACAATCGATACACCAGATATACAATATGGAGCTGTAGCCGCGGGAAGTGAAAATTGGATGCCTTCTACTGATCCGCAAAACTTAGATAACTTAGATGATTTGGAGCCACAAAAAAAAGATGAGTAG	MKKLFSICMILAFFLLPLGSHVALAEDTKTEEKQEQKGARISENLFSGYTDGIYKDKYYEIDTYQPKEEDKNVFQKVGGYLFGDDSVGKDLQRMLYTTCQWFANMAFQLNVILGQLTIFLVDQALNLDIVDTVADKLGAAMQNIAGIGKGGFSSSGLFPAIIGIACVLSACYAGYIFFIKRQPSKGLSELVKTVLVIAFIVTYIGNAGTILKSANTISSEISVTVLAKATGTVAGDPGRSKVDAIFSVKKQIWDLLVERPYLFLQYGEDSKEKLGAKRVDELLAKAPGEDRIKIVQKEVKDQGNQMMVISSVGERLVFTVMYYVVNTFAGVPVIAFCLLIVAFQLWFLVMSIISPIVMAVALLPGHRRVIESWASQWIRPLALKIFMSVMLVIIFTVAELLYVLPEAGVAGYVSTMIFQILVFVLCYIFRGNIVAAFSRARGVYETVTNISLMTENFVDKGKEYAGNTMSYIGDKMGMHFNNAAELAAAGGQLENAGTDGEKKKANPLVQANIPNDLPNNQTEQEKEENKKKGKLISLQDRDKEGNLPQQEEEGKEQTIPGEEEAPMQQDLISLDKEALEQEVEGQQEGTEVEESEMDVQPELVSLENEEIPTVEEIPADIEGYEEIQPELPEQEVPLEEVPTDMEAYEEIQPESLEQEIPLEEVSSDMEAYEEIQIEVPTQELPLEEVSTDHEAYEEIPSDIPQQDIPTEEIPIDISREEIQPEQETSTHIPQQEIPTPIETEANDPLIPDTIRADVNEEGVIVPHTPETTSADIPDAIPAEVNESGEIVAKKPNIDVESTVQEINSSDSFIPTESISPTDLTRVNEKEVSKNEPIQGEAETIDTPDIQYGAVAAGSENWMPSTDPQNLDNLDDLEPQKKDE				NA	NA	NA	NA	NA
AK009_07567	510			hypothetical protein	ATGAAAAAATTACGTATGTTATCTGGATTATGTGTAGCAGGAATGTTGATGGTAACGGGTGTTGCGGGTTGCTCAAATGAAACCAAAAGTAATGCAAATCAACAAGAGAGCCAGAAAGAACGTGATATGAAAGAATCAGATAAAGCCGCAGTTGCTTATTTAAAGGCTTATATTGAAATGGACCGAAAAAAATTAAATGAACTACAGTACAAAAAATATGATTTTGGAGAGGATCGAGTAAAAAATCCAGACATTAGTAAAGAAATGAAAGAGCGCTACGATTTGTATAGATATGATTTACAAGAGGGTGAGGATGAATTTTATTACAGAATAAAATTTTATGATCCTGTAGAAAAGGCTCAAATGGGGTTATACCTCCGAATGGTTAAAGATAAAAAGGATAATAAGTGGAAAAATTATGAATGGGCATGGGATTCAACAAATAGTCTTAATTCAATTGTGGGAGATGTTAAACCTGTACATGTCCATAAATGGGGGCAAAAGGAATGA	MKKLRMLSGLCVAGMLMVTGVAGCSNETKSNANQQESQKERDMKESDKAAVAYLKAYIEMDRKKLNELQYKKYDFGEDRVKNPDISKEMKERYDLYRYDLQEGEDEFYYRIKFYDPVEKAQMGLYLRMVKDKKDNKWKNYEWAWDSTNSLNSIVGDVKPVHVHKWGQKE				NA	NA	NA	NA	NA
AK009_07568	2571			hypothetical protein	ATGTTGAAAAAGATGAACAGACCACCATTAAAGCACGTTGAAAAGAATTTAGCGTTTAGTACAGACGGAAAAGTATCCGCAGTGTATGAAGTAGACGGATTTGAATACGATCATCAAGACGAAAGTACGAAAAAAGTATATTATCGCAATCAACTCGCTCTATTTACCCATCAAGAATATGATATCCACTTGCTTGTGATTCCTCGTACAACAAATTCAGATGAAATTCTGGATGAACATATTTCCACTTTAAAAGGGCCGATGGCACCAACAGGACGCTTTCTTTTCAAAAAGGTAAAAGAATACTTACGAAATGCGGCCATTGCGAAAGAGAACATGGAATATCGCTTTTTCGTTTTAGTACAACTGAATATGGAACAGAAAGAAAGACAAATTCGTAACCCTGTCGTAGAAACATGGAAGTTTATGAAGAAGGTTAGAGAAGGATTTGCAGAGACAGCTCAAAACATATCGGGTATGAATGTGACGGATATTTTAGAAGAGGAAATTGAAAATTATTTAGAAGTAGAAGACGTGTTATTTAGCCAGGTTAGAGGGGCCTTTCCTAATACAAGACGTGCGAAACCGTCAACAACGCGCTTTTTATTCCATCATAACTTCAAACGTGGCATGAAAGAGCTGAATCGGGATCAAAACTGGAAAGTAGGTTTTACAGTTACATTACAAAATGAAGAAGGAAAGGCGGTAAAGGTACGCCGTCCAGACTTACAAGAAATGGTGCAATTAACAGATACGGTGATTGATGAAAGCCCAGGGCGTTCTCTTATACTCGAAAGACAAAATGAAGAAGGGGAAATTGAAACCTCTCATGTTGCTTTTCTTGCGGTGAAAGATATGCCCGAAATATCGGCTTTTCCTGGTGGAGAGTGGATTTATCGCATTCAATCTCATTCATTAAAGTTTCCTGTTGAAATGAGTATTCGAGCGTATCATTTAGAAAACCAGATGGTTACCCAAAAACTTTCGAACAGTGAACTGGAATTAAACGATCAACGTCAACAAGCGATGGTAGGTGGTCGCACAACAGATTTAACAATTGATCGTAAAGCAAGAGGCGTCAAAATTGTAAAAGATCGATTTGAAACAACGGGAGCACCTGGATATGAACTAAGTGTACTGTTTTGTGTATATGCAGAAGATGAGAAAACATTAAAATCACGCGTCAATACGCTGATTACAGAATATCGCAAAATGAAAATTGAATTGGTCAATCCATATGGAGAACAATTAGCATACTTCTACGAGTTCTTACCAGGCTCTAAACGTTATAATACGGACTTTAAGTTATTTGTGGAACCAGGCGTACTTGCAATGGGAATGTTCGGGGCCACAACACAAATTGGCGACAATCAAGGGTTTTACATTGGAAAGACAAAGAAATTAAATCGTCCTGTTTTTGTTCGTCCCGAACTAGCCGCGAAAGCATTAGATAACATTGTGACAGCATTTGAGAGTTTATCGGTTATGTTTGCGGGGCAAACAGGGAAAGGAAAATCCTTCTTAATGAACTTACTCGCTTTCTGGATTGTTATGAGTGGCGGAAGAGCATTTATCATTGATCCTAAGGGCGACAGAACAAGGTGGCCCGAATTATTACCAGGGTTCAATGAGGATACCTTGCAAGTATGGACGCTTGGGAAGAATAAAGAAGATGCGGGCTGTTTAGACCCATTTCGAATCAGTGCAACGATAGAAGATGCGAAGAGTTTAGCACTTGAAATTTTGACGTTCCTATCGGATGTAGGTTTAGAGGATATCAGATATGACTATTTATATAAAGCGATTGAACGAGTGGCGGAAAAAGAAGATGCATGTTTAACTTTGGTTCGTAAAGAACTAGTGGAGATGAAGAAAGAACCTAACTTATTGCCAACTGAATTAGAACGGTTAAACGCTCTTACAAATCGTTTAGCAACCTTAGAAGGTATTCAGCTCGGAGATTTATTGTTTGGTAGACCAGGTCAAGATTACCGCGTATTAAGCCTAGAACGGCCATTACAAGTATTGCAAATTCAACATTTACGCATTCCGAAATCAGAGGAAAAGAATGAGAGTGTTACAGACAAATTATCTCGTAGTATCTTAATTGCATTAGCGGCATTTGGTAAATCCTTAATGCATTCCGACCGTAGTATTTTCAAAGTATACCTACAAGATGAGGCATCAAGTATTTTGAAAAATAAAGAGGGTGCGGCGTCTTCTGACAAAATCATTCGAGAAGGACGTTATCACAATATCGGATTGTATTTAGGAACACAAAACGCATCCGATTATCAATCTGAAAACAAAGAGGTTGCCAATGTGGGTATGAAGTTCTGTTTTGCGCTGAAATACGATAAGGAAGCGGAAGAAATGTTGCGTTACTATAACTTACCGGTCACAGAAGAAAATATCTTAATGTTACGCCAGTTACGACGCGGCGAAGCCTTGTTCCAGGATATTTTTGGCCGAACCGCGGTTGTAGAAATTGATCCTGTTTTCCAAGAATTAAAGACTGCATTTGATTCCTCTACGAAAACAGACGAAGAACGCGCACAACAATTGGCGTAA	MLKKMNRPPLKHVEKNLAFSTDGKVSAVYEVDGFEYDHQDESTKKVYYRNQLALFTHQEYDIHLLVIPRTTNSDEILDEHISTLKGPMAPTGRFLFKKVKEYLRNAAIAKENMEYRFFVLVQLNMEQKERQIRNPVVETWKFMKKVREGFAETAQNISGMNVTDILEEEIENYLEVEDVLFSQVRGAFPNTRRAKPSTTRFLFHHNFKRGMKELNRDQNWKVGFTVTLQNEEGKAVKVRRPDLQEMVQLTDTVIDESPGRSLILERQNEEGEIETSHVAFLAVKDMPEISAFPGGEWIYRIQSHSLKFPVEMSIRAYHLENQMVTQKLSNSELELNDQRQQAMVGGRTTDLTIDRKARGVKIVKDRFETTGAPGYELSVLFCVYAEDEKTLKSRVNTLITEYRKMKIELVNPYGEQLAYFYEFLPGSKRYNTDFKLFVEPGVLAMGMFGATTQIGDNQGFYIGKTKKLNRPVFVRPELAAKALDNIVTAFESLSVMFAGQTGKGKSFLMNLLAFWIVMSGGRAFIIDPKGDRTRWPELLPGFNEDTLQVWTLGKNKEDAGCLDPFRISATIEDAKSLALEILTFLSDVGLEDIRYDYLYKAIERVAEKEDACLTLVRKELVEMKKEPNLLPTELERLNALTNRLATLEGIQLGDLLFGRPGQDYRVLSLERPLQVLQIQHLRIPKSEEKNESVTDKLSRSILIALAAFGKSLMHSDRSIFKVYLQDEASSILKNKEGAASSDKIIREGRYHNIGLYLGTQNASDYQSENKEVANVGMKFCFALKYDKEAEEMLRYYNLPVTEENILMLRQLRRGEALFQDIFGRTAVVEIDPVFQELKTAFDSSTKTDEERAQQLA				NA	NA	NA	NA	NA
AK009_07569	549			hypothetical protein	ATGAAGGAAAAAGAATCAAAATCTATCATTGTCTATTGTTTCGGAAGCTATATGAACTATATGCGAAGACAGTACGAAATTATGGGATATCGTCTTCCGCGTGCGGTTACATGGAGGGCACTTGGTTATTTTGCGGCGGTAGAAGCGGGGCTTGTAGCCTTCCGCTTCCTTCCTCCCTTTAAATGGATATTTGGGGATATGATCGATCAAGTTTGGCTCATGTATTATGGTGTGATTCCTCTTTTCCTCGTATGGGGAGCAGATAAATATAAAACGGATGGAAAATCACTTTTCTCTTTTGTTCGGTCCTGGATCACATTTCGTTTACGGAAGCATCAAAGTAGTCGTTTGGTGAATGTACCCAAACTAAAAAAACATGTGTTTTATGGTCATGTATGTGTACAACATGACGTTAAAGATTTACCAATCGTACATTCATTCAGTGAAGAAGAGAACGACATACACGCTTATGATGTAACATTTTTACCCCAAAAGGAGGAAGTTGAATATGTTGAAAAAGATGAACAGACCACCATTAAAGCACGTTGA	MKEKESKSIIVYCFGSYMNYMRRQYEIMGYRLPRAVTWRALGYFAAVEAGLVAFRFLPPFKWIFGDMIDQVWLMYYGVIPLFLVWGADKYKTDGKSLFSFVRSWITFRLRKHQSSRLVNVPKLKKHVFYGHVCVQHDVKDLPIVHSFSEEENDIHAYDVTFLPQKEEVEYVEKDEQTTIKAR				NA	NA	NA	NA	NA
AK009_07570	252			hypothetical protein	ATGTATATGTTCAATATAAATCACTTTGTGTTAGGAATCGGGTTAGAAGGATTTTTCGAAATGATGAAGACACAAGGAACATACGCGTTATATTGTGCGTTTATCATTGTTATCTTGATCGTAGCGGCAAAGCGCGCATGGGGAAAAGCGATTACGTTAATTGTTGGCGGCGGGATTGTTGTATTCTTCATTAACAAACCAGATGCACTAAAAACAATTGGAACGTGGTTAGGCGGATTGTTTGGCGTCTAA	MYMFNINHFVLGIGLEGFFEMMKTQGTYALYCAFIIVILIVAAKRAWGKAITLIVGGGIVVFFINKPDALKTIGTWLGGLFGV				NA	NA	NA	NA	NA
AK009_07571	978			hypothetical protein	ATGGTTCAAAAGGTAAAACAGTGGTTCGCAAAAACATTTGAAAGTAAACAAGGGAAGGCAAGGAAAGCGACAAAGATTCCATCCTATAAAGGCCGCTTAATTGGAAAATGGGCCTTTTGGCTCCTGTTTTGTTGGATGCTCATCGTATCCGTCACAACCGTAGTAAAAGGAAAGGAAGATACACAAGCAAAGGCCAGTACCACTCCAAAGGAAGTCACACAAAAACAAAACCTTGCTACACGTCCAGAAGCGATTGAATTTGCGCGTGGATTCGCAAAGGAATACTTTACGTGGCAAAGAGGGGATGAGGGCAAGAAGAAGCGTTCAGAGCGCTTACATCCCTATATACCGAAAACATTTGATCCGCAAGTTGGTTTAGATTTTGTAAGTATGCAATGGGATTCCAATTTTCTATACGCAACTGTATTAAGAGTAGATGAGGTTACAGATAAAGAAGCAAGCGTAATTTTTAAAGTGAAATACAAATTAAGCCGTATGAAAGCAGATAATAGCGGGCCAGAGGATAAGGAGGTGATCCAGCAAGTGTCGGTTCCTGTTCGGACAGATGGAAAGGCTTTTGTGATTAGTGGATTCCCTCAAATCGTCAAGGTGAATGAAAAAGCAGAAGTACCAGAAGAAAAAGCAGGAAAAGAACGAGAGGAAATTCATGAAATCACTGTAAAAGAAGACATTCGAGAATTTTTACCAACCTTTTTTAAATCCTATACCACCGCAACACAAAAAGAACTCGCGTATGTTTTAGCCAATACAGATATTAAAGGGTTAGAAGGAGCCATGAAATTTGAAAATGTACTTTCCTCTAAGATTTATCCAGGAAAAACAAAAGGCACATATGAGGTACAAACAGAGGTATCTATGATTGATCCACATTCTGAATCGAAAATGAAAACAGGTTATACGTTGTTTGTAAAACAAGATGGAAAGCAATGGATCGTAACAGACTTAAAAACAAAATAG	MVQKVKQWFAKTFESKQGKARKATKIPSYKGRLIGKWAFWLLFCWMLIVSVTTVVKGKEDTQAKASTTPKEVTQKQNLATRPEAIEFARGFAKEYFTWQRGDEGKKKRSERLHPYIPKTFDPQVGLDFVSMQWDSNFLYATVLRVDEVTDKEASVIFKVKYKLSRMKADNSGPEDKEVIQQVSVPVRTDGKAFVISGFPQIVKVNEKAEVPEEKAGKEREEIHEITVKEDIREFLPTFFKSYTTATQKELAYVLANTDIKGLEGAMKFENVLSSKIYPGKTKGTYEVQTEVSMIDPHSESKMKTGYTLFVKQDGKQWIVTDLKTK				NA	NA	NA	NA	NA
AK009_07572	255			hypothetical protein	ATGGATATATTGGAAGGTTTGGAGTTTGTAAGGGAGTTTCGGGCTACAGATGGAACGTCCTTTGAAGTGGGAAGGGATGAAGACAAACGGTATGTGGTCCATGCTAGATTTCCATATATCACAGGCAGTCAAACGAAACTCAACAATTTTATCAATTATGCAAGAAATGAAATAAAAGATGAATCAACAGCGGTTGGCATGGCGTCATTTGCTTGTGATTGCTACGAACGATCTTTACGCCAGTACCGAAATTGA	MDILEGLEFVREFRATDGTSFEVGRDEDKRYVVHARFPYITGSQTKLNNFINYARNEIKDESTAVGMASFACDCYERSLRQYRN				NA	NA	NA	NA	NA
AK009_07573	216			hypothetical protein	GTGTTTCGGTTTATTTTATCGATAAGCGCCAGTATTTTTCTGTTAATTGTCTTTTCAGATTGGTTATTTGAAAGAGTACCAGGATCAAGAGAAGCCTGGGAAGTGGTAAAAAGTAAGGTGGTGGAAATTTACTATACGCAAGGATGGGAAGGCGTGTTACTTCTCTTCCTGGTGGTAGTGGGGATATGGAAGATGGCCGATCATAAGGGGGGATGA	MFRFILSISASIFLLIVFSDWLFERVPGSREAWEVVKSKVVEIYYTQGWEGVLLLFLVVVGIWKMADHKGG				NA	NA	NA	NA	NA
AK009_07574	843			hypothetical protein	ATGTGCAGTATGTTGTTATTGGAAGAAGACCAAAACTTACTCATGGATATACACAATCACATCTATGTTGATATGGAGTATATAACAGAAAAAGTATATCCGAACCATAAGAAAAAATCAGTATACTACCGTTTGAATCGTTTGGTACAAGAAAAATATTTAAAAAATGAATTACTTCCCATACCTGTTTCAAGAAACCAGGTTCGTAAATCTGGAAGACCGCAAAACGTATATACGCTTGCGGCAAAGGGAGTAGAAACAGTTTGTGGATTAAGAGGGAGTGTACATTGGAAAAGTAGTTGGTCCCAACGTTCGGCATCCTTTGTGTATCACAGTTTAATGTTAGCAAAGATTGAATGTGCCATGACATTAATATCGAAGAGAGAAGAAAGATTGGAACTAAAGGAATGGATTAACGAACCGCGGGCTACATTCCAATATGCAAAAGGAAAAAATCGTGTCATACGCCCAGACGGGGTTGCGGTAATTGGATTAAAAGAAGCGATTGATAAAAACATTGGTGTATTCATGGAAATGGAACGTTCTTACGGATCAAAAGAAGTATTAGAAAAAAAGATCATCCGTTATAACGATTTCATGACGCAAGAAGGAAAAAAGGCAGACTATCGGACACATGCTGGTATGGGATATGAAATACCGATATGGCGCCTGGTATTTGTTGCAGGTAGTGAAAGTAGGGAAAAAGAATTGATTCGCTACTTAAAAGGGGTAAGCAGTCCAGAAATTCCAGTTTACATCACACTGTTTCAAGATATATTGCAAGACCCATTCGGGAACATTTATCGGAATATTCAAAATCCAAATGAGAAAGTGAGGTTCTAA	MCSMLLLEEDQNLLMDIHNHIYVDMEYITEKVYPNHKKKSVYYRLNRLVQEKYLKNELLPIPVSRNQVRKSGRPQNVYTLAAKGVETVCGLRGSVHWKSSWSQRSASFVYHSLMLAKIECAMTLISKREERLELKEWINEPRATFQYAKGKNRVIRPDGVAVIGLKEAIDKNIGVFMEMERSYGSKEVLEKKIIRYNDFMTQEGKKADYRTHAGMGYEIPIWRLVFVAGSESREKELIRYLKGVSSPEIPVYITLFQDILQDPFGNIYRNIQNPNEKVRF				NA	NA	NA	NA	NA
AK009_07575	2826			hypothetical protein	GTGGCGCACAGCAAGCTTGACAAAGAAATTGAAAACTTCATAGAAAAGAACTGGAAAATGCTTTTAGGTATAGGGGCTGTCGCATTTGTCTGGTTTTCTAAAGAAAAAATCCTTACAGAATTGATGAAGCTGGTGCCAACTGTAGTCGGTGTGTTTCGTGGGATTGCTTTATTGATCCTGTTAGGAATTATCATACGAATTGTCTTACATGGCATCTATTTATACCTAGAAAAGAAGCGGTATCGATATGTATTATTCATCCCTCACATCGATGATGAAGTTACAGCAGATAAGCTAGGACAAATGGTTCGGCATGTACATGGTTCGGGAAGAAAACCTTTAGAACGTCTGTTAAAAGGTCGCGATTGGTATCGCATGACGATGTATCGTCCAGAGGGAGAAAATGAGCGTGTTCGCTTTTATGTAGGTGGTCCAAAAGATAAGATCAAACAGGTTGTGCAAGCGATACAAAGCGCCTATACCCACAGTGAAATTTATACCGTCCCAAAGGAAGAAATGCCATTTCCAACAAGAAAAGCGGTAGGAGGACGGATGGTATTAAAGAGAAAGCGGCTAGATGCCACGTTATCACTCGCACGCTATACACGTGATGTATTACCGATGTTAGGAAGTGCAATGGAAGAAAAGACATGGGTTGATGTTGCTTTTACACCAGATAACGGGTATCAGCTGACAAAAGGGATTCGAAAAGCAGAAAAGGTCATTCGAAAGAAGAAAAAGCATGGGTTAGATGCCTTTGAAAAAGAAGAAATTCGCGCATTAAATAAACGATTTGCAAAAAATGAAGTGGCGTTTCAAGTATCTGTATCATTCGCAAGTGATTATTATCCTGGTGTACCTATTATCAAGAATTTAGGACATATGGTAGCAAGTATTATGGCCGATGTGAATGAGCTGAAATACAGAAGGCTTAGACGCAGTATGCCAGCTGTACCACATCCCATATACGGAAAAATGATATGGACGGGATCAGAGCTATTAAACTTGTTCCATCTTCCCAATGTAACAGGGGATAAAAACAGCAAAACAGAGCGAAACATCTTGTATCTAGATAAAGGGGAAAACATGATACCGAATGATTTATTGGCCGAAGGCATTTCAATTGGAAATGTGATGCATCCCTATATCAAAGATCGATTAGTAAAAATCCGAGAAGACTTTTTCAAGAATCATGGCTACATTACGGGGAAAGTGGGATCTGGTAAAAGTACCATTGCCATGAGGTTGATGCAAAGTGTTATTGATAAATGGCTAGAAAACCCGAATGAAGCGGGTGGATTATCTCTATTTGATCCGACAGAAGATTTGGCATATGTAGCAATGAATCGACTATTGAAAGCGGAAAAGGATGGGAAAGAAGTGGATTGGAGTAAGGTTCACTTTATCCGTTTTCGAAACACAGATCATCCACCAGCTTTGAATTTGTTTCATCGTTTTCCAAATGAAGATATCCAAACAGTGGTTGAATCCATTATGGAAATGATTAAGTTAATGATTCAAGGGCAAGCACAACAAACCGAAAGATTACTAAGAGCGATTATTGGGACGTTACTTTGTGATAAGAGTCAAATTCATACCATTTTAAGTATCCCATTATTCATAAGTGATGAACTGTTTCGAGCAAACGTAATAGCCAATTTACAAGGGCCAGAACAAAAATATTACTCTCACTTTTGGAAATATGAAGTAGGAAGCGCATTAGAAGACAGCACACAGGCAATTTTAAACCGATTAGATATCTTCCGTAATACGTTGTATTTAAAGCGTATGTACGGGCAAACAGGATTTTCCTTAGAAATTCGGAAGTGGATGGATGAAGGCCACCTTATCTTTTATGATTTAGCGGGCATGGGAAAAGAAGATACATTACTAACAGTCGGTTACATTTGTAATCAATATCACCGTATCGCCCAACAGCGGCCGCATGGTTCAAAACTACATTTAGGCGTAATAGATGAAGCCCATGACGTGCCAGTACCCGTTCTTCCTAAAATTATTGCGAAGGATCGGAAGCATGGATTTGGATTATGGGTGATTACCCAGCAAGTTTCGGGACAGTTAGACAGAGAGTTAACAGACATGTTAACAGAGGCGGGCGGAAATTACTTTGTATGTAGGCAAGGTCATAATTCCGCGAAAACGTTAGAGGGCATTATGCAAAAGCAATTCCGTACAGAGTATTTGCAAAACCTTCCTAACTTAGTTGTAGCCATACAAACCCAAGATTATATCAGAGGTGAAGCAAAAAATGTATGGTGTACCATACGTGTTCCACCATTAGACCGCTATCTACCAAATGGAAAAGCGGCCAATTACAAAAACGAAAAAGAAATTCATGCATCAAATGAATGGACCAGAGCAAAGATTCATTCTTTAGAGCGACAAAATGGGAAAGCAGGATTAGAGATCGACAAAGAAATTGATGAGTTTCTATATGGAAAAGGCAAGTATCAACAAGCCGAAAAAGTCAATTTAACTAAAAAAGAACCTGTTGTGACATCGGGGCTAGATGAATTAGAAGAAAAAGCACCTTCCAATGAAGAAATGAAAGAATCTGTTTCCGAAACAAAGCCAGTTGAACCCACACATCAAGCGCAAATTATCCCATTTCGAAAACAAGCTACCGAAGCGGTAAAAGTGAAAGAAGAAAAACAAGAAGTGAAACAGCCAGAAACACAAACAAAAGAATCAGAAATAGAACTTCCAGAAGAAACGCCGATCATCGAACCATCAAAAAGTGAGAATGAAATGGAGGCAGTTATGAAAGGAGAAAAAAGCATTTTCGATATGTGGGAAAAGGAGTAG	MAHSKLDKEIENFIEKNWKMLLGIGAVAFVWFSKEKILTELMKLVPTVVGVFRGIALLILLGIIIRIVLHGIYLYLEKKRYRYVLFIPHIDDEVTADKLGQMVRHVHGSGRKPLERLLKGRDWYRMTMYRPEGENERVRFYVGGPKDKIKQVVQAIQSAYTHSEIYTVPKEEMPFPTRKAVGGRMVLKRKRLDATLSLARYTRDVLPMLGSAMEEKTWVDVAFTPDNGYQLTKGIRKAEKVIRKKKKHGLDAFEKEEIRALNKRFAKNEVAFQVSVSFASDYYPGVPIIKNLGHMVASIMADVNELKYRRLRRSMPAVPHPIYGKMIWTGSELLNLFHLPNVTGDKNSKTERNILYLDKGENMIPNDLLAEGISIGNVMHPYIKDRLVKIREDFFKNHGYITGKVGSGKSTIAMRLMQSVIDKWLENPNEAGGLSLFDPTEDLAYVAMNRLLKAEKDGKEVDWSKVHFIRFRNTDHPPALNLFHRFPNEDIQTVVESIMEMIKLMIQGQAQQTERLLRAIIGTLLCDKSQIHTILSIPLFISDELFRANVIANLQGPEQKYYSHFWKYEVGSALEDSTQAILNRLDIFRNTLYLKRMYGQTGFSLEIRKWMDEGHLIFYDLAGMGKEDTLLTVGYICNQYHRIAQQRPHGSKLHLGVIDEAHDVPVPVLPKIIAKDRKHGFGLWVITQQVSGQLDRELTDMLTEAGGNYFVCRQGHNSAKTLEGIMQKQFRTEYLQNLPNLVVAIQTQDYIRGEAKNVWCTIRVPPLDRYLPNGKAANYKNEKEIHASNEWTRAKIHSLERQNGKAGLEIDKEIDEFLYGKGKYQQAEKVNLTKKEPVVTSGLDELEEKAPSNEEMKESVSETKPVEPTHQAQIIPFRKQATEAVKVKEEKQEVKQPETQTKESEIELPEETPIIEPSKSENEMEAVMKGEKSIFDMWEKE				NA	NA	NA	NA	NA
AK009_07576	228			hypothetical protein	ATGCATACGAACCGTCATGATTGCTGGGAAACGTTCTGGAAAGAACAAGTAATGGTAGATGGTGAATTAGATATCGAACAAGTAAAGCAAGAACTCTTCAACTATAAAACACTCTTAGATCAAATTAATCAACCTCAAAACGGGATCATGCAACCTCAAATTTTGATTCAACTAGCCGCAGAAGAACGAATAGAAAAGCATCGTGAAAAACGATTCGCCCTTGCATAA	MHTNRHDCWETFWKEQVMVDGELDIEQVKQELFNYKTLLDQINQPQNGIMQPQILIQLAAEERIEKHREKRFALA				NA	NA	NA	NA	NA
AK009_07577	240			hypothetical protein	ATGGTGGAAAATGAAAAGACCGTTGCAGATAAGATACTGGAACAATTAGAAAGGAGAATTGATTTAATCGCCACAAAATTTATGAACGGGAAAAGTGATAGATTAGAAAGTCAAAAAGAATTAGAAGGTATCGAAGGAATCTGTAGAGATATTCTAAATACACTTTATCCGATTGCTGAAGAAAAAACGAAATCCATACATGAGCTGTTTATGAAAACATCGGAATTACTGAAGTTATGA	MVENEKTVADKILEQLERRIDLIATKFMNGKSDRLESQKELEGIEGICRDILNTLYPIAEEKTKSIHELFMKTSELLKL				NA	NA	NA	NA	NA
AK009_07578	189			hypothetical protein	ATGAAACCAATTAAGCATATGCGAAGTAAACGCGGTTTTTATATCGGTCGAGTTCCACATAAAACACATACACCTTCAATAAATAATCGTACACAAGAATGGACGGGAAGAATGGGGAAAAGCATGATTTTCTCTTCCCTCTTAGTCACATTAGACCCATATCATAAAGCTCATAAATTTTATAAATAA	MKPIKHMRSKRGFYIGRVPHKTHTPSINNRTQEWTGRMGKSMIFSSLLVTLDPYHKAHKFYK				NA	NA	NA	NA	NA
AK009_07579	186			hypothetical protein	ATGTGCATATTTGATGTACATTATCAAATCAATGATAGGAAATATACGAAATCATATTTACTTGCATTGGTGGAAGATGGGCTTCAGTTGCGAAAAAATATCCAACATATTCTATTCAAAGAGCACCAACAAGAAATTACAATCCTTTTTACAGATTTAGAAGAATTAGATTTAATAGCTTCATAA	MCIFDVHYQINDRKYTKSYLLALVEDGLQLRKNIQHILFKEHQQEITILFTDLEELDLIAS				NA	NA	NA	NA	NA
AK009_07580	2541			hypothetical protein	ATGGTTTTGAAACGATCGTATCAAACACTACTACTCTTTACGAGTGTACTTTTATTTGTAATGAGCTTCTTGATTCCACTGAATCAAGCCAGTGCGGAGGTAATCAATCGAGAAAGGTATCAGTTGGATTGGGCCTATAGTCCGCAGTATGGGAAAGATGTTCGTACAGAGCTTTTAAAGAATGCTAGTGGTCAAATCGCGTATTGTCTGGTATACGGTTTAAAATCCCCAAATGGAGAGGATTTACCAGAAGCAGGAAAAACAGATGATGTATCCTATCGCGTCTTAATGAATGGGTACCCACAGAAAACACCAGAAAATTTAGGTGTTTTTAATTGGAAAGAAGCCCATTACGCAACCCAATTAGCTCTTTGGAATGCGCTTGGCCAGATTTCCGTTGATGAATTACAGTTCAAAAATGCGGCTGTTGAAAAAGCGGCAAAGAACATCATTCATGCGGCAAATCAAAGCCAGGATACACAAGATGTTTGGATGAATGTCATCCCAACGGATAAACAAGAAGCGCAATTAAACGGTGAATATTTTGAAACAACAACATACAACGTTCAAACAAATGCAAAAAAAGGTACATTCCATGTAGAAATGAACAATGCACCACAAGGCACACGTATTGTCACAGAACAAGGTGAAGTAAAAGAAACGTTCCAACTAGGAGAAAAGTTCCGTATTCAAGTACCAAAATCCTCTAAGAGTAGTGAACTATCTCTAAAAGTCGTATCAAATCTAACGAATGTTCATGCAATCGTATATAAAGGAACAAGTACGATTCAAGATGCAACTGTATTATTAGAGCGCAGTACAGAACAAATAAGCACAGACTTACAAGTATTCTGGAAAGCAAATGGCGCTTTAAAAGTGATGAAAGTGGATGAAAACCAAAAGCCACTACCAGGCGCAGTATTTGAAATCACAAACAGCAATCAACAAGTTACGGGAACGATTACAGCTGACAAAAACGGTATCGCTGAAATGGGTAATTTAGAACTTGGCACATACACTGTAAAAGAAGTGAAAGCGCCTATTGGATATGTGCTAGATGCTACGCCAAAGCCTTTTGAAGTGAAAACAGGTGAAGTTGCTGTTATTGAAATGAAAAATGTACAAATCAAAGGCAACATTGAAATTAAAAAGGTAAGTGACACAGGCAAGATTCTCCCAGGCGTTGAATTTACAGTATTTAAGCCAGAAGGAAAGGCAGTCACAAAAGTAACAACAAATCAAGAAGGGATTGCGAAAGTAAATTCTCTTCCGTTTGGAAAGTATTACTTCCAGGAAACGAAAGGATTAGAAGGTTACTTATTAAATCAAACAAAGTATCCATTTGAAGTAAAAGAGCATAATCAAACACTTACGTTTGAAGTGAAAAACGATCAAGTAAAAGGAAATGTACAGCTTGTAAAAGTAGATGAAGACGGAAAAACGAAATTAGAAGGTGCTGTTTTTATCCTAGCTGATGAAAAAGGTAAGAAGATCAGTGAGCATAAGACAGACAAAAACGGGTTAATCAAAATTGATAATATCCCATTCGGAAAGTACCAATTCATTGAAAAGACATCACCAGCGGGCTATGTGCTGGTAAAAGAGCCGATTCCGTTTAGCATCACTGAAAACGGGAAAACAATTGAGCTAGTTGCAAAGAATACAAAGATTAGAGGGTCAATTGAAATTACAAAAGTAGACGTAGCCGATGGAAACAACAAGTTACCAGGTGCGGAGTTTACGATCTATAACGAGCAAGGCCAGGAAGTCGTGAAAGGAAAAACAAACGAACAAGGCATTGCGAAGTTTAATAAACTCCCAGCAGGAAAGTACACATACAAAGAAACACTTTCACCACAAGGTTATGTGTCACATGAAGAAACATTCTCCTTTGAAATTAAAACAGATGGTGAAATTATTAAACACATCGTAAAAAACAAAAAGATTGAGGGTAGCTTAGAAATTACAAAAGTAGATGTGGCCGATGGAAACAACAAGTTACCAGGTGCAGAGTTTACAATCTATAACGAGCAAGGCCAGGAAGTCGTAAAAGGAAAAACAAACGAACAAGGCATTGCAAAGTTTGAGAAATTACCAGCTGGTAAATACACATATAAAGAGACATTCGCACCAGAAGGATATTTAATCAATGAAGAAACATTCTCTTTTGAAATAAAAACAGATGGTGAGATTATCAAACATGTTGTAGCAGATCAGAAAAAAGAAGTTCCACCAACACCAGAAACACCACAACCAGAGAAACCAGAACAACCAAAACCACAGCCAGAACAACCACAACCAGAGAAGCCACAAACCCCACAGGTCATAGAAAAACCTGTACCAACACCAGAGAAACCACAAAATATTGTAAAACAACCACAACCGATGAAAAAACAACCTAAGAAAGTAGAAAGTCATTTACCAACAACAGGTGGCAAAGCTGAAAATCCATATTGGAAATGGATTGGTGTTACATTTGTCGTTCTTGGCAGCATCCTAGCTGTTTACGCATTAAGAAAACGTAAGAATCAAGAAGTTTAA	MVLKRSYQTLLLFTSVLLFVMSFLIPLNQASAEVINRERYQLDWAYSPQYGKDVRTELLKNASGQIAYCLVYGLKSPNGEDLPEAGKTDDVSYRVLMNGYPQKTPENLGVFNWKEAHYATQLALWNALGQISVDELQFKNAAVEKAAKNIIHAANQSQDTQDVWMNVIPTDKQEAQLNGEYFETTTYNVQTNAKKGTFHVEMNNAPQGTRIVTEQGEVKETFQLGEKFRIQVPKSSKSSELSLKVVSNLTNVHAIVYKGTSTIQDATVLLERSTEQISTDLQVFWKANGALKVMKVDENQKPLPGAVFEITNSNQQVTGTITADKNGIAEMGNLELGTYTVKEVKAPIGYVLDATPKPFEVKTGEVAVIEMKNVQIKGNIEIKKVSDTGKILPGVEFTVFKPEGKAVTKVTTNQEGIAKVNSLPFGKYYFQETKGLEGYLLNQTKYPFEVKEHNQTLTFEVKNDQVKGNVQLVKVDEDGKTKLEGAVFILADEKGKKISEHKTDKNGLIKIDNIPFGKYQFIEKTSPAGYVLVKEPIPFSITENGKTIELVAKNTKIRGSIEITKVDVADGNNKLPGAEFTIYNEQGQEVVKGKTNEQGIAKFNKLPAGKYTYKETLSPQGYVSHEETFSFEIKTDGEIIKHIVKNKKIEGSLEITKVDVADGNNKLPGAEFTIYNEQGQEVVKGKTNEQGIAKFEKLPAGKYTYKETFAPEGYLINEETFSFEIKTDGEIIKHVVADQKKEVPPTPETPQPEKPEQPKPQPEQPQPEKPQTPQVIEKPVPTPEKPQNIVKQPQPMKKQPKKVESHLPTTGGKAENPYWKWIGVTFVVLGSILAVYALRKRKNQEV				NA	NA	NA	NA	NA
AK009_07581	234			hypothetical protein	ATGCTAGCGTCAGAAAATAAAACCGTTGTACGAGAATACAGGGAATCCAAAGGTTTAAGTATTAAGGAAGTTTCTAAAGGCGCTAAAATTCCGATCGGCACATTATATGATGTTGAAATCGGGAGAAGGAGTCTCAAAGCCAATAAAGCCAAAAAAATGGCTGATTTTCTTGAAGTTCCAATCGAGAAACTTTTCAGACCAACATATTATCGTGCAATACCCATCACAGATTGA	MLASENKTVVREYRESKGLSIKEVSKGAKIPIGTLYDVEIGRRSLKANKAKKMADFLEVPIEKLFRPTYYRAIPITD				NA	NA	NA	NA	NA
AK009_07582	393			hypothetical protein	ATGGATAACAATATATTTGGGAAAAATATACGAAAGTTAAGAGCAATGAAAGGCCTTAGTCGAAAAGAGTTTGCTCAAGCCATAAATACACCATATAGTACCGTAACAAGCTGGGAAAATGGAGATAAAGTCCCTAAGATTGAACGTCTACCGACAATCGCGAAATTTTTTAATGTTAGTGAATCAAGACTTTTACACCATCAAATGAGTGATAATGAAATTTTAGAAAAAGATAGTAGTGAAACCGACCCAATAGAACGTATGGCTCAAATTTTGATTGAAAAATATAGAAATGTTCCAGAAGAACACAAACCAAGAATCGAAAAAGAAATTCTTAGGATGGCGCAACTTCTGGAAATTGAAATAGAAATGCAATCGCAACACGAGGAGTAG	MDNNIFGKNIRKLRAMKGLSRKEFAQAINTPYSTVTSWENGDKVPKIERLPTIAKFFNVSESRLLHHQMSDNEILEKDSSETDPIERMAQILIEKYRNVPEEHKPRIEKEILRMAQLLEIEIEMQSQHEE				NA	NA	NA	NA	NA
AK009_07583	141			hypothetical protein	ATGGAAAATATTCAAAATAAAGCTAATTGCGAATCACTTATTGTTCAAATTGTTCAGGCATGTAATGGAGATTTAGAAATCATGGGAAAATTAATTGATTTATATGATAGTACAAACCATTTGGATATTGATTACTCGTAA	MENIQNKANCESLIVQIVQACNGDLEIMGKLIDLYDSTNHLDIDYS				NA	NA	NA	NA	NA
AK009_07584	129			hypothetical protein	ATGAAAAAACTAGCCATTTTATGTACTGTATCATTAATTTTATTAAGTGGATTAAGTATTTCAGAAAAAAATAAGGTCCAAAATTCTAATAATGTGCAATATATGGTCGATCCTGGAGGAATGGGCTGA	MKKLAILCTVSLILLSGLSISEKNKVQNSNNVQYMVDPGGMG				NA	NA	NA	NA	NA
AK009_07585	1170			hypothetical protein	ATGAACTACTGGAATAGGAAATTACAAGAAGAAATTAATAATGCACATAAGACATATGATTGTTTTGCTGTTGAAGCAAAAGTTTCTAAGTCTACTTTAACAGATTTGTTTAAATACAATAAAGAAGTTTCAATGTTTAGTGTGTTTAAAATGGCGAAAGTTCTTTTCCCTGATAGAAGAAACATTCATGAAGAATGTTGTATAAACATTTTTGATCAATATGAAAGAAATGTAAAAATTAATATGAAAAGGTTATTTGTTATCGCTTATCTTAACGGTTATTCCTCGATTTTAAAATATTTAGTTGATTTATCTAGTAGCCATACAGATTATAATGTAAAAAAATATTCTCCACTTTTTAAACTGTTCTATGAACGTCCCAGGGGCGGAAATCCGAAGGAACATCTTTTGTGTTTAGAAGATATTCGAAAAACAGTTCCTAAAAAAGAAAATTTAGATATGGAGATATTTTGTGATATTTTATACTTACTTTCTAGTGGTGATATCGGTGATTTCGGAATGTTTGATACATATAGAGATCGTGTTGTTACCAATATTTCTAAGATTAAAAATCAGGATTTAAAACTACTTTATAATTACTGGATTACTGACATTTGGAGTTATGCTTTATTAAGAAGGCTAAAAGTCAATGAATTTAGAGAACAAAATAGTAAATTAATGATGTATGAAAATATACAATATTTCCCCGTTATGAGTGCGATGAACAATTTGAGGCTAGGAGAGAGTTTTTTATTTTCGGATTATCAAAAGTCATATGATTTTACTTTAAAAGCACTTGAAGAATTAGAAAATAAATGTGATTTTAAGTATAGAATAGCCATAAATAACATGAACTTTTTAAAACTTATACACAATATAGAAATAGATACAATTAACTTAGAACAGCTCCATCCAGCAGAATTAGCGTTGTATTTTGTTTTAAAGAAAGAGTATTTAAAAGCAATAGAAATATTAATGAAATTAAAAAATAAAAATAAAAAACTGACGCCAATTCAGTATTGTTATTTAGGTCAAGCAAAAATGGACCTGGATATAATAGCCGAATCAAAAAAATTATTCATTGAAAATGGTGATTACTTTTTTGCCCAATATGCAACAAAGGCTTATAATGATTGTAAAGAATTGTTAAAATGTGGAGGCGTAAAATGA	MNYWNRKLQEEINNAHKTYDCFAVEAKVSKSTLTDLFKYNKEVSMFSVFKMAKVLFPDRRNIHEECCINIFDQYERNVKINMKRLFVIAYLNGYSSILKYLVDLSSSHTDYNVKKYSPLFKLFYERPRGGNPKEHLLCLEDIRKTVPKKENLDMEIFCDILYLLSSGDIGDFGMFDTYRDRVVTNISKIKNQDLKLLYNYWITDIWSYALLRRLKVNEFREQNSKLMMYENIQYFPVMSAMNNLRLGESFLFSDYQKSYDFTLKALEELENKCDFKYRIAINNMNFLKLIHNIEIDTINLEQLHPAELALYFVLKKEYLKAIEILMKLKNKNKKLTPIQYCYLGQAKMDLDIIAESKKLFIENGDYFFAQYATKAYNDCKELLKCGGVK				NA	NA	NA	NA	NA
AK009_07586	1005			hypothetical protein	GTGCTACTAAATAACTTTTTGCTAAGTACAGCAAAACGAGAATTAAGCCCACAACTGGTTCATGTTCCTACAGGTGCTATTAATAAAACAGTACAAAAAGTAATTAAAGCTATCGATACAATTCTTTTAGATACAGAAGGTAAAACCACTAAAGATTTCTTCGTACAAACACCACGCCGCTATAAGGCATTGGAAGTTGTTTTATCTTACCTAGTACAAGAAGGATACTCTCAAATGAGACAAAATCAAATCAGTGAAAAATCGGGTATTTCTGTACCGATCATCAACTTTATTCTGAATTGGTTAGAGGATCTTCAAGTATGTCATCAAATCAAAACAAGACGTCATGGTAAGATTGCACCATCTATTTACATATTAAGCCTCAATACTAATTATTTAAAAATCATTGAGTATTTTAAGCAAAAATGGGCGTTTTCCATTGATATTTTTTCTACATTTACTAAGTTTCTATCTAAAAAACTAAGTAAAAAACAGGAGAAATCTATAGATCAAACCGAAAAACCTACTGTGCCTACATGCCAGGGAATAGATATATTGGATGCTGTTGCTCCTACAATTGAAGAAGTAGAAGAAAAACAGCCAATGAATGCCCCTGATTCGGTTGAAAAGTTAGAACTACGCTTCCGCAAAATGGATGAGTTTATGAGTGAAGATCAAAAGAAACTTTATATGTATATCATAAGTAAAGATACAAATATCACTGAAAAGGATGCTTATACAATCGCATTACGTATGCCGCCATGCGTAGATTGGGAAGCAAGAAAAACTTTTGAGGACTGTGTACAGCTGTTTGAAGTAAACAAATCGCAAGTAAGTACACCTGCACATTTCATAACAACATATACAAAACAGTTAACTGCAAACAGAAAGCGTAGAGAGCAACAAGCAAAAGAACGCACAACAAATATGGCATTTGGAAAACCAATGAAGAGTCTCATACCATCAATGGATTTATTCAAAAAAATGATTGATCCGAACGCCTAA	MLLNNFLLSTAKRELSPQLVHVPTGAINKTVQKVIKAIDTILLDTEGKTTKDFFVQTPRRYKALEVVLSYLVQEGYSQMRQNQISEKSGISVPIINFILNWLEDLQVCHQIKTRRHGKIAPSIYILSLNTNYLKIIEYFKQKWAFSIDIFSTFTKFLSKKLSKKQEKSIDQTEKPTVPTCQGIDILDAVAPTIEEVEEKQPMNAPDSVEKLELRFRKMDEFMSEDQKKLYMYIISKDTNITEKDAYTIALRMPPCVDWEARKTFEDCVQLFEVNKSQVSTPAHFITTYTKQLTANRKRREQQAKERTTNMAFGKPMKSLIPSMDLFKKMIDPNA				NA	NA	NA	NA	NA
AK009_07587	927	xerC_10		Tyrosine recombinase XerC	ATGACTTGGGAATTTTCCGTTGATGTTTTCCTTGCTGATCTGTTAAAACATGGCCGCAAATCTTCCACCGTTAAACAATACCGCTACGATCTCACCCTTTTCACATCATGGATTCAGAAATACGTCAAATTACCTCCAGAATCGTTTTTTCATTCTTTTGATGCAAATATATTAGAAAGATACTTAAAAGCTCTTAAAAAGGAACGTGGAGCGTCGATTTCTAATATCAAGCGTGTACGAGGCATTCTGATTAACTTTTTACAATTTCATGGTGTGGCCCAGGATTTAAAAAGTGATGTCTCCCCTCCTGGACTAACATCTAAACACTTTGCATCGGACAAAGAAATTAAAAAGCTATTCCGCGTCATGCGTAGTTATAACGGGTTAACCGACTACCAGGCGTCAGGAAGAAAGTTTATTCTGGAACGTAACCTTTTATTGATCCACTTCATGTTAGATTATGGGCTATCTATCCAGGACATTCTCACGCTATCCATGCATGATATACACTTTGGGACAAATACGATTACCCCAGGAGGGCTACACGCCCACAAACGATCCATCACCCTTTCAAAAGAACATATAAAACTTGCCTTATCGTATTACAACAAGATTCCTAATCTTGTTAGACCGCGCCAACAAACGGGCGACCCCTTCTTTGTGGCGTTTGATTTCGGCCCGCAAACATTCCGCTGGGACTATGAAAACGATCAACCCGCCGCTTTAACTCGAATCGCTGTACAACGCATGTTACAAAAAGAAGTAAAACGTGCTGAAATCCATGTAACGCCAACTATGCTACGTAACCGTTTTATACTAAATGCGCTACAGAATGGCATGAAGCCCTTTGAAATTAAAGCGTTTTTGGGATTAAAAAGCGTTGAGGCCCTGCATAGATACGTTCAATTCTGGAATAAACAGCAGTAA	MTWEFSVDVFLADLLKHGRKSSTVKQYRYDLTLFTSWIQKYVKLPPESFFHSFDANILERYLKALKKERGASISNIKRVRGILINFLQFHGVAQDLKSDVSPPGLTSKHFASDKEIKKLFRVMRSYNGLTDYQASGRKFILERNLLLIHFMLDYGLSIQDILTLSMHDIHFGTNTITPGGLHAHKRSITLSKEHIKLALSYYNKIPNLVRPRQQTGDPFFVAFDFGPQTFRWDYENDQPAALTRIAVQRMLQKEVKRAEIHVTPTMLRNRFILNALQNGMKPFEIKAFLGLKSVEALHRYVQFWNKQQ	PGPT0022000_4259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_07588	429			hypothetical protein	ATGAATTTAGGTTCTCAATTGAAAAGGTTTCGTGAATCAAAAAGCTTTTCACAAGAAGATGTGGCTCGAAAGGTTGGAGTGACTAGACAAGCTGTTTATAAATGGGAGAGCAATAAAAGTTATCCTGATATTGATAATTTGATTTTACTTAGTGAATTATATGAAGTAACAATTGATGAGTTAATAAAGGGATCAGAGGATGCTAGAGAGGAGTTAAATAAAAAGGATAAGGATGAGTGTGAAGATGATGAAAATGAAAATGATTTTGGCTTTTTCATAGGTATTGTTCTTATATTTATAGGGATATTTATTGGCATTGAAGGACTTTCTTTATTTATAACTATATTGGGAATGCTGATAATGGTATTTTATAGTGATGTAAAAAAGGCAATTATTACTGAATTTAAAATAAAAAGAAGACCAAACTAG	MNLGSQLKRFRESKSFSQEDVARKVGVTRQAVYKWESNKSYPDIDNLILLSELYEVTIDELIKGSEDAREELNKKDKDECEDDENENDFGFFIGIVLIFIGIFIGIEGLSLFITILGMLIMVFYSDVKKAIITEFKIKRRPN				NA	NA	NA	NA	NA
AK009_07589	756			IS1595 family transposase ISBth19	GTGTGTTCGATTTTTGGCCAAGTCCTATATGTCTTATCCTTTGGAGGAAATATGCTTAAAGATAATTTTAAAATTAGTAATATTCCCACTGTTTTATGGGGAAATAAGAGTGAAAAAATTTTTATTGCAGTACATGGAAATATGTCAAATAAAGAAGATGCAGTTATTGAAATGTTAGCTGAAGAAGCCAATCGAAAAGGTTATCAAGTATTAAGCTTTGATTTACCTGAGCATGGAGAAAGAATAAATGATAATACTCCTTGCAAAGTACAGTTTTGTGTTAATGAATTATCTATAGTTATGAATTACGCAAAAGAACATTGGAAAGAGGTAAGTGTGTTTGCATGTAGTATGGGAGCTTATTTTAGCCTTTTAGCCTATCAAAATGATGTGTTAGAAAAGGCATTATTTTTATCACCAGTAGTTAATATGGAACGAATTATAGAAAATATGATGAAATGGTTTAATGTAACACCAGAGCTTTTGCAAAAAGAAATGACTATAGAAACACCTGTTGGTCAAAAGTTATATTGGGATTATTTATGCTATGTAAAAGAACATCCTATTAATATGTGGAATACAGATACATATATTATGTATGGAGCCAAGGATGAACTGTGCGAATTTGAAATTATTAACTATTTTACAAAAAAACATCATTGTGAATTAGAAGTCATGGAAACAGGTGAACATTATTTTCATACTGAAGAGCAGTTAAAGGTATTTAAACAGTGGTTACACAAACATATCGATTAA	MCSIFGQVLYVLSFGGNMLKDNFKISNIPTVLWGNKSEKIFIAVHGNMSNKEDAVIEMLAEEANRKGYQVLSFDLPEHGERINDNTPCKVQFCVNELSIVMNYAKEHWKEVSVFACSMGAYFSLLAYQNDVLEKALFLSPVVNMERIIENMMKWFNVTPELLQKEMTIETPVGQKLYWDYLCYVKEHPINMWNTDTYIMYGAKDELCEFEIINYFTKKHHCELEVMETGEHYFHTEEQLKVFKQWLHKHID				NA	NA	NA	NA	NA
AK009_07590	567			hypothetical protein	ATGTTTAAGAAAATGATAGTAAGTACCTTAGCAACAGGTTTATTATTCTCGGTTAGTGGAAATGCATTTGCTGAATCACCGGATTATGATTCGGTGAAGTCCGAAATCAATACTGCAGTCAAGGAATCAGAATTTAAAGATATAGCGAAGATGCCTATAGATATGAAAAAAGTAACTTCTACCGATCCGTATAATTTAGATGAAAAGAAGGGGAGAGTACATAAAGGTTTTGATTTTGCAGCACCACAAGGGACAAGAATAGATGCTGTTCAATCTGGTAAAGTAGTCTTTGCTGGATTTGGAAGTAAAGATAATGGATTCACTAGTTATGGTAATGTAGTAGTTGTTGAGCATACTTATAATAAAAAGAAACTTTATACTTTGTATGCTCATATGAGTAAGATGTCAGTGAAGAAAGATGAAACGGTAGAGGCGGGCCAAAAAATAGGAGAAGTTGGTAAAACAGGACAAGCGACAGGCAATCATCTCCACTTAGAAGTAAGAACAGATAAACTTCATGGTGAACGTGTAGACCCAACAAAATATTTACCACCATTTAAAAAATAA	MFKKMIVSTLATGLLFSVSGNAFAESPDYDSVKSEINTAVKESEFKDIAKMPIDMKKVTSTDPYNLDEKKGRVHKGFDFAAPQGTRIDAVQSGKVVFAGFGSKDNGFTSYGNVVVVEHTYNKKKLYTLYAHMSKMSVKKDETVEAGQKIGEVGKTGQATGNHLHLEVRTDKLHGERVDPTKYLPPFKK				NA	NA	NA	NA	NA
AK009_07591	1167			hypothetical protein	ATGAAAATTACTATGATGAATAAGGATTCTGGTAACTCACTTGATATGAACTTAATTGATGGTTTCTATATCGAAACTCCTACAAACGTAGTAGAAATCAGTAAAGATGAAGCTGACTCTCATTTTGTAGCAACCATTACTAATCCTAAAGAATTATTATCTCGCCTACTTATTTCAACAACAATCCCAGGAGAAGACACTGAACGATTCTTCTTAGTTGGCGACGAAGCTGGAAAACATGCATTAGCTAACAATCATGTCAATAAACTCCATGATAAAATTACAAGTCCTATCCCTTACGTAATGTTTTTATCAGCTGTTTCTTTCTATCATGCTATTAATGAAACTCGCGAATCGGATGATAATACAGTTGAAATTGAATATTTCCAAACAATGTTACCTATATGGTTATTAAAACGAACAGCCAAATTTAGTGAAGCCCAAAATGCAATGGCGGAACGATTTGCTGGAGAGCATGAAGTTACAATACATACACCAGGAATGGAAAAAACATTAAAAATAACTGTAGAAAAGGCAACTTGTCGTATCGAAGGAGAAATTGCACGTTTAGCAATTAAAAAGAATTTTGAATTAGAAGATCGTGAAGAGGCAAGACAATTCGATAACAACGATACAGTACTTGTTGATATTGGCGGCGGAACGATTGATTTAGTATTATCACCAGCCGGTTTAAAATCACCTAAGAACCGTGATTCAATGCAACCAATAGACAAATTATCTTATCTATCTCACATTGAAAAATTAAGAAAAGAAAAGTTCCTAGAAAAATTCTCTGATTTACGTTCATTTGAAACATTTATAGTGAATAATTTCCAAAAACCAAAAATGGAATTAGTTGATGGAAACACTGGCCAGCGTGTAGATTTAACGGACAAAATTCGTTCTTCCTTAAAAGAGTTTGCTAAGTTTCTAATTTTAAAAATCCAAGATGTAATGCCTGCACCAGCTGATAAAGTTTATAAATATGTTTATTTCGGTGGTGTTGCCCCAATACTAGAAACTAGCATTCATGAAGTCATTGAAGAAATGTATGGAGCCGAAATTGCTCAAGCAAATCATATTTTCTTACCAGATTCACGCAAATTAAATTTATATGGTCTTGAAGTAAAAAGTCGTGGCGAAATGCTGCAAAAGACAGAAAAATAA	MKITMMNKDSGNSLDMNLIDGFYIETPTNVVEISKDEADSHFVATITNPKELLSRLLISTTIPGEDTERFFLVGDEAGKHALANNHVNKLHDKITSPIPYVMFLSAVSFYHAINETRESDDNTVEIEYFQTMLPIWLLKRTAKFSEAQNAMAERFAGEHEVTIHTPGMEKTLKITVEKATCRIEGEIARLAIKKNFELEDREEARQFDNNDTVLVDIGGGTIDLVLSPAGLKSPKNRDSMQPIDKLSYLSHIEKLRKEKFLEKFSDLRSFETFIVNNFQKPKMELVDGNTGQRVDLTDKIRSSLKEFAKFLILKIQDVMPAPADKVYKYVYFGGVAPILETSIHEVIEEMYGAEIAQANHIFLPDSRKLNLYGLEVKSRGEMLQKTEK				NA	NA	NA	NA	NA
AK009_07592	420			hypothetical protein	ATGGGGCGTACCAAAAAGACCGAGAAACAAACAGTCTTTGGACTTCGAACAGATCACATGAGCGAAGAAGTTTATACTCACCTTGAGCAAAAAGCACGCTCAAAAAAGCTTGCAACTTATATTATTCAATTAGTTGAACAAGACTTAGCACAAAAAGAGCCCTTTGATGCAAAAAAAGAACTTCTAAAAGTCTCAAAAAATCAAGAACAAATGATGAACGCTATAAAACAAATTACACAAACCATTTCAGATCTCCAGGTGGCTCCTGTATCTGCTGTTCTTATGCAAAGCGATGATAATACCCATAATTCCCTGGCAGACGATTTATTAAAAGACGTAGGTCAAATGGGACAATTAATAACTAATACCAACATTACAGGATCATTAGATGAAGACGATTTAGAAGATCCAGATTTCTAA	MGRTKKTEKQTVFGLRTDHMSEEVYTHLEQKARSKKLATYIIQLVEQDLAQKEPFDAKKELLKVSKNQEQMMNAIKQITQTISDLQVAPVSAVLMQSDDNTHNSLADDLLKDVGQMGQLITNTNITGSLDEDDLEDPDF				NA	NA	NA	NA	NA
AK009_07593	585			hypothetical protein	ATGGAGAGAAGAGATGATGTTGTAAGTGAAGTGTATTTAAAAACAATAGATGTCTCCCGTGTCACCAATCTAGCAGAAAGTACAATCAGAAAATATAGCTTAGAACTCGAAAAACAAGGCTATGAATTTAATAAAGATGGCGATACAAGACTGTATCATGCTGATGATGTAACAGTTTTTAATACTTTAAAAGAGATTAGAGAAAAAACTAAGGTTTCGTTGAATCACGCTGTTAGCGTGTTGATGACACAGCATTCCCGTGCGACACAGGGTGTAGCGCGTTCGGAAGTTGCTGTGACAAGGCCTCAGAGTGAAGAAGAGCAATACGCGCTACAATCCATATCGAGTGAAATTAGAAATTTCTTAGAAGATATCAAGACTGAATTTATAGGTTTTCGAAAAGAACTTGAAATTGAACGACAAAGCAATGATTTATTTAAACAAGAGCTTGAAGCGGAACGTAAAAAAAATCAGGAATTAGAAAAGAAACTTGATCTTATTATGACGGAATTAGAAAAAATCAACGCTAAAGCTGATATGTCTAACCAAGAACCCAAAAGGAAGAAATTATTTGGGATATTTTAA	MERRDDVVSEVYLKTIDVSRVTNLAESTIRKYSLELEKQGYEFNKDGDTRLYHADDVTVFNTLKEIREKTKVSLNHAVSVLMTQHSRATQGVARSEVAVTRPQSEEEQYALQSISSEIRNFLEDIKTEFIGFRKELEIERQSNDLFKQELEAERKKNQELEKKLDLIMTELEKINAKADMSNQEPKRKKLFGIF				NA	NA	NA	NA	NA
AK009_07594	471			hypothetical protein	ATGACAGGTTTATTCGTTGTATTGGGTTGCACAATTATATTTTTTCTTTTGGCACAAATTCTCACTCCATCATCTACTTATAACCCTAATAATGATTCACAAAGGGTGAAATGCTCTAACAAATTAGAAAAGCGAGTATATGATGCATTGCGATTTAAAGGTTATTATCCAACTGTACAATATAAAGTACCTAATAAGCGTTTCAAGTTAGATTTTGCATTTTTTGCCCCAAATGGTTTAAAAATAGACGTAGAGATTGATGGGCCTTTTCATCGAACACCAGAAGGAATCAAACGAGACAGTAGACGGGATAAATACATGAAAACAAATGGATGGAAAGTGATTCGTATTACTGACATTGCATTCAATAATGGGTTTGAAAAACAAATACTTTTGTTGGTGGCAATATTAAATGAATTAGGGATAGAACCTTCTAAAGAAACCGGTTTTGTTATGTTAGAACAGGAATAA	MTGLFVVLGCTIIFFLLAQILTPSSTYNPNNDSQRVKCSNKLEKRVYDALRFKGYYPTVQYKVPNKRFKLDFAFFAPNGLKIDVEIDGPFHRTPEGIKRDSRRDKYMKTNGWKVIRITDIAFNNGFEKQILLLVAILNELGIEPSKETGFVMLEQE				NA	NA	NA	NA	NA
AK009_07595	222			hypothetical protein	ATGTTTTTCCGCAAAAATAGAACTAAATTAAAAAAATGGTTAGATCGGCAAGGAATCGAACAACAGGAACTAGCCAAAAAGTCGAAGGTTTCTGTTCAAACCATCAGTAAAGCATGTAGAGATACAGATTATATCCCCAAACCTGAAATCATGAAAAAACTATTAAATGCTATTAGAAAAATTGATCCTTACGCCAAAATCAATGACTTTTGGGATATGTAA	MFFRKNRTKLKKWLDRQGIEQQELAKKSKVSVQTISKACRDTDYIPKPEIMKKLLNAIRKIDPYAKINDFWDM				NA	NA	NA	NA	NA
AK009_07596	654			hypothetical protein	ATGATGCTAACGAATAGAGATAAGCAAATTATATGCCATTTACAACAATTTAGATGTATGTCGCGTGATGATATTATTGATCTTCATTTTAGAAATGTTAAAAATGCAGTAACATGCTGTAATACTGTTACAAAGCGATTAAGCCGCGAAGGATATATTGATGTAGATACATCACAACGTCCATACGTGTATTTTCCTTATCCAAATACCATTCGTAAAGGAAGCCAAAAGATACGTCATTTTTTAGCGATTGTAGATGTATATAAGCAGTTATTACGAACCGAAAGACCGAAGATATTTCAAGTAGAACCTAAGTATAAGAAAGGTTATATGGAACCCGATATATTTACCATTTGGCGTAAAAGTCCATTTTTTATAGAAGTCCAGAACTCCATCTATAATAAGGCTACGATCCAAACGAAAATAAAACGTTATGAATCGTATTTTCGTAGCATGGAATGGAAAAAAGAATCGTGGCAACCAAAACATAATATGGTATTTCCCTCTCTTTTAATCCTTACTGACCTCAAATATCCAATCTCTAGTTCTAACTTTCGTATTTTTCAAGCGCCCTCTATTCAGCATTTTCTTGCACAAGTACAGCAACCTAAAGACATTTCGGTTCAAGTAGGTTCAGTCAAAGTAAAATTATGA	MMLTNRDKQIICHLQQFRCMSRDDIIDLHFRNVKNAVTCCNTVTKRLSREGYIDVDTSQRPYVYFPYPNTIRKGSQKIRHFLAIVDVYKQLLRTERPKIFQVEPKYKKGYMEPDIFTIWRKSPFFIEVQNSIYNKATIQTKIKRYESYFRSMEWKKESWQPKHNMVFPSLLILTDLKYPISSSNFRIFQAPSIQHFLAQVQQPKDISVQVGSVKVKL				NA	NA	NA	NA	NA
AK009_07597	1164			hypothetical protein	ATGAAAGGATGGTTAAAAAAGAAAAAATATAAATATCAGTTAGAAGAAGTATTTAAGAAAGCGAAGCTATATGATGAGCACATGACACGAGGTGGAAAGGTCCCCATTTATCCTACGATTCATGATGTATACGAAGGAAAGGAAAGTGTACGGTACACTTTTACACTACCTAATGGCGTTGATCCAGCTCAAATTCATAAGAAATGGTTCTGTTTTCAGCAAATACTAGGTGAAAATCTAATGATGGAAGGTACTATTAAAAAGTTCGTACTCCATGTATTTCATTCTAATGCAAGTTTACAGCCTTACGATTACAGTTATAAACAATGGCAACCATTATTAAAACCGTATCGTCTTCCTGTGGTAGTAGGACGGGACCAATTCGGAAATACAATTGTGTATGATATGGTTGATTCAAATACACCTCATTTACTAATTGCGGGAGAAACAGGAAGCGGAAAAAGTAGTATGGTGCGCGTAATTTTAGCCACATTAATCCAACATATGTCACCAGAGCATTTACATTTGTACCTGGGGGATTTAAAAAATTCAGAGTTTCATTTTTTAAGAAGAGTGAAGCACGTAAAGTATGTTTGCATGGAAGAACATGAAATGACAAGTATGTTATCAAAATTGTGGAAAGAGGTATTGCATAGAAGAAAGTTAATGGAAGAATATGAGCTGGGTCATATTGATGAATACAATCAAATAACAAAAGATAAACCCTTACCCTATATTTTTATTGCCATTGATGAAGTAGCAATGCTACAGGACGAAAAGGAATGTGTCACCATAATAGAAAAAATATCAGCTGTCGGCAGATCGCTTGGTATCTTCCTCATGCTAAGTATGCAACGTCCAGATGCAAAAATACTGGATGGTAAGTTAAAGCTCAATTTGACGGTAAGAATGGGCTTTAAATGTGCAGACTTAATTAACAGTAACATTGTGGGGACGCCTGGATCAGAAAATTTAAGTCAATCGGGCCAAATGATTTTAAAATTAGATGGTTTAAAAAAGGTGCAGGCTCCTTTTTTGGCATTGGACCAGGCAAAAGAAATAATAGAACCGTATCGTTTATCTAAAGAGCAAAGTGTAAAGAAGGAAGAGTCAGAGTATCGAGAAGATAAAATCTTTGGGGTGTTAGATGATGCTAACGAATAG	MKGWLKKKKYKYQLEEVFKKAKLYDEHMTRGGKVPIYPTIHDVYEGKESVRYTFTLPNGVDPAQIHKKWFCFQQILGENLMMEGTIKKFVLHVFHSNASLQPYDYSYKQWQPLLKPYRLPVVVGRDQFGNTIVYDMVDSNTPHLLIAGETGSGKSSMVRVILATLIQHMSPEHLHLYLGDLKNSEFHFLRRVKHVKYVCMEEHEMTSMLSKLWKEVLHRRKLMEEYELGHIDEYNQITKDKPLPYIFIAIDEVAMLQDEKECVTIIEKISAVGRSLGIFLMLSMQRPDAKILDGKLKLNLTVRMGFKCADLINSNIVGTPGSENLSQSGQMILKLDGLKKVQAPFLALDQAKEIIEPYRLSKEQSVKKEESEYREDKIFGVLDDANE	PGPT0030468_8282	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
AK009_07598	324			hypothetical protein	ATGCTAAAGCGAAAAGAAACAATTTCTTTTCAAGCCTTTATGGACCAATCTTATAAGAAGAAAAAGCAAACAAAAATATATAGCATTGGCCCTATTAGTCCATTCGCATTTTTTCATATGTCATCACCACTTATTCATACGTATGTAGCCCTGGGAATAGTAGGCGGCCTTACAATTGGAGCTGTTTTGTTGGAAAAATACTTAGTACGAAATGATTATGTTTTTGCATCCAATCTCCTTTCTAATGGTCTGTATTACGGTGTAAGAATTGGAGGGATTGGGTTCATTGGTTATGCGTTTATTCGCATTTTACTCATGTTATAA	MLKRKETISFQAFMDQSYKKKKQTKIYSIGPISPFAFFHMSSPLIHTYVALGIVGGLTIGAVLLEKYLVRNDYVFASNLLSNGLYYGVRIGGIGFIGYAFIRILLML				NA	NA	NA	NA	NA
AK009_07599	417			hypothetical protein	ATGAATAATTCTTATGAGATTATTGGTAATCAAATTAAATATTATTTGAGGGATGATCTAACGAGAGGATGGAACAACATACCTAGTCTGCAATTTCGAAATGTGAAAGAAATTACAGAATGGTGTGGAAGTTCAACAAACGAAATTATGTGCGGGTGGGATGCGCTCAATCAAAATGCAATGAGTACAACGGATACAACAGATTTCTTATATAGGTGGATTAGTTGGTATCTGACTGAACCATTAGGCAGTACAGCACAAGAAATGCGAAAGTTGCTAGACGAACTTGCGAGTTTCATAACACATGTACCTGTTGATGCATTTGAACTCATTAAGAATACCTCTCATATGGTGTTAGATTGTATATGTTTTGTTTTGGACTGGATACCAAATTTGTTAACGATATTCTTTTTTTAG	MNNSYEIIGNQIKYYLRDDLTRGWNNIPSLQFRNVKEITEWCGSSTNEIMCGWDALNQNAMSTTDTTDFLYRWISWYLTEPLGSTAQEMRKLLDELASFITHVPVDAFELIKNTSHMVLDCICFVLDWIPNLLTIFFF				NA	NA	NA	NA	NA
AK009_07600	858			hypothetical protein	ATGTCACTTCTACAGCAACATTTTGAAGAAAGAAGAGAATACGTTTTCAATCGTCTTAAACAACCCGAATACATGGAAAGAAGTATAGAAAAAGTTCGTCAAGCTCAAAAAGAGATTAAAAATACAGTACGAACAATTAAAGATTTATTACTCCTGGATAAAACAACTGATCCTTGTTTACCAGAAGTTGCTCAATTTTCTCTTCAGCACATTATTAATTCCGAGTCGTTTGAGAATGTCAAAAAACTTGTTCCATCCTCTATGAAAAAATTAAGTGAAAAAGAACGCGCAAAAGTGTTAGATGAAACATTAAGCGTAGCAAACCAAGTCATGAATTTAGAACGTACTGTTTTTATCATGATGTTTAATGCAAAAGAAAAAATCCTCATGGATTCTTATAAGAAGAAGCGTAGATCACAAATAGAACTTCATTATGATGTTGCTGACAAAGAAGGATTTGACAAAGCGTTTTATGAAGAACGTATTGATTCATTACGAAATGACATTCGTGTGATTTCTTTCAAAAAGCTATGTGAGAATGAACCCGCACCAGAGGACTTAGAACTATTCCAACAACGTTATGAAACAATTGTTTTGCCAAAGATACAAGAAATTGTTTCCCTAATTGAACCAAGTTTAGTAGATATAGACGTATTTTTAAATCCTGTTATCGAATATGGTGTAGGAGACATCACCTTAGATGAAATGATTCAAAAACTACACAAAAACCTTTCTTTATTTCACGAATTATCAAAGGTTGAATATTGCCCAACAGTTGAACTAACAGTAAAAGAATATGTATTCTTAGAAGCTATGAACCGTTCCAAAGAAGGAGAGGAGTTGCAACCATCTAAATGA	MSLLQQHFEERREYVFNRLKQPEYMERSIEKVRQAQKEIKNTVRTIKDLLLLDKTTDPCLPEVAQFSLQHIINSESFENVKKLVPSSMKKLSEKERAKVLDETLSVANQVMNLERTVFIMMFNAKEKILMDSYKKKRRSQIELHYDVADKEGFDKAFYEERIDSLRNDIRVISFKKLCENEPAPEDLELFQQRYETIVLPKIQEIVSLIEPSLVDIDVFLNPVIEYGVGDITLDEMIQKLHKNLSLFHELSKVEYCPTVELTVKEYVFLEAMNRSKEGEELQPSK				NA	NA	NA	NA	NA
AK009_07601	1065			hypothetical protein	ATGATTCAACTTACAGTAAAAGGTCAGCCTTCTCATATTCGTCATTTAGCTCATGATCCGGAATATCTATTTGCGATAGAATTCCATGATCTTACAAAACAGACGACATATATTAATAAAGAAAAATGTTCAGTTAAAGTAACAACTCTGGTTCATGCAGAACAATGGAATCGATTATTACAGATGATTGCAGAAGGGGGAGATACATTAGCTGAAGCCAATGAAATTATACTGGAAGGAAAGATGGAACACACACCTGAGGAGGTGTATACTTTCGCACCTATCCATATTATGTACCGCTCTCATTCACAACAGAAACAGGAAGAAATTGAATCCGAAGTACATGAGAAAAAGTCAAAAAGGGTAGCTTCAAATACTAAGCCCACTGTATCTAAGCGTGTGGAACAACTACATGCAAAATACGATGGGGTTTGTCAAAAATGTGGACAGCGATGTGATAAGCGGGTCGTGTCTATCAAAAAAATACAATCCAAAATGGGGATTGTTTGTCCAGATTGCAAAAATGGAACAACATTTTTAATTACAGAAGTGAAGGATCAGTTACAACAAGAGCTTCTTCAACAAAATTTATTTTCTAGAGAACAGGAAATTCTATCTTATTTTCAAAATTTTTGTTCTCAATTCGCACTTGTAAAGCATGAGGAAACATATCGTATATATTGGTCATGGGAAACGAAACAAATATATAGAAAAGTCTATGTTTCAAACGAGGGTACTATATATAAAGTTAAACTAAACGCAGGGGGAATTTGTATTCCTTCAAAATTTACCACTCACATTACTATCAAAGAAAATACATTTCGAGTGTTCCATCCAACCACGGAAATGCGGATGGATAGAATCAGAGCATTATCAGATGCGCAGAAGGCAAGTATTGGAGAAGAAGAAATTGAAAAACAAATTCAATACTACAAGGATAAGAAAGAATTCTCAGAAAAAATTATTGTTAAACAAGCAGAGAACTCGAAACGATATCAAGTATTATCTGGATTTACAGCCTATCAAGCTGCAAAGAAGATTAAGCCTAAACATATCTATGATTAA	MIQLTVKGQPSHIRHLAHDPEYLFAIEFHDLTKQTTYINKEKCSVKVTTLVHAEQWNRLLQMIAEGGDTLAEANEIILEGKMEHTPEEVYTFAPIHIMYRSHSQQKQEEIESEVHEKKSKRVASNTKPTVSKRVEQLHAKYDGVCQKCGQRCDKRVVSIKKIQSKMGIVCPDCKNGTTFLITEVKDQLQQELLQQNLFSREQEILSYFQNFCSQFALVKHEETYRIYWSWETKQIYRKVYVSNEGTIYKVKLNAGGICIPSKFTTHITIKENTFRVFHPTTEMRMDRIRALSDAQKASIGEEEIEKQIQYYKDKKEFSEKIIVKQAENSKRYQVLSGFTAYQAAKKIKPKHIYD				NA	NA	NA	NA	NA
AK009_07602	219			hypothetical protein	ATGCAAAAACAGCAGTTATTTGATTTACAAGAAGGAGATTGTATATATGTGTATTCTGGGGGACATTTAGAAGCGCAAGGAAGATATATAGGTGTAATAAAAGATAAAAATGAATCCTTTTTATGTTGGAGAAAACATAATGGAAATGAGGTATACACAAATTTAAATGGAATTAGGGGTATGTGTAGCAATGGAACCAAATCACGCAATAAGTATTAG	MQKQQLFDLQEGDCIYVYSGGHLEAQGRYIGVIKDKNESFLCWRKHNGNEVYTNLNGIRGMCSNGTKSRNKY				NA	NA	NA	NA	NA
AK009_07603	246			hypothetical protein	GTGCGTCAGCTCGCGCTGCTGTCTTACCTGCACGCCCTGGCTGAGCAGGGTGCGCAGATCATCGTGGTCACCCACTCGCCCATCCTGCTGGCCATCCCGGGCGCGCACCTGATCGAGATCAAGCACGACGAGCTTGTCGACGGCGCCGAGCTCGAACGCACCGACGCGCTGCGCGCCATGCGAGATTGGCTGGCGGACCCGGTCGGTGTGGCCCAGTTCATGATTGACGTCACGGCGGCGTCGTAA	MRQLALLSYLHALAEQGAQIIVVTHSPILLAIPGAHLIEIKHDELVDGAELERTDALRAMRDWLADPVGVAQFMIDVTAAS				NA	NA	NA	NA	NA
AK009_07604	465			hypothetical protein	GTGCTAGGCGCTGACGACCTCGAAGTTCACCTTGCCCTCCACGTCATCGTGGAGCTTGACCTTGACCTGGTAGCCACCGGTCTTGGTCACAAGACCCTTCGGCACCTCGATGCGGCGCTTGTCCAGGTCCGGGCCGCCGGCAGCCTTAACTGCGTCGGCGATGTCGGCGGGCTGCACGGAACCGAACAGCTTGCCGGCCTCGGAGGTACGAACCTTGACCTGCACGCCGGTGAGCTGGTCGAGGGTGTCGCGCAGCTCCTTCGCGTGGTCCAGGTCGCGCACCTGGCGGGCAGCCTGTGCGCGCTTGATGTCTTCGATCTGCTTCTCTGCGCCGCGGGTGGCGGGGATAGCCAATCCGCGCGGAAGCAGGAAGTTGCGTCCGTAGCCGCCCTTGACCTCGACGATATCGCCGGGCTCGCCAAGCTTGTCAACGGCAGCGGTGAGGATCAGTTTCATGAATCCTAA	MLGADDLEVHLALHVIVELDLDLVATGLGHKTLRHLDAALVQVRAAGSLNCVGDVGGLHGTEQLAGLGGTNLDLHAGELVEGVAQLLRVVQVAHLAGSLCALDVFDLLLCAAGGGDSQSARKQEVASVAALDLDDIAGLAKLVNGSGEDQFHES				NA	NA	NA	NA	NA
AK009_07605	426			hypothetical protein	TTGGTTTCCACCCTGGTTGCCGCCTTGATTTCCGCCGCCGAAGCCTCCTTGGTTGCCGCCGCCCTGGTTGCCGCCGCCCTGGTTGCCGCCGCCGTATCCGCCGGAGCCGCCCTCACGCGGTGTCCGGTTGACGCTAGCTGTCGCGTACTTCAGGGAGGGGCCGACCTCGTCGACTTCGACCTCGAAAACGGTACGGTTTTCGCCCTCGCGGGTCTGGTAGGAACGCTGCTTCAGGCGGCCGTTGACAATCACGCGCATGCCCTTGGTCAGGGACTCGGCGACGTTTTCGGCTGCTTGACGCCAGACGTTGCAGGTCAAGAACAGCGCCTCGCCGTCCTCCCACTGGTTTGTGTCACGGTTGTACGTGCGCGGGGTGGACGCGATGCGGAAGTTTGCCACTGCGGCACCGCTGGGGGTGAAGCGTAG	MVSTLVAALISAAEASLVAAALVAAALVAAAVSAGAALTRCPVDASCRVLQGGADLVDFDLENGTVFALAGLVGTLLQAAVDNHAHALGQGLGDVFGCLTPDVAGQEQRLAVLPLVCVTVVRARGGRDAEVCHCGTAGGEA				NA	NA	NA	NA	NA
AK009_07606	288	rpsF_2	COG0360	30S ribosomal protein S6	GTGCGTCACTACGAAGTAATGATTATCCTCGATCCGCAGCAGGATGAACGCACCGTTGCCCCGTCCCTGGATAAGTTCCTGGAGATCGTCCGCAAGGACAACGGCACGGTTGAAAGAGTTGATGTGTGGGGTAAGCGCCGTCTTGCCTACCCGATCAACAAGAAGGAAGAGGGCGTCTACGCCGTCGTTGACCTCGACTGCTCTGCCGAGACAGTTGCAGAGCTCGACCGCGTTCTGAACCTCAACGAAGGTGTCATGCGCACGAAGGTTCTGCGCACCGACAAGTAA	MRHYEVMIILDPQQDERTVAPSLDKFLEIVRKDNGTVERVDVWGKRRLAYPINKKEEGVYAVVDLDCSAETVAELDRVLNLNEGVMRTKVLRTDK				NA	NA	NA	NA	NA
AK009_07607	480			hypothetical protein	ATGCGTAACGACGCCCTAACGGTCGACGTTGGTCACCGTTCCATCGGGCAGGATATAGATCTCGATGCCCTGGAACTCGATCTCGTAGTAGCCGTCGTCGTCGTAGTCGACCTCGACGCCAGCCTCGTTGTTGTTCGCGGCCTGCAGGACGCGGTCAACCTCGGCTTCGGTCACGCCTTCGTCGGCAAGCTCCTGGCGAGCCTCGTCCGTGTAGCCGGAAACGCTCGCGGGAAGCTGCGCGGCGCGCTGCTCGGCAGCCTGGTTGCTGTCCGCGCCGGCCGGGGTGGCGGGCGCCGGGGAGGAGACGACCTCGGTGTTCTGCTCCGGGGTGGCGGTCACGGTGACCGTGGAGTCCTCAGCGGGCGTGCCGCACGCGACGAGCGCAGCGGAGGCGACGGTGGCAAGTGCTGCTGTGAAAGTGCGTTTCATTGGTGTCCTCTTTCTCTCGGGGGCACGTTCATCAACCCACCTTATGTATAA	MRNDALTVDVGHRSIGQDIDLDALELDLVVAVVVVVDLDASLVVVRGLQDAVNLGFGHAFVGKLLASLVRVAGNARGKLRGALLGSLVAVRAGRGGGRRGGDDLGVLLRGGGHGDRGVLSGRAARDERSGGDGGKCCCESAFHWCPLSLGGTFINPPYV				NA	NA	NA	NA	NA
AK009_07608	198			hypothetical protein	GTGACCACACCAACTGTTCTCGGCATCGCGTCCATCGTGATCGGATTCGCCCTGATCGCAGCCGCGTTTCTGGCGGTAGTAAAGGGCCGTCGCACCGGGCTCGCGGTGGGCCTGGGCATCGCCGCTTTCGTCTTCGTCACGGTTATTCCGGTGATCCTCGCGGTGTTCGTCGCCGCCCCCAATCCCGGTATTTACTAG	MTTPTVLGIASIVIGFALIAAAFLAVVKGRRTGLAVGLGIAAFVFVTVIPVILAVFVAAPNPGIY				NA	NA	NA	NA	NA
AK009_07609	1035			hypothetical protein	GTGCCCGTTGTGCGCCTCGAGGACCTTGTCGCGGCGCCGGCCCAGCATCTGCATCACGACAAGCACCATCATCGCGATGATCAGTCCGTCTCGGGCGAGGACGACGATGTTGAGGAACTCCCCAGGCAGGCCCTTGTTATCGGTGCCGAGCATGTGCCACATGAGGATCGGCCAGACCAACATGTCCACCGTCATCCACGTCGCCAGCAACCGCCAGTGCGGCAGAGCAAGCACCGCCGGCACGACCAGCCACAGCGAGTACTGCGGGCTCCACACCTTGTTGAACAGCAGGAAGAACGCGACGGTGAGAAACAGGATCTGCGCCACCCGGGGATCACGCGGGGCGAGCAGCCCGATCACTGCGGTGGCGACGCACCCGGAGATAAAAAGCACCAGCGTCACGGTGTTGAGGATGGTGGGAGTGCCGTCGCCCGAATCGAACCCAGACCAGCCGAACGCCCGCGAGGCGACGGCGTAGATGGTGGTCCATTCCCAGGAGCGCTCGGTGTTGAGGCGCTGGAACTCGCCCCACGCGTCGGGGTTGCGCAGGTACACGGGCAGGTTCACCACGACCCAGCTCACAACCGCCGCGGTGATCATCTTCGCCAACGGCACCCACTGCCGCTTACGTATTGCGAGGACCAAGTAGGCGCCAAGGACGAACAGGGGCCACAGCTTAAACGCGGTGCCGAACCCGATGAGCGCCCCGGCCAGCCAGAACCTCTTATTGCGGGCGGCGAGCAGCGCCGCGACGAGGAAGAAGATCGACGGGATGTCCCAGTTGGTGAACGCGTGCATAATCACCAGCGGGGAGGCGGCGACGAGCAGGGTGTCCCACACTCGGTTGCCGGCGAGCTCCGCGACGATGCGGGCCGTGATCACCCAGATCACCGCCAAGACCAGCGCCGTGAGGTAGAAGTACCAGCCAGCCTCGGGCAAAACGCGCTGGGCAATGAAGTAGGTGGTGCGCGCGATAAACCCCATGATGTTTTGGAAAATACCGGCGAGCACGGGGTACTCCATGTAGCGCGTTAA	MPVVRLEDLVAAPAQHLHHDKHHHRDDQSVSGEDDDVEELPRQALVIGAEHVPHEDRPDQHVHRHPRRQQPPVRQSKHRRHDQPQRVLRAPHLVEQQEERDGEKQDLRHPGITRGEQPDHCGGDAPGDKKHQRHGVEDGGSAVARIEPRPAERPRGDGVDGGPFPGALGVEALELAPRVGVAQVHGQVHHDPAHNRRGDHLRQRHPLPLTYCEDQVGAKDEQGPQLKRGAEPDERPGQPEPLIAGGEQRRDEEEDRRDVPVGERVHNHQRGGGDEQGVPHSVAGELRDDAGRDHPDHRQDQRREVEVPASLGQNALGNEVGGARDKPHDVLENTGEHGVLHVAR				NA	NA	NA	NA	NA
AK009_07610	414			hypothetical protein	TTGATCGAGGCCGCGCCCAGCGTACAAGGGGACGATGTCGTTGTAACAAAACGAGGTGTACTGGCGGTTTCCGCTCCAGTTGAGCTCGAGCCCCCCGGACTCGCCCGGTCGACCCCAGGCGCAGTTTGCCTTCGCCAGCGCGGCGAACCCGAGAAAGACCCAGGCGACGGCCACGATAGCGCGCAGCGGCGACCAAAACTGCGCCCGGCCGAGCGGCGTGTGAGCACCCATCGGCCCGCCGAGAAACCCCACCCAACCGTGGGCGAGGGGTTCACTGCGCCCAGGTTGGACGCGGCCATCAGGCAAGGGCCAGCGACCCCGAGAGGGCGTACGGGTTGTGGTTTGTGTCTGGTATCCCACGGTGCGGCGCTACCCCAGGACGTCGTTGAGGAAGTCCTGGACCGGTTCCGGTAG	MIEAAPSVQGDDVVVTKRGVLAVSAPVELEPPGLARSTPGAVCLRQRGEPEKDPGDGHDSAQRRPKLRPAERRVSTHRPAEKPHPTVGEGFTAPRLDAAIRQGPATPRGRTGCGLCLVSHGAALPQDVVEEVLDRFR				NA	NA	NA	NA	NA
AK009_07611	2235	ponA1	COG0744	Penicillin-binding protein 1A	GTGTCAAAAATCGAAGATGGTGTGACCGGGGGAACTGGCAACGAGGGCGACGTCAAGGCCGGATCGAGCCGTCGAGTATCGCTCGATAGCATTAAGCGCTCCCGCACACAGCAGTGGCTCCTCGCAGCTCTTCTCTTTGTGCTGCTGCTCGCGGCGATTCCGGCCACCTGGTTCGCGTGGCAGTACGCGAAGGTCGACATCCCCCAGCCCGGGGAGATCGACACCGCCCAGATCTCGACGATCTACTTCTCCGACGGGGTTACCGAGCTTGCGCGCACGGTGCCCGCGGAAGGCAACCGCGTGCAGATCCCGCTGGAGGAAGTTCCCGAGCACGTGCAGAACGCCGTCCTCGCCGCCGAGGACCGTGACTTCTGGACCAACTCCGGCTTCTCGTTCACAGGCTTCGCCCGCGCCGCGATTGGCCAGCTCACCGGCAACTCGTCCGCTGGCGGCGGCTCCACCATTACCCAGCAGTACGTGAAAAACGCCCTAGTGGGCAACGAGCATTCCTACGAGCGCAAGGCCAAAGAACTTGTTTACTCCATCAAGATGACCAACCAGTGGGAGAAAGAGGACATCCTCGCCGCCTACCTGAATACGGTCTACTTCGGACGCAACGCCTACGGCATCGAGGCGGCTGCGCACGCCTTCTTTGACAAGCCGGCGAGCGAGCTCACCGTCGAAGAGGCGGGTGTTCTCGCCGCATCCATTCAGCTTCCGAGCCAACTCGACCCCTGGAACAACCCCGAGGGTGCCGAGTCCCGCTGGAACTACGTGATGGACGGCATGGTCGAGATGGGGGAGATGATGCCCCAGGAGCGCGCCACCTTGGAGTACCCTCGGACCCGCGATCCCGCGACCTACTCTGCTTACACCGAGGCCACCGGCGCGAACGGCCTGATCAAGAACCAGGTGATGGAAGAGCTGAAAGAGATCGGCATCACCGAAGACGATGTGACCAACCGAGGCCTGCAGATCACCACCACGATTGACGCCGCGATCCAGGCCCAGGCAGAACAGGTCTCCCGCGACCGGCTTGCCAGCTTGCAGGACGACGCCCGCGCGGCCCTAGTCTCGATCGAACCGGCTACCGGTGCGGTGCGTGCTTACTACGGCGGCGACGACCCCAGCGGTTGGGACTACGCCAACGCCGGGTTGCAGACCGGTTCGACGTTTAAGATCTTCGCGCTCGCCGCGGCGTTGCAGCAGGGCATCCCGCTGACGGCCACCTTCGATTCCTCGCCGGTGACCCTGCCGGGCAACAACGTTGTTACCAACTGGCACGGCGGCGGCGGGGGAATCATCTCCATGACTGAGGCGACTCGGACCTCATCCAATACCGCCTACCTGCGCATCCAAGACGAGCTGGACAACACCACCCAGGACACCGCCGATATGGCCCACGCGCTCGGTGTCGCTCGTTCCATCCCGGGTATTCCGGTGACGCTGCGCGAGAACGGCGGCCAGCCGTACGAGGGCATCGTGCTGGGCCAGTACCAGTCGCGCGTGCTCGACATGGCGACGGCGATGGCGACGCTGGCGAACCGCGGTTCGCACCACCCGACCTACTTTGTCGAGCGCGTCGTGGACGCGCAGGGCGACGTGCTGTTTGAGATGGACAACAGCTATGTGGAGCGTGGCGTGGCGCAGCAGGTGGCGGACAACGTCAACGAGGCGCTGCAGACCGTCGTGGGTTACTCAAACGCCACCCTGGCTGGCGGCCGTCCGGCCGCTGCGAAGACCGGCACCGCCCAGCTGGGTGACACCGGCAACAACAAGGACGCCTGGATGGTTGGCGCGACCCCGCAGCTGGCGACCGCAGTCTGGGTCGGTACCGCCGACAACACCTCGGCGATCTTCAACGAGTGGGGCGGCAACATGTACGGCTCCAACACTCCAGCAAAGATCTGGAAAGACGTCATGGATTCCGCGCTGCAAAACCGTGAGGTTGTCGACTTCCCCGAAGCCACGCCGGTGTACTGGGGCATTAACCCGTACAGCGGCGGCGTGGGCCTAGGTGGCTCCCGCTGGTCGGGTGGTAGTTCCAGCGGCTATGGCTCTGGTTACGGCACTGGCGGGGGAGCGGTCCAGCGGGCCCCTGCACCCGCGCCCGCCCCCGCCCCAGCACCGGCGCCCGAGCCGGCTCCCGCACCCGCACCCGCGCCGGCGCCGTTGCCGCCGCCGCCCGCCCTACCGGAACCGGTCCAGGACTTCCTCAACGACGTCCTGGGGTAG	MSKIEDGVTGGTGNEGDVKAGSSRRVSLDSIKRSRTQQWLLAALLFVLLLAAIPATWFAWQYAKVDIPQPGEIDTAQISTIYFSDGVTELARTVPAEGNRVQIPLEEVPEHVQNAVLAAEDRDFWTNSGFSFTGFARAAIGQLTGNSSAGGGSTITQQYVKNALVGNEHSYERKAKELVYSIKMTNQWEKEDILAAYLNTVYFGRNAYGIEAAAHAFFDKPASELTVEEAGVLAASIQLPSQLDPWNNPEGAESRWNYVMDGMVEMGEMMPQERATLEYPRTRDPATYSAYTEATGANGLIKNQVMEELKEIGITEDDVTNRGLQITTTIDAAIQAQAEQVSRDRLASLQDDARAALVSIEPATGAVRAYYGGDDPSGWDYANAGLQTGSTFKIFALAAALQQGIPLTATFDSSPVTLPGNNVVTNWHGGGGGIISMTEATRTSSNTAYLRIQDELDNTTQDTADMAHALGVARSIPGIPVTLRENGGQPYEGIVLGQYQSRVLDMATAMATLANRGSHHPTYFVERVVDAQGDVLFEMDNSYVERGVAQQVADNVNEALQTVVGYSNATLAGGRPAAAKTGTAQLGDTGNNKDAWMVGATPQLATAVWVGTADNTSAIFNEWGGNMYGSNTPAKIWKDVMDSALQNREVVDFPEATPVYWGINPYSGGVGLGGSRWSGGSSSGYGSGYGTGGGAVQRAPAPAPAPAPAPAPEPAPAPAPAPAPLPPPPALPEPVQDFLNDVLG				NA	NA	NA	NA	NA
AK009_07612	405			hypothetical protein	GTGGAAATCGTAACACTTCTCCCGCCGAGTACGATGAAAAGCGTGTTCGTCTATAGCCGAGAAGTATCTCACGAGTGGCGCCGGCGCACAATACTCAAAGATTATGCGGCAGGGCGTTTGACGCTTGAGGAGGTCTGTGACGCCGACTTTCTGCTGCGTGCCGCTGCCGAGCACCACGGTGTCGATGCCGCGCGTCCGTGCCCCATCTGCGCTAAAGATATGCGCGAAGTGAAATGGATTCACGGCGAAAACTTGGGTCGCAGGTCTGGGACCGCGCGCAGTTCGGAAGAGATCGATCGCATCGTCAGCGAGGTCGGCCCGGTGTCTGTCCACGTTGTGGAAGTGTGCCCGCACTGCCGCTGGAACCACCTGCTGAGGGAAGTCACAGCTTTCCCAGTAGTGTGA	MEIVTLLPPSTMKSVFVYSREVSHEWRRRTILKDYAAGRLTLEEVCDADFLLRAAAEHHGVDAARPCPICAKDMREVKWIHGENLGRRSGTARSSEEIDRIVSEVGPVSVHVVEVCPHCRWNHLLREVTAFPVV				NA	NA	NA	NA	NA
AK009_07613	294			hypothetical protein	GTGTTCTTCCGGAAGGGAACTCAGCATCTCGCTGAGGTACTTGGTGCGCTCATCACCCACGCGGAGCAGCTCCGCCTCCCCCTCGGCGGTGAGCTCGACGCTCACGCCACGGCGGTCTGCCTCGTCGCGGTTGCGCCGGACGAGCCCGCGCTTCTCCAGCTGGTTCACGGTGTTCGAGGCAGTAGGCATGCGCACGCCCTCGGACTCGGCGAGACGGTTGATGCGGCTCGGCCCGTCCTCTTTGAGCCTGGTCATAATGGACAGCTGGGGCCCGGTGAGGTCGGACTGCTGTGA	MFFRKGTQHLAEVLGALITHAEQLRLPLGGELDAHATAVCLVAVAPDEPALLQLVHGVRGSRHAHALGLGETVDAARPVLFEPGHNGQLGPGEVGLL				NA	NA	NA	NA	NA
AK009_07614	291			hypothetical protein	GTGTCCGAGGGTGGCTTCGTACCACTGGGCCGAGTCGCTCGGGGTGTCGATGCTGGTGTCAAAGTCCGCGCCCGAAAGATTGTCGGGCGACATGGCGAGAAGCCGGATGGGGACCTCGAGACGCGCCGCGATGCGGGCAGCTTGGTGCAGGCCGGAGGGGTAGTCGAAACCGTCGTAACCGAGGTAGACGTAGGTGATGCGGGTAATTCCCTTCTTCGACAGCTTCGGGTGCCGCGGGGCTACGACCAGGGGCACCGAGTTGGCGTCGAGAAGCGAATCGGCGACGGTTGA	MSEGGFVPLGRVARGVDAGVKVRARKIVGRHGEKPDGDLETRRDAGSLVQAGGVVETVVTEVDVGDAGNSLLRQLRVPRGYDQGHRVGVEKRIGDG				NA	NA	NA	NA	NA
AK009_07615	207			hypothetical protein	GTGCCGCAAGAACTCCGACGTGGGGCCGGAAAAGAAGACTCGCTTGAACTGGCTCTGGCGTCGAAACGAGAAGCAGGCGAGGTCGCCCTTTTTCCACTTCACGGAATGCATCGCGCGCTTCCAGCCGTGATCGACAGCGACGTCCACCTCGATCACGGTGCTGCCGGGCGCCTGAGACGCAGCCTCGAAGACGGAGTCACGGGCTAA	MPQELRRGAGKEDSLELALASKREAGEVALFPLHGMHRALPAVIDSDVHLDHGAAGRLRRSLEDGVTG				NA	NA	NA	NA	NA
AK009_07616	309			hypothetical protein	GTGCGACGCCGGACAGGCGACGTGGCTGTGCACACAAAGTTGGCGCACGTGGTGGGCGCTGGGCTCCTCCATTGTCCCCATCGTGGGGCTGCTCGGGTGCGCGGTGATCATGGTGCGCAAGCTCAACCGCTACGAGCGCTGGGTGCCGTGGATGGGCGTGTTTTGGCTGCCGATTGTTCCCTTCACCATGTGGTGGCTGACGGTGACCGTCGGCATCATCGCGCTCGATTCCGTCTAGGCGACACCGCTTCGCGCCGCGGCGCAGTCCGCGCAGTAGGGATTCTCGGCGCGGCAGTTCTCGCAGCTTAA	MRRRTGDVAVHTKLAHVVGAGLLHCPHRGAARVRGDHGAQAQPLRALGAVDGRVLAADCSLHHVVADGDRRHHRARFRLGDTASRRGAVRAVGILGAAVLAA				NA	NA	NA	NA	NA
AK009_07617	225			hypothetical protein	ATGCACGCAGTGACCCAGCTGCACGTAGGCCGGGTCGCCTGGGGCGCCGAACTCGGTGTGCATGCGCTTGTCAAAGACGTAGAGGGAGCCTTCCCACAGGCCGGAGTTGCCGTACTTCTCGCCGTAGCGGACGATTCCGCCGTCGATCTGGTAGACCTCCGTAAACCCCCGGTTGATCATCAGACTGGAGAGGACCTCGCAGCGGATGCCGCCTGTGCAGTATGA	MHAVTQLHVGRVAWGAELGVHALVKDVEGAFPQAGVAVLLAVADDSAVDLVDLRKPPVDHQTGEDLAADAACAV				NA	NA	NA	NA	NA
AK009_07618	507			hypothetical protein	GTGGGTTGTCTCGACATCCGGCACGACCGCGTTTTTAAACCTGCCGATCTCCGCCTCGCGCGCGTTACGCCCGTCGAAGAAGACAACCTCGTCGCCCCTGTTGGCCACGAGCTCGTTGACCTGCTCAGGCGAGAGGTGGGAGCCTCCGCCGACGACCCCGTGCTCGTCCACTTTCAACTCCCCGGGGACACCGAAGGAGACGATCTCCTCGCGCGCCTTGACGCTGAGCTTGGGGAAGTCGTCCTTGCCGCCCTCCGACCACTTGAACTCAATGCCGCGGAAGTACTCCTTGGTCTTCCTGGCGTAGGTTTTACACGCGCCAATAGGGCCGCCCACCGTGCCATTGATTCCGTCCTTGGACACGACGATGCGGCCGTGAAGGCCCAGCCCCTCGCACAGGTCCCGCTGCCAGAGCCGGACAGCGTCCGGATCCGCGATGGGCTGGAACTTGTAGTACAGGAGGATCTTGCTCGTCATACCCTGATCCTAGGGCATGGTGCGAGCTAG	MGCLDIRHDRVFKPADLRLARVTPVEEDNLVAPVGHELVDLLRREVGASADDPVLVHFQLPGDTEGDDLLARLDAELGEVVLAALRPLELNAAEVLLGLPGVGFTRANRAAHRAIDSVLGHDDAAVKAQPLAQVPLPEPDSVRIRDGLELVVQEDLARHTLILGHGAS				NA	NA	NA	NA	NA
AK009_07619	888			hypothetical protein	GTGCGAGCTAGTCCTTCAGCCCTACTTGTCGTAGGTGTAGAAGCCCTGCCCGGACTCGACGCCGATGTGGCCCGCGGCGATCATTTCCTCGAGGATGGAGGAGAACTTGTCCTGCCACTCCTCCTTGTTCCCCTGTGCCCGGCCCACGGCGAGAACCGTGCGCAGGCCGACGATGTCCATGATCTCGAACGGGCCCCTGGGCGATCCCGTGGAGTTGCGCCAGGTCCGGTCGATGTCGGCAGGCTCGGCGATCTCGTTGGCCAGCAGGTACTGGCCAGCCTTCAGCCACGGCACGAAAAGGGTGTTGAGGATGTAACCGGGCTGCTCCTTCTTCAGCTTCACGGGCACCATGCCGATCCGCTCAGCGAAGTCGACGAGGACGTCCACGTACTTCAGGTCCGTGCCGGCGTGAGGCATGATCTCGGCCGTGTTCTGGATCCAGATGTTGTTGGCGAAGTGAAGCGCCAGGAACCGCTCCGGAGAGGAAACGGCGTCCGCGAACTCGCTCGGGAGAAGTGTCGAGGTGTTGGTGGCGAAGATGGTCGCATCCGACGCCGCCGCGCTGGCGCGCCCGAGCACGTCTCGCTTGATGTCGATGTTTTCGGGCACAGCCTCAATGATGAGGTCTGCCTCGCGCACGGCCTCCTCGAGGTCGGTGGTCTGGGTCAGGCGTGCGCGACCCTCGGTCATCGACTCCTCAGTGGCGTCGTCGAGGTCGGCCACAATCCGGGCGCCGAAGGCGTCGAAGCGCTTCGCCGCCGCCGCGAGGGCATCATCGTTGATGTCCCAGGAGACGACGTTGAATCCGCGGAAAGCTGTAACGAGTGCGATCTGTGCGCCGAGAACGCCGGCGCCGAGTACTGTAACGTTTTTGATGTCCATGCCTGA	MRASPSALLVVGVEALPGLDADVARGDHFLEDGGELVLPLLLVPLCPAHGENRAQADDVHDLERAPGRSRGVAPGPVDVGRLGDLVGQQVLASLQPRHEKGVEDVTGLLLLQLHGHHADPLSEVDEDVHVLQVRAGVRHDLGRVLDPDVVGEVKRQEPLRRGNGVRELAREKCRGVGGEDGRIRRRRAGAPEHVSLDVDVFGHSLNDEVCLAHGLLEVGGLGQACATLGHRLLSGVVEVGHNPGAEGVEALRRRREGIIVDVPGDDVESAESCNECDLCAENAGAEYCNVFDVHA				NA	NA	NA	NA	NA
AK009_07620	564			hypothetical protein	GTGCGACCGCAGACTGGCGATACCGCGGGCGATGTCGCGCTCGCTGACCTCCACGCCGCAGGTCGGCTCGGGGTGGTTGGCAATGAGCAGTGTTTTCGCCTGGTGCTTCTCCCCCAGCTCCGGGAAGAGCCACTCGTTGCCCGCATCGCGCGCTGCGTCCACAGTGGCCAGCCCCGCCGCGCGGTGATCCGCCTGGTTGAGCCCCCAAGGCGCCATCACGTCGAAGTTCTGGGTCACGATGATGGACGGCTTCAGCCGGCGGTTGTAGCCGGCGATCGCCTTGCGCAGCTCGAGGCCGTGCTCGAGCAGGCCGTCGGGGAAGTCCAGCAGAGTGAGCTCCCGCACCCCCACCTGATCGCAGGCGTCGCGCTGCTCCTTCGCCCGCACCTGCGCGGTCTGCGCGGGCTCCATCCCCGAGATGCCGGCCTCGCCGTGGGTGAGCAGAAGGTAGTTGACCTCTATCCCCTCACTCGCCCACTTTGCGACGGCCACCGACGCGCCGTACTCCATGTCATCGGGGTGGGCGACGACGGCAAGGACGGTGTCTTCGGGGGTGAGCTCTAG	MRPQTGDTAGDVALADLHAAGRLGVVGNEQCFRLVLLPQLREEPLVARIARCVHSGQPRRAVIRLVEPPRRHHVEVLGHDDGRLQPAVVAGDRLAQLEAVLEQAVGEVQQSELPHPHLIAGVALLLRPHLRGLRGLHPRDAGLAVGEQKVVDLYPLTRPLCDGHRRAVLHVIGVGDDGKDGVFGGEL				NA	NA	NA	NA	NA
AK009_07621	390			hypothetical protein	GTGGTAGAGCGCCTTCTTCCAGTACTTCGGCTCGGAGGTGACCAGCACACCGAGGTTGCGGAAGATGCCTTCGTCCACGGACCCGAGGATGGTGGTGGTGTGCGCGTCGCAGCCGCGAAGCTGCGGCAGCTGCTCCAGCGCGCGGGCGGCGTCGGGGTTGCGGGCGGCCGAGGCGGACAGGGCGATCAGCACTTCGTCCGTGTGCAGGCGCGGGTTGGCAGAACCGAGATAGGTGGTCTTGAGCGACTGGATCGGCTCGATCGAGTCCGGCGAGAGCAGGTGGACGTCGTCGTCGATGTGGGCCAGCTTTTTGAGTGCATTGAGCAGCACCGCGGCGGACGGGCCGAGCAGGTCCGACGTCTTGCCCGTGACGATCTCCCCGCTGGGTAG	MVERLLPVLRLGGDQHTEVAEDAFVHGPEDGGGVRVAAAKLRQLLQRAGGVGVAGGRGGQGDQHFVRVQARVGRTEIGGLERLDRLDRVRREQVDVVVDVGQLFECIEQHRGGRAEQVRRLARDDLPAG				NA	NA	NA	NA	NA
AK009_07622	1032			hypothetical protein	GTGGCGGCAGGCCGCGTCGTCCGAAATGCAGTAGCCCGCCATGTTCACACCCATGTCCGTGGGCGACTGGTACGGCTCCTCCCCGGTCACCTCCTTGAGCAGCGATTTGAGCAGCGGGAAGACCTCGATGTCGCGGTTGTAGCTGGACACCTTCTCCCCGTAGGCCTCGAGGTGGTACTGGTCGATGACGTTGATGTCATCCAGATCCGCGGTAGCGGCTTCGTAGGCGAGGTTGACCGGGTGCGACAGCGGCAGGTTCCAAATGGGGAAGGTCTCAAACTTGGCGTAGCCTGCGGGGATGCCGCGCTTGTGCGCGTGGTAGATCTGCGACAGGCAGGTCGCGAGCTTGCCGGAGCCGGGGCCCGGCGCGGTCATGACGATGAGGTCGCGGGTAGTTTCGGCGTACTCGTTGAGCCCGAAGCCCTCGTCGGAGACGATGCGGGCGGTGTCGTTGGGGTAGCCCGGGATAACGCGGTGGCGCGATACCTTCAGGCCGAGGCGCTCGAGACGCTCCACGAAAGCTTCGGCCGGGGCGTTGCCCGGCTCAAGCTGCGTGACCACGACGTTGTCCACCAAGAATCCCCGGCCGCGGAAGACGTCGACAAGGCGCAGCACGTCGTCTTCGTAGGTGATGCCGAGGTCCGCGCGGATCTTCTGGCGCAGGATGTCTTGGGCGTTGACGCACACCATGATCTCGACCTCATCCTTGATGCGCTCGAGCATGGCGATCTTGTTGTCCGGGGTAAATCCGGGCAGGACACGGCAGGCGTGGTTGTCGTCGAAAAGTTTGCCACCCATTTCCAGGTACAACTTTCCACCGATCTGCGCACGCCGGGCACTGATGTGCTCCGACTGCATCTCGATGTACTTCTCGCGGTCAAAACCAATGGTGTACGGCATCAGGCAGTCCTTTCGCGTGGCAACTTAAGAAGTCTAGCGCGCACGCGTGACAACGCCCGCACCCGGCGATCAGGATATTGGTCGCCTTACAGGTGCGGGCGTTGGCCTAGGCGTCGAGAAGCGGGTGCTTAA	MAAGRVVRNAVARHVHTHVRGRLVRLLPGHLLEQRFEQREDLDVAVVAGHLLPVGLEVVLVDDVDVIQIRGSGFVGEVDRVRQRQVPNGEGLKLGVACGDAALVRVVDLRQAGRELAGAGARRGHDDEVAGSFGVLVEPEALVGDDAGGVVGVARDNAVARYLQAEALETLHESFGRGVARLKLRDHDVVHQESPAAEDVDKAQHVVFVGDAEVRADLLAQDVLGVDAHHDLDLILDALEHGDLVVRGKSGQDTAGVVVVEKFATHFQVQLSTDLRTPGTDVLRLHLDVLLAVKTNGVRHQAVLSRGNLRSLARTRDNARTRRSGYWSPYRCGRWPRRREAGA				NA	NA	NA	NA	NA
AK009_07623	933			hypothetical protein	GTGGACCAGCCAGTTAGCCAGGATCTGCGAGGAAATGCGCAGCGTGGCGCGGTCCTCCATCAGGTCGACGTTGTGGATGTCCGGCACCTTCGAGCAGCCGACGCCCTGTTCAACCCAGCGCACCACGTAGCCGAGGATGGACTGGCAGTTGTTGTCCAGCTCCTCGCGCTTTTCTTCATCGGACCAGTTGTCACCCTCGGCGACCGGCACCGTCAAAATGTCGTGCAGGCTGTCGCGGCGGCCGGCGGCGCGCAGCTCCTCCTGCACGGCAAAGACATCGACCTGGTGGTAGTGGGTGGCGTGCAGGGTCGCACCCGTCGGGGACGGAACCCACGCGGTGTTCGCACCCTCCTTGGGCTGGCCGATCTTCTTCTCCACCATCGCGGCCATGTGCTCGGTCTCGGCCCACATGCCCTTGCCAATCTGGGCGCGGCCCGGCAGGCCGTGCTCGATGCCAGCATCGACATTGTTGTTCTCGTAGGCCTGCTTCCATGCGGCGGTCTGCAAACCGGCCTTGCGCACGAACGGGCCCGCGTACATGGAGGTGTGAATCTCATCGCCGGTGCGGTCCAGGAAGCCGGTGTTGATGAACACCAGGCGGTCGGCCGCGGCGTCGATGCAGGCATCCAGGTTGACGGAGGTGCGGCGCTCCTCATCCATCACGCCGACCTTGACCGTAAAGCGCGGCAGTCCGAGGATCTGCTCGACGCGGTCGAAGATCTCGTTGGTGAAGGCGACTTCCTCCGGGCCGTGCTGCTTCGGCTTGACGATGTACATCGAACCGGCGCGCGAGTTGCGGTGCGGGTTATCCTCGCGCAGGCCAGGAATGGCGGACGCGACGGTGATGATGCCGTCGAGCAGGCCCTCCGGGACCTCCTCGCCGTCGACAAGGATCGCCGGGGTGGTCATCAGGTGGCCGACGTTGCGGCATAG	MDQPVSQDLRGNAQRGAVLHQVDVVDVRHLRAADALFNPAHHVAEDGLAVVVQLLALFFIGPVVTLGDRHRQNVVQAVAAAGGAQLLLHGKDIDLVVVGGVQGRTRRGRNPRGVRTLLGLADLLLHHRGHVLGLGPHALANLGAARQAVLDASIDIVVLVGLLPCGGLQTGLAHERARVHGGVNLIAGAVQEAGVDEHQAVGRGVDAGIQVDGGAALLIHHADLDRKARQSEDLLDAVEDLVGEGDFLRAVLLRLDDVHRTGARVAVRVILAQARNGGRDGDDAVEQALRDLLAVDKDRRGGHQVADVAA				NA	NA	NA	NA	NA
AK009_07624	1392			hypothetical protein	GTGGAGGCGAACCTCCTCACCGTCCTTGGAGGTGTAGAAGAGGTCGTCTTCCTGGGTGCGCTCGAAGGACTTGTCGCCCTTAGCGACGGTCTCCGAAATGTCGCCCTTGTTCAGGCCGAACCAGGTGGCGTAGGCCGCGGCCTTGTCCGAGCCGTCGACCGCGGCGGAAGAGTCCTCGAAGTCCATGATCGAGCTCACGGCCGCCTCAAGCACGACGTCCTTGACGTGAGCCTTATCGCCCTTGCCCACCGGGTGCTCGGCATCGATCTGGATCAGGATGTGCAGGCCGTTGTTGCGCAGCACGATCGCCTCGGGGTTCTCAACATCACCCTGGTAGCCGACGTAGACCTCGGGGTTGGCCAGCGCAACTTCGCGGCCGTCGACCGTGGCGGAGAAGCTGCCGCCGGAGACGGAGTACTTCTCCACATCGGCGTGGCTTGCACCGTCAAGCGGGACGGCCTTGTCCAGGAAGTCGCGGGCCCACGCGATCACCTTGTCGCCGCGCACCGGGTTGTAGCCCTTGCCCGGCTCAGCGCCACCGTCCTCAGAAATAACGTCGGTGCCGTAAAGGGCGTCGTACAGCGAGCCGAAGCGGGCGTTGGCCGCGTTGATGGCGAAACGCGCGTTGGTGATCGGCACAACGAGCTGCGGGCCGGCGACCTCAGCGAACTCGGAGTCGACGTTTTCGGTGCGGATCTGGGTCTCGCGCGGCTGGTCGACGAGGTAGCCGATCTCACGCAGGAACTGCTCGTGCTGCTTCGGATCAGGCTGGCCCGGGTTAGCGCGGTAGTATTCATCAAGCTGGCGCTGCAAGTCATCGCGGCGCTCGAGGAGGGCCTTGTTCTTCGGGGTCAGGTCCGCGAAGTAACGCGCGGTCTCAGCCCAGAAAGTGTCGGCGTCCATCCCGATCTCCGGCAGGAGAGAGTTGTTGACGAAATCGTGCAGGGGCTTAGCCACCTGGAGGCCGGCGACCTCGACACGTTCGGTGCGGTCTTCGTGGGCGCTAAACGTAGGCGTAGTCATAAAATGCGCATTCCTTTCGGCAGTGTTGCTGCAGTGTTGCGTAGGACTTTCTACCCGAGGTTAGTGAGGCGGGTCACGGAAGTAAACGAGATGCTTGGCTTCGCAACCCTCTACTACCCCCGTTCGGTTTTTGGTTTACCCCGCGCCCGTTACTGCTACGGCCATTTACACCCCCTGAGGCTTTGCGCTGTAAACAGTTTGAAAAAGCGCGCAACCAGCAGAACTCTCATTGGGAGGCCAGAAGATGCGGGGGTGGAACTTCGCAAACTTAACAGATCTGGCCCGTCCCCCCGTGCGAAAGCTAACACAGGAGAGATATTGACGAAGATCACCCCCACAGCAATACTGGTTACAACGTCACCCGCTTAG	MEANLLTVLGGVEEVVFLGALEGLVALSDGLRNVALVQAEPGGVGRGLVRAVDRGGRVLEVHDRAHGRLKHDVLDVSLIALAHRVLGIDLDQDVQAVVAQHDRLGVLNITLVADVDLGVGQRNFAAVDRGGEAAAGDGVLLHIGVACTVKRDGLVQEVAGPRDHLVAAHRVVALARLSATVLRNNVGAVKGVVQRAEAGVGRVDGETRVGDRHNELRAGDLSELGVDVFGADLGLARLVDEVADLTQELLVLLRIRLARVSAVVFIKLALQVIAALEEGLVLRGQVREVTRGLSPESVGVHPDLRQERVVDEIVQGLSHLEAGDLDTFGAVFVGAKRRRSHKMRIPFGSVAAVLRRTFYPRLVRRVTEVNEMLGFATLYYPRSVFGLPRARYCYGHLHPLRLCAVNSLKKRATSRTLIGRPEDAGVELRKLNRSGPSPRAKANTGEILTKITPTAILVTTSPA				NA	NA	NA	NA	NA
AK009_07625	1041			hypothetical protein	GTGTGCGGACCAGTTGAAGGACGGGGAGCAGTTGTAAGCGAGCAGCTGATCCGGGAACTCGGCCTTGACAGCCTCGGAGAACTTCTTGGCCAGCTCGAGATCCGGGGTGCCGGTCTCCATCCAGATCAGGTCAGCGTAGGGAGCGTAGCTCTTCGCACGGGCGATGCAGGGCTCGATGCCGTTCTTGACGTAGTAGTAGCCCTCAGCGGACTTCTCGCCGGTCAGGAACTGCTGGTCGCGCTCGTCAACGTCGGAGGTGATCAGGGTTGCGGCCTCAGCGTCGGTACGTGCGATGACAACCGTCGGGGTGTTGGCAACGTCGGCAGCCAGGCGAGCGGAGGTCAGGGTGCGGATGTGCTGCTGGGTTGGGATAAGAACCTTGCCACCGAGGTGGCCGCACTTCTTCTCGGAAGCGAGCTGGTCCTCCCAGTGGGTGCCAGCGGCACCAGCGGCGATCATGGCCTTCTGCAGCTCGTAAACGTTCAGAGCGCCACCGAAGCCAGCCTCGCCGTCGGCGACGACCGGGACAACCCAGTTGTCGACGGAGTCGTCGCCCTCGACGCGGGCGATCTCGTCAGCGCGCAGCATTGCGTTGTTAACGCGGCGAACGACGTTCGGAACGGAGTTGGCCGGGTACAGGGACTGGTCCGGGTAGGTGTGGCCGGAGAGGTTGGCGTCACCTGCGACCTGCCAGCCGGAAAGGTAGATGGCCTTGAGGCCACCGCGGACCTGCTGCACAGCCTGGTTACCGGTCAGAGCGCCGAGAGCGTGGATGTACTTGCCGTCGCCCTGGTTGACACCCTCCCAGAGGATCTCAGCGCCGCGCTTTGCCAGCGTGTGCTCCTCGACGACGGTGCCCTGCAGCTTCTCAACCTGCTCGGCGGTGTAGTCGCGCTGGACGCCTGCCCAACGGGGGTTCTCGTCCCAGTCCTTCTGGATCTCTGCTGCGGTGCGTGCCTTGCCGGTGTTGGTGGTCATACTTGCCCCTTTCAATGGGAAAGATTGTGTTTCTGCGAGCCGATCCCGCCGTCTGTGAATTGA	MCGPVEGRGAVVSEQLIRELGLDSLGELLGQLEIRGAGLHPDQVSVGSVALRTGDAGLDAVLDVVVALSGLLAGQELLVALVNVGGDQGCGLSVGTCDDNRRGVGNVGSQASGGQGADVLLGWDKNLATEVAALLLGSELVLPVGASGTSGDHGLLQLVNVQSATEASLAVGDDRDNPVVDGVVALDAGDLVSAQHCVVNAANDVRNGVGRVQGLVRVGVAGEVGVTCDLPAGKVDGLEATADLLHSLVTGQSAESVDVLAVALVDTLPEDLSAALCQRVLLDDGALQLLNLLGGVVALDACPTGVLVPVLLDLCCGACLAGVGGHTCPFQWERLCFCEPIPPSVN				NA	NA	NA	NA	NA
AK009_07626	141			hypothetical protein	GTGCTTGACGGCGGTGAAGCCGCGCTCCTCGGCAGCCTTGAACTCGCGGTTCTGCAGGTCGACGAAGGCGGACATGCCCTCGCGAGCGTAGCCGTGAGCCAGGTCGAACATGCCGTAGTTGAGCGAGTGGAAGCCAGCTAG	MLDGGEAALLGSLELAVLQVDEGGHALASVAVSQVEHAVVERVEAS				NA	NA	NA	NA	NA
AK009_07627	456			hypothetical protein	GTGGTCTATGGGCTCCGCCGTGACCACGACGCCGTCGGCGTCGGCGTAGAGGAAGTGCCCCGGGTGGAACACGACGCCGCCGAAGGTGACCTGGACGTTGACCTCGCCCGCGCCATCCTTGTTCGACTTACGCGGGTTCGTGCCCAACGCCTTGCAACCGAACGGCATCTTCGCAACCTCAGCAGAGTCGCGGATTGCGCCGTTGATGACAACGCCCGCCCAGCCGTTGTCCACGCCAGCCTGGGCGATCATGTCACCCATCAGCGCGGTGTGCAGCCCGCCGTGGCCGTCAACGACAAGGACGCGGCCGTTGCCGGGGGAGTTCAACGTCTTCTTCACCAGTCCGTTGTCCTGGAAGCACTTAATGGTGACGATCTCTCCGCAGAACTCGGTGTGGCCGCCGTAGTTGGTGAATTGGGTGTCGCAGCTTGCGAGCTGCTCCTGGTCGCCGTATAG	MVYGLRRDHDAVGVGVEEVPRVEHDAAEGDLDVDLARAILVRLTRVRAQRLATERHLRNLSRVADCAVDDNARPAVVHASLGDHVTHQRGVQPAVAVNDKDAAVAGGVQRLLHQSVVLEALNGDDLSAELGVAAVVGELGVAACELLLVAV				NA	NA	NA	NA	NA
AK009_07628	339			hypothetical protein	TTGTGGTCCGCGCAGGTTCGCGGCCACGTCGCCTGCGACGATGCGCAGGCGGATCTGGCCCCACACATCACGCGCCGGCTCGAAGCGCAAGCTGCCGATCAGGCCCAAGTGAATGTAGACAATGTGCCCGGTCGAGAAGCAGATAAACAGGTGCTTGCCGTGGGCTTCGGCCAGGGTGAGGGAGGAGGCGTCGATAGGCGAGGCATCGAAGCGGCCCTGCGGGGAGGACACAGACAGCGGCCCGCCGCGGAACCCGGAGTTCAGGTGCGCGGCGAGCCGGTGTATAACGTGGCCTTCGGGCATTCGAGCCAGTTTAGTGGTCTATGGGCTCCGCCGTGA	MWSAQVRGHVACDDAQADLAPHITRRLEAQAADQAQVNVDNVPGREADKQVLAVGFGQGEGGGVDRRGIEAALRGGHRQRPAAEPGVQVRGEPVYNVAFGHSSQFSGLWAPP				NA	NA	NA	NA	NA
AK009_07629	282			hypothetical protein	GTGGTCGTCCTTGCGCGGGTCGCGCCCCATCGCTTCGGGGGTATGTTCGTCGCGTACGGTATCGATCCGCCCGTGCTCGACGCCGTAGCGCATCAGCGAAACCAGGTCCGCCCAGACCGCGTCGAAGTCCTCGCGTGCCAGCTGACATCCCGGCACAAAGGGGGAGATGCCCTGCCGGAAGAGGGCCTCGGCGCGGTAAATGTTGCCCACGCCGGCGAAGAGCTTTTGGTCCATCATGAGCGAGCCAATCGTGCGTTTCGACGCCACCACGCGTGCGAATAG	MVVLARVAPHRFGGMFVAYGIDPPVLDAVAHQRNQVRPDRVEVLACQLTSRHKGGDALPEEGLGAVNVAHAGEELLVHHERANRAFRRHHACE				NA	NA	NA	NA	NA
AK009_07630	180			hypothetical protein	GTGACGCTATTGTCCCTGCTTGTAGATTTTGTAGAGCACCACCGCGATGGCGATGAGCAGCGCAGGGATCGCGATGACGGCGGCGATGGTGAGAAGGATGATGAGAACTTCCGAAATACCCATGGGTTCGACTGTGCGCCCCTCTTGGGTGTGACTAATGTTGCATGCCACGTTCCCTGA	MTLLSLLVDFVEHHRDGDEQRRDRDDGGDGEKDDENFRNTHGFDCAPLLGVTNVACHVP				NA	NA	NA	NA	NA
AK009_07631	885			hypothetical protein	GTGCTTTTCCAACAGTGTCAGCCCGTCGGCGTCGATAAGCACTGGCAGCTGTATGCCGAGGATGCGCTCGAGGTCGCGTGCGGCGTCGGCGTCGGTGCCCGCGCCGGGGCCGAACACCCAGGCCTGGACGCGCCCGGCGCTGTCGATCGAGTCCGTGGCGACGACCTCAGGGTGCGCGCGCACGACTTCCAGCGCCTGCGGGCCCGCGTAGCGCACCATGCCCGGCGTGGCAGCGACAGCGCCGGCGGTGCACAGGATCGCCGCGCCGGGGTAGGTGCCGCTGCCCGCGCGGATGCCGACGACGCCGCCAGTGTACTTGTCGTCGTAAAAGCCGGGCTCGGAGGTAACGAGAGCCGGGGCGCCGAGTTGGGTGATGCCGTCTGGCCAGGCAGTTTCGGGGCCGCTCGCCCGGTAGATCGGTGTGCCGGGGGAGGTCGCGAGCTGCGCGGCGAGACCGCCGATGTCGGCGAGGAGCTGGACGCCGCACTCTGGTGCCAGTGCGTGGGCGAGGCGCCACCCGCCGAAGGTGATTGTGTAATCGGCGGTGAGGTGATTGGCGCCGCGCTCACCGGTGTCGGCGCTGATCCCGCTGGGCACGTCGATGGAGAGGATCGGGGCATTAAAAGACAGCGTCCACGGCAGGTCGCCGGCGCCGCCGAGTCCGAGGATGCCGTCGATGACCAGGTTGTAGTCGCCTTCTGGACTGTCGACGAGGGCGCCGCCGGCGTTGCGGAATGCCTCCAGCGCGCGTGGCTGGGCGGTGTCGAAAGCTCGCCAGGCATCGACGTTGCACCCGGACATCGCGAGCTCGGCGCCGGCGTAGAGTGCGTCGCCGCCGTTGCCACCCTTGCCCACGAGCAGCAGAACCCTGCCCTTGGCAGCTAA	MLFQQCQPVGVDKHWQLYAEDALEVACGVGVGARAGAEHPGLDAPGAVDRVRGDDLRVRAHDFQRLRARVAHHARRGSDSAGGAQDRRAGVGAAARADADDAASVLVVVKAGLGGNESRGAELGDAVWPGSFGAARPVDRCAGGGRELRGETADVGEELDAALWCQCVGEAPPAEGDCVIGGEVIGAALTGVGADPAGHVDGEDRGIKRQRPRQVAGAAESEDAVDDQVVVAFWTVDEGAAGVAECLQRAWLGGVESSPGIDVAPGHRELGAGVECVAAVATLAHEQQNPALGS				NA	NA	NA	NA	NA
AK009_07632	243			hypothetical protein	GTGCACGATCACGGACTCGTGCAGGCGCTCGGCCCCGTCGCGTGCAATCCGCGCGCCCATGACGCCGGCGAGCACATCGCCGGAGCCGGGGGTCGCGGCCCAGGACGAGCCGATATCAACGACCTCGGCTGGGCCGTCGGGGTTCGCAATGATGGTGGCGCGACCCTTGCGAACCACAGTGCAGCCCATCGCTTCGGCGAGCTCTCGAGTCCCGTGGAGGCGGTGTGCCCCGTGCAGTTCTAG	MHDHGLVQALGPVACNPRAHDAGEHIAGAGGRGPGRADINDLGWAVGVRNDGGATLANHSAAHRFGELSSPVEAVCPVQF				NA	NA	NA	NA	NA
AK009_07633	939	dpkA	COG2055	Delta(1)-pyrroline-2-carboxylate/Delta(1)-piperideine-2-carboxylate reductase	ATGAAGCTCGGCATCGACACGGTCCGCACCACGTTCTTCGACGCCCTGCGCGCCCATGGCATGAGCGAGGAGCAGGCAGAGTCCTCGGCCGGCGTGTTTCTCGACGCCGAACTCGCTGGCAAGCCAAGTCACGGCGCGTTTCACCTGCTCACGTACCTCTCCGCGTTGGATAACAGGAGCATCAACGGCCAAGCTAACCCCACTGCGACGGCGCGCGGCAGCGTGCTAGCCATTGACGCCGACGACGGGCTGGCGCAGTTCGCGCTGGAAAAGCACCGCGACCAGCTCCTCGATATCGCGCGCACGAACGGTGTCGCCGTCGCCGCGGTTCGTAAGACCTTTACTACCGGGGAGCTCGGGTGGTATGCGCGCTTTTTTGCTCGCCACGGGCTGATCAGCTTGACCACGACGAACTCACCCGCCCTGGTCACGCTCAGCGCCTCGGGCGAGCGCGTCGTCGGCACAAACCCTGTGACATTCGGTATCCCCGAGGCCATGGTGGTGGATCAGGCCGCGACGCCGGCGGCGTTTATGCGGGTGCGCCAGCACGCCGAGCGCGGGGAGCCGCTGCCGCAGGGGTGGGCCGTTGACGCCGCGGGCCGGCCGACGGACGATGCCAGTGTCGCTGTCGACGAGGGTGCGCTGCTGCCCAATGGGGGCCACCGCGGCGGGAACCTCGCGCTCGTGTTTGAAATGCTGGCGATGTTGGCGGGCGGGGAGTCGTCGAAAAGCGCTGCGAATAGGGGCGATGAGCCACCGCGCGTGGGGCTGTTCGCGCTGGTCATCGACCCGGACTTTTTCGGAGCGGGTACCCTCGGACGCCTGCAGGCACACCTCGCGACGCTCGCCGACGAGCACGAGGTCTACATCCCGGGCCGCACCCGTCCCGCTCCCGCCGAGCTTGACATCGACGATGCGACCTGGGAAAAGCTAGCTTAG	MKLGIDTVRTTFFDALRAHGMSEEQAESSAGVFLDAELAGKPSHGAFHLLTYLSALDNRSINGQANPTATARGSVLAIDADDGLAQFALEKHRDQLLDIARTNGVAVAAVRKTFTTGELGWYARFFARHGLISLTTTNSPALVTLSASGERVVGTNPVTFGIPEAMVVDQAATPAAFMRVRQHAERGEPLPQGWAVDAAGRPTDDASVAVDEGALLPNGGHRGGNLALVFEMLAMLAGGESSKSAANRGDEPPRVGLFALVIDPDFFGAGTLGRLQAHLATLADEHEVYIPGRTRPAPAELDIDDATWEKLA				NA	NA	NA	NA	NA
AK009_07634	1878			hypothetical protein	ATGCGCTTGCCGAGTTTATGGGTTCTTCGGTGGAACTACCTGGCCACGCACGGGGGAGGGCTTGTCAGTAGCGTAGGAATCCCCAAGGTTGATTGCGAGAAGAATCAAAGTGCATTGTATTTTAATTGCATTGCATTACACTTCGTGAGCATGAATTCAATCGACATCCCCGGCCTAGTTGCGGCGCTCCTCGAGAGTGGAACGGATCGTTGGAATATTGAGGCCAAAAGCGCCCGAGGTGGGCTACCAAACACATTGGATGAGACGCTGAGTGCCTTTGCCAACATGCCGGAAGGCGGCACTATTCTGCTTGGCGTATCCGAAACGCCCCAGGGTATCGAGGTAACGGGAGTGAATAACCCAGCCGCCTGCGCTCGAGGACTGGCAGGCAAGGCCCGTGAACGAGCTGTCCCGCCCGTCCAGCTCGGCGCCGTGGAATGGGAGTCCATCGACGGCGCAACCGTGGTTGCCTGCGTTGTTCCTCCGCAACCGTCTGACCGTAGGCCGTTCCGGGTCGGCAAACACGGCCCCGCGTTCATCCGCGTGGGAGAGGGTGATTACAGGCTCAGCGAACAGGAAGAGTTGTACCTTGTTAGTCAACGTGCGCAGCCCGTTTTTGATGGGCAGCCCATCGAAGGCGCGAGTGTAGAAAAGGATCTGGTCCCCGAGCTGCTGGAGCAATACCTGGAGTCCCAGCGTCGCGAAAGCCCGCGGCTGCGAAGCATGGGGCGTGATGAGCTTCTCGTGCGCACCAGTGTCGTCGACCATGAGACCACATTGCCCACGCTTGCCGCAGTTTACGCAATGGGGGTACACCCTCAGCAATTCCTGCCACAAACAACCGTCAAGGCGCACGCGGAGCCAATGCCCAACTCCGACACCTCATTGCGGTTAGCGGACCGAGCGGAGTTTTCGGGTCCTGTGCCTGATCTCCTAGACGCAGCGCTGGACTGGGTGAACAAGCATCTCATGCACGGCGTGGCCTTCTCGGGTGGTCGGGGCTTTGACATGAGTGAAATCCCAGAAGTGGCTGTACGCGAGATCGTTGCAAACGCACTGGTCCACCGCGACCTCTCTCCAGCGAGCTTCGGAAGCTATCCGATGCTGGTTAAGCAGCCAACCAGACTCATAGTGAAGAACCCTGGCGGTCTATGGGGTCTCAGTGAACGGGAATTAGGGCGCACGAGCCCCCGTGCGCGCAACGCTGTGCTGTACAAGATGTGCTCATCTATTACGTCAGCCAGTGGTGCTCGCGTGATCGAGGGGCACGCAACCGGCATCCCTGAGGTGCGTCGCGCCTTGCGTGAGGCATTCCTTCCCGAGCCCTTCTTCAAGGACGAGGTGATTGAGTTCACGGCAATTGTCACGTCTTCGAGTGTGCTTCCTACCACCGACATTGAATGGTTGAACACGCTGCCCGCCGTAGAGTCCCTCTCAGTGGCGCAGAAACACGCTCTTGTGGCGATGCGAAACGGCGAGGATGTCTCAAACTCGGATTACCGGTCGCGCTTCCCGATGGATTCGGTCGAGGCACGCGATGAGCTGCAGGAGCTCGTGCGTTTCGGCTTGGCGCACGTGACCGGCTCTGGGCGAGGAACCAAGTACATTCTTGGGAGACAGTTGAATGAGCAGCGAGGTATAGTCTCGAGGGCCGAAACGGCCGCGCACGCTCGGCCTAAGGATCGGGAGGCGGTGCGCGCGGCATTACAGGAGTTGCGTGAGCCGAGTCGTCGATCCGCGATCGCCCAAGCAGCCGGTCTTACGGAAAACCAAACGTACCGAGCATTGCAACAATTGATCCAAGAGGGTGAAGTAACGTCCGAGAAGGATCCCGCAGACAAGCGCGCTTTCCTTTATGCTCTGGTTGATTTCAAGTAG	MRLPSLWVLRWNYLATHGGGLVSSVGIPKVDCEKNQSALYFNCIALHFVSMNSIDIPGLVAALLESGTDRWNIEAKSARGGLPNTLDETLSAFANMPEGGTILLGVSETPQGIEVTGVNNPAACARGLAGKARERAVPPVQLGAVEWESIDGATVVACVVPPQPSDRRPFRVGKHGPAFIRVGEGDYRLSEQEELYLVSQRAQPVFDGQPIEGASVEKDLVPELLEQYLESQRRESPRLRSMGRDELLVRTSVVDHETTLPTLAAVYAMGVHPQQFLPQTTVKAHAEPMPNSDTSLRLADRAEFSGPVPDLLDAALDWVNKHLMHGVAFSGGRGFDMSEIPEVAVREIVANALVHRDLSPASFGSYPMLVKQPTRLIVKNPGGLWGLSERELGRTSPRARNAVLYKMCSSITSASGARVIEGHATGIPEVRRALREAFLPEPFFKDEVIEFTAIVTSSSVLPTTDIEWLNTLPAVESLSVAQKHALVAMRNGEDVSNSDYRSRFPMDSVEARDELQELVRFGLAHVTGSGRGTKYILGRQLNEQRGIVSRAETAAHARPKDREAVRAALQELREPSRRSAIAQAAGLTENQTYRALQQLIQEGEVTSEKDPADKRAFLYALVDFK				NA	NA	NA	NA	NA
AK009_07635	609			hypothetical protein	ATGTGCCTCCACCCCGGCACACCACAGCGCGCTGCGTTAGTGTGTGCGGGTGAGAAGTATCGTGCCCCTGTCAGCAATGGGCTTTGCGGCGTTCGTCTACGTCACCTTCGAAACCTTCACTGTCGGCCTGATCACCCCGATGGCCGCCGACCTACGCGTCTCCGAAGGCCAGATCGGGCTGCTCATGTCGGTCTACGCAGGCATCGTGGCCGTAGTGACCATTCCGCTGATGCACTACACGCGCCGCTTCAACCGCCGCCCGCTCTACATCGCCACCCTCGCTTTCTTGCTCACCGGCGTGATCCTACAGGCGGTCGCGCCGAACTACGCAGTGTTGGTCATCGCGCGTGTCACGGCGGCGTTGACCCACGGGTTGTTCTGGTCGCTGGTCAACCCGATGGCCATGCGCCTCGGCGGCAAGGGCCACACCGGCCAAGCCGTGGCCGTAGTGTCGATGGGGTCGACGATGGCGCTGGTTGCGGGTTCACCGTCGGTGGCGTTCATCGGCGATGTCATCGGGTGGCGCGGGGCGACCTGGTCGCTGGGATCGCTCGTCATCGCCTCTTTTGTGGTGCTTGTCGCCACGCTGCCGTCCATGCCCGCGATTGA	MCLHPGTPQRAALVCAGEKYRAPVSNGLCGVRLRHLRNLHCRPDHPDGRRPTRLRRPDRAAHVGLRRHRGRSDHSADALHAPLQPPPALHRHPRFLAHRRDPTGGRAELRSVGHRACHGGVDPRVVLVAGQPDGHAPRRQGPHRPSRGRSVDGVDDGAGCGFTVGGVHRRCHRVARGDLVAGIARHRLFCGACRHAAVHARD				NA	NA	NA	NA	NA
AK009_07636	714			hypothetical protein	ATGCTACCGCAAGATCGGTCGGGACCACAGGGAGACGGTGAGGCCGGCCAAGCTTGCCAAGACTGCGGTGATGACGAGCGTTCCGGCGAGCACTCCGGCATCGACGGACGCGGCCCCCAGGGCGGACCCGGCGGCGATACCGACCTGGAAGGTGACCACGTAGACCGCCGAAGCCCGGTCCTGGTTTGGCCCGCCGGCTATGAGGAAGACGGTGGTAGCGACCGTCGGCAAGGCGCCCGCGGCAAGGCCCAGAAAAGCGATCGAGCTAAATGCCGCAGTGACAGAGCCTGGCCCGGCAGTGGAAAGGGCGAAAAGGCCGAGTGCCGCGGCAAGGACCATGAGCACCGTCGGTACGACGTTGAGCCGAATCGGGCGCAAGTCAACGCGCCGGCCCGCCCACAGCACCCCCACGATGCCGATGAGCCCGTAGATTGCCAGCCCGACGGGCACCCACTGGCGTCCGGAGGTGGTCTCCACGAAGAGGCCGAGGTAGGTGTAGGTGGTAAACAGCGCGGTGACCGCGAGGCCCAAATACGCAATCAGCGAGGGGATCGCCGAGCGCTCGGGTTTCTCCGCCGTGGTATCCGGCTCAATCGCGGGCATGGACGGCAGCGTGGCGACAAGCACCACAAAAGAGGCGATGACGAGCGATCCCAGCGACCAGGTCGCCCCGCGCCACCCGATGACATCGCCGATGAACGCCACCGACGGTGA	MLPQDRSGPQGDGEAGQACQDCGDDERSGEHSGIDGRGPQGGPGGDTDLEGDHVDRRSPVLVWPAGYEEDGGSDRRQGARGKAQKSDRAKCRSDRAWPGSGKGEKAECRGKDHEHRRYDVEPNRAQVNAPARPQHPHDADEPVDCQPDGHPLASGGGLHEEAEVGVGGKQRGDREAQIRNQRGDRRALGFLRRGIRLNRGHGRQRGDKHHKRGDDERSQRPGRPAPPDDIADERHRR				NA	NA	NA	NA	NA
AK009_07637	372			hypothetical protein	GTGGAGGATAACCTCAGCGTTGCTGCCGCCCGTGCAGGTGATGATGCCGGCGCCGTTATCCCGGCAGCTCATGGAATACGTTTGGCCGGTGGTGGGGCTGTGGGCCTCGACGGTCCGCGGAAGATAATCCCGAATGTTTTCGGTGCTGGGGACCCCCTCTGTCATGGCGTCGAGGACGCTAAAGCCGAATGGGCAGCTGGTATTCTCATTCACCGCCAATTCGGAGATTCCCCACCCATCACCCGAACTGCAGACGGTGACGGCTTGGCCGTTGAAATTCGCGGGGGTCCCGGGTTGCTCAGAGAACCCCCGGTCGGCGGAAGCTTCAGGGGAGGGCTCCGCGGGGACGGTGTGCACCGCTGTAGGGACTGA	MEDNLSVAAARAGDDAGAVIPAAHGIRLAGGGAVGLDGPRKIIPNVFGAGDPLCHGVEDAKAEWAAGILIHRQFGDSPPITRTADGDGLAVEIRGGPGLLREPPVGGSFRGGLRGDGVHRCRD				NA	NA	NA	NA	NA
AK009_07638	660	hrtA_2		Putative hemin import ATP-binding protein HrtA	ATGCTCACCATGGAAAACGTCACTGTTACTTTCCCCGATGGTGAGCGCACCCTCACCGCGCTGGATAGAGTCTGCTTCAACGCCGACCCAGGCGAGCTGACCTTCATCGTCGGCGAGTCCGGCTCTGGAAAGTCAACCCTACTCTCCGTGGCCGCCGGCCTGCTCACGCCCGATTCGGGCACGGTGCTTGTGGGCGGCTGCCCGGTCTCCGACAATATCCGGCTGGAGAAAATCGGAATGATCTTCCAGCAGGCGAACCTGATCAAGGCGCTCAACGTGCGAGAGCAGCTACTGGTCACCGACCATATGCGCGGACGCAAACCGCGCACCGCGCGCGCCGACGACCTCCTCGCGGTCGTCGGCCTCGAGGGCCTGGGCGATCGGCGCATGGAGCATCTCTCCGGCGGTCAACGCCAGCGCGTGGGCATCGCCCGCGCCCTGATGGGCGAGCCGGAACTCGTGCTTGCGGACGAACCCACCGCCGCGCTCGACTCCGAGCGCAGCCACGAGATTGTCACCCTTCTGCGCACCCTCGTGGAGCAAAACAACATCGCCTGCGCGTTTGTCACCCACGACCGCTCCCTCATCTCGGAGCGCGACCGCGTTGTTGAGGTCAAGGACGGGCGAATCGTGGACCTTGCGGGTGTGCCGGCGAATTAG	MLTMENVTVTFPDGERTLTALDRVCFNADPGELTFIVGESGSGKSTLLSVAAGLLTPDSGTVLVGGCPVSDNIRLEKIGMIFQQANLIKALNVREQLLVTDHMRGRKPRTARADDLLAVVGLEGLGDRRMEHLSGGQRQRVGIARALMGEPELVLADEPTAALDSERSHEIVTLLRTLVEQNNIACAFVTHDRSLISERDRVVEVKDGRIVDLAGVPAN	PGPT0013345_15520	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_07639	981			hypothetical protein	ATGTTCGTTGGAATCAGAGAAATCAAGGCAGCGCTCGGCCGCTTCAGCCTCATCGTCGGCGTTGTCGGGCTGATCACGCTACTCGTAGTCATGCTGACCGGTCTGACAACCGGACTGGGCAAGCAGAACACCTCAGCGCTCGAGGCGCTCAATCCCCAATCAGTCACCTTCAAAAACATGGATGAACCGTCGTATGCCACCTCGCGTATCGCGTCAGGCGACGTGTCAGCCGGGGCGACACCGCTGGGCACTGGGCAGACGATGCTCACCAGCGTAGACGGCACCGAAATCTCCGCCGCGGTGCTCGGCCTGCCCAGGGGCACGGTGCTGCCCACGGGCACGACCCTGGGCGACACCGCCGTCGCCTCAACCTCGCTAGGGCTGGCCGAAGGAGAGGAGATCGGCGTGGGAGGAACGTCGATTAGCGTGGGCGAAACAGCCGACGACCTCTACTACTCCCACTCCCCCGTCCTCTGGGTGCCCACCGAGACCTGGCAGGCGGCGATGCACACCGACGCCGTCGGCACCGTCGCGCTGAACAACGACGACAGCGGCATCGGCCTGCGCGAATCCTTCAACGCGCTGCCCGCCTACGGCTCCGAGCAGGGCTCGCTCAAGCTCATCCAGGGCTTCCTCTACGCCATCGCCGCACTGGTCACGGTCGCCTTCCTCACCGTGTGGACGATTCAGCGCACCCGCGACCTGTCGATCCTGCGCGCACTCGGTGCATCGAGCTCCTACCTGCGTAAAGACGCCCTCGGCCAGGCGGCGCTCATCCTCGCGGTCGGCGTCATCGGCGGCGGGCTGATCGCACTCGGCCTCGGACTGGCCGCCGCGCAGGTCGCCCCGTTCAGCCTGAGCGTGCTCAGCATCGTCGGCCCGCCGCTGGCCCTGTGGCTACTCGGCATGGCCGGTGCCTGGCTGGCCACCCGTTCCATCACCAAGATTGACCCGCAGCAATCACTCGGAGGTATCGCCTAA	MFVGIREIKAALGRFSLIVGVVGLITLLVVMLTGLTTGLGKQNTSALEALNPQSVTFKNMDEPSYATSRIASGDVSAGATPLGTGQTMLTSVDGTEISAAVLGLPRGTVLPTGTTLGDTAVASTSLGLAEGEEIGVGGTSISVGETADDLYYSHSPVLWVPTETWQAAMHTDAVGTVALNNDDSGIGLRESFNALPAYGSEQGSLKLIQGFLYAIAALVTVAFLTVWTIQRTRDLSILRALGASSSYLRKDALGQAALILAVGVIGGGLIALGLGLAAAQVAPFSLSVLSIVGPPLALWLLGMAGAWLATRSITKIDPQQSLGGIA				NA	NA	NA	NA	NA
AK009_07640	186			hypothetical protein	GTGGTAGACGGTGCCCACAAGGTAGACCACGGCAAACAGCGCGCCCAAGCACAGCGCAGCGACGTTCATGCCCTCCTGCAGCGCACCGGCGAGCCCGACCGCCAGCAGCACCGCGACCAGCACGTGCAGGCTGACGCGCAAAAAGACGAGGATCCGGTTGGTGTTGCTCACGGTTTCCCACAGTAG	MVDGAHKVDHGKQRAQAQRSDVHALLQRTGEPDRQQHRDQHVQADAQKDEDPVGVAHGFPQ				NA	NA	NA	NA	NA
AK009_07641	678			hypothetical protein	GTGGCGCACGATGTTGCTCAAGCCCTCGCGGACAACGCGCTCGACGACGTTCGCGGCGGGTTCGGGCAGGTCAACCACGTTGACGCGCACCTCAATGTGCGATCCGAGCGCGCGCTGGCGTTGCTGCGCAGCATCAGCGAGCCGCTCGACGCGTACCGACAGCGGCTCGAGCGGGCCAGCGTCGCCCGCGACGATGCGCCGCGCCTCCGTCAGGCTGTCGGCGGCCGTGGAGCGGATGGTGTCGAGCGTTTCGCGCGCCGAGGCGGTATCCCCGAGCTGCTTGTCCAACGCCCTGCCGAGCAGGACGATGGAGCTCAGACCTTGGGCGATGGTGTCGTGGACCTCCCTCGACATCCGGGCGCGCTCGGCGGAGACACCCGCGGAGTGCTCCGCGGCGGCGAGCTCCATCTGCGCGGCCTGCAGGTCCACGACCAGCTGCTTGTAGTGGTCCGCCTCGCGACGCAGTGCGGAGTAGGAATGGTATATCAGCAGCGCCATGGCAGTGCCGATCGTCGGCCCGACGATGCCGCCGACGCCGCTTTCCGGGGCGGTGACAGTGAGCGTGTAGCCCAGGATCACCGCGGAGATGAGCAGCCCTGGAACGACGGGAAACAGGTAGCTCACCAGGATTACCAGCGGAAATTCCAGCCAGACGAAGGTGGGGGAGACCCACGTTAG	MAHDVAQALADNALDDVRGGFGQVNHVDAHLNVRSERALALLRSISEPLDAYRQRLERASVARDDAPRLRQAVGGRGADGVERFARRGGIPELLVQRPAEQDDGAQTLGDGVVDLPRHPGALGGDTRGVLRGGELHLRGLQVHDQLLVVVRLATQCGVGMVYQQRHGSADRRPDDAADAAFRGGDSERVAQDHRGDEQPWNDGKQVAHQDYQRKFQPDEGGGDPR				NA	NA	NA	NA	NA
AK009_07642	465			hypothetical protein	TTGCAGCGCCTGCAAAATCTCGATCTCGCGGGTGGACAGTGCCTCGTCGGGGTGCATGACGCGCTCGGCGAGCACGCCGGCGATTTGCGGCGAGAGCACCCGTTTGCCGCCCGCGGCGGAGAGCACGGCGGCGTGCAGCTCGGGTTCCGGGGCGTCTTTGAGCATGTAGCCCAGCGCGCCCGCCTCCACCGCGGCCAGCACGTCAGCCTGGGTGTCGTAGGTGGTCAGGATGAGCACCGGGGGCCCGCCCGCGGCGACGAGGCGGCGGGTGACCTCGATGCCGTCGATTTCGGGCATCTGGATGTCGGTGACTACGAGGTCGACGCCCTCGGGCATTTCGTCGATCCCGGCACCGGACGCGCCCTCGGCTACGACGTGGACGTCGCCGAAGGAGTCGAGCACCGCGCGAAGGCCGGCGCGGACGATGGGGTGGTCGTCGATAAGCATGACCCTGATCATGGCTAG	MQRLQNLDLAGGQCLVGVHDALGEHAGDLRREHPFAARGGEHGGVQLGFRGVFEHVAQRARLHRGQHVSLGVVGGQDEHRGPARGDEAAGDLDAVDFGHLDVGDYEVDALGHFVDPGTGRALGYDVDVAEGVEHRAKAGADDGVVVDKHDPDHG				NA	NA	NA	NA	NA
AK009_07643	564			hypothetical protein	GTGCTCGTTGGCCACCAAGGGATCGGCCCGCAGCAGGTCGGCGCGCTCGACGTCGATGACGGGCGCGAGGTTGACCACCACGCGGCCGGTGGCGAGTTGGACCGCGGCGGAAAACCCGCTCGCCGGGATCTCGCCCTGTACGACGACCACCTCGGCACCCTCGACTGCACCGCGCCGGGCGTCGACAAAGCCTCCGTCTACCTGCGCGTTTGCCCCGCTGACGACGACGATGGTGTTCTCGCCGCTGCTGTCGACGGTGATCACGGCCAGGCCCGTCGGCCCGTCGACCGCGGACACGTCGCTGAGCTCCACCCCCGACGTGCGCAGGTACTTGAGTGCTTCCTCGGCGTAGGCGTCGGTGCCGACCGCTCCAACCATGCACACCTGCGTGCCCAGTTTGGCGCAGGCCACGGCCTGGTTGGCCCCCTTGCCGCCCGCCGAGACCTCCCCACCGCTGCCCAGCAGAGTCTCACCGGGGCGCGGGTGGCGGTCGACCTCAACGACCAGATCGGCGTTGATCGATCCTACGACAGTGACAGTTGCCATGCCCGCCAACTTAGATAA	MLVGHQGIGPQQVGALDVDDGREVDHHAAGGELDRGGKPARRDLALYDDHLGTLDCTAPGVDKASVYLRVCPADDDDGVLAAAVDGDHGQARRPVDRGHVAELHPRRAQVLECFLGVGVGADRSNHAHLRAQFGAGHGLVGPLAARRDLPTAAQQSLTGARVAVDLNDQIGVDRSYDSDSCHARQLR				NA	NA	NA	NA	NA
AK009_07644	243			hypothetical protein	TTGCGTGCCGCGGCGGGTGGTAGACAGCGCTGCGACGCGGGATGCGTACGCGGAGGCGTCGACAAGCGAAGCTCCGTGGGCGAGGCGGGCGGCGAGCGCGCCGACGAAGGCGTCGCCCGCGCCGGTGGTATCGATGGCCTCGACCCGCGGGGCGGGGATCGGCGTGATCGTGTCGCCGTGGCCAACAACGGCACCTCCCGCGCCGCGGGTGATCACGACGGACGCAAAACCCTGCGCGAGTAG	MRAAAGGRQRCDAGCVRGGVDKRSSVGEAGGERADEGVARAGGIDGLDPRGGDRRDRVAVANNGTSRAAGDHDGRKTLRE				NA	NA	NA	NA	NA
AK009_07645	999			hypothetical protein	GTGTTTCTTCGCGGCGTCGGTGCTGTGCGCTATCGCCCCGTCTATCGAGCTGCTCGTCGCCGCCCGCGTGATCCAGGGCCTCGCCGGCGGTTCGATGATGGTGGTCGCGCGCGCCGTGGTTCCCGATATCGCGCGCGGCCGCGAAGCTGCGCGGATGTTCTCCGCGCTCATGGCGATTACCGGTTTCGTGCCGGCGATCGCGCCAGTGATCGGTGGTGTGCTGCTGCCGGCCGTGGGGTGGCGCGGCATTTTCTGGGCCTTAGTGGTCCTCAACGCCGTGCAAACGCTCGTGGCCTTCCGCGTCGTGCCGGAAACCCTGCCGCCGCAGATGCGCTCGTCCAGGGCGTTGCGCGGGCTGTTTCCCCGCATCGCGCGCTGCCTGGCCCGCCCCGCGTTTGTCGGCTACATGCTGGCCTCGGGCCTGGGCTTTGGCGTGCTGTTTTCCTACATTTCGGGCTCGCCGCTGGTGATGCAGCGCCAGCTCGGCGTCTCCCCCACGGCCTTCGCGGTGATCTTCGGCTCCATGGCCATGCTGATCCCGCTGTCGAACGCGATGAACATGCGCGTGGTCACGCGCACCGACCCGCGCCGGGCTCTCATCGCCGCGTTGCTTATCGACGCCCTCGCCGGCGCCCTCCTCGTCCCCCAGGCGCTGTCCAACCCGACGCTGGTACTCGTCGTCCCCACGCTGGCGGTTCTGTCGCTCATGGCCGGGTTCATCGTGGCCAACGCCACGGCGCTGGGCGTGGACTCGGTGCGCGACATCGGCGCGGGCGCGGGGAGCGGCGCGATGGGGTTCTTCCAGTACGTGGTGGCCGGTGCGATCCCGCCGCTGGTCGCGCTGGGGACAAACCCCATGCTGGCGATGGGTATTTCCATCATCGCGTGCTCCGGCATCGCGCTGGTGGCGCTGGCGACCCTGACGCGCCGGACGGAGTAGTTAGGGTAGCTCGTCGGCCGCGGTGGGATAGGCGCTTTGCGTGCCGCGGCGGGTGGTAG	MFLRGVGAVRYRPVYRAARRRPRDPGPRRRFDDGGRARRGSRYRARPRSCADVLRAHGDYRFRAGDRASDRWCAAAGRGVARHFLGLSGPQRRANARGLPRRAGNPAAADALVQGVARAVSPHRALPGPPRVCRLHAGLGPGLWRAVFLHFGLAAGDAAPARRLPHGLRGDLRLHGHADPAVERDEHARGHAHRPAPGSHRRVAYRRPRRRPPRPPGAVQPDAGTRRPHAGGSVAHGRVHRGQRHGAGRGLGARHRRGRGERRDGVLPVRGGRCDPAAGRAGDKPHAGDGYFHHRVLRHRAGGAGDPDAPDGVVRVARRPRWDRRFACRGGW				NA	NA	NA	NA	NA
AK009_07646	1101			hypothetical protein	GTGCAGCTAGTCTTCGTCCTCCCCGCGCGCGACGGGCGCGGGGTTGACCCGCGGCCTGATCTCGGCGTTGGGCAGCTCCGGCGCCGGCAGCCACGCCATCCCGTCGGCGTTGGCGTCGGGCCCGCCACGGCCAACGTAGCCCTCTACAACCCCGAAGCGCTCGGAGCGCTCCTGCCACTGGTTGCGTGCTTCGACGATCTCGGCGTGGTCGCGGCCGACGAAGTTCCACCACATGAGGATGTCCTCGGTAAATGGCTCGCCGCCGATCAGCACGGCCAGCGCCTCGGCGTCGGTGGTGTTGGTCAGGTTCAGCTCGGTGGCGCCGACTCCGGTGTAGCCGATCGCACCGCGCGGCAGGCTTACGCCCTCCAGAGCCAGGCCGTCAACGTCCGCCAGGACGCCGTGCTCGAAGGCGGGATCGACGGCGAAGGTCACGCTGTCGCCCGGCGCGAGGCGGAACTGCGCGCCGACGAGCGGGGTAAACGTCTCAATCGGGCTTCTCTGCCCGAGCAGGTTGCCGATGAATACGTGTGCTGTGGAGCTGGAGGCGTCGTCAAGCGAAAGTGCGTTGGGCGCGTAGTGCTCGAACTGGCGCGACGCGGTGCTGCGCGCCGTTTCGGGCAGGGCGAGCCAAAGCTGCACGCCGTGAAGCGTGGTGGTTTCGGGCGTGGACGTCTCGGAGTGACAGATGCCGTAGCCGGAGGTCATGAGGTTGATCTCGGCGGGGTGGACGATCCCGCGGTTGCCGCCGGAGTCGTTGTGCTGGATCTCACCGGAAAACAGCCAGGACACGGTCTGCAAACCGGTGTGCGGGTGCGGGGCGACGTCCATGCCGCCGGTGGCTGCAACGTCGTCGGGGCCGTAGTGGTCCACGAAGCACCACGCGCCGATCAGGGAGCGCTTGCGCTGCGGCAGCGTGCGGCGCACGGTCAGCGCGCGGGGTCCGCCGAGGGGCACCTCGCGGGCGGTGATGATTTCCACGTCCACACCAGGGCATTGCCCGTCCGGCACCGCTCCCCCGCCGGTTGTCAGCTGGTACTCGGCTGGCGCTGTCTCGAGGTTGCTCATGGCCCAAGGCTACCTTTTGCCAGGGTGCTTTGA	MQLVFVLPARDGRGVDPRPDLGVGQLRRRQPRHPVGVGVGPATANVALYNPEALGALLPLVACFDDLGVVAADEVPPHEDVLGKWLAADQHGQRLGVGGVGQVQLGGADSGVADRTARQAYALQSQAVNVRQDAVLEGGIDGEGHAVARREAELRADERGKRLNRASLPEQVADEYVCCGAGGVVKRKCVGRVVLELARRGAARRFGQGEPKLHAVKRGGFGRGRLGVTDAVAGGHEVDLGGVDDPAVAAGVVVLDLTGKQPGHGLQTGVRVRGDVHAAGGCNVVGAVVVHEAPRADQGALALRQRAAHGQRAGSAEGHLAGGDDFHVHTRALPVRHRSPAGCQLVLGWRCLEVAHGPRLPFARVL				NA	NA	NA	NA	NA
AK009_07647	702			hypothetical protein	GTGTTCCGGGCTGGGGTCGATCGACATGATTTCCATCAAGTCGGGGCGCGTTTCCAGAAAGTCCTCGAACTCGGTAGCGAGCTGCTGCGTGAGCGGATCTTGCCCGATGGAGCTGGCGGAATCGATCATAAGATCTTCGGCGACGAAGCTGATGCGCTCGGAGACAATCACCGGGTCAGCCTGGGTGAGGCGCTGCAGGAGCCGATCCGGTGTCATCACCGGCAAGAAGCTCAACAGCAGGGGCGCGACCTCCATGTCGGGGTCGAGGCCAGCGGCGATACGGCGCGCCTCGGCGTGGAACTTGCTCATCATGGTGGGGCCGTTGCAGGCTTCGACGACGTCGGGCCCGAGGGCGTCGATAAGCAACGGCGTGGGGCCGTCGAGGCGCGAGGTGCCGAGCACTTCGACGTGGATGTTCCAGTTCGCGGAGGGGTCGTAGACGTAGATCATGGGCTTCATCTCGGCGACCGTGATGTCGTTTTCGGCGCGCTCGCCCTCGCTCGGGTGGGTTGTGAACACCTCGCGCGCGCCGGGCCCGGTGGACATGTACATGTGGCTCTCGCCGCCGGAGAAGCCGAAGGCCGCGTCGATGACGTGCGAAAGTGCGCCGAGGTGCATGGAGTTCTCCACGTTGACCAGGCGGGAGACTTTCGGTTGCGAGCCCTCGATAGTCATCAGCAGCGAGACGATCATGGTTCCTAA	MFRAGVDRHDFHQVGARFQKVLELGSELLRERILPDGAGGIDHKIFGDEADALGDNHRVSLGEALQEPIRCHHRQEAQQQGRDLHVGVEASGDTARLGVELAHHGGAVAGFDDVGPEGVDKQRRGAVEARGAEHFDVDVPVRGGVVDVDHGLHLGDRDVVFGALALARVGCEHLARAGPGGHVHVALAAGEAEGRVDDVRKCAEVHGVLHVDQAGDFRLRALDSHQQRDDHGS				NA	NA	NA	NA	NA
AK009_07648	333			hypothetical protein	GTGGGTGAGGTAGTGCCCGGGCGGGTACACGGATTCCTCCACCACACCCAGTGCCCTGAGCAGATCGTACGTGCCGGCCAGGTCCGCCGGGACGCGCTGGGGGCCGGAGGCGATGATGCCGTTTTCGTTGGCGATCCACTTCACCACAGCCCTCCACTCGTGGGCGCCGAAGGTCTCCTCGAAGCCGTGGCTCATGGCGAGGTGAAGTTCGTCGAGGCTCGCGCCTCCGGAAAGCAGCCGCGCGCCGCTTTCCCCGAGCCGCAACCGACCCTGGGTGTTTTTCAAAAGCCCCGCCTCGGTGAGGATTTCACGGGTGGTGGTCAACAGGGGTAG	MGEVVPGRVHGFLHHTQCPEQIVRAGQVRRDALGAGGDDAVFVGDPLHHSPPLVGAEGLLEAVAHGEVKFVEARASGKQPRAAFPEPQPTLGVFQKPRLGEDFTGGGQQG				NA	NA	NA	NA	NA
AK009_07649	324			hypothetical protein	GTGAGCATCCCCGTAGCCGACGCCGGGCTGCAGCCCGAGCGCACCGCGATGAGCTGGACGCGCACGGCGCTCGCCATGATGGTGTGCTCCATGACGCTTCTGCGCTGGTCCGGCCCTTACCCCGATGTAGTGTTCACTGCGATAGTCCTGCTCGCCGTTCTCGCCATCGTCCTCATCGTGGCCAACCGGCGGATGTACCGCGGCCAGGCGAAGGAGCTGTCACAGGAGCACGCCACCCCCAACGCTGTCGGGGTGGCGCTGATGACGCTCATGCTCACCGTGCTCGGCGGCATTGGTTTCGCGCTAGTGCTCACCCAGCTCTAG	MSIPVADAGLQPERTAMSWTRTALAMMVCSMTLLRWSGPYPDVVFTAIVLLAVLAIVLIVANRRMYRGQAKELSQEHATPNAVGVALMTLMLTVLGGIGFALVLTQL				NA	NA	NA	NA	NA
AK009_07650	366	yidH	COG2149	Inner membrane protein YidH	ATGAGCGAGCAACGCGCCTGGTTTACACGCGCCGTCTTCCCCGACGGCGACGAGCCGGACCCGCGTTTCACTCTCGCCAACGAACGCACGTTCCTCGCGTGGACGCGAACCGCGCTGGCGTTTTTGGCCTCGGGCATCGCGCTCGAAGCGTTCGCCATTCCGGGTATCGCACCGTCGTTACGCACCTTTGCCGCCGCGGTTGTAATCCTGCTCGGCAGTGCGATTTCAGTCGGCGCGGCGCTGCGTTGGGTGCGCGTCGAGCGCGCGATGCGGCACGGCCGCCCGCTACCCGCGCCGGCGATCATCCCCGTACTCGGCATCGGTATCGCCATCGCCTCCGTCGTCGTTTTCCTGGGGCTTTTGTGA	MSEQRAWFTRAVFPDGDEPDPRFTLANERTFLAWTRTALAFLASGIALEAFAIPGIAPSLRTFAAAVVILLGSAISVGAALRWVRVERAMRHGRPLPAPAIIPVLGIGIAIASVVVFLGLL				NA	NA	NA	NA	NA
AK009_07651	966	acuI_2	COG0604	Acrylyl-CoA reductase AcuI	ATGGATAAGACTTTGCTTGTTACTGAAACCGGGCCCGAGATCGTGGAAACGCGCGATGACTACGCAGGAGAGGGCGATACTCTGATCGACGTGACGCACTCGTCGGTCAATTACAAAGACGCGATGGCCTTGGGCGGGATCAAGGGCATTCTGCGCGAACCGAACATGGTCCCCGGCATCGACGCGGTAGGCACCATCATCGAATCGCCGACCCTCGCGCCGGGCACGTTAGTTACCGTCAACGGCTGGGGGATCGGCGAGCGTCGTCACGGCGGCTACACCCCGCGACTGCGTATCGACGCCTCCAAAGTGACTCGGGTGCCCGAGCGTTTCGACGCCCACACTGCCGCCGCCCTCGGTACCGCCGGCTACACCGCAGCCCTCTCAGTCGCCGCTTTCGAGCGCGCCACCGACGGTACCGAGCTCGACGGCCCCGTCCTGGTCACCGGGGCGACCGGTGGCGTCGGCTCCGTCGCCGTGTCGCTGCTCGCCGCGCGGGGGTACGAGGTCCACGCCATGACGGGACGCGTCGACACGCATGCAGACTACCTAAGCGCGCTCGGCGCGAAGGCGATCGTCGACCGCGGCGAGTACGACGAGCCCGGCAAACCACTGCAGAAATCGCGCTACGCCGGTGCGATAGACACCGTCGGATCTACCGTGTTGGCCAACCTGTTGTCGCAGCTGACCTGGGGCGGGGTGGCCACCGCCTGTGGCATGGCAGCGGGCAACGACCTACCCGCTTCGGTGCTGCCTTTCATCCTGCGCGGCGTGCACCTGGTCGGCATCAACTCGGTGGACGCGCCAAACGGCCTGCGCGATGAGGCGTGGGACCTTCTCGCGCAGGCCGTCGATGTGGAGCAATTGCTCTCGTACACCTCAACCGTCGACCTTCTCGGCGCGATTGAGGTGGGGGACAAGCTCCTAGCCGGTGAGCACCAGGGGCGCACCGTGGTCACCCTTTAA	MDKTLLVTETGPEIVETRDDYAGEGDTLIDVTHSSVNYKDAMALGGIKGILREPNMVPGIDAVGTIIESPTLAPGTLVTVNGWGIGERRHGGYTPRLRIDASKVTRVPERFDAHTAAALGTAGYTAALSVAAFERATDGTELDGPVLVTGATGGVGSVAVSLLAARGYEVHAMTGRVDTHADYLSALGAKAIVDRGEYDEPGKPLQKSRYAGAIDTVGSTVLANLLSQLTWGGVATACGMAAGNDLPASVLPFILRGVHLVGINSVDAPNGLRDEAWDLLAQAVDVEQLLSYTSTVDLLGAIEVGDKLLAGEHQGRTVVTL	PGPT0002275_1750	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
AK009_07652	612			hypothetical protein	GTGCTTCGACAGGGTCTGCGCCAAGGCGAAGGAGTACAGGAACGGGGCGAGGAAGAGCATCGCCAGGCCGAAGAGGAACCCGACGAACGGGATGAATGCGCTGGCCAAGGTAGGAAGAAGTATCAGGAGCAGGGCAATGACAATCCAGGTCTGCCAGTTGGCAAACGTCTGGCGGAAACCGTAGCCCCACGCCTCAAGCGCGTTCATCTTGCCGGTGCCCTTGATGTGGGTGTAGCCGTTGACAGCCGGGTTGTTGATCGGGTGGGGTTGCGTGCCGTCGCCGTAGGTGCCGTCGACAAGCGTGGTGCCGTTAAGCTGTGCCGCTCCCTGGTTCACGGAGGCGGCGTTGACGTCGTACGGGTCGTAGCCGGCGGCCTGTTCGCTGCCGTAACCGTTGTAGCCGTAGTTGTGGGAACCGGCAACGTTATCCGGGGTGCCGTAAACGGAGGAACCGCCCTGCGCACCCGCAGCGCTGTCGGGGGAGTTGTTGGCGGAGTAGCCAGTGCCGAACTCATTGTTGTTGAAGGGATCCTGCGAGGAGGGACCACCGTTGTAAGGAGTGGACATTACGCCAGCCTTTCGTTGAACCAAGGGGTCATTGAACTGTTATGA	MLRQGLRQGEGVQERGEEEHRQAEEEPDERDECAGQGRKKYQEQGNDNPGLPVGKRLAETVAPRLKRVHLAGALDVGVAVDSRVVDRVGLRAVAVGAVDKRGAVKLCRSLVHGGGVDVVRVVAGGLFAAVTVVAVVVGTGNVIRGAVNGGTALRTRSAVGGVVGGVASAELIVVEGILRGGTTVVRSGHYASLSLNQGVIELL				NA	NA	NA	NA	NA
AK009_07653	1515			hypothetical protein	TTGCACCAGAGGCACGACGGCGCCGCGCGGCACCGGGCCGGAATAGGTCTTGGTCAGGTAGTTGACGTACTCGATGAGCTTGGCCACCACGGTGTTGTCGCGCAGATTCTCGTAGTCCTCGCGCACGCCGGCGATGGTGCGGTGCAGGGCCTTGGCATCCTCGTCCGTCAGCTCAGCGTCCTCGACGCGCAGCTCGCCGGTCTCCTCGTTGACCACGAGGCGCCACAGCCGTTGCAGGAAGCGGTGCGCGCCGACGACATCCTTTGTAGCCCAGGGACGCGAGGTGTCCAGCGGGCCCATGGACATCTCATACACGCGCAGGGTATCGGCGCCGAAGTCGCGGCCGATCTCGTCCGGGGCAACGGCGTTCTTGAGCGACTTGCCCATCTTGCCGTACTCCTGGTTGACCTCTTCGCCCTGGTAGAAGAACTTACCGTCGCGCTCCTCCACTTCAGCGGCGGGTACGTAGACGCCGCGCGCATCGGTGTAGGCGTACGCCTGGATGTAGCCCTGGTTAAACAGGCGGCGGTAGGGCTCGCGCGAGGTGACAAAACCGAGGTCAAACAGTACCTTGTGCCAGAACCGGGCGTAGAGCAGGTGCAGCACCGCGTGCTCGACGCCGCCGACGTAGAGGTCCACGCCGCCCGGGTCATTCTCGCCGCGCGGGCCCGTCCAGTAACGCTCGTTGTCCAGCGCGCAGAACTCTTGCGAGTTCGTCGGGTCGATGTAGCGCAGCTGGTACCAGGAAGAGCCGGCCCACTGTGGCATCACGTTGGTGTCGCGGTAGTAGGTCTTCTCACCCTCGCCGAGGTCGAGGGTGACTTCCACCCAGTCAGTCGCCTTGGCCAGTGGGGGAGCGGGTACGGAATCAGCGTCGTTGGGGTCGAAGGAAACCGGGTTATAGTCTTCCACCTGCGGCAGCTCCACCGGCAGCATGTCCTCCGGCAAGGAGTGCGCCTGGCCGTTCTCGTCGTAGACAATGGGGAAGGGCTCGCCCCAGTACCGCTGGCGCGCGAAGAGCCAGTCGCGCAGCTTGTACTGGATCCGCTCCTCGCCGTGGCCGTGGGCAACGAGCCAGCTTATCGACGCCTCAATCGCCGCGTCCTTACCCATCCCGTTGACGTCCAGGCCCTCCTCGTTCGCGGAGTTGATGTGCGGCGCGTCACCCGTGAAGGCCTCCGTGGACACGTCCGAATCCAGCACCGGGGTAATGGGCAGGGAGAAGACCTGGGCGAACTCGTAGTCGCGCTCGTCGTGAGCGGGAACCGCCATGATCGCGCCGGTGCCGTAGCCGGTGAGCACGTAATCAGCGATGAACACCGGCACCTTCTCGCCGTTGACCGGGTTGGTGGCGTAGGAACCGAGGAACACGCCCGTCTTTTCCTTGTTCTCCTGGCGCTCCACATCGCTCTTCGCGGCGATCGCCCGCTTGTAGGCGGCGACGGCCTCGGCGGGGGTGGAGGCCCCGTACGTCCAGGCGGAGTTGGTGTTGTCGGGGTACGAGTCGGCGGTTAA	MHQRHDGAARHRAGIGLGQVVDVLDELGHHGVVAQILVVLAHAGDGAVQGLGILVRQLSVLDAQLAGLLVDHEAPQPLQEAVRADDILCSPGTRGVQRAHGHLIHAQGIGAEVAADLVRGNGVLERLAHLAVLLVDLFALVEELTVALLHFSGGYVDAARIGVGVRLDVALVKQAAVGLARGDKTEVKQYLVPEPGVEQVQHRVLDAADVEVHAARVILAARARPVTLVVQRAELLRVRRVDVAQLVPGRAGPLWHHVGVAVVGLLTLAEVEGDFHPVSRLGQWGSGYGISVVGVEGNRVIVFHLRQLHRQHVLRQGVRLAVLVVDNGEGLAPVPLAREEPVAQLVLDPLLAVAVGNEPAYRRLNRRVLTHPVDVQALLVRGVDVRRVTREGLRGHVRIQHRGNGQGEDLGELVVALVVSGNRHDRAGAVAGEHVISDEHRHLLAVDRVGGVGTEEHARLFLVLLALHIALRGDRPLVGGDGLGGGGGPVRPGGVGVVGVRVGG				NA	NA	NA	NA	NA
AK009_07654	996			hypothetical protein	GTGCTCGGGCGCGAGCACGACGTAGCTGGCGCCGAACAAGGTATCCGGGCGGGTGGTGAACACAGTGATAGGGCCGGCGGGGGAGGCAAACGACACCTCCGCGCCGCGGGAGCGGCCGATCCAGTTGCGCTGCATGGACTTGACCTTCTCCGGCCAATCCAGAAGCTCCAGGTCGTCGAGCAGGCGATCCGAGTAGGCGGTGATGCGCATCATCCACTGGCGCAGGCGCTTGCGGAAGACCGGGAAATTGCCGCGCTCCGAACGCCCATCGGCGGTGACTTCCTCGTTGGCCAGCACCGTGCCCAGGCCCGGGCACCAGTTGACCATGGAGTCGGAGAGGTAGACGAGGCGGAACTCATCGATCGCGGCATGCTTTTCCGCGGTGGTGAGATCGCGGAAGTTGCGGCCGTCCTTTGTGGTGCGAGCGCCCGTCATCAAATCGCGCACGAGATCCTCGATCGGACGGGCTTTCTGCTGCTCCTCGTCGAACCAGGCGTTATAAATCTGCAGGAAGATCCACTGCGTCCAACGGTAAAACTCCGGATCCGTCGTAGCGACGGCGCGGCGGCGGTCATGCCCCAGGCCCAGCGAGTCGAGCTGGCGGGTCATGTTCGCGATGTTCGCCTCGGTGGTCGTGCGCGGGTGCGTACCTGTCTGGATCGCGTACTGTTCCGCCGGCAACCCAAAGGCGTCGTAGCCCAGGGTGTGCAAAACGTTCTTGCCCAGCATGCGGTTGTAACGGGCGAAAACATCCGTGGCGATGTAGCCCAGCGGGTGTCCCACGTGCAGGCCTGCGCCGGAGGGGTAGGGAAACATGTCCTGGACGTTGAGCTTGTCAGCGGGCAGCTGCTCACCAGTGGCGAGGTCACCCACCGGGTTCGGTGCATTGAACGTACCGTTGTCCACCCAGTAGCGCTGCCATTTCTGCTCAATCTCGTTGGCCACAGCCGCCGTATATCGGAATGCCGGCCCCTCAGTCGCGTTGGTCATGGTTAG	MLGREHDVAGAEQGIRAGGEHSDRAGGGGKRHLRAAGAADPVALHGLDLLRPIQKLQVVEQAIRVGGDAHHPLAQALAEDREIAALRTPIGGDFLVGQHRAQARAPVDHGVGEVDEAELIDRGMLFRGGEIAEVAAVLCGASARHQIAHEILDRTGFLLLLVEPGVINLQEDPLRPTVKLRIRRSDGAAAVMPQAQRVELAGHVRDVRLGGRARVRTCLDRVLFRRQPKGVVAQGVQNVLAQHAVVTGENIRGDVAQRVSHVQACAGGVGKHVLDVELVSGQLLTSGEVTHRVRCIERTVVHPVALPFLLNLVGHSRRISECRPLSRVGHG				NA	NA	NA	NA	NA
AK009_07655	1707			hypothetical protein	ATGCCGGCCCCTCAGTCGCGTTGGTCATGGTTAGACAGTGTAGTGGGTGGCCACCGGGTCCTCGGACCCGAGGAGCCAGGTCACCACGATCGCGCCGGGGTCCGGCACGTCCTTCGTGGACTCGCCGAGGTAGGAGGCGCGGCCCTTCTTCGCCGAGATCTCGCGGGTGTGCGCCACGCCCTCGACGGCCGCCTCGCGGGCGGCGGCCATGGCCTCCTCGAGCGGGGTGCCGGGGTCGATCTCCGCCAGCGCCCGAGCGGCGGGGTAGAGGGCGTCCACCATCGTCTTGTCACCGTACTCCGCCCCGCCGAGCTCGTGGATGGCCTCGTACGCGCTGTTCAGCCCCGCCGCGAGCGACTCCGTGGTGAGGCGGTCCTCCACGGCGTGGGAGAGCTCGGTGAACAGGGTGCCGAAGACGGCGCCCGATGTTCCCCCGGAGCGCACGAGGCAGCGGTGGGCGAGGCCCTCGAGGATGTCGCCGTCGCGGCCTCGCAGGGGCAGCTCGATGTCGCCGAAGGCGGCGTCGATGTTGGCGCCGAAGTCGCCGTCGCCGGCGATGCGGTCCAGCTCGGTGAGGTCGTCCACGCCCGCCTGGGCCCGCTCGATGAAGCCCGTCAGCCAGAGGTTCTCCTCGCCGGTCTCCGGCAGCTTGTCGGCGAAGCTCATCTCCGCCGGGGCAAATGTCGCCTCGGTGCCGATTGCGGTGGGCCAGGCCGGGGCGGCCGTGGGGGCGTCGAGAAGCTCTGCGATCTCGTCGTTGCAGCGCGTGAGCGTGACGGACACGCCGTGCATGTTGACGGAGGTGACGAAGGTGCCGTTGAGGCTGCGGCGCACGGTGATGCCGCGCTCGGCGAGCCAGGTGAGCACCTCGCCGAACACGAGGTGGATCTCGAGCAGGGTGGTGCCGCCGAGCCCGTTGGTCAAGCAGACGACCTCGTCGCCGTCTGCGAGCCCGAGCGCCTCGACGATGCCGGGCAGGATCGCCTCGACGATGTCGCGCGCCGACTTGATCTTCTCGCGGGCCACGCCACGCTCGCCGTGAATACCCACGCCGACCTCCATGTCGCCGCTGTCCAGGTCGAAGGTGTCGCGGCCCGAGGTGGGCAGGTATCCCGGCGCGAGCGCGACGGCCATGCTGCGGGAGTTGTCGGCGACCCACTGGGCCTTCTCCCGCACCGTCTCGAGGTCGTCTCCGCGGCGGGCGGCGGCGCCGGCAACCTTTTCCACGAGGATGGTGGCTGCGGTGCCGCGCCGGCCGGGCCCCTCCTCGTCGCCCCGCTCGGTGGCGATGTCCTCCTTGACCACCACGGTGGCGGTCTCCACCTCCGGGGTCATGCGGCAGGCGACGGAGAAGTTCATCACGTCGCCGGTGTAGTTCTTCACCACGTGCAGCACCCCGCAGCCCTGATCGGCCCACTTGGTGGCCTCGGCGATCTGCACCGCGTTGGGGGAGGTGAACAGGTGCCCGGGGCAGGCCGCGGCGAGCATGCCCTGACCAATGAAGCCGCTGTGCATCGGCTCGTGGCCCGAGCCGCCGCCCGAGATGACGGCGACGGCGGGCTCCCCGCTGTCGGTGACCACGGGGGAGGCCTGGTGGATGAAGCCCGCCGGGTTCCACTCCGCATCCGGGTGGGCGGCGACGGTGCCTCCCACCGCCTCCGCCGAGAAATCGTGCGGGTTGTTGCGGAAGGAGCGCAGGGGCGGTGA	MPAPQSRWSWLDSVVGGHRVLGPEEPGHHDRAGVRHVLRGLAEVGGAALLRRDLAGVRHALDGRLAGGGHGLLERGAGVDLRQRPSGGVEGVHHRLVTVLRPAELVDGLVRAVQPRRERLRGEAVLHGVGELGEQGAEDGARCSPGAHEAAVGEALEDVAVAASQGQLDVAEGGVDVGAEVAVAGDAVQLGEVVHARLGPLDEARQPEVLLAGLRQLVGEAHLRRGKCRLGADCGGPGRGGRGGVEKLCDLVVAARERDGHAVHVDGGDEGAVEAAAHGDAALGEPGEHLAEHEVDLEQGGAAEPVGQADDLVAVCEPERLDDAGQDRLDDVARRLDLLAGHATLAVNTHADLHVAAVQVEGVAARGGQVSRRERDGHAAGVVGDPLGLLPHRLEVVSAAGGGAGNLFHEDGGCGAAPAGPLLVAPLGGDVLLDHHGGGLHLRGHAAGDGEVHHVAGVVLHHVQHPAALIGPLGGLGDLHRVGGGEQVPGAGRGEHALTNEAAVHRLVARAAARDDGDGGLPAVGDHGGGLVDEARRVPLRIRVGGDGASHRLRREIVRVVAEGAQGR				NA	NA	NA	NA	NA
AK009_07656	1143			hypothetical protein	GTGCTCGCCCGGCATCTGCTTCAGCGTCTCCTCGCTGGAGCAGGCGAGCTCGGCGATCTTGTACAGGTCGTCGTCGGTGGCGTCGGCGAGGTGGATCTCCTCCAGGGTGGTCGGCAGGCCGACGGACTGGAGGAAGCCGAAGTAGCGGTCGGCCTCCTCGCGGGTGGCGCCGGTGAGCATGAGCTGCACGCCGATACCGAAGGCCACCTTCTCGCCGTGCGACATGTGGTGGATGTCGCCGTCGAGGGCGGTGAAGCCGTTGTGGATCGCGTGGACGGCGGCCAGCCCCCCGTTTTCGAAGCCCAGGCCGGACAGCAGCGTGTTCGCCTCACAGATGGCCTCGAGTGCCGGGGAAACGATGTGCTCCTCCGCGTCCTTGAGCGCCTGGTGGGCGTAGGCAAAGAGCGTCTCCTCGCACTTTTCCGCCAGCGCCAGGCCGGCCAAGGTGGGGCGGGAGGAGTCGTCCATGCGGCGGCCGTTGGCGCGGTGCACGGCCCGAGCCTCGACCAGTGTTGCCAAAGCGTCGCCGAGGCCGGAGCGCAACGTGTTCACGGGCGCGTTGGCGATCACGCGGGTGTCCACCGCCACGAGGTCTGGGTTGCGGTCGTAGAAGAGGTAGGAGTCGAACACGCCCTCGTCGGTGTAGATCACGGAGACGCGGGCGGTCGGCGCGTCGGCGGACACGGCAGTGGGGAAAATTGCTACTGGCAGGGAAAGCTTGTCGGCCACGGCGCGGGCGGAGTCAATGGTCTTGCCGCCGCCGAGGCCGATGATCACGTCGGTTTCGCCCGCCTGTGCTTTCTCCACAATGCGGCCGATCTCGTTCAGAGAAGCCTCGCCACCGAAGACCTCGTGCGTGGCCTCCATCCCGTCGCCGCGAAGGCTGTCCTGAAGCTTCTGGCCCGCGATGTCCCAGACGACCTCGTCGGCGATGATGAGCGGGGCCGAACCGAGCGGCTTGAGGTAGTGTGCGGCGCGGTCAATAAGGTCGATGCCCTGCACGTAGCGGGAAGGCCCCGTGTACATCTTGTCCTGTGTATGGGAAACGGTCATCGTCTTTCCTTTCTGTCGGGAGATCCTCTGGCGCCCCACCCTAGGCGACCACGGCGTTATGTGCGAGTAGCGACTTTCATTATCCTCTAG	MLARHLLQRLLAGAGELGDLVQVVVGGVGEVDLLQGGRQADGLEEAEVAVGLLAGGAGEHELHADTEGHLLAVRHVVDVAVEGGEAVVDRVDGGQPPVFEAQAGQQRVRLTDGLECRGNDVLLRVLERLVGVGKERLLALFRQRQAGQGGAGGVVHAAAVGAVHGPSLDQCCQSVAEAGAQRVHGRVGDHAGVHRHEVWVAVVEEVGVEHALVGVDHGDAGGRRVGGHGSGENCYWQGKLVGHGAGGVNGLAAAEADDHVGFARLCFLHNAADLVQRSLATEDLVRGLHPVAAKAVLKLLARDVPDDLVGDDERGRTERLEVVCGAVNKVDALHVAGRPRVHLVLCMGNGHRLSFLSGDPLAPHPRRPRRYVRVATFIIL				NA	NA	NA	NA	NA
AK009_07657	324			hypothetical protein	ATGAACGAGCGTTACGAGATCGACCACGACTGGCTGGCCCCCGACGACTCGCCCGCGACCGTGCGCCTCACGGTCACCGGGGCGCACGCGCGCCAGGCGGTCCTCGACTGGCTCGACGACCTGCCCGCCGACCCCCTCGGCACGCGCGGGCGCGGCGGCTGGATGGTCCAGGAGGTCACGTCCGCGCCGGAGGAGGTTGTCGTGGACATCACCTCCGGCGGCCAGGACGTCGCCGAGAGCCTCGAAGCCGGCACCGCCGAGGCGTTCGAGGTACTCGACGCGCTGGGCTGCGAGCTGCGCTGGGAGCAGCGCCCCCGCGGCTAG	MNERYEIDHDWLAPDDSPATVRLTVTGAHARQAVLDWLDDLPADPLGTRGRGGWMVQEVTSAPEEVVVDITSGGQDVAESLEAGTAEAFEVLDALGCELRWEQRPRG	PGPT0003755_5272	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
AK009_07658	510			hypothetical protein	GTGCGCCGACACGGACCGGCCATCAATCGAACAGGTGGGCGCGAGTTTCCGGGGCTGCCAATTACGCAGATTCCGTGCCAACGCGCGGTGCTTATCGACGGCCCGCTCCTCACCCGGTCGATGATCCGCCACGGCGGCGGAGGGCAGGTCAGACTTCGAGTAGCGCCTGCTCATCCCCGTTACACTGGCCCTATGTTCAAGGACGCAGAGGAAGTCTCCACCGCGGCAGCCGCTTTCCTGTCGGCAGAGTTTGTCGGAAAGGCGCTGACGTATCTCATCGAGGAAATCGGGTTGGAACCTGGTGAGGTCGCCGAGGTGCCTTTGGGCTCCTCGCGAGTTGGCGGTCTCCCCGACCTGCCGAAGGGCGCTGAATGGCCCACAGGTCCGGGCGGTATGCCCTACGCATTCATCGCCCAGATCAATCTGGCGGAGCTCCGCGATGCCGTCGGAGACGCGTCGGGTCTTCCCGAAAGTGCGCACAACGCTACACGCTTGCAGCAAGTTAGGTAA	MRRHGPAINRTGGREFPGLPITQIPCQRAVLIDGPLLTRSMIRHGGGGQVRLRVAPAHPRYTGPMFKDAEEVSTAAAAFLSAEFVGKALTYLIEEIGLEPGEVAEVPLGSSRVGGLPDLPKGAEWPTGPGGMPYAFIAQINLAELRDAVGDASGLPESAHNATRLQQVR				NA	NA	NA	NA	NA
AK009_07659	1080			hypothetical protein	ATGAAGCTTGTTGTCCATCTATACGTGTCCAATCTTTTCGCCGAATTCGAATCGCTCGTACCGGGCGCGGAAATTCTTTCCGCCTGGGCGCTGCCAGTGCAGGAACTCGGTGCCGTCGGCCCGCTCGCCGTGGTCGTGCGCAAGCTTGATCAGTCCCACGACGCTCGCCAGGCCTTGGGTTGCGGGGTGAGCGGAAAGCACGTCGCTTATCGACGCCCTCCCGCTCCTGTCCACCACATCATTGATCGCCCGGCGCAGCTCCTCCCAATCAATCTCGGATTCCCGGATCCTCGCGCGCACCGCCTCAAAGTCGATCTCCCCCGACTCGTCGACTTCCATGTTGGGCTTGATGCGGTACTCCATCGGGTCGTAGAGTTCCCAGCTCGACAGCGAGGTCGGCTGCCGGGTGGTCAACTCCAGATCGAACTCGATGGACTCGTAGGGTTTGATGCCGCGCTGCGCGAGTTGGAGAGCGAGCTGCTGGGCGGTATTGATCGCCCTGGTCAACGCTTGCTGCGACTCCGCCTCGCGGGACTGCACGAACCTTCTCAGCGATCTGGACAGGCCTGTCATCGAGTCATGGACTTGCCCCGACGAGGTATCCAGTGTGTCTGCCAGCTGTGCCAGCTCCGTTCGCTCCAGCGGATCGAGCTTGTCCACGAAATCACGGGACAGCACGGAGCTGACAGTCGCGTCGAACTGCTTGGATCGCTCCGGGTCAAGGAAGACCTCGTAGAAGCCGTTAAAGGCTTTTCCTGCCTCGGACTCGGTAACCAGATCCACACCCCGAAACACGTTGTCCAACACCGCGCCGGCGTTGAGTTGCCCGTCGACTATGGACTCCCGCAGACCCCTGTCGACCTCCTCGATCTCCTCCCGTACGCGGGAAAAGTCTGTGGGCAAATCGCTCGCCAGGGCCAGGATCTCGCGCGCTTTCTCCACGGCCTCCGCATCAGATATGATGCCGACCCCGTTCATTCGGATCTGGTCGATGCGCGCCTGCAGCTGGTCGCGCTGTTGCTCGAGGCGCCGAATAGCGGTCGCCTCATCAGGGTCCGTCTCCGCAGCCAGACTATGTAA	MKLVVHLYVSNLFAEFESLVPGAEILSAWALPVQELGAVGPLAVVVRKLDQSHDARQALGCGVSGKHVAYRRPPAPVHHIIDRPAQLLPINLGFPDPRAHRLKVDLPRLVDFHVGLDAVLHRVVEFPARQRGRLPGGQLQIELDGLVGFDAALRELESELLGGIDRPGQRLLRLRLAGLHEPSQRSGQACHRVMDLPRRGIQCVCQLCQLRSLQRIELVHEITGQHGADSRVELLGSLRVKEDLVEAVKGFSCLGLGNQIHTPKHVVQHRAGVELPVDYGLPQTPVDLLDLLPYAGKVCGQIARQGQDLARFLHGLRIRYDADPVHSDLVDARLQLVALLLEAPNSGRLIRVRLRSQTM				NA	NA	NA	NA	NA
AK009_07660	267			hypothetical protein	GTGGCCCTGGTAAGGCAGAGTCGCCTCGAATACCTCGTCCTCATCCACGATGGTGCGCTCGTTGGGGTTGGTGGTCACCAGCTCGCGGCGCAGATGCAAGATGACCACCGTATCCATGAACGTCAGCGATTGTTTTCGCAGCAGAGCGCGTTTCTCAGGCACCTCCACATCCCACGCCTTGGTGTAGGCGACACCGGCATTGTCGTCGACGATGAGGGTGAGAAAGAGGTTATCCAGCTGCTGCGCAAGCAGCTCCCGCGAGCCTGA	MALVRQSRLEYLVLIHDGALVGVGGHQLAAQMQDDHRIHERQRLFSQQSAFLRHLHIPRLGVGDTGIVVDDEGEKEVIQLLRKQLPRA				NA	NA	NA	NA	NA
AK009_07661	1155			hypothetical protein	GTGAATGAGAGTGCGCAGTCGGTCCTGCTCCGCTGCATTCTCCTCACGCCGGGCATTTTCCGCGGTGATGGTTCCGTCGATGGCCGCGAGCTCGGACGTCAGTTGGGCCCGTTGCTTCTGGGCGAATTGTTGCTTCCAGGTATTGATGAACAGCTCGAGGTGCTCGCGTTCCTCGTCAACGGTGAGCAGCTCGGTGGCCACGTCCGAGCGTTTCTCGGCCGCTACCCGCACGGGCAGCAGGTGCTCGATCTGCTCGCGGGCATCCACCACAGAGGAATACGCCGTGTGCAGGTCCGTGAAGTTCCCCGCCGCCTGCTCCGCGATGGCGAACGTCTCCGGCTCCGGAAGCATGAATGTGCGCATCAGGTGGTTGAGATCCCCGAGCGTCTTCGCGGACTGTGTGCGGTGCAGCAGATCCAAGGCTCCTTCGTCGGTGATTCCGACGGCGCGGCGCAGCGCCGCAATGAACTGGGGGTGGCTGCGGCTCACGTGCAGCGCGGACGCGTACTGCTTTTTCGCCTCCGTCACAGGCAGGTTTTTCAGCGCCAGGGGCTCGAACTCCGTCAGGCTCGCCTCGCGGGGAAGGAGCAGGTAGAGGTCCACCATCTCCTGGCGCGAGTAGGCGTTCGCTGGCAGGAACATAAGCCGGCAGGCGGTGACCACGCCCTCGGTGCCGTTGTCGTAGCGCAGCGCCACCCCGCTCCAGGTCGCTCCCTGGCGCAGGTAGGATTGTGTCAGTTCGTCAGCCTCCACAGAGTGCTCGCGGCGCCACGCCCCGCGGCAGTAGGTGACGAGGTTTCGCCCCGACTGGGAATGGCTGTCAGCAGCCGCGTTGAAGCGGACTTTGCTGGGTGGCACCAGGATGGTCGAGAGGGCGTCGATAAGCGTGGACTTGCCCGACCCCGATGGCCCCGTGATGAGGAAGCCTTCCCGCGATACGTTCACCGTGTGCAGGTTGTCGAAGGTTCCCCAGTTGTACACCTGGATCTGGGACAGTCGAAACTGGCCTGGGATGATGGCGGTCACTGCTCGTCCTCCAGAAGAGCGCAGAATGATTCGGTGACGGCGGCGATTTCCTCGCCGGAGAAGATGATGCGCAGTACAGGGGAGACCTCGAAGCGGCCTTCGGTGGGGGTGGACACGATGATGGAGTAG	MNESAQSVLLRCILLTPGIFRGDGSVDGRELGRQLGPLLLGELLLPGIDEQLEVLAFLVNGEQLGGHVRAFLGRYPHGQQVLDLLAGIHHRGIRRVQVREVPRRLLRDGERLRLRKHECAHQVVEIPERLRGLCAVQQIQGSFVGDSDGAAQRRNELGVAAAHVQRGRVLLFRLRHRQVFQRQGLELRQARLAGKEQVEVHHLLARVGVRWQEHKPAGGDHALGAVVVAQRHPAPGRSLAQVGLCQFVSLHRVLAAPRPAAVGDEVSPRLGMAVSSRVEADFAGWHQDGREGVDKRGLARPRWPRDEEAFPRYVHRVQVVEGSPVVHLDLGQSKLAWDDGGHCSSSRRAQNDSVTAAISSPEKMMRSTGETSKRPSVGVDTMME				NA	NA	NA	NA	NA
AK009_07662	744			hypothetical protein	TTGCAGCGCACCTTTGATCAGGTCACGCGAACGTGTGGCGGCCCCGAGCTTTTCCGTGGCAGCGCGAACTGCCGCCTGGAGCTCGTCGATCTTGTCATCCAGGTTGCCCCACAGCACCCACCGCGACTTGTCCTCGACGCGGCTACGGTCATCCTTGACGTGGTCGTGTGGGTTGTGTTTCACCGAGCCTTGGAGGGTCACGGCGCGCCGGGCGGCCCGGAATTCGTCCATGGTCTCGCAGCAGAGGTGGTCAAAGCTCTTGGAGAGCTGTGTTTGAATCCAGGCGTGGAACCGCCCCTCGGCGACCTCAATTTTCTGGCCCAGCGAGCCCTGCACAAACGAAGGCGGCCGCTGGTTCTCCAGCTGGGGGCTGAATCGGGTGTAGGACACCTTCGCCCCGAGGTGTGTCGCGTTGATCGCGGAGGAGACCTGTGCGTACAGCTCCTCCGGCACAACGAGAGTCCGGGCGAAGCCACCCATGACACGTTCTGCAGCACCCTGCCATGCGTCTTCGCCCTGCCTCATACTCATCAGGTCCGCGACGAAGGGCAGGTCCTTCTCCCTGATACCCGCGACCTGCGCGATGAGGGCCCGCGCACCAATCAACCGGCTGTCCATCGCGGAGCCGGACGAGCGCAGTGTCTCCAGCTCCTTGATACGGCTGTTCTTGATGGTGACAAGCTCGTAGACACGCCCCTGCGCCTGCTCCAATTTGGTTTCGTTGTCAGCCTGTTGCTGGCGTAG	MQRTFDQVTRTCGGPELFRGSANCRLELVDLVIQVAPQHPPRLVLDAATVILDVVVWVVFHRALEGHGAPGGPEFVHGLAAEVVKALGELCLNPGVEPPLGDLNFLAQRALHKRRRPLVLQLGAESGVGHLRPEVCRVDRGGDLCVQLLRHNESPGEATHDTFCSTLPCVFALPHTHQVRDEGQVLLPDTRDLRDEGPRTNQPAVHRGAGRAQCLQLLDTAVLDGDKLVDTPLRLLQFGFVVSLLLA				NA	NA	NA	NA	NA
AK009_07663	252			hypothetical protein	ATGTTTGTGGGTTTGGTCGCGGAGCATCTCCCGGAAGCGCTGTTCGAAGCGCGGGAGATCATCGGACTCGAGACGCTCCAGCTCTTTGAGGAAGTCTTTCTCCCAGGCCGGATCGGCGCTGAGATCGCCCTGGCGTTGTGGCCAGCGCAGAAGGTAGCGGTTCATGGCGTCGCGAAGCTGGCTGTCATAGCGGCTGGCACGATCTTTCAGCGCCGCCAACCTGTCCTCAATGTCCCTGGTGAGCCGGTGTGA	MFVGLVAEHLPEALFEAREIIGLETLQLFEEVFLPGRIGAEIALALWPAQKVAVHGVAKLAVIAAGTIFQRRQPVLNVPGEPV				NA	NA	NA	NA	NA
AK009_07664	246			hypothetical protein	GTGTTCGCGGGTGTCCAGCCGCAGCTGGCGCTCGCGCGGCGAGGTGTTGTCGGAGACCGTCACCGCGTCAATCACCGCGCGCAGTTTGTGGAAGCGGTTTTCGCTTTCCTCCTGGTCGGCGTCGTTGATCATGCCCTCCATTGCGGCATCCAGAAGCTGCACAAAGTCGCGGGTGATCGCTGGCTGCGCTTCGCGCACCTCGATGGTGAGATGCGTGCCTGGGTAGAATTCCACCTCCGCCAGTGA	MFAGVQPQLALARRGVVGDRHRVNHRAQFVEAVFAFLLVGVVDHALHCGIQKLHKVAGDRWLRFAHLDGEMRAWVEFHLRQ				NA	NA	NA	NA	NA
AK009_07665	243			hypothetical protein	GTGGAACCCGAACTGGCGGAAAGCTCCCATGGCGGCGCGGGTGAACTCGGTGTCGGCTCGGTCGAAGGCCTCGTCGAGCACGATGGTGCCAAAGCGCGGGTAGATCTCCCCGTCCAGCTGTACCGTCGAGTTGCGTGCCTGGGAGGCGGACATCCCGGTGCCGGTGAGCCGGTAACGCAAGGCCGCCGCGAGACAGAACGAGGAGAGCTTCTGGGCCTGGCCACCGGACAGACCCTCGGCTGA	MEPELAESSHGGAGELGVGSVEGLVEHDGAKARVDLPVQLYRRVACLGGGHPGAGEPVTQGRRETERGELLGLATGQTLG				NA	NA	NA	NA	NA
AK009_07666	1095			hypothetical protein	TTGAAAACCCCTGAGCAGGTGCGCGCTCGCGCCGCAACGTTTTACGCGCGCAACCACCGCGCGTGGCTCGGTGGCGATTTCTCCGGGCTGACTATCAATCTCCAGCCGCCGACGGGCAGGGCCGCAGAGCGTGACGACGGCCTTTCGGTGCGCTCCTGGATCGACGAGTGGACCCGCAGCGCCATCCCCGCCGAATGGGAAGACAAGAAACTCGGCTACCTGGGCACCTACTCACTGCCCGCGCGCGTGGTGCTCTCCGACGCGGCAGTGGCCGCAGAAGCGGCAGGGAGGTCCTCGCACTGGCGTCGCGTCAACGAATTACTGTCTTTGTTCTGCCACGAGCTGGGGGAAGAAGTTCGAGCCGGCCTTGCCGCAAAGCTCGCATACTGGGAGGGCTGGGACAACGTGGTCGCCGCGCAGTTCATCGATGTGGTGCGCTGGCTACGCACTCACCATGTCGCCAAGCACTACGCACGCGAGCTGCCGATTTTCGGTATCGACTCCAAGTGGATCGAAACTCGCCGCGCGGTGATCTCCGCGGTGGTCGGCGAAATTAGCTTCCGTGAGGCACCGTCGATGGTGGAGCTGCGCATCCTGGATCCCACGGACAACTTCTGCGGGATGCGTCACTGGTCGTGCCCCGTCTCCGCGCTCTCCGACGTGCCCGGTGCGCGGGTGTTGATCGTCGAAAACCGCCAGACCTTTCTCGCGCTGCCCAACCTGCCGAACACGATCGCGGTGTACGGCGGCGGGCTACGGGCGCACTCCCTCGTGCGCGATATCCCCTGGCTGGCGACGAAAGAGTTACTGTACTGGGGAGACTTGGACTCGCACGGCTTCTATATTCTCGAGCTGGTCCGTCGGCACGTCTCGCCCGTGCAGTCAGTCCTCATGGACCTAGACACCGCCCGCCGCCATCTGGACCTCGCGGTCGAGGAACCCCAGCCCAGCAGGTTTGTGCCACACCTCTTAACCCCCTCCGAGACGATGGCCCTGGAGTTCCTGCGCAGCCACTCCACTAGCGGATGCATGCGGATCGAGCAGGAGCGGATCGTGTTCGACCACGTGGAGAAAAGACTCAGGGAGATTGGCTAG	MKTPEQVRARAATFYARNHRAWLGGDFSGLTINLQPPTGRAAERDDGLSVRSWIDEWTRSAIPAEWEDKKLGYLGTYSLPARVVLSDAAVAAEAAGRSSHWRRVNELLSLFCHELGEEVRAGLAAKLAYWEGWDNVVAAQFIDVVRWLRTHHVAKHYARELPIFGIDSKWIETRRAVISAVVGEISFREAPSMVELRILDPTDNFCGMRHWSCPVSALSDVPGARVLIVENRQTFLALPNLPNTIAVYGGGLRAHSLVRDIPWLATKELLYWGDLDSHGFYILELVRRHVSPVQSVLMDLDTARRHLDLAVEEPQPSRFVPHLLTPSETMALEFLRSHSTSGCMRIEQERIVFDHVEKRLREIG				NA	NA	NA	NA	NA
AK009_07667	1239			IS256 family transposase IS3506	ATGGCCGCTGGCCCCCATTCTATCGACCCGACCACCTATCTCGACGAACTACTGGCTCAAGCCTCCCCGGACCTGATGCGCGAGATGCTCCAGGATTTCATCAACCAGATCCTGTCAACCCAGGCAGACAGTGTCTGCGGCGCCGAGTACGCCACTGTCTCCGATCAGCGCACCAACCGACGCAACGGCTATCGCATACGTCAACTCGACACCAGAGTCGGCACCATCGATGTTGCTGTACCGAAACTGCGCCACGGAGCGTTCTTCCCGGACTGGCTGTTGGAGCGCCGCTCACGAGCAGAACGCGCCCTGGCCACCGTGATCGCCACCTGCTACCTGAAGGGAGTCTCCACCCGCAGGATGAACGATCTCGTCACCACACTCGGCATCACCAACTTGTCGAAATCGCAGGTCAGTGACATGGCCAAAGAGCTCGACGGCATGGTGGAGGAATTCCGCACCCGCCCGTTGGATTCAGGCCCGTATTTCTATGTCTCGTGCGACGCGCTGACGATGAAAGTCCGCGAAGGCGGACGCGTGGTCAAAACCAGCGTGCTGTTGGCCACCGGCGTCAACAATGATGGCTACCGGGAACTGCTCGGCATGCATGTCGCCACCGCGGAATCCAACGCGTCGTGGAAAGGCTTCTTCCAAGATCTAAAAGCCCGCGGGCTTCGCGGCGTCTTCTTAGTCACCAGTGACGCCCATGAAGGTATTCAGCACGCTATCTCCGAAGTGCTGCCTGATGCGTCGTGGCAGCGGTGCCGCACTCATTTCGCGAAGAACCTCTACGAGAAAGTCCCGAAAACACAATGGCCGATGGTCTCGGCGATGTTCCAGACAATCTTCCAGCAACCCGATGCCGCATCCACCTGGGGACAAGCCCGTGAGGTAGTTGACCTGTTGGAACCGAAATTCCCGCAGGTCGCTGCCTATCTAGAGGAATCCCTCGATGAGGTGTTGGCGTTTACCGCAGCCCCGAAACCAGTGTGGACGAAGGTGTGGTCGAACAACCCCACCGAGCGGTTAAACCGGGAAATCCGCCGGCGCACCGATGTCGTGGGCATCTTCCCCAACCGCGAATCCATCATCCGGCTTGTCGGGGCGGTTCTTGCCGAGCAACACGACGATTGGATCCAGCAAAAACGCTACATGTCACTGTCCGCACTCGAACACACCAAACAACTCATGCACCCCACAGGAGACGACCATGGTGACCATCACCAGCTAACCGCCTAA	MAAGPHSIDPTTYLDELLAQASPDLMREMLQDFINQILSTQADSVCGAEYATVSDQRTNRRNGYRIRQLDTRVGTIDVAVPKLRHGAFFPDWLLERRSRAERALATVIATCYLKGVSTRRMNDLVTTLGITNLSKSQVSDMAKELDGMVEEFRTRPLDSGPYFYVSCDALTMKVREGGRVVKTSVLLATGVNNDGYRELLGMHVATAESNASWKGFFQDLKARGLRGVFLVTSDAHEGIQHAISEVLPDASWQRCRTHFAKNLYEKVPKTQWPMVSAMFQTIFQQPDAASTWGQAREVVDLLEPKFPQVAAYLEESLDEVLAFTAAPKPVWTKVWSNNPTERLNREIRRRTDVVGIFPNRESIIRLVGAVLAEQHDDWIQQKRYMSLSALEHTKQLMHPTGDDHGDHHQLTA	PGPT0030665_1191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
AK009_07668	1014			hypothetical protein	GTGACCACCCCGGCAGGTGCCATAGTAGTAGTCCCATCAGTGTCCTGTCTGCTCGAACCCTCGGATCAGCGGCTACCTTCATCACTTCCCTATGCGAAAGCGTTGACAGCCATGACCACAGACATCGACCTCTCCGCAAGCCCCGTCGCCGGGGTCGACACCCACACCGACACTCACACCGTCGCCGCGGTGACCCCAACCGGCCGGCACCTGGCCACCGAAACCTTCCCCACCACCAGGCCCGGCTACACACACCTCGCCGAGTTCCTCAGCAAGCACGGTGTCGGCGCCGTCGGAGTAGAAGGAACCAACTCCTTCGGTGCCGGATTAACCCGGCACCTCATAGACCGTGGCTACACGGTCGTTGAAGTCCTGCGCCCGGCCCGCAGCATTCGACGCCGGGACGGGAAATCAGATCCGGTGGATGCCCTTGCCGCCGCGCGACAGGTCCTGACCGGGGAAGGGCTGAGCACGCCTAAAGATTCCACGGGCCCGGTGGAGTCGTTACGAGCGTTACAGATCACCCGGAAACAGCTGGTGTCCACCACCGCGAAACTCATCACAACGATGAAGTCGTTGCTGGTCACAGCCCCTGATGACATCCGCACCCGCTACGCCACGATGACCAACCACGCTCTGGTCAACGCGTTGGTGTACTGCCGACCGTCGTCGGATGTTACTGATCCGCGAAATGGTGTGCTGACCAGCCTGAAGATTCTGGCCACGACCTACCGCGCATTGCGGGTGCAGTGCGATGAGCTGGAAACCCGGATCGCTGCCCTGGTGTCAGTGATCAATCCCCATGTCAGCAACATCGTGGGATGTGGGGCTCTTGTTTCCGCTGATCTGCTGATCAGCATCGGCGATAATCCGGAGCGCATCCACTCCGAAGCAGCGCTGGCGCACTTATGTGGAGTGGCTCCACTGCCGGCAAGCTCTGGGCGAACCAACCGGCACCGGATCGTGGTGGTGACCGGCGGGCGAACTCAGCGTTGTACCGAATCGCTATGGTGA	MTTPAGAIVVVPSVSCLLEPSDQRLPSSLPYAKALTAMTTDIDLSASPVAGVDTHTDTHTVAAVTPTGRHLATETFPTTRPGYTHLAEFLSKHGVGAVGVEGTNSFGAGLTRHLIDRGYTVVEVLRPARSIRRRDGKSDPVDALAAARQVLTGEGLSTPKDSTGPVESLRALQITRKQLVSTTAKLITTMKSLLVTAPDDIRTRYATMTNHALVNALVYCRPSSDVTDPRNGVLTSLKILATTYRALRVQCDELETRIAALVSVINPHVSNIVGCGALVSADLLISIGDNPERIHSEAALAHLCGVAPLPASSGRTNRHRIVVVTGGRTQRCTESLW	PGPT0030635_777	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK009_07669	516			hypothetical protein	TTGCTCCTATCCACTCCACGTCCCCGCTCATGCCATACTCTCAGGGATGAATTCGACAACCCTGAAGCTCGCCCTCCCGGCACTCGCCGCCGCCCTGGCGCTCACCGCCTGCTCACCGACGGAGAATCAAGCGCCCCTCAAGCCCCAGGAGACGGTCACGCTGACGTCGACGGTCGCGCCGGAGAGCACCACAGAGACCCCCACCCCGGAAAGCGCGCCGCCCGCCGGTGTGCGCACCGTCGACTTCGATCATTTGCAGCAGGTCAGCCCGTCGATGTTCACATCCGGCAGCGTCAAGGCGTTCCGGCACTTCAACGGCGGCCGGGCGGGGGAGTGCTTCGTCCACGAGGGGATCACGTGCGTCGGCACCGCCGACAGCTCCGTGCCCGACGTGGACATGCCGCCGTTCAGCGGGCGGCCGGGAGCGGTCTCGATCGCCAGCGCGGGCCTGGCGTACACGATCCTCGAGGGCGCGCCGCCGGCCCAGGTAGAGCTTGCACCCGGCCAGTGGGTTGA	MLLSTPRPRSCHTLRDEFDNPEARPPGTRRRPGAHRLLTDGESSAPQAPGDGHADVDGRAGEHHRDPHPGKRAARRCAHRRLRSFAAGQPVDVHIRQRQGVPALQRRPGGGVLRPRGDHVRRHRRQLRARRGHAAVQRAAGSGLDRQRGPGVHDPRGRAAGPGRACTRPVG				NA	NA	NA	NA	NA
AK009_07670	273			hypothetical protein	GTGCGCCCGGGCGTCGTAGTTGTCCAGCACGTCCATCGCCTCGGCGCAGGTGATCTCGCCCTCGATGACCTCCGCCAAACGACGGCCCTCCATCGCGCCGCATATGATCGGGCCGCGCACGAGGACGTCCTCACCCGTGTGGTACTCCGTCGCCGGCTCCGCCTGGGGTTGGGCCGCGAGCTCCTCGACGCTCATCACGGGCCCGCGCGTTGTGATCCGCAGGTCCTCGCCCGCCACCTCGAAAGCGGCGGTATCGTTGCTGCACACGAGTGA	MRPGVVVVQHVHRLGAGDLALDDLRQTTALHRAAYDRAAHEDVLTRVVLRRRLRLGLGRELLDAHHGPARCDPQVLARHLESGGIVAAHE				NA	NA	NA	NA	NA
AK009_07671	528			hypothetical protein	ATGACGGCAAGAAGCATCTTCGTTACTGTTGCAGCGCTCGGAACCCTCGCCCTCAGCGGCTGCGGCGGGCAGGACCAACAAGCTCCCGAGACTCCGGAGGAAAGCACAACCACGAAAACGGTCACCAGCGCGAGCTCTGCCACCCAGGCGTCGCCGCAGCAGCCAACCTCAGCGGAGCACTCGACACCCACGCCGTCCGCACCGTCTATCGCCGAGGGCACCACGGATGTCGGGAAGCAGGTCGACGTGTTCGGCCAGCCCGCCACTGTGTGCGTCTACGGCGATGGCTACGGCCTCAACACCGTCGCCGCCGGGACAAACACGAGCTGCGAATTCGCCACCGAGACGCTGCACCAGCTGACTCAGGGGCTCAACCCGACTTTCGAGAACGTCCGCTCAACCCTGCCGGCGGCCATCACCGCGCACAGCCCCGCCACGGGCCAGGACTACGAGATGAGTTGCGGCGTCGACGCCAACAAGCTGGTCACCTGCTGGAGCGGCAACGACGCGGCGGTGTACATGTACTGA	MTARSIFVTVAALGTLALSGCGGQDQQAPETPEESTTTKTVTSASSATQASPQQPTSAEHSTPTPSAPSIAEGTTDVGKQVDVFGQPATVCVYGDGYGLNTVAAGTNTSCEFATETLHQLTQGLNPTFENVRSTLPAAITAHSPATGQDYEMSCGVDANKLVTCWSGNDAAVYMY				NA	NA	NA	NA	NA
AK009_07672	270			hypothetical protein	TTGACCCTTAACCCGCATCCCCACTCCCCTAAATTAAAAAACCTCGCTAATCCCCTCTATGAGGGAACAGCGAGGAACAATGACCTCAATATACCTCAAATACATGAGAATGCAAGCGGAGCCGAGGCAGGGCGGGCCTCAGTACATGTACACCGCCGCGTCGTTGCCGCTCCAGCAGGTGACCAGCTTGTTGGCGTCGACGCCGCAACTCATCTCGTAGTCCTGGCCCGTGGCGGGGCTGTGCGCGGTGATGGCCGCCGGCAGGGTTGA	MTLNPHPHSPKLKNLANPLYEGTARNNDLNIPQIHENASGAEAGRASVHVHRRVVAAPAGDQLVGVDAATHLVVLARGGAVRGDGRRQG				NA	NA	NA	NA	NA
AK009_07673	1323	ywqF_2	COG1004	UDP-glucose 6-dehydrogenase YwqF	ATGAATATTGCTATTTTTGGTACAGGTTATGTAGGACTAGTGACGGGGGTTTGTTTATCGGATATTGGCCATCGCGTGACTTGTATTGATATTGATGAAAATAAAGTTGCAAGAATGAAAAAAGGTATTTCACCAATATATGAACCAGGTTTAGATGATTTAATGAGTAAAAACATTAAAGAAAATAGATTGTTATTTACAACAGATTGTCGTCAAGGGATTGAAGAAGCAGATGTTATTTATATAGCAGTTGGTACACCGCAGCAAGCAGATGGTTCAGCTAATTTACAATATATTGAGCAAGTCGCTTTGGATATTGCTAATAACCTTAAAAAAGATTCGATTGTAGTAATTAAAAGTACAGTTCCAGTTGGCACAAATGATCATGTGAAAAATTTAATTCAGCAAAATTTAAAAGCAAATGTGAAAATTAGCATGGTATCGAACCCTGAATTTTTAAGAGAGGGTTCAGCAATTCACGATAGTTTCTATGGAGATCGTATCGTTATTGGGACTGATGATGCTAAAACTGCCGAGGCTATGGAAGAAGTGAATAAACCTTTTAATGTTCCTGTTTTTAAAACAACAATTAGAAGTTCAGAAATGATTAAATATGCAGCAAATGCTTTCTTGGCTACAAAAATTAGCTTTATTAATGAAATTGCTAATATTTGTGAAAAAATAGGTGCGGATGTAGAGCATGTAGCTAATGGTATGGGATTAGACAAAAGAATTGGTACACAATTTTTAAAAGCTGGTATTGGATATGGTGGTTCTTGTTTCCCAAAAGATACACATGCCTTAATACAAATTGCTGGTAATGTAGATCATGATTTTGACTTGTTAAAATCAGTTATTACAGTAAATAATAATCAGCAGGCATCGCTTGTTGAAAAAATAAAAAATGTATTAGGTGATATGGAAGGTAAACAAGTGGCTATGCTTGGTTTAGCTTTTAAACCAAATACTGATGATATGAGAGAAGCGGCGTCTATTGTTATTGCAAATGATTTAGTAAAAATGGGTGCGCAGGTTGTAGCTTATGATCCAATTGCTACTGAAAATGCAAAGAAGATATTACCTAATGAGGTTCAATATGTATCTTCTGTTGAAGGAGCAGTTGAAAATGCCGATGTAACAATTATTGTAACTGAATGGGATGATATAAAGGAATTCCCTATTGAACAGTATATTAAATTAATGAAACAACCTATTGTTTTTGATGGTCGTAATTGCCATGGTTTAGAATATGTGAAGAAGTTTAATGTAGACTATTATTCAGTAGGAAGACCAGCTGTAGTTCGTGAAAAAGTTTCTTTATAA	MNIAIFGTGYVGLVTGVCLSDIGHRVTCIDIDENKVARMKKGISPIYEPGLDDLMSKNIKENRLLFTTDCRQGIEEADVIYIAVGTPQQADGSANLQYIEQVALDIANNLKKDSIVVIKSTVPVGTNDHVKNLIQQNLKANVKISMVSNPEFLREGSAIHDSFYGDRIVIGTDDAKTAEAMEEVNKPFNVPVFKTTIRSSEMIKYAANAFLATKISFINEIANICEKIGADVEHVANGMGLDKRIGTQFLKAGIGYGGSCFPKDTHALIQIAGNVDHDFDLLKSVITVNNNQQASLVEKIKNVLGDMEGKQVAMLGLAFKPNTDDMREAASIVIANDLVKMGAQVVAYDPIATENAKKILPNEVQYVSSVEGAVENADVTIIVTEWDDIKEFPIEQYIKLMKQPIVFDGRNCHGLEYVKKFNVDYYSVGRPAVVREKVSL	PGPT0017855_3334	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
AK009_07674	783	tuaG_2	COG0463	Putative teichuronic acid biosynthesis glycosyltransferase TuaG	ATGGATATTGATTCGAATGTATCAGATATTAAACCTTTTATTTCAATTGTTACACCATCTTATAACGCAAGTTCCTTTATTAAAGAGACGATTCATTCCGTACAATCTCAAACTTATAATAATTGGGAAATGATTATTGTAGATGATGTTTCAAAAGATAATACTCGTGAATTAATAAAAGAAGAAATTGAAACAGATAACCGTATTCGGTTAATTGAATTGACAGAAAACAGTGGAGCAGCAATAGCGAGAAATACTGGCATTAATAATGCAAAAGGAAAGTATGTAGCTTTCCTAGATAGTGATGACTTATGGCTACCGGAAAAACTTGAAAAGCAATTAGAATTTATGCAGAATAATGATATAGCTTTTTCATTTACGAGTTATCAAATTATGAATCAAGATGGTATTCTCACTGATAAGGTTGTGCATGTTCCAGAGAAAATTAATTATAATGGATTATTAAAAAATACGATAATCGGCTGTTTAACGGTTATGTTGGATATTGAGAAGTTAGGGAAAGTACAAATGCCTAATATTAGAACACGTCAGGATACTGCAACATGGCTGAAAATATTAAGACAAGGCCATGTTGCTTATGGCTTAGATGAAGTTTTATCTAAATATAGAAAAGTTGAAAACTCTATTTCTAGTAAAAAATTCAAAATGGCTAAAATGAATTGGAAATTATATAGAGAAATTGAGGGATTAAGTATCCTGAAATCTGCATGGTGTTTTATAAATTATGCTCTGAATGGAGTAGTAAAACATTTTGTTAAATAA	MDIDSNVSDIKPFISIVTPSYNASSFIKETIHSVQSQTYNNWEMIIVDDVSKDNTRELIKEEIETDNRIRLIELTENSGAAIARNTGINNAKGKYVAFLDSDDLWLPEKLEKQLEFMQNNDIAFSFTSYQIMNQDGILTDKVVHVPEKINYNGLLKNTIIGCLTVMLDIEKLGKVQMPNIRTRQDTATWLKILRQGHVAYGLDEVLSKYRKVENSISSKKFKMAKMNWKLYREIEGLSILKSAWCFINYALNGVVKHFVK	PGPT0015205_79	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
AK009_07675	1098	bshA_3	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAAAAAAATATGCTATTTAGCCCCTGCATCAAATATTCATACTGTTCGATGGGTAAATGCATTAGTTGAAAATCAATTTGATGTTACCCTAGTCACTATGCATGAACCTGATATGGATAAGATAGATTCTAATGTCAAGATAGAGGTGTTACCTTTTAAAAAGGGATATGGTTATTATTTAAATGCATGGGCTTTAAAATCTGTATTAAGAAAATATAGTCCAGATTTCTTACATGTACATTATGCAAGTGGTTATGGAACTTTAGCTCGATTAGCTAAATTTGAACCAACAATCCTGTCTGTTTGGGGAAGTGATGTGTATTTATTTCCTAATAAAAGGGAAGTAAATAGACGAATATTAAAGAAAAATTTGAGCCATGCAAAATATATTACTTCAACAAGCCATGATATGAAAAAAGAGACAGAAAAATACTTAGATTATAATAAGGAAATATACATTACACCATTTGGTATTGATACCCAATTATTTAGGGCGAATGATAATAAGAGTAATAATGAAAATAATCAGCTTCGTATAGGAATTGCAAAAAAACTAGAGAAGGTATATGGGATTGATTATTTAATACGAGCAGTAAGTGAATTAAAAAAGAAATTAAAAATCCAGGGATATAATAATATAGCCGATAATTTAAAATTAATTATTATTGGTGAGGGAAGTCAGAGAGAGGAATTAAATTCATTAGTCAAGGAACTTGAGTTAGAAAATCATGTAGAGTTTATAGGGAATATTCCAAATGTAGAAATCCCTAATTATTTGAATGAAATAGATATCTTTTGCATCCCTAGTTTATCAGAAAGCTTTGGGGTTGCAGCTTTAGAAGCTTCAGCTTGTGCGGTTCCAGTTGTTGCTTCAAATGTAGGAGGATTACCAGAAGTCGTATTACATGGGGAAACTGGATATCTAGTCGATGCAGGAAATTCAAAAGAGCTATCTGAGAGGTTATATGAACTAGCATTAAACCCAGAATTAAGAAAAGAGTTTGGAGAAAACGGTAGAGAACTTGTAAGCTCTAAGTACAGTTGGAAAGAAAGTGTAAGGATTATGCTTGAGGTTTATAATAATATAGAGGATTAA	MKKICYLAPASNIHTVRWVNALVENQFDVTLVTMHEPDMDKIDSNVKIEVLPFKKGYGYYLNAWALKSVLRKYSPDFLHVHYASGYGTLARLAKFEPTILSVWGSDVYLFPNKREVNRRILKKNLSHAKYITSTSHDMKKETEKYLDYNKEIYITPFGIDTQLFRANDNKSNNENNQLRIGIAKKLEKVYGIDYLIRAVSELKKKLKIQGYNNIADNLKLIIIGEGSQREELNSLVKELELENHVEFIGNIPNVEIPNYLNEIDIFCIPSLSESFGVAALEASACAVPVVASNVGGLPEVVLHGETGYLVDAGNSKELSERLYELALNPELRKEFGENGRELVSSKYSWKESVRIMLEVYNNIED	PGPT0019565_1531	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
AK009_07676	1206			hypothetical protein	TTGGAAAATATTATTTCTTCTACTGAAGTAGAAAAAGTATCAAATAAAATACTATCAATATTACTAAGTATGTTTATTATTTGTGCTATTTTAAATAATAGTGGTATACCGGTCTTAAATAAACTAGGCTTCCTTAGTTTACTGTCTATTTTCGGTATGGGAGCGTTTTTTTTATTATCTTTACTATCAATTAATTTTAGAGTAGGATCGAGAAAAATATATATATATGTTGTGTTTATTGCTTTTACGATTTCTTCATTCTTTAGTTTGCTAGATCATCCAAGTAGTAAAGGTGTCTATATATTTAGCGAACTGTTGTTAATTAACATACTTTTTATTTCTTTAACAATTTATAATTTAACTGAAAATATAATAAAGTATATGTCTATATTTGGAATAGCATATGTGGTTATTTGTTATATATTAGATGTTGCTACTAATGGAAGAATGAGTAATATATTATATACAAACCCTAACACTTTGGGGGCAACAGTATTCTATTTGTATATATTTTTTATATTTAGAGTGAATTATTTTAAAACAGAGCGAATGGGTAATTTATATTTTCTTTGTGTGTCTTTTTTTTCAATAATATTAATTTTTTATAGCCAAGCTAGATCCATTTGGATTAGTCTTGCTGTCTTTTTTATAACTTACTATATATGGGATTTTCTTTGCAAAAGAAAAATTTTAACACATATATATATATGTGTTGTTTTAGCTTTTTGTATGTTATTTAGCTTCTGGTATCCTAGATTGCCAGAATATGACTTTGCACTAGAATGGAATAGTAAGTTATTGGAATTAACAGGGAAATCATTATTCTCTGGACGGCAGCTTGTTTGGAAAGATCTATTGAATTCAGCAATGGAAAATCCATTATTAGGATATAGCTTTGATATGAGATTTAATGGTGGTATGTCAGCACATAACATGTATCTAGAAATTATATTACAGTCAGGAATATTAGGAGTAGGACTTTTGTTAATCTTATTCTATTGTCTTTGGTTGTATCTGTGTCGTTATGGTCATTATGCTAATTCTAGAATTTCAGGAGCAGCTTTAATTGCTATAATAATACATCAATTATTTGAAGTAACGTTAATTCAAAATAATTTAGCAATTGGTATAATGCAATGGATAATTATTTCCTTAGGATTTAGTGGAGGTTTAATTCGAAAAAAATACCTCAAAGGAGTAAAATAA	MENIISSTEVEKVSNKILSILLSMFIICAILNNSGIPVLNKLGFLSLLSIFGMGAFFLLSLLSINFRVGSRKIYIYVVFIAFTISSFFSLLDHPSSKGVYIFSELLLINILFISLTIYNLTENIIKYMSIFGIAYVVICYILDVATNGRMSNILYTNPNTLGATVFYLYIFFIFRVNYFKTERMGNLYFLCVSFFSIILIFYSQARSIWISLAVFFITYYIWDFLCKRKILTHIYICVVLAFCMLFSFWYPRLPEYDFALEWNSKLLELTGKSLFSGRQLVWKDLLNSAMENPLLGYSFDMRFNGGMSAHNMYLEIILQSGILGVGLLLILFYCLWLYLCRYGHYANSRISGAALIAIIIHQLFEVTLIQNNLAIGIMQWIIISLGFSGGLIRKKYLKGVK				NA	NA	NA	NA	NA
AK009_07677	1251			hypothetical protein	TTGTTGAAAAATGATTTTGTTAAAAATGCTATGAAGTTATTAACAGGTACTACAATTGCTCATGCTATTACATTTTTATTTTCTCCAATTATCACCAGAGTTTATAGCCCAAGTGAATTTGGATTATATACTTTATTTCTGACAATAGGAACATCGTTAGGCCTTTTTGCTACAATGAGATATGAAATGGCTATTTTACTACCTAAAGATGAAAAAGAAGCTGATAGCTTAAAAAAACTATGCATATCCTCCAGTTTAATGATATCTACTATAATATTATTTACTACCTTAATTTATAATAGTATTTCTAATGAAGGAAATAAGTTATTTTTAGGTTTGTTTATATTTGTTTTATTTACGGGTTTATATCAAACATATTATTATTTAAGCAATAGAAGTAACGATTATAAAGGGATGGGTAATTCACGTATAATACAGACGCTACTATTTTCTGTCTTATCAATAGCTTTTTATAAAATAGGTGGTAATGGATTAGTTATTGCACATATATTGTCAGTGATAGCATCTTATATATACTTAAAGAATCGAAGAAGTAATAACTTTTTTGAAATCAATTTTCAGTTAAAAGGTTCCAGAAGTATAATAAAGGTTGCAAAAAAATATAAAGATATGCCAATGTATAATTCTATTCATGCATTTATGGATGTAATTATGAATAATGGGTTATTATTTTTAATTAGTATATTTTATGGAAGTGCTGTTTTAGGATTATATTCATTTGCATGGAAAGTATTGAGGGCACCATTAGCAGTTATTGGATCTGCTGTTGGACAAGTCTATTTGAATAGAGCTTCTCAATATTATAATGATAAACAAGCCATTAAACCATTAATGAACAAAATTATATTTAGATTGTTATTAGTTGCACTTCCATTATTTCTTATTTTGGGGCTTGAGGGAGACGTAATCTTTAGTTTTGTTTTTGGTCAAAGTTGGAAAGAGGCTGGAAGCTATGTTCAAATATTATCACCTTGGTTATTTTTTAATTTTATGAGTTCACCCATTGTACAGACATTTGTTGTGTTAAATAAGCAGAGGAATGCTTTAGTTTATTCATTTATTCAAACAGTTATGACGATATCAACTATAATAGCTATTCCTTTCTTTAGTAAAGACATCTATACATTATTACCATGGTTATCACTGATTGGTTCATTAAGCTGTATTGTATTTATAATATGGATATATAAAATTGTTTCAGAATATGAGAAGAAAATAATAAGTGAGTAA	MLKNDFVKNAMKLLTGTTIAHAITFLFSPIITRVYSPSEFGLYTLFLTIGTSLGLFATMRYEMAILLPKDEKEADSLKKLCISSSLMISTIILFTTLIYNSISNEGNKLFLGLFIFVLFTGLYQTYYYLSNRSNDYKGMGNSRIIQTLLFSVLSIAFYKIGGNGLVIAHILSVIASYIYLKNRRSNNFFEINFQLKGSRSIIKVAKKYKDMPMYNSIHAFMDVIMNNGLLFLISIFYGSAVLGLYSFAWKVLRAPLAVIGSAVGQVYLNRASQYYNDKQAIKPLMNKIIFRLLLVALPLFLILGLEGDVIFSFVFGQSWKEAGSYVQILSPWLFFNFMSSPIVQTFVVLNKQRNALVYSFIQTVMTISTIIAIPFFSKDIYTLLPWLSLIGSLSCIVFIIWIYKIVSEYEKKIISE	PGPT0015230_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_TRANSPORT,PGPT0015230-tuaB-K16694	NA	NA
AK009_07678	660			hypothetical protein	ATGAAAACTGGTGAAAATATAGCGAGGGATTATCAAATTACACCTGATACTCAAACTATTCAAGTAGAAAGTAATCAATCTAAAATCTATTTAGGAATTAAGTATTTATTAGATGTTATGTTTTCTTTAGTAGGATTAATTCTATTGATGCCTGTTATATTGATATTTAGTATACTTATTATTTTAGAATCTCCAGGGTCTCCTTTTTACCTGCAAGAAAGATTAGGATTGAATGGGAAGAGATTTAAAGTTATAAAATTACGCTCCATGCGGAATGATGCAGAAAAAAATGGAGCAAAATGGGCAGAAAAGAATGATCCACGTGTTACAAAAATAGGATTATTTATTCGTAAAACAAGAATTGATGAATTACCGCAATTATTTAATATTTTAAAAGGTGATATGTCTCTTGTCGGACCAAGACCGGAAAGACCGATATTTACAGAGAAATTTGAAAGAGATATACCTGGGTTTAAGAAAAGATTAGAAGTCAAACCAGGATTGACTGGGTGGGCACAAGTCAATGGTGGATATGAAATTACCCCGAAAGAAAAATTAAACTTAGATGTTTATTATATCAATCATGCAAGTATAATTTTAGATTTTAAAATTATTATTAAAACAGTTAGAGTTGTAATCACTGGCGATGGCGCTAGATGA	MKTGENIARDYQITPDTQTIQVESNQSKIYLGIKYLLDVMFSLVGLILLMPVILIFSILIILESPGSPFYLQERLGLNGKRFKVIKLRSMRNDAEKNGAKWAEKNDPRVTKIGLFIRKTRIDELPQLFNILKGDMSLVGPRPERPIFTEKFERDIPGFKKRLEVKPGLTGWAQVNGGYEITPKEKLNLDVYYINHASIILDFKIIIKTVRVVITGDGAR	PGPT0015235_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015235-tuaA-NA	NA	NA
AK009_07679	879	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	TTGAAAAAAGTAAGAAAGGCGATAATTCCAGCTGCTGGTCTTGGGACAAGGTTTTTGCCAGCAACGAAAGCGATGCCGAAAGAAATGCTACCTATCGTTGATAAACCAACAATTCAATACATAGTAGAAGAAGCGATAGAATCAGGAATTGAAGATATTATTATTGTTACTGGAAAAGGTAAACGTGCTATTGAGGATCATTTTGATCACTCTTTTGAATTAGAACAAAACCTTTTGGAAAAAGGCAAGTATGAAATGCTTGAAAAAGTGCAAGCATCTTCAAAAATTAATATTCACTACATAAGGCAAAAAGAACCAAAAGGACTTGGACATGCAGTATGGTGTGCTCGTAAATTTATTGGAAATGAACCGTTTGCGGTATTACTTGGTGATGATATTGTGCAGGCAGAAACACCATGCTTGCGTCAATTAATGAATCAATATGAAGGTACACAATCATCTGTAATTGGTGTACAAACAGTGCCAGAAAATGAAACACACCGTTACGGCATTATCGATCCAATTGAGCGAAATGGCCGCAGTTATCAAGTGCGTCAATTTGTAGAAAAACCAGCAGAAGGAACAGCACCATCCGATTTAGCAATTATGGGTCGTTACGTATTAACACCGGAAATATTTATGTTTCTTGAAGATCAACAGACAGGTGCTGGTGGAGAAATTCAGTTGACAGATGCGATTCAGCGTTTAAATGAAATGCAACGTGTGTTTGCGTATGACTTTGAAGGTACTCGTTATGATGTTGGGGAAAAGTTTGGGTTTATTAGGACTACAATTGAAATGGCACTGCAACAAAAAGAATTAAAAGAACAACTCATAAAATATATGGTTGAACTAGTACATAAAGAAGCGATCAAATAA	MKKVRKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIVEEAIESGIEDIIIVTGKGKRAIEDHFDHSFELEQNLLEKGKYEMLEKVQASSKINIHYIRQKEPKGLGHAVWCARKFIGNEPFAVLLGDDIVQAETPCLRQLMNQYEGTQSSVIGVQTVPENETHRYGIIDPIERNGRSYQVRQFVEKPAEGTAPSDLAIMGRYVLTPEIFMFLEDQQTGAGGEIQLTDAIQRLNEMQRVFAYDFEGTRYDVGEKFGFIRTTIEMALQQKELKEQLIKYMVELVHKEAIK	PGPT0014875_4248	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
AK009_07681	777	ywqE	COG4464	Tyrosine-protein phosphatase YwqE	ATGAAACAAATGATAGATTTACATTGTCACATTTTACCTGGTATCGATGACGGTGCACAGACAATAACAGATAGTTTAACAATGGCACAACAAGCCGTTTCAGAAGGAATACATACAATTGTCGCAACGCCGCACCATCAAAATGGCAAATATATAAATGAATATACCTCAGTTATTCATCACGTAAAACAACTAAATGATGAACTACAACAATACAATATTCCACTTACCATTTTACCGGGGCAGGAGATTAGGTTATATGGCGATTTATTAGAAGACTATGAAGCTGGTAAAATTGTTACTTTAAATGAAACAAATAAATACATATTCATTGAATTCCCATCGAATCACGTACCTCGTTATGCTGAACACCTATTATATGAACTACGTGTAAAAGGAATGATTCCAATTATTGTTCATCCGGAACGTAATGCCGAGTTAATCGAGCGGCCAGATAAGTTATATAACCTTGTAAATAAAGGGGCATTAACGCAAGTAACGGCAGGTAGTTTATTAGGGAACTTCGGTAAAAAAATTAAAAAGTTTTCACTTCAACTTGTAGAACATAATTTAACACATATGGTCGCTTCAGATGCACATAACACAACTTCAAGAGGATTTCATTTAGCGGAAAGCTATGAATTAATTGAGAAAGAATTTGGAACGAGTGTTATGAGTGATTTAAAAGAGAATCCGTACTTATTAATTAGCGGGAAAGCAATTTATAAAGAAGATCCAGAACAAATTCGCCGCAAAAAATTATTCGGTATTTTTTAA	MKQMIDLHCHILPGIDDGAQTITDSLTMAQQAVSEGIHTIVATPHHQNGKYINEYTSVIHHVKQLNDELQQYNIPLTILPGQEIRLYGDLLEDYEAGKIVTLNETNKYIFIEFPSNHVPRYAEHLLYELRVKGMIPIIVHPERNAELIERPDKLYNLVNKGALTQVTAGSLLGNFGKKIKKFSLQLVEHNLTHMVASDAHNTTSRGFHLAESYELIEKEFGTSVMSDLKENPYLLISGKAIYKEDPEQIRRKKLFGIF	PGPT0014530_2138	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
AK009_07682	702	ywqD_1	COG0489	Tyrosine-protein kinase YwqD	TTGGCTCTTAATTTATTTAAAAAGAAAAAAAATCATCGTCAACGCCGTCAATTAATTGCTCATCAACAACCGAAATCACCAATTTCAGAACAATATCGTAATATTCGAACGAATATTGAATTTGCAGCTGTTGATACGAATTTACATTCATTAATGGTAACATCTGCGAACCCAAGTGAAGGGAAAACGACAACGACAGCGAATATGGCAGTTGTGTTTGCTCAACAAGGAAAAAAAGTATTATTAATTGATGCAGATATGCGTAAACCAGCAATGCATCAAATGTTCCAAGTAGATAATATTTTTGGACTCACGAACGTATTAACACATAGTGAACGTTTAGAAAAATGTGTACAAACGACATCTGTAGACAATCTACACTTTTTAGCTTGTGGTCCAATCCCACCAAACCCGGCAGAATTGTTAGGTTCAAAATCAATGAAAGAACTTCTTGGACAAGCATACAGTATGTATGATTTAGTTATTTTTGATATGCCACCAATTTTAGCTGTAACCGATGCGCAAATTATGGCAAATGTATGCGATGCTTCTATTCTTGTTGTTCGTAGTGAATCAACAGAAAAGGAAACGGCAGTAAAAGCAAAAGGATTGTTAGAATCGGCTAAAGGTAAATTGTTAGGCGTTGTTCTAAATGACCGTGAACGTGAAGAGGGCTTATATTATTACTACGGTGCAAACTAA	MALNLFKKKKNHRQRRQLIAHQQPKSPISEQYRNIRTNIEFAAVDTNLHSLMVTSANPSEGKTTTTANMAVVFAQQGKKVLLIDADMRKPAMHQMFQVDNIFGLTNVLTHSERLEKCVQTTSVDNLHFLACGPIPPNPAELLGSKSMKELLGQAYSMYDLVIFDMPPILAVTDAQIMANVCDASILVVRSESTEKETAVKAKGLLESAKGKLLGVVLNDREREEGLYYYYGAN	PGPT0026560_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
AK009_07683	744	ywqC_2	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	ATGGAAGAAACAATTAGTTTAAAAGAGTTATTTCATATTTTTAAAAAACGTTTAGCAATGATCCTCGTAATTGCCTTTGGTGCAGCAATAGTAAGTGCTATTATTAGCTTCTTCTTTATGACACCAATCTATCAATCTTCGACGCAAATTCTTGTTAACCAGAAGAAACAAGAGGGGGCAATGTTCCAAGCTGGTGAAATTCAAACGAATATTCAATTAACGAATACATATAAGGTTATTATTAAAAGCCCAGTAATCTTAGAACAAGTGAATGAAAAATTAAATTTAAATATGACAGCGCAAGAGTTAACAAAAAAGGTTAATGTTGCTAATGAAAAGGATTCACAAGTAATCGCTGTAACAGCTGAGGATAAAGATCCTAAAATAGCTCGTGATATCGCTAATGCAACTGCAGATGTATTTAAAGGCGAAGTTGCAAAAATTATGAACGTTGATAACGTAACAGTAATATCTAAAGCAGAAGTTGCAGAAAATCAATCTCCGATTAAACCAGCTCCTATGCTTAATATAGCAATTGCTTTTATTGTTGGTTTAATGGCTTCGGTTGGTCTTGCATTCTTACTCGAATACTTAGATAACACAGTGAAAAAAGAAGAAGATGTAGAAAATTTACTTGGTTTACCAGTATTAGGTATTGTAGCTCGTATGGATGAAGAAACATTGAACGTGAAATCACACGCTCCATCATCAAGAAAAGTGAGGGGACAAACAATTGGCTCTTAA	MEETISLKELFHIFKKRLAMILVIAFGAAIVSAIISFFFMTPIYQSSTQILVNQKKQEGAMFQAGEIQTNIQLTNTYKVIIKSPVILEQVNEKLNLNMTAQELTKKVNVANEKDSQVIAVTAEDKDPKIARDIANATADVFKGEVAKIMNVDNVTVISKAEVAENQSPIKPAPMLNIAIAFIVGLMASVGLAFLLEYLDNTVKKEEDVENLLGLPVLGIVARMDEETLNVKSHAPSSRKVRGQTIGS				NA	NA	NA	NA	NA
AK009_07684	678	ywqD_2	COG0489	Tyrosine-protein kinase YwqD	ATGTTCGGGAGAAAGAAAAGAAAACCATTACGACAATTAATTACACATAAAGAGCCTAAATCGCGTATTACAGAACAATACCGTAACATTCGTACAAACATTGAGTTTACATCTGTAGATAATCATGTTCGTTCTATCATTGTTACTTCAGCAGATCCAGGTGATGGGAAAACAACAACAATCGCAAACTTAGCAGTCGTTTTCGGACAACAAGGAAAGAAAGTTTTATTAATTGGAGCTGACTTGCGTAAGCCGACGATACAAAACTTATTTGCCATTCATAGTTCAAATGGGTTAACAAACTTATTATCAGGACAAGCAAAACTTATGCAATGCATTCAAAAAACAGATATAGAGAACGTATACTTAATGGCAGCAGGTCCAATCCCGCCAAACCCAGCAGAACTATTAGGGAGCCGGGCAATGGACGAGGCGTTGTTAGAAGCATATAACATGTTTGATATTATATTAATTGACACACCACCTGTCCTTGCGGTTACGGATGCACAAATACTTGCGAATAAATGTGATGGAATCGTACTCGTTGTACGCAGTGAAAAGACAGAAAAAGATAAAATCGTAAAAGCGAAACAAATATTAGATAAAGCATCAGGAAAACTACTAGGTGTTGTTTTGAACGATAAAAGAGAAGAAAAAGAGCAGTATGGTTATTACTGA	MFGRKKRKPLRQLITHKEPKSRITEQYRNIRTNIEFTSVDNHVRSIIVTSADPGDGKTTTIANLAVVFGQQGKKVLLIGADLRKPTIQNLFAIHSSNGLTNLLSGQAKLMQCIQKTDIENVYLMAAGPIPPNPAELLGSRAMDEALLEAYNMFDIILIDTPPVLAVTDAQILANKCDGIVLVVRSEKTEKDKIVKAKQILDKASGKLLGVVLNDKREEKEQYGYY	PGPT0026560_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
AK009_07685	435	fabZ_4	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGCTAAATATAGAACAAATTAAAGAAATCATTCCTCACCGCTATCCATTTTTACTTGTTGATAAAATATTAGAAGTAGATGAAGGAAAAAGAGCGGTTGGGATTAAAAATGTATCCGCAAACGAAGAATTCTTTAACGGACACTTCCCTGACTATGCAGTTATGCCTGGTGTACTTATTGTAGAAGCATTAGCGCAAGTTGGAGCAGTTGCAGTATTAAAGAAAGAAGAAAACCGCGGAAGACTTGCTTTCTTTGCAGGTATCGACAATTGCCGTTTCAAAAAACAAGTACGACCAGGTGATCAGCTTCGTCTAGAAGTAGAAATGACACGCGTACGCGGCCCGATTGGAAAAGGAAAAGCAATCGCAACAGTAGATGGTGAAGTTGCATGTGAGGCAGAAATTACATTTGCGATTGGTGATAAAAAAGAATAG	MLNIEQIKEIIPHRYPFLLVDKILEVDEGKRAVGIKNVSANEEFFNGHFPDYAVMPGVLIVEALAQVGAVAVLKKEENRGRLAFFAGIDNCRFKKQVRPGDQLRLEVEMTRVRGPIGKGKAIATVDGEVACEAEITFAIGDKKE	PGPT0008365_3195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK009_07686	1002	mbl	COG1077	Cell shape-determining protein Mbl	ATGTTTGCGCGAGATATCGGAATTGACCTAGGTACGGCTAATGTATTAATTCATGTTAAAGGTAAGGGTATTGTATTAAACGAGCCATCTGTTGTGGCAATTGATCGTAATAGTGGTAAAGTATTAGCAGTCGGTGAAGAAGCGAGAAGTATGGTGGGACGTACGCCTGGTAATATTGTAGCAATTCGTCCGCTTAAAGATGGTGTAATAGCAGATTTCGAAATTACAGAAGCAATGTTAAAGTATTTCATTAACAAATTGGACGTAAAGAGCTTCTTTTCAAAACCTCGTATTTTAATTTGTTGTCCAACAAATATTACATCAGTAGAACAAAAAGCAATTCGTGAAGCTGCTGAACGTTCAGGTGGTAAAACAGTATTTTTAGAAGAAGAACCAAAAGTAGCCGCAGTTGGTGCTGGTATGGAAATCTTCCAACCAAGCGGTAACATGGTTGTTGATATTGGTGGAGGTACAACAGATATCGCTGTACTATCTATGGGTGATATTGTTACCTCTTCCTCTATCAAAATGGCTGGCGATAAGTTTGATATGGAGATCTTAAACTATATTAAACGTAAGTATAAGCTATTAATCGGGGAACGTACTTCAGAAGATATTAAAATTAAGGTTGGTACAGTATTCCCAGGTGCACGTAGCGAAGAACTTGAAATTCGCGGACGTGACATGGTAACAGGCTTACCACGTACAATTACAGTATGCTCTGAAGAAATTACAGAAGCATTAAAAGAAAATGCAGCTGTTATTGTACAAGCTGCAAAAGGCGTATTAGAGCGCACACCACCAGAATTATCTGCAGATATCATCGACCGCGGTGTTATTCTAACAGGCGGTGGAGCTTTACTACACGGTATTGACATGCTTCTAGCAGAAGAACTAAAAGTACCGGTATTAATTGCTGAAAACCCAATGCACTGCGTTGCGGTTGGTACAGGTATTATGTTAGAGAATATCGACAGATTACCAAAGCGTGCTTTGAGATAA	MFARDIGIDLGTANVLIHVKGKGIVLNEPSVVAIDRNSGKVLAVGEEARSMVGRTPGNIVAIRPLKDGVIADFEITEAMLKYFINKLDVKSFFSKPRILICCPTNITSVEQKAIREAAERSGGKTVFLEEEPKVAAVGAGMEIFQPSGNMVVDIGGGTTDIAVLSMGDIVTSSSIKMAGDKFDMEILNYIKRKYKLLIGERTSEDIKIKVGTVFPGARSEELEIRGRDMVTGLPRTITVCSEEITEALKENAAVIVQAAKGVLERTPPELSADIIDRGVILTGGGALLHGIDMLLAEELKVPVLIAENPMHCVAVGTGIMLENIDRLPKRALR	PGPT0027700_3731	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
AK009_07687	273	spoIIID		Stage III sporulation protein D	GTGCACGATTACATCAAAGAGAGAACTATCAAGATTGGTAAGTATATCGTGGAGACAAGAAAGACAGTGCGTGTCATTGCAAAGGAATTTGGGGTATCAAAGAGTACAGTTCATAAAGATTTAACAGAACGTCTACCAGAGATTAATCCAGAGCTCGCAAATGAAGTAAAAGAAATTCTTGATTATCATAAGTCTATTCGTCATTTAAGAGGTGGAGAAGCAACAAAACAAAAGTATAGAAAAGAAGATGTAGAGAAGCCTGTACGTCAATAA	MHDYIKERTIKIGKYIVETRKTVRVIAKEFGVSKSTVHKDLTERLPEINPELANEVKEILDYHKSIRHLRGGEATKQKYRKEDVEKPVRQ	PGPT0024715_139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024715-spoIIID-K06283	NA	NA
AK009_07688	135			hypothetical protein	GTGTCATTTTTATTTGTTCTGTCGACTGCTATTATTTTATTGTTTGTTTTATTCACTTTATATTATTATATTGCCGGTAAGAAAGAGGTTCCCCACCATCAGTTGTTAGAAGAAGAATTGGAACGAGAAGAATGA	MSFLFVLSTAIILLFVLFTLYYYIAGKKEVPHHQLLEEELEREE				NA	NA	NA	NA	NA
AK009_07689	906	spoIIQ	COG0739	Stage II sporulation protein Q	ATGCGAGGAAGAAATAATAAAAAGTCGCAAAAGGTAGTACATTTATTTCAGAAAAGATGGGTGTTTCCGGCACTATACATTGCTTGTGCAGCGGTAATCTTAATGGTTGCGCTATGGTTCCAAGGAGCTAATCCGAAGAAGACTCCAAACCACGATCAAGCAACACCGTATACACAATCGGAAGATCCAGCAGTACCAGTAACGAAATCTTCAGAAGTAGTGAAAATGCCAGCTGCCGCGAATGCGGAAGTAGTCGTACAGAAGAAATTCTATGAAGATGCAGCAACTGAGGCGGAACAAGAAAAAGCACTTGTCTTTTATAACAACACATATTCCCCGAACAAAGGAATTGACATTGCTGCGAAGAATGGGAAAGAGTTCAATGTTGCTGCTGCTTTAAGTGGTACAGTAACGAAAGCTGAAAAAGATTCACTTCTTGGTTATGTTGTAACAGTTGATAGTGGAAATGGTGTAGCGGTATCTTATCAAAGCTTAGGCAGTGTGAAAGTAGAAAAAGGTGCAAGAGTTGCACAAGGTGAAGTATTAGGAACATCCGGTCTAAGTGCAATGAATAAAGAGGCAGGCTCTCACGTTCACTTTGAAGTACGTAAAGACAATGTGGCTGTGAATCCTGAACGTTACTTAAATAAATCAGTAACAGAAATTAAAGCTGATGCAGGTGCTGCAAAAGCTACGAATGCTTCTGGTAAAAAAGCTGACGACAAATCTCAAAAAGAAGAGAAGTCAACGAGCACGAAACCAGAAAATAAAACAGAAGACAAGTCTCAAAAAGAAGAGAAATCAACAAGCGGTTCAACTAGTGACAAAAAAGAAGAACCGAAGAAAGAAGAAAAATCAACAAATGGTTCTACACAATCATCTAACGATTCTTCTTCACAAGAATAA	MRGRNNKKSQKVVHLFQKRWVFPALYIACAAVILMVALWFQGANPKKTPNHDQATPYTQSEDPAVPVTKSSEVVKMPAAANAEVVVQKKFYEDAATEAEQEKALVFYNNTYSPNKGIDIAAKNGKEFNVAAALSGTVTKAEKDSLLGYVVTVDSGNGVAVSYQSLGSVKVEKGARVAQGEVLGTSGLSAMNKEAGSHVHFEVRKDNVAVNPERYLNKSVTEIKADAGAAKATNASGKKADDKSQKEEKSTSTKPENKTEDKSQKEEKSTSGSTSDKKEEPKKEEKSTNGSTQSSNDSSSQE	PGPT0024695_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024695-spoIIQ-K06386	NA	NA
AK009_07690	708			hypothetical protein	ATGACATTTTCAATGAAACGGTTTTCGGCTATTGTAAGAAAAGAAATAAATGATGCAGGTAAAAACTCACAAGTTATATTAATGGCGCTATTACCTATTCTACTTGCTGTATTCTATAGTAATATGGATTCTATAAAAGAGTTCTTTGCAGGTTTTGTTATTGTAATGACGATTACCATGGTGGGAAGTTATGTGCAAGCAATTATTATTGCAGAGGAGAAGGAAAAACACACGTTACGAGTATTGATGTTGTCTCCAGCAAGTCCAATAGAAGTTATTTTAGGTAAAAGTGTATTAACTGTATTTTTTGTACTAGCATCTAGTTTTATTAGTTTAGTGATTTTAGATACTTTTAAAGGAAATATTGGTATGCTAGTTATTATTATTTTAATAGGAACATTGTTATGTGTCGTTTTAGGTACTATAGTTGGCTTACTATCCCAAAATATAGCACAAACATCTATATTGGGGCTTCCGATTTTTATAATATTCATAATGGGGCCGATGCTACAAGAAATGGTTAAGAATGAATTTATTATAAAAGTAGTTAATCTTCTTCCGACAAATCATGTTATGGAGGCATTGCAAAAAGTTATAAAGGGAGAAGGGTTTATTGCGATTCAAGAACATATTTTAAACAATACAATTTGGACTATATGTCTTATCATTCTTTGTATTATTGTGTACAAAAAGAAACAATTAGACTAA	MTFSMKRFSAIVRKEINDAGKNSQVILMALLPILLAVFYSNMDSIKEFFAGFVIVMTITMVGSYVQAIIIAEEKEKHTLRVLMLSPASPIEVILGKSVLTVFFVLASSFISLVILDTFKGNIGMLVIIILIGTLLCVVLGTIVGLLSQNIAQTSILGLPIFIIFIMGPMLQEMVKNEFIIKVVNLLPTNHVMEALQKVIKGEGFIAIQEHILNNTIWTICLIILCIIVYKKKQLD	PGPT0006730_24394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK009_07691	843		COG1131	Fluoroquinolones export ATP-binding protein	ATGACATTGGCAATTGAAATGAAAGATGTAATGAAAAGTTTCGATGGAAAAACGGCACTTCGAAATGTAAATATTGAGGTGAAGCAAGGAGAGATTTTCGGATTCCTTGGACCGAGTGGATCTGGTAAGACGACAACGGTAAAAATTTTAACTTCTCAATTGCTTCATAGTGTTGGAACAGTAAGAGTATTAGGGAAAGATATTACAGGACCAAGTAGCATCGATTACAAACGAATTGGTATTTTAACAGATAACAGCGGCTTATATGAAAGACTTAGTATTTATGATAACTTACTATTATTTTGTGACCTATACGATTGTAAAAAAGAACGAATCGATGAAGTACTAGCACAAGTAAATTTATTAGATGATAAAAAAACACCAGTAAAGAAACTATCAAAGGGAATGAAGCAACGCGTCACACTAGCAAGAGCAATCCTTCATAAACCAGATATCCTCTTCTTAGACGAACCAACATCTGCACTCGATCCAGTAAACGTTCAAAACATTCATAAAATCTTAAAAGACTTAAATGAAGAAGGAACGACCATTTTCTTAACGACTCACAACATGGATGAAGCAGAAACGCTTTGTAACCGTATTGCCTTCCTTTGTGGCGGAGAAATTGTAGCGCTTGATACGCCAGAGAACCTACGCTTACAATACGCTAAGGATCAAATAGAGGTCGTATTAAAAGATAAACAAAAAGAAGTAGTGCAAAAAGATGAATTAGGCGCAAAACGTATTTCAGAATGGATGAAAAAGGGCGAACTGTTATCTATTCATTCACACGAACCAACGCTAGGCGATATCTTTATTGAAGTTACTGGGAGGGGATTATAA	MTLAIEMKDVMKSFDGKTALRNVNIEVKQGEIFGFLGPSGSGKTTTVKILTSQLLHSVGTVRVLGKDITGPSSIDYKRIGILTDNSGLYERLSIYDNLLLFCDLYDCKKERIDEVLAQVNLLDDKKTPVKKLSKGMKQRVTLARAILHKPDILFLDEPTSALDPVNVQNIHKILKDLNEEGTTIFLTTHNMDEAETLCNRIAFLCGGEIVALDTPENLRLQYAKDQIEVVLKDKQKEVVQKDELGAKRISEWMKKGELLSIHSHEPTLGDIFIEVTGRGL	PGPT0006725_20094	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_07692	1008	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGGTGCTACTGGAGTTGAAACAGTTAGGGAAAACGAACCAATTACCGGTAATTGACCTAAAAGTCGCGAAAGGACAATGTGTTGTTTTGCAATGCAATAATCATACAGCTAAAGTGTTGCACCGCATCATTATAGGCGAAGAAGAAGCGTCGACTGGCAATGTACTGTTTGAAGGGGGAGCAATTGGAAAGAAAAATTATCCACGCATCGGCTTTTGTTTTTTGAAAGATGAGGCATATGATCGTTTGAAGGTGAAGGAATACTTTAAGTTTTTAATAGGGCTTTATGAATCAAAGATAAGCATAGAAGAAGTTGTGCAGTCTGTTGGTCTCCTAGATAAACTAAACGTTAAAATAGAAAAACTATCGTTTTCAGAGAAGCGTCGTCTTCATATTGGACGAGTGATGATTCATAATCCGGATTTAGTTATTTTGGAAGAGCCAGAGCAAAATGTAGATATAGAGAGTACGATCATTATTCGAAAAGCAATCATGAAAATGAAAGAACAAGGAAAGGCGATTTTTATTACGTCATCTTTCCTATCGGATGCCCTTTCGTTAACGGAAGATGTATACATATTAAACAACGATGGTGTGAAAAAGATAGAAATTGAGCAAGAGGAAGTGGAAGAAGTCGGTGAAGAAAAAGTCATTCAAATGATTCCGCAAATGAAGTTAGAAAGAATACCAGCGAAAGTGAACGATAAAATCATTTTACTTGATCCGATGGAAATCCATTTCATTGAAACGCAAAACGGAGTAACGCATATTCACGTTCGTGAAGGTGATTTCGTATGTGCATTAACATTAAGTGAACTAGAAGCAAGATTAACAGGTTTTGGTTTCTTTAGATGTCATCGCTCGTATCTTGTGAATTTACAAAGAGTACGAGAAGTGATTACGTGGACTCGTAATAGTTTTAGTTTAATTTTGGATGACGAAAGAAAAAGTTCAATCCCGCTTTCGAAAGGACGCATGGATGAATTAAAAGGCGTGATTGGGCTATAA	MVLLELKQLGKTNQLPVIDLKVAKGQCVVLQCNNHTAKVLHRIIIGEEEASTGNVLFEGGAIGKKNYPRIGFCFLKDEAYDRLKVKEYFKFLIGLYESKISIEEVVQSVGLLDKLNVKIEKLSFSEKRRLHIGRVMIHNPDLVILEEPEQNVDIESTIIIRKAIMKMKEQGKAIFITSSFLSDALSLTEDVYILNNDGVKKIEIEQEEVEEVGEEKVIQMIPQMKLERIPAKVNDKIILLDPMEIHFIETQNGVTHIHVREGDFVCALTLSELEARLTGFGFFRCHRSYLVNLQRVREVITWTRNSFSLILDDERKSSIPLSKGRMDELKGVIGL	PGPT0006725_2381	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_07693	1020			hypothetical protein	ATGAAATTTTCAAAGCCACTTTTTATTACAGTAGCGCTCTTAATAGCGCTCGTTATCATTGTACCTGCAGCCCTTGTTATCCCATTTGCGAAAGCAAAAGTAGGGGAAGAAACGGCCTCTAAAACTCCTCCAGCGATAGAAAGTATACCAGCTCCAGGAAAAGTAGATACAGCGGTTCAAGTTGCTGTATATCGTGAGAAACAGAAGAAGGTAGAATCATTGCCTATGGAGGAGTATGTGACCGGTGTAGTAGCTTCTGAGATGAATGCCAGTTTTGAAATAGAGGCACTAAAGGCACAGGCATTAGCAGCGAGAACATTTGTAGTACAACGTATGCTAAGCGGAGGAAAGAAAAATAATGCGGACGTGACAGATACGGTGAAAGATCAAGTGTACAAAAGTAAAGAAGAATTGAAGAAACAATGGGGTAATAACTACGAAAATAATTTGAAGAAAATCGAAGAAGCCGTTTCGAAAACAGCAGGACAAGTTTTAACATATGATGGAAAACCAATTTCAGCATCCTTCTTCTCAACGAGTAATGGCCGGACAGAAAATGCAGCTGACTATTGGGGAAATGATTATCCGTACTTGAAAAGTGTAGATAGTCCGTGGGATCAAGCCTCTCCAAAGTTTACGAGCGAGCAAACATTTACAGTAGCTGATTTTCAAAAACGTCTCGGTGTGAAAGTACTAGCAGACGGGAAGGTTGGAAATATTAAAGACCTTACGGAAGGAAAGCGCGTAAAGGATGTAGCTTTTCAAGGAAAAACATTAACAGGAAAAGAAGTTCGTGAAAAGTTAGATTTACGTTCTTCTGATTTCACGTGGAAACAACGAGGGGATAAAATCATCATTACAACGAAAGGCTTCGGTCACGGCGTTGGTATGAGTCAATACGGAGCGAACGGTATGGCAGCGGAAGGAAAGAAATATACAGATATCGTCGCTCATTACTATAAAGGCGTTGAAATAAAGACGATGAATGATTATGAAGGAAAATTGATGGTGAAGAAATAG	MKFSKPLFITVALLIALVIIVPAALVIPFAKAKVGEETASKTPPAIESIPAPGKVDTAVQVAVYREKQKKVESLPMEEYVTGVVASEMNASFEIEALKAQALAARTFVVQRMLSGGKKNNADVTDTVKDQVYKSKEELKKQWGNNYENNLKKIEEAVSKTAGQVLTYDGKPISASFFSTSNGRTENAADYWGNDYPYLKSVDSPWDQASPKFTSEQTFTVADFQKRLGVKVLADGKVGNIKDLTEGKRVKDVAFQGKTLTGKEVREKLDLRSSDFTWKQRGDKIIITTKGFGHGVGMSQYGANGMAAEGKKYTDIVAHYYKGVEIKTMNDYEGKLMVKK	PGPT0024670_955	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381	NA	NA
AK009_07694	1305	murA1	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	TTGGAAAAGATCATCGTCCGTGGCGGAAAGCGGTTAAACGGCACAGTGCGTGTTGAGGGCGCAAAAAATGCTGTATTACCTATAATCGCTGCAGCCCTATTAGCGAGTGATGGAAAGAATGTACTATCTGAAGTACCAGTTTTGTCTGATGTATACACAATTAATGAGGTATTACGTCATTTAAATGCTGAAGTCGTATTTGAAAATAATCAAGTAACAATCGATTCTTCTAAAGAACTAAACATTGAAGCACCATTTGAATATGTACGTAAAATGCGTGCATCTGTTCAAGTAATGGGACCATTATTAGCACGTAATGGTCGTGCTCGTATTGCACTTCCTGGTGGATGTGCAATCGGTTCACGTCCAATTGACCAACATTTAAAAGGCTTCGAAGCAATGGGAGCAAAAGTACAGGTTGGTAACGGTTTTGTTGAGGCATATGTTGAGGGAGAACTAAAAGGAGCTAAAATCTACTTAGACTTCCCAAGCGTAGGCGCGACAGAAAACATTATGTCTGCAGCTACATTAGCAAAAGGGACAACAATTCTTGAAAACGCAGCGAAAGAACCAGAAATCGTTGACTTAGCTAACTTCTTAAATGCAATGGGAGCGAAAGTACGCGGAGCTGGAACTGGAACGATTCGTATCGAAGGCGTTGATAAATTATATGGTGCAAACCACTCTATTATTCCTGACCGTATTGAAGCGGGAACATTCATGGTTGCAGCAGCAATTACTGGTGGAGACATCTTAATTGAAAATGCTGTACCTGAACATTTACGCTCAATTACAGCGAAAATGGAAGAAATGGGTGTTAAAATTATTGAGGAAAACGAAGGTGTACGTGTTATCGGCCCAGATAAGTTAAAAGCGGTTGATATTAAAACTATGCCTCACCCAGGTTTCCCAACAGACATGCAATCACAAATGATGGCATTATTACTACAAGCTGATGGAACAAGCATGATTACAGAAACGGTATTCGAAAACCGCTTTATGCACGTTGAAGAATTCCGTCGTATGAATGCTGATATTAAAATTGAAGGTCGTTCTGTTATTATGAACGGTCCAAACAGCTTACAAGGTGCTGAAGTAGGCGCAACTGATTTACGTGCTGCAGCTGCATTAATCTTAGCTGGTTTAGTATCAGAAGGTTATACTCGTGTAACTGAGTTAAAACATCTTGACCGTGGTTATGTAGATTTCCATAAGAAATTAGCTGCATTAGGTGCAACTATTGAACGTGTAAACGAAAAAGTAGAAGAAGTGAAAGAACAAGAAGTTTCTGATCTTCACGCTTAA	MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDSSKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNEKVEEVKEQEVSDLHA	PGPT0024090_1568	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK009_07695	705	ywmB		putative protein YwmB	TTGAAGCTTAAAGCCATTCTTATTGTTGCACTTAGTGTTGTTTTATTTTTGGTTGGATATAGAGAGATGAAACCGATAAGCGATGAACAGAAAATGGAGAGCATGATTAAGGCTTTAGAGAAAAATGATGCTAAAGTAGAAAAATGGTCATGGTTAGCTAGAGAAACAAAAACAATTTCTAATATACATACGTTTCAAAAGTTGTTAAACGATGTGAAGGACAAGGCAAATATTCAAAAGTGGGAAGTAGAGCAATCTCCAGATGGATATAAAGCTACATCCTATAAAAAGTTTGCTTCTCATGAAGAACGAGTAGTAGTAACTTGGAGTAAAGAAAATACTAAAGAAAACACTTTCATTATCTTTGAAGTAAGTGGGGCGAAATGGGACCCGAAGTATGTTCAAAAAGTGAATAAAATTTTTAGTGAAAAACCTATAATTTACACTTGTGTTCAAGGTGTACTGAATGATAAGATTGAAGGTGTTTTGCAAAATAAAACCAATCAGGTTTTGAAAGATCTTTCAGCAAGAGCGATCGAACAAGTAGAAGAAAGAGCATTTGTGTCAGTCTCCGCATACAATAAAAAGTGGGATGACGCTCTTTCAACAAATAGAGAGAAAATAAATGTGCAAATAGCAATACGTTCTACAGACAACAAAGATACAATTGTGGTTGGCACACCGATCATAACTTCTGAGTATTGA	MKLKAILIVALSVVLFLVGYREMKPISDEQKMESMIKALEKNDAKVEKWSWLARETKTISNIHTFQKLLNDVKDKANIQKWEVEQSPDGYKATSYKKFASHEERVVVTWSKENTKENTFIIFEVSGAKWDPKYVQKVNKIFSEKPIIYTCVQGVLNDKIEGVLQNKTNQVLKDLSARAIEQVEERAFVSVSAYNKKWDDALSTNREKINVQIAIRSTDNKDTIVVGTPIITSEY				NA	NA	NA	NA	NA
AK009_07696	237			hypothetical protein	TTGGCACAACTTTTAGGGCAACAAGCACTGATTGCCATTGTTTCGCATTTATTGTTTATTACCATTACGTGGTGGGCTTTGCAAGGCATTCACATTGAGCGTTTAATGAAGTCCGGAAAAGTGCTGCAGACGCGAGTATTACTCATCTTAATTACAATTGCAATTGGGACATCTGTAAGTAACTTTTTCCTTGATTATTTAGGCTATTCGAAGAGTTTAACGTATTTAGTAAAGTAA	MAQLLGQQALIAIVSHLLFITITWWALQGIHIERLMKSGKVLQTRVLLILITIAIGTSVSNFFLDYLGYSKSLTYLVK				NA	NA	NA	NA	NA
AK009_07697	1515	ndhB_2	COG1007	NAD(P)H-quinone oxidoreductase subunit 2	ATGAATACGTTACTTAGCTTATCGTGGCATCTAATGGTGCCAGAATTTATTATTCTCGGGGCCGCCATCCTTCTTTCCATATGTGATTTGTTTTTTAAGCTGAACCATAGATATGTAGCTCTTGGTGCGATCGCTGCCATCGTATTAGCAATTGTTTCATTAATTACGCTATATAGCGAACCAGCTGGAGATATTTTAAATGGATCGTTTGTGTTAGATGGATTTTCAAAAGGGTTTAAAACGTTGTTATTAGGCGCCTCAGCTCTCATTTTATGCATCGCAATGAGCGATGATAAGAAGAATCCGATTGAAGATAAGGGCGAATATTATTACTTATTTTTAATGGCACTTCTTGGCGCGATGTTCATGGCTTCTAGTGTTGACTTTATCACCCTTTTTGTTGGTTTAGAGTTACTTTCACTTTCTTCTTATATTTTAGTCGGAATACGAAAAAAGAACCGTGCATCAAATGAAGCGGCAATGAAATATGTCATTAGCGGAGGAATTGGAACGGCGATCACGCTCTTCGGAATGAGTTATTTATACGGTATTACAGGTTCAACTAACATTGTAGATATGCAAAAGGTACTCACTGGGGAGCTCGCTAGTGGTATTCAGTTATTGTTAGCTCTTGCATTTCTTTTATTGCTAGTTGGTCTCTCATTTAAAATTGCCACAGTGCCGTTTCATATGTGGGCACCTGATGTGTATGAAGGAGCGACTACACCTGTTACCGCTTTTCTTGGAACGATTTCTAAAATTGCTGGGTTCCTACTCATTATTCGTTTGTTCCTTATGGTTTTTGCAAGTGTATTAATACAAGGAGATATGCAATCTTTATATGGGCATATGAGTATATATATTGCGGTGCTAGCAAGTATAACGATGATTGTTGGGAATGTAGTCGCGTTAAAACAATACAACATAAAACGTTTATTTGCTTATTCAGGTATTGCGCATGCTGGGTATTTGCTCGTTCCACTTGTGGCATTATCACCATTTACGCTGGATAGCATGTGGTTTTATATGCTGGCATACATGCTTATGAATATAGGCGCGTTTGCCATTATCCACGGCTTAATCTTACAAAACGATAAGGAAAACATAACGATTTTCACCGGATTATATAAGAAATCACCATTTGCAGCGATCATGATGACAATCTTTATTTTATCGCTGGCCGGGATACCAGGGACGGCTGGCTTCATTGGAAAGATTAACATCTTTTTAGGCGCGCTTCATGTAGAGCCAGCACATTACGTACTAGCTTCGATTATGATGGGTACGACAGTTGTTTCATTCGTATATTATTTCCGTATTTTACAACAAATGTTTTTCCGCACCGGAGAGACAGAAGAGAGGATACGGTTACCGTTAAATATAAAGGTTGTTATGAGTCTTTGTGCAATTTCGATTGTAATACTAGGGATTATGCCGATGATTGGGTACAATTTCTTTTATGAATATTTTCCATTAATGAAAGATTTCTTCTTCTTAGGGAACGTGGTACAATAG	MNTLLSLSWHLMVPEFIILGAAILLSICDLFFKLNHRYVALGAIAAIVLAIVSLITLYSEPAGDILNGSFVLDGFSKGFKTLLLGASALILCIAMSDDKKNPIEDKGEYYYLFLMALLGAMFMASSVDFITLFVGLELLSLSSYILVGIRKKNRASNEAAMKYVISGGIGTAITLFGMSYLYGITGSTNIVDMQKVLTGELASGIQLLLALAFLLLLVGLSFKIATVPFHMWAPDVYEGATTPVTAFLGTISKIAGFLLIIRLFLMVFASVLIQGDMQSLYGHMSIYIAVLASITMIVGNVVALKQYNIKRLFAYSGIAHAGYLLVPLVALSPFTLDSMWFYMLAYMLMNIGAFAIIHGLILQNDKENITIFTGLYKKSPFAAIMMTIFILSLAGIPGTAGFIGKINIFLGALHVEPAHYVLASIMMGTTVVSFVYYFRILQQMFFRTGETEERIRLPLNIKVVMSLCAISIVILGIMPMIGYNFFYEYFPLMKDFFFLGNVVQ	PGPT0026860_812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
AK009_07698	1503	nuoM	COG1008	NADH-quinone oxidoreductase subunit M	ATGAATGATTTGTTGTTAACGTTCTTCATTTTTTCCCCGCTTTTAGGAATTTTATTGCTTGTATTAACATCGAAAAAGGAATTGCGTACAGTGCGGGCGCTTGGCTTATTTGGGACGGCACTTCCATTTGGAATCGCCATCGTCCTCGCTTGTACATATGCTTCTGGAAAGAGCTTGTCACTATTTGATGAAAAGGTGAAATGGATTAAGTTCGGAGATTTTACAGCGGTGGATAAAAGGTGGTTTTCTATTTATTACGAGCTCGGTATTGATGGTTTGTCGCTTATCATGATGGTACTGACGGCTCTTCTAGCGATGCTTGCAGCAATTGCAGCCTTTTCTATTAAAAGCAATTTAAAAGCATTTTATATGCTGTTACTCATGCTAGAAATAGGGATGCTCGGCGTCTTTGCTGCTCAAAATTTAATGTTGTTTTTTATCTTCTTGGAAATTACGTTGCCACCAATGTTTTTATTAATTGGGAAGTGGGGAAAATTGTCGAGTGAAAAGGCTGCTTATAGTTATTTAATATATAACGGCATTGGCTCAGCTATTTTGCTCATTGTTTTCTCAATTTTGTTCGCGAAAACAGGTACAACAAATATTGTGGAGCTGAAAGAGATATTAAGAAGCGTAAGCGCAGGGGGAGAACTCGTCATCCCAAGTAGCTTGCAGCTTGGTGTATTTATTGCCATAATGATTGCCTTTGCAATTAAACTACCTGTTTTTCCGTTGCACCGCTGGATGGTCAATGTACACATAGAAGCGCATCCAGCTGTAGTTATGCTTCATGCGGGTGTTTTGTTAAAGATTGGAGCGTACGGTATTATTCGCTTCGGGAAAGGGTTATTCCCGGAATATTTTCACGATGTTGCAACGCTAATTGCGATATTAGGCGTAATTAATTTATTATACGGTACCTTTTTAGCGCTCATCCAAACGGACTTTAGGAAAGTCCTCGCTTACTCTAGTATTTCGCATATGGGAATTGTGTTAATGGGACTTGCGTCACTTAATGCACCTGGTACACAGGGAGCGTTATTCCAAGTTGTATCACATGGTTTAATTGCAGCCTTGCTCTTCTTCTTACTAGGTGTTATAGAACAACGATTTGGAACTTCGGATATTATGGTGCTAGGCGGACTTGCGAAAAGTGTACCGATACTTAGCGGATTCTTTTTAGCAGGAGGAATGGCATCGCTTGGACTACCAGGGATGTCTGGGTTTGTTAGTGAATTTCTTGCCTTTCTTGGTTTATTTCAAGGAGAGCCCGTCATTGCTGCAGTCGGTGTGATTGGCATCATTTTAACCGCTGTATACGTATTAAGAGCGACACTTCAAGTGACATTTGGAAAGAAAGAATGGGAAGCAAAATCTGATATACACGGATGGGAGTACGTCCCTGTTTTACTACTTATCTTTTGTATTATTGCAATTGGAGTTATGCCAGAGATACTAGGGGATCCGCTTCAAAATACATTGAAAACATTGGGGGTGAAGTAG	MNDLLLTFFIFSPLLGILLLVLTSKKELRTVRALGLFGTALPFGIAIVLACTYASGKSLSLFDEKVKWIKFGDFTAVDKRWFSIYYELGIDGLSLIMMVLTALLAMLAAIAAFSIKSNLKAFYMLLLMLEIGMLGVFAAQNLMLFFIFLEITLPPMFLLIGKWGKLSSEKAAYSYLIYNGIGSAILLIVFSILFAKTGTTNIVELKEILRSVSAGGELVIPSSLQLGVFIAIMIAFAIKLPVFPLHRWMVNVHIEAHPAVVMLHAGVLLKIGAYGIIRFGKGLFPEYFHDVATLIAILGVINLLYGTFLALIQTDFRKVLAYSSISHMGIVLMGLASLNAPGTQGALFQVVSHGLIAALLFFLLGVIEQRFGTSDIMVLGGLAKSVPILSGFFLAGGMASLGLPGMSGFVSEFLAFLGLFQGEPVIAAVGVIGIILTAVYVLRATLQVTFGKKEWEAKSDIHGWEYVPVLLLIFCIIAIGVMPEILGDPLQNTLKTLGVK	PGPT0026850_2678	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
AK009_07699	1863	nuoL	COG1009	NADH-quinone oxidoreductase subunit L	ATGATCGATTATGCATGGCTCATACCGCTTTTCCCACTCGTTTCGTTTTTGTTACTTATTATATTCGGGAAGAAAATTAGAGAAGGAAGCAGTGTACTTAGTATTTTTTTCGTCTTTCTCTCCTTTATACTTGCGGTACTTGTGTTAATAGAAAGATTTTCAGAAGCAAGCGTGAAGCATAAGTGGGTGTGGCTTAGAGCTGGAGATGTGGATATATCATTTGGCTTTGAAGTGACTGCATTAGGAGCTTTAATGTTGTTTATCGTTACGCTTGTGAGTCTGCTTGTACATGTGTATTCGAAAGGTTATATGAAAGGTGATGAACGATTACCAACCTTTTACGCATATTTAGGACTCTTTACATTTGCGATGTTAGGGCTTGTTATATCAACGAATTTATTACAGCTTTATATATTTTGGGAATTAGTTGGCCTTGGCTCATTTTTACTTATCGGTTTTTATTTCTTTAAAGAAGAAGCGAAGGCTGCTGCAAAAAAGGCTTTTATTATGACCCGTATTGGGGATGTTGGTTTATTTATCGGGATGATTTTAATTTTTTGGTACGCAGGTAGTTTTGAATATGACGCAATATTTAGGGCGATTTATACAGGGGCTCTACCTCCTTACATGATTACAATAACGGCGATATTAATTTTTATCGGGGCGATGGGGAAATCAGGTCAGTTCCCGCTTCACACGTGGTTGCCAGATGCAATGGAGGGGCCAACGCCCGTTTCGGCACTTATTCACGCGGCGACGATGGTTGCAGCGGGCGTATATTTAGTAGCGACGATGTTTCCATTATTTTCGGCAAGTGCGGTAGCGATGCAGACAGTGGCAATTGTTGGAGCTTTCACTGCAATCTTTGCGGCCTCTATCGGCCTTGTACAAACAGATATAAAGAGAGTACTTGCTTATTCTACAGTTAGCCAGCTCGGGTATATGATGCTCGCGTTAGGTTCTGCTGGTTATGTAGCTGGTATATTCCATTTGACGACACATGCTTTTTTTAAAGCACTACTATTTTTGGCAGCAGGAAGTGTAATTCATGCCGTGCATACGCAAAACATTAACAAAATGGGCGGTTTACAGAAGAAGATGAAAGTAACTGGTACGCTATTTTTGATAGGTACACTTGCAATTAGTGGGGTTCCACTCCTTTCTGGGTTCTTTAGTAAAGATGAAATTTTGGCTGCGACTTGGATGAATGGTAATTACTTTTTATTCGTATTAGCAGTAATTGCGGCATTCTTAACGGCATTTTACATGTTTCGTCTATACTTCCTTGTCTTTACTGGGGAAGCGAAGACGAAGGAAGATGTGCATGAGTCGCCCCGCGTTATGAAGTATCCAATGATTGTTCTCGGCGTTCTCGCAGTAGTGGCAGGATATATAAATACACCATGGTTTGGGACGTTTCTCGGAGATTGGTTGACGAAAGATGTAGGGTTTAAGGTTGAAGAAGCGCATGGACCAGTTTGGATTATGATTGTTGCGACGCTCGTTTCATTTGCGGGAATCGCTCTTGCATATTTCATATATGGCAAGAAATCAATTTCTAGAGAGTGGGCTGGGGGTACGGGAACCTCGTTTTATAATCTTTTGAAAGAAAAATATTATGTGGATGAACTATACAACATGACGGTGATCCCTATTACGAAAGGAATCGCTCGTGTGCTTCGCTTATTTGAAGTGTATGTAGTCGAAGGAATTGCAGTTTTAATTGGAAGTGTAGTTAAAGGAACAAGTAATCTTGGATCGAAGCTTCAAAACGGGAATGTACAAGTGTACGGTACTGTAACGGCTGTTTCGCTCGCTGTACTCGTCATTATTTTGCTCTATACGGGAGGGGATTTACGATGA	MIDYAWLIPLFPLVSFLLLIIFGKKIREGSSVLSIFFVFLSFILAVLVLIERFSEASVKHKWVWLRAGDVDISFGFEVTALGALMLFIVTLVSLLVHVYSKGYMKGDERLPTFYAYLGLFTFAMLGLVISTNLLQLYIFWELVGLGSFLLIGFYFFKEEAKAAAKKAFIMTRIGDVGLFIGMILIFWYAGSFEYDAIFRAIYTGALPPYMITITAILIFIGAMGKSGQFPLHTWLPDAMEGPTPVSALIHAATMVAAGVYLVATMFPLFSASAVAMQTVAIVGAFTAIFAASIGLVQTDIKRVLAYSTVSQLGYMMLALGSAGYVAGIFHLTTHAFFKALLFLAAGSVIHAVHTQNINKMGGLQKKMKVTGTLFLIGTLAISGVPLLSGFFSKDEILAATWMNGNYFLFVLAVIAAFLTAFYMFRLYFLVFTGEAKTKEDVHESPRVMKYPMIVLGVLAVVAGYINTPWFGTFLGDWLTKDVGFKVEEAHGPVWIMIVATLVSFAGIALAYFIYGKKSISREWAGGTGTSFYNLLKEKYYVDELYNMTVIPITKGIARVLRLFEVYVVEGIAVLIGSVVKGTSNLGSKLQNGNVQVYGTVTAVSLAVLVIILLYTGGDLR	PGPT0026845_2928	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
AK009_07700	315	nuoK	COG0713	NADH-quinone oxidoreductase subunit K	ATGAGTAGCGTTCCGGCTTCTGCATATTTAACACTTGCGATTATTTTGTTTTGCATCGGCCTATTTGGAGCTTTAACAAAGCGGAATACAGTAATCGTATTAGTTTGTATCGAATTAATGCTAAATGCTGCCAATTTAAACTTAGTGGCGTTTAGTAAATTAGGCTTATTTCCGAATTTAACAGGTCAAATTTTCTCACTGTTTACGATGGCTGTAGCGGCAGCGGAAGCGGCGGTAGGACTCGCTATTTTAATTGCTTTATATCGTAATCGTACGACAGTTCAGGTGGATGAAATGGATACGCTCAAAGGATAG	MSSVPASAYLTLAIILFCIGLFGALTKRNTVIVLVCIELMLNAANLNLVAFSKLGLFPNLTGQIFSLFTMAVAAAEAAVGLAILIALYRNRTTVQVDEMDTLKG	PGPT0026840_552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
AK009_07701	525	nuoJ	COG0839	NADH-quinone oxidoreductase subunit J	ATGAATGGCGAGTTTGTAGCATTCTTTATACTATCCTTGTCTGCAATTATCGGCGGTGTTCTTATGTTGAACTTAACGAAAGTTATGCACATGATGCTAGCTCTCGTTCTAACATTTCTCAGCATTGCAGGTTTGTATTTTCTTTTATCAGCCGAATTTATAGGCGTTGCACAAATTTTACTTTACTCTGGTGCAATCACAATTATTATGATTTTCGGCATTATGTTAACGAAACATAACGCGGAAAATGAATCGCGTCTTACTCTTCGAAAATGGATTATCTTCTTTGCGGTTGTAGCATTTGGAGCGGTTATGTATTTCGCTGTTAATAATATTGATTTTGCAAATGAGAGCACACAAGGAAGTTTACCTCTCCATGAAAACAACACACTTCAAATCGGTACGCTTCTCTATTCAAAATATATTATCCCATTTGAACTAACTTCAGTTATTTTACTTGTAGCACTCGTTGGCGCGATTATACTTGCGAAAAAGGACGAGAAAGAGGAGGATTCCAATGAGTAG	MNGEFVAFFILSLSAIIGGVLMLNLTKVMHMMLALVLTFLSIAGLYFLLSAEFIGVAQILLYSGAITIIMIFGIMLTKHNAENESRLTLRKWIIFFAVVAFGAVMYFAVNNIDFANESTQGSLPLHENNTLQIGTLLYSKYIIPFELTSVILLVALVGAIILAKKDEKEEDSNE	PGPT0026835_2428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
AK009_07702	420	nuoI	COG1143	NADH-quinone oxidoreductase subunit I	ATGAAGGGACTATTTAAAGGATTAAAATATACACTAAGTAATTTGAGCAAGAAGAAGGTAACGTATGATTATCCAAATCAACCGTTGCCGTTGCCAGACCGTTTTCGGGGGATTCAAAAATTCTATCCGGAGAAATGTATTGTTTGTAATCAATGCTCTAACATTTGTCCGACAGACTGTATTCAGTTAACAGGAAAGAAACATCCGGATCCTACGAAAAAAGGAAAAATTATCGACACGTATGATATTAATTTTGAAATTTGTATTCTTTGTGATTTATGTACAGAAGTTTGTCCGACAGAGGCGATTGTCATGACAAATAACTTTGAGCTCGCGGAATATTCACGTGATGACTTATTTAAAAATTTGCAGTGGCTTGACGAAAACGACGAAAACGTCAGGAAGGAGAATAAGGCATGA	MKGLFKGLKYTLSNLSKKKVTYDYPNQPLPLPDRFRGIQKFYPEKCIVCNQCSNICPTDCIQLTGKKHPDPTKKGKIIDTYDINFEICILCDLCTEVCPTEAIVMTNNFELAEYSRDDLFKNLQWLDENDENVRKENKA	PGPT0026830_2990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
AK009_07703	1002	nuoH	COG1005	NADH-quinone oxidoreductase subunit H	ATGATTGAGACGCTCTTACAATCACCTTCAAGCTGGACGAATTTCTTCATTTTTTTCGGATTAGCGGTGCTTCTACTATTTGCAGTCCTTGGCTTCGTTACATATGGAATTTTGGCAGAACGGAAAGTGATGGGATTTATGCAAGGGCGGATTGGACCAAACCAGGTTGGAGGCCGATTCGGTTTACTGCAAACGGTAGCTGATGTTTTAAAACTATTATTGAAAGAAGATAGTATTCCGAAAGCAGCAGATAAACCACTGTTTATATTAGCACCTGTCATTGCATTTGCGCCAGCATTTATGGTGCTGGCAGTTATACCGTTCACTGATAAATTTCAATTTGCCGATATTGGAGTCGGGCTACTTTATTATATCGCTGTTTCCGGTATTACGACGATAGGTGTTGTAACTGGGGGATGGGCATCGAATAATAAATATTCCCTTTTAGGAGGGATGCGTGCGGCGGCGCAAATGATTTCTTATGAGATTCCGCTCGTAATGAGTGTAATTGGTATCGTGTTGTTGGCTGGTAGCCTGAATTTAAATGAGATTGTAGCGGCGCAGGAGAAGGTTTGGTACATTTTCGTGCAGCCAATTGGCTTCGTCGTTTTCTTAATTGCAGCAGTTGCAGAGTTAAATCGGACGCCATTCGATTTGCCAGAAGCGGAGTCAGAACTTGTTTCTGGATATCATACGGAATACTCAGGTTTTCGCTGGGCGTTTTTCATGCTTTCAGAGTACGTATATTTCTTCGGGATGGCATCGTTAATTACAGTGCTCTTTTTAGGCGGATGGAATCCAGTCATGTTTCTTGGATTTATCCCAGGTGCCGTATGGTTTGCTTTGAAATTTAGCAGTGTAGTCTTTCTATTAATTTGGTTCCGCGTTACGTTCCCGCGTATAAGAGGTGACCAGTTAATGGAGTTTGGATGGAAAGTATTATTGCCGATTGCACTTGCAAATATTTTCTTAACGGCATTGATTAAGGAGTTATTCTTCTAA	MIETLLQSPSSWTNFFIFFGLAVLLLFAVLGFVTYGILAERKVMGFMQGRIGPNQVGGRFGLLQTVADVLKLLLKEDSIPKAADKPLFILAPVIAFAPAFMVLAVIPFTDKFQFADIGVGLLYYIAVSGITTIGVVTGGWASNNKYSLLGGMRAAAQMISYEIPLVMSVIGIVLLAGSLNLNEIVAAQEKVWYIFVQPIGFVVFLIAAVAELNRTPFDLPEAESELVSGYHTEYSGFRWAFFMLSEYVYFFGMASLITVLFLGGWNPVMFLGFIPGAVWFALKFSSVVFLLIWFRVTFPRIRGDQLMEFGWKVLLPIALANIFLTALIKELFF	PGPT0026825_2552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
AK009_07704	1101	ndhH	COG0649	NAD(P)H-quinone oxidoreductase subunit H	ATGATCCGTACGGAAGAGATGCTTTTGAATGTAGGACCTCAGCATCCGAGTACACATGGTGTGTTCAGGCTCGTAATTAAGATTGACGGGGAAATTATTAGAGAAGCTACACCGGTTATTGGGTATTTGCATCGCGGGACGGAAAAAATCGCTGAGAGCTTACAGTATACGCAAATTATCCCTTATACAGATCGAATGGACTATTTATCAGCCATGACGAATAATTACGTCATTTGCCATGCTGTAGAGACGATGATGGGGCTTGAAATTCCGGAGCGTGCCGAATACTTGCGAGTACTTGCGATGGAGCTAGGGAGAATTGCAAGCCATCTCGTTTGGTGGGGGACGAATCTTCTTGATATAGGAGCGGTCAGCCCGTTTTTGTACGCGTTTCGTGAACGAGAGATGATTATAAATTTATTAAATGAATTATGCGGGGCACGGCTTACTTTTAACTATATGAGAGTTGGCGGTGTGAAGTGGGATGCGCCAGATGGTTGGATTGAAAAGGTGGAAGAGTTTGTTCCGTATATGAGAGAGCAATTGGCAGGTTATCATGATCTTGTTAGCGGTAATGAGATTTTCTTAAATCGTGTGAAAGGCGTTGGTATATATAGCGCGGAAGAAGCGATCTCGTATTCTTTAAGCGGAGCAAATTTGCGGTGCACTGGAGTAAACTGGGATCTTCGCAAAGACGAGCCGTATTCGATTTATGATCGTTTTGATTTTGATATTCCTGTTGGAAGCGTGGGAGATGCTTGGGATCGCTACGTTTGCCGAATGCAAGAAATCGAGGAGTCTTTAAAGATTGTTGAGCAAGCAGTTCAGCAGTTCCCAAAAGATGGAGCAGTGCTGGCAAAAGTACCGAAAATTATTAAGGCACCTAAGGGAGAAGCGTTTGTACGTATCGAATCGCCGCGCGGAGAGATTGGTTGTTACATCGCTAGTGACGGAAAGAAAGAGCCGTACCGTTTGAAGTTTCGTAGGCCATCTTTTTATAACTTGCAAATTTTACCGAAGTTATTGAAAGGTGAAAACATCGCTAATTTAATTACGATTTTAGGTGGAGTTGATATTGTACTTGGGGAGGTTGATGGCTAA	MIRTEEMLLNVGPQHPSTHGVFRLVIKIDGEIIREATPVIGYLHRGTEKIAESLQYTQIIPYTDRMDYLSAMTNNYVICHAVETMMGLEIPERAEYLRVLAMELGRIASHLVWWGTNLLDIGAVSPFLYAFREREMIINLLNELCGARLTFNYMRVGGVKWDAPDGWIEKVEEFVPYMREQLAGYHDLVSGNEIFLNRVKGVGIYSAEEAISYSLSGANLRCTGVNWDLRKDEPYSIYDRFDFDIPVGSVGDAWDRYVCRMQEIEESLKIVEQAVQQFPKDGAVLAKVPKIIKAPKGEAFVRIESPRGEIGCYIASDGKKEPYRLKFRRPSFYNLQILPKLLKGENIANLITILGGVDIVLGEVDG	PGPT0026805_2746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026805-nuoD-K00333	NA	NA
AK009_07705	1335	ndhJ		NAD(P)H-quinone oxidoreductase subunit J, chloroplastic	ATGAGTAATCCAAACAAAGACTTAGAGGATCTGAAAAAAGAAGCAGCTAGAAAACGCCTTGTAGCGAAACACGAGGCGGAAATAAGTGAGCTTGAGGCAAAAAATCAAGAAAAAGAGAAAGCGCTACCAAAAAATAATGATATTACTATAGAAGAAGCAAAACGACGTGCAGCAGCGGCTGCAAAAGCAAAAGCGGCGGTGTTAGCGAAGCAGAAAAGAGAAGGAACAGAAGAAGTAACGGAAGAAGAAAAAGCAAAGGCAAAGGCAGCGGCAGCAGCAAAAGCAAAAGCGGCGGCGTTAGCGAAGCAGAAAAGAGAAGGAACAGAAGAAGTAACGGAAGAAGAGAAAGCGAAAGCGAAGGCAAAGGCAGCGGCAGCAGCAAAAGCAAAAGCGGCGGCGTTAGCGAAGCAGAAAAGAGAAGGAACAGAAGAAGTAACGGAAGAAGAAAAAGCGAAAGCGAAGGCGAAGGCAGAAGCGGCTGCAAAAGCAAAAGCGGCGGCGTTAGCGAAGCAGAAAAGAGAAGGAACAGAAGAAGTAACGGAAGAAGAAAAAGCGAAGGCAAAGGCAGCGGCAGCAGCAAAAGCAAAAGCGGCGGCGTTAGCGAAGCAGAAAAGAGAAGGAACAGAAGAAGTAACGGAAGAAGAAAAAGCGAAAGCAAAGGCAAAGGCGGTGGCAGCAGCCAAGGCAAAAGCGGCAGCATTAGCGAAGCAGAAAGCTTCGCAAGGTGATGGGGATTCGGGAGATGAAAAGGCAAAGGCAATTGCAGCAGCAAAAGCGAAAGCAGCAGCGGCTGCAAGAGCGAAGACAAAGGGAGCTGAAGGTAAGAAAGAGGATGAGCCGAAGCGGGAAGAAACGTCCGTAAATCAGCCGTATTTAAATCAGTATGTTGAGGCTATTAGGGAGAAGGTAGGAGAGGGTGTATTAGTAGATTCCTACATTAATAAACTGTCAAAGGATGTGCCGACTCTTGTGGTGGATCCCGAAAAATATTATGAAGTGATGGAGTCACTGCGATTCCATGAAGGACTTGCTTTTGATTATATGTCAGAGCTACATGCGACGGATTTTGTGACACATATGGAAGTATATGTTCATTTGTTTTCATATGGTAAGAAACAATCGGTAGCGGTGAAGGTAAAGCTAGACCGGGAAGAACCGCAAGTTGAATCTGTGACAGCGCTTTGGAAAGGGGCTGACTGGCCGGAGCGAGAAGCATACGATTTGCTCGGCATTATATTTAAAGGGCATCCGAATTTAACGCGTATTTTAATGCCAGATGATTGGGTAGGACATCCGCTTAGAAAAGACTATGAACCGTATGATGTGGAGGTGTAG	MSNPNKDLEDLKKEAARKRLVAKHEAEISELEAKNQEKEKALPKNNDITIEEAKRRAAAAAKAKAAVLAKQKREGTEEVTEEEKAKAKAAAAAKAKAAALAKQKREGTEEVTEEEKAKAKAKAAAAAKAKAAALAKQKREGTEEVTEEEKAKAKAKAEAAAKAKAAALAKQKREGTEEVTEEEKAKAKAAAAAKAKAAALAKQKREGTEEVTEEEKAKAKAKAVAAAKAKAAALAKQKASQGDGDSGDEKAKAIAAAKAKAAAAARAKTKGAEGKKEDEPKREETSVNQPYLNQYVEAIREKVGEGVLVDSYINKLSKDVPTLVVDPEKYYEVMESLRFHEGLAFDYMSELHATDFVTHMEVYVHLFSYGKKQSVAVKVKLDREEPQVESVTALWKGADWPEREAYDLLGIIFKGHPNLTRILMPDDWVGHPLRKDYEPYDVEV	PGPT0026790_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026790-nuoC-K00332	NA	NA
AK009_07706	519	nqo6	COG0377	NADH-quinone oxidoreductase subunit 6	ATGGTTATAAATTTTGAGGAATTACATCCAAATGAGCGAGCAGAATTAGAACGAAATATCTTTTTTTCTACATTGGAGCAGTTGAAAGGATGGGCGAGGAGCAATTCTTTATGGCCGATGACATTCGGACTGGCGTGCTGTGCAATTGAAATGATGGGAGTAGGCTCATCACATTACGATTTAGATCGATTTGGGTCATTTTTTCGGACTTCACCAAGACAATCGGACGTCATGATTGTATCGGGAACAGTAACGAAGAAGATGGCTCCTATTGTTCGGCGCTTATATGATCAAATGCCCGAACCGAAATGGGTTATTGCGATGGGATCTTGTGCGACAGCAGGTGGTCCGTATGTAAATTCATATGCTGTTGTGAAAGGTGTAGACCAAATCGTACCAGTTGATGTGTATATTCCTGGTTGTCCCCCAAATCCGGCTGCTTTAATTTATGGAATTAATAAATTAAAAGAAAAAATTCGTTACGAAGCAAAGACCGGGAAGCAGGTGACGAATAAATGA	MVINFEELHPNERAELERNIFFSTLEQLKGWARSNSLWPMTFGLACCAIEMMGVGSSHYDLDRFGSFFRTSPRQSDVMIVSGTVTKKMAPIVRRLYDQMPEPKWVIAMGSCATAGGPYVNSYAVVKGVDQIVPVDVYIPGCPPNPAALIYGINKLKEKIRYEAKTGKQVTNK	PGPT0026785_1880	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
AK009_07707	369	ndhC		NAD(P)H-quinone oxidoreductase subunit 3	ATGGCAAGTGTATATGAAAATAGTTATATGATCGTTTTGATTTTCTTGCTATTAGGTATATTGCTGCCGGTAGTGGCTCTTACATTAGGAAGGATGCTGCGCCCAAATAAGCCAAGTGCAGCAAAGGCGACGACGTATGAGAGTGGAATTGAGCCGTTTCATGATGCAAATATTCGGTTTCATGCTCGTTATTATATTTTCGCTTTATTGTTTGTGATCTTTGATGTAGAAACTTTATTTTTATATCCTTGGGCTGTTGCGTATGACAAGCTAGGTTTATTTGCATTAATTGAAATGCTCATCTTTGTTGTAATGTTGCTAGTTGGATTAGCGTATGCTTGGAAAAAGAAGGTGTTACAATGGTTATAA	MASVYENSYMIVLIFLLLGILLPVVALTLGRMLRPNKPSAAKATTYESGIEPFHDANIRFHARYYIFALLFVIFDVETLFLYPWAVAYDKLGLFALIEMLIFVVMLLVGLAYAWKKKVLQWL	PGPT0026780_1548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
AK009_07708	2730			hypothetical protein	ATGAAAAAACAAACACATGTAAGTATTCTTATAAGCATTGTATTGCTGTCTATAACGATTCACTACGTAGCGATGCCTTTTCTATATGAATATTCATTTCCTTTTCAGCTATTAATCGGAATGAGTACCCTATTAATTGATATTATCGCTTGTAGTTATATACTTTACTTTTCAAACATGAAAGAAGGGCTATCTCGTTTATTTTGGATTATATTATCTGTTGGAGCTCTCTCTTATTTTATCGGTGATATAGTCGTTGCCTATCAGCGTTTAATTGTAAAGGACTTCTATACGTTCGTTGATCCATCTGACCTTTTTTACTTACTTTTTTTAGTTACTTTTGCATTTGCCTTTCTATACGAAATCATTTATAACCGAGATTTATTAGAAAAACTTTTTATGCTATGTGATATTTGTATTATCGTTACAGCCCAATTTACTTTAAGTTACTACTTACTTATTGAACGAACCATTCACGTTTTTACAACATCCTATATCGACATATTTGTTCAACTTACCTATCCAATGGTTGATTTACTCTTTCTCTTAATAGGAATCAATCTTTTATTCAAACCACTATCCTTATTACCTAAAAAGGTTGGTGCGCTTCTTAGCAGTGCTTTAATTTTATATGCTACTACAGATGCGATTTATGCTTATATAAAATACTTCATACCAGAGTATTCTATGTTTACAGTTACTCCTTTCTATCAAGTAACCTTAGTACTAGTAGCAATCGCCTGTATTCTCCATACAAAAGAACCTGAAAAACAAGAGCAAGTACTACTAACACCTAAAATTGGTGAATCAATCCGATTATCATTGCCTTATATTTCAGTAATAACACTTATTCTTTTTATATTAGTTGAATACGTCTTTGGGCCTATTATAGTAATTGGTCTTATAATAACTTTCTCTTTCGTTCTCATACGTCATAGTTTAGTTCGAAAACAAAATAAAATATTATTGCTAGCTCAAATGCAATTCAACTCAGAACTCGAGAAACAAATTAAACTACGTACAGAAGATTTAGTAGAACAGAAAAATGAACTCTATCATAATCAACAAATGTTTAAATCTTTATACGAGCATCATCCAGATCCAATCTTCACATTAGATTTATACGGCAATTTTCTCAAAGTAAATAACGCTGGTACTACTTTACTCGGTTATCAAACGAATGAATTATTAAACCAGCCTTACTATTCACTCATATACGAAGAAGATTTAGAAGAAATGATTAATTCCTTTCATCGTGTAAAAAAGGGACATTCTATCTCTTTAGAAATACGGGCGTATCATAAAAACAGAGATATTTACTACTTGCACGTTACCGCCGTACCGATCTTTTTAAAAGAGAAAATTTCTGGGGTTTATTTAATGATTAAAGATATTACGGAAAGCAAACAACAGCAAGAACAGATTAATTTTCTAGCATACCATGATACTTTAACAGAACTTGCAAATCGTCGTGCATTTCATCAACATTTGGAACAGGCAATTGCACGAGCAAAAATATCGAAAAAGCCTTTTGCTGTTATGTTTCTCGACCTAGACCGTTTTAAAGTTATTAATGATACCCTCGGTCATCGAGTAGGAGACCTATTGCTCATCGCAGTAGCAAAAAGGCTCGAAAGAATATCAACATCAAATATGAAACTCGCGCGGCTAGCTGGAGATGAGTTCACAATCCTTATCGAAAATTACAAAAAAAAGCCAGATGTTCAAAAAATGGCTGATATAATTGTAGCGGCCATGAATGAGCCATTTGAAATCGAAAATCAACATTTACAAATCTCACCGAGTATCGGAATTGCAATATATCCTGAAGCAGGTGAAGATCCGCTATCCATTTTGCAGCATGCTGATATGGCCATGTACGAAGCAAAAAATAAAGGAAAAAACGGTAGCTCTCTTTACACGAAAGAACTATATAAAAAAATGGAACGAAAAGCTCGAATTGAAAAAGATCTGCCAATTGCTTTAGTAAACAAAGAATTTCATCTCGTCTATCAACCACAAATTGATACGACAACAAATAAAATCATCGGCGCTGAAGCTTTAATACGTTGGAAACACCCACTATTAGGTGATATTTCACCATGTGAGTTTATTCCAATTGTAGAAGAGACGCCACAAGTAGTCCCACTTGGACATTGGGTATTACAAGAAGCTTGTCTCCAATTAAAAATATGGCATATCCTTGGCTACCAAAATTTAAAAATAAGTGTTAATTTATCCGCAAAAGAGTTCCGGCAAGATCAATTAATCGAAAACATTTCACAAATATTAAACAACGTAAGCGTCGACCCAAAATATGTCACACTTGAGTTAACAGAAAGAATTGCAATGATTGACGAGAAAGAAACGTTATTAAGACTGAAGCAATTAAAAGAATACGGTATCCAAACTTCCATTGATGACTTCGGTACTGGGTATTCTTCTCTTGCTTATTTATCAATTTTTCCAATCGACACATTAAAAGTACCGAGAGAATTCACACAATTAGCCGATCATCGTCCTGAAGAACGAGCCATCGTTTCTACAATCCTTTCCCTCGCAAATACTTTAAATCTTTCAGTCGTTGCCGAAGGAATTGAAACCGAAAAACAGCTTAAGTTTCTGCAAAAACATAACTGTAAATATATGCAAGGTTACTATTTCAGTAAACCACTTACTAGTAATCAATTTATAAAGTTTCTACAAAAAACCCCCAGTATGAACAAATAA	MKKQTHVSILISIVLLSITIHYVAMPFLYEYSFPFQLLIGMSTLLIDIIACSYILYFSNMKEGLSRLFWIILSVGALSYFIGDIVVAYQRLIVKDFYTFVDPSDLFYLLFLVTFAFAFLYEIIYNRDLLEKLFMLCDICIIVTAQFTLSYYLLIERTIHVFTTSYIDIFVQLTYPMVDLLFLLIGINLLFKPLSLLPKKVGALLSSALILYATTDAIYAYIKYFIPEYSMFTVTPFYQVTLVLVAIACILHTKEPEKQEQVLLTPKIGESIRLSLPYISVITLILFILVEYVFGPIIVIGLIITFSFVLIRHSLVRKQNKILLLAQMQFNSELEKQIKLRTEDLVEQKNELYHNQQMFKSLYEHHPDPIFTLDLYGNFLKVNNAGTTLLGYQTNELLNQPYYSLIYEEDLEEMINSFHRVKKGHSISLEIRAYHKNRDIYYLHVTAVPIFLKEKISGVYLMIKDITESKQQQEQINFLAYHDTLTELANRRAFHQHLEQAIARAKISKKPFAVMFLDLDRFKVINDTLGHRVGDLLLIAVAKRLERISTSNMKLARLAGDEFTILIENYKKKPDVQKMADIIVAAMNEPFEIENQHLQISPSIGIAIYPEAGEDPLSILQHADMAMYEAKNKGKNGSSLYTKELYKKMERKARIEKDLPIALVNKEFHLVYQPQIDTTTNKIIGAEALIRWKHPLLGDISPCEFIPIVEETPQVVPLGHWVLQEACLQLKIWHILGYQNLKISVNLSAKEFRQDQLIENISQILNNVSVDPKYVTLELTERIAMIDEKETLLRLKQLKEYGIQTSIDDFGTGYSSLAYLSIFPIDTLKVPREFTQLADHRPEERAIVSTILSLANTLNLSVVAEGIETEKQLKFLQKHNCKYMQGYYFSKPLTSNQFIKFLQKTPSMNK	PGPT0023624_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
AK009_07709	645			hypothetical protein	ATGATTAGTGATCTAAAAGGAGAAGCACTAGATTCATTAGAAGGGAAATGGGGATTAGCAGTCGGAGCCACATTACTTATTTCTGTTATAATGATCACTTTTAACTTTATTGTTGATTTTTCGTTTACACAAATTTTGGGTTGGGAAGATATGAAAAACTCCATGATAGTAGATATTATTACAACTTTTATGGTAGGTCCATTAACGTTAGGTGGCTATTATTTAGCGCTACATATAATTCGAGAAAAAGACGCGCGTATTGGGCATATATTTAGATGGTTTACAGCAGGAAGTAAGTTTATAAAGTCATTTTTATTATATATAGTAGTGAACATTTATATTTTCTTATGGTTTTTACTATTTATTATTCCAGGCATCATTAAATCATTCTCTTATGCGATGACGTACTTTATAATAAATGATCATCCTGAGTATTCCATAAATCAAGCTATTACAGAAAGCCGTCGTATGATGGATGGGCATAAGATGGAGTATTTCATTTTATGTTTAAGTTTTATCGGTTGGTTTATATTGAGTTGTATTACGTTAGGGATTGGATTCTTATGGTTAATTCCATATTTCTACACAACATCTGCGGCTTTTTACGAAGAAATCGCAGAAGAATATTATGAGAAAAAAATTTAG	MISDLKGEALDSLEGKWGLAVGATLLISVIMITFNFIVDFSFTQILGWEDMKNSMIVDIITTFMVGPLTLGGYYLALHIIREKDARIGHIFRWFTAGSKFIKSFLLYIVVNIYIFLWFLLFIIPGIIKSFSYAMTYFIINDHPEYSINQAITESRRMMDGHKMEYFILCLSFIGWFILSCITLGIGFLWLIPYFYTTSAAFYEEIAEEYYEKKI				NA	NA	NA	NA	NA
AK009_07710	888			hypothetical protein	TTGTCTATTTTATGGAGAATTTTACAAAACTGGTATAATTATATTGATGCTTGTATAAGTAGAAGTGTACAACAATTTATATTTTATGAAGGGGATGAATCAATGATTGGTGAAATGAAACGAGAAGCATTGTACTCTTTAAAGGGAAAATGGGGACTAGGTGTTGGGTCAACAATTTTATATTTTATTTTAAGTTATGTCGTTTCGATGGCTGCAATGCTTATACTATTAATTCCAGGAATTATTATATTTCTCTCAGTTGTAAGTTTAACTGGATCATTTGAAGAGGAAACGATGTCAATTGGAGCAGGTATTACCTTTGGGATTTTTTATTGCATTATGATAATTTTGAGTAACGCATCGTATGGGATTACATCATATGGTTATACAAATGTATTTTTACAGATTAGTAAACGAGAAGATGCTAAAGTAGATCACTTATTTGAAGGATTTCGCGGTTTTAAAAGAATGATGAAAACAATGTGGGCAATGCTTGCAATTTTGTTATATACAGGTACATGGATTCCGATGCTGTTAATAGGCTTATTTGCATTGTTAGGTGAAGAAGGGAATACGTCATTTGCAATAGCTTTCTTCGTGCTATTAGCGATTTCAATTGTTGGTATGATTGTGATGTATTTTTCTTATGCGCTGACGTACTATGTAATGATTGAAAATCCAGAATATAGTGTTTCGCAGGCGATGAAGGAATGTAAGAATCTTATGAAGGGGCATAAGTTAGATTTGTTTCTTTTATGGCTGAGCTTCATAGGATGGGCTATTTTAGCGCTTCTTACTTTTGGAATAGGCTTTCTTTGGCTTAGTCCGTATATGAGTACAACGACAGCACACTTTTATCGCTACATCTCAAAAGGTGAATTGCAATAG	MSILWRILQNWYNYIDACISRSVQQFIFYEGDESMIGEMKREALYSLKGKWGLGVGSTILYFILSYVVSMAAMLILLIPGIIIFLSVVSLTGSFEEETMSIGAGITFGIFYCIMIILSNASYGITSYGYTNVFLQISKREDAKVDHLFEGFRGFKRMMKTMWAMLAILLYTGTWIPMLLIGLFALLGEEGNTSFAIAFFVLLAISIVGMIVMYFSYALTYYVMIENPEYSVSQAMKECKNLMKGHKLDLFLLWLSFIGWAILALLTFGIGFLWLSPYMSTTTAHFYRYISKGELQ				NA	NA	NA	NA	NA
AK009_07711	402	atpC_2	COG0355	ATP synthase epsilon chain	ATGAAGACATTTCCAGTCAGTATTGTAACTCCTGATGGACCGGTTTACGAAAAAGAAGTAGAAATGGTAAGTGTAAAAGCAGAGAGTGGGGAAATGGGGATCTTACCAGGTCACATTCCAACTGTTGCACCATTAAAAATTAGTGCAGTTCGTCTGAAAAATGGTGGACACACTGATTATGTAGCAGTAAGCGGTGGCTTTATCGAAGTTCGTCCAGATAAAGTGACTGTATTATCATCATCTGCTGAAGAAGCAAACCATATCGATATCCATCGTGCAAATGAAGCGAAGCGTCGCGCTGAGCAACGTATGCAAGATAAACAAGCACATGTTGACTTTAAACGTGCAGAAATGGCCTTGCAACGTGCCGTGAACCGTTTAAACGTTTCTGATATGAAGTAA	MKTFPVSIVTPDGPVYEKEVEMVSVKAESGEMGILPGHIPTVAPLKISAVRLKNGGHTDYVAVSGGFIEVRPDKVTVLSSSAEEANHIDIHRANEAKRRAEQRMQDKQAHVDFKRAEMALQRAVNRLNVSDMK	PGPT0014295_2761	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
AK009_07712	1407	atpD	COG0055	ATP synthase subunit beta	ATGAATAAAGGGCGCGTTACGCAAATCATGGGTCCGGTTGTAGACGTTAAGTTTGATGGCGGAAAGCTACCAGAAATCTACAACGCCCTTACGGTAAAACAAAGCAACGAAAACGGAAGCATGAACTTAACATTTGAAGTTGCACTTCATTTAGGTGATGATACAGTTCGTACAGTTGCGATGTCTTCCACAGATGGACTTGTTCGTGGCACAGAAGTAGAAGATACTGGTAAAGCAATTTCTGTACCAGTTGGTGATGTAACACTTGGACGTGTATTCAACGTATTAGGTGATGCAATTGACTTAGATGGTGAACTTCCTGCGGATGTACACCGTGATCCAATTCACCGTCAAGCACCTGCATTCGAAGAATTATCTACTAAAGTAGAAATTCTTGAAACTGGTATTAAAGTAGTAGACTTACTTGCTCCTTACATTAAGGGTGGTAAGATCGGCCTATTCGGTGGTGCCGGTGTAGGTAAAACAGTATTAATTCAGGAATTAATTAACAACATCGCACAAGAGCACGGTGGTATCTCTGTATTCGCTGGTGTAGGTGAGCGTACTCGTGAGGGTAATGACTTATACCACGAAATGAGCGATTCTGGCGTAATCAAGAAAACTGCGATGGTATTCGGACAAATGAACGAGCCACCTGGAGCACGTCAACGTGTTGCATTAACAGGTTTAACAATGGCTGAGCATTTCCGTGATGAGCAAGGACAAGACGTACTTCTGTTCATCGATAACATCTTCCGTTTCACGCAAGCGGGTTCTGAAGTATCTGCCCTTCTTGGTCGTATGCCATCTGCGGTAGGTTACCAACCAACACTTGCAACAGAAATGGGTCAATTACAAGAGCGTATTACATCTACAAATAAAGGGTCTATCACGTCTATCCAAGCGGTATATGTACCAGCCGATGACTATACTGACCCAGCACCAGCTACAACGTTCGCTCACTTAGATGCAACAACAAACTTAGAGCGTCGTTTAACACAAATGGGTATTTACCCAGCCGTAGATCCATTAGCATCTACATCTCGTGCACTGTCTCCAGAAATCGTAGGAGAAGAACATTATGAAGTAGCTCGTCAAGTACAACAAACTTTACAACGTTATAAAGAACTTCAAGATATCATCGCTATCTTAGGTATGGATGAGTTATCTGAAGAAGATAAGTTAGTTGTACATCGTGCTCGTCGTATTCAATTCTTCTTATCTCAAAACTTCCACGTAGCTGAGCAGTTTACAGGTCAAAAAGGTTCTTACGTACCTGTAAAAAATACAGTTAGTGGTTTCAAAGAAATTCTAGAAGGAAAATATGATGACCTTCCAGAAGATGCATTCCGCTTAGTAGGTGGCATTGAAGAAGTTATTGAAAACGCGAAGAAAATGATGGCGTAA	MNKGRVTQIMGPVVDVKFDGGKLPEIYNALTVKQSNENGSMNLTFEVALHLGDDTVRTVAMSSTDGLVRGTEVEDTGKAISVPVGDVTLGRVFNVLGDAIDLDGELPADVHRDPIHRQAPAFEELSTKVEILETGIKVVDLLAPYIKGGKIGLFGGAGVGKTVLIQELINNIAQEHGGISVFAGVGERTREGNDLYHEMSDSGVIKKTAMVFGQMNEPPGARQRVALTGLTMAEHFRDEQGQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGQLQERITSTNKGSITSIQAVYVPADDYTDPAPATTFAHLDATTNLERRLTQMGIYPAVDPLASTSRALSPEIVGEEHYEVARQVQQTLQRYKELQDIIAILGMDELSEEDKLVVHRARRIQFFLSQNFHVAEQFTGQKGSYVPVKNTVSGFKEILEGKYDDLPEDAFRLVGGIEEVIENAKKMMA	PGPT0014296_2936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
AK009_07713	861	atpG	COG0224	ATP synthase gamma chain	GTGGCATCTTTACGCGATATAAAAGCGAAGATTACCTCGACAAAGAAAACGAGTCAAATTACGAAAGCGATGGAGATGGTATCTGCATCTAAGTTAAACCGTGCAGAACAAAATGCTAAATCTTTCGTTCCGTATATGGAAAAGATTCAAGAAGTAGTAGCGAGCATTGCGCAAGGAAGTAAAGGAATTAATCATCCGATGCTAAATGCGCGTCCTGTAAAGCGTACAGGATACATCGTTATTACATCTGATCGCGGACTAGCAGGTGGTTATAACAGTAACGTATTACGTACAGTGAGTAACGTAATTCGTGAACGTCATAATATGGATTCAAACCAATATTCAATTATTGTGCTTGGACGACTAGGACGTGATTATTTAAAACGTCGCGGCTTTAACATCATTGATGAAGTAGTTGGATTATCTGACCACCCATCATTTACTGATATTAAAGATCTTGCTTCTCGAGCAATTGCGATGTTTGCAGATGGTGCTTATGATGAGCTGTATATTTACTACAACCATTACGTAAGTAAAATTTCACAAGAAGTAACGGAAAATAAAATTTTACCGCTTACTGATGTGGCGTCTGATAAACCGACGACAGCTTATGAATTCGAACCTTCTGAAGAAGAGATTTTAAAAGTACTATTGCCACAATACGCAGAAAGCTTAGTGTACGGTGCATTACTAGATGGTAAAGCAAGTGAGCACGCAGCGCGTATGACAGCAATGAAGAGTGCTACAGACAACGCAATGGAAGTTATCGATTCACTTACACTTTCATTCAACCGTGCGCGTCAGGCAGCGATTACGCAAGAAATTACGGAAATCGTTGGTGGAGCAGCAGCGTTAGAATAG	MASLRDIKAKITSTKKTSQITKAMEMVSASKLNRAEQNAKSFVPYMEKIQEVVASIAQGSKGINHPMLNARPVKRTGYIVITSDRGLAGGYNSNVLRTVSNVIRERHNMDSNQYSIIVLGRLGRDYLKRRGFNIIDEVVGLSDHPSFTDIKDLASRAIAMFADGAYDELYIYYNHYVSKISQEVTENKILPLTDVASDKPTTAYEFEPSEEEILKVLLPQYAESLVYGALLDGKASEHAARMTAMKSATDNAMEVIDSLTLSFNRARQAAITQEITEIVGGAAALE	PGPT0014297_4115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
AK009_07714	1509	atpA	COG0056	ATP synthase subunit alpha	ATGAGCATCAGAGCTGAAGAAATTAGCGCACTGATAAAGCAACAAATCGAGAACTATCAGTCTGAAATCGAAGTTAGTGATGTTGGTACAGTTATCCAAGTTGGTGACGGTATTGCGCGTGCTCATGGTCTTGATAACGTTATGGCTGGTGAACTTGTAGAGTTCTCTAACGGCGTTATGGGACTAGCACAAAACTTAGAGGAAAACAACGTAGGTATTATCATTTTAGGACCTTACACAGAAATCCGTGAAGGTGACGAAGTTCGTCGTACTGGTCGCATCATGCAAGTACCAGTAGGAAAAGAACTAATTGGTCGTGTTGTAAACCCATTAGGTCAACCAGTTGATGGTTTAGGCCCAATCAATACAACAAACACTCGTCCAATCGAAAGTCCAGCACCAGGTGTAATGGATCGTAAATCTGTTCATGAGCCACTTCAAACAGGTATTAAAGCGATCGATGCTCTTGTACCAATTGGCCGTGGTCAACGTGAGTTAATCATCGGTGACCGTCAAACTGGTAAAACAGCAGTTGCACTTGATACAATCATTAACCAAAAAGATGAAGATATGATTTGTATCTATGTAGCTATCGGACAAAAAGAATCAACTGTACGTAACGTAGTAGAAACACTACGTAAGCACGGTGCATTAGAGTACACAATCGTTGTAACTGCATCTGCTTCTCAACCAGCTCCATTATTATACTTAGCTCCTTATGCTGGTGTAACAATGGGTGAAGAGTTCATGTACAATGGTAAACACGTATTAGTAGTATATGATGACTTATCAAAACAAGCAGCGGCTTACCGTGAGCTGTCATTACTATTACGTCGTCCTCCAGGTCGTGAAGCTTATCCAGGGGATGTATTCTACTTACATTCTCGCTTATTAGAGCGTGCAGCAAAATTAAGTGATGCAAGAGGCGGCGGTTCTTTAACTGCACTACCTTTCATCGAAACACAAGCAGGGGACGTATCAGCTTACATCCCAACAAACGTAATTTCTATTACGGATGGACAAATCTTCTTACAATCTGACCTATTCTTCTCTGGCGTACGTCCAGCGATCGATGCAGGTACTTCTGTATCTCGTGTTGGTGGATCTGCTCAGATTAAAGCAATGAGTAAAGTATCAGGTACACTTCGTCTTGACCTTGCATCTTACCGTGAGTTAGAAGCGTTCGCTCAGTTCGGTTCTGACCTTGATAAAGCAACTCAAGCGAAACTAAACCGTGGTGCTCGTACTGTTGAGGTATTAAAACAAGGATTACACAAACCGTTACGTGTAGAGAAACAAGTTATCATTCTTTACGCTTTAACACGTGGATTCCTAGATGATATCCCAGTAGTAGATATCACTCGTTTCGAAGAAGAATTCCATGCTTGGTTAGATTCTAATGCGACTGACTTATTAGAAGAAATCCGCACAACTAAGAAACTTGCGGATGACGACAAATTTGCAGCAGCAATTAACGGATTTAAAAAAGTATTCGTAGCTTCTGAGTAA	MSIRAEEISALIKQQIENYQSEIEVSDVGTVIQVGDGIARAHGLDNVMAGELVEFSNGVMGLAQNLEENNVGIIILGPYTEIREGDEVRRTGRIMQVPVGKELIGRVVNPLGQPVDGLGPINTTNTRPIESPAPGVMDRKSVHEPLQTGIKAIDALVPIGRGQRELIIGDRQTGKTAVALDTIINQKDEDMICIYVAIGQKESTVRNVVETLRKHGALEYTIVVTASASQPAPLLYLAPYAGVTMGEEFMYNGKHVLVVYDDLSKQAAAYRELSLLLRRPPGREAYPGDVFYLHSRLLERAAKLSDARGGGSLTALPFIETQAGDVSAYIPTNVISITDGQIFLQSDLFFSGVRPAIDAGTSVSRVGGSAQIKAMSKVSGTLRLDLASYRELEAFAQFGSDLDKATQAKLNRGARTVEVLKQGLHKPLRVEKQVIILYALTRGFLDDIPVVDITRFEEEFHAWLDSNATDLLEEIRTTKKLADDDKFAAAINGFKKVFVASE	PGPT0014298_4393	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
AK009_07715	543	atpH_2	COG0712	ATP synthase subunit delta	ATGAGCAATGGGATTGTAGCAAAACGTTATGCTGTCGCTCTTTTTAAAATTGCAAAAGAAAAACACGTATTAGAAATGTTTGAAGAAGAATTACGCCTTGTACAAAACGTTTATGTAAAGAACGGGGAACTACATAGCTTTTTAACGCAACCAAACATTTCAAAAGAGCAGAAGAAAACGTTTCTTGCAAACGTATTCGGATCTGTTTCTGAATCAATTTTAAATACGTTATATATTTTAATTGATAACAAGCGTATTGATATCTTACCTGAAATTGCAGATGAATATGTTGTTCTTGCTAATGAAGAACGTAACGTAGCGGATGCAACTGTATATTCTATTCGTCTTCTATCTGAAGAAGAGAAGCTTAACATTGCAGAAGCATTTGCAAAGAGAACGGGAAAAGATGCAATTCGCGTGAAAAATGTTGTAGATGAAGATTTACTAGGCGGAATTAAAGTACGTATTGGAAATCGCATTTATGACGGAAGTTTACAAGGAAAATTAGCACGTATTCAGCGTGAATTAATGAAGAATAGATAG	MSNGIVAKRYAVALFKIAKEKHVLEMFEEELRLVQNVYVKNGELHSFLTQPNISKEQKKTFLANVFGSVSESILNTLYILIDNKRIDILPEIADEYVVLANEERNVADATVYSIRLLSEEEKLNIAEAFAKRTGKDAIRVKNVVDEDLLGGIKVRIGNRIYDGSLQGKLARIQRELMKNR	PGPT0014299_2493	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
AK009_07716	507	atpF_2		ATP synthase subunit b	GTGCCAACTTTATTATTAGGAGCTGCCATTCCATTTGGAACGATTGCTTATACATTGTTCATTTTCTTAATTCTATTAGTAATGCTACGCAAATTTGCGTGGGGTCCTTTAATGGGAATTATGAAAGAACGTGAAGAGCATGTTACTAATGAAATCGACGCTGCAGAAAGAAGTAACGCTGAAGCGAAGAAGTTAGTAGAAGAACAACGTGAAATGTTAAAACAATCGCGTGTTGAAGCACAAGAGTTAATCGAAAGAGCGAAAAAACAAGCTGTAGATCAAAAAGATGTGATTGTTGCTGCTGCGAAAGAAGAAGCAGAATCAATTAAAGCATCTGCTGTACAAGAAATTCAACGCGAAAAAGAGCAAGCAATTGCTGCTTTACAAGAACAAGTCGCTTCTTTATCTGTTCAAATTGCTTCTAAAGTAATTGAAAAAGAATTAAAAGAAGAAGATCAAGTTAAGTTAATTCGCGATTATATTAAAGAAGTAGGAGAAGCGCGATGA	MPTLLLGAAIPFGTIAYTLFIFLILLVMLRKFAWGPLMGIMKEREEHVTNEIDAAERSNAEAKKLVEEQREMLKQSRVEAQELIERAKKQAVDQKDVIVAAAKEEAESIKASAVQEIQREKEQAIAALQEQVASLSVQIASKVIEKELKEEDQVKLIRDYIKEVGEAR	PGPT0014301_2991	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
AK009_07717	219	atpE		ATP synthase subunit c	ATGAGTTTAGGTGTAATCGCAGCTGCAATTGCAATTGGTTTATCAGCATTAGGTGCAGGTATTGGTAACGGTCTTATCGTATCACGTACAATCGAAGGTGTTGCTCGTCAACCAGAATTAAAAGGCGCACTTCAAACAATTATGTTCATCGGGGTTGCTTTAGTTGAGGCACTTCCAATCATCGGTGTAGTTATTGCATTCATCGTAATGAACAAATAA	MSLGVIAAAIAIGLSALGAGIGNGLIVSRTIEGVARQPELKGALQTIMFIGVALVEALPIIGVVIAFIVMNK	PGPT0014302_2794	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
AK009_07718	720	atpB		ATP synthase subunit a	GTGGAACACGGTAAATTAGTTGAATTTCTAGGTTTAACGTTCGATTTGTCATCAGTTATGATGGTTACTGTAGCAGCAGTTATTGTTTTCTTAATCGCTGTTATCGGAACTCGCAGCTTAGCCCTTCGCCCAACCGGGATGCAAAACTTCATGGAATGGGTGTTTGACTTCGTGAAAGGGATTATCAATAGTACGATGGACTGGAAAACAGGTGGACGTTTCTTAACGCTTGGCGTTACGCTTATCATGTTTATCATCGTATCGAACTTCCTTGGTTTACCATTCATGTATTCAGCAACTGAAGCTGGCGAACATATTGCATGGTGGAGGTCACCAACGTCTGATCCAGCAGTTACATTAACATTAGCCGTGATGGTAGTTACCCTCACCCATTATTATGGAATTAAGATGAAGGGTACGAAAGAGTATGTTAAAGGTTATTTCCAACCTATGAAATTCTTATTCCCATTAAAGGTTATTGAGGAGTTTGCTAACACATTAACGTTAGGTCTTCGTTTATTCGGTAACATTTATGCAGGTGAGATCTTATTAGGATTACTTGCTAAGTTAGGCGGGGCATCATTCCTTGGAGCATTAGGTGCGCTTGTACCGATGTTAGCATGGATGGGATTCAGTGTATTCGTTGGATCAATCCAAGCATTTATTTTCGTTATGTTAACGATGGTTTATATGGCTCATAAAGTAAGTCATGACCATTAA	MEHGKLVEFLGLTFDLSSVMMVTVAAVIVFLIAVIGTRSLALRPTGMQNFMEWVFDFVKGIINSTMDWKTGGRFLTLGVTLIMFIIVSNFLGLPFMYSATEAGEHIAWWRSPTSDPAVTLTLAVMVVTLTHYYGIKMKGTKEYVKGYFQPMKFLFPLKVIEEFANTLTLGLRLFGNIYAGEILLGLLAKLGGASFLGALGALVPMLAWMGFSVFVGSIQAFIFVMLTMVYMAHKVSHDH	PGPT0014303_3725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
AK009_07719	393			hypothetical protein	ATGATAGACGTACATGGACTTGTCCAAAGACAAAAGAAATATATGTACTACTTGCTTGCGCTTCTAGTGCTAGGATGGGGATTTACCTCTTACAAGGATGTATTTCTTGGGCTGATTATCGGAACGATTTTCAGTTTTCTTAGTTTGCGCATCATTGCACGTAGAACAGACAAGCTGTTAGATCGCGTAACAAATGGAGAAAACGTGAAGTTTAAGGCGACAGCTGTAAGTACATATTCAAGATTCGCCACGATTGGGTTATTAATTTTATTTGCAGCCAAATATCAAGAGTTAATTGCGATGTGGGGCTTAGGTGTAGGATTGCTGACAGGATACCTTGTCATGATCATAGATTTTCTTTATTTAGAGTATAAGAGCAGGGAAGAGAGGTGA	MIDVHGLVQRQKKYMYYLLALLVLGWGFTSYKDVFLGLIIGTIFSFLSLRIIARRTDKLLDRVTNGENVKFKATAVSTYSRFATIGLLILFAAKYQELIAMWGLGVGLLTGYLVMIIDFLYLEYKSREER	PGPT0030480_960	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK009_07720	225			hypothetical protein	TTGCAAAAAAACGATCGCAGCCATATAAAAGCATATGCTTTAATGTCAGGAATTCTTGCTCAATTAGTCGGTTCTATACTTGTTGGAATCTTTGGTGGGCAGTGGATTGATAATAAGGTTGGAACGTTTCCATTGTTTCTTATTATAGGGTTATTACTCGGGTTAGGAACAGGGGTATACGCAATGATTCGACTCATTCGACATTACTATTCGGGAGAGCAATGA	MQKNDRSHIKAYALMSGILAQLVGSILVGIFGGQWIDNKVGTFPLFLIIGLLLGLGTGVYAMIRLIRHYYSGEQ	PGPT0030480_3116	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK009_07721	630	upp		Uracil phosphoribosyltransferase	ATGGGAAAACTGTATGTATTTGATCACCCGTTAATTCAACATAAGATTACATATATTCGCGATAAGAATACAGGTACGAAAGATTTTCGTGAATTAGTGGACGAAGTAGCAAGCTTAATGGCTTTCGAAATTACTCGCGACCTTCCGCTTAAGGATATTGAAATTGAAACGCCTGTAAGCAAAGCGACAACAAAAGTGATCGCTGGTAAAAAACTTGGTTTAATTCCGATTTTACGTGCAGGTTTAGGAATGGTTGATGGAATTCTGAAATTAATTCCAGCAGCAAAAGTAGGACACGTTGGTTTATACCGTGACCCTAAAACATTGCAACCGGTAGAATACTATGTGAAACTTCCAACGGATGTAGAAGAGCGTGACTTTATCGTACTAGATCCGATGCTAGCAACAGGTGGTTCTGCGGCTGAAGCAATTAACTCTCTGAAAAAGCGCGGTGCGAAACAAATTAAATTAATGTGTATCGTTGCAGCTCCAGAAGGGGTAAAAGTAGTACAAGAAGAACATCCCGATGTTGATATTTATGTAGCAGCATTAGATGAGAAATTAAATGACCACGGATATGTAGTACCAGGTCTTGGTGATGCTGGTGACCGTTTATTCGGAACGAAGTAA	MGKLYVFDHPLIQHKITYIRDKNTGTKDFRELVDEVASLMAFEITRDLPLKDIEIETPVSKATTKVIAGKKLGLIPILRAGLGMVDGILKLIPAAKVGHVGLYRDPKTLQPVEYYVKLPTDVEERDFIVLDPMLATGGSAAEAINSLKKRGAKQIKLMCIVAAPEGVKVVQEEHPDVDIYVAALDEKLNDHGYVVPGLGDAGDRLFGTK	PGPT0021240_2832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
AK009_07722	1242	glyA	COG0112	Serine hydroxymethyltransferase	GTGGATCATTTAAAACGTCAAGATGAAAAGGTATTTGCTGCAATTGAGGCAGAACTAGGAAGACAGCGTTCAAAGATTGAGTTAATTGCTTCGGAAAACTTTGTAAGTGAAGCGGTAATGGAGGCGCAAGGTTCTGTTTTAACAAATAAGTATGCTGAAGGATATCCTGGAAAACGTTACTATGGTGGCTGTGAACACGTAGACGTAGTAGAAGATATCGCACGTGATCGCGTAAAAGAAATTTTTGGCGCAGAGCACGTAAACGTTCAACCACACTCTGGTGCACAAGCGAACATGGCAGTATACTTCACAATTTTAGAGCAAGGCGATACAGTACTTGGTATGAATTTATCTCATGGTGGTCACTTAACACACGGAAGCCCTGTTAACTTCAGTGGAGTACAATATAATTTCGTAGAATATGGCGTGGATGCTGACTCTCACCGTATTAATTACGATGATGTATTAGCAAAAGCGAAAGAACATAAACCAAAATTAATCGTTGCAGGTGCAAGTGCATACCCTCGTGTTATCGATTTCAAACGATTCCGTGAGATTGCAGATGAAGTGGGTGCATACTTAATGGTGGATATGGCACATATCGCTGGTTTAGTAGCTGCTGGCTTACATCCAAATCCAGTACCACATGCACATTTCGTTACAACGACAACACATAAAACGTTACGTGGTCCGCGCGGTGGTATGATTTTATGTGAAGAGAAGTTTGCAAAACAAATTGATAAATCAATCTTCCCTGGTATTCAAGGTGGTCCACTTATGCACGTAATCGCTGCAAAAGCTGTTGCGTTTGGTGAGACACTCCAAGAGGATTTCAAAACGTATGCACAAAATATCATTAACAATGCGAACCGCTTAGCTGAAGGTCTTCAAAAAGAAGGACTTACACTTGTTTCTGGCGGAACAGACAATCACTTAATCTTGATTGATGTTCGTAACCTAGAAATCACAGGTAAAGTAGCAGAGCACGTATTAGATGAAGTTGGTATTACAGTGAACAAAAATACAATTCCATTTGAAACAGCAAGCCCATTTGTAACAAGTGGTGTACGTATCGGTACAGCAGCTGTAACATCTCGTGGTTTCGGTTTAGAAGAAATGGATGAAATTGCGTCACTTATTGCTTATACATTAAAAAATCATGAAAATGAAGCTGCATTAGAAGAAGCACGTAAGCGTGTAGAAGCGTTAACGAGCAAATTCTCAATGTATCCAAATCTATAA	MDHLKRQDEKVFAAIEAELGRQRSKIELIASENFVSEAVMEAQGSVLTNKYAEGYPGKRYYGGCEHVDVVEDIARDRVKEIFGAEHVNVQPHSGAQANMAVYFTILEQGDTVLGMNLSHGGHLTHGSPVNFSGVQYNFVEYGVDADSHRINYDDVLAKAKEHKPKLIVAGASAYPRVIDFKRFREIADEVGAYLMVDMAHIAGLVAAGLHPNPVPHAHFVTTTTHKTLRGPRGGMILCEEKFAKQIDKSIFPGIQGGPLMHVIAAKAVAFGETLQEDFKTYAQNIINNANRLAEGLQKEGLTLVSGGTDNHLILIDVRNLEITGKVAEHVLDEVGITVNKNTIPFETASPFVTSGVRIGTAAVTSRGFGLEEMDEIASLIAYTLKNHENEAALEEARKRVEALTSKFSMYPNL	PGPT0008090_7008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
AK009_07723	573			hypothetical protein	ATGACAGAAATCGTAAAAGTAAGAGAACAGCTACAAATGTCGCTTTCTGATTTCCAAGAACAAGCTTCATTACAAAGCGGTCAAATTTTTGTAGTGGGTTGTAGCACGAGCGAAGTGCTAGGCGAAAGAATTGGAACATCAGGAACGATGGAAGTAGCAGAGGCGATTTTTTCTGAGTTAAAACAATTTCAAGAGCGAACAGGTATTGAATTAGCGTTTCAATGTTGTGAGCATTTAAACCGTGCTTTAGTAGTTGAGAGAGAAGTAGCGATAAAATATCAATTTGAAATTGTAACAGTTACGCCTGTTAGATCAGCAGGTGGTGCATTGGGGACATATGCGTATCACAATTTGAAAGATCCGGTAGTAGTTGAGTTTATTAAAGCAGATGCAGGAATGGATATTGGTGATACATTTATTGGTATGCATTTAAAACATGTAGCTGTTCCGGTTCGTACAAGTGTGAAGGCAATTGGAAGTGCGCATGTAACGATGGCCAAAACACGTGGAAAACTAATTGGTGGAGCACGTGCTGTTTACGCGGTGACGGAAGAGACTACCACTTGCCGTTAA	MTEIVKVREQLQMSLSDFQEQASLQSGQIFVVGCSTSEVLGERIGTSGTMEVAEAIFSELKQFQERTGIELAFQCCEHLNRALVVEREVAIKYQFEIVTVTPVRSAGGALGTYAYHNLKDPVVVEFIKADAGMDIGDTFIGMHLKHVAVPVRTSVKAIGSAHVTMAKTRGKLIGGARAVYAVTEETTTCR				NA	NA	NA	NA	NA
AK009_07724	444	ywlF	COG0698	Putative sugar phosphate isomerase YwlF	ATGAAAGTAGTAATAGCATCTGATCACGGCGGTATGAATATCCGCAAAGAACTTGTAAGTTTATTAGAAGAGTTAAATATTGAATATATTGATTTAGGTTGTGAATGTGAAGCTGGTTCTGTTGATTACCCTGACTTTGCGTTTCCGGCAGCTGAAATGGTAGCGAACGGTGAAGTAGATCGTGGTATTTTAGTTTGTGGGACAGGCATTGGTATGTCAATCGCAGCAAACAAAGTAAATGGTATCCGTTGTGCGTTAGTTCATGATACTTTCAGTGCGAAAGCAACGAGAGAGCATAATGACACTAACATGCTAGCAATGGGCGAGCGTGTAATTGGTGCTGGTCTAGCGCGTGATATCGCAAAAATCTGGTTAACAACTGACTATGAAGGTGGTCGTCACGAAAACCGCGTAGGAAAAATTAAAACATACGAAACAAAGTAA	MKVVIASDHGGMNIRKELVSLLEELNIEYIDLGCECEAGSVDYPDFAFPAAEMVANGEVDRGILVCGTGIGMSIAANKVNGIRCALVHDTFSAKATREHNDTNMLAMGERVIGAGLARDIAKIWLTTDYEGGRHENRVGKIKTYETK	PGPT0017395_2346	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
AK009_07725	441	ywle		Protein-arginine-phosphatase	ATGAAACGAGTGTTATTTGTTTGTACTGGCAATACATGTCGTAGTCCGATGGCTGAGGCGTTGCTTCGTCATCACGGAGGAGATAGGTTTGAAGTGCAATCTGCCGGTGTTTTCGCCTATCCTGGGAGCGATGCATCGGTATATGCTAAGGAAGCTTTAGCTGAAAAAGGGATTTCAATTAATCATGCCGCGCAGCAAGTAAACGAAACTTTGCTTGATTGGGCTGATATTGTCGTAACGATGACAGAAAATCATAAACACATTGTACTTGGGCATTATCCGAGTGTTGAAAAGAAATTGAATACGTTATATGGATTAACTGAAGGTATAGGTAAGGACATTTCAGATCCATTTGGAGGCTCGCTTTCTATTTATAAAAAAACGTTAGATGAGATGGAAAAACTTGTACAAACTTTACTGAAAAAACATTCAGTAGGTTGA	MKRVLFVCTGNTCRSPMAEALLRHHGGDRFEVQSAGVFAYPGSDASVYAKEALAEKGISINHAAQQVNETLLDWADIVVTMTENHKHIVLGHYPSVEKKLNTLYGLTEGIGKDISDPFGGSLSIYKKTLDEMEKLVQTLLKKHSVG	PGPT0014530_7017	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
AK009_07726	498	crr		PTS system glucose-specific EIIA component	ATGTTTAAAAAATTATTTGGTCTTGGTTCAAAAACAAATGAAGAAACAATCGTAGCTCCATTAACTGGAGCAGTGAAAAATATTGAAGAAGTACCAGATCCAGTATTCGCTGGTCGTATGATGGGTGACGGTGTTGCAATCGATCCTACTGAAGGTGTAGTTGTATCTCCAGTTGATGGTGAAATCGTACAATTATTCCACACAAAACATGCTATCGGAATTAAAGCGAAAAACGGCACAGAAATTTTAATCCACGTTGGATTAGAAACTGTAAAAATGGAAGGCGAAGGTTTCGAAGCTCACGTTTCTGAAGGCCAAGCTGTAAAAGCTGGAGATAAATTAATCTCATTCGACTTAGAATTAATCCGTGAAAAAGCGAAAAGCACAATTACTCCAATCGTTATTACAAACACAGATGCAGCTGAGTCTATTAAGACAACTGTAGGCGTAACAGCTACAAAAGGTTCAACAGAAGTAATGAAAGTTACAATGAAATAA	MFKKLFGLGSKTNEETIVAPLTGAVKNIEEVPDPVFAGRMMGDGVAIDPTEGVVVSPVDGEIVQLFHTKHAIGIKAKNGTEILIHVGLETVKMEGEGFEAHVSEGQAVKAGDKLISFDLELIREKAKSTITPIVITNTDAAESIKTTVGVTATKGSTEVMKVTMK	PGPT0014090_698	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
AK009_07727	387	mhqP_2	COG2259	Putative oxidoreductase MhqP	ATGATGGATTTCGGTCTTCTTATTATTCGTCTTATTATAGGAATTACATTCATGGGTCATGGTGCTCAGAAATTATTTGGTTGGTTCGGCGGTTACGGTTTAAAAGGAACAGGTGGCTGGATGGAATCAATCGGTTTACGTCCTGGTGTATTTATGGCATTTATGGCTGGTGCAACTGAATTACTAGGTGGTTTCTTATTCGCATCAGGTATTTTCATTATAGTTGGCTCATTATTTATCGTTGGAACAATGTTAATGGCTATCTTCACTGTTCACGGGAAAAATGGTTACTGGGTGACACAAAACGGATATGAATATAATTTAATGTTAATCGCTGTTGCTGTTGGTGTAGCTTTAATCGGACCTGGCGCATACGTTTTACTTTAA	MMDFGLLIIRLIIGITFMGHGAQKLFGWFGGYGLKGTGGWMESIGLRPGVFMAFMAGATELLGGFLFASGIFIIVGSLFIVGTMLMAIFTVHGKNGYWVTQNGYEYNLMLIAVAVGVALIGPGAYVLL	PGPT0028505_6730	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
AK009_07728	612			hypothetical protein	ATGTTATCCATTAATCCAAATGAACAAACTGAAAAAGATAATTACAAATTACTTACTGGAAGTATCATCCCTCGCCCTGTCGCATTCGTTACTTCTGTAACAAAAGACGGTGTATTAAACGGCGCACCATATAGTTATTTCAATATTGTCGCTGCTAATCCACCACTTATCTCTGTTTCTGTACAACGAAAAGCCGGAGAAAGAAAGGACACTTCCCGAAACGCAATTGAAAAAGGTGAATTTGTCGTACATATTTCTGACGAATCATATGTAGCAGCAATTAACGAAACAGCAGCTAATCTCCCGCCAAATGAAAGTGAAATTGAACTAGCAAAACTAACACCAATTGAAAGTGAAGTCATCTCTGTTCCAGGTGTAAAAGAAGCAAATATTCGAATGGAATGTATATTAGAACGTGCAATTCCACTTGGTGGAACAGAAGACTCACCAGCTTGTGATCTACTAATTGGACGCGTCGTTCGTTTCCACGTTGCCGAGCATCTATATGAAAAAGGGCGCATTCACGCAGAAGGACTCAAACCAATAAGCCGCCTAGCAGGACACAACTATGCAAAATTAGGAGAACAATTTGAACTGGTTAGGCCAGTTTAA	MLSINPNEQTEKDNYKLLTGSIIPRPVAFVTSVTKDGVLNGAPYSYFNIVAANPPLISVSVQRKAGERKDTSRNAIEKGEFVVHISDESYVAAINETAANLPPNESEIELAKLTPIESEVISVPGVKEANIRMECILERAIPLGGTEDSPACDLLIGRVVRFHVAEHLYEKGRIHAEGLKPISRLAGHNYAKLGEQFELVRPV				NA	NA	NA	NA	NA
AK009_07729	321			hypothetical protein	GTGATCGGTGGGGTAGAAGCGCACGACCACCTGGGCGTTGGAATCGAACTGGCGCAGCCACATTTCCGCACCCAGCATCACACCGATCGGAGAGGGGACGTCGATGTCGTGAAGCCCATGGCCCAAAAACACAGGCTTATCGTAACCGGCAACCGGCGTGGACATGAACTCCCGCGCGGCCTGCTCGAATCCGGGGATATCGCGCAACGGGCGGTTGAACGCGCGGGAGAGGTTCACCCCGCGCGACGTCTCGGCGACCTTGGCGTAGCAGCCCGTGGAGGCCTCCGCGACCAACGCGCGACCCTCGTCGGTGAGCGCTGA	MIGGVEAHDHLGVGIELAQPHFRTQHHTDRRGDVDVVKPMAQKHRLIVTGNRRGHELPRGLLESGDIAQRAVERAGEVHPARRLGDLGVAARGGLRDQRATLVGER				NA	NA	NA	NA	NA
AK009_07730	780			hypothetical protein	ATGGGCAGCAGCGACCGAGTCGGCGACGTTGGCTGCGGCGACCGCACCATTGAGGTAGCTGTGGAACCCCGGCGATCCAAGCCCGGTGTAGTCCGAGGCGACGATCGCGTATCCCTCGTCCAACCAGCGGTTCAGGTACTCCGCGTCGCGGGGCGAGCGGGGGTTGAGGCTCGGGGCGCACTCGCTGCCCAGCCCCACGGTGCCGTGCGCCCACGCGATCACGGGCCAGCCACCAGCCGGTGGCGTACCGCGGGGCACGAAGATTGCCCCAGTGGACACAGCGGGCGCATCGTGCTGGTTGGTGGTGGTGTAGGCGAACCGATACTGCGCCGCCGCGCTGCCCAGCCCCACATTCGGGTCAAGCGGGGTGGTCGCGAGCAGCGTCCCGGCAGCGCCATGGGGTGCGGGGACGACCAGGCCCGAATCGTAGATCGGCGAGGCCTGGGCAACGGGCGCGCACGCGAGGGCGGCGCACAGGGTGAGGGCAATAGTCTGGGTACGCATACTATGTTTGTACCCCAAACAATCCTATGCCGAGGGCGGAAACAGGAAAAAGAGCACGGCCATGGTGATCACACCGCCGGTGGCGAAGTTCAGCCACAGAAACACCCGCCACGCCCGGTTCACATCGGCCGATGTCTCGTCGGTGACGTTGGCAAAACGCAGCGCGTTCGCGGCGTAGCCGAACCCGAGCACACCCACCACCCAACCTGGGAAGGGCAGGGCGAAGCACAGCAGGGCAGCGATGGCGTACCCGCCGCAGGCAAGCCGAGTGGTTAG	MGSSDRVGDVGCGDRTIEVAVEPRRSKPGVVRGDDRVSLVQPAVQVLRVAGRAGVEARGALAAQPHGAVRPRDHGPATSRWRTAGHEDCPSGHSGRIVLVGGGVGEPILRRRAAQPHIRVKRGGREQRPGSAMGCGDDQARIVDRRGLGNGRAREGGAQGEGNSLGTHTMFVPQTILCRGRKQEKEHGHGDHTAGGEVQPQKHPPRPVHIGRCLVGDVGKTQRVRGVAEPEHTHHPTWEGQGEAQQGSDGVPAAGKPSG				NA	NA	NA	NA	NA
AK009_07731	213			hypothetical protein	GTGGCTCGCCATACCCCACAGGAAGAACGCGGCCGCAGCCAGCCAAAACCCATGGGAAACCGCGGGGTCGGCGATCGTGGCGCCGACCAGCGCCGGCACCGTGAAGTGGGCCGAGGACGTCACCGAGTCGAGGACGGGAATTTCCTTGAACCGAAACGGCGGGGCCGAGTAGACGTAGACCGCGAAGAGCGCGACCGTGAGCCAGAGCGCTGA	MARHTPQEERGRSQPKPMGNRGVGDRGADQRRHREVGRGRHRVEDGNFLEPKRRGRVDVDREERDREPER				NA	NA	NA	NA	NA
AK009_07732	300			hypothetical protein	GTGCAGGCTTTTCGGCAGCACCGCGCCCTCGATCCCGCCCTTGCGCGGGTTGCGGATGTCGGACTCGTAATCGAAGACGTCGTTGATGCCGTACATCGCGATGTTGTACGGGATGAGGAAGAACACGAAGCCGACGAGCAGGAGCCAGTCGAAGCGGCTGGTGTCCAGCAGGTAGGCCAGGGCAAAGGGCACCGCGGTATTGACCCAGCTAATCGGCCGCGATGCGGCGAGGATGGCGCGGATCATGAGGCCTTCCCCGGCCACAGCGCGGTGACCACGAGGCAGACGAACACGGTGTAG	MQAFRQHRALDPALARVADVGLVIEDVVDAVHRDVVRDEEEHEADEQEPVEAAGVQQVGQGKGHRGIDPANRPRCGEDGADHEAFPGHSAVTTRQTNTV				NA	NA	NA	NA	NA
AK009_07733	576			hypothetical protein	GTGCGCCGGGCCGATCGAGCCGCCCGACCAGGCGTGGTAGCGCTGCGCGAAGTCGCTCGGGCCGAGGGTCCGGCGGACGCGAATGTGATTGCGCAGGTCGGGGATGTCGCACCATGCGGCGATCTGCTCGATCGCGGCGTCGGCAATCGCATCGACGGCAGCGGAGGCGCGGTCGTTGTACATGTCGCCGTGGCCGAACTCCGAAGCGGCGGGCACGGGCACGAGGACGAACAGGTTCTCGCCACCCGGCGGGGCAGTAGAAGGGTCCGTCGCAGAAGGCATGGAGACATAAATCGAGCGCGAGGAGTTCAACGGCCGCGTGGCAACGGGCCCGTCAAACACCGCGTCGAAGTCGTCATCCCAGTGCTCGCTGAAAAGGAGGTTGTGGTGGGCCAGCTGAGGCAGTTTCACGTCGGTGCCCAGCATGAGGAGCACCGTACCCAGGCCCGGATCACGAGAACCGAACCACTTTTCCGGGTAGGTGCGCTTGCCCGGCGGCAGCAGGCGCGTCTCAGTAAAGTGCAGGTCCGCGGCGGAGACGACGATGTCGGCCTCGATGGTCTCGCCGCTGGCTAG	MRRADRAARPGVVALREVARAEGPADANVIAQVGDVAPCGDLLDRGVGNRIDGSGGAVVVHVAVAELRSGGHGHEDEQVLATRRGSRRVRRRRHGDINRARGVQRPRGNGPVKHRVEVVIPVLAEKEVVVGQLRQFHVGAQHEEHRTQARITRTEPLFRVGALARRQQARLSKVQVRGGDDDVGLDGLAAG				NA	NA	NA	NA	NA
AK009_07734	651			hypothetical protein	GTGGCTCATCAGGTGGTACATCGACGGGGTGCGCGCCGGGTGCGAGGAAAGGAACACTGCCGGATACGTCAGGATCTGGCGCAGGCGCGTGTCGTGAAAGTGCGCGGCGACGTACTTGTCCAGCGGAACCGTCAGCAAGCGGGCGAGGTCGGCGAGCCGGCGCGAGAAAAACGGGCGCAAAGAGCTAAACGTGGTGTACAGGAAGCGCTCGACCGCCATCTCGTAGGTGTCGCGGGCAGAATCCAGGTAGTCGCCCAGGGCGGGGCCGGCGCCGGGCGAGAGGGCGTCGAAAAGCGCGATGGCCTCCTCGCGGCCCGAGATGACATCGACGGGTTCGGCGTTTTCCGGGAACAGGCGGTAGGCCGGGGTCAGCTCGACCAGATCGAGCAGGTCTTCGGTGCGCTTGCCAAACAGGCCGAAGAAGTGGTCGAAGGCGTCGGGCATCAGGTACCAGGACGGGCCGGTGTCGAAGCGGTAGCCCTCGACGGTCTCTTCGCCCGAACGACCGCCGCAGGAGTCGAGGCGCTCGACGACGGTGACGTCGTAGCCCTCGCGGCCGAGCAGGGCGGCGGTGGCGAGGCCGGCGACGCCAGCCCCGATAACGATAGCGGTGTGTTTAGTCACGGGTTCTCCTTACGGCGCGGGCGGTGA	MAHQVVHRRGARRVRGKEHCRIRQDLAQARVVKVRGDVLVQRNRQQAGEVGEPAREKRAQRAKRGVQEALDRHLVGVAGRIQVVAQGGAGAGREGVEKRDGLLAARDDIDGFGVFREQAVGRGQLDQIEQVFGALAKQAEEVVEGVGHQVPGRAGVEAVALDGLFARTTAAGVEALDDGDVVALAAEQGGGGEAGDASPDNDSGVFSHGFSLRRGR				NA	NA	NA	NA	NA
AK009_07735	783			hypothetical protein	GTGTGTTTAGTCACGGGTTCTCCTTACGGCGCGGGCGGTGAGGTACAGCTTGCGGTGGCGCGGGACGGACACGCGCGTGGTGGCCAGGGTCGCGGCCGGGGTGGCGTCGATGCGCTCGTTGAGCTCGCTAAACAGCGCTTCCGCGGCGGCGACGGCCCCGCGCCCCGAGGAGGGGATGAGCGGGATGGCGCGGCGGGCACGTGCGAGGTCGGCGCGGATGTCGTCGACAAGCTCGGCCTTGACCGCGTCGTCGATTCCGCGGCCGCGCAGCTGGGGGAAGTAGGTGCGGCCAAGGTCGTCCCGGTCCTCGGCGAGATCGCGCAGGAAATTGACCTTCTGAAACGCCGCGCCCAGCGCGCAGGCGCCCTCATCCAACTCGGCGCGCTGCGCGTCGGTGACGGGCTCGTCGGCCACGAACGCGGCCACGCACATCAGCCCGATGACCTCGGCGGAGCCGTAGACGTAGGCGTCGAAGTCGGCCGGGTCGTAGGTGGATTGGTTCAGGTCGCGGCGCATGGAGGCGAAGAAGGCCGTGACATGCTCCGCGGAAAAATCGCACCGGCGAGCGCTATTGGCCCAGGCGTGGAGTACCGGATCGGTATGGAAGCGTGCCGCTGGTGCGGCGAGAACCTGCGTTTCGTAGGCGTCGAGAAGCTGTGCCGCGTCCGCTCCGGCGGCCCCGTCGACAATTTCGTCGGCGATGCGCACCATCGCGTAGAGGTTGCGCACGTCAGTGCGCACGCGTGGGGCGAGAAACCGCGTGGCGAGCGAAAAACTTGTTGA	MCLVTGSPYGAGGEVQLAVARDGHARGGQGRGRGGVDALVELAKQRFRGGDGPAPRGGDERDGAAGTCEVGADVVDKLGLDRVVDSAAAQLGEVGAAKVVPVLGEIAQEIDLLKRRAQRAGALIQLGALRVGDGLVGHERGHAHQPDDLGGAVDVGVEVGRVVGGLVQVAAHGGEEGRDMLRGKIAPASAIGPGVEYRIGMEACRWCGENLRFVGVEKLCRVRSGGPVDNFVGDAHHRVEVAHVSAHAWGEKPRGERKTC				NA	NA	NA	NA	NA
AK009_07736	633			hypothetical protein	TTGGCGCATCGAGTGCATCCCGCGCGAGAAGCGTCGGGCGAGCTGGCGGGCGCCGCGCAGCGGGCGGGGGTCAGTCAGCAGCGTGATCTCCGGACGGAACAGAACCGTTTCGTGGGCGCGCACCGCGAAAGACATCTGGATGTCATCGTGGGAAAAGGTGTCGCTCGGGTCAATGGCGTCGCGCACGTCGAGCCACCAGGCGGCGGACAGGGTGCAGTTCGTGCCGAAAAACGGCGTGTGTCCGAGCGCGGAGCCCACGCTGTAACGGTACGCACGCAGATACAGGGCGCTGAGGAGCCGGCCGCGCCACCCTGGGAGGTCGAAGCGTGCGGCGCCGGTCATGCCGACAACGTCCTTGTTCGGGTTGCTGGCTGCCTCCTCCCATGCGTTTTTCCATTGCAGGCTGAAGGTTGGCGAGACGCGCACGTCGGCGTCGATACGCACGATGACATCGAGGCCCCGCGCCGCCGCCTCGCTGTAGCCCGCGTGGGAAGCCCACGTCACGCCTCGGCGGGGTTCGGAAACGACGACCGCGCCATAGGAACGCGCCACATCTGCTGTGTTATCCGTCGATCCGTTATCAACCACGATGACGCAGTCGAAGGGTTCGCGCTGGCGCGACACGCTGTCTAG	MAHRVHPAREASGELAGAAQRAGVSQQRDLRTEQNRFVGAHRERHLDVIVGKGVARVNGVAHVEPPGGGQGAVRAEKRRVSERGAHAVTVRTQIQGAEEPAAPPWEVEACGAGHADNVLVRVAGCLLPCVFPLQAEGWRDAHVGVDTHDDIEAPRRRLAVARVGSPRHASAGFGNDDRAIGTRHICCVIRRSVINHDDAVEGFALARHAV				NA	NA	NA	NA	NA
AK009_07737	264			hypothetical protein	GTGCTCCTCGCCGTCGAGATTGTGCACCGCGCCTTTGCCCACGAGGGCATCGCCGATGACGGGCGGCATGGCACCTTCGCGCTGCATGACATCCTCGTCGTAGAACAAGTCGATGCCGGCAGAACCGCGCACGATGGTCGCGTCCTGTCCGAGGAGTTTTGTGGTTACGGGGCACATGGATTCGGGTTCGAGGCCCGCCGTTTTGCGGAGGTTCGAGGGAAGAAGGTAGCCGTCTGTGAGGAATTGGATGGTGCGGTCGCCTGA	MLLAVEIVHRAFAHEGIADDGRHGTFALHDILVVEQVDAGRTAHDGRVLSEEFCGYGAHGFGFEARRFAEVRGKKVAVCEELDGAVA				NA	NA	NA	NA	NA
AK009_07738	615			hypothetical protein	ATGCCCAGTGCGCACGTCAGCACCGCCCTGCGGGATGAACGGCTTGATTGTCTCCGCCTCGGACTGGGTTTCGTAAGCCATGAAACGCTCCGGATCAAAGCTCGCCGGGTTATCCCACTCCTCGGCCGAGTGGAGGGTGCCGACGAAGTCGAGAATGACGCGCTGCCCCTGATGGATGGGGCAGCCCTCGAATTCCGTGTCTTTGGTCGCCTTGGCTGGAAACATTGGCACGAACGGGTAGAAACGGCGAACTTCCTGGGCGAATGCGAAAGCTTCACGGCCGGTTTCGGACTCGTTGATGCGGGTGCGCCACTGAGGGTTCTCCGCGAGCGCAACGGCGGCGAAAGAGGCGAAGAAGCCGACGGCGACCGTGGGGCGCGTGAGGTTTTGCAGCTCGATGCCGGCGGTGCGGGCGTCGACACGCTCGCCGCTGGCGTCGGTGAGTTGTGCCATGTGTTCGAGCACGCAGTCCGGGCGGGCGGTAATCCTGCCTTCACGGACATCGGTGATCAGCGCTTCGGCCCAGTTGTCGAGCTGGCGGCGCTGCCAAAATGCTCTGGGGGTTCCGGTGGCGGTGCCGAAGTTGTCAAGCAGCGTGATCATGCGGCCGACTAA	MPSAHVSTALRDERLDCLRLGLGFVSHETLRIKARRVIPLLGRVEGADEVENDALPLMDGAALEFRVFGRLGWKHWHERVETANFLGECESFTAGFGLVDAGAPLRVLRERNGGERGEEADGDRGAREVLQLDAGGAGVDTLAAGVGELCHVFEHAVRAGGNPAFTDIGDQRFGPVVELAALPKCSGGSGGGAEVVKQRDHAAD				NA	NA	NA	NA	NA
AK009_07739	894	opuCC	COG1732	Glycine betaine/carnitine/choline-binding protein OpuCC	ATGAAACTCACTGCAGCCGCGGGCGCAATTGTCGTCGCCACCTTGACCCTCACCGCGTGCGGTTCCGACGATCCGTTCGCCGTCAGCGGTGAGGCGGGCACCGTTGTCATTGGAACCGCGAACTTCCCTGAATCCGAGATCATCGGCCAGATCTGGGCCGAGGCGCTGCGCCAGGAAGGTTTCGACGTCGACGTCAACTCCGGCATCGGTTCCCGCGAGGTGTACCTCGGGGCACTGCAGGAAGGCAGCATCAATGTCGTCCCGGAGTACTCGGGCAATCTCACCCAGTTCTACGGCGGCACCCCCGCCGATGAAGCGGCGCTCGCCGAGGCCTTACCGGATGACCTGGAAGCCGGGGATTTCAGCCCGGCCGAGTCCAAGGACGCCTACCGCGTTACCCGGCAGCTCGCGGATGAACGAGGCTTGGGAACCATCGCCGATTTGGACAAGCTCGACCAGATCACCATCGCAGCGCCGCCGGAGTTCGCCGAGCGGCCGTACGGCCCCGCAGGCCTGAGCGATGTCTACGGAATCGATGCCGCCAAAATCAGCGTCAACCCGATCTCGGACGGTGGTGGCCCGCTGACCGTTCAGGCCCTCGTCGAAGGTGCCGCTAACGTTGGCAACATCTTCACAACCTCCCCCGCTCTGCTGAGCAACGGGGAGGAAGCCGACGTGGTCATTCTCGAAGATCCGGAGAACCTCATCCCCCCGCAGAACGTCGTTCCGGTGATCAAGGCGGGCTCGCTGCCCGACGGCGCCCTCGACGTGATTAACTCGGTAAACGCGCAGCTGACCACTGAGGACCTCGTTGAGATGAACCTGCGCAATGTCGGCCCGGAGCGTGCTGAACCGAGCGCCATCGCGCAGGATTTCGTCTCTAGCTTGAGCTAG	MKLTAAAGAIVVATLTLTACGSDDPFAVSGEAGTVVIGTANFPESEIIGQIWAEALRQEGFDVDVNSGIGSREVYLGALQEGSINVVPEYSGNLTQFYGGTPADEAALAEALPDDLEAGDFSPAESKDAYRVTRQLADERGLGTIADLDKLDQITIAAPPEFAERPYGPAGLSDVYGIDAAKISVNPISDGGGPLTVQALVEGAANVGNIFTTSPALLSNGEEADVVILEDPENLIPPQNVVPVIKAGSLPDGALDVINSVNAQLTTEDLVEMNLRNVGPERAEPSAIAQDFVSSLS	PGPT0013595_3256	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
AK009_07740	648	opuBB	COG1174	Choline transport system permease protein OpuBB	GTGAACTATCTTGTGACTCGTGAGAATTGGGGTGGGGACACCGGATTTGCCGTCCGTCTCCTCGAGCACGTGGGGTACTCTGCTCTCGCCGTTTTTCTGGCGCTGTTAGTTGCGGCGCCAGTGGGGATCGCGATCGGTCACTCCCGGCGCGGCGCGAACACCGTGCTTTCCATTGCCGGCGCCTTGCGTGCGCTGCCCGCCCTGGGGTTGCTGACATGGTTGGCCATTTCGCTTCCGCGGGGCGCAACGCTGCCGCTGATTCCGGCGACGATCGTCCTCGTGATGCTGGCCATCGCTCCCCTCCTCGCCGGGTTTGTCGCCGGATTCGATTCCGTTTCGCGTCAGGTCGTGCACTCCGCCAGAGCAGCGGGTTACAGCGAGGCCCAGATCCTGACCCGAGTTGAGCTCCCGTTGGCGGCACCCGTCATCATCGGCGGGTTGCGCTCCTGCGTTGTACAGGTCATCGCGACGGCGACGGTGGTTTCATTTATCGGCCTCGGAGGATTGGGGCGCTACCTCATCGACGGGCTCGCCGTGCAGGACTACCCGCGCATGGTTGCGGGAGCACTGCTGGTCACAGCCTTGGCACTGGTAACCGACCTGACCCTCGCGGGGGTGCAACGCTTCCTCGCTCCGCGATCGCATTAA	MNYLVTRENWGGDTGFAVRLLEHVGYSALAVFLALLVAAPVGIAIGHSRRGANTVLSIAGALRALPALGLLTWLAISLPRGATLPLIPATIVLVMLAIAPLLAGFVAGFDSVSRQVVHSARAAGYSEAQILTRVELPLAAPVIIGGLRSCVVQVIATATVVSFIGLGGLGRYLIDGLAVQDYPRMVAGALLVTALALVTDLTLAGVQRFLAPRSH	PGPT0013590_4516	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK009_07741	651	opuCD	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCD	ATGAATTGGACGTGGCTCGGATCCAACGCAGGGCGCATCGGGTCTCTCGCGATCGACCACCTGCTGCTGGCGCTACCCGCGATCTTCGCGGCGTTTTTCATCGCGGTGCCGATCGGTTGGCTCGCGCATCGCGCCGGCCGCGTACGCGAAACCCTCGTCGTGGCCACGAGCCTGATTTACGTCGTGCCCTCGCTGGCCATGTTTGTCCTGTTGCCGCTTGTGCTGGGCACCTCGGTGCTCTCACCGCTCAACGTCGTTGTCGCCATGACCCTCTACGGCATTGCGCTGATGGTGCGCTCGGCGACCGACTCCTTCGGCTCCGTGCCCGCGGATGTGCGCCAATCGGCGATCGCGACCGGGTACTCCCCGCTGAGGCGGATTCTCCGAGTGGAGCTTCCCCTCGCAGGCCCGGGGTTGCTCGCCGGCGTGCGCGTCGTGGCGGCTTCAACGATCAGCCTTGTTTCGGTCGGCGCCCTCATCGGTGTCCAGTCGCTGGGCACGCTGTTCACGGAGGGGTTTCAACGGTCCTTCCCCACTCAGATCATCGCGGGGCTTATCGGGACGATTCTCCTCGCCGTGCTTGTCGACGCACTCCTCGTCGCGTTCGGCAGAGTCACCATGCCGTGGACACGTAAGGCGGGTCTGAAGTGA	MNWTWLGSNAGRIGSLAIDHLLLALPAIFAAFFIAVPIGWLAHRAGRVRETLVVATSLIYVVPSLAMFVLLPLVLGTSVLSPLNVVVAMTLYGIALMVRSATDSFGSVPADVRQSAIATGYSPLRRILRVELPLAGPGLLAGVRVVAASTISLVSVGALIGVQSLGTLFTEGFQRSFPTQIIAGLIGTILLAVLVDALLVAFGRVTMPWTRKAGLK	PGPT0013590_4433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK009_07742	711			hypothetical protein	GTGCCAGTTCTCCGCCCCGATGAACTCGCGCACCGCCTCATTGGCCGGGTGCGCGACGATTTTTTCCGGGGTTCCCGCTTGTTCGATACGGGCGTGCTGGCCGAGGATCACGACTTCGTCACCAAGCAGGAAGGCTTCGTCGATGTCGTGGGTGACCATGAGCACGGTCGTGGCCACAGTGTCCTTCAGCGCAAGCACTTCGCGTTGCAGGCTGCGGCGGACCACGGGATCAACCGCGCCGAAAGGCTCGTCCATGATGAGGATGTCCGGACGCGTCACCATGCCACGGGCCACGCCGACGCGCTGGGCCTGGCCCCCGGAGAGTTCCGCCGGGTAGCGGCCGAACAGGGACGAGCCGAGGTTGACCAGCTCAAGCATGTCCGCGGCGCGCCGCTTCGCCTCGCCCTTGCCTGCCCCGGACAACTTCGCGATGTCGGCGACGTTATCCAGTACCGTGCGGTGGGGCATCAGGCCGGAGTGCTGCATCACATACCCGATGCTGCGTCTCAGCGTGACTGGGTCGGAATCGGCCACATCCGCTCCACGGACAAGCACTGTCCCCGAGTCGGGTTCGACCATGCGGTTGACCATGCGCAGCAGTGTTGTCTTGCCGCACCCCGAGGGCCCCACGAAGCAGGTGGTTGTTCCCGTGCCCACGGTGAAGCTGAAGTCGGCGACGGCAGGGAGGGCGTTGCCGTCGTAGGTCTTTGA	MPVLRPDELAHRLIGRVRDDFFRGSRLFDTGVLAEDHDFVTKQEGFVDVVGDHEHGRGHSVLQRKHFALQAAADHGINRAERLVHDEDVRTRHHATGHADALGLAPGEFRRVAAEQGRAEVDQLKHVRGAPLRLALACPGQLRDVGDVIQYRAVGHQAGVLHHIPDAASQRDWVGIGHIRSTDKHCPRVGFDHAVDHAQQCCLAAPRGPHEAGGCSRAHGEAEVGDGREGVAVVGL				NA	NA	NA	NA	NA
AK009_07743	1617			hypothetical protein	GTGCACCGCGTTGGCGATGCGCCCGTAGCGCGCGGGGTGGGTGCCACGCGCGGCGATCTCGACGGCCTCGTCGAAGGTCTGGTTGCCGCCCTCGGGCGTGCCCACCAGCTTTTCCAAGTCGCGCTCTTTGAGCACGGTGTCCGAGGATACGGAGTCGAAGATCGGCAGAATCTCCTTCATCGACAGCGGCGTGAGCACGGACAGGCCGAAGGACGCGAGGCGACGGGTCATGATGGGCGCCGACAAAAACGGCCTGCGGCGCACGCTGACGACCTGGGTGTAGCGCTGCATCATATCCACGTACGGCATGGTGTCGGGCCCGCCGATGTCGAAGGCGCGGTCCTCCTCAGCAGGCAGATCGGCCGCGGCGACGAGGTAGTGAACGACGTCGCGCACGGAGATCGGGGTGATGCGGTTGGTGATCCACTTAGGCGCCGCAAAAGTGGGCACGCGCTCGGAAACGTGGCGCAACAGCGCGAACGACAGCGAGCCGTCGCCGATGACCACGCCCGCCTGGAGGGCCGCCGTGGGCACGCCGGCGGCGCGCAGCTCCTCGCCGACGCGCACGCGCGACTTCAGGTGCTCGGACATGTCCTCGTTATCCGGGTGGAGCCCGCCGAGGTAGACGATCCGGCCAACCTCGTGCTCCGCGGCGACCTCGCCGAACTGGCGCGCCATCTGCGCCTCTTCCTCGGCGAAGCCGCTGCCCGACGACATGGAGTGCAGGAGGTACCAGGCACAGTCGACACCTTTGAGCGCGCGGTCGACGTCGGCCCTTTCGGCCGCGTCGCCCTCGACGATCTCCACCTCCCCGCTATCGAGGTACCGGGCCCAGTCCATGGTCAGGGCCTTGTCGCGGCTGCGGCACAGGCAGCGCACCTTCCAGCCGCGTTCAACAAGGGCTTCGACAACGCGCTGGCCGATAAACCCGGTGGCACCTGTAACGAGAGCAGTCTTCATAGTCTTCAGCTTATACTTCCTCTGATGGCACTACCTAAGCTCACTTTCCTACTGCCGTGCCTGCTGGGCGCCGCGGGACTTTTCGTCGCCCGCCAATCGGGTGATGGATCGGCGGGCTTTTACGCGGCAACGGTACTGACAGCCATCGTCTACGCCACCACCTGGTGGTTCATGGGCTCGCGCAACGCTTTCGCCGGGCCCGGCAAAGCCGCTGACATCGCGCGGGGGGTGGCCATCGGCGCGGCCCTCGCCACCATCTTCGTTGCGGGGGCCGTTATTGTCAGCCGCATCCCTCCCCTCGCTGAACCTGTCGGCCAGCTGCTGGCGACGACGGAGAAAGGCGGGCTCGCGCCGACCCTGCTCGTTCTCATCCTCAACGGAATCGGCGAGGAGCTCGTTTACCGTGACGCAGTCCCGCGCCAGCTCCGCGTGCACGGCCTGCTGCACCACACGACGTCGATTAGCGCGGTGTCGCTGGCGCTGTACTGCCTTGTCACCGCGGCGATGGGTGTCTGGCTGCTCATTCTGGCCGCCGCAGTCATCGGTGCCGTGGCCCACTACGAAGCTTTCCGCGGCGGGAGGCTATACAGTTCGATTTCGCTGCACCTGACCTGGAGCACCGGCATGCTTTTCCTTTTGCCGCTGTTTTTCCGCTGA	MHRVGDAPVARGVGATRGDLDGLVEGLVAALGRAHQLFQVALFEHGVRGYGVEDRQNLLHRQRREHGQAEGREATGHDGRRQKRPAAHADDLGVALHHIHVRHGVGPADVEGAVLLSRQIGRGDEVVNDVAHGDRGDAVGDPLRRRKSGHALGNVAQQRERQRAVADDHARLEGRRGHAGGAQLLADAHARLQVLGHVLVIRVEPAEVDDPANLVLRGDLAELARHLRLFLGEAAARRHGVQEVPGTVDTFERAVDVGPFGRVALDDLHLPAIEVPGPVHGQGLVAAAAQAAHLPAAFNKGFDNALADKPGGTCNESSLHSLQLILPLMALPKLTFLLPCLLGAAGLFVARQSGDGSAGFYAATVLTAIVYATTWWFMGSRNAFAGPGKAADIARGVAIGAALATIFVAGAVIVSRIPPLAEPVGQLLATTEKGGLAPTLLVLILNGIGEELVYRDAVPRQLRVHGLLHHTTSISAVSLALYCLVTAAMGVWLLILAAAVIGAVAHYEAFRGGRLYSSISLHLTWSTGMLFLLPLFFR				NA	NA	NA	NA	NA
AK009_07744	573			hypothetical protein	GTGCGGGTCGAACTTCTCCGCCTGCGTCAGCGGGTTGAAGATGCGGAAGTACGGTGCGGCGTCGTCACCGGAGCCCGCGACCCACTGCCAGTTGAACGCGTTGGAGGCGGCGTCGGCGTCGACAAGCGTGTCCCAGAACCACTCCTCGCCGTGGCGCCAGTGGATGCCCAGGTTTTTAGTCAGCCAGGAGCCGGTGACCATGCGCACTCGGTTGTGCATGCGTCCGGTCGCCCAGAGTTCGCGCATGCCGGCGTCGACAAGCGGGATGCCCGTGCGGCCCGACTGCCACGCCGCGAGCTCTGTCAGGTGCTGGGCGTCGGGGTCCATTTCTTGGTGCGCGAATGCCGCAGCCGTGGTGCCGGGCACCGCGTTGGGTGTCCACTCCCAGTCAAAGCGGCCGAACTTCTCGCGGACGTTTTTCGTCTCCATGTCGGCCAAGTGGTAGTAGCGGTGCCAGGCGAAATCGCGCCACAGAAGCTGCCGCGCAAACGCCCACGCTCCCGCGTCGACAGCGGCGAGCCACACCTCGGCGGGGCTGATCTCGCCGAAGCGCAGGTGCGGCGACAGGCCTGA	MRVELLRLRQRVEDAEVRCGVVTGARDPLPVERVGGGVGVDKRVPEPLLAVAPVDAQVFSQPGAGDHAHSVVHASGRPEFAHAGVDKRDARAARLPRRELCQVLGVGVHFLVRECRSRGAGHRVGCPLPVKAAELLADVFRLHVGQVVVAVPGEIAPQKLPRKRPRSRVDSGEPHLGGADLAEAQVRRQA				NA	NA	NA	NA	NA
AK009_07745	582			hypothetical protein	GTGGGCCGCGCCTTCGCCGGGGGTGTTGTGCTGCGCCAGCGATGCGGCCCACGCAGCCTCGGCAGGCGCGTCCACGGTGGCGGGGGCGACGTCGGCCGGGGTGAGGTCCGGGACGGGAAGAGGCGTGGGAGGGGCGTCGAGAAGCACACTGCGCGCGGCGTTGAAGAACGGCGTGAACACGCGGTACGGGGTGGCACGCACCTCCCAGGGCTCCGTGAGCAGGTAGCCGGGGTGCGAGACGGCGCCGGTGGCCTCCTTGACCTCGGCATCAATGTCCGTCAGGTGGTAGCGGCGGTTCCACGTCACTGTCGCGCCAAGCTCGCGCGCGAGGCGGGGGACGATCTCGCGCGGGTCGCCCGCGAGCTCAATCAACGGAGCTGGGAGGGATTCGCGCAAGGCATCGAGGCTGTGGCGCAGCCACCACGCGGCGGCCCGGCCGATGCCCCGGCCCACCGTCTCGTGGACGTAAAGCCCCACGACGGGGCCGCGCTCGGCCGCCCAGGTCAAAGCGGCGTTATCAGCCAAGCGCAGGTCGTCGCGGAACCATACAATCGTCGGGGTACTCATCGCGACAGGGCATAG	MGRAFAGGVVLRQRCGPRSLGRRVHGGGGDVGRGEVRDGKRRGRGVEKHTARGVEERREHAVRGGTHLPGLREQVAGVRDGAGGLLDLGINVRQVVAAVPRHCRAKLAREAGDDLARVARELNQRSWEGFAQGIEAVAQPPRGGPADAPAHRLVDVKPHDGAALGRPGQSGVISQAQVVAEPYNRRGTHRDRA				NA	NA	NA	NA	NA
AK009_07746	471			hypothetical protein	ATGTTAGTTACTCCCCGCCTGGTGCTGCGCCCCTGGGCTCGTAGCGACACCCCGGCGCTTTTCACCCACGCCTCGCACCCCGAGGTCGGCCCGCGTGCCGGCTGGCCGGCGCACACAAGCCTCGAGGAAAGCCGGCGCTCCATCAGTGATGTCTTATCCGCGCCCGGCACCTTCGCGATCACGCTCGACGGTGAGCCGGTCGGCTGCGTTGCGCTACGCCCCGGCGAGTCCCCGGAGCTCGGCTACTGGGTGGCAGCGCCTTACTGGGGCCGCGGTATCGCCACCGAGGCGGCGTCCGCGTTGATCGAGCACTCCAACTACCCCTTTATCGTTGCCTCCCATGCAGAGGGAAACCTCGGCTCGCAGCGGGTTCTGCTCAAGCTCGGGTTCCGGTTTACTCACACGGGCGAGAAGTGGCTGGCCCCGCTGGGCGTTTCTCGTCCGTCGCTATTCTATGCCCTGTCGCGATGA	MLVTPRLVLRPWARSDTPALFTHASHPEVGPRAGWPAHTSLEESRRSISDVLSAPGTFAITLDGEPVGCVALRPGESPELGYWVAAPYWGRGIATEAASALIEHSNYPFIVASHAEGNLGSQRVLLKLGFRFTHTGEKWLAPLGVSRPSLFYALSR				NA	NA	NA	NA	NA
AK009_07747	780			hypothetical protein	TTGCGACGGCGCTCCGGTGCGTACGAGGCGATCGGCGAGGTCGAAATCCTGCAGGAACGACAGCGCGGCGAGGATGATGCAGACCACGCCGAAGATGATCGCCAGCGGTCCGCCGTCGCGGAGCGGGCTGAGTCCCGTGAACAGGAACAGCACCAGGTTGCCGAGCGCCATCACCGCGACACCGACGATGGCGCCGGTGAGGATCCGGTTGAAGCGCGGGGTGACGCGCACCGCCCCGGTCTTGTAAACGAACAGCATGCCGAGGAACACGCCGACCGTGCCCAGAATGGCCTGGGAAATCATCGCTCCGGCGTTCGCTCCGCCGATCATCCAACCGGACAGGATCAACGAGAACCCACCGACGAACAGGCCCTCGAAAGCCGCGTATATCAACGTCACGGTGCGGGATCCGAATTTCTTGCCAAAGGCGTGGACGAGAACGGTGATGAAACCGCCGATTGCGCCGACGAACGTCAAGATGGTCGAGATGTCGGGTCGCCCCGCCAGCGCGATTCCGAAGTTCGCGACGGCGAACGCAACGATCACTGCGAGAGTGATGCCCGTCTTGGTTACCACGTCGTCGACCGTCATGGGCCGGTCGGTCTGTACCGACCCGTAGCCCGCGAAGCTGCCCGCCTGGGGCAGTTGGGTCAAGACAGGGTTGTTACTTCTCACTATCCCTGGTTTCCTTTCAGTAATTCAGACAATGGTCTGGCCGGACTTGCATCCACACGGTACAACGCCCGATTCGTTTCTTTAGTTCCCGAGCTCGGACATTAG	MRRRSGAYEAIGEVEILQERQRGEDDADHAEDDRQRSAVAERAESREQEQHQVAERHHRDTDDGAGEDPVEARGDAHRPGLVNEQHAEEHADRAQNGLGNHRSGVRSADHPTGQDQREPTDEQALESRVYQRHGAGSEFLAKGVDENGDETADCADERQDGRDVGSPRQRDSEVRDGERNDHCESDARLGYHVVDRHGPVGLYRPVAREAARLGQLGQDRVVTSHYPWFPFSNSDNGLAGLASTRYNARFVSLVPELGH				NA	NA	NA	NA	NA
AK009_07748	510			hypothetical protein	GTGAACATCACCACCACGCGCAAGGCAGCGGCGGGATTTTTCGCCCTGGCAGCTCTGGGCCTCGCAGCCTGCTCCCCTCCGCACGAGGTCGACTCCGGCAACAAGGTCGACACCGCCACCAGCCAAAACCCCGATTCGCTCGCGGGTTCCGGCCACGAGACCCCGGCTAGCGCGACCCGCGCCAACGTTGTGGAGGCCTCCCAGGCCAACGCCACGCCCACCCCGAGCCAGCTACCCACCTACATCAACTGCGGTACCGATGTTGGCCCCGAGCCGGACCGTCTCGTTCTCTCCTGCGAGGATGAGGACGACTACATCGAGAACATCACGTGGAACGAGTGGTCCGGCCGGATTGGTTCCGGCTTGGGCACCCGCGTGACGCTCAACCCGGACCGTCGGGTCGAGGGTACCCAGGTTGTCCTAGGCAACCCCGAGGTTATCGATGGTGTCCTCCGCTTCACCACGGTGAGCGTGGACGGGATCTCGATTAACCCCGAGAGCAACTACTAG	MNITTTRKAAAGFFALAALGLAACSPPHEVDSGNKVDTATSQNPDSLAGSGHETPASATRANVVEASQANATPTPSQLPTYINCGTDVGPEPDRLVLSCEDEDDYIENITWNEWSGRIGSGLGTRVTLNPDRRVEGTQVVLGNPEVIDGVLRFTTVSVDGISINPESNY				NA	NA	NA	NA	NA
AK009_07749	285			hypothetical protein	GTGGACGACGGAGCCGACCTGGGCGACACCCTCGATGACGCCGGAGCGCTCGGTGGTGGCATTCGCCAGGATCTCGGAGATCTGCTTGATGCGGGCTTCTTCTTGATCCTGCTGTTCGCGTGCGGCGTCGTAGCCAGCGTTTTCCTTCAGGTCGCCTTCCTCGCGGCGCTCGTTGATCTCGGCGGCGATGACCGGGCGGTTGTCGATGAGAGCCTGCAGCTCGTTCTCGAGCTTCGCCTTCATCTCCGGGGTGATGTACTGCTTCTGGGTCTCAGCCATATATAA	MDDGADLGDTLDDAGALGGGIRQDLGDLLDAGFFLILLFACGVVASVFLQVAFLAALVDLGGDDRAVVDESLQLVLELRLHLRGDVLLLGLSHI				NA	NA	NA	NA	NA
AK009_07750	573			hypothetical protein	ATGCTAATACTGGGCCGAATTCTATCACGGCGCGGGCGTGGGATAAGCCGCAGTGTAGGTCCTGGATGTGTCCATGTAGAAGGGGATGTTTTCCGAGCAGCCGTAGACACGCCCGGACACGGCGGGCTCGCGCACAGGAAGGTCGACGCCGACGTGGATGAGCTCGTCGCCACCTGCGGGGATGATGACTTCTCTGCGCCCCACCTCAGCGAAGTCGTAGTTGACCGCGGTGACGATGCAGTACGAGTCGATGGACGGGTCGCGGCGGGTGACGTCGATCCACAGCCGGGTGGTGGCGTCGTCGACAGCTTCCTGGGTGATAAAGCTTGCGGTGACGGGCACTGCTTGGCGCTGCAGGTAGTTACGCGCCGCCGCCGCGATTACGAGCGCCACCATGAGCAACGCCGCGATAGCCAACACTTTGCCGCCGATCCCGCGGGGCGCCCTCGCGGAATCCTGGTCGCCGTAGCGGCTTGTCGGGCGGGCAAGGTCGGTATCGGGCACAGTGGGGCATCCTCGCTAGTGGCAGTAATGACTTTTGCATCAATAGTACTAAGATGGCCTAATACTTAA	MLILGRILSRRGRGISRSVGPGCVHVEGDVFRAAVDTPGHGGLAHRKVDADVDELVATCGDDDFSAPHLSEVVVDRGDDAVRVDGRVAAGDVDPQPGGGVVDSFLGDKACGDGHCLALQVVTRRRRDYERHHEQRRDSQHFAADPAGRPRGILVAVAACRAGKVGIGHSGASSLVAVMTFASIVLRWPNT				NA	NA	NA	NA	NA
AK009_07751	873	mca	COG2120	Mycothiol S-conjugate amidase	ATGCGCCTTTTGGCAGTTCACGCCCACCCAGATGACGAGTCGTCGAAGGGGGCAGCGACGATGGCGCGCTACGCCTCCGAGGGGCACCGCGTCAAGGTTGTAACCTGCACGGACGGCAAGCGCGGCGACATTTTGAACCCAGCGATGAATCGCCCAGGCGTGCTCGAGAACATCATGGATGTGCGCCGTGAGGAAATGGCCCGCGCCGCGGCTGCGCTGGGTGTGGAGCACGAGTGGATGGGCTACGAGGATTCCGGTCTGCCCCAAGGCGACCCCCTGCCGCCCTTGCCCGAGGGCTGCTTCGCGCTCGCGGACACCACCGAGGCGACCACGTCTTTAGTTAAGGTCATCCGCGAGTTCAAGCCGCACGTGATTATCACCTACGACGAGAACGGTGGCTACCCGCACCCGGATCACCTCAAGGTGCACGAGATTTCCATGGAGGCGTGGGAGAAGGCGGGCGACCCGGGGTTCGCGCCCGAGGCCGGTGAGCCGTGGACGCCGCTAAAGCTGTACTACACACACGGCTTTATCCTGCAGCGGATGCAGCTGCTCCACGACCGCCTGATCGAGCAGGGCGCGAAGAGCCCCTACGGTTACATGATCAAGCGGTGGAAGGAAAACGAGGCGGACGTGATGAGCCGTGTCACCACTCGCATTGAGTGCGGTGAGTACTTTGGCCACCGCGCCGAGGCGCTGACCGCCCACGCCACGCAGATCGATCCCGCCGGCGCGTTCCTTGCCAGCCCGGTCGAGGACCAGCAGGCGGTCTGGCCGACCGAGGAGTTCGAGCTGGCCAAGACCCGCGTGTCCACGCACCTACCTGAGGACGACTTGTTCGCGGGCATCAGCGAGACGGAGGATAAGCAATGA	MRLLAVHAHPDDESSKGAATMARYASEGHRVKVVTCTDGKRGDILNPAMNRPGVLENIMDVRREEMARAAAALGVEHEWMGYEDSGLPQGDPLPPLPEGCFALADTTEATTSLVKVIREFKPHVIITYDENGGYPHPDHLKVHEISMEAWEKAGDPGFAPEAGEPWTPLKLYYTHGFILQRMQLLHDRLIEQGAKSPYGYMIKRWKENEADVMSRVTTRIECGEYFGHRAEALTAHATQIDPAGAFLASPVEDQQAVWPTEEFELAKTRVSTHLPEDDLFAGISETEDKQ				NA	NA	NA	NA	NA
AK009_07752	297			hypothetical protein	ATGATCGGTACCGCCGCGCTAACCAACGCCTCGGGCTGGATCCTCGCGCAGGCTCCGCCGGAGACCCCGGTTGGGCCGGAGTTCGGCAAGGCCTCGCCGATCGGCATGCTCATCGTCGTCGCCCTCGCGGTGGTGATCTTGAGTCTCGGCTTCGCCTTCCACCGCAGGCTGTCGCGCTTTAACCGGCGTCGGCTGTTTGCAGAGCAGCACGGTATCGACCCTTTCGACCAGGAGGCAATTGACGCGGCCATGGCCGAGGCGGGCGTGCTCGACCGTCGTCGTCAGCGCTTTATCTAA	MIGTAALTNASGWILAQAPPETPVGPEFGKASPIGMLIVVALAVVILSLGFAFHRRLSRFNRRRLFAEQHGIDPFDQEAIDAAMAEAGVLDRRRQRFI				NA	NA	NA	NA	NA
AK009_07753	495			hypothetical protein	TTGGCGCCCGCCGTAGCCGACCGCGATGTTGACGCTGAGCCCGCGCTTCGCGCTTGTCGCCGCGGCCGAGCGCTGCATCCGCTCCGCTACCTCCGGGGGCAGAAGCTCAAGGTGGCCGACAAGCTTGATGCGGCACGAGTAATCCTCCGCCGCCAAGTCCGCGACGACGTCGGAGATGATGTCGAAAAGCAGCTCAACCTCTTCGGTCGTGCGCTGCAGGTTTTCGGTGGACAGCAGGTAGATGGTGACAACATCGATGTCCATCTCGGCCGACCAGCGCACCAGCTCGCCGATCTTCGCTGCGCCGGCGCGGTGGCCGTGGGAGACGTCGGTGTAACCGACCTGTCGCGCCCAGCGCCGGTTGCCGTCGGCCATCACCGCGATGTGCCGCGGGCGCTTCTTGCCACGCAGGTCACGCCTCAACCGCGCCTCGTAGAGGCGGTAGAGGATTCTCGACAGCACAGTCACGATTCCACCCTACAGCCGAGCGGTTAG	MAPAVADRDVDAEPALRACRRGRALHPLRYLRGQKLKVADKLDAARVILRRQVRDDVGDDVEKQLNLFGRALQVFGGQQVDGDNIDVHLGRPAHQLADLRCAGAVAVGDVGVTDLSRPAPVAVGHHRDVPRALLATQVTPQPRLVEAVEDSRQHSHDSTLQPSG				NA	NA	NA	NA	NA
AK009_07754	567			hypothetical protein	GTGATCGGAGCCCTTACCCAGCACGAGCGAAGCGCGCACGCGGGTGGGCAGGATGTTTTCCACGAGGTTCGGGAGGTTGATCGACTGCCAGATTTCGCGGGCCTCGCGCGTCGCGGAGGCGTCGTCAAGCTCGGCGAATCGTGCGAAGTGAGCGCCAGGTTCGCGGAAGGCTGTCGTGCGCAGCTGAAGGAAGCGGTCGATGTACCAGCGCTCGATGTGCTCGGTTTTGGCGTCAACGTAGACGGAGAAGTCGAACAGGTCCGAGATCATCAGGGTCGGGCCGGTCTGCAAGACGTTGAGGCCCTCGAGGATGAGGATGTCGGGCCTGTCCACAAGCTGGTGCTCGCCGGGGATGATGTCGTAGAGCTTGTGCGAGTACACAGGTGCTTCCACCGCGGGGGCTCCGGACTTGACATCGGTGACAAAGCGCATGAGGTTGCGGCGGTCGTAGGATTCCGGGAACCCCTTGCGCTGCAGAAGGCCGCGTTCGCGCAGTGTCTTTGTGGGGTAGAGGAATCCGTCGGTGGTCACGAGGTCGACCCGGGGGTGGGACTCCCAGCGCTGTAG	MIGALTQHERSAHAGGQDVFHEVREVDRLPDFAGLARRGGVVKLGESCEVSARFAEGCRAQLKEAVDVPALDVLGFGVNVDGEVEQVRDHQGRAGLQDVEALEDEDVGPVHKLVLAGDDVVELVRVHRCFHRGGSGLDIGDKAHEVAAVVGFREPLALQKAAFAQCLCGVEESVGGHEVDPGVGLPAL				NA	NA	NA	NA	NA
AK009_07755	261			hypothetical protein	GTGGGGCTGCACGTTGGCGTACTGCGCGCCGAATACTTCCTTCGCGCGGTCGCGGGCGAGGTCCTCGACGACGTCGACGAACTCGCAGCCGCCGTAGTAGCGGCGCCCCGGGTAGCCCTCGGCGTACTTGTTGGTCAGCACGGAACCCTGCGCCTGCAGCACAGCGCGCGGCACGAAGTTCTCAGACGCGATCATTTCCAGCGTGTGCCGCTGGCGCCCGAGCTCATTGACAATGGCCTCATGGACTTCGGGGTCCAGTGA	MGLHVGVLRAEYFLRAVAGEVLDDVDELAAAVVAAPRVALGVLVGQHGTLRLQHSARHEVLRRDHFQRVPLAPELIDNGLMDFGVQ				NA	NA	NA	NA	NA
AK009_07756	312			hypothetical protein	GTGGGCGTGCGGCACGGGAGAGGGGTGCAGGCCCGCGGCGACGAGGCCCGCGAAGTGCGCCATGTCGACCCACAGGTACGCGCCGACCTCGTCGGCAATCGAGCGGAACTCTGCGAAATCCTGCTGGCGCGGGTACGCCGACCAGCCAGCGATGAGCACCTTCGGCTTGACCTCGCGCGCCTGCTCGCGCAGCTTCACCATATCAATCTGGTGGGTGTCAAGCTCCACCTGGTAGGCGGCGACGTTGTACAGACGGCCGGAGAAGTTGATCTTCATTCCGTGAGTGAGGTGACCCCCGTGGGCGAGGTCTAG	MGVRHGRGVQARGDEAREVRHVDPQVRADLVGNRAELCEILLARVRRPASDEHLRLDLARLLAQLHHINLVGVKLHLVGGDVVQTAGEVDLHSVSEVTPVGEV				NA	NA	NA	NA	NA
AK009_07757	804			hypothetical protein	GTGGCTGACGGAGCTACGCCTGAACGGACCCCATCCCCGCCCCGAAGTGGCGCGCAAGCTCGGGATCAGCATCACCGCCTTGAAGAAGAACGGCATGGATTCCCCCCTGACCACCGAGCAGATCAGCGCCCTGCTCAAAGATCAGCCCGAGTGGCTGCGGGCCGCTCGCGCGACCCACGCCGCCGAGCGCTAGATCATCTTCCAGCTTTCCAGCTCCGGGTAGAGCGGGTACTTCTCGGCGAGAGCATCCACGCGGGCGTGCAGCGCTTCGCGGTCCGCAGAATCGCCCTTGATCAGGGTCTCCGCGATTATCTCGGCGACCTCGGTAAAGTCCTCGTCGCCGAAGCCGCGGGTCGCAAGCGCGGAGGTTCCGATGCGCAGACCCGAGGTGACCTTCGGCGGGCGCGGGTCGAACGGCACTGCGTTGCGGTTGACGGTGATGCCCACGGAGTGGAGCAGGTCCTCGGCTTGCTGGCCATCCATGTCGGAGTTGCGCAGATCAACGAGGACGAGGTGGACGTCGGTGCCGCCGGAGACGACGTCGACGCCGGCAGCCTTGGCGTCGTCACGCGTGAGCCTCTCGGCGAGGATGTGCGCGCCGTTCAGCGTGCGCTGCTGGCGGTCCTTGAACTCGGGCGTGCCGGCGATCTTGAACGCCGTCGCCTTCGCGGCGACCGCGTGCATCAGGGGACCGCCCTGCTGGCCGGGGAACACTGCGGAGTTGAGCTTCTTGTGCAGCTCGAGGTCGTTGGTGAGGATGAACCCGGAGCGCGGGCCGCCGAGCGTCTTGTGCACCGTGGATGA	MADGATPERTPSPPRSGAQARDQHHRLEEERHGFPPDHRADQRPAQRSARVAAGRSRDPRRRALDHLPAFQLRVERVLLGESIHAGVQRFAVRRIALDQGLRDYLGDLGKVLVAEAAGRKRGGSDAQTRGDLRRARVERHCVAVDGDAHGVEQVLGLLAIHVGVAQINEDEVDVGAAGDDVDAGSLGVVTREPLGEDVRAVQRALLAVLELGRAGDLERRRLRGDRVHQGTALLAGEHCGVELLVQLEVVGEDEPGARAAERLVHRG				NA	NA	NA	NA	NA
AK009_07758	579			hypothetical protein	ATGTTGCGCCTCAGTTTCGTCACCGGCACCGAGCCGGGAAAATGGTTCTCCCGCTACCGGCAGGGCACCGACCACGGTCTGCGTGAGATCGGCCACGATGACCCGTTTGCCCTGCTCGAGCAGGGGGAGTGCGACCTCGCGCTGATGCGGCTTCCGGACGCGCGTGTCGACGACCGCCACCACGTCGTCGTGCTCTACGACGAGGCGGCCGGGGTTGCGGTGCCGAAGGAATCGGTCTACGCGATTGCCGACGAGCGGCTGACGCCGGCGGACCTCGAGGGGGAGATTGAGAATTTTCGTTGGTCGCAGGGGGCGTCGATAAGCGAGCTGCGAGAGTCTCTGCGCGTGGTTGCGGCCAACGTTGGCGTGGCCTTTGCGCCAAAGCCTCTGCTCAAGATGCTTGCGAAGAAGCAGGTCGCGGTACGCGATGCTGATGGCGATGCGACGCACATTGCGCTGGTGTGGAGGCGGGAGGCGGACGGCGATCCGATCCAGGATTTCGTTGGTGTGGCGAAGGGGAGGACGCCGCGGTCCTCGCGCTCCTCCCCCCGTACAGGGGGTAGGCGCGGACGTCGTTAA	MLRLSFVTGTEPGKWFSRYRQGTDHGLREIGHDDPFALLEQGECDLALMRLPDARVDDRHHVVVLYDEAAGVAVPKESVYAIADERLTPADLEGEIENFRWSQGASISELRESLRVVAANVGVAFAPKPLLKMLAKKQVAVRDADGDATHIALVWRREADGDPIQDFVGVAKGRTPRSSRSSPRTGGRRGRR				NA	NA	NA	NA	NA
AK009_07759	585			hypothetical protein	ATGAATATTTCTCGCAAGCTTGGTGTCATCGCCGCAGCTGGTGCTCTCTCGGTGGGCCTCGTCGCCTGCGCCGACGAAGAGGGCGACATGGGCGCGGCGACGACCGTTGCAGAAACCGCGACCGAGACCAACACCATGACCGAGACGCAGGAGCCGGCTGAGGCGACCACCGCTGGCACCGAGGTCGCCGACGGCGTGCCGGTTGCTACCGCCGATGGCACCCAGGCCATGGTTCCGGCCGGCCTGGCAGAGGCCATGGACAAGTTCACCGCTCCCGAGTACGGCGGCGACGACTGGGGCGAGCCGATGAGCATCGATGAGACCGAGCAGGGCTGGGTCGCAGCCTACGCTGACGGTCACTACATCACCTGGAACGAAAACACCGGTGGCGCTCCGATCTGGGGCAAGATTGGTGAGACCTGGGCGGATGAGAACTGGGGCGAGGGTAGCGTTGGTTTCCCGACCGCAGCTGAGACCCCGATCCCGGGCGAGATGGGCTGGACCCAGGAGTTCGAGAACGGCACCATCAGCTGGGCACTCGACGAGGCCACCGGCGAGTTCGGCCCCGTCATTGAGGCCAACTAA	MNISRKLGVIAAAGALSVGLVACADEEGDMGAATTVAETATETNTMTETQEPAEATTAGTEVADGVPVATADGTQAMVPAGLAEAMDKFTAPEYGGDDWGEPMSIDETEQGWVAAYADGHYITWNENTGGAPIWGKIGETWADENWGEGSVGFPTAAETPIPGEMGWTQEFENGTISWALDEATGEFGPVIEAN				NA	NA	NA	NA	NA
AK009_07760	1629			hypothetical protein	GTGGCTCTACATCGGTTCGATCTCGCTGTTTATCGTCGGCTCGATCATCGGCGGGTTCGCCAACTCCATGACGGCCCTGATCATTGGCCGCGCCGTCCAGGGCTTCGGCGCGGGCGGGATGATGGTCAACTCGCAGTCGATTATCGCCGAGGTCGTCCCCGCCAGGCAGCGCGGCAAGTACATGGGCGCAATGGGCGCTGTGTTCGGAGTCTCCTCCGTGCTCGGGCCCGTCCTCGGCGGGTGGTTCACCGACGGCCCCGGCTGGCGCTGGGGGCTGTGGATCAACATCCCGCTAGGCCTGATTGCCATGGCGGTCTGCCTCGTGGTCCTGCGACTGCGCGGGCCGAGGCCGGAGCGGCTGCACTTCGACTGGCTGGGCACCATCCTCATGGTGGTCGCCACCGTGAGCATCACCCTGACCGCTACATGGGGAGGCACAGACTACGACTGGGGCTCCCTCGTCATCCTCGGCCTCATTGCGGCAGCGATAATCTCCTCGGCGCTGTTTGTGGTCGTCGAGAAGCGAGCGCGCAACCCGTTGATCCCGATGTGGCTGTTCCGCAACCGCAACATGGTGCTGACAACCGCGGCCGGCGTGGTGCTGGGCTTTTCCATGATGGGCGTGCTCGGCTACTTGCCGACCTACCTGCAGATGGTCCACTCCCTGACCCCGACCGAGGCCGGCCTGATGATGCTGCCCATGGTGCTCGGCCTACTCGGCGTCGGTGTAGCCGTCGGCTTTATCATCGCCCGCACCGGCCACTACAAGACCTACCCCATCGCCGGCATGGCGGTCACCGCCCTCGGCCTGCTGCTATTTTCACAGCTCGAGCCCACCACGCCGCTGCCGCAGCTCGGTGTTTATATGTTCACCTTCGGCGCGGGCCTGGGCATGGTGATGCAGGTGCTGGTGTTGATCGTGCAGAACTCGTTCCCCGTCGCCATGGTGGGAACTGCAACCGCAACGAACAACTTCTTCCGCCAGCTCGGATCGGCGCTCGGCGCCTCGCTGGTGGGGTCGCTGTTCATTCACAACATGACCCAGAACCTTGCCGAGCGCCTGCCCGGCGAGATGCAAGCCGGCGAAACCGCCCGCAACAGCTTCACCCCGGAGATCGTCGCCCAGCTTCCCGACGCCGTCCGCGACGCTGTGATTTCCAGCTACAACGACGGGCTCACACCCGTTTACCTACTCATGGTCCCAGCGGCGCTGGTCGCGCTGATCCTGCTGCTCCCCGTGAAGCAGGAACCGCTGAAGGAGACGGTGGCTTAAGCAGACTCGCCGGGGGTGGGCAGCAGCAGCTCGTAGACGTCAGTCGCGCGCCACTGCCCCTCCATGTCGCCGTAGGTCATCTTCGCCATGTTGTGGAAGGTGCCCACCTTGGTAAAGCCGCGGGACATGTGCAGTCTCGAGGATCCTTCGTTCTCGGGGAAGATCCACGAGTGGATGGCCCATTTGTCGAGGCGCTTGCAGGTCTCAATAAGTTTGTCCAAAAGCGCGCTAGACACCCCGCGCCCTTGGGCGTCGGGGTGTATGTAAATCGAATCCTCCACGACTCCGTGGAAGACGCTGCGCGTAGATGCCTTCGCCGCGGCGACCCAGCCCACAACGCGGGAATCATCTTCTGA	MALHRFDLAVYRRLDHRRVRQLHDGPDHWPRRPGLRRGRDDGQLAVDYRRGRPRQAARQVHGRNGRCVRSLLRARARPRRVVHRRPRLALGAVDQHPARPDCHGGLPRGPATARAEAGAAALRLAGHHPHGGRHREHHPDRYMGRHRLRLGLPRHPRPHCGSDNLLGAVCGRREASAQPVDPDVAVPQPQHGADNRGRRGAGLFHDGRARLLADLPADGPLPDPDRGRPDDAAHGARPTRRRCSRRLYHRPHRPLQDLPHRRHGGHRPRPAAIFTARAHHAAAAARCLYVHLRRGPGHGDAGAGVDRAELVPRRHGGNCNRNEQLLPPARIGARRLAGGVAVHSQHDPEPCRAPARRDASRRNRPQQLHPGDRRPASRRRPRRCDFQLQRRAHTRLPTHGPSGAGRADPAAPREAGTAEGDGGLSRLAGGGQQQLVDVSRAPLPLHVAVGHLRHVVEGAHLGKAAGHVQSRGSFVLGEDPRVDGPFVEALAGLNKFVQKRARHPAPLGVGVYVNRILHDSVEDAARRCLRRGDPAHNAGIIF				NA	NA	NA	NA	NA
AK009_07761	153			hypothetical protein	GTGGTCAACGCCGCCGAGCTCGCCGACGATGGTGGGCAGCGCGGTGCCGAAGATCATCTGGCCGAGCGAGCTCATCAGCATGGTGAGCATCAGTGCACCGAAGATGAGCCCGATGCGGGGTTGGTGCGTTTCTACCATGTCAGCTCCTTGTAG	MVNAAELADDGGQRGAEDHLAERAHQHGEHQCTEDEPDAGLVRFYHVSSL				NA	NA	NA	NA	NA
AK009_07762	279			hypothetical protein	GTGGATGCGCGCTGCGCGCCGCACTCCGTCGACGGCCGAGCCTGTGTCGGCGGGGAAGTGCGGGTTGGACAGGTACAGCGACAACGCGCTGCGGCACACATCGACGACAATGTGGACCTCGACTTCGACGGGGAGGTCGGGCAACCGGCGGTCGTCGGGGAATCGCGCAAAATGCTTGTCGACGGCCCGAGCCAGCGCCGTGAGCACCGTGACGCGGCGTTTGTGGCTCGCGTGGGCCAGGGAGGGGTTATCGGAGATGACGAGGCGGCGGCGCTCTAG	MDARCAPHSVDGRACVGGEVRVGQVQRQRAAAHIDDNVDLDFDGEVGQPAVVGESRKMLVDGPSQRREHRDAAFVARVGQGGVIGDDEAAAL				NA	NA	NA	NA	NA
AK009_07763	558			hypothetical protein	GTGCAATGTTACACCCTGTGCAAAATTCCTGCTTTAGTTGCGATCGGTGTTCGCCATGGACAGCACGTCGAGGCGGCGATCCAGCTCCTCTTCGGTGAGCTTGTCACCGTCGACGAAGCCGAGGTCGATGACCGTCTCTCGGATGGTCTTGCCTTCCTTGAGCGCGGTTTTGGCCACCTTCGCGGCGTTCTCGTAGCCGATCGCCGAGTTCAGCGGGGTGACAATCGACGGCGAGGACTCAGCCAGCGTGCGCATGCGCTCGATGTTCGGCTCAATGCCGTCGACAAGCTTGGTGGCGAACTGGCGAGCGGTGTTCGCCAGCAGGCGAGAGGACTCGAGCACGTTGCGCGCCATCATCGGGATGAAAACGTTGAGCTCGAACTGGCCCTGGGTGCCAGCGAACGCCACTCCGGCGTCGTTGCCGATGACCTGCGCGGAGACCTGGGTGGCGGTCTCACAGAGAACGGGGTTGACCTTGCCCGGCATGATAGAGGAGCCCGGCTGCAGGTCGGGCAGGTGGATCTCGCCGAAGCCGGCGAGCGGGCCGGAGCCCATTAG	MQCYTLCKIPALVAIGVRHGQHVEAAIQLLFGELVTVDEAEVDDRLSDGLAFLERGFGHLRGVLVADRRVQRGDNRRRGLSQRAHALDVRLNAVDKLGGELASGVRQQARGLEHVARHHRDENVELELALGASERHSGVVADDLRGDLGGGLTENGVDLARHDRGARLQVGQVDLAEAGERAGAH				NA	NA	NA	NA	NA
AK009_07764	798			hypothetical protein	GTGGTTCTCCGCCTCGGAGAGCTGCTTAACACCGGTCAGGGTCTTCAGCTCGGCGGTGACCCTTGCGCCGAAGTCGGCCGGGGTGTTGATGCCGGTGCCCACAGCGGTGCCGCCGATCGCGAGCTCGCCGAGACGCTCCAGCGTGGCCTCGACGCGCTGGATGCCCAGCTCAATCTGGCGTGCGTAACCGGAGAACTCCTGGCCGAGGGTGACAGGGGTGGCGTCCATCAGATGGGTGCGGCCGGACTTGACCACCGAGTGCCACTCCTTGGCCTTCGCATCAAGCGAGTCGTGCAGCACCTTCAGGCCGGGGATGAGGTCCTCGACAGCCGCCTCCGTCGCGGCGACGTGGGTGGCCGTGGGGAAGGTGTCGTTGGAGGACTGGCCCATGTTCACGTCGTCGTTGGGGTGAACCTCAACGCCGTTGGCCTTGGCGATAGACGCGATGACCTCGTTGGTGTTCATGTTCGAGGAGGTACCCGAGCCGGTCTGGAAGACGTCGATCGGGAACTGGTCGTCGTGCTTGCCGTCGGCGATCTCCTTCGCTGCAGCGATGATCGCGTCGGCCTTCTCGGCGTCGAGGTTGCCCATGTCCTTGTTCACCTGGGCACACGCCGCCTTGAGCAGGCCGAGGGCGCGGATCTGCTGCGACTCCAGGCCGCGGAAGGAAATCGGGAAGTTCTCCACAGCGCGCTGGGTCTGTGCGCGCCACAGAGCGTCCACGGGGACCTTGACCTCGCCCATGGTGTCGTGTTCGATGCGGTACTGCTGATCAGCCATGTAAAAGCTCCTTCTTGA	MVLRLGELLNTGQGLQLGGDPCAEVGRGVDAGAHSGAADRELAETLQRGLDALDAQLNLACVTGELLAEGDRGGVHQMGAAGLDHRVPLLGLRIKRVVQHLQAGDEVLDSRLRRGDVGGRGEGVVGGLAHVHVVVGVNLNAVGLGDRRDDLVGVHVRGGTRAGLEDVDRELVVVLAVGDLLRCSDDRVGLLGVEVAHVLVHLGTRRLEQAEGADLLRLQAAEGNREVLHSALGLCAPQSVHGDLDLAHGVVFDAVLLISHVKAPS				NA	NA	NA	NA	NA
AK009_07765	243			hypothetical protein	GTGTGTTTATTCCGTGGGGTCAGAGTAGTCGACCACGGAGAACTCTTGCAGCTTGGAAAGCTGGTGGATCGACTCGACGTAGCGGACCGTGCCGGAGGTGCCGCGCATCACCAGCGAGCGCGTCGTCGCGCCGGTCTTGCGGTACGAGACACCGCGCAGCATGTCGCCGTTGGTCACGCCCGTCGCTGCGAAGTAGGTGTTGTCGGTGGAGACGAGGTCATCCATCAACAGCACGCGGTCTAG	MCLFRGVRVVDHGELLQLGKLVDRLDVADRAGGAAHHQRARRRAGLAVRDTAQHVAVGHARRCEVGVVGGDEVIHQQHAV				NA	NA	NA	NA	NA
AK009_07766	816			hypothetical protein	GTGGCCGGCGGCGAGCACGCGCTCACGTTCCTCGTCGTTTTGCGGCGCGAGCTGGCCCTGGATCTCCCCGCCCAGGCACTTCAGCGCGCAGGCCGCGATGACGCCCTCCGGGGTGCCGCCGACGCCCATCATCAGGTCGATGGAGTTGGTGTCCTGGGCTGCGGAGATTGCGCCCGCGACGTCGCCGTCCATGATGAAGCGGACCTTCGCGCCGGCCTCGCGGATCTCCGCGACCAGCTTCTGGTGGCGCGGGCGGTCGAGGACGACCACGGTGACCTCGGAGGGCTTGACACCCTTTGCCGCTGCCACGGCGCGCACGTTGTCCGCCACCGAGGCGGTGATGTCGATCTTGCCGGCGGCCTCGGGGCCAACGACGATCTTGTTCATGTAGAAGGCGTCCTTCGGGTTGTACATCGAACCGCGCTCGGCGGCAGCGATCACCGCGATGGCGTTCGGGCGGCCCTCCGCCATCAGGCGCGTGCCGTCGACGGGGTCCACCGCGAGGTCAACGTGCGCGCCTTCGCCGTTTCCGACCTTTTCGCCGTTGTACAGCATCGGGGCCTCGTCCTTTTCGCCCTCGCCGATGACGATGATCCCGTCCATGGTGACCGAGTTGATCATCTTGCGCATCGCATCGACCGCAGCGCCGTCACCCTCGTTCTTCTTGCCGCGGCCTACCCAGCGGCCCGAGGCGAGCGCGGCCGCCTCCGTCACGCGGACGAGTTCGAGGGCGAGATTTCGGTCCGGGTACACCTTGCCCGATGCGGTCTGGTCAGTCATCGAAGGCAGCCTCCTGAGCTACAAATTACGGATTAG	MAGGEHALTFLVVLRRELALDLPAQALQRAGRDDALRGAADAHHQVDGVGVLGCGDCARDVAVHDEADLRAGLADLRDQLLVARAVEDDHGDLGGLDTLCRCHGAHVVRHRGGDVDLAGGLGANDDLVHVEGVLRVVHRTALGGSDHRDGVRAALRHQARAVDGVHREVNVRAFAVSDLFAVVQHRGLVLFALADDDDPVHGDRVDHLAHRIDRSAVTLVLLAAAYPAARGERGRLRHADEFEGEISVRVHLARCGLVSHRRQPPELQITD				NA	NA	NA	NA	NA
AK009_07767	429			hypothetical protein	TTGGATGAACCCGCCGCCGGGGGTGACCCAGCCGATGACGGGCGCTGGGGCGCCGCCGATCATCGAGCGGCGCGCGGAGTTGGTGGTCCAGCCCGCGGGCATCTCGGGGTAGCGCACCGGGTAGTTCACGGCGCGCGACTCCAGCTCGACGAAGGAGCGGGCGTCAACCTCCTGGACCGGGCCCTGCTCGGGCGCGCCGGGGTTGAAGGTACACAATCCGGTGAACCCGACCACAGCCAGCATGGCGACGATAATGATCACGACGTTGATCATCATGTCGCGACCGTCCTGGAAAATGCGGGGTTTCTCGTTGCCTGCCACGCGCCCAAGTATGGCACGTCCACCCGTTCACCCCCGAATTGGCAGCGTCGCGCACTGGGGGTGTCCGAAAGTGACACAATGGGGGGAAATCTAATCCGTAATTTGTAG	MDEPAAGGDPADDGRWGAADHRAARGVGGPARGHLGVAHRVVHGARLQLDEGAGVNLLDRALLGRAGVEGTQSGEPDHSQHGDDNDHDVDHHVATVLENAGFLVACHAPKYGTSTRSPPNWQRRALGVSESDTMGGNLIRNL				NA	NA	NA	NA	NA
AK009_07768	252			hypothetical protein	ATGACCCAGACCGCCGCGCCGCTTGACGACGCCGTCAGGGAGATCGACGCGGACCCGCGCGAGCTCGCGTCAACCGAGCAGGTGGGCGGCGCGCAGGTGCAGATCTACAGCTCGACAGCTGACGATGTGCGCGACGTGTGGGCGGTTGACGTCTCGGATGCGCGCCTGGTGTTTACCGGTGCGGCTACCGCTGATGAGTTCCGCGAGCTGATCGAGACCGCCGTGGGCACCACGCCGATTTCGCGCGGCTAG	MTQTAAPLDDAVREIDADPRELASTEQVGGAQVQIYSSTADDVRDVWAVDVSDARLVFTGAATADEFRELIETAVGTTPISRG				NA	NA	NA	NA	NA
AK009_07769	264	xseB_2		Exodeoxyribonuclease 7 small subunit	ATGACCACCCCGACCGCCTTCGGAACCGGCGAGGCCGGCGACAACGCCTTTCCCGACCCCGCAACGCTGAACTACGAGCAGGCGCGCGACGAGCTCGTCGAAACCGTCAAGATCCTCGAGCTAGGCCAGATGAGCCTGGACGAGTCGTTGAAGTACTGGGAGCGCGGCGAGGCGCTCGCGAAGCGCTGCGAGCTGCTTCTCGACGGCGCCGCCACCCGCGTCGAAGAAGCTATCGGCCGCACCGATAACTCGAGCGACTCCTAG	MTTPTAFGTGEAGDNAFPDPATLNYEQARDELVETVKILELGQMSLDESLKYWERGEALAKRCELLLDGAATRVEEAIGRTDNSSDS				NA	NA	NA	NA	NA
AK009_07770	969			hypothetical protein	GTGAGACATCGCGGCCGCGGTGATCGAACCGTCCGCGACGCGGATGCGCAGCTGCGAGCCGGGCGGGGACTGCTCGATGGTGGTGACGACCTCGGGGCCGGAGCCGTCGCGCGGCAGGACCTGGACAACGGCGTAACCGCGCGCAAGCGTGGCGGACGGCCCGAGCGCGGAGACCTGGGAGCGCAACGCAGAGACCTTCGCCGACTCCTCGCGCAGCAGGTAGCGCACGTCGCGGCGGATCAGCGCGACGGCGCGCTGAACCTCGTCGCGGCGTTGGTTCAAGGAAGTCATCGGGTTCGCCAGGACGGGTCGGCTGCGCAGCGCCGTGATGGTGGAGCGCTCGCGTTCCACCCAGCCGCGCAGCGCGGCGTTCATCCTCGCGCGTGCCTCGTCGACGAAGAGGAACTCCTGCGCGGCGTCCGGGACCACCCGCTTCGCGGCGTCCGTTGGGGTGGCCGCGCGCAGGTCAGCGACGTTGTCAAGCACGGGGTTGTCCGGCTCGTGGCCGATCGCGGAGACCACCGGGGTGCGCGCCGCGGCGACGGCGCGCTGCAACGCTTCTTCCGAAAACGGCAGCAGGTCCTCGACGGAGCCTCCGCCGCGCGCGATGATGATGACGTCGACGGCCTCGTCCGCGTCGAGCGTGCGGAGCGCCTCGATGACCTCGGGGGTAGCGTTCGCTCCCTGCACGGCGGTGTTGATCACGCGGAACTTCACCGCGGGCCAGCGCGACTGAGCCACCGACATCACGTCGCGCTCGGCGGCGGATCCCTTGCCTGTAATCAACCCGACGGTGTTGGGAAGGTAGGGGAGTGGTTGCTTCCGGGAGGCGTCGAAAAGCCCCTCGGCGGCGAGCTGCTGACGCAGCTTCTCAATGCGCGCCAGAAGTTCGCCCTCGCCGACGTGGCGGATGTCGGTGATGTACATCGAGAACGAGCCGCGACCCGCGTAGAAGGAGGGTTTGCCTAG	MRHRGRGDRTVRDADAQLRAGRGLLDGGDDLGAGAVARQDLDNGVTARKRGGRPERGDLGAQRRDLRRLLAQQVAHVAADQRDGALNLVAALVQGSHRVRQDGSAAQRRDGGALAFHPAAQRGVHPRACLVDEEELLRGVRDHPLRGVRWGGRAQVSDVVKHGVVRLVADRGDHRGARRGDGALQRFFRKRQQVLDGASAARDDDDVDGLVRVERAERLDDLGGSVRSLHGGVDHAELHRGPARLSHRHHVALGGGSLACNQPDGVGKVGEWLLPGGVEKPLGGELLTQLLNARQKFALADVADVGDVHRERAATRVEGGFA				NA	NA	NA	NA	NA
AK009_07771	588			hypothetical protein	GTGCGGGAAGCGCTCAAAGAGCTTGTTGACGATCTCCATCGTCTCGTCCACCGACAGCGTGGTCTGCGACAACCACACCAACTTCTGATCCGGGCCAAAGTCCGGCAGCGAAGCGACTCCGTCAAGACCGTCGACAAGGTGGGTGACCTCGGGGGCCTCACCAGCGGTGCCCTCGACCTCTTCGTGGCCCTCGTGGCCGACCAGCAGGATCTGGTAGCCGTCGCGGGCGAAACGCTTCGCCTCGTTGTGCACCTTGGTCACAAGCGGGCAGGTGGCGTCGAGGGTGAGCAGGTTGCGCTGGATCGCCGACTCGCGCACAGCCGGGGAGATGCCGTGGGCGGAGAAGACCAAGTGGGCGCCCTCGGGCACCTCGTCGGTCTCCTCGACGAAGATCACGCCGCGCTCCTCAAGTGTTTCCACAACATACTTGTTGTGCACGATCTGCTTGCGCACGTAGACCGGGGCGCCGTACTTCTCCAAGGTCTTCTCCACGGTCTCGACGGCGCGGTCGACGCCGGCGCAGTAACCGCGCGGGGCGGCGAGAAGGACGTTTTTTCCCTGTTCAGTCATGGAACCCAGGGTATCTAA	MREALKELVDDLHRLVHRQRGLRQPHQLLIRAKVRQRSDSVKTVDKVGDLGGLTSGALDLFVALVADQQDLVAVAGETLRLVVHLGHKRAGGVEGEQVALDRRLAHSRGDAVGGEDQVGALGHLVGLLDEDHAALLKCFHNILVVHDLLAHVDRGAVLLQGLLHGLDGAVDAGAVTARGGEKDVFSLFSHGTQGI				NA	NA	NA	NA	NA
AK009_07772	582			hypothetical protein	GTGTCACACGCGTCGCCTAGGAACTCGCGCGCCACCCGCGCCTCATTCGACGGTCTAGCCACGGGCTCGGCCATAGCCATCGTGTGCGCTGCCCTGTTCACCGGCGCGTTGCTGTCCATCTACGTGGGGCAGATTTCGTGGCCGTTCCTCACGCTTTTCGCCCTCGGTGCGCTCGCGGCGGCAACGCTCGTGAACCCACGCGGGCTGTTCATCACGGTGGCAGTAGTCCCAATCACCTTCGTTGTCGCCGCGGTGGCAACGGGGTGGTTCATTAACTCAGGTGATTCCGGGGTGTCGCGCACGGACGTACTCGTGATCGCTTACCCGCTGCTGCAACTCTTCCCCGTGCTCCTCGCGGCCACCCTCGGCGCAGCGCTGATTGCGTTTACCCGACTGCACCTTCTGAAGCGTTACAACCAGGCCTTGGCGCGTCACGAGCGGGAGGAGCGCCGCCGCGTGGCGCGCAGCAACCGGCGCGTTGCCGATGAGGGACGCCGCGCCCGCGAACGCACCGTCACGGTCAATGAGCTGCGCGAGATCATGGCCCAGCGTGAAGCCGCAGGCCGTCGCCGCGGCCGCTAG	MSHASPRNSRATRASFDGLATGSAIAIVCAALFTGALLSIYVGQISWPFLTLFALGALAAATLVNPRGLFITVAVVPITFVVAAVATGWFINSGDSGVSRTDVLVIAYPLLQLFPVLLAATLGAALIAFTRLHLLKRYNQALARHEREERRRVARSNRRVADEGRRARERTVTVNELREIMAQREAAGRRRGR				NA	NA	NA	NA	NA
AK009_07773	465			hypothetical protein	GTGGCGGCGCAGGTAGGCCTGCTTTTCCTCGGGGTCGTCGGTGTTGAGCGCGTCGAGGTAGGAGGAAAACGGCACTTTCGCGTCGACCACGATGTTGCGGCCAGCGGACAGGCGGATGATCATGTCGGGGCGCACGCGGGTGCCGTCGACAAGCTCGGTTGCTTGAACGTCGAAGTCGCAGTGCTCGACCATCCCGCCGAGCTCAACAACTCGCTGCAGCTGGACCTCACCCCAGCGGCCGCGTGTTTGCGGGGAGCGCAGGGCCGAGATGAGCTGGTCGGTGCGATCGGTCAGGCGCGTCGAGGTTCGGGTGATCGTCTGCACCTGGCTGGCCAGCGCCGACATTGCGACGGCGCGGTCGGCGTCCATCTCGTCGAGCTGCGTGCGCAGGCGCTCGAGCTCGTGGGAGACGGGGCGGATGTCAAGGGCCTGTTGCGGCTGCGGCGACTGCCGGCGGGCGAGTAG	MAAQVGLLFLGVVGVERVEVGGKRHFRVDHDVAASGQADDHVGAHAGAVDKLGCLNVEVAVLDHPAELNNSLQLDLTPAAACLRGAQGRDELVGAIGQARRGSGDRLHLAGQRRHCDGAVGVHLVELRAQALELVGDGADVKGLLRLRRLPAGE				NA	NA	NA	NA	NA
AK009_07774	711			hypothetical protein	TTGTTCCTCGAGCTCCGCGATCGCGAGGCCCTCGGGGGTGGAGAAGATAAGCTGGTCTGCTTTCTTTTCTCCGGAGTGGATCTGCATCACGTCCATCATGTAGCGGAACACCACGGCGATCATCGCCGCAACCGGCACCGCGAGGAACGCGCCGACCAGACCGAACAGACCGCCACCGATGGTGACGGAGACCAGCACGATCACCGGGTGCAGGTCCATTGCCTTGGATTGGAGGACGGGGGACAACACGTTGCCCTCAAGCTGCTGGACGGCAAGCACGATCAGGAGCACGATGATGGCCTCGGTGAAGCCCAACGACACCAGCGCGATGAGCACCGCAAGGGCGCCGGCGACGACAGCGCCGACGATCGGGATGAAGCCCGCGATGAACGTAATCACGGAGAGAGTAAAGGCCATCGGCACGCCCACGAGCCAGATTCCGACGCCGATAAAGAAGGCGTCGACAAGCGAAACAATGGCCTGGGCGCGGATGAAGCCGGACAGGGTGTTCCAGGCGCGGGTGAGGAGCTCGGTGGCGTGCAGACCCGGGCGGCCGCCGGCGGTGGCGCGCAGCCAGGGCAGGAAGCGCGGGCCGTCTTTGAGGAAGAAGAAGGTCAAAACCAGCACCACCGTCAGGGTGACTATCAAGCCCGCGGCGGTGCCGATACCCGCGAAGACACCGCCCGCGATGGTGCCAGCTTGGTTTTGTAG	MFLELRDREALGGGEDKLVCFLFSGVDLHHVHHVAEHHGDHRRNRHREERADQTEQTATDGDGDQHDHRVQVHCLGLEDGGQHVALKLLDGKHDQEHDDGLGEAQRHQRDEHRKGAGDDSADDRDEARDERNHGESKGHRHAHEPDSDADKEGVDKRNNGLGADEAGQGVPGAGEELGGVQTRAAAGGGAQPGQEARAVFEEEEGQNQHHRQGDYQARGGADTREDTARDGASLVL				NA	NA	NA	NA	NA
AK009_07775	354			hypothetical protein	TTGGGCGACCGTGTTGACCGCCTCGTTGAGGTCGTCGGGATCCATGTTGATTGGCGGGCCCTGCAGCCACAGCTGCAAGCGTTGGATGCCTTCGAATGCCTGCAGGTACAGGACTCGCGAGTGTGCCGCGATGTCCGGGGCGATGAGGAACACGAGGGTGCCGATGAGGCCGAAGAAGATGAGCAGCGAAATGAGGGCGGCCAGCGCCGACGGGAAGTGCGCGCGGCGGCGCAGGAATCCGGCAATCGGCGCGAGAACGGTGCACACGATGATCGCGAGGATCACGGGCAAAATGCCTTGCCAGAACGTGCCAATCAGCTGGCTAAGCGCGAAGAGGAAGACGCAAATGATTAG	MGDRVDRLVEVVGIHVDWRALQPQLQALDAFECLQVQDSRVCRDVRGDEEHEGADEAEEDEQRNEGGQRRREVRAAAQESGNRRENGAHDDREDHGQNALPERANQLAKREEEDAND				NA	NA	NA	NA	NA
AK009_07776	279			hypothetical protein	GTGGATGACGTTGTCGTCGGAAAACGCGCGCACAACCTGGCAAATCGCGTCGGCTTCGCGGATGTTGGCCAGAAACGCGTTGCCCATGCCTTCGCCCTCGGACGCGCCCTTGACAATGCCGGCAATGTCCACGAACGACACGGTCGCCGGCAGGATGCGCTCGGAGGAGAAGATCTCCGCCAAGCGCGTCAGCCGCTCGTCCGGCAGCTCGACCAGGCCGACGTTGGGCTCTATCGTGGCGAACGGGTAGTTCGCCGCGAGGACGTCGTTACGCGTTAG	MDDVVVGKRAHNLANRVGFADVGQKRVAHAFALGRALDNAGNVHERHGRRQDALGGEDLRQARQPLVRQLDQADVGLYRGERVVRREDVVTR				NA	NA	NA	NA	NA
AK009_07777	597			hypothetical protein	GTGCTGATATGGGGGCCTGGAGCGTTCGGTAGGGCAGGCCTACACGTTGAACTTAAACTCCACCACGTCGCCGTCGGCCATGACGTAGTCCTTGCCCTCCTGGCGCACCTTGCCGGCGGCGCGGGCCTCGGCCATGGAACCGAGCTGGTCGAGATCGTCGAAGGCGACGACCTCGGCCTTGATAAAGCCTTTCTCAAAGTCGGTGTGGATCACGCCTGCCGCCTTCGGGGCGGTGTCGCCCTTGCGGATGGTCCACGCGCGCGATTCCTTCGGCCCCGCCGTCAGGTACGTCTGCAGGCCCAGGGTGTCAAAGCCAGCCTTGGCCAGCGTCGCAAGCCCCGGCTCGTCTTGGCCCACGGCGGCGAGGAGCTCGGCGGCGTCGGCGTCGTCAAGCTCGAGCAGCTCGGTCTCCGTCTGGGCGTCGAGGAACACCGCCTCGGCCGGCGCGACGAGCTCGCGCAGCTCTGCCTGGCGCGCCTCGTCCGTAAGCACGGCCTCATCGGAGTTGAACACGTAGAGGAAGGGCTTCGCGGTCATCAGGTGCAGGTCGCGCACGAGCGCCAGATCAATCTCGCCGGACTTCGCGGCCGCGAATAG	MLIWGPGAFGRAGLHVELKLHHVAVGHDVVLALLAHLAGGAGLGHGTELVEIVEGDDLGLDKAFLKVGVDHACRLRGGVALADGPRARFLRPRRQVRLQAQGVKASLGQRRKPRLVLAHGGEELGGVGVVKLEQLGLRLGVEEHRLGRRDELAQLCLARLVRKHGLIGVEHVEEGLRGHQVQVAHERQINLAGLRGRE				NA	NA	NA	NA	NA
AK009_07778	279			hypothetical protein	TTGGGCGGTGGTGATGCGGAACTGGGTGGGGGAGACGGCGAAGCTGCCGTCGCCGATGATGCGCACATCGATGTAGCCCTCCGACTCGTCATCTTCGGCCACGGCCAGCGCGGAAGCGCTCGCGGTGGCGCCGGCTGCGGTGAGATCGGTCTCGCTGCCCGCGTGCGCGGGAACAACTTGGGCAGCCTGCGCCGGCAGCGGAGCAACCAGGGCAGTAGCGGCGACGAACGCCGCGGCAATGAGCAAATTCCTCTTCATCGAAAAATCCGTCCTACGTAG	MGGGDAELGGGDGEAAVADDAHIDVALRLVIFGHGQRGSARGGAGCGEIGLAARVRGNNLGSLRRQRSNQGSSGDERRGNEQIPLHRKIRPT				NA	NA	NA	NA	NA
AK009_07779	684			hypothetical protein	GTGCGCTTGTTCAAGCGCGTCGGTGAGCGCATCGACCGTGTAGCCGACGTTGAGCTTGGCGGGGTCGCGCGTGGACGCCGCGATCTCAACCTGCAGCGCGTCGTGGCCGCGGTTTTGCATGTGGCGGGTCACCGTGTAGGAACTCCTCCCGGAAAACGCGCCGTTGATCTCGGCGTTTCCGCCGAACGCGGTGGCGATGCGCTCGGCGATCTCAGCGCTCGGGCCCGAGTCTTTCTTGCCCGTGCCGATCGAGATGTTCTCGGGCGTCGAGCCGTCGGCCATGCCGTGGAGGTCGATGATGATTGCGTCGTCGGGCAGGGCGTGCAGGATGCGGGTGAACTCGTCGTCACGCGTGTCCCAGTTCTCGTCCCAGTCGGAGACCTCGCCGGTGACCGTGAGCACGCTCGCGCCGAGCCGGTTGGCCACGATCTCGGCGATGGCGCCGGTGTAGCGCTCGGCCAGTTTCGGTGCGCCGTCGCGGTAGTGGTTGACCGCGTGGGGCGCGACGATCACCAGCGGCGAGGAGTCGGTGCGGTCGATCCAGTGGACGTCGTCACGCTCGCCTTTGCCATTGCTGCGATTCGCCGCGTATCGACGATCGCGGGCGGCGACCTGGGCGCCCGTCAGGGCGCGGCTAACGGTGGCGAGCATGGAAGCCTCCTTCTGCGCCGGGTCGGTGGGTGA	MRLFKRVGERIDRVADVELGGVARGRRDLNLQRVVAAVLHVAGHRVGTPPGKRAVDLGVSAERGGDALGDLSARARVFLARADRDVLGRRAVGHAVEVDDDCVVGQGVQDAGELVVTRVPVLVPVGDLAGDREHARAEPVGHDLGDGAGVALGQFRCAVAVVVDRVGRDDHQRRGVGAVDPVDVVTLAFAIAAIRRVSTIAGGDLGARQGAANGGEHGSLLLRRVGG				NA	NA	NA	NA	NA
AK009_07780	447			hypothetical protein	ATGAACCCACCCCCTTTAGGTGGCGAGGGACAGCGACGCGGCAATCGTCGCGCAGCCCGCTGCCGAGAGGCCAAATCCCAGCGCGGTGCGCTTCGGGCCGTACTGGACCACATCGTTGACGATGATGGCAGGCAAAACGGCGAACACCACGTTCTGGGGGCCGTCGAAACGCATTCCGAACGCGCGGAAGAACAACGCTTCCGTGACCACGGTGAACACGAACGAGAGCATCAGCAGGACAAAGAATCGGTCCTTTCCGAACAGTGGGGTGCGCTGCGAGTAGGGAATCCACACGGCGGCGACGAGAACGCACACCGTGAGTACGACGAGGATAATCGCCGGAGAAGACGCCGCGCTGGCGAGGATTCCAGCCGTGATGTAGCCGGCCGTGCGCAACTTGAGGCTGCGCACCGTCGACTCCTGAATGACCACCGCCAGCAGAACTGA	MNPPPLGGEGQRRGNRRAARCREAKSQRGALRAVLDHIVDDDGRQNGEHHVLGAVETHSERAEEQRFRDHGEHEREHQQDKESVLSEQWGALRVGNPHGGDENAHREYDEDNRRRRRRAGEDSSRDVAGRAQLEAAHRRLLNDHRQQN				NA	NA	NA	NA	NA
AK009_07781	372			hypothetical protein	GTGGCTCAGCCCGAGCCACGCGCCGTTGAGCACAACGCCCACGGTCAGGCCGATGGCGAAGATCTGGCGCGGACGAGGCAGGTAGACCTTCAAAATTACGAGGCGGATGAGCAAGAACGCGACGAACGCGGTGACGATTGTGACCACGACGTTGAGCGGCGCATACAGGGATGCAGCCAAGTAACCGACGGCCAAGGTGCCACCGACGGAGACGCGGTTGCGGCGGAAATAGAGGTAGCCGAGGATAATTCCGGTGAGGAAGGCGAGGTGTACGTAGTTGGTGAGGAAGCCGTAGTTGGCCTCAGACAGCGAGATCACGGTGCGGCCACCTCGGCTTTGGTGCGGCTGCCCTCGACGAGGTCGCGGATGTAG	MAQPEPRAVEHNAHGQADGEDLARTRQVDLQNYEADEQERDERGDDCDHDVERRIQGCSQVTDGQGATDGDAVAAEIEVAEDNSGEEGEVYVVGEEAVVGLRQRDHGAATSALVRLPSTRSRM				NA	NA	NA	NA	NA
AK009_07782	1179			hypothetical protein	GTGGATGTTGACCATCCCGTACATGGCCACGTTCTCTTCCGGCTCGAAGCGCAGTCGGGCGGCGTTGACCAGCTCGCGGCCGTCGTTGTCGTCGGCGTCGATGGTGGTCACGATCTTCGTTTCGGGAACGCCGAGATCCACAAGCTTCCTCTGCACGACCTCCTGGATATCGCCGTAGAGGACGATGAGGTCGGAGGAGTCGATCAGCTCGGAGGAGACGAGGTCGACGAACATCGCCGCGCGGTCGGTGCGGTCGGCGCGGTTGTTCAGGGCGATGACGTTGCGGCACCCCTCGGGCAGGCCCTGCTGGACGTCCTCGAAGACGCGGACGGTCGATTCCCAGTCGTTGATGGCGAACATGGGCACCCAGAAAAGGTCCGGCTGTTGGGAGTCGGATATGCGGGTGACGCGGGTCGTGCCGGGGTCGGGGGCGGCAGAGAGCATGCCGCGGCAGGCTGTGGCGGAATCGATTCCGAGCAGCTCCGCGACAGCGAACGCGATGGCAACGTTTTCCTCGAACTGCTGGTAGTCGAATTGGTCGACAAGTGCGCGCGAGGTTTCGGACTCTTCAGCGACGATCAGCGTCGCGCCGCGCGCCTGACACTTTTCGCGCAGGATGTCGACGACTTTGGGGTTGCGCTCTCCCGTGATGACGGTGCCGTCAACCGGCACGGTGGAGCACAGCGACGCGGCGATCTCCTCGAGCGTGTCGCCCATGTCCTCCTGGTGGTCGAGGCGGACGTTGGTGATGATGCAGATCGGAGAGCGCAGGATCACGTCCTGGCAGAGAGCCTGGTACTTGGGTTTGACGGCCATACACTCAAACACCGCGGCGTTGGCGCCCTTGGCCACCCACTGCTTGAGGATGTCGTACTGCTCGTTGATGTTGGGCGGGCCGACACGCTTGATCGGGTGCTCGGTGCCCTCGTGGTCGATGACGCAGGCGTAGGTTCCGGTGGTTTTGGCGATGGTGGTAAATCCTTGTGCGCGCAGCATGCCACCGATCATGCGGGTCACGGTGGACTTACCGCGGATCCCGTTGACGTGGACGTTGACGTCAAGCGTGTCCAGGGTTGCGGTGTGGCGGCTTTCGCGACGGCGAAAACCCTCCATGGCGAGGGCGGCAGAGACGCCAGTGGCGGCCAAAAAGGTCAGCATGAAGTGAACTCCGGGTTATGA	MDVDHPVHGHVLFRLEAQSGGVDQLAAVVVVGVDGGHDLRFGNAEIHKLPLHDLLDIAVEDDEVGGVDQLGGDEVDEHRRAVGAVGAVVQGDDVAAPLGQALLDVLEDADGRFPVVDGEHGHPEKVRLLGVGYAGDAGRAGVGGGREHAAAGCGGIDSEQLRDSERDGNVFLELLVVELVDKCARGFGLFSDDQRRAARLTLFAQDVDDFGVALSRDDGAVNRHGGAQRRGDLLERVAHVLLVVEADVGDDADRRAQDHVLAESLVLGFDGHTLKHRGVGALGHPLLEDVVLLVDVGRADTLDRVLGALVVDDAGVGSGGFGDGGKSLCAQHATDHAGHGGLTADPVDVDVDVKRVQGCGVAAFATAKTLHGEGGRDASGGQKGQHEVNSGL				NA	NA	NA	NA	NA
AK009_07783	108			hypothetical protein	ATGTGTCTCGGATTTTTCGATCGTGTGATCGATATGCCGATCGCGCGAGCGTGTGCGTTCCAAGGGTGGGATATTCTGCGGGTGGCGCAGAGCCATATGCAAGGTTAG	MCLGFFDRVIDMPIARACAFQGWDILRVAQSHMQG				NA	NA	NA	NA	NA
AK009_07784	342			hypothetical protein	GTGGGTGGTGCCGAAGACCGCGTCTGCCAGGTAGCGCACCGAGAGCTGGCCGAACAGCGAGTACTTCGGGCCCGCATAGACGCGCAGGGCGAACCCTGCTGCCAGCAGCGCGCTGAGCGCGACGGTGACGGGGCCCGGCGCGAGGAACGAGGCGGCAATCGTGACAAGGGCGAGGGCCACGACGAGCATCGCGGTCGTGCGGGCGGCGTACTCGTTGACGCGTTCTGGGAACTGTCCAAACAACATGCCGCAAGAATAGACCAGTTGGTTCTCTTTTGTAAACCGCTCGGTCTAGTCGTGGATACCTATCGAACAGTCATACGTTTTTGCGCGGCTTACTAG	MGGAEDRVCQVAHRELAEQRVLRARIDAQGEPCCQQRAERDGDGARREERGGNRDKGEGHDEHRGRAGGVLVDAFWELSKQHAARIDQLVLFCKPLGLVVDTYRTVIRFCAAY				NA	NA	NA	NA	NA
AK009_07785	654			hypothetical protein	ATGAATGACTCTAACTCCGCACCCGCAGACATCGAGGGCATCGCCGCGCTCGTGGCCACCTCGTCGCTGAGTGAAGAGGAAGCGCGAGCGCGCTGGCCCGAGGCGACGGCCTCGCCGGTGTTCGACCGCTGGCTCGCGATCCACCACGACACCCTCGCTGCTATGTCCGTGCCTGAAGCCACCCCGGCGCCGGAGAGGTTGCGCGAGCGGCTTCTCGACGAGGTCGCCCAGCGCACCACCGAGAAGCCACAACGCTTGCGCGCCCCATGGCTGATCGGCGCCGCTGCGGCCGCGGCGATTGTGGTCGGCGCGGGGGCGTGGGTCGCGTTGAACCCCACCCAGCAGCAGGCCGAAGTGTACGCCGCTGACGTGGCTGATGGGACGTTGACGATCACGCTTGAACCAGGCGGAGACGTCGCCCGCCTCGAGCTCGACAACGTGCCACCTCCCCCAGAGGGCACCGTGTACCAGATGTGGGTTAGCACCTCCGATGGCGCCCGCTCGCTGGGTTCCATGGGTCCCGCTGATGTCACTGACCACACGCAGGTCGAGGTGGGGGGCTTCCGGAACGCCACGGAGTTCATGATTACCGCCGAAGGAAGCGGGGCCGCGGACTCCCCGTCCGAGCCGCTGGTCTTGGTGCCCCTGGACTAG	MNDSNSAPADIEGIAALVATSSLSEEEARARWPEATASPVFDRWLAIHHDTLAAMSVPEATPAPERLRERLLDEVAQRTTEKPQRLRAPWLIGAAAAAAIVVGAGAWVALNPTQQQAEVYAADVADGTLTITLEPGGDVARLELDNVPPPPEGTVYQMWVSTSDGARSLGSMGPADVTDHTQVEVGGFRNATEFMITAEGSGAADSPSEPLVLVPLD				NA	NA	NA	NA	NA
AK009_07786	546			hypothetical protein	GTGAAAGAGGCAGCGCCCCGAGTGGCGCATGACGTGGCCGAGGATTTAATCCAGCTCTGCGCCGCCGGCGATCGCGCCGCATTCGCCGAGCTCTACGACTTTTTTCCGCGCGCGCCTACGGCATCGCGCTGCGTGTCGTCAGGGATCCAGCGCTGGCTGAGGATGTCGCCCACGACGCGTGGCTCAACGTGTGGGACTGCGCGGCTGCGTTCGACCCGGCGCGCGGCTCTGCCGCCGGTTGGATCATGTCGTTGGTGCATCGCCGCGCCGTCGACACGGTTCGCCGCATCGAGGCGGGACGAGCGCGCGAGCGTCTTGACGCCCAACGCACCCCACCCGAGTCGCATCCCAGCGGGGAAGACATCGCGGCACTCAATGAGGCCCGCCGCACCGTGCGCCACTGCATGGAGGTCATCTCAGAACGCCAGAAGGAGGCGCTCTCCTTGGCGTACTTCGAGGGTTTTACCCACAGTGAGATCGCCTCTACGCTGGGCATTGAGACAAGTGCCGTCAAATCCAGAATCCGCAAAGCGCTCGCAGGCCTAA	MKEAAPRVAHDVAEDLIQLCAAGDRAAFAELYDFFPRAPTASRCVSSGIQRWLRMSPTTRGSTCGTARLRSTRRAALPPVGSCRWCIAAPSTRFAASRRDERASVLTPNAPHPSRIPAGKTSRHSMRPAAPCATAWRSSQNARRRRSPWRTSRVLPTVRSPLRWALRQVPSNPESAKRSQA				NA	NA	NA	NA	NA
AK009_07787	516			hypothetical protein	ATGAGCATCACCTCGTCCGTGCGACGCGCATCCATCTCCCTCGCTGTTGCAGCCGGCGCTGCAGCACTCGGCATCGGCACCGCCGCGGCAGCCCCCGCACCTTCCCCGATTCCGCAGCCGACCCTAGGCAACGTCCAGTTCGCGGGCGCGCTCCCGGAGCAGATCGCTACTAACGGCAACGCTGCAGCCACCGCGGCGAACGCAATTGCCCTGGGCGTGTCCGTCGATGGCGGCCGCGCGGTCGCCAACGCAACCAACTTTTCCGGCCCCGCGGCCATCGCCGTCGGCCCGGCCTCTCACGCCGAGGCGTGGGGCGTGAACCCGGGCCTGGCGATCGCGGTTGCTGGCCCGAACAGCACCGTTCGCGTTTCCGGCACCGAGCCGACCCAGTGCTCCGGCGAGTGGGGCCTGGCGGGCGACTTCCAGACCCTGACGGGTTGCGTGGTCTACATGACCCCGAACGGTGCGGTTAACGTTCCGCTGGATTCCCGTCCGCTGCTGAGCTCCTCCCGCTAA	MSITSSVRRASISLAVAAGAAALGIGTAAAAPAPSPIPQPTLGNVQFAGALPEQIATNGNAAATAANAIALGVSVDGGRAVANATNFSGPAAIAVGPASHAEAWGVNPGLAIAVAGPNSTVRVSGTEPTQCSGEWGLAGDFQTLTGCVVYMTPNGAVNVPLDSRPLLSSSR				NA	NA	NA	NA	NA
AK009_07788	1521	dauA_2	COG0659	C4-dicarboxylic acid transporter DauA	ATGACGAATCCCCCGCTCAGCACGGCGACCACCGATGGCCGCGTCCGCTACCGCGGGCAGGCGTCGATACGCGAAGCCGTGCGCAATCCACGCACGCTGCTGCGCGAGGTGCTTGCCGGGCTGGTAGTCGCGCTCGCGCTGATTCCCGAAGCGATCTCCTTTTCCATCATCGCCGGAGTGGACCCGAAGGTTGGCCTGTATTCGTCGGTGATCATGGCCATCACCATCGCGGTTGTCGGCGGGCGGCCCGCGATGATTTCGGCGGCGACCGGGGCGATTGCGCTCGTCGTCGCGCCGGTGGCGCGCGAGTACGGCATGGATTACTTGGTCGCCACCGTTTTGCTCGGCGGCCTTTTTCAAATCGTGCTTGCCGCACTGGGTGTGGCTAAGTTGATGCGCTTCATTCCGCGCAGTGTGATGGTCGGCTTCGTCAACTCGCTGGCGATTCTCATCTTCATGGCGCAGCTGCCGCAGCTTATCGACGTCCCCCTCGCCGTCTACCCGCTCGTCGCCCTTGGCTTGGCCATCCTCGTGCTGTTGCCGCGCGTGACCACGGCCATTCCCGCGCCGCTGGTCTCCATTGTGGTCGTCACGGCGATTGTGCTGGTGTTCGCCCTTAATGTGCCTACCGTCGGCGACCAGGGAGAGCTACCGCGCAGCCTGCCGGAGCTGTTCATTCCGAACATTCCACTGACACTCGAGACGCTTCGGATCATCGCCCCCTACGCCCTCGGCCTCGCGCTCGTCGGACTCATGGAATCTCTCATGACGGCCAAGCTTGTCGACGACATCACCGACACGCATTCCGACAAGACCCGCGAATCGTTGGGACAGGGCGTGGCCAACATCGCCTCCGGCCTCTTTGGCGGCATGGGCGGCTGCGCAATGATCGGCCAGACCATGATTAACGTCAAGGTCTCCGGGGCGCGCACGAGGATCTCGACGTTGCTTGCGGGTGTCTTCCTGCTCATCCTGATCGTTGCGCTCAGCGATGTGGTCGCGACAATCCCGATGGCGGCTCTCGTCGCCGTGATGATCATGGTGTCCGTGGGCACGTTCGACTGGCACTCGGTCTCACCCGCAACGCTGAGGCGGATGCCACGCAGCGAGACGTTCGTCATGGCTGTCACCGTCGCGGTTGTCGTGGCAACGCACAACCTCGCCATCGGCGTGATCGTCGGCGTTCTCACAGCATCCGTGATGTTCGTCCGGCGGGTGTCCCACCTCTTTTCAGTCCGCCGCGAATTTGACGCCGAAACCGCCCGCTACTTCGTAGACGGGCAGTTGCTGTTCGCGTCAAGCAACGACCTGACCACGGCGTTTGAATACACAAGCGATCCGGACCGTGTTGTGATTGATCTGTCCCGCTCACACATTTGGGATGCCTCCACCGTCGCCGCCCTCGACGCGATTGAAGCGAAGTACGAGCGCTACGGCAAGACGGTGGAGATCACGGGCATGAACGATTTCACAAACTCGTTCCACGCCCGGCTCACCCGCGAGCTGAGTGGGGATTCTTAG	MTNPPLSTATTDGRVRYRGQASIREAVRNPRTLLREVLAGLVVALALIPEAISFSIIAGVDPKVGLYSSVIMAITIAVVGGRPAMISAATGAIALVVAPVAREYGMDYLVATVLLGGLFQIVLAALGVAKLMRFIPRSVMVGFVNSLAILIFMAQLPQLIDVPLAVYPLVALGLAILVLLPRVTTAIPAPLVSIVVVTAIVLVFALNVPTVGDQGELPRSLPELFIPNIPLTLETLRIIAPYALGLALVGLMESLMTAKLVDDITDTHSDKTRESLGQGVANIASGLFGGMGGCAMIGQTMINVKVSGARTRISTLLAGVFLLILIVALSDVVATIPMAALVAVMIMVSVGTFDWHSVSPATLRRMPRSETFVMAVTVAVVVATHNLAIGVIVGVLTASVMFVRRVSHLFSVRREFDAETARYFVDGQLLFASSNDLTTAFEYTSDPDRVVIDLSRSHIWDASTVAALDAIEAKYERYGKTVEITGMNDFTNSFHARLTRELSGDS	PGPT0003020_4443	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK009_07789	675			hypothetical protein	GTGGGAGACTGTGGGCCAATCCGTGCAGCCGATGAGCACCTCGAAGCTCTACGCCCCGGAGGGCACCACAGTTGTCCCCACGGGCAGGGAAGTAACGACCCGGGGCCTTGGGGGAGATCAGTACGAGATCCAGAGGATCGACTCCACCGACCGCTCCGGCCTCGCCTCGCTCGGTGTCGCACCGACGCAGCCGCCTGCTGCCGCGGCAACCCCGGCGGGTACCCAGTTCACGGGAACGGTGCTCGCGCTTTCTACCACGGAGGTCATGAACGGCGAGCCGGCTCCGAACGTCTACTACGTCCTGCAGCTCGACGCGCCGACCCAATCGCCGCGATGCAATCTGGCGGGGGTTCGGTTACTCGAACGACGGATCAGCTCTTTCTCGGAGAACACAGCGAGCACCACGATGACTCCGCACAGTGGGGACCACTCGTGGGCAAGTGGGTGACCCTCACCGTTGACCCAGAGTCGATGTGGTGGCAATCCGATCCATCGTTGCCCCATCGGCCCGCCCCGAGTCAGGGAACCGCTCGCTGTCGATGTGCAGTAACGCTAGTGCTCGGGCGCGACGAGGATGTTCGCCGACACGGATCTCCGTCGGGTCCAGGGTGGCTGCACGGGCATGGAGCGCCTTCGTTTATCGGAACCAGCGAGGCCGCAGTTAGAGTTGGGTAG	MGDCGPIRAADEHLEALRPGGHHSCPHGQGSNDPGPWGRSVRDPEDRLHRPLRPRLARCRTDAAACCRGNPGGYPVHGNGARAFYHGGHERRAGSERLLRPAARRADPIAAMQSGGGSVTRTTDQLFLGEHSEHHDDSAQWGPLVGKWVTLTVDPESMWWQSDPSLPHRPAPSQGTARCRCAVTLVLGRDEDVRRHGSPSGPGWLHGHGAPSFIGTSEAAVRVG				NA	NA	NA	NA	NA
AK009_07790	150			hypothetical protein	ATGCGGGGCGTTGACCGTGACCACCATGTCCGGCTCGTTGTCGCCGCTAGCTTCCACGATGGCGCAGGAGTGCGTCCCGTCGGGCGCGAAGCGGGAGCTGGGGTCCGCAGAGTACGGCCCGAGAGAATCCAAGATACCGGAAAACGCTGA	MRGVDRDHHVRLVVAASFHDGAGVRPVGREAGAGVRRVRPERIQDTGKR				NA	NA	NA	NA	NA
AK009_07791	882			hypothetical protein	GTGGTTGTTCACGCCCCACCACTTCGGGATGCGGACGGTGCAGTGGCTGCCCGGGACGAGTTCCTGGATCCGGGGGAGCACAGTCCGGAAGTAGGGTGCCTTGAAGGCGTAGAAGGCCGAAAACAACCCGCGTTTGACGGAAGAAGCCGCGACCTTTTCCCACAGTTTCGCAATCTGGTTCGGTGTGGCGGCGTGCGCGGTGAAAGTCATGGGGGAAATGCTAGCGGCCGGAAACCATCGGCAACGAGGAAAACAGAAGCAAAATTGTCAGGAAGCCCACATTTTTTCGCGATACGTTGGGGATGTCGATATCCGCACAAAGCGATCCCACCGAGGTGTCACGATTGTCGCGTGGACACAACGAAAGGAATAGAAAATGTTCTCCAGGAAATGTGCTGTGACGGCCGCCATCGCTTCTGCTGCCGTACTCGGGTATGCGGCGGTGAAATGGAACCGCGAGAAGGAGCAAGAAGTGAAGCAGGCGCGCAAGGAGGCGTCGGTGCCGTGGAGTGCGGCCGCAGCCGAGCTCGCGATCGACGAAAGTGCTGTGGGAACGGTGCTAGATTCCGAGGTTCTCGAGACAGAGAAGATCATCTCCGCGCCGAACGGGTCCAAGACACTGCTCGTCACCTACGGCGCCCGCAACGCGCACGGCAGCCCGATCAAGGTAACCGGGCTAGTGACATTCCCCGAGGGGGAGGCGCCGGAAGGAGGCTGGCCCGTGCTGAGCTACGCCCACGGCACCACGGGCATTACCAAGGAGGCGGCACCCTCGACAGCGATCGGCACCCACCCCGACCACGAGGCGTTTACCCTGGTCGTCGATTCCTACCTGCAGACGTGGCTGGACAAGGGCTTCGCCGTGATCCAGCCGGATTATGA	MVVHAPPLRDADGAVAARDEFLDPGEHSPEVGCLEGVEGRKQPAFDGRSRDLFPQFRNLVRCGGVRGESHGGNASGRKPSATRKTEAKLSGSPHFFAIRWGCRYPHKAIPPRCHDCRVDTTKGIENVLQEMCCDGRHRFCCRTRVCGGEMEPREGARSEAGAQGGVGAVECGRSRARDRRKCCGNGARFRGSRDREDHLRAERVQDTARHLRRPQRARQPDQGNRASDIPRGGGAGRRLARAELRPRHHGHYQGGGTLDSDRHPPRPRGVYPGRRFLPADVAGQGLRRDPAGL				NA	NA	NA	NA	NA
AK009_07792	330			hypothetical protein	GTGAAACTACTGCAGCTCCGGGAGGAAGGGAGCCTGGTCTTCAAGCGCGCGGCGCACCATGCCGCGGTGGCCCTCGCCGGTGCGCACCTCGAAGGTGACGTCGGTGCCCTCGTTGGCCTGGAGCTTCTTCGCCGCGGCGCTGATCTGGCTAAAGGTGATGATCTCGTCGTCCTCACTGCTGAAGATGTAGATCGGTGTGGTCGGGCGCATGTGCGCCATGGAGTTGGAATCGAGGTGTTCCAGCAGCGCCGTAAGCTTCGGGTGGTCGTTGAGAATTTCCTTGCCGGTGACCTTGTTTTCTTCCTTGAAGGTGGTCAGGCAGACGCGTGA	MKLLQLREEGSLVFKRAAHHAAVALAGAHLEGDVGALVGLELLRRGADLAKGDDLVVLTAEDVDRCGRAHVRHGVGIEVFQQRRKLRVVVENFLAGDLVFFLEGGQADA				NA	NA	NA	NA	NA
AK009_07793	324			hypothetical protein	GTGCTCCTGCCCCCGCTGTTACCCGCCGAGCTCGAGCGCGTGGGCACGGTCGTCTTCGGGACCAAGAGCAAGCAAACCGTCGCCTGGCTGCTCGAAGCGCCAGATTCGCTTGACGACGCCGCCCGGCGCTTAAGCGCAATGAACCCCGATGGCCGCGGCCCGCGCTGGATCCCCCACCTGACGATGGGGTTGCGCCTGCCGAAGGCGATCGTGCCGGCCTACATCGAGGCGCTCGCCGAGGTGACAAACCCGCACCTGCGGTCGCTGACCGCCGAGGTAGCCGCGTTTTATCAGCCGCAGCTCGGGGCGGAACTCGTGCTCTAA	MLLPPLLPAELERVGTVVFGTKSKQTVAWLLEAPDSLDDAARRLSAMNPDGRGPRWIPHLTMGLRLPKAIVPAYIEALAEVTNPHLRSLTAEVAAFYQPQLGAELVL				NA	NA	NA	NA	NA
AK009_07794	447			hypothetical protein	ATGGGCGGTGTGACTTCCCGCTACCGCTTCGACCTGCCAAACGACGACTGGTTTATCGGTGAAGCCCCCGACGGTTACGACTTCATTGTCGCCCGCCGCGGGGCCTTCGATGCGTTCCGCCCCAACATCGGCGCCACCACGATCCCGGTCGCTGACGGCACTGCGCTGTCGACGGTGATGGAGCAGTCCGCGCAGGCGACGCGCGAGAAATCCCGCGACTTCCGCATGGCTGAAACCGATGCCGGGCGTCAAACGCTGAGCTTTAGCGTCGCGACGCCCGCGGGCGATCTCGCACTCACCCAGCACCAGGCGTTCTACCCGGTCACGGGTGAAGAGGGAGACACCCGCGTGCTGTGCGTGGTGATGTCAGCGGCTTCCCGCGACGCCGCCGCGCTTGCCGGAGACTTCGACGCCTTCCTCGACTCCCTGCGCTTCGACGATGCCTAA	MGGVTSRYRFDLPNDDWFIGEAPDGYDFIVARRGAFDAFRPNIGATTIPVADGTALSTVMEQSAQATREKSRDFRMAETDAGRQTLSFSVATPAGDLALTQHQAFYPVTGEEGDTRVLCVVMSAASRDAAALAGDFDAFLDSLRFDDA				NA	NA	NA	NA	NA
AK009_07795	831			hypothetical protein	GTGCAGACCCGTGTACGACACAACCGAGCGCGCGGGCTCACCGCGGGCCACACTCTCCGCGACGCGCTCCTCCACAACGCGGCCGTCGAAGCCTTGCGTGAACTGGGGCTGGTGCCGAGTGTACCAGCTGGTTTCGGCGACCCGCGAGATCTCCTCGAGGTGCTACGGCGCGGAAATTCCCGCACCGACCACGGCAACGCGCTTCGAGGCGAACTCCTCTGGCCCGGCATAATCTCGGGTGTGGATCTGGCGCCCCTGAAATTCGCCCTGGCCAGGGTAATTAGTGCGCAGCGGGTTCTCCCAGGTACCGGTGGCGTTGATCACGCCGCGCGCGCGGATCCGTCCCGCCGTTGTGTCCACGAGGAACTCCTCGCCGCTTTTGCTCACGGTGAGCACCCGGACCGGCCGCGCAATGTTGAGGCCCATGCAGCGCTCGAAGTCGGCGAAGTACGCGGGGACCGCCACGGAGGCTTTTTGCTCCGGGTCGAGGGTGGGGGCGTCGAAAAGCGGCAGGCCAAAAATTCTGTTAAGCCTGTCCACCGTGAGCGTGTCCCAGCGCTGCAGCCAGGCGCCTCCCGCGCATGGCGAGGCGTCGACCGTGACGTGATCGATGCCGCGGCGAGCCAAGTGGAAGGTGGCGGACAGCCCCGCCTGGCCAGCGCCGGTGACGGCGACGCTGGTTGTCACCTCCCCGAGGTTAGCGCGGTTAGGCATCGTCGAAGCGCAGGGAGTCGAGGAAGGCGTCGAAGTCTCCGGCAAGCGCGGCGGCGTCGCGGGAAGCCGCTGACATCACCACGCACAGCACGCGGGTGTCTCCCTCTTCACCCGTGA	MQTRVRHNRARGLTAGHTLRDALLHNAAVEALRELGLVPSVPAGFGDPRDLLEVLRRGNSRTDHGNALRGELLWPGIISGVDLAPLKFALARVISAQRVLPGTGGVDHAARADPSRRCVHEELLAAFAHGEHPDRPRNVEAHAALEVGEVRGDRHGGFLLRVEGGGVEKRQAKNSVKPVHRERVPALQPGASRAWRGVDRDVIDAAASQVEGGGQPRLASAGDGDAGCHLPEVSAVRHRRSAGSRGRRRSLRQARRRRGKPLTSPRTARGCLPLHP				NA	NA	NA	NA	NA
AK009_07796	282			hypothetical protein	GTGGATGCGCACAACCTCATCACCGGTGTAGGTGGAGCGCCAGGAGAAGTTGACGCTCTTCTCATCAGCGCCGATGCCGGTGACGGCGCGGAAGATCGGGCCGGACACGGCGCCGGTGTCGGGGGCGGAGGAGCCCGGGGCCGAGGACGATTGCGACGAGCTCGAGCTCATCTGGGCGTTGGCAACGGGGGTCACGGTCAGGCTCAGCGCGACGACGGCGGCGGCCAGGGTTTTGCGGGTCATGTTCAACCTTCGGCTCGGCGGAAATCTACCTGCCAATAA	MDAHNLITGVGGAPGEVDALLISADAGDGAEDRAGHGAGVGGGGARGRGRLRRARAHLGVGNGGHGQAQRDDGGGQGFAGHVQPSARRKSTCQ				NA	NA	NA	NA	NA
AK009_07797	570			hypothetical protein	GTGGTTGAGCACGATGATCCAGTCCTTGTCGCCGCCGTGGGCCGCGACCGTGTCGCGCACGAACTGTGCCTGCTCGGCCAGGCCCGCGTCGTCCTTGCGGTTGGAGTTCAGCGCGATGAACAGGGCGTTGTTCTGCTCGAAGAAGTAGTTCGAGGTCTCCCCAAGCTCGTTCGGCAGGTTCCAGTGCTCCTTGAAGTGCCGGGTGCTAGCACCGCTCGGGTACGTCTCGTGGTTGCCCTCAATCGCCGCGAAGCGGTAGTTGCGCAGCTGCGGGGCCGAGAAGAACTCGTTGTACTGGCCGTAGCGGCCGATCAGGTCGCCCCAGCCCTCCACCTGGTCGCCCAGGCTGACAAACAGCGATGCATCGGGGTTGGCCGCTGCTGCGTTGCCCGCGGTCGTGCGCCACATCGCGCCCTGCTCGGCGACCTTGAGATTGACACCGATCTGGGCGTCGCTCACCGCGACGAACTTCCAGGAATCGTCGCCGTCGTCAATGGTGAAGCTCTCCGGCGCGCTGAAGCCGCCGGCGTCGGAACCGATCTGGTAGGAGTACGTCTCCCCCGGGGTTAG	MVEHDDPVLVAAVGRDRVAHELCLLGQARVVLAVGVQRDEQGVVLLEEVVRGLPKLVRQVPVLLEVPGASTARVRLVVALNRREAVVAQLRGREELVVLAVAADQVAPALHLVAQADKQRCIGVGRCCVARGRAPHRALLGDLEIDTDLGVAHRDELPGIVAVVNGEALRRAEAAGVGTDLVGVRLPRG				NA	NA	NA	NA	NA
AK009_07798	432			hypothetical protein	ATGTACGCCGAGGGTACTGGGCGCCTACTTGGTCAGGGTGACGTCGTCGACAAGCGAGCCGTCTGCGGCGTTGACGCTGAGGATGTTGAGGCTGCCCTGTTCAACGCTGACCACGGAGTAGTCCGGGGTGTAGTCCTGGTTCCAGAACGCGATGGTCGGGCGGTTGAGGTTGCGCTTGCGCGCCTCGGCGAGCGTCATGCCCGGGTACTCGTTGCCGTCGTTGCCCTCGAAGTCGTAAAACTTGCCGCCGCCGGCGGTGCTCAGGGTCAGGTAGAGAACCTCGCCCGGACCCTGGTGCAACACGTCACCGGGCTCCGCGGGCGCCCCCGGCACAACCGGCTCAAGGCCGTTCATGAGGTAGGAGCGGTTGTACATGTGGTCGTGGCCGTTAAGCACAACGTCCACGCCGACCTCAGAGAACACGGGGCTTAA	MYAEGTGRLLGQGDVVDKRAVCGVDAEDVEAALFNADHGVVRGVVLVPERDGRAVEVALARLGERHARVLVAVVALEVVKLAAAGGAQGQVENLARTLVQHVTGLRGRPRHNRLKAVHEVGAVVHVVVAVKHNVHADLREHGA				NA	NA	NA	NA	NA
AK009_07799	360			hypothetical protein	GTGAGCGGAAGCCAACCCGCGGGAGCGAAACCAGTCCAGCGCCCCGTGGGCCAGAAGATTTCCCACCCCCTGGCGCTGCACATCAGGCGCCACTCCGGCCATGTGAACCCAGCCGCGGTGGCCGTCGTCGCCGACGATGCACGCCGCCGCAATCCTCGACACCGCGGAGTCCTCGACGACGAGCACGTCGGAGTTCTCGGCGGCGACCGCGCGGTCGAAATCATGGGGCGGGTCGTTCCAGGGTTGGCTGATCCCGGAGGCCTCCCACACCCCGACCACGCTGTCCCGGTCCTCAGCTACGGCTGCGCGCACAGTCATCATGTACGCCGAGGGTACTGGGCGCCTACTTGGTCAGGGTGA	MSGSQPAGAKPVQRPVGQKISHPLALHIRRHSGHVNPAAVAVVADDARRRNPRHRGVLDDEHVGVLGGDRAVEIMGRVVPGLADPGGLPHPDHAVPVLSYGCAHSHHVRRGYWAPTWSG				NA	NA	NA	NA	NA
AK009_07800	240			hypothetical protein	GTGGGCGACGGCGTCGCGCGGCGCGTCGAAGGGGAACTCGGCGCCGTTGTCGAGCAGGTCGCCGTAGGTCATGACGGTCAGCTCGCCGCCGAAGATGGACTGGTAGTAGGAGAAGACTTCTGCTGCGTTGCCGGGGAAGGAAATGTAGGGAAACGTCGTGGTCATGGGTGCCTCCAGTGGGTAGTATGGGTGGGCAAACCAATTATCACACGGCAAGCGCGATCCCGCACGGTGTGCTAG	MGDGVARRVEGELGAVVEQVAVGHDGQLAAEDGLVVGEDFCCVAGEGNVGKRRGHGCLQWVVWVGKPIITRQARSRTVC				NA	NA	NA	NA	NA
AK009_07801	1392	stp		Multidrug resistance protein Stp	GTGCCCAGCAAAACCTCTCCGTGGCCGGCGCTGTGGACCATGATGATCGGGTTCTTCATGATCCTGGTCGACTCCACCATCGTCTCGGTCGCGATCCCAGCGATCACCGACGCGTTCGGCGCCGGTTACAACCAGGTCATCTGGGTCAACAGCGCCTACCTTCTCGCGTATGCGGTACCGCTGTTGATCACGGGCCGCCTCGGTGATCGTTTCGGCCCCCGAAGGCTCTACATCGGGGGCTTCGCCCTATTCACGATCTCCTCCCTGGCCTGCGCCCTAGCGGGGAACATTGAGACGCTCATCGTCGCGCGCACGTTCCAGGGACTCGGTGGGGCTATCGCCACCCCGCAGACGATGAGTGTGATGATCCGCACGTTCTCCCCCCGCGAGCGCGGCGGCGCGATGGGCGTGTGGGGCGCGACCGCCGGCGTTGCCACGATCACCGGCCCGCTCGTGGGCGGCTTGCTTGTCGACGCCGCCGGCTGGCCCTGGATCTTCTTCGTCAACGTCCCCGTGGGCGTGGTCGGACTCGCCCTAGCGTGGCGCTTTGTCCCGGTGCTCGAGAACACGGCCCGGGCCTTCGACTGGGTGGGCGTCGCAATCAGCGCGATTGGCATGTTCAGCCTGATTTTCGGCATCCAGGAAGGCGAGCGACTGCAGTGGTCGTGGCCGGTGTGGGTACTCGTCGGCACCGGCCTTGTTCTTCTCGCCTGCTTTGTGGCGTGGCAGCGCCGAATGGGCACGAAGGCGCTCGTGCCGCTGTCCCTGTTTAAGGACCGCAACTACGCGCTCGCAGCGGTCGCGATCTCCACCGTGGGATTCGCGGTGTCGACCTTCATCATCCCCTGGATGATCTACGTCCAGCAGGTGCGCGGTTTCAGCCCCACGCACGCCGCGCTGCTGGTGTTGCCCGCCGGCGTGATGGCCGGGGGGCTTTCCCCGTACATCGGCAAGCTCACCAACACGCGCTCGCCGAAGCCGATCGCCATCGCGGGCTTGACCTTAAACAGCCTGTCGATCGCGCTCATGGCGCTGATCACCACCCCCGCGATTGACCCGCACTGGCTGCTCGCCATCTCGGTGCTAAACGGCCTGGGTAACTCAATGATGTTCGGCCCGTTGTCGATGATTGCCACGCGCAACCTCGACCCCCACCTCGCGGGCGCGGGCTCGTCGGTCTACAACACGGTGCGCCAGGTCGGCGCCGTGATTGGCTCCGCCGCGATCGCGGCGACGATGGCCGCCCAAATCAGAGCGCAGATGGGCCCCGGCGCGGGCGGCGCTGAGTTCGCCAGCGCCATGAGCCACTCCATGTGGCTACCGGCGGTAGTCCTGCTGTTCGGCGCGGCGGTAGCTACTGGGTTTGCTAAGACGAAGTCGTGGGACGACTAG	MPSKTSPWPALWTMMIGFFMILVDSTIVSVAIPAITDAFGAGYNQVIWVNSAYLLAYAVPLLITGRLGDRFGPRRLYIGGFALFTISSLACALAGNIETLIVARTFQGLGGAIATPQTMSVMIRTFSPRERGGAMGVWGATAGVATITGPLVGGLLVDAAGWPWIFFVNVPVGVVGLALAWRFVPVLENTARAFDWVGVAISAIGMFSLIFGIQEGERLQWSWPVWVLVGTGLVLLACFVAWQRRMGTKALVPLSLFKDRNYALAAVAISTVGFAVSTFIIPWMIYVQQVRGFSPTHAALLVLPAGVMAGGLSPYIGKLTNTRSPKPIAIAGLTLNSLSIALMALITTPAIDPHWLLAISVLNGLGNSMMFGPLSMIATRNLDPHLAGAGSSVYNTVRQVGAVIGSAAIAATMAAQIRAQMGPGAGGAEFASAMSHSMWLPAVVLLFGAAVATGFAKTKSWDD				NA	NA	NA	NA	NA
AK009_07802	585			hypothetical protein	TTGCTCAACGGCGGCGACAGCTTCACCGCGCTGGCCCAGGGCACCACGCTGGCGCAGCTCGGCTACATCGACATCCAGGCGTTCACCGAGTACCTGACCTCCTACCTCGGCGGCGGCGACGCTCCCGCACCGCGCACCGGCCAGTCGAACGTCGGCGTCCACATCGCCACCCCGCTCGTCGCCGGCGAAGCCGCGACGATTGACCTGTCCTCCTTGATCTACACCTTGGGCGAGACAGCCAAGACGGTCACCATCGAGCTCGGGGACCTGAAGTACACCTCCGATATCGAGTACGACTTCGGCCCCGCCGACTACAACGAGGCCGGTAAGGCGAGCCTGACCTTCGGCATCCCGAAGGAATTTGCCGGTGTTTACACCCTGCGCATCACCACCGACGCCGGCACCGACGTCACCGTGCCCGTTACCGTTGAAGGGGCCGCTGAGAACACCCCGAACGGCGGTTCCTCCTTGGGCGCGCTGGCCCTGTTTGTCACCATCATCGCCGGAATCGCGGCGGCTGTCGGTGGCTTCCTGCCACAGATCCTCGATCTGCTGCGCAACGCAGTGCCTGGGCTGCAGATCTAG	MLNGGDSFTALAQGTTLAQLGYIDIQAFTEYLTSYLGGGDAPAPRTGQSNVGVHIATPLVAGEAATIDLSSLIYTLGETAKTVTIELGDLKYTSDIEYDFGPADYNEAGKASLTFGIPKEFAGVYTLRITTDAGTDVTVPVTVEGAAENTPNGGSSLGALALFVTIIAGIAAAVGGFLPQILDLLRNAVPGLQI	PGPT0013395_489	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
AK009_07803	900	mutY_2	COG1194	Adenine DNA glycosylase	GTGGGCTCGGTCATGCCCACTATTGTGGCACTCATTGTGGACATGCAGACGAAAGTTATCGACTATTTTCGCGCCAACGCCCGCGACCTGCCGTGGCGCCGCGCCGGAACGAGCGCGTGGGGAGTGCTTCTCAGCGAGGTGATGAGCCACCAAACCCCGGTCGCGCGCGTCGCCCCGATCTGGCAGGAGTGGATCAGGCGCTGGCCCACCCTTGTCGACTTCGCTGCCGCCAGCGGCGACGAAGTGCTGCGCGCCTGGGGTTCGCTGGGGTACCCGCGCCGCGCGCTGAGGCTTCTCGATTGCGCGCGCACGATCGTCGCGGATCACGGCGGAGAGGTGCCGCGCGACGTCGATACGCTTCTGAGCCTGCCGGGAATTGGCGCGTACACCGCCCGGGCGGTGGCCTGCTTCGCCTATGGCGCCAACGTCGCGGTGGTGGACACGAACGTGCGCCGCGTCTACGCGCGCGCCGTCGAAGGCAGGTTTCTCGCGCAACCCCGCGCGGGCGAGATCGCCGATGTCGCGGCGCTACTGCCGGCGCAGGACGGGCCGGTGTTCTCCGCCGGGCTGATGGAGCTCGGCGCACTTGTGTGCACCGCGACGAACCCGGAGTGCGGATCTTGTCCCTTGGAAAGGCAGTGCGCGTGGGTCGCCGCCGGCAAGCCCGCGCCGAGCGAGGCGGAGCTCAAGCGCAGGAAAGTGCAAAAGTTCGCCGGCACAGACCGCCAGGTGCGCGGCAAAATCATGAAGGTGCTGCGCGAGGCGCCCGGGCCCGTTGCGCAGGAGCGTATCGACGTCGTGTGGCCGGACGCGGCGCAGCTCTCCCGCGCGCTGTTTTCGCTGCTTGACGACGGCCTGGCGACCCAGAACGCCGACGGCACATTCCGGCTGCCCAGTTAA	MGSVMPTIVALIVDMQTKVIDYFRANARDLPWRRAGTSAWGVLLSEVMSHQTPVARVAPIWQEWIRRWPTLVDFAAASGDEVLRAWGSLGYPRRALRLLDCARTIVADHGGEVPRDVDTLLSLPGIGAYTARAVACFAYGANVAVVDTNVRRVYARAVEGRFLAQPRAGEIADVAALLPAQDGPVFSAGLMELGALVCTATNPECGSCPLERQCAWVAAGKPAPSEAELKRRKVQKFAGTDRQVRGKIMKVLREAPGPVAQERIDVVWPDAAQLSRALFSLLDDGLATQNADGTFRLPS	PGPT0014770_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
AK009_07804	567			hypothetical protein	GTGCTCGCCCGTGGCGATAGCGCTGGGCAGGAGCTTGTCAAAGCTGATGAACACCATGATGCCCGCCACCGCGGCGAACGTGAGCCCCAAGGTTGCCGGGCCCATAAACGGCATGAGCAGCGCGAAACCGACGAGCGCGCCAACCGGCTCGGCGAGGCCGGACAGAGTCGCCCACCCGGCGGCAGTCCACTTCTTACCCGTCGCTTCACGCAGCGGCACCGCCACGGCAATGCCCTCCGGGATGTTGTGCACCGCGATCGCGAACGCAATCGGCAGGGCAATCTTCGGGTCGCCCAGCGCGGTGACAAAGGTGGCAAAACCCTCGGGGAAGTTGTGGATCGCGATCGCAAAACCGGTGAGCAGGCCCGCGCGCTTCATCGCCGAGCGCGCCTGGTAGCGCCCGCCCTCATCCTGGAACTCGTGCGGGTTAATGGATTCAGGCACGAGCCGGTCGATCACAGCGATCACGGCCACGCCGGCGAAAAACGCCAACACACCATAGAGGCCGGCGCGGTGGCCATAAACCTCGGTGAGATCGTCGATGCCACCCGGAAGAAGCTCGACTAG	MLARGDSAGQELVKADEHHDARHRGEREPQGCRAHKRHEQRETDERANRLGEAGQSRPPGGSPLLTRRFTQRHRHGNALRDVVHRDRERNRQGNLRVAQRGDKGGKTLGEVVDRDRKTGEQARALHRRARLVAPALILELVRVNGFRHEPVDHSDHGHAGEKRQHTIEAGAVAINLGEIVDATRKKLD				NA	NA	NA	NA	NA
AK009_07805	237			hypothetical protein	GTGCGGGGCGGGCTGGGTGCGAAGCAGGGTGCCCGGGGTGCCGAGGTTGTCCACGGGGTCGTCGTAGAAGGGGTCGTAGCCGTGGATAAAGGAGTCGGCCGGGGTCGTGGCGGCGTGGTGGACGCCGTCGGCAAGCTTCTGGGCTTCCCCGGAGCTTTGGGCATTAGCGGTGGTGATCGACGCGGTTACAGACGCGGTGGTCAGCGCGAGCGCAGCGCATGTTGTGGCAGCAGTTAG	MRGGLGAKQGARGAEVVHGVVVEGVVAVDKGVGRGRGGVVDAVGKLLGFPGALGISGGDRRGYRRGGQRERSACCGSS				NA	NA	NA	NA	NA
AK009_07806	948			hypothetical protein	GTGGTTGACACCGAATTTGGTGCCCGGGGTCAGCGGCGGGATGTTCTCGTTGAACATTGTGGTGGTGACCCCCAGCGCGCAGTAATCGCGGGCGAGCTGGACCACCTGCGGGGTGGGGACGAGGTCGTCGTTGCCGCCGGTGGACACCATGATCGGGGACGTCGGGGCCGTCTCGCCGAGCTTCTGGTCCACGAAGAGCTGCTTGATGTGCGGCAGCGAGTTCACGATTTCGTAGAGGGACTCGCCCGTGGAGGTCAGGTCGCTCGTGCTCGTGAAATGGCGGGTCAGAGCGTCGTCAACCATGCAGGAATCCTTGGTGCCGTTGAGAAACTCCCAGCCACGGTCGTTGAGTTTGGTGTCCAGGACCGCGCCGAGCTCGGGGTAGCGCGCCAGGTAGCCGTTGGCGGCGTAGCCGAGCACCGAGGTGATGGTCGAGGTATCGACACCCTTGACCACCTCCATCAGGTCGGCCGGGGGCGCGCCGGCGAAGGTGCCCTTGACATTGAGTTCCGGGGCGTAGGTCGGCTGCAGTTCGGCGGCAGCGGCGGACGCGCCGCCTCCCTGGGAGTACCCGTAGAAGGCGACCGGGGAGCCGGCGGGGACCACCGCGCGGGCGGCGTCGAGCATGGCGTGGCCCTCTTCGTCGTGGAGCACGTAGGTGTGTGCGCCGGGGGTGCCCAGGCCGATGTAGTCGACCACGACGACGCGCATTCCGGCCAGTGCCGCGGCTTCGTAGAAGACAAGCTCGTAGTTGACGCCGAGCGCCGGCTGGGCTGCATCCAGTTGGGCGGTCAGCCACGGCCCGCGCGAAGGTGCGCACATGTCGCCTGCGCCGCGGGTGCCGGGGGCGAAGATCACCGTCGGGGTGGGGCCGTTGCCCTGCCACGGGTTGGCGGGTTCGATGACGAAGCCGGAGGTGGCCACGGGATCCCCGTGGACCGTGGTTGA	MVDTEFGARGQRRDVLVEHCGGDPQRAVIAGELDHLRGGDEVVVAAGGHHDRGRRGRLAELLVHEELLDVRQRVHDFVEGLARGGQVARAREMAGQSVVNHAGILGAVEKLPATVVEFGVQDRAELGVARQVAVGGVAEHRGDGRGIDTLDHLHQVGRGRAGEGALDIEFRGVGRLQFGGSGGRAASLGVPVEGDRGAGGDHRAGGVEHGVALFVVEHVGVCAGGAQADVVDHDDAHSGQCRGFVEDKLVVDAERRLGCIQLGGQPRPARRCAHVACAAGAGGEDHRRGGAVALPRVGGFDDEAGGGHGIPVDRG				NA	NA	NA	NA	NA
AK009_07807	2253			hypothetical protein	TTGGGACAGCTGGCGGAAGACAACGACCTCGTCGATACGGTTGAGGAACTCGGGGCGGAAGTGCTTCTTCAGCTCGTCGTGGACCTTGTTCTTCATCCGGTCGTACTGCGCCTCCGAATCCGTGGCAGTGCTGCCGCTGAACCCGAGGCCGACAGCCTTGGAGATGTCGCTCGTGCCCAGGTTCGAGGTGAAGATCAGCACGGTGTTCTTGAAGTCCACGAGACGGCCCTGGCCGTCGGTGACGTGGCCTTCTTCGAGCACCTGCAGCAAGGTGTTGTAGATCTCCTTGTGCGCTTTTTCGATCTCGTCGAAAAGCACGACGCTAAACGGCTTGCGGCGGACCTTCTCGGTGAGCTGGCCACCCTCTTCGTAGCCGACGTATCCGGGAGGAGCACCGAACAGGCGCGAGGCGGTGAAGCGGTCGTGGAACTCGCCCATATCGACCTGGATCAGCGAATCGTCGTCGCCGAAGAGGAACTCGGCGAGCGCCTTGGACAGCTCGGTCTTACCCACACCGGACGGGCCGGCAAAGATGAACGAGCCAGACGGGCGCTTCGGGTCCTTCAGACCCGCGCGGGTACGACGGATGGAGCGCGAGACGGCGCGAACGGCCTCGTCCTGGCCGATGATGCGCTTGTGCAGCTCATCTTCCATGTTGAGCAGGCGCGAGGACTCGGACTCGGTGAGCTTGAACACGGGGATTCCGGTCCAGTTCGCCAGGACGTCGGCAATCTGCTCCTCGCCGACCTCGGCGATCTCCTCGAGGTCCCCGGAGCGCCACTGTTTTTCCTTCTCCCGGCGCTCCTCGCCGAGCTTGCGCTCGGTATCGCGCAGGCCGGCGGCCTTTTCGAAGTCCTGGGCGTCGATCGCGGCTTCCTTTTCCTTGCGCACCTCGGCGATACGCTCGTCGACCTCGCGCAGCCCCTCCGGCGCGGTCATGCGCTTGATGCGCATGCGGGCGCCGGCCTCGTCGAGCAGGTCAACGGCCTTATCCGGCAGGAAGCGGTCGTTGATGTAGCGGTCCGACAGGTTCGCAGCGGCGACGAGCGCGTCGTCGGTGTAGGAAACGCGGTGGTGCGCCTCGTAGCGGTCGCGCAGACCCTTGAGAATGGTCACGGTGTCTTCGACGGAAGGTTCGTCTACCTGGACGGGCTGGAAGCGGCGCTCGAGCGCTGCGTCCTTCTCGATGTGCTTACGGTACTCGTCCAAAGTGGTCGCGCCGATGGTCTGGAGCTCGCCGCGAGCCAGTTTCGGCTTCAGCAGGCTGGCCGCGTCGATCGCGCCTTCGGCGGCACCCGCGCCGACGAGGGTGTGGATCTCGTCGATGAACAAGATGATGTCGCCGCGCTGGTTGATCTCCTTGAGCACCTTCTTCAGGCGCTCTTCGAAATCGCCGCGGTAACGCGAACCCGCCACCAGGGAGCCCAGGTCGAGCGAGTACACCTGCTTGTCCTTCAGTGTCTCGGGGACCTTTCCGTTGGCGATGTCGAGTGCGAGGCCCTCCACCACGGCGGTCTTGCCCACACCGGGCTCGCCGATGAGTACAGGGTTGTTCTTCGTGCGGCGCGAGAGCACCTGCATGATGCGCTCGATCTCCTTGTCGCGGCCGACCACCGGGTCAAGCTTGCCCTCACGCGCGGCCGCGGTGAGGTTGCGGCCGAACTGATCGAGCACCAGCGAGTTCGAACGCTCACCCTGCTGCCCGCCACGGGAACCGCCGCCACCGCCGAAAGCTGCGGGGCCGGAGCCCGCACCGGCGAGACCCCCCTGCTCGCCGCCCTCGCCCTGGCCCTCGCCGCCTTCGTAGCCGGAGAGCAGCTGGATAACTTGCTGGCGCACACGCGGCAGGTCGGCGCCGAGCTTGATAAGCACCTGCGCGGCAACGCCCTCGCCCTCGCGGATGAGGCCGAGCAGGAGGAACTCGGTGCCGATGTACTTGTGCCCCATCTGCAGACCTTCGCGCAGGGAGAGCTCAAGCACCTTCTTGGCGCGCGGCGTAAACGGAATGTAACCGGTCACGGGCTGGGTGCCGTGGCCGATGAGCTCCTCGACCTCGCGGCGCACGTCCTCGAGGTTGATGCCCATGGACTCCAGCGCCTTGGCCGCGACACCCTCGCCCTCCTTGATCAGGCCGAGCAGGATGTGCTCCGTGCCCATGTAATTGTGGTTCAGCGCGCGCGCTTCCTCCTGCGCCAGGACGATAACGCGGCGGGCTCGGTCGGTAAACCGCTCGAACATCAGGCAACCCCTTAA	MGQLAEDNDLVDTVEELGAEVLLQLVVDLVLHPVVLRLRIRGSAAAEPEADSLGDVARAQVRGEDQHGVLEVHETALAVGDVAFFEHLQQGVVDLLVRFFDLVEKHDAKRLAADLLGELATLFVADVSGRSTEQARGGEAVVELAHIDLDQRIVVAEEELGERLGQLGLTHTGRAGKDERARRALRVLQTRAGTTDGARDGANGLVLADDALVQLIFHVEQARGLGLGELEHGDSGPVRQDVGNLLLADLGDLLEVPGAPLFFLLPALLAELALGIAQAGGLFEVLGVDRGFLFLAHLGDTLVDLAQPLRRGHALDAHAGAGLVEQVNGLIRQEAVVDVAVRQVRSGDERVVGVGNAVVRLVAVAQTLENGHGVFDGRFVYLDGLEAALERCVLLDVLTVLVQSGRADGLELAASQFRLQQAGRVDRAFGGTRADEGVDLVDEQDDVAALVDLLEHLLQALFEIAAVTRTRHQGAQVERVHLLVLQCLGDLSVGDVECEALHHGGLAHTGLADEYRVVLRAAREHLHDALDLLVAADHRVKLALTRGRGEVAAELIEHQRVRTLTLLPATGTAATAESCGAGARTGETPLLAALALALAAFVAGEQLDNLLAHTRQVGAELDKHLRGNALALADEAEQEELGADVLVPHLQTFAQGELKHLLGARRKRNVTGHGLGAVADELLDLAAHVLEVDAHGLQRLGRDTLALLDQAEQDVLRAHVIVVQRARFLLRQDDNAAGSVGKPLEHQATP				NA	NA	NA	NA	NA
AK009_07808	1698	ptsI_2	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGACTGACCGATCAGTACTGCACGGAATCGGCGTGTCCGCCGGAACCGCTTCCGGCCCCGCCGCCGTAGTCACCCCGCCCACCGGCGTTGACGAGGCCGAGCCGCCCAGCGTCGACCCCGAAGCGGACGGCCAGCGCGTGCGCGAGGTGTTAGAGCAGGTGGCGGCGTCGCTGCGCGAGCGGGCGGGCCTTGCCAACTCCGAGACCTCAGCCGCCGTGCTCGAGGCCACCGCGGCCCTCGCCACGGACCGCGGCCTGATCAAGGGGGTAGCCAGGCAACTACAGAAGGGTTCCGGACCCACCCGGGCGATCTTCGACGCGGTCGAGGTCTACGCCGCGAAGCTGCGCAAGCTCGGCGGCTACATGGCCGAGCGCGTGACCGACCTCTACGACATTCGTGACCGCGCCATCGCGCGCCTGCGCGGGGTGGCGGAACCGGGTGTGCCGGCGCTGAGCCGGCCGAGCGTGCTTGTCGCCCACGACCTCGCCCCCGCCGAGACCGCAACCCTAGACCCGGCGCTCGTGCGCGGCATCGTCACCGCCGGCGGGGGAGCGACCTCGCACACCGCGATCCTCGCTGCCCAGCTCGGCATCCCCGCAGCCGTGCAGGTCAAGGGAATTGACGCCCTTCTTGCGGGTGAAGGCGAGGTAGAGCTAGCCATCGACGGCGGCGTCGGCGAGGTCATCGTCGCGCCCACGCCCGACGACGTCGCCGAGCTCGAGGAGCGTTCGCGCCGCCGCGCTGCGGCGCTTGCGGGGTCTTCCGGTGAGGGTGCGACACGCGACGGGCACCGGGTGAAATTGCTGGCGAATATCGGCACCGCCGCCGACGCGGCACAAACCGCCGCGGCGGACATCGAGGGCTCCGGATTGTTCCGTACCGAGTTTCTTTTCCTCGACCGCGAGGCCGCCCCGAGCGTCGAGGAGCAGACCGCGACGTACGCCGAGGTGTTGCGCTCTTTCGGCACCCGCCGCGTGGTCGTGCGCACCCTCGATGCCGGCGCCGACAAGCCGCTGAGCTTCGCCGACCTCGGGCCCGAGGACAACCCCGCGCTCGGCCGGCGCGGTCTGCGGCTGTCGCAGGCGCGCGAAGATCTTCTCGACGCCCAACTAAGCGCCCTGGCCGCCGCGCACAAACTCGTGCCGGAGGCGGACCTGTGGGTGATGGCACCGATGGTGACCACGGTGGAGGAAACGCAGTGGTTCGCCGAGAAGACCCGGGCTCACGGACTGCCCCGCGTGGGCGTGATGGTGGAAACCCCGGCGGCCGCTGTGCGCGCCAAACACCTGCTCGCGCTGGTGGATTTCGCCTCCATCGGCACCAACGACCTTTCGCAGTACACCATGGCCGCCGACCGCATGGAAGGTGAGCTCGCGCACCTGTTGAATCCGTGGCAACCGGCCGTCTTGTCCATGGTGCGCGCAACGTGCCGCGGTGGGGAAGCCACCGGCAAGCCCGTCGGGGTGTGCGGTGAGGCGGGCGGTGACCCGCTGCTCGCCCTCGTGTTGGTTGGCCTCGGCGTAACCTCGCTGTCGATGGCCCCGTCGCGGGTGGGCGCGGTGCGCGCCGCGTTGCGCAGCCACGACATCGACACCTGCCGCCAGATGGCGAACTTCGCCGAGGACGCTCCGACCGCGGCCGATGCGCGCGCTGCCGTGCTCGCTCTGGCTGACCCGGTGTTGCGCGACCTGCTCTAG	MTDRSVLHGIGVSAGTASGPAAVVTPPTGVDEAEPPSVDPEADGQRVREVLEQVAASLRERAGLANSETSAAVLEATAALATDRGLIKGVARQLQKGSGPTRAIFDAVEVYAAKLRKLGGYMAERVTDLYDIRDRAIARLRGVAEPGVPALSRPSVLVAHDLAPAETATLDPALVRGIVTAGGGATSHTAILAAQLGIPAAVQVKGIDALLAGEGEVELAIDGGVGEVIVAPTPDDVAELEERSRRRAAALAGSSGEGATRDGHRVKLLANIGTAADAAQTAAADIEGSGLFRTEFLFLDREAAPSVEEQTATYAEVLRSFGTRRVVVRTLDAGADKPLSFADLGPEDNPALGRRGLRLSQAREDLLDAQLSALAAAHKLVPEADLWVMAPMVTTVEETQWFAEKTRAHGLPRVGVMVETPAAAVRAKHLLALVDFASIGTNDLSQYTMAADRMEGELAHLLNPWQPAVLSMVRATCRGGEATGKPVGVCGEAGGDPLLALVLVGLGVTSLSMAPSRVGAVRAALRSHDIDTCRQMANFAEDAPTAADARAAVLALADPVLRDLL	PGPT0002025_2457	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
AK009_07809	840			hypothetical protein	GTGCAGGCCGAGGTAGGCGATTTCATCTTCGGTAAGTGCGCAGTCGAAGCGCAGTTCCACAACGGTGGCGACCTGGCGGGCGCAGGCGACCTCGCGCGGGTAGGCGTCGAGAAGCTGGCGCGTCAACGGCGATTGGCCGTGGTCGAGCTGGCGACCGTGGCTGAGCCTGACCAGAAGGTAGCGCACGTGTGTGATAAAGCGAGCCACGCTTATCGACGCCGTGTTCAACGTGATCGACAGCCCCGCCGCGACGATCTCGAGCATCTGCTGGATCACACCCGTCATTTGGTAGGTCTGGGCCAGATCCCCCGTGGAGAACCCGGCGTTGACGAGGTGCAAAGCCAGGGCTGTGGCCTCGGAGTCCGGCAGTTCGGTCGCCCCCGCCGCGCGCTGGCGCCGGTTGATCTCCGCAAGCAGCTCCACACCCATCTCGTACTCGCGCGGGTACAGGTGCAGCACTTCACTGCGCAGCGGATAGTTGAGCTCCTCGCCCGAGGCGGCGCGGGCGGCGGCGAACTCGAGGTGATCAGAGATCGCGGTGACCAGCGTCAACCGGTTGCGGCTGTCCGCTGGTGCACCGACGGCCTCGAGGGCCACGGCAACCTGGGCGACGCGCTCAGCCGGCAAACCGGCGAGCATCTGCGCCGAATGGTCCGGGTCGCGCCCCTCGGCGGGGACAAACACGCGGGTGACCGCGGCGGGGTCGAGCACATCTCCCTGCTTCTTGCCGAAGCCGATCCCACGGCCGGTGGCAACAACTTCCCCGCCGTGCTCACCGCTGCGGGCGAGCACGACGTTGTTGTTGAACACGCGCAATATCTGCATGCGTTGAAAGTGTAG	MQAEVGDFIFGKCAVEAQFHNGGDLAGAGDLARVGVEKLARQRRLAVVELATVAEPDQKVAHVCDKASHAYRRRVQRDRQPRRDDLEHLLDHTRHLVGLGQIPRGEPGVDEVQSQGCGLGVRQFGRPRRALAPVDLRKQLHTHLVLARVQVQHFTAQRIVELLARGGAGGGELEVIRDRGDQRQPVAAVRWCTDGLEGHGNLGDALSRQTGEHLRRMVRVAPLGGDKHAGDRGGVEHISLLLAEADPTAGGNNFPAVLTAAGEHDVVVEHAQYLHALKV				NA	NA	NA	NA	NA
AK009_07810	1929			hypothetical protein	TTGCTTCTTGTCCACCAGCGGCTCAAAGCCCTCTCCCTTCATCTTGACCGTGTCGATCCCGATGTGGACGAGGATTTCGATGCCGTCGGCCGTCTTGATGCCGTAGGCGTGGCCGGTCTTGGCCACGGAGATCACCGTGCCGGCCACCGGGGAGACAACCGTGCCCTCGCCGGCCTCCGGGATAACCCCGACCGCCTGGCCGAGCGCGCCGGCGGAAAACGCGGGATCAGCAAGCGCCTCCATCGCGACGATTTCTCCGGCTGCGGGGGCGAGGACGCGCGTGGTTGCTGCGGGTTTTTCTGCGGCGGGTTCTTGGGCGGGCTCCTGTGCGGCGGGCGCTGGTTCAGCCGACTGCGCTGCGCCTTCTCGTGCGGCAGCCTTTTCCTCCGCGGTGCGGTAGTCGCTGATATAGATCAGCGCGAAGGAGGTGAAGAAGGCCACGGCGATGGCGATGATGTAAACCCACGCCGGGTTAAACACCGAGATGGTCAGAAGCGAGGTGAACACGAAGGCGTTGGTTTGCACGCCGGCGAACGGCGCGGACAGGATCGCGATGGTGACGCCGCCGACGAAGCAGCCGACGAGCATGCGCGGGTAGATGCGCTTGTAGCGCAGGTGGATGCCGTAGAGCGAGGGCTCCGAGATGCCGCCGAACAGGCCGGCCGCCAGCGCCGAACCGGAGGTCTGGCGCATCACGTTGTCCTTCTCCCGCATGGAGATGGCCAGCACAGCCGCGGTGGCGCCGAAGCAGGCGAAGTTCCACACGCCCATCGGGCCCTGGATGAAGTCGTAGCCCAGCGTCTGGATGTTGACCAGCATCAGCGCGTTGAGCGGCCAGTGCAGGCCGAGCGGGACAAGGAAGGGGTACAGCATTGGGATGGCGATGGCGAAAACGAACGGGGCGTTGGTGTTCAAGAACGCGAGTCCGGTGCCGATCCAGGCGCCGAGGGCGTAACCGAAGGGCCCGATCGCCAGGGCGGTCAGGGGGATCATCACCAGCAGGGTGAAAAACGGCACGAAGACCATGTGGACAGCAGAGGGAATGATCTTCTGCAGGCCCTTGTACACAACTGCTGCGATCGCCGCCATGATCAGCGGCACGAAGACGTTGCCGTTGTAGTCGGGCAGGTACATGGGCAGGCCGAATACATCCACGCGCGTGACCTCGCTGCCCAGCAGGGCGTTCTGGGTTGTCACGGCGTCCGGGTGATCCGCCAAGCCGGTGAAGTTCGGGGTGAACAACGCCAGCATCACGGCCGCCGGGACCCAGGGGTCGATCCCCAGCTTCTTGCCCGCGTTGTAGGCCACCATGACCGGCAGGAAGAAGAACACCGAGCTCCACATCGCGTCGACGAACTGCCAGCCCGGGCTCTTGACCTCGGCGCGGAAATCGACGAGGCCCAGCGCGTCCATCACCGCGGTGAACGCGATGACCAGCGATGCGCCCAACAGCACGCCGAGGATCGGGCGGAAGGAATCGGACAGGTACTCGAAGAACGCGTCGAGCCAGGGCAGCTTTCCCTGCGCCTTCGCGCGCTGCTGCGCCTTGACGGCGGAGTTGGAGCGCTCACGCATTTCTGGCAGGTTGTTCATGGCCGTGTACACGTTGGCGACGTCTCCGCCGACGATGACCTGGTAGTGGGAGCCTCCCTGGGGCACGGCGCCCATGACTTTCGGCACGGCCTCGAGGGCGGCCTTGTTGGCCAGGGAGGCGTCGTTAAGCTCAAAACGCAAACGGGTTGCGCAGTGGGTAAGCGAGGCAATGTTGTCGGCGCCGCCGACGCCGTCGAGGATGTCCTTCGCCTGCGCGCTCAGGCTGGACGTTGTGGTGGACACTGTTCACTTCCTTTCGAAATGCGAAAAGACCCGGAGACAACGCGAAACCGCGACCTCTCCAGGTCTTGCCCCGCCAGTTTCTGCGGCGGGTAA	MLLVHQRLKALSLHLDRVDPDVDEDFDAVGRLDAVGVAGLGHGDHRAGHRGDNRALAGLRDNPDRLAERAGGKRGISKRLHRDDFSGCGGEDARGCCGFFCGGFLGGLLCGGRWFSRLRCAFSCGSLFLRGAVVADIDQREGGEEGHGDGDDVNPRRVKHRDGQKRGEHEGVGLHAGERRGQDRDGDAADEAADEHARVDALVAQVDAVERGLRDAAEQAGRQRRTGGLAHHVVLLPHGDGQHSRGGAEAGEVPHAHRALDEVVAQRLDVDQHQRVERPVQAERDKEGVQHWDGDGENERGVGVQERESGADPGAEGVTEGPDRQGGQGDHHQQGEKRHEDHVDSRGNDLLQALVHNCCDRRHDQRHEDVAVVVGQVHGQAEYIHARDLAAQQGVLGCHGVRVIRQAGEVRGEQRQHHGRRDPGVDPQLLARVVGHHDRQEEEHRAPHRVDELPARALDLGAEIDEAQRVHHRGERDDQRCAQQHAEDRAEGIGQVLEERVEPGQLSLRLRALLRLDGGVGALTHFWQVVHGRVHVGDVSADDDLVVGASLGHGAHDFRHGLEGGLVGQGGVVKLKTQTGCAVGKRGNVVGAADAVEDVLRLRAQAGRCGGHCSLPFEMRKDPETTRNRDLSRSCPASFCGG				NA	NA	NA	NA	NA
AK009_07811	600			hypothetical protein	GTGACATCTCAGCCGACGAATGTCACGGTCAAAGAATACCCAGGCGAAAACCCTAGGTCACCAGCGAAACCCAAAGGTCTCGGCCTAGTCCAGCGGCACTCCCCTGCCGTCGCGGTCGTATCCGCCGGCGCCGACGAGCACCAGGATCGTCTCGATCAGCGCCCAGAAACCAACCGCCGCCAGGATAACGAATCCGATCAGGATGATCGCCGTAATAAAGCCCACGAAGGTGAGTATCAGCTTGGCGATACCCCGCTTGTTCTGGTGCAGGTAGAAGTTACCAAAACCGAAGGATCCGAGGAAGAAAAACAGCAGCGCTGCCACGATCTTGCTCTTCGGGGCCACGGCGTACGGGGTCTGCGCGTAGGGCACCGGAGGGTACGCGCCCGGCTGCACGGGGTACTGCGGCTGCACGGTCACGAAAGGACCCGCCGCTGCGTACGGATCCGCTGCCGCGTATGTTTGCGCGAACGGGTTGGACGGCTGCGCGCCGGCGGAACCCTTCTTGCGGATGGGCAGACCGTCGCGGTCGAATTCCTCATGGTTGGGGCCGGGATAGATGGTGCTCACGAGATTTATCCTTTTGTACGAGTGTTATGA	MTSQPTNVTVKEYPGENPRSPAKPKGLGLVQRHSPAVAVVSAGADEHQDRLDQRPETNRRQDNESDQDDRRNKAHEGEYQLGDTPLVLVQVEVTKTEGSEEEKQQRCHDLALRGHGVRGLRVGHRRVRARLHGVLRLHGHERTRRCVRIRCRVCLRERVGRLRAGGTLLADGQTVAVEFLMVGAGIDGAHEIYPFVRVL				NA	NA	NA	NA	NA
AK009_07812	558			hypothetical protein	GTGCGCGGCAAGGCGCGCCTGGTCGACGAAGCGCTCGCGCTGGATCACCGGGTCGATGAGCTCGGAGTACCCGGTGGCCAGCTCGAAGCCGCGGATGTAGAGGTCCCACTTCTCGGTCACCCCGGGTTGCTCGCGGTGGTCACGGGTCAACGGCGAGGTCTCGACGGGGAAGTTGGTCACAAACGTCGGCTCGTAGAGCTGATCAGAGCACAACTCCTCCCAAATCTCCTCGACGAGCTTGCCGTGCAGCCAGCCCGCGTTGGCAGGCACCTTCAGCCCAATGGCCTCGGCGATCGCGGTCAGCTCCTCGACCGTGGAATCGATGGTCACCTCCGGTTGGCCGGGGAACTTCCGGGCCAACGCCTCGTTGAGCGAAGGGTACATCTGAAGCACCTTCCACTCACCGGAGAAGTCGTAGACGGTGCCGTCGGCAAGCGTGACCTTCTGCGAGCCGAAGACTTCCTCGGCGCAGAACTGCACGAGGCCCTTCGTCATCTTCGCGCCGTCGGCGTAGGTGCCCCACGCCTGGTAGGTCTCCAGCATGGTGAACTCCGGTGA	MRGKARLVDEALALDHRVDELGVPGGQLEAADVEVPLLGHPGLLAVVTGQRRGLDGEVGHKRRLVELIRAQLLPNLLDELAVQPARVGRHLQPNGLGDRGQLLDRGIDGHLRLAGELPGQRLVERRVHLKHLPLTGEVVDGAVGKRDLLRAEDFLGAELHEALRHLRAVGVGAPRLVGLQHGELR				NA	NA	NA	NA	NA
AK009_07813	702			hypothetical protein	GTGCGAGGAATCCACGCCCTCGTTGCGGAAGTTCCGGTTGATCTCGAAGACCCGCTCGATGCCGCCGACGACGCAGCGCTTCAGGTACAGCTCGGGAGCGATGCGCAGGTAGAGGTCTATGTCGAGGGCGTTGGAGCGGGTGACGAAGGGGCGCGCCGCCGCCCCGCCGTGCAGCGTCTGCAGCATCGGAGTCTCGACCTCGACGAAATCCAGGCCGGTGAGGTACTTGCGCACCGCCGCGATGACCTTGATGCGGGTCATCGCGTTGTCGCGCGCCGCGGAGCGCATGATCAGGTCCGTGTAGCGGTGGCGAACGCGCTGCTCCTCGTTCATCTCGGCGAACGCGACCGGCAGCGGGCGCAGCGCCTTCGACGCCATTTGCCACGACGACGCCATCACCGAGAGCTCGCCGCGTTTCGACGCGATCACGCGCCCGGTCACCGACACAATGTCGCCGAGGTCGACGTCGTCCTTCCAGCTAGCCAGCGCATCGGCGCCGACCTCGGCGAGCGAGAGCATGACCTGCAGCTGGGTGCCGTCGCCCTCCTGCAGGGACGCGAAGCACAGCTTACCGGTGTCGCGCTTGAACATGATGCGCCCGGCGACGGAGACCACATCCTGGGTTTCCTCACCCGGGCCCAGGGCAGTCACGCCCTCCGGCGGGGTGTGTTCATCGTCCTCGGCCACGACGACATAAGCTGA	MRGIHALVAEVPVDLEDPLDAADDAALQVQLGSDAQVEVYVEGVGAGDEGARRRPAVQRLQHRSLDLDEIQAGEVLAHRRDDLDAGHRVVARRGAHDQVRVAVANALLLVHLGERDRQRAQRLRRHLPRRRHHRELAAFRRDHAPGHRHNVAEVDVVLPASQRIGADLGEREHDLQLGAVALLQGREAQLTGVALEHDAPGDGDHILGFLTRAQGSHALRRGVFIVLGHDDIS				NA	NA	NA	NA	NA
AK009_07814	792	panC_2	COG0414	Pantothenate synthetase	GTGGCTTTCGAACCAGGCGCGGCCGTGGTGGTGACGGACCCGGTGCAGCTAGCCACCTACGGCAGGGCGTTTCGCAAGGTGGGCAAGTCCGTCGTGGTCGTGCCGCTGGGCGAGGGGATCCACGCCGGGCACGTGCAGCTCATCCGCGCGGCGCGTGCGCTGCTCGGGGCAGTGGTGATGGTGACCTACTCCGGCGAAAAGGTCCCGGAGGTCTTCGCCGCGGAGAAGGTTGACGTGGTGTTTCACGGTTGCCTCGGCGGAGGCGTGTGCGTATCCACCGGCATCGACCACCTCGAGGACGCCGGGGAGATCGGCGCGGCGGTCGGCAACGTCATCGCCGCGGCGGGTGCGACGCACGCGACCGACATCGTGCTGGGGGAGAAGGACTTCGAGCTGCTCGTCGCGCTGCAGCGGGCGGTGACGGCGCTGCGCATGGAGGTCAAGCTGCACAGTGTGCCGATCGTGCGGGCGTCGTCAGGCGTGGCGATGTCGCTGCGCAACGATCGCCTCGCGCAGATAGATTGCGAGAAGGCGCTGGCGCTTTCGGCGGCGCTGACCGCCGGGGCCCACGTCGCCGAGCGCGGCGCGGACGAGGTGCTCGCCACCGCACGCGGGGTGCTCGAGGCGGCCGGTGTTTCGCCCGACTACCTCCAGCTGCGCTCGCTGGGCTTTGGGCCGGCTCCCGCGCAGGGCGACGCCCGCCTGCTCGGCGCGATCACCCTGGGCGGGGTCCGGCTCATTGACAACGTCGGCGTTCCTGTTGGGGTGGGGTTTAAGAACGTCGGGGGATAG	MAFEPGAAVVVTDPVQLATYGRAFRKVGKSVVVVPLGEGIHAGHVQLIRAARALLGAVVMVTYSGEKVPEVFAAEKVDVVFHGCLGGGVCVSTGIDHLEDAGEIGAAVGNVIAAAGATHATDIVLGEKDFELLVALQRAVTALRMEVKLHSVPIVRASSGVAMSLRNDRLAQIDCEKALALSAALTAGAHVAERGADEVLATARGVLEAAGVSPDYLQLRSLGFGPAPAQGDARLLGAITLGGVRLIDNVGVPVGVGFKNVGG	PGPT0008750_4049	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
AK009_07815	1554			hypothetical protein	GTGGCCGAACGCCTCCAACGACTCCACGGCAGAAGACAGGAGGTCGAAGGAGTCGGCACGCAGCACACTTTCGTGCGCCTGGATGCGCAGTGCGGCGGCGGCGCGCATCCGCTGACTGTCCGCGATTGTGTGCGACATCCCGCCGATCTCCGCGATGAGCAGGCCGATCACCGTTTCCCCGAGCTCGTCGGCGGCCGATGTCACCCAATGGTTGGAAAACACGTTGTGCGCCGCCATGACGATCGCCCCGCGCGTCTCGACGGCGTCGAGAAGCTGCGCTCCCTGCGCAAGCGCCGTGTGGATGAACATCTGGCGCGGCCGGACGTAGGCGGCGAACGCGTCGGCGAGTTCCGCGATGCGCACGGTGTCGGACATGTCGAGAAGCACCGCGTCGACATCCGCGACGCTGCCGGGGTTGCGCGCGTCGAGGCCGCGCACCGTGTGGCCCGCGCGAGCGAGCGCGCGCGAGAGTTCCGTTTCCGTGACAACCGCACCAATGGTGAGGCGTGGCGCCATCTATTCAGCGTTCCTTTCGGCCCGCGCCAGAAGCTCCGCCACGGTCAGCGAGCTACGGCCGTGCTCGTCGCGGCGACGGCGGCCCCCGTGTGTCTCTGGCTTCTGTGCGGGCTCGGCAGCAGGCTTCGGTGCGGGTTCGGGTGCCGGTTTGGGAGCTGGCTTGGGCGCCGGCTTGGGCGCCGGTTGCGCTGGTTCTTCGAACTTCTCCGCCTGCCGCTCGCTGATGAGCTTCGACAGGGGATTGTGGGCGTCATTGATCGTCTCGCGGCGCTCGCCGACCCGGCCCGCGACCGCATCGAACGTCGGCGCTCCCGCCGGGCGCGACGGCCCAGGCGCGGGTGTCGTGCGCTTGGCCGCCGGGGCCGATTCACGCACGCGCTGCAGTTTCGCGGTGTCATCGGTCGACGGGCCCGAGGCAGGCTTGGCGGCCACCGACTCAGGCTCGGGCTCAGGCTCCATCGGCTCAGGCTCCGCGACCACCGCCACCGGCTCAGGCTCCGGCGCCACTGGCTCCGGCTCCACCTTCGACGACCCGGCTGCTTCCTCCAGCTCGGCGATGCGCCGGGCCTGGGCGCGCAGCGCGGCGGGCTCGTACTCGAAGTACCTCCCGGACAGTTCTTCGAGTTGCGCGCGCAGCCGGGCGAGCTCGGCCTGAATCTCGCGCAGCACCTCGACATCGATGCTGCTTGCGGTGTCAGAACCGCTGCGCGCGCGCTCGAGCAGTACCCGGTCCGCCTCGCCGCGCGCCTGCGCGGCGTCGAGCTCGGCCTCGAAGCGTTCGGAACGGGCCACCAGTTCGCGCTGCGCCTGATCGCGGTCGCGGCGCAGCCGGGTAACCAGGATGATCCCGGCAACGGCCGCCCACAAAGCGAGGATGAGGGAAACTTTGAGGACGTTCGCCGAGTTGGTGAACAGCATCACCACGGTGCCCACGATGGCGAGTGCGAAGGGCACGACGATCCACAATGTAGCGTTGTCGCGTTTCGTGTTCTCGGCATTCATGGTCATCACCTTAACCAACCGCCTCGCCCTGAGTAG	MAERLQRLHGRRQEVEGVGTQHTFVRLDAQCGGGAHPLTVRDCVRHPADLRDEQADHRFPELVGGRCHPMVGKHVVRRHDDRPARLDGVEKLRSLRKRRVDEHLARPDVGGERVGEFRDAHGVGHVEKHRVDIRDAAGVARVEAAHRVARASERAREFRFRDNRTNGEAWRHLFSVPFGPRQKLRHGQRATAVLVAATAAPVCLWLLCGLGSRLRCGFGCRFGSWLGRRLGRRLRWFFELLRLPLADELRQGIVGVIDRLAALADPARDRIERRRSRRARRPRRGCRALGRRGRFTHALQFRGVIGRRARGRLGGHRLRLGLRLHRLRLRDHRHRLRLRRHWLRLHLRRPGCFLQLGDAPGLGAQRGGLVLEVPPGQFFELRAQPGELGLNLAQHLDIDAACGVRTAARALEQYPVRLAARLRGVELGLEAFGTGHQFALRLIAVAAQPGNQDDPGNGRPQSEDEGNFEDVRRVGEQHHHGAHDGECEGHDDPQCSVVAFRVLGIHGHHLNQPPRPE				NA	NA	NA	NA	NA
AK009_07816	351			hypothetical protein	ATGCCGCTGTGGATCGTCGCCGCCGTGTGCCTGTTTGTGGCCTACATGGTGAAAAAGCGACGCGAGGAAGGCAAGGTGGGCTTGGACCGCTCCCAGCTCAACCCGATGATGGCGGCGAACTTCATGCTGCTGGGCAAAGCCAGCGCCTGGGCCGGAGCCGTGTGCGCCGGGGCGTTCGCGGGCCTGCTCGTCTACATCGCACCGCGCCTCGACCTGCTTGCGGCCGCCCAAGCGGACCTGCCCGGCACGCTGTCCGGAACCCTCGGGGGGCTCGCGCTGGCGGTCGCCGGGGTCGTGTTGGAGCGCGCCTGTGAGGTGTCGCCACCTACTCAGGGCGAGGCGGTTGGTTAA	MPLWIVAAVCLFVAYMVKKRREEGKVGLDRSQLNPMMAANFMLLGKASAWAGAVCAGAFAGLLVYIAPRLDLLAAAQADLPGTLSGTLGGLALAVAGVVLERACEVSPPTQGEAVG				NA	NA	NA	NA	NA
AK009_07817	408	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	TTGGCGAGCGTCGTCGACGAGTTCGCCGCCGAGCTCGTCGCCGCGTCCTCCCTCTACGCCACCGCGCCGTGGGGCGGGGTTGAGCAGGACGACTTCCTCAACCAGGTGCTCATCGTCGACGTCGAGCAGAGTCCCCGCGAGCTGCTGCGACGCTGCCAGAGCCTCGAGCAGCGCGCGCGCCGCGTCCGTAAGAAGCGCTGGGGCCCGCGCACGTTGGATGTGGATATCGTGCTTATCGACGGCTTCTTCTCACGTGATCCCGAGCTCACCGTGCCCCACCCCCGCGCCCACGAACGCGCCTTCGTGCTCGTGCCCTGGCTAGAGATCGACCCGGATGCCCATCTTGGGGACCGAAGCGTTGCGGGGATCGTCGATATGCTGGGTGCGGAAGGGGTGAGAAAGCTGTGA	MASVVDEFAAELVAASSLYATAPWGGVEQDDFLNQVLIVDVEQSPRELLRRCQSLEQRARRVRKKRWGPRTLDVDIVLIDGFFSRDPELTVPHPRAHERAFVLVPWLEIDPDAHLGDRSVAGIVDMLGAEGVRKL	PGPT0007910_4239	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
AK009_07818	378			hypothetical protein	GTGCGCGCGGGAATCCTCCATGTTGGAGCCGGTCGAGAGCACAGCGCGCATGGCTTAGGCCTTGAGGTTCTTCCGGGAGCGGCGCGCGACGACGGCGACGTCGTCGAAAAGCAGCGGGATCGGCGCGTGCGGCTTGTGTACCGTGACCTCGACCGCGTGCAGGGCCTCGAACAAGCGCAGCGCGGCGTCGGCGATCTCGGAGGCGACGGTTTCCACCAGCTGGCGCGGGGCACCTGCGGCGATGTCGTGCGCGAGCTGCGCCAACTCGGCGTAGTTGACGGTGAGGTTCAGATCATCTCCCGCCGCGGCGTCGGCGAAGTCGAGCCAGCACACAATGTCCAAGCTAAACCCCTGCCCAAACTGCGTCTCGTGGTCTAA	MRAGILHVGAGREHSAHGLGLEVLPGAARDDGDVVEKQRDRRVRLVYRDLDRVQGLEQAQRGVGDLGGDGFHQLARGTCGDVVRELRQLGVVDGEVQIISRRGVGEVEPAHNVQAKPLPKLRLVV				NA	NA	NA	NA	NA
AK009_07819	897			hypothetical protein	ATGCGGTCAGCCACGGGAAGCCCCGTTCCAGGCGGCGGCGACGTCGACGGCGTCGCGCGAGGCGGCAACCTCGTGCACGCGCACGCACCACGCGCCCATCTGCGCGGCAATCGCGGTCACGGCGGCGGTCGCCGGATCGGCGTCCTCGGGGCCGTGCTCAAGGCCGCGCTCGGCGCGGATCGCGGTGAGGAAGCGCTTGCGCGACGCCCCGACCAGCACCGGGTAGGGCCCCGCGATGAACTCCGGAAGCGTTGCGAGCAGGCGCCAGTTCTCCTCTGCGGTCTTGGCGAAGCCCAGGCCGGGGTCGACGACAATCTGGTCGCGCTTGACGCCGGCGGCGAGCGCACTGTCGATGCACTGGTTGAGCAGCGCGTGCACGTCGCCTGTGACGTCGCCGCCGTGGTCGGAGGCACCCGCTGCGTCGCCGAAGACGTCGGTGCGCCAGTGCATCAGGCAGACGGGCAGACTCGCCTCCGCCATCACGTGGTACATCTCCGGGTCGGCGAGGCCGGCGGAGACGTCGTTGATCATGTCCACCCCGGCGGCCGCGGCGACGCGCGCCGTCGAGGCGCGCATCGTGTCCACGGAGGTGCGAATCCCCTCGGCGTGCAGGTGCTCGATGACGGGGCGCACGCGCTCGGCTTCTACCTCGGCCGGCACCCGGAGCGCGCCGGGGCGCGTCGACTCCGCCCCGACATCGATGATGTCCGCACCGCGGGCGACGAGCGTGCGGGCGTGATCCAGCGCGCTGTCGAGGTCGAGCCAGCGCCCGCCGTCGGAAAAGGAGTCGGACGTGACGTTCACAATGCCCATCACGAGTGCACGGCCGGGCACCGTCAGCTCCTGCACGGTGGTCATGAGCTACCTCCTGATCAAACTGAGCACCTCGGCGCGTGA	MRSATGSPVPGGGDVDGVARGGNLVHAHAPRAHLRGNRGHGGGRRIGVLGAVLKAALGADRGEEALARRPDQHRVGPRDELRKRCEQAPVLLCGLGEAQAGVDDNLVALDAGGERTVDALVEQRVHVACDVAAVVGGTRCVAEDVGAPVHQADGQTRLRHHVVHLRVGEAGGDVVDHVHPGGRGDARRRGAHRVHGGANPLGVQVLDDGAHALGFYLGRHPERAGARRLRPDIDDVRTAGDERAGVIQRAVEVEPAPAVGKGVGRDVHNAHHECTAGHRQLLHGGHELPPDQTEHLGA				NA	NA	NA	NA	NA
AK009_07820	477			hypothetical protein	GTGTTGGAAGCCGCCGCGCACCGCGGAGGTCGTGGTAACCGCGCCCGGTTTGCGGATGCCGCGCATGGCCATGCACAGGTGCTCGCACTCGATGACGACGATGACAGCCTGCGCGTCGAGCTTATCCACCAGCGCGTCGGCGATCTGTCCGGTGAGGCGTTCCTGAACCTGCGGGCGCTTGGCGTAGAGGTCCGCCAGGCGCGCCAGCTTCGACAGCCCGGTGACCTTGCCGTCCGGGCCGGGGATGTAGCCGATGTGGGCCGTGCCGAAGAAGGGCACGAGGTGGTGTTCGCACGTGGAGTAGATCGGGATGTCGCGCACCAGGACGAGCTCCTGGTGGTTTTCCGCGAACGTCTTTTCCAGCACGTCGGTCGGCTCCGAGTGCAGGCCCGCGAAGACCTCCTCGTAGGCGCGGGCCACGCGCGCCGGGGTTTCGGCCAGGCCCTCGCGGTCGGGGTCCTCGCCGACGGCGATTAA	MLEAAAHRGGRGNRARFADAAHGHAQVLALDDDDDSLRVELIHQRVGDLSGEAFLNLRALGVEVRQARQLRQPGDLAVRAGDVADVGRAEEGHEVVFARGVDRDVAHQDELLVVFRERLFQHVGRLRVQAREDLLVGAGHARRGFGQALAVGVLADGD				NA	NA	NA	NA	NA
AK009_07821	1914			hypothetical protein	GTGGCGCGCAGACTCCGTCGTCTTTTCCGTGTCGGTCCACGGGTGATCCGGCTGCTCGTTGTCCGGCAGCTTGAAACCGATCGGGGTGTCCGGCTGCGCGTAGTTCCGCATACCCGGGTGCTCGTTGGTCACCGTGGGCTGTGGTTCAGGCTGGGCCTGCGGCTCAGGCTGTGCGTGGCGGCCCGCACCCGGGTAGGTCCAGTTCGGCGGCGGTGTCGGCCCGCCGTAGCGCGGCTGCTCCACCACACGCTTGTCGCCCGGTCGCCACTTCGTCGAGCCGGTTTTATCGTCCTTCTTCTCCGCCTCGCGCTCGGCCATGCGGCGCTTGCGCGCGTTGCGCGACATCTCCAGCAGGGAGACCTTCTCCGGCGGCTCCTCGCCGCGCTCCTTGGCCAGCTCCACCGGGGTTTTCACCGGCTCACGGCCGGCCTGGGCGACAAAGCGCTCGTCGACAACCGGCAGGCCCGATTCGCGCGGCTCGATGCCGTCGAAAATCGCCTCCAAGTCCGGGCGGCGCAGCGTTTCCTTCTCCAACAACTTCGTCGCCAGGGTATCGAGGTAGTCGCGGTTGTCGGCGAGGATGGAGTAGGCGCGCTGGTGGGCGACGTCGATAAGCTCGTGCACCTCGCGGTCGATGGTCTCCGCGACCGCGGGCGAGTACTCGGCCTTGTTGCCCGCACCGTACATGGAAAAAGGATCGCCCTGCTCGGTTCCGTACTTGACGGCGCCGAGCACGCTGGACATGCCGTACTCAGTGACCATTGCGCGGGCGATCCTTGTCGCCTGCTCAATGTCCGAGCTCGCACCCGTGGTGGGCTCGCCGAAGACGAGCTCCTCGGCGGCGCGGCCGCCCATGGCGAAGACAAGGCGTGCGAACAGCTCGTCGCGGTTGTACATGCCCTTGTCGTCTTCCTGCGCGGTCATAGCGTGCCCGCCAGTGCGGCCGCGCGCGAGGATGGTGACCTTGTAGACCCGCTCGATGTCTTTGAGCGCCCACGCGCTGAGCGTGTGCCCGCCCTCGTGGTAGGCGGTGACTTTCTTTTCCTTCTCGGAGATGATCTTCGAGCTGCGCCGCGGCCCGCCGATCACGCGGTCGGTCGCCTCCTCAAGCGCGTCGGCGGTGATTACGTTGCCGCCGATGCGCGCGGTGAGAAGCGCCGCCTCGTTGAGCACGTTGGCCAGATCCGCGCCGCTCATGCCGGCGGTGCGCTTAGCCAGCGCGTCCAGGTCAGCGTCGGGGCCGAGCGGCTTGTCCTTGGCGTGGACCTTGAGAATCTGCTGGCGCCCGGCCAGGTCCGGGTTGGTCACCGGGATCTGGCGGTCGAAACGTCCCGGGCGCAACAGCGCTGGGTCGAGGATGTCGGGGCGGTTCGTCGCCGCGATGAGGATAATGCCCTCGCGGGGGCCGAAACCGTCCATCTCCACGAGCAGCTGGTTGAGCGTCTGCTCGCGCTCGTCGTGGCCGCCGCCGGTGCCAGAGCCGCGCTGGCGGCCAACGGCGTCGATCTCGTCGACGAAGATGATGCACGGGGCGTTCTCGCGGGCTTGCTTAAACAGGTCGCGCACGCGCGAGGCGCCGACACCGACGAACATTTCCACGAAGTCGGAACCCGAGATGGAGTAAAACGGCACCCCGGCCTCGCCGGCCACGGCGCGGGCGAGCAAGGTCTTACCGGTGCCGGGAGGGCCGTAGAGCAGCACGCCGCGCGGGATCTTCGCGCCGAGCTGCTCGTAAATCTCCGCGTCCTGCAAAAAGTCCACGACCTCTTGAAGCTCGTCGACCGCCTCGTCGGCGCCGGCGACGTCGGCGAACGTGTTCGTCGGGTTGTCCTTGGTCAGCTGCTTTGCCCGCGAGCCGCCGATGCCGAACATGCCGCCACCGGCCTGCATGCGGTACATCAGGTAGAACAGTAA	MARRLRRLFRVGPRVIRLLVVRQLETDRGVRLRVVPHTRVLVGHRGLWFRLGLRLRLCVAARTRVGPVRRRCRPAVARLLHHTLVARSPLRRAGFIVLLLRLALGHAALARVARHLQQGDLLRRLLAALLGQLHRGFHRLTAGLGDKALVDNRQARFARLDAVENRLQVRAAQRFLLQQLRRQGIEVVAVVGEDGVGALVGDVDKLVHLAVDGLRDRGRVLGLVARTVHGKRIALLGSVLDGAEHAGHAVLSDHCAGDPCRLLNVRARTRGGLAEDELLGGAAAHGEDKACEQLVAVVHALVVFLRGHSVPASAAAREDGDLVDPLDVFERPRAERVPALVVGGDFLFLLGDDLRAAPRPADHAVGRLLKRVGGDYVAADARGEKRRLVEHVGQIRAAHAGGALSQRVQVSVGAERLVLGVDLENLLAPGQVRVGHRDLAVETSRAQQRWVEDVGAVRRRDEDNALAGAETVHLHEQLVERLLALVVAAAGARAALAANGVDLVDEDDARGVLAGLLKQVAHARGADTDEHFHEVGTRDGVKRHPGLAGHGAGEQGLTGAGRAVEQHAARDLRAELLVNLRVLQKVHDLLKLVDRLVGAGDVGERVRRVVLGQLLCPRAADAEHAATGLHAVHQVEQ				NA	NA	NA	NA	NA
AK009_07822	654	hpt_2	COG0634	Hypoxanthine-guanine phosphoribosyltransferase	ATGACTGAGATGCACGATACCTTGGACGCTAACGTCCCGGCACATCCCTACGGTGATGATGTTGAATCGATCCTCATCTCCGAGGATCAGCTGGGCGCCCGCGTGCAGGAGCTGGCCGACTTGGTCTCAGAGAAGTACCGCGACGCCGACGACGACCTGATCCTGGTGTGCGTGCTCAAGGGCGCGGTGTTCTTCCTCACCGACTTCGCGCGGCGGCTCTCCATTCCGTGCCAGCTGGAGTTCATGGCGGTGTCGTCCTACGGCTCGTCGACAACCAGCTCGGGCGTGGTGCGCATCCTCAAAGACTTGGACAAGGACATTGCCGGGCGCGACGTGCTCATCGTCGAGGACATCATCGACTCCGGCTTGACGCTGTCCTGGCTGATGAAGAACCTCAATGGCCGCGGCCCGAAGTCGTTGAACGTGATCACTTTGCTGCGTAAGCCTGAGGTGCAGACTGCCAAGGTGGACTTGCTCGATATCGGTTTCGATATCCCGAACGAGTTCGTCGTCGGCTACGGCCTAGACTATGCGGAACGCTACCGCGACCTGCCGTTCGTGGGCACGTTGCACCCGCGCGTTTATTCGGACGTCGACAATGGTGAGCAGCCCACCCCGGGGCGTGCCACCGGGCCCGAATCCGTCGAAATCTAA	MTEMHDTLDANVPAHPYGDDVESILISEDQLGARVQELADLVSEKYRDADDDLILVCVLKGAVFFLTDFARRLSIPCQLEFMAVSSYGSSTTSSGVVRILKDLDKDIAGRDVLIVEDIIDSGLTLSWLMKNLNGRGPKSLNVITLLRKPEVQTAKVDLLDIGFDIPNEFVVGYGLDYAERYRDLPFVGTLHPRVYSDVDNGEQPTPGRATGPESVEI	PGPT0007295_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
AK009_07823	903	tilS_1	COG0037	tRNA(Ile)-lysidine synthase	GTGGAGCCGTTCTGGCCGCGCTACTCCCCGCACTTCCTCGCTTGTCGACGCTCCCTGCGTGCCCTGCATGACCCAGCGGTAATCGGGTTGTCCGGGGGCGCGGACTCCCTCGCCCTCGTCGCCGCGGCCGCGGCCGAGGACAAGGATGTGCGCGCGGTGATCGTCGACCACCAGCTCCAGGAAGGGTCCGACCAGGTGGCGCGGTGTGCCGCGGAGCAGGCCGGCGCCTGGGGAGTGGAGGCGTCGGTCATTGCGGTCAACGTTGGCGGGGACAACCTGGAGGCGGCCGCACGCGAGGCGCGCTACGCCGCACTGCTGTCCTTCGGCGTCGACGTCTGGGTCGCGCACACCGCCGACGACCAGGCCGAAACGCTTCTGCTCGGCGCGCTGCGAGGCAACCCCTCGGGCATGGCCGCGCGCGGGGGAATCGACAACAGAATCCTGCGCCCGTTTCTAGGAATCCGCCGCGCCAACACCCGCGGCGCCTGCGCAGAGCTGGGGGTCACCCCGTGGGAGGATCCGATGAACGTCGACGAAAACTACCGCCGGGTCGCCGTGCGCCGCCGGGTGATCCCGCAGCTCGACGAACTCATCGGCGGCGACTGCGTTCCGGCGCTCGCCGCGACTGCCGGGCGCATCGCGGCGGATAGGGAACTGATTGAGGAACTGTGCGATACATCAGCCACATCCGACTGCGTCGAACTGGCCAAAGATCCCGCCCCACTGCGCCGCCGCCGGATCGTTGCCTGGCTCCACGATTCAGGCGTGCGTGTCGACGGCGCGCAACTGCGCTCCATCGAGCGGCTCATCGCCGACTGGCACGGGCAGGCGGGCATTGACGTCGGCGGGAGTCGACGTGTGCGCCGGGTTGCCGGCAGGCTGGTGCTAGACGAACTTCGGTGA	MEPFWPRYSPHFLACRRSLRALHDPAVIGLSGGADSLALVAAAAAEDKDVRAVIVDHQLQEGSDQVARCAAEQAGAWGVEASVIAVNVGGDNLEAAAREARYAALLSFGVDVWVAHTADDQAETLLLGALRGNPSGMAARGGIDNRILRPFLGIRRANTRGACAELGVTPWEDPMNVDENYRRVAVRRRVIPQLDELIGGDCVPALAATAGRIAADRELIEELCDTSATSDCVELAKDPAPLRRRRIVAWLHDSGVRVDGAQLRSIERLIADWHGQAGIDVGGSRRVRRVAGRLVLDELR				NA	NA	NA	NA	NA
AK009_07824	903			hypothetical protein	GTGCTCGGCGAGCACGTCGAGGGTGGCCTGGGGCGCGGTGGAACCGCGGTGGATCGCCACCTCGCGGCCAATGGCCTCGGCCATGACGTTGTCGGAGTCCTTCATCATCGCGCGCAGGCGCGCGACCAGGTCCGGCGAGGTTGTCGTTGCCACGACCTCCGCCCCCGCCGGCGCGGTGCCCGGCCCGACGGTGGCGGCGCCAACGCTATCGGCCAGCGCCTGGGCGACATCGATCGCCGGGGTGTGGGAGCGCGGCACGTCGCCCGATTCGGCACCAAACCCGCGGCCGCCGTTGAGCATCGCAGGCTCAAGCGGGGCGATGAAGCCGGCGTCGATGTCCACCGGGTTCCACCCGGGCAGCATCGTTTCGCCCGTCCACAGGGAGGTGTCGATGAGCACCGTGTCGGCGGAGCCGATCTGCTCGGCGAGCGAGTCGATGCTTTCCTGGTTCATCCACACGTCACCCGCGGCCTTGATCACCACCTCCCCGGGGTTCAACCCACGCACGACCTCGGTGGTGATCGTGTCAGTCGCGCCGAGCTCGACGATCGCGGCCGAGCCGGTGAGCAGCTTCGTGCTGGAGGCAGGCCGCAGCGCGTCGTTCGGCGCGGACTCGAATACGGTTTCACCCGTGGCGGCGTCGGTAATGCGGGCGTGGAACGTGCCCAACGCTTCATCGGCCGCGAGCGCGGCGACCTCCGCTGCCCGCGCCGCAGTATCGACTGGCTGCGGTGTTGCGGGCTCCAGCACCGGCGTCGCCACTGGAAGCGCGTAGGCCGGCGCGACGGTGAGCTCGGCGAGTTCGCGCTGGGCCACCACACCGAAACCGGCGACGCCGCCCACAGCGGCGAGCGCCACCGCCGCCATTACCGAAGTCCACACTTTCATCGGCGCTTACTCTAA	MLGEHVEGGLGRGGTAVDRHLAANGLGHDVVGVLHHRAQARDQVRRGCRCHDLRPRRRGARPDGGGANAIGQRLGDIDRRGVGARHVARFGTKPAAAVEHRRLKRGDEAGVDVHRVPPGQHRFARPQGGVDEHRVGGADLLGERVDAFLVHPHVTRGLDHHLPGVQPTHDLGGDRVSRAELDDRGRAGEQLRAGGRPQRVVRRGLEYGFTRGGVGNAGVERAQRFIGRERGDLRCPRRSIDWLRCCGLQHRRRHWKRVGRRDGELGEFALGHHTETGDAAHSGERHRRHYRSPHFHRRLL				NA	NA	NA	NA	NA
AK009_07825	435			hypothetical protein	GTGCATGAAGAAGTGCTCGATCTCGTCCTTGGTGAAGTCGTCGATGTCGTCGATGTCCTGAAAGGACTCGTAGCGGACGTCGTCAAGCACGCAGAGCAGCTTGTCGTCGCCGCCGGCCTCGTCGGTCATCTTGAACACACCGACCGGGCGAGCGATCACGGTCACGCCGGGGAAGACGGGTTCAGGGGTGATCACCAGGGCATCGAGCGGGTCGCCGTCGTCACCCAGGGTGTGGTCGATAAAGCCGTAGTCCGCCGGGTACGCCATCGGGGTGAACAGGTAGCGGTCCAGGAAGATCTTGCCGGACTCGTGGTCCACCTCGTACTTGTTGCGGGAACCCTTCGGGATCTCGATGATGACCTCAATAGCCATGAAAACTCCTTTGTGCGCATGTGCGGGATATCAACGTGGCTCATCATACGTGCATTAGAGTAA	MHEEVLDLVLGEVVDVVDVLKGLVADVVKHAEQLVVAAGLVGHLEHTDRASDHGHAGEDGFRGDHQGIERVAVVTQGVVDKAVVRRVRHRGEQVAVQEDLAGLVVHLVLVAGTLRDLDDDLNSHENSFVRMCGISTWLIIRALE				NA	NA	NA	NA	NA
AK009_07826	750			hypothetical protein	TTGGGTGGTGGCCACAGGCTCGGCGGTTGCCGCTGCCGGTGCGTCCTCAGCGATCTCGGCGGCCTCGGCCGGGGCACCCTCGGCGGCGTAATCCACCGGCTCGCCTGCGGCACGGGCAGCCTCAATCGCCTGGCGCGCGACCTCTGCGCCGTTGTGCGCCAGCAGCTCCTGCGACGCGGTGGCCTCTTCCTCGCTCGGGGCCGCGGACACTCGCTCCACGTCACTGACGTAGGTCTTGCCGTCGGCATTGAGGTAGTAGGTCTTGTCCGCGATGGAAAGTACCGGCGGCAGGGCCAGCAGGCCCGCTGCGATCGGGTCCTCGGAGGCGGGGTCGACGTGCTCGGGGCCGAAGACCTCTTCGTTCTGCACCTCGTGGGTGACGTCGTCGGCGATCTCGGCCGCCGATTCGGTCGGCGCGTCCGCGTTCGACGGGGCAATGGCCTCTCCGGTGTCGATCAGTCCGGCAACCGCGGCGCGGGAGACCTCGACGGACTTTTCGCGGTCTTCGGAGGTCAGGGCGGTAAACGCGATGTCGGCGAGCTCGCGCTCGGGCAGGTAATGGGTGCCCTCGTTGTTGAGGAAGTACTCGTTGCCCCGCGCGTCCGAGGTCACGCTCGGGTAGTCCTCGGCGTGGGCTGCGGGAACGGTGGCGATGGCAAGGGCACCGGTGAGAGTGGCGGCGATGAGGGTCGTACGGTTGCGCTTCATAAGGGTGTCACTCCAGGGTTCAAGTCTCAATTGCAACTTTAG	MGGGHRLGGCRCRCVLSDLGGLGRGTLGGVIHRLACGTGSLNRLARDLCAVVRQQLLRRGGLFLARGRGHSLHVTDVGLAVGIEVVGLVRDGKYRRQGQQARCDRVLGGGVDVLGAEDLFVLHLVGDVVGDLGRRFGRRVRVRRGNGLSGVDQSGNRGAGDLDGLFAVFGGQGGKRDVGELALGQVMGALVVEEVLVAPRVRGHARVVLGVGCGNGGDGKGTGESGGDEGRTVALHKGVTPGFKSQLQL				NA	NA	NA	NA	NA
AK009_07827	558			hypothetical protein	GTGCAGGTCTGTGGCCACGTACTTCAACCAGTTCTCGCCGGATGTTTCGGTGCGCACGTACAGCGCGTCGCCTTCTGCCACGGTGTGGGCACCGGCGCGGGCGTCGTAAAGCTGATCGAAGACGCCCGGCAGCCCCGCGCCCGTGTGCCCGGCAATGACCACCACATCCCCCGCGTCCGGCCCGGGCAGCTCGTACGGCCGATCCGGCGCCGTGTAAGCGCAGGCCAGGCCCATCGTCGCGGGGTTGATCGCGCCGTCTTTGACACGGCAGTCAGCCGGCTCGAACTCCGCGCTCAAGCTTATCGACGGCACCACCAACGCCACCGGCCGACTTTGCTCGATCTCCTGCGGAACATCAGCAGGCACGGGCTGTTCAGCAGGCGCGGGCTCCGAGACCGCGCATTGGCGCGCCACGGCGAAAACGAGGATGATCACCAGCCCGAGCAGCACCAGCGCGGCGACGCGGCGGCGCACGTAAATCTCCCGGGGCAGCGCGCGGCGCGGCGCGGGCGCGACCGCCGGTGGTCTGCGCGGGTGGTATTGCTCGGGCACGGTTAA	MQVCGHVLQPVLAGCFGAHVQRVAFCHGVGTGAGVVKLIEDARQPRARVPGNDHHIPRVRPGQLVRPIRRRVSAGQAHRRGVDRAVFDTAVSRLELRAQAYRRHHQRHRPTLLDLLRNISRHGLFSRRGLRDRALARHGENEDDHQPEQHQRGDAAAHVNLPGQRAARRGRDRRWSARVVLLGHG				NA	NA	NA	NA	NA
AK009_07828	369			hypothetical protein	TTGTGGTGGAGCCAAAAAGTTGGCCCGCCCAATAACTTAGCCGCGCTGGTGTGGCAGATCGGCCTCGACCCAGGCGGTGGTGCCGCCCTCGACGTTGACCACGTTGTCCAGCCCGCGCGCCTGCTCCAAGTATTCGGCGGCCTGGGCGGAGCGCCCGCCCGACTTGCAGATGACGTAGATGTCCTCGTCGGTGTTGATCTTTCCGGCCTGGGCGGCGAAGTCGCTCAGCGGCAGGTTGACAGCGCCTTCGGCGCGGACCTCGGTGAACTCGTCGGGCTCGCGGACGTCGATAAGCTGTGCGCCGGCGGGAACTTCGGTTACTTTGACTGTCTTCATGCGTGTCAGTCTACGCGTCCGATAGCGTGTTAA	MWWSQKVGPPNNLAALVWQIGLDPGGGAALDVDHVVQPARLLQVFGGLGGAPARLADDVDVLVGVDLSGLGGEVAQRQVDSAFGADLGELVGLADVDKLCAGGNFGYFDCLHACQSTRPIAC				NA	NA	NA	NA	NA
AK009_07829	570			hypothetical protein	GTGCGTGGGGCGGGGGCAAGCTGGGCGCGCAGTAGCGAACTCAAGCGGGCCCCCTTACTTGGACACGGTCGCCGGGTCGGTCTCCTGCAGAATTGCCTTGGACAGCTTCTTCAGGCTCTTGAGCTGCTTGGTGGTGGAGACATCCAGGGCGCGGTCCTCTGCGGCTGCGACTTCGCTGGCGAGCAGGGCCTGCGCCTTGGACCCCTTTTTGGTGGGTGTGACTATCTGGCGGCGGCGATCCTTAGGGTCGCGCTCGCGGGTGACCCAGCCGTGGGTTTCCAAGGAATCGATCAGCCGCACCATGTCGGAAGCATCGATGGCGAGCAGCTCCGCGAGCTGGGTCTGCGAAACGGACTGCTCGGTGACACAGGTGAGAATCCAAAACTCGCGCATGGTCGCGCCTTGGTTGTTCAGCGCCCGCTCGACCTCGTCCTTGGTGTGTCGGCGCACACGTTCGATCTGAAACGAGGGGGACTTAATAAGGGCGCTGGGAAGTTCGATCTGAAGCATGTGACCAGAATAGGTCTACCTTGTGGTGGAGCCAAAAAGTTGGCCCGCCCAATAACTTAG	MRGAGASWARSSELKRAPLLGHGRRVGLLQNCLGQLLQALELLGGGDIQGAVLCGCDFAGEQGLRLGPLFGGCDYLAAAILRVALAGDPAVGFQGIDQPHHVGSIDGEQLRELGLRNGLLGDTGENPKLAHGRALVVQRPLDLVLGVSAHTFDLKRGGLNKGAGKFDLKHVTRIGLPCGGAKKLARPIT				NA	NA	NA	NA	NA
AK009_07830	1755			hypothetical protein	GTGCAGTGTCATCACCGGGACCTGGATCAGAGTCTGCGCCACCCGCGTGCCGCGCCCGACCGGGGCGACATCGCGCGTGACCACTTCTGCGGCAACGCCGTGGGCGTCGATGACACCCGCGAGGGCTTCGAGGCGGGGGTGGTCGTAGAGATCGCGCACGGCGATCGTCGGCACTCGCTCACGCAGGCGCGCCACCAGCGAAGCCGCCGCGAGCGAGGAGCCGCCGAGCTCGAAAAAGTCCGCGTCGCGCGACTCGGCCGGCAGACCGAGGACGTCGAGCCACACCTCGGCGAGCCACGACTCCGTCGGCGTCATCCCGGCGACCTCCACGGAGGCGGGCAGCGGCCAGGGCAGGGCCTTCTTATCGACCTTGCCGGAGGTACGAATCGGCAGCTCCTCCATGACGTGCAGGCGGGGCACGAGCGCGGCGGGCATGACCTCGGCGAGGCGCTCGCGCAACTCGGCGACGTCGAGGTCCGTGCCCGCCTCGGGGGAGAGGTAGCCGACGAGCACCGTGTCGCCGGCGCCGGTGGTCTGAACCGCCACGGCGGAGTTGTACACCCCGGGCAGCGCGGCGACGTTGGCCTCGACCTCGCCGAGCTCGATGCGGCGCCCGCCGATCTTGACCTGGTCGTCGGCGCGGCCGATAAAGGCCAGACCGTCGTCGGTGAGGCGGACGTTGTCGCCGGTGCGGTAGGCGCGATCCCAGTCGAGGCCGGGCACGGGGGCGTACTTCTCGGCGTCCTTTGCCGGGTCGAGGTAGCGCGCCAGGCCGACCCCGCCGATGATCAGCTCCCCGTCGTCGGCGACGTGGAGGTCCCAGCCGTCGAGCGCGAAGCCGATGGTCACGTCCTTGCCGGGTTCCAGGCGCGCGGCGGAGGCGACGACGGTGGCCTCGGTGGGGCCGTAGGTGTTCCACATCTCGCGGTCCGGGGTGGCCAGGCGCTCGACGAGTTCTTGCGAGCATGCCTCGCCGCCGACGATGAGCAGGCGCACGTTGTCGAGGGCTTCGGCGGGCCAGAGCCCGGCGAGCGTGGGCACGGTGGAGACGACGGTGATGTCGCGGCGGATCAGCCAGGGGCCCAAGTCCTGGCCGGAGCGCACGAGCGAGCGCGGCGCCGGCACGAGGCAGGCGCCGTGGCCCCAGGCCAGCCACATCTCCTCGCACGAGGCGTCGAAGGCCACCGAGAGCCCGGCGAGCACCCTATCGTCGGGGCCGAGCGGGGCGTCCTGGCAGAACAGTCTCGCCTCGGCGTCGACGAACGCCGCGGCCGAGCGGTGGGTCACCGCCACTCCCTTCGGCGTGCCGGTGGAGCCGGAGGTGAAGATGATCCAGCAGTCGTCGTCAAGGTGTGGCAGGTCGGTATCGCCCGGGCGCGCCGGGGCGAGGACGCGGAAGCCTTCGTCGCTGAACAGCCCGCTGATGCCCGCCTCTCCGAAGACCAGTTCGGCGCGCTCCTCGGGGTCGTCGGCGTCGACCGGCACGTAGGCGCAGCCCGCCCACATGGTGGCCAAGATGGCGATGTAGAGCTGTCTGCTTCCCGACGCCATCCGCACGCCAATCCGATCCCCGCGGCGGATCCCGTTGCGGTGCAGCTCCGCAGCCAGGTCGCTGACCTGGTCAATGAGCTCGGCATAGGTCAGCACGTCGCCGGAGCCGTCGTCGATGGCGGCGGCGTCCGGGTGGGTTTCGGCGGTGGCGGTGAGGACGTCGATAAGCGTGCGTGGGGCGGGGGCAAGCTGGGCGCGCAGTAG	MQCHHRDLDQSLRHPRAAPDRGDIARDHFCGNAVGVDDTREGFEAGVVVEIAHGDRRHSLTQARHQRSRRERGAAELEKVRVARLGRQTEDVEPHLGEPRLRRRHPGDLHGGGQRPGQGLLIDLAGGTNRQLLHDVQAGHERGGHDLGEALAQLGDVEVRARLGGEVADEHRVAGAGGLNRHGGVVHPGQRGDVGLDLAELDAAPADLDLVVGAADKGQTVVGEADVVAGAVGAIPVEAGHGGVLLGVLCRVEVARQADPADDQLPVVGDVEVPAVEREADGHVLAGFQARGGGDDGGLGGAVGVPHLAVRGGQALDEFLRACLAADDEQAHVVEGFGGPEPGERGHGGDDGDVAADQPGAQVLAGAHERARRRHEAGAVAPGQPHLLARGVEGHREPGEHPIVGAERGVLAEQSRLGVDERRGRAVGHRHSLRRAGGAGGEDDPAVVVKVWQVGIARARRGEDAEAFVAEQPADARLSEDQFGALLGVVGVDRHVGAARPHGGQDGDVELSASRRHPHANPIPAADPVAVQLRSQVADLVNELGIGQHVAGAVVDGGGVRVGFGGGGEDVDKRAWGGGKLGAQ				NA	NA	NA	NA	NA
AK009_07831	165			hypothetical protein	GTGCAGGTCCACGCCGCGCCCGACCTGCGCCCCGAGCAGCCGCGCGAAGTACGCCACCCACGTCGAGCCCGAAATATTCAGCGCACCGGTCGCCGCGACCCAGCGCTCGGCCGCCCACAGGCGCACGTGAACCCGCCCACCGCGCGGGTAGTTGCCGGGTTGTAG	MQVHAAPDLRPEQPREVRHPRRARNIQRTGRRDPALGRPQAHVNPPTARVVAGL				NA	NA	NA	NA	NA
AK009_07832	813			hypothetical protein	GTGTGCGGCGAGCGTCGCGCCGTCGCCGACGGTGACCGTGTCCAGAGACATCACGCGGTCCTGGAACAGGTGGGTTTGCACCACCGTGCCGGGTCCCACGGTCGCGCCCGCGCCCACGACGCACAGATCTGTTTCGGGGAACCAGTAGGAGTCGATCCACGCCCCGCGCCCGACCTTCACTCCGAGGATGCGCAGCGCGACGTTGAGCTCGCCCGTGCCGTAGGCGTGGGTGAAAAACCAGGGTGCGGCGACCATCTCCACGAACTGGTCTTGCAGCTCGTTGAGCCAGACGAACCAGCTGTACAGCGGGTGCTCGCCAGGCCGGTGGCGGCCCACGCAGACCCACTTGACCAGCGCCGTCAGCGCCACAGCAAGGGCGCCGACCACCATGTACGCCAGCCCGCCAAGCGCGTAGGCCCACCACTCCCACTGTGTCAGAGCAAGATGAACAAGCCCGATGAACGCGGCGGCCAGCACGGCATGTCCCATGGGTGCGAGCAGCCGCAGCGTCTCCACCGCCCCGCGCTTGCGCTTGATGCTTGCCGACGGCCGGTACGTCAGCGCTTCCCCACCCAGAGCCGTGACTTCAACCCTGCGCATCCGCTCGGGCGGGGAGCCCCACCAGTTCGAACCGGATTTGGACTTCTTCGGCGTCGACGACAACACCGCCACGAGGGAGTTCTTGGCCAGCTTGCGGCCCGGTTGGGTGATACCGGAGTTGCCCACGAAGGCACGTTTGCCAATCGTGGTCTCGCCGGTGCGCATCCAGCCGTGGCCGAGCTCGTAGGTGCCCACGAGGGTGTCGTCGGCTAG	MCGERRAVADGDRVQRHHAVLEQVGLHHRAGSHGRARAHDAQICFGEPVGVDPRPAPDLHSEDAQRDVELARAVGVGEKPGCGDHLHELVLQLVEPDEPAVQRVLARPVAAHADPLDQRRQRHSKGADHHVRQPAKRVGPPLPLCQSKMNKPDERGGQHGMSHGCEQPQRLHRPALALDACRRPVRQRFPTQSRDFNPAHPLGRGAPPVRTGFGLLRRRRQHRHEGVLGQLAARLGDTGVAHEGTFANRGLAGAHPAVAELVGAHEGVVG				NA	NA	NA	NA	NA
AK009_07833	636	echA6	COG1024	putative enoyl-CoA hydratase echA6	TTGATACGCGAGCTCGGCAGCGCGCTCGACGACGCGCAGCACAGCGCCCGCGCCATCGTGCTCACCGGCGCTGGCTCCGTCTTTAGCGCCGGCGCGGACCTGGACGAAAACGAATTTCAGGGCAGCTTCTTCGACGACTTCTTCACAGTCATCCGCGCCCTGCGCACCGCAGCTGCACCCATCATCGCCCACGTCAACGGTCCCGCCATCGGCGCCGGCATGATGCTGACCATGGCGTGCGACATCCGCGTCGTGGCGCAAAGCGCGCGCTTTGTTCTGCCCGTCGGGGACATGGCCATCGGCGTCAACGAATGGGTCGTGCGCACGCTGACAGAACTGCTCGGCGGTTCACGCGCCCGGGCGATGCTGCTGGCAGGCGCTCCGCTGGATGTCGACACCGCCGTCGCCAGCGGGTACGCCACCGCCGGTTCCTTCGAGCAGGCGATGGAGCTTGCAGAACTGGTGGCCGGGAAAGCGCCGTTAACCCTGCGCAACGTAAAAGCGGAGTTCGCGCCCGATCTGTTCACCGCAGCCGAGCGCGAAGCCGCGCTGCGTGCACCATTCGAATCGGACGACATCAAAGAGGTGGGCCGCGCCCGCTCAGAGGGGCGACCGGTGCTGTTCAGGGGGCTCTAG	MIRELGSALDDAQHSARAIVLTGAGSVFSAGADLDENEFQGSFFDDFFTVIRALRTAAAPIIAHVNGPAIGAGMMLTMACDIRVVAQSARFVLPVGDMAIGVNEWVVRTLTELLGGSRARAMLLAGAPLDVDTAVASGYATAGSFEQAMELAELVAGKAPLTLRNVKAEFAPDLFTAAEREAALRAPFESDDIKEVGRARSEGRPVLFRGL	PGPT0001860_8049	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
AK009_07834	1005			hypothetical protein	GTGACCACCACGACGCTGCCGTGGGCCGAGGAGGTAACCAGCACGCTAGTCGCCGATCTGGTCGCGGCCGCGTTTGACAATCTGCGGGTCCGGCTCGCCGACGACCTCGTGGTCCTTGTTGGTGTACTCGAACTTGCTCAGGATGTAGCGCATGGCGTTGAGGCGGGCGCGCTTCTTGTCGTTGGATTTAATCGTGATCCAGGGCGATTCGTCCGTGTCCGTGTAGCGGAACTGCTCCTCTTTCGCGCGGGTGTAGTCATCCCACTTATCCAGCGAGGCCAGGTCCATCGGGGACAGCTTCCACTGGCGCACGGGGTCGACCTGGCGAATGGCGAAGCGGGTGCGCTGCTCCTTTTGCGTCACGGAGAACCAGAACTTGGTCAGCGAGATGCCGGAGCCCAAGATCATGTTCTCCAGCATGGGCACCTCACGCAGGAACTCGGCGTGTTGCGATTCAGTGCAAAAACCCATGACGCGCTCCACGCCGGAGCGGTTGTACCAGGAGCGGTCGAAGAAGACGATCTCGCCTGCCGACGGGAAGTGCTCGATGTAGCGCTGGAAGTACCAGGAGGTGCTTTCGCGTGGCGACGGCTTTTCCAACGCGACGGTGCGAGCACCACGCGGGTTGAGGTGCTCGTTGAAGCGCTTGATCGTGCCGCCCTTGCCGGCGGCGTCGCGGCCCTCGAAGAGGATGATGTGGCGCTGGCCGGTGTCCTTGGTCCAGTTCTGCCACTTCAGAAGCTCGATCTGCAGGGCGCGCTTGGTTTTTTCGTACTCGTCGCGCGACATGCGTTCGTCGTACGGGTAGTTTTCGCGCCACGTTTCAATCGGGGTGCCGTCGGACTTGAGCAGGACGGGGTCGTCGTCGTCGGAGTCGTCGACCCAGTAGCCCTCGACCTCGGCGAGGTTGATCATCGGCAGGTCGTCGTCTTTGTGGTCTTGTGCCATGAAGCACATCTTAGCGCCGCGACACCACGTGCGCTGGGCGAGATTGCCCCCAGGTAG	MTTTTLPWAEEVTSTLVADLVAAAFDNLRVRLADDLVVLVGVLELAQDVAHGVEAGALLVVGFNRDPGRFVRVRVAELLLFRAGVVIPLIQRGQVHRGQLPLAHGVDLANGEAGALLLLRHGEPELGQRDAGAQDHVLQHGHLTQELGVLRFSAKTHDALHAGAVVPGAVEEDDLACRREVLDVALEVPGGAFAWRRLFQRDGASTTRVEVLVEALDRAALAGGVAALEEDDVALAGVLGPVLPLQKLDLQGALGFFVLVARHAFVVRVVFAPRFNRGAVGLEQDGVVVVGVVDPVALDLGEVDHRQVVVFVVLCHEAHLSAATPRALGEIAPR				NA	NA	NA	NA	NA
AK009_07835	228			hypothetical protein	GTGGAGAAGCACTGTGGGCTTTTGGGGGCGAGCCGCTTAAGCGATCAGGCCGAGGAGGGTAGCAAGGCCGTCAGCGACCTGGACGAACGGCTTCATGAATTCGACCAGAGCGAGAGCCGGGGTGATGGCGAAGCCAGCGAGGGAGGAGCCGAGGTTGAGGGCGGAGGAGCCGTCAACGAGGGAAGAGAGGGTGGTCAGGGTATTCATGTTGTTCTCCTTAGAAGGTGA	MEKHCGLLGASRLSDQAEEGSKAVSDLDERLHEFDQSESRGDGEASEGGAEVEGGGAVNEGREGGQGIHVVLLRR				NA	NA	NA	NA	NA
AK009_07836	336			hypothetical protein	GTGGTCAGGGTATTCATGTTGTTCTCCTTAGAAGGTGACGTGGGGGGAGGATTAGTCGTTGGACTCGATGTCGTTGAACTGGATCAGGCCGCTGCTGAGCTCAACGCTGTTAGCAGAGGTCTCGATGATGTTGGAGCTTGCCCCATCGAAGCCGGAGGACAGGCCGATGAGATCGGAGAAGTTCAGGGTGAGAATCTTCTGCAGGCCGCCGAGCACATTGCCCCAGCCCTTCCAGGTGTCAACGAAGTTGTCGAGGTGAGTGATGATCATATCGAGATCCATGAGAAATCCCCTTGTGGAGTAGGTGCCAGGTACCTGGCGTCTGACGGTGTCTGA	MVRVFMLFSLEGDVGGGLVVGLDVVELDQAAAELNAVSRGLDDVGACPIEAGGQADEIGEVQGENLLQAAEHIAPALPGVNEVVEVSDDHIEIHEKSPCGVGARYLASDGV				NA	NA	NA	NA	NA
AK009_07837	1047			hypothetical protein	ATGACCACTCAAACCCAATGGGTTGAAGCCCCAGAAGGCAACGTGCCCGCAGCCCCGAGCGGCGGTACGACGTACCGGGTTCGCTACCAAGCCCAGGGTGCCCGCGCCGAGGTGCCCATGACCGGGTTGGTCACGGTTCCGGCTAACCCCCGGCCGGACGGCGCGATCGTCAGCTGGGCGCACGGCACCACGGGCCTGTCCACCTCGAGTGCTCCGTCACTGTATGCGGAGGGCGACCCAATTGAGCGCTACATCCCGCACTGGACACGCTTCCTGCAAGGCTGGCTAGATGCCGGGTACATCGTCACCCAGCCGGACTATGAGGGCCTTGGTGTCGATGAAGTTGGCGGCACCTACATGCACCGCGGCTCGCTGGCGTCGGCAATCAACCGCCTCGTGGAGGAAACCGCCGCAAAGTTCTCCCCCGGCGCGAACTGGGTCAACGTGGGCTTTAGCCAAGGCGGCTACGCTGCGCTTGCCGCCGCCGACGCCCCAGCAGACAACCTGGTGGCCACCGTCGCTATCGCCCCCGGCGACACCGAGCTCGTGAACAAGAACCTACGCCTGATGGGCATCCGTCCGGTGGACGTGGCCAAGATGCTCAAGGGCAAGGGCGTACGCTTCTTCCCCATCGTCATCGCCGGTGCGCTCAACGCTTTCGAAGGTGTCCACGCTTCGGACTTCCTCAGCGAGCGCGGGGCAGAGCTCGTCGAAAAGGCAGAGCAGGTCACACTCCCCGAGCTCACTGACTTCGTCACCGACGTCTCCGGTGGCGAGCTGTTCATCTCCAAGGCGGACACGAAGAAGATGCAAAACCTGCTCGATGAGCAGCGCCTTGAACTGATGGAGCCCAAGGGGCCGATCCTCGTACTCGCCGGCGACAGCGACACCACCATCAACCGGGAGGCCGTCAAGGCCACCATCGCCTCCTGGAAGGGCAAGGGCGTCGACGTTGAGTACCGGGAAGTGCCGGACTCCGACCACAACGGCTCGGTCAACAACAGCTACGACTTGCAGGTGGAGTGGATCGCCCAGCACGTGGGGTAG	MTTQTQWVEAPEGNVPAAPSGGTTYRVRYQAQGARAEVPMTGLVTVPANPRPDGAIVSWAHGTTGLSTSSAPSLYAEGDPIERYIPHWTRFLQGWLDAGYIVTQPDYEGLGVDEVGGTYMHRGSLASAINRLVEETAAKFSPGANWVNVGFSQGGYAALAAADAPADNLVATVAIAPGDTELVNKNLRLMGIRPVDVAKMLKGKGVRFFPIVIAGALNAFEGVHASDFLSERGAELVEKAEQVTLPELTDFVTDVSGGELFISKADTKKMQNLLDEQRLELMEPKGPILVLAGDSDTTINREAVKATIASWKGKGVDVEYREVPDSDHNGSVNNSYDLQVEWIAQHVG				NA	NA	NA	NA	NA
AK009_07838	888			hypothetical protein	ATGAGCACTTCTGTGATCGCGACGGGTGTCAGCAGCAATCCCGTTCGTAAGCCCTACTTATTCAGCCAGATTTTGGCGTGGGCCGCCTTCGTTCTTGGTCTCCTTTCCGTTGTGGGAGGGATCGGCGCATGGTCGTTTCGCGACTTCCTTACCGGAGTTTTCTTTGGTCTCGCATTACTGATTCCCTCCGTGTGGTGGTTCCACTGCAGCAGAGTCGACGCTGTCAATCAGCGGGACTACGAAGAGACTTTAGCGACGCAAGCCGCGCTCTCTCCTTTGCTGGGCGAGGATGATGCCGAGATAAGGGTTGGTATGGGAATGATTACTCCACCCAACCGAGTCGATCGGCGCTGGCCGCTGGTGGTTGGAGCTGCAGTGACCTCATTCGTCTTGGGTGGCCTGATTTCACCTCCGACCGCCCCCGACGAGGCGAGCGCGACGGCTGAAACGAGCACCCCACCCATGACTGTCAGTTCCACTACTTGCTCGCCGCCAACCACAACACGGAATACTGAAGCAGAGGCTTCGAGCTCTCGGGCGGCTGCGTTGTCTTCTAGCGCGGCGGCGTCTAGCAGTGCATTGGTCGAGAGCATTCGAGCCGAAGAACGAGCGAAGTTGGAACAGGAGATGGCTGAAAGTTCACGGGCCTCGCCCTTGTCCGAAGCCGAGCAGCAGAACGTCCCACAGGGCTTCGTTGCGCCAGCGCCGGAACCAACACGGGCCCCAGCCCCTGCAGCGGTTCCTGCACCCGCCCAGTCGGCATCCTATGGCAACTGCACGGCAGTATGGAATGCCATCGGCAGCCCGATTTACCAGGGGCAGCCAGGTTACGGCAGCCATCTCGATCGAGATGGTGACGGCGTTGGCTGCGAGAAGGACCCTCGCTAG	MSTSVIATGVSSNPVRKPYLFSQILAWAAFVLGLLSVVGGIGAWSFRDFLTGVFFGLALLIPSVWWFHCSRVDAVNQRDYEETLATQAALSPLLGEDDAEIRVGMGMITPPNRVDRRWPLVVGAAVTSFVLGGLISPPTAPDEASATAETSTPPMTVSSTTCSPPTTTRNTEAEASSSRAAALSSSAAASSSALVESIRAEERAKLEQEMAESSRASPLSEAEQQNVPQGFVAPAPEPTRAPAPAAVPAPAQSASYGNCTAVWNAIGSPIYQGQPGYGSHLDRDGDGVGCEKDPR				NA	NA	NA	NA	NA
AK009_07839	585			hypothetical protein	ATGTCCGATGACTCAAATTCACGACACCCCCATTCGTCGCGCCCGTCGACGGGGCGTGGACTTGATGGAAACGAATCCGCGCCCATTGAGGACAGCGAAACGGATTCAGGCACACTCGCCCCAAGCGACGATACGCAAGGGCTGGGTCAAGACGTTTCGAGCTCTCGAAGAGAGCATCGGCGACCTCGAGATCAAGAAGTCTACGAAGCCGAACTCGTAACAAGACGCGAATTACTTCAAGCTTCGGAATACTGGAGTGCGCCAGCGCCCTCTCCCGAGACGCTCGCCAAGTATCTTGAGATAGATCCGACTCTGGCCGAGCGGGCTTTTTCTATGGCAGAGCAAAGTGTAGCTGCCTCGAATGACGAGATCATTACCCTTGCCCATGGTGATGTCGATGCCCTGCGACGAGGGCAGTGGATGAGCTTCATCATGTTTGTGCTGTCGATTGGGACTGCGTTGGTCGCATTCGCTCTCAGTGAAAGTGCCGCGCTAGCAGGGCTGTTTCTAGCTCCTGCAGTCTTGCAGTTCCTCGGAAAGTTCATCCGGACGGTGAGAATGGGTGAAAAGAACGGGGGCGAATAA	MSDDSNSRHPHSSRPSTGRGLDGNESAPIEDSETDSGTLAPSDDTQGLGQDVSSSRREHRRPRDQEVYEAELVTRRELLQASEYWSAPAPSPETLAKYLEIDPTLAERAFSMAEQSVAASNDEIITLAHGDVDALRRGQWMSFIMFVLSIGTALVAFALSESAALAGLFLAPAVLQFLGKFIRTVRMGEKNGGE				NA	NA	NA	NA	NA
AK009_07840	1677			hypothetical protein	TTGGATAGAGCGTCGATAAGCGAAGCGCTCCTACATCATGCCCATGGCCTCGGGGTCCATGCCAGCGCCCGCGCCAGCCGGCTCGGGCTTGTCAGCCACAACAGCCTCGGTGGTCAGGAACAGGCCCGCGATGGAGGCCGCATTCTGCAGAGCAGAACGGGTCACCTTCGCCGGGTCGTTGATGCCGGCAGCCATCATGTCCACGTACTCGCCGGTCGCAGCGTTGAGGCCGTGACCCAGCTCGAGGTGCGCAACCTTGTCGGCCACCACGCCCGGCTCCAGGCCAGCGTTGAAAGCGATCTGCTTCAGCGGTGCGGAGAGGGACTCGCGGACGATCTTGACGCCCGTGGCCTCATCACCTTCGAGACCGAGATCACCCTCGAGCTCCTTGGCGGCCTGCAGCAGGGCCACGCCACCGCCGGCGACAATGCCCTCCTCCACGGCAGCCTTGGCGTTGCGCACAGCGTCCTCAATGCGCAGCTTCTGCTCCTTGAGCTCAACCTCGGTAGCGGCGCCGACCTTGATCACTGCCACACCGCCGGCCAGCTTGGCCAGGCGCTCCTGCAGCTTCTCGCGGTCGTAGTCGGAGTCGGAGTTCTCGATCTCCGCGCGGATCTGCTTGACGCGGCCGTCGATCTGAGCCTGCTCGCCAGCACCCTGGACGATGGTGGTCTCGTCCTTGGTGATGACAACCTTGCGGGCCTGGCCGAGCAGCGCAAGATCGGCGGTTTCCAGCGAGAGGCCGACCTCCTCGGAGATGACCTGGCCGCCGGTGAGGATGGCCAGGTCCTGCAGCATGGCCTTGCGGCGATCACCAAAGCCCGGGGCCTTGACCGCAACGGACTTGAAGGTGCCGCGGATCTTGTTGACCACCAGCGTCGACAGGGCCTCGCCCTCGACGTCCTCGGCGATGATCAGCAGCGGCTTGCCGGACTGCATCACCTGCTCAAGCACCGGCAGGAGGTCCTTGACGTTGGAGATCTTCGCGGAAACCAGGAGGATGTACGGATCCTCGAGAACGGCCTCGCCGCGCTCCATGTCGGTGGCGAAGTAGGCGGAGATGAAGCCCTTGTCAAAGCGCATGCCCTCGGTGACCTCGAGGTCGACGCCGAAGGTGTTGGACTCCTCGACGGTGATGACGGACTCCTTGTTCACCGCGCCGTTGCCCACGGCGTACATTGCCTCGGCGATCTTCTTACCGATTTCCGGGTCGGACGCCGAAATGCCAGCGGTGGACGCGATCTGCTCCTGCGTCTCAACCTCCTTGGCGGACTCGAGCAGGTACTTGGAAACGCGCTCGGTCGCAGCCTGGATGCCGCGCTTAATGCCCATCGGGTTGGAACCAGCGGCAACGTTGCGCAGACCCTCGCGCACCAGAGCCTGGGCAAGAACGGTAGCGGTGGTGGTGCCGTCGCCGGCGACGTCATCAGTCTTCTTCGCTACTTCCTTGACCAGCTCGGCGCCGATCTTCTCGTACGGATCCTCGAGCTCGATCTCCTTCGCGATGGTCACGCCATCGTTGGTAATGGTCGGCGCGCCCCAGGACTTCTCCAGAACAACGTTGCGGCCCTTCGGGCCCAGGGTGACCTTGACGGCATCAGCCAGCGTGTTCAGCCCGTTCTCCAGGCTGCGGCGTGCTTCCTCGTCAAATGCGATCATCTTTGCCATGTGAGTTAG	MDRASISEALLHHAHGLGVHASARASRLGLVSHNSLGGQEQARDGGRILQSRTGHLRRVVDAGSHHVHVLAGRSVEAVTQLEVRNLVGHHARLQASVESDLLQRCGEGLADDLDARGLITFETEITLELLGGLQQGHATAGDNALLHGSLGVAHSVLNAQLLLLELNLGSGADLDHCHTAGQLGQALLQLLAVVVGVGVLDLRADLLDAAVDLSLLASTLDDGGLVLGDDNLAGLAEQRKIGGFQREADLLGDDLAAGEDGQVLQHGLAAITKARGLDRNGLEGAADLVDHQRRQGLALDVLGDDQQRLAGLHHLLKHRQEVLDVGDLRGNQEDVRILENGLAALHVGGEVGGDEALVKAHALGDLEVDAEGVGLLDGDDGLLVHRAVAHGVHCLGDLLTDFRVGRRNASGGRDLLLRLNLLGGLEQVLGNALGRSLDAALNAHRVGTSGNVAQTLAHQSLGKNGSGGGAVAGDVISLLRYFLDQLGADLLVRILELDLLRDGHAIVGNGRRAPGLLQNNVAALRAQGDLDGISQRVQPVLQAAACFLVKCDHLCHVS				NA	NA	NA	NA	NA
AK009_07841	1299			hypothetical protein	GTGGATGCCGCACATCGGTTCTTCCACGCCGTACAGGGCAATTTCGGCGTCGGGGAAGTGCTCCTGCAGCGTCGTCGTCAGAGGGATCGACCCGCCAGAGCCGACGACAGCCAGCGAGTTCTCGCCGTAGGCCTCCTTGAGGCTTTCACCGAGAAGCGTGATTGCGGGACCGGTGATGTCGGTCGCGAACGGCTCGTTGACCTGGGAGATTTCGACGTTGACCTGAGCGCCCCATGGAGTGTGGGCGAGGATGTGCTCTTCAAGCTTCTCGACAGTCTCCGCAGCGCTCATCCCCGCCGGCACGCGCAGGTTGAACTGCGCGCTGGCGTGAGCGTTGACAGCGTTGAGTGCTTCCGCGACGGGCCGGGAGGTGAACCCGATCATCGTCACGGCGGGGCGAGCCCACACCATGTCGGCGGGCTCGTCGTCAACCGTGCCATAGATTTGTACGCCTTCGAGCACGCCGGCGTCGTGGCGGAAGATGTCGCGGTCGTAGGCGTCGCCTTCCCACTTACCGAAGCAGTCGACGCCGTCGATCGTGGTGCGCCCGTGCTCGTCGAAAAGCGAGCTGGCGATGCGCACCAGCGCGTCCGCAGCATCCGGGGCGGCGCCGCCGAAGCTGCCGGAGTGGATGTCGCCCTCGAGCGTGGTGACGCTGACCTCGACCTGGGCGCCACCGCGCAGCTGGGTGGTCAGGGTCGGGGTGCCGGCCGCGACGTTGCCGGAGTCGGCGATAAGGATGACGTCGGCGGCGAAGAGCTCAGGCGACGTTTCGATGAGGCGCTCGAGCCCGCCGCGGCCGCCGAACTCCTCGGAGCCCTCGATGACGACCTTGAGGTTAGCGCGGGTGCCGCCAGCGGCGTCGAGAAGCCGGATCGCTTCCAGGTGCATCGCGATGTTGCCCTTGCAGTCCGCGGAACCGCGGCCGTACCAGCGGCCGGCGCGCTCGGTCAGCGTGAACGGGTCCGAGGTCCAGGCCGCCGGGTCGCCGGCGGGCACGACGTCGTAGTGGCTGTAGAGAAGTACGGTCGGCGCGCCTTCCTCACCTGCGCGGTTAGCGATGATCGTGTCGGCGTTGTCAATCGTGGGGTAGCGCTCGACGCTAAAGCCCAGCTGTTCAAACGCGGTGACGGTCCACGCGCAGGCCGCCTCGTGAGAGTCAGCGAGGGCGGGCACGGAGTGCGGCGAGTTGAACGAGACGAGCGCGGACAAGTCGGCGAAGATGCGGTCGCGATCGGGAGTGGGAAGAGTCATAAAACCGAAAGTACCACCGCGATAGGGCGGCAGATGTCACGGTGA	MDAAHRFFHAVQGNFGVGEVLLQRRRQRDRPARADDSQRVLAVGLLEAFTEKRDCGTGDVGRERLVDLGDFDVDLSAPWSVGEDVLFKLLDSLRSAHPRRHAQVELRAGVSVDSVECFRDGPGGEPDHRHGGASPHHVGGLVVNRAIDLYAFEHAGVVAEDVAVVGVAFPLTEAVDAVDRGAPVLVEKRAGDAHQRVRSIRGGAAEAAGVDVALERGDADLDLGATAQLGGQGRGAGRDVAGVGDKDDVGGEELRRRFDEALEPAAAAELLGALDDDLEVSAGAASGVEKPDRFQVHRDVALAVRGTAAVPAAGALGQRERVRGPGRRVAGGHDVVVAVEKYGRRAFLTCAVSDDRVGVVNRGVALDAKAQLFKRGDGPRAGRLVRVSEGGHGVRRVERDERGQVGEDAVAIGSGKSHKTESTTAIGRQMSR				NA	NA	NA	NA	NA
AK009_07842	792			hypothetical protein	ATGGGGGCGACGACGGACGCGACAATCAGCGCTACCAGTAGAGTTAGCACAACGCGTACCCCTCCTCATTATCTATATGGACGGGACAGGGGGCTGCGCCCGCTACATTATGCCCTCCGAGTTGGGGCTCGGAGTGGTTTCGAGTGGCGGCGTCTACGGCAATGGTTCAACTGCCGTAAAAGCGGCGCGGCCAACCAACGTAGATTAGGTTACCAGTTCTTAAAAGTTGCCGTAGATGCGCTGCGCGCCCGAGGACAGGGCCGCGGCGATGGAGTGCGCGGGGCTGTGGCCGAACCCGACGGCCCATGCAGTGCGGTTGTGGTTGACCTGGTGCGCAACCTTGACACAGGTCAGGGTGGCTTCGAACAGGTTGATCTGATGGAACGCCAGGATTTCGACGTAGCGCCCGTTGGTGCTCAGGATCTCGCTGATTGCGGCGGTCGGGCCGGTTGCTGTGACTTCGCAAACAGAGGTCGAAGGCGACTTGGTCTTGGAGGTGTGGGTGATCTCCGCGGTGTAGTGGTGATCGCTCCAGTTCAGCTTCTCGATGTTCGTCAGCCCGATGTGCATCGTCGGGGTCGGAGCGTAGGTGGCCTTGAAAAGGCCCCAGTCCATGCCCTGGGCTTCCGCGCGCAGTTCCTTCGGCAGCTTCTGATCAATTTCGAAGCGGATCTGGAACGGGTCGCGATCCTCGGTCGGGGCAAAAGCGGTAGTAAATCGCGTGGAGTGAGCAGTACTTGTGGCAGTCGGAGCCATGGTGCCGGTGTCCTTCGTGTGAGGTGTACGGGGTGA	MGATTDATISATSRVSTTRTPPHYLYGRDRGLRPLHYALRVGARSGFEWRRLRQWFNCRKSGAANQRRLGYQFLKVAVDALRARGQGRGDGVRGAVAEPDGPCSAVVVDLVRNLDTGQGGFEQVDLMERQDFDVAPVGAQDLADCGGRAGCCDFANRGRRRLGLGGVGDLRGVVVIAPVQLLDVRQPDVHRRGRSVGGLEKAPVHALGFRAQFLRQLLINFEADLERVAILGRGKSGSKSRGVSSTCGSRSHGAGVLRVRCTG				NA	NA	NA	NA	NA
AK009_07843	192			hypothetical protein	GTGCGCGATGGGCATCCACTCGTACGACGCGAGGATTTCGCCGCCGGCGGCGAAGACTCCTTTATGGAACAGGCTCGCGACCCATACGAAGCCGGCGAGCGGGACCAAGGCGACGATTACGAACGTGATACGCCCGATGAGCCGCAGCAAAATGGGGGCGACGACGGACGCGACAATCAGCGCTACCAGTAG	MRDGHPLVRREDFAAGGEDSFMEQARDPYEAGERDQGDDYERDTPDEPQQNGGDDGRDNQRYQ				NA	NA	NA	NA	NA
AK009_07844	216			hypothetical protein	GTGCCAGGTCGGCACGGCGGCCATGTCGGGCGCGAGGCGGGCGACGATGTAGATGCCGGCCTTGACCATGGCAGCGGAGTGCAGGTAGGCGGAGACTGGGGTCGGCGCGGCCATCGCACCGGGCAGCCAGAAGTGGAACGGCGCCTGTGCCGCCTTCGTCAGGGCGCCGAGCATGATGAGCACGATCGCGGCCGCGATTCCCGGCGTCGCTGCTAG	MPGRHGGHVGREAGDDVDAGLDHGSGVQVGGDWGRRGHRTGQPEVERRLCRLRQGAEHDEHDRGRDSRRRC				NA	NA	NA	NA	NA
AK009_07845	288			hypothetical protein	GTGCAGGACGGCTTCCAGCGCGGCTTCCTTGGCCACGAATCCGAACAACGGTGGGATGCCGGCCATGGATGCGGCGGAGATAATCGCCAGCGCCGCAAGCAGCGGCTCCTTCTTGCCCAGGCCGGAGAGCTTACGGATATCGCGGGTGCCCGTGGTGTGGTCGATCGCGCCGACGACCATGAACAGCGCTGCCTTGAACAGGGAGTGCCCGATGGTCAGCGCCAAACCCGCCATCGTCGCCTCGCGCGAACCGATGCCGATCACGCTGATGATGAAGCCGAGCTGTGA	MQDGFQRGFLGHESEQRWDAGHGCGGDNRQRRKQRLLLAQAGELTDIAGARGVVDRADDHEQRCLEQGVPDGQRQTRHRRLARTDADHADDEAEL				NA	NA	NA	NA	NA
AK009_07846	225			hypothetical protein	GTGCCACAGCGCGAGCTCCTTGCCTTCCGTATCGGGGAAGCGGACGTCAAGATAGTCGTTGAAGGCGCCGCTGATCCACCCCGGGAACGGGCCGAGGAACGCGGTGAACACCGTCAGAATCGCCGGGGAGAGCCACAGCGACGGGCCGATCGGGTGCATCTTCTCGACGGCTTCGGAGACGCCAGGTTCCTTGGTGGAAAATGCCCCGAAGACGAAGTACAGTGA	MPQRELLAFRIGEADVKIVVEGAADPPRERAEERGEHRQNRRGEPQRRADRVHLLDGFGDARFLGGKCPEDEVQ				NA	NA	NA	NA	NA
AK009_07847	948			hypothetical protein	GTGGCCGGAGAAGAAGAAGTAGGCCGACAGCAGCATCATCGAGGGGAAGAGGATGCGCGAAGAAACCAGCACCATGATGTGGCGGTTCTGCTCGGTTTCGGTGCCGACCTGCGAGGACAGCCAGCGTGGGACGGTTGTCGAGAGCACTGGGCGTCTCGACGGCCGGTGGAACTCGCCCGTGCCGAAAATCAGGCTGGCCACACCCGTCGCGGCGATCGCGATGACCGTGATCTCGCCGAATGTGTCGAACGCGCGCAGGTCAACCAGCAGCACGTTGACAACGTTGCGGCCGTGCCCGATCTCGTAGGCCAGTTCGGGCATCGCGTTGGAGACAGGCTCCGCAATGCGGGAGGAAATCGCGGTCATGGCCACGATCACGACGGACACACCGGTGCCGATCGCGAGCCAGGCGCGCAGGCGCACATCCGAGTCGCGGCGCGGCTCCAGGTTGGCGGGCAGCTTTCGCAGCACCAGCATGAAAATCACCATCAGGATCGTCTCCACCAGGATCTGGGTCAACGCCAGGTCAGGGGCGCCGTGCATGGCGAAGAGCAGCGCGGTGGAAAAACCAGTCAGGCCCACCAGGATGACGCCGGAGAGGCGGTTGCGTTGGAACACGGCGGCGACCGCGATCAGGCAGAGCAAAACGGAGGTCAGTGCTTGCCACGGGGTGTCCCAGACGATGATGCGGATGTCGTTGGACTCACCGAGAATCATCGCGCCGAGCGGCACGACGGCGAGAACCAGGAAGATGGTCGCAAGGTTGAACGTCAGCGAACCGCGCTGGGTGGAGGCGGTCAGGCGCAGCGATGTGATGCTCAGGGCGCGGACGATGTTGTCCCACACCGCGTTGGCGTCGCCAAGCGCTGGGCGCTCGAACTGGGCTCCGGCGACAAGCTGGCGCTGCCAGTACATGATGGAGCCGCCGGCGATGATCACGGCGGTTAG	MAGEEEVGRQQHHRGEEDARRNQHHDVAVLLGFGADLRGQPAWDGCREHWASRRPVELARAENQAGHTRRGDRDDRDLAECVERAQVNQQHVDNVAAVPDLVGQFGHRVGDRLRNAGGNRGHGHDHDGHTGADREPGAQAHIRVAARLQVGGQLSQHQHENHHQDRLHQDLGQRQVRGAVHGEEQRGGKTSQAHQDDAGEAVALEHGGDRDQAEQNGGQCLPRGVPDDDADVVGLTENHRAERHDGENQEDGRKVERQRTALGGGGQAQRCDAQGADDVVPHRVGVAKRWALELGSGDKLALPVHDGAAGDDHGG				NA	NA	NA	NA	NA
AK009_07848	123			hypothetical protein	GTGCATGATCAGGCCGATGACGATGACGTAGACGCCAGCGTCGAAAAGCAGCGCGGACGGCAGGGACACCGAGCCGATCAGCGGCACCTCGGGGGCGATGTAGGCGGTGGTCAGCGGCGGTAA	MHDQADDDDVDASVEKQRGRQGHRADQRHLGGDVGGGQRR				NA	NA	NA	NA	NA
AK009_07849	495			hypothetical protein	ATGGCTGCCAACCTGTTCCTGCTCATCGCAGCCGGCGTTCTGATCTCCGCCGGGGTCTACCTCCTGCTGGACCGCGCGATGACCCGCATGATCATGGGCATCATGCTGCTCGGCAACGGCGCCAACCTGCTCATCCTGCAGGCTGGCGGCCAGGCCGGGTCACCACCGATCACCGGCCGCACCACGGAGCGCTACCAGGACGACATGGCGGATCCGCTCTCCCAGGCGATGATCCTGACCGCGATCGTGATTTCCATGGCGATGGTGTCTTTCATGCTCGCGTTGGCGTACCGCCAATTCCGTTACCGCGTGGATGACCTGATTGCGCCGGACGAAGAGGACAGGGCCGTTGCGGCGCGACCGACGACCGCGTCGGCGCAGCCCGACCACGACGCCTCCGCAGATCCCCACACCGGGCGCACCAGCGCGCTCGGCGACAACTTTGGGCCCCGCTCCTTTGAAGAACCCGTGAGAGGGGCCGACCAAGATGACTGA	MAANLFLLIAAGVLISAGVYLLLDRAMTRMIMGIMLLGNGANLLILQAGGQAGSPPITGRTTERYQDDMADPLSQAMILTAIVISMAMVSFMLALAYRQFRYRVDDLIAPDEEDRAVAARPTTASAQPDHDASADPHTGRTSALGDNFGPRSFEEPVRGADQDD	PGPT0013905_233	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
AK009_07850	438			hypothetical protein	GTGGCTACTGCCCGCAGTGGCCTACCTCATTCCGGTCCCGGTCCTGCTGCCGGCGGTTGCGGCGGCGCTGATCCTGCTCTCGGGCAGGAAGCTTGCGCTGCAGCGCACGATCGCGTTTCTCACGCTGCTCACGCTCGCCTTTGTCGCGGCGTCGCTGCTGATCGTGACCACGACCTACGGCATTCAAACCCTCCAGCTCGGCGGGTGGGACGCACCGATCGGCATCACGCTGGTCGCGGACCGGCTCTCAGCAATCATGCTGCTCGTCTCCGCGATCGTGCTGTTCGCCGTGATGTGGTTCGGCATTGCCCAGGGTTTGCGCGACGGCAACGAGGACGACCCCGTGGCCGTCTTCCTGCCGACCTACATGCTGTTAACCATGGGCGTGAACCTGGCATTTCTCGCCGGGGACCTGTTCAACCTCTACGTCGGCTTTGA	MATARSGLPHSGPGPAAGGCGGADPALGQEACAAAHDRVSHAAHARLCRGVAADRDHDLRHSNPPARRVGRTDRHHAGRGPALSNHAARLRDRAVRRDVVRHCPGFARRQRGRPRGRLPADLHAVNHGREPGISRRGPVQPLRRL				NA	NA	NA	NA	NA
AK009_07851	228			hypothetical protein	GTGCGCCATATTCACCGTTCCCACCGAGGCGTAGATCAGGGCCAGGGCGATGAGGAAGATCATGGACGACGCCATCGAGACCATCACGTAGCCAATTCCGGCCCGGACACGCGAGGCGGTCGCGCCCAGGGTGAGCAGGACGTAGGAGGCAACGAGGAAGATCTCAAAGCCGACGTAGAGGTTGAACAGGTCCCCGGCGAGAAATGCCAGGTTCACGCCCATGGTTAA	MRHIHRSHRGVDQGQGDEEDHGRRHRDHHVANSGPDTRGGRAQGEQDVGGNEEDLKADVEVEQVPGEKCQVHAHG				NA	NA	NA	NA	NA
AK009_07852	192			hypothetical protein	GTGGTGCACTGCGTAGAAGATCGCCCCGCCCCAGCCCGCGACCGAGCCCAGCGCGATACCAAAGAGCATGTAGCCGATGTGGCTGACCAGGGTAAACGAGAGCAGACGTTTGATCTGGTTCTGGGCCAGGGCGCCCATGATGCCCATGATCATCGTCGCCAGAGCGACCCACATCAGCATCGTGTCCAGTGA	MVHCVEDRPAPARDRAQRDTKEHVADVADQGKREQTFDLVLGQGAHDAHDHRRQSDPHQHRVQ				NA	NA	NA	NA	NA
AK009_07853	222			hypothetical protein	GTGATCGCGTTCCTCGACGGTCACCTCGGAGTGCTTGCCGGACAGGGACGCCGGCCGGTCCACCGCCAGGTGGCCCTCGGGGGCGTCGGCACGGTCGCGCAAAAAGCCCTTGGAGAACACCAGGATCATGGTGTAGAGCGTCAGCAGCGAGGTGACAACCGTGCCGACGATCAGGGTCCACGCGAGCCAGGTACCTTCCATCGCGCCGGCCTCGATGAGTAG	MIAFLDGHLGVLAGQGRRPVHRQVALGGVGTVAQKALGEHQDHGVERQQRGDNRADDQGPREPGTFHRAGLDE				NA	NA	NA	NA	NA
AK009_07854	474			hypothetical protein	GTGGATTGTCCATATGCGGTTGGCCACGTCGATGTCGCTGACGGACCCGCCGGGCTGCAGATTGTAGGCGCAGGTGGCCAAGTACAAGATGAGGTCATTGGACACACGCATCGGGACCTGCAGGATTGCACTCTTGGGTGGGGACTGCGGGCGAAGGGCCAGCCAGGCAACCTTTGCGGAGGCGACCATGAGGTCCGCGATCCACCGCAGAATAAACGTCAACAGCTTCGTCCACCGCACGCCGTGGTTGCCGCGCGGCACCCGGGGCATGGGCAGAAAGAGCACTATCGCGCTGCCGAGCAGGAACCCGGCGACGATGTTGCCGATGCTGATCTCGCCCATGAGCAAGACCCACATGATGGTCAGCCACAGCACAAAAAGCGCGTGGAAGCGAGTTCTGAGTCCGGTCATGGGTTATCTACTCCTTTGCCGCTGCGTCGTTGGGCGCTGGCCGGGGAACCGGGACGGTGGTGA	MDCPYAVGHVDVADGPAGLQIVGAGGQVQDEVIGHTHRDLQDCTLGWGLRAKGQPGNLCGGDHEVRDPPQNKRQQLRPPHAVVAARHPGHGQKEHYRAAEQEPGDDVADADLAHEQDPHDGQPQHKKRVEASSESGHGLSTPLPLRRWALAGEPGRW				NA	NA	NA	NA	NA
AK009_07855	624			hypothetical protein	GTGGGATTAGGGGTTGCGCGCCGGGTTTTGATTCACGGTGAGCTCGTCCTCGTCGCCGTACAACCCCTCGAGGCGGGCGACGCGGCCGAGGCGCTGCGCGGTCACTGGGCTAGTCATCAGGGCGAAGATTGTCAGCAGGATGAGAATGCCGATGTCGCCGCGCTCGTGGAAGCTGAAGTCCTCCGCGCCAATGAGTCGGATGAGCGTGCCGACGACCATGAGAACCAGCCCGGTGGTCTGCGGCTTCGTGATCGCGTGGATGCGGGCCATGGTGGAGCGGAAGCGCACCGCGCCGACCGCGGCGGAGAGCACCATGAAGGCGCCGGGGAGGATGAAAATCAGCGAGATGACGTCGGTAATCACAGTGCATCATCCTTCTTGTGGAAGCGGGCGATCGCGGCAGACGCGATGAAGCCGAGCAGCGCGATGACGATCATCACGTTGACCACGGTGGTGTCCAGCGACCAACAAATGTACAGGGCCAAAACGCATTGCAGAGACGCGGCAATGGCGTCGTTGCCGATCGCGCGGTCGAGCGAGTTCGGGCCGACGACGACGCGCCAGGCGATGGTGAAGAAGCCAACGACCAAGGCTGCGGCGGCGATGCCCAGAAAGATGTTGTAG	MGLGVARRVLIHGELVLVAVQPLEAGDAAEALRGHWASHQGEDCQQDENADVAALVEAEVLRANESDERADDHENQPGGLRLRDRVDAGHGGAEAHRADRGGEHHEGAGEDENQRDDVGNHSASSFLWKRAIAADAMKPSSAMTIITLTTVVSSDQQMYRAKTHCRDAAMASLPIARSSEFGPTTTRQAMVKKPTTKAAAAMPRKML				NA	NA	NA	NA	NA
AK009_07856	240		COG2170	Putative glutamate--cysteine ligase 2	GTGATCACCAGCCGCAACACCGATGAGCGCTGGGTGAGTGAAGAGCTGGTCGATCTCGTCGACGAGCTCACACCCGTCGCTAAGCAGCTAGGCTGCGTCGACGAGCTCAACCTCGTGCTGGAAATCCTCGAGCGCGGCGCGGGTTACCAGCGCCAGCGCAGGCTTTACGACGTCCACCGTGACTGGAAGCCCGCCGTCGACCTGACCTGCGACGAGCTGACCACCCTAACGTGGGATTAG	MITSRNTDERWVSEELVDLVDELTPVAKQLGCVDELNLVLEILERGAGYQRQRRLYDVHRDWKPAVDLTCDELTTLTWD	PGPT0026300_781	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
AK009_07857	204			hypothetical protein	GTGCCATGGCTGCAGGATCGGCAGCTCCTCGCCCCGATCAATCATCTGGTCGAAGTGGACCACCAGGCAGTGCGTCAGCGCGGCGATGCCGGCGAGCTCGCGCAGGTTGGAGGTGGCGTCCGAGATGCGGACCTCGATCGTGCCCCACTTCGCGGCGGGGCGGACGTCGAAATGCATGCTGCCGGTGTGGTTGATCACCCCTGA	MPWLQDRQLLAPINHLVEVDHQAVRQRGDAGELAQVGGGVRDADLDRAPLRGGADVEMHAAGVVDHP				NA	NA	NA	NA	NA
AK009_07858	402			hypothetical protein	GTGCATGAACTGCACCCACTCGTCCCAGGTGGTGAACTGGTACGGCATGCCCGCGGTGGGAAGCTGCTGGTAGAGCATGGTGCGGTTCGACGCGTAGCCGGTATCGATCCCGTCCCAGCCCGGGCTGGACGCCGAAATCGCGAGCAGGTGCGGGTACTTGGTCATCACCGCGTTGATGATCGGCCACACGCGGTCCTCGTGGCGGATGCCGATGTGGCAGTGAATGCCCCACAGCAGCATCTGCTGACCCCAGTACTGGGTGCGGTTGATGATCTCCTTGTAAGTAATCTTCGGGCTCAGCGGCTGCCGCCGGAAATCCGAAAACGGGTGCCCGCCCGAGGCCCACAGGCGCAGGTTCTCCTCCTCCGCCACCTCGCGCACCTTCTGGGTGGCGTCGCTTAA	MHELHPLVPGGELVRHARGGKLLVEHGAVRRVAGIDPVPARAGRRNREQVRVLGHHRVDDRPHAVLVADADVAVNAPQQHLLTPVLGAVDDLLVSNLRAQRLPPEIRKRVPARGPQAQVLLLRHLAHLLGGVA				NA	NA	NA	NA	NA
AK009_07859	210			hypothetical protein	ATGAATCTGCCCGAGCAGCAGTACGGTATTTTCCCGGAGACCACGGTGTTCTACGACCCGTCGATTAGCGGCGCGGACCAGGTCGCGGCTGAGGTGGCCCGGCAGGTCAGCGGAGTGGCGAAGCCGATCAACGAGGTGCCGCAGGGCGCGTCGCTGCCGGCCGAGGTGCGCGGGAACCGCGAGGCGGTGTCTGTCGTGCTCGCCGGTTAG	MNLPEQQYGIFPETTVFYDPSISGADQVAAEVARQVSGVAKPINEVPQGASLPAEVRGNREAVSVVLAG				NA	NA	NA	NA	NA
AK009_07860	231			hypothetical protein	GTGCACCTCGCCCAGCTCGGCTGCACCACGCACGTAGGCGGTCGCACCTTCTTCGGTGGCCAGCGCGTCGCGCTCGGCGCCGGGGGCGACGAGCACCTGGTAGGAATCGGTCACGTCGCCATGGGTGACGTGCAGTATCTGCCAGCTAAACCCGTCGAGCTCAAGCGAAGCGGCGACCTCGACCGCGTCGATCGCCTCGGACTTTGCGCCGTAGAAGCGCTCCTGCGTTAA	MHLAQLGCTTHVGGRTFFGGQRVALGAGGDEHLVGIGHVAMGDVQYLPAKPVELKRSGDLDRVDRLGLCAVEALLR				NA	NA	NA	NA	NA
AK009_07861	435			hypothetical protein	ATGCGCGCCATTGTAGTGCTCGAGGTGCATTTCCACTGGCTGGGGGCGCGACGACATGTTGTTGACGCACAGAATGCGCTCGCCGTTGTACTCGCGGATAAATGCCAGAACGTGCGGGTTGTTCTGCTCGACCTCGATGTAGGAACCGCGGCCGAAAGCGCGGTACTGCTTGCGGATGTGCACGAGCTGGCGCACCCAGTGCAGCAGCGAATTGTCGCGCTGCATCTGCGAGTCCACGTTGACGATGTGGAAGCCGTACTGGTCGTTGCGGATCGGCGGGAGGTAGAGCCGCTCCGGCTCGGCCTTGGAGAACCCGCCGTTGCGGTCGTTCGACCACTGCATGGGGGTGCGTACCCCGTCGCGGTCCTGCAGCCAGATGTTGTCGCCCATCCCGATCTCGTCACCGTAGTAGAGGAACGGCGAGCCCGGCAGTGA	MRAIVVLEVHFHWLGARRHVVDAQNALAVVLADKCQNVRVVLLDLDVGTAAESAVLLADVHELAHPVQQRIVALHLRVHVDDVEAVLVVADRREVEPLRLGLGEPAVAVVRPLHGGAYPVAVLQPDVVAHPDLVTVVEERRARQ				NA	NA	NA	NA	NA
AK009_07862	1017			hypothetical protein	GTGGTTGCGCAGGAAGATGCCCCATTGTGCCGACTCGGGGATCGGTGGGGTGTCGCGCAGGATGTCGATGATGGGCTGCGCGGACTCGCGGTGGATGCCCATGAAGATGCGCGGCATGACGGGGAAGTGGAACGCCATCTGGCACTCGTCGCCGTCTCCCTCGCCGAAGTAGGCGACGACCTCATTGGGCATCTGGTTGGCCTCGGCGAGCAGGAAGCGGCCGGGGTACTCGTCGTCGAAAAGCGCGCGCACGCGCTTGATAAAGCCGTGGGTCTCCGGCAGGTTTTCGCAGTTGGTGCCCTCTCGCTCGAAGAGGTAGGGGATGGCGTCGAGGCGGATGCCGTCCATGCCGAGGTCGAGCCAGAAGCGGATGACATCGAGGATTTCCTCCTGCACGGCCGGGTTGTCGTAATTCAAGTCCGGCTGGTGGGAGAAGAAACGGTGCCAGTAGTACTGCTTGCACACCGGGTCGAAAGACCAGTTCGATTCCTCGGTGTCGATGAAGATGATGCGGGCCTCGTCGTACTTGGTGGGATCATCCGACCAGACGTAGTAATCGCCGTAGGGCCCGCCGGGATCCATGCGCGACTGCTGGAACCAGTGGTGCGAATCCGAGGTGTGGTTGATGGGGAAGTCCGTGATGATGCGGATCCCGCGCTTGTGGGCGCTATCGACCAGGGAAATGAAGTCCTCCACGGTACCGAACTCGGGCAGGACCTTGCGGAAATCGCGAATGTCGTATCCGCCGTCGCGCAAGGGAGAGTCATAGAACGGTGGCAGCCACAGGCAGTCCACGCCGAGCCATTGGAGGTAGTCGAGTTTTTCCTCCAGGCCCTTCAGGGTGCCGGAGCCGGTGTTGTCCGGGTCGTAGAACGCGCGGACGAGAACCTCGTAGAACACCGCGTCCTTGTACCACTCGGGGTCGGGGCGCTCCCACGGCTGCTCCGCGGGGGCGGGACGGGCGAAGTCGGTGGCCTGCGGGGTCTCGGTCCTGATCTCCATGACGACCAACTTTAA	MVAQEDAPLCRLGDRWGVAQDVDDGLRGLAVDAHEDARHDGEVERHLALVAVSLAEVGDDLIGHLVGLGEQEAAGVLVVEKRAHALDKAVGLRQVFAVGALSLEEVGDGVEADAVHAEVEPEADDIEDFLLHGRVVVIQVRLVGEETVPVVLLAHRVERPVRFLGVDEDDAGLVVLGGIIRPDVVIAVGPAGIHARLLEPVVRIRGVVDGEVRDDADPALVGAIDQGNEVLHGTELGQDLAEIANVVSAVAQGRVIERWQPQAVHAEPLEVVEFFLQALQGAGAGVVRVVERADENLVEHRVLVPLGVGALPRLLRGGGTGEVGGLRGLGPDLHDDQL				NA	NA	NA	NA	NA
AK009_07863	363			hypothetical protein	GTGCTCGCCGCCGGGGCCGAACGACGTGCCCTCGTTGAGCGCAACCTTGGCGTGTTTGAGCAGGTAGGCGGCAGGACGGGGGGAGTTGAGCTTGGTGCCGGAGAAGTCGAGGAACATCAGGTAGGTCGCCTTGGGCACCTCGAAGGTAATGCCGGGGATCTTTTCTGGCAGGTTCTCAACGAGCCAGTCACGGTTGAGGCGCAAAAGCTCGATCTCCTCGTCGAGAAACTCCGCGCCGTCGCGATAACATGCTTCGGCGGCAACAATGCCCAGGGTTCCGGTGCCATCCTTTGCTACCCCGGTCAACCCCTGAAACACCGTGACGTCGTCCGCGTTGGAAAAAATCATCTGCGCGCACTTTAG	MLAAGAERRALVERNLGVFEQVGGRTGGVELGAGEVEEHQVGRLGHLEGNAGDLFWQVLNEPVTVEAQKLDLLVEKLRAVAITCFGGNNAQGSGAILCYPGQPLKHRDVVRVGKNHLRAL				NA	NA	NA	NA	NA
AK009_07864	312			hypothetical protein	ATGGTGGCCGTCGTAGACAAGCGGGGCATGGATTTCGTCGACAAGCACGCGTCCGCCGTACCTCCTGGCGATCGCGCAGATTTGGTCGAGCTCTTCTTCCTCGAAGATCCAACCGCCCGGGTTGAAGGGATTGGTCAGGATGATCGAGCCGGCGCCGTTGCGAAACGCCGCTTCGACCTCCATCAGATCCAGCCCGCCGGTACTGGAGACCTCGACCCTGTTGCGCCCTGCGGTTTCCGCGATCTCGAGGAACGGGTGGTAGGCGGGCACGGGTACGATCACGTCGCCCTCGGTGAAGTACATGATCGCTAG	MVAVVDKRGMDFVDKHASAVPPGDRADLVELFFLEDPTARVEGIGQDDRAGAVAKRRFDLHQIQPAGTGDLDPVAPCGFRDLEERVVGGHGYDHVALGEVHDR				NA	NA	NA	NA	NA
AK009_07865	540			hypothetical protein	GTGGCCGGCATCGTCGAAGACCACGGCCTCGATGCCGGGGTTGGCCTCCGCCATGGCGCGCGCTGCGACCTCGCTTTGCCACATGCGGTCCTGGCCCCCGGCGAAAGCGAGATCGTTGCCGTCGAAGGCAGCGCTCTCAATCCGCGCATCCTGCCCGGCAGCGACCGCGGCGGCTTCATAAGAGCTGCGGCAGGACACCGGCAAGCCGATAATCATCCGTGCGAAGTCGCGCATGGAGTTGTCGTGGTTGACTCGCAGAGACGCAAAGGGCACCGGATCCTCGTGCCAGGTGAAGCTGCTCGCGTCGCGGGAAAAGTCCAGGCCGGCGTAGGTGTAATCGGCCGGCGCGTAAAGCACGACGTTGTCGATTTCGGGGTAGCGGATCGCAAGATTAGCGGCGAGCTCTGCGCCCTTGGAGACACCGATCACCGTCAACGGGCCGGAGGCATTCATCTTGGACAACACCTCGGAGAAGAAATCAAGGGACACCTCCGAGAGCAGCTTCTGCTGCCCGCCCTGCCCGAAGAAGTACAGCGCTAA	MAGIVEDHGLDAGVGLRHGARCDLALPHAVLAPGESEIVAVEGSALNPRILPGSDRGGFIRAAAGHRQADNHPCEVAHGVVVVDSQRRKGHRILVPGEAARVAGKVQAGVGVIGRRVKHDVVDFGVADRKISGELCALGDTDHRQRAGGIHLGQHLGEEIKGHLREQLLLPALPEEVQR				NA	NA	NA	NA	NA
AK009_07866	639		COG1132	Putative multidrug export ATP-binding/permease protein	ATGACGCTGTGCGGGCGCGACATCGCTGCGCTCGGCGTGGAGACCTTGCGGGCCTCGACAGGCGTGGTGTTCCAGGAGCCGGCGCTGTTCTCGGGCAGTGTGCGCGACAACATCGCCTACGGCAAGCCCGACGCCACCTTCGAGGAAATCGTCGCGGTGGCCAAGCGCGCCGGCGCCCACGGATTCATCACCGGGTTCAAGGGCGGCTACGACACCATCATCGGCGAGCGCGGCCTACGCCTGTCCGGCGGGCAGAAGCAGCGCGTCGCCGTCGCGCGCGCCATGCTCAAAGACGCCCCCGTGCTCATCCTCGACGAGGCGACCTCCGCGCTCGACACAAAATCAGAGCGCGCCGTCCAGGCGGGACTCGACGAGCTGATGAAGGACCGCACCACCATCATGATCGCACACCGGTTGTCCACCATCGCCGACGTGGACACGATTATCACGCTTGCCGACGGTCGCATTGACGAGATTGGATCCCCTGCCGAGCTGGCGGTCTCCGGCGGCATCTACTCGGAGCTGTTACAACTTACTGCTTCATCGAGCACATCCGACCGCGCCCGATTGAAGAAGTTCGGTTTCAAGATTGACGGCGACGATCAGGAAGAGAATACCGAGGAAAACCCTTTGACTTAA	MTLCGRDIAALGVETLRASTGVVFQEPALFSGSVRDNIAYGKPDATFEEIVAVAKRAGAHGFITGFKGGYDTIIGERGLRLSGGQKQRVAVARAMLKDAPVLILDEATSALDTKSERAVQAGLDELMKDRTTIMIAHRLSTIADVDTIITLADGRIDEIGSPAELAVSGGIYSELLQLTASSSTSDRARLKKFGFKIDGDDQEENTEENPLT	PGPT0029145_311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
AK009_07867	555			hypothetical protein	GTGGGCGACCTCGCGCACGCGCGGGACGTTGGAGGCGCTGGTGGCGGCGACGATGTCTTTGTTGGCGGTGGGCTCTACATCCTCGTCCATCACTTTGAAGTAGTCGCGCGAGCCAGCGACGGCGCGCTGCGCGGAGTCGACCACCCAGCTCATCATGGACACCGGCTGGCGCGCCATGGTGACCAACTGCACGAGCATGACCATATCGCCGATGGTGAAGTGGCCGCCCAGGGTGCGCTCGAAAAGGATGAGGTAGATGCCCAAGAAGATCAGGTTCATCGCGATGCCGCGCACGGCGTCCATGGAGTGCCACCACCGCGACTGCGGCCGGGTCAGATCGACGGTGTTGCCGTAGTGGGTGGCGAACTTGTTCAGCTCGCGGGTCTCCGCGAGGAAGGACTTCGTCACCTTGACCTGGCCGACGACCTCGGCGAAGCGGCCGTTGCCCTCGTCGATCTCGGCGTTTTTCGCCTTCTCCCACTTTTGCCAGCGTGTCGACGTCAGCGCCGTGAGCCACACGTAGAGGGGGAACAGTGCGGCGAGCAGGACAGTTAG	MGDLAHARDVGGAGGGDDVFVGGGLYILVHHFEVVARASDGALRGVDHPAHHGHRLARHGDQLHEHDHIADGEVAAQGALEKDEVDAQEDQVHRDAAHGVHGVPPPRLRPGQIDGVAVVGGELVQLAGLREEGLRHLDLADDLGEAAVALVDLGVFRLLPLLPACRRQRREPHVEGEQCGEQDS				NA	NA	NA	NA	NA
AK009_07868	549			hypothetical protein	ATGACCTCTAGGTCCGCCCGCTTCGCCGCCGTCGCGCTCGCCTGCGCGCTGCCACTGTCCGCGTGCGGTGGGCCCACGGAGGACGACACGGCGGGCGCCCAGGCCCCGCTGGAGGTCACCACCCCGACCGCGCCGCCGCAGGAGGAGTTCAAGGTCGAAGATGTGGACAACATCGTCTCCGAGGAGCTGACTGGCGAGCGTGTCGACGACCCCGCGATGGAGCTGTCCTACAAGTGGCAGGGCGCCTCGAGCGCGCCCAACGGCGGGTCCGTGCTGGTTGTCGCCGTGACCAACAATTCTGAGGTCCCGATGCCGGCGGACGCGTTGGCGCAGCCGACGCTGAGCTACACCACCGGCGGCAACAACAAGGAAAACGCGGCGCCGCTCAGTGCCGAGGCATCCGGCGTGGACATCATCGGCCTCGATCAGCCGCTGCGCGCCGGCGCGACCGTTAACGCTAAGTATGCCTTTGACGTCACGCCGGGTCGGCTGTGGGACGCCGACTTCACCATCGGCAACGTCACCTTCTCCGGCAAGCTCAACGGCTAA	MTSRSARFAAVALACALPLSACGGPTEDDTAGAQAPLEVTTPTAPPQEEFKVEDVDNIVSEELTGERVDDPAMELSYKWQGASSAPNGGSVLVVAVTNNSEVPMPADALAQPTLSYTTGGNNKENAAPLSAEASGVDIIGLDQPLRAGATVNAKYAFDVTPGRLWDADFTIGNVTFSGKLNG				NA	NA	NA	NA	NA
AK009_07869	108			hypothetical protein	ATGGTGGGCGGGCGCGCCCGATTCGCTGACGAACTCCGCCTGCCACACGCGCCCCGGCGCGCCCTCGGCGACGCGGTCCACGAAGCGCCGGATCAGCGAGTCGGATAG	MVGGRARFADELRLPHAPRRALGDAVHEAPDQRVG				NA	NA	NA	NA	NA
AK009_07870	312			hypothetical protein	ATGCTTCGGGTCGATCGCGCGGCACGCCTCGAGGTAGGCGCTAGCTGCGCCGGGGGCGAGCCCCATGAACCGCCCGATTGCGCTCACGGTCGCCGCGCCGAGGCCCATCGCGTCGGTTCGCGCGCCGGAGCGGTAAAACTCGTCGCGGGTGGAGGTGACAACGATGTCCACCTCGGCGAGCTCGGCCGGGTCGAGCGGGCCTGGCCCGAGCGCGAGGTCGGTGACGTGCCGGGTGCGAAAGCGCCGGTAGCCGCGCGCGAGCCGGCGCGGGTCAGCGGCGCTCAGCTTCTCGCGGGTAATCGGCATGCTTAG	MLRVDRAARLEVGASCAGGEPHEPPDCAHGRRAEAHRVGSRAGAVKLVAGGGDNDVHLGELGRVERAWPEREVGDVPGAKAPVAAREPARVSGAQLLAGNRHA				NA	NA	NA	NA	NA
AK009_07871	420			hypothetical protein	GTGGGCTGGGTCGTCGTCGGGGAATTGCACCAGCCCGGCGAGGTCGAGGCGATAACCGAGGCGCACCTGGATCACGCCCTGGGCCGCGAAGGCGCCCGCGCCGGTGTCTGGGTCGGCGTGGCTGCCGATTTCGAAGCGCCCGCCGTGGATCCACACCATCACGGGCAGGTCGTCGGCGTCGGTCGCGGACGCTGGGGTGGTGATGGACAGGGCGGTTTTCTCGGGGCGTGGGGTGGTGGCGTCGATAAGCAAGCCCCGGGCGGCGGGCACCGCATCGCTAAAAGGGGAGCTGATGTGGGAGTACTCGATCGAGTGGAAGTGTCGCGCGGCGCCGTCGACGACTCCGACGACCGTGCCGGCCGGGCAGGTTACCTCCGCGGTTTTCATGGGGGCGAGTCTAACGAATGCGGGCGCGTCTAG	MGWVVVGELHQPGEVEAITEAHLDHALGREGARAGVWVGVAADFEAPAVDPHHHGQVVGVGRGRWGGDGQGGFLGAWGGGVDKQAPGGGHRIAKRGADVGVLDRVEVSRGAVDDSDDRAGRAGYLRGFHGGESNECGRV				NA	NA	NA	NA	NA
AK009_07872	189			hypothetical protein	GTGCAGGCGCTTCGACTCCTCGTCTTGCGGCACCTCAACCTCCTTGAGGCGCGCAAACAGCTGGTCGTTTTGGTAGATCGAGTCCATGTGCGCCGACAGCTTGGGCACGATGCGATCGGCCACCGCGTCGAATTCCTCGGTGCTGTCGGTGCCCTGCAGGTTGAAAAACCAGGCGGCGACCCGGTCTAG	MQALRLLVLRHLNLLEARKQLVVLVDRVHVRRQLGHDAIGHRVEFLGAVGALQVEKPGGDPV				NA	NA	NA	NA	NA
AK009_07873	1551			hypothetical protein	ATGGGAAGCTGCAGCCAGGGCGAAAGGTCAAACACCGCGCACCCCTGTGCCCTCGAGCCCACGGCGTGCAAGCAGCGGGCGGGTGTCCTTGTCGCGGCCGCGGAACGCGCGGTAGGCCTCGGCGTAATCGCTGGCAGCACCGCGCGACAGGATCGCCTCGCGGAACTTCTCGCCCGTCTTCCGGTTGATGCCCTCCTCGGCCACCAGGCCGTACCCGTCGGCGTCGAGCGCCTCGGCCCACAGGTAGGAGTAGTAACCCGCGGAGTAGCCGCCGGCGAAGATGTGGTTGAACCAGGTCGAGCGGTAGCGCGGCTCGAGTCCCTCGATATCCAGGCCGTAGCTTGCCAGCACGCCGCGCTCGAAGTCGGCGATGTCCGACGCGGTGCCCTGCGGGATGGCGGCGGAATCATCAATCGAGTGCCACGCCAGATCGATCGCGGCGGCGGCGAGGTACTCGGAGGTGTCGAAACCCTGCCCGAACTGCCTAGATGCGCGCACAGCCTCCAGCAGCTGCTCGGGGATCACGTCCCCGGTGTCAACGTGGCGGGCGTAGTTGCGCACGATCTCGGGCGCGAACGCGTAGTTCTCGTTGATCTGGGAGGGAAACTCGACCCAGTCTCGGGGCACGTTCGTGCCGGACAGCGAGGGGTAGCGCACATCCGAGAGCAGCCCGTGCAGGGCGTGGCCGAACTCGTGGAACACGGTGGTGACCTCGTCGATGCTCAAGCGCGTCGAGGCCAGCGACATCACGTTGACCACCACGGCCTTCTTGCCGGTCAGGCGCGACTGGTCGACGAACGAGCTCATCCACGCCCCGCCGCGTTTCGACGGCCGCGCCGCGTAGTCCGTCAGCAGCAGGCCGAGGCCCTCGCCACCGCGCTCGGGGGCGTCACACACCTCCCACACGGCGACGTCGTCGCGGTAGCCGCGCAGGTCCTCGCGCTTGGTCACGGTGATGCCGTAGAGGAGCTCGGCGGCGTAGAAGACGCCGTCGACAAGCACCTGCTCAAGCGGGAAGTAGTTGCGCAGCTCGGCCTCGTTGAGCTCAAGCTCCTCCTCGCGGCGCCGCGCCTGGTAGAAAGGCCAGTCCGCGCCGTCGAGTTCACAGCCGGCGAGCTCGGAAGCGAGCTTGAGCTCGGCCGCGGCGTTCGCGGCGGCGGCAGGGGCCAGGTCGGCGATGAGCTGGCGCGCCGCGGACGCCGTCTCCGCCGTCTCTTCGGCGATGACGTAGTCGGCGTGGGTGTCAAAGCCCAGCAGACGCGCGCGCTCGAGGCGCAGGCGCGCCGACTCGGCGACCAGCGGGGCGTTGGAGGTTGCGCCGCGGGCGCGGGAGGCGTCGAAAAGCGCGCGGCGCGCTGTGGGCGAGGTCAGCTCGGACTGCAGCGACTGGGTGGTCGGCAGCTCGAGGGCGATGGTGTAGCCCTCGCCGTCGCGGTAGGAGCTTTTCTGCTCCTCGCTCAAACCATCGAGCTCGGCCTCGGGCAGCGAAACCGCGAGCGAACGGGTGTCGGCGAGCAGGTTGCGGCCGAACTCCTCGGACAGCTGGCTTAG	MGSCSQGERSNTAHPCALEPTACKQRAGVLVAAAERAVGLGVIAGSTARQDRLAELLARLPVDALLGHQAVPVGVERLGPQVGVVTRGVAAGEDVVEPGRAVARLESLDIQAVACQHAALEVGDVRRGALRDGGGIINRVPRQIDRGGGEVLGGVETLPELPRCAHSLQQLLGDHVPGVNVAGVVAHDLGRERVVLVDLGGKLDPVSGHVRAGQRGVAHIREQPVQGVAELVEHGGDLVDAQARRGQRHHVDHHGLLAGQARLVDERAHPRPAAFRRPRRVVRQQQAEALATALGGVTHLPHGDVVAVAAQVLALGHGDAVEELGGVEDAVDKHLLKREVVAQLGLVELKLLLAAPRLVERPVRAVEFTAGELGSELELGRGVRGGGRGQVGDELARRGRRLRRLFGDDVVGVGVKAQQTRALEAQARRLGDQRGVGGCAAGAGGVEKRAARCGRGQLGLQRLGGRQLEGDGVALAVAVGAFLLLAQTIELGLGQRNRERTGVGEQVAAELLGQLA				NA	NA	NA	NA	NA
AK009_07874	1047			hypothetical protein	GTGCTTCGGGGAGCCCCCGGGCTGGGTGGACTCAAACCACAGCACCGAGGTGCCCAGGATTCCCTTGTCCCGCAGCACGTCCTGGACCCACGGCTCGAAGGTGCCCAGGTCCTCGCCGACGACGATCGCGCCGGCGCGCTGCGCCTCCAGCGCGAGCACGCCGATCATGGCTTCGTGGTCGTAGTTCATGTACGCGCCCTCGGTCGGCGACTCCATGCGCGGGATCCAGAACAGGCGGAACAGCCCCAGGATGTGGTCGACGCGCACGCCGCCGGAGTGGCGCAGGACGGTGCGCAGCAGGTCGCGCCACGGTGCGTACCCCGCCTCGGCCAGGGCGGTGGGGTCCCACGGCGGCTGGGACCAGTCCTGGCCCTGCTGCGAGTACTGGTCCGGCGGGGCGCCGACGGAGGCGTCCTGGACAAGCACGTCGCTCAACGTGGCGGCATCCGCGCCGCCGGGGTGGACGCCGACGGCGAGGTCGGTGACGATGCCGATGTCCATCCCGGCGCCCTTCGCCCGCTGCTGGGCGGCGCGGCGCTGCTCGTCGGCGACGAACTGCAGCCACATGTAGAAGCGCACCGTCTCCTCGTCGTGCGCGCCGCCGCGTCCGGCATGGCGCCCGCTGTCGCTCACGCGCTCGGCGCACCACCGCGCGAACTCGCGCAGGCCCTCGCCCTCGCTTGCGGCGAAGGCCTCGAACTCCTCGAGGCGCTGCGCGTCGTGCTCGGCGACGTAGAACATCTCCCGCGCCGCCGCGAGCTTGACGGCGTAGATCGCGTCGCGCTCGATCGGCTCGGCGGAGGTGTTGGTGTCCTTCAGCGGCGCGGCGGCGGCGAGGATCTCCTCGCGGATCTCCGGGTCAAGGCTGGAGAACTCGGGGACGTCCTCGATCGCGATGTAGATGGGGTTGATGAAGCGCCGCGAGGTGGGCAGGTACGGCGAATCCTCCACGGGAGGTTCCGGCTCGGCGGCGTGGACCGGGTTGATCAGCAGGTAATCCGCACCTTCGGCACCCACAACCTCGGCGAGCAGCCCGAGGTCGCCTAA	MLRGAPGLGGLKPQHRGAQDSLVPQHVLDPRLEGAQVLADDDRAGALRLQREHADHGFVVVVHVRALGRRLHARDPEQAEQPQDVVDAHAAGVAQDGAQQVAPRCVPRLGQGGGVPRRLGPVLALLRVLVRRGADGGVLDKHVAQRGGIRAAGVDADGEVGDDADVHPGALRPLLGGAALLVGDELQPHVEAHRLLVVRAAASGMAPAVAHALGAPPRELAQALALACGEGLELLEALRVVLGDVEHLPRRRELDGVDRVALDRLGGGVGVLQRRGGGEDLLADLRVKAGELGDVLDRDVDGVDEAPRGGQVRRILHGRFRLGGVDRVDQQVIRTFGTHNLGEQPEVA				NA	NA	NA	NA	NA
AK009_07875	507			hypothetical protein	GTGCCACCCGACGGGAAGGTCGCCGGGAACGTGGAAGGTGGCCTCCCCCCACGTGGTCCCGTCGGCGGCGGTGTAGGGCGCGGTCCAGTTCTCATCCTGGTAGGCGTCGCGGCTGGAGCCGTCCTCGAGCCGGATCCAGCAGTGGGCGGGATGGCCGTCGTGCACGTGGGCGTTGAAGTGCTTTTCGCTTCCCGCCGTGGCCACCACGCACGCGGGCAGCGGCCGGGTGGCTTCGCGCTCGCGCTTGGCTTCGAGGAAGAACTGCAACTCCTCGGCGCCGGGAGTGTCGGTAAGTTCCACCCCGAGGGCGCGGAGCAGCTGTATGTAGGAGGAAGCAGGGGGCTCGGTGATCAGACCGTTCGATGCCCGGTAGTGAGATCCGAGCCCGTAGGCGGTAGCAAGGGCCATGAGGTGGTCTGGGTGCGTCACATCAAGCAATTGTGCCAAAAGTCACCCGGCGTCGTCATTGGAGTGACACGTAAGGGTAGTGTTGTCGACTATGACTAG	MPPDGKVAGNVEGGLPPRGPVGGGVGRGPVLILVGVAAGAVLEPDPAVGGMAVVHVGVEVLFASRRGHHARGQRPGGFALALGFEEELQLLGAGSVGKFHPEGAEQLYVGGSRGLGDQTVRCPVVRSEPVGGSKGHEVVWVRHIKQLCQKSPGVVIGVTRKGSVVDYD				NA	NA	NA	NA	NA
AK009_07876	426			hypothetical protein	GTGCGCGGCAGTCTCGGCAAAAACGAGCTTCGCGCCGGAGTCCTCGAGAATCCACTCGATCTGGTTCTCGGAGCTCGACGGATAAATCGGCACAGTTACCGCACCCGCGGTGAGGATGGCAAAGTCCGCCAGGGACCATTCGTAACGCGAATCCGAAAGAACCACGACGCGGTCCCCCGGCTCAATACCGTTGGCGATCAACCCCTTGGCCAACGCGTACGCGCTGGCGACGAAGTCATGGGCGGTGATATCGACCCATCCCGCACCGTTCGGCCTTTGGAACAAGACGACCTCCGGGCGGGACTCGCTCAGCTGAATAACGTCGCTGACGACATTCTCTTCTGGCTGGATGGTGAAATCAGGTTCAACGGTAAACGTGGCACTAGTCATAGTCGACAACACTACCCTTACGTGTCACTCCAATGA	MRGSLGKNELRAGVLENPLDLVLGARRINRHSYRTRGEDGKVRQGPFVTRIRKNHDAVPRLNTVGDQPLGQRVRAGDEVMGGDIDPSRTVRPLEQDDLRAGLAQLNNVADDILFWLDGEIRFNGKRGTSHSRQHYPYVSLQ				NA	NA	NA	NA	NA
AK009_07877	120			hypothetical protein	GTGGGTGATGTTGGCGACCCGGTCGTCGACAAGCGCCTGCTCCACATCTGTGCCGTCCGAGGTGATCTGTTCGATGCCTTCGGACTCGAATTCCACGACGCGCACACCCTCCTTGCCTGA	MGDVGDPVVDKRLLHICAVRGDLFDAFGLEFHDAHTLLA				NA	NA	NA	NA	NA
AK009_07878	204			hypothetical protein	GTGAGACTGGGTCGCCCCCGCGATCATGAGGGTGAAGGTCACGGCACGCTGGAGGACGTGGGCCAGCGGCAGGAATATCACGGCGTGCTTGCCCACAGGGTCACCGAGCGAGGTGACAATCTTGCTCGACAGCAGGCCGCGAGCCTCGTGGTACCAGTTGATGTGAGTCAGGTTGACTCCCTTGGGGCGCCCGGTCGTACCTGA	MRLGRPRDHEGEGHGTLEDVGQRQEYHGVLAHRVTERGDNLARQQAASLVVPVDVSQVDSLGAPGRT				NA	NA	NA	NA	NA
AK009_07879	2256			hypothetical protein	GTGCTCGAACCCGGCGTCCAGCGCCTCTTTCGCCGCCGAGACGGCGCGGCCCGGGGTGTGCATACGGTCGAGCACCTTGAGAACAGGTGTCGAGGCGGACTGCATCCCCAGCGACACCCGGGTGAACCCGGCTTCAAGCAGGCCCTCGAAATACTCCGGGCTGGTGGACTCCGGGTTCGACTCCGTGGTCACCTCCGCGCCAGGTTTCAGACCGACGTGGGTGTGCACCATCTCCATGATGCGACCCAACCCCGCCGCCCCGAGCAGCGAGGGCGTTCCGCCTCCGATGAACACGGTGTCCGCGGGGGAAGTATCCGCCTTCGCCAACTCGGCTTCCAGCGCGCGCAGGTACGTTTCGTGCGAGGTTTCGACCTCGGTGGGCGTGTAGGTGTTGAAATCGCAGTAGCCACAGCGGGTCGCGCAGAACGGCACGTGGATGTACAGGCCGAACAAGATCTAGGCACCCCGGCGCGAGCGCTTCGCGGCGACCTTGGCCACGATCGCGTCAATCCGCGCGCGCTCCGCCAAAAACGTCGGCGGGTTCGAACCGCGCATCGTGCGGGTGAACGCGGGGTGGTCGACGCAGACGGTTTCCATCCACCCTTCGACAGCAGCCTCGACGAGCTCGCCGACGCGGGCATAAAGGTGCGGCAGGCTCACCGCACCGAGTTCGCGGGCGACCATGTCGGTTTGCTCGAGGGTGAAGCTGACGATTTCGGTCAGATGCTGCACAGTCAGCTCGGTACGGCCGGTCAGCGCGTCGTTCATCGTGCGCACCGAAAACGGCGCGGTAAGCGGGTAGAGGTCTTCCAGGCCGATCGCGTCGAGGAACTCCGGTTCAGGGATGCGCTCCTCGGCGGACGCCGAGGCGGAAAGCACGCCGGCGCGCATCCCCGAGGTCAGCGCTTGCCGCAACCCGATCAGCTCGCCGACGACGCGGCGCGCGTCCTGGCGGGCGTCATCGATGATTTCCGAGAACTCTGCGAGGCAGTCGTCAGTGAGCTCGCCGTCGTAATCGGCAATCGATTCCGCGATGTGCTCGATATACTCCGCGACCTCGTCACCGATGTTGTAGATTTCCTGGGTCAGCTCACGATGGCGCAGCACCGCGGCGGTTTTCTGCACGATCCATCCCCCTTCAATCTACCTTTGCAACATGTGACGATTCGCTGGGGAAATGGTAGCGCCCGCGCGGTGAGAATCCGCGCGGCGCGCCGAGACTTAGCGTTGGTAGAGCGCTTCGATCTCGTCGGCGAAGCGCTTGACGACGACGTTGCGCTTGACCTTCATCGTCGGGGTGATCTCGTCCTCTTCCTCGCGCAGGTCGCGCTCGAGGATGCGGAACTTCCTGATTCCCTCCGCCTTGGACACGGTCTTGTTTGCCGTGTCCACGGCGGACTGCACGGCCGCGATCAACTTGTCGTTGTTCTTCAGCTCGCTGAGCGGAGCGTTCTCGTCGATGCCGTTCTTCGCCTTCCACCGCTTCAGCTCAGCCTCGTCGATGGTGACCAGCAAGCCGACGAACGGCCTGCCATCGCCGACCACGATGGCATTCGCGATCAGCTCGTCCTGGGTAAGGACCTCTTCGAGCGGGCCCGGGGAAACATTCTTGCCTCCAGCGGTAACGATGAGATCCTTCTTACGTCCCGTGATGCGGATGAAGCCGTCGTCGTCAATCTCGCCGAGGTCTCCGGTGGAGAACCAGCCGTCCTTCATGGACGCCTCGGTGGCCTCGGGGTTATTCCAATACGACTTCGATACACCGTCACCGCTGAACTGAATTTCGCCTTCCTCGGTCACACGCGCCTTAAAGCCCGCCACCGGGCGACCGACGGTGCCGATGCGCATCTGGCCGGGCTCGTTCACGGAGGCAGCGGCAGTCGTTTCGGTCAGACCGTAACCTTCGTAAATGGTGATCCCCATGCCACGGAAGAAGTGCAACAGGTCGGCGCCGATCGCCGAGCCGCCGGAGATCGCGACCTGCACCTGCCCGCCCATCGCAGCCTTCACCTTGGAGTAGACGAGCTTGTCAAACAACGTGGCTTTTGCTTTAAGCAGCAAGCCGGGGCCCTTGGTAGTATCCAGCGCCTTGGAATACTCCACGGCCGTCTTGTCTGCAGCCAGGAAGATTCGCTTCGCCACGTCGGAACTGTCGGCCGCCTGGTTGTAAGCCCCCGCACGAACTTTCTCGAACACTCGTGGCACGCCGAGCACCAGGGCGGGCTTGGAGCGCTGGAATTCCTTGGTGATGGTTGA	MLEPGVQRLFRRRDGAARGVHTVEHLENRCRGGLHPQRHPGEPGFKQALEILRAGGLRVRLRGHLRARFQTDVGVHHLHDATQPRRPEQRGRSASDEHGVRGGSIRLRQLGFQRAQVRFVRGFDLGGRVGVEIAVATAGRAERHVDVQAEQDLGTPARALRGDLGHDRVNPRALRQKRRRVRTAHRAGERGVVDADGFHPPFDSSLDELADAGIKVRQAHRTEFAGDHVGLLEGEADDFGQMLHSQLGTAGQRVVHRAHRKRRGKRVEVFQADRVEELRFRDALLGGRRGGKHAGAHPRGQRLPQPDQLADDAARVLAGVIDDFRELCEAVVSELAVVIGNRFRDVLDILRDLVTDVVDFLGQLTMAQHRGGFLHDPSPFNLPLQHVTIRWGNGSARAVRIRAARRDLALVERFDLVGEALDDDVALDLHRRGDLVLFLAQVALEDAELPDSLRLGHGLVCRVHGGLHGRDQLVVVLQLAERSVLVDAVLRLPPLQLSLVDGDQQADERPAIADHDGIRDQLVLGKDLFERARGNILASSGNDEILLTSRDADEAVVVNLAEVSGGEPAVLHGRLGGLGVIPIRLRYTVTAELNFAFLGHTRLKARHRATDGADAHLAGLVHGGSGSRFGQTVTFVNGDPHATEEVQQVGADRRAAGDRDLHLPAHRSLHLGVDELVKQRGFCFKQQAGALGSIQRLGILHGRLVCSQEDSLRHVGTVGRLVVSPRTNFLEHSWHAEHQGGLGALEFLGDG				NA	NA	NA	NA	NA
AK009_07880	1323			hypothetical protein	GTGGGTGAGGTTGGCGGCACCCGCGATGAGCAGCCGGTCGCTCGGGGTGTCCACGAGCGTTTCAATGAGCACCGCGGTGGCGCGCTCGACGGCGTCCGCAATCCGCGCGTCGGCGAGCTCCGCCAGCTTCGCCAGCGACGTCGAGGCCTCCGACATCGTGGCCCCGACCAGCACGGTGTTGAGGGCGTCGCGGAGCAGGCGCACGTCCTCGACGGCGAGTGCGGTGGCGAGCTCGACGTTGCGCTGGTCCACCCGGCCCGAGTCGGTGATGACCACCAGGAGCAGACGCGTCGGCGCCAACGCCACCACCTCGCAGTGCTTCACCCGCGACACCTCGAGGGTGGGCAGCTGCACTACGGCGGCCTGGTTGGTAATCTGCGCGAGCAGCTGCACCGAGCGGCGCAGCACGTCCTCAAGGTCGGTGCCGTTTTCCAAAAAGTCCAAGATCGCGTGGCGCTCCGGCGCCGAGAGCGGCTTGACCCCGTGCAGCGCGTCGACGAAGGCGCGGTAACCCTTCTCCGTGGGCACACGGCCAGAACTGGAGTGCTGCTGGGCGATGAAGCCCTCCTTTTCCAGCACCGACATGTCGTTGCGGATCGTCGCGGAGGAAACGCTCAGGTTGTGCCGCTGCACGAGCGACTTCGAGCCCACCGGCTCCTGCAGGGCGATGTAGTCGGCCACGATGGCGCGAAGCACCGCCTGCCTGCGATCTTCTGCCCCACTCATGCCCACCACCTTACCCGCGCGCTATTCCGCCGCCAGAATGTCGGTGATGATGCCGTCGGCAAACAGGCGCCCCGCGTCCGTGACCGCGACCCGCTCGCCCACGGAGAGCAGACCCGCGCGCGCATGCTCGTCGACGACCCCCCACGCGCTCTCGCCTATCCACTCGCGCGGGATTCCCTCCTTCAACCGCAACCCCAGCATGATCGCCTCGAAGTGTTGCTCCTGCGCGGTCAAAGATTCCTGATCCGCGATAGGCAGCGATCCGCCGGCGAGCAGCTCGCTGTAGCGTTCGGGGCGCTTGACGTTGTGGAATCTCGTGGTGCCGATGAAGCTGTGGGCGCCGGGGCCAGCTCCCCACCACTGCCCCCCGCGCCAGTACAGGAGGTTGTGCCGGCACTGCCCGCCTTCACGCGCCCAGTTAGACACCTCGTACCAGCCGAAGCCAGCGTCCTCGAGGGTGCCCGAGATGATCTCGTAGCGGTCGGCGTAGACGTCCTCGCTCGGTGCCGGCAGCTCCCCGCGACGGACCTTCCGAGCCATCGCGGTGCCGTCCTCGACGATCAGCGAGTACGCGCTGACGTGGTCGACGCCCGTTGA	MGEVGGTRDEQPVARGVHERFNEHRGGALDGVRNPRVGELRQLRQRRRGLRHRGPDQHGVEGVAEQAHVLDGECGGELDVALVHPARVGDDHQEQTRRRQRHHLAVLHPRHLEGGQLHYGGLVGNLREQLHRAAQHVLKVGAVFQKVQDRVALRRRERLDPVQRVDEGAVTLLRGHTARTGVLLGDEALLFQHRHVVADRRGGNAQVVPLHERLRAHRLLQGDVVGHDGAKHRLPAIFCPTHAHHLTRALFRRQNVGDDAVGKQAPRVRDRDPLAHGEQTRARMLVDDPPRALAYPLARDSLLQPQPQHDRLEVLLLRGQRFLIRDRQRSAGEQLAVAFGALDVVESRGADEAVGAGASSPPLPPAPVQEVVPALPAFTRPVRHLVPAEASVLEGARDDLVAVGVDVLARCRQLPATDLPSHRGAVLDDQRVRADVVDAR				NA	NA	NA	NA	NA
AK009_07881	855			hypothetical protein	ATGCAGGTTGTCGCCCTCACGCGCGAAAACTGGGTGCGGCTGCGTGTGAACCTCGACGTACAGATCGCCTGCGGGCCCGCCGCCGTGGCCGACCTCACCCTGGCCCGCCATGCGGATCCGCATGCCGTCGGCGATACCGGCCGGGATGTTCACAGTCAAATCGCGGCGCGAGCGCACCCGGCCATCTCCCGCGCACTGGCGGCAGGGATCCTTGATCAGCTCGCCGAACCCGCGGCACTTGGGGCAGTCGCGGGTGGTCATGATGTTGCCGAGGAAAGACTGCTGGACCTCCTCAACCGAGCCAGTGCCGTGGCAGTGGTCGCAGGTCACCGGCTTCGACTTCGATTCGGACCCGGTGCCGGTGCAGGCGTCGCACAAGACGGCGGTGTCGACGGTGACTTCCTTCTTTACGCCGGTGAAGGCGTCGTCAAGCGTAATGGCGGTGCGCAGCAGGGCGTCATTGCCGGGCTGCACGCGCGAACGCGGCTCACGGCCCTGGCCTGCGCCTCCGAAGAAGGCCTCGAAAATGTCGCCGAAGCCACCAAACCCGCCTGCCCCGCCCGGCCCGGCGGCGCCTTGCTCCATCGGGTCGCCGCCGCGGTCAACGATGTGGCGCTTGGAGGGGTCGAGCAACACCTCCTGCGCCATGGAGATCTCGCGGAACTTCTCCGCGGCCTCCTCGGACGGGTTGACATCCGGGTGGTACGTGCGCGCCAGCTTGCGGTACGCCCTCTTAATCTCCTGCTCGGTCGCCTCGCGGTCGACGCCGAGGATCCCGTAATAGTCACGAGCCACTGTCTCAGATACGCCTTTCTAAAAAGCTTCTACTCTCCACGCAGGATCCGGCTAATGTAG	MQVVALTRENWVRLRVNLDVQIACGPAAVADLTLARHADPHAVGDTGRDVHSQIAARAHPAISRALAAGILDQLAEPAALGAVAGGHDVAEERLLDLLNRASAVAVVAGHRLRLRFGPGAGAGVAQDGGVDGDFLLYAGEGVVKRNGGAQQGVIAGLHARTRLTALACASEEGLENVAEATKPACPARPGGALLHRVAAAVNDVALGGVEQHLLRHGDLAELLRGLLGRVDIRVVRARQLAVRPLNLLLGRLAVDAEDPVIVTSHCLRYAFLKSFYSPRRIRLM				NA	NA	NA	NA	NA
AK009_07882	249			hypothetical protein	GTGGCCGGCGTCCTCGCTGGCCACCGACGCGGAGTGGGCGTGGCCGTCGCGCAGGCCCTCGAGCGCCTCGCGCTCCTCGGGGCGAAGCTCCGTGGGCACGACTACCTCAATGTGCGCGATCATGTCGCCGGCCTCCTGGCTGCGCAGCCGCGGCATGCCAGCGCCGGTGAGCACGACGCGCTCGTTCGGCTGGGTGCCTGCCGGCACCTCAATCGAGGCCTCGCCGCCGCTGAGAGTATCCACCGTTAA	MAGVLAGHRRGVGVAVAQALERLALLGAKLRGHDYLNVRDHVAGLLAAQPRHASAGEHDALVRLGACRHLNRGLAAAESIHR				NA	NA	NA	NA	NA
AK009_07883	1230			hypothetical protein	GTGGCGATCGTAGGCCTCGACGATGCGCGAGATCAGGTGGTGGCGCACCACGTCCTCCGCGCTGAGCTCCTCGATGTAAATGTCGTCGATGCCACCGAGGATGCGCCGCGCCACGCGCAGCCCGGAGACCGTGCCACTGGGCAGGTCCACTTGGGAGACGTCACCGGTGACCACCATCTTCGAGCCGAAGCCGAGGCGGGTCAAAAACATCTTCATCTGGCTGCCCGTGGTGTTCTGCGCCTCGTCGAGGATGACGAAGGCGTCGTTGAGCGTGCGCCCGCGCATGTACGCCAGCGGGGCGACCTCGATGATGCCGGCATCGAGCAGCTTCGGGATCATCTCGGGGTCCAGCATGTCGCGCAGAGCGTCGTAAAGCGGGCGCAGGTACGGGTCGATCTTGTCGTTGAGCGTGCCGGGCAGGAAGCCGAGCTTCTCGCCGGCCTCGACGGCCGGGCGGGTCAGGATGATGCGTTTGACCTGCTTGGATTGCAGCGCTTGGACCGCCTTCGCAACCGCGAGGTAGGTCTTGCCCGAACCCGCAGGCCCGATGCCGAACGTGATGGTGTTCTCGTCGATCGCGTCGACGTAGCGGCGCTGGCCTGCGGTTTTCGGCCGAATCACCTTGCCGCGGCGCGCCACGATCTCGGCGCCGAGGATCTCCGCGACCGACTCCGGCGCCTCGGTCTCCATAATCCGAGTGGCGTGGACCACGGTGTCGGGCCCGACAGGCACCCCGCGGCGCGCCATCGATTCAATCTCGTCGAGGACCCGGGTGGCGTGGGCCACCGCGGCGACGGGCCCGCGCAGCGTGACCGTGGTGCCGCGGGCGTGGATGTCCGCGCCGAGCTGCTGGTTCAGCACCCGCAGGTTGTCGTCGTTGATACCGAGCACCGCCTGGGCGTAGGTCGAGTCGAGCTCAACCTTGCGCGTCACCAGTTCTTCCATAATGTGAAACCCTACCAGCGCCCCGTGACAGCGCCGATCGCGCACAGCGCCGCGAGCCCCGCCGAGGCTGTGCGCAACACCTCCGGGCCGAGTTTGACGGCCTCGGCGCCCAGGCTCTCGAGCTCCTCGGGCCCGATGCCGCCCTCCGGCCCGACGATGACAAAGACCTCGTCGGCGAACTCGATGTCCGTGATCGACCGCTTCGCGTCCTCGTGCAGAACGAGCGCCTGCTTGCCGACAACCCGCTCGCGCAGCTGGTTCGTCGTCACAGGCTCCGCCACCTGA	MAIVGLDDARDQVVAHHVLRAELLDVNVVDATEDAPRHAQPGDRATGQVHLGDVTGDHHLRAEAEAGQKHLHLAARGVLRLVEDDEGVVERAPAHVRQRGDLDDAGIEQLRDHLGVQHVAQSVVKRAQVRVDLVVERAGQEAELLAGLDGRAGQDDAFDLLGLQRLDRLRNREVGLARTRRPDAERDGVLVDRVDVAALACGFRPNHLAAARHDLGAEDLRDRLRRLGLHNPSGVDHGVGPDRHPAARHRFNLVEDPGGVGHRGDGPAQRDRGAAGVDVRAELLVQHPQVVVVDTEHRLGVGRVELNLARHQFFHNVKPYQRPVTAPIAHSAASPAEAVRNTSGPSLTASAPRLSSSSGPMPPSGPTMTKTSSANSMSVIDRFASSCRTSACLPTTRSRSWFVVTGSAT				NA	NA	NA	NA	NA
AK009_07884	414			hypothetical protein	TTGCAGCGAGAACATCTCGCGCTCGTCCTCGGGCGCGATGTGGTCGTAGCCGAGCAGGTGCAGCACACCGTGGACGGTCAGCAGCGCCAGCTCGTGACCGAGGTCGTGGCCCGCGAGCTCCGCTTGCCTACGATCAAAGGCCGGGCACAAAATGATGTCGCCAAGCATCGCCGGGCCGGGCTGCGCCGCATCCGGGCGGCCGCCGCCGGGGGTGAGCTCGTCCATGGGGAAGCTCATCACGTCGGTGGGCCCCTCGAGGTCCATCCAGCGGACGTGGAGGTCCGCCATCGTGGGCTCGTCGACGAGCGTGATGGTCACCTCGGTCTCAGGGTGGACGTCCATGGCGGCCAGTGCGAAGGAGGAGACGTCGACGAGCATCTCTTCGTTGATGTCGCCCTCGCCGGACTCGTTTAG	MQREHLALVLGRDVVVAEQVQHTVDGQQRQLVTEVVARELRLPTIKGRAQNDVAKHRRAGLRRIRAAAAGGELVHGEAHHVGGPLEVHPADVEVRHRGLVDERDGHLGLRVDVHGGQCEGGDVDEHLFVDVALAGLV				NA	NA	NA	NA	NA
AK009_07885	753			hypothetical protein	GTGCTCGGTGGTCTCCACCACCCCGCGCTCCTGGGCGATGTCCACCATCTCGCGCAGCTCGATCTCCGTGGCGTAGGGGCCCTCGCGGAAGTCGCGGCCCGGGTGGAAGAGGTTGCCCACCCAGATCAAAAGCCGCGCCACCGGGCCAAGGACCACGTTGAACGCCACGAGCCACTGGGCGGCGCGCAGCGAGATCGAGTACGGGTTGCGCCGCCCCGCCGTGCGGGCGAACACGCCGATGATGCCGAACTGCAGCAGCGTCACACCGGCGACCGCGACGAAAATCGCCCAGGAGACAGCCCCAAACAGATCCAGCGTGAACATGGCGGCGAAGACGGCGGCGGTGACGTCCAGCACCGTACGCACCATGACCAGCATGTTGACCTGATTCGCCCGCGAATCGACGACCCGCATCAGCGCCCGGGAGCCCGGGACGTCGTCCTTGAGCATGCTCTCCACGCGCGCCCGCGAGATCGGGGCGAGCGCCGATTCCACGGACCCGAGCAGGCCCGAGGCGAGCAGCGCGGCGAGCGCGACCACCGCGTATGTGACGGTGAACTCCACGAGCGCTACTGCTCCTTCATCCGGCGGTCGAGGTCGTCGCGGTCGGCGGCGGAGGGAAACGCCTGGGCCCCGGTGGGCTTCGGCTGGTACTGTACCCCGCGCGCGGCGAGGTTGTCGTACCAGTCGGCGAGGATCTCGTTTTGCAGCGAGAACATCTCGCGCTCGTCCTCGGGCGCGATGTGGTCGTAG	MLGGLHHPALLGDVHHLAQLDLRGVGALAEVAARVEEVAHPDQKPRHRAKDHVERHEPLGGAQRDRVRVAPPRRAGEHADDAELQQRHTGDRDENRPGDSPKQIQREHGGEDGGGDVQHRTHHDQHVDLIRPRIDDPHQRPGARDVVLEHALHARPRDRGERRFHGPEQARGEQRGERDHRVCDGELHERYCSFIRRSRSSRSAAEGNAWAPVGFGWYCTPRAARLSYQSARISFCSENISRSSSGAMWS				NA	NA	NA	NA	NA
AK009_07886	540			hypothetical protein	GTGCACCACGCCCGCTGGCGGCTACTGAGCGGACTGGTACTCGTCGATCACGTCGGGCAACTCGATGAGCACGCTGCGCACCTTGATGCGGCCGCGGCGGTCGCGCCCACCCTCGGCGGTGAAGCGCAGCTCGGAAACTTCCACCGAGGACCCGGGCAACGGAACGCGGCCGAGCTCGAAGGACAGCAGTCCGGCGACAGTGTCCACCGAGTCGACGATCTCGTCGTCGAAGGACAGCTCGTAGCCGACGTTGTCCTGCAGATAGTCCACCAGGTCGTCGAGAGGCAGGCGCGCCTGCGCGCGGTAGCGCGGCCCATCAAGCGGCTCGATCGGCGCCATCTCCGCCTCGTCGTACTCGTCGGTGATCTCGCCGACGATCTCCTCCAGCAGGTCCTCCATGGTGAGGAGTCCGGCGACGCCGCCGTACTCGTCGATAAGCATGGCGATGTGCGTGCCTCGCTGCTGCATCTCGTGGAGCAGTACGTCGAGCGGCTTCGACTCGGGGATGAACAGCGGCTCGCGCATCACGTCCGTGATTGA	MHHARWRLLSGLVLVDHVGQLDEHAAHLDAAAAVAPTLGGEAQLGNFHRGPGQRNAAELEGQQSGDSVHRVDDLVVEGQLVADVVLQIVHQVVERQARLRAVARPIKRLDRRHLRLVVLVGDLADDLLQQVLHGEESGDAAVLVDKHGDVRASLLHLVEQYVERLRLGDEQRLAHHVRD				NA	NA	NA	NA	NA
AK009_07887	906			hypothetical protein	GTGTTAGCACACCGTTTACAGTGCCTCTACCTCAAACTGCAGCCGCGGCTGCGCGTAGGCGTCCTGCGCCTCCACCAGCAGCAGCTCCCCTGCCCCCGCCTCGTAGGTCGTCGACAGCAAATCAAACACCGACGAGGCCGTGCGCGCCAACGCGTCCGCGGCATCACCGCTGCGGATGTAGTGGCCGGTAAACAGCGCCGAGGCCACATCACCCGACCCGTTGCGCTTAAACGGCAACCGTGGCGTGCGCACAATCCACGACCCCTTGTCGTCGACCACGATCATTTCGAGGAAGTTCTCGGGATCCGCCTCGGGGCGCTCGACGGACGTGACCAGCACGGTCCGCGGCCCCATCTCGCGGGCCGCCGCAACCGCGTCCAGCGTCGAGTCCAGGTCCGTCGCCTCCCGGCCGGTCAGGTACCCCAGCTCGAACTGGTTCGGGGTGATGATGTCGGCCACCGGCACCACGCGGTCGCGCAGCAGCGGCGGGATGGTGTCGGCGACGAAGCAACCCGACTTCGCGTTGCCCATCACCGGGTCGCACGCGTAGACGGCCGCGGGGTTGAGCTCCTTGACGCGAGCAACGGCGTCGATGATCACCCCCGCGATGTCGTCGCCGCCCTGGTAGCCGGACAGCACCGCGTCGACCTGGCCCAGCACCCCGCGCTCGTCGATACCGGCGATCACGTCCGCGACGTCCGCAGCCGGGATCATCGGGCCCCGCCACGCGCCGTAGCCGGTGTGGTTAGAGAAGTTGACGGTGTAGACCGGCCACACCTCGTGCCCGATGCGCTGCAGCGGGAACACTGCCGCCGAGTTGCCCACGTGGCCGTAAGCGACGGCCGACTGGATGGAGAGGATGTTCATAGTCCCCTATTGTGCACCACGCCCGCTGGCGGCTACTGA	MLAHRLQCLYLKLQPRLRVGVLRLHQQQLPCPRLVGRRQQIKHRRGRARQRVRGITAADVVAGKQRRGHITRPVALKRQPWRAHNPRPLVVDHDHFEEVLGIRLGALDGRDQHGPRPHLAGRRNRVQRRVQVRRLPAGQVPQLELVRGDDVGHRHHAVAQQRRDGVGDEATRLRVAHHRVARVDGRGVELLDASNGVDDHPRDVVAALVAGQHRVDLAQHPALVDTGDHVRDVRSRDHRAPPRAVAGVVREVDGVDRPHLVPDALQREHCRRVAHVAVSDGRLDGEDVHSPLLCTTPAGGY				NA	NA	NA	NA	NA
AK009_07888	789			hypothetical protein	ATGAGCGTCACGCTCACCGAAGCCAACTACGCGCTGATCAAGGTCCTGCTCGACCACAACCCCGGCCCCGGCTCCAACATTCCCGACGCCAGCGCCGACGACACCCGCATGCCCGCGCAGCGCAAGTTCGACCAGCTGTGGAACATCATGATGCAGTACGAGCACGACCGCCAGGCCAAGAACCGCGGCGCGGCCTCCGTGGTCATCTCGATCACCCTCGACGACCTCGCGGACGCCGACTTCACCACGACCTTCCCCACGAACACCGGCGCGGAGTTGTCCTGCTTCGACCTCGTGCGCCTCGGGATGGGCGGGACCGAGGACTTCATCTTGCACATCGACCGCGCCACGGGTGTCCCGCTCTCACTGGGCAGGACCCGCCTCGCCAGCGTCGAGCAGCGCATCGTGGCACTGGCCATCCAAGGCGTCTGCGCCTGGACCGGCTGCTCGGTGCCCACGTCCGAGGCCGAAATCCACCACATCCTGTCCTACATTCGCGGCGGGAACACGGATATGCAGAATCTAGCCGCTATGTGTCGCCGCCACCACCGGTTCAACAACGACACCCGAGACGGCTCGCACGGCAGATCCCACGTCGAGAGAGACCCCGCGACGGGCAGGATCGGCGTGGTCAACCCCGATGGCAGCATCGAGTACAACGACACGCAAGGGTTCCACGACTCAGCCTGGGCGAAGCTTTTCCGGCGCGGACGCATCAGCGGCCTCAGCGCCCCCGGCCTGCCACCGGACCCGCCTGTCTTTCCCGCCGAGCACAAAGCCAGCGCCTAA	MSVTLTEANYALIKVLLDHNPGPGSNIPDASADDTRMPAQRKFDQLWNIMMQYEHDRQAKNRGAASVVISITLDDLADADFTTTFPTNTGAELSCFDLVRLGMGGTEDFILHIDRATGVPLSLGRTRLASVEQRIVALAIQGVCAWTGCSVPTSEAEIHHILSYIRGGNTDMQNLAAMCRRHHRFNNDTRDGSHGRSHVERDPATGRIGVVNPDGSIEYNDTQGFHDSAWAKLFRRGRISGLSAPGLPPDPPVFPAEHKASA				NA	NA	NA	NA	NA
AK009_07889	522			hypothetical protein	ATGCCTGGAAAAGGTCTCGGCAAAGCAGGCGTACATCGACGCGGCATTCGCCCACGTGTGCGCCCGCGAGGACGCGGGGCGCCTCGTCGGCGGCAACTGGCCCAGCGGCTACCTGGAAAAGGCCCTCGGCATCTCCCGCGGGGAGGCCTTCCGCCGGCTCGACCGGGCCAAGAACCTGTTCGACCCGCCCGTGCAGCCGCCCCAGCCCGAGGAGTCGGCTCCGCTGTTCGACCCAGCGTCCTCGGATACACAGGACCAGACGCGCTCCGACTCCCAGGAAGTCTCTCCGCCGAAAAGCAGGCGATCATCGACCGCGAGCTGCGCAAGCTGACCAAGCACGCCGGCGTTGAGCGCCCCGCGATCTTCAAGCGCGCCATGGCGGAGGCGAAGACCCGCACCCCCGAGGACCTCCACGCATTCGTGCGCCGGCTCGTTGATCGCGCCAACCGCAAACACAAGCCGGTCAACGACCCGAACGCCGGGTTCGACAGGCGCGGCGTGAGCTTTGGACGCGCACGATGA	MPGKGLGKAGVHRRGIRPRVRPRGRGAPRRRQLAQRLPGKGPRHLPRGGLPPARPGQEPVRPARAAAPARGVGSAVRPSVLGYTGPDALRLPGSLSAEKQAIIDRELRKLTKHAGVERPAIFKRAMAEAKTRTPEDLHAFVRRLVDRANRKHKPVNDPNAGFDRRGVSFGRAR				NA	NA	NA	NA	NA
AK009_07890	885			hypothetical protein	GTGCACGATGCCAGAGAGCCGCCGCCCGTCCGGGCCCTCGATAATCTTCTTCTGCCCCGGGCGCTCGAGGAACATCACGGCGTAAATCCGCAGGCGCTCGGGGTTGTCCGGGTCCGGGTGCATCTCATCGATCTGCACCGCCACCGAGTGCGGCAGCTCCTCGCGCAACCCCTGGAGCGCTTCCTCGCGGATCAGCTCCGAAATCCGCGTCTCCGTGTCCTCGTCCGTGACGTGCCCTTCCGGGTAAAACTGCGGGCCCTCGGGCAGCTGCTCGACCAGGATATCGAGCAGCACATCGAGCTGCACCGCCTCGGTCGCGGAGACGGGCACGACCTCGCAGTCTTCGCCGAGCAGGTCGTGCAGCTCCACGAGCCGCTCGCCCACGGTGTCCTTGTTGGCCTTGTCCAGCTTTGTCACGATGCCGACGATCGGGGCGTTGGGCTTGATCGTGCGGATCTGCTCCAGGATGAAGCGGTCGCCGGGGCCGATCTTCTCATCCGCCGGGACGGTGAAACCGATGACATCGACGTCGGCGAAGGTGTCGCGGACGACGTCGTTAAGGCGCTCGCCGAGCAGCGTGCGCGGGCGGTGCACGCCAGGCGTATCGACGACGATGACCTGCGCATCCTCACGGTTGATGATGCCGCGGATCGGGTGGCGCGTCGTCTCCGGCTGGTCCGCCATGATGGCGATTTTCTCCCCCACCAGCGCGTTCGTCAGCGTCGACTTACCCGTGTTCGGGCGGCCGACGAAGCTGACGAAGCCGGAGCGGAAGCCCTCAGGCGTGTTCGTATTCATAACGACCATCTTAGCTGGGGCGGGTGGCGTGGCCGGTTTCGTCGCGCGGGTGTTTGCGCCAAAGTGCACACTATGGGGACACTCTAG	MHDAREPPPVRALDNLLLPRALEEHHGVNPQALGVVRVRVHLIDLHRHRVRQLLAQPLERFLADQLRNPRLRVLVRDVPFRVKLRALGQLLDQDIEQHIELHRLGRGDGHDLAVFAEQVVQLHEPLAHGVLVGLVQLCHDADDRGVGLDRADLLQDEAVAGADLLIRRDGETDDIDVGEGVADDVVKALAEQRARAVHARRIDDDDLRILTVDDAADRVARRLRLVRHDGDFLPHQRVRQRRLTRVRAADEADEAGAEALRRVRIHNDHLSWGGWRGRFRRAGVCAKVHTMGTL				NA	NA	NA	NA	NA
AK009_07891	597			hypothetical protein	ATGTCGGGTCTGGCCATTGCTCTATTATGCCTGCTCCATAATCTTCAAACTCTTCACGGCCGTCTCCAGATGCCAGTGCAGGTGGGCCGTGGTCAGCCGGTGCACCTGCTCCACCATGTCGGTGGCGGCCGGGTGGCCGTTTTGGATCAGCCACATCACGTGCAGGGTCTCCGGGTCGACGTCGGCCGAGCCGGGCGGGCGGCAGTTGTTGCACACCGCCCCGCCCGTCGGGGCGCTAAACGCCTTGTGCGGGCCCGGGGCCTGGCAGTTCGCGCAGTGAAACAGGCTCAGGCCCCAGCCGGCGTGCTCGGTCGCGCGCAGGATGAACGCGTCGAGGACGAGCGTGGGGTGCTGCTCGGGGTCTTGAAGTTGCTCCAGGGCGTCGCGGGTGGCGTCGAAAAGCGAGCTGCCCCGCTCGGCGTCGGAGTAGCTGAGCTTCTCCGCGGCCTCCAGGATCGCGCAGCCGGCGGCGTAGCGGTCAAAGTCCTCGATGATGCGGCCCGCGAAGTAGGCGACGGTGTCGGCGGCCGTGATAGTGGCCAGGTTGCGGCCCGGGTAGAGCTGGACGTCGATGTCCACGAAGGGCTGGATCCGTGA	MSGLAIALLCLLHNLQTLHGRLQMPVQVGRGQPVHLLHHVGGGRVAVLDQPHHVQGLRVDVGRAGRAAVVAHRPARRGAKRLVRARGLAVRAVKQAQAPAGVLGRAQDERVEDERGVLLGVLKLLQGVAGGVEKRAAPLGVGVAELLRGLQDRAAGGVAVKVLDDAAREVGDGVGGRDSGQVAARVELDVDVHEGLDP				NA	NA	NA	NA	NA
AK009_07892	657			hypothetical protein	GTGGGCCCAGCAGCGCGGGTTGAAGCGCACGGAGGGCCACAAGCGGGGCGAGGCCGTGCTTATGGATTGCGTCGATGCCTGCATCGAGCTCGGCACTGTGCAGTGGCTGTCGGCGTACGCGTTTTCCACGGAGAACTGGCGCCGCAGCGCAGAGGAGGTGCGTTTCCTCATGGGCTTTTCCCGCGACGTGCTGCGCAACCGCCGCGACGAGCTAAACGACAAAAACGTGCGCATTCGCTGGGCCGGTCGACGTCCGCGGCTGTGGCGCAGCGTGATCCGCGAGCTGGAAAAAGCCGAGGAGCTCACCCAAGACAACACCGGGCTGACACTGGTGATGTGCGTCAACTACGGTGGCCGCGCGGAGATCGTCGACGGAGTGCGCTCGCTTCTCGACGCCGCAGCCAACGGCCAGATCCGCCCCAGCGAGATTACCGAGGACACCTTCGACCAGTGGCTGTACCAGCCGGATATGCCGGACGTGGACCTTTTCCTGCGCCCCTCAGGAGAGCAGCGCACCTCGAACTTCCTTTTGTGGCAGTCGGCCTACGCGGAGATGGTGTACCAGGAGAAGTTGTGGCCCGATTTCACCCGCGAGGACCTTTTCGCTGCCGTGCTGGAGTACGTCAAGCGCGACCGCCGCTTCGGCGGCGTGATTGA	MGPAARVEAHGGPQAGRGRAYGLRRCLHRARHCAVAVGVRVFHGELAPQRRGGAFPHGLFPRRAAQPPRRAKRQKRAHSLGRSTSAAVAQRDPRAGKSRGAHPRQHRADTGDVRQLRWPRGDRRRSALASRRRSQRPDPPQRDYRGHLRPVAVPAGYAGRGPFPAPLRRAAHLELPFVAVGLRGDGVPGEVVARFHPRGPFRCRAGVRQARPPLRRRD				NA	NA	NA	NA	NA
AK009_07893	327			hypothetical protein	GTGCACCCAGTGCGGCCGCAGCGAAGAGATCGAAGGCGGCCCGGTGGAGCAGTGGGCGCAGCTCGTCGCACAGCGCTACGGCTACGAGTTGGTCGGACACGACGCCGAGGTCTTCGGCGTGTGCCGCACCTGCCAGGAAGAACGCGGCAACAACGCTTAGGCGTTGTGCTCAATCACGCCGCCGAAGCGGCGGTCGCGCTTGACGTACTCCAGCACGGCAGCGAAAAGGTCCTCGCGGGTGAAATCGGGCCACAACTTCTCCTGGTACACCATCTCCGCGTAGGCCGACTGCCACAAAAGGAAGTTCGAGGTGCGCTGCTCTCCTGA	MHPVRPQRRDRRRPGGAVGAARRTALRLRVGRTRRRGLRRVPHLPGRTRQQRLGVVLNHAAEAAVALDVLQHGSEKVLAGEIGPQLLLVHHLRVGRLPQKEVRGALLS				NA	NA	NA	NA	NA
AK009_07894	228			hypothetical protein	ATGCTCGGTGAGGCAGTGGCGGTAGAGAGACTCGCCGTCCTTGTTCTGCAGTACATCCACGGCCTCCACCTGGGCCAGCGACTGCAGAGTGCGGTAGACGGTGGTCAGGCCCACCTTTTCGCCGCGCTGCTCAAGCGCGTCGTGGATTTGGCGAGCGGAGACGAACTTGTCGATGTCGCGCAGCGCTTCGACGACCGCGGTGCGCTGCCATGTATTGCGCACGCCTAG	MLGEAVAVERLAVLVLQYIHGLHLGQRLQSAVDGGQAHLFAALLKRVVDLASGDELVDVAQRFDDRGALPCIAHA				NA	NA	NA	NA	NA
AK009_07895	594			hypothetical protein	ATGATGTCAATAACGGCGGGCTCAGCGAGCGTGTACACGACCTCGCGACCCGCCCTCACCGCATCCACGAGGCCGGACTTCTTCAGTACGCGCAGGTGCTGGCTGATCAGGGGCTGCGACTTGTCCAACGTGGACACAATCTGGTGCACAACGTGCGGGGATGTGTGCAAGAGGAGGAGGATTTGTAGTCGCAGAGGGGAGTCAAGAGCGCTCACAAGCGCGGCCGTTCGCTCGACGTCCCGCGGTTGCAGACCATTCACGACCCTCAGCCCCTTTCTATTACCTATTCTAAGCGCTGGTCGCACTTGGAGAGATATTTTTCCGAATATGATAGACGACTGTCCGCGGAGTGGGGCGAAACGCTCCGCTTGGCGTCGACACCGATTGAAATTGGCGACCCGCTACACTGGGCAACTAGCTTTGTCACTGTTCTTAAAACCGCCGTCTGATTTCTACAGGAGTTGTCCATGGCCTCCAGCAACATCGATACCGTCGTCAATCTCTGCAAGCGTCGTGGGTTGGTGTACCCGGCGGGAGAGATCTACGGCGGTACCCGCTCCGCGTGGGACTATGGCCCGCTCGGCGTGGAGTTGA	MMSITAGSASVYTTSRPALTASTRPDFFSTRRCWLIRGCDLSNVDTIWCTTCGDVCKRRRICSRRGESRALTSAAVRSTSRGCRPFTTLSPFLLPILSAGRTWRDIFPNMIDDCPRSGAKRSAWRRHRLKLATRYTGQLALSLFLKPPSDFYRSCPWPPATSIPSSISASVVGWCTRRERSTAVPAPRGTMARSAWS				NA	NA	NA	NA	NA
AK009_07896	1191			hypothetical protein	GTGCTGGCGCAGCGTCTGCGCGAGCTCCTCCGCCGGGCCGGACAGCTCCGGCTTCTTCGACAGCGGCAGCACCGCGACCTTGATCGGCGCGAGGCGGCGATCCAGCTTGAGCACGACGCGGGTGTCCACCCCGCCCTTCGCGTTCGGGGCCTCGTCCTCGTGGTAGGCGTCGATGAGGAAGGCCATCATCGCGCGGCCCAGGCCGGCTGCCGGCTCGATGCAATACGGAATCCAGCGCTCGCCCGAGTCCTGCTCGAAGAAGCTCAAGTCCTCGCCCGAGGCCTCGGCGTGGGTCTTCAGGTCGTAGTCGGTGCGGTTGGCCACGCCCTCGAGCTCACCCCACTTCGACCCGGTGAAGTTGTAGGCGTACTCCACGTCGACGGTGCGCTTGGAGTAGTGCGACAGCTTCTCCTTCGGGTGCTCGTACAGGCGCAGGTTGTCCGGGTTGATGCCGAGGTCGATGTACCACTGCAGGCGGTTGTCAATCCAGTACTGGTGCCACTGCTCGTCCTCGCCGGGCTTGACAAAGAACTCCATCTCCATCTGCTCGAACTCACGGGTGCGGAAGATGAAGTTGCCCGGGGTGATCTCGTTGCGGAAGGACTTGCCCATGTTCGCGATGCCGAACGGCGGCTTCATGCGCGCGGACGTCATCACGTTCTTGAAGTTGACGAAGATGCCCTGGGCCGTCTCCGGGCGCAGGTAGTGCAGGCCCTCGGAGTCGTCGACGGGGCCGAGGAAGGTCTTCATCAGGCCGGAGAAGGCGCGCGGCTCGGTCCAGTTGCCCGGCTGGCCGGTCTCGGGGTCGTTGATGTCCGCGAGCCCGTTGGCCGGCGGGTGTCCGTGCTTCTCCTCGTAGGCCTCGAGCAGGTGGTCGGCGCGGTAGCGCTTGTGGGTGTGCAGGGACTCCACCAGTGGGTCGGTGAACACCTCGACGTGGCCCGAGGCGACCCACACCTGGCGAGGCAGGATGATCGAGGTGTCCACGCCGACGGTGTCCTTGCGCGACTGCACCATGTGGCGCCACCACTGGCGCTTGATGTTCTCCTTCAACTCCACGCCGAGCGGGCCATAGTCCCACGCGGAGCGGGTACCGCCGTAGATCTCTCCCGCCGGGTACACCAACCCACGACGCTTGCAGAGATTGACGACGGTATCGATGTTGCTGGAGGCCATGGACAACTCCTGTAG	MLAQRLRELLRRAGQLRLLRQRQHRDLDRREAAIQLEHDAGVHPALRVRGLVLVVGVDEEGHHRAAQAGCRLDAIRNPALARVLLEEAQVLARGLGVGLQVVVGAVGHALELTPLRPGEVVGVLHVDGALGVVRQLLLRVLVQAQVVRVDAEVDVPLQAVVNPVLVPLLVLAGLDKELHLHLLELTGAEDEVARGDLVAEGLAHVRDAERRLHARGRHHVLEVDEDALGRLRAQVVQALGVVDGAEEGLHQAGEGARLGPVARLAGLGVVDVREPVGRRVSVLLLVGLEQVVGAVALVGVQGLHQWVGEHLDVARGDPHLARQDDRGVHADGVLARLHHVAPPLALDVLLQLHAERAIVPRGAGTAVDLSRRVHQPTTLAEIDDGIDVAGGHGQLL				NA	NA	NA	NA	NA
AK009_07897	717			hypothetical protein	TTGGATGAGGAAGACCACGACGACGAAGATGGAGAGGAAGACCAGGAAGGCGATCAGCACGGTCGAGTTGATCATCTTCTTCGTCTCCAGCACCTCGCGCGAGACCCACGCCAGCGCGGCGATGTCGGTCGCGGGGAGCTGGGTTTCACCCTCGAACTCGAGGATCGCGCGGCGCACGCCGTTGTGGTCCTGGGTGAACTGCGCGACCTTGTTGCCAGCGGCGTCGTCGACGATCCAGTTCTTCGACCACTCGTTCACCAGCGCGTAACCGCGGCCCTCGACGGTAACCGGGATGTTCTTGTCGCGCTTGAGGCTGCCGGTGGCGCGCACAATCTCCTCGCCGGCGCGCGTCGCGACCGCGCCGGATTCCGGCGAGGTGACCAGCTCCCACTCTTGGTCGCCGACGGTGGCGCGCTCGTGGGTGAACACCCCGAGCACCTCGGGGCCGTTTTCCGCGAGCAGCTTCAGGTTGTCCTTGTCGCTGCGATCCCAACTGACGTAGTGCATGGGCTTATCTTTCTTCGCGCGCCTCTAGGCGCCGATGAGTTGTGCGGCCAGGTAGGACTCGAGCTCGTCAAGCTTGACGCGCTCCTGCTGCATCGTGTCGCGCTCACGCACCGTGACGGCGTTGTCCTCGAGGGAATCGAAGTCGAAGGTGACGCAGAACGGGGTGCCGATCTCGTCCTGGCGGCGGTAGCGGCGCCCGATCGCACCTGA	MDEEDHDDEDGEEDQEGDQHGRVDHLLRLQHLARDPRQRGDVGRGELGFTLELEDRAAHAVVVLGELRDLVASGVVDDPVLRPLVHQRVTAALDGNRDVLVALEAAGGAHNLLAGARRDRAGFRRGDQLPLLVADGGALVGEHPEHLGAVFREQLQVVLVAAIPTDVVHGLIFLRAPLGADELCGQVGLELVKLDALLLHRVALTHRDGVVLEGIEVEGDAERGADLVLAAVAAPDRT				NA	NA	NA	NA	NA
AK009_07898	894			hypothetical protein	TTGTCGACGCGCCCACGAGGCGCACCTTGTACTAAGCGCCTAGAACATCCCGCCACGCCCGACGGGGCCGCCCCCGGAGAACCCTCCGCCACCGCCAAAACCGCCGCCCCCACCCCCAAAACCGCCGCCCCCGCCGCCGAAGCCACCGGACAGGATGGAGCCCCAGATGATCGCGTTGGCCATGTTGCCCGCCACACCGCCTGCCATCTGCTGGTTGCGCTGCTGCTGGTAGCGGTTGATGTCGTCGTTCGCGGAGCTGGAGGCGCGGCGCGCGGTTTCGGTCGCGGTGCGCGCGAAGTCGATGGCGCTGCGGGTGTCGCTCGTCGCCCGGTTGCGAGCCTCGTTGAACTGTCGCTTCGCCTCGGCCAGCAGGGAGCGGGCGTGGGAGCTGATAATGCGCCCACGAGAGTTGATCAGGTCCTCCGCCGACTGGATCTGCGCCCCGGCGACCTGGAGCTGCTGCTGGAGCACGGTCAGTTGGCGGTTCTGGTCGGCGGCGGCTCCGCGGGCGGCGTCGATGTGGGTGTCGATACGCGAGTCGAGATCGGTCAGGTCCGTGTAGAGGGAGAGCGGGTCGGTCTCGGCGCGGTTGCCCATCGAAGCCAGACTCTGGCGCGCCTCGGCGGCGATGGCGTCGAGCGCGGCAACATCAATCTGCGCGCCCTGTTTGCTCGCGCCCTTGAGCGACTCGATTTCTCGCAGTTCGCCCTCGATCTCGGTGATCAGGGCGGGAAGGTTTGCCTTGGAGTCGCGGATGTTGGTGTCGGCGTGTTCGATGGCGGCGAGGTTGGTGTCGGAGACTTCGACCGCGTGGGAAGCGGAGGCCAGCAGGTCCACCAGCGCGCCCTGGCGCCCGGCGGGCTGGGACGCGACGCCGCGCGCCTCGGTCAGTAG	MSTRPRGAPCTKRLEHPATPDGAAPGEPSATAKTAAPTPKTAAPAAEATGQDGAPDDRVGHVARHTACHLLVALLLVAVDVVVRGAGGAARGFGRGAREVDGAAGVARRPVASLVELSLRLGQQGAGVGADNAPTRVDQVLRRLDLRPGDLELLLEHGQLAVLVGGGSAGGVDVGVDTRVEIGQVRVEGERVGLGAVAHRSQTLARLGGDGVERGNINLRALFARALERLDFSQFALDLGDQGGKVCLGVADVGVGVFDGGEVGVGDFDRVGSGGQQVHQRALAPGGLGRDAARLGQ				NA	NA	NA	NA	NA
AK009_07899	813			hypothetical protein	GTGGCCTGCGCCGGCTCGAGGCGGGCGCGGAGGTCGATCGTGCGCTGGACAATCTTGTCGATCTCCTCGTCCGCGCGCATGAGCGTGCCACGCATCTCGTTGAACTCGGCCGACTTGGCTTGCAGTGCTTCGTTTGCCTTGCCGGCCGACGAGATGATGTCGATCAGCATCGCGCGCTTTTCCGGCTCGGTTTCAGGGATGGCGTCGTACAGGCGCTGGTGGGTGGCGAACGCGCGCTGCAGGGTGGAATTCGCCGTGTTCATCGCGGATGTAAAGGGCCGCACGCGCTCGGGGCCGAACTCCGCGGTGGCCAGGGACAGTTCCTCCTTGCCCTGGCGGATGGACTCGTCGGAGTGGACAAGGGCGTCACGGGCAAGCTCTTCGAGCGCTGGCGTGGGCAGGCGCGATAGGGAATCGGTGTCTCCCGGGCCCAGCTCGCGCGCGGCGGCGATCTGGGCCTGGTTGGTCTTCTTCGTGTTGCGCCGCGATGCGGCCCAGATTCCGCCACCCGCGACGGCGGCCACGCCGAGTCCGCCCGCGACCAAGAGGCCGCCCTGCCCGTCGCCTGCGCCGCCGCCCGCTGCTGCATCCACGGCAGCCAACGCCGCGCCGGCCCAGTCGTTTTGGGTCAGGCGAGCGTACGCCGCGTCGTACATCGCGTCGACCTCGCCCTGGGACCACATCTGGCCCGCGTCGACGGCAAAGGAGCGCTCCTGCGGGGAGATCGCGATGACCGCGGTGTTGGATCCGTTTTGGTTAACCGCCTCCTGGGCCCACTGTTCGGCGCTCATGGATGCGAAAGAGTCGAGGTAA	MACAGSRRARRSIVRWTILSISSSARMSVPRISLNSADLACSASFALPADEMMSISIARFSGSVSGMASYRRWWVANARCRVEFAVFIADVKGRTRSGPNSAVARDSSSLPWRMDSSEWTRASRASSSSAGVGRRDRESVSPGPSSRAAAIWAWLVFFVLRRDAAQIPPPATAATPSPPATKRPPCPSPAPPPAAASTAANAAPAQSFWVRRAYAASYIASTSPWDHIWPASTAKERSCGEIAMTAVLDPFWLTASWAHCSALMDAKESR				NA	NA	NA	NA	NA
AK009_07900	627			hypothetical protein	GTGGGAGAGGTAATCGTAGACGCGGTAAATGCGGTCGCGCTGGCGGTCCTGGCGCTTGAGGTGGGTGGGCATGTCCATGACGTAGAGCACCGCGACTGTTTTGAGCAGGCGCACCTCTGCCTCGGCCTCGGCGGGGATGATCAGCCGGCCGTGTTGTCTGCCCAGCGCGCCGTCGGGGTTGAGGTCGCTGCGCAGCGCGTCGGGCTGGTTGACATCAGCGGACCTCGTCGCCGAGGTCACCGCGCCAACGTAGCGCCCCACGAGTTCCGAGGTGAGCTGCTTGAGCCCCGCCCAGGCCGACAGCGAGTAGTTGAAATCCGCCGCGGACGCGATCGCCGGCAGCGCCCGGAGGCGATCGGCCGCCGCAATGAGCTTGTCGGCGGTGCCGCCGAAGGCCTGCGCGCCCTTGTCGGCCAGCGCCGCGAGTTCAACGAAGTCCCACAGCACCTTCAGCGAGACGCGCCCGGAGACGATGCCGTCTTCGACGTCGTGCACGGAGTACGCAATGTCGTCGGCGGTATCCATCACCTGCGCCTCGATCGGAGGGGCGTCAGTGGTGTGGCCCGCGCGCAGCCATTCCAGGATGTGGCGATCGGAGTCGTAGGCGGAGTACTTGCGCGCCGTTGA	MGEVIVDAVNAVALAVLALEVGGHVHDVEHRDCFEQAHLCLGLGGDDQPAVLSAQRAVGVEVAAQRVGLVDISGPRRRGHRANVAPHEFRGELLEPRPGRQRVVEIRRGRDRRQRPEAIGRRNELVGGAAEGLRALVGQRREFNEVPQHLQRDAPGDDAVFDVVHGVRNVVGGIHHLRLDRRGVSGVARAQPFQDVAIGVVGGVLARR				NA	NA	NA	NA	NA
AK009_07901	474			hypothetical protein	ATGGTCACCCGTGTAGTACCACTCGTCGACCTCGCCGTCGGCACCGCCGCCGGTGACAATCCGCCGCTCCCCGCGGTGGCCCAGCCCGGGCGTTTCCACGGTGTACTCCTGGTAGTAGCCGAGCTCCTCTTCGGGAAGGACGCCCTCGTAGTTGCCAAAGCGCCGGTCGTCGAACTCGGGGTGGGGGTAGGGGCCGTCGTTTTCGACGGTGTCGATGGTGTCCCACGCCTGGGCGGGCACCTCATCGGGGGAGCAGAACTCAACTCCCGAGGGCCCGCCCTCGGCGATGTTCCTGATCCCGAACATGCCCAAAGACGCGCCGACGAGCCCGATGAGCAGCACACCGAGGTAGCGGTTTTTAAGCCCAGAGTTATCTGCCATGCGCTCCATTATCACCCACGGCCCCGTGAGGCGGGTGGAAACCCCGGCTCACCTGGGTGGTCCGTGGTTGACTGCGAAGCGGCTACGATGTAG	MVTRVVPLVDLAVGTAAGDNPPLPAVAQPGRFHGVLLVVAELLFGKDALVVAKAPVVELGVGVGAVVFDGVDGVPRLGGHLIGGAELNSRGPALGDVPDPEHAQRRADEPDEQHTEVAVFKPRVICHALHYHPRPREAGGNPGSPGWSVVDCEAATM				NA	NA	NA	NA	NA
AK009_07902	1128			hypothetical protein	TTGCAGAACCGGGTCGGAGATCTCGGCGACAACCGGGACTGTGCGCCGCAGCGCTTGGAGGCGACCCTCCGCGGTATCCAGGGAGTAGTTCTGAAGCAGCGTCCCGAGCACAAACTCGTACATGGGCACGCGGCTCGCAACGAGGTCACGCACCGCGGAATCGCCCTTGCCCAGCCGCAGATCGCACGGGTCCATCCCCTCCGGGGCGACGGCCACGAAGCTCTGGCCGGTAAAAGCCTGATCCCCCTCGAACGCGCGCATCGCGGCCTTTTGGCCCGCCTCGTCGCCGTCGAACGTGTAGATCAGCTCGCCGCGGAAGTAGTTGTCGTCGAGCATCAGCCGGCGGATAATCGACATGTGGTCCTTGCCAAACGCCGTGCCGCACGCCGCGACGGCGGTGGTCACGCCCGCGGCGTGCATCGCCATGACGTCCGTGTAGCCCTCCACAACCACTGCCTGGTGCTCGGTGGCGATGCTTTTTTTCGCCAGGTCAAGGCCGAAAAGCACCTTCGACTTGTGGTACAGCATCGTATCGGAGGTGTTCATGTACTTGCCCATCGGGTCGTCGTCGAAAAGCTTGCGGGCGCCGAAGCCAATGACGTTGCCCGCGACGTCCTTGATCGGCCACAGGAGGCGGCGGCGGAACTTGTCGATCGGCCCGCGGCGTCCCATCGTCGACAAGCCTGCGTCCTGCAGCTCCTGGACGTCGAAGCCCTTGCGCAGCAGGTGCTTTGTCAGCGTGTCCCAGCCGTCGGGGGCGTAACCGCATTCGAAGTGGTAGATCGTGTCCTTGTCGAAGCCGCGGTTGAGCAGGAAGTCGCGCCCCGGCTTCGCCTCCGGGGACTCCAGCTGCTCGCGGTAGAACTCGTGCGCCGCCTTGTTCGCCGCCAGCAGCCGCGCGCGGGTGCCGGGCTTGACATCGCGCGCACCCGTGGAGCCGCCCTGGTAATTGATGTGGTAGCCGATCTGCTCCGCGACCGCCTCGACGGCCTCCGGGAAGGTCAGCTGCTCCATCTCCATGAGGAAAGAAAAGACGTCACCGCCCTTGCCCGTGGAAAAGCAGTGGTAGTAACCGCGGGCGGGGCGGACGTGGAACGACGGGGTCTTTTCATCCTTGAACGGGCTTAA	MQNRVGDLGDNRDCAPQRLEATLRGIQGVVLKQRPEHKLVHGHAARNEVTHRGIALAQPQIARVHPLRGDGHEALAGKSLIPLERAHRGLLARLVAVERVDQLAAEVVVVEHQPADNRHVVLAKRRAARRDGGGHARGVHRHDVRVALHNHCLVLGGDAFFRQVKAEKHLRLVVQHRIGGVHVLAHRVVVEKLAGAEANDVARDVLDRPQEAAAELVDRPAASHRRQACVLQLLDVEALAQQVLCQRVPAVGGVTAFEVVDRVLVEAAVEQEVAPRLRLRGLQLLAVELVRRLVRRQQPRAGAGLDIARTRGAALVIDVVADLLRDRLDGLREGQLLHLHEERKDVTALARGKAVVVTAGGADVERRGLFILERA				NA	NA	NA	NA	NA
AK009_07903	231			hypothetical protein	ATGGGTCGGTTGGCCGAACCCGGGCGAGGTGATCGCGCAGGTCCGCGACGAAGCCAAGAAGCCGAAGAAGGCGAAGCGTTCTTTCAGCCCGCGGGCGCAGTCCACCCAGCCGACGAACACCGGCGCGCCGCTGTTGGTCGCGCCGGCACCGGACGACTCGTTGCTGTGGCCGCAGCGCGAGGCGTTAAAAATCGCGCTGCAGTACCCCGATGTCGCCGGAGACTACTTTGA	MGRLAEPGRGDRAGPRRSQEAEEGEAFFQPAGAVHPADEHRRAAVGRAGTGRLVAVAAARGVKNRAAVPRCRRRLL				NA	NA	NA	NA	NA
AK009_07904	228			hypothetical protein	GTGGATCTCCTCCACCGCGAGCTCGGAGACGAAGTTGCGCCCCGCCAAGTCGCGCATCTGCCCGGCGACATCGCTGATCCACTCGACCCCGCTGCTCACAGCGGCCACGCTGCCCACCGCGCCCATTGCGTCGCGCACCTGGCGGTACGCGCCGTTGGTGAAGGCGTCCGGGTTGATCCCGTCAAAGTAGTCTCCGGCGACATCGGGGTACTGCAGCGCGATTTTTAA	MDLLHRELGDEVAPRQVAHLPGDIADPLDPAAHSGHAAHRAHCVAHLAVRAVGEGVRVDPVKVVSGDIGVLQRDF				NA	NA	NA	NA	NA
AK009_07905	1083			hypothetical protein	TTGCGGACCCGCCAAAAAGTACACCAGGATGGAGGCGTAGCGGCCGGGCAGGCCGGTGGCGCGCACGCGCGCGAACTGCGCGACAGGGTCCAACCCGTCGAGGGAGCGCAGCGCCTGGAGGAGCTGCTGCGCCTGGCCTTTGTTGCGCAGGAACTGCTGCAGCTTCAGCTGCGTTTGCGGGGACTTTCCGGCGCCGAAAGCAAAGGCCGCGCCGATGAAGTCGATCACAGCGTCGCGGTTGTAGCCGGACGCGGTGGCGTCGGCGGCGAACTGGTAGACGTCGCCACGCGTGAGCGAGGCGAACGCATCGTCCTTGTACGGCGGGACGTGGCCGAGGTGGTGCGGCCAGCCGGTCTTCCAGCGGCGCGGCGAGAACGACGAAGACTCGTTCATCACGTCCTCGGTGGTCGGGGAGAGTTCCGCCAGAACGGACAGGGCGGTTTTGTGGTCAGTCATGGCACCTATTGTTCCAGATCCCCGGGCCCCAATAAGATGGGGCACATGACCGTCCTGGTTCTCGACCCCCGTTGGCCCGACATGATTCCCATCGGTGTTCGGATTCGCGGCACCGTGGCGTTTACGTCCGAGGTGCCCGTGTCAGTGCGCTGGGCGATCGAGAATACGGTTGATGGTGAGAGCTGGCTGCTGACCACCGACCCTTCCGACGCGGAGGCCGCGGCGCGTATCGCCGGCGGTGAAGAGGTTATCGAGGTAGCGAGCCTGTCCGACCCGGTGCTGGCGGCGACGCGCACGATGCGCGTCGCGCGCCGCCGCGGGGAGTGGGAGAGCTCAATGACGCACGAGAGCCTCCTGCCGTTCTTGGAGGAGGAGGCCGGTGAGTTCGCGGGGGCAGTGCGCCGTGGCGATGGCGCGGAGTTAAAAAAGGAGCTCAGCGACCTTTTCCTGCAGGTCCTGTTCCATTCCGAAATCGCCGCCGGCTTTGACTTTCCGGATGTCGCCCAGGCGTTCGTGGATAAGATGCGCTCGCGCGCGCCCTATCTTTTCGACGGCTCGACCGGCGTCGTCGGAATCGAGGAGCAGGACCGCCTGTGGGCGGAGGGTAAGGCGCGCGAGCGGGGATAA	MRTRQKVHQDGGVAAGQAGGAHARELRDRVQPVEGAQRLEELLRLAFVAQELLQLQLRLRGLSGAESKGRADEVDHSVAVVAGRGGVGGELVDVATRERGERIVLVRRDVAEVVRPAGLPAARRERRRLVHHVLGGRGEFRQNGQGGFVVSHGTYCSRSPGPNKMGHMTVLVLDPRWPDMIPIGVRIRGTVAFTSEVPVSVRWAIENTVDGESWLLTTDPSDAEAAARIAGGEEVIEVASLSDPVLAATRTMRVARRRGEWESSMTHESLLPFLEEEAGEFAGAVRRGDGAELKKELSDLFLQVLFHSEIAAGFDFPDVAQAFVDKMRSRAPYLFDGSTGVVGIEEQDRLWAEGKARERG				NA	NA	NA	NA	NA
AK009_07906	423			hypothetical protein	ATGCGCCGTCTCTCCACTTCCCTCGCGGCCGGCCTTCTCTCCGCCGCCACTGTTGTCAGCGTCTCCCCCGCCCACGCTCAGACCGCGAACGTGGTCGAAATCGCCAAGCTCGTCAACGGCGGCATCGCCACCGCCGACTGCGGGGCCGTCTCCACTGGGCTGAAGTCCACCGGTTTCGTCGGCCCGGAAACCACCCGCGGCGAGCTAGTCGCCAGCCTGACCAAGGCAGTCGGCGACGACGCAACCCTGCGCCTGGTCTCCGCCTCCACCATCAACACCATTGGCGACCGCGCCCTCGAGTGCGGCGTGGTCAAGCCGGACCCGGTCACCCCGCTCAACCAGGCGATCGCGTTCGCCTCCCAGCTGTCCTCCCAGGCGGGGCTGCCTGAGCTGCGCAACGTACTGCCCGCGCTACAACTCTAA	MRRLSTSLAAGLLSAATVVSVSPAHAQTANVVEIAKLVNGGIATADCGAVSTGLKSTGFVGPETTRGELVASLTKAVGDDATLRLVSASTINTIGDRALECGVVKPDPVTPLNQAIAFASQLSSQAGLPELRNVLPALQL				NA	NA	NA	NA	NA
AK009_07907	951			hypothetical protein	GTGTCGCCGGCGACTTTACACGTGGCACATGTGAATGGAGTGAACAAAGTGACCATTGTTGTCAAAATGTGCCCCATCGCAGCGCCTCACCGCGTGCCGGTAGGATGGGCCGTCATGACTTATCGCCCGACTCGGCACCAGCAAGATGACAACCGCCCCGGCAAAGTTGCCGCCGGGTGCGGCTGTGCTGGCGTTGTCATGGTGATCACGGCGATTGTCTTGATCATCGCGCTCACTGGCTGGGTCTTCTCGATTTTCACCAACGTCAGCCCGTCGCCAAGCAGGCAGCCGGTGCCCGCCGACGTGCCGCCAGCTGCGGCTGAGGCGCCGCCGCTTATCGACGTCCACGCGCCCGGTCGCACCTCCGACAACCTCGCGGAGTGGGCCACCCCGATCGCGGAGCAGACGGGGATTGACCCGCAGGCCGTGCGCGCCTACGGCAACGCCGCGCTGATCGCTCGGGAGGCGTGGCCGACCTGCAACCTTGCCTGGAACACGCTTGCCGGGATCGGCTGGGTGGAAACGCGCCACGGCACGTATACCGGTCGCACGTTTGACGGAGGCCGGCTCAACGAGGCTGGATTCGCCGAGCCCCCGATCGTCGGCCCGGCGCTTGACGGCAGCGGCAACTTCGCGGAAATCCGTGATACCGACGCCGGCGCGCTCGACGGCGACACCACCTACGACCGCGCGGTTGGGCCGATGCAGTTCCTGCCCGGCTCCTGGAAAATCTACGGCCGCGACGCCAACGGCGACGGGGTGGCGGACCCGCAGCAGATCGACGACGCCGCGCTCGCCTCCGCGAACCTCCTCTGCGCGAACAACCGCGACCTGTCAACCCCGGAGGGGTGGCGCGATGCGATCTTTAGCTACAACAACTCTAACGACTACGTGGTAAAAGTCCGCGACGCAGCGGCGAACTACGCGCTGTCGCAACCGGCGCACCGCTAG	MSPATLHVAHVNGVNKVTIVVKMCPIAAPHRVPVGWAVMTYRPTRHQQDDNRPGKVAAGCGCAGVVMVITAIVLIIALTGWVFSIFTNVSPSPSRQPVPADVPPAAAEAPPLIDVHAPGRTSDNLAEWATPIAEQTGIDPQAVRAYGNAALIAREAWPTCNLAWNTLAGIGWVETRHGTYTGRTFDGGRLNEAGFAEPPIVGPALDGSGNFAEIRDTDAGALDGDTTYDRAVGPMQFLPGSWKIYGRDANGDGVADPQQIDDAALASANLLCANNRDLSTPEGWRDAIFSYNNSNDYVVKVRDAAANYALSQPAHR				NA	NA	NA	NA	NA
AK009_07908	966			hypothetical protein	GTGCTTGCCGCCCTCGAAGTTGTAGACGCCGTCCTCGTAGAACTCGGAGGACGCGACGTCGAGGGCGAGAGCGATGTCGTCGCCCAAGGTGTAACCGGCCTTCTCAACGGCCTCGACAATGACGTCAAGCGCGGCCTTCGTGGAGTCGACGGAGGGGGCGAACCCGCCCTCGTCGCCAAGCCCGGTGGACAGGCCCTTGGCCTTGAGCACGGATTTGAGCGCGTGGTAGACCTCCGCGCCCATGCGCAGCGCCTCCTCGAAGGTCTCGGCGCCGAGCGGGGCGATCATGAACTCTTGGACGTCCACGCCGGAGTCCGCGTGCGCGCCGCCGTTGAGGATGTTCATCATCGGCACCGGCAGGATGTGCGCGTTCGGGCCGCCGATGTAGCGGTACAGAGGCAGGCCAGCGGACTCCGCGGCTGCCTTAGCGACGGCCATCGAAACGCCAAGGATCGCGTTCGCGCCAAGACGCGACTTGTTGTCGGTGCCGTCGAGCTCAATCATAGTTTGGTCGATGAGGCGCTGGTCGTCCGCCTCGATGCCGGCAATCGCATCGGCGATTTCCTCGTTGACGTTGTCGACTGCCTTGCGTACGCCCTTGCCCTCGTAGCGCTCGTCGCCATCACGCAGCTCGTGGGCCTCGTGGACGCCCGTGGAAGCACCGGAAGGAACACCGGCGATGCCGCGCGCCCCGTCGTCGAGGAAGACCTCCGCCTCGACGGTCGGGTTGCCGCGGGAATCCATGATCTCTCGTGCGAATGCGTGAATGATGTCAGCCACTGTTTCTCCTTAGGTGAGTCAAGCGTTTGTGGCTCCAATTGTTGCAGAGTTTTCCCGCTTTGTGTCGCCCTAGCGGTGCGCCGGTTGCGACAGCGCGTAGTTCGCCGCTGCGTCGCGGACTTTTACCACGTAGTCGTTAGAGTTGTTGTAGCTAAAGATCGCATCGCGCCACCCCTCCGGGGTTGA	MLAALEVVDAVLVELGGRDVEGESDVVAQGVTGLLNGLDNDVKRGLRGVDGGGEPALVAKPGGQALGLEHGFERVVDLRAHAQRLLEGLGAERGDHELLDVHAGVRVRAAVEDVHHRHRQDVRVRAADVAVQRQASGLRGCLSDGHRNAKDRVRAKTRLVVGAVELNHSLVDEALVVRLDAGNRIGDFLVDVVDCLAYALALVALVAITQLVGLVDARGSTGRNTGDAARPVVEEDLRLDGRVAAGIHDLSCECVNDVSHCFSLGESSVCGSNCCRVFPLCVALAVRRLRQRVVRRCVADFYHVVVRVVVAKDRIAPPLRG				NA	NA	NA	NA	NA
AK009_07909	234			hypothetical protein	GTGCGACATCATCGTGCGGTAGCCGTTGCGGTGCGCGAGGTCGACAGCGTCGAACGTCTCGGTCAGGGTGCCGATCTGGTTGACCTTCACCAGCAGGGCGTTGGCGGCCTTCTTCTCAATGCCCTCCGCGAGGCGCTTCGGGTTGGTAACGAAGAAGTCGTCGCCGACGATCTGAACCTTGTCGCCGATCTGGGCGGTGAGCTCGACATAGCCGTCCCAGTCGTCCTCGTCTAG	MRHHRAVAVAVREVDSVERLGQGADLVDLHQQGVGGLLLNALREALRVGNEEVVADDLNLVADLGGELDIAVPVVLV				NA	NA	NA	NA	NA
AK009_07910	519	ftsL_2		Cell division protein FtsL	GTGCCCGTGGCGTCTCGTGAACGCGCGCGGCGGGAGCGGCAGCAGGCGCGCGCCCTCAAGCAGAAGAAACCGCTGGTCAAGCAGGACCTCACCAGCTGGGCGATTCTCATAGCCGTCCTTATTGCGGTCCTTCTGGCCATTGCGGTTCCCCTGCGCAACTACTACGAGGGACGAAGCGAGATTGCCCGGCTCAACGATTCCATCGCAGCTCTCGAGCAGCGAAAAACAGAGCTGGAAACGGAGATCGCGAAATACGACGACCCGGAATACGTCAAGCAGGAGGCGCGACGCCGCCTCGGTGTCATGGAGCCAGGGGAAACAGCGTGGCGAATCATGGACCCGCGGATGACCCAGGGCGAGAACATCACCACGGACCAGGCCCCCGACGACCGCTCCTGGCCGGAGGTGCTGTGGGACAGTCTGCGGGAAGTTCCGGCACCTGAAGCGCCTGCGCCGCCCGCTGACCAGGCCGCAGAAGCACCGGCTGCCAGTGCTCCTGCGGAGCAGCCTGCACCCTAG	MPVASRERARRERQQARALKQKKPLVKQDLTSWAILIAVLIAVLLAIAVPLRNYYEGRSEIARLNDSIAALEQRKTELETEIAKYDDPEYVKQEARRRLGVMEPGETAWRIMDPRMTQGENITTDQAPDDRSWPEVLWDSLREVPAPEAPAPPADQAAEAPAASAPAEQPAP				NA	NA	NA	NA	NA
AK009_07911	393			hypothetical protein	GTGCGCCTCGATGGGGGCCGCGCCGAGGATGAGGAAGGCCTGCTCCTTGGAGTACCCGAAAACGGTGAGGTAATCGATGCAGTGTTTGACAGCGTTCTGGTACGCCAGCGTCGCATCGAGGTGGCGCTGCTCGCCTTCGTTCGTGATGGACAGGCCCGTGAAGGTGAGCCAGTCCGTGTACTTCGGCCCCTGGTCGCCGGGGTCGATGTCGACGGAAGACTCGACGTATCCACCGATTTCAATGGCTCCGTAGAGGGTGATCTCGTTGAAGAACCGGCCCCCGCCTTCCGTTTAGGACGCAGAAGCGTTCCGACGCCCCCGGCACCGCCAAGGAAGATGAATAGCGCCTCGGCCCCTGGGGGTAACATCTCGAACCATGACGCCCACCCCTGA	MRLDGGRAEDEEGLLLGVPENGEVIDAVFDSVLVRQRRIEVALLAFVRDGQAREGEPVRVLRPLVAGVDVDGRLDVSTDFNGSVEGDLVEEPAPAFRLGRRSVPTPPAPPRKMNSASAPGGNISNHDAHP				NA	NA	NA	NA	NA
AK009_07912	546			hypothetical protein	ATGACGCCCACCCCTGAGGACCTCGACATCGTCGCCGAGCAGCTCGGCCGCGCGCCCCGCGGCGTGCTCGAAATTTCCTACCGCACGCCAGACGGCCAGCCCGCGGTGGTCATGACCGCGCCAAAGCTTGACGACGGGACACCGTTTCCCACCCTCTACTACCTCACCGACCCGCGTCTCACCGCCGAGGCGAGCCGCCTTGAGGTTGCCCAGGTGATGAAGTGGATGGAGCAGCGCCTCGGTGAGGACGCCGCGCTTGCCCGAGACTACCGCGCAGCGCACGAACACTACTTGGCTAAGCGCAACGCCATCGAGGACCTCGGAACCACGTTCTCCGGCGGCGGAATGCCGGACCGAGTCAAGTGCCTGCATGTGCTCATCGCCTACGCGCTCGCCGAAGGCCCGCAGCACATCCGCCTCGGCACGGAAGCGGTCGCGCTCGCCGCCGAACACGGCAATCTGCGTGGCACAGCTATCCCCGCGGACTGGCCCACCGTGGACGAGTTGGGCATCGACGTGGAAGAAGCAGGGGAGGGCCTCGCGTGA	MTPTPEDLDIVAEQLGRAPRGVLEISYRTPDGQPAVVMTAPKLDDGTPFPTLYYLTDPRLTAEASRLEVAQVMKWMEQRLGEDAALARDYRAAHEHYLAKRNAIEDLGTTFSGGGMPDRVKCLHVLIAYALAEGPQHIRLGTEAVALAAEHGNLRGTAIPADWPTVDELGIDVEEAGEGLA	PGPT0002595_268	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
AK009_07913	933	ppx2	COG0248	Exopolyphosphatase 2	GTGAATCCGGTGACCGTCGCCGCCGTCGACTGCGGTACGAACTCCATCCGCCTGTTGATCAGTCGTCGAAACGAAGACGGCACGAGTGTTGAGATTGCGCGTCGTAACACGATTGTCCGGCTTGGCCAGGGCGTCGATAAGACGGGTACGCTCGACCCCCGCGCCGTGGAACGTACCCGCGCGGCTTTGGCCGCCTATGTCGAGGAAATGGAGGCCGCCGGCGTAACCCGCGTGCGCATGGTCGCCACCTCGGCAACTCGCGACGCGTCGAACCGCGAAGATTTCTTCGCCATGACCCGCGAACTGCTCGGGCGGATCCAGCCGGGTGCTGAAGCGGAAGTAATTTCAGGTGATGAAGAAGCCGCGCTCTCCTACGCCGGCGCCACCGCGGATCTCAACCAGGCGGGCAACGTGTGCGTCATCGACTTGGGCGGGGGATCGACGGAGTTTGTCACCTCGGACTCGTCGATCTCGACTCAAATGGGGTGCGTCCGCGTCACCGAAAGGCTGATGCGCTCTAACCCTCCTGCAGAGCAGGAGGTGGATGCCGCACGCGCTTTCGTGCGCGAGCGGATCGCAGAAGCAGTTGCCGCAGTCGATCTCTCGCGCGCGCAAGGCTTCGTGGGCTGCGCGGGTACCTTCACCACCCTCTGCGCCCTAGCTCAGGGGTTGGAAACATACGACCCTGAGCGCATTCACATGGCCGAAGTGTCGTTCGACAGCGTCAGGCACGTTGCAGCGGAGCTTCTCCGCCAGACCTCGCAGCAGCGCGCGGCACACCCCGCCATTAGCGAAGGGCGCGCCGATGTCATTGCCGCCGGCTGCGTCATTGTGGAAGAAATCATGGATGCCGCGGAGCGGCTGACCAATCATCGCTCGTTCGTAATCAGTGAGAAAGACATCCTCGACGGGATTGTCGCAGGCCTGACCTAG	MNPVTVAAVDCGTNSIRLLISRRNEDGTSVEIARRNTIVRLGQGVDKTGTLDPRAVERTRAALAAYVEEMEAAGVTRVRMVATSATRDASNREDFFAMTRELLGRIQPGAEAEVISGDEEAALSYAGATADLNQAGNVCVIDLGGGSTEFVTSDSSISTQMGCVRVTERLMRSNPPAEQEVDAARAFVRERIAEAVAAVDLSRAQGFVGCAGTFTTLCALAQGLETYDPERIHMAEVSFDSVRHVAAELLRQTSQQRAAHPAISEGRADVIAAGCVIVEEIMDAAERLTNHRSFVISEKDILDGIVAGLT	PGPT0002595_5165	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
AK009_07916	1077			hypothetical protein	ATGGGGAAACGTGAGGATTCATTGAGTCTGTTAAGGACAGTGGGTTGGATCGCAGCGACTGGTCTGACGGGTGCCTTAGCCATCGAACTCCTTGGAGCAAGCCCGGTAACTGTGGAGAAAATTGTCGACGGTGACACGATCGATGTGCGTCTCAACGGCGAGACGACACGCATCCGGTTCCTCAACGTGGATACACCCGAAATCGGTCGTGACGGGGCGCCCTCTGAATGCCTTGCCGAAGAAGCCCGCCAGTACCTCGCAGATCGCCTTCCCATTGGCTCTGTGGTGGAGCTTGAATTTGACCAGGAGAGACTGGATAAGTACGGGCGGAGCTTGGCAGGGGTCTTTGTCGACGATTCGCTGATCAATGCGGAAATTGCCCGGGAAGGCCTGGGCCGCGCCGTGGACATCGCCCCCAACCACCGCTTCTACTCCGAAGTAACCGAGGCGGAAAGGGAAGCAAACGAAGCTAAACGCGGGTTATCAACGCTGGGCCCGGAGTGCTTCGTCGCACAGCAAGATGCGGAGGCGATCCGCGAGGCTGAACAAGCTCAACAGGAGGCGCAGAACTTGATCCTGCTCTTGCCTTACCTGAACGATGACGGCAACCTCGCGCAGGTACAGCGCAGCGCACGACGAATCGCGGAGGCGAGGGCGACACTGGCTACAGTACGCACCGCAGGGGAAAGACAATCCGAGTTTCAAAAGAGCGCCTATGGCGACAGCTACAAGGACACGGTGAACACGCTCGAAGATAGGCTCCAGCGCGCCGAATCCAGGATCGACGAGGCTATCGCACGCGAACAGGAACGTCGCGATGCGCAGGAGCGCGCCGAGGAACAGCGCAACGGCGACGACATCGACGCCGCGCGGAAAGACACGGAGAATCAACCTCGGATGGAGTCGTCAGCACCGAGCAGTTCCGCGCCCCCTGCTGCCGCTTTGCACTCGGGAGGCGGGGGAGACACCTACACCGGGTGCCGCGCATACGGAGGAAACTACGCGTTTACCTCCGTAGACGACGAGGGTCGGCGATACGCGAAGATCGACTGCGCTACCAAGGCACAAATCGGCTGA	MGKREDSLSLLRTVGWIAATGLTGALAIELLGASPVTVEKIVDGDTIDVRLNGETTRIRFLNVDTPEIGRDGAPSECLAEEARQYLADRLPIGSVVELEFDQERLDKYGRSLAGVFVDDSLINAEIAREGLGRAVDIAPNHRFYSEVTEAEREANEAKRGLSTLGPECFVAQQDAEAIREAEQAQQEAQNLILLLPYLNDDGNLAQVQRSARRIAEARATLATVRTAGERQSEFQKSAYGDSYKDTVNTLEDRLQRAESRIDEAIAREQERRDAQERAEEQRNGDDIDAARKDTENQPRMESSAPSSSAPPAAALHSGGGGDTYTGCRAYGGNYAFTSVDDEGRRYAKIDCATKAQIG				NA	NA	NA	NA	NA
AK009_07917	480			hypothetical protein	TTGCGGAGCGCCCTGTTCGCGCAGCGCAATGCCGTTGAAGCAGCCCTGCTGCAAACCGGTTTTCTTCGATCCATCCGGCGCAAGCGCGACCCAGTTCTGTCCGTCGTAGTGGAAGAAAACCTTCCAGTCCGTCTGCTTGGCACCGGCGACGGCCCACTCACCGTTGCACCATTCGACGATCGTGCCTGCCACGGCCGGCCACCCGTCGACGACGGCGTCGAACTCCTGCGGAGCGCACTCGCCCGCTGGGACAGGCGCGGGGAGGATTCCGGGGAAAAGCCCTTCGGCGGATCCAAGTTGGGGGCTCCAGGCGGCCACAGCGTTGGAGCTGGTTTCGGTCAGGGACGCCAACGCCCCGTCGATGGCCGATGTGTCCACCGAGGATGCGAACGGGTCGAACGGTGCAACCTCCTCCGCCTGCGCGGTAGCGGGCAATGCCGTCAGCGCGAGTGCGCCGGCGGCTCCGATAACAGCAAGTGA	MRSALFAQRNAVEAALLQTGFLRSIRRKRDPVLSVVVEENLPVRLLGTGDGPLTVAPFDDRACHGRPPVDDGVELLRSALARWDRRGEDSGEKPFGGSKLGAPGGHSVGAGFGQGRQRPVDGRCVHRGCERVERCNLLRLRGSGQCRQRECAGGSDNSK				NA	NA	NA	NA	NA
AK009_07918	753			hypothetical protein	ATGACTTTTCGGTTACCGCGAACCTTCCAAGAGCAGGACACCGCTCAGGCCGTTAGGTACCTGTGCGCCTACTACTCGCGAACTCTGGGTCTGAAGGCTGCGGGCGCGCCCGGGGTGTATTCGGGCGAATACTTCGACCCCTGTGGCGATGACCCCTCCCCGCACTGGTTCACGCCGGAGGACCTGTTCGCGGTCTCGTGCCTGAGCACCCCTATCCCGGCTGAGGCTGGGATCCGCTTGCTGCGCGACGGTGCAGTCAGAGAAAAGGTTGCTGTACTTTTTGAACAGATCCCGAGAAACGTCGGATTGTGGGAATTAGACGACCCTCGCAGTCAACTCGGTGATTTCGCGCTCGAACGCTACCTCAGAAAGCTCCCCGGGATAGGGGAAGTGCGCGCCACCAAGCTCATCGCCCGCAAGCGCCCTGACATCTACCCTGTAGTGGATCGAGTGGTGCGCGAGGTTACTGGGACGTCGACAAGCGAATTTACCGTTCCTTTCGCCCAAGCCCTCCGGGAGGACAATTGCGCGCTTGTTGCCGAGCTGGCGGCGCTCAGCGCCCGCGCCGGGCTTCCAGCGCGGATCAGTCCGCTCCGGGTCTTCGATGTCGTGGCGTGGATGGAGGGTACGGCGAAAGAGTCGGACGCTTATGCCGCCGGATACTCCATCGGCGAGCCCGGGCCCAGCGGGAGGCCGAGGAAGTACCACAGCAGGAAGAAGAGGAACCAGCCGACCAAGATCGAGATCGAGTAA	MTFRLPRTFQEQDTAQAVRYLCAYYSRTLGLKAAGAPGVYSGEYFDPCGDDPSPHWFTPEDLFAVSCLSTPIPAEAGIRLLRDGAVREKVAVLFEQIPRNVGLWELDDPRSQLGDFALERYLRKLPGIGEVRATKLIARKRPDIYPVVDRVVREVTGTSTSEFTVPFAQALREDNCALVAELAALSARAGLPARISPLRVFDVVAWMEGTAKESDAYAAGYSIGEPGPSGRPRKYHSRKKRNQPTKIEIE				NA	NA	NA	NA	NA
AK009_07919	1617	abgT	COG2978	p-aminobenzoyl-glutamate transport protein	ATGACAGGATCACACACTCAAGGGTCGACGACGACCAAGGAACCCGAAGAGAAGGACACCGGTGGGGGCGGTTTCCTCGGAGTCATCGAGAAGGTCGGCAACAAGCTGCCCAATCCGTTCTGGCTCTTTGTCATCCTTTCAGGCGTTGTTGTGGCGCTGTCGTGGATCGGCAACCGGATCGGCATGACCGCCACAGACCCCGGCAGCGGTAATACCATCGCGGTCGAATCCCTGTTGACCACCGAGAACCTCTCACGGATGGTGACGGACGCGGTGAAGAACTTCGTCTCCTTCCCGCCGCTGGGTGTGGTTCTCGCGGTCATGCTGGGTGTCGCGGTCGCCGAATACACCGGCCTGCTTTCCACGATGGTGCGCGCCATGGTCGGTTACGTCAACCCGAAGATTCTCACGTTCATGATCGCTCTGGCAGGCGTCACGGGCTCCGTCGCCTCCGACGCGATCTACGTCATCATCATCCCGCTCGGCGCGATGGCCTTCCATGCCGTCGGCCGCTCCCCGATCGTCGGTGCGATGGTCGCGTTCGCGGCGTCGAGCGCGGGTTTCAACGCCTCACTCATTCTCAACATCACCGACCTTCTGCTCGCGGGAATTTCGACATCGGCAGCCCAAATGGTCGACGAGAACTACGTAGTTTCGCCGCTGGCCAATATTTTCTTCGTCATCCCCTCGGCCGTGTTCCTCTCCCTGCTCATCACGGCAGTGACGGAATTCTTTGTGGATAAGAAGGCGCACGAGCTCATCGACCACAGCGAGGTTTCTTTCGAGCAATCGCGTGACGACGCCCCCTCCAACGACCCCGAAGATTCCGAGGAGATTTCCCTGACCCTTACACCGGTCGAGTCCAAGGGCTTGGTCTCCGCGCTCATCACCTTGCTGGTGTTCCTCGCCATCTACTTCGCGCTGCTGTTCATCCCTGCCTCCCCGTTTGCCCGCCCCGAGGAAGGGTTCATGCAGTCGCCGCTGATTCAGGCGGTGGCGGTGCCGATCACTCTGGGGTTCTTCTTCGTCGGTCTCGCCTACGGCCTGACCACAGGCAGCATCAAGAGCTCCGGCGACATTCCCGACATGATGGCCAAGGGGCTTGAGACGATGCTGCCCATGTTGGTTCTGTTCTTTGCCGTGTCCCAGTTCCTGGCCTGGTTCCAGTGGTCGAACTTGGGGCCCTGGACAGCAATTAAGGGCGCGGAGCTGCTGCAGCAGTGGGACCTTCCCCCGACGCTGCTTTTCGCGGGCCTCGTCGCCATGGTCGCCGTGCTCAACATGCTGATTACCTCAGGGTCCGCGCAGTGGGCTCTCATGGCCCCGGTTGTGGTCCCGATGATGATGTACGTCGGAGTCGCGCCCGAGGTGGCGCAGATGCTCTTCCGTATCGGTGACTCCCCGACCAACATCATCACCCCGATGTCACCGTTCTTCGGCCTTGCACTGGTGTTGCTGCAGCGCTACTACAAGAAGGCGGGAGTGGGCACCCTGATGTCCCTCGCCCTTCCTTACTCGATCTCGATCTTGGTCGGCTGGTTCCTCTTCTTCCTGCTGTGGTACTTCCTCGGCCTCCCGCTGGGCCCGGGCTCGCCGATGGAGTATCCGGCGGCATAA	MTGSHTQGSTTTKEPEEKDTGGGGFLGVIEKVGNKLPNPFWLFVILSGVVVALSWIGNRIGMTATDPGSGNTIAVESLLTTENLSRMVTDAVKNFVSFPPLGVVLAVMLGVAVAEYTGLLSTMVRAMVGYVNPKILTFMIALAGVTGSVASDAIYVIIIPLGAMAFHAVGRSPIVGAMVAFAASSAGFNASLILNITDLLLAGISTSAAQMVDENYVVSPLANIFFVIPSAVFLSLLITAVTEFFVDKKAHELIDHSEVSFEQSRDDAPSNDPEDSEEISLTLTPVESKGLVSALITLLVFLAIYFALLFIPASPFARPEEGFMQSPLIQAVAVPITLGFFFVGLAYGLTTGSIKSSGDIPDMMAKGLETMLPMLVLFFAVSQFLAWFQWSNLGPWTAIKGAELLQQWDLPPTLLFAGLVAMVAVLNMLITSGSAQWALMAPVVVPMMMYVGVAPEVAQMLFRIGDSPTNIITPMSPFFGLALVLLQRYYKKAGVGTLMSLALPYSISILVGWFLFFLLWYFLGLPLGPGSPMEYPAA				NA	NA	NA	NA	NA
AK009_07920	645			hypothetical protein	GTGTCTACAGTTGCGATGAGAAACCGCGGGAGCGGATGCGCGGCCGCGGCGGCTGCCGTTGTCGCGTTGGTCGCCATCGCCGCGGTGGTGCTCGTGATGATTCGTCCTGCGTTGTTCGGCCTCGGGCGCGAGAGCATCACCGACGAGCAAATCGGGGCATCCTTCAAGGAGATCGCTGAGCTGTCAGTGGAGGAGTACGCGTATTCTACGGTGGGCTCGTTCGAGCAGGAGGGCTTCATCGTCGCGGGGCGCACCGTCCCCTTTACCGGACGCAACTTCCTGGTGACATTCGATGGATCCGTCAAGGCGGGGCTTCGCGACGCCGAGCAAGTCGTGGTGGACATCGACGAGGACGCCGAGAAACTCACCGTGCGCGTGCCGCGCGTGGCCATCACCGAAAACTCCATCGACCCAGCAAGCATCACCGTGTACGACCAGTCGATGAATCCCTTGAACCAGGTCAGGGTGGACGACGTTGCCGGTTTCCTCGCTGAGCAAGAAAAACGTGCGGAGGAAAAGGCTATAGAGGAGGGTCTTCTCAAGCGCGCCGAGCAGCGCACTGAGGAACTCATGCGCAGCCACGCCAGCGCGTTGATTGAGGGCACCAACATGGCGGGGTATCAGGTGGAGATGCGCTGGAGCTAA	MSTVAMRNRGSGCAAAAAAVVALVAIAAVVLVMIRPALFGLGRESITDEQIGASFKEIAELSVEEYAYSTVGSFEQEGFIVAGRTVPFTGRNFLVTFDGSVKAGLRDAEQVVVDIDEDAEKLTVRVPRVAITENSIDPASITVYDQSMNPLNQVRVDDVAGFLAEQEKRAEEKAIEEGLLKRAEQRTEELMRSHASALIEGTNMAGYQVEMRWS				NA	NA	NA	NA	NA
AK009_07921	351			hypothetical protein	TTGCTGTTCCACTCCGCTGAAGGAGCGGCGCAGGCTCAGCGCGATGTCGTTGACCGGGGCGAAATCTTGGCGCGCCGGGACGTACCAGCCCTTCCAATACACGAGCATGGCCAGCAAGAACGCCACGATCGGGGAGACGATCATTCCCCAGGCGTCGTACCCCGCGTGGTAAAGCCCCACGTTGAGGGTTCCTGCGACGACAGCCGGGATGACCGTCATCTGCTGGTTTTTCAGCACGGAGGGCACCTGGCCGCACATCATGTCCCGCAGAATGCCGCCACCCGTGGCCGTGACAACACCCATGAGGACACACCCGAGGGGAGAAACGCCGTTGAGCAGCGCTTTGGTTGA	MLFHSAEGAAQAQRDVVDRGEILARRDVPALPIHEHGQQERHDRGDDHSPGVVPRVVKPHVEGSCDDSRDDRHLLVFQHGGHLAAHHVPQNAATRGRDNTHEDTPEGRNAVEQRFG				NA	NA	NA	NA	NA
AK009_07922	930			hypothetical protein	ATGGTCTCACCCGCGACGAGTTCATCGACATGCTCTACCGCGCGTACAGCCGATCAGGCGACGACGGGGACACCGGGTGGGTGCGGCGCACGTAACATCGGGTTCATGGACCTAGCCAAGCACCTCTCTGGGTGGCCGGTGGACAACGTCTCGGCCGCGCTCGTCGGAAAGCAGGACGCGACCTACGGCGACGAGCACGTCATCTACGAGCTCATGAGCGTGACCAAGCTACTCGCCGCATACAGCTTCCTCATGGCCGTCGAAGAGGGAGCATTCTCGCTCGATAGCGCCTGCGGCCCCGACGGTTCCACCGTCCGCCACTTGCTTGCCCACGCCTCCGGAGTAGGGCTTGATTCGCGCAAGGCCCAGAAACCGGTCGGTGAGCGGCGCATTTACTCGTCCGCCGGCTTCGAAATTCTCGACGACTTTCTCCACGAGCGCAGTGGGATGCACCTTGGGGAGTACGCGCGCCTCGGCGTTTTCGAGCCACTCGGCATGGACAGCGCGGAGATTTATGGGTCTGCGGGGCACGGCGGGAGGGCGTCGTTAAGCGATATGCGCGCCTTCGCTCGCGAGTTGACGGCGCCCATGCTGCTGAGCGAGCAGACGCTTATCGACGCTTTCGCCAACCAATTCGGCGAGCTGCGCGGGATCGTCCCCGGATACGGGATGCAGAAGCCCTGCCCGTGGGGTCTGGGTTTTGAGATCCGGGGCGAGAAAGCGCCGCACTGGACCGGTGACAACATGCCCGCAGACACTGTGGGGCACTTCGGAATGTCCGGAACCTACCTCTGGGTCGTGCCGGCATGGTCAGATTCACCGGCAGCGGGGACCGCGATGGTCGTTCTCACCGACCGCGATTTCGGCGATTGGGCGAAACCTTTGTGGCAGGAGACGAACGCGGCGGTGTTTGAGGAGCTTTCCGGCTAG	MVSPATSSSTCSTARTADQATTGTPGGCGARNIGFMDLAKHLSGWPVDNVSAALVGKQDATYGDEHVIYELMSVTKLLAAYSFLMAVEEGAFSLDSACGPDGSTVRHLLAHASGVGLDSRKAQKPVGERRIYSSAGFEILDDFLHERSGMHLGEYARLGVFEPLGMDSAEIYGSAGHGGRASLSDMRAFARELTAPMLLSEQTLIDAFANQFGELRGIVPGYGMQKPCPWGLGFEIRGEKAPHWTGDNMPADTVGHFGMSGTYLWVVPAWSDSPAAGTAMVVLTDRDFGDWAKPLWQETNAAVFEELSG				NA	NA	NA	NA	NA
AK009_07923	390			hypothetical protein	ATGACCAGCTCCCCTTTCCGCGTTTGCCTCGCCCCGTGGATAAAGCAGCCGGGGCCTAAAGAACTCGCTTCAGTATACGCACGGCGCTTGTTCGCACCCGTGCCCGGGTTTTTAGGAATCGTCCTCGCCAGGCAGGGACTGTCCGCCGTTGCGCAGCGTTCGGGTCAGGCCTTCCTGCATGGTCACGGCGACGAGGTTTCCGTCGAGGTCGAAGATTTGGCCCTGGGTCAGGGCGCGACCCGCGTGGGCGGACGGGGAGTTTTGATCGTAGAGCAGCCACTCGTCGGCGCGGAAGGGGCGGAGGAACCACATGGCGTGGTCGAGGGAGGCCATCTGGACCTTGTGCCCGGTGTGCGGCACCATCGAGGAAAACAGCAGCGTCATGTCTGA	MTSSPFRVCLAPWIKQPGPKELASVYARRLFAPVPGFLGIVLARQGLSAVAQRSGQAFLHGHGDEVSVEVEDLALGQGATRVGGRGVLIVEQPLVGAEGAEEPHGVVEGGHLDLVPGVRHHRGKQQRHV				NA	NA	NA	NA	NA
AK009_07924	669			hypothetical protein	GTGCGCGTAACTGTTGGAAGGCACGACTCGGAAGTCCCAGTCGGACCACTCGGTAATCAGCCCCCGGAGGCTTTCCGGCAACTCTTCGGTGTTGGAGTCGAGCTCATCCGGCCGGGGCACCTCGCGCATGGCGTCGCGGTGCTCGGGACCCTCGTCGCCGATGCGGTGGAAGCTGGCCTGCATGGAGAAGATGACTTCGCCGTTTTGCATCGCCTCGATCTTGCGGGTGGCGAAGCTGCGGCCCTCGCGCACCCGGGAGACCAAGTAGACGGTTTCGGCGTCGGCTTTGCCGGCGCGCAGGAAGTACCCGTGCAGGGAGTGGACGCGCTTGTCTTCGCCGACGGTGTGCGTGGCGGCCACCAGCGCCTGGCCGGCGACGTGCCCGCCGAATGTACGAACGAACACTTTCGAGTCCATCGCGCGGCCCCGGAAGATGTCTTTATCGATTCGTTCGAGGTCCAATATCGCCTGAATGCCCTCGTAACTAGGTTCGTTCATAGTCAGACAGATTACATCACTACGAAACCAACGCTACGTTACTGTTATGCTACCGCGCGCGTGGCACTGAGGTGCGCATACTCCGGCAGCGTGGCGCTGCCGCCGAGACGCAAAACGCGCACAGGAACCCGCAACCTAACCGCGCGCGTATCGCTGACCGCCTCGTTGTAA	MRVTVGRHDSEVPVGPLGNQPPEAFRQLFGVGVELIRPGHLAHGVAVLGTLVADAVEAGLHGEDDFAVLHRLDLAGGEAAALAHPGDQVDGFGVGFAGAQEVPVQGVDALVFADGVRGGHQRLAGDVPAECTNEHFRVHRAAPEDVFIDSFEVQYRLNALVTRFVHSQTDYITTKPTLRYCYATARVALRCAYSGSVALPPRRKTRTGTRNLTARVSLTASL				NA	NA	NA	NA	NA
AK009_07925	462			hypothetical protein	ATGTTGGCCGTGATGGCGGCGGTTGTCGTTGTGGTCCTTTTCTGGGCCTACCTCACGGCGCAACGACTCGACCGGTTGCACATCCGCGTCGACCGCAGCCGCGACGCGCTGCAGGCCGCGCTGGATAGGCGCTGCGCGGTGATCGCGGCGACGATTCCCGAGGTCGCCGAGCGAGCCCGCGCCGCAGAAAGGGTGCGCCTGACGCCGCGGGACGTGGCCACGCGCTGCGAGGTGGAGGATGCGCTGCGTGGCGACGTCGACAAGCAGGGCCCGGCGCACGCCAACGGGCGCGACCTCGCCGAGGCAGACACCCGCGTCGCGCTCGCTCTGCGGTTTTACAACGAGGCGGTCAGCGATACGCGCGCGGTTAGGTTGCGGGTTCCTGTGCGCGTTTTGCGTCTCGGCGGCAGCGCCACGCTGCCGGAGTATGCGCACCTCAGTGCCACGCGCGCGGTAGCATAA	MLAVMAAVVVVVLFWAYLTAQRLDRLHIRVDRSRDALQAALDRRCAVIAATIPEVAERARAAERVRLTPRDVATRCEVEDALRGDVDKQGPAHANGRDLAEADTRVALALRFYNEAVSDTRAVRLRVPVRVLRLGGSATLPEYAHLSATRAVA				NA	NA	NA	NA	NA
AK009_07926	1287			hypothetical protein	ATGTCACCGGCTCACCCGCACCTTCTCGCCGGGCGTCGACGCAACCGTGTCGTAGACCGCCATGATGCGCGCGGCGACGCTGCCCCAGTCGTAGTCTGCGGCGCGCAAAGTGCCGGCGTCGATGAGCGCGTCGCGGGTGAAGGGGGCGTCGATAAGCGAGCGCAGCGTGCGCGCCAGCGCTGCGGAGTCGCCGACGGGAAACAACGCCCCGGCGGGTCGCCCGGTGTCTGCGGCGCACACTGCCGCGAACGCCTCGATGTCGCTGGCGACGACCGCGCACCCGGCGGCCATTGCCTCGACCAACACGATGCCGAAGGATTCTCCGCCCGTGTTCGGTGCGACGTAGATGTCCGCGCGGCCCAAAATCCGCGCCTTCTCGGCGTCGCTGACGCGGCCGAGGAAGTCGACACCGGCCGCCTGGCGCGGCGCGCCCCCGCCCACCACGGTCACCCGCGCGGGCCTGTCCAGCTCAGCGATCGCGCGCTGGAATATGTCGAGGCCCTTGCGCGGCTCGTCCAGCCTGCCCAGAAACACGATCTCGGGAACGTCGTCTGGCGCGCCCGTTGCCTGCTCCCGCGCCCGGCGAAACAGCGAGGTGTCCACCCCGTTGGGGATGAGCACGGGGTCCGTGCCGATCTGCTCCACCTGCCAGCGCCGGGCCATCTCGCTAACGGCGATGCCACCGCGGATCTTCTCCAGCCGCGAGCGCAGCACGGGCAAGGCCACACGCAGCGGCCACGACGACGTCGCCGAGGCGTGGTATGTGGCAACGATCGGGCCCTCGGCGACGCGCAGCGCCGCCATGGAGTAGCTCGGCGAGTTCGGTTCGTGGATGTGCAGCACGTCGAAGTCGCCCTCGGCGATGAACCTGCGCGCCACGCGGCGCACCTGCGGGCCGATCGCGAGTCGCGCCACCGATCCGTTGTAGCGGATGGGGACCGACCCGCCGCCGCGGGTGACGTAGTCGGGCACGTCCGCGGCGCGTGTTGCCGGCCCGAGCACGCGCACGTCGTGGCCGTCGCCGCGCAGCACGCCGGCGAGGTCAAGGATGTGGGCCTGAACGCCGCCCGGTTCGTCGAAAGAATAGGGGCACACCATGCCGATCCTCATCGCCGCCCCCTAGCGCGCGCGCCGCCGGCGCGGCTTTTTCGGCCGGTCGGCGGGCCACATCGGCTGCAGCATGTGCCAGTCCTGGGGGTGCGCCGCGATATTGGCCGCGAAGCAGTCGGCCAGGCGTTGGGTGGTCTCCTCGACCGTGGTGACCTCAACCGGGGCGCCGGATTTTAG	MSPAHPHLLAGRRRNRVVDRHDARGDAAPVVVCGAQSAGVDERVAGEGGVDKRAQRARQRCGVADGKQRPGGSPGVCGAHCRERLDVAGDDRAPGGHCLDQHDAEGFSARVRCDVDVRAAQNPRLLGVADAAEEVDTGRLARRAPAHHGHPRGPVQLSDRALEYVEALARLVQPAQKHDLGNVVWRARCLLPRPAKQRGVHPVGDEHGVRADLLHLPAPGHLANGDATADLLQPRAQHGQGHTQRPRRRRRGVVCGNDRALGDAQRRHGVARRVRFVDVQHVEVALGDEPARHAAHLRADRESRHRSVVADGDRPAAAGDVVGHVRGACCRPEHAHVVAVAAQHAGEVKDVGLNAARFVERIGAHHADPHRRPLARAPPARLFRPVGGPHRLQHVPVLGVRRDIGREAVGQALGGLLDRGDLNRGAGF				NA	NA	NA	NA	NA
AK009_07927	1458			hypothetical protein	GTGGACAGGCAGCAGCGCAGCGCCTGTGTCGATCGCCAGCTTCGCGGGCCCGGCCGGAAAGGTCGTCGTCTCCCCGAAAAAGTCCACTTCCACCCCGCGCGAGGTCAGGTCGCGCTCGCCGAGCAGGCACACGATGCCGTTTCCGCCGAGCACCTCCCTCAGCCGCGGGTACGGAGGCGCCTCGCCGCCGGTGTGCGGCAGCACCTCGAAGCCGAGCCCGCGTCGAAACTCCACGAAAGCATCGAACAGGGACTCCGGCTTGAGCCGTTCGGCAACCGTGGTGAACTGCCCGTAATTGTGCACCAGCCACATGCCGGCCATGTCCCAGTTGCCCGAGTGCGGCAGCGCCAGGATCGCTCCCCTGCCCGCCTCGAGGGCCTCATCAAGATACTCGCGCCCGCGCACGGCGTTGCTTATCGACGCCACCACCTGCGCATCCCCCGCCATCACCGGCAGGCGGAATGCCTCTTTCCAGTACCGCGCGTAGCTGCGCATGGAGTCGCGCACGAGCTGCTGGTCGACGTTTTCGACCCCGACGACGCGGATCAAGTTGCGCCGCAGCATCTCCATGCCGCGGCCGTTGTCGCTCGCGGCATCGGCGCCGGCGTTGAACAGGCGTGTCGCGAGAGCGGCGGGAAGCGCGCCCACGACTTTCCACCCGGCGATGTAGGCGCCTGCGGTCAGCGCGTCGCCAAGCGAGTGCGGTTGGGGCGCGGCCACCTACGCCACCCCCGTGGGAGGGGCGATGCGGTCGTGGGCACGCTCGTCGCGCGCGGCCAGCAAGAAGCGCTGCACGACCGTGATCAGGGAGCCCGCGAGCAGCAACCACATCGCCGCGGCCAGGGAGTGGCCAACGCCGACTCCCTCCAGCGCCAGGCCGATGAAGGCAACGATGAGGCGCTCGGGGCGCTCGATCAGCCCACCGTTGATGGTCAGCCCCCCGGCCTCGCCGCGGGCCTTGATATAGCTGATGACCTGCGAGAGCACCAAGACGGCGAGCGTGACCGCCACCGTGATCGGCGAAGCGCCGTCGACGTAGACGAACCAGACGGCGATCGCGCCGAACAGTGCGCCGTCGGTAATGCGATCGCAGCTCGCGTCGAGGGTTGCGCCGAACGCCGTTCCGCCGCCGCTGAGCCGCGCCATCGTCCCGTCGACCATGTCGAAAGCGGCGAAAAACGCCGAGAGCACGGCGGCGAGGACGAGGAAGTCCATGGGGATGAGCACCACGGAGACCAAGATGGTCGCAGCCGTGCCCACGAGCGTGGTGACGTTCGGCGTCATCCCGGCCTTGAGCAGGCCGCGCGCGACCGGGTTGACGATGACTGCCGCGGATTCGCGGCCGTGGACGCTAAGCATCGCCGCCCCCATCTGCGCCACTGCCGACTGGGCCATTGCCATCTGGGTCGTCAGCGTCGTCCGGCCAAGCCTGCGCAAGCAGGGCGCGCGTGTCCTTGA	MDRQQRSACVDRQLRGPGRKGRRLPEKVHFHPARGQVALAEQAHDAVSAEHLPQPRVRRRLAAGVRQHLEAEPASKLHESIEQGLRLEPFGNRGELPVIVHQPHAGHVPVARVRQRQDRSPARLEGLIKILAPAHGVAYRRHHLRIPRHHRQAECLFPVPRVAAHGVAHELLVDVFDPDDADQVAPQHLHAAAVVARGIGAGVEQACRESGGKRAHDFPPGDVGACGQRVAKRVRLGRGHLRHPRGRGDAVVGTLVARGQQEALHDRDQGAREQQPHRRGQGVANADSLQRQADEGNDEALGALDQPTVDGQPPGLAAGLDIADDLREHQDGERDRHRDRRSAVDVDEPDGDRAEQCAVGNAIAARVEGCAERRSAAAEPRHRPVDHVESGEKRREHGGEDEEVHGDEHHGDQDGRSRAHERGDVRRHPGLEQAARDRVDDDCRGFAAVDAKHRRPHLRHCRLGHCHLGRQRRPAKPAQAGRACP				NA	NA	NA	NA	NA
AK009_07928	978			hypothetical protein	ATGGCCCGAGTTGTACGGGTAGAGGTTCAGCAGCGCGTAGACGGTCTCGCCGCGCGCGACGATGAGCCCGTCTTCGTCACTAAGCTGCGGCGCCTCGAGGAACGGGTCCTTGGACCGCCCACCCGAGGGCTGCGACGTGATGTACGTCGACCGGTAGGGTGCCCACAACCGCTCAAGGTGATCCGGGGTGCCCACGCCGGTGTCGACGTAGTCGCTGCCGGTTTTTCCGCGCCGCGCTGCAACGGTTTCCTCGCTCGGCTGCTCGTTGATCCGCTCGCTCACCCACGCGTCGATGATGTCCACCGCCTCGGCGACGGGCACCCCGTTTACCTGCGTGCCGTCGAGGAAGCGGAAGCTCACCGCGTCCGCCTCGACGTCGCGCGCACCCGCGAGCAGCATGAACGGCACCTTCGAAGTGGTGTGGTTGCGGATCTTCTTCTGCATCCTGTCATCCGAGTGGTCGACCTCGGCGCGGATCCCGCGCTCGCGCAGCTTCTGGGTCACCGAGTCGAGGTGGCCGGCGAAGTCGTCGGCGACGGGGATGCCGACGACCTGGTGCGGTGCGAGCCAGGCTGGGAACGCACCGGCGTAGTGCTCGAGCAGCACGCCGAAGAAGCGCTCGATCGAGCCGAACAGGGCGCGGTGGATCATCACCGGTCGCTTCTTTGTGCCATCAGGTGCGGTGTAGGTCAGGTCGAAACGCTCCGGCAGGTTGAAGTCGAGCTGGACCGTGGACATCTGCCACGTGCGCCCGATCGCGTCTCGTGCCTGCACGGAAATCTTCGGGCCGTAGAACGCCGCGCCCGCCGGGTCCGGCACGAGCTCCAAGCCGGATTTCTCCGCCACCGACTGCAGGATGTCGGTCGAGCGTTGCCAAATCTCGTCGTCGCCGATGTACTTCTGCGGGTCCTTGGTGGAAAGCTCCAGGTAGAAGTCGTTCAGGCCGTAGTCCTTGAGCAGCGAGATGATGAACTCTAA	MARVVRVEVQQRVDGLAARDDEPVFVTKLRRLEERVLGPPTRGLRRDVRRPVGCPQPLKVIRGAHAGVDVVAAGFSAPRCNGFLARLLVDPLAHPRVDDVHRLGDGHPVYLRAVEEAEAHRVRLDVARTREQHERHLRSGVVADLLLHPVIRVVDLGADPALAQLLGHRVEVAGEVVGDGDADDLVRCEPGWERTGVVLEQHAEEALDRAEQGAVDHHRSLLCAIRCGVGQVETLRQVEVELDRGHLPRAPDRVSCLHGNLRAVERRARRVRHELQAGFLRHRLQDVGRALPNLVVADVLLRVLGGKLQVEVVQAVVLEQRDDEL				NA	NA	NA	NA	NA
AK009_07929	1596			hypothetical protein	GTGGGCGTCGTCCTGCGTGAAGCCGCGGGCTCGGGTCAGGCCGTGGATCACACCCGACTTCTCGTAGCGGTACACGGTGCCGAACTCGAACAGGCGCAGCGGCAGTTCGCGGTAGGAGCGCCCGCGGGAGTCGAAGATGAGGTTGTGCATCGGGCAGTTCATCGGCTTGACGTAGTAGTCCTGCGGCTGCTTGACCACGTTGCGGTCATCGTCGATCTCGCCGTCGAGCTTCATCGGCGGGAACATGCCGTCCGCGTACCAGTCCAGGTGGCCGGACTTGGAAAACAGCGATCCCTTGGTCACGTGCGGGGTGTTGACGAAGGAGTAACCGGCCTCGATGTGGCGCCGGCGCGAGTGGTCCTCCATCGCGAGCCGGATGATGCCGCCGTCCGGGTGGAAGACCGGCAGGCCGGAGCCGAGCTCGTCGGGGAAGGAAAACAGGTCCATCTCGTTGCCCAAGCGGCGGTGGTCGCGCTTCTCGGCTTCGCGCAGCATGTGCAGGTGCTCGTCGAGGCGTTCCTTCGACTCCCAGGCGGTGCCGTAGATGCGCTGCAGACCGGCGTTGTTTTGGTCGCCGCGCCAGTAGGCCGCCGAGGAGCGCGTCAGCGCGAACGCCGGGATGTACTTGGTGGTGGGCACGTGCGGGCCGCGGCACAGGTCGTGCCACTCAACCTCGCCGGTGCGCAGGTTGACGTTGTCGTAGTGCGTCAGGTCCCCCGCGCCGACCTCGGTGGCCTCGTCGGAATCCGGGTCGACGTTGCCCTTGTCCTGAATCAACTCCAGTTTGTAGGGCTCATCTTTGAGGTCCTCGGCAGCCTCCTCGACAGACTGGTAGACGCCGCGGACGAACTTCTGTCCCTGTTTGATGATTTTCTTCATCCGCTTTTCCAGCGTGACCAGGTCGTCCGGGGTAAAGGGCTCGGCGACGTCGAAGTCGTAGTAGAAGCCGTCGTCGATCGCGGGGCCGATGCCCAGCTTCGTGCCGGGGAACTCTGCCTGCACGGCCTGCGCGAGCACGTGCGCCGCGGAGTGGCGAATCACGGAACGCCCCAGCTCGGTGTTGGCTGCCACCGGCATGAAGGTCGCATCCGCGTCGGGGATGTGCGAGAGGTCTTTGAGCTCGCCGTTGGCGTCCTGGACGCACACGACGGCATCGTCGCCCTTGTTCGGGTAGTTCAACTCCCGCATCGCCGCGCCGACGGCTGTTCCCGCCGGGACGTTGAAGGGCTCGAGCTCAACAGCCGTGGATTCGCTGGACATTGTCAGGTGCGCTCCTTTTGCGCTCACGGGGGTGCGACATACCTGGCCGCACCCACCTTTTCTCAAACTGTCTTCAGACCTCCAAGATCCTACCTGGGTCAGGCGCCAAGAACCGACTGGCCCCAGTACTCGTCGCCCGCTCCGCTTTGCGACGTCCCCGGCGGCACCCAGTACACGGCGGAGCCGATGTGGGTGATCCACGTGTTGAGCCGGTCAACCTCGTCGAGTCGGGATTGCACAGGCGTGAACTGCACGTCCGGGTCCTTCTGGAAGCAGATGAACACCAGCCCAGCGTTGCTCAGCTCCGCGCTGCCCGGCTCGGGCGGAAGGTTGTAG	MGVVLREAAGSGQAVDHTRLLVAVHGAELEQAQRQFAVGAPAGVEDEVVHRAVHRLDVVVLRLLDHVAVIVDLAVELHRREHAVRVPVQVAGLGKQRSLGHVRGVDEGVTGLDVAPARVVLHREPDDAAVRVEDRQAGAELVGEGKQVHLVAQAAVVALLGFAQHVQVLVEAFLRLPGGAVDALQTGVVLVAAPVGRRGARQRERRDVLGGGHVRAAAQVVPLNLAGAQVDVVVVRQVPRADLGGLVGIRVDVALVLNQLQFVGLIFEVLGSLLDRLVDAADELLSLFDDFLHPLFQRDQVVRGKGLGDVEVVVEAVVDRGADAQLRAGELCLHGLREHVRRGVANHGTPQLGVGCHRHEGRIRVGDVREVFELAVGVLDAHDGIVALVRVVQLPHRRADGCSRRDVEGLELNSRGFAGHCQVRSFCAHGGATYLAAPTFSQTVFRPPRSYLGQAPRTDWPQYSSPAPLCDVPGGTQYTAEPMWVIHVLSRSTSSSRDCTGVNCTSGSFWKQMNTSPALLSSALPGSGGRL				NA	NA	NA	NA	NA
AK009_07930	954			hypothetical protein	ATGCTCTGCCGGCGGCATCGCGCGGGCCATGTGCGAGTTCCTGTCAATCACGGGCAACCCGAATTGATCCGTCGCCTCCAAGTCCGGGGCGGAAAATTCACCGCCGCCGGTCAGGGGGGAGCCGTCGGCAAGCGTGCGCCCCAACGCCTCCTCGCGCGAGGCCCGGTCGAGCAGCTCCCACTCGTCGAGGTGCATGGCGATGCGCCGCACGATCAGCGACGTGCTGCCGGCGAAGCCCTCCGGGCCCTCGATCCAGACCTGCTCGTCGTACTCCTGCGCGCTGTGTGGGTTGACGGTGCCATCTACCTGGCCGAACAGGTTGCGCGGTGTTTGGCCCTTCGGGATCGCCCCGTAGGCATTCATGAAGCCTTGCTGCACCCACGCGGTGGTGGCGTAGTCCATGCCGGCGCGGGTCATGTGCCGCATCGCCCACGCGCACATCACCGGATCATCCGAGCAGATCTGCAGCACCAGATCCGTCTGGCCCCACTTCGGGTCGAGCTGGTCGCGCGTAAAGGCGGGCAGGTCGCGCAGCCACGCCGGTTTGCTCGACGGCGCCGCGATGTCGAAGATTTTCTCGCCGAAACCGCAGGTGATGGTGAGGTTGGCGGGCCACTCGTTCATCTCCGGCTCGAGGCTGCCCAGCGGCGTTTCGCCGGCGCACAGGGCGCGAGCGTCCGCAGTCCACAGCCGCATCAACCGCGCGACACCGCGGACGTCGACTCCCTCGCGCAGATTGAACCCGACCAAGTTGAGCGAGGCCTGCGTCGGCGTCTCGATTCCCGCCTGGTGGGCGCCGTCGAACTCCACCACCGCCTCTTTCAGGGGCTGCGACGTGTCCTGCGAGTTGCTGGGCAGCTCGCTTGTCGACGCCCCACACGCGGCCACGGACCCCGCGGTCACGGCGGTCGCCGTGGCGGCGGCGGATCTGGAAAGGAAAACGCGACGAGATAG	MLCRRHRAGHVRVPVNHGQPELIRRLQVRGGKFTAAGQGGAVGKRAPQRLLARGPVEQLPLVEVHGDAPHDQRRAAGEALRALDPDLLVVLLRAVWVDGAIYLAEQVARCLALRDRPVGIHEALLHPRGGGVVHAGAGHVPHRPRAHHRIIRADLQHQIRLAPLRVELVARKGGQVAQPRRFARRRRDVEDFLAETAGDGEVGGPLVHLRLEAAQRRFAGAQGASVRSPQPHQPRDTADVDSLAQIEPDQVERGLRRRLDSRLVGAVELHHRLFQGLRRVLRVAGQLACRRPTRGHGPRGHGGRRGGGGSGKENATR				NA	NA	NA	NA	NA
AK009_07931	636			hypothetical protein	ATGGGATTCGTGACCCTCGTCCATGGTGTGGCCCTCGTCCATGGTGTGGCCGACCATCTCACCGTCTTCGCCGTAGTTCTCCTCGCCCGGGATCAGGGTGCGCACCTCAACCCCGCGGACCTCGATGTCGCCGGTGCTGGTCTCAAGCGTCAGGTCGACGCTGTCTCCGGCGGCGATCTCGTCGGTGTAGTCGAGCACCATCAGGTGGTAGCCGCCGGGGGCGAGCTCCACGGACTCCCCTGCCGGGATGGTCAGACCGTTGTCGACCGGGCTCATCGTGCCGTTTTCGGTCTTGTGCACCTCGTAGCGGGCGTCGCCAAGCGAGGAGCTAAAGCCGGTGACGGTGATGTCCTCGTCGGTGGTGTTGCGCAGGGTGCCGAAGATCGCGGTCATGGTGTTGGCGTCACCGGCTTCCTTGGCGCGGATCACACCGTTGTCAAACACGAGCGCGGCGTCCTCGGCCGCCGCCGTCGCGCTGGTCGCACTGGTGGCAGTGGCCACTGCGGCGGTCTCGGGCTGCGCCGGCTGCTCGCTCGGGCTACATCCTGCCAGCAGCAAGCTGGCGGAGGCGAACGCAGCGGTGGCGGTGAGTGCGCGGTTGTACATGGTGTGGTGCTCCTTAGAGATCTGTGTTAG	MGFVTLVHGVALVHGVADHLTVFAVVLLARDQGAHLNPADLDVAGAGLKRQVDAVSGGDLVGVVEHHQVVAAGGELHGLPCRDGQTVVDRAHRAVFGLVHLVAGVAKRGAKAGDGDVLVGGVAQGAEDRGHGVGVTGFLGADHTVVKHERGVLGRRRRAGRTGGSGHCGGLGLRRLLARATSCQQQAGGGERSGGGECAVVHGVVLLRDLC				NA	NA	NA	NA	NA
AK009_07932	612			hypothetical protein	GTGTTAGTTGGTGGTGTCCTGCGCGGGGGTTTCCGGCGCAGGCTGCGGTGCGCGGCTGCGGGTGATCGCGACCGCGATGATGGCGAGCACTGCGAGGATTCCCAGTCCCACCCACAGCAGCGTCATGTTGTTGGAGGCCGGCTCGGCGGTCTCCTGGGTTGCGGTGTCGGCGGGCTCCCCTGCCTGGGCGGCGGGCGCGGTGCTTGTCGCAGCCCCGGCCGCTGGCGCGTAGGTGAAGGTCGTCATTCCCTTCGTGGCGTGGCCGTCGGAGGAAATGATCTGGTAACCAATCTGGTACTGCTCCGGCTCGGCGGCGAAATCTGCGGGCAGGTCGACAGACACAGCACGACCGTCAATGGTCGGCTCGCCGGTGAACACGACCTCCCCGGTGTCAGTGCGGGAGAGCGCGAACGTGTTGAACCCGTCCTGCACCGCAGCGGAGAAGTCCAGCGTGAGAGTGTCCGGGAACTCGCTGACGACCTCGCCGTTTGCGGGAGAGCCGCCAACAACGGCGTCGTGGGCGATTGCCGGCGGGGTAAGCCCGGTGGGCATCACGGGTGCCGCAGCGATGGTCAGTGCGGCGCCGGCGGCGAGGATGCCACGGCGCAGTGA	MLVGGVLRGGFRRRLRCAAAGDRDRDDGEHCEDSQSHPQQRHVVGGRLGGLLGCGVGGLPCLGGGRGACRSPGRWRVGEGRHSLRGVAVGGNDLVTNLVLLRLGGEICGQVDRHSTTVNGRLAGEHDLPGVSAGERERVEPVLHRSGEVQRESVRELADDLAVCGRAANNGVVGDCRRGKPGGHHGCRSDGQCGAGGEDATAQ				NA	NA	NA	NA	NA
AK009_07933	504			hypothetical protein	ATGCCGATTACTCCCTCGGGCCTTCCCGCTCATCCCCGAGTGATTCACCTCGCGGCCGTTGCCGCCCCCATCGCTGCCATCTTCTGTCTCGTCTGGGTGATCCGCCCGAGACCTCTCACCCATTCGTGGTGCTTTGCCGGCCTGGCCACCTCCGCCGTCGCCGCCGCATCGATGCTCCTCGAGCGATCCACCGGCGAGTCACTTTTGCCCGCCATGGGCCTGCCGGAGGAAAACCCCGGTATCGTCGCCCGGCACACCGAGCTTGCCGACATTGCCACCGTCGCCACGTTCGGCCTTTTTGGACTTGCTGCCGTGCTCTACCCTGTGACCTCGACACGCCTCGTGCCCGCATCCCCTTCATGGGCGCTGCCCACCACCCGAATCCTGCTCGGAATCGCGGCGGTGCCCTCCGTAATCAGCACCATCGCCGTCGGCCACGCCGGCGCAATATCGGAATCAGGCCCTTCAACCCCTAACCGCCTAGAATTAAACCAGTCCAACTAA	MPITPSGLPAHPRVIHLAAVAAPIAAIFCLVWVIRPRPLTHSWCFAGLATSAVAAASMLLERSTGESLLPAMGLPEENPGIVARHTELADIATVATFGLFGLAAVLYPVTSTRLVPASPSWALPTTRILLGIAAVPSVISTIAVGHAGAISESGPSTPNRLELNQSN				NA	NA	NA	NA	NA
AK009_07941	462			hypothetical protein	ATGCCCATCACCGTACCGGTGTCGTGCGGTGGTTCAAGCGCGCGACCTCCGGTAGCGGCAGAACAAAACGGAGTCGGGCTCCACATGCGTCGCCTCCAGCGTGAAGCGGTGGGTGCTGCTGCCGCTGCCGTCGAGCGGCAGGTGGTGGGCATCGCCGCCGCTTATCGATGGGTCCACAGTCAGGTGCACCAAGTCAACCAGGTCCGCGGCGAGCATGGCCGCGTAGAGGCTGGGGCCGCCTTCGCAGCTGATCCGGGAAAAGCCCCGCGCGTGCAGGGCGGCGATGATTTCGGCGGGGGAGCCGGTGCCGGTGTCGATGAGCGTGGCGCCCGCCTGTGTGAGGCGCTTTCGGCAGGGCGTCAGGGAGGCGTCGTCAAGCGAAGCTCGCGGGGTGAGGATAAGCGGTGGGGTGCCCTGGAAGAAATCGCTGTCGGGGTCGAGCGACAGGGAGCGCGACACTAA	MPITVPVSCGGSSARPPVAAEQNGVGLHMRRLQREAVGAAAAAVERQVVGIAAAYRWVHSQVHQVNQVRGEHGRVEAGAAFAADPGKAPRVQGGDDFGGGAGAGVDERGARLCEALSAGRQGGVVKRSSRGEDKRWGALEEIAVGVERQGARH				NA	NA	NA	NA	NA
AK009_07942	228			hypothetical protein	GTGGTGGTAGGTCTCGTTGTAGACGGGCACGCGGTCGACGAAGCGTTTCGCGGCGGACCACACGGTGGTGAAGTCGTCGGTCAGCGCACCGGTCCACGCCGAGACGAAAACCCGGTGGATCACGATGAGCAGGGCGATGGGCCAAGCGACGTAGTTGGCGATCGTCCGTGGCGGTGCCGCGCTGTGCCGGGGTGCGTCTTGGGTCCAGACGGACTCGAGGGGGGCTAG	MVVGLVVDGHAVDEAFRGGPHGGEVVGQRTGPRRDENPVDHDEQGDGPSDVVGDRPWRCRAVPGCVLGPDGLEGG				NA	NA	NA	NA	NA
AK009_07943	750			hypothetical protein	GTGCATCGGGCTCAACGGCCGCAGCACGGTCAAAATCGCTGGGAGCAGCATTATGGAGTAGTAGGCTTGGCCCAGCGAGGACAGCAGACAGACTCCGCTGATCAGTACGCCGGAGCTCGTCGCCGCCCACATCCAGGCATCGCTGTAACGAAATCGCGCCAGCCCGATGATGGCGACGGCCACGGCGGCCGCGATGAGCAGAAACAGCAGGGCGTGCAGACAGTTCGGCATGCCGTAGTAGGCGGCGAACCCGGCCAGCGAGACGTTGGCGTAGTCGCGGGTAATACCGAGGTAGGGCATCACCTTGTCCACGTAGTCGCTGGCGCCGGGGGTCAGCGGCCAGGCGATGAGGTTGAGTACGACGGGCACGGCGACCGCGGCCAGCGGCGCCTTGAAATCCAGGCGCATCAGCGGCAGGACGAGCAGCGGGGCGAACATCGGCTTGATCACGATGGCGAAGCCGAGCACGAGACCGGCCGCCCAGGAGTGCCCGCGCACGAACCAGTCGAGAAACGCCACGAGCGCCAGCAGGAGCACGCCGTTGATGTTGGAAAACACCAGCGTGTTGGTTACAGATTCGGTGAGAAACGCCGCGGCGATGAGGAAGGGGAACACGGGGTGCGCGAGCGCGAAGCCGCTGCGCCGCGTCAACCATGCCAGCGCAATGATGATCGCGGCGGCGTTGGCGAGGATGAACAGCGGCCGCGCCACGTCGATGCTCGGCGCGAGACCAAGCGGCGACAGCAGTAG	MHRAQRPQHGQNRWEQHYGVVGLAQRGQQTDSADQYAGARRRPHPGIAVTKSRQPDDGDGHGGRDEQKQQGVQTVRHAVVGGEPGQRDVGVVAGNTEVGHHLVHVVAGAGGQRPGDEVEYDGHGDRGQRRLEIQAHQRQDEQRGEHRLDHDGEAEHETGRPGVPAHEPVEKRHERQQEHAVDVGKHQRVGYRFGEKRRGDEEGEHGVREREAAAPRQPCQRNDDRGGVGEDEQRPRHVDARRETKRRQQ				NA	NA	NA	NA	NA
AK009_07944	420	msrB		Peptide methionine sulfoxide reductase MsrB	ATGAGCCAGAACAACTACCTCGACTGGACCGAGGAGCAATGGCGCGCCAAGCTTAGCCCCGAGGAGTACGCCGTCTTGCGTGAAGCCGGCACCGAGCGCCCCGGGATCGGCGAATACACCAACACCACCACCGAGGGTGTCTACAGCTGCCGCGCCTGCGGCGCCGAGCTGTTCCGCTCCACCGAAAAGTTCGACTCGCACTGCGGGTGGCCATCATTTTTCAGCCCGCTCGCGGGTGACAGCATCATCGAGCGCGAGGACCGCAGCCTGGGCATGGTGCGCACCGAGGTGCTCTGCGCCACCTGCCACTCGCACCTCGGGCACGTTTTCGCCGGCGAGGGCTACAACACCCCGACCGACCTGCGCTACTGCATCAACTCGATCTCGCTGACCCTCGAGGAAAAGCCAATCGAGGGCTAA	MSQNNYLDWTEEQWRAKLSPEEYAVLREAGTERPGIGEYTNTTTEGVYSCRACGAELFRSTEKFDSHCGWPSFFSPLAGDSIIEREDRSLGMVRTEVLCATCHSHLGHVFAGEGYNTPTDLRYCINSISLTLEEKPIEG	PGPT0013070_3598	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
AK009_07945	666			hypothetical protein	GTGCAGGCGCGCCTCGGTGTAGCGCATCTTGTGCATCAGGTCCGCGATGCGGGCCAAGTCGTCGGACTCGAAGGCGAGCATCCACTCGTAGTCGCCCAGCGTGAAAGCCGCCACCGTGTTGGCTCGAACGTCGGCGTAATCCGCAGCGGCGCGCCCGTGCTCCGCGAGAATCCGGCGGCGCTTTTCCGGCTCCAGGAGGTACCAGTCGTAGGAGCGAACGAACGGGTACACCGAGATCCAGTCACGCGGCTGCTCCCCCATAATGAAAGCCGGCAGGTGCGAGCGGTTGAACTCGGCAGGCCGGTGCAGCCCGTTGCCGATCCAGCCGAGCTCGAGCACCTGGCCCAGCGTGGTCGTGCGGCGGAAGTCAGCCAGCGCCTTTTGAATCTGCTCGAACTGCTCCGCGTGCCACCAGATCATCAGGTCAGCCTCGGGGCGGGTCCCGGAGACGTCGTAAATGCCGCGCACCGTGACCTCGCCGGCGCGCTCGAGCTCGGCGAAGAACTCCTGCGCCTGAGCGATGACGTCGTCACGCTCGCTGCCCAAAGCGCCGGGAGTGGCGCGGAAAGTCACCCACTGACTGTAGCGCTGAACCTTGTTGAGTTCCTCGAGGTTAGGCTGCTGTGCGTGATCGGACATGGCGATCCTTTCCCGCCCCATGAGTGA	MQARLGVAHLVHQVRDAGQVVGLEGEHPLVVAQRESRHRVGSNVGVIRSGAPVLRENPAALFRLQEVPVVGANERVHRDPVTRLLPHNESRQVRAVELGRPVQPVADPAELEHLAQRGRAAEVSQRLLNLLELLRVPPDHQVSLGAGPGDVVNAAHRDLAGALELGEELLRLSDDVVTLAAQSAGSGAESHPLTVALNLVEFLEVRLLCVIGHGDPFPPHE				NA	NA	NA	NA	NA
AK009_07946	627			hypothetical protein	GTGGCTGGAGAGCTCGATGCCCTCGGCGGTCCACGAGGCGCGCATTTCCAGTTGGTAGGCGCGCGGCGGGCCGCCGATCTCGCCGAAGCGTACCGATGCCGTCGAGGTCACGGTGCCGCCGAGGTTGGTGAACCCAGCGTCGGCGTCGGCGAGCGACTCGGTGAGCCACTGCCAGGCGACGTCGGGAAGCAGCGGGTCGGAGGCGACCGCGTCGTCCATGTCGGCTTGGATGTAGGCGACGAGGCGCATCGAACCCTCCCACGCCTCCTCGGCCTCAGGGGAGTGCAGCAGGATGAGGCGGCCGAAGGCGTCGCCCTCGGCGTCGATAGGCACAGTGGCGGGGTTGCCGGAGTCGCCGCGGGTGATTTCGAGACCGATGGCGTGGCTGTAGGGGGCCGGGCGTTGCGGCGGGCGGATCGTGCCGAGGGTGATTTCCGGCCGCAGCGACGCGGCGTGCATGGACTCGACCGCTGCCGTGAATTCCGCAGGCGACGGCGGGTTGTCACCGGCGCCGGCGTGGGGCGCGGGGATATGAGAGGAGGTCTCGGAATTCATCACGCGTTCACGCTATCTAGATGGCGGCAAATTCGGGGGGAGGCGCGCCGTTTGCCACCTCACCCCGGGTAG	MAGELDALGGPRGAHFQLVGARRAADLAEAYRCRRGHGAAEVGEPSVGVGERLGEPLPGDVGKQRVGGDRVVHVGLDVGDEAHRTLPRLLGLRGVQQDEAAEGVALGVDRHSGGVAGVAAGDFETDGVAVGGRALRRADRAEGDFRPQRRGVHGLDRCREFRRRRRVVTGAGVGRGDMRGGLGIHHAFTLSRWRQIRGEARRLPPHPG				NA	NA	NA	NA	NA
AK009_07947	537			hypothetical protein	GTGGCCCTTCTCCAGCGCCACGCCTGTGAACTCGTACACCATGGCCGCGAGGTTGGGACGTTCGAACCCGGCGAGCCGGGAGGCCAGCTCCGTATCAAACAGCGCGCCTGGGTGAAGGCCCAGCTCGGCAAGGCTCGGCAGGTCTTCACCCGCGGCGTGCAGGATCCAGTCCGCCCCGCCGATGACGGGCGCGAGGGCTTCATGCAGCGCGTCGCGGTGGCCCTCCGGGGCGAAGAGGAAGGTTCCCGCGCCTCGGCGGTGGATTTGGACGAGGAAAGCGCGGTCGTCGTAGCGAAACGACGACGCGCGCTCGGTGTCTATCGCGTACGGGCCGCGGCCGTCCGCAAGCTGCGCGGCGGCGCGGTGAAACGCCGCGGGGGCGTCGATAAGCTCAAAGCTCACTGGCGCGGGCCGAGTTGGGCCACGCCCGCAGGCGGCAGGCCCGCGACGTGTGCTAACACCTTGGCGAAGGCCTCGACGTGGCTGGAGAGCTCGATGCCCTCGGCGGTCCACGAGGCGCGCATTTCCAGTTGGTAG	MALLQRHACELVHHGREVGTFEPGEPGGQLRIKQRAWVKAQLGKARQVFTRGVQDPVRPADDGREGFMQRVAVALRGEEEGSRASAVDLDEESAVVVAKRRRALGVYRVRAAAVRKLRGGAVKRRGGVDKLKAHWRGPSWATPAGGRPATCANTLAKASTWLESSMPSAVHEARISSW				NA	NA	NA	NA	NA
AK009_07948	195			hypothetical protein	GTGCGGGGAGGTGTCGGTCGCGCGCCCGCGGGCATCGCGGTAGTCCCACAGCGTCCGGGCGAGGTGCAGGCTCAGCCCTGTCGGCAGCGCAGAGATGCCCTTGATGTCGCGCCAGGTCTTCGGTGTAGGCGCCGGGGTGTTCCTGACGTGCTCGAACTCCTGCTCCGCGGCCTCGAGTTTGCCCGCGGCGTCTAA	MRGGVGRAPAGIAVVPQRPGEVQAQPCRQRRDALDVAPGLRCRRRGVPDVLELLLRGLEFARGV				NA	NA	NA	NA	NA
AK009_07949	495			hypothetical protein	GTGGTGTGCAGTCCGCGCGCGATGGCCGCCGACGCCGCGTCGACCTGCCAGGGCCGCGCCCCAGAAGCGAGTAGCGCGCGGGCGACGCAGTCGGTGTCAGCGGGCACACCCGCCCACACCACCGAGCGCAGCATCGCTGGCTGCACGAGCAGTTCCGGGGCAACCTCGATGTCGCGGGCGAGCTGGGCCACCGCGTCGCGGGCGGCAACGAGGCGCGCCCAGGACTCCGGGTGGTGGCGCTGCCAGCGTGATTTGCTGGGCGGGTCCTCGTTGTCCCGGTCAGGTTCCGGCCACAGCGTCGGCGAGTCGGCGCAGGCGCACTCTACCACCGCGTACCACTCCTCGATCGCGCCACGACGACGTGCCGGGAAACCCCGCACCCGGCCGAGCTCGTTGGGCGTGCGCGGCGGATTCTTAGCGATGTTCAGGATCACCTTCGAGCCCAGCAGCGCGTGCGGGGAGGTGTCGGTCGCGCGCCCGCGGGCATCGCGGTAG	MVCSPRAMAADAASTCQGRAPEASSARATQSVSAGTPAHTTERSIAGCTSSSGATSMSRASWATASRAATRRAQDSGWWRCQRDLLGGSSLSRSGSGHSVGESAQAHSTTAYHSSIAPRRRAGKPRTRPSSLGVRGGFLAMFRITFEPSSACGEVSVARPRASR				NA	NA	NA	NA	NA
AK009_07950	1257			hypothetical protein	GTGCATCGGGAAAATGTCTGGGAAGGCGAGCTGGCGCAGCGGGGTGTCCACTTCGGCGGAGGAGAGGGCCTCGGCAAGCGCGGAGCCCACGCCGCCGCGGATCACGCCGTCTTCGTAGACCACAACCATGTCGGCCTGGGCGGCCATCTCGATCAGCTGCGGGTCAATCGGGATGACCCAGCGCGGGTCCACGACCGTGACGCGCAGCCCGTCGGCGCCGACCTCCTCCGCCATCGTGACGGCGTTCTCGGCGAAGCTGCCCACGGCAACGAGCAGCACGTCGAGTTCGTCGTCCTCGGCCTCGCCCGCCGGGCGGAACAGGATGTCCGCGCCGCTCGAGAGCCGCTCAACGGCATCGATATCGATGCCGATGTCGCCCTTGGGGAAGCGCACCACCGTCGGTCCGGCGCTGTAGTCGATCGCCTCGCGGAACTCCTCGCGCAGGCGCGCGGGGTCGCGCGGGGCGCAAATTCGAATGCCGGGGACGATCGAGCCGATCGCGAGATCCCACACGCCGTTGTGGCTCGCGCCGTCGGAACCTGTCACACCCGAGCGGTCCAGCACGAGGGTGACCGGCTGGCTAAGCAGCCCGACGTCCATGAGCAACTGGTCAAAGGCGCGGTTGAGGAAGGTAGAGTAAATCGCCACAACGGGGTGAAGCCCGCCGAGCGCCATGCCGGCCGCCGAAGTCACCGCGTGCTGCTCGGCGATGCCGACGTCGAAAAAGCGCTCCGGGAATTGCTCCGCGAAGGGCGCAAGCCCGGTCGGGCCCGCCATCGCCGCCGTGAGCGCCACGATGTCGGGGCGCTCGTGGGCTGCCTTGATGAGCTCTTCGGAGAACACCGAGGTCCAACCGGGTGCCGCGGCGTTAAGCTCCTCGCCCGTGACCGGGTCGATGACGCCGGTGGAGTGCATCTGGTCGGCGATGTGGTTGACCGCCGGGGCGAAACCGTGGCCCTTCTCGGTGGCGACGTGGACGATGATCGGCCCGACGTGGGAGCGCGCGTAGGAAAACGCCTGCAGGAGGGACTTAATGTCGTGGCCCTCGACCGGGCCGATGTACTTCATGCCCAGCTCGGGGAACATTTCCGAGGGCACCACTTGGTACTTCACGCCCTCTTTGATCGCGCGCAGCGCCTCGAAGGTGCGCTCGCCTACCCAGCCCATGGATTTGAGCGTCTTCTTGCCGGTCTCCATGACCTCGTCGTAGGTCGGCTGCATCCGGATCTGGGCGAGCTGGTCGCGCAGGCGCGTTAG	MHRENVWEGELAQRGVHFGGGEGLGKRGAHAAADHAVFVDHNHVGLGGHLDQLRVNRDDPARVHDRDAQPVGADLLRHRDGVLGEAAHGNEQHVEFVVLGLARRAEQDVRAAREPLNGIDIDADVALGEAHHRRSGAVVDRLAELLAQARGVARGANSNAGDDRADREIPHAVVARAVGTCHTRAVQHEGDRLAKQPDVHEQLVKGAVEEGRVNRHNGVKPAERHAGRRSHRVLLGDADVEKALRELLREGRKPGRARHRRRERHDVGALVGCLDELFGEHRGPTGCRGVKLLARDRVDDAGGVHLVGDVVDRRGETVALLGGDVDDDRPDVGARVGKRLQEGLNVVALDRADVLHAQLGEHFRGHHLVLHALFDRAQRLEGALAYPAHGFERLLAGLHDLVVGRLHPDLGELVAQAR				NA	NA	NA	NA	NA
AK009_07951	537			hypothetical protein	GTGCTCCCCGGCGGCGATGTTGTTCAGCGCCTCCCAGCACATTCCGCCGGTCAGTGCGCCGTCACCGACGACGGCGACGACGCGGTCCTCGCCCTCGCCCGACAGCTCTTTAGCCTTCGACAGCCCGTCGGCGTACGACAACGCCGCCGAGGCGTGCGAGGACTCCGTCCAGTCGTGCTCGGATTCGCTGCGCGAGGTGTAGCCGGACAGGCCACCCTTCTTGCGCAGGGTGTCGAACTGCCCGGCCCGGCCGGTGAGGATCTTGTGCACGTACGACTGGTGCGAGGTGTCAAAGATCAACGGCTCGCTCGGCGAGTCGAAGATGTAGTGCAGGGCCAGCGTCAGTTCCACTACGCCCAAGTTGGGACCGAGGTGGCCGCCGGTCGCGGAGACCTTGTCAATCAGGAGCTGGCGGATCTCGCCCGCAAGTGTGCCGAGCTGGTCCAGCGTCAGGCGCTTGACGTCTCGAGGCGACGTAATCGCGTCCAGAAGGTTCACGGTAAACTATCGCTCCTTTTGACTAGATTGCGCGGTTGA	MLPGGDVVQRLPAHSAGQCAVTDDGDDAVLALARQLFSLRQPVGVRQRRRGVRGLRPVVLGFAARGVAGQATLLAQGVELPGPAGEDLVHVRLVRGVKDQRLARRVEDVVQGQRQFHYAQVGTEVAAGRGDLVNQELADLARKCAELVQRQALDVSRRRNRVQKVHGKLSLLLTRLRG				NA	NA	NA	NA	NA
AK009_07952	624			hypothetical protein	GTGGATGACGCGCTCGGGCTCCGCCGCCGCGACCTGACGTACGACCTGCTCGCCGGCGCCGGAGCGCGGCGGGTCGAGCACGACGAGCCCGGGCGGGGTCAAGTCGCTGGCCTTTTCCACCGGGCTGTTGTGCACGCGAAGCGGCAGTCCCGCGAGCGTGTCCTGCGCTGCGCGGGTCGCGGACGCGGAGTAATCCACCGAGTCGATGTGAGAGGCCCCGCCCAGCGCCGCATCGATCGCGGGCACGAACGCGCCGACCCCGCCGTAGAGGTCCCAGCCGGTCGCGCGCACGTAGTCGCCGCTGCCCCACTGACGGATGATCGCGGAGTACGCCTCCGGCGCCGCCACGTGGGCCTGCCAGAAAGCGGTCGCAGGAAAACGGAACGCATGCTTATCGACGCTCTGCTCAACCACCCCGGAGCCCTCCACCACGCGGTCAACCTTCTCAACACGCCGGCCGCGCTGCGCGCGCGTCGACTCCACCACATGGCGCTGGCCCGCCGAATCCAGCACGGTGATCACCTCCGCGCCCGGGGTGAACATGCGTGCCCCCGGCCCGACGATGCCGTCGAGCAGCCCGGGCGCCACCTGGGTGCACGCGACGTCGGTAACCAAGTCCGTTGA	MDDALGLRRRDLTYDLLAGAGARRVEHDEPGRGQVAGLFHRAVVHAKRQSRERVLRCAGRGRGVIHRVDVRGPAQRRIDRGHERADPAVEVPAGRAHVVAAAPLTDDRGVRLRRRHVGLPESGRRKTERMLIDALLNHPGALHHAVNLLNTPAALRARRLHHMALARRIQHGDHLRARGEHACPRPDDAVEQPGRHLGARDVGNQVR				NA	NA	NA	NA	NA
AK009_07953	357			hypothetical protein	GTGAGAGAACGCACCGAGCTGGCCGATGAGCACGTTTCGTTTGATGCCCGGTTGCGCAGTGAGCGCGATGTGCGAGTAGTCGCAGCACCCGCCGCCGCGCGCCGCCACCGGGCAGGTTGGGTCGACGCGTTCGCGCGAGGCGCTGACAACCCTGGTGAGCTGGGCGCGGGCCCAGCGCTTCTTCGCCTTCGTCAGCTCGGCGCGAACCGTATCGCCCGGGATCGCACCGTCGACGAAGACGACGCGGCCATCGGCATCGCGCGCGATGCCCTCGCCGCCGTGCGCCATGGCGGTGACGTCAAGCTCGAGCGCGGTGGTGTCAGCTATTGCGCTCACCCTTGTTGGGTTCCGAATTAG	MRERTELADEHVSFDARLRSERDVRVVAAPAAARRHRAGWVDAFARGADNPGELGAGPALLRLRQLGANRIARDRTVDEDDAAIGIARDALAAVRHGGDVKLERGGVSYCAHPCWVPN				NA	NA	NA	NA	NA
AK009_07954	636			hypothetical protein	GTGTCAGCTATTGCGCTCACCCTTGTTGGGTTCCGAATTAGACGCCGAGTTAGCGTCCATCACCTGCTTCATCGCCTCGGCCAGCGCGCTGGGCGTCGCTCCGGGGGCCAGCTGGCCGGGCTGGCCGGGCTGGCCGGGCTGGCCCTGCTGCATCGCACGCGCCTGAACGGCCTGCTGCACCTGCTGCGCAAGCTGGGCGGGCAGCACCACGGGCAGGGAGTTGCCCGCCAGGATGGGGTCGGGTCCGCGGTAGACAAAGCTGCGCGCAATCAGGTCGCGGCCGAGGGTAGCCATGTCGTCTTCCATGCCGTTCGGTGCGGCCAATGTGACGCGGTAGAGCCAGCGTGGGCCCTCAACACCGATGATGCGGATCACACCGTTGGTGCCGGTACCCACGATCTCGCGGCCCCACGGGCCGGTTTCGAAGGACACGGGCATTCCCTCGGAGCGCATGCCCTCGGCGATTTCCTCGGAGGACTGCGCCCACAGCCCGCCGGTGCGTGTCGACGCGAACGCCACGGGGGTGGCGCGGCCGTGGCGGGTGACAATGTGGACCATCTTCGGCCCCGCCTCGCCCATCTCCACCTGGACCTGGGATTCCGCGGGCAGCGGGATCTTCATCGAGCCGAGGTTTAG	MSAIALTLVGFRIRRRVSVHHLLHRLGQRAGRRSGGQLAGLAGLAGLALLHRTRLNGLLHLLRKLGGQHHGQGVARQDGVGSAVDKAARNQVAAEGSHVVFHAVRCGQCDAVEPAWALNTDDADHTVGAGTHDLAAPRAGFEGHGHSLGAHALGDFLGGLRPQPAGACRRERHGGGAAVAGDNVDHLRPRLAHLHLDLGFRGQRDLHRAEV				NA	NA	NA	NA	NA
AK009_07955	471			hypothetical protein	GTGGGTGCCGGTGGAGCCGTAACCGCCCGCGCCGCGCTCGGTGTCATCGAGATCGTCCACCTCGCTGAAAGTGACCAGCTCGACCTTCTGCACCACGAGCTGCGCGATGCGCATCCCGCGCGTGATCTCGATCGGCGTGGTCGGATCGGTGTTAAGCAGGCACACTTTGATCTCGCCGCGGTAGTCCGCGTCGATCGTGCCCGGAGTATTGACAATGCTCAGGCCGTGCTTCGCCGCCAGGCCCGAGCGCGGGTGGATCAACCCGACCGTACCCGGGGGCAGCGCAATCGCAATACCCGTGCCCACCAGGGCGCGCTGCCCCGGGGCCAAGGTGAGGTCCTCGGTAGAGGTCAGGTCCGCGCCCGCGTCCGTTGCGTGGGCGCGCGCAGGCAGGGCGACGTTCGGGTCGAGGCGCTTGACTCTTACTATCTCCAGGCTGGTTTCATTCTCCGGGGTGTTCACAGCCGCTAG	MGAGGAVTARAALGVIEIVHLAESDQLDLLHHELRDAHPARDLDRRGRIGVKQAHFDLAAVVRVDRARSIDNAQAVLRRQARARVDQPDRTRGQRNRNTRAHQGALPRGQGEVLGRGQVRARVRCVGARRQGDVRVEALDSYYLQAGFILRGVHSR				NA	NA	NA	NA	NA
AK009_07956	438			hypothetical protein	GTGCTCGTCGACCCAACTGCGCGAGACCAAATACGCCGCAGGGTCGAGCTGCCGGCCCAGCGCGTTACGACGCGCCGACTTCGGAACAATCAGAGACCTGCTGACCACGGTGTGCGGCAGGTTGGCGTCGTCAACGCTGAGCCAGCGCGTACCGTCCGCGTCGCGCTCGACCGTGATGACGGTGCGCGACATCCACATCAAGAACCACCCGATGAGCGCGCCCCCGGCGATCAGGGGGACGACGAACCAGAAGACGTTGCGGTTGAGCGCGAACTGCGCGGCGATAAGAAGCGTCAACACCGCGCCAGCGAGCCACATGTACCAGGGGGCCCACTGGCGCTCGCGGTACACGACAGCGGGAGCGAGGTCATCCGGAGAAGTAGTCACGCATGCAACTTTAGTTTAGGAGCTTGTTGCCCTGGCATTGCGCTGCCGTAG	MLVDPTARDQIRRRVELPAQRVTTRRLRNNQRPADHGVRQVGVVNAEPARTVRVALDRDDGARHPHQEPPDERAPGDQGDDEPEDVAVERELRGDKKRQHRASEPHVPGGPLALAVHDSGSEVIRRSSHACNFSLGACCPGIALP				NA	NA	NA	NA	NA
AK009_07957	291			hypothetical protein	ATGGCTACTGACTACGACGCACCGCGCCGTCGCATGGACGACGAAATTGAAGCCGACTCGCTCGAGGGTCTCAAGGCCGCGGAGGTCGCCGGCAGCAGCATGGACGACGAGGGCGAGATCGTCGACTCCTTCGAGCTTCCCGCCCAGGACCTCTCCGGCGAGGAGCTCAACGTCACCGTTATCCCTCGCCAGGAAGACGAATTCACCTGCAGCTCCTGCTTCCTCGTACAGAAGAAGAACCGCCTGGCTTACCAAGAGGGCAATACCGCAATCTGTCTCGACTGCGAGTAG	MATDYDAPRRRMDDEIEADSLEGLKAAEVAGSSMDDEGEIVDSFELPAQDLSGEELNVTVIPRQEDEFTCSSCFLVQKKNRLAYQEGNTAICLDCE				NA	NA	NA	NA	NA
AK009_07958	498			hypothetical protein	GTGGCCGCTGGCGTTAAGCCCCGGGTGGTTGACCCGCGCCCCCGCCTCGGTGGCAATGATCGCCCCGGCCGCGTAGTCCCACGGGTGCGTGCCGTGCTCGTAGTAGGCGTCGACACGCCCTGCGGCGACGTTGCACAGGTCCAGCGCCGCGGATCCGCTGCGGCGGATGTCGCGCACCGCGGGCAGCACGGACGCCAGTATCCGCGCCTGCTGTTCGCGCCACGCCGCGGAGTAGGAAAACCCGGTCGCCACAAGGCTGAGCGCAAGTGTTGTCTCGTGCGAGGCGCGAAGCTCGGAGCTTTCCCCGTCGCGCTCTACGGTCGCGCCCTGGCCGGCTGCTGCGCTGAACAGCTCACCCGATTGCGGGTTGAACACCGCGCCCGCGGCCAGCTCGCCGTTGACGGCAACACCGATGGAGACCGCGTAGTTGTCAAGGCCGTAGAGGAAGTTGACGGTTCCGTCGATCGGGTCGATGATCCACTCCACGCCCGTTTCTGA	MAAGVKPRVVDPRPRLGGNDRPGRVVPRVRAVLVVGVDTPCGDVAQVQRRGSAAADVAHRGQHGRQYPRLLFAPRRGVGKPGRHKAERKCCLVRGAKLGAFPVALYGRALAGCCAEQLTRLRVEHRARGQLAVDGNTDGDRVVVKAVEEVDGSVDRVDDPLHARF				NA	NA	NA	NA	NA
AK009_07959	570			hypothetical protein	GTGTTCGGCCTCCGCGCCGCCGACCATCATGTGCCCGAGCTCGGTGTTGGGAAACAGGGTGCCCTCGATGAAGAAGGCGGAGCCGATGCCGGTTCCGAATGTGAGGAAAACAACAGCGCCTTCGCGTATCGACGCCGCACCGAACGCGACTTCCGCAAGGCCCGCGGCGTCGGCGTCGTTAAGCACAGAGATCTCCGTCGTGCTCAGGTGGCGCGAAAGCAGCTCGTGCGCGTTGGTGCCCACCCAGGCCGGATCGACGTTCGCCGCAGTCAGTGCGACCTGGCTCTTGATCACGCTCGGCAGGGCGACGCCGACGGGGCCGTCCCACTGCGCGCGGTCGGCGAGTTGCGCGATGGCCTGTGCCACAGCGTCCGGGGTCGCGGGCCGCGGGGTGGTGATGGTGATCTGCTGGCCGACGAACTCGCCGGTGGTGAGGTCAACCACCGCACCTTTGATTGCGGAGCCTCCGACATCGACGCCGAGTGCGCGTCCTTGGGCGGGGTTAGTCATGCGCGCAAGTGTACAAAAGGTCGCGGACAACGGCGCGCCGATGCAAGATGGGGCGCATGA	MFGLRAADHHVPELGVGKQGALDEEGGADAGSECEENNSAFAYRRRTERDFRKARGVGVVKHRDLRRAQVARKQLVRVGAHPGRIDVRRSQCDLALDHARQGDADGAVPLRAVGELRDGLCHSVRGRGPRGGDGDLLADELAGGEVNHRTFDCGASDIDAECASLGGVSHARKCTKGRGQRRADARWGA				NA	NA	NA	NA	NA
AK009_07960	171			hypothetical protein	GTGTTCCGCGGCGGCCATGGCCGCCCCGACAATGCCGGCGCGGTTGCGCAGCTTGGCCACCACCACCGGTGCGGTCGTACGCAGGTGCGGCACCCAGCGGTCGGCCACCTCGGAAATTCCGCCGCCCACCACGAACGCGGTGGGGTTGAACAGGCGCTCGAACTCTTGTAA	MFRGGHGRPDNAGAVAQLGHHHRCGRTQVRHPAVGHLGNSAAHHERGGVEQALELL				NA	NA	NA	NA	NA
AK009_07961	1665	sigA_2	COG0568	RNA polymerase sigma factor SigA	GTGGCGCGACCCGGTTGCGCTCGACGCGCGGGTAGCCTGGGCCATAAAACAGGCGGGCTAGTAGTCGTTGTTAGACTTGCCGTTCCTGAAATAGCAGCCCAATTTGCGTACTGTGGGTTGTCTAAGAAAGCGGAACCCACTATGAATTTAAGTGAAAGGGCGTACGTGGCAGCCAGGGAAAATTCCGGAAACGAGAGCGTGAGCAGCGTGGATAACGTCACCGGGAGCACTTCGGGCGAGGCAGCAGCCGACGCCTCTACTACGCCTGCCAGCACGCCCGCGAAGCGCACGGCCAAGAAAACGGCTAAGAAGACCGCGAAAAAGGCAGTGAAGAAAACGGCTAAGAAAACTGCCAAGAAGGCGGTAAAGAAGACGGTCAAGAAGACCGCCGCGAAGAAGGCCACCGCCGCCCACGCTGCTGCCCCCCACGCAGCCGAGGACGACGAGCTCGCGGTCACTACCGATGACGCCGCGATCGACGAGGTAATAGACGTCCCCGCCGATGTCGACGAGGACTTCGACCAGTTGCTCGGCGATGAGGACGAGGAGTTCGCCGACGAGGTTGATGACGTTGATGACGTGGACGATGTCGACGACGTGGAAGACGACAAAGACGACCCCGAGGCCGCGGAGGAAGACGGCGAGGAAGCGGTTGATTCCTCCTCCGTGTGGGACATCGAGGAATCCGCCGCCCTGCGTCAGGCACGCAAGGACGCGCAGCTTACGGCGTCCGCCGACTCGGTACGCGCTTACCTCAAGCAGATCGGCAAGGTTGCACTGCTCGACGCGGAACTTGAGGTCTCGCTAGCGAAGCGCATCGAGGCTGGCCTCTACGCACAGCATCGGCTCGACGAGATGGAGCGCGCCGCCGCCGAGGGCGACAAGGAAGCCAAGCTCACCCCCGCCGTCAAGCGCGATCTGCGCGCCGTGGCGCGCGACGGCCGCAAGGCGAAGAACCACCTGCTCGAGGCCAACCTACGCCTCGTTGTCTCCCTGGCCAAGCGCTACACCGGCCGCGGTATGGCATTCCTCGACCTGATCCAGGAGGGCAACCTCGGCCTGATCCGCGCCGTGGAGAAGTTCGACTACTCCAAGGGCTACAAGTTCTCCACCTACGCCACGTGGTGGATCCGCCAGGCGATCACGCGCGCCATGGCGGACCAGGCGCGCACCATCCGTATCCCGGTCCACATGGTCGAGGTGATCAACAAGCTCGGGCGCATCCAGCGCGAGCTGCTGCAGGATCTCGGCCGCGAGCCTACCCCGCAAGAACTGGCCAAGGAAATGGACATCACCGAGGAGAAGGTCCTCGAGATCCAGCAGTACGCGCGCGAGCCGATCTCCCTGGATCAGACCATCGGCGACGAGGGCGATAGCCAGCTCGGCGACTTCATCGAGGACTCCGAGGCTGTCGTCGCGGTCGACGCGGTTTCGTTCACCCTCCTGCAGGACCAGCTACAGGACGTTCTGCACACGCTGTCCGAGCGCGAAGCCGGCGTGGTGCGCCTGCGCTTCGGGCTTACCGACGGCATGCCCCGCACACTCGACGAGATCGGCCAGGTTTACGGCGTGACGCGCGAGCGCATCCGCCAGATCGAATCGAAGACGATGTCCAAGCTGCGCCACCCGTCGCGCTCGCAGGTGCTGCGCGACTACCTGGACTAG	MARPGCARRAGSLGHKTGGLVVVVRLAVPEIAAQFAYCGLSKKAEPTMNLSERAYVAARENSGNESVSSVDNVTGSTSGEAAADASTTPASTPAKRTAKKTAKKTAKKAVKKTAKKTAKKAVKKTVKKTAAKKATAAHAAAPHAAEDDELAVTTDDAAIDEVIDVPADVDEDFDQLLGDEDEEFADEVDDVDDVDDVDDVEDDKDDPEAAEEDGEEAVDSSSVWDIEESAALRQARKDAQLTASADSVRAYLKQIGKVALLDAELEVSLAKRIEAGLYAQHRLDEMERAAAEGDKEAKLTPAVKRDLRAVARDGRKAKNHLLEANLRLVVSLAKRYTGRGMAFLDLIQEGNLGLIRAVEKFDYSKGYKFSTYATWWIRQAITRAMADQARTIRIPVHMVEVINKLGRIQRELLQDLGREPTPQELAKEMDITEEKVLEIQQYAREPISLDQTIGDEGDSQLGDFIEDSEAVVAVDAVSFTLLQDQLQDVLHTLSEREAGVVRLRFGLTDGMPRTLDEIGQVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD				NA	NA	NA	NA	NA
AK009_07962	294			hypothetical protein	TTGCTGCGGTGCCCCGGTGCCGTTGCCGTAAGCCGGGTTGCCCGCCGCGCCCATGGATGCGTAATCGTTGCTAAACACGCTGTCCGGGTTGGACGTGCCGAAGCCATTGCCCAGCGGGCTCTCTGGGCCAGGCCCGTAGGTGCCGCCAGCGTTGGGGTTAGGGGTCTCGCCGCTGTTCGGGTTGTAGGCGGAGTACCCCTCGGGGTGGTTGAAGCCGCTCGGATCGGAGTTATTCGGGTTGTATGGGGTGCTCATGGGCACCCACGCTACCAGCGCTACCAGTCGCGCAGGTAG	MLRCPGAVAVSRVARRAHGCVIVAKHAVRVGRAEAIAQRALWARPVGAASVGVRGLAAVRVVGGVPLGVVEAARIGVIRVVWGAHGHPRYQRYQSRR				NA	NA	NA	NA	NA
AK009_07963	558			hypothetical protein	ATGGGGTGCTCATGGGCACCCACGCTACCAGCGCTACCAGTCGCGCAGGTAGGCAATGCGGTCTCGAAGTTGCTGCGCGTTGCACAACGCGGTCGGCGGCCCGCCGCAGGCCTTGCGCACCTCGTTGTGGATCGAGCCGTGCGGCCGCCCAGTGCGCCCGGCGACGACGGACACGCGCGCGTTGAGTTCGCGGCGCAGCTGGGGGATTTCGTCGGCGGCCAAGCCCGATCCGCTAGAACCGCCCGGTGGGGGCGGGGTGTCGCCATGGAGCTGGGCGCGCTCGGCGGCGGCGCGCTCGGCCTCTTTGCGGGCGCGTTCGGCTGCTTCGCGTGCGTCGAGCTGCTCGCTTTGGCGCTTTTGCAGCAGGGTGCGTACCTGCTCGGCGTCGAGAAGCCCAGGCAGGCCGAGGAAGTCTTGCTCCTCGGCGGAGCCCGCGGCCGTTGTTGTGCCGTAGGTGGAGCCGTCGAAAATCAGCGAATCCAGCTCCGCGGACGCCCCGATGGACTCGTAGCTTCCGGCCTCATCGGGCTCGCTCTCAGTGCGGTTGGCGCGCTCTAA	MGCSWAPTLPALPVAQVGNAVSKLLRVAQRGRRPAAGLAHLVVDRAVRPPSAPGDDGHARVEFAAQLGDFVGGQARSARTARWGRGVAMELGALGGGALGLFAGAFGCFACVELLALALLQQGAYLLGVEKPRQAEEVLLLGGARGRCCAVGGAVENQRIQLRGRPDGLVASGLIGLALSAVGAL				NA	NA	NA	NA	NA
AK009_07964	609			hypothetical protein	GTGGAAGGACTCCGCCGGCGAGGAGTACACCGCGCGCCTCGGCGAGCCGCTGAGCCCCGAGCAGACCGCGCGCGCCTGGAAGACGGCGCTGGACCCGAAGGGGGAGTGGATCGCCGCGGTGCTGCGCGCCGCCCACACCCGCTTGGCAAAAATCCGCGCCAACATGCCGGATGCTGGCGGCCTGGTCATCGCCACGGACACCACCACGGCGCGCGCCTACGCCAAGCTGCTCCGCGAGATCAGCTCCACGCCGGTCACCGTCGTGTTGTCCGACGAGCCGGGCTCGTCGAAACGCATCGACGAGTTCTCGGCGTCGAGCGACGAGTGGATGGTGGCCGTGCGCATGGTCTCCGAGGGCGTCGACGTGCCGCGCTTAGCCGTCGGCGTCTACGCCACCTCCGCGTCCACCCCGCTGTTTTTCGCCCAGGCGATTGGCCGTTTCGTGCGCTCGCGCATGCCGGGGGAGTCCGCCTCGGTGTTCTTGCCCTCGGTGCCGGTGCTGTTGCGCCTTGCCGAGGAAATGGAGGTCTCGCGCGACCACGTGCTGGGCAAGCCGCACCGCGACCAGGGGTGGGCCGACGAGCTTTTAGAGCGCGCCAACCGCACTGA	MEGLRRRGVHRAPRRAAEPRADRARLEDGAGPEGGVDRRGAARRPHPLGKNPRQHAGCWRPGHRHGHHHGARLRQAAPRDQLHAGHRRVVRRAGLVETHRRVLGVERRVDGGRAHGLRGRRRAALSRRRLRHLRVHPAVFRPGDWPFRALAHAGGVRLGVLALGAGAVAPCRGNGGLARPRAGQAAPRPGVGRRAFRARQPH				NA	NA	NA	NA	NA
AK009_07965	231			hypothetical protein	GTGCGCGTAGCCGTAGGTGTAGTCGGCCTGGCTGACAAGGTGGCCCTCGCCGTCCTCGGCGTAGGTGACAAAGGGGATGGCGGAGTCGTCCGAGCGAAACGGCGTGCCGGTCAGCGCCAAGCGGTGCTCCACCATGTTGTAGGCCTCGCGCACACCGTCGCCCCAGCTCTTCGCGTCGCCGGCGTGGTGGATCTCGTCCAGGATGACCAGGCTGCGTCGCGCCGACGCTAG	MRVAVGVVGLADKVALAVLGVGDKGDGGVVRAKRRAGQRQAVLHHVVGLAHTVAPALRVAGVVDLVQDDQAASRRR				NA	NA	NA	NA	NA
AK009_07966	330			hypothetical protein	GTGGTGCTTAAACGGGTGCATCGCCACCTGGGCGTAGGTGACCGCAATGCCGTTGTAGGCAGAGTTGAACCCGGAACTGTTGGTGAAGTTCGCGTCCAGCGACAGGCCGAAGCGCTTCGCCGCGTCAGACCACTGGTGCTTGAGGTGCTCCGTGGGAACGACCACGATGATGCGCTCGACGTCGCGCCCGTCGCGCAGCGCAGCGGCGAGGGTGAGCGCGAAGGTGGTCTTACCCGCGCCCGGCGTCGCCACGGCGAGGAAGTCGCGCGGCTTGGTGGCCATGAACGAATCAAAGGCCTCCTGCTGCCACGCGCGCAGCCGGGGCCCTGA	MVLKRVHRHLGVGDRNAVVGRVEPGTVGEVRVQRQAEALRRVRPLVLEVLRGNDHDDALDVAPVAQRSGEGEREGGLTRARRRHGEEVARLGGHERIKGLLLPRAQPGP				NA	NA	NA	NA	NA
AK009_07967	498			hypothetical protein	TTGTTACTCATCCTTGTCATCGTGGTCGATGATAACCCGACCCGACTGGTTGCCCGCGGCGCCGAGCTCACGGCGTCGCTGCTGCTCAAGCTCGAACTCGTGCGCGGCGGCGCGCGCGGCGGCGGGCTTGTACACGTTCTTCTGCCGCGGGTCGCGTTTTTCTCCCTGGCCGTTTCCCACCATCACTGCGATCCACGGCAGCGGGATGGACACGACGAACAGCAATCCGGCCAGCCACCAGTTTTCCCAGTACCACGCGGCGAGCATGGACAGCAGGATGAACGGGATGCGCAGGCTCTGCAGCAGCATGTAGTTGCGCTCGCGGGAGCGGATGTTCTGCTCGTGGGTGTGGCGGGCGTCGGTAATCAGCTCGCCGCGGGTGCGTCTCAGGCGCAGGCGCCGAGATGTGCGGGCGGGGACCTCCGGCTCCACGTCGACCGTGTAGGGGTCGCTGAATTCGTTGAATTCCTCCGCCGGTGTCATGAGCGCCCAGCGTAA	MLLILVIVVDDNPTRLVARGAELTASLLLKLELVRGGARGGGLVHVLLPRVAFFSLAVSHHHCDPRQRDGHDEQQSGQPPVFPVPRGEHGQQDERDAQALQQHVVALAGADVLLVGVAGVGNQLAAGASQAQAPRCAGGDLRLHVDRVGVAEFVEFLRRCHERPA				NA	NA	NA	NA	NA
AK009_07968	177			hypothetical protein	GTGGCGGACCACACCGGGCTCGCCGCGGTACAGCGCCTCGGTGGCCTCCGGGCCGAGGTGGGCGGCAACGCCGTCGGCGCTAAACGACGCGCGCTCAAGCGCCTCGGCGAGCGCGGCGGCGGTCTCGGGAAGGCTGGGTGCGGGGTTGTTACTCATCCTTGTCATCGTGGTCGATGA	MADHTGLAAVQRLGGLRAEVGGNAVGAKRRALKRLGERGGGLGKAGCGVVTHPCHRGR				NA	NA	NA	NA	NA
AK009_07969	150			hypothetical protein	GTGCCCTGGCACGTGTTCGGTGACCGACGCGTCAAGGTCGGAGATGATCAGCCGGTTGTGGCCCGCGATCACGTGCGGGCGCACGTCGAGCGCAACCTGCGCCTCGCCGGCGGGGGTGAGGCGCGCGAGGTGGGCGTCGATAAGCGATAA	MPWHVFGDRRVKVGDDQPVVARDHVRAHVERNLRLAGGGEAREVGVDKR				NA	NA	NA	NA	NA
AK009_07970	327			hypothetical protein	GTGGGCGCTGCCGCCGGGTGCGAGGTGGGCCGGCGCAGTGCTGACCACGAGCTTGCTCGCCTCATCGAGCCACAGGCCGGAATCGCGGTAGACGTGGCCGACCTCGGGCAGGCCGACGACAAACGGCGGGTTGGCGACGATCCTGTCGAAGCGCTCACCCGCGACCGGCTCGAACCACGAGCCGTGGCGCAGCTCGACGTTGCGCACCCGGTTCGCCGCCATGGTCGCCTCCGCCATCTCAAGCGCCCGGGGATGCACGTCGGTGGCCACGACCTCGACCGCGCACGACGACTGGGCGATGGCCTGCACACCCGAACCCGTGCCTAG	MGAAAGCEVGRRSADHELARLIEPQAGIAVDVADLGQADDKRRVGDDPVEALTRDRLEPRAVAQLDVAHPVRRHGRLRHLKRPGMHVGGHDLDRARRLGDGLHTRTRA				NA	NA	NA	NA	NA
AK009_07971	537			hypothetical protein	GTGGCGGATCAGGTCGACCGCCGCCGCGGCCGCGGAGTGCGCCAGCTCGTCGGTGGCGGCGTCGTCAAGCCCGCGCGACGCGGCGAAGAGCCCCACGACGTCTCCCAGGCTCAGCCCGCGCGGGTTGAGGCCCGCGAGCACGGAGCGCAGCGCCGCGTCGATGTCGTGGCTAAACCGCGGCCCGTCGGTGCGGGTGACGCGGGTGACGTGGTGGGCGAAGCCCATGCCCGTTTCTGTGTCGGCGACGCTGACCTCCTCGAGCGCGAGGCCGGGGCGCACCAGGTAGCGGGCGTCGAGCACCTCGTCGTGGCGGCGATGGCGCAGCCAGTCCATGCGCGTGAAATACTCTTCGGCCTCCGGGCCCAGCGCGTCCGTGAAGGAGTGCGACAGGGTCTCGGCAGTCACCTCGGAGGGGGCATCGCCGATGTCGCGCAGGAACACCCACCCGAACCCGACGGCGCGCACGCCCTCGGCAGCGAAGTGCTCCAGCCAGGCGGCGGTGCGCTCAATGCCCTCGCGCGAGCGCGGGTCGATTGA	MADQVDRRRGRGVRQLVGGGVVKPARRGEEPHDVSQAQPARVEAREHGAQRRVDVVAKPRPVGAGDAGDVVGEAHARFCVGDADLLEREAGAHQVAGVEHLVVAAMAQPVHAREILFGLRAQRVREGVRQGLGSHLGGGIADVAQEHPPEPDGAHALGSEVLQPGGGALNALARARVD				NA	NA	NA	NA	NA
AK009_07972	435	dtd_2	COG1490	D-aminoacyl-tRNA deacylase	ATGAGAGCCGTACTCACCCGCGTCTCCCAGGCCAGCGTCACCGTCGACGGCGACGTCGTCGGCGCGATCGACTGTCCTGACACCGGCGGGATCCTCGCCCTGGTGGGCGTGGGCCGCGACGACGCCGAGGACGCGTGGCGCACGGTGGCGCGCAAGATCGCGGAACTGCGCATCCTCGACGGCGAACGCAGCGCCGAAGACGCAGGCGCCCCGGTCTTGCTGGTGAGCCAGTTCACGCTGCTCGGCCGCACCGCGAAAGGCCGGCGGCCTTCATGGGCAGACGCGGCGCCCGGAAACATCGCCGAGCCGGTGATCGAGAGCATCGCCGAGGAGCTGCGCCGCCGGGGCATCCACGTCGAGCAGGGGCGCTTCGGGGCGATGATGAAGGTCACCAGTGTTAACGAGGGCCCGTTTACTGTCCTGGTTGAGGCCTGA	MRAVLTRVSQASVTVDGDVVGAIDCPDTGGILALVGVGRDDAEDAWRTVARKIAELRILDGERSAEDAGAPVLLVSQFTLLGRTAKGRRPSWADAAPGNIAEPVIESIAEELRRRGIHVEQGRFGAMMKVTSVNEGPFTVLVEA				NA	NA	NA	NA	NA
AK009_07973	996	sigB_2	COG0568	RNA polymerase sigma factor SigB	ATGACTCAACCGGATCATGCTCCCGCCGCTGATCAGGAAGAAACCGTCGATCGCGGCAGTCGCCGGAACCAGACGAATGACAATCCGTCGGCAGACTTGGTCCGCGTGTACCTCAACGGCATCGGCAAGACCGCGCTGCTCGACGCCGCCGAGGAGGTGGAGCTGGCCCAGCGCATCGAGGTCGGGCTCTACGCACAGTTCCTTCTAGACGACCCCGACACCAAGCTCACCCGCGCGAAGAAGCGCGACCTGAAGATCTTGGCCAAGCAGGGCCGCCGCGCGCGCTCGCACCTGCTCGAGGCGAACCTGCGCCTCGTTGTCTCCCTGGCAAAGCGCTACACGGGCCGCGGTATGCCGCTGCTTGACCTGATCCAGGAGGGCAACCTCGGCCTGATCCGCGCGATGGAGAAGTTCGACTACGCCAAGGGGTTCAAGTTCTCCACCTACGCCACCTGGTGGATCCGCCAGGCAATCACCCGCGGCATGGCCGACCAGTCGCGCACCATCCGCCTACCAGTCCACCTCGTGGAGCAGGTGAACAAGCTCTCGCGCATCCGCCGCGAGATGTACCAGTCCCTGGGCCGCGAACCCACGAACGAGGAGCTGTCGGAAGAGTCCGGCATCGAGGAGTCCAAGATCGAGATGCTGCTGCGCCAGTCGCGCGACCCGGTCTCCCTCGACATGCCCGTCGGCGCGGACGAGGAGGCACCCCTGGGTGACTTCATCGAGGACGCCGAGGCAACCGACGCCGAGGACGCCGTGGTCTCCAGCCTGCGCCACGACGACATCCAGGACATCATCGGCGGCCTAGAGCAGCGCGAGCAGGACGTGATCCGCCTGCGCTACGGCCTTGACGACGGTGTGCCCCGCACCCTCGACCAGATCGGCCGCCAGTTCGGCCTGTCCCGCGAGCGCGTGCGCCAGATCGAGCGCGAGGTCATGGCGAAGCTGCGCGTCGGCGAGCGCGCCGACCGGCTGCGCGATTACGCGATGTAG	MTQPDHAPAADQEETVDRGSRRNQTNDNPSADLVRVYLNGIGKTALLDAAEEVELAQRIEVGLYAQFLLDDPDTKLTRAKKRDLKILAKQGRRARSHLLEANLRLVVSLAKRYTGRGMPLLDLIQEGNLGLIRAMEKFDYAKGFKFSTYATWWIRQAITRGMADQSRTIRLPVHLVEQVNKLSRIRREMYQSLGREPTNEELSEESGIEESKIEMLLRQSRDPVSLDMPVGADEEAPLGDFIEDAEATDAEDAVVSSLRHDDIQDIIGGLEQREQDVIRLRYGLDDGVPRTLDQIGRQFGLSRERVRQIEREVMAKLRVGERADRLRDYAM	PGPT0014685_605	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
AK009_07974	690	dtxR		Diphtheria toxin repressor	GTGCGTGACCTAGTAGATACGACCGAAATGTACTTAAGAACGGTCTACGAGCTGGAAGAAGAGGGCATCATTCCGATGCGCGCGCGTATCGTTGAGCGCCTCGACCAGTCTGGGCCGACCGTTTCCCAAACCGTCGCTCGCATGGAGCGCGACGGCCTGATCGTCGTCGAGCCGGACCGCTCACTGTCGCTGACGCAGGTCGGGCGCGAGCGCGCCACCGCGGTGATGCGCAAGCACCGCCTCGCCGAGCGCCTGCTTACCGACGTCCTCCAGCTCGACCTCTCCCGTGTCCACGAGGAGGCGTGCCGCTGGGAGCACGTGATGAGCGAGGAGGTGGAGAAGCGGGTCGTCGCGGTGCTGCACAACCCCTACCGCTCCCCCTTCGGCAACCCGATCCCCGCCCTCGCGGAGCTCGGCGTGGACGAGGACGCCTCCCTCGAGCACGGCACCCGGGCGATTGATCTGGATCTCAGCTCGCCGGTTGAGGCCCGCGTGGTGCAGATCAGCGAGATTCTGCAGCTCAACCTGCCCGTCTTCCGTGAGCTCGCGGCGGCGAAGATCGGCATCGACAGCACCGTCACCCTGAGCCGCGGCGACGACGGCGACATCCTCGTCGCCTCGGGGTTAGGCTCGACCGTGACGCTGAGTGACGACATCGCCCACGCGTTCCGCGTCAGCCCCACCGCCTAG	MRDLVDTTEMYLRTVYELEEEGIIPMRARIVERLDQSGPTVSQTVARMERDGLIVVEPDRSLSLTQVGRERATAVMRKHRLAERLLTDVLQLDLSRVHEEACRWEHVMSEEVEKRVVAVLHNPYRSPFGNPIPALAELGVDEDASLEHGTRAIDLDLSSPVEARVVQISEILQLNLPVFRELAAAKIGIDSTVTLSRGDDGDILVASGLGSTVTLSDDIAHAFRVSPTA	PGPT0003890_884	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
AK009_07975	303			hypothetical protein	GTGGGGCACCTCCATGGACTCGCCGACGAGCGAGCGCGCCGCGAAGTGCAGGACGCCGTCGATGTCGCCTCTGGCCAGCGTGGCGTCGATGACGTCGCCGATGCGGCCCTCGACCAGGGTGGCGCCCGCGGGCACGGCCTCGGGGTTGCCGGTGGAGAAGTCATCGATGACGGTGACGTCGTGGCCGGCGTCGACAAGCACCTTGGCGCAGACGCTTCCGACGTATCCGGCGCCGCCTGTGACAACGAGTTTCATGGCTGGCCTTTCCTTCTGGGGTGGGCCGCGTCTAGGCGGTGGGGCTGA	MGHLHGLADERARREVQDAVDVASGQRGVDDVADAALDQGGARGHGLGVAGGEVIDDGDVVAGVDKHLGADASDVSGAACDNEFHGWPFLLGWAASRRWG				NA	NA	NA	NA	NA
AK009_07976	684			hypothetical protein	GTGGGAGCGATCGCCGAGCTCGCGGGTGAACTCCCACGCATCCTCGACGATGCGGCGCAGCTGCGTGCGCGTCGGATCCCAGCCAAGCTCGCGCTGGATCTTCTCCGAAGAGGCGATGAGCACAGCCGGGTCGCCGGCGCGCCGGGGAGCGACCTCGGCGGGGATCGGGTGCCCGGTGACCTCGCGGCACACCACGATGACCTCGCGCACGGAGTAGCCGTCGCCCGAGCCCAGGTTGTAAATGCGGTGCTCGCCCGGCGTGCTGGATTCCAAGGCGAGCACGTGGGCGTCGGCGAGGTCGCGGATGTGGATGTAGTCGCGCACGCAGGTGCCGTCTTTGGTGGGCCAGTCGTCTCCGAAGATCATGATCTTGTCTCGGTAGCCCAGCGCGACCTGCAGGACCAGCGGAATGAGGTGCGTTTCGGTCTTGTGGTTCTCGCCGATCGCGCCGTGCGCGCCGGCGACGTTGAAGTAGCGCAGGCTCGTCGCTGCCAGGCCGTAGGCCTGGCAGTAGGAAGTAATGGCGTAGTCGATGGCCAGCTTCGTCGCCCCGTAGGGGTTCGTTGGCCTCGTCGGGGTGTCTTCGGTGATCGGCACAGTCTCCGGCTCGCCGTAGGTCGCGGCGGTGGAGGAGAACACGAGCTTGGGAACCTGGTGCGTGCGTATGGCGTCGAGAAGCGATAG	MGAIAELAGELPRILDDAAQLRARRIPAKLALDLLRRGDEHSRVAGAPGSDLGGDRVPGDLAAHHDDLAHGVAVARAQVVNAVLARRAGFQGEHVGVGEVADVDVVAHAGAVFGGPVVSEDHDLVSVAQRDLQDQRNEVRFGLVVLADRAVRAGDVEVAQARRCQAVGLAVGSNGVVDGQLRRPVGVRWPRRGVFGDRHSLRLAVGRGGGGEHELGNLVRAYGVEKR				NA	NA	NA	NA	NA
AK009_07977	465			hypothetical protein	GTGGCGGGAGGTGGCGACGGTAGCCCACAGGGTCAACGCATTGGCGCGGATTTCACCGCGGTAAGCCTTGGCCACCCACAGCAGGGCTGCTGCCGCGCTTTGCGGGGACTTCAGCGCGTCAATCACCAGCAGGTCGCGCGACCAGCGCATCGCGAGCGTCGCGGCGAGGTCTACCCCGTCGCCCGGGTGGGCGAAGATGCTGGCCCTCCCCGGGCGCGCCACCTCGTGGATCATCGGGTGCGGGCGCAGCTCGTGCAGCATCGCGCAGGCGTCATCAATCTCGGCTGCGAGCGTGGCTGTGTCCGTGTCGCGCAGCAGCGCGAGTTCGGTGGCGCGGCGTGCGGCGGCGGCAGGGTCGCAGTCCGGGTGGGTTGGGTCGATATCGTCCCACGCCTCGAAGAAGCGGAACGTGTCCGCGCGGTCGAGTTCCGGCAGTGCCCCATTGTGCAACAGCGGCTTCATTGA	MAGGGDGSPQGQRIGADFTAVSLGHPQQGCCRALRGLQRVNHQQVARPAHRERRGEVYPVARVGEDAGPPRARHLVDHRVRAQLVQHRAGVINLGCERGCVRVAQQREFGGAACGGGRVAVRVGWVDIVPRLEEAERVRAVEFRQCPIVQQRLH				NA	NA	NA	NA	NA
AK009_07978	219			hypothetical protein	ATGCGCTGGGTTAGGGCCGAAGACGATGGTGTACGGGGTGCCGTGGGCAATTTCGGAGACGTGCCAGCAGGCGTCAATAAGGGAGGTGCCCTCGGCGGACGAGAAGTTGAACAACAGCTCCTTGGTCTCTTCTACCAGCGTGGAATTGGGGATGCGGCTGATGATGACCGCGTAGAAGGCGATGCATTCGCCACCGGGGGTGTCGATGAGTGCGGGTAA	MRWVRAEDDGVRGAVGNFGDVPAGVNKGGALGGREVEQQLLGLFYQRGIGDAADDDRVEGDAFATGGVDECG				NA	NA	NA	NA	NA
AK009_07979	186			hypothetical protein	GTGGTGGGTGCGGGCAAGGTCAGCGCGCATGACAGGACCCAGGCGGGTCGTGCCGTCGCTGTCCGCGGGGTAGATCCCGACGATGACGGTAGATTCTTGGGGGTAGAAGCCGAAGATTCCCGGCAAGGCGGCGATGATGTCTTGTGGTCCGTTCAGTGTCCCTGGAGTCAGATCCATATTTACTAA	MVGAGKVSAHDRTQAGRAVAVRGVDPDDDGRFLGVEAEDSRQGGDDVLWSVQCPWSQIHIY				NA	NA	NA	NA	NA
AK009_07980	1080			hypothetical protein	ATGACGGACCAAGAACGTCACATGTATGAGCTGGAGTACCCCGCCCCCGCAGTTGGGGAAGGGCCAGCCGGACCAACCCTCATTATTGCCATGCAGGGCTACGCTGACGCGGGTCACGCCGTCGAGGGCGCTGCCGACCACCTCAAGGCTGCGTTCGAGTCGCGCACGGTGGCGACGTTTAACAACGACGAGCTGATTGATTACCGCTCGCGGCGGCCCATTGTCACCATGGCGCACAGCGAAATCACCAGCATGGAGGACCTCCAGCTGGACATGCGCGTGCTGCGCGACACCGAGGGCCAGTCATTCCTGCTGCTCTCCGGCCCGGAACCCGACCTGCGCTGGGAGGCGTTTAGTGAGGCCGTGGCGGACCTGGCGGATCGCTTCAACGTGGACAAGACCATCTGCCTCTACGCCGCGCCGATGGGCGCGCCGCACACCCGCCCCCTAGTCGTGTCCGCGCACGGCAACGACCGGGAGCTCGTGGGCACGATGTTCACCTTCGACGGCATGGTCACCGTGCCGGGCTCGGCCGCAATTATGATTGAGCGCGTGCTGCACGGCCGCGGCCGCAAGGTGGCGGGCTACACGGCGCACGTTCCGCACTACGTCTCGGCCTCTCCCTACCCCAGTGCGACGTACCAGCTGCTGCAGTCGGTCTCTGATGCCAGCAACCTGCAGTTCCCGCTGCGCTCGCTGGAGCACGACATGCAGCGCGTCTCGCGCCAGCTCGCCGAGCAGACGGCGTCGTCGCAGGAGATCTCCCAGGTGGTCGCTGCCCTGGAGCAGCACTACGATTCGGAGATGCAGGAGTACCGCGACCGCCACCCGAACGCGATGATGCCGGGTGAGTCGCAGATGCCCAGCGGCGAGGAGATCGGCGAGGCGTTCGAGAACTTCCTCTCAGCCATCGATGACCGCGACTACGACAGCTTCGGTGAGCGCGCCCTGCCCTTCGGCGAGGACGTGGACAGCCGGTTGGCGGACCACTACACCACCGACCTGAGCGAGCCGGACAGCGCCGAGCGTGACGACGATGACGACCCCGGCGCGCAGGGCGCTCTCGACGACGACCAGTAG	MTDQERHMYELEYPAPAVGEGPAGPTLIIAMQGYADAGHAVEGAADHLKAAFESRTVATFNNDELIDYRSRRPIVTMAHSEITSMEDLQLDMRVLRDTEGQSFLLLSGPEPDLRWEAFSEAVADLADRFNVDKTICLYAAPMGAPHTRPLVVSAHGNDRELVGTMFTFDGMVTVPGSAAIMIERVLHGRGRKVAGYTAHVPHYVSASPYPSATYQLLQSVSDASNLQFPLRSLEHDMQRVSRQLAEQTASSQEISQVVAALEQHYDSEMQEYRDRHPNAMMPGESQMPSGEEIGEAFENFLSAIDDRDYDSFGERALPFGEDVDSRLADHYTTDLSEPDSAERDDDDDPGAQGALDDDQ				NA	NA	NA	NA	NA
AK009_07981	615			hypothetical protein	ATGGACGACGTAGATGGGGGCCTTGCCGGAGTCGAGAAGTTCTTCGAGCGTCTCGTGCACGGGGGTGAACACGTAGTGGAAATCCAGCGGCACGGGCCGCTGCGAACCACCGACATAGGTGGTGGGGCGGCCCGTGCGCTTGGTCAGGTCCTCCTCGAGCCACGCGGTGTTGCCGAGGGTCGCCGACATGAGCAGGAACTGGGCCTTCGGCAGTTCAAGCAGGGGCACCTGCCACGCCCATCCGCGATCCGGCTCGGAGTAGTAGTGGAACTCGTCCATGACCACCTGGTCGATCGCGGCCCGCTCGCCTTCGCGCAGCGCGATGTTGGCGACGATCTCCGCGGTCGCGGCGATGATCGGGGCGTGGGCGTTGACGGTGGCGTCGCCCGTCATCATCCCGACATTCTCAGGTCCGAAGATCTCGCACAACGCGAAGAACTTCTCGCTGACCAGTGCCTTGATCGGTGCGGTGTAGAACGAGTGCTGCCCGCGCGCGAGCGCGATGAAGTGCGCCGCGTTTGCCACCATCGACTTGCCCGACCCGGTCGGGGTCGCCAGAATAACGTTCTCGCCGGTCAGCAGGGCAAGCGACGCCTCCTCCTGCGCGGGGTATAG	MDDVDGGLAGVEKFFERLVHGGEHVVEIQRHGPLRTTDIGGGAARALGQVLLEPRGVAEGRRHEQELGLRQFKQGHLPRPSAIRLGVVVELVHDHLVDRGPLAFAQRDVGDDLRGRGDDRGVGVDGGVARHHPDILRSEDLAQREELLADQCLDRCGVERVLPARERDEVRRVCHHRLARPGRGRQNNVLAGQQGKRRLLLRGV				NA	NA	NA	NA	NA
AK009_07982	831			hypothetical protein	GTGCTCGATCATGTCGCGCACGACCGACTTGGGCGAGAGCTGGAACTCCTTGGCCCAAGGGTTGCCCTGCGTGAACGTCTCGTAGGCCGCTTCCAGCTCCTCTTCGAGCGGCTTGGGGTAGGTCACGTCCTCGATCAGCGCCATGCGCTCGGTGTAGTCCACGCCATCGGCTTTCAGCGCGGCAATCTCCTCGCCGCGCGCCGCGGATTGCTGCGCCTGGAGAAGCTGGCGTGGATCATCCAGGATCGCCTCGAACGTGGAGATGACATCCAGGGCGTAAGTCTCCGACTCCGGGTCGAGGACGGTCAAAAACGCCAGCGCGAAGGGCGACAGCGGCTGGTTGAGCGCGAAATCGCGGTCCAACTCCCGGGTGAGCGTGTACGGGCGCATCGCGGGCGAATCCGGGGTGCGCTCGACCACCTGCGCGTTGACGAGCCCGCGGAAAAGTTCGACGGCGGTGAGGATGTCACGGTTTTGCTTGGCCCGCGTGTCGTGGTTGTCGCGCAACAGGCGCATCATGTGCGCGTACCCGTCGCCGGGGCGAGCCACGACGTTCAGCAGCATCGAGTTGGACACCCGGAACTGGCTCGTCAGCTCCTCCGGTTCGGCGGTGGTGAGGCGCTCGAACGTTTTCTCCGACCACGACACTTCACCGTCGCGGGCGGACTTTTTGCGAAGTTTCTTCAGCTTCTTCGGGTCGTCGCCCGCCTTGCGCCGCAGCTTGACGTTTTCGATCTCGTGCTCCGGTGCCTCAACGACGACCGTGCCCTCCGTATCAAAACCCGCGCGCCCCGCCCGGCCCGCGATCTGGTGGAACTCGCGCGACTTTAA	MLDHVAHDRLGRELELLGPRVALRERLVGRFQLLFERLGVGHVLDQRHALGVVHAIGFQRGNLLAARRGLLRLEKLAWIIQDRLERGDDIQGVSLRLRVEDGQKRQREGRQRLVEREIAVQLPGERVRAHRGRIRGALDHLRVDEPAEKFDGGEDVTVLLGPRVVVVAQQAHHVRVPVAGASHDVQQHRVGHPELARQLLRFGGGEALERFLRPRHFTVAGGLFAKFLQLLRVVARLAPQLDVFDLVLRCLNDDRALRIKTRAPRPARDLVELARL				NA	NA	NA	NA	NA
AK009_07983	519			hypothetical protein	GTGGAGCTGGAAGGACTTTTCGCCCGCCGGGTCCTTGAGCACCTGCACAACCGGCCACTGCCGGCCGCTCTCGCTCTCGATGCGGAAGTACTCCGGCCCGCGCGCGTCGGCGTCGAGCACGACATCGTCGTACTCGTCGAAGTAGTCGTCCATCTCCGCGGGCCAGTCGGGCGCGGCGGGGCCGGCGGCCTCAGCGTCGCTGTCAGGGTCGTCGAGGTAGGCGAGCATCTCGGCGAGCTGGTCTTCCTTTTCGAAGGCGAAGAGCTCGACGAGACGGAAGAAGTAGTTGCGCACCATTACGCGGAACGCGCGGCGGTTGGCCGTCAGGGCCGAGGGGTCCTCGACGCCGAACGCGAGCTCACGCTCGAGCGCTTCTTGCGAGATCGGCGAATCCTCATCGGCCATGTGCGCCCACTCGTCGATGAGCGAGGAGTCGACCTGGCGGACGAGCTCGCCGAGCCAGGCGATGATGTCGCCCAGCTCGTCGTTGAGGAAGGCCTCGGGGATGGAGTGCGATAG	MELEGLFARRVLEHLHNRPLPAALALDAEVLRPARVGVEHDIVVLVEVVVHLRGPVGRGGAGGLSVAVRVVEVGEHLGELVFLFEGEELDETEEVVAHHYAERAAVGRQGRGVLDAERELTLERFLRDRRILIGHVRPLVDERGVDLADELAEPGDDVAQLVVEEGLGDGVR				NA	NA	NA	NA	NA
AK009_07984	654			hypothetical protein	GTGGCCGTCGTCAAGCAGCAGCAACTCGAGCTCGCGCAGGTCGTCGAGGGTGAGGTCGCGGCGGCCCGCGAGCGGGTGGCCCTCGGGTGTGACAACGACGAAGCGCTCGCGGAACAGCACGGACTCGCGCATTCCGGGGTGGCCCGCCGGCACGGCCAAGATGGCGACGTCGACGGAGCCGTCGCGGAGCTGATCAAGAAGCGCGGGAGTTTGCTCCTCGACGATCTGGGGTTTCAGGTCCGCGTAGTGCTTGCTCGATTCCTTGAGAAAGTCGGGGAGGATATACGGGGTCAGCGTCGGGATAATCCCGAGCGTGAGCGGGCCCGAGAGCACACCGAGTGCGCCGCGCGAACGGGTGACAAAGGCATCCGCCGCCTCGAGGGTGGCGCGAGCAAGGGGGAGCAGTTCCTCACCGACCGGGGAGACAATCACCTTCCGCGTGGAGCGCTCGATGAGCTGGATACCCAGTCCGGTTTCCAACGCGACGAGGGCTTGCGACAGCGACGGCTGGGAGATGTTGAGCTTGGCAGCAGCAGCGCCGAAGTGCTTGTTCTCGGCGATGGTGACGAAGGTCCGCAGCTGAGCGAGGGTCGGGCGGTACTCTTTATTGCTCATGCCTATGAGTTTACGGTACGAAAGTTCCCGTTTGCTTAG	MAVVKQQQLELAQVVEGEVAAARERVALGCDNDEALAEQHGLAHSGVARRHGQDGDVDGAVAELIKKRGSLLLDDLGFQVRVVLARFLEKVGEDIRGQRRDNPERERAREHTECAARTGDKGIRRLEGGASKGEQFLTDRGDNHLPRGALDELDTQSGFQRDEGLRQRRLGDVELGSSSAEVLVLGDGDEGPQLSEGRAVLFIAHAYEFTVRKFPFA				NA	NA	NA	NA	NA
AK009_07985	2808			hypothetical protein	GTGGCGCTTCTTCTTCCACCACGAGTCGAAGTGGCGCGCGGTGGTCACGTCGGCGGGCAGGCGCGAGTCGTAGAAGTCGTACAAAGCGTCCTCGTCGACCACGATGCCGCGGCGGCGGACCTTGTCCTCGACCGCTGCGGCGTCGGCAAGCATCGCTTCGTTGTGGTCGATGAATGTGTGGTGTCGGTTCCAATCGCCGCCGATCAGCGCGTGGCGGATAAACATCGTGCGCGCGCCCTCGGCGTCAACGCGGTGGTAGGGCACGAGCCGGTCGCGCACGATCGGCAGGCCGTACAACAGCGACGTTTGGTGCACCATCGCGGCCGAGCGCTTGCGCGACCACACCGGCTCCGAATAGCTGTGCTTCAGCAGCCCACCCGCGGCCGTTTCCACCCATTCGGGCTGGATGCGCGCGACGTCGCGCGCCCACAGCCGCGAGGTCTCAACCAGCTCGGCCGCCATGAGAAACTCCGGCGGCTTCTTCGCCAGCACCGATCCCGGAAAGACCATGAACTTCGTGCCACGGGTGCCCTGGAACTCCTTCGAATTGCCCTCGCGCGCCCCGATGTTGGACAGCAACCCCGTGAGCAGCGACTTATGGATCGCGTCCGAGTCGCGCTCGTTGGCAACGTTCTCAGCGCGCGAGAAGCCCAGCTGCTTTTCGACGTCGCGCAGCTGGCGCACCAGGTCATACCACTCGCGGATGCGCATGTAGTGCAGAAATTCGCGCTTCATCCGCTTGCGAAACGCGTTGCCGGACAGCTCGTCGCGCGATTCGCCGATGTAGTCCCACAGCTTGAGCGCGGAGAGAAAGTCGGAGGTCTTGTCTTTGAAGCGCGCGTGCGCCTGATCCGCCTGGGCCTGAAACTCGAGCGGGCGCTCGCGCACGTCCTGGATGGTCATGTAGGCGACGATGACGGTGACGTCGTCAAGCACGCCGAGGCGGTTGGCCTCGACGAGCATGCGGGCCATCTTCGGGTCGACCGGGATGCGGGCGATGTCGCGGCCGATCGCGGTGAGCACGGGCGCGCCGTTACGCTCCTTGTCGCTGGTGGCGCCGAGCTCGTGGAGCACGGCCAGACCATCGCGCACCGACTTCGGGTCCGGGGGCTGCAGAAAGGGGAACTCGCTGATGTCGCCGAGACGCAACGAGATCATCTGCAGAATCACGCTGGCAAGGTTGGTGCGCAGGATTTCCGGGTCAGTGAACTCGGCCCGGGCGTTGAAGTTTTCTTCGGAGTAGAGCCTGATGGCAATGCCGTCGGCAACGCGGCCCGAGCGCCCGGAGCGCTGGTTGGCCGAGGCCTGGGAAATCTCCTCGATGGGCAGTCGCTGCACCTTCGTGCGTGTGGAGTAGCGCGAGATGCGCGCCAGGCCGGTATCCACCACGTAGTGAATCCCCGGGACCGTCAGCGACGTCTCGGCGATATTGGTCGACAGCACAATGCGCCGGCCGGAGTGCGGGGAGAACACGCGGTGCTGCTCGGCGTTGGACAGCCGCCCGAACAGCGGGGTGACCTCCACGGAGCGCCAGTGCTTCTTTTCCAGGGCCTCCATGCAGTCTCGGATGTCGCGCTCGGAGGCGAAGAAGCACAAGATGTCGCCTTCGCCCTCGCGCATCAGCTCCTCGATGGCCGCGACGACGCCGTCGATCATGTCCACGTCGGTCTCTTTGCCGCCAACGGTTTCCACCAGAGGGCGATAGCGGATCTCGACGGGGTAGGTGCGCCCGGAGACCTCGATGATCGGGGCCGGGGTGCCGTCGGATTCGCAGAAGTGCTCGGCGAAGCGCTGCGGATCGATCGTCGCAGAGGTGATGATCACCTTCAGGTCAGGGCGCCGGGGCAGGAGCTGCTTGAGATAGCCGAGGAGGAAGTCGATGTTAAGCGAGCGCTCGTGGGCCTCGTCGATGATGATCGTGTCGTAGGCGTTGAGGAAGCGGTCGCGCTGCATTTCGGCGAGCAGGATGCCGTCGGTCATCAGTTTGACCGCCGTGGTGGGGGAGACGCGGTCGTCGAAGCGGATGGCGTAGCCCACGGTCTCGCCGACGCTCTGGCCGAGCTCGTCCGCGATGCGCTCCGCGACGGTGCGTGCCGCGAGCCGGCGCGGCTGGGTGTGGCCGATCAAACCCCGGCGGCCGCGCCCCAGCTCGAGCAGCATCTTCGGGATCTGGGTGGTCTTGCCCGAACCCGTCTCACCCGCGATGACCACCACCTGGTGGTTGCGCATGAGCTCCATGATGTCGTCGCGCCGCGCAGAGACGGGCAACTGCTCGGGGTAGGTGATGTCGGGCACCGCGGCATCGCGCGCCGCAACGGTGGCGGCTGCGGCGTCGAGGTCGTCGGCGATGGCGCGAAGCGCCTGCGGCGCGCGGGCCTTGTCCAGGCGACGGCGAAACCGCCGCACCTCGGCAAGCGGCAGGCTATCGAGGCGGGAGAGGAGCTCGCCGCGGGAGGGGTGGGAGGAATCGTTCATATCTGCCGAACGATTCTAGCCGTTGATGATGCTCCTGCTTCGTTGGATCACCTTGGCGTGGGCCCGCGTGATCAGCTCGCCGAGCGCTTGGTGCTCGACCGCGCGTGCCGACGACGGCCTGCTGACCAGACCGATCGTGCGCTCCGCCGCAACCGACGGGGCGAAAGCGGCGAGCCCCAAACCCGGCCGCGTGCACTCGGTCGCCACCGCGGATTCCGGAACCAGCGTGCAGCCCAGCCCCGCCACGACGAGTTGCATGATGGTGGTCAGCGAGGAGGCGCGCGTGGAGTACTCCCCGTTGCCCGGGTTGCTCATCTGGGCGATCCGGCATAG	MALLLPPRVEVARGGHVGGQARVVEVVQSVLVDHDAAAADLVLDRCGVGKHRFVVVDECVVSVPIAADQRVADKHRARALGVNAVVGHEPVAHDRQAVQQRRLVHHRGRALARPHRLRIAVLQQPTRGRFHPFGLDARDVARPQPRGLNQLGRHEKLRRLLRQHRSRKDHELRATGALELLRIALARPDVGQQPREQRLMDRVRVALVGNVLSAREAQLLFDVAQLAHQVIPLADAHVVQKFALHPLAKRVAGQLVARFADVVPQLERGEKVGGLVFEARVRLIRLGLKLERALAHVLDGHVGDDDGDVVKHAEAVGLDEHAGHLRVDRDAGDVAADRGEHGRAVTLLVAGGAELVEHGQTIAHRLRVRGLQKGELADVAETQRDHLQNHAGKVGAQDFRVSELGPGVEVFFGVEPDGNAVGNAARAPGALVGRGLGNLLDGQSLHLRACGVARDARQAGIHHVVNPRDRQRRLGDIGRQHNAPAGVRGEHAVLLGVGQPPEQRGDLHGAPVLLFQGLHAVSDVALGGEEAQDVAFALAHQLLDGRDDAVDHVHVGLFAANGFHQRAIADLDGVGAPGDLDDRGRGAVGFAEVLGEALRIDRRRGDDHLQVRAPGQELLEIAEEEVDVKRALVGLVDDDRVVGVEEAVALHFGEQDAVGHQFDRRGGGDAVVEADGVAHGLADALAELVRDALRDGACREPARLGVADQTPAAAPQLEQHLRDLGGLARTRLTRDDHHLVVAHELHDVVAPRRDGQLLGVGDVGHRGIARRNGGGCGVEVVGDGAKRLRRAGLVQATAKPPHLGKRQAIEAGEELAAGGVGGIVHICRTILAVDDAPASLDHLGVGPRDQLAERLVLDRACRRRPADQTDRALRRNRRGESGEPQTRPRALGRHRGFRNQRAAQPRHDELHDGGQRGGARGVLPVARVAHLGDPA				NA	NA	NA	NA	NA
AK009_07986	216			hypothetical protein	GTGGTCGATGATTTCCCCGCGCTTGTCAATCGCCGCGAACGTGATCTTCAAGTGCGGCGGCAGGGCGGCGGGCCGGAAATCGCTGCCGTTGATCCCCGCGCCGCCGATAGAGCGCAGGACTTCGGCGAGGTCGTCGGTCAGCGGCTGCTCCCGCGGCGTGAGCTTCGGCAGCGCCATGGCTGCGAAGTCCGGGGCGGGGACGACGGAACGTCGTAA	MVDDFPALVNRRERDLQVRRQGGGPEIAAVDPRAADRAQDFGEVVGQRLLPRRELRQRHGCEVRGGDDGTS				NA	NA	NA	NA	NA
AK009_07987	945			hypothetical protein	GTGTATGTCCCCGGCTGCTCGGATTACCCACCCCGGGCGCTAGCGGACGGCGTCGATAAGCTTTTCGATGCGACGCTGGCTAACCGGCTTCGGGGTGCCCAGGCGCTGGGCAAACAAGCTCACCCGCAGCTCCTGGATCCGCCACAGAATGTCCTTGACGTCCTTCGTCTTCTCCCGCCCGGCGGGCAGCGTGCGCAGCTTCGCCTTGAGGTAGGCGTGGGTTGCCGCGACAACGTCCTGGCGGTCAGCGTCGCGGTCGGGGTCTATCGCCATGTCCTCCAAGCGAATCCGCATCGCGTCGATGTAGCGCGGGACGTGCCGAAGGTACGCCATCCCGTGGACGGTGATCGCGTGGGCGGGGAGGAAGAATGCGAGCTGCCCGCGCATGTCGTCGATCGCCGGGCCGGTCCACTTCTCCAGCTCCTGCGAGATCGCGGAGTACTCCACAAGCACGGGCGCGAGCGCAACCACCTTCTGCCGCACCTCGGCGCTGACCTTCGGCTTGATTTCACGCAACAGCGCGTCGAACTCCTCCGGGGAGCGGACCGGGCCACCGGCGGCGACCATCATGTCGCGCAGCGTGGCGACGCGGGCGTCGTCGACAAGCCCCGCCGCACCACCGTGCGGGTAGTTGTCTATCGCAACCTTCTGGCGCAGCGGCAGCCCCTTGGTCATCTGGGAGACGTTGACGTTGATCTCGCGCAGCAGAAGCGTCAGCGTCGCCGTGAGCATGGACGCGTCGGCGGCCGCCTTCGTCGGGTGAACCGTGACCTTGACGCCGTTGGCCGTTGCCTCCAGCGCAGGGTAGGCGTCGACCTGGTTGCCGTCGATCGTGGTGGTGACGGTCTCGGGGACCTCGCCAAGCGTGTGGGCGGTCCACTTGGGTGCGCTGGCCGTCTCCGCGGTGCGGCTCGCCTTGGACACCGAGGAGCGGATCTTGCCTGA	MYVPGCSDYPPRALADGVDKLFDATLANRLRGAQALGKQAHPQLLDPPQNVLDVLRLLPPGGQRAQLRLEVGVGCRDNVLAVSVAVGVYRHVLQANPHRVDVARDVPKVRHPVDGDRVGGEEECELPAHVVDRRAGPLLQLLRDRGVLHKHGRERNHLLPHLGADLRLDFTQQRVELLRGADRATGGDHHVAQRGDAGVVDKPRRTTVRVVVYRNLLAQRQPLGHLGDVDVDLAQQKRQRRREHGRVGGRLRRVNRDLDAVGRCLQRRVGVDLVAVDRGGDGLGDLAKRVGGPLGCAGRLRGAARLGHRGADLA				NA	NA	NA	NA	NA
AK009_07988	597			hypothetical protein	GTGTTCTATCAGTCGATCTGCGGACACGGCGAACACCCGACATCCCCCGGTGCGAGACCTCTAGAAGTCCTCGCGGTCGCGGCGGCGCATCAGGCGGATTTCGGATTCGAAGTCGTCGGCGGATTCGAAGGACTTGTATACGGAAGCGAAGCGCAGGTATGCGACCTCGTCGAGGGCGCGCAGTGGCTCGAGCACCGCGAGGCCGACGTCGTTGGCGTCGACCTGGGAGCTGCCGTGACTGCGCACGGTCTCCTCTACTTGTTGGGCGAGTCGCTTGAGAGCGTCGTCGGACACGTCACGGCCCTGGCACGCGCGCCGCACGCCGCTGATCAGCTTGTCGCGGTCAAAGGGCTCGCTGACGCCGTTGCGCTTGACCACCATGAGGATGGCCTTTTCCACGGTGGTGAAGCGCCCTGCGCAGTCCGAGCACTCTCGGCGGCGGCGAATCGCAGATCCGCCGTCGATCACGCGGGAGTCAAGCACCCTGGACTGTTCGTGGTGGCAAAACGGGCAGTGCATGCGCTCGATTCTACCGCGCGCGTCCTCCCCCGCCGCGGCCACTGCAGCGCGGGATCTAGCGCACGGATGCTGCGGTGA	MFYQSICGHGEHPTSPGARPLEVLAVAAAHQADFGFEVVGGFEGLVYGSEAQVCDLVEGAQWLEHREADVVGVDLGAAVTAHGLLYLLGESLESVVGHVTALARAPHAADQLVAVKGLADAVALDHHEDGLFHGGEAPCAVRALSAAANRRSAVDHAGVKHPGLFVVAKRAVHALDSTARVLPRRGHCSAGSSARMLR				NA	NA	NA	NA	NA
AK009_07989	369			hypothetical protein	ATGACCATTCAAATCGACCGCCCTCACGCTGCACATACTTCGTTCAATTCCGCTACCGCGCCGACGCTTCCCGCCGCGGTGTGGGATCTCCCCGAGGCGGAAAGCATCTCGAGGGGCGCGCGCCATGTTCGAACGCTTAGCCCGGTGCATCGAAACTCTGAACGCGTAAACGCCGGCACTGTTCGCGCAGGTGCGCAAAATTCCGACATGTTCGAAACTCGCCACGAAAATCGGGCTAGCCTGCTCATGGGTGCGGCCCTCGGTCTTGCCCTGATTCTCGGGTCTGCGGCGGGCGGTGCCTTCGCCGGCGATTCTTCGGATCAGGTTGCAGACGCGACCTCGGGGGTCACCGCAGCATCCGTGCGCTAG	MTIQIDRPHAAHTSFNSATAPTLPAAVWDLPEAESISRGARHVRTLSPVHRNSERVNAGTVRAGAQNSDMFETRHENRASLLMGAALGLALILGSAAGGAFAGDSSDQVADATSGVTAASVR				NA	NA	NA	NA	NA
AK009_07990	675			hypothetical protein	TTGCAAAAGAAGGCTGCCCGCTTAAGTGGGATTGCGCCCGAAAGCCCTCAAGTGGGGGTAGCAGTCGGGCGCAGACGCGCGTTAGAGGGTGCGGAAAACGGACACGACACGCCCCATGATTTCCGCCTCGTCGCCCTTGATCGGGGAGAACGCGTCGTTGTGGGGGAGGAGCCAGACGCCGGTGGCGTCCTTGTGGAACTCCTTCACGGTCGCTTCGCCGTCGAGAAGCGCTGCGACGAACTCGCCTTCCTCCGCCACGGGCTGGGAGCGCACCACGACCCAGTCGCCGTCGAGAATGCCGGCGTCACGCATGGACTCGCCGACGACGCGGAGCATGTAGAGCTCGCCGTCGCCGAGCAGCTCCTGGGGAAGCGGGAAGTAGTTGTCCACGTTCTCCTCGGCGAGAATCGGGGAGCCAGCGGCGATCTGTCCAACGACTGGGATGTAGCGGGGCGCGGACGCGTCCTCGGGGGTCGGGGCGGCCTTCGGCTTGGCCTTGCGCGAATTCTTCTGCGAGTCGGGGAGGTGGCGCAGGTCCACGGCGCGCGGCTTGTTCGGGTCGCGGCGCAAAAAGCCCTTCTTCTCCAGCTCTTTGAGCTGGTAGGCGACAGAAGAGGTGGATTGCAGGCCGGCGGCGTCGCCGATCTCGCGGATGCTTGGCGGGTAACCGCGTAG	MQKKAARLSGIAPESPQVGVAVGRRRALEGAENGHDTPHDFRLVALDRGERVVVGEEPDAGGVLVELLHGRFAVEKRCDELAFLRHGLGAHHDPVAVENAGVTHGLADDAEHVELAVAEQLLGKREVVVHVLLGENRGASGDLSNDWDVAGRGRVLGGRGGLRLGLARILLRVGEVAQVHGARLVRVAAQKALLLQLFELVGDRRGGLQAGGVADLADAWRVTA				NA	NA	NA	NA	NA
AK009_07991	357			hypothetical protein	GTGGTCGACGCTGAGCGCGTTGGTGCCGATGAAGGCGACGTCGGCGCGCATCAGGGCGAGCGAGCGCAGCGCCATCGCGCCGACGACAGCCTGCGTAATCGCGCGAACCGAGCCGCCGAGCAACTGCACGTGCGGCAGGCCCGCGGTGGACAACTCGAGCGCGATGGGCAGCGAGTTGGTCACAATCGGCCAGGACGCCGCGCGCGGGTCCGAGGCCAGCAGGGTGGAAAAGGCGCTAATCGACGTCCCCGAGTCGAGGAAGATCCCGCCCTCGGATTGCTCCGGCAAGTACTGCAGTGCATTGCGGGCGATGGCGGATTTCGCGGTCGATGCCGACCGCGAGCGCGCGTCGAGTGA	MVDAERVGADEGDVGAHQGERAQRHRADDSLRNRANRAAEQLHVRQARGGQLERDGQRVGHNRPGRRARVRGQQGGKGANRRPRVEEDPALGLLRQVLQCIAGDGGFRGRCRPRARVE				NA	NA	NA	NA	NA
AK009_07992	1533			hypothetical protein	GTGCGCCTTGCTACCGTCCGCGGGGGCGGCGATGAGGAACACGAGGTCGGCGGGGCCGTCGGGGCCGGAGAAGTCGACCGGGTGGCGAAGCCGCGCGAAGGCGAGCGTGGGCACGCTCACGGCGGACGAGCGGGCGTGCGGGATGGCGATGCGCCCCGCCACGCCCGTCGGGGCCTTACCTTCGCGCGCGGTGACGTCGGCGATGAGCTGCGCGGAGTCGTTGGTGCGGCCGGCGGATTCGACCAGGCCCGCGAGGTGCGCGATGACCTCGCGGGGGTGCGCGCCGGCGTCGACGTCGAGGGCGACGAGCTCGAGCCTGATGAGGTCCGGACTGTCCACCGGCTACCTCGGCTCCGTCTCAAGTGCAACCACGTGGGTATTGACCGTGTCCACCTCGTCGGGAGAGGGGATGCCGGTGCCCGGTTTCGCGGCAGCTGCCGAGCCGTAGGCCACGCCCCGGCGCAGGCACTCGCAGGGGTCGGCGCCCTCGACGCGGGCCATGATGTAGCCGGCCAGCGCGCTATCGCCCGCGCCAACCGTCGAGCGGGTCGTCATCGGGGGAGCGGTGGCCGCCCACGCGCCCGTGGCCGTGACCAGGCACGCCCCGGCCGAGCCGAGGGTGACCAGCACCTCTTTCACGCCGTCGCTGATCAGCTTGCGAGCGTGGACGACGATGCTGCGGTAGTCGCCCGACGCGGCCTGGCGCTCCAAGGCGTCACCGTCGGCGCCGGTGAGCTGGGCGAGTTCGAACGCGTTGGGTTTGATCACGTCCGGTTTGGCGTCTGCCAGATTCTTCCCGAGCTCCGCCAGCGGCGCGTCGGAGGTGTCGATGGCGACAACGGCGCCCGGGCAGGCCATGCGCACGGCCTGGGCGAGCGTGGCGTACCACGACGGCGGCGCGCCCGGGGGCAGGGAGCCGGCCATAACGACGGCGTCGGCGCGGGTTTCGGCGACGGTGGAGATGAGGACGTCAGTGATGCGGGTGACGTCGTCGTCACGCAAAAGCGGGCCCGTTTCGTTGACCTTGGTGGTGGAGCCGTCGCGCTCGGTGAGCGTGGTGTTCGTGCGGATCGCGCCGGAAATCGGGATGCCCTTCAGCGGGATGCCAGCGTTGCGGCAAATGAGGGTGAACGGGTCGCTCGGCCCGCAGGGGGCGATGGCGAGGGTGTCGCGGCCCGCGTTGGTGCAGGCGTGGGAGACGTTGATTCCCTTACCGCCGGCTTCTCTATGCGCGGTGATGGTGCGGTTGACGCCGCCGCGTTCGAGGGAGTCGAGCTCGAGAGTGGCATCGATACTTGGGTTGGGCGTGAATGTGATGATCACTTCTGCGGGCTCCTCCCAGTTTTAACTTCCAAGTATGTCCGGGCGTACCCGAACGGTCAATGCGGGCGCGGCGGCTGTGACGGACGCTACGCCTCGGCGAGGACTACCTCAATGCCGTGCTGTGACAGCTCGCTGACGATCGACTCCGGTGCGCCGGAATCGGTGATGAGGACGTCGATCTCGTCCAGCGAGGCGAAGCTGACCAGGTAG	MRLATVRGGGDEEHEVGGAVGAGEVDRVAKPREGERGHAHGGRAGVRDGDAPRHARRGLTFARGDVGDELRGVVGAAGGFDQAREVRDDLAGVRAGVDVEGDELEPDEVRTVHRLPRLRLKCNHVGIDRVHLVGRGDAGARFRGSCRAVGHAPAQALAGVGALDAGHDVAGQRAIARANRRAGRHRGSGGRPRARGRDQARPGRAEGDQHLFHAVADQLASVDDDAAVVARRGLALQGVTVGAGELGEFERVGFDHVRFGVCQILPELRQRRVGGVDGDNGARAGHAHGLGERGVPRRRRARGQGAGHNDGVGAGFGDGGDEDVSDAGDVVVTQKRARFVDLGGGAVALGERGVRADRAGNRDALQRDASVAANEGERVARPAGGDGEGVAARVGAGVGDVDSLTAGFSMRGDGAVDAAAFEGVELESGIDTWVGRECDDHFCGLLPVLTSKYVRAYPNGQCGRGGCDGRYASARTTSMPCCDSSLTIDSGAPESVMRTSISSSEAKLTR				NA	NA	NA	NA	NA
AK009_07993	606			hypothetical protein	GTGCGGGGCAGCGAGGGAGAAGCCGCGGGCGACCTCGGCCCAGGCGTCCGTGCCGCCGATCAGCGTGCCCAGCGCGAGCAGGAGCCCGCTGGCGGCGAGGAAGGGCACCATGAAGGAAACCCCTGTCATCACGGCGCGGTAGATGCGCGCGGGTGTGCTGGGCTCGGTGGAGGTTTCGGTGGCGTTGAGGACGGCGTCGATAAGCTGCGCGGGCTCGTTGATTGCGCGGCGCACGGGCACGTCGACGAGCGGCTTGCCCTCGAATCGCTCGGCGCCGCGTACCGCGACGTCGTGGGCGAGGATCACGGCGTCGGCGCCGCGGATGAAGTCGGGGTCGAGCGGTTGGGTGCCGGTGGCGCCCTGGGCCTCGACGCGCAGCTCGACGTCGTCACGCGATGCGGCGGCGCGGGCGAGCGCGTCAGCGGCCATGTACGTGTGCGCCACACCGGTGGGGCACGCCGTGACAGCCGCGATGCGTCGGCGCTTCTTCTTGTGGTTGAGCTGCGCGGCAATGGCCTCGACAGCGGCCTGCGGGTCAGTGGCCGCGCGCAGCTTCTCGACGAACTGCTCACGCACCAGCGCCCGGGCGAGCGTCGACAGGATTGA	MRGSEGEAAGDLGPGVRAADQRAQREQEPAGGEEGHHEGNPCHHGAVDARGCAGLGGGFGGVEDGVDKLRGLVDCAAHGHVDERLALESLGAAYRDVVGEDHGVGAADEVGVERLGAGGALGLDAQLDVVTRCGGAGERVSGHVRVRHTGGARRDSRDASALLLVVELRGNGLDSGLRVSGRAQLLDELLTHQRPGERRQD				NA	NA	NA	NA	NA
AK009_07994	585			hypothetical protein	GTGGATCCGCGGGATCAACGCGCGTGCCCTGGAGTCGTTGAAAACCACTGTGGTCAGCCCGCTGGTGGCAACGCTCGCGGTGCTATTCCTGATGGTCGGCGTTATCGGCCGCCCGCTCGCCGCCCTCTCGGCGGCGGTTCAGGGCTGGCTCGGCGAGATGGGAAGCACCTCGGCGATCCTGCTCGGGGTGGTCGTCGGCGCGATGATGTGTGTCGACCTTGGCGGGCCGGTGAACAAGGTCGCTTACGCCTTCGGGGCGGCGGGGCTGACCGCGGGCACCCAGGCCAGCTACGTCATCATGGCCGCGGTCATGGTCTCCGGGATGGTGCCGCCGCTGGCCCTGTCGCTGGCGACGCTGCTGCGCGCCAGCGCGTTTACCCCGGCGGAGCGCGCCGCTGGGCGGACCATCTGGCTGCCCGGCCTGGCGTTTGTCACCGAGGGCGCCATCCCGTTTGCGGCCGCCGATCCCGCGCGCGTCATCACACCACTAATGCTCGGCGGGGCAACCGCGGGAGCGGTGTCCATGGCGCTTGGCACGGGGGTGAGCGCGCCGCACGGCGGGATCTTCGTCATCTTTGCTTTTAG	MDPRDQRACPGVVENHCGQPAGGNARGAIPDGRRYRPPARRPLGGGSGLARRDGKHLGDPARGGRRRDDVCRPWRAGEQGRLRLRGGGADRGHPGQLRHHGRGHGLRDGAAAGPVAGDAAARQRVYPGGARRWADHLAARPGVCHRGRHPVCGRRSRARHHTTNARRGNRGSGVHGAWHGGERAARRDLRHLCF				NA	NA	NA	NA	NA
AK009_07995	270	ptsH_2		Phosphocarrier protein HPr	ATGGCTTCCAAGACAGTAAAGGTCGGCTCCACCGTGGGCCTGCACGCACGCCCGGCAACCGTCATCGCGGATGCCGCTGGCGAGTACGACGACGAAATCGTGCTCACCCTGGCGGGCGGCGACGAGGACGACGAGACGGATGCCGCATCCTCTCTCATGATCATGGCCATGGGTGCGGAATTCGGCGACGAGGTGACCGTGACTTCCGACAACGCCGAGGCCGTGGACAAGATCGCGGCGCTTATCCAGCAGAACCTCGACGAAGCTTAG	MASKTVKVGSTVGLHARPATVIADAAGEYDDEIVLTLAGGDEDDETDAASSLMIMAMGAEFGDEVTVTSDNAEAVDKIAALIQQNLDEA	PGPT0016875_1956	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
AK009_07997	180	csfB		Anti-sigma-G factor Gin	ATGAAATTACAAAGTGAAGTTTGTATTGTTTGTGAGACAAAAAGAAAAGAAGGTATATATGTTTATAATAATTTAATATGTTATGAATGTGAAAAGGATATGGTGAACACAGAGACAGATGATCCAAAATATATACATTATTTAAAGCAACTTCGAAAATTAGAAGTATCATATTTTTAA	MKLQSEVCIVCETKRKEGIYVYNNLICYECEKDMVNTETDDPKYIHYLKQLRKLEVSYF				NA	NA	NA	NA	NA
AK009_07998	1422	speA_2	COG1982	Arginine decarboxylase	ATGAATCAAAATCATATGCCTTTATATGAGGCGTTAATAGAGTTTAAAGAAAGAGGGTCGTTATCTTTTCATGTTCCAGGTCATAAGAATGGTTTAAACTTCCCTCAGAAGGCAATAAGAGAGTTTAAAGATATTCTATCTATTGATGTAACTGAGTTAGCAGGACTGGATGATTTGCATAGTCCGTTTGAATGTATAGATGAGGCACAACAATTATTGACTGAAGTGTATGATACAAAGAGAAGTTATTTTTTAATTAATGGTTCAACAGTCGGGAACTTAGCAATGATTTTGTCTTGTTGCAGGGAACATGATATTGTTCTTGTACAAAGAAATTGTCATAAATCAATTATTAATGGTTTAAAACTAGCGGGAGCAAATCCCATTTTTTTAGATCCATGGATTGATGAAGCTTATAACGTACCAGTGGGAGTTCGTAATGAAATTATTAAGAAAGCAATTGGAAAATATCCAAATGCGAAAGCACTCATTTTAACGCATCCTAATTATTATGGTATGGGGATGGATTTAGAGGCAAGCATCGCTTTTGCACATGCACATAAAATCCCTGTTTTGGTAGATGAGGCACATGGGGCACATCTTTGTTTGGGAGAACCATTCCCAAAATCAGCGTTAACATATGGTGCAGATATTGTAGTTCATTCTGCACATAAAACATTACCCGCAATGACAATGGGTTCCTATTTACATATAAATAGTCACTTAGTAGACGAAGAGAAGGTTACTACTTATTTAAGTATGCTACAATCTAGTAGTCCATCGTATCCAATTATGGCTTCCTTGGATATAGCACGCTTTACAATGGCGCGTATAAAAGAAGAAGGACATGGTGAAATTGTTGAGTTTTTACGGAGATTTAAGGAACAGTTACGTTCTATTCCACAAATCGCCATTTTAGAATATCCGTTGCAAGACGAGCTAAAGGTTACCGTACAAACTCGTTGTCAGTTATCAGGGTACGAATTACAGTCCGTATTTGAAAATGTCGGTATATATACAGAGATGGCTGATCCGTACAATGTCCTATTTATTTTACCCCTGCAAGTAAATGAGGAGTATATGAAGGTTATAGAGATGATCCGAGTAGCATTGCAACATTATGACGTGAAAGACAAGAGGGAATCTATTCGTTATACTTATAAAGGTGAATTCTCTCCTTTGCCGTATACGTATAAACAACTAGAAGGATATGGAACAAAGATAGTATCTATAGAAGAGGCTGTTGGAATGATAGCGGCGGAAATGGTAATTCCGTATCCACCTGGAATTCCATTGGTTATGTATGGAGAGAGAATTACTTCAGAGCATAAAGAGCAAATTATGTATTTAGAGAGAGCAGGAGCTCGTTTTCAAGGTAATACGAAATATATGAAAGTGTATGATATAGAAAGTAGGTTTTAG	MNQNHMPLYEALIEFKERGSLSFHVPGHKNGLNFPQKAIREFKDILSIDVTELAGLDDLHSPFECIDEAQQLLTEVYDTKRSYFLINGSTVGNLAMILSCCREHDIVLVQRNCHKSIINGLKLAGANPIFLDPWIDEAYNVPVGVRNEIIKKAIGKYPNAKALILTHPNYYGMGMDLEASIAFAHAHKIPVLVDEAHGAHLCLGEPFPKSALTYGADIVVHSAHKTLPAMTMGSYLHINSHLVDEEKVTTYLSMLQSSSPSYPIMASLDIARFTMARIKEEGHGEIVEFLRRFKEQLRSIPQIAILEYPLQDELKVTVQTRCQLSGYELQSVFENVGIYTEMADPYNVLFILPLQVNEEYMKVIEMIRVALQHYDVKDKRESIRYTYKGEFSPLPYTYKQLEGYGTKIVSIEEAVGMIAAEMVIPYPPGIPLVMYGERITSEHKEQIMYLERAGARFQGNTKYMKVYDIESRF	PGPT0007770_2218	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
AK009_07999	627	tmk_3	COG0125	Thymidylate kinase	ATGAAGGGATTATTTGTAACAATTGAGGGTCCAGAAGGTTCAGGTAAAACAACGTTAATTAAAAGCTTATTACCATATTTTGAACAAAAAGCACAAAAGGTAATGGCGACAAGGGAACCAGGTGGTATTGCAATTTCTGAGGACATTAGGACGATTTTACATAAACAAGAATATACGATGATGGAAGCACGTACAGAAGCGCTTCTTTATGCTGCTGCGCGCAGACAGCATTTAGTAGAAAAAGTTATGCCAGCACTTAATGAGAACTATCTCGTGCTATGTGATCGTTTTATAGATAGTTCTTTAGCATATCAAGGCTATGCAAGAGGGTTGGGTATGGATAAGGTATTTGAAATAAATCGTTTCGCAACAGAGGACTGTATGCCTAGTTTAACAATTTATCTAGACATTGAGCCTGAGGTTGGTTTGGCTCGAATTGAAAAAGATGCAGGACGTGAAGTAAATCGACTAGATATGGAAGATATCTCTTTCCATAAACGTGTGCGCGAAGGGTATTTACAAGTTGTAGAACGTTTCTCGGATCGTATTGTATTGGTAAATGCTGATCAGCCGATGGAAAAACTTATAGAAGAAGTTGTTCAGATTATAGAAGATAAATTGTTATAA	MKGLFVTIEGPEGSGKTTLIKSLLPYFEQKAQKVMATREPGGIAISEDIRTILHKQEYTMMEARTEALLYAAARRQHLVEKVMPALNENYLVLCDRFIDSSLAYQGYARGLGMDKVFEINRFATEDCMPSLTIYLDIEPEVGLARIEKDAGREVNRLDMEDISFHKRVREGYLQVVERFSDRIVLVNADQPMEKLIEEVVQIIEDKLL	PGPT0021395_4270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK009_08000	984			hypothetical protein	ATGATGAAGACGTGGGAGCAGCTTTCTGCTATACAACCCATCGGTGTAAAAATGTTGATGAATAGCATTGCAAAAGAGCGTATATCCCACGCTTACTTGTTAGAGGGAGGGAAAGGTACGGGAAAGTTTGCGACAGCAATTCAAATGGCAAAGAGTTTCCTCTGTTCTCAGCGGAATGGAGTAGAGCCCTGCCATGTATGCACAAATTGTAAGCGAATTGATTCAGGTAACCACCCTAACTTACATATTGTAAAACCAGACGGATTATCTATTAAGAAGCAGCAAATTCATGATTTACAAGAAGAGTTTTCAAAAACAGGATTAGAGGCAAATAAAAAATTATATATTATTGAGCACGCAGATCGTATGACAGCAAATGCGGCAAATACACTTTTGAAATTTTTAGAAGAACCAAGTAGTGATACAACCGCTATTTTACTTACTGAACAAAGTCATCAAATTTTAAATACGATTTTATCTCGCTGCCAAGTTGTTACGTTTAGACCGTTACCTACGGAATCTTTAATTAGAAGATTACAGGAAGAAGGTATTACAGCATCTTTATCGACACTTGCTGCTCAACTCACAAATAGTTTTGATGAAGCTTTAGCTTTATGTAGTGATGAATGGTTTGCACAAGCACGAGCTTTAGTGATAAAATTATGTGAAGCGCTCGAAAAAGATAAAACCTCTATTTTTTTTGTACAAGAAAAATGGGGAAAACACTTTGGAGAGAAAGAACAATTACAACAAGGTTTAGATATGTTACTCCTTATTTATAAGGATTTACTATATGTTCAACTTGGAGAAGAAGATCGTCTTGTTTTTCATGAGCAGAAAGAGATGTTTGAATCGTTTTCCTATGCTCAGAAGCGCATTGTATCAGCTCTCTTTAATATATTAGAGGCAAAAAATAGAATCAACGCTAATGTAAATGCGCAGCTTGTGTTCGAACAGTTAGTGTTGCGGTTGCAGGAGGGATGA	MMKTWEQLSAIQPIGVKMLMNSIAKERISHAYLLEGGKGTGKFATAIQMAKSFLCSQRNGVEPCHVCTNCKRIDSGNHPNLHIVKPDGLSIKKQQIHDLQEEFSKTGLEANKKLYIIEHADRMTANAANTLLKFLEEPSSDTTAILLTEQSHQILNTILSRCQVVTFRPLPTESLIRRLQEEGITASLSTLAAQLTNSFDEALALCSDEWFAQARALVIKLCEALEKDKTSIFFVQEKWGKHFGEKEQLQQGLDMLLLIYKDLLYVQLGEEDRLVFHEQKEMFESFSYAQKRIVSALFNILEAKNRINANVNAQLVFEQLVLRLQEG				NA	NA	NA	NA	NA
AK009_08001	828			hypothetical protein	TTGTATGATGTAGTAGGTGTTCGCTTTAAGAAGGCCGGAAAGGTATATTACTTTGATCCAAATCAGTTCGATATCTCTGAAAATGAGTTTGTCATTGTAGAAACGGTAAGAGGTATTGAATACGGAAAAGTAGTTATTACCAAAAAGCAAGTTGATGAAAACGACGTTGTATTACCGCTAAAAAAGGTTATTCGTATTGCAAATGAAAATGATCGTACCATTGTTGAAGAGAACAAACATGCTGCAAAAGAAGCATATCAAGTCTGTCAACAAAAGGTAGTAGAGCATAATCTTGATATGAAACTTGTAGATGTAGAGTATACATTCGATCGTAATAAGATTATTTTCTATTTTACTGCGGATGGTCGGATCGATTTCCGCGAACTAGTGAAGGACTTAGCGGCAATTTTTAGAACAAGAATTGAACTAAGACAAATTGGTGTTCGTGATGAAGCGAAGATGCTAGGTGGTATTGGTCCATGTGGTCGTATGCTTTGTTGTTCTACTTTTTTAGGAGATTTTGAACCTGTATCCATCAAAATGGCAAAGGATCAAAATTTATCATTAAATCCTGCAAAAATCTCTGGTTTATGTGGTCGCTTAATGTGTTGCTTAAAATATGAGAATGATGAATATGAGGCAGCAAAGGAACAACTTCCTGATTTAGATCAACGTATACAAACCCCGCATGGTACTGGCCGTGTTATCGGATTAAATATTTTAGAAAGATTAATTCAAGTGGAACTAGTAGACAAGGAACGGATAGTAGAATATACGTTAGATGAGTTAGTGAATAAAGGGGTCGTTTCGAGTCAAACCACAGATTAA	MYDVVGVRFKKAGKVYYFDPNQFDISENEFVIVETVRGIEYGKVVITKKQVDENDVVLPLKKVIRIANENDRTIVEENKHAAKEAYQVCQQKVVEHNLDMKLVDVEYTFDRNKIIFYFTADGRIDFRELVKDLAAIFRTRIELRQIGVRDEAKMLGGIGPCGRMLCCSTFLGDFEPVSIKMAKDQNLSLNPAKISGLCGRLMCCLKYENDEYEAAKEQLPDLDQRIQTPHGTGRVIGLNILERLIQVELVDKERIVEYTLDELVNKGVVSSQTTD				NA	NA	NA	NA	NA
AK009_08002	351	yabA	COG4467	Initiation-control protein YabA	GTGGAGAAAAAAGATATTTTTGAATCGGTTTCTAGTATGGAAGAGCAAATTGGACATTTATACAAACAGTTGGGAGAGTTAAAACAGCATCTTGCAGAGTTGTTGGAAGAAAACCAGCATATAAAAATGGAAAATAACAATTTGCGACGCCGTTTTGAAGAAGTGCAGAATAAAGAAAAACAAAAACCTCAAAAACGTAAAGAAGTGAAGCCGAAAACAGATATTGGTGAGGGCTATGACAATTTAGCGAGACTGTATCAAGAAGGTTTTCATATTTGCAATCTACATTATGGAAGTGTACGTAAAGAGGGAGATTGTTTGTTCTGTCTGTCATTCTTAAATAAAAAGTGA	MEKKDIFESVSSMEEQIGHLYKQLGELKQHLAELLEENQHIKMENNNLRRRFEEVQNKEKQKPQKRKEVKPKTDIGEGYDNLARLYQEGFHICNLHYGSVRKEGDCLFCLSFLNKK				NA	NA	NA	NA	NA
AK009_08003	741	yfiC		tRNA1(Val) (adenine(37)-N6)-methyltransferase	ATGAATTTATATGAAGATGAACGTTTAGATTACTTATTAGCGCAAGACATGAAGATTATACAAAGCCCATCAGTATTTAATTTTTCTTTAGATGCGGTTTTACTTGCGGATTTCGCATGGGTACCAATTCAAAAGGGGAATTTACTTGATTTGTGTACAGGTAACGCGGTTGTCCCCCTTTTATTAAGTACAAGAACAAAAGGAAAGATTACTGGTGTGGAAATTCAAGAACGCTTATATGATATGGGAGTAAGAAGTGTTCAATATAATGGGCTGAAAGAAAGAATTCACCTCATACATGGAGATTTGAAAGATATGCCAGAGAAACTCGGGCGTCACCAATATGATGTTGTTACATGTAATCCACCATATTTTCAAACACCTCAAACTTCAGAGAAAAATATGAATGAACATTTAGCGATAGCTCGTCATGAAATTATGTGTACATTAGAAGATGTTGTATCTGCAAGTAGTCAGTTAGTAAAACAAGGCGGGAAAGTAGCATTTGTACATCGTCCAGGACGATTACTCGACATCGTCACATTAATGCGTAAATATAAAATTGAACCAAAGCGTGTGCGATTTGTTTATCCTAAGGTTGGAAAAGAAGCAAATACATTGTTAATTGAAGGAATTAAGGATGGGAATGCAGATTTGAAAATTTTACCACCCCTCGTTGTATACGAGAACAATAACGAATATACAAAGGAGATACGTTCAATTTTATATGGAGAAGAATAA	MNLYEDERLDYLLAQDMKIIQSPSVFNFSLDAVLLADFAWVPIQKGNLLDLCTGNAVVPLLLSTRTKGKITGVEIQERLYDMGVRSVQYNGLKERIHLIHGDLKDMPEKLGRHQYDVVTCNPPYFQTPQTSEKNMNEHLAIARHEIMCTLEDVVSASSQLVKQGGKVAFVHRPGRLLDIVTLMRKYKIEPKRVRFVYPKVGKEANTLLIEGIKDGNADLKILPPLVVYENNNEYTKEIRSILYGEE				NA	NA	NA	NA	NA
AK009_08004	291			hypothetical protein	ATGGAGAAGAATAAGCATTTTTTTTATGTGGTAGAGTGCTCTGATGGAAGTTATTATGCTGGATATACAAACCATATCGAAAAACGAATTCAGACTCATAATAGCGGCAAAGGAGCTAGGTATACACGCGTCAGGCGTCCTGTCGTTTTAAAGTATGTAGAGACCCACGATGATAAGCGTACAGCTATGCAAGCGGAGTATTATTTTAAGCAATTAACGAGAAAACAAAAAGAGGCATATATGCAAAAAGGAGAACGCTATGTGGCAACAAAAAAGCTTTCAACAAAATGA	MEKNKHFFYVVECSDGSYYAGYTNHIEKRIQTHNSGKGARYTRVRRPVVLKYVETHDDKRTAMQAEYYFKQLTRKQKEAYMQKGERYVATKKLSTK				NA	NA	NA	NA	NA
AK009_08005	876	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	ATGTGGCAACAAAAAAGCTTTCAACAAAATGAAAAGGGAGTTTTATATTTAGTACCAACTCCTATTGGAAATCTAGAAGATATGACATTTCGTGCAATCCGAATTTTAAAAGAAGTTGATTTAATTGCTGCTGAAGATACGAGACAAACGAAAAAACTTTGTAATTATTTTGAAATTGAAACACCTGTCACGAGTTATCATGAGCACAATAAAGAAGTAAGTGGGAAGAAAATATTAGAGAAATTAGAGGATGGAAAGAATGTAGCACTTGTTAGTGACGCTGGTATGCCGTGTATTTCTGATCCAGGTTACGATATTGTTGTTGAGGCAGTAGCTGAGCAATATCATGTAATTCCGCTTCCTGGAGCAAATGCAGCCCTTACAGCATTAATTGCATCTGGTCTTGAAACAAAGCAGTTTTATTTCTATGGTTTCTTGCAGAGAAATAAAAAGGAACGAAAGATGGAGTTAGAAAAGCTTCGTTATGTACAAACTACAATGATGTTTTATGAAGCGCCTCATCGTTTAGATGATACTTTAATTTCGATGCAGGAAGTGTTGGGAAATAGAGAGATTGTATTATGTCGGGAGTTAACGAAAAAATTTGAGGAATTTATTCGAGGAACAGTCGAAGAAGCAATTGAGTGGACGAAGCAAAATGAGGTACGTGGTGAGTTTTGTATTTTAGTAGCTGGTTCGACAGAAGAACCTGCTCCAGAAGAACAATGGTGGGAATCTCTTTCAGTATATGATCATATTGAACACTATATAAATGAAAAAGGTATGAATTCAAAAGAAGCGATTAAAACAGTCGCTAAAGATCGAGATTTGTCGAAAAGAGATGTATATCAAATCTATCATGTCGATAAAAAATAA	MWQQKSFQQNEKGVLYLVPTPIGNLEDMTFRAIRILKEVDLIAAEDTRQTKKLCNYFEIETPVTSYHEHNKEVSGKKILEKLEDGKNVALVSDAGMPCISDPGYDIVVEAVAEQYHVIPLPGANAALTALIASGLETKQFYFYGFLQRNKKERKMELEKLRYVQTTMMFYEAPHRLDDTLISMQEVLGNREIVLCRELTKKFEEFIRGTVEEAIEWTKQNEVRGEFCILVAGSTEEPAPEEQWWESLSVYDHIEHYINEKGMNSKEAIKTVAKDRDLSKRDVYQIYHVDKK				NA	NA	NA	NA	NA
AK009_08006	285	abrB_3	COG2002	Transition state regulatory protein AbrB	ATGAAATCTACTGGTATTGTTCGTAAAGTTGATGAATTAGGTCGTGTAGTAATTCCAATCGAATTACGCCGTACTTTAGGTATTGCAGAAAAGGATGCTCTTGAAATCTATGTTGATGACGAGAAAATCATCTTAAAAAAATATAAACCAAACATGACTTGCCAAGTAACTGGTGAAGTATCTGACGGTAACCTTTCTTTAGCTGAAGGTAAAATCATCTTAAGCAAAGAAGGCGCTGAGCAAATCTTAAACGAACTTCAAGATTATATCGAAACAGCAAAATAA	MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQVTGEVSDGNLSLAEGKIILSKEGAEQILNELQDYIETAK	PGPT0014790_121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_08007	1983	metG_2		Methionine--tRNA ligase	ATGACAGAGGAAAATAAGTCCTTTTATATTACTACCCCAATTTATTATCCAAGTGGAAAATTACACATTGGACATGCTTATACGACAGTAGCAGGAGATGCAATGGCACGATATAAGCGTATGCAAGGATACAATGTTCATTATTTAACAGGAACTGATGAGCATGGACAGAAAATCCAAAAAAAAGCAGAAGAATTAAATATTACACCACAAGCATATGTGGATAATATTGTTGCAGGAATTAAAGAACTTTGGGAGAAGATGGATATCTCTTATGATGATTTTATTCGTACAACTGAAGATCGTCATAAAGATGTTGTTGAAAAAATCTTTAAGCAACTAGTAGATCAAGGTGATATTTATCTTGATGAATATGAAGGTTGGTATTCTGTACAAGATGAGACATTCTATACGGAGCATCAATTAGTAGATCCAATTATGGAAGGTGACAAAGTAGTTGGAGGAAAAAGTCCAGATAGTGGTCATGATGTAGAACTTGTTCGTGAAGAATCATATTTCTTTAGAATGGGTAAATATGTCGACAGACTATTAAAATTCTATGAAGATAATCCACATTTCATTCAGCCAGAGTCTCGTAAGAATGAAATGATTAATAACTTCATTAAACCAGGCTTAGAAGATTTAGCAGTTTCTCGTACTTCATTTGACTGGGGAGTTCGTGTTCCAGGTAATCCGAAACACGTTATTTACGTATGGGTTGACGCATTATCTAACTACATTACAGCATTAGGTTATGGAACAGAAAATGAAGAGATGTATAAGAAATTCTGGCCGGCAGATGTGCATTTAGTTGGAAAAGAAATCGTTCGTTTCCATACAATTTATTGGCCAATCATTTTAATGGCATTAGATTTACCTCTTCCGAAAAAAGTCTTTGCTCATGGCTGGATTTTAATGAAGGATGGAAAGATGAGTAAGTCAAAAGGAAACGTAGTAGATCCAGTTACATTGATCGATCGTTACGGATTAGATGCATTACGTTATTACTTACTTCGTGAAGTTCCATTCGGATCTGACGGTGTATTCACACCAGAAGGATTTGTGGAGCGTATTAATTTCGATCTAGCAAATGACTTAGGTAACTTATTAAATCGTACAGTAGCTATGATTGATAAGTACTTTAACGGAGAAATCCCTGCATTTAAAGCGAATGTAACGGAATTTGATGAAACGTTAGTAACGTTTGCAAAAGATACATTGAAAAAAGTAGAAGAGGCAATGGAGAATATGGAGTTCTCTGTAGCGTTAGGATCTATTTGGCAATTGGTTAGTCGTACGAACAAATATATTGATGAAACACAACCATGGGTATTAGCGAAAGATGAGAATGATCGTGAAAAGTTAGCTTCTGTAATGGCTCATTTAGCAGAAGTACTTCGTCAAACAGGTATTATGCTTATGCCATTCTTAACAGTAGCACCAAGCAAGATGTTCGCTCAGCTTGGCCTTACTGATGAGGCTCATAAATCTTGGGAAAGTCTATCTACAATTGGCTGTATTCCAGCTGGAACAAAAGTAGAAAAAGGAAACCCAATTTTCCCTCGCTTAGAAATGGAAGTGGAAGTAGAGTACATTAAGGAACAAATGAAAAGCTCTGCTCCTAAAGTAGAAGAGAAAAAAGAAGAAGAACCGAAGGCAGAAGAAATTACAATTGATGATTTCTTTAAAGTAGAATTACGCGTAGCTGAAGTACTATCTGCTGAACCTGTGAAAAAAGCAGACAAGTTGTTAAAAATTCAACTAGACTTAGGCACAGAAAAGCGTCAAGTTGTTTCTGGAATTGCGAAATTCTATTCGCCAGAGGACCTAAAAGGTAAAAAGGTTATTTGTGTAACAAACTTAAAACCTGTAAAATTACGCGGTGAATTATCGCAAGGTATGATTTTAGCGGGTGAAGAGAATGGCGTATTGTCATTAGCATCAATTGATCAAAATCTACCAAATGGTACAAAAATCAAGTAA	MTEENKSFYITTPIYYPSGKLHIGHAYTTVAGDAMARYKRMQGYNVHYLTGTDEHGQKIQKKAEELNITPQAYVDNIVAGIKELWEKMDISYDDFIRTTEDRHKDVVEKIFKQLVDQGDIYLDEYEGWYSVQDETFYTEHQLVDPIMEGDKVVGGKSPDSGHDVELVREESYFFRMGKYVDRLLKFYEDNPHFIQPESRKNEMINNFIKPGLEDLAVSRTSFDWGVRVPGNPKHVIYVWVDALSNYITALGYGTENEEMYKKFWPADVHLVGKEIVRFHTIYWPIILMALDLPLPKKVFAHGWILMKDGKMSKSKGNVVDPVTLIDRYGLDALRYYLLREVPFGSDGVFTPEGFVERINFDLANDLGNLLNRTVAMIDKYFNGEIPAFKANVTEFDETLVTFAKDTLKKVEEAMENMEFSVALGSIWQLVSRTNKYIDETQPWVLAKDENDREKLASVMAHLAEVLRQTGIMLMPFLTVAPSKMFAQLGLTDEAHKSWESLSTIGCIPAGTKVEKGNPIFPRLEMEVEVEYIKEQMKSSAPKVEEKKEEEPKAEEITIDDFFKVELRVAEVLSAEPVKKADKLLKIQLDLGTEKRQVVSGIAKFYSPEDLKGKKVICVTNLKPVKLRGELSQGMILAGEENGVLSLASIDQNLPNGTKIK				NA	NA	NA	NA	NA
AK009_08008	768	dtd3		D-aminoacyl-tRNA deacylase	ATGTTGTTTGATACACATTCACATTTGAATGCAGAGCAATTCGAAGAAGATTTGCAAGAAGTTATTGCCCGAATGAAAGAAGCGGGAGTTACTTATACAGTTGTTGTTGGTTTTGATGAAGTAACGATAAAAAAGGCGATGGAATTAGCTGAAGCCTATGATTTTATTTACGCTGCGGTTGGATGGCATCCAGTTGATGCAATTGACATGACAGAAGAACATTTAGCTTGGTTAGAAGAACTTGCTTCTCATCCTAAAGTCGTTGCACTTGGAGAAATGGGTTTAGATTATCACTGGGATAAGTCTCCAAAAGAAATACAGAAAGAAGTATTCCGTAAACAAATTACATTAGCTAAAAAAGTGAAATTGCCGATTATTATACATAACCGCGATGCAACTCAAGATATTGTTGATATTCTAGAAGAAGAGAATGCAGCTGAAGTAGGAGGCATTATGCATTGCTTTAGCGGCAGCGTAGAAGTAGCAGAGCGATGTGTTGATATGAACTTTTTAATTTCGTTAGGCGGACCAGTTACATTTAAAAATGCTAAGAAGCCGAAAGAGGTTGCTACGGAGATTCCATTAGAGAAATTGTTAATAGAGACGGATTGTCCGTATCTAACGCCGCATCCATTTCGAGGGAAACGAAATGAACCGAGTTATGTAAAACTCGTAGCAGAAGAAATTGCGAATTTAAAAGGAATTTCTTATGAGGAAGTAGCAGAAATGACAACCAAAAATGCAAAATTTTTATTTGGTGTTGAATAA	MLFDTHSHLNAEQFEEDLQEVIARMKEAGVTYTVVVGFDEVTIKKAMELAEAYDFIYAAVGWHPVDAIDMTEEHLAWLEELASHPKVVALGEMGLDYHWDKSPKEIQKEVFRKQITLAKKVKLPIIIHNRDATQDIVDILEEENAAEVGGIMHCFSGSVEVAERCVDMNFLISLGGPVTFKNAKKPKEVATEIPLEKLLIETDCPYLTPHPFRGKRNEPSYVKLVAEEIANLKGISYEEVAEMTTKNAKFLFGVE				NA	NA	NA	NA	NA
AK009_08009	558	rnmV_2	COG1658	Ribonuclease M5	ATGAAAATAAAAGAGATTATCGTTGTAGAAGGTAAAGATGATACAGTTGCGATTAAGCGTGCTGTTGATGCGGATACAATTGAAACGAACGGTTCAGCAATCGGTGATCATGTTATTGAGCAAGTTAAATTAGCGCAACAAAAAAGGGGCGTTATTATTTTCACGGATCCGGATTATCCTGGAGAGCGTATTCGAAAAATTATTTCTGACAAGGTTCCCGGCTGTAAGCATGCCTTTTTACCGAAGGAAGAAGCGCTTGCTAAAAGGAAAAAGGGAGTTGGGATCGAACATGCTTCTAATGAGTCGATCCGCCGTGCTCTAGAGAATATACATGAAGAAATGGAAGTTTATACAAGTGAAATTAGTTGGAGTGATTTAGTCGATGCAGGCTTAGTGGGCGGAGAAATGGCAAAGAGCCGCAGAGAAAAAATGGGTAAGCTATTAAAGATTGGTTATACAAATGCAAAACAGTTACATAAACGATTACAGATGTTTCAAGTTTCAAAGGAATCATTTGGAGAAGCTTATAAGCAAGTAATACAGGAGGAAAAAAAATGA	MKIKEIIVVEGKDDTVAIKRAVDADTIETNGSAIGDHVIEQVKLAQQKRGVIIFTDPDYPGERIRKIISDKVPGCKHAFLPKEEALAKRKKGVGIEHASNESIRRALENIHEEMEVYTSEISWSDLVDAGLVGGEMAKSRREKMGKLLKIGYTNAKQLHKRLQMFQVSKESFGEAYKQVIQEEKK				NA	NA	NA	NA	NA
AK009_08010	879	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGAAGGATATCGCAACGCCAAATCGTACAAAAGACATTGTTGAAAAGTATGGATTTTCATTCAAAAAAAGTTTAGGACAAAACTTTTTAATTGATACAAATGTATTAAATCGTATTGTCGATCATGCTGAAATTGGTTCAGAAAGTGGTGCAATTGAAATTGGACCAGGTATCGGTGCATTAACAGAGCAATTAGCGAAGCGTGCTAAAAAAGTAGTGGCTTTTGAAATTGATCAAAGACTATTACCAATTTTAGATGAGACGTTAGCACCATATGGTAACGTTACAGTTATTAATAAAGACGTACTAAAAGCGGATGTACATGAAGTATTTAATGAGCAATTTGAAGAAGGGCAAGATGTAATGGTAGTAGCTAACTTGCCATACTATATTACAACGCCAATTTTATTTAAATTGCTTGAAGAAAAGTTACCAGTTCGTGGATTTGTTGTTATGATGCAAAAAGAAGTTGGAGATCGTTTAGCTGCTAAACCTGGAACGAAAGAGTATGGTTCTTTATCGATTGCCATTCAGTATTATACAGAAGTTGAAACAGTTATGACTGTACCGCGTACAGTGTTTGTACCACAGCCAAATGTTGATTCTGCAATTATTCGCCTTCTAAAGCGTCCGAAACCGGTTGTAGAGGTGACAGATGAAACATTCTTCTTTGAAGTAGTACGAGCAAGTTTCGCACAGCGCCGTAAAACTTTAATGAATAATTTATCAAATAATTTAAATGGTTTCCCGAAAGATAAGGAATTATTGGATCGAATTTTAACAGAAGTAGGAATTGATCCAAAGCGAAGAGGCGAAACGCTATCTATTGAAGAGTTTGCAACATTAAGTAATGCATTGGTTCTTCATAAATTATCATAA	MKDIATPNRTKDIVEKYGFSFKKSLGQNFLIDTNVLNRIVDHAEIGSESGAIEIGPGIGALTEQLAKRAKKVVAFEIDQRLLPILDETLAPYGNVTVINKDVLKADVHEVFNEQFEEGQDVMVVANLPYYITTPILFKLLEEKLPVRGFVVMMQKEVGDRLAAKPGTKEYGSLSIAIQYYTEVETVMTVPRTVFVPQPNVDSAIIRLLKRPKPVVEVTDETFFFEVVRASFAQRRKTLMNNLSNNLNGFPKDKELLDRILTEVGIDPKRRGETLSIEEFATLSNALVLHKLS				NA	NA	NA	NA	NA
AK009_08011	864	yabG		Sporulation-specific protease YabG	ATGGCTTTACATGTTGGAGAATTAGTGGAACGATATTCTCATAAGAGGGATATTCTTTTTCGTATTATAGAAATAAAAGGCGAGATAGCTATATTGTTTGGAGAGGAAATTAGACTGGTGGCGGATGCGCCACTTGAAGATTTAATTAGTATAGATCAACGAGAACATAAAAAAAGGGTGAAGCGTGAGAAAGAAACAATGGAGCGCACGTATCGTTTGTTTCAACAAGATTATGTGTTAATGAAACAAAGGCATGAACATACTTCAACTGGTGGATACACAAGTGAGGTGAATTATTTTCAAATGCCGGGACGTGTATTGCATATAGATGGAGACCCTTTATATTTGCGCAAGTGCTTAGACTTATATAACAAAATTGGCGTTCCTGTACAAGGTATTCATTGTAAAGAAACGGAGATGCATGAAAAAGTAGTAGACTTAATAGATCACTTTCGCCCAGACATTCTCGTTATTACGGGGCATGATGCATATACAAAATCGAAAGGAGTGAAGGGAGATTTAGCGGCATATAGGCATTCAAGGCATTTTGTACAGGCTGTTCGAGAAGTGCGAAAAAAATATCCATCATTGGATCAACTTGTTATTTTTGCTGGGGCATGTCAATCGCACTTTGAGGCACTAATTCGTGCAGGGGCCAATTTCGCTAGTTCACCATCTAGAATTAATATTCATGCACTAGATCCCGTATATGTAGTTGGTAAAATTAGTTTTACTTCATTTATGGAGAGAGTCAATGTATGGGATGTCGTACGTAATACAATTACTGGTGAAAAGGGACTAGGTGGAATTGAAACGAGAGGGATTTTACGAACGGGATTACCTTTTCAACATTACGAAGAGTAA	MALHVGELVERYSHKRDILFRIIEIKGEIAILFGEEIRLVADAPLEDLISIDQREHKKRVKREKETMERTYRLFQQDYVLMKQRHEHTSTGGYTSEVNYFQMPGRVLHIDGDPLYLRKCLDLYNKIGVPVQGIHCKETEMHEKVVDLIDHFRPDILVITGHDAYTKSKGVKGDLAAYRHSRHFVQAVREVRKKYPSLDQLVIFAGACQSHFEALIRAGANFASSPSRINIHALDPVYVVGKISFTSFMERVNVWDVVRNTITGEKGLGGIETRGILRTGLPFQHYEE	PGPT0025240_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025240-yabG-K06436	NA	NA
AK009_08012	261	veg	COG4466	Protein Veg	ATGTCAAAACGTTTAGATGAAATTAAAAGCGAATTAGATCACCATCTTGGACAGCGACTTATGTTAAAAGCAAATAGTGGAAGAAGAAAAACTGTGGAGCAATCAGGTGTACTAGCAGAAACATACCGTTCTGTTTTTGTTGTACAATTGGATCAACAAGAAGATGCGTTGCAACGTGTATCTTATAGTTATGCAGATGTTTTAACAGAGACAGTAGAGTTAACATTTTATGGAGACCCTCATAATGAGGTCATTTTATAA	MSKRLDEIKSELDHHLGQRLMLKANSGRRKTVEQSGVLAETYRSVFVVQLDQQEDALQRVSYSYADVLTETVELTFYGDPHNEVIL				NA	NA	NA	NA	NA
AK009_08013	159			hypothetical protein	ATGTCAAACCAATTTAAAGAAGAGCTAGCAAAAGAGCTTGGCTTTTATGATGTTGTTCAGAAAGAAGGATGGGGCGGAATTCGTGCGAAAGATGCTGGTAACATGGTGAAACGTGCTATAGAAATTGCAGAACAGCAATTAATGAAACGAAACCAGTAG	MSNQFKEELAKELGFYDVVQKEGWGGIRAKDAGNMVKRAIEIAEQQLMKRNQ	PGPT0024885_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024885-sspF-K06423	NA	NA
AK009_08014	879	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	GTGAATAGATTGAAGCTACTAGTGAAAGCACCAGCAAAGATTAATCTGTCGTTAGATGTACTGGGAAAAAGACAAGACGGATATCATGAAGTGAAAATGATTATGACAACCATTGATTTAGCAGATCGTCTAGAACTAACGGAATTAGCAGAAGACCGTATTGAAATTTTATCCCATAATCGGTATGTCCCAGACGACCAACGAAATTTAGCTTATCAGGCAGCGAAATTATTAAAAGAGAAGTTTAATGTAAAAAAAGGTGTATCTATTACTATTGAAAAAACGATTCCAGTAGCAGCTGGATTAGCAGGTGGAAGTAGTGATGCAGCAGCGACATTACGTGGTCTTAATAAATTATGGAATTTAGGGCTTACAATTGATGAGTTAGCAGAGCTTGGCGCAGAAATTGGATCAGATGTATCGTTCTGTGTATACGGCGGCACAGCAATTGCCACTGGAAGAGGAGAGAAAATTGAGCATATAAAGACTCCGCCTTCTTGTTGGGTTATTTTAGCGAAACCACATATAGGTGTATCTACTGCTGATGTGTATGGAAATTTAAAGTTAAATCGAGTTACACATCCAAATGTAGATAAAATGGTTGATGTCATAAATTCTGGAGATTATAAAGGGATTTGTGATACTGTTGGTAACGTTTTAGAAGATGTAACATTTGGAATGCATCCTGAAGTTGCACGTATTAAATCACAGATGAAGCGATTCGGAGCGGATGCTGTATTGATGAGTGGAAGTGGTCCAACTGTATTTGGACTTGTACACCATGATTCTCGAATGCATCGCATTTATAACGGGTTAAAAGGATTTTGTGAACAGGTCTATGCGGTACGTTTATTAGGAGAGCGAGAAACGCTTGAATAA	MNRLKLLVKAPAKINLSLDVLGKRQDGYHEVKMIMTTIDLADRLELTELAEDRIEILSHNRYVPDDQRNLAYQAAKLLKEKFNVKKGVSITIEKTIPVAAGLAGGSSDAAATLRGLNKLWNLGLTIDELAELGAEIGSDVSFCVYGGTAIATGRGEKIEHIKTPPSCWVILAKPHIGVSTADVYGNLKLNRVTHPNVDKMVDVINSGDYKGICDTVGNVLEDVTFGMHPEVARIKSQMKRFGADAVLMSGSGPTVFGLVHHDSRMHRIYNGLKGFCEQVYAVRLLGERETLE	PGPT0007605_1922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
AK009_08015	849	purR	COG0503	Pur operon repressor	ATGAAAATTAGAAGAAGTACAAGATTAGTCGATATGACTTATTACTTGCTACAAAACCCTCGTCAGCTAGTATCTCTCACTTTTTTTGCTGAAAGGTATCAATCGGCTAAGTCTTCCATTAGTGAAGATTTAGTTATTATTAAGCAAACGTTTGAACAACAAGGGGTCGGCACATTGCAAACGATACCAGGAGCAGCAGGAGGAGTGAAATATATACCGTATATAAGTGAAGAAGAGGCAGATCTAATTATTGATGAGCTTTGTGGCTTATTTGAAAATCCAGATCGTATTTTGCCTGGCGGTTACTTATACATGACAGATTTATTGAGTAATCCTCGCCATATTAATGGCGCAGGTCGTTTGTTTGCTTCTGTTTTTGCTAGGCAATCAATTGATGCGGTTATGACGGTGGCAACGAAAGGGATTCCACTTGCTTATGCAGTGGCAAATTACTTAGATGTACCAGTTGTAATTGCAAGGAAAGATAATAAGGTAACAGAAGGTCCGACTGTTAGTATTAACTATGTGTCGGGTTCTTCTAAACGAATTCAAACAATGACATTAGCAAAACGCAGCCTTCCAGAAGGATCGAATGTTTTAATTATTGATGACTTCATGAAAGCTGGTGGAACGATTCAAGGTATGATGAGTATGTTAGAAGAGTTCAAGGCTAATGTTGTTGGTATTGGTGTATTAGTAGAATCCACAGATATTGAAGAACGACTAATTAATAATTTTGTATCATTAATTCGTCTATCGGAAGTTGATGTGAAAGAAAAAACGATTCAAGTGGAAAAAGGGAATTATTCTCTTGCACCATTTGATGAAGGGCTTGTAGAGGCTGAATAA	MKIRRSTRLVDMTYYLLQNPRQLVSLTFFAERYQSAKSSISEDLVIIKQTFEQQGVGTLQTIPGAAGGVKYIPYISEEEADLIIDELCGLFENPDRILPGGYLYMTDLLSNPRHINGAGRLFASVFARQSIDAVMTVATKGIPLAYAVANYLDVPVVIARKDNKVTEGPTVSINYVSGSSKRIQTMTLAKRSLPEGSNVLIIDDFMKAGGTIQGMMSMLEEFKANVVGIGVLVESTDIEERLINNFVSLIRLSEVDVKEKTIQVEKGNYSLAPFDEGLVEAE				NA	NA	NA	NA	NA
AK009_08016	375	yabJ_2	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGAAAGTTGTTCAAACAAGCAAGGCACCACAAGCGATTGGACCTTACTCACAAGGGATTATTGTAAATAATATGTTTTATAGCTCAGGACAAATTCCATTAACGGAAAATGGGGAGCTTGTAACAGGAGATGTAACAGTACAAACAGAACAAGTATTTCAAAATTTACAAGCGGTATTAGAGGAAGCAGGTGCTTCATTTGATACAGTCGTAAAAACAACAGTATTTTTAAAGGACATGGATGATTTTAATGCAGTGAATGAAGTATATAGCTCTTATTTCTCTACTCATAAACCAGCTCGATCTTGTGTGCAAGTAGCAAAATTACCGAAAGATGTTTCCGTTGAAATTGAAGTAATCGCCCTAGTTAAGTAA	MKVVQTSKAPQAIGPYSQGIIVNNMFYSSGQIPLTENGELVTGDVTVQTEQVFQNLQAVLEEAGASFDTVVKTTVFLKDMDDFNAVNEVYSSYFSTHKPARSCVQVAKLPKDVSVEIEVIALVK	PGPT0020030_4335	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
AK009_08017	348	spoVG_2	COG2088	Putative septation protein SpoVG	TTGTGGAATTTATACAAATATATCGCTTATTTAGAAAAGGGTGGTGAACACAAGATGGAAGTGACTGACGTAAGATTACGCCGCGTAAACACAGAAGGCCGCATGAGAGCAATTGCCTCTATTACTTTGGACCATGAATTTGTTGTTCATGATATTCGTGTAATTGATGGTAATAATGGATTATTTGTAGCAATGCCAAGTAAACGTACTCCAGATGGAGAGTTCCGTGACATTGCACATCCGATTAATTCTGGTACACGCTCTAAAATTCAAGATGCGGTTTTAACAGAGTATCATCGTTTAGGCGAGTTAGAAGAGGTTGAGTTTGAAGAAGCAGGTGCTTCGTAA	MWNLYKYIAYLEKGGEHKMEVTDVRLRRVNTEGRMRAIASITLDHEFVVHDIRVIDGNNGLFVAMPSKRTPDGEFRDIAHPINSGTRSKIQDAVLTEYHRLGELEEVEFEEAGAS	PGPT0024830_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412	NA	NA
AK009_08018	1380	glmU		Bifunctional protein GlmU	ATGTCAAACAGATTTGCAGTGATTCTAGCTGCAGGTAAAGGCACACGTATGAAGTCTAAGCTATACAAAGTGCTGCATCCTGTATGTGGAAAACCCATGGTACAACACGTAGTCGATCAAGTATCTCAATTAGGATTGCAGAAACTTGTAACGGTTGTTGGACATGGTGCTGAAATGGTACAAGAACAGCTAGGAAACGTAAGTGAGTTTGCATTACAAGCAGAACAACTTGGTACAGCACATGCTGTAGATCAAGCTGCAAGTGTACTTGCAAATGAAGAAGGAACAACTTTAGTTATTTGTGGTGATACGCCGCTAATAACTGCTGAAACGATGGAAGCATTACTTCAGCAACATAAAGAAGCAGGAGCAATGGCGACGGTGCTAACAGCGTACATAGAAGAACCTGCTGGATATGGCCGTATTGTTCGTAATGAGAATGGTCATGTTGAAAAGATTGTTGAGCATAAAGATGCAAATGAGAAAGAATTAGCTATTAAAGAAATCAATACAGGTACGTATTGTTTTGATAATAAGGCTTTATTTGCTTCACTTTCTAAAGTTTCAAATGATAACGTACAAGGTGAATATTACCTTCCAGATGTTATTGAGATTTTAAAAAATGAAGGTCATATCGTATCAGCTTATCAAACAGAGCAGTTCGATGAAACGTTAGGTGTTAACGACAGAGTCGCTCTATCGCAAGCGGAAATTATTATGAAAAACCGTATCAACCGAAAGAACATGGTAAATGGTGTTACAATTATTGATCCAAGTAACACTTATATTTCTGCTGATGCAATTATCGGTAGTGATACAGTTCTTCATCCAGGAACAATTATTGAGGGGAACACTGTAATTGGTTCTGATTGTGAAATTGGACCGCATACAGTAATTCGTGATAGTGAAATTGGAGATCGTACGACAATTCGTCAATCTACTGTACATGATAGTAAACTTGGTACAGAAGTATCGGTTGGTCCATTTGCACATATTCGCCCAGATTCAGTTATTGGAGACGAAGTACGCGTTGGAAACTTCGTGGAAATCAAAAAAACTGTCTTTGGTAATAGAAGTAAAGCTTCACACTTGAGTTATATCGGGGATGCACAAGTTGGAGAAGACGTGAATCTTGGTTGTGGTTCAATTACGGTGAACTATGACGGTAAGAATAAATTCAAAACTGTGATTGGTAATGGGGTATTTATTGGATGTAATTCAAACCTTGTTGCTCCAGTAACAGTTGAAGATGGTGCTTATGTGGCAGCAGGCTCTACAATTACAGAGAATGTTCCATCAAAAGCATTATCGGTAGCACGTGCACGTCAAGTTAACAAAGAAGACTATGTTGATCAATTGCTGAATAAGAAAAAATCATAA	MSNRFAVILAAGKGTRMKSKLYKVLHPVCGKPMVQHVVDQVSQLGLQKLVTVVGHGAEMVQEQLGNVSEFALQAEQLGTAHAVDQAASVLANEEGTTLVICGDTPLITAETMEALLQQHKEAGAMATVLTAYIEEPAGYGRIVRNENGHVEKIVEHKDANEKELAIKEINTGTYCFDNKALFASLSKVSNDNVQGEYYLPDVIEILKNEGHIVSAYQTEQFDETLGVNDRVALSQAEIIMKNRINRKNMVNGVTIIDPSNTYISADAIIGSDTVLHPGTIIEGNTVIGSDCEIGPHTVIRDSEIGDRTTIRQSTVHDSKLGTEVSVGPFAHIRPDSVIGDEVRVGNFVEIKKTVFGNRSKASHLSYIGDAQVGEDVNLGCGSITVNYDGKNKFKTVIGNGVFIGCNSNLVAPVTVEDGAYVAAGSTITENVPSKALSVARARQVNKEDYVDQLLNKKKS	PGPT0018955_1404	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
AK009_08019	954	prs_2	COG0462	Ribose-phosphate pyrophosphokinase	ATGTCGACTCAATATCTAAATTCTAATTTGAAAGTATTCTCTTTAAACTCTAATAAGGAACTTGCTGAGCAGATTGCAAAGCATATTGGAGTAGGACTAGGAAAATGTTCTGTTGATCGTTTTAGTGATGGAGAAGTTCAAATTAACATTGAAGAAAGTATCCGTGGTTGCGATGTATTCATTATTCAATCTACAAGCTTCCCAGTAAACGAACATATCATGGAATTACTTATTATGATCGATGCATTAAAACGTGCATCTGCGAAAACAATTAATATTGTTATTCCTTATTATGGTTATGCGCGTCAAGACCGTAAAGCGCGTTCTCGTGAACCAATTACATCGAAACTTGTAGCAAACTTGCTTGAAACAGCAGGTGCAACTCGTGTAATCACTCTAGATTTACATGCTCCACAAATTCAAGGGTTCTTTGATATCCCAATCGACCACTTAATGGGTGTACCGATTCTTTCTGATTACTTTGAAACAAAAGGTCTTAAAGATATCGTAATCGTGTCTCCTGATCATGGTGGTGTAACTCGTGCAAGAAAAATGGCAGATCGTCTAAAAGCGCCAATCGCTATTATTGATAAGCGTCGCCCTCGCCCGAACGTATCAGAGGTAATGAACATTATCGGTAATATTGAAGGCAAAACAGCGATTTTAATTGATGACATCATTGATACAGCTGGTACAATTACATTAGCAGCAAACGCTCTTGTTGAGAACGGTGCTTCTGAAGTATATGCTTGCTGTACACACCCAGTATTATCTGGTCCAGCAATTGAACGTATTCAAAATTCAAATATTAAAGAGTTAGTTGTAACGAACTCTATCGTATTACCGGAAGAGAAGAAAATCGACAAAGTACATGAACTTTCAGTTGCTCCATTAATCGGAGAAGCAATCATTCGTGTATACGAAGAAGAATCTGTGAGTGTATTATTCAATTAA	MSTQYLNSNLKVFSLNSNKELAEQIAKHIGVGLGKCSVDRFSDGEVQINIEESIRGCDVFIIQSTSFPVNEHIMELLIMIDALKRASAKTINIVIPYYGYARQDRKARSREPITSKLVANLLETAGATRVITLDLHAPQIQGFFDIPIDHLMGVPILSDYFETKGLKDIVIVSPDHGGVTRARKMADRLKAPIAIIDKRRPRPNVSEVMNIIGNIEGKTAILIDDIIDTAGTITLAANALVENGASEVYACCTHPVLSGPAIERIQNSNIKELVVTNSIVLPEEKKIDKVHELSVAPLIGEAIIRVYEEESVSVLFN	PGPT0021480_3780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK009_08020	624	pth_2	COG0193	Peptidyl-tRNA hydrolase	ATGAGACGTAACCAAAATTGGTTACGTCTTTTCGTATCGAAAAAAGAAAGTAGTGGTACAAGAATGAAATTGATAGTAGGACTTGGGAACCCAGGTAGAGAATATGAATTAACAAGGCATAATATTGGATTTATGGCCATTGATGAACTTGCGAAGCGTTGGAACATTTCTTTGAATGAACAAAAATTTAAAGGTGTATTTGGTGCAGGGTTTGTTAATGGAGAAAAGGTAATCTTATTAAAGCCGCTAACATATATGAATTTATCTGGAGAAAGTATTCGTCCACTCATGGATTATTATAAAATTGATGTTGAGGACTTCGTTGTTATGTACGACGATTTAGACATTCCTGTAGGTAAATTGCGTCTTCGCATGAAAGGTAGTGCTGGTGGACATAATGGTGTAAAGTCAACGATTTCACACCTAGGAACACAAGAATTTCAACGTATCCGTATGGGAATTGATCGCCCGAAAAATGGAATGAAGGTAGTCGATTATGTATTAGGACGCTTTACATCTGAAGAGATTCCGGATGTTAACCATTCTATTGAAAAAGCAGCGGATGCATGTGAAGAGTGGCTAAATAAGCCTTTTCTCCAAATCATGAATACTTTCAATAGTTAA	MRRNQNWLRLFVSKKESSGTRMKLIVGLGNPGREYELTRHNIGFMAIDELAKRWNISLNEQKFKGVFGAGFVNGEKVILLKPLTYMNLSGESIRPLMDYYKIDVEDFVVMYDDLDIPVGKLRLRMKGSAGGHNGVKSTISHLGTQEFQRIRMGIDRPKNGMKVVDYVLGRFTSEEIPDVNHSIEKAADACEEWLNKPFLQIMNTFNS	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
AK009_08021	225	fin		Anti-sigma-F factor Fin	ATGGAAGGGTATTATTATTGCAGACACTGCGGAGGTAATGTAGGCTCCATTAACGCAGAAAAAGTATATAGCGACGTTTTATTTCAACTAACAGAGCAAGAAGTAGTAGAGATGATTCATTTTCATGAGAATGGAAATATATATATAAAAACGATTTGTGAATCGTGTCAAGAAACGCTCGCATCTTATCCTGAGTATTATGAATATGAAAAATTTCTGCAATAA	MEGYYYCRHCGGNVGSINAEKVYSDVLFQLTEQEVVEMIHFHENGNIYIKTICESCQETLASYPEYYEYEKFLQ				NA	NA	NA	NA	NA
AK009_08022	3531	mfd		Transcription-repair-coupling factor	ATGATAGGTTTATTAGAGCAATTTTATAAAAATAAAGAGATACAATCAGTTATTAATGGATTAGAAGATGGGTTAAAGGAACAACTTATATCAGGGATGGCAACGTCTTCTCGTTCATTATTAATGGCGGCTTTATATAAAAAAACAAAAAAATCACAATTAATCGTGACACATAACTTATACCAAGCGCAAAAAGTACATGAAGATTTAGTGGCGTTACTTGGTGAAAAAGATGTGTGGCTATATCCAGTGAATGAACTTATAGCATCGGAAATTGGGGTTGCAAGTCCAGAATTGAAGGCGCAACGTATAGAAGTGTTAAATCGCTTGGCTGCTGGAGAGAATGGAATCATTGTAGCTCCAGTGGCAGGATTGCGTAGATTTTTACCAATAAAAGAATTGTGGAAGCAAAAGCAAGTTGAAATCAATCTAGGGCAAGAGATTGATTTAGATGCGCTCTTGCATACTTTACATCATATTGGCTATGAACGTAAGTCGATGGTAGAAGCTCCAGGGGAGTTCAGTTTGCGCGGGGGAATATTAGATATTTATCCTTTAACTGAAGAACTACCATTTCGTATTGAATTCTTCGATACAGAAGTCGATTCTATTCGATTATTTGATGTGGATGAACAGCGTTCTCAAGGAAAAAAAGAAAGCGTTAAGTTTGGTCCGGCAACAGAGTTTTTATTTTCACAGGAAGAATTAAAATCAGGAATTCAGCATCTTGAAGAAGGTTTGACTAAGACGATGCAAAAACTTTCTGATGATAAACTAAAGACTACAGTACTTGAGACGGTAAGTCATGAAATTGAGATGTTGAAAAACGGGCAAAGTATAGAACAGATGTTTAAATACTTATCTATTTTCTATAAAGAACCTGCTAGTCTGATAGATTATTTACCAGAAGACGGTGTTGTAATTTTAGATGAGATTTCCCGTATTCAAGAAACAGCATCACATCTGGAAACAGAAGAGGCGGAATGGTATATATCACTTCTTGGTGAAGGAACAATTATTCAAGATTTATCTTTCTCTCACGCATTCGAGGGATTTCTTCATCATAAAAAAAGAAATTTTGTATATTTAACGTTATTCTTGCGTCATATTGCACACACACATCCGCAAAATATTGTGAATGTAACATGTAAAACAATGCAAGATTTCCATGGACAGATGAATTTGTTAAAAACAGAAATTGATAGATGGAATGAAGGGCATTTTACGACTGTTGTACTTGGAACAGATGATGAACGTGTGAAAAAATTACAACATATTTTAAGTGATTATGATATTGAGGCAGATATTGTGGAAGGTACAGATATCTTATTGCCTGGAAGGTTACAAATTGCTGTAGGTGATTTACATGCAGGATTTGAAATGCCGATGCAAAAGCTTGTTGTCATTACTGAAAAGGAGCTTTTTCATAAGAAAGTTAAAAAATCACAACGTAAACAAAAGTTATCGAATGCTGAACGTATTAAAAGTTATTCGGAATTAAAAGTTGGAGATTATGTAGTTCATGTAAATCATGGTATAGGTAAATTTTTAGGTATTGAGACATTAGAGATTAATGGTGTTCATAAAGATTATTTAAATATTAAATATCAAGGTAATGATAAGTTATACGTTCCAATTGAACAAATTGATCAAGTCCAAAAATATGTAGGGTCTGAAGGTAAGGATCCAAAAGTTTACAAATTAGGTGGTAATGATTGGAAGAAGGTTAAAACGAAAGTTGAAAAATCTGTACAAGACATTGCGGATGACCTAATTAAACTATATGCTGAACGCGAAGCTTCAAAAGGCTATGCATATACGCCAGATACAGCAGAACAACAAGAGTTCGAATCATCTTTCCCATATCAAGAGACAGAGGATCAGTTACGTTCTATTGACGAGATTAAAAAAGATATGGAACGCGGACGCCCGATGGATAGGCTCCTTTGTGGTGATGTAGGGTATGGAAAGACTGAAGTGGCTATTCGTGCGGCATTTAAAGCAATTATGGATGAAAAACAAGTTGCAATTTTAGTACCGACAACGATTCTTGCGCAGCAACACTATGAAACAATTCGAGAGCGTTTTCAAGATTATCCAATCAATATAGGATTATTAAGTAGATTCCGTACGAGAAAACAACAAAATGAAACGATTAAGGGTTTAAAGGATGGCACAATAGATATTGTAATCGGAACACATCGTATTTTATCTAAAGATGTTACTTATAAAGATTTAGGGCTTCTTATTATTGATGAAGAACAAAGATTTGGTGTGACGCATAAAGAGAAAATTAAACAATTGAAGGCGAATGTTGACGTATTAACATTAACGGCAACTCCGATTCCACGGACGCTTCATATGTCTATGCTTGGTGTGCGCGACTTATCTGTTATTGAGACACCGCCAGAAAATCGTTTCCCAGTCCAAACGTATGTAGTAGAGTATAATCCAGCATTAATGCGAGAGGCGATAGAGCGAGAGCTTGCAAGAGGCGGTCAAATTTACTTCCTATATAACCGTGTAGAGGATATTGAAAGAAAAGCAGATGAAATTTCGATGTTAGTTCCAGATGCCCGTGTAACATACGCACATGGGAAAATGAACGAAAGTGAATTAGAGTCTGTTATGCTATCATTTTTAGAAGGACAGCATGATGTTCTTGTAAGTACAACAATTATTGAGACGGGTGTAGATATTCCGAATGTAAATACGTTAATTGTATTTGATGCAGATCGTATGGGATTATCACAGTTGTATCAGCTTCGTGGGCGTGTTGGACGTTCTAATCGTGTTGCATATGCATACTTTGCCTATAAACGTGACAAAGTGCTGTCAGAGGTTGCAGAGAAGCGTCTGCAAGCAATTAAAGAGTTCACGGAACTTGGATCTGGTTTCAAAATTGCGATGAGAGATTTATCTATTCGTGGAGCAGGTAATTTGTTAGGGGCAGAGCAGCATGGATTTATTGATTCTGTCGGATTTGATCTATATTCTCAAATGTTAAAAGATGCAATTGAACAGCGTAGAGGAACAGATGGGGCTGAAAATACAGTTAATGTTGAAATTGACTTAGAGGTAGATGCATACTTACCAGATGCTTATATTTCAGATAGTAAGCAAAAAATTATGATGTATAAACAATTTAGAGGTGTTTCTGCAATTGAGGATATTGAAGAATTGCAGGAAGAAATGATCGATAGATTCGGTGATTATCCACAAGAAGTCGGTTATTTATTACAAATTGCAAATATCAAAGTGTTGGCAATGAAAGAACAAATTGAGTTAATTAAACAGAATAAATTTGAAGTAACATTCCTGTTTTCTGAACAAGCAAGTCAAAATATTGATGGTGGAAAATTATTCATGCTTGGAAATAGTTTTGGACGTATGATCGGTTTAGGAATGGAAGGATCACAATTGAAAATTGTTATGAAAACAAATGGTTTAGAGACATCGAAGTGGTTAACAATTGCTGAAAATTTATTAAAAGGCTTACCAGATGTAAAAAAAGAAGTAATAAATGCCTAA	MIGLLEQFYKNKEIQSVINGLEDGLKEQLISGMATSSRSLLMAALYKKTKKSQLIVTHNLYQAQKVHEDLVALLGEKDVWLYPVNELIASEIGVASPELKAQRIEVLNRLAAGENGIIVAPVAGLRRFLPIKELWKQKQVEINLGQEIDLDALLHTLHHIGYERKSMVEAPGEFSLRGGILDIYPLTEELPFRIEFFDTEVDSIRLFDVDEQRSQGKKESVKFGPATEFLFSQEELKSGIQHLEEGLTKTMQKLSDDKLKTTVLETVSHEIEMLKNGQSIEQMFKYLSIFYKEPASLIDYLPEDGVVILDEISRIQETASHLETEEAEWYISLLGEGTIIQDLSFSHAFEGFLHHKKRNFVYLTLFLRHIAHTHPQNIVNVTCKTMQDFHGQMNLLKTEIDRWNEGHFTTVVLGTDDERVKKLQHILSDYDIEADIVEGTDILLPGRLQIAVGDLHAGFEMPMQKLVVITEKELFHKKVKKSQRKQKLSNAERIKSYSELKVGDYVVHVNHGIGKFLGIETLEINGVHKDYLNIKYQGNDKLYVPIEQIDQVQKYVGSEGKDPKVYKLGGNDWKKVKTKVEKSVQDIADDLIKLYAEREASKGYAYTPDTAEQQEFESSFPYQETEDQLRSIDEIKKDMERGRPMDRLLCGDVGYGKTEVAIRAAFKAIMDEKQVAILVPTTILAQQHYETIRERFQDYPINIGLLSRFRTRKQQNETIKGLKDGTIDIVIGTHRILSKDVTYKDLGLLIIDEEQRFGVTHKEKIKQLKANVDVLTLTATPIPRTLHMSMLGVRDLSVIETPPENRFPVQTYVVEYNPALMREAIERELARGGQIYFLYNRVEDIERKADEISMLVPDARVTYAHGKMNESELESVMLSFLEGQHDVLVSTTIIETGVDIPNVNTLIVFDADRMGLSQLYQLRGRVGRSNRVAYAYFAYKRDKVLSEVAEKRLQAIKEFTELGSGFKIAMRDLSIRGAGNLLGAEQHGFIDSVGFDLYSQMLKDAIEQRRGTDGAENTVNVEIDLEVDAYLPDAYISDSKQKIMMYKQFRGVSAIEDIEELQEEMIDRFGDYPQEVGYLLQIANIKVLAMKEQIELIKQNKFEVTFLFSEQASQNIDGGKLFMLGNSFGRMIGLGMEGSQLKIVMKTNGLETSKWLTIAENLLKGLPDVKKEVINA				NA	NA	NA	NA	NA
AK009_08023	537	spoVT	COG2002	Stage V sporulation protein T	ATGAAAGCAACTGGAATCGTACGTCGAATTGATGATTTAGGCAGGGTAGTAATCCCGAAGGAAATTCGTAGAACTTTACGTATTCGAGAAGGAGACCCACTAGAAATATTTGTTGATCGCGATGGAGAGGTAATTTTAAAGAAGTATTCTCCAATTAGTGAACTAGGTGATTTTGCAAAAGAATATGCTGAGGCTTTATATGACAGCTTAGGACATAATGTGCTTGTCTGTGATCGAGATTCTATCATCGCAGTATCAGGCGTATCGAAAAAAGAATACTTAAATAAAAGTGTTGGCGATTTAATCGAAAAAACGATGGAAGAACGAAAGTCTGTTATTATGACGGACGAAAGTGATATTTCCATTATCGATGGTGTAACAGAAAAGGTTCATTCTTATACAGTTGGACCGATTGTTGCAAACGGAGACCCGATTGGAGCTGTCATTATTTTTTCGAAAGAAGCTATTATAAGCGAAATCGAGCATAAAGCGGTTAATACTGCTGCCAGTTTCTTAGCGAAACAAATGGAACAGTAA	MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGEVILKKYSPISELGDFAKEYAEALYDSLGHNVLVCDRDSIIAVSGVSKKEYLNKSVGDLIEKTMEERKSVIMTDESDISIIDGVTEKVHSYTVGPIVANGDPIGAVIIFSKEAIISEIEHKAVNTAASFLAKQMEQ	PGPT0024790_343	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
AK009_08024	1602	murJ_4	COG2244	Lipid II flippase MurJ	ATGGAAGCGAAGAAGTATCAAGCCTTTTGGCGCGGGGCTATTATATTAACGATTGCAAGTTTTGTTACAAAAGTATTAAGCGCTTTTTACCGTATTCCATATCAAAATATAGCGGGTGATATTGGTTTTTATATTTACCAACAAATTTACCCGTTTTATGGATTTTGTTTAATTTTAGCTACTTATGGGTTTCCTATTATCATTTCGAAAATGGTTGCAGAACGACTAGAGCGGGGAAAACAAAAAGAAGCAGAAGAAATTATTTGTGTATCTTTTTGGTTTTTATTGGGAATTGGTTTTATAGGCTTCTTTACATTGTTTTTTGGGGCCAAAACAATTGCGATAGCTATGGGCGATATATACTTAGATAAGTTACTACGTGTTATTTCATTTTCATTCTTATTGATGCCGTTTTTGTCTGTAGCAAGAGGGTATTTTCAAGGCTTCAATAATATGATGCCAACAGCTGTTTCGCAAGTAATAGAACAAACAATTCGAGTTTCTATTATTGTATTTTTATCGCTATTCCTAATTGCTCACGGATTTGATTTATATACAGTTGGTGCAGGGGCTATGTTAGGCTCAATTGCGGGTGGACTTATTGGGATTATTGTACTTATGTTGTATATGCGTCGAGATTTTCGTTCTATATTTTTCAAAAGTGTAGCGAGAATTAAGGGCAAAAGGAGGATAATTAAAATCCTTTTTTGGCAGGGGTTAGCGATTTGTGTTAGTAATTTAGTGCTTATTTTTATACAGATGGCAGATTCAATATCCTTGTACACCTTACTTATTGGTGCGGGAGAACAGGTTGAAAGTGCAAAGGTATTAAAGGGTGTTTATGATAGAAGTATTCCGCTAATGCAATTAGGTACTGTTGTGACGACTTCTTTCTCGTTGTCACTTATTCCAATTATTACAGCGGCGAAGGAAAGAGGAGATCTTTCCTTTATTCAAGAAAAGGTAAAGTTAGCAATGAAAATAACACTTGTTATTGGACTTGCAGCAGCTATTGGACTAACTTGTATTATTCAACCTACGAATATTATGTTGTTTGAAAATAGTGATGGATCAGATGTTTTATCTATTTTATCTTTATCTATTTTATTTAGTTCGTTGTCAATTACGACGGCTTCTATTTTACAAGGGTTGGGACAAACATTTAAGCCAGCATTATTTGTTGTATTTGGAGGTTGCTTAAAGTTAGCGTTAAATTATATATTTATGCCTTATTTTGGTGTGAAAGGGGCAGCCTTTGCGACTTTGTGTGCGTTAATTATAATTTCTGGGCTAAATAGTTTGTTGCTTATGAGAGCTGTATCAGGATCGCTTATCAATAAGCGAAATATGTTAGGTGTAGTGATTAGTGGTATCTGTATGGGATTTGTATTAATGATGTTCACACGTGTGTTGCAGGTGTCTGGATTAGTAATTGATACGGAACATAGAGGAATCGCGACGCTTGAAGCGTTGCTAGGTGTAGTTGTCGGCGGATTGACATATATGTTTTTAATTTTGAAATTACGTGTATTTACAAAAAAAGAATTAGGAACCGTTATGAAACAAGAGAAAAAAGAAGGTTCATTGAAGAAGAGTGGATAG	MEAKKYQAFWRGAIILTIASFVTKVLSAFYRIPYQNIAGDIGFYIYQQIYPFYGFCLILATYGFPIIISKMVAERLERGKQKEAEEIICVSFWFLLGIGFIGFFTLFFGAKTIAIAMGDIYLDKLLRVISFSFLLMPFLSVARGYFQGFNNMMPTAVSQVIEQTIRVSIIVFLSLFLIAHGFDLYTVGAGAMLGSIAGGLIGIIVLMLYMRRDFRSIFFKSVARIKGKRRIIKILFWQGLAICVSNLVLIFIQMADSISLYTLLIGAGEQVESAKVLKGVYDRSIPLMQLGTVVTTSFSLSLIPIITAAKERGDLSFIQEKVKLAMKITLVIGLAAAIGLTCIIQPTNIMLFENSDGSDVLSILSLSILFSSLSITTASILQGLGQTFKPALFVVFGGCLKLALNYIFMPYFGVKGAAFATLCALIIISGLNSLLLMRAVSGSLINKRNMLGVVISGICMGFVLMMFTRVLQVSGLVIDTEHRGIATLEALLGVVVGGLTYMFLILKLRVFTKKELGTVMKQEKKEGSLKKSG	PGPT0017190_46	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
AK009_08025	1461			hypothetical protein	GTGAGTGGAATCATTACTATTTTAGGTTTAGGTGCTGGTGAATTAGATCAGCTAACGATGGGTGTATATCGAAAGATAAAAGAAGCAGATCATCTGTTTGTTAGGACGAAGGAACATCCAGTTATAGAAGAATTGGAGAAAGAAGGCGTACAATATACGGCTTTTGATGATGTATATGAAGCGCATGATACGTTTGAAATTGTATATGAAACAATTGCGAATAAATTGCTAGAACAAGCTGAAGGTACAGAAATTATCTATGCTGTTCCAGGGCATCCGCTTGTAGCAGAAAGAACAGTTCAGCTACTGTTGGAAAAAGGTGAAGATTCAAATGTTGAAGTGCGAATTGAGGGTGGACAAAGTTTCCTTGATCCTATGTTTGCAAGCCTAAAGATTGATCCAATTGAAGGATTTCAATTACTTGACGCTACATCATTTAAAAGAGGACAATTAGAATTACGTCAACATCTAATCTTTTGCCAAGTATATGATGCATTCGTTGCATCTGATGTGAAATTAACATTAATGGAGATGTTGCCGGATGATTATGAAGTGTATATCGTAACAGCTGCAGGAACTTCATTTGAACAAGTAAAGAAGGTACCGTTGTATATGTTAGATCATGAAACGGAATTGAATAATTTAACGAGTGTGTATGTGCCGCCAGTTCAGGAGCGTGCATCCTTGTATCAACAGTTCGATGTACTTAGAGAAATTATTGCAGAACTTCGAGGCCCAAATGGTTGTCCGTGGGATAAAAAGCAAACACATCAATCATTAAAGAAATATTTAATTGAGGAAGCTTATGAAGTATTGGAAGCAATTGATGAAGAGGATGATGATCACTTAGTAGAAGAATTAGGTGATATATTATTACAAGTTATGCTTCATGCTCAAATTGGAGAAGATGAAGGTTGGTTTTCTATAGATGATATCATTCGAACTCTATCTGAGAAAATGGTTCGTCGCCATCCACATGTATTTGGAAATACGGATGTAAACAATGCTGATGAAGTGATTGCCAATTGGGAAGAAATTAAAAAACAAGAAAAAGGATTCGTGAAAGAATCTGTTTTAAATGGCGTTCCAAAAAGTTTGCCGCAGTTACTACGCGCCTATGAAATTCAGAAGAAATCCGGTAAGGTTGGATTTGATTGGGTTGATGTGCAGCCTATGATAGAGAAAGCTTTGGAAGAATGGCAAGAGTTCCAACAAGAAGTTACAAACATGGATGAGGAAAAGATGCTAGGTGAGTTTGGTGATTTACTATTTGCATTTGTTAATATAGCTCGTCATTATAAAATAGATCCAGAAGAGGCGTTACGTTCAACTAATGAGAAATTTACTGGTCGTTTTTTATACATGGAGGAAAAAGTAGCTGAAATGAATAAAGAGATGGAAGATTTATCATTAGAACAGTTAGATGTTTTATGGGAAGAAGCGAAACAAACAGAGCGTTAA	MSGIITILGLGAGELDQLTMGVYRKIKEADHLFVRTKEHPVIEELEKEGVQYTAFDDVYEAHDTFEIVYETIANKLLEQAEGTEIIYAVPGHPLVAERTVQLLLEKGEDSNVEVRIEGGQSFLDPMFASLKIDPIEGFQLLDATSFKRGQLELRQHLIFCQVYDAFVASDVKLTLMEMLPDDYEVYIVTAAGTSFEQVKKVPLYMLDHETELNNLTSVYVPPVQERASLYQQFDVLREIIAELRGPNGCPWDKKQTHQSLKKYLIEEAYEVLEAIDEEDDDHLVEELGDILLQVMLHAQIGEDEGWFSIDDIIRTLSEKMVRRHPHVFGNTDVNNADEVIANWEEIKKQEKGFVKESVLNGVPKSLPQLLRAYEIQKKSGKVGFDWVDVQPMIEKALEEWQEFQQEVTNMDEEKMLGEFGDLLFAFVNIARHYKIDPEEALRSTNEKFTGRFLYMEEKVAEMNKEMEDLSLEQLDVLWEEAKQTER				NA	NA	NA	NA	NA
AK009_08026	276			hypothetical protein	ATGCGTCTAGATAAGTTTTTAAAAGTGTCACGTTTAATTAAAAGAAGAACATTAGCGAAAGAAGTAGCTGATCAAGGAAGAATATCTATTAATGGTCAAGTGGCAAAAGCAAGTTCGGATGTGAAAGTAGCTGATGAATTAACAATTCGTTTTGGTCAAAAAATAGTGACTGTAAAAATAAATGAATTGAAAGAAACAACTAAAAAAGAAGATGCAGCAAATATGTATAGCTTAGTTCGCGAAGAAAAAGTGAAAGCGGAAGAAGGCTTGTTCTAA	MRLDKFLKVSRLIKRRTLAKEVADQGRISINGQVAKASSDVKVADELTIRFGQKIVTVKINELKETTKKEDAANMYSLVREEKVKAEEGLF	PGPT0012225_994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK009_08027	309	yabP		Spore protein YabP	GTGAATAATGGTTACTCACCTACGTCTTCTAATCAACAAAATGTTTCTGTGGAGCATGATATTATTATGCGTGGAAGGCGTGTAATTGATATTACTGGTGTGAAGCAGGTAGAGAGTTTTGATAGCGAAGAGTTTTTACTCGAAACCGTAATGGGTTTTTTAACGATTCGTGGTCAAAATTTACAAATGAAAAATTTAGATGTAGAAAAAGGTATTGTGTCGATTAAAGGGAAAGTTCATGAGATGCTGTATATTGATGAAAATCAAGGAGAAAAAACTAAAGGTTTCTTTAGTAAGTTGTTTAAATGA	MNNGYSPTSSNQQNVSVEHDIIMRGRRVIDITGVKQVESFDSEEFLLETVMGFLTIRGQNLQMKNLDVEKGIVSIKGKVHEMLYIDENQGEKTKGFFSKLFK	PGPT0024990_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA	NA	NA
AK009_08028	654	yabQ		Spore protein YabQ	ATGAGCTTAACAATTCAGTTGTATACAATGCTTTCAATGATTGGAATGGGTGCTTGGATTGGAGCATCTTTAGATACATATCAACGTTTTTTAAAGCGTCAAGAACGTAAACGTTGGCTTGTATTTATACATGATATACTATTTTGGATTGTCCAAGCATTATTTGTCTTTTATGTATTGCTTCTCGTAAATGAAGCTGAGTTACGTATATATGTGTTTTTGGCATTATTATGTGGTTTTGCGGCATATCAAAGCTTACTGAAAGCACTATACATGAAGCTGTTAAATTTTCTCATCTATATTTTTATGCAAACAACATATTTTTTTGTTCGAATTATACAGCTACTCATGATAAAACCTGTTATTATTATAGCGCAGCTATTTATTGCATTTATATTATTCTTATTTCGTATACTGCTTTCAATTGGACATGTGTTATGGAAAATGGTGATTTGGATATTACTTTTCATATGGAAAGTTTTTTTCTGGCCTGTTCGATTTATTGCTTCGCTCATATGGAAACTTCTCCCTAATCGTGTTAAACTTTTTATAGTGAAACATATAGGGTTCCTGCAATATATAGCAAAATTGAAGGGACATATCTTCCAAATATGGGAGCGTATAAAAAAGAAGTTAGGGGGACCTCGGAAATGA	MSLTIQLYTMLSMIGMGAWIGASLDTYQRFLKRQERKRWLVFIHDILFWIVQALFVFYVLLLVNEAELRIYVFLALLCGFAAYQSLLKALYMKLLNFLIYIFMQTTYFFVRIIQLLMIKPVIIIAQLFIAFILFLFRILLSIGHVLWKMVIWILLFIWKVFFWPVRFIASLIWKLLPNRVKLFIVKHIGFLQYIAKLKGHIFQIWERIKKKLGGPRK				NA	NA	NA	NA	NA
AK009_08029	360	divIC	COG2919	Cell division protein DivIC	ATGAGGGAACTGAGACAAAGAACAATCGAAAAACAGAGTCCAAATCCTGTTAAAGAGCATATAATACAAACGGATGAGAACAGGAAGCGACTTTATCGCCGTTTAGCGGTTTTTCTTGTCTTTACTTTTACAATTATTGCGAGTATTAGTGTAACGTTTTATCAACAAAACAGTTCCATTAAAGCAAAAGAAGCAAAAGTTAAGGACATGAAAAAAGAACTGGATTCATTAACGAATAAAGAAAAAAGTCTAAAAGACGAAGTTCAAAAGTTAAATGATGAAGAGTACGTATTAAAGATTGCTAGAAGGGATTATTTCTTCTCTGGTAAAGGGGAGATAATTTTTCCTGTTTCGAAGTAG	MRELRQRTIEKQSPNPVKEHIIQTDENRKRLYRRLAVFLVFTFTIIASISVTFYQQNSSIKAKEAKVKDMKKELDSLTNKEKSLKDEVQKLNDEEYVLKIARRDYFFSGKGEIIFPVSK				NA	NA	NA	NA	NA
AK009_08030	486	pnp_2		Polyribonucleotide nucleotidyltransferase	ATGTCAATCGAGGTAGGCAGCAAGTTACAGGGTAAAGTAACAGGTATTACAAATTTTGGGGCTTTTGTGGAGCTGCCAGAAGGCTTAACTGGTCTTGTTCATATTAGTGAAGTTGCTGATAACTATGTAAAAGATATTAACGATCACTTAAAAGTGGGCGACCAAGTAGAAGTAAAAGTTATTAATGTTGAAAAAGATGGAAAGATTGGTTTATCTATCAAAAAAGCGAAAGAACGTGAAAAAACAGAAGGAGATCGTCCACGCGGTGAATACCAACGCGGTGGTGATCAACAACGTTCTGGACGTCCACAACGTAATAATCGCTCTTTCAACAGAGATAAACGCGGTGGCGGTAACGACCGAGCTCCAAAAGAAACATTTGAGCAAAAGATGGCACGCTTCTTAAAGGATAGCGAAGATCGTTTAACTTCTTTAAAGCGTAACACAGAGTCTAAACGTGGTGGCCGTGGCGCACGTCGCGGATAA	MSIEVGSKLQGKVTGITNFGAFVELPEGLTGLVHISEVADNYVKDINDHLKVGDQVEVKVINVEKDGKIGLSIKKAKEREKTEGDRPRGEYQRGGDQQRSGRPQRNNRSFNRDKRGGGNDRAPKETFEQKMARFLKDSEDRLTSLKRNTESKRGGRGARRG				NA	NA	NA	NA	NA
AK009_08033	2472	spoIIE	COG2208	Stage II sporulation protein E	ATGCCTAAAGCAGGAAGGAATACTATGAATACAAGTGCATTGGCAATGAATGAGAGTCAGCTTGGAGGAATAAAGTGGACGAGTAAGTTGCGAATGAAATTTGAACAAGTTTTCTTTAGATGGGGATTTATTATTGTTGTTATTGGTTTTCTTTTGGGAAGAGCATATATATTAACAAATATCTTACCGTTTGCACTACCATTTTTTGCTGCTGTTTATGTTATGAAGCGGGATAAGATGCCGCTAGCATTTTTAGCTCTAATGGGAGGAGCTCTTTCAGTCTCGATAGATAATTTGTTTTTTACTTTTGCATCTATCTTTACTTTCTTCATTTATAATATCTTCTTTAGTAGATTCACACGTAAAACCGTTGGACTTGTTCCATTTCAAGTATTTATCTCCGCATTAACCGCACACTTAGTTGTTGTATATTTTGCACAACAAACTGTCACCATGTACGATTTACTCGTTAGTACCATTGAGGCTGGGCTTAGTTTTGTATTAACTATGATATTTTTACAAAGTGTTCCGCTTTTAGTAGAAAGGAAAGGAAAACAACAGGCGTTAGAGACGGAAGAAATTGTTTGTTTGATTATATTACTAGCATCTGTTTTAACGGGTACAACAGATTGGTTTGTATATGATGCTTCTATTCAACATATTTTTACACGGTATTTAGTACTAGTATTTGCATTTATTGCGGGTGCTGCTACAGGATCTACAGTGGGGGTCGTAACAGGTTTGATATTAAGTTTAGCAAATGTATCTAGCTTGTCCCAGCTTAGCCTTCTTGCTTTTTCTGGATTGCTTGGTGGGTTGTTAAAAGAAGGGAAGCGTTTAGGTGTTAGTTTAGGTTTATTAATTGGGACAAGCTTAATTACATTATATGTAGACAAACAGACAAATATTGTAACGACTTTAATTGAGTCAGGCGTAGCGATTGCTATCTTCTTATTAACGCCAAAGCTTGTTTTAGATCGTATTGCTAAATTTATGCCAGGTACACAAGAGCATTCGCAAGATCAACAACAATATTTAAGAAGGATGCGCGATGTTACAGCGAACAAAATCAACCAATTTGCAAATGTATTTGCTGCTTTATCTAATAGCTTTTCTGTATATGGGTATGTAGAGGAAGAAGATAAAGAGACAGAAGCAGATTTGTTTTTGAGTACAATTACTGCGAAAACATGTCAAACATGCTTTAAAAAGGATCAATGCTGGGTAGTGAATTTCGATAAAACGTACGATTATATGAAACAAATAATGAGTGAAACGGAAGAAGGAACCCTGCAACATAATCGTAAATTAGTTCGTGAGTGGGACAAGCATTGTGTGAGAGGGAAAAAAGTGACGGATTTAGTAGCGGGTGAATTAGATCATTTCTATGAGGGACAAAAATTACGAAAACAAATGAAGGAAAATCGTAGAATAGTTGCGGAGCAACTATTAGGTGTATCAAAGGTTATGGAGGATTTTGCTAAGGAGATACAACGAGAGCGTGAAAATCATCAGGTGCAGGAAGAACAGATTATGCAAGCGTTCCGTGATTTTGGTGTCGAAGTAGAGCATGTTGATATTTATTGTTTAGATAGAGGAAGTATTGATATTGAAATGTTGATTCCCGTTGCATCTAATGAACATGGTGAATGTGAAAAGTTAGTTGCACCGATGCTTTCGGATATCCTTAAAGAAAATATTGTCGTTAAACATGAAGAAAAGTCTTCTTATCCGAATGGCCACAGTTTAATATCATTCGGTTCGGCGAAGACGTATTCTCTTGATACGGGATTGGCCACAGCCGCAAAGGGCGGTGGATTTGTTTCGGGTGACTCTTATGCGATGATGGATTTAAGTGTTGGCAAATATGCACTTGCGATTAGTGATGGTATGGGGAATGGGCAAAGAGCTCATATGGAAAGTAAGGAAACGGTGAAATTATTACAAAAAATACTCCAATCCGGTATTGACGAAGAAATAGCGATTAAGTCTATTAATTCAATTCTTTCTTTGAGAACGACGGAAGAGATGTTTACGACATTAGACTTAGCTATGGTAGATTTGCGAGATGCGAGTGCAAGGTTTTTAAAGATCGGATCAACGCCGAGTTTTGTTAAACGCGCGAATAATATTTTGAAAATTGAAGCAAGTAATTTGCCGATGGGAATCATCGAAGATGTTGAAGTTGATGTGGTGGGTGAACAATTAAAAACGGGCGATATCCTTATTATGATGAGCGATGGGATTTTTGAGGGAGCGCAGCATGTAGAGAATCATGAATTGTGGATGAAACGAAAAATTAAAGAATTGCAAACCGAAGACCCGCAAGAAATTGCTGATATCATTATGGAAGAAGTGATTCGTTCTTGTGATGGTTATATAAATGATGATATGACTATTGTAGTGGCAAAAGTGAAGAAAAATATGCCGAAGTGGGCTACGATTCCGATTGTAGGCATGCAGGCGCAGTAA	MPKAGRNTMNTSALAMNESQLGGIKWTSKLRMKFEQVFFRWGFIIVVIGFLLGRAYILTNILPFALPFFAAVYVMKRDKMPLAFLALMGGALSVSIDNLFFTFASIFTFFIYNIFFSRFTRKTVGLVPFQVFISALTAHLVVVYFAQQTVTMYDLLVSTIEAGLSFVLTMIFLQSVPLLVERKGKQQALETEEIVCLIILLASVLTGTTDWFVYDASIQHIFTRYLVLVFAFIAGAATGSTVGVVTGLILSLANVSSLSQLSLLAFSGLLGGLLKEGKRLGVSLGLLIGTSLITLYVDKQTNIVTTLIESGVAIAIFLLTPKLVLDRIAKFMPGTQEHSQDQQQYLRRMRDVTANKINQFANVFAALSNSFSVYGYVEEEDKETEADLFLSTITAKTCQTCFKKDQCWVVNFDKTYDYMKQIMSETEEGTLQHNRKLVREWDKHCVRGKKVTDLVAGELDHFYEGQKLRKQMKENRRIVAEQLLGVSKVMEDFAKEIQRERENHQVQEEQIMQAFRDFGVEVEHVDIYCLDRGSIDIEMLIPVASNEHGECEKLVAPMLSDILKENIVVKHEEKSSYPNGHSLISFGSAKTYSLDTGLATAAKGGGFVSGDSYAMMDLSVGKYALAISDGMGNGQRAHMESKETVKLLQKILQSGIDEEIAIKSINSILSLRTTEEMFTTLDLAMVDLRDASARFLKIGSTPSFVKRANNILKIEASNLPMGIIEDVEVDVVGEQLKTGDILIMMSDGIFEGAQHVENHELWMKRKIKELQTEDPQEIADIIMEEVIRSCDGYINDDMTIVVAKVKKNMPKWATIPIVGMQAQ	PGPT0024675_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024675-spoIIE-K06382	NA	NA
AK009_08034	1431	tilS_2	COG0037	tRNA(Ile)-lysidine synthase	TTGAAAGATACATTTGTTGAAAAAGTAGATGACTTTGTAAAGCAGCATGATGTATTAAAGAATGATTCAACAATTGTTGTGGGAGTTTCTGGTGGTCCTGACTCGTTAGCCCTTTTATATTATTTATTAGAAAAAAGAGCGGAAAAACAGTTGGAAATTGTAGTAGCTCATGTGGATCATATGTTTAGAGGTGATGAATCTCATGAGGATTTACAGTTTGTGCAGGACCTTTGTGAAGAACTGGGAATTATTTGTGAAACGATAAGAATTAATGTATCACAATATCAACAGCAATACGGGATGAATGCACAGGTTGCTGCTAGGGAATGCAGATATGCATTTTTGGAAAGAATAATGAAGAAATATGATGCAAGATATGTTGCTCTTGGACATCATGGAGATGATCAAGTAGAGACGATTTTAATGCGTCTTGTAAGAGGGAGTACTCCGAAGGGATATGCAGGAATTGCAGTGAAGCGTCCTTTTCATAATGGATATTTAATTAGGCCGTTACTTGGGGTAACGAAGGAAGAAATTGTTGATTACTGTAATAAGCTAAATTTAATTCCACGTATAGATCCGAGTAATAAAAAGGAAGTATATACAAGGAATCGATTACGTAAATATGTCCTTCCTCACTTAAAAGAAGAAAATCCACAAATGCATGAGAAATTCCAAAAATTTAGCGTGCAGATGCAAGAGGATGAGGCTTATTTGCAGGAATTAGCTTTTGAGAAAATGAATAAAGTAATTACAAAAAAAAGTGATAAACAAATTAGCTTATCAATTCCTGCCTTTGAATCCATGTCTATGCCTTTACAAAGAAGAGGGATTCAACTAATATTAAACTATCTTTATGAATATAAGATTCCATCTTCTCTTTCTTCTATACATATTGACAAGGTGATTGAGTTTTTTAAGCGGACACAACCTTCAGGTTCACTTGATTTTCCAGGTGATTTGAAAATTGTTCGTACATACGAGGAGTGTAGCTTTAGATTTAAACAAGAAATTGTCTCTCCTTTTTTGCAAGATTTATCAGTACCCGGGATCATTACGCTATTGAACGGGGATGAATTTGTAACAGAGGTGAGCGAAGATATACCAAGTAACATGAATGAAACAGTATTTGTTGCTAAGTATAATGATATATCATATCCACTTCGTATTCGTTCTAGGGAAAATGGAGATCGCATGTCAATACAAGGTATGGATGGCACGAAAAAGATAAAAGCTATTTTTATCGAAGCGAAAGTACCAAAAGAAAAAAGGGAAGAATGGCCGGTCGTTTGTGATGCAAGTGGGAACATTATTTGGGTACCCTTGTTGAAGCGATCTGCATTTGCAATTTCGAAAGAGATGGCAAAGAAGGGTAAATATATGATTATTCACTACAAAAGCAAGGAGTCTTCCGGGAGGATAATGAAATGA	MKDTFVEKVDDFVKQHDVLKNDSTIVVGVSGGPDSLALLYYLLEKRAEKQLEIVVAHVDHMFRGDESHEDLQFVQDLCEELGIICETIRINVSQYQQQYGMNAQVAARECRYAFLERIMKKYDARYVALGHHGDDQVETILMRLVRGSTPKGYAGIAVKRPFHNGYLIRPLLGVTKEEIVDYCNKLNLIPRIDPSNKKEVYTRNRLRKYVLPHLKEENPQMHEKFQKFSVQMQEDEAYLQELAFEKMNKVITKKSDKQISLSIPAFESMSMPLQRRGIQLILNYLYEYKIPSSLSSIHIDKVIEFFKRTQPSGSLDFPGDLKIVRTYEECSFRFKQEIVSPFLQDLSVPGIITLLNGDEFVTEVSEDIPSNMNETVFVAKYNDISYPLRIRSRENGDRMSIQGMDGTKKIKAIFIEAKVPKEKREEWPVVCDASGNIIWVPLLKRSAFAISKEMAKKGKYMIIHYKSKESSGRIMK				NA	NA	NA	NA	NA
AK009_08035	543	hpt_3		Hypoxanthine-guanine phosphoribosyltransferase	ATGATGAATCAAGATATCGAAAAAGTATTAATTTCTGAAGAACAAATACAAGAAAAGGTGCGCGAACTAGGTGCAGTTATTGCAGAGGATTATAAAAACACAGTACCCCTTGCAATTGGTGTATTAAAAGGCGCAATGCCATTTATGGCAGATTTATTAAAGAGAACAGATACATATCTTGAAATGGATTTTATGGCTGTATCTAGTTATGGTCACTCTACAGTTTCAACAGGCGAAGTGAAAATTTTAAAAGATCTTGATACTTCTGTAGAAGGTCGTGATATTTTAATCGTCGAAGATATTATTGATAGTGGTCTTACACTAAGCTACTTAGTAGACTTATTCAAATATCGTAAAGCGAAGTCTGTAAAAATTGTTACATTATTAGATAAGCCAACAGGCCGTAAGGTTGATCTGAAAGCGGATTATGTTGGATTTACTGTTCCACATGAATTTGTAGTAGGATATGGATTAGATTATAAAGAGCAGTACCGTAATCTTCCTTATGTAGGCGTATTAAAACCAAGCGTTTACTCAAATTAA	MMNQDIEKVLISEEQIQEKVRELGAVIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYSN	PGPT0007295_2493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
AK009_08036	1902	ftsH	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGAATCGTATCTTCCGTAATACCATCTTTTATTTACTGATATTCTTAGTAGTAATTGGAATCGTGAGCTATTTTAATGGTTCGACACAAAAAACGACATCAGTTAGCTACGACAAATTCATTACTAAACTAGAAAGCGGTGAAGTGCGTAATGTGCAACTTCAACCGAAAAATGGTGTATTTGAGGTAAAAGGACAATTCAATAACTCTAGCCAAGGAGAACAATTTGTTACTTATGCACCAAATACTGAGGAATTACAAAAGAAAATCAATGATAAAGCGAAAGGTGCCGAAGTTAAGTATCAACCAGCAGAAGAAACAAGTGCTTGGGTAACATTCTTTACTTCAATCATTCCGTTTGTCATCATCTTCATTTTATTCTTCTTCTTATTAAACCAAGCTCAAGGCGGCGGTAGCCGTGTTATGAACTTCGGGAAAAGTAAGGCGAAGTTATATAATGATGAAAAGAAAAAAGTTCGTTTCAGAGATGTTGCTGGGGCGGATGAAGAGAAACAAGAACTTGTTGAGGTAGTTGAATTCTTAAAAGACCCTCGTAAGTTTTCTGAAGTTGGTGCCCGTATTCCAAAGGGTGTCCTATTAGTTGGACCTCCAGGTACAGGTAAAACTTTATTAGCACGTGCTGTTGCAGGTGAGGCTGGCGTTCCATTCTTCTCTATCAGTGGTTCTGACTTTGTAGAGATGTTTGTCGGTGTCGGTGCATCACGTGTACGTGATTTATTTGAAAATGCAAAGAAAAATGCTCCTTGTATCATTTTCATTGATGAAATTGATGCAGTAGGTCGTCAACGTGGCGCAGGTCTTGGTGGTGGTCATGATGAGCGTGAGCAAACATTGAATCAGTTACTTGTTGAAATGGATGGATTCGGTGCAAACGAAGGTATTATTATCATTGCTGCGACAAACCGTCCAGACATTCTTGACCCAGCGTTATTACGTCCAGGTCGTTTTGACCGTCAAATTACAGTAGATCGTCCAGATGTAAATGGCCGTGAAGCTGTACTGAAAGTACATGCGCGTAATAAACCGCTTGATGAGCATATTAATTTAAGAGCAATTGCGACTCGTACACCAGGATTCTCTGGTGCGGATCTTGAAAACTTATTAAACGAAGCTGCTTTAGTAGCTGCACGTCGAGATAAGAAGAAAATTGATATGAGTGATATCGATGAAGCAACGGATCGTGTTATTGCAGGTCCAGCTAAGAAAAGTCGTGTTATCTCTGAAAAAGAACGTAATATCGTTGCTTTCCATGAAGCAGGCCACACTGTAATTGGTGTTGTTCTTGATGAGGCTGATGTCGTTCATAAAGTAACAATTGTCCCTCGTGGTCAAGCTGGTGGATATGCGGTAATGCTTCCGAAGGAAGATCGTTACTTCATGACAAAGCCAGAGTTACTTGATAAAATCACTGGTTTACTTGGTGGTCGAGTAGCTGAGGAGATTGTATTTGGTGAAGCAAGTACAGGTGCTCACAACGACTTCCAACGTGCGACTGGTATTGCAAGACGTATGGTTACGGAATTCGGTATGAGTGATAAGCTTGGGCCGATGCAATTTGGTAGCTCACAAGGTGGTCAGGTATTCTTAGGAAGAGACTTCCATTCAGAACAAAACTACAGTGATGCAATTGCGCATGAAATTGATGTGGAAATGCAAACGATTATTAAAGACTGTTATGCTCGTGCGAAACAAATTCTTACTGAAAAACGAGATAAGCTTGATATTATCGCAAAAACGTTACTTGAAGTAGAAACATTAGATGCAGAGCAAATTAATCATTTATATGATTATGGCAGATTACCTGAGCGTCCAACATCTTCAGATGATGTGAAAGTAAACATCAATATGAAGAAAGACGATGAAGATAAAGAAGATAAGTAA	MNRIFRNTIFYLLIFLVVIGIVSYFNGSTQKTTSVSYDKFITKLESGEVRNVQLQPKNGVFEVKGQFNNSSQGEQFVTYAPNTEELQKKINDKAKGAEVKYQPAEETSAWVTFFTSIIPFVIIFILFFFLLNQAQGGGSRVMNFGKSKAKLYNDEKKKVRFRDVAGADEEKQELVEVVEFLKDPRKFSEVGARIPKGVLLVGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFGANEGIIIIAATNRPDILDPALLRPGRFDRQITVDRPDVNGREAVLKVHARNKPLDEHINLRAIATRTPGFSGADLENLLNEAALVAARRDKKKIDMSDIDEATDRVIAGPAKKSRVISEKERNIVAFHEAGHTVIGVVLDEADVVHKVTIVPRGQAGGYAVMLPKEDRYFMTKPELLDKITGLLGGRVAEEIVFGEASTGAHNDFQRATGIARRMVTEFGMSDKLGPMQFGSSQGGQVFLGRDFHSEQNYSDAIAHEIDVEMQTIIKDCYARAKQILTEKRDKLDIIAKTLLEVETLDAEQINHLYDYGRLPERPTSSDDVKVNINMKKDDEDKEDK				NA	NA	NA	NA	NA
AK009_08037	789	coaX	COG1521	Type III pantothenate kinase	ATGATTTTTGTATTGGATGTAGGGAACACAAATGCTGTACTAGGCGTGTTTGAAGAGGGGGAACTTCGTCAGCATTGGCGCATGGAAACAGATCGTCATAAGACAGAAGATGAATATGGAATGCTTGTAAAACAGTTACTTGATCATGAGGGTCTCTCGTTTGAAGATGTGAAAGGTATTATTGTGTCTTCAGTCGTACCACCAATTATGTTCGCTTTAGAACGTATGTGTGAAAAGTATTTTAAAATTAAACCGCTTGTAGTAGGACCTGGAATAAAAACGGGGCTAAATATTAAATATGAAAATCCACGTGAAGTAGGCGCAGATCGAATTGTAAATGCAGTAGCAGGAATCCAATTGTATGGAAGTCCACTTATTATTGTTGATTTTGGTACGGCTACTACATATTGTTATATTAATGAAGAAAAGCATTATATGGGTGGAGTTATTACGCCAGGAATTATGATTTCAGCAGAGGCTTTATATAGTAGGGCGGCAAAACTTCCTCGTATTGAAATTACAAAACCGAGCAGTGTTGTTGGGAAGAATACAGTAAGTGCGATGCAATCAGGTATTCTTTATGGTTATGTAGGACAAGTGGAAGGTATTGTTAAGCGTATGAAAGAGGAAGCTAAACAAGAACCGAAAGTTATTGCAACAGGTGGATTGGCGAAATTAATTTCAGAGGAATCGAATGTAATTGATATTGTAGATCCATTTTTAACGTTAAAAGGCTTGTATATGTTATATGAGCGTAATGCAAATTTACAGCAGGAGAAAGGTGAATAA	MIFVLDVGNTNAVLGVFEEGELRQHWRMETDRHKTEDEYGMLVKQLLDHEGLSFEDVKGIIVSSVVPPIMFALERMCEKYFKIKPLVVGPGIKTGLNIKYENPREVGADRIVNAVAGIQLYGSPLIIVDFGTATTYCYINEEKHYMGGVITPGIMISAEALYSRAAKLPRIEITKPSSVVGKNTVSAMQSGILYGYVGQVEGIVKRMKEEAKQEPKVIATGGLAKLISEESNVIDIVDPFLTLKGLYMLYERNANLQQEKGE	PGPT0008780_810	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
AK009_08038	876	hslO	COG1281	33 kDa chaperonin	ATGAAAGATTATTTAGTAAAAGCGTTAGCGTTTGATGGAGAAGTACGTGCGTATAGTGTACGTACAACAAATACAGTAAGTGAGGCACAAAGACGTCATGATACATGGAGGACAGCTTCGGCGGCACTTGGTCGTTCTTTAACTGCAGGTACAATGATGGGTGCGATGTTAAAAGGTGATCAAAAGTTAACGATTAAGGTAGAAGGTAATGGTCCGATTGGCCCTATCTTAGTGGATGCTCATGCAAATGGAGAAGTACGTGGCTACGTAACGAATCCACATGTTGATTTTGAAGGAACGGAACAAGGGAAATTACGTGTATATCAAGCGGTAGGTACAGAAGGTTTTGTAACAGTAATTAAAGATATTGGTATGCGTGAGCCGTTTATCGGTCAATCCCCAATCGTTTCGGGAGAACTAGGGGAAGATTTCACGTATTATTTCGCAGTTTCTGAGCAGACGCCTTCTTCTGTTGGTGTCGGTGTCCTTGTAAATGGAGATGACAGCGTATTAGCGGCGGGTGGATTTATCCTTCAAATTATGCCGGGCGCACAGGAAGAAACAATTTCATTCATTGAAGATCGTTTGCAAAAAATCCCGCCTGTATCAACATTGATTGAACGAGGCCTTTCTCCAGAAGAGCTACTATATGCAGTCCTTGGAGAAGATAAAGTAAAAGTATTAGAAACAATGGATGTTCAATTTAATTGTACGTGTTCACGTGAGCGTATTGAGAGTGTGTTAATTAGTTTAGGTAAAACAGAGTTAGAGCAAATTCGTGAAGAAGAAGAAGAGACAGAAGTTCATTGCCATTTCTGTAATGAACGTTACAAGTTCTCTAAAGAAGATATTACAAATTTAATTGAGAATTTGTAA	MKDYLVKALAFDGEVRAYSVRTTNTVSEAQRRHDTWRTASAALGRSLTAGTMMGAMLKGDQKLTIKVEGNGPIGPILVDAHANGEVRGYVTNPHVDFEGTEQGKLRVYQAVGTEGFVTVIKDIGMREPFIGQSPIVSGELGEDFTYYFAVSEQTPSSVGVGVLVNGDDSVLAAGGFILQIMPGAQEETISFIEDRLQKIPPVSTLIERGLSPEELLYAVLGEDKVKVLETMDVQFNCTCSRERIESVLISLGKTELEQIREEEEETEVHCHFCNERYKFSKEDITNLIENL	PGPT0014645_2419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
AK009_08039	924	cysK_3	COG0031	Cysteine synthase	ATGCGAGTGGCACAATCAGTTTCAGAATTAATCGGGAAAACGCCGATCGTTAAGTTGAACCGCATCGTAGAATCAGACAGCGCAGATATATACTTAAAACTAGAATTTATGAATCCGGGGAGTAGCGTTAAAGATCGTATTGCACTAGCTATGATTGAAGATGCTGAAAAAAAGGGATTGTTAAAAGAGGGCGATACAATCATTGAACCAACAAGTGGTAACACAGGTATTGGTTTAGCGATGGTAGCGGCTGCTAAAGGATATAATGCAATTTTAGTAATGCCAGAAACAATGAGTATTGAGCGTCGTAATTTATTACGTGCTTACGGTGCTGAATTAGTATTGACTCCAGGTCCTGAAGGGATGGGTGGAGCAATTCGTAAAGCAACTGAATTAGCAAAAGAGCATGGTTACTTTATACCGCAACAGTTCCAAAATCAATCGAATCCACAAATTCACCGTTTAACAACAGGTCCAGAAATTGTTGAACAAATGGGTGATCAATTAGATGCGTTTATTGCAGGTATTGGTACAGGTGGAACAATTACTGGTGCTGGTGAAGTGCTGAAGGAAGCATATGAAGGTATTAAAATTTATGCAGTAGAACCTGCGGATTCACCAGTGTTATCTGGTGGGAAACCAGGTCCACATAAAATCCAAGGAATTGGGGCGGGATTTGTCCCAGAGACATTGGATGTACAAGTATATGATGAAATTATTCAAGTGAAAACAGAGCAAGCATTTGAATATGCGAGAAGAGTGGCTAAAGAAGAAGGTATTTTAGTTGGTATCTCTTCAGGAGCAGTTATTTATGCAGCAACAGAAGTTGCGAAAAAGTTAGGCAAAGGGAAAAAGGTACTCGTTATTATTCCAAGTAACGGTGAACGTTATTTAAGTACACCACTTTATCAATTTGAATCATAA	MRVAQSVSELIGKTPIVKLNRIVESDSADIYLKLEFMNPGSSVKDRIALAMIEDAEKKGLLKEGDTIIEPTSGNTGIGLAMVAAAKGYNAILVMPETMSIERRNLLRAYGAELVLTPGPEGMGGAIRKATELAKEHGYFIPQQFQNQSNPQIHRLTTGPEIVEQMGDQLDAFIAGIGTGGTITGAGEVLKEAYEGIKIYAVEPADSPVLSGGKPGPHKIQGIGAGFVPETLDVQVYDEIIQVKTEQAFEYARRVAKEEGILVGISSGAVIYAATEVAKKLGKGKKVLVIIPSNGERYLSTPLYQFES	PGPT0002810_6466	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
AK009_08040	1398	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGCAACGAAGAAAATCTTTAGCGCTTTCTATTCCATATCAGTTAGATTTCTTTAAGCAATATAAATTTCTTTCTCAGGATAAGCCGCAACATATTTTGCTAGAAAGTGGACGTGGCGGTCGTTATAACATAGTGGGTTTAAACCCGGTAGCGGTAATCCAAGGAAAGGGTGTAAAGTTACATATAAGTGAAAGTGGTAAGGAAACAATAAAAAAAGGGAATCCATTAGATTTAATGCAAGAATATATGGAGAAATGGAAAACAGACTACAATCCAGAGTACCCACCTTTTCAAGGTGGTGCAATGGGCTACTTTAGTTATGATTGTATCCGTTATATTGAAAAACTCCCTTCTCTTGCAGAGGATGATCTGAATATACCCGATATATACTTTTTATTATTTGATGATGTGTTTGTCTATGATCAAAAAGAAAAGGTATTGTGGATTATTACACATTATGTAGATAAGCATGCAGAAGCGGAAGAACGTTTAAATGAATGGAAGGATCTTTGGACGGCAGAAGTGCCTGAAGTGACTATGCCGTTTGAACGTCCTAAAAAGAAAAATGAAGCGGTTGCCTTTACAGAAGCAGGCTTTATGAAGGCTGTTGAATGTATTCAAGAGTATATTGGAAATGGTGATGTGTTTCAAGTAAACTTGTCGACAAGACAGGAAAGAACTTTACAAACGCATCCACTAGAAATTTATACAAGTCTTCGTAAAATTAATCCATCTCCATATATGGGTTACTTAGAGCTTGGGGATTTTCAAATTGTTAGTGCTTCGCCTGAATTGCTGATTAAAAAACAAGGGCAAGAAGTAAGTACACGACCAATTGCAGGTACAAGATCCCGAGGTGCAAATGAACAAGAGGATCAAGACTTAGCAAGGGAATTAATTGAGAACGAAAAGGAACGAGCAGAGCATGTGATGCTTGTAGATTTAGAGCGAAATGATTTAGGACGTGTTTGTAAATATGGTACTGTAGAAGTCGATGAATTTATGGTAATTGAAAAGTACTCACATGTTATGCATATCGTTTCCAATGTGCGTGGTGAGGTGGAAGAAGATAAGGATGCTTTCGATTTAGTGAAAGCTGTATTTCCTGGTGGAACAATTACTGGTGCACCGAAAATACGTACGATGGAGATTATAGAAGAATTAGAGCCTGTTCGTCGAGGGATTTATACAGGTTCAATTGGTTGGATTGGTTATTCTGGAGATACGGAATTAAATATTGTCATTAGAACGCTTCTTGCGAAAGATGGGCAAGCACATGTGCAAGCTGGAGCGGGAATTGTAATTGATTCAAATCCGAAAAATGAATATAAAGAGTCGTTAAAAAAGGCAATTGCTTTATGGCGTGCAAAAGAAAGTAGCGAAGAAACGGTTAGGTGA	MQRRKSLALSIPYQLDFFKQYKFLSQDKPQHILLESGRGGRYNIVGLNPVAVIQGKGVKLHISESGKETIKKGNPLDLMQEYMEKWKTDYNPEYPPFQGGAMGYFSYDCIRYIEKLPSLAEDDLNIPDIYFLLFDDVFVYDQKEKVLWIITHYVDKHAEAEERLNEWKDLWTAEVPEVTMPFERPKKKNEAVAFTEAGFMKAVECIQEYIGNGDVFQVNLSTRQERTLQTHPLEIYTSLRKINPSPYMGYLELGDFQIVSASPELLIKKQGQEVSTRPIAGTRSRGANEQEDQDLARELIENEKERAEHVMLVDLERNDLGRVCKYGTVEVDEFMVIEKYSHVMHIVSNVRGEVEEDKDAFDLVKAVFPGGTITGAPKIRTMEIIEELEPVRRGIYTGSIGWIGYSGDTELNIVIRTLLAKDGQAHVQAGAGIVIDSNPKNEYKESLKKAIALWRAKESSEETVR	PGPT0008005_589	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
AK009_08041	588	pabA_2	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	ATGATATTAATGATTGATAATTATGATTCTTTTACATTTAATTTAGTACAGTTTCTTGGAGAACTTGGACAAGAGCTTGTTGTTAAGCGTAATGATGAAGTGAGTATTGCAGATATTGAGAATATGAAACCAGATTTCTTAATGATTTCGCCAGGTCCATGTAGTCCTAATGAAGCGGGGATTAGTATGGAAGTTATTAAATACTTTGCTGGGAAGATTCCGATTTTTGGAGTTTGTCTTGGGCATCAATCGATTGCACAAGTATTTGGTGGAGAAGTTGTTCGTGCAGAGCGATTAATGCATGGAAAAACGTCACTTATGCATCATGATGGGAAAACGATTTTCTTAGATATTCCTAATCCATTTACTGCAACGCGTTATCATTCCCTGATTGTTAAGAAAGAGTCATTGCCAGATTGTTTAGAGGTAACATCTTGGACAGAGGAAGGGGAAATTATGGCGATTCGTCATAAGACACTGCCGATAGAGGGTGTGCAATTCCACCCAGAATCTATTATGACTTCTCATGGGAAAGAGTTACTACAGAACTTCATTCGTAAATATAGTCCAAGTGTGACATCATGTTAA	MILMIDNYDSFTFNLVQFLGELGQELVVKRNDEVSIADIENMKPDFLMISPGPCSPNEAGISMEVIKYFAGKIPIFGVCLGHQSIAQVFGGEVVRAERLMHGKTSLMHHDGKTIFLDIPNPFTATRYHSLIVKKESLPDCLEVTSWTEEGEIMAIRHKTLPIEGVQFHPESIMTSHGKELLQNFIRKYSPSVTSC	PGPT0008000_924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
AK009_08042	873	dat_3		D-alanine aminotransferase	ATGTTAATTTACGTAAATGGCGAGTATGTAGAAGCGAATGAAGCGAAAATCTCCCCTTATGACCATGGTTATTTATATGGGCTGGGAGTTTTTGAGACATTTCGTATTTATAATGGTCATCCTTTTTTGTTAGATGATCATTATAACCGTTTAATAGGTGCGCTAGATGCATTGCAAATTAAATGGACAATGACAAAAGATGACGTGATGCTTATTTTGAAAAATCTACTCGCTAAGAATGAATTGGAACATGCGTATGTACGTTTTAATGTATCAGCAGGTGTAGATGAAATAGGATTACAAACGGAAATGTATGAAGACCCTTCGGTTATTGTTTTTATAAAACCTTTAACAGCTCCAGGAGATGTAGTAGAAAAAGAAGGGGTTATTTTAAAACAAGTGCGAAATACACCAGAAGGAGCATTTCGTCTGAAGTCTCATCATTATCTAAATAATATTTTAGGGAAGCGTGAAATTGGAAATGTAGTGAGCAAGGAAGGTATTTTCCTTACTGAAGCAGGTTATGTTGCAGAGGGGATTGTTTCGAATCTCTTTTTTGTGAAAGGTGATGTTTTATATACACCTTCGTTAAAAACAGGGATTTTAAATGGTATCACTCGTGCGTTTATTATAAAAAGTGCTGAAGAATTGAATATAGAAGTAAAGGAAGGTTTCTTTACAAAAGATGAATTACTTTCAGCAGATGAAGTCTTTGTAACAAACTCAATTCAAGAAATTGTTCCGCTTTATCGTATAGAAGCGCAGGATTTCCCGGGTAAAGTAGGAGTAGTTACAAAAAGTTTAATGTACCTTTATGGAATGCAGAGAGAGAAATTATGGAGCAGAAATGAATTACGAAGAGGAGATGTGTAG	MLIYVNGEYVEANEAKISPYDHGYLYGLGVFETFRIYNGHPFLLDDHYNRLIGALDALQIKWTMTKDDVMLILKNLLAKNELEHAYVRFNVSAGVDEIGLQTEMYEDPSVIVFIKPLTAPGDVVEKEGVILKQVRNTPEGAFRLKSHHYLNNILGKREIGNVVSKEGIFLTEAGYVAEGIVSNLFFVKGDVLYTPSLKTGILNGITRAFIIKSAEELNIEVKEGFFTKDELLSADEVFVTNSIQEIVPLYRIEAQDFPGKVGVVTKSLMYLYGMQREKLWSRNELRRGDV	PGPT0008020_480	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
AK009_08043	861	folP		Dihydropteroate synthase	ATGAATTACGAAGAGGAGATGTGTAGTTTGAAGTGGGATTATGATTTACGCTGCGGCGAATATACATTGAATTTAAATGAAAAGACATTAATTATGGGGATTTTAAATGTAACACCAGATTCGTTTTCTGATGGTGGGAGTTACAACGAGGTAGATGCTGCGGTACGTCATGCAAAAGAAATGCAAGGTGAAGGTGCTCATATTATTGATATTGGTGGCGAATCTACTCGCCCGGGTTTTGCTAAAGTATCAGTAGAAGAAGAAATAAAGCGAGTTGTCCCGATGATTCAAGCGGTTTCAAAAGAAGTGAAATTGCCTATATCTATCGATACATATAAAGCTGAAGTTGCAAAGCAAGCAATTGAGGCTGGTGCTCATATTATTAATGATATTTGGGGAGCGAAGGCGGAGCCAATAATTGCTGAAGTCGCAGCTCATTATGATGTACCTATCATTTTAATGCATAACCGCGATAATATGAATTATCGTAATTTAATGGCGGATATGATTGCTGATTTGTATGATAGTATCAAAATTGCTAAAAATGCTGGTGTGCGAGATGAGAATATTATTTTAGATCCAGGTATCGGTTTTGCTAAAACACCTAAGCAAAACTTAGAGGTGATGCGTAATTTAGAACAGTTAAATGTGCTAGGTTATCCGGTTCTCTTAGGTACATCGAGAAAGTCCTTTATTGGGCACGTATTAGATTTGCCAGTAGAGGAACGCCTTGAGGGAACGGGAGCTACTGTTTGTCTTGGTATTGAAAAGGGTTGTGAGTTTGTTCGTGTCCATGATGTGAAAGAAATGGCGCGTATGGCTAAAATGATGGATGCAATGATTGGTAAGGGGGTAAAGTAA	MNYEEEMCSLKWDYDLRCGEYTLNLNEKTLIMGILNVTPDSFSDGGSYNEVDAAVRHAKEMQGEGAHIIDIGGESTRPGFAKVSVEEEIKRVVPMIQAVSKEVKLPISIDTYKAEVAKQAIEAGAHIINDIWGAKAEPIIAEVAAHYDVPIILMHNRDNMNYRNLMADMIADLYDSIKIAKNAGVRDENIILDPGIGFAKTPKQNLEVMRNLEQLNVLGYPVLLGTSRKSFIGHVLDLPVEERLEGTGATVCLGIEKGCEFVRVHDVKEMARMAKMMDAMIGKGVK	PGPT0007915_2105	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
AK009_08044	363	folB	COG1539	Dihydroneopterin aldolase	TTGGATAAAATTTATATCCATGATATGGAGTTTTACGGTTATCATGGTGTGTTCCCGGAGGAAAATAAATTAGGTCAGAGATTTAAAGTTGACTTAACGGTGGAGTTGGATTTAAAGCGTGCAGGGGAAAGTGATGAATTAGAGCATTCGGTCAATTATGGAGAGCTTTTCGAATTATGTAGAAAAGTTGTTGAAGATAGAAAGTATAAGCTTGTGGAGAGTATCGCTGAAAATATTGCTGCAGATATATTAAAACAATATGAAAGTATTTCACGATGTACAATTAAGGTAATTAAGCCGGATCCACCGATACCAGGTCATTATCGTGCTGTAGCAGTAGAAATTACGAGAGAACGTCCATGA	MDKIYIHDMEFYGYHGVFPEENKLGQRFKVDLTVELDLKRAGESDELEHSVNYGELFELCRKVVEDRKYKLVESIAENIAADILKQYESISRCTIKVIKPDPPIPGHYRAVAVEITRERP	PGPT0007905_2256	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
AK009_08045	516			hypothetical protein	ATGAATAATATAGCATACATTGCATTAGGGTCAAATATTGGAGAGCGTTATACGTATCTAACCGAAGCGATTCAGTTCTTAAATAAAAATCCTTATATTCAGGTTGATGATATTTCATCTGTATATGAAACTGAGCCAGTTGGCTATACTGACCAAAGTTGCTTTTTAAATTTAGTTATAAAAATTTCTACCAATTTATCACCACAAGAATTATTGAAAGTAACACAAAAAGTAGAAAATGACCTAGGAAGAAAAAGGGAAATTAGGTGGGGGCCGAGGACTATCGACCTTGACATTTTACTTTATAATCAAGAGAATATTGAAGCAGAGAATCTTATTGTTCCGCATCCGCGGATGTTTGAAAGAGCTTTTGTTATCGTTCCGTTGTTAGAGATTAATCAAGACATAAAACAAAACATTTCACGTTCACAAGTAGAAGAAATGAAAAGGCGAGAGGGAGTAACGGTATGGAAGCAGAAAAATGGGGAAGACGCATTCGTGCTTTTCGAAAGCTAA	MNNIAYIALGSNIGERYTYLTEAIQFLNKNPYIQVDDISSVYETEPVGYTDQSCFLNLVIKISTNLSPQELLKVTQKVENDLGRKREIRWGPRTIDLDILLYNQENIEAENLIVPHPRMFERAFVIVPLLEINQDIKQNISRSQVEEMKRREGVTVWKQKNGEDAFVLFES	PGPT0007910_1506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
AK009_08046	204			hypothetical protein	ATGGAAGCAGAAAAATGGGGAAGACGCATTCGTGCTTTTCGAAAGCTAAAAGGCTACACGCAAGAAGGTTTTGCTAAAGAATTAGGGGTATCTGTATCTGTTTTAGGTGAAGTTGAGAGAGGGAATCGATCACCTTCTCAAGATTTTGTAGTAGAAGTTGCTAAGGCATTAAATGTTTCGATAGATGAATTAATGCCAAAGTGA	MEAEKWGRRIRAFRKLKGYTQEGFAKELGVSVSVLGEVERGNRSPSQDFVVEVAKALNVSIDELMPK				NA	NA	NA	NA	NA
AK009_08047	999	dusB	COG0042	tRNA-dihydrouridine synthase B	TTGTTAAAGATTGCAAATATTGAGATGAAAAATCCGGTTGTATTAGCACCGATGGCGGGAGTGTGTAATTCTGCATTCCGTTTAACAGTGAAAGAATTTGGTGCAGGTCTAGTTTGTGCTGAAATGGTAAGTGATAAGGCAATATTACTGAATAACAAAAGAACATTAGATATGTTATATATCGATGAGAGAGAAAAACCATTAAGTTTACAAATTTTTGGTGGAGAGAAAGAAACTCTTGTAGATGCTGCGAAATACGTAGATAAATATACGACAGCAGATATTATTGATATCAATATGGGTTGCCCAGTACCGAAAATCGTAAAATGTGATGCGGGGGCAAGGTGGCTTTTAGATCCCAATAAAATATATGAAATGGTAGCAGCAGTTGTAGATGCCGTTGAAAAGCCGGTTACAGTTAAAATGCGTATCGGTTGGGATGAAGAACATATTTTCGCAATAGAAAATGCTAGAGCTATTGAGCGTGCTGGTGGACAAGCTGTGGCGGTTCACGGACGTACGCGAGTGCAAATGTATGAAGGTAAAGCGGATTGGGATATCATTAAACAAGTAAAGCAAGCTGTGAATATCCCGGTTATCGGAAATGGTGATGTCGAAACACCGCAAGATGCGAAGCGCATGCTTGATGAGATTGGTGTAGATGGTGTTATGATTGGCCGTGCGGCTCTTGGGGATCCATGGATGATTTATCGTACAGTAAAGTATTTAGAGACAGGTGAATTAATGCCGGAACCAACAGTGCGCGAGAAAATTGATGTATGTATGTTGCATCTAGATCGTCTTATCGACTTAAAGAACGAAAGTGTCGCTGTAAGAGAGATGAGAAAACATGCAGCTTGGTATTTAAAAGGTGTTCGTGGTAATGCGAGTGTACGTAATGGTATTAATGCTTGTAACACACGTGAAGACCTTGCGAATGTGTTAGGTGCATTTGTAGAAAAAGTAGAAGCGAAACAACAAACAATTTACGTTGGTTAA	MLKIANIEMKNPVVLAPMAGVCNSAFRLTVKEFGAGLVCAEMVSDKAILLNNKRTLDMLYIDEREKPLSLQIFGGEKETLVDAAKYVDKYTTADIIDINMGCPVPKIVKCDAGARWLLDPNKIYEMVAAVVDAVEKPVTVKMRIGWDEEHIFAIENARAIERAGGQAVAVHGRTRVQMYEGKADWDIIKQVKQAVNIPVIGNGDVETPQDAKRMLDEIGVDGVMIGRAALGDPWMIYRTVKYLETGELMPEPTVREKIDVCMLHLDRLIDLKNESVAVREMRKHAAWYLKGVRGNASVRNGINACNTREDLANVLGAFVEKVEAKQQTIYVG				NA	NA	NA	NA	NA
AK009_08048	1500	lysS_2		Lysine--tRNA ligase	ATGGATAACATGAACCACGAAGAATTAAACGACCAATTGCTTGTTCGTCGTGAAAAGCTACATAATTTACGTGAGCAAGGAATCGATCCGTTCGGTAAACGATTTGAACGCACAAATTCAACGACCGACTTAGTAAGTTTATATGGAGAATTCTCTAAAGAAGAATTAGAAGAGAAAGAAATCACTGTTTCTATCGCTGGTCGTATTATGACAAAACGCGGTAAAGGAAAAGCTGGATTCGCGCACATTCAAGATTTACACGGACAAGTTCAAATTTACGTTCGTAAAGATACTGTTGGAGATGAAGAGTACGAGTTATTTACGACAGCAGATTTAGGTGACTTAGTAGGTATTGAAGGTAAAGTGTTCAAAACAAACGTTGGAGAACTTTCAGTAAAAGCAACGGGATTTACGCTTTTAACGAAATCTCTCCGTCCGTTACCGGATAAATATCATGGATTAAAAGATGTTGAACAACGATACCGTCAACGTTACTTAGACTTAATTACAAGTATGGAAAGTCGTGAAACATTTGTTACTCGCAGTAAAATTATTCGTGAAATGAGAAGATATTTAGATGACAACGGTTATCTTGAAGTAGAAACGCCTATGATGCACGCGATTGCAGGTGGAGCATCTGCTCGTCCTTTCACTACGCATCATAATGCGTTAGATATGGAATTATATATGCGCATCGCAATTGAACTTCATTTAAAACGTCTTATTGTGGGCGGATTAGAAAAAGTTTATGAGATTGGCCGTGTATTCCGTAATGAGGGTGTATCAACTCGTCATAACCCTGAGTTTACGATGATTGAATTATATGAAGCGTACGCTGATTATAATGATATTATGAAACTAACAGAAAATATGGTTGCTCATATTGCGAAAAAAGTATTGGGTACAACAACAATCCAATATGGTGATTATGAAATTAATCTAGAACCAGAATGGACACGTCTTCATATGGTAGATGCAATTAAGCAACACTCTGGAGCGGATTTCTGGAATCCGATGAGTGTAGAAGAAGCGCGTGAGCTTGCGAAAGAACATAATGTAGAAATTAAGGATACAATGGAAGTTGGTCATATTATTAATGAGTTCTTCGAGCAAAAAGTAGAAGATAAATTAATCCAACCAACATTTATTTACGGTCATCCGGTAGAAATTTCGCCACTTGCGAAAAAGAATGATGAAGATCCACGATTCACAGATCGTTTCGAATTATTTATCGTTGCACGTGAACATGCAAATGCATTTACTGAGTTAAATGATCCGATCGATCAAAAAGAACGTTTTGAAGCGCAATTAAAAGAGCGTGAACAAGGTAATGACGAAGCACATATGATGGATGACGATTATATTGAAGCTCTTGAGTACGGTATGCCTCCTACGGGTGGATTAGGAATTGGTATTGATCGTCTAGTTATGTTATTAACAAATGCACCATCTATTCGTGATGTATTATTATTCCCTGCTATGCGCCATAAACAAGACTAA	MDNMNHEELNDQLLVRREKLHNLREQGIDPFGKRFERTNSTTDLVSLYGEFSKEELEEKEITVSIAGRIMTKRGKGKAGFAHIQDLHGQVQIYVRKDTVGDEEYELFTTADLGDLVGIEGKVFKTNVGELSVKATGFTLLTKSLRPLPDKYHGLKDVEQRYRQRYLDLITSMESRETFVTRSKIIREMRRYLDDNGYLEVETPMMHAIAGGASARPFTTHHNALDMELYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGVSTRHNPEFTMIELYEAYADYNDIMKLTENMVAHIAKKVLGTTTIQYGDYEINLEPEWTRLHMVDAIKQHSGADFWNPMSVEEARELAKEHNVEIKDTMEVGHIINEFFEQKVEDKLIQPTFIYGHPVEISPLAKKNDEDPRFTDRFELFIVAREHANAFTELNDPIDQKERFEAQLKEREQGNDEAHMMDDDYIEALEYGMPPTGGLGIGIDRLVMLLTNAPSIRDVLLFPAMRHKQD	PGPT0012225_4479	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK009_08049	1005			hypothetical protein	TTGCGACGCGCCGGACTCCAACGTGGACCGGACCTCCGCCAACACCCGGCGAGGTTCGCGCCGCAGCTCCTCCGGGCGGTAGCGCATAAACGCGAACCCCAAATTTCCGATCTGCTTCTGCCGGTTGTACTCCTGAATGATCGTCTGCTCCGGATCCTGCGAATACTTCAGATCCCCGTCGATCTCCACGGCCACCCAGCCGTCGATAAGCAAGTCCACCCTGAACCCGCAAATCTCGACCTGAACCTCGATGTCGCCCACCTTCCCCCAGATAAACAGCGCGCGGGCCAGCGACTCATACGGAGACTCCGACGCCGCCGACGAATGCTCGATGCACCTGCGCACCACCGAAAGATTACGAAACCGACCCATCTTCTCCACCGCCGCAACCAAATGCCCCCGCTCAAAACCCTGGCTGCGCAGCCAATCCGCCGCAATCAACCCCTCCGCGAAACCGTGATCGCGCGCGATGTCGATAAACGTGCGCACCGGATGAGTCACTCGGACACCATGGATGACATTGTGCTGGGAAATTGGGCGGCGCCGACACACCACGCCACCTGCCGAACGGTAGGACGGAGGCACATGCGCCGACGGCAACGCGAGCTCAACCGGTTCACTCGACATCGACACAACCCACATCCCATGCACGCGAGCGGCCGAACGCCCGACCAGCACCGCACCGTAGGAATTGCGCCCCCTCGCGAGCGCCTCGACGAAACGCATTTCGTGGAAGCGCAGCTCGGCGTGCACGTCAGCCGGCATAGCGATTTGCCTGGTCAGACACACCAGGTTGTTGCTCGTTGGGTCGAGACGCCGCGGATCCGTGCGGGACAATTTCCGCAAGTCGATCAGTTTTTCTGCCAATGGTGTGCGCCAATCCCCCTGCGCCATAGCGTTGAACATGGCCTCTTAGACTGCCGGGAGGCCCCGCGGGTTCCCCCGGTGCGGGATGTTGTTTGTTTGCGGGTGGGATGTCACGGTGAACGGTTGGTGCGGGGGTGA	MRRAGLQRGPDLRQHPARFAPQLLRAVAHKREPQISDLLLPVVLLNDRLLRILRILQIPVDLHGHPAVDKQVHPEPANLDLNLDVAHLPPDKQRAGQRLIRRLRRRRRMLDAPAHHRKITKPTHLLHRRNQMPPLKTLAAQPIRRNQPLRETVIARDVDKRAHRMSHSDTMDDIVLGNWAAPTHHATCRTVGRRHMRRRQRELNRFTRHRHNPHPMHASGRTPDQHRTVGIAPPRERLDETHFVEAQLGVHVSRHSDLPGQTHQVVARWVETPRIRAGQFPQVDQFFCQWCAPIPLRHSVEHGLLDCREAPRVPPVRDVVCLRVGCHGERLVRG				NA	NA	NA	NA	NA
AK009_08050	576			hypothetical protein	GTGGCCGAACGGGTCTTCGTCGGTGCCCGGCAGCCAGGTGCGGCCCGGGATGTTCCACTCGTTGTCGCGGATCACGCGCTTCGCCTCGCGCTTGTAGCGGCCGGTGAGCACGTCGGTGTAGACGAACCCGTCGAGGTGGCCCACCTCGTGCTGCAGGCAGCGGGCGAAAAACCCTTCGCCTTCCACCACGACTTCGTTGCCGTTCTCGTCCAGGCCGGTGACCTTTGCCCAGCTCGCGCGGTTGGTGGGCCACGACTCGCCCGGCACGGACAGGCAGCCCTCGTCGTCTTCGCCGTCGTCACGCGGCATGGTTTTGGGAACCTCGGAGGTCTCCAGCACCGGGTTGATCACGGTGCCGCGGCGCATCTGGTCGCCGTCGGGGCAGTGGTAAACGAACAGCCGCAGCGGAACACCAACCTGGTTCGCCGCCAGCCCGACGCCGTATGCGGCGTCCATAGTCTCGTGCATGTCCGCGATCAGTTCCTGCAGCTCGGCGACCGGCTGCTCGACCGGCTTCGTCGGCTCGTGCAACACCGGGTCGCCGTGGATCACGATGGGTCGAATTGTCATGCTTAA	MAERVFVGARQPGAARDVPLVVADHALRLALVAAGEHVGVDEPVEVAHLVLQAAGEKPFAFHHDFVAVLVQAGDLCPARAVGGPRLARHGQAALVVFAVVTRHGFGNLGGLQHRVDHGAAAHLVAVGAVVNEQPQRNTNLVRRQPDAVCGVHSLVHVRDQFLQLGDRLLDRLRRLVQHRVAVDHDGSNCHA				NA	NA	NA	NA	NA
AK009_08051	621			hypothetical protein	ATGCGTTTAACACTAACCCAGGAGGGCGTAGCGCTGCCGATGGTGTTCCACAAAACCCAGCTTCTGGTACAACCCGATCGCCGCGGCGTTGCCCGCGCGCACGTGCAGGTAGGCCTCGTCGGCGCCGTGGGACGCGCCCCACGCCATAAGCGCCGCCCCGAGCGCGGTGCCCAGGCCGCGGCGGCGCAGCGCGGGCGCGACCTCAACCGCGGAGTAGCCCAGCCACACGCGCCCGTCTTCGGACTCGGTGAGGGTTGCCCTGGTCACGGCCACCGTATCGCCGTCGCGGGTGAGGCGGGCGTACGCGATGCGCCCGTCGATGGGGCGGATCGCGTCGGCGGGAAGCGGCTGGCCGCGGAAGTGGTACATCGACAGCCAGGCCTCATCGGGGGTATCCAGCACTTCGAAGTCCGCGGCGATCTCCCCGCCGTCGAGGTGCCGCGTCATCACCAGAATCTCCTCGCCAAGCTTCCACTGCGGCGTGAGGATTTTCAGTGCCGGCTTGCCAATGCGCTCCGGGATCAGCAGCTGCAGCGGCTTGCCGCGCTGCCGGTAGAAATCGGTGAGCTCCTCCAGCGGCACCGGGTTGAAGCCCGCCGAGTAGCCGATCGGGGTTGCTGA	MRLTLTQEGVALPMVFHKTQLLVQPDRRGVARAHVQVGLVGAVGRAPRHKRRPERGAQAAAAQRGRDLNRGVAQPHAPVFGLGEGCPGHGHRIAVAGEAGVRDAPVDGADRVGGKRLAAEVVHRQPGLIGGIQHFEVRGDLPAVEVPRHHQNLLAKLPLRREDFQCRLANALRDQQLQRLAALPVEIGELLQRHRVEARRVADRGC				NA	NA	NA	NA	NA
AK009_08052	591			hypothetical protein	ATGGCGGACCTAGCGCACTTCGTCGTAGGCGAACGCGGTGGTGTCAATGTCGGCGATCACCGGCGCGTGGTCGCTCGCGCCCTTGCCGCGGCGCTCGTCGACATCCACCCAGGCCTTGACCACCTTGCTTGCCACAGGCGGGGTGGCCAGCAGGAAGTCGATCAGCATGCCCTGGTTCTTCTGAAACCGCATCGCCTTGTAGTCCCAAAACGAGTACGCGTCATCGTGGCGGATCTCCTCCAGGCCCGCCTCGAGCAGCATCTGGAAGGCAGCGCGCTCCGGCTCGGTAACGTGGGTTTTGCCCTCGAACCAGGCGATGTCCCACACGCTGTCGTCGCGCGGGGCGATGTTGAAGTCGCCGGTGAACAGTTGCGGCGTTTGCGCCTCGACCGAGTGCTGCAGCGAGTAGAGAAACTGCAGCTTGTAGTCGTAGTGCGGGTGGCCGATCTCCCGGCCATTGGGCACGTACAGCGAAAACACCTGCACCCCGCCGCACGTCGCGCCGACCGCGCGCGCCTCGACGTTGCCGTCATAAGCGGGCTGGTGGTCGAACTGGGTGTTAACGTCGTCCAAGCCCACACGGGAGGCTAG	MADLAHFVVGERGGVNVGDHRRVVARALAAALVDIHPGLDHLACHRRGGQQEVDQHALVLLKPHRLVVPKRVRVIVADLLQARLEQHLEGSALRLGNVGFALEPGDVPHAVVARGDVEVAGEQLRRLRLDRVLQRVEKLQLVVVVRVADLPAIGHVQRKHLHPAARRADRARLDVAVISGLVVELGVNVVQAHTGG				NA	NA	NA	NA	NA
AK009_08053	510			hypothetical protein	GTGCACACCGCGCGCCACCGCCCGCTCCATCGCCTCGAACACGATGCCGGTCGTGTCGTCCCAGGCCACGGCGTAGATTTCAACATCGACGTAGTTCTCGGAGGCGTCGATAAGCTGCGCGATGCGGCGAATCGCGAGCTCGTAGTCGGACCAGACGTGGCGCAGGTTGGCATCGACGGCGGGAAAGCCCGTCAGCGCGCGGTGCAGGCGCACGATGGCCTCCTTATCGGCGCCGAGGTTTGCGTCGGGGGGAAGGTCCGGGATGTCGGTGTGCACGTTGTCGATCTCGGCCCGGACGCGCTGCTGGATGCGGTGGCGGCGCCGGTTGAAAAAGTTCGAGCCCATCAGCAGGTACAGCGGCAGGCCTATGAACGGCAGCAGCAGAATGAGCAACAGCCACGCGTTCGCCGCCGAGGGGCGGCGGTTCGACGGCACGATGCCGATCATCACAAACTTGATCGCGTAATCGACCAGCATGGCCACGAGCTGCCAGTAACTGATATCCAGTGA	MHTARHRPLHRLEHDAGRVVPGHGVDFNIDVVLGGVDKLRDAANRELVVGPDVAQVGIDGGKARQRAVQAHDGLLIGAEVCVGGKVRDVGVHVVDLGPDALLDAVAAPVEKVRAHQQVQRQAYERQQQNEQQPRVRRRGAAVRRHDADHHKLDRVIDQHGHELPVTDIQ				NA	NA	NA	NA	NA
AK009_08054	669			hypothetical protein	GTGCAGGATGTACGGGGCGGGGAACTGCCAGATGTGCACGCCCGCGCGCAGGAGCTGCTCGTAGTAGGACGACTGCGCGTGGTTGACCATGAACTGGTCGGCCTTCTCGCCGACGAGCAAATCAACGCGCACCCCGCGGTAGCAGGCGGTGGTTACGGCCTCGAGCAGCGAGTCCTCGGGCACGAAGTAGGGCGAGCACAGGATCAGGCGCTCGCGCGCGTGGTGGATCAAGGTGTTGAACATCCGCAGGTTCGGCTCGGTCTCGTAACCGGGGCCAGAGGGGATGAGCTGCACGATGTGCTCGCCAGGCTTATCGACGCCCAACCGACGCGGCGGCAGCAACTCAATCGCCTCACCGGACTCGGTGTACCAGTCGACCGCGAACATCGATTCCAGAGAGGTCACGATCGGCCCCTCGAGCTCGATGAACACGTCGATCCACTGGCGTCCCGCCCGGCGGTGGTTGCGCATCAGGTAGCTGCGGTCGATGAGGTTGAGCGAACCCATCATCGCGATATGGCCGTCAACGATGACCACTTTGCGGTGGTTGCGCAGGTCGGGCCGGCGGAACCGGCCGCGCCACGGCTGCAGCGGCAGCATCAGGTACCAGTCGATGCCCGCGCGCGTCAGCTTGCGCGTCATGCGACGGTAGCCGGGGTACTTCTGTGA	MQDVRGGELPDVHARAQELLVVGRLRVVDHELVGLLADEQINAHPAVAGGGYGLEQRVLGHEVGRAQDQALARVVDQGVEHPQVRLGLVTGARGDELHDVLARLIDAQPTRRQQLNRLTGLGVPVDREHRFQRGHDRPLELDEHVDPLASRPAVVAHQVAAVDEVERTHHRDMAVNDDHFAVVAQVGPAEPAAPRLQRQHQVPVDARARQLARHATVAGVLL				NA	NA	NA	NA	NA
AK009_08055	201			hypothetical protein	GTGCCACGGCCTGCGGCTCCATTCCTCCAAGGTCAGCTCGTCGGAGACGTTCATGTAGGTCCGGGCGAGCGTGTACAGGTCGTCGAGAAGCGAGCCCGAGGCCACGAACAGGGAACTTTCGTAGTTCAGCGAGAACGAGCGCATGTCCATGTTGGAGGAGCCGACGACGCCGACGAAGGTGTCGCGGCCGGGATCGGCTAG	MPRPAAPFLQGQLVGDVHVGPGERVQVVEKRARGHEQGTFVVQRERAHVHVGGADDADEGVAAGIG				NA	NA	NA	NA	NA
AK009_08056	633			hypothetical protein	GTGGACCGCTCAGTCTTTCATGTGGCCCAACGACTTCTTTCGCGCTGCCCTGGTGAGTCGCTACCGGCCGTTTCCCTCCAGAAGCTGTGCTTCTACTCCTACAGTTGGTACGCCCACTTGACCGGAGCGCCCTTGTATCCGGAACAGATGTGGGCGATGAAATACGGCCCGGTCGTGGGAGATCTTTTGAGTGCCCATTCCGGGCAAGCCTCCGTATCGCTCGATTCGCTTGAACCGCAGTTCGAGGAATGGGGCTTAAGTCCTGATCGCAGCGTGGACGACTCATACGCGGATGCCGTGATCGATGCCGTCTTTTCCGCATACTCGGGCTTCGGCGGGTGGGAACTCGCTGAGATGTCTCATCTTGAGCCGACGTGGTCGAATGCTTGGGGCGAGAAAGGCACCGCCAAGCGCAGTTTCATGCCGGCTGAAACGTTGCTTCGCCATTACAGCCAATCCTCCCCTCTTCTATCAGGTACGACTTCAGCTGGGACGGCCTTTGAGATCGACATCCACTTGCCGGATCCCCTAGTAACATTCGTATCCGGTGATCGAGTGGACTGGTTGCTCGAGCAACCAGTACGGCCTCACTCTCCGTTTATGGAGACGCTTCGGCGCATTGGATCTGCCTAA	MDRSVFHVAQRLLSRCPGESLPAVSLQKLCFYSYSWYAHLTGAPLYPEQMWAMKYGPVVGDLLSAHSGQASVSLDSLEPQFEEWGLSPDRSVDDSYADAVIDAVFSAYSGFGGWELAEMSHLEPTWSNAWGEKGTAKRSFMPAETLLRHYSQSSPLLSGTTSAGTAFEIDIHLPDPLVTFVSGDRVDWLLEQPVRPHSPFMETLRRIGSA				NA	NA	NA	NA	NA
AK009_08057	987			hypothetical protein	GTGCAGCAACACGACGCCGGCCACCCAGGCCACCACGGCCCAGGCGAGGAAAATGCCGTAGGAAACCCACACATTGTCGTGCTGCGCCGGCGCGTTAGTCACGAACGCGTAGTAGTTGGAAAACGGCAGGTACTGAGCAATATCGCGCCCGATGCCCGGGATGAACCCGACGATGGTTTCCACGACGAACTGGAAGGCGAAGACCAACGTGACGGTGCCCGCGGTGTTGCGCACGATCCAGCCGACGCCCTGGGTGAGCATGGTCAGCGTCGCGGTCGCCAGCGGCACCGCCCACAGCGCGCGCAGCGTCGCCGGGTTGGACGTCCAGTTTGCAGGCACGTCGGCGAGGGCGTCGGCAAGCGTGAAGGCGATGATGAGCGCCACCAGCACGGTCAGCGCGGCGAGCACGGCGTAGAGCGCCAGCTTGGCGACGGCCACCTGCCAGCGCTGCGGCGCGAGGCGGAAGTTGGTGGTTTGCAGGCCGAAGCGGTACTCGGTGGTGACCACCATCGCCGACTGCACGATCACGATGATCGCCGAGATCATGCTCACCGCCATGATCACGGTGATCGGGAAGTACAACGACCCAGCCGGGGCGGCGAACGCGACGGCGAAAATGGCTGCGATGGCCAGGATCAGGCCGGTGGTCCAGTAGAAGGAGGCGGTCGAGCGCAGCTTCGTAAACTCTGCGCGCACAAGGTTAAGCACGGTGTTTCCCTCCTGAGGTGTCCTGGGATTGTGCCTGGTACTGGATGTGGCCCTCGGTGGAGCGGATGTAGGCGTCCTCGAGCGAGGCGCGGCGCTCGCTCAGCTCGGCGAGCTGCACCCCGGCGCGAAACGCCACGGCGCCGATCTCGTCGCAGGTGTGATCCGCCACGGCGATCGTCGGCCTGCCCTCAGCATCGACGCCTAGCTCGAAGCTCACCCCGGCCGCGGCCAGGGCGGTCTCCATCGCGGCCGGGTCCACCGGGCGCACGACGGTGGTGA	MQQHDAGHPGHHGPGEENAVGNPHIVVLRRRVSHERVVVGKRQVLSNIAPDARDEPDDGFHDELEGEDQRDGARGVAHDPADALGEHGQRRGRQRHRPQRAQRRRVGRPVCRHVGEGVGKREGDDERHQHGQRGEHGVERQLGDGHLPALRREAEVGGLQAEAVLGGDHHRRLHDHDDRRDHAHRHDHGDREVQRPSRGGERDGENGCDGQDQAGGPVEGGGRAQLRKLCAHKVKHGVSLLRCPGIVPGTGCGPRWSGCRRPRARRGARSARRAAPRRETPRRRSRRRCDPPRRSSACPQHRRLARSSPRPRPGRSPSRPGPPGARRW				NA	NA	NA	NA	NA
AK009_08058	645			hypothetical protein	GTGGACCGACGTGTCCGCCACGAGCCTGCCGCGGCCAATGACGATGAGGTGATCGGCGGTCTGCGCCATCTCGGCCAGCAGGTGGGACGACACCAAGATCGTGCGGCCCTCATCCGCCAGGGAGCGCAGCAGGCCGCGCACCCAGCGGATCCCTTCCGGGTCGAGGCCGTTGACCGGCTCGTCCAAGATCAGGTACTCCGGGTCGCCCAGAAGCGCCGATGCAATGCCGAGGCGCTGGCCCATGCCGAGCGAGAAGCCGCCCGTGCGCTTGGCCGCCACGTCGCTCAATCCTACGAGGCTCATGACCTCGTCGACGCGCGCGTCCGGGATGCCGGAGGCCTGGGCCTGCCACAGAAGCGAGGCGCGCGCGGAGCGGTTCGGGTGCACGCCTTTGGCGTCGAGAAGCGCACCGACGCGGCGTGCCGGCTGTTTCAGGGATGCGTAGGGGGAGCCGTCGATAAGCGCCGTGCCCGAGGTGGGCGAATCGAGGCCGAGGATCATGCGCATCGTCGTGGACTTGCCGGCGCCGTTGGGGCCGAGGAAGCCCGTGACCACGCCGGGTTTGACGGTGAACGTCAGGTCGTCGACCGCGCGTACCGGACCGTAGTGTTTGGTCAGATTGTGAACGTCAATCATGCGGTTTAG	MDRRVRHEPAAANDDEVIGGLRHLGQQVGRHQDRAALIRQGAQQAAHPADPFRVEAVDRLVQDQVLRVAQKRRCNAEALAHAEREAARALGRHVAQSYEAHDLVDARVRDAGGLGLPQKRGARGAVRVHAFGVEKRTDAACRLFQGCVGGAVDKRRARGGRIEAEDHAHRRGLAGAVGAEEARDHAGFDGERQVVDRAYRTVVFGQIVNVNHAV				NA	NA	NA	NA	NA
AK009_08059	516			hypothetical protein	ATGCCCGACAACCGCGTCGAGCGACGCTTCGAAGCCCGGGTGCAGCGGCAAGGCGCGGATCCCGTCCACCGGGACCCAGCGCAGCTCCGCCGACTCCTCGTTCGGCTCCACCGGGATCGGCTCGCCGGTGTTCGTCGACGCGAACACCGTGGTGTAGGTCCAGCCCGACGGGAACGGGCCGGCAGTGACCATCGCCGAGGTCACGGTGATCAGGGAAGGGTCAATCCCGCACTCCTCCACCGTCTCGCGCAGCGCGGTCTGCTCCACAGTCTCGTGCGAGTCGCGGGCCCCGCCGGGCAGCGCCCAGGTGCCGCCCTGGGCTGTCCACGTCGCGCGGTGCTGCAGCAGAACCCGGCCCCCTGCCTGCAAAAAGAGCCCGGACGCGCCGAAGCGCCCCCACAGTTTCATGCCCGCGGGGCCTTCGACCCAACCGTTGCCGTCGCCTTCCATGCCACCCACTTTAGGCACGCGCGGGCCACGCTAGCCAACAATCGGCTGATAGTTACAGCACGATAA	MPDNRVERRFEARVQRQGADPVHRDPAQLRRLLVRLHRDRLAGVRRREHRGVGPARRERAGSDHRRGHGDQGRVNPALLHRLAQRGLLHSLVRVAGPAGQRPGAALGCPRRAVLQQNPAPCLQKEPGRAEAPPQFHARGAFDPTVAVAFHATHFRHARATLANNRLIVTAR				NA	NA	NA	NA	NA
AK009_08060	348			hypothetical protein	GTGCGCCGAGTTGCTCATCGGCTCGGTGGAGTTGACCAACACGTCCATCGCCTCCTGGCGCGCAGCCATGGTCTGGCTCATGGACACGCCGGCGGCGATCAGCGCCAGCGTGAGCACCAGCATCATCGACAGCAGCTGGCCGGGGGTGGTGGTGATGAAGTCGATAACGCGGCGCACCCAGCGCAGCGGGCCGGTAAACGTTTCGGCCATCTTGACGCGGGCGGAGCGGTTTTCGGGCAGGGCTTCGAGCTCGTCGACGAAGGCGTCGTCAAGCGGAGCGTCGTCGATCACGCTCGCTTGCTGCACCATTGCTATACCATAACCCGCCAAAAGCTTATCGTGCTGTAA	MRRVAHRLGGVDQHVHRLLARSHGLAHGHAGGDQRQREHQHHRQQLAGGGGDEVDNAAHPAQRAGKRFGHLDAGGAVFGQGFELVDEGVVKRSVVDHARLLHHCYTITRQKLIVL				NA	NA	NA	NA	NA
AK009_08061	1005			hypothetical protein	ATGGCCGTCATCGCCGCGAACGAGGTGCTCGAAGGCACCGTCGATTCCGGCGCGCGCGACGACGAGATCCGCCGCTTGGTGCTGCAGATCCAGCGCGACATCCCCGTCTACGCCGGGCTGATGGAGCGGGCGAAAACCAACCAGCGCATGGGCAACCCCGTGAGCGTGGCGTACATGTCGTCGAGCTCGAACGTGATGCGCGAGCGGATGCTGGGCAACGCCACCGAACTGTTCAACCTCACGCGCGAGCAGGTCGCCGACGAGATGGAGCGCCTCGCCCGGCCCCAGTGGGTGCCGCTCTCAGGCCTGGTCGCAGCGCTTATTTTCCTGCTGCTGGCGCAGGTGTGGCTGTGGAAGGTGTTCCGCCGCCGCCTCAACCGCGGGTTCATCGCCGCGACCGTGATGATGCTCATCGCGATTATCTGGGCCTCGGTGGCCAACTACTCGGTGTGGCAGTCCGGCCAGCGCGACTTCGAGCGCGCCTCCACGCCCTGGGAGGAGCTGACCAGCGCGCGTATCGACGCCCAAGAGACCCGCACCGACGAAATCTTCGCGCTACTGCGCCGCCAGTCCGTCTCGGATACCGACCTGACCTTCTCAGAGACCTACGACTCGGTCTCCCGCGCAGTGGATTCCGCCTCAGCGCCCCCATCCGGCTCGACGGACCCGGACCTGATCGCCTCCGCGCGCGAGGCGCTGGACCAGTGGGATGAGGCGCACACCCAGTTCGCGCAAACCCTTGGCGGCGGCGAGTTCGACACCGCCGTCCAAGTCCTTACCGACCCGAACCCGGACGAGGGACTGGCATCCTCCTCGCGCGCCTACACCAGGCTGGACAACGCCCTGTCCGGGCTGATCGGCCAGTCTCGCCAGGACATGCGCGAGTTCATCGTGGCCTCCCTGGACGCCACCAGCGCAGTCGCCGGCGCCGTTTTGGCCTTTACCGCCTTGTCCGTGCTGTCGATCTGGCTCGGGATTCGCCGCCGCTTGAGGGAGTACCTGTGA	MAVIAANEVLEGTVDSGARDDEIRRLVLQIQRDIPVYAGLMERAKTNQRMGNPVSVAYMSSSSNVMRERMLGNATELFNLTREQVADEMERLARPQWVPLSGLVAALIFLLLAQVWLWKVFRRRLNRGFIAATVMMLIAIIWASVANYSVWQSGQRDFERASTPWEELTSARIDAQETRTDEIFALLRRQSVSDTDLTFSETYDSVSRAVDSASAPPSGSTDPDLIASAREALDQWDEAHTQFAQTLGGGEFDTAVQVLTDPNPDEGLASSSRAYTRLDNALSGLIGQSRQDMREFIVASLDATSAVAGAVLAFTALSVLSIWLGIRRRLREYL				NA	NA	NA	NA	NA
AK009_08062	270			hypothetical protein	TTGCGACTGGTCGACGCCGACGACGATGCGGCCACGCTCGACGACGTCCGGGATGCGCTCGGCCGGCGTCGCGTTATCCGGGCGCAGCGAGCCCTCCCACTCGGTGTCCTGCGCGAACCCGGTCTCCGGGGCCACCCCGGGCCTGTCCAGCACCGCGCCGGGCGGCAGCGGTACGCCGCTATACGACGGCGGCGGCAACGCCGGCGCAGCAACGCGGGTCTCGCCCCCGGGCGCGCAGGCGCTGAGGGCGGCACACGCCAGTGCCGCTGA	MRLVDADDDAATLDDVRDALGRRRVIRAQRALPLGVLREPGLRGHPGPVQHRAGRQRYAAIRRRRQRRRSNAGLAPGRAGAEGGTRQCR				NA	NA	NA	NA	NA
AK009_08063	396			hypothetical protein	GTGTGTGCCCACGGCGTACTGCTGGCGGCCGTAGCGCCGCGGCAGGATCGTGGTGTACGGGTCCTGGGCGACCATGCCGGCAAGGATCGCGTCGTCGGCCAGGATCGCGTCGGCGTGGAACTGCTGGGTGGCCATCAGACAGTCCGCCCAAGTGCGGGTGCGCAGGATCGTCGACTGCGGCGCGATCTCGCGCGCGAGCTGCACCAGGTTCGAACCGTCGACAACGCACACGGTGGTGCCCGGGAGGTCATCCTCGCTCAAAATACCCCGGTCCCGGGGTACGAGCAGGCGCACGTACGAGGTCAGGTACGGTGTGGAGAAGTCGACGCTGGCAACGCGGGTCGGGGTGACCGACATCGTGCGGATCACGATGTCGACCTCGCCGTTTTGCAGTGA	MCAHGVLLAAVAPRQDRGVRVLGDHAGKDRVVGQDRVGVELLGGHQTVRPSAGAQDRRLRRDLARELHQVRTVDNAHGGAREVILAQNTPVPGYEQAHVRGQVRCGEVDAGNAGRGDRHRADHDVDLAVLQ				NA	NA	NA	NA	NA
AK009_08064	1323			hypothetical protein	GTGGCAGCACCGTCGGATGAGCCGGTACAGCGAGAGGTAGCGGCGAAACGTCGGCTCCGTCGTCGGCGAGGGGATGCCGGGGTCGTACACCCCGTCGGTGCGCGGCAGGTGGACCACCAGCGAGGCCAGTGTCCGGCCGATGGTGTAGATGTCGGAGGCGATGCTGGGGCCCTGCGTGGCCACCTCGGGGGCCTGGTAACCCTTGGTGCCGTAGATGAAGCCGTAGGCGCCGATGCCGCTGACCGCGCCGAGGTCGATGAGCTTGACCTGGTCCTCGGTGACGATGATGTTGTCGGGTTTCAGGTCGTTGTAGACCACCCCGCGCGAGTGCAGGTACACCAGCGCGGGCAGCACCTCGAGGATGTAGGCAATCGCCAGGTCGACGGGGAGCAGCCCGTTGGGTTGCTCGTTCCTGCGCTGGCCGAGGCTGGGCCCGCCGACGAACTCCATCACGATGAACCCGCCGGGCACGCGCGAGTCGTCGATGAAGTTGAAAATCTTCACGATTCCCGGGTGGGTGATCTCGGCGAGGAATTCGCGCTCCGCCACCGCCGCGGCGGCCTCGTCGGCGTTTTTGGTCGAGTGCAGCCCCTTGAGCACCACCACGCGGTCGGCGACGTTGCGGTCCTGGGCCACGTAGATCCAGCCCATCCCGCCGTGCGCAATCACGCCCATGATCTCGTACTGGCCGGCCACCACGTCACCCGGGTGCAGATGCGGGGCGTTCAGGCCCTTCTGCACAACGGCGCGGGTCGGGTCTTTCAGCGCCTCCTTCGGGTCGGTCGGCGCGATCCACGGCAGCTCCACCATGCCGTCGGCCACCGCACGCGCCGCGCGCTTCGCGCCGCGCAGCTCGCGGAAGGTATCGAGCGCTTCGCGCCGCGAGCGTTGCGACGTGTCCTCCTCACGCCGCCCCTCCCTCAGCGCGTCAAGGTCTTTGAACAGCTCAGCCATGTCGCCCAAGCCCGCGTAGTTGCGCTCGTCGCTGTCACTGTCGTCGTCAAGAGCGAACGGGTCGAAGGCGACGGCCTCGGTAGCCGGGTCGTCGCCGGCGAAGGGGTCGTACTCGACGGCCTCGGTGGCGTCGTCTACAGCGTCTTCTACTCTCTCGTCGCGCTCGCTCACTGTTGCTCCTTCGCCTCAGAAGTAGCTCTGTACCGCAGCTCCGGCATCGACGGGCTGGCTAGGCTGCCGGAGAGCCATCTCTCGTACATCGCGTTCCAGGTGCCGTCGTTACGCAGCCGCTCCATCGTGGAGTTGACCTGCATGGTCATCCCGGCATCGCCCTTGTGTGTGCCCACGGCGTACTGCTGGCGGCCGTAG	MAAPSDEPVQREVAAKRRLRRRRGDAGVVHPVGARQVDHQRGQCPADGVDVGGDAGALRGHLGGLVTLGAVDEAVGADAADRAEVDELDLVLGDDDVVGFQVVVDHPARVQVHQRGQHLEDVGNRQVDGEQPVGLLVPALAEAGPADELHHDEPAGHARVVDEVENLHDSRVGDLGEEFALRHRRGGLVGVFGRVQPLEHHHAVGDVAVLGHVDPAHPAVRNHAHDLVLAGHHVTRVQMRGVQALLHNGAGRVFQRLLRVGRRDPRQLHHAVGHRTRRALRAAQLAEGIERFAPRALRRVLLTPPLPQRVKVFEQLSHVAQARVVALVAVTVVVKSERVEGDGLGSRVVAGEGVVLDGLGGVVYSVFYSLVALAHCCSFASEVALYRSSGIDGLARLPESHLSYIAFQVPSLRSRSIVELTCMVIPASPLCVPTAYCWRP				NA	NA	NA	NA	NA
AK009_08065	576			hypothetical protein	TTGCAGGATGAGCTCGTCGATCGCGGCGATGGCGAGCTTGGGGGCGGCCTCGCCGGGCACGGCGACGAGCACACTGGTGAAGTTGGCCTGAGCGGACTGGAAGTCGCCGATGAGTGTGTTGGTCACGCCCGAGTACCAATGGAATCGCCAATTGTGGCTGAGGCGGTCCTTGAGCGATTCGAGCCAGGTGCGCGCCTGGTAGGTCAGCCCGAGGTCCAACATCGCGCGGACGACACCGAACGGGATTTCGCTGGACTGCTCGTACTGCGGGGTCTGCATCGCCTGGCGCAGGTTTTCCAGGGTCTCCTGCGGCTCCTGGTAGGAGGTGCCCTGCAGCATCGCGGCGCCGACGTCGTGGCGGTCGATCAGGGGAGCGGGCAGCGCGGTGACAACTTCCTGCGGGGTGATCTCCACGGTGCGGCTGATGCCGTCGATGAGCTGGTCGGTGCGAAACACCAGGTGCTTGGTGCCAAACGTGGTGCGCTGCGGGGAGAACAGCGAGTGCTGGGCGGGGTAGGTGCGCCCGTCGCGGATCGCGATGCACTCACGCAGCACCCCGTAAAGCTGGGTTTCTAG	MQDELVDRGDGELGGGLAGHGDEHTGEVGLSGLEVADECVGHARVPMESPIVAEAVLERFEPGARLVGQPEVQHRADDTERDFAGLLVLRGLHRLAQVFQGLLRLLVGGALQHRGADVVAVDQGSGQRGDNFLRGDLHGAADAVDELVGAKHQVLGAKRGALRGEQRVLGGVGAPVADRDALTQHPVKLGF				NA	NA	NA	NA	NA
AK009_08066	507			hypothetical protein	GTGGTCGGAGGCGGCCCGGTCGACACCCGCGTCGCGCAGCAGCGTGAGTGCCGCGCGCAGCACGTAGACCTTGATCTGCAAAAACCGAGGTTCGTTGTTGGGGATTTCTTCCAGGCGGCGGGCGGCGCGGCGGATGCGGGACTCCGTCAGTTCGTCCGACACCAGGTCGAGGATAGTGGTGAGCTGCGCCATCCTGTGGTGGCGCGAGGAGTTCGGCACCTTGTCCAGCGCCGCGACGGCGAGCTCGACCTCGCGCTCCGCCATCAGCAGCCGCGCGAGCCCGAAAGCCGAAGACACCGTCGTGGGGTTGGTCAACCACACCAGCGAGTAGAGGCGCAGGGCGTTGAAACGCAGGACAGTCGGGGTATCGCTGAGCATGGTCCAGTCCTCGGCGAGCACGCCCTTGGACTGCCACGCCTCGAAGGTCTCCGAGGGCAGTTCGCCCAGGTGGGTGCGGATGCCGGCGGCGGCGCGGGAGAGGGCGTCGTCAAGCAATGCCCCCGTTAA	MVGGGPVDTRVAQQRECRAQHVDLDLQKPRFVVGDFFQAAGGAADAGLRQFVRHQVEDSGELRHPVVARGVRHLVQRRDGELDLALRHQQPREPESRRHRRGVGQPHQRVEAQGVETQDSRGIAEHGPVLGEHALGLPRLEGLRGQFAQVGADAGGGAGEGVVKQCPR				NA	NA	NA	NA	NA
AK009_08067	498			hypothetical protein	ATGCAGGTCGCGGAAGTCGTTGACACCGGACAGGCCCTTGATGCCGGACTGGCGGTTGAACAGGGTGTCGATCTCGTCAATGCTCATTCCCGCCTGGCGGTGCAGGTGGAAGATGATGCCCGGGTCGACGTCGCCCGTACGCGTGCCCATCACCAGGCCGGCCAACGGTGTCAGGCCCATCGAGGTATCGATGGGTGCACCGCCCTTGACTGCGGAGCAGGATGCGCCGTTGCCGAGGTGCAGCACGATCTGGTTGGTGTCTGCGCTGTCGCGGCCGAGGATGCCGGGCACCTGGCCGGAGACGAACTCGTGCGAGGTGCCATGGAAACCGTAGCGGCGCACCTGGTTGGCTTCGGCCACCTCGCTGTTGATCGCGTAGGTGGCGGCTGCCGCCGGCAGTTCGCTGAAGAAGCCGGTGTCGAACACCGCGACGTGCGGGATGTTCGGCAAAAGGTCGCGCGCGACTTCGATGCCGTCGATGTTGGCCGGGTTGTGTAG	MQVAEVVDTGQALDAGLAVEQGVDLVNAHSRLAVQVEDDARVDVARTRAHHQAGQRCQAHRGIDGCTALDCGAGCAVAEVQHDLVGVCAVAAEDAGHLAGDELVRGAMETVAAHLVGFGHLAVDRVGGGCRRQFAEEAGVEHRDVRDVRQKVARDFDAVDVGRVV				NA	NA	NA	NA	NA
AK009_08068	186			hypothetical protein	ATGGACAACGCGGTGGCCGACCGCCACGAGGTCGAGCTGGGTCGGGCCGACACCGAGAGAGTCGAGCATGGCCACGGCGAGCTGCAGGCCGCCGCGGTGGTCACGGATCGGCTGGTTGGAGTCGTGCTTTTCACCGTTGTGGGTAACCGAAATCCGGCCGTCCTTTTCACCGATCTTCTCCACTAA	MDNAVADRHEVELGRADTERVEHGHGELQAAAVVTDRLVGVVLFTVVGNRNPAVLFTDLLH				NA	NA	NA	NA	NA
AK009_08069	795			hypothetical protein	GTGCGCGGTGGTGTGGGCCGCCCCGGAGACCATGCCGTCGGCGATGCCCTTGTGCACCATCATGGTGCCGAAGTAGGAGATGTCCTTCATCGTCTCGCGGGCGTCGTCAAGCGAAATGCCCTTCTTTTTGCGCAGCTCGGCGAAGTCGGCTGCGAACTCCTCGAGCAGGTCGGACTCGAGGTGGTTGAGGATCTGCGCAGCGGACAGGTCGAGGCCGAGGTCGGCGGCGCGGCGGTCGATGTCGGCCTGGTCGCCGAGGATGGTCAGGTCGACGACCTCGTCCTCAAGCAGCTGCGCGGCGGCCTGCAGGATGCGGTCGTCCTCGCCCTCGGGCAGCACGATGTGGGCGCGCTTTTCCTTCGCGCGCTCGATCAGCCACGACTCGAACACCACCGGGGACATGACCTGGCGCGCCTCGACTGCGGCGATCTCGGCGTCGGCAAGCTGCTCAGCGGAGAAAACTCCGGCGACAATCGCGCCGAGCTCCTCCAGGCGTCGCTCCGCGAGTTCGACGTTGGCATCTTCAGCGGTGACCAGCACAACCGGAATCCCCAACGCGGCGGCAAGCTCGCCGTCAAAGCTCACATCGCCCGTACCAACAACCAGCGCCGGCTCCTCGGCCAGCAGGTGCGCGTCGTACATCTCCTGGAGATCCGTGCCGTACGAGTCGAGCCGGACGACGCGCAAGCCCCGCTTGGAAGCGAAACCTTCCACGTCAATGCCGTCGTAATTGCGGTTAGCGAGTGTGATGAGCAGCGATTGGTCCGCCATTGTGCACCTTTCGTAGCCGAGTAA	MRGGVGRPGDHAVGDALVHHHGAEVGDVLHRLAGVVKRNALLFAQLGEVGCELLEQVGLEVVEDLRSGQVEAEVGGAAVDVGLVAEDGQVDDLVLKQLRGGLQDAVVLALGQHDVGALFLRALDQPRLEHHRGHDLARLDCGDLGVGKLLSGENSGDNRAELLQASLREFDVGIFSGDQHNRNPQRGGKLAVKAHIARTNNQRRLLGQQVRVVHLLEIRAVRVEPDDAQAPLGSETFHVNAVVIAVSECDEQRLVRHCAPFVAE				NA	NA	NA	NA	NA
AK009_08070	1065	purT		Formate-dependent phosphoribosylglycinamide formyltransferase	ATGGATTCTCTGACTCAGCGCCAGGTGTTCGTGCTCGGCACAGGCCCAGTGGCGCAGTCCTCCGCATCCGCGTTTGCCGACCTCGGTTTCGACGCCTACGTGGGCACCTTGGAGGAGGGGTTGCCGCAGTGGGCCCGCCCGGAGATCACGGTGGTATGCGACGAGCAGGTCGCCACGACGCAGCAGTTGGAGAAGCTTGTCGCGGAGACCGGGACGTACCTGGTGCCCTCGCTCGACGCATGCAGTATCACGCGGACCCGCGAGGGGATTCGCCGCACCGCCGCTGAGGAACTGGGCCTGCCCACGATGGCCTACGAGTTCGCCAAAAGTGTTGATGAGCTAGCCGGTTGTGCCGAGGCCGTGGGGTATCCGTGCGTGGTCAAGCCGTCGATTAGCGCAGGCGGCCGCGGGCACACGGTGGTGCACGGGCCGGATGACCTCGACGCCGCGTGGCGGCGCGCCCGCGAGACTAACCCGGAGGGCTCCGTGGCTGTGGAGCGCTACGTCGATTTCGACTTCGAGGTCACGATCATCACCGCGCGTTCGGTGGACCCGGAGACGGGCGAGCTGGCCACATGGTTCTGCGAACCGATCGGCACCCGCCACGAGGCGGGGCGGTTAGTCGAGGCCTGGCAGCCGGCGCCGCTGTCGGAGGCCGCGATGGACAACGCGCGTTCGATCGCCGCGCGAATCACTGGTCGGATCGGGGCGCAGGGCGTGTACTCTATCGAGTTGTTTGTCGACGGGGACGAGGTTTACTTCTCCGACGTTAACCCGCGCCCCAGTCCGGATGGGATGGTCACACTCGCGACGCAGCGCATCGACCAGTTCGACCTGCATGCCCGTGCGGTGGCAGGCTTGCCTATCGACGTCACGTTGATGACCCCGGGCGCAGCTTGCTACGTGGCGGGCAAGGCCCACTCGGGCGACGCGCTTGTGCGCGCGCTCACGGTCGAAGAGACGACGATCCACGTGCTTGAGGAGACGACAGTGGTGCGCTCGACTGCGGAAGATGTGCAGCAGGCGCGTGCGCAAGCCGAACGGGCGGCGCATTTTCTTTCGTGA	MDSLTQRQVFVLGTGPVAQSSASAFADLGFDAYVGTLEEGLPQWARPEITVVCDEQVATTQQLEKLVAETGTYLVPSLDACSITRTREGIRRTAAEELGLPTMAYEFAKSVDELAGCAEAVGYPCVVKPSISAGGRGHTVVHGPDDLDAAWRRARETNPEGSVAVERYVDFDFEVTIITARSVDPETGELATWFCEPIGTRHEAGRLVEAWQPAPLSEAAMDNARSIAARITGRIGAQGVYSIELFVDGDEVYFSDVNPRPSPDGMVTLATQRIDQFDLHARAVAGLPIDVTLMTPGAACYVAGKAHSGDALVRALTVEETTIHVLEETTVVRSTAEDVQQARAQAERAAHFLS	PGPT0008100_1814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
AK009_08071	1290	purA_2	COG0104	Adenylosuccinate synthetase	ATGTCCGCCATCGTCATCGTTGGTGCCCAATGGGGCGACGAAGGTAAGGGTAAGGCCACGGATATTCTCGGCGGCAAAGTCGACTACGTGGTCAAGCCCAACGGCGGCAACAACGCGGGGCACACCGTCGTTGTTGGCGGTGAGAAGTACGAGCTCAAGCTTCTGCCGGCCGGCGTGCTGTCGGAAAACGCCGTGCCCATCCTCGGCAACGGCGTGGTGGTCAACCTCGAGGCGCTGTTCGAGGAGATTGACGGGCTGGTTGCTCGCGGTGCCGACGCCACCCGGTTGCGTATCTCCAGCAACGCGCACCTGGTCGCGCCGTACCACCAGACGCTCGACCGCGTGCAGGAGCGCTTCTTAGGCAAACGCGCGATCGGCACCACCGGCCGCGGCATCGGCCCGACCTACGCCGACAAGGTCGCGCGCGTGGGGCTTCGCGTCCAGGACATTTTCGACGAGTCGATCCTGCGGCAGAAAATTGAGTCGGCCCTCGACGTGAAGAACCAGATGCTGGTGAAGATGTACAACCGCAAAGCCATCGAGGTCGACGAGATGATGGACTACTTCATGGGCTACGCAGAGCGCCTCAAGCCGATGGTGATCGATGCGGAGTACACCCTGAACAAGGCGCTCGACGAGGGGAAACACGTGCTCATGGAGGGGGGACAGGCCACCATGCTGGACGTCGACCACGGAACCTACCCCTTTGTTACCTCCTCGAACCCGACCGCGGGAGGGGCGTGTGTGGGCACCGGCATCGGCCCGACGCGCATCACGGCGAGCCTGGGCATTATCAAGGCCTACACCACGCGCGTGGGCGCGGGCCCGTTCCCGACCGAGCTCTTTGATAAGTGGGGCGACTACTTGCAAACCGTCGGCGGGGAGGTCGGGGTGAACACAGGCCGCAAACGCCGCTGCGGTTGGTACGATTCAGTGATTGCGCGCTACGCCAGCCGCGTCAACGGCTTTACCGATTACTTCCTGACCAAGCTCGACGTACTCACCGGCATCGGTGAAATCCCGATTTGCGTGGCTTACGACGTCGACGGCGAGCGCTTCGACGAAATGCCCTTGACCCAGACCCAGTTCCACCACGCGGAGCCGATCTTTGAGACGATGCCCGCCTGGGATGAGGACATCACCGGGATCACGGACTTCGACGACCTGCCGCAGAAGGCGAAGGATTATGTGCTGCGCCTCGAGGAGCTTTCCGGTGCGCCGATGAGCTATATCGGCGTCGGCCCGGGCCGCGATCAGACGATCGTGCGCAACGACGTGATGGAGCGCTAG	MSAIVIVGAQWGDEGKGKATDILGGKVDYVVKPNGGNNAGHTVVVGGEKYELKLLPAGVLSENAVPILGNGVVVNLEALFEEIDGLVARGADATRLRISSNAHLVAPYHQTLDRVQERFLGKRAIGTTGRGIGPTYADKVARVGLRVQDIFDESILRQKIESALDVKNQMLVKMYNRKAIEVDEMMDYFMGYAERLKPMVIDAEYTLNKALDEGKHVLMEGGQATMLDVDHGTYPFVTSSNPTAGGACVGTGIGPTRITASLGIIKAYTTRVGAGPFPTELFDKWGDYLQTVGGEVGVNTGRKRRCGWYDSVIARYASRVNGFTDYFLTKLDVLTGIGEIPICVAYDVDGERFDEMPLTQTQFHHAEPIFETMPAWDEDITGITDFDDLPQKAKDYVLRLEELSGAPMSYIGVGPGRDQTIVRNDVMER	PGPT0020140_3774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
AK009_08072	894			hypothetical protein	ATGCGGCTTCTTCATTGCCAGTGTGGCGAGGGCGCGCCAGCAAACGCCCCCACCCTGTCGCTTCCGCCCATTCCCTCGCGGGCGGACTTGCGCCCCTTGGACGAATTGGCCAAGGAGCTTTTGCTTGTCGACGACACCCCCTCCCTCGCCGAGATCCAAGCTTCGCCGAACGTGCCCCACATGGGCGAGCCGCAGTTTGCCTCGCAGCGCCCTGTAGAGCGTCTGCGAGTGATTGTCTCCGGCTCCGACGCCGCGCTCGGCGCCGTGCTGACCCGCATGATGCGCGGCGACTACCTGTGGGCGGAGGTAGCGTACGTACCCACCGACCCGACCTCCCCGGCAGCCGCGTTATGGGGAACACCGACCTTCGAGGAGGCCGCCACCGCGCCCGTGGTGCCTTCGCCGTGCATCCGCAACGATTTCGGCCAGGTCGTGGCGGGCTCGGCGACGCTGACGCACATCAACCCGGCCTCCGAGTTCGTCGGCGAGATCGTCGTCGACTCCTCCGTGTTGCTGTTTCGCTCCGGCGAAGAGGCATCGGCGAGGTTTTTTGGCTCCTTCGGCGCGAAACTCGTTCCCGCCGCTTCGGCCCCCGGAATTGCGGCCGCGCCGCTCGTCACCCCTTTGGACACCTCCGGTACGCCGTCGCGGCGCTCGCCCGAGTTGTTGGAGCGCCTCCGCTCTCTGCCCGGCGGGCGGTTCCTCACACGAAACGCGAGCGTTTTCCCAGGTCTTGCCGACGGTTCACGAGTTCTTACCGGACGGGCGCTGCAGGCGGGCGGCCACGAGATCGCGGTGACGGTGGACGGGGTGCGGCGCCGCCGAGGCGTCGACAAGGCAACCTTCTACAGGCATCTGCGCGACATCCAAAGCGTGCGAATCACCGAGAACTAG	MRLLHCQCGEGAPANAPTLSLPPIPSRADLRPLDELAKELLLVDDTPSLAEIQASPNVPHMGEPQFASQRPVERLRVIVSGSDAALGAVLTRMMRGDYLWAEVAYVPTDPTSPAAALWGTPTFEEAATAPVVPSPCIRNDFGQVVAGSATLTHINPASEFVGEIVVDSSVLLFRSGEEASARFFGSFGAKLVPAASAPGIAAAPLVTPLDTSGTPSRRSPELLERLRSLPGGRFLTRNASVFPGLADGSRVLTGRALQAGGHEIAVTVDGVRRRRGVDKATFYRHLRDIQSVRITEN				NA	NA	NA	NA	NA
AK009_08073	816		COG3861	putative protein	ATGGCTGACTACAACCGTATTGAAGACCTTGCAAACGCAACCGCATTCGACGTTGATGGCGACAAGGTAGGCGGCGTCAAGGACGTTTACGTTAACGACACCACCGGCCAGCCGGACTTCGTGTCCGTCAACCACGGCCTCTTCGGCGGCGGCGACTCCATCGTTCCTCTGCGCGGCCACACCCTGCGCGACGGCGAGCTGCACCTCGCATTCCCGAAGGAGCGCATCGACAACGCTCCGAACTTGGACGAGGACGGCCACCTGACCAACGAGGACCAGGAAGCGTTCTACCGCCACTACGGCCTCGAGGGCACCCAGGATGTAACCGCCTACGAGACCGACGCACGCCACGCTGCACCGGTTGCTGGTGTCGCCACCGACCGCGCAGCCGTTGATGTTGATCGCGCAGACGTTGACAACGACGCCATCGTCCGCTCCGAGGAGCAGCTCAACGTTGGCAAGGAGCGCGTCGAGTCCGGCCAGGTCCGCCTGCGCAAGTACGTTGTCAACGAGACCGAGACTGTGGAGGTTCCGGTTCAGCGTGAAGAGGTTCGCGTTGTCCGCGAGCCCATCACCGAGGCCGACCGCGCAAACGTTGACTCCCGCATCGGCGAGGCTGAGGCTTCCGTGACCCTCTCCGAGGAGCGCGTCACCGTGAACAAGGAGACCGTCCCGGTGGAGAAGGTTTCCCTGGACAAGGAGACCGTCCAGTCCACCGAGCGCGTCACCGAGGAGCTCCAGAAGGAGCGCATCGAGACCGACGGTGTCGTCGTCGACGAGAACCGCCCGGACACCGACTTCGGTGCTAACCGCTAA	MADYNRIEDLANATAFDVDGDKVGGVKDVYVNDTTGQPDFVSVNHGLFGGGDSIVPLRGHTLRDGELHLAFPKERIDNAPNLDEDGHLTNEDQEAFYRHYGLEGTQDVTAYETDARHAAPVAGVATDRAAVDVDRADVDNDAIVRSEEQLNVGKERVESGQVRLRKYVVNETETVEVPVQREEVRVVREPITEADRANVDSRIGEAEASVTLSEERVTVNKETVPVEKVSLDKETVQSTERVTEELQKERIETDGVVVDENRPDTDFGANR				NA	NA	NA	NA	NA
AK009_08074	690			hypothetical protein	GTGCACCCGCTCCGGGTCGATGATGCCCTCGCCGGCGAGGTAGATGGCGGAGTTGGCGCAGCCGCACTCGGGGTGGATGTAAAGGTCGGCGTCGGGGTTGGCTTCGGCCTGCTCGGCGAGTTTGGTGGCGCTGATCCCGGCGTGAACGTGGCACTCACCGGACCAGATGCGGATGTTGTCGCGGCCCGTCTCGCGCTTGACGTGCGCGCCGAGGAACTGGTCCGGGCAGAACAGCACCTCCGTGCCCGGGTCGATGGACGCGACGACGTCGACGGCGTTGGAGGAGGTGCAGCAGATGTCGGTGAGTGCTTTGACTTCGGCGGTGGTGTTGACGTAGGAAACCACCACGGCGTCGGGGTGCTCACTGCGCCACTGGCGCAGCTGGTCGGCGGTGATGGAATCCGCCAACGAGCACCCGGCGTCTTTGTCGGGGATGAGCACGGTTTTGGTGGGGGAGAGGATCTTCGCGCTCTCGGCCATGAAGTGCACACCGCAGAACACGATGACGTCGGCGTCAGTCTCTGCGGCTTTGCGCGACAGGGCGAGCGAGTCCCCCGTGAAGTCGGCGGTGTCCTGGATGGCGGGGATCTGATAGTTGTGCGCCAGGATCACCGCGTTGCGCTCGTGCTTGAGTCGTGCGATCTCGCGCGCCCACTCCTCGTCGGGCTCTACGCCCTGCCAAACTCCTGA	MHPLRVDDALAGEVDGGVGAAALGVDVKVGVGVGFGLLGEFGGADPGVNVALTGPDADVVAARLALDVRAEELVRAEQHLRARVDGRDDVDGVGGGAADVGECFDFGGGVDVGNHHGVGVLTAPLAQLVGGDGIRQRAPGVFVGDEHGFGGGEDLRALGHEVHTAEHDDVGVSLCGFARQGERVPREVGGVLDGGDLIVVRQDHRVALVLESCDLARPLLVGLYALPNS				NA	NA	NA	NA	NA
AK009_08075	300	nadA_2	COG0379	Quinolinate synthase A	ATGCTCTCAACCGGCGGAATGCTCGATCTGGCACACACCGCCAGCCCGGAGCGCACCGTGCTCGTTGCCACGGAGATCGGCATGCTGCACCAGCTGCGCGGCGCCGCGCCCGAGGTCAACTTCCAACCGGTCAACGACCGCGCCTCCTGCCGCTACATGAAGATGATCACCCCGGCCGCCCTGCTGCGCTGCCTGGCCGAGGGCAAGGACGAGGTCGACGTGCCCACCGACATCGCGGATAAGGCGCGCGCCTCACTCGAGGCGATGATCTCCATCGGCGAGCCCGGCGGCGGGGAGTAA	MLSTGGMLDLAHTASPERTVLVATEIGMLHQLRGAAPEVNFQPVNDRASCRYMKMITPAALLRCLAEGKDEVDVPTDIADKARASLEAMISIGEPGGGE	PGPT0013365_2362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
AK009_08076	699			hypothetical protein	GTGGGCGCGCACCGCCGCGAGAGCCGCGACGACGCCGCGCGACACCGCCGCAACGTGGTTGTCTTTGATCATGGCGGCGTCGCCAAGCCCCATGCGGTGGTTGACGCCGCCGCCGGCGCGCACCGCGTACTTCTGCAGTTCGCGCAGGCCGGGCAGGGTTTTGCGCGTATCGCGGATCCGCGCCCCGGTGCCCTCGACGGCGTCGACCCAGCGTCGAGTAGCGGTGGCGATGCCGCTGGCGTGGCTGAGGATGTTCAGCATCGTGCGCTCGGTAGTGAGCAGCGTGCGCGTCGGCGCGGTGACCTCGGCGAGGACGTTTCCGGGGGCCACGCGTTCGCCGTCGTCGACGCGCTGCGTGACCTCGCAGCCGGGCGTGTCCAGGGCATAGCGGATCACGTCGAGACCAGCGGTCACACCCTCGGCGCGCGAGACGAAGCGGGCGCGCGAGGTGGCGTCGGCGCTGATGGTTGCGAGCGTGGTCACGTCGGGCCCGAACGCCAGGTCCTCCTCCAGCGACGCGGCGATCAGGGAGCGCAGGTAGGACTCGCTAAGCGGCTCCACGGGCTTACTCCCCGCCGCCGGGCTCGCCGATGGAGATCATCGCCTCGAGTGAGGCGCGCGCCTTATCCGCGATGTCGGTGGGCACGTCGACCTCGTCCTTGCCCTCGGCCAGGCAGCGCAGCAGGGCGGCCGGGGTGA	MGAHRRESRDDAARHRRNVVVFDHGGVAKPHAVVDAAAGAHRVLLQFAQAGQGFARIADPRPGALDGVDPASSSGGDAAGVAEDVQHRALGSEQRARRRGDLGEDVSGGHAFAVVDALRDLAAGRVQGIADHVETSGHTLGARDEAGARGGVGADGCERGHVGPERQVLLQRRGDQGAQVGLAKRLHGLTPRRRARRWRSSPRVRRAPYPRCRWARRPRPCPRPGSAAGRPG				NA	NA	NA	NA	NA
AK009_08077	189			hypothetical protein	GTGGGTCAGGGCCCCAACGGCGAGGTAGGCCACTCCCGTCTCCGCATACGCGCGGGCGCGCTCGAGCGTCAACCCGCCGGAGGACTCGAGCTCGCAGCCCGGGGCAACCTGGTCACGGCGGCGCACGGCCTCGGCGGTATCGGCGACGCTGAAGTTATCCAGCAACACCAGCTGCGGGGGCTCGCTTAA	MGQGPNGEVGHSRLRIRAGALERQPAGGLELAARGNLVTAAHGLGGIGDAEVIQQHQLRGLA				NA	NA	NA	NA	NA
AK009_08078	1167			hypothetical protein	ATGGCTAAGGAGAGGATGGGGACAAGGGCGCGTTTGCTCGCGGTCAACGAATCCCTGTCCGCCCGCGTGACGCGGGTGCGCAAGCGCCTTTTGCCGATTTTGCAAACGGCGATCGCCGCTGGTGTCGCGTTCTGGATCGCCAGCGAGGTCTTCGGGCACGCGCAGCCGTTCTTCGCGCCGATTTCGGTGATCATCATCGTCGGCATGACCGGCGGCGAGCGCATTTCCAAGGCGCTGGACATTTCACTCGGCTGCGTCATCGGCGTCGCGGTCGGCGACCTGCTGTTTTATCGGCTGGGTTCGGGCGGGTGGCAGATCGCGGTAATTGTGGCCTGCGCGCTGCTCATTGCGTCGTTCTTCTCGCGCTCTCAGTTGGTGAACAACCAGGTCGCGATTGGCTCGGTGCTCATCGCCACGATCATGCCCCCGGGCGCCGAAGTCACCGGCATCGACCGCACCATCGATGCCTTCGTCGGCGCGGCGGTTGCACTGGTCACCCTGGCACTGATCCCGCAGGGCCCAGTGGGCAAGGCACGCCAGGAGATTTCCAAGGTCATGGAGCTGATGTCCTCGGTGCTTGACGACGTCGCCGACGGCCTGCGTTCCGGCAACGCCGACGTCATCGACGAGGCACTCGACCTAATCCGCAGCTCCCAGACCGACATCGACGCGATGTCCTCGGCCGTCGCCTCCGGCGCGGAATCCGCCCGCCTCTCGCCGTTTCTGTGGGGCTCGCGCCGCTACGTCCACTCCCTGGAGATGGTGATCCCGCCAGTGGACACCGCGGTGCGCACGACCCGCGTCCTCGCCCGCCGCGCCCACATCCTCTGCGGCGACAACGACCGGGTTACGCCGGAGCAAATTGAGCTTATCGACGCCCTCGCCAAGGCATCCCTCGAGATCTCCGACGTCTACGAGGTGGATTCGCGCAAGCTGCAGTCTGTGGCGATCCCGCGCATCGTCAACGACCTGCGCGTCCTCGGTGGCCGCGCCGGGATGGACGTGGTCGGTGACAACGGCGTGCTGTCCGCCTACGCCATCCTCGCGCAGACGCGCTCGCTCATCGTGGACCTGCTGCAGGTGTGCGGGATGTCCCGCGTGTCCGCAGCAGCGGTGCTCGTACCGACCTCAACCAGCCCGAAGTACCCGCCGGAGCAATACAGCTAG	MAKERMGTRARLLAVNESLSARVTRVRKRLLPILQTAIAAGVAFWIASEVFGHAQPFFAPISVIIIVGMTGGERISKALDISLGCVIGVAVGDLLFYRLGSGGWQIAVIVACALLIASFFSRSQLVNNQVAIGSVLIATIMPPGAEVTGIDRTIDAFVGAAVALVTLALIPQGPVGKARQEISKVMELMSSVLDDVADGLRSGNADVIDEALDLIRSSQTDIDAMSSAVASGAESARLSPFLWGSRRYVHSLEMVIPPVDTAVRTTRVLARRAHILCGDNDRVTPEQIELIDALAKASLEISDVYEVDSRKLQSVAIPRIVNDLRVLGGRAGMDVVGDNGVLSAYAILAQTRSLIVDLLQVCGMSRVSAAAVLVPTSTSPKYPPEQYS				NA	NA	NA	NA	NA
AK009_08079	1431			hypothetical protein	GTGCAGGTCCTCGCACGCCTCGATGACGCGCTCGGACATGGACTGCTCCGCCTTCTTCAAGTAGGAGCGCGGGTCGTAGACCTTCTTGTTGCCCACCTCACCGTCGATCTTGAGCACGCCGTCGAAGTTGGAGAACATGTGGCCGGCGATCGGGCGGGTGAACGCGTACTGGGTATCGGTGTCCACGTTCATCTTCACCACACCGTAGGACAGGGCCTCCTCGATCTTCTCCTTCTCGGAGCCGGAGCCGCCGTGGAAGACGAAGTCGAAGGGCTTGGAGCCCTCCTCGAGGCCGAGCTTGGCAATCGCGGCCTTCTGGCCCATGTCCAGCACGTCCGGGCGCAGCTTGACGTTGCCCGGCTTGTACACGCCGTGGACGTTGCCGAAGGTGGCGGCCAGCAGGTAGCGGCCGTGCTCGCCAATGGCCAGCGCGTCGATGGTCTTCTCAAAGTCCTCCGCGACGGTGTAGAGGTTCGCGCCGGACTTCGCCTCGACGCCGTCCTCCTCGCCGCCGACAACGCCGATCTCGACCTCGAGGATGATGTTCGCCGCGTGCGCCTTGGCCAGCAGCTCCTTGGCAATCTCGAGGTTCTCATCGATCGGGATGGCGGAGCCGTCCCACATGTGGGACTGGAACAGCGGCAGCTCGCCGCGGTCGACGCGCTCCTGGGAGATCGCGATCAGCGGGCGGACGAACTCGTCGAGCACTTCCTTCTGGCAGTGGTCGGTGTGCAGGGCGATGTTGACGTCGTAGTGCTTGGCAATCTCGTGCGCGAAGGCAGCCAGCGCGGTCGCGCCAGCGACCTTGTTCTTCACGCCCAGGCCCGAGCCGAACTCGGCGCCGCCGGTAGAGAACTGGATGATGCCGTCGGACTCAGCCTCGGCAAAACCCTTGATGGCCGCGTTGATCGTTTCGGACGAGGTGCAGTTGATGGCGGGGAAAGCGAAGCCGTTCGCCTTCGCCCGGTCGAACATCTCGTTGTAGACCTCGGGGGTTGCGATGGGCATGGAATAAACCTCCAGGATGGTTGTTCGTGTGCACCCCCAGTATGCCCGTTTTGGACCGTCGTCGCAGTCGCTGCCGCCCTTATTCGGAGTCCTCCGGCTCCCCGCCCGCGATCCGCGCCGCCGCCTCAAGCAGCATCCAGCCGGAGAGCTGCACGGAGAGGTCGCGCTCGTCGATACGCACAAGCCCCACCGCCTCGCTTATCGACGACGGCCCCAACCCGTAGTTGTGCGGCAAGCGAGCGTCGTCAGACCACTCGGAGGCGAAGATGGGCAATCCGTCGACCTCGAGCCGGTGGTTCCACAGCGACTCCGCCGACGCCATCACCATGCGCGCGGCGACTTTGCGTGTCGCGATGTTCTCGCGCGAATCCTCCGGCAGGCGCAGCGCAACATCGGCAAGGTAGCGCGCGAGGATCCCCTTGA	MQVLARLDDALGHGLLRLLQVGARVVDLLVAHLTVDLEHAVEVGEHVAGDRAGERVLGIGVHVHLHHTVGQGLLDLLLLGAGAAVEDEVEGLGALLEAELGNRGLLAHVQHVRAQLDVARLVHAVDVAEGGGQQVAAVLANGQRVDGLLKVLRDGVEVRAGLRLDAVLLAADNADLDLEDDVRRVRLGQQLLGNLEVLIDRDGGAVPHVGLEQRQLAAVDALLGDRDQRADELVEHFLLAVVGVQGDVDVVVLGNLVREGSQRGRASDLVLHAQARAELGAAGRELDDAVGLSLGKTLDGRVDRFGRGAVDGGESEAVRLRPVEHLVVDLGGCDGHGINLQDGCSCAPPVCPFWTVVAVAAALIRSPPAPRPRSAPPPQAASSRRAARRGRARRYAQAPPPRLSTTAPTRSCAASERRQTTRRRRWAIRRPRAGGSTATPPTPSPCARRLCVSRCSRANPPAGAAQHRQGSARGSP				NA	NA	NA	NA	NA
AK009_08080	798			hypothetical protein	ATGCGGCGGGCAGAGAATCACACCCTGCGGGGTGGCCAGGTGCAGGGCGATCGCCTTGACCAGTTCGCGAATGTGGGTGATGTAGAACACCGAGGCATCAGCGCGGTGGGAGTGGTCGAAGGAATCAATGGGGTCTGTGTTGCCCAGGCCGACGTCGTCACGCAGCGCAAGCGCGATCTCGAGGGAGGCACCGAGCACGGTGCCCTGGTTGTAGGTGTAGATCTTGTCCACCACCTCGGGCCCATGCATGCGCATGCGGATTCCGTCGTTGACCAAGCCGGAGTCGGCGCTGAGATTGTCGTAGATCCAGTCCGTCATCGCGCGCGCCTTGTCCAGGCGGCCCGTGCGGGCGAACAGGATCGATGCCGGCCCGTTCGACGGCACGTTGTAGTAGGTCTCCCCGGCGCGCCACGGCAGGACCCCGGTGACGGGGTCGATGCCGGCGAGGATGTTGAACTCGAGGGCGTCAAGTGCCTTGGTCCGCTCAATGCCCTCAAGCGCTGTTGCGCGGTTCCAGGCGAGCGCGAGCCACGACTTGTCGTCGTAGTACTTGTTGCTGGCCAGGTCGCCGCGGCTGCGCAGGCGCATCGCGCGCAGGGTGTCGCCTATGCGCTTGCGGCGCGTTTTGGTGGGGCGTCGGCACGCGGCGTCGATCTGGCAGTCGAGATAGTGGGCCTGCCACCAGTAATGCCAGTGCACGAAACCGCGCTCCGGGGAGCGTGGCGGCCAGGCGACGACGGCGAGGTTGGTTCCGGGCAGGCTCCACAGGCGGGAGGCGTGGCGCTCATTAATCGCTGA	MRRAENHTLRGGQVQGDRLDQFANVGDVEHRGISAVGVVEGINGVCVAQADVVTQRKRDLEGGTEHGALVVGVDLVHHLGPMHAHADSVVDQAGVGAEIVVDPVRHRARLVQAARAGEQDRCRPVRRHVVVGLPGAPRQDPGDGVDAGEDVELEGVKCLGPLNALKRCCAVPGEREPRLVVVVLVAGQVAAAAQAHRAQGVAYALAARFGGASARGVDLAVEIVGLPPVMPVHETALRGAWRPGDDGEVGSGQAPQAGGVALINR				NA	NA	NA	NA	NA
AK009_08081	618			hypothetical protein	GTGCTGCCGGATCCAGGCGTGCATGGCGATGCCCGCAGCAACACCCGCGTTGATCGAGCGCGTCGAGCCGAACTGGGCAATCGAGCAGGTCATCGACGCGGCACCTGCCGCGTCGTCGGTGATCCCGGGGCCCTCCTGGCCGAACAAAAGCACACAATCGCGGGGCAGCTGCTCCGTCTCCAACGGCACCGAGCCGGGCGTGTTGTCTATGGCCACGATCGCCAGATCCCGCTGCGCAGCCCACTGCGCCAGATCCGCCACGGTGTCGTGGTGGATGATGTGCTGGTAGCGGTCGGTGACCATCGCTCCGCGCCGGTTCCAGCGCCGCCGGCCCACGATGTGCACCGCGGCGGCGAGGAAGGCGTTGGCGGTGCGCACGACGGTGCCGATGTTCATGTCGTTCTCGAAATTCTCGATCGCCACGTGGAACGGGTGGCGGCGCTTGTCCAGCTCGGCGCGGATCGCCTCGAGCGAGAGGTAGCGGTACGCGTCGACCACGTTGCGGCGATCGCCGTGTTCGAGAAACTCCGGGTCGTAGCGCGGATCCTCCGGCCACGGGCCCTGCCACGGCCCGACGCCGTGGCGGCCCTCGCCCCATTCGGTGGGGCCTTTAGCTGA	MLPDPGVHGDARSNTRVDRARRAELGNRAGHRRGTCRVVGDPGALLAEQKHTIAGQLLRLQRHRAGRVVYGHDRQIPLRSPLRQIRHGVVVDDVLVAVGDHRSAPVPAPPAHDVHRGGEEGVGGAHDGADVHVVLEILDRHVERVAALVQLGADRLEREVAVRVDHVAAIAVFEKLRVVARILRPRALPRPDAVAALAPFGGAFS				NA	NA	NA	NA	NA
AK009_08082	1197			hypothetical protein	ATGCTTCTTCGCCTCCTTGCGCACCACGAAGGCGTCGATGTCGCGGCCCGGCGCGTGCATGATCGCCGCGGCCACTGGGTCGGCGCCGAGGGTGAGCCCGCCGACGGCGTCGAAGGTGAGGTCGTCGGTAAGCTCGCGCAGAAGCTGCCCGATGAGCGCGGACGCGCGGTGGTGCAGCGTCGCGCGACGCAGGTCCACGTAGTAGTCGGCCTCGCGCCCGGACGACAAGGTGACCTTGCCGTGCACGACGGCGAGGTCTTTGACCAGCTGGGCAAGCTCGTTTGTGGCATCGTTCATGGGATTAAACCTTACTCGTTAGCCGAAAATGGACGGCGGGGTCTGGTCGCGGCGCACACGCGTGAGGTCGGCGCCGGTCGGGCTTTCAAGCTCCTCGGCGATCGGCGCGACCTCATCTGCGCCCACCGCACGCGGCTCCACCGTCCCGCGCACCGCACCGGTCGTGCGCGTCGGCATCGCCCGCGGCTCCTCGGGCCGCGTCACGCGGGTCGAACCCGACGCCTGCTGCTTCTCGACGCCCTCACCAACGACCCCACTTACCGCCATCTCGCGCGTCGGGTGCGCGAACTCGACCGCCGCCCAGCTGCGCGGCGGCAGGACGCGGGCGGCGTCGGCAAGCAGGGCGAGCGGGGCGAGCATGGCGTCCCAATCCTGCGGGGTGGAGTTCTTCGCGGTCTGGGCGAGCACCCACTCCGATTCGCACCACGCGGCCAGCACTGCGTCGGGGAACTGCTCGAGCGCGGTGCGCACGCGGATGTCGAGGAAGCGCTGCACTGGCGCGACCTCCGTGGCGAAGACGCTGAAGTCTTCAACGCGCTCGACCTCCATCAGGTCGGCGGAGGAGTCGGCCACGAAGCCGTCGCGGCGGAAATCGACCACGATATCGCTGACCTCGCCTGTGCGCATCGCCATCACGGTCACCCCGCCGAGGTCCATGACGTGGGTGTCGTGGCCGAACACAGTGCCGGACGCGATGTCCTTCGGCGTCGCGCCGGAGGCCGCGGCCCCGCGGGTCCACTCCCCGCCGAGCAGCTCGTCGCTGCGGGAAAACTCCAGGCCCTTCGCCTGCGCCCACGCGCGGCGCTCCCGCCGCGCCGACCCCGGCAGCTGCAGCCCCGAGCTGCGGTGCGGGGTGGCCAGTTTCACCGGCTCCGGGGCGGGTTCGGGTGCGGGTTCTAG	MLLRLLAHHEGVDVAARRVHDRRGHWVGAEGEPADGVEGEVVGKLAQKLPDERGRAVVQRRATQVHVVVGLAPGRQGDLAVHDGEVFDQLGKLVCGIVHGIKPYSLAENGRRGLVAAHTREVGAGRAFKLLGDRRDLICAHRTRLHRPAHRTGRARRHRPRLLGPRHAGRTRRLLLLDALTNDPTYRHLARRVRELDRRPAARRQDAGGVGKQGERGEHGVPILRGGVLRGLGEHPLRFAPRGQHCVGELLERGAHADVEEALHWRDLRGEDAEVFNALDLHQVGGGVGHEAVAAEIDHDIADLACAHRHHGHPAEVHDVGVVAEHSAGRDVLRRRAGGRGPAGPLPAEQLVAAGKLQALRLRPRAALPPRRPRQLQPRAAVRGGQFHRLRGGFGCGF				NA	NA	NA	NA	NA
AK009_08083	843			hypothetical protein	GTGCGGGTTCTAGCTGGGGCTCCGGCAGCGCTTCGGGCTCGGGCTGCGGGGCTTCTAGCGCTGCGGGCGGTTCTGGGGCACGCCGCGGCTCCGGCTCAGCGGGGCGCTGCCGCGAGTCCGCGTACCACAAAGCGCCGGCGGCGAGAAGCGCCACCACAGCGAGGAAGATCAATACGTAGGCCATCGCATGATGATGTTACTGCGTGGCTGTGCCAATTAGAGGTTGCGGGCCACCGGGTTTGTCGGATCCCCGCTCCACTGCGACCACCCCGCCACGTAGTGCGAGGCCACCGGCAACCCGGCGTGGGCCATCGCCGCGATCAGCAGCGCGGAGTGGTTGCCCGAGCCCGAGTACACCACGACGTCCTCCGGCGCGGTGTTCTGCGTGACCCCGAGCTGGGCGAACCGGTCCCGAATCGTGTCGATGCCGACCACCTGGCGCGTCTGCTCATCCAACAGGTCGCCCACGGGGAGGTTGAGCGCCCCCGGGATGTGGCCCGCTTTGAGGTCGAGCAGCTCGCGGCGGCCTTCGTAGCGCGCGGCGTCGCGGGCGTCGATGAGCAATCCTGCGAAATCGCGGACCTGGTCGATCTCCACCATCGGCAAGCTGCCCGGCCGCGCGGTATAGGAGGCGCGCACGGTGACGTTGCCGGGGCCCGCAACGGTGTCGAAATCGGCGGCGTCCCAGGCGCGGAAACCGCCGTCGACGATGAAGACGTCCTCCACTCCCAGCCAGCGCAGCGTCCACCACGCGCGCGCGGAGAAAACCCCGGCACCCGTGTCGTAGATGTAGACCGGACGGCCCTGCTCAATGCCCCACTCGGCGAGGAATCGCTCCAGTGA	MRVLAGAPAALRARAAGLLALRAVLGHAAAPAQRGAAASPRTTKRRRREAPPQRGRSIRRPSHDDVTAWLCQLEVAGHRVCRIPAPLRPPRHVVRGHRQPGVGHRRDQQRGVVARARVHHDVLRRGVLRDPELGEPVPNRVDADHLARLLIQQVAHGEVERPRDVARFEVEQLAAAFVARGVAGVDEQSCEIADLVDLHHRQAARPRGIGGAHGDVAGARNGVEIGGVPGAETAVDDEDVLHSQPAQRPPRARGENPGTRVVDVDRTALLNAPLGEESLQ				NA	NA	NA	NA	NA
AK009_08084	141			hypothetical protein	GTGCTCGGATTGGAACTTGGACCACGCTTTGCCCTCAACCGGCTCCCACAAGACGGCGAGGATAGTTTGCTTTTGACCGGACCGGATACGCTCGTTGAGCTCGCTGGCGGAGACAAATACCGTCATGGGCCCCAAGCATAG	MLGLELGPRFALNRLPQDGEDSLLLTGPDTLVELAGGDKYRHGPQA				NA	NA	NA	NA	NA
AK009_08085	417			hypothetical protein	ATGCAGCCGACGACGATGATCATCACCCGAGTGGCCGTTCCGGGAGTGGAGAACGAGCAACTGGCTGCACACCAGCTGGGGCCGAATATCTTTGTCGTGGCCAGCGTCCCCTTCGTGGATACGACGCTGGCGCTCGGTGACATTGTGGAATGTGTGCTGGTCAACCGGTGCTACCACGTTGATCGCGTGGTTGTGCGCGGCGGCTCGTCGACCGTGCGGATCATGCCCACGAACGAGTACTCCAACGACGACATCGCCGAGACGCTTCTAGCTCTGGGGTGTCGCGTGGAGCTCGGACCCGGCGGGATGTTGGCCGCCAGCATCGGCCCGGACTGCCCGCGCGAGGGGATTATGGAGTGGCTTGATGGCCTCGAGGCCGAGGGCGTGATCGAGCAGGCACCTGGTTACACGGCGTAA	MQPTTMIITRVAVPGVENEQLAAHQLGPNIFVVASVPFVDTTLALGDIVECVLVNRCYHVDRVVVRGGSSTVRIMPTNEYSNDDIAETLLALGCRVELGPGGMLAASIGPDCPREGIMEWLDGLEAEGVIEQAPGYTA				NA	NA	NA	NA	NA
AK009_08086	516			hypothetical protein	GTGGAGCCAACCCATCGCGCCCGCCGCGCGTGTCTACTTCACAGCGTCGACGCTCAAGCCTTCGCCGCCCTCGGCCACATCCACGGCCACGGTGTCACCGTCGCGGACGTAGCCTGCCAGCAACTCCTTGGCCAGGCGATCGCCGATGGCCTGCTGGATCAGGCGGCGCAGCGGGCGCGCGCCATAGGCCGGGTCGTAACCGCGCTCGGCCAGCCACGCCTTGGCCGCATCCGACACCTGCAAGGTCAGGCGGCGAGAGGCGAGGCGCTCTGCGAGCTGCTCGAGCTGGATGTCGACGATGCCCACGAGCTGGTCGGCGGACAGCGGCTCGAACACGACGACGTCGTCAAGGCGGTTGATGAACTCCGGCTTGAAGTGGTGGCGCACCGCCTCCATAATCTGCTCCTGCGAACCGCCCGCACCCAGGTTCGAGGTCAAGATGATAACCGTGTTGCGGAAATCCACCGTGCGACCCTGGCCGTCAGTCAACCGGCCTTCATCGAGGACTTGGAGTAG	MEPTHRARRACLLHSVDAQAFAALGHIHGHGVTVADVACQQLLGQAIADGLLDQAAQRARAIGRVVTALGQPRLGRIRHLQGQAARGEALCELLELDVDDAHELVGGQRLEHDDVVKAVDELRLEVVAHRLHNLLLRTARTQVRGQDDNRVAEIHRATLAVSQPAFIEDLE				NA	NA	NA	NA	NA
AK009_08087	1206			hypothetical protein	GTGCTTCTCACCGTACTCGGACATATCGATGCGCACCATCGCGGTCTCATCATCGAAGAGGAACTCGGCGAGCGACTTCGCCAGCTCCGTCTTACCCACGCCGGTGGGGCCGAGGAAGAGGAAGGAGCCAATCGGTCGGTTTGGATCCGCGACACCGGCGCGGGAGCGTCGCACTGCATCGGAGACGGCCTCGACGGCGTCACTCTGGCCGACGACGCGTTCACCCAGCACCGATTCCATGTTCAGCAGCTTCTCCGTCTCCCCCTGCATCATCTTGCCCGCAGGGATACCCGTCCAGCTGGAGACGACCTCGGCGATGACATCCGGAGTGACCTCTTCCGTGAGCATCGTGCGACTCGAATCGCTCGCCTGCGCCTCAGCCTCGGCAACCTGCTGCTCCAGCTCCGGGATCCGGCCGTATCGCAGCTCAGAAACCCTGGCGTAGTCGCCGTCGCGCTCCGCGATCTCGGACTCGTTGCGCAGCTTCTCCAGCTCCTCCTTCGCAGACTGAACGCTGTCGATCTGGTTCTTCTCGTTCGCCCAGCGTGCCTTCATTTCGCCGAGAGTCTCACGCTGATCGGCGAGCTCCTGGCGCAGCGCGGCGAGGCGCTCCTGGGAGGCGGCGTCAGACTCCTTGGCCAGGGCGATCTCCTCGATTTCCAGGCGGCGCACGACGCGCTCGAGCTCGTCGATTTCCTGCGGGGACGAGTCAATCTCCATCCGCAGGCGCGAACCGGCCTCGTCAACCAAGTCGATGGCCTTGTCCGGCAGGAAGCGGTTGGTGATGTAGCGGTTGGACAGCTCGGCGGCGGCCACGAGCGCCGAATCCTGGATGCGCACGCCATGGTGGACCTCGTAGCGCTCCTTGAGCCCGCGCAGGATGCCGATGGTGTCCTCCACCGTCGGCTCGCCCACGTACACCTGCTGGAAGCGGCGCTCCAAAGCGGCGTCCTTCTCAATGTACTTGCGGTATTCATCCAGCGTGGTCGCGCCGACGAGGCGCAGCTCACCGCGGGCGAGCATCGGTTTAATCATGTTGCCCGCGTCCATGGCGCCCTCACCGGACGCACCGGCGCCGACGATGGTGTGCAGCTCGTCGATAAACGTGATGATCTCGCCCTCGGAGGAGGTGATCTCCTCCAGCACGGCCTTGAGTCGCTCCTCGAACTCGCCACGGAACTTCGCGCCCGCGACCATCGAGCTTAA	MLLTVLGHIDAHHRGLIIEEELGERLRQLRLTHAGGAEEEEGANRSVWIRDTGAGASHCIGDGLDGVTLADDAFTQHRFHVQQLLRLPLHHLARRDTRPAGDDLGDDIRSDLFREHRATRIARLRLSLGNLLLQLRDPAVSQLRNPGVVAVALRDLGLVAQLLQLLLRRLNAVDLVLLVRPACLHFAESLTLIGELLAQRGEALLGGGVRLLGQGDLLDFQAAHDALELVDFLRGRVNLHPQARTGLVNQVDGLVRQEAVGDVAVGQLGGGHERRILDAHAMVDLVALLEPAQDADGVLHRRLAHVHLLEAALQSGVLLNVLAVFIQRGRADEAQLTAGEHRFNHVARVHGALTGRTGADDGVQLVDKRDDLALGGGDLLQHGLESLLELATELRARDHRA				NA	NA	NA	NA	NA
AK009_08088	627			hypothetical protein	TTGCAGCCCGCCACTGCCCTTGCCGTATTTCTTCGCGGGCACCCACTTCAGCGCGAAGCTCATGATGAGCACACCAACCGCAATGGCGAAAGAAGCCCACCCGAAACCAGTTGTGAATCCCGCAATCACCGCGATCGGCGCGAGGATGGTCATGCCGATTTCAAAGGGCGCGAAGCCGACGTAGGCCACGCCGTACTCGTTGAGCGTGCCGGATTTCAGCTTCGGGTCGACCATCTTCAGCAGCGCGATACCTGTGGCGACTGCGGCGGTGGCCCAGCCCCAGCCGAAGATGCCACGCTCGAGCCAATTCTCGCCGAAGAACAAGGGCCCCGCCCACAGCATCCACACCACACAGAAGAGAGTGCCCAGAACGAACATGAGCACGAGCGCCTGCCAGTAATCGGCGAGCGCCGCGGGAACGATCGAGGCGATACCGAAGGCGATCATGTAATCGGTGGCCGCGCCCGAAATCGAGCTGACAGTGTCGCGGTCGAGGTAGTTTTCGCGACCGGCAACGCGCAGCAGCATGCGACCAATCAGCCCCACGACGAAGGACATGGCAAACAGCGGGATGGACACGTTTGGCCACTGGTCCTTGATAAGTCCGTTGAGCAGGTAGGCAATTAG	MQPATALAVFLRGHPLQREAHDEHTNRNGERSPPETSCESRNHRDRREDGHADFKGREADVGHAVLVERAGFQLRVDHLQQRDTCGDCGGGPAPAEDATLEPILAEEQGPRPQHPHHTEESAQNEHEHERLPVIGERRGNDRGDTEGDHVIGGRARNRADSVAVEVVFATGNAQQHATNQPHDEGHGKQRDGHVWPLVLDKSVEQVGN				NA	NA	NA	NA	NA
AK009_08089	588			hypothetical protein	GTGCAGTGCAAGCGGCTCAATCGACGAGGGGTTGGTGGTTGCCTTGCCGATGGATGGGCGATCCACCTCGTTCTCGATATATCCTGTGCGCAGGTCCGCCGGGAGCTCGCCTTTGAGCTCAGTGGCCCGGCCCGCGCGGATGCCCAAGTTGGCCACGATGACACCGCCGATAATCGCCACCAGCGTGCCCACGGTCGCGGAGGTAAAGCCCAGCGAGGAAGCCTCCGCAATACCGATGTCCTCCAGCGAGGACCCCACTGCCGCGGCGGTGCCGAAACCGCCGACGAAGCCGACGGGCAGCATCATCCCGAACCAGGGCTCGGTGCCGAACAGCGGCGCGAACAGGTACAGCCCGAGAAGTATGAATATGCCCCACTGCCCCATGAACATCGCGGTGGAGTAGGCCCACATATTGCGGGCCCCGGAAGCGATGGAGCCACCGAGATCCATGGAGAACGCCATAGAGGCGAACACCACAGCGATGAGCAGCGTGGTGTAGGTCCCCACCTGGTCGGACCAGTTGATCAGTCCGAGTATTTCGGGGCCGATCAGGAGCCCGATCAACCCAGCGGTGATCGGTGCGGGTAG	MQCKRLNRRGVGGCLADGWAIHLVLDISCAQVRRELAFELSGPARADAQVGHDDTADNRHQRAHGRGGKAQRGSLRNTDVLQRGPHCRGGAETADEADGQHHPEPGLGAEQRREQVQPEKYEYAPLPHEHRGGVGPHIAGPGSDGATEIHGERHRGEHHSDEQRGVGPHLVGPVDQSEYFGADQEPDQPSGDRCG				NA	NA	NA	NA	NA
AK009_08090	411			hypothetical protein	ATGGAACTCCAACTGGCAAAACGGGTTCGCCGGCAGCGCCGGGGCGAGGTTGCGCCACACACCCTGGCGGCCAACCTGCAACACCGGCATGAACTGGCCCGGACGGTAGCCCAGGGGAAACCCCGCTTCGAGGCGAACCACGTGTATGCCCCCTTCGGGGCGCACCGCCGTCACCCGCGCCGCGGCGGCCGCCGGGACCCCCTCCACATCGGCGGCGTGGGCGGTACGCGCCATCTCGGCTGCGGCGTCCTCGAGCACGAAGCGCGCCTCGATGCCCGCCGAAAGTACCTGGCGGATCACCCGTGCGAACACCGCGTAGGCGGTGGGAGGGAAGCCATAGCGGCGCAGGTCCAGGGCCCAAGCGCGCAGCGTGTGAAGGGTCGATTCGGGCAGGGTCGCCGTACGGCTTGA	MELQLAKRVRRQRRGEVAPHTLAANLQHRHELARTVAQGKPRFEANHVYAPFGAHRRHPRRGGRRDPLHIGGVGGTRHLGCGVLEHEARLDARRKYLADHPCEHRVGGGREAIAAQVQGPSAQRVKGRFGQGRRTA				NA	NA	NA	NA	NA
AK009_08091	804			hypothetical protein	GTGCGAGTGGTTCAGCATTGTCGAGACCCCCTCGACGTCCGGGGAGGTTGTCTACTGCGGCCCGGAGGCCGACATCGCTGCCTTGAACCCCCCTCCCGGGGTGCTGCGGATCTGCCCCGATGCCCCGGAAAAGTGGTCGGTGCCGACTTCTTAGCTGGTGTGGTGAAGCAGCGGCAGGCTGGCGCGGGCCTCGGCGACTGCCGCGGTGTCGATGTCGGCGTAGACGATCTCGGGCCCGTAACCCGCCTCGGCGATGCGCTGCCCGTTTGGCGCGACGACAACCGAATGGCCGATGCCGGTCGGCCCGCTGGCCTGGCCCGCGTGGGCCTCTCCCCCGGGCCTGGCCTGGTCGGCCGCGGCGATGAACACCCCGGTGTCCAGTGCGCGTGCGACGGTGAGGGTGCGCCACTGCTCGCGCTTGTTCTTCCCGTCGGCCCAGCTCGTGGGCACGACGATCACCTCCGCACCGAGCCGGGCGAGGTTTTTGAACTGCTCCGGGTAGCGGATGTCAAAGCACGTCGCCACGCCCACCACGGCTCCCTCGTGAACGAAGGTGACCAGGTCGGCGCCCGGCTTGACGGTGGCGGATTCGGTGTAGTCCGCGACGTCGAAGGTATGGATTTTGTCGTAGCCTTTGTGCACGCTGTCGCCTGTGATCAGCGCGGTGTTGTAGACGCGGTTGAGCCCGTCCACCGAGTCGGCGGGGCGGAACATGCCGGCGACGATGGTCACCCCCAGTTCTGCGGCCAGCTCGCGCAGCCCGGAGGCAAACGGCCCGTCGAGCTCTTCGGCCTGGGTGTCTAG	MRVVQHCRDPLDVRGGCLLRPGGRHRCLEPPSRGAADLPRCPGKVVGADFLAGVVKQRQAGAGLGDCRGVDVGVDDLGPVTRLGDALPVWRDDNRMADAGRPAGLARVGLSPGPGLVGRGDEHPGVQCACDGEGAPLLALVLPVGPARGHDDHLRTEPGEVFELLRVADVKARRHAHHGSLVNEGDQVGARLDGGGFGVVRDVEGMDFVVAFVHAVACDQRGVVDAVEPVHRVGGAEHAGDDGHPQFCGQLAQPGGKRPVELFGLGV				NA	NA	NA	NA	NA
AK009_08092	1143			hypothetical protein	ATGTATAACCCCCGCCTCAACACAGCAGCCGTGCGCGCCGCGTCGGTGGTGCTCGCGCAGACGGCGGCGCTGTGCCGGGACCGGGCAGCGCGCGTCGAGGCGGCGCCCGGCGCGATCGCGGCCACGGGATTTGCCGGGACTGCTGCCGTGATTGGACTGGCTGGTTTCCCGCTGTGGGCGCTGCGGATTTTCTCCATCGCGGCCCTCTTTGAGCACGCGGCGGTGATCCTGGAGTCGTCGGCAAGCGCGCAGGAGAAGCTCAATGGGCTGGCGCACGTTGCGCTCAACCTCCACCTGGCCGAAGTGGTCTACCAGCTCAACACCATCTCCTTCCTGCTCGACCTGCACACCGCCCGGGCACTGCGCGGCCTGCTTCCCGCCGAGGACGGCCTCTCTGACACGCTGGCGGACCACCCCGGCAAATCCGTCGAGGCCATCGACGCCCGCCTCGCCGCCACGCTTCCCGCCAGCACACTGCGCGATATCCGCGGCGCCGGCGGGATGGTGCTGGAGACCGGGCCCGGGGGCACGACAGTCATTATCGGTGACACCGTCGACCCAGCGAGGGTTACCACGATGGTCGCCGGGGTGTCCACGGGAGATCCGAAGAAACTCGCCGGTGAACTGGATAAAGCGCGCTCCGTGGCGGCCGCCGCCGGCGGGGCCGTCGTAGTCTGGCAGGGCTATACTCCCCCGCCGAGCGTGATCCACGGCATCGACCCCTTAGCGGCGCGCACGGGCGGGGTGGCGCTCGCCGAGTTCCAGGCCGCGCTGCGTGAGCGCTACCCCGACGCGCGCCTGACCGTGCTGTCGCACAGTTACGGAACGGTCGTGGCCACCCGCGCGGCGCAGGGCCCGGGGCTTGTAGTGGACGACTTGTGGCTGCTGGGGTCCCCGGGCGTCGGTGTGCCGAGCGTCGACAAGCTTGAGCTCCTCGGAGCCGACCCGCAGGTGTTCGTGGCCGATGCCGACCGCGACCCGATAACCGCGACGCGGTTTCGCCACGACGCCGCGCACGGCTATTCCCCGTCCGCCGAGTCGTTCGGAGCGACACGGATCGACGGCGTGCGCGGCGATCACGGTGCCTATTTCACGGATCCGGCGCTGCTCAGAGCGCTTTCGACGTCAACCTCGGCAGGTTAG	MYNPRLNTAAVRAASVVLAQTAALCRDRAARVEAAPGAIAATGFAGTAAVIGLAGFPLWALRIFSIAALFEHAAVILESSASAQEKLNGLAHVALNLHLAEVVYQLNTISFLLDLHTARALRGLLPAEDGLSDTLADHPGKSVEAIDARLAATLPASTLRDIRGAGGMVLETGPGGTTVIIGDTVDPARVTTMVAGVSTGDPKKLAGELDKARSVAAAAGGAVVVWQGYTPPPSVIHGIDPLAARTGGVALAEFQAALRERYPDARLTVLSHSYGTVVATRAAQGPGLVVDDLWLLGSPGVGVPSVDKLELLGADPQVFVADADRDPITATRFRHDAAHGYSPSAESFGATRIDGVRGDHGAYFTDPALLRALSTSTSAG				NA	NA	NA	NA	NA
AK009_08093	1617			hypothetical protein	GTGGTGGGAGAGGGCGTCGGCAAGCGCGGGCTTGAGGTCGGAGGGGTCCTCGACGCGGAAGGACTTGATGCCGATGGCTTCGGCGATGGCGGCGTAGTTGACTTCTTCGTGGTCGGTCTGGAAGTCGGGGAAGCCCTCGACGATCATTTCCAGCTTCACCATGCCGAGCGAGGAGTTGTTGAATACCACTGTCTTAATCGGCAGGTTGTGCAGCTTGACGGTGAGCAGTTCGCCGAGCAGCATGCCCAGGCCGCCGTCGCCGGACCAGGAAATGACCTGCCTGTCCGGGTTGGCCGCCTGGATGCCAATCGCCATGGGCAGGGCGTTGGCCATCGTGCCGTGCAGGTAGGAGGCGTGCTCGGCGCGCTGGCCGTTGGCGGTGAAGTAGCGCGAGGACCACACGTTGCACATCCCGGTGTCGACGGTGATGATGGCGTCGTCGGCGGCGATCTCGTCGAGCACGGACGCGGCGAACTCCGGGTGGATCGGGGTACGCGATTCCCGCGCCGGGGTGGTGTAGGTGCGCACCACGTTCTCGAGCAGCTCGGCGTGGCGGGTAAGCATGCGATCGAGGAAGGAGCGGTCCTGCTTTTCCTCGACGTGGGGCAGGATGTTGTCAATGACGCTGGCCACATCGCCGACCACGGGCACGGCTACCTTAGTGCGCCGTCCGATGTGCGCTCCGTTGATGTCGATCTGGGCGACGTTGCCGTGCGGCAGCCAGTCGGTATAGGGGAAATCTGTGCCGACCATGATAAAGAGGTCTGCTTCCTGCGACGCCTCGAAACAGGCTCCGTATCCGAGCAAGCCGGACATGCCTACGTCAAAGGGGTTGTCGTGGGCGATGAACATCTTGCCGCGAAACGAGTGCCCGATGGGGGACTTGATCTTTTCTGCCAGCGCGAAGACCTGCTCGCGGGCGTCGCGGGCGCCGTAGCCGCAAAACAGGGTGACGGTATCGGCCTCGTTGATCGCGCGCACCAGCGCTGCAGCCTCGGCGGGATCGGGGTAGACGCGCTTGGCGGCCCCGGTGGCGTACGCCGAGCTCACCGTTGTGGAATCAGCGACCTCGGCGGTGAACACGTCACCCGGCACCACGATGACCGACACACCGTTGCCCGCGAGGGTGGACTGCACCGCGTTGTGCAAAACGCGCGCGCCCTGGGTGCCCGAGTGCACCACCTCCCGGTAGCCCGAGCACTCCTGGAAGATGTATTCGGGGTGGGTGGCCTGGAAGAACTCCGACCCGATCTCGTTCGACGGGATGTGGGAGGCGATCGCGAGGACCTTCGCGCCGTTGCGGTGCGCCTCGTACAAGCCCTGGATGAGGTGGGTGTTGCCGGGTCCGCAGGAGGCGCCGCACACGGCGAGGTCGCCGGTGGACAGGGAGTCGGCGGCTGCGGCGAAGGCAGCGGCCTCCTCGTTGCGGACGTGAATCCATTGGATGCTGGAGGTGCGCACGGCGTTGGACAGCGGGTTCAAAGAGTCCCCGACGAGCCCGTAGATGCGTTTGACTCCGAGGCGCTCGAGGGTGTTGACAAGCTGCTGGGCGAAGTTGGAAGCCATGGCCCGATGATACGTCCTAACCTGCCGAGGTTGACGTCGAAAGCGCTCTGA	MVGEGVGKRGLEVGGVLDAEGLDADGFGDGGVVDFFVVGLEVGEALDDHFQLHHAERGVVEYHCLNRQVVQLDGEQFAEQHAQAAVAGPGNDLPVRVGRLDANRHGQGVGHRAVQVGGVLGALAVGGEVARGPHVAHPGVDGDDGVVGGDLVEHGRGELRVDRGTRFPRRGGVGAHHVLEQLGVAGKHAIEEGAVLLFLDVGQDVVNDAGHIADHGHGYLSAPSDVRSVDVDLGDVAVRQPVGIGEICADHDKEVCFLRRLETGSVSEQAGHAYVKGVVVGDEHLAAKRVPDGGLDLFCQREDLLAGVAGAVAAKQGDGIGLVDRAHQRCSLGGIGVDALGGPGGVRRAHRCGISDLGGEHVTRHHDDRHTVAREGGLHRVVQNARALGARVHHLPVARALLEDVFGVGGLEELRPDLVRRDVGGDREDLRAVAVRLVQALDEVGVAGSAGGAAHGEVAGGQGVGGCGEGSGLLVADVNPLDAGGAHGVGQRVQRVPDEPVDAFDSEALEGVDKLLGEVGSHGPMIRPNLPRLTSKAL				NA	NA	NA	NA	NA
AK009_08094	801			hypothetical protein	ATGACTACACCGCAGAACCCGAATGAGACCGGCCGCGTCGCACGTGTGCGCCAAACCACTACCCGTCGCGCTACCGGACAGGCACCGGCCGGTTCCGAGTCCCGCGCATACGAGACCGTGACCGAGACGCCCGACAGCGACACCACCGGCCAAGAGGCTTGGATCGGCACCCATTCCACCGACGTATCCAACGGCAACGTTTCCTGGGGTGCGATCTTCGCAGGCGTGGTGACCTTCCTCGGTCTCATGATCCTGCTCGGCGTCGGCGCTGCCGCAATGGGCCTGCAGGGATCCTCCGCCGTCGCAACCGGCATCTTCGCCGTGATCTCCCTGGCAATCGCCTTCGCAGCAGCCGGCTACGTCGCTGGCGCACTCGGTGTGCGCGCTGGCCTGTTCCACGGTTTCGCCACGTGGGCGACCTCGTTGATTGCCGCACTGGTTCTTACCGGCTGGCTCGGCGCCTCCGTTGTTGGAGGCCTCGGCTCCGCACTGGGCACCGTCGCCCAGTCCGCTGGCAACGCTGTGAGCGTCACCTCCGAAGACGCTCAGGCTGCGCAGGACGCTGTTGATCCGCAGGAGGCCCAGAACGCTCAGCAGCAGGCTCAGCAGACCGCTCAGGAAGCTGCCCAGCAGGCTCAGCAGACCGCTCAGGAAGTCGCCCCCGAGGTTGCCGCTGGTTCCTGGTGGACCTTCGCCGGCCTGATCATCGGCGCACTGATCTCCGCCTTTGCAGGTGCCGCTGGTGCCCGCTCCGTGCTCAACCGCGACGAGAAGCAGGTTGTGCGTCCCGCAAACCGCTAA	MTTPQNPNETGRVARVRQTTTRRATGQAPAGSESRAYETVTETPDSDTTGQEAWIGTHSTDVSNGNVSWGAIFAGVVTFLGLMILLGVGAAAMGLQGSSAVATGIFAVISLAIAFAAAGYVAGALGVRAGLFHGFATWATSLIAALVLTGWLGASVVGGLGSALGTVAQSAGNAVSVTSEDAQAAQDAVDPQEAQNAQQQAQQTAQEAAQQAQQTAQEVAPEVAAGSWWTFAGLIIGALISAFAGAAGARSVLNRDEKQVVRPANR				NA	NA	NA	NA	NA
AK009_08095	1203			hypothetical protein	GTGAACGAGTTCCCCGCCGCGCCGGGAAGCAGATTCGGCGCGGCGGCGAAGCTCGTCGTTTTCCTCCTGCAGCTGCTCGATCTGGCTGGTGAGCTCAATGATCGTCTTGATGCCTGCGAGGTTGACGCCCTCTTCCTGGGACAGGTACTGGATGCGACGCAGCAGGCTGATGTCCCGGCGCGAGTAGCGACGCCCCCCGCCGCTCGTGCGCATCGGCGTAACCAACCCCATCCGGTCATAAGTGCGCAGCGTCTGGGCGTGCATCCCAGTCAGCTCCGCGGCGACGGAGATGACGAAGTACTCCTGGTCATCACTGTGGTAAGCCACCGTAGATTGACACCCCCCTTCCTCTTACTTCAACCCGGCCCACCCGGCGCGCGGGTCGAAGCCGGAATCCTTCTCGGCCTGGGCGTACGCGCGCAGAGCCGAGGTCGCGGCAGCGTCCAGATGAGACGGGACGGCCACCTCCACGGCCACCAGCAAGTCACCCGCGGCGCCCGACTTCTTGGGCACGCCGCGGCCCTTGACACGCAGCGTCCGGCCGTTCGGGGTGTTGGCCGGCACCTTGACCTTAACCGGGTTATCCAACGTCGGAACGGTGACGGTTCCGCCGAGTGCGAGCTCGCTGAAACTCACCGGCACTGTGACCTCAAGGTCGTCGCCGGTACGCGTGAACACCGCATCCGGGCGCACGTTGACGGAGACGAAGAGGTCTCCCGCCGGCGTGCCGTTCGGGCCCGCTTCACCCTGGCCGGCAAGGCGCACCTTCTGCCCGTCGATCACCCCCGGCGGGATGCGCACCGTAATAGACCTGCTGCGCCGCACGGTTCCCGTGCCCGCGCATGTAGTGCACGGATCCTCGATGATCTCGCCCGTGCCACCGCACTGCGGGCAGGGCCGCGCCATGCCGAATGCGCCGCTGTTCTCGCGGAGGTAACCGGTGCCCGAGCATTGCGAACACGTCGTTGTCGTGCCCGACTTCGAACCCGATCCGTGGCAGGTGGTGCAGGGCGCGTCGCCGGTGAGCTCCACGGGGATGGTGGTGCCCTTCGCCGCCTCGCGAAAATCGAGGGTTATTTCCGTTTCGACGTCGGCCCCCCGCGTCGGCCGAGCATTCCTGCCAGCAGCGCCGCCGCGGTTAAAGAAGCCACCGAAGATATCACCAAGGCCGCTGTCTCCAGCTTGTCCACGAGATGCGGCTGA	MNEFPAAPGSRFGAAAKLVVFLLQLLDLAGELNDRLDACEVDALFLGQVLDATQQADVPARVATPPAARAHRRNQPHPVISAQRLGVHPSQLRGDGDDEVLLVITVVSHRRLTPPFLLLQPGPPGARVEAGILLGLGVRAQSRGRGSVQMRRDGHLHGHQQVTRGARLLGHAAALDTQRPAVRGVGRHLDLNRVIQRRNGDGSAECELAETHRHCDLKVVAGTREHRIRAHVDGDEEVSRRRAVRARFTLAGKAHLLPVDHPRRDAHRNRPAAPHGSRARACSARILDDLARATALRAGPRHAECAAVLAEVTGARALRTRRCRARLRTRSVAGGAGRVAGELHGDGGALRRLAKIEGYFRFDVGPPRRPSIPASSAAAVKEATEDITKAAVSSLSTRCG				NA	NA	NA	NA	NA
AK009_08096	174			hypothetical protein	TTGCGTCGACGTGGAGCGAAACCCGCCCGGGAAGCCCGAGCCTCCTGCCCCTCCGAAGCGGCCGAAGCCGCCGGAGTTCACCATAGATTTCAACTCGTCGTACTCTTTGCGCTTCGCCTCGTCGCCGATGACGTCGTACGCCTCGGCTACGCGCTTAAATTTTTCCTCCGCTGA	MRRRGAKPAREARASCPSEAAEAAGVHHRFQLVVLFALRLVADDVVRLGYALKFFLR				NA	NA	NA	NA	NA
AK009_08097	2541			hypothetical protein	GTGGAGGGGTTAAACTCCAGTGCCGCTAGCTGGGTCGGCCGGGTCGGTGATGATGACCATGGCGTTGCGCACGAGCCGGTCGCCGACGCGGTATCCCCTGCGCAGCACGGTCCCGAGAACCTTCGTGTCGCCCTCGGAGAGGTCCTGTACCGCCTCGTGGATTTCCGGGTCGAAGTCCTCGCCTTCCTCTCCGAAGGCGACGACCTTGTGGCTGCCGAGCGCGGAGCGGAACTTGTCCGCGAACACTTTCAGCGGACCTTCATTGAGGTCGCCGTGCTGCTCGGCGAGGTCGAGGTCATCGAGAAGCGGCAGCATGTCGGAGAGCACGCGCGCTTTCGCCTGCTCGGCGATCTGGCCACGCTCGCGCTCGGTGCGGCGCCGGTAGTTCGCGTACTCGGCGCTCACCCGCTGCAAGTCTTCGGTGCGCTCCGCGAGCTTGAGCTCGGTTTCCGAGATCACTCCGTCACCGTCGGCATCCGGGTTGACCTCGCTCGCCAGAGCGTCCTCGATCTCGGCGTCGGTGATGTCCTCGAGGGGGTCCTCGTCCGCATCGAGCGCCGCGGACTCAGCCGCCTCGTCCGCCAGGGTCTCAGCCTGGTCGGGGGAGACGTACTGCTCGTCCGTGTTCTCTGGAGCGCCGGGGTCATCCGGCATCTGAGAGTTGGTCGGGTTCGTCATCAGTTACGTCCTTTACTTGTTGTCGGAGTCGCCGGTGGTGCCGGTCTCCTCGGCGTCGTCCTCGACGACCTCTGCATCGACGACGTTGTCGTCGGCCGGGACGTCAGCCTGGGTGGCACCGGAGTTGGCCTCGGCCTCGTAGAGAGCCTTGCCCAGCTCCTGGGACTCGGTGGTGAGCTTCTCCACCGCGGACTTGATTGCCTCCAGGTCGTCGCCCTTGAGCGCCTCGTCGACCTCGTCGGCTGCGGCGCTGACGCGGGTCTTGAGGTCCTCCGGCAGCTTGTCGGTGTTCTCGTCCATGAACTTGCGGGTCTGGTACGCCATGGTCTCCGCGTTGTTGCGGGTCTCCTGCTCCTCGCGGCGCTTGCGGTCCTCGTCGGCGTGAGCCTCGGCGTCCTTGATCATGCGATCAATGTCCTCCTGGGACAGCTTGGAACCATCCTGGATGGTAATGGTGTTTTCCTTGCCGGTTCCCTTGTCCTTGGCGGACACGGAGACGATGCCGTTGGCGTCGATATCGAAGGTGACCTCGATCTGCGGCACGCCGCGCGGTGCCGGTGCGATGCCACCGAGCTCGAAGGAGCCGAGCAGCGTGTTCGCGGAGGCGATTTCACGCTCGCCCTGGAAGACCTGGATCTGCACCGAGGGCTGGTTGTCCTCAGCGGTGGTGAAGGTCTCCGAGCGCTTCGTCGGGATCGTGGTGTTGCGCTCGATGAGCTTGGTCATCACGCCACCCTTGGTCTCGATGCCGAGCGAGAGCGGGGTGACGTCGAGAAGCAGCACGTCCTTGACATCGCCGCGCAGGACGCCGGCCTGCAGGGCAGCGCCGACAGCGACGACCTCGTCCGGGTTAACACCCTTGTTGGCGTCCTTGCCGGAGAGCTCCTTAACCAGGTCAGCGACGGCGGGCATACGGGTCGAGCCGCCGACGAGGACCACCTGATCAATGTCGCCGACGGACATGCCGGCGTCCTTAATCACCTGGTTGAACGGCGCCTTCGTGCGGTCGAGCAGGTCAGAAGTGATCTTCTGGAACTCGGTGCGCGTGAGCGTCTCGTCGAGGAACAGCGGGTTCTTCTCCGCGTCGACGGTGATGTAAGGCAGGTTGATGGAGGACTGCTGCTGCGAGGACAGCTCGATCTTGGCCTTCTCCGCGGCCTCGCGCAGGCGCTGCAGGGCCATCTTGTCCTTGGTCAGGTCAATGCCGTTTTGGGCCTTGAACTTATCGACGAGCCAGTCAACGATGCGCTGATCCCAGTCATCGCCACCGAGCTCGTTGTCACCGGCGGTGGCGAGCACCTCGACGACGCCGTCACCGATCTCGAGCAGGGACACGTCGAAGGTGCCGCCGCCCAGGTCGAAGACGAGGATGGTCTGTTCCTTGTCGGACTTCTCCAGGCCGTAGGCCAGAGCCGCTGCGGTGGGCTCGTTGACGATGCGCAGGACGTTGAGGCCCGCGATCTGGCCGGCTTCCTTCGTGGCCTGGCGCTGGGCGTCCTCGAAGTACGCCGGGACGGTAATGACGGCGTCGGTCACCTCATCGCCGAGGTAGGCCTCCGCGTCGCGCTTGAGCTTCATCAGCGTGCGGGCGGAAATCTCCTGCGGGGTGTACTTCTTGTCGTCGATGTCAACCGTCCAGTCCTCGCCCATGTGGCGCTTGACGGAACGGATGGTGCGATCGACGTTGGTCACAGCCTGGTTCTTTGCCGACTGGCCAACGAGCACCTCGCCGTTCTTGGCAAAAGCGACAACCGACGGGGTGGTACGCGAACCCTCGGAGTTGGCGATGACGACGGGGTCGCCGCCCTCAAGTACCGCGACGACGGAGTTGGTGGTACCGAGGTCGATGCCTACTGCACGTGA	MEGLNSSAASWVGRVGDDDHGVAHEPVADAVSPAQHGPENLRVALGEVLYRLVDFRVEVLAFLSEGDDLVAAERGAELVREHFQRTFIEVAVLLGEVEVIEKRQHVGEHARFRLLGDLATLALGAAPVVRVLGAHPLQVFGALRELELGFRDHSVTVGIRVDLARQSVLDLGVGDVLEGVLVRIERRGLSRLVRQGLSLVGGDVLLVRVLWSAGVIRHLRVGRVRHQLRPLLVVGVAGGAGLLGVVLDDLCIDDVVVGRDVSLGGTGVGLGLVESLAQLLGLGGELLHRGLDCLQVVALERLVDLVGCGADAGLEVLRQLVGVLVHELAGLVRHGLRVVAGLLLLAALAVLVGVSLGVLDHAINVLLGQLGTILDGNGVFLAGSLVLGGHGDDAVGVDIEGDLDLRHAARCRCDATELEGAEQRVRGGDFTLALEDLDLHRGLVVLSGGEGLRALRRDRGVALDELGHHATLGLDAERERGDVEKQHVLDIAAQDAGLQGSADSDDLVRVNTLVGVLAGELLNQVSDGGHTGRAADEDHLINVADGHAGVLNHLVERRLRAVEQVRSDLLELGARERLVEEQRVLLRVDGDVRQVDGGLLLRGQLDLGLLRGLAQALQGHLVLGQVNAVLGLELIDEPVNDALIPVIATELVVTGGGEHLDDAVTDLEQGHVEGAAAQVEDEDGLFLVGLLQAVGQSRCGGLVDDAQDVEARDLAGFLRGLALGVLEVRRDGNDGVGHLIAEVGLRVALELHQRAGGNLLRGVLLVVDVNRPVLAHVALDGTDGAIDVGHSLVLCRLANEHLAVLGKSDNRRGGTRTLGVGDDDGVAALKYRDDGVGGTEVDAYCT				NA	NA	NA	NA	NA
AK009_08098	1248	ald1_2		Long-chain-aldehyde dehydrogenase	ATGGAGGAGCACCTCGAAGAGCTCGCCGTCGCGGAAACGTGGGAGAACGGAAAGGCCATCCGAGAGACGTTGGCGGCGGATATCCCCCTGGCCATCGACCACTTCCGCTACTTCGCGGGCGCGATCCGCGCCCAGGAGGGCAGGCTGTCGCAAATTGACGACGACATGGTCGCGTACCACTTCAATGAGCCTCTGGGCGTGGTGGGCCAAATCATCCCGTGGAACTTTCCGCTGCTGATGGCGGTGTGGAAGCTCGCACCGGCGCTCGCCGCCGGCAACGCCGTGGTGATGAAGCCGGCGGAGCAAACCCCGGCGTCGATCCTGTACCTGATGGACCTCATCGGAGACCTCATCCCGGCCGGCGTGGTCAATATCGTCAACGGCTATGGTGACGAGGCCGGCGCCGCCCTGTCCGGCTCCGACCGGATTGCCAAAATCGCGTTCACGGGCTCCACCGAAGTGGGCAAGATCATCAACAAAGCGGCCTCGGACAAGATTATTCCGGTCACGCTCGAGCTCGGTGGCAAATCCCCGTCGATCTTCTTCGCCGACGTCATGGATGCCGATGACGCGTTTCGGGCCAAAGCGGTCGAAGGTTTCGCCATGTTCGCCCTCAACCAGGGGGAGGTGTGCACCTGCCCGTCACGGGCGCTGGTGCACGAATCCATCGCCGACGAGTTTCTCGCCCTCGGGGTAGAGCGGGTCAAGCAGATCAAGACCGGAAACCCCCTGGATACGGACGTTCAAATGGGCGCCCAGGCGTCGCAGGAGCAGATGGACAAGATCACCCACTACCTCAAGCTCGGTCCGGAGGAGGGTGCGGAGACGCTCACCGGGGGCAACATCAACCGCATCGAGGGCCTGGACGGAGGCTTCTATATTGAGCCGACGGTGTTCAAGGGCACCAACGACATGACCATCTTCCAGGAAGAAATCTTCGGGCCGGTGTTGTCGGTGGCCACGTTCTCCGATTTCAGCGAGGCGATCCGGATTGCGAACGACACGATCTACGGCCTCGGTGCGGGTGTGTGGTCGCGCAACGGTACGGTGGCGTACCGCGCCGGGCGCGCGATCAAGGCCGGTCGCGTGTGGGTGAACCAGTATCACACCTACCCGGCGCACGCGGCATTCGGCGGGTACAAGCAATCTGGTATCGGCCGGGAGAACCATCTGATGATGCTGAACCACTACCAGCAGACGAAAAACCTGCTTGTCAGCTACGCGGACCAGCCGACGGGACTGTTCTAA	MEEHLEELAVAETWENGKAIRETLAADIPLAIDHFRYFAGAIRAQEGRLSQIDDDMVAYHFNEPLGVVGQIIPWNFPLLMAVWKLAPALAAGNAVVMKPAEQTPASILYLMDLIGDLIPAGVVNIVNGYGDEAGAALSGSDRIAKIAFTGSTEVGKIINKAASDKIIPVTLELGGKSPSIFFADVMDADDAFRAKAVEGFAMFALNQGEVCTCPSRALVHESIADEFLALGVERVKQIKTGNPLDTDVQMGAQASQEQMDKITHYLKLGPEEGAETLTGGNINRIEGLDGGFYIEPTVFKGTNDMTIFQEEIFGPVLSVATFSDFSEAIRIANDTIYGLGAGVWSRNGTVAYRAGRAIKAGRVWVNQYHTYPAHAAFGGYKQSGIGRENHLMMLNHYQQTKNLLVSYADQPTGLF	PGPT0007176_1287	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
AK009_08099	1140			hypothetical protein	GTGGGTCACCGTGCGTTTCGAGACCAGGGCGACGGGCCCGGGCCGTGCGGTGAGCCTGCGTGTCGACGACCCCCTCCTCACGCCCGCCGACCCCATCGACTCCCTGGCCTGGGACGAGTGGCTGGGGCAGGAAGGCGGCTAGTCCAGCAGCGCCCGCGGGTCGGTGCCCGTGGCCAGCGCCGTGAGCAGTGCCATGCGCGCCTGGCCTGCGCGCAGCCAGCCGGCAGAGAGCACCCCGTGCTGCGCGAGTGTCGCACCGCCGCCACCGCCGCCGTAGGCGAGGCTGACTTCGCCGGACGGCACGGAGGTGCTCATCACCACCGGAATGTCCGCCTCGGCGGCGCGCACCAGCGCGCGCCCCATCTCTTCGGAGACGTTGCCGGAGCCGAGCGCCTCGACGACGATGCCGTCGACGCCGCTGTCGATGGTGAAGTCGACGAGCTCGGGGCCCGCGCCGGGCCACGCCCGCAGGATAGGCACGTTGAACCTGGCCAGGGGAGCGGGGTCGACGGCGGCGGGGCGCGGCAGCGTCATCGGGGCGGTGAGCGCGAAGGCGCGCCGGTTATCGGTGTCGTGCTTGTACAGACCGCGGGCGGCGAGGCTGTCGCCGCCGAAATGCACGGTCACGCCGCGACCGCGGGCCAGGGGGTCGGCGGCCATCTCGATGGCGCGACGCAGGTTGGCGGGCCCGTCGGCGTGCGGGTGGTCGGCGGGCAGCTGCGCGCCGGTGAGGATCACGGGCCGCGGGTCGCGCTGGACCAGGTCGAGCGCGAGCGCCGTTTCCGCCATGGAGTCGGTGCCATGGGTGATCACGATGCCGGTGATGAGCGCGTCGTCAAGCGCAAGGCTCACGAGCGCAATGAGCGTATCGACGTCCCCGAGCCCCATAGAAGAGGAGTCAAGGAGCACCGAGTCGTAGACACGGGTGGGTTCCGATGTGTCGCAGGAGGTGACGAGTTCTTCGGCGGAGAGCGTGGGCACGCGCGCGCCCGAGGAATCGGTGGTGCAAGCGATTGTGCCGCCGGTTGCGATGACGAGGACGAAGGGCTCGCCGGGCTGGGGAAGAGTCATGTTTACCAGAGTGTCGGTTGGGGTTTGTTGTTATTAAACGGTAACCTCGGCAAGGTTACACCCGTATGA	MGHRAFRDQGDGPGPCGEPACRRPPPHARRPHRLPGLGRVAGAGRRLVQQRPRVGARGQRREQCHARLACAQPAGREHPVLRECRTAATAAVGEADFAGRHGGAHHHRNVRLGGAHQRAPHLFGDVAGAERLDDDAVDAAVDGEVDELGARAGPRPQDRHVEPGQGSGVDGGGARQRHRGGEREGAPVIGVVLVQTAGGEAVAAEMHGHAATAGQGVGGHLDGATQVGGPVGVRVVGGQLRAGEDHGPRVALDQVERERRFRHGVGAMGDHDAGDERVVKRKAHERNERIDVPEPHRRGVKEHRVVDTGGFRCVAGGDEFFGGERGHARARGIGGASDCAAGCDDEDEGLAGLGKSHVYQSVGWGLLLLNGNLGKVTPV				NA	NA	NA	NA	NA
AK009_08100	885			hypothetical protein	ATGCGACTCGGCCGCCGCGCGCTTGAGCGCCTCGTCCACCTGTGGCGGGGTGGTCAAATCCTGCGGGTAGGTGTGTTCCGAGGAGATCTGCTTCGCCTCGGCGCGCGGCGCGACCTCGCGGTTGTCGATGCCACGCGCCAGGCCCCACAGCTGCTTCGCCACCGCACCGCCGAGCGCGATCTCTACCTCGCGCTCGCTGAGCGCCGCGAAGTCGCCGATCGTCTCGATCCCCACCGACGCGAGCTTCGCCTCGGTCACGGGCCCCACGCCCCAGAGCTGGTTGACGGGCAGCGGGTGCAGGATTTCCAGCTGCTCCTCGCGCGGGATGACAAATATCCCATCCGGCTTCGCCAGCCCGGAGCCGATCTTGGCGTACTGCTTGCCGGAGCCCGCGCCTATCGACGACGGCAGCCCCGTCTCCTGTTTAATCTCCGCGCGCAGCCGGTTCGCCCACTCACGGATGTCGTCGGGGCTCGCGTCCGCGAGCTCGGCGGGTTCCATAAAAGCCTCGTCGATGGAGAGCTGCTCGACGACGTCCACGTGGCGCGCGATCACCTCGAACACCCGACGCGACGCCGTGGTGTACACAGCCCGGCGCGGGGCAACAAGCACGGCTTTTGGCCCGACGAGCCGGGCCGCGCGGTGGGTCGGCATCGCCGAGCGCGCGCCGTACTTGCGCGCCTCGTAGCTCGCGCCAGCGACCACTCCCCGACCGCTCACGCCGGCGACCAGCACCGGGCGCCCCTTGAGCGTCGGGCGGGTGAGCTGTTCGCAGGACGCGTAAAACGCATCCATATCGATATGCAACACCCAGCGCGACATGATCCCAGCTTAAACGCAGGCCTTCACCCTCAACCCGAAACGCTGCAACCTGCGCCGGGTTGA	MRLGRRALERLVHLWRGGQILRVGVFRGDLLRLGARRDLAVVDATRQAPQLLRHRTAERDLYLALAERREVADRLDPHRRELRLGHGPHAPELVDGQRVQDFQLLLARDDKYPIRLRQPGADLGVLLAGARAYRRRQPRLLFNLRAQPVRPLTDVVGARVRELGGFHKSLVDGELLDDVHVARDHLEHPTRRRGVHSPARGNKHGFWPDEPGRAVGRHRRARAVLARLVARASDHSPTAHAGDQHRAPLERRAGELFAGRVKRIHIDMQHPARHDPSLNAGLHPQPETLQPAPG				NA	NA	NA	NA	NA
AK009_08101	2376			hypothetical protein	GTGCTCGAGCGCCTCACCCTCGACCACCTCGAAGGAGGTAGCCAGCGTCTCGGCGGCGATGTGCTCTGCGTGACGACGCGCCCACTCATGCTTGTCCCCTGGCACGCTGAGCACGACGGAGATGCGGTCGGAGACCTCGAAGCCGGAGGCCTTGCGCGCGTCCTGCAGGCCGCGGATGACGTCCGCCGCCCAGCCCTCAGCCTCGAGTTCCTCGGTGACGGTGGTGTCGAGCACCACGAGGCCGTCGACGCCGGTGAGGGCGTCGATACGCGCCGTGGACTCGGGGTTAACGGCGACGAGCCGCTCGGTGTAGAGCTCAGGGGTGAGCACGATGTCTCCGTCCACCACGACGTTGTCGCCCTGGCGCTCGTAGTTGCCCGCCTTGACGCCCTTGATCGCGCGCTGCACGTCCTTGCCCAGCTTCGGACCCGCCACCTTCGCGTTGACAACAACCTCGAACGAACCGGCGGAGGCGACGTCGTCGGTCAGCTCGACCTCCTTGACGTTGACCTCGTCGCGGATCGCGGCCGCGAAGTCGGCGAGCCGCGCCGACTCCGGCAGGGCGACGGTGAGCTTCGGCAGCGGCAGGCGGTTGCGCAACTTGTTGGCCTTGCGCACCGACGACGCCGCGGAGCACACCGCGCGAGTGGCATCCATCGCCGCGACGAGCTCAGCGTTGGCCGGGATCTCCTCTGCCCGCGGGTAGTCCGCCAGGTGGACGGAGCGCCCGCCGGTCAGGCCGCGCCAGATCACCTCGGTGATGTACGGCAGAAGCGGTGCGGTGACCCGCGTGAGTACCTCGAGCACCGTGTAGAGCGTGTCGAAGGCCTCCGGATGCGCCTCCTGGCCCTCCCAGAAGCGGTCGCGGGAGCGGCGCACGTACCAGTTGGTCAGCGTGTCGGCGAACTGGCGCACCTCGTCGCAGGCGTCGGCGATGCGGGTATCGCTCAGCGCCTGGGCGACGCCCGCGACGAGGTCGTGGGTCTTGGCCAGGATGTAGCGGTCGAGCACGTTGTCGGAGTCGACGGACCAGCGCGCCTCCGTGGAGGAGTAGAGCTGCAGGAAGCTGTACGCGTTCCAGATCGGCAGAAGCGCTTGGCGCACGCCGTCGCGGATGCCCTGCTCGGTGACGACGAGGTTGCCGCCGCGCAGGATCGGGCTGGACATGAGGAACCAGCGCATCGCATCCGAGCCGTCGCGGTCAAAGACCTCGTTGACGTTCGGGTAATTGCCCTTCGACTTCGACATCTTCTGCCCGTCGGAGCCCAGCACGATGCCGTGCGCGACGACCTTCTTAAACGCCGGGCGGTCGAACAGCGCGGTGGACAGCACGTGCTGGACGTAGAACCAGCCGCGCGTCTGGCCCGAGTACTCGACGATGAAGTCGGCGGGCTGGCGCGCGTCGTGCTCGGCGACGTTCTCAAACGGGTAGTGGTACTGGGCAAAAGGCATGGAGCCGGATTCGAACCAGCAGTCCAGCACATCCGGCACGCGGCGCATCGTGGACTTACCCGTCGGGTCATCCGGGTTGGGGCGGGTCAGCTCGTCGATGTAGGGGCGGTGCAGGCTTTCCGGGCGCACACCGAAGTCGCGCTCGAGCTCGTCGAGGGAGCCGTAGACGTCGACACGCGGGTACTCGGGGTTGTCGGAGACCCACGCCGGCACGGGCGAGCCCCAGTAGCGGGTGCGCGAGATGTTCCAATCGCGCGCGCCCTCGAGCCACTTGCCGAACTGCCCGTCGCGGATGTGCGCCGGGATCCACTCGATCTCCTGGTTCAGCTCCACCATGCGGTCACGGAACTGGGAGACCTTGACAAACCACGCGGGCAGCGCCATGTAGATCAGCGGCTCGCCCGAGCGCCACGAGTGCGGGTAGGAGTGCACGATGGTTTGGTCGCGCACGACGCGGCCCGCTGCCTTCAGGTCGCGGATGATGTCGCGGTTAGCGTCGAAAACGAGCTTGCCCTCGTATTCGGGCACCAGCGATGTGAACTTGCCGTCGGCATCGACGGGGATGACCAGCGGGATCGAGTACTTCTCCGTGGTGGCCATGTCGTCCTCGCCGAAGGCTGGCGCCTGGTGGACCACACCGGTGCCGTCTTCGGTGGTGACGTAGTCCGCGGTGAGCACCATGAAGGCATTCTCGGTATCGGCGAAGTGGTCGAACACGGGGGTGTACTCGAGGCCTTCGAGCTGCGCGCCGCTAAACGTGGCCACGACTTCGGCGTCCTCGCCGAGCTCCTTCGAGTACGCGCCGACCAAGTTGCTGGCGAGCAGCATCGTGGCGCCGATAAAGCCCTCCGCGCCCGTGGAGCCGACGCGCACGAGGGAGTACTCGACCTCGGGGCCCACAGCGAGCGCCAGGTTCGACGGTAG	MLERLTLDHLEGGSQRLGGDVLCVTTRPLMLVPWHAEHDGDAVGDLEAGGLARVLQAADDVRRPALSLEFLGDGGVEHHEAVDAGEGVDTRRGLGVNGDEPLGVELRGEHDVSVHHDVVALALVVARLDALDRALHVLAQLRTRHLRVDNNLERTGGGDVVGQLDLLDVDLVADRGREVGEPRRLRQGDGELRQRQAVAQLVGLAHRRRRGAHRASGIHRRDELSVGRDLLCPRVVRQVDGAPAGQAAPDHLGDVRQKRCGDPREYLEHRVERVEGLRMRLLALPEAVAGAAHVPVGQRVGELAHLVAGVGDAGIAQRLGDARDEVVGLGQDVAVEHVVGVDGPARLRGGVELQEAVRVPDRQKRLAHAVADALLGDDEVAAAQDRAGHEEPAHRIRAVAVKDLVDVRVIALRLRHLLPVGAQHDAVRDDLLKRRAVEQRGGQHVLDVEPAARLARVLDDEVGGLARVVLGDVLKRVVVLGKRHGAGFEPAVQHIRHAAHRGLTRRVIRVGAGQLVDVGAVQAFRAHTEVALELVEGAVDVDTRVLGVVGDPRRHGRAPVAGARDVPIARALEPLAELPVADVRRDPLDLLVQLHHAVTELGDLDKPRGQRHVDQRLARAPRVRVGVHDGLVAHDAARCLQVADDVAVSVENELALVFGHQRCELAVGIDGDDQRDRVLLRGGHVVLAEGWRLVDHTGAVFGGDVVRGEHHEGILGIGEVVEHGGVLEAFELRAAKRGHDFGVLAELLRVRADQVAGEQHRGADKALRARGADAHEGVLDLGAHSERQVRR				NA	NA	NA	NA	NA
AK009_08102	138			hypothetical protein	GTGAAGCTCGGGGTGCTCGGCCCACGTCTTCTCGGCCTGGTAACCCGCGCGGGCGCCGGTAAACGGCATGGTCACGGTCACTGTGGGGTCTTGGCGTTCGCGGTAGGCGTCGTCAAGCCGCGTCTCCTGGTTCGATAG	MKLGVLGPRLLGLVTRAGAGKRHGHGHCGVLAFAVGVVKPRLLVR				NA	NA	NA	NA	NA
AK009_08103	321			hypothetical protein	TTGGCGGTTGACGTAGTCTTCCCACTCGCTGGCGTAGTTCATCACGGACTTGGCGCAGTACTCGTTGAACTTCTCCAGGCCCATGTCCTCGATCTGGGCCTTGTCCGTGATGCCGAGCTGCTTTTCCGCCTCCAGCTCGGCGGGCAGGCCGTGGCAGTCCCAGCCGAACACGCGCGGCACGTGGTGGCCGGTCATCGTGCGGTAACGCGGCACGATGTCCTTGACGTAACCCGTGAGCAGGTGCCCGTAGTGGGGCAGGCCGTTGGCGAACGGGGGCCCGTCGTTAAAGACGTATTCCTCGCAGCCTTCGCGGCCTGCTAA	MAVDVVFPLAGVVHHGLGAVLVELLQAHVLDLGLVRDAELLFRLQLGGQAVAVPAEHARHVVAGHRAVTRHDVLDVTREQVPVVGQAVGERGPVVKDVFLAAFAAC				NA	NA	NA	NA	NA
AK009_08104	918		COG3599	Cell wall synthesis protein Wag31	ATGCCGCTGACTCCAGCAGACGTGCACAAAGTCGCTTTCAACAAGCCTCCGATCGGCAAGCGGGGTTACAACGAGGACGAGGTTGACCAGTTCCTCGACCTCGTAGAGGACACTCTCGCCCAGCTTCTGGACGAGAACGACGATCTGCGCGCCCAGGTGGAGGAGCTCAGCCGCGGTGGAGCCACGCAGGCTCCCTCCGCGCCGGTTGCTGCCACCCCCCAGGTTGATGAGAAGGCCCTCCGCGCCGACATCGAGGCCGAGATTCGCGCCGAGTACGAGCAGAAGGTCCGCGCCGCCGGGGCTGAGGCACGCTCCGCCCGCGAGGACGCTGAGCGCGCTCGCAAGCAGGCAGGGGAGGCTGGCTCCAACCGCAGCCAGCCAAGCACCGTTGCTGCCACTGCAGCGCCGAAGGCAGAGGCTTCTGCCGATACCCATGTTCAGGCTGCGAAGGTCCTCGGCCTCGCCCAGGAGATGGCCGATCGCCTCACCTCCGACGCGCAGGCTGAGGCACGCTCCATGCTCGACGAGGCCCGCGGTGCCGCTGAGCGCCAGCTGCAGGAGGCCGAGTCCAAGGCGAACGAGACCACCCGCGCCGCTGAGTCCCGTGCCCTGCAGCTCGTTTCTGAGGCCGAGAAGAGGGCCGACGAGACCACCAACGACGCCAACTCCCGCGCTGAGGCGCAGGTCCGCCAGGCTGAGGAGAAGGCCCAGAAGCTGCAGGCTGACGCCGAGCGCAAGCACACCGAGATCATGAACACGGTGAAGCAGCAGCAGGCCGCTCTGGAGAACCGCATCGCTGAACTGCGCACTTTCGAGCGCGAGTACCGCACGCGCCTGAAGACGCTGCTGCAGTCCCAGCTCGAGGAGCTCGAGTCGCGCTCGACCTCCGCACCAAGCGGCGACGCTGGCGAGAAGTAA	MPLTPADVHKVAFNKPPIGKRGYNEDEVDQFLDLVEDTLAQLLDENDDLRAQVEELSRGGATQAPSAPVAATPQVDEKALRADIEAEIRAEYEQKVRAAGAEARSAREDAERARKQAGEAGSNRSQPSTVAATAAPKAEASADTHVQAAKVLGLAQEMADRLTSDAQAEARSMLDEARGAAERQLQEAESKANETTRAAESRALQLVSEAEKRADETTNDANSRAEAQVRQAEEKAQKLQADAERKHTEIMNTVKQQQAALENRIAELRTFEREYRTRLKTLLQSQLEELESRSTSAPSGDAGEK				NA	NA	NA	NA	NA
AK009_08105	339			hypothetical protein	TTGCACGCCAAGCGCCCCACAGCGCCGGAAAAAGTACCCCCACGCTTAGCGCAAGAACGGCATCACGAGCAGCGCCTGGACGCCAACCTGCAGCAGCATGAGGATGAGGAACAGGGCGATCACACTGATGTCGATGCCAATGCCGTTGCCCATCTGCAGCGGCGGGATGAGTCGGCGCAGCGCTTTGACCGGGGGATCCGTCGCCACGAAGATGTACTCGGCCGCGACCATGAACCAGCGCGGCGGATCGAAGTGCTTGGAAAACGACTGGATCATCTCCACGATGATGCGAATAACCACCATGAGGGAATAAAGCCCGATGAGCGCCACAAGAATTGA	MHAKRPTAPEKVPPRLAQERHHEQRLDANLQQHEDEEQGDHTDVDANAVAHLQRRDESAQRFDRGIRRHEDVLGRDHEPARRIEVLGKRLDHLHDDANNHHEGIKPDERHKN				NA	NA	NA	NA	NA
AK009_08106	468			hypothetical protein	GTGCGCCGCGCGCTCGAGCTCGCCCTCGGAGATGTGCGAGCCTTCGGGAACGATGGCGAACACGCGGCGATCAGTCGCCATACCCTTGGTCAGGTTGTGCATCTTGCCGCGCAGCGCGAAGCACAGGCCAGCGGCGAAGTCGACGAGACGCTTGGCGTCGGCTGCGTCGAGGTCGGTCAGGTCCATGATCACGGCGTCGCCGTCACGGAAGGGCTCGCCGATCTCGCGGGCGTCGTTGTAGCTGCGGGGCACAGCGTTGACCAGCGCCGAGGTGTGGACGCGGGTGGAGCCGTACTCACGGGTGTGCGGGGCGTCGTAGGCGCGCGGCTCGCGCTCCACACTGGTCTCGCGGGCGTATCCGGCGCCCGCCGCAGCGTAGCGCGGCTCGTCGTAGTAGTAGGCCTCGTCTGCGTCGTTGACGTCCTGGACTCCGAGGCCGAAAAATTCCTTGGCGTTGCCGAGAATTGA	MRRALELALGDVRAFGNDGEHAAISRHTLGQVVHLAAQREAQASGEVDETLGVGCVEVGQVHDHGVAVTEGLADLAGVVVAAGHSVDQRRGVDAGGAVLTGVRGVVGARLALHTGLAGVSGARRSVARLVVVVGLVCVVDVLDSEAEKFLGVAEN				NA	NA	NA	NA	NA
AK009_08107	717		COG0325	Pyridoxal phosphate homeostasis protein	ATGGATAGAAAAGACGAGCTGGCCACAAACCTTGAGCGCGTGCGCGCCCAGATCAGCGAGGCGGTCACGGCTGCTGGGCGCACCGAGGGCAGCGTGCGGCTGATCCCGGTGTCCAAGTTTCACCCGGTGGCCGATATCGCGGCGCTCGGTGAGCTCGGCGTGGAGCTCGTGGGGGAGAACCGCGAGCAGGAAGCGCGCGCCAAGGCCGAGGAGTTGGTGCAGGCGGGTGCGGGTGTGCGGATCGCGATGATCGGCCAGATCCAGTCGAAAAAGGCCAACGCCGTGGCGCGGTGGGCGGCGGAGGTGCATTCCGTCGACTCGGTGAGACTCGCCACCGGGCTCGACCGCGGCATGGAGCTGGCGCTCGAGCGCGGCGACCGCACATCCACACGGCTGCGCTGCCTGGTGCAGGTTTCCGCCGACGGCGACACGGCCCGCGGCGGCGTCGCCTACGAGGGCCTCGACGAGGTGGCGGACGCCATTGAGGCGGCGACGCACCTCGAGCTCGGCGGGATCATGGTCGTCCCGCCGCTCGGTTCGGACGAGACCGCGGTGTTCACGGGCGCGCGCGAGCGTGCCGACGCCCTGGGTGACCGTATCGGGCGTCCCATGGACCTGTCCGCGGGCATGTCCGGGGACTTCGCGACAGCGATCGCCTGCGGTTCCGACATCGTGCGTGTCGGAACCGGGGTGTTTGGCGCCCGGCCCGTAGGCTAG	MDRKDELATNLERVRAQISEAVTAAGRTEGSVRLIPVSKFHPVADIAALGELGVELVGENREQEARAKAEELVQAGAGVRIAMIGQIQSKKANAVARWAAEVHSVDSVRLATGLDRGMELALERGDRTSTRLRCLVQVSADGDTARGGVAYEGLDEVADAIEAATHLELGGIMVVPPLGSDETAVFTGARERADALGDRIGRPMDLSAGMSGDFATAIACGSDIVRVGTGVFGARPVG				NA	NA	NA	NA	NA
AK009_08108	705		COG1496	Polyphenol oxidase	ATGGTGTTTACCTCCCGTGCTGGCGGGGCGTCGGCGCCCCCGTACGCATCGTTCAACCTTGCTGAGCACGTTGGCGATGCCCCCGACGCCGTCGCCGACAACCGCGCGCGCTTAGCGCGCGTCCTCGGGCTTGATCTGCAGCGACTTGTTTGGATGGAGCAGCTGCACACCAACACCGTCACCGTCGTCGATGGCCCGCAGTCACAGCCCGTGGAGGCGACCGATGCCCTGGTCACCACCACGCCCGGCCTTGCCCTGTGCGTGCTGGTCGCCGACTGCGTGCCCGTGCTTTTATCCGACCACGCCGCGGGGGTGATCGCCGCGGTGCACGCCGGCCGCGTCGGGGCACGCAACGGCATTGTGCGCAAGGCGATCGACGCCATGGTGGGGCTGGGCGCATCCCCGGGCAACATCCAGGCGTTGCTGGGGCCCGCGGCGGCGGGGGAGTCGTACGAGGTGCCCGGTGACATGGCTGCGGACGTCGAGAAGCAGCTGCCTGGCTCTCGGGTGACAACGCCACAGGGAACGAGTGGGCTGGATATCCGCGCCGGGCTGGTGCGCCAGCTGATGTCGATGGGGGTCACCCACATCGACGCGGACCCGCGCGATACCGTGGCCGATGAGGATTTCTTTTCGTACCGGCGCGAGGGCACGACAGGCCGCCAGGCCGGTGTGATCTGGTTGACGGGAGAAAGCGATGGATAG	MVFTSRAGGASAPPYASFNLAEHVGDAPDAVADNRARLARVLGLDLQRLVWMEQLHTNTVTVVDGPQSQPVEATDALVTTTPGLALCVLVADCVPVLLSDHAAGVIAAVHAGRVGARNGIVRKAIDAMVGLGASPGNIQALLGPAAAGESYEVPGDMAADVEKQLPGSRVTTPQGTSGLDIRAGLVRQLMSMGVTHIDADPRDTVADEDFFSYRREGTTGRQAGVIWLTGESDG	PGPT0019965_2243	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
AK009_08109	3390			hypothetical protein	GTGGCGCGGCTGGCGCGACTCGCTGGTGCGGTCATAGTCGCTGGTCGGGGCGTCGGCGCTGCGGTCGTCGAAAAGCGAACCGCGCTGCGGCGCCGGTGTAGCAGTCTCGGAGGCGGGCTCCGGCTCAACGGTCACGGCGCGAGTCGAACCCTCCGACTGCGGCTGCTCGGCGTCGGGGCGCACGTTGGCCTTCTCGTCGAAACCGGTGGCGATGATGGTGACGCGGACTTCGTCGCCGAGGTTGTCGTCAATGATCGTGCCGAAGATGATGTTGGCGTCATCGTCGGCCTTTTCCTCGACGATGGAGGCGGCGTTGTTGACTTCCATCAGGCCGAGGTCGGAGCCGCCGGCGACGGAGATGAGCACGCCCTTGGCGCCCTCCATGGTGGCCTCGAGCAGAGGCGAGTTGATCGCCTGTTCGGTGGCTGCCATGACGCGGTTGTCGCCGCGGGCGGAGCCGACGCCCATGAGCGCGGAACCGGCGTCGGCCATGACGGAGCGCACGTCGGCAAAGTCGACGTTGATCATGCCGGGGATGGTGATCAGGTTGGTGATGCCCTGCACGCCGTTGTAGAGCACCTCGTCGGCGGCGCGGAAGGCTTCCATCATGGACAGTTCGGCGTCGCCAAGCTGGAGCAGGCGGTCGTTGGGGATGACGATGACGGTGTCGCAGACCTCTTTGAGGTTGGCGATGCCCTCCATGGCCTGGCGGGTGCGGCGCTTGCCCTCAAACGAGAAGGGGCGGGTAACAACGCCGATGGTCAGAGCGCCCATCTTCTTAGCAATCCCAGCGACGACCGGGGCCGCGCCGGTGCCGGTGCCACCGCCCTCACCGGCGGTGACGAACACCATGTCGGAGCCCTTAAGCGACTCCTCGATCTCCTGCTTGTGATCCTCTGCGGAGGTGCGGCCGACCTCCGGGTTCGCGCCCGCGCCGAGTCCACGGGTAGCCTCGCGACCGATGTCGAGCTTGGTGTCGGCGTCGGTGAACAGCAGCGCCTGGGAGTCGGTGTTGACGGCGACGAATTCGACGCCTTTCAACCCTTCCTCGATCATCCGGTTGACGGCGTTGACGCCGCCGCCACCGACTCCGACGACGCGGATCATGGCGAGGTAGTTAGCGGGAGATGTCATGGGGGGTGTCTCGCCTTTCAGGTAACTCTTGGTTCATGGGCCTTACGTGGTCTCCATCATGGGCGAGAAATTGCACTTTTGATGTTTTTAGGCCGGCGTGTCACTACCCTAAACCTTTACTTTAGGGTTTTAACCTGGGGTTTTGCCGCGCGCCTAGCGCACCGTCACCTGCTGCGGGTTGGAAATGTTGAACTCCTGGCCCTCGCGCTGCAGCACGGTCTCCAGCGCCAGCGCCTTGTTCGCATTGTTCTCGCTCGCGCCCCACACGACGGTGCGGCCGTCCTTGAGCTTGAGAACAAACGTGTTCGGGCTGCGCGCCTCGATCGATTCGACCGCCTCGCGGCTCGGCCCGCTTATCGACGACGCCACCGCCACGCCACCGGCCAAGACTGCGTCATCCCCCGCCGCAGCGCCGGTGATCTCCACCGCCCCGGCGGGCGGGTCGTCCACGGCGAACACCTCCCCTTGTGCGTTGATCAGGTGGCTGCCGTCGGGCTCGGACACAAACGCCACCGCGGTGTGCTCCGTAAGCTCCACCTCGATCGTCGACGGCCACGACCTGGTGACCGTCACGCTTTCGACCCACGGGAGCCCCGCCACGCCCACGGCGGCGTCGTGGGTGTCCACCGCCCCGATCGGCGTGCCCGGGGTAATCCCCGTCGCCGTCTTCACCTCCTCCGGGCTGAGCTGCGTCGCCCCTGCGACGGTGATGTCTTTGACCGCGAACGCTTGGGTGCGCGGCAGGACCAGCGCGGCGATCGCAATGACGACGACCGCGACCACGACCACGATGATGATCCGGCGTTGTGCACGTCCCATGGCCTAGCCCTCCCCGAGCGTGGCGAGGATGTCGTCGCCAAGCAGCGTGACTGTGCCCGCGCCCATCGTCAGCACGAGGTCACCGGCCTGCGTGATCCCCGCGATCGTGGACGGGGCGTAGGAGAAGTTCGGTTCGTACACCGTCGTCGCGGCTGCTTCGCGCTCCATGTGGTCGATGATGATGCGCGAATCCACCCCCTCGACAGGTTCCTCGCGGGCGCCGAAGATGTCGAGGAGCACGACGGCGTCGGCCAGCGAGAGCGCGGCGGCGAACTGCTGCGCAAACGCGATGGTCCGCGAGTACAGGTGCGGCTGGAAGCACGCCACAACGCGGCCCCCCTGGCCCGCGGCGCGCACGGTGTCGCGCGCGGCGGTGAGCACCGCGGTGACCTCGGTGGGGTGATGCGCGTAATCGTCGTACACGCGCACTCCCGCGAAGCGCCCGCCCGTGATCTCGCCCTTGAGCTCGAAGCGGCGGCGCACGCCGGTAAAGCCAGTCAACCCCTCGGCCAGCTTGTCCGGGTCCGCCCCGACGAGCGTGCACGCCAGCAGCGCCCCGGCCGCGTTGAGCACCATGTGGTGGCCCGGGATGCTCAACGTGTAGCGCACCGTGCGGCTGACACCCCCGACGCTGAGCTCAACCTCGGCCGAGGTCGCATCCGAGGTGGTGATCACGGCCGCCGCCTCGATATCCGGGTAGCGAGACGCCGCGGCGGCCGTGCCGTACCCGACCACGGTGACGCCGCGGGCGCGGGCGCGCTGCCCGCAGGCGGCCGCGTTGGCGTCATCCAGGCACACCACGAGGTGGCCGCCGGGCTGGATGCGGTCGGCGAAGCTGTCGAAAACCTCGAAGTACTTCTCCGCCGTGCCGAAGTAGTCCAGGTGATCCGGCTCGATGTTGGTGATCACGGCGACGTCCGGCTTGTAGCGCAGCAGGGAGGCGTCGGACTCGTCGGCCTCGGCCACGAACACCTCGCCCGCACCCTGGTGGGCGTTCGTGCCGGCGAGGTTGAGCTGGCCTCCGATGGCGAACGAGGGGTCCTCGCCCGCCGCCTGCAGCGCCACGACCGACATCGACGTCGTCGACGTTTTCCCGTGCGTCCCCGCGAGCAGCAGCTGGGTCGAGCCCTCCATCAGCTCCGCGAGCAGGTCAGAGCGCCGAATCACGGGGATCGACTCCTCGGCGGCGCGCATCAGTTCCGGGTTGTCCTTCGGGATCGCCGCGAAACTGGTCACCACCACCGTCGGCAGCTCCCCCGCGAGCTCGAGGTTGCCCCAGTCGTGGCCGACCGCAATCGTCGCGCCCTGGGTGCGCAGCGCCTGCACCGGGCGCGAGTCTTTCACGTCCGACCCCGTGACCACCGAGCCGCGGCGCAGCGCGATGTGCGCGAGCCCGGACATGCCGGCGCCTCCGATTCCGATGAGATGGACGCGTGA	MARLARLAGAVIVAGRGVGAAVVEKRTALRRRCSSLGGGLRLNGHGASRTLRLRLLGVGAHVGLLVETGGDDGDADFVAEVVVNDRAEDDVGVIVGLFLDDGGGVVDFHQAEVGAAGDGDEHALGALHGGLEQRRVDRLFGGCHDAVVAAGGADAHERGTGVGHDGAHVGKVDVDHAGDGDQVGDALHAVVEHLVGGAEGFHHGQFGVAKLEQAVVGDDDDGVADLFEVGDALHGLAGAALALKREGAGNNADGQSAHLLSNPSDDRGRAGAGATALTGGDEHHVGALKRLLDLLLVILCGGAADLRVRARAESTGSLATDVELGVGVGEQQRLGVGVDGDEFDAFQPFLDHPVDGVDAAATDSDDADHGEVVSGRCHGGCLAFQVTLGSWALRGLHHGREIALLMFLGRRVTTLNLYFRVLTWGFAARLAHRHLLRVGNVELLALALQHGLQRQRLVRIVLARAPHDGAAVLELENKRVRAARLDRFDRLAARPAYRRRHRHATGQDCVIPRRSAGDLHRPGGRVVHGEHLPLCVDQVAAVGLGHKRHRGVLRKLHLDRRRPRPGDRHAFDPREPRHAHGGVVGVHRPDRRARGNPRRRLHLLRAELRRPCDGDVFDRERLGARQDQRGDRNDDDRDHDHDDDPALCTSHGLALPERGEDVVAKQRDCARAHRQHEVTGLRDPRDRGRGVGEVRFVHRRRGCFALHVVDDDARIHPLDRFLAGAEDVEEHDGVGQRERGGELLRKRDGPRVQVRLEARHNAAPLARGAHGVARGGEHRGDLGGVMRVIVVHAHSREAPARDLALELEAAAHAGKASQPLGQLVRVRPDERARQQRPGRVEHHVVARDAQRVAHRAADTPDAELNLGRGRIRGGDHGRRLDIRVARRRGGRAVPDHGDAAGAGALPAGGRVGVIQAHHEVAAGLDAVGEAVENLEVLLRRAEVVQVIRLDVGDHGDVRLVAQQGGVGLVGLGHEHLARTLVGVRAGEVELASDGERGVLARRLQRHDRHRRRRRFPVRPREQQLGRALHQLREQVRAPNHGDRLLGGAHQFRVVLRDRRETGHHHRRQLPRELEVAPVVADRNRRALGAQRLHRARVFHVRPRDHRAAAQRDVREPGHAGASDSDEMDA				NA	NA	NA	NA	NA
AK009_08110	978			hypothetical protein	TTGCTCCAAGCGCTGCGGATCGCCGAGGATGGCATCGACCTCGTGGATCAGCCGCTCGGCGCTGAGGTCGGCGTCGTCAATGCGCGCGGCGGCGCCCATGTCCACAAGGTGGGCGGAGTTGAGCCCCTGCTCACCGTTGCCGTGCGGCAACGGCACGTAGATCGCGGGAAGCCCGGCGGCGGAGTTTTCCGCCACGGTCATCGCCCCCGAGCGGCACACCACGAGGTCCGCGACGGCGTATGCCTGCTCCATCGCGTCAATGTAGGGCACGGCCGTGTAGTGCTCGTGCGCGGCGGGCGCGTCGTTCTTGCGCCCGTAGGCGTGAAGCACCTGCCACCCCTTCGCCGCGAGCGTATCGACGGCCCCCGCAAGAGCAGCGTTAATGCTTACCGCGCCCTGCGATCCCCCGGTGACCAAAATCGTTTTCCGGCCCGGGTCCAGGTTCCACATCTTGTAACCGTGCTCGGCCTTGGTGCCGTCCGGGTCGCTGCCCACGCCGGGGCGAACGGGAATGCCCACGACCTCGCCCGGCATCCCGGAACCCGCCACCGCGTTGAATCCGGTGCCGCCGAGGCGCACCCCGAGCTTGTTGGCCATCCCGGCCAGCGCGTTGGTCTCCAGTACAAAGAACGGCAGCCGCAGCGACGCCGCGGCCAGGTACGCGGAGGCGGCGACGTAGCCGCCGGTGCCGAAGACCACGTCCGCGCCGACGCGCTTGAGCGCGGACCGGGTCTGGTACACGGATTTGGCCAGCTTGAACGGCACCCCCGGCAGAAGCCACGGTGTGGAGCGCGGGATCGGCACCGGGTCGATCAGGTTGAGCTCGAAACCGCGCGACGGGACGATGGCCGTCTCCAGCCCTTTCTCCGTGCCGAGTGCGGTAACAAAGGCACCGAACTCATCGCGCAGCACCTCCCCCACCGCCAGGGCGGGTTCGATGTGTCCGGCGGTGCCGCCACCGGCGACGACGACGCTTAG	MLQALRIAEDGIDLVDQPLGAEVGVVNARGGAHVHKVGGVEPLLTVAVRQRHVDRGKPGGGVFRHGHRPRAAHHEVRDGVCLLHRVNVGHGRVVLVRGGRVVLAPVGVKHLPPLRRERIDGPRKSSVNAYRALRSPGDQNRFPARVQVPHLVTVLGLGAVRVAAHAGANGNAHDLARHPGTRHRVESGAAEAHPELVGHPGQRVGLQYKERQPQRRRGQVRGGGDVAAGAEDHVRADALERGPGLVHGFGQLERHPRQKPRCGARDRHRVDQVELETARRDDGRLQPFLRAECGNKGTELIAQHLPHRQGGFDVSGGAATGDDDA				NA	NA	NA	NA	NA
AK009_08111	342			hypothetical protein	GTGGCGCGCCACCGAGGCGAGGATTCCCATCGCGGCCAGTGTGATCACCGCGGAGGTACCACCTGCCGAGAGCATGGGCAGCTGGATGCCGGTCACGGGCAGCAGACCCAGCACGTAGGCGATGTTGATAAACGCCTGGGACACCACGCCCGTTGTCAGCGCCGCAGCGAGCAGCGCCTGGAACTGGTTCTGGGCGCGGCGCGCGGCGCGCAGGCCGAAGAACGCCAGCAGGCCGAACAGGATGATTACCAGGGCGCCGCCCCACAGGCCCAGCTCCTCGCCGATGACGGCGAAGATGAAGTCGTTGCGCGCCTCGGGGAGGTAGAACCACTTGGCGCGTGA	MARHRGEDSHRGQCDHRGGTTCREHGQLDAGHGQQTQHVGDVDKRLGHHARCQRRSEQRLELVLGAARGAQAEERQQAEQDDYQGAAPQAQLLADDGEDEVVARLGEVEPLGA				NA	NA	NA	NA	NA
AK009_08112	459			hypothetical protein	GTGGGACTGGAAGGCGGTGTCGCGCGTGTCCTCGAAGCGGCCGAAGAGCGCGTCGAAGTAGACGTGGAAGCGGTCGGAGCGGTAGCCGCCGGAGAGGAAGACGAACACCATGCCCACCATCGCCACCGCCGCGGCGGCGCCGATGAGGCGCCAGGAGATGCCAGCGAAGAGCAAGATGAAAGCGACGACGACGGAGAACGACACCGCCATGCCGTAGTCGCCCTGCAACCCGATCAGCCCGACGCAGAGGATGGCTACGGCGATAAACGGCGCGAAGCCGTTGTCCAGCTTGGAGGGGCGGGTGTAATCCTTGTTCGCCAGCACGCTCGCACCCCAGATGGCGATGGCGACGCGCGCCAGCTCAGAGGGCTGAACGCTGATCGGGCCGAAGACCAGCCAGGACTGCGACCCCACCTCATCGCGGCCGGTGCCGATGGGGGTGAGCACGACGATCAGTAG	MGLEGGVARVLEAAEERVEVDVEAVGAVAAGEEDEHHAHHRHRRGGADEAPGDASEEQDESDDDGERHRHAVVALQPDQPDAEDGYGDKRREAVVQLGGAGVILVRQHARTPDGDGDARQLRGLNADRAEDQPGLRPHLIAAGADGGEHDDQ				NA	NA	NA	NA	NA
AK009_08113	1698			hypothetical protein	GTGGGCCAGGCGGCGCAGCCGGTCCGGGGGCATCTTCAGCATGATCCAAAAGAGGAACAGGCCGCCGGCGACCATGACGGTCTGGCGCAGTGCCTGCGACCACACGGATGCGGACGACGCGAACGAAGATGCCATCGAGGAACTGAGCACCATGACCACGCCGAGGCCGGCCAGGACCAAAACGATCGTCCGGATCAGGGTGTAGTCCGTCAGCGCGCGCGAATCCATTGCCGCCTGGGTGCGGCGGATCAGTCGCGCCAGACCCGACTGCTGGCCGGGCTGGCCCGCCGAGGCGGGCTTGCGTTGCGTGGGGCGCTGGGACGTGCGCGGTCCCAGTGGCGCTGCCTCGCGTGGGTGCCGCGGGCGCCCGCCTCGCGTTGTCGTCATAAAAGCTGCCCCTTCGCCTTCTTGTGCTCTCCGCTGTCGCATCAGTTGCTGTCGTTTCCCGCCTTCGGCGGCGAGATATTCACTACAGTCACATTAGCCCCCCAAAGCACTCCAGCGACAGTAGCAACACGGGGTGCAAAGGAATTACACGCAGTGTCTCATTGCAGCCGCGGCAAATTCGTCGCCACGCGCAGACATCCCGGAAAACATATCCAAGCTCGCCGCAGCCGGGGCCAGCAGCACCGTGTCCCCCGGCAGGGCCTGCTCGGCGGCGAAACGCACGCACTGATCCATCGCCTCGGCCGGGTCCGTGGACTCGCTCACGAACACCGGCACGCCGGGCGCGTGTCGACGCACGGCCTCCAGCACACTCTCCCGGTCCACGCCGAGCATCGCCACAGCCCGAAACAGGTGAGCGTGCGTTGCGACGAGCTCATCGACGCTCGCGCCTTTGAGCTGGCCACCCGCAACCCACACCACGGTGCCGGGCTCGCCGGCACCGGCAAGCGCGGAGTCCGCCGCGTGGGGGTTCGTCGCCTTGGAGTTATCCACCCACCTGACCCCGTTCGCCTCGTGCACGACCGCGCCGCGGTGGCCCTCGACGCGGTAGGACCGCAGGCCGTCGTCGATGCGTTGCGACGACACCCCCTGGGAGACCGCGACCGCCGCGGCCGCCAACGCATCGAGCACGCCAGCGACCCCGGCTGGCTCAATGCCCGTGACCGAGGCGAGGTCCTGCAGCTCGGCGCCGCTGTTGAAAACCAGCCTGTGGCCGATCACGCCCGCTTGGTTCGGGCCCGGCTCACCAAGGGTGAAACCAATCACGTCGTCCCTTCCGGTGCGCGCCGCGAGGCTCGCTACCTCCGCGTCATCGACGCCCGCGACAGCAACCCGAGCGCGCAGCACCTTTGCCTTCGCCTGCGCGTACGCGGCAAAGGAACCGTGCCAGTCCATGTGGTCATCGGCGAGGTTGAGCAGCACGCCCGCGTCCGGAACGAGCTGATGCGACCAGTAGAGCTGGAAGCTCGACAGCTCGGCGACGAGGACGTCGACCCGGTGGGCGTCGACAAGCGCATCGCTCACCGCGACCCCGATGTTGCCGCAGGCCTGGGCGCGCAGGCCCGAGTCCTTGCTGGCCTCGCCCATGATGGAGGCGAGCATGCCCGTCGTCGTGGTCTTGCCGTTCGTTCCCGTGACCACGAGCCAGGTGCGCGGGGGCCCGAACACGCCGGCGCGGTCGAGGCGGAAGCACAGCTCAACGTCGCCGATGACCTCCAGGCCCGCGTGCTGCGCGGCGACGAGCAGCGGTGA	MGQAAQPVRGHLQHDPKEEQAAGDHDGLAQCLRPHGCGRRERRCHRGTEHHDHAEAGQDQNDRPDQGVVRQRARIHCRLGAADQSRQTRLLAGLARRGGLALRGALGRARSQWRCLAWVPRAPASRCRHKSCPFAFLCSPLSHQLLSFPAFGGEIFTTVTLAPQSTPATVATRGAKELHAVSHCSRGKFVATRRHPGKHIQARRSRGQQHRVPRQGLLGGETHALIHRLGRVRGLAHEHRHAGRVSTHGLQHTLPVHAEHRHSPKQVSVRCDELIDARAFELATRNPHHGAGLAGTGKRGVRRVGVRRLGVIHPPDPVRLVHDRAAVALDAVGPQAVVDALRRHPLGDRDRRGRQRIEHASDPGWLNARDRGEVLQLGAAVENQPVADHARLVRARLTKGETNHVVPSGARREARYLRVIDARDSNPSAQHLCLRLRVRGKGTVPVHVVIGEVEQHARVRNELMRPVELEARQLGDEDVDPVGVDKRIAHRDPDVAAGLGAQARVLAGLAHDGGEHARRRGLAVRSRDHEPGARGPEHAGAVEAEAQLNVADDLQARVLRGDEQR				NA	NA	NA	NA	NA
AK009_08114	708			hypothetical protein	GTGCTTCAGGGACCAACGCGGTCTCGGCGGGTGCCGTCATGGCATGGTCACCCCGACCTTGGTCGACCACTCACCGTAGAACAGCGCCAAGCCGGTGGCCACGGACATCGCCGCAATCAGCCAAAAGCGAATCACCACGGTCTGCTCCGCCCAGCCGCCGTTTTCAAAGTGGTGGTGGAACGGCGCCATGCGGAACACGCGCTTGCCTGTCGCCTTGAACGACACGACCTGGATCACCACAGAGGCGGCCTCCATGACGAACACCGAGCCGATGATAACCATGAGCAGCTCCGTCTTGGAGGTCACCGACAGGCCCGCGACCAAACCACCAAGCGCGAGCGATCCAGTATCGCCCATGAAGATCTTCGCGGGGGAGGCGTTCCACCACAGAAAGCCCATGCAGGCGCCGAAGCCGGCCGCAGCCAGCACCGCCAAGTCGAGGGGGTCGCGCACGTCGTAGCAGCCGGGGCCCGGCGCGGCGGAGCAGGAGTTGCGGAACTGCCAGAACGTCACGCCCGTGTACGCAGCCATCACCAGCGACGTGGTTCCCGCGGCCAGGCCGTCGAGGCCGTCGGTGAGGTTGACGGCGTTGGACCAGGCCGCGAGCACGAAGTAGATGAAGACCAGGAACATGATCACGCCCACGACGCCGCCGACGGCCGCGAAGTTGATGGTGTTCATGTCGCGGACGAAACTCAAGTTCGTTGA	MLQGPTRSRRVPSWHGHPDLGRPLTVEQRQAGGHGHRRNQPKANHHGLLRPAAVFKVVVERRHAEHALACRLERHDLDHHRGGLHDEHRADDNHEQLRLGGHRQARDQTTKRERSSIAHEDLRGGGVPPQKAHAGAEAGRSQHRQVEGVAHVVAAGARRGGAGVAELPERHARVRSHHQRRGSRGQAVEAVGEVDGVGPGREHEVDEDQEHDHAHDAADGREVDGVHVADETQVR				NA	NA	NA	NA	NA
AK009_08115	171			hypothetical protein	GTGGCCCGTGAACATCGACCACAGCCCCGACGCGACATAACCCAGGGTGATCGCCAGCAGGATGGCGATACCACCCATCGTCGGGGTGCCGCGCTTGCGCGCGTGCGACTTCGGGCCGTCCTCGCGGATCTCCTGGCCCATCGCGCGGCGGTTGAAGTAGCGGATCAGTAG	MAREHRPQPRRDITQGDRQQDGDTTHRRGAALARVRLRAVLADLLAHRAAVEVADQ				NA	NA	NA	NA	NA
AK009_08116	1197			hypothetical protein	ATGTGTGTGGCCCCTCATGCTATGCCCTTGCAGCAGGGCGTTCGCCACCGCCCAGAGCCCGAGCGCGTTCGATGCCTTCACCAGCACCACGTCGCGCGTGTCGCGCTCGTACCAACCTTCCTCCCCCGCCGGCGGCACCGACAGGATCGCCTTCACCAGGGATGTGGCCTCGTCGACGTCCCGGGCGGAGTCGACGTGGATCCCGCGGTCGCGCGCCCGGTCCTTCAGCGCGTCCATCGCGGGGTTATCCCCGACCGCGACGAGGTGTGTGACGCGGTAGCGAGCCAGCTCGTTGCCGAGCTCGCGGTGCGCGCTGACCGAATCGCCTCCGAGCTCCCCCATCTCACCCAGCACCGCGATAGAGCGCACACCGGGGCGTGCGGCGGCCGTAAATCCCAGCGCCGCGATCCCGGCGCGCATCGAGTCCGGGTTGGCGTTGTACGCGTCGTTGATCACGGTGACCCCGTCGCTACGGGTTTGCACGTCCATGCGGTTGCCGGACACGCCGTGAGCATCGCTCAGGCAGCGCGCGACAGTGGCGGCGTCAATACCGCTTTCGATGCCGACGGCCGCGGCAGCGAGAGCGTTGGACACCTGGTGGGCGCCGAAGACGTTGAGCTCCACGCGCTGCGGATCGTTGCCCGGGGAGTGGAGCGTGAAGCTGGCGCGGGTGACGTCGTCAAGCGAAATGTCCGTGGCGTAGTAGTCGGCGCGGCTGTGCTCGGCAGAGAAGGTGACCACCCGCGCGCTGGTGCGCGGCGCCATGCCGGCGACGAGGGGGTCGTCGGCGTTGAGGATGGCCACGCCACCCTCCGCCGCGTCCGGCAGCGCCTCGACGAGCTCGCCCTTGGCCACCGCAATGTTTTCCTTGGAACCGAACTCGCCCAAGTGGGCCGAGCCGATGTTGAGCACCACGCCAAACTTCGGCGGGGCGATCGTCGCCAAGTGCGCGATGTGGCCGATGCCGCGCGCGGACATTTCCGCGACGAGGAACTTCGTCGACTCAGTGCAGCGCAGCACCGTGTACGGATGGCCGAGCTCGTTGTTGAACGACCCGGGGGGCGCGACGGTCTGGCCGGCAGCGGAGAGCACCGACGCGACAAGGTCCTTCGTCGAGGTCTTGCCGGCGGAGCCCGTGATCCCCACGATCGAGAGGCCGTGCTCGTTAGTGAGCGTTGTGGCCACGTAGCTGGCTAG	MCVAPHAMPLQQGVRHRPEPERVRCLHQHHVARVALVPTFLPRRRHRQDRLHQGCGLVDVPGGVDVDPAVARPVLQRVHRGVIPDRDEVCDAVASQLVAELAVRADRIASELPHLTQHRDRAHTGACGGRKSQRRDPGAHRVRVGVVRVVDHGDPVATGLHVHAVAGHAVSIAQAARDSGGVNTAFDADGRGSESVGHLVGAEDVELHALRIVARGVEREAGAGDVVKRNVRGVVVGAAVLGREGDHPRAGARRHAGDEGVVGVEDGHATLRRVRQRLDELALGHRNVFLGTELAQVGRADVEHHAKLRRGDRRQVRDVADAARGHFRDEELRRLSAAQHRVRMAELVVERPGGRDGLAGSGEHRRDKVLRRGLAGGARDPHDREAVLVSERCGHVAG				NA	NA	NA	NA	NA
AK009_08117	1092			hypothetical protein	GTGAGCGTCGTTTTCACCGTAGCCGTTCTCGGCCAAAGCCCTGCGCATCTCCTCGCGATCGTCGAAGTGGTGTGTCGTCTCCCCAATGATCTGGCCGACCTCGTGGCCCTTGCCCACGACCACCACCGCATCACCTGGCTGGGCCCAGGCCACGAGCTGGTCAATCGCCTCCGCGCGCGAGCCGCATTCCCTGATCTCTGCGTCGCTGCCCGCCTCGCGCGCCCCGTCGAGCACCGCGGCGCGGATCGACGCGGGGTCCTCGGTGCGCGGGTTGTCGTCGGTGACGATGACGAAGTCGGCGCGCGTGGCCGCCTCCCGGCCCATCACGGCGCGTTTGGTGGTGTCGCGATCACCACCGGCTCCGACGGCGATGCCGATCCTGCCGTCGACCTGTTCGCGCAGCGTCTCAAGCACCGCGGCGATCGCGGCGGGTTTATGCGCGTAATCGACCACGGCTACGAAGCCCTGGCCGGCGTCGATACGCTCCATGCGCCCCGGCACCGCGGCGTCTTCCAGCCCGCGAACAAACTGCGCGACGTCCGCGCCCACCACGCGCGCCAGCGCCGTCGCGAGCGCCGCGTTAGCCACGTTGAACGCCCCCGGCAGCTGCAGGGTGAACGCGTGGGTGTGGGCGTCGATACGCAGCTCAATGTCTTGGGCACCGTTGTCGCGGACGCGGATCAGCCGCGCGCTGCAATCGAGCCCGTCCTGGCCGTGCGTGCCCACGCGCAGCGGTCGCGACGCGAGCTGCGCCATCCGCTCGCCCCACTCGTCATCAACGCAGATCACGCTTGTCGACGCCGCGACCGACGAGGCGGGATCAAAAAACGCCGCCTTCGCCTCGAAGTAGTCCTCCATTGTCGGGTGGAAGTCGAGGTGGTCCTGGCTGAGATTGGTAAATCCGGCCGCGTCGAACGAGGTGCCGCCCACGCGCCCCAGGCTCAGCGCGTGCGAGCTGACCTCCATGACCACGTGCGTCACGCCCTCAGCCGCCATGCGCGCAAACAGCGCTTGGAGGGTGGGCGCCTCCGGCGTGGTCAGCGAGGTGGGAACGTCGCGGCCGCGGATGCGCGTCCCCGTCGTGCCGATTAA	MSVVFTVAVLGQSPAHLLAIVEVVCRLPNDLADLVALAHDHHRITWLGPGHELVNRLRARAAFPDLCVAARLARPVEHRGADRRGVLGARVVVGDDDEVGARGRLPAHHGAFGGVAITTGSDGDADPAVDLFAQRLKHRGDRGGFMRVIDHGYEALAGVDTLHAPRHRGVFQPANKLRDVRAHHARQRRRERRVSHVERPRQLQGERVGVGVDTQLNVLGTVVADADQPRAAIEPVLAVRAHAQRSRRELRHPLAPLVINADHACRRRDRRGGIKKRRLRLEVVLHCRVEVEVVLAEIGKSGRVERGAAHAPQAQRVRADLHDHVRHALSRHARKQRLEGGRLRRGQRGGNVAAADARPRRAD				NA	NA	NA	NA	NA
AK009_08118	252			hypothetical protein	GTGCGCCGAGACCTCGCCCAGCACCGCGCGGGCGTCGTCGACGACGAGCACGGGGCGGCGATCCCCTGCCGCTTCGACGATGTCCAGGCCCTCGCGGTCGGTGAGGATGGCGCGCGCGGGAGACTCCGCGGCGAACTGCGCGCCGTGGACACGCGTGCCCGGCAGGGCGGCGAACAGCCCTCCCGGCGCGACCTCGCGGGCGTTGAGCCCCACGGAGCTTACGGCGACGTCCGCCCAACCTTCAGCCGGTGA	MRRDLAQHRAGVVDDEHGAAIPCRFDDVQALAVGEDGARGRLRGELRAVDTRARQGGEQPSRRDLAGVEPHGAYGDVRPTFSR				NA	NA	NA	NA	NA
AK009_08119	402			hypothetical protein	TTGGGACTACCTGCAGCGCTTCGGCATTGGGCAGACAACGGGCATCGAGCTGCCGAACGAATCCGCGGGCCTGGTTCCGGTGCTCGAGCAGTGGTCGGGCGGCACCTTTGCCAACCTGCCGATTGGCCAGGGCATGAGCTGGACCACGCTGCAGATGGCCAGCGTGTACCAAACGCTGGCCAACGGTGGCGAAAGGATCGAGCCGCGCATCATCTCCGAGGTGGTTGGGCCCGACGGCCAGCCGGCGGAGGCGCAAGCACCGAAGCGCACCCGCGTGGTCAGCGAGGCCACGGCGAAGACGACGGTGGACATGTTCCGCTCTACCTTCCAGCAGGACCCGATGGGCGTGAACTCCGGTACCGCCCAGGGCAGCGGCATCGAGGGCTACCAGTTGGCGGGTAA	MGLPAALRHWADNGHRAAERIRGPGSGARAVVGRHLCQPADWPGHELDHAADGQRVPNAGQRWRKDRAAHHLRGGWARRPAGGGASTEAHPRGQRGHGEDDGGHVPLYLPAGPDGRELRYRPGQRHRGLPVGG				NA	NA	NA	NA	NA
AK009_08120	1509			hypothetical protein	GTGCACCTCGGTCGGGTCCGTCAGCCCCTCCTCGATCGCGGCGGCGGCCGTGATCACCTTGGCCACGGATCCCGGCTCGTACGGGTGCGAGATGGAATAGTTGTCAAAGCTGCGGCCCTCGGCGAGCTGCTTTTGTACATCGCCATTCGGGTCGATCGTCCCGGTGTTCGCCATGGCGAGCACCTCGCCCGTGTGGGCGTCGAGCACGACGGCCTCGGCGTCCTTGGCCAGCGAATTCGCCTTCGCCTGCTCGAGGGTGCGCTGCACGAACGTCTGCAGATCAACGTCGATGGTCAGCTTGACCTGGGAGCCGTCGACGGGCGGGACGACGTCGCGAAGCGTGCCCGGGATCGACTGGCCCTGGACCGAGACGTCCTCGGTGGACCTACCGTTAATGCCGGTCAACACACTGTCGCTGGAAGCCTCGAGGCCGAACTGGCCCTGGCCGTCCATAGAGACCTTGCCGATGATGTTCTCCCCGACCGCCCCGTTGGGGTACTGGCGGATGTCCTGGTGATCCGCCGCGACGCCGTGGAACTCCTTGGCCACCTCGGCCGCGACATCGGGGTCGACGTTGCGCACGAGCACCTCGTAGCCCGACTCCGCGTGCAGCTTGTCCAGGATATCCTTCGAGCTCACGCGGGACTGCGCCTCGTCCTTCGCGTCCGCTGGGTCCTTAGCGTGCGCCCCCTCGATCATCCGGGGGATTTCGTTGGCCATGGTGCGCAGGACGTCCTCAACGCGGGCGTCGACTTGGGCCTGTATCGCCTCAGACGACAAGCCGTCGCGACGCATCTGCAGCTCCTGCTGCTCGCGCAGCTCCTTGCGCAGCATGACCGGGGAGACCGTCAGCGAGCGCGCCTGCATGGTGTAGGCGAGCTGGTTGCCCGAGCGGTCGATGATCTCGCCGCGGCGGGCCGGGTCGTCGTAGATGCGTTCGCGCTGTGCCTGGGCCTGCACCTGCAGGTTCGGCCCCCACACGACCTGCACCCACGCCAAGCGGCCGACGAGCAGCACAGCGGCGATAACGAATGCGGCCGCGATAAAGCTCGCGCGCTTGCGCGTGATCAGCTTCTGCGGCGCCACAGACTGGGGACCGGGCCCGCGAGGGCTCGGCTGCGGGCGGAGGTTGTCGACGCGGGTGCTCTCACCGCGATCCTCCGGCCGGCGGCGTGCGCTCGGGGTATTCACAGCGCTAAAGTCACCTGCCTCGTCGTTGTTTCAAATCGCACTTCATCTTGCCCGCCGCGCGGCTTTGTGTCCGTGACCGCCACGCCCGTTAGTTTCCGGCACTCACGCGCGGGGCGTACGGCGCGAGGTTGCTTGCCGGCGGGGCAGCCTCCGGCGCCGGCGGGGTGTTCTGGCCCAGGACGTTTCCGCCGGGCACCGAGGTCAGGCTGTCGCCGACGCGGGCCGTGGCGTCCCGGTCGCTCGTCGCCCGGTCTTCGGTGCCGCGCTGGCCGTCGGCGGAGGTCACGTCGGTCATCTTCTGCGTCGCATCAGGGTTGA	MHLGRVRQPLLDRGGGRDHLGHGSRLVRVRDGIVVKAAALGELLLYIAIRVDRPGVRHGEHLARVGVEHDGLGVLGQRIRLRLLEGALHERLQINVDGQLDLGAVDGRDDVAKRARDRLALDRDVLGGPTVNAGQHTVAGSLEAELALAVHRDLADDVLPDRPVGVLADVLVIRRDAVELLGHLGRDIGVDVAHEHLVARLRVQLVQDILRAHAGLRLVLRVRWVLSVRPLDHPGDFVGHGAQDVLNAGVDLGLYRLRRQAVATHLQLLLLAQLLAQHDRGDRQRARLHGVGELVARAVDDLAAAGRVVVDAFALCLGLHLQVRPPHDLHPRQAADEQHSGDNECGRDKARALARDQLLRRHRLGTGPARARLRAEVVDAGALTAILRPAACARGIHSAKVTCLVVVSNRTSSCPPRGFVSVTATPVSFRHSRAGRTARGCLPAGQPPAPAGCSGPGRFRRAPRSGCRRRGPWRPGRSSPGLRCRAGRRRRSRRSSSASHQG				NA	NA	NA	NA	NA
AK009_08121	828			hypothetical protein	GTGCGAGACGACCATCCCGGCATCAGCTGCCTTGCGCGCGATCTCGGCCGAGGACTTGACGTTTTCCGCGTCGCGGTTGAGGGTCTCGACCTCGTTGCTCAGCGCGCGCTCGCGAGCCTGCAGCTCCTGGATGGTAAAAGACTGCGAGGTGGACACGCCCGAGAGGAACATCGCGATGAGCACCCCGAGGATGAGCAACGGCACCGCGATTACGGACATCGTGGAGAAGGTGCGCTTGACCTCTTTAACTTCGCCGACCCTGCGGCCGCGAACGGACACGACCTGCTTGGAGCCGAGCCGGCCAACACCCTGGGTGTTGCGCGGGTGCAGCGCGTGCGGCGCGTATCGACGCACCGGCTGCGGCGTCGCCGTCGTCCGCGACGTCGTCGTGCGCGGGCGGCGCACTGCCGGCCGCTCGAGGGTGGCTATGCCCGAGCGGGCGGACGCGGTGAGGTCTCGGCTTGCTCCCATGGCGTTGTGGCCTTTCGTCTGGGTCATCATGGTCATCTACGGGTTGTCAGTGCGAAGCTTTTCGATGCCCCGGACACGCACCGGCGCGGCCCGGGAGTTCTGTTCGATCTCTGCCTCGGATGCTTTTTCCGCGCCTTGGGTAATCGAGCGGAATTTCGCGGCGGTGCCGGGCAGGTCCATCGGCAGACCGGTTGGCGTTGTGGAGGTGGTCAGGGAGGTCAGGGCGGTCTTGACGATCTTGTCCTCGAGCGACTGGTAGCTCATGAACACCACGCGCCCGCCCGGACCGAGCAGGTCAGTGATCACCGGGATCACCGCTCGCAGCGCGTCGAGCTCCCCGTTGACCTCGATGCGTAG	MRDDHPGISCLARDLGRGLDVFRVAVEGLDLVAQRALASLQLLDGKRLRGGHAREEHRDEHPEDEQRHRDYGHRGEGALDLFNFADPAAANGHDLLGAEPANTLGVARVQRVRRVSTHRLRRRRRPRRRRARAAHCRPLEGGYARAGGRGEVSACSHGVVAFRLGHHGHLRVVSAKLFDAPDTHRRGPGVLFDLCLGCFFRALGNRAEFRGGAGQVHRQTGWRCGGGQGGQGGLDDLVLERLVAHEHHAPARTEQVSDHRDHRSQRVELPVDLDA				NA	NA	NA	NA	NA
AK009_08122	594			hypothetical protein	GTGTCCGCCGGTGCGCCGGGTGGCGGCCGGAATGGCCTGGTAGAGAAGCTCTACGAGGCGGCCGCTGCGCTCGAACGGGGCCTTCTCGCGCTCTTTCAAGATGTGGGAGGCTATCTTTCCCGCGAAGCGCTCGTCACCGTAGGTCTTCAAGATGCGCGCGAGCTCGCCGTGGCTGTACGTATTCAGCACATCCGCCGCGGTGAGCGTCGTCGTTGGGTCCATCCGCATGTCCAGCGGCGCGTCGACCTTGTACGCAAAACCGCGCTCCTCCTGGTCGAGCTGCATGGAGGACACGCCGAGGTCGAACAGGGCGCCCGCTACCCCGTGCGTGCGCGCAGCGTCGAAAATGGTGCCCTCGCGGTCGCGGATTGCGTTGCCGATGTCGTCGAAACGCGCCTGCACGCCCACGAAGCGATCGCCGAATGGGGCCAGCCGCTCAGACGCGTCGCGCAGGGCCGCGGGGTCGCGGTCAACGCCAATTACCGACGCCTCGGGGAAGCGCCGCAGGAAATGCTCTGTGTGGCCGCCCGCGCCGAGTGTCGCGTCGACGATGACCGCGCCCGCACCAAACTCCTCGACAGCCGGGGCGAGTAA	MSAGAPGGGRNGLVEKLYEAAAALERGLLALFQDVGGYLSREALVTVGLQDARELAVAVRIQHIRRGERRRWVHPHVQRRVDLVRKTALLLVELHGGHAEVEQGARYPVRARSVENGALAVADCVADVVETRLHAHEAIAEWGQPLRRVAQGRGVAVNANYRRLGEAPQEMLCVAARAECRVDDDRARTKLLDSRGE				NA	NA	NA	NA	NA
AK009_08124	435	mraZ	COG2001	Transcriptional regulator MraZ	ATGTTTCTGGGAACCTACACTCCCAAGCTCGACGACAAGGGACGCCTGACGCTGCCCGCCAAGTTCCGCGAGGACCTGGCGGACGGGTTGATGGTGACCAAGGGGCAAGACCACTCTCTGGCGGTCTACCCCCGCGAGGAGTTCGCAGCACGCGCCCGCAAGGCAGCTGCAGCTTCACGCACGAACCCGAAAGCGCGCGCATTTATCCGCAACCTGGCTGCCAGCGCGGATGAGCAAACGCTCGACGGTTCAGGTCGCATCACGCTGTCGCCGGCGCACCGCGAGTACGCGCACCTTTCCAAGGAGTGCGTAGTCATCGGTTCGGTCGATTTTCTCGAAATCTGGGACGCCGAGTCCTGGGCTAACTACCAGCAAGAAACCGAGGCTGCCTTCGCGGCGGCCGATGACGACGACATTCTCTCCGGTCTCCTGTAG	MFLGTYTPKLDDKGRLTLPAKFREDLADGLMVTKGQDHSLAVYPREEFAARARKAAAASRTNPKARAFIRNLAASADEQTLDGSGRITLSPAHREYAHLSKECVVIGSVDFLEIWDAESWANYQQETEAAFAAADDDDILSGLL				NA	NA	NA	NA	NA
AK009_08125	384			hypothetical protein	GTGTCCCTTTCTGAGCGGGAACAGCGCACCCTTCGCGAGATCGAGCAATCGCTTCTCGCCGAGGACCCTAAGTTCGGCAACAGGGTGCCCCAGGGTTCCGGTTTCGCCGGCCAGCCGGGCGGCGGCCGACTCACCATGCGCAGCGCTGCGCTGATGGTAACTGGCCTGGTCCTGCTCATCGGCGGCGTTGCCCTCGCCACCGTCAGCGTGTGGTTAGTCGCTATCAGCGTCGTTGGGTTTGCCATCATGCTCGCCGGCGGTGTCATGGCCCTGACCTCCCCGTCGGGCGGGTCTTCGGTGCCGGTTCGCGCCGTCGCCGCACAGCGCCCCGCGCGCACCTCAAAGATGGAAGAGAACTTCAAGCGCCGTTTTGAAGGCCAGTAA	MSLSEREQRTLREIEQSLLAEDPKFGNRVPQGSGFAGQPGGGRLTMRSAALMVTGLVLLIGGVALATVSVWLVAISVVGFAIMLAGGVMALTSPSGGSSVPVRAVAAQRPARTSKMEENFKRRFEGQ				NA	NA	NA	NA	NA
AK009_08126	441			hypothetical protein	ATGTCAAGCATCGTCTCCGCCACCACCAAGGCCGCCTATGGATCTGCCGCGCACGGAACCAGGCGTGAGCGATTCTTCCGCTCTGCCTATGTGCTTCTCGCCCAGGCGCAGGCAGACTACGCAGCTGGCGCCCTCGATGTGGCGATGGAAAACGCGTACCGTGCCGCCTTGAGGGTGGCGGGGGCAGTCAACGCCGGCTCGCCAGTCATACGCAAGCGCAAAAGGCTACCGGCAAGCGCCTGGGACAAACTCCGGCTGACGTCGGAGCGCGGCAAGGAGTGGGCCGAGACGTTCACCGCGTTCTCCGTCCAGCGCAGTCGGGTCATCACCGGTATCGAGCCACACCCCGACCCTCGCGTGGTTCAGCGCCTCATTGCGCTGGTGGAGGAGTTTCTAGAGGAGTCCATCCCCGGCGCCACCAAGGCGCCGCTGGTGGCGTAA	MSSIVSATTKAAYGSAAHGTRRERFFRSAYVLLAQAQADYAAGALDVAMENAYRAALRVAGAVNAGSPVIRKRKRLPASAWDKLRLTSERGKEWAETFTAFSVQRSRVITGIEPHPDPRVVQRLIALVEEFLEESIPGATKAPLVA				NA	NA	NA	NA	NA
AK009_08127	543			hypothetical protein	GTGATTGGATTCGTTCGGCACCTCGGGTGTGGACAACAACGCCCAGCGCGCCGGGGCGTTCCACAACAACTGGGACAACAGGGCCCGCCCGATTCCCGCGCCTTGGCGGGAGGGGTGGACGTGGATCTCGGCGACCTCGAAGTAGTCGCGCAGCATCGCGGAGTGCTGCGCGCTCAGCCCGCCGCTTTCGCGCAGGCCCCGCATGAGTTGTTGGTCCCACCACCGTTCGCGGTTCCCGATAAACCCATAGGCGATGCCGACGACCCGTTCGTCGACCGTGCCGCCGGAGGTGTTGGACGCGGTGCGTTCGATGGCGGTGACGGCAGTGAAGCCGGGCCAGATGATCTCGCGTTGCCAGACCGCGATGCGCCCAGAGCGAATCGCGGGGTCGTAGCCCATCGCCGTGATGTAAATGTCAACGAGGTCGGGGGCGAGGATCGCGAACTCGGGGCCGCTGAGGCGACGATATGTCACAGTCACCCTTCTATCGAACCACGCGGCGTGCTGGAAATGGCAGTGTTCAGCAGACATTTACGTAATTAG	MIGFVRHLGCGQQRPARRGVPQQLGQQGPPDSRALAGGVDVDLGDLEVVAQHRGVLRAQPAAFAQAPHELLVPPPFAVPDKPIGDADDPFVDRAAGGVGRGAFDGGDGSEAGPDDLALPDRDAPRANRGVVAHRRDVNVNEVGGEDRELGAAEATICHSHPSIEPRGVLEMAVFSRHLRN				NA	NA	NA	NA	NA
AK009_08128	699			hypothetical protein	GTGCAGCGGGCGCTCGATGGTGTAGGCGGCCGTTTTGTAGCGGTTGACGTTGTTGGCCATCTCGACAGACTCGTTGACGGCGGCCTCGAGCGCGATGTCGAGCAGCTGGCCGCCGATGACTTCGGTGCGCATGCCGCGCCACGGCTCGGCGGCGCGGGTCAGCGCGGCCTCGCTGAGGCCCGAGTAACGCCACATGTCTTCCGCCCAGATCAGTGCGAAGTCGCCGATGAGGATGGCCTCGTTGCGCCCGTAGTCCGCCGAGTCGCCGAACAGGTCGTCTTTACTGTGGCGGGCCTCCACGGCGCGGTGCACTGTGGGGTTGCCGCGCCGGGTATCGGAGGCGTCGATGATGTCGTCGTGAATCAGCGCGCACGCCTGGATCAGTTCGAGCGAGCTCACGGCGCGCAGGACAGCCTCCGGGTCCTCGGAGCCAACCCCGCCTGCGGCGCGCGCGCCGAAGAAGCCGGTCCAGGCGTACAGGGGGCGGATCCGCTTGCCGCCGCCGAGGATGAAGTCGCGCAGGTGCTGAACGGAGCGGGTGACCGGGGGGCCGATCTTCTCCACCTCGGTGTAGCGCTCGTCGAGGAATTCCTCGAGAGCGTCCTTTACAGCGGAGGGGAAATCGGCCGGGCTTACTTCGTCGATGGCCAATTCGCTCGGCACACTCACCACTGCGCTCTCCTTATAAACCCGCGATGA	MQRALDGVGGRFVAVDVVGHLDRLVDGGLERDVEQLAADDFGAHAAPRLGGAGQRGLAEARVTPHVFRPDQCEVADEDGLVAPVVRRVAEQVVFTVAGLHGAVHCGVAAPGIGGVDDVVVNQRARLDQFERAHGAQDSLRVLGANPACGARAEEAGPGVQGADPLAAAEDEVAQVLNGAGDRGADLLHLGVALVEEFLESVLYSGGEIGRAYFVDGQFARHTHHCALLINPR				NA	NA	NA	NA	NA
AK009_08129	234			hypothetical protein	TTGCTTTTCGACGTCCGCGATCGCTCCGCTGGACTCCACAATCGCCGCGAGCTCCGCGAGCTCGTCGCGATCGCTCGTGCGGCCCACGCGATCGCGCAGGCGGGCGGCGGAGACGGGGTCGGTGGCGTCGAGACGATTCAGCGCCGCGGCGAGCAGGACCGTCCGCTTGCCCTCGCGCAGGTCGTCGCCAGCCGGCTTGCCGGTGACGGCTTCGTCGCCGAAGACGCCGAGTAG	MLFDVRDRSAGLHNRRELRELVAIARAAHAIAQAGGGDGVGGVETIQRRGEQDRPLALAQVVASRLAGDGFVAEDAE				NA	NA	NA	NA	NA
AK009_08130	402			hypothetical protein	GTGCATCCCGCCGACCATGTGCAGCAGCATCACCGGGTTGGCCACGCCGAGCCAGAGCGCGAGGGCGGGGTTGCCGCCGAGTTCTGCGGCGATGCGGGGCACGGCCCAGACGATCGCCGCGAACCCGGCGAGGGTAAGCAGCTTGTACGCCACGATCCCCAAGGTGACGTTGTCGCCGACGAGGGTGGTAATCCGCTCGCCAATCCACAGGTGCAGCGGCCCGTAGGGGGTGGTCGTGTTGCGCCAGTCGTGGCTGACTTCGTAGAGGTAGGGGCCCGGATTGACCGCGGCGCCTTCGGTGTAGGGGTCGAAGCCGTCGCGAAGCATTGCGCCCTGCATGAGGTAGGAGTAGACGTCGCGCGACAGGATCGGCGCGGCGAGGGCGAGCCCGGCGGTCCATAG	MHPADHVQQHHRVGHAEPEREGGVAAEFCGDAGHGPDDRREPGEGKQLVRHDPQGDVVADEGGNPLANPQVQRPVGGGRVAPVVADFVEVGARIDRGAFGVGVEAVAKHCALHEVGVDVARQDRRGEGEPGGP				NA	NA	NA	NA	NA
AK009_08131	369			hypothetical protein	GTGGTTGCCGCTGCCGGTGAAGGCGAGAGCGACCACGACGGAGAAGAAGACCGTGGCGCGCCGCACCCACAGCGGCGTACTCACCGTGCCCAGCAGGGAGAGCAGCGAGGCGTAGTACCACGGGAAGGTCACCGCGTTGGCGACAAACGCCACTGCGTAGGCACACGCGATGCCCGCCACCGCCTCGCGGTCGTTGCGGCGGAAGATAAACCACGTCAGAGCCAGGCCGACGAGCATCAGCACCGCGCCGATCCGGCGCGCGAGTGCGAGTGCCGCGTTGTAGCGGAAGTGCTCGTCGAAAAGCTGGGCGAGGGGAGTGAACGCGTCGGCGACCAAGGTGGGGCCGGCGAGCGGGTTGACCACCTTTGA	MVAAAGEGESDHDGEEDRGAPHPQRRTHRAQQGEQRGVVPREGHRVGDKRHCVGTRDARHRLAVVAAEDKPRQSQADEHQHRADPARECECRVVAEVLVEKLGEGSERVGDQGGAGERVDHL				NA	NA	NA	NA	NA
AK009_08132	429			DNA-binding protein	ATGGCCGACAAGCGCCTCCAACAGCCAACCCACAGCCGTCGCGCGGGTAAGGTATCTCACGTGAATACGCCGAATATTGACCTCGACGGATTGCTCGCCAACGAGACGCTGCTACCCCTGCCAGATGTTGCCGAGTACCTTGGCGTCCCCGTGACCAAAGTGCACGACCTTGTTGGCGCGCACAAGCTGCTCGTCTACCGCAAAGACGGGGTGAAGTACGTCCCCGAGCGCCTCTTAGGCGAGGACGGGGAGCTATCCAAGTTCGTCGGCGGCGCCATCATGGTGCTTCACGACGGCGGCTACAGCGCCGACGAGATCCTCCACTACCTGTTCACCGACGACGAGTCGCTGCCCGGCCGGCCCGTCGACGCCCTGCACGGCCACGGCGCACGTGAGGTGATCAGGCGAGCGCAGGCGATGGCGTTCTAG	MADKRLQQPTHSRRAGKVSHVNTPNIDLDGLLANETLLPLPDVAEYLGVPVTKVHDLVGAHKLLVYRKDGVKYVPERLLGEDGELSKFVGGAIMVLHDGGYSADEILHYLFTDDESLPGRPVDALHGHGAREVIRRAQAMAF				NA	NA	NA	NA	NA
AK009_08133	507			hypothetical protein	GTGGTCAGAGTTGATCAGAATGTTGTCCGGTTTGATGTCGCGGTGCACCATCTCCTTGCGGTGGGCGATCGAGAGCCCGGTCAGCGTCGCGCGCATCACCGCGGCGGCCGCGTGCGGGGGCATCGGGCCGCGCTCGGCCAGCAGCTCGCGCAGTGTGCCGCCGCGGATCAGCTCCATGATGAGGAAAACGTGGTCGCCCTCGTGGGAGAAGTCGTAGACGTTGACCAGGTTGGGGTGCGACAGCTGAGCCATGGCGCGGGCTTCGCGCCGGAAGCGGGTGAGAAAGAGATGATCGTCGACGTAGCGGTTATCCATCACCTTCGCGGCGACTTCCCTGCCGAGGCGGACATCGACGCAGCGGTACACCGTGGACATGCCGCCGCGGGCGATGGGGCGATCGATGACGTAGCGGTTGTCCAGATAGTCACCCACGGCAAGCTCAGTCATGCATTCCAGTATGGCCGACAAGCGCCTCCAACAGCCAACCCACAGCCGTCGCGCGGGTAA	MVRVDQNVVRFDVAVHHLLAVGDREPGQRRAHHRGGRVRGHRAALGQQLAQCAAADQLHDEENVVALVGEVVDVDQVGVRQLSHGAGFAPEAGEKEMIVDVAVIHHLRGDFPAEADIDAAVHRGHAAAGDGAIDDVAVVQIVTHGKLSHAFQYGRQAPPTANPQPSRG				NA	NA	NA	NA	NA
AK009_08134	192			hypothetical protein	GTGGGCCGCGGCGCGGTTCGCGGCGGAGTCGCGCGGCACGGGCACCACGTAGTCGGGCAGGTCGAGCGCTGCGGCGACGTCGTCAAGCGCGGCGAGGAACTCGGCGGCGTCGACGAAGCGGTCCTCGGGGTGGCGGGCGGTGGCTGTCGCCACGAGCTCGTCGACAAGCTTGGGCACGCCCTCAATGCGTGA	MGRGAVRGGVARHGHHVVGQVERCGDVVKRGEELGGVDEAVLGVAGGGCRHELVDKLGHALNA				NA	NA	NA	NA	NA
AK009_08135	1434			hypothetical protein	GTGGTTCGGCTCGGGCATGTACGGCGAACTCCCCGCCCTTATTCGCTAGGACGGGGAGACGGTGTTCGAAGACTGCGCTTAGTAGCGCAGCATCTCCGCGACGAGGAAGGCCAGCTCGAGGGCCTGCTCGGTGTTCAGGCGCGGGTCGCAAGCGGACTCGTAGCGACCCGGCAGGTCCAGGTCGGTAATGTCCTGCGCGCCGCCGAGGCACTCGGTGACGTTCTCGCCGGTCAGCTCGATGTGGATGCCGCCCGGGTGGGTGCCCAGCTCGCGGTGCACCTCGAAGAAGCCCTGCGCCTCGTCGATGATCTTGTCGAAGTGGCGCGTCTTGTACCCATTGGAGGCGGTGAACGTGTTGCCGTGCATCGGGTCGGACTGCCAGACCACCTTGTGGCCGGAGGCCTCGACGGCCTTGACAATCCCGGGCAGCACGTTGCGGACGTTCTCATGGCCCATGCGGATGACCATGGTGAGGCGGCCGGGCTCGCGGTTCGGGTCCAGCTTCTCGGCGTAGGCCACGGCCTCCTCAGGCGTAACCTTCGGGCCGAGCTTGATCCCGATCGGGTTGTTGATCATCGCGGCGAAGTTGACGTGGAAGTCCTCCATGCCGCGGGTGCGCTCACCGATCCAGAGCTGGTGCGCGGACAAATCGTAGAGCTTGGTCTCACCCGAGCTGTCCTCGGCCAGGCGCAGCATGGCGCGCTCGTAGTCCACCAGCAGCGCCTCGTGCGAGGCGTAGATCTCGCTGGTGCGCAGGAGCTCGTCGTTAACGCCGCAGGCACGCATGAAATCGAGCGAGCGGGTGATCTCACGCGCCAGCGCCTCGTAGCGCGCGCCTGCCGGCGACGCCGCCACGAACTGGCGGTTCCAATCGTGGATGTGGTTGAGATCCGCGGTGCCGGACGAGGTCAGCGCGCGTACCAGGTTCATCGCGGCGGAGGCGTTTGCGTAAGCGCGGACCATGCGGGCCGGGTCGTGGCGGCGGGCCTCCGGCGTGGGCTCCACGCCGTTGACAATGTCGCCGCGGTAGTTCGGCAGGCCGTTTTCGTCCAGGTCGGAAGAGCGCGGCTTCGCGTACTGGCCAGCGATGCGGCCAAGCTTGACGACAGGCACCGACGCGCCGTACGTCAGCACCGCCGCCATCTGCAGCAGGGTGCGCACGTTAGCGCGGATGTGCGGCTCGGTGTTGGACTCAAATGTCTCGGCGCAGTCACCGCCCTGCAGGAGGAACGCCTTGCCCAGTGCGACGTCGGCAAGCTGAGTCTTCAGCGTCTCGATCTCGGGCGCGAGCACCACGGGCGGGACCGACTCGAGGAGCTTGCGCACGTTGCTGGCCTCATCCGCATCCCACGACGGCTGCTGCTTGGCATCGCGGGAGATGACGTCCAAAAACGTCTCGTTCAAGTCTCCCGGCAAGGGGGGAAGATCGGGTAG	MVRLGHVRRTPRPYSLGRGDGVRRLRLVAQHLRDEEGQLEGLLGVQARVASGLVATRQVQVGNVLRAAEALGDVLAGQLDVDAARVGAQLAVHLEEALRLVDDLVEVARLVPIGGGERVAVHRVGLPDHLVAGGLDGLDNPGQHVADVLMAHADDHGEAAGLAVRVQLLGVGHGLLRRNLRAELDPDRVVDHRGEVDVEVLHAAGALTDPELVRGQIVELGLTRAVLGQAQHGALVVHQQRLVRGVDLAGAQELVVNAAGTHEIERAGDLTRQRLVARACRRRRHELAVPIVDVVEIRGAGRGQRAYQVHRGGGVCVSADHAGRVVAAGLRRGLHAVDNVAAVVRQAVFVQVGRARLRVLASDAAKLDDRHRRAVRQHRRHLQQGAHVSADVRLGVGLKCLGAVTALQEERLAQCDVGKLSLQRLDLGREHHGRDRLEELAHVAGLIRIPRRLLLGIAGDDVQKRLVQVSRQGGKIG				NA	NA	NA	NA	NA
AK009_08136	852			hypothetical protein	GTGGCGGGCGTCGACAAGCGCATTGTGATTGCCCTTCGGCAGGCTCGGCAGCTTCGGCCGCCCGGCCATCTCCCAATACTGCTTCAGCTCGCGGGTAAAGCGCGGCAGCGTGCGCGGCAACCCGCTCATATCGCCCCACAGCTGCGCCAGCACCACATGGTCGTAGGCGCCGACCCACGCCCACAGCTCGGGCTGGGTGTCGGAGGCGGTGAGAAACGCGGCGACCTCGCGGCGGATCTGCGCCTTCGTCTTCCACTCCTCGCCTCCCGGGCTCGGCAGCTTGTCCAACACGTTGTCGCGCACCCAGCGGTTGGCCCGATCGGCGCGAAATTCCGTGGACACGGCGTAGTACTCGCGCCCGTCCTCGGCGACGATTCCGATGGAGACCAGCTCGATGGTCACGCCGTCTTCGATGAACTCGGTGTCGTAGAAGTAGCGCACCCGGCTCACGCTCGGTCGCCCGGCTCGGCAGGCGGGGCGTCGTGCGCACCGCGGCGCGGCCAGAACATCACGAGCCCCACCCCCACTACCGACAGCGGTGCAACAATGTTGATGCCGCGCCCGGTCTGGGTTGCAATCAGCACCGCAATCACGAAAACGCAGCACAGCGCAATGCGGATGATGAGGTCTCGGTCCATGGGTTCAATCCTATTTACCTGGCTTTGGGCTCGGCGCCCTCGGGGTAGCCGTTGCCCTCTTCGAGCGACTTCTTCACGTCGGCGGCGTACATGTCCACGTACTCAAATCCGGACAGCTGCTGGATCTGCGCCATCACGTAATCCGAGAAGGGGCGCATCACCTCGCGCGACTGCGGGTCGAACCCGTTCTCGCGCGCCCACTCGTGCGGGTTGA	MAGVDKRIVIALRQARQLRPPGHLPILLQLAGKARQRARQPAHIAPQLRQHHMVVGADPRPQLGLGVGGGEKRGDLAADLRLRLPLLASRARQLVQHVVAHPAVGPIGAKFRGHGVVLAPVLGDDSDGDQLDGHAVFDELGVVEVAHPAHARSPGSAGGASCAPRRGQNITSPTPTTDSGATMLMPRPVWVAISTAITKTQHSAMRMMRSRSMGSILFTWLWARRPRGSRCPLRATSSRRRRTCPRTQIRTAAGSAPSRNPRRGASPRATAGRTRSRAPTRAG				NA	NA	NA	NA	NA
AK009_08137	429			hypothetical protein	GTGCGGGTTGATCGGGGTGCCAATCTTCATGCTCACCTTTTTCGGCCGCGGGATCACGGTGCCGATCGGGTTGGCGTCGCGCGTGCCGAACATCGCCACGGGGATCACGTCGACGTTGTTGGTCATGGCGATGCGCGCCATGCCCGTCTTCGCCTTGTACAGGCGCCCGTCCGGGGAGCGGGTGCCCTCCGGGTAGAAACCGAGCAGCCTGCCCTCGTCGAAGACTCCCTTTGCGGCGCGCTGCAGGTCCTCTGCGGCACCCGCGGACGTGCGGTCCACCGGGATCTGACCCACCGAGCTGAAAAAGAAGCGCTGGATCGCGCCGGAAAGCCCGGGAGAGGTGAAGTACTCCTTCTTCGCGGGGAAGGTCAGCTCGCGCCACACCATCAGCGGCAGATAGAAGGAATCCATCACTGCCTGGTGGTTTGA	MRVDRGANLHAHLFRPRDHGADRVGVARAEHRHGDHVDVVGHGDARHARLRLVQAPVRGAGALRVETEQPALVEDSLCGALQVLCGTRGRAVHRDLTHRAEKEALDRAGKPGRGEVLLLRGEGQLAPHHQRQIEGIHHCLVV				NA	NA	NA	NA	NA
AK009_08138	690			hypothetical protein	GTGGCCCGTGGCGCGCTTGTCCACCACCGCGCGGTAGAGCCCGCAGCCCTTGTAGCCGCCTGCCGACGCCACCTCGACGGCCGTGTCGACGAGCGCCGTGCCCGAGGCGTAGCGCTCCAGGCAGCCGTGCTTGCCGCAGGAGCACACCCGCCCGCCCGGCACTACCGTGATGTGTCCGAACTCGGGCGCGGTGCCGAACGAGCCGCGGTAGATCTCGCCGCGGTGCATCAGCGTCGCGCCGATTCCCGTGCCCACGGCGAAAAACACCCACGTCTCAGCGTCGCGGGCGGCGCCGAAACGGTACTCGCCCCACGCCGCGGAGTTCGCATCGTGCTCGAGGCGCACCGGCAGCCCGATGGAGGCCTCGAGGATGGCCTTGACGGGAGCGTCGTTACGCCAGGGCAAGTGCGGGGCAAAGCGCACCTTCTCGCAGGCGGGGTCCAAAAACCCGGCGATCGCCGCACCGACCGCCGCAATGTCGTGGTCGCGGCGCACCTCGGCGACGAGCCGGGTAATCGACGCGGTGAGCTCCTCCGCGTCGTGCGGGGTTTCAATCGAGCGCGAGTCGATGATCTCTCCGGCGGCCGTGACCACGCCAGCTCGGGTGTTCGTGCCGCCAATATCGAAGCCGATGGTCAACGGCGCGGCGTCCGCGCTTCGGGTTTCGGGGAGCATAGCCAACTATGTTAA	MARGALVHHRAVEPAALVAACRRHLDGRVDERRARGVALQAAVLAAGAHPPARHYRDVSELGRGAERAAVDLAAVHQRRADSRAHGEKHPRLSVAGGAETVLAPRRGVRIVLEAHRQPDGGLEDGLDGSVVTPGQVRGKAHLLAGGVQKPGDRRTDRRNVVVAAHLGDEPGNRRGELLRVVRGFNRARVDDLSGGRDHASSGVRAANIEADGQRRGVRASGFGEHSQLC				NA	NA	NA	NA	NA
AK009_08139	1260			hypothetical protein	ATGTTAACCCGTCGGGCTCAGAAGATTGTAGAGCCTGTCTCCCAATGCTTCCCACGAAAAGGCCCGCTCCACGTGGGCGCGGCCGGCTCGGCCCATCTCGCGGCGTCGTGCAGGATCCCCCAGCAGGGAGATGATCGCAGCGGCCACCGCGTCGTGGTCTCGCCCGTCGACCACGACACCGGTTTGATCCGTCACCGTCTCCGGCGCCCCACCCGAATCCCCCACCACGACCGGCACGGCGCACGCCTGGGCTTCGAGGTAGACAATGCCGAGCCCCTCCACGTCCAGGCCCGCTCCCCTCGTCCGCGCGGGCATCGCGAACACGTCCGCCGCCGCGACGATGTCGCGCAGACGCGCACGATCCACGGCTCCGGTGAACACCACGGATTCGGCGAGCGGTCTCGCGCGCCTTGTCAAGGCGCGTGCGTAGGGCCCCTCGCCGACGATGACGAGGCGTGCGTCGGGGTAGGCATCGATGATGCTGGGGAGGGCGTCGATAAGCGTGTCCTGGCCCTTGCGCCGCACGAGCCTGGACGCGCAAACAATCATCGGCCCGCAGATGCCCAACTCGGCGCGCACGGCGGCGCGCTCAGCCTCGCTGGCCGGGTGAAAAAATTGCTTGTCGACGCCCGACGGCAACGCCTCGAACCTCGGCATCGCCCCAAACGCGCGCCGGAAGCGCCCGACAGCGTACTCCGACACGTACGTCACCACGTCCGCGCGCCGCCCGATGACCGAGAGCACCTGACGCGCGCCAGGCAGCATCGACCAGCCGACCTCATGGCCGTGGGTCGAGGCGAGAACCCGCCGCGCTCCAGCCGACTTCGCCGCCGCCCCCATCAGCGCCAGGGGCGCAGCGGCTCCGAACCATACGGTGTCCACGCCGTGTTCGCGGATGAGGCGGCGCATCTCGCGGACCGTCGCCGGGGTGGGGAGCATGACGCGGCGCGGCCAGCGCACCACGGTGTAGCCAACGTTCGCGTCCCAGCGCCTAGCCGCGTCGGCGTCTTGAGTGGAGGCGAACACGAGGAGCTCGTCGGGGCCGGCCCTCCGCACGAACTCATCGGCGAAATCCCTCACATACGACTGAATCCCACCGACAGCGGGTGGGAAGTCGTTGGTGACGAGCAGCACCGGCATTCTAGTAGCGGACCGCTCCCTGCACCGGCATCGAGTTCAGCGGCACGACCTGGACGGGGATGCCGTAGTCGGATGCGTGGACGACCTGGCCGTTGCCGATGTACATGCCCACATGCGTGA	MLTRRAQKIVEPVSQCFPRKGPLHVGAAGSAHLAASCRIPQQGDDRSGHRVVVSPVDHDTGLIRHRLRRPTRIPHHDRHGARLGFEVDNAEPLHVQARSPRPRGHREHVRRRDDVAQTRTIHGSGEHHGFGERSRAPCQGACVGPLADDDEACVGVGIDDAGEGVDKRVLALAPHEPGRANNHRPADAQLGAHGGALSLAGRVKKLLVDARRQRLEPRHRPKRAPEAPDSVLRHVRHHVRAPPDDREHLTRARQHRPADLMAVGRGENPPRSSRLRRRPHQRQGRSGSEPYGVHAVFADEAAHLADRRRGGEHDAARPAHHGVANVRVPAPSRVGVLSGGEHEELVGAGPPHELIGEIPHIRLNPTDSGWEVVGDEQHRHSSSGPLPAPASSSAARPGRGCRSRMRGRPGRCRCTCPHA				NA	NA	NA	NA	NA
AK009_08140	1047			hypothetical protein	GTGGGTAAGCACTCTCTTCCTCCGCGCGCTCGCCGAAGCGCCGGAACAATTGCATACACAACCGTTTCCCTGGCCGTCGCGGGTGCCACCGTGGCCGGACTCGTTTCTCCCGCACACGCCGAAGACCTGGACACCCTCATTGCGGAACTAGGTACCGTCTCGGACGAAGCGACCGCGAAGATGGAGCAGATTAAGGACCTCGAGGGCCAGCTCGAGCAGGCGCGTGTGGAGCTCGATGATAGCGCTCGGGCGGCCGCTGCTGCCCAGGCTAGGGCCGAGGAGGTGCGTGGAGCCCGCGCCATGCAGCAGGGGGACGTCAACGCTGTCGCGACTTCGACCTACCGCACGCTGCAGGTGGACAATGTGGTGAACACGCTCGGTTCCGCTACCCCGCAGGAGGTCATTGACAAGACCACCTACCTCGGATCCATTTCCCGCAAGCGCCAGGAGCAGCTTGATGGCCTGCGCGCCGCGAACGAAGAGGCGATTCAGGCCGCGCGTGAAGCGGACGTCGCTAAGGCGACCGCGCAGTACAACCGCGTCAAGCTCGACACACAGTTGGCGCAGCTGGAAAAGGAGCGTGCTGACATCGAGGCCCGGATCAAAGACGTTGAGGCCCGCGTGGATGCGCTCTCGCCCGCGGCGCGTGAGGCTTGGACGAACCAGTCCAACCCCGTGCCTGCGGACATGCTTGACCCGGGTGCGTTCGGTAACGCGATCACGGCCGCTGCGCTCGCGCAGCTGGGCAAGCCCTACGGCTGGGGGGCCGCCGGGCCCGATGCTTTCGACTGCTCCGGGCTGATGGTGTGGGCGTACTCCCAGAACGGGAAGTCGATCCCGCGCACCTCCCAGGCGCAGCTAGCTGGTGGCACCCCCGTGTCCATGTCGGATCTGCAGCCGGGCGACATCGTCGGCTACTACCCGGGTGTCACGCATGTGGGCATGTACATCGGCAACGGCCAGGTCGTCCACGCATCCGACTACGGCATCCCCGTCCAGGTCGTGCCGCTGAACTCGATGCCGGTGCAGGGAGCGGTCCGCTACTAG	MGKHSLPPRARRSAGTIAYTTVSLAVAGATVAGLVSPAHAEDLDTLIAELGTVSDEATAKMEQIKDLEGQLEQARVELDDSARAAAAAQARAEEVRGARAMQQGDVNAVATSTYRTLQVDNVVNTLGSATPQEVIDKTTYLGSISRKRQEQLDGLRAANEEAIQAAREADVAKATAQYNRVKLDTQLAQLEKERADIEARIKDVEARVDALSPAAREAWTNQSNPVPADMLDPGAFGNAITAAALAQLGKPYGWGAAGPDAFDCSGLMVWAYSQNGKSIPRTSQAQLAGGTPVSMSDLQPGDIVGYYPGVTHVGMYIGNGQVVHASDYGIPVQVVPLNSMPVQGAVRY	PGPT0023995_2946	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK009_08141	1131			hypothetical protein	GTGGGAGGCGCCGCTGTAGTAGACAACGACGTCGCCCGGCTGGATGTCGTTCAGGCTGACGGGGGTGCCGCCGGAAGCCTGCGCCTGAGAGGTACGCGGGATGGACTTACCAGCCTGTGCGTGGACCCAGGAGGTGAAACCGGAGCAGTCGAAGGCGTTGGGGCCGGCCGCGCCGTAGACGTACGGGGAGCCGATCTTGGAGCGGGCGATGTCAACGATCTGCTGGCCAGCGGAGGGTGCCGGAGCGACGATTGCCGGTGCCGCAGCAGCTTCGACGGTCTGCGCGGACGTGTCAGCCGGGGCGGTGGCGTAGCGGGTCTCAGCCTCCGCGAGGAAGTCGGAGAAGCCCGGGATGTTGGTTACGCCCGGCACAGCCTTGACTGCCGCGATTGCAGCTGCGACGTCACCGGTGGGTGCCTGACCACCCAGCGAGGGGATCCACATCTCAATGCCGGGGATGGCAGCGATCCCGGGGACGTTCTCGATGCCGGGAACCTGGACGCTGACGGGGCTGTTGGGGACACGAACCTCAGCAGCCTCTGCGGTGGCCGGTGCCAGAAGGGTTGCGCCCGTAACGAGGGCGGAAACGGCAGCAATGTTGCGCGCTGCGGACGAGTTCTGGCGACGGTGCTTTGTCACGTGAAATACTCCATATCTTCTCTTGCCTACCGGGTTAGCTGTCGGGTTGGACTCGAGAAAAGTCCTGCGCCGCTCCTTCTTGACCCAAACGAGTCGGGAAAAGATCCTTGCGCGCATTCACCCCAGGTGTGGCCCGCGGGCCCTGTAGTGGGTCCCCGGCTCCCCTTCAGCCGCAGGCGCCTTGTGCGCTGTGGCTGCCGAGGACTCGGCGTTATACGTTTTTGTTGTCGTAACTTGCATCCAACGATCGTTGCCGCAATGTCTCGAGTAGGTTACGAAACCGCAACGGCAATTGTCCAATGCGACATCCGTTATCGCGTCGTTATTTTTGTACAACCGCGCATTCAGCCTCACCCGAGGGGTGGGCTCACCGTTGCCACCACGGGGACTAAAGTAGAAATTATGCTTTCTAGCTGCATGTTTACGAAATTCCCGAGGGTCAATCGCAGAAACCGTTGCCCCGGCGGCCCCGCCGAAGATTGGCCGCTGTGA	MGGAAVVDNDVARLDVVQADGGAAGSLRLRGTRDGLTSLCVDPGGETGAVEGVGAGRAVDVRGADLGAGDVNDLLASGGCRSDDCRCRSSFDGLRGRVSRGGGVAGLSLREEVGEARDVGYARHSLDCRDCSCDVTGGCLTTQRGDPHLNAGDGSDPGDVLDAGNLDADGAVGDTNLSSLCGGRCQKGCARNEGGNGSNVARCGRVLATVLCHVKYSISSLAYRVSCRVGLEKSPAPLLLDPNESGKDPCAHSPQVWPAGPVVGPRLPFSRRRLVRCGCRGLGVIRFCCRNLHPTIVAAMSRVGYETATAIVQCDIRYRVVIFVQPRIQPHPRGGLTVATTGTKVEIMLSSCMFTKFPRVNRRNRCPGGPAEDWPL				NA	NA	NA	NA	NA
AK009_08143	651			hypothetical protein	GTGCTTGGTAGCTTCCAATGTGCGCAGCGTCTCAATTTCGTCGTGGTGGTTGCTCTCCGCGGCGTCGCGCACCCGCTCGGTGACGCCGAGCTCCGCCGGAGAGAACGTGCCGATCGTTTCGGAATCCGCGTAGCCCAGCTGGTTCATCTGCTTCGGCACACGAGCACCCGCGTACTCCAGCGGGATCGGGTGACCATGCTCGTCGACCGGGCCGAGAGGCTGGTGGATCTCCACGAAGGCGCCGTTCGGCAGCTTCTTGATGATGCCGGTCTCGATACCGTGCTCCAGAACTTCGCGGTCGGAACGCTGGAGGCCGACACAGATGCGGTAGGTGATGAAGTACACCAGCGGCGGCAGAACGATCAGGCCGATGCGTCCGAACCAGGTCATCGCGTTGAGCGAAATCTGGAAGAAGTGTGCGACGTGGTCGTTGCCGCCGGAGATGGTCAGCAACAAGAAGAATGTCACGGCCATGACGCCGATGCCGGTTCGCACTGGAACGTCGCGGGGGCGCTGCAGGAGGTTGTGGTGAGCACGGTCACCAGTGACCGCCTGCTCAATGAACGGGTAGGCAAAGAGCAGCATCACGAGGATGCCACACATCAACGCCACCCAGAACGCACCCGGGATGGTGTAGTTGCCCAGGTATAG	MLGSFQCAQRLNFVVVVALRGVAHPLGDAELRRRERADRFGIRVAQLVHLLRHTSTRVLQRDRVTMLVDRAERLVDLHEGAVRQLLDDAGLDTVLQNFAVGTLEADTDAVGDEVHQRRQNDQADASEPGHRVERNLEEVCDVVVAAGDGQQQEECHGHDADAGSHWNVAGALQEVVVSTVTSDRLLNERVGKEQHHEDATHQRHPERTRDGVVAQV				NA	NA	NA	NA	NA
AK009_08144	363			hypothetical protein	GTGGTTCCAGAAGCACACCCAGTTCCCCGGCCCAGGCCGCACGGAGAACAACGTCGTGGGCATCCGCATCATGCCGGTGTTCGCGGTCAAGGCCATCGGGTTCATGTTCGTTGTTTTCGCCGTGCTCTCCGGCATGGCGGGTCTGACCACCATCAACGCGATCTGGAACCTGGGGCCCTACAACCCCTCGCAGGTCTCCGCTGGTTCCCAGCCCGACGTCTACATGCTGTGGACGGACGGCGCGGCGCGCGTCATGCCGGCGTGGGAGCTATACCTGGGCAACTACACCATCCCGGGTGCGTTCTGGGTGGCGTTGATGTGTGGCATCCTCGTGATGCTGCTCTTTGCCTACCCGTTCATTGA	MVPEAHPVPRPRPHGEQRRGHPHHAGVRGQGHRVHVRCFRRALRHGGSDHHQRDLEPGALQPLAGLRWFPARRLHAVDGRRGARHAGVGAIPGQLHHPGCVLGGVDVWHPRDAALCLPVH				NA	NA	NA	NA	NA
AK009_08145	666			hypothetical protein	GTGGGCCGCGACGAGCGCGAGGATCAGGCCCGGCAGGATCAGAACGTGCAGGATGTAGAAGCGGTCCAGCATGAGGTCCGACGGGAAGTCGCCGCCGAAGATCGCCCAGTGCATCCAGGTACCGATGATCGGGATGCCGACGATGATGGCGGACATGATGCGCAGGCCCACGCCGGAGAGCAGGTCGTCGGGCAGGGAGTAGCCCATGAAGCCCTCGATCATGCCGACGAGGATCAGGGTGACACCGATGATCCAGTTCGCTTCACGCGGGCGTCGGAAGGCGCCGGTGAAGAAGATGCGCAGCATGTGCGCGAACATGGACATCATGAACATCAAAGCGGCCCAGTGGTGCATCTGGCGGACGAACAATCCGCCGCGCACCTCGAAGGAAATGTCCAGTGCCGTTGCGTACGCACGCGACATCTCGACGCCGTTGAGCGGCAGGTAGCCACCGTCGTAGATTACCTTGGTGATCGATGGGTCGAAGAACAACGCCAGGTAAATACCGGTCAGCAGCAGGATGATGAAGCTGTACAGCGCCATCTCACCGAGCATGAACGACCAGTGCGTCGGAAAGACCTTGTTCAGCTGCGGGCGCAGGAAACCAGAGACAGTGTAGCGCGAATCAATATTGTCCGCGGCTTGTGCGAGTTTAGTGCTCATTAG	MGRDEREDQARQDQNVQDVEAVQHEVRREVAAEDRPVHPGTDDRDADDDGGHDAQAHAGEQVVGQGVAHEALDHADEDQGDTDDPVRFTRASEGAGEEDAQHVREHGHHEHQSGPVVHLADEQSAAHLEGNVQCRCVRTRHLDAVERQVATVVDYLGDRWVEEQRQVNTGQQQDDEAVQRHLTEHERPVRRKDLVQLRAQETRDSVARINIVRGLCEFSAH				NA	NA	NA	NA	NA
AK009_08146	189			hypothetical protein	GTGCAACGCATCGAACTGCGACTGGTGGCACGGGCACAGGATGCGGTTGGTCTGAGCCTCGTACAGAGACGTCGGGCAACCAATGTGCGTGCAGATCTTCGAGTAGGCGTAGTAGTCGCCGTAGTGGAACGTTTCCTGCCCCTCGCGCTCGACGACGCGGTTAGCGTCCTCGGAGCGCAGACGGATTAG	MQRIELRLVARAQDAVGLSLVQRRRATNVRADLRVGVVVAVVERFLPLALDDAVSVLGAQTD				NA	NA	NA	NA	NA
AK009_08147	399			hypothetical protein	GTGGTTTTCGTAAACCTCGCGCTCGGGGTCGTAGGTTGCGCCGTCATTGACGTCCTCCTCGTAGAGGGGGAAGACCGTCTCCATCGACCCGGCCGCCAGGTCCTCGGGGCGCATACGCACCACGCGCGAAACACCGGCGGTGGTGTAGTGCTTGCCTGCCTGGCCCTCGTGCAGCTCGGCGATGGCACCGGTATCGCGGCCGAGGTAGACCTTCACACCTTCCTCGATCTTGGTCCAGCCATGCGTCCACAGGGTGCCGTCGCCGTAGTAATTGAGCTCGTGACGAGGGCGCCACGGGTTCTTAATCAGGCCACCGAGCGGGGCGATGATGATCAGGCCGGTCAACAGGCCAGCGCCACCGAGCAGGCCCTGCATGACTTTACGACGACCGAGGGTTGA	MVFVNLALGVVGCAVIDVLLVEGEDRLHRPGRQVLGAHTHHARNTGGGVVLACLALVQLGDGTGIAAEVDLHTFLDLGPAMRPQGAVAVVIELVTRAPRVLNQATERGDDDQAGQQASATEQALHDFTTTEG				NA	NA	NA	NA	NA
AK009_08148	624			hypothetical protein	GTGGCGGCGCTGCACCGAGATCTCCTCCGGCACGAACTTCTTCACGTACTGGATGATTGCGATGCCCAGCGCACCCAGCGCGAGCATCGACGTCAGGCCGAGCAAGGGGGTGTAGAGGGTGTACATCCACAGGCCTTCATCGCCATGGAACTTCGGCTCCCACGGCCAGAACAGGTACACGCCGAGAAACGCGAGGCCCATCACAATCGAGATGGTCAGCCACACATTGATGCCGGCCGCTGCGGCCTTTTCGCGCGGATCGCCTTCCACCGGGAAGCGTTCCTTGCGGTACGCAACGGTGACGTCATCGAGCTCGGTGCCCAGTGCGGCGAGCTCGGCGTTGTTCATGCGGTCGAGTTCCGCGTCAGTGTAATTCTTCTTCACTTCATTGCTCATGAGCGCGATCCAATCCACATAGCAGCAGCGGCGACAAGAGTGACGCCGATGATCCACATAGCCATACCCTCAGACACCGGGCCGAGGCCGCCCAGGCCCCAGCCACCCGGGGACGGGGTCTCCTTGGTGGACTTAATGAAGGCGATGATGTCCTTCTTCTCGTCCGCCGTCAGCTGGCGGTCGGAGAACTTCGGCATGTTCTGCGGTCCGGTCAGCATCGCCTGGTAG	MAALHRDLLRHELLHVLDDCDAQRTQREHRRQAEQGGVEGVHPQAFIAMELRLPRPEQVHAEKREAHHNRDGQPHIDAGRCGLFARIAFHREAFLAVRNGDVIELGAQCGELGVVHAVEFRVSVILLHFIAHERDPIHIAAAATRVTPMIHIAIPSDTGPRPPRPQPPGDGVSLVDLMKAMMSFFSSAVSWRSENFGMFCGPVSIAW				NA	NA	NA	NA	NA
AK009_08149	471			hypothetical protein	ATGGCAGGACGCGCAGTTAAGGCGGAAGAGCTCGCCACCGCGGGCGACGTCCTCGGCCTGAATCTGGCCGTCGAAGTTCCTGCCGCGCAGCTCATCCATCGCAATGGTGCCGTCTGGGTTTCTGACGAGCTCCGGGCCACCGCCGTTGGCCGCGACGTAGGCGGCCATGGCGAGTGCCTGCGACTCGCTGTAGCGCGGGCGCTTGCGCTCCGCCTGGGCGTCGTTCGACATCATGGGCATACGTCCAGAGTTGACCTGGAAGTAGACAGCGCCCTCTCCGGTGCCGATCAGGGACGGACCGCGGTCCTGAACGCCTTGGAGGTTAGCGCCGTGGCAGGTGATGCAGGCGACGTCGTAGAGGTCTTTGCCCTCCTGGATCAGCGCCTGGTCATCGCGCTGAGCCGTCGCCACCTGGGCGTTGGGGGTCAGAGCGGTGGCCAAGAAGCCAGCACCGGTGAGCCCGAGCGTTAA	MAGRAVKAEELATAGDVLGLNLAVEVPAAQLIHRNGAVWVSDELRATAVGRDVGGHGECLRLAVARALALRLGVVRHHGHTSRVDLEVDSALSGADQGRTAVLNALEVSAVAGDAGDVVEVFALLDQRLVIALSRRHLGVGGQSGGQEASTGEPER				NA	NA	NA	NA	NA
AK009_08150	1074			hypothetical protein	GTGGCGTCTTCCCGCGAGGTCCGCGGGCAAGGCGCATTACTGAACGAGGTACAGGGTGACAAAGACGCCAATCCAGATGACGTCGACGAAGTGCCAGTAGTAGGACGTCGCCATCGCGGCGGTGGCCTGAGCCGGTGTGAACTTCGACTTGGCAACTCGCATCATCACCACAATGAAGGCGATGATGCCGGCCGTCACGTGGGCCATGTGGAAGCCGGTGATGATGTAGAACACCGAGCCGTACACGGAAGCCTGCGGGGTCACGCCGTGGCTGACCATCTCATACCACTCGAACGCGACGAGACCGAGGAACACGACGCCGAGAGCGATGGTGATGCCAAACCACCTGCGCAGCCCGTAGACATCACCCCGCTCTGCGGCGAACACGCCCATCTGAGAGGTCACGGAGGACAGCACGAGAACGATGGTGATGATCAGGCCGAACATCACGTTCAGGTGCTCAGTCTGGTTCTCCCAGTCCCCGGCGGTCATGCCGTTTGCGCGCGACGTGAAGTACATCGCGAACAACCCAGCGAAGAACATCAACTCTTGGGCGAGGAACGCGATCGTTCCCACGCTGACCATGTTCGGCCGGTTCAGCACGGGGACACGATTCGGCGGTGTCGCCATCTCTTGGTTAGTAATTGCGGTCGTCACGCATGTGATTATCGCCCTTTTTCGCCTGAAAGTCACCTCGTATACCCCCGAAAAGCAACTGACAGAAAGGCTCCAACCTGCCCTTATTTTCACGCGACTTGTGCTAAGGAAAATTTCTTGTGCAAGGCGGGAACTTTCACACCCGTCTATCCGACTCGGATTACTGCAGGTCATCCCCTTAGGCGCGCACGTTGCTTATCGGCGCCCCCACTAACCGCCCCGACATTTCTCGCGCTTTCCCCCCTCCAGGTGGGCCCACCCTCCCCGGCTAGTGACAGTTCTCACATCTTGACCACCGTGCGCCGCGCGCTCCCCCAACTTTCGGTTGACCCCTTGGGTCTAGTGGCCTCGGTCGCCGCAATGCAAAACCCCCCTCACCTTTCGGTTTGGGGGGGTGTGTGCGGCGAGGCTAGTTAG	MASSREVRGQGALLNEVQGDKDANPDDVDEVPVVGRRHRGGGLSRCELRLGNSHHHHNEGDDAGRHVGHVEAGDDVEHRAVHGSLRGHAVADHLIPLERDETEEHDAESDGDAKPPAQPVDITPLCGEHAHLRGHGGQHENDGDDQAEHHVQVLSLVLPVPGGHAVCARREVHREQPSEEHQLLGEERDRSHADHVRPVQHGDTIRRCRHLLVSNCGRHACDYRPFSPESHLVYPRKATDRKAPTCPYFHATCAKENFLCKAGTFTPVYPTRITAGHPLRRARCLSAPPLTAPTFLALSPLQVGPPSPASDSSHILTTVRRALPQLSVDPLGLVASVAAMQNPPHLSVWGGVCGEAS				NA	NA	NA	NA	NA
AK009_08151	432			hypothetical protein	GTGCTTCTCGCGCGGGATTCCGTACTGCAGGTTGAGCTGCGTGGTGGTCCAAATCAACAGCACCGCACCGATGGCGACGAGCCACAGCTGCCAGAAGGCAATGCCGAGGCCAAGGAAGAAGATCGCGGCCGCCATCGCGAACGGCCAGATGGAGTTGGGCGAGAAGAAGCCGAGCACGCCGGCGCCGTCCTCGATCTCGGCTTCCTCCCAATCCTCCGGGACGATGTCCATGCGGCGCTCAGTGAAGTCGAGGTAGACGGCGAGCATGAAGGAGAGGGCGGTGGCGAGCACGAGGCCCACGCTGCCGACCCACTCGATTCCGAACAGGTACGCGTCATCGCCGACCCAGGTGGTAGCCAGGATGTAGAAGAGGGCAATCAGGGCAAGGAAGGTGCCCATTGCGTAGAAAACTTTGGATCCAGGTCCCATTGA	MLLARDSVLQVELRGGPNQQHRTDGDEPQLPEGNAEAKEEDRGRHRERPDGVGREEAEHAGAVLDLGFLPILRDDVHAALSEVEVDGEHEGEGGGEHEAHAADPLDSEQVRVIADPGGSQDVEEGNQGKEGAHCVENFGSRSH				NA	NA	NA	NA	NA
AK009_08152	456			hypothetical protein	TTGCGTAGAAAACTTTGGATCCAGGTCCCATTGATCTTCGCTTTCTTAGACGTTCTGGTTAGGGTCGGTGTAATTCTGGCCGTCGCGGGTACCGGTGCGGTCAGAGTTGAACGGGCGGGTGGTCGTCGCGTACGGATCCTGCCCGATCGACTCAAGTGCCTGGGCGTTAGATGCGTCCGGGTTGTCGTTGCGGAACTGGATGTATGCGCGGAAGTCCTCCGGCGACACGGCGCGAACCTCGAAGTTCATCATGGCGTGGTAGGTACCGCACATCTCGGCACAGCGGCCAACGAAGGCTCCTTCGCGGTCGATGCGCTCAATCTGGAACGAACGCTGCTGCTGGTTCGACTCCGGGTGAGCGTAGACGTCGCGCTTGAACAGGAACTCCGGAACCCAGAATGCGTGGCTCACGTCGCCGGAGGCGAGGCGGAACTCGATCGGGGTTTCGGTCGGTAG	MRRKLWIQVPLIFAFLDVLVRVGVILAVAGTGAVRVERAGGRRVRILPDRLKCLGVRCVRVVVAELDVCAEVLRRHGANLEVHHGVVGTAHLGTAANEGSFAVDALNLERTLLLVRLRVSVDVALEQELRNPECVAHVAGGEAELDRGFGR				NA	NA	NA	NA	NA
AK009_08153	1719			hypothetical protein	TTGAGTTTAAATATGTATTTAGGGGAAGTACATGCCCAAACACAAAGTATGAATGCTGTATGTACGGCTACCATTCAAGGTATGGAACAAGCGATTCAGTCGATTGACGCTTTTGCAATGGATACTGTGTTACAAGGGCAAACATATAGCAGTGCAAAATCATTTTTTGTACAAACCTTTCGTCCTTTAGCACAAGGAATCATTTATCTGTGTGAAGAGTTAATTCGTCAGAATGATGCTTTTCCAAGTCAATTCCAATCACAAGTCGCTTCCACGGATGTCGTTGAACAAGAGTTACTAGAACAAATTCGAGAAATTGACCGAATGAAAACAAGTATAGAAGCCATCAATCAAGCTGTGCCACTCCCGGGTATGGACGCTATGGCGAATCTTTTTACTGTCATGAGGAAAAAACTGCAAGAAAAATTAGAACATCTATATGAATTTAATTATACTTCTAGTAATAATTATGATACTGCACTCCAACTAGCCGCTAGCATTGCGATGGGTTTGGCGGAAGTTCAAAGTGGAAAAGGCTTTAGTCCTGCAAGTGGTACATTTAGTACGCAAGGGTTGAATATGGAGTGGATAACTTCTATCCAAGCGATTACAGAAGAAAAAAAACGTCATTCTGAAGGAAGTAATATTATAGAAGAATCGTTGTTCGATAAATTTAAAGATACTGTTGAAAATAACGTAGAAGCGATAGATCATTTGTACGAAAAGTTTATTCGACAGATAGAAAACACTCCTATTATCGGGCAATATTATAATTACAAAAAAGGGCAGAATGAAGCGGTGTTAGATGAACTTAAAGGAATATTAAACACAATTTTACATCCAATAGATAGTGTTGAGGGTGCTGTGTATGCTCTTTCTCACATCGACGAAACATTTGCTGCTGTAGAACAAGCTATTTCTGATTCGTGGAATCAAGATGTTGTAAATGGAGATTGGAATAGCAGAGCTAAATGGTATGGAAATGTAGAGATGCAAGTTAAATTAGCAATCGCTGAATTATTCGTAGGAACAAAAGGTGTAGATAAAGTTTCAACGTTAGGCAAAACCTCAAAACTTAGTGAAAGTGTAAATTTTATACACGGCACTAAAAACGTAATAACTTTAGATAAGTATAAGCAAAGCGTTGACATGTTGAATAATATTCTAATGCCAAAAAATCAATTTGCTTATACAGGAAGAAATATTGTAGACTCTTTCTCAGATAGCAATGCCCTTAAACAATCTAAAGAAAAATTATTGACTCATCAGTTTGCTGAAAGTACAGCTGAAGTTAATAAGGCAACAAGCGGAGCTGACTTGGATTTTAGAAAAGTAAATATTCAAACCAATGAAATTGGAGAAACTTTAGCTACTAGAAAGGAAATTCGAGCGTATAAAAAGGAATGGGGAGAATTAGGTATAAAAGTTAATATAGATAAAAAAGGAACAATTCTTCCAAACAATGTAGAAGCAGCGTTTGATTTTGTTAATGGGGATATATATTTAAAGAAAAAACCATCCGTCATAAATATGCATCATGAGGGTTTTCATGCAGAGCAGTGGTTAGATATAGGAAAAGAGCAATATATGAATCTTAGTAGGTTAGAAAGAGAAGAATATGTATTTGAACAAGTAATGAAAAATAAACATTTATTTGATAAAGCTTCTATTGACCATTCAATAGAATATATCGAAAGATTAAGATTGAAATATAAATAA	MSLNMYLGEVHAQTQSMNAVCTATIQGMEQAIQSIDAFAMDTVLQGQTYSSAKSFFVQTFRPLAQGIIYLCEELIRQNDAFPSQFQSQVASTDVVEQELLEQIREIDRMKTSIEAINQAVPLPGMDAMANLFTVMRKKLQEKLEHLYEFNYTSSNNYDTALQLAASIAMGLAEVQSGKGFSPASGTFSTQGLNMEWITSIQAITEEKKRHSEGSNIIEESLFDKFKDTVENNVEAIDHLYEKFIRQIENTPIIGQYYNYKKGQNEAVLDELKGILNTILHPIDSVEGAVYALSHIDETFAAVEQAISDSWNQDVVNGDWNSRAKWYGNVEMQVKLAIAELFVGTKGVDKVSTLGKTSKLSESVNFIHGTKNVITLDKYKQSVDMLNNILMPKNQFAYTGRNIVDSFSDSNALKQSKEKLLTHQFAESTAEVNKATSGADLDFRKVNIQTNEIGETLATRKEIRAYKKEWGELGIKVNIDKKGTILPNNVEAAFDFVNGDIYLKKKPSVINMHHEGFHAEQWLDIGKEQYMNLSRLEREEYVFEQVMKNKHLFDKASIDHSIEYIERLRLKYK	PGPT0027685_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BC_0920-BC_0921_TOXIN-ANTITOXIN_SYSTEM,PGPT0027685-toxin_BC_0920-K21496	NA	NA
AK009_08154	489			hypothetical protein	ATGTCTTTAGATAAGTATAAAAATATGTCTGATGAAGAGTTTAAACAATTGTCTACTGAAGAATTTCAAAATTATATAAAATTAAAGCAAGAAGATTTTTCAAGACATTATAGGAAAATAAATGAAATTACTGTAGATGTAATGTTAAAGCCTCAGGAAGCAATAGAAATTGCTAAACATTATCATAAGAAAAATAAATTAGATGGAGTAGTTAATGAAGATATCAACCAGCTTTTCTTTGATGAGGCTTATACATTTAAAATTGTGAAAGAAAATAGAAACAATGATGATATAAGACCAGCTTGGAGAATATTAGTGGATTTACCAAAAAACCCTTTTCTTATGGAGGACTATACACTAATTGTGTCTGATAGAGATAAAAAAGTAATGGGTATGCTCGATCCAAATGGGCATCCAGTATTTAAAGGCAATGAATTTACAGATGAAGATATCGAATATATTATGAGCGATGAGGATTCTAAAGATTAA	MSLDKYKNMSDEEFKQLSTEEFQNYIKLKQEDFSRHYRKINEITVDVMLKPQEAIEIAKHYHKKNKLDGVVNEDINQLFFDEAYTFKIVKENRNNDDIRPAWRILVDLPKNPFLMEDYTLIVSDRDKKVMGMLDPNGHPVFKGNEFTDEDIEYIMSDEDSKD				NA	NA	NA	NA	NA
AK009_08155	507	ylqB		putative protein YlqB	ATGAAGAAAATTTTAACTTCACTTATGCTAATTGGATTAGTAGTATTTGGCTTTATTTTACCAAGCAATAATGCAAGTGCAGCTGAAAACACACCACTTGTCGACAAAGTGCAAATTACTAACATCGGAAACAATGAGTATATCGACTATGGGCAAGGTAAAAAGTATCGAGTTTATGCATATAAAAACACAACATTCAAAGGATATGCATATGACGCAAATGGACAAGCAGTACCTGCTGGTACAACTTTTTACATTTACTTCGATGGCGCACTAAATTTTGCTAAAAAAGATATTTTATGTACTGTAGGAGCAAATGGCGCATTTGAAGGTTCAGTGGAAATGCCTAGTGGTAAGGGGAATTATTCTTTCTGGGCTTCAAGATCAACACACTACTACGATATTGTGAATCTTGGTTATTACAATGGTCCTAACAAAACTAATCCGATTTCAAAAGCAAATGAAAAAACAGTTTATCATTACTCTCACGGAGTATATCATCCATAA	MKKILTSLMLIGLVVFGFILPSNNASAAENTPLVDKVQITNIGNNEYIDYGQGKKYRVYAYKNTTFKGYAYDANGQAVPAGTTFYIYFDGALNFAKKDILCTVGANGAFEGSVEMPSGKGNYSFWASRSTHYYDIVNLGYYNGPNKTNPISKANEKTVYHYSHGVYHP				NA	NA	NA	NA	NA
AK009_08156	810			hypothetical protein	ATGGGGTATATCGTCGATATTTCAAAATGGAATGGTAATATTAACTGGGATGTAGCAGCACTGCAATTAGACTTAGTAATTGCTAGGGTACAAGATGGTTCTAACGTAGTTGATCATATGTATCAAAGTTATGTTGGTGAAATGAAAAAACGTGGTGTTTCTTTTGGTAACTATGCGTTTTGTCGATTTGTTTCTGAAAATGATGCACGTGTAGAAGCTCGCGACTTTTGGAATCGTGGAGATAAAGATGCATTGTTTTGGGTAGCGGATGTGGAAGTGAAAACAATGGGGAATATGTTAGCTGGAACGTTAGCTTTTATCGATGAATTACGCCAGTTAGGTGCTAAAAAGGTTGGGCTATATGTTGGTCATCATACATATAAAGAGTTCCAAGCGGATAAAGTAAACGCTGATTTCGTATGGATTCCTCGATATGGTGGGAATAGACCAGCTTATCCATGTGATATCTGGCAATACACAGAGACAGGTAATGTACCTGGTATCGGTAAGTGTGATTTGAACCAATTGATTGGCGGTAAACCGTTATCTTGGTTTACAGGAGAGGAACATACAAAACAATCTGTTGCTAATGGTGGCTATCAATATGTTAAATCTGGTGGGTTTGGCATTTCACTGGTTCAGGAAGTCGTAAATGCTATGAATGAGCGTGGAACAAAAGGGAAGGTTATCTCTGATCCATTAACTGGTTTAGCGTACTTACAAACTGAAGTACTGCCTAATGGTGAACTTGATAAGATTACAGCTTGGATGGATGAAAGAAACTGGTGGTACGAGTACATTAAAAAATAA	MGYIVDISKWNGNINWDVAALQLDLVIARVQDGSNVVDHMYQSYVGEMKKRGVSFGNYAFCRFVSENDARVEARDFWNRGDKDALFWVADVEVKTMGNMLAGTLAFIDELRQLGAKKVGLYVGHHTYKEFQADKVNADFVWIPRYGGNRPAYPCDIWQYTETGNVPGIGKCDLNQLIGGKPLSWFTGEEHTKQSVANGGYQYVKSGGFGISLVQEVVNAMNERGTKGKVISDPLTGLAYLQTEVLPNGELDKITAWMDERNWWYEYIKK	PGPT0019115_1144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_08157	228	uviB_4		Bacteriocin UviB	GTGGAAGATGCAATTTTCAACTCAGTTATTCAACAAGGTGCATTTGCAGCGTTATTTGTGTGGATGCTATTTACTACGCAAAAAAAGAATGAGCAGCGTGAAGAAAAGTATCAACAAGTAATTGATAGAAACCAACAAGTCATAGAAGAGCAAGCAAAGGCTTTTGGATCTATCTCTAAAGATGTAACAGAAATCAAACAAAAACTATTTGAAGGAGATGTTCAATAA	MEDAIFNSVIQQGAFAALFVWMLFTTQKKNEQREEKYQQVIDRNQQVIEEQAKAFGSISKDVTEIKQKLFEGDVQ				NA	NA	NA	NA	NA
AK009_08158	366			hypothetical protein	ATGAATCAGAATTCAGCTGTTACAACTCCACAACGTGGGGATGTAACACCGTTTATGGGATATTTAGTAGAGTTGGAAAGATCTGAAACTGGAATTTTTGTAAACATCCCTATTAATGTATTAAATAATGCAGGGCTTTCAAATGGCATGAATAAAGTTGAGGTATGGAGGGAACTTGATGGAACTATAAGCTTTAGAATCGCAACAAGATGCGAAATCTGTAAACGTGGAGCACGTCTATATGAACTAGATATGGGATTTGCAAAAAAGCATATTTGTATAGAATGTTATACATCGCTTACGGGGAATTATCCATCACAGCAACCACCAACTAATGAAAATACAACGCAAATAGAGCAGCCATAA	MNQNSAVTTPQRGDVTPFMGYLVELERSETGIFVNIPINVLNNAGLSNGMNKVEVWRELDGTISFRIATRCEICKRGARLYELDMGFAKKHICIECYTSLTGNYPSQQPPTNENTTQIEQP				NA	NA	NA	NA	NA
AK009_08159	4320			hypothetical protein	ATGAGAACACCAAGTGGAGTCTTACATATTATTGATTTTAAAACCAGTCAAATCGTTTCAGCTATACAACCAAAAGATTATTGGGATGATAAACGTCATTGGGAAATCAAGAATAATATCGATACTTTAGAGTTTAAAGTATTTGATAACACGAAATATGCAGCAACACTTATGCAACAAAACTTAGTATTAAAAGAAGTAAGAGATGGGCGTATTGTTCCGTATGTAATCACTGAAGTAGAAAAAGACCCTGACGATAGATCCGTAATTGCTTATGCATCAGGTGCATGGATTAATCTTGCTAAAGATGACTATATTCTTCCGCAGAAAATTGAAGGTAAGACAGTAAATGAATTTATGGATGTTGCTCTTGTAGGTACAAAATGGAAGCGTGGTAAAACGGAGTATGCTGGATTTCATTCTATGACTATTGATGAATTTATAGATCCATTGAGTTTCTTAAAAAAGATAGCTTCCCTATTTGAACTAGAAATTATATACCGTGTTGAAGTGGTTGGTTCTCGAATTGCAGGTTGGTATGTAGACATGGTGAAAAAAAGAGGAAGAGAAACAGGAAAGGAAGTCAAGTTAGGTAAAGATTTAGTTGGAATTAAACGTATTGAAAACTCACAAAACATTTGTACAGCTTTAATTGGCTTTATCAAGAAAGAAGGTGGAGAAGTTCTCACTATCTCAGATATAAATAAGGGTATCCCATATATTGTGGATAACGATGCATTTCAACGTTGGAATGAAAAAGGTAAACACAAATTTGGATTTTATACTCCAGAAACAGAAGAAGAGATAACACCAGAACGCTTATTGACTCTTATGAAAACAGAGTTAGCAAAACGCGTGAATACCTCTGTCTCTTATGATGTTCAAGCACAAAGTATAGGGCGTGTATTTGGACTGGCTCACGAGTTAATCAATGAAGGAGATACAATCCGAATTAAAGATGTTGGATTCACACCTAAGCTTTATTTAGAAGCAAGGGCAATCGCTGGTGATGAATCACATACTGATCCTTCGCAAGATAAATACGCATTTGGTGATTATCGTGAGATTACAGATTTAAATGAAGAACTACGAAAGATTTACAATCGTATTCTTAGTTCACTAGGAAGTAAGCAAGAACTGATAGATCAGTTAGATGAATTAGTGAAAAATGCAAATGAAACAGCTAATAATGCTAAGAGAGAATCAGAAGTAGCAAAAACACTGGCTGAAAAAGTTCAAGAGAATCTTAAAAATAATACAGTAAATATAATTGAAGCTAAAAATCCACCGACTGATAACCTTATAATAGGCAAGACGCTATGGCGAGATATTAGCGACGGTAAACCAGGTATTTTAAAAGTGTGGAACGGTAAAGGTTGGGAACTCCTTATTCCTGATGTAGAGTCAGTAAAACAAGAAACACTGAAACAGGTTAATAAAGATATTCAGCTCACAAAAGAAGAATTAAACAAAAAAGTGGAAGAAGCGCAAAGTGAAACCAATGGACAATTTAATAAAGTAACAGAAAATCTTCAAGAAGTTACAAGAACGATTAAAAATGTACAAAGCTCTCAAGGTGAAATTAATAAAACTGTCTCTGAAATGAAACAAACCAACGAAGGTTTTACTAAATCTATTGAGTTATTAACAAAAAAAGACGGTGAAATCACTGAAAAGTTTAATACAGTAGAAGAGACGTTCAAAGGTACAAAAAAGACAATCTCTGAGGTGCAGCAAACAACAAATGCTTTAAAGAAAACCACAACTGAAATTACAGAAAAGGCTGGTCAGACTAGTGAGAAGTTGGAGAGTGTAGAAAAGAAAGTTAATAACGATAAAGCTGGAGGACGTAATCTGTTATTAGATTCAAATGCTAAATACGAAAAAACAGATTATCTAATCAATCCATATTCTCTAACCGAAAATTTCTCTACAGGTGAAGAATATACATTTGTAATTAAAGGTAGCGTTCCGAAGGGACAGAAGTTCGGGATTTGGCAAAATGGTGGTTCGAATAATGTTGGATATGCAACAAGTGTTTATGCGAATGGAATTGCCTATGTAACTTTTAAAGCTGTAGCAGCAACGAGTGGAAATGAAAGAAAGTTGAGTCTGTATAACTTTCCAAGTAACACTACAAAAGCCATTGTAGAATGGGTTGCTTTATATAAAGGGAATAAGCCACAGGATTGGACACCAGCACCAGAAAATCAAGTAACGAGTGATGAATTTACTAAGAAAACAACCGAGATTGAAAAAAGTGTGGATGGTATTAAAGAAAATATTAAAACAGTAGAAAAAACACAAACTTCTTTCAATGAACGTGTTAACACTGTAGAAAAGAACGCAGAAGGAACAACTGCAAGTGTTAAGAAATTACAGGAAACACAAACTGAGCAAAGTAAAACACTTAGTGAGGCTACTACAACAATAGGTCAACATTCTGAAGCATTGAAATTAACAATGAAAAAGAAAGATGTTGAGGATTATGTAGGCGGTTTAGGTACTGTTAACGAGTTGCGTGATGCTGATTTTAAGTTAGGACAGAAATATTGGTTTTGGAATAGTGGTAATGGGGCTATCGGTTCTGTTGATACGAATTTAAAATACAAAGGTATGAAGACATTTTCAATTACTGCCACTGGCCAGACTCAAGATCGTTGGTGGGGACTTACAAGTCAATTCATTGAGTGTCAGGTTAACGAAGAATTTGTTGCATCAGGTTATTTCAATACTGATGGGAAAACACCTATTGATAGTGGCGGCGCATTTATTGAAATTGAATGGTGGACTGCTGACAAAAAAACTCGCATTAAAACAGCTAGAACGAATATCAAGGTTGTAAATCATACATGGATTCGTGCTGTATGTACAGATAAAGCACCAGCCAATGCAGCGTTTGTGAGATGGCGTTATTACGTTACAAGAAATGGGCGTTTATGGTGTGCTGCACCTATGTTACAACGTGGCACGATAGCTACAGAATTTTGGTTACATCCGAAAGATCAAACCGATGTTGATAAAATGCTAGAAGATATAGCTAATAGAGTAGCTACTGAGAAATACAATCAGAAAGTTACAGAGTTAGAAAGAAGTATTAGTGCTACTGAAAAAGGCGTTTCAATCATCTCTGGAAAACAAGAAACGTTTATAAATGAGACTTATAATGCCTATGTAAAGAAAACGGAATCTAAGTTAGAAGTGTTAGATGGAGGGATTTTAGCTCAGATTTTAAAGGACGGCATTGTCACTGCGATCAATATGTCCCCTGGGAAAATTACAATCAATGCTGCAAAATTAGATGTTAATGCAGATACAATGGTCAAATGGCTGACAGCAAAAGGCATTGATACGAATCTTATTAGAATTAACGGTGACAAGATAACCATTGATAAAGATGGTGTAACTGTTAAAATGCTAGACTTCCTATTCCAAGACGAATGGGGAACAAAAACAACTGCAGTATCAAGACGAAACCTAATAGCAGATCCCGACTTTTCTAGTGTTACAAAGAAAAACATTGGACATAACGATTATTATGGGTTTGAAGGTGGATACGGTCTTACTTGGAGGTCATGGGGAAATGTCGTAATAGAAAAGAATACACATATATTCGATTACGAGCAAATGGTGAATGCTACAAGGGTAGACATGTATAATTATCCAGAAGCAATCGTGAATAATGGCATACATCCCGGAAATGAATACACAGTATCTGCTCACTTTAGAGCATCTATGATAAATGGTGTACGTAAAACAGGGAAACCACGCTTGCATGTATGTTGTGTTAAATTCCGAGACAATGTAAGTTACGATATATGGAATGAACAAAAAATGGACTTTCCTGAGCCGTCTACATTTTATGGAGAAATTAGAAGATATTCATTTACCTTCAAAGTGCCGAAAAACTATATTCCACAACAACATGCATTGATTATTAAAGTTTGTTCAGGAAGTGCTGACATGAGACAAGGGACAGCACTTTGTGTAAGTGGTGTAACGCTATACAGTGGCAAATATGCATCTATGTATAATTGGGATCGTGCTGCAGCAGAAAGAGCGGATGGTATTCAGCCATTTAACGCACTTGCTGTAGGTGGTGTGAATAATAATATAAAACCAGCAGCAGACGGACAAACGTTTGATATAAGTACAGAAAAGGATGTAAAAGTTTTTTCTAATATAAGGGCGATGCAAGGAATTAATTTAGGCGGCGGTGGATTCCAACAATGGGGACATATTCGTTTTGTAGAAGGAAACCGAGGGTTAGGATTCTATGTCTGTAACTCAAATGGATGGCACTTTAATAGTTTGGGATAA	MRTPSGVLHIIDFKTSQIVSAIQPKDYWDDKRHWEIKNNIDTLEFKVFDNTKYAATLMQQNLVLKEVRDGRIVPYVITEVEKDPDDRSVIAYASGAWINLAKDDYILPQKIEGKTVNEFMDVALVGTKWKRGKTEYAGFHSMTIDEFIDPLSFLKKIASLFELEIIYRVEVVGSRIAGWYVDMVKKRGRETGKEVKLGKDLVGIKRIENSQNICTALIGFIKKEGGEVLTISDINKGIPYIVDNDAFQRWNEKGKHKFGFYTPETEEEITPERLLTLMKTELAKRVNTSVSYDVQAQSIGRVFGLAHELINEGDTIRIKDVGFTPKLYLEARAIAGDESHTDPSQDKYAFGDYREITDLNEELRKIYNRILSSLGSKQELIDQLDELVKNANETANNAKRESEVAKTLAEKVQENLKNNTVNIIEAKNPPTDNLIIGKTLWRDISDGKPGILKVWNGKGWELLIPDVESVKQETLKQVNKDIQLTKEELNKKVEEAQSETNGQFNKVTENLQEVTRTIKNVQSSQGEINKTVSEMKQTNEGFTKSIELLTKKDGEITEKFNTVEETFKGTKKTISEVQQTTNALKKTTTEITEKAGQTSEKLESVEKKVNNDKAGGRNLLLDSNAKYEKTDYLINPYSLTENFSTGEEYTFVIKGSVPKGQKFGIWQNGGSNNVGYATSVYANGIAYVTFKAVAATSGNERKLSLYNFPSNTTKAIVEWVALYKGNKPQDWTPAPENQVTSDEFTKKTTEIEKSVDGIKENIKTVEKTQTSFNERVNTVEKNAEGTTASVKKLQETQTEQSKTLSEATTTIGQHSEALKLTMKKKDVEDYVGGLGTVNELRDADFKLGQKYWFWNSGNGAIGSVDTNLKYKGMKTFSITATGQTQDRWWGLTSQFIECQVNEEFVASGYFNTDGKTPIDSGGAFIEIEWWTADKKTRIKTARTNIKVVNHTWIRAVCTDKAPANAAFVRWRYYVTRNGRLWCAAPMLQRGTIATEFWLHPKDQTDVDKMLEDIANRVATEKYNQKVTELERSISATEKGVSIISGKQETFINETYNAYVKKTESKLEVLDGGILAQILKDGIVTAINMSPGKITINAAKLDVNADTMVKWLTAKGIDTNLIRINGDKITIDKDGVTVKMLDFLFQDEWGTKTTAVSRRNLIADPDFSSVTKKNIGHNDYYGFEGGYGLTWRSWGNVVIEKNTHIFDYEQMVNATRVDMYNYPEAIVNNGIHPGNEYTVSAHFRASMINGVRKTGKPRLHVCCVKFRDNVSYDIWNEQKMDFPEPSTFYGEIRRYSFTFKVPKNYIPQQHALIIKVCSGSADMRQGTALCVSGVTLYSGKYASMYNWDRAAAERADGIQPFNALAVGGVNNNIKPAADGQTFDISTEKDVKVFSNIRAMQGINLGGGGFQQWGHIRFVEGNRGLGFYVCNSNGWHFNSLG				NA	NA	NA	NA	NA
AK009_08160	1470			hypothetical protein	ATGAGTTCTTTTACTTTTAACAACCAACGAAAGGAGTACATTCAAATAGAAAAGGGATGGAGTCCACCAACATGGGCACCTCTAAAACGTAATTTCTTAAAAACACCTGGATATCCAGGTGCAAGATTATTAGGAACGGATACAGACCCTCGTCCACTTCCTGTCCCTGTAGGAATTATCGTTCCAGATGGAACAGAGTTAGAAACGTTAAAAGAAGAAATAGCAGCATGGTTAATTACAGAAGAAGCAGTTGAGCTAGTATTTGATGCAACTCCTGATCGAACATATTTAGCTATAATTGATGAAGATTTTAATCTTGATGATTTCGTTACGTTAGGTAAAGGTACTTTGAAGTTTATTTGTCCGATGCCTTATAAATTAGGACCCACCCGAACAGTAGAATTTCAAACAGGTGCACTGGGGTTAATGGCAAACGTTCAAAATAAAGGAACTGTTCATTCTAATCCTATTATTGAGATCGACATTACGAAACCAAACAATTTTTTAGATGTATGGTTTGAAGATAAATATTCAAAGGAACCGGATTATTTCCGTATTGGAGTGCCATTAAAAATGGAGCAATTGCCTGTAGAAAGAAATCAACGTCTTATATGGGATGAAATGTCCACAACTGTAGGGTGGAGTAAGGTTAGTTCTATGGAAGATGGTAATCCAGTTGGTGAAATGAAAACAGATAATTACCAATTCTATTGTTCGGACTATGGCTCGGGTAATGGATGGCATGGCGCAGCTGTTAAGAAGAGTATCCCTGGTGGGCCAGTACAAGATTTTATTATGCAAGCCCACGTTACATGTAAAAGTAAAAAGATCAATGAAATGGGACGAGTTGAGATAGCAATACTCGATGAAAACAGCAAAGTTCTTTCAAAAATTGCCATGAATGACCTCTATTGGCAAGCTGAACAAAATTTTGGAACGATGGTAATTGGATATGATAATAAGCCTGGAAAAACAGGTTTAATTTATGAGAGTGGTGATTATCCGAATACATGGAATCAGTATTATGGTAGGTTGTGGATTGCTAGAACCGGTAATGATTGGGAAGCTTATATTTCAAAATTTCTTCCTGGAACAGAAAAAGATGATTCAGAACGCTTTGCAAGATGGACCGATAAAGACAATAAACATATGGAAAAAGCGGCTCAAATACAGATTAGTATCATGCAGTGGCAAGATGTTCCGCCAGTAGAAGCCATGACAGTTTCGGATTTGAAATTTTGGAAAGTGAATTTAAATAATCAAAATACACCGCCTTATATAGTCGATGTTGGTGACAAAGTCGTAATTGATACAGAAAATAGTCATGTAATGATTGAAGGGAAGGATGCGATTAATATTAAGGACATTTTCAGTAATTTTCCTATCATTAATAAAGGTATGAATACACTAGAAATCATGCCTTCTGATATCGGAACAGCAAAGGTTAAATATAGGGAGCGGTTTAGATGA	MSSFTFNNQRKEYIQIEKGWSPPTWAPLKRNFLKTPGYPGARLLGTDTDPRPLPVPVGIIVPDGTELETLKEEIAAWLITEEAVELVFDATPDRTYLAIIDEDFNLDDFVTLGKGTLKFICPMPYKLGPTRTVEFQTGALGLMANVQNKGTVHSNPIIEIDITKPNNFLDVWFEDKYSKEPDYFRIGVPLKMEQLPVERNQRLIWDEMSTTVGWSKVSSMEDGNPVGEMKTDNYQFYCSDYGSGNGWHGAAVKKSIPGGPVQDFIMQAHVTCKSKKINEMGRVEIAILDENSKVLSKIAMNDLYWQAEQNFGTMVIGYDNKPGKTGLIYESGDYPNTWNQYYGRLWIARTGNDWEAYISKFLPGTEKDDSERFARWTDKDNKHMEKAAQIQISIMQWQDVPPVEAMTVSDLKFWKVNLNNQNTPPYIVDVGDKVVIDTENSHVMIEGKDAINIKDIFSNFPIINKGMNTLEIMPSDIGTAKVKYRERFR				NA	NA	NA	NA	NA
AK009_08161	888			hypothetical protein	ATGTTAGGAATTTGGGCGAAAATAAAAGGCTATACACTTGAAGCATGGAAGATGGTTTACACATATATCGTTGAACCAGTTATTTCAGCTTATAATTCTGCAAAAGAGAAATTCAATGATATGTACAATACAGCACGGGAAAAATTTGATTCTGTTAAGAATGCAGCTCAAGAAAAATTTGAAGCGGCAAAACATTTCATTATAGATCCAATTAAAGATGCAGTTGACAGTATAGAAAAATTTATTGGAAAGATTAAAGGATTCTTTAGTGACTTGAAGTTGAAAATTCCAAAACCAGAAATGCCACCTCTTCCACACTTCAGCTTACAAACAAGCACGAAAAATGTTTTAGGTAAAGATATTACATTTCCGTCAGGAATTAATATTGATTGGCGTGCAAAAGGCGGTATCTTTACTAAACCAACTATCTTTGGAATGAATGGCGGAAACTTGCAAGGTGCAGGAGAAGCGGGGCGAGAAGCAGTGCTTCCTCTGAATAAAAAGACACTTGGAGATATTGGTGCAGGAATTGTGGCAGCCATGCCACGACAACAATTTGCTATGCCGAGAGAAATAAATCAACTAATGGGTGACATGAGCCGTATAATGGCTAGTTCTGTGAGTCAATTATCAGGATTAAAGAGTGTCATGAGTGGTGTGTATGGAAGCATGTCAAATAGTAGACAAGCTATGGCAAGCAGCGTATCAAATCAAGTGATTAATTACGGATCTAGTTCATCTTCTAGTGGTGAAGTTATTCCAATGCTTGGTGGAGATTTAGTTATTGAAGTGCCTGTTAATTTAGAAGGAAGAGACGTGGCACGCGGTACTTATCGCTATACAACCGAGTATCAAGAAAGAGAAGCAAAAAGAAACTCAGCCTTTTAG	MLGIWAKIKGYTLEAWKMVYTYIVEPVISAYNSAKEKFNDMYNTAREKFDSVKNAAQEKFEAAKHFIIDPIKDAVDSIEKFIGKIKGFFSDLKLKIPKPEMPPLPHFSLQTSTKNVLGKDITFPSGINIDWRAKGGIFTKPTIFGMNGGNLQGAGEAGREAVLPLNKKTLGDIGAGIVAAMPRQQFAMPREINQLMGDMSRIMASSVSQLSGLKSVMSGVYGSMSNSRQAMASSVSNQVINYGSSSSSSGEVIPMLGGDLVIEVPVNLEGRDVARGTYRYTTEYQEREAKRNSAF				NA	NA	NA	NA	NA
AK009_08162	2514	smc_9		Chromosome partition protein Smc	ATGGCGGGAGGAAAAATTAAAGGAATTACGATTGAAATTGGAGGGAATACGCAGCCGTTACAAAATGCCTTAAAAGACGTGAATAAGCAAAGTGATTCTTTGACTAAAGAGTTAAAAGATGTTGAACGTTTATTAAAGTTTAATCCCGGTAACGTTGAGGCACTTGCTCAAAAGCAACAGTTGCTTACACAACAAATTGAAAAAACTACACAAAAGCTCGATAAATTAAAAGAAGCGGAGCAACAGGTTCAAGAGCAATTTCAAAATGGGAAAATCTCAGAAGAGCAGTATCGCGCATTTAGGCGTGAAATTGAATTTACACAAGGGTCACTTGATGGTCTGAAAAACAAGCTCGGTAATATGAAAGCCGAACAAGAAAATGTGGCAAGTTCAACACGACAATTAGAAACTTTATTTAGTGCTACAGGAAAAAGTATTGATGATTTTGCGAGCGCATTAGGTAATCGTCTTGTAAATGCAATTAAAAGTGGATCGGCTACAAGTCGACAGTTAGAACAAGCAATTGGTCTTATTGGTCGTGAAGCTTTAGGAACTGAAGCTGATATTGAAAAATTACAACGTGCCCTCCGATCTGTGGATGCCGGAAACTCTATTCAACAAGTACAAAATGAGTTAAGAGACTTACAACAAGAAGCTGGCAGAACCGAGAAGAAGTTTGAAGGTCTAAAAGTAGGATTAGAGAATGTTCTCGGTGGATTAGCAGCTGGTGGTGGAATTGCGACAGCTGTTGAAAAAGCACTTGATATTTCAAAATTGAAAACCAAAATTGATATATCTTTTGATGTCCCTGAATCCTCGAAAAAATCAGTAGAAGAAGCAATAAGAGGAGTAACAGCTTATGGAGTGGATGCTGAAGAATCACTTGCTGGTGTACGTAGGCAATGGGCTTTAAATAAAGATATTAGTGATGAAGCGAATGCATCTATCGTTAAAGGTGCAGCAACAATCGCGCAATCCTATGAAGGTATAGATTTTACAGAGTTGATTCAAGAAACCTATGAAATAGGAAATGAATTAGGAATAACGCAAGATAGTGCTCTTGGTATGGTTGATGCTTTGTTAAAAATGGGATTTCCGCCAGAACAGTTAGACATCATTGCTGAATATGGTAGCCAGCTAACCCGTGCAGGCTTTAAAGCTGAGGAAGTCCAAGCGATTATGGAAGCTGGTGTTGAAACTGGTAGCTGGAATATTGATAATCTTTTAGACGGACTGAAAGAAGGGAGGATTCAATTAAGTGAATTCGCACAAGGAGCTGATAAGGCTTTAAAAGAAGCGCTTGACGGTTCTGGTATTGCGACTGAACAAATAGAAAAATGGGGAGCATCTGTCGCTAAAGGCGGAAGAGATGGCGCAGCAGCGATGGTAGAAGTAGCTAAAGCTATTGACGGAATAGAAGACCCAGTTAAGAAAAATCAGGTTGGGGTCAAAGTTCTAGCCACTATGTTTGAAGATCAAGGTCAAAATTTAACAAACACTTTAATTGAAGCTTCTAAGAAAACAAAAGATCTTCAACAAAACCAAGACAACTTAAATGAATCTGTTAAAAAATTAGATGCAAATCCAGCAGTAAAGTTCCAAAAAGCGATGGGCGATTTACAAATGGCTCTTGAACCTATACTAGGAGTAATTGCTGATGTTGTTGCTAGTATTGCTGATTGGATTTCTAATAATCCAGAATTAGCAGCGACCTTAGCAGCAGTTGCAACGGCTATTGGGGTAATTTCAGGGGCACTTATGGCAATTGCACCAATAGTTATGGCGGTCATGGGTGTATTTGAAATCGGAGCCGCCGCCGCACTAGGCATAGTTGCAATAGTTCCTATTATCATAGCGGCTATAGTTGCTCTAGGAGTGGCTATTTATAAAAACTGGGATGATATTAAAAATTGGACAATAGAAGCATGGGATTCTATTAAAGAGTACTTAGTAGAGCTTTGGGACGAGATATCCCAGTCCTGTAGTGAAGCATGGTCTTCATTTTTAGAAGCAATGCATGAATTTTTTGATCCGATAGGTCAATTTTTTAGTGATTTATGGGAGGGTGTGAAGCAGGCGTGTAGCGATGCATGGAATTCTACTGTTGAATTCTTTTCTGAAGCATGGTCTTCTTTCATAGAAATGATGCATAGTTTCTTTGATCCGATAGGTGAATTCTTTAGTAGTTTATGGTCTGGGATTGTTGAAACTGCTTCCTCTTGGTGGTCCTCTTTAGTTGAAACAGCATCTGAATTGTGGGGAACATTAACGCAAGCATGGCAAGAAACATGGGATACAATTCTTACTGTTTTAGATCCAATTATTTCGGCAGTTTCTACCGTTTTAGAAGCTGGTTGGTTGTTAATACAGGCAGGTGCACAAATTGCATGGGCGGCAATCTGTCAATATATTATTCAACCGATTCAGGAAGCTTACGACTGGGTAAGTACACAAATCGGTGAAATGGTCACTTGGCTTGGTACACAATGGGAAATTGCAAAAGCTATGGCATAA	MAGGKIKGITIEIGGNTQPLQNALKDVNKQSDSLTKELKDVERLLKFNPGNVEALAQKQQLLTQQIEKTTQKLDKLKEAEQQVQEQFQNGKISEEQYRAFRREIEFTQGSLDGLKNKLGNMKAEQENVASSTRQLETLFSATGKSIDDFASALGNRLVNAIKSGSATSRQLEQAIGLIGREALGTEADIEKLQRALRSVDAGNSIQQVQNELRDLQQEAGRTEKKFEGLKVGLENVLGGLAAGGGIATAVEKALDISKLKTKIDISFDVPESSKKSVEEAIRGVTAYGVDAEESLAGVRRQWALNKDISDEANASIVKGAATIAQSYEGIDFTELIQETYEIGNELGITQDSALGMVDALLKMGFPPEQLDIIAEYGSQLTRAGFKAEEVQAIMEAGVETGSWNIDNLLDGLKEGRIQLSEFAQGADKALKEALDGSGIATEQIEKWGASVAKGGRDGAAAMVEVAKAIDGIEDPVKKNQVGVKVLATMFEDQGQNLTNTLIEASKKTKDLQQNQDNLNESVKKLDANPAVKFQKAMGDLQMALEPILGVIADVVASIADWISNNPELAATLAAVATAIGVISGALMAIAPIVMAVMGVFEIGAAAALGIVAIVPIIIAAIVALGVAIYKNWDDIKNWTIEAWDSIKEYLVELWDEISQSCSEAWSSFLEAMHEFFDPIGQFFSDLWEGVKQACSDAWNSTVEFFSEAWSSFIEMMHSFFDPIGEFFSSLWSGIVETASSWWSSLVETASELWGTLTQAWQETWDTILTVLDPIISAVSTVLEAGWLLIQAGAQIAWAAICQYIIQPIQEAYDWVSTQIGEMVTWLGTQWEIAKAMA				NA	NA	NA	NA	NA
AK009_08163	108			hypothetical protein	ATGACGATTGGTGATTGTTTTGATTATATCGCTGAGTATGCTGAAATGAAAAATCCAGGAAAAGAAAAAGTTCGAAAAGCAACTCAAGAAGACTTTAATGCTTTCTAA	MTIGDCFDYIAEYAEMKNPGKEKVRKATQEDFNAF				NA	NA	NA	NA	NA
AK009_08164	363			hypothetical protein	ATGGAAAAGACAATTACAATAGACGGAAAACAGGTCAAATTAAAAGCTAATGCAGCATCAGCCAAGCGATATAAGGCGCAATTTAGACGGGATTTATTTGCCGATATGTTTAAATTAGGAGCTATAGGTACATTCGCTTCGCAAGATGCAACAGAAGGTACTATTGATTTTTCTAACTTAGATTTCGACAAGGTAGATTTTGAAGTTTGTTACGATTTAGTTTGGTTATACGCTAAAACAGCTGATCCTGAAATTCCAGACCCGATGACTTGGTTAGAAGGATTTGATGAGTTTCCTATTTACGATATAATGCCGGAAATTAATGAGATGGTTCAAAAAACAATGGGAGCAAAAAAAAAGTAA	MEKTITIDGKQVKLKANAASAKRYKAQFRRDLFADMFKLGAIGTFASQDATEGTIDFSNLDFDKVDFEVCYDLVWLYAKTADPEIPDPMTWLEGFDEFPIYDIMPEINEMVQKTMGAKKK				NA	NA	NA	NA	NA
AK009_08165	588			hypothetical protein	ATGAATGAAAATAAAGTAGCATTTGGTTTAAAGAATGTCCATTATGCGCTTTTCGATATTAAAGATGGTGTAGTTACATTTAATACACCAATTCCATTACCTGGTGCGGTTGAATTAACGTTTGATCCACGAGGGGATTTAATTGAATTTTACGCTGATGACATGCTTTATTACGCTGCAAGTAATAACCAAGGGTATGATGGAACGCTTTCTATTGCGACTATTCCGGAACAATTTGCAATTGATGCATTAGGAGAGGAATTAGACGAAGAAGATGGTGTGTTAAATGAGTTAGCCGATGCGAAAGGAAAATCATTTGCATTATTATTTGAATTTGATGGTGATGTACGAGCAACTCGACACGTTATGTTTAACTGTTCTGCAAGTCGTCCAACACTTGCATCTAAAACGAAAACAAATTCAGCAGAGCCAAATACAAATGAACTTAAATTTGTATCCAGTCCTATTGATATTAATGGAAAACGTATGGTTAAAACGAAAACTACTACTAAATCAAAAACAGATATTTATAATAATTGGTACAAAAAAGTGTATACAAAAGTACCTGCATTACCAAAAGGAGCGTAA	MNENKVAFGLKNVHYALFDIKDGVVTFNTPIPLPGAVELTFDPRGDLIEFYADDMLYYAASNNQGYDGTLSIATIPEQFAIDALGEELDEEDGVLNELADAKGKSFALLFEFDGDVRATRHVMFNCSASRPTLASKTKTNSAEPNTNELKFVSSPIDINGKRMVKTKTTTKSKTDIYNNWYKKVYTKVPALPKGA				NA	NA	NA	NA	NA
AK009_08166	336			hypothetical protein	ATGACATTAACATTAGGAGAATTTATAAAAATCCTTGAAGCTACAGGTTATCCTGTGGCTTATTCGCATTTCACAGCAACACCAGGGAATCCAGTTCCAGCGCCACCGTATATCTGTTTTCTTGTGGATGGGTCAGCAAATTTAATGGCTGATAACAAGGTGTATCACAAGATAAATGATGTAAATATAGAGCTTTATACAACTAAGAAAGATTTAGTTGCGGAAGCCAAGCTAGAACAAGTCCTAGATGATCACGAGATTCCTTATGGCTCGTATGGGACTTTTATTGAATCTGAAAATATGTATCAAAAATTTTATGAAACGAGGTTGATATAA	MTLTLGEFIKILEATGYPVAYSHFTATPGNPVPAPPYICFLVDGSANLMADNKVYHKINDVNIELYTTKKDLVAEAKLEQVLDDHEIPYGSYGTFIESENMYQKFYETRLI				NA	NA	NA	NA	NA
AK009_08167	345			hypothetical protein	ATGAATGATTTTGCGGGAGAGCTCGCTAGAGAATTACAAAGATATGCAAATGTTGTAGAAGAAGAATTGATAAATGCACAAGAAGATGTAGCTGATATCGCTGTAGGTAAGTTAAGACAGAATAGTCCTAAGAAAACAGGTGGTTATCGTAAAGGTTGGCGAAAGAAAAAAGTTGATAAAGCCATTGTTATCCATAATACAAAGGGACAATTAACGCATCTTTTAGAAAATGGCCATGCGAAAACTGGTGGTGGCCGCGTACTGGAAAAAGTGCATATTCGTCCTGTTGAAGAGTATGTAATTGATGAATTGCCGAAACGTATTGAAAGGGCAATTGAATCATGA	MNDFAGELARELQRYANVVEEELINAQEDVADIAVGKLRQNSPKKTGGYRKGWRKKKVDKAIVIHNTKGQLTHLLENGHAKTGGGRVLEKVHIRPVEEYVIDELPKRIERAIES				NA	NA	NA	NA	NA
AK009_08168	351			hypothetical protein	ATGCGTCCTTTTCAGTATAAGAAACCATTGAATACGGGAGATTTTCGCAATCGAATTCGTATCGAAAAACCTGTAGTAATAAAAGATGAATTAAACCAAGTAATCGAAACATCTTGGCCAGAATTTAAAAAAGCCTGGGCGATGATAAAAACAGTGAAAGGATCTGAGTACATTGAAGCTTCCGCTTCACAAGCTACACGAGTTTATCGATTCGTAATCCCATACACTTCTGGTATTACGGAAGAAATGCGAATTAATATGAAAGGTCGTATCTTTGATATCATCGAACCGCCAATGAATGATGATGAAATGAATCAAACATTGACTATAATCGCAAAGGAGTATGTTTAA	MRPFQYKKPLNTGDFRNRIRIEKPVVIKDELNQVIETSWPEFKKAWAMIKTVKGSEYIEASASQATRVYRFVIPYTSGITEEMRINMKGRIFDIIEPPMNDDEMNQTLTIIAKEYV				NA	NA	NA	NA	NA
AK009_08169	297			hypothetical protein	ATGAGAAACGCAACGATTTCAGATGAAATATTGCAAGAGTTCAAAGAAAGGATGCACTTAGGAGATGAGGAAGACGATAACCTAAAGCGTATCCTTTCAACGTCCAATAAGGCTTTATTAAGAGTTTGTGGCGATTATGGTTTAAATAATAACGAGGAGTTCAAGGAATTAGTCTTTGAACGCTCTCGTTATGCCTATAACGATGCCTTAGAGTATTTTGACAAGAATTTTTTAAGTCAGATTAATAGTTTAGGTGTTGATAAAGCGTTAGAAGAAATTAAATTGGATGGTGATTAA	MRNATISDEILQEFKERMHLGDEEDDNLKRILSTSNKALLRVCGDYGLNNNEEFKELVFERSRYAYNDALEYFDKNFLSQINSLGVDKALEEIKLDGD				NA	NA	NA	NA	NA
AK009_08170	1164			hypothetical protein	ATGACGATTAAATTTAATAAATCTGAAGCATTTAATAAAGCAAAAGCAAAATTGACGGACACTTTAACTAACGCGGAAAGTACAGAACAAGAACAAACGTCAGCGTTTGAAGGTTTCTTTGATGCACTACAAACAGATGTAGCAAATACGGTCCGTGAACAAGTAAATAACGATATGCTTGATCGTTCAATTTTACAGCAACGTGGTCAAAATGTTTTAACTTCAGCAGAAACAAAATTCTTCAATGCAGTTGTTAAAGAAGGTGGATTTACAGATGGCTCAATCCTTCCTGTAACGACTCAAGAGCGTGTGTTTGAAGATTTAGTTACAGAACATCCCTTATTAGCTGAAATTGGTTTGCAAGATTTAGGAGCAGTTACGAAGTTTATTTACTCTGATGCAACGAAGGCGTATGTATGGGGCGAATTATTCGGGGAAATCCGTGGGCAAATTGATGCTATCTTCAAACAAGAAAAAATTGGCCAACTTAAATTAACTGCATTTGCAGCAATTCCAAATGATATGAAGGAACTTGGCCCGGAATGGATTGAACGTTATGTTCGAACTGTTTTAGTAGAAACATATTCAGTCGGTCTAGAATTTGGCTTTATTAATGGTGGCGGATCTGTAGCACATCAACCAGTTGGTTTAATGAAAGATGTAAATCCAGAAACAGGCGCTGTTACTGATAAAAAATCTTCTGGTAAACTAACATTTGCTCCGTCTGATAAAGGGGTAATTGTAGCAGGCGAACTTTATGAAGTAGTAAAAGCTTTATCTGTTGATGCAAAAGGGAAATCCAGAAAAGTATTAAATAAAATTGTAATGGTAGTTAACCCGATTGATGCGATTGGCGTACAAGCACGTAATACAATCCAGACCGCAACAGGTCAATGGGTAATGGCATTGCCTTATAACATTAAACCTGTCGAGTGTGAGGAAGTTCCTGTTGGTAAAGCATTATTCTTTGTAAAAGGACAATATATTGCTGCAATCGCAGGTGGATACAAGCTAAAAGAATTTGATCAAACATTAGCTTTCGAAGATGCTACTCTTTATACAATTAAACAATTTGCTAATGGGAAACCAAAAGATAATAAAGCGGCTCTTGTTTACGATTTAGCAATTTCATTTACACCACCTGCAGAAACAAAATCTAAATAA	MTIKFNKSEAFNKAKAKLTDTLTNAESTEQEQTSAFEGFFDALQTDVANTVREQVNNDMLDRSILQQRGQNVLTSAETKFFNAVVKEGGFTDGSILPVTTQERVFEDLVTEHPLLAEIGLQDLGAVTKFIYSDATKAYVWGELFGEIRGQIDAIFKQEKIGQLKLTAFAAIPNDMKELGPEWIERYVRTVLVETYSVGLEFGFINGGGSVAHQPVGLMKDVNPETGAVTDKKSSGKLTFAPSDKGVIVAGELYEVVKALSVDAKGKSRKVLNKIVMVVNPIDAIGVQARNTIQTATGQWVMALPYNIKPVECEEVPVGKALFFVKGQYIAAIAGGYKLKEFDQTLAFEDATLYTIKQFANGKPKDNKAALVYDLAISFTPPAETKSK				NA	NA	NA	NA	NA
AK009_08171	774	clpP_4		ATP-dependent Clp protease proteolytic subunit	ATGACGGTGAAAATTGACGTTAAAGGACCAATAATTTCAAATGATGAAGCTTGGATTTATGATTGGTTTGAAATGGATGCTACAAGCCCAGGTAAAATTTCAAAAGAACTAACTAATGCCAATGGTGATGATTTAATTGTATCGATTAACAGTCCTGGTGGTTATGTACACGAAGGGTCAGAAATTTATACAGCATTAAAAAATTATCCTGGTAATGTGGAAGTTCAAATTGTTGGTTTGGCTGCAAGTGCGGCTTCTGTTATTGCGATGGCTGGTGATAAAGTCCAAATTTCACCTACAGCACAAATTATGATTCATAATGCTTCAATGTGGAATGGTGGAGATCATCGTGACATGGAAAAGGCAGCTGAAATGTTGAAAACAACAGATAGAGCAATTGTAAATGCTTATGTCATTAAAAGCGGTAAATCAGAAAAGGAACTACTTAATATGATGGCTGAAGAGACTTGGATGGGTCCGCAACAAGCATTAGAAAATAATTTTGTGGATGAAATTATGTTTATGGATAATCAGGTTAAAATGACAGCTTCAACTGCTACTGCCACCATGCTTCCGCAGAAAGTAATCGATGGCTTTAGAAATGGAACAATGAACAAAGGCCAAGGGATTACAAAAGAAGATTTAAATGCAGCATTATCAGGATTAAAAAATGAAATCCTGAATGATTTACAAAACAATATAGAAGAACCAAAGGAGCCGCATCCTAAACCTGTAAAAAACAGTGGGATTAAAGGGCTCCTTTTAAAATTATAA	MTVKIDVKGPIISNDEAWIYDWFEMDATSPGKISKELTNANGDDLIVSINSPGGYVHEGSEIYTALKNYPGNVEVQIVGLAASAASVIAMAGDKVQISPTAQIMIHNASMWNGGDHRDMEKAAEMLKTTDRAIVNAYVIKSGKSEKELLNMMAEETWMGPQQALENNFVDEIMFMDNQVKMTASTATATMLPQKVIDGFRNGTMNKGQGITKEDLNAALSGLKNEILNDLQNNIEEPKEPHPKPVKNSGIKGLLLKL	PGPT0014595_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK009_08172	1164			hypothetical protein	GTGATAATCATTGGATGGTTGGACGCAGTATTTAAAAGAAATAGTGAAGTAGGATTTATGTTTGATGTGGAAATGTTTATCGAAAAGGCAAATAGAGTCCATATGAAGCGACTAGCGATTGATACATGTATTTCTTTTTTAGGAAGAACAATAAGTCAGTCGGAATTCAGAGTGAAAAACGGTGAAGAATTTGAAAAGGATGAGCTTTATTACCGATTAAATGTTAGACCAAATAAGAATATGACAGCAAGTACCTTTTGGGAGAGTTTCATTTATAAACTTATTTATGATAATGAAGCTTTGATTGTCCAAGCGGATGATGGTGATCTACTTATTGCTGATGACTTTGAACATAACGAATATGCTGTGTTTGAAGATACTTTTACAAATGTCACTGTAAAAGATTATCAGTTTAAGAGAAGTTTTAAACAAAGTGAAGTCATTCATTTAAGATACAGGAATGATAAGTTATCACCTCTTATCGATGGTTTGTTTACTGATTATGGTGATTTATTCGGTAGAATATTAAGTTCTCAAAAACGTAAGAATCAAATTCGTGGAACAGTTGATATGGACATGCTCGCTGCAAAGAGCAAAGAACACCAATCAAAACTGCAAGAGTTCATTGATAACATGTACAAAGCGATTGGAGAAAAAGATGTCGCTATCATTCCACAACAACCAGGTTTTAAGTATGCTGAAACGTCAGGTGGAGCAAATTCTGGGCAGAGTGTGGAGGAAATTAATAAAGTAACAAATGGCTTCTTAAATCAAGTAGCAATGGCTTTTGGTATTCCAACTGCTTTGATATATGGCGAAATGGCTGACGTTGAGAAGCAAACGAAAAATTATATGCTTTTCACAGTGAAACCTTTATTAAAAAAGATTTCTGATGAAGCAAACGTTAAATTTTTTGAAGAAGAAGAGTATCTTTCAGGTCAAAAAATTGAAGTTAAAGCTGTTTCTTATCAAAGTATATTTGATCTTGCAACAAGCATCGATAAACTCATTTCTTCAAGTGCATTTACAGGGAATGAGATTCGATTAGAAGTAGGATATGAAGTTTCTGATGATCCTAACTTAAATACACATCATATTACGAAAAACTATACGAAACTAACTGATTCTGAAGGAGGTGAGAATACAAATGACGGTGAAAATTGA	MIIIGWLDAVFKRNSEVGFMFDVEMFIEKANRVHMKRLAIDTCISFLGRTISQSEFRVKNGEEFEKDELYYRLNVRPNKNMTASTFWESFIYKLIYDNEALIVQADDGDLLIADDFEHNEYAVFEDTFTNVTVKDYQFKRSFKQSEVIHLRYRNDKLSPLIDGLFTDYGDLFGRILSSQKRKNQIRGTVDMDMLAAKSKEHQSKLQEFIDNMYKAIGEKDVAIIPQQPGFKYAETSGGANSGQSVEEINKVTNGFLNQVAMAFGIPTALIYGEMADVEKQTKNYMLFTVKPLLKKISDEANVKFFEEEEYLSGQKIEVKAVSYQSIFDLATSIDKLISSSAFTGNEIRLEVGYEVSDDPNLNTHHITKNYTKLTDSEGGENTNDGEN				NA	NA	NA	NA	NA
AK009_08173	1656			hypothetical protein	ATGATTGTTCATAAGTGTGTAAGTGAATATATAGAACTATATGAAATAGGAACAGTGGTATTAAATAAAGAACGTATCATGCTTATAAATTATTTAAAGCAAGATATATTAACCCGTAATGATTTACATTTTGATGTGGATTTAATTCATAAATGTGTAACTTTCATAGAAAAGTGGCATTTCAAATTAAATTCCTTTCAGAAATTTTTAATAGCATTTGTGTTTTTGTTTGATGAATATGAGGATGTTTATTTTGATCAACACTTCTGGATGATGGCAAGGGGTGCTGGTAAAAACGGATTGATTAGTGCATTGACACACTTCTTTATTAGCGAGTTGCACGGTATTGAGCATTACAACGTATCAGTAGTTGCTAATACAGAAAGACAGGCTAAAACTTCTTTTATAGATGTTTATGAAAAGAATAAAAAACATGAAATATTAGACGAGTTATTTGTATCAACAAAACAATTGATAACAAATAAAGCTACTCGTTCGACTTTTGAATTTCATACGTCTAATGCAGGGAGTAAAGACTCGTTAAGGGACGGGTGTGTTATTTACGATGAGATACATAGATATGAAAATAGCGATGTTGTAGAAGTGTTCTCTAGCGGTTTAGGTAAAGTTCCTAACTCTAGGGAATTTTTTATTACCACAGATGGATTTGTTCGTGAGGGGTATCTTGACAAAATGAAAGAGCGAGCTATGAATATCCTGAAAGGGAAAGAAAAAGAAGATAGATTGTTTCCTTTTATTTGTAAGCTTGATAACGCTGAAGAAGTAGATAATCCTGATATGTGGGAAAAAGCAAATCCGATGTTTAGTAAGCCAATGAGTCAATACGCTAGAGGATTGTTTAAGAAAGTTATGCGTCAGTATAAAAATCTAGAAAACGATCCGTCTAATAGAGAAAATTTCATGACTAAGAGGATGAATATACCGGAAGTAGATTTAACAAAGTCTGTAGCTTCATGGGAAGAAATCATGCGTACTGGTTTTGAAGAAGATGGAGAAACACTGAGAGAAGTTCCGGATTTAAAGCACAAAGTAGCTGTAGGCGGTCTCGACTTCGCCAGCATCAAAGACTTCGCAGCAGTCGGCTTGCTATTTAAACATGGTGAAGATTATATATGGAAAGGCCATTCATTTGTACGTAAAGGATTCTTGGACAAGGTGAAATTAAAAGCGCCTATTTATGAATGGGCTGAAAATGGCTTACTAACTATTGTGGATGAGCCGGTTATTAATATCTCTCATATTGTGGATTGGTTTGTAAAAATGCGTGAGATATACGGATTTAACACAATAGTAGCTGATACATTCCGTCTTGATCTTGTTAAAACAGCACTTGAAGCTGAAGGCTTCATATTGTTATACATTCGTAACCCAAAAGCTATTCATTCTTTATTAGCGCCAAGGGTAGAAACGTTATTTGCAAACAATCGTATTATTTTTGGTGATAATCCATTAATGCGTTGGTACACCAATAACGTCTACGTCCACATCAAAAAAGACGGCAACAAAGAATATTTGAAGAAAGATGAATTTAAGAGAAAAACAGATGGATTCCAAGCCTTTATCCATGCATTATGGCAAGCGGATAACATTCTTGTGGATGAATTCGACTTTATGTTAGACGGTATTAAATTCTAA	MIVHKCVSEYIELYEIGTVVLNKERIMLINYLKQDILTRNDLHFDVDLIHKCVTFIEKWHFKLNSFQKFLIAFVFLFDEYEDVYFDQHFWMMARGAGKNGLISALTHFFISELHGIEHYNVSVVANTERQAKTSFIDVYEKNKKHEILDELFVSTKQLITNKATRSTFEFHTSNAGSKDSLRDGCVIYDEIHRYENSDVVEVFSSGLGKVPNSREFFITTDGFVREGYLDKMKERAMNILKGKEKEDRLFPFICKLDNAEEVDNPDMWEKANPMFSKPMSQYARGLFKKVMRQYKNLENDPSNRENFMTKRMNIPEVDLTKSVASWEEIMRTGFEEDGETLREVPDLKHKVAVGGLDFASIKDFAAVGLLFKHGEDYIWKGHSFVRKGFLDKVKLKAPIYEWAENGLLTIVDEPVINISHIVDWFVKMREIYGFNTIVADTFRLDLVKTALEAEGFILLYIRNPKAIHSLLAPRVETLFANNRIIFGDNPLMRWYTNNVYVHIKKDGNKEYLKKDEFKRKTDGFQAFIHALWQADNILVDEFDFMLDGIKF				NA	NA	NA	NA	NA
AK009_08174	357			hypothetical protein	ATGGCGGATATTGATGAGCGTGAGGTGCTAGTTAACAAAGAAAAAAATCGTTTGAAAAGATTATTTAAAGACATCCCACCTAGTAAGTTAAAAGTGGTTGAAGGATTAATTATTCAGGCAGCAAGATTACGAGTTTTATTAAATGAGATGTGGATGGATATATCTGAGAATGGTGACTATGAAATGTTCTCACAATCTGATAAAACAGAGCCGTATGAAAGAGAACGACCTGTTGCCCGGTTATATAATACCCGTGATCAATCATATCAAAGGGTCATTAAACAACTAACGGATTTGTTGCCAGAAGGAAATAATAAAAAAGAAATTAAGAAATATTCGGCAAGTGATTTAATATGA	MADIDEREVLVNKEKNRLKRLFKDIPPSKLKVVEGLIIQAARLRVLLNEMWMDISENGDYEMFSQSDKTEPYERERPVARLYNTRDQSYQRVIKQLTDLLPEGNNKKEIKKYSASDLI				NA	NA	NA	NA	NA
AK009_08175	336			hypothetical protein	ATGAGAGAATACAAAACCAAACAACAGAAGCGTAAGTTCTATGACAGTGGTGAGTGGAAGAGTATACGCGAACAAGTAAAGAAGCGTGACAACTATGAGTGTCAAGAGTGTAAGCGCAAAGGTCGTGTTCGTATTGATACCAATGAGTACAGTGAGAGTGCCAAGCGTAAGAAGATACAACTCGTTGTCCATCATATAAAAGAACTTGAACATCATCCAGAGCTTGCATTAGAAATAGAAAATCTTGAAACAGTCTGTGTGGATTGCCATAATAAAGAACACGGAAGAACATTCAAAAAGAAACAGAACAAATGGGAACATGATGAAAAATGGTGA	MREYKTKQQKRKFYDSGEWKSIREQVKKRDNYECQECKRKGRVRIDTNEYSESAKRKKIQLVVHHIKELEHHPELALEIENLETVCVDCHNKEHGRTFKKKQNKWEHDEKW	PGPT0027235_1748	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
AK009_08176	273			hypothetical protein	GTGAAATATACGAAATTAACTAAGCTTGAGAAAGCAATTGCTATTGGTACAATTCTTTCTGCTGTAACTGAAGAAGAACTTAAAGAGTATGTTGTTTTAGAAAAGTTACAGTCATTTATTAAACAGGGTGATGTATTATCTGGGAACACAACACCAAACGAAAAGAAAGAAGCTGATATAAGTTTAATCAATAAGCTAATTGACTCATTCTTAGAAGAAAGCAAATCGGTGGAGAGCGATGAGAGAATACAAAACCAAACAACAGAAGCGTAA	MKYTKLTKLEKAIAIGTILSAVTEEELKEYVVLEKLQSFIKQGDVLSGNTTPNEKKEADISLINKLIDSFLEESKSVESDERIQNQTTEA				NA	NA	NA	NA	NA
AK009_08177	222			hypothetical protein	ATGAAACTAACAAAACAAGAACAAACAGTTATTATCGGTAAGTTAATCAACAACATTCTCGGAGTGGAATTGGTGAAGGAACACATTGATCCACAGAAACTTGAGAAGGCTGTTGCTATGCATAATATAATGAATGATGATATGACACCAAGGGAAACAAGAGAAGCGCTTATTAGTGTGTTAGGTAGAGCGATAGATGAATTCCTTGAGAATAAGGAGTGA	MKLTKQEQTVIIGKLINNILGVELVKEHIDPQKLEKAVAMHNIMNDDMTPRETREALISVLGRAIDEFLENKE				NA	NA	NA	NA	NA
AK009_08178	441			hypothetical protein	ATGAATACCTATTTAAATAGTTACAATTTGCTCTACAGACAAAACGAAAAATTAATTAGTGATATTGAAAAGGCAATTAATGGTGAGTATAGCGCTATTAATTGTTATGCTAAACTTGCTAATTTAGCCACACACGATAATGAACGTAATCAGATCCTGGAAATCCGAAAAGATGAAATAAAGCATTTTCAACAATTCGTACAGATTTATGTCAGTTTAACTGGCCGTCAACCGCAACCAAAAATAACTGAAAATTGTCCAGATATTTACTTAAAAGGATTGGAATTCGCACTTCAAGATGAGCAACATACTGTTGATTTTTACTTAGAAATCTCAGATGATACAACTGATCAATACATTAAAGAAATATTTCGTAGAGCAGCAGCAGATGAACAAAACCATGCTGTTTGGTTCCTATATTATTTTTTAAAGAGCAAGTAG	MNTYLNSYNLLYRQNEKLISDIEKAINGEYSAINCYAKLANLATHDNERNQILEIRKDEIKHFQQFVQIYVSLTGRQPQPKITENCPDIYLKGLEFALQDEQHTVDFYLEISDDTTDQYIKEIFRRAAADEQNHAVWFLYYFLKSK				NA	NA	NA	NA	NA
AK009_08179	201	cspLA_2	COG1278	Cold shock-like protein CspLA	ATGGAACAAGGTAAAGTAAAATGGTTTAATGCAGACAAAGGTTTTGGATTCATCGAGCGTGAAGGTGGAGAAGACGTATTCGTACATTTCTCAGCTATCCAAATCGACGGTTACAAATCTTTAGACGAAGGACAAAGTGTAACGTTTGAAGTAGAACAAGGACAACGTGGCCTACAAGCTACTAATGTTCAAAAAGCTTAA	MEQGKVKWFNADKGFGFIEREGGEDVFVHFSAIQIDGYKSLDEGQSVTFEVEQGQRGLQATNVQKA	PGPT0014675_9099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_08180	543	xerC_11		Tyrosine recombinase XerC	ATGAATTTTGTTCAACCAATACGTGATCCAGAGCAAATACAGCATTTAAAAGAGTATTTTAAGGAAAAGAGCTTACGTAATTACATTCTCTTCATTATGGGTATTAATACAGGTCTCAGAATCTCAGATATTTTGAAATTGAAAGTAGGGGATGTTAAAGGCAGTCATATATCTATGCGGGAAAAGAAAACAGGGAAACAGAAACGAATACAAATTACTGCAGCACTGAAAAGAGAACTAAAATGGTTTATTATAGAGAGAGAAGACAATGAGTATTTATTGCAAAGCAGACAAGGTAAGAATCGTCCAATTGGTCGTAGCATGGCATATAAGATATTAAGCGGGGCAGCGGCAGAGTTTGGGTTAGATGAAATAGGAACACATACGTTAAGAAAAACATACGGGTATCACATGTACATGCAAACGAAAAACATAGCATTACTCATGGAGATATTCAATCACTCGTCAGAGAAGGTCACGTTACGTTATATAGGTGTAAACCAAGATGCAATGGATAAAGCAATGACTAGGTTTAAAATCTAA	MNFVQPIRDPEQIQHLKEYFKEKSLRNYILFIMGINTGLRISDILKLKVGDVKGSHISMREKKTGKQKRIQITAALKRELKWFIIEREDNEYLLQSRQGKNRPIGRSMAYKILSGAAAEFGLDEIGTHTLRKTYGYHMYMQTKNIALLMEIFNHSSEKVTLRYIGVNQDAMDKAMTRFKI				NA	NA	NA	NA	NA
AK009_08181	465			hypothetical protein	ATGACGCAATTAACTTTCTTACCTAAAATTGATCGCAAAGCAACTCAGGTTCGTTTAGAAGAGATTCTTGAAAATGTTCGTATTTATAGACAATTTGGGATGATTAGACATGAGATGAAGGTTACAGCATCTAGCGAGGTAAGATATCACGGTCCAAGAAATATAGTAGGGAAGCCAGCTGAAGATATTGCTTTAGCAAATGTTGCTATGAGTGAAAGAGAAGTGAAATTACAACGTTTGTCTTTTCAAGTTGATAAGGCGTTAAATCGTTTTAGTAAAAACCAAAGGGATATTATTGTAAAAAGATATTTAGAAGATGAAGAAGTCTTTGATTATATGGTTTATAACGAAATTGGTATGAGTGAGCGTACATATAGACGAAATAAATCTAATGCTTTTTATAAATTAGCTTTTGCTCTCAGATTAGAAGTATATGAGGCAGAAGAAACTGGAGGTAATGAATAA	MTQLTFLPKIDRKATQVRLEEILENVRIYRQFGMIRHEMKVTASSEVRYHGPRNIVGKPAEDIALANVAMSEREVKLQRLSFQVDKALNRFSKNQRDIIVKRYLEDEEVFDYMVYNEIGMSERTYRRNKSNAFYKLAFALRLEVYEAEETGGNE				NA	NA	NA	NA	NA
AK009_08182	165			hypothetical protein	ATGACTGAAACAATCCGAATTGCTCTTTTCATTCTTGTAGGAATCAGTGCTTTATTCTCTGTAATTAAAGAATTTCAAAAACCAGAAAAAAGAAAATTTTGGATTACATTTGAAACTTTAGTTCTAATCGGGGCAGCCTGGATGTTAATAGGACTTCTCATGTAA	MTETIRIALFILVGISALFSVIKEFQKPEKRKFWITFETLVLIGAAWMLIGLLM				NA	NA	NA	NA	NA
AK009_08183	1317			hypothetical protein	ATGAGTAAATTTAAAAAGAATTGTCACATACCCTTTCCATGTGCCTTTCCTTTACCTCAAATCGGGTCTACTGGATTAACCGGTGCTACTGGACCTTCGGGACCTACTGGAGCTACCGGACCTTCAGGTGGACCTCGGGGACCTACCGGGCCTACTGGAATTCAAGGTAGCCTGGGACCTACTGGGCCTCAAGGTATTTCTGGACCTCAAGGGATTCCTGGGATTTCTGGATCTATTGGTCCAACTGGACCTTCTGGAATTCAAGGTATCCAAGGTATCCAAGGCATTCCTGGCATTCAAGGTCCTATTGGACCCACTGGAATAACAGGGGTCACTGGAATTCAAGGGATTCCTGGCATTCAAGGGATTCCTGGCATTCAAGGGATTCAAGGGATTCCTGGTCCGACCGGCCCTCAAGGGATTCCTGGCATTCCTGGTTCTGTAGGTCCAACTGGACCTTCTGGAGCTGTTGGACCTACCGGCCCTTCCGGGGGACCGCCAGGACCAACGGGCCCGACTGGACCTTCTGGGGGACCGCCAGGACCAACCGGAGTGACTGGCCCCACTGGACCTTCTGGGTCACCAGGACCAACCGGACTTCAAGGTATCCAAGGTATCCAAGGCATTCCTGGCCCCACTGGACCTCAAGGAAGTCAAGGGATTCAGGGGATTCAAGGTAATCCGGGGCCTATTGGTCCTATTGGACCCACTGGAATAACTGGGGCGACTGGAATTCAGGGTATCCAAGGTATTCAAGGTAATCCGGGACTTATTGGACCTATCGGCCCGACTGGCCCAACTGGGCTTCAAGGTATCCAAGGCATCCAAGGCATTCCTGGGCCTACTGGATTACCAGGAACCGCTGGAGCTACCGGACCTACTGGGCCTACCGGTCTTACAGTATCTGGGTTATCTCATTATGCTTATGTTTTCAATACAGCAGCTCAAGTTGTTGCCTTAGAAGCACCTATTCTTTTTAATTCACATGGTAGAATGACATCTGGTTTTACTCATACACTGGGAACTTCTCAATTAATGGTTCTTAATGCAGGAGATTATAAAATTTCTTTTTCTGTATCAGGAGTTGAGCCTAATCAATTCACACTTTTTTTAAATGGTGCTCCGGTTACCAGCGCAGTTTATGGATCAGGTGCAGGAACTCAACCAAACAACGGCCAAACAATCCTCGCTTTAGCTGCAGGTGATATTATTACCCTTAATAATCATACTTCCGCTGCTGCAGTTACTTTGCAAACTTTAGCAGGTGGAACACAAACAAATATAAATGCTTCGATTGTAATTGAAAAGTTAAATTAA	MSKFKKNCHIPFPCAFPLPQIGSTGLTGATGPSGPTGATGPSGGPRGPTGPTGIQGSLGPTGPQGISGPQGIPGISGSIGPTGPSGIQGIQGIQGIPGIQGPIGPTGITGVTGIQGIPGIQGIPGIQGIQGIPGPTGPQGIPGIPGSVGPTGPSGAVGPTGPSGGPPGPTGPTGPSGGPPGPTGVTGPTGPSGSPGPTGLQGIQGIQGIPGPTGPQGSQGIQGIQGNPGPIGPIGPTGITGATGIQGIQGIQGNPGLIGPIGPTGPTGLQGIQGIQGIPGPTGLPGTAGATGPTGPTGLTVSGLSHYAYVFNTAAQVVALEAPILFNSHGRMTSGFTHTLGTSQLMVLNAGDYKISFSVSGVEPNQFTLFLNGAPVTSAVYGSGAGTQPNNGQTILALAAGDIITLNNHTSAAAVTLQTLAGGTQTNINASIVIEKLN				NA	NA	NA	NA	NA
AK009_08184	183			hypothetical protein	GTGACTGTGAGCCGAAAAATAGAAACATTGTTAAATAGAGCCAGCCTTTGGGAGACAAGATCAAAGCAAGCATCTTTAAAGGGAGACTATGATAGGGCTGGAAAACTCCGAACAAAAGCCCTGCAATTAACGCAGGAAGCTCGCAGGGTTGAAGAAACGAGAAAAGTTGATAAAAGAACTTAA	MTVSRKIETLLNRASLWETRSKQASLKGDYDRAGKLRTKALQLTQEARRVEETRKVDKRT				NA	NA	NA	NA	NA
AK009_08185	192			hypothetical protein	GTGGGAATTAGAAAAGAAAATCTTGTTGAAATGACAGCTGAAATAGATTTGAAAACAAATGGAATATATATTGTTAAAAATGGTCAGGTGCAACTAATAGAACCACCTCAAGGTGGATTTGGTGAACAATCATTTATATATCAAAGCGGAAAAGTAATTCGTATGGAAGAACGAAAAACACAGTTGATTTAA	MGIRKENLVEMTAEIDLKTNGIYIVKNGQVQLIEPPQGGFGEQSFIYQSGKVIRMEERKTQLI				NA	NA	NA	NA	NA
AK009_08186	363			hypothetical protein	ATGCCAAAGCAATTAACAATTTTTGACGTGGAGCCAGTTGTATCATTTGATCCTAAGAAAGCTCGTATTCAACGTTTAAATTCAAAATTAAGGTATGCAGATGTGGTTGTGCAAATACCACGTCAAGCCAAAGCAATTGATGAATTAAAACCGACAACAGCGCCTGATGAGCGGTATGAGTTGTTTGAAGATTACGTAATAGGGATTTGGCGTTACAAAAGAGCGGAGGATAAACAATTTGTATGGGAAGAGGCTGAAAAAATGTGTAAGCAAGCAAGGGATGAAAAAAAGCCGATTCCAATACGGCTCCATTTGTCACTTCAACAATCATTTGTTCCAGAAAATGTTGTGCGATATCTATAG	MPKQLTIFDVEPVVSFDPKKARIQRLNSKLRYADVVVQIPRQAKAIDELKPTTAPDERYELFEDYVIGIWRYKRAEDKQFVWEEAEKMCKQARDEKKPIPIRLHLSLQQSFVPENVVRYL				NA	NA	NA	NA	NA
AK009_08187	189			hypothetical protein	ATGTTGTTACGTCAGGAAGTAGAACGTAGAAAATTAATAATCATTCGTAAATTATTGGGATTAGGTTTAGCTGAAATTAACGGACAAACATTAGATCAACTAACATTAACGCAGCTTGAAGGAATTTTAATTGCAAGCTTGCAGGTATTGGAGGGGAAAAACAATGCCAAAGCAATTAACAATTTTTGA	MLLRQEVERRKLIIIRKLLGLGLAEINGQTLDQLTLTQLEGILIASLQVLEGKNNAKAINNF				NA	NA	NA	NA	NA
AK009_08188	1323	dnaC_3	COG0305	Replicative DNA helicase	ATGAGTAACGATATGATTCGTAATGTGGAAGCTGAACAAAGTGTTTTAGGTAGCATAATCCAAGAAGGCGATTTAATTAAAGATTGTCAGCTAAAGGTAAAACAGTTTTCTTTACCAACGCACCAAGTGATTTTCAGGGCAATGAGAGAATTAGAGGATGCTGAGGTTCCCATAGATCTTGTTGCTCTCATTGGAAAATTCGATGAAAGCTTTATGTATCAAATTGGTGGAATCGAATTCTTTGTAAACCTGACAGAAGTTGTAACAACAACTAAGAACTTCTCGTATCACGAAGGTTTAGTGATTGAAGCTTGGAAAATGCGACATGCTCAAGAGGTTGCTGGTAATTTATATAACCGCCTTCAGCAAGATAGGGATATGAGTGCTATTAGTACATCAATTGATGAATTAAGCGCCATTGAAGAAACGGGTTACTCAGATGAATTTAACTTGAAAGATACGCTTGTTGATTTGTATAAGAACATGCAAATTGATGTAGGAGATTTAACCGGTATTCCAACTGGTTATGACGACTTGAATAGAATGACTGCAGGGTTACAAGAAGGTGATTTAATTATTGTTGGGGCCCGACCTTCAATGGGGAAAACAGCATTTGTATTAAACGTTGCTTTTCATGCAGCAAGTGCTCATACAGCAACAGGAATCTTCTCGCTCGAGATGGGGGAGGAACAGCTACTTAAGAGGATGATTTCAAGTACTGGAAATATTGATGCTACAAAATTAAAGAATCCTAAGAAGCTATGTAATTTAAAGGATTGGGAAAAAATTAGTCAAGCGATGGGATTAATTAATGATTTGCCATTAGAAATTTACGATAAAGCAAATGTAACGATGCAAGAGATTTATGCAAAGGCTAGGAAATTAAAGCGTAAGTACCCTGATAAAAAGGTTTTAATTGCAATTGATTATTTGCAGCTTATTGTAGGGGATCCAAAGCATAGAGGGAACCGCATGCAAGAAATAGGTGAGATTAGTCGTAAGTTAAAACTGATGGCAAGAGAATTAAATGTATGTGTAGTTGCATTATCACAGTTAAGTCGTGCTGTAGAAAGTAGGCAAGATAAGAGACCATTGCTATCAGATTTACGTGAGAATGGTCAAATTGAGCAGGATGCGGATTTAATCGCATTCTTATACCGTGAAGATTACTATGACCGCGAGACAGAAAATAAAAACATAACGGAAATTATTTTAGCGAAACAGAGGAACGGTCCAGTTGGTGTCGTTGAACTAGCATTTATTAAAGAATTTAGTAAGTTTGTAAATTTAGATAGAAAGTTCAACCACCAACAGGAGGCCTAA	MSNDMIRNVEAEQSVLGSIIQEGDLIKDCQLKVKQFSLPTHQVIFRAMRELEDAEVPIDLVALIGKFDESFMYQIGGIEFFVNLTEVVTTTKNFSYHEGLVIEAWKMRHAQEVAGNLYNRLQQDRDMSAISTSIDELSAIEETGYSDEFNLKDTLVDLYKNMQIDVGDLTGIPTGYDDLNRMTAGLQEGDLIIVGARPSMGKTAFVLNVAFHAASAHTATGIFSLEMGEEQLLKRMISSTGNIDATKLKNPKKLCNLKDWEKISQAMGLINDLPLEIYDKANVTMQEIYAKARKLKRKYPDKKVLIAIDYLQLIVGDPKHRGNRMQEIGEISRKLKLMARELNVCVVALSQLSRAVESRQDKRPLLSDLRENGQIEQDADLIAFLYREDYYDRETENKNITEIILAKQRNGPVGVVELAFIKEFSKFVNLDRKFNHQQEA				NA	NA	NA	NA	NA
AK009_08189	951			hypothetical protein	ATGGCAGTTTATAGACCAGTACATGTTTCATTTTGGCAGGATTCATTTGTTTTAGATCTTACACCGGAGGAGAAGTATTTCTACTTATATTTGATGACAAACAGTAAGACGTCTCAATCAGGAATTTATGAGCTTCCACTTCGTATCATTGAAACTGATACAGGATATAACCGTGAAACTGTTATGAAGCTATTAGAACGTTTTGCTGAGTACGGAAAAATTAATTACAACCAAAAAACAAAAGAGCTGTTCTTAATCAACTGGTTAAAATTCAATCCAATTAAAAATGTAAACATTGAAAAGTGTGTCTTAAAAGAGATTCAATCTGTGAAGGACCAGGATTTTTTAGTTGATTTCTATGAAACTTGCTTGCAATTAGAACGAGAACAAGATTTTAAAATTCCTCGTATTAAGGAGTATTTATCAGTCCGTTTGGAGGGGCTTATAAGGGGCTTCCAAGACCCTAGCAAGGAAGAAGAAAAAGAAAAAGAAGAAGAAAAAGAACAACAACAAGAAGAACGCGCAGGCGCGGAAGAAGTTGTTGAGGTTAATCCAATTTCTTTTTACGAGCAAAACTTCGGATTCATTACACCTTTTATCGCAGATGGTATTTATGCTTGGATAGATGATTTAAATGCAGAGCTAGTTATTAAGGCTATGGAGATTGCTTTAGAGAAGAATACGCGAAACATGTCTTACGTAAATACGATTTTAAGAGATTGGCATCTTAAAGGTTTTAAAACAGTAACTGATGTTGAGGCAGCTGATAAAGCATTCCGTGCTCAACGATTAACAAAATCGCAGCAACAAACAAAAGCACCTGATCAACAAAAAGGTCTATCGGAATCTACTAAAAACGTAATACAGCAGCAACAAGCCTGGGAGCAGAACATTCCAACAGAAGAAGAACTTGCAGTACTTAACCAACAGAATGCGTGGTTGGCCAAATGA	MAVYRPVHVSFWQDSFVLDLTPEEKYFYLYLMTNSKTSQSGIYELPLRIIETDTGYNRETVMKLLERFAEYGKINYNQKTKELFLINWLKFNPIKNVNIEKCVLKEIQSVKDQDFLVDFYETCLQLEREQDFKIPRIKEYLSVRLEGLIRGFQDPSKEEEKEKEEEKEQQQEERAGAEEVVEVNPISFYEQNFGFITPFIADGIYAWIDDLNAELVIKAMEIALEKNTRNMSYVNTILRDWHLKGFKTVTDVEAADKAFRAQRLTKSQQQTKAPDQQKGLSESTKNVIQQQQAWEQNIPTEEELAVLNQQNAWLAK				NA	NA	NA	NA	NA
AK009_08190	177			hypothetical protein	ATGCTTTTAGACAAATCGTTACATAGAGTGTTGCTGAACCCTAAAGTGTTTCAACAAGCAACATCAGAGCAACACCTAATTTACTTAGTAAAACAATATCTCAAAATAGGATACAAGAATTATCGCTTATTACGTGTAGAGGACGGATTCGCGATATGTAAACGGGAGGATGAATAA	MLLDKSLHRVLLNPKVFQQATSEQHLIYLVKQYLKIGYKNYRLLRVEDGFAICKREDE				NA	NA	NA	NA	NA
AK009_08191	285			hypothetical protein	ATGAACGATAAAAACAATCGTCTTCATGATCTAGTTCTTCCAGGGGATTTTTCATTTGCGAATAAACTTCGTAACTGTATGAGTGAATGTATTCATAACATGTTTAATGCAGAATCAACCGAAGAATCAAATCACTGGGAAGAAGAGCTGGAGCGATGTATAAGGGAATTTAAAATGCTTCGTGATACAAAAGAGGAACATGAGGCATCGATAAGTTATCGTGTAGTGATTAAAGATTTAAGAGCAAGAGGAGTTAACGCTTCGTTAGTAACACGTAGAAAATAA	MNDKNNRLHDLVLPGDFSFANKLRNCMSECIHNMFNAESTEESNHWEEELERCIREFKMLRDTKEEHEASISYRVVIKDLRARGVNASLVTRRK				NA	NA	NA	NA	NA
AK009_08192	300			hypothetical protein	ATGAAAATGATTAAGCTATCCGAAATCCTATTAAAATACATGACGACTGAGTATAAAAAACACGAAACTGATATGTTTTCTTTCGAAAGGTTCCAGGAACTATGTCCTGATGAAACTGACAAATCAATTTCAAAAGCTTTATGTTATTTACAAGATGAAGGTTTTGTATCTATATATGAAGCAGACAGTATTGCTTATATGACTACTTTACTTTCAGCAGGAATTGCATATTGTGAAGAAAATACTCTTCTAAAAAAAGGATACAAAGCTGCTAAAGAGATAAAATCTTGGATGCCCTAA	MKMIKLSEILLKYMTTEYKKHETDMFSFERFQELCPDETDKSISKALCYLQDEGFVSIYEADSIAYMTTLLSAGIAYCEENTLLKKGYKAAKEIKSWMP				NA	NA	NA	NA	NA
AK009_08193	216			hypothetical protein	ATGGATATACAAGAAGCTACTAAATTGGCAATAAAGCAAAATAGATATATTTCGCGAGTGCATTTTATAAACACCTTTAAGGTCAAACTTAAACCAACAAATACGTATGATTTATGCAAAACGTATTCTGTAAATCCTGGTGAAGTTGAACCACGAAGGGCATGGAGTCCCCGAGCAGATGATCTAATTGCTGATGACTGGATAGTTATTGATTAG	MDIQEATKLAIKQNRYISRVHFINTFKVKLKPTNTYDLCKTYSVNPGEVEPRRAWSPRADDLIADDWIVID				NA	NA	NA	NA	NA
AK009_08194	222			hypothetical protein	ATGACAGTAGATTATAAGAAACCTAGTTTAAAAGAATATAAGGAATTAATTCGTTATGATGCAAAACTAACTGGTGAAATTAAAATAGCAGAATTACTTAATGAGGATTCAAAAACAATTGAGTTAAAGCAAGAAAAGAAATTGTTGGGGATTCGAATCAAAATTATTGAAGCATCATTTATTTTGAAACATAAATGGGCAAAAGAAAAAGCTACCGCCTAG	MTVDYKKPSLKEYKELIRYDAKLTGEIKIAELLNEDSKTIELKQEKKLLGIRIKIIEASFILKHKWAKEKATA				NA	NA	NA	NA	NA
AK009_08195	588			hypothetical protein	ATGGGAACAAGCATATACTGCAATTCAGCGATAGGAGAATTATTACAGAATGCTAGAGAATGTTGTGACAATGTTCAGCTGAAAACGAAGAAAGGGTTATCTAAGTACCTTGGTATTACACATGAAAGACTAACCCGTATTGAATCTGGACTTTCTAAACCAGAATTTGAACTTGCGATGGATTGGTGCCATGCAACAGGAGCAAAGTTAAATCAACAAGCAATTAAACATATTTATGGTGTTGGATTACCGCCTACAGATCCACGCTTAACTCAAGATGTAAATCTACAATTGATGAACTACATTAAGCAAGCTGAAGAGGGGATTGCGGCAGCTAAAGAAATTATGAATCTACAAGTTACAACAAGGTCATGGAAGCATGATGAAAAAAAGAAACATGAATACGCAGTTCATGCAAAAGAAATTTTCGATACAATCCAAGCTACTCAATGTGTAGTACAAGCCCTTGAACAAGTTCATTTCGGCATTATGGAACAAATACAAAGAAGTTGGTTGCAAAAGGCCATGGCGGAGAACGTTATTATTCAATCAGTGGATAGCTTAATGAATTTAACAAAGGTGCTGTAA	MGTSIYCNSAIGELLQNARECCDNVQLKTKKGLSKYLGITHERLTRIESGLSKPEFELAMDWCHATGAKLNQQAIKHIYGVGLPPTDPRLTQDVNLQLMNYIKQAEEGIAAAKEIMNLQVTTRSWKHDEKKKHEYAVHAKEIFDTIQATQCVVQALEQVHFGIMEQIQRSWLQKAMAENVIIQSVDSLMNLTKVL				NA	NA	NA	NA	NA
AK009_08196	249			hypothetical protein	ATGCCATCAACTAACATGGCAGTACCAACAGACCCGTCGCATAAACATATAAAAAGCACTTCAAGAGGTGACACCATGAGCCAACAAGAAGAATATGCGGCGACTTATGAATTTGGAAAAACGAAAGTCCATGTTGTGGCTCCTGAGCCAAAATCACAAAAGGATATTGATAAAATCCGTCAAGCATATTACAAGGCTGGTTGGGCCATCATCAAAGAGATACAAGTAAAATCAAACGTTGAGGAATAG	MPSTNMAVPTDPSHKHIKSTSRGDTMSQQEEYAATYEFGKTKVHVVAPEPKSQKDIDKIRQAYYKAGWAIIKEIQVKSNVEE				NA	NA	NA	NA	NA
AK009_08197	216			hypothetical protein	ATGTTTCTTAAAGGAGGGGGTATTATGAATAATAAAAGAATTAAAATGATTAAATTAAGAAATGATCAATCGAGAATAGAAGTTGCACAAAAGCTTTCAATTACACCTCAGATGTTAGGTGCTATTGAAAGGGGTGATAGGACACCTTCTTTAGAATTGGCTAAAAAAATAGCGGAGCTCTATAAAACAACAATTGATGATCTTTTTTTTAATTAA	MFLKGGGIMNNKRIKMIKLRNDQSRIEVAQKLSITPQMLGAIERGDRTPSLELAKKIAELYKTTIDDLFFN				NA	NA	NA	NA	NA
AK009_08198	438	immR_2	COG1396	HTH-type transcriptional regulator ImmR	ATGCTTGGAAAGAAGATTGCTGAGCTCAGGAAAAATCAGAAACTAAGCCAATATGATCTTGCTGATAGGTTGGGATTTTCAAGAGGAAAGTTGGCCAATTATGAACAAGGACAACGTGAACCCGATTACGATACTTTAAAAAAAATTGCTGATTTCTTTGAAGTTTCAACTGATTACCTATTAGGTAGAACTGAAAAAAAGGAATTATTGTCTAACATGACACCAGGCTTATCGGAAAAGGAAGAGCGTGATATTGCGAAAGATTTAGAAAAAACATTAGAACAATTAGAAAACAGTGAAGAAGCATTAATGTTTGATGGAGAACCAATTGATGAACACACAAAAGAAATGATTCGCATTTCACTGGAAAACTCAATGCGCATGGCAAAACAATTAGCAAAACAAAAATTCACTCCAAACAAATATAAAAAAGATTGA	MLGKKIAELRKNQKLSQYDLADRLGFSRGKLANYEQGQREPDYDTLKKIADFFEVSTDYLLGRTEKKELLSNMTPGLSEKEERDIAKDLEKTLEQLENSEEALMFDGEPIDEHTKEMIRISLENSMRMAKQLAKQKFTPNKYKKD				NA	NA	NA	NA	NA
AK009_08199	435			hypothetical protein	ATGGACATCAAAAAGTACGTATTAAACATCGTAGCAAAATATCAAACAATAGATCCATTTGAAATTGCTAGGCAAAAAAATATCATTGTGTTGTTTGAAGACTTAGGGAATACCCTTGGTTTTTACAACACTTATAAACGATTTAAATTTATTCATATTAATAATCAAATTAACGAAACCACTCAACGATTTGTTTGTGCACATGAATTAGGGCATGCTGTACTTCATCCTAAAGCAAACACCCCCTTCTTACGTAACCAAACATTCTTTTCGGTAGATCGTTTAGAAATTGAAGCAAATACATTTGCTGTGGAGTTGTTACTAACTGATGAAATGGTTTCTGAATACGAAGATACTCGTTTATCTATTCAAGAAGTTGCGGAGATTCATGGGGTTCCAGGTGGATTCGCTCGTTTGAAAATTTACCATGGTTAA	MDIKKYVLNIVAKYQTIDPFEIARQKNIIVLFEDLGNTLGFYNTYKRFKFIHINNQINETTQRFVCAHELGHAVLHPKANTPFLRNQTFFSVDRLEIEANTFAVELLLTDEMVSEYEDTRLSIQEVAEIHGVPGGFARLKIYHG				NA	NA	NA	NA	NA
AK009_08200	804			hypothetical protein	ATGAATAAATATTTAGACCTATTTAACACTGTCCTAAAAATCATCCCAATACCAGTTATTTTGTCGTTTATCTTCAGATATATCAGTAAAAACGACTTAGATATAGCCTTTGAACCAAAACAAAACAGATTTATAAAGAGATGTGTTAAAGACATATTTTTATTCTTTCTAACTTATATCTTATTTAATATTTCTATGTTAGTATGGTACATTCTCTCCAATATGTGGGGAGGATTCCACTCTAACTTATTCATGTTAATAATGCTTATTTTAGTAGGTGTAGTATTTATTATATACATTGCCTATGTATTTTCCTGGTCAATAACATTGGAGGAAAAAAACAGAGTAAACACTCAGAAAATAAAATATAAAATATTCTTTCCTTTCGTATCGAAAATTGAAAAAACTTTTCTTATGCCAATTTTCCTTATATTAATCTTTAATTGCTCGTACTTCCATTGTATTGTAATTAGTAATTTATTTAAACAAAGTCAAAGTAAGGTTGAAATAATAGAAAATAACTTGTCTATCTTAATAGGTGAGCCCGCTCTATATGCAGTCTTATCTGCTTCTATACTATTCCTTTATAATCTTAACAAACAACAAAAATCATTTTATACAATGACTCCTATAGATTATACTAAAATTCAAGATTTAACATTAATACATCTATACACTCGAAAAGATAATCAATGGGTATTAGTAGAACCAGATTATACAGTTACTCTAAATGAGGCTTATTTATATAACCCTGACAAAGATCAATGGCGCTTATACAAAAAAATTGATCTATCTAATAAATAA	MNKYLDLFNTVLKIIPIPVILSFIFRYISKNDLDIAFEPKQNRFIKRCVKDIFLFFLTYILFNISMLVWYILSNMWGGFHSNLFMLIMLILVGVVFIIYIAYVFSWSITLEEKNRVNTQKIKYKIFFPFVSKIEKTFLMPIFLILIFNCSYFHCIVISNLFKQSQSKVEIIENNLSILIGEPALYAVLSASILFLYNLNKQQKSFYTMTPIDYTKIQDLTLIHLYTRKDNQWVLVEPDYTVTLNEAYLYNPDKDQWRLYKKIDLSNK				NA	NA	NA	NA	NA
AK009_08201	1548			hypothetical protein	ATGAAAACCGCAATTTACTTACGAAAATCCCGTGCCGATCTCGAAGCCGAAGCGCGAGGCGAAGGAGAAACATTAGCAAAGCACCGCACTACCCTGCTGAAAATTGCCAAGGAAATGAACTTAAATGTTTTATCTGTCCGTGAGGAAATCGTATCTGGTGAGAGCTTAGTAAAACGCCCTGAGATGTTAGCGCTGCTTGAAGAAATTGAAGATAACAAATATGATGTTGTTCTTTGTATGGATATGGATCGTTTAGGTCGTGGTGGTATGAAAGAGCAAGGAATCATTTTAGAGACGTTTAAACGCTCGAATACGAAGATTATGACACCTAGGAAGACTTATGACCTTAATGATGAGTGGGATGAAGAATACAGCGAATTTGAAGCTTTTATGGCTCGTAAGGAGTTAAAGATTATTACACGCCGTATGCAACGAGGTCGTGTCGCCAGTGTAGAGGCTGGGAATTACCTTGGTACACATGCACCATTCGGATATGATATCCATCGCTTAAATAAGCGAGAACGTACTTTAACGATTAATCCAGAAGAAGCTTCAGTTGTAAGAATGATATTTGATTGGTATGCAAATGAGGATATGGGTGCTAACGCAATCCGAAGCAAGTTAAATGATCTTGGCTACAAAAGTAAGCTAGGTAATGAATGGAACCCCTACAGCATCTTAGATATATTAAAGAACAATGTGTACATTGGAAAAGTAACGTGGCAAAAACGAAAAGAAGTAAAACGTCCTGATGCTGTGAAGCGTAGCTGTACAAGACAAGATAAATCAGATTGGATTATTGCTGATGGCAAACATGAACCAATCATACCTGAAAGTCTATTTGAACAAGTACAAGAAAAATTAAACTCAAGATATCACATTCCTTACAATACGAACGGAATTAAAAATCCACTAGCTGGTATTATTAAATGCTCTAAATGTGGTTACAGTATGGTCCAACGTTATCCGAAGAACCGAAAAGAAACGATGGATTGTAAACACCGTGGCTGTGAAAACAAATCAAGTTATACTGAATTAATTGAGAAGCGTTTACTCGAGGCATTGAAAGAATGGTACATCAATTATAAAGCTGATTTTGAAAAACATAAGCAAGATGACAAATTAAAAGAAACACAAGTTATTCAAATGAATGAAGCTGCATTACGCAAGCTTGAAAAAGAATTAGTGGATGTCCAAAAACAAAAAAATAATTTACATGATTTATTAGAACGTGGTGTTTACACAGTCGATATGTTTTTAGAACGCTCGAATGTAGTTTCTGACCGTATAACTGAAATTACTTCCACTATGGAAAACCTAAAGAAAGAAATTAAAACCGAAATTAAGAAGGAAAAAGTCAAGAAAGATACAATACCTCAAGTGGAGCATGTTCTTGATTTGTACTTTAAAACAGATGATCCCAAAAAGAAAAACAGCCTCCTAAAGTCGGTTTTAGAAAAGGCTGTTTATAAAAAGGAAAAGTGGCAAAGGCTCGATGATTTCGAACTTGTGCTTTACCCTAAGCTCCCTCAAGATGGCGACATATAA	MKTAIYLRKSRADLEAEARGEGETLAKHRTTLLKIAKEMNLNVLSVREEIVSGESLVKRPEMLALLEEIEDNKYDVVLCMDMDRLGRGGMKEQGIILETFKRSNTKIMTPRKTYDLNDEWDEEYSEFEAFMARKELKIITRRMQRGRVASVEAGNYLGTHAPFGYDIHRLNKRERTLTINPEEASVVRMIFDWYANEDMGANAIRSKLNDLGYKSKLGNEWNPYSILDILKNNVYIGKVTWQKRKEVKRPDAVKRSCTRQDKSDWIIADGKHEPIIPESLFEQVQEKLNSRYHIPYNTNGIKNPLAGIIKCSKCGYSMVQRYPKNRKETMDCKHRGCENKSSYTELIEKRLLEALKEWYINYKADFEKHKQDDKLKETQVIQMNEAALRKLEKELVDVQKQKNNLHDLLERGVYTVDMFLERSNVVSDRITEITSTMENLKKEIKTEIKKEKVKKDTIPQVEHVLDLYFKTDDPKKKNSLLKSVLEKAVYKKEKWQRLDDFELVLYPKLPQDGDI				NA	NA	NA	NA	NA
AK009_08202	1410	sasA_23		Adaptive-response sensory-kinase SasA	TTGATTACTACTTTTGCTGCTTGTGCCTTATTAGGGCTTTTGTCAGCAAAGGCAGCAGCGCCGTTTTTTGAGAATGCGAATCGTCAAGCAACTATCGATTATCGGGCTGGTATGGAACAAATTAATCACCAAGCTCAAGGAGCGGCAAATAGTTCGGTTCATGAAAATAAATTAGAAGCTATATCAAATATGATCGAAATGGAAAACCAAAATTTAGAGCAAGGGTCTAGAGCTTTGAAGATATTGGTTACTGATGAAAGTGGTAAAGTTTTATATAAAACAAAGCAAGCGCAAGAAGAGCAAATCGATTTGCATAATACGATTCGTAATGCAGCATCATTCGCGATTAATTATACAGATGGTAGAAATGTATTTGAAAGTACAAGAAAAGAGTTTATATCTTTTTCACCTATTACTATTGAAGGAAAGAATTTGTACATGTTTGTTAGTGGAATTCCAGAGGGAGAGGTAATATATGACACGCAAGAAGGACCATTCCCATTTTTAATTGGTGTCCTTGTATTCATCTTCTCTTTCTTCTATATAACAAAGAGAAAGATGAAGCAGATTGAAGCAATGGCACAAGGTGTAAAGGAAATAGAAAGAGGTAACTTAGCGTACCGCATTGAGAAAAAAGGTGAAGATGAGATTGCGTCTTTAACTGAGAATATTAATAATATGGCGGAAGAGCTTATGAATAATATAGAAAAGGAACGTAAATTAGAAAAGCAGAAAAATGAGCTTATCACAAATGTATCTCATGATTTGCGTACACCACTTACTTCTATTATGGGTTACTTACGATTACTTCGAGATTCTAAATATGAAAATAAAGAACAACATGATGAGTATACAAGAATTGCTTTTGTAAAGTCGGAGCAGTTAAAGAATTTAATAGAAGATTTATTTGAGTATACGAAGTTAACAAATGAACAAGTTGTATTAGAAAAACAAGAAGTATGTGTAAATGAGTTGCTTGAGCAATTAATAGAAGAGTTAGTACCGCAGGCGGAAGAACATGGACTTACGTTTGTTAAGAAGTTTCCTGAGGAACGTACTTATGCATCGATTGATTCGGAAAAGATGGTTCGTGTATTTGATAATTTACTAATGAATGCGATTAAGTACAGTAAAGATGATGGAGAGATAAAAGTTTCTCTTCAAAGGCAGCGTAGGGATATACAAATTGTAATTGCGAATCATAGTGAAGAGTTTACGAGAGAAGAGTTAGTGAATTTGTTTGAACGTTTCTATAAGAAGGATCAATCTCGAAGTAGAGTAACGGAAGGATCGGGACTTGGCTTAGCGATTGCGAAAAGTATTGTTGAGTTGCAAGGTGGTAGTATTCGAGCGGAATATAGGGATGGTATTATTCAATTTATCGTCTCTTTACCAATTATAGAAAAATAA	MITTFAACALLGLLSAKAAAPFFENANRQATIDYRAGMEQINHQAQGAANSSVHENKLEAISNMIEMENQNLEQGSRALKILVTDESGKVLYKTKQAQEEQIDLHNTIRNAASFAINYTDGRNVFESTRKEFISFSPITIEGKNLYMFVSGIPEGEVIYDTQEGPFPFLIGVLVFIFSFFYITKRKMKQIEAMAQGVKEIERGNLAYRIEKKGEDEIASLTENINNMAEELMNNIEKERKLEKQKNELITNVSHDLRTPLTSIMGYLRLLRDSKYENKEQHDEYTRIAFVKSEQLKNLIEDLFEYTKLTNEQVVLEKQEVCVNELLEQLIEELVPQAEEHGLTFVKKFPEERTYASIDSEKMVRVFDNLLMNAIKYSKDDGEIKVSLQRQRRDIQIVIANHSEEFTREELVNLFERFYKKDQSRSRVTEGSGLGLAIAKSIVELQGGSIRAEYRDGIIQFIVSLPIIEK				NA	NA	NA	NA	NA
AK009_08203	702	walR_7	COG0745	Transcriptional regulatory protein WalR	GTGGCACACGAAACAATACTTGTCGTGGATGATGAAAAAGAAATTCGGAATTTAATTACAATCTATTTAAAGAATGAAGGATATAAAGTATTGCAAGCAGGGGACGGAGAAGAAGGGCTACGTTTACTGGAAGAAAATGAAGTGCATCTAGTCGTATTAGATATTATGATGCCGAAAGTAGATGGTATTCATATGTGTATGAAAGTAAGAGAATCGAAAGAGATGCCTATTATTATGCTTTCTGCGAAAACGCAAGATATGGATAAGATTTTAGGATTAACAACAGGAGCAGATGATTATGTAACGAAGCCCTTTAATCCATTAGAGTTAATTGCACGAATTAAATCTCAGTTACGCCGTTATATGAAAATGAATGGTTTTGCTATTCAAAATGAGGACGAGCTGGAAATTGGAGAGATGAAAATAAATATCTCGACCCATAAAGTTATTGTAGAGGGAGATGAAGTGAAACTAACCCCGAGGGAATTTTCAATTTTAGAATTGCTAGCTAGAAATCCAGGTATGGTGTTTAGTGCGGAGCAAATTTATGAAAAGGTGTGGAACGAACGATCTTTCCAGTCTGATAATACTGTAATGGTGCATATTCGAAAAGTACGTGAAAAGATTGAGGAGAATCCAAGGAAGCCTAGATATATAAAAACAGTATGGGGAGTGGGGTATAAGATTGAAAAAGATATTTAA	MAHETILVVDDEKEIRNLITIYLKNEGYKVLQAGDGEEGLRLLEENEVHLVVLDIMMPKVDGIHMCMKVRESKEMPIIMLSAKTQDMDKILGLTTGADDYVTKPFNPLELIARIKSQLRRYMKMNGFAIQNEDELEIGEMKINISTHKVIVEGDEVKLTPREFSILELLARNPGMVFSAEQIYEKVWNERSFQSDNTVMVHIRKVREKIEENPRKPRYIKTVWGVGYKIEKDI	PGPT0028485_128	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
AK009_08204	1326	pbuG	COG2252	Guanine/hypoxanthine permease PbuG	ATGAAACGCTATTTTCAGTTTGATGAGCTCGGTACGAATTATAAGACTGAGTTCATAGCAGGGTTAACGACATTTCTATCTATGGCTTACGTACTATTTGTCAATCCTGCTACGCTGTCGCTTGGAAATGTTAAAGGGTTACCAGCAGGTACAGGGATGGATCCAGGTGCAGTATTCGTTGCTACGGCATTAGCGGCAGCGATCGGTTCGTTAATTATGGGTATTTTCGCGAAGTATCCAATTGCTTTAGCGCCAGGTATGGGAATTAACGCGTTCTTTGCTTATACAGCAGTGTTAACGATGGGGATTCCATGGCAAACGGCCATTGCCGGAACATTAATGTCAGGTATTATCTTTATTATTCTTACTGCTTCAGGTATTCGTGAAAAAATCATCAATGCAATTCCATCGGAGTTAAAGTTTGCAGTAGCAGCAGGTATCGGATTGTTCATTGCATTTCTTGGATTCCAAAATGCCGGAATTATCGTGAAAAATGATGCTGTTCTTGTTGGGTTGGGGGACTTAACAAAGGGCACAACGTTACTAGCAATCTTCGGGGTTGTTACGACAATCATCTTTATGATTAAGAAAGTTAATGGTGCAGTATTTTACGGTATGATTCTTACAGCGATCTTAGGGGTAGCAACAGGATTAATTGATACTCCGAAAGCTGTAGTGGGAGCAATACCGAGCCTAGAACCAACGTTCGGTGCTGCATTAACGCACTTTGGAGATATTTTCACTGTTCAAATGGGTATTGTTATTATAACGTTCTTCTTTATCGATTTCTTTGATACAGCAGGTACGCTTGTAGCGGTTGCGAATCAAGCTGGATTAATGAAGAACAATAAATTACCACGTGCAGGAAAAGCATTATTTGCAGATGCGATTGCAACTGTAATTGGTGCAATCTTGGGTACATCAACAACAACGTCTTACATTGAGTCTTCTGCAGGGGTAGCAGCAGGAGGACGTTCTGGATTTACAGCAGTTGTAACAGCAGGATTCTTCTTACTGGCATTATTCTTCTCGCCATTACTAAGTGTTGTAACGCCAGCTGTAACGGCACCAGCTTTAATTATTGTAGGAATCTTGATGGTTTCTTCCTTAGGGGAAATTGATTGGAAGAAATTCGAGATTGCAGTGCCAGCATTCTTTACAATTATCTCTATGCCACTTACGTATAGTATCGCAACTGGGATTGCGATTGGATTTATCTTCTATCCAATTACAATGGTTGTGAGTGGTCGTCGTAAAGAGGTTCATCCGATTATGTATGTTATGGGAGTTTTATTTGTACTATATTTCATCTACGTTCGTAAATAA	MKRYFQFDELGTNYKTEFIAGLTTFLSMAYVLFVNPATLSLGNVKGLPAGTGMDPGAVFVATALAAAIGSLIMGIFAKYPIALAPGMGINAFFAYTAVLTMGIPWQTAIAGTLMSGIIFIILTASGIREKIINAIPSELKFAVAAGIGLFIAFLGFQNAGIIVKNDAVLVGLGDLTKGTTLLAIFGVVTTIIFMIKKVNGAVFYGMILTAILGVATGLIDTPKAVVGAIPSLEPTFGAALTHFGDIFTVQMGIVIITFFFIDFFDTAGTLVAVANQAGLMKNNKLPRAGKALFADAIATVIGAILGTSTTTSYIESSAGVAAGGRSGFTAVVTAGFFLLALFFSPLLSVVTPAVTAPALIIVGILMVSSLGEIDWKKFEIAVPAFFTIISMPLTYSIATGIAIGFIFYPITMVVSGRRKEVHPIMYVMGVLFVLYFIYVRK	PGPT0007325_3705	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
AK009_08206	414			hypothetical protein	ATGGGGAATGGAGAGAGATTTATGTTGACGTATAAAACATATTTAGAAGAAAAAGATAGTTTAACTTTTCAAGAAGCTGAAGAAATTTACTCTCAAATATTACAGTCTGCTAATTCCAGCGATAGTGATTTTAAGGAGTTTTGGGAAGATATGATTAAATCTGCCATCGTTTATGCGAATACTCGTGCTGAATGGAGTATACAGACGTTAGAAGAGCGTAGAGACATTGATGATTCCCGAACACATCAACACAATACATTTATGATAAATCTAAAAGTAATTGCAAATTATATGAAACAACAAAATTGGAGTTCGGTGTGGTTTGACGAGTTGGGGACTATTGAAAGTGATAGAAAGAGATTTGGGGATTTTGCTTGTTATTTAGTTTGCATAAATTCGTTGAATGCTCGATAA	MGNGERFMLTYKTYLEEKDSLTFQEAEEIYSQILQSANSSDSDFKEFWEDMIKSAIVYANTRAEWSIQTLEERRDIDDSRTHQHNTFMINLKVIANYMKQQNWSSVWFDELGTIESDRKRFGDFACYLVCINSLNAR				NA	NA	NA	NA	NA
AK009_08207	807	apaH_2		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGGCTACGATATATGCGATTAGTGATATTCATGGTTATTACAATCAAATGATTGATTCGCTGAAAAATGTTGATTTAAAGAATGAAGAAAACAAAATTATCTTCTTAGGTGATTACGTGGATGGGGGAAATGATTCATGTAGGGTTTTATATTACATAAAAGAATTACATGAAAATCATGCGGATCAAGTTATTACTTTGCTAGGAAATCATGATGAAATATTCCTTCATTGGTTATATTCTCAAGTGGATGATTTTCGATTGTTATTTCAGGAGCCAGATATATGTACATTTAAAAGTTTCCTTACTGTTGAGGAGTATAGAGAGATTTTTGATACTTTTCAGCCTTTAACCTATTCATATGAAAAAGTAAGTGAGGCATTAAAGGAAGCTATTAAGAAGAAACATGGTGATTTGTTGAAATGGTTACTGAATATTTCTAAACAGCTTCGTTACTTTGAAACAGACCAACAAATATTTGTCCATGCTGGTATTTTAGAAGAAGCCGAAGATTTGTGGAAACATGGTACTCCTAAAGAGTATTTCACACAAAAGTACCCGGCTGAGACAGGATATTTTTATAAAGATATTATTGTAGGGCATATTTCAAGTGTGGAGATAGCAAATAAAAAAGAATATCTTGGAAAAGTTTATTGGGATGGAGAAAGTCATTTTTATATTGATGGTACTGTTGAAAAAAGCGGCAATATTCCAGTTTTAAAATATGATACTGAAACGAAAAGATATTCATCCTTTGAAAAGGATACTATATATGGGGAATGGAGAGAGATTTATGTTGACGTATAA	MATIYAISDIHGYYNQMIDSLKNVDLKNEENKIIFLGDYVDGGNDSCRVLYYIKELHENHADQVITLLGNHDEIFLHWLYSQVDDFRLLFQEPDICTFKSFLTVEEYREIFDTFQPLTYSYEKVSEALKEAIKKKHGDLLKWLLNISKQLRYFETDQQIFVHAGILEEAEDLWKHGTPKEYFTQKYPAETGYFYKDIIVGHISSVEIANKKEYLGKVYWDGESHFYIDGTVEKSGNIPVLKYDTETKRYSSFEKDTIYGEWREIYVDV				NA	NA	NA	NA	NA
AK009_08208	1254	xerC_12		Tyrosine recombinase XerC	ATGAAAAATAGAACGCAGCAAACAACGAAATACCCTGGTGTATATGTTGATGATAAAGGGAATTTCTTTTATCAATCAGAATTTGGCATTGATCGGATTACAGGAAAACGAATACGAAAAAAAGGAAGAAAAGACGTTAATGGAAAGCCCTTTTCTTCCGCGTTCGAAGCTAATAAAGAGTTAACTCGATTAAAAAGAGAATATCATAAAGTTAATAGTTACGCTAACTATAAAATGACTTACGAGCAATTTATGAATACTGTGTATATACCGTATTATCAAACAGAAGTTGAAGAAAGTACCTTTTCTATTAAGCAAAGAATATTGAAAAAGATAAGAGATAGATTTGCTTCTATTCCTCTCCGTTCTATTTCAGTTGAGGACGTACAAAATTTTCGTACATGGTTATTAACAAGCCGAGAAAATGGAGGAGCTGGGTATGCTCAATCCTATGCGAGCTTAGTTTTTGGAACATTTCGTAAAAGCTTAGATAAAGCTGTGGAAATGCAATATTTAGAATACAATATTTCAAAAAAGGTTAGGGCAATCAACAAGGGAAAAGCTATTGTACCCTATTGGACAAAACAAGAATTTGAAAAAGTGATAAATCAAATTTATATTGGTGATTTTTATGAACACTTAAATTTTGTTATGTTGTGGGTCTATTATATGACAGGGATTCGTGTGAATGAAGGAACAGCTTTATATTGGAATGACATTGATTTAACAAAGAAACGTATACGGATTCATCATATGCTTATTATGAAAAACAGAACGGATTGGAAACGGAATTCATATACGAAAACAGAAGATGGAAAGAGAATAGTAGCATTGGATGATGACACTGTCAAAATTTTAAATGACTGGAAAAGTAGGCAAACAGAGATTGGCTTAGGTAAGGAAAGAGATTTTGTGTTTAGTTATGATGGCTTGCCGATGATTAAATCAACGATATCTCGAATTATTGAGCGATATTCTAAGTTTGCAGAAGTGAAAAAGATACAAGCAAAGGGATTGCGTCATTCACATGCTTCATACCTTATTAATGAATTTAATGTATCGGTGCTAGTTTTATCTCAACGTATGGGGCATTCAAGTCCAGAGATTACTTTAAAACACTATGCTCATATGTGGAGTGGGGCTGATATGGCAATTGCTGAGGAGATGTCAGGGAATATAAAAATAGAAACTGCCGAATATACGAAGATAACCTTTAACGGAAATCAAGTTATAAAAAAAAGAAGGGATAAATAA	MKNRTQQTTKYPGVYVDDKGNFFYQSEFGIDRITGKRIRKKGRKDVNGKPFSSAFEANKELTRLKREYHKVNSYANYKMTYEQFMNTVYIPYYQTEVEESTFSIKQRILKKIRDRFASIPLRSISVEDVQNFRTWLLTSRENGGAGYAQSYASLVFGTFRKSLDKAVEMQYLEYNISKKVRAINKGKAIVPYWTKQEFEKVINQIYIGDFYEHLNFVMLWVYYMTGIRVNEGTALYWNDIDLTKKRIRIHHMLIMKNRTDWKRNSYTKTEDGKRIVALDDDTVKILNDWKSRQTEIGLGKERDFVFSYDGLPMIKSTISRIIERYSKFAEVKKIQAKGLRHSHASYLINEFNVSVLVLSQRMGHSSPEITLKHYAHMWSGADMAIAEEMSGNIKIETAEYTKITFNGNQVIKKRRDK				NA	NA	NA	NA	NA
AK009_08209	207			hypothetical protein	ATGGGTACAACAATATGTAAAGATGATTTAATTAAACTAGGATATAAGAAATATCAAGCTATTTCACTAATTAGGCAAGCGAAAGCAATCATGGTGCAAAAAGGTTGTCCGTATTATAACAACAAAAGACTAGGGAGAGTACCGAGGGATGTGGTGGAATCCATTTTAGGAGTTTCTCTTATAACAGAAATGAGTAATTCTCAATGA	MGTTICKDDLIKLGYKKYQAISLIRQAKAIMVQKGCPYYNNKRLGRVPRDVVESILGVSLITEMSNSQ				NA	NA	NA	NA	NA
AK009_08210	1029			hypothetical protein	ATGAGTCAAAAGCGAAGTAATCAGTGCTTAATTGATTACCTTCGTTGTTCGATTCCAAATAGTGAGTTACCGACAGTCGCTAATGAAATTTTAGGAATCCCTATCTCTGAATTTTCTTCAGAGATTAAGGGGTCTCCATATCCTACTTACGATATGTGCATTAGCTTTGCGAATATAAAGCTTCATTCTTCACGAAGTCATAGTAGTGTTCTTATAGATATGTCTGGGCAAGCGTGTAGACAATATGAAGAATACATGTCGAGGGTTGATGGTTGGCATTGGTACAAATTTGTATCAGTTATTTTAGAAATACAAGGTAAGGTATCAAGAATAGATTTGGCTTTAGATATTTTTGATGATTCTACTCCATCTGTAAAAGCGTTGCAGGATTATGTGAAACGAGGGCAATTAAGTACGAAAAGTCATAAATTTATTGAAATAAATAGTGGTAGGATTCTTGATGGGAAATTGACCGGTTTTACATTGTATATTGGTGCATCTCCGCAAATATTACGAATCTATGATAAAAAACAAGAAAGAAGAGATAATGCAGATGAAGTTGTAAATGTTGAAAAGTGGGTCAGATGGGAACTAGAGCTGACTGGAAATAAAGCGATGCAAGTTGCTCTTCAAATATCGAATGGGAAACCACTTAATAATATAGTTAAAGGTATTTTATCAGCTCATTATTGTTTCAAGACACAACCTAAGGGTGCTAGTGATTTACATAATAAAAATAGACTTCCTACAATGAGATGGTGGCAAAAATTTGTAGACGGTATTGAGGCAATTCCCTTAAAAATAAAGCGTGAAAAGCTCACTTTAAAGAAAAAGAAAAATTGGGTTGAGAATGCTACGGTAAAGTCAATTAGTATGCTCTATGAGTCATTTAGGCGTGTATACGGTGAAAAATATGCTGAGCTTTATTTGAAAGAGTTAATACATATGGGAAAAGAAAAAATCACTGAGTCCGATCAAACATTAATTGAGCAACGTGTTTTAGAACTTATGAGTGAGGATGAATATTAG	MSQKRSNQCLIDYLRCSIPNSELPTVANEILGIPISEFSSEIKGSPYPTYDMCISFANIKLHSSRSHSSVLIDMSGQACRQYEEYMSRVDGWHWYKFVSVILEIQGKVSRIDLALDIFDDSTPSVKALQDYVKRGQLSTKSHKFIEINSGRILDGKLTGFTLYIGASPQILRIYDKKQERRDNADEVVNVEKWVRWELELTGNKAMQVALQISNGKPLNNIVKGILSAHYCFKTQPKGASDLHNKNRLPTMRWWQKFVDGIEAIPLKIKREKLTLKKKKNWVENATVKSISMLYESFRRVYGEKYAELYLKELIHMGKEKITESDQTLIEQRVLELMSEDEY				NA	NA	NA	NA	NA
AK009_08211	504			hypothetical protein	ATGGGAAAATTAATTTTAAAATCGTCAAGATTACATTCTTTAAATGACTCGGAAAATGTCGAATTAGGTGATTTTCATTTTGACATTAAACAATTTAAAGTTCCTACAGCAATGTTAGTACAAAAAGACGGTTTTGCTACTCGAATTGAAAAAGAAAAGAATCTAAATGGAGAGCTAGTTGAAACAGGTAAGTATGTAATAACTTTTAAAGTTTATGATAGACCATTTATTGAGCTTGTATTACAAAATGGTGGTACTGAAATTGGCTCGCCTATTACTGTAGTTATTGAAAAACAAGATAGCCTACCTATCTTTGATGATTATGAAGATGGTGAATTTATTCCAATTTCATTTACGGGTCTTAAAGTAAAACCTAAAAAAGTGCAAAAGAAAACATTTGTCGGACAAGGTAAGCCAATGATCGATACATGGCAGTATTCAGAACTCAAAATTGAAGCTGATAGTTACACTATTGGTGAAGTACATGAGTCAAAAGCGAAGTAA	MGKLILKSSRLHSLNDSENVELGDFHFDIKQFKVPTAMLVQKDGFATRIEKEKNLNGELVETGKYVITFKVYDRPFIELVLQNGGTEIGSPITVVIEKQDSLPIFDDYEDGEFIPISFTGLKVKPKKVQKKTFVGQGKPMIDTWQYSELKIEADSYTIGEVHESKAK				NA	NA	NA	NA	NA
AK009_08212	1407			hypothetical protein	ATGGTTTTTTATATATGGAATAAGATTTTAAGTTTAACTCACAAAAAAGATGGACAATGGAGTAATGTATTGTTTCCCCAAAAACAAGGTTCGTTGTTATTCAAATTTGTTGGGTTGCTTATTATTATTTTTTTATGGGGCGCATTGTGGGAATTTTTAGAGATTTCTACTCTTAGAATGAACATTTTGGGAGGTTTGATTAACCCGCTCTTAAGTGGTACTTTTATTGTTCTTTGGTTCATAACAACCTATTTTAGTGTGAGAGGCTATTTGGGTTTATTTAAAAGAAATAAATCTTGGATTGCTAATAATCTCGTTTACATGATTAATTCTCTAAAATTATATGATGAAGAATACTTTGAAACCACTAAAAACGATAAAGTTGTTAGGGAAAAGCGGATTGTTAGAGTGATTCGGATTCAATATAGAGAAACAAGTAAGCATATAGTGGTAAGAATTTTACGCGATGGTGACAGGTTTACCAATGAAGCAACTAAATTAGGGGAGAATTTAGAATCTGCTTTAGGCTTAGAGCTAGACTCTACCAATAAGGCAGTAGATTATGCTGAATATGTATTCTTAAAGAATAAGGATAAACGAATAGATTTAAATTCAACAGTTACTAGTATGAATGGATCAGATGAAATCAAAATTACTGAGAACATATCTTATGAGCTTCATAAGGTTCCCCATTCTCTAATTGTAGGTGGTACTGGTTCGGGTAAGTCTTTTTTTATATTGGGCAAAATTGTGAGTTATTTAAATTTATCTCCGCAAGCTGATTTGAGAATTATTGATCCAAAAAAGGCTGACCTTTCCTTGCTAAGATTTGTTACTGGATTTGAAAATAAAGTTGTTACAGAAGCGAATCAAATATGTCGAATTCTTAGGGAAACTGTCGAATTGATGGAACAAAGATATACCGATTATTTTAATGATATATCTGCCTTTGGGAAGACATATCGGGATTTTGGTCTTCCGCCCATTATAATAGTCTTCGACGAATTTTCAGCATTCATACATTCGGTAGATAAGAAGGTAGCGCGTGAAGCCTTAGATTATGTATTTGTTCTAGTTATGAAAGGCCGTGCCGCAGGTGTGACAATTGAAATATTAATGCAAAGACCATCAGCAGATGACCTTCCTACGAATATAAGAGCACAGATGGGATTTAAAGCTGGTTTAGGGACTATGGACTCTATTGGCTATAATATGGTATTTGATACGAACAACGTTGAATATAAGACAGTTACTGAAAAAGGTGGAGGTTACGTCCAAATAGATGGCAAACACACTGCTCCAGTTTATTTTGAAACGCCTTATATAGATAAAGATTTTGATTTTATAGCAGAAATAGAAAGATTAATGAGCAAACAAAAAGAAACATCAGCTAATACAGTATATTAA	MVFYIWNKILSLTHKKDGQWSNVLFPQKQGSLLFKFVGLLIIIFLWGALWEFLEISTLRMNILGGLINPLLSGTFIVLWFITTYFSVRGYLGLFKRNKSWIANNLVYMINSLKLYDEEYFETTKNDKVVREKRIVRVIRIQYRETSKHIVVRILRDGDRFTNEATKLGENLESALGLELDSTNKAVDYAEYVFLKNKDKRIDLNSTVTSMNGSDEIKITENISYELHKVPHSLIVGGTGSGKSFFILGKIVSYLNLSPQADLRIIDPKKADLSLLRFVTGFENKVVTEANQICRILRETVELMEQRYTDYFNDISAFGKTYRDFGLPPIIIVFDEFSAFIHSVDKKVAREALDYVFVLVMKGRAAGVTIEILMQRPSADDLPTNIRAQMGFKAGLGTMDSIGYNMVFDTNNVEYKTVTEKGGGYVQIDGKHTAPVYFETPYIDKDFDFIAEIERLMSKQKETSANTVY				NA	NA	NA	NA	NA
AK009_08213	111			hypothetical protein	ATGATTCTTTTACCGTTAAGTATCGCTTATTTGCTAGTAGGTATGTGGCTATCTGATATTACGAATTTTGGTAGAGCATATGTGTTTCCATCTAGTGCAACTGATCTCTAA	MILLPLSIAYLLVGMWLSDITNFGRAYVFPSSATDL				NA	NA	NA	NA	NA
AK009_08214	273			hypothetical protein	ATGTTCCAAGGATTATCAAAGCAACACTTAAAGCAGTTGCATAAAAAGTGGAAAAGAATTTATGGGACAATTACAGTTCCAAACCATAGCTTGGTAGCTAAAGGAAGAAAAGAGTTAGAGGCTATTTTTCATGGGTCTGTTCACTCTAAATACACTAGGGAGATATTGCAAGCGTTGGATTATGCGAGAAACCACTACCATTTTCTCACAGGTGCATCAATGTTAGATGACATTATCTCTCATAAAAGAATTGACTTTAATGATTATCGCTAA	MFQGLSKQHLKQLHKKWKRIYGTITVPNHSLVAKGRKELEAIFHGSVHSKYTREILQALDYARNHYHFLTGASMLDDIISHKRIDFNDYR				NA	NA	NA	NA	NA
AK009_08215	144			hypothetical protein	ATGTTTATTGATGAAGATTTTAAAAACATGACGAAAGAAGAGAGAGAAGCAGCAATTGAGTATATGGAAAGTTACTTAGATGATATTGCCGTCTCGAATGGCGATTATCGCATAGAAGATGAAGAAATTATTATTGAAGACTAA	MFIDEDFKNMTKEEREAAIEYMESYLDDIAVSNGDYRIEDEEIIIED				NA	NA	NA	NA	NA
AK009_08216	408			hypothetical protein	GTGAGGTTAGCAGTACGTTTGTCGATTGATACAATGAGATGGATCAATGAATTAGAAAAAATTTATAATGTTGAATTTGGTGGTTTAACACTTGGCCAAGGCCATGTAGTAAGCAAAGCTTATCATTTATTAAGTACGTCTCCTGAAAATTTAGAGGATATAAATTGGGTTAAAATAAAAAAAGAAATAATAAAAATTTCTGATATGAAAATAGAAAGTTTAGAAAATAACAATACAAACGGTAACGTAACATCATTGAATCTAAGCAATGAAACAATAGATGGTGTAAAAGAAATGCAAAAATTTCTTCCTGATAAATTAGGTGGCAAGCGAGTTAACGTTGGGTATTGTATACAGCTAATTGTTAAGGCTGCTTTACTCAAAAATAAAGGCATCTCTATTTTATAA	MRLAVRLSIDTMRWINELEKIYNVEFGGLTLGQGHVVSKAYHLLSTSPENLEDINWVKIKKEIIKISDMKIESLENNNTNGNVTSLNLSNETIDGVKEMQKFLPDKLGGKRVNVGYCIQLIVKAALLKNKGISIL				NA	NA	NA	NA	NA
AK009_08217	1020			hypothetical protein	TTGGCAGTTTCTAAATTAACTTGTAAATTGTTTAAACTAACAGGGATAACTAGTTTGGCTGATGTAGAAAAAAATATACTAAATAAAAGTTATGCTGAAGCACTTAAAATATCTAAAAAAGATACTAAGCAAGCAGAGACTTTATCTGATGATGAAAAAAACTTTTATTATAAATGGGAAGACTCATCTGAACTAAATGAAATTGAATTAACTGAAGCAAATGAAGAATCTGACCAGAATATTGCTCAATTTATGTTTGCTACTGCAAATATTGAATATACAAAGAAAAGAAAGAAGAATTCAATTGGTCAATTTCTTCCTAAAGCAGACAGAATTAACGATACTCAAGTTATGACGTACTTTTTTTGTATGAATGATTCTGTTTATGTAATTATTTGCACATCAAATGAGTTTCATGTAGAGAGGGTAAAAAAACTTATTGGAACCAATTACATAGCTAAGCAGGATTATACTTATGATATTCAATCTGATTTATTTAATTGGCTATTTTTTAAGTTTACTCAGAATAAAGGCTCTCTAGCAGACGGACTTAAGTTAATGAATATAAGTGGTTTTATTGGTAATATCGGTGATGAACAAAACATTTTTAAAGGAACATCAGATCAAACATCGGAACTTATAATAACTAAAGCTTTTATAAGTAACGGAGAAACTCTAAAAACAATTACTGCTAGGTTGAAAAATAAAGACATAGACATTGTTTTTACAGTTGATGATAAGTCTAATACTCAAATTTATACAAATCAATCAGCGGTATTGAAACTCCTTGAATTTCAAGATAATAATACTTTCTTTATTATTTACTTATACAGTAAATTAATACCAGAATTAAAATCATTATATAATGATGCTTCCACTCAGTTTCTCTCTGAAGAAAAAAAACAGTTCTCTGAAAAAATAGGTTTAGAGGTAATAGAATCGATAATAAAACAAAACCTCATAACATTAGAAGATATCTCAGTTTTATTTGAAAGCTCGAAAAAAAATACAGCGAGTTGA	MAVSKLTCKLFKLTGITSLADVEKNILNKSYAEALKISKKDTKQAETLSDDEKNFYYKWEDSSELNEIELTEANEESDQNIAQFMFATANIEYTKKRKKNSIGQFLPKADRINDTQVMTYFFCMNDSVYVIICTSNEFHVERVKKLIGTNYIAKQDYTYDIQSDLFNWLFFKFTQNKGSLADGLKLMNISGFIGNIGDEQNIFKGTSDQTSELIITKAFISNGETLKTITARLKNKDIDIVFTVDDKSNTQIYTNQSAVLKLLEFQDNNTFFIIYLYSKLIPELKSLYNDASTQFLSEEKKQFSEKIGLEVIESIIKQNLITLEDISVLFESSKKNTAS				NA	NA	NA	NA	NA
AK009_08218	717			hypothetical protein	ATGAAAGATAAAATTATTCAATCATTAAAAACGTTTATAATTACACTGATTGTTGCATTTGTAGCCACTGATCAACAGAACTTTGTATATAGTATTTTAAAGACATTAGGTTATGAAAATGAAATTGCAAAGAAGACAGCTTTAAGTGCTGTAATTACATTCATTATAGCAATTGTATTAATTTTAACTTCATATGTATGGTCGAAAATAAAAGCTAATATAAAAAGAATGAATGTCTCACTGGTAACAAAACTAGATGGGACAAAAAGAAGTAATTATAAGTTTATACCAAATGATTGTGAATATGATGAAAAAGATGTTGAGATAGAAATTGTTCTTAATCCAGGAGGATGGCTTTCGAATCTATTGATAAAAAAAATGGGATTAAAACTTAATATATATTTTAATCCTGAAATATTAGATGTTTCTTTTTTTGATAAGTGGGATTCAGATACAGCTGGGGCATTTAGATTATCAGAACGAAATATCTCAATTGATTTACTCGGAGAAATTGAAATTAAAGGAAAGACTTTTCCAGAAAGAAGTCATATATTAAACGAACAGTTTAAAGTAAAGCCTATTAGAGTGAAAAATGATGTGACTGCTTTGGATTATGTGATAACAACAGAAAAATTCGGATATATTACAAGGATAATCTCAGGGACTTTATTATCAATTGAGTGTGATCCATTGAAAGTAACTTGTAAGGGGGAATAG	MKDKIIQSLKTFIITLIVAFVATDQQNFVYSILKTLGYENEIAKKTALSAVITFIIAIVLILTSYVWSKIKANIKRMNVSLVTKLDGTKRSNYKFIPNDCEYDEKDVEIEIVLNPGGWLSNLLIKKMGLKLNIYFNPEILDVSFFDKWDSDTAGAFRLSERNISIDLLGEIEIKGKTFPERSHILNEQFKVKPIRVKNDVTALDYVITTEKFGYITRIISGTLLSIECDPLKVTCKGE				NA	NA	NA	NA	NA
AK009_08219	516			hypothetical protein	GTGAATTTCTATAAAATTCTATTTCAACCAAATGATAAGAAAAAACCTTTTTATAAGCAGATATCTTTGAATAATGTCATAGTGGGTGAAAATGGATATTCTTATGGAATTCAATATTCTCCTCAATCTTTTAATGACTGGTTAATGGATGATAATATATATAAAATCTTTTTGGAGAGTACAGTAAAACAACTTATAATGAGTAATCATAAGTTTTTAGATCTTATAACAGCACAAAAAAGGCTCAATTTAACTCTCGTCGATTGTGAATTTAAAAATATTGATATTGAGGATGTATTAGATGGTGAAGAATTTGATTCGGAACTATTAAAATCAGTTATAGAAGACTTTGAATATCCGATCATGAAAGTTTACTTCCGCACAAAAAATCGCCACATGGTTACTTTAAAATCAAATGGTGTACTAGGAATAGACGATGATCTATCTGAAAATGAACTTGATGATATTAAAAAACTAATAGATTTTCTTGGTTTTGGACCGGTGATGCTTGTATGA	MNFYKILFQPNDKKKPFYKQISLNNVIVGENGYSYGIQYSPQSFNDWLMDDNIYKIFLESTVKQLIMSNHKFLDLITAQKRLNLTLVDCEFKNIDIEDVLDGEEFDSELLKSVIEDFEYPIMKVYFRTKNRHMVTLKSNGVLGIDDDLSENELDDIKKLIDFLGFGPVMLV				NA	NA	NA	NA	NA
AK009_08221	1548	guaA		GMP synthase [glutamine-hydrolyzing]	GTGATTATTTTGAAGAAGCAACACGATACAATTATCGTTTTAGATTTTGGAAGTCAATACAATCAGTTAATAGCACGTCGAATTCGTGAGTTCGGTGTATACAGTGAACTTCATCCACATACAATTACTGCAGAAGAAATTAAAGCAATGAATCCAAAAGGGATTATTTTCTCTGGTGGACCAAATAGCGTATACGGTGAAGGTGCATTACATTGTGATGAAAAAATCTTCGAACTAGGTTTACCGATCTTCGGTATCTGTTACGGTATGCAGCTTATGACACAACACTTCGGTGGTAAAGTAGAGCGTGCCAACCACCGTGAGTACGGAAAAGCTGTTCTTAAAGTAGAGAACGAATCAAAATTATATGCGAACCTTCCAGAAGAGCAAGTTGTATGGATGAGCCATGGCGACTTAGTAACTGGTTTACCTGAAGGATTCGTAGTAGACGCAACAAGTGAGTCTTGCCCAATTGCTGGTATGAGCAATGAAGCGAAAAACTTATACGGTGTACAATTCCACCCAGAAGTACGTCACTCTGAGCACGGTAACGATTTAATTAAAAACTTCGTATTCGGCGTATGTGGTTGTTCTGAAGGATGGAACATGGAGAACTTTATCGAAGTAGAATTAGAAAAGATTCGTGAAACTGTTGGAGACAAAAAAGTACTATGTGCACTTAGTGGCGGCGTAGACTCTTCTGTTGTAGCAGTATTAATTCATAAAGCAATCGGCGATCAGTTAACATGTATTTTCGTTGACCACGGTTTACTTCGTAAAGGTGAAGCAGAAGGCGTTATGAAAACATTTAGCGAAGGCTTCCATATGAACGTTATTAAAGTGGATGCACAAGAACGTTTCATGAACAAGTTAAAAGGTGTAGAAGATCCAGAACAAAAACGTAAAATCATCGGTAACGAATTCATTTACGTTTTTGATGATGAAGCATCTAAATTACAAGGTATGGACTTCTTAGCACAAGGTACACTTTACACAGATATCGTTGAAAGTGGTACAGCAACTGCACAAACAATTAAATCTCACCATAACGTTGGTGGACTTCCAGAAGACATGCAGTTCAAATTAATTGAGCCTTTAAATACGTTATTTAAAGATGAAGTACGTGTATTAGGATCTGAACTAGGAATTCCTGATGAAATCGTATGGCGTCAACCATTCCCAGGTCCTGGTCTTGGTATTCGTGTATTAGGTGAAATCACAGAAGAGAAATTAGAAATCGTTCGTGAATCTGATGCGATTTTACGTGAAGAAATTATTAAAGCAGGATTAGACCGCGAAATCTGGCAATACTTCACGGCGCTTCCTGGTATGCGTAGCGTAGGTGTTATGGGTGACGAGCGTACTTACGATTACACAGTAGGTATCCGTGCAGTAACATCTATTGACGGTATGACAGCTGACTGGGCACGTATCCCTTGGGACGTACTAGAGAAAATCTCTGTTCGTATCGTAAACGAAGTAAAACACGTTAACCGTATCGTGTATGATGTAACGAGTAAGCCACCAGCAACTATTGAGTGGGAATAA	MIILKKQHDTIIVLDFGSQYNQLIARRIREFGVYSELHPHTITAEEIKAMNPKGIIFSGGPNSVYGEGALHCDEKIFELGLPIFGICYGMQLMTQHFGGKVERANHREYGKAVLKVENESKLYANLPEEQVVWMSHGDLVTGLPEGFVVDATSESCPIAGMSNEAKNLYGVQFHPEVRHSEHGNDLIKNFVFGVCGCSEGWNMENFIEVELEKIRETVGDKKVLCALSGGVDSSVVAVLIHKAIGDQLTCIFVDHGLLRKGEAEGVMKTFSEGFHMNVIKVDAQERFMNKLKGVEDPEQKRKIIGNEFIYVFDDEASKLQGMDFLAQGTLYTDIVESGTATAQTIKSHHNVGGLPEDMQFKLIEPLNTLFKDEVRVLGSELGIPDEIVWRQPFPGPGLGIRVLGEITEEKLEIVRESDAILREEIIKAGLDREIWQYFTALPGMRSVGVMGDERTYDYTVGIRAVTSIDGMTADWARIPWDVLEKISVRIVNEVKHVNRIVYDVTSKPPATIEWE	PGPT0021580_3881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
AK009_08223	387			hypothetical protein	ATGCCGGAAAATAAAGAGAAATCAGTCGGAACAGGCGTAAAAAAATCAACTATCCAGCGAGCTTTACGCATTGCTAAATGGGCTGCAAAACAAGGGTGGAGCGATGAAGAATTTTGGGAAGCCATTGAATTACTTCAATCTCATCAAGAAGATGGACAACAAACAACAGAAGAAAAGATAAAAGGACTTTCAGTGACTTATGAAAAAGTGAATGATTATCCAATTATATTGAATGTGGATCATGTAGCACAAATATTAGCTGTTTCTAACTCAACAGTTTATGAAATCATGAGACACAAAGGGTTTCCGTTAATCAACATAGGCAATCGAAAACGAGTGCTTAGAGAAGAATTCTTTAACTGGCTCAAAGGAATATCAGCGTCATAA	MPENKEKSVGTGVKKSTIQRALRIAKWAAKQGWSDEEFWEAIELLQSHQEDGQQTTEEKIKGLSVTYEKVNDYPIILNVDHVAQILAVSNSTVYEIMRHKGFPLINIGNRKRVLREEFFNWLKGISAS				NA	NA	NA	NA	NA
AK009_08224	1608			hypothetical protein	TTGAGTTTAAATATGTATTTAGGGGAAGTACATACCCAAACACAAAGTATGAATGCTGTATGTACCGCTACCATTCAAGGTATGGAACAAGCTATTCAGTCGATTGATGCTTTTGCAATTGATACTGTTCTACAAGGAAAAACATATAGCAGTGCAAAATCATTTTTTGTACAAACCTTTCGACCTTTGGCACAAGGAATCATATATTTGTGTGAAGAATTAATTCGTCAGAATGATGCTTTTCCAAGTCAATTTCAATCACAAGTCGCTTCTACAGATGTAATTGAACAAGAGATATTAGAACAAATTCGGGAAATTGACCGAATGATAGCAAGTACAGAAGCGCTCAACCAAACTATGCCGATCCCAGGCATGGACGCTATGGTAAATCTTTTTGCTGTTATGAGGCGTAAACTGCAAGAAAAGTTAGAACATCTATATGAATTTAATTATACTTCTAGTAATAATTATGATACTGCACTCCAACTAGCCGCTAGCATTGCGACAGGTTTGGCAGAAGTTCAAAGTGGAAAAGGTTTTAGTCCCGCCAGTGGTACATTTAGTACACAAGGGTTGAATATGGAGTGGGTAGCCTCTATCCAAAAAATTGCCGAGGAAAAAGTTCGCGAAGATGAAATAAAAAAAGCAATTGAAAAAGCAATTGCTTTACGAGAACAAGAAGCTAATAGACCATGGTATGAAAAAACAGCTATCAGTACTTGGGAATTTATGAAAGAATTTTTTCAAGGCGCTGGCAGCGCGGCTTTCGAAAGCGTTATTGGACTAGAATCACCTGATAATGATGAATTAGAAAGCAAGTTAACTTATCAAGCGGGAAGGTTCACGGGAAATGTTATAGCAGGAGCAGCTTCCATTATAGAAATTCTAGAAGGCCTTACCGTCATAGGCGGCTCTAATTTTTTAACTCTAGTCGCAACAGTAGGAACTGGTGGATTAGCATCACCAATTGCTATTACGTTTGATGCAGCTGCTACAACGGCTGGAGTTAGTCTTGTTGGACATGGTGTATTTGTTGGGCGTAATGCAATTCAAAATGGTAAGGATACTCTTCAAAAGTTCCAGTCTTCTTCTAATGGGACTAGTGGTAGAATAAAGGAGAAAGCCGATGCTAACAGCCTTCAAAAATCCCAGTCTTCTAGCGAGGTTGGTAATAGTGCAAAGAATACAGAAAAAATACGGATTGTTGATGGAAAAAAACAATATAATGTAAACGGAAAATGGTTAACAGATAAACAATTTTCAGCTCTTCGTCAGAAAGCTGTTCGCCACGCATGGAGACAAGAGAAAGAATTGATTAAAAAAACTGGAAAAGGAACGAGAGATTGGACCCCTGCAGAAAAACTAGAGTTATTACAAACAGGAAAAGTGAAAGGCTACGAGGGACAGCATATGAAATCTGCTAATGAATATCCTGATTTTGCTGGTGAACCAGATAACATTCAATTTTTAAAGGGAAGAAATATGGATGTAAACGAACATCTTGACGCCCATCGTGGGAATTATCACAATCCTACAAATGGCTACTATACTCCTAAGAATGATAGTATGACTGACTTTGGAGACGTTGTGCCTTGGAAACATGAATAG	MSLNMYLGEVHTQTQSMNAVCTATIQGMEQAIQSIDAFAIDTVLQGKTYSSAKSFFVQTFRPLAQGIIYLCEELIRQNDAFPSQFQSQVASTDVIEQEILEQIREIDRMIASTEALNQTMPIPGMDAMVNLFAVMRRKLQEKLEHLYEFNYTSSNNYDTALQLAASIATGLAEVQSGKGFSPASGTFSTQGLNMEWVASIQKIAEEKVREDEIKKAIEKAIALREQEANRPWYEKTAISTWEFMKEFFQGAGSAAFESVIGLESPDNDELESKLTYQAGRFTGNVIAGAASIIEILEGLTVIGGSNFLTLVATVGTGGLASPIAITFDAAATTAGVSLVGHGVFVGRNAIQNGKDTLQKFQSSSNGTSGRIKEKADANSLQKSQSSSEVGNSAKNTEKIRIVDGKKQYNVNGKWLTDKQFSALRQKAVRHAWRQEKELIKKTGKGTRDWTPAEKLELLQTGKVKGYEGQHMKSANEYPDFAGEPDNIQFLKGRNMDVNEHLDAHRGNYHNPTNGYYTPKNDSMTDFGDVVPWKHE				NA	NA	NA	NA	NA
AK009_08225	531			hypothetical protein	ATGCTAAGAAAATATTATTCAAAAAACAATCATTTACAACCATTTTTTGAGGAAGTTAATAAATATGTAGATGGTATTCACAACCTAAATAATGGAATCAACTTAGAAGATATAACAAGCCTTCAAAATGAACTTAACATTCAAATTCCTGATATATATAAAGATTTTCTCCAAGTGTGTAATGGTGGAGAATTATTTATACCTGGAACAGTCCTGTCAGAAATTCATACAGCTGCTCAGGGCCCAAAACAGCGTGGTGGCTCCTATCTAAATGATTCGTTTAAAAAAGAACGAAGACCGACAAAGATGCCAGACACGTATTTAATCATCGCAGATTTAAACTATGGTGACTCGATATGTATAGACTTAGAATCAAGCAATGGATACGATGCAACGGTAATACAATGGGATAGGGAGACTCACAGCGTTTCTAGATCATGGAATGGTTTGGCGGAATGGTTAATGGATACCTTAGACGAAGGATCATTACTAGTAGATTATGATGGTAATGAAAAAGATTTAGACTTTTAA	MLRKYYSKNNHLQPFFEEVNKYVDGIHNLNNGINLEDITSLQNELNIQIPDIYKDFLQVCNGGELFIPGTVLSEIHTAAQGPKQRGGSYLNDSFKKERRPTKMPDTYLIIADLNYGDSICIDLESSNGYDATVIQWDRETHSVSRSWNGLAEWLMDTLDEGSLLVDYDGNEKDLDF				NA	NA	NA	NA	NA
AK009_08226	1185			hypothetical protein	ATGATTACATCTAAATTTAATGGAGAAAGATTGAAATTAGCTAGACGCTTTAATGCAATGAGTTTATTGGATTTAGCGGAAAAGCTTTCAATATCTAAACAAATGATTTCTAAGTACGAAAAAAATATTAGTCCACCCGGTGGAGAAATCATGCTTCAACTGGAGGGAGTTCTAGGCTTCCCAAGAAAGTTCTATTTTGAAGATGATACTGTTACAGATAAAGTAGGTAATGCTTATTTTAGAGCGCTTGCGAAAACTTTGAAGAAGGATCTTGAGGCTCAGAAGTTGAGGTTAGATTTTCTTTCAATTATTTATCAGCTTATTAATGAGTATATTGATTTGCCTAAAGAAAACTTACCTACTTTAGATGTAGATAATATGAGCATAGAAGAAATGGCTGTACAAGCCAGGGAGTTTTGGGGACTAGAAGATAAACCAATTAAAAATATGGTTGAACTCCTGGAGGTAAATGGAATAATTGTTTCTACCTCAAGGATAAATGTGGCTGAAATTGATGCATATACGCAGACAAGGAAAATAAATGGTTCAGATATTTATTTTGTAGTATTAGGAAATGATAAAGGTAGTAGGTATAGAAGACAATTTGATGCAGCGCATGAGCTTGCTCATATATTGATTCATGAACCTTATCTTGATTTATCTACATTGTCTAAAGATGAAGAAAGAGAAATGGAACAGCAGGCAAATGACTTTGCTAGTGCGTTTCTATTGCCTAAAGAACCTTTTATAAGAGATGTTAGTATGTTCCCTATTGATCTAGACCATTATGTCTTTATGAAGAAGAAGTGGCATGTTTCTGTGGGAGTAATGATTAGAAGGGCATACAATTTAGGAGTAATTACTTTCAATCAATATTCGTATTTGCAGAGACAAATGAGTAAAAATGGTTGGAGAAAAAAAGAACCATTAGATGGACAATCTAAGCCTACAAGCCCAGTTTTAATTAAAAAATCAATTCTTACATTGCTTGAAAATGATGTTTTTGATGGTAATAGCATTTTGGAAGAACTTTCAAATGAGTATCAATTGAGCCTACGTGAAGAGATGTTTGAAGCATTGACTGGTTTAGAAGAAGGTACACTGGCTAAATTTAGAAATGATAATTCTAATGTAGTATTATCATTGAAAAGAAATGCTAACATTAGATCGAATAGGACAGTATAA	MITSKFNGERLKLARRFNAMSLLDLAEKLSISKQMISKYEKNISPPGGEIMLQLEGVLGFPRKFYFEDDTVTDKVGNAYFRALAKTLKKDLEAQKLRLDFLSIIYQLINEYIDLPKENLPTLDVDNMSIEEMAVQAREFWGLEDKPIKNMVELLEVNGIIVSTSRINVAEIDAYTQTRKINGSDIYFVVLGNDKGSRYRRQFDAAHELAHILIHEPYLDLSTLSKDEEREMEQQANDFASAFLLPKEPFIRDVSMFPIDLDHYVFMKKKWHVSVGVMIRRAYNLGVITFNQYSYLQRQMSKNGWRKKEPLDGQSKPTSPVLIKKSILTLLENDVFDGNSILEELSNEYQLSLREEMFEALTGLEEGTLAKFRNDNSNVVLSLKRNANIRSNRTV				NA	NA	NA	NA	NA
AK009_08227	717			hypothetical protein	GTGTCGTCTTTGCCTTTTAAACTGAATGTTGATGGAGATAGTATTAAACAAATCATTCAAAGGGTTCAAGCGTCGTTGTCTAAGGCTAGCGATAGATTAGAAACTGACTATGGGTTTAACAATGGTCATGGGATGGCAAAATGGAGTTTTATATATTCCCATCAAATTGGGAATGATACAGAAGAGTTTACTGCATTTAAAACAAAGAGGAATGGCTGGAAAGTTGCAGGACTTGTTGATACAACAAGTAAAACTTTATTTTTCTTTCTGTCTCAGAAAAATCTTGAGGCTAGGCAACAAGGGAAGATAAAATCTAAAGTGATGTACTACATTTCTGCATTGTCAGGTATATGTAATGTGAATTTCGTGGAGAAATTAGATTTTAATCAGAGAAGAGCGATCCAGGCCCAGTTAACTTGGGGTTTTGATTATGATGAGGATGAAGCTCGTCAAATATATGATGAAATGCTTCGGGTATGTCCTTGTGAAATTGAACAATTCTGTGTGATTAGTCTTGATATGAAAGGCTATGAATTAAAATCCGTTAAAGCTAATATATTAAATGAAAATTTAGATACGCTTTATGAAGAGGATTGGAGTGACTTTATTACTGTTGCTGCTAATGATGATAGTGATACGGATAACAAACAACAAGAACAAGAACAACATGACATGGACGTTCCACTGAAAACAAAGCGCAAGAAAACATCTGAATAA	MSSLPFKLNVDGDSIKQIIQRVQASLSKASDRLETDYGFNNGHGMAKWSFIYSHQIGNDTEEFTAFKTKRNGWKVAGLVDTTSKTLFFFLSQKNLEARQQGKIKSKVMYYISALSGICNVNFVEKLDFNQRRAIQAQLTWGFDYDEDEARQIYDEMLRVCPCEIEQFCVISLDMKGYELKSVKANILNENLDTLYEEDWSDFITVAANDDSDTDNKQQEQEQHDMDVPLKTKRKKTSE				NA	NA	NA	NA	NA
AK009_08228	603			hypothetical protein	ATGGAAATACGTTGTTCAGCTGGAGAACTTAAATTAACAACACGTAGTAAGAGTAACGAAAAAATAATCAGTGGTTATGCAGTTAAATGGGACAAATGGTCTATTAAGATATATTCGAAAAGAAAGCAATTTTATGAGCGAGTGAAAAAAGGGGCTTTTCAAGAATCCTTGAAAGAAAAAGACCAAATTGCATTGTTTAACCATAACAAGAATAAGTTTTTGGGGAAAATTCAAGATGGTAGTTTAACATTGGAAGAAGATAGCGTAGGTTTAAGTTTTAAGTTAATACTTCCTGATAATGATCTAGGGAAAAAGGTATACCAGGAAGTGACTAGCGGTAAATTATCACAAGTATCTTTTACCTTTGTAGATGAAAATTCAACTTGGGAAACCAAATACGAAGAAGAGTATAGGACTATTTTAAAGGCTCGTTTAAGTGAGATTAGTCCAGTCTATAATCCGGCATATCCGGATACCACTGTTGTGGAAGGTGACAAGCGCCAGCATTTGTTGATGAAAGAACAAATTGATCATACTCTGTTTGAGCTTGAAAGGAGGGAATTAATCCGAAAGATTAACGGTGCTTTAAAGATGGGAAGCTAA	MEIRCSAGELKLTTRSKSNEKIISGYAVKWDKWSIKIYSKRKQFYERVKKGAFQESLKEKDQIALFNHNKNKFLGKIQDGSLTLEEDSVGLSFKLILPDNDLGKKVYQEVTSGKLSQVSFTFVDENSTWETKYEEEYRTILKARLSEISPVYNPAYPDTTVVEGDKRQHLLMKEQIDHTLFELERRELIRKINGALKMGS				NA	NA	NA	NA	NA
AK009_08229	627			hypothetical protein	ATGAACTATGAAGAAATGATGAAAAAGGCAAATTTATACCATGAAATGTTGGAGGTATTAGCTAGACCGTCACAATTAATTACGGAGAGTCAGAACAAGATTAATGTCTTAAAGAAAGAAATTGAAGAGCTTGAATCAGATGATAAACAGCAAGTGTTAAACAAGTTGAATCCTAAGAAATTCTTCTTCAAAAAACAAGAATCAGTCGATGTTGAAGAACTCATTTTGAAAAAGGAGATTGAAATACGTAAAGAAGAAAAAAAAATTGAGAAATTACAAGATACGAAATTAACGGAAATTGTAGATCTTGATGGAGTTGTGGATGAATCGCAAAAGATTGTGGATAAAAAGTATAAGATGTTGGAAGAGTTGGCATCCAAAATATTAAAGGTTAGAGATGAATATCATAATTTAGTAGATAACTACGAAAAAGAATATGGTGAATATAAAAACTTTGGTGAGACCATTCGTTCCAAAGTTAATTCGGTTAAGAAAGTTGATTATGTTCCTCAACATAGAGGGGATAATGGTTACATGTGGCAAGGGAAACAATTGGAAATCCAAACGATTAATCATGAAATTATTGATGGACATAGACAACGCGCTATGAGTAGAGCAACGTATTAA	MNYEEMMKKANLYHEMLEVLARPSQLITESQNKINVLKKEIEELESDDKQQVLNKLNPKKFFFKKQESVDVEELILKKEIEIRKEEKKIEKLQDTKLTEIVDLDGVVDESQKIVDKKYKMLEELASKILKVRDEYHNLVDNYEKEYGEYKNFGETIRSKVNSVKKVDYVPQHRGDNGYMWQGKQLEIQTINHEIIDGHRQRAMSRATY				NA	NA	NA	NA	NA
AK009_08230	138			hypothetical protein	ATGACTAGACAATATGAGACCGCATCTATGACTCACAGAGAACTTAGGGCTAAATTTGAAATGAGCAAGGAAGAAGAATTAAGAATGAGTATTTTAAAACAGATAAAAGATACTTTGAAAAAAATAAATAAAATGTAA	MTRQYETASMTHRELRAKFEMSKEEELRMSILKQIKDTLKKINKM				NA	NA	NA	NA	NA
AK009_08231	285			hypothetical protein	GTGGAAGATATGGAGCAAAATGTAAGCATAGATCTATTTGGACATGTAAAAAGCATTCGATTTAAAGATAGTAAGTTGATTTTATTCTCATTTATTGATGATATACGTGGAGAATTGCTTTGTGCAGCTTATAAGGATGAAAGTATCCTTTATTACCATATTGAAAGAGATAAAAGATACCATTTACAGGTGAATTTAAAGGGATTTATGAAAGAAGCTGAAAATGGTGAAACGTACCTAAACAATGGTTTATACGTCAAAAGAGTTTATGTTGAAAAAGAGTGA	MEDMEQNVSIDLFGHVKSIRFKDSKLILFSFIDDIRGELLCAAYKDESILYYHIERDKRYHLQVNLKGFMKEAENGETYLNNGLYVKRVYVEKE				NA	NA	NA	NA	NA
AK009_08232	381			hypothetical protein	TTGAATTGGTTGAAAGACTATCAGAAATTAGAACAAGACATTGCTTATTTGGAATGCAACTTAGATAAAACAAAGGCTGAATTAAAACGCTGGATCAGTGGCGACTTACAGAATGTTCGTCTAACTGCTGAGTCAGATGGCGCAAAAGTAGAAGTACATATTGAAGCAATTGAGTATGAACTGGCTCATAAGCTGAATGATATGTACAAACTGAAAAAGTTAGTGAGTACATTCAAAGGATTAGAAAATAGAATACTTAAGCTAAAATATATTGATGGTATGACGTTAGAACGGGTAGCAGATGAGTTAAATTATAGTACAGGCTATATTAACAAAAAACATGCTGAGATTATGAGGGAAATCAAGTTTGTGGGAGATTAA	MNWLKDYQKLEQDIAYLECNLDKTKAELKRWISGDLQNVRLTAESDGAKVEVHIEAIEYELAHKLNDMYKLKKLVSTFKGLENRILKLKYIDGMTLERVADELNYSTGYINKKHAEIMREIKFVGD				NA	NA	NA	NA	NA
AK009_08233	219			hypothetical protein	ATGGCAACTAAAAAATCTCCAATCGTATTAGCAATAGAAAGAGACACAGCAGGAAATCTTAGTACATGGTGTCAGTACTGTAGAAAGTTTCACCATCACGGTACAGGTGAAGGACATAGGGATGCACATTGTTTTGAGGAAGATAGTCCTTATGTTCGTACAGGTTATGTTCTTAAGAAGATGAAACTATCAGGTAAAGAGATTGTGATCAAAGAGTAA	MATKKSPIVLAIERDTAGNLSTWCQYCRKFHHHGTGEGHRDAHCFEEDSPYVRTGYVLKKMKLSGKEIVIKE				NA	NA	NA	NA	NA
AK009_08234	2553			hypothetical protein	GTGCTTGATAAATTTAACAATATACCAACAGAATTGAAAAACTGTTCTCAGTGGGTGCTTTGGCGAAAAGAGAAGAGGAATGGCAAGCTAACAAAGGTTCCATACCAAGTAAACAGCAAAATGGCACAGGCGAATAATCGTAACACTTGGTCAAGTTTTGAAATGGTCGTAGAAAAGTATAAACAAGGTGGATATGACGGAATAGGCTTTGTTTTTAGTAAACAAGATGATTACGTGGGAATTGATTTGGATAAATGCTGTGTAGACGGGGAATTATCTGAATTAGCCCGGGACATTATGAGTATTGTTCCAAGTTACACTGAATACTCTCCAAGTGGTAATGGAATCCACATCATTACAAAGGGAAAAATACCATTAAGAGGACCTGGGACCGGTAAAAAAGTTCCTTCTATTGGTCTTGAGGTCTATAGGCATACACGGTACTTCACATTCACGGGAGACAGTATAAATAATAATCATGTGGAAGAATCCACAGAAAACTTAAAAGTTCTCTTTCAAAAGTATATAGAGAAGAAGGAAGTTCCTGCAGCGTCAAAAATACCTTCTGTTTCAAAGGGAAGTAACAGAAGCAATCTCTCTAATTCAGAACTATGGGAGCGAATGTTTAATAGTAAGAATGGTGGAGCTATTAAGGATTTATTTTGTGGAGTGCTTATAAATGGTGATCATTCTTCCACAGATATGGCTCTTGCCAATCACTTAGCATTCTGGACGGATAAGGATGCTGCAAAGATGGATACCATGTTTAGAGAGTCTGCATTAATGCGTGATAAATGGGACAAGCAACATTCTAGTGATGGCCTTACATACGGTGAAATGACAATTGATAGAGCTATTTCTAGTACCCACAATTCTATTTCTAATAATAATGCTAGTAATAATAAAGAAAATGAGAAAATCCTTCTCCCTTCTCCTTATAAAGATATAAATGGTGCTTTGTATAAGGTAGAAATCAAAGTTAAAAAGGATGAAATAGAGGAACAAAATATACCAGTTGCTCGACATGTTCCTTATTTAAAACGAGAGCTCTGTAATATTGAAAAGCCTCAAGTTTATTATGAATTAACTTGGAATAATAGAGGGAACAATGTTACTGAATTAGTAACAGCTGGATCGTTGGCAACCAAAAGGGAAATGATGCCTTTAGCTGAAAAATCATTTCCGGTTAATGATAACAATGTTAAACAATTAATCGATTACTTTGACAAAGTCCTTGCATCTAACGAAATAGAAACTGGTTGGATGGTAGAACGTCTAGGGCATATAAAAAATGACTGTATTCATCCATTGATTGAAAAAGGGTACGATATTCTCCCGGCAGATCTAGGGGATCGTCAATTACTCGAAGCTTTCCAATTAAAAGGGACAGTTAAAGGGTGGATAGATGGAGTTTTTAATGAAATAAAAAGTCATCCAAGAGCGTTATTTTTTGTTTTATCCTCATTTGCTAGTATTTTTCTTCATGATTTGAAGATAGATCCTTTCATTGTGGAGCTAGCGGGTTCGACCTCGACCGGTAAAACAACAGCAATGAAGATAGCGGCCAGTGTATGGGGAACCAATCAACTTATTAATGAGTTCAATTCTACAAAAACGAGTGTAGAACGTAAATCATCATTCTTAAATAGTTTTCCGTTATATCTAGACGATAGTAGGAAAGCAGATGAGAGACTACTTCAATCTTTTGTTTATCATTTCAGTGGAGGTAGGTCTAAAGGAAGAGGAACTTTAAATGGCTCGCAGCTTGAGTATACATGGAAGAATATCTGTCTGGCAACGGGAGAGATAAGTTTAAATGATTACTCAGCTAAAGCAGGTGGTGTGGCTGCAAGGGTTATTAGCCTAACTGATTCTCCTTTTACTGAAGTAGGTCATTCATTTTTTGAAGGTTTATATAAATCTATGGAAAATAACTATGGATTAGTAGGATTAGAGTTTTTTAAGCAATATCAGAAGCACAAGGAAAAGTGGTTACCGCAGTTCTATAAATTTAAAGACTTATATATGAAAAAGTCTCAAGGGAATGAGGTATTAACCAGACTATCTTTATATTATTCAGTAGTTCACTTTACTGGGAGTATAGTGAAAGAAATATTCAGCTTAGATATTGACCTTAATAAGATTTATTCATTATTTGACGAGATGGCAGATAATAACAAAGCTATTGATAAACCAAAACAGTTTTTAGAAGAAATATTAAATGATTTGGATAGTAATAGACAAACAATTTTTTATGATAATCATTTTACGCCTAATTCGATACATGCAATATATAAAAATAAAGCAGATTGTCTTTATTTAACACCGGCTTATTTATCAAAAATGTTAGGTCCTGAGGAAAAGACTATTCGGAAAGAATGGATAAAAAAAGGAATGACAATATCGAGTGAAAAGAAAGGGTCACACGTGGATTACAAAGCTGTAAAACATGAAGGGAAAACATATCGAGTCATTCCGTTAAACATGGATTTTGTAAATTCACTAGGCTTTGATTTTAAGCATATCAATGAGCCTAAATACAAAGTTGTTTAG	MLDKFNNIPTELKNCSQWVLWRKEKRNGKLTKVPYQVNSKMAQANNRNTWSSFEMVVEKYKQGGYDGIGFVFSKQDDYVGIDLDKCCVDGELSELARDIMSIVPSYTEYSPSGNGIHIITKGKIPLRGPGTGKKVPSIGLEVYRHTRYFTFTGDSINNNHVEESTENLKVLFQKYIEKKEVPAASKIPSVSKGSNRSNLSNSELWERMFNSKNGGAIKDLFCGVLINGDHSSTDMALANHLAFWTDKDAAKMDTMFRESALMRDKWDKQHSSDGLTYGEMTIDRAISSTHNSISNNNASNNKENEKILLPSPYKDINGALYKVEIKVKKDEIEEQNIPVARHVPYLKRELCNIEKPQVYYELTWNNRGNNVTELVTAGSLATKREMMPLAEKSFPVNDNNVKQLIDYFDKVLASNEIETGWMVERLGHIKNDCIHPLIEKGYDILPADLGDRQLLEAFQLKGTVKGWIDGVFNEIKSHPRALFFVLSSFASIFLHDLKIDPFIVELAGSTSTGKTTAMKIAASVWGTNQLINEFNSTKTSVERKSSFLNSFPLYLDDSRKADERLLQSFVYHFSGGRSKGRGTLNGSQLEYTWKNICLATGEISLNDYSAKAGGVAARVISLTDSPFTEVGHSFFEGLYKSMENNYGLVGLEFFKQYQKHKEKWLPQFYKFKDLYMKKSQGNEVLTRLSLYYSVVHFTGSIVKEIFSLDIDLNKIYSLFDEMADNNKAIDKPKQFLEEILNDLDSNRQTIFYDNHFTPNSIHAIYKNKADCLYLTPAYLSKMLGPEEKTIRKEWIKKGMTISSEKKGSHVDYKAVKHEGKTYRVIPLNMDFVNSLGFDFKHINEPKYKVV				NA	NA	NA	NA	NA
AK009_08235	327			hypothetical protein	ATGGATCAATTAGTAGCAGTCAATGAACAACCAAATTTAAAAAATTTCACAAGTGAACTTGATAGTGAATTAGGATCGCTGGGAGTAAGCGTTGCGACTTTAACAGATGTAGAAGTTCTTTTAGCGCACTTAGTAGAGGATATGGATACAGCGGTATACAAAGGTGAGGAAATTTATTGTTTTCGTGGATTTCATAGAAAGCTAAGAGTGTATTGGCGCCTGCTCAATTATACGATGAATGAATTAAATAAAGAATATGAAAGAGTAGATGAAATTAAAGACGGATTATTTAAAGAGGTAGTGAAGAATAGTGGTAAAAATAAATAA	MDQLVAVNEQPNLKNFTSELDSELGSLGVSVATLTDVEVLLAHLVEDMDTAVYKGEEIYCFRGFHRKLRVYWRLLNYTMNELNKEYERVDEIKDGLFKEVVKNSGKNK				NA	NA	NA	NA	NA
AK009_08236	147			hypothetical protein	ATGAACGGAGTATTGTCCGCAACGAGGATGATGAAAGGACATGAAATTGTAAAAGGATGTGCTGTGGCAAGAAAAAATCCTGAGATTTTAGAAGCTATGGAGTTTGAAGCTAAGAAAAGATTATACGAAATTAACAATAGTAAATAA	MNGVLSATRMMKGHEIVKGCAVARKNPEILEAMEFEAKKRLYEINNSK				NA	NA	NA	NA	NA
AK009_08237	288			hypothetical protein	GTGAATTTAAAATTTGAGTTACCAGATGATACGTTAATAACTTCTCGTTCGGATTTAAAAAGTTTATTACGTGAGTTAAAAGAGGAACTGCAGGAAGAAAAAATGCAAGATGATATTTTTACAATTAAGGAAGCAGCTGAATATATGAAAGTAAGTATTCCAACCGTACGATCATTAATAGCTACAAATGAAATACCTTATTTTAAAAGGGGACAAGTTATTCGTTTGAATCGTTGGGATATTCTTGACTGGATGCGTAAGGATAAAGAGAAAACTATGAAAATATAA	MNLKFELPDDTLITSRSDLKSLLRELKEELQEEKMQDDIFTIKEAAEYMKVSIPTVRSLIATNEIPYFKRGQVIRLNRWDILDWMRKDKEKTMKI				NA	NA	NA	NA	NA
AK009_08238	585			hypothetical protein	ATGCAAGAAAACATAGGTAAGGTAATTAAAGAAATTCGAAAGGCGAAAGGGATTTCAGCATTTGTATTAGGAGAAATGATAGGAGTATCTCAACAAGCAATTTCCCAATATGAAAATGGCAAAAGAAAAATTTCCTTTGAAGTACTGAATAATATAGCTAAGGCACTTAATGTTCCTATGGATACTCTTTTATTTGTAAATCATGAAGCAATAGAACAGAAAATTGCTGAAAGAGGTGTAGAGGCTTTAGAAAAGGAGCCAAGTTTATTTAACGATAAAACAGCTAAAGGACTACTAAAACTTTCAGATGACCTAAACTTCTTTGAAAGCTTCTTAGAAAGTCTGGGTTATCATAAGGAGACTCTTAATACTAACGGGGAATATCATCTAAATTTAAGTCCAACTAGTACAAATCAAATAACCGACACTGAAACAAACGAACATGTTATTTTAAGCGGCCGTGAATACCTCGAATTTTATGAAAGAATATCTAGGGTTATTGATTTTGAATTCAATGAACTAAAAAGAAAAAAGGATTCTACAAATGCTATAAATCAGTTATTTGGACAAGATGAACTATTATAG	MQENIGKVIKEIRKAKGISAFVLGEMIGVSQQAISQYENGKRKISFEVLNNIAKALNVPMDTLLFVNHEAIEQKIAERGVEALEKEPSLFNDKTAKGLLKLSDDLNFFESFLESLGYHKETLNTNGEYHLNLSPTSTNQITDTETNEHVILSGREYLEFYERISRVIDFEFNELKRKKDSTNAINQLFGQDELL				NA	NA	NA	NA	NA
AK009_08239	1179	xerC_13		Tyrosine recombinase XerC	ATGGCTTCATTCCAAAAGTATGAAACAAAACAAGGCTATAAATGGTTGTTAATCGCTGAAATTGGTATTGATCCAACAACAGGGAAAAGGAAACAGAAAAAAGTAAGGGGTTTTAAAACAAAAAAAGAAGCCCAATTAGCTGCAGCAAGAATAGAGCAAGAAGTAGCTAATGGAACTTACATCAATGAACCTGACATATTATTTAAAGATTTTGTGCAAGAGTGGCTTAACATCTACAGCAAAAGCACCAAAATAAGTAGCCTACGTGTTAGACAAAAGCAGTCGAATAAATTAGTCGACTTTTTCGCAAACATCAAAATGAAAGATATCACAAAAAAGATGTATCAAACAGCTTTAAATGATTTACATGATAAAGGGTATGCGTTTAATACACTTGATGGCATCCATACAGCAGGTAGAATGATTTTTAAAAAGGCTATAGAGTTACAAATAATAAAATCCAACCCTACAGATAACGTAAAACTCCCTAGAAAGGTGGAGACAGTAGAAGATATAGAAAACGATAAGAAGGCTATAAAATACCTGGAGAAAGAAGAATTAGCACATTTCTTACAGGTCGCAAAAGAAAAAGGATTAGATAACGATTATGTATTTTTTTCTATTTTAGCATACAGTGGTTTGCGTGCTGGGGAATTATTAGCTTTAAAGTGGACTGATGTAGACTTTGAAAACAATACTATCAAGATAACCAAGACGTTATATAATCCAGATAACAATAGCCAGCACTATCATTTACTTACACCAAAGACTAAAGGTTCCATCAGAACTATTAAAATGGATCAAGGCATCATGAAATTACTAAAAAGTCATAAAGCAAAACAGAATGAGTTAAAGCTATATACACGCCCTCAATACGTAGATCAAGGCTTTGTCATTACAAAAGCAAGCGGCTATCCCGAAGTAATGAAAATGATTCAGAATAGATTAAAGCGCCTTATAAAGTTATCCAATATAACTAAAAATATTACTCCTCATTCATTCAGACATACACATACATCGTTACTTATTGAGGCTGGTGTAGGTATTAAAGAAATCCAACAACGTCTAGGGCATACAGATATCGAAACTACTATGAACATATATGCACACATGACAAAAAATATGGAAGAAAAAGCCTCCCAAAAGTTCAGCGAACTAATGAAAGGCTTCGTAATTTAA	MASFQKYETKQGYKWLLIAEIGIDPTTGKRKQKKVRGFKTKKEAQLAAARIEQEVANGTYINEPDILFKDFVQEWLNIYSKSTKISSLRVRQKQSNKLVDFFANIKMKDITKKMYQTALNDLHDKGYAFNTLDGIHTAGRMIFKKAIELQIIKSNPTDNVKLPRKVETVEDIENDKKAIKYLEKEELAHFLQVAKEKGLDNDYVFFSILAYSGLRAGELLALKWTDVDFENNTIKITKTLYNPDNNSQHYHLLTPKTKGSIRTIKMDQGIMKLLKSHKAKQNELKLYTRPQYVDQGFVITKASGYPEVMKMIQNRLKRLIKLSNITKNITPHSFRHTHTSLLIEAGVGIKEIQQRLGHTDIETTMNIYAHMTKNMEEKASQKFSELMKGFVI				NA	NA	NA	NA	NA
AK009_08240	1635	groL	COG0459	60 kDa chaperonin	ATGGCAAAAGATATTAAATTTAGTGAAGAAGCACGTCGTTCGATGCTTCGCGGTGTCGACACTCTTGCAAACGCAGTAAAAGTAACGCTTGGACCAAAAGGTCGTAACGTTGTACTTGAGAAAAAATTCGGTTCACCACTTATTACAAATGATGGTGTAACAATCGCAAAAGAAATCGAATTAGAAGATGCATTCGAAAACATGGGTGCGAAATTAGTAGCAGAAGTTGCTAGCAAAACAAATGATGTAGCTGGTGACGGAACAACAACTGCAACTGTATTAGCGCAAGCTATGATTCGTGAAGGTCTTAAAAACGTAACAGCTGGTGCTAACCCAATGGGTCTTCGTAAAGGTATCGAAAAAGCTGTTACTGCTGCAATTGAAGAATTAAAAACGATTTCTAAACCAATCGAAGGCAAATCTTCTATCGCGCAAGTAGCTGCTATTTCTGCAGCTGACGAAGAAGTAGGTCAATTAATCGCTGAAGCAATGGAGCGCGTTGGTAACGATGGCGTTATTACTTTAGAAGAGTCTAAAGGATTCACAACAGAATTAGACGTAGTAGAAGGTATGCAATTTGATCGTGGATATGCATCTCCTTACATGATTACTGATTCTGACAAAATGGAAGCAGTTCTTGATAACCCATACATCTTAATTACTGACAAAAAGATTTCTAACATCCAAGAAATCTTACCAGTATTAGAGCAAGTGGTACAACAAGGTAAACCACTTCTTATCATTGCTGAAGATGTAGAAGGCGAAGCTTTAGCTACATTAGTAGTGAACAAACTTCGTGGTACATTCAACGTAGTAGCTGTTAAAGCTCCTGGATTTGGTGACCGTCGTAAAGCAATGCTAGAAGATATCGCAATCTTAACTGGTGGCGAAGTAATCACTGAAGAATTAGGTCGTGACTTAAAATCTGCTACAGTTGAATCTTTAGGACGCGCTGGTAAAGTTGTTGTTACAAAAGAAAACACAACTGTAGTTGAAGGTATTGGAAATACAGAGCAAATCGCAGCTCGTATCGGTCAAATCCGTGCGCAATTAGAAGAAACAACTTCTGAATTCGATCGTGAAAAATTACAAGAGCGTCTTGCTAAACTAGCAGGTGGCGTAGCGGTAATTAAAGTAGGTGCAGCAACTGAAACTGAGTTAAAAGAGCGCAAACTTCGCATTGAAGATGCACTTAACTCAACTCGTGCAGCAGTAGAAGAAGGTATCGTTGCAGGTGGTGGTACTTCACTTATGAACGTATACACGAAAGTAGCTTCTATCGTAGCTGAAGGCGACGAAGCAACAGGTATCAACATCGTACTTCGCGCACTAGAAGAGCCAGTTCGTCAAATCGCAATTAACGCTGGTCTAGAAGGATCTGTAGTTGTAGAGCGTCTAAAAGGCGAAAAAGTAGGCGTTGGTTTCAATGCAGCTACTGGCGAATGGGTTAACATGCTTGAGTCTGGTATCGTAGATCCAGCTAAAGTAACTCGTTCTGCACTTCAAAACGCAGCATCTGTTGCAGCTATGTTCTTAACAACTGAAGCTGTAGTAGCTGACAAGCCAGAACCAAATGCACCAGCAATGCCTGACATGGGCGGCATGGGCATGGGCGGTATGGGCGGAATGATGTAA	MAKDIKFSEEARRSMLRGVDTLANAVKVTLGPKGRNVVLEKKFGSPLITNDGVTIAKEIELEDAFENMGAKLVAEVASKTNDVAGDGTTTATVLAQAMIREGLKNVTAGANPMGLRKGIEKAVTAAIEELKTISKPIEGKSSIAQVAAISAADEEVGQLIAEAMERVGNDGVITLEESKGFTTELDVVEGMQFDRGYASPYMITDSDKMEAVLDNPYILITDKKISNIQEILPVLEQVVQQGKPLLIIAEDVEGEALATLVVNKLRGTFNVVAVKAPGFGDRRKAMLEDIAILTGGEVITEELGRDLKSATVESLGRAGKVVVTKENTTVVEGIGNTEQIAARIGQIRAQLEETTSEFDREKLQERLAKLAGGVAVIKVGAATETELKERKLRIEDALNSTRAAVEEGIVAGGGTSLMNVYTKVASIVAEGDEATGINIVLRALEEPVRQIAINAGLEGSVVVERLKGEKVGVGFNAATGEWVNMLESGIVDPAKVTRSALQNAASVAAMFLTTEAVVADKPEPNAPAMPDMGGMGMGGMGGMM	PGPT0014570_4064	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
AK009_08241	285	groS_2	COG0234	10 kDa chaperonin	ATGCTAAAGCCATTAGGTGATCGCGTTGTAATTGAGCTTGTTCAAGCAGAAGAAAAAACAGCAAGTGGTATTGTATTACCAGACACTGCAAAAGAAAAACCACAAGAGGGTAAAGTTGTTGCAGTAGGTACTGGTCGAGTGCTTGAAAATGGTGAGCGTGTTGCTTTAGAGGTAGCAGCAGGTGATCTTATCATCTTCTCAAAATATGCAGGTACTGAAGTGAAATATGAAGGTACAGACTACTTGATTTTACGTGAAAGTGACATTTTAGCAGTTATCGGTTAA	MLKPLGDRVVIELVQAEEKTASGIVLPDTAKEKPQEGKVVAVGTGRVLENGERVALEVAAGDLIIFSKYAGTEVKYEGTDYLILRESDILAVIG	PGPT0014565_3531	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
AK009_08242	750			hypothetical protein	TTGAAGAAACAATACTGGTGGATTATCGTTACATACATTTTAATGCAATTATCTGGCGCTGTTGGATTACCACTTCTCCTAAAAACAGGACTCTATGATAATAGAGGATTTACCATTGAGGAAAAAGGACAAATCATAATGGGACACTGGGCAATTATTAGCTTCTTTGTTGCATTATGTATCGTACTTTGGTTACTTAGAACAGATATTCGCGACAGACATTTAGATGCAACGCGCTCTTCTGTTCCAGCTACAATTGGGTGGATTTTCATCGGATTATTCTTAGCTTTCTTTTCACAAATAGTTGCCGGTATGATCGAGATGCAGCTACTAGGAATTAAACAAGGTTCAGAAAATACAATGAAACTGATGGAAATTGCACGAACTACTCCTTGGTTCCTTATTGTTGTATCTATAATCGGACCTATCTTAGAAGAAATCGTATTTAGAAAAATTCTATTTGGTACACTTTATAAGAAGTTTAACTTCTTTATTGCAGCTATCATTAGTTCGCTTGTATTTGCAGCAATCCATTTTGATTTTACTCACTTATTGGTATACACTGCTATGGGGCTCGTATTCGCCTTCTTATATGTGAAGACGAAGCGTATTATCGTTCCGATTGCAGCTCATGTTGCGATGAATACATTAGTCGCTATTGGGCAAATTTTTATGAGCAATGAGCAAATTCAAGAAATGATTAAAGAAGCTGAAAAAATGCAAGGCTTTATCGGAGGATTTTTTGTATGA	MKKQYWWIIVTYILMQLSGAVGLPLLLKTGLYDNRGFTIEEKGQIIMGHWAIISFFVALCIVLWLLRTDIRDRHLDATRSSVPATIGWIFIGLFLAFFSQIVAGMIEMQLLGIKQGSENTMKLMEIARTTPWFLIVVSIIGPILEEIVFRKILFGTLYKKFNFFIAAIISSLVFAAIHFDFTHLLVYTAMGLVFAFLYVKTKRIIVPIAAHVAMNTLVAIGQIFMSNEQIQEMIKEAEKMQGFIGGFFV				NA	NA	NA	NA	NA
AK009_08243	192			hypothetical protein	ATGAGAAACTCACCATTGTTCATGGCTGCACTATACTTCCTTCTTGGATGTATCTTTACACGCTTCGCCATTACGAACGTGACAGATACAATCTGGAATGTGTGGACAATACTATTTGCAGTTATGGCAACAATTGATTTTAATTTGGCACTTCGCCTTATATTAGTTAAATTCACAAAGAAGAAACAATAA	MRNSPLFMAALYFLLGCIFTRFAITNVTDTIWNVWTILFAVMATIDFNLALRLILVKFTKKKQ				NA	NA	NA	NA	NA
AK009_08244	630	rex	COG2344	Redox-sensing transcriptional repressor Rex	ATGGATCAGCAAAAGATTCCACAAGCCACTGCTAAAAGATTGCCTCTATACTATCGATTTATCCAAAACTTATCTCTTTCTGGTAAGCAGCGTGTTTCATCGGCCGAATTGAGTGAAGCGGTAAAAGTAGATTCCGCAACAATACGAAGAGATTTTTCGTATTTTGGAGCATTAGGGAAAAAGGGATATGGATATAACGTAAATTATTTATTATCATTTTTCCGCGAAACACTTGATCAAGATGATATAACGCGTGTAGCACTTATTGGAGTAGGTAATTTAGGGACCGCTTTCTTACATTATAATTTCACGAAAAACAATAATACAAAAATTGAAATGGCATTTGATGTTAGTGAAGAGAAAGTTGGAACAGAAATCGGGGGCATTCCTGTATACCATTTAGATGAATTAGAAGAGAGATTATCAAATGATATACAAGTGGCAATATTAACAGTACCGGCTACAGTAGCACAAGCTGTAGCAGATAGATTAGCTGAAACGAGCGTGCATGGTATTTTGAATTTCACACCAGCACGATTAAACGTATCAGAGAATATTAGAATTCATCATATTGATTTAGCTGTAGAGTTACAAACATTAGTTTACTTTTTGAAAAACTATCCACAATAA	MDQQKIPQATAKRLPLYYRFIQNLSLSGKQRVSSAELSEAVKVDSATIRRDFSYFGALGKKGYGYNVNYLLSFFRETLDQDDITRVALIGVGNLGTAFLHYNFTKNNNTKIEMAFDVSEEKVGTEIGGIPVYHLDELEERLSNDIQVAILTVPATVAQAVADRLAETSVHGILNFTPARLNVSENIRIHHIDLAVELQTLVYFLKNYPQ				NA	NA	NA	NA	NA
AK009_08245	1989	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGATTGAGAAATATAAACATGGCAAAGTTAAGAAATTATTTGAGGTGAGAACATTGATTTTATTACAAGTAAATGGACTTTCGAAATTATACGGTGCAGAAACAATTCTTGCAAACATAAAATTGGAAGTACAAACAAAAGATCGTATCGCATTAGTTGGAAGGAATGGAGCTGGAAAATCTACATTATTAAAAATTATCGCTGGTGAGTTATCACATGATGGTGGCGAAATTATAAAACCGAAAGATGTCTCAATCGGGTATTTAGCTCAAAATACTGGCCTAGAAACGTCTTTAACAATTTGGGATGAAATGCTAACCGTCTTTACCCACTTACGGCAAATGGAGACAAAACTTCGAAGGCTTGAGCAAGAAATGGGAAAAGAAGAAAACTTTTCAAACGAAGCTATATATGAAAGATTGTTAGCTGATTATGACCAATTGCAACTCAATTATAAAGATCAAGGTGGATATCAATATGAAGCGGATATTCGCTCCATTTTAAGCGGCCTTGGCTTCCCAGTTGAAACACACCAGACGACGATCTCTACTTTAAGTGGCGGGCAAAAAACAAGATTAGCTCTCGGGAAATTATTATTAACAAAACCAGACTTACTTATTTTGGACGAGCCTACAAACCATTTAGACATTGAAACATTAACATGGCTTGAGCAATATTTACAAGGTTATCCTGGCGCAATATTAATCGTTTCCCATGACCGTTATTTCTTAGACAAACTCGTTACACAAGTATATGAAATTTCGAATAAAGAAAGCAGACGATTTGTTGGTAACTACAGTAAATATTTAGACTTAAAATCAGCATTATATGATCAAGAAATGAAACGTTACGAAAAACAACAAGATGAAATCGCAAAACTTGAGGACTTCGTTCAAAAGAATATAGCTCGCGCTTCTACAACGAAACGTGCTCAAAGTCGCCGTAAACAACTGGACAGAATGGAATTATTAACGAGACCATTAGGGGATTCTAAGTCAGCATCATTCCACTTCGATATTGAAAAGCAAAGTGGAAATGATGTTTTACAAGTAAAAGATGCAACCATCGGCTATGAGGAGGACCCTATAATTGAACACGTAACTATGCGCTTAACTCGCGGAGATAGTGTTGCCTTAGTTGGTCCAAACGGAATTGGGAAATCCACATTATTAAAATCTATTGTGAATAAGTTACCACTATTAAATGGTAATGTTTCTTTCGGATCAAATGTATCTGTTGGCTATTATGATCAAGAACAAGCAAATTTAACATCTTCTAAACGGGTTTTAAATGAACTATGGGATGAATATCCACTGCAACCTGAAAAAGAAATCCGTACTATACTCGGGAATTTTTTATTCACAGGAGATGATGTACTGAAACCAGTATCTTCCCTTAGTGGTGGACAAAAAGCTCGATTAGCTCTTGCGAAACTTATGATGCAAAAGTCAAATTTATTAATTCTGGATGAGCCTACGAACCACCTTGATTTAAATAGTAAAGAGATTTTAGAGAATGCTTTAATTGATTATCCAGGGACTCTTCTATTTGTCTCACATGACCGCTACTTTATTAACCGTGTAACAACGACTGTGGTTGAGTTATCAACAGAAGGCGCACAGGAATATTTAGGTGATTACGATTACTATGTGGAGAAGAAAAATGAAATGATTGAACGGGCAGCATTTGAACAACTTGAACAGCAAGAAAATCAGGCACCTGTTCAAAAAACTGTAGCTCAAGAAAAATTAAATTATCTCGAAGAAAAAGAGCGTAAACAATTAGAACGTCAACGCACTCGAAAAATTGAAGAGCTAGAACAAAATATCGTAAACTTAGAAGAAGAAATTGCTACGTTAGAAGATCAACTTTGCTTACCAGAAATATATGCAGATTATGAAAAAGCTAGTGAAATTACAACTAAAAAACAAACGCTACAAGAACAGCTTGAAACTTGTATGGCAGAGTGGGAAGAGCTGCATGTATAA	MIEKYKHGKVKKLFEVRTLILLQVNGLSKLYGAETILANIKLEVQTKDRIALVGRNGAGKSTLLKIIAGELSHDGGEIIKPKDVSIGYLAQNTGLETSLTIWDEMLTVFTHLRQMETKLRRLEQEMGKEENFSNEAIYERLLADYDQLQLNYKDQGGYQYEADIRSILSGLGFPVETHQTTISTLSGGQKTRLALGKLLLTKPDLLILDEPTNHLDIETLTWLEQYLQGYPGAILIVSHDRYFLDKLVTQVYEISNKESRRFVGNYSKYLDLKSALYDQEMKRYEKQQDEIAKLEDFVQKNIARASTTKRAQSRRKQLDRMELLTRPLGDSKSASFHFDIEKQSGNDVLQVKDATIGYEEDPIIEHVTMRLTRGDSVALVGPNGIGKSTLLKSIVNKLPLLNGNVSFGSNVSVGYYDQEQANLTSSKRVLNELWDEYPLQPEKEIRTILGNFLFTGDDVLKPVSSLSGGQKARLALAKLMMQKSNLLILDEPTNHLDLNSKEILENALIDYPGTLLFVSHDRYFINRVTTTVVELSTEGAQEYLGDYDYYVEKKNEMIERAAFEQLEQQENQAPVQKTVAQEKLNYLEEKERKQLERQRTRKIEELEQNIVNLEEEIATLEDQLCLPEIYADYEKASEITTKKQTLQEQLETCMAEWEELHV				NA	NA	NA	NA	NA
AK009_08246	1032	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	GTGGGTGAATATATAATGGAAAAAAATACGATTATACTTGGGATTGAAACGAGCTGTGATGAAACAGCGGTAGCGGTTGTTAAAAATGGGACGGAAATTATTGCGAATGTCGTTGCATCACAAATTGAAAGTCATAAACGTTTTGGCGGCGTTGTACCAGAGATTGCATCCCGTCATCATGTAGAAGAAATTACAGTTGTGTTAGAAGAAGCTTTAAAAGAAGCAAACATAACATTTGATGATATTGATGCAATCGCTGTAACAGAAGGGCCTGGTTTAGTAGGAGCACTTCTAATTGGGGTAAATGCAGCGAAGGCAGTAGCTTTTGCACATGATATTCCGCTAGTCGGTGTTCATCATATTGCTGGTCATATTTATGCGAACCGTTTAGTAAAAGAAGTGCAATTCCCGCTATTATCACTTGTTGTATCTGGTGGGCATACAGAACTTGTTTATATGAAAGAACATGGTTCATTTGAAGTAATTGGTGAAACGCGAGATGATGCAGCTGGAGAAGCATATGATAAAGTAGCTCGTACGTTATCTATGCCATATCCAGGTGGTCCTCATATTGATCGCCTTGCACATGAAGGAGAACCAACAATTGATTTGCCTCGTGCATGGCTAGAACCGGATTCATATGATTTTAGCTTTAGTGGATTGAAATCAGCAGTTATCAACACTGTGCATAACGCGAAACAACGTGGTATAGAAATTAAACCAGAAGATTTAGCGGCAAGTTTCCAAGAAAGTGTAATAGATGTACTTGTAACGAAAGCAGCTCGTGCAGCAGCAGCTTATAATGTAAAGCAATTACTTCTTGCTGGTGGAGTAGCTGCTAATAAAGGACTTCGTGCCCGATTAGAAGAAGAATTTGCACAAAAAGAAAACATTGAACTAATTATTCCACCGCTATCTTTATGCACAGATAATGCAGCAATGATTGCAGCGGCAGGGACAATTGCGTATGAACAAGGCAAGCGTGCAACATTAGCCTTAAATGCGAATCCAGGATTAGATATTGAAGCATAG	MGEYIMEKNTIILGIETSCDETAVAVVKNGTEIIANVVASQIESHKRFGGVVPEIASRHHVEEITVVLEEALKEANITFDDIDAIAVTEGPGLVGALLIGVNAAKAVAFAHDIPLVGVHHIAGHIYANRLVKEVQFPLLSLVVSGGHTELVYMKEHGSFEVIGETRDDAAGEAYDKVARTLSMPYPGGPHIDRLAHEGEPTIDLPRAWLEPDSYDFSFSGLKSAVINTVHNAKQRGIEIKPEDLAASFQESVIDVLVTKAARAAAAYNVKQLLLAGGVAANKGLRARLEEEFAQKENIELIIPPLSLCTDNAAMIAAAGTIAYEQGKRATLALNANPGLDIEA				NA	NA	NA	NA	NA
AK009_08247	444	rimI_2	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGGATATGATATTTAGAAAGATGGAACTTGATGATATTGCTCAAATTGTAGCTATTGAAGAAGTATCTTTTTCAACTCCTTGGACTGCAGATGCTTTTCACCGTGAATTAACGATGAATGAACATGCACATTATATTGTGTTAGAAAAAGATGGTCGTGTAATCGGGTATTGTGGATTGTGGATAATTATTGATGAATCACATATAACAAATATAGCTATTTTGCCAGAATACCGAGGTCAAAAGTTAGGAGATGCCTTATTGAAAGCAGTTATTTCAGAAGCGAAAGAACTAGGGGTAAAAACAATGACGCTTGAAGTACGTGTATCAAATGAAGTAGCAAAGCAGTTATACAAAAAATATGGATTTCAAAATGGTGGAATTCGTAAACGATACTATGCAGACAATCAGGAAGATGGTCTTGTAATGTGGGTGAATATATAA	MDMIFRKMELDDIAQIVAIEEVSFSTPWTADAFHRELTMNEHAHYIVLEKDGRVIGYCGLWIIIDESHITNIAILPEYRGQKLGDALLKAVISEAKELGVKTMTLEVRVSNEVAKQLYKKYGFQNGGIRKRYYADNQEDGLVMWVNI				NA	NA	NA	NA	NA
AK009_08248	693	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAAAGTACTAGCAATTGATACTTCAAATTACGTAATGGGTGTATCCCTTATTGAGGAAGGAAAAGTGATTGGGGAAATCATTACAAATTTGACGAAAAACCATTCTGTACGTCTTATGCCAGCTGTAGAGCAACTGTTAAAAGAATGTGGTGTAAAACCGAAGGAATTAACTAAAATCGTTGTAGCTGCTGGACCTGGATCATATACAGGTGTTCGCATAGGCGTGACAGCGGCAAAAACATTAGCTTGGTCACTTCAAATACCAATTGTAGGTGTATCAAGTTTAGAGGTAGTAGCTGCAAACGGTGCTAACTTTAATGGATTAATTTGTCCTTTATTTGATGGAAGGCGTGGGCAAATCTATACTGGATTATATACATACGAAGGAGAGCAGTTAACTTCAATAGAAGAAGACCGAATTATTCTTATTGTAGACTGGTTGCAAATGTTAAAAGATAAAGGACAGCCTGTTTTATTTATCGGTAATGATGTTAAATTGCATAAAGAAACAATTATAGAATATTTAGGTGATCAAGCTGTATTCGCTCCTTTTACTAAAAATAATCCAAGACCAAGTGAGCTAGCATTTTTAGGATTACAAAAAGAAGAACATGATGTGCATACGTTTGTTCCGAGCTATCTTCGTTTAGCTGAAGCTGAAACAAAGTGGTTAGAAAGTCAAAACAAGTAG	MKVLAIDTSNYVMGVSLIEEGKVIGEIITNLTKNHSVRLMPAVEQLLKECGVKPKELTKIVVAAGPGSYTGVRIGVTAAKTLAWSLQIPIVGVSSLEVVAANGANFNGLICPLFDGRRGQIYTGLYTYEGEQLTSIEEDRIILIVDWLQMLKDKGQPVLFIGNDVKLHKETIIEYLGDQAVFAPFTKNNPRPSELAFLGLQKEEHDVHTFVPSYLRLAEAETKWLESQNK				NA	NA	NA	NA	NA
AK009_08249	474	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	GTGAGTAAATATGAAGTAACAACAAAATCTTCTGAGGAAACACAAAGATTATCAGAAAAACTAGGTGAACTCGTAGAGGCACAAGATGTAATTATTTTAGAAGGAGATCTTGGAGCTGGTAAGACGACTTTTACAAAGGGACTAGCAAAAGGTCTTGGAGTGAAAAGAGTTGTAAATAGTCCTACCTTTAATATTATTAAAGAATATAAAGGAAGATTACCGCTATATCATATGGACGTGTATCGCTTAGCAGAAAGCGAAGAGGACTTAGGCTTTGATGAGTATTTCTACGGTGAAGGAATTACGGTAGTGGAATGGGCTCATTTAATAGAAGCATATTTACCGAATGAAAAGTTACAAATTAGTTTATTCCATGCGGGAGATGACACAAGAAAAATTATACTCGAGCCAATTGGAGATCGCTATATTAGATTATGTGAGGAGCTATTACAAGATGAAAGTACTAGCAATTGA	MSKYEVTTKSSEETQRLSEKLGELVEAQDVIILEGDLGAGKTTFTKGLAKGLGVKRVVNSPTFNIIKEYKGRLPLYHMDVYRLAESEEDLGFDEYFYGEGITVVEWAHLIEAYLPNEKLQISLFHAGDDTRKIILEPIGDRYIRLCEELLQDESTSN				NA	NA	NA	NA	NA
AK009_08251	2244			hypothetical protein	GTGGAAAAAGGGGGAGAGGCCTTTGCCGAAGTAGGTCACGGCGTCGCCGGTCGAGTTGGTGGTGACGGGTTGACCGGCGGCTTGGGAGGCGGCGTCGAGACGCGCGTCGTACCACCGCGGTGCCTGGTTGGCGCCGTCGCGAAGCTTCATCGCCAGCTCGCCCGAGCCGCCGTCGAGCTGGACGAGGCCGTCGCTGAGCGCTCGCGCGCCCACGACCAGCTGGTCTGTGCCGGCGGCGAGTTGGGAGGAGCCGTCGGCGGCGGCGCGGGCACCCACGACCAGCTGCGAGGAGCCGTCCTTGAGCGTGGCGACGCCCGCGACGAGCGTCCCGGAGCCGTCCTTGAGCAGCGACAACCCGCTTGCCAGGGCCTGCGCTCCGGCGGTCGCTTCGTCCACGCCCGCGCGGTATTCGGCGTTCGGGTCGTTGAGCTGGCGGGACACCTCGTGCGCACCGGCTTGCAAGGCCTTGAGCTTGGACAGCGTCGAGGGGTCCATGGCGGTGGCGAAATCGCCAGAGCGCAGTTGGGCGGCTATCTCTTGCGCCTGCGCGGCGATCCCCTCGGTGCCGGGCGCCGGCGAAGCGTCGAGGTCGGCAGCGACGCGGTCGACCGCGCCGAGGATGTCGCCGTACACCTGCTGGGCCTGGGAAAGTTGCGGGGCAACCGAGGCAATGGTGTCCACGCCGCCGGCGATCTGCTCGGCGCCATCGCCGAGCTGGCTGGTGCCGTCGGAAAGCTTCACCATGCCGTCCGCCAGGCGGTCTGCGCCGGCCGAGGCCGCGCCGATGCCCTCGTCCAGCCGGGTGGCGCCGTTTTGGAGTCGGCTGACACCGTCGTCGAGCTGGGTGGCGCCGTCGCTGAGCTTGCCGAGGCCGTCGTTGAGGGTGCGCGCGCCGTCGTTAAGCTGCACCGCGCCGCTGTCAAGCTGCTGGCCGCCGTCGGAGGCTTCGGCGGCGCCCTCGTTGAGCCGTTTGGCGCCGTCCGCGGCCTCGGTGAGGCCCTCACCGACGGTGTTGAAGCCGATGAAGAGCTGGTTGGCCACCTGCTCACCCACCGTGCCCGACACGGTGTACGTCATGATGGTTGCGGTCTGGTTGCCCAGCATCGTCGGGATGAAACCGTTGGTTTCGTTCAGCGTGACGTTGAGCTTCGCCTGGTGCGGGTCGGGCGTGTTTACCGAGGTCACGGACTGCGTGAAGTCCTTCGGGATCTCCACGCCCATGTAGTACGTGCCGTCGGTGATGCCTTGGCGGGCCTCGTCGGCGTCGACGACATAGAAGTCCAAAGGCTTGCGCTCCAGCAGGCCGTCGACAACGCGCTGGCCCGCGTCACCCTCGTCGGAGTTGACCAACGCCACGGGCATGCGGTTCAGGTTGCCGATCGGGTCGTAGTAGGACCAGACGAACAGGCCACCGAAGATGAGCGGGATCAGCATCACGACCGCGATGGCGGCCGGGGGCAAGAAACCGTGGGCGAAGCGGCGGAAGTTGCTGCCAATGTGGAAGCCGGAGATCATAGCGTGGCCCCTTCTCGCAGATCGATGACGTGCTCGGCGTGGTCGCCGATGTCCGGGTTGACGGAGGCGACCACCACGGGCAGCGTCTGCGCAACGCCCCGCAGGCTCTCAAGCAGCGCGTCGCGCAGCTCAATGTTGCGCAGCTGGTCCGGGTCGTCGACGACGAGCAGCGACGCATTGGGGCGCGACGTCAAAGCTAGGAGCACGCGCAGCCTCAGCCGCGTCAGCGTGTCCAGCTCGGCGACGCTTAAGGAGGGGTCGAGCTCGCTCAAGTCCATCGGCTCGAGCCACGGTTCAACCAGCGGGTGGGTCAGGATGTCCTTGGGCACGCGCTTGTACCAGGGCTGTGCCCACGCGACTTGCTCGCGGATAACTTCGCGCACGGTCACCGAGCGCTCCAGCGAGTCGATCAGCGTCACGCCCGCGAGCGCGACCGCGCGGAAGCGCTCGCGGGTGGTGCGGGCCCCGGAGATGTCAATGTCGCCGGAGGCGGGTGTGAAGCGCCCGGCCAGCGTCATGCTCAGGGTGGAGGCACCGGATTCACGCGCGCAGACAAGCAGAGTCAACCCAGCGGCGCACTCGAAGGTGAGCTGCGGGTCCTCGGGTCGCACAATGAGATCGTTGACGCGGAGGATAGGGGAGGTCATTCGGGTCCTTAAGCGTAGGAAGGACTATCACTTAGCCGAAAATGCTGCCTTTACCGTCGTCGAATGTCAAGTGCTAGCATGA	MEKGGEAFAEVGHGVAGRVGGDGLTGGLGGGVETRVVPPRCLVGAVAKLHRQLARAAVELDEAVAERSRAHDQLVCAGGELGGAVGGGAGTHDQLRGAVLERGDARDERPGAVLEQRQPACQGLRSGGRFVHARAVFGVRVVELAGHLVRTGLQGLELGQRRGVHGGGEIARAQLGGYLLRLRGDPLGAGRRRSVEVGSDAVDRAEDVAVHLLGLGKLRGNRGNGVHAAGDLLGAIAELAGAVGKLHHAVRQAVCAGRGRADALVQPGGAVLESADTVVELGGAVAELAEAVVEGARAVVKLHRAAVKLLAAVGGFGGALVEPFGAVRGLGEALTDGVEADEELVGHLLTHRARHGVRHDGCGLVAQHRRDETVGFVQRDVELRLVRVGRVYRGHGLREVLRDLHAHVVRAVGDALAGLVGVDDIEVQRLALQQAVDNALARVTLVGVDQRHGHAVQVADRVVVGPDEQATEDERDQHHDRDGGRGQETVGEAAEVAANVEAGDHSVAPSRRSMTCSAWSPMSGLTEATTTGSVCATPRRLSSSASRSSMLRSWSGSSTTSSDALGRDVKARSTRSLSRVSVSSSATLKEGSSSLKSIGSSHGSTSGWVRMSLGTRLYQGCAHATCSRITSRTVTERSSESISVTPASATARKRSRVVRAPEMSMSPEAGVKRPASVMLRVEAPDSRAQTSRVNPAAHSKVSCGSSGRTMRSLTRRIGEVIRVLKRRKDYHLAENAAFTVVECQVLA				NA	NA	NA	NA	NA
AK009_08252	222			hypothetical protein	GTGGTGCTCGGGGTCCTCCTCAAAGGTGGCCAGGCTCTCATTGAGCCCCGCCTCGAGCGAATCCAGCAGGTCGACGGCGCAGGCGATGTGGAGGTCGCGGCGCGTCGGGAAGTGCCGGTACAGGGTGGCGATCCCGACCCCCGCGTCCTTGGCGATGCCCTCGAGCGTGATGGAAGCATCGGGAACAGTGCGGAAAGTGTGGCTGGCGGCATCTATGATTAG	MVLGVLLKGGQALIEPRLERIQQVDGAGDVEVAARREVPVQGGDPDPRVLGDALERDGSIGNSAESVAGGIYD				NA	NA	NA	NA	NA
AK009_08253	369			hypothetical protein	GTGGAAGCGCCCGAGAACAGCTCGCCCTTAGCGGGTGGCGTCGCGCTGGTCGTCGTCAAGCGTGTCCAGCGTGGTCAGCTGCTCGTCGATGGAGCTGAGAAGCTGCTCGTCGCGCTCCGCCGGCTCCTCGCCGAGCGGGCCGGCGGCCTTCTCGCGGTCGTCCTCCGTGCGGGTGGAGTAGACCAAGGTGGTCTTGCCGCTCGGAGAGGTTTCCTTGCGCGGCGCGACGTGGGTGTAGGTGATGTCCTTCTTGTCGGCGCCGGTCACCTTGTCCTTGAGCCAGAACTCCCACGCAGCCCAGGCGGCGGCCACGGCGGCGCCGATGCCGAGGATCGCCTTGAGCGGCGAGCGCTTCGACTTCTTCTTTGA	MEAPENSSPLAGGVALVVVKRVQRGQLLVDGAEKLLVALRRLLAERAGGLLAVVLRAGGVDQGGLAARRGFLARRDVGVGDVLLVGAGHLVLEPELPRSPGGGHGGADAEDRLERRALRLLL				NA	NA	NA	NA	NA
AK009_08254	261			hypothetical protein	GTGGGAGTCGCGGGTGAGGATTCCGGCCTCGCGCCGGGCGACGTCGTAAAGCCCGTCGAGCTTGTCGTCGACCTTGTCCTTCTTTACGGCGTCGACAACGGAGTCGTAGATCTCGCGCTTCTTTTCGTCGTCGAGCTTGCGGTAGTAGTTCATCGCCGAGCGTGCGCCCTTGTAAGCGAGGCGGATGGTGAACGGGTTCATGGTGGATCCTTTCGTTTGGGTTTTCTCGCCTACCAGCGTAGCGATTTCGCCACCGGCTGA	MGVAGEDSGLAPGDVVKPVELVVDLVLLYGVDNGVVDLALLFVVELAVVVHRRACALVSEADGERVHGGSFRLGFLAYQRSDFATG				NA	NA	NA	NA	NA
AK009_08255	330			hypothetical protein	GTGGCCCGAGGGGTAGCACGCCACGGACAGGGCGAGTTTGCCCGCCGCGAGGCGAAACGCCTGCTCGTCCTGGACTTCCTGGATGAGGTTGAGCAGGTCGGTGGCGTACGGCAGGTAGCCCTCGGGCAGGCTCGTTTCGCCCTCGGGGAGGTCGCCGCGCAGGGCGAGGAAGCCGCGCACGCCGGCGTCGATAAGCGTGCGGATCCACTCGGTGAGCTCGTCGCGGGTGCCGGCCGTGCACGCGAGGTGGGCGATCGGTTTCAGGTCGGTGGTTTCCGCGATGCGCTTGATCAGCGCCGCAGTCCCCTCGAGCCAGTCGGAGCGGCGTGA	MARGVARHGQGEFARREAKRLLVLDFLDEVEQVGGVRQVALGQARFALGEVAAQGEEAAHAGVDKRADPLGELVAGAGRAREVGDRFQVGGFRDALDQRRSPLEPVGAA				NA	NA	NA	NA	NA
AK009_08256	2118			hypothetical protein	GTGAATGTCCCACACGCCCGGGCCGATCTCGGAGTGGAAGGTCTCGTCGATGTCTTCGAGGAGCTCCATCTTCGAGCGCGCCGCCTCGATGGAGGTGACGTCGGCGTCGAGGCCGGCGACGGCGTCGATGATCTGACCGAACTCGGAGTAGCACAGGTGGGTGTGGATCTGGGTCTCCGGCTGCGCCTCGAGGGCAACGAGGCGGAAGGCGCGAACGGCCCAGTCGAGGTAGGCGGGGCGCTCGTCGGCACGCAGCGGCAGCAGCTCGCGCAGGGCCGGCTCGTCGATCTGGATCACCTTGATGCCTGCGGCCTCGAGGTCGCTGACCTCGTCGGCAAGCGCGAGTGCGATCTGGTCAGCGGAGACGGACAGGGGCACATCGTCGCGCTTGAAGGACCACGCGAGGATCGTGACCGGGCCGGTGAGCATGCCCTTGACCGGCTTGTCGGACAGCGACTGGGCGTACTTGGCCCACTCCACCGTCATCGGCTCCGGGCGGGAGACGTCGCCGAAGACGATCGGCGGGCGGGTGCAGCGCGAGCCGTACGACTGGACCCAGCCGTTTTCGGTGGCGACGAAGCCGTCGAGAAGCTCCGCGAAGTACTGCACCATGTCGTTGCGCTCGGGCTCGCCGTGAACGAGGACGTCCAGGCCGATCTCCTCCTGCAACTCGATGACGCCCTTGATCTCCTTCTTCAGCGCCTCGGTGTACTCGGCGTCGGTCAGTGCGCCGTTCTTGTGGTCGGCGCGCGCCTTGCGGATCTCGGTGGTCTGCGGGAAGGAGCCGATCGTGGTGGTCGGCAGGTCCGGCAGGCCGAGCGCCTCACCCTGGACGCGCTTGCGCTCAGCGAACTCGGGAGCGCGCTTGACCTCGCCCGCCGGCAGCTGCGCAACGCGATCCGCCACGGCAGAGTTGTGGATGTGATCCGACTCGGTGCGGGTGCGCACCGCGCGGTCGGAGCGTGCGAACGCCTCCGCGGCAGCCTCCTCACCCGCGACGAGCGCCTGAATCTCGGCGATCTTTTCATCGGCGAAGGACAGCCAGTTGGCCACGTCGATCGGCAGGTTCTTCTCCGCGTTCAGGGTGTGCGGCACGTGCTGCAGCGATGTCGAGGTCGACAGTGCCACCTCGCGCCCGCCCGAGCGCAGGACCTCAAGTACCTCGGTGCGCTCGCGCAGGTTCGCGGCCCACACGTTTCGGCCGTCAATGATACCGGCAACCAGCTGCACCTTCGGGCCGATCATGTCGGCGACGCGCTTCGGGTAGTCCGCATCCGAATCCAGGGTCCACGGGGACAAGTCCACGTGCAGGGCCTCGGGCTCGAGCGCACCGAGCACGGACAACGCCTTGCGCGTCGCGCCGTAAGGCGTGGTCAAGTACAGGTTCGGGCGCTCGGCGGTGTCGATGGCCAGAAGCTTCGACCAGGCCTGCTCGAGGTAGCCGGCGAGCTCCTCGTCGGTGGTGGACAGGTCGGCAACCAGGGCCGGCTCGGCGAGCTGGACCCACTCAACGCCAGCGCCCTTGAGCGCCTTGAGGATTTCGGCGTAGGCGTCGGTGAGGGCGTCGAGAAGCGAGAACTCAACGGGCTTCGACAGCGCGAGCAGGGTGACCGGGCCGACGAGCGCGGGGCGCACAACGTGGCCAGCCTCACGGGCCTCCTCGACCAAGCGCAGGATGCGCTCCGGGGCGGGGGTGATCTCCTGGCCGGCGGCGACCTCGGGCACGAGGTAGTGGTAGTTGGTATCGAACCACTTGGTCATTTCCAGCGGCACGCGCGTATCGTTGCCGCGGGCAAGGGCGAATTCCTCATCGAGGTCGGTGCCGCCGGGGATGAGACCGACGGTCAGGGCAGTCTCCAGCACCTGGTCGTAGTAGGCGACATCGGCCGGGATGGCGTAGTCCTCGGTCAGGCCCAGGTCGCGCAGGTGGTTGTAGGTGTCCACGCGCAGCGCGTGGGTGGTGGAGCGGAAGGTGTCGGCGTCGATGCGACCCGCCCAGTAGGACTCAAGCGCGCGCTTGAGCTCGCGGTTCGCGCCGATGCGCGGGTAGCCTTCGATCGTTGCCTTGGGGAAGTTCATAGAGGTGTCCTTTTTCTAAAGGTTGATTCTGGAAAGTAG	MNVPHARADLGVEGLVDVFEELHLRARRLDGGDVGVEAGDGVDDLTELGVAQVGVDLGLRLRLEGNEAEGANGPVEVGGALVGTQRQQLAQGRLVDLDHLDACGLEVADLVGKRECDLVSGDGQGHIVALEGPREDRDRAGEHALDRLVGQRLGVLGPLHRHRLRAGDVAEDDRRAGAARAVRLDPAVFGGDEAVEKLREVLHHVVALGLAVNEDVQADLLLQLDDALDLLLQRLGVLGVGQCAVLVVGARLADLGGLREGADRGGRQVRQAERLTLDALALSELGSALDLARRQLRNAIRHGRVVDVIRLGAGAHRAVGACERLRGSLLTRDERLNLGDLFIGEGQPVGHVDRQVLLRVQGVRHVLQRCRGRQCHLAPARAQDLKYLGALAQVRGPHVSAVNDTGNQLHLRADHVGDALRVVRIRIQGPRGQVHVQGLGLERTEHGQRLARRAVRRGQVQVRALGGVDGQKLRPGLLEVAGELLVGGGQVGNQGRLGELDPLNASALERLEDFGVGVGEGVEKRELNGLRQREQGDRADERGAHNVASLTGLLDQAQDALRGGGDLLAGGDLGHEVVVVGIEPLGHFQRHARIVAAGKGEFLIEVGAAGDETDGQGSLQHLVVVGDIGRDGVVLGQAQVAQVVVGVHAQRVGGGAEGVGVDATRPVGLKRALELAVRADARVAFDRCLGEVHRGVLFLKVDSGK				NA	NA	NA	NA	NA
AK009_08257	528			hypothetical protein	GTGTTTGCGGGGCTACTTCTGGATGTCGATGGACTCGATCACAACGTCCTCGACCGGGCGATCCATCCGACCGGTGCGCACGTTGGAGATCTCGGTGACAACCTTCTGCGACGCCTCGTCCGTGACCTCGCCGAAAATCGTGTGGCGATTGTTCAGGTGCGGCGTCTTGTCCACGGTGATGAAGAACTGCGAACCGTTGGTGCCCGGGCCGGCGTTCGCCATAGCCAGGAGGAACGGGCGATCGAACTGCAGCTCCGGGTGGAACTCGTCAGCGAACTGGTAGCCCGGGCCGCCGGTGCCGGTGCCGGTCGGGTCGCCGCCCTGGATCATGAAGCCCGGGATGATGCGGTGGAAGATCGCACCGTTGTAGAACGGGCCCTCGTTACTACCCGACGCGTTCTGCGCAGAGTAGTTCGCCTCACCAGTGGCCAGGCCGATGAAGTTCTCGACGGTCTGCGGGGCGTGGTTGCCAAACAGATCAATGACAATGTCGCCGTGGTTGGTGTGCAGAGTTGCTTTCGCAGTTGA	MFAGLLLDVDGLDHNVLDRAIHPTGAHVGDLGDNLLRRLVRDLAENRVAIVQVRRLVHGDEELRTVGARAGVRHSQEERAIELQLRVELVSELVARAAGAGAGRVAALDHEARDDAVEDRTVVERALVTTRRVLRRVVRLTSGQADEVLDGLRGVVAKQINDNVAVVGVQSCFRS				NA	NA	NA	NA	NA
AK009_08258	594	glpG_2		Rhomboid protease GlpG	ATGAACCTTCGCACGATCTTTTACCGCGCCCCCGCCACCGCCGCCATTGCCGCGCTGTGCATCGCCGTCTTCGCCATCGCCGCGGCGCAGTCCTCCTCCCTGAGCAACACGGTCTGGGGCTCACCGCTGGGCATCCGCATGGTGCTCTACGGTCCCTTCGTCGCCGAGGGCCCGCTCGGCTGGCTGCGCCTGCTCACCGCTGGCTTTCTGCACCTCGACCTGTCGCACCTGTTCGTTAACATGCTGATGCTGGTGCTGATCGGTGGCGAGATCGAGCGCTTTATTGGCACCGCCCGCTTCGTTGTTGCTTGGGTCGTCGGCACGCTCGCGTCGTCGGCGGCGGTGCTCGCGATGGCTTTTGGCACGCCCACGGCCGGGGCCTCGGGCGCCCTGTTCGCCCTGCTTGCGGTACTGGTCGCCATTGCTTATCGACGCTCCTCCGACCTGCGCGCCCCCATCGCCTTACTGGTGCTCAACGTCGCGTTCACCTTTATCGCGCCCGGTGTGAGCGTGTGGGGGCACTTGGGTGGCCTCGCGGCGGGTGTCCTGTTGGCGTGGCCACTGACCTTTTCACCGCCTATCCCCAGGCGCTAG	MNLRTIFYRAPATAAIAALCIAVFAIAAAQSSSLSNTVWGSPLGIRMVLYGPFVAEGPLGWLRLLTAGFLHLDLSHLFVNMLMLVLIGGEIERFIGTARFVVAWVVGTLASSAAVLAMAFGTPTAGASGALFALLAVLVAIAYRRSSDLRAPIALLVLNVAFTFIAPGVSVWGHLGGLAAGVLLAWPLTFSPPIPRR				NA	NA	NA	NA	NA
AK009_08259	1422			hypothetical protein	ATGGAGGGAGTCTTAGAAGAGACCCGGGTTCTTGCGGCCGCCGTCGCTCCGGGTCACCTGGCGGGAGTCGACGTTCTGGTCGTTTCCGGTAGACGAGTCACCGGAGATACGTCCGGTCTGGGTGACGGTCATGTAGTTGATCAAGCGGCCCTCGCGGGTCTTGCCGTCGCCGAAGCTAAAGGCGCCGAGCAGCATGTCGTCGCCGACGTTGACCGGGTTGGACAGGGTCACCTCGAAGACGCGGGCGTTGGTGTCGAAGTTGTAACCCAGGTCGCGGACGTGGGAGCCGTTGGCACCGAAGGAGGTCATCAGCCTATCGACGCCCTCCGGACCAACCTCGCGCTTGACCTCAACGCGGAAGGTGACCACCGGGAACTCAGCCCAGTAACGCTTGGTGCCGACGTTCTTCACGCGCAGGGCCACGGAGCCGACGAAGCCGGGGGCCTTAAGGTTCGAGGTGGTGAAGTACGGCTGCAAATCGTACTCGGGGGCGATGACCTTGACGGTCTCGTCGGAAACGGCGTCGAAGTTTGTGGCTGCGGCACCGTCGGTGATGTCTGCCTTGACGTCGTCGGCGACGGGGGCGACGTCGTTAAGCGGCTCGCCCTCGGTAACCTTCTCCAGGTCGCTCGCGTAGGCCGGGTTCGGATTGTCCTTGGTCTCGGTGATCTGTGCGCCCTTGTTCGGCGCCCAGGAGTCGGCCGGGGTGGCGTAGTTCTTCACGCGCACCTCGTTCTTCACCGGCATGTTGGCGATCCAGGCGGTCGGGGTTGCCCAGGTGCCGTTGGGGCGGCAGCGCTGCTGGGTGCCGGTCATGGTCACGGTGCGGAAGCCGTAGGTAGCCTCACCGGTGTGGCCGGCGGGAACCTCGTAGGGGCCGATCTTCTGGCCGACGTTCCAGGACAGGGTGCCGGAGACGGAGAAGCCGAGGGTCTTGGCCATCGCGTAGCCGATGGTGCCCTGCAGGCCCTCGCGCGACGCCTGGCCGCCGAGGTTGAGCGTTTCAGTCTTGGAGCCATTGACGGACGCGGTGATCGACTGGGTGCGCGACAGGTCCTGGGTCAGCGGCACGGTATTGTTCGACAGGTTTGTCGTGGAGATGGTGCCCACCGGCAGGAAGTTGTCGGTGACCTTGTACACGATGGTGCGGTAGTCCTCGGTGGAGTTGCACACCGGGCGCGGGTTGAGGATGTTCGCCTTGATGTGGTCGGAGCCACGGTAGGTGTGAACGATCGGCAGGGCGTCGTTGGTGGCGGGGGTCTCCGGCGCGGATTCTTCCAGGGTTTGCGCGAAAGCCGGGGCAGCGCCGACGGTCAGCGTGGCAACAGCAGACAGCGCTGCCACAGAGCGCGAAACGCGTGTGAACTTCATGGTCTTTGGGTCCTTTCTCAAGCGGTGAGGAGCAGTGACTTCGTCAGGTAG	MEGVLEETRVLAAAVAPGHLAGVDVLVVSGRRVTGDTSGLGDGHVVDQAALAGLAVAEAKGAEQHVVADVDRVGQGHLEDAGVGVEVVTQVADVGAVGTEGGHQPIDALRTNLALDLNAEGDHRELSPVTLGADVLHAQGHGADEAGGLKVRGGEVRLQIVLGGDDLDGLVGNGVEVCGCGTVGDVCLDVVGDGGDVVKRLALGNLLQVARVGRVRIVLGLGDLCALVRRPGVGRGGVVLHAHLVLHRHVGDPGGRGCPGAVGAAALLGAGHGHGAEAVGSLTGVAGGNLVGADLLADVPGQGAGDGEAEGLGHRVADGALQALARRLAAEVERFSLGAIDGRGDRLGARQVLGQRHGIVRQVCRGDGAHRQEVVGDLVHDGAVVLGGVAHRARVEDVRLDVVGATVGVNDRQGVVGGGGLRRGFFQGLRESRGSADGQRGNSRQRCHRARNACELHGLWVLSQAVRSSDFVR				NA	NA	NA	NA	NA
AK009_08260	432			hypothetical protein	GTGCAAAATTATACTTTTGTCTCTTTAGCGCCATCCCATGGTCATCAGGAGCCCGGCGATGATGGCGGAGAATCCGATCAGGTAGTTCCACGGGCCGAGCTGAGCGAGGAACGGGACTTGATCACCCGCGACATAGAAGGCGATAAGCCAACCAAGGCCCAGGATGAGCAGGCCAAACATGATCACCTTGTACCACATGGGCGTGCCGCCCGTGTTGATCTTGACAGGCGTGCGGGAGGTAGCGGTCGACGCGGACTGTACCGGGAGGTTGTCCTTGGTAATTTTCGCCTTGGGCATGGTGCCTACTTCCTTCGTTGTGTTCTGCTTGCCCGGAACTCTACCACCGGCGCAACCTACCTCAGCGGGTTGAGCTCGGCGACATCGAAGCGCCAGATGTTGTATCCGATTTCCTGGTCCTTGCGTATGTCTTGA	MQNYTFVSLAPSHGHQEPGDDGGESDQVVPRAELSEERDLITRDIEGDKPTKAQDEQAKHDHLVPHGRAARVDLDRRAGGSGRRGLYREVVLGNFRLGHGAYFLRCVLLARNSTTGATYLSGLSSATSKRQMLYPISWSLRMS				NA	NA	NA	NA	NA
AK009_08261	1413			hypothetical protein	TTGATCCGGTGGAACGCTCTGGCCGGCGACAAGTCCCTGGTCCACCAGCGCTCCGGTGGGCACCGCGGGCCCGGTGACGAACTTGCCGTTCCACCCCGTGCCGCGCAGCACGCGCTCCGCCTCTGCCGGGGTCATGCGGGTCAGATCAGGCATCTCCACGAGCATGCCGTTGGAGACGCGGAGCTCCACCGTGGTACCCGTCTCCACTTCGGTGTTCTCACCGGCGACGGCGAGGACCTCGTCGGTCGGCCGGCGCGAATCCACGGGAGTGACCGTCGAATTGAGCCCCAGCGAGTTCAGCGTCGCCGCGGCCTGGTTGGCGTTCATCCCCACCAGCGAAGGGATCTGCACCTTCTCGCGACCCTCGGACACAACCACCGAAACCTGCGAGCCCTTCGACAGCTGCGATCCGGCGGCCGGGTTCTGCGAGATGATCATCCCCTCCGGGACCACGTCGCTGTTCTCGCGGCGGATCTCGGGGTCGAGCTCCAGATCCGCACCCGCCAGTACTTCGGCGGCCTCCTGCGGCCGGATGCCCGTGACATCCGGCACGTCCGTGATTTCGCGGCCCGACGACACCGAAACCGTCACCATCGTCCCCGGCTGCAACTGCGATCCAGCCACGGGGTTGGTGCCCAGCACCTCTCCGCGGGGACGGTCAGGGCTCGGAACGTCGTTGACCGCCACCTGGAAACCGAGGCGTTCGAGCTCGGCGACGGCTTCCTCACGGACCTTGCCCGTGACATCGGGCACCGTGAGCATTGTCGGCGTAGTCGTGGACTCATCCGTGTCAGCGGGGGTGAAGTAGTTGTAGGCGAGCACGCCTGCGGACGCGAGCAACACCAGGCCGAGCAAGGCCGCGACCCACTTCATCCAGTTGTTCGACTGCTTCTCGTTCGCGCGTCGGTGCTGGGTGTAGCGGTTGGCGGCAGGCGCAGCGACAGCAACCGGGGCAACGGGCGTGGCGGGTTCCACCACGACCGTCGGGTCCTCGTCGTACGTCGCGAGGTAACTGCGGGCCGCGGTGGTCACCGCCCCACGCCCGAGACGCTCCAGGTCCGCGCCCATCTCCGCTGCGGACTGGTAGCGGTCGGCCGGGTGTTTGGCCATGGCCGTCAAGATCACCGAATCCACGTTGACAGCCTCGGTGTCCGTCATTGCGTCGGCGAAAACGTCGGCGTTGTCCAGAGCGTCGATAAGCGTGCTCGGCGCTTCGGGCTCCTCCTGAACGTGCTGGTAGGCAACCGCGAACGGGGTCTCACCCTCGAACGGCGGGCGGCCTGTGACCGCTTCGTACATGACGCAGCCGAGGGCGTAGACGTCGCTGCGACCGTCCGCGGGTTTCCCGCGCGCCTGCTCCGGGGAGAGGTACTGCGCCGTTCCAATCACCGCGGAGGTCTGGGTCATCGCTGA	MIRWNALAGDKSLVHQRSGGHRGPGDELAVPPRAAQHALRLCRGHAGQIRHLHEHAVGDAELHRGTRLHFGVLTGDGEDLVGRPARIHGSDRRIEPQRVQRRRGLVGVHPHQRRDLHLLATLGHNHRNLRALRQLRSGGRVLRDDHPLRDHVAVLAADLGVELQIRTRQYFGGLLRPDARDIRHVRDFAARRHRNRHHRPRLQLRSSHGVGAQHLSAGTVRARNVVDRHLETEAFELGDGFLTDLARDIGHREHCRRSRGLIRVSGGEVVVGEHACGREQHQAEQGRDPLHPVVRLLLVRASVLGVAVGGRRSDSNRGNGRGGFHHDRRVLVVRREVTAGRGGHRPTPETLQVRAHLRCGLVAVGRVFGHGRQDHRIHVDSLGVRHCVGENVGVVQSVDKRARRFGLLLNVLVGNRERGLTLERRAACDRFVHDAAEGVDVAATVRGFPARLLRGEVLRRSNHRGGLGHR				NA	NA	NA	NA	NA
AK009_08262	585			hypothetical protein	GTGGATGATCCCGGCGTCGTGGCTGGCCTGCAGCGCACGGGTCACAGGAATCAGCAGCTCAGCGGCCTGCTGCGGGCTCAAAGGGCCGTCCTCGCGCACGATGTCGCGCAGGTTGCGGCCGTGGACGCGCTCCATCACGATGTAGGGCACCGCAAGCCCGTCAATATCCACGTCACCGGTGTCGTAGACCGACACGATGTTCGGGTGGTTCAGGCGCGCGGAGTTTTGGGCCTCGCGGCGAAACCGCTCGCGGAAACTCTCGTCGCGCGCCATGTCCGTCTTGAGCATCTTCAGCGCGACATCGCGCCCGAGCACGGTATCGGTCGCGGCGTAGACGTCGGACATGCCTCCGGTTCCAATGGTGGAACCGAGTTGGTAACGGTTACCGATCAGCATTATCTCAGGCACCTCCGCCAAGCTGGTTTACAAAGTCATCAATCGGGTTCGCCGGGTCGTTCGGTGCTTCAGTCGGCTGAGGAGCCTCTGTTGGAACGACGGGCGACGGAGCCGGAGCCGGGGTATTCGGCGCCGGAGCCAGGCTCGACGGGGGTTCTACGAAACTCACCGTGCCGGGCGCGGAGCTAG	MDDPGVVAGLQRTGHRNQQLSGLLRAQRAVLAHDVAQVAAVDALHHDVGHRKPVNIHVTGVVDRHDVRVVQARGVLGLAAKPLAETLVARHVRLEHLQRDIAPEHGIGRGVDVGHASGSNGGTELVTVTDQHYLRHLRQAGLQSHQSGSPGRSVLQSAEEPLLERRATEPEPGYSAPEPGSTGVLRNSPCRARS				NA	NA	NA	NA	NA
AK009_08263	921			hypothetical protein	TTGCGTGGACTCGGTGGGCGACGGCTCCATCGCGACCTTTGTCGAGGCCACCCCAACCGGCTGCGTCGGGCGGCGTCCGTCGCGCACCTGGGCGACGGCAAGTTGCATCGCGTTGCCGTCGCTAAACCGCATTCCCGGATCCTTGCGCAGCGCGATGCCGATCAGCTCGCGCGCCGGGGCGGATACCGCAGTCGACAGCGCTGGCGGCTCCGCAGAGACGTGTGCCAAAGCGACCGACACCGAGGAGTCCCCGGTGAAGGGGCGCCGACCCGCGAGCATCTCGTAGCCGACCACCCCGAGGGAGTACACGTCGGACGCGGCGCTGACCGCAAGGCCCTGAGCCTGTTCCGGCGAGACGTACTGGGCGGTTCCCACCACCATTCCGGTGCGGGTCAGCGGCACCGCGGCGGCGGCCTTGGCGATACCGAAGTCGGTGATCTTAACTTGGCCGTTCTGGGTGATCATGAGGTTGCCGGGCTTGATGTCGCGGTGGACAAGACCCATGAGATGAATCGCGGCCAGGCCATGGGCTGCCTGTTCGAGGACGTCGAGCGCCAGCGCCTCGTCGAGCCGGTGTTCGCGGGCGATGAGATCCGCCAGGGACTCACCGCGGATGTATTCCATGGCGATGAAGCACATGGTGTACCCGGCCGGGGAGTCCACCTCGCGGTAATCGAAGGTGGCGACGACGTTGGGAGAGTCGATTCCTTCAGCGGCGTGGGCCTCGTTGCGGAAGCGGGTGAGGAACTCCTCGTTGTTGGAAAATTCCGGACGCAGAACCTTGATGGCCACTTCGCGGTCGGCGACGTTGTCGTCGGCAAGCCACACGGTGGACATGCCGCCGTGGCCGATGATCCACTGCAGCCTGTAGTCGTCACCGATGAGGCGCTGAAGGTCTTCGCGGTTGTCGGTGTTCATTAG	MRGLGGRRLHRDLCRGHPNRLRRAASVAHLGDGKLHRVAVAKPHSRILAQRDADQLARRGGYRSRQRWRLRRDVCQSDRHRGVPGEGAPTREHLVADHPEGVHVGRGADRKALSLFRRDVLGGSHHHSGAGQRHRGGGLGDTEVGDLNLAVLGDHEVAGLDVAVDKTHEMNRGQAMGCLFEDVERQRLVEPVFAGDEIRQGLTADVFHGDEAHGVPGRGVHLAVIEGGDDVGRVDSFSGVGLVAEAGEELLVVGKFRTQNLDGHFAVGDVVVGKPHGGHAAVADDPLQPVVVTDEALKVFAVVGVH				NA	NA	NA	NA	NA
AK009_08264	1440	pbpA	COG0768	Penicillin-binding protein A	ATGAACAAATCCATCCGCCTCGGCGCCGTCCTGTCTCTCCTGTTGACGGTCGTGCTGCTGATCAACCTCACCGTCGTACAGGCGTTGCGCGAGGAAAAGTACGCGCAAAACCCGCTGAACTCCCGCAATTTCATCGAGATGAAGCAAGTCGACCGCGGCCCGATCAACGCGGGCGGACAGATCGTCGCCGACTCCACCCAAGACGCCAACGGCTTCTACCAGCGCGTCTACCCGAATATGCCCTACTCCTTCGGCCCCGTGCTGGGCTACGTCTCCGATCAGTTCGGCGTCGGCGGGCTCGAAGCCGAGTACAACTCGGTGCTCAACGGTGAAGGCAGCGCGAGCGGCAGCAGGTTTTTGCGCACCGGGTTAGAGCGCGACCGCGCGGGCGACGCCGTCGAACTGACGATCAACCCGCAGCTGCAGGCCCTCGCCTACGAAAACCTGTCTAACCGCGGCTACGAAGGGGCTGTGGTGGCGATCCGGCCGTCTACAGGCGAGGTGCTGGCCATGGCGTCGTCCCCTTCCTACGATCCGAACCTGCTGGTCAACCCCGACACAGCTCAGCAAACCTGGAACAGCCTGAGCAACGATCCGCAAAACCCGCTGCTCAACCACGCCAGCCAGGACCAGCTTCCGCCCGGGTCCATCTTTAAAATCGTCACCACCGCCGCCGGTCTGCGCAACGGCTACTCCCCCGACTCCCAACTCACCGGCGAAGCACGCATCCCGCTACCCGGCACCGACGCATTCGTGCCCAACTACGGCGGCCAAGCCTGCGGCGGCTCAACCGTGACCACACTGCGCACCGCGTTCGCGCTGTCGTGCAACACCGCCTTCGTGCAAATGGGCATCGACGTTGGAGCGGACGCTCTGCGCGACGCGGCAGCGCGTTTCGGCATCGGAGAAGACTACGACCTCGGCCTGCCCACCGCCTCCGGCTCGCTGGGCGAACTGCCCGGGGCCGCGGAGCTCGGCCAGTCGGCGATCGGGCAGCGCGACGTCACCATGACCGCGCTGCAGGCGGCCGTGATGGCGGCGAGCGTCGCCAACGAGGGCAAGCGCATGGCACCCTACGTGGTCGATCGTGTGGTCACGCCCGACCTCAACGTGGTCTCGGAGACCGAACCACGCCAGCTCGCCGAGGCGCTCACGCCGGAAGAAGCCCAGACCATGACCGAGTTGATGTACGCCTCGGAGCGCTCCACCTTCGGCTACGACGGCAACGGGTACGCGTCGAAGACGGGTACCGCGGAGCACGCCGAGGACGCCGCCCCGCACGTCTGGTACGTCGCCTTCGACCCCCAAAATGACGTGGCAGTCGCCGTGGTGGTCAAAAATGGCGGGCAGCTCGGAGCTAGCGCGACCGGCGGCCAGGTGGCCGCCCCGATCGGGCGCACGGTGCTCGGCGCCGCTGCAGCCAACGGAGAGGGAAACTAA	MNKSIRLGAVLSLLLTVVLLINLTVVQALREEKYAQNPLNSRNFIEMKQVDRGPINAGGQIVADSTQDANGFYQRVYPNMPYSFGPVLGYVSDQFGVGGLEAEYNSVLNGEGSASGSRFLRTGLERDRAGDAVELTINPQLQALAYENLSNRGYEGAVVAIRPSTGEVLAMASSPSYDPNLLVNPDTAQQTWNSLSNDPQNPLLNHASQDQLPPGSIFKIVTTAAGLRNGYSPDSQLTGEARIPLPGTDAFVPNYGGQACGGSTVTTLRTAFALSCNTAFVQMGIDVGADALRDAAARFGIGEDYDLGLPTASGSLGELPGAAELGQSAIGQRDVTMTALQAAVMAASVANEGKRMAPYVVDRVVTPDLNVVSETEPRQLAEALTPEEAQTMTELMYASERSTFGYDGNGYASKTGTAEHAEDAAPHVWYVAFDPQNDVAVAVVVKNGGQLGASATGGQVAAPIGRTVLGAAAANGEGN	PGPT0023920_941	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023920-pbpA-K05364	NA	NA
AK009_08265	1059			hypothetical protein	GTGGGCGACGGGCACGAGCTCGGGGTGGCCGTGGCCGAGGCCGACACCCGTGACCCCGCCCCAGCTGAGCCCGAACAGGGCCTGGGCAGGCTGGTATCCGGTGGTGTCGTAGTTGGCCAGAGGGTCGAGGAAGTTGGTGACGCGTTCTTGGATCTTGTCAGAAACCTGGTAGACGGCGTACCCACCGACGGCGACGAGCCCGATCCCGATGAGCAGCCAGCTGGTGCGGCCGGTGGCGTAGTAGACCATCGCCAGCACGGTGGCAAAGAGCAGCAGCGCGGGGCCGAAGTCGTTGGAGATTGCCATGATCAAAATGGCGATGGCCCACACCACCAGGATCGGTGCGAGGTCGCGCAGGCGGGGGAAGACGAGTCCTGCGAAGCACTTGCCGGCCACGGTGAAAAGGGAGCGCTTCTGCGCCAGGAGCTGGGCGAAGAAGATCAGCAGCAGGATCTTCGAGAACTCGCCCGGCTGGATGGAGAACGGGCCGATCCAGATCCAGATGCGCGCGTCGGCGAACTCGGCGGGTTGCGGCCACACCAGAGGCAGGGCGAGGAAGAACAACCCGAGCAGCCCGAGGATGTAGGAGTAGCGCGAGAGCGACTTGTGGTCGCGCACGATCACAAGTGTGAGAACGAGCAGCACGACGCCCGCGAAAGACCACAGGACCTGCCGGTCGGCGAGCGCACCGTAACCGGCGCGCTCGGCGAGATCGAGGCGGTAGATGATCACCAGACCGATCGCATTCAGCGTGGCCACCACGGGCAAAAGCACCTGGTCAGCGTAGGGGGCGGTGAGGCAAATCGCGAGGTGGGCGATGGCGTAGACACCGATGAACCCGCCGACGAGCCACAGCATCTCGCCCGTGAGGGCGCGTCCCTGCGACATTTCGAGCCCGAACAGCATGAGCAGGAGCAGCAGGGCGGAGCACACGAGGAGACCAAGCTCCCGGGTGCGGGAGAAAATTCTGCTCACGTTAGTTCACCGTCCTGCAGTCGTTGGTGGCTTCCGGTTTGTCGTCAACACACGCTGGCAGCGCCTCGTCGGCCAGCCTGTTGA	MGDGHELGVAVAEADTRDPAPAEPEQGLGRLVSGGVVVGQRVEEVGDAFLDLVRNLVDGVPTDGDEPDPDEQPAGAAGGVVDHRQHGGKEQQRGAEVVGDCHDQNGDGPHHQDRCEVAQAGEDESCEALAGHGEKGALLRQELGEEDQQQDLRELARLDGERADPDPDARVGELGGLRPHQRQGEEEQPEQPEDVGVARERLVVAHDHKCENEQHDARERPQDLPVGERTVTGALGEIEAVDDHQTDRIQRGHHGQKHLVSVGGGEANREVGDGVDTDEPADEPQHLAREGASLRHFEPEQHEQEQQGGAHEETKLPGAGENSAHVSSPSCSRWWLPVCRQHTLAAPRRPAC				NA	NA	NA	NA	NA
AK009_08266	810			hypothetical protein	TTGTTGCGATTCGGGCAGGTCGTCTACGGAAAAGACCGTGCAGTCGGGCGGCGTGTCGTCGATCGGGGAGATTTGCAGCTCGTTGCGGGCATTGATGCAGGCGACCTGGATCGGCGTGTGCCTGCCCTCGCCGAACAGGGCGCTACGGCTGCCGTGCTCGATGACAATTTCGTTGTTCTCGTTGGTGGCGAGGAAGTACGTCGCGTCGTCGCGGCTGATAAAGAACGCGAAACCGAGCGTCGCTACGAGTGCGATTGCCAGCGCGCCGACGATCCAGGGCCAGACTGTGCGGCGGGGGTGATCCTCCTCGTCGCTGGCGGTCTCAGTGTCCTCGGGGGTGGCGGCTTCACTTGTCGACGCCCTCGTGGCGCGCTCGCCGGCGTCCGCGGGGCGCATCAATGCGGCGGCGCGGCTCGCCGCCGAGTTCGGGTGCGTCGATTCAAAGTCCGGGGTCAGCGCGCCGGCGAGCACGGCCTTGCGCGGCAGCGCCGGGGCGTCGGCGGCCTCCGCGTCAACGACCTCGCCGATGACGACCGTGATGTTGTCCGGCCCGCCGGAGCGCAGCGCAAGCTCGATGAGGCGTTGCGCGGCGACCTCGGGCGTGCCGGTGCCGAGCGTCGTGGCGATGGTTTCCGCAGTCACGGGGTCGGACAGGCCGTCGGAGCACAGCAGGTAGCGATCCCCCGGCTGGGCGTCGAGAAGCTCGAGGTGCGGATCGACCGGGCGGCCCGTGTACGCCTTCAGAATCAGCGATTTCTGCGGGTGGGAGGAGACCTCGCTGGCATCGAGCTTGCCCTCGTTGACCAGTGA	MLRFGQVVYGKDRAVGRRVVDRGDLQLVAGIDAGDLDRRVPALAEQGATAAVLDDNFVVLVGGEEVRRVVAADKERETERRYECDCQRADDPGPDCAAGVILLVAGGLSVLGGGGFTCRRPRGALAGVRGAHQCGGAARRRVRVRRFKVRGQRAGEHGLARQRRGVGGLRVNDLADDDRDVVRPAGAQRKLDEALRGDLGRAGAERRGDGFRSHGVGQAVGAQQVAIPRLGVEKLEVRIDRAARVRLQNQRFLRVGGDLAGIELALVDQ				NA	NA	NA	NA	NA
AK009_08267	447	fhaB	COG1716	FHA domain-containing protein FhaB	ATGGATTCAGCCATCATTCTCGGCGCACGCTTCGGCCTGCTCATCCTTTTGTGGGTATTCATTCTGTTCGTGCTCTGGGTCGTTCGCAAGGATGTGGTCGCGGCGGCAGGTGTGCGTCGACAAGCAGTCTCCGCAACCCCCATCAGGCGCGAGAAAGCACGCGAGCTTGTGGTGGTTGAGGGCCCGCTCAAAGGTTCCCACATGGAAATTGCCAGCGTGGAGGACTTAACTCTGGGGCGTGCAAACTCTTCCGACTTCGTGCTCGGCGACGACTTCGCCTCCAGCACGCATGCCCGCCTGTTCCGCCGCGGCAGCGAGTGGTTCATCGAGGACCTGGACTCGCGCAACGGCACCTTCGTCCAAGGGTTGCGCATCGACCAGCCGGAACGCGTCACCGTGGGCACTGACATGAAGATGGGGCGCACGATCCTGAGGTTGATGCCATGA	MDSAIILGARFGLLILLWVFILFVLWVVRKDVVAAAGVRRQAVSATPIRREKARELVVVEGPLKGSHMEIASVEDLTLGRANSSDFVLGDDFASSTHARLFRRGSEWFIEDLDSRNGTFVQGLRIDQPERVTVGTDMKMGRTILRLMP				NA	NA	NA	NA	NA
AK009_08268	612			hypothetical protein	GTGCGGTCCCCGGAAGTACTCGGTGCTGGGGTTGGCAACCTCGTCGGGGTTGTGCCCGGCATCGTGGAGGGGGCGCTCGCTGCGCGGTTCCACGATACGCACCTCGATGTGGGAGTGCCCGACGGTGATCACGTCGCCGTCGGCAAGCATCCAGTTATCCACGGGCTCGTCATTGACGGTGGTGCCGTTGGTGGATTCGAGGTCAACCAGGACGGCAACCTGGCCGTCCCAGGTGATCTCCGCGTGCTGGCGCGACACACCCGTGTCCGGAAGGCGGAAATCAGCGTCATTGGAGCGGCCCAGAATGTTAGAGCCTTGGCGCACCAGGTAGGTGCGCGAGGAACCGTCCTGCAGAAGCAGGCTCACGGTGGGTTCGCCGGTGGCGGCGGTGGGCTCGGACATTGCATCCTCCTGGTTGCTGGTGCGCTTCGCGCGGTCAGTGGTGTTCGAGGGCTCGGCCACGATGGCGTCGAAGCCGCTTGCCACGTCCGGTTGCTGGTCGATGTACGAGGACACCCGGAGTTGCCCGGTGCGCAGTCCCGATTCCTCGGCGATGCGCACCACGGCGGGGCCCTCGAAGCGCCAGCCTTGGTTACGAACGAAGCGGGTTAG	MRSPEVLGAGVGNLVGVVPGIVEGALAARFHDTHLDVGVPDGDHVAVGKHPVIHGLVIDGGAVGGFEVNQDGNLAVPGDLRVLARHTRVRKAEISVIGAAQNVRALAHQVGARGTVLQKQAHGGFAGGGGGLGHCILLVAGALRAVSGVRGLGHDGVEAACHVRLLVDVRGHPELPGAQSRFLGDAHHGGALEAPALVTNEAG				NA	NA	NA	NA	NA
AK009_08270	1629			hypothetical protein	TTGTGTCAAGATGGAGGGATGACATTCTCAATTAATTGGACCGTACCGACGGACGGTGAATACTCCGGCCTAGAAATTCCACTTGGGCCTGGCCAAGTAGCGACTCTTGTAGGGCCGAATGGAGCAGGTAAATCAGCACTCATTTCCTGGCTGAACAGCCAAGTCACCGCCGCACCAGTTAACCGCATCGTTGCGCACCGTAGAATCTGGCTCGCATCATCAGGACCCGAGGTAACTGCCTCGAGGCGGGAGCAGTACTCGGGCATCCTTTCGCGACATGACCGCGATCCCGAATCTCGCACCAGTGGACAGTACGAAGAGCAGCGCGTATCTGGAGTTCTTTATGACCTGATAGCCAGAGAGAACGGACGTAACTCAAGATTTGTAAGGCGCGTCGAGTCAGGCGAGCCAACGGACGATATTGAGCCCTCACTACTAACAACTATCTCTGACATCATGAAGGCCGCTGGCTTCGACATGCGGTTCGAGATTACCGACCATATGGGTCTTGATGTGGTTCATAAGTCGGCTACATATCCGATCTCGGCAATGTCGGATGGCGAGAAAGCTGCCTTACTACTTGCAGCAGAAATGTTGTTGGCTCCTGTTGGCTCAATACAGCTACTTGACGAGCCTGAACGACACTTCCACCGGTCTGTTTCCCCAACGCTGATCTCTGGGCTGATTGAAGCGCGACCTGATTGCGGCTTTGTTGTATCTACCCACGACTTGGACTTGGTCGAACGAATAAATATTATCAACAATTCCGTCTACTTTGTAAAAAATGTCAATTGGTCACCCCAAGGGACGCCTGCAGGGTGGGAAATACAGAAGCTTCCTGCTGGAAAACCAATCAATGAAAGTGCAAGACGTGCTGTTTTCGGAGGCCGGCAAGAGATTCTTTTCGTAGAAGGGGAATCCGGAAGTTTGGATTTAGCGCTACTAAGTATCTTATTTCCCGAATATTCCGTGACCCCAGCAGGAAGCAGCGACAATGTCCAAAGAGCCGTTAGCGGACTCCAATCTACAGAAGAACTTCATTGGGTCTCCGCTAAAGGAATTATCGACGGCGATGCCCGAGGCAGTGCAGACAAAGGAAAACTTCGAGAGAAGCAGATCCTAGTACTGCCAGTAAACGAGATCGAGAGTCTGTACTACCTTCCTGAGGTCGTCAAAACTCAGGCTAAGCGCCAAGAGGGAAATTTAGGCGAAGACTGGCAGAATCTTTTCCAAGAAGCTCAGGAAAAAGCACTGGAAAGTATTCGCCGACCAGGCGTCATAGAAAACTTAGCTGCGACCAACGCAGATAAGATCCTGCGCCGATCTGCTCTCGCGTCCCTGCCCGACAAGAATTCCCTCAAAGATTCCAACAAGGAGATCGCACTAACCCTTCAATCCCCATATTCCGAGGAACTTAGGGTGCTTAAAACTGCAGTTGAGCAAAACCATATAGCTACGATCGTGAAAGAATTCTCGATCCGCGACAGCGGATTACCGACCGCCGTCGCGAAGGCTCTCCGCTACGGCAACAAGGAAGATTACCAAAGAGCTGTCACTGTCACCGTTCAACGTGATGAAGCAATTGCTCGCGCCCTAAGGGAACTCATAGAAGAAAAAGCTTCTTCCTAA	MCQDGGMTFSINWTVPTDGEYSGLEIPLGPGQVATLVGPNGAGKSALISWLNSQVTAAPVNRIVAHRRIWLASSGPEVTASRREQYSGILSRHDRDPESRTSGQYEEQRVSGVLYDLIARENGRNSRFVRRVESGEPTDDIEPSLLTTISDIMKAAGFDMRFEITDHMGLDVVHKSATYPISAMSDGEKAALLLAAEMLLAPVGSIQLLDEPERHFHRSVSPTLISGLIEARPDCGFVVSTHDLDLVERINIINNSVYFVKNVNWSPQGTPAGWEIQKLPAGKPINESARRAVFGGRQEILFVEGESGSLDLALLSILFPEYSVTPAGSSDNVQRAVSGLQSTEELHWVSAKGIIDGDARGSADKGKLREKQILVLPVNEIESLYYLPEVVKTQAKRQEGNLGEDWQNLFQEAQEKALESIRRPGVIENLAATNADKILRRSALASLPDKNSLKDSNKEIALTLQSPYSEELRVLKTAVEQNHIATIVKEFSIRDSGLPTAVAKALRYGNKEDYQRAVTVTVQRDEAIARALRELIEEKASS				NA	NA	NA	NA	NA
AK009_08271	3606			hypothetical protein	ATGACCCAAGCGATCGCCCAGACCAATTTCGGATTCGTGGGCCGGGTGTGGCCGGCGCTGCTCAACGACTGTCGCCAAGCCGAGCGCAGCGCGCTGTCAAATCCGGTGGTCTCCTGTTTCTACTCCCGCAGGGTCCTCGAACGCGTCGTCCGCCACATTTGGGAATTCCGGAAGCTCGGCCCCATCGGCGATGACAGCACGTTCGGTCGTCTCAAAGACGACCGCTTCATAGGTGTCTCCACCACCACCCAGCTGGACAAAATGCATTACATCCGGCTGCGCGGCAACGACGCCGTCCACGAGGGAAAACAGCCCATCACACCACAGATCGCCACAAAGGTGATCATGCAGCTTTTCGACGTCCTGAGCTGGGCCACCGCGCGACACTCCTCTCACCCGGAGGCGCGTCCCACCGCACCCTTCGACCAGCAATTCCTCAAGACGGCTCCCCCTCAGCCGCACATTAATCGTGCGCAGCTGCAGAAGCTTTCAGCAGAGCTCGAAGTCAAGGATGCCGCGCTCAATGAGACGGCTCTGCTTCTCGACGAAGCCGAGCAAGAACGCCTCGCCCAGGCAGAAAAGCACGCTGAGGAGCGTGCACTCTTCGCCGCCCGCAGCGCCGAAGCCGATGAGAAACGCGCTGCTACCGAGGCCGAACTCATCGCGGCCCAAGAGGAACTCAAGCGTGTCAACGCTGAGCGTGACGCCGAGATCGCGCGCCTTCGCGCTGAACTGCGTGATGAGCTGGCCAAAAAGGCTGGCAGCGGAGTGGCCCCGACCCTCCCACCGACCATCAGCGAATCGCAGACCCGGCGTGATCTCATCGATCCGATGCTCGCCACTGTCGGCTTCCACCTCGGCAAAAACGCCACCGTCGAGTACCCCGTCCATGGCATGCCGATCTCTACAGAAAGCCCTCACGGCAGCGGCTTTGCCGATTACGTGCTCTGGGACGACGACGGGAAGCCGCTGGCCGTTGTAGAGGCTAAACGCTCCAGCGCAAACCTGTCCGACGGGGCTATCCAAGCGCGCCTCTATGCCGACTGCCTCGAAGCCCAGTTCAGCCGACGCCCGATCATCTTCTGCACCAATGGCCACCTCATCGAGATGACCGACGATAGAGCCAACCTGCCCGGTTCGAGCCTCGGTTACTCCACTCGGCCGGTCGAGGGTTATCCGTCTGCGGAGCAGCTCCGTCAGATGATCAACCGTCGCACCACCCGGAAACCACTAGCTAATGCCATGGTAGACCCGAAGATCGCCGGTCGGGACTACCAGCAGGAAATGATCCGGCGGGTCACCGAATCCTTCGAACACGACCGAAGACGACGATCACTGCTGGTTATGGCCACCGGCACCGGCAAGACACGCGTCGCCATCGCCACCTCAAAGTTGCTGCGAGAGTCTAACTGGGTCGGCAACGTGCTCTTCCTGGCGGACCGAACTGCGCTCGTCGACCAGGCTCACGGCAACTTCGTCGACCATTACCCTGAGTCTGCACCAGTAAACCTGCTCAGCAATCCCAATGGCGTCGGCGGCATCTACATCTCCACATATCAGACGATGATGAGCCTGATCAACGACGATGGCGAGAAACCCGCGAAGTTCCGCCCCTTCGACTTCGACCTCATCATCATCGACGAGGCCCACCGCTCGATCTACCACCGCTTCAAACGTATCCTCGACTACTTTGACGCCTACGTCCTCGGACTGACCGCCACCCCGAAGTCTGAAGTCCACCGCAACACCTATCAGCTCTTTGACATTGACGGGCAGAACCCCACCGGTTCCTACACGCTCGAGCAGGCTGTTGAAGACAAGTACCTGGTGCCACCCCAGGTCATCACCCAGGACTCTCTCTTCCTGCGCAGCGGTGTCCGCTACGAGGACCTAGACGTTGACGAGCAGCAACGTTGGGATGAGGCCGAGTGGGGAACGGATGAAGACGGCAACCCACTGGACCCACCCGACGGCGTCTCAGCCGCCGAGATCAACTCGCGTCTTTACAACCGCGATACCATCCGCAAGGTGCTAAACACGCTCGTCACCGAAGGCATCAAGGTCGAGGGCGGTGACCGCCTGGGCAAAACCATCATCTTCGCCCGCACCCAGAAACACGCAAGCCTCATCAAGGAGGAGTTCGACCGACACTTCCCGCTGTACGCCGGCGAGAGCGCCTCGGTGATCACGCATTCCACCCGCTACGCTGCTGCTGAGCTCAAACACTTCAAGAACCCCACCAGCAGCCTCAACGTCGCCATCAGCGTCGACATGCTTGATACCGGCGTCGACGTCCCAGAAGTGGTCAACCTCGTCTTCTTCAAACCTGTCTACTCCGCCACCAAGTTCTGGCAGATGATGGGACGCGGCACCCGCCTGCGCCTGAACCTCTTCGGCGACGGAATCCACAAGGACAAGTTCCGTGTCTTCGACTTCGGCGGCAACGCACGATTCTTCATGGAACAGCAACCCGAAGACCCGGGCATCGGACTCCAGGTGTCACTGTCGGAGAAGCTCTTCCTCAGCCGTGCCGCGCTGGTCTCCCAGCTGGACCAGCGCGACGACGCACCAGTCGACCTTCGAAACGCGCTCGCCGCTGATCTTCACGCGTCAGTCAGCCAGATCTCGCCCAAACACATTCAGGTCCGACCCCTGGACCGTCCCGTCCTCGAGCATTATCAGCAAGTCGAGGCATGGAAAACGGTGACGGAGGACGACGTCGAGAAGCTCGGTGGCCACATCGCCAGCCTGCCGATGAAAACGATGGACGAGAAGGAATCCGCCAAGCGCTTTGACCTTCTCATCCTGCAACTCCAGCTCGGGCTACTGAACGAGGACACTTCGTGGGCGAAGAACCGACAGCGAGTAGAGAAAATCGCCGACGAGCTACTTACTGTCTCCGAGAATCTTCCCTTTGTCGCTGCTGCCTCCGCGACTCTAGAAGCATTGCTCGACTCCGAGTGGTGGGAGGGTGTGACGGTTACCGAGCTGGAGAAGATCCGTCGTGAGATCCGTGATCTCGTCGAATACGTCCCACGCCACAAGCGCCAGGTCGTGGTTCTCGACGTGGAGGACGAGTTCGGAGACATCGCTGAAGTCGACCTACCCGTTGAGCACGCCTCCGTCGGGGTCAACGTCAGCCGTGTCGAGGAAGAGCTCCGTGCCTCCCTAGACGAGCATCGCGATTCCTTGGCGATGCAGAAGCTTCGTACTGCTCGTCCGTTGACTGAAACTGACGTCGAGAACCTGGAAGCGCTGGTCGCGGACGCCGGCCTTGAGGGCGTCGACGAGGTCAGGGAGAGCCTGGGTGGCGACACCATCCCAGCATTCGTCCGCCGCCTCGTAGGCCTCGACGAGGAAGCGATGCGTGCGGAGTTCGCGGACTTGCTGGAGGGCTCGACGCTGACTGCCAACCAGATCAGTTTCATCCGCCATGTGATCAAGGTGCTTGTCAATAATGGTGGTCTGACTCTGCAAGAGGCATTTGACGAATCCTTCTTTCCATATGGTCGCGTTTCCGACCTGTTCCAGGACAATCAGGCCGTAGTGCTGGATCTCAAGAGCAGACTGGACAGGATTAATTCGATGGTAGAAATTAGCCAGTGA	MTQAIAQTNFGFVGRVWPALLNDCRQAERSALSNPVVSCFYSRRVLERVVRHIWEFRKLGPIGDDSTFGRLKDDRFIGVSTTTQLDKMHYIRLRGNDAVHEGKQPITPQIATKVIMQLFDVLSWATARHSSHPEARPTAPFDQQFLKTAPPQPHINRAQLQKLSAELEVKDAALNETALLLDEAEQERLAQAEKHAEERALFAARSAEADEKRAATEAELIAAQEELKRVNAERDAEIARLRAELRDELAKKAGSGVAPTLPPTISESQTRRDLIDPMLATVGFHLGKNATVEYPVHGMPISTESPHGSGFADYVLWDDDGKPLAVVEAKRSSANLSDGAIQARLYADCLEAQFSRRPIIFCTNGHLIEMTDDRANLPGSSLGYSTRPVEGYPSAEQLRQMINRRTTRKPLANAMVDPKIAGRDYQQEMIRRVTESFEHDRRRRSLLVMATGTGKTRVAIATSKLLRESNWVGNVLFLADRTALVDQAHGNFVDHYPESAPVNLLSNPNGVGGIYISTYQTMMSLINDDGEKPAKFRPFDFDLIIIDEAHRSIYHRFKRILDYFDAYVLGLTATPKSEVHRNTYQLFDIDGQNPTGSYTLEQAVEDKYLVPPQVITQDSLFLRSGVRYEDLDVDEQQRWDEAEWGTDEDGNPLDPPDGVSAAEINSRLYNRDTIRKVLNTLVTEGIKVEGGDRLGKTIIFARTQKHASLIKEEFDRHFPLYAGESASVITHSTRYAAAELKHFKNPTSSLNVAISVDMLDTGVDVPEVVNLVFFKPVYSATKFWQMMGRGTRLRLNLFGDGIHKDKFRVFDFGGNARFFMEQQPEDPGIGLQVSLSEKLFLSRAALVSQLDQRDDAPVDLRNALAADLHASVSQISPKHIQVRPLDRPVLEHYQQVEAWKTVTEDDVEKLGGHIASLPMKTMDEKESAKRFDLLILQLQLGLLNEDTSWAKNRQRVEKIADELLTVSENLPFVAAASATLEALLDSEWWEGVTVTELEKIRREIRDLVEYVPRHKRQVVVLDVEDEFGDIAEVDLPVEHASVGVNVSRVEEELRASLDEHRDSLAMQKLRTARPLTETDVENLEALVADAGLEGVDEVRESLGGDTIPAFVRRLVGLDEEAMRAEFADLLEGSTLTANQISFIRHVIKVLVNNGGLTLQEAFDESFFPYGRVSDLFQDNQAVVLDLKSRLDRINSMVEISQ	PGPT0027170_33	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
AK009_08272	1131			hypothetical protein	ATGAGCAGCACAAATAGATGGCCCACGATGAAGTTGGGGGATATCTGCTACATCATCTACGGAAAAGCTCTCAAGAAAAGTGACAGAGCCGAGGGCCCCGTACCGGTGTATGGGTCTAACGGAGTCATCGATTATCACTCGGAAGCTCTTTTTGAAGATCCAACAATTGTCGTAGGCCGGAAGGGAAGCGCCGGAGCTGTCGAATGGTCAGATTCTTCTTGCTGGATCATCGATACCGCATTTAGCGTTCGTCCACGTTCAGATGACGTTGACCTACGCTGGTTGTACTGGGCCCTTAAGTATCTTGACCTCGGAAAGCTTCAGAAGCACGCTGCAGTTCCAGGAATCTCAAAGAGCGATGTCCTGCGCGAGGACATTCTTCTTCCTCCACTGTCTGAGCAGCAGCGCATCGCCGAAATCTTGGATTATGCGCAATCTCTTCAATCTACTAGCTACAGGAAATTAAGCCGCTATGCTCGCTTGCGAGAATCCCTCTTTAACGAGCATTTTGGCAACCCAGCTACTAACCCTTATGAATTTCCGTTAGTACCCCTGGGAGAGCTATCAAAAGTTTTTAGCGATGGTCCCTTTGGCTCTAACCTCAAGAGCTCCCACTACACACCTGATGGGGTTCGAGTCATCCGGTTACAGAACATCGGTATAGGCGAGTTCATCGACCGGGATAATGCCTTCATAAGCGAAGAACATTTTCAATCTATTCGTAAGCATGAATGCCTCCCCGGAGACATAGTCGTCGGCACGCTTGGGGACCCAAACCTTCGTGCATGTCTGCTGCCCGAAGAAATCACCCCTGCCATCAACAAGGCCGACTGTGTTCAAATCCGCGTCGACGATTCCGAGGCAAATGCAGTTTGGCTGTGCCAGTTGCTCAACATGCCAGGTACTCTTCGCCTTTCCCAGGCAATAGTCAAAGGTCAAACACGCGCACGGATTGCCATGGGTCGATTGCGTAAACTTAAGGTTCCAGTACCTCCACTTCATCTCCAGGAAAATTTCGCGTTCCAACTCGAGATGCTGCAGACGCAAGAAGCCCTCGCTAAAGAGCGGGAAGAAAAACTACGAGCTCTAACTTTTTCCCTCTCCACCCGCGCCTTCGCCGGTCAGCTCTGA	MSSTNRWPTMKLGDICYIIYGKALKKSDRAEGPVPVYGSNGVIDYHSEALFEDPTIVVGRKGSAGAVEWSDSSCWIIDTAFSVRPRSDDVDLRWLYWALKYLDLGKLQKHAAVPGISKSDVLREDILLPPLSEQQRIAEILDYAQSLQSTSYRKLSRYARLRESLFNEHFGNPATNPYEFPLVPLGELSKVFSDGPFGSNLKSSHYTPDGVRVIRLQNIGIGEFIDRDNAFISEEHFQSIRKHECLPGDIVVGTLGDPNLRACLLPEEITPAINKADCVQIRVDDSEANAVWLCQLLNMPGTLRLSQAIVKGQTRARIAMGRLRKLKVPVPPLHLQENFAFQLEMLQTQEALAKEREEKLRALTFSLSTRAFAGQL	PGPT0027175_4613	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
AK009_08273	243			hypothetical protein	GTGCTGGTCTGCAGTGAGCGTGGCTGCGTCGGGATTGTCGTCGACAACCTCGGAATTACGCGGACGTACGGTGGGGGTGGGGCCGAGCATGTGGGCGTCGAGAAGCGGCGTGCGCTTATCGTCCAGGGAGAGCCCGTCGGCGGTGACCTCGTAGAACCACACGTCCTCGGTGCTGCCGCGGTCGGTGCGGGTGAAGCACAGGATCGCGGTGGACACACCCGAGTAGGGCTTGAAAGTGCCTGA	MLVCSERGCVGIVVDNLGITRTYGGGGAEHVGVEKRRALIVQGEPVGGDLVEPHVLGAAAVGAGEAQDRGGHTRVGLESA				NA	NA	NA	NA	NA
AK009_08274	330			hypothetical protein	TTGTGCCTCGTCCGGGATCTGCTGGAGTGCGTCGCGGTAGCTGATGTTCGGATCCTCGAAACCGTGCATGAACATGTTCATCGCGGCGATGCGCACCATCGTGGAATCAAAGTCGAAGCCGGTCAAGCCAGACTCGTTATAGCGCTGGCGCAGGCGGGCGTCGAGAAGCTCATCCGCGTGATGGCGGCGTGTCCATTCGGAAGCCGCCACGAGGAAACCAGCGGTGCCGGAGGCCGGATCGATAACCCGGTGGGTGGGCGAGGGGCGCATGAGTTCGACCATGAGGTCGATGATGTGGCTCGGGGTGCGGAACTGCCCGTTGGTGCCTGA	MCLVRDLLECVAVADVRILETVHEHVHRGDAHHRGIKVEAGQARLVIALAQAGVEKLIRVMAACPFGSRHEETSGAGGRIDNPVGGRGAHEFDHEVDDVARGAELPVGA				NA	NA	NA	NA	NA
AK009_08275	258			hypothetical protein	ATGCTGCGCGAAGCCGCTGCCGCCGAGGGTGCGGAGGAAAGGGAAAACTTCATCGACGATGATCTTCCGGCGCTTCGCTCCGTCGGAAATCTCCATGAGATTACGCCAGCGCAGATGTTGGTGATTCTCATCGAAGATGTCCGCGGTGGAGGGGTCGACGCCGAGGTTGCGCTGGAAATCGTTGCTGGCCTGGCGCTCATCGAGCTGACGCATGAACAGCAGATAGGTGAACTGCTCAATCACCGAAATGGGGTTTGA	MLREAAAAEGAEERENFIDDDLPALRSVGNLHEITPAQMLVILIEDVRGGGVDAEVALEIVAGLALIELTHEQQIGELLNHRNGV				NA	NA	NA	NA	NA
AK009_08276	795			hypothetical protein	ATGACCCGTATGGGAATCGGTGATTTTATAAGCGGTTTGCCGAGCAGCGTGGGGCGACTTGTTCTTGGACCGCTTCCTGGAGCGGTTACAGAGAAGACGAACCGATTATGGGCAAGCCAGACACACTCATGGCCGGTAACCATCGATTTGGAAGAAGATGTTCGAATAATCTGGGCCAACACCCCACCCTGGGTGGCCTTCGGTGCGTTTATTCCTGGGATCAAGGATCCTCATCACCTTCAACCCCCGAGTGGCTCCGCTCTCGACCTCTATCACTGGGCAGTCACCAAACACAACGGTCTGCCTTCAGGCTTCTCAACTGTCAGGCTCGATATCAGATCAAGAGCGCCTGTAGAAGTAATTTTCGATTCTGTCCGCGTGCATTGCGACGAGTTTGATCCTGGCCCCGGGATTAGCGTTATTCAACCTGTAGGTGGAGCGTCTCTGGAATCACGCAGATTCGATATCAAGCTCTCTGCGTGGGCACCTCACGCCCAAGCTTTGGAGCTTGGCAGTCAACCAGTGCAAGAATTCGCGGCCACTATCAGTAAAAACGATCCCCTAAGACTCAACTTAGATGCTCAGCCAGCCCCCGATGTAACTCTCGCCAAAGGATTTCGGTGGTGGGTAGACGTCGACTTCTTGATCGAAGGAATGAGAAAAAGCGTCCGCGTTCCGAAAGACCCAGAAGATGCCTTCACCTTGGTTAACAACGCTCTCTACCCGCAGTTTTATCGCACGGGGGGTTCATGGGAACAGTGGGAACTCCCAGGAAGAAGACACGACGGCTCTTAA	MTRMGIGDFISGLPSSVGRLVLGPLPGAVTEKTNRLWASQTHSWPVTIDLEEDVRIIWANTPPWVAFGAFIPGIKDPHHLQPPSGSALDLYHWAVTKHNGLPSGFSTVRLDIRSRAPVEVIFDSVRVHCDEFDPGPGISVIQPVGGASLESRRFDIKLSAWAPHAQALELGSQPVQEFAATISKNDPLRLNLDAQPAPDVTLAKGFRWWVDVDFLIEGMRKSVRVPKDPEDAFTLVNNALYPQFYRTGGSWEQWELPGRRHDGS				NA	NA	NA	NA	NA
AK009_08277	399			hypothetical protein	GTGGACCAGCGGGGGGCGGTTGGTGCCGAGTTTGCACCGGTCGACCGGGGATTTGCCGGCTACCTCCCTGCCGCAGGGGGCTTTGACGATGCACCCGTCCACACTCAGATTTTCCAGATCCAGCCCGACGAGGTGGTCGTAGAACTCCAGGCACAACTGCTCGAGCTGGAGGAAGATGCCGGCGTCGATCGACTCGTCCCGGCGGGCCCGCAGGGTGGTCGCCGAGCAGGTCGTGTCGGCGATCTTGGCGTAGGAGGCACCGAGGACGAGGACCTGGATGAGCTTGTCGAAGACAATCCGGTCCGCAATCCGTGGCCGGTGACAACCCCACGGGTGGGACACCTCACGAACAGGGATCAGCGCGGCAAACTAGTCCCAGAAAAGGGTGATGATGGATGA	MDQRGAVGAEFAPVDRGFAGYLPAAGGFDDAPVHTQIFQIQPDEVVVELQAQLLELEEDAGVDRLVPAGPQGGRRAGRVGDLGVGGTEDEDLDELVEDNPVRNPWPVTTPRVGHLTNRDQRGKLVPEKGDDG				NA	NA	NA	NA	NA
AK009_08278	1053	mcrC	COG4268	Protein McrC	ATGACCGATAGCTCAATCGTCATCCGCAATGTGTACGTTATGATGGCTTACGCTTTCCGAGCGATTCGTAGTGAAGGCACCGACCGGATCGCAGCTGAATTTTTCAATCACCTTCACGACTTGTTCGCGGAAATCCTTGTACGGGGCGTCGGCTCCCAGGTTAAGCGGGGTCTTCACCACGACTACCTTCAACGCAGCGACGAACTGGCCACCGTTCGCGGTCGCATCGATATCACTCGCACCGCCTCAACCCGCTCAGCACTCAGAGGGAAGCTCGCATGTGAATTCGACGAATACGAACCCGACACGCCCCACAACCAGGCACTGAAGTCCGTCCTCGTGCTTCTCATCCGACATGGGGAAATCACCGCCACTCGTCGCGATGCGCTGCGCCGACTGCTCCCCTATCTGGACACAGTGACACTGGTCGCGCCGACATCGATCCACTGGGATCGACTCACCTACCACCGCGCCAACGCCACATACCGCCTGTTACTTGGCGCTTGCGAACTGGTGGTCCGCGGGCTCCTACCTACGCAAGACGCCGGAGCAATCAAACTCACCTCCTGGGTCTCCGATGAAGCCATGAGCAGCTTGTACGAGCGATTCTTACGCGAGTACTACAACGTCCACCACCCCGAGCTCTTCCCCATAGCATCTTCCATTGCCTGGGACTACGATGACGCAGATGCATTTGGAGTCGAGCAACTCCCGGCGATGCGCACCGATGTCACACTTCGGTGGGGCCCACGCACCCTAATTATCGATGCGAAATACTACAGCTCCTCGATGCAGGTCGGTAGATGGGGTAAAGCGACCGTCCACTCAGCCAACCTGTATCAACTACTGACCTACGTGAAAAACGAAGACACAGGCCGCAACGGTTCAGTCAGCGGCCTCCTGCTCTACGCACGTACCGAAGCACCTAAACAGCCCGACCTGGAGGTCATCATCCAGGGCAGCCGAATCAGAGCACAAACACTCGACCTCAACCAGCCATGGGAGCACCTCGCTAATCAACTTGAAGAAATAGTCAGATGGTTTAAGGACTGA	MTDSSIVIRNVYVMMAYAFRAIRSEGTDRIAAEFFNHLHDLFAEILVRGVGSQVKRGLHHDYLQRSDELATVRGRIDITRTASTRSALRGKLACEFDEYEPDTPHNQALKSVLVLLIRHGEITATRRDALRRLLPYLDTVTLVAPTSIHWDRLTYHRANATYRLLLGACELVVRGLLPTQDAGAIKLTSWVSDEAMSSLYERFLREYYNVHHPELFPIASSIAWDYDDADAFGVEQLPAMRTDVTLRWGPRTLIIDAKYYSSSMQVGRWGKATVHSANLYQLLTYVKNEDTGRNGSVSGLLLYARTEAPKQPDLEVIIQGSRIRAQTLDLNQPWEHLANQLEEIVRWFKD	PGPT0027245_730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027245-mcrC-K19147	NA	NA
AK009_08279	2319			hypothetical protein	ATGGTCGGCGAGCTGCCTTCCCCACTCCCGCCAAAGCTAGCGGCAGTGCCGCCAACATATGAGCAGAATGTAGGTATGGCTCATGATTATCCCGATAATGCACTAATTGCCACTGCTGAAGCATCGCGGCCCGCCCCTGACATGGCGATTGGGCATGAAGTCAGTGAAGTGTTCACTCACATGCTCGGAAACGGTCGGTCCGTGATTGACCCGACCGCGATCATCTGGACAGCCGAGGCCGCGGAAGAGCTTCGAGCGCGGATTGAGGATAGTCCGATCGAAGGTAAAGATCAGGACCAGTGGCAGAAGCTTGACCAGCAACTTCAGGGCGCACCTCGGGAGGTAGTGCTCCTTGCAGCCGAAATCGTCTTCTTGCGAGAGCACCCCTTACGGTCGGCCCTGCCTGAGACTCGTCGGGCTCATGTCAACCGAGTTCTAACGCACCTCGACTCACCCATGGAGGTTTCGGAACCAATATCGACCTGGCTGACCCGCCCAGCCGGAACCGCAGGATTCGAACCGGGTGCCTGGTATAACGGCGCGCTATGGCGACACATCATCTGGGTATCGACCTTCGCACGCCACTGGAATGACCTACCAGAAGACCAGCGGGAGTTAGCGCGGACCGATCCATGGGAATTACAGCGAGCCATGCTCGCCTCCGGGGATGACCGATCAGACATCCGTAACACGCTACAGTTTCTCGCGCGTCCCGATGCTTTCGAGCCTATTTCATCAGCGGCGATGAAGCGGAAAATCCGCGATGGTCTTTCTGACCGAATAGGAGGTCCATCGGGCAACACTCCTGAAGCGATTGACCATGACCTACTCGCCATCCGCGCCACTCTGGCTCGAGAGATCGAAGAACCGTTTCATTTCTGGAATCCTGAGGTAGCCCCCCTCTGGGACGCATCCTCAGTCGATTCCGCCCCCACAGACGCGGATAATGAGAAGCTCGTTGAGCCCCGTGCACGGCACTACTGGCTCTACTCCCCCGGCCCACAAGCATCGAAGTGGGACGAGTTCTCATCTGACGGCATCATGGCAATCGGCTGGGATGATCTTGACGACCTTGCTACGTATCCGAACCGGGAGGCCATCCGCCAGGCGCTAGACATCGAGGGAACAGGCAGATCGATGAAAAACGCAGTTCTCGCAGCGTGGCAGTTCCAGAACGAAATCACCGTAGGCGACATCATCTACGCCAAGCGTGGGCGGCGGGAGATCGTTGGGCGGGGTGAGGTTACCTCCCATGCTCGATTCGATACCAACCGCGCTTCGTATACCCACGTTCGATCCGTGAAGTGGACCCACATGGGTTCATGGGAGCATCCTGGCGATGCTGCAACGAAGACGCTGACCGATATCACGCCTTACCACGACTACGTTGAGACGCTGGAGTCACTCATCACCGGAGAAGAGGAACCAGAGCTGCTCGATACTCCCACGCCACTTCCGCCCTACGACAAGGCGGCGTTCCTGAAGGAGGTGTACCTATCGGAGGAGCGGTATGAACGCCTGCGCTCCCTGCTGGTGCGGAAGAAGAACGTTATCCTTGCAGGTCCCCCTGGTGTCGGTAAGACGTTTACCGCGAAGCGCTTAGCGTACTCACTCATAGGAGAGAAAGACCCGAGCCGGGTCCAGATGGTCCAATTCCATCAGAGTTACTCATACGAGGACTTCATGATGGGCTACCGTCCCACCGAGACCGGTGGCTTCACGCTCGCGGAAGGGCCGTTCTATCGATTCTGCGAGAAAGCTCGCGCCGACGACACAGACCGGCCGTACTTCTTCATCATCGACGAGATCAATCGCGGCAATATCTCCAAGATCTTCGGTGAGTTGCTCATGCTTATTGAGGCCGACAAGCGCGGTCACGACCTTCGCCTTTTGTATAAGAACGAGACATTTTCCGTTCCCGCTAATGTCCATATCATCGGGATGATGAACACAGCCGACCGTAGCCTCGCCGTACTCGACTATGCCCTACGCCGCCGATTCGGGTTCTTCGAGATGAATCCGGGCTTCGATTCTGACGGGTTCGTCCGATGGCAACAAGATGCCGATGACCCCTCATTCGATCGTCTCGTCGCTGCTGTCATCGACCTCAACAGGAGCATCGCCGACGACCCCGCGCTCGGCCAGGGTTTCGCTATCGGGCACAGTTTCCTGACCAGCCCGCCAGATAGCGGGGCGCATGACGCGTGGCTACACTCCGTCGTCGAAGATGAACTCATCCCCCTGCTGACCGAGTACTGGTTGGACGAACCAGCCAAGGCAGAGGAGTGGGCAGACAGACTTCGGGCCGCCCTCAAATGA	MVGELPSPLPPKLAAVPPTYEQNVGMAHDYPDNALIATAEASRPAPDMAIGHEVSEVFTHMLGNGRSVIDPTAIIWTAEAAEELRARIEDSPIEGKDQDQWQKLDQQLQGAPREVVLLAAEIVFLREHPLRSALPETRRAHVNRVLTHLDSPMEVSEPISTWLTRPAGTAGFEPGAWYNGALWRHIIWVSTFARHWNDLPEDQRELARTDPWELQRAMLASGDDRSDIRNTLQFLARPDAFEPISSAAMKRKIRDGLSDRIGGPSGNTPEAIDHDLLAIRATLAREIEEPFHFWNPEVAPLWDASSVDSAPTDADNEKLVEPRARHYWLYSPGPQASKWDEFSSDGIMAIGWDDLDDLATYPNREAIRQALDIEGTGRSMKNAVLAAWQFQNEITVGDIIYAKRGRREIVGRGEVTSHARFDTNRASYTHVRSVKWTHMGSWEHPGDAATKTLTDITPYHDYVETLESLITGEEEPELLDTPTPLPPYDKAAFLKEVYLSEERYERLRSLLVRKKNVILAGPPGVGKTFTAKRLAYSLIGEKDPSRVQMVQFHQSYSYEDFMMGYRPTETGGFTLAEGPFYRFCEKARADDTDRPYFFIIDEINRGNISKIFGELLMLIEADKRGHDLRLLYKNETFSVPANVHIIGMMNTADRSLAVLDYALRRRFGFFEMNPGFDSDGFVRWQQDADDPSFDRLVAAVIDLNRSIADDPALGQGFAIGHSFLTSPPDSGAHDAWLHSVVEDELIPLLTEYWLDEPAKAEEWADRLRAALK	PGPT0027240_258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027240-mcrB-K07452	NA	NA
AK009_08280	252			hypothetical protein	GTGCGGGAACTTCTGCTCACAGAAAGTCACTACTTCCCGGGCCTGGTTCCACACCGATGCGGCGTCCGGTTGCTGGAAGATCGTGTGGAACATCGCCGACAAGGTCGGCCATTGGCTTTTGGGCACCAGTCCGGAGAGGTTTTTCGCGAAATGCGTGCGACACCGTTGCCAGGAGGCGTTCGGCAGCACCTCGCCGATGGCGTGCTGGATGCCCACGTGTGCGTCGCTGGTGACCAGGTAGACGTCGTTTAG	MRELLLTESHYFPGLVPHRCGVRLLEDRVEHRRQGRPLAFGHQSGEVFREMRATPLPGGVRQHLADGVLDAHVCVAGDQVDVV				NA	NA	NA	NA	NA
AK009_08281	237			hypothetical protein	TTGCAGCAGCCAGTCCGGGAAGAACGAGCCGGTTCTGAGTTTGGGCACGGTGACGTCGATGGTGCCGACTCTGGTGTCGAGGTCGCGGTGGCGGTAGCCGTTTCGGACGTTGGTGCGCGCATCACTGACGGTGGCGTAGTCGGCGCCGCAGACTTGGTCGGCCTGGGTCGACAGGATCTGGTTGATGAACCCTTGGAGCATCTCGCGCATCAGGTCCGGGGAGGCTTGAGCCAGTAG	MQQPVREERAGSEFGHGDVDGADSGVEVAVAVAVSDVGARITDGGVVGAADLVGLGRQDLVDEPLEHLAHQVRGGLSQ				NA	NA	NA	NA	NA
AK009_08282	252			hypothetical protein	ATGTATCCATTCAGGAAAGCCACCGGAAAGGTAGGACGAGACCGTCCTCGGTCAAGAAGCGGAAGAACCAAATCCGGGAGGACTTGGGGCGGTCTCCGGTCAGGATTCCGCCGAGAACCTAACCACGTTCTGCTGCTGGTCAGTGCCGAGGCCACTAAGTATGGCCTCGGCATTGACCAGCTTGTGTCTCTTCCAGAAAACGATCGGGGAATTCGAGTCGCTATTTGGGAGAATGCTCTACCTGCCCGGTAA	MYPFRKATGKVGRDRPRSRSGRTKSGRTWGGLRSGFRREPNHVLLLVSAEATKYGLGIDQLVSLPENDRGIRVAIWENALPAR				NA	NA	NA	NA	NA
AK009_08283	663			hypothetical protein	ATGGCCCAGCGCGATGATGATGAACTGATCGAGCTCAAGCCCGTGCCGGTTGTCTGGATCGCGGCGCAGCTCGGCGTCATCGTGCTAGCCGCGGTTGTCCTTATTACTTTGTGGGACACCATCCCCGATCCAGAGCCAGCCAACGCTGTGGCGGGCAGGTTTGCCGCCGCGCTCCCGCTTGCCCTGCTCACGCCCGCGGTATTTCTGCTGATCCACCACCAGGCGAAGCACACTCACGAATCGCCGCCGCGCCGGTCGGTTGCCGAAGTCAACCACGCTCGCGCTCTTACCAATGAAATGCTGCCGCTCGTCGGCAAGCTCATGGTCGCGCTCACGGTGCTGATCTATGGCGGGATGACGGCCGATCTTCTCGGAGCGAGCGTATCGACGCCTGCCATCATCGCGCTGATCCTGCTTGTGATTGTCGCTTTCGTTATTGGCACGCGAGCCGCTTATCGGCGCGCCGTCGACGCCGCCGGCACCAGCGATAGGCACGTCTACGCCGGCATGTTTTATTTCAACCGTGACGACGAGCGCATGATTGTGGACCACGCGATGGGGGCCACGTTAAATTTCGCGCGCCCGTCCGCGTGGGCGCTCATCGCCGCGCTGCTGACCCCAGCCCTAATCATTGGTATTGGGGTTGCGCTGGGCAACGAGTGA	MAQRDDDELIELKPVPVVWIAAQLGVIVLAAVVLITLWDTIPDPEPANAVAGRFAAALPLALLTPAVFLLIHHQAKHTHESPPRRSVAEVNHARALTNEMLPLVGKLMVALTVLIYGGMTADLLGASVSTPAIIALILLVIVAFVIGTRAAYRRAVDAAGTSDRHVYAGMFYFNRDDERMIVDHAMGATLNFARPSAWALIAALLTPALIIGIGVALGNE				NA	NA	NA	NA	NA
AK009_08284	606			hypothetical protein	TTGCTTCATCCACACCGGACATCAGATCTCTCCCTCCGCGCGCGCCAGGTAGCGCTCGAGTTCCACCATCAGCTTGTTCTCCCCCATTGGCACGCCCATGACCATCTTCTCGTCGCTGCCGCTTTCGCTGGTCACGGTCGTATACGGGCGCGTCAGGGCCATGTGGCTCACCCAGGGCGAGGTTGCGGTGAGCCCGCCGATCATGACGTCAATCTCACCGTCCTCGATCCAGCCCGCCAGCACGCTTTCCGACGCCACCTTGTACTCCACGTCCGCATCTATCGAATCCGCGAACCCGCGAATGAGCTCGGCCTCCGAGCCCGAGACCTCACCGGTCGCATCATTCACGCTGGTCCACGGCTCGTGCTCGGACACGCCGACGACGAGCGTGCCGCCCGCCGCGCGGTCGTAGGTTCCCTCAACATCGCGGGGCAACGCGCCGCACCCGCCGAGCAGGGTGGCGCTCAGCGCCACCGCGAACACCGCGCGAGCTTGTCGACGCACAGCCCACCGCCTTCCCCTCAGGATCACATTAAGTTTTGTGTATTTACGCGGATCCTACTGGCAGTTGTCACTCGTTGCCCAGCGCAACCCCAATACCAATGA	MLHPHRTSDLSLRARQVALEFHHQLVLPHWHAHDHLLVAAAFAGHGRIRARQGHVAHPGRGCGEPADHDVNLTVLDPARQHAFRRHLVLHVRIYRIREPANELGLRARDLTGRIIHAGPRLVLGHADDERAARRAVVGSLNIAGQRAAPAEQGGAQRHREHRASLSTHSPPPSPQDHIKFCVFTRILLAVVTRCPAQPQYQ				NA	NA	NA	NA	NA
AK009_08285	975			hypothetical protein	ATGGTTTTACCAGGGACAACACACCCTCCAGCAAGAATGGTGGGCCTAGAATCAGCGGTCCTCTTTGACCAGGAATTCCGGGATCGTCGTGGTGGGCACGACCACGATGTCGTGGAGCTGGAAGTCGAGGTCTTCCAGGAGCGTTTCAATCTCGCGCAGCTTATCGACGCTCACCTCACGCCCCGACCGCGGCACCACGAACACCTCCACATGCAGCACGTGACCCAAATCGCGGAACCGCGCCGCCGCGTCGTGCACCCAGTCCACGCCCTTGACCGCATCAACGGCCGTGTCCAGGATGGGGTGAACATTGCCGTCGAGGTCGGTCGGGCGCGCGTCGGTGAGGTCGCGGATCGCGGTGCGCAGGTTGCTGATGCCGTCGGCAACAATAGAGAAGGACACCACGATGGCCGCCACGGCATCCGTCCACCAGATGCCGAGCCCGACGCCGAGCACGCCGACGATGGTGGCCACGCCGGTCATCCAATCCGCTTTGTTCATGTCCGCGTCGGCGTAAAGCACCTTGTCTTGCAGCGGCTCGGCGAGTTTCAGCTTCATTCGGCCGAGGATCACCGGGCCAATGACGGAAAGGGCCATCACCGCGACCATGAGCCAGCCCAGCCAGATGCTGTGGCCGAACAGTATCACGGTGCCGATGGGGGGCTTTTCCTGATTGAACAGGCCGATCGCAGAGGAGATGAGCAGGAAACTGCCCATTGCCAGCAGCGCCGAGCCCGCCACGACGTGCCCGACTCCAATCGCCCGGTGGTGGCCGTAGGGGTGCTTCGCGTCCGGGTTTCTCCTGATGATGCGCGTGGCCACCAGAAACGCGATCGGCGGCAGCAGGGAGAGCAGGTCCTCGTACCACGCCGCCTTCATCGCCTGGGACTGGCCGGACACGATACCGACCAGGGCGATCGTGACCACGAGCACGCCGATGGTGATCCACTCCAGGCGCACCGCCTTGCGCAGTAG	MVLPGTTHPPARMVGLESAVLFDQEFRDRRGGHDHDVVELEVEVFQERFNLAQLIDAHLTPRPRHHEHLHMQHVTQIAEPRRRVVHPVHALDRINGRVQDGVNIAVEVGRARVGEVADRGAQVADAVGNNREGHHDGRHGIRPPDAEPDAEHADDGGHAGHPIRFVHVRVGVKHLVLQRLGEFQLHSAEDHRANDGKGHHRDHEPAQPDAVAEQYHGADGGLFLIEQADRRGDEQETAHCQQRRARHDVPDSNRPVVAVGVLRVRVSPDDARGHQKRDRRQQGEQVLVPRRLHRLGLAGHDTDQGDRDHEHADGDPLQAHRLAQ				NA	NA	NA	NA	NA
AK009_08286	1089	manA_2	COG1482	Mannose-6-phosphate isomerase	GTGGCCCTGAAGCTCACCGGAACGATGCACACCTACGAGTGGGGCCACGAGGAACTCATCGCGGGCCTGCAGGGGCGCACACCTTCCGGTCAGCCCGAGGCGGAGCTGTGGTTTGGCGCGCACCCGAGCGCCCCTGCGCTGACGAGCGAGGGCCCACTCGACGAGGTTATTGCCCGCGAGTCAGGCCAGCCGCTGCCATTTCTGGTGAAGCTCCTCGCGGCGAAGAAGCCACTGTCGCTGCAGGCGCACCCGTCGCTCGAGCAGGCTCGCGAGGGCTTCGCCCGCGAGAACGCCGCTGGCATCCCGCTTGATGCGCCCCACCGTAATTACAAGGACGACAACCACAAGCCTGAGCTGCTCATCGCCCTGACTCCGTTTCGCGCGATTGCCGGTTTCCAGCCCATCGAGCGCACCCTCACGCTGCTGCGCACTTTCGACCTGCCGCAGCTCGCTGAGTTGGAGCGCACGCTTGACGACGCCTCCCTCAACACCGCCGATCGCCTCGCCCGCGCGTTGAAGCTAGCGCTGAGCGTGGATGCCGCCGAGGCGGTGGCGCAGCGCGCGGCCGAGCTCGCGGCGGGGGACTCGGAGTGTAAAGGCACCGCCGCCAACCTGGCGTTCATCGCGCAGGAGTACCCCGGCGACAACGGCGTGGTTGCCGCGCTGCTGCTCAACCACGTTTCCCTCGAGCCCGGTGAGGCACTGTTTCTCGCTGCCGGCAACCTGCACGCCTACCTGTGCGGGATGGGCGTGGAGGTCATGGCCAACTCGAACAACGTGTTGCGCGGCGGGATGACCAGCAAGCACATTGACTCCGACGAGCTGTTTTCGGTCCTTAAGTTCGTCACCCTGGATAACCCGACGGCGCAGCTTGTCGACGGCTCCTTCAACGTCCCGGTCGACGATTTCAGCGTCTCCCCGACATCTGGCGGCGAACCCGTCGCCGGCCCGGCCATCGTGATCAATACTGCGGGTGAGCTGGCGGTTGGCGACGTTAGGCTCGGCCCCGGCGAGGCGTCGTGGGTTGGCGCGCACGAGGGGTGTGTGCCGGTCGAGGGCGTCGCCGCGGCAGGTTTTGTGGTGAGGTAG	MALKLTGTMHTYEWGHEELIAGLQGRTPSGQPEAELWFGAHPSAPALTSEGPLDEVIARESGQPLPFLVKLLAAKKPLSLQAHPSLEQAREGFARENAAGIPLDAPHRNYKDDNHKPELLIALTPFRAIAGFQPIERTLTLLRTFDLPQLAELERTLDDASLNTADRLARALKLALSVDAAEAVAQRAAELAAGDSECKGTAANLAFIAQEYPGDNGVVAALLLNHVSLEPGEALFLAAGNLHAYLCGMGVEVMANSNNVLRGGMTSKHIDSDELFSVLKFVTLDNPTAQLVDGSFNVPVDDFSVSPTSGGEPVAGPAIVINTAGELAVGDVRLGPGEASWVGAHEGCVPVEGVAAAGFVVR	PGPT0017860_2014	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
AK009_08287	744			hypothetical protein	ATGAGCACAATTGATACATACACAGCCGCCATCGAGCGCGCGCTGGCCACCACGCGGCTTGGCCGCGCCCGCATTAACGCGATCGTGGGGGAGCAGCGGGACCTGCTGGAAGAGCTTGCGTCGGACGGAGCATCGCTTTGCGATGAGCTCGGGACCCCACGCGACTACGCCGCGAGCGTGGCGCGGGAGTACGAGGGCGTGGGATACGACGACCACGGCCGGCGCACCACCCCGTTCGGCGCGCTGTTCGCTTCCTCGCGCCGGAGGATTTTCGACCCCGAGGACGAGAAGATTCTCCAACCGCACCTGATGGGCCTGGGTTGGTCCATCAACTGGGGTGCCGTCGCCGTCAAGGCCGGGTGGCTGCGCCCCGATGACCTCGACGCAACGACCCTGGCCAACACGCCCGCGGCTGCCCGGGTCGCGGCGTGGCTGACGCCGGTTGCGCTGACGGCGGGCGCCGTCACGGTGGCGCGCAGGGCCGGGGCGTCCGGCGTCGGGCCCGCGCTGGCGCTCGCCGCGAGCATGGCGCTGCCGATTGCATCGCTGAAGCATAGAGACGTCCGCGACGAGCTCGCCGGGATCTCGCTGGCCACCCTGCTCAGCGCCGCTGGTCTCGCCCGCGCGGTATCGGAGACCCCTCGTGCAGGAGGACGCTTACAGGCGGCCGCGGTGTTTGCGGCTGGGTTTGCGCTTTCCGGGGCGGTGGTTGTGGTGCCCCTCGTGGGGGCGGCGCGGGGTTAG	MSTIDTYTAAIERALATTRLGRARINAIVGEQRDLLEELASDGASLCDELGTPRDYAASVAREYEGVGYDDHGRRTTPFGALFASSRRRIFDPEDEKILQPHLMGLGWSINWGAVAVKAGWLRPDDLDATTLANTPAAARVAAWLTPVALTAGAVTVARRAGASGVGPALALAASMALPIASLKHRDVRDELAGISLATLLSAAGLARAVSETPRAGGRLQAAAVFAAGFALSGAVVVVPLVGAARG				NA	NA	NA	NA	NA
AK009_08288	3384	smc_10	COG1196	Chromosome partition protein Smc	ATGAAGTTCGAGCCGGGTATTTGTGCTGTTGTGGGGCCTAACGGTTCGGGCAAGTCGAACGTCGTCGACGCGTTGGCGTGGGTGATGGGCGAGCAGGGGGTGAAAAACCTGCGTGGCGGGAAGATGGAGGACGTCATTTTCGCGGGCGCGGGGGATCGTAAGCCTTTGGGCCGCGCGGAGGTGACGCTGACCTTTGACAATACGGATAAGCGGCTACCTATTGACTACACGGATGTGGCGATTACGCGGCGGATGTTCCGCGACGGCGCGTCCGAGTACGAGGTCAATGGGTCGAAGGCCCGCCTGATGGATATCCAGGAGTTGCTGTCGGATTCGGGCATTGGCCGTGAGATGCACATCATCGTTGGCCAGGGCAAGCTCGCGGAGATCCTGGAATCACGCCCGGAGGAGCGCCGCGCCTTCATCGAGGAAGCCGCCGGCGTGCTCAAGCACCGCCGCCGCAAAGAGAAGGCGCAGCGCAAGCTCACCGGGATGCAGGCGAACCTCGATCGCCTCACCGATCTTACCGAGGAGCTGGGCAAGCAGCTCGCCCCCTTGGCCCGGCAGGCGGAAACGGCCCAGCGCGCGGCGAGCGTGCAGGCGACGGTGCGCGAGGCCCGCCTTATCCTCGCGGCCGATGAGGTGCTCACTCTTCGCGCGAAGCGTGACGACGCCTCCTCCAACGTCGCGCTTGTCACCGCCAAGGTTGAAGCCGTCGCCGCAGAACTGGATGAAGCTGAGGCGCAGCAGGAGGCCGTTGAGGCCCGCCAGCGGGAGGTTGAGCCGGCGGCCGAGGAGGCGCAGCAGCTGTGGTTTACGCTGTCTACGCTGGCCGAGCGCGTGAGCGCCACGGTGCGCATTGCTTCGGAGCGCGCCGCGAACTCCGTCGGGCAGACCACCTACCACGGCCAAGACCCGGACGACCTGTTGGCGCGGGCGAGCGTGGCCGACGAGCAGTACGCCGAGGCGCTGGAGCGCGCCGAGGAGGCGGCGGAGAAGCTCGAATCGATCCGGGAGGAGATCGCCGAGCGCCGTGAGGTCTTCGACGCCGCGGAGCGCGAGCACCTCGCGCAGGTGCGCGCGATCGCGGACCGCCGCGAGGGCGTGGTGCGCCTGCTGGCGCAGGAGGAAAGCCAGCTTGCCGCCGTCGCCGCCGCCGAAGAGGAGATTTCCCGGATCGAGGAAGCACTGGGCGAGACCCGCCAGCGCGCGCACGTCGCCGCGAGGGAGGCCGAGGAGCTGGCCCGCGCCATTACCGGCGACGGCGAGCAGCGTGATGAGCTTTACCAGGCCCACGTGCGCGCGGCCGCGGAGTCGGACGCGGCCGATAAGCGCCTCGAGCAGCTGCGCGCGGTACAGCGGGAGCGCGAGCGTACGGTGTTTACGTTGGAGTCGCGCATCGCCACCCTGTCCGAGCAGGCTCCGAAGCAGGCTGCCGCGGACGCGCTCGGCGGCGATGTCGGCGTGTTGGCGGGGCTGATCAGCGCTGATCAGGGCGTCGCTAAGGCGCTTGCCGCGGCTCTGGGCCCGTTCGCGGAAGCGCTCGTCGGGGCGGGGGACGTGGCGGATGCGCTGGCTCAGGCCGAGCGTGCCATCGTGGTGGATCCGGTTGGCGGCAGCACCTGGCGGATGGACACCGACGCGCCCGTCGACTGGCTGCTCGACCACGTCCGCCTCGACCCGTCGATCGCGGGGCCGCTCACGCGCGTGCTTGTCGACGTCGCCCTCGCCGACACAGTCGAGGAAGCTAGGCGCATCGTCGCGGACGACCCACGCCTGCGGGCGGTCACGCGCACCGGGGTGCTCGCCGGCGAGGGCTGGATCGCCGCCGGCACCGGGCAGGTGTCGACCGTCGAGGTCTCCGCGCGCATCGAGCGCGCCGCGGCGGAGCTGGAGACCGCGCGCGCCGGGCTGCGCGAGCTCTCCGGAACGCTCGAAGGCGCCAAGCTGTCGGCCGAGGAGGCGCGGGTGGCCGCGGCGAGCGCGAAGGCGGCGCTGCGCGAGCACGATGCGACTCTGGAGGCGACCCGCCGCGAGGCGCAGCGCGCGGCGCGACACCGCGACGCCCAGCGCGCCGAGCACGAGCGCGCAGCGCAGCGCGCCACCGATGCCGAGGCGCGTCTACACAGCCGCCAGGAGGAGCTTGCCGAGACCCGCGATCGCCTGTCGCGCATCGACTCGGACTCCACCGAGGCAGACGAGCCTTCAAGCGCCGAGCGCGATCGGGCCCAGGCCGCGCTGACCGAGGTCACGGCACTAGAGATGGAGGCCACGCTGTCGGCGCGCACCGCGCAGCAGACGGCGGAGGCAGCGGCGGGCAAGGGCGACGCGCTGCGTCGTCAGGCGGAGCACGAGCGGGCGGCGAAGGCGCGCTTTCTGGCGGGCGTCGCCAAGCAGAAGGCGCAGGCCGAGCTAGCCGCGACGGTCGCCGAGCACGCGCGGGTTCTCGCTGGGCGCGTTGGCGATGCGGTGGCGCGGGCCGCGGCGCGCCGCGACGAGCTCTCCGCCGAGGTCGCGCAACTTCGAGGCCGCGCGCAGCAGGCGAAACAGCAGGTCAGCGCGACGCGGCAGCAGCTGAGCCGGCTGACGGACAGCGCGCACGCCGCCGACATCGCCCGCGAGCAGGCGCAGGTGCGCATCGACGAGGCCGAGGCGAAGGCCACCGAATCCCTCGGCATCGCGATCGCCGACCTTCTCGCCCAGCACAGCCCCGGCGAGGGCTTCGACCGCGCCGCCGAGCGGGCGCGCCTCGCGCAGGCGGAAAAGGACCTGCGCGCGCTCGGCAAGGTCAACCCGCTGGCGCTGGAGGAGTACAAGGCACTCGAGGAGCGCTACTCGTTTTTGAGTACCCAGCTTGACGACGTCAACCAGGCGCGCAGGGACCTGCTCGGCGTGATCAACGACGTCGACGATCAGATCCTGAAGCTGTTTACGGATGCGTGGGCGGACGTCGAAAAGCAATTCCCCGCGGTGTTTGGCACGCTGTTTCCGGGCGGGGAGGCGCGGCTGATCCTCACCGAGCCCGGCGACATGCTCGCCACCGGCATCGAGATCGAAGCGCGCCCGCCCGGCAAGCGAGTCAAGCGGCTCTCTCTGCTCTCGGGCGGGGAGAAGTCTCTGACTGCGCTGGCTTTTCTCGTGGCCATCTTCCGCGCCCGCCCCAGCCCCTTCTACGTGTTCGACGAGGTCGAGGCGGCGCTTGACGACGTCAACCTGCGCCGGCTCATCGCGCTACTCGAAGAACTTCGCCGCGACTCGCAGCTGATCGTGATCACGCACCAGAAGCCCACGATGGACGTGGCCAACGTGCTCTATGGCGTCACGATGCGCGGCGACGGGGTCACCCGCGTGATCTCGCAGCGGATGAGCCCCGCCAGTTCCTAG	MKFEPGICAVVGPNGSGKSNVVDALAWVMGEQGVKNLRGGKMEDVIFAGAGDRKPLGRAEVTLTFDNTDKRLPIDYTDVAITRRMFRDGASEYEVNGSKARLMDIQELLSDSGIGREMHIIVGQGKLAEILESRPEERRAFIEEAAGVLKHRRRKEKAQRKLTGMQANLDRLTDLTEELGKQLAPLARQAETAQRAASVQATVREARLILAADEVLTLRAKRDDASSNVALVTAKVEAVAAELDEAEAQQEAVEARQREVEPAAEEAQQLWFTLSTLAERVSATVRIASERAANSVGQTTYHGQDPDDLLARASVADEQYAEALERAEEAAEKLESIREEIAERREVFDAAEREHLAQVRAIADRREGVVRLLAQEESQLAAVAAAEEEISRIEEALGETRQRAHVAAREAEELARAITGDGEQRDELYQAHVRAAAESDAADKRLEQLRAVQRERERTVFTLESRIATLSEQAPKQAAADALGGDVGVLAGLISADQGVAKALAAALGPFAEALVGAGDVADALAQAERAIVVDPVGGSTWRMDTDAPVDWLLDHVRLDPSIAGPLTRVLVDVALADTVEEARRIVADDPRLRAVTRTGVLAGEGWIAAGTGQVSTVEVSARIERAAAELETARAGLRELSGTLEGAKLSAEEARVAAASAKAALREHDATLEATRREAQRAARHRDAQRAEHERAAQRATDAEARLHSRQEELAETRDRLSRIDSDSTEADEPSSAERDRAQAALTEVTALEMEATLSARTAQQTAEAAAGKGDALRRQAEHERAAKARFLAGVAKQKAQAELAATVAEHARVLAGRVGDAVARAAARRDELSAEVAQLRGRAQQAKQQVSATRQQLSRLTDSAHAADIAREQAQVRIDEAEAKATESLGIAIADLLAQHSPGEGFDRAAERARLAQAEKDLRALGKVNPLALEEYKALEERYSFLSTQLDDVNQARRDLLGVINDVDDQILKLFTDAWADVEKQFPAVFGTLFPGGEARLILTEPGDMLATGIEIEARPPGKRVKRLSLLSGGEKSLTALAFLVAIFRARPSPFYVFDEVEAALDDVNLRRLIALLEELRRDSQLIVITHQKPTMDVANVLYGVTMRGDGVTRVISQRMSPASS				NA	NA	NA	NA	NA
AK009_08289	363			hypothetical protein	TTGAGGGCGGCCCCTGCAACGGCTACGGCACCGCCACACCGGCGCCTACACCACCACGAGCCTCCCGGTCACTCGCATGGCCTGCGACACCATGGCCTACGACGGCGCGGTCACCGAGGCGTTTCGCAACGGCACCGGCTTCTACACCGTCGGCGAGGACACCCTCTACGTCGCCGGTGCATATGGCGCACTGAAGCTGGTCCGCGACAACTAGGAACTGGCGGGGCTCATCCGCTGCGAGATCACGCGGGTGACCCCGTCGCCGCGCATCGTGACGCCATAGAGCACGTTGGCCACGTCCATCGTGGGCTTCTGGTGCGTGATCACGATCAGCTGCGAGTCGCGGCGAAGTTCTTCGAGTAG	MRAAPATATAPPHRRLHHHEPPGHSHGLRHHGLRRRGHRGVSQRHRLLHRRRGHPLRRRCIWRTEAGPRQLGTGGAHPLRDHAGDPVAAHRDAIEHVGHVHRGLLVRDHDQLRVAAKFFE				NA	NA	NA	NA	NA
AK009_08290	1827	ftsY_2		Signal recognition particle receptor FtsY	GTGGAGCAGCGTCTCACCGGTGGCCGGGGTGGCGTCGGCGGGCAGGTCAACGATCTCGGGGACAGCAGAATAGTCGGTAGTCACGTATGTGTCGGGTGTAGTCGGGGTGGACGAGTGTGCGGACGCGTTGGTCAGGGGAGCGCAGGCCGCGAGGAACGCGACAGAGCCGGCGCCGATGAGCTTGAACACGTTGTGTCGATTGGTCATGCCTTTTACGCAACCACCGCCGGCCGTGCGAGCGCTATACACAAAAGTATCCAATTGGCTGGCACTATGGAGGGCATGAACACGACTCTCATTTGGATCCTGATCGCCATTGTGGTGATCGCCCTGATCATCGTCGGAATCGTGGTGATCGGTAACAGCCGCAAGAAGTCGAAGACCATCTCCTTCGACAAACCCGCAGATCAGGCCCCGAAAGAACTGACGCAGCAGGAGAAATCAGGTAACTACCAGGCCAAGGGCGGATTCGCCTTCGCACCGGCGGAGGTCCCCGAGCCGGTGCGCGTGGACAATCCCGTTGAGCCCGCCGAACCCGCGCCGGGCGGCTCGACCGCGATGTCGCAGCTCAACGAGCAGCTCGCTCAAGAACCAGTCGCCGCTCCGGAGCCTGAGATTGAACTGAGCGATGATGCGGCCGACGCAGTGGAAGAGCTCAACGACGACGTGGTCGAGGAGGGCGTCGAGAAGCCTGCTGTCGATGGCCTGTCTGAGGATGGCCGCGACATCGTGGAGGAGGCGTTCGAGGCTGAGCAGGATCCCGAGGAGGATCCGGAGGCGGAGGAGGCCGCCAACATCGCTGCGGTCACCGCCGAGGTGGCTGACGCCGCGCGCCAGGAGGGGGCTGAAGTTTCGGAGGAGGCGATCGTCGATACGCCCGCGGCGAGCGAGCCGATCGACGAGATCGCCCCGGCCGCGGGCCGCATTGGCAAGCTGCGCGGGCGCCTGTCGCGCTCGCAGAACGCCATCGGCCAGGGCCTGCTGGGCATCCTGACCGCGGGCGACCTCGACGAGGACGCTTGGGAGGAGATCGAAGACACGCTGATCATGGCCGATCTGGGCACCCAGCTCACGCTGAAGGTGACCGAGTCGCTGCGCGCCAAGATCGCCGAGCGGGGTGTGAGCAGCGAAGCCGAGGCCCGCGCCATGCTGCGCGAAGCGCTGATCGAGGCCGCTCACCCCGAGATGGATCGTTCGATCAAGGCGATGCCCAACGAGGGAAAGCCCGCCGTGATCCTGGTCGTGGGTGTCAACGGTACGGGCAAGACGACCACCACCGGCAAGCTCGCCCGCGTGCTGGTGTCCATGGGCCACTCGGTGGTGCTCGGGGCGGCCGATACATTCCGCGCCGCGGCGGCGGATCAGCTGGAAACGTGGGGGCGCCGCGTGGGTGCCTCCACCGTGCGCGGCAAGGAGGGCGCGGACCCGGCATCGGTCGCCTTCGATGCGGTGGCTACGGGTGTGGACCAGGGTGCTGACGTGGTTCTCGTCGATACCGCGGGGCGCCTGCACACGGCGACCGGCCTGATGGATCAGCTGGGCAAGGTCAGGCGCGTGGTGGAGAAGAAGTCGCATGTCGACGAGGTGCTGCTGGTCCTCGACGCCACGGTGGGGCAAAACGGCATCACCCAGGCGCGCGTGTTCCGCGAGGTCGTCAACATCACCGGCGTGGTGCTGACCAAGCTCGACGGGACGGCCAAGGGCGGAATCGTTTTCCAGGTCCAGGAAGAGCTCGGCGTGCCGGTCAAGCTCGTCGGACTGGGAGAGGGCGCCGACGACCTCGCGCCGTTCGAGGTGGAAAGCTTCGTCGACGCGCTGCTCGGCTAA	MEQRLTGGRGGVGGQVNDLGDSRIVGSHVCVGCSRGGRVCGRVGQGSAGREERDRAGADELEHVVSIGHAFYATTAGRASAIHKSIQLAGTMEGMNTTLIWILIAIVVIALIIVGIVVIGNSRKKSKTISFDKPADQAPKELTQQEKSGNYQAKGGFAFAPAEVPEPVRVDNPVEPAEPAPGGSTAMSQLNEQLAQEPVAAPEPEIELSDDAADAVEELNDDVVEEGVEKPAVDGLSEDGRDIVEEAFEAEQDPEEDPEAEEAANIAAVTAEVADAARQEGAEVSEEAIVDTPAASEPIDEIAPAAGRIGKLRGRLSRSQNAIGQGLLGILTAGDLDEDAWEEIEDTLIMADLGTQLTLKVTESLRAKIAERGVSSEAEARAMLREALIEAAHPEMDRSIKAMPNEGKPAVILVVGVNGTGKTTTTGKLARVLVSMGHSVVLGAADTFRAAAADQLETWGRRVGASTVRGKEGADPASVAFDAVATGVDQGADVVLVDTAGRLHTATGLMDQLGKVRRVVEKKSHVDEVLLVLDATVGQNGITQARVFREVVNITGVVLTKLDGTAKGGIVFQVQEELGVPVKLVGLGEGADDLAPFEVESFVDALLG	PGPT0025740_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
AK009_08291	528			hypothetical protein	GTGAACGACGGTGCCGCCGGCGAAGTCAATCGGGGAGACTGCCGCTTCGCCGTCGACGACGCCGAACAGGCGCGCCGCGATGGAGCCTTCCGCATGGCCGAGCAGGCCGCCACCCCACACCATGTGAGCGAGCGGGAAGTAGACCAGGGTCGACCACAGGGCGGCGAAGACCACCCAGGAGCCGATCTTGACACGGCTTGCAACCGCGCCGGAGATGATCGCGGTGGAGATCACGGCGAAGGTGAGCTGGAAGCCAATGTCAATGACGTTGGCGTAACCGGCGGCACCTTCGATGTAGTTACCCTCGGCGTCGACGATGGCGTTGGCCAGGCCGAAGAACTCGAAGGGGTTGGCGAACACCCCGCCAATGGATTGCGTGCCGTACGACATGGACCAGCCCCACAGCACGTACACGATCGTGACAATGCCGAGGCTGGTGAAAGACATCATCATCATGTTGAGCACGCTTCGGCGCGAGGACATTCCGCCGTAGAACAGCGCCAGCGCGGGGGTCATGAGCAGAACTAG	MNDGAAGEVNRGDCRFAVDDAEQARRDGAFRMAEQAATPHHVSEREVDQGRPQGGEDHPGADLDTACNRAGDDRGGDHGEGELEANVNDVGVTGGTFDVVTLGVDDGVGQAEELEGVGEHPANGLRAVRHGPAPQHVHDRDNAEAGERHHHHVEHASARGHSAVEQRQRGGHEQN				NA	NA	NA	NA	NA
AK009_08292	450			hypothetical protein	GTGGTCTCCGCGGGCCTCGTTGAGGCCGAGTTCTGCCGCGGACTTGTTGCCTGCCGGAAGGCCACCCGGGCGCATGCCGGGGCCGCCGAAGTCGTAGCCGGTCTCGCGGTGCACGGAGTAGTCGACGCCTTCGAACTCTTCCTCGCGGGTGACCCTCCAACCCATCGTGTACTTGATCGCCAGCGCGATCACCAGAGTGATCACGCCCGCGAAGACCATGGACACCAGCGCGATGATGATCTGGATACCGAGGAGCTTGAAGCCCTCGGTGACATCACCGGTGAAGATACCGCGCTCGCCGGCAAAGAACGCGAGTCCGACGGTGCCCCACAGGCCAGCGACGAGGTGCACGCCGACCACGTCGAGGGAGTCGTCGTAGTTGAGCACGTATTTGAGGCCGACGCCGAAGCATGCGAGCACGCCGCCGATGAAGCCGAGGATCAGGGATGA	MVSAGLVEAEFCRGLVACRKATRAHAGAAEVVAGLAVHGVVDAFELFLAGDPPTHRVLDRQRDHQSDHAREDHGHQRDDDLDTEELEALGDITGEDTALAGKERESDGAPQASDEVHADHVEGVVVVEHVFEADAEACEHAADEAEDQG				NA	NA	NA	NA	NA
AK009_08293	339	glnB	COG0347	Nitrogen regulatory protein P-II	ATGAAACTAATCACTGCAGTGGTCAAGCCTTTCACCGTGATCTACATCATGGAGGCGCTTGAAGAAATCGGCGTGTGCGGTATCACCGTCACGGATGCGCAGGGCCGCGGCCGCCAGGGCGGCAACGTGGAGTACTACCGCGGCGCGAAGTACTCCTCGCCGTTCGTGGCCAAGGCCAAGGTTGAAGTGCTCGTGACAGACGAGCAGGTTGACGTGGCCGTCGATACGCTCGTGAAAAGCGCTTATACCGGCGAGGTCGGCGACGGCAAGGTGTGGGTCACCTCGATCGACAACGTCGTGCGCGTGCGCACTGGTGAGAAGGACGATCAAGCCATCTAA	MKLITAVVKPFTVIYIMEALEEIGVCGITVTDAQGRGRQGGNVEYYRGAKYSSPFVAKAKVEVLVTDEQVDVAVDTLVKSAYTGEVGDGKVWVTSIDNVVRVRTGEKDDQAI	PGPT0000650_1877	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
AK009_08294	420			hypothetical protein	TTGCAGCTGCTGCACCGCCCCGGGGCGCTGCAGGTCGCAGGCCACCAGCATCGGGGTGTGGCCCTGCTTGGTCAGGTGGTTCGCCAGCTTGCCGGCGAGCGTGGTCTTACCGGCGCCCTGCAGCCCGGCGAGCATGATCACGGTCGGCGGGGTTTTCGCCAGGTTCAGCCGGCGGGTCTCGCCGCCGAGGATGTTGGTGAGCTCCTCGTCGACGATTTTGATGACTTGCTGCGCCGGGTTGAGCGCCTCGGAGACATCGGCGCCGAGGGAGCGCTCCTTGACTCGTTTAATAAAGGCGCGCACCACGGTGAGGGAAACATCGGCCTCGAGCAGCGCGAGGCGGATCTCACGGGCGGTGTTGTTGATGTCTGCCTCGGTCAGCTTGCCCTTACCGCGCAGGCCGCCGAGGGCAGTTTGTAG	MQLLHRPGALQVAGHQHRGVALLGQVVRQLAGERGLTGALQPGEHDHGRRGFRQVQPAGLAAEDVGELLVDDFDDLLRRVERLGDIGAEGALLDSFNKGAHHGEGNIGLEQREADLTGGVVDVCLGQLALTAQAAEGSL				NA	NA	NA	NA	NA
AK009_08295	987			hypothetical protein	TTGCAGGTCCGCCATGCTCGGCATGCCACCGGGCATTCCCGGCTTCGCGCCGCCACGGTTCTTCACCGGCTTGCGCTTGCCGTTCTTGCCCTTGCGTCCCTTCGGCTTCTTCTTCGTGGCGCTGCGCCCCCCGCCCATTCCAGGCATGCCGGGCAGGCCGAACTGGCTGGCCATCTGCCCCATCATCTTCTTCGCCTCGAAGAAGCGCTCCACGAGCTGGTTGACGTCGGAGACGGACACGCCGGAACCGTTGGCGATGCGCTTGCGGCGCGAGGCGTTGAGGATCTTCGGGTCCTCGCGCTCGGCGGGAGTCATGCCGCGGATGATCGCCTGGATGCGGTCGAGCTGCTTCTCGTCGACCATGTCGGCCATCTCGTTCATCTGCTTGCCACCGGGCATCATCTTCAGCAGGTTGCCGATCGGCCCCATGCGGCGGACCATGAGCAGCTGGTCGAGGAAGTCCTCCAAAGTGAGCTCGCCGGAGCCGAGGCGCGCGGCGGCCTTTTCGGCCTCCTGCTGGTCGAACATGGTCTCGGCCTGCTCGATGAGCGAGAGCACATCGCCCATGCCGAGGATGCGGCTGGACATGCGGTCGGGGTGGAAGATGTCGAAGTCGTCGAGCTTCTCACCCGTGGAGGCGAACAAGATCGGTTTGCCCGTGACCTCGCGGATCGACAGCGCTGCGCCGCCGCGGGCGTCGCCGTCAAGCTTGGTCAGCACCACACCGGTGAAGTCGACGCCGTCGGCGAACGCCTGCGCGGTGGCGACGGCGTCCTGGCCGATCATCGCGTCGATGACGAAGAGGACTTCATCGGGGTTGACGGCATCGCGGATGTTGCGCGCCTGCGTCATCAGGGTTTCGTCGATGCCGAGGCGACCGGCGGTATCGATGATGACCACGTCGTTCTTGGCGCGAACGGCGTGCTCAATACCCGCCGTGGCCACGGCGACGGGGTCACCGTGGGAGGTGCCCATCTCGTGATCTAG	MQVRHARHATGHSRLRAATVLHRLALAVLALASLRLLLRGAAPPAHSRHAGQAELAGHLPHHLLRLEEALHELVDVGDGHAGTVGDALAARGVEDLRVLALGGSHAADDRLDAVELLLVDHVGHLVHLLATGHHLQQVADRPHAADHEQLVEEVLQSELAGAEARGGLFGLLLVEHGLGLLDEREHIAHAEDAAGHAVGVEDVEVVELLTRGGEQDRFARDLADRQRCAAAGVAVKLGQHHTGEVDAVGERLRGGDGVLADHRVDDEEDFIGVDGIADVARLRHQGFVDAEATGGIDDDHVVLGANGVLNTRRGHGDGVTVGGAHLVI				NA	NA	NA	NA	NA
AK009_08296	393			hypothetical protein	GTGCCAGATAAGCGGTGCCAGAGTGAGAGAGTAAGCGTTGGAGATGTGGTTCTGGTCCCGGTAGACGGTGACGTTTCCGATCACGGGCGGGCACAGCCCGTCGGGACAGTACCAGCCGGAGGTGTCCACCATGTGGCGCATGGCGTCCGCATCGGAGTAGTCGGCGGCCGGGTCTTCGGGCGAGTACATCGTCGTGGCGGGCATGCTGCATTCGGCGACCGAGCCGCCGTTGACTACACAGCCGTTGGGGTTCAAGGGGGTCCCGTCGGCATCGAAAATCCACGGGTTGTCTCTGAGCCCGAGAAACGGGATCTCGGCCTCGGCGAAGGCATCCCACACCTCCACGTACTCCGGGGGAACGGAATCCGTGGATGGGCTCGCTTCTCCGGCTGA	MPDKRCQSERVSVGDVVLVPVDGDVSDHGRAQPVGTVPAGGVHHVAHGVRIGVVGGRVFGRVHRRGGHAAFGDRAAVDYTAVGVQGGPVGIENPRVVSEPEKRDLGLGEGIPHLHVLRGNGIRGWARFSG				NA	NA	NA	NA	NA
AK009_08297	438			hypothetical protein	ATGAGCCGGGGGATGCCGCGCCGGAAGCAGATTGCGTCTACGGAGACCCCGAGGCCGAAACAACCGTGGCCTTGGTCGGCGGCTCCCACGCCGAAACATACGGTGTGGCACTCGACGAGCTGGGCAAGAAACACGGGTTTAAGGTCATCACTTTCATCCGCCAGACGTGCCCGATGGTGTTTACCCCCGGAGACCTGGTCAGCCACCGGTGCGCGAAGTGGTCGCTCAACACATTCAACGAGCTCGCATCCCTCGACCCGGCCGTGGTGGTCTCTACCTCGACACGCCCGGCCGGCTCAGCCGGAGAAGCGAGCCCATCCACGGATTCCGTTCCCCCGGAGTACGTGGAGGTGTGGGATGCCTTCGCCGAGGCCGAGATCCCGTTTCTCGGGCTCAGAGACAACCCGTGGATTTTCGATGCCGACGGGACCCCCTTGA	MSRGMPRRKQIASTETPRPKQPWPWSAAPTPKHTVWHSTSWARNTGLRSSLSSARRARWCLPPETWSATGARSGRSTHSTSSHPSTRPWWSLPRHARPAQPEKRAHPRIPFPRSTWRCGMPSPRPRSRFSGSETTRGFSMPTGPP				NA	NA	NA	NA	NA
AK009_08298	945			hypothetical protein	GTGGTCCATCAGCATTCAGGGGCAGTTCTATCTCGCCGCCATCCTGCTCGGAACGGTCATTGCAGTGCTTGTCACTCGGACGGGCATATCCCGAACCTGGGTGCGACGCGGGACCATCGCGTTGCTCGTGGTGGTGACCGTGGCATCGTTGAGCTGGGCATCGCGCTTCGGCCTTTTCGGCACGGAACCGAACTATTACTCCTTCTTTTCCCGCGCCTGGGAGCTGACGCTGGGAGGATTGCTCGCCCTGGCCGCACAGGTGCAGATTCCGAGGCGGTTCAGCGCCCTCACCGCCGGCAGCGGTCTCACACTGATAGCGTTGACCGGTGTTGTCATTCCCACAACCCTGGCATATCCCGGACCGCTCACCCTGATGCCGATTGGCGGGGCTGCACTGATTGTGCTGAGCAACCCAGCCAATCCCGTGTCATCGATTCTTTCGTCGCGGCCGATTACCTGGCTCGGTTCCGTCGCCTATCCCCTCTATCTATGGCACTGGCCACTGTTGATCATCGCCGTCACCATAGGCTCGCATACCATTCCACCCCTGTCCGTCGGCCTGGGAGTTATCGCGCTTTCCATTGTCCTTGCCCAGGCAACGCACACGGCGGTCGAGGAGCCCTTGCGCATGCACGGCAAGCGCCCGACGAAACAAGACGCACCCGTCACGGCAGCGCTGGGTTCTCTGCGGCGGCCCGCGGGTGCCGCGCGGGCGGCGGGCGGTGTCCTCATCGCCACCAGCACGGCAGCGATCCTGTCGCTGTCACCGATGTGGGAGCGACACGTCACCATCGCCGATTCCCCCTCCAGTGCGGAGCAGCATCCGGGGGCAATGGCTCTGCGCGGCGCCTCAGTTCCGGATGTGCCTGCTCAGCCGGCACCCATGCTGGCCTCCAGCATCACCACCCACATCTTCCGCGACGGCTGCGTGATTTCCCAGGATGA	MVHQHSGAVLSRRHPARNGHCSACHSDGHIPNLGATRDHRVARGGDRGIVELGIALRPFRHGTELLLLLFPRLGADAGRIARPGRTGADSEAVQRPHRRQRSHTDSVDRCCHSHNPGISRTAHPDADWRGCTDCAEQPSQSRVIDSFVAADYLARFRRLSPLSMALATVDHRRHHRLAYHSTPVRRPGSYRAFHCPCPGNAHGGRGALAHARQAPDETRRTRHGSAGFSAAARGCRAGGGRCPHRHQHGSDPVAVTDVGATRHHRRFPLQCGAASGGNGSARRLSSGCACSAGTHAGLQHHHPHLPRRLRDFPG				NA	NA	NA	NA	NA
AK009_08299	246			hypothetical protein	GTGCTGCAGCGGCGATGCTTCCGGGCTCACAGCGGCGTAATCAGAGCCCTGGGCGGCGAGCTCGCGGTTCTGGGCGAAGAAGATGGTGGCGGTGAACTGCCGCAGGAGTTCTCCGCTCACCAGTCCCGGAACGAGCGCGAACACGAGGATGACGGTCGCCGCCAGTACCACCACCAGCGAGGGTATGAGACGGCGGGCGGTGCGCCACATGGGCCACCACGGATTTACGCGGGGGTTCTCGCGTAG	MLQRRCFRAHSGVIRALGGELAVLGEEDGGGELPQEFSAHQSRNEREHEDDGRRQYHHQRGYETAGGAPHGPPRIYAGVLA				NA	NA	NA	NA	NA
AK009_08300	267			hypothetical protein	ATGGAACACCACGACGAGGGCGATGGCGATGCCGCGCAAACCTTCGAGGTCGTTGCGGAATTGGGGGGTGCTACTGGCTGCCCTCCCACTGTCCATCGCCGTCCTCCTTCCCGCGCAGGTAAGCAACGGGTAGTCTACTCCGGCCCGTTTTGGACTCTGAAACCGACCGGTTGTAAGGTAATGCAGGTTGCGCAGCGCTCTGCGTGCGCACACCCTGCGTTAGCGCCGGACCCGAGTACGCTCGACCGGCCCGTCACACGCAAGTAA	MEHHDEGDGDAAQTFEVVAELGGATGCPPTVHRRPPSRAGKQRVVYSGPFWTLKPTGCKVMQVAQRSACAHPALAPDPSTLDRPVTRK				NA	NA	NA	NA	NA
AK009_08301	522			hypothetical protein	ATGGCTGTCAAGATTAAGCTGCAGCGTCTCGGCAAGATCCGCAACGCCCAGTACCGCGTCGTCATCGCCGACGCACGTGCCCGCCGCGACGGCAAGGTGATCGAGAACATCGGCATCTACCACCCGAAGGAGGAGCCGTCGCTGATCCGCATCAATTCCGAGCGTGCACAGTACTGGCTCGGCGTCGGCGCCCAGCCGACCGAGCCGGTTCTCGCGCTGCTCAAGGTGACCGGCGATTGGCAGAAGCACAAGGGCCTCGACGGCGCCGAGGGCACCCTGAAGGTTGCTCCGGAGAAGCCGTCCAAGCTCGAGCTGTTCAACCAGGCTCTCGAGGAGGCCAACAACGGCCCGACCGCCGAGGCCATCACCGAGAAGCGCAAGAAGGCCAAGGATGAGGCAGAGGCTAAGGCTGCCGCCGAGGCTGAGGCTGCTGCGAAGGCTGAGGCAGAGGCTGCCGCAGAGTCCGCAGCAGAGTCTTCCGAGGAAGCTCCGGCTGAGGAAGATGCCGCTGAGGAGAACTAG	MAVKIKLQRLGKIRNAQYRVVIADARARRDGKVIENIGIYHPKEEPSLIRINSERAQYWLGVGAQPTEPVLALLKVTGDWQKHKGLDGAEGTLKVAPEKPSKLELFNQALEEANNGPTAEAITEKRKKAKDEAEAKAAAEAEAAAKAEAEAAAESAAESSEEAPAEEDAAEEN				NA	NA	NA	NA	NA
AK009_08302	336			hypothetical protein	GTGGATCACCTTGAGCCCGATGAGCTCGTGGTCGTAGAACTCCTCCGAGTCCTCCTCGCGCTCGAGCGGCGGGGCGAAGAACTGCATCCCGCGCAGCGAGTCCGCCTGCGTGCGGTCGGGCACCTCTTCAAAGCTCATCAGCAGGCGGTTTTGGTGCGGTCGCAGCGTCTTGATGGTCAGCTCGCGCTCCTTGCCCGGCTGCCGGCCAGTCAGCACCTCCCCGACGACGAAGCGCTCGCCGGGGTCATCGGTAAGCACCTCGACGGCGACCTCTCCCTTGATGCCGTGGGATTTAACGACCTTGCCGATGAGCAGCTCCATGAGCGCGTATTCTAG	MDHLEPDELVVVELLRVLLALERRGEELHPAQRVRLRAVGHLFKAHQQAVLVRSQRLDGQLALLARLPASQHLPDDEALAGVIGKHLDGDLSLDAVGFNDLADEQLHERVF				NA	NA	NA	NA	NA
AK009_08303	1074			hypothetical protein	GTGTATCGCAGCCGCCTTTTACAGCACTCGCCGCGCCTTATCGACGACCTTTTTCACGTCCCCCTCGCTCAACGCCGTGCGCCCCCGCACGATCACGCGCGCGCCGGCCACCTCGACCGAGTCGACCTCGACGCCCGATCGGCGCAGCGCCTTGCGCACAGCGCGCTCTGCATCCGCGATCTCGGCGTCGATAACGAGCTCCACCTCGCGGGCGTGAAGCGTAAACTCATCCGCCGCGTCAAGCTCGGCATGCTCCAGCAGCTCGGGTCGCACCCGCTGGGTGCGCAGCAGGGCCTGGTCGCGGCGCCACCTGCGCACCTTGGCGTGATCGCCGGAGAGCAGCACCTCCGGGGCGTCGATGCCGCGCCACTGCCTGGGCTTGGTGTACGCGGGGCCTTCGAGCAGGCCGTCGGAAAAGGAGTCCTCCTCGTGGCTCTCCGTGTTTCCCAGCACGCCCGGGATCAACCGGGTGACGGCCTCGGCGATGACGAGCGCGGCCACCTCGCCGCCGATGAGCACGTAGTCGCCGATGGAGACCTCGCGCACCCTGTAGCGCTTCCGCGCGTCCTCGAACACGCGCTGGTCGATGCCCTCGTAGCGGCCGCACGCGATCACAATATGCTCCTCGCGCGAGAACGCCTGCGCGTCCGCCTGCGTAAACGGCGTGCCGGCCGGGGTGGGCACGAGCAGCAGCGGCAGGGAGCGGTCCTGATCCTGCGCCTCGTACGGGCGGGGCGCGACTCTTGCCACGTCGTCGTGACGCGCCTTGTCGTTGCGGTGCGCCGCAGCCGAGTCGATCTCGAACCCCTCGCGCCCGGCAGCAACGGCGTCGAGGGCGGGCCCCCACACCTCGGGCTTCATCACCATCCCGGGCCCACCACCCAACGGCGGCGCGTCGACGGACTTGTGCCGGCCCGTCGCCCAATCGCGCAGGTTGTGGATGGCGACGGTGAGGATCCCCTGCTCAATCGCCCTGCCCAGCAGAGCGTGGCGCAGCGGCTCGAGGTACTCGGGGAAGATGGTGATGATGTCCAGGCGCAGCTTAGACATCCAGCAGGCCCTCCGGCGGGGTGA	MYRSRLLQHSPRLIDDLFHVPLAQRRAPPHDHARAGHLDRVDLDARSAQRLAHSALCIRDLGVDNELHLAGVKRKLIRRVKLGMLQQLGSHPLGAQQGLVAAPPAHLGVIAGEQHLRGVDAAPLPGLGVRGAFEQAVGKGVLLVALRVSQHARDQPGDGLGDDERGHLAADEHVVADGDLAHPVALPRVLEHALVDALVAAARDHNMLLARERLRVRLRKRRAGRGGHEQQRQGAVLILRLVRAGRDSCHVVVTRLVVAVRRSRVDLEPLAPGSNGVEGGPPHLGLHHHPGPTTQRRRVDGLVPARRPIAQVVDGDGEDPLLNRPAQQSVAQRLEVLGEDGDDVQAQLRHPAGPPAG				NA	NA	NA	NA	NA
AK009_08304	1797			hypothetical protein	GTGCGGGTCGGAAACGAATTTCCGGCTCATCGCCGAGACGTGGACCAGACCGTCCTGGTGCACCCCGACATCGACGAAGGCACCGAAGGCGGCGACGTTGGTGACGGTGCCCTCCAGGATCATGCCCGGAGTGAGGTCCGAGACCTTGTGCACCCCCTCCTTGAACGCGGCCGTGACGAACTCCGGACGCGGGTCGCGGCCCGGCTTCTCCAACTCGGAAATGATGTCGGTGACGGTGGGAACGCCGAAGGTGTCGTCGGCGAAGTCCGCGGCGCTCAATCGCGTAAGAACTGCGGTGTTGCCGATCAGCGCCTGGGTGTCCAGGCCCGTCGACGCGGCGATGCGCTCGACCACCGGGTAGGCCTCCGGGTGCACAGCCGAAGCATCGAGCGGATCGCCCCCTCCCCGGATGCGCATGAACCCCGCCGCCTGCTCGAAAGCCTTCGGCCCGAGGCGGGGCACCTGGGTCAGCTCCTTGCGCGTGTGAAACGCCCCGTGCTCGTCGCGGTAGTCAACGATGTTTTTCGCCAGCGTCGCGCTAATCCCGGCGACCCGCTCGAGCAGCGGCACCGAGGCGGTGTTGAGATCCACGCCCACGGCGTTGACCGCATCCTCGACCACGGCATCGAGCGCGTGGGCGAGCGCGGCCTGGTTCACGTCGTGCTGGTACTGCCCCACCCCGATCGACTTCGGATCGACCTTGACCAGTTCCGCCAAAGGGTCCTGCAAGCGCCGCGCGATGGAGACCGCAGAGCGCAACGAGACGTCCATGTCCGGGAACTCGGCCGCAGCGATCTCGGAGGCGGAGTAGACCGACGCGCCCGACTCGGACACCATCACCGGCGTCGGCCGCGTACCGCCGGCGCGGGCGATGAGATCCGCCACCTCGCCGGCGAGCTTTTCCGATTCGCGGCTCGCGGTGCCGTTGCCCACCGCGATGAGCTCCGCGCGGTGGGCCGCCGCCATGGTGGACAGCTTCTCGACGGCCTCCGCCCAGCGGTTCTGGGGCTGGTGCGGGTAGACAATGGCCGTCTCGAGCACCTTTCCGGTGCCGTCGACCACGGCGCACTTGACCCCGTTGCGGTAACCGGGATCGAGCGCGAGTGTGACGCGCTGGCCCGCTGGGGCGGCGAGCAACACATCGCGCAGGTTTGTGGAGAACACTTCCAGCGCGCCGAGCTCGGCCTTTTCCTTCAGGCGCATCCGCGCGTCCACCGTGGCGGAAACCTGCAGCTTGGTGCGCCACGCCCACCCGACGCTCTTGGCCAGCCACGACGACTCTTTTACCGCGAGGTCCGCGTGGCGGGCAATCATGCCGGTAAAGACCTCCTCCTCGCCCGGATCGAGCAACAGGGTGAGCACCCCCTCATTTTCGGCGCGGAACAGGGCGAGGATGCGGTGGCTGGGCAGGGTGTCGAGAGGCTCGGCGAAGTCGAAGTAGTCCTTGAACTTCGCCCCGTCGCTCTCCTTGCCCGCGATGACGCTGGCGCGCATCGTCGCGGTGTTGAAGAAGCGCTCGCGCAGCGCCCCCACCAGGTCGGCGTCGAGCGCGAGACGCTCCGCGAGGATCACGCGGGCGCCGTCGAGCGCGCTTTTCGCGTCCGGGAAGCCCTCGGTGACAAAGCCCGCGGCCGTGACCTCCGGGTCGGACGAGGGGGCGTCGATAAGTGTGCTCAGCAGGTTGTCCAGGCCCGCCTCGCGCGCGATGTCCGCCTTCGTGGCGCGGCGCTTCTTGTACGGCAGGTAGAGGTCCTCCAGGCGCGCTTTAGTGTCGGCGGCGAGGACCTGGGCGCGTAG	MRVGNEFPAHRRDVDQTVLVHPDIDEGTEGGDVGDGALQDHARSEVRDLVHPLLERGRDELRTRVAARLLQLGNDVGDGGNAEGVVGEVRGAQSRKNCGVADQRLGVQARRRGDALDHRVGLRVHSRSIERIAPSPDAHEPRRLLESLRPEAGHLGQLLARVKRPVLVAVVNDVFRQRRANPGDPLEQRHRGGVEIHAHGVDRILDHGIERVGERGLVHVVLVLPHPDRLRIDLDQFRQRVLQAPRDGDRRAQRDVHVRELGRSDLGGGVDRRARLGHHHRRRPRTAGAGDEIRHLAGELFRFAARGAVAHRDELRAVGRRHGGQLLDGLRPAVLGLVRVDNGRLEHLSGAVDHGALDPVAVTGIERECDALARWGGEQHIAQVCGEHFQRAELGLFLQAHPRVHRGGNLQLGAPRPPDALGQPRRLFYREVRVAGNHAGKDLLLARIEQQGEHPLIFGAEQGEDAVAGQGVERLGEVEVVLELRPVALLARDDAGAHRRGVEEALAQRPHQVGVERETLREDHAGAVERAFRVREALGDKARGRDLRVGRGGVDKCAQQVVQARLARDVRLRGAALLVRQVEVLQARFSVGGEDLGA				NA	NA	NA	NA	NA
AK009_08305	348	rplS_2	COG0335	50S ribosomal protein L19	ATGAGCAATGGCATTATTGACCTCGTCGACGCAGGTCAGCTGCGCGAGGATATCCCGAACTTCCGCCCGGGCGACACCCTCGGCGTGCACGTCAAGGTTATCGAGGGTTCCGTGACCCGTACCCAGCTCTTCGAGGGCTTCGTTGTGCGCCGCCAGGGCGGCGGCATCCGCGAGACCTTCACGGTGCGCAAGATCTCCTTCGGCATCGGCGTTGAGCGTACCTTCCCGGTGCACTCCCCGAACATCGAGAAGATCGAGGTGCTGCGCAAGGGTGACGTGCGCCGCGCGAAGCTGTACTACATGCGCGATCTGCGCGGCAAGGCAGCCCGCATCAAGGAGCGCCGCTAG	MSNGIIDLVDAGQLREDIPNFRPGDTLGVHVKVIEGSVTRTQLFEGFVVRRQGGGIRETFTVRKISFGIGVERTFPVHSPNIEKIEVLRKGDVRRAKLYYMRDLRGKAARIKERR				NA	NA	NA	NA	NA
AK009_08306	711			hypothetical protein	GTGCGCGCGGGAGTCGAGCGAGTTGGTGCGGTTGTCGCCCATCATGAAGTAGTGCCCCTCCGGCACGGTGACCGGGCCAAAGTAATCACCGCCGCACTCCCGCGAGCCGGTCGCCGGGTTGATCGGGTTCTCCGGCGGCTGCAGAATGTACGACTGGTCGATCGGGGCGCCATCGACCATCACGGCGGGGTCGCCCGCCTGGCACGACACGGTCTGCCCGCCCTCGGCGATGATGCGCTTGACCAGGTTGTTCTCGTCCGGGGGCACGAGACCAACCCAGGAACCGACGGTCTGCAGACCCGCCACGAGCGGGTTGTCCGAGCGGGTGGAAACGTAGCTGGAGTTCCACGCGTCCGTGCCCTCGAACACGACGACGTCGCCCGGTGCCGGGTCGCGGAAGTAGTAGCTGACTTTCTCCACCGCCACGCGGTCGCCAGTGCCGTTGAAGCCGTGCAGCGTGGGCTCCATCGAGGCCGAGGGGATGACGTACATGCGGCCGATGAACGTCTGGATGATGAAGATGAACGCCAAGGTCAGCGCGATGACCACCGGGATCTCGATGTACCACGGCATCTGCTTTTCGGCCTCGGGCTGATTCCTGTTACTCACCCGCAACACCTTAGCAGCGCGACCTTGGGCGGCGGTGGGAGGCAGCGCGGTTTGGACTGCGTAATTTGGCGCGGGTTATTGGAAAAATCCCAGGTCGCGTAA	MRAGVERVGAVVAHHEVVPLRHGDRAKVITAALPRAGRRVDRVLRRLQNVRLVDRGAIDHHGGVARLARHGLPALGDDALDQVVLVRGHETNPGTDGLQTRHERVVRAGGNVAGVPRVRALEHDDVARCRVAEVVADFLHRHAVASAVEAVQRGLHRGRGDDVHAADERLDDEDERQGQRDDHRDLDVPRHLLFGLGLIPVTHPQHLSSATLGGGGRQRGLDCVIWRGLLEKSQVA				NA	NA	NA	NA	NA
AK009_08307	354	rnhB_2	COG0164	Ribonuclease HII	GTGGCGAATGTGGATGGCGCTCGTCGGGCCGTCGCAAAGCTTGATGCGCGCCCTGGCTACGTGCTTGTCGACGCCCTGCGCGTGTCCGGGCTAACCGCCCCGCAGCTGCCGATCATCGGCGGCGACTACACCGCGCGCTGTATCGCCGCGGCGAGCGTGCTGGCGAAAGTCTCGCGCGACAGGCTGGTCACCGAGATGGCGCAGCGCTACGCCGACTACGGCATCGCCGGGCACAAGGGCTACGGCACGCAAGCGCACATGGCTGCGGTGCGTCGCCACGGTGCGAGCCCGGAGCATCGTTATAGTTATGCCAACGTGAGACAAGCCCACGAGTACTTTATGAGGTCACAATGA	MANVDGARRAVAKLDARPGYVLVDALRVSGLTAPQLPIIGGDYTARCIAAASVLAKVSRDRLVTEMAQRYADYGIAGHKGYGTQAHMAAVRRHGASPEHRYSYANVRQAHEYFMRSQ				NA	NA	NA	NA	NA
AK009_08308	834			hypothetical protein	GTGCTAGCAAGCGCCATGGTCCACGTCCTCGAAAAGGCGGATGTCCATACTCTCGTCGGTGGCGATGACTTCGGCGACGTCGAAACGCACGGGCGAGTAGGGCTTGTCCTCCAGCCATTCCGCGGCGCAGCGACGCATGGTGCGCAGCTTCTTCGCGGTAACCGCCTCTGCCGCCCCGAAACCGCGCCCGCGGCGGGTTTTCACCTCCACGAACACGACGTTGCCCGTCGCATCGCGCACAATCAGGTCGATCTCGCCGACCTTGGTGCGCACCCGGGCAGCGATGATGGAGTATCCCATGTCGGCGTAAACGGACGCGGCGAGTTCCTCGCCCGCCAGCGCCAGCGCGTAGTTTTCGGCGTAGTTTGGTTGCGCCATTGTTGTGTTGTCCCCCCAAGAGATGCAGCGAATGTCGTTGCACTCATTGGACTGGAAAAACCCCCGCGTGGTTCCCGCCGGGGGTCAAAAAGGGTTAAAACGCTAGCGCTCCGGGAAGGTCAGATCGGGCTTGTCCAGCTCTTCGATGTTGACGTCCTTGAAGGTGATCACGCGCACGTAGCGCACGAATCGCACCGCCCGGTACATGTCCCACACCCAGCAGTCCGACATGCGCACCTCGTAGTACACGTCGCTGCCCTCGGTGTGCGGGATCAGCTCGACGGCGTTGGCCAGGTAGAAGCGGCGATCCGTTTCCACCACGTAGGAGAACTGGCTGACCACGTCGCGGTACTCGCGGTACAGGGAGAGTTCGACCTCTGCCTCGTAGTTGTCCAGTTCCTCTGCGCTCATTGTGACCTCATAAAGTACTCGTGGGCTTGTCTCACGTTGGCATAA	MLASAMVHVLEKADVHTLVGGDDFGDVETHGRVGLVLQPFRGAATHGAQLLRGNRLCRPETAPAAGFHLHEHDVARRIAHNQVDLADLGAHPGSDDGVSHVGVNGRGEFLARQRQRVVFGVVWLRHCCVVPPRDAANVVALIGLEKPPRGSRRGSKRVKTLALREGQIGLVQLFDVDVLEGDHAHVAHESHRPVHVPHPAVRHAHLVVHVAALGVRDQLDGVGQVEAAIRFHHVGELADHVAVLAVQGEFDLCLVVVQFLCAHCDLIKYSWACLTLA				NA	NA	NA	NA	NA
AK009_08309	111			hypothetical protein	GTGCGCCGGCGAGAGCGACACCATGATCTTCGTGCGCGGCCACGGCAGGATCGAGTTGGCCACCGCGGTGCGGATGCGCTCGCGCGATTCTTTGACGGCGGCGTCGCCTAG	MRRRERHHDLRARPRQDRVGHRGADALARFFDGGVA				NA	NA	NA	NA	NA
AK009_08310	555			hypothetical protein	ATGCGGGGCGACAAACGGGCGCTGCTCAACGACCGCCCCCGACGGCAGCCCGGAAACCGAGTGGATCGCGGTGGCCTCGATCTTCTCGTCCAACGTCAGCTCCGGCAGGATCGACGCCACGCGCTCGGCCAACATGGATTTTCCGGACCCGGGCGGGCCAACCATGAACAGGTGGTGCCCGCCGGCGGCCGCGACCTCGAGCGCGAACTTCGCATCGGCCTGGCCGGCGACGTCGCGAAAGTCTGGGCGCGGCGGTGGCTCCGCGGGCGCGGCGGCAGCGGCCACGTCGAGGGTGTTCCTCCCGAGCGCCCAGTGGTAGACGTCGAGGAGCGAATCAGCGACGAGGATGTGCCCGCGGTTGACCAAAGCGGCCTCGGCGCTGTTGGCGCGCGGGACGATGATGGTGTCAAAGTGTGCGGCGGTGAGCATGGGCACGATCCCCTCGACGCGGCGCAGCGTCCCGCCCAGGCCGAGCTCGCCGAGGACGAGCACGTCGGCGAGCTTGTCGCGCAGCAGCGGATCCAGGCTGGCGAGCACGGCCAGCGCTATCGGTAG	MRGDKRALLNDRPRRQPGNRVDRGGLDLLVQRQLRQDRRHALGQHGFSGPGRANHEQVVPAGGRDLERELRIGLAGDVAKVWARRWLRGRGGSGHVEGVPPERPVVDVEERISDEDVPAVDQSGLGAVGARDDDGVKVCGGEHGHDPLDAAQRPAQAELAEDEHVGELVAQQRIQAGEHGQRYR				NA	NA	NA	NA	NA
AK009_08311	279			hypothetical protein	GTGGTGCGCCCGCTGCGTTGCGGTGCACCGGCAGTCCGTGGTGTGCTCCGCGCCGCACGGGCAGGGGTTGGCGGCGAGGATGAGCTGGAAGTTCGCCGGGTACACGACTTCACGCCGCGCCCGTGTGAGCCTGACCTGCCCCTTTTCCAAGGGGGTGCGCAGCGCGTCCAAGGTGGCCGCGGGGATCTCGCTGGCCTCGTCGAGGAAGAGCACGCCGTGGTGCGCATGGCTCACCGCCCCAGGGCGCGGGTGCCCCGAGCCGCCGCCAATGAGAGCTGA	MVRPLRCGAPAVRGVLRAARAGVGGEDELEVRRVHDFTPRPCEPDLPLFQGGAQRVQGGRGDLAGLVEEEHAVVRMAHRPRARVPRAAANES				NA	NA	NA	NA	NA
AK009_08312	354			hypothetical protein	ATGGCCAAGATCGGGGCGCGCGGCGTTCTCCAGGTCGGCGAGCGTCCAGGCGAGCTTGAGCACCCGGTCGACGCCACGCTGCGTCAGCTCGCCGCGCGCCAGATAGGCGGCAAGCAGTGCCATGGCGGAATCCTCCGCTGGGTACTCCCGGCGAATCACAGTGGCGTTAACCCGCGCGTTCAAACTCTCCCCCACCGCCGCCCAGCGGTGGGCGGAGCGCAGCCGTGCCTCACCGACGCGTTCGGCGATCGCGGCAGAAGGCTCCGCGTCCCCGCGCCCAATCACGGCCCCGCGTGTGGTCGTGGCCAGGGAAATGTCGATCCGATCCCGCAGCGGCCCGGAGACGTTGCGTAG	MAKIGARGVLQVGERPGELEHPVDATLRQLAARQIGGKQCHGGILRWVLPANHSGVNPRVQTLPHRRPAVGGAQPCLTDAFGDRGRRLRVPAPNHGPACGRGQGNVDPIPQRPGDVA				NA	NA	NA	NA	NA
AK009_08313	756			hypothetical protein	GTGGATCTGCTCCGCGCTGAGCACCATGTCCGCGCGCCCCTCCTGGATAGCCAAGTTGGTCCCCAACGAGCCGGGCCCGAGGATTGGCCCGGGCACCGCCATCACCCTGCGGTTGAAGTAGTGCGCCCACGTCAAGGTATTCAGCGCCCCGGAGCGAAACGCCGCCTCGACGATGACGCTGCCTTGGCTCAAGCCCGCGACCAGCCGGTTGCGGGTGAGGAAGCGGTGTCGGTCCGGGGTGACCGCAGGCGGGTACTCCGTGATCACCGAAGTGACACGATCAAACAGCTCAGTGTTACGACGCGGATACGTCACCCCAGGCCCGCACGCAGCGACGACGACGGTAGGAGCCCCGGCCGACAGCGCCGACTCGTGCGCCACCGTGTCAATCCCCAGCGCCCCGCCGGAAACGACGGTATAGCCGAATCCCGCCAGGCCCGTGACCAAATCCGCGGTGGCGTGGTGCCCATACGCTGTCGACGCCCGCGTGCCGACGATCGCCACCGACCGCGCGAACAACTGGTCCAGGTTGGTCTCCCCCTTCACCCACAACGCGTGGGGTGCCACGCCGTCTGGTTTCGCCTCGGCGAGGTTCGCCTGGCTGATGGCGACTCCGGTGACAAACGCCTCGGTGATTACCTCTCCCGGCCAGCCCTCGGTGTCGGGTGTGACAAGGCGAAACCCCGCAACATGCGCCGCCTCGAGGTCGCGCTGCGGCTGGTCCCAGGCGTGGCGCGACTCCGTCTCCCTTGCTAA	MDLLRAEHHVRAPLLDSQVGPQRAGPEDWPGHRHHPAVEVVRPRQGIQRPGAKRRLDDDAALAQARDQPVAGEEAVSVRGDRRRVLRDHRSDTIKQLSVTTRIRHPRPARSDDDGRSPGRQRRLVRHRVNPQRPAGNDGIAESRQARDQIRGGVVPIRCRRPRADDRHRPREQLVQVGLPLHPQRVGCHAVWFRLGEVRLADGDSGDKRLGDYLSRPALGVGCDKAKPRNMRRLEVALRLVPGVARLRLPC				NA	NA	NA	NA	NA
AK009_08314	897	xerC_14	COG0582	Tyrosine recombinase XerC	ATGGGTAACGGCGGCAGTGGGCAGCTCAGCGAGGCGATCGAAGACTTCGCCGAGCACGCCGAGCTCGTCCTCGGCCGCTCCCCGGCGACGGTCAAGGCGTACCGCTCCGACCTGGCCACAATGTTGCCCTTCGCCAGCTCATTTGGCGAGTTCACCCTGCCCACCCTGAGGGTTTGGCTTGCCGACGCCGTGTCCCGAGGCCTTGCGCGCTCCACGCTCGCGCGGCGCACGGCGGCAGTGCGGGCGTTTTCCTCGTGGGCACACAACCAGGGCTACCTGGACACCGACTGTGCGGCGCGCCTGATGTCGCCGAAGGTCAACCGGCACCTGCCGACCGTCGTCGAAGCTAAAGCGGCGGGGGCGTTGGTCGAGGCAGAAATTAACGACGATGACCACCACGCCGAGGCGTTGCGCGACCGCGCGATGCTCGAGCTGCTCTACGCCACAGGCATGCGCGTCGCCGAGCTGAGCACACTTGACGTCGGTGACATTGATCTGGGGAGGGGAGCAGTTAAGGTCACTGGCAAGGGCAATAAGCAGAGGATCGTGCCCTTCGGCGATGCTGCGTCGCATGCTGTTCAGCGCTGGCTTACTGCCGGACGCGGTGAGTTGGCAGGCGACACTGGTGCGCTGTTTGTCGGCTCGCGTGGCAAGCGCATTGACCAGCGCCAGGTGCGCCGTATCGTTGAGCGCGCTGCCGTGCGCACCGGGGCGGGGGAGGTCAGCCCGCACTCGCTGCGCCATAGCGCGGCGACCCACATGATCGAAGGCGGGGCTGACCTGCGCGTCGTGCAGGAGTTGCTCGGGCACTCCAGCCTGCAGACGACGCAAATTTATACCCACGTTTCCGCGCAACGACTCAAGAACGTCTATAACCAGGCCCATCCACGGGCTTGA	MGNGGSGQLSEAIEDFAEHAELVLGRSPATVKAYRSDLATMLPFASSFGEFTLPTLRVWLADAVSRGLARSTLARRTAAVRAFSSWAHNQGYLDTDCAARLMSPKVNRHLPTVVEAKAAGALVEAEINDDDHHAEALRDRAMLELLYATGMRVAELSTLDVGDIDLGRGAVKVTGKGNKQRIVPFGDAASHAVQRWLTAGRGELAGDTGALFVGSRGKRIDQRQVRRIVERAAVRTGAGEVSPHSLRHSAATHMIEGGADLRVVQELLGHSSLQTTQIYTHVSAQRLKNVYNQAHPRA	PGPT0021995_3733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
AK009_08315	498			hypothetical protein	ATGCGCCGTCTTCTGCTCTTGGTACTCACTGCTGTACTTCTGACCACGCCCGCACCCGCCCACGCTTATGTTGACCCCACAACCGGAAAGCCCTACGCCACGCGTATCACCCGGTCCGCTGATATCCCGGAGAAGAACTGGCTCCCGGGCCACCGCGGTGTTGACCTCGCGCTCAACGTCGGAGACAACGTTCTCGCATCCGGTGGCGGCACCGTCGCGTTTGAGGGCGTCGTCGCCGGCACACCAGTCGTCTCGATCGACCACCCGGATGGGATCCGCACCACCTATCAACCCGTGTACGCCCAGGTCAAAGCCGGTGATCGGGTCGCGGAGGGAGACGTGATCGGCCGCCTCGCCCCAGCACCACGAGCCGAGCACGACGGGTTGCACTGGGGCGCGCGCACAGGCGAGGACACCTACCTCAATCCGCTGACGCTTCTCGAAGCCCCGGCGATCAGGCTCAAGCCCGTGGATGGGCCTGGTTATAGACGTTCTTGA	MRRLLLLVLTAVLLTTPAPAHAYVDPTTGKPYATRITRSADIPEKNWLPGHRGVDLALNVGDNVLASGGGTVAFEGVVAGTPVVSIDHPDGIRTTYQPVYAQVKAGDRVAEGDVIGRLAPAPRAEHDGLHWGARTGEDTYLNPLTLLEAPAIRLKPVDGPGYRRS				NA	NA	NA	NA	NA
AK009_08316	1119			hypothetical protein	GTGAGCACGGCATGTCGGCTTCGCGGTGCGCTGGTGACAAAACCCCGCGCCCGTAACGCGCCCGACATGGGCGCTGGCGTGGGCTGCGGGGTTGCACGTCATGGAAGTCGCGTCTGCGACGGCACCGCCGGGGCCGTGTTACGCCTGGGTGGCGCTTTCGGTGCCGGAGATCTGGGAGGGCTGCTCCGCGTCGGCCTGCTCGGCGGCGCGCACTGCGTGCGGCTGCTCGACCGGAGCAACGACCTGCTCCTTGGAAGCCTCGGCTGCGGCAGCTGCGGCGGCAGCGTCGGCTGCGGAAACGTCGTCGCTGGAAGCGGCGGTGGCTGCTGCCTCAGCGGCCTCTGCCTGGCGCTTCGCGTCGGTGTCGCCTGCTGCCTCACGAGCGGCTGCGAGCTGGCGCTCCTCGCGCTGCTGCTTGCCCTGCACCACTGCCTCGCCCACGATGTGGGTGAGCAGCTTGACAGCGCGGATGGCGTCGTCGTTGCCCGGGATCGGGAAGTTGACAACGTCCGGGTCGCAGTTGGTGTCCAGCACGGCGACGACCGGGATGCGCAGCTTCTGCGCCTCGGAGATCGCGATGTGCTCCTTGTTGGTGTCCACGATCCAGAGTGCGGAGGGAGCCTTGGTCATATCGGCAATGCCACCGAGAACACGCTCGAGCTTGATGCGCTCGCGGTTAAGCATGAGGACTTCCTTCTTGCCGCGGCCTGCGTAGCCCTCTTCAGCAGCGTCCATAGCCTGGAGCTCCTTCATGCGGGCGATACGCTTGGACACGGTCTGGAAGTTGGTGAGCATGCCACCGAGCCAGCGGTGGGTGACATACGGCATGCCGACGCGCTCGGCCTCTTCCTGGATGGGCTCCTGAGCCTGCTTCTTCGTACCGACGAACAGGATCGTGCCGCCGTGAGCGACGGTCTCCTTGACAAACTCGAACGCCTCGTCGATGTAAGTCAGGGTCTGCTGAAGGTCGATGATGTAGATGCCGTTGCGGTCGGTGAAGATGAAGCGACGCATCTTCGGGTTCCAGCGACGCGTCTGGTGGCCAAAGTGCACACCCGCGTCGAGGAGTTCGCGCATGGTTACAACTGCCATGGGAAGTTCTCCTTCGGAGAGAAATAG	MSTACRLRGALVTKPRARNAPDMGAGVGCGVARHGSRVCDGTAGAVLRLGGAFGAGDLGGLLRVGLLGGAHCVRLLDRSNDLLLGSLGCGSCGGSVGCGNVVAGSGGGCCLSGLCLALRVGVACCLTSGCELALLALLLALHHCLAHDVGEQLDSADGVVVARDREVDNVRVAVGVQHGDDRDAQLLRLGDRDVLLVGVHDPECGGSLGHIGNATENTLELDALAVKHEDFLLAAACVALFSSVHSLELLHAGDTLGHGLEVGEHATEPAVGDIRHADALGLFLDGLLSLLLRTDEQDRAAVSDGLLDKLERLVDVSQGLLKVDDVDAVAVGEDEATHLRVPATRLVAKVHTRVEEFAHGYNCHGKFSFGEK				NA	NA	NA	NA	NA
AK009_08317	819	tsf_2	COG0264	Elongation factor Ts	ATGGCGAACTACACCGCTGCAGATGTCAAGAGGCTCCGCGAAGCCACCGGCTCCGGCATGCTTGACTGCAAGAAGGCTCTTGAGGAGTCCAACGGCGACTACGAAAAGGCAGTCGAGGTGCTGCGCATTAAGGGTGCGAAGGACGTCGGCAAGCGCGCCGAGCGCAACGCTCTCGAGGGCCTCGTCGCTGTTCACGAGAACACCATCGTGGAGATCAACTCCGAGACCGACTTCGTCGCTAAGAACGCTGAGTTCAAGGACGTCGCTCAGGAGATTGCGAAGGCTGCATCCGCGTCGAAGGCTAACTCCCAGGAGGAGCTCGCAAACGCTGATGTCTCCGGCGAGACCGCACACGACGTCCTCGAGCGCCTCTCCGCGAAGATCGGCGAGAAGCTCGAGCTGCGCCGCGCTCGCACCCTCGAGGGTGACAACGTCGAGGTTTACCTGCACCAGCGCTCCGCTGACCTGCCGCCGGCCGTCGGCGTGCTCGTCGCTTACACCGGTGACAACGCTGAGGCAGCTCACCAGGTCGCTCTCCAGATCGCTGCGATGAAGGCTCGCTTCCTCAAGCAGGAGGACGTGCCGGCCGGCGTCATCGAGAAGGAGCGCGCGGTCCAGGAGGAGATCACCCGGAACGAGGGCAAGCCCGAGGCTGCGATCGCCAAGATTGTCGAGGGCCGCATGGGTGGCTTCTTCAAGGACGTCGTCCTGCTCGACCAGCCGTCGCTGTCCGACTCCAAGAAGTCCGTCAAGCAGTTCGCTGACGAGGCCGGCATCGAGATCACCGACTTCGTTCGCTTCGAGGTCGGCCAGGCTTAA	MANYTAADVKRLREATGSGMLDCKKALEESNGDYEKAVEVLRIKGAKDVGKRAERNALEGLVAVHENTIVEINSETDFVAKNAEFKDVAQEIAKAASASKANSQEELANADVSGETAHDVLERLSAKIGEKLELRRARTLEGDNVEVYLHQRSADLPPAVGVLVAYTGDNAEAAHQVALQIAAMKARFLKQEDVPAGVIEKERAVQEEITRNEGKPEAAIAKIVEGRMGGFFKDVVLLDQPSLSDSKKSVKQFADEAGIEITDFVRFEVGQA				NA	NA	NA	NA	NA
AK009_08318	735	pyrH_3	COG0528	Uridylate kinase	GTGACTGACGCAAACCCAACCAACGCAAACTCCGGCGGTTACAAGCGCGTGATGCTCAAGCTGGGCGGTGAGATGTTCGGTGGAGGTAACGTCGGGATCGACCCGGACGTGGTGGAGAGCGTCGCTACGCAAATTGCGGAAGTGGCCCGCTCCGGCACCCAAGTGGCGGTGGTGATTGGCGGCGGAAACTTCTTCCGCGGCGCCCAGCTGCAGCAGCGCGGCATGGACCGCGCGCGCTCCGACTACATGGGCATGCTCGGCACGGTGATGAACTGCCTGGCGCTGCAGGACTTCCTGCAACAAAAGGGCGTTGATTGCCGCGTGCAGACGGCGATCAACATGGCGCAGATCGCGGAGCCCTACCTGCCGCTGCGCGCCGCCCGGCACCTGGAGAAGGGCCGCGTGGTCATCTTCGGCGCCGGCATGGGCATGCCGTACTTCTCCACCGACACCACGGCCGCGCAGCGCGCGCTGGAAATCGGTTGCGACGTGCTGCTGATGGCCAAGGGCGTTGACGGCGTCTACGACGACGACCCGCGCACCAACCCCAATGCCACCCTGTACAGCGAAGTCACCCCCCGCGAGGTCATTGAGAAGGGCCTCAAGGTCGCCGACGCCACCGCGTTTTCGCTGTGCATGGACAACGACATGCCGATTTTGGTGTTCAACCTGCTCAAGGAGGGCAACATCGCCCGGGCGGTCGCCGGCGAGCGGATCGGCACGCTGGTGAAGTAG	MTDANPTNANSGGYKRVMLKLGGEMFGGGNVGIDPDVVESVATQIAEVARSGTQVAVVIGGGNFFRGAQLQQRGMDRARSDYMGMLGTVMNCLALQDFLQQKGVDCRVQTAINMAQIAEPYLPLRAARHLEKGRVVIFGAGMGMPYFSTDTTAAQRALEIGCDVLLMAKGVDGVYDDDPRTNPNATLYSEVTPREVIEKGLKVADATAFSLCMDNDMPILVFNLLKEGNIARAVAGERIGTLVK	PGPT0021205_1338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
AK009_08319	513			hypothetical protein	TTGCGACGTGGTCTTGTCCAGGGTCTGCTCGGCGGTCTTGACCTCGTCCTCGCCCGCGTCGCCGTCCTTCTGGATCTTCTTCAGCGCTTCCATGCCCTGGCGGCGCACGTTGCGGATGGCGACCTTGCCTTCCTCGCCCTTCTGCTTGGCCTGCTTGACCAGCTCGCGGCGGCGCTCCTCGGTGAGCTGCGGGACGGTGACGCGGATGACCTGGCCGTCGTCGGTGGGGTTGACACCCAGGTCCGAGTTGCGGATAGCGTTGAGGATTTCGTTGAGCGTCGACATGTCGAACGGCTTGATCAGCAGCATGCGCGGCTCCGGAACGGAGATTGTTGCCATCTGGTTGATCGGCGTCGGCGCTCCGTAGAAGTCGGCGATGACGCCGTTGAACATCGCCGGGTTGGCGCGGCCGGTGCGGATGGACACGAGCTCATCACGCGTGTGCTCCACAGCCTTGGACATGCGATCTTCCGCGTCAAGCAATACGTCATCAATCATTTTGTTCATCCTTGA	MRRGLVQGLLGGLDLVLARVAVLLDLLQRFHALAAHVADGDLAFLALLLGLLDQLAAALLGELRDGDADDLAVVGGVDTQVRVADSVEDFVERRHVERLDQQHARLRNGDCCHLVDRRRRSVEVGDDAVEHRRVGAAGADGHELITRVLHSLGHAIFRVKQYVINHFVHP				NA	NA	NA	NA	NA
AK009_08320	138			hypothetical protein	GTGGTACATGAGCACGAGCACCGCGAAGGCGAAACCGCCCAGCGCGCCGCCAGAAGCGAACGGGTACGACGACCACAAGATCACCTGGCCCAAGATGAGCATCAGGGTGCGCGGCTGCGCGAAACCGGCCTCGCGTAG	MVHEHEHREGETAQRAARSERVRRPQDHLAQDEHQGARLRETGLA				NA	NA	NA	NA	NA
AK009_08321	498			hypothetical protein	GTGTCCCACGTTAGAGCGCAGTTTACTAATTGTTGGCGACTACGCCGCGCTGAGGAATGCAGCGGCGTTGAGCAAGATGTAGGTGGCGGACGCCGCGGGAAGCATGCCGTCGAGACGGTCCATGATGCCACCGTGGCCAGGAAGCAGATTCGACATATCCTTGATGCCCAGCTCGCGCTTGAACTGACTTTCCACCAAGTCGCCCATCGTCGCGCAGACGACCAGAGCGGCGCCGAGCGCGATGCCGACCCACCAGGGGCCGTGGATCAAAAGCTCCACCGCGAGCACGCCCGTGATCACGCCGAAAACAAGGGACCCAGCGAAGCCCTCCCAGGACTTGTTGGGGCTCACCGCCGGCGCCATGGGGTGTGCGCCGAACATCACACCGGCGACATACCCACCGACATCCGACGCCACAACACAGAGCATGAAGGTGAGGATGAACATGCTCCCCGACAGCGCGTTTTCGTCGATGATGGAGATCATCGCGGCGAATGA	MSHVRAQFTNCWRLRRAEECSGVEQDVGGGRRGKHAVETVHDATVARKQIRHILDAQLALELTFHQVAHRRADDQSGAERDADPPGAVDQKLHREHARDHAENKGPSEALPGLVGAHRRRHGVCAEHHTGDIPTDIRRHNTEHEGEDEHAPRQRVFVDDGDHRGE				NA	NA	NA	NA	NA
AK009_08322	201			hypothetical protein	GTGCAGCCGCCACAGGGTTTTCGTGGTGTCGCCGTCGTCGGTTTCGAGCGTGCGGATCTCCGTCAGCAGCGTCGGAAACAGCGCGTCCTTGACCAGCTGTCGCTGGCTTTCGGGCAGATCCGTCATGGTCAGCGGGTCGGCCTCGAACTTGCCGTAGTAATGGCGCGCGATTTGGTCTGCGCGGAACTTGGGCAGGCCTAG	MQPPQGFRGVAVVGFERADLRQQRRKQRVLDQLSLAFGQIRHGQRVGLELAVVMARDLVCAELGQA				NA	NA	NA	NA	NA
AK009_08323	240			hypothetical protein	ATGGACTTTGGAGCCGAGGGCGTCGTGAAGCTTCTTGCCCAGCATGTCCGCGCGGAAGTCGTGGTCGTTGATGTCGCGGATCAGCGCGTACTCGATGGACACGCGGCGGCCCGACTGCTCCGCGTAGTAGCTCGCGGCGTCGAGCACGTCGGCGACCGAGAAGCGGTTGTTCATGGGCACCAGCTCGTCGCGGAGCTCGTCGTCAGGCGTGTGCAGCGATACAGCGAGCGTGCAGGATAG	MDFGAEGVVKLLAQHVRAEVVVVDVADQRVLDGHAAARLLRVVARGVEHVGDREAVVHGHQLVAELVVRRVQRYSERAG				NA	NA	NA	NA	NA
AK009_08324	441			hypothetical protein	GTGGCTCACGCGGGAGGGATCGATGTTGAGCGCGCGCAGGTCGTTGTCCTCCAGGTCGGCGTAGGCGCCGGAGAGGGTGCGCTGGTCGTAGGCCCAGTCGCGCTCCTGGTAGCCGATCGGCTTGTTGCGGGCGGTGACCGTGCGGACCTGGGCCAGGCGCGGGCGTACCGCGAACAGGATCAGCCCGATGGCGATGAACACGGCGAGGGAGACCAGCCAGATGGTCTCGACGTGGCCCTGGTGGTTGCCGAAGTTGAAGCCGATGAGGAAGGCGACGGAAATCCAACCGGCGATCTGGATAGCACCGGAGGAGAGCTCGCTCCAACCGAACTTGGCGGAAGGCACGTCTGCCTCGGATACGCCGTTGTAAACCTGGGGTGCCTTTTCCTTCGCGTGGGTGGCCACAGCTTTCTCCTTACACGTTGCTGGTATTGCTCCTAA	MAHAGGIDVERAQVVVLQVGVGAGEGALVVGPVALLVADRLVAGGDRADLGQARAYREQDQPDGDEHGEGDQPDGLDVALVVAEVEADEEGDGNPTGDLDSTGGELAPTELGGRHVCLGYAVVNLGCLFLRVGGHSFLLTRCWYCS				NA	NA	NA	NA	NA
AK009_08325	1185	dxr_3	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGGGTTCGATAAAACAGGTCGTCATCTTGGGCTCGACCGGCTCCATTGGCACCCAAGCCCTCGAGGTGATCGCGGACAACCCCGACAAGTTCCGGGTCGTTGGCATTGCGGCGGGAGGTAGCGTTCCCGAGGCCGTCGTCAAGCAGGCGCGCGAGCTGGGGCTGACACCGTCGCAGGTGGCCGTCGCAAAGCCTGAGGCCGCGCGCGAAGTCTCTGCGGCTTTGGGCGGCGAGGTGGTGGCGGACGCCGAGGAGCTCGTGCGCTCGCAACCCGCGGATACCGTGCTCAACGCGCTGGTCGGCTCGCAAGGGCTCGCGGCGACGCTCGCGGTGCTGGAGACGGGGGCGCGGTTGGCGCTAGCGAACAAAGAATCGCTGGTTGCGGGCGGGGGAATCGTCACCCGCCGCGCAGAGCCCGGACAGATCGTGCCCGTGGACTCCGAGCACTCGGCCATGGCCCAGTGCCTGCGCTCCGGGGACCGTGGCGAGGTCGCGCGCTTCGTGCTCACCGCCTCGGGCGGGCCGTTTCGCGGCCGCACCCGCGAGCAGATGTGGGACGTCACGCCGGAGCAGGCGGCGGCGCACCCGACGTGGTCGATGGGGCAGATGAACACGCTGAACTCCGCGACGCTGGTGAACAAGGGTCTCGAGCTCATTGAGGCCTCCTTGCTGTTCGACATCGCGCCTTCGCTTATCGACGTCACCGTGCACCCGCAGTCCATTATCCACTCCATGATCACCTTCGCCGACGGGGCGACAATCGCCCAGGCCTCGCCGCCGTCGATGAAGCTGCCGATCTCCCACGCGCTGGCATGGCCGGAGCGCGTCGCGGGGGCGCAGCCTGCCCTCGACTTCGCCGACGCGATGGAGTGGACGTTCTTGCCCCTCGACGACACCGCGTTCCCGGCCGTTCGCCTCGCGCGCGACGTCGCGGAGGCGGGCCAGGGCTACCCGGCGGTGTACAACGCGGCGAACGAGGAGGCAGCGGCGGCGTTTCTGGACGGGCGCATCCGCTTCCCGCAGATCGTCGACGTCATCACCGACGTGCTCGATGGCGCTACTGAGTTTGCCAACTACCCGTCGGACCGGGAGGCGACCTTCGATGATGTGATCGCCATCGAGTCCGAGGCGCGCCGCCGCGCAACCGCCCGGGTCGCTGCGCTGAGCGAGGGAAGCCGACGCTAG	MGSIKQVVILGSTGSIGTQALEVIADNPDKFRVVGIAAGGSVPEAVVKQARELGLTPSQVAVAKPEAAREVSAALGGEVVADAEELVRSQPADTVLNALVGSQGLAATLAVLETGARLALANKESLVAGGGIVTRRAEPGQIVPVDSEHSAMAQCLRSGDRGEVARFVLTASGGPFRGRTREQMWDVTPEQAAAHPTWSMGQMNTLNSATLVNKGLELIEASLLFDIAPSLIDVTVHPQSIIHSMITFADGATIAQASPPSMKLPISHALAWPERVAGAQPALDFADAMEWTFLPLDDTAFPAVRLARDVAEAGQGYPAVYNAANEEAAAAFLDGRIRFPQIVDVITDVLDGATEFANYPSDREATFDDVIAIESEARRRATARVAALSEGSRR	PGPT0007585_2071	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
AK009_08326	675			hypothetical protein	TTGGCCGGTCGTCGGGTTGAGCCTTTCCACGGCGTCGAGCTCGACGGGGATGGAGAGCTGCTCCTCACCCCGGCGCAGCTCGAGGGTGACGGTGTCGCCCGGGCGCTGGATCACGTAATCGCGCAGCTCGGCGAACGTGTCCACCGAGCGCCCGTCGACGCCGACCAGCTCATCGCCGACGCGCACCCCGGCGCGCGCCGCTGGCCCCTCGCCCGTGCACTGCGCGAGAGTTTGGGCGTCGACCTGGTCCGCGGTGCACGTCAGTTCGCCGACGCGCGGGGTGCGGTCCGCGTACGGGTTGGGGATCGCCGCGAAGACGGCGACGAAATAGGTGATCACCACCGCGATGAGAATGTTGGCTATCACCCCGCCCGACATCACGGCCACTCGCTGCCACCAGGGCTTGGCGTACATGGCCAAGGGACGCTCCTCGGGGGTGAGCGGCTCGGCGGCCGTCATCCCGGCAATGTCGCAGAACCCGCCGAAGGGCAGGGCGGCGATGCCGTACTCGGTGTGCCCGCGCTTGACCGACCACAGCGTGGGGCCGAAGCCGATGAAGTAGCGTCGCACGCGCATCCCGAAGGCGCGGGCCGTGAACATGTGGCCCGCCTCGTGCAGCGCGATGGACACCGCGATGCCGAGGGCAAAAATGATGATGCCGATGATGCCCACTAG	MAGRRVEPFHGVELDGDGELLLTPAQLEGDGVARALDHVIAQLGERVHRAPVDADQLIADAHPGARRWPLARALRESLGVDLVRGARQFADARGAVRVRVGDRREDGDEIGDHHRDENVGYHPARHHGHSLPPGLGVHGQGTLLGGERLGGRHPGNVAEPAEGQGGDAVLGVPALDRPQRGAEADEVASHAHPEGAGREHVARLVQRDGHRDAEGKNDDADDAH				NA	NA	NA	NA	NA
AK009_08327	204			hypothetical protein	GTGCCCGCCGTCGAGAGGCGGCAGCGGGATCAGGTTGAACAGGGCGAGGAAGAGATTCAGGGAAGCGAGCATCATCCAGAACACTTCCCACATGCTGCGCTCGACCAGCTCGCCACCAGCGCGCGACGCGCCAATCACACTGACCGGGCCGGTGACGTCGCGCTCGGCGCCGAAGATGGACGCAACCACGCCCGGGATCTTTGA	MPAVERRQRDQVEQGEEEIQGSEHHPEHFPHAALDQLATSARRANHTDRAGDVALGAEDGRNHARDL				NA	NA	NA	NA	NA
AK009_08328	1158	ispG_2	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGCCTATTGGTCTTGGTCTCCCTGAAGGTCCGCCCCCCACCCTCGCGCCGCGCCGCAAAACGCGCCAGCTGATGGTGGGCAAGGTCGGGGTGGGCTCCGATTACCCGATCACGGTGCAGTCGATGACCACCACCAAGACCCATGACATCAACGCCACCCTGCAGCAGATCGCGCAGCTGGCTACCTCGGGCTGCGACATCGTGCGCGTTGCCTGCCCGAAGACGGTGGACGCGGAGGCGCTGCCGGCGATCGCGGCGAAGTCCCCGATCCCGGTCATCGCGGACATTCACTTCCAGCCGAAGTACATCTTCGCCGCCATCGACGCGGGCTGCGCCGCCGTGCGCGTCAACCCGGGCAACATCAAAGAGTTTGACGGCCGCGTCAAGGAGGTGGCCAAGGCCGCCGGGGACGCCGGCATCCCGATCCGCATCGGCGTTAACGGAGGCTCGCTGGACAAGCGCCTACTGGAAAAGTACGGCAAGGCCACCCCGGAGGCGTTGGTGGAATCCGCCGTCTACGAGGCCGGGTTGTTCGAGGAGTACGGCTACGGCGACATCGCGATCTCGGTGAAGCACTCCGACCCGGTGCTCATGGTCGAGGCCTACCGCCAGCTCGCGGAGGTCACGGACTACCCACTGCACCTTGGCGTGACCGAGGCCGGCCCGCTGATGATGGGCACGATCAAGTCCTCCGTCGCCTTCGGCGCCCTGTTGTCGCAGGGCATCGGCGACACGATCCGCGTGTCCCTGTCGGCGGATCCAGTCGAGGAGATCAAGGTCGGTGACCAGATCCTGCAGTCGCTGAACCTACGCCCGCGCAAGCTCGAGATCGTGTCCTGCCCGTCCTGTGGCCGCGCCCAGGTGGACGTCTATACGCTTGCCGAGGAGGTCACCGCTGGCTTGGAGGGCATGGAGTTCCCGCTGCGCGTCGCCGTGATGGGCTGCGTTGTCAACGGCCCCGGCGAGGCGCGCGACGCGGACCTCGGTGTCGCCTCCGGCAACGGCAAGGGCCAGATCTTTGTCAAGGGCGAGGTCGTGGAGACCGTCCCGGAGTCGAAGATCGTGGAAACGCTCATCGCCCACGCCATGCGCATCGCCGAGGAGGAGGGCCTCGAGGAGATCGCCGGCGCGAAGGCGGAGGTCAAGGTTACCCGCTAG	MPIGLGLPEGPPPTLAPRRKTRQLMVGKVGVGSDYPITVQSMTTTKTHDINATLQQIAQLATSGCDIVRVACPKTVDAEALPAIAAKSPIPVIADIHFQPKYIFAAIDAGCAAVRVNPGNIKEFDGRVKEVAKAAGDAGIPIRIGVNGGSLDKRLLEKYGKATPEALVESAVYEAGLFEEYGYGDIAISVKHSDPVLMVEAYRQLAEVTDYPLHLGVTEAGPLMMGTIKSSVAFGALLSQGIGDTIRVSLSADPVEEIKVGDQILQSLNLRPRKLEIVSCPSCGRAQVDVYTLAEEVTAGLEGMEFPLRVAVMGCVVNGPGEARDADLGVASGNGKGQIFVKGEVVETVPESKIVETLIAHAMRIAEEEGLEEIAGAKAEVKVTR	PGPT0007580_1862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
AK009_08329	351			hypothetical protein	GTGCAGCGCGGAGGGCTGCCAGCGCACGGTCCACTGCCCGCCCGTCTGGGTCAGGGTCATCTGCGCGTCGTAGGTAAACCTGCGCTCCCTCGGCAGAGCCCAGTCAACCGTGTACGTGGCCGTCGCGAGGTTGTCCTGCTGGGTGACTTCCCGCAGGGTGATGTCGGCCCCTTCGGCCTGAAGGCCCTGCCACGTGGAGCTGATGGAGTCGGACGCGGTGGTGGGGTCGTCGACAAGCTCGCTGAGCGCCTCGTAATCCTGCTCGGCGATCGCCTCAACGAACGAGGCGGCGGTGGGCTCGGCGTCGTTGGGCCGCGGGGTGCACGCCGCGAGCGCGCCGCAGCACAGTGA	MQRGGLPAHGPLPARLGQGHLRVVGKPALPRQSPVNRVRGRREVVLLGDFPQGDVGPFGLKALPRGADGVGRGGGVVDKLAERLVILLGDRLNERGGGGLGVVGPRGARRERAAAQ				NA	NA	NA	NA	NA
AK009_08330	399			hypothetical protein	GTGGTCGAGGCTCACCTTCACCGCCGGAGCTGGCTCCGGTGCCTGGCTGGTGACCTCCTCCAGCGCGGCGCCGTGCTCGTTGACAACGCTGATGTTCCAACCCGCCTTGCCCTCGAGGTCGTCGCGCACGAGCTCGCCGACGCGCGCCATGATGCCGGGTGCGAACGTCGGGTCCGCGTTGACCATCGCCGCTTCCTCGTTGAGGCGCACACCGTCAACGTCGCCGAGCGCCCCCGCCACGCTGGGTTGCGCGGCCGCCGGTACGACAGCCACCGAGTAGGTGCCCGTGGCCGCGCTCAGTTCGCTTTCCAGCTGTGCGACGTCGCGCGTCGGCACGGTCTCGTCCGCCTCGTGCGCCTGGGCCAGCGCCGCCGAGATGCGGCTCGCCGCCTCGCGTGA	MVEAHLHRRSWLRCLAGDLLQRGAVLVDNADVPTRLALEVVAHELADARHDAGCERRVRVDHRRFLVEAHTVNVAERPRHAGLRGRRYDSHRVGARGRAQFAFQLCDVARRHGLVRLVRLGQRRRDAARRLA				NA	NA	NA	NA	NA
AK009_08331	270			hypothetical protein	GTGCGCCGCCGTCGCCGCCACCAGCGCCATCCCGAAGGGGCTGGCGAGGTCGTGGCCCTGCCCGTAGCCAGCCTCGGTGCGATCCAGCGGCTCCTCGCCCACCGGGATCGAGCCGGTGACGGTGTCCAGGCCCGGGATCTTCAGATCCACCCCAAGGCCGAACTGCTTGCCGACGTCCGCGAGCTGCCCCGGCTCAAGCTTGGTCGAGATGTCGGCGAACGTGGTGTTGCAGGAGCGAGCGAACGCTTTCTCCAGCGGCACGTCTCCTAG	MRRRRRHQRHPEGAGEVVALPVASLGAIQRLLAHRDRAGDGVQARDLQIHPKAELLADVRELPRLKLGRDVGERGVAGASERFLQRHVS				NA	NA	NA	NA	NA
AK009_08332	255			hypothetical protein	ATGGTAGTCCCCGCGTTTTCGCGCGCCCTAAGCGCCGCCCGCGCGAGCCTGGTCGATGTTGATGAACATGCGGTCCGTTGCGGCCACGGCCGATTCCGAGCCGCCGCCGAGCACAATCAGCGTGGCAAAGGCGATGTCGTCGTCGGCCCGGTAGCCGGTGAACCACGCGTGCGAGCCCTGGTTGATCTCGGCCTCGCCGGTCTTGCCGCGGATATCACCGCCCGCGCTCATCCCCGCCGCGGTACCGCCCGGTGA	MVVPAFSRALSAARASLVDVDEHAVRCGHGRFRAAAEHNQRGKGDVVVGPVAGEPRVRALVDLGLAGLAADITARAHPRRGTAR				NA	NA	NA	NA	NA
AK009_08333	882			hypothetical protein	GTGCTCGAACTGAGCCGTGTACTTGCCGTCGTTGTTCTGCACGGTCCACCCGTCATCCCAGATGGTGTAGGGCAGCTCGCCGAGGTTGATCATCGGCTCGATGGTCAGCGTCATTCCTGGCTGGAGCACGTCGCGGTAGGCGTCGGAGTCGTAGTGCAACACGACGAGCCCGTTGTGGAAGGTCGTACCAATTCCGTGCCCGGTGAAGTCGGTGACCACGTTGTAGCCGAAGCGCTTGGCATAGGACTCGATCACGCGGCCGATGACGTTGATTTCGCGGCCCGGCTTCGCCGCCTTGATGCCGCGCATCATGGCTTCCTCGGTGCGCTCGACCAACAGCCGGTGTTCCTCGCTCACCTCGCCCGCCAGGAAGGTCGCGTTGGTGTCGCCGTGGACCCCGTTTTTATAGGCGGTGACGTCGATGTTGACGATGTCGCCGTCCTCAATGACCGTCGTGTCGGGGATGCCGTGGCAGACGATCTCGTTGAGCGATACGCAGCAGGACTTTGTGTACCCGCGGTAGCCCAGCGTGGAGGGGTAGGCGCCGTGGTCGAGCATGTACTCGTGGGCGACCCGGTCGATCTCGTCGGTGGTCACGCCCGGGGCGACGGCGGCGCCCGCGGCCTGCAGGGCGTCGGCGGCGATGATGCTCGCCTCGCGCATCTTCTCAATGGTCTCGGCGGTCTGCACCAGCGGCTCGCCCACGTTCTCCTGCACCGAGTCGCGCCACGCGTACTCCGGGCGCTCGATGAAATCGGGCACCGTGCGAATCGGGGTGGGTGTACCGGGGCGGATCATTGCGCGTTGACTCATGTGAGCCATGGTAGTCCCCGCGTTTTCGCGCGCCCTAAGCGCCGCCCGCGCGAGCCTGGTCGATGTTGA	MLELSRVLAVVVLHGPPVIPDGVGQLAEVDHRLDGQRHSWLEHVAVGVGVVVQHDEPVVEGRTNSVPGEVGDHVVAEALGIGLDHAADDVDFAARLRRLDAAHHGFLGALDQQPVFLAHLARQEGRVGVAVDPVFIGGDVDVDDVAVLNDRRVGDAVADDLVERYAAGLCVPAVAQRGGVGAVVEHVLVGDPVDLVGGHARGDGGARGLQGVGGDDARLAHLLNGLGGLHQRLAHVLLHRVAPRVLRALDEIGHRANRGGCTGADHCALTHVSHGSPRVFARPKRRPREPGRC				NA	NA	NA	NA	NA
AK009_08334	1137			hypothetical protein	GTGAGCGCCGAGGAGCTTCCCGCTCGCGCGATCAGCCACGAGCTTGACCACTCCCGTGGTGTCTTCGAGCGCCCAGCCGTAGGCGACGTCGCCGTAGTTCTGCACCTTGACGGTCACGTCAAACCCATCGTCGATAGCCTCGCGCTCCGTCAGCCCGACGGTCGCGATCTGCGGGTGGGTGAACACGGCGAAGGGCACGTGGTCGTGCGGCATCGGCACCATGGCATCGGGGTGGAGGATGTTGTGGCGCACCGCCCGCGTCTCGGCGTTGGCGACGTGCTTGAGCTGGAACGGCGAGGAAATGTCGCCGAGCGCCCACACGCCCTCCACCGAGGCGCGCCCGTACTCGTCAACGGCGACCTGGGTGCCGTTGGCCTCAATGCCGCCCGCCTCGAGGTTGAGCCGGTCGCCGTTGGGCACGCGCCCCATCGCGATAAGGAGTTTCTCGGACGTCACGGTGGAGCCGTCGTCAAGCGTGAGCGTGACTTGGCTGTCGTCGCCGGTGGCGCTGACCACCGTGCGGCCCTTGTGCACCTCGTAGGTTTCGTCCGCGATGTCGTTGAACGCCTCGGTGATGTCGGCGTCGAGCGTGCGCAGGAAGGGGGAGCGGTTGACAATGCGCACGTGGGTGCCCAGCGATTGGAAGATGTGGGCGAACTCCATCGCGATGAAACCGCCGCCGACAATAGTGAGGCTTTCTGGCTGGCGCTCGAGGCGCATCACGTCGTCGCTGGTGTGGAAGGGCACACCCTCGGCCCACTCGGGGACGAAGGGGCGCGCCCCGGCGGCGATGATAATGGTGTCGCCGCTGATGACTTTTTCTTCCTCGCCCTGGCCAGTCACGATGGTTTTGGGCCCGCTAAACGACGCCCTCCGGTCGTAAACGTCAACGTTGGCGCTGGCCTCGCTGCGGCGAAATTCCTCCCCGCCAGCGGCAATGAGGTCGATGCGGTTGGTGAAGATGCGCTCGGTGATCGCTTTCCAGTCGGCGCCGTTGAAGGAGGCATCGACGCCGAGGCGGGAGGCGTGGGCGGCGTCGAAGGCGGTGTCGGCGGCGAGGACGAACATCTTCGTCGGAATACAGCCCGCGTTCATGCAGGTGCCGCCGAATTTGCCCTCCTCAATGATGGCGATTGA	MSAEELPARAISHELDHSRGVFERPAVGDVAVVLHLDGHVKPIVDSLALRQPDGRDLRVGEHGEGHVVVRHRHHGIGVEDVVAHRPRLGVGDVLELERRGNVAERPHALHRGAPVLVNGDLGAVGLNAARLEVEPVAVGHAPHRDKEFLGRHGGAVVKRERDLAVVAGGADHRAALVHLVGFVRDVVERLGDVGVERAQEGGAVDNAHVGAQRLEDVGELHRDETAADNSEAFWLALEAHHVVAGVEGHTLGPLGDEGARPGGDDNGVAADDFFFLALASHDGFGPAKRRPPVVNVNVGAGLAAAKFLPASGNEVDAVGEDALGDRFPVGAVEGGIDAEAGGVGGVEGGVGGEDEHLRRNTARVHAGAAEFALLNDGD				NA	NA	NA	NA	NA
AK009_08335	609			hypothetical protein	GTGCCGCTGTGGGTTGACGACGTGCGCCGCAACGATCCCAGCGCCCACAAGACAATCCGCGGGATCATCCTCAACAGCCCCTGGCTGGACATGCAGTTTTCCCGCCCGGCGGTGGCGATCATGCGCCCGGTTGTCAACGCGCTGGGCAAACGCCTGCCGTCTATTCCACTGCCGGCCGCCGGCGTTGGCACCTACGGCCAGTCGATCTCTGCCACCGCGCACGGTGAGTGGACGTTCAACACCACGTTCAAGCCGGTCGAGGGCCACCGCAAATACCTCGGGTGGCTGCGCGCGATCTTCCAGGGCCAGAAACTGATTCACGACGGCATCGACACCGGGGTGCCCACGCTGACACTGTGCTCGTCGCACTCGTACTTGAACAAGCCCTACTCCCCCGCCGCCGACACGGCCGACACCGTGCTCGACGTCGCCCAGATTCAGAAGTGGGCGCCCACGCTGAGCGACGACACCGAGGTCGAGGTCATCGACGGCGCGCGCCACGACGTATTCCTCTCCGAACGCCACGCGCGGGAGGCCGCCGTCGCCGCCGCCGACGCCTGGCTGGGTAACCTTACCGATTCAGGTTCCGAGACCGAGGAGAACGCGTAA	MPLWVDDVRRNDPSAHKTIRGIILNSPWLDMQFSRPAVAIMRPVVNALGKRLPSIPLPAAGVGTYGQSISATAHGEWTFNTTFKPVEGHRKYLGWLRAIFQGQKLIHDGIDTGVPTLTLCSSHSYLNKPYSPAADTADTVLDVAQIQKWAPTLSDDTEVEVIDGARHDVFLSERHAREAAVAAADAWLGNLTDSGSETEENA				NA	NA	NA	NA	NA
AK009_08336	975	IMPDH_3		Inosine-5'-monophosphate dehydrogenase	ATGAAATGGGGTATTTACTTGAACTTTCCACAATTAAAAATCGGGCATATGATGCCAAAGGTCCCAATTCTACAGGGAGGAATGGGCGTAGGCATTTCATTAAGTAAACTTGCATCTGCAGTTGCAAATGCTGGAGGAATTGGGATTATATCAGGAACTGGTATTTCCATAGATGAAATGAGAATGCATATTAGGAAGGCGAAAGAAAAGATTCGGAATACTGGTTATATTGGAGTAAATGTCCTTTTTGCAATGAATGATTTTGCTGAAAAAATGAAAGCAGCCATTGAGGAAAAAGTTGATTTCATCATATCTGGTGCTGGCATTTCACGAGATATGTATACTTGGGGGAAAAATGCCGGCATACCAGTTATTTCAATAGTATCCTCAGCCAAACTCGCTAGATTATCTGAACGCTTGGGTGCGGCCGCTGTTGTAGTAGAGGGGCATGAAGCAGGAGGACATCTGGGTACCGATCGACCTTTATTCGATATATTACCGGAAGTAGTTGCAGCAGTCGAAATTCCCGTAATTGCTGCTGGAGGAATTATGACTGGGAAAGATATTGCTCATGCCTTAAAAATGGGTGCATCTGGTGTGCAAATGGGTACAAGATTCGTTGCAAGTAATGAGTGTGACGCACCACTATCCTTTAAGGAAAAATATATAAATGCTCGATTAGAAGATACCATATTAGTCAAAACAACTGTCGGGCTCCAAGGTCGTGCGGTTAAAAATAACTTTACTAAATTAATAGCTGATAATAATAAAAAGATAAAAATAAAAAAGTGTATAAATTGCTTAAAAAACTGTTCTTATCGTTTCTGCACGCTAGATTCTTTGATAACCTCTATGGATGGTGATTGTGAAAATGGTCTTGTTTTCGCAGGTGCACGAGTAAATGAAGTCAAAGAGATATTGCCCGTCCAAACAATTATTAACAATATTATGATGGAATATAGAGCATGTATTTAA	MKWGIYLNFPQLKIGHMMPKVPILQGGMGVGISLSKLASAVANAGGIGIISGTGISIDEMRMHIRKAKEKIRNTGYIGVNVLFAMNDFAEKMKAAIEEKVDFIISGAGISRDMYTWGKNAGIPVISIVSSAKLARLSERLGAAAVVVEGHEAGGHLGTDRPLFDILPEVVAAVEIPVIAAGGIMTGKDIAHALKMGASGVQMGTRFVASNECDAPLSFKEKYINARLEDTILVKTTVGLQGRAVKNNFTKLIADNNKKIKIKKCINCLKNCSYRFCTLDSLITSMDGDCENGLVFAGARVNEVKEILPVQTIINNIMMEYRACI	PGPT0006800_3672	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
AK009_08337	129			hypothetical protein	ATGTTTTTAGTAATCTACACGATTGGATTAGAGACAATTAGATGTGTAGTACATTCTAGAAGTTTTAAATATCAATATTCCAAAAATCTTGATAATCAATATGCTTATCAAATTTTTTTAGTATTCTAA	MFLVIYTIGLETIRCVVHSRSFKYQYSKNLDNQYAYQIFLVF				NA	NA	NA	NA	NA
AK009_08338	231			hypothetical protein	ATGTTTGGTCTAGGAAAAAAAAGAACTCCATTTGGTGAGTATTTAGATCACAGAGGAATCAAACAACAATGGCTTGTACAAAGGACTGGATTAAGTAAATCTCTGATAAGTGATTTAGCAAATAAAAAGGATCGTATTCCCACTTTAACATCTGCAACTAAAATCATTAGAATACTAAAAAAATTTGATAAGCATATTGATTATCAAGATTTTTGGAATATTGATATTTAA	MFGLGKKRTPFGEYLDHRGIKQQWLVQRTGLSKSLISDLANKKDRIPTLTSATKIIRILKKFDKHIDYQDFWNIDI				NA	NA	NA	NA	NA
AK009_08339	1479	sasA_24		Adaptive-response sensory-kinase SasA	ATGAATAAGATTGTAAAAATCATGAAGATGAAGAGAATTACCTATAAACTCTTTATGACTACATCCCTCATTTTGTTAGCCTTTGCAACCTTGATTTATGTAACTTTATACTTCTTTCTCCCTAAATTTTATGAGCAATACAAAACAGATCAGCTTCAAACGGGAATCGAAGAAATAATTGATAAATCTAAAGATCTTACGCTTCAAAATGCAATACCACTTGTTGATGAATACGCACAAAAAAATAATGCGGTGATCTACCTTCAAAATAATGAGGGAAGACTTATTTATTCTCCTTCTATTGCTTTTCTTCAAAGTACTATTCAAGAGGGTACTATTCAAGGCGGTACTCAAGCAAAAGGTTTTGTTAAAACAGTACCAGCAAGGAGTTTAGATAATCCTCGTAATTCATATGAGGTTAGCAAGCCAATACAATTCCAAGATGTTAACTTAACGCTTGTGGTGTTCGCAACATTTCAGCCGATTGATGAAGCTTCACAGGTCTTAGTACGTTTTCTACCCTATATTAGTATCATTGTACTGGTTATTGGTTTAGGAAGTGCTTATCTCTATTCAAGGTTTATTACTAAACCACTTATTTATATTAATAAAGGTGCACAAAAGATGGCAAAATTGGATTTCTCCGAAAAAATTGAAGTTCGTTCTATGGATGAATTAGGGGAATTGTCCAATAGCTTGAATGATATGTCTATAAATTTACAACAGGCAATTTTTGATTTACAAAAAGCGAATCAGCAATTAAAAAGTGATATTGAAAAAGAAAGAGAAATAGAAACAAAGCGAAGGGAATTCTTTGCTATTGTAGCACATGAATTAAAAACTCCTCTTACTGTTATGAAAGGATACTTAGAAGGGATGATATATAATATCGGCCCTTATCAAAATCGTGACCAGTATTTAAAGAAAAATTATCAAATAATTGAAAGTCTGGAACAACTGGTTCGCGAAATTTTAAGCATGTCAAAATTAGAACAACATACCTTTAAACTTCAAGTGGAAGAAGTAAATCTTTCGAGATCAATAGATACAATTGCCAAAAAACTCGAATTTTTTGCTTCTCAAAAAGGCATTCAAATAATAAAAGAAGTCGATTCTGATATTTTTGTTTATACGGATTATGTTCTTTTAGAAAAAGCATGTAAAAACATCATTCATAATGCGATTATGTATTCACCGTATAACGAAAAAGTCTATATAAAGTTAACAAAGGATTCTAAACAAAACAACGTCCAAATGCGAGTTATCAATACAGGTGTCAAAATAAAAGAAGAAGATATACAACATATTTTCAAACCATTTTATCGAATCGAAAAGTCAAGAAATCGAAATACGGGAGGGAGTGGCTTAGGTTTATATATTGTAAAACAAGTTTTCGAGTCCCTTTTTATCACATATTCTATAAATAATACCAAACAAGGCGTAGAATTTTTAGTTACCATTCCATTATCCAGCAAATAA	MNKIVKIMKMKRITYKLFMTTSLILLAFATLIYVTLYFFLPKFYEQYKTDQLQTGIEEIIDKSKDLTLQNAIPLVDEYAQKNNAVIYLQNNEGRLIYSPSIAFLQSTIQEGTIQGGTQAKGFVKTVPARSLDNPRNSYEVSKPIQFQDVNLTLVVFATFQPIDEASQVLVRFLPYISIIVLVIGLGSAYLYSRFITKPLIYINKGAQKMAKLDFSEKIEVRSMDELGELSNSLNDMSINLQQAIFDLQKANQQLKSDIEKEREIETKRREFFAIVAHELKTPLTVMKGYLEGMIYNIGPYQNRDQYLKKNYQIIESLEQLVREILSMSKLEQHTFKLQVEEVNLSRSIDTIAKKLEFFASQKGIQIIKEVDSDIFVYTDYVLLEKACKNIIHNAIMYSPYNEKVYIKLTKDSKQNNVQMRVINTGVKIKEEDIQHIFKPFYRIEKSRNRNTGGSGLGLYIVKQVFESLFITYSINNTKQGVEFLVTIPLSSK	PGPT0028450_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028450-vanSB|vanS|vanSD-K18345	NA	NA
AK009_08340	666	phoP_5	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAAGAACTATCACATTCTGGTGGTAGAAGATGATCAAGAAATACAAGAATTAATCAAACAATTTTTAATGACACAACAGTATAAAGTTATAGTTGCATCAGATGGATTAGAGGGCATGAAACAATTTAATAAGCAGTCCTTCGATTTAATTCTTCTAGATGTGATGATGCCAAACCTGAATGGATTTGAAGTTGCCAAAATGATTCGAAGTCAGTCAAATATACCAATTATTATGCTAACTGCGCTAGAAGAAGAACAAGATCAAATGAAAGGATTTGATCTTGGAATCGATGATTATATTACGAAACCTTTTTCTTTCCATGTTTTGATGAGACGAGTCGAAGCAGTACTGAGAAGAAGTAATAATCAAAGTACGGATAATCATTTTGTATTTAGAGAACTACATGTCGATGGCGATGCATATAAAGTATATGTAAATAAAGTTGAAGTTCCCTTAACGACAAAAGAATTTGAAATTTTGCAACTACTACTTCGAAATGAAAAAAAGGTACTCACAAGAGATAATATCGTAGAAAAAATTTGGGGATATGAGTATGCCGGGGACACACGAATGATTGATACACATATGAAAAACATACGAAAAAAATTAGATATACCCTATATTAAAACAGTAAAGGGCATTGGTTATAAAATTGATGAATAA	MKNYHILVVEDDQEIQELIKQFLMTQQYKVIVASDGLEGMKQFNKQSFDLILLDVMMPNLNGFEVAKMIRSQSNIPIIMLTALEEEQDQMKGFDLGIDDYITKPFSFHVLMRRVEAVLRRSNNQSTDNHFVFRELHVDGDAYKVYVNKVEVPLTTKEFEILQLLLRNEKKVLTRDNIVEKIWGYEYAGDTRMIDTHMKNIRKKLDIPYIKTVKGIGYKIDE	PGPT0028460_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028460-vanRB|vanR|vanRD-K18344	NA	NA
AK009_08341	177			hypothetical protein	ATGTCACTAGAAGCAAACATCATTCTTTCTTTATTAGATGTACAACTGTGGATGGCCCCTCATTCGAATAATAGACGCATAAAAGAGAAAAAACAAAAATTGAAACCAGCACCGGGCTTAAACAAATACACAAGTGTAAATAAAAGAAAACTATATAAGTCTAGTGAACAAAAATAG	MSLEANIILSLLDVQLWMAPHSNNRRIKEKKQKLKPAPGLNKYTSVNKRKLYKSSEQK				NA	NA	NA	NA	NA
AK009_08342	1194	htrA_2	COG0265	Serine protease Do-like HtrA	ATGTTCACAATGGGACACGATGATACAAATCAAACAGAAAGCAATAGGAATAAAGTCTATAAAAAAACAGGGTATTTTTTCACAGGAATAATTAGTGCAGTGATTGGTGCAATTACCATTGGATTGACCACTCCTTATATAAATGAAATCAAAGGAAGTGCAGGTCAATCTTCTAAGCATAACGAAGTAAATCAGGCTACGCCAATCTCTTACAAACCAGAAGATGTGAGCAATCCTCAAAATATGATTGAATCTGCAAAAGAAGTTGTCGTAGGTGTCATTAACTATAAACAAAATGCAGGTTCATTTAATACGCAAAATCAATCAGAAGAAGCTGGTTCGGGATCAGGGGTCATATATAAAAAAAACGGCAATAAGGCTTTCATTGTTACAAATAATCATGTGATAGACGGTGCGAATAAAGTAGAAGTGAAATTGAATAATGGTAAAAAGGTTCAAGCTAAAGTAGTAGGGACAGATCCATTATTAGATTTAGCAGTATTAGAAATTGACGGGGCAGATGTAAAAAGAGTCGCAACACTTGGAGACTCAGAAAAAATTCGTACAGGGGAAACGGTAATAGCTATTGGGAATCCATTGGGGTTAGAAGGTAGTGTAACAAAGGGGATTATTAGTAGTAAGGAACGAGAAATACCTGTTAGTACTCTTGGAGATCAACAAGTTGATTGGCAAGCACAGGTAATTCAAACAGATGCAGCTATTAATCCTGGGAATAGTGGAGGAGCTTTGTTTAATGAACAGGGTGAAGTCATTGGAATTAATTCAAGTAAAATTGCACAACAAGCTGTTGAAGGAATTGGATTTGCAATTCCAATTCATATAGCCAAAACGATCCTAGAGTCTCTTGAGAAAGATGGAACAGTTAAACGTCCGATGATGGGTGTACAGTTATTAGATGTGGAGAAAATGACAGATTCTGCACGCAATCAATTAAAATTACCAAAAGAGATATCAAATGGTGCAGTATTGAGGAATATCTCATACCAATCACCAGCAGAAAAAGGTGGATTGCAACAATATGATGTTGTGATTGCATTAGATGGACAAAAAATAGAAAATGTCGTTCAATTCCGAAAATATTTATATAAAAAGAAAAAATTGGGGGATACAATTAAAGTAACAGTTTATCGAAATGGTGAAAAACTAATAAAAAACGTGAAATTAGCGGATTAA	MFTMGHDDTNQTESNRNKVYKKTGYFFTGIISAVIGAITIGLTTPYINEIKGSAGQSSKHNEVNQATPISYKPEDVSNPQNMIESAKEVVVGVINYKQNAGSFNTQNQSEEAGSGSGVIYKKNGNKAFIVTNNHVIDGANKVEVKLNNGKKVQAKVVGTDPLLDLAVLEIDGADVKRVATLGDSEKIRTGETVIAIGNPLGLEGSVTKGIISSKEREIPVSTLGDQQVDWQAQVIQTDAAINPGNSGGALFNEQGEVIGINSSKIAQQAVEGIGFAIPIHIAKTILESLEKDGTVKRPMMGVQLLDVEKMTDSARNQLKLPKEISNGAVLRNISYQSPAEKGGLQQYDVVIALDGQKIENVVQFRKYLYKKKKLGDTIKVTVYRNGEKLIKNVKLAD	PGPT0015105_4919	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
AK009_08343	240			hypothetical protein	ATGAAGCAAAAAGAATGTCTACATTGGTATTCCATGGAGGAGGCTAATTTTTCTAGCGATAGTATCTCATCTTGTACTGTAGGGGTCATAAATAAAGGGAGTTATCCCGTGTTTGTATTCCTTCCTCAAGTTAATTGGTTGGTGACTAATATTTTATACCTATTATTATTCCGTTTGTCCTCATTCCACATTAAATGGACTGACTCTTTACCAATGTTCAAAATCGATTACATATTTTAA	MKQKECLHWYSMEEANFSSDSISSCTVGVINKGSYPVFVFLPQVNWLVTNILYLLLFRLSSFHIKWTDSLPMFKIDYIF				NA	NA	NA	NA	NA
AK009_08344	1431			hypothetical protein	ATGAATTTTATAAAACGCGCAATTCTCAGTATGAAAAAAAGAATAGGAACATCATTAATTTTGATGGCGGTCTTTCTGATTGTTACAAATTTAGTGTTGGCAGGATTTGCAATCCAAAATGCATCAAAAAAAGCTGCGGATGCAGCAAGAAAAAAATTAGGTGCAGATGTCACTTTAGGTCTTGATTTTGATAAATTAGGTCAACAAGCTAGGGAAACTGGAGAGATGCCTAAACCACCAAAGCTCAACACAAAAGAAGCAGATCAATTAGCGAAGTCCAAGTATGTAAAAGATTATAATTACATAACCAATACTTTCGGAATTTCGGATGGATTTAAACTAGTAGGTGCTTCAGAAGGAGAAGACGAAGGAAAAGGTAGAGTTGGAATGGTGGCAGCAGCGGGTGGATCAGGTTCGGGCTCAGAAATAGATATGAATTCTTCCCTTATAATAGAAGGAGTTCGTAAAACTGTATTACAAGAAAGTTTTAAAAATGGAAAAAGTAAAATCATTGATGGGAAACCAATTACAGAAAAGATGAAAGATCAGAATGTAACTTTAATGGAAAAACGATTAGCGGAACAAAACAATTTGAAAGTAGGAGATAAGATTAAAATTCAATCAGGGGATAAGAAGCAAACTCTTGAATTTGAAATTATTGGTATTTATGAAACGAATGAGCAACCAATGGGTCAGCATGCCCCTCCTATGATGGATCCAGCTAATAAGCTATATATGCCTTACTCTACTTTAAAAAAGTTAGAAGTAGATGAAGGTATGAGTAGTATTCAAGTTGTGTACTTATTGAACGACCCACAATACATTGATGCATTTAAAAAAGAAGCAAAAAAATCTGATATTGATTTTAATTATTTTAAGTTAGATGCACATGATTCATTGTACAAACAAATGATTGGTCCTATCGAAAATATCGCTTCTACTTCTCAAATGATTATCTATATGGTATCTATTGCAGGTGCAATTATCTTAGGATTAATTATTATGTTATCGATTAAAGCACGTCGTAAGGAAATGGGAATTTTATTGTCCATTGGAGAGAAAAAATGGAAACTGATGGCGCAGTTCGTAGTAGAAGTAGTATGTATCGCTATTTTAGCATTTGGATTATCTCTAACAACAGGAGCTAAAGTTTCTCAATTCGTAGGGGATAATTTACTTTCGAGTGAAGTTGCTACAGCAGGAGAAGAAACAGACACTTCACAAAATGGAACTGTAATGGTGGCTGGACCAGGCGGAACTGTACAAAATCAAAAAGAGGATCCAATAGATAAAATTAATGTAAGTGTAACAGGAGAAGACGTAGGAAAAATGGGAGGGATTGGACTAGCTATTGCTATATTAGCAACGCTTCTTCCGGCATTATCTATTCTACGCTTAAATCCAAAACAAATCCTTTTAAAAGATGAATAA	MNFIKRAILSMKKRIGTSLILMAVFLIVTNLVLAGFAIQNASKKAADAARKKLGADVTLGLDFDKLGQQARETGEMPKPPKLNTKEADQLAKSKYVKDYNYITNTFGISDGFKLVGASEGEDEGKGRVGMVAAAGGSGSGSEIDMNSSLIIEGVRKTVLQESFKNGKSKIIDGKPITEKMKDQNVTLMEKRLAEQNNLKVGDKIKIQSGDKKQTLEFEIIGIYETNEQPMGQHAPPMMDPANKLYMPYSTLKKLEVDEGMSSIQVVYLLNDPQYIDAFKKEAKKSDIDFNYFKLDAHDSLYKQMIGPIENIASTSQMIIYMVSIAGAIILGLIIMLSIKARRKEMGILLSIGEKKWKLMAQFVVEVVCIAILAFGLSLTTGAKVSQFVGDNLLSSEVATAGEETDTSQNGTVMVAGPGGTVQNQKEDPIDKINVSVTGEDVGKMGGIGLAIAILATLLPALSILRLNPKQILLKDE	PGPT0013350_11690	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK009_08345	687		COG1136	putative ABC transporter ATP-binding protein	ATGGAGACGATTTTACAATTTAAAAACTTAGATTATTATTATGAAAGTAACGGAAAAAAAGTAAAGATACTAGATAATGTTAATTTTTCTTTTCAAAAAGGGCATTTCTACACGATTTTAGGACCATCTGGATCTGGTAAAACCACCACGCTTAGCTTAGGTTGTGGGCTGGATATACCTAAAAATGGTTATGTACTGTATAATGGCAAGGATATTAGAAAAATTGGTTTGGATCGATACCGTAATCAAAATGTATCCGTAATTTTCCAATCCTATAATTTAATTACCTATATGACTGCCATTCAGAATGTACTAACGGCAATGGAAATTACAGGTGTAAAGGTAAAAAATAAAAAAGCAAGAGCATTAGAATTATTAGAGAAGGTAGGACTCACAGAAGTAGAAGCGAAACGAAATATCTTACAACTAAGCGGTGGACAACAACAACGTGTAGCAATTGCCCGAGCATTATCTTGTAATGTTGATTTATTGATTGCGGATGAGCCGACAGGAAACCTTGATGAAGAAACAGCAAATGACATTATTGATTTGTTCCAGGAGCTCGCTCATCAAGAAAATAAATGTGTAATTGTTGTAACGCATTCACAGGAAGTTGCAAAAAAATCGGATCGAGCTGTTTATTTAAGTCAGAAAAAATTAGCAGTGAAAGATGCACCTAGCATCTAA	METILQFKNLDYYYESNGKKVKILDNVNFSFQKGHFYTILGPSGSGKTTTLSLGCGLDIPKNGYVLYNGKDIRKIGLDRYRNQNVSVIFQSYNLITYMTAIQNVLTAMEITGVKVKNKKARALELLEKVGLTEVEAKRNILQLSGGQQQRVAIARALSCNVDLLIADEPTGNLDEETANDIIDLFQELAHQENKCVIVVTHSQEVAKKSDRAVYLSQKKLAVKDAPSI	PGPT0013345_12760	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_08346	273	hup_3		DNA-binding protein HU	ATGAATAAAACCGAACTAATTAACCAAGTATCTGAGAAAACATCACTTACTAAAAAAGAGGCTACTGCATCTGTACAAGCTATCCTAGATCAAATTACACAATCTCTTCAAAAAGAGGAATCCGTACAGTTAATTGGATTTGGTACATTTGAAGTACGTAAGCGTTCTGCACGTACTGGGCGCAATCCCCAAACGGGCGAAGAAATGCATATCCCAGGAGGAAAAGTACCTGGATTTAAAGCTGGAAAAGCTTTAAAAGAGGCTGTTAAATAA	MNKTELINQVSEKTSLTKKEATASVQAILDQITQSLQKEESVQLIGFGTFEVRKRSARTGRNPQTGEEMHIPGGKVPGFKAGKALKEAVK				NA	NA	NA	NA	NA
AK009_08347	243			hypothetical protein	ATGAAAACCAAAGTAGTTAAATCAATTGAAGATTTGCAATTGAAATCATTTGAAATGATGACAAATTCTTTTTCTTTTAAATCTATTTTGCGTGGAACTGGTATGACTTTTGTAATTATTTTTGGATCATCTTTGATTAACGATTCTTCTTTATTTTCATTAAATTCTTTGATGGTGATATTGGGTTTCTTTTTAATCTTTACGCCATATATTTTTAATATTGCTGAGAAATCTAATATATGA	MKTKVVKSIEDLQLKSFEMMTNSFSFKSILRGTGMTFVIIFGSSLINDSSLFSLNSLMVILGFFLIFTPYIFNIAEKSNI				NA	NA	NA	NA	NA
AK009_08348	345	blaI_2	COG3682	Penicillinase repressor	GTGAAAAAAATACCTAAGATATCTGAAGCTGAGTTAGAAGTAATGAAAGTCCTTTGGTCAAAATCTCCACAAACGGCTAATGAAATAATTCAAGCTCTTGAAGGACAAATGGATTGGAATCCAAAAACGGTTAGAACATTAATTAATAGGTTAGTGAAAAAACAAGTAATTTTTTCTCAGCAGAAAATAGGAAGAACGTATATGTATGGCCCTTTAATCTCACAAGATGATTATTTACAAGTAGAAACTAAATCTTTTATTAAACGTTTTTATGGTGCTGCTTTAAAACCTTTACTTGTTAATTTTTTACAAGAAGAAAAGTTATCTTCCAAAGAGATCGATTAG	MKKIPKISEAELEVMKVLWSKSPQTANEIIQALEGQMDWNPKTVRTLINRLVKKQVIFSQQKIGRTYMYGPLISQDDYLQVETKSFIKRFYGAALKPLLVNFLQEEKLSSKEID	PGPT0028105_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028105-blaI-K02171	NA	NA
AK009_08349	1485			hypothetical protein	ATGGATATGTTAATACATACGTATCTCTCTACTCTTTTTGATTGGCTACTAGAAACTACCATTATGGCCAGTATATTGGTAGGTTTTATCTTATGTGTCAAAGTTCTACTAAGGAATCAATTAACAGCAAGATGGCATTACGCATTGTGGCTAATTCTGATTGTAAGATTAATTTTACCTTGGTCACCCGATAGTTCTTATAGCTTATACTCCATACTTTCACATGGATATGTAACTTCTACTTCTCTAATTCAGAAGGAAGCGAATGTTTCTGGTTTAAAAGTAATGAATGAACCTGCAAAGTATGCTGTTAATTCGAATGATTCCAATAAACCATTGGTTGAATCGAGTTCCAAAGAAAAAGAAAAGGTTGCCAAACACATATCTATGTATGAAATCTGTTTATATGTATGGATACTAGGTGTTTTTTGTTTAGGGGCTTTAACACTAATTGCAAATAGACGTTTATATTTATACATACAAAAGCAATCAATTATAACAGATGAAAGGATTTTAAATATTTTTGAGGGTTGTAAAGAAACGATGTCTATAAAAGAAGATATTCCTTTACAATTAGCCGGCAAGATTGCTAGTCCGACACTCCTTGGATTTAGAAAACCTAGAATATTATTATGTGAGCAGCATATACAACGATTAAATGATAATCAGATACGGTTTATTTTCTATCATGAATTAGCTCATTTTAAACGTAGAGATGTTGGGGTTAATTGGCTTATGCATCATCTGCTTATACTAAATTGGTTTAATCCAATCCTTTGGTATGCCTATTATTCAATGCGCGAAGATCAAGAAATTGCATGTGATGCATTGGCTCTTACCTTTATTGATTCGGAAGAAAGAATCGAATACGGGCATACAATCATTACATTATTAGAACACTATTCAAATTATTATCAAATGCCTAGTTTAGCAAATCTAAGTAAAAATAAAAAAGCATTAAAAAGGAGAATTCTTATGATAAAAAAATTTAATAAAAAATCGTATCGTTGGTCAGCTTTAGGATTGACAGCTGTATTAGGTATATCTACTTTTTCTTTAATGAATGCAAATGCTGAGGAGTTTAAGGGCGAATCACAGGCTACAAAAAATAAAATTGAACAAGCCGCTAAACCTGAAGAAATGACTAGGCTTGAAAAGAGTAAGGCAGAAGAAGCCGCAAAACAATCAGAGATGGACAAACTTGAGCAAAGTAAAAAGAACACAGAGATCTCTGAAGCAGCAGTACTTAAACTTACCGAAAAACAAAAGCAATATCTTAAATCTAAAGGACTTCCAGTGAAGCAAACTTCTAAAGAATCTGAAGTTACGGGGCTTATGTTAGTTTCTCTAGTGAAACCTATTGATAATGGAGATGGAACAGGATTTCAGCCAGACCATGTTGGAGAAGTTGATATAATTCACAAAGATGAATATAAAAACAAATATGGTAAAGAAGATTATGTAGCATTCGCTGCATGGGAATAA	MDMLIHTYLSTLFDWLLETTIMASILVGFILCVKVLLRNQLTARWHYALWLILIVRLILPWSPDSSYSLYSILSHGYVTSTSLIQKEANVSGLKVMNEPAKYAVNSNDSNKPLVESSSKEKEKVAKHISMYEICLYVWILGVFCLGALTLIANRRLYLYIQKQSIITDERILNIFEGCKETMSIKEDIPLQLAGKIASPTLLGFRKPRILLCEQHIQRLNDNQIRFIFYHELAHFKRRDVGVNWLMHHLLILNWFNPILWYAYYSMREDQEIACDALALTFIDSEERIEYGHTIITLLEHYSNYYQMPSLANLSKNKKALKRRILMIKKFNKKSYRWSALGLTAVLGISTFSLMNANAEEFKGESQATKNKIEQAAKPEEMTRLEKSKAEEAAKQSEMDKLEQSKKNTEISEAAVLKLTEKQKQYLKSKGLPVKQTSKESEVTGLMLVSLVKPIDNGDGTGFQPDHVGEVDIIHKDEYKNKYGKEDYVAFAAWE	PGPT0028100_587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028100-blaR1-K02172	NA	NA
AK009_08350	1311			hypothetical protein	ATGAAGAAAATAAAGATAAAAAAACATTTAAAATTCGGGATTCTTACTTGTTTTACACTAGCGAGTTTATGTACAGCTTCAATAGTATTTGCTGATAGACATCCAGGTTATTCCTATGAGTCCGATTTAGGTTATCGAAATCCAAACTGGATGTCAAAATTGGAAGATACAAAAAGAATAAGCGAATTATCTATTCCAGGTACTCATGGTTCAATGGCTTTACATGGAGCGAGTTTTATTGATGAGAATTTGACAAGAAATCAAACAATGCCCCTATCTCAGCAGTTCAATGCAGGAATACGTTATGTAGACATGCGTGTTAAACGTGTGAAAAATTCTTTTGCCATGCAGCATGGTATTGTAAATCAAAAAGCAATGTTTGAAGATGTATTAAAAGAAACAATCCAATTTTTAAGAGAAAACCCTCAAGAAACAATTTTAATGCGCTTAAAAGAGGAAACTGATCCAGAGAACGGCTCACTGTCATTCGAGGAGATATTTAAAAGTTATAAAGACCGTAATGTGTCCTATTTTTGGGAACCTAATTCTGTGCCATTTTCAGAAAGAAATAACCCTAAGTTAGGAGATATCCGCGGAAAAATTGTAATACTACAAAACTTCGCAGCATCTGAAGAATACGGAATTAATTATGAATCATTAGATATCCAAGATAATTTTGAAGTTAGCGCTGGACCGGATGGAATGTATGAGAAATGGAATGCAGTAAAAAACCAGCTTCTAAAGGCAAATAAAGATTTTAACAATAATCATATCTATCTCAACCATTTTAGTGGCACAGGTGGCGCTACAGCATTATGGAATAATTATTATCCTTGGTTTGTTGCAAGTGGAAAGGAAAATAGAGATACTGGTAGTAACCCACAGTTAATTCAAAAAAATACAACAAGTGAATGGAAAGACTTCCCTCGTGATACAAATGGTCAAGTATTTTATGGTGGGATGAATACAATGGGGACAGATTTCATACTACAAGGTGGGATTAGACATTCTGGTGTCATTGCAGCTGATTTTCCTGGTCCAGGTTTAATAGATAGTATCATTAAATTAAATGGAATAAACGTTAATGAAAAAGAAATATTGATTTCCCAAATTTCTTCTGACTCTAAGCCATTGCCTGGAGAAAAGAACCGATCCAGCCAAAACTTTAGTATAAATAATTTACCCCCAGGGACACTGGGGGTAAAATGGATTATTGAACCTACCCTGGGAGAGACTTCTGACAGTATCTCTTTCAATATTATGGTCGATGTTTCTCTGGGTCTAGATCGTGTTAGTTGGAGCAATATTTGA	MKKIKIKKHLKFGILTCFTLASLCTASIVFADRHPGYSYESDLGYRNPNWMSKLEDTKRISELSIPGTHGSMALHGASFIDENLTRNQTMPLSQQFNAGIRYVDMRVKRVKNSFAMQHGIVNQKAMFEDVLKETIQFLRENPQETILMRLKEETDPENGSLSFEEIFKSYKDRNVSYFWEPNSVPFSERNNPKLGDIRGKIVILQNFAASEEYGINYESLDIQDNFEVSAGPDGMYEKWNAVKNQLLKANKDFNNNHIYLNHFSGTGGATALWNNYYPWFVASGKENRDTGSNPQLIQKNTTSEWKDFPRDTNGQVFYGGMNTMGTDFILQGGIRHSGVIAADFPGPGLIDSIIKLNGINVNEKEILISQISSDSKPLPGEKNRSSQNFSINNLPPGTLGVKWIIEPTLGETSDSISFNIMVDVSLGLDRVSWSNI				NA	NA	NA	NA	NA
AK009_08351	564			hypothetical protein	ATGAAAAAGAAAATCATTACAGCAACTGCTCTGGCTGCAACATTAGCTACAGGTGCATTACCTACAACATCAGTATTTGCTGCTGAGACAGTTGCTCCTATCCAACAACAGGAATCACAAGTTAGTATTCAACCGTTTGCACAAAGTAATCTAGAAACGGCTGTTCAAGCTGCATTAAATGGTCCCGAAGTAAAAAAAATAAAAGTATTTGAGCATGAATTTAATGTAAAAGAAATTGAAGTTGTGGATCGAGGTGCAGCTGGTAAAGATGTATACGGACAAATCTCTCATCATTTAAGCTTCCGTCCAGATGATCAACTTTACTATAAATTCACAAAAAAAGATGGTGAGGTAACCGGATTCGAATTTCATATTGATAGAGGCGGCTGGACACCAATTGTAGCTCCACTTTTATCAATTCTTGCTGCATATAACGGGATTCCTGTTAATCCAAATGATTTAAATTCACTCGGTCAACAACTTGGTAAAGTTATCGATGGTAGTTGGGAACATGCAGGACAATCTATTGCTACTGCAGTTAGTTTAAGCTTTAATGAGAAATAA	MKKKIITATALAATLATGALPTTSVFAAETVAPIQQQESQVSIQPFAQSNLETAVQAALNGPEVKKIKVFEHEFNVKEIEVVDRGAAGKDVYGQISHHLSFRPDDQLYYKFTKKDGEVTGFEFHIDRGGWTPIVAPLLSILAAYNGIPVNPNDLNSLGQQLGKVIDGSWEHAGQSIATAVSLSFNEK				NA	NA	NA	NA	NA
AK009_08352	651			hypothetical protein	ATGAAGATAGCGGTGATACAAGCAAGTACCCAAATTAGCAAAAATGAACTGATTTTTGAAGAGACAAAAAGGGCTGTGGCGAGGCATGGATATGAAGTGCTCAATTTTGGTGTTACATTTAAAGAATCCGAGTTAAGCTATATCCAAGTGTCCTTAGCTGTTGGTCTACTTCTAAATTCAGGTGCAGTTGATTTTGTGATCACTGGATGTAGTAGCGGTGTTGGTATGTCGATTGCCTGTAATACACTTCCGAATGTCATTAGCGGTTATCTGCCAACTCCAACAGATGCGTTCCTATTCGGTAGGATAAATAATGGAAACTGTGCATCACTGCCACTTGGATTGAATTTCGGTTGGGCGGGCGAATTAAATCTTCGCTTCACGCTTGAGAAACTATTTGAAGAACCGTTCAATACTGGGTATCCTGAAGAATCCGCCGAACGAAAGAAACGTGATGCAGAACTTTTTAAAGTAATCAAGAGTTTTTCACATCATAGTATTGTTGAGATTCTAAGTCAGCTAGATGGAGCGGTTATTAATCCTGTTCTTCAAAAGCAAGAGTTAGTGGAATTCCTCTTGCGAAATGGCAATAACACAGATATATCAAATTATCTTATCGAACAAATGAAGCATTTAAATTACGGTAGGTAA	MKIAVIQASTQISKNELIFEETKRAVARHGYEVLNFGVTFKESELSYIQVSLAVGLLLNSGAVDFVITGCSSGVGMSIACNTLPNVISGYLPTPTDAFLFGRINNGNCASLPLGLNFGWAGELNLRFTLEKLFEEPFNTGYPEESAERKKRDAELFKVIKSFSHHSIVEILSQLDGAVINPVLQKQELVEFLLRNGNNTDISNYLIEQMKHLNYGR				NA	NA	NA	NA	NA
AK009_08353	996			hypothetical protein	ATGCAGACGAACACTAATACTATAGAGGACATCTATCAGGAGATATTAGATGGAAAAAGAAATAGATTCCCACCAAACACTTGGAAATTAGATAGAAATAATCAATTGGCCAGAAGAGTAACAAAGTATTTAGTAACAAAAATTTTGAATTGGAATGAAGAAGAGATAAAACAGAATTGGAATAACAAATTGATTGCAAAGTATCGATTACGTGGTGTATTGAAGCACAAATATAATAATAGTCCATATGCGATGATTAATGATTTATATCCGAATCAATTTAAAGAATGGGAATTTAGAATGACACCATTAAATTTTTGGACGAAAGAAAAGGCTCTGCAATTATTAAAATGGTTAATTGAAGAAGAGGAGAAATTACCACCACAAAAACTCTTACAAATTTATGGGCAAAAATGGTTAATAGAACATCGACTAAGTGCACCTCTAAGGGTGATTTGGAATGGAAGCCCGTATGCGATGATTAATGATTTATATCCAAATCGATTTAAAGAATGGGAATTTAATAAGGCCCCTAATAAGTTTTGGACGAAAGATAAAACATTACAAGCACTAAAATGGACAATTGAAAAAAAAGAAAAATTAAATGTGGATCAATTGAAGAATATATACGATAATAAATGGTTAGTTCAATCAGGATTGAGCGGAGCCTGTCAACTATATTGGAATGATAGTCCATATGCAATGATTAATGATTTATATCCAGGTCAATTTAAAGAATGGGAATTTAAAATGACACCAAATGGTTTTTGGACGAGAGAAAAAGCGCTAGATGCCTTACAGTGGACAATTGAGGAAAAAGAGAAGCTGACAGATAATCAATTATTACAGCAATACACAATGCAATGGCTTAAAAATCATAGATTATGGACACCTGTAGTAAGATACTGGAATGGGAGCCCATATGCAATGATTAATGATTTATATCCAAATAAATATATAAAAAGCTCATTCAGTGGATATATAAATAAATTTTGA	MQTNTNTIEDIYQEILDGKRNRFPPNTWKLDRNNQLARRVTKYLVTKILNWNEEEIKQNWNNKLIAKYRLRGVLKHKYNNSPYAMINDLYPNQFKEWEFRMTPLNFWTKEKALQLLKWLIEEEEKLPPQKLLQIYGQKWLIEHRLSAPLRVIWNGSPYAMINDLYPNRFKEWEFNKAPNKFWTKDKTLQALKWTIEKKEKLNVDQLKNIYDNKWLVQSGLSGACQLYWNDSPYAMINDLYPGQFKEWEFKMTPNGFWTREKALDALQWTIEEKEKLTDNQLLQQYTMQWLKNHRLWTPVVRYWNGSPYAMINDLYPNKYIKSSFSGYINKF				NA	NA	NA	NA	NA
AK009_08354	2004			hypothetical protein	ATGATTAGAAAGAAACATCCATTTTGTACTCTAGCAAAAACAGCTGTTGCATTAACTATGATCATTCCTACATCCCAAGCCATTAGCCATACGTTTGCCTACGCTCAAGAAAATATAGCGAAATCTCAACAACAAGTAGCGCCATTTTGGAATAAAAATAAAGATTATCCAGGTGAATCTTACGTTACATATGAAGGTAAGATTTATCATTCTGTATATTGGGTAAATGCAGGTACACTACCTACCCAACAATTTAGCGGTTGGGAATTATATACTGGTTCAGAATATATACCTGACAATAGCGATCCTAATGATTTATTTGGTGAAGGAATCACTTGGCCAACTCATGTTTTTGCACCATATGTAGATAACGGCATGAATCCTCAAAATCTATTAAAATATGCCCAAGAAACAAATACTAGTTTCTTCACGCTTTCCTTTATAGTGGCTGATAAAAATGGAAATCCAGTATGGGGAGGAAGTCATACCCCTATTGGAGATGGTAACTTAGATGATCAAATTAAACAAATTAGAAAAATAGGTGGAGATGTTAAAGTATCTTTTGGTGGAGCAAATGCTGGTAATATCCCTGGATTAGGTGCAGATCTTGCCGCAGCTATTACAGATGTAAATAAATTAAAAGATGCTTATAAAAGTGTAATTAACACATTACATTTAACACACATGGATTTTGATATTGAAGGAGGCTTAGTCGCTCACCCAGAATCTATCGAAAGAAGATCAAAAGCAATTGCGTTATTACAAAAGGAATTAAAAGCTGAAGGTAAAGATGTAAAAATTGGTTATACCTTACCAGTAATGCCTTATGGCCTAACTAATGATGGACTAAATGTGATTCAAAGCGCTATAAAACATGATGTAGATTTAAATTCAGTTAATATTATGACTATGGATTACGGGCAACAAAACCAACAAATGGGACAAGCTGCGATAGATGCTATTAATAGCTTGCATGGACAATTAACTAATTTATATAAGGGTTCTATTAAAGATTCTGACATTTGGAAAATGATTGCTGTTACACCTATGATAGGAAAAAACGATACTCAAAATGAAACTTTCACATTAAACAATGCAAAAGAATTGTTCCAATTTGCCAAAGAAAAAGGTATTGGGGAAATTAGTATGTGGTCAGTGTATCGTGATAAAAAAGCTACTGAAAGTTGGCAAATTGGTCAGGCAACTGGAGATGCTTCTGGATTACCCGATGTAGAAGATGGTGCCTTTTCTAAACTATTTTCTGCTTTTAATAGTAGTACTGAAATTGACGTAATCGCTCCAACAGCTCCTTCTAACCTACGTTCTGTTAGTAAAACAACAACAACTGTTGAGCTACAGTGGGAGGCTTCCACAGATAATATTGGTGTGAAAGAATATGAAGTTTATCGTGATGGAAAAAAAGTAGGAACAACAAAAACAACACGTTATGAAGATGCGGGATTACAAGCCAATACAAAATATAATTATACAATTAAGGCTACAGATGCAGCGGGAAATAAGTCAAAAAGTAGCAATGAAGTTTCAGTTACAACAAAAGAAGAGAATCCAGAACAAATAGCTCCAACAGCTCCAACAGGATTACAAGCATCAGAAACTACTACAAACAGTGTTCATTTAATATGGGAAGAATCCATAAGTAATGTTGGTATAAAAGAATATGAGATTTATCGTAACGGTACGAAAATAGCTACAAGTCCTTCAACTTACTATACAGATGAAAATTTACTGGCTAGTACAGAATATAGATATATGGTAAAAGCTATAGATACTCAAGGAAAAGTTTCAGTTGCGAGTAATGAAATCAAAATCACAACAAAAGATACCCCCTCTTCTGAGTATAAGGCATGGGATTCGTATGCTGCATATAAAAAAGGAGATAGAGTAGAACATCAAGGTAAAATTTATGAAGCAGTTCAAAGTTATCAAGGATACGGTGATCCAAATTGGATTTTCTCATTAGCTTTATGGAAAGTAATTAAATAA	MIRKKHPFCTLAKTAVALTMIIPTSQAISHTFAYAQENIAKSQQQVAPFWNKNKDYPGESYVTYEGKIYHSVYWVNAGTLPTQQFSGWELYTGSEYIPDNSDPNDLFGEGITWPTHVFAPYVDNGMNPQNLLKYAQETNTSFFTLSFIVADKNGNPVWGGSHTPIGDGNLDDQIKQIRKIGGDVKVSFGGANAGNIPGLGADLAAAITDVNKLKDAYKSVINTLHLTHMDFDIEGGLVAHPESIERRSKAIALLQKELKAEGKDVKIGYTLPVMPYGLTNDGLNVIQSAIKHDVDLNSVNIMTMDYGQQNQQMGQAAIDAINSLHGQLTNLYKGSIKDSDIWKMIAVTPMIGKNDTQNETFTLNNAKELFQFAKEKGIGEISMWSVYRDKKATESWQIGQATGDASGLPDVEDGAFSKLFSAFNSSTEIDVIAPTAPSNLRSVSKTTTTVELQWEASTDNIGVKEYEVYRDGKKVGTTKTTRYEDAGLQANTKYNYTIKATDAAGNKSKSSNEVSVTTKEENPEQIAPTAPTGLQASETTTNSVHLIWEESISNVGIKEYEIYRNGTKIATSPSTYYTDENLLASTEYRYMVKAIDTQGKVSVASNEIKITTKDTPSSEYKAWDSYAAYKKGDRVEHQGKIYEAVQSYQGYGDPNWIFSLALWKVIK	PGPT0012130_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK009_08355	1122			IS200/IS605 family transposase ISBth17	ATGATAATTAATAAAGCTTATAAGTTTCGTATCTATCCAAATCAAGCACAAGCAATTCTAATTAACAAAACGATAGGTTGTTCTCGCTTTGTATTCAATCATTTCCTATCCCTATGGGATCACGCATACAAAGAGACTGGAAAAGGTTTAACATATGGTACATGCTCTGCCAAACTTCCTGCCATGAAGAAAGAGTTCGTTTGGCTCAAAGAAGTGGATAGTATTGCGATTCAGTCGTCTGTTCGCAACCTTGCGGATGCATATACACGATTTTTCAAAAAACAAAATAGTGCCCCGCGTTTCAAATCCAAGAAGAATAACGTACAATCTTATACCACAAAACAAACAAATGAAAATATTGCCGTTGTAGGGAACAAAATAAAGTTGCCCAAACTAGGCCTTGTTCGATTTCCCAAAAGTCGTGAAGTAGAGGGACGTATTGTAAATGCGACTGTTAGACGAAACCCTTCTGGTAGATATTTTGTGTCACTATTAGTTGAAACAGAAGTACAAGAACTTCCGAAAACACATTCTTACATTGGGATAGATGTAGGACTAAAAGATTTCGCCATTTTGTCAGATGGAACACCCTATGAAAATCCGAAGTTTTTCCGATCATTAGAAGATAAGTTGGCGAAAGCACAGCGTGTTCTTTCTAGAAGAATGAAAGGATCTTCTCGCTGGAATAAACAACGAGTAAAAGTAGCTAGAATTCATGAATACATATCAAATGCTAGAAAAGATTACTTAGACAAAATCTCAACTGAAATCATCAAAAGCCACGATGTTATCGGTATAGAGGATTTGCAAGTATCGAATATGTTAAAGAATCATAAGTTAGCAAAAGCAATTAGTGAAGTATCTTGGTCACAGTTTCGAACCATGTTGGAATATAAAGCAAAATGGTATGGCAAACAAGTCATTGTCGTATCGAAAACATTTGCTTCCAGCCAATTATGTTCTTGTTGTGGATATCAAAATAAAGACGTTAAAAATCTAAACCTACGTGAATGGGACTGTCCTTCTTGTCGTACACACCATGATAGGGATATTAACGCAAGTATCAATCTAAAGAATGAAGCGATAAGGCTTCTAACCGCAAGGACTGCGGGGTTAGCCTAA	MIINKAYKFRIYPNQAQAILINKTIGCSRFVFNHFLSLWDHAYKETGKGLTYGTCSAKLPAMKKEFVWLKEVDSIAIQSSVRNLADAYTRFFKKQNSAPRFKSKKNNVQSYTTKQTNENIAVVGNKIKLPKLGLVRFPKSREVEGRIVNATVRRNPSGRYFVSLLVETEVQELPKTHSYIGIDVGLKDFAILSDGTPYENPKFFRSLEDKLAKAQRVLSRRMKGSSRWNKQRVKVARIHEYISNARKDYLDKISTEIIKSHDVIGIEDLQVSNMLKNHKLAKAISEVSWSQFRTMLEYKAKWYGKQVIVVSKTFASSQLCSCCGYQNKDVKNLNLREWDCPSCRTHHDRDINASINLKNEAIRLLTARTAGLA	PGPT0030680_5634	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
AK009_08356	1131	gldA		Glycerol dehydrogenase	ATGGAACGTATCCTAATTAGCCCGCAAAAATATATTCAGGGAAGAAATGTAATTAAAAAAATTGGAGAGTATGTAAAACCTCTAGGAACCAATTTATTAGTTATTGTAGATGAATGTGTTTGGCATCTTGTTGGTGAAAAAGTTATGGAAAGCTTTCATAAACAAAATCTAAGCTTTGAAAAGGTCGGTTTTAATGGTGAAAGTTCTGAAAATGAAATTGCAAGAATTGAGAAAATAGGAAAAGAATTTGGTGCTGATGTAATCATTGGTATTGGTGGTGGTAAATCAGTAGACACAGCAAAAGCGGTAGGAGAAATTCTTTCGGCCAAAGTTGTAAGCGTTCCCACTATTGCCTCAACAGATGCTCCAACCAGTTCTCTTTCTGTTATTTACTCTGATGATGGAGTATTTGAGAAATACAAATTCTATTTAAAAAATCCGGATATTATTTTAGTAGATTCCCAAGTCATTGCACAAGCTCCATCCAGATTTTTAGCTGCTGGGATTGGAGACGGAATGGCTACATGGATTGAAGCTAGAGCAAATTTAGAATCACGAAAACCCGCTATGGCTGGAGGACTCTCTACCCTAGCAGCTGCTAAGATTGCAGAACTCTGTTGGGATACCTTATTTCAATATGGAGAAGCTGCTCTTTTAGCAGTTAAACAAAAAACTGTTACTCCAGCAGTTGAAGCCGTAATAGAGGCAAACACCTTACTTAGTGGCCTTGGATTTGAAAGTGTGGGGTTAGCTGCAGCTCATGCCATCCATAATGGCTTTACTGTTTTACATGATAAGACTCATGATTTGATGCATGGAGAAAAGGTTGCATTTGGCACATTAGTACAAATGGCATTGGAATCTTGGACAACTGAAGAACTATATAACTACATTGATTTCTGTATCAAGCTTGGCTTACCAACTACACTTAAAGATCTGAACTTAGGTGATGCAAGTAAAGAAGAATTGATGAAAGTGGCTGAAGCTGCCTGTCAAGATGGTGAAACTATACATAATATGCCATTTGAAATTTCACCAGAAATGGTTTTTGATGCAATTATTGCTGCTGATGCTTATGCTACTGAGTATAAATTAAAAAAATTAGTTCAAAATTACAATCCCAAAAATTAA	MERILISPQKYIQGRNVIKKIGEYVKPLGTNLLVIVDECVWHLVGEKVMESFHKQNLSFEKVGFNGESSENEIARIEKIGKEFGADVIIGIGGGKSVDTAKAVGEILSAKVVSVPTIASTDAPTSSLSVIYSDDGVFEKYKFYLKNPDIILVDSQVIAQAPSRFLAAGIGDGMATWIEARANLESRKPAMAGGLSTLAAAKIAELCWDTLFQYGEAALLAVKQKTVTPAVEAVIEANTLLSGLGFESVGLAAAHAIHNGFTVLHDKTHDLMHGEKVAFGTLVQMALESWTTEELYNYIDFCIKLGLPTTLKDLNLGDASKEELMKVAEAACQDGETIHNMPFEISPEMVFDAIIAADAYATEYKLKKLVQNYNPKN	PGPT0008270_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
AK009_08357	273	fhlA	COG3604	Formate hydrogenlyase transcriptional activator FhlA	TTGACTCTTGAAAAGATAAGAATAAAGTATTTAGAAAGTGAATTGTCGAAATATAAAAAACTAAACAACTCTTTTCCAGACATCATTAGTTATAGTGACACTTTAATAAAGACGCTCTTTGTTGCGAATAAAGTGGCAGAATTAGATTCTACGATTCTTATTACTGGAGAGAGTGAAACAGGGAAAGAACTTATAGGTAAAGGTATCCATAAAGCTGTTTTCAGAAAGGATAAGTCGTCTATTCTAGTAAATTGTGCGGCTATCCCCCCCTAA	MTLEKIRIKYLESELSKYKKLNNSFPDIISYSDTLIKTLFVANKVAELDSTILITGESETGKELIGKGIHKAVFRKDKSSILVNCAAIPP	PGPT0001030_743	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
AK009_08358	999	dhaK_2	COG2376	PTS-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	ATGAAAAAATTTATTAATAATCCAGAAAAAGTAGTTAAGGATATGATTGACGGAATGATGTTTGCACATTCTGATAAACTACAAAATATGGCTGAAACAAATATAATTATTCGAGCTAATAGTCCATTTCAAGGAAAAGTGGCAATTGTCAGCGGAGGCGGGAGTGGTCATGAACCAGCGCATATAGGATTTGTTGGTAAAGGGATGCTTGATGCTGCTGTAATGGGCGAAATTTTTACTTCTCCTACACCAGACCAGATTTTGAAAGCGATTCAAAAGGTTCATACTGGAAGTGGGGTTTTGTTAATTGTAAAAAACTACTCAGGAGACATAATGAATTTTGAAATGGCTGCTGAAATGGCTGAAGCACAGGTAATCCCGATTGCTACAGTCATTGTTAATGATGATATTGCTATTAATAATAGTTCACACACTATGAGAAGAAGAGGAATTTCTGGAACAATATTTGTACATAAAATAGCTGGAGCAATGGCTGAGAAAGGTGCATCGCTTAAAGAAGTTGAAGATGTTGCAAATAAAGTAATTGCTAATATACGTAGTATGGGAATGGCATTAACAACGTGTACTATACCTGGATCTGGTACAGTCGGTTATAAAATTGGTGAAAATGAAGTAGAGGTTGGTATAGGTATTCACGGTGAACCTGGAACTCATCGTATTAGTATGATAGCAGCTAATGAAATGGCTGAACTCCTTTTAGAGCATATTTTAAGTGATATGCAGTTGAAAATTGGTGACAAAGTTGCAGTAATGGTAAACGGCTTAGGTGGAACGCCGTTAATGGAATTATATATTTTAAATAAAACGATTAACACAATATTAAACAAAATTGGTATCGATATCTGTAAAACATATGTTGGAGAATACATAACAGCGATTGATATGGCCGGTTTTTCTATTACTTTATTAAAACTAGATGAACAATTAACTGCTTTGCTTAATGATCCAGCAAATACGACTAACTGGCGTGTACAATAG	MKKFINNPEKVVKDMIDGMMFAHSDKLQNMAETNIIIRANSPFQGKVAIVSGGGSGHEPAHIGFVGKGMLDAAVMGEIFTSPTPDQILKAIQKVHTGSGVLLIVKNYSGDIMNFEMAAEMAEAQVIPIATVIVNDDIAINNSSHTMRRRGISGTIFVHKIAGAMAEKGASLKEVEDVANKVIANIRSMGMALTTCTIPGSGTVGYKIGENEVEVGIGIHGEPGTHRISMIAANEMAELLLEHILSDMQLKIGDKVAVMVNGLGGTPLMELYILNKTINTILNKIGIDICKTYVGEYITAIDMAGFSITLLKLDEQLTALLNDPANTTNWRVQ	PGPT0018460_907	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
AK009_08359	654	dhaL	COG2376	PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGTATATTACACCAAGACATATTATCAATTGGATGCAACTCACTGCAAAACAACTTGAGTATCAAAAAAAAAATCTAACGCAACTTGATCAATTCATAGGTGATGGAGATCATGGTATTAATATGAATAGAGGATTTAAAGAGGTTGAAAAAAAGATATCATATACAGCTTATGATGATATTGGAAATGTATTTCATGATATTGGAATGATACTTATTTCAAAGGTTGGAGGTGCATCAGGGCCTTTATATGGAACAGCCTTTTTGAGGGCTGGCAGTGTTTTGAAAGGGAAAAATAAAATTACAATCAATGAATTGGGGCTTGCTTTTCAAGAATCTGTAGATGGCATCTGTCTAAGGGGAAAAACTCAGATAGGAGATAAAACAATGCTTGATGTTTGGGATCCTGTTTTGAAGTATATCCAAAGAAATGGAGAAAAAATAAAACCTATTGGTCTTATCATTTTTGCAAGAGAACAAATGGAAAAAACTAAGCCATTATTAGCTAAAAAAGGACGTGCTTCTTTTCTAGGAGAAAGGTCTATTGGTCATTTAGATCCAGGAGCAGTCTCATCTTTTATTATCTTTGAAACTCTATGTTTATCTCTTATAGGTGAAAAAGAAATTGTTAATGAACTTAGGGAGCAATTATGA	MYITPRHIINWMQLTAKQLEYQKKNLTQLDQFIGDGDHGINMNRGFKEVEKKISYTAYDDIGNVFHDIGMILISKVGGASGPLYGTAFLRAGSVLKGKNKITINELGLAFQESVDGICLRGKTQIGDKTMLDVWDPVLKYIQRNGEKIKPIGLIIFAREQMEKTKPLLAKKGRASFLGERSIGHLDPGAVSSFIIFETLCLSLIGEKEIVNELREQL	PGPT0018455_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
AK009_08360	252	ptsH_3	COG1925	Phosphocarrier protein HPr	ATGAGAATCGAAAGAAAATTAATTGTAACTCGTAAGGATGGAATTCATGCAAAATCAGCAAGTGAAATCGTAGATGGCTTAAGGGATTATGATTGTTCGGTTCAGTTTATATCTAAAGATAAAAAAGTTAATGCAAAAAGTACTCTTCAATTAATCGATTTAGCAGTAAAAAGAGGAGCAGAAATACATGTAATTCTTGATGGGGAAGATGCTGATGATGCTCTTGTGTTTATACAATGGTTTTTGAAATAA	MRIERKLIVTRKDGIHAKSASEIVDGLRDYDCSVQFISKDKKVNAKSTLQLIDLAVKRGAEIHVILDGEDADDALVFIQWFLK	PGPT0016875_3660	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
AK009_08361	705	glpF_2	COG0580	Glycerol uptake facilitator protein	ATGTCTCCATTTATGGGGGAATTAATTGGAACCTTGGTTCTTATTTTATTAGGGAACGGCGTTGTAGCAGGTACTTTGCTGAAAAAATCCAAAGCACAAAATTCCGGATGGGTTGCAATTACTCTTGGCTGGGGATTAGCAGTTACATTCGCTATATATATAGTAGATAACATAAGTGGTGCACATTTGAATCCTGCAGTTACAATTGCTTTTGCTTGTATAGGTGTATTTCCTTGGAGTGAAGTTCCTTCCTATATTGGTGCACAGTTGATTGGGGCTTTTTTAGGTTCAATATTTGTCTGGCTCCAGTATTTTCCGCATTGGAAAGAAACTAAAAATCAAGAAATTATATTGTCGGTGTTTTCTACAAGCCCTGCAATAAAAAGTTGGCCGTCTAATTTGTTAAGTGAAATTATTGGCACTGCGGTATTTGTATTTTCAATTTTAGCTATGGGTCATAATAAAGTTACAGATGGACTACTTCCAATAATAATAGGCGCGTTAATAGTATCTATAGGTTTATCTCTTGGTGGCACAACTGGATTTGCTTTAAATCCAGCTCGAGATTTTGCCCCAAGACTAGCACATCAAGTCTTACCAATATGTAATAAAGGCTCTTCGGATTGGGGATACGCGTGGGTTCCCTTAATTGGTAGTACCATAGGAGGAATCATAGGAGCTATAGGTTTTCAATTGATTTATTAA	MSPFMGELIGTLVLILLGNGVVAGTLLKKSKAQNSGWVAITLGWGLAVTFAIYIVDNISGAHLNPAVTIAFACIGVFPWSEVPSYIGAQLIGAFLGSIFVWLQYFPHWKETKNQEIILSVFSTSPAIKSWPSNLLSEIIGTAVFVFSILAMGHNKVTDGLLPIIIGALIVSIGLSLGGTTGFALNPARDFAPRLAHQVLPICNKGSSDWGYAWVPLIGSTIGGIIGAIGFQLIY	PGPT0004760_2606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
AK009_08362	987	manX		PTS system mannose-specific EIIAB component	ATGGTAGGGATTATCCTAGCAAGCCATGGCCAATTTGCTGAAGGCATTTTACAATCTGGCGCAATGATTTTTGGAGAGCAAGAAAACGTTAAGGCTGTTACCTTAATGCCAAGTGAAGGGCCAGACGATTTGAGAGCAAAAATGGAAGCAGCAGTTGCATCTTTTGATAATCAAGATGAGGTATTATTTTTAGTCGATCTATGGGGCGGTACTCCATTCAATCAAGCCAATGGCTTGTATGAAGAACACAAAGACAATTGGGCAATCGTTGCTGGTTTGAACTTACCAATGGTGATTGAAGCTTATGCATCCCGTTTATCAATTGCGTCTGCCCAAGAAATCGCAACACATATCGTTAAAACAGCGAAGGAAGGGATCAGAATTAAACCTGAAGAGCTGGAACCCAAAGAAAATACTGATACCGCAGTTGCTAAAGATGGAAAAGCAAAAGGCAGACTAGCTCCCGGTACAGTAGTTGGTGATGGGAAGATCAAGTTCGTTTTAGTCCGGGTGGATTCTCGTTTATTGCATGGTCAGGTAGCGACTGCATGGACAAAGTCTACACAACCAAATCGTATTATCGTAGTTTCAGATGCAGTGTCTAAAGACGATCTTCGTAAAAAATTAATCGAACAGGCGGCACCACCAGGGGTTAAGGCCAATGTTATTCCAATCAGCAAAATGATTGAAGTTGAAAAAGATCCCCGTTTTGGTAATACTAATGCACTGGTATTATTTGAAAACCCACTAGATGTCCTGAGAGTTATAGAGGGTGGTGTGGATATTAAAGAAGTTAACGTTGGTTCTATGGCTCATTCAACTGGAAAGGTTGTTGTTAATAAGGTTCTTTCTATGGGAAGAGAAGATGTTGAGGCTTTCGAGAAAATGAAAGCAAAAGGCATTCATTTTGATGTACGTAAAGTACCTAATGATTCTCGTGCAAACATGGATGATATTCTAAAAAAAGCGAAGGTTGAATTATCGTAG	MVGIILASHGQFAEGILQSGAMIFGEQENVKAVTLMPSEGPDDLRAKMEAAVASFDNQDEVLFLVDLWGGTPFNQANGLYEEHKDNWAIVAGLNLPMVIEAYASRLSIASAQEIATHIVKTAKEGIRIKPEELEPKENTDTAVAKDGKAKGRLAPGTVVGDGKIKFVLVRVDSRLLHGQVATAWTKSTQPNRIIVVSDAVSKDDLRKKLIEQAAPPGVKANVIPISKMIEVEKDPRFGNTNALVLFENPLDVLRVIEGGVDIKEVNVGSMAHSTGKVVVNKVLSMGREDVEAFEKMKAKGIHFDVRKVPNDSRANMDDILKKAKVELS	PGPT0017000_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0017000-manX-K02794	NA	NA
AK009_08363	801	sorA	COG3715	PTS system sorbose-specific EIIC component	ATGTCTACTATAGAAATAATTTTAGTGATACTAATTGCATTTCTAGCCGGTATGGAAGGAATATTAGATGAATTTCAATTCCATCAACCACTAGTGGCATGTACACTAATCGGTTTAGTAACAGGTAACCTGGAGGCTGGTATTGTTCTTGGCGGTACACTTCAAATGATTGCACTTGGATGGGCAAATATTGGAGCAGCCGTAGCGCCAGATGCTGCATTGGCATCAGTTGCATCAGCAATCATTTTAGTATTAGGCGGACAAGGTGTTAGCGGTGTTGCATCAGCAATTGCAGTAGCGGTACCACTTGCAGTAGCAGGGCTTTTCTTAACAATGATTGTTCGTACACTTGCTGTTCCTATTGTACACATGATGGATACGGCAGCTGAAGAAGGAAATATAAAAAAAATTGAAGTGTTACACATCGCTGCGGTGTGTTTACAAGGTATCCGAATTGCGATTCCTGCCGGAGCACTTTTATTTATCCCTGCACAAAGCGTTCAAGGATTCTTGGAATCAATGCCTGCTTGGTTAACTGATGGAATGGCTATTGGTGGGGGAATGGTTGTTGCTGTTGGTTATGCATTAGTTATTAATATGATGGCAACAAAAGAGGTATGGCCATTCTTCATTATTGGTTTCGTAATAGCTGCGATTTCTCAATTAACACTTATTGCTCTTGGTGCATTGGGTGTGGCTTTAGCTCTTATTTATTTGAGTCTTTCTAAAATGGGTGGTTCTTCAAATGGTGGTGGAGGTAACTCTGGTGACCCGCTTGACGATATCTTAAACGATTATTAA	MSTIEIILVILIAFLAGMEGILDEFQFHQPLVACTLIGLVTGNLEAGIVLGGTLQMIALGWANIGAAVAPDAALASVASAIILVLGGQGVSGVASAIAVAVPLAVAGLFLTMIVRTLAVPIVHMMDTAAEEGNIKKIEVLHIAAVCLQGIRIAIPAGALLFIPAQSVQGFLESMPAWLTDGMAIGGGMVVAVGYALVINMMATKEVWPFFIIGFVIAAISQLTLIALGALGVALALIYLSLSKMGGSSNGGGGNSGDPLDDILNDY	PGPT0016985_707	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016985-manY-K02795	NA	NA
AK009_08364	912	manZ	COG3716	PTS system mannose-specific EIID component	ATGGCAGAAAAAATTCAATTAACAAAAAGAGATCGTTTAGCCGTTGCATGGCGATCTACATTTATTCAGGGTTCTTGGAACTATGAACGTATGCAAAATGGTGGTTGGGCCTTCTCGATGATTCCAGCGATTAAAAAGTTATATAAATCAAAAGAAGATCGAAAAGCAGCATTAAAACGTCACTTGGAATTCTTCAATACACATCCTTATATTGCTTCACCAATTCTAGGAGTTACATTAGCACTTGAAGAAGAACGCGCTAATGGTGCAGAAGTTGATGATGTGGCAATTCAGGGGGTTAAAGTTGGGATGATGGGTCCTTTAGCCGGTGTTGGTGATCCGGTATTCTGGTTTACTTTACGTCCGATGTTAGGTGCTTTAGGAGCCTCATTAGCAATGGGGGGGAATATCCTTGGGCCAATCCTTTTCTTCTTAGCTTGGAATCTGGTTCGTTGGGGATTTATGTGGTATACACAGGAATTTGGTTATAAAGCCGGTTCTAAAATCACTGATGATCTTTCAGGTGGATTATTACAAGATATTACAAAAGGTGCATCAATCCTTGGTATGTTTGTACTGGCAGCCTTGGTGGAACGGTGGGTATCAATTAAATTCAAGCCAGTTGTATCTGAAGTTCAGTTAGATAAAGGTGCGTATGTTGAGTGGGACAAACTTCCTGGAAATGGTGAAGGGATTCGTCAATCTTTTGAACAAGTAAACTCAGGAATGGCACTGTCACCTACGAAAGTGACTACCTTGCAAGATAACTTAGATCAATTAATTCCTGGTTTAGCTGCATTGCTTCTAACATTCTTCTGCATGTGGTTGCTGAAGAAAAAAGTCAGCCCAATTGTTATTATTCTTTCATTATTCGTAGTTGGGGTAGTTGGTCACGTAATCGGACTTTTATAA	MAEKIQLTKRDRLAVAWRSTFIQGSWNYERMQNGGWAFSMIPAIKKLYKSKEDRKAALKRHLEFFNTHPYIASPILGVTLALEEERANGAEVDDVAIQGVKVGMMGPLAGVGDPVFWFTLRPMLGALGASLAMGGNILGPILFFLAWNLVRWGFMWYTQEFGYKAGSKITDDLSGGLLQDITKGASILGMFVLAALVERWVSIKFKPVVSEVQLDKGAYVEWDKLPGNGEGIRQSFEQVNSGMALSPTKVTTLQDNLDQLIPGLAALLLTFFCMWLLKKKVSPIVIILSLFVVGVVGHVIGLL	PGPT0016990_292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016990-manZ-K02796	NA	NA
AK009_08365	378			hypothetical protein	ATGATGGTTCAATCAATTAATACAAAGGTAGATTTAGTAATAGATGCTACCGCTTTTACAGGACTTACGGACTATGGGAAAATTATGATTGGTGATAAAGGGTTTGAATTTTATAATTCTCGTGATACGCGTAAATTTATTCAAATTCCGTGGGAGGAAGTAGATTACGTTATAGCCTCTGTAATGTTTAAGGGGAGATGGATTCCACGTTATGCTATTGAAACCAAGAGAAATGGAATCTTTACCTTTTCTTCTAAGGAACCTAAGAAAGTTCTTCGGGCTATACGAGAATATGTAGATCCAGGTCATATGGCACAATCTCTAAGTTTCTATGATGTTATTAAACGTGGTCTTAAATCGCTAGGTAAAAAGAAATAA	MMVQSINTKVDLVIDATAFTGLTDYGKIMIGDKGFEFYNSRDTRKFIQIPWEEVDYVIASVMFKGRWIPRYAIETKRNGIFTFSSKEPKKVLRAIREYVDPGHMAQSLSFYDVIKRGLKSLGKKK				NA	NA	NA	NA	NA
AK009_08366	1614			hypothetical protein	ATGAATATTAAATTTAATAAAAAAGTAGTAGCATTTACGGCAGGATTAACGGTATTATCTTCACCATTGGTATCGTTTGCAGAGGAACAACAATCAGTAAACAATAAGCAATCTACAAGCCTTCAAGTGCAAGATAACACAGACCAACTTCAAACAACAGATGAACAGGCTTTAAAAAGTATTGAAGCTAGTTTTGAAGAGGTAGACGGACGTGGTGGAGGTACTGTCGACAATAAAAAAGCAGATAGTCTTCAACGTTCAGAAGGTATTCATGAAGAAACAGGTACATTAACTGTTCCTAACAATTCAAACAGAACAAAACGTAGTCTGTCTCCCATATCACCTAACGCCTCTAGTACAATAAACGGTGTTCCATTCACGGAATGGATTGTTCCAGCAGGTAACGATAATATTCGTCCTCAAAACTACATGAGTCCAAAGTACATTACAATTCATGAGACTGATAATACAAGTGTAGGAGCAGGTGCTAGAAACCACGCTCAATACCTATATAACCAAGCAGTAGGTAACACAGACCGAGCGGCATCGTGGCATTTTACAGTAGACGATAAAGAGATTTATCAACATCTACCATTAAACGAGAACGGATGGCACGCAGGAGACGGTGATGGTCCAGGGAATAGAGAATCTATTGCAATTGAAATCGCAGTTAACAGTGACGGTAACTATAGTAAAGCAGTAGATAACGCTAAGAAACTTGTAGCTTATTTAATGAAAGAAACTGGTGTACCGTTAAATAACATTGTAAAACACCAAAAATGGAGCGGTAAAATCTGCCCTGCTAACATGATTAATAATGGGCAATGGGATGTATTCGTAAATAGCGTTGAGGGGTATTATAATAATCTTTATCAACCAAAAGATGACATTACTGGAGGTTGGTATGAAGAAGCTATACGAGAGTTAAATAGAAGGGGTATTATGATAGGGGAAGGAAACGGAGTTTTCGCACCCAATAGAGCGATAACAAGAGCCGAATTTGCTCAATTAATCTCTAACTCTCTAAAACTGCCAGCTGGAGATGCTTCATTTAAAGACCTAAGCGATGCAAATTCAACTTTACGAGATGGTATTAAACGTACTGCAAGTGCAGGTATCATTCAAGGTAGAGGAGATGGTTATTTTGACCCAAACACACCTATTACAAGAGAAGAATCAGCCATTATTGTAAACAAGGCTTTACAGTATAAAGGTATATGGGGACCGGTTGTAAACCTACCATTCTCAGACAAAGACCAAATTAGCTATAAAGAAGACGTACAAAGATTGTATGGCCTAGGTATTGTAAGAGGTAAGGGTGACAATCAATACGACCCTAAAGGAACAACAACTCGTGGTGAAACAGCAACATTCATTCTAAATATGCTACAAGTAATTGAAAATGGTAGTGTTGAAAAGGTAATTGGAACGGCTCAAATTAATGGTATTGGGGTAAATGTTCGAAGCGGATCAGGTACAAACTATTCTATTGTTAGAAAGACAAGTAAAGGTGAAAAAGTTACAGTATATGAAGAAAAGAATGGCTGGCTAAGAATTGGAACAGGTCAGTGGATTTATTATGACTCTAGTTATATCGACTATAATAGATTATAA	MNIKFNKKVVAFTAGLTVLSSPLVSFAEEQQSVNNKQSTSLQVQDNTDQLQTTDEQALKSIEASFEEVDGRGGGTVDNKKADSLQRSEGIHEETGTLTVPNNSNRTKRSLSPISPNASSTINGVPFTEWIVPAGNDNIRPQNYMSPKYITIHETDNTSVGAGARNHAQYLYNQAVGNTDRAASWHFTVDDKEIYQHLPLNENGWHAGDGDGPGNRESIAIEIAVNSDGNYSKAVDNAKKLVAYLMKETGVPLNNIVKHQKWSGKICPANMINNGQWDVFVNSVEGYYNNLYQPKDDITGGWYEEAIRELNRRGIMIGEGNGVFAPNRAITRAEFAQLISNSLKLPAGDASFKDLSDANSTLRDGIKRTASAGIIQGRGDGYFDPNTPITREESAIIVNKALQYKGIWGPVVNLPFSDKDQISYKEDVQRLYGLGIVRGKGDNQYDPKGTTTRGETATFILNMLQVIENGSVEKVIGTAQINGIGVNVRSGSGTNYSIVRKTSKGEKVTVYEEKNGWLRIGTGQWIYYDSSYIDYNRL	PGPT0019115_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_08367	303			hypothetical protein	ATGATTTTAGAAGCAGTCATGTTGCAAGTAAAAGACGGTATGGAGACGGAGTATGAATCAGTATTTAAGCAAGCATCCTCAATCATCTCTTCCATGCCAGGATATATAAATCATGAATTACAACGCTGTATGGAGCAGAAAGGAAAATATTTGCTCCTTGTGCAATGGGAAACTTTAGAAGACCACACAATAGGATTTCGTCAATCTAAACAATATCAAGAGTGGAAAGCATTATTGCATCACTTTTATGATCCATTTCCAACAGTTGAACACTTTAAGTCTGTAGAGTTATCACGAAACTGA	MILEAVMLQVKDGMETEYESVFKQASSIISSMPGYINHELQRCMEQKGKYLLLVQWETLEDHTIGFRQSKQYQEWKALLHHFYDPFPTVEHFKSVELSRN				NA	NA	NA	NA	NA
AK009_08368	417	fosB2	COG0346	Metallothiol transferase FosB 2	ATGATACAAAGTATTAACCACATTTGTTTTTCAGTTATAAATCTAGAGAAGGCTATTGAGTTTTATCAAAATATACTTCAAGCGAAATTATTAGTAAAAGGTAGAAAGTTAGCTTATTTTGATTTAAATGGTTTATGGATTGCTCTAAATGTGGAAGAAAGTATACCAAGAAATGAAATTCAGTACTCTTACACACATATAGCTTTCACTGTAACAAATAATGAGTTTGATTCTTTAAAAGAAATATTAATTCAAAATCATGTTAATATCTTACCTGGACGAGAAAGAGATGACCGAGATAAACGGTCTATTTATTTTACAGATCCCGATGGGCACAAGTTTGAGTTTCATACTGGTACTTTACAAGATCGTTTACAATATTATAAAGAAGATAAAAAGCATATGACTTTTTACTGA	MIQSINHICFSVINLEKAIEFYQNILQAKLLVKGRKLAYFDLNGLWIALNVEESIPRNEIQYSYTHIAFTVTNNEFDSLKEILIQNHVNILPGRERDDRDKRSIYFTDPDGHKFEFHTGTLQDRLQYYKEDKKHMTFY	PGPT0028560_132	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
AK009_08369	108			hypothetical protein	ATGAATTTTTCACTTAAGGATGAACTACAACCATTTGTGGAAGAATTTCAGGGATATGTTACACCAGTATTTTTTGAAGAACTGGCAAGATGTATGATTTTATTGTAG	MNFSLKDELQPFVEEFQGYVTPVFFEELARCMILL	PGPT0030625_3449	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
AK009_08370	417			hypothetical protein	GTGGCTTGGGTGCTCCCTCACCGCGGCCTGTGGGTGCCTCTGGTTAGTTTTTCGACGCTCGGACTCTGCCGTGGCGGAGTTGGTGGAGTTCGCAGTGCGGACTCGGTGATCGGGGTCGAAAAATTCGCTGCCGGCGGGCCAGCCCAAAGGCGGTTCGACACTGCCGTAGCGGAGTTGGTGGAGTCCGCCGGGCTGGCTTTACCGCGCGAGCTCGATGGACCCGTTCCCAACTCTGCCGTGGCAGAGTGGGTGAAGACCGCCAGTGGACTCAGCAAGGAGGGCCTCTCTGGATTTACTGGGCCGGCTAGCTTAGCGGCGGTTCGACTCTGCCGTGGCGGAGTCGGCGATCTGGCTAACTCCAACCGGCTGGACTCTGCCGTGGCGGAGTCCGCAATGCGGACCAGAGCTTCATCCTGA	MAWVLPHRGLWVPLVSFSTLGLCRGGVGGVRSADSVIGVEKFAAGGPAQRRFDTAVAELVESAGLALPRELDGPVPNSAVAEWVKTASGLSKEGLSGFTGPASLAAVRLCRGGVGDLANSNRLDSAVAESAMRTRASS				NA	NA	NA	NA	NA
AK009_08371	849			hypothetical protein	ATGGCAGACAATGTAGGTTCGCACTCTCGTGACGACCGCGGTCGCTCGGGCAGCGGTCGAGGCCGCGATTCGCAGCGAGGCCAGCGCGGCCAGGGCGGCCACCGCGGCCGCGACGATCGTCGCGAGCGCAGGGATAGCTTCAACCCGCAGCGCCAAGGTTTCCGCGAAGACCGGATGAACCAGAAGCTCTCTGAGCCCGATCTTCCCGACGATATCGACGTCCGCGACCTCGACCGCTCCGTTCTGCAGGACCTGCGCGTGCTGTCCAAAGACAACGCCGATCGCGTGGCCAAGCACATGATCATGGCTACGACGTTGCTTGCCGACGACCCACACGCGGCGCTTCGTCACGCGCGCGCCGCGAAGAACCGCGCTGGTCGCGTGGGTGTCGTGCGTGAGACCAACGGCATCGTCGCGTACCACGCCGGCGAGTGGAAGGAGGCGCTGGCGGAGCTGCGTGCCGCGCGCCGTATTTCGGGTGGCCCCGGCCTGCTCGCGGTGATGGCTGACGCCGAGCGCGGTCTCGGCCGGCCGGAGAAGGCGCTCGAGATCGGGCGTGGCCCAGAGGCGAGTGAGCTAGACCCCGCCGGCAAGATCGAGCTAGGGATCGTTCTGGCTGGCGCCCGCCACGACTTGGGCCAGCATGAGGCTGCTTTGGCCACTTTGCAGCGCCTGAACCCCTCGCTTGACTCCCGCGACCCCGAGTCCGCGCGCCTCGCCTACGCGTATGCTGACGCGCTGCTCGCGCTTGGTCGCGACGCCGAGGCCAAGAAGTGGTTCGAGCACGTCGCAGAGATTGACCAGGACGAAATGACGGATGCCGCGGCCCGTGTCGAGGAGCTTAGCTAG	MADNVGSHSRDDRGRSGSGRGRDSQRGQRGQGGHRGRDDRRERRDSFNPQRQGFREDRMNQKLSEPDLPDDIDVRDLDRSVLQDLRVLSKDNADRVAKHMIMATTLLADDPHAALRHARAAKNRAGRVGVVRETNGIVAYHAGEWKEALAELRAARRISGGPGLLAVMADAERGLGRPEKALEIGRGPEASELDPAGKIELGIVLAGARHDLGQHEAALATLQRLNPSLDSRDPESARLAYAYADALLALGRDAEAKKWFEHVAEIDQDEMTDAAARVEELS	PGPT0024450_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
AK009_08372	993		COG0647	D,L-glycerol 3-phosphate phosphatase	GTGAGCTCTATGACTTTGAGCTCGCTTTTCGACGCCCTCCTGCTCGACCTCGATGGCACCGTGTGGGCCGGTGAGCTGGCGTTGCCTGGCTCCGTTGAGTCAATCGTCGCATCGCAACTGCCCGCGCTGTATATCACCAACAACGCCTCGCGCGGCCCGGCCGACGTCGCAGCGAAGTTGCGTGCGGCGGGGCTGGATGCGAGCCCGGAGGACGTCGTCACGTCCGCCCAGGCCGCGGTGTCGCTGGTGAGTCAAAATCTCAACGCCGGCGACCCTATCCTCGTGGTGGGCGCGCCATCGTTCAAGGACTTGGTACGTGAGGCGGGTTTCCGTGTCGTCGAGTCCGCCGATGAGAAGCCCGTGGCGGTATTGCAGGGCCACAACCCGGAAACCGGGTGGGCGCAGCTGTCGGAGGCGGCGCTCGCCATCGCCAACGGTGCGCGGTACGTGGTGTCGAATCTCGATACGACGCTGCCGTCGGAGCGCGGTTTGCTCGTCGGCAACGGCTCGATGGTCGCGGCGGTCACCTCCGCCACGGGCGTTGTCCCCACCTCGGCCGGTAAGCCTGAACCGGCCATGTTCCTGCAAGCAGCGCAGCGTGCCGGGGCGAAGCGGCCCTTGGCGGTCGGCGACAGGCTGGATACGGACATCGCTGGGGCGGTCGCTGCCGGTATTCCCGCGCTGCACGTCCTCACCGGCGTCTCCGGGCCGTTGGCGCTGCTTGAGGCGCCGAGGGAGTTTCGCCCCACCTTTATCGCGGATGGCATGGCGGCCCTAGGGCACGAGCCGGAGAGCTTGCGTCCGCGCGCGCAAGGCGGATTCTCGGCGCGCGTCGACGGCCACGACATCATCCTCAGCCGCGGAAACCCGGGCGCGACCAGCACCGAGGCGCTGCGCACGGTTCTTGAAGTCGCGTGGCTCATGGAGGAGCCGCCGGCCCTCGTGCGCCCCAACTCGGACGCCGCCGAGGAGGCGACCGCGCAATGGTGGTAA	MSSMTLSSLFDALLLDLDGTVWAGELALPGSVESIVASQLPALYITNNASRGPADVAAKLRAAGLDASPEDVVTSAQAAVSLVSQNLNAGDPILVVGAPSFKDLVREAGFRVVESADEKPVAVLQGHNPETGWAQLSEAALAIANGARYVVSNLDTTLPSERGLLVGNGSMVAAVTSATGVVPTSAGKPEPAMFLQAAQRAGAKRPLAVGDRLDTDIAGAVAAGIPALHVLTGVSGPLALLEAPREFRPTFIADGMAALGHEPESLRPRAQGGFSARVDGHDIILSRGNPGATSTEALRTVLEVAWLMEEPPALVRPNSDAAEEATAQWW	PGPT0024450_577	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
AK009_08373	177			hypothetical protein	ATGGTGGTAAACCAAGGTCCGATCCCGCGCGACCCACGCGGTGTGCACACAAGCCCCGAGGAGGTCTCCCAGCGCATCGCGGAGATTCTCGACGAGCCCGCGGACACACTGGCTGAGGAAGCCGACCAGCTGCACAGGGCTCATGCTGTGCTCAACCACGCGCTCAACGCCGAATAG	MVVNQGPIPRDPRGVHTSPEEVSQRIAEILDEPADTLAEEADQLHRAHAVLNHALNAE				NA	NA	NA	NA	NA
AK009_08374	822	tlyA_2	COG1189	16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA	ATGGCTCCAGGACGCAGACGACTCGACGCCGAGATCGTTCGGCGCAAACTTGCGCGCTCGCGTGAGCAGGCCCAGGACTGGATCAAGCAGGGCCGCGTCGAGGTTGGGGGGTTCGTTGCCACGAAGCCGGCCACGGTGGTGGAGCCGGAGGCGTCCATCAAGATCAACGTCGAGGACGCCGACGAGTGGGCCTCGCGCGGGGCGCACAAGCTGCTGGGGGCGCTGGATGTGTTTGAGGCGCGTGGGTTGAGCGTCGAGAAGCGGCGTGCGCTTGACGCTGGCGCATCGACAGGCGGGTTCACCGACGTGCTGCTGGCGAAGGGTGCGCGCGAGGTCGTGGCGGTGGATGTGGGCTACGGGCAGCTCGTGTGGCGGTTGCAAAACGATCCTCGGGTGCGCGTGCTCGACCGGACAAACATCCGGCATCTGACTCCCGAGATGATGGGTGGGCAGGCCGACCTGATGGTGGGCGATCTGAGCTTCATTTCGCTGACGCTTGTGCTGCCCGCCATCGCGGAGTGCATGGCGCCCGGGGCGGACTTGTTGCCCATGGTCAAGCCGCAGTTCGAGGTGGGCAAAGAGCGCCTCGGCAGCGGCGGAGTGGTGCGCTCGCCGCAGCTACGCGCCGAGGTGACCGCGCACGTGGCGCGGTTTGCCCAGTCGCTGGGGCTGAGCGTGCGCGACGTGGTTGCCTCGCCGCTGCCCGGTCCGAGCGGCAACGTAGAATATTTCCTATGGCTCGTCAAGGATGCGCACGCATCCATGCTTGACGACGCCTCACTGAACGCACTGGTGGCACGCGCCGTCGAGGAAGGACCTTAA	MAPGRRRLDAEIVRRKLARSREQAQDWIKQGRVEVGGFVATKPATVVEPEASIKINVEDADEWASRGAHKLLGALDVFEARGLSVEKRRALDAGASTGGFTDVLLAKGAREVVAVDVGYGQLVWRLQNDPRVRVLDRTNIRHLTPEMMGGQADLMVGDLSFISLTLVLPAIAECMAPGADLLPMVKPQFEVGKERLGSGGVVRSPQLRAEVTAHVARFAQSLGLSVRDVVASPLPGPSGNVEYFLWLVKDAHASMLDDASLNALVARAVEEGP				NA	NA	NA	NA	NA
AK009_08375	861			hypothetical protein	ATGCTCGTCGAGCCGTACCCAGCGCACAGGGCGGCGCCCTCGGACAGCCTCGACGCGCGACCCGGGTGGCATCTCGATGGTGCGGAACCCGTCGAGCACGACGTTCGCCTCGCCAGTGCTCGACTCCGACTCGACCGCCACCATGGAACGCGGGGAGACAACCAGCGGCTTGGTAAACAGGGCGTGCGCGTTGTTGGGCACGACGAGCAGCGCCTCGACCTCGGGCCAGAGCACGGGACCGCCGGCGGCGAACGCGTAGGCGGTCGAGCCCGTCGGGGTGGAGATGAGCACGCCGTCGCAGCCAAAGGAGGACACTGGGCGGTAGTCCACCTCCAAGATGGCGTCCATCACCCGGGTGCGGTTGACGTTCTCGATGCTGGCCTCGTTGAGCGCCCAGCCCTTGCCAATCTCGTTGTTTTCCGTATCGGTGACGACGACGTCGATGGTCATACGGTCCTCGATGCGATACGTCCGGTCGATCACGCGACCGATCGCCTCGTCAAGGCTCTCCTGCTCCCATTCCGCGAGGAACCCGACGTGGCCCAGGTTGATTCCCAGCACGGGAACGTCCTGCTCGTGGGCGTAGTTTGCGGCGCGCAGGAAGGTGCCGTCGCCGCCGAGTACCAGCACCAGCTCGCAACCGGCGGCGGCTTCGGGGCCGTCCTCGGCGCGGTCAAGCTTCTGCAAGGCCGGCTCCTCGTCAACGGGGCCCATTCGGCCCTGGTCGAGCAAACGCACCTCGATGCCGGCCTGGGACAGAAGCTCGGCGGCACGAGCGGCGGCGTAGATGTTGCCCGCGCGGTAAGTGTGCGGGACAAGCAGGATCGTGCGCTCGATGATACCGGTCATAGTCTTACTTAA	MLVEPYPAHRAAPSDSLDARPGWHLDGAEPVEHDVRLASARLRLDRHHGTRGDNQRLGKQGVRVVGHDEQRLDLGPEHGTAGGERVGGRARRGGDEHAVAAKGGHWAVVHLQDGVHHPGAVDVLDAGLVERPALANLVVFRIGDDDVDGHTVLDAIRPVDHATDRLVKALLLPFREEPDVAQVDSQHGNVLLVGVVCGAQEGAVAAEYQHQLATGGGFGAVLGAVKLLQGRLLVNGAHSALVEQTHLDAGLGQKLGGTSGGVDVARAVSVRDKQDRALDDTGHSLT				NA	NA	NA	NA	NA
AK009_08376	1731	recN_2	COG0497	DNA repair protein RecN	ATGCTCGCAGAAATCACGATCACCAACCTGGGGGTCATCCCGCGAGCCACCGCGGAGCTTTCCGCCGGATTGACCGTGCTCACAGGCGAGACCGGCGCGGGCAAAACAATGGTGGTCAGCGGGTTGCGCCTGCTCACCGGCCGGCGCGCCGAGGCGTCGCTGGTGCGCACGGGCACTGACCAGGCCGTCATCGAGGGTGCGTTTAGCGTCGGCGGGCTCGATGCCGCGCAGGCGGGTGCCGCTGCCGCCGTGGCGGAGGGAGCTGGCGCCGAGGCCGACGAGAACGGCGAATATATCGTCTCGCGCTCGGTGAAGGCGACGGGAAGGTCGAAAGCGCACATCAGCGGGCGCACGGTCCCGGCCTCCACCCTCGGTGAGTTCACGGGGCACCTTCTGACCATCCACGGCCAAAACGACCAACTTCGACTCATGTCGCCGGACCAGCAGCTCGCAGCCCTCGACCGCTTCGACCCCGCGATCGGCGCCAAGCTCGACGCCTACCGCGCGGCGTGGTCGGCCTGGCGCGAGGCGGACAAGGATTTAAGGGACCGCACGGAGAAGCGCCGCGAGCTCGCCCAGGAGGTCGACCAGCTCACGTTCGCGCTCGCGGAGATCGACGAGGTCGCCCCCACAGAGGGCGAAGACACCGACCTGGTCACGGCGATCAACCGGCTCCAGGATGTCGACGCGCTGCGCGACGCCGCCCGGGCCGCGCTGGCCGCGATCGACGGCGCCGAGGCCGCCGGGGGTTATTCCTCAGGCGACGACGCGGCCGCTTCCACGCTGGTGGGCGTGGCGGCCGACGCGTTGGCGTCGTCAAGCGATGCCTCGCTCAAAGAACTCGGCTCCCGCCTCGGCGAGGTGGCCGCGGTGCTTTCCGACGTCTCCGCCGAGCTCGGCAGCTTCGTCGCGGACTTGCCTGACGACGTCGACGAGCTCGAGCGGATGCTGCAGCGCCAGCAGGAGCTCAAGACGCTCACCCGCAAGTACGCGCCCGACATCGCCGGGGTGATTGCGTGGCGCAAGAAGGCCGCCAAGCGACTGAGCAAAATCGCCACCTCGGCCGAGGCCGTCGAGGAGCTGCGATCCAAAGTCTCCGCCCTGGAGCAGGACATGGCAGCCCGCGCGGCGACGCTGACGAAGGCGCGGGTGGCGGCGGCGAAGGAACTGGGGGAGAAGGTCACCGCCGAGCTGCAGGGACTGGCGATGCCCAAGGCGCGCCTGATCGTCGCGGTGAGCGGGAGCGACTTTAGCCGCGACGGCGCTGATGCGGTGGAGCTGAAGCTGGCGCCGAACTCCGCGCTTGAGCCCCAGCCGCTGGCAACCAGCGCCTCCGGTGGTGAGCTCTCGCGCGTGATGCTTGCCCTCGAGGTGATCCTAAGCGGCTCGACGAGCGGCGCGACGCTGGTGTTTGACGAGGTCGACGCGGGCGTGGGCGGGCGCGCAGCGGTGCAGATTGGGCGCCGCCTGGCGCGGTTGGCGACCAACAATCAGGTCATCGTGGTCACGCACTTACCGCAGGTCGCGGCGTACGCGGACACCCACCTGCACGTGGCGAAGAACGTCGGCGACGACTCGGTGACCTCCGGAGTTGCTGAGCTGAGCGGCGACGACCGCGTCGAGGAGCTGGCGCGCATGCTCGCCGGCATGGACGACTCCGCGACCGGCAGGGCGCACGCCGCGGAGCTTCTGCAGCGCGCCGCCGAGGATGTGGCAAAGATGCGGGGCTAA	MLAEITITNLGVIPRATAELSAGLTVLTGETGAGKTMVVSGLRLLTGRRAEASLVRTGTDQAVIEGAFSVGGLDAAQAGAAAAVAEGAGAEADENGEYIVSRSVKATGRSKAHISGRTVPASTLGEFTGHLLTIHGQNDQLRLMSPDQQLAALDRFDPAIGAKLDAYRAAWSAWREADKDLRDRTEKRRELAQEVDQLTFALAEIDEVAPTEGEDTDLVTAINRLQDVDALRDAARAALAAIDGAEAAGGYSSGDDAAASTLVGVAADALASSSDASLKELGSRLGEVAAVLSDVSAELGSFVADLPDDVDELERMLQRQQELKTLTRKYAPDIAGVIAWRKKAAKRLSKIATSAEAVEELRSKVSALEQDMAARAATLTKARVAAAKELGEKVTAELQGLAMPKARLIVAVSGSDFSRDGADAVELKLAPNSALEPQPLATSASGGELSRVMLALEVILSGSTSGATLVFDEVDAGVGGRAAVQIGRRLARLATNNQVIVVTHLPQVAAYADTHLHVAKNVGDDSVTSGVAELSGDDRVEELARMLAGMDDSATGRAHAAELLQRAAEDVAKMRG				NA	NA	NA	NA	NA
AK009_08377	1215			hypothetical protein	ATGTCGCGCATGACTGTCAATGCTTCCAATTCGGGCGCCACGGATCTCACCGGGCTGACCGGGCGCATCCGCGATTGCATGCCGCAGGGCAAGGGCCTGGGAAAGCTCGCCGCCGGCGACATCGCCGTCGTTGACTCGCCCGAAATGACGCGTCGCGAGGCCGAGCTGCTTGCCGACGCCAAACCCGCCGCCGTGGTCAACCTCGCGAGCTTCTCCACCGGCTCGATTCCCAACTACGGCCCCCACGTGTTGCTTGACGCCGGAGTTCCGCTCGTCGAGGGCGCCGGCGCGGAGGCGCGTTCGGTGCTGCGCAGCGGCAAGAAGGCCACGATTTGGGCCGACGGCGCGATCTACGTGGGCAAGAAGCTCGCCGGCAACGGCGTGTTTGTCGATCGCGGCAGCGTGGATGCGAACTTCGCCGCCGCGCAGCGCAGCCTCGTGGACAACATGGAGGCCTACTTCGGCAACACCATCCAGTTCATCCACTCGGAATCGCCGCTGCTTATCGACGGCGTCGGGGTGCCCGAGCTGGGAGAAGCGATGGCGGGGCGCAAGGTGCTCGTCGTTTCCCCGCTGACCGATGCCGGTGCTGAGCAGCGGACCCGGGTTGAGAACCTGCGCAACTTTATCCGCGAATACTCCCCGGTGATCATCGGTGTCGGCCCCGCAGCCGACACGCTGGTGGACATGGGCTACAACCCCGACTTCATCGTCGGCGACCCAGTGGACATCTCCGCGGAGAGCCTGCGCGGCCATGCGCGCGTGATCCTGCCCGCTGACCCCGATGGGCACGCGGTGGGCCTCGAGCGCATCCAGGACCTGGGCGTCGGAGCGATGACGTTCCCGGCGGCTACGAACTCGCCGACCGATCTGGCGATCCTGCTGGCCACCTTCCACAATGCCGAGATGATTGTCACCGTCGGCGACCCGGTCGACCTTGACCGTATCTTTGCCAACCCTGCGGACGCCTCCCCGGCGGCCCTGCTCACGCGGCTGAAAGCCGGGGGGCGCCTGGTCGATTCGACCGCCATCGAAAACCTCTACCGCACGACCTCCGGCTCCGGCGTGGCCTGGGCGTGGGCGATCCTTGGGATCCTGGTGGCGCTGGCTGCGGTGATCCTCATCGTCGGCCTCGGCGGGCCGGGGGAGTTTACACAGAACCTGGTCGACACGTGGAACCAGATCGCGCTGCGCGTGCAGGGGTGGTTTAGCTAA	MSRMTVNASNSGATDLTGLTGRIRDCMPQGKGLGKLAAGDIAVVDSPEMTRREAELLADAKPAAVVNLASFSTGSIPNYGPHVLLDAGVPLVEGAGAEARSVLRSGKKATIWADGAIYVGKKLAGNGVFVDRGSVDANFAAAQRSLVDNMEAYFGNTIQFIHSESPLLIDGVGVPELGEAMAGRKVLVVSPLTDAGAEQRTRVENLRNFIREYSPVIIGVGPAADTLVDMGYNPDFIVGDPVDISAESLRGHARVILPADPDGHAVGLERIQDLGVGAMTFPAATNSPTDLAILLATFHNAEMIVTVGDPVDLDRIFANPADASPAALLTRLKAGGRLVDSTAIENLYRTTSGSGVAWAWAILGILVALAAVILIVGLGGPGEFTQNLVDTWNQIALRVQGWFS				NA	NA	NA	NA	NA
AK009_08378	795	mctB		Copper transporter MctB	ATGAGGCAGAACACAGGTGCACCGGGTTTCGTTGCCGCGGGGCTCGGCTGGGGACTTGCGGCGGGTCTCGCTCTGGGAGTGCTGCTCATCGCGCCAGCGATGGGGGCGTTGCAGGGGGCGTCGACAAGCGAGGCGCAAAGCCGGGACCCACAGGAGCAGTCCGCTGAGGCCGAGGCGGCCGCCGCGAACGAGGTGCTGGCGGCCAAGGCCGAGGAGATGGTCGAGGGCGAGCTCGAGGGCAACGCGATCGTAATGATTCGCGCCGCGGGTGTTGACGACGACAGCGCGGACAAGCAGCGCTGGCTGCTTAACACCGCGGGTGCCGACAACGCCGGCACGATCACGCTGACGGAGAAGTTCACCTCCCAGGACGCGGCAAACGAGCTAAGCACCATCATCTCCAGTACCTTGCCCGCCGGCGCGCAGCTGTCCGTGGACAACCGCTCGCCCGGCGTTCACGCAGGTGAGGCGCTGGCCGCGGGGCTCGGGGAGGCGAGCGCGACTGATCGCGAGTTCCTGCTTGAGACGCTGGCGCAGGCGGGTTTTCTCACTTACGACGACTCCGTCACCGTGGCCGACGCCGCCGTGCTGCTGACGGGGCCCACCGCGCAGGATTCCCCCTACGCCGACCGGCTGCTCGCTGACATGGCGCAGGCCTTCAACGCCGCCGGGGGCACGCTCGTCGTCGCGGGCGAGGGCACCGCCGCGAGCGAGGGCGCGCCGCGCGTCGACTACGCCGACACCGAGGCTGGCCGCGTCAACACCGTGTTCACCCTGCGCGACGAGCTGCCGTAG	MRQNTGAPGFVAAGLGWGLAAGLALGVLLIAPAMGALQGASTSEAQSRDPQEQSAEAEAAAANEVLAAKAEEMVEGELEGNAIVMIRAAGVDDDSADKQRWLLNTAGADNAGTITLTEKFTSQDAANELSTIISSTLPAGAQLSVDNRSPGVHAGEALAAGLGEASATDREFLLETLAQAGFLTYDDSVTVADAAVLLTGPTAQDSPYADRLLADMAQAFNAAGGTLVVAGEGTAASEGAPRVDYADTEAGRVNTVFTLRDELP				NA	NA	NA	NA	NA
AK009_08379	645			hypothetical protein	ATGCCGCACAACTTCACCGTGACCCATTCCGAGCTGCTTGTCGACGCCCCCATCCTCGCCCTGCGCCGCGACACCGTGACCATGCCGGGCGGAGGCGATGCGAAGCGCGAGATCGTCGAGCATCTCGGCGCCGTGGCGGTCGTCGCGCTCGATGAGGGCAACCGCATTGCCCTGGTGACGCAGTACCGCCACTCGGTGAAGCGTCGCCTGCAGGAGTTGCCCGCGGGGATTTTGGATGTGGCGGGGGAGTCCGAGCTCGACTGCGCGAAGCGCGAGCTCTACGAAGAGGCCGGGCTTGAGGCATCCGACTGGAGCGTGCTGGTGGACCTCGTGACCTCGCCGGGGTTCGCGGAGGAGGCGGTGCGCGTTTTCTGTGCGCGCGATCTGACCGTGGTGGATCGCCCGGACGCCGAGGATGAGGAGGCCGACATGACGCTCGAGTGGGTAGCGCTCGATGAGGCCCGGTCGCGGGTTTTCGCCGGCGAGATCACCAACGCCATTGCGGTCGCCGGGGTGTTGGCGGCAGCGGCAGTTGCGGACGGGGTGGCGTCGCCACGCAGCACCGCCGAGCCCTTCGACCTGCGACCGACCTCGATGGCCGAGCGTCGCAAGGCGAATGGCAGCGACTTGAAGAAGCCGTCGTAG	MPHNFTVTHSELLVDAPILALRRDTVTMPGGGDAKREIVEHLGAVAVVALDEGNRIALVTQYRHSVKRRLQELPAGILDVAGESELDCAKRELYEEAGLEASDWSVLVDLVTSPGFAEEAVRVFCARDLTVVDRPDAEDEEADMTLEWVALDEARSRVFAGEITNAIAVAGVLAAAAVADGVASPRSTAEPFDLRPTSMAERRKANGSDLKKPS	PGPT0021525_3406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK009_08380	882	xerD_2	COG4974	Tyrosine recombinase XerD	ATGTGGTTAAACCACCTCGCGGTGGAGCGCGGGGTGTCCGCCAACACCCTGAGCAACTACCGCCGTGACGTCGAGCGCTACCTCGCCTGGCTCGAGGCAGCGGGCATCCGCCAGCTTGACGACGTCACCACCAACCACATCGAGGCATACGTCGCTGACCTGCGCCGCGGTGTCGGGGAGGCGAAGCCGCTGTCGGCGTCTTCGGCGAGCAGGGCGCTCGTGGTGGCGCGGGGGCTGCACAAGTTCGCCGCCGCCGAGGGGCTCATCCACGCCGACGTCGCGTCTGCCGTCGCGCCGCCGCGGGCGGGGGAGAAGCTGCCCGACACGCTGAGCATCGACGAGGTCGCGCGGCTTCTCGACGCCTGCCCCACGCGCACCCCCTTCGAGCTGCGCGACAAAGCGCTGGTGGAGGTGCTCTACGCCACCGGGGCACGCGTCTCCGAGGTCCTGGGCTTAGTTGTTGACGACATGGCCTCCGGCGCGGACGTGCTCACGGTCACCGGCAAAGGCGACAAGCAGCGGTTGGTTCCGCTGGGCTCGCACGCGCGCGAGGCGGTGGATGCCTACCTGGTGCGGGGGCGGCCGGCGCTGGCGACGGGGGCGACGCACGCACTGTTTCTCAACCGGCGCGGAACAGCGCTATCTAGGCAAAGCGCGTGGGGGATTATCAAAGACGCGGCCGAGCGGGCGGGGCTGGCCAAGGACATCTCCCCGCATACCCTGCGCCACTCCTTTGCCACGCATCTGCTCGAGGGAGGAGCCGACGTGCGCACCGTCCAGGAGCTGCTCGGCCACGCCTCCGTGACCACGACACAGATTTACACGCACGTCACCGCGGACAACCTACGCGAGGTGTGGCGCATGGCTCATCCTCGCGCGTGA	MWLNHLAVERGVSANTLSNYRRDVERYLAWLEAAGIRQLDDVTTNHIEAYVADLRRGVGEAKPLSASSASRALVVARGLHKFAAAEGLIHADVASAVAPPRAGEKLPDTLSIDEVARLLDACPTRTPFELRDKALVEVLYATGARVSEVLGLVVDDMASGADVLTVTGKGDKQRLVPLGSHAREAVDAYLVRGRPALATGATHALFLNRRGTALSRQSAWGIIKDAAERAGLAKDISPHTLRHSFATHLLEGGADVRTVQELLGHASVTTTQIYTHVTADNLREVWRMAHPRA	PGPT0022000_5315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_08381	813			hypothetical protein	GTGGGAGGTGCGGCGGTCAAACATGGTGACCAGGATGCCCACGATCTCGAGGTCGAAGTTGATGCGGTCGCGCACCTTTTCCACCGTGTCCGTCAGCAGTGCGAGCCCGCGCAGGGAGAAGTACTCGCACTCCATGGGGATGATCACCCCGTGCGAGGCGGCGAGCGCGTTGACCGTGAGCAGGCCCAGCGACGGGCCGCAGTCCAGCAGGATGATGTCGTACTCCCCGCGCACCGGGCGAAGCGCCCGGGCCAGGGTGTGTTCCCGGCCTACCTCGTTAACCAACTGGATCTCGGCGGCGGACAGGTCGATGTTAGCCGGCACGAGGTCGAGCCCGGCGACGTTGGAGTGCTTGATCGCGGCGTGGATGCTCGCCGTGTTGTCGAACAACAGGTCGTAAACGGTGATCTGCTCCTCGTCATGCGGCACGCCCAACCCGGCCGAAAGCGCGCCCTGGGGGTCCAAGTCAACGAGCAGGACTTTACGGCCCTGCTCCGCCAGGCACGCCCCGAGGTTGATGGTGGACGTGGTCTTGCCCACCCCGCCCTTCTGGTTGACCATGGAGATCACCTTCGCCGGGCCGTGGCGGTCGAGCTGCTTAGGCTGGGCAAACTCGCGCAGGGGCCGGCCGGTGAGGCCGACTTTCTCCTCACCAGCTTGATCTGGCTCGAACAACGACTCGCTGGTCATCGCCATTCCTTCCCCTTGTGCGCGCATGTTGGATCTTGCTCGACGTCAAGCTTACAACACTGTCATTTCGGCTGTACGCATCTTTCACGCGCGAGGATGAGCCATGCGCCACACCTCGCGTAG	MGGAAVKHGDQDAHDLEVEVDAVAHLFHRVRQQCEPAQGEVLALHGDDHPVRGGERVDREQAQRRAAVQQDDVVLPAHRAKRPGQGVFPAYLVNQLDLGGGQVDVSRHEVEPGDVGVLDRGVDARRVVEQQVVNGDLLLVMRHAQPGRKRALGVQVNEQDFTALLRQARPEVDGGRGLAHPALLVDHGDHLRRAVAVELLRLGKLAQGPAGEADFLLTSLIWLEQRLAGHRHSFPLCAHVGSCSTSSLQHCHFGCTHLSRARMSHAPHLA				NA	NA	NA	NA	NA
AK009_08382	576			hypothetical protein	GTGGCCCGCCTGCTCGGGCACGGACACTGCCTGGGCGTGGACGTGGTCGGTGCGCACCTGTTCGGGCGGGCGGGGCCGGAATACGCTTGCCGCCAGCACCGCGAAGCTCGCGGACGTGTGGCCGAGCGACACCGGCGGAAGCAGGTCGGCGAACTGCTCCTCCATCGACACCGCGCGCGGGTAACGCCGTGCCGCCGTTTTCTGCCACTGACTGAATTGCTCAGCGACGCGCTGGTAGGCGCGGTACTGCAAAAGCCGGGCGAACAGCAGGTCGCGGGATTCAAGGAGTTCGAGCGTTTCGGCGTCGCTGGTCTCGCCGCGGGGCAAAAGGCGCGCTGCTTTGAGGTCAAGCAGGGTCGCGGCGATGAGGAGGAACTCGGTGATCTCGTCAAGCCCTGCGCGTTGACCCAGCGCGCGGGTATACGCGATGAACTCGTCAGTGACCTCGGCAAGCGCGACCTCGGTGACGTCGAGCTTCTTCGAGCTAATCAGGTTGAGCAACAGATCGAACGGGCCCTCGAAGTTGTTCAGCACCAGGGTAAACCCGGTGATCTCGGGCTGTTCTGCCACGGCTAG	MARLLGHGHCLGVDVVGAHLFGRAGPEYACRQHREARGRVAERHRRKQVGELLLHRHRARVTPCRRFLPLTELLSDALVGAVLQKPGEQQVAGFKEFERFGVAGLAAGQKARCFEVKQGRGDEEELGDLVKPCALTQRAGIRDELVSDLGKRDLGDVELLRANQVEQQIERALEVVQHQGKPGDLGLFCHG				NA	NA	NA	NA	NA
AK009_08383	285			hypothetical protein	GTGGCGGCTGTACACCCGGCCCGACAACGCCGCCGCGGTCGAGGCTTTTCTTCTCGACGGCACCCAGTCGACGCTGTCTCGCGCGGCGCTGGAGACGCTGGCGGTGGTCGCGTACCGCCAGCCGGTGACCCGTTCGCAGGTCTCCGGCGTGCGTGGCGTCAACGTCGACGGCGTGATGCGCACGCTGACCCTGCGCGGGCTGATCGCCGAGGTCGACCCCGAGGAGGCGACGGGGGCGCGCCGTTACGTCACCACCGAGCTGTTCCTCGAGTTGCTGGGGATTGA	MAAVHPARQRRRGRGFSSRRHPVDAVSRGAGDAGGGRVPPAGDPFAGLRRAWRQRRRRDAHADPARADRRGRPRGGDGGAPLRHHRAVPRVAGD				NA	NA	NA	NA	NA
AK009_08384	804			hypothetical protein	GTGCACCTTGGTGCGCACGAGACGCTGCACCGGGTGACCGGCTGCCTTGAGCATGCGGCGCACGATGTGCTTGCGGCCCTCGTGCAGCTCGACGCGGATGATCGACTGGCCGTTGTGGGTGTCCACGATCTGGACGTAGTCGGCCTTCGCGGGGCCGTCGTCAAGCTCGATGCCCTCGCGCAGCGTCTTCACCAGGGTCGGCTTCGCCTCGCCGAGCACGGTGGCCATGTAGGTTTTCGCGATCTCGTAGCGCGGGTGCATGAGCCGGTTGGCGAGCTCGCCGTCGTTAGTCAAGATCAGCAGCCCCTCGGTGTCGGCGTCGAGGCGTCCGACATGGAACAGGCGCTGGCCCGAGGCCGTGCGCTCCGAGAGGTAGCTGCCCACCGAGGTGCGGTCCATCTCGTCCTTCATCGTGGACTGCACGCCACGGGGCTTATTGAACACGAAGTACTCGAGCTCGTCGTTGACGTTGATGCGGGTGCCGTCGACGCGGATGACGTCGCGCGCGGGGTCGACGCGCATCCCCTGAGTGGTCACGCGGGTGCCATTGACCTCGACGCGGCCCTGGGCGATCATGACCTCGGCGTGGCGGCGCGACGCGACGCCCGCCTGGGCGAGCACCTTCTGCAGGCGCACGCCCTCAGTGGTTGGTTTCTTTTCCGACGGGTCGTCCCACCAATTGTCTTCAAGCGGGTGAGGGGTGACGTTTTGTTTCTTCGCCGGCTTCGCATAGGAGATATAGAACGGGTCGTTCTTCTCTCTATCCGGTGTGCCGTCTCGGCGAGCGGGGGGAGTCATATGTGA	MHLGAHETLHRVTGCLEHAAHDVLAALVQLDADDRLAVVGVHDLDVVGLRGAVVKLDALAQRLHQGRLRLAEHGGHVGFRDLVARVHEPVGELAVVSQDQQPLGVGVEASDMEQALARGRALREVAAHRGAVHLVLHRGLHATGLIEHEVLELVVDVDAGAVDADDVARGVDAHPLSGHAGAIDLDAALGDHDLGVAARRDARLGEHLLQAHALSGWFLFRRVVPPIVFKRVRGDVLFLRRLRIGDIERVVLLSIRCAVSASGGSHM				NA	NA	NA	NA	NA
AK009_08385	474			hypothetical protein	GTGCGCGTCGGCCGCCAGCTTGCGCTGCAGCGCGACGAGGTTCTCGCGCACCTGCGGGATGGCGGAGACCGCGGAGACGTTGCGGGTCACCTCGGGGCCACGGATAATGCCCGAGACGTCCTCGCCGCCGAGCAGAACCTCGGTGGAGTCGGGGTCGTCCGACACGGACAGGGGCAGCTCGCGGGTGGCGTCGATTACCGCCTCGGCGTCCGCGGGATCGACGCCTGCGCGCAGCACCGCGAGGGTGGCCACGCGGTACATCGCGCCGGTGTCGATGTACTTCGCGTCAAGTTCTTTCGCGAGGCGGCGGCACGTCGTGGACTTGCCCGTCCCGGAGGGGCCGTCGACGGCGACGATCAGCCCGCCGCTGGGCATGTTCGAAAGCGCCATTACATCTCCACCGCCTTGTACAAAGAGGTCAGCTCCGCCGCGTTGAGCGCGCGCAGCGAGCCAGGTTTCATGTCGCCGAGCTGA	MRVGRQLALQRDEVLAHLRDGGDRGDVAGHLGATDNARDVLAAEQNLGGVGVVRHGQGQLAGGVDYRLGVRGIDACAQHREGGHAVHRAGVDVLRVKFFREAAARRGLARPGGAVDGDDQPAAGHVRKRHYISTALYKEVSSAALSARSEPGFMSPS				NA	NA	NA	NA	NA
AK009_08386	816			hypothetical protein	GTGCAGTGCCGAGACCGGCCACGGGTCGCCCAGGCCGAGGGAGTAGAACTCCGCGACGTCGCCCCACTGCGACTCGGATTCGAACTTGTTGGCCACCAGGATCACCGGCACGTCCGAGCGCTGCAGGTTGCGCGCCATCACCGCGTCGGTCTCCGTGATGCCCGTGTGGGAGTCAACGACCATGACGATCACGTCGGAGGTCTCCATCGCGGCCTCCGACTGGTGCGCGATCGCGGCGTGGAGGCCGCGCGCGTCGGGATCCCAGCCGCCGGTGTCCTGGACCCAGAAGCGGCGCCCGTTCCAATCGCTGATGTAGCTCACCCGGTCGCGGGTCACCCCTGGGTGGTCCTCGACAACAGCTTCGCGACGCCCAATGAACCGGTTGACCAGCGTGGACTTACCCACGTTCGGACGCCCGACGATAGAGACGGTCGGCAGGGCCTCCTCCACCATCTCGGGGCCGCTGACACCGAACTCCTCCTCGAGCGCGGCCCATTCCTCGTCGCTGAGTTCGGAATCGTCGAACTCAGGCTCGCCGAAGTCGGCCTCACCGAATTCCGATTCGTCGAAGCTAGTCTCGTCGAACTCGATCTCAAACTCGTCGTGCTCGCTCACAGTGCGCTCCCTTCAACCAGGGCGATCAGGGCTGCGAGCACGTCGTCGCGGTCCATCTCGGAGGTGTCGATAATGGTCGCGTCCTCGGCTGGGACGAGCGGGCTGGTGGCGCGCGTGGAGTCGAGCTCGTCGCGGCGCTGCACGTCCGCGAGAACGGTCTCGAAGTCCGCCTCGCGCCCGGCCGCGATGTCCTGGTCGTAG	MQCRDRPRVAQAEGVELRDVAPLRLGFELVGHQDHRHVRALQVARHHRVGLRDARVGVNDHDDHVGGLHRGLRLVRDRGVEAARVGIPAAGVLDPEAAPVPIADVAHPVAGHPWVVLDNSFATPNEPVDQRGLTHVRTPDDRDGRQGLLHHLGAADTELLLERGPFLVAEFGIVELRLAEVGLTEFRFVEASLVELDLKLVVLAHSALPSTRAIRAASTSSRSISEVSIMVASSAGTSGLVARVESSSSRRCTSARTVSKSASRPAAMSWS				NA	NA	NA	NA	NA
AK009_08387	696			hypothetical protein	GTGGTAGCCGAAGCGCTCGCGGAATTTCCGCTCAAGGTAACGCCGGTAGCCGGCGTCGAGGAACCCGGTGGTAAACAGCACGATTGTCGGCGGTCGCGTGGACACCATCGTTGTAAACAGCACGCGCGGCAGGCGGTTGTTCTTCATCGGCGGCGGGTTCGCGGCGATCGTCTCGCGCAGCCAGTTGTTGAGCTGGCCGGTGGAGATGCGCTTGTCCCAGTTCTCCAACGCTTCGGTCATGGCCGCCTCAAGCCGGTGCAGGCCGCGCCCGGTGTCGGCGGAGATGTTGAGCTTGGTCACCCACGGCAGGTGACCCATCATCTCGTCGAACTCGCGGTCGAAGTAGTAGCGCCGGTCCTCGTCCATCAGGTCCCACTTGTTAAAGCAGATCACCATGGCTTTACCGGCCTCGAGCACCATGGAGATAACGCGCTGGTCTTGCTCCGAGATCTCCTGGGAGGCGTCGATCAGCACGACGCACACCTCCGCCGCCTCGATGGTGCCGCGGGTTCGCAACGACGCGTAGTACTCGTGGCCCTGGGCGTTTTTCACCTTCTTGCGCAGCCCGGCGGTGTCGATGAACTTCCACAGCGCCCCGTCGAGCTGGATCAGCTCATCGACCGGGTCGACGGTGGTGCCGGCGACGTTGTCCACCACCGAACGGTTCGAGCGCGACAGTTTGTTAAGCAGGCTTGA	MVAEALAEFPLKVTPVAGVEEPGGKQHDCRRSRGHHRCKQHARQAVVLHRRRVRGDRLAQPVVELAGGDALVPVLQRFGHGRLKPVQAAPGVGGDVELGHPRQVTHHLVELAVEVVAPVLVHQVPLVKADHHGFTGLEHHGDNALVLLRDLLGGVDQHDAHLRRLDGAAGSQRRVVLVALGVFHLLAQPGGVDELPQRPVELDQLIDRVDGGAGDVVHHRTVRARQFVKQA				NA	NA	NA	NA	NA
AK009_08388	222			hypothetical protein	GTGCTCGTAGAGGTACCAGGTCAGGTTCGCCCGCATCTTCGCGCGGGTGGCCTCGCTGGCGCGCAGCCAGTACGAGCGCGTGGCCATGAGCTGGAACAGCCCGTCGGTACTCATCGGCATCAGCCACGTCTCGCGGTGCTCGCGCGCCAGCGCCCACGGCGGGTTCACCTCGGGGTAGAAGCCGTCGCGCTGCACGTCCCCGGAGTGCATGATGCGGCTTAA	MLVEVPGQVRPHLRAGGLAGAQPVRARGHELEQPVGTHRHQPRLAVLARQRPRRVHLGVEAVALHVPGVHDAA				NA	NA	NA	NA	NA
AK009_08389	321			hypothetical protein	GTGGCGCACGTCGAGGGTGTTCCAACACAACAGCAGCTCCCCGCCGGGCGCGATCACGCGGTCGGCCTCGCTGCTCGCGGCGCGGACGTCGACCCAGTGCCACGTCTGGGCGCAGGTCAGCGCGTCGACGGAGGCGTCGGCAAGCGCTGTGGCCTCGGCGGTGGCGCGCCACACGGGCACCTCCGGCAGGCGGGTGGCAAAGACCCGGACCATGTCGTCGGAGGGGTCGCACGCGAGGACGCGGCGGCCGGGGCTGAGCAGCGTTTCGGTGAGCTTGCCGGTGCCGCAGCCGATGTCGGCGACGGTGGCGGGGGAGTCTAA	MAHVEGVPTQQQLPAGRDHAVGLAARGADVDPVPRLGAGQRVDGGVGKRCGLGGGAPHGHLRQAGGKDPDHVVGGVAREDAAAGAEQRFGELAGAAADVGDGGGGV				NA	NA	NA	NA	NA
AK009_08390	90			hypothetical protein	GTGCAGCCTAGCCTCGCAGATGTCGATGGTGTCGTCGGTGCCGTAGAAGGCGCGCTTGACGGAATCCTCCAGGTCGAGGGAGAGCGCTAG	MQPSLADVDGVVGAVEGALDGILQVEGER				NA	NA	NA	NA	NA
AK009_08391	321			hypothetical protein	TTGCTTATCGACGTTGCGCGGATCCCGGTTCCACAGCCTTACCAGCGTGTTCACGCCGATCCCCACGCCGATGCGGATCCAGCCCCACGGGCTGCGCGGGGCGATCGCCACGAGGTCGAGGGCGCCGTCGTCAGGCACGGCGTGCGGCAACAGGGGCACGTTGGTGTAGACGTCGCCGCAGTTGCCGATGATCAGCGTGTGCAGCCGCTTCTTGGCCACGCGCTGGCCGTCGAAGGTAAAGGTGGCCTTCACGCTATTGCCGCCCCCGAGAGACCGGAGCACCCCCGGTACGTAGGCGAGCTGGCCGATCCGCTTCTTTAG	MLIDVARIPVPQPYQRVHADPHADADPAPRAARGDRHEVEGAVVRHGVRQQGHVGVDVAAVADDQRVQPLLGHALAVEGKGGLHAIAAPERPEHPRYVGELADPLL				NA	NA	NA	NA	NA
AK009_08393	429	odhI	COG1716	Oxoglutarate dehydrogenase inhibitor	ATGAGCGAGAACACTGGTGCGCCGGAGACCCAAGTAGAGACCACTTCGGTTTTCCGCGCAGACCTGCTGAAGGAAATGGAATCTGGCGCGGCGCCGTCGAACGCGGCAACTGGCGCTGAGAATCTTCCTGAGGGCGCTGCACTCCTCGTTGTCAAGCGCGGCCCGAACGCTGGCGCACGCTTCCTGCTGGACCAGGACACCACCACCGCTGGCCGCCACCCGGAGGCGGACATCTTCCTTGACGACGTCACCGTGTCGCGTCGTCACGCAGAGTTCCGCCGCAACGAGGGCTCTTTCGAGGTAGTAGATGTGGGCTCGCTCAACGGCACCTACGTCAACCGCGAGCCCCGTAACTCCCAGACCCTCGCCACCGGCGATGAGATCCAGATTGGTAAATTCCGCCTCGTCTTCATCTCCGAAGACAAGTAG	MSENTGAPETQVETTSVFRADLLKEMESGAAPSNAATGAENLPEGAALLVVKRGPNAGARFLLDQDTTTAGRHPEADIFLDDVTVSRRHAEFRRNEGSFEVVDVGSLNGTYVNREPRNSQTLATGDEIQIGKFRLVFISEDK				NA	NA	NA	NA	NA
AK009_08394	318			hypothetical protein	GTGGAGCGAGACCACAAGTGCGGTGAGCTGCTGGCCGATCTCCTCGGCCTTCTGCTCCGCGCTGACCTGGCGCGACTTCGCCACCGGCTGGGTGACGCGGGCGATCAGATCCGCCTGGCGCGAGGCAGTCGTGCGCAGCGTTTTCAGGTGACGCTCGTCGAAACCGAACTCCGCGAGGGCCGCCGCGGTGGACGCGATGTGCACGTCATCCGCCGTGAAGTGGCCCGCCGCGTCAGGCGTGACCAGCCCCGCGGCGATGAGCTGGTCGACGACAGCGCCGTCCACCTTCGCCTGCTCGGCGACATCGACGTCCGTTAG	MERDHKCGELLADLLGLLLRADLARLRHRLGDAGDQIRLARGSRAQRFQVTLVETELREGRRGGRDVHVIRREVARRVRRDQPRGDELVDDSAVHLRLLGDIDVR				NA	NA	NA	NA	NA
AK009_08395	552		COG1259	putative protein	TTGGCGATAGCCCAGCTCGCGGGGATCTACCCGCTTGGTCCCGAGAAATACCTCTGCGCCGTTCTGCTCGTCGAGGGGACGTCGCGCTGCCTGCCCGTGTGGCTGCCGCCCGTTGAAGGTGCGCGCCTGATCGCCCGCGCGGCTGGCTGGCACCCGAACCGCCCCCACGCCACGGACGCTCTCGTCGAGCTCGCCCAGGCAATGGCGGTCGGGCCCGAATCGGTAGAGATCGCTAGCTACCACGAAGGCGTGTTCGCCTGCGCCCTCAACTTCGGCGATGGGACATCGGCGGAGATGCGCCCCTGCGATGCGCTCACGGTTGCGCTTAAGCTGGACCTTGCGCTCGAGGTCGATGAGTCCGTAATCTCAGCCGCGTCGCTCTGGTTGTCGCCAGAGGACGCCGCGCAGTACTTCGAGCTTGAGCTTGACGACGAGCGCTTGGACGACGACGCGCCCCAGCCGCAGGGTGACGACGAGTTTGAGCAGCTCATGCGCAACCTGGGCGTGGACGAGGACGACCTCGGTGGGGGGGATGGGACAGAAAAACTCTAA	MAIAQLAGIYPLGPEKYLCAVLLVEGTSRCLPVWLPPVEGARLIARAAGWHPNRPHATDALVELAQAMAVGPESVEIASYHEGVFACALNFGDGTSAEMRPCDALTVALKLDLALEVDESVISAASLWLSPEDAAQYFELELDDERLDDDAPQPQGDDEFEQLMRNLGVDEDDLGGGDGTEKL				NA	NA	NA	NA	NA
AK009_08396	636			hypothetical protein	TTGCGCCGTAGCCTAGGAGGTCTTGCGGCGACGGCGGGCGGCGAGCTCGTCGATGGAGTACACGCCGGCCTCGGCCACGTCCTCGGAGATGCGCTCCGAGGGGAAGGACGAGATGGTGCCGGTCAGCTCGCGCATGATCTGCGGGACGGCGATGCCGAAAACACCCTGTCCCCCGCCGAGAAGGTCGATGATCTCCTCGCTGCTGCGGCACTCGTAAACGGTGGTGCCGTCGGAGACGAGGGTAATCTCCGCGATGTCGTTGACGCCGCGGTCGCGCAGCTTGTCCACGGCGAGTCGGATGTTCTGCAAGGAGATCCCGGTGTCGAGGAGTCGCTTGACAATCTTGAGCACGAGGATGTCTTTGAAGGAGTACAAACGCTGCGAGCCGGAGCCCTTGGCGCCGCGGATCGACGGGCGCACGAGGTTGGTGCGGGCCCAGTAGTCGAGCTGGCGGTAGGTGATGCCCGCGACCTGGCAGGCGATGGGAACGCGGTAGCCCACCTCATCAGAGGGGCCCACGTCGAACAAGGTCTCCTGGATTGGGGCTGCGTTGGCAGTCCCCTGGGGCTGGGTTTCGAAGTTCTCGCTCACGTAATTACTCCCATGAAGTTTGGATGTGGGCCTAATGCTTATTAA	MRRSLGGLAATAGGELVDGVHAGLGHVLGDALRGEGRDGAGQLAHDLRDGDAENTLSPAEKVDDLLAAAALVNGGAVGDEGNLRDVVDAAVAQLVHGESDVLQGDPGVEESLDNLEHEDVFEGVQTLRAGALGAADRRAHEVGAGPVVELAVGDARDLAGDGNAVAHLIRGAHVEQGLLDWGCVGSPLGLGFEVLAHVITPMKFGCGPNAY				NA	NA	NA	NA	NA
AK009_08397	1407			hypothetical protein	ATGGCTCGGCACGCATCCGGGAAGAATAACTACGCGCTCTCGGGCGGGGTCATCGCGGCCCTCGTCGTCGCGGTGCTGCTCTTCGGCGTGGCGATAGCGTTCGTGTCAACCCGCGGCGACGGCGACACAGAGGCTAGCGGGCAAGCGCCCGCCTGCGTCGCGGGCGATCTCGCTCTCCCAGTCGCCGCGACCGATCAGGCCGTCGCATCCTCGCTTATCGACGCCTACTCCAACGTCAACCCCGTCGTCCGCGACTTTTGCGTCAAACCCACCCTCGTTGAGTCGATTGCCGACGCAGCCGTCTACATCGCCCCCAACACCCCGGTGGCGCACCAGGAGCTGGCCGCTCAGAACCGGACGGCTGCGACCTCGGAGCCCAGCCCCGTCTACGCGGAGAAGGTCGGCCTGGCCGGAGCGCAGGCGCCGGCCTCTGCAGCGGAGGTCGAGCTAGGCGCGGTCGCCTTCCCGGTCAACGACGAGCCCTCCGCCTCTGCCCTGGTCGCTGCCACGCTGGCCCCCAACGACCAGGACGCGGTCAACGCGTTGACCAACCAGCGCGTCGCCACGCTTGACGACGCCCAAGAAAACGCCCAGTACATCGCCACCGCGGAGAGCAGCGTTCCCGAGGGCTTGAACTTTAGCCCGCTGGATGCGGCGATCGTCTACACCGCGATCCCGCTGAACCAGGGCGACAACGTCACCGAGGAGCAATCCCGGGCTGGCCAGGACTTCGTTCGCGTCGCGGCCGAGAACTTCACCGAGCAGCCGGCTGAGCAGCCGACGATCTCGGACATCGTGTGGGCGGCGGCGACGCCGAGCGGCGGCGAGGAGATTACCCGCAACACCGAAACGGGTGCGACCATCGCCGACGGCGGGCCGACGAACACCCTGTTCGTGCTCGATACCTCCGAGGCCATGGCCCCCTACCTCGACGCGGCCGCGCAGGGCATCGCGGCGGCCGCCGAGTCCGTTGCTGGCGCCGGTCACCAGGTGGCGCTGTGGAACTACTCCTCGCCGCTGACCCCGGGTGTGACCCAGGGCTACCGCCGCAACGTGACGTTTACGCCCAACGCGGGTGAGGTTGTGCAGTCGGCGAACCGGTTCATGACTGGCGGCCAGCCGCAGACAAGGGAGGCCGTTACCGCAGCCGTGCGAGAGACCGCTGAAACGGGCCTGCCGAGCCGCGTCGTGGTGATCACCACCGGTACGGCGGACGGCGGCGACGATGAGGCGTTTGCCCAGGCGGTAACTGACGCGGCGGGCGCTGGCGTGACCGTCTCAGTGGTCCACGTGGGCGAGGGCCAGCAGGACCAGGCGCTGCGCCGGGCGAGCACCTCGGCCGCGGATGCGCCGAGCCAAGGGCAGGTTGCCGACGCGGTCAAGGCCGCGTCGGGGATTGCGCCGTAG	MARHASGKNNYALSGGVIAALVVAVLLFGVAIAFVSTRGDGDTEASGQAPACVAGDLALPVAATDQAVASSLIDAYSNVNPVVRDFCVKPTLVESIADAAVYIAPNTPVAHQELAAQNRTAATSEPSPVYAEKVGLAGAQAPASAAEVELGAVAFPVNDEPSASALVAATLAPNDQDAVNALTNQRVATLDDAQENAQYIATAESSVPEGLNFSPLDAAIVYTAIPLNQGDNVTEEQSRAGQDFVRVAAENFTEQPAEQPTISDIVWAAATPSGGEEITRNTETGATIADGGPTNTLFVLDTSEAMAPYLDAAAQGIAAAAESVAGAGHQVALWNYSSPLTPGVTQGYRRNVTFTPNAGEVVQSANRFMTGGQPQTREAVTAAVRETAETGLPSRVVVITTGTADGGDDEAFAQAVTDAAGAGVTVSVVHVGEGQQDQALRRASTSAADAPSQGQVADAVKAASGIAP				NA	NA	NA	NA	NA
AK009_08398	489			hypothetical protein	GTGTGTCCAGTCGGACACCGTGCCGACGTACTCCTCAATGATGTCTTCGAGAGCGAGCACGCCGATGAGTTCGCCGTTGACGCGGACCTGCGCCATGTGCGCGGAGCGGCGGTGCATGGAGGTCAGGGCGTCGTCAAGCGAGCCTGTGCCGTCGACGATGCTGAGACGGCGGATCCGCGACACCGGGACCACTGGATCGACCTCGTCGGATTCCATCAGGTCCAGGATGTCCTTGACGTGCAGGTAGCCGACCAGCGCGCCGCCGGAGCGCTCTACCGGAAAGCGCGAGAAGCCGGTCGTGCGCACGGCGTGCTCGACGGTGGACAGGGCGATGCCGCGCGTCGAGTACGGGATCGTGGTCAGCTTCTCCAGCGGGATCATCACCTCCTTCAGGCTGCGCGATTCAGAGCGCAGCGCCTTGGCCAGACGCGCGGTTTCCTCCGCGTCGAGCAGGCCCTCCTCGCGCGACTCCATGATCATGTTCGCTAG	MCPVGHRADVLLNDVFESEHADEFAVDADLRHVRGAAVHGGQGVVKRACAVDDAETADPRHRDHWIDLVGFHQVQDVLDVQVADQRAAGALYRKAREAGRAHGVLDGGQGDAARRVRDRGQLLQRDHHLLQAARFRAQRLGQTRGFLRVEQALLARLHDHVR				NA	NA	NA	NA	NA
AK009_08399	228			hypothetical protein	GTGGCTCACGCCGGCGATGCAGATGTGGGTCACCATCACCGGCCCGATCATCCGCGCGCTGAACTGGGTTGCGCGCAAGACGCTCAAGGCGTTCGGCATCGAGCAGCGCGACGAGCTCGAATCCACCGTCGACGAGCAGCAGCTAGCGAACATGATCATGGAGTCGCGCGAGGAGGGCCTGCTCGACGCGGAGGAAACCGCGCGTCTGGCCAAGGCGCTGCGCTCTGA	MAHAGDADVGHHHRPDHPRAELGCAQDAQGVRHRAARRARIHRRRAAASEHDHGVARGGPARRGGNRASGQGAAL				NA	NA	NA	NA	NA
AK009_08400	195			hypothetical protein	GTGCAGCCAGGAGATAATCGCCAGGGCGATGACGAACGCGATCGGGTGCAGCAGATCCGCGGGCACCCCGAGCGCCATGAACGGCACCTCGATGTAGCGCGCGATCGCGGGCTCGGCGACCTTGCCCAAGATAAGAGAGCAGATCGTGATGCCGAACTGGGCGCCCGCGAGGTAGATCGAAAGGTGCTCAATTGA	MQPGDNRQGDDERDRVQQIRGHPERHERHLDVARDRGLGDLAQDKRADRDAELGAREVDRKVLN				NA	NA	NA	NA	NA
AK009_08401	369			hypothetical protein	ATGGATAACCCGCTGCGCCTCCTTTTTGCCCTGCGCGGCCATGGACTCGAGGCGGTCGCGGCGCGAGGAGACAAGCGCGAACTCCGAGGCGACGAAGAAGGCGTTAAACGCCAGCAGGACGGCGATGAGGAAGAGGGCGAGCCAGATGCTCATGAGGTGGCCTCCTTCGAGGCAGAGGGCACGGGGGTCAAAATCGCCCTATCCACTCGCCGCTCATCCATCACGGTGACGTGGGCGGTCCAGCGCCCCGCGTTGCCCGACTCGAAATCCTCCTGGAACCCGCCGCCGGTCTCTGGCAGTAAGACCTTATCGCCGAGGACGGGGACGCGGCCGAGGGTGGACATGATCAACCCGCCAAGGGTCTCGTAG	MDNPLRLLFALRGHGLEAVAARGDKRELRGDEEGVKRQQDGDEEEGEPDAHEVASFEAEGTGVKIALSTRRSSITVTWAVQRPALPDSKSSWNPPPVSGSKTLSPRTGTRPRVDMINPPRVS				NA	NA	NA	NA	NA
AK009_08402	858			hypothetical protein	ATGCACGGGGCGCGCCAGCTCACCGAGCTTAACGCTGCTGCGGAGCTCCTTGTCCACGGAGAAGGCATCCTTGATGTGGACCACGCCGACGGTGTCGTCGAGGTCACCGCGGCGGACGGGGAAGCGCGAGTGGCCCGAGGAGCGCGACAGCGCGATCAGGTCGTTGACGGTGTCCTCCACGTCGAGGGACTCGATCGTGGAGCGCGGCGTCATGAACTCTTCGGCGGTCGATTCGCCGAACTGCAGGGAGCGGTCGATCACCCGGGCGGTCTCGGCGTCGAAGCTGCCCGCCTCCACGGAGTTGCGCACCATCACGCCGAGCTCTTGGCCCGAGCGTGCCGACGCCAGCTCGTCCGCCGGCTCAATCCCCAGCTTGCGCACGAACCAGTTGGCGGAGCGGTTGAGCGCCTTGATGAACCACTTCAGCGCGGTGTTGAACGCGTTGACGGGAGGAACGACGAACCGCGCGGTCGCGAGCGGCTCAGTGATCGCCATGTTCTTGGGCACGAGCTCGCCGAACACCATGGACAAAAATGTCGCCACGATCAGCGCCAGGATCAGCGCGACCGTCTGGCTCGCGTTCGCGTTCAGGCCGACGAGTTCAAGCAGGGGAGTGAAGAACTGGCCCAACACCGGCTCGGCCAGATAACCCGCGGCCAGGGTGGTCACGGTGATACCGAGCTGCGCGCCGGAGAGGACGAAGGAGAGGTTCGAGTGGTCCCTCGCTACGGCCCGCGCGGTGCGGTCTCCCTTATCGCGGACGTGCGCGTCGACGGTGGAGCGCTCGAGGCCGGTCATGGCGAACTCGATGGCCACGAACAGGCCCGTCGATGCGGTCAGCGCGATGAATCCGACTAG	MHGARQLTELNAAAELLVHGEGILDVDHADGVVEVTAADGEARVARGARQRDQVVDGVLHVEGLDRGARRHELFGGRFAELQGAVDHPGGLGVEAARLHGVAHHHAELLARACRRQLVRRLNPQLAHEPVGGAVERLDEPLQRGVERVDGRNDEPRGRERLSDRHVLGHELAEHHGQKCRHDQRQDQRDRLARVRVQADEFKQGSEELAQHRLGQITRGQGGHGDTELRAGEDEGEVRVVPRYGPRGAVSLIADVRVDGGALEAGHGELDGHEQARRCGQRDESD				NA	NA	NA	NA	NA
AK009_08403	396			hypothetical protein	GTGGACAACGAGGGAGACGTCGTCAACGTCGATGCCGCGCGCGGCGATGTCGGTGGCGACAAGCACGGGCGCGGAGCCGTCGCCGAAGCCCTCGAGGGCGCGGGTGCGCGCGCCTTGGCCCTTGTCACCGTGCAGGCCCTGGGCGTTGATGCCGGCGCGGCGCAGCTTCTTTACCTGCCGGTCCACGCCGTGCTTGGTGCGCATGAACATGATGGTCTTGCCCTCGCGCGCGCCGATGCGCAGCACCACATCTCCGCGCTCGTCGCGGTCGCCGACCAAGAGCCGGTAGTGCTCCATCGTGTCGACGGCGGCCTGGACCGGCGCGGTCGAGTGCGTCACTGGGTTGGTCATGTAGCGCGCAATGAGCTTTTCGACGTCCCCATCCAGCGTCGCTGA	MDNEGDVVNVDAARGDVGGDKHGRGAVAEALEGAGARALALVTVQALGVDAGAAQLLYLPVHAVLGAHEHDGLALARADAQHHISALVAVADQEPVVLHRVDGGLDRRGRVRHWVGHVARNELFDVPIQRR				NA	NA	NA	NA	NA
AK009_08404	486			hypothetical protein	GTGGTCGAAGAACAGCTTGCGCTGGTTGATCAGGTCTTCCGCGCGACCCGGGGTGGCCACGAGCACGTCGACGGGCGCGGCGAGGGAGCGCAGGTGGTTGTTAATGTTGACGCCGCCGACGACGTCGAGAAGCCGAAGGCCGAGCGCGGCCGCGGGGTCGTCGAGACGATCGCGAATCTGCGTGGCCAGCTCGCGGGTTGGGGCGAGGATCAGACCCCTCGGGTGGCCAGGCTTCGACGGGGCTCCCGCCAGCCGGGCCAGCATGGGCAGGCCGAAGGTGAAGGTCTTTCCCGAGCCCGTCGGGCCGCGGCCGAGAACATCGCGGCCGGCCATCGCGTCCGGGATCGCCTCTTCCTGGATGGGGAAGGGCTCGGTGATGCCCTGCTTGGCCAAAACGTTGACTATGGGGCGGGGGAGGCCGAGGTCGGCGAAAGACGTCATTGCTGCGATGCTACCTGCTGCGGGGGCAAGCCCCCTAAACGCTAG	MVEEQLALVDQVFRATRGGHEHVDGRGEGAQVVVNVDAADDVEKPKAERGRGVVETIANLRGQLAGWGEDQTPRVARLRRGSRQPGQHGQAEGEGLSRARRAAAENIAAGHRVRDRLFLDGEGLGDALLGQNVDYGAGEAEVGERRHCCDATCCGGKPPKR				NA	NA	NA	NA	NA
AK009_08405	231			hypothetical protein	GTGGAACGTGCCTTCCATATCGACGCGGCGGTACGTGTGCGCGCCGAAGAAGTCGCGCTGGCCCTGGATCAGAGCGGCCGGCAGGCGCTCGGAACGCAGGGAGTCGTAGTAGGACAGCGAGGAGGCGAAGACCGGGATCGGCAGGCCGAGCTGCGTGGCGACGACCACGACGCGGCGCCAGGAGTCAATCAGCCCGCCCTCGAGCTCAGCCTTGAAGTAGGGATCCAGTAG	MERAFHIDAAVRVRAEEVALALDQSGRQALGTQGVVVGQRGGEDRDRQAELRGDDHDAAPGVNQPALELSLEVGIQ				NA	NA	NA	NA	NA
AK009_08406	408			hypothetical protein	TTGACCTCGGCGTTCCGGTCACCGGCATCGGCGAGGCCGTCTTCGCCCGCGCCCTGTCGTCGGCACTCGCGCAGCGCGAGGCCGCACAGCGCATCGGCCTTCCCTCCGGGGAAACCACCACGCTGGAGGCCCTCGGCGTGGACAAGGAGCAGTTCATCGAGGACGTGCGCCGCGCCCTCTACGCCTCCAAGCTCGTCGCCTACGCGCAGGGCTTCGACGAGATCAACGCCGGTTCTCAGGCCTACAACTGGGACATCAAGCCCGGTGACCTCGCCCGCATCTGGCGCGGCGGCTGCATCATCCGGGCGAAGTTCCTCAACCGCATCACCGAGGCCTACGAGAAGGACCCGGAGCTGCCCTCTCTGCTACTGGATCCCTACTTCAAGGCTGAGCTCGAGGGCGGGCTGA	MTSAFRSPASARPSSPAPCRRHSRSARPHSASAFPPGKPPRWRPSAWTRSSSSRTCAAPSTPPSSSPTRRASTRSTPVLRPTTGTSSPVTSPASGAAAASSGRSSSTASPRPTRRTRSCPLCYWIPTSRLSSRAG				NA	NA	NA	NA	NA
AK009_08407	753			hypothetical protein	GTGGCGGTCGACCTGGCGCAGGATCTCGGCGGTGATCTCGATCAGATAGGAGTTGAGGTCGCCCTGGTTCCACTCGGCGAAGATCTCCGACATCGCCGCGGGCTCGATCCCGGCGGCGTAGCGCAGCAGGTGGTAGGCCTCGCCGATGACCTGCATATCCGCGTACTCGATGCCGTTGTGCACCATCTTGACAAAGTGGCCCGCCCCGTCGGGACCGATGTGCGTCACGCAGGGCACGCCGTCGACCTTCGCGGAGATGTCCTCCAACAGCGGCCCGAGGGTCTCCCAGGATTCCTTCGGCCCGCCGGGCATGATCGACGGCCCGTTGAGCGCGCCCTCCTCGCCGCCGGAGATGCCGGCGCCGACGAAGTGGCGGCCGCGCTGGGCGATCTCCTGCTCGCGGCGGATCGTGTCGGTGAACAGGGCGTTACCGCCGTCGATGATGATGTCGCCGTCTTCCATGGCGTCGGCAAGCTGCTCAATCACGGCGTCCGTCGCAGGGCCGGCCTGGACCATGATGATGGCCTTGCGCGGGCGCTCAAGGGAGGCGACGAAGTCCTCGATGGTTTCGGAGGCGATGAAGTCGCCCTCGTGGCCGTGCGCCTCGATGACCGCGCGGGTCTTCTCCGGGGAGCGGTTGAAGATGGCCACAGTGTGGCCCTTGGAGGCGAAGTTGCGCGCGAGGTTGGAGCCCATGACGGCCATCCCCACGACGCCGATCTGGGCGAGCTTGTTACCGGTAGTCATGGGTGA	MAVDLAQDLGGDLDQIGVEVALVPLGEDLRHRRGLDPGGVAQQVVGLADDLHIRVLDAVVHHLDKVARPVGTDVRHAGHAVDLRGDVLQQRPEGLPGFLRPAGHDRRPVERALLAAGDAGADEVAAALGDLLLAADRVGEQGVTAVDDDVAVFHGVGKLLNHGVRRRAGLDHDDGLARALKGGDEVLDGFGGDEVALVAVRLDDRAGLLRGAVEDGHSVALGGEVAREVGAHDGHPHDADLGELVTGSHG				NA	NA	NA	NA	NA
AK009_08408	327			hypothetical protein	GTGGTACATCTCCACGCGCCACAGGTGGGTCGTCCGGCCGATGTGCACGGGCACCGCGACGGCGTCGATACGCCCCTCTTTCACGCTGCCGAGCAGGTCGGTGTAGTTGCTCATGCCGACTGCCGCAGCGCCGGAGTTAGCCACCGCTGCGATAGAACCGAGGGTCTCCCCGATCGAGCAGTACAGGCCGCCGTTGGCAATGCCCGTGATCTGGTGGTGCTCCGGTGTTACGTCGACGTAGCCCTCCGTGTGGTCGCGGGAGACGTACGTGATGACGATCCCGAGGGTATTCGCCAGCCCTTGATTTACGGCGTTGACGCCTTCTAG	MVHLHAPQVGRPADVHGHRDGVDTPLFHAAEQVGVVAHADCRSAGVSHRCDRTEGLPDRAVQAAVGNARDLVVLRCYVDVALRVVAGDVRDDDPEGIRQPLIYGVDAF				NA	NA	NA	NA	NA
AK009_08409	132			hypothetical protein	GTGGCGCTGGGGGTATCCGGCGATCCTAATCCTGATGGCGACCGTGATGGGCGTGATGTACTGGTGGTTCCGGAAGAACCACTGGTTGTAAGGACGGGTTCTAGCTGCGATCGCGCAGGATCATCAGCTTGA	MALGVSGDPNPDGDRDGRDVLVVPEEPLVVRTGSSCDRAGSSA				NA	NA	NA	NA	NA
AK009_08410	630			hypothetical protein	GTGGCGCATTTCCAAGATCTCTCGCTTGTACATGTAGATCTTGTCGATGTTGATGTCGCGCCTGGGCGTGAACACCTCGTTTTCCAGCTCGTCGACGTCGCGCCCGAGCGCGGTGGCAACCTTGAGGTAGTTGTCTACGACGTGGTCAAACACCTTCCACGCGGCGGCGGGCGGGCCGAGGATCGCCAGCTCCTCGTCCTCCTCGAGCTCGAGCGTCAGGTCGGGCAGGGGAGCCTTGTGGCGGATGGTGATGGCGAATTTCGGTCCGAGCACGACCTGCACCTCGCCGGTGGAGATGATCTCGCGGGCGTCGTCGACTTCCTCGTCGTCGCGGTAGTACACGGAGCGCACGACCATGAACAGCTGGTCGTCGTAACGCTCCATCTTCGGGCGCTGGTGCGCGTCAACGACGTCATCAACGATGAGGTCGTGCAGGTTGAAGATCTCGGCGATGCGCTCCATCTGCGTCGTGTTCGGCTCGCTGAGAGACAGCCAAAGAAACGCGTTCTCATGATCCTCGACCATCTTCAAAGCCTGGGTCACCCGCGCCTCGCCGGGCAGCTTCTTGCCGTCGAGGAAGATGCGGCAGAAGTCGACGTTGCGCTCAATCGGGATCGGCACGCTCCTTGA	MAHFQDLSLVHVDLVDVDVAPGREHLVFQLVDVAPERGGNLEVVVYDVVKHLPRGGGRAEDRQLLVLLELERQVGQGSLVADGDGEFRSEHDLHLAGGDDLAGVVDFLVVAVVHGAHDHEQLVVVTLHLRALVRVNDVINDEVVQVEDLGDALHLRRVRLAERQPKKRVLMILDHLQSLGHPRLAGQLLAVEEDAAEVDVALNRDRHAP				NA	NA	NA	NA	NA
AK009_08411	1497			hypothetical protein	ATGATACGCCATGGCGCGCAACAGCCCGGTTCCGCGAGCGGAGACCGGGCTGAAAACGGGGGTAGAGAACTAGTTCTCGCCGTTGGTGTCGCGCAGCTCCGGCAGAGCGTCCTCGTCGGTAGCCAAGTCGCGCAGCTTCAGCAACGCGGTGCGGCCGTGCATCTGCGACAGGGTGGTGGCCAGGTTGTAACGCTTCGGGCTCAGAGCGTTGGCGAACCAGGACAGCATGGTGACGAACTGGTTGCGCACGCCCACCAGGAAGGAGACGTGGACTGCAAGCCACAACAACCAGCCGGTGAAGCCGGTGACTTCAACCTTGCCGATCTTGACCACGGCGTTGAAGCGGGAGACGATAGCCATCGAGCCCTTATCGAAGTACTCGAAGTCGTCGCGGGCCTCTGGGGCCACGTCGTGCTCGACCTGCTCCTTGATGATCTTCGCGACGTACTCGCCGGTCTGGATAGCGACCTGAGCAACGCCCGGGAGGCGGTCGCGGCTCATCATGTCACCGATGATGAAGACGTTGGACTTGTCGCCCACGGTGAGGTCGGCGTTAACCGGAACCTTGCCGTTGCGCTCGGCCTCGACACCGACCTGGTCGGCGATCAGCTTGCCCAGCGGGGAAGCCTGCACGCCGGCGGACCAAATCTTGGTGGTCGTCGGGATCGTGGTTTCTTCCTCGGTTTTGGTATCCTTGTAGGTGACGGAGTCCTCGTCGACGTTGACCACCATAGAGTTAAGAACGACGGTGACGCCCTTCTTCTCCAGCTCGCGCTGAGCTCGCTTGCCGAGGCGCTTGCCGAAGGGGGGAAGCACCTGGGGGAGGCCGTCGATAAGCACGATCTTTGCCTGCGAGGGGACGAAGTTGGAGTAACCGTGCGCGAAGGAGCGGTGCGCCATCTCGGCAATCTGGCCGGCGAGCTCAACACCGGTCGGGCCGGCGCCAACGATAACGAAAGTGAGCAGGCGCTCGCGCTCCTCAGCGGTCTCAGCGACCTCGGCGCGCTCGAAGGCGGTGATGATGCGCGCGCGGATTTCCAGCGCGTTGTCGAGCGTCTTCAGGCCGGGAGCGAACTCGGCGAAGTGGTCGTTGCCGAAGTAGGACTGACCAGCGCCCGCTGCGACGATCAGGGAATCGTAGGCGTAGGTGCGCGAAAACTCGCCCTCGTATGCGGTCACGGTCTGGGCGTCGACGTCGATGTCGGTGACGTCGCCGCGCACAACGTCAACGTTGTCCTGTCCGGAGAGGGCTTGGCGTACGGAGGTCGCGATTTCGCCGGTGGAAAGCAGACCGGTTGCTACCTGGTAGAGCAGCGGGGCGAACAGGTGGTGGTTGGTGCGATTGATGATGGTGACGTCGACGTCGGCGTCGGCAAGATCGCGAGCTGCGAAAATGCCGCCGAACCCGGCGCCGATAATGACGACGTGGTGGCGGTTACCTGCGGGGCGCAATGGGGTTTCAGTCATAGGTGTGCCTTCCTTGCTGGACGTGGTTAG	MIRHGAQQPGSASGDRAENGGRELVLAVGVAQLRQSVLVGSQVAQLQQRGAAVHLRQGGGQVVTLRAQSVGEPGQHGDELVAHAHQEGDVDCKPQQPAGEAGDFNLADLDHGVEAGDDSHRALIEVLEVVAGLWGHVVLDLLLDDLRDVLAGLDSDLSNAREAVAAHHVTDDEDVGLVAHGEVGVNRNLAVALGLDTDLVGDQLAQRGSLHAGGPNLGGRRDRGFFLGFGILVGDGVLVDVDHHRVKNDGDALLLQLALSSLAEALAEGGKHLGEAVDKHDLCLRGDEVGVTVREGAVRHLGNLAGELNTGRAGANDNESEQALALLSGLSDLGALEGGDDARADFQRVVERLQAGSELGEVVVAEVGLTSARCDDQGIVGVGARKLALVCGHGLGVDVDVGDVAAHNVNVVLSGEGLAYGGRDFAGGKQTGCYLVEQRGEQVVVGAIDDGDVDVGVGKIASCENAAEPGADNDDVVAVTCGAQWGFSHRCAFLAGRG				NA	NA	NA	NA	NA
AK009_08412	1305	ufaA1	COG2230	Tuberculostearic acid methyltransferase UfaA1	GTGTTGACCGCCCCGGACGTTCCAGAGCACCTTGTAACGGTGGATGCCCACGCCTGGCCGGGTTTGCTGGCCATCCCAACGGGCCCAGCGGCGGGTTTGAAGGCGCGGGTCGCCGAGGCCAAATTCGCCGGCGCCTGCGCGGCTGCTGGGATCGAGCTTGACCCGGGCCGCGGCGCGGAACTCAGAGTCGAATACGACATGTTGTTCCGCCGCATCGCCGAAAGCGGCTGGGTGGGCCTCGCCGAAGGGTTCATGGCGGGGGAATGGTTTGCAACCAGCAGCGAGGTGCTTGTCGACGTCCTCACCAAGCTGCTTCAGTCCAACTACCGGCCTAAGACCCCGACAATTAGCCCGAAGCATCTCGACGGCGGCGGGGAGATCCCGGCCGAGCTAGTACAGCATTTTGCCGGCGACCGGATGAGCGGTTTCGCGGGTCATTTCGCGACGGGCGTGCCCACGACGCAGCGCGTTCGCGTGAAATCCCAGCAGTCGCGTTCCGCTCCGGCGTATTTCGTCGACGTGACGGAGTACTCAGAGCCCATCGACGCGTCCCGCGACGACCTGGGCGACGTGCAGCAGCGCTCTGTGCAGATGCTTCTCGACGCCTGCGCAACCGGCCGCGGTACGCATCTGCTGGAGTTCCCGTCCTCGGGGGGCGCGGTGTCGCTCGCGGCGGCAGGCCGGGGAGCGGTTGTCGACGCGTGGGCCGCCGATGAGCACGCCGCGGACGCGTTGCGCGACCGAGTGGTGTACGCGGGCGTCGGCGGTGCTGTCCACGTCGAGCTCATGGGGCCGGAGTGGACGCGTGCGACTAACCGGCGCAGCTTCTACGACGCAGTGGTCAGCGTGGAGCGGCTCGAGACATTAACTCCCGCGAGCAAGGCGCAGTACTTATCCGCCGTCGGCCACCTCGTGGACCCGGGCGGGCGCGTGGCTGTGCAGACCGTGATGCGCACGGCGGCCTTCACACCGGCGGCCGACGCCGCGCTGCAGTCACTGCGGGCTTATATCTGGCCGGGGCTGAGCTTCTCGACACCCGATGAGCTCACGCGGATCGTCGACCGGCGAACGCCGCTGCGGATTGTCGCGCAGACGCGGGCACCGGCGCACCTCGCGGCGTCGCTACGCCTGCAGCGCGAGATGTTCGACAGCCGGCTGCGCGAGGCTGCGGCGGACGGATTCGATCAGGTGTACCGGCGCCTGTGGCAGTGGCAGTTCGCACTGCGCGAGGCGCTGGCGCGGTTGGAGATGCTGGACGTGGTCCAAGTGACCCTCGTGCCGCGCGACCGGCGGGGGCGGCGCTAG	MLTAPDVPEHLVTVDAHAWPGLLAIPTGPAAGLKARVAEAKFAGACAAAGIELDPGRGAELRVEYDMLFRRIAESGWVGLAEGFMAGEWFATSSEVLVDVLTKLLQSNYRPKTPTISPKHLDGGGEIPAELVQHFAGDRMSGFAGHFATGVPTTQRVRVKSQQSRSAPAYFVDVTEYSEPIDASRDDLGDVQQRSVQMLLDACATGRGTHLLEFPSSGGAVSLAAAGRGAVVDAWAADEHAADALRDRVVYAGVGGAVHVELMGPEWTRATNRRSFYDAVVSVERLETLTPASKAQYLSAVGHLVDPGGRVAVQTVMRTAAFTPAADAALQSLRAYIWPGLSFSTPDELTRIVDRRTPLRIVAQTRAPAHLAASLRLQREMFDSRLREAAADGFDQVYRRLWQWQFALREALARLEMLDVVQVTLVPRDRRGRR	PGPT0007680_989	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
AK009_08413	339			hypothetical protein	ATGCCCCTTATTTACGTAACGTTACGTTTTTTAGCGGACCTTCTCCAGGTTCAGGCGGATGTTGACTTCGCCTTCGTCGGCGATCTTGGCAGCCACCAGCTCTGGGGTCTTCACGCCGAAGTCCTCGCGGCTGATTGGGATGTCGCCCGCGACTACGATGTTGTCGCCGGTGCGCAGAGCCTCGAACTCGTGGGTAATGCGGTTGGTCTCGCCGCGGATTGTCAGATCGCCCGTCAGTGTCACAGTTCCCACCGTGCCGTCGGATGGCAACTGGCTCACGTCCGCGGGCTCCGTCACGCTGAACGTGGCCGTTGGGTAATCATCGGTGTTGAGGATTGA	MPLIYVTLRFLADLLQVQADVDFAFVGDLGSHQLWGLHAEVLAADWDVARDYDVVAGAQSLELVGNAVGLAADCQIARQCHSSHRAVGWQLAHVRGLRHAERGRWVIIGVED				NA	NA	NA	NA	NA
AK009_08414	474			hypothetical protein	ATGGCCAAATCGAGAATCCGACCGTGCGCCGACTCCGCATTGCGGACTCCGTTGACGGAACACCAATTCGACAAAACACTCCAAGAGTCCCACACTCCGTACTCAACCCCGTGCCCTGGACATCGAGCGGTGTATTACGCTTGCACCATGCCGACGACTCCACAGACCTGCCAGTGGTGTGGTGTCGAATTGCCCCCGCAAGAGGGGAGAGGGCGTAAGCGGAAGTTCTGTAGCCCGTCGTGCAAGCAGCGCGCGTACGAGCAGCGGGCGTCGGTTAGCGGTACTGCCATTCCGGCGGAGGCGGTAATTTTGGCCCCTGAGCGGGCCGATGACTTGCGGGATCAGTTGTTCCAGCTGCGTTGCGCGGCAGAGGATATCGCCATTGCCCACCGCGAAGGTGCGGACCATACCGAGATCGCCGAGCTGTGCGAGGAACTGGTAAATATGGCCAAACGCGTGGAAAGGCTAAGGTAG	MAKSRIRPCADSALRTPLTEHQFDKTLQESHTPYSTPCPGHRAVYYACTMPTTPQTCQWCGVELPPQEGRGRKRKFCSPSCKQRAYEQRASVSGTAIPAEAVILAPERADDLRDQLFQLRCAAEDIAIAHREGADHTEIAELCEELVNMAKRVERLR				NA	NA	NA	NA	NA
AK009_08415	378	rbpA		RNA polymerase-binding protein RbpA	ATGGCTGATCGCGTATTGCGCGGAAGTCGGATGGGTGCCGTCAGTTACGAGACTGACCGCGACCACGATCTGGCGCCGCGCCGCATGGCTAAGTACCGCACCCCTAACGGCGAGGTGTTCGACGTCCCCTTCGCCGACGAGGCTGAGATCCCCGAGGAGTGGATGTGCAAGAACGGCCAGATTGGCACACTCATGGAGGGCGAGGGCGTCGAGGCCAAGCCCGTTAAACCGCCGCGCACGCACTGGGACATGCTCCGCGAGCGCCGCACCATCGAGGAGCTCGACGTTCTCCTCGAAGAGCGCCTTGATCAGCTTCGCAAGCGCCGCCGCACCGCAGCTCGTCTGGCGAAGGAACAGGAGCAGCAGGCCAAGGCCTAA	MADRVLRGSRMGAVSYETDRDHDLAPRRMAKYRTPNGEVFDVPFADEAEIPEEWMCKNGQIGTLMEGEGVEAKPVKPPRTHWDMLRERRTIEELDVLLEERLDQLRKRRRTAARLAKEQEQQAKA				NA	NA	NA	NA	NA
AK009_08416	630			hypothetical protein	GTGCTCCTACCCGTGGTTCTTCTCGTAGTCCGCGATCCTGAGACCCTCGCGGATCAGGCCCACGAAATTGTCAGCCGCCCGGGCAGCCTTAGCCGGGAGCTCACGAACGCCGGACTTGTCCAGCTGGTAGCGGGCCAGCTTCGCGCTCTCTCCGATGACGTTGACGATGACCTCCGGGGCGTGCTCAATCTCGCGCTTCCACTTCGGCAGGCTCGAGTTGTCCAGTTCGGAGCGGACAAAACGGCTGGCCTCCTTGGCGCCTTCGCGAAGCAGCTCGGACTTCTCGGCCGCCGCCCACTTGGTCACCTCGGCCAGGGACTGCCCGGCGAAGCTCGCGTCGAGCTTGGATTCGCCGAGGGTGCGGTCGGTGAACGTGATGGGCACCTCGCGCACGTCGTAGCCAGCCTGCAACGCGCGGTGCGCGATCTCCGCCTGGAAGATGTAGCCCTTGTCCGAAAGAGAGTCGAGGTCCAGGTCTTCGAGCAGCTCGTGGCGGAATGCGCGGTAGCCGGCGGTCATGTCGGCGATGTCGTCGCCAAGCACGAGCGAAATGTAGCGGTTGCCGGCCTTGGACAGGAGGTAGCGCTCGCGGGGCCAGTCCTTAACCTCGCCGTCCTCGACGTAGCGTGA	MLLPVVLLVVRDPETLADQAHEIVSRPGSLSRELTNAGLVQLVAGQLRALSDDVDDDLRGVLNLALPLRQARVVQFGADKTAGLLGAFAKQLGLLGRRPLGHLGQGLPGEARVELGFAEGAVGERDGHLAHVVASLQRAVRDLRLEDVALVRKRVEVQVFEQLVAECAVAGGHVGDVVAKHERNVAVAGLGQEVALAGPVLNLAVLDVA				NA	NA	NA	NA	NA
AK009_08417	978	hemE_2	COG0407	Uroporphyrinogen decarboxylase	GTGTGGTTCATGCGCCAGGCGGGCCGCTCGCTGCCCGAGTACCGGCAGGTGCGCGAAGGAATCGCTATGCTGGACTCCTGCTTCATACCGGAGCTGCTCGCAGAGATCACCCTCCAGCCGGTGCGCCGCCACGACGTTGACGCCGCGATTTTGTTCTCCGACATCGTGGTGCCGCTCAAGGCCGCCGGCGTGGATGTGGAGATTGTCCCCGGCCGCGGTCCCGTGATGGGGCAGGCGGTGCGCAGTCGGGAGGACGTCGATAAGCTGCCCGTGCTCGAGGGCGACGTCGAGGAGGTCGCGCGCGGCATCCGCATCATCCTCGACGAGCTCACCGACGCCCAGGCGCTGATCGGGTTCGTCGGCGCGCCGTTTACACTGGCCAGCTACCTCGTTGAGGGCGGGCCGTCGAAGAACCACGAGAAGACCAAGGCGATGATGCACGGCGAGCCTGAGACGTGGCACGCGCTGATGGAGAAGCTGGTGCCCACGATCGTGGCGTTCTTGCGTACGCAGGTCACCGCGGGCATCGACGCGATGCAGCTGTTCGATTCCTGGGCCGGGTTCCTCACCGAGCGCGACTACCGCGAGCACGTCCTGCCCTACTCCGTGGAGATTCTGCGCTCCGTCGAGGGCGAGATCCCGCGCATTCACTTCGGCGTGGCCACCGGCGAGCTGCTCGGCGCGATGAGCGAGGCGGGCAGCGAGGTCATGGGTGTCGATTGGCGCGTGCCGCTGGACGTGGCCGCGCGGCGTTTCGCCACACCACGGGTGCTGCAGGGCAATCTGGATCCCGCGATCCTCTTCGCCGGGCCCGAGGTGGTGCGCGGCGAGGTGCGCCGCATCAAGGAGGAGGCGGCGCGCGCGATCGAGCGTGGCGACGCCACCGGTCACATCTTCAACCTCGGCCACGGGGTGCTGCCGACGACGGACGCGGATGCGATTACCGAGGCCGTCGCGATGATCCACGAGGAGGCATAG	MWFMRQAGRSLPEYRQVREGIAMLDSCFIPELLAEITLQPVRRHDVDAAILFSDIVVPLKAAGVDVEIVPGRGPVMGQAVRSREDVDKLPVLEGDVEEVARGIRIILDELTDAQALIGFVGAPFTLASYLVEGGPSKNHEKTKAMMHGEPETWHALMEKLVPTIVAFLRTQVTAGIDAMQLFDSWAGFLTERDYREHVLPYSVEILRSVEGEIPRIHFGVATGELLGAMSEAGSEVMGVDWRVPLDVAARRFATPRVLQGNLDPAILFAGPEVVRGEVRRIKEEAARAIERGDATGHIFNLGHGVLPTTDADAITEAVAMIHEEA	PGPT0008465_3218	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
AK009_08418	369			hypothetical protein	GTGCGCGACCGCCTGCCCAGACGACGGGATGCCCATCACGCCGCCGCGCGGCAGCGGTTTGGCGCTGCCGCCGGTGTAGACGAGCGAGCCGAGCCCCGAGGGCTCCACCAGCGAGCCGGTCAGACCGAGCTCAGCGACGAAGTCGACCATGTCGGCTCGGCGCGCCAGAAACGCCTCCGCGCCCATGTCGGTCGGGCCCGCCTCGAAGGCGACCGTGTGCAACTTGCCGCCGATGCGGTCGGTGGCCTCGTAGACGTCGACGTCGTGCTCGCGCAGCTCGTAGGCCGCGGTCAGCCCGGCCAGCCCCGCCCCGATGATCGCGATACACACCCTATGCCTCCTCGTGGATCATCGCGACGGCCTCGGTAA	MRDRLPRRRDAHHAAARQRFGAAAGVDERAEPRGLHQRAGQTELSDEVDHVGSARQKRLRAHVGRARLEGDRVQLAADAVGGLVDVDVVLAQLVGRGQPGQPRPDDRDTHPMPPRGSSRRPR				NA	NA	NA	NA	NA
AK009_08419	813			hypothetical protein	GTGCAGGTCGTCCAGGGCGGCGTCGACAAGCGTGTCCTCGTCGGCGCGCAGCGCGATGTCGTCGCCGAAGCGGCCGAAGCTCGCGCGCACGAGCGCGCCGCCGCGCGCAGCCAGGTGCGGCCACTTCCTCGAGGACAGCGTGAACGCCTTGGCCGTAAGGCCCTCCTCGTCGGCGGCGATCAGCACGCCCGAGTTGTGCGGCAGGCCCTCCTCGGTGGCGAAGCGCATGCCCACGACCACGGAGTTCGCCAGCTTGATCCCGGCCAGCTCGGACGCGGCCTCCGGCGCCGCGGCGCGCAGCAGCATCCCGGCGGTGGGGGCCGGCACGGCGAGGATGACGGTGTCGTAGACCGCGTCCTCACCGCCGGTGAGCCGGTAGCCCTCGCCCTCGCGGGTGATGCCGGAGATGAACGAGTCGACGTAGATGTCCGCACCGGATTGCTCCGCGAGTGCCTCGTAAAGCTCCTGGTAGCCGTCGCGGAAGGAGTTGAACACCGCCCCCTGGGTACCAGCGAGCTGGGCGCGGGACTCCTCCAGGTTCTTCACCGCCGTCGACAGGTGCACCGGGGCGCCGCCGGTGGCCAGCCGGTCGAGCTCGGCGGCGAGCTGCGGCACGGTCGCGCGCACGCCGAGGTCGTCGGCGCTGCAGGAGTACACGCCGCCCAGCAGCGCGGAGACAACCCGGTCCGCGACTTCGTCGCCGTAACGGGCCCGCACGAGCTCGCCGACGCTGCGGTCGCCCTCTGTGTCCCAGGTGAAGCCCGGGGCGGTGGATTCGGCGTCGATACGCGAGGCGGTCTCGGCGGAAACTAG	MQVVQGGVDKRVLVGAQRDVVAEAAEARAHERAAARSQVRPLPRGQRERLGRKALLVGGDQHARVVRQALLGGEAHAHDHGVRQLDPGQLGRGLRRRGAQQHPGGGGRHGEDDGVVDRVLTAGEPVALALAGDAGDERVDVDVRTGLLRECLVKLLVAVAEGVEHRPLGTSELGAGLLQVLHRRRQVHRGAAGGQPVELGGELRHGRAHAEVVGAAGVHAAQQRGDNPVRDFVAVTGPHELADAAVALCVPGEARGGGFGVDTRGGLGGN				NA	NA	NA	NA	NA
AK009_08420	468			hypothetical protein	GTGACCCCGTCAGCGCCAACATCACCGGCGGATCTAGGCCGAGCAGCCACGCGCGCAGCGGGATCATCGCCATGCCGAACACCCCGACGAAGGCAAACCAGCCCAGGCACCAGTAGTCCTCGCGGGTGGGCTTGCCGTTCCACGGCAGGGATTCGTCCTCCCACCACTCCTTTTCGGGTGCGGCTTCTGGGGCGTCGGCTGGATCTTGTGTGCTCACGCGCTATGAACTTACACGGGTTTAGGCTCCGGCAATGTCTGCCGCCACCCGGCGCGCGTGCGCGACGACGTCCGGCACGCCCACTCCGCTCACCCATGCGCCAACGACGTCGATACCGGGGACCGCTGCGAGGCGCGCGCGCACGCGGGCGACGGTGGAGAGGTGGGTGGCGTCGAAACGCGGCAGGCCCCCGAGCCAGCGCTGCACGTAGATCTCCTCTAGGCCCGCGGCGCGGCCGTCGAAGCCGGTGA	MTPSAPTSPADLGRAATRAAGSSPCRTPRRRQTSPGTSSPRGWACRSTAGIRPPTTPFRVRLLGRRLDLVCSRAMNLHGFRLRQCLPPPGARARRRPARPLRSPMRQRRRYRGPLRGARARGRRWRGGWRRNAAGPRASAARRSPLGPRRGRRSR				NA	NA	NA	NA	NA
AK009_08421	525			hypothetical protein	ATGATGACCAGTCTAGGCCACCCGTTTCTTGCCCTGATTGCGGAAGGCAGTGAACATGATGACAACCAACAAAGCGATGGCGATCCAGTTGGCCACCCGCGCGTACTGGTTGAGGACAAACACCACCGGCTCGCCGATCTCCCAGCCGAGCCCGAAGTAGATAAACGACCACAGCGTCTTCGCGATGAAGTTCATCACCATGAACTTCCACAGCGGCATGCCCGTCATCCCCGCCAGGACGAACACGACAAACGCGATAGGCAGAGGAATCGGCAGATACGCGAGGAAAATCCCCAACCAGCCGAGCTTGAGCGCCCAGCGCTCCACCCGGGCGATGTTGCGCGCGGCGCGCTTCGACTGGCTGGCCTGGACATCGAGGATGCCCCGGCCCCACAGCTTGCCGGCCCACCAGTAGATCCAGTCGAACTTAATCGCCATAACAGAGCCAATGAGCAGGAAAAACAGCCAGTTGCCCGCCTCGCCCACCGAGGCCAGCGCGCCTGTCGACGCCGCCCCGATACGTGA	MMTSLGHPFLALIAEGSEHDDNQQSDGDPVGHPRVLVEDKHHRLADLPAEPEVDKRPQRLRDEVHHHELPQRHARHPRQDEHDKRDRQRNRQIREENPQPAELERPALHPGDVARGALRLAGLDIEDAPAPQLAGPPVDPVELNRHNRANEQEKQPVARLAHRGQRACRRRPDT				NA	NA	NA	NA	NA
AK009_08422	312			hypothetical protein	GTGGGCGATCTCTTTGAGCGCCGCGTTGAAGCCCTCCGACGGGGCGACAGTGCCCATGTTGCCCGCCGCGGCCTCCGTGATCACCGCGGCGATCTCGCCCGGGTTCTCCGCGAACGCGTTCTTCACCGCCTCGAGGTCGTTGTAGGCGACGACGATCGTGTCGGCGGCCTGGGCGCCGGTGACGCCGGGCGAATCCGGCAGGGAGAACGTCGCCAAGCCCGAGCCCGCCGAGGCCAGCAGCGCGTCGACGTGGCCGTGGTAGCAGCCGTCGAACTTGATGATCTTCGGCCGGCCCGTGAACCCGCGCGCTAG	MGDLFERRVEALRRGDSAHVARRGLRDHRGDLARVLRERVLHRLEVVVGDDDRVGGLGAGDAGRIRQGERRQARARRGQQRVDVAVVAAVELDDLRPAREPAR				NA	NA	NA	NA	NA
AK009_08423	213			hypothetical protein	GTGGAAGAACGCCGGGTAGCGGAAGGTGTCCGCGGCCTTCATCTCCTCGAAGTTCGATCCCGGCCCCTCGGCGAAGCGGATCGAGAGCATTGTCGACGCCCGCTGCACGTGGTGCGCCACGCCCTCGCGGTCCAGCGCGGTGTGGATCAACTCCTCCAGGGTGTCCGCGTTGCGCAGCAGCACAGGGTAGATGTCCTCGCTCGCGAGGCGTAA	MEERRVAEGVRGLHLLEVRSRPLGEADREHCRRPLHVVRHALAVQRGVDQLLQGVRVAQQHRVDVLAREA				NA	NA	NA	NA	NA
AK009_08424	1011			hypothetical protein	GTGAACCGCTTGGAGGTCGTCTACCTCCGCACGACACGGCGCGCACCACTGGCCCCAGGCGTTGAGCACGACGATCTTACCCTCGTAATCGCTCAAGTTGATCTGCTCGCCGGGCTCCATGAGCGATTCACCGCCGACGTTGCTCAACGGGGCACGTTCGGCCTCGTCGTAGAAGATCTCCACCTGCCCACCTGGCGAGTGGAAGGAAAAGGTCGCGCCGTTATCGGGGGCCGCGCAGCCAGCCACGAGCAGTACCGCAGCACATGGCGCGGCGAGTCGCTTCAGCATCTAGACGTCCTTCGCTGGTCGGTTGTACGACCAGTCAACAACATCTGCGCCCTCAAACACAAGCGAGGTCACGCTCGCCAAGTCGCATTCGCGGCTCAGGTGCGGCAATCGTTTGCCCTGCACGTGGCGCTGCACCGTGACGATGGGCAGCTGGTGGCTGACCACAACGGCCTCGTGGCCTTCTGCTTCGGCGCGCGCGTGCTCAACGCCGCGCAGCATGCGCTCCAGGATCTCCTCGTAGGGCTCCCCCCAGCTGGGCTCAAGCGGGTTAACCATGTGCCGCCAGCGCGGCGGGTACCACAGCTGGGAGCGCCACCCCTTGGTGCGCAGGCCCTCGAAGGTGTTGAGGGACTCGATGACGTCGTCAAGCGTGTCCACCTCGCAGCCGGTGACCTCCGCGATCGGCGCCGCCGTCTCTTGGGCGCGCTGCAGCGGGCTCGACGCGAGGTAGGTCACGTCCCGGTCGGCGAAGAACTGGGCCGTCACCGCCGCCATGGAGCGACCGCGTGCGCTCAGGTGGAACCCGGGCATGCGCCCGTAGAGCAGCTTCATTGGGTTATAGACCTCGCCGTGGCGCACGAGGTGGACGATCGTGCGGGTCATGCGCGAGCCTCAGCAGCGGCCTTGGCTGCCGTCGCCAGGGTGCGCTCGATGCGCGCCATGTCGTCTGCGGTCAGCGCCGTGGAGACGAACCACGTCTCGAACGCGCTCGGCGAGGCGTAA	MNRLEVVYLRTTRRAPLAPGVEHDDLTLVIAQVDLLAGLHERFTADVAQRGTFGLVVEDLHLPTWRVEGKGRAVIGGRAASHEQYRSTWRGESLQHLDVLRWSVVRPVNNICALKHKRGHARQVAFAAQVRQSFALHVALHRDDGQLVADHNGLVAFCFGARVLNAAQHALQDLLVGLPPAGLKRVNHVPPARRVPQLGAPPLGAQALEGVEGLDDVVKRVHLAAGDLRDRRRRLLGALQRARREVGHVPVGEELGRHRRHGATACAQVEPGHAPVEQLHWVIDLAVAHEVDDRAGHARASAAALAAVARVRSMRAMSSAVSAVETNHVSNALGEA				NA	NA	NA	NA	NA
AK009_08425	189			hypothetical protein	GTGCTGCTTGTCCAGCACCACCGTCGTCGGGATCACGGAGCTGGGCACTCCGCCCAGGCTGGCGGCCGTTTTGAACGGCGGGTCGTAGATCGACGGGTAGGTCACGCCGTTGTCGATGACGAAGTCGCGGGCGATGTCCGGGTTGTAGTCGCGCACGTTGATGCCCAGCACCGTGCCCTGATCCCCTAG	MLLVQHHRRRDHGAGHSAQAGGRFERRVVDRRVGHAVVDDEVAGDVRVVVAHVDAQHRALIP				NA	NA	NA	NA	NA
AK009_08426	537			hypothetical protein	GTGATTCCACGCTCCGGTGACAAGCAGCAGCCCGACGATGATCATGAGGATCCCACCGATGAGCTGGATCGTGCGCGAGTGGCGGCGCAGGAAGTCCACGCCCGCCACGGCCCTCGCCGAGCCGAGCGCCAGCAGCAGAAAGGGCAGGCCGAGGCCCAGGCAGTAGGCGACCACGAGCGCGACGCCGCGCGCAGCGCCGACACCCTCGGTGCCTACCGACACCGAAATGATCGCCGCCAGCGTGGGCCCGAGGCACGGCGTCCACCCGAGCGCGAACACCCCGCCGAGCAGGGGCGCGCCGAAGATGGTGGTCCACTTGCGCGGCGCAACGCGCGTGTCGCGCTGCAGCAGCGGAACCGCGCCGATAAAGACCAGGCCCATCAGGATAGTGACCACTCCCCCGGCGCGCATGAGCACATCCGCGTTGAGCGTGATCAGACTAATCGCGCCGAACACCGAGACGGTGGCCAGCAGGAACACGACGGTGAACCCGGCGACAAACAGCCCGGCGGCACCCGTCACGGCCCACTTGCGTGA	MIPRSGDKQQPDDDHEDPTDELDRARVAAQEVHARHGPRRAERQQQKGQAEAQAVGDHERDAARSADTLGAYRHRNDRRQRGPEARRPPEREHPAEQGRAEDGGPLARRNARVALQQRNRADKDQAHQDSDHSPGAHEHIRVERDQTNRAEHRDGGQQEHDGEPGDKQPGGTRHGPLA				NA	NA	NA	NA	NA
AK009_08427	909			hypothetical protein	GTGGCCCTGGAGGTAGACGCGGTCGCCGTTAAAACGCAGCGGGTGGTTGACCCGCAGCGTGTAGTCCTCCCACTGCGCCTTGTCCGCGGTTACGTCATCCGTGTACGAGATGTCGGAGGCGAACCCGTTTGCCTGGCCATTATTGAGGTAGTCGGCGGTGAAGTTGTGCGACTCGAAGCAGAACGGCGTCAGCCCGGTGCCGTCGAAAAGCGGGCCGGCGCGGAAGACGTCGAAGTTGGCCGGCGAGGTGTTGCAGAACTCGCGCGACTGCTCCACCGGCACCGCGTACTCGGACGCCGAGTTGGTGACCACGATGACCTGGCCCTCGTAAAACACCATGCGGCCAGCGGTGAAGGCGAGGATCATGCCGACGAGCCCGATGTGGAACAGCAGGTTCATCAGCTCGCGCGTGTACCCGCGCTCGGCAGAGATGGAGTACACCCCGGCGCGGTCCTCCTCGGGCGTGTACGTGGCCATGTTCCAGCGCTTGAGCACGGCCTTGACGTCGCGCTCGACGTCCGCCATTGGCTTATCGACGACCCCCTGAGCGTGCATCGGCATGCGCCGCAAAAACTTCGGGGCACGCGCCGGGGTCGCGCGGAACGCGCGCCAGTGCTCGATCGTGCGCGGGATGATGCAGCCGACCAACGACACCATCAGCAGCGTGACAATCGCGATGAACCACGTCGAGCCGAATACGTTGAAGAGCTGCAGCCGGTCGTAGATGGGGCCCATGGTGGGGTTGGCGGCGAGAAAGTCGTCGACAAGCGTGGCGCTGACCGAGCGCTGGGGCAACAGCGCGCCCGGGATGGCGGCGAGCGCGAGCATGAACAGCAGCACGAGCGCGGTGCGCATGCTGGTCAGCCAGTGCCAGGTCGCGCGCGCCCAACGATTAACAGTCTTCATTAG	MALEVDAVAVKTQRVVDPQRVVLPLRLVRGYVIRVRDVGGEPVCLAIIEVVGGEVVRLEAERRQPGAVEKRAGAEDVEVGRRGVAELARLLHRHRVLGRRVGDHDDLALVKHHAASGEGEDHADEPDVEQQVHQLARVPALGRDGVHPGAVLLGRVRGHVPALEHGLDVALDVRHWLIDDPLSVHRHAPQKLRGTRRGRAERAPVLDRARDDAADQRHHQQRDNRDEPRRAEYVEELQPVVDGAHGGVGGEKVVDKRGADRALGQQRARDGGEREHEQQHERGAHAGQPVPGRARPTINSLH				NA	NA	NA	NA	NA
AK009_08428	387			hypothetical protein	TTGAGTGGGGTCGCGCGAGATCTGGTAGTTGGCGTACTCGGCGGCGCCGTCGAAACGCACGGTGATCCCGCCGTCGATGGTGACCTCCTCGCCCGGGGTGAGGTTGACGCGGTCGACCTTTTGCAGCCGGCCGTCGGCGATGAGCGTCTGATCCAGGACGAAGATGTTCTGCGGCCGGCCCGTGTCCAGGCCCGCATCACCGACGTAGATGTCCACCGCCATCGCGGGGTCCGTCATCGCAGGGAAGGCGGATTGCAGCTGGTCGCCGTTCGGGCCGGTCCACTGCGCGGTCGGGGCGAACACGCCCTCGACGGCGAGCTGGTTCTCGCGCCGCTCCGTCAGGTCCGGGTACATCCCGGCGGGCGGGTCGAAGCGCATCACGCCTGA	MSGVARDLVVGVLGGAVETHGDPAVDGDLLARGEVDAVDLLQPAVGDERLIQDEDVLRPARVQARITDVDVHRHRGVRHRREGGLQLVAVRAGPLRGRGEHALDGELVLAPLRQVRVHPGGRVEAHHA				NA	NA	NA	NA	NA
AK009_08429	1209			hypothetical protein	GTGCAGTCCGGCGATGACGGTGTTGACGTAGGTCATGTTGAAGATCGTCATAGCCAGTGCGAACACGTTGATCCACGCCGCGCGGACGTTCTTCCACCCGGCGGTGGCGCGCGCGTGCAGGTAAGCGGCGTAGAGGATCCAGGTGATCATCGAGACCGTTTCCTTCGCGTCCCAGCCCCAGAAGCGGCCCCACGCCACCTCGGCCCAGATCGCGCCGAACACGATGCCGATGCCGAACAGCGGCAGGGTGATAATCGCTGTTTTGTACGTGATCTGGTCCAGCGTCTTCGCGCTCGGCAGGGGCTTGGCAATCGCGCCGAAGAAGCCACGCTCCTCGCCGCGCGGCTGCCACATACGCAACAGGTACAGCAGGGCGAACAGGCCGGAGACGATGCCGATCGACGCGCCGATAGACACCGAGGACACGTGCACCGGCAGCCAGTACGACTGCAGCGCCGGCACCACGGGCGCCGCCGCCATGTGGAACACCGTGGAGTTGAGGAACATCGCGATGATCATCGGCGAGAGCACCCACGGCCACAGCGTGTGCCAGCCCCTGCGCTGAATCACCACCGCGGCGGCGACCATCACCACCGCGGACATGAACAAGATGTACTCGTACAGGTTGCCCAGCGGGAACCGACGCGCGGCGAAACCGCGGGTAACAAACGACGCCAAGTGCAGCAGGATGCCGAACCAGACGAGCGCCTGCGTCATGTTCGCCCACTTGCGGGCACCCGAAACGCGGCGGTCGAACTCGGCCTGGTCGAACTCGGCCTTGTCGAAGTCAACCGCGCTGTCCACCACCACGTCGGGGCCGCCCGCGCCGACGGCGACTTTCTGGGCGGTTCGCGCGCGCTCGCGGCGCATGTCGATCACGCCGAACATACGCCCGTAGTAGACGCAGGACATGATGAGGGCGACCAGGTAAATGACGAATGCGGTGCGGAACGTCAGGTCCGACAGGTCCGCCATGGTGGAGTCGACGAGCATAGGGCAAACTTACCCCAGTGCTGCGACATTAACCAAGGTCTTCTAGGTCACTTTCCTCGTCGTCGTCCTCGGCCGAGCCGCGGCCTAGGACGCGATCGGCGATCTCGTCGAACTCCGTGCCCCAGCCGGCGCGGTCGGTGCGCGCCAGACCAGCGAGTTCAACGCGGGTCGAGCCGCCCTCGGGAGCAAGGCGCACCCAGACGCGGCGGCGCTTGA	MQSGDDGVDVGHVEDRHSQCEHVDPRRADVLPPGGGARVQVSGVEDPGDHRDRFLRVPAPEAAPRHLGPDRAEHDADAEQRQGDNRCFVRDLVQRLRARQGLGNRAEEATLLAARLPHTQQVQQGEQAGDDADRRADRHRGHVHRQPVRLQRRHHGRRRHVEHRGVEEHRDDHRREHPRPQRVPAPALNHHRGGDHHHRGHEQDVLVQVAQREPTRGETAGNKRRQVQQDAEPDERLRHVRPLAGTRNAAVELGLVELGLVEVNRAVHHHVGAARADGDFLGGSRALAAHVDHAEHTPVVDAGHDEGDQVNDECGAERQVRQVRHGGVDEHRANLPQCCDINQGLLGHFPRRRPRPSRGLGRDRRSRRTPCPSRRGRCAPDQRVQRGSSRPREQGAPRRGGA				NA	NA	NA	NA	NA
AK009_08430	177			hypothetical protein	GTGAATCACAGCCTCAATGTCCGGGTGCTCGTCGACGACGCGGTTGAGCAGCGCAACATCGGCGATGTCGCCCTCGTAGTGGGCGAAGCGCTGCGCGAACGTGCGCAGGCCGGTGGAGTAGTCGTCGAGGATGACGGGCGTGATGCCACTATCGGCGCAGCAGGACGCGACCGTTGA	MNHSLNVRVLVDDAVEQRNIGDVALVVGEALRERAQAGGVVVEDDGRDATIGAAGRDR				NA	NA	NA	NA	NA
AK009_08431	327			hypothetical protein	GTGGACGTAGTCGCGCAGGCCCGAGCCGTCGCGGGTCGGCCAATCCACGCCCGTGACGTGGAAGGGCTGCCCCGCTTGCTGGGCGGTGATCATCTTGCCCAGCGCGTGGGAGGGCGCGGGGTTTTGCAGGCCGGTGCGCATCTGCGGGTCGGCGCCGATGGGGTTGAAGTAGCGCAGGGCGGTGGCGCGGATGTTGCCGGCCGCGGCGGCGTCGGCAAGCACGTGCTCGAGCATCCACTTCGACGCCGCGTACGGGCTCGTCGGGTTGACGGTGCTGGTTTCGCTGACCATGAAGTCCTCGCCGGGCTCGTACATGGCGGCGGTTGA	MDVVAQARAVAGRPIHARDVEGLPRLLGGDHLAQRVGGRGVLQAGAHLRVGADGVEVAQGGGADVAGRGGVGKHVLEHPLRRRVRARRVDGAGFADHEVLAGLVHGGG				NA	NA	NA	NA	NA
AK009_08432	246			hypothetical protein	ATGGCAGGTCCGCGAAATAAGGCAGGTAAGCCGGCGAGCGAAGATCCCGTGCTGATCTCGCTCGGGGAGCAGATCGCGTGCGCCCGACGCGCTGCGGGGCGTCTCCAGCAGGAGGTTGCCGAGGTCGCGGGCGTGTCCCGCTCGACGCTGCACACCATTGAGCACGGCGGTGCCGGGGTGCGCTGGGAGAAGGTCGCGGCCGTCGCAGCCGCGCTCGGCCTGGCGATGACCTTCCAGCCCGTTTAG	MAGPRNKAGKPASEDPVLISLGEQIACARRAAGRLQQEVAEVAGVSRSTLHTIEHGGAGVRWEKVAAVAAALGLAMTFQPV				NA	NA	NA	NA	NA
AK009_08433	231			hypothetical protein	GTGCTGCTCGTCATCCTCGCGGTGTGGATGCTGTGGCGCGCCTTTGGCCCGGGCAGCTCCGCCCGCAACAACACCGAGGCCCCGCCAGCCATCAAGGGTCCGGACGACGACGAAGAGTTCCTCTGGAACATCGAAAAGGAGCGGTTCAAGGAGCGCCGCGCACGCGAAGAAGCGGAGCGCCGCAAGCGCGAAGAGGAACAGCGCCGCAAACGCCTCGAGGACGAGGACTAA	MLLVILAVWMLWRAFGPGSSARNNTEAPPAIKGPDDDEEFLWNIEKERFKERRAREEAERRKREEEQRRKRLEDED				NA	NA	NA	NA	NA
AK009_08434	312			hypothetical protein	GTGACTGAAGTAGATGCCCCCGAGGTTGACCCGAGTGCCCGCGCCCGCGCGAACAAGGCCATCGCGGTGTACGGCGGGTTGCGCCTGCTGCTGTTCATCGGCCTCACCATCGGGATCCAGCTCCTCGCTGTCGCCATTGGCGCTCCCGTGCCGCTGATCATGTCTGCGCTGCTCGCGCTTATCGTCGCGTTCCCGCTGTCGATGTTCCTGTTCTCCCGCCAGCGCGTCGCGGCCGTCGAGACGTTGGCCACGTGGCGCGCCCAGCGCGACGCCCGCAAGCGCTGGATCCGTGATGAGCTGGCGGAGCGCTAA	MTEVDAPEVDPSARARANKAIAVYGGLRLLLFIGLTIGIQLLAVAIGAPVPLIMSALLALIVAFPLSMFLFSRQRVAAVETLATWRAQRDARKRWIRDELAER				NA	NA	NA	NA	NA
AK009_08435	492			hypothetical protein	TTGTGCCGTCGGCAGCGCCGCGAGGATGACCGCCGCGTAGAGGTGGTTGCCTTCGAGGCCCGCTGCGGTGGCGATTGCCCAGGCGACTATCGGCATGACCGCGAGTTTCAGGGCGGTTGCGGTGAGCGTCGGCAAGCGATCTGGCCCATGGGTCAGGACTCGGGTTCCCTTGAGCGAGGCGCCGAAGCTCATCAGGATCAGCGGGATGGACGCGCCGCCGAGGATCTTGATCGGCGCCATGATCGGCTCGGGGATGGTCAGATCCGTCGCGGAGACGACGAAACCGGCGATCGCGGCGAGCACCATCGGGGCCGTCAGGCCCGCGACGATCGAATCGCGTACGTGCCGCCCGCCCCCCGCGTTGAGCCCGGCGATGACAAACGGCGACAGCACCGCCATCTGCATCACCAGCGCCGGCACGACGTAGGTCGCATCCCCGATGACGTAAATCGCGATGGGCAGGCCCATGTTCACCGAGTTGAAATAGCTTGA	MCRRQRREDDRRVEVVAFEARCGGDCPGDYRHDREFQGGCGERRQAIWPMGQDSGSLERGAEAHQDQRDGRAAEDLDRRHDRLGDGQIRRGDDETGDRGEHHRGRQARDDRIAYVPPAPRVEPGDDKRRQHRHLHHQRRHDVGRIPDDVNRDGQAHVHRVEIA				NA	NA	NA	NA	NA
AK009_08436	183			hypothetical protein	ATGGCAGGAAAATTCGAGGTTTACGAGGACCGCTCCGGGAAGTTCCGCTTCCGCCTCAAGGCGGGCGACGGTGAGGTCGTCGCGACGGGCGAGGCTTACAACTCCAAGGCGACCGCGATCAAGGGAACCGCGGCAGTGCAGCAGGCGGCGGCGGATGCAGAGGTCAAGGACCTGACCGCCTAG	MAGKFEVYEDRSGKFRFRLKAGDGEVVATGEAYNSKATAIKGTAAVQQAAADAEVKDLTA				NA	NA	NA	NA	NA
AK009_08437	492			hypothetical protein	GTGCGCCTCCGACTGTCCTCGGCGGCGCTCGAGTTCGGTCTCGATCGCTTCCTCGTCGTCTTCGTCGCCGAGGTCGTCGAGGCCGTAGTACGCGAGCTGCGCAATCTTCAATGCAGCCATGTACGCCGCCCCATCCGCCGCGTTGAGCCTGGCAGAGATGACCACGTCGCCGTTGTCGTCGATACGCACGTCGTGGTGATATTTGGGCGCTTCCAGTTGATCTTCCTGCTTATCGACGCCCGCAAGCGCGCGTTTCAGCTCCGCAAAGCAGAGCTTCTCGGCCAACATCACCAGCTCCGCCTCCGTTTCGGGGGTGAGGTATCGCAGGAGATACCTGACCGTCGAATAGCTCAAGCGGCCGGTGCGGAAAGAGGCGGTGAGCAGAGGGAAATACGCGAGCTTGCGCGCCACGCTGACGTATTCGAACGCCGTGGAGACTGCGATGCGAGTCTCGCGCGTGAGCCATCCAGCCGTGCTGGTTTCGCCGAATGA	MRLRLSSAALEFGLDRFLVVFVAEVVEAVVRELRNLQCSHVRRPIRRVEPGRDDHVAVVVDTHVVVIFGRFQLIFLLIDARKRAFQLRKAELLGQHHQLRLRFGGEVSQEIPDRRIAQAAGAERGGEQREIRELARHADVFERRGDCDASLAREPSSRAGFAE				NA	NA	NA	NA	NA
AK009_08438	1242			hypothetical protein	GTGCACGTCGGATCACCCGCGAAGCATCTCGGCGCACTTCACGGGCAATTACTCGCGCGTTGGCCCTCCGACGAAGGACGACATGTACGCCTCACTGCTCGCGATGATTCATATGGTGAGGACGAATCCCGTGAGCGAGCTCCGCGCGCCGGGTGCGCACGTGAACATCATGATGACCACCAACGGCCGCGCGTGGCTTCCCGGCAACGTCGAGGCGCCATCAAAAGTGCTGGAAGCCTACGTCAACAACGCATTCGTGCGCCTGCAGATGCTGGACAAGAATGGTTTAACGCTTCATCTTGGCCGGAAATCGCGCTTCGTCAACAACGCCCAGTTCCGCGCACTCCTCGCGGTGTGGGGGTTCGAGTGCGCGATGCCGGGGTGCAACCATGCGAGGTTCCTCCAAGTGCACCACATCGAAGAATGGGCCGAAGGGGGCGAGACGAACCTGGAAAATTTGATCCCACTTTGTTCCGCCTGCCACTCGCGGGTCACCAACGGATACGTACACATCACCACAAACGGGCGAACAATCGAGTTCCGCTTCCGTGGCGGGCGCAGATTCGTCTCCCACGGCGGAGGACTTCCGGAGAAAGCCAGGCCCTTTACCGGGCCCCTCGTGCCGGCAGCCGCGGAAAACAGGGAGAACCACCCGCGGGGACGGGACTTCGCCGACTAAACCAAGGGGTAATACATGGGCGCGTACCACATGCCGCCGCCCACGACGAGCGCGACGGCGGTGGCCACGGTCCACACAAGCATCGCCTTGCCGTTGAGCCCGAGCACCGGAATCAGGGCCGGCCCCTGCGCGCCGCGCAACACCTTCAACACCGATGCCAGCGCGAGGGGCAACGCGAGCAGGGCCGCGAGAGTGGGCAGGGAGAAAATCGCGAGGACGAACGTCATGACAAAGGGCGCCATGGTCAACGCGGCGAAGAGTCGGCGCGCTTTGGCGTCGCCAAGCCGCACCGCGAGCGTGTTCTTCCCGGCTACGGTGTCCGTAGGGATGTCGCGGATGTTGTTCGCCAGATTCACGGCCGCGGAGATGGAACCCACCGCCACCGCGCAGAGGAAACCGACCACGCTGACACGGCCGGATTGGGTGAACTCGGTACCCATAACGGCGACGAGACCGAAGAAGATGAACACCGCGAGCTCGCCAAGGCCCTGGTAGCCGTAGGGATTTTTGCCGCCGGTGTAAAACCACGCGGCGGCGATACAGACTGCGCCTACCAGAATTAG	MHVGSPAKHLGALHGQLLARWPSDEGRHVRLTARDDSYGEDESRERAPRAGCAREHHDDHQRPRVASRQRRGAIKSAGSLRQQRIRAPADAGQEWFNASSWPEIALRQQRPVPRTPRGVGVRVRDAGVQPCEVPPSAPHRRMGRRGRDEPGKFDPTLFRLPLAGHQRIRTHHHKRANNRVPLPWRAQIRLPRRRTSGESQALYRAPRAGSRGKQGEPPAGTGLRRLNQGVIHGRVPHAAAHDERDGGGHGPHKHRLAVEPEHRNQGRPLRAAQHLQHRCQREGQREQGRESGQGENREDERHDKGRHGQRGEESARFGVAKPHRERVLPGYGVRRDVADVVRQIHGRGDGTHRHRAEETDHADTAGLGELGTHNGDETEEDEHRELAKALVAVGIFAAGVKPRGGDTDCAYQN				NA	NA	NA	NA	NA
AK009_08439	1044			hypothetical protein	GTGCGCGCCACCGAAAAAGGCGGCGGCGCCGGTCCCGGCGATCACGGGAGCGAACGCATTTGCCCAGGTATGGGGCCGTGCGGCGTCGTAAAAGTCCCGCGCGGTAGCGGAATAGGAGTCAGAGGTCATGGCTTCTATCATGCCCGCCGACAGCGTCGCGGGCACCGAATGCGACTAAGGTTGGCCGTCATGTGGATCGACTACGCAGCTCGCCAAGCGATAATTTCGCTTGGCGCTTTTGTGCGTGCGCCGCGTCTAAAGCTCGCGGCTGAAGCTTCGCCGCTGTCGTTCCCTCAAGAAGGCTCCACCGTCATATCCTTGACTACTCACGGCGATCGCATGGCGACTTCTGTGGCTTCGATTGCGTCGCTCCTGATGGGCACGCAGCTTCTTCCAGTGTTCCTCTGGCTGGATCGCGCCGACTTTGAGTCGGACTGGCCCGAGGGACTGCGGGGTTTGGTTGACCGGGGACTTCAGGTACGTTGCTCGGACGGTGCTTTTGGTCCACACACGAAGTATTTTGGCACTTTTGCCCAGTTCGCTGGGACCGACACGCGCGTGATCACGGTCGACGACGACATGATGTATCCGCGCTGGTTTGCCCAAAAACTCCTCAACGCCTCCGACGCTGACCCGCACCTTGTTGTGGCGTACCGAGCACACGAGATTGCCTTCGACGGTGATGAGCTGGATATATACCGGCGCTGGAAGCGGGTCTTTACAACAGCGCCCTCGCACCGCCACTTCGCTACCGGGGTGTCCGGGGTGGTGTACCCGCCGTCGATGGTCGACTACGTCGCCGACCAGGGCACCGATTTTCTCGAGTGCGCCCCGAACGCCGACGACGTGTGGCTCAACGCCTGCGCACTGCGCTCTGACCACAGAGTGCGCCAGGTTTTTCCTCACCCACGCGAGTTTTCCATCGTGCCGGGTTCGCAGCGCACCGCGCTGGTGCACAAGAACCTCCGCGGCGGGGGCAACGACAAGCAGATCGAGGCAACGTACACGCGTGACGACGTCGAAAAGCTCCTGCATGAGTCCTAA	MRATEKGGGAGPGDHGSERICPGMGPCGVVKVPRGSGIGVRGHGFYHARRQRRGHRMRLRLAVMWIDYAARQAIISLGAFVRAPRLKLAAEASPLSFPQEGSTVISLTTHGDRMATSVASIASLLMGTQLLPVFLWLDRADFESDWPEGLRGLVDRGLQVRCSDGAFGPHTKYFGTFAQFAGTDTRVITVDDDMMYPRWFAQKLLNASDADPHLVVAYRAHEIAFDGDELDIYRRWKRVFTTAPSHRHFATGVSGVVYPPSMVDYVADQGTDFLECAPNADDVWLNACALRSDHRVRQVFPHPREFSIVPGSQRTALVHKNLRGGGNDKQIEATYTRDDVEKLLHES				NA	NA	NA	NA	NA
AK009_08440	1329			hypothetical protein	GTGGTGGGGGTGGCGAAACACCATCTGCCGCACGTTCATTTCCCCTCCGGCGATGTCCTCGATGTAGCCCGTGACGTGGGTGTCTTCAACGCAGTCGCGGAACCCGGGGGCGAAGCGCTTGATCTGGCGCGCGATGTGGCCCGTGGCGTCGCCAGTGTAACCGTGCGGGACGTGGGCGTAGGTCCACAGTGTGGTTCCGCGCGAGGGGTCGGCGACGTACTGCTGGCACACCATGACGAACGGCCGGTTCGGCATCAACCCGCGCGCGATCTGCTTCTCCGCGTGGGCGATCTCCGCGGCGGTGCCGCCGACGTGCACCGTTGCGGCCTGCCCGACGCGCGGGTCGCGCCACGGCACGGGGTTATTCAGCAGCCAATCGACCTTGAATACCCCCGGCCCCGGGTGCAGCGGGCGCGCCCCGAAGCGCTGCGCCTCGCGTGCTGTCATGTTGAGCACCACCGCATCGGCTTGCGGCAGCGTTTCCACCTCCACCCCGGTGCGGATTGTCACCCCAGCGTCGCGCGCCTGCACCGCCAGGGTCTCGGCCACGGTCTGGGCCCCGCCGCGCGCCACGGGCCACCCGTTGGCGTGCGCGAGTGCGCCGAAGAGCACCCCGAACGCGGCGGTCAGCGGGCGCGTTGGCGAGCTCATGGAGTGCACGGCGTTGCCCACGAGCAGCGCTTTCGCCTCCTCGGTGCGAAACAGCAGGTTGCCCAGCGCGGTCGCGGGCAGCGCGCCGCGCACGCCGAAGCGCGCCATCGCCACCGGGTGCGGCGGGACGCGCAGCATGGTGGGCCCGAGGATGTTCGCGAGATGCTTGTCGACGTCCCGCGCCACCGGAAGGTGCAGCGCGTCCCAGGCTTTCTGGTCGCGCCCGAGGGCGTCGATAAGCGCAGTGCTCCTGGCCAGCGGATGCGCGACCGGGCGCGGCGCGCGCACCCAGTCGGCGTCGAGTGTTTGCGCGCCGAACGGGAACGCGGCGGCCCCGAGATCGCTGACCGCGCCCGGGAAGAGCTGTGCGGAGCGGCATTTGCCGCCGATTGTGTCCTCGCGTTCGAGCACCTCGACGCTCCAGCCGGCGCGCGCGAGGTTCAGCGCGGCGGTCAGCCCGTTGATGCCGGCGCCGACGACGACGGCTTTAGGACTCATGCAGGAGCTTTTCGACGTCGTCACGCGTGTACGTTGCCTCGATCTGCTTGTCGTTGCCCCCGCCGCGGAGGTTCTTGTGCACCAGCGCGGTGCGCTGCGAACCCGGCACGATGGAAAACTCGCGTGGGTGAGGAAAAACCTGGCGCACTCTGTGGTCAGAGCGCAGTGCGCAGGCGTTGA	MVGVAKHHLPHVHFPSGDVLDVARDVGVFNAVAEPGGEALDLARDVARGVASVTVRDVGVGPQCGSARGVGDVLLAHHDERPVRHQPARDLLLRVGDLRGGAADVHRCGLPDARVAPRHGVIQQPIDLEYPRPRVQRARPEALRLACCHVEHHRIGLRQRFHLHPGADCHPSVARLHRQGLGHGLGPAARHGPPVGVRECAEEHPERGGQRARWRAHGVHGVAHEQRFRLLGAKQQVAQRGRGQRAAHAEARHRHRVRRDAQHGGPEDVREMLVDVPRHRKVQRVPGFLVAPEGVDKRSAPGQRMRDRARRAHPVGVECLRAERERGGPEIADRAREELCGAAFAADCVLAFEHLDAPAGAREVQRGGQPVDAGADDDGFRTHAGAFRRRHACTLPRSACRCPRRGGSCAPARCAANPARWKTRVGEEKPGALCGQSAVRRR				NA	NA	NA	NA	NA
AK009_08441	411			hypothetical protein	GTGCAGTTTCAACCCGCCGGAGTCGATGACGTTGTCCAGGCGACCGGAGACGGTGAGGAGGCCGTCGACAAGCAAGCCCGCGTCCGAGGTGGCGAACCAGCCGGGCTCGGCGAACGCCTCGTGGCCGGGCAGGTTGCGATACCCGCGCGCAATCGTCGGGCCACCCAGCAGGATGCGGCCGCCAGCGATGCGGACCTTCGCGCCGGGCAGCGGCCGGCCGTCGTAGACGCAGCCGCCCGCGGTTTCGGAGGAGCCGTAGGTGGTCACGACGTTAACCCGCAGGTCGCGGGCGGAACGCAGCAACGTGGGGTTGGTCGCGGCGCCGCCGACCAGCACTGCGCGGAAAAGGCGCAGGGCCTCGATGCCCTCGAGGGTGGACAGTGCCTTAGCCAGCTGCATCGGTGTCAGTGA	MQFQPAGVDDVVQATGDGEEAVDKQARVRGGEPAGLGERLVAGQVAIPARNRRATQQDAAASDADLRAGQRPAVVDAAARGFGGAVGGHDVNPQVAGGTQQRGVGRGAADQHCAEKAQGLDALEGGQCLSQLHRCQ				NA	NA	NA	NA	NA
AK009_08442	453			hypothetical protein	GTGCGTCGCATCCGCGCTGGACACCAGGTTCGCGCTGGTCAGCTGCGCGCCCTTCGGGCGGCCCGTGGAGCCGGAGGTGGACACGACCAGCGCGACGTCGGCGTCAATCGGCTCGCCGACGCCCTGGGTGTTACGCAGCAGGTTCGCGCGCGCCGGGTCGTCGGTAGGCACGGGCAGCAGGCTGCGGTGGCCGGCGAGGGCCTCCTCGAGGTCGTTGAGAATGGCCAGCGGGTCGCGCTGGTCGACGGGGAGGACTTCGAGGCGGTGCACGCAGGTGATTCTAGCGGGGGAGGGGAAACCGCGAGCACGCAGCGCGGATCGCCAAAGGTATTACCCCCGGGGAACCATGCGGGGCGCGACTGCGACAACTTTCCCGTCCCTTCGAACCGAAAGTTGAGGTCGTGTCGACCATTGTTCAGTCCAGCTCGACGGCGAGTGGGTTGCCAGCGCTGA	MRRIRAGHQVRAGQLRALRAARGAGGGHDQRDVGVNRLADALGVTQQVRARRVVGRHGQQAAVAGEGLLEVVENGQRVALVDGEDFEAVHAGDSSGGGETASTQRGSPKVLPPGNHAGRDCDNFPVPSNRKLRSCRPLFSPARRRVGCQR				NA	NA	NA	NA	NA
AK009_08443	153			hypothetical protein	GTGCCGCAGGGGCAGCTCGCCGAGGCCCGAGTAGCTGGGTGCGTCGCCGATCACCTGCCCGCCGTGCGGGTTGACCAAGACGCTGCGCAGTTCTTCGTTTTCCGCGATGGACTCGTCGATAAGCAGCACTCGCGTGGGTTCGCTTGGGCTTGA	MPQGQLAEARVAGCVADHLPAVRVDQDAAQFFVFRDGLVDKQHSRGFAWA				NA	NA	NA	NA	NA
AK009_08444	357			hypothetical protein	GTGGGAGCCGTCCTTGGGCACGAAAAGCCGCAGTTGCCCGGTCAGCCCCTGTGCTGTCGCGGTATCGAGCACGACCGCGGCTTGGTCCGCCACCTCCGCCGGGCTCAACTTTTCGCCCGGCCGGTCAATCTCGGTCTCAATCGGCTCGGCCTTCGCACCTATCCTCTCGACGGTTTTGCCCACGTTTTCCCCGGCAAGCACGGACCACGTCACGCCGGTTACAGACAGCCCGAGCGTGCCGACGAGCAGCCAGGTGCCCACGACACCGTGGAGGTTAACCACCCGCCCGCGCCGCGACGTGCGCTTTTCCAACCCGGTCAGCACCCGCGTGCGGGTGACGCGCCACCACAGGAATAG	MGAVLGHEKPQLPGQPLCCRGIEHDRGLVRHLRRAQLFARPVNLGLNRLGLRTYPLDGFAHVFPGKHGPRHAGYRQPERADEQPGAHDTVEVNHPPAPRRALFQPGQHPRAGDAPPQE				NA	NA	NA	NA	NA
AK009_08445	507			hypothetical protein	GTGGCAGGCGAGCGAGCGGTGGGTGCCGTGGCGAGTCACCTCGGATGCTGTGAGCGTCGACGCTCTGCCGTTAAGCGAGCTCCCCCTGTTTTCCAAGCTCATGTCCTGGGGCATCTACCTGCACATGGGCATCATGTTCGGGCTGCCGCTCCAAATCGCCCTGGCGCTGCTGGCGCTCGGGATCTGCGCAATGACCGTGATGGGCTACGTGATGTGGTGGCGCCGGCGCCCGAGCCACACCGGTGTCGCCGGGGTGCCGGGGCGGACGAGACTGACGCGCACCGACTGGGTGATTGTGGCGATCTTCGGGGTGGCCGTTGGGCTGTTCCTGCCCCTGTTCGGACTGAGTTTTGCCGCGATGCGCGTCGCGGATCGGCTCCTGGCGGCGCGGGCGGCGCAGCGGTCGGCGTGGTCCGCCTAAACCCGGACACAGAAACCCACACGGTACGAAAATGCAGCGAGTTTAGGCTGAGCACCCGCGCTCTGAGGCGTCCGGGTTTAGGGTGA	MAGERAVGAVASHLGCCERRRSAVKRAPPVFQAHVLGHLPAHGHHVRAAAPNRPGAAGARDLRNDRDGLRDVVAPAPEPHRCRRGAGADETDAHRLGDCGDLRGGRWAVPAPVRTEFCRDARRGSAPGGAGGAAVGVVRLNPDTETHTVRKCSEFRLSTRALRRPGLG				NA	NA	NA	NA	NA
AK009_08446	438			hypothetical protein	GTGAGCGCCCGCGCCCTAGTAGAAGTACGGGAACTCGTCCCAGTTCGGGTCGCGCTTGTGCAAGAACGCGTCGCGGCCCTCGACGGCCTCGTCCGTCATGTAGGCCAGGCGCGTTGCCTCGCCGGCGAACACCTGCTGGCCCATCAGGCCGTCGTCGGTGAGGTTGAACGCGAACTTCAGCATGCGCTGGGCGGTGGGGGACTTGGTGTTGATCTCCCGCGCGGCCGCGATCGCCTCCTCCTCGAGTTGGCCGTGGTCGGCAACGATGTTGACCGCGCCCATGCGCTGCATATCCTCTGCGGTGTAGGTCCGGCCAAGGAAGAAGATCTCGCGCGCGAACTTCTGCCCCACCATCTTGGCCAGGTACGCCGAGCCGTAGCCGGCGTCGAAGGATCCGACGTCGGCGTCCGTCTGCTTGAAACGCGCCTCCTGGCGTGA	MSARALVEVRELVPVRVALVQERVAALDGLVRHVGQARCLAGEHLLAHQAVVGEVERELQHALGGGGLGVDLPRGRDRLLLELAVVGNDVDRAHALHILCGVGPAKEEDLARELLPHHLGQVRRAVAGVEGSDVGVRLLETRLLA				NA	NA	NA	NA	NA
AK009_08447	228			hypothetical protein	GTGGAGGGAGTGCCCGCCCCCGGCGGCCCAGCCGTTCACCACGGCGATGACCACCTTGGGCATGGTGCGGATCAGGCGCTGTACCTCGAGGATGTGAAGGCGCCCGCCCTCGGCCTTCACCCGAGCGGAATCCACCTCACCGGAGTCGGAGGCGTACTGGTAACCGGAGCGGCCGCGGATGCGCTGGTCGCCTCCCGAGCAAAACGCCCAGCCGCCGTCCTTGTCTGA	MEGVPAPGGPAVHHGDDHLGHGADQALYLEDVKAPALGLHPSGIHLTGVGGVLVTGAAADALVASRAKRPAAVLV				NA	NA	NA	NA	NA
AK009_08448	963	menC_2	COG4948	o-succinylbenzoate synthase	ATGCTTACACTTTGCCCCATGACACCGAGTATCGACGACATTCTCGACCGCGCCCACGTTGTTTCTCTGCCGATGGCGGTGCGTTTCCGGGGCGTCGATACGCGTGAGGCCCTGCTTATCGACGGCCCCGCCGGCTGGGGCGAGTTCTCGCCCTTCCTCGAGTACGGCCCGGAGGAAGCCGCGCACTGGCTCGCGGCGGGCATAGAGGCCGCGTTCGAGGGGCTACCCGCGGCGAGCGGCTGGGTGGAGGTCAACGGCACCGTCCCCGCAGTGGGCCCCGCCGAGGTGGAGAAGGTCCTCGAAAGGTTTCCTGGTGTGGGCACCTTCAAAATCAAGGTTGCGGAAAAGGGGCAGTCGCTTGACGACGACCTCGCCCGCGTGAACGCTGTCCGCTCCCTGCGGCCCGGGGCGGTGCTCCGGGTGGATGCCAACCGGGGCTGGAGCGTGGACGAGGCCGTCGAGGCGGCGCACCGGTTGGGCGAGCTCGAGTACATCGAGCAGCCGTGTTGCACCGTGGAGGAGCTCGCCGAGGTGCGAGCGCGGGTGGCGACACCGATTGCTGCCGACGAGTCGATCCGGCGCGCCTCCGATCCACACCGGGTGGCGAAGCTCCGGGCGGCGGATGTGGCCGTTGTCAAGGCCGCGCCGCTCGGCGGCGTGCACCGGCTCCTGCGCGTCGGGGAGGAGCTGGGGCTCGACCTCACGGTCGCCAGCGCCCTAGACACCGCCGTCGGTGTGGGCGCGGGCCTCGTGGCTGCCAAGCTGGCCGGTTCTCGGGCGGCGGGGTTAGCCACCCAGAGGCTGTTCGTCGAAGACGTCTGCGAACCGCGGGAGATCGTCCACGGCCAGCTTGAAGTGCGATTGGCTACCCCCGATCCGGAGCGACTGCAGGGGTTGCGTGCCCGTCCGGAAAGGAGAGAGTGGTGGTTCCGCAGGGTACGCGAGTCCTACGCCCACCTATAG	MLTLCPMTPSIDDILDRAHVVSLPMAVRFRGVDTREALLIDGPAGWGEFSPFLEYGPEEAAHWLAAGIEAAFEGLPAASGWVEVNGTVPAVGPAEVEKVLERFPGVGTFKIKVAEKGQSLDDDLARVNAVRSLRPGAVLRVDANRGWSVDEAVEAAHRLGELEYIEQPCCTVEELAEVRARVATPIAADESIRRASDPHRVAKLRAADVAVVKAAPLGGVHRLLRVGEELGLDLTVASALDTAVGVGAGLVAAKLAGSRAAGLATQRLFVEDVCEPREIVHGQLEVRLATPDPERLQGLRARPERREWWFRRVRESYAHL	PGPT0009375_1945	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
AK009_08449	1230			hypothetical protein	GTGGTGGATGACGGAGGCTATCCCGCTCGCCGCGACCGCACTGCTGCCGATCGCGATCTTCCCGCTCGCCGCTGTCGCCCCGTTCTCCGCCGTCGCCTCGCCCTACGCGTCGTCCACGATCTTCCTCTTCCTCGGCGGGTTCCTCATGGCGCTGGGTCTGCAGCGGTGGAACCTGCACCGCCGGTTGGCGCTCGCGGTGGTCTCCGTGGTGGGCACGAGCCCGAAGCGCATCATCCTCGGGTTCATGATCGCCACCGGGTTCATGTCCATGTGGGTGTCCAACACCGCGACTGCCGTGGTCATGCTACCGATTGGCGTCTCCGTGCTCACCCTGACCGCCGAGTCCGTCGGGGGAATGTCCAAGCAGAAGAACTTCGCCACCGCGCTGATGCTGGCTATCGCGTACGCGGCGTCGATCGGTTCGCTTGGCACCCTGATCGGCACCCCGCCGAACGCGCTTCTTGCCGGGTACATGAAGGAGGCGCACGACATCACGATCGGTTTCGGCCAGTGGATGCTCGTGGGCATGCCGGTCGCGATCGTCTTCACCGTGGTCGCCTGGCTGGTTCTCATCACCGTGTTCAAGCCCGAGGTCGACGAAATCCCCGGCGGCAAAGCGCTCATCCAGGAGGAGATCCAGAAACTGGGCAAGTGGAACTTCGCCCAGGTCGCAGTGGGAATAATCTTCCTCGCAGCGGCACTGGCGTGGATTGTTATCCCGCTCGCACGCGACTACTTCGGCTGGGAATTCCCGTACGACGACGCCGTCGTGGGCATCATCGCAGGCTTGCTCATGTTCGCCCTCCCCGTGGAGAAGAGCGGAAAGCGCGTCATCGACTGGGACACCGCAACCGATGTGCCGTGGGACGTCCTCATCTTGTTCGGCGGCGGCCTCTCCTTGTCCGCCATGTTCACCTCCACCGGTTTGTCCCTGTGGATCGGCGAGGCCGCGAAGAACCTCGCCGCGCTGCCGATCTTCCTGCTGATCCTCGCGGTTTCGGCCCTGGTGCTCGGTTTGACGGAGCTGACCTCCAACACCGCGACCGCAGCGACCTTCCTGCCCATCATGGGCGGCGTCGCGGTGGGCATCGGTTTGACCGGTGGCGGCGAGATCAACGTGCTGTTGCTCGCTATCCCGGTTGCCCTGTCGGCAACCTGCGCGTTCATGCTGCCCGTGGCGACCCCGCCGAACGCCATCGCCTACTCCTCCGGTTACGTCACCATGGGTGA	MVDDGGYPARRDRTAADRDLPARRCRPVLRRRLALRVVHDLPLPRRVPHGAGSAAVEPAPPVGARGGLRGGHEPEAHHPRVHDRHRVHVHVGVQHRDCRGHATDWRLRAHPDRRVRRGNVQAEELRHRADAGYRVRGVDRFAWHPDRHPAERASCRVHEGGARHHDRFRPVDARGHAGRDRLHRGRLAGSHHRVQARGRRNPRRQSAHPGGDPETGQVELRPGRSGNNLPRSGTGVDCYPARTRLLRLGIPVRRRRRGHHRRLAHVRPPRGEERKARHRLGHRNRCAVGRPHLVRRRPLLVRHVHLHRFVPVDRRGREEPRRAADLPADPRGFGPGARFDGADLQHRDRSDLPAHHGRRRGGHRFDRWRRDQRAVARYPGCPVGNLRVHAARGDPAERHRLLLRLRHHG				NA	NA	NA	NA	NA
AK009_08450	804			hypothetical protein	GTGGTCGCACCACCGGGCCCCGTCGAAGCGGCCCGGGCCGACGCGCCGCGGCTCGCCGTGCGCGGCGGGCAGAGCGGCGGGCACGAGCGGGGTGTCCAGGGCGACGTTGATGTGCACCTGGTCCGGCTCAAACGAGATGTCAGACTCCAGCGAGGACACCTGTTGGGTGGCGGCGTAGCGCCCGAAGATCCCCTCCTGCCAGATCGTTTGCGACGCGCCCGTGCCCAAAAGCCGCGCGGGGCGGTCAGCGCTGATCACGGCCACCGGGGTGTGCGACATGTGCGCCTCGACGACCGCCGGGTACGCGTTGGCCACCGCGGTGCCGGAGGTCATGACCACGCCCACGTGGCGGCGCTGCAACCGCGCCATCCCGAGTGCGGTAAAGGCGGCGGCGCGCTCGTCGATACGCACGTGCACGCGAATATCACCCCGTGCAAGCAGCGCGTAGGCCAGTGGCGAGTTGCGCGACCCGGGGCTGAGGACGACATCAGTAACGTGGCGCGCCAGCGTATCGACGACGTAGGTGGCGAGTTCCATGGAATCCATTGCGCGACCCACTTATCCGTTGAGCAGGCTGTCGAGCAGCCCGCCGACCTCGTCGCGAATCTCCGGCGCCAGCTCCGTGGGGAGCTCGGTCGGCAGCTCGGTGGGGAGCTGCGTCGGGATGCCGGGAAGGCGCGTCGTCGTGGTCGTCGAGGTGGTGGTCGCCGTCGTGGTCTCGGTGACAGTTACCGGCGGCTGGTTCGCCTCCTCGGCGGCGCTGCGCCACAGCACCATGAACAGCACGGCGGCCGCGGTGGCTAG	MVAPPGPVEAARADAPRLAVRGGQSGGHERGVQGDVDVHLVRLKRDVRLQRGHLLGGGVAPEDPLLPDRLRRARAQKPRGAVSADHGHRGVRHVRLDDRRVRVGHRGAGGHDHAHVAALQPRHPECGKGGGALVDTHVHANITPCKQRVGQWRVARPGAEDDISNVARQRIDDVGGEFHGIHCATHLSVEQAVEQPADLVANLRRQLRGELGRQLGGELRRDAGKARRRGRRGGGRRRGLGDSYRRLVRLLGGAAPQHHEQHGGRGG				NA	NA	NA	NA	NA
AK009_08451	453			hypothetical protein	GTGGAGGCCCGTAAACCCAAACTGCTCGTCGGCCAGCGCGTCGCGCACGGTCTGCGCCCCGACCTCGCCGGCGGCCTCGCAGATTTTCAGCCACGTGTCACTGAGCTGGCCTACGGCCTTGACCCGGGACGCGCGGACCTGCGGCTGCGCCGTGAAGGTGTCCGTGCGCGAGAGCCCGATGACGGTGATCTCCGGGTCGTCGAGCAGCGCCATCACCTCGCGGTGCAGCGTGGGGTGGCCCACCACGATCACCTGCTCCGGCTTCGTGGAGGCGGCGAAGTCCCCGCCGTCGTGGCTGATCGACACCGCCGACTGCGCGAAGAACCGCGCCGCCAGCGGGTGGACCTGGTGAAAGGGCGTCGGCGCCGTCGGCTCGGCGATCGTCGGCACGTGCTCGAGCCCCGGCACCTCCCACGCCTCGTCGCCCGCGATGACCAGCGTGTCGCGGCTTAG	MEARKPKLLVGQRVAHGLRPDLAGGLADFQPRVTELAYGLDPGRADLRLRREGVRAREPDDGDLRVVEQRHHLAVQRGVAHHDHLLRLRGGGEVPAVVADRHRRLREEPRRQRVDLVKGRRRRRLGDRRHVLEPRHLPRLVARDDQRVAA				NA	NA	NA	NA	NA
AK009_08452	237			hypothetical protein	GTGCGGGGTGCCGAAGGCCTCCTCGAAGCTGCCGCGGACCTCGGGCGCGCCGACCTCGAGGGTTTCGAAGATACCGCCGCCGTTGTCGTTGGACACGACGATGGTCAGGTTGCTCGGGCGGCGCTGGCCCGGCCCCATGAGCAGGCCGCCGACGTCGTGGAGGAAGGTCACGTCCCCCATCAGCGCCACCGTGCGCGGCGCGCGGACCTCGTCAGGGTGCAGCGCCTGGGTCGCTAG	MRGAEGLLEAAADLGRADLEGFEDTAAVVVGHDDGQVARAALARPHEQAADVVEEGHVPHQRHRARRADLVRVQRLGR				NA	NA	NA	NA	NA
AK009_08453	594			hypothetical protein	GTGAATAAAGAAGAAGTGAATTCTCGGTTACAGTCGCATTTTCGCTTCTCGACGCCCAAACGCAGCGTTTACCCCATAGAAGGCCGCAACCGCCACCAGCGTCGACACCACCGCCACCGACAGCGCCGGGATGATGGCCAAGGTCCAGCCGCGCCCCTCCACCTTGACCAGCTCCGGGTCCGCGGTGGAGTAGGTCACCCACACGCGCTGGCCCTCCCCCAGGCCCGAGGGGTAGAGCAGGCCGTAGCGCGGCGAGTGGTAGCGCCCCTGCTCGTCCTGGTATTCCACGGAGGTGCGCAGCGCCCCCACCTCGGTGACCGTGGCCATGCCGCGGCCGGGGCTGTCCATGATGCGGGCGTCGTTGAGCGCGGGCCCCGCGATCATCGCCACGACGCCCAGCATGGCGCAGGCGTAGAGGGCGATCACGAGCTGCAGCAGGCGGCGGCGCCAGTTGATGTCGCTCAAGCGCGCAACCGCTCCGCAAGCGCTCGGCGCGTGGTCCGGGTTGTCCGCGCCTCGATCAGGGTGATGGGGGCGAGGGCATCGTCGGTGAGGGCGTCGATAAGCTGCGCGAGGCTGTCCGCGCGCACGTAA	MNKEEVNSRLQSHFRFSTPKRSVYPIEGRNRHQRRHHRHRQRRDDGQGPAAPLHLDQLRVRGGVGHPHALALPQARGVEQAVARRVVAPLLVLVFHGGAQRPHLGDRGHAAAGAVHDAGVVERGPRDHRHDAQHGAGVEGDHELQQAAAPVDVAQARNRSASARRVVRVVRASIRVMGARASSVRASISCARLSART				NA	NA	NA	NA	NA
AK009_08454	231			hypothetical protein	GTGGATGTTGCGGGTCCAGTCCCAGGCGACGTTGGCCAGCACCGCGGCGTGGTACTGGGTGGCGAATCCGGCCACGTCCGTCTGGTACAGCCCGACCGTGGGCACCCCGAGCTGCAGGGCGGCGAGCATGCCGGCCCCGCCGAGGACGAAGGGACTGGCGAGGTGGATCACGTCCGGCTCAAAATCGGCCAGCGCGGAGGTGATCGTGGTCGTGGGCACACCGATGGGTAG	MDVAGPVPGDVGQHRGVVLGGESGHVRLVQPDRGHPELQGGEHAGPAEDEGTGEVDHVRLKIGQRGGDRGRGHTDG				NA	NA	NA	NA	NA
AK009_08455	597			hypothetical protein	GTGCCAGGTCTTGTCTGCGACGGACTCGCGAGCGTTGGATTGCAGTTCGGCGTGGCGGGCATCGTCAAGCAGGTAGCGCGTGGCGTCGACGAGGGTGGCTTCGAAGCTCTCGACGTCAAGAAGCAGGCCGTTGTAGCCCTCCTTGATCAGGTCGATCGGGCCGCCGGCGCGGGGGCCGATGGTGGGCACTCCGGAGGCCTGCGCCTCCTGGATAGCCTGACAGAACGTCTCGAACTCGCCTGTGTGCACGAACAGGTCCAGGCTGGCGTAGGCGCGGGCGAGGTCCTCACCGGAGAGGGCGCCGGTGAATACGGCGTTGGGCAGCGTGTTTTGCAGGGCCTTGCGCTCGGGGCCGTCGCCGACGATGACGAGCTGCACGCCCGGCTCGCTGACCAGCGGGGCGAGGCGGTGCACGCCCTTTTCGGAGGCGAGGCGGCCGACGAAGCCGACGATCTTCTTGCGCCCGGTCGGGTCCCACTGGCGGCGCAGCGTGTCGGAGCGCTTCAACGGGTGAAACAGCGTGGTGTCCACGCCGCGGCCCCAGTGGTAAACGTTGCCGATGCCGTGATCCTCGAGCTCGCGGATTGCCTCCGATGA	MPGLVCDGLASVGLQFGVAGIVKQVARGVDEGGFEALDVKKQAVVALLDQVDRAAGAGADGGHSGGLRLLDSLTERLELACVHEQVQAGVGAGEVLTGEGAGEYGVGQRVLQGLALGAVADDDELHARLADQRGEAVHALFGGEAADEADDLLAPGRVPLAAQRVGALQRVKQRGVHAAAPVVNVADAVILELADCLR				NA	NA	NA	NA	NA
AK009_08456	927			hypothetical protein	GTGGGTCGTCGCGTGCGACTTTTCCCAGGGCATGCTCGCGGCAGGGCGCCACCGCGCGGTTCCCAAGGTCGTCGGCGACGCCATGCACCTGCCCTTCAAGGACAACACCTTCGACGCGGTGACCATCTCCTACGGGCTGCGCAACGTCCACGATTTCGAGGCCGGTCTGCGCGAGATGGCCCGGGTGACCAAGCCCGGCGGGCGCCTGGCCGTCAACGAGTTCTCCACGCCGATCGTGCCGGGCTTCCGCGCCCTGTACAAGAACTACCTGCCGCTCGCGCTACCGGCCCTGGCCAGGGTGTTTTCCTCCAACCCGGACGCCTACCAGTACTTAGCCGAGTCCATCCGCGCCTGGCCGGACCAGTCGGACCTGGCTCGCGCGATCAACCGCAACGGCTGGGAGGACGCCGGCTGGCAGGACCTCACCGGCGGGATCGTCGCCCTGCACAGCGCCGTCAAACCCGGCTAGGCCACGCTCCACAGCGGCTCGCGGGCCGGGGTCAGCTCGCCGGCCTTGCGCCACGCCCACGAAACCAAGTCCCGGTCCTGCTCGGTGACCAAGTTGCCCATCAGCCTCGCGGCCGCGGGCATGAGCCGCTTGCCGACGAACCCACGCAGCGCAACCGGGCCCACCACGGGCAAAAACTGCGGGTAGGTCAAAAGGCGCGCAGCCGTGCGCGCCAGCATGAAGGCGTCGCCGTAGGCGCGGCGCAGCTCGAGCGGCCACGTCAGCGTGAGGTCGGCGCCGGTGGTGATCAGCTCGACGGCCATGCGCGCGGTTTCCAGGCCGTAGTCGATGCCCTCGCCGTTGAGCGGGTTGACACAAGCCGCGGCGTCGCCGATGAGCGCCCAGTTGCGTCCCGCCACGTTGGACACCGCCCCGCCCATGGGCAGCAGCGCGCTGGCGACCGACTCCTCCGGGCCTAG	MGRRVRLFPGHARGRAPPRGSQGRRRRHAPALQGQHLRRGDHLLRAAQRPRFRGRSARDGPGDQARRAPGRQRVLHADRAGLPRPVQELPAARATGPGQGVFLQPGRLPVLSRVHPRLAGPVGPGSRDQPQRLGGRRLAGPHRRDRRPAQRRQTRLGHAPQRLAGRGQLAGLAPRPRNQVPVLLGDQVAHQPRGRGHEPLADEPTQRNRAHHGQKLRVGQKARSRARQHEGVAVGAAQLERPRQREVGAGGDQLDGHARGFQAVVDALAVERVDTSRGVADERPVASRHVGHRPAHGQQRAGDRLLRA				NA	NA	NA	NA	NA
AK009_08457	432			hypothetical protein	GTGGAAGACCTCGGCGCCGCTGGCGCGGGCGGCGTCGAGCAGGGTGGCGTCGAAAAGCGAGCGCGGGCTCGCCGAGCCTTCAGTGCCGAACGGGCCGGCCGGCCAGGCAGCCGTGACGTCGCCGCCGAAACCGTGCAGCTTCAGGCCGCGGTTGCGGTAGGCGGGCACCTCGAGGCCGAGCTCGCGCAGGGAGTGCACCGCGCGCGGGGTGAGCCCGTCGCCGCACGTTTTGTCGCGGCCGCGCTCGGCGGCGTCGATAAGCGCCGTACGAAACCCCGCCCGCTGTGCGGCGACCGCGGCGGCCGACCCGGCTGGGCCGGCGCCGACAACGACGCACTCGAACTCATTGGCTGTGATAGTCACGATCATCCATTGTGGCAGACGCGCGACCCGTTACTGCGCATTCACCCTGCCGTGGGCTACCGTAGGTAA	MEDLGAAGAGGVEQGGVEKRARARRAFSAERAGRPGSRDVAAETVQLQAAVAVGGHLEAELAQGVHRARGEPVAARFVAAALGGVDKRRTKPRPLCGDRGGRPGWAGADNDALELIGCDSHDHPLWQTRDPLLRIHPAVGYRR				NA	NA	NA	NA	NA
AK009_08458	324			hypothetical protein	GTGCTGCACAGGGTCCCCGCCGCGGGCGCCGACCGACTCGCGCATCTGTCCGGTGACGAGCTTGCCGAAGGTGTCGGCGAAGTGCTTGACGGTCTCGGTGTCGATCTCACTCATGATCTCCGAGGCGTGCGCGAAGAGGATGTCGCCGGCGAGGATGGCCACCGTGTTGTTCCAGCGCGCGTTGGCGGATTCCACACCGCGGCGCATGTCGGCTTCATCCATCACGTCGTCGTGGTAGAGCGTGGCCAGGTGGACGATCTCGGCGATCACCGCGCCCTTGATGGTGTTGTCGCTGCCCGGGTTGGGCCCGAACTCGCTGCATAG	MLHRVPAAGADRLAHLSGDELAEGVGEVLDGLGVDLTHDLRGVREEDVAGEDGHRVVPARVGGFHTAAHVGFIHHVVVVERGQVDDLGDHRALDGVVAARVGPELAA				NA	NA	NA	NA	NA
AK009_08459	348			hypothetical protein	TTGCTCGTCAACGGTGCTCAGGTAGGAACGCACGGTGTCGAGCGTCTTCTGACGCGCCTGGGTCTGCCCGATGAGCTCGAGGGCGAAGGCGACGTCCTCGTCGCGCTCAAGCGGGCCGGTGAGCATCCCGCGGAGCTGCTCTCCGGCGGGCGAGTCATCCTCGAGCGCGTAGAGCACCGGCAGGGTGAGCACGCCCTCGCGCAGATCGGTGCCCGGGGTCTTCCCCGACTGCTCCGAGTCAGAGAAGATGTCGATGATGTCGTCGACGATTTGGAAGATCATGCCGACAGCTTCACCGATGGTTTCGCAGCGCTTGACCACCTCCTCGCTCGCTCCCGCGTGAAGTGA	MLVNGAQVGTHGVERLLTRLGLPDELEGEGDVLVALKRAGEHPAELLSGGRVILERVEHRQGEHALAQIGARGLPRLLRVREDVDDVVDDLEDHADSFTDGFAALDHLLARSRVK				NA	NA	NA	NA	NA
AK009_08464	714			hypothetical protein	TTGGGCAGCGAAGGCGCAAAACGCGCCCTACATGATGCGCTCGATCTGATCTGCCGTGAGCTCGACCGGCGTTTCGCGGCCAAAGATCGACACCAGTGCTTGGATCTTGCCGGTCTCCGGGTCGATCTCCGAAATCGTCGCGGACACGGTCGCCAGCGCACCGGTAAGGATGGTCACGGCCTCGCCAACTTCGTAGTCGTGCGCCAGCTTCGGGGCAACCTCCTGCTCCGGCATCGCGATGACGGTCTCGCCCTCGGCGTTGACCGTCGACTTCTGGTTCGGGTCGCCGACGACGGTCGGCTCCTTCGGCATGAGGAACTTCGCCACGTCACGGTGCTTGACCGGGGTGGCGTTGCCCTCGTTGCCCACGAACGACGTCACGCCGGGGGTTTCGCGCACCACGGACCACGCGGCGTCGTTCATGTCCATACGCACGAGCACGTAACCGGGCAAAAGCTTGCGGTTCACGATCTTGCGCTTGCCGTCTTTAAGTTCGATCGCCTGCTCGATGGGCACGACGACGTCGTAAATCGACTCCTCCACCTCGAGGGTCTGAATACGCATGTCAAGGTTGGTTTTCACCTTGTTCTCGTAACCCGAGTAGGACTGAATGATGTACCACTGTCCGGGAAGCTTTTTCAGCTCCTTGGTGTACTCGCGCAGGCGGCGGCGGTACTCGGAGTCGCCGGACTCCTCCTCTTCCTCTTTGAGTAG	MGSEGAKRALHDALDLICRELDRRFAAKDRHQCLDLAGLRVDLRNRRGHGRQRTGKDGHGLANFVVVRQLRGNLLLRHRDDGLALGVDRRLLVRVADDGRLLRHEELRHVTVLDRGGVALVAHERRHAGGFAHHGPRGVVHVHTHEHVTGQKLAVHDLALAVFKFDRLLDGHDDVVNRLLHLEGLNTHVKVGFHLVLVTRVGLNDVPLSGKLFQLLGVLAQAAAVLGVAGLLLFLFE				NA	NA	NA	NA	NA
AK009_08465	324			hypothetical protein	GTGCGGAACGCCCGAGCCCTTCTGCAGGCCAGCGGCCTTGAGCAGCAGCTTTGCTGCCGGCGGGGACTTCAGGATGAAGGTGAACGAGCGGTCTTCGTAGACGGTGATCTCGACCGGGATGATGTCGCCGCGCATGGACTCGGTGGCCGCGTTGTACGCCTTGGTGAACTCGACGATGTTGACGCCGTGCGCACCGAGCGCCGGGCCGACCGGCGGTGCCGGGTTAGCCATGCCAGCCTGGATCTGCAGCTTGATCAGGCCTGTGACCTTCTTCTTTGCCATCGGATTACCTCAATTCCTTGGTACCGGGCCGCGCCACGATGA	MRNARALLQASGLEQQLCCRRGLQDEGERAVFVDGDLDRDDVAAHGLGGRVVRLGELDDVDAVRTERRADRRCRVSHASLDLQLDQACDLLLCHRITSIPWYRAAPR				NA	NA	NA	NA	NA
AK009_08466	1701			hypothetical protein	GTGCGGCCACATCTGCACGCTCTTGCCCGCGCCCGTGCCCTCCATCGGGGGCAGGTAGGCGCTAGCGTCGAGCTCCTCGGCCACGCCTTCTGCGAGCACGGCGTCAACCACCCCGCGCGTTTCCCGCACGTCCGGCGAGCACGTGGAGTAAACAACGACGCCACCGGGCTTGACCAGGCGCAGCGCCGACTGGAGCAGCTCGGTCTGCAACTGGGTGAGCTCGCCAATCTCGGACTCCTGCTTCTTCCACCGCGCCTCGGGGCGCCGCCTCAGCGCGCCGAGTCCAGAACAGGGGGCGTCCACAAGCACGCGATCGTAGCCGGGCTCCAGGCCCGGGTCACGGCCGTCAGCGACGGTGACGGAGACGGGCAGCCCGCCGATGACCTTGCGGATCAGCTCCGCGCGGTGCTCGCTGATCTCGACGGCGTCGACGTGCGCGCCCTCAATCCCGGCCAGGGAGCCGAGCAGCGCGGCCTTACCGCCGGGGCCAGCGCACAGGTCCAGCCACCGCCCGGCGTCTGCCTCGACGTCGACCTCGGCGAGCGCGCGGGCGATGAGCTGGGAGCCCTCGTCCTGCACGCCGGCCAGGCCGTCGCGCACCGGCTCGAGCGCGCCGGGGTCCCCCTCGTGCAGGTAGACGGCGTACGGCGAGTACCTGCCCTCGTCGCCGCCGGTGATCGCGGCGAGCTCGGCGGCGGAAATCTCGCCGGGGCGGGCGACGAGGTGGACAACCGGGCGCTGCGAGTCCGCCTCGAGTGCTGCCTCCAACTCCCCTTCTGCCCCGCTCGCGCCGAGCGCTGTGCCAAAGGATCGCGCGATCCACTCAGGGTGCGCGGTGCGAAACGCCACCGCCGCCACCGGGTCAGACGGGGTGAGATCGTCCAGCCACTGCTCGGCCGGGGTGCGGGTAATCGTGCGCAGGATCGCGTTGGCAAAGCCCTTCGCCTGGCCCGCCCCGGCCGCTTCGACGAGGCGCACGGACGTGTCGACGGCCGCGTGGTCGTCGACACGCGTGTACAGCAGCTGGTACGCGCCGAGACGCAGCGCAGCGAGCACCTCGGGCGCGATCTTGTCCAGCTCGCGCGAGGAGCACCGCGCGATCACGGCGTCGAGCACGCCCTGGGCGCGCAGCGTTCCGTAGGCGAGCTCGGTGGCAAACGCCGCGTCGCGGCCTGTGATGTTGCGCTCGCGCAGCAACCTCGGCAGCACGAGGTTGGCGTACGCGTCGTCGGTGGCCACCCGGCGCACGACCTCGAAGGCCGCCTCGCGCGCGCCGTCGCCGATGCGCGTCGCCTTCACCTGCGGCTTGCTCACCCGCTTGCTCTCCCGGCGCTCCTCTCGCCGCCCGGACGCGCGCGACCTAAACCCACCACTCATGCGAACTCAATCCCTTCCGTGTCCTGCAGCCCGCGCGCCCAATCCGCGGCGGCCATCATCTTCTTTCCCGGCGGCTGGATCCGCGTCAGCGCCACGTTCGCGCTGGACGTTCCCACCTCCACCGAGTCCTTGCTCACGCGCACCTCGCCGGGGTGCAGATCCGCACCGCTTACAGACTCAACGCGCTCGAGCTTTACGCGCTCGCCGCCGAGCGTCGTCCACGCGCCCGGCGCCGGAGTGTGCGCGCGGATGGCGCGGTCGATCACCTCGGCGGGCTGGGCCCAGTCGATGCGCGCGTCGTTAGTCGAGATTTTCGGCGCGTAG	MRPHLHALARARALHRGQVGASVELLGHAFCEHGVNHPARFPHVRRARGVNNDATGLDQAQRRLEQLGLQLGELANLGLLLLPPRLGAPPQRAESRTGGVHKHAIVAGLQARVTAVSDGDGDGQPADDLADQLRAVLADLDGVDVRALNPGQGAEQRGLTAGASAQVQPPPGVCLDVDLGERAGDELGALVLHAGQAVAHRLERAGVPLVQVDGVRRVPALVAAGDRGELGGGNLAGAGDEVDNRALRVRLECCLQLPFCPARAERCAKGSRDPLRVRGAKRHRRHRVRRGEIVQPLLGRGAGNRAQDRVGKALRLARPGRFDEAHGRVDGRVVVDTRVQQLVRAETQRSEHLGRDLVQLARGAPRDHGVEHALGAQRSVGELGGKRRVAACDVALAQQPRQHEVGVRVVGGHPAHDLEGRLARAVADARRLHLRLAHPLALPALLSPPGRARPKPTTHANSIPSVSCSPRAQSAAAIIFFPGGWIRVSATFALDVPTSTESLLTRTSPGCRSAPLTDSTRSSFTRSPPSVVHAPGAGVCARMARSITSAGWAQSMRASLVEIFGA				NA	NA	NA	NA	NA
AK009_08467	501			hypothetical protein	GTGTTCGCGCAGCGTGCGCACCTTGCTAAGCACCTCGGGCATGAACTTCTGCCCGCCAAAGCCGGGCTCGACGCTCATGATCATGACCTCCTCGAAATGCTCGAGGTCATCCAGGTAGGGCTCGATGGGCGTGCCCGGCTTGACTGCGAAGCCGGCCTCGACGCCGAGCTCGTGGACAGCCTTCGCCGCTGCGACGTGGTCGCTGGTGGCCTCGACGTGGAACACGAGGCGGTCCCCGCCTGCCGCGACGTAGGTTTCGAACCACTTCTCCGGCTGCTCAATCATCAGGTGCATGTCGAGGAACTGCTCTGTGACTCCGTCGACCGCCTTGGTCACGTCCGGGCCGAAGGAGAGGTTGGGCACAAAGTGGCCGTCCATGATGTCGACGTGGATGAGGTCGGCGTTGGGCACCTTGCGCACGTCCTCACCGAGCGCCGCGTAGTCGGCGGCCAGGATGGAAGGAGCGATGTACAACATGGTTCACAGCCTACTTTTCTCTGA	MFAQRAHLAKHLGHELLPAKAGLDAHDHDLLEMLEVIQVGLDGRARLDCEAGLDAELVDSLRRCDVVAGGLDVEHEAVPACRDVGFEPLLRLLNHQVHVEELLCDSVDRLGHVRAEGEVGHKVAVHDVDVDEVGVGHLAHVLTERRVVGGQDGRSDVQHGSQPTFL				NA	NA	NA	NA	NA
AK009_08468	1101			hypothetical protein	ATGGTAGCCCTGCGTCATCTTTTCGACGTACTTGGCCACGATGTCGACCTCGATGTTGACATCCTCGCCGGTAGCAAGGCTCCCCGCGGTGGTGTCGCTGAGCGTGGTGGGGATCAGCGAAACCTCAAAGTAGTCCTCTCCGATCGCCGAGACCGTCAAAGAGGTCCCGTTGACCGTGATCGATCCCTTCTCCACCACGTACCGGGCCAGCCCGGCGGGCAACGTAATGCGCACCACCTCCCAGTTCTCCGAGGGCGTGCGCGAGACCACCTGCGCGACGCCGTCGACGTGGCCCTGCACAATGTGCCCGCCCATGCGCGCCCCCGCCGCGAGCGCCCGCTCAAGGTTAACGCGCGAGCCTGCGACGTAGCTGCCGAGGCGCGAGCGGTCGAGGGTTTCCTGCATCACGTCGGCGCTGAACACGCCGTCGGCGTTGTCGACGACGGTCAGGCACACCCCGTCGACGGCGATCGAGTCGCCGTGGCGCGCGTCGGCGGTGACCAGCGGCGCGCGCACGGCGATGCGCACGGCGTCGTCAAGCTTCGTCAGCGCGACAACCTCGCCGACCTCTTCTACCAGCCCAGTAAACATCTACCTCTCCATTTCTATGAGTACGTCGCCACCCAGCACCGTGACGCGCGAAAGGGCAAAGCGCGGCGCGTCGGCCAGGGTTGCAGCAAGCGCGGTGTCGACCACGCCCGCGCCGGCGCCGAGCAGCAGCGGGGCCACGTAGGCCTGGACCCGGTCGACGAGGCCCTCTCGAAGAAAGCTCGCCGCCAGCCCCGCCCCGCCTTCCACGAGCACGTCGCGCGCGCCCGACTCCCACAGCGCCTCCAGCGCCGCGGCGGGGGTGGCGTACTGCTCGAAGCCGAGCCGTGTGAGGTTTCCCTCAGGCACCGCTCGCGTGCCGACGACCACCCGACGCGGCTGCGTTTCCATCAGCGTGCCGTCGCCGCGGCGCGCTGTGAGCGAGGGGTTGTCGGCGATCGCGGTGCCCGTGCCGACGACGATCGCGTCGCGCACCGCGCGGTCGGCGTGCACGTGGCGGCGAGCGTCCTCGCCGGTGATCCACTTGCTCGTCCCGTCCGGCGCCGCCGTTAA	MVALRHLFDVLGHDVDLDVDILAGSKAPRGGVAERGGDQRNLKVVLSDRRDRQRGPVDRDRSLLHHVPGQPGGQRNAHHLPVLRGRARDHLRDAVDVALHNVPAHARPRRERPLKVNARACDVAAEARAVEGFLHHVGAEHAVGVVDDGQAHPVDGDRVAVARVGGDQRRAHGDAHGVVKLRQRDNLADLFYQPSKHLPLHFYEYVATQHRDARKGKARRVGQGCSKRGVDHARAGAEQQRGHVGLDPVDEALSKKARRQPRPAFHEHVARARLPQRLQRRGGGGVLLEAEPCEVSLRHRSRADDHPTRLRFHQRAVAAARCERGVVGDRGARADDDRVAHRAVGVHVAASVLAGDPLARPVRRRR				NA	NA	NA	NA	NA
AK009_08469	447			hypothetical protein	GTGACCGTCGCGGGCAAGCACCCCGCCGGCACGCGCGCGCAGCGGCACGATGTGGCCGGGCCGAGTAAAGTCGCTCGCGCCTCGCGCGGGATCCGCCAGGCGGGTGATCGTCTCGCAGCGCGAACGCGCGGAGATGCCCGTCGTGCCCGTCGCTGCATCGACCGTCACCGTGTAGGCGGTGGCGCGGGCGTCCTCGTTGCGCGCCACCATCGGCGGCAAGTTGAGCCTGTCGGCGTCGGCGTTCTCCAACGCGACGCAGATGTAGCCGGAGGTGTGGCGCACCATAAACGCGACGAGCTCGGGCGTGGCCAGCTCCGCGGCGAAGATCAGATCGCCCTCGTTCTCCCTGTCTTCGTTGTCCACGACGACCACGGCCTCGCCGCGGGAGACAGCGGCGATAGCCTCCTCGACGCTATCCAGGGAAATCGGGTCACTCATGGCGATTAA	MTVAGKHPAGTRAQRHDVAGPSKVARASRGIRQAGDRLAARTRGDARRARRCIDRHRVGGGAGVLVARHHRRQVEPVGVGVLQRDADVAGGVAHHKRDELGRGQLRGEDQIALVLPVFVVHDDHGLAAGDSGDSLLDAIQGNRVTHGD				NA	NA	NA	NA	NA
AK009_08470	729			hypothetical protein	ATGGCCGAGCCGGTCGCGCTTGGTGCGCAGATAGCGGATGTTGTCGTGCGATGGAACAATCTCGATTCTAGTGCGCCCGTCGACACTCGGTCCATAACCTTCCAAGGCCGCGACCTTGTCGGGGTTGTTGGACAGGACATCGAAGGACGTCACGCCGAGGTCCGCGAGGATGTGCCCGGCGACGGAGTACTCGCGGGCGTCGATAGGCAGGCCCTGCTCGAGATTCGCGTCGACGGTGTCCAGCCCGGCGTCTTGCAGGCGGTAGGCCTCGAGCTTGGCCAGCAGCCCGATGCCGCGGCCCTCGTGCCCGCGCACGTAGACGATGACACCGCGGCCGGCTTCCTGGACCCGGCGCATGGATTCGTGCAGCTGGGGGCCGCAGTCGCAGCGTCGCGACGCGAACACGTCGCCGGTGAGGCACTCCGAGTGGACGCGCACGAGCACCCCGGGCTGCGCCGCGACGTCGCCGACGACGAGGGCGACGTGCTCGGTGCCGTCGATGGTGTTGCGGTACCCGTAGGCCTGAAACTCGCCGAATTCGGTGGGCAGGCGGGTCTGCGTGCAGCGGGTGACAAAGTTCTCGCGGTGGCGGCGGTAGTCGATGAGCTGGGCGATCGAGATCATGACCAGGCCGTGCTCGTCGGCGAAGCGGCGCAGCTCGGGCCCGCGCGCCATGTCGGTCGGGTCCTCGGCCGAGACGATCTCGCACAGCACGCCCGCAGGCCTTAA	MAEPVALGAQIADVVVRWNNLDSSAPVDTRSITFQGRDLVGVVGQDIEGRHAEVREDVPGDGVLAGVDRQALLEIRVDGVQPGVLQAVGLELGQQPDAAALVPAHVDDDTAAGFLDPAHGFVQLGAAVAASRREHVAGEALRVDAHEHPGLRRDVADDEGDVLGAVDGVAVPVGLKLAEFGGQAGLRAAGDKVLAVAAVVDELGDRDHDQAVLVGEAAQLGPARHVGRVLGRDDLAQHARRP				NA	NA	NA	NA	NA
AK009_08471	486	ribH_2	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGCCGCACCAGGGAGCACCCGACATACCGAGACCCAACGCCGAGGGCATGACCGTGGCGATTGTGTCTACGCACTGGAACGAGAAGATCGTCACCCAGCTGCACGAGCACGCAGTGGACGCCGCCCGTGACCTCGGCGCGAAGGTCGACGAGTTTTGGGTTGCCGGTGCCTTTGAGTTGCCCGTCCTGGCGCAGGCCTGCGCGCGGCGTTACGACGCCGTCGTCGCCCTAGGCTGCGTTATCCGCGGCGAGACGGCGCACTTTGACTACGTGTGCGACTCCGTCACCGCCGGGCTGACCCGCGTCGCCTTGGACGAGGAAACCCCAGTGGGCAACGGCGTGCTCACCGTCGACGACGAGGACCAGGCGCTCGAGCGCGCCGGCGGCGAGGACGCCAAGGAAAACAAGGGCGCCGACGCCGTGTACGCCGCGCTGGGTGCCGTCGCGGAGCTGCGCAAAGCCCGCGCGGCCGCGCCCAAGCGCTAG	MPHQGAPDIPRPNAEGMTVAIVSTHWNEKIVTQLHEHAVDAARDLGAKVDEFWVAGAFELPVLAQACARRYDAVVALGCVIRGETAHFDYVCDSVTAGLTRVALDEETPVGNGVLTVDDEDQALERAGGEDAKENKGADAVYAALGAVAELRKARAAAPKR	PGPT0008605_1591	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
AK009_08472	1362			hypothetical protein	TTGCGCGCGGATGCGCCCGTCGCGCACGGTGAAGATCTGCACCGCGGCCTCGAGCTCGTCGGTGGCAAACGCGATCACGTCGGCGTCGGTGCCGAGGCTGAGCACCACCGTCTGGCGCTCCATCACCTTGTTCACGGCCCCGAGGTCGTCGCGAAGCCGCGCGGCTTTCTCGAATTCGAGCTCGGCGGCCGCGGCGTTCATGCGCTTCGTCAGCTGCTTGACGACGTCATCCGTGCGCCCCGACAAAAATGCCACAAACCCCCGCGCGATCTCGTCGTACTCCTCCTCCGAAACGCGGCCCACGCACGGCGCCGAGCACTTGTCGATGTAGCCCAGCAGGCACGGCCGGCCCAGCGCCTCGTGGCGGTTGAACACCCCGTTGGAGCAGGTGCGGATGGGAAAGACGCGGGTGAGCAGGTCAAGCGTTTCGCGCACCGCCCAGGCGTGGGAGTACGGCCCGAAGTACCGCACCCCTTTGCGGCGCGGGCCGCGGTAGAAGAACGCGCGCGGGAAGCGCTCCCCCACGCTCACGGCGAGCATGGGGTAGGTCTTGTCGTCGCGGTACATGACGTTGAACCAGGGGTCGAAACGCTTGATCCATGTGTACTCGAGCTGGAGGGCCTCGACCTCGCTGGCGACAACGGTCCACTCCACCGAGGCGGCAGTAAAGACCATCTGACGGGTTCGCGGGTGCAGCTGCTTCGGGGGCTGGAAATAGTTGTTCAGCCTCGCGCGCAGGTTCTTCGCCTTGCCGACGTAGACGACGCGCCCGGCGCCATCGCGGAACTTGTACACGCCGGGCTCGGTGGGGATGGTACCCGGCGCAGGGCGGTAGGACTCGGGGTTGGCCACGCGCGCCTAGCTTTCGGGCATGTACTTCGCCTCGAGGGCGCGGAACTTCTCGACGGCCTCAATCGCGCGCTGCCCGTCGCCGGACTGGATCGCCCAGAGCGGGACGTACTCGAACTCCGGCAGCTCGAGCCGGGCCATGCGCGACGAGCGCGGGAAGGTCAGCCCGTAGATCACCAGCCACGGGTAGAAGCGGGTGCCGATGATGTTGCGCACCTCGACCCCGTCCTTGTTCACCCGGACGCGGGGCCGGGTGAGGCAGATCCAGGAGACAATGGAGATGATCAGGCCGACGCCGGGGAAGGCGAACTTGTCAATGGTGGTGATTGCCAGGCCCGTGAACTCGACGTCGAGCACCAGCGCCATGAAGATGTGCACCGCCATGACCAAGATGACCCAGCCGATGGCGACCTTCTTCAGAAACGGCGAGGTGATCTCAAGCTCCCACGGCTCCGTAGAAGTCACGGCGTGCGGATCGGACGCGTAGAGGTGCAGCAGCTCCTCGTCGCTTAG	MRADAPVAHGEDLHRGLELVGGKRDHVGVGAEAEHHRLALHHLVHGPEVVAKPRGFLEFELGGRGVHALRQLLDDVIRAPRQKCHKPPRDLVVLLLRNAAHARRRALVDVAQQARPAQRLVAVEHPVGAGADGKDAGEQVKRFAHRPGVGVRPEVPHPFAARAAVEERAREALPHAHGEHGVGLVVAVHDVEPGVETLDPCVLELEGLDLAGDNGPLHRGGSKDHLTGSRVQLLRGLEIVVQPRAQVLRLADVDDAPGAIAELVHAGLGGDGTRRRAVGLGVGHARLAFGHVLRLEGAELLDGLNRALPVAGLDRPERDVLELRQLEPGHARRAREGQPVDHQPRVEAGADDVAHLDPVLVHPDAGPGEADPGDNGDDQADAGEGELVNGGDCQARELDVEHQRHEDVHRHDQDDPADGDLLQKRRGDLKLPRLRRSHGVRIGRVEVQQLLVA				NA	NA	NA	NA	NA
AK009_08473	1065			hypothetical protein	ATGGCTGCCCATCCTAGCGCGCTAGTCGCGGTGGAGGTGCTCGTAGATCGACTCGGCCAGCTTTGGGCCGACGCCCTTGACCTGCTGGATTTCCTCCTTGGTAGCCTCGGTGATCTTCTTGACGCTGCCGAAGTGCTTGACCAGGTCGGTGCGGCGCGCCGGCCCCAGCCCCGGCACCCCGTCGAGCGCGGAGGCGCGCATCCGCTTGGAGCGCTGCTGGCGGTGGTACGTAATGGCGAAGCGGTGTGCCTCGTCACGGATCTGCTGCAGCAGGTACATGCCCTCGGAGTTGCGCGGCAGGATGACGGGCTCGTCGTCGTCGGGCACCCAGATCTCCTCGAGGCGCTTGGCCAGGCCAATGAGCTGCACGTCAATGATCCCGAGCTCGTCGAACACAGCCTGGGCTGCGTTGACCTGGGGCTTGCCGCCGTCGACGATGAAGAGCTGCGGCGGGTAGGCGAACCGCCTCGCCCCGGTTGTCTCGACGTCGGCGGCCTCGTCGGCAAACGTCAGCGCGACGGCCTCCTCGTCCGGGTTGGCCAGCTTGTCCTCGGTGTAGCGCTTGAAACGCCTGCGGGTCACCTCGGCGATGGAGCCGACGTCGTCGGAACGCCCGTCGCCCGCGGCCTCCTTGATGCGGTAGCGGCGGTAATCGTTCTTGCGCGGCAGGCCGTCCTCGAACACGACGAGCGAGGCAACGATGTCTGTGCCCTGGATGTGGGAGATGTCCGTGCACTCCATCCGCAGCGGCGCCTGCTCCATGCCGAGCGCGTCCTGGATGTCTTGCAGGGCCTGGGAGCGCGCGGTGAGGTCGCCGACACGCTTGAGTTTGCGCTGGTTGAGCGCCTCCTGGGCGTTGCGGCCCACGGTCTGCATCAGCGCGGCCTTGTCCCCGCGCTGGGGCACGCGGATGTCCACCGGCCCGCCGCGCAGCTCGGCGATGAGGTCGGCGACCTCCTCGGCCTCCTCCGGCAGCGTGTCCACGAGGATCTCGCGCGGGATCGCGACCGGCGGCGTGACGGGCGCGTGGGACTCCTGATCCACGCCGCGCCGGCGAACCTTTGA	MAAHPSALVAVEVLVDRLGQLWADALDLLDFLLGSLGDLLDAAEVLDQVGAARRPQPRHPVERGGAHPLGALLAVVRNGEAVCLVTDLLQQVHALGVARQDDGLVVVGHPDLLEALGQANELHVNDPELVEHSLGCVDLGLAAVDDEELRRVGEPPRPGCLDVGGLVGKRQRDGLLVRVGQLVLGVALETPAGHLGDGADVVGTPVARGLLDAVAAVIVLARQAVLEHDERGNDVCALDVGDVRALHPQRRLLHAERVLDVLQGLGARGEVADTLEFALVERLLGVAAHGLHQRGLVPALGHADVHRPAAQLGDEVGDLLGLLRQRVHEDLARDRDRRRDGRVGLLIHAAPANL				NA	NA	NA	NA	NA
AK009_08474	351			hypothetical protein	GTGCGTGCGGCGAACGCTGTCGAAGCGGCGGATGAGGACGTCGTCACGCGCCTCGAGGTAGAGCACGAACGGGGCGATGCCCTTCGCCTTGATCGATGCGATGGTTTCCAGCAGCGAGCCGGAGAAGTTGCGGGCGCGCACGTCGGTGACAAACGCGAGGTGCTCCACCGGCGCGGTGCCGGCGAGCGCCATGTCGGTCAGCTCCAGGATCATCGACGGCGGCAGGTTCTGCGACACGAAGTATCCCTTGTCCTCGAAGATCTTCGCGGCCGAGGACAGCCCTCCCCCCGACAGCCCCGTGATAATCACCGGCCGAATGCCCGTTGTGGTCTCCATGGCTGCCCATCCTAG	MRAANAVEAADEDVVTRLEVEHERGDALRLDRCDGFQQRAGEVAGAHVGDKREVLHRRGAGERHVGQLQDHRRRQVLRHEVSLVLEDLRGRGQPSPRQPRDNHRPNARCGLHGCPS				NA	NA	NA	NA	NA
AK009_08475	498			hypothetical protein	GTGCAGGACGTGAACGTCGACGTTATCAAGCTCGCGCAGGCGCTTCGCAATGGCCTCGGAGACAGCGACCGACCTGTGGTGACCGCCGGTGCAGCCGATGCCCACGGTGACGAAATCCTTGCCCTCGTGGCGGTAACCGGCGAGCATCGAGTTGAGCAGCGCGACGAAATTGTCCACGAACTCGGCCGCACCCGGCTGGGAGAGCACGTAGTCGGCCACGGGCGCGTCGACGCCACGGAACTGGCGCAGCCCCTCAATCCAGTACGGGTTGGGCAGAAAGCGCACGTCCATCACGATGTCCGCGTCGCGTGGCGAACCGTGCTTGAACCCGAAGGATTCGATGGTGACGTGCTGGCGATCGATCGGCAGCTCGCCTACCGACGCCTCCACGGCGCGGCGCAGGTCGTGCACGGAGAGGTTGGAGGTGTCAATAATCACATCCGCCTGCTCGCGCACCGCTGCGAGCTGTTCGCGCTCACGCTCGATACCGACGCTTAG	MQDVNVDVIKLAQALRNGLGDSDRPVVTAGAADAHGDEILALVAVTGEHRVEQRDEIVHELGRTRLGEHVVGHGRVDATELAQPLNPVRVGQKAHVHHDVRVAWRTVLEPEGFDGDVLAIDRQLAYRRLHGAAQVVHGEVGGVNNHIRLLAHRCELFALTLDTDA				NA	NA	NA	NA	NA
AK009_08476	858			hypothetical protein	GTGCACGTTGCGCTCGGCCTCGTTGGCCGACTCCGTGCGCACGTCAGTGTAGGTGATCTCCCCGCCGACGCGTTGCGCGGTGCGCTGCAGGTGGGTGCGCTCGCCGGGGGTGGTGTTGACGTTGCTGTCCGCGAGGAAGTGATCGACCCGCAAACCAGGCGCGTGCTGCGAAAGCAGGTGGATGTGGCGCTCGGTAGTAAAGCCCTGGGTCTCCCCCGCCTCCGGCGACAGATTCAGCACGACGATCACCTTCGCCGCGGTCTCGTTGAGCGCCGTGACGACATCTGGCATCAGCAGGTGCGGGATCACGGAGGAAAACCACGAGCCGGGCCCGATCGTAACCACGTCGGCGTTCATGACCGCCGCGATCGCGGCGCTGTTGACGGGCGGATCCGCCGGCAGGATGCGCACGCGGCGCACCGAGCCGGGAGTCGTCGCCACCGCCACCTGTCCACGCACGGAGCGCAACACCCGGGGGTCGTCGTCAAGCCCAGCGACATCCGCCTCGATCTCCAGCGGCTCGTTACACACGGGGATGACCCGGCCGTTTGCGCCCGCCCAGGTGGTGAGTACGTCGAGCGCCGCCTGCATGCCGCCGGCCTTTTCGCTCAAGCCGGCGAGCAGGAGGTTACCCACCGCGTGCCCGGCCATCGCGCCGTTGCCCTGGAAGCGGTGCTGCAGCGTGTTGCGCCACAGCCGGCCGGTGTCGGTGTCGGGCATCAGCGCGGACAGCGCCATGCGCAGGTCCCCCGGGGGGATCATCCCGAGCTCGCGGCGCAGCCGCCCGGAGGAGCCGCCATCGTCGGCGACCGTGACGACGGCGTTGATGTGCTCGGCGCGGGCGCGTCGACACGCTAA	MHVALGLVGRLRAHVSVGDLPADALRGALQVGALAGGGVDVAVREEVIDPQTRRVLRKQVDVALGSKALGLPRLRRQIQHDDHLRRGLVERRDDIWHQQVRDHGGKPRAGPDRNHVGVHDRRDRGAVDGRIRRQDAHAAHRAGSRRHRHLSTHGAQHPGVVVKPSDIRLDLQRLVTHGDDPAVCARPGGEYVERRLHAAGLFAQAGEQEVTHRVPGHRAVALEAVLQRVAPQPAGVGVGHQRGQRHAQVPRGDHPELAAQPPGGAAIVGDRDDGVDVLGAGASTR				NA	NA	NA	NA	NA
AK009_08477	990	whiA_2	COG1481	putative cell division protein WhiA	GTGTCGCTAACCGCCCAGGTGAAAGACGAGCTGCTGCTGGTCGAGCACCCCTCCCAAGCCACCCGTTTTGCCGAGGCCGCGGCCATGATCCGCTTCGCCGGCGAGGTCGCTCAGACCCCGCGCGGGCTGAGCCTGTGCGCTGAGTTTTCGGAGATGCGCGTCGCTCAACGGCTTGCGGCGTCGTTACGCGAGCTATGCGACGTCGACGTGCGCGTGCAGACGCTGAGCCCGGACTCGAGCCGCCGCGACGCCACGTACACGGTCAGCGTGGTCGACGGCACCAAAGACGTGATCCGCCGGCTGAAGTTGGTGACGGTGTCGGGCCACCCGGTCGTGGGCTTGCCGCGGCACATCATCTCCGGCTCGATCGCCGAGGTCGAAGCCGCGTGGCGTGGGGCTTTCCTCGCGCGCGGCGTGCTCACCGAGCCAGGGCGCAGCTCGAGCCTCGAGGTGCTCAGCCCGTGCCAGGAGGCGGCGCTCGCGCTCGTCGGCCTAGCCCGCCGGCTCTCCGTTGCGGCGAAGACGAAGGAAACGCGTGGGGTGGAGCGGGTGTTTCTGCGCGACGGCGACGCCATCGCGGTGCTACTCAGCCGCATGGGCGCGCAGCGTACGCGCGTGAGCTGGGACGAGAAGCGCAAGAAGAAGCAGATGACCGCGAAAAGCGGGCAGCGCCTGGCCACGTTCGACGACGCCAACACGCGGCGCTCGGCGCAGGCGGCGGCGGCAGCGGCGGCACGCGTCGAGCGCGCCATGGAGATCCTCGGCGACGACGTCCCCGAGCACCTGGCTGAAGCCGGGCACCTGCGCGTGGAGTACCGGCACTCCTCGCTGGAGGAGCTCGGTCGTCTCGCAGACCCGCCGATGACCAAGGACGCCGTGGCGGGGCGGATCCGCCGGCTGCTCTCGCTTGCGGACAAGCGCGCCGCCGAGCTCGGAATCGCCGATACGCAATCGGTGCTTGCGGCGGAGGACGACGCGTCCGCGCCCTAG	MSLTAQVKDELLLVEHPSQATRFAEAAAMIRFAGEVAQTPRGLSLCAEFSEMRVAQRLAASLRELCDVDVRVQTLSPDSSRRDATYTVSVVDGTKDVIRRLKLVTVSGHPVVGLPRHIISGSIAEVEAAWRGAFLARGVLTEPGRSSSLEVLSPCQEAALALVGLARRLSVAAKTKETRGVERVFLRDGDAIAVLLSRMGAQRTRVSWDEKRKKKQMTAKSGQRLATFDDANTRRSAQAAAAAAARVERAMEILGDDVPEHLAEAGHLRVEYRHSSLEELGRLADPPMTKDAVAGRIRRLLSLADKRAAELGIADTQSVLAAEDDASAP				NA	NA	NA	NA	NA
AK009_08478	1131			hypothetical protein	GTGCGCTTGCGCGCACCACCCCGGGCCGGGCCGGGCTTAGTTCAGCTTGTCCGCGACCGTCTTGGTCACGCGGATGAACTGCTCGGTGTAGCCGTACTCGTTGTCGTACCACGAGATGACCTTGAGCAGGTTGCCGTTGATCACGCGGGTCATACCGGCATCGAAGATGCCGCCGTAGGGGCTCTTGATGATGTCAGAGGACACGATCGGGTCCTCGGTGTAGTGCAGCGCCTTGGCCAGGTCGCCCTCCTGGGTGGCGGCCTTGACGGCGGCGTTGACCTCCTCGACCGTGGTGTCCTTCTCCAGCTGGACGGTCAGGTCGGTGGCGGAGCCGGTGATGGTGGGCACGCGCATAGCGAAACCGTCGAGCTTGCCCTTGAGCGCCGGAATGACCTCAGCCACGGCCTTGGCGGCGCCGGTGGTGGTGGGCACGATGTTCTGGGCGGCGGCGCGGGCGCGGCGCAGGTCCTTGTGAGGAGCGTCCTGCAGGCGCTGGTCACCGGTGTAGGCGTGAATGGTGGTCATCAGGCCGGAGACGATGCCGAAGTTATCGTTGATGATCTTCGCCACAGGGGCCAGGGAGTTGGTGGTGCAGGACGCCGCGGAGATGACGGTGAGGTCGTTGGTGTAGTCCTCGTGGTTGACACCCCACACGAACGAGCCGTCGACGTTCTTGCCCGGGGCGGAGATGATGACCTTCTTCGCGCCGGCGTCGATGTGGGCCTGGGCGTCTTCCTTGGTGCGGAACTTGCCGGTGCACTCGAGCACGATGTCGACATCGAGCGCGCCCCAGTTGATGTCGGCCGGGTCCTTCTCCTCGGATACCTCGATGTGGTGCCCGCCGACGGTGATCGAGGTCTCGTCGTGCTCCACGGTGCGGCCGAGGTGGCCGTACGCGGTGTCGTACTTCAGAAGGTGTGCGAGGGTCTCGTTGTCGGTCAGGTCGTTGATCTTGACAACCTCGAGCTCGCCCTCGAAGCTGTCGAGGATGACGCGCAGGGAACTGCGCCCGATTCGTCCGAATCCGTTGATGCCGATGCGGGTAGTCACTGTCAGTCACTCCTTAAAGAGTTTCGGTTCACTTACCGGAACTGGAAGTTTCCTGAGTCGAGTTCCTCGCAGCCCCGTTGA	MRLRAPPRAGPGLVQLVRDRLGHADELLGVAVLVVVPRDDLEQVAVDHAGHTGIEDAAVGALDDVRGHDRVLGVVQRLGQVALLGGGLDGGVDLLDRGVLLQLDGQVGGGAGDGGHAHSETVELALERRNDLSHGLGGAGGGGHDVLGGGAGAAQVLVRSVLQALVTGVGVNGGHQAGDDAEVIVDDLRHRGQGVGGAGRRGDDGEVVGVVLVVDTPHERAVDVLARGGDDDLLRAGVDVGLGVFLGAELAGALEHDVDIERAPVDVGRVLLLGYLDVVPADGDRGLVVLHGAAEVAVRGVVLQKVCEGLVVGQVVDLDNLELALEAVEDDAQGTAPDSSESVDADAGSHCQSLLKEFRFTYRNWKFPESSSSQPR				NA	NA	NA	NA	NA
AK009_08479	510			hypothetical protein	GTGCACCACGCCGAAGCCGTCGGAGACGAACGCGCCGTCGTCGGCGGCGAGGTCGGCCAACTCCGCGGCGAAGGCCTCGCGCTCGGCGTCGTCCTTGGAGGTCTCGCGGGCGTCGAAACGCACGTTCTCCACCAGCAGGATCTCGCCCTCCGTCAGGCCGTTCGCGCGCTCGTGGGCGTCCTCGCCGGAGACGTCAGAGGCCAGCGGGACGAACTGGCCGAGGCGCTCGGACAGGGCCTCGGCGACCGGCTTCAAGGAGAACTCCGGCTTGAACTCGCCCTTCGGGCGGCCCAGGTGGGCGGTGACGATGACCTTCGCGCCGCCGTCGAGAAGCGCCTTGAGCGTCGGGATGGAGGCGTCGATACGCCCGGCGTCGGTGATGTTGCCCTCGTCGTCGAGCGGGACGTTGAAGTCGGAGCGAACAAGGACGTGGCGCCCATCGACACCCTCGTCGAGCAGCTGCTGAATGGTCTGAAGTGGCATGAAAGTCTCCTTCACAAGCTGGTGTAA	MHHAEAVGDERAVVGGEVGQLRGEGLALGVVLGGLAGVETHVLHQQDLALRQAVRALVGVLAGDVRGQRDELAEALGQGLGDRLQGELRLELALRAAQVGGDDDLRAAVEKRLERRDGGVDTPGVGDVALVVERDVEVGANKDVAPIDTLVEQLLNGLKWHESLLHKLV				NA	NA	NA	NA	NA
AK009_08480	600			hypothetical protein	GTGGGTAAAGCCATCCTCGTCGAGGCCGAGCGCGCGTACCGACGCCGCCGAGTCACCTCCGCCGACCACAGTGAAGCAGTCGTTGTTCTTCGTCGCGTCGATCATCGCCTCCGCGACTGCCTTCGTTCCGTCCGCAAAGTTCGGGAACTCGAACACGCCCATCGGCCCGTTCCAGAACACCGTCTTCGCGTCCTTGATCGCCGCCACGTAGTTCTGCGCGGTCTCGGGGCCGATATCGAGAGACATCCAGCCCTCGTCGATGTCATCGAGGCCCACGACCTTCTTCTCGGCGTTCTTGTCGAACTCCGGCGCGATCGCGAGATCCACCGGCAGCACCAGCTTGTCGCCGTAGGTTTCGATCAGCTTGCCGCAGGTCTCGACCATGTCTTCTTGCAGCAGGGACTTCTGCACTTTGTGGCCCTGCGCGGCGAGGAATGTGTAGCACATGCCACCGCCGATAACGAGCTTGTCGGCCTTCTGCGCCAGCGCCTCGATCACGCCGAGCTTGTCGGAGACCTTGGAGCCGCCGAGCACGACGACGTACGGGTGGGCGGGGTTGTCCTTGACGATGCTAAGCGTCTCCACCTCCTTTTCCACTAG	MGKAILVEAERAYRRRRVTSADHSEAVVVLRRVDHRLRDCLRSVRKVRELEHAHRPVPEHRLRVLDRRHVVLRGLGADIERHPALVDVIEAHDLLLGVLVELRRDREIHRQHQLVAVGFDQLAAGLDHVFLQQGLLHFVALRGEECVAHATADNELVGLLRQRLDHAELVGDLGAAEHDDVRVGGVVLDDAKRLHLLFH				NA	NA	NA	NA	NA
AK009_08481	783	tpiA_2	COG0149	Triosephosphate isomerase	ATGCCTCGGAAGCCGCTTATTGCGGGCAACTGGAAGATGAACCTCGACCACCTCGAGGCCATCTCAAGCGCCCAGAAGCTAACGTTCGCGTTCCCGAAGGACGGGTACGAGTACGTCGACATCGCGCTGACGGTGCCGTTTACGGACCTGCGCTCGATCCAAACCCTTGTCGACGGCGACAAGCTGCAGATCACCTACGGCGCCCAGGACGTCTCCCCGCACGACAACGGGGCGCACACCGGCGACATCTCGGCCGCGATGCTGGCCAAGCTCGGCTGCTCCTGGGTGGTCGTCGGCCACTCGGAACGCCGCGACGAGCACGGAGAGACCGATGAGCTTGTCGCGGCGAAGGCCGCCAAGGCGCTCGAGCACGGCATCAGCCCGATCGTGTGCGTCGGCGAGCCGGAGGACGTCCGCGAGCGCTCGGAGCACGTCGCCTACGTCGTCAAGCAGACCCGCCGCTCCCTGGCCACCCTGGGCACGGTGGAGCTGGGTCGGACGGTCATCGCGTACGAGCCGGTGTGGGCGATTGGCACCGGCAAGACCGCGTCGGCGGCCGATGCCCAGGAGGTGTGCAAGGCGATCCGCGAGACGGTTCGCGAGCTTGCCGACGACCCCACCGCCGACGCGATCCGCATCCTCTACGGCGGCTCCGTCAAGGTGGACACGATCGGCGAGATCGTCGGGCAGCCCGACGTCGACGGCGGCCTTGTCGGGGGAGCGTCTCTTGACGGCCAGGAATTTGCGAAGCTGGCCGCGGCGGCGGCTAACGCTGTGCGCTAG	MPRKPLIAGNWKMNLDHLEAISSAQKLTFAFPKDGYEYVDIALTVPFTDLRSIQTLVDGDKLQITYGAQDVSPHDNGAHTGDISAAMLAKLGCSWVVVGHSERRDEHGETDELVAAKAAKALEHGISPIVCVGEPEDVRERSEHVAYVVKQTRRSLATLGTVELGRTVIAYEPVWAIGTGKTASAADAQEVCKAIRETVRELADDPTADAIRILYGGSVKVDTIGEIVGQPDVDGGLVGGASLDGQEFAKLAAAAANAVR	PGPT0017995_1148	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
AK009_08482	429			hypothetical protein	GTGGCCCTCGCCACCCATGCCGAGCAGGTGGATGTCGAAGCCCTCTGGCGCGGCAATGCCCAGGTCGCGTTCGTAGCGCCGCACCGCCTCACCCATGTCGCCGCCGGTCAAACCGTAGCCGTAGATGTTGGCCTCGGGGATCGCGACGTGCTCGAGCAGCGCCGCGCGGGCCTGGCCCTCGTTGGAGTCCGCGTGCGTAACCTCAACGTTGCGCTCGTCGCCGAAGAAGACGAAGACGCGCGACCAGTCGATCGTCACATCGCGCAGGTTCTCGAGAAAACGGATGCCGGCGGTGCCGCCGGTGAGAACGACGCGGGCGGTGCCGTCACCGTTGACGCCACCGACCGGGTCGGCGTGGATGGCGCTGATGGTGTGGGCAAATCGTTCGGTGGCGGCGTCGATAAGCGAAGCGAGGTCAGGGAACTGTGA	MALATHAEQVDVEALWRGNAQVAFVAPHRLTHVAAGQTVAVDVGLGDRDVLEQRRAGLALVGVRVRNLNVALVAEEDEDARPVDRHIAQVLEKTDAGGAAGENDAGGAVTVDATDRVGVDGADGVGKSFGGGVDKRSEVREL				NA	NA	NA	NA	NA
AK009_08483	447			hypothetical protein	ATGAGCGAGGGTGGGGCCTTTCGTGAGTTAGACGACGTGCACGTGGGAGATGCCGTCGAGCGCGTTGGCGTAGGCGGTGTCGGGGTCGAGGTGGCGCAGTTCCTCGGCCAGGCACTCCGCGTCGGTGCGCGCGGTCATGGCGACGTAGGAGTCGGGGCTGCCCGGGACGGAGACGCGCACGCTGTGCTCGTCCATGACGGAGACGACGATGTCGCCGCGGTCGTAGGTCAGGCGCAGCTCGGTGATGGGGACGTTCTCGATGATCTCGGAGGCGCTCGGGCCCGGGCTGCGGGTCACGTCGACGCCGAGGCAGCTCGCCAACCACCCGGCGGCGATGTCGACGCTCGGGTTGTCCACGGGTCCGGAAATGTGCACAGCGGTGATGTCCTCGCCCTGGTGGCGGTCCACGGCGGATGCGACGATTCCGCGCCACGGGGTGATGCGTGA	MSEGGAFRELDDVHVGDAVERVGVGGVGVEVAQFLGQALRVGARGHGDVGVGAARDGDAHAVLVHDGDDDVAAVVGQAQLGDGDVLDDLGGARARAAGHVDAEAARQPPGGDVDARVVHGSGNVHSGDVLALVAVHGGCDDSAPRGDA				NA	NA	NA	NA	NA
AK009_08484	411			hypothetical protein	TTGGACAGGCGCAGGAGCGCGTTGCCGGAGACGTTGCGGCGCGCGTTGGTGATGCGGCGCTGCGCGATGTTGCCCAGGGGCGCCTCGGCCGGGTTCGCCGGGGCGGTCGTCGGCCACCAGGCGGCGATTGGGGTGTCGGGCAGGATCAGCGGCGTGACCACGGAGTCGAGATTCTGGGTGAGCTCGCCGTGCAGGTGCATCACCACCATCTCGGAGGCGCCCGCGTCGGCGGTCAGGATGCATTCGGCATCGAGCTTCGTCGGCTCGTCCGAGTCTCCGAGCAGCATGACCAGCACGCGGGCCGGGTGCTCCTGGGTCGCGTCGCGCACGGACAACAGGATGGAGTCGACGTCGTCGCTCGCGGCGGCGACCACGAGCAGGGTGAGCACGCGGCCGGTGGCCATCGAGTAG	MDRRRSALPETLRRALVMRRCAMLPRGASAGFAGAVVGHQAAIGVSGRISGVTTESRFWVSSPCRCITTISEAPASAVRMHSASSFVGSSESPSSMTSTRAGCSWVASRTDNRMESTSSLAAATTSRVSTRPVAIE				NA	NA	NA	NA	NA
AK009_08485	1536	zwf2	COG0364	Glucose-6-phosphate 1-dehydrogenase 2	GTGACGGACGAGGCCGTGTGGGTCAACCCGCTCCGACAGCCAGAGGACAAGCGCCTGCCGCGCATCGCAGGGCCGTCGGGAATGGTGATTTTCGGCGTAACCGGCGACCTCGCGCGCCGCAAGCTCCTGCCGGCGATCTACGACCTTGCCAACCGCGGCCTGCTGCCCGCCGGTTTCAGCCTCGTCGGCTTCGGCCGCCGCGAGTGGAGCAAGTCGGACTTCGAGGATTACGTGCGTTCGGCCGTCGAGAAGGGCTCGCGCACGCGCTTCAATGAGAACGTGTGGAACCGCCTCGCCGAGGGCATGCACTTCGTTACCGGCGCCTTCGACGACGACGAGGCCTTTGAGAAGCTCGCGGCGCTTCTGGCGGAGATGGACGCTAACCGCGGAACCGGCGGCAACTGGGCTTTCTACCTGTCCGTGCCGCCTGAGTACTTCTCCGACGTAGTCCACCAGCTCGACCGCTGCGGCATGGCCACCCCGACGGGCAACCAGTGGCGCCGCGTGGTCATCGAGAAGCCTTTCGGTCACGACCTCGCCTCCGCGAAGAAGCTCAACGAGGTGGTTAACCACGTCTTCCCCGAGCGCTCCGTGTTCCGCATCGACCACTACTTGGGCAAGGAGACGGTGCAGAACATCCTCGCGCTGCGCTTCGCTAACCAGATGTTCGAGCCGGTGTGGAACGCCAACTACATCGACCACGTGCAGATCACCATGGCCGAGGACATCGGCCTCGGCGGCCGCGCCGGCTACTACGACGGCATCGGCGCCGCCCGCGACGTGATCCAGAACCACCTGATCCAGCTGCTCGCGCTCGTGGCCATGGAGGAGCCCACCTCGTTCTCGCCGCGCCGCCTGCGCGCCGAGAAGCTCAAGGTGCTGCGCGCCACCACTGCCCTGGAGCCCTTCGACGAGACGACCGCGCGCGGGCAGTACGCCGCCGGCTGGCAGGGCTCGGAGAAGGTCATCGGCCTGCGCGAAGAAGACGGCTTCGACCCGGACTCCACCACGGAGACCTACGCGGCCTGCACCCTGAAGATCAACTCGCGGCGCTGGGCGGGCGTGCCGTTCTACCTGCGCACCGGCAAGCGCCTGGGCCGCCGCGTCACAGAGATCGCCCTGGTGTTCAAGCGCCCGCCCTTCCAGCCCTTTGCCAAGGGCCAGACCGACCTGCTGACCGCCAACGCTGTCGTGCTGCGCATCCAGCCGGACGAGGGCGTGCTCATGCGCTTCGGCTCCAAGGTCCCGGGCTCCACGATGGAGGTCCGCGACGTGAACATGGACTTCTCCTACTCCGAAGCCTTTACCGAGGAGTCCCCCGAGGCCTACGAGCGCCTCATCCTCGACGCCCTGCTGGACGAGTCGAGCCTCTTCCCCACCAACGAAGAGGTTGAGCGCAGCTGGGAGATCCTCGACCCCGTCCTCGAGCACTGGGCCGAAAACGGCCGCCCCGATGCTTACGCAGCCGGTACGTGGGGCCCCGAGTCTGCCGACGCGATGCTCGCGCGCACCGGCCGCCACTGGCGCAGGCCTTAA	MTDEAVWVNPLRQPEDKRLPRIAGPSGMVIFGVTGDLARRKLLPAIYDLANRGLLPAGFSLVGFGRREWSKSDFEDYVRSAVEKGSRTRFNENVWNRLAEGMHFVTGAFDDDEAFEKLAALLAEMDANRGTGGNWAFYLSVPPEYFSDVVHQLDRCGMATPTGNQWRRVVIEKPFGHDLASAKKLNEVVNHVFPERSVFRIDHYLGKETVQNILALRFANQMFEPVWNANYIDHVQITMAEDIGLGGRAGYYDGIGAARDVIQNHLIQLLALVAMEEPTSFSPRRLRAEKLKVLRATTALEPFDETTARGQYAAGWQGSEKVIGLREEDGFDPDSTTETYAACTLKINSRRWAGVPFYLRTGKRLGRRVTEIALVFKRPPFQPFAKGQTDLLTANAVVLRIQPDEGVLMRFGSKVPGSTMEVRDVNMDFSYSEAFTEESPEAYERLILDALLDESSLFPTNEEVERSWEILDPVLEHWAENGRPDAYAAGTWGPESADAMLARTGRHWRRP	PGPT0017380_1669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
AK009_08486	1167			hypothetical protein	ATGTACTGTGCCCGCGCGGGTGCGCGGGCACAAAACGCGAAACTACTTCAAATTCTGTGCCATGGAGTCGAGCAGCTCCTGCCAGGCGTCGACGAACTTCTCCACGCCCTCGCGCTCGAGCACGGCGACGACGTCGTCCAAGTCGATGCCCACGGCCTCGAGCTTGTCAAAGGTCGCCTGCGCCTCGGCGGCGGTTCCGGTCAGCGTGTCGCCGCGCACCTCGCCCTGCTCGAGCATCGCGTCGAGCGTCGCCTCGGGCATGGTGTTGACGGTGTCGGGGCCCGCGAGCTCCGTGACGTACATGGTGGCGGGGTAGTCCGGGTTCTTCACGCCGGTCGACGCCCACAGTGGGCGCTGCTTGTTTGTGCCCGCGGGGAACTGGCTGGAGTCGGAGAACTCGTCGAGGAAGAGCTGGTAGGCCAGGCGCGCGTTGGCAATGCCGGCCTTGCCCCGCAGCTCGAGCGCCTCGGGCGTGCCGATCGTCTCAAGCCGGTTGTCCACCTCGGTGTCCATGCGGGAGACGAAGAACGACGCCACGGAGTGGATTGTCGACACGTCGTGCCCGTTCGCCTCGGCCTGGCGCACGCCCTCGCGGAAGGCGTCGATAACCTGGCGGTAACGCTCGACGGAGAAGATCAGGGTGACGTTGACGGAGATGCCGGCGGCCAGGGTCGCTGTAACGGCGGGCAGGGACTCGTCGGTGGCGGGGATCTTGATCATCACGTTCGGGCGGTCGACCAGCTGCGCCAGCTCGGCCGCCTGCGCCACGGTGCGCTCCTCGTCGGCGGCGTAGCGCGGATCGACCTCGATGGACACGCGCCCGTCCTTGCCGTCGGTCGCCTCGAAGACGTCGGCGAAGAGGTCGCAGGCATCCTGGACGTCCTTGACGCTCATTGCGTACACAGCCGCATCGACCTCGCTGCCGGCCGCCTTCAGGTCGGCGAGCTGAATGTCGTAGGCGTTGCCACCGCTCATGGCCTTAGCGAAAATCGCCGGGTTGGTGGTGACGCCCTTGATGCTTTTCGACGCCTTAATCTCGTCCAGGTTTCCAGTGGTGATGCGATCCCGCGAGAGGTCGTCGAGCCAGGTGGAGGTTCCGATCTCGTACAGCTTGTCAATCGAGGTCATGGGGGATTTAAGTCCTTTGCGTGTGTGGTTAAGGGTTAG	MYCARAGARAQNAKLLQILCHGVEQLLPGVDELLHALALEHGDDVVQVDAHGLELVKGRLRLGGGSGQRVAAHLALLEHRVERRLGHGVDGVGARELRDVHGGGVVRVLHAGRRPQWALLVCARGELAGVGELVEEELVGQARVGNAGLAPQLERLGRADRLKPVVHLGVHAGDEERRHGVDCRHVVPVRLGLAHALAEGVDNLAVTLDGEDQGDVDGDAGGQGRCNGGQGLVGGGDLDHHVRAVDQLRQLGRLRHGALLVGGVARIDLDGHAPVLAVGRLEDVGEEVAGILDVLDAHCVHSRIDLAAGRLQVGELNVVGVATAHGLSENRRVGGDALDAFRRLNLVQVSSGDAIPREVVEPGGGSDLVQLVNRGHGGFKSFACVVKG				NA	NA	NA	NA	NA
AK009_08487	2034			hypothetical protein	GTGCTCGAGCGAGACGTTGCGCCCGTGGTCGCCGGTGAAGCGGTGCCACGGCATGGCAACACCCGCCTCGACGGAGACGCGGGCCTTGACGTCGTGAGGCAGCACGGCGGCGATGTAGTCGTCGTCCTGCTCGAGGAACCACTCCATCGACGGCATGGAGACGACGCGCGCGGCGACGCCGGAGCCCTCGAGCTCGCGAGCAGCGGCGACAGCGAGCTGCACCTCGGAGCCGGTGGCCATGAGGATCACGTCCGGGGTCGGCTTGGAGCCCTCAACCAGCACGTAGGCGCCGCGGGCAACGCCTTCGAACGCCTTTTCCTTCGTGCCCTCGAGCACGGGCAGGTTCTGGCGCGACAGGGCGAGCGCCTTGGGCTGCTCCTTGCCCTCGAGCGCGGCCTTCCACGCAGCGGAGGTCTCGTTCGCGTCCGCGGGGCGGATCACGGCGAGGTCCGGGATGGCGCGCAGCGCCGCGAGGGTTTCCACCGGCTGGTGGGTGGGGCCGTCTTCGCCGAGGCCGACGGAGTCGTGGGTGAACACGTAGTAGCCGTCGATGCCGGACAGGGCGGCGACGCGGATCGCGGGGTAGAGGTACTCCGAGAAGATGAGGAAGGTGCCGCCGTAGACGCGGGTGCCGCCGTGGAGCGCGATGCCGTTCATGATCGCGCCCATTGCGTGCTCGCGGATGCCGAAGTGCAGGTTGCGGCCGTACGGCTCGGCGGTGAACATGTCGGTGGTGATCTCTGCGGGGCCGAAGGAGGCTGCGCCCTTAATCAGGGTGTTGTTGGACCCGGCCAGGTCGGCGGAGCCACCCCACAGCTCCGGCAGTGCGGCGGCGGCCGCCTGGATCACGGCCTCGGAGGCCTTGCGGGTGGCCAGGCCCTTCTCGTCGGCGTCCCAGGTTGGCAGCTCCGCGTCCCAGCCCTCGGGCAGGCGGCGCGCGGTGAGGCGCTCGAGAAGGGCCGCGTTGTCAGGGTTGTTCTCGGCCCAGGCGTTGAACTTCTCTTCCCACGCGGCGCGCTTCTCGCTGGCGCGTGCCGTCAGCTTGCGGGTGTGGGTGATCACGGCCCCTTCCTCGGGGAAGGTCACCTCGGGGTCGAAGCCCAGGGCCTCCTTGACCAGCTTGACCTCCTCGGCGCCAAGCGCCGCACCGTGCACCGCGCCGGTGTTCTGCAGGTTCGGGGCGGGGTAGCCGATGACGGTCTTGACGCGGATCAGCGTCGGGCGGGCGGTCTCGGCCTGCGCCTGCGCCACGGCGGACTCGATCGCGACGACGTCCTCGCCGGAATCCACGGTCAGCGTCTGCCAGCCGTAGGCCTCGAAGCGCTTCATCACGTCCTCGGTGAACGCGATCTGCGTGTCGTCCTCGATGGAGATGCGGTTGTCGTCCCAAAAGACGATGAGGTTGCCCAGCTGCTGGGTGCCCGCCAGCGACGAGGCCTCGGAGGTCACGCCCTCCTGCAGGCAGCCGTCGCCAGCGATGGCGTAGATGTAGTGGTCAAACGGCGACTCGCCGGCGGGAGCGTCTGGGTCGTAGAGGCCGCGCTCGCGTCGCGACGCCATCGCCATGCCGACTGCGGAGGCGAGGCCCTGGCCGAGCGGGCCGGTGGTGATCTCGACGTGCTTGGTGTGGTTGTACTCCGGGTGGCCCGGGGTCTTCGAGCCCCACGTGCGCAGCTGCTTCAGGTCCTCAAGCTCGAGCCCAAGCCCGCCGAGGTAGAGCTGGATGTACTGGGTCAGCGACGAGTGGCCGTTGGACAGCACGAAGCGGTCGCGGCCCACCCAGTGCGGGTCCTGCGGGTCGATGTTCATGACGCGCTGGTAGAGCGTGTACGCCAGGGGAGCGAGCGACATCGCGGTGCCCGGGTGGCCCGAGCCGCAGTTCTCGACAGCGTCCGCCGCAAGCACGCGTACAGTGTCCACGGCCCGCGTATCCGTTTGCGTCCAATCGTCCGGGTAGTTGCGGACGGTCATCGCGTGCAATTCGGGGGGCAGGGTCGACTGGGTCACGTTGTTCCTCGCTTGTGTCGTTCGTGA	MLERDVAPVVAGEAVPRHGNTRLDGDAGLDVVRQHGGDVVVVLLEEPLHRRHGDDARGDAGALELASSGDSELHLGAGGHEDHVRGRLGALNQHVGAAGNAFERLFLRALEHGQVLARQGERLGLLLALERGLPRSGGLVRVRGADHGEVRDGAQRREGFHRLVGGAVFAEADGVVGEHVVAVDAGQGGDADRGVEVLREDEEGAAVDAGAAVERDAVHDRAHCVLADAEVQVAAVRLGGEHVGGDLCGAEGGCALNQGVVGPGQVGGATPQLRQCGGGRLDHGLGGLAGGQALLVGVPGWQLRVPALGQAARGEALEKGRVVRVVLGPGVELLFPRGALLAGACRQLAGVGDHGPFLGEGHLGVEAQGLLDQLDLLGAKRRTVHRAGVLQVRGGVADDGLDADQRRAGGLGLRLRHGGLDRDDVLAGIHGQRLPAVGLEALHHVLGERDLRVVLDGDAVVVPKDDEVAQLLGARQRRGLGGHALLQAAVASDGVDVVVKRRLAGGSVWVVEAALASRRHRHADCGGEALAERAGGDLDVLGVVVLRVARGLRAPRAQLLQVLKLEPKPAEVELDVLGQRRVAVGQHEAVAAHPVRVLRVDVHDALVERVRQGSERHRGARVARAAVLDSVRRKHAYSVHGPRIRLRPIVRVVADGHRVQFGGQGRLGHVVPRLCRS				NA	NA	NA	NA	NA
AK009_08488	924			hypothetical protein	GTGCAGCTTGGTCGCCATGACCAGGAATCCGGCGCCCGAGGTCACCGCGACAATGAGGTAGATCCACGAGGCGGCCGGGACCAGCAACAGCGAGGTCGCCACGGTCAGCCAGGAGTAGAAAACGATCTGGCGCGTCGTCTCCTGCGGGGTGGCCACGACCGGCAGCATGGGCACCTTCGCCTTGGCGTAGTCGTCCTTGTACTTCATGGCCAGCGCCCAGGTGTGCGGTGGTGTCCAGAAGAAGATGATCATGAACAGCACCACGGCCTGCCACCAGCGATCCGGCGAGCCATCGTTGACGTTGTCGCGCACCGCGGCCCAACCGACGAGGACCGGCATGCAACCGGCGGCGCCGCCCCAGATGACGTTCTGCCACGTGCGACGCTTCAGCCACTTGGTGTAGACGAAGATGTAGAACCAGTTGGTCAGCAGGATGAAAAACGCCGCGAGCCAGGAGTTGCAGACGAACCCGAGCCACAGAACGGACAGGGCGAGCAGCACCCAGGCGTAGATCGCGGCCTTGCGCTTGGTCACGGTGGCTCTCACCAGCGGGCGCGCCCGGGTACGGCCCATCTTCTGGTCAATGTCGTAGTCGGCGACCATGTTGAAGGTGTTCGCGGCCGCCGCACCCATCCACCCGCCGAGCAGCGTGCCCAGGATGAGCCACAGATCCACGCTACCGCGGTTGGCCTGGAGCATGGCGGGGATCGCAGCGACGAGGAGGAGCTCAATGACCCTCGGCTTCGTAAGCGCAAAGTAAGCCTTGATGGTCTCCAAGTAAACAACTCCTCCAGCAGAAACGGCCGCCCGGTACGGGAGGGCCAACATCACAGTAGTCGCACCGCGACGGCGAAAAGTTCCGCCCCCGCCCGAAACCGCGCGGGCGTCATACCTTCGGATGATGCTACCGCCACGGCGCAGTAA	MQLGRHDQESGARGHRDNEVDPRGGRDQQQRGRHGQPGVENDLARRLLRGGHDRQHGHLRLGVVVLVLHGQRPGVRWCPEEDDHEQHHGLPPAIRRAIVDVVAHRGPTDEDRHATGGAAPDDVLPRATLQPLGVDEDVEPVGQQDEKRREPGVADEPEPQNGQGEQHPGVDRGLALGHGGSHQRARPGTAHLLVNVVVGDHVEGVRGRRTHPPAEQRAQDEPQIHATAVGLEHGGDRSDEEELNDPRLRKRKVSLDGLQVNNSSSRNGRPVREGQHHSSRTATAKSSAPARNRAGVIPSDDATATAQ				NA	NA	NA	NA	NA
AK009_08489	891			hypothetical protein	TTGGGCGCGCATGCGGTACTCGTCGTCAGTGGCGACGTAGGCGGCCAGCGACGGGCGGGTGAGAAACAGCGAGCCGTGCTTGTTCAGCTCCTGGATCACGAACGGCTCGACGTCGCCCGAGGCGGAGCCGAAGGAGCAGACGAGCCCGCGCGGGCGGCAGACGTCGAGGGCCTGGGCGAAGGTGTCCTTGCCCACGCCGTCGTAGATCACGTCCACGCCCTTTCCGCCGTTGGCTTCCTTGACGTCCTCGGCGAAAGTGTCGTAGCGAAACACCTGCGTTGCGCCCGCGTCGTAGGCGAGCTTCTCCTTCTCCGCGGTCGAGGTCACGGAGTAGACTACCGCGCCGGCGGCGGCAGCCAGTTGAGTCAGCACGAGCCCGACCCCGCCGGAGCCAGCGGTAATCACCATCGTGTCGCCCGGCTTCGTCTCGCGGGTGCCGTGCAGAAGGTAGTGCGCCGTCATGCCTTGGAGCAGCATCGACGCCGCGACCGCGGGATCGATGCTTTGCGGCACGGCGACGAGGCGGTTGCGGGGAACGCACACCTTCTCGGCGTACGAGCCGGGGGCGCTGTGCCAGGCGACCAGCGTGCCCTCGGCGATTTCACCGGCGGGGTCGGCAATGACGCGGCCGCACCCCTCGGTGCCGGGGATGTAGGGCAGTTCCTGGTCGTAGGTGCCAGAGCGGAAGTAGGTGTCGATGTAGTTGACACCCGCGTAGAGCACCTCGACGAGAACGTGCGCCTCGGTCGGCTCCGGGTCGGGGCGGTCCGTGTAGGTGAGAACCTCGGGCCCGCCGTGCTGGGTAACGTAGATCGCCTTCATGGCCCCCACGTTACCGGAGCCCCGTTTAGGCCATCCGGCGTTTGCCGTGCGCCCAGAGGAAGGCGCTAA	MGAHAVLVVSGDVGGQRRAGEKQRAVLVQLLDHERLDVARGGAEGADEPARAADVEGLGEGVLAHAVVDHVHALSAVGFLDVLGESVVAKHLRCARVVGELLLLRGRGHGVDYRAGGGSQLSQHEPDPAGASGNHHRVARLRLAGAVQKVVRRHALEQHRRRDRGIDALRHGDEAVAGNAHLLGVRAGGAVPGDQRALGDFTGGVGNDAAAPLGAGDVGQFLVVGARAEVGVDVVDTRVEHLDENVRLGRLRVGAVRVGENLGPAVLGNVDRLHGPHVTGAPFRPSGVCRAPRGRR				NA	NA	NA	NA	NA
AK009_08490	543			hypothetical protein	GTGCGCCCAGAGGAAGGCGCTAAAGGCGACGACCACCGAGGACATGGCGATGTGCAGCGGCACCGTCCAGCGCGGAACGCCGAGGTAGAACTGGGTTACGCCCACGGCCCACTGGACGACGATCATGGCGACGAGCACCAAGGCGGTGTTGAACGCGTCCTTCGGCGCCTGCGAACGGCGCAGCAGGTAAACGGCGACGAGCGTGGAAATGAGGTAGATGTACATGCACGCGGCGTGGACGTAGGCGAGGATCTCGGTGTCGAGTGCCAAACGGCCCTCCATGCCGACCCCGCTGTCGCCCGAGTGCGGGCCCGAGCCGGTGACCATCGTGCCGGTCACCAGCACGAAGCTCAGCGCGACAGCCGCGACGACCACGGCCGTGCGGGCGCTACCGTCGTAGCGCGTGACGACGGGCGCGTCGTCCGGCTCATTGATGCGCATGTAGAGCACGGCTGCAATCCACACCAGCACCATCGAGGGCAGGAAGTGCACGGCCACCGCCCACCAGTGCAGGTTGACCAGCACGGAGATCCCGCCGAGTAG	MRPEEGAKGDDHRGHGDVQRHRPARNAEVELGYAHGPLDDDHGDEHQGGVERVLRRLRTAQQVNGDERGNEVDVHARGVDVGEDLGVECQTALHADPAVARVRARAGDHRAGHQHEAQRDSRDDHGRAGATVVARDDGRVVRLIDAHVEHGCNPHQHHRGQEVHGHRPPVQVDQHGDPAE				NA	NA	NA	NA	NA
AK009_08491	435			hypothetical protein	GTGCCAGCGGCGCTGCGCCCTGTACACCGCCACCGTCACCGCGACCGCAGCCGCCGCGACGACGAAGGTCAGCATGCGGTTGCCGAACTCGATGGCCTGGTGGATCGCGGGCGCGGCGCCCGGCACGGGCACGAGCGAGCCTTCGTGGCACAGCGGCCAGGTGTTGCAGCCGAGGCCCGAGCCCGTGACGCGCACGAGCGAGCCGGTCACCGTGATGCCGCCCTGGCACAGGAGCAGGATCATCGCGAGGACGCGCTGCAGCTTCAGGGATGGGCCCACGGTCGTTTTAACAGGGGTGTTCACGTCAACACCGGTACCTTCCACGGATCAAACATAATATTGATTCTTAGCTTAACCCACGCCTCGGCCGTTCTAGCCATCGAAGCGGAACCAGCGGGCGGCGGCGGTGACGGCGACAGCCACCCACACCGATAG	MPAALRPVHRHRHRDRSRRDDEGQHAVAELDGLVDRGRGARHGHERAFVAQRPGVAAEARARDAHERAGHRDAALAQEQDHREDALQLQGWAHGRFNRGVHVNTGTFHGSNIILILSLTHASAVLAIEAEPAGGGGDGDSHPHR				NA	NA	NA	NA	NA
AK009_08492	675			hypothetical protein	GTGCAGCGCCTGCGTCAGCGCACCCGCCAGGGCGACGGTGGGCACCAGGTTGTACCAGCCGGCCTCGACCAGGTTGCCCGAGTAAGTGACCCACCCCAAGATGCCGACCAAAATCAGCCACAGCAGGTTGGCCAGGGCGAGGACGAGCTCGGAACTCATGGTGCCACCGAGCAGCAACCCCAGGGCGGTGAAACACGCCACGCCGAGCAGCAGCGTCACCCCGCCGAACAGGGCGCCGCCGACGGGGACGCGCCAACCCAAGGCGACGGCGATCGCGCCGAGGACGACGATCTGGACTGCCACCATCGCCAGCACGCCGAGAATCTTGCCCGCGATGATCGTCCATGCCGGCACCCCGGAGGCGCCGGTGCGCTTGAGCGCGCCGTAGCGGCGGTCGAATGCCAGCGCGATCGCCTGGCCGGTAAAGCCCGCGCTGCTCGCCGCCACGGCAAACACCACCGGCACGAGGTGGTCGAGGCGCGCGGGCGAGTCAGCCCCGGGGATCGGCAGCTTCGTGGCGGCGACGAGGATCACAGCGGGGATGATCAGGTTGAGCAGCAGCTGCTCACCGTGGCGCAGCATGAGCAACGCCTCGATGCGCCCCTGCGCCAGCGCCATCCGGGTTACGGAAGCGCGGCGGGGGCGCGGGGTAAACGTGCCTTCGGCAAGTTCTAG	MQRLRQRTRQGDGGHQVVPAGLDQVARVSDPPQDADQNQPQQVGQGEDELGTHGATEQQPQGGETRHAEQQRHPAEQGAADGDAPTQGDGDRAEDDDLDCHHRQHAENLARDDRPCRHPGGAGALERAVAAVECQRDRLAGKARAARRHGKHHRHEVVEARGRVSPGDRQLRGGDEDHSGDDQVEQQLLTVAQHEQRLDAPLRQRHPGYGSAAGARGKRAFGKF				NA	NA	NA	NA	NA
AK009_08493	318			hypothetical protein	GTGCGCGACGCTGAACTCGCGCAGCAAAACGCCCTGGGCGTCGGCTTCGCGCGCGAGCGTGGCGACGACCTCCGGAGTCGCTCCGCCGGAGATCTGGTAGCGCAGCGGCCGGGTGGCTTGGGCGGTCAGGGAGTGCGCGGACAGGGCGTCGTTAAGCGGCGCGATGGCGAGCTCGCGGTCGGTGCTGAGCGTGATCAGCGGGAAGGAGTCGTGGCTGGTCAGCTCGGCGGTGGTGCCTTGGGCGACGACGGCGCCGCGGTCGATGATGACGACCTTGTCGGCGAGCGCTTCGGCCTCGTCCATGAGGTGGGTGGTTAG	MRDAELAQQNALGVGFARERGDDLRSRSAGDLVAQRPGGLGGQGVRGQGVVKRRDGELAVGAERDQREGVVAGQLGGGALGDDGAAVDDDDLVGERFGLVHEVGG				NA	NA	NA	NA	NA
AK009_08494	153			hypothetical protein	TTGGGCGTCCATCCCGGCGGTCGGCTCGTCGAGGAAGATCAGCTCAGGGCGCCCGATCATCGCCAGCGCCAGAGACAGTCGCTGCTGCTGGCCGCCCGAGAGGCGCCGGTAGGTGGTCTTTTCCACCCCGCGCAGGCCAAGCAGGTCGATTAG	MGVHPGGRLVEEDQLRAPDHRQRQRQSLLLAAREAPVGGLFHPAQAKQVD				NA	NA	NA	NA	NA
AK009_08495	267			hypothetical protein	TTGCAGCATGATGCCGATGCGCGAGCGCACCTTCGCGGGCTCGGCGGACGGGTCGAGACCCAGTACAGAGATTCTGCCGCTGGTGGGTTTGGTAAAGCCCTCGCACATCTCGACGGTGGTGGTTTTGCCCGCACCGTTGGGGCCGAGGAGTGCAAGGATCTCACCGCGGGCGGCGGTGAAAGAGAGGCCGTCTACGGCCACGATGTCGCGGTATGTTTTGGAAACGTTGTCCAGGACAAGTGCATCACTCATGGCTGGCTAGTTTAG	MQHDADARAHLRGLGGRVETQYRDSAAGGFGKALAHLDGGGFARTVGAEECKDLTAGGGEREAVYGHDVAVCFGNVVQDKCITHGWLV				NA	NA	NA	NA	NA
AK009_08496	636			hypothetical protein	GTGGTCGTCGCGGCTGCCCGGGGTGGCGGCGATCGCCCTCGCCGCCGCCACGCAGGCCGCGCTCATGGTCGCCACCACGGTGGTTTTCTCGCTGCTGACCGGCATCGGTTTCGGCTGGGTGACGGGCCAGGGAGGGGCGGCGTCGATACGCAGCTGGCTCTCGGTTACCACCGATGTCGGGGTCATCGCGGGCAACATCGGGATGCTACTGGGCCTCGGCGACCACATCGAGGCCATGCTGGCGATCACGCGCGGGGCGGGCCTAATAGTCGCCGCCGCGTTCATGATCCGCATGCTGTGGGCGACCTACCGCGGCACGATCCACCCGGTAGGGGGCTTAGGTGTGGCCACGCTCGTGCTGGTGATCCTCTTCCCCGTCGTCCACCCCTGGTACCCGCTGTGGGCCATCCTGCCGCTGGCGGCGTGGGCCAACCGTCTGTTCTTCCGCGCCGCGGTGGTCATCTACAGCGCGGTGTTCAGCTTCCTCGTGCTGCCGCGCGGCCTGGCGCTGAACCCGGGAGCGGTGATCACCATCTACACAATCGCCGCCACCGGTTTCGCTGTGATCTGCGCTGCCGGCTGGTGGTGGTACCGGCGATTCGGTCGCAGGAGTCTAAACTAGCCAGCCATGAGTGA	MVVAAARGGGDRPRRRHAGRAHGRHHGGFLAADRHRFRLGDGPGRGGVDTQLALGYHRCRGHRGQHRDATGPRRPHRGHAGDHARGGPNSRRRVHDPHAVGDLPRHDPPGRGLRCGHARAGDPLPRRPPLVPAVGHPAAGGVGQPSVLPRRGGHLQRGVQLPRAAARPGAEPGSGDHHLHNRRHRFRCDLRCRLVVVPAIRSQESKLASHE				NA	NA	NA	NA	NA
AK009_08497	900			hypothetical protein	ATGGATGCCGCCGACCAGGTGCAGGATGGTCAGCGGGTTGAGCACACCCAGCCACAGCGCCGCGGCGGGGGAGACGCGGCAGCGGCGCGCAAGCGCCACCACGCCCCACGCGGCGGCGCCGATCCCCACCAGCGACACCAGGCGGTGGGCGATAACACCGAGCACGATCGAATCGTGCGTCAGCCACGACACCACCGCGGAGATGCCCAGCGCCACGGGCCCGTAAGGGCTCGGCGACTGCGCCCAGATAAACGGCACGGAGCGCGCCAGGTGGTTCTCGGTGCCCAGGATCTCGACAGGGCCCGCGGCGTAGGGGTCGAGGCCCTGGCGCACAATCGAGCCCTGCGCCAGGTAGGAGTAGATGTCCTGGGTAAAAAGCGGGGCGGTCAGGATCAACGGGATGACCCAGGCGACAAAGGTGCGCACGATCACGCCCTTGCCCACCCGAGCGGGGGTGCTGCCCGCGCCGACGAACGGCGCCATGAGCACCCACGCGACTACGAGCAGGCCCACGCCGATGAGGATCAGCGCGGAGGAGGTCTGCAGCATGCGTCCCATCACGGCGCCGCCGGGGAAGAGTGCGTACGGGTTGTCCACCACGGGCAGCGCCCCGCCGCCGAGGCCGCCGAGGCCCATGAGGATCGTGCCCACGAGCCCGATGAAGCGCAGCACAGCGAAGCGGTTGAGCTCGGCTACCGACGCTCGGGACGCTTGGGCGGGGTGGGCGTCGCCAAGCGAGCTTTCGTGCAACTCTGCCGAGCGCGACCCGGGCCGGCCCAGCCTGGGCAAAACCCGCGGAAGGACGTTCACAACCGAGGAGTCTACAAAACGAGGCACCCGCGACGGGGGCTCACATGCGGAATTAATTTGAACACACTAGTGTTGGATAAAGGCGAATGA	MDAADQVQDGQRVEHTQPQRRGGGDAAAARKRHHAPRGGADPHQRHQAVGDNTEHDRIVRQPRHHRGDAQRHGPVRARRLRPDKRHGARQVVLGAQDLDRARGVGVEALAHNRALRQVGVDVLGKKRGGQDQRDDPGDKGAHDHALAHPSGGAARADERRHEHPRDYEQAHADEDQRGGGLQHASHHGAAGEECVRVVHHGQRPAAEAAEAHEDRAHEPDEAQHSEAVELGYRRSGRLGGVGVAKRAFVQLCRARPGPAQPGQNPRKDVHNRGVYKTRHPRRGLTCGINLNTLVLDKGE				NA	NA	NA	NA	NA
AK009_08498	1152			hypothetical protein	GTGCAGGGAGTCGGACTTGTAAATCGGCGCGGTGCAGCCCTCGACGTAGTGCACGTAGGCGTCCTCGTCGACGATGATCAGGGTGCGCTCGAACTGGCCCATGTTCTCCGTGTTAATGCGGAAGTAGGCCTGCAGCGGGATGTCCACGTGGACCCCCGGCGGCACGTAGATGAAGGAGCCACCAGACCACACGGCGGAGTTAAGCGCGGAGAACTTGTTGTCGCCGGCCGGGATCACCGAGCCGAAGTACTCCTTGAAAATGTCCTCGTGCTCGCGCAGGGCGGTGTCGGTGTCGACGAAGATAACGCCCTTCTCCTCCAGGTCCTCGCGGATCTGGTGGTAGACCACCTCGGACTCGTACTGCGCTGCCACGCCCGCGACCAGGCGCTGCTTCTCCGCCTCGGGGATGCCGAGCTTGTCGTAGGTGTTCTTAATGTCCTCGGGCAGATCCTCCCACGAGGTGGCCTGCTTCTCGGTCGAGCGGACGTAGTACTTGATGTTGTCGAAGTCGATGCCGCTCAGGTCAGCGCCCCAGGTCGGCATGGGCTTCTTCTCAAAGACCTCGAGCGCCTTCAGGCGCTGGTTGAGCATCCACTCGGGCTCTTCCTTGATGCGGGAAATGTCCTTGACCACATCTGGGCTCAGGCCGCGGCGCGCGGCGGCGCCGGCGGCGTCAGAGTCGTGCCAGCCGTAGTTGTAGGCGCCAATGGACTCAATAATTTCGTCGTCGTTCATCGGCCTTTCCAGGCCGGGTGCGGGAGTTGTCTCAGTCAAGATCTCCGCTCCTTTCGGTGTGTGTCTCGCGCGCTGCGGCGGTTTTGCCCACAGCGACGAGGGGAATGTTGGTCGTGCAAATTCCGTTGCCGTCCGCGATCATGGCGAGCGGTTGAACGTGCTTTCCGACGAGCTCCGAGATGGCCTCGTGCTCCGCCTCGCAGATTTCCGGGTGCCGGGCGGCGACGGCCGATACCGGGCAGTGGTGCTGGCAGATCTGGATACCCATCCCCGCCCGCGTCACTGTCGCGGCGTAGCCATTGTCGTCGAGCGCGTCCGCGAGGTCGCGGGCGACCGCCTCGATGTCCTCGCCGGACTCGGCTGCAGGTTCGACGCCCTCGAGGATCTTGTCGATCCTCGCGCGCGCCAGCTCCTTGA	MQGVGLVNRRGAALDVVHVGVLVDDDQGALELAHVLRVNAEVGLQRDVHVDPRRHVDEGATRPHGGVKRGELVVAGRDHRAEVLLENVLVLAQGGVGVDEDNALLLQVLADLVVDHLGLVLRCHARDQALLLRLGDAELVVGVLNVLGQILPRGGLLLGRADVVLDVVEVDAAQVSAPGRHGLLLKDLERLQALVEHPLGLFLDAGNVLDHIWAQAAARGGAGGVRVVPAVVVGANGLNNFVVVHRPFQAGCGSCLSQDLRSFRCVSRALRRFCPQRRGECWSCKFRCRPRSWRAVERAFRRAPRWPRAPPRRFPGAGRRRPIPGSGAGRSGYPSPPASLSRRSHCRRARPRGRGRPPRCPRRTRLQVRRPRGSCRSSRAPAP				NA	NA	NA	NA	NA
AK009_08499	1746			hypothetical protein	GTGCTCGAGCTCGCCGGAAACCCGGGCGATGAGCTCGTCGCGGACGGACTCCACCGGGATCTTGTTGAGGACCTCGTTGAAGAAGCCGCGGATGATCAGGCGCGTCGCCTCTTCCGTCGGGATGCCTCGAGCACGCAGGTAGAACACCTGCTCCTCGTCGAAGCGGCCGACCGTTGCGGCGTGGCCTGCGCCGGCGATCTCGCCGGTCTCGATCTCCAGGTTCGGGATCGCGTCGGCGCGGGCGCCGTCGGTAAGCACCATGTTGCGGTTGGTCTCGTAGGTGTCGGTGCCCTGGGCCTCCGCGCGGATCAGCACGTCGCCCACCCAGCAGGTGCGAGCGTCCGGCTTGTCCGAGTTCTTGTCTCCCTGCAGCGCGCCCTTGTAGAGCACGTTGGAGCGGCAGTTGGGCACGCTGTGGTCCACCAGCAGCCTGTTCTCGATGTACTGGCCGTCGTCGGCGAAGTACACGCCGGTCAGCTCCACGTCGCCGCCCGGGGCGGTGAACTTCACGCGCGGGGTGACGCGGGTGACCTCGCCGCCGAAGCTGGCAACGGTGTGGCGCAGGGTCGCGTCGCGGCCCACCACGATCGACTGCGCGCCGAGGTGAACGGCGTCGTCGGCCCACTCCGTGTCGACGACCGCGTAGACGCGCGAGTTGTCGCCGATCAGCCAGTTGACGTTGTCGGCGTGGGTGCCGGAGCCGGTGTAGCGCACGATCACGGTCGCCGCGGAGTTGACACCGGACTCAACGAGAACGGTGGCGAACGTCGTGGCGTCCAAGCCCGCGCCGGTGATGGTCACCGTGACGGGCTCGGTGAGCTCGGCGTTGTCCGGGATCTTCACGATCGTGCCGGAGGTCGCCCCCGTCCACGCCTGCGCGGCGACGCGGTCGACGGGGCCGCCGGCGGCCTTGAGGCGGTCGTCGTCAGGCGAGACCGTCTCCACGATCACCTCGGACGGGCCCTCGACGTTGATGCGGGCGTCGGTAAGCGGCGCGAAGGTGCCGTTGTGGAGGCCGCGCAGGCGGCGCAGCGAGATGAAGCGCCAATCCTCGTCGCGACCGCCCGGAACGGCGAAGTCGTCGACGGTGTAGGAGACGGGCATATCGCCCTTGTTGTTGACGCCGGAGGCGTTCTTAACAGCGGTATCCGCCATGGGTTAACCCACCGATCCTTCCATTTGCAGTTCGATAAGACGGTTGAGCTCGAGGGCGTACTCCATCGGCAGCTCCTTCGCGATCGGCTCGACGAAGCCGCGGACGATCATCGCCATCGCCTCTTCCTCCGCGATGCCGCGCGACATCAGGTAGAACAGCTGCTCCTCGCTGACCTTCGACACCTTCGCCTCGTGGCCGAGGGTGACGTGGTCGTTGCGGATGTCGTTGTACGGGTAGGTGTCCGAGCGCGAGATATTGTCCACCAGCAGCGCGTCGCACTCGACGTTGGACGCGGAGTGGTGGGCGTTCTGGTTGATCTGCACCAGGCCGCGGTAGGCCGCGCGGCCGCCGCCGCGGGCAACCGACTTGGACACGATCGACGACGACGTGTGCGGCGCCATGTGCGTCATCTTCGCGCCGGTGTCCTGGAACTGGCCCTCGCCAGCGAACGCCACGGAAAGGACCTCACCCTTGGCGTAGGGGCCGGTCATCCACACGGCCGGGTACTTCATGGTTACCTTCGACCCGATGTTGCCGTCGACCCACTCCATGGTCGCACCCTCTTCGGCCTTGGCGCGCTTGGTCACTAG	MLELAGNPGDELVADGLHRDLVEDLVEEAADDQARRLFRRDASSTQVEHLLLVEAADRCGVACAGDLAGLDLQVRDRVGAGAVGKHHVAVGLVGVGALGLRADQHVAHPAGASVRLVRVLVSLQRALVEHVGAAVGHAVVHQQPVLDVLAVVGEVHAGQLHVAARGGELHARGDAGDLAAEAGNGVAQGRVAAHHDRLRAEVNGVVGPLRVDDRVDARVVADQPVDVVGVGAGAGVAHDHGRRGVDTGLNENGGERRGVQARAGDGHRDGLGELGVVRDLHDRAGGRPRPRLRGDAVDGAAGGLEAVVVRRDRLHDHLGRALDVDAGVGKRREGAVVEAAQAAQRDEAPILVATARNGEVVDGVGDGHIALVVDAGGVLNSGIRHGLTHRSFHLQFDKTVELEGVLHRQLLRDRLDEAADDHRHRLFLRDAARHQVEQLLLADLRHLRLVAEGDVVVADVVVRVGVRARDIVHQQRVALDVGRGVVGVLVDLHQAAVGRAAAAAGNRLGHDRRRRVRRHVRHLRAGVLELALASERHGKDLTLGVGAGHPHGRVLHGYLRPDVAVDPLHGRTLFGLGALGH				NA	NA	NA	NA	NA
AK009_08500	498			hypothetical protein	GTGGCGCTTCTTCTCGCCGCCCGAGAAGCCCTCATTGACCGAGCGCTCGGAAAAGGATGCGTCCATCTGCAGGGAGTCGCGCGCTGCGTTGAGCTCGCTGACCCACTCCCGCAGCTTGGGTGCCTCGCCGCGCACGGCGGTCACGGCGGAGCGCATGAAGTTCGACGAGGAGACGCCGGGGACCTCAACCGGGTACTGCATGGCCAGGAACAGGCCCGCGCGGGCACGCTCGTCGACCTCCATCTCCAGCAGGTTCTCGCCGTCGAGGAGCACCTCGCCGTCGGTCACCTCGTACTTCGGGTGGCCGGCGATGGTGTAGGCCAGGGTGGACTTGCCGGAGCCGTTCGGGCCCATGATGGCGTGGGTCTCACCGGACTTGATGGTCAGGTTGACGCCCTTGAGAATCGGGGTCGGCTCCTGGCCCTCTTCGTTCGGCAGGACGTTAGCGTGCAGGTTCTTGATTTCGAGAGTAGACATACGTGTTCTTTCCGTTTCTGA	MALLLAAREALIDRALGKGCVHLQGVARCVELADPLPQLGCLAAHGGHGGAHEVRRGDAGDLNRVLHGQEQARAGTLVDLHLQQVLAVEEHLAVGHLVLRVAGDGVGQGGLAGAVRAHDGVGLTGLDGQVDALENRGRLLALFVRQDVSVQVLDFESRHTCSFRF				NA	NA	NA	NA	NA
AK009_08501	315	rpsQ_2	COG0186	30S ribosomal protein S17	ATGACTGAGGCAAACGTGACTGTATCTGACAACGCTGCACACGAGGCAGCAAACGGCAAGAAGGAAAAGGGCCTGCAGAAGCGCCGCCGCGGCTACGTCGTGTCCGACAAGATGGACAAGACGATCGTGGTCGAGGTTGAGGACCGCAAGTCCCACGCCCTGTACGGCAAGATCGTGCGCTCCACCAAGCGCGTGAAGGCCCACGACGAGGACAACACCGCTGGTGTTGGCGACCTCGTCCGTATCGAGGAGACCCGCCCGCTGTCCAAGGACAAGCATTTCCGTCTCATCGAGATCATCGAGAAGGCCCGCTAA	MTEANVTVSDNAAHEAANGKKEKGLQKRRRGYVVSDKMDKTIVVEVEDRKSHALYGKIVRSTKRVKAHDEDNTAGVGDLVRIEETRPLSKDKHFRLIEIIEKAR				NA	NA	NA	NA	NA
AK009_08502	231	rpmC_2	COG0255	50S ribosomal protein L29	ATGGCTGCTGGTACCCCCGCATCCGAGTTCCGTGAGCTCAACGATGATGAGCTCCGCACCCGCTTGGCCGACGCGAAGGAAGAGCTGTTCAACCTGCGCTTCCAGCTCGCGACTGGCCAACTGACCAACAACCGCCGCATCTCCACCGTCAAGCGCGACATTGCACGCATCTACACCGTGCTGCGCGAGCGCGAGCTCGGTCTGTCTGTCGTCCCGGGAGCTGAGGCATAA	MAAGTPASEFRELNDDELRTRLADAKEELFNLRFQLATGQLTNNRRISTVKRDIARIYTVLRERELGLSVVPGAEA				NA	NA	NA	NA	NA
AK009_08503	807			hypothetical protein	ATGTGTTTAGCCCTCCTGCTTCTGCTCTGCGCGCTGGCGGCGCTGGCCACCACGGCGCGGGCGGCGGTCACGGTCGCCGCGTCCGCGACGATCGCCCGACGGTGCGTTGAGGTCAGACTCACGCACGCCGCCGACGACGTCGCCCTTGTAGATCCACACCTTGACGCCAATGACGCCAAAGGTGGTGTGTGCCTCGGCAATGCCGTAGTCAATCTCCGCGCGAAGGGTGTGCAGCGGCACACGGCCCTCGTGGTAGCGCTCAACGCGCGACATCTCGGCGCCGCCAAGACGGCCGGAGGTCATGATCTTGATGCCCTTGACCTGCGGGTTGCGCATTGCGGACTGGATTGCCTTACGCATCGCGCGACGGAACGCCACGCGGTTGACCAGCTGCTCAGCGACGGACTGCGCCACCAGAGCTGCGTTGGCGTCGACGTTCTTGACCTCGAGGATGTTGAGCGCAACCATCTTGCCGGTGAGCTTCTCCAGCTCGCGGCGGATGCGGTCAGCCTCGGCGCCACGGCGACCAATCACGATGCCCGGGCGGGCGGTGTGAATGTCGACGCGGACGCGGTCGCGGGTGCGCTCGATGACGACGTCGGCAATGCCGGCGCGCTCAAGGCCCTTAGAGAGGAACTCGCGGATCTTGATGTCCTCTGCGACGTAGTCGGCGTAGTTCTTATCGGCGTACCAGTGGGTCTTCCAGTCAGCGGTGATTCCCAGGCGAAGGCCGTGTGGGTGGATTTTCTGGCCCATTACTTAGCCCCTTCCTTAGATTCAGCGGACTCGACGACCACGGTGATGTGA	MCLALLLLLCALAALATTARAAVTVAASATIARRCVEVRLTHAADDVALVDPHLDANDAKGGVCLGNAVVNLRAKGVQRHTALVVALNARHLGAAKTAGGHDLDALDLRVAHCGLDCLTHRATERHAVDQLLSDGLRHQSCVGVDVLDLEDVERNHLAGELLQLAADAVSLGATATNHDARAGGVNVDADAVAGALDDDVGNAGALKALREELADLDVLCDVVGVVLIGVPVGLPVSGDSQAKAVWVDFLAHYLAPSLDSADSTTTVM				NA	NA	NA	NA	NA
AK009_08504	714			hypothetical protein	GTGAGAGGTGCGCTTCCGGATCTGGAAAGCGCGGCCCTGTGCGCGCGGCTGGTAGCGGCGCATGGTCGGGCCCTCGTTGGCGTAGCACTCGGCGATGACCAGGGTGCGCGGGTCCAGACCGAAGTTGTTCTCAGCGTTGGCCGCGGCAGACGCAACGACCTTGGCAATATCCTTGGACGCACCCTGCGGGGCGTACTTCAGGATAGCGAGAGCCTCGGAAACGGACTTTCCGCGGACCAAAGCGAGCACGCGGCGCGCCTTCATCGGGGAGACGCGGACGAACCTGGCCGTCGCGGATGCGGAGGTGATGGTGTCACTCATCGCTTATCGACGTCCCTTCGATTCCTTGATGTGACCCTTGAAGGTCTTGGTTGGTGCGAACTCGCCGAGCTTGTGACCGACCATGGACTCATCGACGAACACCGGCACGTGCTTGCGACCGTCGTGGACGGCGAAGGTGTGGCCGATGAAATCGGGGAGAATGGTCGAGCGGCGAGACCAGGTCTTGATGACCTGCTTGGTGCCGGCCTCGTTCTGAGCGTCCACCTTGTTGAGGAGGTGCTCATCGACGAACGGGCCCTTCTTCAGGCTGCGTGGCATGTTTGCTTACCTCCTCTTAGCGCTTCTTGTTCGCGCGACGACGGCGCACGATCATGTTGTTGGAGTAACGGTTCGGGTTACGGGTGCGGCCTTCCTTCTGGCCCCACGGGCTGA	MRGALPDLESAALCARLVAAHGRALVGVALGDDQGARVQTEVVLSVGRGRRNDLGNILGRTLRGVLQDSESLGNGLSADQSEHAARLHRGDADEPGRRGCGGDGVTHRLSTSLRFLDVTLEGLGWCELAELVTDHGLIDEHRHVLATVVDGEGVADEIGENGRAARPGLDDLLGAGLVLSVHLVEEVLIDERALLQAAWHVCLPPLSASCSRDDGARSCCWSNGSGYGCGLPSGPTG				NA	NA	NA	NA	NA
AK009_08505	837	rplB_2	COG0090	50S ribosomal protein L2	ATGGCTATTCGTAAGTACAAGCCGACAACCCCGGGTCGCCGCAACAGCTCCGTCTCCGAGTTCTCGGAGATCACCCGCTCCACTCCGGAGAAGACCCTGCTGCGCCCGCTCCCGAAGAAGGGTGGCCGTAACAACCACGGCCACATCACCACCCGCCACCGCGGCGGCGGACACAAGCGTCGCTACCGCGTTATCGACTTCCGCCGCAACGACAAGGACGGCGTGCTGGCCAAGGTCGCTCACATTGAGTACGACCCGAACCGCACCGCCAACATCGCGTTGCTGCACTACACCGACGGCGAGAAGCGCTACATCATCGCGCCCAAGGGCCTGACCCAGGGCACCGTGCTCGAGTCCGGCGCAACCGCAGACATCAAGGTTGGCAACAACCTGCCGCTGCGCAACATCCCGACCGGTACCACCATCCACGCAGTGGAGCTCAAGCCGGGCGCGGGCGCGAAGCTCGCCCGTTCCGCAGGTGCTTCCATCCAGCTGCTGGGTAAGGAAGGCAACTACGCAGTTCTGCGTATGCCGTCTTCCGAGATCCGCCGCGTGGACATCCGCTGCCGCGCCACCGTGGGTGAGGTCGGCAACGCCGACCAGATCAACATCCGCTGGGGCAAGGCCGGCCGTATGCGCTGGAAGGGCTGGCGCCCGACCGTCCGCGGTGTTGTCATGAACCCGGTCGATCACCCGCACGGTGGTGGCGAGGGCAAGACCTCCGGTGGACGCCACCCGGTCAGCCCGTGGGGCCAGAAGGAAGGCCGCACCCGTAACCCGAACCGTTACTCCAACAACATGATCGTGCGCCGTCGTCGCGCGAACAAGAAGCGCTAA	MAIRKYKPTTPGRRNSSVSEFSEITRSTPEKTLLRPLPKKGGRNNHGHITTRHRGGGHKRRYRVIDFRRNDKDGVLAKVAHIEYDPNRTANIALLHYTDGEKRYIIAPKGLTQGTVLESGATADIKVGNNLPLRNIPTGTTIHAVELKPGAGAKLARSAGASIQLLGKEGNYAVLRMPSSEIRRVDIRCRATVGEVGNADQINIRWGKAGRMRWKGWRPTVRGVVMNPVDHPHGGGEGKTSGGRHPVSPWGQKEGRTRNPNRYSNNMIVRRRRANKKR				NA	NA	NA	NA	NA
AK009_08506	1002			hypothetical protein	ATGTGTCCTTTTCTATCGAGTCACTTAGACGGCTGCGCCGCCGAAGATATCGATGGAGTCGCTGCCCTCGCGGAGAGTGACGTAGGCGCGCTTGGTGTCCTTACGCTTGCCAAAACCGGTGCGGGAGCGCTTGCGCTTACCCTCGCGGTTGGCGGTGTTCACCGAAGCGACGTCGACGCCGAAGATCTTCTCCACGGCAATCTTGATCTGGGTCTTGTTAGCAGACGGGTTCACGAAAAACGTGTACGTGTTCTGCTCCATCAGCGCGTAGGTCTTCTCGGAGAGGACCGGGGCGATGATGACGTCACGCGGGTCGGCGATCTTAGCCATTTACTTCTCCTCCTCAGCTGCGGCAGCGGGTGCGCCGGCGGCTGCGTTCACGAAGGTGTGAAGCGCCTCGACGGAGAACACGACATCATCAGCATTGAGCACGTCGTAGGTGTTCAGCTGGCTCGGCTCAAGGATGTGGACACCCGGCAGGTTCCGTGCGGAAAGGCGGGAGTTGACATCCTCACGGCCGATGACCAGGAGAACGGACTTACGGTCGGTGAGACGCTCGATGAAGGCGCGTGCGGACTTCGTCGACGGGGTCTGGCCCGGGACGAGCTCCTCCACAACGTGGATGCGCGCGCCGCGTGCGCGGTCGGTCAGGGCGCCAGCGAGAGCTGCCTTGATCATTTTCTTGGGGGTGCGCTGCGCGTAGGAACGCGGCTGCGGACCGTGAACGACGCCACCGCCGGTGAAGTGCGGCGCGCGGATCGAGCCCTGGCGGGCGCGACCGGTGCCCTTCTGGCGGAACGGCTTCTTACCACCGCCGCGGACCATGCCGCGGGTCTTGGTGGCGTGGGTGCCCTGGCGAGCTGCCGCCTGCTGGGCGACAACCACCTGGTGCATCAGGGGGATAGACGCCTCGCGGTCGAAGAGTTCGGCCGGGAGGTCGACGGAACCGTTGGTCTTGCCGTCGGCGGTATGGACGTCGAGTGTCAGGTTCGTCATGCGTGA	MCPFLSSHLDGCAAEDIDGVAALAESDVGALGVLTLAKTGAGALALTLAVGGVHRSDVDAEDLLHGNLDLGLVSRRVHEKRVRVLLHQRVGLLGEDRGDDDVTRVGDLSHLLLLLSCGSGCAGGCVHEGVKRLDGEHDIISIEHVVGVQLARLKDVDTRQVPCGKAGVDILTADDQENGLTVGETLDEGACGLRRRGLARDELLHNVDARAACAVGQGASESCLDHFLGGALRVGTRLRTVNDATAGEVRRADRALAGATGALLAERLLTTAADHAAGLGGVGALASCRLLGDNHLVHQGDRRLAVEEFGREVDGTVGLAVGGMDVECQVRHA				NA	NA	NA	NA	NA
AK009_08507	1059			hypothetical protein	GTGAGCACCGCCCTTCACTGCGGTCTTGACGGTAACAATGCTGCCCTTGACGCCCGGGATTGCTCCCTTAATCAGGATCAGGTTGTTGTCGCCGTCGATGCGTTGGATCTTCAAGTTTTGGGTGGTAACGCGGTTGCTGCCCATGCGGCCAGCCATGCGCGTGCCCTTGAACACGCGGCCCGGGGTGGCGCAGGCGCCGATGGAGCCGACGCGGCGGTGCGCAGCCTGGTTACCGTGGGAGGCGCCCTGGCCTGCGAAGCCGTGGCGCTTCATGGCACCGGCGTAGCCCTTGCCCTTGGTGGTGCCCACGACGTCGACGTAGGTGTCGCCGTCGAAAATGGTCGCGTTGAATTCCTGGCCGACCTCGTATGCGGAGGTGTCGTCCATGCGGATTTCCACGACGTGGCGGCGCGGGTTGACGCCGGCCTTCATGAAGTGGCCGGCCTGCGGCTTCTTCGTCTTACGGGGATCGATGTCGCCGTAAGCAATCTGGATGGCGCTGTAGCCATCGGTTTCGGGGGTGCGAATCTGGGTGACCACGACCGGCCCAGCTTCGACGACGGTGACCGGGATAACCCGGTTGTCCTCGTCGAAGATCTGGGTCATGCCGAGCTTCTTGCCCAGAATGCCCTTGATCTGGTTGTCAGACATGTGTTAGTTCTCCACTACCAAAAGTCGGGATCTTGCTTACTGAATGTTCACGTCGACGCTTGCCGGCAGGTCAATGCGCATGAGCGCGTCAACCGTCTTGGGCGTCGGATCGAGAATGTCGATGAGGCGCTTGTGAGTGCGCATCTCGAAGTGCTCGCGAGAATCCTTGTACTTGTGGGGAGAACGAATAACGGCGTACACGTTCTTCTCAGTGGGCAACGGCACCGGCCCGACGACGCGGGCACCCGTGCGGGTGACCGTCTCGACAATCTTCTTCGCGGATGCGTCGATCGCCTCGTGGTCGTAGGCCTTGAGCCTGATGCGGATTTTCTGTCCCGCCACGCTTACCTCTTCCTCGCTTCCCCCACATTCGACATTCACCGAAGCGGTGGGGTTTTAAGCTTGTAG	MSTALHCGLDGNNAALDARDCSLNQDQVVVAVDALDLQVLGGNAVAAHAASHARALEHAARGGAGADGADAAVRSLVTVGGALACEAVALHGTGVALALGGAHDVDVGVAVENGRVEFLADLVCGGVVHADFHDVAARVDAGLHEVAGLRLLRLTGIDVAVSNLDGAVAIGFGGANLGDHDRPSFDDGDRDNPVVLVEDLGHAELLAQNALDLVVRHVLVLHYQKSGSCLLNVHVDACRQVNAHERVNRLGRRIENVDEALVSAHLEVLARILVLVGRTNNGVHVLLSGQRHRPDDAGTRAGDRLDNLLRGCVDRLVVVGLEPDADFLSRHAYLFLASPTFDIHRSGGVLSL				NA	NA	NA	NA	NA
AK009_08508	513			hypothetical protein	GTGGACAGTGATGTCCACGCGGTCCACGATCAGGCCGGTCATCCGGGTCACTGCCTGGGTGACGTTCTCGCGGATCGCCTTCGCCAGCTCGTGGATGGCGACGCCGTACTCGGCGATGATCGCCACCGCGATCGACGCGTGCCCGTCCTGGACTGCAACGTTCACGCCCTGCTGCACGTTGGTAGACGCGGTCAGCGACTCGCGCACCGCGCCCCACATGCGAGCCGCGCCGCCGCCGAGGTTGGCCACCCCGGACACCTCGCGCGTGGCGATGCCGGCGATCTTGCCCACGACGGTGTCATCAATCACGGTCGTGCCGTGGTCGGTGACCAAGTTCTCGTTCCGGGGAGTCGAAGCAGCGGGCATGACTACGCCCGAAGCAGTGTTAGTCGGTTCAGTGGTGTTGTCTGCCATGGTTGTCCTTTCACGGGTTGGTTGCGCCAACTCTACTCCGGAGCCGCTAGAAGTGGCGTCGGCAAGCGTCTTGCTTTTGTTTTCCCCCTTGTGCTTTAA	MDSDVHAVHDQAGHPGHCLGDVLADRLRQLVDGDAVLGDDRHRDRRVPVLDCNVHALLHVGRRGQRLAHRAPHASRAAAEVGHPGHLARGDAGDLAHDGVINHGRAVVGDQVLVPGSRSSGHDYARSSVSRFSGVVCHGCPFTGWLRQLYSGAARSGVGKRLAFVFPLVL				NA	NA	NA	NA	NA
AK009_08509	579			hypothetical protein	GTGGCTGTCGAGCCGGGTGGCGTCGACACGCTCGCGTCCGCCGGCAGGCTTCGCGTTGGCGACCTTGATATTGACCCGCGTGACCTCGAGGCCGGTCAGAGTGCTGACCTGGCGCCGGATGGCCTCGCGGACGACGTCGGTCACCGCGGCGATGGGGGCGGGGTAGGACGCGGCGATGTCGGCGTCGATAGTGACCGTGCCCGCGCGCCGGTTCAGGTACGCCGTCGAGCGAGGCAGGCTGCGGCCCGCGAGCCCGGCGAGCTTCGCGTCAAGCGCGATCGAGCCCGGGACTTTGCGCGCGGCGGCCTCGGCGATGTGCTCCACCGTGCGCTCGCTGAGATGATAGGTGAGCTCCGCCATCAGCTTCGCCCTCTGCCGGACCCCGTCGCGATGAGGTCGGCGACGTCGATGCGGCCATCAAGCTGGGCGCCAATGACGCCGCCGACGGCGACGAAGAACAAAAGCCACAGCAGGCCGGGCCACCCGCCGAACGTGACAAAGAACGCCACGATCACGCCGATGAGGATGCCAAGCGCTGTTTTTGAGCCGAGAATGTTCATGAGTGCATCTCTTTCCTAA	MAVEPGGVDTLASAGRLRVGDLDIDPRDLEAGQSADLAPDGLADDVGHRGDGGGVGRGDVGVDSDRARAPVQVRRRARQAAAREPGELRVKRDRARDFARGGLGDVLHRALAEMIGELRHQLRPLPDPVAMRSATSMRPSSWAPMTPPTATKNKSHSRPGHPPNVTKNATITPMRMPSAVFEPRMFMSASLS				NA	NA	NA	NA	NA
AK009_08510	531			hypothetical protein	GTGCAGCGGTGCGAACTCGTTCTCCAGGGCTGTCGTAACCCGCTGTTGCAGCGCTTGCGCCGAGCCGTCGTCTTCGACAGACACGGTGAGCTTCTTCCGGGTCGAGCGCGAGCTGATCGCCGAGCCCGGCGCCTGCTGGCGCGCGACGTGGGTGGACTTTCGCGCGACGTCGACGGGGCGCACCCAGATCGAAGCGGGCGAGGCGACGCGGGTGTGCGTGCGCACGCGCGGCGACAGCGCCTTGACCAGCAGCCACACACCGAGCAGGGCGACGATCACGCCAGCGGCGACAGCGAGCGGGTCCGCAGGCTGCGTCGCCACACAGCGAAACGCCTCGGCGACCCACGAATTAGACGGGTCGTTGAGCGCCCACCGGTACCAGATGTCCCTGCCGGTGACGCCCGCGACGGCGAGCAGGGCGACGCCGATCAGCAGAGCGAGCCAGCGGGCGGCAGGATTGGCGCGCGGCTGGGCGCCGGGGAGCGGTCTAGGAGAGTCGGGCATGGGCATTCACCACGGGTTGTAGAGTGA	MQRCELVLQGCRNPLLQRLRRAVVFDRHGELLPGRARADRRARRLLARDVGGLSRDVDGAHPDRSGRGDAGVRAHARRQRLDQQPHTEQGDDHASGDSERVRRLRRHTAKRLGDPRIRRVVERPPVPDVPAGDARDGEQGDADQQSEPAGGRIGARLGAGERSRRVGHGHSPRVVE				NA	NA	NA	NA	NA
AK009_08511	753			hypothetical protein	TTGCATCGTCGGCCAGCGCATCCGCCTGTGGGATCAGGCCCTGCGGACGGTGGAGAGCTCTACGGTGGCGTTCGACGCCATAGTCTCTTGCACGCCTGGCGGGCGGCTCGTCGTCAAGCGAGCGAGCGGGGCTGGGGACGTGGACCTCGGCGAGGTCGCCGCGACCTACGTCCTCGAGGTCTAGCCCGTCTCGCTGATGCGGTCGAAGTGAAGCTTGTACACGGTGTCGATGTCCATCGCGCCGCAGGCCTCGGCGAAGTCGCGGTCCGCGGACTCGAGGTAATCGATCGACTCGCGCAGGCTGTAGGCAGGGTCGGCCGTGACGGTAAACGTCACGGTGGGCCGGCGGCCCACCATGGCGACGCTCGACTGGGCGCCGGCGACAATGCCGGTGCTGGCCATGTAGTCACACGCCGCCTGGGCAATGCGCTGCACGTTGAGCACGGTATCGCCGTGATCCGGCTGGGCCGGGACGACGCTTTTCGTGCTGAAGGAACGAGACGCCAGGTTGGCGGCGACGATCCAGATGCCCAAGATAAGCGAGACGATAAACCCGCCGACCAGGGCGAAGGGGAACCACGGCTGCGCTGGAAGCGTTCCAAGCTGGTTGCGGTCGTAGGACTCGACGACGTCGCTGACGTAGGGGATGTCGAAGTACAACGCGGTCGGGATCAACCCGGCGGCGATCAGGAGTACTCCGAAGACGAAAACGAGCACGCGGTCGAACGCAGCGGTGCCGGATTTCACTGCTGA	MHRRPAHPPVGSGPADGGELYGGVRRHSLLHAWRAARRQASERGWGRGPRRGRRDLRPRGLARLADAVEVKLVHGVDVHRAAGLGEVAVRGLEVIDRLAQAVGRVGRDGKRHGGPAAHHGDARLGAGDNAGAGHVVTRRLGNALHVEHGIAVIRLGRDDAFRAEGTRRQVGGDDPDAQDKRDDKPADQGEGEPRLRWKRSKLVAVVGLDDVADVGDVEVQRGRDQPGGDQEYSEDENEHAVERSGAGFHC				NA	NA	NA	NA	NA
AK009_08512	330			hypothetical protein	TTGCGCAGGATCGAAGGTGCTGGCGATCCCGACGACGCCGAGGCGGTGCTCCACCCCGGCGGTGTCCGTGATGACCAAGGGCAGTCCCGGTCCGGTGCGCCGCATTCCCCCGAAGCCCCACACCCCCGGCATCCGCTGCGCCTGCTGTGCGCTGCGCACGATCACCGTGTCGCCGGCGAGCGTGACCAGGTGGGCGGGGTCTGTCGTGGTGATGCTCAGGTGGGCGTTGGTGGGGGCGTCGATAAGCGAAGGGTGCTGTTTTTCGAGCTGCGCGAGGGCTGTGATGAGCTCCTCATCCGTCGACGCCCAGCCTATGCCGCGGTTGGCTAG	MRRIEGAGDPDDAEAVLHPGGVRDDQGQSRSGAPHSPEAPHPRHPLRLLCAAHDHRVAGERDQVGGVCRGDAQVGVGGGVDKRRVLFFELREGCDELLIRRRPAYAAVG				NA	NA	NA	NA	NA
AK009_08513	1542			hypothetical protein	ATGAGCTCCTCATCCGTCGACGCCCAGCCTATGCCGCGGTTGGCTAGAACCCCCATCAGTGCCGGCAGGGACAGGTCGGGTTGGCCCTCCCACGCGCGCCGCAGGGCGTCGATCACGTGCGGGATGCGGGTTGGGTCTTTCACGCTGCATAACCTTACCCGGGCACGACAAAACCCCCGCCCGAGTGGGCAGGGGTATGAAGCGTCTAGATCGTGTGGGGAATTAGCCCAGGATCTTGGTGACGCGGCCAGCGCCGACGGTGCGGGAGCCCTCGCGGATAGCGAAGCGCAGGCCCTCGTCCATGGCGACCGGCTGGATGAGCTCGACAGTCATGTCGACGTTGTCGCCCGGCATGACCATCTCGGTGCCCTCCGGCAGCTTCACAACACCGGTCACGTCGGTGGTGCGGAAGTAGAACTGAGGACGGTAGTTGTCGAAGAACGGGGTGTGGCGGCCGCCCTCGTCCTTGGACAGGACGTAGACGGAACCCTCGAACTTGGTGTGCGGGGTGTAAGCGCCCGGCTTGATGACGACCTGGCCGCGCTCGACGTCCTCGCGCTTGAGACCACGCAGAAGCAGAGCGGCGTTGTCGCCGGCCTCGGCGGTGTCGAGAAGCTTGTTGAACATCTCGATGGAGGTAACGGTGGTCTTCTGGGACTTCTCGCGGATACCGATGATCTCGACCTCGTCGTTGAGGTTGAGAACGCCACGCTCCACACGACCGGTAACCACGGTACCGCGGCCGGAAATGGTGAAGATGTCCTCGATCGGCATCAGGAAGTCGCGGTCGGTCTCGCGGACCGGGTCCGGGATGGAGTCGTCGCACGCCTGCATGAGGTCGAGCACGGACTGAACCCACTTCTCGTCGCCCTCAAGAGCCTTCAGAGCGGAGATGTGGATGATCGGAGCCTCTTCGTCGTAGTCCTGCTCACCCAGAAGCTCGCGGACCTCCATCTCGACGAGCTCGATGATCTCCTCATCGTCGACCATGTCGCACTTGTTCAGCGCAACGAGGATGTAGGGGACGCCGACCTGGCGAGCAAGCAGCACGTGCTCGCGGGTCTGCGGCATCGGGCCGTCGGTGGCGGCGACAACGAGGATCGCGCCGTCCATCTGAGCAGCACCGGTGATCATGTTCTTGATGTAGTCGGCGTGGCCCGGGGCGTCAACGTGAGCGTAGTGGCGCTTCGGGGTGTTGTACTCCACGTGGGAGATGTTGATGGTGATGCCGCGCTCGCGCTCCTCGGGAGCCTTGTCGATCGCGTCGAAGGCGAATGCGGTGTTCTCCTCCGGGTAAGCATCAGCGAGCACCTTAGTGATGGCAGCCGTGGTGGTGGTCTTGCCGTGGTCGACGTGACCGATGGTGCCGATGTTTACGTGCGGCTTGGAACGCTCAAACTTAGCCTTTGCCACTGTATGTCCTCCTGGACTTCATGGTGGCTACGACCTTCGCAGCCACGTGGTTTACTTTTTGCCTTGTCACGCGCCCCCGCAATAGAGGCGCGCCAACAATGGCCATTTCACAATGTGCCAGTTACATGA	MSSSSVDAQPMPRLARTPISAGRDRSGWPSHARRRASITCGMRVGSFTLHNLTRARQNPRPSGQGYEASRSCGELAQDLGDAASADGAGALADSEAQALVHGDRLDELDSHVDVVARHDHLGALRQLHNTGHVGGAEVELRTVVVEERGVAAALVLGQDVDGTLELGVRGVSARLDDDLAALDVLALETTQKQSGVVAGLGGVEKLVEHLDGGNGGLLGLLADTDDLDLVVEVENATLHTTGNHGTAAGNGEDVLDRHQEVAVGLADRVRDGVVARLHEVEHGLNPLLVALKSLQSGDVDDRSLFVVVLLTQKLADLHLDELDDLLIVDHVALVQRNEDVGDADLASKQHVLAGLRHRAVGGGDNEDRAVHLSSTGDHVLDVVGVARGVNVSVVALRGVVLHVGDVDGDAALALLGSLVDRVEGECGVLLRVSISEHLSDGSRGGGLAVVDVTDGADVYVRLGTLKLSLCHCMSSWTSWWLRPSQPRGLLFALSRAPAIEARQQWPFHNVPVT				NA	NA	NA	NA	NA
AK009_08514	2310			hypothetical protein	GTGTGGCGCTTAGGCCCCGTCTTCGCCTTTACGCGACGTGCCCGATGGCGCGGGCGCGTCAGGCTCAGGGGCCAGCGCGAGGGGTGTTTAGTTGCCGTTACGCTCGTCGATGATTGCCTGCGCAACGCTCGAGGGAACCTCGGCGTAGGAGTCGAACACCATGGTGAAGTTCGCGCGGCCCGCGGTGCTGGAGCGCAGGTCGCCGATGTAGCCGAACATCTCAGACAGCGGAACCTTCGCCTTGACCACCTTGGCGCCGGAGCGGTCGTCCATGGCATATACCTGGCCTCGGCGGGAGCTGATGTCACCGTTGACCGTGCCCATGTACTCCTCCGGTGTGACAACCTCGACGGCCATCAGCGGCTCGAGCAGCACCGGCTTCGCCTTCGCCACTGCCTCCTTGAGCACCTGGGAACCCGCCATCTTGAACGCCATTTCGGAGGAGTCGACCTCGTGGTAGGCACCGTCTTCCAGCGTGGCCTTGATGTTCACCAGCGGGAAGCCGGCGAGGAAGCCGTACTGCATCGCATCCTGGATACCGGCATCCACGGACGGGATGTACTCCTTGGGTACGCGGCCACCGGTAACGGCGTTCTCAAACTTGTAGGTTGCGGACTCACCCTCCTCCAGCTCGCTCAGCTCCGGGTTATACGGCTCGACGGTGACGATAACCTTTGCAAACTGGCCGGAACCACCGGTCTGCTTCTTGTGGGTGTAGTCGAGCGACTCGACCTTCTTGCGGATGGTCTCGCGGTAGGCCACCTGCGGGGAGCCGATATTCGCCTCGACCTTGAACTCACGCTTCATGCGGTCGACGAGAACGTCGAGGTGGAGCTCACCCATGCCGCCGATCACGGTCTGGCCGGTCTCTTCGTCAAGCTTGACGGTGAAGGTCGGGTCCTCCTCGGCGAGCTTCTGGATCGCGGTGCCCAGCTTCTCCTGGTCAGCCTTCGTCTTCGGCTCGATAGCGACCTGGATAACCGGGTCCGGGAAGTCCATCGACTCGAGGATGATCGGGTGATCCGGGTTGCAGAGGGTGTCACCGGTGGTGGTGTTCTTCAGGCCGATGAACGCGTAGATGTTACCCGCATCGGCGTGCTCGACCGGGTTCTCCTTGTTGGCGTGCATCTGGAAGAGCTTGCCCACGCGCTCCTTGGAGTTCTTCGTGGAGTTGAGCATCTGCTCGCCCGGGATGGCCTGGCCGGAGTAGACGCGCACGTAAGTCAGCTTGCCGAAGAACGGGTGAACGGCGATCTTGAACGCCAGCGCGGAGAAAGGCTCGTCCAGGGACGGCTTGCGGGTGTCCGGGGTCTCGCCGTCCATGCCAGTGCCGTGCACCTCACCCACGTCAAGCGGGTTCGGCAGGAAGTCGATGACGGCGTCGAGCAGCGGTTCCACGCCCTTGTTGCGGTAAGCGGAACCGCAGTACACCGGGTAGATCTCGGAATTGACCGTCATCTTGCGAATGGCGCCCTTGATCTCCTCGAGCGTGAGCTCCTCGCCACCGAAGTACTTCTCCATGAGCTCTTCGTCGGACTCGGCTACTGCCTCGAGCAGCTTCTCGCGGTACTCTTCAGCCTTTTCCTGGAGCTCAGCCGGGATCTCCTGGATTTGCGGCGGGGTGCCGGTCTCAACCTTGCCCGGCCACACCAGCGCCCTCATTTCCAGCAGGTCGACAACACCGTCGAAGTCGTCTTCGGCCCCGATCGGAAGCTGCATGACCAGCGGCTTTGCGCCGAGGCGGTCAACAATAGTCTGGACGGTGAACTCGAAGTTGGCGCCGAGCTTGTCCATCTTGTTGACGAAGCAGATACGCGGAACGTCGTACTTCGCGGCCTGACGCCACACCTGCTCCGACTGGGGCTCAACGCCCTCCTTGCCGTCGAACACTGCGACTGCGCCGTCGAGCACGCGCAGGGAGCGCTCCACCTCGACGGTGAAGTCCACGTGACCCGGGGTGTCGATGATGTTGATCTGGTTGTTGTTCCAGAAACAGGTCACAGCGGCGGACGTAATGGTGATGCCGCGCTCCTTCTCCTGCTCCATCCAGTCCGTGGTCGCGCCACCGTCGTGCGTCTCTCCGACCTTGCGGTTGATACCGGTGTAGAAGAGGATGCGCTCGGTGGTGGTGGTCTTACCAGCATCGATGTGAGCCATGATGCCGATGTTGCGGACCTTGTTGAGGTCCTTAAGCACTTCTTGTGCCACGTTTATTACTCCAACTTAAGTGTTGTCGGCGTTTCCGGATACCTGGCCGCGCCTGCCGGTAACGCCTGTGTGGATATTTACCTTTGTCAATTCTGCCATTAA	MWRLGPVFAFTRRARWRGRVRLRGQREGCLVAVTLVDDCLRNARGNLGVGVEHHGEVRAARGAGAQVADVAEHLRQRNLRLDHLGAGAVVHGIYLASAGADVTVDRAHVLLRCDNLDGHQRLEQHRLRLRHCLLEHLGTRHLERHFGGVDLVVGTVFQRGLDVHQREAGEEAVLHRILDTGIHGRDVLLGYAATGNGVLKLVGCGLTLLQLAQLRVIRLDGDDNLCKLAGTTGLLLVGVVERLDLLADGLAVGHLRGADIRLDLELTLHAVDENVEVELTHAADHGLAGLFVKLDGEGRVLLGELLDRGAQLLLVSLRLRLDSDLDNRVREVHRLEDDRVIRVAEGVTGGGVLQADERVDVTRIGVLDRVLLVGVHLEELAHALLGVLRGVEHLLARDGLAGVDAHVSQLAEERVNGDLERQRGERLVQGRLAGVRGLAVHASAVHLTHVKRVRQEVDDGVEQRFHALVAVSGTAVHRVDLGIDRHLANGALDLLERELLATEVLLHELFVGLGYCLEQLLAVLFSLFLELSRDLLDLRRGAGLNLARPHQRPHFQQVDNTVEVVFGPDRKLHDQRLCAEAVNNSLDGELEVGAELVHLVDEADTRNVVLRGLTPHLLRLGLNALLAVEHCDCAVEHAQGALHLDGEVHVTRGVDDVDLVVVPETGHSGGRNGDAALLLLLHPVRGRATVVRLSDLAVDTGVEEDALGGGGLTSIDVSHDADVADLVEVLKHFLCHVYYSNLSVVGVSGYLAAPAGNACVDIYLCQFCH				NA	NA	NA	NA	NA
AK009_08515	483			hypothetical protein	GTGCGGCAACTACCAGCGGTAGTGAGCGAAAGCGCGGTTGGCTTCTGCCATCTTGTGCGTGTCCTCGCGACGCTTGACGGATGCGCCAAGACCGTTGGAGGCATCCAGAATCTCGTTCGCGAGGCGCTCGATCATGGTGTTCTCGCGGCGCTGACGGGTGAACGTCACCATCCAGCGCAGGGCGAGGGTGTTGGAACGGCCGGGCTTGACCTCAACCGGCACCTGGTAGGTGGCGCCACCGACGCGGCGGGAGCGGACCTCAAGGTCCGGGCGGATGTTGCCGAGAGCCTTCTCGAGCGTGCCGACGGGGTCGGTGCCGGTCTTCTCGCGGCAGATCTCGAGCGCGCCGTAGACGATGCGCTCTGCGGTCGACTTCTTGCCGTCCAGCAGGATCTTGTTCACGAGCTGGGTAACGATCTCAGAGTTGTAGACCGGGTCCTTAACGACGGGACGCTTCGGTGCTTGCTGCTTACGCATTGGTGA	MRQLPAVVSESAVGFCHLVRVLATLDGCAKTVGGIQNLVREALDHGVLAALTGERHHPAQGEGVGTAGLDLNRHLVGGATDAAGADLKVRADVAESLLERADGVGAGLLAADLERAVDDALCGRLLAVQQDLVHELGNDLRVVDRVLNDGTLRCLLLTHW				NA	NA	NA	NA	NA
AK009_08516	372	rpsL_2	COG0048	30S ribosomal protein S12	ATGCCAACTATCCAGCAGCTGGTCCGCAAAGGCCGCCACGATAAGCGCACCAAGGTCGCTACCGCGGCCCTGAAGGGCTCCCCGCAGCGCCGCGGTGTGTGCACCCGTGTATACACCACCACCCCGAAGAAGCCGAACTCCGCTCTGCGTAAGGTTGCCCGCGTGCGCCTGACCTCGGGCATCGAGGTCTCCGCATACATCCCCGGCGAGGGCCACAACCTGCAGGAGCACTCCATGGTGCTCGTACGCGGCGGCCGTGTGAAGGACCTTCCGGGCGTTCGCTACAAGATCATCCGCGGCGCGCTTGACACCCAGGGTGTTAAGGACCGCAAGCAGGCTCGCTCCCGCTACGGCGCGAAGAAGGGACAGTAA	MPTIQQLVRKGRHDKRTKVATAALKGSPQRRGVCTRVYTTTPKKPNSALRKVARVRLTSGIEVSAYIPGEGHNLQEHSMVLVRGGRVKDLPGVRYKIIRGALDTQGVKDRKQARSRYGAKKGQ				NA	NA	NA	NA	NA
AK009_08517	654			hypothetical protein	GTGCTTGTCGTGGATCGACACGCCCTGGGTGCGGTACACGGCCTGCACCTCGTCGATGAGGTGCTTTTCGACGCCGCGTCGGCCCAGCACCTCAAGCACGTCGTGCGGGTCAGCCGCACCGCGCAGCAGGCGATCGCCAACCTCGACGTGATCGCCCTCGCGCAGGGAGCGCTCGATCATCGCATTCGGGTTGGACTCCATCGGGCGACGCACCTGGGCCAGGCCCTGGCGCTTCGACAGCTTCTCGTAGACGACAACGTCGGAGCCGTCATCCGGGTGGATGGTCAGCGTCCAGAAGTTGCCCTCGTCCTCGAGGGTGACCGTTCCGGCCACGGAAGCGATCGGGGCGCGGTTCTTCGGAACGCGAGCCTCGAACAGCTCCTGCACACGCGGCAGACCACCGGTGATGTCACCGCCGACACCACCCTGGTGGAAGGTACGCATGGTCAGCTGCGTACCAGGCTCACCAATCGACTGTGCCGCGACGATACCGACGGCCTCGCCGATATCGACGAGCTTGCCAGTGGCCATGGACTTGCCGTAGCACTTCGCGCACACACCCGTCGGGGTCTGGCACGTCAGCACGGAGCGCACCTTGACCTCGGCCACACCAGCCGCTACGAGGCGATCGATGTTTTCTTCAGTCAGGTCTGA	MLVVDRHALGAVHGLHLVDEVLFDAASAQHLKHVVRVSRTAQQAIANLDVIALAQGALDHRIRVGLHRATHLGQALALRQLLVDDNVGAVIRVDGQRPEVALVLEGDRSGHGSDRGAVLRNASLEQLLHTRQTTGDVTADTTLVEGTHGQLRTRLTNRLCRDDTDGLADIDELASGHGLAVALRAHTRRGLARQHGAHLDLGHTSRYEAIDVFFSQV				NA	NA	NA	NA	NA
AK009_08518	1083			hypothetical protein	GTGGGTGCCGCAGTCGTCCTCACGGACGATGACGTCCTGAGCGACGTCGACAAGGCGGCGGGTCAAGTAACCGGAGTCGGCCGTACGCAGAGCGGTATCGGCCAGGCCCTTGCGCGAACCGTGGGAGTTGTTGAAGTACTCCATCACGCTCAGACCCTCGCGGAAGGAGGTCTTGATCGGGCGCGTGATGTACTCACCGCGCGAGTTCACGACCATGCCCTTCATGCCCGCAAGCGTCCAGATCTGGCGCATGTTGCCGGCCGCACCGGACTTCACGATCATCGGGATCGGGTTGTCATCCGGGTACAGGTCCTCGACGGCCTGGCCGACCTTGTTAGTGGCGTCCTGCCACAGCTCGACCAGACGGTCGTAGCGGTTCTCCTCGGTCAGGGCACCCTTCTCCCAGAACTTGCGCTCGATCTCCTCGGCCTCGCGCTCGTACTGCTCCAGGACCTCAACCTTGTTCGGCAGAACCAGAACGTCGGACATGGAGATGGTCACGCCGGAGCGAGTTGCCCAGTAGAAACCGGCATCCTTCATCTTGTCCAGCGTCTGCGCCACGGTGATCATCGGGTACTTCTCCACCATGGACTGGATGACGTCGCCAAGCAGCACCTTGCCGGAACCGCCACCCTTGCGCACCATCGCGCCTTCCTGGTACGGGAAGTTGAACGGCAGCATCTCGTTGAACAGGATTCGTCCCAGCGTGGTGTCAGCCATCCAGGACTGGCCCTTCTCCCAGCCGTCGGGGAAGAACTCAGCCTCGATCTCCTCCGTCGGGCGGAGGTGATCGATGCGCACCTTGATCGGGGCCTGCATGCCCAGCACGCCGCGGTCGTAGGCCATGATGGCCTCGCGGTAGGAGGTGTAGACACCGCGCTCCGGGCCGTTCTCGTCGGCCGGGGCGTAAGCGCCCTCGCCGCCGATCTCGGTCCCGCCCTTGAGCATGGTCAGGAAGTACAGACCGGTCACCATGTCCAGGCGCGGCATCGCCAGCGGCTTGCCGGACGCCGGGGACAGGATGTTGTTCGACGACAGCATGAGCACGCGGGCCTCAGCCTGCGCCTCAGCGGACAGCGGTAG	MGAAVVLTDDDVLSDVDKAAGQVTGVGRTQSGIGQALARTVGVVEVLHHAQTLAEGGLDRARDVLTARVHDHALHARKRPDLAHVAGRTGLHDHRDRVVIRVQVLDGLADLVSGVLPQLDQTVVAVLLGQGTLLPELALDLLGLALVLLQDLNLVRQNQNVGHGDGHAGASCPVETGILHLVQRLRHGDHRVLLHHGLDDVAKQHLAGTATLAHHRAFLVREVERQHLVEQDSSQRGVSHPGLALLPAVGEELSLDLLRRAEVIDAHLDRGLHAQHAAVVGHDGLAVGGVDTALRAVLVGRGVSALAADLGPALEHGQEVQTGHHVQARHRQRLAGRRGQDVVRRQHEHAGLSLRLSGQR				NA	NA	NA	NA	NA
AK009_08519	1056			hypothetical protein	GTGAACAGCCATCTGGTCGCCGTCGAAGTCAGCGTTGAACGCCTCACACGCCAGCGGGTGCAGCTGGATGGCCTTACCCTCGACGAGCTTCGGCTCGAACGCCTGGATGCCCAGGCGGTGCAGCGTCGGGGCGCGGTTGAGCAGCACGGGGTGCTCGGAGATGGCCTCTTCAAGCACGTCCCACACCTCGGGGCGCTGGCGCTCCACCATACGCTTGGCCGACTTGATGTTCTGCGCGTAGTCGTTGTCCACCAGGCGCTTCATCACGAACGGCTTGAACAGCTCGAGGGCCATCAACTTCGGCAGACCACACTCGTGCAGCTTCAGCTGCGGGCCGACGATAATCACCGAGCGGCCGGAGTAGTCCACGCGCTTGCCCAGCAGGTTCTGGCGGAAGCGGCCCTGCTTGCCCTTGAGCAGGTCCGACAGGGACTTCAGCGGGCGGTTGCCCGGGCCGGTGACGGGGCGGCCGCGGCGGCCGTTGTCGAACAGCGCGTCGACGGATTCCTGCAGCATGCGCTTCTCGTTGTTCACGATGATCTCGGGCGCGCCGAGGTCGATCATGCGCTTGAGGCGGTTGTTGCGGTTGATCACGCGACGGTACAGGTCGTTGAGGTCGGACGTCGCAAAGCGGCCGCCATCGAGCTGAACCATCGGGCGAAGCTCCGGCGGGATGACCGGGATCGCGTCCAGGATCATGCCGGCCGGGTCGTTGCCGGAGCGCAGGAACGCGGCAACAACCTTGAGGCGCTTGAGCGCACGGACCTTCTTCTGGCCCTTGCCCTCGGCGATGACGCTGCGCAGCTCTTCGGCCTCGGCCTCGAGGTCGAAGTTGCGGATCAAGGTCTGGATCGCCTCGGCGCCCATTCCGCCCGTGAAGTAGTCCTCGTAGCGGTCCATGAGTTCCTCGTAGAGGTTCTCGTCGATAACCATCTGCTTCGGCGCGAGCTTGACAAAGGTCTGCCACACCTCGTCGAGGCGCTCGACCTCGCGCTCCGCCGCCTGGCGGATGTGGGTCATCTCCTTGTCGGCCGCCTGCTGGACCTTCTTGCGTGA	MNSHLVAVEVSVERLTRQRVQLDGLTLDELRLERLDAQAVQRRGAVEQHGVLGDGLFKHVPHLGALALHHTLGRLDVLRVVVVHQALHHERLEQLEGHQLRQTTLVQLQLRADDNHRAAGVVHALAQQVLAEAALLALEQVRQGLQRAVARAGDGAAAAAVVEQRVDGFLQHALLVVHDDLGRAEVDHALEAVVAVDHATVQVVEVGRRKAAAIELNHRAKLRRDDRDRVQDHAGRVVAGAQERGNNLEALERTDLLLALALGDDAAQLFGLGLEVEVADQGLDRLGAHSAREVVLVAVHEFLVEVLVDNHLLRRELDKGLPHLVEALDLALRRLADVGHLLVGRLLDLLA				NA	NA	NA	NA	NA
AK009_08520	483			hypothetical protein	GTGACGTGCCTCGTCGTCGACAGAGGTGATGATGTTGGCGGCGAAGTAGATGATCCGCTCAAGGTCCTTCGGCGCGAGATCGAGCAGGTAGCCCAAGCGCGAGGGCACGCCCTTGAAGTACCAGATGTGGGTCACGGGAGCGGCGAGCTCGATGTGGCCCATGCGCTCGCGGCGCACCTTGGACTTGGTCACCTCGACGCCACAGCGCTCACAGATGATGCCCTTGTAGCGCACGCGCTTGTACTTGCCGCAGGCGCACTCCCAGTCGCGGGTGGGGCCGAAGATGCGCTCGCAGAAGAGCCCGTCCTTCTCCGGCTTGAGGGTGCGGTAGTTAATGGTTTCCGGCTTCTTGACCTCGCCGTGGGACCAACGGCGGATATCGTCGGCGGTGGCCAGGCCAATGCGAAGCTCGTCGAAGAGGTTTACGTCAAACACGTAAATTCCCTTTCACCTCCCCCTCATGGGGAGGATCGGTGTGGATAG	MTCLVVDRGDDVGGEVDDPLKVLRREIEQVAQARGHALEVPDVGHGSGELDVAHALAAHLGLGHLDATALTDDALVAHALVLAAGALPVAGGAEDALAEEPVLLRLEGAVVNGFRLLDLAVGPTADIVGGGQANAKLVEEVYVKHVNSLSPPPHGEDRCG				NA	NA	NA	NA	NA
AK009_08521	2418			hypothetical protein	GTGGATCTTCTCATCCACCAGGTGGTGCAGCTTGAGCATGTACATGTAGCCCACGGAGACGGGGTACTTGAACGGTTCGCCGGAGCGGCCGTCGAAAAGCACGGTCTTTCCGTCGCCGTCGACCATGACGTCGCCGTCGCGATTGGGCTTGGAGTTCGCGAGCAGGCCCGCGATCTCCTCGTTGCTTGCACCGTCGAACACCGGGGTGGCCGTCAGGGACTCCGGCGGCACGTCGTAGAGGTGCTCCGGCAACGTCTCAAGCAGTTTGGCGTTGGCCGGGTCGTCCGGGTTAACGGTCCAGCCGGCGTGAGCCAGCCAGCCGAGGTGAACCTCAAGGACCTGGCCGATGTTCATACGACGCGGCACACCGTGGGTGTTCAAGATGATGTCCACCGGGGTGCCATCGGCCATGAACGGCATGTCTTCCTGCGGCAGGATCTTGCCGACGACACCCTTGTTGCCGTGTCGGCCAGCCATCTTGTCGCCGTCCTGGATCTTGCGCTTCTGGGCGACGTAGACGCGGATCATCTCGTTGACGCCCGGGGAAAGATCGTCGTCGTCCTCGCGCGAGAAGCGGCGCACAGCGATGACCTTGCCGGTCTCACCGTGCGGCACCTTCAGGGAGGTGTCGCGAACCTCGCGGGCCTTCTCACCGAAGATGGCGCGCAGCAGGCGCTCCTCCGGGGTCAGCTCGGTCTCACCCTTCGGGGTGACCTTGCCCACCAGGATGTCGCCGTCGCGCACGTCCGCGCCGATGCGGATGATGCCGCGCTCGTCGAGGTCCTTGAGCACGTCCTCGGAGACGTTCGGGATCTCACGAGTGATTTCCTCGGCTCCGAGCTTGGTGTCGCGAGCATCGATCTCGTGCTCCTCGATGTGCACCGAGGTCAGGATGTCATCTTCCACAACGCGCTGGTTGAGAATGATGGCGTCCTCGTAGTTGTGACCCTCCCACGGCATGAAGGCGACCAGCAGGTTGCGGCCAAGCGCCATCTCGCCGTTCTTCGTGCCGGGGCCGTCAGCGATGACCTGGCCAGCCTCAACGCGATCGCCAGCGGAGACGATCGGGCTCTGGTTGTAGCAGGTGCCCTGGTTGGTGCGCTCAAAGGTGCGCAGCAGGTAGGTGTCGCGGATGCCCTCGTCGTCCATGACGGTGATGAAGTCGCCGGTGACGTCCTCAATCACGCCAGCCTTGCGGCTGATCACGGTGTCGCCCGCGTCGTAAGCGGCGCGCTGCTCCATGCCGGTTGCCACGTAGGCGGCCTCGGAGCGCAGCAGCGGCACAGCCTGCTTCTGCATGTTGGCGCCCATCAGCGCGCGGTTCGCGTCGTCGTGCTCAAGGAACGGAATCATTGCCGTTGCCACGGACACCATCTGGCGTGGGGAGATGTCAACGTAGTCGACGCCGTTGGCGCCAACGACACCGATGTCTCCGTCCTTGAGGCGGACCTCGATGCGCTCGCCAGTGAGGTTGCCCTCCGCGTCCATCGGGGTGGCCGCCTGCGCGATGGCGTAGCGGTCCTCCTCGTCGGCGGTGAGGTAGTCGATCTGGTCTGTCAGCTTGCCGTTTTCGACCTTCTGGTAGGGCGTTTCGATGAACCCGAACGCGTTGACGCGCGCGTAGGAGGCCAAAGCGCCGATCAGACCAATGTTCGGGCCTTCCGGGGTCTCAATCGGGCACATGCGGCCATAGTGCGACGGGTGCACGTCGCGGACCTCGATGCCGGCACGCTCGCGCGAGAGGCCACCCGGGCCGAGCGCCGACAGGCGGCGCTTGTGCGTCAGGCCGGACAGCGAGTTGTTCTGGTCCATGAACTGCGACAGCTGAGACGTGCCGAAGAACTCACGGATGGCGGCGGAGACCGGGCGGACGTTGATCAGCGACGTCGGGGTGATCGACTCCGCGTCCTGGGTGGTCATACGCTCGCGCACGACGCGCTCCATACGGGACAGGCCAACGCGGACCTGGTTCTGGATGAGCTCGCCGACGGTGCGCAGGCGACGGTTGCCGAAGTGGTCGATGTCGTCGGTGTTGATCGGGATGATCTCGCCGGTCGGGGACTTCATCTCCGTCTCGCCCGCGTGCAGGCGCACGAGGTACTCGAGCGTGGTGGCGATGTCTTCCTCGGTCAGGGTCATCAAACCGTCGTGGTCGCCGCCGAGACCGAGCTTGCGGTTGACCTTGTAGCGGCCGACACGAGCCAGGTCATAGCGCTTCGCCTTGAAGAAGGAGTTCTCCAGCAGGGACTGGGCGAGGTCGCGGGTGGGCTGCTCGCCCGGGCGCTGCTTGCGGTAGATCTCAAGCAGTGCCTCGTCGGTGTTGGCCACGCCGTCGGACTCGAGGGTGGACATCATGATTTCCGAGAAGCCGAAACGCTCGGTGATCTGCTGGGTGGTCCAGCCCAGCGCCTTGAGTAG	MDLLIHQVVQLEHVHVAHGDGVLERFAGAAVEKHGLSVAVDHDVAVAIGLGVREQARDLLVACTVEHRGGRQGLRRHVVEVLRQRLKQFGVGRVVRVNGPAGVSQPAEVNLKDLADVHTTRHTVGVQDDVHRGAIGHERHVFLRQDLADDTLVAVSASHLVAVLDLALLGDVDADHLVDARGKIVVVLAREAAHSDDLAGLTVRHLQGGVANLAGLLTEDGAQQALLRGQLGLTLRGDLAHQDVAVAHVRADADDAALVEVLEHVLGDVRDLTSDFLGSELGVASIDLVLLDVHRGQDVIFHNALVENDGVLVVVTLPRHEGDQQVAAKRHLAVLRAGAVSDDLASLNAIASGDDRALVVAGALVGALKGAQQVGVADALVVHDGDEVAGDVLNHASLAADHGVARVVSGALLHAGCHVGGLGAQQRHSLLLHVGAHQRAVRVVVLKERNHCRCHGHHLAWGDVNVVDAVGANDTDVSVLEADLDALASEVALRVHRGGRLRDGVAVLLVGGEVVDLVCQLAVFDLLVGRFDEPERVDARVGGQSADQTNVRAFRGLNRAHAAIVRRVHVADLDAGTLAREATRAERRQAALVRQAGQRVVLVHELRQLRRAEELTDGGGDRADVDQRRRGDRLRVLGGHTLAHDALHTGQANADLVLDELADGAQATVAEVVDVVGVDRDDLAGRGLHLRLARVQAHEVLERGGDVFLGQGHQTVVVAAETELAVDLVAADTSQVIALRLEEGVLQQGLGEVAGGLLARALLAVDLKQCLVGVGHAVGLEGGHHDFREAETLGDLLGGPAQRLE				NA	NA	NA	NA	NA
AK009_08522	951			hypothetical protein	GTGCAGCGGGCGCTCGGTGGACTTGTCGATCGTCTCATCAAAGTAGACGCCCGGGGAGCGCACGAGCTGGGAGACAACGACGCGCTCGGTGCCGTTGACAATAAACGTGCCCTTGTCGGTCATCAGCGGGAAGTCGCCGATGAACACCGTCTGAGACTTAATCTCCTGGGTGTCGTTGTTGATGAACTCCGCGGTGACGTACAGCGGTGCGGAGTAGTTGATGTCCTTCTCTTTGCACTCGTCGATCGAGTACTTGATCTCCTCAAAGCGCGGCTCGGACAGAGACAGGCTCATGTTGCCCGAGTAGTCCTGGATAGGGGAGATCTCCTCGAGGATGTCCTCGAGGCCGCTAGTAATATGAGCGTCGTCGCCGCGCTCGGCGCGCTGACGCTCGCGCCACTCCTGGGTCCCTACGAGCCAAGCGAAAGATTCACTCTGCACGTCGAGCAATCCGGGCACGCTCACGGGCTCGGAAATCTTCGCAAACGAGTAACGCTCCGGAGCTCCGGGGATATTGGCCATAGACATGGTCTGGTGGGAGACTGCCAAGTTGGGTCCTTCCAGCACCTCACGCGGCTCCTGCGAGATCTGCTTGACAGCAGCAGATCACGGGGTTTTCCGCTGGATAAGTTAGTAATCGGTCAGCTGTGGAATCCCCGCCCCCGAAATGCACAAAGCCGCCTTGTCAAGTCCCTTTTTCATAGAACGAAAGACAAGGCTTATCAGCGCGCACGGAGACGGCTTCCAGCGCAACGATTAACATTATACGAACTTTGCCGTCTTGTAAAGGCGACCAGGAGGTCGGCCCGCTCGCATCCCACAATGTGGCCGTCGGGAGGGAACTCTACCACTGACGCAGGCCGGGTGGTCATTTTCCGGACGCGCGCGCCCTCCGGCGTCCCTTGGTGTAGCCCGGCCGCAGCGCTCCGACGAGGCCGATCAGAGTCATGA	MQRALGGLVDRLIKVDARGAHELGDNDALGAVDNKRALVGHQREVADEHRLRLNLLGVVVDELRGDVQRCGVVDVLLFALVDRVLDLLKARLGQRQAHVARVVLDRGDLLEDVLEAASNMSVVAALGALTLAPLLGPYEPSERFTLHVEQSGHAHGLGNLRKRVTLRSSGDIGHRHGLVGDCQVGSFQHLTRLLRDLLDSSRSRGFPLDKLVIGQLWNPRPRNAQSRLVKSLFHRTKDKAYQRARRRLPAQRLTLYELCRLVKATRRSARSHPTMWPSGGNSTTDAGRVVIFRTRAPSGVPWCSPAAALRRGRSES				NA	NA	NA	NA	NA
AK009_08523	822			hypothetical protein	ATGGCGGACCCCGCCGGCGAATACGAGGGTGAGACGCAACCGATCACTCGCCAGGTCCACATGGAGGTCCAGAACCCGTCGAATAGCGAGGTAGCGAGCATCCGCGTCGGCGAAACCCTGCTCGCTGGCGCATCCGGGAACGATTTCGACAACCTGGTCAGCGCTGGGACGTGGACGTTCAGCATGGATCGCCGCACGGGCCTGCCCACCGGCCCGCTGAAGCTGTCTAACGTGATGATCCTGCCCGAGACAGAGGTTGCAGAGACGGGCAACTGGCTGAAGCTGCCTGCGAATGCCGAGAAGACCACCTACGAGGTGTTCGACTCCACCCTGCGCGGCACCGCCCCCGCCACCTTCACCGGCGAGGACGAGATTGAGGGCCGCACGGTGTACCGCTACGCCCAGGACATCCCGCCGACCAACCTCGCGTTGCGCTACGCAGATATGCGCAACACGAAGACGCAGGTGGATCCCGAGGGTAACCAGACCCGCTCGTTCCTTTACTACACGGCGCAGCGAGAGCTAACCGTGGACCAGGTCTCCGGCCTTGTCGTCGGGGTGAACGAGAAGGTGGACACCTACTACGGGGACGCGCAGGGCGGCCGCGTCGAGGACGTCTTGCGTTACGACGGCCGCATGCCCGAAGAGCAAACGGCAGCCATGGCCGGCCAGCTGGATGGGGTGTTTTCGCAGGCCCAGTCGCAAGCGATTACCACCGCGGTGATCGTGGCCGGGGCGATCATGACTCTGATCGGCCTCGTCGGAGCGCTGCGGCCGGGCTACACCAAGGGACGCCGGAGGGCGCGCGCGTCCGGAAAATGA	MADPAGEYEGETQPITRQVHMEVQNPSNSEVASIRVGETLLAGASGNDFDNLVSAGTWTFSMDRRTGLPTGPLKLSNVMILPETEVAETGNWLKLPANAEKTTYEVFDSTLRGTAPATFTGEDEIEGRTVYRYAQDIPPTNLALRYADMRNTKTQVDPEGNQTRSFLYYTAQRELTVDQVSGLVVGVNEKVDTYYGDAQGGRVEDVLRYDGRMPEEQTAAMAGQLDGVFSQAQSQAITTAVIVAGAIMTLIGLVGALRPGYTKGRRRARASGK				NA	NA	NA	NA	NA
AK009_08524	666			hypothetical protein	GTGGTCGCCGTGACGACGCCCCACGCCAGAAGCCTTCCAGCCGCCCATCGGGGCGTCCATCGCAGACCACGCCGGCGCGTAGCCCTCGTTGATGTTGACGGTTCCCGACTCCAGGCGCGAGGCGAGCTTCTTGCCGGTGGAGGGGGAAGCCCACACCGAGGAGTTCAGCCCGTATTCGGTGTCGTTCGCGCGGCGCACGGCCTCGTCGTTGGAGTCGACGACCTCGATGTAGACCACGGGGCCGAACACCTCGTCGCGGTGCAGGTCGGCACTTTCCGGCACGTCCGCGAGGACGGTCGGGGCGTAGAAGGCGTCGCCAAGCTCGCGCAAGCGCTTGCCGCCTGTCAGGACGGTGGCGCCCTTGCTCACGGCGTCGTCAACGAAGCGCTCGACCAGGTCGGCGTGCTCGGCGGAGATCAGCGAGCCCATGTCGATGTTCCAGTCGGTACCGCCGCCGACCTTGAGCTGCTTGACGCGGTTGACGAACGCCGGGATGAACTTGTCGGCGACCTTGCGGTGGACGTAGATGCGCTCGATCGAGATGCAGAGCTGGCCGGAGTTGCCGAAGCAGGCGGGCCAGATTCCGTTGACGGCGCGCTCGATGTCGGCGTCGTCAGCCACGATCAGCGGGTTCTTGCCGCCGAGCTCCATCGAGTAATCGATTAG	MVAVTTPHARSLPAAHRGVHRRPRRRVALVDVDGSRLQARGELLAGGGGSPHRGVQPVFGVVRAAHGLVVGVDDLDVDHGAEHLVAVQVGTFRHVREDGRGVEGVAKLAQALAACQDGGALAHGVVNEALDQVGVLGGDQRAHVDVPVGTAADLELLDAVDERRDELVGDLAVDVDALDRDAELAGVAEAGGPDSVDGALDVGVVSHDQRVLAAELHRVID				NA	NA	NA	NA	NA
AK009_08525	375			hypothetical protein	GTGGCGAGCCGTCATCGCAACGTCGAGGACCTCCTCGAGCGCGCTGAGGCGGTTCTTGCCGTTCTCGGCCTGGATCGTGTCCATAATCTTGTCGCGGTTGTCGATGACAAGGTTGTGGAACTTCAGGAAGATCTTGCGGCGCTGGCGGAAGCTGGTTTTCGCCCAGCGCTTCTGCGCGCGGCGAGCGACGGCGAATGCCTCGCGGGTGTCTTCCTTGGTGTGGGCCGTTACTGTGGCGACAACCTCACCGGTGGCCGGATTGATGATGTCTTGAGTGGCGCGCTCGGGCGCGATTGCGTGAGTCATAATGTCCCCTTGTGCGGATTAATACTGCTAAGCCTTAACAGCATTCTCCCTGCAATCCTACACATGTGA	MASRHRNVEDLLERAEAVLAVLGLDRVHNLVAVVDDKVVELQEDLAALAEAGFRPALLRAASDGECLAGVFLGVGRYCGDNLTGGRIDDVLSGALGRDCVSHNVPLCGLILLSLNSILPAILHM				NA	NA	NA	NA	NA
AK009_08526	369			hypothetical protein	GTGGGCGGCCTTCGCGCCGTAGGTGACGCCAACGCAGTTGATGTCGAGGATCCACTGGATACGCTCCGGGTCCTGGTCCTCCAGGCGGCCGTCGATGATGACGCCGGCGTTGTTGAAGAAACCGTCCAGGCGGCCGCCGGTGTGCGAGGTGAAGTCCTTCATTGCGTTCTCCCAGTCTTCCCAGGAGCGAACGTCGAGGTGGCCGGTGATCAGCTGGCCCTCTTCGATGTCCTCGTTCTGGTGCCACTCAACCGGCACGATGTCGTAGCAACCGACAGTCCAGCCGTGGTCGAGCATGCGCTTGGCGGTCTCCATGCCGATGCCGGAGGCACCGCCGCTGATAAAGATACATTTATTGCGTTCTTGTGA	MGGLRAVGDANAVDVEDPLDTLRVLVLQAAVDDDAGVVEETVQAAAGVRGEVLHCVLPVFPGANVEVAGDQLALFDVLVLVPLNRHDVVATDSPAVVEHALGGLHADAGGTAADKDTFIAFL				NA	NA	NA	NA	NA
AK009_08527	411			hypothetical protein	TTGCGTGCCGACGCCCCTTCCACGAGGCGCGCCGGCTTAAGAACGCAATTAGCCAACCAGGAGCTTGGTCGAGAAGCGCTTCATCAGGTCAGGGGAGAAGTCGGCCAGGGTCTTGAGCACCTTGTCCGGGACGCTGACGCCGTGGTGGACGCGCAGCTTGTCGTAAAAGCTGGGCTCCGCGAACAGCTTGGCTGCCACATCTGCAACGTCGCCCGGCTCAAGGCGCACGCCGAGGGTGCGGGTGGAGCGCGCGTTGACCTCGGCCACCTTCGTCTTCGCCCAGAGCGGGGCGAGGGAGTGAACACGGATCTTGTTCTTTGCCCATTCCAGGCTCAGTGCCTCGGTGAGGCCCTTGACGTAGAACTTCGAGGCGGAGTAGGTGCTGATCTCGGGCTGGCCGTAGATCGCTGA	MRADAPSTRRAGLRTQLANQELGREALHQVRGEVGQGLEHLVRDADAVVDAQLVVKAGLREQLGCHICNVARLKAHAEGAGGARVDLGHLRLRPERGEGVNTDLVLCPFQAQCLGEALDVELRGGVGADLGLAVDR				NA	NA	NA	NA	NA
AK009_08528	390	rplL_2	COG0222	50S ribosomal protein L7/L12	ATGGCTAAGCTGTCTAAGGACGAGCTCATTGAGCAGTTCAAGGAAATGACCCTCATCGAGCTTTCCGAGTTCCTGAAGGAATTCGAGGAGGTCTTCGACGTGACCGCTGCTGCTCCGGTTGCAGTTGCTGCTGCAGGCGCACCGGCTGGCGGCGAGGCTGCCGCTGAGGAAGAAAAGGACGAGTTCGACGTCATTCTCGAGAACGCTGGTGACAAGAAGATCGGCGTGATTAAGGCTGTCCGCGAGATCGTTTCCGGCCTGGGTCTGAAGGACGCTAAGGAAATGGTCGAGGGTGCTCCGAAGGCGATCCTCGAGGGCGCAAACAAGGATGACGCTGAGGCTGCTAAGGCCAAGCTCGAGGAGGCAGGCGCAACGGTTACCCTCAAGTAA	MAKLSKDELIEQFKEMTLIELSEFLKEFEEVFDVTAAAPVAVAAAGAPAGGEAAAEEEKDEFDVILENAGDKKIGVIKAVREIVSGLGLKDAKEMVEGAPKAILEGANKDDAEAAKAKLEEAGATVTLK				NA	NA	NA	NA	NA
AK009_08529	522	rplJ_2	COG0244	50S ribosomal protein L10	ATGGCAAACCCGAAAAACACTGCCGAGCTGGCTGTCCTGAAGGGCAAGTTCCAGGAGGCGAGCTCCATTGTTCTCACCGAGTACCGTGGTCTGACCGTTGGTCAGCTGCAGGAACTGCGCGGTGAGCTCGGTTTCGATGTCGAGTACCACGTCGCCAAGAACACCCTCGTCAGGATCGCTGCACGCGAGAATGGCATGGAGGGTCTCGATGATCTCCTGACCGGCCCGACCGCCGTCGCCTTCATCAAGGGCGAGGCAGTTGACGCTGCGAAGGTGATGAAGAAGTTCAACAAGGCTCACGACGCGTTCGTGATCAAGGGCGGCTACATGGACGGCAACGTCCTGTCCGCTGCCCAGGTTGACGCCATCGCTGAGATGGATAACCGCGAGACCACCCTTGCCAAGATCGCAGGCGCTTTCCAGGGCTCCTTGGCCAAGGCTGCCGGCCTGTTCCAGGCTCCGGCATCCAAGACTGCCCGCCTCGTCGCTGCGCTGCAGGACAAGCAGGGCGAAGCCGCGTAA	MANPKNTAELAVLKGKFQEASSIVLTEYRGLTVGQLQELRGELGFDVEYHVAKNTLVRIAARENGMEGLDDLLTGPTAVAFIKGEAVDAAKVMKKFNKAHDAFVIKGGYMDGNVLSAAQVDAIAEMDNRETTLAKIAGAFQGSLAKAAGLFQAPASKTARLVAALQDKQGEAA				NA	NA	NA	NA	NA
AK009_08530	2826			hypothetical protein	GTGCACATCTACTTCAAAAACAAGGTCTCCCCGGTCGTACGGGTCCTCTCGACCACTGATGAGAAGCCTCTGAGCTTCGCCTACAACGTGGGTAAGACGAACCAGTTCAGCTGGGCCTTTACCAAGCCAGGCATCTACGCCATCCAGTGGCAAGCTCGGGCGACGCTTGACGACGGCTCAGAGACCGCATCCGACAAGGTCACGCAATACTGGCTCGTCGGCGACGACCCGAGCGTCGGCCTACCGAAGGGAACCACCAAGAACCTCAACGAGGTGAAGGCCGCGCCGCAGTCTCCGACTACCCCGGCAGAGACGACGGGAAAGCCCACGACGACGGCGACGCAGGTGTCGACTAGCGCGAAGCCCAGCGAGACCGCCGTTCCGGCTGAACCCAGCGAGCCCGAGGGCGAGACGAAGCTCACCGCATCCGGGCATAAGCACGGCAACACAGGCTTAGGCGTCAACCTACCTGCGGACCAGAAGGCCGAGGGCGGGTCTCAACCGCACGTGTGCGCGGGCCGCAAGTTGGTCTACCAGTCCCACAACGACGCGCTCTATGGCACCCGAATGAACGGCGACAAGCTCACCGTCATGGCGGTGGATGGTCAGCAGGTTGTGCCAATGGATTCCCTTTGCTTCCGCCTCCCCCGCGATGCGGATAGCACAGGCCGGGAAATCTCACGGACAGTTATCACTGAGGACACTGCCTTTTTGGGCAAGCCAGGCCAGGCAGTATGGCTTGCGCCTCAGGCCACAAGCTCTATGGATAAGTGGCGTCCATTGTGGTCGGGCCTCGGTGCGTTTGACAGGGCACACGAGCCAAATGAGGAGGCCATCCCGTCGAATTTCAAGGATAACTTGATGTTTTTCGACCTTGTTGATTACAAGGGGCCAGGCGAGATGCAGATCTTTTTTCACCGGGCATGGAAGAACTCGAATGACCGTTACTTTAGTAGCGCGGATGAGAATTTGCACAGCGTTCCGTACAAGGTGGGCGCCCATGGCCACTTCAACTGGACGTTTACCGAACCGGGAATCTACGAGATCACATGGCAAGGGCGCGCAGAACACAAAGACGGCACGACGGAGAAGACCGAGCCGGTCACCCAGTACTGGCTCGTGGGTGAGGACTCGGATGTAGGCTTACCTAAAGGAACGACCATTAACCTCAACGAGGTAAAGACCTACGTTGATGGCAAGGCGCCTGAGACGACGGCGCCGGAATCTGAGGCACCCGTGCCGGCGCCGGACGGCGGGAACGCCCAGCTCTGCTACGCGGCACAGGCGCTATCGACGAAGCCCGATGCATTTATCACCTCGGGGCACATGGATCTCACGCTCGCTGAGGATGACGGCGAGGTCCAGGCACGGCTTCACGACGACAGTGATGTGCACCACCCCGCTGTCCGTGAGAGCGGAACATTCCTCTTCGAGGTCCCTGATTCGGCTAAGCAGGAAATACCTAAGAACCTCAAGGACTCGTTCCTCGGTGATTTCAAGCAGGTGTGGATGCTACCGCAGGCGCAGGTCTCTGACCTTCCCTGGCTTGGTTTCTCCACCACGGCTCTGAAATCCGACACGCTTGCGGAAGGAACTAGCATAAAGGTCTCGCTGAGTGACGTCACCGGACCGGGCAGGATTGTCACCTGGCACGAGAACGTGGGACGGTTGGACAAAGAACTTGACTCCGCTGATCCGGCATCGCACCTGACCTACGGTTTTAATCATCACGATCACCAGGCGTTCGGGTTTAGCGAACCGGGCCTCTACGCGGCGACCTTCCTCTACACTGGCACCGCGCGTGATGGAGGAGAGTTTAAAAAGGAACTGCGGGCCACGTTTGCCGTCGGTGACGAGGCAATTGGGCAGGCGCGTAAGTACAAGAATGAGGGCTATAGTTCACTACCGGCCGCGGGTGAGGACTGCGCCTCCGCGCCGGGCGATGAGACGGGCGACGGCCCCGACGATGAGCCTGCAACGCCGGGCGCTGGCGTATGGGACAAACTGGCCAAGGCGATTGAAAATCTCGCCGGAGCCGTCCTCGCACTCGGAGGCATCCTCGGTGGCGGTAAGGAACCAACACAGCCGCAGCCGCCTGTCAGTCCGAGCGCGCCCATCGACACGGTCACCACAACGTCTGACGAGGGTTCTGTGCAGCAGGCGATCATCGATGGCCTGCGCGAGCTCGAGAACTCGTTTATTGCCTTGGACAATGACGCAGGCCCGCTGTTCCAGCAGCTTGTCGCGCGCGACGGAGCGGAGGCGGATCAAGGGGAAGACAGTCCTGAGGGTGCAGTGGTCATGGTCGAGGATCAGAGCGGTGCCGCGCAGCCAGCTGAGCAGCCGGCCGCGCCGTCCGGTGGGCAGGCCCCGGCACAGCAACCCGCTACGCAGCAGCCCGCCCAGACCGTCTCCGGCGGCAGCAGCGGGTCTGCTCCGGCGATCTCCCAGCCCGCAGCTGTGGCCACCGGCGGAACCGAGACGAGCGTCGGCGGCGGTGAATCAGTCGAGGGTGGCGAGGTTGTCGAGGGCGGCGAGGTTGCCGACGACCCCGGCACGGTCGACCAGGCTGCTCCGGAAGACTCCCTTGCCCTCGGCGGGGGCGGCGGTATCGTCTCCTCCATCGACGGCAACTCGCCCGAGAAGTCGAAGGCCTACGACGCGGCGTCCGCAGTGACCGCCGGCGGGTTCTGGGCAGGGCTCGCCTTCGGCCTTGGGGCGATGGCGCTCATCGGCGGTATCGTGCTGTTCGTCGCAGCCTGGCGTGCGCTCAAGCAGGTGCGCAGCGGCGAGGACGATTTGGCTCCGCAGCAGGCAATCGGATAA	MHIYFKNKVSPVVRVLSTTDEKPLSFAYNVGKTNQFSWAFTKPGIYAIQWQARATLDDGSETASDKVTQYWLVGDDPSVGLPKGTTKNLNEVKAAPQSPTTPAETTGKPTTTATQVSTSAKPSETAVPAEPSEPEGETKLTASGHKHGNTGLGVNLPADQKAEGGSQPHVCAGRKLVYQSHNDALYGTRMNGDKLTVMAVDGQQVVPMDSLCFRLPRDADSTGREISRTVITEDTAFLGKPGQAVWLAPQATSSMDKWRPLWSGLGAFDRAHEPNEEAIPSNFKDNLMFFDLVDYKGPGEMQIFFHRAWKNSNDRYFSSADENLHSVPYKVGAHGHFNWTFTEPGIYEITWQGRAEHKDGTTEKTEPVTQYWLVGEDSDVGLPKGTTINLNEVKTYVDGKAPETTAPESEAPVPAPDGGNAQLCYAAQALSTKPDAFITSGHMDLTLAEDDGEVQARLHDDSDVHHPAVRESGTFLFEVPDSAKQEIPKNLKDSFLGDFKQVWMLPQAQVSDLPWLGFSTTALKSDTLAEGTSIKVSLSDVTGPGRIVTWHENVGRLDKELDSADPASHLTYGFNHHDHQAFGFSEPGLYAATFLYTGTARDGGEFKKELRATFAVGDEAIGQARKYKNEGYSSLPAAGEDCASAPGDETGDGPDDEPATPGAGVWDKLAKAIENLAGAVLALGGILGGGKEPTQPQPPVSPSAPIDTVTTTSDEGSVQQAIIDGLRELENSFIALDNDAGPLFQQLVARDGAEADQGEDSPEGAVVMVEDQSGAAQPAEQPAAPSGGQAPAQQPATQQPAQTVSGGSSGSAPAISQPAAVATGGTETSVGGGESVEGGEVVEGGEVADDPGTVDQAAPEDSLALGGGGGIVSSIDGNSPEKSKAYDAASAVTAGGFWAGLAFGLGAMALIGGIVLFVAAWRALKQVRSGEDDLAPQQAIG				NA	NA	NA	NA	NA
AK009_08531	576	cynT	COG0288	Carbonic anhydrase	ATGCTCGCCGGTAACGACCGGTTTGCCACCGACAACGTCGAGCACCCCAACAGCACCGTCGAGCGCCGCCTCGAGCTGCGCGAAGGCCAGGCCCCCGTCGCCGCCGTGCTGGCCTGCTCCGACTCGCGCGTGCCCGTCGAGCTGCTTTTCGACGCCGGCCTCGGCGACATGTTTGTCATCCGCACCGCAGGCGGCTGCGTGGATGCCGCCGTGTCGGGCTCCGTCGACTTCGCGGTCACCAGCCTCGGCGTGAAGCTGGTGATCGTGCTCACCCACGAGGCCTGCGGCGCGATCGGCGCGGCGCTGACCGCCGTGGAAAACGCCGAGATCCCCCTTGGCTTGCAGCGCGTGTTCGTGGAAAAGATCGCGCCGTCGGTGATCTGGTCGAAGGGCCATGGCAAAACCGGCCGCAACGACATTGAGCGCGAGCACGCCCGGATTACGGCGCAGCACCTCGTCGATCGCATCCCCGCGCTTCAGGACGGCACGGCCGACGGATCGATCGGGGTTGTCGCGGCGCGATACAGCCTGGCGGATGGCCGCGTCGAGACCGTCGCCACGCATTTCGCGCGCTAA	MLAGNDRFATDNVEHPNSTVERRLELREGQAPVAAVLACSDSRVPVELLFDAGLGDMFVIRTAGGCVDAAVSGSVDFAVTSLGVKLVIVLTHEACGAIGAALTAVENAEIPLGLQRVFVEKIAPSVIWSKGHGKTGRNDIEREHARITAQHLVDRIPALQDGTADGSIGVVAARYSLADGRVETVATHFAR	PGPT0002415_5624	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK009_08532	759			hypothetical protein	GTGGGCGCGCCACATCTACGAGGGACTGCGGCGGCTGACCTAGCGGATGGTGAAGTCGGCCGGGTTCGACGCGGAATCGCCGACCACGGCGTGCAGGTAGTAGGCGCCCGGGGCCACCGGCTGGCGGTTCGTGCACTGGCCGGGCTTCGACCCGGTCGCCGACCAGCGGGCCTCGAACATGCGCGGCTCGCCCGGCTTGAAGGTCTCCTCGCCGGTAACAACGGGCGGGTAGCAGTCCACGTCCGACCAGACGCGCTGGTTGTCGCTCATGGTGTAGACCTCGAAGCGCAGCTGGTTGTCATCAAGGTTGATTACGCATTCAGCCTTGGTCGGGTTGTTGATCTTCATGTAGAACACCGGCTGGTCGCCAGCGGCGTAGCTCGGCTCGCTGGTCTGCGCCTCAATCTCGAGGTCGGCCAGCTCGCAGGTGCCCTTGCCCGCGGCGTTGACCGTCGGCGTGGCCGTGTCCGAAGTCGTGGTGGCCTCGGTGGTCGTCGTAGTGGACGCGGTGGTTTCCTCGTCGCTGGGGGCCGGGACCGTGGGCTCGGTGGTGATCTGCTCCGTCGGCGTTGCGGGCGCGGTGGATTCCGTCGCCTCACCAGCGTCGGAGCCCGAGCGGGCCCACGCAGTCAGCCCCCACACGAGCAGGGCAACGAGCACCAAGAGGATCACGAGCGCGGCTACGCGGCGACGCATGTAGATCTCTGGCGGGAGCGGCCTGCTGTCTGGGTTCTGGTGGGGCTGGTTGTTCACAATTGA	MGAPHLRGTAAADLADGEVGRVRRGIADHGVQVVGARGHRLAVRALAGLRPGRRPAGLEHARLARLEGLLAGNNGRVAVHVRPDALVVAHGVDLEAQLVVIKVDYAFSLGRVVDLHVEHRLVASGVARLAGLRLNLEVGQLAGALARGVDRRRGRVRSRGGLGGRRSGRGGFLVAGGRDRGLGGDLLRRRCGRGGFRRLTSVGARAGPRSQPPHEQGNEHQEDHERGYAATHVDLWRERPAVWVLVGLVVHN				NA	NA	NA	NA	NA
AK009_08533	1062	disA_2	COG1623	DNA integrity scanning protein DisA	ATGACCGACCCTTCCTCTGAACCGAAATCGCTGCGCAACACACTCGAGCTGCTCGCTCCAGGAACGGCGCTGCGCGACGGGCTCGAGCGCATCCAGCGCGGCCACACCGGCGGGTTGATCGTGCTCGGCGACGGGCCGGAGGTCACCCAGATCTGCGACGGCGGGATCGAGTTCGACGTCGCCTTCCAGCCGACGCTTCTGCGCGAGCTGAGCAAGATGGACGGGGCGGTGATCCTCTCCAGCGACGTTACGCGCATCGTGCGGGCCAACGTCCAGCTCGTCCCCTCGCCCTCGTACCCCACCGTGGAAACGGGGACCCGCCACCGCGCCGCCGAGCGCACCGCGCTGCAGACCGGCGTACCCACCGTGTCGGTATCGGCGTCGATGAACACGCTGACGCTTTACGCCAACGGCAAGCGCCACCTGCTCGACGAGCCAGCGGTGCTCACCGCCCGCGCCAACCAGGCGTTGTCGACCGTGGAGCGCTACCGCAGCAGGCTCGACCTAGCCGGCCAGCGCCTGTTCGTTGCCGAGATGAACCACTACGCCACGGTCGCCGACGTGCTCAACGTCCTGCAGCGCCAGATCATGCTGGCCCGCGCGGCAAACGACATGGATGAGGGCATCGTTGAATTGGGCGTCGATTCGCGACAGCTCGCCCTGCAGCTCACCGAGCTGCGCGGCAGCATCGAAGAGGACATTGAGATGCTCGTGCGCGACTACATCGCCTGCCCGACGGTGCCCTCCGACGAGCAGGTAGCCGCGGCGCTCGCCACGTTGGGTGAGCTGCCGGATTCCGAGCTGCTCAACACCGCCTCGCTAGCACGCCCGCTGGGGCTGCCCGCCACCGAGGAAAACCTGATGCACGACGTCGTGCCGCGCGGCTACCGCGCGCTCTCACGCGTGCCGCGCGTGCAGCGCTTCCTCATGGACCACGTGGTCTCCGAGTTCGGTTCGCTGCCGGAGCTGCTCGGCGCGGAGCCCGAGCGGCTCGCGGACGCCGAGCACGTCTCTCCGCTGTGGGCGCGCCACATCTACGAGGGACTGCGGCGGCTGACCTAG	MTDPSSEPKSLRNTLELLAPGTALRDGLERIQRGHTGGLIVLGDGPEVTQICDGGIEFDVAFQPTLLRELSKMDGAVILSSDVTRIVRANVQLVPSPSYPTVETGTRHRAAERTALQTGVPTVSVSASMNTLTLYANGKRHLLDEPAVLTARANQALSTVERYRSRLDLAGQRLFVAEMNHYATVADVLNVLQRQIMLARAANDMDEGIVELGVDSRQLALQLTELRGSIEEDIEMLVRDYIACPTVPSDEQVAAALATLGELPDSELLNTASLARPLGLPATEENLMHDVVPRGYRALSRVPRVQRFLMDHVVSEFGSLPELLGAEPERLADAEHVSPLWARHIYEGLRRLT	PGPT0014770_657	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
AK009_08534	1434			hypothetical protein	TTGGCTCACCCGCATCCCTGGGATGTTGATCTTTTCCCCGGCAGGCGCGATGGCGTACTTGTAACCCAGGCGGGCCGCTTCCTGCAGGCGGCGAGACAGGTTGGGCACCCGGCGCAGCTCGCCGGCGAGGCCGACTTCTCCCACCACAACAGTTTTTTGCGGCAGCGGCTTCTCGTGCAGGCTCGACCAGGTGGCCAGGGCGACGGCGAGGTCGGTGGCTGTCTCGGTGATTTTCACCCCGCCGACGGTGGCGACGTAGGCGTCCTTGTCGTTGGTGCGCTCGTTGCAGCGCGCCTGCAGCACGGCGAGCACCATGGGTACGCGGTTGAAGTCGAGGCCGGTGACCACGCGTCGCGGGCTCTTGTTCACTGGGTCGACGGTCAGGGCCTGGACCTCCGCCAGGATCGGGCGCACGCCGTCCATTGCGACGGTGACCGCGGAGCCGTCCGGGGTGTTTCCGCGGTGGGAGAGGAACAGCCCGGAGGGGTCGGAGACCTCGCGGATGCCCTCGGCGGTCTGCTCGAAGCAGCCGACCTCGTCGGTCGCGCCGAAACGGTTCTTGATGCCGCGCATCATCCGCAGGCTCGAGTGCCGGTCGCCCTCGAAGTTCAGAACTACGTCGACGAGGTGCTCGAGCACGCGCGGACCAGCGACGTTGCCGTCCTTGGTGACGTGGCCGACGAGCAGGATCGGCACGTTCGTGGTCTTCGCCAGCGTGGTCAGGGCTGCGGTGACCGCGCGCGACTGGGCGATACCGCCTGCCACGCCCTCGACCCCGGGCGCGTGCATGGTTTGCACCGAATCGACGATGAGCAGCGACGGCTTGATCTGCTCGACGTGGCCGAACACGACGTCGAGGTTGGATTCGGCGGCCAGGAACAGGCTGGGCTGCAGCGCCGCGGTGCGCTCGGCGCGCGAGCGGACCTGACCGGCGGACTCCTCGGCCGTGACGTAGAGGGCCTTGCGCTCGCCCAGCGCCGCCCATCGGGAGGCGACCTCGAGCAGCAGGGTGGACTTGCCCACGCCGGGCTCGCCCGCCATGAGCACGACGGAGCCGGGGATCACGCCGGAGCCGAGGACGCGGTCGAGCTCGCCGATACCGGAGGGCACGGCTGCTGTCTGGGCGGGGTCAATCGCGGTAATCGGCTGCGCCGGGGCGGCCGGGGCAAGCGCCTGCAGCCGCGTGGGGTTCGCCGAACTCGAGGCGGCTGCCGCGAGCGGCGTTTCCTCCTGGAGCGTGCCCCACAACCCGCACTCGGGGCAGCGCCCCAGCCACTTGGGGGAGGAGTAGCCGCATTCGGTGCAGGTGTGGATCACGCGCTGTTTCTTCGCCATGCCGACACTCTAAGACACGGGTGTGACACGGCCCCTTCTGATACGCGAAAACCGCACCTCGCGGGGGCGAGGTGCGGTCGTCGTCAAGCGCGGCTCTAG	MAHPHPWDVDLFPGRRDGVLVTQAGRFLQAARQVGHPAQLAGEADFSHHNSFLRQRLLVQARPGGQGDGEVGGCLGDFHPADGGDVGVLVVGALVAARLQHGEHHGYAVEVEAGDHASRALVHWVDGQGLDLRQDRAHAVHCDGDRGAVRGVSAVGEEQPGGVGDLADALGGLLEAADLVGRAETVLDAAHHPQARVPVALEVQNYVDEVLEHARTSDVAVLGDVADEQDRHVRGLRQRGQGCGDRARLGDTACHALDPGRVHGLHRIDDEQRRLDLLDVAEHDVEVGFGGQEQAGLQRRGALGARADLTGGLLGRDVEGLALAQRRPSGGDLEQQGGLAHAGLARHEHDGAGDHAGAEDAVELADTGGHGCCLGGVNRGNRLRRGGRGKRLQPRGVRRTRGGCRERRFLLERAPQPALGAAPQPLGGGVAAFGAGVDHALFLRHADTLRHGCDTAPSDTRKPHLAGARCGRRQARL				NA	NA	NA	NA	NA
AK009_08535	570			hypothetical protein	GTGGCCCGAGTGGTCTTCGCCAAGCTCGCGGTTGGACTCGCCGGAGGGCAGCAGCGGCGCGGAGACCGGAGCGTCGACAGCGACGGTTCCGACGTCGAAGGTGAACGTGACACCGACGGTGCCGCCGTAGGCGAACGCGTCGTTGTCGAGGGAGGTCTCGACGTACTGGATGCAATCGGTGTCGGCCTGCGGCAGGGCGTCGAGCCCCTCGGCGGAGTCACCCACCACGGAGCAGCGAGTCGGGATCTCGCGCGGGGCCGGGTTGAACTCGACGTCTTGGCCATCGACCTCAGCGGAGACGAGGCGGTGCGGGTTCATGGAGGGATCCTGGTTGATCGCGGTGAACTTCAGAGCGACGCGCCCGTCCTCATTGAGCACGACCGTTACGTCCTGGACCGCGACGGCGCCGTTCTCGCTGGAAACGCTCGCGCCGTCGACGGCCGCGACCTGGGAGGAGGTCTGCGTGATCTGCCCGGCAGAGCACGAGGCGAGCAAAAGGGCGGACGCTGCGACGGCGGAGGCTGCGGCCACCGGCTTCAGGGACTTCACTGTGATGTCCTCCATAATTAA	MARVVFAKLAVGLAGGQQRRGDRSVDSDGSDVEGERDTDGAAVGERVVVEGGLDVLDAIGVGLRQGVEPLGGVTHHGAASRDLARGRVELDVLAIDLSGDEAVRVHGGILVDRGELQSDAPVLIEHDRYVLDRDGAVLAGNARAVDGRDLGGGLRDLPGRARGEQKGGRCDGGGCGHRLQGLHCDVLHN				NA	NA	NA	NA	NA
AK009_08536	1104			hypothetical protein	GTGGATGAGCACCACGGCGTCGTCGTCAGCAATGGTTTTCAGCCCCTCCCAGATCGAGTCCGCGCGCTCGGCGCCGCCGTGGACGAAGCGCACGCGCTTGCCCTGCAGCGCGGCTTGCGCCAGTTCCTCCATCTCGGGGCTGACCACGACGACGATCTCGTCGACAATCTGCGAGGTTTCCATCGCGGTGACGGAGCGCTCGAGGAGGCTGCGGCCGCGCAGGGGGACGAACGCCTTCGGCACGGCCGCGCCGAGCCGGGTTCCCTGCCCCGCCGCTGCGATCAGGGCGGTGACCCTGCGCTTCATTTAGGCCTCGTCGGAGTTGGTGTCTTCTGCCTCGTCCGCGTCATCCACGTCATCGAAGCTCAGGTCGTCGAGGTCGACATCGTCGTCAAGTTCGTCGCGCGGATCGATCGAGATCCCGGCGGCCACCTGGCGCTGGATGATCTCGTTGATCCCGCTCTCCATCTCCTCGGCCTTGGCCTCGTCAACGGGCTGGGCGAGCGCGAGCTCACCGACGAGGATCTGGCGCGCCTTGCCCAGCATGCGCTTCTCGCCGGCGGACAGGCCCTTGCCCTGGTCGCGGCGCCACAGGTCGCGCACCACCTCGGCGACCTTATTGATGTCGCCGGAGGCGAGGCGCTCCTGGTTCGCCTTGTAGCGCCGCGACCAGTTGCCGGCCTCCTCGACGTCGATCTCGCGCAGCACGGAGAAGACCTTGCGAAGCCCGTCCTCGTTGACCACGTCGCGCACGCCGACGAGCTCACTGTTCTTCACGGGGACGCGGACCTCCAGGTCGGACTGGAGGATCTTCAAAACGAGGAAGTCGAGAGTCTCCCCGCCCATCTCGCGCTCCTCAATGTCGGCGATGCGTGCCGCACCATGATGCGGGTAGACAACAACTTCTCCGACTTTGAATTCCATGTCTCTCCTTGCCGGGACCGGGGGTTACAACCCCACCACCCTACCACCTGTTTTCCAACGGCACCGCGCCGACTACCGCTACCCCCGCCACACTATGACGTTGCCCCCACCACAGACGTAAAACTGGGAAAATCCGGGGGACACGCAGTAGTGTTAGCGAAGAGAAATCCCCTTTGTTGA	MDEHHGVVVSNGFQPLPDRVRALGAAVDEAHALALQRGLRQFLHLGADHDDDLVDNLRGFHRGDGALEEAAAAQGDERLRHGRAEPGSLPRRCDQGGDPALHLGLVGVGVFCLVRVIHVIEAQVVEVDIVVKFVARIDRDPGGHLALDDLVDPALHLLGLGLVNGLGERELTDEDLARLAQHALLAGGQALALVAAPQVAHHLGDLIDVAGGEALLVRLVAPRPVAGLLDVDLAQHGEDLAKPVLVDHVAHADELTVLHGDADLQVGLEDLQNEEVESLPAHLALLNVGDACRTMMRVDNNFSDFEFHVSPCRDRGLQPHHPTTCFPTAPRRLPLPPPHYDVAPTTDVKLGKSGGHAVVLAKRNPLC				NA	NA	NA	NA	NA
AK009_08537	498	ispF_2	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGGGCACTTTGCGTGTGGGCACAGCCTTTGACGCCCACCAGATTCAGGCGGGCAAGGAGTGCTGGATCGCCGGCATCCTCCACGACGGCGTCGACGGCTGCGAGGGCCACTCCGACGGCGATGTGGTCAGCCACGCGGTCGTCGACGCGGTGCTCTCCGCGGCCGGTCTGGGCGACCTCGGTTCGTTCGTCGGCGTCGGCAGGCCAGAGTACGACGGGGTGCGCGGCCTTCAGCTTCTAAAAGAGCTGCGCGAGCTTGTCGACGCCCACGGCATCGTAATCCACAACGTCTCCGCGCAGCTCATCGCACAGACCCCGCGCATGGGTGCGGTGCGCGAGGAGGCGGAGCGCGCGTTGACCGAGGCGCTCGGGGCGCCGGTGAGCGTCTCAGCCACGACGACCGACCACATGGGCTTTACCGGCTCCGGGCAGGGCCGCGCCGCGGTGGCGACCGCGCTGGTAGAGCTGGCGGGCGGGCCTGGACCGGCCAACGGCTAG	MGTLRVGTAFDAHQIQAGKECWIAGILHDGVDGCEGHSDGDVVSHAVVDAVLSAAGLGDLGSFVGVGRPEYDGVRGLQLLKELRELVDAHGIVIHNVSAQLIAQTPRMGAVREEAERALTEALGAPVSVSATTTDHMGFTGSGQGRAAVATALVELAGGPGPANG	PGPT0007595_773	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK009_08538	225			hypothetical protein	ATGGCCGATGTGCGGCGAGGATTGAGGCGTCGCGCCGCAGAGGTAGATCGAGACGTGGCCCTCGCGGACCGGCTCGAAAACCCGCAGCTCACGCGCGGACGTATCAAAGATGCGTTGGATACCGGAAGTCACGCAGGCCAGTCTAGCCGTTGGCCGGTCCAGGCCCGCCCGCCAGCTCTACCAGCGCGGTCGCCACCGCGGCGCGGCCCTGCCCGGAGCCGGTAA	MADVRRGLRRRAAEVDRDVALADRLENPQLTRGRIKDALDTGSHAGQSSRWPVQARPPALPARSPPRRGPARSR				NA	NA	NA	NA	NA
AK009_08539	849			hypothetical protein	GTGGATTTCCGCCAGGGCTTTCGGGACGCCGAAGTCGTCGTTAAGCGCCTGCTCGAACTGTGGGGTCCACGTGGTCTTTTCCGGGGTGCCGGCGCGGGCGACAAAGTCTTCGATGCGGCGGTAGCCGGCGGCTGCCTCGCTCAAGGCCTCCGGGGAGTACTCCAGCACGCTGCGGTAATGGGCGGAGCCGAGGTAGTAACGCAGCTCCACCGGGCGCACGGTGGCCAGCATGTTGTCGATCGAGAGCACATTGCCCAGCGATTTGGACATCTTCTCCCCGGCCATGGTCACCCAGTGATTGTGCATCCAGTAGTTGGCAAACCCGTCGCCGGCGGCGTGCGACTGCGCCTGCTCGTTCTCGTGGTGCGGGAACTGCAGGTCAAGGCCGCCACCGTGGATGTCGAAGGAGCCGCCGAGGTACCAGGTCGCCATGGCGGAGCACTCGATGTGCCAGCCCGGGCGGCCCTCGCCCCACGGCGTCGGCCAGCTCGGCTCACCCGGCTTCGCGGCCTTCCACAGCGCGAAATCATGCGGGCCTCGCTTGCCGCGGTTATCCGGCTCGCCGGACTCCATCTCCTCGACCCGGTTGCCCGAGATCGAGCCGTAGTCGCTGCCCTCGGCGCGCACCCAGGCCGCGACGTCGAAGTAGACCGACCCGGCGGCCTCGTAGGCGAAGCCCCTGTCAATCAACCGGTGCATGTAGTCGACCATCTGGGTGACGTGCCCCGTCGCGCGCGGCTCCACCGACGGCGGCAGCACCCCGAGCAGGTTGTAGGCGCGGGTGAACTCGCGCTCGTAGGTGGACACCCACTCCCACCAGGGCCGACCGTTTTCGGCGGCCTTGGTTAA	MDFRQGFRDAEVVVKRLLELWGPRGLFRGAGAGDKVFDAAVAGGCLAQGLRGVLQHAAVMGGAEVVTQLHRAHGGQHVVDREHIAQRFGHLLPGHGHPVIVHPVVGKPVAGGVRLRLLVLVVRELQVKAATVDVEGAAEVPGRHGGALDVPARAALAPRRRPARLTRLRGLPQREIMRASLAAVIRLAGLHLLDPVARDRAVVAALGAHPGRDVEVDRPGGLVGEAPVNQPVHVVDHLGDVPRRARLHRRRQHPEQVVGAGELALVGGHPLPPGPTVFGGLG				NA	NA	NA	NA	NA
AK009_08540	945		COG0566	putative tRNA/rRNA methyltransferase	ATGGCGAAACCGTACAGGCGACCCGACGTGATCAAGACGTCGAAAAAGGGCGCCACCAAGGGCTCCGGAGGCCAGCGCCGCCGCGGTCTGGAGGGCAAAAAGGCCACCCCGAAGGCGGAGGACCGCGTCTACCACTCCGCGCACAAGCGCAAGCTGGAGCGCCAGCGCCGCGACTCCGGCAGGCACGAAAAGGAAAAGGCGGACCTCGTTGTCGGCCGCAACCCGGTGGTCGAGTGCCTACACGCGAAGGTGCCGGCCGAGGCTCTCTTCGTCGCGCTCGGCACCGCGCATGACGACCGCCTTTCCGAGGCCGTCACCCTGGCCAACTCCAAGGGCCTGCCGGTGCACGAGGTGCCGCGCCACGATCTCGACAGCATGACGGGCAACGGCCTGCACCAGGGCATCGGGTTAAAGATCCAGCCCTACAAGTACGCCGATGTGTTCGACCTGATGGCCGGCGTGAAGGACCGCGGGCAAACCGGGATGTTCGTCGTTCTAGACAACATCACCGACCCGCGCAACCTCGGCGCGGTGATTCGCTCCACCGCGGCCTTCGGCGGCCACGGCGTGGTCATCCCCGAGCGTCGTTCCGCGCAGGTCACGGGCGTGGCGTGGCGCACCTCGGCCGGTACGGCGGCGCGGTTGCCAGTGGCGAAGGCCGTCAACATCACCCGCACGATCAAGGAGTTCAAGGACAACGGCTACATGGTCGTTGGGCTTGACGCGGGCGGCGATCACACGCTCGACACCTTCGACGGCGGCACGGACCCGGTGGTCATCGTCGTCGGCTCCGAGGGCAAGGGCATCTCGCGCCTGGTGCGCGAGAACTGCGACGTGCTCATGTCCATCCCCACCGAGGGTTGGGTGGAGTCGCTCAACGCCTCCGTTGCCGCGGGCGTTGTGCTCAGCGAGTTCGCCCGCCAGCGCCGCGCCGCCGCGAACTAG	MAKPYRRPDVIKTSKKGATKGSGGQRRRGLEGKKATPKAEDRVYHSAHKRKLERQRRDSGRHEKEKADLVVGRNPVVECLHAKVPAEALFVALGTAHDDRLSEAVTLANSKGLPVHEVPRHDLDSMTGNGLHQGIGLKIQPYKYADVFDLMAGVKDRGQTGMFVVLDNITDPRNLGAVIRSTAAFGGHGVVIPERRSAQVTGVAWRTSAGTAARLPVAKAVNITRTIKEFKDNGYMVVGLDAGGDHTLDTFDGGTDPVVIVVGSEGKGISRLVRENCDVLMSIPTEGWVESLNASVAAGVVLSEFARQRRAAAN				NA	NA	NA	NA	NA
AK009_08541	1185			hypothetical protein	ATGGTCGGTGCCGGGGCCGAGGCGCTCATCGAGGCGCTTCGGGGCGGGCACGAGGTGGCCCATGCCCTCAATCGACCACAGCTCGACCGGTGCTGCGCCTGTGAATCTATCGACGCGCACCCCCTCGACGGGCCGGGTCGTCGAGTGCTCGCCCGCGTCGTTAAGCCGGGCGAAAAAGCGAGCGGAGTCGAGCGCCGAACGTGCTTTCCCGCGGTTGAACTCGGAGATGCCCGCCAGCCCGCCGTCGTAGGGGACGATCGGGTCCGCGGTGCCCTGGACGCTCAGAATCGGGGTGGGGACCCAGCGCTCGGTGGAGCAGATCATGTTGTCGTCGGTGGGCGCGGCGGAACCGAACAGCGCCACGCCCGCGAGCGTAGACGGGGCCTCGCACAGCATGCGCAAAAGCATCTGGCCGCCGTTGGAGAAGCCGCAGCCAATCACGCGCGCCGGGTCGTAGGCGGCGATGAGTTGGAGAAGGAAACCGACGTCGTCGACGCCGAGCGTGCGCGCCGATTCGCTAAAACCGCGCCGCAGGTCGTTGAAGTGGCGCCCCACCCCGTCGGGGTAGAGCACCGTGGTCGAGTCCGTGGCGAGGGCGTCGAAGGTGTGCGCCGTGAAGTTGCGCGCCACGCTTCCCGACTGCAGCGAGCCGTGCAGAAACAGCACGAGCGTCTCGGTCTTGGGCGCGGGGTTGTCGCCGGTGACTTCTGTGTAGCGGCGCTGGCGGCCCTGGTGCTCCAGCGTGCGGCGCGAAACTGCCATGGGTCTTTAAGCGTCCATCTTCTGCAGCCGCGAGACGCGGACGCGCTCCACCAGGCGGCACAGGATGTAGATGCCGAAGGAGATAAACGCCACGGTCACGCTGATCGGGATGCCGGGTGCCAGGGAGAAGATCAGGCCGCCGACGGCCGCTGCCTGGGCGAAGACCACCGACCAGACGATCGCGGCGACCGGGTTGTCCGTGATCGCCACCGCGGACGCGCCCGGGGTAATCAGAAGCGACATCACCAGCAGCGCTCCGACGACCTGGACCGCCTGGGCGGAGGCGATGCCGAGCAGCACGCCGAACGCGACGGCGAAGAAGCGCACTCGCACGCCCGTCGCCGCGGCCATCGCCGGGTCCACCGAGGCGAACATGAGCGGGCGCCACAGCACGGCGATCGCGACCAGGATGATCAGCGTTGA	MVGAGAEALIEALRGGHEVAHALNRPQLDRCCACESIDAHPLDGPGRRVLARVVKPGEKASGVERRTCFPAVELGDARQPAVVGDDRVRGALDAQNRGGDPALGGADHVVVGGRGGTEQRHARERRRGLAQHAQKHLAAVGEAAANHARRVVGGDELEKETDVVDAERARRFAKTAPQVVEVAPHPVGVEHRGRVRGEGVEGVRREVARHASRLQRAVQKQHERLGLGRGVVAGDFCVAALAALVLQRAARNCHGSLSVHLLQPRDADALHQAAQDVDAEGDKRHGHADRDAGCQGEDQAADGRCLGEDHRPDDRGDRVVRDRHRGRARGNQKRHHQQRSDDLDRLGGGDAEQHAERDGEEAHSHARRRGHRRVHRGEHERAPQHGDRDQDDQR				NA	NA	NA	NA	NA
AK009_08542	396			hypothetical protein	ATGCACAGGACGGAAACGCCCATGCCGAAGCTCATCACCGCGCCCACTGCGGAATCGTTGCCGCCGCGAAGGCCCAGCATGACAAACGCGATCGCAGCCGTGACCGATCCCGCCACCGCGCCGAGCGACAAGTTCACGCTGGCGACCAGTGCGATTGCCGCTCCCATCAGAGCCAGCTCGGAGGTGGCGTGGACTGCGAACGCCATTTGGCGGATCACCACCAACGGCGCGAGCACGCCGGAGAGGAATCCCAAAAGCGCGCACGCAATCAGTGAGGCGATGACGAAATCAAAAGACAGCAGGTGCGCCGTCTCTTCGAAGAACTGCCGCATTAGACGATCACCGTCTTCCCACGCACGGAGACGACGTCGACACGCGTGCCGTAGAGCTCGCTGA	MHRTETPMPKLITAPTAESLPPRRPSMTNAIAAVTDPATAPSDKFTLATSAIAAPIRASSEVAWTANAIWRITTNGASTPERNPKSAHAISEAMTKSKDSRCAVSSKNCRIRRSPSSHARRRRRHACRRAR				NA	NA	NA	NA	NA
AK009_08543	414			hypothetical protein	TTGGCGGGAGGCGTCGAGCGAGAGCAGGGGCTCGTCGGCAAGCACGAGCTCGGGGTTGTTCGCAAACGCCTGGGCCTGGCGCACCAGCTGCTGCTGGCCGCCGGAGAGGATGCCCACGCGGGCGTTGGCCAGGTGGGACGCGCCGACGTTCGCGAGCGCGGCGTCGACCTGGGCTCGGCTCGCGGAGCGCTTACTTACCAACCCGTGGCGCAGCGTCAGCGAGACGACGTCACGCGCCCGGACCGGCATGTGCGGCGGGAACATCCGCTGCTGCGGGATGAAACCGACGCGCTCGGGCAGCTCGACGCTGCCGCTTGTTGGGCGGCGGATGCCGAGCATGGTGTTGAGCAGGGTCGACTTGCCCGAGCCGTTGGGGCCGAGCACCGCGATGAACTCGCCCTGGTTGATCTCTAA	MAGGVEREQGLVGKHELGVVRKRLGLAHQLLLAAGEDAHAGVGQVGRADVRERGVDLGSARGALTYQPVAQRQRDDVTRPDRHVRREHPLLRDETDALGQLDAAACWAADAEHGVEQGRLARAVGAEHRDELALVDL				NA	NA	NA	NA	NA
AK009_08544	1023			hypothetical protein	ATGCTCGGTAACAAGTCCCTGCGCGCTGGCGCAGCCGTTTTCGCAACGTCCCTCTTCCTCGCGTCCTGCTCCACCGGCGGGACCGACACCACCACCACCGCAGCCTCGGGCACTCCGGTCGAGGCCGCGGCAGACACCGTTGTCGCCACGACAAACGTCTGGGCGGATGTCGCCGGCTCCGTGCTCGGCGAGGCCGTGCCCGCGGTGATCTCCAACCCCGCGACCGACCCGCACGACTTCGAGCCTGCCGCCGCCGACCTGGCCAAGGTCACCCAGGCGAAGGTCCTCGTTGCCAACGGCGGCACCTACGACAACGCGATCTACACCGCCGCCGACCCCGCCAACGTGATCAGCGCCCTGCCGCTGTCAAGCGAGGAGCACGACCACGAGCACGAGGGCCACGACCACGAGCACGAGGGTGAGCACGCGGGCCACGACCACGACCACGAGCACGAGGGTGAGCACGCGGGCCACGACCACGCCCACGAGCACGAGGGTGAGCACGCGGGCCACGACCACGCCCACGACGAAAACGAGCACATCTGGTACGACACCACGGTCGTGCGCGAAGTCGCTGACAAGCTGGCAAAGGCCGCGGAAGACAACGGCGTGCAGGCGGATACCGCGGAGCTGAACAAGCGCCTCGATGACGTCGACGCCAAGCTTGATGCGCTGCCCGTCGCTCGCATCGCGCAGACCCACCCGATTGCGGATTCGATCGTGGAGAACTCCGCGCTCGAGGACGTCACCCCCGAGGACTACCGCCAGGCCACGCTCAACCACACCGAGCCGTCGAGCGCGGCCGTCGCCGCCCTTATTACGCAGCTGGAGAACGGCGAGGTGGATCTGCTTATCAATAACCCGCAAACCCCGTCGGCGCTGACCGACCGCATCCTCGCCGCCGCCGAGCAGAACGACGTCCCCGTGATCGACATCGCGGAGACCCCGCAGGGCGGCGTCGACTTCTTCGACTACCTCGACGAGATCGCGAACACGCTGACCGATAAGCTCGCGAATTCTTAA	MLGNKSLRAGAAVFATSLFLASCSTGGTDTTTTAASGTPVEAAADTVVATTNVWADVAGSVLGEAVPAVISNPATDPHDFEPAAADLAKVTQAKVLVANGGTYDNAIYTAADPANVISALPLSSEEHDHEHEGHDHEHEGEHAGHDHDHEHEGEHAGHDHAHEHEGEHAGHDHAHDENEHIWYDTTVVREVADKLAKAAEDNGVQADTAELNKRLDDVDAKLDALPVARIAQTHPIADSIVENSALEDVTPEDYRQATLNHTEPSSAAVAALITQLENGEVDLLINNPQTPSALTDRILAAAEQNDVPVIDIAETPQGGVDFFDYLDEIANTLTDKLANS	PGPT0004275_544	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
AK009_08545	717			hypothetical protein	GTGGCGGGCGACGATCGGCACGTCGGTGATCCCGGCGGCGTCGAACACGTCGAGCGCGCCGGACACGCGGGCGCGCTGCACGTGGAGGTCGGCCTGGGCAAGCTCCTCGCGGCGCACGTGCCCGTTGCGAGGTGTGCTGAACAGTCGCTTGGCCAGGATCCCGATGCGGGTGTGGCCGGCGTCGACAAGCGCCTGCGCTGCCGGGGTGATCGCGGCGGCGTCATCGATGCCGACGTACGCCACGCCCTCGTCCGCGGGCTGGTCGCACACCACCACGGGCAGGCCGCGCTCGCGCGCAGCCGCGAGGTGCGGGTCGCCGGCGGGCACCGAGTAGACCACGAAGCCGTCGACAATCGCGCTCGTGATCGGGGCGGGGTTGTTCTCACCGGGCCCGGCGGGAATCAGGGTGAGCGAGAAATCGGTCTGGCGGGCCAGCCCGGCGAGGAAATCGACGCTGGCTCGGTCCTCGAAGGCGTAGTGCAGGTGCTCGGTGAGCACGACGCCTACCGCACCGGCCCGGCGGGTGCGCAGCGAGCGGGCGGTTGGGTTCGGGCCCGCGTAGCCCCGCTTCGCTGCGGCGGCGAGGATGCGCGAGCGCAGCTCGTCGGAAAGCTGATCCGGGCGGTTGTAGGCGTTGGACACCGTGGTGCGCGACACCCCCACCTCGGCGGCGATGGACGCCAGAGTGCTGTTTTTGGCGGGGCGGGACCGAGGTGA	MAGDDRHVGDPGGVEHVERAGHAGALHVEVGLGKLLAAHVPVARCAEQSLGQDPDAGVAGVDKRLRCRGDRGGVIDADVRHALVRGLVAHHHGQAALARSREVRVAGGHRVDHEAVDNRARDRGGVVLTGPGGNQGEREIGLAGQPGEEIDAGSVLEGVVQVLGEHDAYRTGPAGAQRAGGWVRARVAPLRCGGEDARAQLVGKLIRAVVGVGHRGARHPHLGGDGRQSAVFGGAGPR				NA	NA	NA	NA	NA
AK009_08546	123			hypothetical protein	GTGGGGGATCCGCGCGCCGCAGTGGTCGAGCACGCCGAGCGCCATCGAGTCGGTGGTGCACAGCGCGGCGGTGAGGTCGGGGTGGGCGCCGATGAGCTCGGCCGCGCCGTCGGCCGCGCTTAA	MGDPRAAVVEHAERHRVGGAQRGGEVGVGADELGRAVGRA				NA	NA	NA	NA	NA
AK009_08547	819			hypothetical protein	GTGTGTGGCCACCGTCGGCTTCGGCCCGACCTTGATGCCCAGGTCAGCGGGGCCGAGGGCGCGCAGCGCCGTCTCGTCGGTGGTGTCGTCGCCGGCGAAGAGGGTGGCCGCGAAGTCCTTCTTGTGCTCGCGCAGCCACGACCCTTTGGTCACCTCGATCGCGGAGAACTCCACGACGTTGTGCCCGCTGAGCAACGGGCGCCCGGGTGTTGCCAGGGCGCGGGCGCGGGCGAGGATATCCTCCGCCAGCTCGGGGTCGGTCTCTGCGAGCGCGGCGACGTGGATGACGCGCTGGTAGGGCTTGGACTCCACGAAGGCCGGCGGGGTCGCGATGGCCTCGAGCTGGCGCGCGATGTCATCGAGGTATGCGCGGTCGGCGGGGGCAAGCTGCGGGGCGCCAGCGGTCGTCTCCGCGCCGTGGGAGCCGACGAGCACCACCGGTTTCTCCAGCCCAACGACGCGGCGCAGCCCCTCGAGGTGGCGGCCCGACAGCACGGCGACCTGGGTGCCCGGCAGCGCCATCAGCGTGCGCGCGGCGCGCAGCGCCTCGGGGTTGGGGGTCACCGCGTGGGCGTTCGGGCCGAGCTCGCAGATCGTGCCGTCGAAGTCGAGGCACACCAGCAGCGTGTCGGCGCGCGCGATGCGCTCAATCTCGTCCGCAAGCGCGCGGTGGCCGGCCGTCACAGCGCCATCACCCTGATCGAGGGCCTGTCGATCGCATCCGACACGACGGTGAGGGTTGCCTCCTTGTCGTTGAGTTTGCGCACGTCGAACGCCGCTCCGGGGGTCATCAGCGAGGTCAGCGTGTCGTGCACGTAG	MCGHRRLRPDLDAQVSGAEGAQRRLVGGVVAGEEGGREVLLVLAQPRPFGHLDRGELHDVVPAEQRAPGCCQGAGAGEDILRQLGVGLCERGDVDDALVGLGLHEGRRGRDGLELARDVIEVCAVGGGKLRGASGRLRAVGADEHHRFLQPNDAAQPLEVAARQHGDLGARQRHQRARGAQRLGVGGHRVGVRAELADRAVEVEAHQQRVGARDALNLVRKRAVAGRHSAITLIEGLSIASDTTVRVASLSLSLRTSNAAPGVISEVSVSCT				NA	NA	NA	NA	NA
AK009_08548	411			hypothetical protein	ATGCAGCCGTCGGCGTCGGCGACTTCGACGTCGACAAGCGTGAGCCGCTCGCTCGTCTGCTCCACCTTCGCGCGCAGGGGAGCGCAACCCGTCATCGCGTTCATGGAATCGCCCGCGATGCGTAGCGACGCCTTCCCCGCCGCGTCGGCGGGCAACCCGCCCGGGGTGCCGGGGTCGGTGTGCAGCGCCACGACCTGCCAGGTGGCTCCGCTGAGCCCGGTGGTGTCGGCGTCGCCGGCGCAGCCGCCCAAGGTGAGCGCGCACGCGATAGTGGCGATGGCGGTTTTCCTCACAGCGCCTCCAGGAAGGTTCGCGCCCACCGCGCGACGTCGTGCTCGGTCACGCGCGCGTGCATCGCCCGCATCGCGTTGGCGTCGCCACCTAGAGCCGACAGGATCGCCTGCTCGATAG	MQPSASATSTSTSVSRSLVCSTFARRGAQPVIAFMESPAMRSDAFPAASAGNPPGVPGSVCSATTCQVAPLSPVVSASPAQPPKVSAHAIVAMAVFLTAPPGRFAPTARRRARSRARASPASRWRRHLEPTGSPAR				NA	NA	NA	NA	NA
AK009_08549	525			hypothetical protein	GTGTGGGTGGCAGGAGACGTACTCCTTGGCCACCAGGTTCATCCCGTCCTTGAACGGGGTGACCAGCATGACGTCGGCCGCAGCGTAGTAGGTGCCCAGGTCCTTTTTCGCCACGGGGCGGTGAATGTAGTGGACCACGGGCCGCCCGACCTGGCCGAAACGGCCGTTGATCCTGCCCACGGCTTCCTCCACTTCACGGCGCGTCTTCCGGTAGTGCTCGATGCGCTCGCGCGAAGGGGTGGCGAGTTGCACCACGGCGACGTCGTCAAGCAGGCCCTTCTCCAGCAGCTTTTCTACGGCGAGGAGGCGCTGCAGGATCCCCTTGGTGTAGTCCATGCGGTCGACACCGAGCATGAGGGTGCGGGGGTTGCCCAGCTCTTTGCGCAGCGTGACGACGTCCTCGCGCGCGCCGGGGCGGATCGCCGTCGGGTCAATCGAGATCGGAAACGCCCCCGTGCGCGGGCCGGCAGCGCCGACGAGGGCGCGGAAGTTCGCCTCGTCCTCCTCGCGCTGGAACCCCACTAG	MWVAGDVLLGHQVHPVLERGDQHDVGRSVVGAQVLFRHGAVNVVDHGPPDLAETAVDPAHGFLHFTARLPVVLDALARRGGELHHGDVVKQALLQQLFYGEEALQDPLGVVHAVDTEHEGAGVAQLFAQRDDVLARAGADRRRVNRDRKRPRARAGSADEGAEVRLVLLALEPH				NA	NA	NA	NA	NA
AK009_08550	1080			hypothetical protein	GTGCAAGAAAAACCCGACCTTGAGGTCGGGGCGGCGCTGCTTGAGCATTCCCGGAACGAGCTGCAGCTGGTAATCCTGCACCCACACCGTCGCGCCCTTCGCGGCGACGGATGCGACTGCGGCAGAAAAGGTTTCGTTGACCGCCTGGTACGCCTCCCACCACTGAGCCACGTACTGCGGGGCGACAATCAGGTCGTGGTAGAGAGGCCACAGGGTGGAGTTGGAAAACCCCTCGTAGAAGTTCTCGAAATCCCAGCGGCTCAGCGACACAGGGTGCAGCGAGATGCCCTCGAACTCGAAGGGCTCGACGCGCGCGTCCGGCTCGCCGGGCCAACCGACCCAGCACCCGGAGTGGGCGCGCAGCACGGGGGCGAGGGCCGCGACCAGGCCACCAGGCGACGCCTGCCAGCCCGACTCGGTGCGGTCGACCGGCAGCCGGTTGGCGACAACGACGAACTTGTTGTCCCCCGCCATGGCCCGCGCTTAGGCCTCGTCGCCGGCGGAGGCGGACTTTTTCGCGGCCTTCTTGGTCGCCTTCTTCGTGGCCTTCTTCACTGTCTTCTTGGCGGCCTTTTTGGTTGCCTTCTTGGTGGCTTTCTTCGCGGTCTTCTTCGCGGCCTTCTTGGCAGTCTTCTTAGCGGCCTTTTTCGTGGTCTTCTTCGCCGCTGCTGCCGGGGCCTCGTCCGTCTCGGCCTCGGCTTCGCGCTCCTCGGCGTACTTCTTGTACACGAAGCCCTGCGGCTCGACACCGAGCATGGACATCAGGGTCACGCCGTCGAAGAAGTCGTCCGCGTAGGTGGCCACGATCCGGCGGGCATCCGCCGCCGTCTGCTCCTCAACCGCGTGGATGGCTTCGGGGGAGGGGCGAGAATCGGTGATCTTGGGTGGCACTGCAGGTGTCTCCTTCATCCGGGGTGCGACGTCAAAAACACTATTCTACGCCACCGCGGCTGTCATGTGGGAGGGTGCGTGAGCTTCGTGGACCCGCCGAGCTTGGGTCGGGTCGCGCGCCGGGCCGCGGACTCCGCGCGGCGGATCTGCTCGAAGGTCAGCCGCCCGGCGCGCCTGAACGCGCTGTAG	MQEKPDLEVGAALLEHSRNELQLVILHPHRRALRGDGCDCGRKGFVDRLVRLPPLSHVLRGDNQVVVERPQGGVGKPLVEVLEIPAAQRHRVQRDALELEGLDARVRLAGPTDPAPGVGAQHGGEGRDQATRRRLPARLGAVDRQPVGDNDELVVPRHGPRLGLVAGGGGLFRGLLGRLLRGLLHCLLGGLFGCLLGGFLRGLLRGLLGSLLSGLFRGLLRRCCRGLVRLGLGFALLGVLLVHEALRLDTEHGHQGHAVEEVVRVGGHDPAGIRRRLLLNRVDGFGGGARIGDLGWHCRCLLHPGCDVKNTILRHRGCHVGGCVSFVDPPSLGRVARRAADSARRICSKVSRPARLNAL				NA	NA	NA	NA	NA
AK009_08551	801			hypothetical protein	TTGCACGAGCGTGAGGCCCGCGAGCAGGACGACGATGCCGGTGGCGATGACCTGGCTGGGCACGATCGTGATCCCGAGCTGGGCCGAGAAGTTGTAGAACAGAACGGCCGGCAGCGTCGCCAGGGTGCCGCCGAGGACGCAGTGGAAGAAGTAGGGCAGGTCGTTGCGCGAGAGCACCTTGTTGATGCCCATGATGAGAAACGCCGTCAGCCCGCCGAGGCCGGCCATAAAGAAGTCCCCGCCCAAAAGCGTTGCAATGGCGGCGCCCATCACCGCCCAGCCGAGCAGAAAGCGCAGGTTGCGGTAGGGGATGTGGCGGCGTTCGATGTCGTCGAGGATCTTCTCCGCGACCTCGGGCGGGGTGGCGCCGGAGCGGATCGAGCGGATCAGGCGGTCGACTTCCTGGAGCTTGTGGTAGTTCTCCGACATGTCGTTGACCACGCGGAACACGCTGACCGGGGTGCGGCGGTTGACGCCGATGATGGTGTGGATGGTCATGGTGTTGACCGTGATGTCGATGTGGCAGTAGTGCAGGCCGTACGACGAGGTCACCGTATGGATCGACGCGCGCGCGTCCGAGCTGGTCGTGCCGTTGGCGATCAGGATGGACCCGATGCGCGCCGCGATGGTCATCACGGCTGCGACCTGCGCCGGGTCCGTCAGATCGACGGGCGCGAGCACGGACGGGGGAGGGGAGGTGCGCACGTCGTCGATCGTCGCGACACCCCTGCGATTGCTGCCCAGGCTCTCCCGGAGCCTTCTCAACGCGTCTACCACATCCGACACCGTAGCCTGCGGTAG	MHEREAREQDDDAGGDDLAGHDRDPELGREVVEQNGRQRRQGAAEDAVEEVGQVVAREHLVDAHDEKRRQPAEAGHKEVPAQKRCNGGAHHRPAEQKAQVAVGDVAAFDVVEDLLRDLGRGGAGADRADQAVDFLELVVVLRHVVDHAEHADRGAAVDADDGVDGHGVDRDVDVAVVQAVRRGHRMDRRARVRAGRAVGDQDGPDARRDGHHGCDLRRVRQIDGREHGRGRGGAHVVDRRDTPAIAAQALPEPSQRVYHIRHRSLR				NA	NA	NA	NA	NA
AK009_08553	732			hypothetical protein	ATGAGCAGCACGATCGCCAACAGACGCTTCTGCAGCGGGATTTGGCTGGTCGGCGTCTGCGTGGAGAGGTGGGGGCGGATCATAAACCTACTGGCGCGGGGTGCGCAGCACGTAGCCGACGCCGCGGACGGTGTGGATCAGCGGCACGTCGCCGGTGTCCACCTTGCGGCGCAGGTAGGAGATGTAGGACTCGACGACGTTGCCGTCGCCGCCGAAGTCGTAATGCCACACGTTGTCGAGGATCTTCGCCTTGGACAGCACCACCTCGGCGTTGAGCATGAGGTAGCGCAGCAGGTTGAACTCGGTCGGCGACAAGTCGATGATCTCGCCGCTCTTGGTCACCTCGTGGGTGTCGTCGTTAAGCGTCAGGTCGGCGTAGCGCAGGGTCGAGTCGGAGTCGGCGTCGTCGGTGACGTGCCCGCGGCGCAGGATCACGCGCAGGCGGGTGATGACCTCCTCCAAGCTGAACGGCTTGGTCACGTAGTCGTCGGCGCCGATGGTCAGGCCGTGGATCCGGTCCTCCACCGCGTCTTTTGCGGTGAGGAAGAGCACGGGGCCGTCGAGCCCGTCGGCACGCAGCTTAGACAGCAGCTCGAAGCCGTCCATCCCGGGCATCATCACGTCCAGGATGTAGGCGTCGGGGCGGAACTCGCGGGCGACCTTAAGCGCCTCGGCACCGGAGTTGACGCTTTCGACCTCGAAACCCTGGAAGCGCAGGGAGACGGTGAGTAG	MSSTIANRRFCSGIWLVGVCVERWGRIINLLARGAQHVADAADGVDQRHVAGVHLAAQVGDVGLDDVAVAAEVVMPHVVEDLRLGQHHLGVEHEVAQQVELGRRQVDDLAALGHLVGVVVKRQVGVAQGRVGVGVVGDVPAAQDHAQAGDDLLQAERLGHVVVGADGQAVDPVLHRVFCGEEEHGAVEPVGTQLRQQLEAVHPGHHHVQDVGVGAELAGDLKRLGTGVDAFDLETLEAQGDGE				NA	NA	NA	NA	NA
AK009_08554	645			hypothetical protein	GTGGGAGGCGTCGCCGACGAAGCGGCGCATCTGCTCCTCCTTGGCGCGCGACTCCTCCACGGACTCCTGGAGCTGGCCCACCATGGTGTTGACCGCGTACGACAGTTTGCCCACCTCGGTCTCGCGCGACCAGGCCGGCACGCGCCGTTCCATGTCGCCGTCGGCAATCGCCAGCGCGGTTTGCTCGACCTCGCGCAGCGGGGCGAGGGCGCGGCGGATGAAGAAGTTGCCCGCGAACCCGATGCAGATCACGGTCAAGGTTCCGATTCCTGCAGAGACGATAGCCAAGGAGGCGAGCATGCGGTGCTCGGCCTCGAGCGACTTGGCGACGAATTCAATGGAACCGTCGTCGTTGGCTATCGCCATCGCGCGCCACTCGATATCACCGCCGGATCCCGGCAGGGAGTCAACCGTCTGGGCGTGAAAGCCCTCAAGCTCGCTGAAATCTGGTTGGCTCGCCGCGTACGAACCGTAATAGTAGTAGCCCGGCAGCTGCGGGTAGCGCACGGCCTGGCGGAACTCGCTCGGCGCGCCCATCGACGGCCACGGGGTGGCCTGGCCTACCCACGTGTCCAAGCCTTCGCGCAGCTGATCATCCGCCCGCTGGTAGAGCAGGCCACGCATCAAGGCGTACACCGCGACTGA	MGGVADEAAHLLLLGARLLHGLLELAHHGVDRVRQFAHLGLARPGRHAPFHVAVGNRQRGLLDLAQRGEGAADEEVAREPDADHGQGSDSCRDDSQGGEHAVLGLERLGDEFNGTVVVGYRHRAPLDITAGSRQGVNRLGVKALKLAEIWLARRVRTVIVVARQLRVAHGLAELARRAHRRPRGGLAYPRVQAFAQLIIRPLVEQATHQGVHRD				NA	NA	NA	NA	NA
AK009_08555	519	senX3		Sensor-like histidine kinase senX3	ATGAAGCTGCTGGTCGAGGACCTGCTTGCCTTAACCCGCGCCGAGGGCGCGCGTCTCGACGCCCGCGAGGTCGACATGTTCGAGGTCGTCTCCTCAGTGCGCTCCACCGCCCGCGCCGCCTTCCCCGGCCGCGTGCTCAACGTCAACAACGAAGCGCTGAACGTGCCCATGGTCAAAGGCGACCCGGATCGCCTCCACCAGGTCATGCTCAACCTGGTCAGCAACGCCTTCAAGCACGGCGGCAGCGACAGCGAGGTGACGATCACGCTGCGCGAGAACCTGGACAAGGTATTCATTGACGTCGCCGACACGGGCGTTGGCATGTCACCGGAAGACGCCGAGCACATCTTCGAGCGCTTCTACCGCGCCGACGCCTCCCGCAACCGCGCGTCCGGCGGCGGGTCCGGCCTGGGCCTGGCTATTACCAAATCGATCATCGAGGCCCACGGCGGCGCGATCTCGGTGCGCACCGCGCCCGGCGAGGGCTCAACGTTTACCTTGTCGCTGCCGATGGTCTAA	MKLLVEDLLALTRAEGARLDAREVDMFEVVSSVRSTARAAFPGRVLNVNNEALNVPMVKGDPDRLHQVMLNLVSNAFKHGGSDSEVTITLRENLDKVFIDVADTGVGMSPEDAEHIFERFYRADASRNRASGGGSGLGLAITKSIIEAHGGAISVRTAPGEGSTFTLSLPMV	PGPT0004100_2545	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
AK009_08556	207			hypothetical protein	ATGATCAAGGTTGGAGAATTTAGTGCTCACCGTCTCACAGGCGGTTGGCGAATCTACCGCCGGGCTGATGGGCAGCCGGCCAGCTCGTCTCTTGAGGCAATCAACGAGGACGCCGGTGGCATGGTGTTCCTCGTCTCGGACTCCACTGCCGTCGTACACACCACCGAGGACCTGGCGTCACACGAGCGTATTCTTTCCAGTCTGTAG	MIKVGEFSAHRLTGGWRIYRRADGQPASSSLEAINEDAGGMVFLVSDSTAVVHTTEDLASHERILSSL				NA	NA	NA	NA	NA
AK009_08557	306			hypothetical protein	GTGGATGTGGGCGTGGGGCACCTCGAAACCAGCGATGAGGTAGCCGGCGCGCGAGGAGCCGAAGGCGTCGATGACGGCGCCCCCGATCTTCTGGGCCAGATCATTCATGTGCGCCCATGTGGCCGGGTCGAGGTCGGTCCACTTGTCTACCTCGGCCACCGGCACGATCAGCGTGTGCCCGTAGGCGATGGGCTCGATGGTCAAAAACGCGGCCACGGTGTCGTCGCGGTAGACGAAGCGGCCCGGGATGTCTCCGTTGATGATTTTGGTAAACACGGTGCTCATGCTCCCCAAGGCTACCTGTAG	MDVGVGHLETSDEVAGARGAEGVDDGAPDLLGQIIHVRPCGRVEVGPLVYLGHRHDQRVPVGDGLDGQKRGHGVVAVDEAARDVSVDDFGKHGAHAPQGYL				NA	NA	NA	NA	NA
AK009_08558	1002			hypothetical protein	GTGCAGCACCTTTGTCGGATCATCGAGGTTATCCCCGCTCAGCGCGTCGCCCGCGCGCGGCGACTCGGGGTACCCCTCGGCGGCGAGCACGATCGTCGCAGCGTAACCCTTGGTCCAGCTCAGCGGGCCGAGCTGCGCCAGTGTTCCGGTAGCAACGGCGTTGAGGGCGTCGGCAAGCGGCGTTTCGAGCAGCGCGAGCACGGCCTGCGTTTCCGGGTCACCGAAGCGGGCGTTGAACTCCACCACCGCGGGCCCCTCCGGGCCCCACGCGAGGCCTGCGTAGAGCAAGCCCTGGTAAGGAATGCCGCGCGCCACCATCTCGCGCGCCACCGGCTCAACCACCTCGGCGACGATGCGCGACACCCCATCAGCTGGCAGCCAGGGAAGCGGCGTGTAGGCGCCCATCCCGCCGGTGTTCGGTCCCAAGTCACCGTCGTATGCGCGCTTGTGGTCCTGCGCAGGCAGCAGCGGCACGACCGTCTCCCCGTCGACCAGGCAGAACAGCGACACCTCCGGGCCTTCGAGGAAGGACTCCAAAAGCACAGGGTTGCCGGCCTCGATCACGGCGCGGGCGTGCGCGGCGGCGGCCTCGCGGTCGTCGGTGACCACCACGCCCTTGCCCCCGGCGAGCCCGTCGTCCTTGACCACGTAGTGCGGGCCGTAGCCGTCGAGCGCCGCGTCGATCTCATCGAGGGCGGTAACCTGCGTCGCGGACGCGGTAAACACCCCGGCCGAAGCCATCACGTCTTTCGCGAACGCCTTCGAGCCCTCCAGCTGGGCCGCCGCCTGGGACGGGCCAAACACGTTGAAACCGGCCTCGCGCAGCACGTCGGACACCCCCGCGACGAGCGGGATCTCCGGGCCAATGACCACGAGCTCCGCGTCTACCTCGCGGGCGAGCTGAGTGACGGCTTCCGGCGAGGCCGCGTCGACGGCGTGCACCTGCGCAAGCCGCGCCATCCCGGCGTTGCCCGGCGCGACGAAGAGGTCGTGGCCCTTTAG	MQHLCRIIEVIPAQRVARARRLGVPLGGEHDRRSVTLGPAQRAELRQCSGSNGVEGVGKRRFEQREHGLRFRVTEAGVELHHRGPLRAPREACVEQALVRNAARHHLARHRLNHLGDDARHPISWQPGKRRVGAHPAGVRSQVTVVCALVVLRRQQRHDRLPVDQAEQRHLRAFEEGLQKHRVAGLDHGAGVRGGGLAVVGDHHALAPGEPVVLDHVVRAVAVERRVDLIEGGNLRRGRGKHPGRSHHVFRERLRALQLGRRLGRAKHVETGLAQHVGHPRDERDLRANDHELRVYLAGELSDGFRRGRVDGVHLRKPRHPGVARRDEEVVAL				NA	NA	NA	NA	NA
AK009_08559	189			hypothetical protein	GTGGTGCATCTCGGTTTCCGACATGGGCACGTCGCAGTCGGTCCAGGCGCACACTCCCTGAATTGCGAGCATCGCGATGCGCTGCTCGACGCTGGCCAGACGAGTGGAGCCCAACGCGATGGGCTCCCCGGTGACCCTGTCGATGTGGAGGATGAAGTCCTTCGTGTCACCCATGCCGAGACGCACTAG	MVHLGFRHGHVAVGPGAHSLNCEHRDALLDAGQTSGAQRDGLPGDPVDVEDEVLRVTHAETH				NA	NA	NA	NA	NA
AK009_08560	789			hypothetical protein	GTGCCAGTCGGCGTCGGCGAGGTCGTCGAGCGTGATGGCGAGCACGACGGAGGCCGCGCCGCGGTTTTTCACCTGCCGGTCGTTCTCGAATTGGGTGAGGATTCGCCAGAGCTGGTCGAAGCGGCGCTGGGTCGGTGTGCGGTAATCCTCCTTGGAGTCCGCGCTGATGTTGGACCCCGGGGCCGAGTCCGAGTCGAGGAGCGCCTTGAGCAGCGCCCAGTCGCCGGCCGTCATTGTCGCTGTGACGTCGAAGGTCCCGTCGGATTTCTTGCGCGATGCCCTGACGCCGCGCGAGGAAAAGCCCGCGTTGGGGTCCGCTGCTGGTTTGTGGGCCAGGTTGGCGCGATCCACGAGCCTGCGCACGAACTTGCGGAGGTCGCTCACGCTGCGCCCAGCGGCTTCCGCAAGGGCCTGGGCGAGGATGGAGGGACGATCCTTCGAGGCCTCCTTCGACAGGGCGCGCAGTTCGTTGTCAATGGCTGCCTGCTTGTCGGGCCCGATGCCGCGCGCGTCATTACGCGCCTTCTTCTGCTGTTTGCCGGGATCGGCGGTTTCGCCCCGATGCGGGGGAGCGCCAAAGTCGAAGGCCGGCTCCGACTCCGCATCATCTGCAGGGGGCGCGAACAGATCCCGCCCGCGCTGGAGCCTGCGGGAAGCTTCGGCGCGCGAAAGGTCGAGGGCCTTTTCAAGGTAGTCGTTGGCGTATGTCGCCCCCACGCTGCGCCCAGCCCCGTCACGCTCGCACAGGTAGGCGAAGGAAGCGTCGACGAGGCCTTTCTGATTCAATGA	MPVGVGEVVERDGEHDGGRAAVFHLPVVLELGEDSPELVEAALGRCAVILLGVRADVGPRGRVRVEERLEQRPVAGRHCRCDVEGPVGFLARCPDAARGKARVGVRCWFVGQVGAIHEPAHELAEVAHAAPSGFRKGLGEDGGTILRGLLRQGAQFVVNGCLLVGPDAARVITRLLLLFAGIGGFAPMRGSAKVEGRLRLRIICRGREQIPPALEPAGSFGARKVEGLFKVVVGVCRPHAAPSPVTLAQVGEGSVDEAFLIQ				NA	NA	NA	NA	NA
AK009_08561	1491			hypothetical protein	GTGGGCGTCGATAAGCAGCTGAATGCGGGCGAGGACGCCGTCGACCTGGGACTCTGCGGCGCCGATGAAGGCGTGGCGGTCCGCGAGCGCGGCGTCAAGCCCGGCGCGATCGAGCGGGAGGCGCTCGTCACGCGCGAGGCGCTCGATGAGGTTCTGCTCAGCGCCGGTTTCGCGCATGTCCAGCGCCATCGCCACCGCGTGCTCCTTGATCACCTCGTGCGCGGTTTCGCGGCCAACGCCGGCGCGCACCGCCGCCATGAGGATGCGGGTCGTGGCCAGAAACGGCAGGTAGCGGTCCAGTTCGCGGTTGATCATCGCGGGGAACGCCCCGAACTCGTCGAGGACGGTGAGGAAGGTTTCGAGCTGGCCGTCGATGGCAAAGAACGCGTCCGGCAGCGCGACGCGGCGCACGACCGAGCAGAACACGTCGCCCTCGTTCCACTGCTGGCCGGCGAGGTCCGCGACCATGGTGAGGTAGCCGCGCAGTATTACCTGGAAGCCGCCGACGCGCTCGCAGGAGCGCGCGTTCATCTTGTGCGGCATCGCCGAAGAGCCGACCTGGCCCTCCTTGAAGCCCTCGGTGACCGTCTCGTTGCCGGCCATCAGCCTGATCGTCGTGGCCAGGCTCGACGGGCCCGCACCGAGCTGGACCAGCGCGGAGACAACATCGAAGTCAAGCGAGCGGGGGTACACCTGTCCGACGGAGTCGAAAATGCGCTCAAACCCCAGGTGGGAGGCGATTTCGGTCTCCAGTTCGCGGAGCTTGGCTTCGTCGCCGCCCATCAGGTCGAGCATGTCCTGGGCCGTCCCCATCGGGCCCTTGATGCCGCGCAGCGGGTAGCTGGCCAAGACTTGTTCGATGCGCTCGGTGGCGATGAGGATCTCGTCCGCGGCCGAGGCGAAACGCTTGCCCAGGGTGGTCGCCTGCGCCGCGACGTTGTGGGAGCGACCCGCCATGACCAGCGATTTGTACTGCTCAGCGCGGTTGCCGATTGCCTTGAGCAGCGCGACAGCCTTGTTGCGCACGAGCTCGAGCGAGCGGTAGATCTGCAGCTGCTCCACGTTTTCCGTCAGGTCGCGGCTGGTCATCCCCTTGTGGATGTGCTCGTGTCCGGCGAGCTCGTTGAACTCTTCGATCCTGGCCTTCACATCGTGGCGGGTGACCCTTTCGCGCGCGGCGATGCTGTCCAGGTCAACGTCGTCGATGACCCTTTCATAGGCGGAAATTGCCTCGTCCGGGATGTCGACGCCGAGGCCCTGCTGGGCCCTCATCACGGCGATCCAGAGCTGGCGCTCCAGCACGATCTTGTGCTCGGCGCTCCACAGCGACGCCATGTCGGGCGATGCGTAGCGGTTGGACAGGACGTTGGGGTTCATCGGCTTTTCAGACACGGCTTCGATTATTCCACGACGCGTGGTCAAGGACGGCCTGAGCAGGAGTTTCGAATGCGCGTTCCCCCGATTGGGGGTAGGTGTCCGAGGCGTTTTTAG	MGVDKQLNAGEDAVDLGLCGADEGVAVRERGVKPGAIEREALVTREALDEVLLSAGFAHVQRHRHRVLLDHLVRGFAANAGAHRRHEDAGRGQKRQVAVQFAVDHRGERPELVEDGEEGFELAVDGKERVRQRDAAHDRAEHVALVPLLAGEVRDHGEVAAQYYLEAADALAGARVHLVRHRRRADLALLEALGDRLVAGHQPDRRGQARRARTELDQRGDNIEVKRAGVHLSDGVENALKPQVGGDFGLQFAELGFVAAHQVEHVLGRPHRALDAAQRVAGQDLFDALGGDEDLVRGRGETLAQGGRLRRDVVGATRHDQRFVLLSAVADCLEQRDSLVAHELERAVDLQLLHVFRQVAAGHPLVDVLVSGELVELFDPGLHIVAGDPFARGDAVQVNVVDDPFIGGNCLVRDVDAEALLGPHHGDPELALQHDLVLGAPQRRHVGRCVAVGQDVGVHRLFRHGFDYSTTRGQGRPEQEFRMRVPPIGGRCPRRF				NA	NA	NA	NA	NA
AK009_08562	702			hypothetical protein	ATGAAACGACGCACCGCAGCACTCGGCTTAGCGTTAGTGGCCCAGGCGGCAGCGCTGAGCGCCTGCGCCCCAAGCGAGGCGGATAGCAGTGCCGCAGCCGGTCACAGTGCGGAAACGCTCACCGAGCTGCCGGGCATGCCGGACGACTTCACCCCCACCGAGGGCGGCGAAGCGCTTGAATTCGGAGAGACCGCCCACGTTGTCACCACCGGCTTCGACACAGGCCAGCCCGTGTACTTTGACGTCACCGTGGAAAAACCGAAAAAGCTCACGTCCGCCGAAGTTGAGGAGAACATCGGCCAGGACCCCGGCGAGATCGGGTTGCCCGAGCCTGAGGAGGGCGAAGATCCCCCGCAGCCGGAGCGCTACGACAGCTTCACCTGCTTCATCGTCACCTTCACGCCCGTCGCGGTCGGCGAGGGCAACTACTCCGTCTCTCTGCCGTGGTTCAAGATCCTTGACCCGGGCGGGCTCAACGCCAACTTCGTCGAGCGCGGCGACAACGCCTACTGTGGCGTCAACCCTGACGACGAGGTCCCCGCGTTCACGGGGGACATGGAGGAAGGGCGCGAATACAAGCGCGCCATTGTTACGTGGACCGGCGCCACGGACCCCGGGATCGTGGGCACGGCCGTCGAGCTCAACACCGTGCAGAGCCCGAAGAACAGCGCTCAGCCCTGGCAGTCGATTACTTGGAAGTAG	MKRRTAALGLALVAQAAALSACAPSEADSSAAAGHSAETLTELPGMPDDFTPTEGGEALEFGETAHVVTTGFDTGQPVYFDVTVEKPKKLTSAEVEENIGQDPGEIGLPEPEEGEDPPQPERYDSFTCFIVTFTPVAVGEGNYSVSLPWFKILDPGGLNANFVERGDNAYCGVNPDDEVPAFTGDMEEGREYKRAIVTWTGATDPGIVGTAVELNTVQSPKNSAQPWQSITWK				NA	NA	NA	NA	NA
AK009_08563	207			hypothetical protein	GTGGTTGGGCATGCCCAGCTCGCGGCCCAGCAGGTCGAAGAAGAACGTGCTCGTCGCCGTGAGGATTCGGCCCTTGTCCGGAATTTCCGGCTCGAGGGAGTAGTCGAATGCCGAAATGCGGTCGGTGGCCATCATCAGCAAAGTGTCGCTGTCCACCTGGTAAATCTCGCGGACCTTGCCACCAGAAAGGTGAGCGTAATCGGATAA	MVGHAQLAAQQVEEERARRREDSALVRNFRLEGVVECRNAVGGHHQQSVAVHLVNLADLATRKVSVIG				NA	NA	NA	NA	NA
AK009_08564	699			hypothetical protein	TTGGGGCGTGCGGGGCTGATTTACTCATACCCGCCGAGTGTAGCGACCGAATTCTTAGGCGTTGGCGCCCGGCCAGTGGCTGAACTTCTCCCCGCTCAGGCGCTCGTAGGCCTCAATGTAGCGGTCGCGGGTCGCCTCAACGACAGAACCCGGCAGCTCGGGCGGCTCCAACCCGCTCGACGGGTCCCAGCCCGACTTCGGCCCGGTGAGCCAGTTGCGCACGTACTGCTTGTCAAAGCTGGGCTGCACGCGGCCCTCCTCGTAGGAGTCCGCGGGCCAGTAGCGCGAGGAGTCGGGGGTGAGCACCTCGTCGGCAAGCACGAGCTCACCCTTGGCGTCGAGGCCGAACTCGAGCTTCGTGTCGGCGAGGATGATGCCGCGGGTCTGCGCGTAGGTGGCGGCGGTGGTGTAGACCGCCAGGGTGGCGTCACGAAGCTTTTCGGCGAGCTCCGCACCCAGCTTGTTGGACACGTACGAAAACGAAACGTTCTCGTCGTGATCGCCCTGCTCCGCCTTCGTCGCGGGGGTAAAGATCGGTTCGGGCAGCTTCGACGCCTCCACCAGGCCCTGCGGCAGCGGCACGGCGCACACTCGCCCCGTAGCGTCGTACTCCTTCTTGCCGGAGCCAGTGAGGTAGCCACGCGCCACGCACTCAAACGGGATCATCTCCAGCTTCCTCACCACGTGCGCCCGGCCTAG	MGRAGLIYSYPPSVATEFLGVGARPVAELLPAQALVGLNVAVAGRLNDRTRQLGRLQPARRVPARLRPGEPVAHVLLVKAGLHAALLVGVRGPVARGVGGEHLVGKHELTLGVEAELELRVGEDDAAGLRVGGGGGVDRQGGVTKLFGELRTQLVGHVRKRNVLVVIALLRLRRGGKDRFGQLRRLHQALRQRHGAHSPRSVVLLLAGASEVATRHALKRDHLQLPHHVRPA				NA	NA	NA	NA	NA
AK009_08565	405			hypothetical protein	GTGGTCAGCTGCGAGCTCGTTGATGTCGAGCAACACCTGCTCGCCGGGCAGCGGGGAGCCGTCCTCAGGCACGCGAGGCGGCGTCCACGGCTGCTCGCGCTCGGCGGCGACGCGGCAGGAAATGCCGTAGTCCTTGCCCTCGACCGTGCGGCCGTAGTACCACCAGCCGCCCTGGCGCGACGGGACGGACATGTCGGTCTCTTTGACCCTGCCCTTAATCTCGCCGTAAATGGCATCCGTCAGCGGCTGCAGGTGTCCGGTCAGGGACTCGGTGTACGCGTTCTCGGCCTCAAGGTAGCTCAGCGTTTCCGGGCTGGCCTTATCGCGCATCCACTCGTAGTTGTCCACCACATCGCGCCCGTGGAACGAGCGGGTGATCGGGTGTTTTGGGGCGTGCGGGGCTGA	MVSCELVDVEQHLLAGQRGAVLRHARRRPRLLALGGDAAGNAVVLALDRAAVVPPAALARRDGHVGLFDPALNLAVNGIRQRLQVSGQGLGVRVLGLKVAQRFRAGLIAHPLVVVHHIAPVERAGDRVFWGVRG				NA	NA	NA	NA	NA
AK009_08566	396			hypothetical protein	GTGCGGTGCGACGTCGTCAAGCTCGCTCAAGTCGGCGAGTTGATCGATCGGGCAGGTGCCCACCGCGAAGTTGGGGCCCGTCGCATTGTGGGTGACCACCCACTTCTCCTCGCCGCCGGGCGCGATGAAGTCCACGTCGTACTCCACGCCGTCTTGGCGCGGCCACAGCATGCGGAACTCGCCGGTGGGGTTGTCGAAGTCGAGGACGTGGAACTCGCTGGTGCTCTTCGAGCTCGAGACGATGTAGAGGAAGCGCTCGGCGCGGTCCGCACCGACGCCGACGTTGAAGCGCTCGTCGGGCTCCTCGTAGACCAGCACGTCGGCGGACTCGGGGGTGCCGAGCGTGTGGCGCCACACCTGGTGGGGGCGCCAGGCGTCGTCGACACGCACGTATAA	MRCDVVKLAQVGELIDRAGAHREVGARRIVGDHPLLLAAGRDEVHVVLHAVLARPQHAELAGGVVEVEDVELAGALRARDDVEEALGAVRTDADVEALVGLLVDQHVGGLGGAERVAPHLVGAPGVVDTHV				NA	NA	NA	NA	NA
AK009_08567	597			hypothetical protein	GTGGTCCGGGTCGACCAGGTGCGTCTTCTCGCCTTGCATCCGCTTGCGGTGCTTCGCGGGGACCCCGGTGGCAATCGAGTGGGGCGGAACGGACTTGGTAACCACCGCGTTCGCGCCCACAGCGGAGCCCTCGCCGATGGTGATGGGCCCGAGCACCTTGGCGCCAGCCCCGATGGTGACGTTGTCCTCGATCGTGGGGTGGCGTTTCGTCTGTGTGAGCACCTGTCCGCCGAGGGTGACGCCGTGGTAGAGCATGACGCCGTCGCCGATTTCGGCGGTCTCGCCGATGACGATGCCCATCCCGTGGTCGATGAAGAAGCGCCGGCCGATGGTGGCGCCGGGGTGGATCTCGATGCCGGTCAGGAAGCGGTTGAACTGCGCGAGCACCCTCGCCGGGCCCTTGAAACCCTTGTTCCACATCGAATGGCACACGCGGTGGATCCAGATCGCGTGCAGGCCCGAGTACACGATGGCGTTCTCCACGTCGCCGCGCGCGGCCGGGTCGTGCAGGCGGGCGTTGTCGAGGTCTTCCTTGATCGTCGCCGTGATCCTTCTCAGCACCTTTATCATGGTGCTCGAGCTTATCAGCGCGCGTGA	MVRVDQVRLLALHPLAVLRGDPGGNRVGRNGLGNHRVRAHSGALADGDGPEHLGASPDGDVVLDRGVAFRLCEHLSAEGDAVVEHDAVADFGGLADDDAHPVVDEEAPADGGAGVDLDAGQEAVELREHPRRALETLVPHRMAHAVDPDRVQARVHDGVLHVAARGRVVQAGVVEVFLDRRRDPSQHLYHGARAYQRA				NA	NA	NA	NA	NA
AK009_08568	288			hypothetical protein	ATGGCAGATCAGACCGTCAAGCTGAACGAGGGCCAAAACCGCTATGAGATTTTCGTCGACGACAAGGTCGCCGGGTACGCAGCATTTCGCGAGACGGGCGAGGGTGTGCGCGATTTCAACCACACCGTGATCCAGCCCGAGTTTCGCGGCCAGGGCTTGTCGACGCCCCTGATCCAGCATGCGCTTGACGACACCCGCACCGCCGGCAAAAAGATCATCCCGACCTGCTCGGCGGTGGCTCACTTTCTGAGCAAGAACGAAGGTTACCGCGACCTCGTCGCCAGCTAG	MADQTVKLNEGQNRYEIFVDDKVAGYAAFRETGEGVRDFNHTVIQPEFRGQGLSTPLIQHALDDTRTAGKKIIPTCSAVAHFLSKNEGYRDLVAS				NA	NA	NA	NA	NA
AK009_08573	423			hypothetical protein	GTGCTCCTGAACGTCGACGGAGGTGACCTTGGCGTCCGGGTTCGTGCCCGTGCCGTAGACGTCGAAGACGGGCTCGCCGGTGGAGAAGTCTGCGCCGTGGCCGCCGGTGAGGATCAACGAAATAATTTCGCGCACGGCGACGGGATCGGCCGTGAGCTGTGCGACGGAGCGCTCGCCGAGCTCGGAGTGCGTCATGGGGGTCAACTCGTCGTCAAGCGCCTCACCGGCCTCGCGGTAGGACAGGCCGAGCTGCGTGAGGTTGCCCTCGGAGTCTTCGCCTACAAGAATTTCAATGCCTACCTTGCCGTCGGAGTCGACGGCGCGGTAGGAGCCGAGTTGCTTCGCAATCAGCGAGTACTTCTGGGCAATTTCGTCTTTGCTGGGGTTGAGTTCTGCGTCGTAAATCTTTGCTTCAGCCATTAG	MLLNVDGGDLGVRVRARAVDVEDGLAGGEVCAVAAGEDQRNNFAHGDGIGRELCDGALAELGVRHGGQLVVKRLTGLAVGQAELREVALGVFAYKNFNAYLAVGVDGAVGAELLRNQRVLLGNFVFAGVEFCVVNLCFSH				NA	NA	NA	NA	NA
AK009_08574	246			hypothetical protein	GTGGCCGAGGGCGAGCCACAGGCCAGCGACAACGAACCACACGACGTTGCCGATCGTGCTGGCCGCACCCGCATCCACTTGCACGACCTCGCGGCCAAACGGCCAGAGGACGTAATTGGCAATGCGGAACGACGCCACCCCGAACGGGATGGTGATGATGAAGATGCACGCGATCACCCCGGCGAGGATGTAAGCGATAAACAGCCAGATTCCCGCAGTGATCAGCCAAATGATATTGAGGATTAA	MAEGEPQASDNEPHDVADRAGRTRIHLHDLAAKRPEDVIGNAERRHPERDGDDEDARDHPGEDVSDKQPDSRSDQPNDIED				NA	NA	NA	NA	NA
AK009_08575	1059			hypothetical protein	ATGGACGTGATCCCCCACTCGCACTTGGGCACCCCCGATAACCCCTCGCCCGCGGCCCACGACGCCGTCGCGGTCTGGGCTGCCGACGAGGCAGCTCAGTTCGGCCACGACGACCTCGCCTACTCCGCGCGGGAGCTGGCGGCGGTCTACGGTGACCAGGTGCGAGCGCAGCGCGCGATGCTACTCGCGTACGAGCACGACCGCTGCCTCGGTCTTGCGAACGTGGAGTTGCCTTTAGCCGACAACCGTCACATGATCGCGGTCGACTTCCGCCTGCGTCCCGAGGCCCACGGAGAGGGCGTGATGGATGCGCTTCTTGCCGCAATAGGCAACCACGCAGACGACGATCGCAGCACGCTTTTGTGCTGGACCCCGCCAACCCGGCTGTCCGACACCGGGTTGACGCCGAAAACGGGAACGGGGACACTTCCCCGCACCCCGAGTAACGATTGGTTTGCAGCGCGCGGGTTCGCTCTCGAGCAGGTTGAGCTCGTGAGCACGCTGCGCGTCGCCGACGTGGTTGAACGGGCGAATGAGGTGGCGGCGAAAAGCCCCGAGTACGACGTCGTCTCCTGGGTCGGCCCGACACCGGAGCGCTGGCGGGAAGCGATGGCGCTGCAACGGGCGTCGATGAGCACGGACGTGCCGCTCGGAGGCATCGACATGGAGCCGGAGGTCTGGGACATCGCACGTCTTCAAGAATTTGAGGCCGTCGAGCGAGCAATGGGCCGGTCGATGGTATGGACGATCGCCGTTGAGCGAGCTACCGGGGAGGTAGCTGCCCACACACTGATCGTGTGTCCGGAGGCTGGCCGCACCGACGTTGGCTTTCAGGGAGACACCCTGGTTCGCCCCGCCCACCAAGGGAAACGGCTTGGCTTGCGGGTAAAGGCCGCGAATCTGCGTCAGCTCGCCGCCGCACACCCGGGCGTTGAACGCGTTTACACCTGGAACGCCGGAGAAAACCAGTGGATGCTGGCGATTAACAAGCAGCTCGGCTTCGCACCAGCTGCGGCGGTGGGCTGTTGGCAGCGGGGCGTCGACAAGCGAGCGGATTAG	MDVIPHSHLGTPDNPSPAAHDAVAVWAADEAAQFGHDDLAYSARELAAVYGDQVRAQRAMLLAYEHDRCLGLANVELPLADNRHMIAVDFRLRPEAHGEGVMDALLAAIGNHADDDRSTLLCWTPPTRLSDTGLTPKTGTGTLPRTPSNDWFAARGFALEQVELVSTLRVADVVERANEVAAKSPEYDVVSWVGPTPERWREAMALQRASMSTDVPLGGIDMEPEVWDIARLQEFEAVERAMGRSMVWTIAVERATGEVAAHTLIVCPEAGRTDVGFQGDTLVRPAHQGKRLGLRVKAANLRQLAAAHPGVERVYTWNAGENQWMLAINKQLGFAPAAAVGCWQRGVDKRAD				NA	NA	NA	NA	NA
AK009_08576	477			hypothetical protein	GTGCAGGGTAAACCCCCTTGTGCACCCTGCACTTTTCTTGGTTTTTGGGGGAATGAAACAGTGCCCCGCGACGCGCACCCATCTCAGAAACTGTTCTGCCAACACCCCGGAAGCATAGACGCGCTCGCGTCGCTGCTCGCTGACGCCGGCTTTCATCCCCTGCCCCGGGTTGTCTCCATGCCCGAGCGACGCGAGGTAACGGCGGGATTTCACCTCGATCCTGACCCGAGGCTCGCGGACCTCGCCCGACATCTGAAAGGGAGGTTCCCGCAGCTCGGTTTCTGGCCGCTCGTCGTCGAAGGCCCGATCTCTAGCCCTGATCAGGTGGACGACGTGCCGGATGGTGGAGTTGTCCTCCGGCGCCTCGCCGCGTGCGTGTTCGCCCCCGACATTCTGGAGCAAGGCTGGGATAGCGTCGACAACTATTCGCCCGTTTTGCGCAGGGGACAGGACGACTGGGACTTTTGGTGGGACTAA	MQGKPPCAPCTFLGFWGNETVPRDAHPSQKLFCQHPGSIDALASLLADAGFHPLPRVVSMPERREVTAGFHLDPDPRLADLARHLKGRFPQLGFWPLVVEGPISSPDQVDDVPDGGVVLRRLAACVFAPDILEQGWDSVDNYSPVLRRGQDDWDFWWD				NA	NA	NA	NA	NA
AK009_08578	1542			hypothetical protein	GTGGAAGTCGAAGGCGTGGCGCAGATCGTGCGGGGTCTGCTGGAACTTGGAATTCCCGGCGCGCTCAACGTACTCCTCGAGCAGCGGTCGGTAGGAGGGGTGCGCGATCGAGATCATCTTGGCCACGCGATCGCGCGGGGCCAGGCCGCGCAGGTCGGCCACGCCGTACTCGGTGACAAAGACCATTGCGTCGTGCTCGGTGTGGTCCACGTGCGAGACGAACGGGACGATCGCGGAGATCGCGCCGCCCTTCGCCTCCGAGGGGGAGATGAAGGAGGAGACGAACGCGTTACGGGTGAAGTCGCCGGAGCCACCCAGGGCGTTCATCAGGCGGGAGCCGTTGATGTGGGTCGAGTTGGCGTTGCCGTAGATGTCGGCCTCGATCAGGCCGTTGGTGGCGATCAGGCCGACGCGGCGGATCACCTCGGGGTGGTTCGAGATCGACTGCGGACGCAGGATGATGGAATCGCGGTAGCGCGACGCCTCGTTGTTCATCTTCTCCGCGTACTCCGGCGACAGGGAGAACGAGGTGGCGGAGGCGACGGTCATCTTGCCGGCGTCGATGAGATCGACCATGCCGTCCTGGATGACCTCGGTGTAGGCCTGGATGTTCTCGAACTTGGACTCCATCAGGCCCGCCATCACGGCGTTGGGCACATTGCCGACGCCCGACTGCATGACGTAGCGGTCGTAGGCGAGGCGGCCGGCCTTGACCTCGTTCTCGAGGAAGTCGAGGAAGTGGCCAGCGATCTGCTCGGAGACCTCATCGGGGGCCTTAAACGGAGCGTTGCGGTCCGGGGCGTCCGTCTCCACAATCGCGACGATCTTGGACTGGTCAACCTCGATGTAGGAGGTGCCGATGCGGTCGCCGGCGTTGGTAATCGGGACCGGGATGCGGTTCGGCAGCGGCGGCACGAGCCAGATGTCATGCATGCCCTCGAGTTCCTCCGACTGCCAGGAGTTGACCTCGATGATGATCTTCTTCGCGGCGTTGAGGAACTCCACGGAGTTGCCCACGGACGACGAAGGCACGATGTTGCCGTCCTCGGTGATGCGAACGGCCTCGACGATGGCGACGTCGAGGTCGCCGAAGAAGCCCTGCTCCACCATCATGCCCGAGTGGGAGAGGTGGAAGTCCTGGAACTTGATGGCGCCTTCGTTGATCTTGTTACGCAGCTGCGGGTCGGACTGGTAGGGCATGCGGTAGCGCAGCGCGTCCGCTTCGGCGAGGACGCCGTCGCACTCCGGTGCGGTCGACGCGCCGGTGAACAGATCGATGGCGTAGCCCTGGCCCTTATCGTGGGCCTCCTTCGCCTTTTGCGCGATCGCGCCCGGCAGGGCCTTGGGGTAGCCAGCGCCGGTAAACCCGGACATGCCTACCTTGTCGCCGTGGTTGACGAACTGCACGGCCTCCTCAGCGGACATCACCTTGTCGCGCAGCCCGGCGTTAGCAATACGTTCAGTCATAGTTCAATCCCTCATTCGGTTTTTTGTTGGACTCTTTACGCCTCCACCATATGGGGAGTGCGGAAACAATGCTAG	MEVEGVAQIVRGLLELGIPGALNVLLEQRSVGGVRDRDHLGHAIARGQAAQVGHAVLGDKDHCVVLGVVHVRDERDDRGDRAALRLRGGDEGGDERVTGEVAGATQGVHQAGAVDVGRVGVAVDVGLDQAVGGDQADAADHLGVVRDRLRTQDDGIAVARRLVVHLLRVLRRQGERGGGGDGHLAGVDEIDHAVLDDLGVGLDVLELGLHQARHHGVGHIADARLHDVAVVGEAAGLDLVLEEVEEVASDLLGDLIGGLKRSVAVRGVRLHNRDDLGLVNLDVGGADAVAGVGNRDRDAVRQRRHEPDVMHALEFLRLPGVDLDDDLLRGVEELHGVAHGRRRHDVAVLGDANGLDDGDVEVAEEALLHHHARVGEVEVLELDGAFVDLVTQLRVGLVGHAVAQRVRFGEDAVALRCGRRAGEQIDGVALALIVGLLRLLRDRARQGLGVASAGKPGHAYLVAVVDELHGLLSGHHLVAQPGVSNTFSHSSIPHSVFCWTLYASTIWGVRKQC				NA	NA	NA	NA	NA
AK009_08579	786			hypothetical protein	GTGGCAGTTGGTGGTCTCGAGCATCTTTGCGGCGTCGTCGGCGGCGAAGATATCGCCGTTGCCGATGACGGGGACGCCGGTGCCTTCCATGTGCTCGACAAGTCGGCGGATCTCGGACCAGTGCGCCTGGCCGGAGTAGCGCTGATCGGCGGTGCGGGCGTGCAGCGCGACGGCTGCCGCGCCCTCCTCCGCGGCGATGCGCCCGGCGTCGAGGTGCGTGTGGTGGGCGTCGTCAATGCCGATACGGAACTTCACGGTGATCGGAATGCCGGATCCCTCCGCGGCCCGCACGGCTGCCGCGACGATGTTGGCGTAGAGCCTGCGCTTGTAGGGGATCGCCGAACCGCCGCCCTTGCGGGTGACCTTGGGTACGGGGCAACCGAAGTTCATGTCGACGTGGTCGGCGATATCTTCCTCGACGATCATCCGCACGGCCTCGTGGGTGAATTTCGGGTCCACGGTGTAGAGCTGCATGGAGCGCGGGGTCTCAACGTCGGCGAACGTCGTCATGTGCAGGGTCTTCTGGTTGCGTGCGACGAGGGCTCGGGCCGTGATCATCTCGCAGACGTACAGCCCAGACGAGGTGCCGGTCAGTTCCTGCTCGATCTCGCGGCAGAGCACGCGAAACGGCATGTTTGTCACTCCCGCCATGGGCGCGAGGATGACGGGGGAGTTGAGCGTGAAATCCCCGATGCGCAGCGTGAGTGGTGCCGAGAGTGCCTGAGCCATAGTACGCACCATTGTCCACGCAGGTGGCGTAACAGTCCAATTCGAAGCACCCCCTGA	MAVGGLEHLCGVVGGEDIAVADDGDAGAFHVLDKSADLGPVRLAGVALIGGAGVQRDGCRALLRGDAPGVEVRVVGVVNADTELHGDRNAGSLRGPHGCRDDVGVEPALVGDRRTAALAGDLGYGATEVHVDVVGDIFLDDHPHGLVGEFRVHGVELHGARGLNVGERRHVQGLLVACDEGSGRDHLADVQPRRGAGQFLLDLAAEHAKRHVCHSRHGREDDGGVEREIPDAQREWCRECLSHSTHHCPRRWRNSPIRSTP				NA	NA	NA	NA	NA
AK009_08580	459			hypothetical protein	GTGGGGGTGGCGCAACCTGGCGAGCCTGGCAATGTGGGTCGCCAGCGCGCCCATGCGCTCGAAATCTTCGACGATGTAGATCGACGACACAACCTGCCGCAGGTCGGACGCAACCGGGCTTTCGAGGGCGAGGAGCTGCATGCCGCGGGTTTCGCAGCGCTGGCGGATCACGTCGAGGCCGTCGGAGAACGACAGCGCGTCCTCGGCGTGATCGAGGCTTTGTGTCAGCAGCGCGACGGTGGCGTTATCCATCAGCGTGCGGACGTTCTGGCACATCTCGATGAGGTCGCGCGAGAACGCGTCCAGGTGCTCCCTGTAGTTGGTCCGCATATCGCTCACCTTACAAGCACCACGCGCCGGTTGGGGCTATCCGCCGTTGCTGTCCATCTCGGCGCCCTCCGGGACAGTGTCGTCCTCAGGGTCGTCGAGCCAACCGTCGGGCAGCGCGACCTTCGATGA	MGVAQPGEPGNVGRQRAHALEIFDDVDRRHNLPQVGRNRAFEGEELHAAGFAALADHVEAVGERQRVLGVIEALCQQRDGGVIHQRADVLAHLDEVARERVQVLPVVGPHIAHLTSTTRRLGLSAVAVHLGALRDSVVLRVVEPTVGQRDLR				NA	NA	NA	NA	NA
AK009_08581	189			hypothetical protein	ATGCTCCCAGTGCCGGTTGGTGACAACGTTGAGGATGTAGCTGGTCATCGTGTCAACCTCGTCGTCGGCGTTGCGCAGCCCCACGGCGGCATCGGCGTCGGGCGCGTAAAGCAGGTCCTCGGTCTGCGACCCCAGCTCGTGGGCGAGTCGCGCGAGTTCCTCGACCAGGACCACCATGGGCTCAGGTAG	MLPVPVGDNVEDVAGHRVNLVVGVAQPHGGIGVGRVKQVLGLRPQLVGESREFLDQDHHGLR				NA	NA	NA	NA	NA
AK009_08582	1170			hypothetical protein	TTGCTTTGGCGATTAGCCGAAGCGGCCTGCGATGTAGTCTTCGGTTTCCTTGCGCTCAGGGTTTTCGAAGATGGTCGTGGTGTCGTTGAATTCGATGAGCTGGCCCGGCTTGCCGGTTGCCTCAAGGGAGTAGAACGCGGTCTTGTCAGACACGCGCGCTGCTTGCTGCATGTTGTGGGTCACGATGACGATGGTGTACTGATCCTTGAGCTCGTGGATCAGGTCCTCGACTGCCAGGGTCGAGATCGGGTCGAGTGCCGAGCAGGGCTCGTCCATGAGGAGAACCTCGGGGCGCACTGCGATCGCGCGGGCGATGCAGAGGCGCTGCTGCTGACCACCGGAGAGGCCGCCGCCCGGCTTGTCGAGGCGGTCCTTGACCTCTTCCCACAGGTTGGCGCCGCGCAGGGACTGCTCCGCGACCTCCTTGAGCTTCTTGCGGTCACGCTCACCGGAGAGCTTCAGGCCGGCAACGACGTTGTCCTCGATGGACATGGTCGGGAACGGGTTGGCCTTCTGGAACACCATGCCGACCGTGTTACGCACCGACACCGGGTCGATGTTCTTGCCGTAGATGTCGTTGCCATCGAGCAGGATCTCACCCTTGACGGATGCGCCGGGGATGACCTCGTGCATGCGGTTGAGGGTGCGCAGGACGGTGGACTTGCCGCAGCCGGACGGGCCGATGAAGGCGGTCACTGCCTGGGCAGGGATGGTCAGGTTGACGTTCTGCACGGCGTGGAAGTCGCCGTAGTAGATGTTGACGTCGTTGAGTACGAGCTTAGACATCAGTTTCCTCCTGGGAATGTTGGATTCGTGGGTGCGACGATTTACTTCTTGACCGAGAACTTCGAGGCGATGAGGCGCGCGATGATGTTGAGGGAGACGACCATAATCACGAGCGTCAGGGCGGCGCCCCAGAGGCGGTCGTTGGCCGCACCCGTCGCGCCGGACTTCCACATGTCGAGCATGAACAGCGGCAGCGAGGACTGCGGCTGGTCGAACATGCCGAACCAGTTGGTCACCGGCGTGGAGCCGACGAGGATCAGCACCGGGGCGGACTCGCCCATGACGCGGGCCACGGCGAGCATGACGCCGGTGACAATGCCGGACAGGGCGGTCGGTAGGACAATCCTGGCAATGGTCTTCCACTTCGGCACGCCGAGCGCGTAG	MLWRLAEAACDVVFGFLALRVFEDGRGVVEFDELARLAGCLKGVERGLVRHARCLLHVVGHDDDGVLILELVDQVLDCQGRDRVECRAGLVHEENLGAHCDRAGDAEALLLTTGEAAARLVEAVLDLFPQVGAAQGLLRDLLELLAVTLTGELQAGNDVVLDGHGRERVGLLEHHADRVTHRHRVDVLAVDVVAIEQDLTLDGCAGDDLVHAVEGAQDGGLAAAGRADEGGHCLGRDGQVDVLHGVEVAVVDVDVVEYELRHQFPPGNVGFVGATIYFLTENFEAMRRAMMLRETTIITSVRAAPQRRSLAAPVAPDFHMSSMNSGSEDCGWSNMPNQLVTGVEPTRISTGADSPMTRATASMTPVTMPDRAVGRTILAMVFHFGTPSA				NA	NA	NA	NA	NA
AK009_08583	633			hypothetical protein	TTGCATGATGGTGCCGGCAATGGCGTGGAGCGCTCCGCCGCCCTCGGCGCTGTTGCGCACGCCCAGCATGTCCTGGGTCCACCAGTCCACGCTGAAGACGGCGCCAGCGCCACGGGAGATAACCGTGAACAGCAGCCACATCAGTGGGATCAGTGCAATGATCATGCAGGCCCACATGAGCAAGCCCATGATCGAGTTCGTGGTCTTGCGGCCCGAGGAGATTTCGGTAAACGGGGTGCCGTCGCCGGACTCGCCGCGAGCAGGGGTGGTGGTAGCGGTAGCGACGGTCGAGGAACCCGTCGTGGTGCTACGGACAGTCGAAGCATCCGCGGACGCGGAGTGGGAGCCGTTGTTTGGTACTGCGGTACTCATTGTGGCCTCTACCTCCTATTTCTTGTTGACGATCGCGCGGGCGATCGAGTTGACGACGAAGGTCAGGATGAACAGCACCAAACCGGCGGCGATGTAGGCGCCAGCACTGGTCGGGTTGTTGAACTCGGCAGACGCGTTAGCAATGTGGGTTGCGAACGTCGAGCCGCCGTCGAACAGCGATGCGCGGAACACCGGCGACGGCGAGACGACCATGTAGAGCGCCATGGTCTCACCGAGGGCGCGGCCGAGGCCGAGCATTGA	MHDGAGNGVERSAALGAVAHAQHVLGPPVHAEDGASATGDNREQQPHQWDQCNDHAGPHEQAHDRVRGLAARGDFGKRGAVAGLAASRGGGSGSDGRGTRRGATDSRSIRGRGVGAVVWYCGTHCGLYLLFLVDDRAGDRVDDEGQDEQHQTGGDVGASTGRVVELGRRVSNVGCERRAAVEQRCAEHRRRRDDHVERHGLTEGAAEAEH				NA	NA	NA	NA	NA
AK009_08584	636			hypothetical protein	GTGGAGCCAGTTGTAGAACTGCCCGAGGAAGGGGCCGAGCACCTGCGCGCCCCAGAGGCCATAGACGATGGACGGCACCGCGGCAAGCATGTCCACGAGCGTGCCCAGTGGACGGACGAGGTTCTTCGGCGCGTAGTTGGACAGGAACAGCGCGATACCAAGCGCGATCGGCATCGCGATGATCAGCGCGATAAGGGAGATCGTCACCGTGGCGAAGAAGAGGTTCGGGATACCGAACTGCATCGCGTCCAGGTTCGACGTTTGCCACGGGCCGGTGTAGGTGAAGAAGCCCCAGAGGCCGCCTTCGTTACGCGCGAGCGGCGGGATAGCCTGCAGGAGCAGGAACAGGCCGATCGCGGCGATGATGACCGTAATCAGCGTTGCCGAAGCGGTGGAGAAAAATTGGAAAACTCGGTCGCCGGGGCGGATCACACCGGCGCCGCGTTGCGGGTCGCCTGTGTTCGGGGTGCCCTCCAAGGCGGGGTCTTGGCCCTTCTTAATGGGCGTGCCGGTAGAGCTCGGGATCACGGGATCTACCCTTGTCGCGTGGCCGTTACCAGGCAGTTCATTGTCAGCCATGTTCACGAATCCTTATTTATTGAATTGCAGCAGCAAAGTTTCAGCGTGTTTCTATGA	MEPVVELPEEGAEHLRAPEAIDDGRHRGKHVHERAQWTDEVLRRVVGQEQRDTKRDRHRDDQRDKGDRHRGEEEVRDTELHRVQVRRLPRAGVGEEAPEAAFVTRERRDSLQEQEQADRGDDDRNQRCRSGGEKLENSVAGADHTGAALRVACVRGALQGGVLALLNGRAGRARDHGIYPCRVAVTRQFIVSHVHESLFIELQQQSFSVFL				NA	NA	NA	NA	NA
AK009_08585	1167			hypothetical protein	GTGTTAGCTGATGGCGTTGACAGCCTCGCGCAGGCGATCAGCGTGTGCGCCGGAGACCGGGATGAAGCCCTCGGAAGCGAGCTCCTCATCCTGGGAGTCGAGTGCGACGGTCAGGAAGTCCTTGACCATGTCGCGGGTCTGGTCGTCGTAACCAGCGGAGCAGACGATCTCGTAGGTGGTCAGGATCAGCGGGTAGGTGTCAGCACCGTCCATGGCGAAGAGCTTGGCTGCGTCGACGACCATGTTGTGGCCCTCGGTCTTGAACTCGAGGCCGTCGAGTGCGTTGCCCACAGTCTCCTCGTTGAGCTCAACCGGGCCGTTGCCGAAGTCGATGTTGGCAGCCTGGTCAGCGAAGCCAGCCTCGACGTAGGTGATCGCGCCCGGGATAGCCTTAACCTGCTCAGCAACACCGGTGGAGCCGTTGGCGCCAGCGCCGACAGCCTGCGGGAATGCCTTGCCGGAGCTCTCCCAGCGGCCGTCGGAGGCAGCGGAGAGGAACTTCTGGAAGTTGTCGGAGGTGCCGGACTCGTCGGAGCGGTAGATGACGGAGATGTTCTCGTCCGGCAGCTCGGTGCCCGGGTTAGCCTCGGCGATGGCCGGGTCGTTCCAAGAGGTGATGTCGCCCTTGAAGATGTCAACGAGGTTATCAACGGTGAGGTTGAGGTCCTCGACGCCGTCGAGGTTGTAAGCGATGGCAACCGGGCCGATGACCATCGGCAGGTGCCAAGCTTCGTTGCCGCCGCAGCGGTCAGCTGCCGGCTGGACCTCGTCGTCCTTCAGCGGGGAGTCAGAACCTGCGAAAGCAGCCTGGTCACCGATGAAGTTCTTGACGCCAGCGCCAGAACCGGTTGCGTTGTACGCCAAGTTTGCACCCGGGACAGCCTCAGCGTAGCGGGCGCCGAAGTAATCCATCGCGTTCTGCTGGGAGGTTGCACCCTCAGCGACGAGCTGACCCGTGGTGCCGGTCAGGTTGGAGTCACCAGCAGCGGCGTCGTTGGTGGCCGTATCTGCGTTGGTAGCTGCTGCGGTGGTGTCGTTGGTGGAAGCGTCGTTGGAGTCACCGCAAGCGACGAGGGATGCGGAGGATGCTGCGACGACACCTACGATGGCGGCGGTGCGCTTAAAGTTGCGAATCACGGGGTACCTTTCCGGTGCGAATTCAGATGA	MLADGVDSLAQAISVCAGDRDEALGSELLILGVECDGQEVLDHVAGLVVVTSGADDLVGGQDQRVGVSTVHGEELGCVDDHVVALGLELEAVECVAHSLLVELNRAVAEVDVGSLVSEASLDVGDRARDSLNLLSNTGGAVGASADSLRECLAGALPAAVGGSGEELLEVVGGAGLVGAVDDGDVLVRQLGARVSLGDGRVVPRGDVALEDVNEVINGEVEVLDAVEVVSDGNRADDHRQVPSFVAAAAVSCRLDLVVLQRGVRTCESSLVTDEVLDASARTGCVVRQVCTRDSLSVAGAEVIHRVLLGGCTLSDELTRGAGQVGVTSSGVVGGRICVGSCCGGVVGGSVVGVTASDEGCGGCCDDTYDGGGALKVANHGVPFRCEFR				NA	NA	NA	NA	NA
AK009_08586	891	mshD_4	COG0456	Mycothiol acetyltransferase	ATGACGAACAAGATTGCTGAAGTGACATTGCCCGGCGACTCCGCCCGCAGCCTCCTGACCACGGTCGAGGCACACGATAAGGTCGCGGCGTTTTCCGAGCAGTTTCTCGCAGGGCTTGACGACGCCCGCCTGGAGCACACCCACCTCGCCTGCACAGGCCCCGACGGTGACCTCGTGGCCATCGCAGCGCTCGCCCCGGACGACTCCGCAGAGCTCGCCGTTGACCCTGAACACCGGGGCCGCGGCATCGGCACGCAGCTTGTCGACGTCCTCCTTGAGCGCAATCCGAAGGCCGGGCTGTGGGCACACGGGGACTTGCCGGCCGCTCGCGCCTTGGCGAAGAGCCGTGGGCTTGGCGTCACCCGTGAGCTGCTGGTGATGGCGATTAACGGCGATGAGCTGCGCGAGGCCGCGAAGGTGGAGCTGCCTGAGGGGTTTAGTGATCTGGGCTACTCCGAGGCGGTAGAGCGCTGGGGTACAGAAACGGTTGAGCAGGCGTGGTTGGACGCCAACAATCACGCGTTCGAATGGCACCCGGAACAGGGCGGCTGGGATCTGGACAGGCTGCACCGCGGGATGGAGGCCGAGTGGTTTGACCCGCAAGGGGTGAGGTTTCTCTACGAGGGTGACTCCCTTGCGGGCTTCCACTGGACCAAGATGCACCCGGACGTGACAGGTGAGGTTTATGTGGTGGGGCTAGATTCCAGTTACCGCCGAAAGGGGCTAGGAGATCCGCTGCTTAGGATCGGCCTGAACCACCTCGTGGGCCAGGGATCCTCCGAGGTCAAGCTGTATGTTGAGGCGGATAACGGTGCGGCGGTGGCGCGGTATGAAAATCTCGGGTTCCTGACAGTGCAAAAGCATATTGTGTACCAGCAAAACGCCTCCTAG	MTNKIAEVTLPGDSARSLLTTVEAHDKVAAFSEQFLAGLDDARLEHTHLACTGPDGDLVAIAALAPDDSAELAVDPEHRGRGIGTQLVDVLLERNPKAGLWAHGDLPAARALAKSRGLGVTRELLVMAINGDELREAAKVELPEGFSDLGYSEAVERWGTETVEQAWLDANNHAFEWHPEQGGWDLDRLHRGMEAEWFDPQGVRFLYEGDSLAGFHWTKMHPDVTGEVYVVGLDSSYRRKGLGDPLLRIGLNHLVGQGSSEVKLYVEADNGAAVARYENLGFLTVQKHIVYQQNAS				NA	NA	NA	NA	NA
AK009_08587	1338			hypothetical protein	GTGCTTGTCGGGGCCCGTGGCCGTGACGATGGTCGACGCGCTGGTGACCTGCCAGGCGCGTTCGTTAACCGGCTCGCCGTAGAGGATTTCCACCAGCCCGCGCGAGTTGGTCAGCGTGACCTCCATCTCGTCGGAAAGCGAGATCCGCCAGAAGCCGACCTCGCGCTGGTCGGCGCCCTGCGGCTGGCCGTCGTCGTCGAGGCGCCAGATGCGCGACTCAAAGCGCAGGTAGTTCTCCCCGTCGTGGGAAACCACGAGCTGCTGGCCGAAGGCGTACTCTTCGCCGCCGTCGTTGGCCTGGCCGCGGCCCGACCACACGCCGACAAGCGGCAGGAGCGCGAGCAGGCCGTCGTGAAGCGACGGGCCTTGGCGCAGGTTGGCGGTGTCATCGTCCAGGGGGAAGTCCTCGAACCCGAGGCCGGGGATGTTGCGGTGGGCGGTGTTTTTCGACTGCTCCGCGGCCAAGTTGACGGCCTCGCTGGCGTCGAGGCGGGCAGTGTTATCCGATGTCGGCGTCTCGCTCATGGCCCCCACGCTACCCTCTGGCTAGCTCACCGGCGGCAGCGGGGCGAGGTCGGAATCGCTCAAGGTGACGTTGAGGCGCTGGCGGAAAAACTCGATCGAACCCCCCGAGAGCAGGACCGCGTCCGCTGGCCCGCCCAGCGGCAGACCGCGGGTGTCGCGGTCGAGGGTGTAGGCGTCGAGGATCTTGTCCTCGACGCCGGGCGGGGCGTCGAGAAGCAGGCTCGGCCGCATCTGGAAGGTGGAACCGTCGAGGCGAAGGGTGACCACCACGGTGCTGGGCGCGTCCGTGCCGGGGACGGTGCCGGTGAGTTGGGCTTCGGATGCTGTGCCGCCCGAGGGAGAGATGTTGTAGGGGTTGGCGATGTCGAGGTCGGTCATGCCGAGCAGCTCGCCGAACGCAACACCGTCGAGGCGCACTTTGCGCCGCACCATGGTGGCGTGCGCGCCCGCGAACTCTCCGGCGAACGCGGCCTCAGCATCGATATCGACATCGACGGCCTCCGCCGTGGTGTTGACCGTGCCGAGGCCCTCAACCGTCGCGTCGAGCGCGGAGACGGACACCCGGGGGATCGTATTGGTGACCGCGACCTGGGAAAACGGGAACCCCGCGACGTAAGCGTCGGGGGTGGCGGAGAGCCTTTCGTCGGCGCTGGCGCGAAGGGCGAGGGTGCTCTCGACTCGCGAAGCCGCCGCCGTGTCCACGAGCAGCGCCACGGCAGCCACGACCAGCACCACGACGGTGATCGTGGCGGCCACTTTGATCCCGCGGACGCGCGAGAGAACACTCATGCCTTTATTTCTACCGTAGCCTGA	MLVGARGRDDGRRAGDLPGAFVNRLAVEDFHQPARVGQRDLHLVGKRDPPEADLALVGALRLAVVVEAPDARLKAQVVLPVVGNHELLAEGVLFAAVVGLAAARPHADKRQEREQAVVKRRALAQVGGVIVQGEVLEPEAGDVAVGGVFRLLRGQVDGLAGVEAGSVIRCRRLAHGPHATLWLAHRRQRGEVGIAQGDVEALAEKLDRTPREQDRVRWPAQRQTAGVAVEGVGVEDLVLDAGRGVEKQARPHLEGGTVEAKGDHHGAGRVRAGDGAGELGFGCCAARGRDVVGVGDVEVGHAEQLAERNTVEAHFAPHHGGVRARELSGERGLSIDIDIDGLRRGVDRAEALNRRVERGDGHPGDRIGDRDLGKREPRDVSVGGGGEPFVGAGAKGEGALDSRSRRRVHEQRHGSHDQHHDGDRGGHFDPADARENTHAFISTVA				NA	NA	NA	NA	NA
AK009_08588	840			hypothetical protein	TTGGCGCACCGCGCTGACCAGCCACACCGACTCGGCCGCGAAGAGGTCCTCAAGGTACAGGTCCTTCGCCTTGCACCTGTACCCCAACGCGTCGGCGTGCTCGAAGATTGCCCGCTGGGTGGTGCCGGCCACGATGTCGGGCCCCGGGGCCGGGGTGCGCAGCTTTTTGTCCTTGCGCACGACGATCACACTCGACGTGGTCGCCTCGAGCACGCGCCCGTCTGTTGCGTCGACGTAGATCACCTCGTCGGCTCCGCGGGATGCGGCCCAGCGCAGCGCCGCCATCGACGCGGTGTAGTTCAGCGACTTCGCGCCCACCTTCAGCCACGGAGCCTCGTTCTCACCGTGGGCAAGGGTGTAGCCGCGCGGGGAGCTCAGCGCTGTGACCCCGGTTTCGCGCTGCCGGATGATCGACTCGTCGATGGGGCGCACCGTCAGCCAGGCCGTGGGCACACCGGTGCTTTCGCGACCACGCGTCATGGTCCAGACGCACTTCGCCTCGGAGCGCTCACCCTCGCCTTCACCGCGCTCGCGGTAGTAGTCCTCCACCGCCTGGCGCGTCGCCCGAATCCAGTGGTCAACGCCCGGGTCAGGCAGGTCGAGCGCCTCGGCCGAGCGGCGGAACCGGCTGACGTGCTTGTCCACGTTCACGGGCTCGCCGCCGCGGATCAGCAGGGTTTCAAAGATCCCGTCGCCGCGGGTCACTCCCGCATCGTCCCAGAACACATGCGCCATGTTCGCGTTTTGCCTGCGGACAGAGCCTCCAAACGGTTCCACGAGGTAGATCACCGGCTGCGGAGGAATAAGCGAGGAGGCCATGATGCCCCATTATGCACGTAG	MAHRADQPHRLGREEVLKVQVLRLAPVPQRVGVLEDCPLGGAGHDVGPRGRGAQLFVLAHDDHTRRGRLEHAPVCCVDVDHLVGSAGCGPAQRRHRRGVVQRLRAHLQPRSLVLTVGKGVAARGAQRCDPGFALPDDRLVDGAHRQPGRGHTGAFATTRHGPDALRLGALTLAFTALAVVVLHRLARRPNPVVNARVRQVERLGRAAEPADVLVHVHGLAAADQQGFKDPVAAGHSRIVPEHMRHVRVLPADRASKRFHEVDHRLRRNKRGGHDAPLCT				NA	NA	NA	NA	NA
AK009_08589	1116			hypothetical protein	ATGCCCCATTATGCACGTAGGATGGGGCCTGTGGAAACTCCTAGCCAGTACCGTTCAGTCCTCCTTAACTCCCCCGGAGCGGCCGAGCTGCCCGAGGCGGAGACCTCGCTTATCGACGCCCACGGCGTCGCATGGCACTACGGCGACCCCCTCGGGGAGCAACGCGCCCTATCAAGCGGCCCAATCGTGATCGACCGCTCGCATCGCAGGGTCATCGCCGTCAGCGGCCCGGACGCGCCGACCTTCCTCAACAACCTTTTATCGCAGAAGCTTATCGACGCCCCCGAGGGGCTCGCGGCCTCCGCACTCGACCTCGACATCCAGGGCCACATCCTGCACCACGCCGACGTTGCCTACACCGACGGCGTCTACTACCTCGACGTGCCCGCCTACCAGTGTGAGACGCTACACTCCTTTTTGACCAAAATGGTGTTCTGGTCGGACGTTAAAGTTAATGACACCGACCTCGGCGTGATCACCGTGCTGGGTGAGGCGCCCGCCGTGGAGGGGGCAGCCGCCACCAGGACGCGTCCGTGGGGCGAGACGCAGCGCACCGACGTCCTTGTTGAGCGCGGCCGCGTTGGGGAGGTCGTCGATAAGCTGCGTGCTCAAGGGGTGAGGCTGTCAGGCCTAATGGCCTTCAGCGCGCTGCGCGTACGCGCCGGTGAGCCCGAGCTGCGCGCCGACCTGGATGAGAAATCCATCCCGCACGAAGCGCCCTCGCTGATCAACCGCGGCTCCCACATTGGCGCGGTGCACCTGGAGAAGGGCTGCTACCGGGGCCAGGAAACGGTCGCGCGCGTGGAAAACCTCGGCCGCTCACCGCGGCTTTTGGTCATGCTCCACCTCGACGGCTCCGCCCCCGTCGATCCGGTGCCGGGTGCGGAGATCACTCTTGCGGGCCGCCGCGTTGGGCGCCTCGGCACGGTCGTCCACGATGCGGACTACGGGCCCATCGCGCTGGCCTTGGTCAAGCGCTCCGCGCTCAACTCCGGCGACCTGACGATCAGCGGCGAGGTCGAAGTCTCGGCCGCCGTCGACCCTGATTCGCTGCCGCTCGACGAGGGCGAGAAGGCGGGGCGCAAGGCAGTCGAAAGGTTGAGATCCAACCAGTAG	MPHYARRMGPVETPSQYRSVLLNSPGAAELPEAETSLIDAHGVAWHYGDPLGEQRALSSGPIVIDRSHRRVIAVSGPDAPTFLNNLLSQKLIDAPEGLAASALDLDIQGHILHHADVAYTDGVYYLDVPAYQCETLHSFLTKMVFWSDVKVNDTDLGVITVLGEAPAVEGAAATRTRPWGETQRTDVLVERGRVGEVVDKLRAQGVRLSGLMAFSALRVRAGEPELRADLDEKSIPHEAPSLINRGSHIGAVHLEKGCYRGQETVARVENLGRSPRLLVMLHLDGSAPVDPVPGAEITLAGRRVGRLGTVVHDADYGPIALALVKRSALNSGDLTISGEVEVSAAVDPDSLPLDEGEKAGRKAVERLRSNQ				NA	NA	NA	NA	NA
AK009_08590	198			hypothetical protein	ATGGGTCGCGGACGCGCCAAAGCAAAGCAGACCAAGGTTGCTCGCCAGCTCAAGTACCAAACGCCTGAGATGGATCTCGATTCGCTGCAGCGCGAACTCGCAGGCCAGTCCCCGGCCCGGAGCTACAGCGATACCGATGACGAGGTGGATGACCGCTTCTCTGACTACCCCGACTGGGACGCAGACGGTCGCCGCTAG	MGRGRAKAKQTKVARQLKYQTPEMDLDSLQRELAGQSPARSYSDTDDEVDDRFSDYPDWDADGRR				NA	NA	NA	NA	NA
AK009_08591	453			hypothetical protein	GTGGCTGCCCGACAGGACCGCGCGAGCGGTCTCACCCTCGCCGCTAGCACGCAGCTCGCCAATGACCCAGCTCTCGATGTGGCGAGCCGCGAGGATCGCGAGGGTACGGTCCCGGTCCTCCGGGGCGACGACGGCAACCATGCCCACACCCATGTTGAAGGTCTTCTCCATCTCCTCCTGGGCGACCTCGCCCACGGACTGGATGAAGCGGAAGATCGGCGACGGCGACCACGTGGCGCGGTTCATCTCCGCAACCTTGCCCTCGGGAATGATGCGCTCCATGTTGCCCACCAGCCCACCACCGGTGACGTGGCAGAAGGTCCGCACCGAACACTCCGAAGCCAGGGCCAGGCAGTCCAGTGCGTAGATCTTCGTCGGCTCGAGCATTTCCTCGCCGAGCGTGCGGCCCAGCTCCTCGACGTAACCGTCGAGCGGCAGCCCGGCGCGCTCTAG	MAARQDRASGLTLAASTQLANDPALDVASREDREGTVPVLRGDDGNHAHTHVEGLLHLLLGDLAHGLDEAEDRRRRPRGAVHLRNLALGNDALHVAHQPTTGDVAEGPHRTLRSQGQAVQCVDLRRLEHFLAERAAQLLDVTVERQPGAL				NA	NA	NA	NA	NA
AK009_08592	441			hypothetical protein	GTGGACCCGATCGGGGCCCAGCAGCTCGTCGGCCTCGACCACGCCGACGGCGGTGGCGGAGACGTCGTAGTCATCCGGGTTCATCACCCCTGGGTGCTCTGCGGTCTCCCCGCCGAGCAGGGCGCAGCCCGCCTGAACGCAGCCCTCGGCGATACCCGCCACGATCTGGGCCACCTTTTCCGGAACGACCTTGCCAATGGCGATGTAGTCCTGCAGGAACAGCGGCTCGGCGCCACAGACCACGAGGTCGTCGACGCACATTGCGACCAGGTCAATGCCGATCGTGTCGTGCTTATCCATCGCCTGTGCGACGGCGAGCTTGGTACCCACCCCGTCGGAGCCGGCGGCCAGCAGCGGCTCACGGTACTTCCCCAGCGCGAACAGCCCGGCGAAGCCGCCCAGCCCGCCGCGCACCTCGGGGCGCGAGGCCCGCTTTGCTAA	MDPIGAQQLVGLDHADGGGGDVVVIRVHHPWVLCGLPAEQGAARLNAALGDTRHDLGHLFRNDLANGDVVLQEQRLGATDHEVVDAHCDQVNADRVVLIHRLCDGELGTHPVGAGGQQRLTVLPQREQPGEAAQPAAHLGARGPLC				NA	NA	NA	NA	NA
AK009_08593	351			hypothetical protein	GTGGGACAAGCGCTTTCCAATCTCGATGCGCGATGCGTGCACCGAACGAGACGCGATGACGGAGTCCGGGCGCGCCAGGTAGACGTACTCGAAGACGCAGTGCGCCTTCGGCGTCTCGGCGAAGCGCTCGGTGTGCACGCCGGTCTCGTCGATAGTAATCAGCTCGCCGGGTTCGACGTCGCGCACGTACGTTGCGCCGACGATGTCCAGGGCGCACGTCTCGGAGGCAATGACCCAGCCGCGCTCGAGCCGGCCCAGCGACAACGGGCGCACGCCGTGCGGGTCGCGCGCGGCGTAGAGCGTGTGCCCGTCTGTAAACATGAAGCAGAAGGCACCCTCGATGGTGGGTAG	MGQALSNLDARCVHRTRRDDGVRARQVDVLEDAVRLRRLGEALGVHAGLVDSNQLAGFDVAHVRCADDVQGARLGGNDPAALEPAQRQRAHAVRVARGVERVPVCKHEAEGTLDGG				NA	NA	NA	NA	NA
AK009_08594	858			hypothetical protein	GTGCGCCAGCGCCACATCCGTGCCGTTCGGCGAGGTCCGAAACATCGGCTGGACGTTTTCCCAGCTATCGCCACCGGTTGTGGAGTAGCGGGTATGGCCGACCGCGACGTCGCCCTGCAGGGCGTCCAAGATGGATTCATCAAACACCTGGGAGACAAGTCCCGTGTCCTTGAACACCACGATCTTCTCGTGGTCGCCCACTGCGATGCCCGCGCCCTCCTGGCCGCGGTGCTGCAGGGCGAAGAGCCCGAAATAGGCGAGTTTGGACACGTCCTCCCCGGGAGCCCACACGCCGAACACACCGCATTCGTCGTGGGGAATGTCCTCGTGAGTTTCCTGAGTACTCAAGGTTTGCACGTGCCCTACCTTAACGGATTACCCCACCTGCAGAGCAATCACGGGAAGCGCGCTCGCGATCTCCCCCGCGCGGGAACCCGAAGCCTCAATGCGGCCATCCGCGAGCGCCTCGGCGAAGGACTCAAGCCCGGTCGCTACCTTCAGCCACGTCTCCGGGTTCATCTCCACCACGTTCGGCGGTGTGCCGCGGGTGTGCCGCGGGCCGGAGACGCACTGCACCGCCACGAACGGCGGGACCCGAAGTTCGACCGCGTGGCCGGGGAGCTCGTCGGCAAGCGTGCGGGCCGTCGTGCGGCAGGCGTCGGCAAGCAGCGGGCGCTTTGGCGTTGCTGTGACCTCGCCGCGCAGCCACTCGGCCACCGCCTCGACCGCCAGCCGCGTGGTGTGGGGATCGCTCTTACGCGCACTCATGCGCCACATACTAGTGTGTTCAATCATGGAATCCCCCGTTGCTACGACGAAATCCCCCTTTGTCACCCTGCGCTTTATGGCCGCGCCTGA	MRQRHIRAVRRGPKHRLDVFPAIATGCGVAGMADRDVALQGVQDGFIKHLGDKSRVLEHHDLLVVAHCDARALLAAVLQGEEPEIGEFGHVLPGSPHAEHTAFVVGNVLVSFLSTQGLHVPYLNGLPHLQSNHGKRARDLPRAGTRSLNAAIRERLGEGLKPGRYLQPRLRVHLHHVRRCAAGVPRAGDALHRHERRDPKFDRVAGELVGKRAGRRAAGVGKQRALWRCCDLAAQPLGHRLDRQPRGVGIALTRTHAPHTSVFNHGIPRCYDEIPLCHPALYGRA				NA	NA	NA	NA	NA
AK009_08595	282			hypothetical protein	GTGCATGGAGGTGCGCCCCGTCATGGCGATGCGCGAGCGCACCTCGACAAGGTGCCCGGAGGGGATGGGGCGTGTGAAGTGGATGTGCCCGACGTATGCGGTAACGCAGTAGGTTCCCGACCATTGAACGGCGCAGGCGTAGGCGGCCTTGTCGATCCATTCGAGGACTCGCCCGCCGGATACGCCCTGGGCGCCGGCAAGGATGACGTCGTCAGGCGCGGCCATAAAGCGCAGGGTGACAAAGGGGGATTTCGTCGTAGCAACGGGGGATTCCATGATTGA	MHGGAPRHGDARAHLDKVPGGDGACEVDVPDVCGNAVGSRPLNGAGVGGLVDPFEDSPAGYALGAGKDDVVRRGHKAQGDKGGFRRSNGGFHD				NA	NA	NA	NA	NA
AK009_08596	483			hypothetical protein	GTGGATCGCGGGGGTCAGCGCGTCGCGGCCGCCGCGCGGGTTGCCCGAGCGCACCTGGATCACCAGGTTCATCGAGCGGGCCTCGGTGCGCGTGATACGCGCGTCAACCTCGACCAGGTCGCCGATGGAGATCGGCTTTTTAAAGCGGATGCCGCCTGCGTACACGGCAACAGTGCGCTCGCCGGACCACTCCATGGTGCAGGCCACGCCCGCCTCGTCGATCCATTCCATCGCGCTGCCGCCGTGGACCTTGCCGCCCCAGTTGATGTCCGTCGGCTTGGCCAGGAACCGGTGGATCAGGCGCGGGGCGGTGGAATCGTTGGTGTAGGTCTGCCCCTTCATCTCCGCTTCGATGGCGTTGCGCAGGTCGATGCGCGACAGCGCGGCGTCGAGCACTCGCTCTTCCTCGTCCGTCGAGGGCACGAAGGTGGGCACCTGCATGGTCTCGTTCGTCTTCGGGTCTTTGGCCACGAAGATGACTAG	MDRGGQRVAAAARVARAHLDHQVHRAGLGARDTRVNLDQVADGDRLFKADAACVHGNSALAGPLHGAGHARLVDPFHRAAAVDLAAPVDVRRLGQEPVDQARGGGIVGVGLPLHLRFDGVAQVDARQRGVEHSLFLVRRGHEGGHLHGLVRLRVFGHEDD				NA	NA	NA	NA	NA
AK009_08597	669			hypothetical protein	GTGGTCGAACAGCCCCGGCAGGGTTGCACTCCACGCCTCGGCGAGCTGCGCGATCGACACTGTTTCGCCAGCCACGGTGATCTCCCCGGTTTCGTTCGTCGAGCCGAGGACGGCCACCGGAATGCCCGCTTCGGTCGCGCGCTGCACCGCGATGTCGAGGCGGTCGGCCGTCACGGCGACGAGCACACGCGAGGCGGACTCCGAAAACAGCGCGGTAAACGCGTCGTCGTGCACCCCGGTGACGTCCAGCTCCGCGCCCTTGCCGGAGCCGAGCAGCATCTCGAACACCGCCTGCGCCAGGCCACCTTCCGAGAGGTCGTGCGCTGCGGAGATGCCCTCGCTGTCGGCGAAGAACTCGGCGAGGCGCTGCTCATTGGCAAGGTCCACCTGCGGCGGCAGGCCGCTGAGCTTCTGGCCGGAGACCTCTTGCCACACCGATCCGCCGAACTCGTCGTGGGTTGCACCCAACAGAAGCAGCTTGAAGTCGCGCTGCACGGTGCTGTCGGCGGGATCCGGCAGCGCGTGCCCGATGGTCTGCTCGACGTTGTCAATCACGCCGAGGACGCCCACAACGGGCGTCGGCAGAATCGGGGTGTCGCCGGTCTGGTTGTAGAAGGACACGTTTCCGCCGGAGACGGGGATCCCCAGCTCCACGGCGCCGTCGGCTAA	MVEQPRQGCTPRLGELRDRHCFASHGDLPGFVRRAEDGHRNARFGRALHRDVEAVGRHGDEHTRGGLRKQRGKRVVVHPGDVQLRALAGAEQHLEHRLRQATFREVVRCGDALAVGEELGEALLIGKVHLRRQAAELLAGDLLPHRSAELVVGCTQQKQLEVALHGAVGGIRQRVPDGLLDVVNHAEDAHNGRRQNRGVAGLVVEGHVSAGDGDPQLHGAVG				NA	NA	NA	NA	NA
AK009_08598	1518			hypothetical protein	GTGAACGGCCTCGCGGAACTGCCACATCACGTCCGGATTCTCGGGGGAGCCGAAGTTCAGGCAGTTGGTGATCGCCACGGGGCGCGCCCCGGTGACAGCGACGTTGCGGTAGGCCTCGGCGAGCGCGAGGCGCGCGCCCATGTTCGGGTCGAGGAAGGTGTAGCGGCCCGAGGCGTCCGCAGACACGGCGACGCCGCGGTTGCTCTCCTCGTTGATGCGCAGCACGCCGGAGTTGGCGTACTTCGCCTGCACGGTGTTGCCGCGCACGTAGCGGTCGTACTGCTGGGTGATGAAGTCGCGCGAGCACAGCGCCGGGGAGGCGACGATGCGCAGCCACGCGTCGCCGAGTGCGACGGACTTGTCCACCTCGGCGGGCTGCTGCACGTCGTCCTGCCACGCGGGGCGGGCCCACGGGCGGTCGTAGACGGGGGCCTCGTCCGCGATGGTCGACGGCGGCGCGTCCACCACGACCTCGCCGTTGTGGGACACGACCAGGCGGTCCGCCTCACCGGTGACCTCGCCGATCACCGCGGCGTTGACGTCCCACTTCGCGCAGATTTCCATAAAGCGCTCGACGTTATTGGGCTCGACCACGGCGCACATGCGCTCCTGGGATTCGGAGGCGAGGATCTCCGCGCCGGTCATGTTCTCGGCGCGCAGCGGCACCGCGTCGAGGTCGACACGCATCCCGCCGTCGCCGGAGGCGGCCAACTCGGAGGTGGCGCACGCGAGGCCGGCCCCACCGAGATCCTGGATGCCCACGACCACGCCGGAGTGGTAGAGCTCGAGGCAGCACTCGATGAGCACCTTCTCCGCGAACGGGTCGCCGACCTGCACGGCCGGCAGCTTGCGCTCGGCGCCGTCCTCGAAAGACTCCGACGCGAGCACGGACACGCCGCCGATGCCGTCGAGCCCGGTGCGGGAGCCGAAGAGGATCACCTTGTTGCCGGACCCCGAGGCGAACGCGAGCTTGAGGTCTTCGACCTTGAGCGTGCCCACGCACAGCGCGTTGACCAGCGGGTTAGACGCGTAGGTCTCGTCGAACACCGTTTCGCCACCGATGTTGGGCAACCCCAAGCAGTTGCCGTAGCCGCCGATGCCCGCAATCACACCCGGCAAGACGCGCTTGGTGTCGGCCGCGTCGGCGGGGCCGAAGCGCAGCTGATCCATCACCGCAATCGGGCGCGCGCCCATGGCCATGATGTCGCGGACGATGCCGCCCACGCCCGTGGCCGCACCCTGGTAGGGCTCGATGAAGGAGGGGTGGTTATGCGATTCGACGCGGAAGGTCACCGCGTCACCGCCCCCAATGTCCACCACACCGGCGTTCTCACCGATGCCGGCCAGCAGCTTGGAGCCCATCTCCTCCGTCATGGTCTCACCGAAGTACCGCAGGTGCACCTTGGAGGACTTGTACGAGCAGTGCTCGGACCACATCACGGAGTACACGGTCAGCTCAGCGTCGGTGGGGCGGCGCCCGAGGATCTCGACGATGCGCTGGTACTCGTCGTCTTTTAA	MNGLAELPHHVRILGGAEVQAVGDRHGARPGDSDVAVGLGEREARAHVRVEEGVAARGVRRHGDAAVALLVDAQHAGVGVLRLHGVAAHVAVVLLGDEVARAQRRGGDDAQPRVAECDGLVHLGGLLHVVLPRGAGPRAVVDGGLVRDGRRRRVHHDLAVVGHDQAVRLTGDLADHRGVDVPLRADFHKALDVIGLDHGAHALLGFGGEDLRAGHVLGAQRHRVEVDTHPAVAGGGQLGGGAREAGPTEILDAHDHAGVVELEAALDEHLLRERVADLHGRQLALGAVLERLRREHGHAADAVEPGAGAEEDHLVAGPRGERELEVFDLERAHAQRVDQRVRRVGLVEHRFATDVGQPQAVAVAADARNHTRQDALGVGRVGGAEAQLIHHRNRARAHGHDVADDAAHARGRTLVGLDEGGVVMRFDAEGHRVTAPNVHHTGVLTDAGQQLGAHLLRHGLTEVPQVHLGGLVRAVLGPHHGVHGQLSVGGAAPEDLDDALVLVVF				NA	NA	NA	NA	NA
AK009_08599	840			hypothetical protein	GTGCTCCGGGTGCGGCATGAGCCCGACGATGCGCCCGGTTTCGTTGGTCACGCCCGCGATCGAGTTGATCGAGCCGTTGAAGTTGTCGGTGTAGCGGAAGACCACCCGGCCCTCGCCTTCCAAACGCTCGATGGTTTCGGGGTCAGCCTGGAAGCGACCCTCGCCGTGCTTGGCGGGGACGAAGATCTTGGAGCCCGACTCGAAGCCCGAGGTCCAGGCGGTGGTGTTGTTTTCCACCGTCAGGTACGTGTCGATGCAGTGAAACAACAGGTTTTGGTTGCGGGTCAGCGCTCCCGGCAGCAGGCCGGCCTCGGTGAGGATCTGGAAGCCGTTGCAAATCCCGAGAACCGGCATGCCCTTGTTCGCCGCGTCGATAACGGCGCCCATCATCGGCGCCTGCGCGGCAATCGCGCCGGAGCGCAGGTAGTCGCCGTAGGAGAAACCGCCGGGGACGACGACGGCGTCAACGCCAAAAAGGTCGCTGTCGGCGTGCCACAGCTCGACGGGCTTCGCCCCCGCGAGGCGTACGGCGCGCAGCGCGTCGACGTCGTCAAGCGTGCCCGGGAAAGTGATGACCCCGATGGAAGCCGTCATCGAACGACCTCGAAGTCCTCGATGACGGTGTTGGCGAGCAGGGTCTGTGCGACGCGCTCGAGCTCGGCGTCCGAGACGGAATCGTCGACCTCGATCTCAAATCGCTTGCCCTGGCGCACATCGGCGACGCCGCTCACCCCAATCCGGCCGAGCGCGCGCAGGACAGCCTGTCCCTGGGGATCAAGAATCTCTGCTTTCGGCATGACATTTACAACGACACGTGCCATGGGGAGTCCCTCGCTTTAG	MLRVRHEPDDAPGFVGHARDRVDRAVEVVGVAEDHPALAFQTLDGFGVSLEATLAVLGGDEDLGARLEARGPGGGVVFHRQVRVDAVKQQVLVAGQRSRQQAGLGEDLEAVANPENRHALVRRVDNGAHHRRLRGNRAGAQVVAVGETAGDDDGVNAKKVAVGVPQLDGLRPREAYGAQRVDVVKRARESDDPDGSRHRTTSKSSMTVLASRVCATRSSSASETESSTSISNRLPWRTSATPLTPIRPSARRTACPWGSRISAFGMTFTTTRAMGSPSL				NA	NA	NA	NA	NA
AK009_08600	498			hypothetical protein	TTGAACGGAGGTGGCGTTCGAGGTTGCCTTTGCGGGGCTACCCTCGTAAGCAGTGGCTTTGCCCCAGCCCACGAGGTCGACGGTGGTCCCGGAGGCGTCGAGAAGCGCTGCGACAGCGTCGGTGCCGGAGAAGGTCATCCCGGAGGTGTTGTCCGGGGTTGGCAGGGCACCGGTCTGGGCGTTGCCCTTCGCGCCCTGGACAAGGAGATAGCCGCGGGCAGGGACGGAGCCGGAAAGCGTGGCGCGTTGACCAACGTTGTTGGCGGCGGAGCGCTGCTCAATGGTCCAGCCCGTGACGTCGATAGGCGAGGCCGTCGGGTTAAACAGCTCGACGAAGTCGTTGGAGTAGACCGAGCCATTGTTGCCACCCCCGCCGTAGACCTCGTTAATGACGATTCCGGAGCCGTCGGGCGCGGCACTCGCGCCCGGGGCGATGACAGAGACGGTGCCGGCGGCGATGGCGATGGAGATAACAGTGCTCAGAGCGCGATTCAATGA	MNGGGVRGCLCGATLVSSGFAPAHEVDGGPGGVEKRCDSVGAGEGHPGGVVRGWQGTGLGVALRALDKEIAAGRDGAGKRGALTNVVGGGALLNGPARDVDRRGRRVKQLDEVVGVDRAIVATPAVDLVNDDSGAVGRGTRARGDDRDGAGGDGDGDNSAQSAIQ				NA	NA	NA	NA	NA
AK009_08601	1152			hypothetical protein	GTGGTTGACAATCGCCACGAAGCTCTTGGAGTCGTCCGCGCCAACCGGCTTGAACTCCTGGGCCAGAGGCTGGCGCGCGGTGCCGGTGAACGCGGGGTCGTCGAAGATGCGCGATTCGCCAACCGGCTCCACCTCGGCCTTGTTGTAAATGAACGCCACGCGGATCACGTCTTCGTCGGTGCCCAGCTCAGTCGGAGACTCCACGAATGCCCAGTTGCCGCCGGCGGCGTTGAGGGCGTCGACAAGCGTGCGCAGAGCCTCATCGCGGCGTGCGACATCGCCGGTGACGGCGTAGGTGTTTTCGATTTCCTCGAGGCCGAGAACGCTGACATCCAGGCGGTTGATGGCGTCGACGATCTTCGCTTGCTGGTCCTCGAACGCTGCTTGCGAGTACGCGCCGCGCACCTTGCAATCGCGCGCGGACACGCCGTTGCCGTAGATGTCGGTGTAGGCGCTGCAGCCAGCGACGTCCTCGCCCAGGGTGGTGAAGTAGTTGAGCACGTTAAACGACGCGATGGAGTACTCACCGCGCACGGAAGCCGGAACCTCAAGGGTCGCCGCGCGCGAGTCCTGCCACGCAATCGGCAACTCGTCGGCCGCGTTCTTGCCGGTGATCGGCTCCAGCGGTTGGAAGCGCCAGAAGTTGTGCGAGAAATCGACGACGACGTCGGTCTGGAAATCGACCTGGTCGCCGGCGCGCAGCGACTTGATCCCCTGGTCCGACGTCACCAGGTAGGGCAGCGGGGTGGAGGAGTCGTTGTTGAGGTAGTTGCGCGTGCGGCCGTCGTCAAGGTAGACAACCTCGGCGTCCTGCTTCGCCTGGAGCGCGTTGGCCTCCGCTCCGGGCAGCACCACGTCGGTGGGGGTGCGGTGCGCGGACGCGCCGGGGGCGAGGCCCACCTCGCCGAAGGAGTTCAGCGAGTAGTTGTTGGTCACGGTGTAGTCGCCCACTGGGCGCACGAGCATGCCCTCGTAGGGCTCGCGGGCCTCGTTGCCGGCCGGCAGGGTGGGGATTTCGATCGCGGCCGGAGCGGCCAGCGGCGCCTCCAGCGCGGTGATGGCCGATGCAGTGATCTGGGTCACGGTGTAGAACTCGCTGACGCCGCCCGCGACGCGCACCGAGGCGCCGATCGCGGGGTAGTCGGTGCGTGA	MVDNRHEALGVVRANRLELLGQRLARGAGERGVVEDARFANRLHLGLVVNERHADHVFVGAQLSRRLHECPVAAGGVEGVDKRAQSLIAACDIAGDGVGVFDFLEAENADIQAVDGVDDLRLLVLERCLRVRAAHLAIARGHAVAVDVGVGAAASDVLAQGGEVVEHVKRRDGVLTAHGSRNLKGRRARVLPRNRQLVGRVLAGDRLQRLEAPEVVREIDDDVGLEIDLVAGAQRLDPLVRRHQVGQRGGGVVVEVVARAAVVKVDNLGVLLRLERVGLRSGQHHVGGGAVRGRAGGEAHLAEGVQRVVVGHGVVAHWAHEHALVGLAGLVAGRQGGDFDRGRSGQRRLQRGDGRCSDLGHGVELADAARDAHRGADRGVVGA				NA	NA	NA	NA	NA
AK009_08602	165			hypothetical protein	GTGGTCGGAGGAGCGGAAGGGATTGTCGGCCTCGAAGAAGTCCTGCACGTTGTAGTTGCGGCGGGAGTACTCGAAGGCGACGGATTCGTCGGCGTTGATGTTCCACACCGCCGCGTCCTTGACCAGCTTCATTGCGGCCTCGTTGCCCATCACGTGGTCGAGTGA	MVGGAEGIVGLEEVLHVVVAAGVLEGDGFVGVDVPHRRVLDQLHCGLVAHHVVE				NA	NA	NA	NA	NA
AK009_08603	450			hypothetical protein	GTGGCGCGGCGAAGGGCAACATCATCCGCCTGTCTGTCTCCGGCCGCGAGCTTGACAACAAAAAGGTGCGCCGCGACTTCCTCAACGCCGCTACCGCGGCCATCGAAGAAGGCGCGGAGCCTGCCGACTACCGCGCCTTCCGGGCCTAGCGGGCCCCTTTCGAGCCCCGCTCGCCCCTACAGCCCGAAGCGGGAGAGAATGGACTGCACCGCGTCCGGGAACAGCATGTTTACCAGCGCCGAGATCAGCGCAACCAGCCCGGTGCCCACCAGCAGGGCACCCAAGATGCCGCCGATGCTGCTGCCGGCCGCGACGGGCGGCTCAACCGGGGCAACCGGGTCGACCGGGTCAGTCGGCGCCGAGGCGTCGAAGCCGAACCCGACCTTGACCGGGTCGTGGTCGGAGGAGCGGAAGGGATTGTCGGCCTCGAAGAAGTCCTGCACGTTGTAG	MARRRATSSACLSPAASLTTKRCAATSSTPLPRPSKKARSLPTTAPSGPSGPLSSPARPYSPKRERMDCTASGNSMFTSAEISATSPVPTSRAPKMPPMLLPAATGGSTGATGSTGSVGAEASKPNPTLTGSWSEERKGLSASKKSCTL				NA	NA	NA	NA	NA
AK009_08604	408			hypothetical protein	TTGGTAAAACATGCCCGTGTCCGTCTGGTGCAGGCCGCTTGTCGACGCCACCAGCAAGAACCCGAGGTCCGGCAGCACCTCGAGGGTGCCCTCGGACAGCCGCCAGCGCGGGGGCGCGAAAATGTTGAAGGAGAACCCGAGCGATTCCATCTGCCGCGTCGCCCCGGTCAGGCGCAGGCGCGCCTCGTGCGCGCCGAGCGTGGCGAACTCCGCCCGGCGCCCCTGCGCGGGCTGGTCGAAGCCGTTGAGGATCAGTGCCCTGTCCGCCTCGCGCTGCGCGAGCAGCCACTTGCGCGTCTTCTTGTCCTTGGCCAGGTGCCACTTCTTGTCGATGTGCGGCGCGACCAGCAGGGAGACGGGGATCTCGGCGGCGTCGAGGTCGTCGGTGAGGCGAACAACGTCGTCTAG	MVKHARVRLVQAACRRHQQEPEVRQHLEGALGQPPARGRENVEGEPERFHLPRRPGQAQARLVRAERGELRPAPLRGLVEAVEDQCPVRLALREQPLARLLVLGQVPLLVDVRRDQQGDGDLGGVEVVGEANNVV				NA	NA	NA	NA	NA
AK009_08605	888	dapb1		Dipeptidyl aminopeptidase BI	GTGCTGGACTACACTGTCGCCGACGGGGAGTTCACCCTGCTCAAGCAGCAAGAAGTCGAGGGTGGTTACGACCCCGCCGAGTACGTGGCGGAGCGGATCTGGGCGACGGCCGAGGACGGCACGCAGGTGCCGGTGTCGGTGGTGAGGCGCGTTGATGTGGGCGTCGATAAGCCGCTGCCCACGCTGTTGTACGGTTATGGCTCGTACGAGCACTCGATCGACCCGGCGTTCTCCGTTGCGCGGCTGAGCCTGCTGGATCGCGGGATGGTGTGGGCGTGCGCGCACGTGCGCGGCGGCGGCGAGATGGGCCGGCTGTGGTACGACAACGGCAAGATGATGTCCAAGCGCAACACGTTTACCGACTTCCTCGCTTGCGCCGACGCGCTTGTTCAGAGCGGCGTGACCACCTACGGGCAGCTCGTCGCCGAGGGCGGCTCCGCCGGCGGGCTGCTCATGGGCGCGGTGGCGAACATGGCACCCGATAAGTTCGCGGGCATCCTCGCCATCGTGCCGTTCGTCGACCCGCTCACCTCCATCCTCATGCCGGAGCTGCCGCTGACCGTGACGGAGTGGGAGGAGTGGGGCGACCCGTACCACGACCCGGAGGCCTACGACTACATCGCCTCCTACGCGCCGTTCGAAAACGTCGAGGCGATAGACTACCCCGACATCCTGGCCGTGACCAGCCTTAATGACACCCGCGTGCTGTATGTGGAGCCGGCGAAGTGGATCGCCAAGCTGCGCGACACGGCCACCGGTGGGGAGTTCTTGCTCAAGACGGAAATGTCCGCCGGGCACGGCGGGGTTTCGGGGCGCTACGCGCAGTGGAAGCAGACCGCGTTCGAGTACGCGTGGGTGCTGGACAAGTCCGGAGCTGATGCGCGCTAA	MLDYTVADGEFTLLKQQEVEGGYDPAEYVAERIWATAEDGTQVPVSVVRRVDVGVDKPLPTLLYGYGSYEHSIDPAFSVARLSLLDRGMVWACAHVRGGGEMGRLWYDNGKMMSKRNTFTDFLACADALVQSGVTTYGQLVAEGGSAGGLLMGAVANMAPDKFAGILAIVPFVDPLTSILMPELPLTVTEWEEWGDPYHDPEAYDYIASYAPFENVEAIDYPDILAVTSLNDTRVLYVEPAKWIAKLRDTATGGEFLLKTEMSAGHGGVSGRYAQWKQTAFEYAWVLDKSGADAR	PGPT0020980_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
AK009_08606	132			hypothetical protein	GTGTTCGTCGAGGGAGATCGCGTTGTACGCGTCACCCGAGGGTTCAACGCCCACAATCCGGTGGACCTCCTCGGGGCCAAGCTCTTCCAAGGCGAGCGCGTAGGCAAACGGCTTGGAGATGGACTGGATTGA	MFVEGDRVVRVTRGFNAHNPVDLLGAKLFQGERVGKRLGDGLD				NA	NA	NA	NA	NA
AK009_08607	270			hypothetical protein	GTGCTCGATCATGGTCACGGTCAAAGACCTCGCCCTCATGGCCGCGACGCTGGCCAACGGCGGGGTGCAGCCGATCACGGGCGAGCGCGTGCTGTCCTCCACGGCAAGCCAGGTCACCCAGGCAGTGATGACCTCGGCCGGGATGTACGACGGGTCCGGGCGCTGGATGGTGGACGTTGGTATTCCGGCGAAGTCGGGCGTCGCGGGAGGGCTCATCGGCACGATGCCGGGGCAGTTGGGCATAGCGTCGTTAAGCCCAAGGCTCAATGA	MLDHGHGQRPRPHGRDAGQRRGAADHGRARAVLHGKPGHPGSDDLGRDVRRVRALDGGRWYSGEVGRRGRAHRHDAGAVGHSVVKPKAQ				NA	NA	NA	NA	NA
AK009_08608	1143			hypothetical protein	ATGGTTGAATACCCCGTCGAGCATGACGTTGATCCCACGGGCCTGGCACTGCTCGATCAGCCAGTCGAAGTCCTCGTCGGTGCCCAAGCGCGCGTCGATGGCGTAGTGGTCAAGCGTGTCGTAGCCGTGCCCGACGGACTCGAAGATCGGCCCGAGGAGCAGGCCGTTGCAGCCGAGCTCGATGAGGTAGTCGAGCCAGGGGCCGAGTGTGCGCAGGCGGTGGTCCGCGTCCCCCTCGACCCTGTTGCGGATCGGCGCGCCGGTGGCCCCCAGCGGGTAGACGTGCCACCAGATGGTGTCAGCGGTGGTCATCAGCACTCCTTAGCTGTCGCGGATCAGCGGTTCGAGCTGGTCAGACAGGCGCTTTTCCCACGCCTTAGCGATCTTGTCGTAGTTTTCCTCCTGCTCGTGCATGCCGCGGTGGGTAAACGTGACCTTGGTCGAGCCGTCGTCGGCATCTTCGAGGTCGAAGATGAGGTCGGTGTCGCTCCACTGCTTGTCCTCGCGGTCGCTTCCCGACGGCTCCACGTGCCACACCAGGCGGTCCCCGGCGCGGGCCTCGGCGACGCTGAACTCCGCGTACTGCTCATCGTTGTCGAAGCGGAACTCCCCGCCCTTCTCGCCAGCGGAGCCGTCGGTGGTTTCGATGGTTTCCTCCCACCACTGGTTCGGCTGGGTAATCGCCTCGTAGACCTTGTCGCGCGGTACGTCGATAGTGAACGAGGTGGAGAAGTCCTTGACCGCTTCGAGATGCGTGCCGTCGGAGAACTCGTAGTCCGGCATCGCGGAATCCGGGTCGTAGATGGACACGTCGTAGCCGTTGTCGCGGATGGAACGCACGCCCTCCTTGATCAGCAGGCGGCCCGCCTTATTGAACGAGGTCACGTGCGACACATCAAGCACGAGCGCAGAACCCACGAGGCGGTACTCCTCCAAGTCGTGGAGGATCTTCTCAGCGGCCGCGAAGTTGATCATGCCCTGAAGCTGCACCACCGTCGCGTCCTCACGCCGCAGCACGGCCTTGATGCCGGGCGCGGAGTAGTAGTCCGAGCCCATCAAGTTGAGCCCGAGGGTGGTGGAGATCTCCTTGAAGATCTTCACCCCTCGCACCGAGTTTCCCTGCTCATTGAGCCTTGGGCTTAA	MVEYPVEHDVDPTGLALLDQPVEVLVGAQARVDGVVVKRVVAVPDGLEDRPEEQAVAAELDEVVEPGAECAQAVVRVPLDPVADRRAGGPQRVDVPPDGVSGGHQHSLAVADQRFELVRQALFPRLSDLVVVFLLLVHAAVGKRDLGRAVVGIFEVEDEVGVAPLLVLAVASRRLHVPHQAVPGAGLGDAELRVLLIVVEAELPALLASGAVGGFDGFLPPLVRLGNRLVDLVARYVDSERGGEVLDRFEMRAVGELVVRHRGIRVVDGHVVAVVADGTHALLDQQAARLIERGHVRHIKHERRTHEAVLLQVVEDLLSGREVDHALKLHHRRVLTPQHGLDAGRGVVVRAHQVEPEGGGDLLEDLHPSHRVSLLIEPWA				NA	NA	NA	NA	NA
AK009_08609	660			hypothetical protein	GTGGCGGCGGCGCAGCCCGATGAGCGCCTGGTGCTCGGCGTAGATCCAGCACCCGAGCTCGGAGAGCTCCGCCGGGGTGGCCGGCAGCTCGGGGCGTACCGCATCGTCGGCCTCGAAGCCTTCCGTGCGCAGGCCCACGAAGCCCTGCTCGTCGCCGTAGTAGATCGACGGCATGCCCGGCAGCGTGAGCAGCAGGGCCGTCGCGATGACCGCCTTGTCCTGGCCGATCTTCGAGGCGATGCGGTCGACGTCGTGATTGCCCACGAACGTGTTGGGCAGGACCCGCTGCGCGATGTCCTGGTGGCGGCCAAGGGCGTGGTCGAGCTCGAAGAAGTTCGCGTCATGCAGCGAGGACCAGAGTGCTTTCCACAGCTCGTACTGCGTAACGGAGTCCATCGTGCCCGCGGTCGCGATCCCGGCGTAGTCGCCGTGGATGACCTCGCCGAGGAACATCGCGTCCGGGAACTCAGCACGAACTCGGGCGAGGACATCCGCCCAGAAATCTGCCGGCACCGAGTAGGCGACGTCGAGGCGCCAGCCGGCGATGCCGCGGCGCAGCCAGTGGCACATGATGTCGGTGACCATGTCGCGCACGCGCGGATCGTCGTGGTGCAGGGTGGCGAGCTCGCCGTGGCCCTCCCAATCGGTGTCGCCGGCTAG	MAAAQPDERLVLGVDPAPELGELRRGGRQLGAYRIVGLEAFRAQAHEALLVAVVDRRHARQREQQGRRDDRLVLADLRGDAVDVVIAHERVGQDPLRDVLVAAKGVVELEEVRVMQRGPECFPQLVLRNGVHRARGRDPGVVAVDDLAEEHRVRELSTNSGEDIRPEICRHRVGDVEAPAGDAAAQPVAHDVGDHVAHARIVVVQGGELAVALPIGVAG				NA	NA	NA	NA	NA
AK009_08610	309			hypothetical protein	GTGGGAGTGGAGCAGGTCGAGGACGTCGCCAAGCGTGCGCCCGCGGTGGTGGAGGGCGAAGCCGTAGCCCACGCCGCCTTTGCGACGCCCAAAGCGCAGGTCGGAGCCGCCGGCGGCGATGGTGGGAACCACGGGCGCGTCGTCGAAGAACCCGCCGATGGTGTCCACGATGGCGTCGTAAAGCGGGCCGGAGGCGGGCGAGACGGTGGCGTCCTCGGTGATGAGATGCTCGATGGTGACGTGCTCGGCCAGGTCGCCGAGCGCCTCGCGCAACGCGGCGTCGATGTCCTCCTGGGTCTGACCCGGTAG	MGVEQVEDVAKRAPAVVEGEAVAHAAFATPKAQVGAAGGDGGNHGRVVEEPADGVHDGVVKRAGGGRDGGVLGDEMLDGDVLGQVAERLAQRGVDVLLGLTR				NA	NA	NA	NA	NA
AK009_08611	1323			hypothetical protein	GTGGCCGGCATCTCCGTGGACGGTCAACCTGCGCTGCGCTGCGCCCTTCTCGCCGACGACGACGACCACGGCGTCGCTGCCGTCGGCCACGGGCAGGTGGCTGCCGCCCTCTTCGGAGAGGCAGTTGCGCCAGCTAAACGCGTCCGGTTCGTGCTCGGCGATCCACCCGGCGCCGAGCCCGCCGCGGGCCTCCTCGTCCGCGCAGCCGACGAACGTCAGGGTGCCTTTCGGGCGGTTTGCCGATGTGGCAACCTCGCGTGTGACGGCCGCCATCGCGGCGGTGATGTAGAGCATGTCCGTGGCCCCGCGGCCGTAGATCCGCCCGTCGACCTCCTCGGCGCCGAAGGGGTCGCGCGTCCACTTGGCCGGGTCGACGGGCACGACGTCGGTGTGGCCGAGCAGCGTGAGCGGCTCCGCGTCTGCGTCGGTGCCTTCAACCGTGAAGGCGATGGAGACGCGGGACGGGTGCGGCTCGAAGCGCTGCACCCGCACGCCTGTGCCCTCGAAAAAACGTTCCAGCGTGTTGGCGTTGCGGACTTCGTTTCCGGAATCGGCGGTGAGGTCGTTGACGCAGGCGTTGCGGATGAGCTCTTTGAGCAAAGTGACAGTTGTCTCAACAAGGGGGGTGTCTTGATTCATTGCAACGAGTGTAGTTTCGATGGGTGGCGGATTCTTTATATGCGTAACGGTGCATTTAATATCGTTGATTACGAGCAACTGGAAGGTAGGAACGTGGCGAGACGCGAAATGAGCACCGATCCGCGAGCAGTGCGCACCCGCGCGACGCTGATTCAGGCAACGATCGTTTTGCTGAAGACGCACCGCGCGGAGACGCTGTCGGTGTCTCAGATTGTCAAGACCGGCAACCTGAGCCGACAGGTGTTCTACGAGCACTTTGCCGACCGCGACGCACTTTTGTTCGCGGCGGCGGAGAAGATGATCGCGCCGGCCCTCGAGTGGACCTACACCGCGTCGAATGAGACGAAGCTGCTGCAAAAGATCGTGGAAGCCCTGAATCAGACCGCGCGCTCCTACGGCGATTCGTTGCGCAACCTATGCGACGGCCCGATCCACTGGCAGGTCCATTCGCTCGCCGTGCAGCGCATGTGGCCGATCATGGAAAGCGAGATTGCGCAGCGGTTGAATGAGACGGGCCACCAGAAGCCTGACGAGCACATCCGCTGCACGGCGGAGTTCGTGGCCAGTGGCGTCGTCGAGCGCCTCACCGCGGCGGTGCGCGACCAGAAGAGCCTGGAGGACGTGCGCAGGGACTTAGCGATGGTTCGCGATACGCTCAGTGCCTTGGATTACGGCACTCCGTAG	MAGISVDGQPALRCALLADDDDHGVAAVGHGQVAAALFGEAVAPAKRVRFVLGDPPGAEPAAGLLVRAADERQGAFRAVCRCGNLACDGRHRGGDVEHVRGPAAVDPPVDLLGAEGVARPLGRVDGHDVGVAEQRERLRVCVGAFNREGDGDAGRVRLEALHPHACALEKTFQRVGVADFVSGIGGEVVDAGVADELFEQSDSCLNKGGVLIHCNECSFDGWRILYMRNGAFNIVDYEQLEGRNVARREMSTDPRAVRTRATLIQATIVLLKTHRAETLSVSQIVKTGNLSRQVFYEHFADRDALLFAAAEKMIAPALEWTYTASNETKLLQKIVEALNQTARSYGDSLRNLCDGPIHWQVHSLAVQRMWPIMESEIAQRLNETGHQKPDEHIRCTAEFVASGVVERLTAAVRDQKSLEDVRRDLAMVRDTLSALDYGTP				NA	NA	NA	NA	NA
AK009_08612	465			hypothetical protein	GTGGGTGGTGACCACGTTGGGGAAGAAGGAACGCGCCGTTTCGAAGTTGTGGTTGTAGCGGCTCACCCCCATCTCGCGCAGCTGGCGGGCCTGGTCGCGGCTCAGGATGCCCAGGGAGGCGGAAATGGAGATGTCTACCTCTGCGTTGATCGCCGCGATAGCGTCTTTGACCTGGTCGAGGAGGCGCTCCGTGGGGCCCTTCACCGCCGCGACAATGCAGAACTCGCTCGCGCCCATCTTGGCGGACTGGCGCGCGCCCTCGACAAGTTCTTCGATGTTGAGCCTCACCGCGCGCACGGGAGATTCGAACAAGCCGGACTGGGAGCAGAAGTGGCAGTCCTCGGGGCAGCCGCCGGTTTTGAGCGAGATGATGCCTTCCAAGCTGACCTCGACACCGCAGTGCTTGATGCGCACCTCGTGGGCGAGCTCGAGGAGCTCGGTGAGGTGCTCGTCGTCAATGCTTAA	MGGDHVGEEGTRRFEVVVVAAHPHLAQLAGLVAAQDAQGGGNGDVYLCVDRRDSVFDLVEEALRGALHRRDNAELARAHLGGLARALDKFFDVEPHRAHGRFEQAGLGAEVAVLGAAAGFERDDAFQADLDTAVLDAHLVGELEELGEVLVVNA				NA	NA	NA	NA	NA
AK009_08613	369			hypothetical protein	ATGGCGTCGGCAAGCTCGGTGCTCTCGGGCGCTCGCACGCTAGAGGGCCTTGATGGTGTCGTAGACCGCGGGGATACCGAGGCTGGTCACGCGGTCCACGGCGTCACGGTCGGCCTCGATTGGCCGGCCGGCGGTGGTGAGGTAGTTGCCGCCGATAATCGCGTTGGCGCCTCCGAGCAGGCCTTTCTCGGTGCCGTCGTCGCCAAGCGCGAGCTCAGTGCCGCCGGCGAAGCGCAGCTGCGCGGTGGGCATGGCAAGCCGGAACGCGGCGACCGCGCGCAGCGCCTCGCCCTGGGGCACCAAGGGGCGGTCGGCGAAGGGGGTGCCGGGGCGGGGGTCGAGGAAGTTCATCGGCACCTCGTGGGGTGA	MASASSVLSGARTLEGLDGVVDRGDTEAGHAVHGVTVGLDWPAGGGEVVAADNRVGASEQAFLGAVVAKRELSAAGEAQLRGGHGKPERGDRAQRLALGHQGAVGEGGAGAGVEEVHRHLVG				NA	NA	NA	NA	NA
AK009_08614	354			hypothetical protein	GTGCTCGCGCCACGGGTTGTTCCGCTCGGAGTGGCTACAGCGCTAACACGCAAAAACCGCCGCACCCCTTTTTCAAAAGGTGCGGCGGTGGTTCGTGAGCTCTTAGAGGGCTACGACCTGCTGGGCCTGAGGGCCCTTGGCGCCCTCGCCGACCACGTACTCGACCTGCTGGTTCTCCTCAAGGTTGCGGTAGCCGCTGCCCTGGATCTCGGAGAAGTGGACGAACACGTCCGCGGAGCCGTCGTTGGGAGCGATGAAGCCGAAGCCCTTGTCGCCGTTGAACCATTTCACAGTACCCTGTGCCATATTTTTACCTTCAAGTTTCTTCTGGTGATGCTACGAGTGGCAACATGA	MLAPRVVPLGVATALTRKNRRTPFSKGAAVVRELLEGYDLLGLRALGALADHVLDLLVLLKVAVAAALDLGEVDEHVRGAVVGSDEAEALVAVEPFHSTLCHIFTFKFLLVMLRVAT				NA	NA	NA	NA	NA
AK009_08615	477			hypothetical protein	TTGATCGAGGCCGCGATTGAGTGGTCGGACAACGACTCTGCAAGCACGCTCCTGGACTGCGTGGGCACGGAGCGCGTCGAAGAGGAGGTCGCCGAGGCCGGTGCCTCCATCGATGCGAATGCCGCGTTTGGCCGCTCCGAGTGGCCGTTGGCCTCAGCGGCGCGCTACGGCTGGTACCTGTCCACCCGCGACGAAGACAACGAGGTAATCGTCGCGATGTACAACGTGGTCGACGAGCAGCAGTGGGGTCTTGGCGCGTTCGACAACGCGGCGTTTAAGGGCGGCTGGAGCGGTGACCGGCGAGACGGGTCGTGGCATTCGCGCCAGTTCGGTTTCGTGCCTGTCGACGACACCGCGCTCGGCGTCGCCATCGCCGCGCGCTCACCGGACGGTTCCGACACCGACACCATCGAGGCGCTGGACCAGCTCACGGCCGCTTTGGCCAAACAGCTGGGGGTAGAGATTCACCCCCGATAG	MIEAAIEWSDNDSASTLLDCVGTERVEEEVAEAGASIDANAAFGRSEWPLASAARYGWYLSTRDEDNEVIVAMYNVVDEQQWGLGAFDNAAFKGGWSGDRRDGSWHSRQFGFVPVDDTALGVAIAARSPDGSDTDTIEALDQLTAALAKQLGVEIHPR				NA	NA	NA	NA	NA
AK009_08616	294			hypothetical protein	GTGCAAAGCCTCGTCGCTGACGTCGCAGTGTTCCTGGGCGGCCAACGCGATAGGCACTTTAATTGTGGACCACGACGGGAGGGTAGCGACGGTGCCGGTGTAGCCGTTGATGTGGCCGTTGTAAAGCGAAATGCCCAGCTCTGTGCCCGTTTCCTCCTCGATGGCATCAATGTCGTCGCGCAGGGCGCGCAGGGTGCCGGTGACGTCCAACCCCTCGGGGGTAGCGGCCGTAGCGTAGGCGGGGGTAGGGGCGGGCACCGCCGCCGGGGTGCAGCCAGTGGCGAACACCAGTAG	MQSLVADVAVFLGGQRDRHFNCGPRREGSDGAGVAVDVAVVKRNAQLCARFLLDGINVVAQGAQGAGDVQPLGGSGRSVGGGRGGHRRRGAASGEHQ				NA	NA	NA	NA	NA
AK009_08617	444			hypothetical protein	TTGGTAATTGCCGGGCTGCTGGATGGTGGTGGTGCTGCCGTGGGCAAGTATGTGCTCCGAGGGCGAGAGCTCGCGGATCGCCACCAGCTCCACCTTGTCGGGGTGCTCGAAGACGACATCGGAGTAGATCATCGGGTCGTGCTGGCCGTCGTCGCCCACCAACGTCCAGGTGATGTTGGGGAAATCGATGATCAGGTTGCGCAGCTGGACGCGCTTGTGTTCCGGGCCCGAGCGGAACAGGCCGGTCTGGGTCGGCCCCCAATCCGTCAGCAGGAGCGGGCCCCGCGGAAGACTGTGGCGGTCGATGAAGTCCACCAGGGTGTCGTAGGTGTTCCACGCACCCGTGGAGAGGTAAAACACTGGCTCCGACGACTCGCGCAGCGCCTCGAAAAACTGCGCCATGCCGGGCACGGGCTGGCGGGTGTTGGTCTTTTTCACCCATGA	MVIAGLLDGGGAAVGKYVLRGRELADRHQLHLVGVLEDDIGVDHRVVLAVVAHQRPGDVGEIDDQVAQLDALVFRARAEQAGLGRPPIRQQERAPRKTVAVDEVHQGVVGVPRTRGEVKHWLRRLAQRLEKLRHAGHGLAGVGLFHP				NA	NA	NA	NA	NA
AK009_08618	294			hypothetical protein	GTGGCCGAGGATGAGAACCTCGAAGTAACCCTCGTCGTTGGTGCGGGCGTCGATACGCTGGCTGCCAAGCTCGACCGTGACGGGGGCGTCGGGCACCGGGGTTGTAACAAACTGCCGCCAGCCGCGCTGCACCGTGCTGTGTTCGTGGCTGTCTGCGGGATTGTGCATCAGCACCCTGCCCACCACGCGTGCGCGCTCTGGGCTGCCGTAGCCCGTAAACCCCGTGGCGCGCGGTTGCCAACCCGCGCGCGCGTGACGACGCACCTGGGAACGCACCAGGCGCCTTTCAGCTGA	MAEDENLEVTLVVGAGVDTLAAKLDRDGGVGHRGCNKLPPAALHRAVFVAVCGIVHQHPAHHACALWAAVARKPRGARLPTRARVTTHLGTHQAPFS				NA	NA	NA	NA	NA
AK009_08619	885			hypothetical protein	GTGGCGCTCGTAGGCGTTGCCCAGAATCAGGTCCCCGATGCGCATCCGCCCGTCCATGCCGGCGCAGTGGCCGATCATGATCCACGCCTCCGGGCGCAGCACGGCGAGGCAGTCGGTGATCGTCTTCGCGTTCGACGGCCCGACCCCGATGTTGATCATGGTGATACCGTCGCCGTCCTCGGTGACCAGGTCGTAGCGCGGCATTTGGCGCGGAGAGCCGAGGTCCACGTCGCCGGGGTTCTCCCCCGGCTCCACCTCGCCCGAGGGCAGCACCAGGCGGGTGTAGCGGGAATCGGGCTTTTCCATCGCGCGCAGCCCGAACGCGACGAACTCGCGGGTGTGCATGGCGTAGTTGGTAAACAGAATGTAGCGCTGCACCGTATCTACCGGGATGCCCGTGTAGTGCTCGATGCGCGCGCACGCGATGTCGAAGCGTTGCGGCCCGAAGTGGAACAGCGGTTTCTCCGCGCCGTGGAAAGAGTCCCACTCGCCGTCGATGATGCCGTCGTGGACGTCGTCAAGCGTGGGGCGCGGGACGGAATCGGCGTAGGAGGCGCGCACCTCGCTCAAGCCCTTGATGCCGCGGATGTACTCCGGTGGGATGCGGGTATCCGAGTAGCCGACGCGGATCTCGCAGGGGTAGTTGGAGCACAGGGCGCGCAGCTGGTTGGTCAGGTAGGAGGCCATCAGGTCTGGGCGCGACAGCGTTGCGCTGTACGTTCCCGCCTCGTCGACGTAGCCAAACGGCTCGCGGCGATCCACCGGCACCCACTGCGTGACCTCGACGGCGATCTTCGGGTACCGCACGGCGTCGTAGCCCGAGTAATCGCCCGATGCGATGACCTCGCGCGCGAGATCGCACGACGCTTCATAGAGCTCGATTAG	MALVGVAQNQVPDAHPPVHAGAVADHDPRLRAQHGEAVGDRLRVRRPDPDVDHGDTVAVLGDQVVARHLARRAEVHVAGVLPRLHLARGQHQAGVAGIGLFHRAQPERDELAGVHGVVGKQNVALHRIYRDARVVLDARARDVEALRPEVEQRFLRAVERVPLAVDDAVVDVVKRGARDGIGVGGAHLAQALDAADVLRWDAGIRVADADLAGVVGAQGAQLVGQVGGHQVWARQRCAVRSRLVDVAKRLAAIHRHPLRDLDGDLRVPHGVVARVIARCDDLAREIARRFIELD				NA	NA	NA	NA	NA
AK009_08620	201			hypothetical protein	ATGCGCCTCCTTCGAGTTGGAGTAGAAGGCCTGGGCGGCGGCCGGCAACTTGGGCACGGCGTGCAGCGGCAGGTCCGACACCGCGAGCAGGGTGCCATACGGAACGCGGTAGCGGTAGCCGTTGGCGGCGATGGTGCACGATTCCATGTCCACGGCGGCCGCGGTGGAGCCGCGCAGCCAGTTCCACAGCTCCTGCGGTGA	MRLLRVGVEGLGGGRQLGHGVQRQVRHREQGAIRNAVAVAVGGDGARFHVHGGRGGAAQPVPQLLR				NA	NA	NA	NA	NA
AK009_08621	537			hypothetical protein	GTGCTCGAGCATCTCGGCCGCCCGCGCGCGGCGCTCACGCGGCACGTTCTCGCCGAAGTAGACCACGTCGGGCTTGACGCGCGTCGAACCGCACGAGCTGCACGCGATCATGCGGAAGCGCTCGACGTCGCTGTCGCGCAGCTCGACGTCGCCGTCGGGGTTGAGCATCGAGCCCGTGACGACGACCGATTCAACGTAGCCGGGGTTCGCGGCGGTCAGGCGGGCGTCGAAAAGCTCGCGCTGCTCGCGCGCGGAGCAGTCGAGGCAGACGACGCAGTCCATGTCGCCGTGCAGCGCGATGACGCGCTCACTGCCGGCCTCGACGTGCAGCCCGTCGACGTTCTGGGTGACAATGCCGCTGATCAGCCCGGCGCGCTCCAGCTCCACCAGCGCGAAGTGGGCGCGGTTGGGGGCGGCTGCCCGCATGAAGCGGATGCCGACGAAAGCGCGGGCCCAGTAGCGGCGCACCGCTGTCGGCGAGTGCGCGAACTCCTGGTAGGTCATCGGGCGCCCCTTGGTCAGCCGCCCGCCCGGTGA	MLEHLGRPRAALTRHVLAEVDHVGLDARRTARAARDHAEALDVAVAQLDVAVGVEHRARDDDRFNVAGVRGGQAGVEKLALLARGAVEADDAVHVAVQRDDALTAGLDVQPVDVLGDNAADQPGALQLHQREVGAVGGGCPHEADADESAGPVAAHRCRRVRELLVGHRAPLGQPPAR				NA	NA	NA	NA	NA
AK009_08622	642			hypothetical protein	TTGCCTCCGGCGCGATGTACGCGCTCGGGTGGATCGACGGGGTCTTCGACTCGAAGCGGTAAATCACGCCAGTGCCTTTCTTACGTCATCCGGGTCGGTGAACAGGATCGCACGCATCCCGAGCTCCGCGGCCGCCTCGACCCACTGCTCGCGGTGGTCGAAGTACACGGTCGAGGTCAGTTTCGCGCCCATCGCGTCGACCGCCACCCGGTAGGCGGCCGCGTCCGGCTTGGCCACGCCGATATCGCAGGAGAAGGTCACCGCGTCGAGCTCGCCCAACCACGGGTGGGTGCTGCGCAGGTGGGACGCGACGACGGGCGGGGCGTTGTCGACGATCCCGCACGTCCAGCCGGCGTCGACGAGCTCAAGCAGGCACTCCACCACGGCACGGCGCGGTTCCAAAAGGGTGTCCACATCCGCCGCGACGGCCTCGTGGACGTCGATGTCATCGATCCCGGCGCGCAGGGCCACCTGCTGCCACCAGCGGACATCGGAGACGTCGCCGACGTTGTAGGAGGGCCGGAGGTCTCTGTACACCGCCCAGAACCGCTCCGGGTCCAACGCACCCGCCGCCTGTTCCACCCGCGCCAGCGCGGCGGGCGTCCTGAGCTCCAACGCAACGCCGGAGAGCCCGAAGAGTAG	MPPARCTRSGGSTGSSTRSGKSRQCLSYVIRVGEQDRTHPELRGRLDPLLAVVEVHGRGQFRAHRVDRHPVGGRVRLGHADIAGEGHRVELAQPRVGAAQVGRDDGRGVVDDPARPAGVDELKQALHHGTARFQKGVHIRRDGLVDVDVIDPGAQGHLLPPADIGDVADVVGGPEVSVHRPEPLRVQRTRRLFHPRQRGGRPELQRNAGEPEE				NA	NA	NA	NA	NA
AK009_08623	420	yrdA_2	COG0663	Protein YrdA	GTGTGGCCGGGGGCGGTGATTCGCGGGGACGTGGGCCCGATCCGGATCGGGGCGCGCTCCAACATTCAGGACGGCAGCGTCATCCACGTTGATACGGGCGGTGAGACGGTGCTTGAGGAGGACGTCACGGTCGGCCACCTCGCCATGGTCCACTCCTGTCGCATCGAGTCGGCCTGCCTGATCGGGATGAGCGCGACGGTGCTGTCACGCTCGCGCGTCGGCGAGGGCAGCATCGTTGGCGGGGGAGCGGTAGTGCTAGAGGGCCAGGACATTCCCCGCTTCAGCGTGGCGGCCGGGGTGCCAGCGAAGGTGCGTAAACAACTGGACGAGGCTTCGCGAGACGACCGGGTGCGCCACGCCGCGTCCTACGTGGAGCTAGGGCGACGCCACCGCGAGGGGCTCGCGGAGCACGAAGTCTAG	MWPGAVIRGDVGPIRIGARSNIQDGSVIHVDTGGETVLEEDVTVGHLAMVHSCRIESACLIGMSATVLSRSRVGEGSIVGGGAVVLEGQDIPRFSVAAGVPAKVRKQLDEASRDDRVRHAASYVELGRRHREGLAEHEV	PGPT0002425_576	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
AK009_08624	267			hypothetical protein	GTGGGTCGGGATCATCCGCAGCTCGACGTCGATGCCTGCGCCGCGTACGCTGCGGGCGAAGGGCGCGGGGGCCAGTGGGTCGTCGATAAACGCGCTGCCGGCGACGACGATGGTCGACGGCGCGTGCTGCGAGCTGAGCTGCGCGGCGAGCTCGCCGAGCTGGTGGGCGCGGTCGTCGAGAGCGCCGCGCGTGGTGTGCTTGTGCGCGGAGTCGGTCACGGCGTCGCGAAGCGTGCGGATGCTCGGCTCCCCGATGGCGTCGATTAG	MGRDHPQLDVDACAAYAAGEGRGGQWVVDKRAAGDDDGRRRVLRAELRGELAELVGAVVESAARGVLVRGVGHGVAKRADARLPDGVD				NA	NA	NA	NA	NA
AK009_08625	372			hypothetical protein	TTGGATCTCGGAGCCGACGATCGCCGCGGCGGCCGAGGTGACCACGACGGGTACGGAGAATTGCTCGCGCAGCTGCGCGCCGATCTCCGCGTCGCGCCACCCGAGGTTCGGGGCGTAGACCTCGCCGTCGCCGGTGACGCTGCCGGAGGTGGTCACGCCCACGGTGGCCAGCGGGCGGCTTACACCTGTGGTCAGCCGGTTGAGCGTGGCCATGATGCGCTGGATGAAGTCGTCTTGGCTTTCGTCGGCGACCTCAACGTCGATGTCGACGCTGCGCACCGTGCGCCCCTTGAGGTCGAACAGCGCGATGTAGGTCGACAGGGTGCCCACGGCGATCCCGGCGTGCAGGGCGCGCGGTTCGGACAGCTCTAG	MDLGADDRRGGRGDHDGYGELLAQLRADLRVAPPEVRGVDLAVAGDAAGGGHAHGGQRAAYTCGQPVERGHDALDEVVLAFVGDLNVDVDAAHRAPLEVEQRDVGRQGAHGDPGVQGARFGQL				NA	NA	NA	NA	NA
AK009_08626	696			hypothetical protein	GTGCGGCGCCATCGGCGAGAGCTCGGTGGACAGCCAGTCTGCCATGTCCTTGAAGGCGTTCTTGGCGTCACTGACCACCGCCGCTTCAGCGGATACACCGAGGTGCTCGAGCATCGAGCCCTCATCCCCGAGCGCTTCACACTGGCTGATCACGGCGTCGATCTGGCGGTGGGTGGCTACATCACCCTGGCTGGCCGCCTCGGCCAGCGACTCGCGGTAGCCGGCCAGCGCGTCGGCCACCTTGGACAGGCGGGATTCCACGTTGGCGATGTCGTCAGCGCTCTGCTTCGGCATCAAACGCAAGCTGTCCCGGATGCGCTGGACAGGCGAGTCGATGTTGTTGAGCATCCGCAGGTCTTCACCACGGTGGTGCAAGTCAAGCTCTTGGGTCATGCGGTCGCGCAGGATCGCTGCGGTGAGCGTGTCTACCGGGTCGAAATCGTCGTCGTCGTCGGAATCGTCGGTGGAATCGTTGAGCGCATCGACGTCGGCGAGGAGGTCGCGGATGCGGTTCGCAAGGTCTTCCCAGTAGGCCGGGCTGAAGTCCTGGAGTTCGTGGTCGTGGCCCTCAATACCGATTCTCGAACCCAGGGTTGGGGAGAGCGCGACGAGGTCGTAGACGAAATCCTCACAGGTCGCGTCGAGCAGAGAGGGACTCCTCCCAGTTTGAGCAGACGTCATGAGGGCAGAGTCTAA	MRRHRRELGGQPVCHVLEGVLGVTDHRRFSGYTEVLEHRALIPERFTLADHGVDLAVGGYITLAGRLGQRLAVAGQRVGHLGQAGFHVGDVVSALLRHQTQAVPDALDRRVDVVEHPQVFTTVVQVKLLGHAVAQDRCGERVYRVEIVVVVGIVGGIVERIDVGEEVADAVRKVFPVGRAEVLEFVVVALNTDSRTQGWGERDEVVDEILTGRVEQRGTPPSLSRRHEGRV				NA	NA	NA	NA	NA
AK009_08627	810			hypothetical protein	GTGGAACTCGCGCAGCGTGGCGCCCTGGGCAAGCGCTTCGTCGCGAAGCTCGAGCCAGGCGCGGTAGCCCACGGCGCAGGCGGCCGCCTGCCCCGGCCAACCCATGTAGCGGTCCAGCTCGAAGCTGAGGCGGGTCTCAGCCATGGCGGTGTTGTCTCGCAGGAAGGCCTTTGCGTACTGCGCATCCCACACGCCGGTCTTGTCCGGCGTCTTCTTGTGCAGATGGACACCGATGTCAACGATAACGCGGGCGAGCTGCAGTCGCCTCGAGTCGAGGTGGCCAAGACGTTTGGCCGGGTCCTCGAAGAAGCCGTAGGAATCCATCAGGTGCTCGGCGTAGAGCGCCCAGCCCTCGGAGTGCGCGGCGTTGACGTAGACGCTGCGGCGCCACAGGTTCAGGTTGCTGCGCTCGGTCAGCGCCGTCGCGGACTGCACGTGGTGGCCGGGCGCACCCTGGTGGAAGATGTGGGTCAGCTCGTGCCAGGTGTGCAGCGCTTGACTGCCCTCCGGCATGGACCACCACAGGGTGCCGGGGCGGACCATGTCGTCGCTCGGCGGGGTGTAGTACAGCCCGCCGCTGCCCGTCTGGTCGATCGCGCAGTCCAGCCGCTCCACGCCCCGGGGGATGGTGAAGCAGTTGTCACGCAGCACGTCGTAGGCCTGGCGGGTGGTCTCGACCATCCAGTCGAGCAGCTCGTCGGAGGAGCGCAGCGTGTAGCGCTCGTCCTCGTTGAGCTTGCGGTACGCCGCGTGGATCGTGGTGGGTGCATCGAACATGGAGTTGGTCAGCTTCGACTGCTGCTCGACTAA	MELAQRGALGKRFVAKLEPGAVAHGAGGRLPRPTHVAVQLEAEAGLSHGGVVSQEGLCVLRIPHAGLVRRLLVQMDTDVNDNAGELQSPRVEVAKTFGRVLEEAVGIHQVLGVERPALGVRGVDVDAAAPQVQVAALGQRRRGLHVVAGRTLVEDVGQLVPGVQRLTALRHGPPQGAGADHVVARRGVVQPAAARLVDRAVQPLHAPGDGEAVVTQHVVGLAGGLDHPVEQLVGGAQRVALVLVELAVRRVDRGGCIEHGVGQLRLLLD				NA	NA	NA	NA	NA
AK009_08628	426			hypothetical protein	GTGGAGCAGTGTGCCCAGCGGCTGGCCCACCGCGACGAGCGCGGGGATGAGCAGCCACACCCACCACGCGCTGGCCTCAGGGGCGTGGCCCGTCCCGCCGGGCGCGGTGAGAAACGCGGCAACCAGTGGCAGGGTCACCGAGACGGCCAAAAGACGCAGGTACTGCGACAGCGCCACATACCGCGGGTCCCCGCCGACGTCTTCGGCGACCGCGGGCATCATCGACGCCCCGCCTGCGAGCAGGGAAAGTATCCCCGTCTCGCGCGACACGCCGTGCCTGGCCAAAAACAGGCCTCCGGCAAACGCGAGGCCCACCGTCACCACCGCGACCATCACGCCCGGGGCGAGGTAGCTGAGCAGCTCGCGCGGGGGCACGTTGGCCAGCGGCAGCGCTGCGATGACCCCGATGATGCCACGGGCGGCTGA	MEQCAQRLAHRDERGDEQPHPPRAGLRGVARPAGRGEKRGNQWQGHRDGQKTQVLRQRHIPRVPADVFGDRGHHRRPACEQGKYPRLARHAVPGQKQASGKREAHRHHRDHHARGEVAEQLARGHVGQRQRCDDPDDATGG				NA	NA	NA	NA	NA
AK009_08629	603			hypothetical protein	ATGACCAACACTGAGACGCCGGTTCGAGGTCAGCGGCCAAAGCGCCGGGCAGCGACCGAGGAGAAGATTGTCCGCTCCGTGCTCAAACTCGCGCGCGAAAAAGGGTTCCCGGCGGTGACCATTGACGCCGTCGTGGCAGATTCTGGAGTGGCCAAGACCACCATCTACAGGCGCTACAACGATCGCATCGACATGCTTATCGACGCCCTTCGCCAGGTGACGCTGGAAATCCCCACGGAGTACCCCACCACGCAGAAGGGGTTCGAACAGTACCTGGCCAGCGTGCAGGATCACCTAGAGAACAAGATCGGCATCCGCCTGATCGGCGCCACGGTGTCGAGCTCGGACGAGTTTATCGGCGAGTGGCGCGAGCGCGTCGTCTCCGAACTGCTCGATGGTTTCGCACGCTACTACCGCAAGGGTGTTGAGGTGGGCAGCTTCTCGGCCGACGTCAACGGCGGAGTCATCGCCACCATGGTGGTGGGTAGCGTGGTCATGCGCACGGCGTTCGACCTACGCGACAAAAGGGCCCACGCCCGCGCGATGGCGGAGATGCTGTGGCCGATTGTCGCGTCAGCCAAAAGCAAGGGTGCCATTGAGTAA	MTNTETPVRGQRPKRRAATEEKIVRSVLKLAREKGFPAVTIDAVVADSGVAKTTIYRRYNDRIDMLIDALRQVTLEIPTEYPTTQKGFEQYLASVQDHLENKIGIRLIGATVSSSDEFIGEWRERVVSELLDGFARYYRKGVEVGSFSADVNGGVIATMVVGSVVMRTAFDLRDKRAHARAMAEMLWPIVASAKSKGAIE				NA	NA	NA	NA	NA
AK009_08630	1245			hypothetical protein	GTGTACGCGGTTGGAGGAGGCCGCGACGGCGGGCCCGGAGTCGTCGAAACGCGTGCCCGCGTGCGGGTGGGTCAGGCCCTTGCCGCGCACGGCGAGGAGCACCAAGTAGAGCGAAGAGAAGATGTACGGCAGCAGGTACATGATGGTCGCGAGCTGCACCATGGAGGTGTACGAGGCCTCGCTGACGTAGAAGATAATCACGAAGGCCTGGATCACCGCGGTGGAGATGAGCTGGGCGGCAACCGGCGCGCCGGCCGAGTTGGTGCGGCCCAGGCGGTGAGGCAGGATGCCGTCGCGCGCCATCATGACGATGGGTTCGGCGCACAGCATCTGCCAGGAGACGTACGCGCCGAGCACCGACAGGCACAACCCGGTCGAGACCAGCGCGCCGCCCCAGGGCCCGACGACGGCCTCGAGGACCGCGCCCATGGAGTTCTCCGGCAGGGCGGCGAGCTCCTCGCGGCTGAGCACGCCGTAGGACAGAGTGGACACGGCGACGAGGAGACCGAGCACGGAGAGGAAGCCGATGACGGTGGCGCGGCCGACGTCGCCACGCGTGCGCGCCTGCTTGGAGTACACGCTCGCTCCCTCGATGCCGATGAATACCCACACCGTAAACAGCATGATGCCCTGGAGCTGCTCGCTAAACGACGTCCCCGAGCGCTCGCCCCAAAAGTCGAGGGTGAAGGTGTCCCAGCTGAAACCGAGGAAGGCGACCAGGACGATGAAGGATACGATGGGCACCAGTTTGGCCACCGTGGTCACCAGGTTCATCAGCGCGGCCTGCTTCACGCCGCGGGTGAGAGCGGCGAAGATCACCCACGTCAGCGCGGATGTCGCCACCGCGAGCACCAAGTTGTTCCTCAGGACCGGCACGTAATGGCCGATGGTGGAGAAGAACAGGTTGGCGTAGCCCACCTGCGCAATCACCGAGCCCAACCAGTACCCCCAGCCCGAGGTGAAGCCGATGAAGTCGCCCAGGCCCGCGCGGACGTAGGAGTACACCCCGGAATCCAGGTTCGGCTTGCGCAGGGCGAGGATCTGGAAGACAAAGGCGATGGAAAGCATGCCCACGCCGGCGATTGCCCACCCGACGAGCATCGCGCCGGGGCTGGCCACCGAGGCGATGTTTTGGGGCAGGGCGAAGATCCCGGACCCGATGGTGGAGCCGATGATCAGCGAGACCAGGGCCCACTGCGTGACAGTGTGGGTCTTCGAGTCCGTCGTCATGTCCGTCGACAATAG	MYAVGGGRDGGPGVVETRARVRVGQALAAHGEEHQVERREDVRQQVHDGRELHHGGVRGLADVEDNHEGLDHRGGDELGGNRRAGRVGAAQAVRQDAVARHHDDGFGAQHLPGDVRAEHRQAQPGRDQRAAPGPDDGLEDRAHGVLRQGGELLAAEHAVGQSGHGDEETEHGEEADDGGAADVATRARLLGVHARSLDADEYPHRKQHDALELLAKRRPRALAPKVEGEGVPAETEEGDQDDEGYDGHQFGHRGHQVHQRGLLHAAGESGEDHPRQRGCRHREHQVVPQDRHVMADGGEEQVGVAHLRNHRAQPVPPARGEADEVAQARADVGVHPGIQVRLAQGEDLEDKGDGKHAHAGDCPPDEHRAGAGHRGDVLGQGEDPGPDGGADDQRDQGPLRDSVGLRVRRHVRRQ				NA	NA	NA	NA	NA
AK009_08631	1119			hypothetical protein	ATGTCTCGCCGCACTGCGCGCAACGCTCCGTTGACGTACAAAAGCGCAGTAGTGCCCCGCATCGCAGATGCGCAGGTCAATCTTGATGCGGAGACCACAACGCTGCTAGAAACAGCGACTCTCGCGGTCAAGGAATTCGACCTCAGTCACGCTCACCACATCGTCCCGTTCACCCCCCTTTTGCTGCGCAGCGAGTCGTTTGCATCCAGCCAGATCGAACAGCTCACCTCATCGGCTCGGCGGATCCTGGAAGCAGAGCTCACCGAACTCGCTGGCACCAACGCGCGGTTGATTGTGGCGAACACACGGCAAATGCAGGAGGCAGCGTCGATCGAAGGGGCGTCGACAAGCACGCTCCTTTATATGCATGACGTCTTGCTGCGGGATTCTGCCCCGGAAATCGCCGGCGTCCTACGCCAACAACCGGTGTGGATTGGGGGCCACGACTTCTACCCGCGCGACGCGCTTTTCGTGCCCCCGCACCACAGTCACCTTCCCGCCCTCATGGAGGATCTCGAGGCATTCGTGGCAAGGCGAGACCTCCCGATCCTCGTTCACGCCGCTCTTGCGCACGCGCAATTCGAGACCATCCACCCGTTTGCTGACGGCAACGGCCGGACAGGGCGCGCCCTCGTACATGTGCTGCTACGCCAGCGTGGTCTCACCAGGGAAACATCACTGCCCCTCTCTGCGGGCCTCCTGACCGAAATCGACTCCTATTTCACGGCGCTCGACTCCTACAGGGAAGGCCGGCCACAGGAGATCATTGACGTCTTCATCCACTCGGCCATCAGCGCTGTGGAGCGCGGTACATGGCTTGCAGCCGAGCTCAACGTCTTACGAGGTGAGTGGGAGGGGGAAGTTAGCGCCCGTGGCGATGCGCTCGTGTGGCAGCTCATACCTTTGTTGCTGCGGCGCCCTGTGGTGACCTCCAGGATCGTCGCCGAGGAGTTGAACACTACGCCGGTCAGTGCGCGCAAGGCACTGGATGCACTGGAGGGCACGGGAATCCTGGCATCGGCGATGCTGGATAAACGGACGCGAGCATGGCGGGCTGTCGAGGTCCTCGACCTGCTCGACGAGTTCGCTGCCCGCGGTGGGCGCCGTCAGGCACCGTGA	MSRRTARNAPLTYKSAVVPRIADAQVNLDAETTTLLETATLAVKEFDLSHAHHIVPFTPLLLRSESFASSQIEQLTSSARRILEAELTELAGTNARLIVANTRQMQEAASIEGASTSTLLYMHDVLLRDSAPEIAGVLRQQPVWIGGHDFYPRDALFVPPHHSHLPALMEDLEAFVARRDLPILVHAALAHAQFETIHPFADGNGRTGRALVHVLLRQRGLTRETSLPLSAGLLTEIDSYFTALDSYREGRPQEIIDVFIHSAISAVERGTWLAAELNVLRGEWEGEVSARGDALVWQLIPLLLRRPVVTSRIVAEELNTTPVSARKALDALEGTGILASAMLDKRTRAWRAVEVLDLLDEFAARGGRRQAP				NA	NA	NA	NA	NA
AK009_08632	891			hypothetical protein	GTGTTTGGGGTAGCGCCCGCGCATCTCCTTGCGCACTTCTTGGTAGGGCCCATCCCAGAAACTCGCCAGGTCATCCGTCACGGCCAGCTCGCGCCCGGCTGGGGACAACAAATGGAACAGCACCTTCACCCCGGCGCACGTCGGAGACTGCGCCAGCCCGAAGCATTCCTGCAGCTTGACGCGCACAACTGGCCGCCCCGTAGCGTAGTCCACCCGCGGGTGCGAGCCGCTGGGCACCTCGAGGCGCTCCGGGGCGAGCTCGTCCAGCTTCGCGGCCTCCGGCCAGGGCAGCTGCCGCATCAGCGCCGCGCGCATGTCGAGCCTGCTTATCGACGCCCCCCTGGCGAGCTCCGCGATCTCCGGGGCGTAATCCCCGCACGCGACGTCAGGCCACGGCTTTCCGACGGTGGCGTTAAGGAAATCGAGGCGGTCCTTGAGACGCTGCGCGCCCTCGTCCAACCGGAATGCCTCAAAGTTGACGCCGGAGAGAGCCTCCATTGCCTCCTCCGGGCTCAGCTTCAACGGTGTGGAGCTCAGCTCGATTGCGCCGATGGCGGTGACTTTCCGGCCGCGCACCGCGTCGTCGATAAGCGATGCCCTGGTTTCCTCCGCTATGCGCTCGGTGGGCAGGGCGTAGGGTGCCGCGGAGCGGATCACGGCGCCGCCCTTTGTCAGCTGGACCTCGGCGGCGGCGATCCATTCAGGTTGTCCCATCTGGGCGTCCAGAGTCGCGCGGGTGCCGCTGGCCAGCAGGTAGGCACCCCCCACGTTCTTGGCCACCCAGCCCGGGTAGGCCGTGGCGACGACCTCACCGGGGTCGACCGGGGCCGACTTGTGGACAAGCTGCTCGAGGCGCCGCACCTGGTTGCGCGGGGCACGCGCCCGCGATAG	MFGVAPAHLLAHFLVGPIPETRQVIRHGQLAPGWGQQMEQHLHPGARRRLRQPEAFLQLDAHNWPPRSVVHPRVRAAGHLEALRGELVQLRGLRPGQLPHQRRAHVEPAYRRPPGELRDLRGVIPARDVRPRLSDGGVKEIEAVLETLRALVQPECLKVDAGESLHCLLRAQLQRCGAQLDCADGGDFPAAHRVVDKRCPGFLRYALGGQGVGCRGADHGAALCQLDLGGGDPFRLSHLGVQSRAGAAGQQVGTPHVLGHPARVGRGDDLTGVDRGRLVDKLLEAPHLVARGTRPR				NA	NA	NA	NA	NA
AK009_08633	501			hypothetical protein	GTGCAGCGGGGCGCAGTCGTTGAGGTGCGAGCAAACGAGCTCCACCTCGCGGACCCCGGGCACGAAGACGAGGGTGCGCTCGGGAGAATCGCACAGCGATGCGACGTGGCGGTAGAAGTCGCGGCTGCCCTGGGCGCGCTCGGGGTGCGGGGCGTAGGTGATGCTCAGCGGGTGCGTGACCGCCTCGGTGCTTACAATCCGCGCGCCCAGGTGAGAGGCGAACCTTTCCGCGTCGAGGGTGGCGGACATCGCGGCGAGGTAGAAGTCGTCGCGCAGCACGGCCACCTCCGCGCACATTGCCAGCACGAGATCGGTGTCCAGCTGGCGTTCGTGAACCTCGTCGATGACGACGGCGCCGACGCCTTCGAGGCCGGGGTCCTTGAGCAACCGGTTGAGCAGGACACCGGGGGTGACAAACTCGACCCGTTCGCCGGGGTGGTGCTCGCCGCGGACGGAAAACCCGACGCGGTCGCCGAGTTCACTTCCGTCGAGCTGTGCTAA	MQRGAVVEVRANELHLADPGHEDEGALGRIAQRCDVAVEVAAALGALGVRGVGDAQRVRDRLGAYNPRAQVRGEPFRVEGGGHRGEVEVVAQHGHLRAHCQHEIGVQLAFVNLVDDDGADAFEAGVLEQPVEQDTGGDKLDPFAGVVLAADGKPDAVAEFTSVELC				NA	NA	NA	NA	NA
AK009_08634	588			hypothetical protein	GTGGTACGGCAGGCCGCAGTTGGCGAAGGAGACGTACCCGGAGGCTTCGAGGACGATGATCTCCATGTCCTCGTCGCGGCGGCGCAGGCGTGTCGCGGTGGACATGCCGCCGGCGACGCCGCCGATGATCACTGTGGTTGTCATGGGGGTCAGCTCCTATCCGAAGATGCGGGAGAAGATTCCGCCCTGGCTCTGCTGGTCGCGGGGGCAGGTGCACCATTGTCCGGCGGGGACGTTGGCCTTAACGCTGTCGATGTGCTGGCCGCAGCCGGCCCAGGTGGTCTTGTGGCACTTGTTGCATGTCGTTGGGTAACACATGAACAGCAATATCCCCCGGGGGGTATATCTTGTCTAGTCTGGGTTCATGTTCAACCTGCCCGAGATCGGAAAAGGCCTGCCCATTGCGGGTGTGATCGACCAGCTGCCCGCCACCGGGCCGCTCGTCGTGGAGGCCCCACCCGGCACCGGCAAGACCACGCTGATCCCGCCGGCTCTCTCCAATGTCGCGGGCAAAGCGCTGGTCACCGCGCCGAGGAGGGTGGCGGTGCGGGCGGCGGCGCGTCGATTAGCACAGCTCGACGGAAGTGA	MVRQAAVGEGDVPGGFEDDDLHVLVAAAQACRGGHAAGDAADDHCGCHGGQLLSEDAGEDSALALLVAGAGAPLSGGDVGLNAVDVLAAAGPGGLVALVACRWVTHEQQYPPGGISCLVWVHVQPARDRKRPAHCGCDRPAARHRAARRGGPTRHRQDHADPAGSLQCRGQSAGHRAEEGGGAGGGASISTARRK				NA	NA	NA	NA	NA
AK009_08635	1344			hypothetical protein	GTGGCCGCGCTGGCCAACCTGGCAGAACACGAGGGCTTTGGTGTCCTTGAGCTCGTCGAGGTGATCGCGCAAAGAATCGAGCTCGATGTTAATGGCACCAGTGATGGTGCCGTTGGCGTGCTCACCGGGGGTGCGGACGTCGATAAGCGTCCAGCCCTCGTCCACGTAGCGCGCGATCTCGTTGAAGGCCACCGTGCGCTCGCCGTGTTTGATGTTGTCGTTGACGAAGCCGGCCATGTTGACCGGGTCCTTCGCGGAACCGAACTGCGGCGCGTAAGCGAGCTCGAGGTCCGCCAGGTCGGAGGCGGTCAGACGGGCGCGCATCGCGGTGGCGATGACGTCGATGCGCTTGTCGGCGCCGTCCTCACCGATTGCCTGGGCGCCAAGGATGGCATCCGTGTCCGCGTCGACGACGAGCTTGAGGTGGATCTGGCTCGCGCCCGGGTAGTAGCCGGCGTGGTTGGACGGGTGCAGGTAGACGGTGCGCACGTTGCGGCCCTCGGCCCGCGCGCGCTTCTCGTTCCAGCCGACCGCCGCCGCCGCGAGGCCGAACAGGCCGACGACCGAGGTGCCGAGGACGCCGCGGGCGGCGGTGTCGCGCCCGGTCATCACGTCGGCGACCAGGCGGCCGTGGCGGTTCGCGGTCTGGGCGAGCGGCACGAGCGTCGGCTCGTCGTTGACGGCGTCGCGCTTCTGCGTGGCGTCGCCGACGGCGAAGATGCGCGGGTCGGAGGTGCGCATGGCATCGTCGACGACGATACCTCCGCGCTCCCCGACCTCAAGGCCGGCCTCGGAGGCGAGTGTGCTGGCGGGCTTGACACCAATCGCGACGATGACGACGTCGGTGTCAATGGTCGTTCCGTCGTTAAGGCTCACACCGGTTTCGGTGATCTCGGAGGCGGCGGAATTGGTCAGGACGACCACACCGTTATCCTCGAGGCGCTTTTTCACGATGGCGGCCATCTCGGGGTCCAGCGGCCCCATGATCTGGGGGCTGGCCTCGATGATCGTCGTGGTGATGCCGCGGTGCGCGAGGTTCTCGGCGACCTCGAGGCCGATGAAACCGCCGCCGATGATGGCGGCCTTCTTCGCGCCCTCGACGGCGGACTTGATGGCGTCGAGGTCCTCGACGGTGCGCAGGCTGAGTGCTCGCTCGATGCCGGACAGCGCCGGGCGCACGGGGGTGGCACCCGGGGAGAGAACGAGGTAGTCGTAGGCGATGGTGTCGCCTGCGTCGGTGGTGACGGTCTGAGCGTCGCGGTCGATCTTGGTCGCGCGGGTGTTGACGCGGACGTCGAGGTTGAAGCGGGAGTTGAGGGATTCGGGGGTCTGCAGGAGCAGTGA	MAALANLAEHEGFGVLELVEVIAQRIELDVNGTSDGAVGVLTGGADVDKRPALVHVARDLVEGHRALAVFDVVVDEAGHVDRVLRGTELRRVSELEVRQVGGGQTGAHRGGDDVDALVGAVLTDCLGAKDGIRVRVDDELEVDLARARVVAGVVGRVQVDGAHVAALGPRALLVPADRRRREAEQADDRGAEDAAGGGVAPGHHVGDQAAVAVRGLGERHERRLVVDGVALLRGVADGEDARVGGAHGIVDDDTSALPDLKAGLGGECAGGLDTNRDDDDVGVNGRSVVKAHTGFGDLGGGGIGQDDHTVILEALFHDGGHLGVQRPHDLGAGLDDRRGDAAVREVLGDLEADETAADDGGLLRALDGGLDGVEVLDGAQAECSLDAGQRRAHGGGTRGENEVVVGDGVACVGGDGLSVAVDLGRAGVDADVEVEAGVEGFGGLQEQ				NA	NA	NA	NA	NA
AK009_08636	261	csoR_2	COG1937	Copper-sensing transcriptional repressor CsoR	ATGAAATTGACCGAGGCGGAGATCAAGCCGTCGTTAAGCAGGCTCAAGCGAGCCCGCGGCCAGCTCGACGCGGTGATCCGCATGATGGAGGAAGGTCGCGAGTGCGAGGACATTGTCACCCAGCTCTCCGCCGCTGACAAGGCGGTCAGCCGGGCGAGCTACCAGGTGCTCGTCACCATGATGAGGCGCTGCATGGATCCGACCGATCTTGACACGCCGGACCCGCAGGCACTTGAGAAGATGTTCCTCTCGTTTGCCTGA	MKLTEAEIKPSLSRLKRARGQLDAVIRMMEEGRECEDIVTQLSAADKAVSRASYQVLVTMMRRCMDPTDLDTPDPQALEKMFLSFA	PGPT0004175_1363	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK009_08637	390			hypothetical protein	ATGCGACTCCATGAGGTGGACCTCGTCGACGGTGAAGTCCGGCCCACAGTAGACGGAGAGCGCGCGGGAATGATCCTCCATCAGCCACACATCCCGGGTGCGGTTGCACCGTTTGGCAACCGTGAGGTGAGCCCGCTGCCGGCGCCGCTCGTCGCAATCGACGGAACAGTCCGCCATCAGCTCGCGCAGCTGCGGCTTGTCCCCACCCACTCCGATCCAGAGGGTACGACGATCAAACGCCCCCGCGCCTCGAAGGTGGAGGCGCAAGGGGCGTCTGAAAGCTGTTGCTTGGGCGAGGTGGTCGGTCACCGCGGCGGCGTCATTTGGTTGGTTACCGTAGAACGCCATCGTCAGGTGCCACGTGTCTGGGTCGGTCCACCTCAGTTCTGA	MRLHEVDLVDGEVRPTVDGERAGMILHQPHIPGAVAPFGNREVSPLPAPLVAIDGTVRHQLAQLRLVPTHSDPEGTTIKRPRASKVEAQGASESCCLGEVVGHRGGVIWLVTVERHRQVPRVWVGPPQF				NA	NA	NA	NA	NA
AK009_08638	462			hypothetical protein	GTGGAGCAGGACGGCGAAAGAAAGGCACATGATCCCCATGGGGAGCGCCGTGGGGGCCATACGCGGCCCTTTTCCGTCGGCTGCCGTGCCTATCACGCCGACGGCGACGTATCCGGCGGTGGCGAGGTGCGGTCGGACATAATAATTTGCAGAACCTACTTCCCCCTTTCCGGGGTTCGGGCCCGTGCATCCCAATTCCTGTTCGCTGCGCCGCACGATGGCGTCCTCGCACGCCTCGCCTGGGCCGGGGTGGCCGCAGAAGCTGTTGGTCCATACTCCCGGCCTGGTCCGCTTCGTCAGGGCGCGCCGGGTCATCAGCAGCATCCCCTCCGAGTTGAGCAGGTAGCAGGAGAATGCGAGGTGAAGGGGGGTGTGGTCCGTATGCACGGTTTCTTTCGGGGCGGAACCGATGGTGTTGCCCGCCTCGTCCACCGTGACTACCAGCTCGATGCTATTCATTAA	MEQDGERKAHDPHGERRGGHTRPFSVGCRAYHADGDVSGGGEVRSDIIICRTYFPLSGVRARASQFLFAAPHDGVLARLAWAGVAAEAVGPYSRPGPLRQGAPGHQQHPLRVEQVAGECEVKGGVVRMHGFFRGGTDGVARLVHRDYQLDAIH				NA	NA	NA	NA	NA
AK009_08639	414			hypothetical protein	GTGACCATCACCAGCACCTACCCCGTTCTCATGTCCAAGGACGTTGCAGCCGCGGCTGCTTTCTACACCAACAACTTCGGGTTCGACACCACCTTCAGCACCGACTGGTACGTCAGCTTGAAATACGACGCATTCGAGTTGGCCATCGTGGACAAGGACCATCCCACCGTTCCCGAGGGATCCAACGCGCTTCCGGCGGGAATGCTGCTCAACATCGAAGTCGACAACGTGGATGACATCTACGCGAAGGTCGTTTCAGGCTCCGGCCTCTACGTTGTTCTTGATATCCGCGACGAGGACTTTGGTCAGCGCCACTTCATTCTCACGGGGCCGGATGGAGTCCTTATCGACGTCATTCAGCCGATTGAGCCCAGCCCAGAATTCGCAGCCGCCTACGGGCACGCCCCCGAGTAG	MTITSTYPVLMSKDVAAAAAFYTNNFGFDTTFSTDWYVSLKYDAFELAIVDKDHPTVPEGSNALPAGMLLNIEVDNVDDIYAKVVSGSGLYVVLDIRDEDFGQRHFILTGPDGVLIDVIQPIEPSPEFAAAYGHAPE				NA	NA	NA	NA	NA
AK009_08640	600	betI_4		HTH-type transcriptional regulator BetI	TTGGCACGATCCTCAGCCGAAGTCGCAGCTCTAACCCGGCGCCGAGTGCTCGACCACGCGATTGAGATGTTCGACCGGAACGGGTTCGCGGGCACCGCACTCGATGATGTCGCGCGCGCAGCGTCCGTCACCCGCGGTGCCGTGTACCACCATTTCGTGAGCAAGAAGGGTCTTTTCGTCGCTGTCATGGAGGCGCTTCAAGCCGAGGTGGCGCAGGAGGTGGAGAGGCGAGCGCACGACGCTGGCGATTCCGCTCTGGATCAGCTCCGAGCCGGATCGCACGCGTTCGTCGACGCCATCACCCGCCAGCCGAGGTTGAAGATTCTGCTTATCGACGCCCCCGCGGTCGTCGGCTGGCGAACCTGGCGCGACCACGACGCGGCTCACTCCATGCGCCACCTTCGCGAGGGCCTCGAGCAGGTCGGGGTGCCCGAAGCGCTGCTCGATGCAGTGACAGTCCAGCTCTCCGGAGCCATGAATGAGGCCGCATTGTGGGTGGCCGAGCACGATGGTGACGAGCTTGCACGGGAGAAAACCCGGGAAGCTCTGGATGTCTTGATTGACGCGCTCGCCCGCTACAGTGGCGCCCATGAGCACTAG	MARSSAEVAALTRRRVLDHAIEMFDRNGFAGTALDDVARAASVTRGAVYHHFVSKKGLFVAVMEALQAEVAQEVERRAHDAGDSALDQLRAGSHAFVDAITRQPRLKILLIDAPAVVGWRTWRDHDAAHSMRHLREGLEQVGVPEALLDAVTVQLSGAMNEAALWVAEHDGDELAREKTREALDVLIDALARYSGAHEH				NA	NA	NA	NA	NA
AK009_08641	621			hypothetical protein	ATGAGCACTAGCGTCCGATCCGCGAACAAGTCCGAGATTCCTGCTGTCGCCGCCCTGCTGGGCAGTGCGTTTGCACTCGATCCGTCCTTTCGTCGCATCCTCGGTGAGCGCGGCCGCGAGGAGTCGGAGGCGGAGCTGACAACGCTGTCGGTGACGCTGATCCGCCATCACTACTTCGACTCCGGCGAGGTCGACGTGGCAGTGGGTGATAGCGGGCAGATCCTCGGCGCAGCGCTATGGGATCGGCCGGGCTCAACGCTCGGATTCAAGGCGAAGGCTGCGGCAGCGCCGCAGGTTGTGCGGCTTATGGGCCGCAGATTGGCAAAGGAGATTCTCACCGCAGTGCGCGTCGGCAGCTACCACCCCAAGTTTCCGCACTGGTACCTCTTCGTCATCGGCGCAGCCCCCGAGGCGCAGGGCAAGGGGGTGGGCACCGCGCTGCTCGCCCGCGGCCTGGAGCGCGCGGGCGACGACGCCGCCTACCTCGAGGCGACCACCCGGGCCTCGGCGCGGCTCTACCAGCGGATGGGCTTTGTCCCGCTAGGTGCCAACCCGGTGCCAACCCCCGGACAGCAGCCTGAGTTGGGAATGTGGCGCCCCGGCGCGATGCCAAACAGCTAA	MSTSVRSANKSEIPAVAALLGSAFALDPSFRRILGERGREESEAELTTLSVTLIRHHYFDSGEVDVAVGDSGQILGAALWDRPGSTLGFKAKAAAAPQVVRLMGRRLAKEILTAVRVGSYHPKFPHWYLFVIGAAPEAQGKGVGTALLARGLERAGDDAAYLEATTRASARLYQRMGFVPLGANPVPTPGQQPELGMWRPGAMPNS				NA	NA	NA	NA	NA
AK009_08642	315		COG2963	Insertion element IS6110 uncharacterized 12.0 kDa protein	ATGCCGAGGAAATTTGATCAGGATGCGAAGGGTCGCGTCGTTCGTTTGGTAGAGGATCGCATCCTGGCGGAGAACCTTTCGATGCAGGCCGCGTGTCAGGCCGTTGCCCCGAAACTAGGTATCTCGTGGCACACCGCCCGCCAGTGGGTTCAACAGGCCCGCCGGGATGGGGTTATCACTCGTGTTGAAGGAGACGTGATTGCTGAAAACGCCAGGCTACGTCGAGAAAACCAAGAGCTGCGAGACACCAATGAATTGTTGAAAGCCGCTTCGGCTTTTTTCGCATCGGAACTCGACCCACAACGTCGGAGATGA	MPRKFDQDAKGRVVRLVEDRILAENLSMQAACQAVAPKLGISWHTARQWVQQARRDGVITRVEGDVIAENARLRRENQELRDTNELLKAASAFFASELDPQRRR				NA	NA	NA	NA	NA
AK009_08643	201			hypothetical protein	ATGATCCGTTTCATTGATGAATACCGGGATCGTTTCACAGTCGAGTTCATGTGTGCGACGTTGAAAAATAATCGTGTAGGCGGCTTCATCACCTCTCGTGGGTACCGCCAATCTAAAACCCGCGGACTGAGCGCCCGCCGTCTTCGTGACGCTGCAGAGACTGGGGATCAACCCCGCAGGCCGCGGCCTGAGCGGTGGTGA	MIRFIDEYRDRFTVEFMCATLKNNRVGGFITSRGYRQSKTRGLSARRLRDAAETGDQPRRPRPERW				NA	NA	NA	NA	NA
AK009_08644	861			hypothetical protein	ATGTCTATTACTTTTCCCGCTGAGAGGGTTCTTCGGTGGCTAGCGGACCAGTCCGACCAACAGATCTCGGCGGTGCCGACGGACGTGATTTCTCCAGACGATTCTCTGTCCGTGTATGAGGAGCTTGTCGGCGCCTCTCTGATAAAAGAAAACAGGACACTTGACGGAAGTTTTAGCTTTATGTTGACGAACGAAGGGCGGATCGAAGCGTCCAAGGCAAAGCATTCCTACCGGGCATCGCTGGCGCAGCGCAGAATTCTGGAATGGCTCACCATTCATCCAACTTCTGCACCCTCCGGCCTTCTAGAAACGGAGTGGGCTGAAGATTTTAGCGGATCTTTAACCGAGCAAGAAATTGGGCAGGCCACTGATGAACTGAAGGACAGCGGCTACATTGCGGGCACGGAAACCTGGGGAGGCGGAATGATCAGAGCAAGGCTCACTAGTGCGGGTCACCAGCTGTATCGCAGCCAGAAAAGTATTGACCAGTTCAACCAGCCAGGGGGAGCACCCACCATGAGCATTTCCGCAGACAATTACGGGAACCAAACCATCGGAAACCAAGCGGTCGGGAGTCAGGTTGGCTCCATGACCGCCGACATGTCAATGAATGTGACAACCGATGACATAGTTCGAGCTTTGGAAGAGTTCCGCACAACTGTTCAATCAGCGGAGGTGCCGGGTGTCTCCGAGGAAGAAAAAAAAGATCTGATTGAGGAGGCGACCAAGATCCAGGAAAAGCTCCCCAAACGGGGAATCGACTGGGCGCGTCAATCCATTCAGGCGCTGGTCACTGCAACCATGTCTGGGCTCGGAGAAGGCTTCGCAACGTCTCTTCTAAATGTTCTTCCGAGTAACTGA	MSITFPAERVLRWLADQSDQQISAVPTDVISPDDSLSVYEELVGASLIKENRTLDGSFSFMLTNEGRIEASKAKHSYRASLAQRRILEWLTIHPTSAPSGLLETEWAEDFSGSLTEQEIGQATDELKDSGYIAGTETWGGGMIRARLTSAGHQLYRSQKSIDQFNQPGGAPTMSISADNYGNQTIGNQAVGSQVGSMTADMSMNVTTDDIVRALEEFRTTVQSAEVPGVSEEEKKDLIEEATKIQEKLPKRGIDWARQSIQALVTATMSGLGEGFATSLLNVLPSN				NA	NA	NA	NA	NA
AK009_08645	279			hypothetical protein	GTGACGTGTCGCGGGGGATCTACCGACACATGCAAGAACCGCTTATCGCCAGGTGAGGGTAGCGGGGTCCCATTCCCCCAACGCTACATCGGGGTCATCTCCCAAGATGGGGTCCAGGAGCAGGCTAGCTATACGCAACGCCTCGCCAAAGTTCCGGAGGTTGTCCCGTGCTCCGGTGAATGTCTTCGCCTTGGTCGTGTACTGGGCTTCCCACTTCTCGTCGGGCGGAAGGAGGCGCTTCGGCAGGATAATGGAACGCACTCTGCACTGGGTATCTAA	MTCRGGSTDTCKNRLSPGEGSGVPFPQRYIGVISQDGVQEQASYTQRLAKVPEVVPCSGECLRLGRVLGFPLLVGRKEALRQDNGTHSALGI				NA	NA	NA	NA	NA
AK009_08646	789			hypothetical protein	GTGGTTCTCGTCAGCGTTGGGCGACAGCGATGCCAGAATCGCCGGGGAGACCCGTGTCTCATCCTGCGGGAAGAGACCCTCGTAACCGAGGTTGTTGAGCGCCTTGTTGGCGTTGTAGCGCAGGAAGCGCTTCACGTCTTCGGTCCAACCCAGCGGGTCGTAGACGTCCTCGGTGTACTGCGTTTCGTTCTCGTAGAGGTCGTAGAGCAGGTTAAAGGTGTAATCCTTCAGCTCTTCGCGCTCGGTCTGGCTCAGGCCGGCCTGGCCGCGCTGGTACTTGTAACCGATGTAGTAGCCGTGGACGGCCTCGTCACGGATGATAAGACGGATCACGTCCGCGGTGTTGGTCAGCTTGGAGTGCGCCGACCAGTACATCGGCAGGTAGAAGCCGGAGTAGAAGAGGAACGACTCAAGCAGCGTGGAGGCGACCTTCTTCTTATGCGGGTTGTCGCCCTCGTAGTAGCTCAGGATGATCTTCGCCTTGCGCTGCAGGCTCGCGTTCTCCTCGGACCAGCGAAACGCGTCGTTGATCGCCGGGGTGTCCGCCAGCGTCATAAAGATGTTGGAGTAGCTCTTCGCGTGAACCGACTCCATGAAGGCGATGTTGGTGTAGACGGCCTCCTCGTGCATCGTTTGCGCATCAGGCAGCAACGACACGGCGCCGACGGTGCCCTGAATCGTGTCCAGCAGGGTCAGGCCCGTGAACACGCGCATGGTTGCGGTCTTCTCGTCGTCGGTGAGAGTGCGCCACGACGGGATGTCGTTGGACACCGGCACCTTCTCGGGTAG	MVLVSVGRQRCQNRRGDPCLILREETLVTEVVERLVGVVAQEALHVFGPTQRVVDVLGVLRFVLVEVVEQVKGVILQLFALGLAQAGLAALVLVTDVVAVDGLVTDDKTDHVRGVGQLGVRRPVHRQVEAGVEEERLKQRGGDLLLMRVVALVVAQDDLRLALQARVLLGPAKRVVDRRGVRQRHKDVGVALRVNRLHEGDVGVDGLLVHRLRIRQQRHGADGALNRVQQGQAREHAHGCGLLVVGESAPRRDVVGHRHLLG				NA	NA	NA	NA	NA
AK009_08647	207			hypothetical protein	GTGGTCGGTGGTGGTCAGCAACTTGTAGAACTTCGAACCCTTGCGGGGGTTACCCGTGGGCTCAGGCCGAGCGGGCGGGACGTACGTGTCCACCCTTGGCGCCACTGCGGTCATGCGATCCTCCTGACTGACGGCACCCGCGCGCTACTGCCGCCCGAGTTCTTCGGGCGAGCAGCGAGCACGGATGCCACAACTGATACCGGCTAA	MVGGGQQLVELRTLAGVTRGLRPSGRDVRVHPWRHCGHAILLTDGTRALLPPEFFGRAASTDATTDTG				NA	NA	NA	NA	NA
AK009_08648	1530			hypothetical protein	GTGGTTCGCTCCCTTGTAGGTTGCCGGGCTGTCATCGCTGTGACCGGTGTGGGCCTCGCGGCGCAGGCGGCCAACCATATGCGGGTAGTGCAGCTCGAACGCGGGGCGCTCGGAGCGGATGCGCGGCAGCGCCGTGAAGTTGTGGCGCGGCGGCGGGCAGGAGGTAGCCCACTCGAGAGAGTTGCCGTAGCCCCACGGGTCGTCGACGGTGACGATCTCACCGTAGCGCCAAGACTTGAACACGTTCCAGATGAACGGCAGCATACCGACACCCAGGATGAACGCACCCACCGTGGACACCTGGTTGAGCAGGGTGAAGCCGTCGGTGTCCAGGTAGTCGGCGTAGCGGCGCGGCATGCCCATGTTGCCCAGCCAGTGCTGGACCAGGAACGTCATGTTGAAGCCGATGACGGTGAACCAGAAGTGGATCTTGCCCAGGCGCTCGTCCAGCATGCGACCCGTCATCTTCGGGAACCAGAAGTACACGCCCGCGGTGGAGGCGAACACGACGGTGCCGAACAGGGTGTAGTGGAAGTGCGCAACCACGAAGTAGGAGTCGTGCAGGTGGAAGTCCAGCGGCGGCGCAGCGAGCATGACGCCGGTCAGGCCACCGAAGAGGAAGGTAAACAGAAAGCCCGTTGCCCACAGCATCGGGGTTTCAAAGGTGATGTGGCCGTTCCACATGGTGCCCAGCCAGTTGAAGAACTTCACGCCCGTGGGCACGGAGATGAGGAACGTCATGAAGGAGAAGAACGGCAGCAAGATCGCACCGGTGGCGAACATGTGGTGCGCCCACACGGCCATGGACAGGCCGGCGATCGCCAGGGTCGCGAACACCAGGCCGATGTAGCCGAAGATCGGCTTCCGGGAGAAGACCGGAATGATCTCGGAGATGACGCCGAAGAACGGAAGTGCGAGGATGTACACCTCGGGGTGGCCGAAGAACCAGAAGAGGTGCTGCCACAGGATGGCGCCGCCGTTGGCGGTGTCGAAGATGTGGCCGCCGAGGAGGCGGTCGTACAGCACGCCCATTGCGGCGGCGAGCAGCAGCGGGAAGATCATCAGGGCGATGATCGAGGTCACGAAGACGGTCCAGGTGAACACCGGCATGCGGAACATGGTCATGCCCGGCGCGCGCAGGGTCAAAACGGTGGTGAGCATGTTCACAGCCGAGGCGACGGTGCCGATACCGGTGGCGCCGACGCCGATGATCCACAGGTTCGCGGACACGGACGGCGTGTGGGTGGCGTCGGCAAGCGGCATGTACATGGTCCAGCCGAAGTCGGCCGCGCCGCCCGGGGTGAGGAAGCCGGCGAGCATGGCCAGAACGCCGACCTGGGTGATCCAGAAACCGAACGCGTTCAGGCGGGGGAAGGACACGTCCGGGGCGCCGATCTGCAGCGGCAGAACATAGTTGGCGAAGCCCCACACGATGGGTGTGCCGAAGGCCAGCAGCATCACCGTGCCGTGGAGGGTGAACAGCTGGTTGAACTGCTCGTTGGAGAGGAACTGCAGGCCCGGGCTGAATAG	MVRSLVGCRAVIAVTGVGLAAQAANHMRVVQLERGALGADARQRREVVARRRAGGSPLERVAVAPRVVDGDDLTVAPRLEHVPDERQHTDTQDERTHRGHLVEQGEAVGVQVVGVAARHAHVAQPVLDQERHVEADDGEPEVDLAQALVQHATRHLREPEVHARGGGEHDGAEQGVVEVRNHEVGVVQVEVQRRRSEHDAGQATEEEGKQKARCPQHRGFKGDVAVPHGAQPVEELHARGHGDEERHEGEERQQDRTGGEHVVRPHGHGQAGDRQGREHQADVAEDRLPGEDRNDLGDDAEERKCEDVHLGVAEEPEEVLPQDGAAVGGVEDVAAEEAVVQHAHCGGEQQREDHQGDDRGHEDGPGEHRHAEHGHARRAQGQNGGEHVHSRGDGADTGGADADDPQVRGHGRRVGGVGKRHVHGPAEVGRAARGEEAGEHGQNADLGDPETERVQAGEGHVRGADLQRQNIVGEAPHDGCAEGQQHHRAVEGEQLVELLVGEELQARAE				NA	NA	NA	NA	NA
AK009_08649	1254	serB2	COG0560	Phosphoserine phosphatase SerB2	ATGCCCACTTTCGAGGTCGAGCTCCAGCAAGGACTCAAACACGCAGTGATCACCACCTCCGGCCCGGATCGCCCCGGTGTATCCGCCGCGTTCTTCACGGTGCTCGCCAACCACGGCGTGCAGCTTCTCGACGTCTCCCAGGTCGACTTCCGAGGACGACTGATGCTGTCCACCTTCGTGGGAATGGACCCGCTCAAACTCACCGACTTGGAGCGCGAACTGCGCGCGGGTCTGTGGGAGTTCGGGCAACGGGTCACCATCGAGACGGGCGGGGAAGCGAGGTCCGTCTCCCGGCCCCGCTCGACCCACGTGATTGTCATGCTGGGAAACCCCGTCCAGGCCGAGCAGGTCTCCCGCCTGGGCGCAACCCTTGCCGGGTTCGGGGCGAACATCGACCGCATCAACGGCATTTCCAACTACCCAGTGACGGGCCTCGAGTTCCGCGTGACGCTGCCCGACTACAGCCCCGGTAGCGGGCGGCAGGTGCGTGAGGCGCTCGCGGAGCTGTCCAACGAGCTAGGCGTCGACCTGGCCATGGAAAACGCTGGTCTTCACCGCCGCGCGAAGCGCCTGGTATGTTTCGACTGCGACTCCACCCTGATTACCGGCGAGGTCATTGAGATGCTGGCGGCCCACGCCGGCAAGGAAGCCGAGGTCGCCGAGGTGACCGAGCGGGCCATGCGGGGAGAGCTTGACTTCGAAGAATCTCTGCGCGAACGGGTGGCGACGCTCGCGGGGCTGGATGCCTCTGTGATCGATTCGGTTGCCGCCGACATTGAGCTGACCCCGGGGGCGCGGACCACTATCCGCACACTGAACTCCATGGGTTACCGCACGGCAGTGGTCTCCGGCGGGTTCATTCAGGTCCTCGAGGGTCTCGCCGAGGAGCTCGATCTGGACTACGTGCGCGCCAACACGCTCGAAATCGTTGACGGGAAGCTGACCGGGCGCGTGGTTGGGGAGATCGTCGATAGGCAAGCCAAGGCACGGCTGCTCGCGGACTTCGCGCAGGACTCGGGGCTGCAGATGTCGCAGACGGTCGCGGTCGGTGACGGTGCGAACGACATTGACATGCTCGGCGTGGCGGGGCTGGGTATCGCGTTCAACGCCAAGCCGGCGCTGAAGGAGGTCGCGGACGCCAGCGTGAACCACCCGTTCCTGGATGAGGTGCTCTACATTCTTGGGATTCCGCGCGAGGAGATCGATTACGCCAACGAGGCTGCGGGCATCGTCGGGCGCGTTGCGCTGGACTAG	MPTFEVELQQGLKHAVITTSGPDRPGVSAAFFTVLANHGVQLLDVSQVDFRGRLMLSTFVGMDPLKLTDLERELRAGLWEFGQRVTIETGGEARSVSRPRSTHVIVMLGNPVQAEQVSRLGATLAGFGANIDRINGISNYPVTGLEFRVTLPDYSPGSGRQVREALAELSNELGVDLAMENAGLHRRAKRLVCFDCDSTLITGEVIEMLAAHAGKEAEVAEVTERAMRGELDFEESLRERVATLAGLDASVIDSVAADIELTPGARTTIRTLNSMGYRTAVVSGGFIQVLEGLAEELDLDYVRANTLEIVDGKLTGRVVGEIVDRQAKARLLADFAQDSGLQMSQTVAVGDGANDIDMLGVAGLGIAFNAKPALKEVADASVNHPFLDEVLYILGIPREEIDYANEAAGIVGRVALD				NA	NA	NA	NA	NA
AK009_08650	1749			hypothetical protein	GTGCGTGGCGGAGACCTCCATGAACCCGGAGCGGCCCGCGGCGTTGGCGGCTTTGGCGCGCGCCTGCAGCAGCGGGTCGTCGGGGCGGGGGAAGGGGATGCGGTCGATGATGACGAGCGAGAGCGACGAGCCGGGCACATCCACGCCCTGCCACAACGACAAGGTGCCGAAGAGACACGAGTTCTCGCTGGCAGCGAACGCGCTGACCAACGCGCCCGTCGAGTCCTCGCCCTGGAGCAGGATGTCGAAGGGCAACCGCGCGCGCATCGCCTCCGCGGCCTGCTCGGCAGCGCGGCGGGAGGAAAAAAGGCCCAAGGTGCGTCCGCCGGCCGCGGTGATGAGCTCGGCGACCTCATCGAGCGTCTCCGCCGCCAGGCCGTCGCGCCCGGGCGCGGGCAGGTGCGCGGCCGTGTACAGAATCCCGGAAGAACGCGGGTTGAAGGGGGTGCCCGCGTCCATCCCGTCCCACGTCCCGTCGGGCAGGCCCCACGCGGCGGCGACCGCGTTGAAGTTGCCGCCAATCGTCAGGGTTGCCGAGGTCAACACCACCGTGTGCTCCCCGAAAAGGCGCTCGCGCAGCAGCGAGGCCACGGACAGCGGCGCGACCGATACGGAATCGCCGACGCGCTCCGAACGCGTCAGCCACACCACGTCCGTGTGTTTCGTCGGGTCGTCCTCGTCGAAGACGCCGAGGATGCGCACGATGGCGTCGTGAAGATCGCCGAGGTGGTTCTTCAAGTTCTCGCGCTCCGCGAAGGTTTCCGGCTCGTTGTCGGCCTCGCCCTCGGGGCCTTTCGCGATTGCCTCTCGCGTGTGCCACAGCGCGTCGCGCACCGCGACGAACCCGCCGCGCGCCGCCTCCGAGATGTTCTCCCACCTTCCGGGCGTCTCCACGTTCATCGCGGCGGCAAAGTCGTCGACGACCGTTTCCAGCTCGCCCTTCTCAGCTCCAAGCTTGTCCGCGCGTCTCGACGCCATCGTCAACGCCCTCGCCGAAATCTCATTAGTGGCCACCGAAGTGATGCGCCCGTCGAGCTCGTGGGCCTCGTCGATGATGACCACGTCGTGTTCCGGCAGCACATCGGTATCGGCCAGCGCGTCAATGGCGAGCAGCGCGTGGTTGGTGACCACGAGGTCCACGTTGCGGGTGCGCTCGCGCGCCAGCTCGGCGAAGCATTCCTCGCCGTGCGGGCAGCGCGCCGCGCCCAAGCACTCCGACGAGGTCACGGAAACCTGACGCCACGCGAGGTCGGGAACGCCGGGCTCAAGATCGTCGCGGTCGCCCGTCTCCGTCTCCTGCGCCCACTCGTTGACGCGCTTGACGTGGCGGCCCAGCCACGAGATGTCGTCCTCCTCAATCAGCGCCTCGGGGACGTCGCCAGGCAGCGACAGCTTGTGGCGGCACACGTAGTTGTTGCGGCCCTTCTGGATGGCGAAGGTGGGGCGGCGTTCCAGCAGCGGCTCGAGGGCGTCGGCAAGCCGCGGCAAGTCGCGCTCGACCAGCTGGCGCTGCAGCGCGATCGTCGCGGTGGACACCACAACGGTGCCGCCGGTCGCGTGGGCGTGGCGGATCGCCGGCACGAGGTAGGCCAGCGACTTTCCGGTGCCCGTGCCAGCCTGCACGGCCAGGTGGCGCTCCTCTTCCAGCGCCCGAGTCACGGCCTTGGCCATGGCGACCTGGCCCGGGCGCTCCGCCCCGCCGAGCGCATCGACGGCTGCGGCGAGAAGATCGGTGGTCGGTTGGGCTAG	MRGGDLHEPGAARGVGGFGARLQQRVVGAGEGDAVDDDERERRAGHIHALPQRQGAEETRVLAGSERADQRARRVLALEQDVEGQPRAHRLRGLLGSAAGGKKAQGASAGRGDELGDLIERLRRQAVAPGRGQVRGRVQNPGRTRVEGGARVHPVPRPVGQAPRGGDRVEVAANRQGCRGQHHRVLPEKALAQQRGHGQRRDRYGIADALRTRQPHHVRVFRRVVLVEDAEDAHDGVVKIAEVVLQVLALREGFRLVVGLALGAFRDCLSRVPQRVAHRDEPAARRLRDVLPPSGRLHVHRGGKVVDDRFQLALLSSKLVRASRRHRQRPRRNLISGHRSDAPVELVGLVDDDHVVFRQHIGIGQRVNGEQRVVGDHEVHVAGALARQLGEAFLAVRAARRAQALRRGHGNLTPREVGNAGLKIVAVARLRLLRPLVDALDVAAQPRDVVLLNQRLGDVARQRQLVAAHVVVAALLDGEGGAAFQQRLEGVGKPRQVALDQLALQRDRRGGHHNGAAGRVGVADRRHEVGQRLSGARASLHGQVALLFQRPSHGLGHGDLARALRPAERIDGCGEKIGGRLG				NA	NA	NA	NA	NA
AK009_08651	756			hypothetical protein	GTGCGTCGGAATCGCGGGTTCATCGCGCGACAGCGCCAGGCCCTCCCAGGGGAGCGTCGTGCGGGCGGCATCAAGGTAGTCGCGGGCTTGCTCGAGGTCGCTCTGGTGCTCCACAATGTGGCCGTCGCGGATCAAGGGGATGACCATCTCGCGGTAGGTCAGGGCCTTCTTGCGGGTGATCTCCTGGTCGGCGGGGTGGACGAGCTCGGCGACGGCGACGCCGGAGGCGCGGTAGGCACGCAGCGCCGACTTGGTGCCGCCGTAGGTGACCTTGCCGCGGGAGCGCTTCGCCACCGGGTGGCCCTCGACCTCGACCAGCTTGTACACCATCCCGGCTGTCGGGGCGCCGGAGCCGGTGACCACCGAGGTGCCCACGCCGAAGCCGTCGACCGGGTCGCTGCGCAGACCGGCGATGACAAACTCGTCGAGGTCGGAGGAGACGATGATTTTTGTATCGACGGCGCCGGCGTCGTCAAGCTGCTTGCGCACCTGGCGGGAAACGATGCCGAGGTCGCCGGAGTCGATGCGCACCGCCCCGAGCTTCGTGCCCGCGACCTCGAGGGCGTTCTCCACACCCTTCGTAATGTCGAAGGTGTCCACCAAGAGCGTGGTTTCCGGGCCCAAGCTCTCCACCTGGGAGGCGAAGGCGGCCTTTTCGTCGGGCACGCCGTTGTCGTCGACGTGCAGCAGCATCCAGGCGTGCGCGGCAGTGCCGGCCTTGGGGATGCCGTAGCGCATCGCGGCTTCCAAGTTTGA	MRRNRGFIARQRQALPGERRAGGIKVVAGLLEVALVLHNVAVADQGDDHLAVGQGLLAGDLLVGGVDELGDGDAGGAVGTQRRLGAAVGDLAAGALRHRVALDLDQLVHHPGCRGAGAGDHRGAHAEAVDRVAAQTGDDKLVEVGGDDDFCIDGAGVVKLLAHLAGNDAEVAGVDAHRPELRARDLEGVLHTLRNVEGVHQERGFRAQALHLGGEGGLFVGHAVVVDVQQHPGVRGSAGLGDAVAHRGFQV				NA	NA	NA	NA	NA
AK009_08652	495	clpS		ATP-dependent Clp protease adapter protein ClpS	GTGCGCGGTGCCGTCCTTGAACGCGGCATCGAGCATAGTCAATTCGTACATGTCGGTCAGAAACGCCGTCGATTCGTGCGACTGAGCCTGAAGGTTGTTCATGCGTCCACAGCGTACTCGCCGGCTGCGCGTGCGCGCCGGGTTGCGGGTAAAGTTGTGCGCATGATGTGTTCAGGTTCGTCTCAGTTGCACGCAATGGGTTCTCCCATGGCGACGCCGGAGCTCGACGAGCAACTCGACGTGGACGTGGTTGTCAGCGAGAACCTGCCGTGGATGTGCATTGTGTGGGATGACCCCGTCAACCTCATGAGCTACGTCAGCTACGTGTTCCAAACCGTGCTGGGCTACGACCGCAAGCGCGCCAACGAGCTGATGATGCAGGTCCACACCGAGGGCAAAGCCGTTGTCTCCTCGGGCGAGAAGGACAAAGTCGAGGGCGATGTGAAGAAGCTACACACCGCCGGGCTGTGGGCCACCATGCAGCAGGCCGGGTAA	MRGAVLERGIEHSQFVHVGQKRRRFVRLSLKVVHASTAYSPAARARRVAGKVVRMMCSGSSQLHAMGSPMATPELDEQLDVDVVVSENLPWMCIVWDDPVNLMSYVSYVFQTVLGYDRKRANELMMQVHTEGKAVVSSGEKDKVEGDVKKLHTAGLWATMQQAG				NA	NA	NA	NA	NA
AK009_08653	285			hypothetical protein	GTGGGCCACCATGCAGCAGGCCGGGTAAAAGAGGGGAGCGCACTTTTACATGGAGCACTGGAAGCGCAAGAAAGGTCTCATGCGCTCGGGCGTGAAGTTCACCACCCGGTTCGACCCGCTGGAGCGCGAGGTCATCGGCGATCTCACGGCAACCGTGTCGGAGGCGCTAATCGCGCGCGCCCAGTCCGCGCCGAAAGACGAGTTCTCGGAAATGATGGGCCTGTCCGCCGGCCACTCCGAGGCGCCCGCGGACCCGCGGATGCGACGCCTTCTGCCCGACTTTGA	MGHHAAGRVKEGSALLHGALEAQERSHALGREVHHPVRPAGARGHRRSHGNRVGGANRARPVRAERRVLGNDGPVRRPLRGARGPADATPSARL				NA	NA	NA	NA	NA
AK009_08654	279			hypothetical protein	GTGCGCCTCGGCCTCGTCGATAGTGACCTCGACCCCGCCCGTCGGCCCGAGCGCCGAGTTGATCACCTGCAGATTCATCAGCTTCGCCTTGATGATGTCGTTTTCGTGCAGGCTGCGCAGCAGTCCGTTGTCGCCGTCGAACTCCTCGTCGCCCTCCATCTCAAAGTCGGGCAGAAGGCGTCGCATCCGCGGGTCCGCGGGCGCCTCGGAGTGGCCGGCGGACAGGCCCATCATTTCCGAGAACTCGTCTTTCGGCGCGGACTGGGCGCGCGCGATTAG	MRLGLVDSDLDPARRPERRVDHLQIHQLRLDDVVFVQAAQQSVVAVELLVALHLKVGQKASHPRVRGRLGVAGGQAHHFRELVFRRGLGARD				NA	NA	NA	NA	NA
AK009_08655	678			hypothetical protein	TTGGGCGATCACGCTGAGGTTGTGCTCCGCGACGACGACGGTGTTGCCGGCGTCGACAAGCCTGTTGAGCTCTGTGACAAGCTTATCGACGTCATGGGGGTGCAGACCGGTCGTTGGCTCGTCGAGGACGTAGAGCGTGTGCTGCTTCGAGCTTTGCCGGGCGCGCTGCAGCTCGGTTGCCAACTTGATGCGCTGCGCCTCGCCGCCGGAGAGCTCGGGCGCGCCCTGCCCGAGGCGCAGGCAGCCCAGCCCGACCGCCCGCAGGGACTCCACGGCGTGGCGGATGGTGGCCTCCTCGGCAAACACGTCCAAGGCGTCGTTGACGGTCAGCCCCAGCACGTCCGCGATGGTGTAGCCGTTCCAAGTCACCTCGAGGGTTTCGTCGTTGTAGCGCGCGCCGGAGCAATCCGGGCACGCGGTGTAGCTGCCGGGCAGAAACACCAGCTCCACCTCGATGGTTCCGGCGCCGTTGCAGGTGGGGCAGCGCCCCGGCTTCATGTTGTAGGAGAACTGGGTCACACCCCACCCGCGCCGCTTCGCCTCGTCGGTGCCGGCGAAGAGCTTGCGCACCCGGTCGAACAGTCCGGTGTAGGTGGCCAGCGTCGAGCGCGGCGTGCGTCCAATGGGCTTTTGCGTGATACGCACCATGCGGTCGACGTTTTCGGCGCCGGTCACTGA	MGDHAEVVLRDDDGVAGVDKPVELCDKLIDVMGVQTGRWLVEDVERVLLRALPGALQLGCQLDALRLAAGELGRALPEAQAAQPDRPQGLHGVADGGLLGKHVQGVVDGQPQHVRDGVAVPSHLEGFVVVARAGAIRARGVAAGQKHQLHLDGSGAVAGGAAPRLHVVGELGHTPPAPLRLVGAGEELAHPVEQSGVGGQRRARRASNGLLRDTHHAVDVFGAGH				NA	NA	NA	NA	NA
AK009_08656	399			hypothetical protein	ATGCTCCACGAGCAGAACGGAGTTACCCAGCGAGACGAACTTCTCCACCAGGTCCGACACCGCGGTGCGTTCCTCCGGGTGCAGGCCCGCCGAGGGCTCGTCAAGCACGTAGGCCACGCCGAACAGGCCACTGCGCAGCTGCGACGCCAAGCGCAGTCGCTGCAACTCGCCCGCCGACAACGTTGGCGCGGGCCGGTCGAGGCTCAAGTGCCCGATGCCGAGCTCCACCGCCGTGCGCAGCGTGGGCACGAGCTGGGCCAAAAGCCGCTGCTCCGCCTCGTCGCGGGCGTCCTCGCGCTCCTTCGGCTCCGGGTCGAAGCGCTCGTCGAGGATGCGCAGCAGCTCGTCCATCGGCAGCGCGGTGAGGGCGTCGATGGGCAAAGAAGCGTAAGTGACTAA	MLHEQNGVTQRDELLHQVRHRGAFLRVQARRGLVKHVGHAEQATAQLRRQAQSLQLARRQRWRGPVEAQVPDAELHRRAQRGHELGQKPLLRLVAGVLALLRLRVEALVEDAQQLVHRQRGEGVDGQRSVSD				NA	NA	NA	NA	NA
AK009_08657	495			hypothetical protein	GTGCTCCATGTAGCTGAGCACGCGGCGGCGCAGCGCGTCGGAATCCGTCTCGTGCAGGGTGTCGGTCAGGTAGTTCGCAACCGACTTCCACGTGCCCTTGTAGGTCTTCTGCACCTGATCCGCGCCGCGCACCGGGTAGATGGTCACCACCGGGCGCTCGTCGGTGAACAGGATCCAGTCGCGGTCCTTTTGCTCAAGCTCGCGCCACGGGGAGTCGAGGTCGAAGTCGAGCGCGTCGAGGATGGCGAGGAAGTTCTTTCCCGCCCACGCCCCGGGCCATGCCTCAATCGCGCCCTCGTTAATGCTTTTCGACGGGTCCGGGACCATCGTGTCCTCCACCGGGCGGTGGACAACACCGGTGCCCTGGCACTTCGGGCACATCCCGGCCGTGGTGTTCGGCGAAAACGCGTCGGAGTCCAACCTCCCGCCGTTTCTCTCGCGCACCCCTTCCGCGTAGTCGCCGCAGCGCGAGTACAACAGGCGCACCGAGTTTGA	MLHVAEHAAAQRVGIRLVQGVGQVVRNRLPRALVGLLHLIRAAHRVDGHHRALVGEQDPVAVLLLKLAPRGVEVEVERVEDGEEVLSRPRPGPCLNRALVNAFRRVRDHRVLHRAVDNTGALALRAHPGRGVRRKRVGVQPPAVSLAHPFRVVAAARVQQAHRV				NA	NA	NA	NA	NA
AK009_08658	708			hypothetical protein	GTGGATCTCCGGGTACATCGCCGGGGCCAGCTCGGTGAAGCGATCGGTAAAGGCGTTGCGGATTGCCCGCGCCGGCCTGCCGGAAAACGCCCTGGTCACGACCGTGTCGCGGACCGTGAGCTCGAGCAGCGCGCGCCGGTGGGTCGCTTTGGTGCCCGCCTCCTCGGCGGTGAGGAAGCGCGTGCCGACGACCACCGCGGTGGCGTGGGCGTCGAGAAGCGTGGCGACGTCCTCGCGCGTGCCGACGCCGCCCGCCGCGAAGATCGGGCGACTCGTTCGCGCCGCGGCGATCTCGGTGAGCTCTTCTGCGCTGAACGCCACGCCGCGCTCCTCGGTGCTCAGCACCGTCGCGCGGTGCCCGCCGGCGCCGCTGCCCTGCACGAGGACGATGTCCGCGCCGAGCTCCACGATGTGGTCGATCTCCTCGGGAGTCGTCGCGTTGAGCACGACGAGTTTGCCCGCACGCGAGACCGCGGCGATGTCGGCGGCGCTGGGGTAGCCGAACGTGAACGAGATCAGCGCGGCGCGCGAGGCGAGCGCCACCTCGAGCTTGGGCGCGTAGTGGTCGTCGGACCAGCGCGGCTGCTCGGGCAGGTCCGCGCTAAACGGGAGATGCTCGCCGAGGTGCTCCCGGTAGTCCCGGTACGCCTCGCGCTCGTCGGCGTGGGGCGCCGACGGGACGAAGAGGTTGATGCCGTAGGGCCGTGA	MDLRVHRRGQLGEAIGKGVADCPRRPAGKRPGHDRVADRELEQRAPVGRFGARLLGGEEARADDHRGGVGVEKRGDVLARADAARREDRATRSRRGDLGELFCAERHAALLGAQHRRAVPAGAAALHEDDVRAELHDVVDLLGSRRVEHDEFARTRDRGDVGGAGVAERERDQRGARGERHLELGRVVVVGPARLLGQVRAKREMLAEVLPVVPVRLALVGVGRRRDEEVDAVGP				NA	NA	NA	NA	NA
AK009_08659	984			hypothetical protein	GTGGGCGACCGCGTCGACGATCGCAGCCTGGACCGCGTCCGCGGCGGCGGCAGTCAGAGCAGCGAGCTTATCGACGCCCACCTCCAACGCCCCGACCCCCGCGGGCACGGACACGGCGAACAAGGTGTCCCCGTCCAGCGGGGAGTGCGCGGGGCGCACGGCGCGGGCCAGCCCGTCGTGGCCCGCGATGGCGAGGCGCTGCAGCTGCGCCGGGCGAAGCGGGGCGTTGGTGGCGATCACCCCGATGGTGGTGTTGAGCTTCGGGCCTGGGCGCTCCAGCGCGTTGAAGGTGTCGAGCTCGACGGCGGGCTGCGTGGGGTCGCCGTAGAGCAGCCCCGTGGCGGGGTCGATGACCGAGCCCATGGGGTTGGCCACCACAGCGGCCGCGACGAGCGCGCCCTCTACCTCAATCGACGCGATGCCGAAGCCGCCGCGCAGAACACCCGCCGTCGCCCCGCAGCCGGCGCCGACGCTGCCGGTGGTGGCCGGGGCGGCGTCGTCAAGCGCCGCCGCGACGGCAGCCGCGCCGTCGGCGGCTCGTGGGCGGTGGGCGCTGTCGCCGACGACGAGGTCGAAGATCACGGCAGCGGGGACGATAGGCACCCTCGGGCCGTCCACTCCCTCGCCGAACACCTCGAAGCCGATGCCGCGGGCCTCGAGCTCGCCCATCGCGCCGTCGGCGGCGGCGAGCCCGAAGGCGGAGCCCCCGGCGAGCACGATCGCGTGGACACGCTCGACCGTGTTGTGGGGTGCCAGCAGGTCCGTCTCGCGCGTGCCCGGTCCCCCGCCGCGCACGTCAACGGCTCCGATCATGCCTTGCGGATCCCGCGAGACCAGCGCCGTGACGCCGGTGTCGCCGAGCGAGACGTGGCCGATGCCGACGCCGAGCGCAGTGAATATTTCCGTGTGCAAGTGACCCACGAGCCTAGTGTAAGCGGGCTCACCTCCCCCGGCGCGCCGTTCAGGCCGAACCGAGCTCGTTGA	MGDRVDDRSLDRVRGGGSQSSELIDAHLQRPDPRGHGHGEQGVPVQRGVRGAHGAGQPVVARDGEALQLRRAKRGVGGDHPDGGVELRAWALQRVEGVELDGGLRGVAVEQPRGGVDDRAHGVGHHSGRDERALYLNRRDAEAAAQNTRRRPAAGADAAGGGRGGVVKRRRDGSRAVGGSWAVGAVADDEVEDHGSGDDRHPRAVHSLAEHLEADAAGLELAHRAVGGGEPEGGAPGEHDRVDTLDRVVGCQQVRLARARSPAAHVNGSDHALRIPRDQRRDAGVAERDVADADAERSEYFRVQVTHEPSVSGLTSPGAPFRPNRAR				NA	NA	NA	NA	NA
AK009_08660	285			hypothetical protein	GTGCGGCAGAGCCGCCGGGTCAAGTGGATGGATGCCGAAGTAGTTCAGGTTCCCGCCGAAAATCACCGTGTTGACAATGAACACGGTCCAGATCACCGCGAGGTAGCCGAAGGCGTAGGCGAAGCCGGTGGCGCGCTTCTGCTTCGGGCTCTTGGCGTACTGCCGCTGCGAGGGCGCGAGCGGGCCTCCCATGGGCTGGTATCCGGGGGCGCCGAAACCGCCGCTGGGCTGCGAGGCGCTCGGCGGGTTGAAAGGATAGTTCTGAGTCATCGCCCCACAGCTTAG	MRQSRRVKWMDAEVVQVPAENHRVDNEHGPDHREVAEGVGEAGGALLLRALGVLPLRGRERASHGLVSGGAETAAGLRGARRVERIVLSHRPTA				NA	NA	NA	NA	NA
AK009_08661	174			hypothetical protein	ATGGTTCGTGCCGATCCCACCGGTAAACCACGTACCCAGTCCGCCGATGACGCATGCGATGAGTGTGACCTCCCAAAACACCCGCGAGCCCGAATATCCGATGAGGAAGCAGAAAACCGCGCCCGGGATAGAATTCGAGACAATGTGGCTGAGCCCGGCGTGAAGCAATGGTGA	MVRADPTGKPRTQSADDACDECDLPKHPRARISDEEAENRARDRIRDNVAEPGVKQW				NA	NA	NA	NA	NA
AK009_08662	423			hypothetical protein	TTGATACGCGCCGGAGTTAATTGTTCCTATGGTTCCGATCACACCAACGCGGTGGTTGCGCGTGGTGGCGATCGCACGGCGCACAGCGGGGCGGATGACCTCGACCACCGGGACGTCGTAACGCTCGCGCGCATCGTGCAAGAACGCCGCCGAGGCCGTGTTGCACGCGATCACCAACATCTTCACGCCCCGCTCGACAAGCTCGTCGGCGATGTTCTGCGCGTGGATACGCACGTCGGCAATCGGCTGCGGGCCGTAGGGGCCGTTAGCGGAGTCGCCGATGTAAATGAGCGACTCGTTGTGCAGCTGGTCCATCATCGCGCGCGCGACTGTCAGCCCGCCGAGCCCGGAGTCGAAAACTCCGATTGGTCGAGTATCAGGCACGGCGCTGCCCCTTGGCCGCGCGGCGCTGCTCGCGCTTAG	MIRAGVNCSYGSDHTNAVVARGGDRTAHSGADDLDHRDVVTLARIVQERRRGRVARDHQHLHAPLDKLVGDVLRVDTHVGNRLRAVGAVSGVADVNERLVVQLVHHRARDCQPAEPGVENSDWSSIRHGAAPWPRGAARA				NA	NA	NA	NA	NA
AK009_08663	249			hypothetical protein	ATGGTCAATTTCATGGGAACACCATGCCACGAAACCGCTGCGGAATCTAACCGAACGCGCGGCGCGTCAGTCGCGGCCAACCGCGCGGATCTGCGGCCCGAGGAAACGCTCGGCGAGCCGGTTGAACGTCTCTGGGTCCCCGGTCGACTCGAACACACGCGTCGGCGCGGGCGCATCGGGGCCTTCGGGGGCGAGCAGGTCGCGCTCCGTGAGCACGCGCAGGACATCCTTGGCCGTCTCCTCAGCTGA	MVNFMGTPCHETAAESNRTRGASVAANRADLRPEETLGEPVERLWVPGRLEHTRRRGRIGAFGGEQVALREHAQDILGRLLS				NA	NA	NA	NA	NA
AK009_08664	822			hypothetical protein	ATGACCGCCAGGGTACTAGAGGTCGAACACATCTCCCGCAGCGCCGAGGAGGATCTCGCCGTCGAACTCACCGCGCGCGGCCTCCAATGTGGCCTGCTTGTCGGCCCACGGCTGGATGTGGACCAGGACCAGGGTCTTCACCCCGGCGCGGCGCGCGATCTCCCCCGCCTGGGCGCCCGAGAGGTGCATTCCCCCGGGCTTGCCCTCAGCAGACGGGCCCCAGGCGGCCTCACAGAGGAAGATGTCGGCATCGCGGGCGGCGTCGACAAGCGTGGGCGTCATGCCGGAATCGCCGGAAAACGCCAGGACCTTGCCCGTGGAGCGTTCGGCGACGCGCAGCGCGTGCGACTCGAGCGCGGTGTGCTCCACCGGCACTGGGGTGACGGTGATGTCGTCAATCTCCACCGCTTTGTTCGCTACCCAGGTGGACACGTCGAAGGTGTCGGTGATGTCATCGACCTCGTCAGGGCCGTCGGCTCCCATCCGCCCGATGTGCAGCTTCGTGTACGACGGCCCGAACATCATGTGGCGCTGGCGCGCCGGCGCCGTCGGGTGAAAGCGACGCCAGATCGCCAGCGAAGCGGTGTCCGAGCAGTGATCGGCGTGAAGGTGGCTAAACAACACATGCACGTCGGCCGGGTCGTGGACCTCCTGCAGGGCCGCGAGCGCCCCTGGACCACAATCCATCAAAATGCCGGAGCGGCCCGGCACCGTGATGAGGTAGGAAGATCCTGGGTTGCCCGGCGCGGCGAGACTGCCGGAACACCCGAGAATGGTCAATTTCATGGGAACACCATGCCACGAAACCGCTGCGGAATCTAA	MTARVLEVEHISRSAEEDLAVELTARGLQCGLLVGPRLDVDQDQGLHPGAARDLPRLGAREVHSPGLALSRRAPGGLTEEDVGIAGGVDKRGRHAGIAGKRQDLARGAFGDAQRVRLERGVLHRHWGDGDVVNLHRFVRYPGGHVEGVGDVIDLVRAVGSHPPDVQLRVRRPEHHVALARRRRRVKATPDRQRSGVRAVIGVKVAKQHMHVGRVVDLLQGRERPWTTIHQNAGAARHRDEVGRSWVARRGETAGTPENGQFHGNTMPRNRCGI				NA	NA	NA	NA	NA
AK009_08665	258			hypothetical protein	GTGCGTGCGGCCCTTGACCTTGCCCTTCATCGACTCGCGTGGCATGCGCTCGTGCGTCGCCGACGGCAGCATCGCGTACTCCGCGGTGAGCCAGCCCTCGCCCGAGTCCTTCTTGAAGCGCGGCACGCCGACCTCCACCGAGGCGGTGCACATCACGCGGGTTGCGCCGAACTCCACGAGCACGCTGCCCGCGGGGTTGGTGGTAAATCCGCGCGTGATGCGCACGGGCCGCATCTCGTCGAACGCGCGGCCATCTAA	MRAALDLALHRLAWHALVRRRRQHRVLRGEPALARVLLEARHADLHRGGAHHAGCAELHEHAARGVGGKSARDAHGPHLVERAAI				NA	NA	NA	NA	NA
AK009_08666	414	rph_2	COG0689	Ribonuclease PH	GTGGACCTGGCGCAGCTCGGCGAGAACACCATCCAGCTCGACTGCGATGTCCTCCAGGCTGACGGCGGCACCCGCACCGCCTCGATCACCGGTGCGTACGTCGCCCTCGCTGACGCGATAGCGTTTCTAAGCGAGCGCGGTCTGGTCCCCGGCGAGCCGCTGCTCGCGCCGGTCGCTGCTGTCTCCGCCGGGCTTGTCGACGGCCACGTGGCCCTCGACTTGCCGTACGAGGAGGACTCGCGCGCCGAGGTGGACCTGAACGTGGTGATGAACGACAGCGGAAACTTCGTAGAAATCCAGGGCACCGGCGAGCACGGCCTATTCGGGCGCGCGGAGCTCGACGCGATGCTCACCGTCGCGGAGAAGGGCTGCCGTGAGCTCATCGAGGCGCAGAAGGCGGCGCTCGGGTGGTAA	MDLAQLGENTIQLDCDVLQADGGTRTASITGAYVALADAIAFLSERGLVPGEPLLAPVAAVSAGLVDGHVALDLPYEEDSRAEVDLNVVMNDSGNFVEIQGTGEHGLFGRAELDAMLTVAEKGCRELIEAQKAALGW	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
AK009_08667	618		COG0127	dITP/XTP pyrophosphatase	GTGGTAAAGGTTCTCGTCGCCTCCGGAAACCAGAAGAAGCTCGTGGAGCTCGAGGCAGTCCTCGCCGAGCTCGGGATTGCGGGCGTGGAGCTGGTCTCAATGCGCGACGTCGACGCCTACCCGGAGCCCGTCGAAGACGGGCTGACGTTCGAGGACAACGCCCTGATCAAGGCCCGCGCGGGAGCGGCCGCGACGGGGCTAGCCTGCGTGGCGGATGATTCCGGCCTAGCCGTCACCGCGCTCAAGGGCATGCCCGGCGTGCTCTCTGCGCGCTGGTCGGGCACGCACGGTGACGACGCTGCCAACAACGCGCTCCTTTTGGCCCAGATGACGGACATCGCGCTGCGCGACGCCGCGTTCGTGTCCTGCTGCGCGCTGGTCGGGCCGGCGGGGGACGAGTTCACCGCCGAGGGGCGCTGGGAGGGCCAGCTGCTGCGCGAGCCCCGGGGTGACAACGGCTTCGGCTACGACCCGATTTTCCAGCCGAACGACGCCGACGGCCGCTCCGCGGCGCAGCTCAGCGCCGCGGAGAAGAACGCACGCTCGCACCGCTCCCGCGCGCTTCGGGCCTTAACCCCGCACATCGCGGACCTGGTTAGCGCTACAGTAAGAGAATGA	MVKVLVASGNQKKLVELEAVLAELGIAGVELVSMRDVDAYPEPVEDGLTFEDNALIKARAGAAATGLACVADDSGLAVTALKGMPGVLSARWSGTHGDDAANNALLLAQMTDIALRDAAFVSCCALVGPAGDEFTAEGRWEGQLLREPRGDNGFGYDPIFQPNDADGRSAAQLSAAEKNARSHRSRALRALTPHIADLVSATVRE	PGPT0021590_2431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK009_08668	381			hypothetical protein	ATGATGAAAAACAAGAGCATTGCTGCAGCAGCTATCATCCTCGCCTCCGGCGCGCTTCTCGCCGCCTGCGGCTCTTCCAGCGACTACGACGGGGCATGGTCGGGCACCGCCACCCCGGCGGATGCCACCAAGGGCGAGGCCCAGGCGCAGATCACCGTCAACGGTGGTGACTGCGAGTGGACCGTGACCGAGGCAACCGGCGAGACCAACGACGCCAAGTGCGAGCGCGACGGCGACGAGTTCCAGTTCATCGACCCGAAGACGGGCCGCGACCTGAACTACAACGCCCAGCTCAACGGCGACACCCTGACGCTGAACCCGGACAATGGCCAGGCAGAGGGCTTCGGCACGATTGTGCTCACCCGTGCAGCGACCAGGTAG	MMKNKSIAAAAIILASGALLAACGSSSDYDGAWSGTATPADATKGEAQAQITVNGGDCEWTVTEATGETNDAKCERDGDEFQFIDPKTGRDLNYNAQLNGDTLTLNPDNGQAEGFGTIVLTRAATR				NA	NA	NA	NA	NA
AK009_08669	240			hypothetical protein	GTGGTCAATCTCCGTTTGTTCGTCGTCGCCGTAGCGGGCCAGGTCCGCCTGGTACAGCTCGTCGAGGCTGCGGCCTTCGTTCACGGCGTCGATCTTCTCGTTTTCCATGCGCAGGCCCACGCGGTAGGCGTAGACAAAAAACGCGCCGAAGAACGGCCACTGCAGGGCGTAGCCCAGGTTCTGGAAGGTTCCGGTGCCGGATTGGTAGCGCGTCCACTGCCAGTAGGCGAGCAGCAGTGA	MVNLRLFVVAVAGQVRLVQLVEAAAFVHGVDLLVFHAQAHAVGVDKKRAEERPLQGVAQVLEGSGAGLVARPLPVGEQQ				NA	NA	NA	NA	NA
AK009_08670	309			hypothetical protein	GTGCCACGCGCGGACCCGAATACGGGAGCGCTGGCGGGGCTCGGCTGGTTCACTCACACCACGCGAGTCTACCAACATCATCCGAAAGTTCGACAATCGACTGTTGCCGTACTATGTGTTCATGGAAACGCGAAAAATGAGGGTTCTCGAGGAACTCCAGCTCGTAGACAAGGAAACGCGACGGCTCGCGCCGAAAGCGGACGTCCTGTTAAGTCAGCTGGAGGGGGAGGCCTTCACACCGTCGCTTCAAAATTCGATGATCCAGGTCGCGAGTGGGTCGCACGGCGACGTGACGTCGTTACGCGATGA	MPRADPNTGALAGLGWFTHTTRVYQHHPKVRQSTVAVLCVHGNAKNEGSRGTPARRQGNATARAESGRPVKSAGGGGLHTVASKFDDPGREWVARRRDVVTR				NA	NA	NA	NA	NA
AK009_08671	978			hypothetical protein	TTGGACCCACGTCGTCGGGCGGTACGCCCCAAACAGCGAGCCCTCCGTGCCCTTGTACTCGGTGAGCCAGCCGACGGTTTCGGACATGAGCTGATCCACCACGTCGTCAAGACGCCCGCGGCTACGGTAGGCGCGGCGCTGGCGGTACGCGCTGGTGCCGGTGCGGATGATGCCCTCGACGAAGCGCGTGACCATCTCGAGGTCGCCGCTGGCGCGCAGCTCGTCGGTAAGCAGCTCGACCGTGGAGCGCAGCACCTCGGCTGCAGGTCGCGGCGTGTACGTCTCGGGGCAGATCAGGCTGCCTTCGAGCCCGGAGCGCGAGGCACGCCACATCATCGAGCGGTGCAGGGTCGGATTCAGCGGCGGCGTCGGCGTGGAGGCGTCGACAAGCGCTGCCTCGCGAACAACCATCGCGCGAAACAGCGCCGCGATGGTGGAAATCGCGTCCACCGAGGGGCAGGAATCGCACACGCGCAGCTCGAGCAGGGGCTTGCTTATCGACGGCGCCAGGCTGTAGTACATCATCGCCTCATCCGCGATCACGCCCGCCTTGATGAGGGTGTCCACCAGCTCGTCGTACTCTTTCGCGTTGCTCACCGGGGCAAACGGCCCGCTCGTCGGCCAGCGCTGCCCGGTGAGATCGCGCGAGCTGGCGTAGCCGGTGTCGCTGCCCTCGACGCTAAACGGCGACGACGCCGACAGCGCCAGCAGCAAAGGAAGGTGCCGGCTCACGCCCGGCGACACCGCCACAGCCTGGTCGCGGTCACGCACCTCGACGTGGATCTGCGCGCTACAAATAAGCTGCTCGTGGGCCAAGAGCGCGTAGTCGGCGCTCATCTCCATGTAGCGGCTGCGCGGGGTAATCGCCAGGCTCGCGCGGTGCGCCAGGGGCATCGTGCCGGCCGCGGCGATCCCCAGCCCCAGCGGCTCCGCGACCGAGCTCACCTTCGCGCGCCCTTGGAGGAGTTCATCGCGTAA	MDPRRRAVRPKQRALRALVLGEPADGFGHELIHHVVKTPAATVGAALAVRAGAGADDALDEARDHLEVAAGAQLVGKQLDRGAQHLGCRSRRVRLGADQAAFEPGARGTPHHRAVQGRIQRRRRRGGVDKRCLANNHRAKQRRDGGNRVHRGAGIAHAQLEQGLAYRRRQAVVHHRLIRDHARLDEGVHQLVVLFRVAHRGKRPARRPALPGEIARAGVAGVAALDAKRRRRRQRQQQRKVPAHARRHRHSLVAVTHLDVDLRATNKLLVGQERVVGAHLHVAAARGNRQARAVRQGHRAGRGDPQPQRLRDRAHLRAPLEEFIA				NA	NA	NA	NA	NA
AK009_08672	258			hypothetical protein	GTGCGGCGGCAGCGCCGCGGCAAGCGTCTCGCCCATCATCGCGTAGCCCTCGGTGGGATCGTTCAGCGGCTGCGGCGCGGTGGCGAACAGCTCCGGGTAGTTGCGCTCCATCATCTTCCTCGCCTCCACCCCGAAAGCGATGCCGGAGGGCTGGCGCACGTTGTCTTCCAGGATCTGCCAGCCGGCCTCCGAGAAGATCAGGTCCGAGCCCGACACGTGGTTGCGCACGGTGTAGCGCCACGCGGAGCGCCCCGTTGA	MRRQRRGKRLAHHRVALGGIVQRLRRGGEQLRVVALHHLPRLHPESDAGGLAHVVFQDLPAGLREDQVRARHVVAHGVAPRGAPR				NA	NA	NA	NA	NA
AK009_08673	453			hypothetical protein	GTGAGTAAACACACGCAGGTCCACGTGCCGCGGCTGCATCGCCGCCCCGTCGAAGGTGGGCAGGGTGGACAGGCCCACGACCTCCTGGGCCACGAACTGTTCGGGCTTGACCAGGAGCTCTTGACGACGCTCCTGGAGCTCCTCGTCGCTCGCCTCCGGGCCGATCGTGATGCCGGCGCCACCGTAGCCGTCGATCGGCTTGACCACGAGCTGGTCAAGGCGCTCCAGCACGCGGTCGCGGTGCTCGCGGATCGCACACAGGTAGGTCGGCACCGACGCCAGGATCGGTTTCTCGCCGAGGTAGTACTCGATCATCTGCGGAACATAGGCGTAGACGGCTTTGTCGTCGCCGACGCCGTTGCCCAGCGCGTTAGCCACGGTGACGTTGCCCGCGGTGATCGCGCGCAGGATCTTGTAGCGCAGCTCTGCGCCGTCGGCCCCGCGCGAGGATAA	MSKHTQVHVPRLHRRPVEGGQGGQAHDLLGHELFGLDQELLTTLLELLVARLRADRDAGATVAVDRLDHELVKALQHAVAVLADRTQVGRHRRQDRFLAEVVLDHLRNIGVDGFVVADAVAQRVSHGDVARGDRAQDLVAQLCAVGPARG				NA	NA	NA	NA	NA
AK009_08674	669			hypothetical protein	GTGGATCAGCAGCAGCTCCCGGTTACCGCGGGGGCCGACGCACATCAGCGAGTAGCCCCCCTCACAATCCACAAGCATCGCGTCGGCGCGGCGATCGAGCAACTTGGTCGTGCCGCTAAAGGGGTCCACCAGTCGCGCTTCAGTGATGCCGTCGTCCTGCAACGCGGCCACCGCGAGGTACTCGTTGTCCCATTCAACGATGCGAACCCGCAGGTCGCTCGGGGTGTTCACACCCTTGGCGGACGAGTCGGACGGGTCGGTGGTAACCAGCCAAATCTCGGAGTACTCCGATCCTTTCGGCGCGGCCTCGCAGGCCAGCCACTTGCCATCGGGCGAGTGCAGGACGCGTGTGACGGGGCCGTCGACCGGGATGTTGACGGGGCGCTCTTTGCCCACGCTGCCATCGGGCAGGATGGTGGCCTGGACCGCGTAGGGGTAGGCGTCGTCACGCGCGATGAACGCGATTTCCGAGCCGTCCGGGCTAAGCGATGGCCCGTAGGTAAAGCGAACGTCTTCGCGCACTATGTTTGCCCTTCCGTCACAATCCAGGTGTCCTTGCCGCCGCCGCCGCGCGAGGAGTTGACCACCAGCGAGCCCGCCGGGGCGACGCGCGTGAGCCCCGCCGGCGCCGTATGCACGGTAACACCTGAACCGCTGGCGCGCAGGTGA	MDQQQLPVTAGADAHQRVAPLTIHKHRVGAAIEQLGRAAKGVHQSRFSDAVVLQRGHREVLVVPFNDANPQVARGVHTLGGRVGRVGGNQPNLGVLRSFRRGLAGQPLAIGRVQDACDGAVDRDVDGALFAHAAIGQDGGLDRVGVGVVTRDERDFRAVRAKRWPVGKANVFAHYVCPSVTIQVSLPPPPREELTTSEPAGATRVSPAGAVCTVTPEPLARR				NA	NA	NA	NA	NA
AK009_08676	360			hypothetical protein	TTGGAGGATTCGGCCCACGAGCGGGCCAAGGATGATCACGGCCAGCGCCCAGCCGCCTTTGCCCAGGCCCTGTGCCAGGGGATACGCGACCCGTTTGACCGCGCTGGACTCCATCTGGGTGCGGCGTTTGTGCCCGCGGCTTCCCTCCGGCGGGTCGAACTCAACCACAGTCGGGCCCTCGCGGTAATCGACGCTGAGCACGTCGTCGAAGAAGTTCGCCTCAATCGACAGATGGGGTTTCGAGCGATCCGCAACGCCGAAGCTCGAGCGCATTTTCATGCTTGGCGACGCCAGCGGGATGCGCCCCGAGGAGATCGTGGAGTAGCGCGCCACAACGCGCGAGCCCACCCACACCTGTAG	MEDSAHERAKDDHGQRPAAFAQALCQGIRDPFDRAGLHLGAAFVPAASLRRVELNHSRALAVIDAEHVVEEVRLNRQMGFRAIRNAEARAHFHAWRRQRDAPRGDRGVARHNARAHPHL				NA	NA	NA	NA	NA
AK009_08677	834			hypothetical protein	GTGGCCGAGTACCAGGGTGCTGGCGGCAGCTTCAATCACATCGTCGGTGATGGTCTCCAACTCGTTGATCTTCAACACTCGCTTGATCTGTGGGAACAATCGCTCCACCACACGGAAATTGCCGCGGGTCAGCCGCTCGATCGCGGCGATGGCCTGCGCATCCGTGAAATCCTCCGGGTTCAATTCTCTACCCAGGCGCCTCCAGTGCCGGTTCAGCACGAACAGCAGCTCGTCTTTGCCCAGGGCACGGTAGCGATGCGAGAACCCCAGCCGGCTGAACAACTGAGGGTAGTGCCGGAAGCGCTGGTCAATACCGGGCATGCCGATGAACATGATCGCCACACCGTCACGATCGTGGATGTCGCGCAGCATCTCCAGGGCGGTGGGAGGCAGACGTTCTGCCTCATCAATAATGATCAGTTGGGTGAGCTTCTCGCCACTGGATCTGCGCATGTGGAGCCTGTCCCGCTGTCCGGTGGCCATCAGATGCTCCATGATGCAGACGTCGAGTTTGCCCCGGTAAAATTCGATGTCACGGATCAACGTCCGGTACTTCGGTTGCACCTCAGGGGTGTAGAACACGGTGCGCGCCCGATGAGCCGTCGCGTAGATGGCCAGGTCAGATTCACTGCGTGGACCCCAGTCGTCAATGAACGAGCCCAGAGCATCCCAGTGGGCATAGCGTCTGGCGGACTGTGTTTTGCCGACTCCTGCATCACCGTGGCAGATGCCGATGGTGGCGTCTTTGCGGATCGCGTTGGCGAACTCGACGAAGCGGCGGTGCTCTTTGGTGACGATGAAGTCGCGGTTCATGGTGACAGGTCCTCTTCATAG	MAEYQGAGGSFNHIVGDGLQLVDLQHSLDLWEQSLHHTEIAAGQPLDRGDGLRIREILRVQFSTQAPPVPVQHEQQLVFAQGTVAMREPQPAEQLRVVPEALVNTGHADEHDRHTVTIVDVAQHLQGGGRQTFCLINNDQLGELLATGSAHVEPVPLSGGHQMLHDADVEFAPVKFDVTDQRPVLRLHLRGVEHGARPMSRRVDGQVRFTAWTPVVNERAQSIPVGIASGGLCFADSCITVADADGGVFADRVGELDEAAVLFGDDEVAVHGDRSSS				NA	NA	NA	NA	NA
AK009_08678	1422			hypothetical protein	ATGGACGAGATGCAACGCTGGGAGATCCTCCGGCTCCACATCGAAGACGACATCACCCTGACCGACCTGGCACAGGCCACCGACATCAGCACCCGAACCCTATCCCGGTGGGTAGCCCGATACCGCGCCGACGGAATCCGCGGGCTACGCAACACCACACGATCCGACGCCGGAGCCCATCGCATATCCGCGGAACTCGTCGCCTACATCGAACACCTTGGTCTCACCAAGCCACGCCCATCGATCGCCGCCCTGCATCGCCTCGTGAGCTGTCGAGCACAACAACTATCGCTGAAACCACCCAGCTACGCCACCGTGCGCAGCATCATCCAAGCCCTTGACCCGGCGATGGTCACCCTCGCATTGGAGGGCCCGACGTCCTACCGAGATCGACACGAACTGGTCTACCGGCACCGGGCTGAACACCCCAACGCCATCTGGCAGGCCGATCACACCCAACTCGACATCCTCATCCAGAACCCGGACGGCACCCCGACTCGCCCCTGGCTCACCATCATCATCGACGACTACTCCCGGGCAGTGTGCGGCTACATGGTCACCACCACCGCACCCTCGGCAATGAACACCGCCCTGGCACTACGCCAGGCGATCTGGCGAAAAACAGACCCCACCTGGGCGATGTGCGGTATTCCCGACGTCCTCTACGTCGATCACGGCTCCGACTTCACCAGTGGCCATATCACGTACACCACGACAGCACTGAAGATCCGGATCATCCACTCGACCATCGCCCGTCCGCAGGGCCGCGGCAAGATCGAGCGGTTCTTCAGCACCGTCAACACCGAACTTCTCACCACCCTGCCCGGCCACCTCGCCCCCGGCGTCCGCAACCCACACCCCGTACTAGACCTGACGAGCCTGGATACCGCCGTCGGCGAGTTCATCAGCAGCTACAACCAGCGCACGCATTCTTCAATCAACACCAGCCCGAAAGCCGCGTGGATCGGGCAGGGGTGGATCCCCAGAATGCCGGAGAACCTTGAAGAACTCGACGGACTCCTGCTGCGGGTCTCCACCCACCGCCGAGTCCAGCGAGACGGCATCCACTTCCAAGGCCAGCGCTACATCAGCCCGACCCTGGCACCTTTTGTCGGCCATGACGTCACCATCCGCTACGACCCGCGGGATCTCTCCGAGATCCGGGTCTACGACCACGACACGTTGCTGTGCGTCGCTGTCGATGAAGACCACCCCAACCAGCGCTACAGCCTGGCCGATATCCAGGCCGCTCGTCGACGCCGACGGCGTCAACTACGTGCCGGGATCAACGAGCGCATCCCCATCCACGAGCCACGCCCATCAGACCTTGCCCCTGTGAACCCCGATGTGAGCGCCGAAGCGCCACGGCCGCGTGGTCGTACGTCTCGCCTGCGGACCTATGAAGAGGACCTGTCACCATGA	MDEMQRWEILRLHIEDDITLTDLAQATDISTRTLSRWVARYRADGIRGLRNTTRSDAGAHRISAELVAYIEHLGLTKPRPSIAALHRLVSCRAQQLSLKPPSYATVRSIIQALDPAMVTLALEGPTSYRDRHELVYRHRAEHPNAIWQADHTQLDILIQNPDGTPTRPWLTIIIDDYSRAVCGYMVTTTAPSAMNTALALRQAIWRKTDPTWAMCGIPDVLYVDHGSDFTSGHITYTTTALKIRIIHSTIARPQGRGKIERFFSTVNTELLTTLPGHLAPGVRNPHPVLDLTSLDTAVGEFISSYNQRTHSSINTSPKAAWIGQGWIPRMPENLEELDGLLLRVSTHRRVQRDGIHFQGQRYISPTLAPFVGHDVTIRYDPRDLSEIRVYDHDTLLCVAVDEDHPNQRYSLADIQAARRRRRRQLRAGINERIPIHEPRPSDLAPVNPDVSAEAPRPRGRTSRLRTYEEDLSP				NA	NA	NA	NA	NA
AK009_08679	606	hin_4	COG1961	DNA-invertase hin	GTGGTCATGAGACTGTTGGGCTACACCCGGGTGTCCACCGTCGGTCAGGATCCGACTCTTCAACACGACGCCTTGGTCACCGCCGGGGTTCAGGACCGTGATGTCTTCAGCGATGTCACCTCCGGGGCGAAAAACGCTACTGAGCGTCCGGGGATGAAGAAGCTCCTCGCCTACGCTCAACCCGGTGACACGGTGGTGGTGTGGCGCATCGACCGGCTGGGCCGGTCCCTACTCGATGTACTCAACACGGTGAACCTGTTACGCGAACGAGACGTGAAAATCAAGTCCGTCTCCGACGGCATCGACCCGGAGACCTCCTCGGGCCGGTTGATGCTCGGCATGCTGGGCACCCTGGCTGAGTACGAACGAGAACTGATCACCGAACGCGTCAACGCCGGCATCGCCGCAGCAAAGTCCAACGGCACCCGCTTCGGCCGACCACCTGTGGATCCAGAGGTGGTCGACCGCAAACTCGCCATCGTCGCCGAGGAACGAGCCAAAGGCCGCAGTGCCGAAGACGCCGCGAGCATGGTCGGCTGGTCACGGGCGACACTGTACCGCCATCTGCAGGGCGCCAAACGACGACAGTCAGCACTGCCCGCCTGA	MVMRLLGYTRVSTVGQDPTLQHDALVTAGVQDRDVFSDVTSGAKNATERPGMKKLLAYAQPGDTVVVWRIDRLGRSLLDVLNTVNLLRERDVKIKSVSDGIDPETSSGRLMLGMLGTLAEYERELITERVNAGIAAAKSNGTRFGRPPVDPEVVDRKLAIVAEERAKGRSAEDAASMVGWSRATLYRHLQGAKRRQSALPA				NA	NA	NA	NA	NA
AK009_08680	456			hypothetical protein	ATGACGGTAGAGCGTCGCTCTGGACCATCCGACCAGTCGGGCTGCGTCTTCGGCGGTGCGTCCCTTCGCGCGCGCGTCTCGCACGATCGCAAGCTTCTCCTTCACGACGCCCGGATCCACGGGTGGCCGGCCGAAGCGCGTGCCAGCCTGCTTCGCCGCGGCGATGCCGGCGTTGACTCGCTCGGTGATCAGTTCACGCTCGTACTCCGCCAGCGTCGCGAGCATGCCCAGCATCATCCGCCCGGACGAGGTCTCGGGGTCGATGCCATCCGAAATCGATCGAACCTTCACGTCCTTCTCGCGCAGCAGGTTCACCGTGTTCAGCACGTCGATGAGGGAGCGCCCGAGTCGGTCGATGCGCCAGACGACCACCGTGTCGCCGGGCTCCGCGTACTCCAGAAGTCTCTTCATCCCTGGCCGCTGCACCGCGGCACGGCTGCCCGAGGTCACGTCTGA	MTVERRSGPSDQSGCVFGGASLRARVSHDRKLLLHDARIHGWPAEARASLLRRGDAGVDSLGDQFTLVLRQRREHAQHHPPGRGLGVDAIRNRSNLHVLLAQQVHRVQHVDEGAPESVDAPDDHRVAGLRVLQKSLHPWPLHRGTAARGHV				NA	NA	NA	NA	NA
AK009_08681	567			hypothetical protein	TTGGAAGTGGATGCCATCGCGTTGGACGACGCGGTTCTTCGGCAGGGTCAGCAGCAGCCCGTCGAGCTGGTCGAGGCTGTCGGGCATCCGCGGCAACCAGCCGTCACCGATCCAGGCCTCCTTCGGGCTGGCGCCGATCTCGCTGTGGGGGCGCTCGTTGTACTCGGTGACGAACCGGCCGATGGCCTGATCGAGGTCCGCGAGGCTGAGCTGCGGCTTCGGGGCTCGTGCCCGAGGGGTGAGGTGGCCGGGGAGGGTCGTGAGAAGTTCGGTGTTCACGGTGCCGAAGAATCGCTCGATCTTCCCGCGACCTTGCGGCCGGCCGACTGTCGAGTAGATCAGCCGGATCTTCAACGCCACCGCCGTGTACTCCAGATGCCTGCTGGTGAAGTCGCTGCCGTGGTCGACGTGGAGCACGTCGGGGAGACCGCACATCGCCCAAGCCGGGTTGGTCTTGCGCCAGATCGCCTGCCGCAATGCGAGCGCCGTGTTGATCGCCGAGGGCGCCCCTGTGAACACGGTGTACCCGCAGATCGCGCGCGAGTAGTCGTCGATCACGACCGTTAG	MEVDAIALDDAVLRQGQQQPVELVEAVGHPRQPAVTDPGLLRAGADLAVGALVVLGDEPADGLIEVREAELRLRGSCPRGEVAGEGREKFGVHGAEESLDLPATLRPADCRVDQPDLQRHRRVLQMPAGEVAAVVDVEHVGETAHRPSRVGLAPDRLPQCERRVDRRGRPCEHGVPADRARVVVDHDR				NA	NA	NA	NA	NA
AK009_08682	879			hypothetical protein	GTGAATGTTGACGCTCTTTGGCGGTGTTCTTGCGTTGTTGTTTGGCGGTGGCTATCCGATGACGAGGACGCTGGCGGCGGCTTCGACGACGTCGTCGGTGATGGTCTCGAGTTCGTTGATCTTGAGCACTCGTGCGATTTGGGGGAAGAGGCGTTCGAGGAGGCGGAAGTTGCCGCGAGTGATGCGTTCGATCGCGGCGATGGCTTGCGCGTCGGTGAAGTCGTCGGGGTCGAGGGTGCGGCCCAGTCGCTTCCAGCGACGTTCGAGGACGAAGAGGAGTTCGTCGCGGCCGAGGTTGCGGTAGCGGTGGGAGAACCCGAGGCGGCTGTAGAGCTGGGGGTAGTGCCGGAATCGTTGGTCGATGCCGGGCATGCCGATCAGGATGATCGCGGTGTGCTCACGGTCGTGCCGGTCTCGGAGGACTTCCAGGGCCGTGGGCGTGAGGCGTTCGGCCTCGTCGATGATGAGCAGCTCGACCCGCTTGCCCATGTTGTAGCGGCCGTGAGTCCCCGTAACTTTGCCGGTGGCGCGCAGGTGCTCATCGATGCAGATGCCCAGCCTGGTCTGCAGGTGGTCGATCTCATGGACGAGCTGCGCCGGCTTGGGGAGGACCGGTGGCGTGTAGAACAGGGTCCGGGATCGGTTCGCGGTGGCGTAATGCTCTGTGTCGGTCTCGCTCCGCGGTCCCCACTCGGTGATGAAGGGTTCCAGGGTGTCCCAGTGGGCGTATCGGCGGCCGGATTGCGTCTTGCCGACGCCGGCATCGCCGTGGCAGATGCCGATCGTGCGTTCCTTGCGGACGGCGTTGGCGAATTCGATGAAGCGGCGGTGTTCTTTCGTGACGATGAAGTCGCGGCTCATGGCTCGTCCTCTTCGTAG	MNVDALWRCSCVVVWRWLSDDEDAGGGFDDVVGDGLEFVDLEHSCDLGEEAFEEAEVAASDAFDRGDGLRVGEVVGVEGAAQSLPATFEDEEEFVAAEVAVAVGEPEAAVELGVVPESLVDAGHADQDDRGVLTVVPVSEDFQGRGREAFGLVDDEQLDPLAHVVAAVSPRNFAGGAQVLIDADAQPGLQVVDLMDELRRLGEDRWRVEQGPGSVRGGVMLCVGLAPRSPLGDEGFQGVPVGVSAAGLRLADAGIAVADADRAFLADGVGEFDEAAVFFRDDEVAAHGSSSS				NA	NA	NA	NA	NA
AK009_08683	405			hypothetical protein	GTGCCAGGGGCCTTTGCCCGGGTGGGCGCGGCCGCACCCGCGCAGGTCGAGCGCGTAGAAGGGGTAGCCCTGGGCGACGTAATGCTCGGCCACGTGCTCTTGGAAGAAGTAGTCGGACATGCCGTGCACCCACAAAAGGGCGGGTTTGCCGGTGGGGGCGTCGGGAAGCGCGCGCACGAGCACTGCTTCTTCCTCCCCCGTGTCACCGGGGTCCTTGCCTACGTTGAGGGTGGTGGATTCGTAGCCGTCGCCGAGAATATCCTCGGCCCACTCGAGTTGGTCAAACTTCCCGGGATTGTCGCGCATGTCACTCATACTAGGCATATTCGCCGCAGTTTTTCGGGCGAGCTGCAGCGCTTGGGCCATTGGTGTCTCACGATGTGGGAGAGTTGGATTAAGGGGTGA	MPGAFARVGAAAPAQVERVEGVALGDVMLGHVLLEEVVGHAVHPQKGGFAGGGVGKRAHEHCFFLPRVTGVLAYVEGGGFVAVAENILGPLELVKLPGIVAHVTHTRHIRRSFSGELQRLGHWCLTMWESWIKG				NA	NA	NA	NA	NA
AK009_08684	1653			hypothetical protein	GTGGATGAAGGGGCCGGAAGGCGAGGAGCCTTTTGTGACCTACTGCGGGACTTAAACCGTCTGAGACTCGTCCAGCTTGAGGGCCTTCTGCGTCATCTCCCACTGGGAGGCGTAGGCCTGCTCGTCGCGCTTCAGCGAGGTGCCGTAGGTCGGGAACATCTCGTGCAGCTGATCCGACCAGTCGATCATGCGCTCGCCGAAGCAGCGCTCAAGCAGCTCGAGCATTGCCGCCGGGGTGATCGACGCGCCCGGGGAGGCGCCGAGGATGCCGGCGATGGTGCCATCCTGGTCGTTGACCAGTGCGGTACCGAACTCCAGCGAGCCGAAGCTCGGGGCTGGGGCGGGCTTGATCACCTGCACGCGCTGGCCAGCGACCACGGTGTCCCAGTCCTTGCCGTCGGCGGCCGGGACGTACTCGCGCAGCACCTCGATCCGGCCGTCGAAGTCCTTGAACACCTCCTCAACCAGGTATTTAACCAGGCCGAAGTTGGTAGCCGCGACACCCAGGTAGGACGGGATGTTGTCGGCACGGATCGACTTGAACAGGTCGAAGTAGGTGCCTTCCTTCAAGAACTTCGGGCTCCAGCCGCCGTAGGGGCCGAAGAGCAGGGACTGCTCGCCGTCGATCACGCGCAGGTCCAGGTGGGGCACGGACATCGGCGGGGCGCCGACCTTAGCCTGGCCGTACACCTTGGCCTGGTGCTGCGCAACGAGCTCGGGGTTGGTGGTGCGCAGCCACATGCCGGAGATGGGGAAGCCCGCGTAGCCCCGAACCTCGGGCACGCCAGCCTTACGCAGCAGGTCAAGCGCGTAGCCACCCGCGCCGACGAAGACGAAGCGTGCGCGCACGACCTGCTTGTCGCCGGTGTGCACGTTGCGCACGGAAACTTCCCAGAACTTGTCGACGCGCTTGAGGTTGAGCACCTCGTGGCCATAGCGGATCGCGGTGCCCTGCTTCTCAGCGTCGTCGAGGAACTGCTTGGTCAGCGCACCATAATTGATGTCGGTGCCAGCGTCGGTCCAGGAGATGGCGACGGGCTCGGCGTCGAAGTCACGGCCCTGAGCCATCAGCGGAAGTTTCTCGGCGAACTTTGCAGCGTCATCGGTGAACTGCATCTCCGGGAACATGTGGTTCGCCGACAAAATTTCGTAGCGGCGGCGCAGGTAGTCAACCTGGCTCTCACCCTGGCCGAAGGACACATGCGGCACCGGGTTGATGAAGTCGCTCGGGTCGGTCAACACACCCTCGCCGAGCTGGTGGGACCAGAACTGGCGCGAGAGCTGGAACTTCTCGTTGATCGCCATCGCCTTGGAGACGTCAATCTTGCCCTTTTTCTCGGGCGTGTAGTTCAACTCGCACAGGGCCGAGTGGCCGGTGCCAGCGTTGTTCAGCGCGTACGAGGACTCCTGCGCGGGCCCGTCGAGACGCTCGTAGACAACCTGGGACCAGCTCGGCTCGAGTTGGCGGAGCAGGGCTCCAAGGGTCGCACTCATAATTCCAGCACCGATGAGCAGGACATCAGTCTCATCGCTAAACCTTTTGTTGCCTTGTTCAGACATCCGTTCATCCTCTTCGATTGTGTCAGTGGGGCAGACTCGACGCGCTCTCACAATAATGTCCCGGAATTTCGGCAGCGCCCCGCGCCCAAGTAA	MDEGAGRRGAFCDLLRDLNRLRLVQLEGLLRHLPLGGVGLLVALQRGAVGREHLVQLIRPVDHALAEAALKQLEHCRRGDRRARGGAEDAGDGAILVVDQCGTELQRAEARGWGGLDHLHALASDHGVPVLAVGGRDVLAQHLDPAVEVLEHLLNQVFNQAEVGSRDTQVGRDVVGTDRLEQVEVGAFLQELRAPAAVGAEEQGLLAVDHAQVQVGHGHRRGADLSLAVHLGLVLRNELGVGGAQPHAGDGEARVAPNLGHASLTQQVKRVATRADEDEACAHDLLVAGVHVAHGNFPELVDALEVEHLVAIADRGALLLSVVEELLGQRTIIDVGASVGPGDGDGLGVEVTALSHQRKFLGELCSVIGELHLREHVVRRQNFVAAAQVVNLALTLAEGHMRHRVDEVARVGQHTLAELVGPELARELELLVDRHRLGDVNLALFLGRVVQLAQGRVAGASVVQRVRGLLRGPVETLVDNLGPARLELAEQGSKGRTHNSSTDEQDISLIAKPFVALFRHPFILFDCVSGADSTRSHNNVPEFRQRPAPK				NA	NA	NA	NA	NA
AK009_08685	1206	selO_2		Protein adenylyltransferase SelO	ATGTCCGCTCCCACTCTCGCCCACACCTTCGCCGAATCTTTGCCCGAGATGGCGGTGCCCGCCCGCGCCGCCGACTTCCCCGATCCGCAGGTGGTGGTGCTCAACGACCCGCTCGCCCGCGAGCTTGGGCTCGACCCCGAGTGGCTGCGCGCGCCGGAAGGCACCGCCTGGCTCGCGGGATCCGCCGGCGGCCACGCGACCGCGTACGCGGGCCACCAGTTCGGCCAGTTCGTGGGCCTGCTTGGCGACGGCCGCGCCCTGCTACTCGGCGACATCGATCGCCGCGAGATCCAGCTCAAGGGCTCCGGCCTCACCCCGTTTAGCCGACCGGGCTCCGACGGCGTCGGCGCGATTGGGCCCATGCTGCGCGAGTACGCGGTCAGTGAGTTCATGCACGCGGTCGGGGTGCCGTCGACACGCTCGCTCGCAGTTCTAAGCACCGGCGAGCGCGTGCTGCGCCAGCAGGGCTACGTCCCGGGCGGCATCGTCGTGCGCGTCGCCAACTCGCACTTGCGGGTCGGTTCCGTGCAGTACGCAGCCACCCAGTCCGAGGAGCTCACCGCGAAAGTCGTCGCAGCCGCGGGCTTTTCGACGCCCACCCAACTGCTCCGGGAGGTCATGGACCGCCAGCTCGAGCTGGTAGTGAAATGGATGCGCCTCGGCTTCGTGCACGGGGTGATGAACACCGACAACACCGCCCTGTCCGGCGAAACGATCGACTACGGCCCGTGCGCATTCACCGAGCGCTTCGACGCGTCCGCCAAGTTTTCCTCTATTGATGCAACCGGCCGCTACGCCTTTGGTAACCAGCCGAACATCATCGCCTGGAACCTCACCCGGCTCGCGGAAGCGCTATTGCCACTGATGGGCGAGGACGCCGCCCGCGAGATTTTGGGCAGCATCCAGCAGCGCTGGGACCACTTCTGGCAGCTCCACTTCGCGGGCGCCGAGGAAGGGATTGCCGCGGCGGAGGACATTACGCAGTTCAACCTCGAGCACGGGCTCGCGCACGGTCGCGCGCCGATTTTCATCCCGCGCAACCTGATGCTGCAGCGCGCCATCACCAGCGCCGAGCGCGACGGCGACTGTGGAGCGTATTTCGAGCTCCTGCGCGCAGTAACAGACCCCTTCAACCCTGCGGCTGGGCCGGAGTGGATGAAGGGGCCGGAAGGCGAGGAGCCTTTTGTGACCTACTGCGGGACTTAA	MSAPTLAHTFAESLPEMAVPARAADFPDPQVVVLNDPLARELGLDPEWLRAPEGTAWLAGSAGGHATAYAGHQFGQFVGLLGDGRALLLGDIDRREIQLKGSGLTPFSRPGSDGVGAIGPMLREYAVSEFMHAVGVPSTRSLAVLSTGERVLRQQGYVPGGIVVRVANSHLRVGSVQYAATQSEELTAKVVAAAGFSTPTQLLREVMDRQLELVVKWMRLGFVHGVMNTDNTALSGETIDYGPCAFTERFDASAKFSSIDATGRYAFGNQPNIIAWNLTRLAEALLPLMGEDAAREILGSIQQRWDHFWQLHFAGAEEGIAAAEDITQFNLEHGLAHGRAPIFIPRNLMLQRAITSAERDGDCGAYFELLRAVTDPFNPAAGPEWMKGPEGEEPFVTYCGT				NA	NA	NA	NA	NA
AK009_08686	819			hypothetical protein	GTGGGGTCGTTGCAGATCAGGATCGTGTCCGCGTCGCCGACCGTCGCGAGCGACCAGATCAGGCTATCAAGGCTGCGCAAGGCCCGCGACCTCCCCGATGATGTAGACGGCCGGCGCCGCCACCGCGTTGGAGGCCATCACGCTGGCCAGCTCGGAGAGCTCGCAGTAGAACGCGCGCTGGGAGGCGGTTTCGCCCTCCTGGATTACGGCGGCGGGCGTGGTGGGCGCAAGGCCCGCGTCTACCAGAGCCGAGCAGATCTCCGGCGCGTGGCGCACCCCCATGATGACCACGATCGTGCCGCCGACGCGCGCCAGCGCCTCCCAGTCCACCAGCGACTTCGGGTTCGAGGGCGCGAGGTGGCCGGACACGACGGTAAACGCGTGGGTCATTCCCCGCTGCGTCACGGGGATCCCCGCGGCCGCGGGCACGGAGATTGCACTCGTGACCCCCGGCACGACCGTGCAGCTCACGCCCGCCGCAGCGCAGGCTGCGAGCTCCTCGAAGCCGCGGCCGAAGACGTAGGGGTCGCCGCCTTTGAGGCGGACCACACGGCGCCCCGCCAGCGCGTGGTGGACGATCAGTTCGTTGATGCGCTCTTGGGCGACTTGTTTGCCGTAGGGCAGCTTGGAGACGTCGATAAGCTCCTTGCTCGAAATGTTCAGAAAATCGCCGAGCTGGGAGGCGGGGCCGAGATGATCGGTGAGGATGACGTCGGCCGCTTCCAGCGCGCGCAGCCCGCGCACCGTCAGCAGGTCCCAGTCGCCCGGCCCCCCGCCGACGAGGGTGACTTCTCCGTAACTCATGGCCTCCAAGTCTAG	MGSLQIRIVSASPTVASDQIRLSRLRKARDLPDDVDGRRRHRVGGHHAGQLGELAVERALGGGFALLDYGGGRGGRKARVYQSRADLRRVAHPHDDHDRAADARQRLPVHQRLRVRGREVAGHDGKRVGHSPLRHGDPRGRGHGDCTRDPRHDRAAHARRSAGCELLEAAAEDVGVAAFEADHTAPRQRVVDDQFVDALLGDLFAVGQLGDVDKLLARNVQKIAELGGGAEMIGEDDVGRFQRAQPAHRQQVPVARPPADEGDFSVTHGLQV				NA	NA	NA	NA	NA
AK009_08687	513			hypothetical protein	ATGGCGCCGGGAAAAGGCTTATCAGCCTTCGCGCGTGAGCTAGGCCCCCGCCCGCAGCACCGTGTACCGCGCGTCCCGAGCCACCTGCTCGACGAAACCGAAGCGCCGCTCCACCTCGCCGCGGTAGCGCAGGTGGGAGTTATGCACGAGGTAGAGCGACCCGCCGGGTGCGAGAAGCCGTACAGAGGCGTCGAGCAGGTGGTTGACCAGCGTGGCATCCACGGTGGTGCCGTCGTGAAACGGCGGGTTGAGCGCGATGGTGTCGAAGCTGGCGTCGTCAAACCCCGAGCCTGCATCGTCCCACGTGGCGTTGAGCCCGTTCGCGCGGGCGGACAGCACGGCGTCGGCGTCCGAATCGGTGCCCATCACCGCGCCGGACAGGCCCCGCGAAACGGACCCGTTGCCGCAGCCGAGGTCGAGGTATCGGCCCAGGTCCGCCGGCAGCGACGACCGCAGCAGCTCACCGCCGGGGTCGGGTTTCGCCCCAGAGAAGACGCCGCCAATGGCGACTAG	MAPGKGLSAFARELGPRPQHRVPRVPSHLLDETEAPLHLAAVAQVGVMHEVERPAGCEKPYRGVEQVVDQRGIHGGAVVKRRVERDGVEAGVVKPRACIVPRGVEPVRAGGQHGVGVRIGAHHRAGQAPRNGPVAAAEVEVSAQVRRQRRPQQLTAGVGFRPREDAANGD				NA	NA	NA	NA	NA
AK009_08688	393			hypothetical protein	GTGCGCGAGCCCGGAAATGTCGCCGAAGAAAACGCCCACGGACACCATGAGAACAACCCAGAAGACGGCTCCCGCGACGTTCCAGCCCACAAACCGCGGATACGACAGGCGAGCAGTGCCCGCCGCGAACGGCACGAAAGTACGAACGATAGGAACAAAGCGGCCCAGGACCAAAGCGAAGGGGCCTCGTCGACGGAAGAAGTCTTCCGCAGCTTGGAGGCGGTCGGTGCGCAGGATGCGCGCGTTGTCAGAGAACAACTTCCTGCCGAACCGCCTGCCCAGATAGAACCCCACTTGGTCGCCGAGGATCGCCGCGACGATTGCCGTCGCGATAATCTCCCACGCGTACAGCCCCAAGCTGTCTTTGAGAGCTGCGACCGCAACCAGCAGTGA	MREPGNVAEENAHGHHENNPEDGSRDVPAHKPRIRQASSARRERHESTNDRNKAAQDQSEGASSTEEVFRSLEAVGAQDARVVREQLPAEPPAQIEPHLVAEDRRDDCRRDNLPRVQPQAVFESCDRNQQ				NA	NA	NA	NA	NA
AK009_08689	594			hypothetical protein	TTGACCTGCCTGCGGTGCGTCGCGCGGAGTCTCCCGTTAGCTGATCCGCCGTGGCTTGTTCCGGTTGCGCAGGTAGTCGCCCAAATACGGCTGCGCGAATGTCACCTCGCCCCACCCCGCGGGCAGAATCAGGTCTCGCTCGATGAGCTTCCCGCGAGTATCGGACAAGCTTGTCGACGGCTTGTCCAACGCCACCGCCAAATCCTTCGCAGAAATCTCCGACCGGCCTGTCTGGGCTTCAATGTGCGCCATGGCGTCGAGGTACTCACGCTGCCGCGGGGGGACGTCGCGAAGCGACGGCTGGTGCACCTGCGTGCCAAGCCGGCCGATGGCCTCCTCGCGCACCGCCTCGACGGCGTCCAGGCTGATCGGCCCGGTCGGTTGTGCCTCCCACGCGAGGTAGCCGACGAGCTGAACGAGGTAGGGGTAGCCCTGCGTGATCCGGCTTGCGGTGTGGGCGGCGTCGATGTTGAACTCGCGCCCGGCGTGGCGGGCGGTGTCGAGGAGGGTGGTGGTGGCGTCGTCAAGCGTGAGCGGGCCGAGCTCGTAGTGGCGCGCGCGGCGAAGGAATGTCGCGCCGGGCAGGTCGAGTAG	MTCLRCVARSLPLADPPWLVPVAQVVAQIRLRECHLAPPRGQNQVSLDELPASIGQACRRLVQRHRQILRRNLRPACLGFNVRHGVEVLTLPRGDVAKRRLVHLRAKPADGLLAHRLDGVQADRPGRLCLPREVADELNEVGVALRDPACGVGGVDVELAPGVAGGVEEGGGGVVKRERAELVVARAAKECRAGQVE				NA	NA	NA	NA	NA
AK009_08690	306			hypothetical protein	GTGCAGCCGGGTGACCAGGCGCGGGGTGGTGTCGTTCTCCAACAGTTCGCTGCGCACGCCGCCGACGCCGGCGATGTTGAACCCGGTGAGCTTGCGGTCGCCCTGGGGCTCGAGCTGCTCAATGTTCTCCGGGATCGCGGAATTGGTCAGAGTTTCCGCCATGCCCTCGCGGCCCGAGGCGCGCACGACGATCCAGCCTTGCTCCTTCGCGACGTCCTCGAGCTCCGTGAGCAGCACCGTCTTGCCGATTCCCCTGGAACCGGAGATGATGACACTGCGGTGCGGGTCGCCGGGGCCGTTCTTTAG	MQPGDQARGGVVLQQFAAHAADAGDVEPGELAVALGLELLNVLRDRGIGQSFRHALAARGAHDDPALLLRDVLELREQHRLADSPGTGDDDTAVRVAGAVL				NA	NA	NA	NA	NA
AK009_08691	963			hypothetical protein	TTGACTGAGCCCGCACGCCAGCTTGACCTCGGCCACGAACTGGTCGCCGTGACGGATGAGGGCCGTGGGGCTGTAGCGGCGCATGTGGTAGCCGCTGTTGAGCAGATCCTTCTCGCGCTCCCGCTCCTTTCTCAGCATGTCATCCGTGCGACCGTACGTTGTCCCGTCGTACTTGACCTCGCCGTCGATCTCCACGACGACCCTTTGCCCGATGAGCAGGTCGACCTCGTAGTGGCTGAGCTTCACGTTGACGCGGATCGGCCCGATCCCCGCATCGATGAGCAGCGCGCGGGCGTAGCTTTCGTACGGCGAGCGCACGTTGTCGATTGCGTGGGCAAACGCGCGCCGCACCACGCCGATCCCCTTGCGCCTGCCGAGCTTGCGGATCTCGAACGCAATATTGGCCCGCGGATGCCTGCCCAGCAGCCAATCCATGGCCACGAGACCCTCGCGGAACCCGTGGCGCAGCGCGATATCGATACCCGTGCGGATCTCCGACGTCACCCGCACCCCGTCGACCTGCGTGAGCTCGTCGCCCCGGTACGCCCCGCTAAGGTAGGTGCACCCGCGCGGCCAGTTGCTATTCGACGGCCGCCTCCCCGTCGCCGGCACCAACTCGATCGCCTCGGGCGTCGTCGCGATCACGGGCATCCCGTGGATACGCGCTGCGGACCGCCCACCCAGTGCCGCCTTTCTCACCGTCTTGCCGACGGCCCACGCACGCAGCCACTCCTTCTCGTACCGTTTCAGCTCGCCGAGGATGGAACGGTGGCACACGAACCGCGCCGAGACCGGGACCAGCTCCTCTGCAGCGAGGGCTCGGAGGAACTCGTGGTCGTTATTCTAGGCGCCGCAGGTGTCGACGAGGCATTTCACCAGGCGGAGCTTGCGCTGTATGTCCATGCGGGCAGCATTACCCAGATTTCTGGCCCCCGCTTTGGGGTGTTGTTTGGCTGTGGATAA	MTEPARQLDLGHELVAVTDEGRGAVAAHVVAAVEQILLALPLLSQHVIRATVRCPVVLDLAVDLHDDPLPDEQVDLVVAELHVDADRPDPRIDEQRAGVAFVRRAHVVDCVGKRAPHHADPLAPAELADLERNIGPRMPAQQPIHGHETLAEPVAQRDIDTRADLRRHPHPVDLRELVAPVRPAKVGAPARPVAIRRPPPRRRHQLDRLGRRRDHGHPVDTRCGPPTQCRLSHRLADGPRTQPLLLVPFQLAEDGTVAHEPRRDRDQLLCSEGSEELVVVILGAAGVDEAFHQAELALYVHAGSITQISGPRFGVLFGCG				NA	NA	NA	NA	NA
AK009_08692	642			hypothetical protein	TTGCTCACCGTTGACCTCCACGGTCCACCCCGCGTCACGCGCCACCTCCGCAACCCCATCGGCGGAGGAGACGTCCGGCCCCAGCGCAAGCACGCGCGCCAGCTCGCCCTTGTAACGCTTGTTGAAGTGGCTGACCACCTTGCGCTGCCCGTCGACCTCCGTTTCCACACGCACCGTCACCGCAAAGGGCACGGGCCCGAGCGACAGGTACGCCCCGGAGCGCATGTCCACGATGAAGCCCAGCCCCGAGAGCACGTCGCTTATCGACGCCCCCCAGCGCGCCTTCATCGTCGGCACGGTGCCGTCGGCAGCCGGCAGTTTGGAGCCTCCCGAGAGGCGGTAGCGCGGGATCAGGTCGTCGGCGCGCACCAGGCCGAACAGGGCGGAGGCGATAGCGAGGCGCGACCACGCCTCTTTAGGCAGGGTGGCGGGGTCGAGGGCGTCGTAAAGCACGCCCGTGTAGCGCAGCAGCGCGGGCATGACGGGCGCGGTGCGCAACCGCTGGTTGTCCGCGGCCTCGTCGGCTTTGGACTCGGGCAGTTTCAGGGCCGACATCATTGCTGGCAGGGGCAGCGTGGAAAGGTCGTCGAGAAGCGAGCTGCGCACGGGATCGAGGGCGGGGAACGACAGGCTCATGGGTGA	MLTVDLHGPPRVTRHLRNPIGGGDVRPQRKHARQLALVTLVEVADHLALPVDLRFHTHRHRKGHGPERQVRPGAHVHDEAQPREHVAYRRPPARLHRRHGAVGSRQFGASREAVARDQVVGAHQAEQGGGDSEARPRLFRQGGGVEGVVKHARVAQQRGHDGRGAQPLVVRGLVGFGLGQFQGRHHCWQGQRGKVVEKRAAHGIEGGERQAHG				NA	NA	NA	NA	NA
AK009_08693	1287			hypothetical protein	GTGCACCTGGTACGGCGCGATGGCGACCGGCCAGACGAGGCCCTTGTCGTCGTGGCGCTGCTCGGCCACGACCGCCATCATGCGGGAAACGCCGATGCCGTAGGAGCCCATGGTGGGCACGGCGCGCTTACCGCCCTCGTCGAGGATCTGCACGTCCATCGCCTCGGTGTACTTGCGCCCGAGCTGGAAGATGTGCCCCAGCTCGATACCGCGCGCGAGCTTGACGGTGCCGTTGCCGGAGGGGGAAGGATCGCCCTCGCGCACCTCGGCGGCCTCCACGAAGCCGTCGACGACGAAGTCGCGGCCGGCAACCAGGCCGACGACGTGGCGCTCGTGCGCATCCGCACCGGCGATCCACGACGTGCCGTCGACCACGCGCGGGTCGGCGTAGACGGTGACCCCGTTGGCCGCCAGCGCGCGCGGGCCGACGTAGCCCTTGACCAGAAAGTCCGTGCGGGCGAAGTCTTCCTCGCTCGCCAGCTCGAAGGTCGCCGGGGCCAGGGAGGCCTCGAGGCGCTTCTCGTCAAGTTCGCGGTCTCCGGGGATCAGGATGCCGGTCAGGCGCGGGCCGACGGGGGCGCCATCGTCGTCAGTGAGGCGCGGGTCGTCGACCTTGAGCACCATGCACTTGAGCGTGTCGGCGGCGCTGACCTGCCTGCCCTCAACGGTCACGCCCTGGGCGTTGGCCCACGCGACGAGCGCGTCGATCGTTTCGGCCCGCGGGGTGTCGTGCTCGACCGCGTCCGGCAGCCCCTCGATCGGCTGCGGCTCGGGCGCGACGGTCACCACGGCTTCGACGTTCGCGGCGTAGTCGCCGGCCGACGAGATGACGAACGTGTCCTCACCGTTGTCGGAGTACGCCAGGAACTCCTCGGAGGCGGAGCCGCCCATCGCGCCGGAGGTCGCCTTGCAGATCTCGTAGCGGATCCCGACGCGGTCGAAGACGCGCTGGTAGGTGGCGCGGTGCTTGGCGTAGGACTCTTCAAGCCCCGCGTCGGTCATGTCGAAGGAGTAGGAGTCCTTCATCACGAACTCGCGTCCACGCAGGATGCCGGCGCGCGGGCGTGCCTCGTCGCGGTACTTCGTCTGGATTTGGTACAGCGTGACCGGGAAGTCCTTGTAGGAGGAGAACATGGATTTCACCGCGGAGGTGAACATCTCTTCGTGCGTCGGGCCGAGCAGCATGTCCGCGCCTTTGCGGTCTTTGAGGCGGAACAGGTCGTCGCCGTATTCGGTCCAGCGGTTGGTCAGCTCGTAGGGCTCGCGCGGCAAAAGCGCGGGAAATAG	MHLVRRDGDRPDEALVVVALLGHDRHHAGNADAVGAHGGHGALTALVEDLHVHRLGVLAPELEDVPQLDTARELDGAVAGGGRIALAHLGGLHEAVDDEVAAGNQADDVALVRIRTGDPRRAVDHARVGVDGDPVGRQRARADVALDQKVRAGEVFLARQLEGRRGQGGLEALLVKFAVSGDQDAGQARADGGAIVVSEARVVDLEHHALERVGGADLPALNGHALGVGPRDERVDRFGPRGVVLDRVRQPLDRLRLGRDGHHGFDVRGVVAGRRDDERVLTVVGVRQELLGGGAAHRAGGRLADLVADPDAVEDALVGGAVLGVGLFKPRVGHVEGVGVLHHELASTQDAGARACLVAVLRLDLVQRDREVLVGGEHGFHRGGEHLFVRRAEQHVRAFAVFEAEQVVAVFGPAVGQLVGLARQKRGK				NA	NA	NA	NA	NA
AK009_08694	567			hypothetical protein	GTGGGTTTCCCACTACATCGTCGGATTCGAGCGCTTCGATTCCACGACCCCGCTCTACGCGTTCGTGTTCCTCGTGGCCCTCGGCATCGACTACACCATCTTCCTGGTGACCCGAGCGCGCGAGGACTCCGCCGAGCTGGGCACGCGCCGCGGCATCCTCACCGCGCTGTCTACCACGGGCGGCGTGATCACCTCGGCCGGTATCTTGCTCGCGGCAGTCTTCGCCGCCCTCGGCGTGCTCCCCCTGGTCGCGCTCGCGCAGATCGGCATCGTGATCTGCCTGGGCGTGCTGCTCGATACCCTGATCGTGCGCAGCCTAATCGTGCCTTCGGTCGTCGAGCTGCTTGGCGACAAGTTCTGGTGGCCCGCGAAACCCGGGGCGCTCGCCGAGCGCTAGCCCGCGGCGACGAGCTCGCGGACCTTGGCCACGATGTCCGCGCTCGCCACCTCGAGGGTTTCGCCGCCGCGGATACGCAGCTCCACGATCCCGTCCGCAAACGAGCGCCCGAGGATGACGATGAACGGCATTCCGAGCAGCTCAGCGTCTTTGAACTTGACTCCCGGTGA	MGFPLHRRIRALRFHDPALRVRVPRGPRHRLHHLPGDPSARGLRRAGHAPRHPHRAVYHGRRDHLGRYLARGSLRRPRRAPPGRARADRHRDLPGRAARYPDRAQPNRAFGRRAAWRQVLVARETRGARRALARGDELADLGHDVRARHLEGFAAADTQLHDPVRKRAPEDDDERHSEQLSVFELDSR				NA	NA	NA	NA	NA
AK009_08695	567			hypothetical protein	GTGCGAAAGGAGCAGGCACAGCACGCCGAGGGCCACTGTGGCCGCCGAGGCGACGATCGTGCTTACCGTCGGCTTCCAGGCGCGGAACATCGCCTCAAACCGGTTCTCGGTGCGGGTGAGCTCGTCGCGGTAGCGCGAGATCAGCAGCAGCGCGTAGTTGGTTCCGGCGCCGAAGACGAGCACCGAGAGGATGCCGCCGGTGGATTCGTTCCACTGCATGCCCACGGCGTCCAGGACGCGGGGGTAGGTCGTGGCGACAAGGCGGTCGGCGATGCCGATGACGAGCAACGGGATGATCCACAAGATGGGGGAGCGGTAGGTAAACACCAGCAGCACCGCGACGATGATCGCGGTAACCGCGAGCAGGGTGACGTTGGCGCCGGAGAACACGCCGGACAGGTCCGCCTCGATTGCAGCGGGGCCGGTGACCTGCGACTCCACGCCCTCGGGCAGGCCGTCGGCGGCCGTGGCCCGCAAGGATTCGACCACGTCGACGTTGTCGGTGAGCGACTCCGAGGTGACCTCGACGGGGACGATCGCCGCGTCGACGGATTCGTTCGGGATTAA	MRKEQAQHAEGHCGRRGDDRAYRRLPGAEHRLKPVLGAGELVAVARDQQQRVVGSGAEDEHREDAAGGFVPLHAHGVQDAGVGRGDKAVGDADDEQRDDPQDGGAVGKHQQHRDDDRGNREQGDVGAGEHAGQVRLDCSGAGDLRLHALGQAVGGRGPQGFDHVDVVGERLRGDLDGDDRRVDGFVRD				NA	NA	NA	NA	NA
AK009_08696	711			hypothetical protein	ATGATCGCGAGAGATACCCATCGCAAGTGTTTTATACGTTGTTGTGTCACCTGCGGTATTTTACGACATCGTCACGACACCTCAGGCGCGCTGGGCGTGCGCCGTGAGCCTGATCGCGGCGTCGCGCCACTGTGCGTCGTCCGCTCCCGCCGCCGCGTGGTGCCACTGCGTGACCAAGTCCGCGTTGAGGCGTTGCACCAGCTCAGCAGCGGATGCGGGGTCGGTGGGGGTGCCGCCTTCGGCGAATTCGTAGCCCGCGAGCGGCTGCGGCACGTCGCCGGTGGGCTCCAGGGCGGCGGTCAGGGCTTCGCGGCGGGCGTCGGAGGCGCTGCGCAGAGCGTCGATACGCGCGAGGAGCGCGTCGTCGGCCCAGGCGGTGGCGAGCCCAATGCCGTACTCGAGCGCGTACTCACGGCGCAGCATGTCGCGGGCGGAGTCGAGGTCGGCCGCTGGGGCGTCGTCAAGCGCGATGCCCTCGAGCTCGACGGGCGCGATGGCGACGGTGTCGATGGCCTGGGAAACAACCAGGTCAACCGAATCCTCCGGGACCTTTCCCGCCGCCGTCACGGTCGCGGCGCGGACCTGATCAATCATCGCTTCGACGTCCGCGGCGCCGGCGGGAAGATCGGTGTCCCCGAAGCTCACGTCGCAGGACGACGGCGGGTTGCCAGCGTCATCGGTGCCGCACAGCCGCTGCGCTTCGGCGACTAG	MIARDTHRKCFIRCCVTCGILRHRHDTSGALGVRREPDRGVAPLCVVRSRRRVVPLRDQVRVEALHQLSSGCGVGGGAAFGEFVARERLRHVAGGLQGGGQGFAAGVGGAAQSVDTREERVVGPGGGEPNAVLERVLTAQHVAGGVEVGRWGVVKRDALELDGRDGDGVDGLGNNQVNRILRDLSRRRHGRGADLINHRFDVRGAGGKIGVPEAHVAGRRRVASVIGAAQPLRFGD				NA	NA	NA	NA	NA
AK009_08697	537	rimP_2	COG0779	Ribosome maturation factor RimP	ATGGCATTTCCAGGAGTCGACGAACTGACCAGGATGATTGAGCCCATCGCCGCGGCGTACGGGATGGACGTGGAGAAGGTGCGCACAGTCGCCGCCGGGAAGAAGTCACAGGTTGTTATCGCGCTTGACTCGGACGCGCACCCCACCCTCGACGAGCTTGAGGTAGTCAGCAACGAGCTCAGCGAGCTTTTCGACGCCCGCGAGAACGCAGGGGAGATCAACTTCGGCGCTGGCTACACCCTCGAGGTGACCACCCCCGGTGTCGACCTGCCGCTGACCGAGCCGCGCCACTGGCGCCGCAACCGCGGCCGCCTCGTCGCCGTCGGCGAGGAGAAGTTCCGAATCGGTGCGCTCGACGCGGCGGAAGAGAACGTCGTGCTCATTCCCACCGCGCAGAAGCAGCCGCGGCCCGAGGTGCGCCCGGTTTCGGGATTGGCACCTGCGGTGGTAGAAATTGAATTCAACACACCGCCCGCCGCGCAGAACGAGCTGGCGGAGCTCTCGTTCGACCAGGCCGCTGAACGCGCGGCCAACTGA	MAFPGVDELTRMIEPIAAAYGMDVEKVRTVAAGKKSQVVIALDSDAHPTLDELEVVSNELSELFDARENAGEINFGAGYTLEVTTPGVDLPLTEPRHWRRNRGRLVAVGEEKFRIGALDAAEENVVLIPTAQKQPRPEVRPVSGLAPAVVEIEFNTPPAAQNELAELSFDQAAERAAN				NA	NA	NA	NA	NA
AK009_08698	477			hypothetical protein	GTGGGTCCGAGACAGGTTGACCTGGACCTTCTGCTCACCCTTGTTCACACCCACGACGAACGCCTTGATGCGGTCGCCGTGCTTGAGCTTCTCGCCCGGAATCTGCTCCGCCGGCAGCAGGATGCCGTCCTGCGGGTCGGCCTCCGTGCCGAGCTCGACGACGATCAGGCCGCGCGCCTCAGCGTTCGCATCGCGCTGGACGACGCCCGAGACAACCTGTCCCTCAAACTCGGAGTACTCGGTGAAGGCGCGGCCCGCCTCCGCCTCGCGCACGCGCTTTTTAATGGCGTCGAGCACCGTGGGCGCGCCGATGCGCGAGAAGTTCACGGGGGTGTCGTCGTACTCGGAGATCACCGCGCCTTCATCGTCTACCTCGCTGACCAGCACGGAGACGTCACCGGTGTCGGCGTCGATCTCGACTCGGGCCTTCTGCCCCTCGGCCGGCGGGGTCTCGCGGTAGTCGCGGTACGCCCATAG	MGPRQVDLDLLLTLVHTHDERLDAVAVLELLARNLLRRQQDAVLRVGLRAELDDDQAARLSVRIALDDARDNLSLKLGVLGEGAARLRLAHALFNGVEHRGRADAREVHGGVVVLGDHRAFIVYLADQHGDVTGVGVDLDSGLLPLGRRGLAVVAVRP				NA	NA	NA	NA	NA
AK009_08699	399			hypothetical protein	GTGGATGTCGATCTTCCACCCGGTCAGGCGCGCGGCCAGGCGCGCGTTTTGGCCTTCCTTGCCGATCGCCAGCGAGAGCTGGTAGTCCGGCACCGTCACCCGCGCGGCCTGGCCCTCGAGGTCGAGCACCTCGACGCGCACGACCTTCGACGGCGCGAGAGAGTTGCCGACGTATTTCGCCGGGTCCGCGGAGTAGTCGATGATGTCGATCTTCTCCCCGCCGAGCTGCTGCATGATGTTGGTCACGCGCGCGCCGCGCGGCCCGATGCAGGCGCCCTTGGCGTTAACGCCCTTGACCTTGCCCTGGACGGCCACCTTGGAGCGGTGCCCCGCCTCGCGGGCAATCGCGACGATCTCGACGGTGCCATCGGCGACCTCAGGAACCTCGAGCGCGAATAG	MDVDLPPGQARGQARVLAFLADRQRELVVRHRHPRGLALEVEHLDAHDLRRRERVADVFRRVRGVVDDVDLLPAELLHDVGHARAARPDAGALGVNALDLALDGHLGAVPRLAGNRDDLDGAIGDLRNLERE				NA	NA	NA	NA	NA
AK009_08700	324			hypothetical protein	ATGATGCAAGGCGCACGCGAGAAGCAGCGCACGACGCCCATCCGCACCTGCATCGCAACGCGCGGGGCACGTCCCCGCACCGAACTGCTCCGCGTGGTGGCCGACCCGAACGGGTCCGGCCGGATCCTGGCGGATCCGACCGCGACGCTCCCCGGAAGGGGAGCGTGGATCACCCCAACACTGGATGCATTCGAGCTCGCGGAGAGGCGAAAGGCATTCGCCCGAGCCCTGCGCGTGTCCACACCCGTGGATTTAGGTCATGTAAGGACGTACCTCGCGGATCGCGCGAACGACCCACATAAGGATAGGAAGACCGAACACTGA	MMQGAREKQRTTPIRTCIATRGARPRTELLRVVADPNGSGRILADPTATLPGRGAWITPTLDAFELAERRKAFARALRVSTPVDLGHVRTYLADRANDPHKDRKTEH				NA	NA	NA	NA	NA
AK009_08701	948			hypothetical protein	GTGCATCTCCTCGTACTCGCTGCGCTTCTGACGCTTCGACTTGCGACCACGCCCAGGGGCGCCGCCGGGACGGCCGAACGCGCCAGCGGTACCGCCGCGGCGACCGCCGCGACCGCGGAAACCGCCGCCTGCGGGACCACCGGGGCCACCCTGGCCACCGCGGCCACGGCCGCCACCAGGTCCACCCTGGCCACCACGACCACGGCCGCCGGCAGCGGACTTCGTCGGCATCTGGGTCGGCGACGGGTGTGCCGCCATATCGGCCGGCGACGGGCGCTTGCCGCCCGGGCGCGGGCCGGGACGGCCTTGACCCTGGCCAGCGCGCTCTTGGCCCTGGCCACCACGGCCACGACCTGCTGCCCCACCGGGGCCACCGGCCGCACCGCGGCCACCGCCTGGGCGAGGTGCCGGGCGCGGGCCACCCTGGTTCGAAGAGAACGGGTTGTTGGCCACGCGCGGGCGCCCGCCCGGCTTCGGCATCGGACGAGGCATCGCGCCCGGGGTCGGCCCACCCTCGCCGGAGCCCGGTTTGGGCGCTGCCGGCGACTGTGGCTTCGGTGCGCCCGGCCTCGGGGCAGACGCGGCCGGTTTGGCGGGCTGCGCAGGAGTCGGTGCGCTGGGCTTTGCGGCAGCCGGCTTCGGTGCGCCGGGCTTAGCTGCAGCCGGCTTCGCGGCGGCAGGCTTGGGCGCCCCAGGCTTTGCAGCCCCGGGCTTCGCGGCGCCAGCGGCGCCAGGCTTCGGCGCAGCAGGCTTATCACCGCCCGGCTTGGGCGCGCCCGACTTCTGGCCCTTGTCGGCGTCCGCTCCGTAGAACGCCTTCATCTTCTTCACCACCGGCGGTTCGATGGTCGACGATGCGGTTTTCACAAACTCGCCCTGGTCTTTCAGGGTTGCGAGCAGTTCTTTACTTGTTACGCCGAGCTGTTTCGCCAGTTCGTGTACACGTAG	MHLLVLAALLTLRLATTPRGAAGTAERASGTAAATAATAETAACGTTGATLATAATAATRSTLATTTTAAGSGLRRHLGRRRVCRHIGRRRALAARARAGTALTLASALLALATTATTCCPTGATGRTAATAWARCRARATLVRRERVVGHARAPARLRHRTRHRARGRPTLAGARFGRCRRLWLRCARPRGRRGRFGGLRRSRCAGLCGSRLRCAGLSCSRLRGGRLGRPRLCSPGLRGASGARLRRSRLITARLGRARLLALVGVRSVERLHLLHHRRFDGRRCGFHKLALVFQGCEQFFTCYAELFRQFVYT				NA	NA	NA	NA	NA
AK009_08702	1770			hypothetical protein	TTGCTTATCGGCGCCGCGTTGCCACGTGCGTCGATAAGCGTGGCGCGGCTCTTAGTCGCGCGGAACCTCAACCATCTCGTAGACCTGGACCACGTCGTCGACCTGGATGTCCGGGTAGGACAGGACCATGCCGCACTCGTAACCCTTGTCCACCTCCGTGACGTCATCCTTCTCGCGGCGCAGCGACTGGATCGTCGCGTCCGTGGTGATTACGTTGCCGTCGCGCACCAGGCGGCACTTCGCGTTGCGACGCACCTTGCCCTCGGTGACCATGCAACCAGCGATGAGGCCGACTGCGGAGGCCTTGAAGATCTGGCGGATCTCCGCCGCGCCGATCTCGCGCTCCTCGTAGACAGGCTTGAGCATGCCCTTGAGAGCGGCCTCGACATCGTCGATGGCCTGGTAGATCACCGAGTAGTAGCGGATCTCCACGCCCTCGTTGCCGGCTTCCTCGGTCGCCTTACCCTCAGCGCGAACGTTGAAGGCGACGATCACCGCGTCGGAAGCGGCAGCCAGGACCACGTTGGTCTGGGTGACCGCACCGACGCCGCGGTCGATGATGTTGACCTCGACCTCGTCGTCGATCTCGATCTTGAGCAGCGCCTCCTCCAGGGCTTCCACCGAACCAGCGTTGTCGCCCTTAAGGATGAGGTTGAGCTGGCTGGTCTCCTTGAGAGCCGCATCCAGGTTCTCCAGGGAGACGCGCTTCCTGCGGCGCGCCTGCATCGCGGAACGCTTGCGGGCGTCACGCTGCGCGGCGATCTGGCGAGCGATGCGGTCGTCCTCGACCACGAGCAGGTTGTCGCCCGGGCCGGGAACGCCGTTGAGGCCCTGGACCTGGACGGGGCGGGACGGGCCCGCCTCCTCGACGTCGTTGCCCCACTCGTCGACCATGCGCCGCACGCGGCCGAAGTTGCCACCGACGACGATGGAATCGCCGACGCGCAGGGTACCGCGCTGCACGATCACCGTGGACACCGGGCCGCGGCCGCGGTCCAGGTAGGACTCGATGGCCAGACCCTGGGCGTCCATGTCCTCATTCGCGCGCAGATCCAGCGCCGCGTCCGCGGTCAAAAGGACGGCCTCGAGCAGCTCGTCGATACCGGTGTTGTTGCGCGCCGAGATGTCAACGAACATCGTGTCGCCGCCGTACTCCTCCGGCACGAGGCCGTACTCGGTGAGCTGGCCGCGGATCTTGTCCGGCTGCGCCTCGGGCTTATCAATCTTGTTCACAGCAACCACGATCGGCAGATCCGCTGCCTTGGCGTGGTTGATCGCCTCAACGGTCTGGGGCATCACGCCGTCGTCGGCGGCGACGACGAGGATGGCCAGGTCCGTCGACTGCGCACCACGGGCACGCATTGCGGTAAACGCCTCGTGGCCCGGGGTATCCAGGAACGTGATGGTGCGCGGCTCATCCTCCAGGGTGACGGTGGTCTGGTACGCACCGATGCCCTGGGTGATGCCGCCGGCCTCGCCGGAGCCGACGTTTGCCTTGCGGATCGTGTCCAGCAGGCGGGTCTTACCGTGGTCGACGTGGCCCATGACGGACACCACCGGCGGGCGTTGCGCCAGGTCTTCCTCGTCGCCCTCGTCCTCACCGAACTGCAGGTCGAAGGACTCGAGCAGCTCGCGGTCCTCGTCCTCCGGCGAAACAACCTCAACCTCGTAGTTGATCTCGGCGCCGAGCAGCTGCAGGGTTTCCTGTGGCACGGACTGGGTAGCCGTCACCATCTCACCGAGGTTGAACAGGGCCTGAACCAGGTTTGA	MLIGAALPRASISVARLLVARNLNHLVDLDHVVDLDVRVGQDHAALVTLVHLRDVILLAAQRLDRRVRGDYVAVAHQAALRVATHLALGDHATSDEADCGGLEDLADLRRADLALLVDRLEHALESGLDIVDGLVDHRVVADLHALVAGFLGRLTLSANVEGDDHRVGSGSQDHVGLGDRTDAAVDDVDLDLVVDLDLEQRLLQGFHRTSVVALKDEVELAGLLESRIQVLQGDALPAARLHRGTLAGVTLRGDLASDAVVLDHEQVVARAGNAVEALDLDGAGRARLLDVVAPLVDHAPHAAEVATDDDGIADAQGTALHDHRGHRAAAAVQVGLDGQTLGVHVLIRAQIQRRVRGQKDGLEQLVDTGVVARRDVNEHRVAAVLLRHEAVLGELAADLVRLRLGLINLVHSNHDRQIRCLGVVDRLNGLGHHAVVGGDDEDGQVRRLRTTGTHCGKRLVARGIQERDGARLILQGDGGLVRTDALGDAAGLAGADVCLADRVQQAGLTVVDVAHDGHHRRALRQVFLVALVLTELQVEGLEQLAVLVLRRNNLNLVVDLGAEQLQGFLWHGLGSRHHLTEVEQGLNQV				NA	NA	NA	NA	NA
AK009_08703	435	rbfA_2	COG0858	Ribosome-binding factor A	ATGGCTGACAACTCACGCGCGCAGCGTTTGGCGAAGCAGATTCAGACAATCGTTGCGTCCTCCATCGAGCGCGAGGTGAAGGATCCGCGCTTGGAGCTGGTCACGGTCACTGACGCTCGGGTCACAGGCGACCTGCACGACGCGACGGTGTACTACACCGTCCGCGGGCGCAACATCAACGACGAGCCGGACTACGACCAAGCCGCCGAGGCGCTGCACCGCGCCCGCGGGCAGATCCGCAAGATCGTGGGCGACCAGCTCAACGTGCGCTTCACGCCGACGATCTCGTTTGAGATGGACACGGTGCCGGAGGCCTCCGCGCGGATGGAGGAGCTGCTCAACCGCGCACGCGCCCGCGACGCCGAGCTCGCGCGCCTGCGCGAGGGTGCGAAGCCGGCGGGTGAGGGCAACCCCTACAGAAACGTCGAAGAGTAG	MADNSRAQRLAKQIQTIVASSIEREVKDPRLELVTVTDARVTGDLHDATVYYTVRGRNINDEPDYDQAAEALHRARGQIRKIVGDQLNVRFTPTISFEMDTVPEASARMEELLNRARARDAELARLREGAKPAGEGNPYRNVEE				NA	NA	NA	NA	NA
AK009_08704	786			hypothetical protein	GTGTCCCCGCACCTCGTAGGCCTCGAGCGAGGCCAGCACCGCGCCGACGTGGCGCATGTCCGCGGGCGTGAGCGCATCCATGAGGTCCATCGCAATCTTGCGGGTGTTAAGACCAAAGTCCATCAGCTCCGCGGCGAGGTGGTGCATCCGCGGCGTCCCCCAGCGGAAGTTGCCCGTATCCGTGACCAACCCCGCGTACAGGCAGTACGCGATGTCGGCGTCGAGTGCCACGTTCATGTGGTAGAACAGCTCCCGCACGATCGCGGTGGTCGACTCCGCGGCCACCACGAGGTTGCGCGCACCGAACAGCGGGTTCGACGCGTGGTGGTCGACCACCAGCACCCGCGCAGGGTCGGCCTCGACCGCCGCACAAAACGCGCCAGTGCGGTCGGCCGAGGCGCAGTCGACGGTGACGATGAGGTCCTCGGTCGGCGGCTCGCAGGTGTAGGTGATCTCGTCGACGAACGGCACCGTCGCCAGGTTGCCCGGGTGTGGGGCGCGCTGGCCGATGTACGCGTTCGCCGTGATCCCGAGTTGGCGCAGCCCCGCCATCAGCGCGCAGGCCGAGCCCACCGCGTCGGCGTCGGGCTTGATGTGCGTGACGACGGCGACCGAGGGGGCGTCGACAAGCACGCGCGCGGCGGCGGCGAACTCGGACTCGAGGCCGGGGAACATCTGCGCCATGAACCTACTCTTCGACGTTTCTGTAGGGGTTGCCCTCACCCGCCGGCTTCGCACCCTCGCGCAGGCGCGCGAGCTCGGCGTCGCGGGCGCGTGCGCGGTTGA	MSPHLVGLERGQHRADVAHVRGRERIHEVHRNLAGVKTKVHQLRGEVVHPRRPPAEVARIRDQPRVQAVRDVGVECHVHVVEQLPHDRGGRLRGHHEVARTEQRVRRVVVDHQHPRRVGLDRRTKRASAVGRGAVDGDDEVLGRRLAGVGDLVDERHRRQVARVWGALADVRVRRDPELAQPRHQRAGRAHRVGVGLDVRDDGDRGGVDKHARGGGELGLEAGEHLRHEPTLRRFCRGCPHPPASHPRAGARARRRGRVRG				NA	NA	NA	NA	NA
AK009_08705	261			hypothetical protein	GTGCGCGGCGTACTCGCGCACCAGGGTGGCCAGGAACAGCGCCGAGGTTATCCCGATGCCCAAGACGTTCGCCCAGGCGGAGCCGACGAGGCCGAAGCGGTCGACGAAAAATGGCAACAGGGCTGCCCCGGGGACGATCCCGCACAGCGTGAGGATGAAGGGCAGCCGCGTGTTTTGCACCCCGCGCAGCCAGCCGTTTCCGGCCATGATGATCAGCGTCAGCGGGATGGCGAGGGCAGCGACGTGCATCCAGCTTGCTGA	MRGVLAHQGGQEQRRGYPDAQDVRPGGADEAEAVDEKWQQGCPGDDPAQREDEGQPRVLHPAQPAVSGHDDQRQRDGEGSDVHPAC				NA	NA	NA	NA	NA
AK009_08706	645			hypothetical protein	TTGTCGTGGTGGTCGCCATGTCAACTTGTTCTATCACACGGCCTCACCCGCGATGGCCCATTTCATCGAACGGAACCGAACGACAACACCCGCAAGCCGGATGACCACGGACGCCAGCAGCCCGGCCCACACACCGGGCAGGCCCCACCCGAAGGCGAGGGCGGCGAGTGTGACGGGGAAGAAGACGCCGAGCACGGAGGCGATAGTAAGCGTGCGCAGGAACGCCACGTCACCCGCCCCGAGCAGCGCGCCGTCGAGTGCGAAGACCACGCCGCCGACGACGATCATGACCACGAGCATCCACCACGGCACGACGAGCTGGTTCACAACGTCCGGGTCCCGGGTAAACAGCGCCCAGATACCGCGACCTGCCAGGGCGAAGACGAGCGCGAGGACGGACGCGAAGACCATGGAATAACGCGTCGCGAACTCACCGACGCGGCGCGCTTGCGTGACCTCGCCGCGGCCCAGCGCCGAGCCCGTGAGTGTCTGCGCCGCGATCGCGAGCGAATCCAGCACGAGGGTAAGGAAGTTCCACAGCTGCAGCAGGATCTGGTGCGCCGCCAGCGCGGCGACGCCGAAACGACCCGCCACCGCCGCGGCGGCAAGCATGGAGATCTGAAACGACATCGACCGCAGGATTAG	MSWWSPCQLVLSHGLTRDGPFHRTEPNDNTRKPDDHGRQQPGPHTGQAPPEGEGGECDGEEDAEHGGDSKRAQERHVTRPEQRAVECEDHAADDDHDHEHPPRHDELVHNVRVPGKQRPDTATCQGEDEREDGREDHGITRRELTDAARLRDLAAAQRRARECLRRDRERIQHEGKEVPQLQQDLVRRQRGDAETTRHRRGGKHGDLKRHRPQD				NA	NA	NA	NA	NA
AK009_08707	135			hypothetical protein	TTGCTCCACGGTGAGATTGGGCCCGCGGAAGGAGTAGTCGTAGAGCGTAAACAGCGGCGCGATGGTGACCCCGCCGAACGTTGGGTAGACGTCTTCCGGGGTGATCACCCCGATGTCGCGCAGGGCGTGGACTAA	MLHGEIGPAEGVVVERKQRRDGDPAERWVDVFRGDHPDVAQGVD				NA	NA	NA	NA	NA
AK009_08708	336			hypothetical protein	GTGCTGCTGAGGGGAACAGTTCGAGATCTTGCATCACTGCCTCAGCTCCATCACCGGGTAGGGCCAGGTGGTGTCCCCGCTGCGCTCGGGCGTGCCCTGCCACTCTCTGGGGTAGCCGAGGGAGACCTCGATGTGGTCTACCCCGTCGACACGCGTGATGCCCGGCATGTGGAGGTGGCCGTAGACCACCGCGCGAGCGTTGTAGCGCTTCGCCCAGGAGCGGGTGTGGCGGGTGCCGCACCACAGCGCGATCTCGGGAAAGTGCAGCCGCGCCACCGGTTCCTGCACCAAGGGCCAGTGGTTGACCAGGATGGTGGGGCCGTCGATACGCGATAG	MLLRGTVRDLASLPQLHHRVGPGGVPAALGRALPLSGVAEGDLDVVYPVDTRDARHVEVAVDHRASVVALRPGAGVAGAAPQRDLGKVQPRHRFLHQGPVVDQDGGAVDTR				NA	NA	NA	NA	NA
AK009_08709	345			hypothetical protein	TTGGCCGTCCGACTTCATCAGGTCGAAGCGGTGGCGCTCCGGCGCGCGCGCGATCTGGTCAATGACGCCCTCCGGCAGCGGCTCCGCGGGCTCGACGTCGAGGCCCATCGACCGCACGTGCGTGCGCGGCGCCGCCACAGCCGCGCGCAGGCCCTCGGTGTGCGTCAGCGAGCCCGTGTACCCGCGCGGCCACAGCGGCATCCCGCTGTCACCCTTCAAAATCGCCTCGCCGGGAGGGACCCCCAGCTCCCGCAGCACCTGGTGCGCGCACCAGCGGGCGTCGCCAAACTCGCCCTTTCGCTTGTCGACGGCCTGACTGACCAACCCCTGTTCCTCCGGGTGTAG	MAVRLHQVEAVALRRARDLVNDALRQRLRGLDVEAHRPHVRARRRHSRAQALGVRQRARVPARPQRHPAVTLQNRLAGRDPQLPQHLVRAPAGVAKLALSLVDGLTDQPLFLRV				NA	NA	NA	NA	NA
AK009_08710	165			hypothetical protein	GTGGGCGGGCAGGCTGCTGTTCTGCGCGAAGGAGGCGACGTACAAGTGCTGGTTCCCGATGACGCGGCGCTGGCTCGGGTTCGAGGACGCCGAGATCGACATCCGCTCCGACGGAACGTTCATCGCTTATATCCTGGTCAGGCCCACCCCGGTGCCGTTTTTTGA	MGGQAAVLREGGDVQVLVPDDAALARVRGRRDRHPLRRNVHRLYPGQAHPGAVF				NA	NA	NA	NA	NA
AK009_08711	903	truB_2	COG0130	tRNA pseudouridine synthase B	ATGAGTTTTGCCCCTGACCCGCTTGCCAGCTCCGGAATCGTTGTGGTGGACAAGCCCGCCGGGATGACAAGCCACGACGTCGTCGCCCGCCTGCGCCGCTTCTTCCACACCCGCAAGGTGGGCCACGCGGGCACCCTCGACCCGATGGCGACCGGCGTGCTTGTCGCCGGCATCGAGCGCGGCACCAAACTGCTCGCCCACCTAGTCGCCGAGGACAAGGTCTACACCGCAACGATCCGGCTCGGGGCCGCGACCACCACCGACGACGCTGAGGGCGAGGTCACCTCCACCGCCGACGCGTCCCACATCACGGACGCAGACATCGCGGCCGGGATCGGCGAGCTGACCGGCGACATCATGCAGGTGCCGTCGAGCGTCTCGGCGATCAAGATCGGGGGCCGGCGCGCCCACGAGCTGGTGCGCTCGGGCGAAACCGTCGACATTCCGCCACGGGCGGTCACCGTGTTTAGCTTCGACGTGTTGGGGGTGCGTCGTGAAGCAAGCGTTGTCGACGTCGACGTGCGCGTGCACTGCTCGAAGGGCACCTACATCCGCTCGCTGGCCCGCGACCTCGGAGCCGCACTCGGCGTGGGCGGGCACCTCACCGCGCTGCGCCGCGAAGCCGTCGGCGCGTTCACGCTCGCCGATTCCCGCAGCCTCACCGAGCTCGAGAACGCCCCCACCCTGTCGCTGAGCCTAGACGAGGCGCTGACCCGCGCCTGGCCGGTGATCGACGTCACGGCCGCGGAGTACGAGGCCCTGGCCATGGGCAAGTGGCTGGAGCCGCGGGGCACACGCGGTGTACACGCCGCCGTCGGCCCCCACGGGCGCGCCGTCGCGCTAGTCAAGGAGCAGGGCAAGCGCCTCTCGACGGTGTTCGTCGCCCGGCCGTCCACCCTGTAG	MSFAPDPLASSGIVVVDKPAGMTSHDVVARLRRFFHTRKVGHAGTLDPMATGVLVAGIERGTKLLAHLVAEDKVYTATIRLGAATTTDDAEGEVTSTADASHITDADIAAGIGELTGDIMQVPSSVSAIKIGGRRAHELVRSGETVDIPPRAVTVFSFDVLGVRREASVVDVDVRVHCSKGTYIRSLARDLGAALGVGGHLTALRREAVGAFTLADSRSLTELENAPTLSLSLDEALTRAWPVIDVTAAEYEALAMGKWLEPRGTRGVHAAVGPHGRAVALVKEQGKRLSTVFVARPSTL				NA	NA	NA	NA	NA
AK009_08712	1782			hypothetical protein	GTGCGCCGTCTTCACGGGGTCGTTCAGGCGGGTCTCGTCGCCGATGGTGCGGCCGCGCGTCGGGCCCTCAGTGTCGGTCTTCATGTTGATGTCCACGAGCTGAACCAGCGAGGGGTCGACCGCGACGCCCACCGCCAGCGGGTCGTGCAGCCCGCAACCGCCCAGGTGAGGGGCGGTGGTGTCGTAGGCCTTGATGTAGTAGTCCGTCGCCTCGGCGAGGAAGTCGCCGCCGCGGGTGCCCAGCTCGCGCCACTTCTTCGTCTCCGCGTAGGTCAGCAGCGTCTGCAAGGTGACGTCGAGGCCGATCATGGTCACGTCCTGGGCGCGGCGGAACAGAAGGTCCGTCGCCTCCGGGTCCTGGTTCACGTTCGCCTCGGCCCACGGCGAGACGTTGCCCGGGACGGTCAGCGCCCCGCCCATCATGACGATGTGCGCGCGTTTCGCGAAGCTTTCCGACGCCTCAATCGCCGCAGCGATGGTGGTCGACGGCCCCGTGGGCACAATGACCAGGTCGTCGCCGTAGCGCTCGACGGACTCCACGAGGAAATCGACGGCGCTTTTCTCCTGCACCATCGCGACAGGCTCCGGCAGCACCGCGCCACCGACGCCGTTGTCGCCGTGGATGAACGCGGAGATCTCCAGCACCTCAAACGAATCGCGGGCGCGCGCGTGATCCGGGCCGGCGAACACGGGGATGTCCGCGCGGCCGAACAGCTCCAGGATGGCCGCCGAGTTGCGCACCCCGGTCTCTACCAGCACGTTGCCGTAGGTTCCTGTCACGCCGATGAGCTCGAGCTCCGGCGAGCCCAGTGCGTAGGCAAGAGCGAGTGCGTCGTCGATGCCGGTGTCGAGGTCCAGGATGATCTTTCGTGCCATGTGGGTTTCTTACCTTTCGGGGTTTTTCGGATCCGCCGCGAGAATCTGGCGGGTTGTCTCTACGTCGCGGGCCATACTTTCCAGCAGGTCATAGACAGAGTCGAACTTGACCATGTCGCGGACCTTGCCCACGAACTCGACGCGCGCGAGCCGGCCGTACAGGTCGGCTTCGCGGTCGAGGATGAAGGATTCAACACTGCGGCGGGCATCGCCGAACGTGGGGTTCGTGCCCACCGAGATCGCCGCCGGGTAGCGCACGCCCGGCTCCATGTCGCCCTCGATCGGGCCCTTCTCTTCGCCGTCGACGACGGTGAGCCAGCCTGCGTAGACGCCGTCAGCGGGCAGGGCGGAGATATCGGCGACGTACTGGTTCGCCGTGGGGTAGCCCAGCTCGCGGCCACCGCGGCCCGCGCCGCGCTCGATCTCGGCGGTGACCGCGAAATCGCGGCCCAGGAAGTCCGCTGCCACGCGCACGTCGCCGCGATCCAGTTCCTCGCGCACGGCCGTGGAGCAGACGCGCACGCCGGCGTCGTTAAGCAACGCGACGGTGACCACCTCGATGCCGAACGCTTTGCCCAGCTCGCGCATGGTTTCGGCCGTGCCGGCGGCGTCTTTGCCGAAGGTGAAGTTCTCCCCCACCACCACCATTCGCGCGCCGAGCGTGCCGGCGAGGACGTCGCGGACGTAGACCTCCGGGCTATCGCCGGCGAGCTCCTCGCGGAAATCGATGACCACGAGGTGGTCGACCCCGAGCTTCTCGATCAGCCGGGCGCGCTCGCTAAACGGAATCAGGGCCTTCGGCGCGCGCTCAGGGGCGAAGATCGCGACCGGGTGCGGCTCGAACGTCATCACCACGCACGGCAGGCCGAGCCCGCGGGCGCGTACCACGGCCTCGCTGATGAGTAG	MRRLHGVVQAGLVADGAAARRALSVGLHVDVHELNQRGVDRDAHRQRVVQPATAQVRGGGVVGLDVVVRRLGEEVAAAGAQLAPLLRLRVGQQRLQGDVEADHGHVLGAAEQKVRRLRVLVHVRLGPRRDVARDGQRPAHHDDVRAFREAFRRLNRRSDGGRRPRGHNDQVVAVALDGLHEEIDGAFLLHHRDRLRQHRATDAVVAVDERGDLQHLKRIAGARVIRAGEHGDVRAAEQLQDGRRVAHPGLYQHVAVGSCHADELELRRAQCVGKSECVVDAGVEVQDDLSCHVGFLPFGVFRIRRENLAGCLYVAGHTFQQVIDRVELDHVADLAHELDAREPAVQVGFAVEDEGFNTAAGIAERGVRAHRDRRRVAHARLHVALDRALLFAVDDGEPACVDAVSGQGGDIGDVLVRRGVAQLAATAARAALDLGGDREIAAQEVRCHAHVAAIQFLAHGRGADAHAGVVKQRDGDHLDAERFAQLAHGFGRAGGVFAEGEVLPHHHHSRAERAGEDVADVDLRAIAGELLAEIDDHEVVDPELLDQPGALAKRNQGLRRALRGEDRDRVRLERHHHARQAEPAGAYHGLADE				NA	NA	NA	NA	NA
AK009_08713	270	rpsO_2		30S ribosomal protein S15	ATGGCATTGACTGCCGAGAAGAAGAGCGAAATTCTGAAGAACTACGGTGTCCACGAGACCGACACCGGCTCCCCCGAGGCTCAGGTCGCGCTGCTGACCGAGCGCATCAACTCCCTGACGGAGCACTTGAAGTTTCACAAGCACGACCACCACTCCCGCCGCGGCCTGCTGCTGCTCGTCGGCCGTCGTCGTGGCCTGCTGAAGTACCTGCGCGAGAACAACGTCGAGCGCTACCGCGAGCTCATCGCTCGCCTCGGCCTGCGCCGCTAA	MALTAEKKSEILKNYGVHETDTGSPEAQVALLTERINSLTEHLKFHKHDHHSRRGLLLLVGRRRGLLKYLRENNVERYRELIARLGLRR				NA	NA	NA	NA	NA
AK009_08714	1500			hypothetical protein	GTGGTGGATGTAGCGCTTCGCGGTCTCCGGGTGCAGCGAATCCAGCGTCTGTTCCATCTTGAGCATGTCGAGGGTGGTCACGCCGAGAATCTGGGTCTCGCCGCGCTCGAACAGGGCGGAGCCGTGGGCGCGCGGGATGAGCTCGACCTCGACCTCGAGGTCGCGGATGTCGCTGACCCCGCGGCCGTCGATACGGAAGCCCTCGGTGAGGATCTTCTCGCGCACGATCTTCTTCATCAGCGCGTTGTAGGCCGCGCGGATTTCCTTGACTGCCTGTGTGTACTCGTCCTCATCGTCGATGTCGAACTTGTCCAGCAGCGCCTCCTCGATCTCTTCCATGTAGGCGTTGGTCGCGTCGTCGCGGTCCTTCTTGCCCTTGATGGTGAGCAGGGTGGACAACTTCTTCGCGGCCTTCTTCTCCACCGCGGAGTAGACCTTGTCGGAGTATGCAGGAAACAGCGGGAACTCCTGGGTTTCCTTCGCCGTCTCCTCGGCGAGAGCAGCCTGGGCCTCGCACAGCGTCTTAATAAACGGCTTCGCGGCCTCCAGGCCCTCGGCGACGGTGGCCTCGGTCGGCGCGGGAGCACCGTCAGCAACAAGCTTGACGACGCTCGCCCCAGCGCCAGCCTCCACCATCATGATCGCGACGTCACCGTCGACCACGCGACCGGCGACGACCATCTCGAACACGGAGTGGTCGTGCTGCTCGTGGTTGGGAAACGCCACCCACTGTCCCTCGGGGTGCTTGTCGTCGGCGATGAGCGCCATCCGCACTCCGCCGACCGCGCCGGAGACGGGCAGGCCCGAAAGCTGGGTCGCGGCGGACGCGCCGTTAATCGCGACGACGTCGTAGTACTCCTCGGGGTTCATGCTGAGCACGGTGATGACAACCTGGACCTCGTTGCGCAGCCCCTTGACAAAGGTCGGACGCAGCGGGCGATCGATGAGACGGCAGGCCAGGATCGCCTCGGTGGAGGGGCGGCCCTCGCGGCGGAAGAACGAGCCCGGGATCTTGCCCGCGGCGTACATGCGCTCCTCAACGTCGACGGTCAGCGGGAAGAAGTCGATGTTGTCGCGCGGGTTCTTCGACGCGGTGGTCGTGGCCAGCAGCATCGTGTCCTCGTCGAGGTAGGTCGTGACAGACCCGCCCGCCTGGCGCGCGAGCTGCCCCGTTTCAAAACGGATGGTGCGCGAACCAAAGTCGCCGTTGTCGAGTACCGCGACAGCCTCGGTGATGCCGAAGTCCTCGTCGACGTGGATGTCGAAGCTGTTATTGGGGGTATGCGTGCTCAAAAGATCCCTTTCCTTGGGTGTCTTACGGCGATCGTCGGTGCCGCCGTCCTGCTGGTTTTTCTGCAACCTTTTCTGCAACGCTGCCCGATTCTACCAGGTGGCGCGACATTTACCACCTCTGCGGCGAGCCTGCCCGGGACGCGCCCGCGGGATCAAAAAAAATCGCCCTCCCCCGCGTTCAACAGCGGGAGGGGCGATTGGCGTTAA	MVDVALRGLRVQRIQRLFHLEHVEGGHAENLGLAALEQGGAVGARDELDLDLEVADVADPAAVDTEALGEDLLAHDLLHQRVVGRADFLDCLCVLVLIVDVELVQQRLLDLFHVGVGRVVAVLLALDGEQGGQLLRGLLLHRGVDLVGVCRKQRELLGFLRRLLGESSLGLAQRLNKRLRGLQALGDGGLGRRGSTVSNKLDDARPSASLHHHDRDVTVDHATGDDHLEHGVVVLLVVGKRHPLSLGVLVVGDERHPHSADRAGDGQARKLGRGGRAVNRDDVVVLLGVHAEHGDDNLDLVAQPLDKGRTQRAIDETAGQDRLGGGAALAAEERARDLARGVHALLNVDGQREEVDVVARVLRRGGRGQQHRVLVEVGRDRPARLARELPRFKTDGARTKVAVVEYRDSLGDAEVLVDVDVEAVIGGMRAQKIPFLGCLTAIVGAAVLLVFLQPFLQRCPILPGGATFTTSAASLPGTRPRDQKKSPSPAFNSGRGDWR				NA	NA	NA	NA	NA
AK009_08715	657			hypothetical protein	ATGGTGCCGTCGTCCTCGATCGAGATCTCCGCGCCGGTTTCCTCGGTGATCGAGTTGATCATCTTGCCCTTGGGTCCGATGACCTCGCCGATCTTGGACACGGGCACGCTGATCGCCGTGATTTTCGGCGCGAGCGGGTTCATCTCGTCGGGGCCGTCAATGACCTCCCCCATGGTGTCCAGGATTGCCTCGCGCGCGTCGCGGGCCTGCTCCAGAGCGGACACCAGCACCTCAGAGGGGATGCCGTCGAGCTTGGTGTCGAGCTGCAGCGCGGTGATAAAGTCGGGGGTTCCCGCGACCTTGAAGTCCATGTCGCCGAACGCGTCCTCCGCGCCCAGGATGTCGGTCAGGGCGACGTACTTGGTAGCGCCGTTGACCTCACCGGAGACGAGACCCATCGCGATACCGGCAACCGGGGCCGCCAGCGGCACGCCCGCGTTGTACAGCGACAACGCGGAGGCGCACACGGAGCCCATCGAGGTCGAGCCGTTGGAGCCGAGGGCCTCGGAGACCTGGCGGATGGTGTACGGGAACTCCTCGCGAGTCGGGATCACCGGCACGAGCGCGCGCTCGGCAAGGGCCCCGTGGCCGATCTCGCGGCGCTTCGGCGAACCGACGCGGCCCGTCTCGCCGGTGGAGTACGGCGGGAAGTTGTAG	MVPSSSIEISAPVSSVIELIILPLGPMTSPILDTGTLIAVIFGASGFISSGPSMTSPMVSRIASRASRACSRADTSTSEGMPSSLVSSCSAVIKSGVPATLKSMSPNASSAPRMSVRATYLVAPLTSPETRPIAIPATGAASGTPALYSDNAEAHTEPIEVEPLEPRASETWRMVYGNSSRVGITGTSARSARAPWPISRRFGEPTRPVSPVEYGGKL				NA	NA	NA	NA	NA
AK009_08716	216			hypothetical protein	GTGCTAGTCGTCTTCGCCGACGGGGACCAGCGAGATCTTGCCGCGGTTGTCGATGTCGGCGATCTCCACCTCGATCTTCTCGCCGACGTTGACCACGTCCTCGACCTTCTCGATGCGTTGCGAGCCGCCGAGCTTAGAGATGTGCACCAGCCCGTCGGTGCCCGGCAGGATGGAGACGAACGCGCCGAACGCGACCGTCTTGACCACGGTGCCTAG	MLVVFADGDQRDLAAVVDVGDLHLDLLADVDHVLDLLDALRAAELRDVHQPVGARQDGDERAERDRLDHGA				NA	NA	NA	NA	NA
AK009_08717	198			hypothetical protein	ATGGCGATGCTGAGCCCCAACGACGCCCTGATCGAGACCGGGCCGATGGATCTGGCCGCCGGCAACATCCAGGGTGTCACCCACGGCGGCGTTTTCGAGGCCGACACCCAGTACATCGTGGGCCTGGACAAGCAGCGCCCCTTCAACCTCTACGTGCTGGAGAACCCGGCACGCGTGGTCGTCGACTTCCAGAAGTAA	MAMLSPNDALIETGPMDLAAGNIQGVTHGGVFEADTQYIVGLDKQRPFNLYVLENPARVVVDFQK				NA	NA	NA	NA	NA
AK009_08718	687	trpS_3	COG0180	Tryptophan--tRNA ligase	ATGACGCAGTTCAAGGACAAGGCGGCGAAGCAGGGCCAGGACCGTGCCACCGTCGGCCTGTTTACGTACCCGGTGCTCATGGCGGCTGACATTTTGCTGTACTCGCCGCAGCTCGTGCCGGTGGGCGAGGACCAGCGCCAGCACCTGGAGCTGACCCGTAACCTGGCGGAGCGCTTCAACTCGCGCTTCGGAGAGACCTTTGTCGTACCCGAGGGCTTCATCCCCGAGGGCGCGGCGAAGATCTACGACCTCCAAGACCCGACGGCGAAGATGTCGAAGTCGGGGGCGAACCCGAAGGGCTTGATCAACCTTCTCGACGACCCGAAGACGTCGACCAAGCGCATCAAGTCCGCAGTCACGGACAACGACGGCGTTATCGCCTACGACAAGGACAACAAGCCGGGAGTGTCGAACCTGTTGGTGATCCAGTCCGCGCTCACGGGCACGGACATTGACACCCTGGTCGCCGGCTACGAGGGCCAAGGCTACGGCGCCCTAAAGGGCGACACGGCCGAAGCGCTCGAGGCGTTTACCACCCCGCTGCGCGCGCGTTACGACGAGCTCATGGCCGACCGCGCCGAGCTTGAAGGCATCCTGGCCCGCGGCGCCGAGCGCGCCCGCGAGGTCTCCGAGCCCCTGCTGGCAGAAGTCTACGAAAGGGTGGGCTTCCTCGCCCCCGCCCGCTAG	MTQFKDKAAKQGQDRATVGLFTYPVLMAADILLYSPQLVPVGEDQRQHLELTRNLAERFNSRFGETFVVPEGFIPEGAAKIYDLQDPTAKMSKSGANPKGLINLLDDPKTSTKRIKSAVTDNDGVIAYDKDNKPGVSNLLVIQSALTGTDIDTLVAGYEGQGYGALKGDTAEALEAFTTPLRARYDELMADRAELEGILARGAERAREVSEPLLAEVYERVGFLAPAR	PGPT0007120_4511	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
AK009_08719	1089			hypothetical protein	ATGGCGACCTCCACCGCGCCCCGCAAGGCGTACCAGGACGAGCAGGGCATTGAGCGCGCGAGTAAGCAGCAGGACAACGGGCCCGCCGACAAGGTGGCCAAGAAGTCGCCGTTCGTCGCGCACCTGATACGCATGAACGAGCGCTTCGCGACGGAGGGCGGAAACCAGCTTTCCGCAGGCATTACGTATTTCTCCGTGCTGGCGCTGTTCCCGCTCACGATGCTTCTCTTCGCTGGCATGGGCTTCTTCCTAGCCAATCGCCCGGAGATGATTGAGCAGATCCGCGTACAGCTTGAGAACAACCTCGGTGGTGAGATCGGCGGCGTGATGTCGCAGTTAATCGACTCCGCCATCGCGCAGCGCGGCGCCGTCGCCGGAATCGGTTTGCTCACCACCCTGTGGTCCGGCCTCGGCTGGATGAACAACCTGCGCGTCGGCATCTCCGCGATGTGGAAGCTTGACGCTAACGAGGGCGGCAACTTCATCGTGAAGAAGCTGTGGGACCTGCTCGGCCTGATCGGGCTGATCCTCCTGTTCATCCTCGCTTTCGCGGTCACCGCGATTGGTGCATCGTCATTCACCAGTGACCTGATGGACTACTTCGGCTTGGGTAACTTCCCTGGTGCCCGCTTCGTCGTCTGGCTCGTCGGTCTTGCCGTGGGAATCTTCGCTAACTTCCTCGTGATGGCCTGGTTGGTCATCTTCATGCCGCGCACGAAGGTGCCGTGGCGCTCCGGACTGAAGGGCGCTCTGCTCGGCGCCTTCGCGTTTGAGTTGATCAAGCAGTTCGCCACCGTGATCGTCAGCTCTGCGACGAACAACCCAGCTGGTGCGATCTTCGGCCCGATCATCGCACTGATGGTCGTGCTTTACCTGATCTGGCGCGTGGTGCTCTACGTTTCCGCTTGGACCGCGACCACCGAGGAATCCCTGGCCATGCAGAAGACCGAGGTGCCCGAGCCCGCGGTGATCAACGTCCGGGCGGCGGCCGCGACCCAGACCAAGCCGGTGAAGGGAACCGCTATCGGCGTCGGCGCTGCCCTTGGTGCCCTCGGTGTCGGCCTGGTGTCGTTGTTAACGCGCGACTAG	MATSTAPRKAYQDEQGIERASKQQDNGPADKVAKKSPFVAHLIRMNERFATEGGNQLSAGITYFSVLALFPLTMLLFAGMGFFLANRPEMIEQIRVQLENNLGGEIGGVMSQLIDSAIAQRGAVAGIGLLTTLWSGLGWMNNLRVGISAMWKLDANEGGNFIVKKLWDLLGLIGLILLFILAFAVTAIGASSFTSDLMDYFGLGNFPGARFVVWLVGLAVGIFANFLVMAWLVIFMPRTKVPWRSGLKGALLGAFAFELIKQFATVIVSSATNNPAGAIFGPIIALMVVLYLIWRVVLYVSAWTATTEESLAMQKTEVPEPAVINVRAAAATQTKPVKGTAIGVGAALGALGVGLVSLLTRD	PGPT0014525_1934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
AK009_08720	558			hypothetical protein	TTGCAACGCGGTAGGCGCCTGGGAGGACGCAGCCTCGAGCGTGGCCACGGACGTGCCGGGGCCAAACCTGTAGGACTCGTGGAGCAGCTGCTGTGCTTGCTGCCAGGCTCGGGCCTTGTTCACGGTGGTGTCGAGGACAACGGCCACGAGGTGCCGGCCGTCGTGGTTCACAGCGCCGACAAAAGTGTGGTTGGCGTCGTCGGTGTAGCCGGTCTTGCCACCGATGCCTTCCGGGTCGTTGAGGTAGAGCGCGTTATCGTTCCACAGCTCGAAACCCGGCAGGTCGTCGAAGCCGGGGAAGGGGTACGACTGCGTATCGACGATCTGCGCAAACGTCTCGTTGCCAAAGGCGGCGCGGTAGGCGAGCGCCATGTCCCACGCGGAGCTCGACATGCCGGGGCGATCCAGGCCGGTGTAGGTGGCCACCCGGGTGTCGTTCATGCCGAGTTGCTGCGCCAGCGCATTGACCTTTTGCAAGGTCGCCTCGTCGCCGCCGAGCTCTTGTGCCAGGGCGTGCGCGGTGTCGTTGCCCGAGGCCATCAGCAGGCCGTGGAGTAA	MQRGRRLGGRSLERGHGRAGAKPVGLVEQLLCLLPGSGLVHGGVEDNGHEVPAVVVHSADKSVVGVVGVAGLATDAFRVVEVERVIVPQLETRQVVEAGEGVRLRIDDLRKRLVAKGGAVGERHVPRGARHAGAIQAGVGGHPGVVHAELLRQRIDLLQGRLVAAELLCQGVRGVVARGHQQAVE				NA	NA	NA	NA	NA
AK009_08721	714			hypothetical protein	ATGTCAACGAAAGAAACGCAAGGTGCTCCGGCGAGCGTGGGCCTGAACGAACAACTCAACAAGCTGCGCGCCGCAGTGCTTGGCGCCAACGACGGCATCGTCTCCACTGCGGCGGTTGTCGTTGGTGTGGCAGGCGCGACCTCCGACATCAGGGCAATCGCGACGGCCGGCATTGCGGCCGTCATCGGCGGCGCTGTGTCGATGGCGCTGGGGGAGTACGTCTCCGTGTCCTCGCAGCGCGACACCGAGCGCGCCTACATTGCCAAGGAAACGGCACTGCACAACGCCGATCCGGACAGCGAGTTCGCGCACCTTGTCGCCGCCTACGAGGCGACGGGATTGAGCCGGGAAACGGCGACCCAGGTAGCCACAGAGCGCACCGCTGCCGATCCGCTCAAGGCGCACCTCGAGGTCCACTACGGCATCAACGAAGAGGACCTGGTCAACCCTTGGTCCGCGGCCATCGCCTCCTTCATCGCGTTTTCGCTGGGCGCGTTGCTCCCGCTGGCAGCTGTGCTGCTTCCGCCGGACGCGTGGCGGGTGCCGGTGACGTTCGTGGTCACCCTCCTCGCCCTCGCGATCACGGGAGCGGTGTCGGCGCGGATCGGCGGCGCAGAGCCGAAGCGCGCCGTGCTCCGGCTCGTTATCGGCGGCGCACTCGGCCTTGCGGTGACCTTCGGAGTCGGCTGGGCCTTCGGCACCACGGCGCTTTAA	MSTKETQGAPASVGLNEQLNKLRAAVLGANDGIVSTAAVVVGVAGATSDIRAIATAGIAAVIGGAVSMALGEYVSVSSQRDTERAYIAKETALHNADPDSEFAHLVAAYEATGLSRETATQVATERTAADPLKAHLEVHYGINEEDLVNPWSAAIASFIAFSLGALLPLAAVLLPPDAWRVPVTFVVTLLALAITGAVSARIGGAEPKRAVLRLVIGGALGLAVTFGVGWAFGTTAL				NA	NA	NA	NA	NA
AK009_08722	738			hypothetical protein	GTGTCTGGCGAGCATGTCGGCCAGTTCCGGGTCGGAAAGGATCAGCTCGACGAGCCCCTTTTGGACGTCTTTCTGGTCCACGGCGGGGGCGCTGTCGTCGTTGGTGGAGTCGGCGTAGGACGTGCCGTCTTTATCAAACCCAAACCCCTTGCCGCCGGTGGAGGCGGCAACGCGCACCTCGGCGTCTTCGCGCGTGCCGGGGGAATTCGCGCTATCGCTGAGCTCGCGGGCCAGAACCCGGCTGAGTGTGGCGTGGCGCCAGTCGCGCACGCGCTCGGGCTCGAGCTTGTGAACGCCGCGCTTGGCCACGTCGGCACGCTGCGATGCGGTGGTGTTGACCGGGGCGAACTGCGGGGAGGTGGGCACGCGCCAGGCGCGGTAGTAGGCGATCATGGAAATGGTGAAGCTGGTCAGCGGCCCCGCCACCGCGCCGAGCGCGAGGTGGCCCGTGTTCGCGCCAATGAGCGTGACGACGGCACCGGCGATCGCGGGCACCACCGTTGGCTGATTGTTGCCGAACACCGCAGGTTCGCGCCCGATCAGGGCGCCGGTGAACGCGAGGATCAGGTAGGCGGGTTCGCTCATCGCGGCGACGGTGCCTTCGTTGATGAGGACGTCGCGAAGCATGCCCCCGCCGAGCGCCGAGACCATCGCGATGAAGAGGAAGCCGACGATGTCGTAGCCGCGCTGCCGAGCGATCGTTCCGCCGATCGTGCCCATGATGAGCACGCCACTTAA	MSGEHVGQFRVGKDQLDEPLLDVFLVHGGGAVVVGGVGVGRAVFIKPKPLAAGGGGNAHLGVFARAGGIRAIAELAGQNPAECGVAPVAHALGLELVNAALGHVGTLRCGGVDRGELRGGGHAPGAVVGDHGNGEAGQRPRHRAEREVARVRANERDDGTGDRGHHRWLIVAEHRRFAPDQGAGEREDQVGGFAHRGDGAFVDEDVAKHAPAERRDHRDEEEADDVVAALPSDRSADRAHDEHAT				NA	NA	NA	NA	NA
AK009_08723	501			hypothetical protein	TTGTCTACGGGGTGCGGCTTAGAACTTGGAGAAGCGCTTGATCAGCTGGTCTTCCATGTCCTTCCACGTCTGCGCCTTGTCTGTAAACGGCGCGGTCGGGACGTATCCGCTGGCCTCGGTGGAGCCGAGCATGTAGGCGAGGTAGTCCTGCATGCGGGGATTCGCCAGCAGCAGGGAATTCAGGGAGTCGTCCTTCGCCCAGTCGGCGGCGTCGGCGAGCAGCTCGTAGGCCTTGGCCATCTGCGCGGTGTCGACGGCGTCCGGGCCCTTCTCAATGTCCGCGGCGATGCCGTTAAAGGAGTACGCGTTGTCCGGGTGGACAGTGATCTCGAGCTCTCCCGCGTTGGCGAGGTTGACCAGGTCCGGCCAGGTGGACACCTCGGCGAGCTCGTGGTCGTCGTTCTCCACGATCCACCGCAGCAACTGCTTGCTGGAGGGGAAGGTGAAAATCTCGCCGTACTTGCCCAAAAACACCGGCGCTGTGCCGAGGTAGGTGCGTAG	MSTGCGLELGEALDQLVFHVLPRLRLVCKRRGRDVSAGLGGAEHVGEVVLHAGIRQQQGIQGVVLRPVGGVGEQLVGLGHLRGVDGVRALLNVRGDAVKGVRVVRVDSDLELSRVGEVDQVRPGGHLGELVVVVLHDPPQQLLAGGEGENLAVLAQKHRRCAEVGA				NA	NA	NA	NA	NA
AK009_08724	489			hypothetical protein	GTGGACAACCTCTGCCCAGTTCGCCAGCACAGCACGGCCGACTCCGGACCACTCCTCCAAGCCGTTCTCGCCCGCGTAGTGCTCCGAGCCGCGGGCAACGTTGCCCAGCACCGAGTGGGAGGCGAAGAAGATCTGGGCTTCGTTGGCGGAGGCGACGTCGGCAAGCGAGCGCGAGATCTGGAACACTTTGGCCAGCTTGGAGACGTTCTCGTGGCTCGGCCGCCCGGCGAGGTAGGCGGGGGCGCCGACGACGTCGTAGAAGTTCCTGTCATCCGGCACGACGCGGTCGTCGCCTTGGGCGTTGAACTGCGCCCACTGCGGGTGATCTACCAGGTCGTGGGGCAGGCCCGAGTCGAGGAAGGCCAGCATGTGGGCCGGGGAGTCGAAGACGAGGACGGAGGTCTCGTCGCCGAGAAACGCCTGCCACTGCGTCCCGTTTTCCTTCCAAGCGGGGGCCCACAGGGTGCAGAAATCGCCCTGGGTGAGTGA	MDNLCPVRQHSTADSGPLLQAVLARVVLRAAGNVAQHRVGGEEDLGFVGGGDVGKRARDLEHFGQLGDVLVARPPGEVGGGADDVVEVPVIRHDAVVALGVELRPLRVIYQVVGQARVEEGQHVGRGVEDEDGGLVAEKRLPLRPVFLPSGGPQGAEIALGE				NA	NA	NA	NA	NA
AK009_08725	933			hypothetical protein	ATGATCTCACCACCTGAGGTGATGCGCGCGGTCGCCGCCTCGCTTCCGCCGCAGTTCAACCCAGTTGAAGTCACGCCACTGCCGGGCCTGGAATCGGTCGTTGATCTCGCGCGCATCGTGGAGGGGGACCCTTCCCGGTTTATGGACGCCGCGAGCACCCTCGCGACGCAGCGCGGGGACATCGATCGCTCCATGTCCGCCGCGGCGGAGTTGCTCGCCCAGGCTGCCGCTGACATCGTCGCGGTGGGTCAGCGCTACCTCGCCGAGGCGGCGACGCTGATCGCCCTCTCCCTCACGCCAACCGGGATGGCATCCGCCGCCCTCAAGCTCGCTTCGCGCGCGTTAGGCGAGGTCAACGAGCGCCTGATGCGGCTCGAGCGCGACCTTGACCCGCACACCAGGCTCATGACCGGCATTGCCGATTCCCTGCTCGCCGAGGAGCCGCTGCAGGCAACGCCCGACGCCCAACGCGCCACGGACGAGCTGCGCGCCCTGACGCAGCCGGTCGCGATGGAGCCTGCCTCAGAAACCACCGAGCACGTGCTGCCGCCGGAGCCAGCCGGCGATGCGGGTCCCGCGAGCGAGGGCAGCGCCGTGGGGCGCGCCGCGGTGGAGGCCGCGCGCAGCCAGCTGGGCACGCCGTACCAGTGGGGAGGGACCTCGCCCGGCGGTTTCGACTGCTCGGGGCTGACCTCGTGGGCCTACCGGCAAGCCGGCGTGGAGCTGCCGCGGATGGCGCACGAGCAGGCCATCGGCGTGCAAGTCCCCTACGACCAGCTCCAACCCGGCGACCTGGCGGTGTGGGACGGCCACGTGGCCATGTACGCCGGCGACGGGATGTACATCGAAGCCGGCGACCCGGTGCAGATGAACCCGGTGCGAACGCAAAACCTCGACATGGGGTTCAAGGGCTTCTGGCGCCCGACGGGCTAG	MISPPEVMRAVAASLPPQFNPVEVTPLPGLESVVDLARIVEGDPSRFMDAASTLATQRGDIDRSMSAAAELLAQAAADIVAVGQRYLAEAATLIALSLTPTGMASAALKLASRALGEVNERLMRLERDLDPHTRLMTGIADSLLAEEPLQATPDAQRATDELRALTQPVAMEPASETTEHVLPPEPAGDAGPASEGSAVGRAAVEAARSQLGTPYQWGGTSPGGFDCSGLTSWAYRQAGVELPRMAHEQAIGVQVPYDQLQPGDLAVWDGHVAMYAGDGMYIEAGDPVQMNPVRTQNLDMGFKGFWRPTG	PGPT0023995_3006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK009_08726	282			hypothetical protein	ATGAGAACTTTTGTCGTTGACGCTTCCGAGGTTGCTGCGCTGACGTCGTCGTTGCGCACCGCGGCAACCCAGATCACGGACATCCCACCTCACACCCCGAACGATTTCGGGCCGACGGCTGCCTTCCGCACTGCGCTCGCTTCGGCGATCGGGCATGTCAACGAGCGTGCCGGCCAGCTACGCGCCGAGGCGCTGCGCCTCGCCGACGTCATGGAACTCACCGTGGACGCCTCAACCAGCGTCGACGGAAACTTCGCGCGTGATCTCAGGGCGGTGCTGTAG	MRTFVVDASEVAALTSSLRTAATQITDIPPHTPNDFGPTAAFRTALASAIGHVNERAGQLRAEALRLADVMELTVDASTSVDGNFARDLRAVL				NA	NA	NA	NA	NA
AK009_08727	747			hypothetical protein	GTGTATGTCCCCCTTACCCGACGGGTCCCAACCCTACTACAGGAAAATGTTGCGCGGGCCGTACAGCCGATCGCCCGCATCGCCCAAACCGGGCACGATGTAGGCATCGTCGTTGAGCTGCGGGTCAATCGCCGCGGTCACCAGCCGCACGTCAGGGCTATGGGCCGCAAGCTTATCGACGCCCGCACGCGCCGACACAATACAAATGCAGGTGATATCGTCCGCGCCACGCCCCTTGAGCAGGTCCAGCGCATAGATCAGAGAGCCGCCGGTGGCCAGCATGGGGTCGACGACGAACACCGGCTGGCCGGAGAGGTCTTCGGGCAGCGCCTCGAGGTACGGCACCGGCTCGTGGGTGGTCTCGTCGCGGGCCAGGCCGATGAAGCCGACCTGGGCGTCGGGGATCATCGACAGCGCCGGGTCGATCATGCCCAGGCCCGCGCGGATGATCGGCACGATGATTGGCGGCTTGGCCAGCCGGGTGCCCTCCGCCTCGCCGACGGGGGTGCGGCAGGTAAACGTTTCCACCGCCAGCCCGCGCGACGCCTCGTAGATCAGCATCGCGCCAAGGTCGGCGAGCGCGGCCCGGAACGCCGCGTTGTCGCTGCGCTCGTCGCGCATGATGGTCAGCCGCGAGGCGGCGAGGGGGTGATCGACGATCGAGATGTCCATGATCCCCATGCTAGTTGCCAAACTTGCTCGCCGAGGGAACCTGGTGGGCCCTGGAGCAGTCAAATAAGGCCATGA	MYVPLTRRVPTLLQENVARAVQPIARIAQTGHDVGIVVELRVNRRGHQPHVRAMGRKLIDARTRRHNTNAGDIVRATPLEQVQRIDQRAAGGQHGVDDEHRLAGEVFGQRLEVRHRLVGGLVAGQADEADLGVGDHRQRRVDHAQARADDRHDDWRLGQPGALRLADGGAAGKRFHRQPARRLVDQHRAKVGERGPERRVVAALVAHDGQPRGGEGVIDDRDVHDPHASCQTCSPREPGGPWSSQIRP				NA	NA	NA	NA	NA
AK009_08728	453			hypothetical protein	ATGGCGGACATCATGCCGCAATCCAACTGGGCAAGCTACGGGTTTGTGCTGGCAGAGCGCCTGCGCGCGCTTCGCGAGATGAGGGGGCTGAGTCAGCGGCGGCTCGCGGAGCTGTCGGGGGTCTCGCGCAGCCTGATCTCGAACATTGAGCGCAACCAGTACAACATGTCGCGCTCGGCGGACCCGACGCTGTCGACGGTGTACCGCATCGCGCACGCGCTGCACGTGCCGCCGGTAGCGCTGCTGCCGGCGTCGGAATCGGTGGTCAAGGCGCGCTGCGCCGAGGACGCCGCGGCGGTCATGCAGGTGTGCGCGGTATGGCCGGCAAGCCCGGAGGACACAGCTCGTTTCCACGCGACCTACCTTGTCAGCGGCACCGCGACGTACCCGCCGCGCTTCGAGCACTTCGAACACTGCGTGGGGCACCACCGAGTGATGAACCGCTTGGTCTAG	MADIMPQSNWASYGFVLAERLRALREMRGLSQRRLAELSGVSRSLISNIERNQYNMSRSADPTLSTVYRIAHALHVPPVALLPASESVVKARCAEDAAAVMQVCAVWPASPEDTARFHATYLVSGTATYPPRFEHFEHCVGHHRVMNRLV				NA	NA	NA	NA	NA
AK009_08729	1122			hypothetical protein	ATGATGACGATCTTTTTGGACACCTGGGTTTTCCTCCGTGATGGGCTTGACGTACAACTGCCAGTCGCGTTAACCGACGCAAGTCTACAGTCACCCAGCGTCGCTAGCGAGGGCAGCGAAATACTTCTCCACCACCGCGCCGAACAGGCGCACCCCGACGGCGATGGATTTTTCGTCCACGTTCAGATCGCCCTGGTGCAGGTCCTGCTTCTCACCCTTACCGTCCCACGCGCCGAGGCGGACCATGGCGCCGGGGACGTGCTCGAGGTACCAGGAGAAGTCCTCCCCGCCGGAGGACTGCGGCGTGGTCACCACGGCGTGGGGGTCGACGGAGCGGCCCGCTTGGACGATCAGGGCGGTCGCGATGTCGTCGTTAAGCACGGGCGGCACTCCGCGCGTGTAGTTGAGCTCGAACTCGCAGCCGGTCGGGGCGAGGATCTGGGCGATGAGCTCGCTGGTCAGCTCCTCGATGGAGCGCCAGGTGGTGATGTCGGAGGTGCGAATGGTGCCCTTGAGCAGGGCGGATTTCGGAATCGCGTTGGGCGCATCGCCCGCCTCGACCGCGCCGAACACCACGACGGTGCCGGTGCGCGGATCCACCCGGCGCGACAACAGCGCGGGCAGCTGGGTGATCACCGCGCCCGCGGCGTAAACCACGTCGGCGGTCATCTGCGGCCGCGAGGTGTGCCCACCGGGGCCGGTGATCTCGATCTCGAGGACGTCGGAGGCCGAGGTGATCGCGCCCGTGCGCACCCCGATCTGGCCGACGCGCAGCGACGGCTCGACGTGCAGGGCGTAGATCGCGGAGACGTTTTGCAGCCCACCCCAGCGGATCACGTCCACTGCGCCGCCGCCCATGACCTCCTCCGCAGGCTGGAAGATGATCCGGATGCCGTAGTCCAAATCCAGCTCCGCGAGTGCGCAGGCCAGCGCCATACAGATGGTGGTGTGCACGTCGTGGCCGCAGGAGTGCGACACCCCCGGGGTGCCCGAGGCGAACTCAAACCCGGAGATTTCGGCCACGCTGAGCGCGTCGATATCCGCGCGGAAGGCAAGCCGCTCGCCGTCGGCGGGGCCAAGGTCGACGTAGAGGCCCGTGCCGGGGAAGGGCACGGGGTTTAG	MMTIFLDTWVFLRDGLDVQLPVALTDASLQSPSVASEGSEILLHHRAEQAHPDGDGFFVHVQIALVQVLLLTLTVPRAEADHGAGDVLEVPGEVLPAGGLRRGHHGVGVDGAARLDDQGGRDVVVKHGRHSARVVELELAAGRGEDLGDELAGQLLDGAPGGDVGGANGALEQGGFRNRVGRIARLDRAEHHDGAGARIHPARQQRGQLGDHRARGVNHVGGHLRPRGVPTGAGDLDLEDVGGRGDRARAHPDLADAQRRLDVQGVDRGDVLQPTPADHVHCAAAHDLLRRLEDDPDAVVQIQLRECAGQRHTDGGVHVVAAGVRHPRGARGELKPGDFGHAERVDIRAEGKPLAVGGAKVDVEARAGEGHGV				NA	NA	NA	NA	NA
AK009_08730	321			hypothetical protein	TTGGACCTTGACGTCACGGGCCTGCTCGGACGCCAGCGCTACCACACGGTTGTTCAACGCGGTGATCATCAAGCTCGCCTCGCCGAGGCCGTGGTTCAAGCCCATGTCGTCGGCGCGGCGCAGGTCCGTCTTGATGTTCGACGCCGCGATGAACCCCTTCGAGGGCACGACGTCGAGGTTGATCGCGGAGCCGCCAACGCCGTGATTTTCAATCAGGGTGATATCCGCCCCGTACTTCGAACCGGCCAGTGCCGCCTCGTAGCCCGCTGGGCCACCACCGATGATGACGATCTTTTTGGACACCTGGGTTTTCCTCCGTGA	MDLDVTGLLGRQRYHTVVQRGDHQARLAEAVVQAHVVGAAQVRLDVRRRDEPLRGHDVEVDRGAANAVIFNQGDIRPVLRTGQCRLVARWATTDDDDLFGHLGFPP				NA	NA	NA	NA	NA
AK009_08731	498			hypothetical protein	GTGAGATCCGGTGATTTCCCGGCCGTCCTTCGTGGTCACCACGACCTGATCGCCGGTATTGACCACGCTGTGGGCGTAGGAGTCCTTGACCACTTCCACGCCGCGGCCGGCCAGGACGGTCTCGAGCACGTCGGCGGCGTCGGCGTCGTCATGCGGCAGGATACGGCTGCCGGAGGACACCATGGTCACCTTCACCCCAAGCTCGGCGAACGCCGAGACGAACTCCGCACCCGTGACACCCGAGCCGACCACGATGAGGTGCTCCGGCTGCTCAATGAGGTCGTAGACCTGGCGCCAGTTGAGGATGCGCTTGCCGTCCGGCTCCGCGCCCTTGATCACGCGCGGGGACGCGCCGGTGCACACCAGCACCATGTCGGTATCGACGCGCTCGAAGGTGCCGTCCGGGTAGGTCACCTTCACGCTGTGGGTGGTGTGTCCCGTCTGCTGCGACGACAAGGCACCGTGGCCGCGGATGATCTTCACCCCGGCGCGCTCTAG	MRSGDFPAVLRGHHDLIAGIDHAVGVGVLDHFHAAAGQDGLEHVGGVGVVMRQDTAAGGHHGHLHPKLGERRDELRTRDTRADHDEVLRLLNEVVDLAPVEDALAVRLRALDHARGRAGAHQHHVGIDALEGAVRVGHLHAVGGVSRLLRRQGTVAADDLHPGAL				NA	NA	NA	NA	NA
AK009_08732	807			hypothetical protein	GTGGGTCGCGCGCATGGTGCAGGGCCCGACCTCCGGGTTCGGTGCGCCGCGCCAGGAAAACGCCGTGGCGCTGGGCTGCGACATCACGCACGCGCCGCAGATGATTTACGCCGACGGCTTGGACCTGCGGCCGGACTCCGCCACCCCGATCGGCCCGGGCTGCGAGATGTGTCCGCGCGATCGCTGCCCGCAGCGGGCCTTCCCGAAGCTTTAGTCCAGGTCCGTCGAGCCCACCAACCGCCGCGCAGCCTCCGTGATCGAGCCGGAAAGCGAGGGGTAGACCGCCATGGACTCGGCGAGCTGGGCGACGCTGAGGTTGTTGGTCACCGCAATCGTGATGGACAAGATGAGCTCGGAGGCGGTCGGGGCGACGATGACGCCGCCGAGCACCTGGCCGGAGCCCTTGCGGGCGAAGATCTTGACAAAGCCGTGCTGCAGCGAACGCATCTTCGCGCGCGGGTTGGTCTCGAGGTCCAGCTTGATTACATCCGCGTCGACCTCGCCGTTGGTGATCTGCTGCTCGGTCACACCGACCGCGGCGATCTCGGGGCGGGTGAACACGGCGTTGCCCACCGTCTTCAGTCGCAGCGGCTCAACGCCCTCGCCGAGCGCGTGGTGGATGGCGATGCGACCCTGCATCGCGGCGACAGAGGCCAGCGGCATGAGGTCGGAGCAGTCGCCCGCCGCGTAGATGCCCGCGACGTTCGTGCGCGAGACACGGTCGACGTGGATGTGGCCCGACGGGGTCGTGGCCACGCCGTTGGCCTCCAGGCCGAGGTCCTTGGTGTTGGGGATGGAACCGATTGA	MGRAHGAGPDLRVRCAAPGKRRGAGLRHHARAADDLRRRLGPAAGLRHPDRPGLRDVSARSLPAAGLPEALVQVRRAHQPPRSLRDRAGKRGVDRHGLGELGDAEVVGHRNRDGQDELGGGRGDDDAAEHLAGALAGEDLDKAVLQRTHLRARVGLEVQLDYIRVDLAVGDLLLGHTDRGDLGAGEHGVAHRLQSQRLNALAERVVDGDATLHRGDRGQRHEVGAVARRVDARDVRARDTVDVDVARRGRGHAVGLQAEVLGVGDGTD				NA	NA	NA	NA	NA
AK009_08733	468			hypothetical protein	GTGGTAGGCCATCTCGAAGCATTGCTGCGCCTCGGTCAGCCCGGCGCGCAGCCGCAGCTCGCGCGCGGTGGCGTCGATGGCGGAGCGCGCGCCCTCGACGTGGGCGGCGGGCTGGTTGAAGCGCACCGTGTAGCCGAGCCTTTGGTCAAAGGCGGCGGCGAGGCTGGTCAGCCGCGCCTGGCGGCCACGCGCCCCGGAGGCGAGGTCCTCGGCGGCGCGGTCGAGGTCGTCGAAGTAGTTGCGGTTGTCCTGGAAGAAGGTGCGCACCGCGGCATAAGGGTTCGCCGCGCCCACCCCGAGGTGGGAGGGGATGGCGAGGATGCTCTTGGCGACATCCGGGAAACGCGCCGTAATATCGCGCAGCACCTCGTGCTCGATGTCGGGAAGGAGCCCCGAGAGCTCGGTGATGGTGCGGCGCTCGTCGTCGCCCGAGAAGTACGCCGGGTCGAGGCCAAAGGCGCGCGTTAG	MVGHLEALLRLGQPGAQPQLARGGVDGGARALDVGGGLVEAHRVAEPLVKGGGEAGQPRLAATRPGGEVLGGAVEVVEVVAVVLEEGAHRGIRVRRAHPEVGGDGEDALGDIRETRRNIAQHLVLDVGKEPRELGDGAALVVAREVRRVEAKGAR				NA	NA	NA	NA	NA
AK009_08734	1638			hypothetical protein	GTGCTTGACGACGCTCATGCGGCGTCTCTTCTGGCGCGAACATTAGAAGATGCCTGCCGGGGTCTCGGGAGCCTGCGCGGCTGCTTCCTCGGTGACGCGGACGTTGAGCTCGCGCAGGTCGGTCAGGTTCTCCAGGTCCTGCGCCGCGGCGAGGAAGCGCTCCTGCTCCTCCTCGGAGACGATGCCGGCGGCGAGGGTGCGGAACTTGCGGATGTAGTCCTCGCGGCTGAACGGGCGAGCGCCGAGCGGGTGGGCGTCGGCAACGGCGATCTCGTCGGCGATGACGGAGCCGTCGGTGAACGTGATCACGGCCTTGGCGCCGAACGCCTTCTCGTTCGGGTCGGTGGAGTGGTAGCGGCGGGTCCACTCCGGGTCCTCGACGGTGGACACCTTGTGCCACAGCTCGACCGTCTCGGGGCGGCCGGCGCGCTCCGGGGTGTAGGAGTCGACGTGGTGCCAGGTGCCGTCCTCGAGCGCGACCGCGAACATGTACATGATCGAGTGGTCGAGCGTCTCGCGCGAGGCCGTCGGGTCCATCTTCTGCGGGTCGTTGGCGCCGGTGCCGATGACGTAGTGGGTGTGGTGCGAGGTGTGCAGCACGATGGACTCGATGTCCGCCGTGGTCTTGCCTGCCTCGGCGATGGTCGCCTTCATGCGGCGCGCCAGGTCGATCGGGGCCTGCGCCTGGTACTCCGCGGAGTGCTCCTTGGTGTAGGTGTCCAGGATCGCGCGCTTCTCCTCGCCGTCGGCAGGCAGCGGGACGATGTAGGTGCGCTCCGGGGAGTGCAGCAGCCACGCGATGACGCCGTCCTCGCCCTCCCAGATCGGGGCGGGTGCGCCCTCGCCGCGCATCGCGCGGTCGACGGCCTCGATGGCCATCTTGCCGGCGAACGCCGGGGCGGAGGCCTTCCAGGAGGAGATCAGGCCCTTGCGGGACTGGCGGGTCGCGGTGGTGGTGTGCAGCGCCTGGCCGACGGCCTGGTAGATGGTGTCCACGTCAAGCTCAAGCATGGTGCCGATGCCGGCTGCGGCCGAGGGGCCGAGGTGCGCGACGTGGTCGATCTTGAACTCGTGCAGGGAGATGCCCTTGACCAGGTTGACCTGGATCTCGTAGCCGGTGGCGATGCCGCGGATCAGGGCCTTGCCGTCGAGGTTCTTGTGCTGCGCGACGGCCAAGATCGGCGGGATGTTGTCGCCCGGGTGGGAGTACTCGGCGGCGAGGAAGGTGTCGTGGAAATCGAGCTCGCGCACCGCGGTGCCGTTGGCGAACGCGACCCACTCGGCGGAGTAGTTGCCGTCAACGCCGAAGATGGGGGCGCCACCCTCGTTGACGGGGTGAGCCTGGGCCATGACGCGGGCCGAAGTGACGGGGCGGCGTGCGAAAGAGGCCACGGCGACGGAGGCGTTGTCAATGATCCTGTTGATGATCATTTCCTTGGTATCCTCCGGGACCTCAACCGGGTCGGCTGCGACCTTGGCCACCTTGTAAGCAAGGTGCTCTTCAATCGGGAACTCTTCGGCGGAGCGGCGGGTGCGTACTTCGTGGTTGATCATTTTGGGTGCGTGACTCCTCACATCGCTGGCTTGCATGGTCTACCTCATACTATGGCCCGCGGTGTGACTCGGACCATGTTCTAA	MLDDAHAASLLARTLEDACRGLGSLRGCFLGDADVELAQVGQVLQVLRRGEEALLLLLGDDAGGEGAELADVVLAAERASAERVGVGNGDLVGDDGAVGERDHGLGAERLLVRVGGVVAAGPLRVLDGGHLVPQLDRLGAAGALRGVGVDVVPGAVLERDREHVHDRVVERLARGRRVHLLRVVGAGADDVVGVVRGVQHDGLDVRRGLACLGDGRLHAARQVDRGLRLVLRGVLLGVGVQDRALLLAVGRQRDDVGALRGVQQPRDDAVLALPDRGGCALAAHRAVDGLDGHLAGERRGGGLPGGDQALAGLAGRGGGVQRLADGLVDGVHVKLKHGADAGCGRGAEVRDVVDLELVQGDALDQVDLDLVAGGDAADQGLAVEVLVLRDGQDRRDVVARVGVLGGEEGVVEIELAHRGAVGERDPLGGVVAVNAEDGGATLVDGVSLGHDAGRSDGAACERGHGDGGVVNDPVDDHFLGILRDLNRVGCDLGHLVSKVLFNRELFGGAAGAYFVVDHFGCVTPHIAGLHGLPHTMARGVTRTMF				NA	NA	NA	NA	NA
AK009_08735	1833			hypothetical protein	GTGGCGCTCATCCGGGCCGTTGTACGCGGCCAGCGGGCGGATGATCGTCGGGTTGCTGTACTGCTCGATGATGTGCGCGGTCCAGCCGGTGATGCGCGCCATGACGAACAGCGGGGTGAAGAACTCGATGTCGAAACCGAGGATGTAGTAGGCCGGGCCGGCCGGGAAGTCCAGGTTCGGCATGATGTGGATCGAGGTATTGTCGTACATGGTCTTGGCCATGATGTCGTAGATCTCGACCCACTTCGCAGCACCCTTATTCGGGTCCTTCGCCTCGTGCTCGGCGGCGAGCTTCTTAAAGCAGGCCTCCATCGTCGGCACGCGCGAGTCGCCCTTCTTGTACACGCGGTGGCCGAAGCCCATGACAAGCTCCTTGTTCTTGAGCTTGTCCAGGGTCCACTCCTCGGCCTTGGCCGGGTCGTCGATCTCGACGAAGTTGTGCATGACGAACTCGTTGGCGCCGCCGTGCAGCGGGCCCTTGAGCGCGCCGATCGCGCCGGTCACAGCGGACCAGGTGTCCGAGTTGGTGGACGTGATCACGCGGGCCGCGAACGTCGAGGCGTTGAAGGAGTGCTCGGCGTAAAGGATCATCGACTTCTCGAATGCCTCGATGTCCGACGGGATCGTCGCGGGCGAGCCCTCGCCGTCGCCGAAGACCATCCAGAGGAAGTTCTCGGCGTAGCCCTTCGCCGGGTCCGGCTCGATGTAGCCCTCGCCGCGGCGGCGGCGGATATCAAGCGCCACGATGGTCGGCAGCTTGGTCAGAAGCGTCAGCGCGATGTCGCGGATGTGGTCGGTGTCCTGGGTGAACTTGTGCGGGTCGCGCGTGCCCAGAAACGACACAGCTGTGCGCAGCACGTCCATCGGGTGGCAGTCCTTCGGCATGGCCTCGATGACGCCGATGAGCTCCTCGTCGAGGCCGCGGCGGGCGCGAGCCTTGGCGTAGAACTCCTCAAGCTCCTCGCCGGTGGGCAGCTCGCCGTTCCACAGCAGCAGCGCAACCTCTTCGAAGCTGACGTTGTCGGCGAGCTCCTGAACGGGGTAGCCGCGGTAGAGCAGCGAGTTGGTCTCGGGGTTGACTTTGGAGATGGCAGTGTAGTCAGCGACAACGCCGTAGAGGCCCTTGCGCACTTCTTGCTCGGTCATGGTGGTGCTCCTTACTTACTTCTCAAACGTCGGGCGGTAGTTCTCCGCCGAGTAGGTGAACACGGACTGGTCGAACTGGTTGTACTCGTCGTAGCGCACGAGCTCGTAGAGCCGCGAGCGGTGCTGCATTCGATCCAGCCACGCCTCTTGGGTGCCGGTCTCGGCGATCTCGCGCAGCATCTGCTCGGTCTGCCCCATCGCGGTGCGGAAGGTGGTTACCGGCCAGATCACCGCGTTGTAGCCGATCTCCTCGAGCCTGCCGGCGGGGATCAGCTCGGTCTTGCCGAACTCGGTCATGTTTGCCAGCAGCGGCACGTCGACGGCGGCGCGGAACTTTTCAAAGTCGGCCTCGGAGTAGAGAGCCTCAGTGAAGATCAGGTCTGCGCCGGCGTCGGCGTAGGCCTTGGCGCGCTCGATGGCGGAGTCGATGCCTTCGATCCCGGCGGCGTCGGTACGCGCGCAGATGACGAACGCGTCGTCGCTGCGCTCGCGCACGGCGGCGGTGATGCGGCGCAGCATGAGGTCACGGGGAACGACCTCCTTGCCGTCGAGGTGGCCGCAGCGCTTCGGGTTGACCTGGTCTTCGAGGTGCAGCGCGGCGACCCCGGCCGCCTCGAACTCAGCGACGGTGCGCGCGGAGCTCATGGGCTCTCCGAAGCCGGTGTCGGCGTCGACAAGCACGGGTAG	MALIRAVVRGQRADDRRVAVLLDDVRGPAGDARHDEQRGEELDVETEDVVGRAGREVQVRHDVDRGIVVHGLGHDVVDLDPLRSTLIRVLRLVLGGELLKAGLHRRHARVALLVHAVAEAHDKLLVLELVQGPLLGLGRVVDLDEVVHDELVGAAVQRALERADRAGHSGPGVRVGGRDHAGRERRGVEGVLGVKDHRLLECLDVRRDRRGRALAVAEDHPEEVLGVALRRVRLDVALAAAAADIKRHDGRQLGQKRQRDVADVVGVLGELVRVARAQKRHSCAQHVHRVAVLRHGLDDADELLVEAAAGASLGVELLKLLAGGQLAVPQQQRNLFEADVVGELLNGVAAVEQRVGLGVDFGDGSVVSDNAVEALAHFLLGHGGAPYLLLKRRAVVLRRVGEHGLVELVVLVVAHELVEPRAVLHSIQPRLLGAGLGDLAQHLLGLPHRGAEGGYRPDHRVVADLLEPAGGDQLGLAELGHVCQQRHVDGGAELFKVGLGVESLSEDQVCAGVGVGLGALDGGVDAFDPGGVGTRADDERVVAALAHGGGDAAQHEVTGNDLLAVEVAAALRVDLVFEVQRGDPGRLELSDGARGAHGLSEAGVGVDKHG				NA	NA	NA	NA	NA
AK009_08736	912			hypothetical protein	GTGGATGACGTTGCCCGCAGAATCAGCGAGGATCTGCACCTCGATGTGCTGCGGGTTGATCACCGCGCGCTCGACGTACACCCGCGCATCACCGAAGGCCGCCTCCGCCTCACGCGAGGCTTCCGCCGCGAGCTTTTCGACGTCCTGCTCACGCTCCACGAACCTCATCCCGCGCCCGCCGCCGCCCGCCACGGCCTTGACAAAGACCGGGAACTCGAACTCCTTGGCAAACTCCGCGATCTGCGCCGGGTTGTCCGAGGGCTCGGAGTCTTTCAGCGTGGGCAGCCCGGTGCGCTCCGCGGCATGCACGGCGGCTGCCTTGTCGCCGGTGAGGTCGAGCGTTTCCGGGCTGGGGCCGATGAAGGTGATCCCGTTCTCGGCGCACTCACGAGCAAGCTCGGCGCGCTCGGAGAGGAAGCCGTAGCCGGGGTAGACGGCATCCGCGCCCGTCTTCTTCGCGGCGGAGATGATCTCGTCTATGTCCAGGTAGGCGCGCACCGGCTGGCCTTCGACGCCGATCTGCACGGCCTCGTCCGCAAACGGGCGGTGGAAGGAGTTGCGATCCTCGCGCGGGTAGACCGCGACCGTTTTGGCCCCGGTCTCGAACGCTGCACGAAACGCCCTCACGGCGATCTCACCCCGATTGGCAACGAGGACTTTGTCAAAGTGCGGAAGCGTGCGAGCCATGGTGGTGGTCCTTTCCCGAGCGGGTGTGGGGTCATGCTAAAGCTGATTCTAACCCCCAAAGAAGGCACACGAGCGGGCTTGAATGTCGCTCTGTGTGGGGGCTTCTGTGATTGTGGGCGCTGGTGGGGGCCAGTGACAAAAGTTGTACCGGCGCCGAAAATGACCTTGGAAAATGACAAAAGTTGCACCAGCGGTGCAACTTTTGTCACTCAACCCGTCGGCTAG	MDDVARRISEDLHLDVLRVDHRALDVHPRITEGRLRLTRGFRRELFDVLLTLHEPHPAPAAARHGLDKDRELELLGKLRDLRRVVRGLGVFQRGQPGALRGMHGGCLVAGEVERFRAGADEGDPVLGALTSKLGALGEEAVAGVDGIRARLLRGGDDLVYVQVGAHRLAFDADLHGLVRKRAVEGVAILARVDRDRFGPGLERCTKRPHGDLTPIGNEDFVKVRKRASHGGGPFPSGCGVMLKLILTPKEGTRAGLNVALCGGFCDCGRWWGPVTKVVPAPKMTLENDKSCTSGATFVTQPVG				NA	NA	NA	NA	NA
AK009_08737	1422			hypothetical protein	GTGCGCCCCGGTGCCCACGATCTCCTCGGCAAGCCGCAGGTAGTAATCCAATGTGTAGAGGTCCTCGGCCGGGTCGAGCAGGTTGCCGGAGTACGCCATCGCCACCTCGGCGACGGTGGTGTTGGTCTCCAGCACGGCGTCGATGGCCGGGCGCATCTGCGAGACGTCGTTAAGAGCGTCGAAGATGCGGAAGATGTCGATGCCGCTGCGGGCGGCCTCCGCGACGAACGCCTTGGTCACACTGTCCGGGTACGGGGTGTAGCCGACGGTGTTGCGCCCGCGCAGCAGCATCTGCAGGTTCACGTTCGGCAGCACTTCGCGGATCTCGTCGAGACGCATCCACGGCGACTCGTGCAAGAAGCGCATGGCGACGTCGTAGGTTGCCCCGCCCCACGCCTCGACCGAGGTCAGCTGCGGGGTGAGGTGGCCGACGTGCTTCGCCGCGGCGACGAGCGTGTTCGTGCGGATGCGCGTCGCCAGAAGCGACTGGTGCGCGTCGCGGAAGGTCGTCTCGGTGACGCCGAGTGCGGTCTGCTCGCGCAGCTTCTGCGCCCACTTTTCGGGGCCGAGCTCCAGCAGGTCGTCGCGCGAACCGCGCGGCAGCTCGCCGTAGTCGCGCTCGGGCAGCTTCTTCGAAGGCGCGATGTTCGTCGGCCGCGGCCCGTTGGGCTGGTTGACGGTGACGTGGCCGACGTAGGCGAGGATGCGGCCGATCTCGTCCGCCGCCGCGGGCGCCTCCAGCAGGTGCGGGTGGTCGGCGATGAAGTTGGTGTTCACGCGCTTGTAGCGGAAGTCGGGGTCGGAAAGCAGCTCGCGCAGGAACCCGATGTTGGTGGAGACGCCCGTGACGCTGAACTCGTTGAGCGCGCGCAGCGAGCGGTCCACGGCGATCTGGAAGTCCTTGCCGCGGCAGGTCATCTTCACCAGCAAGGAATCGAAGTTGGGGGTAATTTCGGTGCCGACGGCAACGGAGCCGTCGAGACGCACGCCCGCACCGCCCGGCGAGCGGTACCCGGTGATCAGGCCGGAGTCCGGGCGGAACCCGTTGGCGGGATCCTCGGTGGTGATGCGGCACTGCAGCGCGGCGCCCGTGAGCTGCACGCTCTCCTGGTCCAGGCCGAGGTCCTCAAGCGTCGCGCCCGCCGCGATGTAGAGCTGCGAGCGCACGATGTCCACGCCCGTGACCTCCTCGGTCACGGTGTGCTCGACCTGGACGCGCGGGTTCATCTCGATGAACACGTGGTTGCCGTTCTCGTCGACGAGGAACTCGACCGTGCCTGCACCGGAGTAGTTGATCTCCTTGCAGAAGCGCACCGCGTCGGCGCAGATGCGCTCGCGCTGCTCCTGCGTAATGTGCTGCGCCGGCGCGATCTCCACGACCTTCTGGTGGCGGCGCTGCATCGAGCAGTCGCGCTCGAATAG	MRPGAHDLLGKPQVVIQCVEVLGRVEQVAGVRHRHLGDGGVGLQHGVDGRAHLRDVVKSVEDAEDVDAAAGGLRDERLGHTVRVRGVADGVAPAQQHLQVHVRQHFADLVETHPRRLVQEAHGDVVGCPAPRLDRGQLRGEVADVLRRGDERVRADARRQKRLVRVAEGRLGDAECGLLAQLLRPLFGAELQQVVARTARQLAVVALGQLLRRRDVRRPRPVGLVDGDVADVGEDAADLVRRRGRLQQVRVVGDEVGVHALVAEVGVGKQLAQEPDVGGDARDAELVERAQRAVHGDLEVLAAAGHLHQQGIEVGGNFGADGNGAVETHARTARRAVPGDQAGVRAEPVGGILGGDAALQRGARELHALLVQAEVLKRRARRDVELRAHDVHARDLLGHGVLDLDARVHLDEHVVAVLVDEELDRACTGVVDLLAEAHRVGADALALLLRNVLRRRDLHDLLVAALHRAVALE				NA	NA	NA	NA	NA
AK009_08738	1098			hypothetical protein	GTGGCCCGGGTTGGACGTGTCGGCCTTCTCCACCTCCGCCACCGAGGACTCCGCGCTCTCGTCGCGCACGCGCAGCGGGCGGACTTGGCCGTTGACGGTGAAGATCACCTGGCGCATGCCCTTTTCGTCGGCGTCGCCGATTGCCTCGAGTCGCACCACCAGCGGGGTCTTTTCCTCGGAGACCTCGCCGTAGTAGATGAGGTTCTCTTCGCCCTCGGTAAGCCCGTAGAAGAACGCCTTGTCGGAGAGCTGGTCGGTAATGCCGTAGGTCCGGCGGTGCTCCAGAAACTCCTCGTACTGCTTGGGAAACAGCAGCTTGTCCAGCGCCTCGCGCCGCAGCTTCTCGTCGTCGGATTCCAAAGCCTCCGCAGCCTCGGCGGGGACCTCGACGGTGCGGTTGACCACGGCGCGGTCTTCAAGCGCCTTGTCGCGCAGCTCCGGCCAGCCGCCGGGCGGGGTGCCCAGCTCGCCCTGGAGGAAGCCGATGACCGACTCGGGGATGTCGAACTTGCGCGGGTTCTCGGCGAACACGTGCGGGTCCACACCCGCGCCCACGAGGTGCAGCGCGAGGTCGCCGACCACCTTCGACGACGGCGTCACCTTGGTCGGGCGCCCGAGGATCTCGTTGACCGCGGCGTAGTAGTCCTCGATCAGCTCGAAGCGATCGCCGAGGCCCAGCGCGTTGGCCTGGGTGCGCAGGTTGGAGAGCTGGCCGCCGGGGATCTCGTGCTTGTACACGCGTCCCGTGGGGCCCGGGATGCCGGATTCAAACGGAGCGTACACCTGACGCACGGCCTCCCAGTAGGGCTCCATGTCGGAGACCGCCTCCAGCGAGAGCCCCGTGTCGCGCTCGGTGTTGGCAAACGCGGCGACGAGTGCGGACATCGAGGGCTGCGACGTGGTGCCGGCCAGCGGGGCGGAGGCGACGTCGACAACGTCGGCGCCCGCGGCGGCCGCCGCGAGGTAGGTCGCGAGCTGCCCGCCCGCCGTATCGTGCGTGTGCACGTGGATGGGCAGGTCGAAGCGCTCGCGCAGCGCGCCGACCAGCCGCGTCGCGGCGGCCGGGCGCATCAGGCCGGCCATGTCCTTAATCGCTAG	MARVGRVGLLHLRHRGLRALVAHAQRADLAVDGEDHLAHALFVGVADCLESHHQRGLFLGDLAVVDEVLFALGKPVEERLVGELVGNAVGPAVLQKLLVLLGKQQLVQRLAPQLLVVGFQSLRSLGGDLDGAVDHGAVFKRLVAQLRPAAGRGAQLALEEADDRLGDVELARVLGEHVRVHTRAHEVQREVADHLRRRRHLGRAPEDLVDRGVVVLDQLEAIAEAQRVGLGAQVGELAAGDLVLVHASRGARDAGFKRSVHLTHGLPVGLHVGDRLQREPRVALGVGKRGDECGHRGLRRGAGQRGGGDVDNVGARGGRREVGRELPARRIVRVHVDGQVEALAQRADQPRRGGRAHQAGHVLNR				NA	NA	NA	NA	NA
AK009_08739	381			hypothetical protein	GTGCCGCGCCCTAGGGTTGTTGGGGTCTACGAACAGGGCCACGCGCCGCGCCCCCTGGGCCCATGCCAGGTCGCAGGCGGCGCGCAGCAGCGTCGTGCCGAGGGCGTGGCCCGCGAAGCGGTTCTCCACGGCGATGGCAAGCTCGGGGACGTCGGGGCCGAGGTTTGCAAAGCCCTGCTCGGGGGTGGCCCAGTAGCGCAACCAGACCCCGCCAGCCGGGGTGCGGTAGGGGTCGAACGCGATGACTCCGCCGTCGCGCTCGGGGTCCCACTGGTCGACGTACTCGGCCACGCCGTGCAGCGAGGACTCGCCAAGCGGGGCAGACTCGTCGCCGAACACCTCGGTGAGGTAGTTGAGGCGCTGGATGTAGGTGCGGTCTGA	MPRPRVVGVYEQGHAPRPLGPCQVAGGAQQRRAEGVAREAVLHGDGKLGDVGAEVCKALLGGGPVAQPDPASRGAVGVERDDSAVALGVPLVDVLGHAVQRGLAKRGRLVAEHLGEVVEALDVGAV				NA	NA	NA	NA	NA
AK009_08740	1491			hypothetical protein	GTGGGCCTTAACCGGGTTTTCCATCTTCATTGCTTCGAGGATGAGTACGACATCGCCCTCGGCGACCTCGTCACCCTCCGAGACGTTGACCTTGATCACGGTGCCCTGCATCGGTGCCGCGACAGCGTCGCCAGACGCGGCGACCTTGGTGCCGGAGGCGCGGCGCTTCTTCGTCTTGCGGCGCGGTCCGCCGCCGAGGATCAGGGAGTGGGGCAGAGCGACCTCGATGCGGCGGCCGTTGACCTCCACGGAGAAGGTGCGCTTCGGCTCGGCGTCGTCGGCATCTGCGTCTGTGTCGGAATCCTCGTACGGCGGGAGCTGGTTGTCCCACTCCTCTTCGATCCAGCGGGTGTAGACGTCGAAGGATTCGCCGTTGCCGGTAAACGCGGCGTCGTCAAGCACTGCCTTGTGGAAGGGGATGACGGTGGGCAGACCTGTGACCGTGTACTCGGACAGCGCGCGCTTGGCGCGCTCGATGGCCTCGTCGCGGGTCTCGCCGTAAACGATGAGCTTGGCCAGCATGGAATCGAACTGCCCGCCGACGACCGAACCGGTGCGCACGCCGGAGTCGACGCGCACGCCCGGGCCGGAGGGCTCGGCGTACTCGGCGATGGTGCCCGGAGCCGGCATGAAGTTCGCGGCCGGGTCCTCGCCGTTGATGCGGAACTCGATCGCGTGGCCGCGCGGGGCGGGGTCCTCGCTCAGGCGCAGCTTCTCACCCTGCGCGATGCGGAACTGCTCGCGCACCAGGTCGATGCCAGCGGTGACCTCGGTGACGGGGTGCTCGACCTGCAGGCGCGTGTTGACCTCCAAAAACGAGATCAGGCCGTCAGAGCCCACGAGGTACTCGACGGTGCCGGCGCCGTAGTAACCCGCCTCGCGGCAGATAGCCTTGGCGGAGGAGTGGATGCGTTCGCGCTGCTCATCGGTCAAAAACGGCGCGGGCGCCTCCTCGACGAGCTTCTGAAAGCGGCGCTGCAACGAGCAATCGCGCGTGCCGACGACCACCACATTGCCGTGCTGGTCCGCCAGCACCTGCGCCTCGACGTGGCGCGCCTTGTCCAGGTAGCGCTCGACGAAGCACTCGCCGCGGCCGAAGGCGGCGACGGCCTCGCGCGTCGCGGAGGCGAACAGCTCGGGGATTTCCTCGCGGGTGTAGGCGACCTTCATGCCGCGGCCGCCGCCACCGAACGCGGCCTTGATGGCCACCGGCAGGCCGTGCTCGTCGGCAAACGCGAGGACTTCGTCCGCGTCGGCGACGGGGTCCTTGGTGCCCGGGGCCATGGGGGCGTCGGCGGCCTGGGCGATGTGGCGGGCGGTGACCTTGTCGCCCAGGGCGGCAATCGACTCGGGGGAGGGGCCGATCCAGGTCAAGCCGGCGTCGATCACGCGGCGGGCGAACTCTGCGTTCTCCGACAGGAAGCCGTAGCCCGGGTGGATGGAATCGGCGCCGGAATCGGCCGCCGCCTTGAGGATCTTGTCAATGTCTAG	MGLNRVFHLHCFEDEYDIALGDLVTLRDVDLDHGALHRCRDSVARRGDLGAGGAALLRLAARSAAEDQGVGQSDLDAAAVDLHGEGALRLGVVGICVCVGILVRRELVVPLLFDPAGVDVEGFAVAGKRGVVKHCLVEGDDGGQTCDRVLGQRALGALDGLVAGLAVNDELGQHGIELPADDRTGAHAGVDAHARAGGLGVLGDGARSRHEVRGRVLAVDAELDRVAARGGVLAQAQLLTLRDAELLAHQVDASGDLGDGVLDLQARVDLQKRDQAVRAHEVLDGAGAVVTRLAADSLGGGVDAFALLIGQKRRGRLLDELLKAALQRAIARADDHHIAVLVRQHLRLDVARLVQVALDEALAAAEGGDGLARRGGEQLGDFLAGVGDLHAAAAATERGLDGHRQAVLVGKREDFVRVGDGVLGARGHGGVGGLGDVAGGDLVAQGGNRLGGGADPGQAGVDHAAGELCVLRQEAVARVDGIGAGIGRRLEDLVNV				NA	NA	NA	NA	NA
AK009_08741	936			hypothetical protein	GTGCTCAAACCCGAGCGCGTAGCGCAGCGTGTACCACGTGTGCGCCGCGGCGGCCCCGAGGTTGCAGTAGGTCACCGTTTCTTCTTCGGGGTCGAACTGCGCGTACGCTGCCTCGATGTCCGCGCGGCACTTAAAGCGCGCGTTGGGGTGGACGGCTTCGCCCCACGTGATGTTGACCGCGCCCGGGATGTGCCCGCTGCGCAGACACGATGCGGAGCCAACGTTCGCGGTGCCGGAGAACTCGTCGGGCGTGCGGGCGTCGATAAGCTGCAGCGAGGGCGATTCACGCACGCCGGCGACGAAGGTCCGGATCTTAGAGTCGTCGCGCTCGACCACGGGGTAGGTGACCGCGGGGTAGCTCGGCACGGCGAAGGAGGTGTCGCGTTCTTCGCCCATCCAGGCGTCGCGGCCGCCGTCGAGAAGCCGGACATCGGGGTGGCCGAAGAGCTCGAAGATCCACGCGGTGTAGGAGGCCCACCAGTTGGCGCTGTCGCCGTAAACGACGACGGTGTCCTCGCGCGAGATGCCGCGCGAGCCCATCAGCTCGGCGAAGGCGGCGCCGTCGATGAAGTCGCGGCGCACGGGGTCGTTGAGGTCGCGGCGCCAATCGATGCGCAGCGCACCAGGGATGTGGCCGATGTCGTACAGGAAGGCGTCCTCGTCGGACTCGATGACTTTCAGCCCGTCGATGCCGAGGCGCGCGGACAGCCACGCGGCGGAGACGAACTTTTCGGGGTGGGCGAACTCTTGGAACAGCGGGTGCGGGTCATGCTCGATGCCCATGCGGTACCTTTCCTCGGGCGCGTTCGTATCAGGGTTCCACCATACCCGCGTCGCCGACGGTCCCGGCGCCACCCCCTGCAATGTGACGTTTGTCACTTGCGGACAAGCTTGCCCAGCGTAACGGGCATTTTACACATATCGTCAAAGTCGTAA	MLKPERVAQRVPRVRRGGPEVAVGHRFFFGVELRVRCLDVRAALKARVGVDGFAPRDVDRARDVPAAQTRCGANVRGAGELVGRAGVDKLQRGRFTHAGDEGPDLRVVALDHGVGDRGVARHGEGGVAFFAHPGVAAAVEKPDIGVAEELEDPRGVGGPPVGAVAVNDDGVLARDAARAHQLGEGGAVDEVAAHGVVEVAAPIDAQRTRDVADVVQEGVLVGLDDFQPVDAEARGQPRGGDELFGVGELLEQRVRVMLDAHAVPFLGRVRIRVPPYPRRRRSRRHPLQCDVCHLRTSLPSVTGILHISSKS				NA	NA	NA	NA	NA
AK009_08742	651			hypothetical protein	GTGCAGCTCGGAGGTGAAGCCGACGCAGGAGCAGTTGATCTCGCCGAGGACGTAGGTGTCCTTGCCACTGTGATCGTCGTCGGCAAGCATGAAGTCGGCGGTCCAGATCAGCGGGATGTTGTCGCCGCCGAGCTTCTCCGCGATCACCGGGCGGGCTGCGGCGAACATGTCGACGAGTTCCTGCCACTCCTCCGGCTTGTTGTAAGTGTACTTCGCGCCGGAGAACAAGGTTGCGGAGAACGCGTCGCCACCCTCAGCCGGCTTCTTGTGCACGACGAAGACCGGGTGCGGGCCAACGAGCAGGATGCGGATTTCGCCCTCGACGATGCGCGGCAGGAAGCGCATGTCCACGAGCATGCCGTTGTCGCCGACGATGTACTGGTCGCAGAAGTCCATGAACTCGCCCAGCTCGCGCTCCTCAGTGTGGTTGTCCACGGCCTCGGTGCACTTGAGCTTGGTCTCCAGCGGCAGCGCGGTGCCCGGCTCAATGGAGGCGGCCAGGTCCTTGTCGGTGAGGCGCACGCGCCAGATGCCGGAGCCGGTGGAGCCGCGGTTCTGCTTCAGCACGCGCTCACCGTAGGACAGGGAGACCGGGAAGGTCTTGTGGAAGTCCTCCACGTTGTAGTAGGCGGCGGTGTCGGAGGGGACTAG	MQLGGEADAGAVDLAEDVGVLATVIVVGKHEVGGPDQRDVVAAELLRDHRAGCGEHVDEFLPLLRLVVSVLRAGEQGCGERVATLSRLLVHDEDRVRANEQDADFALDDARQEAHVHEHAVVADDVLVAEVHELAQLALLSVVVHGLGALELGLQRQRGARLNGGGQVLVGEAHAPDAGAGGAAVLLQHALTVGQGDREGLVEVLHVVVGGGVGGD				NA	NA	NA	NA	NA
AK009_08743	303			hypothetical protein	GTGGCTGGCGGGCACCGGGCCCCACCCCTTCCAGCCGTTGGCGCGAAGCCGATCCAGCGAGCGGTGGTAGCCGGTGCGCGCGTAAGCGTAGGCGATGAGCACGTCGCCGTCGGTGAGCTCATCGGCGGCACGGGCGGCCCACACCGCCGGCGACTCCGGATGCGACAGCGCGGTCTCGCGGTCGAGCAGGTCGAGGTTGTCTGCGGGGTCCTCGGGCAGGTGGACGGGCGGCGGGGCAAGCATGTCGTTGATTTCCATGGCTGTCAGGCTACCCGAGTGGTTGCCAGACGTGGGTGGGCATGA	MAGGHRAPPLPAVGAKPIQRAVVAGARVSVGDEHVAVGELIGGTGGPHRRRLRMRQRGLAVEQVEVVCGVLGQVDGRRGKHVVDFHGCQATRVVARRGWA				NA	NA	NA	NA	NA
AK009_08744	525		COG0424	Nucleoside triphosphate pyrophosphatase	GTGATCCACCCGGCGCACATCGATGAGGACGCGCTGCTTGCCGCCTCCACCGCCGGGCCTGCCGACACCGTCACCGCCCTCGCCCGCGCGAAAGCGGCAGCGGTCGCGTCCCAGTACCCCGGCGACGTGGTCATCGGCTGCGATTCCATGCTGCTTCTCGACGGCCAGCTCCAAGGCAAACCCCACTCGATTGAGGCCACGGTTGCGCGGTGGCGCGCCCAGCGCGGCAAAACCGCCCAGTTGATTACCGGCCACGCCGTGCACTACCAGGGCCAATGGGTGACAGAGAGCGTTGCCACCACCATCGCCTTCGGCCAGGTCTCGGATGCCGATATCGAGGCCTACGCGCGCTCGGGCGAGCCGCTCGAGTGCGCCGGGGCCTTTACCCTGGAGGCCCTGGGCAGCTGGTTCATCGACTCCATCGAGGGTGATCCCTCGAGCGTGATTGGCCTGTCCATGCCGCTGCTGCGCCGCGCCCTGTACTCCTTCGGGCTGTCCGCGTCGCAGTTCTGGGCTGGGAAATAG	MIHPAHIDEDALLAASTAGPADTVTALARAKAAAVASQYPGDVVIGCDSMLLLDGQLQGKPHSIEATVARWRAQRGKTAQLITGHAVHYQGQWVTESVATTIAFGQVSDADIEAYARSGEPLECAGAFTLEALGSWFIDSIEGDPSSVIGLSMPLLRRALYSFGLSASQFWAGK				NA	NA	NA	NA	NA
AK009_08745	1656			hypothetical protein	GTGGCTGCCCCACAGATTGTGCTCGCCTGGGTCCTGGGCGTTGGTGGCTGCGGCCTGCAGGTCCGCGAGCACCATCGTCAGCGCGGTGAGCTCGTCGTCCGTGGGGTTGCCCTTGATCACGGTGATGTCCATCGAGAAAGTCTCCTTTTACAGCGGGATGTTGCCGTGCTTCTTGGCGGGCGGGTAAACCACCTTGCGCTCAAGCAGGCGCAGGCCTTCGAGGATACGGGCGCGGGTGGTAGACGGCTCGATGACCGCGTCGACCAGGCCGCGCTCGGTGGCCACGTAGGGGTTGAGGTTCTCCGCGGCGTAGGTCTCCGCGTCCGTGGCGAGGGCCGCGGCGGCGGTGGGGGCGTCGGCAAGCGCGATTTGCGCCGTGGGCCAGGCGAAGACGAGGTCAGCACCGAGGTCCTTGGCGCCCATGAGCGTGTACGAGGGGCCGATGGCCTTGCGTGTGACCACGGTGATCGTGCCCACCTGGGTCTCGGCGAAGGCGTACGCCAGGGACGCGGCGCGCGTGATCACGCCGGACTTTTCTTCCTCGATCGAGGGCACGAAGCCCGGCGAGTCCACGAGGAGGACCAGTGGCAAGTTGAACGCATCGCAGGTGCGGATAAAGCGCGCGGCCTTGATGGCGGCGTCGTTGGTGAGGCAGCCCGCGAGGACGGACGGCTGGTTGGCCACGATGCCCACCGCGCGGCCGCCGACGCGGGCGAAACCGGTCACGATGTTGTCGGCGTGCGCGGCGCCCAGCTCGAGGAAATCGCCGTCGGTGATTGCCGCGATGATGTCGAGCACGTCGTAGGCCGCGCTCTCGTCGTCGGGCATGAAGGCGTCGAGGTCCGTTTCGCCAGGCTGCGGGTTGTCGCCGACGGGGGAGGCGGCGCGGTTGTTCGTCGGCAGGAACCCGATGACGTCGCGGGCGAGCTGCACCGCGTCCTCATCGGTGGACGTGGTCAGCTGCGCCAGCCCCGTCGTCGCGGCGTGGACGGTCGCCCCGCCGATGGATTGCGCGGTGGCCTCGGTTCCGGACACCTTGGTCACAATCTCCGGATCCACAAGGTGCAGGGTTGCGCGATCAACCATGATCGCCAGGTCCGCGAGCGGCACGCTAATCGACGCCAGAGACGACGTCGGCCCAGCCACCACAGCGATCTGGGGGATCAGGCCCGAGGCGGCGGTGGCGGCGCGCAGGATCTTGGCTTGCATCGCGCCGGCGACAATACCCTCGGCCATGCGCGGGCCTGCGGAATCGTAAATCCCGACGAGCGGCACACCCGTCTTCGTCGCCAGGTCGTAGATCTTGAGGATCTTCTCCGCGGTCACCTCGCCGAGCGCTCCGTCGAAGATGGTGGGGTCTTGGGAGAACACGCAGACTCGGCGGCCGTCGATAAGCCCGTAGCCCGTGACCACGCCGTCGGTGGCGGGCTTGGTGCGATCCATCTTGTAGGCCTCGACGCGGTGGCGGGCCAGCGCGTCCGTTTCAACGAAGCTACCGGGATCCAGCAGCTTTTCCACCCGCTCGCGGGCGGTGGACTGGCCCGCGGCGTGGACCTTCTCAATCGCGTCACGGCCGACCGGCGCCTGCGCTTCCTCCAAGCGGTTGCGAAGGTCGTGGAGACGGCCCGCGGTCGTGGTCAAATCCGGTTTCGTTGA	MAAPQIVLAWVLGVGGCGLQVREHHRQRGELVVRGVALDHGDVHRESLLLQRDVAVLLGGRVNHLALKQAQAFEDTGAGGRRLDDRVDQAALGGHVGVEVLRGVGLRVRGEGRGGGGGVGKRDLRRGPGEDEVSTEVLGAHERVRGADGLACDHGDRAHLGLGEGVRQGRGARDHAGLFFLDRGHEARRVHEEDQWQVERIAGADKARGLDGGVVGEAAREDGRLVGHDAHRAAADAGETGHDVVGVRGAQLEEIAVGDCRDDVEHVVGRALVVGHEGVEVRFARLRVVADGGGGAVVRRQEPDDVAGELHRVLIGGRGQLRQPRRRGVDGRPADGLRGGLGSGHLGHNLRIHKVQGCAINHDRQVRERHANRRQRRRRPSHHSDLGDQARGGGGGAQDLGLHRAGDNTLGHARACGIVNPDERHTRLRRQVVDLEDLLRGHLAERSVEDGGVLGEHADSAAVDKPVARDHAVGGGLGAIHLVGLDAVAGQRVRFNEATGIQQLFHPLAGGGLARGVDLLNRVTADRRLRFLQAVAKVVETARGRGQIRFR				NA	NA	NA	NA	NA
AK009_08746	375			hypothetical protein	TTGGGTCTGCGGCTCGCGGGCCAGCGCAGGTGGATTCCACGCCGGTTAATCGCAGTACCCAAAGGACTATATCGCCGCAGCCTTCAGATTGTTTCGCGGGGTAAAGGTGTTCGGTGCACCAATGCGGTAAACATGGCAGATATGCCTACCTCTGAACACGATAAAGAGCGCGGCGACGTCCCGGCGGAGGATTCTCGCGCATTTTGGGATGCGCGGTACGCCTCCGCCCCAAACGTGTGGTCCGGGCAGGTTAACGCCGCCCTCGCTGACGTGGTTGAGCCTTTGGGCCCAGGCAGCGCGCTTGACCTCGGGTCAGGGGAAGGCGGCGACGTGTGCTGGGCTGGGCCATGGGCAGCGTCCAAAACACTGCTCTAG	MGLRLAGQRRWIPRRLIAVPKGLYRRSLQIVSRGKGVRCTNAVNMADMPTSEHDKERGDVPAEDSRAFWDARYASAPNVWSGQVNAALADVVEPLGPGSALDLGSGEGGDVCWAGPWAASKTLL				NA	NA	NA	NA	NA
AK009_08747	147			hypothetical protein	GTGCTGGGCTGGGCCATGGGCAGCGTCCAAAACACTGCTCTAGTGGGGCGTGCGCTGCGGATGGCGTATACGCTGCACGGCGACAGTGCTGACGGTGTGGTCTCTCACGCTGACCGCGGCACGCAGTTTACGAGTGTTCAACGTTAG	MLGWAMGSVQNTALVGRALRMAYTLHGDSADGVVSHADRGTQFTSVQR				NA	NA	NA	NA	NA
AK009_08748	303	proB_2	COG0263	Glutamate 5-kinase	GTGCTCTACGCCGCCGACGCGGAGGGCGTGCTGCGTCTCGACGCTGGTGCTGTGCGCGCGGTGACCCGGGGCGGCACGAGCCTGCTCGCCGTCGGCATCACCGAGGTCGAGGGTGATTTCCACTCCGGCGACATCGTGGAGATCCTCGGCCCAGAAGGCGAGGCGGTGGGCCGAGGTGTCGTGGCCTACGACGCCGCCCAGCTCGTGGACATGGTGGGCAAAAACACGCGTGGCCTCGAGCCGCACCTGCGCCGCCCGGTGGTTCACGCGGACTACCTGTCCAACTACGCCACCCGGCTCTAG	MLYAADAEGVLRLDAGAVRAVTRGGTSLLAVGITEVEGDFHSGDIVEILGPEGEAVGRGVVAYDAAQLVDMVGKNTRGLEPHLRRPVVHADYLSNYATRL	PGPT0014220_1756	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
AK009_08749	1296	proA_2	COG0014	Gamma-glutamyl phosphate reductase	ATGGCTGAGATCAACGACGCAACCGCAGCACGCGCCGCCGAGCGCGAAGAAGTCCTGACCAAGGCGCGCGCCGCGAAGGCCGCCGCGCCGGTTCTGGCGACGCTGCCGACCCCGGACAAGGACGCGCTGCTGCGCGATGCCGCCGAGCAGCTGGTCAGCCGCGCCGACGAGGTGCTCGCCGCCAACGCCGAGGATATCGAGGCGGGCCGCGGCGCCGGCATGAGCGAGTCGCTGATTGACAGGCTCTCGCTGGATAAGAAGCGTATCGACGCCATCGCCGACGGCCTGCACCAAGTCGCGGGCTTGAGCGACCCGGTCGGCGAGGTGATCCAAGGCCGCACGATGTCCAACGGGATCCGCATGCGCCAGGTCCGCGTGCCGCTGGGCGTGATGGGCATGGTCTACGAGGCCCGCCCGAACGTCACCGTGGATGCCTTCGGGCTGGCGCTGAAATCGGGCAACGTGGCGCTCTTGCGCGGCTCGAAGTCCGCGCGCGCGACGAACGAGAAGCTCGTCGAGATCCTGCAGGACGTCGTCGTCAGCCGCGGCCTGCCGCGCGAGATCGTGCAGCTTCTGCCGTGCGAGACCCACGAGTCGGTCCAGGACCTCATCACCGCCCGCGGGCTTGTCGACGTCGTCATCCCGCGTGGCTCCGCGCGCTTAATCAACGCGGTGGTGGAAAACGCCACGGTGCCCGCCATCGAGACGGGAACCGGTAACTGCCACTTCTACGTCGACGCCGAGGCGGACCTCGACTCCGCGATCGCGATGCTGCTCAACGGCAAGACCCGGCGAACCTCCGTGTGCAACGCGACGGAGACGGCGCTGATCGATTCCCTCCTGCCCGCCGCCGATCAGCTGCGCGTGATCACCGCCCTGCAGGAGGCGGAGGTGCGCGTTCATGGGGACGTCGATAAGCTTTCGGCCCTTGGGGCGCGCGACGTGGTGTCCGCGACCGAGGAGGATTGGGCTGACGAGTACCTCTCCATGGACATCGCTGTGGAGATCGTCGACGGCGTTGAGGGAGCGATCGCGCACATCGCGAAGTGGTCGACGGGGCACACTGAGGCGATAGCGTCGCGCGACGCGCACACGCTGCAGCGCTTCGCCGACGAGGTGGACGCCGCGGCCGTGATGCTCAACGCGAGTACCGCGTTTACTGACGGCGAACAGTACGGAATGGGAGCGGAAATCGGCATTTCTACCCAGAAGCTGCACGCCCGCGGACCGATGGCGCTACCCGAGCTGACCAGCACAAAGTGGATCCTCGAGGGTGCTGGCCACGTGCGCGACTAA	MAEINDATAARAAEREEVLTKARAAKAAAPVLATLPTPDKDALLRDAAEQLVSRADEVLAANAEDIEAGRGAGMSESLIDRLSLDKKRIDAIADGLHQVAGLSDPVGEVIQGRTMSNGIRMRQVRVPLGVMGMVYEARPNVTVDAFGLALKSGNVALLRGSKSARATNEKLVEILQDVVVSRGLPREIVQLLPCETHESVQDLITARGLVDVVIPRGSARLINAVVENATVPAIETGTGNCHFYVDAEADLDSAIAMLLNGKTRRTSVCNATETALIDSLLPAADQLRVITALQEAEVRVHGDVDKLSALGARDVVSATEEDWADEYLSMDIAVEIVDGVEGAIAHIAKWSTGHTEAIASRDAHTLQRFADEVDAAAVMLNASTAFTDGEQYGMGAEIGISTQKLHARGPMALPELTSTKWILEGAGHVRD	PGPT0014215_745	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
AK009_08750	897			hypothetical protein	TTGGTCGACGAAGCGACCGAGGCTATCGGAGACCTGGTCGTCCCACGGGGAGGGCTGCAGGAAGTAGCGGCCGTGGTTGCCACCGTTGCCTTCCGCGCCGCGCAGCGTGGCGATGGACAGGTCGCAGATCCCGTCGAGGGGCAGGCAGTAGTTGACGCGGTTGCCGGTCCCGGCGGCCGTCTTGGAGTTAAACGGCAGGGCGCCGAGCACGCCGCCGGCGCCACCGCCGCCGACGCCAACGGTGGACCAGTCGCCCGGTGCGGTGTTGGGGTTGCCCAGGTAGACCACACCAGCGAGCTGGCCGCGCGCCGCGAGCTCTTTTTCGTGCTCGAGCAGCACCATCGCGCCCTGCGAGAAGCCGATCAGGATGTAGCCCGGGCGGCAGCCGCTGGAGGCTTCGTAGTCATTGATGGCCTGCATAACGCCCGCGCGGCCCGCGTTGACGGAGTCGAGGAACTGGGTTCCCGCCGCGCGCGCCATCTGCAGGGTGGGCACGGCGTACTGCACGGCGAGGCCGACGGCCTGGGCAATGGTGGCGGGGACCGCGATGGCCGGGGTGTCGTACGCCGGGTAGACAGCCGGGTAGTAGCGCGGCTCGAGGCCGATGACCTCGACGTCGTTCATCAGCGAGGCGCCGCCGTGGGTGGCGCGGTAGCGGCCCTCGGCGTGGCGCAGGTAGGCGCGGATGGTCTCGCCCTCCCAGCCGTTGGACGTCCACGACGCCCCGCCCGAGTAGGTGGTGGGGACAACCTGAGTGTTTTGGCCGGAGCCGCGTGCCGCGATGACCGCGACGGCCGGGCAGCGCTGCTGGGCGCTGGCCTGAGGTGCGTGCACACCAGGCAGGCCCGCGGCGGGGGCGAGGATGGCGGCGAGCGCCGCAACGAGGGCGACGCTTAA	MVDEATEAIGDLVVPRGGLQEVAAVVATVAFRAAQRGDGQVADPVEGQAVVDAVAGPGGRLGVKRQGAEHAAGATAADANGGPVARCGVGVAQVDHTSELAARRELFFVLEQHHRALREADQDVARAAAAGGFVVIDGLHNARAARVDGVEELGSRRARHLQGGHGVLHGEADGLGNGGGDRDGRGVVRRVDSRVVARLEADDLDVVHQRGAAVGGAVAALGVAQVGADGLALPAVGRPRRPARVGGGDNLSVLAGAACRDDRDGRAALLGAGLRCVHTRQARGGGEDGGERRNEGDA				NA	NA	NA	NA	NA
AK009_08751	477			hypothetical protein	GTGCACCCGCTCCTGGTGCTTCGCGGGCAGCATGTCCTCGCGCAGCTCGTAGCCGGGCCGGGTCACGCCGACGAACTCCGCGAGGTCGAACATCCGGTCCCAATCGTGCCAGGACATGATCGAGCTCAGCGCGTCCGCGCCGGTGATGAAGTACAGCTCCTCGGTCGGGTACACCTCGCGCAGGTCACGCAGGGTGTCGATGGTGTACGTCGGCCCGCCCCTGTCGATATCGACCCGGGAGACGGTGAACTGCGGGTTCGACGCGGTGGCGATCACCGTCATCAGATAGCGGTGCTCCAAGTCGGTGACCTCGCGATCCGCCTTCTGCCACGGGTCGCCCGTGGGCACGAAAACGACCTCGTCAAGATCAAAGCGGTCGGCGACCTCGCTGCCCGCCACGAGGTGACCGTTGTGGATCGGGTCGAAGGTCCCGCCCATGACACCGATTTTGCGTGGTTTCATACCGTGCGAGTCTAG	MHPLLVLRGQHVLAQLVAGPGHADELREVEHPVPIVPGHDRAQRVRAGDEVQLLGRVHLAQVTQGVDGVRRPAPVDIDPGDGELRVRRGGDHRHQIAVLQVGDLAIRLLPRVARGHENDLVKIKAVGDLAARHEVTVVDRVEGPAHDTDFAWFHTVRV				NA	NA	NA	NA	NA
AK009_08752	492	rsfS_2		Ribosomal silencing factor RsfS	TTGACAGCCCTGAAGACCTCTATCGAGCAGGCCACCATTGCCGCGAAAGCGGCGGACGAGAAGCTTGGACGCAACATTGCCGTGATTGACGTGTCCGACGTCGTGGGCATTACGGACATCTTCGTCATCGTCTCCGCCGACAATGAGCGCCAGGCCGCGGCGATTGTCGAGGAGATCGAGGGCGATCTCACCGACGCCGGTTTCGAGCCGAAGCGCCGCGAAGGCAACCGGGAGAACCGCTGGGTGCTGCTCGACTACGGCGACATTGTCATCCACGTGCAGCGCGACGCCGAGCGGGACTTCTACGGCCTGGATCGCCTGTACGCCGATTGCCCAGTGTACGAGGTCGAGGGCGTGCCGCCCTACGAGCGCGACGTTGCCTTCGGCGATCTCGCTCAGCAGGCTGATTCGGCAAGCGTGCGCGGTGCCGAGAGGATCGAGGACCTGCCCCTGGCGGGTGAGGGCCCAGCTTCCGGCGACGACGAGTTCTAG	MTALKTSIEQATIAAKAADEKLGRNIAVIDVSDVVGITDIFVIVSADNERQAAAIVEEIEGDLTDAGFEPKRREGNRENRWVLLDYGDIVIHVQRDAERDFYGLDRLYADCPVYEVEGVPPYERDVAFGDLAQQADSASVRGAERIEDLPLAGEGPASGDDEF	PGPT0013435_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
AK009_08753	447			hypothetical protein	GTGCGCGACGAGCAGCACCGCCGAAGCGTCCCACTCGGAATACGTGCTCATCAGCTCGTCGACCACGGGGCGGGCGCGCTTGGCCACGTCCAAGCGGCTCTCCCCTGCAGGCGGCGCCCACGCGGCGTTGTTTCGCCAGTGCGCCCTGATCCTGCCGCGCTCAGAGTCCACCTCGGCGTGGGTTTTGCCCTGCCACTGCCCAAGGTGCGTCTCGCGCAGGCGCGCGTCGTGCGTCAGCTCGAGCCCCAGCGACGCCGCGATGATCTCCGCGGTATGGCGGGCACGGGTCAAATCGGAGGAGACGATCTTGGACACCCCGAGGTTCTTCATCAGCTGGGCGGCGGCGCGAGCCTGCTCCACGCCTACCTCCGACAGCTCGGTGTCCAGCTGGCCCTGCATGCGGCGGCCAGCGTTGTAGTGTGTCTGGCCGTGCCGCAGCAGAATTAG	MRDEQHRRSVPLGIRAHQLVDHGAGALGHVQAALPCRRRPRGVVSPVRPDPAALRVHLGVGFALPLPKVRLAQARVVRQLEPQRRRDDLRGMAGTGQIGGDDLGHPEVLHQLGGGASLLHAYLRQLGVQLALHAAASVVVCLAVPQQN				NA	NA	NA	NA	NA
AK009_08754	204			hypothetical protein	ATGCAGAGCCACGACACCGTCGTCGCCGCCGCGCTCGAGCTGGCGAGCGTAAATGGCGGCGAGCTCGACCGAGGACAAGCCACTGGTAGACCCGCCGCCCTCGACGTCCATGACGTGGAGCTCGGCGACGGTGATGCCAAGCTGCTCGGCGATATCGCTCGGCAGCCCGGCGGAAGAATCAACAACGATGCGTACGCTCATTAG	MQSHDTVVAAALELASVNGGELDRGQATGRPAALDVHDVELGDGDAKLLGDIARQPGGRINNDAYAH				NA	NA	NA	NA	NA
AK009_08755	387			hypothetical protein	GTGCACGGCGAGGGCGTCGACAAGCGGCACGACAAGCACGCGGGAGTCCTCGGGCAGCACCTCGCTGAGCATGTCCGCCAGCGTCTCCGCGGCCTCTTCGACATCGGCGTGCTGGATGGCGATGAACACGGGCTTGCCCTCGGCCTGCTCCTGTACCAGCTCCGTGAGCTTGATAAACGCCTTCGTCTGCGTCCTCGTTTTGCCTGCCAGCTCCAGTTTGCCGGCATTGAGGTGCAGGATCGGCTTCGTGGCCAGGAGAGCGGCCGAGAGCACCGCTGTGCCCGTCGACAAGCGGCCGCTCTTGCGCAAGTCGTCAAGCTGGCTGAGGTAGACCCACGTCCCGGAGCTGGCGAGGGTGTCCTCTGCGATTTTCTCGCAGGCGTCTAA	MHGEGVDKRHDKHAGVLGQHLAEHVRQRLRGLFDIGVLDGDEHGLALGLLLYQLRELDKRLRLRPRFACQLQFAGIEVQDRLRGQESGREHRCARRQAAALAQVVKLAEVDPRPGAGEGVLCDFLAGV				NA	NA	NA	NA	NA
AK009_08756	654	comEA_2	COG1555	ComE operon protein 1	ATGAGCCGCCCACACCGCCCGACTGGCACCGACCGCATCACGGAACTGCTGCGCCCGACCGGGGAGGAAGACCGCCTCGCGGTCGAGTTCCCGCCGCCGCGCGTGCGCGTCGAGCCCCTCCACGCCGCGCTCGCCGTGGCGGTGGTGCTCGCCCTCGTGGCCGGCTGGGCGCTGCTGCGCCCCGGCGCACCCGAGCCGCAGTGGGACACCGCTGCGGCGCAGGCCCCGCAGGCCCCGCCCGCGCAGGTGGTGGTGTCGGTGGTGGGGGAGGTGGCCAACCCCGGCCTAGTCACGCTCGAGCATGGCGCGCGCGTGGCGGACGCGCTCGAGCAGGCCGCGCCGCTGCCACACGCCGACCTCATCGCAATCAACCAGGCGCAGTTACTTGTCGACGGCCAACAGATCCACGTTCAGGCGGTCGGGGCCGTGCCGGCTGCCCCGCCCGGGCAGCCGCCAGCGCCGGGGCTTGTGTCGCTGAACTCGGCCACCGCGGCGGAGCTGACCACGCTGCCGGGCGTCGGTGACGCGACTGCCGCCGCGATCATCGCGCACCGCGAGGCCAACGGCCCGTTCGCTTCTGTTGACCAGCTGATGGACGTCAAGGGCATTGGCCCCGCCAAGTTCGAGGCGCTCAAGGACCTCGTGAGCATCTAG	MSRPHRPTGTDRITELLRPTGEEDRLAVEFPPPRVRVEPLHAALAVAVVLALVAGWALLRPGAPEPQWDTAAAQAPQAPPAQVVVSVVGEVANPGLVTLEHGARVADALEQAAPLPHADLIAINQAQLLVDGQQIHVQAVGAVPAAPPGQPPAPGLVSLNSATAAELTTLPGVGDATAAAIIAHREANGPFASVDQLMDVKGIGPAKFEALKDLVSI	PGPT0029410_1225	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
AK009_08757	1635			hypothetical protein	ATGTCGGAGCTGCGCCTTGCCCCTGCCGCGGTGGCCGTGTGGACGGCCACTCTAGCCGCCCTGGTCTGGGGGCCGGTGGTTGCGTGTGCCGCGGTGGCGGCGGTGTGCGCGGCGGTGGCCTGCGCGAGGCAGTGGGGCCAGGTCGTGCTGGTCGCGGGCCTGGGGTGCGTGGCCGGGCTGGTTACAACGCTGCGCGTTGCGACGGCCCGCGCGTGGCAGTTCGGCGCGGAAGTCGTCGGCACGGTTTCCGGCGCGGCCCGACCCATCGAGGGCCACGGTTACCTGCTGCGCGTTGGGGTCGCGGGCCACCCCGGCCCGATCGCGGTCTTCGTCGACGACCTGCCTCTTGGCGTGGTCAACGGAGCGGCCGTGCGAGTGACCGGGCGCGCGTCCGAGGCGGAGCAAGCCGGCACGGCGCAGGTCGTGTTCAACGGCGAGGTAGAGGTTCTGAGTGCCCCGACCGGCATGGCGGCCTGGTCGAACCACGTCAAGGAGACCTTTGCCGCGTCGGTGGCCCACACGGTTGGCCCGAGGGCGCAGGGGCTCATCCCCGGCATGGTGTTGGGCGATACGTCGCTGCAGTCGCAGGCGCAGCAGCAGGCCTATCTGGATACCGGGCTGTCGCACTTGAGTGCGGTGTCCGGCAGCAACGTCGCCATTGTGACTGCGGCTGCCGCGGTGCTGGCCAGCGCCCTGGGGCTCGGGCTGCGCGGGCGCATCGTGTTCGCCGCTGCGGCGCTGGCGCTGTTCGCGGGGCTGGTGGGGCCCGAGCCGAGCGTGCTACGCGCCTCCGTCACCGGTCTGGTGGGATTGATGGCGGTGTTGGCATCGTCGACAGCCGAGCCAGTGCACACGCTGTGCCTGGCCGTGATCGGGCTCGTGCTGGTCGATTCGAACTTGGCCGTCAGCTTCGGCTTCGCGCTCTCGGTGGCCGCGACCGCGTCGATCGTGGCGCTGAGCCCGCTGGTGTTTCGCTACCTTGCGGTTACCGGTTGGCCTGAGATCCTCGTGCGCGCCTTATCCGTCGCCGTGGCCGCCGACATTGTCACGATGCCGCTGGTGGCGCTCATGGCGGGCGAGGTATCGCTTGTCTCGGTCGTGGCTAACGTCCTGGTTGCGCCCGTGACCGCTCCAGTGACGGTTCTCGGCCTTATTGCGGTGGTGCTTTCGCTGGCACCCGGCGGGCTGGAAGTGCCGGTTTTGTGGGTGATCGAGCCGCTGGCAGCCTGGGTCGACATCGTCGCCGCCACCGGGGCGGCTCTGCCCGGAGCGACGGTTGGGGCGGGCCCGCTCTCCGTCGTCGTCTGCTACGGCTGGGTGCTCGTCGGGCTGGCGGCGCAGCGGCCGCGGGTGACGCTGGCGGCCGTCGCGCTGGCGCTCATCGCTACCGGCCTGGGGCCGCCGTGGCGGGCGCCGGTGGATGTTAGTCGCCTGCACGCGCACGTCGTCACGCGCGAAAGCGACATCGAGCCGATCCCGGCGAACGCGCAGGTGGTGGTCGTGCTCGAGGGCGGCAAACCACACGACCGGCCAGTGTCCACGCCCGGCGGGATTCCGGTGCTCTACCCGAACCGCGACGGGCCAGTGCGGCTCTACCCCGACGGCACGCAGCGCGCCGCGAGCGGAAGGTTTTAA	MSELRLAPAAVAVWTATLAALVWGPVVACAAVAAVCAAVACARQWGQVVLVAGLGCVAGLVTTLRVATARAWQFGAEVVGTVSGAARPIEGHGYLLRVGVAGHPGPIAVFVDDLPLGVVNGAAVRVTGRASEAEQAGTAQVVFNGEVEVLSAPTGMAAWSNHVKETFAASVAHTVGPRAQGLIPGMVLGDTSLQSQAQQQAYLDTGLSHLSAVSGSNVAIVTAAAAVLASALGLGLRGRIVFAAAALALFAGLVGPEPSVLRASVTGLVGLMAVLASSTAEPVHTLCLAVIGLVLVDSNLAVSFGFALSVAATASIVALSPLVFRYLAVTGWPEILVRALSVAVAADIVTMPLVALMAGEVSLVSVVANVLVAPVTAPVTVLGLIAVVLSLAPGGLEVPVLWVIEPLAAWVDIVAATGAALPGATVGAGPLSVVVCYGWVLVGLAAQRPRVTLAAVALALIATGLGPPWRAPVDVSRLHAHVVTRESDIEPIPANAQVVVVLEGGKPHDRPVSTPGGIPVLYPNRDGPVRLYPDGTQRAASGRF	PGPT0029415_4158	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
AK009_08758	963			hypothetical protein	GTGCATCCCCAGCTCTCGGGCGATCTGGTCGGGGTTGCCGCGGGTGCTGTAGAGCTTGGCGATGTCGCCGACCTTCCTGGCCAGCGCCGCGGCGATGGCGACGGGGCTGATTCCCAGCTGCAGCGCGCGCCGCGTCGACGCCAGCGCCCGGTCGGCGCGGCCCGCCACAGCTTGCTCCGCAATGTCGAACCCGGACACCTCCGCCACGCCCGAGTAGTAGGCGTGAACGGATCTCACTGTCAGCTCCCCCTCGGTGTCGGCCACGAGCTGGCTTGCTGCCGAGGCGAGCTCACGCAGGTCAGAGCCGACGGATTCCAACAGCGCGGCAACGACATCGGGGGTGGGGCGAGCACCCAGGCAACGAAACTCGTTGTTCAGCCAGGCTTGGCGGTCCCTGTCGCGCAGCGGGTCCACCGAGTGCACCTCGGCGACCTTCTTGAATTTGGCCACGTACGACTTGTTGCGTCCGCCTCCGGTGTGCTCGATGATCAGAGTCATCCCCGGCGCGGGGTCACGTGCCGCCTGCAACAACAGCTCCGTGGGCTCTTTGCCCGCCTGCTCCACGCCGGTGAACACCACCACGCGCTCCTCGGCGAACAGCGAGGGGCTCGTGGCCATCAGAAGCTCCCCCTCGGTGACGTCGCCAGCGCGCAGGCGGCTGACCTCGGCGCCCGCACCGGTGGAGGCGGCGTCGATGATGGCCTTCGTCGCGCGCTCGGCGAGGAATTCGTCTTCGCCCAAGACGAGGTGGACGGGATTGAGCATGCGCCCCATCTTAAAACCTTCCGCTCGCGGCGCGCTGCGTGCCGTCGGGGTAGAGCCGCACTGGCCCGTCGCGGTTCGGGTAGAGCACCGGAATCCCGCCGGGCGTGGACACTGGCCGGTCGTGTGGTTTGCCGCCCTCGAGCACGACCACCACCTGCGCGTTCGCCGGGATCGGCTCGATGTCGCTTTCGCGCGTGA	MHPQLSGDLVGVAAGAVELGDVADLPGQRRGDGDGADSQLQRAPRRRQRPVGAARHSLLRNVEPGHLRHARVVGVNGSHCQLPLGVGHELACCRGELTQVRADGFQQRGNDIGGGASTQATKLVVQPGLAVPVAQRVHRVHLGDLLEFGHVRLVASASGVLDDQSHPRRGVTCRLQQQLRGLFARLLHAGEHHHALLGEQRGARGHQKLPLGDVASAQAADLGARTGGGGVDDGLRRALGEEFVFAQDEVDGIEHAPHLKTFRSRRAACRRGRAALARRGSGRAPESRRAWTLAGRVVCRPRARPPPARSPGSARCRFRA				NA	NA	NA	NA	NA
AK009_08759	312			hypothetical protein	GTGGCGCTGCTCGACTACGTCGATAACGGCGTCGACGTCGACCTCGCCAACCAGGACGGCAACACGTTTCTCATGCTCGCGACGTATGCGGGGCATCTCGAGCTCGCGCGGGGCTTGGTTGAGCGTGGGGCGGACGTCGATAAGCTCAATGCTCGCGGTCAATCGCCGCTGGCTGGGGTCATTTTTAAGAAGGAAGACGAGATCGTCGAGCTGCTTCTCCATGCCGGAGCCGACCCGCGAGCGGGCCACCCCGACGCGATCGCGACCGCGCGCATGTTCGGGCGCGACGACCTCGCCGACAAGATGCAATAA	MALLDYVDNGVDVDLANQDGNTFLMLATYAGHLELARGLVERGADVDKLNARGQSPLAGVIFKKEDEIVELLLHAGADPRAGHPDAIATARMFGRDDLADKMQ				NA	NA	NA	NA	NA
AK009_08760	963			hypothetical protein	GTGATCGCAACCGAGGCGGCGACACCTGCCACAGCGAAAACGGCGGTGACCCACCATGACGCAGCGCGCCCCTCAGCGCGCGGCGCCACGGAGCACCTCCAGCATGTTCGGAATCGTGCGGGAGAGATCGTGCTCGCGCATGACGGCATCGTACCCGGTCTCGCTCATCCGCTGAGCCGTCGACGGGTCCGCGAAGAACTGCTGCAGCGCCTGGGCAAGAGCCTCGGCGTCATCCTGCGGGATGAGAAGCCCGCGCCCGTCGCGCAGGTAATCCGCGCTGCCTCCGAGGTTGGTCGCGATCACGGGTACTTTGTGAGCCATCGCCTCCAAGACCCCGAGCGGGCCCGCTTCTGGCAAGCGAGACGCCGAGACGAGCAGGTCCCAGCGGGCGAACACATCGTCCGGATTGACGTGCCCGAGGAACCGCACCCGGTTGGCAACCCCGCGGGCGTCGACACGCTCGTGCAGCGAGTCGGCGTAGGCCTGCGAGCCGGGGAAGACGGCGCCCGCAAGCTCGACCTCGATGTCGAGCACCGCCGGATCGATGAGGCTGACGGCGTCGATGAGCACGTCCTGGGCCTTCCAATCCGTGATGGCGGCGAGCATGCCCACCACGGGGCGGCCCTGGTCGTGGCCCTGCGCGGCTTCGCGGCGCGCGAAAAACTCCGCATCGGGGAGGACGACACCGTTGGGCCGAACCACCACGTTGCGGTAGTAAGGCCGGATCCGCTCGGCGGTCGGCTCGGACACCGCGATAGCAACGTCGACGGCGCGGGCCCCGAGGCGCGCGGCGATCTCTTGCTTGCGCTTGGCGATGGTGTCGTGAACCAGCCACACGACCGGCACCTTGGCGCGCTGCTTCGCCAGCGCGACCGCGGGGAGCCCGAATGTGGAGTTGAGCAAGACCACGTCCGCGGCGCGCATCGCGGGCGCGAGAATGCGCGCGGTGCGCAGCCACGTTAG	MIATEAATPATAKTAVTHHDAARPSARGATEHLQHVRNRAGEIVLAHDGIVPGLAHPLSRRRVREELLQRLGKSLGVILRDEKPAPVAQVIRAASEVGRDHGYFVSHRLQDPERARFWQARRRDEQVPAGEHIVRIDVPEEPHPVGNPAGVDTLVQRVGVGLRAGEDGARKLDLDVEHRRIDEADGVDEHVLGLPIRDGGEHAHHGAALVVALRGFAAREKLRIGEDDTVGPNHHVAVVRPDPLGGRLGHRDSNVDGAGPEARGDLLLALGDGVVNQPHDRHLGALLRQRDRGEPECGVEQDHVRGAHRGRENARGAQPR				NA	NA	NA	NA	NA
AK009_08761	297			hypothetical protein	GTGGACCATCATGTCCAGCTGGGACCAGTCGTAGTAGCCCGGGGCCGTTTCCACGTCACCCCAGGGCACGCTGATCCGGATCTGGCACGCGCCGACGTTGCGCGCCATGGCGTAGGATGCCTGGAGCTCCTCGGGGCTCTTCCACCCCCAATCCGCGGAAACGGCGACCCCGTAGTCCCCGCACGGCACGTCCGCCGCGTGCGCGGCGCTAGTGGCGACTCGAGGCGTAAGCCCCACCGTGATCGCAACCGAGGCGGCGACACCTGCCACAGCGAAAACGGCGGTGACCCACCATGA	MDHHVQLGPVVVARGRFHVTPGHADPDLARADVARHGVGCLELLGALPPPIRGNGDPVVPARHVRRVRGASGDSRRKPHRDRNRGGDTCHSENGGDPP				NA	NA	NA	NA	NA
AK009_08762	336			hypothetical protein	GTGCACGCCCAGCGCGTCGAAGGAATCCTTCGCACCCGCCTTGTACATCTCGCTGACGAACGTCGTGGGGGAAATCGACGTCTCCGTGTCAGCCGCCGGGGCGAGGCCCGCGCTGATGACCACGGCGCTCGGGTCAGCCTGATGGATCCGGGGGTACGTCAGCTTCAGCAGCTCCGCGTACTCTGCGGCGCTGGGGTTGGTCCAGAAGCGGGAAATATTCGGCTCGTTCCACACCTCGTACGCGTAGACGGAGTCCTTGTAGCGCGCGGCCACCGCGGCAGCGAACTGGCTGTACATCCGCCCAATCTCGTGCCTGTCGCTTTCCGACGCCGCTAG	MHAQRVEGILRTRLVHLADERRGGNRRLRVSRRGEARADDHGARVSLMDPGVRQLQQLRVLCGAGVGPEAGNIRLVPHLVRVDGVLVARGHRGSELAVHPPNLVPVAFRRR				NA	NA	NA	NA	NA
AK009_08763	309			hypothetical protein	ATGAAGTTTCTCGACATCGATGAGCTACAACGCATCATGGATGGCAACGGTGACGCGGGCAAGCAGATGTGGGTGACCGAGTACGGCGCGCCCACCGGGGGCCTGTCCGGGCTGACCCAATCCGAGCAGGCCGCGATGCTGATGTTCGGCATCGAGGAGGCGCGCCGCAACCCCCGGATCGAGCGCTTCTACTTCTACACGCTCCAGGACTACCCCTTGGGAGTGACCGATCCTGAGAGCTACTTCGGCATCTACACCAGCGACGGCGGCGCGAAGGTCGGTGCCAACGAGATCCGCAGCCAGCTCTAG	MKFLDIDELQRIMDGNGDAGKQMWVTEYGAPTGGLSGLTQSEQAAMLMFGIEEARRNPRIERFYFYTLQDYPLGVTDPESYFGIYTSDGGAKVGANEIRSQL	PGPT0026040_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSL_POLYSACCHARIDE_METABOLISM	CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026040-pslG-K21000	NA	NA
AK009_08764	336			hypothetical protein	GTGGGCGGTGGCGAAGCGGATCCGCGCCGGGGTGTAGCGCCCCACAAGCTCACGCAGTTGCCGCGTGTCCTGCGCCGTCAGCTCCCAGGGCACGGTAGCGGTCACCGCATGCTTACCGACGCCCACCTCAACGTCGTCGTACCCAACACGCTCGCCTGGGTAGCACGACTGGGCGAATTCGCGTACTGCCTGGACCACCGCGCCTTTTTCCACGTCGCACTCCCTGGCGCGGACGACGTCCGTCGCGCGACCGTGGCAGCGCAGCGCGGGCGGGTGGGCGTCGACAAACTCGAGCGAGGCTCGCAACCCGGTGTCGCGCTCGCCCTGGTCGGTTAA	MGGGEADPRRGVAPHKLTQLPRVLRRQLPGHGSGHRMLTDAHLNVVVPNTLAWVARLGEFAYCLDHRAFFHVALPGADDVRRATVAAQRGRVGVDKLERGSQPGVALALVG				NA	NA	NA	NA	NA
AK009_08765	714			hypothetical protein	GTGCGCGGCAGCCTCGTCGGCGGTCAGAGCCACAAGCGAGTCGAGCGGGGCAGTCGGGTCCGCGATGATTGCTCCGCACCAGTCCATGAACCGTCGGGCGTGGGCGGCGCACTCGTCCGCGGTGTAGACCCTGGGGTTGGCGAGCATCTCGATCTCAAGGTGCAGCGAGTCGGTTGGCTGAATCGTCAGCGAGAAGTCATCGATCGGCCCGTAGCTCCACACCTCGTACTGGGTGTCCAGCGTGCCGTACTCAATCGCGTCGTGGAAGGGGATGATGTTGACCAGCGGGCCGAAGAGACGCGGCGCGAGAAACAGCGAGGGGTCCGTGTTGGCGAGGTCGCTGAGCAGCACGTCCTGGTGCTGGTAGCTGGCCTTGAGCGTGGCGCGAAAGCGGCGGGAGATGTCGAAGATAGTGTCCCCGGGCTCGAACGCGACGCGCAGGGGCAGTGTGGTGTTGGATGTCGCGTGGTTCGCCTTCGCAAGCGGGGTGTGCCGCCCGGACACCGGGAACCCCGCGATCACGGCGTTCTCCTGTGTCATTGCGCGGATGTAGGACAGCACGAGCGCGGCGGTGATGTCGCGCCACGACGCGCCCGACTCCGCGCCAAGGTTGTCGAGGGTCGCAATCGGCAGCCTTTCGACGCGCCTGATGGGCAGGTCGGCGGGCGGGGCGGTGCGGTCGGAAAACGACAGGGTGCGTGGCATATTTTCTAG	MRGSLVGGQSHKRVERGSRVRDDCSAPVHEPSGVGGALVRGVDPGVGEHLDLKVQRVGWLNRQREVIDRPVAPHLVLGVQRAVLNRVVEGDDVDQRAEETRREKQRGVRVGEVAEQHVLVLVAGLERGAKAAGDVEDSVPGLERDAQGQCGVGCRVVRLRKRGVPPGHREPRDHGVLLCHCADVGQHERGGDVAPRRARLRAKVVEGRNRQPFDAPDGQVGGRGGAVGKRQGAWHIF				NA	NA	NA	NA	NA
AK009_08766	408			hypothetical protein	GTGCACGGATCCCGGGTCAGTTGTGCTGCGCGAGGTTTCCGTGGCGAAGTGCTCGAAGGTGCCGGTGCGCCGCGGGGGCGCGTCGAGACCCGCGACGGCGGCGGCGATGAGTTCGCTCGCGCGGCGGCGAAGCAGCATGCCTCCCCACCCGTCAATCGCGGCGTGGTGGCAGCCGCCGAACCATGCGTAGCGCCCCTCGCCGAGCTTGGCGACGACACTGCGGTGCGAAACCCCCGGACCCAGGATGGGGATCGGGGTCTGCCACTGCGCGTCGACAAGCTCGCGCATCGCGGCCGCGGGGTCATCGCTGTCGCTGAGGTCAACAAACTGGTGACTTTCCGCGCTAGATGTGCCCAGCACGTTCCACCAGCTCCCTTCGTCGTCGCGGGTGAGATAGTAGTGGATTGA	MHGSRVSCAARGFRGEVLEGAGAPRGRVETRDGGGDEFARAAAKQHASPPVNRGVVAAAEPCVAPLAELGDDTAVRNPRTQDGDRGLPLRVDKLAHRGRGVIAVAEVNKLVTFRARCAQHVPPAPFVVAGEIVVD				NA	NA	NA	NA	NA
AK009_08767	1032			hypothetical protein	GTGCTTTCCGCGCAGCACCGCGAGCGAGATTTCCTGCGTATCGACGTCATCCCACCACGCGTCCCCGAGGTCGCGTACGAGAGCTGGCGACGCCGCGACGTCCCCGTCGGGTGCATCCTGCCTGGCCGCCCCTGGTTCGAGGAGAAGGACGTTTTCGCCTTCCCTGCGCAGCGCCGACATCAGCGCGGCCGTGCGCGGGGCGATGCCGTCCGCGGTCGCACCCGTTTCCACGGCCACGCCGTCGCGGGCGGCGATCTTTTGCAGCCACACATGGTTGATACTGCGCGGGAAGAAGAACTTAACGGCCGCCACCACGGCGAAGACGATGAGGCCCACGACCAATCCGAGGACGATGCCCATCATCATCGGGCGCCTCTCCACGGTGTCGGGGGAATCGGTCTCCTGCGACAGGAGGGAAACCGTGAGGTGGTTCAGGCGGGGCTGCTGCTGTGCGGCGCGCAGCTCGTTGAGCGCGGTGTCGTAGCGGCTGATGTCGGCCGCTGGCGGATCCTGCGAGAGCGCGGCCTGCCGCTTCTGCTCCAAGTCGCCGATCAGGCCCTGGTAGGCCTGCTCGAAATCGCCCAGCGCCTGATCCCTAACCGTCTGCGCGCGGCCCCGGATCTCCTCAACGACAGCCTCGGACAACGCCTTCGACGCCTCCGGCGAATCAGCCTCGGTGGAGATGTTGAGCACACCCGGCATGTCCTCCGGCGCCGTCACTTTCACGTTCGGCGGGGACCCGACCTGGTTTACCGGGATGCCCGTCGCGCTCTCGATGTTGTTCTGAATGGCGTCGTCGTTGACGATTTCACCGAAGGCGCGGGCCTGGACCGCGAGCTGCTCCACGGTGGCCTCGTTGCGCGACGGCGAGGACACCATTACGGAGGTCTGCGTCCGAAACTGCGGGCCCTGGCTGCTGAAGTACGCAACGAACGCGAGCGCACCGATGATCGCCGCGAGCAGGCCGTAAACAATGCTCTCTTGCAGAGCGCGGAACACCGCCCCCAGTTCAACGCCCGCACCGCTCGGTGA	MLSAQHRERDFLRIDVIPPRVPEVAYESWRRRDVPVGCILPGRPWFEEKDVFAFPAQRRHQRGRARGDAVRGRTRFHGHAVAGGDLLQPHMVDTAREEELNGRHHGEDDEAHDQSEDDAHHHRAPLHGVGGIGLLRQEGNREVVQAGLLLCGAQLVERGVVAADVGRWRILRERGLPLLLQVADQALVGLLEIAQRLIPNRLRAAPDLLNDSLGQRLRRLRRISLGGDVEHTRHVLRRRHFHVRRGPDLVYRDARRALDVVLNGVVVDDFTEGAGLDRELLHGGLVARRRGHHYGGLRPKLRALAAEVRNERERTDDRREQAVNNALLQSAEHRPQFNARTAR				NA	NA	NA	NA	NA
AK009_08768	1152	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGACTACACCGTCTCAATCGCAGCATCCCCGCGTGGGCATCGTTCACGAGCGCTTCACCGACATCGCCGGCAGTGAGCAGGTGGTGCAGCGGATCGCGGAGGTCTTCCCTGAAGGGCCGATCATCGTGCCTTTCCTGCGCGAATCGGGCGTGCCGGATGTTGAGCGCGAGCGGGTGGTCACCAGCTATATGCAAAAGCCCTATGAGTCCGTGCAGAAACTTTCCTACGCCCCGCTGCTTCCCGCCGTGCCCAGGGCGCTGCGTTCGGCGGTGGCGCGGGAGCACCGCGACCGCCCGCTCGACGCGCTCGTGATCAGCCACCACGCTTTCGCGGTCGCAGCCGCGCGTGACGACGTCCCCACCCTCGCGTACGTGCACAGCCCCGCCCGCTGGGCGTGGGACCCGAACTTCCTCGCCGGTGAAACCAACTCCGTGCCAGGGCGGGCCGCGCTGACCACGCTCGGCCGGCTCGCGCGTTCCAACGAGAAGCTGCACGTGCCCCAGATTGACGCGATCGTGGGCAACTCAACCACGGTCCGCCAGCGCATCAACGACTGGTGGGGCCGCGAGGCCGAGGTGATCCACCCTCCAGTCAACGTCGACTACTTCGCCCCGGATGAAAATCCGCCGCAGCGGGGTGACTACTTCATCGCTGTGGGCCGCATGGTGCCGTACAAGCGCGTGGATATCGCGGTGCACGCCGCGATCGAGGCGCAGGTCAAGCTTGTCGTCATCGGCGCCGGCCGCGATTTTGAACGGGTATCGGAGATCGCTGCAACGGCGCCGGCTCTAATTAATCTGAAGGGGTTCCTGCCCACGCCCGAGGTGCGCGATCTGATTCAGGGTGCGCGAGCGCTGCTCATGCCGGGCGAGGAGGACTTCGGCATCGTCCCCGTCGAGGCCACCGCGGCCGGCACGCCGGTCGTTGCCCTGGGGAAGGGCGGGGTGCTCGACAGCGTCATCGACGGCGTGACGGGCATCCATGTCCCGCCGGGTGCCGACGACGCGGAAACAGTTGCCAACTTCGCGGACGCGTTGAGGAACTTCCCCGACTCGCGTTTCGAACGCGACCGGCTCATCGAGCACGCCGCGACGTTTTCTCCCGAGGCGTTTCAAAAGAAAATGGCGACGGCCGTCAGCGCGATGCTCTAA	MTTPSQSQHPRVGIVHERFTDIAGSEQVVQRIAEVFPEGPIIVPFLRESGVPDVERERVVTSYMQKPYESVQKLSYAPLLPAVPRALRSAVAREHRDRPLDALVISHHAFAVAAARDDVPTLAYVHSPARWAWDPNFLAGETNSVPGRAALTTLGRLARSNEKLHVPQIDAIVGNSTTVRQRINDWWGREAEVIHPPVNVDYFAPDENPPQRGDYFIAVGRMVPYKRVDIAVHAAIEAQVKLVVIGAGRDFERVSEIAATAPALINLKGFLPTPEVRDLIQGARALLMPGEEDFGIVPVEATAAGTPVVALGKGGVLDSVIDGVTGIHVPPGADDAETVANFADALRNFPDSRFERDRLIEHAATFSPEAFQKKMATAVSAML				NA	NA	NA	NA	NA
AK009_08769	321			hypothetical protein	ATGCGTCAGCGCGATTCGAAGCGCGTCCGTCCAGTGGCCGAGGCGCTGCTGCAGGCTGGACGAAGAAAACAGTGCCTGGACGGCCTGGCTGTTGCTCAAAGCGACACCTGCGACGACGATGACCCCGACCGCGGCGGCCGAAACCCCCAGCACGAGTTTGAGCACGCGGCGGTGCTGCGTCACGCCGAGCACGATGAGCCCCACGACGAGACCGATGTAGCTGGCGCGCACCACGGAGAGAATCAGGCCCACGACCATGATCACCGAAAGCGGCCAGAAGAGCCGCGAGCGCAGACGGTTGGGTTCGAGCAGCGACGCTGA	MRQRDSKRVRPVAEALLQAGRRKQCLDGLAVAQSDTCDDDDPDRGGRNPQHEFEHAAVLRHAEHDEPHDETDVAGAHHGENQAHDHDHRKRPEEPRAQTVGFEQRR				NA	NA	NA	NA	NA
AK009_08770	441			hypothetical protein	GTGGCGCCACACGATGAAGATCATCAGCAGGTAGAAATACGCGATCTTGATCGGGAAGAAGCTGCCGCTGCCGTGCGCGATCAGCGCCGAGGCGATACCGAAGGGCACGAGGATGAACAGGGGTGCCGTCCACGACAGATGGGCGCGGTAGCCCGCGGCGCTCGGGGTATTGCGCGGCAGGAGAGACGCCGCGAGGATGGCAAGAATTGCCCCCTCTTTCCAAAAGGAGATCGTCACCGGGGCGATCTTCAAAAGACCGTGGAACGGGACGAGACAGAGCAGGATGAGGACGGCGTCTTGCGGGCGGCGCAGCGCCACCAGGAACAGCGCTCCGGCGAGCGCGACTGCAGTGAGAAGCTGGATCACGGCGTGTTCTCCTTAGGTTGCGGTGCGATGAACAGCGACCGAGGTCTCCTTCATCACCCATTGTTGTCAACGTAG	MAPHDEDHQQVEIRDLDREEAAAAVRDQRRGDTEGHEDEQGCRPRQMGAVARGARGIARQERRREDGKNCPLFPKGDRHRGDLQKTVERDETEQDEDGVLRAAQRHQEQRSGERDCSEKLDHGVFSLGCGAMNSDRGLLHHPLLST				NA	NA	NA	NA	NA
AK009_08771	744			hypothetical protein	GTGGTTTCCGAACGTCAGCAGCAGAAGCGGGTACGAGATCGAGGCGACGACGATGGTGAGCTGGGCCAGCGCGGAGCCGGGAATAAGCCGGGGGACTTTGACTTGCGTGACGACGAGACCGAGGGTTGCCAACATCAGGGCTCCCTCAGTGATCACGGTGGCAACGGCCGCGCCGTTCATCCCCCAGCGGGGGATGAAGTCGAGGTTGAGCGCGATCTTTACTCCCAGTGCGATGAGCGCTGCGACGGGGAAACCCCGCCACTTTTTCGCGGCGAGCAGGACCGCGAGCGCCACCGTCGATACGCCGCTGAAGCCCGCGGCGACGATGAGGAGGCGAGATGGCAGCCCGGCGGAGGCGAAGTCGGTGCCGTAGAGAAGGGAGATCAGGCCGTCGGCGGTGGGGAGGAACCCCACGACAGCGAGCGCGCTCAGCGTCGCGGCGGCGACGAATGCGCGCCGCGTGTGGGAGGTAAAGGTAGCGTGGTCGCGGACGTAAGACGTGACCAGCACCGTGGTAAACGGCAGGGCCAAGGCCGTAATCGTCATTCCGAGGAGGTCGGAGAACTTGTACGCGATCGCGTAGATGCCCACGGGTTCGTAGCCGATCATCCTCTCCAGCATCAACTGGTCGACCTTGGTCAGCAGAAGGAAAAGCGCGTAGCCGATAGAGATCGGGATCGATTCTTTGAGCGTCTCCGCCCAGCCAAAGGTCGGCTGCGAGAACAGGGGCGCGAGCTCCGGTAG	MVSERQQQKRVRDRGDDDGELGQRGAGNKPGDFDLRDDETEGCQHQGSLSDHGGNGRAVHPPAGDEVEVERDLYSQCDERCDGETPPLFRGEQDRERHRRYAAEARGDDEEARWQPGGGEVGAVEKGDQAVGGGEEPHDSERAQRRGGDECAPRVGGKGSVVADVRRDQHRGKRQGQGRNRHSEEVGELVRDRVDAHGFVADHPLQHQLVDLGQQKEKRVADRDRDRFFERLRPAKGRLREQGRELR				NA	NA	NA	NA	NA
AK009_08772	561			hypothetical protein	GTGCCGGTTGAAATGTTCGAAATCGACCGGCGAGAACAACACCTTGACGTCAACGCCGCGCCGGGTCAGGTCCCGCAGCATCGGGCCGCTGAATTGAATCAGCCCCAGGGTCGCCCCGAGCGACCAGATAAACAGAGGCAGGCGCCGCCCAACCCCACCGAGGTGACGTTTCCACTGATCTCGCCGCGCCGAGCGCAGCGCCCGCTGATCCTGGGCGATGAGTTTTCCGGTCCGCGGATCGAGGCCGTGCGCGCGCACGAGCCGCTTATCGACGGGGCGTTGCCGACGCGACCACTGCGTGAGGTTGATCAGCACCACGGAGCGAGCCTGCAGCTCGATGGCCGCTTCCGCTGCCTTCCACGCGCCCGAGCACATTCCGACGAGGGTGACGTCTCGCTCTCCGGGCGCGTCCGTTTGCGGGCGGTCGGGAAACGCGTGCGCGACCTCCTCGGCCACCGCGATGGCGTCGGCGCGGGACTGGGAGGAGTAGAGGATCGCGATGTCGTCGGGCTCAACCTCCCCGGATTCGCCGCAGTTATCGGTGTCGTGGCGCACGAATGA	MPVEMFEIDRREQHLDVNAAPGQVPQHRAAELNQPQGRPERPDKQRQAPPNPTEVTFPLISPRRAQRPLILGDEFSGPRIEAVRAHEPLIDGALPTRPLREVDQHHGASLQLDGRFRCLPRARAHSDEGDVSLSGRVRLRAVGKRVRDLLGHRDGVGAGLGGVEDRDVVGLNLPGFAAVIGVVAHE				NA	NA	NA	NA	NA
AK009_08773	249			hypothetical protein	ATGAACGATCCCCGTGACGGCCTGCGCCAGATCCGCATCGACGCTCGCGTACCACGACTCGATGAGGAAACTGGCCATCTTGACGCCCACTACGATCAGCTCGTCGGCGCCCAGCTCGAGCAGGTGGCGTGCGGCGACCGTCAAGGAGTGCTCCCACTGGGGCCACGTGGGCATTTCGCGGGAGGGGCCGAACGAATTGCCTGTTCCGGGCAGGTCGAGCCGCAGTACGGCACAGCTGTCGCGGGCTAG	MNDPRDGLRQIRIDARVPRLDEETGHLDAHYDQLVGAQLEQVACGDRQGVLPLGPRGHFAGGAERIACSGQVEPQYGTAVAG				NA	NA	NA	NA	NA
AK009_08774	216			hypothetical protein	GTGCGCGGTGTTGCCCTGCGCATCGTGCAGCGAGAAACGCGTTCCAAAGTGATCCTGCGCGTCGTTGCACGACGCGATAGCCACGGGCTCAGATCCATCGCCGTAGATGTCTACGACGAACTCGGTCTTGAGGTCGTGCTCGAGCTGGCCTTCGACGAGCATTTTGCCGAAGCGCCCGAAGAAGGGGTCGTTGGCCGACACCTCAGCGCTGGATAA	MRGVALRIVQRETRSKVILRVVARRDSHGLRSIAVDVYDELGLEVVLELAFDEHFAEAPEEGVVGRHLSAG				NA	NA	NA	NA	NA
AK009_08775	417			hypothetical protein	GTGGGGGATCCAAGTCGCGCGAAAGGCGGTCGCCGCAGACGCATCGCCGGCGAAGACGAGTTCGCGCATGCGAAATGCCTGCTGGCGCATGGGGTCATGCGACGGTTCGTTTCTAAAACACCATCCCTCCACGTCGGAGAAGACCCCTGCGGCGGGAAGCGTCTGCGGAAGGCGCGCGTAAAGCGGGTGGCAGGCAGCCGAGACCATGCGTACTTCGCTGGTGGACATGAGGTGGTTGAGCGTCGATCCATCCGCGTGGGCGCGCAGCAGCTGTTTGTGCTCGCGGTCGCCGCCCTCAAAGGTCGAGATAATTCCGGTCAACTGCGGAAAAGATGCGATGTAGTCGGTCTTGTCGTACACAGCAGCAGGGAAAATGGGGCCGAAGCGGTGCACGGTGTAAGCACTGTCGTTGAATAA	MGDPSRAKGGRRRRIAGEDEFAHAKCLLAHGVMRRFVSKTPSLHVGEDPCGGKRLRKARVKRVAGSRDHAYFAGGHEVVERRSIRVGAQQLFVLAVAALKGRDNSGQLRKRCDVVGLVVHSSRENGAEAVHGVSTVVE				NA	NA	NA	NA	NA
AK009_08776	453			hypothetical protein	GTGTTTTCTCCGCCAAGTGGACATCACGGCGCGCAGCCTGGGGTGTTAGTCGGATGTGATGTGGTATTCGTTCCTGAGGTTGCGCGAGCGCACGCTCGGTTCGGTAGTAACTACCTGCGGCGCGTATTCCACATGGACGGCGCCGCCGACGAGGCGGCCGTGACACCGGAGTCACTCGCGGGGCGGTTCGCCGCGATCGAGGCAGTGGGCAAGCTTCTCGACGCCCGTTCGTACGACCTCTCTTTCCGAGACATCGTTGTTCGCCCCTCCGCCACGGGCCGGCCCGAAGTGCACCTCTCGGCAGGAGCTGAGGAGCGCTTCCGCAGCCTAGGGGCCCAATCTCTTGACGTGTCCATTAGTCACGACGGGCATTTCGCTTTCGCGGTTGCGGTGGCAGCCGTGAGGTGGGATCAATCTTCCTCCGCTGGCGCGGTTCAGGGTGGTGGTGTTTAG	MFSPPSGHHGAQPGVLVGCDVVFVPEVARAHARFGSNYLRRVFHMDGAADEAAVTPESLAGRFAAIEAVGKLLDARSYDLSFRDIVVRPSATGRPEVHLSAGAEERFRSLGAQSLDVSISHDGHFAFAVAVAAVRWDQSSSAGAVQGGGV	PGPT0008840_278	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
AK009_08777	255			hypothetical protein	ATGTCTTCTGTGAGCAACATTGATGACGTGATCGCTACTGCGCTCGAGGAAGCAACCGAGGGCTATCTCTCGTCTGGGTCGGTGTCCGAGACGGACAACCTGCTCGAGCGCGGTCTGACGTCTCATCAGATCGTGCAATGGATGCTTGCCATTGAAGAAGCGCTTGATATCGAATTCACAGATTCCCAGCTCAATAAGGAAACTTTCCGTTCGATGGAGTCGGTCCGACAAGCGATCCAATCGTTATCGGACTAA	MSSVSNIDDVIATALEEATEGYLSSGSVSETDNLLERGLTSHQIVQWMLAIEEALDIEFTDSQLNKETFRSMESVRQAIQSLSD				NA	NA	NA	NA	NA
AK009_08778	1368	wcaJ	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	GTGAAAACATTCTATCAACAGAAAGATATTCGCTGGGTGCGCACGGCGTTCGAAGCGGACCCAGTGTACCGAATCGTCGACACCCTGATGTTATTGCTTTCGGCGCTGCTCTTCCCGCTTGACAACGAGCTGCAGATCGGGCTTTTCATGGCGCTGGGTATTCAGCTGTGGAAGCCGATCTACCGCAACCGGATTGTCGTCTCCACGCTTGACGACGTGCCCAAGCTCATCGTGGCTGCGGGATCGGTCTCATTTCTCGGCGTTGTTGTTTTTGAACAGGGGTGGGACGCAACCCGCATCCTGGGTTTTTGCTTCTTTGTCCCCGCGATGGTCATCCTTGGCAGGGCGATCACGAACGTGTTCATTCGCCGTTGGCGAATCCGCAAGTGGTGGGCGCGTAAGCGCACGGTCATCCTCGGCAGCGGGGAAACCGGGTGGGACCTCGTGCGCATTACGGATGCGTATCCCGAGCTGGGCCTAGAGACCGTGGCCGTGGCCGACAAAAAGCGCAGAGACAACGGTGACAACCCCTACGGTGTCGACGTCGAGGTGCTTGAGAAGGGCGGATTGAAATCGCTGCTCACGCGCGCCCATGCCCAAACGCTGATCGTGGCAGACAGCGTGTACAGCAGGGAAGAGTTGCTCAACATGCTGCGCGACTGCGCCCGCCTTGACACTGAGGTGCTCATCGTCCCGATCTTGACCGAGTACGTCAGCATGGGCGGCAGGATGGACAGGATTTACTCCTACCCGGTTCTGCGTGTCCGCCGCGCCGCGTACCGCTCGTTTGAGTGGAAGCTGAAGCGGCCGATCGGTTTGATCCTCAGCGGGTTGGCGCTCATCGCGCTTTCCCCGATTTTCGCGGTTCTCGCGATCCTGCTTAAGATCGAGGACCCGAAGGCTCCGGTCATCTTCCGCCAGATCCGCATTGGTGTCGACGAAAAGCCGTTCGAGCTTTTCAAATTCCGCTCGATGACCCCGCGAAACACCAAGGAAAGTGACACGACGTGGAGTATCGCGGGTGATCAGAGGATCACGCGGCTCGGGGCGTTCATGCGCAAGTATTCACTCGACGAGCTGCCGCAGATTGTCAACGTGTTCAAGGGCGATATGGCACTTGTGGGGCCTCGACCTGAGCGCCCCGCCTTCGTGGAGCGTTTCAAGGGAGAGCACGTTGGCTACCGCTCGCGCCACCGCGTGCCCGTTGGTCTGACGGGCTGGGCTGCGGCGAACGGGCTGCGTGGCGACACGAGCATCCGCGAGCGCGTCCAATTCGACAATTTTTACATCGAGAACTGGTCACTGTGGCTAGATTTCAAGATCATGCTGCTTACCGTCAGCGCGGTCTTCAAAGGGAGTGGAGCTTAA	MKTFYQQKDIRWVRTAFEADPVYRIVDTLMLLLSALLFPLDNELQIGLFMALGIQLWKPIYRNRIVVSTLDDVPKLIVAAGSVSFLGVVVFEQGWDATRILGFCFFVPAMVILGRAITNVFIRRWRIRKWWARKRTVILGSGETGWDLVRITDAYPELGLETVAVADKKRRDNGDNPYGVDVEVLEKGGLKSLLTRAHAQTLIVADSVYSREELLNMLRDCARLDTEVLIVPILTEYVSMGGRMDRIYSYPVLRVRRAAYRSFEWKLKRPIGLILSGLALIALSPIFAVLAILLKIEDPKAPVIFRQIRIGVDEKPFELFKFRSMTPRNTKESDTTWSIAGDQRITRLGAFMRKYSLDELPQIVNVFKGDMALVGPRPERPAFVERFKGEHVGYRSRHRVPVGLTGWAAANGLRGDTSIRERVQFDNFYIENWSLWLDFKIMLLTVSAVFKGSGA				NA	NA	NA	NA	NA
AK009_08779	1047	mshA_3		D-inositol-3-phosphate glycosyltransferase	GTGGGAAACCAAAACCATATCGTTTACGGGGCACTTGCCCTTCGTCCCGGCGGCAGCGGAGTCCAGACCTACCAGCGCGAACTGCTCCGCGGGATTGCGCGGCTGGCCGACGAGACGTACACGCTTTCCGCCACCGTGCAAAAGGACAGCGTCGGGGAGTTGCCGGAGCGGATTGCCCCGATCGCCATGCCCGTCTCGGGCGGGATGAAGCGGGCGCTGCTGGGTTTGCGCCCCGTTAAAGAGGCGTCGATTTTCCATTCGCTCGACGTGGATCTGCCCTTCGCGCAGCGCGGGGTGCTCGTCTCGACGGTCCACGACATGTCCGTCTTTGATACGCCGTGGGCGATGAGCGCGGTGCGCGCACGCGGAGAGCAAGCGCTTCTGCGCCGGAGCCTGAAAACAGCCGACGAGCTCATTGCAGTCTCTGAGTTCACCGCGGAGCGCATTCACGCGCTCACGGGTCGCTCCGCGCACGTGGTGCCCCTAGCGCCGGCGTCGTGGGCTCGGGTTCCGAGCGACGACGAGGTGGAGAAGGTGCGCAGCAAGTACGGCCTGCCCGATCGCTTCGCGTTCCAGCTTGGCACGGTCGAGCCGCGCAAGCGCCCGGACATCGCGGCGAACGCCGCTGAGCTCATCGGCATTCCGATGGTCCTCGCGGGCGCCGGCTCGGACAACCCGGATCTCGGTTTTCCGGCATTGGGGCTCGGCTACGTGGACCGGGAGGACATTCCCGCCCTGTACCGGGCGGCGTCCGTCGTGTGCTACGCGTCAGTGTACGAGGGTTTCGGTCTGCCCCCGGTCGAGGCCATGGCCTGCGGCGCCGTCGTCGTCGCCAGCGATGTCGGCGGCATCCGCGCGGCGGTGGGCGAGGGCGCGCTGCTCGTCGGCGCTCTCGACGTCAACGAGTGGGCGGACGCGATTCGCGGTGTCGTGTTCGATGAGGGCGCGCAAAAACAGCTGCGCGCGGCGGCACGAGACCGCTGCGCGCAGCTGGGGTGGGAAAACGTCACCCGATCGACCTTAGAGGTCTACCAAAGCGTGCTCTAG	MGNQNHIVYGALALRPGGSGVQTYQRELLRGIARLADETYTLSATVQKDSVGELPERIAPIAMPVSGGMKRALLGLRPVKEASIFHSLDVDLPFAQRGVLVSTVHDMSVFDTPWAMSAVRARGEQALLRRSLKTADELIAVSEFTAERIHALTGRSAHVVPLAPASWARVPSDDEVEKVRSKYGLPDRFAFQLGTVEPRKRPDIAANAAELIGIPMVLAGAGSDNPDLGFPALGLGYVDREDIPALYRAASVVCYASVYEGFGLPPVEAMACGAVVVASDVGGIRAAVGEGALLVGALDVNEWADAIRGVVFDEGAQKQLRAAARDRCAQLGWENVTRSTLEVYQSVL				NA	NA	NA	NA	NA
AK009_08780	264	rpsT_2	COG0268	30S ribosomal protein S20	ATGGCAAACATCAAGCAGCAGAAGAAGCGCGTTCTCACCAACGAGAAGCGCCGCCTGCGCAACAAGTCCGTCCGCTCCGCAACCCGCACGGAAATGCGTAAGTTCCGCGAGGCCGTCGAGTCCGGCGACAAGGCAGCCGCCGAGGCTCAGCTGCGCGTGGCTTCGCGCAAGCTGGACAAGGCCGTGACCAAGGGCGTGTTCCACCGCAACGCCGCGGCGAACAAGAAGTCGAACATGGCACGTGCCCTGAACAAGATGGCGTAG	MANIKQQKKRVLTNEKRRLRNKSVRSATRTEMRKFREAVESGDKAAAEAQLRVASRKLDKAVTKGVFHRNAAANKKSNMARALNKMA				NA	NA	NA	NA	NA
AK009_08781	363			hypothetical protein	GTGACGCGGGCCCAAGGTCCTGCTCGCGTAGCTCGGCGCACCCGTGAATTTCCGGATGCGGACAACCATTACAAACTAGCAGTCGAGCACGCTGCGGCCAAAACCATGCTAGATCCACTCGAAGCCATCGCGCAGCCGGTTGGCCACCCGCTCGAAGCGCCGGGGCGGAACGGAGGCGCCGCGGCGATGGACGTCGGTCTCGGAGACCAGCAGGGTTTTGTCCATGCGCACCCAGCACGGCTCGCCGGAGGCATCCCAATCCCCGGAGCCGATGTCGAGCCAGTCGGGGTGGGCGGCGTGCTCCTTGTCAGGAGAAATGAGCAGCCCGAGTACTTCGTGGTGCTCGCGGCCGACGATGAGTAG	MTRAQGPARVARRTREFPDADNHYKLAVEHAAAKTMLDPLEAIAQPVGHPLEAPGRNGGAAAMDVGLGDQQGFVHAHPARLAGGIPIPGADVEPVGVGGVLLVRRNEQPEYFVVLAADDE				NA	NA	NA	NA	NA
AK009_08782	519			hypothetical protein	GTGCTTGACGCCGGTGTTCATCATTTGCACCTGCTGGTTCGGCATGAGCTTGCCGTCCATCATGCGCACGTAGGTGACCACGCCACGGTAGGTGTCGTACACCGAGTCGAAAATCAGCGCCCGAGCCGGGGCGTCCGCGCCGCTTTCCGACGACGGCGGGGGCACGAGATCCACCAGCCGGTCCAACAGCTCCGGCACCCCGACGCCCGTCTTGCCCGAAACGCGCAGCACGTCCTCCGGCTCGCAGCCGATGATGTGGGCGATCTCGAGGGCGTACTTGTCCGGGTCCGCGGCGGGAAGGTCGATCTTGTTGAGCACCGGGATGATCTCGAGATCTTTGTCCATCGCCATGTACAGATTGGCCAAGGTCTGGGCCTCGATGCCCTGGGCGGCGTCGACAAGCAAAATTGCGCCCTCGCACGCCTCGAGCGCGCGGGAGACCTCGTAGGAGAAGTCGACGTGGCCGGGGGTGTCGATCATCTGCAGAATCGTCTCTTGGCCCGCGAACTCGCCCGATAG	MLDAGVHHLHLLVRHELAVHHAHVGDHATVGVVHRVENQRPSRGVRAAFRRRRGHEIHQPVQQLRHPDARLARNAQHVLRLAADDVGDLEGVLVRVRGGKVDLVEHRDDLEIFVHRHVQIGQGLGLDALGGVDKQNCALARLERAGDLVGEVDVAGGVDHLQNRLLARELAR				NA	NA	NA	NA	NA
AK009_08783	429			hypothetical protein	GTGGCTTTCGGTGCCGTCCTCCGCGACAACGCGGTACGTCACGCTCGGCGCGGTGGAGATCAGGTCGAGGTCGAACTCGCGCTCGAGGCGGTCGCGGGTGATCTCCATGTGCAAAAGCCCGAGGAAGCCGCAGCGGAAACCGAAGCCCAGAGCGACCGAGGTTTCGGGCTCCCAGGTCAGGGAGGCGTCGTTAAGCTGCAGCTTTTCCAGCGACTCGCGCAGGGCGGGGAAATCTTCCTGCGAGACGGGAAACAGGCCCGAGTAGACCATGGGCTTGACCTCGGCGAAGCCAGCCAGCGGCTGCTGCGCGCCTTTCGACGCCCAAGTCACCGTGTCACCGACGCGGGTTTCGCGCACGTCTTTCACGCCCGTGATGAGGTAGCCCACCTCGCCGGGGCCCAGGCCCTTGGTCTTCTTCATCGTCGGTGA	MAFGAVLRDNAVRHARRGGDQVEVELALEAVAGDLHVQKPEEAAAETEAQSDRGFGLPGQGGVVKLQLFQRLAQGGEIFLRDGKQARVDHGLDLGEASQRLLRAFRRPSHRVTDAGFAHVFHARDEVAHLAGAQALGLLHRR				NA	NA	NA	NA	NA
AK009_08784	660			hypothetical protein	GTGCCAGTCGAAGCGTGGCACCATGAAGAACATGGAGTACCTCTCCGAGGAGCGCGTCGAGCTGCGCTACATCATGCCGCTCGGCGAGATCATTTTCGATTTCTTCGACATGCTCAAGTCGCGGACGAAGGGTTACGCCTCCCTGAACTACGAGGAGGCCGGGGAGCAGGAGGCCGACCTAGTGAAGGTGGATGTCCTGCTTCAGGGCGAGCCCGTCGACGCGTTCTCCGCGATCGTGCACCGCGACTCGGCGCAGTGGTACGGCAACAAGATGACCAAGAAGCTCAAGGAGCTCATTCCCCGCCAGCAGTTCGAGGTGCCGGTCCAGGCAGCGATCGGATCGAAGATCATCGCCCGCGAAAATATCCGTGCGCTGCGCAAGGACGTGTTGTCGAAGTGCTACGGCGGCGACATCTCGCGCAAGCGCAAGCTTTTGGAAAAGCAGAAGGCTGGCAAGAAGCGCATGAAGTCGATCGGCTCCGTCACCGTCCCGCAGGAGGCGTTCGTCGCGGCGCTGTCGACGGACGAGGAGTAGCCGCCCGGGGTTCTAGCCCCGGGCCTCGCTTCTTCTCTCGTAACCGCGGAAGGCGAGCCAGGCCACTAATTCCACGATGGGGAAAAGTACCTGAGCAACTGCCCTCAAAGCGGCTCGCTGATTAG	MPVEAWHHEEHGVPLRGARRAALHHAARRDHFRFLRHAQVADEGLRLPELRGGRGAGGRPSEGGCPASGRARRRVLRDRAPRLGAVVRQQDDQEAQGAHSPPAVRGAGPGSDRIEDHRPRKYPCAAQGRVVEVLRRRHLAQAQAFGKAEGWQEAHEVDRLRHRPAGGVRRGAVDGRGVAARGSSPGPRFFSRNRGRRARPLIPRWGKVPEQLPSKRLAD				NA	NA	NA	NA	NA
AK009_08785	393			hypothetical protein	ATGCCGCTGCTCAAGGGCCCCGATCTGATGCGGCTCGCCGAGCACCGGCGCGCGCACGCCATCGCGGGGACGGACGACGTCATTCTCGGAGACTTCGCGGAAACCACCACCGGCACGCTCGTCGGCTGGAATGGCCGGACCCTCGTGCTACCCGAAGCCACGCGCCTGCCCAGCACGACCGAGGCGCTCGTCGTCGAGCGAGGCAAAAAGCTCGGCTGCGATGTCGCGCACGGTGTCCTCGATCCGGCCAAGCCGATGTGGTTTCTCAACGCCCTGCACGGGATCAGCCCGGTGCGCCGGATCGTCTCGCATACCGCTGTGGTGCTTCTACCTCGCAGCCCCGGCGAGTCGGAGTGGCGCAGCTGGTGGCGGTATAAACAATTAGATTTTTAG	MPLLKGPDLMRLAEHRRAHAIAGTDDVILGDFAETTTGTLVGWNGRTLVLPEATRLPSTTEALVVERGKKLGCDVAHGVLDPAKPMWFLNALHGISPVRRIVSHTAVVLLPRSPGESEWRSWWRYKQLDF				NA	NA	NA	NA	NA
AK009_08786	1395			hypothetical protein	GTGCGGACACCAGAGTCAGGTCAGTTGTTTCCCGCACCGGTGGCGCTGGGCGGATGTCGAGGCGGAATCTTTCCTCGTACACCGAGATGCGGGGGAACAGATCGGAGGAGGCGTCGAGAAGCGCGAGCGCGTTTTCCCACATCCCGGCCGGAAGCGGGCCAGCCCCTGCGGCGAAGCGCATCCGGTGCAGCTCGAGCCCGCGGGCGCGGCCATATTCGTGGCGCCACGAGTCCGCGCAGTCGAAACCCTGCGGCGTATCACGCGTGGGAACCCAGCGGCCCTGCCACACGTAGGACGTCACGTCAGCCCCGCGATCACAGCGTTGGCCTTGAGCTGCAGCTCGGCGTATTCCGCATCGGCGCGAGAATCCCACACGATCGCGCCCCCGGCGCCCACTGTGAGCCGCTCACCCTGTTTGACCGCGGTGCGGATGACGACGCTGAGCTCCGCGTTGCCGTCGAAACCGAAATAACCGATCGCGCCCGAGTACACCCCGCGCGGGCCGGGCTCGAGGGCGTCGATAAGCGCGCACGTGCGCTCCTTCGGTGCCCCCGTCATCGAACCCGGTGGGAAGGTCGCACGCACCAGGTCGATCAGCCCGCGGTCGGGACGCAACCGCCCGGTAATCGTGGAGACGAGCTGATGTACCGTGGCATACGTTTCCACGGTCATGAGCTGCGCAACGTCCACAGTGCCGGGGACGCACACGCGCGCGAGGTCGTTGCGCAGCAGGTCGACGATCATGAGGTTTTCCGCCCGCGTCTTGGCGTCTTCCTGCAGTTCTTGGGCTCGGCGCTCGCGCGGCAGAGTGCCTTTGATCGGTTTCGTTTCCACCCGGTCGCCGCGCACGCGGAGGAAGCGCTCGGGCGAGCTGGAGAGCACCTCGATACCGCCGAGGCGCAGGTACGCCCCGAAGGGCGCGGGGTTGGTTGTGCGCAGCCGCGAATACAGGTCGATTCCTTGACCCTCAACGCGGGCCTCGTAGGTGTCGGTGAGGCACACCTCGTAGGAGTCGCCGCGCTCCAGCGCCCGCTTTACCTCACCGAAGCGCGCTTCGTACTCGCCGCCCGCGAGCCGCCACGAGCCTTCGCTTATCGACGCCCGCCCGCGGTGCGCGGACCGGGTTGTCACCGCGTTGCGCAGAGCGGCCATCAGGTGTTCAACCTCAGCCGTCTTCTCGTCTCCCCGGGCACAGACCATGAGGTGAGCGCGTTCTTGGACATGGTCGTAGACGATGAAAGACTGTGGCCGGATAAAGTACGCGTCCGGGTGCGCTCTGGCGTGGCTCGGGGAAAGCCCCGGCAGGGTCAGCGCGGCGCATTCATAGCCGATGAAGCCGACCCAGCCGCCGCGAAACGGCAGGTCGGGGAGCGTATTAGCAGCCACGCCGGCTGA	MRTPESGQLFPAPVALGGCRGGIFPRTPRCGGTDRRRRREARARFPTSRPEAGQPLRRSASGAARARGRGHIRGATSPRSRNPAAYHAWEPSGPATRRTSRQPRDHSVGLELQLGVFRIGARIPHDRAPGAHCEPLTLFDRGADDDAELRVAVETEITDRARVHPARAGLEGVDKRARALLRCPRHRTRWEGRTHQVDQPAVGTQPPGNRGDELMYRGIRFHGHELRNVHSAGDAHAREVVAQQVDDHEVFRPRLGVFLQFLGSALARQSAFDRFRFHPVAAHAEEALGRAGEHLDTAEAQVRPEGRGVGCAQPRIQVDSLTLNAGLVGVGEAHLVGVAALQRPLYLTEARFVLAAREPPRAFAYRRPPAVRGPGCHRVAQSGHQVFNLSRLLVSPGTDHEVSAFLDMVVDDERLWPDKVRVRVRSGVARGKPRQGQRGAFIADEADPAAAKRQVGERISSHAG				NA	NA	NA	NA	NA
AK009_08787	618			hypothetical protein	GTGGTGCACTCTCCACGCGCCGAGGGCGAGGAAGTTGCGGAGCAGTTCCGCGCCGTACTCGGTCAGCACCGACTCGGGGTGGAACTGCACACCCCAGTGAGGCTGGCCTGCCACCTCGAGGCCCTGGACCACACCGTCCTCGCTGCGGGCGTGGACAACCACCCCGTCCGGGACGTTGTCGATGTGCAGCGAGTGGTAGCGCACGGCCGTGAAACTTTGCGGCAGCCCGGCGAAGATGCCCTCGCCGGAGTGGGTGATCGTGCTGGTGTATCCGTGCCTGGGGTCGGTGCGCCCGACCTCGGCCCCGGCGAGGTGGGCGAGGCCCTGATGACCCAGGCAGACCCCGAGGACGGGAATCCCGCCCGCCGCCTCGATCACGGCGCGCGAGCCCGCGAAGTCGGCTTCGCACGATGGGGTCCCCGGACCGGGGGAGATGACGATGTGGGAGAACTCACCCGCCTTTATGCGGCGGGGGAGGTCGAGGGCCGTGACATCGTCCGCGCGCACGACCACCGGCTCGCTCCCGGAGACTTTGGCGATGAGGTGGGCGAGGTTGAAGGTGTAGGAGTCGCGGTTGTCGATAAGCAGGATCAAATGCGGGCACGCGCCTTTCATTGA	MVHSPRAEGEEVAEQFRAVLGQHRLGVELHTPVRLACHLEALDHTVLAAGVDNHPVRDVVDVQRVVAHGRETLRQPGEDALAGVGDRAGVSVPGVGAPDLGPGEVGEALMTQADPEDGNPARRLDHGARAREVGFARWGPRTGGDDDVGELTRLYAAGEVEGRDIVRAHDHRLAPGDFGDEVGEVEGVGVAVVDKQDQMRARAFH				NA	NA	NA	NA	NA
AK009_08788	303	ureA	COG0831	Urease subunit gamma	ATGTACTTGGTGCCACGGGACAAGGAGAAGCTGCTGATTGTTGTCGCGGCAGATCTGGCCAGGCGTCGACAAGCGCGCGGGCTGAGACTGAACTACCCGGAGGCGACGGCGATCATCACCTATGAGCTTCTCGAAGGCGCGCGTGACGGGCGCAGCGTCGCCGAGTTGATGAACTGGGGAACAACGATCCTCACCCGCGACGACGTCATGGAAGGGGTACCCGAAATGATTGAATCCGTGCAGGTGGAGGCGACCTTCCCCGACGGAACGAAACTGGTCACCGTCCACAACCCGATCCGCTAA	MYLVPRDKEKLLIVVAADLARRRQARGLRLNYPEATAIITYELLEGARDGRSVAELMNWGTTILTRDDVMEGVPEMIESVQVEATFPDGTKLVTVHNPIR	PGPT0000955_1397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
AK009_08789	411	ureB		Urease subunit beta	ATGCGCCCAGGAGAATACGTCCTCGCCAGCGAGCCCATTGAGTGCAACGCTGGCCGGGAGGCGATCGAACTAGAAGTCACCAACACCGGAGATCGTCCCGTGCAAGTCGGGTCCCATTACCACTTCGCCGAAATCAATCCATGCGTGGTTTTCGACCGGGATCGCGCGCTCGGACGCCGGCTCGACATTCCGGCGGGCACCGCCGTGCGCCTCGAGCCGGGCGACTCCAGGACGGTTCGGCTCATTGCCCTCGGCGGCAAGCGCAAGGTCTACGGCTTCCACAACCTGGTCAACGGGCCGCTTGACGTGCGCAAGCCCGCGCGCGTGCACGTGATGGGGGAAGCCGGATACGGTTTTGCCGAGTACGGGGCCGACCTCTCGGATCCGAAGATCGTCGATAAGGAGGCTTAG	MRPGEYVLASEPIECNAGREAIELEVTNTGDRPVQVGSHYHFAEINPCVVFDRDRALGRRLDIPAGTAVRLEPGDSRTVRLIALGGKRKVYGFHNLVNGPLDVRKPARVHVMGEAGYGFAEYGADLSDPKIVDKEA	PGPT0000960_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
AK009_08790	348			hypothetical protein	GTGGATGTGGGTGTCGATTCCGCCCGCGGTGAGGATTTTGCCCTCGCCGGAGATGATGTCGGTGGCCACGCCGATGGTGATGTCGACACCGTCCATCACGTCCATGTTGCCGGCCTTGCCGATTTGCGAGATGTAGCCGTCACGCACCGCCACGTCGGCCTTGTACACGCCGGTGTAGTCGATGACCAGCACGTTAGTGATTACCAGGTCGGGCACGTTGTCACCGCGCACGTGGCGGGAGTTTTGCCCCATTCCGTCGCGGATGACCTTACCGCCGCCGAAGGTGGCCTCCTCGCCGTACGTGGTGTAGTCGTGCTCGACGGTGGCGAACAGGTCGGTATCCGCTAA	MDVGVDSARGEDFALAGDDVGGHADGDVDTVHHVHVAGLADLRDVAVTHRHVGLVHAGVVDDQHVSDYQVGHVVTAHVAGVLPHSVADDLTAAEGGLLAVRGVVVLDGGEQVGIR				NA	NA	NA	NA	NA
AK009_08792	111			hypothetical protein	GTGCCCTTTGCCGAGGATGCCGAAGTTCATCGGGTAGTGCTCGAAGGAGCGCAGCATGTTGAAGATGTTCCACTCGCCCGGGGTGATCGTCGTCGCACGAGTCGATTCTGA	MPFAEDAEVHRVVLEGAQHVEDVPLARGDRRRTSRF				NA	NA	NA	NA	NA
AK009_08793	363			hypothetical protein	GTGGCACACCATGAGCATGTCGAGGTGCTCGTCGACGGTGTTGACGGTGTACGGAAGCGTCGGGTTGGTCGATGCCGGCAAGATGTTGGATTCCCCGGCGAGTGTGATGATGTCCGGCGCATGCCCACCGCCGGCGCCCTCGGTGTGGAAGGTGTGGATGACACGGTCCCCGATGGCGTTGCGGGTGTTTTCCACGAAGCCAGCCTCGTTGAGGGTATCGGTGTGCAAGGCGACCTGGATGTCGAACTCGTCGGCGACCTTGAGCGCGGTATCGATCGACCCCGGTGTCGCACCCCAGTCCTCATGAACTTTCAGGCCCGCAGCACCTGCGCGCACCTGCTCTGCGAGCGGGGCGACGGATGA	MAHHEHVEVLVDGVDGVRKRRVGRCRQDVGFPGECDDVRRMPTAGALGVEGVDDTVPDGVAGVFHEASLVEGIGVQGDLDVELVGDLERGIDRPRCRTPVLMNFQARSTCAHLLCERGDG				NA	NA	NA	NA	NA
AK009_08794	546			hypothetical protein	GTGGACGGGGCGCACCTTTTTGCGCAGCTGCAGGATCTCCGGTACGCCGCGCTCGATGGCGGCCTGGGACATGAACGTGATCGACGAGCGGTAAAGCGCAAGCCCGTGGGCGCCGAAGGATTCGCGGTACATGTTCGGCTGGGGCGTCGGGATCGAGGCGTTGGGGTCGCCGAGTGCGGTGTAGACGACCTGGCCGCCCTTGATCACGGACTCGGGGCGTACGCCGAACATCTGCGGCTCCCACAGCACGAGGTCGGCGAATTTGCCCACCTCGACCGAACCGACCCAGTCATCGATGCCTTGCGCGATGGCCGGGTTAATCGTGTACTTGGCAATGTAGCGGCGGATGCGGAAGTTGTCGCCGTAGATTCCCTCGTCCTCGGCGAGCTTGCCGCGCTGCTTCTTCATCGAATCAGCGACCTGCCAGGTGCGGATGATGACCTCACCGACGCGCCCCATCGCCTGGGAGTCGGAGGAGGTAATCGAGAAAATCCCCATGTCGTGCAGCACGTCCTCCGCAGCGATCGTCTCGGGGCGGATGCGTGA	MDGAHLFAQLQDLRYAALDGGLGHERDRRAVKRKPVGAEGFAVHVRLGRRDRGVGVAECGVDDLAALDHGLGAYAEHLRLPQHEVGEFAHLDRTDPVIDALRDGRVNRVLGNVAADAEVVAVDSLVLGELAALLLHRISDLPGADDDLTDAPHRLGVGGGNRENPHVVQHVLRSDRLGADA				NA	NA	NA	NA	NA
AK009_08795	504			hypothetical protein	GTGGGTGTGCTCCGCGTGGCGGAAGGGCACTTCCATGACGCGCTCGCGGCGCTCGAACGCGACGCCGTGGTGGGCGAGGAAGTCCTCCACGGTGTGGTCGTAGAGCACCACCATGACCTCGGCGCCGAAATCGCTCTCAGCGCCGAAGAACTGGGCTTGCAGGTGGCGGTTTCCCAGCGAGTGCGCGACAAACCCCATCTGGCGGATGGAGTCGGGGCGGATGACGAGGACGTCGCTCGGAAGCGTCGCCACCACCACCGCGTTGAGCCCGCCCTCGTTTTCCTCGAGAAGCAACACGTCGCCGTCTTTCAGGTCGGGCGCGCCCGGCACCAGCCGGATGCCGAGCTCGCGCCCGTGGTCCGTACTCACCCGCTGGATGCGCTTGACCAGGTCCTCGCTCGGCAGCGAGACCTTTTCCACGTGCGCCCCCTCGAGGCGACGCGCCATCTCGGGGTCGTCGATGGTGCCTGCAATCTCGGTGATGATCATGAGACTTCCTCCTAG	MGVLRVAEGHFHDALAALERDAVVGEEVLHGVVVEHHHDLGAEIALSAEELGLQVAVSQRVRDKPHLADGVGADDEDVARKRRHHHRVEPALVFLEKQHVAVFQVGRARHQPDAELAPVVRTHPLDALDQVLARQRDLFHVRPLEATRHLGVVDGACNLGDDHETSS				NA	NA	NA	NA	NA
AK009_08796	606			hypothetical protein	GTGGTTCATCTGCGCGATCTCCAAGCCCGGCGCGATCGCACCGAGGTCTTCTTCGCGCAAGCTTTGCGACGCCTCCACCGCGCCCACCACCCACGGCTGCGCCTGCCGGATGAGGCGCTGCCCGGCGTTTTGCCCGAGCGGGATGGCCCGCACGGCGTTTTGCACCAGCGAGATGACGCAGGCGTAGACGTGCTGGGCCACCGCGGTATCGGAGTCGATGCCCGCATCCCGCGCCACGAGCGCCCACACGATCGCCGGGTGGCCGAACGCGCGGCCCGCCTTGAGAGCCTCGGCGTAGGCGGAAAGGGCATCGCTGGGGTAGTTCGCCGCCGAGATGGTGAGCATGCGCTTGCCCATCGTCATCCCGGCCTCGCGCACCTGGGCGGGCAGGGCCTGGGCGGTGACCAGCTGATCAAGGCGCTCGACCTCGTGCGCTTCCCGCGCGGCGATCACCACACGGACCGCCAGCGCGTCGGTAAACGTCAGCTGCTGGCCGATAAAGGACTCCAGCCAGCGCGCAAAGCCCTCGGCGCTATCGATCGCTCCGGTTTCGAGGTAGCTCTCGAAACCGAAAGAGTGCGCGAACGCCCCGGTCGGCAGCGCTGA	MVHLRDLQARRDRTEVFFAQALRRLHRAHHPRLRLPDEALPGVLPERDGPHGVLHQRDDAGVDVLGHRGIGVDARIPRHERPHDRRVAERAARLESLGVGGKGIAGVVRRRDGEHALAHRHPGLAHLGGQGLGGDQLIKALDLVRFPRGDHHTDRQRVGKRQLLADKGLQPARKALGAIDRSGFEVALETERVRERPGRQR				NA	NA	NA	NA	NA
AK009_08797	600			hypothetical protein	GTGACGCAGCCAGTCCAGCACCCGGTCGAGGCCCTCGTCGGTCTTCAAGTTGGTAAACGCGAACGGCTTGTCTTTGCGGAACACCTGCGAGTCGCGCTCCATCACCGCCAGGTCGGCGCCGACGTAGGGCGCGAGGTCGGTCTTGTTGATGATGAACAGGTCGGACTTGATCATCCCCTGGCCCGCCTTGCGCGGGATCTTCTCGCCCTGGGCGACGTCGATGATGTAGATGGAAAAGTCCACCAGCTCCGGCGAGAACGTCGCCGAGAGGTTGTCTCCGCCGGATTCGACGAAGATGACGTCAAGGTCCGGGAAGCGGGACTTCAACTCCTCGATGGCCGCCTCGTTCATGGAGGTGTCCTCGCGGATCGCGGTGTGGGGGCAGCCGCCTGTCTCCAGGCCGACGATGTGGGCGTCGTCAAGCACGGAGTTGCGCGCCAGGATGTGCGCATCCTCGATGGTGTAAATGTCGTTGGTGATCGCCGCCATGTGCAACTCACCCTCGACCGCGCGCGAAATGCGCTCGAGCAGCTGCGTCTTTCCCGCCCCGACGGGGCCGCCGACGCCGATAATGACCGGATCCATGTGATTTCTCCTTAA	MTQPVQHPVEALVGLQVGKRERLVFAEHLRVALHHRQVGADVGREVGLVDDEQVGLDHPLARLARDLLALGDVDDVDGKVHQLRRERRREVVSAGFDEDDVKVREAGLQLLDGRLVHGGVLADRGVGAAACLQADDVGVVKHGVARQDVRILDGVNVVGDRRHVQLTLDRARNALEQLRLSRPDGAADADNDRIHVISP				NA	NA	NA	NA	NA
AK009_08798	291			hypothetical protein	TTGCGGGGTGCGGTAGACTTTCGTGGCCGACTGGGTGGTCACCAAAAGCGAGGCGGCGTCTTCGACGTCGAAGTCCAACGAGTAGGAATCCGCGCCGAAGTACGCCCCGCCAGGGTTGATCACCGTGTAGGTGACCTGGCCGGAGTCGTCGAGGTAGTGCGGGCGGATCACCCGCAGCGCGCCGGAGAACTCCTGCTGCGCCGCAAAGCTCCTGCCGGACGCGTCGCGGGCGACGCGCAAGCGCAGGCGGCCTCCCCTCACTGGTTGAGGTCCAGCATGAGGGCGTCGTGA	MRGAVDFRGRLGGHQKRGGVFDVEVQRVGIRAEVRPARVDHRVGDLAGVVEVVRADHPQRAGELLLRRKAPAGRVAGDAQAQAASPHWLRSSMRAS				NA	NA	NA	NA	NA
AK009_08799	669			hypothetical protein	TTGCCGGTCCTGCCCCATCGCCCACGCGCCAACCTCCTGCGCGGCGGCGCCGAGCAGCATGAAAAGGGCCGCCACCGGGTTGTACGCCGCCACCCCGGCGGTGACGAGCAGGCCCGTACGCCAGTCGGCGATAAAGAAAATCTGGGATACACCCCGCATCACCGGCGCGACGGCGCCCGCCGGGGTGCGCATATTCAGCGCGCTCATGGTGCGATTGCCTCCTTGCACTTGGGAAAACGTCTCATACTTGCACTAATATTTGCGCAGCCGCAGCGGCCCGCGGCCGTCCGCCTCGCGGCACATCTCGACCACCGCGGCGTTAAGCGCGGCGATGTCGGCGGTATTCGATGCGAGCGAACGGATCGAAAAAGCAGCGGGCGCTCCCGGCCACGGCGCGCCGATGCGGCTGATCGCGCAGTGCAAGTTCGGCGAGCGCGCGGTGTCGACGGCGTCGGCGAGGGCGTCGGTACGCGAGGCGAGATGCGGGCCGGCGACGATGAGCTGCCCGCTGTGGCTGTATCCCTCCATCACTCCCATACCGAGGTCGCCGGCCGCCGGGATGAGCCGCAGGTTGTCCACCGCGAACGGCCTCTCCCCGCCAGGTGCCGCGAGCCGCAGCTCGGTGCGCATGCGCAGCTCGTCGAAGGAAAACGCCGTTCCTTCCGGTGA	MPVLPHRPRANLLRGGAEQHEKGRHRVVRRHPGGDEQARTPVGDKENLGYTPHHRRDGARRGAHIQRAHGAIASLHLGKRLILALIFAQPQRPAAVRLAAHLDHRGVKRGDVGGIRCERTDRKSSGRSRPRRADAADRAVQVRRARGVDGVGEGVGTRGEMRAGDDELPAVAVSLHHSHTEVAGRRDEPQVVHRERPLPARCREPQLGAHAQLVEGKRRSFR				NA	NA	NA	NA	NA
AK009_08800	606			hypothetical protein	GTGAACGTTGGCAGGGAATCGCTACGTAGCGGCGGTCAGCGCCACGCTCACCAGCACCCCGGCCGCGGCCCAACCGACGCGCGACTTCAGCGACGATGCGACCGGGACAACCGCCCCCAGCGCCATGGCTGTGAGCACACCGGAGTACGTCATCAGCCCAGTCGATGCGGGCTCGATACCGACAACCACGTCGGCCGCGGCGGTGGCAATGACCGCCCCGAGCAGACCGAACCCCGCCGCCGCGGGCGCCCCCAGGGCCACACCGGCGAGGATGAGTGCGCCGGTAAGGGGGCCGTCGGCAAGCACGACCTCCGCGAAGCCATTGAGCACTCCCAGGCCGAACCCCTCGATCACACCACCGTCCGAGGTCGGGCCCGCCCCCGCGGACTGAGTCGGGATGAGCAGGAAAATCGCGGAAGCAAGCAGACAAAACGGCGCCGTGGACACAGGCAGGCCGATGCGTGCCAAGGCGGGAGCGCTGAAGGCCCGCTCAACAAGCCCGAAGACAACGACGGTGGCGAAGCCGCCGCATACCGCGAGCAACACCCCCGACGCGATAGTCGGTGCCACAAGCCACGAGACAACACCGACGAGGGGCCCCGTTGA	MNVGRESLRSGGQRHAHQHPGRGPTDARLQRRCDRDNRPQRHGCEHTGVRHQPSRCGLDTDNHVGRGGGNDRPEQTEPRRRGRPQGHTGEDECAGKGAVGKHDLREAIEHSQAEPLDHTTVRGRARPRGLSRDEQENRGSKQTKRRRGHRQADACQGGSAEGPLNKPEDNDGGEAAAYREQHPRRDSRCHKPRDNTDEGPR				NA	NA	NA	NA	NA
AK009_08801	249			hypothetical protein	ATGCCGGCGCCGGGATGGTTCAGGCGCGCGCTAGGAGGCGTTGAACGAACATTTGCCGGTGAGTCCATTGTGGGTGCCGTTAGCGCCAACTCCGTGCCAGCAGGTAGAGGCGTCACGTTGCAAGACCTGGAAGCGGACGTTCCTGGCGGACACATGTTCAGGTGTGGTGGCGTCGCCAAACCTGGCCCACCCCCCGAGGCGGCAGCCACAGTCAACGTTCATGCGGTGATGGCTGCGGTGGCCGCTTAA	MPAPGWFRRALGGVERTFAGESIVGAVSANSVPAGRGVTLQDLEADVPGGHMFRCGGVAKPGPPPEAAATVNVHAVMAAVAA				NA	NA	NA	NA	NA
AK009_08802	246			hypothetical protein	ATGTGCGGCGAATTGCGAGTCCCTGCTGAGCAAGCCCGTCAGCCGCCCACGACGAACCTAAAAAACCCGCACCACCGAGCGAGCCGTACCGCAGGCCCCGAACGGAACATCACGCTGGTGAGCCTTCTAGCTTCCCGCGTGCCCGGCGCCGAAGAAGTGCAGCAGCTCGTGGACGCGGTCGTCGTGCATCCCGTAGCAAACCGATCGGCCCTCGCGCCGAGCGGTGACCGTGCCCGCGGCCTGTAG	MCGELRVPAEQARQPPTTNLKNPHHRASRTAGPERNITLVSLLASRVPGAEEVQQLVDAVVVHPVANRSALAPSGDRARGL				NA	NA	NA	NA	NA
AK009_08803	309			hypothetical protein	ATGTCTGATCTCGAACACACCATCGCCATCGCCGACGAGTGGGCACCGACGTTTCGCCTGCTTGGCGACGCCACACGCCTCAAACTCCTCTGCGCGATCCACTTCTCCGGGCAGCACGCGCTGACCGTCGGCGAGCTCGCCGAGGCCACTGGGATCAGACTGGCGACCGCATCGGCTGCGCTGCGGGCCCTACAGGCCGCGGGCACGGTCACCGCTCGGCGCGAGGGCCGATCGGTTTGCTACGGGATGCACGACGACCGCGTCCACGAGCTGCTGCACTTCTTCGGCGCCGGGCACGCGGGAAGCTAG	MSDLEHTIAIADEWAPTFRLLGDATRLKLLCAIHFSGQHALTVGELAEATGIRLATASAALRALQAAGTVTARREGRSVCYGMHDDRVHELLHFFGAGHAGS	PGPT0004290_1642	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903	NA	NA
AK009_08804	1098			hypothetical protein	GTGCCTCGATCACTGTTTCTCCCCCGATCGTGCCACCAGAACGACCAGAAGCGGGGCGCCCACCAGCGCGGTGAGCACGCCAATCGGGATTTCCTGGGGTGCCAAGAGCGTGCGCGAGGCCACGTCGGCGGCCACGGTAAGGCCCGCACCGAGCGCGGCCGCGACGGGGAGGACGTGACGGTGCAGACCGCCGACGAGGCGGCGGGCGATGTGGGGGACAACGAGGCCAACGAAACCGATCGAGCCGGCCACCGACACCACGGCACCGACCACGAGGCAGCACACCACGACGAAGATAAGCCGGGTGCGATCCGGGTGCACCCCGAGTGTTCGGGCGGCGTCGTCGCCGAGCGTGAGGGCGTCGATACGCGTGCCCAGAACCCAAAAAGCCAGGCAGCAGGCACAAACCACCGCGATGGTGGCCCAGAGGACCGGACCGAAGGCGGCCATGGACAGCGAGCCCAGCAGCCAAAACATCACCGAACGCGCGCCCTGCGCATTATCGGAAGCGAAGACGAGCAGGGAGGTCACGGCCGTGAGCGCGTAACCGACAGCCACCCCGCCCATGAGCAAGCGCGCCGACGACAACCCGCCCCCGCCCCGCGCCAGAGCGAGCATGAGCACGGATGCGGCGGCGGCACCGAAAAAAGCCATCGCCTGCAGCGCGAGCGCGCCGAAGATCCCGGTGCCGACCCCGAAGAGGATCGCGGCCGCCGCGCCCGTCGACGCTCCGGCGTTGATCCCGAGGATGTAGGGATCAGCCAACACGTTGGCCACCAGCGCTTGAAGCACGACGCCGGCCACCGCCAACCCCGCACCCACCGTCGCCCCGAGCAGGACCCGCGGCAGGCGGATGTCCCAGACAACGCTGCTGTACGTGGCCAGTTCCTCGGGGATCGCAGCGCCCGCGAGGTGGCGGCCGATGACGTCGGCGGCGACTCCCGGGGGTACGACCGTGGGGCCGGCGGCCACGGCGATCACGCAGACGGCGACCGTTGCGGACAATACCGCGGCCGACCACCCCAGCGCGCGGGTGCGCGCGCGATGCAGCCCCAGCGTGTCGCCCATGGGCACCTCCCTAATCGGTCATTCAATTGA	MPRSLFLPRSCHQNDQKRGAHQRGEHANRDFLGCQERARGHVGGHGKARTERGRDGEDVTVQTADEAAGDVGDNEANETDRAGHRHHGTDHEAAHHDEDKPGAIRVHPECSGGVVAEREGVDTRAQNPKSQAAGTNHRDGGPEDRTEGGHGQRAQQPKHHRTRALRIIGSEDEQGGHGRERVTDSHPAHEQARRRQPAPAPRQSEHEHGCGGGTEKSHRLQRERAEDPGADPEEDRGRRARRRSGVDPEDVGISQHVGHQRLKHDAGHRQPRTHRRPEQDPRQADVPDNAAVRGQFLGDRSAREVAADDVGGDSRGYDRGAGGHGDHADGDRCGQYRGRPPQRAGARAMQPQRVAHGHLPNRSFN				NA	NA	NA	NA	NA
AK009_08805	435			hypothetical protein	TTGTTCCTCTCGTGTGAATGTCACATGGTTGCCCGCGCGGTGGACGCGGACGTTGTAGATCGGCTCGAGCACCTCGGGGACGAGCACCTCGCGTGGGGCTCCCGCGGCGGCGACGCGACCGTCAGCCAGGACGTAGACCTCATCGCAGTAGTCGAGGGCGTGGTTGAGGTCGTGGAGCACCACCACGGCGCCGCCGTCGAACTCGCGCAGAATGTGGAAGAGGTCGAGCTGGTGGTGGATGTCGAGGTGGTTGCCGGGTTCGTCGAGAAGCAGGTAGCGCGGGCGCTGCGCGAGCGCGCGGGCGATCATCGCGCGTTGCCGCTCCCCGCCGGAGAGCTGGTCCAGCGGCCGGTGCGCCAGCCCCAGCAAGCCCACCTTCTCCAATGCGGTGGCGACCTCTTCTACCCCGCGACCGCGCCGGTCCCGGTGCGGTAG	MFLSCECHMVARAVDADVVDRLEHLGDEHLAWGSRGGDATVSQDVDLIAVVEGVVEVVEHHHGAAVELAQNVEEVELVVDVEVVAGFVEKQVARALRERAGDHRALPLPAGELVQRPVRQPQQAHLLQCGGDLFYPATAPVPVR				NA	NA	NA	NA	NA
AK009_08806	945			hypothetical protein	GTGAAACCCACCTTTGCCCTAACCGGGATGACGCTTGCGGCCGCAACGCTGCTGTGCTCCTGCGCGCCGGCCCCGCACTCCGAGGCCGCCTACACCGTGGGCAACTGCGGGCGCGAGGTGGCGTTTACCCACGCCCCCGAGCGCGTCGTGCTGCAGGACTCCACAGCGGTGGCCACGCTGGATGGCCTCGGGGTGCTTGACAAGGTCGTGGCCAAGGCGGGCTTCTTCCCGCCCGAGTACTTCACCGATGCCGTCAACGCCCAGCTCGACGCCATTGCGTCGCTGTCAGACCGCCTCAACAGCACCGGGCACATCCAGATCACCAAAGAGGCCGTCATGGCCGAAAACCCCGACCTCATCATCGGCTACAGCGACACCGTCAACCCGCAGACCGCCGGGGAAGTCCCGATTCTCTCCGAGCCGGGGTTTTGCGGTGAGATCACCTCCGCGAGCTGGGCGGATGTCGACGCCCACATCGACCTCTACGCCCGCGCGATGGGCGTGCCGGAACGCGCCGGGGCGGTGAAGGAGGGCGTCGATACGCGCGTAGCCCAGCTCGATGCCTCCGTGGGCTCGGGCAGAAGCGTCGCGTTCGTCTACCCCGGAGTCGAGGGCGGGACGACCTACGGCTACGGCGCGGCTTCGATGGCGGCGCCGGTGTCCGAGTCGCTGGGCCTGCGCAACGTCTTCGCGGATGTCAGCGAGCGCGTCTTCGAGATCAGCGCCGAGCAGCTCGTTGCGGCGAACCCCGACGTCATCGTCGTGCTCAACTCAGGCGAGGACAACGCCGCAGGCGCCGTGACCTCCCTGCCCGGGGCGGACTCGATCGCGGCGGTGCGCTCGGGAGAGGTTATTCCGATGTACCTGTCATTTGTCGAACCGGCCTCACCGCTGAGCGTGGCAGGAGCCGAGGAGTTGCAGCGGGTGCTCGAGCTAAAGAGCTAG	MKPTFALTGMTLAAATLLCSCAPAPHSEAAYTVGNCGREVAFTHAPERVVLQDSTAVATLDGLGVLDKVVAKAGFFPPEYFTDAVNAQLDAIASLSDRLNSTGHIQITKEAVMAENPDLIIGYSDTVNPQTAGEVPILSEPGFCGEITSASWADVDAHIDLYARAMGVPERAGAVKEGVDTRVAQLDASVGSGRSVAFVYPGVEGGTTYGYGAASMAAPVSESLGLRNVFADVSERVFEISAEQLVAANPDVIVVLNSGEDNAAGAVTSLPGADSIAAVRSGEVIPMYLSFVEPASPLSVAGAEELQRVLELKS	PGPT0003765_9774	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
AK009_08807	453	guaD	COG0590	Guanine deaminase	ATGGATCACCTCGCGCGCGCGGTCGAGATTGCCGTGGAGTCGGCGCGAACGGGCGGTGGCCCGTTCGGGTGCGTGGTGGTTACGGAACGCGGCGTCTACGAGGGGCACAACGAGGTAGTTTCGCGCTGTGACCCCTCGGCGCACGCCGAGGTTCAGGCGATCCGCGCCGCCGCGCGGGCGCAACGCACCCACCAGTTATCGGGGGCCGTGCTGTACGCCTCGGGCCAGCCGTGCCCGATGTGTTTCGCGGCGATTCGCTGGGCCCGCATCGATGAGGTCTACTACGCCGCGACATACGCTCAGGCCGCCGACGCGGGTTTCGACGATTCCTTCATCTCCGACGTCATGGTCGGGCGTGTCCCGGATCCCTCACCCTTCCGCCACGTGCCGCTGGATCAGTCCAACGCGCCCTTCGAGGCGTGGGCGGCCAACTCCGATCGGGTGGAGTACTAG	MDHLARAVEIAVESARTGGGPFGCVVVTERGVYEGHNEVVSRCDPSAHAEVQAIRAAARAQRTHQLSGAVLYASGQPCPMCFAAIRWARIDEVYYAATYAQAADAGFDDSFISDVMVGRVPDPSPFRHVPLDQSNAPFEAWAANSDRVEY	PGPT0021515_2846	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
AK009_08808	2190			hypothetical protein	GTGGTCCGGATCGGCGTAAAACTCCTCGCTCATGCGGTCGCGGGTGGCGCGGTAGTCGGCGAAGTCCCCCAGCACGTAATACACGTCGGGCTCGGCGCCCTGGCCGTCGAGAAGCGAGCCGCGGATGTCGTGGAAGACGCCGGTGGAGGCGTCGTCAAGCGTGCCATCGACGAGCGCGTCGAGCACGCGCTTGAGACCCGGGACGGACTCGTAGAGGGCGTGCGGGTTGTAGCCGCGCTTGAGCTCGGGCAGCTCCTCCTCGCGCGCACCGAAGACGTAGGCGTTGTCTTCGCCGACCGCTTCGACGATCTCGACGTTCGCGCCGTCCATCGTGCCCAGGGTCAGCGCACCGTTCATCATGAACTTCATGTTGGACGTGCCCGATGCCTCCTTGCCGGCGGTGGAGATCTGCTCGGAGATGTCGGTGGCCGGGATGATCTGCTCAGCGGGGGAGACGTTGTAGTTCTCCACGAACACCACCGTCAGGTACTTCGACACCTCGGGGTCGTTGTTGACCAGCTCTGCGATGGAGTTGATCAGCTTGATAATTCCCTTGGCGCGCGTGTAGCCGGGAGCGGCCTTCGCTCCGAAAATGAACGTGCGCTTCGGCACGTCACGTTCCCCGTCGTCCTTGATGCGGAAGTACAGATCGAGGATGTACAGGGCGTTCATCAGCTGGCGCTTGTACTCGTGCAGGCGCTTGATCTGGGTGTCAAAGATGGAGTCCGGGTCGATCTCGATGCCCTGGTGGTCGTAGATCCACGCGGCGAAGTCGCGCTTGTTCGCGTCCTTGATCTCGCGCAGCTCGCGCATCACCTCTGCATCGTCGGCGAAGTGGCGCAGCTCTTTGAGCTTGGGCAGGTCCGTGACCCAGGCATCCGATCCCAGCAGCCGGTCGAGCAGGGCGGAGAGTCGCGGGTTGCACATGCGCAGCCAGCGGCGCGGGGTCACGCCGTTGGTCTTGTTGTTGAAGCGCTCCGGGTACATCTCATACCAGTAGTTCAGCGTCTCGCGCTTGAGAATCTCGGTGTGCATCGCCGCCACGCCGTTGACGGAGTAGGAGCCGTAGCAGGCGATCCACGCCATGTGGACCTGCCCGTCGTGCACGGGCGAGAAGTGGTGCGCCGCCTCCGGGGCGATGCCGCGCGACTCCATGTCGATGCGGTAGCGGCGGTCGATCTCCACCACGATCTCCCAGATGCGCCAGAAGAGCTGCTTGAAAATCGCCACGTCCCAGCGCTCCAGCGCCTCCTCCAGCACTGTGTGGTTGGTGTAGGCGAAGGTCTTCGTGGTCACCTCCCACGCGTCCTCCCAACCCATGCCGTGGGAGTCCATGAGCAGGCGCATCAGCTCGGGGATGCCCAGCACCGGGTGGGTGTCGTTGAGCTGCACGGAGTTGTACTTGTGGAAGTCGCGAAGGTCCTCGCCGTGATGGACGATGTAGTTGTCAATCATCTCCTGCAGCGAGGCGGAGACGAAGAAGTACTGCTGGCGCACGCGCAGCACCTTGCCCGCGAAGGTGGTGTCGTTCGGGTAGAGCACACGCGTCAGATCGTGAACCGCCTCGCGCTCCAGGATGGCGTCGGAGAAGCGCTGCGAGTTGAACGCGTCGTAGTCGAACTCGTGCATCGGCTTGGCGTCCCACAGCCGCAGCGTGCCGACGTTCTTGGTGCCGTAGCCGGTGATCGGCATGTCGTAGGGCACCGCGCGCACGCTCATGTCGTCGAAGGTGACCACACGCTGCTGCGTGCCGCGGCGCACGATGAACGGGTAAAAGGATTCCTTCCAGGCGTCCGGGTGCTCCTTTTGGAAGCCGTTGACAAACTCCTGGCGGAAGAGGCCGTAGCGGTACAACAGGCCGTAACCGGTCAGCGGGTACTCCAGGGTTACGGCGGAGTCGAGGAAGCAGGCGGCGAGGCGGCCCAGGCCACCGTTGCCCAGCGCGGCGTCGTGCTCGGCGTCGAGCACGTCGGTGAGGTTGAAGCCGTGCTCGTTTGCTACCTGCTTGGCCTCGTCGACAAGCCCGAGGTTGGTGAGGTTGTTCAGCAGCGCGCGGCCCTGGAGGAACTCGGCGGAGAAGTACGCTTGACGACGCGTCGCCGCGTAGGCCTTGCGCGTCGCGTCCCAATCATCAGCGATTTGGTCGATAACGGCCGCGGACAAACCGGTCCAGTACTTCTTAACGGTTGA	MVRIGVKLLAHAVAGGAVVGEVPQHVIHVGLGALAVEKRAADVVEDAGGGVVKRAIDERVEHALETRDGLVEGVRVVAALELGQLLLARTEDVGVVFADRFDDLDVRAVHRAQGQRTVHHELHVGRARCLLAGGGDLLGDVGGRDDLLSGGDVVVLHEHHRQVLRHLGVVVDQLCDGVDQLDNSLGARVAGSGLRSENERALRHVTFPVVLDAEVQIEDVQGVHQLALVLVQALDLGVKDGVRVDLDALVVVDPRGEVALVRVLDLAQLAHHLCIVGEVAQLFELGQVRDPGIRSQQPVEQGGESRVAHAQPAARGHAVGLVVEALRVHLIPVVQRLALENLGVHRRHAVDGVGAVAGDPRHVDLPVVHGREVVRRLRGDAARLHVDAVAAVDLHHDLPDAPEELLENRHVPALQRLLQHCVVGVGEGLRGHLPRVLPTHAVGVHEQAHQLGDAQHRVGVVELHGVVLVEVAKVLAVMDDVVVNHLLQRGGDEEVLLAHAQHLAREGGVVRVEHTRQIVNRLALQDGVGEALRVERVVVELVHRLGVPQPQRADVLGAVAGDRHVVGHRAHAHVVEGDHTLLRAAAHDERVKGFLPGVRVLLLEAVDKLLAEEAVAVQQAVTGQRVLQGYGGVEEAGGEAAQATVAQRGVVLGVEHVGEVEAVLVCYLLGLVDKPEVGEVVQQRAALEELGGEVRLTTRRRVGLARRVPIISDLVDNGRGQTGPVLLNG				NA	NA	NA	NA	NA
AK009_08809	1410			hypothetical protein	GTGGCCGGGGATGGATTCGACGAATGTTGGCTGGGCAGATTCGGACATTGTCGCCACCTTCGGTGTCGTGTGCTGGTGCAGTCAGCTACCGAGCCTACCGGGATAACGTTATCCCGCCAGATAAGTCAGCACCGCGGCCGCGGCCGCGCGGGTCGCGGCGTTGATCGTCGGCTCGTACTCCGGCAGGAAGTTGGCCATGTGGTTGACCGGCACGTCCTCCGCCACCCTGTCGGCGGCAACAGCCACGTCCCACTGCTCGCGCGGGGTGCAGCCGATCAGCCAGAAGAAGTAGGGCACGCCGAACGCCATGGGAATGAACGGGAAGTCCTCCGACACCGTCTTACGCGGGGCGTTGACCGAGTCCTTGCCGAACACCGCGTCGAAAGTGGGGCGAACCTTGCGGTAAACGATGGCGTCGTTGGTCAAGAGCTCACCGTGGGCGAAGTACTCGATGGTGGGCTTTTCTGTCATGCCGGACGCGAGCACCTCGGCGTGGACGACGCGCTCGATGGAGGCGCACACTTTCTCCTTCGTCTTGTCGGAGTAGAAGCGGCAGTTCAGCGTCAGCTCCGCGCTGGCCGGGATGATGTTGGTCACCGAGCCGGCGCGCATGGTGCCCACGGAGATCACAGCGAAGTCGTTCGGGTCCACTTCGCGGCCCACAATCGCCTGCATCCGGGTGATGATCATCGCCGCGGTGTACGTCGGGTCGATAGCGTTGTGCGGCATCGAGCCGTGCGCGCTGCGCCCGGGGATGACGATGCGGATCGAGTCGCAGGCCGCAAACTGGGGCCCTGCCTTGGACATCACCTGGCCGGCGCGGCCCGGCATGACGTGCTGGCCGAAGCACACTGCGGGGCGCGGCACGCGGCTGGTCAGGTCGTCATCGACCATAGACATCGCGCCTTCCGAGGTTTCTTCCCCGGGCTGGAACAGCGCCACGAACGTGCCCGACCAGCTGTCACGAGTGTGGTCGAGGAAATCGCACAGGCTCAACAGCGCGGTGGTGTGGATGTCGTGGCCGCAGGCGTGCATGGTGCCCACGGTTTTCCCGTCGCGCCCGGTCATCATCTTGTGGGAGGCGTAGGATACGTTGGTGTCCTCGGTGACGGGCAGGCCATCGAAGTCGGCGCGGAAGAGCACCGTCGGCCCCTCGCCGTTGCGGAACACCGCCACCACCCCGTAGGGGCCGATGGGGCTAATGACCTCGCAGTCAAAGCGTTTGAGCTCGTGGAGGATCCGGCGGTGCGTCTCCTCCTCCTGCATGGACAGCTCGGGGTTGGCGTGCAGCAGCTCGTAGAGCCGGCGCTGCCACACGGGGTCTACTTCGTAGCTGTCCAGTATGGCGCTGATGTCGTTCACTGTGTTCCTTCTCACTTCCTCCGCTTGTGTACCCGCCACCCTAGCTAG	MAGDGFDECWLGRFGHCRHLRCRVLVQSATEPTGITLSRQISQHRGRGRAGRGVDRRLVLRQEVGHVVDRHVLRHPVGGNSHVPLLARGAADQPEEVGHAERHGNEREVLRHRLTRGVDRVLAEHRVESGANLAVNDGVVGQELTVGEVLDGGLFCHAGREHLGVDDALDGGAHFLLRLVGVEAAVQRQLRAGRDDVGHRAGAHGAHGDHSEVVRVHFAAHNRLHPGDDHRRGVRRVDSVVRHRAVRAAPGDDDADRVAGRKLGPCLGHHLAGAARHDVLAEAHCGARHAAGQVVIDHRHRAFRGFFPGLEQRHERARPAVTSVVEEIAQAQQRGGVDVVAAGVHGAHGFPVAPGHHLVGGVGYVGVLGDGQAIEVGAEEHRRPLAVAEHRHHPVGADGANDLAVKAFELVEDPAVRLLLLHGQLGVGVQQLVEPALPHGVYFVAVQYGADVVHCVPSHFLRLCTRHPS				NA	NA	NA	NA	NA
AK009_08810	1302			hypothetical protein	GTGGCACTCGGTGGCGATCCTGATGTCGGCAGCAATCGCGCCCGCTTTTCGACGCCCATACAAACGCGTCACCATCCGATCCCGAATGTCGGTCGGCGACAGCGTGTTGACGTAAATTTTTGTCCCGCCCTCGAAACCGGCGAGGGTGGACACGCGCCACTTCAGGTTCACGCGCAGCGGCATGGGCACGTCCACGTCGACAGGCTTGTGGTGCCACTCCTCGTTGCACGCGACGTCGGGCCCCGTCGCCGCGTGCGCGGCGTGCAACAGGTCGGAAAAACCGCGGACTTCCGTATCGCTCATGTCCCACGGGTGCGTCGCGGCGGACTTGGAGTAGATGCTCATGGTGGGGTAGCGGTGCCCGATGCCTGCGATCAGGATTGCCTCGTCGTTTTCCGCGATGACGAGGTTGTTGTAAAACGCGTAGTTTACTCCCCACTCGTTGTACATGTTGAGGTTCTGCCGCAGCTTGGCCAGCTCCATCTCGCCCTGCACGCCGCGCTCGTCGATAGCTACGAGCTGTTTGTGCAGGTGGTCGAAGGAAGCGCCCGCCGGGGCGAGCCAGTTTTGGAAGACCACCACGTAGGGCGCGTAGCGGTTGCGGTCGTAGAGCTCGTGCATGGAGGCAATGGTGAAGGAGATAAACGCGTAGTGCTCGTCCACCGACAGGGTGCCGGAGGAGGCGAGCTGGGAGGAATCGGTGGCGTCGTCGACGAAGTGGCGCCGCGCGATGATCACGTCGTGCCCACCGCCGAAGTAGGCCGGGGCGAGCGCGAGCAGTTCCTCCTCGCTGACGTCGGCGCTTTTGCCGCTGGCGCGCAGGCGGGTGCGCACGGTGTCGAAGACGTGCTCGCGCCCGGCGGGGTCGCCCAGGTAGCGCTCCATGTGTCGCTGCTGCTCGTCGGGCATGACGTAGCCGTAGTTCTTGTTCCAGTAGTTGTACGAGACGATCTCAAACAGGTTGGGTACGCGGCGGAACTCGGCGCGGATGGCGGCCAGCTCGTGGGGCAGGAGGTTTTTCAAGATGCGCCAGCCGGCGTCGTCGCGGACGATGCGCGCCTTCTCCGGCGGTGTGGACAGCGCGTGGGCCTCGCAGAAGTTGCAGCTGTGGGTGAAGTCGTGCGGCGTCAGCTCCGTCGGGTCCTTGGTAGCGGTGGACAATGGGCGGTTGCCGCGACCCGGCACCGTCCACACTTCGGTGCCCGAAAAGGGGTTGATCTGCTTGATCGTCCCGTCCGCCATGGTGGTAAGGGCATTGCGGTAGGGGTGCGCGGGGAAGGTCATGACGTTAAAGCGTATTAG	MALGGDPDVGSNRARFSTPIQTRHHPIPNVGRRQRVDVNFCPALETGEGGHAPLQVHAQRHGHVHVDRLVVPLLVARDVGPRRRVRGVQQVGKTADFRIAHVPRVRRGGLGVDAHGGVAVPDACDQDCLVVFRDDEVVVKRVVYSPLVVHVEVLPQLGQLHLALHAALVDSYELFVQVVEGSARRGEPVLEDHHVGRVAVAVVELVHGGNGEGDKRVVLVHRQGAGGGELGGIGGVVDEVAPRDDHVVPTAEVGRGEREQFLLADVGAFAAGAQAGAHGVEDVLAPGGVAQVALHVSLLLVGHDVAVVLVPVVVRDDLKQVGYAAELGADGGQLVGQEVFQDAPAGVVADDARLLRRCGQRVGLAEVAAVGEVVRRQLRRVLGSGGQWAVAATRHRPHFGARKGVDLLDRPVRHGGKGIAVGVRGEGHDVKAY				NA	NA	NA	NA	NA
AK009_08811	387			hypothetical protein	TTGCTCAAAGCGCTGCTCCTGCTCCAGGGCAGCCGGGTCGCGCGGCAGCTGCGCCTTGGGTGTGAGGATGCGCGAGAGCCCCATCGCGAGCTGGTTGTAGCTCGACGCGCCGGCAGCCGAAATGGAGAAACGGTGCGGCTGCGCCCCGGCCTCATCCGGGTCTTCACCGCGGTCGGCCTCGTAGACTCCCTTGAGCTGGGCGTGGGTGTGGGCGTCGAGAAGCGGGTGCGACTCGTGGCTGACCGAGGCCGAGTCGAGCACGCCGCGGGAGACCAGGATGTCGAGGGCGCGGGCGAAGGCGCCTTCAACCTCGCCGGCGGCGGCGTCGGGCACGAGAACGTCGAATTGGATGACGGGCATGACGCTAGGTTAGCTAATACGCTTTAA	MLKALLLLQGSRVARQLRLGCEDAREPHRELVVARRAGSRNGETVRLRPGLIRVFTAVGLVDSLELGVGVGVEKRVRLVADRGRVEHAAGDQDVEGAGEGAFNLAGGGVGHENVELDDGHDARLANTL				NA	NA	NA	NA	NA
AK009_08812	1131	glxK	COG1929	Glycerate 3-kinase	ATGACGCGTATCACGCAAGGATCCCCCACTGTCGTCATCGCGCCCGACGCGTTCAAGGGAACGGCGAGCGCTCAGCAGGCCGCGAGCTGGCTTGCCGACGGCATCATCAGCGTGATCCAAGACGCGAACATCATCGCCGTCCCCATGGCCGACGGCGGAGAAGGAACGTCAAGCCTGTTTGAGGGCGAGCGCATCACGCTGCCCACCACCGACGCGGCGGGCCGGCTCACCGAGGCGACCTACACCTTTGATGCCGAAACCGAAACCGCCTACATCGACGTCGCCGCGGCGACCGGGATGCCCGCGGTCAAGGACAACCCCGTCGCGATGACAGGCGACACGTACGGCACGGGCGTGCTCATCGCCGACGCCGAGACCCGCGGCGCGCGCCGCATCGTGCTCGGCCTCGGCGGATCGGCCACCGTCGACGGCGGCACCGGCATCCTCGTCGCGCTCGGGGTCAACCCGCTCAACGCCGCGGGCTACAACCTCCCGCCCGGCGGCGGCGCCCTAGTCGACCTCGCCGACTTCGACACGGCGAAGATGAACATCCCCGCCGCCTCCATGGAGTGGATCCTGCTTGCCGACGCCCTCGTCCCCGCCACCGGCGAGCGCGGCGCGGCGCGCATCTTCGGGCCACAAAAGGGCGCGAGCGAGGAGGACGTGGAAAAGCTCGACCGCGCGCTGGCCCAGTTGTGCGAAGTTACCGGCGTCGACGGCTCCCGCCCCGGCTACGGCGCTGCGGGCGGGATCGCAGTGGGCCTGAGCTGGGTGTCGAAGCTCCTGCACGGCACGGAGGAGCACGTGCGCGTGCTGCCGGGAGCCCAGGTCATGGCCCAGGCGAACGATCTCCCCGACAAAGTCGCGACGGCTTCGCTCGTTGTCACCGGCGAGGGGCGCTTCGACTCGCAAACCGCCGAGGGCAAGGTGGTGAAAACGGTCCTCGATCTCGTTTCCCACACGGACGCCGTGGCCGCGGTGGTGGCCGGCTCCTTCGAGGCCGAGGTCGACTCCGCCAACCCGGCCGTGACCGTCACGCTCGAGGAGCTGGACGACGTGCAGGAGCAACTCACCCGCGCCGGCACGGAGGTCGCTGCACGCTACCGCAGGATCTCCACGACCCAGGGGTAA	MTRITQGSPTVVIAPDAFKGTASAQQAASWLADGIISVIQDANIIAVPMADGGEGTSSLFEGERITLPTTDAAGRLTEATYTFDAETETAYIDVAAATGMPAVKDNPVAMTGDTYGTGVLIADAETRGARRIVLGLGGSATVDGGTGILVALGVNPLNAAGYNLPPGGGALVDLADFDTAKMNIPAASMEWILLADALVPATGERGAARIFGPQKGASEEDVEKLDRALAQLCEVTGVDGSRPGYGAAGGIAVGLSWVSKLLHGTEEHVRVLPGAQVMAQANDLPDKVATASLVVTGEGRFDSQTAEGKVVKTVLDLVSHTDAVAAVVAGSFEAEVDSANPAVTVTLEELDDVQEQLTRAGTEVAARYRRISTTQG	PGPT0018175_2400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK009_08813	1293			hypothetical protein	ATGAAGGCGGTCGTCCGTGTAATCGAAGGTCCAGGAATCGCGCGAGGCGTTCTGCTGCATCTCCAGCGCGGAGGTTGCCACGCCACCAGCGTTGGCGGCCTTGCCCGGCCCGAAGCTGACCCTGTTCTCCCGGAAGACCTCGACGGCCTCCGGGGTCGAGGGCATGTTCGCGCCCTCGGCGACGTAGCGCACGCCGTTGGCGACCAGGTTCTTCGCGTGCTCGCCGTTGAGCTCGTTCTGGGTCGCGCACGGCAGTGCGACGTCGGCGCTGAGGTCCCAGATGCTGCCGTCGGAGTGGAAGGTCGCGCCCTCGGCGTCGTCGACGTAGGTGCCAACGCGCTCGCGCCGGACCTCCTTGACGTCTTTAAGCAGCTCGATGTCCACGCCGTTCGGGGTCTCCACCCAGCCGGAGGAGTCGGAGAAGCCGATCACGGTCGCGCCGAGCTCCTGGGCCTTTTCGATGGCGTAGATCGCCACGTTGCCGGAGCCGGACACGATAACCTTGGCACCGTCGAGGGACTCGCCGCGGGCCTTCATCATCTCGTCGGTGAAGTAGACGCAGCCGTAGCCGGTGGCCTCGGTGCGCACGAGGGATCCGCCCCAGCTCAGGCCCTTGCCGGTGAGAACGCCGGACTCGTGCTGGTTGGCCAGGCGGCGGTACTGTCCGAACAGGTAGCCGATCTCGCGGCCGCCGACGCCGATGTCGCCGGCCGGGACGTCGCGGTACTCACCGATGTGGCGCCACAGCTCCGTCATGAAGGACTGGCAGAAGCGCATGATCTCGCGCTCGGACTTGCCCTTCGGGTCGAAGTCGGAGCCGCCCTTGCCGCCGCCGATGGGCAGGCCGGTCAGCGAGTTCTTGAAGATTTGCTCGAAGCCCAGGAACTTGATGATGCCCAGGTTCACCGATGGGTGGAAGCGCAGGCCGCCCTTGTAGGGGCCGAGCGCCGAGTTGAACTGCACACGGAAGCCGCGGTTGACGCGGACCTGGCCGTTGTCGTCGACCCACGGCACGCGGAAGATTATCTGGCGCTCGGGCTCGCACAGACGCTCAATCAGGCCGTAGTCGGCGTAGTAACTGTCCTTCTCCAGCACGATCTTGAGCGAGTCGAGCACCTCGGCGACCGCCTGGTGGAACTCCGGCTCGCCGGCGTTGCGCTTGAGAAGTTTATCGTAGTAGCTGGCCACTTCTTGATCGATATTGGTCATGCGAATCCCTTTCCGTGGATGATCTCCAGCGGCCCGCGTCGAGCAGGGCCCTGGTTCATCCTCGCGTTGAACAAATATACCTAG	MKAVVRVIEGPGIARGVLLHLQRGGCHATSVGGLARPEADPVLPEDLDGLRGRGHVRALGDVAHAVGDQVLRVLAVELVLGRARQCDVGAEVPDAAVGVEGRALGVVDVGANALAPDLLDVFKQLDVHAVRGLHPAGGVGEADHGRAELLGLFDGVDRHVAGAGHDNLGTVEGLAAGLHHLVGEVDAAVAGGLGAHEGSAPAQALAGENAGLVLVGQAAVLSEQVADLAAADADVAGRDVAVLTDVAPQLRHEGLAEAHDLALGLALRVEVGAALAAADGQAGQRVLEDLLEAQELDDAQVHRWVEAQAALVGAERRVELHTEAAVDADLAVVVDPRHAEDYLALGLAQTLNQAVVGVVTVLLQHDLERVEHLGDRLVELRLAGVALEKFIVVAGHFLIDIGHANPFPWMISSGPRRAGPWFILALNKYT				NA	NA	NA	NA	NA
AK009_08814	807		COG3599	putative protein	ATGTACCGCGTATTCGAAGCTCTCGATGAACTTGTCCAGACCGTGGAGCAGGCCTACGGCGTGCCGATGACTTCCAACTGCATGGTGCCGCGCAACGAGGTGCTCGCACTTCTTGACGACATCCGCAACGCTTACCCCGTCGAGATCGACGACGCCCAGGACGTGCTGGACAACCAGGACGAGATCCTGCGCGGGGCCCAGGAGCGCGCCGACGCGATCGTCGGCAGCGCCGAGGCCGAGGCGCGCGAGATTATGTCCGACGTCCACACCCGCACTGAGGACATGCTTTCCGACGCCCAGTCGCGCGCGACCCTGCTCGTCGCCAACGCCGAGGAGGACGCGGAGCTGACCGTCACTCGCGCGCGCGAGGAGGCGGACTCGACCATCGCCGGCGCGCAGCGCGAGGCGGAGCGCCTGATCCAGAACGGCAACCAGGAGTACCAGCGCTCGGTTGAGCAGGGCCTGGCGGAGCAGGAGCGTCTGATCTCGGAATCAGAGGTCATGCGTCGCGCCGACGAAGAGGCGCACCGCCTGGTTGAGCAGGCGCACTCGGAATCCTCGCGCTTGCGCGCCGAGTGCGATAGCTACGTTGATTCGAAGCTCGCCGATTTCGAGGAATCACTTTCTTCTGTGTTGCGCACGGTCTCCTCTGACCGCTCCGCGCTCCGTCGCGGCGCCGGGGCTTCTGGAGCGGCTGGCGAGCGCTACGATCGCCCGCGCTCGGGCGAGCGGATTGAGCGCGTCGAGCGCCGCGAGCGGGTGCGCCGCCCGCGTAACGACGGCTCCGGCTCGGAGCTCGATTACTAG	MYRVFEALDELVQTVEQAYGVPMTSNCMVPRNEVLALLDDIRNAYPVEIDDAQDVLDNQDEILRGAQERADAIVGSAEAEAREIMSDVHTRTEDMLSDAQSRATLLVANAEEDAELTVTRAREEADSTIAGAQREAERLIQNGNQEYQRSVEQGLAEQERLISESEVMRRADEEAHRLVEQAHSESSRLRAECDSYVDSKLADFEESLSSVLRTVSSDRSALRRGAGASGAAGERYDRPRSGERIERVERRERVRRPRNDGSGSELDY				NA	NA	NA	NA	NA
AK009_08815	531		COG1399	putative protein	ATGGCTAATCCTTTTGTCTTTAACGTCGCCGAAGCAGTTCACGGAGATGGTCTTCCGGTCACCACAACGCAGACGGGGCCCTCGCCGTCACGCATCGGCCCGGAAATGATTGCCCTGCCCAAGGGCGCCGAAGTCACGGTCGAAGCGACGATCACCCCGCTCGGCTCGGGCGTGCTCGTCGATGCCACCGCCACCGGCACCCTCGAGGGCGAGTGCGTGCGCTGCCTGGCCAGGCTGACCCCGGAGTTTTCCGCGACGGTGAACCAGGTCTTTTCCGCCTCCGACGACTTCATCGTCGGCGCAGACGATGACGACCAGGACAAGGGCTCCGGCGACGAGATCATGGCCGTCGTCGACGATACGGTCGACCTTGAACAGGCGTTTATCGACGAGATGGGCATGACCCTGCCGTTCAACCCGGTCTGCGAGCCCGAGTGCGTCAACGCGGGTGAGGTGCCCAGCCCGGACGGGATCTCGGGCGAGGAGGAGCGGGTTGATCCGCGCTGGGCCGGATTGGAGAAGTTCTTGTGA	MANPFVFNVAEAVHGDGLPVTTTQTGPSPSRIGPEMIALPKGAEVTVEATITPLGSGVLVDATATGTLEGECVRCLARLTPEFSATVNQVFSASDDFIVGADDDDQDKGSGDEIMAVVDDTVDLEQAFIDEMGMTLPFNPVCEPECVNAGEVPSPDGISGEEERVDPRWAGLEKFL				NA	NA	NA	NA	NA
AK009_08816	765	rnc_2		Ribonuclease 3	GTGAGTCGCTCCCGCCGCACCAAAATAACCGGCGAGGAGGCGTGGAACGAGGCATTCGGGCGCGTCGACCACGCCCCGCTGCTCGCCGCCCTCGGCGTCGAGGTTGAGCCCGAGATCCTGCGTCTGGCGCTGACGCACCGCTCGTTTGCCAACGAGCACGGTCCGCTGCCCAACAACGAGCGCCTCGAGTTCCTCGGTGATGCCGTGCTCGGCCTGTCCGTGGCGAACAGCCTCTACGAGCGATTTCCTTCGCGTCCTGAGTCGGACATTTCGAAGATGCGGGCGTCGATAGTTTCGCGCTATGGCCTGGCGTATGTGGCGCGCGAGATTGGCCTCGGGGCGCATGTGCTGCTGGGCAAGGGCGAGGAGGTCACGGGTGGCCGTGACAAGGACTCGATCCTGGCGGATACCACCGAGGCCCTGTTCGGCGCGATCTACCGCCAGCACGGTTTCGAGCCCGCGCGCGACGTCGTGCTGCGGCTGTTTGAATCGAAGCTGGAGAGCGCGACGGCCACGGGCCGCCACCAGGACTGGAAGACGGTGCTGCAGGAGCGGCTTGCGGAGCTGAAGGCCCCGGCGGCGGAGTACCGCGCGACCTCAGTCGGCCCCGATCACGACCAAACGTTTACGGCCGATGTGTTCGTCGGCGAGGATTCGCGCGGCCGCGGGGTGGGGCCGAACAAGAAGCTTGCCGAGCAGGAGGCGGCGCGTGTCGCGGTGGCGTTCTTGCGCGATCACCCCGAGGCCGTGGCGAGGCAGGGGTAG	MSRSRRTKITGEEAWNEAFGRVDHAPLLAALGVEVEPEILRLALTHRSFANEHGPLPNNERLEFLGDAVLGLSVANSLYERFPSRPESDISKMRASIVSRYGLAYVAREIGLGAHVLLGKGEEVTGGRDKDSILADTTEALFGAIYRQHGFEPARDVVLRLFESKLESATATGRHQDWKTVLQERLAELKAPAAEYRATSVGPDHDQTFTADVFVGEDSRGRGVGPNKKLAEQEAARVAVAFLRDHPEAVARQG				NA	NA	NA	NA	NA
AK009_08817	642			hypothetical protein	GTGCTCAAGCACCCGTACCGCGTCCGACTGGCGCAGCGACCTGGCCCGCCGCGTGGGCTTTACGCCCGCCGCCCACAGCGCCTCGTCGGCGTAGATGGAGCCAATTCCGCTGACGATCGCCTGGTTGAGCAGCACCGTCTTAATCGCGGAGCTGCGCGTGCGCACGAGGCGGGCGCGCTCGACGATGTCGAAGTCTGCCTCGAACGGGTCCGGCGCAATGTGGCCAATCGACTCCGGGACGCCATCTTCGCCCAGCGAGACGTACTGCCAGGAGCCGAAGGTCCGCTGGTCCACGAACGCCAGCTCGACGTCGTCAAGCAATGCTCGAATCCGCAGGTGAGGGCTCACCGCGGTGCCGGGAGAGCCGACGAGCATTTGGCCGCTCATGCGGAGGTGAACCATGAGCGCGGCGCCGTCGTCAAGCGTCAGCCACATGAACTTGCCGCGCCGCCCCGTGCCGGTGACCCGCCGGCCCGGCAGCATTTCGCGGAGGTCGACGGAGTTGCCGCGCACCGCCCGCGGGTGCAGCACCTCCACGGTGCTGAAAGTCCGTCCGACAAGATGGGTGTCGAGGCCGCGGCGCACCACCTCAACCTCAGGCAGCTCCGGCACTACCCCTGCCTCGCCACGGCCTCGGGGTGA	MLKHPYRVRLAQRPGPPRGLYARRPQRLVGVDGANSADDRLVEQHRLNRGAARAHEAGALDDVEVCLERVRRNVANRLRDAIFAQRDVLPGAEGPLVHERQLDVVKQCSNPQVRAHRGAGRADEHLAAHAEVNHERGAVVKRQPHELAAPPRAGDPPARQHFAEVDGVAAHRPRVQHLHGAESPSDKMGVEAAAHHLNLRQLRHYPCLATASG				NA	NA	NA	NA	NA
AK009_08818	456			hypothetical protein	GTGGTAGCTACCCTCGGGGTCTTTGGTCTTCCACAGCTGCGCCAGGGTGGATTCGACGAACGAGGTCGCTCCACCGATCAGGGCGATCATCCACATCCAGAACACCGCGCCCGGGCCGCCGATCGAGATCGCGAGCGCGACGCCCGCGATGTTTCCCGTGCCCACGCGCGAAGCGGCCGAAATGGTGAACGCCTTGAACGCCGAGATGCCGCCGTAGTCCGCATCCAGGTCGCGGCCCTCGCGGTCCTTGCCTTTCGGGGTCTCGGCGACCGCGCGGAACATCGACGGCAGCAAGCGGACCTGCACGAACAGCGTCCGGAACCCGAAGTAGATGCCCGCCAGCACGAGGAACCAGGGGACGATGTTCCAGATGAACCCGTTAATCGTCCCATCGACGATCTCGTATGCTTTTTCCATGCGCCAAATCTTAACGGGTGGGTGCCAGGCTATGTGTAA	MVATLGVFGLPQLRQGGFDERGRSTDQGDHPHPEHRARAADRDRERDARDVSRAHARSGRNGERLERRDAAVVRIQVAALAVLAFRGLGDRAEHRRQQADLHEQRPEPEVDARQHEEPGDDVPDEPVNRPIDDLVCFFHAPNLNGWVPGYV				NA	NA	NA	NA	NA
AK009_08819	615			hypothetical protein	GTGGAAGACCGGGTCGACGCCCTGGCGGCGCTGCTCGTTGAAGTTCTTCAGCAGCTTGATCGCAACACCGCCCAGCGGGACGATCGCGATGATGTTGATAATGGCCAGGCTGCCGGCCATGGTGTCGCCGAGCGCCCACACCAGCGGCAGCGAGCCGAACGCGCCAAAGAAAACAAACCCGATCACGAGCACGCGGAACCCGGTCATCACGGCCTTCGACTTGGTCAGATACTCAATGTTGGCCTGCGCGAGGTAGTAGTTGCCGATCACAGAAGAGAACGCGAGGAAGAACAGGATGAAGGTGATCGCGTGCGCGCCCCAGGCGCCGACCGAATCAGCCAGCGCCGCCTGCGTCAGCGCGGCACCCTGGATGTTTTCCTTGCCGTAGGTCACCTGTGGGCCGAGCAGGACGATGAACGCGGTGATCGAACAGACCAACAGGGTATCGAAGTACACGCCGAGGGTCTGAACAAGACCCTGCTTCACCGGGTGCGACACGGTCGCCGTCGCGGCCGCATTCGGTGCCGAGCCCATACCCGCCTCGTTGGAGAAGAGCCCGCGGCGCATGCCGTGCATGAACGCCATCGCCAGCGTGGCGCCAGCGACCTCACGTAG	MEDRVDALAALLVEVLQQLDRNTAQRDDRDDVDNGQAAGHGVAERPHQRQRAERAKENKPDHEHAEPGHHGLRLGQILNVGLREVVVADHRREREEEQDEGDRVRAPGADRISQRRLRQRGTLDVFLAVGHLWAEQDDERGDRTDQQGIEVHAEGLNKTLLHRVRHGRRRGRIRCRAHTRLVGEEPAAHAVHERHRQRGASDLT				NA	NA	NA	NA	NA
AK009_08820	285	acyP	COG1254	Acylphosphatase	ATGAGTAGCGTCCGCCTCGCCGCCCACGTGCACGGTCACGTTCAGGGGGTGGGTTTTCGCTGGTGGACCCGCTCGCGCGCGCTCGAGCTCGGGTTGGCGGGTTACGCGAAGAACCTTGACGACGGCCGCGTCGAGGTGGTTGCTGAAGGCGCACGTGAGGGCGTCGATAAGTTCCTGCGGCTCTTGAGGGAGCAGCCGTCGACGGCCGGGCGGCCGGGTCGGGTGGACACGGTGGTGGAGCGGTGCTCGGAGCCGAAGGGTGCGCGAGGCTTCGAGGAGCGCTAG	MSSVRLAAHVHGHVQGVGFRWWTRSRALELGLAGYAKNLDDGRVEVVAEGAREGVDKFLRLLREQPSTAGRPGRVDTVVERCSEPKGARGFEER	PGPT0001372_1511	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
AK009_08821	633			hypothetical protein	ATGCTGCCCGGGGCGTTCGAGGTCGAGGGCCGCCGGGTTACGCTGACGCGCGCCGTCGCTGAGCAACAGGCCCCCGCGGTGTCGAACTCGGGGTCGCGGCGCGTCGAGGGGGTGCGCGCGAAAGTCGCGATGCCGAGCCGTATCTGGGTTGAGGGCATCCACGACGCCGCGATTGTGGAGAAGGTGTGGGGCCACGACCTGCGCGTCGAGGGAGTGGTGGTGGAGTACCTCGAGGGGCTCGATAACCTCGCGGCACGACTGGAGGAGTTTCAGCCCGGCCCGGGCAGGCGCATCGGCGTTCTCGCCGACCACCTTGTCGAGGGCAGCAAGGAGACCCGGCTCGTGGAGAACGTCGGGCCCGACGTCCTTGTCACCGGCCACCCCTACATCGACATCTGGGCGGCCGTGAAGCCCGCGAGCGTGCGCATTCGCGAGTGGCCGCAGGTGCCGTACGGCGAGGACTGGAAGCAGGGCGTGTGCCGCCGGCTCGGCTGGGGCGACACCTCGGAAGGGTGGCACCGCGTGTACTCAGCCGTGAACACGTACAAGGACTTGGACTACACGCTGATCGGGGCCGTCGAAAGGCTCGTTGACTTCGTCACCAACCCGCAGCTCAAAAAGTCGGACCTCTGA	MLPGAFEVEGRRVTLTRAVAEQQAPAVSNSGSRRVEGVRAKVAMPSRIWVEGIHDAAIVEKVWGHDLRVEGVVVEYLEGLDNLAARLEEFQPGPGRRIGVLADHLVEGSKETRLVENVGPDVLVTGHPYIDIWAAVKPASVRIREWPQVPYGEDWKQGVCRRLGWGDTSEGWHRVYSAVNTYKDLDYTLIGAVERLVDFVTNPQLKKSDL				NA	NA	NA	NA	NA
AK009_08822	429			hypothetical protein	GTGGGCGCAATCGTTTGGTTTATCGCAGCAGCAGTACTGGCTGGCCTCGAACTGGCCGCCGGTGAATTCACGTTCCTTATGCTCGCCGCGGGTGCGCTCACAGCAGCCGGTGTCTCGTTAGCGGGGATCCCCCTGTGGGCCGAAGTCGCGGTGTTCGTCGCGTCCTCGGCCGCGTTCTGGTTCTTCCTTCGCCCCTACCTGCACAAGCAGTTCCACAAACCAGGGGCCTACGACGACAGCCCGCGAGCCCTCGTCGGCGCCCGCGCCGAAGTGCTCGAGGACATCACCCCGCACGGCGGGCAGGTGCGTCTCGACGGCGGCATCTGGTCCGCCCGCTCGCTCGACCCGTACGAGACCATTCCGGCTGGAGCGCACGTTACCGTTTCGGATATCGACGGCCCCGTTGCGGTCGTCTGGAAGGAGCCCTAG	MGAIVWFIAAAVLAGLELAAGEFTFLMLAAGALTAAGVSLAGIPLWAEVAVFVASSAAFWFFLRPYLHKQFHKPGAYDDSPRALVGARAEVLEDITPHGGQVRLDGGIWSARSLDPYETIPAGAHVTVSDIDGPVAVVWKEP				NA	NA	NA	NA	NA
AK009_08823	1281			hypothetical protein	GTGGCAGGCGGAGCAGGCCGGCGTCACACTCGCGCTCAATCTGATCAGGCGGGCTGCCCAGCTGGACTAGGAGTCCTGCTCCGTGACAGGCTTAACCACCGGCTCCTGCACGCGCGTGCGCGGCTCAAGGTCGCGGCTGGCGGTGACGGCGCGCTCGATCTCGGGGCGATCCATCGTCGGGTCCGGGGCGTCGACGTGCTTGTTGGCCACGGCGCGAGCCTCGGCCAGCGCCTTGGCCAACTCCGGGTCGGTGGACGTGTCGAACCAGCCGTCGGTGTCCTCCACCCCGGCCATGTCCTTGGTCTCCTGGTCCACGCTGGAGGTTTCGTAGCGGAAGACGCCGTCGTCGTCCTTGTGCGCGAACGCCTTGGCAAATTGCTCGAGCGAATCGCCGAGCTGCGAGGGAATCATCCACATCGTCGCGGCCTCGTTGTTCGCGATCTCCGGCAGCTTCTCCAGGTACTGGTACGCCAGCAGCTCGGGCGTGACACCGGAAGACTTGATCGCGGCGTTGACCTTCTGCAGCGCGCGGGCCTCACCCTGCGCGGAGAGGTACTTTGCGGCGCGGTCGCCCTCGGCGCGCAGGATCATCGCCTGGCGCTCGGCCTCGGCGGACAAAATGGCGGCGTGCTTCTCGCCCTCGGCGGAAAGGATGCGGGCCTGCTTCTCACCCTCGGCGGTCTTGATATCGGACTCGCGCTTACCCTCCGCGGTAAGAATCATCGCACGCTTCTCGCGGTCCGCCTTCATCTGCATCTCCATGGACTGCTGGATGGACGGCGGCGGATCAATCGCCTTGAGCTCAACGCGGCTGATGCGAAGGCCCCACTTCGCGGTCGCGGCGTCGAGCTCGCCGCGCAGGCGCCGGTTGATGGTTTCGCGCGACGTCAGGGTCTCTTCCAGGGTCATGCCGCCGACGACGTCGCGAAGCGTAGCGACGGAGATTTGCTCCACGCCGACGAGGTAGTTATCCACGCCGTAGATCGCCTTGGCGGGGTCGTTGATTTGGAAAGTGACCACGATGTCGATGGCCACCGTCAGGTTGTCCTGAGTGATCACGGCCTGCGGCGGGAAGGACACGACGCGCTCGCGCGTATCGACGCGCTGGCGAACGCGGTCGATAAACGGCACGAGCAGGGTCACTCCGCCGGAGACGGTGCGGGTGTAGCGGCCAAGGCGCTCAATGACCGCGGCCTCGCCTTGCTGGATCATCTTGATGGAACTGAACAGGATCGCCACCACCAAGATGATGATGACGGCTGCAACTATTGCGCCCACTAG	MAGGAGRRHTRAQSDQAGCPAGLGVLLRDRLNHRLLHARARLKVAAGGDGALDLGAIHRRVRGVDVLVGHGASLGQRLGQLRVGGRVEPAVGVLHPGHVLGLLVHAGGFVAEDAVVVLVRERLGKLLERIAELRGNHPHRRGLVVRDLRQLLQVLVRQQLGRDTGRLDRGVDLLQRAGLTLRGEVLCGAVALGAQDHRLALGLGGQNGGVLLALGGKDAGLLLTLGGLDIGLALTLRGKNHRTLLAVRLHLHLHGLLDGRRRINRLELNAADAKAPLRGRGVELAAQAPVDGFARRQGLFQGHAADDVAKRSDGDLLHADEVVIHAVDRLGGVVDLESDHDVDGHRQVVLSDHGLRREGHDALARIDALANAVDKRHEQGHSAGDGAGVAAKALNDRGLALLDHLDGTEQDRHHQDDDDGCNYCAH				NA	NA	NA	NA	NA
AK009_08824	429			hypothetical protein	TTGGTTCATGCCGCGCCGCACCAGGGCCGTGGCCTCCCGGCCCTCGAGGGTGCGCTTGAGCAAAACGTGCGCGATCAGCGCGAACGTGGCCGCGATGTCCGCGGCCGCGCTGCCGTCCGCCTCGGTGCTCACACCCACACTTCCCGGCTTGCGCCCGGCCGCCTCGGTCGCGGCGCTCAGCGCCGGCCCGCGCACGGTGATGCCGAGCCCGATAGTCCAGTTACCGTCGGACAACAGCGCCATGATCACGTTCAGCGCGTCGTCCGGCGTGTCCACGTGCGCGCGGATGTCTTCCACACCAACGACCTCGAACGTGCCCACCCCGGGAAGCGTCGACAACGCCTCGGCCGAGCGCTTCACAAGCTGGGCGCGGCCCTTTTCTTTGCCCCGGTAGCGGGCGTGGACGGCGATCATATCGGTCTAGTCTAG	MVHAAPHQGRGLPALEGALEQNVRDQRERGRDVRGRAAVRLGAHTHTSRLAPGRLGRGAQRRPAHGDAEPDSPVTVGQQRHDHVQRVVRRVHVRADVFHTNDLERAHPGKRRQRLGRALHKLGAALFFAPVAGVDGDHIGLV				NA	NA	NA	NA	NA
AK009_08825	273			hypothetical protein	GTGCTTCAGGCGCGGCTCCACGAAGTCGCGCAGCAGGAAGCGCACCACGAGCAGCGAGATCGCCGCCGCCACCGTCGTTGCGCTCAGCGCGATCACGATGCCCCACGCCGTGCCGAAGAGCACCCCGGCCGAGATCGTCATCACGGTTCGCGGGATGGGGAACTGCGTAACCACGACGTAGAGCACCCAGAAGAGGATCGGGAACCAGGCTCCGGTTTGGTCGGCCCAGGTGCGCAGGACGGAGAGCGGGGGGACGTCGAGAAGCATCCATGA	MLQARLHEVAQQEAHHEQRDRRRHRRCAQRDHDAPRRAEEHPGRDRHHGSRDGELRNHDVEHPEEDREPGSGLVGPGAQDGERGDVEKHP				NA	NA	NA	NA	NA
AK009_08827	486			hypothetical protein	TTGCCGATTGAGACTACCGGACGCGTCCGTTTAGTTCTCGTACCAGCCCCACAGAATCGCGCGACCGATCGAGTGGAAGTAGAGGTTGAAGCCCAGCTGCGTCGGGTTGGCGATCTCGTCGGCCGGCAGCTCCTCGACGTCGACCGCGTGCACGGCGAACAGGTAGCGGTGCGGGCCGTGGCCCTCCGGCGGATTCGCGCCGTAGAACGCCGTCACACCGGAATCACCCGTCAAGGTCACGGCACCCACGCCCAGGTCCTCCTTGGCGCCGGCGCCGGATGGCAGCTCGGTGACGCTGACCGGGATGTTGAATACGGACCAGTGCCAGAACCCGGAGGCCGTCGGGGCGTCGGGGTCGAAGCAGGTCACTGCCAGGGACTTGGTGCCCTCGGGCAGGTCGGACCACGCGAGCTGCGGCGAGGTGGCGTCGTCGCCGACCAGCGCCTCGCTGAGCTTCTCGCCGTCGACGATGTCGGTCGACGTTAG	MPIETTGRVRLVLVPAPQNRATDRVEVEVEAQLRRVGDLVGRQLLDVDRVHGEQVAVRAVALRRIRAVERRHTGITRQGHGTHAQVLLGAGAGWQLGDADRDVEYGPVPEPGGRRGVGVEAGHCQGLGALGQVGPRELRRGGVVADQRLAELLAVDDVGRR				NA	NA	NA	NA	NA
AK009_08828	315			hypothetical protein	GTGAGGCGGTCGGCAGCGGCCTTACGTGGCGCTCTGACGCAGAATAAGAGCGCACACCACCGCCGCCCCGGCCCACAGCAGCAGCCAGTAGGTCGGGGTGGCGAAGATCGTCGCTGCGGGCAAAAGAACGCCGAGGATCACGAGGCCCACGGCAACCACGAGAGCCACCACCTGCGCGCGCGAGCGGCTCTGGCCGCGCACGAACGTGGCATTCGCTCCGAAGAGAAGCGCGGCGGCCGCGATCGTGAGCACCTGCGGGGTGATCTCGAAGACCGCTTGGCCGCGGAAGAAGGCGACGGCGGCATAGATCACTAA	MRRSAAALRGALTQNKSAHHRRPGPQQQPVGRGGEDRRCGQKNAEDHEAHGNHESHHLRARAALAAHERGIRSEEKRGGRDREHLRGDLEDRLAAEEGDGGIDH				NA	NA	NA	NA	NA
AK009_08829	1086	pyrD_2	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGAGCCTCTACGACGCCGCGCTAGCGGTCATGTTCCGCGTCCCCGCCGAGCGCATCCACGGGGTCATGGGTAGCGCTCTGCGCGCGCTGCACGTCGCCAAGCCGCTGAACCGGGCGATAGAGCGCGTCGTGCGCGTCCACGACCCGGTGCTGGAGCAGACTCTGTTCGGTGTCACCTTCCCCGCTCCCCTAGGCCTGGCCGCGGGTTTTGATAAGAACGCCCGCGCGATCAACGCCTGGCCGGCGGTGGGCTTCGGCTACGCGGAGGTGGGCACGATCACCCCGAAGCCGCAGCCGGGCAACCCCGCGCCACGGCTGTTCAGGCTTCCCAAGGACAAGGCGATCCTCAACCGCATGGGCTTTAACAACGACGGCGCGCTCGCGGCCGCGACCAGTCTGGACGAGCGCTCGCCGCGCGCCGTGGTCGGCGTGAACATCGGCAAAAACAAAGTGTCCACCGACGCCGTGGCCGACTACCGCGCCGGGGCGACGGTGCTGGGCCCGTTGGCGGATTACCTCGTGGTCAACGTCTCCTCCCCCAACACCCCCGGGCTGCGGGACCTGCAGGCTGTCGAGGAACTGCGCCCGATCCTCAGTGCCGTGGCGGAGGCGACGAGTACCCCGATTTTGGTGAAGATCGCCCCGGATCTGAGCAACGAGGACGTCGACACGGTGGCGGACCTAGCGCTTGAGCTGGGCCTCGACGGCATCGTGGCCACTAACACAACCATCTCCCGCGACGGGCTGGCCACGGACGCGGCCGAGGTGGAGGCGATGGGCGCGGGTGGTATCTCGGGAGCCCCTCTGGGCGAGCGCTCGCTAGAGGTGCTCAAGCGGCTCCACACCCGCGTCGGCGACCGGCTCGTGCTGGTCAGCGTCGGCGGAATTTCCACCCCGCAGCAGGCGTGGGAGCGCATCGCGGCCGGCGCGAGCCTGCTGCAGGGCTACACGCCGTTTATTTACGGCGGTCCGGGCTGGATCCGGCAGATCCACACCGGGCTCGCTGCGCAGGTGCGTGCTCACGGCCTCAGCTCCATCGGTGAGGCGGTCGGCAGCGGCCTTACGTGGCGCTCTGACGCAGAATAA	MSLYDAALAVMFRVPAERIHGVMGSALRALHVAKPLNRAIERVVRVHDPVLEQTLFGVTFPAPLGLAAGFDKNARAINAWPAVGFGYAEVGTITPKPQPGNPAPRLFRLPKDKAILNRMGFNNDGALAAATSLDERSPRAVVGVNIGKNKVSTDAVADYRAGATVLGPLADYLVVNVSSPNTPGLRDLQAVEELRPILSAVAEATSTPILVKIAPDLSNEDVDTVADLALELGLDGIVATNTTISRDGLATDAAEVEAMGAGGISGAPLGERSLEVLKRLHTRVGDRLVLVSVGGISTPQQAWERIAAGASLLQGYTPFIYGGPGWIRQIHTGLAAQVRAHGLSSIGEAVGSGLTWRSDAE	PGPT0021190_1374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
AK009_08830	1017			hypothetical protein	GTGCTCGCCGGTACCCTCCTCGCCTCTGCTGTGGGCCTGTCTGCCTGCCAGTCAGCCGCGGGCGGCGGCGACGCCGGGGAATTGGCTGTGAATATGGGCAACGCCGAAGCACAGCCCTCGCCGCCGGCGACTGACCCGGCCGGGCGCGTCGTCGACTTCGCCGCGGTGCAGGACCTCGACGCCACCGGGGATACGCTCGCGGTGCGCGCGGGCGACACTTTGACCGTCGGAACCTTTGAGCAAGTCACCTCGGGAACGGCCACGGAGTATCAGCTCGATCCGGCTTGCGGCGATGCCTCGGCCCGGGCCGGCAGCTTCGTCGTCGCCTGCGGGTCGCAGGTGCGCATCTTCGATTCCACGGGCGAGCGCAGCTTCGACACCCCCGCCCCCGCCTCCGTCGCGGCGGTGACGGCGTCAGGCGACGTGGTCACCGGATCCGCCGACGAGCGCACGGTACGCATCTACCGCGACGGCGACGAGGTGAGCAACTTCGGCGTCGCCCGCGAGACCGACCAGCTTCTGACGGTCCCGCGCGAGGGCGCTGCGGACACCGCCGTGCGCGTCAACCATTTCGACACCACGATCCAAGAGCTCGACCTCGAAGGCGGGCGCCAGGGCGGGACGCTGCGCGTGGGCCTGGGCGTCGGCGGTGTCGCCACCGGCGGCGACGGACTCGTGCTCGCCGCCGACAACACGGGCTCCCAGTTGCTGGTCTACACCGTGTCCGACATCATTCGGTTGCAGCAGTCCGCGCCCGTCGCGCAAAGCCCGTGGGGAGTGACGTGGGACGACGAATCGGCGCTGGCCTGGGTTACCTCCACCGCGACGAACACCGCCGAGGGCTACGACATTTCCCAGGGCGTGCCCCTGAAGGCCGCCGAGGCGCGCACCATCGCCGACGCGCAGAACATGGTCACGCTTGACGACGGCACCCTGGTCATCGCATCCGCCTCCGGCGACGGCCTGCAGGTGATCACGCCGGAGGAAAAGAGCAGCCTGAAGGAGAAAACGTCATGA	MLAGTLLASAVGLSACQSAAGGGDAGELAVNMGNAEAQPSPPATDPAGRVVDFAAVQDLDATGDTLAVRAGDTLTVGTFEQVTSGTATEYQLDPACGDASARAGSFVVACGSQVRIFDSTGERSFDTPAPASVAAVTASGDVVTGSADERTVRIYRDGDEVSNFGVARETDQLLTVPREGAADTAVRVNHFDTTIQELDLEGGRQGGTLRVGLGVGGVATGGDGLVLAADNTGSQLLVYTVSDIIRLQQSAPVAQSPWGVTWDDESALAWVTSTATNTAEGYDISQGVPLKAAEARTIADAQNMVTLDDGTLVIASASGDGLQVITPEEKSSLKEKTS				NA	NA	NA	NA	NA
AK009_08831	768	uppP_4	COG1968	Undecaprenyl-diphosphatase	GTGTCCTCCTCGGGGCACCTGCGCATCGTCTCGGAACTCTTCTGGGGCCAAGACGCTGGTGCGAGCTTCACCGCCGTGATCCAGCTCGGCACCGAGCTGGCCGTGCTGGTGTTCTTCGCCAAAGAGATCTGGCAAATCCTGACCGGATGGTTCGCGGGGTTGTTCAACAAGGACAAGCGCGGCTTTGACTACCGCATGGGGTGGATGGTCATCGTCGGCACGATCCCAGTGGCGCTGCTCGGCGTGCTGCTCAAAGACCTGATCCGCGAGAACTTCCGCAACCTGTGGATCACCGCCACGGTGCTCATCGTGTTCTCCCTCGTGTTCATCCTCGCCGAGCGCTACGGCAAGAAAACGCGCGGCTACGACGAGCTGACCATGAAAGACGCCGTAATCATGGGCCTGTGGCAGTGCCTGGCGCTGATCCCCGGCGTGTCGCGCTCCGGCGGCACCATCTCCGGCGGCCTGTTCCTCAACCTCGACCGCGAGGTGGCAACCCGTTTCAGCTTCCTGCTCGCCATTCCGGCCGTGCTCGCCTCTGGGCTGTTCTCCCTGCCCGACGCGTTCGCTCCGCAGGCCGGCCAGGCGGCGACGGGCATGCAGCTGCTCGTCGGCAGTGGTGTGGCGTTCGTGCTCGGCTACGTCTCCATCGCCTGGCTACTGAAGTTCGTGGCCAACCACTCGTTTGCCTGGTTCGCCGCCTACCGCATTCCGCTGGGCCTTGTAGTGATGGCGCTGCTCGCGGCAGGAGTGATGAGCCCGCTGTAG	MSSSGHLRIVSELFWGQDAGASFTAVIQLGTELAVLVFFAKEIWQILTGWFAGLFNKDKRGFDYRMGWMVIVGTIPVALLGVLLKDLIRENFRNLWITATVLIVFSLVFILAERYGKKTRGYDELTMKDAVIMGLWQCLALIPGVSRSGGTISGGLFLNLDREVATRFSFLLAIPAVLASGLFSLPDAFAPQAGQAATGMQLLVGSGVAFVLGYVSIAWLLKFVANHSFAWFAAYRIPLGLVVMALLAAGVMSPL	PGPT0024165_830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK009_08832	972			hypothetical protein	GTGGACGTAGTGCGTGGCCATGCGCGGCTCGCTGTAGGCAGCCTCGGCGTGCGCCGCCGAGAACTCGTGGTGCGGAAACGCCAGGTCGGAGCCGCCGCCCTGGATCGAAAACGTCGCCCCCAGGCGGTTCGTCGCGATCGCCGAGCACTCAATGTGCCAGCCAGGCCTGCCGGGGCCGAAGGGCGAATCCCAGGCGGGCTCGCCGTCGCGGTGGCCGCGCCACACGAGGGCGTCCAGCGGGTCGCGCTTGCCCTCGCGCTCCGGGTCGCCGCCGCGCTCGGCGAAGTACGTCTCCATCTCCGCGCGGGAGTAGTTCGACTCGTAGCCGAACTGGGCGGTGGCGTCGATGGAGGCGTAGATGTCGCCGTGGTCGAGGCGGTAGGCGGCGGAAGCGTCGAGAAGCTTGCCGACCATCTCGATGACCTCGTCGACGGACTCGATCGCGCCGATGTAATCGCGCGGCGGGATGACCCCGAGGATGCTCATGTCCGAGCGGAACAGGTCGATCTGGCTCTGCCCCAGCTCGCGCCAGTCCACCCCGTCGCGCTCGGCGCGCTCGAACAGGGGGTCGTCGACGTCGGTAATGTTCTGCACGTAGTGGACGCGGTGCCCGTTGGCGATCAGCTGGCGCTGCACCAGATCGAAGGTCAGGTACGTCGCCGCGTGGCCCAGGTGCGTGGAGTCGTAGGGGGTGATCCCGCAGACGTACATCCCCACCTCGCCGTTGGCGTTGGGGGTGGTATCGACCGGCTTCACCACCTGATCCGCGGTGTCGTAGAGATTCAATTCGACCGGGGTCCCGCTCACCGCGGGCACCTCGGGGGTGGGCCAAGAATGCATGAGCCTACCCTACATCGGCCCCTACAGCGGGCTCATCACTCCTGCCGCGAGCAGCGCCATCACTACAAGGCCCAGCGGAATGCGGTAGGCGGCGAACCAGGCAAACGAGTGGTTGGCCACGAACTTCAGTAG	MDVVRGHARLAVGSLGVRRRELVVRKRQVGAAALDRKRRPQAVRRDRRALNVPARPAGAEGRIPGGLAVAVAAPHEGVQRVALALALRVAAALGEVRLHLRAGVVRLVAELGGGVDGGVDVAVVEAVGGGSVEKLADHLDDLVDGLDRADVIARRDDPEDAHVRAEQVDLALPQLAPVHPVALGALEQGVVDVGNVLHVVDAVPVGDQLALHQIEGQVRRRVAQVRGVVGGDPADVHPHLAVGVGGGIDRLHHLIRGVVEIQFDRGPAHRGHLGGGPRMHEPTLHRPLQRAHHSCREQRHHYKAQRNAVGGEPGKRVVGHELQ				NA	NA	NA	NA	NA
AK009_08833	684			hypothetical protein	ATGTCCCAGAAAATCGCAGGAGGTAGCACGCTACTCCAGCTCGGGAAGTTCGTTCAGCGCCTCGTCGTCCGCGCCCGTGGCTGCGGCCGCCTGGAACACCAGCGACTCCAGGTCGGCCTTCTCCTCCGGTTCCAGCACGGCGTTGGCGTGCGCGGCGTTGAACTCGCTCAACGAGGCGTAGAAGGGCACGACGACTTTCTTCAGGTCCTCGCCGGCGGGGTCGTCGCCAAGCAGCTCAAGGGCGTCGAGAAAGCCCTCGATCTTCTGCTTCAGCTCAGGAAGGACTTTCGGGTCGAAGGGCTCGTCCCACAACTCCTTGTCCTCATCGCGCAGGTAGGAGCCAGTGGCAAAAGTGGTGAGGTCGGAGATGAATTCGTCGACGTCGTCTTGGAACTGCTCGCGGATGGTCATGCTCACATTGTGGACGAAAACGTCTACACCTGCACGCCAAGCAGCCCATCGATGGCGCGCGCGACCGTGCCATCGCAATCCCCCGGCGCCTCATCGATGACGCACAGTGCAGTCGCGGTGTCGAGATCGTCGGCCAAAGCGGCACGCAGCTTATCGACGACCACATCAGCGTCGGCCGAACTCACCTGGCGCGCCAGGTTCTCACGCCACCGGGCCAAGCGCTGCTCGGCGGTCACGAGGATCTCGTCGGAGAAGTCCCGGTCGGTGCGGTAG	MSQKIAGGSTLLQLGKFVQRLVVRARGCGRLEHQRLQVGLLLRFQHGVGVRGVELAQRGVEGHDDFLQVLAGGVVAKQLKGVEKALDLLLQLRKDFRVEGLVPQLLVLIAQVGASGKSGEVGDEFVDVVLELLADGHAHIVDENVYTCTPSSPSMARATVPSQSPGASSMTHSAVAVSRSSAKAARSLSTTTSASAELTWRARFSRHRAKRCSAVTRISSEKSRSVR				NA	NA	NA	NA	NA
AK009_08834	729			hypothetical protein	ATGCGGCTTTGGCGGAGAGCTCGGCGAATAGTTCATCGAAGTTTTTCACGGGGGTCTACTCTATCGCACCGGTTGTGTGATGTCCGCGTACCACCGCACAACATCCTTGGGCCCCGCCCCGAGAAAGTTGGCGGGGTCAAAGCTGACGACACCGTCCGGGACGGTCTGCGCCAGCCCGAGGACGCGACACCCCGCGGCGGCGGCTGCGCTCATCCCCGCCCAGGAGTCCTCGAAGACCAGGCAGTCGCGGGCGTCGAAACCGACCCTGCGCGCCGCCTCCAGGTACATGTCGGGCGCCGGTTTCGTGCGCTCCACCTCGTCGCCGGCGATCGAGTCGACGAAGAAGTCGCGGCCGACGGCGTTGATGAGGGCGTCGGCAAGCACGCGCTCGGTGTTGGTGGTGACCAGCATGGGCACACCAGCCTCGCGCAGCGCGGCGAGCAGGCTCTGTACCCCGGGGTTGGGCGTGAGGTCACCGGAGGTGAGCTCGCCCATTCGGCTGTACATCCAGGTTTTGTACCGCTCGTAGTCGCCGGGGCCGAGCTCGACGCCAGCGTGGGCGGCGCAGATCGCCAGCGTGTTGCCGAAGCTGCCGCCGATGGTCTTTTCGCGCAGCTCGGGGGTGAGCCGACGGCCCAGTTTTTCGGACAGCTCGTAGGTGGCCACGCCCCACAGCGGCTCCGTGTCGACGAGGGTGCCATCCATGTCCCAGAAAATCGCAGGAGGTAG	MRLWRRARRIVHRSFSRGSTLSHRLCDVRVPPHNILGPRPEKVGGVKADDTVRDGLRQPEDATPRGGGCAHPRPGVLEDQAVAGVETDPARRLQVHVGRRFRALHLVAGDRVDEEVAADGVDEGVGKHALGVGGDQHGHTSLAQRGEQALYPGVGREVTGGELAHSAVHPGFVPLVVAGAELDASVGGADRQRVAEAAADGLFAQLGGEPTAQFFGQLVGGHAPQRLRVDEGAIHVPENRRR				NA	NA	NA	NA	NA
AK009_08835	264			hypothetical protein	ATGGTGATCCGTTCTTGTTTAGAGGTACTTGTACACGTCGTCGGGGGTCAGGCCGCGCTTGAGCATCATCACCTGGGTCCAGTAGATGAGCTGGCTCATCTCCACGGCGAGCTCCGCGTCGGACTGGTACTCGGCCGCGATCCATACCTCGCCGGCCTCCTCGATGATTTTCTTGCCAATGAAATGCTCCCCCTTGTCAAGGGCCTTGACGGTCCCGGAATCAGCCGGCCGGGATGCGGCTTTGGCGGAGAGCTCGGCGAATAG	MVIRSCLEVLVHVVGGQAALEHHHLGPVDELAHLHGELRVGLVLGRDPYLAGLLDDFLANEMLPLVKGLDGPGISRPGCGFGGELGE				NA	NA	NA	NA	NA
AK009_08836	243			hypothetical protein	GTGGCCCTGGGCGACGTAGATGGCGATGTCTTTCGGGCGCAGGAAGTAGAACTCGACGCCGTTTTCCTCGTCGACGACGTTGAGGGACTTGTTGATGCCGCGGCCCTTGTAGCCGGCCTCCTTGAGCACCTCGAGGGCTTTTTCGGACAGCGAGCCCTTGTTGGGCACTGCAACCTTGATCATGGTGATCCGTTCTTGTTTAGAGGTACTTGTACACGTCGTCGGGGGTCAGGCCGCGCTTGA	MALGDVDGDVFRAQEVELDAVFLVDDVEGLVDAAALVAGLLEHLEGFFGQRALVGHCNLDHGDPFLFRGTCTRRRGSGRA				NA	NA	NA	NA	NA
AK009_08837	174			hypothetical protein	GTGGTCCGGCCCGCCCTCGTTGCCGCGGCGGCGGATGATAACCGCCTCGCTGCTGACCAGCGGCTCACCGAAGGGGGCCAAGCCCTGCTGGCGCAGCGTCGCGCCGGTGGAGACGACGTCGGCGATGACGTCGGCCACGCCGAGCTTGATCGCGATCTCCACTGCCCCGTCTAG	MVRPALVAAAADDNRLAADQRLTEGGQALLAQRRAGGDDVGDDVGHAELDRDLHCPV				NA	NA	NA	NA	NA
AK009_08838	675			hypothetical protein	GTGCAGCAGGCCCTGCACCGAGTAGTAGAGACCCAGGCGGAAGCCCGTCGGGTAGGCGTCGTTGGTGGACTGCGACATGTTGACGTCGTCGTTGGGGTTGATGACGTCGTAAGCACCCTTTTCCTCGCCGAGGTACTCCAGCGCGAGGTTGGCGACGACCTCGTTGACGTTCATGTTCACCGAGGTGCCGGCGCCGCCCTGGTAGATGTCGATGGGGAACTGATCCAGGCAGCGGCCGCGTTCGATGATTTCGTCGCAGGCCCAGATGATGGCCTCTGCCTTGGATTTCGGCAGGACGTGCAGGCGGCGGTTCGCCATCGCGGCGGCCTTCTTCACCTGAGCCATGCCGCGGATGAAGTCGGGAATGTCGTTGATTTTCGTGCCAGAAATTTGAAAGTTGTCCACGGCGCGAAGCGTGTGCACGCCGTAGTACACGTCCGCGGGAACGTCCATGGTGCCGAGCAGGTCTTCTTCAATGCGAGTAGCCATACCCGTGAGGATACCCACCAAAGGCGGGCGACTAGAGGCGCGCGATACGAAGCTCCGTGGCCAGGATGCCTTCCGCGCCTACCGCGGCGAGCTCGTCCATGGTCTGGTTCGCCTTCTTGCGCGGCACCATGGCGCGCACGGCCACCCACCCCTCGCGCGAGAGCGGGGAGACGGTGGGGCCGGTAA	MQQALHRVVETQAEARRVGVVGGLRHVDVVVGVDDVVSTLFLAEVLQREVGDDLVDVHVHRGAGAALVDVDGELIQAAAAFDDFVAGPDDGLCLGFRQDVQAAVRHRGGLLHLSHAADEVGNVVDFRARNLKVVHGAKRVHAVVHVRGNVHGAEQVFFNASSHTREDTHQRRATRGARYEAPWPGCLPRLPRRARPWSGSPSCAAPWRARPPTPRARAGRRWGR				NA	NA	NA	NA	NA
AK009_08839	1035			hypothetical protein	GTGCGTCACCGGCATCACGGCCAACCGCGAGGTGTGCGAGGCCTACGTGGCCAACTCGATTGGCATCATCACCTACCTCAACCCGCTGATCGGCCACCACAACGGCGACCTGGTGGGCAAGGAGGCCGCCCGGACCGGTCGCGGCGTGCGCGAACTGATCCTGGAGAAGGGCCTGCTCACGGAGGAGGAGCTCAACCGGGCGCTGAGCAAGGAAAACCTCATGCACCCCGAGTTCCGCGGCAAGCTCTACCTCGACGACGAGTCCTAGCTCGGCCACCCCGGGTACTCCGGCGGGGTGCCGTCGAACGCGGGGCAGATGTCCTGGAACGAGCACCAGTCGCACAGCTTCGAGGTGCGGGGGCGGAAACGCCCCTCGCGCCCGTCCGCCTCGATCTTTGCCCACAGGTCACCCAGGTCGCGCTCGAAGTACTCCAGCTCCTCGCGCGATGGGGTCAGGATCATCGAGTCGATGACCTTGAGGTACATCAGCCGCAGCTGGGCCGGGATGGTGCCGAAGAACCGCCAGTACACCAGCGCGTAGAAGCGCATTTGGAACTGCGCGTCCGCGGAGTAGCGGGGCAGTGGCTTTTTGCCCGTCTTGTAGTCGACGACGCGCACCTCGCCGGTGGGCGCGACGTCGACGCGGTCGATGAAGCCGCGCACGGGCACACCGTTGGGCAGCACCCCGTCGACGTACATTTCCTGCTCGGTGGAGTCGAAGCCGAGCGGGTTTTCCATGTGGAAGTAGCCGCGGATCAGTGTGCGGGCGTCGATAAGCAGCTGCTGGCGGTCGCTGATGGGCTCGACGACCTCGGGGTCCTGCTCGATGAGACGCTCCCACGCCGGCACGATGGCCTTGACCGCGGCGGGGTACGTGCGCTGCTCGCGCGGCCAGCTGTGCATCTCCTCGAGCACGGCGTGCACCAGCGTGCCTTTGACTTGCGCCTCGGTTTTGGGCTCAGGCAGGCGGTCGATGGCGCGGAAGCGGTAGAGCAGCGGGCACTGCTTGTAGTCGCTGGCTCGGGAGGGGGATAG	MRHRHHGQPRGVRGLRGQLDWHHHLPQPADRPPQRRPGGQGGRPDRSRRARTDPGEGPAHGGGAQPGAEQGKPHAPRVPRQALPRRRVLARPPRVLRRGAVERGADVLERAPVAQLRGAGAETPLAPVRLDLCPQVTQVALEVLQLLARWGQDHRVDDLEVHQPQLGRDGAEEPPVHQRVEAHLELRVRGVAGQWLFARLVVDDAHLAGGRDVDAVDEAAHGHTVGQHPVDVHFLLGGVEAERVFHVEVAADQCAGVDKQLLAVADGLDDLGVLLDETLPRRHDGLDRGGVRALLARPAVHLLEHGVHQRAFDLRLGFGLRQAVDGAEAVEQRALLVVAGSGGG				NA	NA	NA	NA	NA
AK009_08840	1206	apeB	COG1362	putative M18 family aminopeptidase 2	ATGACACTCACCGATACCGCGGACTTCCTGAAGTTCCTCGACGCCAGCCCGTCAGCGTTCCACGCCGCGGGCAACGTCGAGAGCATGCTTATCGACGCCGGTTACGCCCCGGATTCCGACCTCACGCCCGGCGGGCACGTGGTCGTTAGCGGCGGCGCGGTGCTCGCGTGGTGGGTGCCGCGCAAGCCGAACCCGCGCGTGCGCATCGTGGGCTCGCACACGGATTCGCCGGGGCTGATGGTCAAGCCGGATCCGGATTTTGTGCGGGAGGGTTTTACGCAGGTCGCTGTCGAGGTCTACGGCGGGCCGATTCTGTCGAGTTGGTTTGATCGCGACCTCCGCTTTGCGGGCCGGGTGGTGTGCGCGGACGGCTCGGTGAAGCTGGTGGACACCGGCGCGGTGGCCCGGGTGCCGAACTTGGCGATCCACCTGACGCGGGGGGCGGACCAGGGCATTGACCGGCAGGTCCACCTGCAGCCCATTGTGGGTGGGAACCTGCCGTTGTCCGAGCTCGTTGCTCGCGCGGCTGGCGTGGACGCCGGTGAGATTGTGGCGCATGAGCTGATCTCGGCGGACACGCAACCGGCCGCGGTTGTCGGCGACTCGGTCATGTCCGGTCGCTTGGACAATCTATCGAGCGTGTTCGCCTCCGTGCAGGCGCTGCTTCGCGCGCAGGACTCCGCCGAGGATGTTCTCGTGCTCGCGGCGTTTAACCACGAGGAGGTGGGCTCGGCCTCAACGACGGGTGCCGGGGGTCCTTTGCTAGAAAGGCTGTTGGCGCGCATTACGGCGAGCCTCGGCGATCCGCTGGACTTTTACACAGGCTCGCTGGCGGTGTCGGCAGACGCTGCGCATTCGGTGCACCCGAACTACCCAGGCAAGCACGATCCGACGCACCGCCCGCTGCTGGGCAAGGGCCCGGTGCTTAAGGTCAACGCGAATCAGCGCTACGCCTCGGACGCGGTGAGCTCCGCGGCCTGGATCCGTGCGGCGCGCGCGGCGAACGTGCCCGTGCAAACGTTCGTCGGCCACAACGACGTGCCGTGCGGTTCGACCATCGGCCCGATTTCGGCGACGCGGCTCGGCATCCCGACGGTGGATGTCGGTGTTCCGCTTTTGTCGATGCACTCGGCGCGCGAGCAAGTGGGTGTTCAGGACATGGCCTGGTTTACTGAAGCCCTAGCGGCGTTCTTGCGTGGAGACTAG	MTLTDTADFLKFLDASPSAFHAAGNVESMLIDAGYAPDSDLTPGGHVVVSGGAVLAWWVPRKPNPRVRIVGSHTDSPGLMVKPDPDFVREGFTQVAVEVYGGPILSSWFDRDLRFAGRVVCADGSVKLVDTGAVARVPNLAIHLTRGADQGIDRQVHLQPIVGGNLPLSELVARAAGVDAGEIVAHELISADTQPAAVVGDSVMSGRLDNLSSVFASVQALLRAQDSAEDVLVLAAFNHEEVGSASTTGAGGPLLERLLARITASLGDPLDFYTGSLAVSADAAHSVHPNYPGKHDPTHRPLLGKGPVLKVNANQRYASDAVSSAAWIRAARAANVPVQTFVGHNDVPCGSTIGPISATRLGIPTVDVGVPLLSMHSAREQVGVQDMAWFTEALAAFLRGD				NA	NA	NA	NA	NA
AK009_08841	540			hypothetical protein	GTGGGCATTCATCCGGTGCTCAGGGCGCGTCGCCAGCCCCTCGACCTTCCACTCGCGCAGCAGGGTCTCCCACGCCCTGGGCTCCGTGAAGCATTTCGCCTCGCGGATTGCCTCCATGATGTTCATCAGCTGCGGAACGGTGGCCACGTACGTCATGAACACCCCGCCCGGGATGAGCAGGTCCTTGACCGTGTTAATGAACAGCCACGGCTCGACCATGTCCAGGATGATTCGGTCAACGGGGCCACCCAGATCCTCGCGTGTCACCTCGCCGAAGTCGCCCAAACGCGGCTCCCACCAGGCGGGTTCCGAGCCGAAGTACTCCGCGACGTTGTCACGCGCGAACGCGAAGTGGTCCTCGCGGATCTCGTAGGAGAAAACCTTGCCCTCCGGGCCGACGGCGCGGAGCAACGACATCGACAGTGCCCCAGAGCCCGCGCCGGCCTCGAGCACACGCGCGCCCATGAAAATGTCGCCCTCGACCAGGATCTGGGCGGCGTCCTTGGGGTAAATCACGGCCGCGCCGCGCGGCATGGATAG	MGIHPVLRARRQPLDLPLAQQGLPRPGLREAFRLADCLHDVHQLRNGGHVRHEHPARDEQVLDRVNEQPRLDHVQDDSVNGATQILACHLAEVAQTRLPPGGFRAEVLRDVVTREREVVLADLVGENLALRADGAEQRHRQCPRARAGLEHTRAHENVALDQDLGGVLGVNHGRAARHG				NA	NA	NA	NA	NA
AK009_08842	861			hypothetical protein	GTGGTAGTGGAGCATCTCGGTGGAGCCGTCGACAAGCTCGAGGCGGACGAACGGGCGCGGGGCGAAGAGGGCGTCGACGGCGGCGTCGATAAGCGAGGGCACGGGCTCCGCGTGGGGGACGGATTCGGTGAGGTGGCGCGCAAAGATGTCTTTGGCCTCGTCCTTTGTGGGGCGGGAGACGCGGATTTTGATGTCGAGGCGGCCCGGGCGCAGCATTGCCGGGTCGATGAGCTCCTCGCGGTTGGTCGCGCCGATGACGATGACGTTAGCGAGGCCCTCTACGCCGTCGATCTCGGTGAGCAGCTGCGGCACGACCGTGGTTTCCATGTCGGAGGAAACCCCGGAGCCGCGGGTGCGGAAGATCGATTCCATCTCGTCAAAGAAAACGATCACCGGCCGGCCCTCGGAGGCGAGCTCGCGGGCGCGCTCGAAGATCAGCCGGATGCGGCGCTCGGTCTCGCCGACGTACTTGTTCAACAGTTCCGGGCCCTTGACGTTGATGAAGTGGGCCGAACCGCCCTCACCGATGCTGCTCGACAGCGAGTTCGCAACGGCTTTCGCGATGAGTGTCTTGCCGCAGCCGGGCGGGCCGTACAGCAGCAGGCCTTTCGGCGGAGCGAGGTCGTAGGCCTTGTACAGCTCCGGGTGGACGAATGGCAGCTCCACCGAGTCGCGGATCGTTTCGATCTGGGTGGACAGCCCGCCGATGTCGGCGTACGTCACGTCCGGCACTTCCTCCAACGACAGCTGGTTGACCTCGGTCTTGGGCACGCGCTCGTAGGCGAAGCCGACGCGGGGGTCGAACAGGAGGGTGTCACCCGAGCGGGCGGTGTCGAGCAGGGGCTGGGCGAGATGGACTAG	MVVEHLGGAVDKLEADERARGEEGVDGGVDKRGHGLRVGDGFGEVARKDVFGLVLCGAGDADFDVEAARAQHCRVDELLAVGRADDDDVSEALYAVDLGEQLRHDRGFHVGGNPGAAGAEDRFHLVKENDHRPALGGELAGALEDQPDAALGLADVLVQQFRALDVDEVGRTALTDAARQRVRNGFRDECLAAAGRAVQQQAFRRSEVVGLVQLRVDEWQLHRVADRFDLGGQPADVGVRHVRHFLQRQLVDLGLGHALVGEADAGVEQEGVTRAGGVEQGLGEMD				NA	NA	NA	NA	NA
AK009_08843	399			hypothetical protein	ATGCTTATGACGTTGGGTTCAAAGTCCGCATTGCGGACTCGTTCGAGAGGTTGGGGCAGGCGCGTTTGGGGGGCTTGCGAGTCCGCATTGCGGACTAGCATGACGCGTCAACGAACACTTCCAACGGGCCCGAATCACTCCGCATTGCGGACTAGCTACCCCACGACCTCCGCACCGACGACGCGCCGGCCCTGCCGCCCGGTGATGCGCGCCCACTCGTCGGGGTTCGCGGTGTTCGGCAGGTCTTCGTTCTCGTCCTGCTCCGCTCGAACGGCGATGCGCAGGTGTTCGGCGCTCAAGCCGCTTGACGACGCCCCCGAGGCGTGGTCCTTAATAGCTAGCTTCTTCGCCCTGGCGACGACGTTCGCGATCATCGCTCCGGAGACGAAGTCGTGGTAG	MLMTLGSKSALRTRSRGWGRRVWGACESALRTSMTRQRTLPTGPNHSALRTSYPTTSAPTTRRPCRPVMRAHSSGFAVFGRSSFSSCSARTAMRRCSALKPLDDAPEAWSLIASFFALATTFAIIAPETKSW				NA	NA	NA	NA	NA
AK009_08844	1236			hypothetical protein	ATGTCAACAACGATCACCGACCTCGACCATCATCAATCGCCGGGCGCAATCGTCGAGACGATTCAGCAAGGCTTCGGATCATTCACACGCAAGAAAGCCGCGGTGCTCATGGCCGTCGCGCTTTTCGACGCTCTCAAACTCGCAACCCGCTACGGTTCGCCATCCACTGCGCTGTGGATGGTCCGAACCCTGTCGTTGTCCAACTCAACCGCGCACGAGTACGTGAAAGTGGCTCGCGCAATGCTCGAATTCAACCTGATGTCGAGCGCCTTTCTAGAAGGCCGCATCTCTTATTCCAAGGTGCGTTTAATTCTGCCGCACATGACCGCCGAGAATGAAGCGGAATTGGTGGAGTTAGCCGCGTCGATGACCTACCACGAGCTGGAGCTCGCGTTGCTGCGCTACCGCAAATCGGGGGAAGGCCTCGCGCGCAAGTCGTATGTGCGCCTGAAAGCCCGCAGCGACGGAAGGATCGGCATGTGGGCCAACTTCAACGCCGCGGAGGGCGCGCGCGTGATGGCGGCGATGAAGGTGGGCGAGCTTGCCTTTCACGACGTCGATTGGGACGCGCTACGCGACCCCAGCGGGCAGATTGACAAGGGCAAGCTCGATGCCGAGATCGACGAGCGGACAGCCGGCTGCTCAGGCTTCGGCCTGCCCCTGGGGGAGGCCCTAGTCAGCGCGTTTATGGGCGTCGTCAACATCGCCTTGACGCGGCCGAAGAACCCCCTGCGCGCACCGGGAGCGCACGTCAACGTCGTGATGACCACCGACGGCGGCGCGTACCTTCCCAACAACCCTGGCGCATCGTCCGACGCGGTGAAAAACTTCCTCAGCAACGCGTCCTACAGGGTCAACCGGGTTGACGAGCACGGGCTCGTTCTCAATACGGGCCGCGCCTTCCGCCTCGCCAACGACGCCCAGGTCAACGCGCTAATGCTGATGTGGCGCGGGCAATGCGCAATGCCAGGGTGCAGCCACACGCGCTTCATGGAGATGCACCACATCCACGATTGGGCCGACGGCGGCGCGTCTGACCTGGATAATCTGCTGCCGCTGTGCTCGGCCTGCCACAGCCTCGTCACCGACGGGGCGGTCACCATCCGCAAGGAGTTGGGCGACATCCACTTCGTCTTCCCCGACGGCACCAGGTACGTCAGTCACAACCGCGCCCTGCCGGTGCGCGACGACGACGCTCTCACCCTCGAGGAGTTCAACTCGGCCGCGTGGTGCTAG	MSTTITDLDHHQSPGAIVETIQQGFGSFTRKKAAVLMAVALFDALKLATRYGSPSTALWMVRTLSLSNSTAHEYVKVARAMLEFNLMSSAFLEGRISYSKVRLILPHMTAENEAELVELAASMTYHELELALLRYRKSGEGLARKSYVRLKARSDGRIGMWANFNAAEGARVMAAMKVGELAFHDVDWDALRDPSGQIDKGKLDAEIDERTAGCSGFGLPLGEALVSAFMGVVNIALTRPKNPLRAPGAHVNVVMTTDGGAYLPNNPGASSDAVKNFLSNASYRVNRVDEHGLVLNTGRAFRLANDAQVNALMLMWRGQCAMPGCSHTRFMEMHHIHDWADGGASDLDNLLPLCSACHSLVTDGAVTIRKELGDIHFVFPDGTRYVSHNRALPVRDDDALTLEEFNSAAWC				NA	NA	NA	NA	NA
AK009_08845	612			hypothetical protein	GTGCGTGGCCTTGGTATTGCGCCGGACAAACCCGCCTTCGAGCAGGTGCGCAATCGCGTACTGCGTCACGGGCGACACCGGCATGCCCAAAGTGTCACGTGTCTCGCGGAGCCGATTGCTCGTGGCCGCGTCGGCCACAACGTAGCCCGCGCTGAGCTGCCGGCTCAGCAGGGTAGAGAAGGTGCCGAGAGCAATCACGCTGGCCTTCGAGGGCAGAGTGCCCAGAGTGGGCAGGGGAGATACGCGGTAGCGCAGCTCGCTGTTGAAGTCATCCTCGATGATGACGACGCCGCGCTCCGCGGCCCACTCCAGCAGCGCCGCGCGACGGGTCGCCGGCATCGACCCGCCAATCGGGTAGAGGTGCGAAGGAGTCACCAGCAACGCGTCCAACCCCTCGGGCAAAGCGGAAACGACAAGCCCCCGCTCATCGGTCGCGCAGGACACCGCCGTGTGCCCAGCGAGAGGGATCACGTTGCGCAGACCAGGGTGTCCTGGCGTTTCCACGCCGACGTTGAGCGCGCGGCCCAGCGACATGAGGATGAGCAGCAAGCCCTCGCGCGACCCGCCGGTGACGAGCACACTATCGGGGTCGACGACGAGGCCACGCGCTAG	MRGLGIAPDKPAFEQVRNRVLRHGRHRHAQSVTCLAEPIARGRVGHNVARAELPAQQGREGAESNHAGLRGQSAQSGQGRYAVAQLAVEVILDDDDAALRGPLQQRRATGRRHRPANRVEVRRSHQQRVQPLGQSGNDKPPLIGRAGHRRVPSERDHVAQTRVSWRFHADVERAAQRHEDEQQALARPAGDEHTIGVDDEATR				NA	NA	NA	NA	NA
AK009_08846	840			hypothetical protein	GTGCGGCGCGGGCAGGTCGCCGACGTTGATGCCCACCATCGCCTCGCCCAAGCCCCGCGAGGCCTCGGTGACCACGGCGATGTCCTCCCAGGCGGCGGTGGCCTTGACGATCGCGGCGGCGCGGGCGGCCGGGTCGCCGGATTTGAAGATGCCCGAGCCGACGAAGACGCCGTCCGCCCCGAGCTGCATCATCAGCGCCGCGTCGGCGGGCGTCGCGACGCCACCCGCGGTGAACAGGACAACCGGCAGCTCGCCGTGCTCCGCGACGTGGGCGACGAGCTCGTAGGGCGCCTGCAGCTCCTTCGCCGCGACGTAGAGCTCGTCGCGGTTGGAGTTCCACAGCGACTGCAGGCCGGCGATCTCGGCTTTGATGGTGCGGATGTGCTTGGTGGCTTCGGAGACATCGCCGGTGCCAGCCTCGCCCTTGGAGCGGATCATCGCTGCGCCCTCGTTGATGCGGCGCAGCGCCTCGCCGAGGTTGGTGGCGCCGCAGACGAACGGCACGGTGAACGGGCGCTTGTCGATGTGGTTGACGTAGTCCGCGGGGCTCAGCACCTCGGACTCGTCGATGTAGTCCACGCCGAGGTGTTCCAGGATCCGCGCCTCAATGACGTGCCCGATGCGGGCCTTGGCCATGACGGGGATGTCGACGGCCTCGATGATGCCTTCGATGAGGTCCGGGTCCGACATGCGGGCGACGCCGCCCTGCGCGCGGATGTCGGCGGGCACCCGCTCGAGCGCCATGACGGCCACGGCCCCAGCGTCCTCGGCAACGCGCGCCTGCTCGGGCGTGACGACGTCCATAATCACGCCACCTTTCAGCATCTGGGCGAGACCTGA	MRRGQVADVDAHHRLAQAPRGLGDHGDVLPGGGGLDDRGGAGGRVAGFEDARADEDAVRPELHHQRRVGGRRDATRGEQDNRQLAVLRDVGDELVGRLQLLRRDVELVAVGVPQRLQAGDLGFDGADVLGGFGDIAGASLALGADHRCALVDAAQRLAEVGGAADERHGERALVDVVDVVRGAQHLGLVDVVHAEVFQDPRLNDVPDAGLGHDGDVDGLDDAFDEVRVRHAGDAALRADVGGHPLERHDGHGPSVLGNARLLGRDDVHNHATFQHLGET				NA	NA	NA	NA	NA
AK009_08847	576	pdxT_1		Pyridoxal 5'-phosphate synthase subunit PdxT	ATGGTAAGGATCGGGGTCCTCGCGCTCCAGGGCGGGGTGCGCGAGCACGTCGAGATGCTCGAAGACCTCGGCGCCGAGGTCACGCTGTTGCGCCGCGCCGCCGAGCTGGCCAGCCTCGACGGGGTCGTCATCCCCGGCGGCGAGTCCTCGACCATCGACCGCCTCATGCGCATTTTCTCGCTTGACGACGCGCTGCGCACCGCCCTGCACCACGGCACGCCCGTCCTCGGGACCTGCGCCGGGCTCATCACTCTGGCCACCGAGATCGTCGACCCCGCCCCTGGCCAGCGCAGCCTGGGGATCATCCCGATGCGGGTGCGCCGCAACGCCTTTGGCCGACAGGTCGACAGCGCCGTTGAGGCCATTGACAGCGCGTACGGCCAGGTCACGGCCGCCTACATCCGCGCGCCCGAGGTCGTCGCCGTCGGCGAGGGAGTAAAGGTCATCGCGACGAAAGGGAGGCGGATCGTCGGCGTGGAGACCGACAGCGCCCTGGCGGTGAGCTTCCACCCGGAGCTCACCGGCGACACCACCATTCACGCGCGGTTTTTGGACAAGGTAGCGTCGAGCGCATGA	MVRIGVLALQGGVREHVEMLEDLGAEVTLLRRAAELASLDGVVIPGGESSTIDRLMRIFSLDDALRTALHHGTPVLGTCAGLITLATEIVDPAPGQRSLGIIPMRVRRNAFGRQVDSAVEAIDSAYGQVTAAYIRAPEVVAVGEGVKVIATKGRRIVGVETDSALAVSFHPELTGDTTIHARFLDKVASSA	PGPT0009185_1580	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
AK009_08848	603			hypothetical protein	TTGGCGCGTGACGAAGAACGGGATGAGCGCCTTGGCCAGCACCCCGAAATCAGTGTGGCGCGAGTACTGGTAGTTTTCGTGGCTGCCGTAGGACGCGCCCTTGCCGTCGACGTTGTTCTTGTAGAACTTCAGCGGCGGGCAGGGATCCTTGTCCTTGAGCACGCTCACGCCCTGGGCGTGGAGCTCGGCGATGCTGGCCGCGGCCTCGCCGAGGACGACGTCGCCGGCGGCGTCGTAGATCATCGCGTCGAAAGCGTTGGAGACCTCGGGCGAGGAGTACTCGGGGTGCGCGTGGTCAACGTAGAAGCGCGCGCCGTTGGGCGTGACCACGTTGGCCACCCCGATCGCGTTGGCGTCGACGATGGGCACCGTGTGGTAGCGGCGCAGGTCAAAGCCCCGGGCGTCTTTCAGCGGGGCCTCGTCCTCGTAGTCCCAGCGCGCCCGCGCCCCGGTGTGCATCGCGGCGTACGCGACCACGGCGTGGGTGGAGGTAACGATGGGGCTCAAGCTCGAATCGCTTGGCGACGTGATCCCGTACTCCGTTTCGGTGCCCATGTAGCGCGTCATGCGCTCGACGCTACCTTGTCCAAAAACCGCGCGTGA	MARDEERDERLGQHPEISVARVLVVFVAAVGRALAVDVVLVELQRRAGILVLEHAHALGVELGDAGRGLAEDDVAGGVVDHRVESVGDLGRGVLGVRVVNVEARAVGRDHVGHPDRVGVDDGHRVVAAQVKAPGVFQRGLVLVVPARPRPGVHRGVRDHGVGGGNDGAQARIAWRRDPVLRFGAHVARHALDATLSKNRA				NA	NA	NA	NA	NA
AK009_08849	537			hypothetical protein	ATGTCGGCGTACTGCAGGTCGAGCGCCTTCAGCTTCGGGTCCGCGATGTCTACGCCGCGCTTCAGGTACGCGCTGACCAGGGCCCATTTCGCGGTCCAGTCGAGGCGGTCGGCGGTGCTCAGCGGGTCGCGCGCGAGGTCGTCGAGAAGCTCGCCCCACAGCTCGAGCACTTGCTTATCGACGTCACTTTCAGCGGCAACCCTCTCGCGGTACACGCGCAAGATGTCGATGGCGCTTAGGGTGCGGCCGTCGATAAGCGAAAGCTCGTGCGTGCAGCTCGGGTCGTGCGAGACGTTCTTGATTTCGGCGACGGGGTTGGCTAGCGCGAGGTCAGAAAAGTTGACGCCGCCCTCGATGGCGTCGAGGACGAGCTTGGTCATGCCGAGTTTGACGAAGTTCGAGTACTGGCTCATGTTCGCGTCACCGACGATGACGTGGAGGCGGCGGAAGTGCTCTTCGTTGGCGTGCGGCTCGTCGCGGGTGTTGACGATGCCGCGGTTGAGCGTGGTCTCCAGGCTGATCTCCTGCTCGAAGTAG	MSAYCRSSAFSFGSAMSTPRFRYALTRAHFAVQSRRSAVLSGSRARSSRSSPHSSSTCLSTSLSAATLSRYTRKMSMALRVRPSISESSCVQLGSCETFLISATGLASARSEKLTPPSMASRTSLVMPSLTKFEYWLMFASPTMTWRRRKCSSLACGSSRVLTMPRLSVVSRLISCSK				NA	NA	NA	NA	NA
AK009_08850	189	pup		Prokaryotic ubiquitin-like protein Pup	ATGGCACAGCAGCAGATTCACGGTGGCTCCGGCGACGGCAACGGTAGCGAAGACGACGGCGCATTCGAGGCGGGCCAGGCGCAGCTCAACACGAGCGGCACCGACGACCTCCTCGACGAGATCGACGCGCTGTTGGACAACAACGCCGAGGAGTTCGTTCGCTCCTACGTGCAAAAGGGCGGCGAGTAG	MAQQQIHGGSGDGNGSEDDGAFEAGQAQLNTSGTDDLLDEIDALLDNNAEEFVRSYVQKGGE				NA	NA	NA	NA	NA
AK009_08851	456			hypothetical protein	GTGCATGCGCCGGAACCGGTGCGAGTCGCCGTGGGGCTCGTCGCGGGTGTTGATTATCGGGCGGGTGCGCGTGGTGGCGCTGGAGACACCCTCCCAGACCTGGTCCGCGCGCTGCGAGATGACGAAACGGTTCTTCTTAATCAGCCCCGCGCCGCAGATCAGCTGGCGGGTGATCATGTGCGGCATGAGCTGCACCGAGAACGGCTTGAGCGCGAGCTCGCGGCTAATCAGGTAGTTCTCGTGGGCACCGTAGGAGTTGCCGCGCGAGTCCACGTTGTTCTTAAACAGGTAGATCTCGCCGCCGATGCGGTCCGCGGCGAGCGCCTCCTCGGCGGTGCGGGAGAGGCGATCGAAGATCAGCTCGCCCGCCTTGTCACTGTTGAGCAGCTGTGTAATGGAGTCGCACTCGGCGGTGGCATACTCGGGGTGCGCGCCCACATCGAGGTAGAGCCGTGA	MHAPEPVRVAVGLVAGVDYRAGARGGAGDTLPDLVRALRDDETVLLNQPRAADQLAGDHVRHELHRERLERELAANQVVLVGTVGVAARVHVVLKQVDLAADAVRGERLLGGAGEAIEDQLARLVTVEQLCNGVALGGGILGVRAHIEVEP				NA	NA	NA	NA	NA
AK009_08852	522			hypothetical protein	GTGGTTCTCGAGCATGTATTCAACCAGCTTTTCGACGTCCGCGCTGGCCTCGCCGTCCGTGGCAAACGGATCGAACAGGGCCACCGTGCGCGGTTCGGGGTGGTTGACCTTGAGGTGCACCCAGTCGACGTTGACCGACGCGCCGGATTCCCGGGCCGCGGCAAGGAATCGCCCACGCAGCGCCGCGCGGGTGGTGCGCGGAGCCGTGGTCGTGGCCTGTTCGATCGCCTCATCGGTGGTCCAGCGCTTGACCAACCCCTTGCGCTGCAGGTGGTAGAAGAGCCCGCGCTCCCGGCGGATGTCGTGGTAGGCGAGGTCGACGTGGGCCAACTTCGGGTGGTCCCAGTCGCAGCCCAGCCGCGTTTTGAACTGCTCGAGCAGTTTGCGCTTGATCACCCAGTCGATTTCTTGGTCCACGCCGCTGAAGTCCTTGGTCTCGATCGCGTCGAGGGTGCGGCCCCACAGGTCCACCACGCGCGCCATCTCGGCGTTAGGGGTGCCCTCGTCCGGGCGCTGGGCTAG	MVLEHVFNQLFDVRAGLAVRGKRIEQGHRARFGVVDLEVHPVDVDRRAGFPGRGKESPTQRRAGGARSRGRGLFDRLIGGPALDQPLALQVVEEPALPADVVVGEVDVGQLRVVPVAAQPRFELLEQFALDHPVDFLVHAAEVLGLDRVEGAAPQVHHARHLGVRGALVRALG				NA	NA	NA	NA	NA
AK009_08853	924			hypothetical protein	TTGGCTGGGCTATCCTTCATCGCTGGCCTCCACGGTTGCCGACAGCAGCGCGATCACGTCTCGCCGTACGTCGTCGGGTTCGATCTCGAACACATCGGGCGCAACGCTGGCGACGGTGCGCACAAGCCAATCGCGCTCGACGCCGACGAACTCGACGACGTCCCCGACGCGCGTGCCCTTGGTCTCCAGCTCGAAGGACGCCGAGGTGGCGACGCCGATGCGGGCGTCAGTGACGGGCCCGCGCAGGATGTCGTTGACTACGTCAGCAAGCGGGCGCGACGCCGCGTGGAAGCGCTCGGCGGAAGTGACGCGCACGTTGCTGACCCGCATCGCGCGAAACGCCCGCTCCGCCTCCCGCTCAGCGTCCCACCCGACGACGTAGGCGCGGTTGTTCAGCGCCACGATTCCCCACGGGTCCATGACGCGGCGTTGCACGTCCGCGGCGGGCGCAGGGGCGTAGTCGAACACCATCCGCTTCTTGGCGCGCACGCACGCGGTGACGCCTTTGACCGTTTCGGCATCAAGACGCATCACGTCGTTGTCCACGCTGGCCAGTGCCGGGCTGTCGAAGGAGCGCGTCGCGCCCGAGGCGGCCAGCTTGGTCCACCCGGACCGGGCGAACGCGCCGAGGCTGCGCTCGCGCCCGAGATCGCCGGCCAGGCCCAGCACGGTGGCCTCTTCGTCGGTGAACTCAATCGGCGGCAGCGTGTAGGCGTCCTTGTCCACCCACACCAGCCCGTTTTCCATCCGCGCCGGCACGCCCGCGCGCCGAATGGTCTGGATGTCGCGGTTGAGCTGGCGATGGAAGGATGCGCGCCCCTTCTCGGAGTCGGCGTAGTCCTTGTAGCCCTCGACGCGGCCGCGCACCCACTCGTAGTCGCGGGGGCGCTGCGTCCCGAGCAGGGCGAAGGTCAGGTTGGTTAA	MAGLSFIAGLHGCRQQRDHVSPYVVGFDLEHIGRNAGDGAHKPIALDADELDDVPDARALGLQLEGRRGGDADAGVSDGPAQDVVDYVSKRARRRVEALGGSDAHVADPHRAKRPLRLPLSVPPDDVGAVVQRHDSPRVHDAALHVRGGRRGVVEHHPLLGAHARGDAFDRFGIKTHHVVVHAGQCRAVEGARRARGGQLGPPGPGERAEAALAPEIAGQAQHGGLFVGELNRRQRVGVLVHPHQPVFHPRRHARAPNGLDVAVELAMEGCAPLLGVGVVLVALDAAAHPLVVAGALRPEQGEGQVG				NA	NA	NA	NA	NA
AK009_08854	504	yqeY_3	COG1610	putative protein YqeY	ATGTCGAAGCTTCATCCCACCCAAGGTTACAGGTCGCGTAACCTCGGATTCATGAGTGAGCTGAAAGACAAAATTCGCGCCGACCTGAAAGAGGCCATGAAGGCCAGGGAGAAGGAGCGCACGGGCACGATCCGCATGCTGCTGGCCGCGATCCAGGCCGCAGAGACCGAGGGCACCAAGCACGAGGTTGGTGACGACGAGATCATCGCGATCATCGCCCGCGAGATCAAGAAGCGGCGCGAGGCCGCGGAGATTTACCGCACCAACGACCGCGCGGACCTCGCCGACGCCGAGCTTGCCGAGGTTGATGTGCTCGAGGGCTACCAGCCGAAGCAGCTTGACGACGCCGAGCTTAACGCCCTAGTCGACGAGGCGATTGCCGAGACCGGCGCGGACTCCATGGCCCAGATGGGTGCTGTGATGAAGGCGGCGACGGCCAAGGCCGCCGGCCGCGCCGACGGAAAGCGCCTCTCCGCCGCGGTCAAAGACCGTCTGGGCAGCTAA	MSKLHPTQGYRSRNLGFMSELKDKIRADLKEAMKAREKERTGTIRMLLAAIQAAETEGTKHEVGDDEIIAIIAREIKKRREAAEIYRTNDRADLADAELAEVDVLEGYQPKQLDDAELNALVDEAIAETGADSMAQMGAVMKAATAKAAGRADGKRLSAAVKDRLGS	PGPT0030490_1346	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
AK009_08855	345			hypothetical protein	TTGGCTGCGGGCGTCGTCAATCTGGCGCTGCAGCTCCTCGAGCTGCGGCGAGGGCCGCGACGGCGCACGCGGCGGGGTCGGCTCGGTCCGCGACTCCGTCTGACGCGGTGCGGAGCCATCGGATACGTTGAGCTTGACCAGAGACCCCGGGGCGAGGTTCGGGTCCATCGGCTCTGCGGCGATAACAGTGCCGCGCGGCGCGCCGTCGCCGAAGACGGTCTGCAGAACTACGCGCAGGCCCTGCTCCTCGAGCCTGGAGCGCGCAGCCTCCGTGTCCATCCCCACGACCGAATCAAGTGCCGCCTGGCGCGTGCCGCGTTCGTACACCGCGCTCGACTCGGGTAG	MAAGVVNLALQLLELRRGPRRRTRRGRLGPRLRLTRCGAIGYVELDQRPRGEVRVHRLCGDNSAARRAVAEDGLQNYAQALLLEPGARSLRVHPHDRIKCRLARAAFVHRARLG				NA	NA	NA	NA	NA
AK009_08856	588			hypothetical protein	GTGCGATTCGGTCGTACCCGTCTTCGCGGCGACCGGAGCGTCCCACCCAGCCGCTGCGGCGGCGCGTTTCGCCGTTCCGGACTTGATGTCTTCCGACATGCCCTGCGCCAAGGCGGCGGCGACTTCCTTGTCCACGGCCTGCTCGCAGGCGGGGCGGTCGATGTAGACCTCTTGGCCGAATTTGTCCGTCACCTTTGCGATCGGGTTCGGCTCGCACCAGCGCCCGTTAGAGGCCAGGGTTGCGCCGACGTTGGACAGCTCCAGCGCGTTGACTGCGAGCGGGCCGAGGACAAACGAGCCCATGTTGCCCTCGGCGGCGGCCTGCTCAATCGAGCGCTCGCCGTCGTAGGTGCCGTCGGCGGCATAAGACCGCAGCCCGAGGCGGACGGCCATGTCTACCGTGGGCTCCACGCCGACCTTTTGGATGAGCTCAATGAAGGTGGTGTTGGGCGACTGCGCGAGGGCGTCGCGAAGCGAGAGCTTGGGCGCGTACGTGCCGGCGTTTTCGACGCAGTAAGCACCGGGTGGGCAGTTGTCGGCGCCGCCGGCGCCCATGCCGTAAACGACGGAGCGCTCCGGGGTATCTAG	MRFGRTRLRGDRSVPPSRCGGAFRRSGLDVFRHALRQGGGDFLVHGLLAGGAVDVDLLAEFVRHLCDRVRLAPAPVRGQGCADVGQLQRVDCERAEDKRAHVALGGGLLNRALAVVGAVGGIRPQPEADGHVYRGLHADLLDELNEGGVGRLREGVAKRELGRVRAGVFDAVSTGWAVVGAAGAHAVNDGALRGI				NA	NA	NA	NA	NA
AK009_08857	978			hypothetical protein	TTGAACCGTCGGGTCGAGGGTGGTCGTAATCGTGTACGCACCCTTTTCCAACTCCTCCTGAGACAGGCCCTTGCTGGCCAGGTAGGTCAGGGCGTAATCGCACATGAACCCGTTGTCGCCGGCCGCAAGGCAGCCGTCGGGAAGCAAAATGGGCTGCGGGAGGATATCCAGCGGCTCGGCGGACAGGGCGTCGGCCTCCTCCTGCGTGATCGACCCGTAGGCGGCCATGTTGTTGAGCACCGTGTTGCGGCGCTCGATCGCGCCCTCGGGGTTGGTGTACGGGTTGAGGTATTCGACGGACTGCAGCAGGCCGATCAGCAGTGCGGCCTGCTTGGGGCCCAGGTCGCGCGCGGGCACGTCGAAATAGGTGCGCGAGGCCGCTTCGATGCCAAACGAGTGGTTGCCGAAGGATACGAGGTTGAGGTAGCGGGCGAGAATCGTGTCCTTGTCCAGCGTCTTGTCCAGGTCCGAGGCCATGCGCATCTCGCGCAGCTTGCGGGGGATGGACTGCTCGGTGGCGGCGATGGCATCCTCGGCGGATTCGGCGTCGACAAGCCACAGGTAGTTCTTTACGTACTGCTGGTTGATGGTGGACGCGCCCTGCTCCACCCCGCCGGCGAGCAGGTTGGTCACCATCGCGCGGGCGAAGCCCTGCATGTCCACCCCGTCGTGCTGGTAGAAGCGCCGGTCCTCGGTGGAGACGAGGGCGTCCTTGGCGTACTGGGAGATTTCCTCGCTGGGCACCTCGTAGCGGCGCTGGTTGAACAGCCACGCCATCGGCTGGCCGTTGACGTCGGTGATCGTAGTCACGCCGGGGACGTGGCCGTCGGTGAGGTCGGAGAGGTTCGTCTGCATTGTCTGCGATGTGCGCGCGACAGCGACACCGCCGAGCCCCGCGATGGGGGCGAGGGCGGCCGCGATGACGAGGCCCGCCGCGAGTATGGCGACGAGCAGTTTTCCGAGCGAAGAGAGAGCTGA	MNRRVEGGRNRVRTLFQLLLRQALAGQVGQGVIAHEPVVAGRKAAVGKQNGLREDIQRLGGQGVGLLLRDRPVGGHVVEHRVAALDRALGVGVRVEVFDGLQQADQQCGLLGAQVARGHVEIGARGRFDAKRVVAEGYEVEVAGENRVLVQRLVQVRGHAHLAQLAGDGLLGGGDGILGGFGVDKPQVVLYVLLVDGGRALLHPAGEQVGHHRAGEALHVHPVVLVEAPVLGGDEGVLGVLGDFLAGHLVAALVEQPRHRLAVDVGDRSHAGDVAVGEVGEVRLHCLRCARDSDTAEPRDGGEGGRDDEARREYGDEQFSERRES				NA	NA	NA	NA	NA
AK009_08858	381	whiB_2		Transcriptional regulator WhiB	ATGACGGCAACGTTGGGCCGAGAAGCCCTCCAAGCGGCATCCGTGCCGCACCGCACCGCTACTACAGGGACGTCGAGGAATTACGATTCAAACGGCCAGCTTGTGTTCGACCGTGGCGAATGGGTCACCCTGGCGACGTGCCGTTCCGGCGACCCCGATGCGTTGTTCGTCCGTGGCGCTGAGCAGCGCAAAGCGGCCGCGATTTGCCGTCGCTGCCCGGTGCAGATGGAGTGCCTCGCAGACGCGCTGGACAACCGCATCGAGTTCGGCGTATGGGGCGGGCTCACCGAACGCCAGCGCCGCGCCGTGCTGCGCCAAAACAAGCACGTCACCGACTGGGCGGAGCACCTCGCCTCCGGCAGCGAGGTCGCGGGGCTCTAA	MTATLGREALQAASVPHRTATTGTSRNYDSNGQLVFDRGEWVTLATCRSGDPDALFVRGAEQRKAAAICRRCPVQMECLADALDNRIEFGVWGGLTERQRRAVLRQNKHVTDWAEHLASGSEVAGL				NA	NA	NA	NA	NA
AK009_08859	558			hypothetical protein	GTGGGCACTGGCATCGCCGAAGACCTCCCCGATGAGCTCGCTGACACCGTTGATTACCTTCGGCTGGCCGGTGAAGTCCGGCGCGGAGGCGACGAAGCCTACGACCTTGAGCACGCGAGTAACGTTGTCGAGCCCGACCAGCGCGTCGATCGCGGCAAGCGCGTTGAGGCAAGCGCGGCGCGCCAGCTCGTAGCCCTCATCCTCCGAAACCTCGGCTCCGACCTTGCCTGTTGCTGGCAGGGAGCCGTCGATAAGCGGCAGCTGCCCCGAGGTCCACACCTGGTTTCCCACGCGGGTGGCGGGGACGTAGGCGGCAAGAGGCGCGACGACCTCAGGCAGCTCGAGGCCGAGGGCGGACAGCTTCTCGGTGAACGTCGCAGCCACGGCCTAGACCTCGCGCTTCATGTAGGCGACGAGGTTCTCCGGCGTCGGGCCGGGAGTGACGGTGACGAGTTCCCAGCCGTCCTCGCCCCAGGTATCCAGGATCTGCTTGGTGGCGTGGGTCAGAAGCGGCACGGTGGCGTATTCCCATTTAGTCATGGGGCGATTCTACCGTGA	MGTGIAEDLPDELADTVDYLRLAGEVRRGGDEAYDLEHASNVVEPDQRVDRGKRVEASAARQLVALILRNLGSDLACCWQGAVDKRQLPRGPHLVSHAGGGDVGGKRRDDLRQLEAEGGQLLGERRSHGLDLALHVGDEVLRRRAGSDGDEFPAVLAPGIQDLLGGVGQKRHGGVFPFSHGAILP				NA	NA	NA	NA	NA
AK009_08860	645			hypothetical protein	ATGGCCGGGCAGCAAGCGCACGCCCTCGCCCTGCTCCTCCAGCAGGGTCAGGGAATCGAGGTAGTCACCGAGGTCTCCGTCGGTTTCGGAAATCATCGTGGTGTGGCGACCCGCGATCGTATCTCCGGTGATAATGCCCTCGAGCTCAGATTCGCCGGCCGCTGCCGAGTAGACGAAGAAGCTCACCGAATCGCGGGTGTGGCCCGGGGTGGCCACGACCTTCAATTGCGGGGAGATGCCGTCGATGGAGATCACTTCGCCGTCGACAAGCGGCTCGGCGCCCGCACAGTACTGCGGGTCAACGGCGCGGATTGGCGCGCCGGTGAGCTGGCGGAAGCGCTGCGCGCCGTCCGCGTGGTCGTGGTGGCGGTGGGTGAGCAGGATCAGCGCCACCTTCTCGCCCTTCGCGCTGAGCACGTTGAGGTGGCCCTCGTCCTCGGGCCCCGGGTCGACGACGATGCTGAACTCGTCCCCGGGCACCCTGACAACCCAGGAATTTGTGCCCTCCAACGCCGCGTAGCTCGGGTTCGGGCAGAGCACGACGGAAGCAGAAGGGGTGACCGGCCGCAGTTGGCTGTAAGCGGGATGCTGCATACGTCTAAGACTACAGCTGTTATGCAGCCGCGTCCGCTACCTCGACGATGA	MAGQQAHALALLLQQGQGIEVVTEVSVGFGNHRGVATRDRISGDNALELRFAGRCRVDEEAHRIAGVARGGHDLQLRGDAVDGDHFAVDKRLGARTVLRVNGADWRAGELAEALRAVRVVVVAVGEQDQRHLLALRAEHVEVALVLGPRVDDDAELVPGHPDNPGICALQRRVARVRAEHDGSRRGDRPQLAVSGMLHTSKTTAVMQPRPLPRR				NA	NA	NA	NA	NA
AK009_08861	579			hypothetical protein	GTGCGTCACCGAGGTTTCGGCCGCGACGATGAACTCCGAGTCGTTGAAGAAGTGGATCAGCGACTACCCGGACATCTCCCAGCAGCTCCTGCGGGTGCTCGCGCGCAGGCTGCGACGCACCAACGCCTCCCTGGCGGACCTAATCTTCACCGACGTTCCGGGCCGCGTCGCCAAGACGCTGCTGCAGCTGGCCAACCGCTTCGGCACCCAGGAGGGTGGCGCGCTGCGGGTCAACCACGACCTGACCCAAGAGGAGATCGCGCAGCTTGTCGGAGCGTCGCGCGAGACGGTAAACAAGGCGCTGGCCACCTTCGCGCACCGCGGGTGGATCCGCTTGGAGGGCAAGAGCGTGCTCATTGTCGACACCGAGCACCTCGCCCGGCGCGCGCGCTAGCCCCCGAGTTAGCCCTGGTTGCGGATGTAGCGCAGCGCGACGCGGGTGGACTGCTCGGCGGCGCCACGCAGGACCGGGTCGACGTCGTCGTAGATCGCGTCGACGAAGGTGTTGATGTCCGCGTCCACCCCATGCTCACGGATCACCTCGCGGATCTGCTCGAGGCGCTGGGTGCGGCGCTCTAG	MRHRGFGRDDELRVVEEVDQRLPGHLPAAPAGARAQAATHQRLPGGPNLHRRSGPRRQDAAAAGQPLRHPGGWRAAGQPRPDPRGDRAACRSVARDGKQGAGHLRAPRVDPLGGQERAHCRHRAPRPARALAPELALVADVAQRDAGGLLGGATQDRVDVVVDRVDEGVDVRVHPMLTDHLADLLEALGAAL				NA	NA	NA	NA	NA
AK009_08862	234			hypothetical protein	GTGGCGCGCGAGCTTCACCTTGCCCTCAATGATGATGTAAAGCCGGTCGCCGGGTTCACCCTCATCGAAGATCGTGGTGCCACGCGGGAAGTGGACGCTTTCCATCTCCCCGATCAGCGCCGTCACGGCATCCGGCTCGACACCCTGAAAAATCCCCGCGCGCGCGAGAATGTCGTGGTCGCCCTGCATGTATGCCTCCTTAGCTCAACGGCGCTATTCCACCCGTTAGGGTAG	MARELHLALNDDVKPVAGFTLIEDRGATREVDAFHLPDQRRHGIRLDTLKNPRARENVVVALHVCLLSSTALFHPLG				NA	NA	NA	NA	NA
AK009_08863	924			hypothetical protein	GTGGTCGCGCTCGGGGCCGGTCACCTTCGCCGCGGCCTGGGCCGGGTCGGTCGGCCCCTCCCCGAAGCTGGGGCAGTCGAACGCCAGCGGGCACGCTCCGCAGGCGGGGGTGCGGGCGTGGCACACGCGCCTGCCGTGGAAGATGATCCGGTGCGAGAACATCGTCCACTCTTTCTTCTCAATAATCGCGGCGATCGCGTGCTCGATGGCCACCGGGTCTTTTTCCTCGGTGAGCTTGAGCCGGTGGACGAGCCGCTGGAAGTGCGTGTCCACGGTCAGTCCGGGCATGTCGAAGGCGTTGCCGCGCACAACGTGCGCCGTTTTCCGGCCCACCCCCGGCAGGCTGACCAGGTCCTCGAGTGCGGTCGGGACCTCGCCGCCGAAGTCGGTGACCAGCGTGCGGCCCAGCCCGATGAGGTTTGCCGCCTTCGCGCGGTAGAAGCCGGTGGGACGGATGATCTCCTCTACCTCCTCCTGTTTTGCCGAGGAGTATGCGGAGGGCGTCGGAAAGCGGGCGAAAAGCGCAGGGGTGACCTGGTTGACGCGCACGTCGGTGGTTTGGGCGCTGAGCACGGTGGCGACGAGCAGCTCCAGCGGGTTGGTGAAGTCGAGCTCCGCGTGCGCGTCGGGGAACACCGCCGCGAGCGTGCGGTTGATGCGGCGCGCGCGGCGGGTGCGCCCGATGGCTGTCTCCGCGCCCTTGGCCGCCGGGTGGGAACCGGGCCGGCGGTGCCTCTGGGGAGTCAGCGACGCTGCCGTGCGAGAAGAGCCGGTGGGTCCAGTCATAGGCGCAACTATAGTGACCGCTGCAATCAGGCCGGTAGAATCTCACCCATGACAGTTGTCCTCGTAGCCCTAGCCCCCGTGATTCTCGGCCTCTTCGCCGTCGGCATGGAAAAGCTGGAATCCAGCCTGTTCTCGTAA	MVALGAGHLRRGLGRVGRPLPEAGAVERQRARSAGGGAGVAHAPAVEDDPVREHRPLFLLNNRGDRVLDGHRVFFLGELEPVDEPLEVRVHGQSGHVEGVAAHNVRRFPAHPRQADQVLECGRDLAAEVGDQRAAQPDEVCRLRAVEAGGTDDLLYLLLFCRGVCGGRRKAGEKRRGDLVDAHVGGLGAEHGGDEQLQRVGEVELRVRVGEHRRERAVDAARAAGAPDGCLRALGRRVGTGPAVPLGSQRRCRARRAGGSSHRRNYSDRCNQAGRISPMTVVLVALAPVILGLFAVGMEKLESSLFS				NA	NA	NA	NA	NA
AK009_08864	570			hypothetical protein	ATGAATAGGACAGCAGTACTGGGTGTGGCCGCCGCGGTGGTGGCGACCATCGTCGTGCTGGCCGGGGCCCTGGTCCTGCTGCGCCCGACCCCGGGCGGTTCTCAGGGGCAGGGGACGCCGGTGGAGGCGTCGACAAGCAGCGCGGCGGCGGTTCCCGCGCGGCCCGATTGCCCCGGGCGCGAGGTCGGCGGGGTGGAGCTTGATTGCCTCGGCGGCGGGTATGTCGATCCCGCCATCGACGTCACTGTGGTCAACGTCTGGGCGTGGTGGTGCGAGCCGTGCCGCGAGGAGCTGCCGGTGATCGAGCAGTTCGCCGCCGAAAACCCGCAGTTCAGTGTGGTCGGCGTGCACGCTGATGCGGCCGCCGCGAACGGTGCGGCGATGCTCAACGAGCTCGGTGTCGGGCTGCCGAGCTACCAGGACAGTGACAACACTTTCGCGGGCACCCTGGGGCTGCCCGGGGTGATCCCGCTGACCGTGGTGTTTCGCGGCGATGAGCAGCTCGCCGTGTTCCCGAAGGTGTTCGGCAGCGCCGCCGAGCTAGACGCCGCTGTGACAGGGGTGCTCTAA	MNRTAVLGVAAAVVATIVVLAGALVLLRPTPGGSQGQGTPVEASTSSAAAVPARPDCPGREVGGVELDCLGGGYVDPAIDVTVVNVWAWWCEPCREELPVIEQFAAENPQFSVVGVHADAAAANGAAMLNELGVGLPSYQDSDNTFAGTLGLPGVIPLTVVFRGDEQLAVFPKVFGSAAELDAAVTGVL				NA	NA	NA	NA	NA
AK009_08865	867			hypothetical protein	GTGGGTGGAGCGGAACCGGGCCCGCTCGCGCACCCCGGAGCCGACGACGAGGCCGACCATGTTGCCCATGCCCACAAACAGCACCACCACGGCGAGCAGAATCACGAGCTTGACCGCCCGGGTTTCGGCGAGGTTGACCAGCAGCGGCGCGATGGCCAGGCCGACGATCAGCCCGGCGACGACACCCACCATCGACAACACCGCCCTGAGCGCGCCTTGGCGCCAGCCGCTGACGAACGCGGCGATGATCACGGCAACAAGGATTACATCGACGATGACAGCGGCGTCCAACGCGTCGGTTCTCCCTCGGTTTTTCGGTACGGGCCTACTTCGTGCGAGTTGATGTTACTCCGGGTGGGGCTAAAAGTGGCGCTCCCCGTTGCGCGAACGCTTCAGCGCCCGGCGCAGCGGCACGACCGTGGGGTCGTAGGGTGTGGCCCATCCGGCAGCGTCGAAGAGGACGTCGAGAAGCACGCCCGTAAAGCCCCAGACGAGGTAGTCGTTGACCCAAAACGCCGGCCCGGTGAACCCGGAAAAGCCGACGTCCAGGCGGTTTTCGGGGGCGAGGAGCTCCGTGACCGGGGCGAAGAAAACGTCGTCCGTTTCCACCGGGCTGGCCACGTACGGGCTTCCCGGGTCGGCCGAGTAGGCGAGCACGGGGCGTACCGCGCGGCGGCGCCCTCCGGCGGTGGTCAGCGAGGGCATCACGGCCAGCGGCGTGACGCGCTCGCGCTCCAGGCCCGTTTCCTCCCACGCCTCGCGCAGCGCGGCGTCGACGGGCCCGAGGTCGGTGTCGTCGATACGCCCGCCGGGAAACGCCATCTGCCCGGAGTGGCTGCGCATCGTCGGCGTGCGGTGCGTGATTAA	MGGAEPGPLAHPGADDEADHVAHAHKQHHHGEQNHELDRPGFGEVDQQRRDGQADDQPGDDTHHRQHRPERALAPAADERGDDHGNKDYIDDDSGVQRVGSPSVFRYGPTSCELMLLRVGLKVALPVARTLQRPAQRHDRGVVGCGPSGSVEEDVEKHARKAPDEVVVDPKRRPGEPGKADVQAVFGGEELRDRGEENVVRFHRAGHVRASRVGRVGEHGAYRAAAPSGGGQRGHHGQRRDALALQARFLPRLAQRGVDGPEVGVVDTPAGKRHLPGVAAHRRRAVRD				NA	NA	NA	NA	NA
AK009_08866	186			hypothetical protein	ATGGGCGTTGGTGATCACATAGTCCTCGGCGGCCACGAAGCCGGAGCCCATCAGCTTGCGCCCGCACACCCCGGCGTCACCCATAACGTGCACCACGCTCGGGCTGACGCGGTCGACCACCTCCGGGTCGACCGCTGCCGCGTCGGGGGCGTCGACCTGCTGGCCGCCGGGCGTGGCAAAGGGTGA	MGVGDHIVLGGHEAGAHQLAPAHPGVTHNVHHARADAVDHLRVDRCRVGGVDLLAAGRGKG				NA	NA	NA	NA	NA
AK009_08867	1128			hypothetical protein	GTGGGCGAGCGCACTGCGGCCGAGCATGGGCATGAAATCCCACGGCCGCGAGGCCATCGCCGCGCGCAGGTCCGCCGGGTGCGATGCGGAAACGGACACCAGCCCCGCGACCGTTTCCGGGTGTGTGGCAGCGCTCACCCAGGCGACCGCGCCCCCCGTGTCGACGCCGACGAGCACGGCGCGTTTATGCCCGAGGGTGGCTATCGCGCCCTTGACGTCGCCGACGGCGAGCAGCATGTCGCTGCCGGGCCGGGGCGGGGGCTTGTCCGACATGCCGTAGCCGCGCATGTCCAGCGCGGCGACGTGAAAGCCCCGCTGCGCGAGCGGGGCAACAACGTCGGAAAAATCGAACCACCCACCGAACGTGCCGTGGAGCAGCACGATCAGCGGGCAGTCCGCGTCGCCCGCGGTCACCGCGTGGAGGCGGGTGCCGCGGGTGTGGAGCATGCGGTGGGTGAAATCGCCCTCAAGCTCGACTACCGACGGGGGGAGTCGGCGTCCGGGGGTGGCCACCGCGTTACTACGCTCGAGCTAGTCGACGTTCGCCACGGTGGAGCCGCCGCGCGGCGGGACGGGGCGACCGGTCGGCGCGGATCCGCCGGTGTAGAGGGCACTGTCGTCCTCGGCGAGGTTCTTCTTCGCCTGGCCCGGGACGAGGTTCTTCAGCTCGTTAACCGACTCAATGGTGCGCTCGGGGGACTTGATCTTCTTGAACTTGCGCAGACCGACGAAGGCGAGGATGCCGGCGACGGCGAGCATGACAAGGAAGACGATGAGGAAGGCTGCCCACCACGGCACCCACAGCTGGAGCAGCGCGGCGAGGAAGAAGAAGAAAAAGAAGGTGGAGTAAAGCGCGATGACGCCGGCGCCGGCGAAGAGGCCGCCGCCGATGGCGCCCTTCTTTACCTCGCCGATGACCTCGGTCTTGGCAAGCTCGATCTCGTTGCGCACCAGGCGGGAAACCTGCTCGGTGGCGTTGGAGACCAGATCACCAATGGAGTCCTGTCCCGGCTGCGTGACGTCGGTGTCGCGCAGCGGGATGGAGTCCACCTTCGCGGAGATGGCTGTCGAACCGTTCGTGTAGAGACCCTTATTGCTCACGTTGAATACCTTCCTCGGTGGCGCTAG	MGERTAAEHGHEIPRPRGHRRAQVRRVRCGNGHQPRDRFRVCGSAHPGDRAPRVDADEHGAFMPEGGYRALDVADGEQHVAAGPGRGLVRHAVAAHVQRGDVKAPLRERGNNVGKIEPPTERAVEQHDQRAVRVARGHRVEAGAAGVEHAVGEIALKLDYRRGESASGGGHRVTTLELVDVRHGGAAARRDGATGRRGSAGVEGTVVLGEVLLRLARDEVLQLVNRLNGALGGLDLLELAQTDEGEDAGDGEHDKEDDEEGCPPRHPQLEQRGEEEEEKEGGVKRDDAGAGEEAAADGALLYLADDLGLGKLDLVAHQAGNLLGGVGDQITNGVLSRLRDVGVAQRDGVHLRGDGCRTVRVETLIAHVEYLPRWR				NA	NA	NA	NA	NA
AK009_08868	690			hypothetical protein	GTGCTTGAAAATGCGCACCTCCCACCCGTTGTCCTGGGCGTGCTTGCGCAGCGCGCGGTCCGGGTTGACCGCCACGGCGTGGCCCACCATCTCCAGCATCGGGATGTCGGTGGCGGAGTCGGAGTAGGCGTAGCAGAGCTCGAGGTCGTAGCTGTGGGAGTCGGCGAATTCGGCCACCGCCTCGGCCTTGGCGTCGCCTTTGAGGAAGCGGGTGATGTTGCCGGTGAGTTTGCCGTCGACAATCTCAAGCTCGGTGGCGACGATCATGTCCACCCCGAGCTCGCGCGCGATCGGCTCGACAAGGATGTCGGCCGAGGCGGAAATGATGATGATGTCGCGGCCGTGGCGCTTGTGGTAATCGATCAGCTCGCGGGCCTCGGCGTAGATCGCGGGCGTGACCACGCTGCGCATCGTCTCGGTGGTGATGCGGTTGATGTCCTCGACCGACCAGCCGGCGACGAGCTGGGAGAGGTAGTCCCGCGTCGAGTCCATTTGCTCGCTGGAGTGCCCGGTAAGCATGTAGGAGGCCTTGGTCATGTAGATCTCCACGGCCTCTTGGCGCGAGATCAGCCCGTTGTTGAGGAACTCCTTGCCAAAAGCAAACGCAGACGAGGTCGCGATGATGGTCTTGTCCAGGTCGAAGAAGGCGGCGGTCCGCGGTGTCGCGGCGCCCGCGCTTCCTCCGCTTAA	MLENAHLPPVVLGVLAQRAVRVDRHGVAHHLQHRDVGGGVGVGVAELEVVAVGVGEFGHRLGLGVAFEEAGDVAGEFAVDNLKLGGDDHVHPELARDRLDKDVGRGGNDDDVAAVALVVIDQLAGLGVDRGRDHAAHRLGGDAVDVLDRPAGDELGEVVPRRVHLLAGVPGKHVGGLGHVDLHGLLARDQPVVEELLAKSKRRRGRDDGLVQVEEGGGPRCRGARASSA				NA	NA	NA	NA	NA
AK009_08870	504			hypothetical protein	GTGGGCGTCGATCACAGTGGGTTCGCACTCGCGCGCCGCCGCGCGGCTTATCGACGCGCACAGCGTCGACGCCCCCACCCCTCCTGCCGCGCCGATTACGGCGATGACCTTGCCCTCCACGCGGCGCAGGCGCGGGGTGCGCTCGAGCGCCCCGAGGGCACGCAAAAGCTCTGCGGCCTGGGCCGGCAGGACGAAGGCGGCCTCGGCCGCGGGGTAGGCGGCGTGCGCTTCCGCGACGGCGCCCACGTCGGGTCCGACGACGAAGATCCCTGCCCGGTGTGGGGTGCGCGAGAGCTCTGTGAGGTGCTGGGGGGCGTCGATAAGCACGGCGAAGGCCGAGTCGAGGTGGCGCTCGAGCGCGGCGGGCGAGGCGGTGGCGTCGATAAGTGCGCGGCCCGAGGCGGCAGCGAGGTGGACGGCTTCGGAGTGCGTGGCGGCGTCGTCAATCGCGATGAGGATGGGTGTTGGCTGCGGCATAGCTCCGACTGTTGCGCACGCGCTTGA	MGVDHSGFALARRRAAYRRAQRRRPHPSCRADYGDDLALHAAQARGALERPEGTQKLCGLGRQDEGGLGRGVGGVRFRDGAHVGSDDEDPCPVWGARELCEVLGGVDKHGEGRVEVALERGGRGGGVDKCAARGGSEVDGFGVRGGVVNRDEDGCWLRHSSDCCARA				NA	NA	NA	NA	NA
AK009_08871	1452			hypothetical protein	GTGCAGGGTGCCGGCGCCGCCGTCGTGGCCCGTGTTCAGCGCGGCGAGCAGGTCAACCACCTCAGCGCCGCGGATCTCGCCAACGACGATCCGGTCCGGGCGCATCCGCAGGGACTGCCGCAACAGGTCGGACAACGTGATCTCACCGGCGCCCTCAGCGTTGGCGCCCCGCGACGTCAGGTTGAGCACGTGCGGGTGGCTCGGCGTGAGCTCCAAGGTGTCCTCGATAACCACGATGCGCTCGGTGGCGTCGACCTCTGCCAGCATGGCGGACAGAAGCGTTGTCTTGCCGGCGCCCGTGCCACCAAGCACCAAAAACGCGCGCCGGTCGCGCACAATGCGGCGCAGCGCCGCGCCGCGCTCGGCGTCGAAGGCCCCGCGCGCGGCGAGGTCGTCGAGCGTGGCCGTGGTGGAGCGCAGCACGCGCAGCGAAATGCACGTGCCGACGTGCGCGGTGGGGTGCAGGACCGCGTGGAAGCGCAGGAGGGTGCCGTTGTCGCGGGTGAGGTGGCCGTCGCAGAACGGGTGGGCGTCGTCAAGCCTGCGCCCGCAACCAGCGGCGAGGCGGGAGGCGAGGCGGCGCACGTCCGCGTCCGCGGCAAAGCGCACCGGGGTGGCCTCGAGCCCGCTGCCGCGATCGACGTAGACGCCGTGCGGGCCGTTGACGCAGATGTCGGTTACCGTCGGATCTGCCAGGAGCTGCTCCAGCGGCCCGGCGCCGGTGGTGTCGTCGCGCAGCCTGCGCATGATGGTGAGGACGTCGACGTCGCTGAGCACGGCCGATTCCTCGCGGATCAGGGCCGACAGGCGCGCCGGGTCGACGTCGGCCTCGGCGGCGAGCCGGCGCTTGACGCGGGTGATGATCTCCTCCGTCGCCCGCGCGCTCATACCCCGACCTCCGCGATCACCTTCGCGGCGGCGCGTGCGAGCGGGCGGGGCAGGCGCAGCGGCAGGCCTGCGGTTTCGACCTTGCGGGTCAGCCCGGCGACTTCGGGCACGTCCGCGATGACGTCGAGCTTGGTCACGCGCTCGATCTCGCGCGCCGACAGCCCCGTCCAGGAGCGCCGCCGCGCCACGATCGCGCACCCGATGCTGTTCGCGGCGAGCTCGGCGCAGATCCGCGCGGCCGCGGCCGCCGCGCGCACCTCGCCGGGGGTGACCACGAGCGCTAGGTCGCAGCGCTGCGGCACGAGCCCCACGGGGCAATCCACCACGGTAAGCCCCGCGGAGCCCAGCGCCGCCACGGTGCGCTCGAGCATCAATGGGTCGAGCACGAAGGGGTCGGCGATCGTGGTACGCGAGCAGGTCAGCACCGCGATCCCGTCAGGGGTGCTCGGCAGCGCGCGCCGCACGTCACCGCGCTCGACACTGCCCTCCCCGAACGAGATCTCGCCCCACCGCGCGCCACCACGCTCCTCAATGCCGACGAGCAGGTCGAAGCCGCCGGAGTAG	MQGAGAAVVARVQRGEQVNHLSAADLANDDPVRAHPQGLPQQVGQRDLTGALSVGAPRRQVEHVRVARRELQGVLDNHDALGGVDLCQHGGQKRCLAGARATKHQKRAPVAHNAAQRRAALGVEGPARGEVVERGRGGAQHAQRNARADVRGGVQDRVEAQEGAVVAGEVAVAERVGVVKPAPATSGEAGGEAAHVRVRGKAHRGGLEPAAAIDVDAVRAVDADVGYRRICQELLQRPGAGGVVAQPAHDGEDVDVAEHGRFLADQGRQARRVDVGLGGEPALDAGDDLLRRPRAHTPTSAITFAAARASGRGRRSGRPAVSTLRVSPATSGTSAMTSSLVTRSISRADSPVQERRRATIAHPMLFAASSAQIRAAAAAARTSPGVTTSARSQRCGTSPTGQSTTVSPAEPSAATVRSSINGSSTKGSAIVVREQVSTAIPSGVLGSARRTSPRSTLPSPNEISPHRAPPRSSMPTSRSKPPE				NA	NA	NA	NA	NA
AK009_08872	516			hypothetical protein	GTGGATCGCGAGCGACCACAATGCGGCGACGTCGGCAAGCTCCGGTGCCGGCGCGGTGGCGAACACGTCGTGCGGGGCGGTGCCGGTACGCGCGGCGGCGACAAGCTGGCGCACGTTGTTGGCCAGGGGCGCCGGGCAGTCCTCCGGCAGGTGGTCTGCGGCGCGGCTGCAGGCGGCCTCGAGGGTGGACCCGGCCTGCACGTTGGTGACAACGTGGCCCAAAAACAGCGCCACTATTGCTTGTCGACGCCCCGCCCAACGCGCCCGCTGCCGCGCGCTGAGCACCCGCCACAGCGTCGCCGCGGCAATCGAGACGGCGATAACCAGCGAGAACCGCTCCGCCATGATGACGGCGAGGGTGGCCGCGAACACCGCCACGGGCAGGGCGGCGGGGTGGATCCGCGCGCGGGTCGCCGCCCCGTCGAGACGCACGGCCGGGCGAGGCGGGCGGCTCGCGATCACGGCGCTGACGAGAAGCGCTGCGGTTACGTTCATGGCCCGAACACCTCCCGGTAA	MDRERPQCGDVGKLRCRRGGEHVVRGGAGTRGGDKLAHVVGQGRRAVLRQVVCGAAAGGLEGGPGLHVGDNVAQKQRHYCLSTPRPTRPLPRAEHPPQRRRGNRDGDNQREPLRHDDGEGGREHRHGQGGGVDPRAGRRPVETHGRARRAARDHGADEKRCGYVHGPNTSR				NA	NA	NA	NA	NA
AK009_08873	186			hypothetical protein	GTGCGGCGAGGACGGTCATGCGGCGGCCCTCGCGATGATGTGCTGGCAGGTGAGAAACCCGGCGCTGATCAGCGCGGTCCCGCCGACGAGCAGCCACCCGCCGAGACCGCCGCCGAGCAGCAGGCCGAGCGGGTTGGCCCCCATCGCCGACCCCATCGCCACCCCGGCGAGCGGGAGCAGCGATAA	MRRGRSCGGPRDDVLAGEKPGADQRGPADEQPPAETAAEQQAERVGPHRRPHRHPGEREQR				NA	NA	NA	NA	NA
AK009_08874	372			hypothetical protein	GTGCGACAGCCCGACGAGACTGGCCAGTTCGGCGCCGCCAGGCACGCGGTGGAAGTCGGCCCACGCCTTGTCCGGCTCGACGCCGAGCACGGACAGAGCCGCGACGGTGCGCCACTGCTGCGCGAGCGGCTCCGGGCTGTCGGGGCCGTAGGAGTCGGCGACCGCTGCCGCCGCCGCGCTGACGGGCAGGCCGGCGCTAAAACAAGCGGCGAACAGCGAGATGTCCGAGGCGACTCGGTGCCGGTCGAACGTCGGCGAGCGGGCGGTGCGCGGCCCGTCGCGGGGTGTTTTCGGGACGCGGTCGCCGTCACCCGGGTGGAGGCGCTGCGCGGGGCGCGGCGGGGAGGCGCACAGGGCGCCGGCGATGAGTAG	MRQPDETGQFGAARHAVEVGPRLVRLDAEHGQSRDGAPLLRERLRAVGAVGVGDRCRRRADGQAGAKTSGEQRDVRGDSVPVERRRAGGARPVAGCFRDAVAVTRVEALRGARRGGAQGAGDE				NA	NA	NA	NA	NA
AK009_08875	204			hypothetical protein	ATGAACCGTCTTGCAGCATCACTTTTCACCCACATCCACACGAAACTGTCCAATGACAAGGGCATGAGCACCATCGAGTACGCCTTTGGCAGCCTCGCGGCCGCAGCCCTCGCCGGTGTTCTATACATGGTGGTCAACGGCAACGGTGTGACCTCGGCCATCGAGCGCGTCATCACCGACGCACTCAGTAACACCCCGGGCTAG	MNRLAASLFTHIHTKLSNDKGMSTIEYAFGSLAAAALAGVLYMVVNGNGVTSAIERVITDALSNTPG				NA	NA	NA	NA	NA
AK009_08876	294			hypothetical protein	ATGCTTTCCGACGACCGCGGCTCCGTCACCGTCGAAGCCGCACTCTCGCTCGCGGTGCTGGTGACGCTCGCGGCCGCGATTGTCGCAGGCATTGCCACCCTGGCCGCCTACATCTCCGCCGTCGACATTGCGGGCGCGGCGGCGCGCTCCCACGCCATCGGGGTCGATTTCACCCCGGGGCGCGGCACCGTCGAGGTGCACGAATCGGCGGGATTGGTGCACGTTACCGCGGTGGTCGACGCCCCGCTTACCCCGATGTCGGCCACGGCGACGTTCCCGGTGGAGTTCCGGTGA	MLSDDRGSVTVEAALSLAVLVTLAAAIVAGIATLAAYISAVDIAGAAARSHAIGVDFTPGRGTVEVHESAGLVHVTAVVDAPLTPMSATATFPVEFR				NA	NA	NA	NA	NA
AK009_08877	327			hypothetical protein	GTGAAGGCCCGGCGCCTCGCTGGCGACGAGGGCTACGCCACGGTCACCTCCGCCGGGATCATCGCCGCCGTGACCAGTCTTATGGTCCTCGTCGTGGGTGTCGGCGCGCGCGTTGCGGACAGCCACCGCGCCCAGCTCGCCGCTGACCTCGCCGCCACGGCGGGCGCGACCGCCCACTACAGCGGGGTCGACGCCTGCCGGGTGGCGGCGGAGACGGCAGCGCACAACTCCGCGCGCCTGCGCACGTGCGAGCTTATCGACGGCGACGTGACTGTCAACGTCAGCGTGTCCATGGCCACGGCGACGGCCCGCGCCGGGCCGCTATAG	MKARRLAGDEGYATVTSAGIIAAVTSLMVLVVGVGARVADSHRAQLAADLAATAGATAHYSGVDACRVAAETAAHNSARLRTCELIDGDVTVNVSVSMATATARAGPL				NA	NA	NA	NA	NA
AK009_08878	438			hypothetical protein	GTGGAAGCGGGTGAAGCCTTCGTCGGCAAACCCGGCCCCGCCGGGGTGTCCGTCGTAGACGAACACCGTCGGCAAAAGGGTGTCCTGGTGCAAGGCGGTGGACACGCCGCCGATGTCCCACCGGTCGCAGGTCGCCAGCAGGGGCAACAGCCCGATCGCCGCGTGTTCCGCGGCGTGCAGCGCCCCGGGGATCTCAGCGGGGATGATGCCGAGCTTGTCCAACACCAGCGGGTCGATGGTGTAGGCGACCGCGCGGGTGATCAGGCGCTGCTCGGGCAAATCGAGCGGGATGTGTTCGGAGACCGTGCCATCCGACAGGCGCACCACGTAGCCGGTGACGCGGTCAACCACCTCGACGTCAACGCTGGCCAGCCACAACCCCGGCGAGAGCTGGCGCGGCTCGCTGGCCTGTGCCAGGATGCTGATCTCCGTGGTTGA	MEAGEAFVGKPGPAGVSVVDEHRRQKGVLVQGGGHAADVPPVAGRQQGQQPDRRVFRGVQRPGDLSGDDAELVQHQRVDGVGDRAGDQALLGQIERDVFGDRAIRQAHHVAGDAVNHLDVNAGQPQPRRELARLAGLCQDADLRG				NA	NA	NA	NA	NA
AK009_08879	1452			hypothetical protein	GTGGGTGGAGTAGTCCGGCGTGGCCGGGGAGGCCAGCGCGACGTAATCGTGCAGGTCGAGGGTGTCGATGACGTAGTACTCGCCCTGGTGGATGTACACCGCCCCGTCGTGGACCTGGCTCATTGCGCGCGATGCGTCAATGGTGCCCAGCAGGCGGCCGTCGGAGCTATCGACGATCATCACCTGCTCCCCGGCGCCACCGCGCAGGCTCACCGCGGCGTGCGCGGTCTCCGGGCTGAGCTCACCCTCGAGCCGCGGCACCGCGAACCACCCGGAATTTCTACGGCGCAACAAGCCGGCCGCGACGAGCTCGTTGACGACACCGGCGGCGTCGAACTCCTCAACGTCGGCCTCGGTCAACGGCTTTTCCACGGCGGCGCAGTAAACGTGGTCGCGCAGGATGAAGGGGTTAGCGGGGTTGAACACGCTGTTCTCCACGGGCCTGCCCAGCAGCGCGGCCGGGTGGTTGACCAGGTAGGTGTCCATCGGCTCGTCGCGGGCGATCATCACCACCGCCGCCGACTGCCCGCGGCGCCCCGCGCGGCCCGCCTGCTGCCGGAAGGAAGCGACAGTGCCGGGAAAACCGGCCATGACCACGGCGTCGAGCCCGCCGACGTCGATACCCAGCTCGAGCGCGTTCGTGGTGGCCACGCCGAGCAAGTCCCCGTTGTCCAGCGCCCGTTCGAGCGCGCGGCGGTCCTCGGCAAGGTAGCCCGCGCGATACGACGCGATGCGCTCGGCGAAGTCTGCGCGGCCCGCGACCACCAGGTCTTCGGCCGTGCGCATGGCGACGAGCTCCGCGGCGCGCCGGGAGCGCACGAAGGTAAGCGTCCGCGCGCCCTGCTCAACCAGGGTGGCCATCACGCCCGCGGCCTCGGTGGTGGCGGCGCGGCGCACGTTGTCCTCGATAAACCCCGGCTCCCACAAGATCAGCGTTTTGTCGCCGGTGGGTGCACCGTCGTCCGTCACGGCCGTGACCTCGCGACCGCACAAACGCCCCGCCTGGCCAGCGGGATCCGCGGTTGTGGCCGAGGCGAAGATCAGCGTCGGGGAGCTACCGTAGGCACGGCACATCCGCAGCAGCCGGCGCAGCACGAGCGAGACGTGCGCGCCGAACACCCCGCGGTAGGTGTGGCACTCGTCGACGACGATAAAACGCAGGTGACGCAGCAGGCGCGCCCACCTGACGTGGTTCGACAGGATGCCCGCGTGCAGCATGTCGGGGTTGGTGAACACGAAGCGGGTCTGCTCGCGGATCCCGGAGCGCGCCTCGACGGGAGTGTCCCCGTCATAGGGGGCGGGGTTGACGCCGCGCAGGCCCGGCACCTCGCGCACCAGCCTGGAGGCGGACTGCAGCTGGTCGGAGCCGAGCGCCTTCGTCGGTGTGAGGTACATCGCGCAGGCCTGCGGGTCGGCGGCCAGCGTGGTCAGGACGGGGAGCTGGTAGCATAG	MGGVVRRGRGGQRDVIVQVEGVDDVVLALVDVHRPVVDLAHCARCVNGAQQAAVGAIDDHHLLPGATAQAHRGVRGLRAELTLEPRHREPPGISTAQQAGRDELVDDTGGVELLNVGLGQRLFHGGAVNVVAQDEGVSGVEHAVLHGPAQQRGRVVDQVGVHRLVAGDHHHRRRLPAAPRAARLLPEGSDSAGKTGHDHGVEPADVDTQLERVRGGHAEQVPVVQRPFERAAVLGKVARAIRRDALGEVCAARDHQVFGRAHGDELRGAPGAHEGKRPRALLNQGGHHARGLGGGGAAHVVLDKPRLPQDQRFVAGGCTVVRHGRDLATAQTPRLASGIRGCGRGEDQRRGATVGTAHPQQPAQHERDVRAEHPAVGVALVDDDKTQVTQQARPPDVVRQDARVQHVGVGEHEAGLLADPGARLDGSVPVIGGGVDAAQARHLAHQPGGGLQLVGAERLRRCEVHRAGLRVGGQRGQDGELVA				NA	NA	NA	NA	NA
AK009_08880	126			hypothetical protein	GTGGGTGATGGTGGCGGACGGAAAACGCTCGCGGAGCTGGGCGAGGATCTCGGCGCCGAAGGAAAGAGACATCGGGGCAAAAGAGTACGCCACAACATTCGACGGGGCGAACAATTCATGGCATAA	MGDGGGRKTLAELGEDLGAEGKRHRGKRVRHNIRRGEQFMA				NA	NA	NA	NA	NA
AK009_08881	204	cspA_4	COG1278	putative cold shock protein A	ATGGCTACCGGAACTGTCAAATGGTTCAACGCTGAAAAGGGCTTCGGCTTCATCGCTCCCGACGACGGCTCTGCCGACGTCTTCGTTCACTACTCCGAGATCCAGGGCAACGGCTTCCGTACCCTCGAGGAGAACCAGCAGGTCGAGTTCGAGATCGGCGACGGCGCCAAGGGCCCGCAGGCCCAGGCTGTTCGCCCGCTCTAA	MATGTVKWFNAEKGFGFIAPDDGSADVFVHYSEIQGNGFRTLEENQQVEFEIGDGAKGPQAQAVRPL	PGPT0014675_7791	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK009_08882	693			hypothetical protein	ATGTCAGAGCTTGGACACCCCGCGGCGCACGTCCAGCCACTCGAACAGGCGCACCTGGAGCTTCTGGATACCGAAGCCGACGAGCGAGCCGAGGGTCACGCCTACGATCAAGGCCAGCAGCGGCCAGTCGGCGAACAGGGAACCGCCCAGGTAGCCCACGCCGACGCTGAGCAGGGCCCAGATGATCACGCCGATGGTGTCGTAGAAGAAGAAGGCGAACCAGTTGTAGCCCACCGAGCCGAGCACAATGGTGGCCACCCAGCGCGCCCAGGGAATAAACCGCGCGACGATGATCGTGGCGCCGGCGCGGCGCTTCATGTTCCTGCGTACCCACGTGATCGCGGTGCCGGCCTTCGAGTCTGGGTCGAGGCGGTTGACCACTTTGATCAGACGACTGCCGAGCAGGAAGCAGATGTTATCGCCGATGATCGCGCCGATGATCGCGGCGATGATCACCCCCATGGGGTTGGGCACGCCCACGGAGGCGGAAAACGCGCCCGCGAGGTTGAGCACCGTCTCCGAGGGGATGATCGGCGCGAGCGCGTCGCCGATGATAAGGAGCGTGACCAGCGGATAAAAGATGGGCATCTGCATCAGGTTCTCGAGGAAGCTGATGAGGGAATCGATCACCGGGGTTCTCCTTGTCGTACGCGTTCACGCTGCGGGCTCGGCGCAACTTCCCAGCGATTCTAG	MSELGHPAAHVQPLEQAHLELLDTEADERAEGHAYDQGQQRPVGEQGTAQVAHADAEQGPDDHADGVVEEEGEPVVAHRAEHNGGHPARPGNKPRDDDRGAGAALHVPAYPRDRGAGLRVWVEAVDHFDQTTAEQEADVIADDRADDRGDDHPHGVGHAHGGGKRAREVEHRLRGDDRRERVADDKERDQRIKDGHLHQVLEEADEGIDHRGSPCRTRSRCGLGATSQRF				NA	NA	NA	NA	NA
AK009_08883	1698			hypothetical protein	GTGGGCGATCTCGTCGAGCTCGTCCTCCATGGAGGAGGTGAAGTCGTAGTCCACGAGCGCGTCGAAGTTGTTCTCCATCAGCCCGATGACCGAAAACGCCACCCACGTGGGCACCAAAGCGTTGCCGCGGGCGACCACGTAGCCGCGGTCCTGGATGGTCTTGATAATCGAGGCGTACGTCGACGGTCGCCCAATGCCGAGGTCTTCCATCTTTTTAACGAGGCTGGCTTCGTTGTAGCGCGCCGGCGGGTTGGTGGAGTGGCCATCGGCGGTGATCTTCACCGTGGTCAGGACGTCGCCCTTGCTCAGCTGCGGCAGGTGCGTCTCGTTGTCCTGGGTGTCGGAGTAGGCGCGCAACCAGCCCGGGAACGTGATCGTGCGGCCGGTAGCGGCGAACTCGACCTTCTCCCCCGAAGCAGCCTCACCCGCCACCGTGACCTTCATCGAGGTGCCGCGGGCGTCCTCCATTTGGGAGGCGACGGTGCGTTGCCAGATCAGCTCGTAGAGCTTGAACTCCTCGGCGTCGAGCGAGTTGGCCAGCTGGCCGGGCGTGGAAAAGCGCTCGCCTGCGGGGCGAATCGCCTCGTGCGCCTCCTGGGAGTTTTTCGCCTTGCGCGCATAGGTGCGCGGCTGCGCCGTGACGTAGTTCGCCCCGTAAAGCTCCGTCGCGGCCGTGCGCGCCGCTTGAAGCCCCTGCGCCGACAGCGCCGTGGAATCCGTACGCATGTAGGTGATGTGGCCGTTTTCGTACAAGCGCTGCGCAATGCGCATCGTGCGCGCGGACGTGAAATGCAGCTTCCGCCCCGCCTCCTGCTGCAGCGTCGAGGTCATGAACGGCGCATACGGCCGACGCGAATACGGCTTTTCCTCTACGTCCGCAACGCTCATGTCCCGGTGTTCGAGTCCCTCGGCCAGCGCCTCGGCGGCGGCCTGATCGACCACGTACACGTCGTCGGACTTGACGTGGCCCCGGTCGTCGAAGTCGCGGCCCTGGGCGACGCGGCGCTCATCAACGCTCACCAGCTTCGCGTCGAACTCGCTAGCGCCCTTCAGCGTCGCGGTGAGGTCCCAGTACTCGGCGGAGATAAACGCCATGCGCTCGCGCTCGCGCTCGACGATGACGCGGGTCGCCACCGACTGCACGCGCCCCGCCGACAGGCGCGGCATGACCTTTTTCCACAGCACCGGGCTGACTTCGTAACCGTAGAGGCGGTCCAGGATACGGCGGGTCTCCTGGGCGTCGACCAGGTTGTGGTCGAGCTCGCGGGTGTTCTCGGCCGCGTCGCGGATCGCGGACTCGGTGATCTCGTTAAACACCATGCGCTCGACGGGGACCTGCGGCTTGAGCGTTTCCAAAAGGTGCCAGGCAATCGCCTCGCCCTCACGGTCCGGGTCTGTGGCGAGCAGGAGCTTGTCGGACTCCTTCAGCTTGGCCTTGAGGTCCGCGACCTTCTTCTTCTTGTCGGGGCTGACCACGTAGATCGCCTCGAACCCGTCCTCCGGGTTGACGCCCAGCTTCGCCCAGGGCTCGTTCTTGTACTTCGCCGGGATGTCGGCCGCGCGGCCGGGGAGATCACGGATGTGGCCCACGGAGGCTTCGACGATGAAATCGTTGCCCAGGTACTTCTGGATCTTCTTGGCCTTCGTCGCCGACTCGACGATGACGAGGGTCTTACCGTTATCCGCCACGCTGGGTGA	MGDLVELVLHGGGEVVVHERVEVVLHQPDDRKRHPRGHQSVAAGDHVAAVLDGLDNRGVRRRSPNAEVFHLFNEAGFVVARRRVGGVAIGGDLHRGQDVALAQLRQVRLVVLGVGVGAQPARERDRAAGSGELDLLPRSSLTRHRDLHRGAAGVLHLGGDGALPDQLVELELLGVERVGQLAGRGKALACGANRLVRLLGVFRLARIGARLRRDVVRPVKLRRGRARRLKPLRRQRRGIRTHVGDVAVFVQALRNAHRARGREMQLPPRLLLQRRGHERRIRPTRIRLFLYVRNAHVPVFESLGQRLGGGLIDHVHVVGLDVAPVVEVAALGDAALINAHQLRVELASALQRRGEVPVLGGDKRHALALALDDDAGRHRLHAPRRQARHDLFPQHRADFVTVEAVQDTAGLLGVDQVVVELAGVLGRVADRGLGDLVKHHALDGDLRLERFQKVPGNRLALTVRVCGEQELVGLLQLGLEVRDLLLLVGADHVDRLEPVLRVDAQLRPGLVLVLRRDVGRAAGEITDVAHGGFDDEIVAQVLLDLLGLRRRLDDDEGLTVIRHAG				NA	NA	NA	NA	NA
AK009_08884	1077			hypothetical protein	GTGGCCGGCGACGACGTGGCCGGAGGCCACCCCGATCCCGGCCTGGAGCTTGAGCCCGCGCAGTTCTTGGCGCAGTTCGCGCGCGGTTTGCAGCGCGTGGGAGGTGGCGTCGTGAAGCGCTGTGGGCGCGCCGTAGACCGCGAGCGCCGCGTCGCCCTGGAACTTGTTGATCACTCCCTTGTTGCGGTGCACGACCTCGACGACGATGGCGAAGAACTCGTTGAGGGCGGCGACGACCTCCTCGGGGGAGTGGTTCACGGCGAAGGTCGTCGAGCCGATGACGTCGACGAACACGACCGCGGCCTTGCGGTCCTCGCCTCCGAGCTCGGGTTTTTCCTCGAGCGCGCGTTGCGCGACCTCGGAACCGACGTAGTGGCCGAAGATGTCGCGCACCCGCTGGCGCTCGTTGAGCCCGCGCATCATTTCGTTGAAGCCGGCTTGCAGGACGCCGATCTCGGAGCCGTCGTAGATGTCAACCTGGGTGTCCGATTCGCCGCGGCGGACCCGGTTGATCGCCTCCTGGAGCTCCTTGATCGGGTCGACCACGCCCATGATGGCGAAGATGGTGCCGATGCTGCCGGTGGCGAGCGCGGTAAGCGAGAGTGCGGAGACGGCCGGCATGAGTTCACCGGGGGTGTTGGTGAAAAACCCGCTGCGCTGCGCCCACACCAACAGGAGGATTCCGATCAGCGGGATCGCGGTGGTGGTGAACCACGTCATGTACAGACGCGTCTTGATGGGCGGCTCGAGTGTGGAGTCCTCGAAGCGCCGCGCCAGCGCGGAGGCCGCGATGGGGCGCACCAGGCGCGCGGCCTGGACGTAGGTCAACAGGGCGACCACGAGGCAGGCCATGAGCGTGGAGATGAGAACCACGATGGTCAGGCGGGCGTCGATACGCGATGTGGCGATGGTGGCGATCGCGATGCCGATCAGCCACACCCCGACCACAATCACCGTCTGCAGCGTCGGGATGCGCAAAACCAGGTTTCTGACCATGTTGGGGTCGTGGCCCTCCGGCGCGCGCTGCCACTCCAAGACGGGCCTGAACAGGAAGAACGTGACCACCACGCCCACTAA	MAGDDVAGGHPDPGLELEPAQFLAQFARGLQRVGGGVVKRCGRAVDRERRVALELVDHSLVAVHDLDDDGEELVEGGDDLLGGVVHGEGRRADDVDEHDRGLAVLASELGFFLERALRDLGTDVVAEDVAHPLALVEPAHHFVEAGLQDADLGAVVDVNLGVRFAAADPVDRLLELLDRVDHAHDGEDGADAAGGERGKRECGDGRHEFTGGVGEKPAALRPHQQEDSDQRDRGGGEPRHVQTRLDGRLECGVLEAPRQRGGRDGAHQARGLDVGQQGDHEAGHERGDENHDGQAGVDTRCGDGGDRDADQPHPDHNHRLQRRDAQNQVSDHVGVVALRRALPLQDGPEQEERDHHAH				NA	NA	NA	NA	NA
AK009_08885	321			hypothetical protein	GTGCACGACATCGGTGTGGGCGCCGGCGAATACGGCGCGGCAGTTGTCGCAGCGGCCGCAGCCGACCACATCGGGGTCCGTGCACACCAGCGCGGCGGCGAAGGCGACAGCCGTGGTGGAGCGGCCCGCGCCGGGAGGACCCGTGAACAGCCAGGCGTGCGACATGGCGTAGCTCTCCCCCGCGCCGCGCGCCGCCTCGGCCGCGCGCAGGATTGTCTCGCGCACCCGGGGAATGTCCGCGAGGCGCTCGCTCACGCTTGCCCTAGTCACGACTGCCACAGTACTACCTGCCCCGCGCCAACAGCGATCCCACTAAAGTAG	MHDIGVGAGEYGAAVVAAAAADHIGVRAHQRGGEGDSRGGAARAGRTREQPGVRHGVALPRAARRLGRAQDCLAHPGNVREALAHACPSHDCHSTTCPAPTAIPLK				NA	NA	NA	NA	NA
AK009_08886	498			hypothetical protein	GTGCGCGGCGACGGCCTCCTTATCGGCGGCGGCGACCAGTGCGCCCACGGCCTTGAACGCGGCATCGCCGTGGAAGACCAGCTCCGCCAGGTTGATCACCTGCGCGCGGTGGGTCTGCGCGCCGGACTCGCGCACGAGCCGGCGAGCCCGGCCGATGTGGCGCAGCGAGGCCGCGGCAGCCAGGCGCGCGACCTCCTCGCTCGCCCCCTCCTCCTGGGTCAGCAACCGCACGATTTCACTTTCCGACGGCGCCGGGACGTAAAGGTGGCGGCAGCGCGAGCGCAGCGTGGTGGAAAAGTCCTCGGGGTCGGTCGATGGCGCCGACAAGATGATCACGGTCGACGCGGGGGGTTCCTCGACGGTTTTGAGGAATGCGTCGGCTGCGGCCGTCGAGAAGCGATCTGCCTCGTCGATGATGATGACGCGCCACGCGCCGACCGTCGGCAAGCGCGATGCCTGGTTGACGATCCCGCGCACCGTTTCCACGGAAATCACTAG	MRGDGLLIGGGDQCAHGLERGIAVEDQLRQVDHLRAVGLRAGLAHEPASPADVAQRGRGSQARDLLARPLLLGQQPHDFTFRRRRDVKVAAARAQRGGKVLGVGRWRRQDDHGRRGGFLDGFEECVGCGRREAICLVDDDDAPRADRRQARCLVDDPAHRFHGNH				NA	NA	NA	NA	NA
AK009_08887	171			hypothetical protein	ATGGGACAGCCCCTCGAAGTCGGGGTGGGTCAGCCCGACCCGCGCGCCGCTGGCCAGGACGAGCGCGTCGCGGTAGATGCCGGCCAGGTCCACCAGTGCGAGATCGAGGACGTCGCGGGTGCGCCGCGTGCCGCGCGCTTTCTGCTGCGTCTCCAGCTGCTTGACGCTTGA	MGQPLEVGVGQPDPRAAGQDERVAVDAGQVHQCEIEDVAGAPRAARFLLRLQLLDA				NA	NA	NA	NA	NA
AK009_08889	297			hypothetical protein	ATGGCCGTACACATCCAGCGTCATGTCGGCGGAAGCATGGCCAAGCATCCTCTGGATCACTTTGATATTTGCCCCAGAGGAGATGGCAAGGGACGCCGCAGTGTGCCTCAGGTCATGGACGGTGACTGGGGGGAGCGGAGTACCGAGAATTTCGCCGGCTTCCTTTACTGCACCAAGGAAGACTCTTGGGCCCGACCCCTGGAAAGTGGACACAGGGAATTGAACTTATGCGGTCAAGGTGAGTTTACCGCAGGTGCGGTTTTCGAACTCGAGGGGCGACAGATAATCGCACCATGA	MAVHIQRHVGGSMAKHPLDHFDICPRGDGKGRRSVPQVMDGDWGERSTENFAGFLYCTKEDSWARPLESGHRELNLCGQGEFTAGAVFELEGRQIIAP				NA	NA	NA	NA	NA
AK009_08890	459	gloB_5		Hydroxyacylglutathione hydrolase	GTGGAGATCACTGACGTCCTGACGACCCACCGCCACGAGGACCACACCCGCGCGCTGCCGGAGGTCCTGGAGCGCACCGGGGCGCGCCACTGGGCGTCGTTCCTCGACGCGCCCGCGCTGCCCGCGCCGGTGGACGTGGAGCTGGGCGACGACGACGCCATCGAGTTCGTCGGCCAGCGCCTGAACACGATGATTCTGCGCGGCCACACCCCCGGCGGCGCGGCGGTGGTCGTCGATATCGACGGCACCCCGAACGCCTTCGTCGGAGATTCCCTGTTCCCGGGCGGTTTGGGCAAGACCGCGGGCGAGGGCGAGTTCGTGCGCCTGTTTAAGGAAGTGACCACCAAGCTTTTCGACGTCTACCCCGACGCCACCATCGTCCGGCCTGGCCACGGTGAACCGACGACCCTGGGCAAAGAGCGAGCCTCGCTTGACGAGTGGTGGCGGCGACGGTGGTAA	MEITDVLTTHRHEDHTRALPEVLERTGARHWASFLDAPALPAPVDVELGDDDAIEFVGQRLNTMILRGHTPGGAAVVVDIDGTPNAFVGDSLFPGGLGKTAGEGEFVRLFKEVTTKLFDVYPDATIVRPGHGEPTTLGKERASLDEWWRRRW				NA	NA	NA	NA	NA
AK009_08891	1008			hypothetical protein	ATGATCCGCAAGCTTGCACGCCCTATGCTCGCGTCCGTGTACGTGATTGATGGCGTCGAAACCGTCATTAACCCCTCCGCTCACCGCGAGAGCGCAGAGTCCGTGCTGACCAAGCTCCGCTCCGTCGTCCCCGCCCCGTACCGTGCGTACCTGCCGTCTTCCCCGGAGACCGCAGCGCAGATCGTGGGTGGCGTCAAGGCTGGCGCTGGCTCCCTGTTTGCGCTGGGCAAGGCACCGCGCACCGCGGCGACCCTGCTCGCCGTGACCGCCATCCCTTCCCTCGTGGGCCGCCACGCGTTCTGGGAGGCTACCGACGAGGATGAGAAGGCACGTCGCCGTAGCGGCGCCATCTCCGACGCCGCCCTGCTCGGCGGCATACTCCTCGCCACCGTCGACACCGCCGGTAACCCGGGCCTGCAGTGGCGCGCCAAGCAGGCCGCTCGCGTGGCCAAGAAGAACGTCCAGCAGGCACTGCCGACCCAATCCGAGTCCGAGAAGGCTCTGAGCAAGGCTGGCGACTGGATCTCCGAGACCACCGACCAGGTCACCTCCTACGTCGACGACAACAAGGACGACTGGGCAAAGACCGCGTCCAACCTCGCGGAAGACGCAAAGAAGCAGACCTCGAACTTCCTGTCCTCCGCGTCGAGCTTCATCGACGACGCGACCACCCAGGCGCAGGAGGCCTACCAGGACGCGAAGCCGAACAAGCTGGAGCAGTTTGTAGCGAAGCGCAAGGTCAAGTCCACCGCAAACAACATCGCTGACACCCTGCAGTCCACCCTGGATGACCTCTCCCCGTCCGCTCTGGACAAGGTCAAGGCAAAGCGCAAGGCCTCCAAGGTGCAGAACCGCGCCCAGGACGCCGTGTCCAACCTGCAGGACGCGTTCTCCGATCTGGATCTGGCACCCTCGCGTCGCCAGAAGCGCAAAGCTGAGAAGAACGTCAAGCAGCTGCAGAAGCGCGCCGAGAAGGCCGTGAAGCAGGCTCAGAAGAAGCTCGGCTAG	MIRKLARPMLASVYVIDGVETVINPSAHRESAESVLTKLRSVVPAPYRAYLPSSPETAAQIVGGVKAGAGSLFALGKAPRTAATLLAVTAIPSLVGRHAFWEATDEDEKARRRSGAISDAALLGGILLATVDTAGNPGLQWRAKQAARVAKKNVQQALPTQSESEKALSKAGDWISETTDQVTSYVDDNKDDWAKTASNLAEDAKKQTSNFLSSASSFIDDATTQAQEAYQDAKPNKLEQFVAKRKVKSTANNIADTLQSTLDDLSPSALDKVKAKRKASKVQNRAQDAVSNLQDAFSDLDLAPSRRQKRKAEKNVKQLQKRAEKAVKQAQKKLG				NA	NA	NA	NA	NA
AK009_08892	576			hypothetical protein	GTGCGCCGTGGTGGCCAGGTAGTACGGCCGGGCCATCGGGGCGCGCCAGTCCAGCAGGAGGGTGCGGTAGTTGTCGGCGCGGTCCTCCATACCGATGCGTCCGATGTAGCGGCGGTCCAGCTCGGGCCTGCCCTCGACGGGGTTGTCGGCGTCGGAGTCTGCTATGTCGAGGCGGCCGAAGACGAGGCCCACCTCGGCCACGTTGAGGGTATCCAGCTTGGCGTTGAGCGCGTGGTACTGCGTTTCGCGCCGCACCAGCGCGTCGGAGTCGGGGTTGTCCGGGTCGACGTCGGCCTGCACCTTATCGAGCTGGGCGCGCGCGGCGGCCACCTCGGCGTCGAGACGCGAAAAGAGCATGTCCGCGTAGGCCTGCTCCCGGTCAATCTCCGGCGATCCACTCAACCGCGGGCCTCCTTGGTGGGTCATAACGTCAATACAGAAAGCGCCATTCTACCAACGGCGAAACCCCGCCACCGGTGTGGTGACGGGGTGAGCGCTTGCGCTGACGGAAAGACTAGCCGAGCTTCTTCTGAGCCTGCTTCACGGCCTTCTCGGCGCGCTTCTGCAGCTGCTTGA	MRRGGQVVRPGHRGAPVQQEGAVVVGAVLHTDASDVAAVQLGPALDGVVGVGVCYVEAAEDEAHLGHVEGIQLGVERVVLRFAPHQRVGVGVVRVDVGLHLIELGARGGHLGVETRKEHVRVGLLPVNLRRSTQPRASLVGHNVNTESAILPTAKPRHRCGDGVSACADGKTSRASSEPASRPSRRASAAA				NA	NA	NA	NA	NA
AK009_08893	192			hypothetical protein	GTGAAGCGCCACGGCGGTCTTGCCCGTGCCCGGGCCGCCCTGGACGACGAGCACGCCGCGCGTGGCATCCCGGATGATCTCATCCTGCTCACGCTGGATCGTCTCGACGATCGAGCGCATCCTGCCGGTGCGCGCGGCGTTCATCGCGGCGCGCAGGGCGGCCTCGGAGCCGACGTCGGAAAGCCTGTCTGA	MKRHGGLARARAALDDEHAARGIPDDLILLTLDRLDDRAHPAGARGVHRGAQGGLGADVGKPV				NA	NA	NA	NA	NA
AK009_08894	1209			hypothetical protein	GTGGTCGAACTCGAGGCCCTTGATCTCGGCGACGTTGTCGGCGGTGATCACGGCACTCGTGCGCCCGTCGCTTGGCGACGGGGGTTGTACCCCCGAAGGCAGCACACGCACCGGGTGACCGGTGGAGCGAATCGCGGTGGCCGGCTGCGCCTCCGGGTCGATCTCAGCCAGGATGCGGTCGGCGAGCACCATGATCTCCGCCGGGGTGCGGTAGTTCACGCTCAGCTCGTGGACCTTGAAGCGCGTGCCCACGAATGGCTCCAAGGTGGCCGCCCAGTCGTCGGTACCGGAGGGAGCCGAGGTTTGGGCGGTGTCGCCGACCAAGGTCATCCAGCGCGACGGCGAGCGCCGAAACACCATCCGCCACTCCATGGGGGAAAGCTCCTGGGCCTCGTCGACGATCACGTGGCCGTACGCCCAGGTGTGGTCCTCGCGGGCGCGCTCGGCGGTGGAGCGCACGTCGGTGACGCGCTGGCGGCGCGCGAGGGTCTCGGCGTCGATGATGTCGTGCGCGGAGAGGATCTCGGCCTCGAACTGGTCGTCGTCGTTGTCCGTCGACGCCGAGGAGGACAGGATGTCGAGCGCGTCCTCCGCCTCGGCGACCTGGCGGCGCCACTCGTCCTCCTCCGCGCGGCGCGCCTCCTCCGGGTCGGGCACACCGATCAGCTCCGCCAGCTCGTCCACCAGGGCGGTATCGGCGGGCGTGGTGGGGGAGCCGGGCGGGCGGTAGAGCGCCTCGCGGGTGTAGTCATCGTAGTCCGAGGCCACCTCTGCGATCGCCTCCCGACTGGTCAGCAGCCCCTCGAGCACGGAGGTGGGCTCCAGGGCGGGGAAGTGGGCGTCGATAAGCCACTGCACCTGCGGTTCCTCGGCGAGGTCGTCGTGAAGCTGGTCGACGTCCGCGGCGCTGAGCAGGTTCAGGCCGCCGAGCGGGTCCTCGCCGATGCGGTGGGCGAGCGCCTCCGCCAGAAGCTGCGTCAGGTGCTCAGCGAAGACGGGGCGTGCCGCGTTGTGGGGCTTGCGCGAGCGGCGCGCCCGGGTGCGGGCCGCCTTGATCATTGCGGGCGTGGCCTCGATGGTGACCGAGCCGATCCGCAGGGCCACCGGCTCGTCCGGCACCGTTTCCAGCCGCTGTACGGCGCGCTTGAGCACCGTCACCATCTCCGCCGAGCCCTTCACCTCCCGCGCGGCCGTGGACTCCCGGTGTGA	MVELEALDLGDVVGGDHGTRAPVAWRRGLYPRRQHTHRVTGGANRGGRLRLRVDLSQDAVGEHHDLRRGAVVHAQLVDLEARAHEWLQGGRPVVGTGGSRGLGGVADQGHPARRRAPKHHPPLHGGKLLGLVDDHVAVRPGVVLAGALGGGAHVGDALAAREGLGVDDVVRGEDLGLELVVVVVRRRRGGQDVERVLRLGDLAAPLVLLRAARLLRVGHTDQLRQLVHQGGIGGRGGGAGRAVERLAGVVIVVRGHLCDRLPTGQQPLEHGGGLQGGEVGVDKPLHLRFLGEVVVKLVDVRGAEQVQAAERVLADAVGERLRQKLRQVLSEDGACRVVGLARAARPGAGRLDHCGRGLDGDRADPQGHRLVRHRFQPLYGALEHRHHLRRALHLPRGRGLPV				NA	NA	NA	NA	NA
AK009_08895	246			hypothetical protein	ATGGGCCTCGGCCTCTTCGAGGTTTGCGCGGGCCTGCTCGTCACCCAGGATGGTCACCGAATCCATCCGCGGGGTGCGGGCCGCCTCCTCATCAGAGGCGTAGTAGGCCGTGGCGATGATGAGATCCGCGTCGAAGGCAGCGGCGATGCGCGCCGCCCGCTCGACCGCGAGCAGGGAGGATTTCGAGCCGTCGCTTCCGACGACAACGGTTGTGTAGTCGCGAGCGCTGATCGATTCCATGGTTAG	MGLGLFEVCAGLLVTQDGHRIHPRGAGRLLIRGVVGRGDDEIRVEGSGDARRPLDREQGGFRAVASDDNGCVVASADRFHG				NA	NA	NA	NA	NA
AK009_08896	603			hypothetical protein	GTGGCCTTCCGCGCGGGTGTCCACCAGCACGACGTCGACCGGAGCCTTCTTCGCCACATCACCGGGGATGTTGCCAAAGATCCGGCCCGCCAGGGTGCGCATCCCCTTGTTGCCCACGACGAGCAGGTCCGCGCCGGTTTCCTGCACTGCGTCGAGAAGCACGTTTGCGGGCATTCCGGGCTTGGCCATCAAGTTGATCCGCGGCGCCTGCTCCTCGCGGGCAATGTCCTCGGCCATGCCGAGGATGCGAGCGGCGTCGTCATCGGTGACGATATGCACCTTCGACTGCTCGGCGTTGCTGGAGTTCAGCAGCGAGGTGTTCGCGCTGTAGTGCGCGCAGATGACGGTCAAGTCGGCGTCGTACACTCGCGCCATGCTCGCGGCCGCGCGCACCGCCACGAGCGATGTCGCCGAGCCGTCCGTGCCGACGGCGATAGAAGAATACGTGTGCATATCTGCAATAAATCCTTTCCTAAACTCCGACTTCTTTCATACCACGCAGTTCCTTGCGCAATTCCGCGATCTCGTCGCGCAGCCGGCCGGCCAGCTCGAACTTCAGCTCGCGCGCGGCGGCTCCCATTTGCGCGGTCAGGTCGTCGATAA	MAFRAGVHQHDVDRSLLRHITGDVAKDPARQGAHPLVAHDEQVRAGFLHCVEKHVCGHSGLGHQVDPRRLLLAGNVLGHAEDASGVVIGDDMHLRLLGVAGVQQRGVRAVVRADDGQVGVVHSRHARGRAHRHERCRRAVRADGDRRIRVHICNKSFPKLRLLSYHAVPCAIPRSRRAAGRPARTSARARRLPFARSGRR				NA	NA	NA	NA	NA
AK009_08897	1782			hypothetical protein	TTGCGCGGTCAGGTCGTCGATAAGCTTCTGCACGTCCTTGGACGTCATCGAACTCACATCGGGCTTTTCGACGACCGCGGCTTCGCCGCCAGACGCCTGATCGCTATCGGCATTCTCGTAGACCTGGTCGAGGATGTCCGCGATCTTCTTGCGCAGCGGCTGCGGATCGATCCCGTGCTCCGCGTTGTAGGCGAGCTGCTTCTCTCGGCGCCGCTCCGTCTCCTCGATCGCGTCGCGCATCGAGTCGGTGACTTTGTCGGCGTACATGATCACGGCGCCGGAGACGTTGCGGGCCGCGCGGCCGATGGTCTGGATCAGGGACTTCGTCGAGCGCAGGAAGCCCTCCTTGTCTGCATCCAGGATGGCCACCAGCGACACCTCCGGCAGGTCGAGGCCCTCGCGCAGGAGGTTGATGCCGACGAGCACGTCGTACTCGCCGAGGCGCAGCTGGCGCAGCAGCTCCACGCGCTGCAGGGTATCAATATCCGAGTGCAGGTAGCGCACCTTGATGCCGTTGTCGAGCAGGTAGTCCGTGAGGTCTTCCGCCATGCGCTTGGTCAAGGTGGTCACGAGCACGCGCTCGTCGCGGCTGACGCGTTGGCGGATCTCCTCGATCAGGTCGTCGATCTGGCCCTTCGTCGGGCGCACGTGCACCTGCGGGTCCACCAGGCCGGTCGGGCGGATCACCTGCTCGACGAACTCGCCGCCGGTGGCCTCGAGCTCGTAGTCCCCGGGCGTGGCCGACATGTAGACCACCTGGCCCATCCGCGCCTCGAACTCGTCGAACTTCAGCGGGCGGTTATCCACCGCACTCGGCAGGCGGAAACCGAACTCCACCAGGTTGCGCTTCCGCGACATGTCGCCCTCGAACATGCCGCCGATCTGCGGGACGGTGACGTGGGATTCGTCGATGATGGTGAGGAAGTCCTCGGGGAAGTAATCGATCAGCGTCGCCGGCGCAGAACCTGGCGGGCGCCCGTCCATGTGGCGCGAGTAGTTCTCGATGCCGGAGCAGAACCCGACCTGCTGGATCATCTCCAGGTCGTACTCCGTGCGCATGCGCAGGCGCTGCGCCTCGAGCAGCTTGCCGCGGTTCTCCAGGTCCTCCAGCCGGCCCGCCAGCTCGAGCTTGATCGCCTCGATCGCCTTTTCCATGCGTTCGTCGGTGGCGACGTAGTGCGTCGCGGGGAAGATGCGGACCTCCTCTTCCCTACTGAGCGCCTCGCCGGTCAGCGGGTGGATGTAGTACAGCTCGTCGACCTCGTCGCCGAAGAACTCCACGCGCACCGCCACTTCCTCGTACGCGGGGATGATGTCGACGGTGTCTCCCTTGACGCGGAACGTGCCGCGCTTGAAGTCGATGTCGTTGCGTTCGTACTGGACGTCGACAAGCAGGCGAAGGAAGCGATCGCGCTCGATCTCCTCGCCCTGGCGCAGCACGATGGAGCGATCGAGGTAGGACTGCGGGGTGCCGAGGCCGTAAATACACGACACGGAGGCGACCACGACCACGTCGCGGCGCGACAGCAGCGCCGAGGTCGCCGAGTGCCGCAAGCGCTCAACGTCGTCGTTGATCGACGAGTCCTTCTCGATGTAGGTATCGGTCTGCGCGATGTACGCCTCCGGCTGGTAGTAGTCGTAGTACGAGACGAAGTACTCCACCGCGTTGTTCGGCAGGAGCTGGCGCAACTCGTTGGCAAGCTGAGCCGCCAGCGTCTTGTTCGGCGCCATCACGAGGGTCGGACGCTGCTGCTTTTCGATCAACCAGGCCGCCGTCGCTGA	MRGQVVDKLLHVLGRHRTHIGLFDDRGFAARRLIAIGILVDLVEDVRDLLAQRLRIDPVLRVVGELLLSAPLRLLDRVAHRVGDFVGVHDHGAGDVAGRAADGLDQGLRRAQEALLVCIQDGHQRHLRQVEALAQEVDADEHVVLAEAQLAQQLHALQGINIRVQVAHLDAVVEQVVREVFRHALGQGGHEHALVAADALADLLDQVVDLALRRAHVHLRVHQAGRADHLLDELAAGGLELVVPGRGRHVDHLAHPRLELVELQRAVIHRTRQAETELHQVALPRHVALEHAADLRDGDVGFVDDGEEVLGEVIDQRRRRRTWRAPVHVARVVLDAGAEPDLLDHLQVVLRAHAQALRLEQLAAVLQVLQPARQLELDRLDRLFHAFVGGDVVRRGEDADLLFPTERLAGQRVDVVQLVDLVAEELHAHRHFLVRGDDVDGVSLDAERAALEVDVVAFVLDVDKQAKEAIALDLLALAQHDGAIEVGLRGAEAVNTRHGGDHDHVAARQQRRGRRVPQALNVVVDRRVLLDVGIGLRDVRLRLVVVVVRDEVLHRVVRQELAQLVGKLSRQRLVRRHHEGRTLLLFDQPGRRR				NA	NA	NA	NA	NA
AK009_08898	375			hypothetical protein	GTGCCGCTAGCGCACGACGCGCGCTGTGGCGTCGAGCCATTGCTGCAGCTCGCCAGCGTCCGCCCACATTTCGTACAGCTCGGAGCCGCGGGGCTGGATCACCTCTTTGACCTTCGACTCGACCCAGCGCCGGTCCTTGAACGCGAACTTGTACGCGCGGGCGGACTCGAAGCGCTGGTCCGGCACGAAGCCGTTCATCACCGCGGCGAGGACGACGAGGGCCTGGCCCTGCTCGCTGTCGAGTGGTGTGGTCTCGCAATCGAAACGGAATTGGTCCATGCGAAAAGTACCGTCCGCCAGCTGCTGAACGGTCTCCGTTGCGACGTCGTTGTCGAAGGGGCCCCAATTCCACGTACCCATGAGGAAACACATTAG	MPLAHDARCGVEPLLQLASVRPHFVQLGAAGLDHLFDLRLDPAPVLERELVRAGGLEALVRHEAVHHRGEDDEGLALLAVEWCGLAIETELVHAKSTVRQLLNGLRCDVVVEGAPIPRTHEETH				NA	NA	NA	NA	NA
AK009_08899	600	coaE_2	COG0237	Dephospho-CoA kinase	ATGCTAAAAATCGGGCTCACTGGAGGAATCGGAAGCGGTAAGTCGACCGTCGCTAAGCTTTTGCGCGAAGCTGGCTACCCGGTCGTCGACGCGGACCAGGTCGCGCGCGACAACATGGAGCCAGGCTCGCCGGTCCTGGCCGAAGTCGCCAAAGCGTTTGGCGATGACATTGTGCTTGATGACGGCAGCCTCGACCGCGCGGAACTCGCCCGCAGGGCGTTTTCGGACGAGGAGCGTACGCGCACTCTCAACGCGATTACCCACCCGGCGATCCGCGCGGAATCGGACCGGCGCTTTAACGTGCTGGAGGCGCAGGGCGCGGCCGCGGCCGTTTACGACATGCCCCTGCTCGTGGAGCTCGGCCTCGACGAGGAGATGGACCTGACCATCGTGGTGGATGTCGACCCGGAAGAGCGCGTGCGCCGGCTCGTCAGCAGCAGGGGCCTCGACGAGCAGGACGCGCGCAACCGCATCAGCAGGCAGATCTCGGATGCGCAGCGCAGGGAAAAGGCGGATGTTGTGATCGACAACAACGGGTCGCTCGAGGAGCTTAAACAGCGGGTGAACGAAGTCGTCGTGCGCATTGGTAAGATGTTATGA	MLKIGLTGGIGSGKSTVAKLLREAGYPVVDADQVARDNMEPGSPVLAEVAKAFGDDIVLDDGSLDRAELARRAFSDEERTRTLNAITHPAIRAESDRRFNVLEAQGAAAAVYDMPLLVELGLDEEMDLTIVVDVDPEERVRRLVSSRGLDEQDARNRISRQISDAQRREKADVVIDNNGSLEELKQRVNEVVVRIGKML	PGPT0008835_3801	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
AK009_08900	1401			hypothetical protein	GTGGCGCTCGATCTGGGCAGTGTGAGCCTGGTGGCGACGCTCTGCCTCGGCGTAGCGTGCCTCCCACTCCTGGCGGGCCTCGTCGAAGCCCTCCATCCACTCGTTGGTCTCCGGGTCGAAGCCCTCCGGGAAGATGTAGTTACCCTGCTCGTCGTAGGAGTCGGCCATGCCGTAGCGGGACGGATCGAACTCCTCGGTGTAGTCCTCGTCAGCCTGCTTGAGCGACAGGGAGATGCGGCGACGCTCAAGGTCGATGTCGATGACCTTGACCATGACCTCTTCGCCGACGCCGACAACCTGGTCCGGAACCTCGACGTGGCGCTGCGCCAGCTCGGAGATATGGACGAGGCCCTCGATGCCCTCCTGGACGCGGACGAACGCACCGAACGGCACCAGCTTGGTGACCTTGCCCGGAACGATCTGACCCACAGCGTGGGTGCGGGCGAAGACGCGCCACGGATCCTCCTGGGTCGCCTTCAGCGACAGGGAAACGCGCTCGCGGTCGAGATCGACGTCGAGAACCTCGACGGTGACCTCGTCGCCGACGGTGACAACCTCGGACGGGTGGTCGATGTGCTTCCAGGACAGCTCGGAGACGTGCACCAGGCCGTCAACACCGCCGAGATCGACGAAGGCGCCGAAGTTGACGATGGAGGAAACGACACCCTTGCGCACCTGGCCCTTCTGCAGCTGGTGCAGGAAGTCGGAGCGGACCGCGGACTGGGTCTCCTCCAGGTAGGCGCGACGGGACAAGACCACGTTGTTGCGGTGCTTGTCCAGCTCGATGATCTTTGCCTCGAGTTCCTGGCCGATGTAGGGGTCCAGGTCGCGGACGCGGCGCATTTCGACGAGGGACGCCGGCAGGAAGCCGCGCAGGCCGATGTCGAGGATGAGGCCGCCCTTGACAACCTCGATGACCGTACCGGTGACGGGCTGGTCGTTGTTCTGCAGCTCCTCGATCGTGCCCCAGGCGCGCTCGTACTGCGCGCGCTTCTTGGACAGGATGAGCCGACCTTCCTTGTCCTCCTTGGTCAGGACGAGAGCGTCGACCTCGTCGCCGACCTCGACGACCTCATCCGGGTCGATGTCGTGCTTGATGGAGAGCTCGCGGGTCGGGATGACGCCTTCGGTCTTGTACCCGATGTCGAGGAGAACCTCGTCGTGGTCGACCTTGACGACGGTGCCGGTGACGATGTCGCCATCATTGAAGTACTTGATGGTCGCGTCTACTGCGGCGAGAAAGTCCTCAGCGCTGCCGATGTCGTTGATGGCAACCTGGGGTGCGTTGGAAGTGGGCATATTTGTGAAGTGCTCCGAAGAAATAGGAGATCGAAAGTGGGCAGTGGCGCATCTCTCACGTGCAGTGATCTCATTTTGGGCACGGTTCAAGCCCTCCTATAA	MALDLGSVSLVATLCLGVACLPLLAGLVEALHPLVGLRVEALREDVVTLLVVGVGHAVAGRIELLGVVLVSLLERQGDAATLKVDVDDLDHDLFADADNLVRNLDVALRQLGDMDEALDALLDADERTERHQLGDLARNDLTHSVGAGEDAPRILLGRLQRQGNALAVEIDVENLDGDLVADGDNLGRVVDVLPGQLGDVHQAVNTAEIDEGAEVDDGGNDTLAHLALLQLVQEVGADRGLGLLQVGATGQDHVVAVLVQLDDLCLEFLADVGVQVADAAHFDEGRRQEAAQADVEDEAALDNLDDRTGDGLVVVLQLLDRAPGALVLRALLGQDEPTFLVLLGQDESVDLVADLDDLIRVDVVLDGELAGRDDAFGLVPDVEENLVVVDLDDGAGDDVAIIEVLDGRVYCGEKVLSAADVVDGNLGCVGSGHICEVLRRNRRSKVGSGASLTCSDLILGTVQALL				NA	NA	NA	NA	NA
AK009_08901	972			hypothetical protein	GTGGACGCGGTGCGCGCGTTCGGGCTGATGCAGGGCCAGGAAACGACGGTCTTTTCCTCGATCGCGCTGCGCAATGCCGGCGGCATCGACTCGGTCGCTGCCGCACTCGATGGCCACGAGATCGTGCGAGCCTACCCGATGCGCGGCACCGTCTTCGTTGCCTTGGCAGCGGACATGCGCTGGTTGACCGAACTGTTGGCCAAGCCCGGCGTCGCTGGCGCGCTTCGCAATGCCGATGCCGCGGGGGTGAGCCCCGCGCGTATCGACGCGATCCGCGACGCCGTCCTCGAACACGGGCCCGTTGACAACGCCCAGTACAAGGCAATCGTCGCCCGAGTGCTGGACAGTCCGGAGCCCGTCAACGCGATGGTGTATCGCTCCCGCTACGTCTTGCTTGTCGACGGCTCCTGCGCCTACCTCGGACGCAACCAGCTACTCGGCCCGGCGCCCGCAGCACCCGGGATCGCGGAGCGGTTCAACGGGCAGCGCCAAGACGCGGTCGACGAGCTGGTGCGCCGCTACGTCGCCACGCACGGGCCCGTCACCAGCGAAGACGTGACCTGGTGGTCTAAGCTCGGCGTACGTGAGGTGCGCACCGCGCTTGAGCATCTAGGCGACGACTTCACTCGCGACGGCGAGGACTACTTCCACGCGTCACTGCCCGAGGTGCTTGAAGCAACCCCAGCCTCGGCGTTTCGCGAGCCGCACCTGCTGCCCGCGTTTGACGAGTACATCCTCGGCTACAAGGACCGCCTGTTCGCGATGACCGATGAGGTCCACACCCACCTTGCCCCGCGCAACATGGGAATCTTCCGCAAGTCCATCGTGGTCGACGGTGTTGTCCGAGGGACGTGGAAAGGTGCCGGCGGCACACTCGTCATCGACGACGTGGGAGGGGTGCCCAAGTACGCCCATGCCGGCGTGCGGCGTAAGTTCGCTGCCTACCCAGCGCTCGGGGCCGTCGAGATGTAA	MDAVRAFGLMQGQETTVFSSIALRNAGGIDSVAAALDGHEIVRAYPMRGTVFVALAADMRWLTELLAKPGVAGALRNADAAGVSPARIDAIRDAVLEHGPVDNAQYKAIVARVLDSPEPVNAMVYRSRYVLLVDGSCAYLGRNQLLGPAPAAPGIAERFNGQRQDAVDELVRRYVATHGPVTSEDVTWWSKLGVREVRTALEHLGDDFTRDGEDYFHASLPEVLEATPASAFREPHLLPAFDEYILGYKDRLFAMTDEVHTHLAPRNMGIFRKSIVVDGVVRGTWKGAGGTLVIDDVGGVPKYAHAGVRRKFAAYPALGAVEM				NA	NA	NA	NA	NA
AK009_08902	621			hypothetical protein	GTGCGCTGCTTCATCCCAGTTTTCGCCCGTCCCGGCGGAGACCTCCAGCGGCACGCGCAAGGTAATGGCGGAGTCCATTTCGCGCTCGACGATCTCGCGTACCTCCGTCAGCTCCCCGGGCGCGACCTCCACGACGAGCTCGTCGTGGACCTGCAGCAGCACCCGCGATGCAAACGGCTCCAGCGCGCGGTCGACGCGGATCATCGCCACCTTGATAATGTCCGCGGCCGAGCCCTGGATCGGCGCGTTCAGTGCGGCGCGCTCGGCGTTTTCGCGGGCGACGCGGTTGTCGCTGGTCAGCTCCGGCAGGTAGCGGCGCCGGCCGAAGACCGTGGAGGTGTAGCCATCGCGGCGCGCCTGCTCCACCACGTTGTCCAGGTAGCTCTTGACCCCGCCGAAGCGCTCAAAGTAGCTCTCCATGATGCTCTTCGCCTCGCCCGCGGAGATGGAGAGCTGGTTGGACAAACCGTACGCCGACAGGCCGTAGACGAGGCCGTAGGACATGGCCTTGACGCGGCGGCGCAGCTCCGGGGTGACCTGGTCGATGGGCACATCGAAGACGCGCGAGCCGACGAAGTTGTGCAGGTCCTCGCCCTCGCGGTAGGCCTCGATCAGGCCTGA	MRCFIPVFARPGGDLQRHAQGNGGVHFALDDLAYLRQLPGRDLHDELVVDLQQHPRCKRLQRAVDADHRHLDNVRGRALDRRVQCGALGVFAGDAVVAGQLRQVAAPAEDRGGVAIAARLLHHVVQVALDPAEALKVALHDALRLARGDGELVGQTVRRQAVDEAVGHGLDAAAQLRGDLVDGHIEDARADEVVQVLALAVGLDQA				NA	NA	NA	NA	NA
AK009_08903	390			hypothetical protein	GTGCGCCATCACGCGCATCTCAATCTGCGAGTAATCGGCGGTAAGCAGGCATTCGTAGTCGGAGCCCACGGTAAACGCGGAGCGGATGCGCCGACCAGCTTCGTTGCGCACCGGGATGTTCTGCAGGTTCGGGTCCACCGAGGACAGCCGGCCCGTGGACGCGACGGTCTGCTTGAAGGTGGTGTGGATGCGCCCGTCGTCGGCGACCGCCTTGATCAGGCCCTCGATGGTGGACTTCATCTTCTGGTACTCGCGGTGTGCCAGCAGCTTGTCCAAAAACGGGTGGGGGTTCTTCTCCGCCAGGGCCTCGATCTCGCCAGCCGCGGTGGAATACCCAGTCTTGGTCTTCTTCGTCTTCGGCAGCTCCAACTTGTCAAACAGGACCACTGA	MRHHAHLNLRVIGGKQAFVVGAHGKRGADAPTSFVAHRDVLQVRVHRGQPARGRDGLLEGGVDAPVVGDRLDQALDGGLHLLVLAVCQQLVQKRVGVLLRQGLDLASRGGIPSLGLLRLRQLQLVKQDH				NA	NA	NA	NA	NA
AK009_08904	2190			hypothetical protein	GTGCTCCATCTCCGCGAGGATCGATACCAGCGGCAGCTCGAGGTCGGCGTACAAGTCGTAGGAGTCGATGCCGCGCAGCTGCGTGCTGAGCTCCTCGGCGAGCTCGAGCACCGCCGCGGCCGCGTCCACCAGCGAGGTATCGCCGAGCAGGCTGAGCTGGTCGCCGCCGAGGTTGAGCTGGCGCTGCAGGTGGCGCTGGTACACGTCGCTGAGCTCGTAGGTGCGCTGGCCAGGCCGCAGCAGGTAGGCCGCGATCGCTGTGTCGTGCGCGATGCCACGCAGGGTGATGCCGCGGCCCTTGAGCATGTGGAACACGGTCTTCGCGTCGTGCAGGTACTTCGGATCCTCCGACTCGGCCCAGGCCTTCAAAGCGGAATCCTCCGCGGGAGTAAGCTCGGCGAGCTCCTTATGGATTCCGCGGCGCTGCTTATCGACGACCGCCAGCGCCGACGCATCTCCCCGCCCGGGAGCGCCGTTGCCGGTCGCCACCACCGCGAGGCCCTGGCCGTCGCGCTCTGTGAGCCACGTATCCAGCGGCGCGTCATCGATCTCTACGTCGGCGAGCTCGGCCGTCTCCGGCGCGGGTGCCTCTCCCGTCGTGGGCACGGCCGCGAGCACGCGCTCGCGCAGGTTGACGCCGAACTCCAGGTCGTCGAACGAGCTGGCAACCGCGTTGACGTCGGCCGGCTTCATCTCCAGGTCCTCCGGGCCGAGCGGCAGCTCAACGTCCGTGACCATCTGCGTCAGCTCGCGGTTGAGCCGCACCTGGTCGATGCGCTCGCGGAAGTTATTGCCCGCCACGCCCTTGATCTCGTCCGCGTGCTCGATGAGCCCTTCGAGGTCGCCGTACTCGGTGATCCACTTGGTCGCGGTCTTCTCCCCCACCTTGGGCACCGAGGGCAGGTTGTCCGACGGGTCGCCACGCAGGGCCGCGAAGTCGGGGTACTGCGCCGGGGTCAGGCCGTACTTCTCCTCCACGGACTCCGGGGTAAACCGCGTCATGTTGGACACGCCCCGCGTGGGGTAGAGCAGCGTGGTGGAGGCGTCGACAAGCTGAATGTAGTCGCGATCGCCCGAGACGAGCACGATCTCGAAGTCGCCCCCGGCGCGCGCCTCGGTCACGAGCGTGGCGACGATGTCGTCCGCCTCGTAGTTCTCCTTCGACAGCGTCACGATACCGAGCTCGCCCAGGACTTCCTCGATGATCGGCACCTGGCCCTTGAACTCCGGTGGCGAAGCCTCGCGCTGCGCCTTGTACTCGGGGAAGCGCTCCGTGCGAAACGTTTTGCGCCCCACGTCGAAGGCGACCGCGGCGTGGGTCGGCTTCTCCTCGGCGATGATGTTGGCGAACATCGAGAGGAAGCCGTACACCGCGTTGGTGTGCTGGCCGCCCGAGGTGGAGAAGTTCTCCGCCGGAAGCGCGAAGAAGGCCCGGAATGCCATGGAGTGGCCGTCGATAAGCAAAAGGCGTTGAGTCACGCTGCCCAGTCTAGCCAGGCGCGCCTACCCCAGCTTCGCGGTGATCCACCTGCGGGAGGCGAAGATCGCGGCGCCGACGGCGAGCATGACCGCGGCGGTGGTGAGGAAGTACGTGCGTTCCGACGCCGCGCTCGACGGGTCGTAGAAACCCGCCAGCGTGCCCGACATGGCGGTGCCCAGTGCGACCGAGAGCAGCCAGAGCGCGAACGCGCGAGTGGGAAACGCTTGCGGGGCGACCAGCGTGGCCATCGAGTTGCCGACGGGGCTGAGCATGAGCTCGGCCATGGTGAACAGGAAAAGGATGACAACGATCGCCCAGAACGGCGTCGAGTTCGGCCCGCCGCCGACGAACGGGAGGAACACGAGCGTGGCCAAGCCGATGATGAAAAGCGCCAGCGAGAACTTCGTGGCGTACGACGGCTGGCGCGAGCCCAGTTTGGTCCAGACGACGCCGAAGACGCCGGCGAACAGGATCACAAAGAGGGGGTTCAGCGACTGCACCACGCCGGGCGGCAGCTCGTAGCCGAAGAACGTGCGGTTCAGGCGCTCGTCCGAGTACAGGGCGACGACCGTGAACTGCTGCTGGAACACCGACCAAAACGCCACGGAGGCGGCGAACATCGGAATGAAGCCGATCAGCCGCGAACGCTCCTCTCCGGTCACCAGATCCGAGCGGTACATCTGCACCCACAGCGTCACCGCCGTCACTAG	MLHLREDRYQRQLEVGVQVVGVDAAQLRAELLGELEHRRGRVHQRGIAEQAELVAAEVELALQVALVHVAELVGALARPQQVGRDRCVVRDATQGDAAALEHVEHGLRVVQVLRILRLGPGLQSGILRGSKLGELLMDSAALLIDDRQRRRISPPGSAVAGRHHREALAVALCEPRIQRRVIDLYVGELGRLRRGCLSRRGHGREHALAQVDAELQVVERAGNRVDVGRLHLQVLRAERQLNVRDHLRQLAVEPHLVDALAEVIARHALDLVRVLDEPFEVAVLGDPLGRGLLPHLGHRGQVVRRVATQGREVGVLRRGQAVLLLHGLRGKPRHVGHAPRGVEQRGGGVDKLNVVAIARDEHDLEVAPGARLGHERGDDVVRLVVLLRQRHDTELAQDFLDDRHLALELRWRSLALRLVLGEALRAKRFAPHVEGDRGVGRLLLGDDVGEHREEAVHRVGVLAARGGEVLRRKREEGPECHGVAVDKQKALSHAAQSSQARLPQLRGDPPAGGEDRGADGEHDRGGGEEVRAFRRRARRVVETRQRARHGGAQCDREQPERERASGKRLRGDQRGHRVADGAEHELGHGEQEKDDNDRPERRRVRPAADEREEHERGQADDEKRQRELRGVRRLARAQFGPDDAEDAGEQDHKEGVQRLHHAGRQLVAEERAVQALVRVQGDDRELLLEHRPKRHGGGEHRNEADQPRTLLSGHQIRAVHLHPQRHRRH				NA	NA	NA	NA	NA
AK009_08905	630			hypothetical protein	ATGGCCAGCGGTTTCCACGGTGTGGCGGCGCATCAGCACGTACTGCGCCAGGCCGATCGCCATGAGCACGGCGGCGGTGCCGAAGCCCCAGTGGAAGCCCTTCCACCCCCAGAACGCGTTGGTGATCAGTGGGCCGAGGAGCCCGCCGATGTTGACGCCCATGTAGTAGATGGAAAAGCCGCCATCGCGACGCTTGTCCTCACGGCTGTACAGGTCGCCGAGCAGTACCTGGGAGGTGGTTTTCAGCGCACCCGAGCCGACCGCGATGCTCACCAGCCCGATGCCGACGCCGCTGAAGCCGGGGATTACCGCCAGCGAGATGTGGCCGAACATGATCAGGATGGCGGAGTAAAACAGGGTCCGCTCCGCCGACAGGATGCGGTCGGCGACCCACGCCCCGGCGACGCTGGTCAGGTACACCAAGCCGCCGTACGCACCGACGATGGACAGCGCCGCTTCCTGGCTGAGCCCGAGCCCGCCGTCCGACACGGAGTAGTAGAGGTAGAAAGCGAGAAGCGCCTGCAGGCCATAAAAGCTGAAGCGCTCCCACATCTCCACGCCGGCGAGATTAGCCAGGCCCCACGGGTGGCCGAGGAACTGGCGCTCGCCGTCGCGTGGCCGCGTTGCTGA	MASGFHGVAAHQHVLRQADRHEHGGGAEAPVEALPPPERVGDQWAEEPADVDAHVVDGKAAIATLVLTAVQVAEQYLGGGFQRTRADRDAHQPDADAAEAGDYRQRDVAEHDQDGGVKQGPLRRQDAVGDPRPGDAGQVHQAAVRTDDGQRRFLAEPEPAVRHGVVEVESEKRLQAIKAEALPHLHAGEISQAPRVAEELALAVAWPRC				NA	NA	NA	NA	NA
AK009_08906	294			hypothetical protein	GTGGCTCGGTGGGATCTTGAACTGGACCGGCTCCACGTACGTGCAGCTGTTGAAGCTTCTGATTCCGCCGCTCGTGTTCACCGCGGTGGTGAACTCCGTGGCCAACCTGCGCAAGGTGACCAACGCCGCGCGGCTCGCGGGGCAGACCCTGATCTGGTTCGCCATCACCGGGTTCGTCTCGGTGCTCATCGGCATCGCGGTCGCGCTGGTCATCCGACCGGGCGCGAACTCCACGGTGGATCCTTCCGCCGCGGCCGAGCCCTCGTCGTCGGGCTCCTGGCTCGCCTTCATTAA	MARWDLELDRLHVRAAVEASDSAARVHRGGELRGQPAQGDQRRAARGADPDLVRHHRVRLGAHRHRGRAGHPTGRELHGGSFRRGRALVVGLLARLH				NA	NA	NA	NA	NA
AK009_08907	522			hypothetical protein	TTGCCCGGTGACGTTGACGGCGGTGCGCCCCATGTCCACAATCGGCTCGATGGCGAGCAGCAGGCCAACGCCCGCGAGCGGCAGGCCCAGCGTGGACAGCGTCAGCGTGAGCATCACGGTGGCGCCGGTCGTGCCGGCCGTCGCCGCGGAGCCGAGCACCGCGGTGAGCACGATGAGGAAGTAGTCCGCGATACCCAGCGGGATGCCGTAGAACTGGCTGACGAAGATCGCCGCTACCGCCGGGTAGATCGAGGCGCAGCCGTCCATCTTGGAGGTGGCGGCCAAGGGCATGACGAAGGACGCGTACTCGCTGGGCACGCCCATGGATTTCTCGACCGTGCGCTGGTTGACGGGAAGCACGCCGAGGGACGAACGGGTGACGAAGCCGAGCGTCGTCACGGGCCACACGCGCTTGAAGAAGTCCGCGACGGGCAGGCCGTTGAGCGCGAGCAGGGCGGGGTAGAAGCCGAAGATCACCAGCGCAAGGCCGACGTAGATGGCCAGCACGAACATGCCGAGTGA	MPGDVDGGAPHVHNRLDGEQQANARERQAQRGQRQREHHGGAGRAGRRRGAEHRGEHDEEVVRDTQRDAVELADEDRRYRRVDRGAAVHLGGGGQGHDEGRVLAGHAHGFLDRALVDGKHAEGRTGDEAERRHGPHALEEVRDGQAVEREQGGVEAEDHQRKADVDGQHEHAE				NA	NA	NA	NA	NA
AK009_08908	579			hypothetical protein	GTGGCAACTGGCTTCACTATGCGGCGTACGATCGCGGCGGCACTCGCCGCGGCATGCGTGGCGACGCTCGCTCCGGCAAACGCGCAGGCGGCGGGCTTGAACGACTTGGCCACCGGCCTGAAGGCCTCGCCGCTCGGTGTGGCCGCGGCCCACGCCGTGCTCTTCGACTCCCGCGTCCCCATCGTCGTGTTGGGAGCGCGCCTGAACCCTGATTGCTCGGCCCCGGCGGTCCTCGATGACCGCCTCGCCACCGCCCGTGGCGTCGCGCTGCTGCACCCCGCCAACCCGATCGTGGTCACCGGCGGGCACACCCAGCCCGGCTGCCAAGCGGAGGCGGAGTACATGCGCGACTTTTTAGTGAGGACCTTGGTGGACCCCGCCCGCATCCACGTTGACACCACCGCCTACTCGACGGTAGGCAACGCCCAGGCCACCGCGGACAGTGCCGGAAGCTCCGGCAACGTCATGCCGGTCGGCGTGCTCGTGACCTCTCCGAATCACATTCCACGCGCGATTGACACGTACACCAACGCCTCCGGTAACGCGCTGTGGCTCGCGGTCCCGTCGACGGTGAACTAG	MATGFTMRRTIAAALAAACVATLAPANAQAAGLNDLATGLKASPLGVAAAHAVLFDSRVPIVVLGARLNPDCSAPAVLDDRLATARGVALLHPANPIVVTGGHTQPGCQAEAEYMRDFLVRTLVDPARIHVDTTAYSTVGNAQATADSAGSSGNVMPVGVLVTSPNHIPRAIDTYTNASGNALWLAVPSTVN				NA	NA	NA	NA	NA
AK009_08909	612			hypothetical protein	GTGGACCACGCTGGGGCCGGCGTCGAGAAGCACGCGCAAGTCGCCGCTTTTCAACGCAGCGCGCTGCACGACGGCCACGGTGGCGTCGCGGGGCAGCGTCCGCGGTGCAGTAACCACCGCGCCAACGGTCTCGCGCTCGAGCTCGATGACGCCGGTAATCTGCGCGGCGGAAGCGCTATCCAGCGCGCCCGTCTCTCGCGAGTGCTGGACCAGGAGATTCAGGGTTTCGTAGTCGTAGCCGCGCGCCGCCGCGCGATCCACGGGCTCCTCCCCCGCCTTGACCACCAGGCGGTTCGCCACCCGGTTGATCCACGTCAGCAGCGGCCGGAAGATCGCGATGAACCCGCGGGCGGGGATCGCGATGAAGCGCAGTGCCGTGTCCGGGTGCGTGATCGCCCAGGACTTCGGCGCCATCTCGCCGATGACGAGGTGGATGAACGTGACCACAAACAGAGCGAGCACGAACGACACCACATCCGCCGCCGTGTACGGCAGGCCAAGTGCCGTAAACATCGGCATCATCGCGTCGTGGACCCAGGGTTTCGTGATCGCGCCGAGCGCGAAGGTGCAGGCCGTGATGCCGAGCTGCGCGCCGGCGAGCATGAGCGTTAG	MDHAGAGVEKHAQVAAFQRSALHDGHGGVAGQRPRCSNHRANGLALELDDAGNLRGGSAIQRARLSRVLDQEIQGFVVVAARRRAIHGLLPRLDHQAVRHPVDPRQQRPEDRDEPAGGDRDEAQCRVRVRDRPGLRRHLADDEVDERDHKQSEHERHHIRRRVRQAKCRKHRHHRVVDPGFRDRAEREGAGRDAELRAGEHER				NA	NA	NA	NA	NA
AK009_08910	768			hypothetical protein	GTGCCTTTCCACACTTTCAACCTCAGCCCTCAAAATGCGCACCGGGGCTTCGTCCCCGTCGAGGTAGTCCTCGGGCTCCGCGGCGAGTTCGATGTCGTGTGTCTCGCCGGAATCGACGAGCCCGCCTGCCTCCGCCAGCACGAGTCCGGAGATGGTCTCGAAGTCGCCGGCGGGCAGGTCGTGGCCGATGGTGCGTTCGACCTCGTCAAGGGGCGTGTCTCCCCCGACGATCCACTGGTTCTCCCCCGCGATCGCGATGTCCTCGGATACCGGCAGGTCGTGCTCGTCGGCGACATCGCCGAGGATTTCCTCGGCCATGTCCTCCTGGGTGATGATGCCGATGAACCCGCCGTACTCGTCGATGACGCTGGCGAGCCGTTCGCCTTCGCTGCGCAGCTGGGTCACGGCGTCGGGCAGGCTCATCAGCTCTGGGACGACGACCGCCGGGCGCATCAGGGCGCTGACGGGGGTGGCGTCGGGAAGCTCGGTGCCCAGCACGTCGAGGAGGTGCAGCACACCGACGGGCACGTGCTCTTTGTCGATGATCGGGTAGCGCGTGTGGGCGCTTGCCATCAGCTCGCGCGCGTGGCCAATGGTGTCGTCGGGCGCGAGGACGTCGGCACGCGAGCGCGGGATCATGGCGTGGCCGACGTTGCGGTCGGGGAAGTCGAGCAAGCGATCGAGGATCATGAAGGTGCGGTCGTCGAGGTCGCCGCTCTCGCGCGATTGGCTGAGGATGTGGTCGAGGTCCTCGGCGGTGGCGGATGA	MPFHTFNLSPQNAHRGFVPVEVVLGLRGEFDVVCLAGIDEPACLRQHESGDGLEVAGGQVVADGAFDLVKGRVSPDDPLVLPRDRDVLGYRQVVLVGDIAEDFLGHVLLGDDADEPAVLVDDAGEPFAFAAQLGHGVGQAHQLWDDDRRAHQGADGGGVGKLGAQHVEEVQHTDGHVLFVDDRVARVGACHQLARVANGVVGREDVGTRARDHGVADVAVGEVEQAIEDHEGAVVEVAALARLAEDVVEVLGGGG				NA	NA	NA	NA	NA
AK009_08911	360			hypothetical protein	TTGCACGATCGTCGACAAGGCCAGGGCGAGCACCGTGGCGACGCCGATGGAGACCGCCGGCGGAAAACCCACTCCCCCGAGCAGCGTGCCCAGCGCCTCACCGACAAGCGGTTCCGCGACGAAACCGACGAGCAGGCCGGTGACCGAGATGCCGAGCTGGGCGCCGGAGAGCATGAACGACGTCCGGTCGGTGATCTTCAGCGCTTTGGCGGCCTTGGCGTCCCCGCCCTCGGCACGGGCCCGCAGTTGGGTGCGGTCGACGGACATGTAGGCGAATTCCTGGGCGACGAAGTAGCCGTTGGCCACAATGATCACGCCGATAACGAGAAGGCCAATAACCAGAGCACCGACTGCCGCTAG	MHDRRQGQGEHRGDADGDRRRKTHSPEQRAQRLTDKRFRDETDEQAGDRDAELGAGEHERRPVGDLQRFGGLGVPALGTGPQLGAVDGHVGEFLGDEVAVGHNDHADNEKANNQSTDCR				NA	NA	NA	NA	NA
AK009_08912	273			hypothetical protein	ATGAATCCCCGCCTCGTCCGCGCTGCCGCCGCCGCGTTGTGCGCCCTGTCCTTGGCTTCGTGCACGGCACCGGCGCCCCCAGAAACTTCAGAAACTTCAGAAACTTCGCCCTCGCTTGCCGACGCCTATTCCAACGTCCTCGATAATCCCGAGGCGTACGAGTACAACTTGACCTCGAGCTTCGAGCCTGCGGGGACCTACTCCTACGCCCTTGCCGAGGTCACGGACGATGATTCCCCGGAGCTGCTGCTGCAGGCGGACGCGAGCGACTAA	MNPRLVRAAAAALCALSLASCTAPAPPETSETSETSPSLADAYSNVLDNPEAYEYNLTSSFEPAGTYSYALAEVTDDDSPELLLQADASD				NA	NA	NA	NA	NA
AK009_08913	981			hypothetical protein	ATGCCCGAAAGCGGGGCGCTTTTTAGTACCCAAGAAGTGCTGATTTCCGGAGCCGGATCCGCGGGCGGGGGCCGCGCGGCTGTTGCGTCGTCACGCTCGGGCAGCGGACTTTACCAGCTCACGTGGCAGTCAGTTGCGCAATCTGTTGATGTCGAGCGCTTTGCCGTCGAGGACCAAAGTCTGGTTTCGGCAGGCGCGAAAACGGCCGTGGCGAGCGGCGACGTCTACGCCGACGACCGGGCGGAGATCACCTGGACCCCGAGCACGGACCGCAGCGTCCTCGATGCGCTGGAAAGTGGCACATGGGCTCCGCCGACTTCTTCGCCTACGCCGGAGGCCTCTGTCGTGGTCAAGCGCTGCGGGGCCGTCCCCGGCCAAAGCGTTTACACCGGCACCACGGAAACGTCGTGCGAGTTCGCCATTGAGGTGGCTAGGGCCGTGATTCAGAGCCACGGAGGACCGAGCTTCGCGGTTGAGGCTCGCAGCCCGATAACCAAGGCGTCCTACTCGATGAGCTGTCAGTCTTCTGGAACCGAAATCACGTGTACCGGCGGCAACAACGCAAAGGTCGTCCTTCGCGCGGGTGAAGACCCGCCTGCCGAAGCGAGCGGGTTAGACGTGTACGAGGGCACTGTTGTCAGCATGAGTACTGCTGAAGTCCTAGACGGGAGGCCCGCGCCCAATAACGACAATCCGAACAACGAGTACATTGTGCTCTTGTTTGATTCGCCCCAGGACGTGACGGCACAACGGCTCGGCGGGGAAAGCGACACAGAGCAGAAAGCGTTACTCGCTCTCGGGGATAAGGAGATTACTCCGTACGGCACTAGCGACGAAACCGGCCCGTGGCTCGATTACGTTGGCAAGCGCGTAGGCCTAAAAGTTGATCCCACGACGATGTATTTCCCATCGGATGCGAGCCTTCCGTTGGGCGCACCTCGGGTTGGCGAGCACACGGCTTACAGCATCGAGGTGCTGTAA	MPESGALFSTQEVLISGAGSAGGGRAAVASSRSGSGLYQLTWQSVAQSVDVERFAVEDQSLVSAGAKTAVASGDVYADDRAEITWTPSTDRSVLDALESGTWAPPTSSPTPEASVVVKRCGAVPGQSVYTGTTETSCEFAIEVARAVIQSHGGPSFAVEARSPITKASYSMSCQSSGTEITCTGGNNAKVVLRAGEDPPAEASGLDVYEGTVVSMSTAEVLDGRPAPNNDNPNNEYIVLLFDSPQDVTAQRLGGESDTEQKALLALGDKEITPYGTSDETGPWLDYVGKRVGLKVDPTTMYFPSDASLPLGAPRVGEHTAYSIEVL				NA	NA	NA	NA	NA
AK009_08914	1380			hypothetical protein	ATGGATGCGACGCACACGGGGGATGACCATTTCTTCCGCACACAACGACCAAACGACACGTTGGCACGCCTGGGCCAACACAAACGCGACATCGAATACGAGATCTTCTCCACCTGGGCCGAGACGGCACATGTGGTCGACGACTTCGAAGTAGAGATCACCCACATCCAGCACGCGATCGGGGAGAGCAAAGCAGCAGTCGAAAAAGCCATCCTCGCCTACCGACGCCTGATCGACCTGCCCGGGCTGCGCCAGATTCAACACACCACACGACTGTTAGACATCAAACGCCTTGCCAGCATTGATACCGCCATTGCGGAACTTGGCCCCGGCGTCGACACCGAGGTCTACGCCCACATTGACGCGTACCTAGTGGAGGTGTTTACCGCCACGAAACCCAACCAACCGTTGCTGACACCCAAAGCAATCGTGCACCGGCTTAGACGGCTCATCGCCCAGCTCGACAACACCGTGGGCTACGACGCGGCTAAACGCAAACGCCGCACCCGCCCACAAGACGCGTTCGTCATCCACGACTATGAGCTCGGTGCACGCTCCGGCACCACAATTGAGTGCGACAACACCACCCACGCCCTGATCCGGCAATACCGCACACACGTGGCACAAGAGAACAACATCACCGAAGACGAAGCAGCACGCCTGATCCTCACCGGTGAACTCACCGCACAACCCACGGTGACTATTTTCGGGTTCGCACCCCTGGGCCCCGATGGTGACATCGTCGACGGTGCATCAGTGTTTTTCCCCGGTACGGGGTGGACCGATGCTGAGGGCAGTGCTGTGGCCGAACAGTACGCCTCGCGCATCGTGGACCTTGGTGATGTTGCCGGCCACGAGATCGACGGCTATGTTCCCTCGGCCCGGATCAAAGCGTTCGCTATTGCCCGCGACGGCACCTGCGTCTGGCCGGGCTGTACCCGCGATGCACAGCATTGCCAGCTTGATCACCGCGTCCCCTACGCCGACGGGGGAAGCACAACCCCAGCGAATTTGTTCTCGTTGTGTCAGCGTCACCACAACGTGAAAACGGATCGTCGTGCCTACTACATTCCCGACCCCACCACCGGCGACATCGTGTGGCTATTTGCTGACGGCACGTATGCGTTGAGCGAGCCCGATGGGTTTATCACCACCCAGCTTGGGGCGGACAACCCCCGGTGGAACCACAGCCTGGACCAGCGACGTGTCCTGCGTGACCGGGTCGCGACGTTTCTGGCGAAAGGGCACACAATCCTCGACGCCTACGACACCACCGGCAACTACAACACCTGCATCGAAGAACTGACACGCCTCGAGCAGGAATACCGCATGACCTTCCCCCACAAACCCACCACCAACCCAGACGCCAACTCCGGGTAA	MDATHTGDDHFFRTQRPNDTLARLGQHKRDIEYEIFSTWAETAHVVDDFEVEITHIQHAIGESKAAVEKAILAYRRLIDLPGLRQIQHTTRLLDIKRLASIDTAIAELGPGVDTEVYAHIDAYLVEVFTATKPNQPLLTPKAIVHRLRRLIAQLDNTVGYDAAKRKRRTRPQDAFVIHDYELGARSGTTIECDNTTHALIRQYRTHVAQENNITEDEAARLILTGELTAQPTVTIFGFAPLGPDGDIVDGASVFFPGTGWTDAEGSAVAEQYASRIVDLGDVAGHEIDGYVPSARIKAFAIARDGTCVWPGCTRDAQHCQLDHRVPYADGGSTTPANLFSLCQRHHNVKTDRRAYYIPDPTTGDIVWLFADGTYALSEPDGFITTQLGADNPRWNHSLDQRRVLRDRVATFLAKGHTILDAYDTTGNYNTCIEELTRLEQEYRMTFPHKPTTNPDANSG				NA	NA	NA	NA	NA
AK009_08916	723			hypothetical protein	TTGGTTCTAGGTGGGCTGGCCTGCCTGAACGACGATGATCCAGATCGCCACCAAGTGCAAGGCCGCAGCCACAATCGTCAACGTGTGAAAATGCTCGTGGTAGCCGTAGTAGCGGGCTTCGCGGCCTGGCCACTTCAGCCCGTAGACCACCGCGCCCACCGTGTACGCGACGCCGCCAAAAAACAGCAAAAGGATAACGGCCATGTCCGCTTCGGTGCGCAGCACGGGCAGGATGGGCAGGACCAGCCAGCCGAGCGTGATGTACACCAGCACGTCGAGCCATCGGGGGTGGTTGATCCACACCATATTCAACACGACGCCCAGCACCGCGCCCGCCCAGGCGATGACCAGCATCCACGTCGAGTAGGGCGGCTCGAGCAGGATGATGCACAGCGGCGTGTACGTCGAGGCGATGAAGATGGCGATGGTGGAGTGGTCGGCGCGCCGCCACCACTGGACTGTTGCAGCAGACTTCCACGGGCCGCGGTGGTAAAGCCCCGACACCGCGAACAGCAGGATCAGCCCCGCGCAGTACACGCTCACACTCAGCGCCTCGACGGGCCGCAGAGTCAGCCACGCGAAAGTGATGAGCACCGCGGAGCTTATCGACGCCACAAACGCGGCAATCAGGTGGGCCCAGCCGCGCGTCGATGGGCGGAGTCCGCGGTCAAAAACGCGAGACGTTCGCTCGATGGTGGTCACCTCTGCAAGGCTACGCATTAG	MVLGGLACLNDDDPDRHQVQGRSHNRQRVKMLVVAVVAGFAAWPLQPVDHRAHRVRDAAKKQQKDNGHVRFGAQHGQDGQDQPAERDVHQHVEPSGVVDPHHIQHDAQHRARPGDDQHPRRVGRLEQDDAQRRVRRGDEDGDGGVVGAPPPLDCCSRLPRAAVVKPRHREQQDQPRAVHAHTQRLDGPQSQPRESDEHRGAYRRHKRGNQVGPAARRWAESAVKNARRSLDGGHLCKATH				NA	NA	NA	NA	NA
AK009_08917	783	glnH_2	COG0834	Glutamine-binding periplasmic protein	GTGCCAGAGATCGCCGCGATGGTGCCCGAGAGCGTCGCGGCGGACGGCAAGCTGTCGGTGGGCACGAACCCACCGTTTGCCCCCTTCGAGTTCAAAGACTCCACAGGCAACCTCATCGGTGTCGAGCTCGACCTCGGCCAGGCGTTAGCGCAGGTCATGGGCCTCGAGTTCGACCCGCAGGAAATGGATTTCTCCATGATCCTGCCCGCGGTCCAAGCCGGCAGCCTGGACGCCGGCATGTCAGGGTTCACCGACACCGAGGAACGCCGCGAGTCCTACGACTTCGTCGACTTTCTCTACGCCGGAATCCAGTGGGCACAGCAGCCCGGCAACGACGTCGACCCCGCGAATCCGTGCGGACTGACCGTTGCGGTGCAGCGCACCACGGTCTCCGAAACGGATGACGTCCGCCCGAAGAGCGACGCTTGCGCCGCCGCGGGCGAGGATCCGATTACGGTCTTGTCCTTCGACACCTCCGACAACGCCGCGCTCGCCGCGCTGACAGGCCGTGCCGACGCATTCAGCGCCGACTCCCCCGTCACCGCCTGGGCCGTCGAGCGTTCCGACGGCGATCTGGAGCTGGTGGGCGACATGTTCGACGCGGCCCCCTACGGCATCGCGGTGAACAAGGGCTCCGAGCTCGGCCCCGCGCTGGCCGCCGCGATGCAGCACCTCATCGACACCGGGGAGTATGCCCGCATCCTCGGGCAATGGAACATCGACTCAGGCCTGCTCGACGAAGCACTGATTAACGAACAGCCCCAGCAAGGAGCAGCACAATGA	MPEIAAMVPESVAADGKLSVGTNPPFAPFEFKDSTGNLIGVELDLGQALAQVMGLEFDPQEMDFSMILPAVQAGSLDAGMSGFTDTEERRESYDFVDFLYAGIQWAQQPGNDVDPANPCGLTVAVQRTTVSETDDVRPKSDACAAAGEDPITVLSFDTSDNAALAALTGRADAFSADSPVTAWAVERSDGDLELVGDMFDAAPYGIAVNKGSELGPALAAAMQHLIDTGEYARILGQWNIDSGLLDEALINEQPQQGAAQ	PGPT0020800_3099	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
AK009_08918	1260			hypothetical protein	GTGGTTGACGCAGCGCAAGAACGTCGACTTGCCGGAGCCGGAGGGGCCAATCAGACAGGTTACGGAGCCGGGTTCGACGGTGAGGTCGATGCCTTTGAGCACGTCAAGGCTGCCGAAGGACTTCCAGACGTTCTCGGCCTGAATCATGGGAGTAGTCATAAGTTAGCGTCCTTTGGGCTCGGGGGCGTCGACAAGCTGAACGTTGGCCGGGATGGTGCCCTCGGCGTCGGCAAGCGTGGCCAGCTGGCGGGCGGTGAGCTGGCGTTTTGCGCCGCGGTCGAAGTACTTCTCCAGGTAGTGCTGGCCGACCATGAGGACCGAGGTAATCGCCAGGTACCAGGTCGCGGCGACGAGCAACATGGGCACCGGCTCGAACAGCGCGGCGGCGATGTCCATGGAGCGACCGTAGAGCTCCAAAGAATAGGGCACCGCGACGACGAGCGAAGACGTTTTCAGCAGCGAGATGAACTCGTTGCCCGTCGGCGGGATGATGATGCGCATTGCCTGCGGCAGAACCGTGCGCGTCATCGTCTGCGACCAGCTCATGCCCAGCGCCTTGGAGGCCTCGATCTGCCCCTCGGGCACCGAGGAGACGCCAGAGCGGACGATCTCGGCCATGTAGGCGGCCTCGTTGAGCGCCAGGCCGACGACGGCGAGCAAGAACGCCGAAGAAGTAAACGGCTCCAGCGGAATCTCGGCGACGCCGAGGTTGATGGTGTCATAGATCGAGCCGATCAACCCCCAGAAAATGAGCTGGACGTAGACCGGGGTGCCGCGGAAGATCCAGAGGAACACCCAGGACACCGTTTTGAACACCGGGTTGGGGGACATCCGCATGACCGCGAGGATCACGCCGCCGATCACGCCGAGCACCATCGCGAAAATCGTGATCGCCAGGGTGTGCAGCGCGGCGACGGCGATGCGGGTGTCAAACAGGTAGCGGAAGTAGGTGTCCCAGCCGTAGGCGTCGTTGCGGGCCGCGCCGATGAGGAACCACACCGCCAACGCGATGATGATGGCCGCCAAAATCCAGCGCCCGGGGTGGCGCAGGGGCTTGGCCTCGATGCGCTCGGGTCGTGTAGTTGTCATTGTGCTGCTCCTTGCTGGGGCTGTTCGTTAATCAGTGCTTCGTCGAGCAGGCCTGAGTCGATGTTCCATTGCCCGAGGATGCGGGCATACTCCCCGGTGTCGATGAGGTGCTGCATCGCGGCGGCCAGCGCGGGGCCGAGCTCGGAGCCCTTGTTCACCGCGATGCCGTAG	MVDAAQERRLAGAGGANQTGYGAGFDGEVDAFEHVKAAEGLPDVLGLNHGSSHKLASFGLGGVDKLNVGRDGALGVGKRGQLAGGELAFCAAVEVLLQVVLADHEDRGNRQVPGRGDEQHGHRLEQRGGDVHGATVELQRIGHRDDERRRFQQRDELVARRRDDDAHCLRQNRARHRLRPAHAQRLGGLDLPLGHRGDARADDLGHVGGLVERQADDGEQERRRSKRLQRNLGDAEVDGVIDRADQPPENELDVDRGAAEDPEEHPGHRFEHRVGGHPHDREDHAADHAEHHRENRDRQGVQRGDGDAGVKQVAEVGVPAVGVVAGRADEEPHRQRDDDGRQNPAPGVAQGLGLDALGSCSCHCAAPCWGCSLISASSSRPESMFHCPRMRAYSPVSMRCCIAAASAGPSSEPLFTAMP				NA	NA	NA	NA	NA
AK009_08919	570			hypothetical protein	GTGCTGCGGGTTGTCCAGCACCTCGGCGGGAGTGCCGTACTCCACGATCCGCCCATCCGCCATGAACGCGACGTGGTCGGCGACCTCGCGGGCGAAGTTCATCTCGTGGGTGACCACGAGCATGGTCATGCCGCTATGAGCAAGCTCCTTCATCACACCGAGGACCTCGCCGACGAGCTCGGGGTCGAGCGCGGAGGTGGGCTCGTCGAAAAGCATGAGCTTGGGCTCCATGGCCACCGCCCGCGCGATGGCGACGCGCTGCTGCTGGCCACCGGAAAGCTGGATCGGGTACGCGGTTGCTTTGGACTCGAGGCCCACCATCGCGAGCAGCTCGAGCGCGCGCTCCTTCGCCTTGGCGGCGGGCACGCCCTTGACGTGGATCGGCGCCTCCATGATGTTGTCGAGCACGGTGCGGTGGCCAAACAGGTTGAACTGCTGGAACACCATGCCGATCTCGCGGCGCTGCTTCGCGGCGTCGCGCTCGGACATTTCGTACAGGGTGCCGCCGCGCTCGCGGTAGCCGATGAGCTCGCCGTCGACGTAGAGGCGACCCGCGGTGACCTTTTCTAG	MLRVVQHLGGSAVLHDPPIRHERDVVGDLAGEVHLVGDHEHGHAAMSKLLHHTEDLADELGVERGGGLVEKHELGLHGHRPRDGDALLLATGKLDRVRGCFGLEAHHREQLERALLRLGGGHALDVDRRLHDVVEHGAVAKQVELLEHHADLAALLRGVALGHFVQGAAALAVADELAVDVEATRGDLF				NA	NA	NA	NA	NA
AK009_08920	762			hypothetical protein	ATGCCCAGGAAACCACAGAACAGCCATGATTCCGCTCCCTTGCGCCAAATAACGACTGCCGTCCTAGTTGACGGCGGCTTTTACCGTAAGCGAGCGTCTGAGCTGTTCGGGCGCAAAACCGCAGAAGCGCGGGCAGCTGAATTGGTGCAATATTGCCACCGCCACATTAGAAAATCCCGCGCGGGCCTCTACCGAATCTTTTATTACGACTGTCCTCCGTCGCAGCGCGTGGTTTACCATCCACTGCTCCAAACCCAGGTGAACCTGGCCAAGAGTGAATTATTTAGCTGGTCCAACGACTTTTTTAGGGCCTTGTCCAGCAAACGGAAAGTGGCAATCCGCCGAGGAGAGACCCTGGAGACGCAGGGTGGCTACACACTTCGGGATGGCCCGCTAAAGAAACTGTGCAGAGGCGCAATCAGTGTCGAGGACCTCCAAGAACATGATTTCGTTCTGGAGATCTCTCAAAAGGGTGTGGATATGCGAATCGGCCTAGACATAGCGTCGCTCGCTGAGCGAGGTCTGGTCAACCAGATAGTGATGATATCTGGCGACAGCGACTTCGTTCCTGCCGCTAAACATGCCCGCCGATCTGGAATCGATTTCATCCTCGATCCGATGTGGGCGCCAATTACAGACAGCCTCGCTGAACACATCGACGGTATCCGCCAATGCGTCTCTCCCCCGCCCAGGAACATGACTGATCCCCTTCACATCGACTACCGGGGAGACAGCCCCGAGCAGGACGATGACGAACTCTAG	MPRKPQNSHDSAPLRQITTAVLVDGGFYRKRASELFGRKTAEARAAELVQYCHRHIRKSRAGLYRIFYYDCPPSQRVVYHPLLQTQVNLAKSELFSWSNDFFRALSSKRKVAIRRGETLETQGGYTLRDGPLKKLCRGAISVEDLQEHDFVLEISQKGVDMRIGLDIASLAERGLVNQIVMISGDSDFVPAAKHARRSGIDFILDPMWAPITDSLAEHIDGIRQCVSPPPRNMTDPLHIDYRGDSPEQDDDEL				NA	NA	NA	NA	NA
AK009_08922	522			hypothetical protein	GTGGGCGGCGGAGGCGTCGGCAAGCGGGAAAGTCTTGGACACGTTCGCCTTGATGGCGCCGCTCTCCAGCAGCGGCCAGATGTTTTTCACCATGCTGTCGACGATCTCCGCCTTCATCGGGCGCGGGCGGGCGCGCAGCGTGGTGGCGTGCACGGACTGGCGGCGGGTGAGCATGCGGCCCAGGTTGAGGGTGCCCTTGGGACCGCCCTGCAGCGCGATGACGACGAGGCGGCCGTCGACGGCCAGGCTGGCAACGTTGGGCTCGAGGTAGGACCCGCCCATGATGTCGAGGATGGCGTCGCAGCTGCCCTTGAGCTCCTCGGAAAAGTCCTGCTCGTTGTAGTTGATCGTGATGTCCGCGCCGAGGTCGCGGCAGTACTCGAGCTTCTCCGCGCTGCCCGCGGTCACGGCGACCTCGCAGCCGAGCGCCTTGCACAGCTGGATGGCAAACGAGCCGATTCCGCCGGCGCCACCGTGGATGAGGACGCGGTCGCCGCGGGAGACGTCGGCAAGCATGCCTAA	MGGGGVGKRESLGHVRLDGAALQQRPDVFHHAVDDLRLHRARAGAQRGGVHGLAAGEHAAQVEGALGTALQRDDDEAAVDGQAGNVGLEVGPAHDVEDGVAAALELLGKVLLVVVDRDVRAEVAAVLELLRAARGHGDLAAERLAQLDGKRADSAGATVDEDAVAAGDVGKHA				NA	NA	NA	NA	NA
AK009_08923	267			hypothetical protein	GTGCTCGATGTCGGCCGTGGTGTTAAACGGACTCAGCGACACGGTCACGGCGCCGCCGAGCTCGCCGACGCCCATCTCGTCGGTCAGCGGCCCCTCCGGCATCAGCGACGCCACGATGCCGTGAGCAAAGAGGCGCTGCTGTACCGTCAGCGCGGGCACGCCCTTGACACCGAACGACAGCCGCGGGATGCGGTCAACTTCCGCGTCGGACTCCGCGGCGGCCTCGCCCGAAACGCCAACGATGTGCACCGCTGGCAGGGTGCCTAG	MLDVGRGVKRTQRHGHGAAELADAHLVGQRPLRHQRRHDAVSKEALLYRQRGHALDTERQPRDAVNFRVGLRGGLARNANDVHRWQGA				NA	NA	NA	NA	NA
AK009_08924	606			hypothetical protein	GTGGTCGATCGTCGGTGCGACCGCTCCGGCCAGGCCCGGGGACACGCCCAGCTCGAGGCGAGCAGCGCCGGTGGCGGTGGGGTCGCCGATCGGGGCCAGGCGGCCAAACATGGTCTCGTCGCGGAACACCAGCGCGGCGATCTCCGGGCCGCCCATTTCTTTGAGATCCACGGCGACGATGTCGGCGCCCCAATCGTCGAAGGTGATGGGGCGGTACGGGGCGTAGGCAGAGGCGTCGACAAGCACCCAGGCACGCGAAGCGGCGCGCACCGTCTCCGCGATCTCCGCGACCGGCGCAACCGTTCCCAAGTAGGGGTGCGCCGCGGGCACCGACACCAGCCGCGTGGCGCCGTCGACAAGATCCATGTACTGCCAGCCCGGCAGCGACCCGGTGGCCAGGTCAGCCGCAGCCCACCGCACATCCGCTTCAGTGCGCCCAAGCGCCGCGGTCAGCTCCACGCGGTCGACGTTGTTGAGCACCACCGAGGAATTCTTGCGCAGCAGCGGGCGCATCGACGCGACCAGAGAGGCGTAAAGGTACACCAGGCCGGGGCCGAGCACGACGCGTTCGGGGGTGGCTCCGACGAGGTCCGCGACGGCCACTGA	MVDRRCDRSGQARGHAQLEASSAGGGGVADRGQAAKHGLVAEHQRGDLRAAHFFEIHGDDVGAPIVEGDGAVRGVGRGVDKHPGTRSGAHRLRDLRDRRNRSQVGVRRGHRHQPRGAVDKIHVLPARQRPGGQVSRSPPHIRFSAPKRRGQLHAVDVVEHHRGILAQQRAHRRDQRGVKVHQAGAEHDAFGGGSDEVRDGH				NA	NA	NA	NA	NA
AK009_08925	390			hypothetical protein	GTGTGTGCGTGGCCTACGACATTGCCAGCGTTCGTGGCCTCTACACCTCACTGTCCGACGGCTGGATTTACCTCAACGCGCATGATTGCCCGCAGGTTCCGGAGCGGGTGTCGTCCGCGGTTGCACGCTCATTTCGCGTGGCCACGTCGGTTTCGCGGCCCGAGCCCGCCGCCGGTTCGCACTCCAAGCCCACCACCGGGGTGCCCGAGGCAGCCACCTTGCTTCACGACGCCTCAGTGGCCGTCGCGGACCTCGTCGGAGCCACCCCCGAACGCGTCGTGCTCGGCCCCGGCCTGGTGTACCTTTACGCCTCTCTGGTCGCGTCGATGCGCCCGCTGCTGCGCAAGAATTCCTCGGTGGTGCTCAACAACGTCGACCGCGTGGAGCTGA	MCAWPTTLPAFVASTPHCPTAGFTSTRMIARRFRSGCRPRLHAHFAWPRRFRGPSPPPVRTPSPPPGCPRQPPCFTTPQWPSRTSSEPPPNASCSAPAWCTFTPLWSRRCARCCARIPRWCSTTSTAWS				NA	NA	NA	NA	NA
AK009_08926	723			hypothetical protein	GTGGTAGAGGGCAACCTCCCTGCCGACGAGCGGAGCGCGCACGATCTCGAGGTAGTGGTAGAGCGGGTTGAGCTCAGCGATCCGGGCGCGCTGAGCAACCTCGCCGCCCTGGTCACGCAACGTCTGGGTCGTCCAGACGATGGGGGTGACGTAGAACAACAGCTGCACCAGGGACTCGAGAAGCGGCGCGACGTCGCGGAAGCGCGTGGCGATGATGCCGAACAGCATGGTCACCCACACGCCGTTGATCACCAGCAGCGCGAGCGCAGGAATCGCGAGCAGGGTATTAAGCGACAGCGGGATGCGGAACACGATGACAAGCAGCACCCAAATCACCATGTTGTGGGCCAAAAACAGCACCTGGCGCCACACCAAGCGGTAGACGTGCACCGACAGCGCCGAGGGAAGCTGCTTTATCAGCCCCTCGTTTTCGATGAAGATGTCCGAGCCGTCCTTGATGCAGCCGGCGATGAACCCCCAGATGATAAACCCGACGGTGACGTGGGGCAGAAACTCGCGCACCGAGATCTGGAACAGCATGGAGTACAAAAGCCCCAGCGCCAGCGCCATCACGCCGGTGGCGATGGTGATCCACAGCGGGCCGAGTGTGCTGCGGCGGTAGCGCTGCTTGATGTCCTGCCAACCGAGCTGGAGCCACAGTTCGTTTTGGCGCCAGCCGCTGACGAGGTCGCGAAACGCCATGGACAGCGTCGTGGACTTTGA	MVEGNLPADERSAHDLEVVVERVELSDPGALSNLAALVTQRLGRPDDGGDVEQQLHQGLEKRRDVAEARGDDAEQHGHPHAVDHQQRERRNREQGIKRQRDAEHDDKQHPNHHVVGQKQHLAPHQAVDVHRQRRGKLLYQPLVFDEDVRAVLDAAGDEPPDDKPDGDVGQKLAHRDLEQHGVQKPQRQRHHAGGDGDPQRAECAAAVALLDVLPTELEPQFVLAPAADEVAKRHGQRRGL				NA	NA	NA	NA	NA
AK009_08927	408			hypothetical protein	TTGTTTGCGCGACTGCCCGAGGAACAACCCCCTGATGATGATGTTTTCGTACCCCGAGATTTCGGGGTCCATGCCCACGCCGAGGTCGAAGACGGGGGCGACGCGGCCGCGCACGTCGGCGACGCCGCGGGTCGGCTCGTAGATGCCGGAGAGCAACCGCAGCAGGGTGGATTTGCCGGCGCCGTTGTGTCCGACGAGGCCGACGCGGTCGCCTTCGCGCAGGTGGAGGTTGATGTCGCGAAGCGCCTCGACGACGACGGTGTTGGAGGCGTTTTTGCCGATCGCGCCGCCCGCGGAGGACACGACCGCCTTCTTCAGGGAGCGCGACTTGGCGTCGAAGATGGGGAAGTCGACGCAGGCATCATAGGTGTCGATGGAAACCACGTGTTTTCTCCTTATACCCAGTAG	MFARLPEEQPPDDDVFVPRDFGVHAHAEVEDGGDAAAHVGDAAGRLVDAGEQPQQGGFAGAVVSDEADAVAFAQVEVDVAKRLDDDGVGGVFADRAARGGHDRLLQGARLGVEDGEVDAGIIGVDGNHVFSPYTQ				NA	NA	NA	NA	NA
AK009_08928	228			hypothetical protein	GTGCCAAATGTTGCACCGATCTCGCAACATTTGTCACTACACCGCCCCAGGATGAAACCGTTCGACCAAATCGGCGACGTACTTGCCCGCCTCGGGCCCTTCGTAGGCTTCGACGACGTCGGAGACCAGCCCGGCCTGCCGAATTTCGCCCTTGTCCACCCACAAAGCGGTGGTGCACAGCTGCGCGAGGAAGTCGTTGGAGTGGGAGGCGAAGACGAGGATTCCTGA	MPNVAPISQHLSLHRPRMKPFDQIGDVLARLGPFVGFDDVGDQPGLPNFALVHPQSGGAQLREEVVGVGGEDEDS				NA	NA	NA	NA	NA
AK009_08929	585			hypothetical protein	TTGCTGCTGCAAACTAAGGCCGAAACGCTGAGCAATCTGCACGGTGAGCAGCCGCATCTCTGTCTCCTTCGGCGAGTCTGCGAGAGGGCTGGACTGGGAAAGGATCTTTTCCAGCCACCGGCCGTTGACGCGGTAGCGCGCAGCGTCGCGGAGTTCGCCTGCGGTCACCGAGAGGTGGCGCATGGCGGCGTCGACAAGCTGAATGCTCTCCAGCTCATCGCCACCGATAACTTTGAGCGCGCCGCAGGTGGTGACGGCTGGGTTTGCGACGCGGAAGGGGTAGCCGTTAAAGATCAGCGCCCACGCCTCGCTGTCGCGGCAGCCGCGCCGTGTGATGGTCGCGCTCAGCGCGTCGCCCGTCGCGTTCCCCGCCCGGGGAAGCACGAGCGTGGTGTCCCAGCCCTCCACGAGGTGCGGCAGGCCGTAGACGGCGAGCGCGCTGTGGCCCACGATGATGGACTCCGGGTGCTCCTCCGCCAGCGCCAAGGCGCGGGCGGCGGCGGGCGCGCCGTACTCGATCGAGCGCGGGTGGGTGCGGGCGTCGGCAAGCACTGCCCACGTCGGGCGAAGCGCGCTGGTAGGTAG	MLLQTKAETLSNLHGEQPHLCLLRRVCERAGLGKDLFQPPAVDAVARSVAEFACGHREVAHGGVDKLNALQLIATDNFERAAGGDGWVCDAEGVAVKDQRPRLAVAAAAPCDGRAQRVARRVPRPGKHERGVPALHEVRQAVDGERAVAHDDGLRVLLRQRQGAGGGGRAVLDRARVGAGVGKHCPRRAKRAGR				NA	NA	NA	NA	NA
AK009_08930	201			hypothetical protein	GTGGCGCGCCGAGATCTGCTCGCAGCCTGGGTCGGGTGCGCTCTTGATGGGCCAGGGGGTGGCGTTGGTCATGCCGTCGAAAAGCGTCATGCCCTATTAGAGTCCGACGGGCCCGGCGCGGGTTCCCTGGTGCACAATAGAATCTATGACTTCGAGCTTGAGCGCGGATGGAACGACTGCGGCTGTGATCGTGACGCATAA	MARRDLLAAWVGCALDGPGGGVGHAVEKRHALLESDGPGAGSLVHNRIYDFELERGWNDCGCDRDA				NA	NA	NA	NA	NA
AK009_08931	867	glfT1	COG1216	Galactofuranosyltransferase GlfT1	GTGATCGTGACGCATAAGCGCGTCGACCTGCTGCGCCATTCGCTGCGCCAGGTCGCCGCGCAGACCCATCCGGTGGAGTGGATCATCGTGGTCGACAACGGGGCCGAGCCCGCCGTGGAGGAGTTATTGCACGAGGTCAGCCCCGACAAGGGCGTATACCTGCCGTCGCGCACCAACCTCGGCGGCGCCGGCGGGTTCGCCTACGGCTTCCTGCACGCCCTGGCGCTGGGCGCGGACGCCGTGTGGTGCGCGGACGACGACGGCCGCCCAGCCGACGAAAACGTCCTCGCCGAGCTCTACCGCGTCGCGGCCACCCACGACCTGCACCAAGTCAGCCCGATCGTCGCCAACCTGGGCGACCCCGAAAAACTAGCGTTCCCGCTGCGCCAGGGCCTGAGCTGGAAGCGACACACAAGCGAGCTGGAGGGCGATTTCCTCCCCCAGTACGCCTCGCTGTTCAACGGCGCGCTGATCAGCTCGCAAGCAATGGAGCGCATCGGCGTGCCCGACTACCGCCTATTCATCCGCGGCGACGAGGTGGAGTACCACCGCAGGCTGGCCCAGTCGGGGCTGCGCTACGGCACCGCGCTGACCGCGTCCTACCTGCACCCGGACGGCTCGGGCGAGTTCCACCCGATCATGGGCGGCAGGGCCCACGCGCAGTGGCCGGACAACCCGACGAAGCGCTACTTCACGTTCCGCAACCGCGGATACATCATCAACCAGCGCGGGATGCGGAAGATGAAGCTGCAGGAAGTGGTGCGTTTCGGCTGGTTCTTCCTGCTGCAGCGCAAGAACCCGCGCGAGTTTGCCCAGTGGCTTAGGCTACTGCGGATGGGGGCACGGGAGGATTTCCGTCGTCCGTAA	MIVTHKRVDLLRHSLRQVAAQTHPVEWIIVVDNGAEPAVEELLHEVSPDKGVYLPSRTNLGGAGGFAYGFLHALALGADAVWCADDDGRPADENVLAELYRVAATHDLHQVSPIVANLGDPEKLAFPLRQGLSWKRHTSELEGDFLPQYASLFNGALISSQAMERIGVPDYRLFIRGDEVEYHRRLAQSGLRYGTALTASYLHPDGSGEFHPIMGGRAHAQWPDNPTKRYFTFRNRGYIINQRGMRKMKLQEVVRFGWFFLLQRKNPREFAQWLRLLRMGAREDFRRP	PGPT0024210_397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGGALACTOFURANOSYLTRANSFERASE_ACTIVITY,PGPT0024210-glft1-K16649	NA	NA
AK009_08932	486			hypothetical protein	TTGCCCAGTGGCTTAGGCTACTGCGGATGGGGGCACGGGAGGATTTCCGTCGTCCGTAAACCGGCGCGGCTCGGCGGAGGAGATGATCTTGGTTTCCTCCTTGAAAATCACCCGGCGCTGGAGCACGAAGTTGGTCACCGTCGCTACGCCCTGGGCAATGACAAACGAGGTCGCGTCCTTCCACGGGTTGACAAAACCGAGCGCGATCAGCGGGCCCTCAGTGATGTTGTAGAGCAGCACCTGCACCGCGAACGTGGAGGCGTAGAGAAGCAGAACAGCCCCCGCCTTCTTCACCGTCACCGCGGCCTGGAAGGCGAAGCGCGAGTTGAGCACGTACGCGATCAGCGTGCCAAAACACCAGCCCACCACCTTGGACAAGTCGCGCGACAGCGGCGAGAGCTCGGTCAGCCCGTAGGTAATGCCGAAGTCGACCACGGCGCAACCGACGCCAATGATGAGAAACGGCACGAGCTGCCTTCTCACTGA	MPSGLGYCGWGHGRISVVRKPARLGGGDDLGFLLENHPALEHEVGHRRYALGNDKRGRVLPRVDKTERDQRALSDVVEQHLHRERGGVEKQNSPRLLHRHRGLEGEARVEHVRDQRAKTPAHHLGQVARQRRELGQPVGNAEVDHGATDANDEKRHELPSH				NA	NA	NA	NA	NA
AK009_08933	792			hypothetical protein	GTGGCGCACCTTCCGCGCGGGCAGCTTGGGGTGGCCGAGCGAGGCATATGTGCTGGTGATGATGCTATCGGTCGTCTCGGCATCGGCGAAGCAAGCCAGCGCCAGCACCACGGCCCAAAACGCGTCGCGCCCCGCCGCGGTCCGCTCGCGCGGGAGCTTGCTTATCGACGCCCTCACCGACGCCGGCAGGTCCGTCTCGCGCCCCAAGTCAAGAGCTTTGAGCAGGAGCACGAAGTCGTACATCGAGGTCCGGGCGACGGCATCGCGCACCTCGGCGCGGGTGAGCTTGAGCACGTCGGCGGCGATGTCCTCGCCGATCAGGTCGCGGTTGATTTCGGAGATGTTCAGCCCCTCCGTCCCGAAGGCACCGGAGCCGGCGATGCACACGGCGGGCGGGGTAGCGTCGTCACGCGGGTAGGCCTCGACGAGCTCGAGGTCGAAGCGCCACAGGCCCCAGTGGTAGTAGATGGTGGTGCGGGCGCCGGTGAGGGCGTCGCTAAGCGTGGTGGCGGGGTCGATGACTGTATCCGGCCGCGGCTCGGCTGGCTCGGTGGTAAAACCCGCGGGTTGCGCGCTGAGGCCGAAGGCGGTGGCGACGGCGCGGGAGACGTCGTGAAGCGAGCTCGCCTCGTCGATGCCAAGGTAGCGGTAGGCCTCCTCGTCGCCGACGTGCACGGAGACGCGCAGCATGAACGTCGAGCGGCTGCCCGAGCGCGGGCGCAGCAGAGCGAGGTCGAACACGGGCGCTCTGTACTCGCTGTGCTCGCTGCCTCTCATGTCGCCCCAGCTTAG	MAHLPRGQLGVAERGICAGDDAIGRLGIGEASQRQHHGPKRVAPRRGPLARELAYRRPHRRRQVRLAPQVKSFEQEHEVVHRGPGDGIAHLGAGELEHVGGDVLADQVAVDFGDVQPLRPEGTGAGDAHGGRGSVVTRVGLDELEVEAPQAPVVVDGGAGAGEGVAKRGGGVDDCIRPRLGWLGGKTRGLRAEAEGGGDGAGDVVKRARLVDAKVAVGLLVADVHGDAQHERRAAARARAQQSEVEHGRSVLAVLAASHVAPA				NA	NA	NA	NA	NA
AK009_08934	651			hypothetical protein	GTGCGCCGCGATCGTCTCGTCGAGGGTGTCGGTTCGCTCGGTGTCGGCGATGAAGTAGGCCGTCTCCGTGCGCGTCATCAGGATCCGCGCGCGCAGGATGATGCCGGTCAGGCCCATCCCGCCGACGGTGGCCCAGAACAGGGTGCCGTCCGGGTCGTCGGTGCTGCCGTGCGGCTCGAGGTGCAGCACGCGCCCGTCGGCGATGAGCAGCTCCATCGAGACAACGTGGTTGCCGAAGGAACCGGCGGAATGGTGGTTCTTGCCGTGGATGTCCGGCCCGATCGCGCCGCCGATGGTGACCTGACGGGTGCCCGGCAAAACGGGGACCCACAGGCCGTACGGCAGGGCGGCCTTCATCAGCTGGTCGAGGGTCACGCCCGCATCGACATCGACAATCGCGGTCGACGGGTCGATGGAGTGGATGCGGTTCAGCGGCTGCATGTCAATCACGAGGCCGCCGCCGTTTTGAGCGGGGTCGCCGTAGGAGCGGCCCATGCCGCGCGCGATGATACCGCGGCTCGCGGCGGCCTTGTCGTCAGCGACCTGCGCAACGGCGCGCTTGATCACCTCGACGTCCGGGGTGGACAGCACATGGGCGGTCGACGGTGCGGTGCGCCCCCACCCGTAGAGCGATTCAACGTCTGTGTGTAG	MRRDRLVEGVGSLGVGDEVGRLRARHQDPRAQDDAGQAHPADGGPEQGAVRVVGAAVRLEVQHAPVGDEQLHRDNVVAEGTGGMVVLAVDVRPDRAADGDLTGARQNGDPQAVRQGGLHQLVEGHARIDIDNRGRRVDGVDAVQRLHVNHEAAAVLSGVAVGAAHAARDDTAARGGLVVSDLRNGALDHLDVRGGQHMGGRRCGAPPPVERFNVCV				NA	NA	NA	NA	NA
AK009_08935	582			hypothetical protein	GTGACTCCTTTAGTTGAGCTCGAGGCGGCGCGACATGTCGGACGCGAAGACGCCGTTCGGGTCGATGCTGCGGCGGGTCTCAAGCCAGCCGGCCATGCCCGGGTACATCGCGTGGAACTTCTCGGCCGAGGTGCGCGACTCCTTGGCCAGGTAAAGGCGGCCGCCGAACTCCATGACCTGCTCATCCAAGCGGTCGAGGAAGTCGCCCAAGCCGGAACGGATGGGGAAGTCGACGCACACGTTCCAGCCCTTCATCGGGTAGGACAGCGGTGCGCGGTTGCCCTCGCCGAACAGCTTGAACACGTTGAGTGCGGTGTAGTGGCCGGAGGATTGGATCTGGTAGATGATGTCCTTGAACGGCTCGACGGCGTCGGTGGGCACCACGAACTGGTACTGCAGGAAGCCCTTGGAGCCGTAGCCGCGGTTCCACTCACCGATCAGGTCCAGCGGCTGGTAGAACTGCGTCAGGTTCTTGACCTGGTTTTTCGCCGGCGCGCCCATGCGGTAGTAGGCCTCGCCGATGGCCATGAGCGAGAGCTTGTTCATCGTCCACGAGGGGAAGATGTCCGGCACCGTCATTAG	MTPLVELEAARHVGREDAVRVDAAAGLKPAGHARVHRVELLGRGARLLGQVKAAAELHDLLIQAVEEVAQAGTDGEVDAHVPALHRVGQRCAVALAEQLEHVECGVVAGGLDLVDDVLERLDGVGGHHELVLQEALGAVAAVPLTDQVQRLVELRQVLDLVFRRRAHAVVGLADGHERELVHRPRGEDVRHRH				NA	NA	NA	NA	NA
AK009_08936	765	dprE2	COG1028	Decaprenylphosphoryl-2-keto-beta-D-erythro-pentose reductase	ATGCTCAACGCAGTAGGACAAGCACAGCACATTCTTCTTCTCGGCGGCACCTCGGAGATCGGGCTAGCGATCGTGGGCGAGCTCGCCTCCCGCGGCGGCAGCCCAACCGTCACCCTCGCCGCGCGCCAAGATTCGCCGCGTATCGACGCCGCCGTGGCCGACGTCACGGCCGCCGGCGCGGGCCAGGTGCGCCTGGTCGACTTCGATGCGCTTGATGTCTCCTCGCACCCGGACGTCATCGACGCCGCCTTCCAGGACGGAGACGTGGATGTGGCCGTCGTCGCTTTCGGAACCCTCGGCGACCAGGAGCAACTGTGGCAGGATCACGCCGCCGCCGTGGAGTCGGCCCAGATCAATTACACCGCGGCCCTGTCCGTCGGCGTGCTGCTCGGCCAGCACCTCAAGGCCCAGGGCCACGGCACGATCATCGCGCTGAGCTCGGTGGCGGGACAGAAGGTGCGCCGCTCGAACTTCGTCTACGGCGCCTCCAAAGCCGGAATGGACAACTTCTACCTCCAGCTCGGCGAGGCACTACGCGACTCCGGAGTGCGCGTCACTGTCGTGCGCCCGGGCCAAGTGCGCACCAAGATGACCGAGGGCTTAGGCGAGGCCCCGCTAACTGTGAACAAGGAGGACGTCGCCCAAGCGGCGGTGTCCGCCGCGCTCGAAGGGCAGCGCAGCGTGTTCGTGCACAAGGCGTTCGGTCCGATCTCGTTCGTGCTGCAGCACATCCCCGCCCCGATAATGCGTAGGCTTAGCTTCTAA	MLNAVGQAQHILLLGGTSEIGLAIVGELASRGGSPTVTLAARQDSPRIDAAVADVTAAGAGQVRLVDFDALDVSSHPDVIDAAFQDGDVDVAVVAFGTLGDQEQLWQDHAAAVESAQINYTAALSVGVLLGQHLKAQGHGTIIALSSVAGQKVRRSNFVYGASKAGMDNFYLQLGEALRDSGVRVTVVRPGQVRTKMTEGLGEAPLTVNKEDVAQAAVSAALEGQRSVFVHKAFGPISFVLQHIPAPIMRRLSF				NA	NA	NA	NA	NA
AK009_08937	291			hypothetical protein	GTGCTTGTCAATCGCGCTCATGGCGAGAGAGCCCTGAACCGAAACAAAGGTGCGCAGCCCGGAGTCACCGGCCTCGAGCTCCTGAGCGGCCAGGCCGTACTCGACCCGCGAGCGCCCCGGGCAGCCATGGCCCTTGATGTACATCCCCAGCACACCGAGTTTGCCGAGCTCGGGAATGATCTCGCGCGGGAAGTGCGCGCTGTCGAACCATTCGGCAATGTTCGGCCGGATCTCGGAGTCGACGAACGCACGTACCTTCAGGGCGGTCTGTTTTTCTTCCTCGCTAAATGA	MLVNRAHGERALNRNKGAQPGVTGLELLSGQAVLDPRAPRAAMALDVHPQHTEFAELGNDLAREVRAVEPFGNVRPDLGVDERTYLQGGLFFFLAK				NA	NA	NA	NA	NA
AK009_08938	885			hypothetical protein	ATGGAGGTGTTAAACGCGGGCAGCGACATCCTGTGGAGCGCTACCCACGCGAGAAAGGTGGCCAGTGCCCCGGCGACCACCGCTGCCGCCACCCGCCACGTCGCCGCGGGTGCTGGCAGTGCGTCGGGCCGGTGGCCTGCACCTACACTGCGAGTGTCTGTCATGGGTAACAGTGTGTCATACCCACGCGACGCTTTAGCTCAGGGCGAACGCTCCCACTCCTGTGAGCGACCGGCCCAGCGTCAGCTGGTGCACTTCGTCAGTGCCCTCGTAAGTGCGCACAGCCTCGAGGTTGGCGGCGTGGCGGAAGGGGGAATAGTCCAGGGTCGCGCCGTTGCCGCCGAGCATGGCGCGGGCGCCGCGGGCGACGTCGATGGCCATGCGAGTGTTGTCGAGCTTGCCCGCGGAGATGATTTCCGGGGTGAGCTTGCCCTGATCCGCGAGACGGCCGATGTGGATGGCCGTGTGAAATCCCTTGTTGATGCCCACGGCCATGTCGGCGAGCTTGACCTGGGTGATCTGAGAGTGGGTCAGGGGCGCGCCGAACTGGGTGCGCTCGGAGGTGTAGTCGAGGGCTGCGTTGAAGCTGTCGCGTGCGGCGCCCAGCACACCCCAGGCGATTCCATAGCGTGCCTCGTTAAGGCACTTCAGCGGGCCCTTCAGTCCCACCGCGGAGTCGGCCGGAAGGAGCGCGGACTCCGGAAGGCGGACGTTGTTAAGGTCAATGTCACACTGGACGGACGCGCGCATGGCAAGCTTTTGCGTGATCGGGGTCGCGACAAAACCCGGAGTATCGGTGGGAACGACAAAACCGCGCACTCCGCGTGCGTCGCCCACTTCGCCCGTCTGCGCCCAGATGATGGCCACGTCGGCGAGGTTGGCTAG	MEVLNAGSDILWSATHARKVASAPATTAAATRHVAAGAGSASGRWPAPTLRVSVMGNSVSYPRDALAQGERSHSCERPAQRQLVHFVSALVSAHSLEVGGVAEGGIVQGRAVAAEHGAGAAGDVDGHASVVELARGDDFRGELALIRETADVDGRVKSLVDAHGHVGELDLGDLRVGQGRAELGALGGVVEGCVEAVACGAQHTPGDSIACLVKALQRALQSHRGVGRKERGLRKADVVKVNVTLDGRAHGKLLRDRGRDKTRSIGGNDKTAHSACVAHFARLRPDDGHVGEVG				NA	NA	NA	NA	NA
AK009_08940	414			hypothetical protein	GTGCCAGAAACCAAGGATGGCCAGCACCAAGGCGTCGAGCGGCTTGAACGTGCGCCACTCGCGGCTAAAGAAGGGGAAGCGCTTGCCGTCGAGGCCGTCGAGGCGCCACAGCGCCCACAGCGCGACCGCGGTCGAGGCCAGGCCGATCAGCATCGCCGCGAGCTTTGCTACCGACGGCGTGGAGGTGAAGCGGGAGTTGATGTCTACCTGGGCGCCCAGGCCGGCGTCGACAAGCGCCTGCGTATCGCCCTCGAGCTCGGTGTAGAGCCCGGTTACCTGGGGGCGCAGGTCGTCCTCGGTGTCTTCCGCGAACTTTGTGCCGGGGATCTCCGCGGCCGTGCCGTCGGGTGTTGCGCGCACCACGAGTTGCGCGCCCGCCGGCAGGTCTGCGACCTGCTCCGGCGTGAGCTCTAA	MPETKDGQHQGVERLERAPLAAKEGEALAVEAVEAPQRPQRDRGRGQADQHRRELCYRRRGGEAGVDVYLGAQAGVDKRLRIALELGVEPGYLGAQVVLGVFRELCAGDLRGRAVGCCAHHELRARRQVCDLLRREL				NA	NA	NA	NA	NA
AK009_08941	2358			hypothetical protein	GTGCACGCTGTAGTCGATATCGGCTTCTTCCGGCGCATCACCCTGCGAATTCGTCCGCAGCTCGTACTTGGCAATGGAACCCCAGTCGCGGGCCCAATCGTTGGCCAGGTAGCCGGGGATCTCGTAGGAGTAGTTCACCGCCTCCGCGGTGGCCAGGGCACCGCCGCCGAGGAAGTCCATGAACCCGGAGAGCTGCTGCTTGCCCGGCGCGTCCGGCATGACGCGGAACTCGGGGATCTCGGTCACGCCCGCGTAGTGGTTGAACGTGCGCTGGCAGGGGTACTGCAGGGCCACCGACCAGTCCAACAGGCCCGGGGTATCGGCGGCGAACACGTCACCGAGCGGGGCGAGAGTCGGCACGCGCAGCGGGGTGACCGCCATCCAGTCGCGCTCGGCGAGCGAGTTGTCCTCGCCGACGAGACGGACCACATCGGCGTCCTCCGGCAGGTCCTTGATGGGGTAGCGCAGGTTGCGCCACGCGAGCTTCGGGCCCTGGTCGAGCATGACCACATCGCCGAGCTTCTCGACGCCCCCATCAGCGCGGCTCTTTCCGTACTCGAGAACCAGGTCGGTGCCGTCCTGCTCGACCCCGTTGATGTCCTTGTGCGCGATACGCCCCGCCACCGAGGTGACCAGAAGCGGGGCGTCCTCGGTTGCCTCGGGCAGCTCGAACCAGGCGGATTCGAGGTACGCCGAGCCAGTGGCATCTTCGGCGTAGGAACCCATCACGGGGACCCTGTTGTAATCCAGGTTGAACGGCAGGCGCACGGTCGAATCGTTCACCCCGCGCAGCTCGTCCGCGCGGTTGCCCTGCGTGTTTGTGCGGCTGGTCGACTGCTCCCTGTCCGCCTGGTCGTTTTGCGTGTTCTGGGTTCCGGTCTGCGTGTCGATGGAAGCCGCCGTGGCGTTGTCATTGGCGTCGGTGCGCGCGTCCGTATTCGCCGCGATCGAGTTCTCGGGCACGATCGACGACGGCACGCCGTCGGGGTAAAAACCGCGGTTGTCGTCGGAATCGAGCGATTCAGCAAGCGGCACGCCCAGCGGGGTGAGGAAGGAATCGTTCGTATCGGTCTCCAGCAACACATCCGCGCCGAGCGCGCAGTGGTTGCCGCCGAACGTGCGCACGTTGCCCATCCCCACCGAGTAGGCGGGCGCCTGGTCCACGAAGGCCTTGATAAACGTCAGGCAAGAAAACGCAACCATCAGCACCGAGAAGACAGCGATCGGTGCGGACACCACCCCGGCGAAGCGCCCGCCGTCGACACGTTGCTGGTTGCGGGTAAAGGACTGGAAGATGCCGATCACGAACAGCAGCAGGGTGATCAGCAGCATGATCGTATTCGCCTCGACGCCCTTGAGCTGCACCGTCTTGTCCCACCACGGCACGCCGAAGGAGGACACGTACCACCAGGCGTTCCAGCCGGCGAGCGTGAGCGACATGATGAACGCCACCGCCGCGAGCGCCAGCGTGCGGTTGCGCGCCGAGCGCAGCGCAATCTGCGACAGCACGACCGCCCCGAGCGCCGCCGCGGCGGCGCCCAGGCCCGCGTAGATACCGAAGTGGTGGGTCCACTTCGTCGGGGTGAACATGAGGAAGAACGTCGACAAGCCGACGATGAGCAGAAGCCGCTGGGTCGGGCCGGGTGCCGCGCCGGGGATCTTGTTGAAGCGGAACAGCGCCCACAGGATCAGGCCGATGCTGAACAGGAAGATGAAGGTGGGGAAACGGCGCGTCATCGAGCCGTCGACAGTCTGCTCGAACAAGGTGCCGTAGCGCACCCACTCCGAATACCACTCCAGCGCCGGGCCCACCGCCGAGCGCACCGAGGTGGCCTCGAGCACGGTTGCCAGGGTCTGGTCATGAAACACCGGCACCATCACGGCGAAGCCCGCGCCCAGGAAGGGGGCGATGTACGCCAGGCGCGGCGCGGCATCGAGGCGGCTGTGCATGATGCGCAGCATCGACGGCAGCGAGACCAGGAACACGCCCACCGCCGAGAGGCCCGTCGGGCCGCAGGCCAGCGTAAACGCGGCGAAAATCGTGCCGATCGCCGCGGGGAACAGGCGATTCGTGGCAATCGCGCGCTCGAACGATGCCCACGTGGCGATCAGTCCAAGGGCGATGATCGGCTCGGGGCGGGTGCCGTTGTTGTAGGGCAGCCAGAACGCGAGGAAGACAAACGCCGCTGTCCAGAAGCTCACGCGCCGGGACTGGCCCAGGCGAGGCAGGATCTCGCGCGAGAGGATCCACCACGTCAGCACTCCGGCGATCAGCGTCGGCAGGCGCATCCACATCGACGCGGTCGAGACCAGGGAAAGCCACGACAAGATGTCGTAGAAAGGCGAGCCGAACGGTGA	MHAVVDIGFFRRITLRIRPQLVLGNGTPVAGPIVGQVAGDLVGVVHRLRGGQGTAAEEVHEPGELLLARRVRHDAELGDLGHARVVVERALAGVLQGHRPVQQARGIGGEHVTERGESRHAQRGDRHPVALGERVVLADETDHIGVLRQVLDGVAQVAPRELRALVEHDHIAELLDAPISAALSVLENQVGAVLLDPVDVLVRDTPRHRGDQKRGVLGCLGQLEPGGFEVRRASGIFGVGTHHGDPVVIQVERQAHGRIVHPAQLVRAVALRVCAAGRLLPVRLVVLRVLGSGLRVDGSRRGVVIGVGARVRIRRDRVLGHDRRRHAVGVKTAVVVGIERFSKRHAQRGEEGIVRIGLQQHIRAERAVVAAERAHVAHPHRVGGRLVHEGLDKRQARKRNHQHREDSDRCGHHPGEAPAVDTLLVAGKGLEDADHEQQQGDQQHDRIRLDALELHRLVPPRHAEGGHVPPGVPAGERERHDERHRRERQRAVARRAQRNLRQHDRPERRRGGAQARVDTEVVGPLRRGEHEEERRQADDEQKPLGRAGCRAGDLVEAEQRPQDQADAEQEDEGGETARHRAVDSLLEQGAVAHPLRIPLQRRAHRRAHRGGLEHGCQGLVMKHRHHHGEARAQEGGDVRQARRGIEAAVHDAQHRRQRDQEHAHRREARRAAGQRKRGENRADRRGEQAIRGNRALERCPRGDQSKGDDRLGAGAVVVGQPEREEDKRRCPEAHAPGLAQARQDLAREDPPRQHSGDQRRQAHPHRRGRDQGKPRQDVVERRAER				NA	NA	NA	NA	NA
AK009_08942	1443			hypothetical protein	GTGCGGGTCGATGGCGAGCAGCTGGGCCGCCATCTCCGGGCGCACCTTCGAGCGCCACACGCGCGCCCACGCCAAGAAAAGGCGCTGGAAGCCGGTGTACTCGCCGTCGAGGTCGTCGAAGGCGAGGGCGGGGCCGTCGTCAAGCTCGTGCTCGGCGAGGTACATCTTGTAGGCCACCACCGCGATGCCGAGACCGCCGAGGTCGCCGATGTTCTCGCCGAGGGTGAAGTCGCCCTTGACCCCCGAGACGCCCTCGCGGCCCTGCAGAACGGAGGGCACGAGCCCGTCGAACTGTTTGACCAGCTTCGACGTGAGCTCCTCGAAGCGCTCGCGGTCGGCGTCGGTCCACCAGGAGTTGAGGTTGCCCAGGCCGTCGTAGCGCGAGCCCTGGTCGTCGAAGCCGTGGCCGATCTCGTGGCCGATCACCGCACCAATCGCGCCGAAGTTCTCCGCCGCGTCGGCCTTCGGGTCGAAGAACGGGGGTTGCAGGATCGCCGCAGGGAAGGTGATGTCGTTGACAACCGGGTTGTAGAACGCGTTGACCGTTTGCGGAGTGGTCACCCACTGGTCGCGGTTGGCGGGCTTGCCCAGCTTGGCCACGTGGAAATCGTGCTCGAAAGCCGCGCCCGTGCGCACGTTGTCCACGAGGGCAGCGCCCGAGGGGTCAAACTCGAGCTCCTTAAAGCTGCGCCACTTGTCCGGGTAGCCGATCTTGGAGGAAAACTGCGCGAGCTTCTCCAGCGCGCGCGTGCGCGTCTCCTCGCTCATCCACTCGAGCTGGCTAATCCGATCGCGGTACGCCTGAATCAGGTAGTTAACCAGCTCCAGCATCATCTCCTTCGACTCGGGCGGGAAATGCTTGGCGACGTACTTTTGACCGATCTCCTCACCCACGAGCGACTCTGCAAGGCTGACTCCGCGCTTCCAGCGGTCGCGCTGCTCCGGCGCGCCGGAGAGCTTCGTGCCGTAGAAAGCGAAGTTCGTCTCCCCGATCTCTTCCGTGAGCACACCAGCGCGGGAGCGCAGGATAGTCCACGCGCCCCACAACTGCCAATCCGCCAGCGTCTCCGGGCGCAGCATTCCGGCCAACGCCTCGGTGTAGGAGGGCATCATGTTGATGATGGTTCCGCCATCGACACGCGCGCCGCGCAGAATCTCCTGGATCAGCGGCGGCAAGTCCGCGAAATCGACCGGGTTGTAGGTGGCGATTGCGTCGCGCGAGTGCACCACATCCCAGTGGCTCGCCGCGATCTGGATCTCCATGTTAACGATCCGCTCCGCCGCCACCACAGCCGGCAACCCGAGCAGGTGGGCGGGGCCGAGAAACTCAAGCATGGTGGCCACGTGCTTGCGGTACTGCGTGAGCAGCTCCGCGTGCTGGGGCTCGCGGTAGTACGCCTCATCCGGAAGCCCGAGACCGCTTTGCACCAGGTAAGCCACTGA	MRVDGEQLGRHLRAHLRAPHARPRQEKALEAGVLAVEVVEGEGGAVVKLVLGEVHLVGHHRDAETAEVADVLAEGEVALDPRDALAALQNGGHEPVELFDQLRRELLEALAVGVGPPGVEVAQAVVARALVVEAVADLVADHRTNRAEVLRRVGLRVEERGLQDRRREGDVVDNRVVERVDRLRSGHPLVAVGGLAQLGHVEIVLESRARAHVVHEGSARGVKLELLKAAPLVRVADLGGKLRELLQRARARLLAHPLELANPIAVRLNQVVNQLQHHLLRLGREMLGDVLLTDLLTHERLCKADSALPAVALLRRAGELRAVESEVRLPDLFREHTSAGAQDSPRAPQLPIRQRLRAQHSGQRLGVGGHHVDDGSAIDTRAAQNLLDQRRQVREIDRVVGGDCVARVHHIPVARRDLDLHVNDPLRRHHSRQPEQVGGAEKLKHGGHVLAVLREQLRVLGLAVVRLIRKPETALHQVSH				NA	NA	NA	NA	NA
AK009_08943	594			hypothetical protein	GTGCAGCCACGCCACCACCTCGGCCGCGCCCTGGCTCCGTGCGAACTCGATGGCCGGCTCGACGAGCTCGCGGCTATCGACGTCGACGATTACCGCCCCGGACAGCTCCGCCGCGCCAGCGACCTCCGGCTGCCACGCGAACTCGCGGGCGCGCGGCCCGAGCGGGGTGCGCGCGACAACCCACACGCCCGACGAGTGAGTCGGGCGCAGCAGCGGCCCGAATTCGGTGCTCTCGAGGCCGACCTCGCCGGCAAAGGCGACGCCCGGCATCGCATGGTCGACGGCGGAGCCCAGCATCAGCATCGCCGCGTGGGTCAACCGGTCGGGAAGGAGCGCGAGGTAGCGGTCCAGCTCTCCCGCATCCGAGGGGCGCGGGTACGTCGCGTCCATGTAGGAGACGATCTGCTCGAGCTGCAGCTCATCTGGAAGGGTGCGCTTGACACCGCCGACGTTGAAGTCGGGGTTGGACTGGTCGTTGATGGGGTAGTCGTCGTCAAGCGAGCCCTGCTCAAGCTTCGATGTCACCAAATCTGCACCCGATCATTCGGCTCCACCCACACCGCGGAATCCTGCGGCACGTCGAAGGCTTCGTAG	MQPRHHLGRALAPCELDGRLDELAAIDVDDYRPGQLRRASDLRLPRELAGARPERGARDNPHARRVSRAQQRPEFGALEADLAGKGDARHRMVDGGAQHQHRRVGQPVGKEREVAVQLSRIRGARVRRVHVGDDLLELQLIWKGALDTADVEVGVGLVVDGVVVVKRALLKLRCHQICTRSFGSTHTAESCGTSKAS				NA	NA	NA	NA	NA
AK009_08944	855			hypothetical protein	TTGCGACTCCGGCTCAGGCTCTTCGCGCTCGATTATTCCTGCGCGGACGTCCTCGGTGTTGTCGCTGGCGTCGCCCCAGGTCAAGGCGGCGACCACCCAGACATCACCGTCGGTTTCACCGAAGCCGACGCTGCCGGTTTGCGATACCCTGTCGTCGGACCACCCCGACTTAATCCCCCCCACGTTATCCAGATTGGCCACGCCGAAGAGCTGCTCGAAACCGTCGCGGGCTGTCTCCGGTTTGTCGATCATGCCGTCGAGAAGCGGCTTGGCGCGCGGGTCCCAGAGGATGTCGGTGACGAACTTTGCCACGTCGTAGGCCGAAGTCACCGTCCGGCCCCACGACCCGTAGCGGGCGGTTTCGGTCAGATCGAAATCTTCCGCGATCTCATCGATCGCCTCTGGGTACTTCCGGTCCAGGCGCTGGGCGTAGCCGTCGTGGGAGACGGCAATCATGTCCTGGACCAGCTCCTTGTCCTCCTCCGTGCCGTTGTAGAGCGCCCAATACCCCAGGTAGAGCTTCGACAGCGACAGTGCCGGGCGCTCCTCGAGCGCGTTGTCGGAGCCCGACCAACTCCCGTCCGGGCGCACCACCGCCAGGGCGGTGCGGTCGCTGGAGTAGCTCGGGTCGACCTGATAGGCGTGGGCCGGCGCCGCGGCGAGGCACATCACGACCAGCGCCGCCACAAGCTTTTTCACGTGCATTTTTCCTTGACTAGAGGTCCAGAACGGAGTCGGCCTCGCCCACCTCGTCGTCGGCGACCGGCGGATCGATCTCGCACAGGGTCACGGTGGCGCCGGTGGAGTCGGCGATCACCGTCAGCGGGCCAAACGGGGACATGTGTGGCGCGATGA	MRLRLRLFALDYSCADVLGVVAGVAPGQGGDHPDITVGFTEADAAGLRYPVVGPPRLNPPHVIQIGHAEELLETVAGCLRFVDHAVEKRLGARVPEDVGDELCHVVGRSHRPAPRPVAGGFGQIEIFRDLIDRLWVLPVQALGVAVVGDGNHVLDQLLVLLRAVVERPIPQVELRQRQCRALLERVVGARPTPVRAHHRQGGAVAGVARVDLIGVGRRRGEAHHDQRRHKLFHVHFSLTRGPERSRPRPPRRRRPADRSRTGSRWRRWSRRSPSAGQTGTCVAR				NA	NA	NA	NA	NA
AK009_08945	540			hypothetical protein	GTGTGGCGCGATGAGTACCTCGCCGCCGAGCTCGGCAACGCCGCGGCTGGCGCGGGCAACGTTGTCCACCCCGAGGTAGACACCCCAGAAGCCCTGCTCGATGTCGTCGACGCGCATGCCGAGCACGGCGGCGCCCTCTACCGTGGCCGTGTAGTAGCCCTCGGAGCGGTTGACCTGCCAATCAAACAGGTCCGCGTAGAAGTCGATGAGGCTTTCCTCCGCGCCGATGTACTCGTACCAGACCGGGGTGCCGGGCTCGCCGGCGGCGACGAACTGGTCCTCGCCGGCCGGGTGGATCACGCCGAACACCGCGCCCGCGGGGTCCGCGCACAGCGCCATCCGGCCCAAGGAAACCTCAGCGGTGGCGAGCACGGTCCCGCCGCGTTGCTGCACCGCGCGAGTGATCCCGTCGACGTCTCGGGTGAGGAAGTACACCACCCAGCCGTTTTCCTCCTGGGGCACGAAACCCGCGATGGGCAGGCCCTGCATGCGTGCTACGGCGTAGGAGTCTTGCGAGACCTCCCAGTCGAGCAGCTTTGA	MWRDEYLAAELGNAAAGAGNVVHPEVDTPEALLDVVDAHAEHGGALYRGRVVALGAVDLPIKQVRVEVDEAFLRADVLVPDRGAGLAGGDELVLAGRVDHAEHRARGVRAQRHPAQGNLSGGEHGPAALLHRASDPVDVSGEEVHHPAVFLLGHETRDGQALHACYGVGVLRDLPVEQL				NA	NA	NA	NA	NA
AK009_08946	228			hypothetical protein	TTGGAAAGCGGGCATCTACAGGTTCCTCCACTTCTCCGGGTCGAAATCGTCGTTGGCGGTGCGCTCGTCGAAGTAGTCGTCGCCACCACCGCCGGCGATGACTGTGGCGGTGGTGCCGGCGACGGAGACCACGTCGGCGTCGCCAAGCGAATGCCCCCGCGATGTGACAACCTCACCGTTGACGGAGACCTCGCCGGAGGCGATGAGCTCCTTGGCGTGGCCGCCTGA	MESGHLQVPPLLRVEIVVGGALVEVVVATTAGDDCGGGAGDGDHVGVAKRMPPRCDNLTVDGDLAGGDELLGVAA				NA	NA	NA	NA	NA
AK009_08947	465			hypothetical protein	ATGGCTGGCGGCGATCGCCAGCCCGGGGCCCGACCTGTTCCAGATCATCCGGCTGGGCTCGAAGTCGCGCGCTGCGGGCGTGGCGTGCGCGATCGGCATCATGATCGGCAACGCAATCTGGATCATCGCCTCGCTGGTCGGTCTGAGTGCGCTGCTGCAGGCGGTGCCGGACATCCTGGCGGTGCTGCAGATCGTCGGCGGCGCCTACCTTGTGTGGATGGGCCTCGGGGGTGCGACGCTACCTCACCGGGAGGTCAACACCTCCGGGGCGCTGCGCACGGGGATACTCACCAATCTGTCCAACCCCAAGGCCGTGCTGTTCTTCGGCGCGGTCTTCGCCCAGTTCGTGCGCCCCGGCATGGGGGCTGGGGCGATGGTCGCCGTCGCGCTCACGCTGATCCTCATCGGACTCGCGTGGTTCGTGTTCTTCGCGCTCGCCGTGCGATGGCTGGTGCGGCCCATTGA	MAGGDRQPGARPVPDHPAGLEVARCGRGVRDRHHDRQRNLDHRLAGRSECAAAGGAGHPGGAADRRRRLPCVDGPRGCDATSPGGQHLRGAAHGDTHQSVQPQGRAVLRRGLRPVRAPRHGGWGDGRRRAHADPHRTRVVRVLRARRAMAGAAH				NA	NA	NA	NA	NA
AK009_08948	705		COG4221	putative oxidoreductase	ATGGAACGCATTGCGGTAGTCACGGGCGGATCGGCGGGAATCGGCGAGGCGAGCGCACGCGCGCTGGCGGCGGACGGGTGGAAGGTCTACGTCGCGGCGCGGCGCTATGAGCGCTGCCAACGCATCGCCGAGGAGATCGGGGGCGTGGCGGTTGAGTTGGACGTGACTGATCAGGGCAGCGTCGACAAGCTGGCGGCGAAGCTGGAGCGCGTTGACCTGCTGGTCAACAACGCGGGCGGCGCGAAGGGGGTCGACTACCTGCGCGACGCCGACGAAGAGCGCTGGCGCTGGATGTACGAAACCAACGTCTACGGCGCCGTGCGGGTGATCAAGGCGCTCTACCCGGCGCTGCTCGAGGCCAGCGGACTGATCATCAACATCGGTTCGGTTGCCGGCACCGACGCCTACAAGGGAGGCTCCGGCTACAACGCCGCCAAGTTCGGGCTGCGCGGCCTCACCCGTGCCCTGCGCCGCGAGGAGGCGGACAACCTGATCCGCGTCACCGAAATAGACCCCGGCCGGGTGGAGACGGACTTCGCGCTCAACCGGCTCGAGGATGAAGAGGGCGCCGCCGCCGTCTACGAGGGCAAGCTCAACCTCACGGCCGAGGACATCGCGGAGACGGTGCGCTGGGTCGCCAGTATGCCGGCGCACGTCAACATTGACACGCTCAGCATCATGCCGCTGGACCAGGCGGAACGCTAG	MERIAVVTGGSAGIGEASARALAADGWKVYVAARRYERCQRIAEEIGGVAVELDVTDQGSVDKLAAKLERVDLLVNNAGGAKGVDYLRDADEERWRWMYETNVYGAVRVIKALYPALLEASGLIINIGSVAGTDAYKGGSGYNAAKFGLRGLTRALRREEADNLIRVTEIDPGRVETDFALNRLEDEEGAAAVYEGKLNLTAEDIAETVRWVASMPAHVNIDTLSIMPLDQAER	PGPT0021285_370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
AK009_08949	672			hypothetical protein	GTGCACCTGGCGCATCGTGATGTTGATCCTGCCCTCCTTCAGGCCCGTTTCGTTCGGACCGGTGCCTGCTCGCGCCCCGGCAACGCCGTGGCGGGCCCGGCGCGCCGGTCCGCCGAAGACCAGGGCGTCGCCCGACATGAGCAACACCTCGCGGCCCTCGATGCGAAACAGGATATCGTCGCCGATGGACAGGCTCACCACCGGGTTTTCGGCCTCCTCCTCGGCATCGACGTGCTCCCCCATGCCGGCGCCCGGCGGGTAGAAGTTCACCAGAGCCGTCTCCACGCGGATCGTCTCCCCCACCGCCTCATCGACCTCGCGGGCGGCGGCGAGAACTTGATCGGCGATGTCCTGGAAGTTGTCCGGGACCGGCGGCACGGCGTAGCCATCCACCTGTCGGACCAACCGGTAGGGGTTCGTCGCCCAGAACCACCCCAAGGAGAGCAGGTGCGCCTTCATCTGGCCCTTTCCAACCATCGGGCGGCGCATCGCCACCGGGGTTCCGGCGACGCTGCGCGCGATCTCGCGCGTCTGCACAACCAACTCCGCCTGCTGCTCGAGCTCCAGGAAGTTCGGCAGGTGCACCACCCCCGGCATGAGACGCTTAGGGGGCCGGGGCAGGGCGGAGGCGTCGATAAGCATGCCCTCAACCTACCGCTACTGGTAGCGTGA	MHLAHRDVDPALLQARFVRTGACSRPGNAVAGPARRSAEDQGVARHEQHLAALDAKQDIVADGQAHHRVFGLLLGIDVLPHAGARRVEVHQSRLHADRLPHRLIDLAGGGENLIGDVLEVVRDRRHGVAIHLSDQPVGVRRPEPPQGEQVRLHLALSNHRAAHRHRGSGDAARDLARLHNQLRLLLELQEVRQVHHPRHETLRGPGQGGGVDKHALNLPLLVA				NA	NA	NA	NA	NA
AK009_08950	330			hypothetical protein	GTGGGCGATCTCCCATCCTGCGGCGCGCTTGGCGTGGTCGTCCACGGGGTGGCCCACGGTGATCAGTTGACACCCGGGTCCGAAAAGCGTTCCAGCCCCGATGGTCACCGGCGCGATGTCGAGGATGACGCAGTTGAAGTTGAGAAAGCAGTCCTTCCCGAACCTCGTGTTTACCCCGAACTCGAGGTGCAGCGCTGCCCACACCTCGGGGACATGCTCGCTATTGGGAAAGATGCGGCGCAGCAGGTCGTTGGCGGGGGAAGTGTTGGCCTGCGCATTGAACTCGCGGAGAAGCTCCCGCATGGCCTGGTGCTGGGCGCTCGCCTCTGA	MGDLPSCGALGVVVHGVAHGDQLTPGSEKRSSPDGHRRDVEDDAVEVEKAVLPEPRVYPELEVQRCPHLGDMLAIGKDAAQQVVGGGSVGLRIELAEKLPHGLVLGARL				NA	NA	NA	NA	NA
AK009_08951	324			hypothetical protein	GTGATCCGAGTGAAAAATCGCCCCGTCAAGGCTACCTCGGACCCCGTGAGCCATCGTGAGGGCTTCTTCGACCAACTCGGTGCGCATGTGATCAGCGATCGCAAACCCCGTCAACTGCCGCGAATAGCAGTCGATGACCGTGGCCAGGTACATATTCGACCCGTCCGCGATCGGCAGGTACGTGATGTCGCCGACGTAGACCGCGTTCGGCCTGTCCGCAGTGAACCGGCGTTGCAGCAGGTCCGGAAACCTCGGGGCCCGTTTACTCGACGTCGTCGTTTTCACCCGGCGTTTCTGACGGGCGTTTCTTTTCGGTACCGGTAG	MIRVKNRPVKATSDPVSHREGFFDQLGAHVISDRKPRQLPRIAVDDRGQVHIRPVRDRQVRDVADVDRVRPVRSEPALQQVRKPRGPFTRRRRFHPAFLTGVSFRYR				NA	NA	NA	NA	NA
AK009_08952	543			hypothetical protein	GTGGCGCACGGCCTCGGCGGCGTCGGCAAGCTGCTCCTTGTTCGCCAGGACCTGCTTGTCGTCGCCGATGTCGATGCTGCCGATCCCTCCCGCGCCGGACACCGCGTCGTGCATGTTCAGGAAGCGGTCCCGCACCTCGGCCCACTGTTTGCGCATCTCATTGTCGGCGAAAGCACTGGTCAGAGAGTTAGCACGCACGTCGATCTCGTTGAGTCGCTGAGCGAGTTGGGAGTACTCGCGGGTGACCAGCTCGTAGTCCTCGCGGCCCTGTGCAAGCGTATTCCTGCGGCTGTTGGTCATGGCGACGGCAATCGATCCCACTGCCAAAGAGAGCCCGCCAGCGGCGGCGCCAGCGCCGATACCGGACATGACACGATCTCCCTGCGCGTCGTTGAGCTCGTGCTGCTGGATATCCTGCGCATCCATCGCGGCCCGAGCGCCGGCGAGCAACGCCCCCGGGATGTTGTTGTCGCGCATCCCGGGCTTGATCTCCTCGTTGACGGCCTCGAGCCGCTCTCCCTCTTTCAGGTGGAGCTGCTCTAA	MAHGLGGVGKLLLVRQDLLVVADVDAADPSRAGHRVVHVQEAVPHLGPLFAHLIVGESTGQRVSTHVDLVESLSELGVLAGDQLVVLAALCKRIPAAVGHGDGNRSHCQREPASGGASADTGHDTISLRVVELVLLDILRIHRGPSAGEQRPRDVVVAHPGLDLLVDGLEPLSLFQVELL				NA	NA	NA	NA	NA
AK009_08953	204			hypothetical protein	GTGGGGGTCGTCGATAACAACGGTGGGCGCGCCGACGGTGTTGACCGCCACCGCCTCGGGGGAGGGGACATTTATCTGGCTCATGGTGGCACCCGCCGCACCCAACCCAAGCAGCGCGGAGACCGCCACGACGGCACCGATTTGACCGAAGTTCGCCATGGCGCTGATTTTACTAGAACGGCTCCGCTACAACCCGCCCAATAA	MGVVDNNGGRADGVDRHRLGGGDIYLAHGGTRRTQPKQRGDRHDGTDLTEVRHGADFTRTAPLQPAQ				NA	NA	NA	NA	NA
AK009_08954	927			hypothetical protein	ATGGCGCTGATTTTACTAGAACGGCTCCGCTACAACCCGCCCAATAACGACCATGCCTGGCTCGATAATCTCGGTCAGGTTCGCTTCGACGGTCTCTGGAGAGTCGCCGGTGAGGAACCACCCCGACCAGGCCTCCTTGCCGGGGGAGTAGAAGCGGTCACCCTTGCCGATGATGTTCAGCGTTGCGTCGCGCAGCCAGAGCGGTCCGACGAGGGAGGAATGCTCAGTGCCCTCAAGCAGCGCGAGCTCCGGTTGGTAGGCGATGACGTGGGAGCGCGTGATCAGGGCGTCGAAAAGCGAATGCACGTGGGGGACAGCCGCCTCGGTGCCGAGGTAGACGACGGTGATGAGCGAGAGCTCCGCCGTGCCGACTCCGTCGCGCGTGCTCAGGCTGGTCAGGCCGCCCAGGGCGGAGGGGAAGCGGGTGGTGGCGAGGTTGTCGTCGATGAAGAAGGCCTCGATGCGGTCGCCGCGGTCGATGCCGTGGAAGTCGACCAGCGCGTTGAGCTCGTAGAGCCCCATCGAGGCGGGATCGCGCAGGTTGCCGTAGGCGGCCTCGGTGCGCAGGTCCCAGAGGATGAAGTCGTCGTCGATCGGGTGCGGGCGCCGGGAGAACGCGAGGATCTCAGCCCCGCTGGCCTCCGTGCTGGCGCGCCACGCCTCGTATGCGGCGCCGAGGTCCTCATCGTGCGCGATGAAGTGCGTGGTGACGATCTCGGCGGCCATGGTCCAGAGGATAGCGCCGCCGGGGATGTTTCACGTGAAACACTGCAATCCCTACCCCTAGGCAGGCCCCTCAGGCGCCGCTTTCCGTCCCCCGAGCGCGTGTACGCTGGCGCGTGTCAAGAACCCACACACGGAGAACGCCACGAACACAATCACCACCACCGACGGCGAACGCCTCGCCGTGTACGCCTACGGCGATAG	MALILLERLRYNPPNNDHAWLDNLGQVRFDGLWRVAGEEPPRPGLLAGGVEAVTLADDVQRCVAQPERSDEGGMLSALKQRELRLVGDDVGARDQGVEKRMHVGDSRLGAEVDDGDERELRRADSVARAQAGQAAQGGGEAGGGEVVVDEEGLDAVAAVDAVEVDQRVELVEPHRGGIAQVAVGGLGAQVPEDEVVVDRVRAPGEREDLSPAGLRAGAPRLVCGAEVLIVRDEVRGDDLGGHGPEDSAAGDVSRETLQSLPLGRPLRRRFPSPERVYAGACQEPTHGERHEHNHHHRRRTPRRVRLRR				NA	NA	NA	NA	NA
AK009_08955	486			hypothetical protein	TTGGCGCATCACCAGCGCCGAGTAATCAAGGTTCGGCCCGGAAATCGACGTGTAGCTGAGGATCTTGCCTTCGAATTCCTGCGAGGTCACGGATTCCCAGCTCTGAATCCAGCCCCAATCGTGGCCGACGAGGTGGAAGGGGCGGCCCTCGAGAACCTCGTCGATGAACGTCGCGAGGTCGTGGCTGAGCTGGCTGAGCGTGTAGGCATCGCTGGAGGCGGGAGTCGTGGACTCGCCCGCCCCGCGGACGTCGTAAGCAACGACGTAAAAGTCGTCGGTGAGGTGCGGAATAACCCGCTGCCATACGGAGTGGTCGTCGGGATAACCGTGGACGAGGACGAGGGGCGTGCGGCTGCTATCGCCGTAGGCGTACACGGCGAGGCGTTCGCCGTCGGTGGTGGTGATTGTGTTCGTGGCGTTCTCCGTGTGTGGGTTCTTGACACGCGCCAGCGTACACGCGCTCGGGGGACGGAAAGCGGCGCCTGA	MAHHQRRVIKVRPGNRRVAEDLAFEFLRGHGFPALNPAPIVADEVEGAALENLVDERREVVAELAERVGIAGGGSRGLARPADVVSNDVKVVGEVRNNPLPYGVVVGITVDEDEGRAAAIAVGVHGEAFAVGGGDCVRGVLRVWVLDTRQRTRARGTESGA				NA	NA	NA	NA	NA
AK009_08956	432			hypothetical protein	GTGGTACGTCGGTGTGCTCTACGTCCCGTTTCTTACGACGCTGCTGTGGAACTCGATTACGCCGGAGCAGTGGCAGAAGCGCGTTGCGGCGGAGGAGAACGACGACACGATCCCCGTCAACCCGAACGTCTCCGACAACGGCCGCAACGGGTCACACCTCTACCGCGCCAACTTTGCAAGCTGCTTCTCCTCGCCCCAACACCGGAAGCCCATCTGCCCCGTGCAAGCCGTCGTGGCCGTGGACGACAAGATCGTCCACCCGTCGCTGATCAACGAGATGCGCCGCTGGAGCGACGACTACACCCAGACCTACGTCGACGGTGGGCACTGGGCCGCGCTGGGCAACCCCGAGGGAGTCGCCGAAGCAATAGCGTCCTTCGTCAAAAAGGTGTAGCGCCGCTGGCGATGTTTCACGTGAAACATCGCGTGTAG	MVRRCALRPVSYDAAVELDYAGAVAEARCGGGERRHDPRQPERLRQRPQRVTPLPRQLCKLLLLAPTPEAHLPRASRRGRGRQDRPPVADQRDAPLERRLHPDLRRRWALGRAGQPRGSRRSNSVLRQKGVAPLAMFHVKHRV				NA	NA	NA	NA	NA
AK009_08958	318			hypothetical protein	GTGCGGGTAGAGGGCGTAGTTCTGAAACACCATCGCGATGTCGCGGTCGCGGGGTTCCAGCGCCGTGACGTCTTTGCCCCCGATGAGGATGCGGCCGCTGTTGGTTTCCTCCAGGCCAGCGAGCATGCGCAGCGCGGTGGACTTGCCCGAGCCGGACGGGCCGACGAGGACGAGGAACTCCCCGTCCGCGATCTCGAGGTTCAGCGCGTCGACCGAGGGTGTGTCCGCCCCCGGGTAGACGCGCGTTGCGTTGTCAAAGCTGACGGTAGCCATGTGTGGTTCTCCTCCATCGGCGGGTACGCGCCGAACGATCCTTAG	MRVEGVVLKHHRDVAVAGFQRRDVFAPDEDAAAVGFLQASEHAQRGGLARAGRADEDEELPVRDLEVQRVDRGCVRPRVDARCVVKADGSHVWFSSIGGYAPNDP				NA	NA	NA	NA	NA
AK009_08959	645			hypothetical protein	GTGGCCGTAGAGGTAGGAATCGGAACCGAGCTCTTCGACGAAGTCGATCCGGATCGGCAGGGTGCCGGTCCCGCTCGACCCGACGAGTTCGACGGCCTCTGGACGGAACCCGAGCACGATGGTGTCCTCGCCGGCGGTGAGGGCGCTGAGGTGGGCGTCGTCAAGAGGAATGCTCGCGGCGCCGGCGCGGGCGGTGCGCGAGGGCCGATCGACGGCGAAGGTGGCCAGGTTCATGGCCGGGGAACCGATGAAGCCAGCGACGAACACGTTGCGGGGGGCGTCGTAAAGCTCGCGCGGGGTGCCCACCTGCTGCAGGACACCGAAGTTGAGCACGGCGATGCGATCGCCCATGGTCAGCGCCTCGGTTTGGTCGTGCGTGACGTAGACGGTGGTCACGCCCATGCGGCGCTGCAGGCTGGCGATCTGGGTGCGGGTTTGCACGCGCAACTTCGCGTCAAGGTTGGAGAGCGGTTCGTCCATGAGGAAGACCTGCGGCTCGCGCACGATGGCGCGGCCCATGGCCACGCGCTGGCGCTGGCCGCCGGAAAGCGCCTTGGGCTTGCGGTCGAGGTACTCGGTGAGGTCGAGTGTGCGGGCGGCCTCCTCGACGCGCTCGTTCATCTGCGATTTGTCCATGCCTGCTAG	MAVEVGIGTELFDEVDPDRQGAGPARPDEFDGLWTEPEHDGVLAGGEGAEVGVVKRNARGAGAGGARGPIDGEGGQVHGRGTDEASDEHVAGGVVKLARGAHLLQDTEVEHGDAIAHGQRLGLVVRDVDGGHAHAALQAGDLGAGLHAQLRVKVGERFVHEEDLRLAHDGAAHGHALALAAGKRLGLAVEVLGEVECAGGLLDALVHLRFVHAC				NA	NA	NA	NA	NA
AK009_08960	198			hypothetical protein	GTGAAACATCGGGCGTTTTCGTATCGAGGCCTAGATCCGCTCCCCCGTCGTCGCGCTGAATGCGTGCAGGCCGCCCGGGGACACGCGGGCGTGGATGAGCTCGCACTCGCGCACGTCGGTGCGCGGCGGGGTACGCACGACGATGCTTCCGGTGGCGTCGTCGGCCTGACCCTGTGCGATCCAGCCGCCTCCGTCTAG	MKHRAFSYRGLDPLPRRRAECVQAARGHAGVDELALAHVGARRGTHDDASGGVVGLTLCDPAASV				NA	NA	NA	NA	NA
AK009_08961	1278			hypothetical protein	GTGAAACATCGGGCGTTTTTCCTTGCGCTACTTCAGTGTGGCGCGCCCGCCGTCAGAGGGGGCGTCGGCAAGCTCGCGCTCCTCGTCGAGCTTGTAGCCCTCGATGCGACCGGCCGCGAAACGGTTGACGATGAGCGCGATCGCGCCATCGCCCGTGACGTTTGCTGCGGTACCGAAGGAATCGACCACGATGTAGGCGGCGATCATCAAGGAGACCGCAGACTCATCGAACCCGAGGTTGGCCTGCAGGAGACCGACGGCTGCCATGATCGCACCGCCCGGCACCCCCGGCGCGGCGACCATCATGATGCCGAGCAGAAGGAGGAACCCGAGGATCTGCGCGGGCGCGATATCCATCTGCCCCATGTAGACGATCGCGAGGGCGTACAACGTGATCTTCATCATCGACCCCGACAGGTGGATCGTCGCTCCCAGCGGGATAACGAAGCCGGCGACGTTCTCGTCCACCTTGTTCTTCAACGCCGAGGCGTAGGTCACCGGAATGGTCGCCGCCGACGAGGAGGTGCCCAGCGCCGTGAAGTAGGCGGGCAGCATATTGCCCAGCGCAGTCAGCGGGTTACGGCCGGCGACAACGCCCGCAACAACGTAGAGCAGCAGGATGATCACGATGGTCATCACCACGGACAGCACCAGCACGGTGCCGAAGGCTGCCATGGTGGAGCCAAGGTTGTCGTTCATGCCCAGGTTGAGGAAGGTGCCGAAGATGTAGATCGGCAGCAGCGGGATCACGAACGAGGTCACCACCTTCATAATCACCGACTGCAGCTCATCGAGCACGCGGTACAGGGTGGTGGACTTCACCGATGTCATGGCGATGCCGATGACAAACGCGAGCAGCAGCGCCGACATCACGGCCAGCGGCGCGGCCATTTCCACCTCGAAGTACGGCGCGAGTCCGCCGGCCTCGGGGTCGGCGACATCGGTGTTCAGCGTGCGGCCGCCGAGCAGAGTGGGGTAGAGGGCCGTGGCCGTCGCCCACGCGATGAGGCCCGAGACGATGGTGGACACGTAGGCGATCCCGGCGGTAACGCCAAGCCACTTGCCCGCGCCGCGGCCCAGGCCCGCGATCGCCGGGGCGATGAGCGCGAAGATGAGCACGGGCACGAAGAAGCCGAGGAAGTTGGCAAACAGTCCGTTGAAGGTGACAAAGACGCGAGCCAGCCACTCGGGGAAGAAGAGGCTGCACACAATGCCCAGGAGGATCGCGATGACGATCCAGAGCAGCAGCGAGCTGAGGATTTTTGTTTTCATGCATGA	MKHRAFFLALLQCGAPAVRGGVGKLALLVELVALDATGRETVDDERDRAIARDVCCGTEGIDHDVGGDHQGDRRLIEPEVGLQETDGCHDRTARHPRRGDHHDAEQKEEPEDLRGRDIHLPHVDDREGVQRDLHHRPRQVDRRSQRDNEAGDVLVHLVLQRRGVGHRNGRRRRGGAQRREVGGQHIAQRSQRVTAGDNARNNVEQQDDHDGHHHGQHQHGAEGCHGGAKVVVHAQVEEGAEDVDRQQRDHERGHHLHNHRLQLIEHAVQGGGLHRCHGDADDKREQQRRHHGQRRGHFHLEVRRESAGLGVGDIGVQRAAAEQSGVEGRGRRPRDEARDDGGHVGDPGGNAKPLARAAAQARDRRGDEREDEHGHEEAEEVGKQSVEGDKDASQPLGEEEAAHNAQEDRDDDPEQQRAEDFCFHA				NA	NA	NA	NA	NA
AK009_08962	567			hypothetical protein	ATGACGATCCAGAGCAGCAGCGAGCTGAGGATTTTTGTTTTCATGCATGATATTCTTGCTGATTACTTTGGTGCACCACAACTATCCGCGCCACGGGCGGGGATTTATGCTGGGTGTATGACAGCAAACTTGGTCGTTGGCATCATTTATCTCGTTCTCGCCGTGGTACTCGTCGTCGTCGGCGCGGTGGCGACGGCGGGCAAGCTGCCCGGCAATTCCATCTTCGGGCTGCGCATCGCCGCGGTGCGTAAGGACAAATCGATCTGGGACCAGGCGCACAAGGTCTCCGGCCCCTTCGTCCTGTTCGCCGGGGTGGCCCTCGCGTTCGGCGCGGCGTTCGCGTTCATCGCCTCCGGATGGCTGTGGGTCGCGCCCGTTATAGCCCTCATCATCGCGGTGATCGCCCTGTCCGTCGCGGGGAACTTCGGCGCGCGAGCCGCGACACTTGTCGACGCCGCCCGCAACGTCACCTCATCCCAGGGGCAGGAGCCCCAGGCTGCGCCGCAGGTTAACCTCGATGCGCTGCGCAACGCGGCAGCGAAGGCGGACGGGGGCAAGGACGCGTGA	MTIQSSSELRIFVFMHDILADYFGAPQLSAPRAGIYAGCMTANLVVGIIYLVLAVVLVVVGAVATAGKLPGNSIFGLRIAAVRKDKSIWDQAHKVSGPFVLFAGVALAFGAAFAFIASGWLWVAPVIALIIAVIALSVAGNFGARAATLVDAARNVTSSQGQEPQAAPQVNLDALRNAAAKADGGKDA				NA	NA	NA	NA	NA
AK009_08963	489			hypothetical protein	GTGCTCCGCCGGCTCGTAGGCGTGTTCGTCGTCGGGGTCAGCCACGCGGATGCGCTCAGCGAGCTCGCCGAGCTGCGGGGCCGACCCGTCGTGGGTGATGCCCGTGAGATAGGCGGTGCCGGACTCGTGGTCGACGCGAAGCAAGGTCTCCGCGACGACGAACTGGTAGTCGGGGTACGCGTTTGCGGAGTCCGCGACCTCGGGCAGCAGCTCGAAGGTTTCGAGGTAGTCAAACGCCATCCCCCCGGCGAGGAAGGGGAAGTCGCCGCTTCTGTACCCCGCGCCGGTGGAAAGCGCGCGCAGCACCTCCGCGTTCGACACGGCGGTCAATCTGTCGCGCTCGTCTGCGGCGTTGGAGGGGGGAAAGTCGAACACGCCGTTGCTGACGTAGTAATCACCAAGCTGGACGCGCAGCCGCTCGGCCAGCACCTCGCCCGAGGCGGTCAGGGGCTCGGCGTGGACGCGGGTGCCGTTGCAGGTCACGCGTAA	MLRRLVGVFVVGVSHADALSELAELRGRPVVGDAREIGGAGLVVDAKQGLRDDELVVGVRVCGVRDLGQQLEGFEVVKRHPPGEEGEVAASVPRAGGKRAQHLRVRHGGQSVALVCGVGGGKVEHAVADVVITKLDAQPLGQHLARGGQGLGVDAGAVAGHA				NA	NA	NA	NA	NA
AK009_08964	528	trpE_2	COG0147	Anthranilate synthase component 1	ATGGAGCTGCAACTACGCACCGACTCAAAAGAGGTCGCAGAGCACACCATGCTCGTCGACCTCGCGCGCAACGATCTCGCCCGCGTCGCCGAGCCGGGCAGCCGCCGCGTCGCGGAACTGCTCCAGGTCGACCGCTACTCGCGCGTGATGCACCTGGTCTCCCGCGTCACGGCGACCCTGGCAACAGACCTCGATGCGCTCGACGCGTACCGGGCGTGCATGAACATGGGCACGCTGACCGGCGCCCCGAAGCTGCGCGCCACCGAGCTGTTGCGCCAGCTCGAGGGCTCCCGGCGCGGGTCCTACGGCGGGGCGATCGGATACCTCACCGGCACCGGCGACATGGATAACTGTATTGTCATCCGCAGTGCCTACGTTTCCGGCAGCGTCGCTGCGGTGCAGGCCGGCGCGGGCGTCGTGCGCGACTCAAACCCGCAGGCCGAGGCCGATGAAACCCTGCACAAGGCGTACGCGGTACTCAACGCCATCGCCCTGGCGGCGGGAGCCAAGCTGGAGGTAGTGAAATGA	MELQLRTDSKEVAEHTMLVDLARNDLARVAEPGSRRVAELLQVDRYSRVMHLVSRVTATLATDLDALDAYRACMNMGTLTGAPKLRATELLRQLEGSRRGSYGGAIGYLTGTGDMDNCIVIRSAYVSGSVAAVQAGAGVVRDSNPQAEADETLHKAYAVLNAIALAAGAKLEVVK	PGPT0007095_1372	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
AK009_08965	798			hypothetical protein	ATGTCGAGGGATTTGTCGCTGGCCATGTGTCTAGCGTCCTTTCATGAGTTCGGCCACGCAGCGCTCAATCATGATCGGACCTGCGGGGGTGAGGATGGATTCGGGGTGGTACTGCAAACCGATGGACATGCCGTCGTCGCTGCGCGCGGCCATGACGACGTCGCCGAGCTGGGTGTGGGTGCGGGCCAGCGCGTGCATCCCTTCGGGAAGCTCCACGGTGCCGAGCGAGTGGTAGCGCGCGACAGGCACCGTTCGCCCTGGGCTATAGGGGGTATCGTCGCTGGTCAGGCCGTCGAAAAGCCCGCTGGCCACGCCGGCGTCGGCAAGCTGCATGCCGATCTGCTGGCCGTGGACGGGCCCGCAGGGCTGCACCCGGCCGCCGAAGTGTTCGACGAGCGCCTGGAAGCCGAGGCAGATGCCGAGGATCGGGACGCGGCCCTGGGCGGCGGCGATGAGCTCCATCATGGAGCCCGCCTCGACCGGGTAACCGGGGCCGGGCGAGAGCACGATGAGGTCGGGCTCCGCCGCCATGATGAGTTCGGCGGGCACCGTGTTTCGATAGACGGTGGCGTCGAATTGGCGCATCGCGTCAACCAGGTTGTAAACAAAGGAGTCCTGGTTGTCGAGGAGTACAACCCCGCTCATTTCACTACCTCCAGCTTGGCTCCCGCCGCCAGGGCGATGGCGTTGAGTACCGCGTACGCCTTGTGCAGGGTTTCATCGGCCTCGGCCTGCGGGTTTGAGTCGCGCACGACGCCCGCGCCGGCCTGCACCGCAGCGACGCTGCCGGAAACGTAG	MSRDLSLAMCLASFHEFGHAALNHDRTCGGEDGFGVVLQTDGHAVVAARGHDDVAELGVGAGQRVHPFGKLHGAERVVARDRHRSPWAIGGIVAGQAVEKPAGHAGVGKLHADLLAVDGPAGLHPAAEVFDERLEAEADAEDRDAALGGGDELHHGARLDRVTGAGREHDEVGLRRHDEFGGHRVSIDGGVELAHRVNQVVNKGVLVVEEYNPAHFTTSSLAPAARAMALSTAYALCRVSSASACGFESRTTPAPACTAATLPET				NA	NA	NA	NA	NA
AK009_08966	543			hypothetical protein	TTGGAATTCCGGGCGAGCCGGGCTGAGCAGCGGGCCCATCGTGTTGAACAGCGTGGACACCCCGAGGGACTTGCGCACCGGCTGGACGTGCGCGATCGCCGGGTTGTACGCGGGCGCGAACAGGAAGGTGAAGTTCGACGCCTCGAACTGGCGCACCGCGCGCTCCGGATCGAGGTCGAGCGGGATGTTGAGCGCCTCGAGCACATCCGCCGAGCCGGACTTCGAGGACACCGAGCGGTTGCCGCATTTGATCATCTTCACTCCCCCGGCCGCGGCCGTCAGGGAGGCAGCGGTAGAGATGTTGATGGTGTTCGCCCCGTCGCCCCCGGTGCCAGCGGAGTCCATGATGCCCTTACCAGTAACGGGAAACGGCCGGCCCGCCGCGAGGAAGGCTCGCGCCGCTCCCGCGACATCTGCGAAGGTTTCCCCGCGCGTGCGCACCGTGGCCAGCAACGCCGCGATGTGAACGTCGTCGTAATCACCCACGGTCAGAGGGGTAAACGCCTCGATCGCCTCCTCGAGGGTAGGGGCCCTGTTGTCTAG	MEFRASRAEQRAHRVEQRGHPEGLAHRLDVRDRRVVRGREQEGEVRRLELAHRALRIEVERDVERLEHIRRAGLRGHRAVAAFDHLHSPGRGRQGGSGRDVDGVRPVAPGASGVHDALTSNGKRPARREEGSRRSRDICEGFPARAHRGQQRRDVNVVVITHGQRGKRLDRLLEGRGPVV				NA	NA	NA	NA	NA
AK009_08967	387			hypothetical protein	GTGGGTAATTTAGTCACGGTAATCGGCCTCCTCGTGAGTCCGCTGCCACGTTTCCACGGAGCCGTCGCTAAGCATGCTCAGAGCGCGCTCGGTGCCCTCGCGCATCGTGTCGGAAATGCCGGCGAGGTAGAACATCGCGCCGGCGTTCACCGCCACCGCGTCACGGTGCGCCGCGGGGCCTCGCCCGGCGAAGGTCGCGCGCATGAACCGGGCGTTCTCTACCCCGTCGCCACCGCGCAGGTCCTCGAGCGCGTGGGTGGACACGCCGAGGTCGGCGGGGCTGATGCGGAAGTTCGTGATCTCTCCGTCGCGCACCTCCCACACCTCGGTTTCACCGTGGACGGCGATCTCATCGGTACCCGCGCCGTGGACCACAAGGGCGCGTGA	MGNLVTVIGLLVSPLPRFHGAVAKHAQSALGALAHRVGNAGEVEHRAGVHRHRVTVRRGASPGEGRAHEPGVLYPVATAQVLERVGGHAEVGGADAEVRDLSVAHLPHLGFTVDGDLIGTRAVDHKGA				NA	NA	NA	NA	NA
AK009_08968	321			hypothetical protein	GTGGGTGATCGAGGCGACCGTGGCCAGGTGGTCGTAGTCTCCCCCGAACTTGTCCGGTTCGCAGAGCACGGAGATGCCGGCAGCGTAGCGCGAGTAGATGGAGGCGATCTCACCGGGCTCGTAGTGCTCGCGGATCATCCCGAGAGACGGCGAGGAGGATTTGCACTCCATGATGAACTGCGTGCCCTCGCGGGCGAGCGAGTCGTACAGGGAGCGCGTGGAGCGCGGCAGTGCGCTCAGGTCGACGCCACTGAGACGCGCTTTAATTTCGTCAAGGTGACGAAAACGCTGCTGGACAATCCCCTCGAGAACGGTGGGTAA	MGDRGDRGQVVVVSPELVRFAEHGDAGSVARVDGGDLTGLVVLADHPERRRGGFALHDELRALAGERVVQGARGARQCAQVDATETRFNFVKVTKTLLDNPLENGG				NA	NA	NA	NA	NA
AK009_08969	240			hypothetical protein	GTGCCCGCCCAGCCGGCGCACGGTTGCGACGTCGCGGATGCCGGACTCGGAAACGATCAGGGCGCCCTCCGGCGCGAGCGGCGCGAGGCGTGCGGAACGCTCAAGGTCGATCGACAGGTCGTGCAGGTTGCGGTGGTTGACACCGAAAATCTTGGCGCCGAGGCGGCCGGCGCGCTCGGCTTCCTCTTCGTCGATGACCTCGGTGAGCACGTCCATGCCCAGGCGCGCGGCGAGGTCTGA	MPAQPAHGCDVADAGLGNDQGALRRERREACGTLKVDRQVVQVAVVDTENLGAEAAGALGFLFVDDLGEHVHAQARGEV				NA	NA	NA	NA	NA
AK009_08970	528			hypothetical protein	ATGGAAGTTTCGGATGGTGGTAAACGCGCGTCGCAAAGCGCCCGCGTCCTTGTGCCCGGCCCACTGCCCCGCCGTGCTGGGGTACTCAACGCCGGAGTTGAGGTCCACGCCGAGGCAACCGGCGCTCAGCGCATCGGCGACGTTATCGGGCTCGATCCCGCCGGCGAGCAGCGCGTGGTCCTTGACCTCTTCGGGGATCTTCGCCCAATCGAAGGATTCGCCCGAGCCGCCGTCGTAGGCATCGAGCACGAGCTTATCGACGCTCCCCAGCAGCGCCGTTGCCACCTGGGCGCCCTCAGGGGTGGTCATGGAGACCGCGCGCCAGACCTCTACCCCATCGCCGACCTCGGCACGGATGGCGTCGACAAGCTCGAGCTCCGCCTCGATGCTGCCCTGGTAGGAGGCGTGGACCTGGACGGCGTGGATGCCGTCGACGGTGAGCTCGGCCCAGCCCTGGGCGCGGCGGGAGACGGCCACGTACTTCAGGTGCGGCTCGTGCGCCATGATTTCTGCGGATGTTTCACGTGA	MEVSDGGKRASQSARVLVPGPLPRRAGVLNAGVEVHAEATGAQRIGDVIGLDPAGEQRVVLDLFGDLRPIEGFARAAVVGIEHELIDAPQQRRCHLGALRGGHGDRAPDLYPIADLGTDGVDKLELRLDAALVGGVDLDGVDAVDGELGPALGAAGDGHVLQVRLVRHDFCGCFT				NA	NA	NA	NA	NA
AK009_08971	1005			hypothetical protein	GTGCTCCGGGCCGACGGCGGGGTAATCCAGGCCCGCGGAGATGGAGTAGGACTCCTCCACCTGCCCGTCGGTGTTGCGCATCAGGTAGGACTTCGTGCCGTGGAGGATACCGATCGTGCCGGCGGCGATGGCCGCGCCGTGCTTGCCCACGCCGACGCCCTCGCCGCCCGGCTCGGTGCCGATGAGCTCCACGCCCTCATCGTCAATGAAGTCCGCGAACATGCCGATGGCGTTGGACCCGCCACCGACGCACGCGACGACGACGTCGGGCAGCGCGCCGACGCTCTCGAGCATCTGGGCGCGCGCCTCGGTGGAGATGACGCGGTGGAACTCCTTGACCATCTTCGGGAACGGGTGCGGGCCCGCGGCGGTGCCCAGCAGGTAGTGCGAATCGTGGAAGGTGGCCGTCCAGTCGCGCAGCGCCTCGTTGACGGCGTCTTTCAGCGTGCCGGAGCCCGAGTCCACGCCGACGACCTCCGCGCCCATCAGGCGCATGCGGTAGACGTTCGGCTCCTGGCGGGCCATGTCCTCGACACCCATGTAGACGACACAATCGAGGTCGAGCAGCGCGCAGGCAAGGGCTGTCGCGGTGCCGTGCTGCCCCGCCCCGGTCTCGGCGATGATGCGGGTCTTGCCCATCTTTTTCGCCAGCAGTGCCTGGCCGATGACCTGGTTGGTCTTGTGGGCACCGCCGTGGACGAGGTCTTCGCGCTTCAGGAAGATCCGCGCGTTCGCGCCGTCGAGCGGCAGGTTGCGGCACTCGGTGAGTGGGGTGGGCCGGCCGAGGTAGTCGCGAAGCAGCGCGCGGTACTCGGCCATGAACTCCTCGTCGTTGAACGCGGCGATGAAGGCGCGCTCAAGCTCGTCGAGGGCGGGCAGCAGCGATTCGGGCACGAACTGGCCGCCGAACTCGCCGTAGTAGGCGGGCAGGATGGTGCGTCCGCCGTCCTTGTTGGTCTGCGTCATGGTCAGTTCCTTACGTATGGAAGTTTCGGATGGTGGTAA	MLRADGGVIQARGDGVGLLHLPVGVAHQVGLRAVEDTDRAGGDGRAVLAHADALAARLGADELHALIVNEVREHADGVGPATDARDDDVGQRADALEHLGARLGGDDAVELLDHLRERVRARGGAQQVVRIVEGGRPVAQRLVDGVFQRAGARVHADDLRAHQAHAVDVRLLAGHVLDTHVDDTIEVEQRAGKGCRGAVLPRPGLGDDAGLAHLFRQQCLADDLVGLVGTAVDEVFALQEDPRVRAVERQVAALGEWGGPAEVVAKQRAVLGHELLVVERGDEGALKLVEGGQQRFGHELAAELAVVGGQDGASAVLVGLRHGQFLTYGSFGWW				NA	NA	NA	NA	NA
AK009_08972	150			hypothetical protein	GTGCGCGATGTCCTTGTCCCCGCGGCCCGAGAGCGACACCAGGATGTTCAGCGGCTCGCCTTCGGCCGGGGCCTCGGCGGCGCGCCCGAGAGCGTAGGCGAAGGCGTGCGAGGACTCCAGCGCCGGGATGATGCCCTCGTACTTGCTTAA	MRDVLVPAARERHQDVQRLAFGRGLGGAPESVGEGVRGLQRRDDALVLA				NA	NA	NA	NA	NA
AK009_08973	558			hypothetical protein	GTGCTGCGCCACCCCCTCGAGCGTTGCCGGCGAGGCCTTGGCGGGGGCGATGTAGATGGTCTCGATCCCGGCCTTTGCGGCCGCCGCGTCGAAGGGGCGGCCCTCGCGCACGGGGACGTCGGGAAGCAAGATGCTGTCCGCTCCCGCCTCGGCGAACTCGCGGTAGAAGCGGTCCAGGCCGCGGACGTAGGCGACGTTGGCGTAGATGAGCATGCCGATGGGCAGCTCTGGGTAGCGCGCGCGGATCTCGCGCACGACGTCGAGGGCGTCCTGCACGGTGGAACCGCCGTCGAGGGCGCGGACATGGGCGCGCTGGATCGCGGGGCCGTCGGCGCCCGGGTCGGAGAAGGGAACGCCCAGCTCGAGCGCGTCGGCGCCGGCCTCGACGGCGGCGACGATGATCTCGATGGAGTCTGCGGGCGTGGGGTCGCACAGCATGATAAACGGGACGAAGGCGCCCTCGTTCTTTTGCTTGAGCGCGGCGAACGTGGTGGTGTAGCGGCTCATCTTTTACTGCTCCCTTGCGGTGTCGATGCGGAACTCGAGGTGCTGCTCTAG	MLRHPLERCRRGLGGGDVDGLDPGLCGRRVEGAALAHGDVGKQDAVRSRLGELAVEAVQAADVGDVGVDEHADGQLWVARADLAHDVEGVLHGGTAVEGADMGALDRGAVGARVGEGNAQLERVGAGLDGGDDDLDGVCGRGVAQHDKRDEGALVLLLERGERGGVAAHLLLLPCGVDAELEVLL				NA	NA	NA	NA	NA
AK009_08974	261			hypothetical protein	ATGCGCCGTGCAGCGCACGGTGTCGCCCTGAGCGACGGTGATCTTCTTGAACTCGTGCGGGCAGGTCGAGGAGTACGCCACGTAGTTGCCCGCGGTGGGTTGGGCGATGATGAACTTGTCCAGGATCACGGAGCCGCCGACCGGGACAGCGGTCTTGGCCACGTCGTCGGTTGGCTCCTGGCCGCACGCGGCGAGGAAGGCGCCAGCGAAGGTGGTCGCGGTGCCGAGGAGGAAGAGGCGTCGAGAGCAGGTCATGAGTGA	MRRAAHGVALSDGDLLELVRAGRGVRHVVARGGLGDDELVQDHGAADRDSGLGHVVGWLLAARGEEGASEGGRGAEEEEASRAGHE				NA	NA	NA	NA	NA
AK009_08975	795			hypothetical protein	GTGGTAAATCATCAGCGGCACGATGAGCAGGCCCAGCGCGGCGCCGCCGAAGATCACCGAGGCCATGGGAAGGCCGGCGGCCAGGGACTTCTGCGTGCCGCACATCTGGATGGCGACGGTGTCCTCGTAGCTGAACTTCAGCGCCCGAGGCACCGCCCTCGTCAGCCACAGCATGGCGCCTACGAGGACGAGCGAGAAGACGACGAGGAAGAGGATCTCCCACCCCGAGACCTCGGTCCACACACCGGCGACCATGGCCTTGGAGAACGCCGCGTAGACCACCATCCAGATGGAGATTCGGTCCACCTGCTTGGTGGCTTTCTTCGCCGCAAAAGCGCGCACAGCGGGCGCGAAGTTGTGCGCGAGCTGGCCCAGGACGAACGGCAGGAGCAGTTGGAGCGCGATGTCGATGAACACCCCGGCGTTCACCGCAATCCCCTCCCCCGTGCCCATCAGCAGCATCACCAGCAGCGGCGTGGCGACGACACCCACGAGGCTGGACACGCTCGCCGCGACGACAGCGCCGGAGACGTTGCCGCGCGCGATCCCCGTCAGCGCCACCGAGGACTGCACCGTCGACGGCACGAGCATGGCGTAGAGGATGCCCTGGTACATGCCCTCGCTGACAAACGCCGTGGTGGGCCGGACGGCGAGGCCGATCAGCGGGTACACCACGAAGGTGAAGGCCAGGATGATCAGGTGCAGGCGCCAGTGCGTCAACCCCCGCATCGCCTCGGAGGTCGACAGCCGCGCGCCGTAGAGGAAGAACAAGAAGGCGATCGCGAGCTTCGTTAG	MVNHQRHDEQAQRGAAEDHRGHGKAGGQGLLRAAHLDGDGVLVAELQRPRHRPRQPQHGAYEDEREDDEEEDLPPRDLGPHTGDHGLGERRVDHHPDGDSVHLLGGFLRRKSAHSGREVVRELAQDERQEQLERDVDEHPGVHRNPLPRAHQQHHQQRRGDDTHEAGHARRDDSAGDVAARDPRQRHRGLHRRRHEHGVEDALVHALADKRRGGPDGEADQRVHHEGEGQDDQVQAPVRQPPHRLGGRQPRAVEEEQEGDRELR				NA	NA	NA	NA	NA
AK009_08976	336			hypothetical protein	TTGCCACAGCCCCTCGAACTCGGGCTGGGAGATGCGCGTCGAGCGCAAGCCGTCGTAGGCGTTGTAGGTGTCGGGGTGGCCGACGGTGTCCATGGGGGTGTTCGCCTGGCCGATGACCCGGCCGTCGACGTACACGCCCGTGATCGCCTCCGCCGGGTCGAACTCGATCATGCGCAGCATCGTGCACTGCGTCGCGGAGATTTCCTCCAGCTCCGCGACAGTGAGCAGCTCGCCGCCGAGCTCCGGGACGGTGTACGCGAGGCGGACGTAGTGTTTCACGTGAAACCTTCTCCTATGCGGCTGCGTAGCGGGCCGCCAGCGAGGAACAGATCATGA	MPQPLELGLGDARRAQAVVGVVGVGVADGVHGGVRLADDPAVDVHARDRLRRVELDHAQHRALRRGDFLQLRDSEQLAAELRDGVREADVVFHVKPSPMRLRSGPPARNRS				NA	NA	NA	NA	NA
AK009_08977	528			hypothetical protein	TTGACGACGCATCACGTCGCCCCACAAATCCGCCGCCGCGGGAGCAACGACGTCCGAGGGGAGCGCGGGCGCGATGAACCAGTCGCCTCGCTCAATCTCCTCGTCGAGCTGGCCCGGAGCCCACTCCGCGTAGCCCAGGAAAAGCCGCATGGAGTCGACCGCCGGCGCCACCTCTTGCGGTTCGGCGCGCAGGTCCACCTGGGCGAGGCGGTTGGCCAGGCGCGTGAGCACCGGCTGGTCGTCGATAAGCACGCCGCTGCTGGTGACGCCGATACCGACGACGGACGTCGCACCGACGGGGCCGCCGCGATACATCGCCTGCGGTGCGGCGACGAGGTCAACCCACTCCGGCATCGCGTTGTGCACCGCGATCTCGCTGCGGGAATTCAGGATCACCCCGAGGGTGGAGTCGAGACCGTGGTCGACGATGAGCACGACCCTGCGGGCGAACTCCGGCGAGAGCATCCCGGGCGCGGCGAGAAGCAGCATGCCGGGAGCGGGCTCGCCGCGCTCCAACCCGTTAAATAG	MTTHHVAPQIRRRGSNDVRGERGRDEPVASLNLLVELARSPLRVAQEKPHGVDRRRHLLRFGAQVHLGEAVGQAREHRLVVDKHAAAGDADTDDGRRTDGAAAIHRLRCGDEVNPLRHRVVHRDLAAGIQDHPEGGVETVVDDEHDPAGELRREHPGRGEKQHAGSGLAALQPVK				NA	NA	NA	NA	NA
AK009_08978	219			hypothetical protein	GTGGTCGTAGGTGCGCTGCAGGCGCTTGGCCTTCTTCGCGTTGCGCGTGGTCGAATCCGCGCGCACCAGCTTGTGCAGCTTGGGCAACAGCTCGCCGGCGTCGGTGACGTAGCGGCGCACTGCGGAATCCGTCCACTGCCCCTCGCCGAAGCCGTGGAACCGCATGTGCAGGTAGACGAGCTGGCCGACGTCCTCGATGACGTGCTTGGGGTACTTTAA	MVVGALQALGLLRVARGRIRAHQLVQLGQQLAGVGDVAAHCGIRPLPLAEAVEPHVQVDELADVLDDVLGVL				NA	NA	NA	NA	NA
AK009_08979	810			hypothetical protein	ATGAAACGACACCCCGCCGCCCTCCTTGACGGCGCGGGTGGCGGGCTTGCCAATGTCGTGCATCAGCGCCGCCCAGCGCAGCTCCAAGTCTGGACCGGAATCCTCCAGCTCGGTCGCCTGGCGCAGCACGGTCAGCGAGTGGCGGTAGACGTCCTTGTGCTGCATGTGCTCGTCCGTCTCCAGCTGCAGCGCCGGCACCTCCGGCAGGATGTGCTGGGCAATGCCGGTCTCGACGAGCAGGTCGATGCCCTCCCAGGGCAGCGCGCCGAGCATCAGCTTGTCCAGCTCGGCCTGCACGCGCTCGACGGTGATGCGGTTAATCTCTCCCGCCATCTCGCGCATCGCGTCGAAGACGCGATCAGCAACGGAGAACCCGAGCTGGGAGACGAACCGGGCGGCGCGCAGCATGCGCAGGGGATCGTCGCGGAAGGAGACCTCCGGGGCCTGGGGCGTGTCCAGGACTCGGTACAAAATGTCGTCGAGGCCGCCCACGGGGTCGTGGAACGTGGGGGAGAGGGAGCCGTCGACAAGCGAAAGCTCGATGGCCATCGCGTTGCAGGCGAAATCGCGTCGCACCAGGTCGCCCTCGAGCGTGTCGCCGAAGGTGACCTCGGGGTTGCGCGTCACGCCGTCGTACAGGTCCGAACGAAACGTGGTGATCTCGACCTGCTGGCCGCGCTTGATGCTCGAGACCGTGCCGAACTCGATGCCGGTGTCCCAGGACTTCTCGCCCCAGATGCCGAGGATCTCCGCGATCACCTCCGGGCGGGCCGAGGTGGTGAAGTCGAGGTCGTTGCCCAACCGCCCTAG	MKRHPAALLDGAGGGLANVVHQRRPAQLQVWTGILQLGRLAQHGQRVAVDVLVLHVLVRLQLQRRHLRQDVLGNAGLDEQVDALPGQRAEHQLVQLGLHALDGDAVNLSRHLAHRVEDAISNGEPELGDEPGGAQHAQGIVAEGDLRGLGRVQDSVQNVVEAAHGVVERGGEGAVDKRKLDGHRVAGEIASHQVALERVAEGDLGVARHAVVQVRTKRGDLDLLAALDARDRAELDAGVPGLLAPDAEDLRDHLRAGRGGEVEVVAQPP				NA	NA	NA	NA	NA
AK009_08980	408			hypothetical protein	GTGCTCGATCAGCTCGCTCATGGGCACCCAGGTGACCTCGGTGACCTCGGGGTCCTCGTCGTTGAGGATGCCGTCGACGAAACGCAGGAGGTTGTGGTGCACTGTCTTGTGGATGCGCACGCCCTCCGAGACGAACCAGTAGTCAATCACGCCGAGTTCCTCGAAGGCCTCGCCCTTGATGCCGGTTTCCTCCCACACCTCGCGCTCGGCGGTGGCCCACTGGTGCTCGCCATTTTCGACGTGGCCCTTCGGCATGGACCACAGCAGCCTGCCGCGGCGGTCGAGCCGGCCGATCAGCGCGACGTAGATGCGCGAGAGGTCAACCTCGCCGCCGGGGCGCACGGCCTCGGCCATGCCGGAGACCACGAGGCCGCCTGCCGACGTCTCGTCGCGCGTCTCAATCGTTGA	MLDQLAHGHPGDLGDLGVLVVEDAVDETQEVVVHCLVDAHALRDEPVVNHAEFLEGLALDAGFLPHLALGGGPLVLAIFDVALRHGPQQPAAAVEPADQRDVDAREVNLAAGAHGLGHAGDHEAACRRLVARLNR				NA	NA	NA	NA	NA
AK009_08981	621			hypothetical protein	TTGGACGCCGTCCGGGGTGCCACGGATGGACAGGTGGAAGCGTTCGGTGTCGAGCAGCTCGCCGCTGGCGGCACTGAGCACGAACATCAGCGGGTAGGTGGACACGCCCGGCAGGGGCAGCACGGACTCGCTAAAAGTCAGCTTCAGCTCGGTGCTTTCCCCTGGTCGCAGCTGCGTATCGACGCCCACCTCCGGGCCAGCGACCTCGTAGTCGAGCGGGCTGGCCACGGTGGCGATCCGCTGGTCCAGAACGGAGCCGGTTGCCGGGCCGCGCCGGGGGGTGACGGTGAGGCCGTCGAGACGCTCGCTGGAGGTGTTGGTCACGAGCAGGGTCACGGCGAGTGGCTCGTGGGGGTTGAGCGTGGTGGGGGCGTCGAGAAGCGAAATTTGCGCTTTTTCGCCCTCCCCGGGCCGGACGGCAGGGTTGACCCACGCTTCGGAGACGGCGGGGTTGGTCGGGTGCAGCGGGATGGGCATCGTGGGCTGCTGCGCGGTGCCAAGCGGTGGGTTGGCGCAGGCGACGACGCTGGCCGCGAGCGCGATGGCGTTCAGGCGCCTCATCGCGGGGTTGCCCTTCCGGCGTCGGCTTCCTTTCTGGCCAGGTCCGGCATTCGGTCGTAG	MDAVRGATDGQVEAFGVEQLAAGGTEHEHQRVGGHARQGQHGLAKSQLQLGAFPWSQLRIDAHLRASDLVVERAGHGGDPLVQNGAGCRAAPGGDGEAVETLAGGVGHEQGHGEWLVGVERGGGVEKRNLRFFALPGPDGRVDPRFGDGGVGRVQRDGHRGLLRGAKRWVGAGDDAGRERDGVQAPHRGVALPASASFLARSGIRS				NA	NA	NA	NA	NA
AK009_08982	381			hypothetical protein	GTGCTGCAGCCAGGCCCGCGCGTCGTCAGCGCCGCGCCCCGGCTCCCCCAGCGCGTCCTTGGTGGAGCCTCCCCACGAATCGCGCAGGCGCTGCGGCGGCTCGACGAGGTCCGGGCGATCGCTGGCGACGGTGTAACCCTCGGCCATGCGGGCGACGGTGTGGACCACGGCGGGGTCGACGGCAAGGCAGGTGGCACCGGCGACGGACGGGTTGGCGGTGGCGTTGGTGTAGACGTCGAGAAGCGAGCTCAAGCGCCCGCCCGGCGCGAGCTGGTCGGCAAGCTGCTCGCTGGCGAGGATCAATGGCGGTTCGCCGGGCGCGGCGCCGGTCTCGCCGGGGACGATGTCGACGGGCGCGGACAGCGGAAACAGCGCGCTTAG	MLQPGPRVVSAAPRLPQRVLGGASPRIAQALRRLDEVRAIAGDGVTLGHAGDGVDHGGVDGKAGGTGDGRVGGGVGVDVEKRAQAPARRELVGKLLAGEDQWRFAGRGAGLAGDDVDGRGQRKQRA				NA	NA	NA	NA	NA
AK009_08983	330			hypothetical protein	TTGGCCCTCCGGCTGCTCCTGGGGCGTCCACGCGGCCTGGGCGGCGAGGTGCACCGCGCTCGCGGCGTTGACGGAGCGCGCCTTGGCGGAGTCCTGTGTGTAGTCGAAGCGCAGGTTCGGGGCGGAATACCCGGTGGTCTCGGGGTGCTCGCCCACGGTGGCGAGCACGGTGGCCAGCGAGTCCTGGAAGGTCACGGCCATGACCCCGGGGGCGGTCCAGGCGAAGCGGTCCGGGGCGTTTACGGTGTTGTCGCTGACGAGCACGCGCACGGGTCGCGCCGGCTCGGGCGCGCCTGCGGCGGCGATGGAGGGAACGTCGCCGCGGTCTAG	MALRLLLGRPRGLGGEVHRARGVDGARLGGVLCVVEAQVRGGIPGGLGVLAHGGEHGGQRVLEGHGHDPGGGPGEAVRGVYGVVADEHAHGSRRLGRACGGDGGNVAAV				NA	NA	NA	NA	NA
AK009_08984	171			hypothetical protein	TTGTTCCGGCAGGTCCGCCGTCATGGATACGGTCAGCGAGCCGTAGGCGGGGATGCGCAAGGTCGAGGGCACGTTGAGCCGCGCGCCGTCGGGGCCGTGGTAGCGGATGGTGGTGTCTACCGGCAGCGGCAGGCCGTTGCGCGCGACGATTACCAGCGGCGACGAGGGTGA	MFRQVRRHGYGQRAVGGDAQGRGHVEPRAVGAVVADGGVYRQRQAVARDDYQRRRG				NA	NA	NA	NA	NA
AK009_08985	396			hypothetical protein	GTGCGGGACGTCAAGCGCTTCGCCGGAGGGGCTGATGGTGAGCGCCGAGCGGTCTCGGTCCAGGGTGTCTGTGCTCTGCGCGGGCGAGGCCGACCGAGGCGCTGGCACGGGCGCTGGTGGCGCCGGGGTGACAATGCGCCGGCGCAGTCCAGACTGGTGCTGGGTCGGGTCCTGCTGAGTCACTGGGGGTGTTCTCCTGTTCAAGGTGGTGCGTTAGGGCCTGGGGTTGTGAAGTTCGTGCGGCGGTGGGTGCCTGCGTCGCCTGCCGACGGTGATCAGGAGCATCAGAGCGAGCGCGCCGGCGAGCGCGGTGAGGATGACCCCGCCGCGCAGAGCGACGCCGGAGGTACGCACCGTGATGTCGACGGGCTCGGAGATCTGCCCACCCTGGGGTGA	MRDVKRFAGGADGERRAVSVQGVCALRGRGRPRRWHGRWWRRGDNAPAQSRLVLGRVLLSHWGCSPVQGGALGPGVVKFVRRWVPASPADGDQEHQSERAGERGEDDPAAQSDAGGTHRDVDGLGDLPTLG				NA	NA	NA	NA	NA
AK009_08986	2142			hypothetical protein	GTGGGCGGCGCCGAGCGCGCTCGAGAGCGGGGCGAGGGCGTGGGCGACGGCCTCGGTGTGCAGGGTCTGGCCGGCCTCAACGACAGCCTTGACGCTGGAGCCGGTGATCCAGTCTGCCACGACGAGCGCGCCCGAGCGGTAGGACAGGATCTGGATGTTGTCCGCCACCGCGGGGTGTTTGAGCTTGGCCAGCTTGCGGGTGCGGCGCACCACGCCCGCGGCGTTGATGGCGGCCTCGCGCGGGGTCGGTGGAGCCATCGGGGCGGTGCCGGAGGTGTCGACGAAGGTCAGCGCCACCATCCGCCCCGTTGCCAGCTCGCGGGCCTGCCAGAAGCGCGCGGACTGGGTCGAGCCGTGGTCGCGCAGCAGGCGGAAGCGCCCGTCGGACACGGCAGCGCCCGGCACGAGCCGCGGGCCGCGCACCACACCGGCGGACATCGGCGGCGGGACTGGGGAGGCGTTGAAGGAGTCGGTGGCGAGGAACTGGGCGGAGACGTCGCGTGGGTCGACCTCGCCGACCTCGAGGGCTTTGTCCTCGTCGGGGCGGATGAAGCGGCCCAGGCCCGGCACGCGGGTCAGGGCGCGGCCGAGGTTTTGCACCTCGGGCAGCCCCGAACGCGACAGGACCAGGCCGGTGATGACGAGGAAGAGCACGCCCTGGAGCGCGATTTCGATGAGGTAGCCGATCGACTCCAGCCCGGTGCTGCCGAACGCCGAGCCCAGAAGCACGGGCACATTGATGCCGAGGACCTCCTTGGACAGCAGCTTGAGGCCGAGCACGACCGCGATGCCGACGATCGCCGAGCCCAGCGCCCAGGAGGAGGTGCGGATCACCGAGGCCATCTCGAGCGTGCCCAGCTTGCGCCGCAGCAGAAACGCGCCGATCACCGCACCGGCGATGAAGCCGAAGCCGTTGGCCGCCGCGAGCAGGATCACCACCGAGGAGGTGCTCACCGCGATCATCGGCGTGACGAGCGAGAGCACGACCTTCGTCGCGGTGATGCCGGCGATGATAAACGTCGGCGTCCACGCCTCCTCGCGCGCGTAGAATACGCGCAGGTGCAGCATGACCAGCGCGTACGGGATGAGCGTGAAGGCGGAGAAGCTGATCGCCAGGCCGAGGATGCGGGCGTGTTCGACGTTGAAGTCGCGGTAGGCGAACAGGCCGTGGCCGATGTCGGGCCCCAGCGCGGTCATGAACACGATGATGGGGATCAGCGCGATGAAGGTGAGCTTGGTGGCCAGGGTCAGATCCCGCACCACGGCGCGGTCGTCGCCGTCGGCGGCGTTGCGCGACAGCCTGGGCATGATCGCGGTCAGCAGGGTCACCCCGATCACGCCGTAGGGCACCTGCAGCAGCATCCAGTGCTGCTGGTAGATAAACGGCGCGGCACTGTCGGCGGCAGACGCGATGCGGGTGGTGACTACGTAGCCGAGCTGACTGACGGCGACGTACGCGATGATCGCCGCGGCCATCCAGCCGAAGGACTTGAGCCGTTCGTCGATGCCCCACAGCGGCCGCAGGTCAATGCCGAGCCTGCGTATCGCGGGCAGCATGATCGCGCATTGCACGACCACGCCGAGGGTCGTGCCCACGCCCAGCAGCATCACGTGCGGATTGCTTGCCGACGCCGGCGTGGCCGGGTCCAACGCCCCAGGCACAGCCATGTAGAGTGCCAGCACCACGATGGAGACAATGTTGTTGGCCACCGGGGCCCACGCGCCGGGGCGGAAGTGCTCCTTGGTGTTCAAGATGGCCATGAACAGCGCGAACATGCCGTAGAAGAAGATCTGCGGCAGAAGCAGGTAGGCGAACGAGGTGGACTGGACGACGTTGACCTTGCCGTCGTCCTCAAGCATGGTGCGCGTCAGCCACGGCGCGGCCGCGACCGCCGCGATGGTGACAACGGTGAGCAGGGTCAGCGCGAGGGTAAACAGCTGGCGGATGAACCGCGCTCCCCTATCGGGGTCTTCTTTTTCCGCGCGCACCAGCACCGGGACGACGAGCGCGGTGAGCACCGAACCCAGAACGATCTCGGTAATCAAGTTGGGCAGGGTGTTCGCGGTGTTGAACGCCGAGGCCACCGGCGCACCGAGCGCTGCGCCGATGAGCACGGTGCGGATAAAGCCCGTGATGCGTGA	MGGAERARERGEGVGDGLGVQGLAGLNDSLDAGAGDPVCHDERARAVGQDLDVVRHRGVFELGQLAGAAHHARGVDGGLARGRWSHRGGAGGVDEGQRHHPPRCQLAGLPEARGLGRAVVAQQAEAPVGHGSARHEPRAAHHTGGHRRRDWGGVEGVGGEELGGDVAWVDLADLEGFVLVGADEAAQARHAGQGAAEVLHLGQPRTRQDQAGDDEEEHALERDFDEVADRLQPGAAERRAQKHGHIDAEDLLGQQLEAEHDRDADDRRAQRPGGGADHRGHLERAQLAPQQKRADHRTGDEAEAVGRREQDHHRGGAHRDHRRDEREHDLRRGDAGDDKRRRPRLLARVEYAQVQHDQRVRDEREGGEADRQAEDAGVFDVEVAVGEQAVADVGPQRGHEHDDGDQRDEGELGGQGQIPHHGAVVAVGGVARQPGHDRGQQGHPDHAVGHLQQHPVLLVDKRRGTVGGRRDAGGDYVAELTDGDVRDDRRGHPAEGLEPFVDAPQRPQVNAEPAYRGQHDRALHDHAEGRAHAQQHHVRIACRRRRGRVQRPRHSHVECQHHDGDNVVGHRGPRAGAEVLLGVQDGHEQREHAVEEDLRQKQVGERGGLDDVDLAVVLKHGARQPRRGRDRRDGDNGEQGQREGKQLADEPRSPIGVFFFRAHQHRDDERGEHRTQNDLGNQVGQGVRGVERRGHRRTERCADEHGADKARDA				NA	NA	NA	NA	NA
AK009_08987	474			hypothetical protein	GTGACACTGCGCCCCGCTGGGCTAGAAGTAGGTCTTGCCCACCAGGGAAATTTCGCGCAGCGCGATCTCTTCCGGGGCGGATGGGGCGCCCGAGTTCGGGAACAGCATGACCACCCCGCGCAGCCGCTGGTCAGCGTCGATCTCGATGGTGTTTCGGCCCTGCTGGAAGCGCCCGGTGGTGAGCTTGATGCGCTCGCTATCGGGAGAATCAGGTGCGTCGGCGGGAATTCCATAGACCTCGTAATCAGAGCCCGCGGTGGGGCCCGCGACAATGACCTGGGTGAGCACGAAGGTCAAGCCAGGCTGCGCCGTGGCGACGAGCCCGGAGCCGCGAGATCCTGTCCACACCGTCGAGGTGTCGCCGTCGAAGGCCAGCTCCGCCTCGGCGGCGGAGCTGGTGCCCGTGAGCTCGGTGTTGAGGTCACGGATGACTACGTCGAGGCCGCCGAGCTCGCTCGTTGCCGAGGGCGCTGA	MTLRPAGLEVGLAHQGNFAQRDLFRGGWGARVREQHDHPAQPLVSVDLDGVSALLEAPGGELDALAIGRIRCVGGNSIDLVIRARGGARDNDLGEHEGQARLRRGDEPGAARSCPHRRGVAVEGQLRLGGGAGARELGVEVTDDYVEAAELARCRGR				NA	NA	NA	NA	NA
AK009_08988	564	sigM_4		ECF RNA polymerase sigma factor SigM	ATGGAGCTTTCAGATCAGCAGTTGGTCGAGGCCTACAAAGCGGGGGATCCACAGGCGTTCGCGGCAATTGTGCGCAGGCATAAGCCGCGGCTTGCTTACATTGCGCGTCGATACGCGCGCAACGAGCAGGACACGCAGGACATTTTGCAGGAGGCGCTGTTCAAGGCGTCGCGGAACATGCACACGTATCGCTCCGAGGCGACGCTGTCGACGTGGTTGCACCGGCTGGTGATGAACTCCGGCTACGACTACATGGCCGCGGGGCAAAAGCGGATGCGCGACGTCAGCATCGACGACACCGAGCGCGTCTCGGCCGACGCGAACCCCATGCTCGCGCACGATCCCACGCCCGCGGTCGACCGCGCCATCGTGATGCGCCAGGCCATCGAGGCCCTGCCCGCGGCCCAGCGCACCGCTCTTTTGCTTATCGACGTCGCCGGCCTCACCGTAGAAAACGCCGCCCGCGAAATGGGCGTCAAACCTGGCACGGTGAAATCGCGACGCTCCCGAGCTCGCGACGCCGTGCTCAAGGCCGTCAACGAGCGCGACACCACGGCGGTCTAA	MELSDQQLVEAYKAGDPQAFAAIVRRHKPRLAYIARRYARNEQDTQDILQEALFKASRNMHTYRSEATLSTWLHRLVMNSGYDYMAAGQKRMRDVSIDDTERVSADANPMLAHDPTPAVDRAIVMRQAIEALPAAQRTALLLIDVAGLTVENAAREMGVKPGTVKSRRSRARDAVLKAVNERDTTAV	PGPT0014960_2500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK009_08989	996		COG1063	putative zinc-binding alcohol dehydrogenase	ATGGGCCGCGTCGTCGAGGCCGGCTCCGAGTCCGGCCTGAAAGTCGGCGACCGCATCGTCGTGCCGTTTAACATCTCCTGCGGTCACTGCTGGATGTGTGACCACAGCCTGTACTCCCAGTGCGAAACCACCCAGGTCACCGAGAAGGGCTCCGGCGCCTCCCTGCTCGGCTTCTCCGAGCTTTACGGTTCCGTCCCCGGCGGCCAGGCCCAATACCTGCGCGTGCCGCACGCCGACTTCGGCGCCATCAAGGTGGGCAACGAACTTGAGGATCACCGCTACGTGTTCCTCAGCGATGTGCTGCCGACCGCGTGGCAGGGCGTTAAGTACGCCGACGTGGGCGAGGGCGACACCATCGCCGTGTACGGCCTTGGCCCGATCGGCCAGATGGCAGCCCGCATGGCACGCCACATGGGTGCGCGCGTGTTCGGAATTGACCCCGTCGCGGAGCGCCGCGAGATGGCCGCACGCCACGGCATCGAGGTATTCGCCGGCGGTGATGAGACTGTCGCCGAGCTGCGAGACATGACCGACGGCCGCGGCCCCGATGCGGTGCTTGATGCCGTGGGGATGGAGGCACACGGATCACCCGTCGGCGGTGCCATTCAGACCGCCGCCGGTTTCCTTCCTGACGCCGCGGCGCAGAAGGTCATGGAGACCGCAGGAGTCGATCGCCTCAGCGCTTTGCACGAGGCCATCGACCTCGTCCGCCGCGGTGGCACGATTTCCATCAGCGGAGTCTACGGCGGCGCGGCCAGCCCGATGCCACTGCTGACCCTTTTTGATAAGCAGATTCAGATGCGCATGGGCCAGTGCAACGTGAAGAAGTGGATCTCCGACCTGATGCCGCTGGTCGAGGATCCTTCCGATCCGCTCGGTGTCGATGACCTAGTAACCCACCGCGTGCCGCTGTCCGAAGCTCCAGAGGCGTACAAGAAGTTCCGCGACAAGGAGGACAACTGCATCAAGGTCGTCCTCGACCCCGTCGCTGGATAA	MGRVVEAGSESGLKVGDRIVVPFNISCGHCWMCDHSLYSQCETTQVTEKGSGASLLGFSELYGSVPGGQAQYLRVPHADFGAIKVGNELEDHRYVFLSDVLPTAWQGVKYADVGEGDTIAVYGLGPIGQMAARMARHMGARVFGIDPVAERREMAARHGIEVFAGGDETVAELRDMTDGRGPDAVLDAVGMEAHGSPVGGAIQTAAGFLPDAAAQKVMETAGVDRLSALHEAIDLVRRGGTISISGVYGGAASPMPLLTLFDKQIQMRMGQCNVKKWISDLMPLVEDPSDPLGVDDLVTHRVPLSEAPEAYKKFRDKEDNCIKVVLDPVAG	PGPT0006355_379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
AK009_08990	1239			hypothetical protein	ATGGTGCGCAATCGCCCGCTACGGGTTGCGCGTGTCCTCGCCCAGTTGGTGGACGTGGATCGTGTTCGTCGTGCCACTGACTCCGGGCGGGGTGCCGGCGACGATCACCATCGTGTCGCCCTTGCTGTAGGTTCCGATGCTGAGCAGGTACTCGTCGACCAACCGGACCATCTCATCAGTGCCGTTGGTCTGCGGGCACAAGAAGGTCTCCGCGCCCCACGTCAGCGCCAACTGCGAGCGCACCTGCTGCACCGGGGTGAATACCAGCAACGGGTGGTCCGGGTGCAGGCGAGCGACGCGGCGCGCGGTGTCGCCGGACTTGGTAAACGTCACGATCGCGCGCGCGTTCAGGCGCGTTGCGATGTCGTGCGCGGAGTACGCGATCACGCCGCGCTTGGTGCGCGGGATGTGGTTGAGCGGTGGGACGGTGCCCATCGACTCCGCTACCCGCACGATGCGGCTCATCGTGCGCACGACGTTGTGCGGGTCAACACCGACGGAGGTCTCGCCGGACAGCATCACCGCATCTGCCCCATCGAGCACGGCGTTCGCCACGTCGGAGGCCTCCGCGCGAGTCGGGCGGGAATTCTCAATCATCGAGTCGAGCATCTGCGTAGCGACGATCACCGGCTTCGCGTTCTCGCGCGCGATCTGGATTACGCGCTTTTGCACGAGCGGCACCTGCTCGAGCGGGATCTCCACGCCCAAGTCGCCGCGCGCCACCATCACCGCGTCAAACGCCAGAATGATGGACTCGAGCGCGTCGACAGCCTCGGGCTTTTCCAGTTTCGCAATCACCGGCACGCGACGACCCACCTCGTCCATCACCTCGTGCACCAGATCCACATCCGACGGCGAGCGCACGAACGACAGCGCGATGAAATCGACGCCCAAGTTGAGCGCGAACTTGAGGTCCTCGATGTCTTTCTCGCTCAGCGCCGGGACGGAGATGTTCATCCCCGGCAGGGACACGCCCTTGTTGTTGGACACCGGCCCGCCCTCGGTGACGCGGGCGACGACGTCGTTGCCATCGACCTCGGTGACCACGAGTGCGACCTTGCCGTCGTCGACAAGCAGGCGATCGCCCGGCTTCGCGTCCTCCGCGAGCTGCTTGTACGTGGTGGAGACGCGGTCGTGTGTGCCCACGACGTCCTCAACGGTGATGCGGACCTCTTCTCCGGTGTCCCACTGCGTGGAGCCCTCCTCGAAGCGGCCGAGGCGGATCTTCGGGCCCTGTAA	MVRNRPLRVARVLAQLVDVDRVRRATDSGRGAGDDHHRVALAVGSDAEQVLVDQPDHLISAVGLRAQEGLRAPRQRQLRAHLLHRGEYQQRVVRVQASDAARGVAGLGKRHDRARVQARCDVVRGVRDHAALGARDVVERWDGAHRLRYPHDAAHRAHDVVRVNTDGGLAGQHHRICPIEHGVRHVGGLRASRAGILNHRVEHLRSDDHRLRVLARDLDYALLHERHLLERDLHAQVAARHHHRVKRQNDGLERVDSLGLFQFRNHRHATTHLVHHLVHQIHIRRRAHERQRDEIDAQVERELEVLDVFLAQRRDGDVHPRQGHALVVGHRPALGDAGDDVVAIDLGDHECDLAVVDKQAIARLRVLRELLVRGGDAVVCAHDVLNGDADLFSGVPLRGALLEAAEADLRAL				NA	NA	NA	NA	NA
AK009_08991	225			hypothetical protein	GTGGCCGGTTTCGTCGGTGGCCTCGCGCACCCACCGGTAGTTGCGTTCGTGGTCCGCGTGGTCGCCGTGGGAGAAGTTGAGGCGAGCGACGTTCATTCCATCACGGACAAGACCGACGATAGCTTCCTTGCTGGCCACGGCTGGGCCAAGCGTACAAACAATTTTGGTTCTTCTATCCACTTCGTGCACCAGCTTCGCTCGAGGTTCAATAAGTGCGCGGCTTAG	MAGFVGGLAHPPVVAFVVRVVAVGEVEASDVHSITDKTDDSFLAGHGWAKRTNNFGSSIHFVHQLRSRFNKCAA				NA	NA	NA	NA	NA
AK009_08992	669			hypothetical protein	GTGGCCGAGGCGCCAGGCCCGCTCGGCCCAGAGCAGGAAGGCGAACACGGCGAGGTTCCACACCAGCTCGTAGAGGAACGTGGGGTGCACGCTGGCCACGATCTCGCCGGTGGAGCGGCCGGTCAGCGGGGCGTAGTTACCGGCCTCGTCCACGCGGTAGTAAATGTCCAGCGCCCACGGCACGTCCGTCGGCCGGCCGTAAAGCTCCTGGTTGAACCAGTTGCCGAGCCTGCCAATGGCCTGCGCGAGAATGATCGTCGGCGCGACCGCGTCCGCAAACGGCGCGAGCGGGACCTTCTTGTAGCGAAACAGCGCCCACACCGCGAGCGTGCCCAACGCCACCGCGCCGAGGATGCCCAGGCCGCCGCCGGCGACGTTGAACGCCTGCCACGGATCGCGCCCCGGGCCGAAGTACTTGTCGTAGTCCGTGATCACGTGATAGAGGCGCCCGCCGATAATTCCGGCTGGGATTGCGACGATCGCCGCGTCCCACACCACGTCCGGGTCCCCGCCCTTCGCCTTGTAGCGCTTCAGCGTCAGCCACAGGGCGATGATGATGCCGGTGATGATGCACAGCGAGTAGGCACGGATGGGCACGGGCCCGATGTGCCAGACGCCCTGCGGCGGCGAAGGGATGTTGGCCAGGATCATGGTTTCCACGCCCATTAG	MAEAPGPLGPEQEGEHGEVPHQLVEERGVHAGHDLAGGAAGQRGVVTGLVHAVVNVQRPRHVRRPAVKLLVEPVAEPANGLRENDRRRDRVRKRRERDLLVAKQRPHRERAQRHRAEDAQAAAGDVERLPRIAPRAEVLVVVRDHVIEAPADNSGWDCDDRRVPHHVRVPALRLVALQRQPQGDDDAGDDAQRVGTDGHGPDVPDALRRRRDVGQDHGFHAH				NA	NA	NA	NA	NA
AK009_08993	828	trpC_2	COG0134	Indole-3-glycerol phosphate synthase	ATGCATACGGCAAAAGTCGCGAACGGCGTTGTCGCCGCCGTGTTGCGTGACGTCGAAAAGCGTGAAGCCGTCGTCCCTTTTCAAGACATCAAGGCGCGCTCGCGGGAGATGGAGCCGACCCGTGATGTGCGTGCCGCGCTGTTGCGCCACGGTTGCGGGGTGATCGTCGAGATCAAGCGCAACTCGCCCGTCTTCGGCCCGACGGCCCCGTTCGCCCAGAGCGAAACCCCTGTCGAGGATGTGGCCCGTGCGATCGAGGCTGGCGGCGCGCATCTTATCGCCTGCCAGACCGAGCGGCTGCGTTTCGACGGCTCCCTGACCGACATGGCGAACGCCCGCGACGCCGTGGACCTTCCCATGGTGTGCCGCGATGTGATCGTCGACCCGTACCAGATCCACGAGGCCCGCTGCTTTGGCGCCGACATGATCCCCTTACAGGTAGGCATCCTCGACCAAAACCGGCTCGAGGCGCTGATAGACCGCGCGGAGTCCTTAGGCATGGTGGTGATGGCGGAAGTACGCACCGGCGAGGAGGCCGACCGGGCGCTGTGCGCCGGCGCCACCGTCATCGCCGTGAACTCCTGGACCTTCGATACCAACTCCCTCAACCCCGCTGCTTTCGCTGAGATTGCACCGGGGTTGCCGTCTGCTGTGATCAAGATCAGCCTCGGCGGGGTGCGCACCGCCCGCGATCTCATCGACGCCGCCTCTTCCGGCGCCGACGCCGTCTTGGCTGCTGAGGCCGTGATGAGCTCCGACGATGTCACCGCAGCGACGCGCCGGCTCGCGGCAGCGGGCCAGCACCCGGCCTGCCCCTCGCGCAGCTAA	MHTAKVANGVVAAVLRDVEKREAVVPFQDIKARSREMEPTRDVRAALLRHGCGVIVEIKRNSPVFGPTAPFAQSETPVEDVARAIEAGGAHLIACQTERLRFDGSLTDMANARDAVDLPMVCRDVIVDPYQIHEARCFGADMIPLQVGILDQNRLEALIDRAESLGMVVMAEVRTGEEADRALCAGATVIAVNSWTFDTNSLNPAAFAEIAPGLPSAVIKISLGGVRTARDLIDAASSGADAVLAAEAVMSSDDVTAATRRLAAAGQHPACPSRS	PGPT0007080_470	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
AK009_08994	681			hypothetical protein	ATGGCACAGCAAACAGCGGATAGGGGCGCCTCGCGCATTGGCGCAGCCGGCATCGGCGTGGGCGGGATCATCGTGGCGGCGTTTAGCCGCGCGCCGTGGATGCAGGTCAGCTACTTCGATGACCGCGTCGGCGGCGGGGTCCGCGCGCTGTCGGGGGCGCAGTGGTCCACCGAAGCCTCGGCGGTTGCGCTTCTTCTGCTGGCCGCTGCAGTCGCCGCGCTTGCTTTACGACGCCTCCCCCGACGCATCATCGGCGCAATCGCGGCCGTCGCCGCCGTGGGCGCGGCACTATCTCCGCTGAACCTCCTTGTTTCCGGCGCGGACCCCGAGCGGGTGCGCGCCCTGCTTACCGCCGGCGCCGAGGAGGCGCAGGCGCGCGAGGGCACGATCTCTGCCATGGCGGAGATAACCTCCATCCAGGTCAACCCCGCCTACCTGGTGTTGACGCTGCTCGGTTTTCTGCTCGCCGCGGCGGGCGGGGCGGCGGTGGCGGCGCGCCCCGGTGTGGATTCCGCGAAGCTGAACAAGTACGAAACCGAGGCGGTGCGCCGGCAGAAGATCGGTTCCGATCTCGAGGAGAACCCGGATTCGGGCAGGGTGTTGTGGGATGCGTTGGACGCGGACATCGACCCGACGGATCCGGCCGGTGGTGTTGGGGAGGGCGTCGATAAGCGGCGCTAG	MAQQTADRGASRIGAAGIGVGGIIVAAFSRAPWMQVSYFDDRVGGGVRALSGAQWSTEASAVALLLLAAAVAALALRRLPRRIIGAIAAVAAVGAALSPLNLLVSGADPERVRALLTAGAEEAQAREGTISAMAEITSIQVNPAYLVLTLLGFLLAAAGGAAVAARPGVDSAKLNKYETEAVRRQKIGSDLEENPDSGRVLWDALDADIDPTDPAGGVGEGVDKRR				NA	NA	NA	NA	NA
AK009_08995	921			IS3 family transposase IS3501	ATGATCCGGTTCATTGATGAGTATCGGAATCGTTTCTCAGTCGAGTTCATCTGCCAGACGTTAAACATCCACCGTGAAGGCGGCTTCCTTACTTCGCGTGGGTACCGCCAGTCTAAAGCCCGGGGCTTAAGCTCCCGCAGTCTTCGCGACGCTGCTCTCGTGGAGCATATTCGCGACGTTCATGCTGAAAATTACGGCGTCTACGGCGTGCGGAAGATGTGGCGCGTGCTGCAACGCCAGGGCATTGACATTGGACGCGAGCAAACAGCCCGGCTGATGCGCAGCGCTGGTCTGTCCGGCAAGGGCAAAGGCAGAGCACCAATCACGACGCGTAAGCCCAAGGGCCCGGATCTTCGCCCAGACTTGGTAAATCGTGAGTTTAGGGCTCCTGGCCCTAATCGGCTGTGGGTGGCGGACATTACTTATGTGCGCACCAGGAAAGGGTTCGTGTACACCGCGTTCGTGACCGATGTATTCTCCCGGAGGATTGTCGGGTGGGCGCTGTCGGATTCGATGCGCACCGAAGCCTTGCCGCTGCAGGCGCTCAATCAGGCGATCGTGTGCGCCAAGGAAACAACGGGCTTGATTCACCATTCAGACCACGGCTCACAATATGTGAGCATCGTCTACAACGAGCGCCTGGCTGAGCACGGAATTACTGCGTCTACCGGCACTGTTGGTGATTCCTACGACAATGCTTTGGCTGAGAATGTCAACGGCTCCTACAAGAACGAACTGATCCATAGGCGCTCGTGGGCCGACGTGGTCGACGTGGAAATCGCCACGTTCGAGTGGGTTAACTGGTGGAACGAATCACGGCTCCACCAGAGCTTGGACTACCGCACCCCGGCTGAAGTCGAAGCCGAATTTTGGGAACACCACCCCAGTCGAGAAATAATGGAAATCAAGGCAAATGCCTAG	MIRFIDEYRNRFSVEFICQTLNIHREGGFLTSRGYRQSKARGLSSRSLRDAALVEHIRDVHAENYGVYGVRKMWRVLQRQGIDIGREQTARLMRSAGLSGKGKGRAPITTRKPKGPDLRPDLVNREFRAPGPNRLWVADITYVRTRKGFVYTAFVTDVFSRRIVGWALSDSMRTEALPLQALNQAIVCAKETTGLIHHSDHGSQYVSIVYNERLAEHGITASTGTVGDSYDNALAENVNGSYKNELIHRRSWADVVDVEIATFEWVNWWNESRLHQSLDYRTPAEVEAEFWEHHPSREIMEIKANA				NA	NA	NA	NA	NA
AK009_08996	318		COG2963	Insertion element IS6110 uncharacterized 12.0 kDa protein	ATGCCGAAGAAGTTTGATCAGGAGGCGAAGGACCGAGTCGTCCGCTTGGTAGAAGATCGCATTCTGGCGGAGAATATTTCGACGCAGGAAGCATGCAAGATCGTGGCACCCAAACTGGGCGTTTCGTGGCACACAGCGAGGCAATGGACGCAGGCCGCTCGACGTGAGGGACGCGTTACTGAACGGTTGCCTGAGGACCTTGTGGCAGAGGTCGCCAAGCTGCGTCGAGAAAATCAAGAGCTGCGGGACACCAACGAGTTGTTGAAGGCCGCTTCGGCTTTTTTCGCGTCGGAACTCGACCCGAAACGTCGGAAATGA	MPKKFDQEAKDRVVRLVEDRILAENISTQEACKIVAPKLGVSWHTARQWTQAARREGRVTERLPEDLVAEVAKLRRENQELRDTNELLKAASAFFASELDPKRRK				NA	NA	NA	NA	NA
AK009_08997	354	hisI_2	COG0139	Phosphoribosyl-AMP cyclohydrolase	GTGACGAACCCCGCCGAGTACACTCTCGACCCCGCGATTGCGGCGCGGCTAAAGCGCAACAGTGCAGGTCTTGTGCCCGCGATCGTTCAGGCTCACGGCACCGGGGAGGTGCTCATGATGGCCTGGATGGATGATCACGCGCTGGCCCACACCCTGGCTACGCGCCAGGGCACGTACTATTCGCGGTCGCGAGACGAATACTGGATCAAGGGTCTGACCTCGGGAAATACGCAGGAAGTAACCGGGGTGCGCCTCGACTGCGACGGGGACACCCTGCTTGTCACCGTCAAGCAGGTCGGCGGGGCGTGCCACACGGGGGACCGGACTTGTTTTGACGCCGACGCGTTGTTGTGA	MTNPAEYTLDPAIAARLKRNSAGLVPAIVQAHGTGEVLMMAWMDDHALAHTLATRQGTYYSRSRDEYWIKGLTSGNTQEVTGVRLDCDGDTLLVTVKQVGGACHTGDRTCFDADALL	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
AK009_08998	714			hypothetical protein	GTGGAAAATCGACGCCGCCAGCACCGCGTCAGCACCAGCCGAAACAGCGGGCGGGAAATGCGCCGCCTCGCCGGCACCTCCGGAAGCGATCACGGGAACGGTCACCGCCGCACGCACCTTCTCAATGAGCCCGATGTCAAAGCCCGCCTTGGTGCCGTCGCCGTCCATCGAGTTGAGCAGGATCTCACCCGCTCCGAGCTCCTCGCCCCGGCGCGCCCACTCGATCGCGTCGATGCCCGCCGAGCGGGTGCCACCGTGCGTCGTCACTTCAAAACCGGAGGGCTGGGGCGTCCCACCCTCCGGCACGCACCGCGCGTCGACGGACAGCACAACGCACTGGGCGCCGAAGCGCTCGGCAAGCTCGCGGATCAGGCCGGGGTTGGCGATCGCCGCGGTGTTGACGCTGACCTTGTCGGCGCCGGCGCGCAGCAGCTCCCGGACGTCGTCAACCGAGCGCACTCCCCCACCCACGGTGAGCGGGATGAAGACCTGCTCCGCGGTGCGCCGCACGACGTCGAGCATGGTCCCGCGGCCAGCTGTCGACGCGGTGACATCGAGGAACGTCAGCTCGTCCGCGCCCTCCTCGCCGTAGCGCTTGGCCAGCTCGACGGGGTCGCCCGCGTCACACAGGTTCTCAAAGTTGACCCCCTTGACCACGCGGCCGTTATCCACATCGAGGCAGGGAATAACCCGTATCGCGACACCCATCTTTGA	MENRRRQHRVSTSRNSGREMRRLAGTSGSDHGNGHRRTHLLNEPDVKARLGAVAVHRVEQDLTRSELLAPARPLDRVDARRAGATVRRHFKTGGLGRPTLRHAPRVDGQHNALGAEALGKLADQAGVGDRRGVDADLVGAGAQQLPDVVNRAHSPTHGERDEDLLRGAPHDVEHGPAASCRRGDIEERQLVRALLAVALGQLDGVARVTQVLKVDPLDHAAVIHIEAGNNPYRDTHL				NA	NA	NA	NA	NA
AK009_08999	561			hypothetical protein	GTGCTGGGTAGTCGACCCCATCGACGGCACCTCGAACTACTCATCCGGCAACCCGAACTGTTCGATTCTGGTCTCGCTGATTCTGAACGGGCAGCCGGTGGTTGCCGTGACCGATATTCCGCTGATGAATATGCGGCTGACCGGGGTGGATGGCTCGCCGGTGTACCTCAACGGCCAGGAGCTGCCGCCGATTGGCACGGACACGACCGCCGCGTCGCAGGTCGGGGTGGGCTCGGTGCGCTCGCCCGACTCCGAGCGCTTTCCAGCGGACGTGCGCCTGAACATGATCGCGACGCTGGCCGACACCGACTTGCGGCCACGTATCTCCGGGTCGGTGGGCGTGGACTTCGCGTTCGTTGCCCAGGGCATTTATCAGGCGGCGGTGAGTTTCTCGCCGCACCTGTGGGACAATTCCGCGGGCATTTTGCTGTCGCGCTGCGCGGGTGCTGTGGTGACCGGACCGGACGGGGAGCCGTGGACGATGGACGCCGTCGGAGTGATCGCTGGCACGCGCAGAGCGCACAAGATTGCGCTGAGCACGATGCGATCCGTTTCCTCTAA	MLGSRPHRRHLELLIRQPELFDSGLADSERAAGGCRDRYSADEYAADRGGWLAGVPQRPGAAADWHGHDRRVAGRGGLGALARLRALSSGRAPEHDRDAGRHRLAATYLRVGGRGLRVRCPGHLSGGGEFLAAPVGQFRGHFAVALRGCCGDRTGRGAVDDGRRRSDRWHAQSAQDCAEHDAIRFL				NA	NA	NA	NA	NA
AK009_09000	708			hypothetical protein	GTGCTCGTAGAGCGCCTTACCGATGATGACCGAGTCGATCCCCTCCTGCGCGAACTGCGCAATCTCGAGCACATCGCTTATCGACGACACCCCGCCACTCGCCGTAACAAAAGCGTCAGTTGCCGCCGACACATCCCGCAGCAGATCCACGTTCGGCCCGGTCAGCGTGCCGTCTCGGCTGACGTCGGTGACCACGAAGCGCGCGCACCCGGCGGCGTCGAAAAACTCGACGACCTCCCACAGGTCCCCGCCGTCGGAAGTCCACCCGTGGCCCTTGGTGCGCCACTGGCCGTCTTCCTCGCGCACCGCGATGTCGATGGCAATCGCGTCGCCGTGGCGCTTGATCGCGTCTGCCGTCCACTGCGGGTTGTTCAGCGCTGCGGTCCCGATGTTGACCCTCTTCGCACCGGTGGCGAGGGCGCGTTCGAGGGAGGCGTCGTCACGAATGCCCCCCGTCAGCTCCACGGCGATGCCGAGGTTTCGGGTGATCTCAGCCATCAGCTCGTGGTTGGAGCCGCGACCGAAGGCGGCGTCGAGGTCCACGAAATGCAGCCACTGCGCTCCCTCGTCGCGCCACCGCTCGGCGGCCTCGAGAGGAGAGCCGTAGCTCTTTTCGGTTCCGGCCTCGCCCTGGTCGAGGCGCACCGCTTGGCCGTTGACGACGTCAACGGCGGGGAGAAGTGTGAAACTCATAGCGACCAAGTCTAA	MLVERLTDDDRVDPLLRELRNLEHIAYRRHPATRRNKSVSCRRHIPQQIHVRPGQRAVSADVGDHEARAPGGVEKLDDLPQVPAVGSPPVALGAPLAVFLAHRDVDGNRVAVALDRVCRPLRVVQRCGPDVDPLRTGGEGAFEGGVVTNAPRQLHGDAEVSGDLSHQLVVGAATEGGVEVHEMQPLRSLVAPPLGGLERRAVALFGSGLALVEAHRLAVDDVNGGEKCETHSDQV				NA	NA	NA	NA	NA
AK009_09001	603			hypothetical protein	ATGGAACTGGGTCGCCCACAGCGGCCCGTTTTCCACGGCGGCGACGAAGCGGTCCCCGCCGTGCTCGGACCACGACACAGCCGGCGCGGCGATGAACTCGTCCGGCTGCATCTCCCACGACCGTACGCCGTAGGAGTGCACGAAGTAGAACCGCGTCTCCGGGTCCAACCCGGCGAAAAGCTCCGAACCCGGCGCAATGTCCACGGTGTTCCACCCCATGTGCGGCAGCACTTTCGCCTGCAGCTTATCGACGACCCCGGGCCACTCCCCGATCCCCGAAGCGTCCACCCCGTGCTCGACGCCGCGCTCAAAAAGCACCTGGAAACCGACGCAGATCCCGAGCACGGGGCGAGAGCCCGCGAGGCGCTGGCCGATCACGCGCGGGGCGTTGACAGCGCGCAGCCCCTCCATGCACGACGCGAACGCGCCGACGCCGGGGACGACGAGCCCATCGGCGTCGACGGCCAGCTTCGGGTCGTCGGTGACGGTGACGCTCGCCCCGACGTGCTCGAGCGCGCGCTGGGCGGAGCGGATGTTTCCGGCTCCGTAGTCGAGCAGGACGACGGATGGCGATGTCGGTTGCGTCATGTCGAATTAGTTTAG	MELGRPQRPVFHGGDEAVPAVLGPRHSRRGDELVRLHLPRPYAVGVHEVEPRLRVQPGEKLRTRRNVHGVPPHVRQHFRLQLIDDPGPLPDPRSVHPVLDAALKKHLETDADPEHGARAREALADHARGVDSAQPLHARRERADAGDDEPIGVDGQLRVVGDGDARPDVLERALGGADVSGSVVEQDDGWRCRLRHVELV				NA	NA	NA	NA	NA
AK009_09002	867			hypothetical protein	ATGGCGATGTCGGTTGCGTCATGTCGAATTAGTTTAGCGGCCCGGGCGCTTGTACCCGCGGTCCCTCCCGGGCGCGCGCACGGACTTCAGCCTCACGGCCAAGTTGTTGACCTCCGCGACGCGGTTGCGCCCGAGCACGAGGTCCGCCACGGTCACCGCGATGCCGACCGCGACGACCACGCCGGCAACGCCAAACATGGGCGCCATCGTCATCGACGTGAGCATCATGCCGTAGACGGTCGAACCGAGGCCGGTTCCGCTGTCGAAGGCGACGTTCCACATTGCGGAGGCCTCGGAGGCCTTCGACTTGGGAAGCCGGTAAAACAGCATGGTCAGCGATTCGTTTTGTACGGCGCCGAAGCCCGCGCCGTACAACAGCGCGGCGAGCAGCAGCCACCACACGCTGGCTTCGGCCCAGATAACGGCCGCGATGATAAAGATGCCTGCCGCGGCGGAGACCTGGAACGGAATGAGCACCGTGCCCGGCACCCCGCGCCTATCAAGGACCGCACCAGCGTAGTAACGCGAGAACATCGCCGCGAAGTTCATCACCGCCAGCAGCACACCGCCGAAGGCGGCGCCGGCCGTGGGGTCGAGTTCGCGCACGCTGATTGGCAGGAAGTTCGTCACCGCCCCGTAGGCGGTGGTGACCAGCGCCAGCGCGATCATGGGCACCGCCACAAGCCGCCACAGCGGCACCCGCACGGAGCTCAAGTCCGCTGTGGTGGGGTCCGCCGCGGGGATGGTCGGGATGCGCACGCACACAACCAGGCCGATCAGGCCGATGGCGGCGGCGAGGACGTAGACCGGCTCGTAGCCCACCCGATCCGCCAAGGCCAGGCCGGACGGCAGAGCGACCATCTGTGA	MAMSVASCRISLAARALVPAVPPGRAHGLQPHGQVVDLRDAVAPEHEVRHGHRDADRDDHAGNAKHGRHRHRREHHAVDGRTEAGSAVEGDVPHCGGLGGLRLGKPVKQHGQRFVLYGAEARAVQQRGEQQPPHAGFGPDNGRDDKDACRGGDLERNEHRARHPAPIKDRTSVVTREHRREVHHRQQHTAEGGAGRGVEFAHADWQEVRHRPVGGGDQRQRDHGHRHKPPQRHPHGAQVRCGGVRRGDGRDAHAHNQADQADGGGEDVDRLVAHPIRQGQAGRQSDHL				NA	NA	NA	NA	NA
AK009_09003	189			hypothetical protein	ATGCCGCAGGAGTTCAGCGTGGCCAGCGGAATGTGGGTGCTGATCAGCTTCCTTATCGCCGGGTTGCTTCTCGGCGGGGTGTGGTCGGCCTATCAGAGCGGGTCGAAGGTGGCCACGGTCGTGCTCGCCATCGCCGCCGCGGTGGCGCTGTGTGTCGCTGTACTGTCCATGCTGGGCGCAGTGGGGTAG	MPQEFSVASGMWVLISFLIAGLLLGGVWSAYQSGSKVATVVLAIAAAVALCVAVLSMLGAVG				NA	NA	NA	NA	NA
AK009_09004	504			hypothetical protein	GTGGTGCGGGTCGCGCCCGTAACGCACGTTAACGTGCAGCGTCACGCGCGCGTTGTACGCGAGCGTTTCAAAGAAGTGGCGGTTGATCACCGTGGCGTAGTGCCCGCCGATGATCTGCCACTGCAGGTGGTCGGGCTCGCCGTTCATCACAAAGTAGGGCCGGCCGGAGAAGTCGACGACGGATTCCACCAGGGTCTCGTCCATGGGCAGCAGGGCGGAGCCGAAGCGGCGGATGCCCTGCTTGTCGCCGACGGCGTCGGCAAGCGCCCAGCCGAGCGTGATCGCGGTGTCTTCGACGGTGTGGTGCGCATCAATGTGGGTATCGCCCTCAGCTTTTACCGCGAGGTCGAAGGCGCCGTGCGTGCCGAACGCGGTGAGCATGTGGTCGAAGAACGGCAGGCCGGTGGAAATATCCGTCTTGCCCGACCCGTCCAGGTTGATCTCGACCGTGATGTTGGACTCGCTGGTGGTCCGAGAGGCGCTACCGAGCCGCTGACTCATTGA	MVRVAPVTHVNVQRHARVVRERFKEVAVDHRGVVPADDLPLQVVGLAVHHKVGPAGEVDDGFHQGLVHGQQGGAEAADALLVADGVGKRPAERDRGVFDGVVRINVGIALSFYREVEGAVRAERGEHVVEERQAGGNIRLARPVQVDLDRDVGLAGGPRGATEPLTH				NA	NA	NA	NA	NA
AK009_09005	1050			hypothetical protein	GTGGCCTGCGACACCGACGTCGCGGATGAGAACACCGTAGCCGAGGAACTTTTCCCACGCCTCATGCGCGTCATCGAAATGCCCGAAGAACAGGAAGTTCGACTCGCTGGGCACGACGGAATACCCCATCTCCAAAAGCGCCGCCTGCACCCGCTCACGCTCGCGCGCAAGCTTATCGACGCCCGCCAGTGTCTCCGCACCATGGCGCAGCGCCACCCGCGCCGCAGCCTGGGTGAGCACGGACAGGTGGTAGGGCAGGCGCACGAGCATGACCGCCTCGATAAATGCCGGGGCCGCCACGAAGTAGCCCAGGCGCGCGCCCGCGAAGTCGAACGCCTTGGACATGGTGCGGCTGACCACCAGCTTCGTCGGGTAGCGCTCCACCAAGCTGACCGCCGATGGCGAGGGGGAAAACTCGGCGTAGGCTTCGTCGACGATGACGATGCCCGGCGCGGCGTCGATGATGCGCTCGATGGCGGCGAGCGAGGTGACATCTCCGGTGGGGTTATTCGGGGTGGTCACGAACACGATGTCCGGCTGGTGCTCGGCGATGGCTTGAAGCGCCGTGTCCATGTCGATGCGGAAGTCCGGGCCGCGCTCCACCCCGATGAACTCGGTTTGGGTCCCGCTGGACAGGATGGGGTGCATGGAGTAGCTCGGGGTAAAACCCATCGCTGTGCGCCCCGGCCCGCCGAAGGCTTGCAGCAACTGCTGGAGCACCTCGTTGGAGCCGTTGGCCGCCCACAGGTTGTCGCGGGTGACGGCCACGCCCGTTTGGCGGGTGACGTAGGCCGCGAGGTCGGTGCGCAGCTCGACGGCGTCGCGCTCCGGGTAGCGGTTCAGCGTGGGGCCGAACTTGGTGATTTCGGCCACGAGGTCATCGATAAGCTCCTGCGATGGCGGGTAGGGGTTTTCATTGGTGTTCAGCGCTACGGCGACGTCGATCTGGGGTGCGCCGTAGGCCTGCTTGCCGCGCAGCTCCCCGCGCAGGGGAAGCGCGTCGATGGCCGTGTCCGCGGCGATGGTGTTGTCGAGGAAGTCCACTTGTGA	MACDTDVADENTVAEELFPRLMRVIEMPEEQEVRLAGHDGIPHLQKRRLHPLTLARKLIDARQCLRTMAQRHPRRSLGEHGQVVGQAHEHDRLDKCRGRHEVAQARAREVERLGHGAADHQLRRVALHQADRRWRGGKLGVGFVDDDDARRGVDDALDGGERGDISGGVIRGGHEHDVRLVLGDGLKRRVHVDAEVRAALHPDELGLGPAGQDGVHGVARGKTHRCAPRPAEGLQQLLEHLVGAVGRPQVVAGDGHARLAGDVGREVGAQLDGVALRVAVQRGAELGDFGHEVIDKLLRWRVGVFIGVQRYGDVDLGCAVGLLAAQLPAQGKRVDGRVRGDGVVEEVHL				NA	NA	NA	NA	NA
AK009_09006	1515			hypothetical protein	GTGAGTTTCTCCTTAGATTCCGCGGGCCTTGATGGCCTCGCCGTGGGCGGGAAGCTGCTCGTCGGCGGCGAGGACGACGATGTGGGAGCCGATCTCCTTGAGCGCCGCCTCGTCGTATTCGATGAGGTTGACCGGTTTGAGGAAGGTGTGCGTGGACAAGCCCGCCGCGAAACGCGCCGTGCCCGAGGTCGGCAGCACGTGGTTCGAGCCCGCGGCGTAGTCACCAAGTGGCACCGGCGAGTAGGGGCCGACGAAGATCGCCCCGGCGTTGGTCAGCCGCTCCGCCACCGCGCGGGGGTTTTCGGTGTGGACTTCGGTGTGCTCGGAGGCATAGGCGTCGGTGACGGCGATGGCGGTTTCGAGGTCGTCGACAAGCACGATGCCCGACTGCCTGCCGCCGAGCGCCGAGGCGGCCCGCTGCGCATTGAGGGTTTGTCCGGCGAGACGCTCGACCTCCGCGCGCACGGCGTTGGCGAGCTCCTCGGACGGGGTGATGAGCACGCTCGCGGCGTTTTCGTCGTGCTCGGCCTGGGAGATGAGGTCGTAGGCGACGAAGGTGGCGTTGGCGGTGTCGTCGGCAAGCACCGCAATCTCGCTCGGACCGGCCTCGGAATCGATGCCGACGACGCCGTTGACCAGGCGCTTTGCCGCGGCGACGAAGACGTTGCCGGGGCCGGTGACCATGTCGACCGGCTCGAGGCCGAACTCGTCGTCGCCGTAGGCCAGAAGTGCGATCGCCTGGGCCCCGCCGACGGCCCACACCTCGGTCACGCCGAGCAGCGAGCAGGCGGCCAGGGTGGTCGGGTGCGGCCAGCCGCCGAACTCCTCCTGCGGCGGGGTACACACCACCATCGACGTCGCGCCCGCCTCCTGGGCCGGAATGACGTTCATGAGCACGCTCGACGGGTAGACGGCCTTGCCGCCGGGCACGTAGAGCCCCACCCGCGCAATCGGGATGAACTTCTCCGTCACCGTCGCCCCCGGGGCCAGCTCGATCGTGCTTGTCGACGGCTTCTGCGCAGCGTGGACTGTCCGAATCCGGCCAATCGCCACCTCGAGCGCCTCGCGCACCGCGGGGTCGAGGTTGGCCAGGGCGGCGTCGATACGCTCAGCGGGCACCCGCACCGACTCGGGGCGGATCCGGTCGAACTTCTCGCCGTACTCCAGCGCCGCTGTTGCGCCCCGCTTTTTGACGTCTTCGACGATGGGCGCAACTGTGGGCAGTACTGCGGTGACGTCGACGCCTCCGCGAGGCAGGGCGCGGCGCAGCTCGGAGGTGGAGGGGGTGCGCCCTCGCAGGTCAGTCACGTGCAACATCGTCGGCTCCTCGCAGCAGGGAAAAATCGGCTTCTCGGCCCCTCATTGTATTCCCCTGCCCGACACCGCCGGTTCTTTGCCCGCTTCGCGACGCCGCGTTGGCTTGCTTGGGGTCTTGTTGTTTGGTTTTGTGGGATGTCACGGTCAGGCAGCTGGCGGGGATGGCGACCTGGGGTTTTGCGGCGCGCTGTCGGTTGA	MSFSLDSAGLDGLAVGGKLLVGGEDDDVGADLLERRLVVFDEVDRFEEGVRGQARRETRRARGRQHVVRARGVVTKWHRRVGADEDRPGVGQPLRHRAGVFGVDFGVLGGIGVGDGDGGFEVVDKHDARLPAAERRGGPLRIEGLSGETLDLRAHGVGELLGRGDEHARGVFVVLGLGDEVVGDEGGVGGVVGKHRNLARTGLGIDADDAVDQALCRGDEDVAGAGDHVDRLEAELVVAVGQKCDRLGPADGPHLGHAEQRAGGQGGRVRPAAELLLRRGTHHHRRRARLLGRNDVHEHARRVDGLAAGHVEPHPRNRDELLRHRRPRGQLDRACRRLLRSVDCPNPANRHLERLAHRGVEVGQGGVDTLSGHPHRLGADPVELLAVLQRRCCAPLFDVFDDGRNCGQYCGDVDASARQGAAQLGGGGGAPSQVSHVQHRRLLAAGKNRLLGPSLYSPARHRRFFARFATPRWLAWGLVVWFCGMSRSGSWRGWRPGVLRRAVG				NA	NA	NA	NA	NA
AK009_09007	855			hypothetical protein	GTGCAGGTATCCGTCGAGGTCGAGCAGGTAGGCGCGCAGGCCCGCGGTTTGCTCGTTGAGGTCGTTGCAGATCAGCCACATGGCGAGGAACCCGTCCTCGCTGCGCTGGCCGGTGTCCCACATCGCGGTGATCCGGGCGTACTCGCCGGCATCGATGCAGACCGCGAACGCGATGGAGTTAACACCGGTGGTGATGAGGTCCTCGGCGGGGAAGTCGTAGGTGAAGTCGAGCATGTCCAACGTGTCCGTAAACGAATCCAAGTCAACGGGCTCAACAAACTCGTCGTCGACGTTGTCGTAAACGTCGGGCACGTCGTGGATGTCCGAAAACTGTCGGTGTTCGCCGCGCGGCAGGTGGCGCTCGGAGGGGTGGCGGCCCAACAAAGCGTCGGCGTCTTGGGCGCGCGCCAGCGCCGGCGGCAGCGGCTGGTCGAACTCGATAGGCAAGAAGCGTTGGCGCAGCTGGGTGGAAAAGGCCGCGGCGTGCTCGAAGGCGTCGGCAAGCTCGGCCATGAGCTGCTCGTCCGTGAGCCCGCAGCGCGTGCGCACCCCAGCGCGCAGGCTGACGGCGAGGTCGCCGGAATCCATCAGCCGGTACGAGGCGGTCGGCCCGACTCTATCGCGATTCCATTCGTTGATGAAGTCGGCCAGCTCCGCGGAGCGCTCGAATTCGGTGGGCACGCGTTCGGTGAAGTCGGCGACCAGCATCAGCGGCTTGTCGTAGGAGATCCACACCGTGCTCACGAACGCGTACGCAGGCACGACGGCGCGGTCCGGGCGGTCGGGATGGTACATCGGGCTCAGCCCGAGGCCGTCGAGGGCAGCGACGATGCGCTCGAGCGTGACCTCGGATGA	MQVSVEVEQVGAQARGLLVEVVADQPHGEEPVLAALAGVPHRGDPGVLAGIDADRERDGVNTGGDEVLGGEVVGEVEHVQRVRKRIQVNGLNKLVVDVVVNVGHVVDVRKLSVFAARQVALGGVAAQQSVGVLGARQRRRQRLVELDRQEALAQLGGKGRGVLEGVGKLGHELLVREPAARAHPSAQADGEVAGIHQPVRGGRPDSIAIPFVDEVGQLRGALEFGGHAFGEVGDQHQRLVVGDPHRAHERVRRHDGAVRAVGMVHRAQPEAVEGSDDALERDLG				NA	NA	NA	NA	NA
AK009_09008	540			hypothetical protein	ATGAAGTTTTCCACCGGGGCCGGCGCTGCGGCGGCCCTCCTCATGCTCGCTCTGGGCCTGGGTTCCGTCGCCGGGGCCGTGTGGGGTCTTACCCGGCCGGGTTACGTGGGGACGTTGAGCGAAGGCTCCTACGTTGTCGACGAGGTCGCGAGCCCACCCAGCGTCGAGTTCGCCTCGCTCGGCGGGTTCGTTCTGGTCAGCGCTGTGCTGGGGCTGATCATCGCGATCTTCGCTTTCGCGCGCGGCCTCGTCGGGTTGCGCGCTCTATTGTGGGTGATTGTGTGCGCGGCCGCCGCGGCCTTCGCGGTGCATACCTTCGGCAGCTGGTCCGCGGCCTTTACCCACCCCTCGCCCCATGACGCCACGCTAGCCAACGGCGATGGGTTCAGCGTCGTGCCCCCGCTAAACCCCGGCATGGGCTGGCTCGCTGGGCCGTTCGTCGCGGCGTTGATGTTCTACCTGCTCACGGCCGCCTCTGAGCTGCAGGCCGCCCAGCGCGACGTGCCGGCCGTTAGCCCTCAGCCCGCCCCGGCCAATTAA	MKFSTGAGAAAALLMLALGLGSVAGAVWGLTRPGYVGTLSEGSYVVDEVASPPSVEFASLGGFVLVSAVLGLIIAIFAFARGLVGLRALLWVIVCAAAAAFAVHTFGSWSAAFTHPSPHDATLANGDGFSVVPPLNPGMGWLAGPFVAALMFYLLTAASELQAAQRDVPAVSPQPAPAN				NA	NA	NA	NA	NA
AK009_09009	321			hypothetical protein	ATGCACGCGGCGCTCAACCCGCCGAGCCCGGAAAAGTGGACCCGCGTACTGATGGAAAATTCCTGCCGCAAGGTGACGGAGCCGGTGCAGGAGGAGATGAACCGCTCGGGCTACACCCTGGACCAGATTGAGCAGGCGGCGCGCCTGCAGGCCCAGGCCGGCCAGGCGGTTACGGTGCCGCAGAGCACGGTGTCGCTTACCGACGCCAAGGTTGACGGCAACCGGGCGTCGGCCACCGCGACGGTGACCAACCAGAACGGCAGTGAAGAGCAGACCCTGATTTTCGAGCGCGAAGACGGGCGCTGGAAGCTCTGCAACTAA	MHAALNPPSPEKWTRVLMENSCRKVTEPVQEEMNRSGYTLDQIEQAARLQAQAGQAVTVPQSTVSLTDAKVDGNRASATATVTNQNGSEEQTLIFEREDGRWKLCN				NA	NA	NA	NA	NA
AK009_09010	567			hypothetical protein	TTGGCTCATCGCGGTGGTGACAACCTCCGCGCCGTCGCGGTGGCGAAGCAGGGTTTCGCGCAGTTTCGCGCACAGTGCCGCGGGGCTGGGGGCGGCGTGGGGTGGGGCGTCGATAAGCGGGGCGATGATGAGCGTGGCGATTCCCGCGATGAGTTCCTGCTTGTTGCTGATGTGCCAATACAGCGCGCCGGGGGCGACCCCGAGGGCGGAGGCGACGCGGCGCATGGTCACGTCCGCCAGGCCGTATTCGTCGAGGATGGCCAAGCCCTGGCGGCTGATCGACTCCCGAGACAACGGCGGATGCATGCTTGTCGACATTACCCAGACGACCACGGCACTGTGATTCTCACAGCAACTTCTCAAACATCTGTCACTGATGGCCCACAGCCCACTAAGCAATGCGTTGTTAGTATTGACAAAGCCACAAAAGCGGTAAACGGCCACACAATGCATTTTTGCGAGGAGAGTTGTAGTAGTGATGTTTCCAACCGGTTCCCACAAGGTAGCCGCGACAACTGTCGCACTGGCCGCCGCCTCTATCTCACTCACCGCCTGCGGCTCCGATGA	MAHRGGDNLRAVAVAKQGFAQFRAQCRGAGGGVGWGVDKRGDDERGDSRDEFLLVADVPIQRAGGDPEGGGDAAHGHVRQAVFVEDGQALAADRLPRQRRMHACRHYPDDHGTVILTATSQTSVTDGPQPTKQCVVSIDKATKAVNGHTMHFCEESCSSDVSNRFPQGSRDNCRTGRRLYLTHRLRLR				NA	NA	NA	NA	NA
AK009_09011	1845			hypothetical protein	GTGCTGCTTGCGAATCGCGATGAGACGGCGCGTGAAGTCGTGCAGCTCCTCTGCCTCCTCGAGGCGGTCCCAGTTCATCCAGGCGATCTCGTTGTCCTGGCAGTACACGTTGTTGTTGCCGCCCTGGGTGCGCGCGAACTCGTCGCCGTGGGCGATCATCGGCGTGCCCTGGGAGAGCAGCAGGGTGGTCAGGAAGTTGCGGCGCTGCTGGGCGCGCAGCTGCAAAATCTCCGGGTCGTCCGTGGGGCCCTCGACGCCGCAGTTCCACGAGCGGTTGTGGCTCTCGCCGTCGCGGGAGTCCTCCATGTTCGCCTCGTTGTGCTTCTCGTTGTAGGACACGAGGTCGTTGAGGGTAAACCCGTCGTGGGCGGTGATGAAGTTGATCGACGCCGTCGGGCGGCGCCCGTTGTGCTGGTACAGGTCGGAGGAGCCGGTCAGCCGGGAGGCGAACTCGCCGAGGGTGGAGGCCTCGCCGCGCCAGAAGTCGCGCATGGTGTCGCGGTACTTGCCATTCCACTCGCTCCACAGCGCGGGGAAGTTGCCCACCTGGTAGCCGTTTTCGCCCACGTCCCACGGCTCAGCTATGAGCTTGACCTGGGAGACGATCGGGTCCTGCTGAACCAAGTCGAAGAAGGTTGCAAGGCGATCCACGTCGGAAAACTCGCGCGCCAGCGTCGAGGCGAGGTCGAAGCGGAAGCCGTCGACGTGCATCTCCGAGACCCAGTAGCGCAGCGAATCCATGATCAGCTGCAGGGAGTGCGGGTCGCGCACGTTGAGCGAGTTGCCGGTTCCGGTGTAGTCCATGTAGTGGAACTTGTCGCCGTCGACAAGCCGGTAGTAGGCCTCGTTGTCGATGCCGCGGAACGCGATCGTCGGGCCCAGGTGGTTGCCCTCGGCGGTGTGGTTGTAGACCACGTCGAGGATGACCTCCATGCCGGCCTCGTGGTAGGCGCGGACCATGCCCTTGAACTCGGCGACGACGTCGCTGGGCTTTTCCGACGACGCGTAGTCCTGCTGCGGGGCGAAGAAGCCAAACGTGTTGTAGCCCCAGTAGTTACGCAGGCCAAGGTCGCGCAGGCGGTCGTCCTGCAGGAACTGGTGGACGGGCAGCAGCTCGATGGAGGTCACCCCGAGGTCTTTGAGGTAGTCGATCACCGCCGGGTGCGCCATGCCGGCGTAGGTGCCGCGCAGGTTCTCCGGCACGTCGGGGTGGGTCTGCGTCATGCCCTTGACGTGGCATTCGTAGATCACGGTTTCCTCGTCCGGGATGCGCGGGGAGCGGTCATCGCCCCAGTCGAAGAAGGGGTTGATCACCACAGAAAGCATCGTGTGGCCGAGCGAGTCTTCCTCGTTGCGGCCGGTGCCGGGCTCTTCGGCGTGGATGTCGTAGGAGAACAGGGAGGAGTCTTGGTCGAACTCGCCGGCGAAGGCGCGGGCGTAGGGGTCAACCAGCAGCTTGGTCGGGTCGCAGCGCTTGCCGTTGTGCGGGTCCCAGGGGCCGTGGACGCGGTAGCCGTAGCGCTGGCCAGGGGTGATGCCGGGCAGGTAGGCGTGCCACACGAAGTTGTCGACTTCCTCGAGCGCGACGCGCGTTTCCGCGCCCTGCTTGTCAATCAGGCACAGCTCAACTTTGTCGGCGACAGCCGAAAAGAGTGCGAAGTTGGTGCCGGCTCCGTCGTAGGTCGATCCAAGGGGGTAGGCCGAACCGGGCCACACCACAACGTTCTCATCAGTCATGGGAGCCAATCGTATCGCAGGCGCGGACGTTGCTCGCGCGCTGCGGGTCGGCCCTGGCACGCTAGGGTTCGGTCGGCGGCGGTGAGCTCGCGTCGAGAAGGCCCGTGA	MLLANRDETAREVVQLLCLLEAVPVHPGDLVVLAVHVVVAALGARELVAVGDHRRALGEQQGGQEVAALLGAQLQNLRVVRGALDAAVPRAVVALAVAGVLHVRLVVLLVVGHEVVEGKPVVGGDEVDRRRRAAPVVLVQVGGAGQPGGELAEGGGLAAPEVAHGVAVLAIPLAPQRGEVAHLVAVFAHVPRLSYELDLGDDRVLLNQVEEGCKAIHVGKLARQRRGEVEAEAVDVHLRDPVAQRIHDQLQGVRVAHVERVAGSGVVHVVELVAVDKPVVGLVVDAAERDRRAQVVALGGVVVDHVEDDLHAGLVVGADHALELGDDVAGLFRRRVVLLRGEEAKRVVAPVVTQAKVAQAVVLQELVDGQQLDGGHPEVFEVVDHRRVRHAGVGAAQVLRHVGVGLRHALDVAFVDHGFLVRDARGAVIAPVEEGVDHHRKHRVAERVFLVAAGAGLFGVDVVGEQGGVLVELAGEGAGVGVNQQLGRVAALAVVRVPGAVDAVAVALARGDAGQVGVPHEVVDFLERDARFRALLVNQAQLNFVGDSRKECEVGAGSVVGRSKGVGRTGPHHNVLISHGSQSYRRRGRCSRAAGRPWHARVRSAAVSSRREGP				NA	NA	NA	NA	NA
AK009_09012	225			hypothetical protein	GTGCTCGTCGTCGGTGTCTATCACCGGCGGCTCAATCTGCTTGAGCACCACCGTGGAGCGTGCCGGGACGATGATGGTCGCGCCCGCGTCAAGCGCATCCTGGTCCGCCGGGTAGCCCAGAGGCTCGGTGGTGTCGATGAGCACCTCCCACTTCGAGCCCAGCCACTTATCCGGCAGGGTGAACTCAATCGCCTCGAAATGCGCGTTGAACATGAGGATGAATGA	MLVVGVYHRRLNLLEHHRGACRDDDGRARVKRILVRRVAQRLGGVDEHLPLRAQPLIRQGELNRLEMRVEHEDE				NA	NA	NA	NA	NA
AK009_09013	1080			hypothetical protein	TTGGCCCTTGTCAAAAGGCTCGAACTCGCCGGTGAGCGTGACGTTGTGGCCGTAGAGCGGGGAGTTGGGGTCGGCTTGGGGGTCGGGGTCCGGGATGGTGTCCGGGGTGGCCACGGACTGCCAAGGGGCGGGGCCGCGGCGCGGGGATTCTTCCTCCGGCGCGGACTCCTGGGCGGGTGCGGGCACCGGCGATTCGTGCTGGTTGCTGCCGCGCGGGGTCACGGCGGCGCCGTCTGTCGAGGAGGCCTGCAGCGCCCGGGCTGCGCCCGAGCGGTCGCGCAGCACGGGTGTGACGCGCTCGTCGCCAATCACGCCGAGGGTAAACCCGGTGGAGTGGACGAAGTTCATCAGGCTTCCCTCGTGGCCGGCGTCGCGGGCAAGGCCCACCATGATGCCCGCGCACGCGGCGGCGTCCTCGCCGGCATCGTGGTGCTTGTCCAAACTGACCCCGAAGTGCTCCGCGAGGGTCGGCAGGCGGTGGTTTTCCACCTTCAGCTTCGCCGCGCGCGACTGCGCGAGCGTGCACGCGAACAGGATGTTCGGGATGTCGCGCCCCACGGCGCGGCAGGCGTCGCGCAGGGCCGTGGCGTCGAACTGCGCATTGTGCGCGACCACGGGCAGCTCGCCGACGAACTCGACCAGCTCGTCGATGCGCTGCGCCACCGGCGGGGCGTCGGCGACCGCCCCGGCGGAGATGCCGTGGATGGCCACGTTGGAGGGGTCAAACTCGTCGAGGCCCGGCGGGGGAGTGCACAGCCAGGTCGCGCGCTCGGTTTCCTCGCCGTCGATGACTCGGACGAGGCCGATTTGGCAGATCGACCCCCACGCCGGATTGGCCGTCTCGACGTCGAAGCCGACGAAGTCGAACCCCGGGATCCGTGTACTAGCGGCCTCGCCGCGCGCTGCGGCGTCGACAAGCTCGCGCAACCGCGCGGGGGCCTGGGCGTCGCCGGGGAAGAAAGCCACATCGACCGTGCGCTGCGGCGTTTCAATGCCGCACGCGCCGCCGCGCCAGGCGTCACCGTCGGTGACGTGCAGGCGCGTGATCGTGGTGGCGTCGATACGCACGGGCTCGCTTGA	MALVKRLELAGERDVVAVERGVGVGLGVGVRDGVRGGHGLPRGGAAARGFFLRRGLLGGCGHRRFVLVAAARGHGGAVCRGGLQRPGCARAVAQHGCDALVANHAEGKPGGVDEVHQASLVAGVAGKAHHDARARGGVLAGIVVLVQTDPEVLREGRQAVVFHLQLRRARLRERAREQDVRDVAPHGAAGVAQGRGVELRIVRDHGQLADELDQLVDALRHRRGVGDRPGGDAVDGHVGGVKLVEARRGSAQPGRALGFLAVDDSDEADLADRPPRRIGRLDVEADEVEPRDPCTSGLAARCGVDKLAQPRGGLGVAGEESHIDRALRRFNAARAAAPGVTVGDVQARDRGGVDTHGLA				NA	NA	NA	NA	NA
AK009_09014	168			hypothetical protein	GTGCGCGCTGCGCCGCACGAGGCGGGGCGTCAGCGCGCATGGCACGGCGGCTGCGTAGGGGCTAAGAAGAGCGCTCATCGCGGCAGTCATACTTTTCTTAGACTGCCGCGCAACGGGTTCGGTTCCCTAGAACGGTGGCTGTTCGTTGAGCCCGAGGGCGTCGAGTAG	MRAAPHEAGRQRAWHGGCVGAKKSAHRGSHTFLRLPRNGFGSLERWLFVEPEGVE				NA	NA	NA	NA	NA
AK009_09015	291			hypothetical protein	GTGGGTCAGCCACGTCGTGGGTATCATCCGGTCGTCGCGCAGTTGGAGCCCGCGCGGGACGTCAGCTCCAAAAGCTGCGGTGGCGTCCCTGACCCACAGCTCGACCTGCCCGTCGCTGACTGCCTCATTGATCACGCCGCGCGCTGCCGCGTTCCACGCCCCGGTGACGCTGCGGCCCATCGCGCCGATCCTCTGGTGGCTCGCTGGCCGGCCGGTGTGATCCGCCAATACGCACACCAACTCGGGCGAGAGCGTGATGTAGGCGGTGCTGGCGGAAAATTCACTGCTTGA	MGQPRRGYHPVVAQLEPARDVSSKSCGGVPDPQLDLPVADCLIDHAARCRVPRPGDAAAHRADPLVARWPAGVIRQYAHQLGRERDVGGAGGKFTA				NA	NA	NA	NA	NA
AK009_09016	495			hypothetical protein	GTGGACCAGCTCGAACTTGTCCTCGTCGCCCTCCGCGCCCAAAACGGGCAGGCCGAGCCGGCCGCCAGCGCCGTTGTCCTCGTGCCAGTCGATGTCGAAGTAGGACTCGTACTCCGAGCCCTGGCCCAGCTTCAACACGTCCCACCACCACTTGTTCAGCCGCGGCGTTTCCACGCCGAGGTGGTTGGGCACGATGTCGAGCACGATGCCCAGGCCCGCGTCGTGGGCAGCCGCGGCGAGCTCGCGCAGGCCCTCGATCCCGCCGAGCTCCGGGTTGACCACGGTGGGGTCCGTGACGTCGTAGTTGTGGTTGGACTCTTTGACCGCCGTGAAGATCGGGGAGAGGTACAGGTGCGAGACACCGAGCGAGCGCAGGTACGGGATCTGCTCCGCGGCCTCCGCGAACCCGTACCGCCGCCCCGTGGGGTCGGCGTGGGGGCCGCGCAGCTGGAGGCGGTAGGTGGATGTAATCGGGCGTCGCATCAGGGCTCCTGA	MDQLELVLVALRAQNGQAEPAASAVVLVPVDVEVGLVLRALAQLQHVPPPLVQPRRFHAEVVGHDVEHDAQARVVGSRGELAQALDPAELRVDHGGVRDVVVVVGLFDRREDRGEVQVRDTERAQVRDLLRGLREPVPPPRGVGVGAAQLEAVGGCNRASHQGS				NA	NA	NA	NA	NA
AK009_09017	972			hypothetical protein	ATGGACGACCAGCAATACTACGACGGTTCGGGCCGCTACGACCGCGAAACCGTGCTGTTTTTCGACGTCGCGCACGAAGGCGCCCAACTTCGGGCGGTGGCCGAGGCGGCGCAGCGGCTGGATTCGCTGCGCGCCGTTGACCCGCGAAGCGTCGTGGTGATCGCGACCGACCAGATCTCGCGCGCCGCGGCCCAGGCCGTGGTGGAGCTGCGCGCGCCCCTGCGGCTGCCGGTGGTAGTGACGCCCGTGCTGCCCAGCTACGCCGGGCCGCTCGACGTCGTTGTTATCGTGGGCGACGCCGCCGAGGATGACGGGGTCTCGCGCGCGCTGATCACCGCGTCGGCCCGAGGCGCCGAGACCGTTCTGGCTGGTCCCGCGCGCGGCCCGCTTCTCGACGACGCCCCCGACGCCACCCTCATCATCCCCGCGCTGCCCACGTCAGCGGGCACCTCGCCGCTGCGCGCATTCGGTGTGCTTACCGCGGTCCTCGACGCGCTCGAGCAGCCAGCGGAGCTGATTTCCACCCAGCTGCAGGCGATGGCCGAGGACGTTGATGAGGAGCTCGTGGGCTTAAGCCCCCAGCGCGATGAGGCGGTCAACGCCGCGCGGCAGCTGCGTGCGTTCGCTTCCGGGGCACGGGTCATCCACACCGGCTTCGAGCGCTGCGGGGCCGCGGTGGCCTCAGTCGCGGCGCAGGTCTGGTCGGCGCGCTCGATGGCGTCGGGGTTTGTGGAGCACCGCGAGCTTGACCGGGCGGTGGAACAACCCGCCCGCGACATCTTCCACGATCCGTTCATCGACGGGGAGCAACACCATGTGGCGCTCAAGGTAGTGGTGTGGAATCAGGCCGACGTCGCGCTCGCCGACGCCACTGCGCAGTGGTGCGAGCCGTCGTCGGTAGGCGAAGAATCGACGGTTGCGCGGCTGATCGTCCGCGCGCTCGCCGCCACCGCAATGGACGAGCCAGCTTAA	MDDQQYYDGSGRYDRETVLFFDVAHEGAQLRAVAEAAQRLDSLRAVDPRSVVVIATDQISRAAAQAVVELRAPLRLPVVVTPVLPSYAGPLDVVVIVGDAAEDDGVSRALITASARGAETVLAGPARGPLLDDAPDATLIIPALPTSAGTSPLRAFGVLTAVLDALEQPAELISTQLQAMAEDVDEELVGLSPQRDEAVNAARQLRAFASGARVIHTGFERCGAAVASVAAQVWSARSMASGFVEHRELDRAVEQPARDIFHDPFIDGEQHHVALKVVVWNQADVALADATAQWCEPSSVGEESTVARLIVRALAATAMDEPA				NA	NA	NA	NA	NA
AK009_09018	1374	algC	COG1109	Phosphomannomutase/phosphoglucomutase	ATGGCAATCACGCACACGCAAGAGTCGATCACGAAGGTCATCAAGGCGTACGACATCCGCGGTGTCGTCGGCGAAACAATCGACGAGCAGTTCGTCTCTGACGCGGGCGCGGCGTTCGCGCACATCCTGCGCGGCGAGGGGGAGACCCGCATCGCCGTGGGCTACGACATGCGCCCCTCCTCCCCGGCGCTGGCCGAAGTGTTTGCGCGTGGTGCGGCATCCCAGGGCCTCGACGTTGTCGAGCTCGGCCTGACCTCGACCGACGAGCTGTACTTCGCCTCGGGCAGCCTCGAGTGCGCCGGCGCCATGTTCACCGCCTCCCACAACCCGGCCCAGTACAACGGCGTCAAGCTGTGCCGCGCCGGGGCAAAACCCGTCAGCACCGACACCGGGCTTGCCGCGATCTCACAGCTCATCCTCGACGGCGTGCCGGCGTACGAGGGCGTTGCGGGGAGCGTCGAAAAGCGAGATGTGCTCAGCGACTACGCGGCCTTCCTGCGCGAGCTGGTGCCCGTGCCGTCGCGGCGCCCGCTCGTCGTCGCCGTCGACGCCGCGAACGGGATGGCCGGTCTGACCGTGCCCGCCGTTTTAGACGGGGTTGACGTGCGCCCGCTCTACTTTGAGCTCGACGGCACCTTCCCCAACCACGAGGCCAACCCGCTGGACGCGAAGAACCTCGAGGACCTACAGAAGCTCGTGGTGGAGCAGCGCGCCGACATCGGGCTCGCGTTTGACGGGGACGCGGACCGCTGCTTCGTCGTCGACGAGCGGGGTGAGCCCGTGTCGCCGTCCGCGATCACCGCACTGGTGGCGGCGCGCACGCTCGCCGAGCACCCGGGGGCGACGATCATCCACAACGCGATTACCTCGCGCGCGGTGCCAGAAATCGTCGCTGAACAGGGCGGAAGGGCCGTGCGCACGCGCGTGGGCCACTCCTACATCAAGGCGCACATGGCCGAAACGGGCGCACTGTTCGGCGGAGAGCACTCCGCCCACTACTACTTCGCCGAGTTCTTCAACGCCGACTCGGGCCTGCTCGCCGCCCTCCACGTGCTCGCCGCGCTCGCCGAGCAGGACCTGCCTCTGAGCGAGCTGATGGGCGAGTACGACCGCTACGCCGCCTCTGGCGAGATCAACTCCGAGGTCGACGACCAGGACGCTGCGACCGAGCGCGTTGTCGAGGCATTTGCGGAGCGTGCGGTGGGCGTCGACAAGCTCGATGGCGTCACCGTCGAGCTGAGCGAGACCCCGCCGGTGTGGTTCAACGTCCGCGCCTCCAACACCGAGCCGCTGCTGCGCCTCAACGCTGAGGCCCCGACGCGCGCTGAAGTGGACGCGATCGTCGAGGAAGTCCTCGGCATCATCCGGGCGTAG	MAITHTQESITKVIKAYDIRGVVGETIDEQFVSDAGAAFAHILRGEGETRIAVGYDMRPSSPALAEVFARGAASQGLDVVELGLTSTDELYFASGSLECAGAMFTASHNPAQYNGVKLCRAGAKPVSTDTGLAAISQLILDGVPAYEGVAGSVEKRDVLSDYAAFLRELVPVPSRRPLVVAVDAANGMAGLTVPAVLDGVDVRPLYFELDGTFPNHEANPLDAKNLEDLQKLVVEQRADIGLAFDGDADRCFVVDERGEPVSPSAITALVAARTLAEHPGATIIHNAITSRAVPEIVAEQGGRAVRTRVGHSYIKAHMAETGALFGGEHSAHYYFAEFFNADSGLLAALHVLAALAEQDLPLSELMGEYDRYAASGEINSEVDDQDAATERVVEAFAERAVGVDKLDGVTVELSETPPVWFNVRASNTEPLLRLNAEAPTRAEVDAIVEEVLGIIRA	PGPT0017865_2603	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0017865-manB|yhxB-K01840	NA	NA
AK009_09019	450			hypothetical protein	GTGGGAGCGTCGCGCGGCCTTGGCGGCGTTGAGCTGCCCCTCGACGCGCTTGGTGCGGTGCACCGGGTGGTTCGAGGTGCCGGGGTCGCCGAAGTCGTGGTTGGCCGCGTACTCGATCGGGTCCTGGCTGGTGTCGACGAGCCCGGTGGTCACCCGCCCGGCTTCGCGCACCGCCTCCGCCAGCGCGGTGAGGTCGGCTTCCTCCATGCTCTCGAGCTCGTCGTCGTCGATCTCGACGTGCTCGACTCGCACCATGTCCCAGCCGACGGGCGCGGAGATGTTGGAAGAGTGGCGTTCGCACAGGTCCCAGGAGTGGGGTTCGGCCACGGGAGCGAGCGGGCCGACGACGGCGGTGGAATCCGCGTACGCGTAGATGAGCGTGGCCACGGCAGGCCTGCCGCAGCCGGGACGGCAGCAACGACGGAAGGTGTTCACGTGGGCCAAGTCTAA	MGASRGLGGVELPLDALGAVHRVVRGAGVAEVVVGRVLDRVLAGVDEPGGHPPGFAHRLRQRGEVGFLHALELVVVDLDVLDSHHVPADGRGDVGRVAFAQVPGVGFGHGSERADDGGGIRVRVDERGHGRPAAAGTAATTEGVHVGQV				NA	NA	NA	NA	NA
AK009_09020	297			hypothetical protein	GTGGTTCGCCACCAGCGCCGTGAGAATCCACGTCAGCATCTCCGAGCGCTCAACCACCGTTTTCGCTCGGCGCTCCACCGGCATCCGGAAAACGATGATCCGCGCCCGAGTCGGGTTGCCGTTTCTGTCCACGCCCGCGCCCAGGATGCGTCCCAACGGCACCGGCCCGTCTGCGACGATGTCGTCGGGCATTACCGAGTCCGGCCGCAGGCGCATCCGTGGGATGGTGTCCACCGCGAGATCAACCCCTGCGAGCTGATCGAAGTAAGCGTTGTGCAGCGGGGCGTACGCCTCTAA	MVRHQRRENPRQHLRALNHRFRSALHRHPENDDPRPSRVAVSVHARAQDASQRHRPVCDDVVGHYRVRPQAHPWDGVHREINPCELIEVSVVQRGVRL				NA	NA	NA	NA	NA
AK009_09021	300	whiB_3		Transcriptional regulator WhiB	GTGGACAATATGGCTGACAACGCCATTCTCCGTGGCGCAGCTGCGGGCGGGATGACCCTCGATGAGCTCTTCGGCACCGTCGAACAGGAGTGGCAGGATCAGGCCCTCTGCGCCCAGACCGACCCCGAGGCATTCTTCCCGGAAAAGGGCGGCTCGACCCGCGAAGCCAAGCGCATCTGCCAGGCCTGCGCCGTCCGCGACGAGTGCCTCGAGTACGCGCTCGAGCACGATGAGCGCTTCGGAATCTGGGGCGGCCTGTCCGACCGCGAGCGCCGCCGCCTGAAGAAACAGATCGGCTAA	MDNMADNAILRGAAAGGMTLDELFGTVEQEWQDQALCAQTDPEAFFPEKGGSTREAKRICQACAVRDECLEYALEHDERFGIWGGLSDRERRRLKKQIG				NA	NA	NA	NA	NA
AK009_09022	1281			hypothetical protein	ATGTTGTGGCGGTTGTGGCCTAGGGCACCTAACTGCCCCTGTATCGGCGTGTCGCTACGCGTCGGGCGAAAATCGGATCCCCGAGTCGGGAATAACCACGCCGGGCCACACGCGCATCCCAGCCTGGAGCTCGCAGCGGGCCCCGATCTGGGCGCCCTCGCCCACGACGCAGTCGATGATCCTCGCGTTGGCGCCAATGCGCGCCCCGGCCGCGATGATGGACCCGCGCACCATGGCGCCAGGCTCGATGGTCACGCCATCGAAAATCACGCTGTCGTCGACACGGCAGCCCGCGCCGATGTCGCAGCCGCGCCCCACGGCCGTACCGCCCATGAGGATCACCCCGCCGGCGATACCGGCGCTCTCGTCCACAAACGCCTCACCCGTGCGCCCTTCAAGCAGCGGCGAGTAGGCGATCCCGCGCACCACGTCAGAGGAGCCCTGCACAAAGTCGTCGGGGCGACCCATGTCGCGCCAGTACGAGGTGTCGACGTAGCCGACGATCTTCGCCCCGTCCGACAGCAGGCCCGGGAACGTCTCGCGCTCCACGGACACGACGCGCCCCGCCGGGATCTCGTTGATCACGGAGCGCTTGAACACGTAGCAGCCCGCGTTGATCTGATCGGTTGGCGGGTCGGGGGTTTTCTCCAGGAACTCGAGGACGTTGCCATCGTCGTCCGTCGGCACGCAGCCAAAGGCGCGCGGGTCGGGCACGCGGACGAGATGCAGGGTCACGTCCGCGTCCTTGTCGGTGTGCGTGGCCAGGATCTCGCTCAGGTCGGCGCCGGAAAGGACGTCGCCGTTGAACACCATTGCGTTGTCGTAGCGCAGCTTGTCGGCCACGTTGCGGATCGCTCCGCCGGTGCCCAGCGCCTCCTCCTCGACGACGTACTCGATCTCGAGGCCCCAGTCGGAGCCGTCGCCGAAGTACGCCTCGAACACCTCGGCCTTAAACGAAGTGCCGAGCACGACGTGGTTCATCCCCGCGGCGCGGATCCGGGCGAGCAGGTGGCTGAGGAAAGGGAAGCCGGCGGTGGGGAGCATGGGTTTGGGAGTCGACACCGTCAGCGGGCGAAGCCTGGTGCCGCGCCCCCCAACGAGGATGACCGCGTCGGTGCGCGCTGGATCTGTCATGATCTTTCTAGGAGCCTTTCGTCTGCTGAAGGATGCCGCGGGTCCGCAGGCCGAGCCAGAGCGCCCAGCGAATGGGTCCCTGCCACCAGGCGGGGTGCCTGTCCGCTTGGAAACGGTACGCGGATTTGTGGTGTGCTGGCACGGTAA	MLWRLWPRAPNCPCIGVSLRVGRKSDPRVGNNHAGPHAHPSLELAAGPDLGALAHDAVDDPRVGANARPGRDDGPAHHGARLDGHAIENHAVVDTAARADVAAAPHGRTAHEDHPAGDTGALVHKRLTRAPFKQRRVGDPAHHVRGALHKVVGATHVAPVRGVDVADDLRPVRQQARERLALHGHDAPRRDLVDHGALEHVAARVDLIGWRVGGFLQELEDVAIVVRRHAAKGARVGHADEMQGHVRVLVGVRGQDLAQVGAGKDVAVEHHCVVVAQLVGHVADRSAGAQRLLLDDVLDLEAPVGAVAEVRLEHLGLKRSAEHDVVHPRGADPGEQVAEEREAGGGEHGFGSRHRQRAKPGAAPPNEDDRVGARWICHDLSRSLSSAEGCRGSAGRARAPSEWVPATRRGACPLGNGTRICGVLAR				NA	NA	NA	NA	NA
AK009_09023	438			hypothetical protein	GTGCCCAATGCCGGTGAGAAGGCTGGGGACCTCGCGCGCGCTGGGGTAGACGGACCCGTCTGCCTCCTCGATGCGCGGCCCAGCGGCTCCCGCGCGCGGCCTCGCCGCCAGCCGGGCGAGCAGCTCGTCGACCGAGCCGGGTTTAAAGCGCACGTCGGGGTTGGTGATCAGCAGGTAGTCGGGGTCAATCTCGCCCGCTTGTCGACGCCCACCCAAACGCCTCACCGCAGCATTGATCGCCGCGCCGTAACCGATGTTGCCCCCGGTGAAGAACACGTCAACGTCGTTACGGCCGGCCGCGAGCTCCTCTGGCGAGCCATCCGTCGAGCCGTTGTCGGCGCAGACCAGAAGCGTCGGGCGCGCAGTAGCGCTGCGCAACGTGTCGTCGAGGCTACGCAGGTGGCGCCCGGGCGAGTAGGTCACCGTAATAACGGCTAG	MPNAGEKAGDLARAGVDGPVCLLDARPSGSRARPRRQPGEQLVDRAGFKAHVGVGDQQVVGVNLARLSTPTQTPHRSIDRRAVTDVAPGEEHVNVVTAGRELLWRAIRRAVVGADQKRRARSSAAQRVVEATQVAPGRVGHRNNG				NA	NA	NA	NA	NA
AK009_09024	1674	lcpA	COG1316	Cell wall biosynthesis protein LcpA	ATGCCCCACAGCGTAGTCAGAAGCGCGCCTCAAGGCAGGTTGCGGCACACGGGGTTGTCGGGTGCATGTCGTATACTTCCGTTCGTGACCGAGAATCCCCAACGCAACTCACGGCGTGTCCGCGACATCCAGGCGGCCCCCTCGCGGATGAGGGACTTAAGCCAGTCCGGCCACCCCGCGATCAAGGGTGTTCTCGCTTTCCTCTCGGCGCTCATCCTGGTCATCTCTGGCGCCGGTTACTTTTCCGTGGGCCGCCTCGGCGGGTCGCTCAGCGCCTCCGAGCTGCAGCTCGACCGCGGTAGAAACGTCGACGTGCTCGATGGCGCCGTGGATATCCTCCTGGTCGGCTCCGACTCCCGCACGGATGCCCAAGGCAACCCGCTGAGCGAGGAGGAGCTCGCGCGCCTAAACGCCGGTGTCGCGGAGGGAGAGATTAATACAGACACGATCATGGTGATCCGCATTCCCGAGGACGGTTCCAGCGCCACGGCCGTGTCGATTCCCCGCGATACCTACATCCACAACGATGAGTTCGGGAACATGAAGATCAACGGCGTCTACGCGGCGCACGCGGGCCGCAAGCGCGAGGAGCTGCTGAACGCGGGCGTAAGCGAGGGCGCCTCGCTGGAGCAGCAGGTTGCGCGTGCCGGCCAGGAGGGCCTGATCGAGGCTGTCGCGGACCTCACCGGCGTCGAGGTCGACCACTTCGCCCAGGTCGGGCTTTTAGGCTTCGCACTGCTTACCGACGCCGTCGGCGGCGTGGACGTCTGCCTCAACGCACCCGTCGACGAGCCTTTGTCCGGAGCGGACTTCCCCGCCGGCGAGCAAACCCTCGACGGCGCCCAGGCACTGTCGTTCGTGCGCCAGCGCCACGACCTGCCGCGCGGCGACCTCGACCGGATCGTGCGCCAGCAGGTGTACATGGCCTCGCTGGCGCAGAAGATGCTCTCCGCAGGCACCCTGACAAACCCGGCCAAGCTGCGCGAGCTCGCCACCGCGGCCGAGCGCTCCGTCACCCTCGACGAGGGGTGGGACGTGGTGCGCTTCGCCCAGCAGATGTCGGGCCTGGCCGCCGGCGACATCACCTTTGCGACCATCCCCGTGACCTCCGTCGACGGTGTCGGCGATTATGGCGAATCGATCGTCACCGTCGACGTCCCGCAGGTGCAGCGCTTCATGGACGAGGTCGTCGCTCCCCCCGCCGCGCCCGAGGCGCCCGCTCCGGACTCGCCGACGTCGCCTTTGTCCGGGTACAACGTCTTCGCCCTGAACGCCGGGCAGATCGAGGGACAGGCCGGCGGCGTGGCGGGCTGGCTCAAGGAGCAGGGCGTGACCATCGCGGATGTTTCCAACGCGATGCCGGGGGTGTACTCGAGCTCCCAGATCGTGGCGCTCGACCCGCAGGACCCGGCCGCGCTGGCGCTCGCGGAGAAGCTGGGCGGGCTTCCGGTGACCTCGAACGAGGGGCTGGAGCCTTCCAGCCTCATCGTCGTGGTGGCGGACGACTACGCGGGGCCGTCGTCAAGCAGCACCTCGATTGGCACCTCGGAGACCGATTCCTCGGGCGCTGCCGACCCGACCGAGTCGGTGGGAACGCCGGGCGAGGACTTCGGCGCCGCAGAGGTCGCCCCGCAGATCGACGCCGGCGGCGACGGTCCGCGCTGCGTGAACTAA	MPHSVVRSAPQGRLRHTGLSGACRILPFVTENPQRNSRRVRDIQAAPSRMRDLSQSGHPAIKGVLAFLSALILVISGAGYFSVGRLGGSLSASELQLDRGRNVDVLDGAVDILLVGSDSRTDAQGNPLSEEELARLNAGVAEGEINTDTIMVIRIPEDGSSATAVSIPRDTYIHNDEFGNMKINGVYAAHAGRKREELLNAGVSEGASLEQQVARAGQEGLIEAVADLTGVEVDHFAQVGLLGFALLTDAVGGVDVCLNAPVDEPLSGADFPAGEQTLDGAQALSFVRQRHDLPRGDLDRIVRQQVYMASLAQKMLSAGTLTNPAKLRELATAAERSVTLDEGWDVVRFAQQMSGLAAGDITFATIPVTSVDGVGDYGESIVTVDVPQVQRFMDEVVAPPAAPEAPAPDSPTSPLSGYNVFALNAGQIEGQAGGVAGWLKEQGVTIADVSNAMPGVYSSSQIVALDPQDPAALALAEKLGGLPVTSNEGLEPSSLIVVVADDYAGPSSSSTSIGTSETDSSGAADPTESVGTPGEDFGAAEVAPQIDAGGDGPRCVN				NA	NA	NA	NA	NA
AK009_09025	387			hypothetical protein	TTGGGTCACGTTTTCCGTTTCCGCGATCTCACGCAGCCGCTCTGCCGAGGCCAACCCCGCCGCCACCACGACGGACCCGTCGGCGGCCAGCGGCGCAAGCACCAACTTTTCAAAGTCGGCGGTCGTGCGCCACGGATCCACCATGTAGCGCTCCGGCACGTAGCCCGCCTCGGCCCAGCGCTGCAGCTGCGGCGAGTCGCCGTAGTACACGTCGCCGTAGAAGCGCACGGTGGGGCCGAAATCCACCGTTGCCGGGGGCAGCTGCCCGCCCGATTCCACCACCCCGCGGCCGAACGGGTCGGTGGAGACGACGACTACTTCCGGCACCTGGGCCCACTCACCTGCGCGCTCCGCGTGGGTGAACACCACGTCGGGGGCTGCGTTTAG	MGHVFRFRDLTQPLCRGQPRRHHDGPVGGQRRKHQLFKVGGRAPRIHHVALRHVARLGPALQLRRVAVVHVAVEAHGGAEIHRCRGQLPARFHHPAAERVGGDDDYFRHLGPLTCALRVGEHHVGGCV				NA	NA	NA	NA	NA
AK009_09026	1098			hypothetical protein	GTGCTCCTCGATGAGCGCCTGGTCGTCGTAGATCGACGCGAGAACCGGCGGGAAGGACGCCTCAGCAAAGGAGAGCTGGTTCTCCTCGTTGATGATGAACTCGATGAAGTCCTTCGCGGTGGCCTTGTTCTCGGAGTTGACGTTGATGCCGTTGTTGTAGCCACCGAGGGTGGACACGCCCACGCCGTCCTTGCCGACGAGCGGCTGGACCTCGAACTGCAGGCCCTTCTCCTCGGCGTTGGAGTACATGTACGGCCAGTTGATGGCGAACGCGGTCTCACCCTCGGTGAACGCCAGGTTGGTCTCCTCCTCGGTTGCCGCGGTCGACGCGGAGGAGATGGTGCCGTCGGCGTAGGCGTCGACAAGCGCCTGCAGGCCTTCCTTCGCCTCGGCGGACTCAACGGTGGGCTGGCCCTGGTCGTCGAGAACCTCGCCGCCCCAGCCGTTGATGAAGCCCAGGGTGTTCACGGTCAGGCCCTCGTACTGCTTGAGCTGCGTGGTCAGGCAGTCAGCGCCTTCAACGGCCTCGCAGGCGGAGCGGATGTCGTCGAAGGTGTCAGGAGCGTCGGCGACGAGCTCGGTGTTGCGGAACAGAAGCTGGCCGTTGGTGTTCTGCGGCAGGGCGTAGAGCTTGCCGTTGTACGTGGCGGACTCGACGGTAGCGTCGAGCAGCCCGGAGGTGTCCACCTCGTAGTCGCCCTCGAGCGGCTCGAGCCACTGGTTGGCGGCGAAGTCGGCGGTCCACACGACGTCGAGCGCCATGACGTCGTAGTCGGAGTTGCCAGCCTGAAGGGACTGCACCAGGGTGTCGCGCTGGTCGTCGGCCTCGCCGGCGAGCTCGTTAAGCGTGACCTGCTCGTCGGGGTGCTCAGCGTTCCACTTCTCGATGATCGGGACGATCTTGTCGGTGTCGTTGCGGCCCATGGCAAAGGTGATCGGGCCGCGGCCTTCACCCTCCGCGCCCGCCGTGGCGGTAGCGGCGTTGGTGGCCGAGTTGGTGGCGGGTTCGGAGGCGGAGTCGGAGCTCTCGGAGGAGCAAGCGACGAGTGTTGCGGAACCGAGGGCGGCAGCGCACAGCAGCGCGCCAGACTTACGTAG	MLLDERLVVVDRRENRREGRLSKGELVLLVDDELDEVLRGGLVLGVDVDAVVVATEGGHAHAVLADERLDLELQALLLGVGVHVRPVDGERGLTLGERQVGLLLGCRGRRGGDGAVGVGVDKRLQAFLRLGGLNGGLALVVENLAAPAVDEAQGVHGQALVLLELRGQAVSAFNGLAGGADVVEGVRSVGDELGVAEQKLAVGVLRQGVELAVVRGGLDGSVEQPGGVHLVVALERLEPLVGGEVGGPHDVERHDVVVGVASLKGLHQGVALVVGLAGELVKRDLLVGVLSVPLLDDRDDLVGVVAAHGKGDRAAAFTLRARRGGSGVGGRVGGGFGGGVGALGGASDECCGTEGGSAQQRARLT				NA	NA	NA	NA	NA
AK009_09027	1254			hypothetical protein	GTGGCAGTTCATGTTCGCCCCCTCCGGCATTGTGAACTCGCTGCTTGGCACGTCGATCGCCTGGACGACGGACCCCTGGGCTGCACGCACGGCCGTGATCATCGCCGACGTGTGGAAAACCGCGCCGTTTATGGCCCTGCTCATCCTCGCCGGCCTGCAGATGATCCCGCGCGAGGTCTACGAGGCCGCGCGTGTCGACGGCGCCACGAAGTGGCAGCAGTTCACCCGCATTACCCTGCCGCTGGTGCGCCCGGCGCTGATGGTGGCCGTGCTATTTCGCACCCTCGACGCGCTGCGCATGTACGACCTGCCGGTGATCATGATCTCCGGCTCGTCGAACTCCCCCACGGCAACGATTTCCCAGCTCGTCGTCGAGGACATGCGCCAGGGCAACTTCAACTCCGCCTCCGCCCTGTCCACGCTGATCTTCCTGCTCATCTTCGCCGTGGCGTTTGTCATGATCCGCTTCCTCGGCGCCGACGTCGGGCGCGTGGAGCGCACCAAAAGGAAGAGGCGGCGTTGGGTTGGGCGTCGACAAGCGCGCGGCACGAAAGCTCAGGAGGTCTAAGCGATGAAAAAGATTTGGCACTACGTAGGCGTCATCTTCATCATGTTCTGGGGCCTGGCCCCGTTCTACTGGATGCTCATCACCGCGCTGCGCGACAGCGCGCACACCTTCGACACCACCCCGTGGCCCACGCACGTCACCCTGCAGAACTTCTACGACGCGCTGGCCACCGACAAGGGCAACGACTTCCTCGGCGCGATCGGCAACTCGCTGATCATCTCGCTGTCGACCACCGCGATCGCCGTGGCTGTCGGCGTGTTCACGGCCTATGCGATTGCGCGACTCGACTTCCCGGGCAAGGGCATCGTCACCGGTGTCATCCTCGCGGCCTCGATGTTCCCGGGCATCGCGCTGGTCACCCCGCTGTTCCAGCTCTTCGGCGACCTCGGCTGGATTGGCACGTACCGCGCGATGATCATCCCGAACATCTCGTTCGCGCTGCCGTTGACGATTTACACGCTGATCTCGTTTTTCCAGCAGCTTCCGTGGGAGCTCGAGCAGGCAGCGCGTGTCGACGGCGCCACTCGCGGCCAGGCGTTCCGGCTGGTGCTTTTGCCGCTGGCGGCGCCGGCGATTTTCACCACCGCGATCCTGGCCTTCATCACCACCTGGAACGAGTTCATGCTGGCCCGCCAGCTCTCCACCACGGCGACGGAGCCGGTGACGGTGGCCATCGCGCGCTTTAG	MAVHVRPLRHCELAAWHVDRLDDGPLGCTHGRDHRRRVENRAVYGPAHPRRPADDPARGLRGRACRRRHEVAAVHPHYPAAGAPGADGGRAISHPRRAAHVRPAGDHDLRLVELPHGNDFPARRRGHAPGQLQLRLRPVHADLPAHLRRGVCHDPLPRRRRRARGAHQKEEAALGWASTSARHESSGGLSDEKDLALRRRHLHHVLGPGPVLLDAHHRAARQRAHLRHHPVAHARHPAELLRRAGHRQGQRLPRRDRQLADHLAVDHRDRRGCRRVHGLCDCATRLPGQGHRHRCHPRGLDVPGHRAGHPAVPALRRPRLDWHVPRDDHPEHLVRAAVDDLHADLVFPAASVGARAGSACRRRHSRPGVPAGAFAAGGAGDFHHRDPGLHHHLERVHAGPPALHHGDGAGDGGHRAL				NA	NA	NA	NA	NA
AK009_09028	201			hypothetical protein	GTGGGGGTCGGCTCCGGCGCGCCATGTGCGCCACCGGCGCGTGAGCCAGAACGTCGCCAAGCACAGCGCGCCCGCGACCAGACCCGGCCAGAGCAACGGCTCGGGGCGAAACAGGTTCAGCACAGCCTGCACGAGCGCGACGGCGGCGAAGAAGCCGACGAACCCGATCAGGGTCTGCCACATGAGGTCGCGGCGCACTAG	MGVGSGAPCAPPAREPERRQAQRARDQTRPEQRLGAKQVQHSLHERDGGEEADEPDQGLPHEVAAH				NA	NA	NA	NA	NA
AK009_09029	195			hypothetical protein	ATGAGTTCATTCACAGAGCCGCTATGTTCGACGAGCGCTAAGGCTGTACCGTGCACAGACATCTCTACCGGAGAGACCATAGAAAGTGCAATCGAAGGTAAAGGCCTGTATCACTTCGAATCCGCCTCAACCCGGACGGGTAAGAATGCCCCGGGTTTAGGCGGAGAGGCAGCACGTTTACCCGTCCGGGTTTAG	MSSFTEPLCSTSAKAVPCTDISTGETIESAIEGKGLYHFESASTRTGKNAPGLGGEAARLPVRV				NA	NA	NA	NA	NA
AK009_09030	882			hypothetical protein	ATGCCACGTGACATCGTGTACAAGTCACCGGAAGTAAATCTGCACCGGTCGTTTGTCTACCTCGATGATGAGCTGGTGGTGAACTCATTATCTGCACTTGAAGCGGGAAAAATCGACAGTGTAGTTACCAAGATAAACGAGGCGCGCGAAAGCGGTTTCGGCGGTTCTGTATCGGCTAGTGCACTTGCAGTTAAAGGCAATGCAGAAGCTGGAAAGAAGAAGCAGTCCTCGTTCGAAGACGAGCTGATTAGAATCCGAACGAAATTCTCGATCTTCGAGGCTTGGTATCAGTACCTTATCGACAACAATGCAGTCGGTGATCTCTTGAATCCAAACGAATGGCAACAAGCAGCCCTGAGGATCGGCGAGGTGATAAAGCTCGAGGGAAAGGTGAAAACCTACGAGATTTATCCGCTGGCGAGAATGTATTCAGACTACGCAAAGAGCACCAAACTCCCAGGGCACCCTTGGTATATCAAAGGTGAAGGGGCTAAGAAAATCACGCAATCGGCTGAAATTATGCGGCATGTCTTTGGGGCTGAAGGCGAAATGCAGATTCCCGCGAGGGTGGATTTAAGCGAGAAGGCGGGTGATATCGCATTTATTCTAGGAGAAGAAAAGCTGCTTGGAAGCCCAGCGCCGTTGGAGGGAGAGTACACAGTAGTAGGTCAAGTCGCTGAAATCCTAGAGCCTGGTGATTGGAGTCCGACACTGCGGTTAATGCCGAAAGCGCCTAAGAACGAATTCGAGCGATCGGCTGTGATTGAAATGCTTTCAAACTTCGAGGAGGCGAGTGCGCAGTTTGGGGTGCGGAATGTGGGCACCATGGGTGAATTTACAGGCCCTGCCTTGATCCTCGAACCCATAGCCATTTTTAGATGA	MPRDIVYKSPEVNLHRSFVYLDDELVVNSLSALEAGKIDSVVTKINEARESGFGGSVSASALAVKGNAEAGKKKQSSFEDELIRIRTKFSIFEAWYQYLIDNNAVGDLLNPNEWQQAALRIGEVIKLEGKVKTYEIYPLARMYSDYAKSTKLPGHPWYIKGEGAKKITQSAEIMRHVFGAEGEMQIPARVDLSEKAGDIAFILGEEKLLGSPAPLEGEYTVVGQVAEILEPGDWSPTLRLMPKAPKNEFERSAVIEMLSNFEEASAQFGVRNVGTMGEFTGPALILEPIAIFR				NA	NA	NA	NA	NA
AK009_09031	591			hypothetical protein	ATGGAGTTGCTAGCGCCCGAGCAGGCGCCGGGCGAGGCGTCGCCACGCGACGCGCGCCACCGAGTGTGGCAGTGCGACCACCTCCCGGGCGTAGTTGCGCGACCGCGACGAGGCCGGGGTCTCGGCCGCGACGATGTCGACGGGGATGCCGAGGTGCCACGCCCACACCTTCGTGCGCAGCACGTGGAAGCCGTTGGTGACCACGGTCAGGCGCGGGGCCGAGGGGAACATCGCGCGGGAGTTTTCCAAGTTCTCGTTGGTGGAGCGCGCGGCGGGCTCGAGCGCGATCGCCGCGCCGGGCACGCCGCGCGCGACGAGCCACGCCGCCATCGCGCCGGCCTCCTCGAAGCCGCTGACGAGAAGGGGACGCGACGGGTCGCTGCGGTACAACGACAGCGCCGCCGCGAGGCGGGCCTCGAGCATCCGCGAGGGGCGCCCGTCGATGACGCGGGCGCCGAGCACGACGATTGGGTCCTTACTCACCCATCAACCGCGCGCGCAGGGCCTCGTCCTTGCGCTCCACCTCGGCGGCCATCGTGCGCTGGTAGTCCACCATTTTGTCCAGCACGGCCCCGTTGGAAGTCCCGATGA	MELLAPEQAPGEASPRDARHRVWQCDHLPGVVARPRRGRGLGRDDVDGDAEVPRPHLRAQHVEAVGDHGQARGRGEHRAGVFQVLVGGARGGLERDRRAGHAARDEPRRHRAGLLEAADEKGTRRVAAVQRQRRREAGLEHPRGAPVDDAGAEHDDWVLTHPSTARAGPRPCAPPRRPSCAGSPPFCPARPRWKSR				NA	NA	NA	NA	NA
AK009_09032	501	purE_2	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGCAGCCTTTAGTTGGCCTGATCATGGGCTCCGATTCTGACTGGGACACCGTCGCCCCGGCCGCCGAGGTCCTCGCCGAGTTCGGCATCCCCTTCGAGGTTGGTGTGGTTTCCGCGCACCGCACCCCGGACAAGATGCTGGCCTACGCCAAGGGTGCGCACAGCCGTGGGCTGCGCGCGATCATCGCCTGCGCGGGTGGCGCGGCCCATCTGCCCGGGATGGTCGCCGCGGCGACCCCGCTGCCGGTGATCGGCGTGCCGCGCGCGCTCAAGGACCTCGACGGTCTCGATTCGCTGCTGTCCATCGTGCAGATGCCGGCCGGCGTGCCCGTCGCCACGGTCTCTATCGGCGGGGCGAAGAACGCGGGCCTGCTTGCCGCGCGCATCATCGGGACTTCCAACGGGGCCGTGCTGGACAAAATGGTGGACTACCAGCGCACGATGGCCGCCGAGGTGGAGCGCAAGGACGAGGCCCTGCGCGCGCGGTTGATGGGTGAGTAA	MQPLVGLIMGSDSDWDTVAPAAEVLAEFGIPFEVGVVSAHRTPDKMLAYAKGAHSRGLRAIIACAGGAAHLPGMVAAATPLPVIGVPRALKDLDGLDSLLSIVQMPAGVPVATVSIGGAKNAGLLAARIIGTSNGAVLDKMVDYQRTMAAEVERKDEALRARLMGE	PGPT0021545_2172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
AK009_09033	360			hypothetical protein	ATGGCCCATCTTGCGCCCCGGGCGGTAGCTCTTGCCGTAAAGGTGGATCTTCGCCTCCGGGTATTTGCGCATGACGTCCGCCACGCGCTCGGCCATCGGCGTTTCTGGGTCCGCGTCGCCGCCCAGGGTATTGACCATCACGGTCACCGGGGCAGTCGGTGCGGTGGATCCCAGCGGCCAGTCCAGCACTGCGCGCAGGTGCTGCTCGAACTGCGAGGTGACGCAGCCGTCCTGGGTCCAGTGGCCGGTGTTGTGCGGGCGCATCGCCAGCTCGTTGACCAGGACTCCGTCGGCGGTTTCGAACAGCTCGACGGCGAGCACGCCGGTGACGTCGAGCTCCTCGGCGATGCGGATCGCTAG	MAHLAPRAVALAVKVDLRLRVFAHDVRHALGHRRFWVRVAAQGIDHHGHRGSRCGGSQRPVQHCAQVLLELRGDAAVLGPVAGVVRAHRQLVDQDSVGGFEQLDGEHAGDVELLGDADR				NA	NA	NA	NA	NA
AK009_09034	483			hypothetical protein	GTGCCCGTCGTAGCCGCCGCGGGTGGCCTTCAAGCACACTTGACCGTCGACCTCGTCGAAGAAACGGGAGGCGTCGTCGACCGAGGTGATCGCCGCGAACGGGGGCACCGGCAGCCCGAGCTCGCGCAGGCGAGTGCGCTGCTCGAGTTTGTCCTGGGCGTAAATCAGCGCCTCGGGGCGGGGCTCGACGGCCACGCCGGCGTCGATAAGCGAATGCAGATGCTCGTTGGGGACATGCTCGTGGTCGAAGGTGACCGCGGTGGCGTCGGCCGCGGTGGCCTCAAGGTCCGCGAGGTTGTGGTAGTCACCGAGGCGAACGTCGCCGAAGACCTGCGCCGCCGAGGCCTCGCGGCTGCCCGCAAGCACGCGCGGGGCGAGCCCCAGCTCAATGGCCTCGGTGTGCATCATGCGGGCGAGTTGGCCGTCGCCGATGACGGCGACGATGGGCGTTCCGTAAGCATCATTCACGCCCACCCACTCTAG	MPVVAAAGGLQAHLTVDLVEETGGVVDRGDRRERGHRQPELAQASALLEFVLGVNQRLGAGLDGHAGVDKRMQMLVGDMLVVEGDRGGVGRGGLKVREVVVVTEANVAEDLRRRGLAAARKHARGEPQLNGLGVHHAGELAVADDGDDGRSVSIIHAHPL				NA	NA	NA	NA	NA
AK009_09035	441			hypothetical protein	ATGGAGGATCCGCTCCACCTTGCGGCTGCGGCCGACCTCCGGGAAGTACAGCGGGCGCTCGAAGCCGTACACCGCCAGCGAGATCCCGCCCCGGTCGCGGTGCGCCGAGTGAATCTGGCCGAACGGAATGGAGTCGATCGCGCCGCGGCGACTGCGGGCGAGCACGCGGTGGTTGGTGACCACGAAGCGGCGCCGCCTAGATGTCGCCAGCGGCCAGCAAAACCGCACCACACCCACGATGGCCCAGATGAGCACAATCAGGTTGCGCAGGCCCGACGAGATGCCGTTCGCGTCCATCCACCCAATCGCCATCCAGCACACGGCGGTGATGACGACGAGTTCGAGCAGGGGGAAAATCAGGGTCGTCAACGGGCTCGTCGTGTCCGCGAGAACAACTTCACCCCTGGCCAGTCGCAGGCCCCGATTGTCTACCACGGCTGA	MEDPLHLAAAADLREVQRALEAVHRQRDPAPVAVRRVNLAERNGVDRAAATAGEHAVVGDHEAAPPRCRQRPAKPHHTHDGPDEHNQVAQARRDAVRVHPPNRHPAHGGDDDEFEQGENQGRQRARRVRENNFTPGQSQAPIVYHG				NA	NA	NA	NA	NA
AK009_09036	789			hypothetical protein	ATGTTAGTTCGCCGGGCGCAGGTGGGTCACATCTCCGGCGCTGTACGCGGTGCCGTCGATGAGGATTTCGCCGGCGGCGGTGACGTCGTCGACCGTTCCCTCGACGTCGTCGCCGTGGCGCTCAAGGCGCACCGTTTTGCCGATGGTGGAGCACACCGCGCGGTAGTCCTCCAGCAGCTTTTCGTCGCCGGTCTGCCACTGCTCCAGGCGCGTGGCCAGGGTGCGCAGCAGGTCGATGGTGAACTCGTCGAAGTTGATCTGGATGCCCTCGAGGTTGAGCGAGGTCGCGCCCGCCACCGGCAGGTCCTCGGCGCGCCAGTAAACATTGATGCCGATGCCCACCACAACGCGGCGGGTGTCGCCGGCGATGTCGGCCTCGGAGAGGATGCCCGCGAACTTCTTTCCACTGAGCAGGGCGTCGTTGGGCCACTTCAACTCGGCCTCGGGCACGACGTCCGTGACAGCGAGGCCGGCGGTGAGAGAGGCGAGGCCCAGGTTGTCGGCGGTGGGGGCGTCGACAAGCACGCTCAGCGCGAGGATCGAGCCGGCCGGCGAGACCCATTCGCGGCCCATCCGGCCTTTGCCCGCTGTCTGCTCGTCGGCGATGAGCACGCTGCCCGGCGTGCCGCTCGCCAGCAGCTGCGTGTTGGTGGAGTCGGTCGACGCGACCCAGTTCACGTCCGCCCAGGAGTCGGCGACCTCGGTGGCGATGCGTTGGATGTCCTTGACTGTCATGGCCTCAAGCATATTGCTTATCGACGCCTCAGCGCCCCCTGCAGTGATGTTTAA	MLVRRAQVGHISGAVRGAVDEDFAGGGDVVDRSLDVVAVALKAHRFADGGAHRAVVLQQLFVAGLPLLQARGQGAQQVDGELVEVDLDALEVERGRARHRQVLGAPVNIDADAHHNAAGVAGDVGLGEDARELLSTEQGVVGPLQLGLGHDVRDSEAGGERGEAQVVGGGGVDKHAQREDRAGRRDPFAAHPAFARCLLVGDEHAARRAARQQLRVGGVGRRDPVHVRPGVGDLGGDALDVLDCHGLKHIAYRRLSAPCSDV				NA	NA	NA	NA	NA
AK009_09037	183			hypothetical protein	GTGACGCGCACGCTCCCACGGGATCGCCGCCTCCTCACGAAACACCAGGCAGTAGGCCACGGTCGCCGAGGCCAAAACGACGAGCACCCAGAAGAAGGTTTGGATAAACGCGGGGTCGGCGTACTCCACGCCACGGAAATTCCTGACGTAGTACAGCCCCGCGGCCATCCCGGCCGTGTATAG	MTRTLPRDRRLLTKHQAVGHGRRGQNDEHPEEGLDKRGVGVLHATEIPDVVQPRGHPGRV				NA	NA	NA	NA	NA
AK009_09038	786			hypothetical protein	GTGGCAGGCCTTTGCTCCCGTGTACAACCCGAACCGCGGTGCGGCGACTGCGCATTGTGCACTGCGCAATTTACGCAAACGTCACTGTCGCGAACAGGGACTTTGCCATCCCGAATCGCCACATTGCGCGGTACAAACGGCGCAGCCGCCAAAACCCTGGAGCAGGCCTCCGCACCCGTCGTAAAGCCCGAGCCGCGACAAAACACCACCGAGCCAACAGAACGAGCGCCTGGCACGAAACTACCGCCCGACAGCGCCCACCCCGACCCGCGGCTGAGCCAGAAACGCGCTCGCCGCGCACGTGCGGAACCGCCACAGCAAAACAAGCCCGACGACGGTCTGAGACAACATGCACAGCGGCATCGCCCAGGTCAGATACGACGCGTCGTCCGAGGGCACCGACACCAGTGCGTCCCAGATCCAATGGAAGGCAATGACCGCTACCAGGCTTTTCGTGCTCAGGAACAGGCAGGCGAAGACGATCCCGGCGAGGAAGATGATCAGCATCTGGCTCGCCACCTGCGTCGCGGTGCGCCCGCCGAGAACGCTGACGGCGTGGAGCACAGAAAACGCGAGCGCCGAGCCGACAACCGCGCCGATCACACCCCCGCCAACCGCGGCGCTGCGCTTGAGCAGAGCGCCGAAGAAGACCTGCCGAAACGCCACCTCCTCGCCAATGGCAACCAACGCAAGCCCGATCAGCGCGACGCCCGGGGGTACCGTCACCAACGCGACGGCGAGCAAACAACCAAAGGCACCATCACAATCGCGTACGCGCCCCAGTGA	MAGLCSRVQPEPRCGDCALCTAQFTQTSLSRTGTLPSRIATLRGTNGAAAKTLEQASAPVVKPEPRQNTTEPTERAPGTKLPPDSAHPDPRLSQKRARRARAEPPQQNKPDDGLRQHAQRHRPGQIRRVVRGHRHQCVPDPMEGNDRYQAFRAQEQAGEDDPGEEDDQHLARHLRRGAPAENADGVEHRKRERRADNRADHTPANRGAALEQSAEEDLPKRHLLANGNQRKPDQRDARGYRHQRDGEQTTKGTITIAYAPQ				NA	NA	NA	NA	NA
AK009_09039	372	acpS_2	COG0736	Holo-[acyl-carrier-protein] synthase	ATGCATGTCGGCACCGATATCGTCCAGATTTCGGCGTTTGCGTCGCAGCTGGACGTCTCTGGCTCGACGTTTACGCGCGTGTTTACGGAGAGGGAGCGGCGCGAGTGTGCGGCCAAGCCCTCGCCCGTCGCGTCGCTAGCCGCGCGGTGGGCGGCGAAGGAGGCCTACATCAAGGCGTGGGCGCAGTCGCGCTACGGGTCGCCGCCCGCGCACTCCGACGTCGATTTCAGCGACATCGAGGTGGTCGCGGACGCGTTTGGCCGCGTTACGATTGCGCTGCGCGGCTCGCTTGTCGACGCGGCGCCGGAGGCAACATCGCTGTCCCTATCCCACGACGGCGACTACGCCATCGCGGTGTGCGTCGTGGGGTGA	MHVGTDIVQISAFASQLDVSGSTFTRVFTERERRECAAKPSPVASLAARWAAKEAYIKAWAQSRYGSPPAHSDVDFSDIEVVADAFGRVTIALRGSLVDAAPEATSLSLSHDGDYAIAVCVVG	PGPT0008840_2659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
AK009_09040	1221			hypothetical protein	GTGGCGCAGGATGCCGTCGTGCTCTTGGGCGGCGCCGGGCAGGAACCCGGGGACGTCGACAAGCAGCACGAGCGGGATGTTGAAGGCGTCGCAGGTGCGCACGAAGCGGGCGGCCTTGGCGGAGGAGTCGATGTCGAGGCAGCCGGCGAGGACGCTGGGCTGGTTGGCGACGAAGCCGACGACCTCGCCGTCGATGCGGCCGAACGCGACGACGACGTTTTCGGCGCGCTGCTCCATGATCTCCATGAACTCGCCGTCGTCGGCGATTCGGGTGATCACCTCGCGCACGTCGTAGGGTTGCGAGACGTTGTCGGGAATAATGTAGTCCAGCTCGCGGTCGAAGTCGCCGATCTCGGTGTCGGGCTCGGCGTACTCCGCCGGCGCGTTCAGTCGGCTGTTGCTGGGAAGGTAGCCGACGAGGTCGCCGACCCAGTCGAGGGCGTCGGCGTCGCTGGCGGCGACGTAGTGGCAGTTGCCGGCGCTGCCCATGTGGGTCCAAGCGCCGCCGAGCTCCTCTTGCGTGATGTTCTCGCCGGTGACCGTTTTGATCACGTCGGGGCCTGTGACGAACATCTTCGATGTCTTGTCCACCATGACCACGAAGTCGGTCAGGGCGGGGGAGTAGGCGTTGCCGCCGGCGCAGGCGCCCATGATCACCGAGATCTGCGGGACGACGCCCGAGGCCTTGACGTTGAGGCGGAACGTGGCGGCGATCCAGTCCAGGGACACGGCACCGTCTTGGATGCGGGCCCCAGCGCCCTCGTAGAGGCCAATCAGCGGTCGGCCTGTGGTCACGGCGAGCTCCTGGAGCGCGACCATTTTCTCGCCGTAGACCTCGCCCAACGCGCCGCCGAAGACGGTGCCGTCCTGGGAGAAGATGCAGACCTCGCGGCCATCGATGGTGCCGAAGCCGGTGATGATGCCGTCGGTGACGGGACGCTTGGAGAACATGCCGAAATCGTGGGTGCGGTGGCGCGCGAGCTGGCCGGTTTCGACGAAGGAGTCTTCATCGAGGAGGTAATCCAGCCGCTCGCGCGCGGTCATCCTCCCGGCGGCCCGGACCTTCTCGTGGGCTGCGCTGCCCAGCGGCGCCTGCGATTCCTCGCGGCGGGCGAGCAGATCGGCGATCTTGTCTGCCGTCGTGCGGGGCGCCGTGGCGAGCCGCTCGACCGGTTTGTACGGCGAAATCGTCATACGGCGCACAATAATGCGGGGTGGTAG	MAQDAVVLLGGAGQEPGDVDKQHERDVEGVAGAHEAGGLGGGVDVEAAGEDAGLVGDEADDLAVDAAERDDDVFGALLHDLHELAVVGDSGDHLAHVVGLRDVVGNNVVQLAVEVADLGVGLGVLRRRVQSAVAGKVADEVADPVEGVGVAGGDVVAVAGAAHVGPSAAELLLRDVLAGDRFDHVGACDEHLRCLVHHDHEVGQGGGVGVAAGAGAHDHRDLRDDARGLDVEAERGGDPVQGHGTVLDAGPSALVEANQRSACGHGELLERDHFLAVDLAQRAAEDGAVLGEDADLAAIDGAEAGDDAVGDGTLGEHAEIVGAVARELAGFDEGVFIEEVIQPLARGHPPGGPDLLVGCAAQRRLRFLAAGEQIGDLVCRRAGRRGEPLDRFVRRNRHTAHNNAGW				NA	NA	NA	NA	NA
AK009_09041	162			hypothetical protein	GTGCTTGCGCGCCGGGCGCGCCACAGTTTTTCCGCGCAGAAGGCGCAGGTTGGCGGCGATGGTCGTGCGGGTTTCCGAAGGCAGGATGACGGCGTCGATAAGCCCGCGCTCGGCGGCGTTGTAGGGGTTGAGGATGGTGTCTTCGTACTCGCGCTCGAATGA	MLARRARHSFSAQKAQVGGDGRAGFRRQDDGVDKPALGGVVGVEDGVFVLALE				NA	NA	NA	NA	NA
AK009_09042	594			hypothetical protein	GTGGCGGGGGCCGTTGACGACGGCGGGCTGGGTACCCAGGAAGCGGTCCAGGTCACCGCGGTGGATGCCGCGCACGGACAGCATGCGGGAGCGGGCATCGCGCCCGCTGGAGGTGGCGGATGCGGCCGCGCCGAGGATGAACGCGAATGCGAGCGCGTGCTCGGGGTGCGACGCGGCGGCCACGCCGAGGCTGCCCTGGGAGTGCCCGGCGAGGGCGGCGGAGTCGATGTCGAGCCCCAGCCCGCGCAGCTGGTCCGTGGCCGCGATCTGGGCAAGCACGATGCCGGGCACGGACACGGCGGGGAGGCGGTCGACGTCGTTGACCGCGGTGGCCTGGTCGGGGTCCATGATCGCGCGCAGACGCTCAACGACGCCCGGAACGCTCGAGGCCAGGGGACGGGCGATTGGTCCGGTTACGCTGCGGGCAGCATCAAGAAGCGAGTTGAGGCGCGCGTGGGTCATGGGGGTCGCGGCGGCGTCGGCCAGCGCAAGCTGCCAGTTGGTACCCTGGCCTTGGAAGATTACGGCGGGCGAGGTCATGCTGGTCAACGGGGTGAGGTTCTTCATTGCTGTGAAAGTCCTTATCGGTTCTAG	MAGAVDDGGLGTQEAVQVTAVDAAHGQHAGAGIAPAGGGGCGRAEDERECERVLGVRRGGHAEAALGVPGEGGGVDVEPQPAQLVRGRDLGKHDAGHGHGGEAVDVVDRGGLVGVHDRAQTLNDARNARGQGTGDWSGYAAGSIKKRVEARVGHGGRGGVGQRKLPVGTLALEDYGGRGHAGQRGEVLHCCESPYRF				NA	NA	NA	NA	NA
AK009_09043	657			hypothetical protein	GTGCTCGACCAAGGTGTTCTTGTGCTGCGTGAACACGTCTTCGGAGTACATGCCGCCGCCGGCAAGCTCCGTCCAATATCCGGCGTTGGCGGCCGCGGCGACGATCTCGCCGTCCGCGGACGTCGGGGTCATGCCTCCGAGGATGATCGGGGAAAGGCCGGTCAGCGTGGAAAAGCGGGTCTGCGTGTACGTCTCGCCGTCGGGGAGGCGCACCAGGCGGGGCGCGAAGCGGGAGTAGTCGGCGGCCTCCGGCACAGGTGCGCCCGGGCGGGCGAGGTTGTCGCGCGCGGTCGCGCTGTCCGCGGTGATCACGGGCACGCCCGCCCCGGCGACGAGCTTGGTGGTGATGCTCGCCACGGCCGGGTCGAGCGCGACGATGTGGCTTACGCCCTGCTCAAGCAGGCCGCGCACCAGCGCGGGATAGTCGTGGGGGTCGTGCAGGATGGCCTGGGCCAAGTCGCGCGGGGTGGTCTCGCCGAGATCGATCCCGCAGGCCTGCGCCCACTTGACGGCCAGCTCGACGGCGTCCTCGTTGCCCTCGTTATGGAAGGGGTAGGCGACGGGAAGGAAATCGTAGACCGGGTTCATCTCCGAGCCGCCGAACTCGGCGGCCTCCAGCCTCGCGTTGAACTCGGCCGCGGCGGCGTTGATCGCTGA	MLDQGVLVLREHVFGVHAAAGKLRPISGVGGRGDDLAVRGRRGHASEDDRGKAGQRGKAGLRVRLAVGEAHQAGREAGVVGGLRHRCARAGEVVARGRAVRGDHGHARPGDELGGDARHGRVERDDVAYALLKQAAHQRGIVVGVVQDGLGQVARGGLAEIDPAGLRPLDGQLDGVLVALVMEGVGDGKEIVDRVHLRAAELGGLQPRVELGRGGVDR				NA	NA	NA	NA	NA
AK009_09044	1014			hypothetical protein	GTGCGCGACAGGGTAGGCAGCCAGCAGCTTATCGACGCCCTCACGCGCGTCCACCCCCAGCTCAAACAGCGACTCGATCTCGCCGTGGTCGCTGGGGTTCAGGCGCGCCTCGACGCGCTGCAGCACCGCGAGGAAGCGATTGTCCCACGAGGAATCCGTGAACGGGTAGGCGAGCTCGACGAACCGGTTGACCCACTCCGCGTAGGTCATGGTTTCAATGTCGCCGAAGAACGGCTTCGAGGTCTTCGACAGGGCCTCGATGATCTCGTCGCGGCGCTCGTCGTACTCGTCGATGGACAGGCTCGTGATCAGCCGCGACGCGCGCGCGAACGAGTTGTCGAGATCGTGGATGTCGGCGAGCAAGTGGCTTTGCGACGACGCCACGCCGTTGCGCCCCGTGCCGCGCGAAACCCAACCGCCGTTCTCATCCGGGGTAAGTCCCTTGGTGTTGACCAGCAGGTCCTTGACGGAGTCGGTGGCCTTGGCCTCCTTGGTGGCCATGGCGACGGTTCCAATAAACACAGCGTCGACCGGCATGAGAGGCAGGTCCCAGCGCGTCGCCCAGTCACCGGTGATGAGATCGGAGGCGCGCTCGGGGGAGTAGACGCCTCCGCCGACGGTGAGATAGGCGTTGTCGTGCTCACGCACCTCGCCGTAGGTCTCGATGAGAATGTCGTCAAGGTCCACCCAGGAGTGGTGTCCTCCGGCGTGGCCGTCTTCGACCATGAGGATGACGGGCACGTCGGGGTTGGCTTCGGCGATCTTCAACACCGCGCGGACCTGTGCGGTCGTACCCGGTTTGAAGGCGATGTAGGGGAAGCCGTCGGCACGCAACTGAGCAAGAAGGTCTGTGGCCTCCTCGACCTCGGGGATGCCGGCCGAGATGCAGACCCCGTTGAACGGTGCGCCCGCGGCGCGGGCTTTGGGCACCATGCGGGTCTGACCGAACTGGAGGTTCCACAAGAAGCGGTCGAAGAACATGGTGTTGAACTGGGCGGTGCGCCCCGGCTCTAG	MRDRVGSQQLIDALTRVHPQLKQRLDLAVVAGVQARLDALQHREEAIVPRGIRERVGELDEPVDPLRVGHGFNVAEERLRGLRQGLDDLVAALVVLVDGQARDQPRRARERVVEIVDVGEQVALRRRHAVAPRAARNPTAVLIRGKSLGVDQQVLDGVGGLGLLGGHGDGSNKHSVDRHERQVPARRPVTGDEIGGALGGVDASADGEIGVVVLTHLAVGLDENVVKVHPGVVSSGVAVFDHEDDGHVGVGFGDLQHRADLCGRTRFEGDVGEAVGTQLSKKVCGLLDLGDAGRDADPVERCARGAGFGHHAGLTELEVPQEAVEEHGVELGGAPRL				NA	NA	NA	NA	NA
AK009_09045	324			hypothetical protein	GTGCCAGACCAGTGTCGGGGCGGCCTTGAGGTACTCCTCGACACTGGTGGCGTCGGCGAGGCGGGAGAAGCGCTCGGTGGCGGTGACGCCGGCGTCGAGAAGCGAGTGCGTCGTGGCGGCCTCGAAGCGGCCGAGGAGCTCGGCGACGGGCTCGTTCTTCTTGGTGATTCCCGCGACCGCGACGGGGCCGGGGATGATGCGGACCTGGTCGGCAGTGTAGCGGGGGTCCTGGGCCTGCCACAGCGTGTCCTTGCCAAACCAGACCTTCAAGTCCCCGTCGATCGCGGGCACCCACGGCATCGGCTTCGGGTAGGCGTAGTGTAG	MPDQCRGGLEVLLDTGGVGEAGEALGGGDAGVEKRVRRGGLEAAEELGDGLVLLGDSRDRDGAGDDADLVGSVAGVLGLPQRVLAKPDLQVPVDRGHPRHRLRVGVV				NA	NA	NA	NA	NA
AK009_09046	411			hypothetical protein	GTGGGTCACCAGCGTGCAGGCCCAGGTCTGGGAGAGCTTCCAGTTGCCGTCCTCGAAGACGAACTCGACGTTGTCGGCAAGCTCGGTGGCCTGGTTCGGCTGGGTAAAGCTCACGCTCGCGAGCACGGTGTTCGGCTCGTAGCCAGGCAGGACGGGGTCGACGACCTGGAAGTTGGCGCCGGATTCCTGCTGCGACTGGGCCATGACGTCGAACAGTTCGGGCGCGGTCTGGCCACCCTGCACCGTGTTGACGCGCTCTTCCATCGGCAGGTTGGGGTCGGTTGCTCGCATGAGCACGCCGTTGAGCTCAGCGGCGGTGGGAAGCTGGGCCGCCGGAGCTGCTTCGGCGGATCCCGGGGCGGATGCCGTGGTGGCCTGGGTGGTGGTGGGGGCGGTTTCCCCGTCGGTTGA	MGHQRAGPGLGELPVAVLEDELDVVGKLGGLVRLGKAHAREHGVRLVARQDGVDDLEVGAGFLLRLGHDVEQFGRGLATLHRVDALFHRQVGVGCSHEHAVELSGGGKLGRRSCFGGSRGGCRGGLGGGGGGFPVG				NA	NA	NA	NA	NA
AK009_09047	1623	yheS_3	COG0488	putative ABC transporter ATP-binding protein YheS	GTGCTCACCGACATCGCGTTCGCTGTGCCCTCCGGCTCGGTCACCGGGCTCATCGGGGAAAACGGCGCGGGCAAATCGACGCTCCTCGGCGTGATCTCGGGCGAGCTTCACCCCGACGCAGGCACGCTGGTCACCCCGCCGCTGACAGGGTTCATCGCCCAGGAAACCTCCCTGCCGTTTACCGAGCCAGCTTCATCGCTTATCGACGCCGCCGTACACGAACTGCGCCTCATCGAACGCGACATCACGGAGTTCGCCGAGCGCATGGCCAGCGAACCGGACAACGATTCACTCGCCGCCTCGTTCGACCGCGCCCTCGCCCGCGCCGAGAACTCCGGGGTGTGGGAGCTCGACGCGCGCATCGCGACCGTATTGGCTGGGCTGGGCCTTGCCAACGTTTCGTTGGCGACCCCGCTGGGTGAGATGTCCGGTGGCCAGCGTCGCCGCTTCGCCCTGGCGACGCTGCTGCTGCGCCCCGTCGACGCGATGGTGCTTGACGAGCCGACCAACCACCTCGACGACGAGGCCGTGGACTTTCTCATCGACGAGCTGCGCGCGTTTGACGGCCCCGTGCTCGCTGCCTCCCACGACCGCTTCTTTCTTGATGCCGCCTGCGACGGGCTCGTCGACCTCGACCCCTCGCTCGGTCCAGAGGGCGGCTTCGGTGAGAGCACGCGCCAAGGCGCGCGCTTTTCCGGATCCTTCAGCGACTACCTGGCCGCGCGCCACGCCCGCCGCGTGCGCTGGGCCAGCGACTACGCCGCCCAAGAACACGAGCGCGTGCGCCTAAGCAAGGCCGCCGAGCAAAGCGCCGAGGATGTCTTTAATTCCCAGGACAACAAGACAGAGGTGCGGGCCTCAAAGAAGTTTTACGCCGATCGCGCCGCCAAAACCGTGGGCAACAGGCGGCGCTCTGCTGAGAACAGGCTCGATGCCCTAGAGCGCTCCGAGATCCCCGCGCCCCCAGCGCGCCTGGAGTTTCGTGGCCTGCCGCCCCACACCCTGACCAGCCTGGGTCTGCCGGCGGTGGTGGCCAAGCAACTCAGTGTCGCCGACCGCCTCGCACCCCTGGATGTGAAGGTGCAGCCCGGCGACCAACTGCTGGTGGAGGGACCGAACGGGTCCGGTAAATCCACGCTGCTCAAGATTCTTGACGGCACCTTGTCCGACTACGGCGGCGAGCTGATCATGCCCGAGGAAATGACGATCGCGAGGCTTGAGCAGGACGACTCTTGGCCGGACCTGACGCGCAGCGCGGAGGACGTTTTCGATTCCCTCGTGCCCGACGGCACACCCTCGCTGGTCAGCCTCGGGCTGATGAACGAGGAGCAGGCGGCGACACCGCTCGAGGACCTTTCGTTGGGCCAGCGCCGCCGCGTCTCCCTCGGGGTCATCCTCGCCTCTCCTCCAGACTTGCTGCTGTTAGACGAGCCCACCAACCACCTCTCCCTGGTTCTCGCAGAAGAGCTCGAGGTCGCGCTCGCCGATTTTGAGGGCACAGTGATTATCACCAGCCACGATCGGTGGCTGCGCAGGCGGTGGCGCGAGCGCATTAGTAAGGGGGACTCGCGCGCTCGGGTGTTGACGCTGTCCACGATGTGGACGGATGAGGTGTGGCGTTAG	MLTDIAFAVPSGSVTGLIGENGAGKSTLLGVISGELHPDAGTLVTPPLTGFIAQETSLPFTEPASSLIDAAVHELRLIERDITEFAERMASEPDNDSLAASFDRALARAENSGVWELDARIATVLAGLGLANVSLATPLGEMSGGQRRRFALATLLLRPVDAMVLDEPTNHLDDEAVDFLIDELRAFDGPVLAASHDRFFLDAACDGLVDLDPSLGPEGGFGESTRQGARFSGSFSDYLAARHARRVRWASDYAAQEHERVRLSKAAEQSAEDVFNSQDNKTEVRASKKFYADRAAKTVGNRRRSAENRLDALERSEIPAPPARLEFRGLPPHTLTSLGLPAVVAKQLSVADRLAPLDVKVQPGDQLLVEGPNGSGKSTLLKILDGTLSDYGGELIMPEEMTIARLEQDDSWPDLTRSAEDVFDSLVPDGTPSLVSLGLMNEEQAATPLEDLSLGQRRRVSLGVILASPPDLLLLDEPTNHLSLVLAEELEVALADFEGTVIITSHDRWLRRRWRERISKGDSRARVLTLSTMWTDEVWR	PGPT0027935_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027935-tylC|oleB|carA|srmB-K18230	NA	NA
AK009_09048	1236			hypothetical protein	ATGCCGTCCAGGCCGATGTGCAATGGCGCGACCATGTTAACCCCCGTACTCGACGGCGCTGGTGATGTCCTGGACAACGCGCGTCTCGGCCTGGGGGCCGGCGTACACGACGCGGGTGGTGGCCTTGACGGCGCCCGCCACGGGCAGAGGTCGGCGAAGGTCGACCGTGATTTCGCCTTCGGAGGTGGTCGACGCCGCGTCGACGGTCAAGGTCGCGCCGTTGAGCTCGCCGGCGACCTCGTTGTCGATAGTGACCTCCTGCTGCGTGGGGCGCTCGTCCACAGTCACGTCCAAGGTGACGGTGTCGCCGTCAAGAGCGGTGACGGTGTAGGTTGTGGTGCGCCGCATGCTGGCGTCGCCCGTGATGCGGTTGGTCACCGTCCACGACCCGCCCACACCGACGGGCTCGGCGGGGAAGACCACGTTGGTCGAGGCCAGGGTGAGCAGGGAAGACTCAACGATCTGCCGGCCGGTCGACGAAGACTCCGGCGGGGCCAAGAGCTTGAGCGTATCGACGCGCCCCGCGGCGTCGGCACGCCAGCTCATGAGGAACCCTTCCGCGGTGGCGACCTCCTGGCCGAAGGCGAGGTCGGAGTGCGAGCCGGACCCGACAGTGAAGTCGATGCGCCGCGCCGCGTCGTTCTCACCGCTGCCTGGCGCCGGGGCGGGCTGCGCGGTCACGCTCAGCGGCAGCGTCACGCGGTTGACGTCGCCGCCTGCCGGGGCCTGCTGCTCCACAGCACTGGTGGCCTGTACGGATTGGTCGATCCCGCCGGAGACGCGCACCTCGGTCTCCCACGGTTCGGTGTCACCCGTGTCGCCCGTGTCGTCGAACCGCAGCGGGCGCGGGTCGGCACCGGCCTCGACGAGGGTGACGCTGGGGGCATCCGGGGCGAAAGCGGGCACGTCAGCGACGGGATCGGGCTCGCCTCGGCTGCAGCCCGTCAGCGCCACGGTGCTGGCGAGTATCCCGGTGAGGGCCCCTGCGAGGAGTCGACGCTTTACTATCACCCTTTGAACTTACCGCACCGTGCACGGCTAAAGTTGTCAGGCGATGGAGGACAACGTGAACGTGCAAAGTGGCCCCCGCGCGCGGTGGACCTGGTACATCGTGGGCATCATGCTGGCGATCGCCTCGATCGACCAGGTGGTCAAGCAGCTCATGTTGAGCATGCTGACCCCGGGCGAGCCCGTGCCCGTGATCGGCGACTGGTTCCGTTTGTACCTGCTGTTTAA	MPSRPMCNGATMLTPVLDGAGDVLDNARLGLGAGVHDAGGGLDGARHGQRSAKVDRDFAFGGGRRRVDGQGRAVELAGDLVVDSDLLLRGALVHSHVQGDGVAVKSGDGVGCGAPHAGVARDAVGHRPRPAHTDGLGGEDHVGRGQGEQGRLNDLPAGRRRLRRGQELERIDAPRGVGTPAHEEPFRGGDLLAEGEVGVRAGPDSEVDAPRRVVLTAAWRRGGLRGHAQRQRHAVDVAACRGLLLHSTGGLYGLVDPAGDAHLGLPRFGVTRVARVVEPQRARVGTGLDEGDAGGIRGESGHVSDGIGLASAAARQRHGAGEYPGEGPCEESTLYYHPLNLPHRARLKLSGDGGQRERAKWPPRAVDLVHRGHHAGDRLDRPGGQAAHVEHADPGRARARDRRLVPFVPAV				NA	NA	NA	NA	NA
AK009_09049	291			hypothetical protein	ATGCGCGTTCTTCCTCTCGGCGGCGAACACTGCCAGGACGAACACGATCACACCCACGGTGATCGAAGCGTCCGCGATGTTGAACACCGCGAAGCCGCCCACCGAGATGTAGTCCACAACGTGGCCGAACCAGAAGCCGGGCTCGCGCAGCAGGCGGTCGATGAGGTTGCCCAGGGCGCCGCCCGCGATCATGGCCAGCCCCAGGGCTTCCCAGCGGTCCTTGATGCGCGGCGCGGCAATCAACGCGCCCACCACGAACGCCAACTGGATCGTGGTGAACAGCCAGGTTGA	MRVLPLGGEHCQDEHDHTHGDRSVRDVEHREAAHRDVVHNVAEPEAGLAQQAVDEVAQGAARDHGQPQGFPAVLDARRGNQRAHHERQLDRGEQPG				NA	NA	NA	NA	NA
AK009_09050	486			hypothetical protein	GTGCGTGACCGCGTGGCGCCCGTCCGAGGTCACGGCGAACTTCCACCCGGAGGAGGGGTGGCGCCCGATTGGGGCGTCGATGGTGCCCACGATCGGGTCAGGCAGGCCCTGGACCACGGCGTGGTAGGTCTTCGACACCGTGCGCTCCTTAAACGCGCGCTTGAGCACCGAGTAGCCCTGCACGCTGTTGGCCACCACCATGACCCCGGAGGTGCCCACGTCGAGGCGTTGGACGATTCCCTTGCGCTCGGGCGGGCCGGCGTCGGGAAGCGGAAAGCCCATCGCCGTGAGACCGCCGACGACGGTGGGGCCCTCCCAGCCCAGCGTGGGGTGCGCGGCGACGCCGACCGGTTTGTCCACCGCGATCACGTCGTCGTCGCTGTAGATGATGCTCAGCCCGTCGACGAGCTCGGCCTTCGGCGCCGGGGGCTTCTGCGGCTCGGGCAGCGTGACTTCGAGCAGTGCGCCGGCGCGCACGCGGTCTGA	MRDRVAPVRGHGELPPGGGVAPDWGVDGAHDRVRQALDHGVVGLRHRALLKRALEHRVALHAVGHHHDPGGAHVEALDDSLALGRAGVGKRKAHRRETADDGGALPAQRGVRGDADRFVHRDHVVVAVDDAQPVDELGLRRRGLLRLGQRDFEQCAGAHAV				NA	NA	NA	NA	NA
AK009_09051	249			hypothetical protein	TTGCGATGCGTCTCACGCGCGCAGCACCTCGAGCGCGTGGGCGAGATCGGCCGGGTACGGGGATTCAACCTCCATGAAGTCGCCGGTGCGGGGGTGGATGAACCCGAGCTTGGTGGCGTGCAGCCACTGGCGGATCAGCCCGACGCGCTTGGCCAGGTTTGGATCCGAGCCGTACATCGGGTCGCCAACGCACGGGTGGCCCACGGCGGACATGTGCACGCGGATCTGGTGAGTGCGGCCGGTTTCTAA	MRCVSRAQHLERVGEIGRVRGFNLHEVAGAGVDEPELGGVQPLADQPDALGQVWIRAVHRVANARVAHGGHVHADLVSAAGF				NA	NA	NA	NA	NA
AK009_09052	426			hypothetical protein	TTGTGTCCTTCCAAGGCGAGCTCAGCCCCGCTGAGGCGGCGGACGTGGTGGAGCCTGTGCGACGCGTCAGCGCGGTGGTGTTTCCAGGTGCGCCCCCGCGCCCAATACCGGAGCCCGTGGCGGGGCGCAGCCGCGCTGAGGTGTTTACCCACGAGGCCGACCGGGCGCGCGCCGCGGGGTTCGACGTGGCCGACTCCCCGCAGTCGGTGTTGGTTAAGGATGCGCCCGCGGTGCTGCGCGACATCGCCGCGGACAGCCGCGTTTTCGCTGTGGAAGCTCTGCCGCCGGACGCGCGCGTCGGCACGTTCGGGATTTCACCCGTGCGACCTCACAGTTTCGACGCAGCGCCTTCATCTAACGTTTCACCAATGTCTACTTAACGCCCAGGAAGCATGTCGCGCTGGCGTGTATAGTTTTTCGAGTTAG	MCPSKASSAPLRRRTWWSLCDASARWCFQVRPRAQYRSPWRGAAALRCLPTRPTGRAPRGSTWPTPRSRCWLRMRPRCCATSPRTAAFSLWKLCRRTRASARSGFHPCDLTVSTQRLHLTFHQCLLNAQEACRAGVYSFSS				NA	NA	NA	NA	NA
AK009_09053	1632			hypothetical protein	TTGGTTTCCGTCCCCGGAATCGACACATCCCGTGACCGCACGACCGCGCAGCCCGGTCGGAAGCGGGGCCTCGGGAGGGCAAAAGCAGCGACCGCACTTGCGGTCGCCTCATTGCTTTTCGCCACGGCGTGCGGTGCTGGTGGGGATGAGAAGAAGAAAAACGGCTTGGCCGCCGGTGACTACACCGTCGTGCGCGAAGACGACGTCACCAACAGCATCGTTGTCAACGGCAACATCTCACCAGCCCGCACGATGAACTTGACCACCCCGCTGCAAACAGAGGTGGAAAACGTTGCTGTGGCCCCCGGCGACCGCGTAGCCGTGGACCAGTTCCTGCTGGACATGAACTCCACCGCCGCGGAAGCCCAGCTTGCTCAGCAACAGCAGCAGCAGGCCAACGCGCAGGCGGATGCGGTACAGGCGGCGGAAGCGGCCCAGGCGCAGCTCAACGCCGTGCGGGACCAGATCAACCGCGGGACCTACCCCGCGATCGCCCAGGCGCAATCCGCCGTGAACCAGGCCCAGGCGGCTTACGACGCAGCCGTCGCTGGCCAGGGCGCTGTCGCCATGGACGCCTCGGTCAACCAGATCAAGCGCTTTATCGGTGACATCAGCTCCGGTGGCGCGCCGCACCCCGCGCCGCAGCCGGTTCCAGTCCCGGTGCCGGTGCCTGTTCCTTCCCCTGAACAACAGCAGTTGATCCAGCAGCGCATCGTTGAGCAGGAGCAGGCCGCCCAGGCCCAGCAGCAGGTGGTAACCCAGCTCAGCGTGGCCCAGGCCGAAGCCGCACTGCGCGAGGCCTACGCCCAGCTTGACGTCGCGCGCACCCAGGCCGCCCAGGAGCGCGATCAGCTCAAGCGTCAGGCCGAATCGGCGTGGCGTCAGGCCGAAATGGCGAGCAATGCAACCGGTGACGGTGCCCTGGAATACCAGGTGCAGTCCGCAACTGTTTACGCCCCGATGGGCGGTCTGGTCACCAGCGTTGACGTCAAAGAAGGCGACGTGCCCCAGGGCAAGCTGCTGACCATCGTCGATGATTCGCGGCTGCTGATCCGCACCCAGGTGCGAGAGGTGGATATGCCCAACATCAAGACCGGTAACCGCGTCACGTTCACGAGCACCGCGACGGGTCCCAAGGAATTCGCGGGCCGGGTGTCATGGATTTCGCCCGTTGGCGCGCCGGGAGAGGGCGACCAGCAGGCCAACGCATCCGTGATGTTCCCCGTTGACATCGAGGTCACGGGTGATAAGGAAGGGCTGCTGCTCGGCGGCAGCACGCGAGCGGAAATCATCACGGAACAAACCCCAGACTCGCTGTCCGTGCCCCTCGACGCGGTCTACGACGACGCCGGGACGAATAAGGTCCTCGTGCTGAGCACTGACGAGGGCGACAAGCGCGGCACCGTCGAAGAGCGCACGGTGGAAACCGGCGCGGCCAACGAGGTCGACGTCGCCGTGACCGGCGGCGACCTGAAGCAGGGTGACATCGTGATCAACTGGCCCGATCAGTACCGCGACAAGCTCGGCGACACCGTCGCCGTGGCCGACCCGAACTTCAATCCCGACGAGGTCGCCCAGGCCCGAGCCAGCTCCGCGCCCGCTCCCACCACGAGCGCCCAGAACAAGGGGTAG	MVSVPGIDTSRDRTTAQPGRKRGLGRAKAATALAVASLLFATACGAGGDEKKKNGLAAGDYTVVREDDVTNSIVVNGNISPARTMNLTTPLQTEVENVAVAPGDRVAVDQFLLDMNSTAAEAQLAQQQQQQANAQADAVQAAEAAQAQLNAVRDQINRGTYPAIAQAQSAVNQAQAAYDAAVAGQGAVAMDASVNQIKRFIGDISSGGAPHPAPQPVPVPVPVPVPSPEQQQLIQQRIVEQEQAAQAQQQVVTQLSVAQAEAALREAYAQLDVARTQAAQERDQLKRQAESAWRQAEMASNATGDGALEYQVQSATVYAPMGGLVTSVDVKEGDVPQGKLLTIVDDSRLLIRTQVREVDMPNIKTGNRVTFTSTATGPKEFAGRVSWISPVGAPGEGDQQANASVMFPVDIEVTGDKEGLLLGGSTRAEIITEQTPDSLSVPLDAVYDDAGTNKVLVLSTDEGDKRGTVEERTVETGAANEVDVAVTGGDLKQGDIVINWPDQYRDKLGDTVAVADPNFNPDEVAQARASSAPAPTTSAQNKG				NA	NA	NA	NA	NA
AK009_09054	717	yknY_5	COG1136	putative ABC transporter ATP-binding protein YknY	ATGGCCGAATCCGGCCTGTTGATTGACATGCGCCGCATTGTCAAAACCTACAACCCCGACGAGCCCAGCGAGGTCAAGGTCCTCCACGGAATCGACTTCTACACCGAGCAAAGCGAGTTCGTCTCTATCGTCGGGCCCTCGGGCTGCGGCAAATCGACATTGATGAACCTGATCGGCATGCTCGACCGCCCCACAGAGGGCGCCTACGCGTTCAACGGCGAGCCCGTCTACGCCAAGCAGGACCAGGAGTTGGCGTCTTACCGCAGCCAGAACATCGGCTTCATCTTCCAGAACTTCAACTTGATCGGGCGCATTGACGCGCTACAGAATGTTGCGATGCCCATGATGTACGCGGGCGTCGATAAGCGAGAGCGCGAAGAAATCGCCGCCGAGCTGCTCAAGAAGATGGGGATGGGCGACCGGCTCAAGCACCTGCCAAACGAGCTTTCGGGCGGTCAGAAGCAGCGCGTCGCCATCGCGCGCAGCCTCGCCAACGACCCAGACCTGCTGCTTGCCGACGAACCAACCGGCGCCCTGGATTCCTCGACCGGGCGCATGGTCATGGACCTGTTCCACGAGCTTCACCAGGAGCTGGGCAAAGCAATCGTGTTCATCACCCACAACCCCGACCTTGCCGAGGAGACGGAGCGAATCGTGGAGATGAAGGACGGCAACATCTCGAATATCCGCCGCCCCAAGGCAGGGGTTGTGCGATGA	MAESGLLIDMRRIVKTYNPDEPSEVKVLHGIDFYTEQSEFVSIVGPSGCGKSTLMNLIGMLDRPTEGAYAFNGEPVYAKQDQELASYRSQNIGFIFQNFNLIGRIDALQNVAMPMMYAGVDKREREEIAAELLKKMGMGDRLKHLPNELSGGQKQRVAIARSLANDPDLLLADEPTGALDSSTGRMVMDLFHELHQELGKAIVFITHNPDLAEETERIVEMKDGNISNIRRPKAGVVR	PGPT0013345_7288	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_09055	2004			hypothetical protein	GTGCGGGTGCTCCTCCCACAGCTCGGAGTAGTCGCCTACGCGCTCGGCGATCCACAGCGTGTTGTCGCAGCCGTCGGGCACGGTCGAGTCCCAGAGCTCGCGCATCTGCGCCGCGGACTTGATGTAGTAACCGGTGCCGTCGAACTTGAAGCGGTCCTGGTCCATCATGGTCTTGCCGGTCTGGACGCACAGCATCGCCTCGTGCGCCGGGGCCTGCGACTCGAGCACGTAGTGGCAGTCGTTGGTCACCAGCGGCGGCAGCTCGAGGATCTCACCGATTTTGAGCAAGTCATCGCGCACCCTGCGCTCGATGTGCAGGCCGTGGTCCATCAGCTCGAGGAAGTAGTTGTCTTTGCCGTAGATGTCCTGCCACATCGCGGCGGCCTCCAGGGCCGCGTCGAACTGGCCGAGGCGCAGGCGCGTCTGCACATCGCCCGAGGGGCACCCGGTCGTGGCGATGATGCCGTCGGCGTACTCGGCGATCAGCTCCGCATCCATGCGCGGCCACTTGCCCAGCTGCCCCTCGTAGGACGCGAGCGTGGACAGCTTGAACAGGTTGCGCAGGCCCGTGGCGTTCTCCGCCAACATGGTCTGGTGGAGGTACGCGCCGGACGCGGAGACGTCGTCACGCTTCTGGTCCGGGGTTCCCCACAGCACGCGCTTTTTGTTAAAGCGCGACTCAGGCGCCATGTAGGCCTCGATGCCGATGATCGGTTTGACGCCCGACTCGATCATGCGGCGGTAAAACGCGTTGGAGCCGAACATGTTGCCGTGGTCGGTCATCCCCACCGCGGGCATGCCCTGGCGGATTACCTCGTCCGCGAGCAGGTCCACCTTTGCCATGCCGTCCAACATGGAAAATTCTGTGTGGTTATGCAGGTGGACGAACGAGGAGTTTTTAGCCATGCGGCTATCCTAGCCCGCACGCCGACACAGCAAAACCACCCAAATCACAGGGGTGTAACCCGGACGGTTCTACTCGTAGCGCAGGGCGTCGATAGGCTGCATCTTGGCGGCCTTCGACGCCGGGTAGGCACCGAAAAACACGCCCGTGGCCAGGGAGAATGCCAAAGACATCAGGACGGCGCCGATGGGTGGCCAGACAAACGCGTTAAACGCCGAGGTGGCAATCATGCCGATCGCGGAGCCCAGCACGATGCCGATGATGCCGCCGACGAGGCAGACCAAAATCGCCTCGACGATGAACTGTGTGCGGATGTCGCGTTGCGTCGCGCCGAGCGCCTTGCGCACGCCAATCTCGCGGGTGCGCTCCGTGACGGTGATCAACATGATGTTCATCACGCCGATGCCGCCGACGACCAGGGAGATGCCGCCGATCGAAGACAGCACCGTCGAGATGATCCCAAACACGTTGGTCAGCTCTTCGAGGCCCTTGGACAGATCAACCACCGTTATCTCATAGTTCGGGTTGCGCTCGTACCAGCGGTTGACGTAGCGCTGCAGCTCCGATTGGAACGCCGCCGTGTCTTCGCCCGCGCTCGACTGCACAGAGAACCCCGTAATAGCCGTTACTGGCGCGGCCACCCGCTCCGCCGCACCAATCGGGATGTACGACTCGGCCGTAGTGGTCCCACCGGAGGACATCCCGGCGTTGCCCTCGTCTTCCAACACGCCCACGACAGTGAAGACGGCCGTATGGCTGCCGACGGCAACGTCAATGCGCTCGCCGAGGGCCGACTGGGAGTCGCCGTTGAAAAGGGCGTCGATAAGCGGCTTCGACACCACGGTCACCGGCCGGCCCTGGGCGATGTCGTCGGCATTGAGCGCCCGGCCGAACTGCACATTCTTGTTACGCATGGTCAGCGTGTCCGCCAGCGAGGGGTAAACGGTGATGGCTGTGTCGGTTTGCTCGCGCGTGACCTGGCCCGAGTTGTACACCGAGCTAATCACGTCAACGCCCTGGATGCGGGGGCCGAAGTGGGCGCGCATCTGCTCGAGCTCCTCGAACGAAATCTTGTCCTGGTCGTCCCTCGGTGGTGCTGA	MRVLLPQLGVVAYALGDPQRVVAAVGHGRVPELAHLRRGLDVVTGAVELEAVLVHHGLAGLDAQHRLVRRGLRLEHVVAVVGHQRRQLEDLTDFEQVIAHPALDVQAVVHQLEEVVVFAVDVLPHRGGLQGRVELAEAQARLHIARGAPGRGDDAVGVLGDQLRIHARPLAQLPLVGRERGQLEQVAQARGVLRQHGLVEVRAGRGDVVTLLVRGSPQHALFVKARLRRHVGLDADDRFDARLDHAAVKRVGAEHVAVVGHPHRGHALADYLVREQVHLCHAVQHGKFCVVMQVDERGVFSHAAILARTPTQQNHPNHRGVTRTVLLVAQGVDRLHLGGLRRRVGTEKHARGQGECQRHQDGADGWPDKRVKRRGGNHADRGAQHDADDAADEADQNRLDDELCADVALRRAERLAHANLAGALRDGDQHDVHHADAADDQGDAADRRQHRRDDPKHVGQLFEALGQINHRYLIVRVALVPAVDVALQLRLERRRVFARARLHREPRNSRYWRGHPLRRTNRDVRLGRSGPTGGHPGVALVFQHAHDSEDGRMAADGNVNALAEGRLGVAVEKGVDKRLRHHGHRPALGDVVGIERPAELHILVTHGQRVRQRGVNGDGCVGLLARDLARVVHRANHVNALDAGAEVGAHLLELLERNLVLVVPRWC				NA	NA	NA	NA	NA
AK009_09056	1410			hypothetical protein	GTGGGACTTGTTAAACGCATACGAGGCGAACGGCTCAATCGTGCCCCACAGCGCGTCGACGGCGTCCTTAGAGAACCCGTTGGAGAACATGCCCTCGGAGAACTTCGTGTACTCCTTGGCCAGCACCTCGGGCTTCTTCTTACCCATGGCCTTGCGGAAGCCGTCTGCTTCACCGGCGGTGTAGTTCGCCACCTTCTGCGAGATCCTCATGATCTGCTCCTGGTAGACGATCAGGCCGTAGGTCTCGTCGAGGATCTCCCTCAGCGGCTCCTCGAGCTCCGGGTGAATCGGCGTAATCGGCTTGCGGCCGTTCTTTCGGTCCGCGTACGCCTCGTGCGCCCTGACGCCCATCGGGCCCGGGCGATACAGCGCGAGGGAGGCGACGATATCGTTAAACCCGGTCGGCTTCATGCGCTTGAGCAGCTCCTGCATGCCAACGGAGTCGAGTTGGAACACGCCGAGGGTGTCGCCGCGCGAGAGCAACTCGTAGACGGCAGGGTCGTCGATGTCGAGGGTTTCCAGGTCGATCGTCTCGCCCCGGTTTTTCTCGATGTTGGCCATCGCGTCACCGATGACGGTGAGGTTACGCAGGCCGAGGAAGTCCATCTTCAGAAGGCCGATCGCCTCACACGCCGGGTAATCCCAGCCGGTGATCAGCGCGCCGTCCGCCGGGCGCTTCCACATCGGGATGTGGTCCATCAGCGGCACCCGGGACATGATCACCGCGCAGGCGTGCACGCCTGCCTGGCGCACCACGCCCTCGAGGCCGCGGGCGGTTTCGTAGATCTTGGCCACGTCCGGATCCGTCTCAATGAGCGAGCGGACCTCCGCGGCCTCTGGGTAGCGCTCGTGCTCCGGGTCCGTGATCCCCACCAGCGGAATGTCCTTGGCCATAATCGCGGGCGGCAGCGCGCCGTTGATGCGGTCGGCCATCTGGAAACCAGGCTGGCCAAACCACACCTTGGCCGCGTCCTTAATGGCCTGCTTCGTCTTCACGGTGCCGAAGGTGATCACCTGCGCGATCTTGTCCTCGCCCCAACGCTCGGCCGCGTAAGTGATCATCTCCCCGCGGCGGCGGTCGTCGAAGTCGATATCGATATCCGGCGCGGACGGGCGCTCCGGGTTCAGGAATCGCTCAAACAACAACCCGTGTTCGATGGGATCGATGTTGGTAATCGTCAGCGCGTACGCGACCAGCGCGCCGGCGGCCGAGCCACGGCCAGGGCCGACGCGGATGCCGATTTCGCGGGCGTGCTTGATGATCTCCGCGACGATAAGGAAGTACGAGGGGTAGCCCTTCATGTCGATCACGTCGACCTCGTAATTCGCGCGGTCGATGTACTCCTGCGGGACCTCTTGGCCCGGGAAGCGTTCTTCCAGCCCGCGCATGACCTCCTTGCGCAGCCATGA	MGLVKRIRGERLNRAPQRVDGVLREPVGEHALGELRVLLGQHLGLLLTHGLAEAVCFTGGVVRHLLRDPHDLLLVDDQAVGLVEDLPQRLLELRVNRRNRLAAVLSVRVRLVRPDAHRARAIQREGGDDIVKPGRLHALEQLLHANGVELEHAEGVAAREQLVDGRVVDVEGFQVDRLAPVFLDVGHRVTDDGEVTQAEEVHLQKADRLTRRVIPAGDQRAVRRALPHRDVVHQRHPGHDHRAGVHACLAHHALEAAGGFVDLGHVRIRLNERADLRGLWVALVLRVRDPHQRNVLGHNRGRQRAVDAVGHLETRLAKPHLGRVLNGLLRLHGAEGDHLRDLVLAPTLGRVSDHLPAAAVVEVDIDIRRGRALRVQESLKQQPVFDGIDVGNRQRVRDQRAGGRATARADADADFAGVLDDLRDDKEVRGVALHVDHVDLVIRAVDVLLRDLLAREAFFQPAHDLLAQP				NA	NA	NA	NA	NA
AK009_09057	543			hypothetical protein	GTGGCCCGAGACGTAGAGCCCGAGCATCTCCCGCTCGAGCGCCAGGGTGTGCTTCCGGTCCCACTCGTCGTCAGGCACGTCGATGGTGAACACGGCCTGCTCCGCGCCGCCCTCGCCCGCGAAGCTGGCGAACAGGTCGAACTGGCCCTTGTCCGCGGCCCTCTTGGTGGTCAGCACCGAATCAACCGCGTCCTCCTGCACGAGCATCAGTCCCTTGCGCGGGTGGCCCAGCGAGTCGAACGCACCCGCCTTGATCAGGGACTCCGTGATGCGCTTGTTACAGGCGAGCAGCTCGATCTTGTCCAGGTAGTCGGAGAAGCTCGAAAACGCCCCCTTCGTGCGGCGGGTTTCCTTGATCGACTCCACCACTTCCACGCCCACGTTGCGCACCGCGGCGAGGCCGTAGCGGATGTCGCTGCCCACAGCCACGAAGTTCTCTTCGGACTCGTTAATGTCCGGCTGCAGCACGCTAATCCCGAGGTGGCGGCAATCCGCGAGGTAGATCGCCGACTTGTCCTTCTTATCGCCGACAGAGGTCAATAG	MARDVEPEHLPLERQGVLPVPLVVRHVDGEHGLLRAALAREAGEQVELALVRGPLGGQHRINRVLLHEHQSLARVAQRVERTRLDQGLRDALVTGEQLDLVQVVGEARKRPLRAAGFLDRLHHFHAHVAHRGEAVADVAAHSHEVLFGLVNVRLQHANPEVAAIREVDRRLVLLIADRGQ				NA	NA	NA	NA	NA
AK009_09058	153			hypothetical protein	GTGGTCGCCGAGAACCATCAGCTGCGACTGGTCGCCGTGGACGAGGTTGAGGTAGACGTCGGAATCGCCCGGGTTGGTCGACAGGACGTGCTTGAGCTTGCGGATGTTATCCAGGGTGCACTGCTCCGTGCGCATGGTCAGGCGCAGCGGTAG	MVAENHQLRLVAVDEVEVDVGIARVGRQDVLELADVIQGALLRAHGQAQR				NA	NA	NA	NA	NA
AK009_09059	363			hypothetical protein	GTGGTTCGAGTTGAAGTAGTCGGGGAGCACTCGCGCGGTGATGCGCTCAAAGTCCTCGCCGGAATCGAACACGGGGGTGCCGTCGGCGGAGAAGATGGAGAAGCTGCGGCCACCAAAAGCGTAGAGCTCGTCGTAGCAGCCGCTCTCGTCGTTCAGGCCAAAGGCGGTGCTCATGTTGAGGCGTCCGGCGCCGGCATCGGAGCGCATCGCGGCAACCTCTTCAGGCGACAGGCCGCCGATGTTGTCGCAGACCGGGGCAATGCCCTTTTTGCCGAAGTCCTTCAGGCGCTCTTCTTCGGAGTAGGCGTCCCAGTCGCGGGAGTCGCCTTCGTTTGCGGTGACGATGTAGGTCTCGCCCGCTGA	MVRVEVVGEHSRGDALKVLAGIEHGGAVGGEDGEAAATKSVELVVAAALVVQAKGGAHVEASGAGIGAHRGNLFRRQAADVVADRGNALFAEVLQALFFGVGVPVAGVAFVCGDDVGLAR				NA	NA	NA	NA	NA
AK009_09060	852			hypothetical protein	GTGCTTCACGGAGGCGGATGCGATGTCGACGACCGCAATGGCGTTGTTCTCCTGGAGCGAGACGTATGCCGTGCCGCCGGAGACGGTGATGTATTCCGGCTCGAGGTTCTGCGCGACGGTGGCGGAGTCGCCGACTTGGCCGAAGACATGGACACCGTCCGGCAGCTCGCCGGGGGTGTTGAAGGCGGAAAAGTCCGCGGTGCGCACATCCTCTTGCTCGGATGCCTCGACGCCGCTGCGCAGCGCGATAACGGACACGGAGCCCTCGGGGTCGACGGAGTAGTCGCTGGCGGGCTCACCCTCGTTCGCGACCAAGGCGTAGCTGCCGTCCGCGGTGAGGGTGACCATGTCGGGCAACGCGCCGACGGTGACGCGGCCGAGCGGCTCAGAAGCCAACTCGCTAGCACCCGCGTTGAAGAAGATCAGCTCCCCTTCCTCGGTCTTGGTGGCGGGCTCCACGGTGGCGACCGCGAGGCCGTCGGCGCGCACGGCGACGGAATTGATCGTGGTGCCCTCGCCGCCCGACACCGAGCCGATACGGGTTGGGTTGGCCGGGTTGTTGACATCGAGCACGTCGATGACGCCCGCGTTGGCGTTGACCGTGAGCAGGCGCTTCGATGCGGCGTGGTAGGCGACAATCTCAGCGGCGGATTTGTCGAACACCTTGGTGTCGTAGGAGCCGATGGGCTTAATCGAGACGGTGGCGTCGGGAGCGCTGTCGTGGACCGGGTCAGTGACAATCGCCGCGTGGGCAGGAGTAGCGAGGGCGAATGCGGAGGCAAGTGCGGTCGCAGCAGCACCGAGAGCTGCGGGGCGGGGGATGCTCACTTAAGGGGCACCTTTCACGAATAA	MLHGGGCDVDDRNGVVLLERDVCRAAGDGDVFRLEVLRDGGGVADLAEDMDTVRQLAGGVEGGKVRGAHILLLGCLDAAAQRDNGHGALGVDGVVAGGLTLVRDQGVAAVRGEGDHVGQRADGDAAERLRSQLASTRVEEDQLPFLGLGGGLHGGDREAVGAHGDGIDRGALAARHRADTGWVGRVVDIEHVDDARVGVDREQALRCGVVGDNLSGGFVEHLGVVGADGLNRDGGVGSAVVDRVSDNRRVGRSSEGECGGKCGRSSTESCGAGDAHLRGTFHE				NA	NA	NA	NA	NA
AK009_09061	954			hypothetical protein	GTGCAGCGATGCCGCCCCTTTCGGCTCCACGGCAATGATCGACGTCAGAGGCGACATGTCGGCGAGGTAGGACGCCACACCAGCAAGCAGCCCGCCGCCGCCGACGGGGACAGCGACGCTGCCGAGCTCGCGACCGAGCCCGGTGAGCTGGCTGAGGATCTCCGCGGCGACGGTCCCCTGCCCGACCATGGTGGCGCGGGCGTCGAAAGGCTCGACGACGGTTGCGCCGCGCGCGATCGCGTCGGCACGCGCAGCCTCAGCCGCCTCGTCGAAGCTGTTGCCCACGACGACGAGCTCGATCGCGTCGCCGCCATGGACGAGGATGCGGTCGCGCTTCTGCTTCGGCGTCGGCTTGGGCACGAAGATCTTGCCGCGAATGCCCATCGCACGGCAGGCGTACGCCACGCCTTGGGCATGGTTGCCTGCCGACGCCGCCACGACGCCCGCCGCCTTCTCCTCCGGCGTGAGGTTGGCGATGTTGTAGTAGGCGCCGCGGATCTTGTACGAGCGCACGTCCTGCAGGTCCTCGCGCTTGAGGTACACCTCCACCCCGTACTGCTGCGACAGGCGGGGGCAGTACTGCAACGGGGTGGGCTCGATGACGGACGAAATCCTCGCCTGCGCCGCCTGGATGTCGGCTGCGTGCACGGGCTGGAAGTTCGTTGTCTCGCTCATGGACAGCCAGTTTATCCGCAACGGTTCCGGCCCGAGGGCGCGAGGCACCCAAGAGGGGCCGTTTACCGGGCCTTAACCAGACCTTCACCCAAACCTGCCCCCGATTCCATCTCGGGGCCACACGGCTCAGTTAAAAATAACCTGTCAGTTACATCCATTATTCGTGAAAGGTGCCCCTTAAGTGAGCATCCCCCGCCCCGCAGCTCTCGGTGCTGCTGCGACCGCACTTGCCTCCGCATTCGCCCTCGCTACTCCTGCCCACGCGGCGATTGTCACTGA	MQRCRPFRLHGNDRRQRRHVGEVGRHTSKQPAAADGDSDAAELATEPGELAEDLRGDGPLPDHGGAGVERLDDGCAARDRVGTRSLSRLVEAVAHDDELDRVAAMDEDAVALLLRRRLGHEDLAANAHRTAGVRHALGMVACRRRHDARRLLLRREVGDVVVGAADLVRAHVLQVLALEVHLHPVLLRQAGAVLQRGGLDDGRNPRLRRLDVGCVHGLEVRCLAHGQPVYPQRFRPEGARHPRGAVYRALTRPSPKPAPDSISGPHGSVKNNLSVTSIIRERCPLSEHPPPRSSRCCCDRTCLRIRPRYSCPRGDCH				NA	NA	NA	NA	NA
AK009_09062	240			hypothetical protein	ATGCTTGAGACCGCGGTGGATCAGCGAGCGCTCCATGATCTCGGCGTAGCGCAGCACGTCGTTATTGCCCCCGGAGATGATGCACACCACCGTGCTGCCCGGCTCGAACTTCACGCCGTTAAGTCCCGTGACCGCCAGCGCACCCGCCGGCTCGGCGATGATGCCCTCGTTTTGGTACAGGCTGAGCATCTCGGTGCACACGGCGCCCTCGTCGGCAATGACCATGTGGATGCGGCTTAG	MLETAVDQRALHDLGVAQHVVIAPGDDAHHRAARLELHAVKSRDRQRTRRLGDDALVLVQAEHLGAHGALVGNDHVDAA				NA	NA	NA	NA	NA
AK009_09063	594			hypothetical protein	GTGGTTGCTCGTGGTCGCGCTGTCGCCGGTCGGGTTGTGCATCTCCTGCCTTCGCAGCGCGCACACCCCGTGGCAGTTCGCACTCGGGGTAGCCGCAGCGGCCTGTATCGCTGCCGCGCTGCTGCGCCACGTTCCCACGTACTCGGCGCTTGCCCCGAGGGATTTTTTGAGCCGCTCGTTCCCGCTGCTCTTCGCCAGCTACGTGCCCAGCGTCATCGGGCACTGGCAGGGTGGGTTGGCGCTGGTAGCGCTTGTCCACCCGCTCATCTGCTACTTGTTCATCGCCAGCCGCGAGCACCTGCACGAGTGGGCGCGGCGGCGCTAGGTAACCGCTCTTACCCGGAGACGATGAAGTCGTACTCCTGCGTGCCGGGCTGCAGCCGGCGGCAGTCGATCGGGGATGCGTCCATGCGCTCCATGAGCGGCTCCAGATCCCGCGCGCGGGTCAGCTCGAGGCCGACGAGCGCGGTGCCGGTTTCGCGGTTGTTCTTTTTCAGGTACTCGAACAAAACGATGTCGTCGTCAGGTCCGAGGATATCGGTGAGGAAGGTGCGCAGCTGGCCCGGCTCCTGCGGGAAGTTCACCAGGAAGTAA	MVARGRAVAGRVVHLLPSQRAHPVAVRTRGSRSGLYRCRAAAPRSHVLGACPEGFFEPLVPAALRQLRAQRHRALAGWVGAGSACPPAHLLLVHRQPRAPARVGAAALGNRSYPETMKSYSCVPGCSRRQSIGDASMRSMSGSRSRARVSSRPTSAVPVSRLFFFRYSNKTMSSSGPRISVRKVRSWPGSCGKFTRK				NA	NA	NA	NA	NA
AK009_09064	216			hypothetical protein	GTGCTGGTCAGGGGCACCTCGCGCCGCCTATACCGTGCGCTCGATCAGCGCGAACCCCCAGGGCTCCAAGGTTGTGGAGTCCGCGGTGACCTCCGGGTTGGTAAAGGAGTACACCAGGTTGCCGCCGACGGGCACGGTGACGGGGGCGTCGCTGAAGTTGCAGGCGAGGGTGACAGGCTCGGGGGAGTCGTAGCTCATGGTCAGCCAGGTCTCTGA	MLVRGTSRRLYRALDQREPPGLQGCGVRGDLRVGKGVHQVAADGHGDGGVAEVAGEGDRLGGVVAHGQPGL				NA	NA	NA	NA	NA
AK009_09065	1038			hypothetical protein	GTGGAGATCGCGCAGGTCCTCGCGGGCGAAGCCGTAGCGCTCGCGCAGGCCGATGAGCGCCTGGTAGGCCTCGAAGACTTCGTCCTGGTCGCGGTCGAACTCCCACTTCAATCGGGCCGACTCGAAGGTCGCCGGGGCGGAGGGGTCGGGCACGTCGTCGGGGTCCCAGCCGAGGCGCGAGAACTCGTGGAAGCGGCCCTCGCGGGTGAGCCGGTTGAGCTCCTCGTCAGTGTGCGAGCAGAAGAAGGGAAACGGCGTGCGGGCGCCGAACTCCTCGCCCATGAACAGCATCGGGGTGAACGGGGAGCACAAAACGACCGCCGCTTTGATCATCTGCTGGGCAGGCGAGAGGTACTGCGAGGGGCGATCACCCGCGGCCCGGTTACCGGTTTGGTCGTGGGTGGTTGTGTAGGTGATCATGCGCCACGGCCCGATTGCGTCGAGGTCCAGGGGGCGCCCGTGCGTGCGGCGCCGGTACTCCGACCACGTGTCGCGGAAGCGGTAGGCGTGGCGCAGGGTGTCCGCGAGGATGTCGACGGTGCCGAAGTCCACGTAGTACGCCTGGCGTTCCCCGCTAACCAGGGTGTGGATGCAGTGGTGGACGTCGTCAAGCCATTGCGCGCTCAGGCCGTAGCCGCCGACGGACTCGTCGTTGACAATGCGCGGGTCGTTTTGGTCCGTTTCGCCGATGATGGTGCGCGGCACCCCGGTTGCTTCCGCCACCGAGTCGGAGACGCGGCGGATTTCCTCCATGATGGAAAACGCGCGCCGGTCGTCGTAGGCGTGCACGGCGTCGAGGCGCAACCCATCGAGGTGGAACTCGTCGAGCCACTGGCGCACAGCGTCGAGGATGTAGGCGCGCACCTCGTCGGAGCCGGGGCCGGAGAGGTTGACCACATCGCCCCAGTCGGTGTGCCCGGCGGTGGTGTACGGGCCGAAGGAGCCGTTGTAGTTCCCTTCGGGCCCGAAGTGGTTGTAAACCACGTCCAAGATCACCGCGATGCCTTTGTTGTGGGCGGCGTCGACAAGCTTTTTTAG	MEIAQVLAGEAVALAQADERLVGLEDFVLVAVELPLQSGRLEGRRGGGVGHVVGVPAEARELVEAALAGEPVELLVSVRAEEGKRRAGAELLAHEQHRGERGAQNDRRFDHLLGRREVLRGAITRGPVTGLVVGGCVGDHAPRPDCVEVQGAPVRAAPVLRPRVAEAVGVAQGVREDVDGAEVHVVRLAFPANQGVDAVVDVVKPLRAQAVAADGLVVDNARVVLVRFADDGARHPGCFRHRVGDAADFLHDGKRAPVVVGVHGVEAQPIEVELVEPLAHSVEDVGAHLVGAGAGEVDHIAPVGVPGGGVRAEGAVVVPFGPEVVVNHVQDHRDAFVVGGVDKLF				NA	NA	NA	NA	NA
AK009_09066	597			hypothetical protein	GTGGGTGGCGGCGGCGAGGAGGGCGTCGACACGCTCGCGCTGCCCGGCGGGGAACGCGAGGGTGTACTCGGCCAGGCTGCCGTAGGTGATGTCGGCGATGTCGACGCCAGCGTTGCGCAGCTCGGCCTCTATGCGCCCGGCGTCGGCGTGCGGCAGCGCCACGGTGGCCAGCTCGGCGACGCGGCGCCGCACCCTGGGGACATAAATCAGCGTTTCCGAGACGGCGTTGGAGTACGCGTGAACGAGCCCGCCGGCGCCAAGCTTGACGCCTCCGAAGTACCTGGTCACCACAGCCGCGATGTCGCGCATTCCGGAGCCGCGCAGCACGTCGAGCATCGGGGTGCCCGCGGTGCCCGAGGGCTCGCCGTCGTCGGAGGAGCGCTCGATCGGGTTAGCCGCCTCGCCGCTGACGATGCAGGCGAAGCAGTGGTGGCGGGCGTCGGGGTATGCGGCGCGGGCGGCGTCGACAAGCGAGCGGGCGGCGGCCTCGTCGTTGGCGCGGGCGATCCAGGCGATGAAGCGCGAGCGTTTGATCTCGAGCTCTGCGGTAACCGGGTCGCCTTCGGCGGGGAGGTCGTACGGGAGCGGAGTAGTTGA	MGGGGEEGVDTLALPGGEREGVLGQAAVGDVGDVDASVAQLGLYAPGVGVRQRHGGQLGDAAPHPGDINQRFRDGVGVRVNEPAGAKLDASEVPGHHSRDVAHSGAAQHVEHRGARGARGLAVVGGALDRVSRLAADDAGEAVVAGVGVCGAGGVDKRAGGGLVVGAGDPGDEARAFDLELCGNRVAFGGEVVRERSS				NA	NA	NA	NA	NA
AK009_09067	264			hypothetical protein	ATGCCTTTAGTAGTTGTCCCTGTGGTTGACGATTTTCTGCACCTTGTTGTAGTTCACAAACCCGCCGACCACGCCGATGATCAGGCCGAGGATGAGGATGGTGAAGGAAAACGGCGAGCCGATAAGGAAACCGAGCGCAATGCCACCGACCACGCCGCCGCCGGCGAAGGCCACTGCGTTGCGGGAGTAGCGGCGCACGGCCTGCTTGCGCGCTTCGATCGGGTTGTTGGGGCGGGGCTGCATTGTCATGGCTCTAAAGTCTAG	MPLVVVPVVDDFLHLVVVHKPADHADDQAEDEDGEGKRRADKETERNATDHAAAGEGHCVAGVAAHGLLARFDRVVGAGLHCHGSKV				NA	NA	NA	NA	NA
AK009_09068	378			hypothetical protein	ATGACTGAACCCGACGGCGCGCCCGTCCGCCTCGACGTGTGGCTGTGGGCGGTGCGTATTTTCAAGACCCGCTCGCAATCCGCTGAAGCGGTGCGCGCCGGGCACGTCAAGCTCGGCGGGGTGTCCGCCAAGCCCGCCGCCCAGGTGGTGCCGGGCGACCACATCCGCGTCTGGAAGGACCACCGCTACCTAGAGTTCGAGGTCACGGGCACAGTGCGCAAGCGCGTGGGGGCTCCGGTGGCGCGCACGATGTACGTCGATAAGTCCCCGCCACCGCCGCCGCGCGACATCTTTGCCACGCTGCCGGTGCGCGACCGGGGGGCCGGGCGCCCGACGAAGAAGGACCGCCGCGCCATCGATCGGCTGCGCGGGTTCTAG	MTEPDGAPVRLDVWLWAVRIFKTRSQSAEAVRAGHVKLGGVSAKPAAQVVPGDHIRVWKDHRYLEFEVTGTVRKRVGAPVARTMYVDKSPPPPPRDIFATLPVRDRGAGRPTKKDRRAIDRLRGF	PGPT0014620_1889	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
AK009_09069	240			hypothetical protein	TTGCAGCGAGCGGGTTTACGCGGAACCCGGCGCCTACCCGCGGCCGGCGCGCAACGCCGCCAAACGCGTGCCCAAGCGGTCGCGGCGCAGCTTCGGGCGGTTGCCCAGCTCCGCGGTGCGCTCGATGTGCTCGGTGGCAAAACGGTTCAGCAGGACGTCGTCGATAATGCGCACCTGCCCGGGCACGAAGGCGTAATTCATCGCGCTGCCCACGGCTTCCAAGTCGGCGGCGTTGACTAG	MQRAGLRGTRRLPAAGAQRRQTRAQAVAAQLRAVAQLRGALDVLGGKTVQQDVVDNAHLPGHEGVIHRAAHGFQVGGVD				NA	NA	NA	NA	NA
AK009_09070	339			hypothetical protein	GTGGGCGCGCAGAAGCTCCATGAGGAAGCGGTAGTCACTCGGGCGCGACAGCGGAAAGCGGCTGCCCAGAAGCACCGTGAGCACGCCGGGCAGCGTCTCCGGCGCGAGCTCGGCATCCACGCCCGTGTCCACGGAGTGGTGGGGGTTGTTGATGCTGGCGATCTGGTCGAACTGCTGGTCGGCGAGCTCGATCAGGCCGGCGGCAAGCGTGAACGCGCGGTCGATCTGCGGGTCCGGGGCCTCCCCGGAGCGCTTGTAGCGGATGTCGTGCTCGAACTCCGCCCACGCGTGCTGCAGCACGGTGCGGATCTGCACCTCAAACTGGGTGCCCGCGTATGA	MGAQKLHEEAVVTRARQRKAAAQKHREHAGQRLRRELGIHARVHGVVGVVDAGDLVELLVGELDQAGGKRERAVDLRVRGLPGALVADVVLELRPRVLQHGADLHLKLGARV				NA	NA	NA	NA	NA
AK009_09071	1851	treY	COG3280	Putative maltooligosyl trehalose synthase	GTGTTCGAGCAAACCCACCGGATCCTGCGCCAGCTCATCGCCGAGGACCTGATCGACGGCGTACGCGTGGATCACCCGGACGGCCTGGCGGACCCGTTTGACTACCCCCCCCGCCGGCGCGGGCTGATGGGCGACGACCGCTGGCTCGTGGTGGAGAAAATCCTCGGCGTCAACGAGCCGCTTGACCCGCGCCTCGCCGTCGACGGCACGACCGGCTACGACGCGATGCGCGAGTTCGACGGGGTGTTCATCTCGCGCGAGGCGGAGGACTCGTTGAGCATGCTGGCGATGCAACAGTCGGGCTCGACGTGGGACGAGGCGGCCATTTCCGCCGCCGAGCACCAGCTCAAGCGCGACGTGGCGTCCTCCGAGCTGGGCGCGGAGATCCAGCGCCTCACCCGCGCGATTCGCCGCGACAACTTCTCCACGGCCGGCTCCACCGTCTCCGACGAGGACCTGCGCTCGACCGTGGTCGAGCTCGTCGCGGCGATTCCGGTGTACCGCGCTGACTACATCTCCCTGTCGCGCATCACCTCCTCGGTGGTGGCCGAGATGGCGCGCCGTTTCCCCTCCCGGCGCGACGCGCTCGATCTGATCACCGCCGCGCTGCTGGCTAACAGTGAGGCGAAGACGCGTTTTTCCCAGGTCTGCGGCGCGGTGATGGCCAAGGGCGTGGAAGACACCCTGTTCTACCGCGCGAGCCGCCTTGTGGCGCTGCAGGAGGTCGGTGGCGCTCCCGGCCGGTTCGGTGTGTCTGCGGCCGAGTTCCACCTGCTGCAGCAGGAGCGCGCCAACCTGTGGCCGCTTGCGATGACCTCGCTGACCACGCACGACACGAAGCGCACGGAGGACACCCGCGCGCGGATCATTGAGATTACGGAGGTTGCGAACGATTTCGCCGAGCTGGTGCGCCAGGTCAACGCGATCGTCCCGGCGCCCGATGCCGCGACCGCGCACTTTCTCATCCAGAACCTGCTCGGCGTGTGGCCGCACGACGGGGAGATTACGGAGTCGCTGCGTTCCCGCCTGCACGACTACGCGATCAAGGCGGTGCGCGAAGCCGGGGTGAAGACGAGCTGGTTCGATCAGGATGAAACGTTCGAGCAGGCCATCACCGACTGGATCGACGCGCTGCTCTCCGGCCCGGTGACGTCAGCGATCACGGACTTCGCCGCGCGCTTGCACGGCGGCGCAATCCAGGTCTCTCTGGGCCGCAAGATGCTGCAGCTCATCAGCCCCGGTATCCCGGATACCTACCAGGGTCAGGAGTACTTCGACCTCTCGCTGGTTGACCCCGACAACCGCCGCTTCGTCGACTACACGCAGCGCGCCCAGACGCTGGAGCAGTACCTCGAGTTCAAGGCAGGCACCGATCGCTCGCTGGCGGCGTACCTGGCGTTCGGCGAGGAACCCGCCGAGGGCGCCGGGGACGCAGTCTCGCCCGCGGTGTACCCGCACCTGCCGGAGATCATCGACCGCGCGAAGCAGGCCGTCGTCCGCGAGGCGCTGATGCTGCGCCGTGAGCACCCGGATGTGTTCTTGGCCGGGGAGCACCAGCCCGTCTTCGGTGTCGGCGAGGCGGAATCGCACCTGGTGGGCCTCGCGCGCGGCGACGGCGATGTGCGCGGCGCGGCGGGCCTGTCCGTCATCGCGCTGGCAACGCGCCGCCCCCTGCTGCTTGAGCGTCGCGGCGGTTGGGGCGACACCACGGTGACCCTGCCGGAGGGCAGCTGGGTCGACCGCGTCTCAGGCCGAACGTTCGAGGGCACCGTGCCCGTCGCCGACGTGCTCGAGGTCCTGCCCACGGCTCTACTCGTCTCGCGACGGCTGATCAACTCCGTGGCCCTGTAA	MFEQTHRILRQLIAEDLIDGVRVDHPDGLADPFDYPPRRRGLMGDDRWLVVEKILGVNEPLDPRLAVDGTTGYDAMREFDGVFISREAEDSLSMLAMQQSGSTWDEAAISAAEHQLKRDVASSELGAEIQRLTRAIRRDNFSTAGSTVSDEDLRSTVVELVAAIPVYRADYISLSRITSSVVAEMARRFPSRRDALDLITAALLANSEAKTRFSQVCGAVMAKGVEDTLFYRASRLVALQEVGGAPGRFGVSAAEFHLLQQERANLWPLAMTSLTTHDTKRTEDTRARIIEITEVANDFAELVRQVNAIVPAPDAATAHFLIQNLLGVWPHDGEITESLRSRLHDYAIKAVREAGVKTSWFDQDETFEQAITDWIDALLSGPVTSAITDFAARLHGGAIQVSLGRKMLQLISPGIPDTYQGQEYFDLSLVDPDNRRFVDYTQRAQTLEQYLEFKAGTDRSLAAYLAFGEEPAEGAGDAVSPAVYPHLPEIIDRAKQAVVREALMLRREHPDVFLAGEHQPVFGVGEAESHLVGLARGDGDVRGAAGLSVIALATRRPLLLERRGGWGDTTVTLPEGSWVDRVSGRTFEGTVPVADVLEVLPTALLVSRRLINSVAL	PGPT0014125_727	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014125-treY|glgY-K06044	NA	NA
AK009_09072	381			hypothetical protein	GTGCAAATTGACCCAACCGTGCTTCGGGATGTCCAGCATGTCCGCCGGGATGAGGTTGCCGTAGGCGACAACGGGCACAGCGTCCGGGGCGATCTCGCGCAGCACCTGGCGGATCTCCCCGTTGTCTTTCAGAGTCTGCGGCGTCAACACCTCGATGCCGTGGCTGTGCGCAAGCTCCTTGACGGGCGAGGGGTGCAGGCTGCGGCCCCGGCCCTTGCGCGCGTCGGGCCGGGTGATCACCGCGACCACCTCGTGCTCGGAGGCGATGAGCGTGCTCAACGCCACGGCGGCGGGCTCGGGGGTGCCGGCGAAAACAAGTCGCATGGTGTTTATCTCCTTCATCGTCTTACGCCTGCTGGAACCACTCGGAACCGCGAATGA	MQIDPTVLRDVQHVRRDEVAVGDNGHSVRGDLAQHLADLPVVFQSLRRQHLDAVAVRKLLDGRGVQAAAPALARVGPGDHRDHLVLGGDERAQRHGGGLGGAGENKSHGVYLLHRLTPAGTTRNRE				NA	NA	NA	NA	NA
AK009_09073	489			hypothetical protein	GTGCGCAAGGAGTCGTCGAAACGCGTCACGGGCGCGGCGACGGAGTTGAGCACGGGGTCTCCGAAGAGACGGATCGAGCGGACTGCCATACCTGCGAGCTTAGCCAAGCGCCCCGGCGGCCTAGCCAATGCGCACAGGGTCGACCTGGATCCGCAGCGGCGCGTCCTGCTTCCGCGCCGCGCGCAGGCTCGCCGCGGAGCGCAGCGCGCGGCCCAGCTCGGTGCGCCCGGACAGCGGGCTGCGCACCATCATGCGCTGCGCGGGCCCCAGCTCGCGCTCGTCCCACTCCCCCGGCAGCTGCACGCCGGGCGGCAGGTCCACGGGGCCGAGTGTCTCCGCGTGCGGCGGGAGCTGGGCGTGGGCGAAGAAGTCCTCAAGCGCCTTGCGCGGGGCGTCGACCACGGCGACGTGCACCGCGGGAGGCAGGCGGGTCTCGGCGCGCTGCGCGAGCTCTATGGCGGCGTGGCCCGGCACGTCCCACCGGATTAG	MRKESSKRVTGAATELSTGSPKRRIERTAIPASLAKRPGGLANAHRVDLDPQRRVLLPRRAQARRGAQRAAQLGAPGQRAAHHHALRGPQLALVPLPRQLHAGRQVHGAECLRVRRELGVGEEVLKRLARGVDHGDVHRGRQAGLGALRELYGGVARHVPPD				NA	NA	NA	NA	NA
AK009_09074	498			hypothetical protein	GTGCTGGACTACCGGCAGCGCGGGCTCCGCGACGACGACTACCTCGCCGTCGTCGCTGGCGGCGTCGACAAGCGTGCAGGCGGCGAGCCACTTCTCGAAGGTTTCCTCGGTCGCGCGCAGGTCGGGCCTGCCCAGCAAAGCCCACGTGTCCAGCAGGATCGCCGCGCCGTACCCGCCGTCGGCGACGCGCGGCTCCGCGCCCGGCGTCGCCACCACGATCATCGGTGTGCGCGGCACTTCGGCGATGATTTTTTCGCCCCACGACGAGCGCACCCGCGTCTTGGGAAACGCCCTGCCCAGCTCCTCGGCGGTGCGCTCGGTGCCGAGCACCACCGCGCGCAGCCGCCGCGAGCCACAGACGGGGCACACGTGGGCTGTGTCCATCCGCCCGCACCAGCGACACGTCGGGGCCGCCGCGGGACCTCCCGACGGCAGGCTCAACGGCCCGCTGCACCAGCGGCACCGCGCCGGGGTGCGGCACGCCCCGCAGGCCAGTGA	MLDYRQRGLRDDDYLAVVAGGVDKRAGGEPLLEGFLGRAQVGPAQQSPRVQQDRRAVPAVGDARLRARRRHHDHRCARHFGDDFFAPRRAHPRLGKRPAQLLGGALGAEHHRAQPPRATDGAHVGCVHPPAPATRRGRRGTSRRQAQRPAAPAAPRRGAARPAGQ				NA	NA	NA	NA	NA
AK009_09075	600			hypothetical protein	GTGCATGAGGACGATGAGGCGCAGGTCTTTGACCGGGGCAAACGCCGCCGAGCGCGTGCCGACGACCAGCCGGCCCTGGCCGTGGAGGATCGACAGGTAGCGCGAGTAGCGCGCCTGCGGGCCCTGCGACGCCGTCAGCGTTGTTACCTGCCTTGCACCGACGTGCTCGCGCAGCGCCGCCTCGCACGCGTCGACGTCGCGCTGGTCCGGCACGACGATGAGCACCCCGCCACCGGACGCGGCGACCTTGGCGGCAAGGGCGCTGACGGGATCGGTCCATTTCTCCCCGGGCGCGATCTGCCAGGCGGCGCGGGCGATGCGACCCTCGAGCACCGCGTCGACGAAGGATTGCCCGTGCTCGTAGGTGCTCCAGGCGGACAGATCGGGCTCGCCGACCTCGCCGAGCTCTTCCCAGTCGGTGGTGGTGTCGGTTTCCTCGGCCTTGGCGTAGCGGGCGGGGATGGCGGCGCGGTAGATGTCGGAGCGCACGCCCGCGTAGCGGGCGCTGAGGGCGTCGATGAGCGAGCGCAACTCATCTGGGGCGACGACTTCGTCGCTGATGATGCGCTCGATGAAACGCAACTCGCCCTCGTGCTCTGA	MHEDDEAQVFDRGKRRRARADDQPALAVEDRQVARVARLRALRRRQRCYLPCTDVLAQRRLARVDVALVRHDDEHPATGRGDLGGKGADGIGPFLPGRDLPGGAGDATLEHRVDEGLPVLVGAPGGQIGLADLAELFPVGGGVGFLGLGVAGGDGGAVDVGAHARVAGAEGVDERAQLIWGDDFVADDALDETQLALVL				NA	NA	NA	NA	NA
AK009_09076	354			hypothetical protein	TTGACCCTACTGCTCGGCGGAGGTGACGCGGATCAGCGTGTTCCACGGGTCCTCGAAGGACAGGGTGCGCCCATCGTGGCGCGTGGTCACGCCGTGGTCGTGCAGGCGCGCCTGAAGCGCGCTGAGGTCCTCGTCGCCCGGCAGGTCGATGTCGACCCGGCCCAGGCCCAAGGCGGCGGCGCGGGGGCCAGCGCCCTTGCTGTTCCATGTGTTGAGCGCGATGTGGTGGTGGTAGCCGCCGGCGGAGACGAACAGGGCGGAGCCGATCTCGCCCTTGACCTCGAAGCCGAGGGTGGAGACGTAGAACTGCCGCGCGGCGTCGATGTCGCCGACCTGCAGGTGGACATGCCCTAA	MTLLLGGGDADQRVPRVLEGQGAPIVARGHAVVVQARLKRAEVLVARQVDVDPAQAQGGGAGASALAVPCVERDVVVVAAGGDEQGGADLALDLEAEGGDVELPRGVDVADLQVDMP				NA	NA	NA	NA	NA
AK009_09077	333			hypothetical protein	GTGGTCGGCGCTGCCGGTGAAGTTGCGGGGGTAGAGCTCGGCAACCTTCATCACGGACGCAGCGAGCAGCTCGCGCGTGGGGAAGAGGATCGCGGTGTGGAACAGCCCGGCGTCGTGGCGGCTCGGCGCCGGCAGGTTCGGCTCGCGGCGCAGGGTCATCAGGTGCTCGCCTCCAAGGCCCAGGAGGGCGGTCTCGCCGGTGTGCTCGAACACATCCAAGCCGACGCCGTCGTGGTAGAAGCGCACCATCTCGTCGAGGTCGCGCACGAGCAGCTCGACGGCGCCCATGGTCAGGCCGTCGGGCAGCAGGTCGTCGGGGTTTCGCTTAAGTAG	MVGAAGEVAGVELGNLHHGRSEQLARGEEDRGVEQPGVVAARRRQVRLAAQGHQVLASKAQEGGLAGVLEHIQADAVVVEAHHLVEVAHEQLDGAHGQAVGQQVVGVSLK				NA	NA	NA	NA	NA
AK009_09078	270			hypothetical protein	GTGGGAGCGCTTGGACAAGGTCGAGGCCCTGCAGAAGGCCGCTGCGCTTTAAGTCGCGTCCTCGATCGCCTTGGTAATCCTGCGCCCGCCCTCCTGCAGCTGGCGCAGCTGGGTCTTGGTCAGCGGATCGAAGACCAGCGAGCGCACCGTGGCGACGTGGCCGGGCGCGGTCTCGACGACCTTGGCCATGCCCTCGTCGCTCAAGCTGGCCAGGGTGTAGCGCCCGTCGTCCGGGTCGGGGGTGCGCGTGACCCAGCCGCGCTTTTCTAG	MGALGQGRGPAEGRCALSRVLDRLGNPAPALLQLAQLGLGQRIEDQRAHRGDVAGRGLDDLGHALVAQAGQGVAPVVRVGGARDPAALF				NA	NA	NA	NA	NA
AK009_09079	282			hypothetical protein	GTGGCCGTAGGCGGCGGTCTGCGCGTAAATCGGGCGTTTCAGGTCCAGCTCGCGGATAATCGCGTCGGGGCGAAGGTCGAAGACCTCCTGCACCGCCCGCTGGATGCTCAGATCAGTGTTGCCGTGCTTGGCCGTGCCGAAGGTCTCCACGTACAGCCCCACCGGGTTCGCGCGGCCGATCGCGTACGCGACCTGGACCTCCACGCGGTCGGCGAGGCCGGCCGCGACGATGTTCTTGGCCACCCAGCGCATCGCATACGCGCCGGAGCGGTCCACCTTTGA	MAVGGGLRVNRAFQVQLADNRVGAKVEDLLHRPLDAQISVAVLGRAEGLHVQPHRVRAADRVRDLDLHAVGEAGRDDVLGHPAHRIRAGAVHL				NA	NA	NA	NA	NA
AK009_09080	945			hypothetical protein	GTGGCGGGCCATGCCGCCGTAGGTGTCCACGATGATCTTGCGCCCGGTCAGGCCGGCGTCACCCATCGGGCCGCCGACCTCGAAGGTGCCCGACGGGTTGACCAGCAGCGTCGTGTCGGCGTCGTAAAAGCGGCCCAGGCCGGCGTCCTCGATCACCCACTCGACGACCTTGGTACGCACGGCCTCTTCCAGCTCGGGGCGCAGGAACTTGGGGTCGTGCTGGGTGGAGATCACGATGGTGTCCAGGTGGACCGGAGTATCACCGTCGTAGGCGAAGGTGACCTGGGTCTTGCCGTCCGGGCGAAGGCCCACGACCTCGCCCATCTTGCGCACCTGCGCCAGGCGGCGGGACAGCCGGTGAGCCGTCGAGATCGGCAGCGGCATGTACTCGGGGGTCTCGTTGGTTGCGTAGCCGAACATCAGGCCCTGATCCCCCGCGCCGGACTGCTCGGATTGGTCGGTCGCGCGGTTCTCGCGGACCTCCTGGGAGTTGGTCACGCCGTGGGAGATTTCCTCCGACTGCTCGCCGATCGCGATGTTCACACCGCACGTCCGGCCGTCGAAGCCGACCTCGGAGGAGGTAAACCCGATGCCGACGAGCTTCTCGCGAACGATTTTCGCGATGTTGGAGTACGCGTCGGTGCTGACCTCGCCGACGACATGGACCTGCCCGGTGGTCACGAGCGTCTCGACGGCGACGCGTGCGTCCGGGTCCTGGGCGAGCATGTCATCCAGGATGGCGTCGGAGATCGCGTCGCAAATCTTGTCGGGGTGGCCCTCAGTGACCGACTCGCTGGTAAAGAGGCGGTGGAAGGTCTTCTTCTGCTCGCGCTGGGTGCTGGAGGGTGTAGACAAGGCGGTCTTTCCTTTGGTTTGGGAAGTAACTCCGACCAATATAGACCAAGCTGTCTAATTTGCCAAACTACTTATTCCCGCGCTCGATGA	MAGHAAVGVHDDLAPGQAGVTHRAADLEGARRVDQQRRVGVVKAAQAGVLDHPLDDLGTHGLFQLGAQELGVVLGGDHDGVQVDRSITVVGEGDLGLAVRAKAHDLAHLAHLRQAAGQPVSRRDRQRHVLGGLVGCVAEHQALIPRAGLLGLVGRAVLADLLGVGHAVGDFLRLLADRDVHTARPAVEADLGGGKPDADELLANDFRDVGVRVGADLADDMDLPGGHERLDGDACVRVLGEHVIQDGVGDRVANLVGVALSDRLAGKEAVEGLLLLALGAGGCRQGGLSFGLGSNSDQYRPSCLICQTTYSRAR				NA	NA	NA	NA	NA
AK009_09081	1260	coaBC_2	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	GTGCGGCCGCTTTGCGCTGCAAGTGGGTTAAACTCGGGATTTATGACACAACCCCGCAACGTGGTCGTCGGTGTGGCCGGCGGCATCGCCGCCTACAAGGCCTGTCACCTCATCCGGGATTTCAAGGAGGGCGGCGACGACGTGCGGGTGGTGCCCACGCCGAGCGCGCTCAACTTCGTCGGCGCAGCGACCTTTGAGGCGCTGTCCGGCAACCCTGTGGAGACGGGAGTGTTCACGCGTGTCGACGAGGTCCAGCATGTCCGTGTCGGACAAGAAGCGGATCTGATCGTCGTCGCCCCAGCCACGGCCGATGTGATGGCTCGGATTGCCGCCGGGCGTGCCGACGACCTGCTGACCTCCACCATCCTCGTCGCCACGTGCCCGATCGTTTTGGCCCCGGCGATGCACACGGAGATGTGGCTCAATCCCGCCACCCAGGCCAACGTTAAAACCCTGCGCTCCCGCGGGATCACGGTGCTCGAGCCAGCCCACGGGCGCCTCACGGGCGCGGACAGCGGCCCGGGGCGCATGCTGGAGCCGGAGCAGATCGCTGAGCTAGCGCGCACCGTGGCGGAAACGGGCCCGTTCGGCCGCGCGCTTGAGGGCCAGCGCGTACTGATCAGCGCGGGCGGCACCCAGGAGAACATCGACCCAGTGCGGTTTATCGGAAACCGCTCCTCGGGACGCCAGGGCTTCGCGCTCGCCGAGGTCGCCGCGCAGAAGGGAGCGCGGGTGACCCTGGTGGCGGGCGACACCGACGAACTCTCCACCCCGGCGGGCGCCGAGGTGATCCGCGTGAGCTCAACCCGCGACCTCGAGGAGGCGATGAACGAGCGCGCCGCCGAGGCCGACATCATCATCATGGCAGCGGCGGTGGCCGATTTCCGGCCCGCCAGCACGTCCGACTCCAAGCTGAAGAAGGGCACGGATTCCGACGCGCTGTCGCGGATTGACCTGGTGGAGAATCCGGATGTGCTGCGGGGGCTCGTCGACAAGCGGGAGGCTGGGCAGACCGCGGCGAGGATCGTGGGCTTCGCCGCCGAAACCGACAACGTGCTCGACAACGGCAGGGCAAAGCTCAAGCGCAAGGGGGCGGACATGCTGATGGTCAATTCCGTCGCCGGGGGAGCAGTGTTCGGACAGCCGCGCAACAGCGGGTGGCTGCTGGGCGCGGATGGCTCTGAGGTGGAGATTCCGGACGGCCCGAAGCAGGTCGTGGCCGCGCGGATGTGGCAGGTCATCGAGCGCGGGAATAAGTAG	MRPLCAASGLNSGFMTQPRNVVVGVAGGIAAYKACHLIRDFKEGGDDVRVVPTPSALNFVGAATFEALSGNPVETGVFTRVDEVQHVRVGQEADLIVVAPATADVMARIAAGRADDLLTSTILVATCPIVLAPAMHTEMWLNPATQANVKTLRSRGITVLEPAHGRLTGADSGPGRMLEPEQIAELARTVAETGPFGRALEGQRVLISAGGTQENIDPVRFIGNRSSGRQGFALAEVAAQKGARVTLVAGDTDELSTPAGAEVIRVSSTRDLEEAMNERAAEADIIIMAAAVADFRPASTSDSKLKKGTDSDALSRIDLVENPDVLRGLVDKREAGQTAARIVGFAAETDNVLDNGRAKLKRKGADMLMVNSVAGGAVFGQPRNSGWLLGADGSEVEIPDGPKQVVAARMWQVIERGNK	PGPT0008815_2091	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
AK009_09082	411			hypothetical protein	GTGGCCTTCCTCGTGCTCGAGGAGACCCGCCTGGATCTCGCGCAGAGCGATCGACAGGGGCTTCTCGCCCTGCTCAGGGGTGACCAGGGGGCCGATGAACTCGAACACGCCCTCGTCCTGCTCCTGGTAGTAGCTGTTGATCTGGCGCGCGCGCTTCGCGGCGAAGATCACCAGCGCGTACTTCGACGACACCTTGCCCAAAAGCTCGTCGATCGGGGGCGCGGTAATGCCCTCCGGGGTGTCGTAGACCAGGCTGTCGTCGCGCTCAGCGCGGCCAGCAGCCGCGGAGTCAGTCTCCGCCGTCAGGTCGTTGCTTACGTTGCTCAAAATGAACCTACTCGTTGTTGTTGTTGGGTGTGCTCAGCAGAATGTCCGCTATCGCTGACACTGCGTCACCGACGTTGTCGTTGA	MAFLVLEETRLDLAQSDRQGLLALLRGDQGADELEHALVLLLVVAVDLARALRGEDHQRVLRRHLAQKLVDRGRGNALRGVVDQAVVALSAASSRGVSLRRQVVAYVAQNEPTRCCCWVCSAECPLSLTLRHRRCR				NA	NA	NA	NA	NA
AK009_09083	591	gmk_2	COG0194	Guanylate kinase	GTGGCAGACGTGACGCCGCGGGGCAGGCTAGTCGTACTGGCCGGCCCCTCCGCAGTGGGGAAGTCCACGGTTGTCCATCGTCTGCGCACTGACGTTCCTAACCTCTATTTCTCGGTGTCCATGACCACCCGGGGCCCGCGCCCCGGCGAGGTCGACGGCGAAGACTACTTCTTCGTCAGCGCCGAGGAGTTCCAGCGCCACATCGACGCCGGAGCCATGCTCGAGTGGGCGGACATCCACGGCGGGTTGCAGCGCTCCGGAACGCCCGCGGGCCCGGTGCGCGACGCGCTTTCCGTAGGTCGCCCCGTGTTGATCGAGGTCGACCTGGTCGGCGCGCGCAACATCAAGGCCCTGCTCCCGGAGGCGCAGACAGTGTTTCTCGCGCCGCCGTCGTGGGACGTCTTGGTCGAGCGGCTGACCGGCCGGGGCACCGAGTCCCCTGAGGTCATCGAGCGCCGTCTTGCTACGGCGCGCGAGGAGCTGGAAGCTCGAGGAGAGTTCGACTGCGTCGTAGTCAACGACAACGTCGGTGACGCAGTGTCAGCGATAGCGGACATTCTGCTGAGCACACCCAACAACAACAACGAGTAG	MADVTPRGRLVVLAGPSAVGKSTVVHRLRTDVPNLYFSVSMTTRGPRPGEVDGEDYFFVSAEEFQRHIDAGAMLEWADIHGGLQRSGTPAGPVRDALSVGRPVLIEVDLVGARNIKALLPEAQTVFLAPPSWDVLVERLTGRGTESPEVIERRLATAREELEARGEFDCVVVNDNVGDAVSAIADILLSTPNNNNE	PGPT0021475_4303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
AK009_09084	324			hypothetical protein	GTGGCCCTTCCACAGTTGACCGATGAGCAGCGCAAGGAAGCACTCGCAAAGGCAGCCGAGGCACGCAAGCAGCGCGCAGAGCTGAAGGCATCGCTCAAGCGCGGCGACACTAATCTCAAGGACGTGCTGGACAAGGCCGACTCCGACGAGATCATCGGCAAGACCAAGGTCTCCGCACTGCTCGAGGCCATGCCGAAGGTGGGCAAGGTCAAGGCCCGCGAGATCATGGAGGAGCTCGAGATCGCTCAGACCCGCCGCCTGCGCGGCCTGGGCGAGCGTCAGCGTCGCGCCCTGCTGGAGCGCTTCGGTTTCTCTGAGGCTTAA	MALPQLTDEQRKEALAKAAEARKQRAELKASLKRGDTNLKDVLDKADSDEIIGKTKVSALLEAMPKVGKVKAREIMEELEIAQTRRLRGLGERQRRALLERFGFSEA	PGPT0021475_392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
AK009_09085	600			hypothetical protein	GTGCGCAGCATCGCCGGCGACGCGGGAGACGTCGTCAAGCGTGGCTCCCTGCGCGCCCACCCCGGGCATGAGCACGACGGCGTTGAGCTCGTCGAGACGCGGCGGCCTAGCGACGGTCGCCCCGACCACGACCCCGGTGTCACCGACTCCGTTTTGGGAGTTCGAGCGGTTGAGCTCGGCGCACGCGTCAACCATCTGCTGGGCAATGCTCACCCCGCCAACGGTTTGGGACTGGAACTGCTCGGCTTCCGGGTTGGAGTTCGCCGCCATGACGAACACGCCCTTGCCGCTCGCGCGGGCGAGGTCGAACGCGGGGGCCAGCGAGCCGACGCCGAGGTAGGGCGTGAGCGTAACCGCGTCGGCCTCGAGCGTCGAGCCCTCAGCCAGCCACGCGCGGGCGTAGCCCTCCATGGTGGAGCCGATGTCGCCGCGCTTGGCGTCGGCGACGACCAGGCTGTCCGAGGCCCGCAGCGCCGCGAGCACCTCCTCGAGCACCGCGTAGCCGGCAGAGCCGAAGCGCTCGAAGAACGCCACCTGCGGCTTGACCAGGGCGACGTGGTCGGCGAACGCCTCGACGCAGGTCATGGCGAAGTCGCGTAG	MRSIAGDAGDVVKRGSLRAHPGHEHDGVELVETRRPSDGRPDHDPGVTDSVLGVRAVELGARVNHLLGNAHPANGLGLELLGFRVGVRRHDEHALAARAGEVERGGQRADAEVGRERNRVGLERRALSQPRAGVALHGGADVAALGVGDDQAVRGPQRREHLLEHRVAGRAEALEERHLRLDQGDVVGERLDAGHGEVA				NA	NA	NA	NA	NA
AK009_09086	486			hypothetical protein	GTGGGGGTCGATGCCGACGCAGAGGCGGCCGAAGCGCTCGCCGGCGCTAACCAGTTGCTCGCCGAAACCCATCTACTGCCCGCCCGCCGGGTTGTGGTCGAGCTCCTGCAGGCTCATGACGGTGACCTCGTTGTCGCGAATCGCTTCGATGCCCTGCACCGCGGCGACAACACCCTGGACCGTGGTGACCAGCGGGACGTTATTCGCGGCGGCGGTGGCCCGGATCTCGTAGCCGTCGTGGCGCGCGCCCGCGGACCCCGCCGGGGTGTTGAGGATCAGGTCGATCTCCCCGCTAGCGATACGCTCGACGATCGAGGTGCCCTCGGCGCCGTCTCGGACCTCGGAGGCCTTCAGCGCCACCTCGCAGTCGATGCCGTTGCGGCGCAGCATCGACGCCGTGCCGGCGGTGGCGACGATGGTAAAGCCCATGGTGGACAGGCGCTGGATCGGGAAGATCAGCGAGCGCTTGTCGCGGTTGGCCACTGA	MGVDADAEAAEALAGANQLLAETHLLPARRVVVELLQAHDGDLVVANRFDALHRGDNTLDRGDQRDVIRGGGGPDLVAVVARARGPRRGVEDQVDLPASDTLDDRGALGAVSDLGGLQRHLAVDAVAAQHRRRAGGGDDGKAHGGQALDREDQRALVAVGH				NA	NA	NA	NA	NA
AK009_09087	696			hypothetical protein	GTGCTCCAGCGGCAGCGCCCCGCCGTCGTAGTCCGTCGGCAGCATGCCCTCGGCCTTGAGCTCGGCAATGGTTGCGCCCATCATGATGCGCGAGGCCGCCTTGGCCAGGTGAACGCCCGTGGCCTTGGACACGAACGGCACGGTGCGCGAGGCGCGCGGGTTGGCCTCGATGACGTAGAGGATGTCGTCTTTGAGCGCGAACTGGACGTTCATCAGGCCCCTCACGCCAATGCCGTGGGCGAGCGCCTCGGCGGAGCGGCGCACCGTCGCGATGTCCTCCGGGCCAATCGTCATCGGCGGCAGGGCGCACGAGGAATCGCCCGAGTGGATGCCCGCCTCCTCGATGTGCTCCATCACTCCGCCGAGGTAGACCTCGGTGCCGTCGCACAAGACGTCCACATCGATCTCGATGGCGGAGTCGAGGAAGCGGTCCACCAGCACCGGGTGATCGGGCGAAAGCTCGGTCGCGCGGTTGATGTAATCTTCCAGGCTCGCCTCGTCGTAGACGATCTCCATGCCGCGGCCGCCGAGGACGTAGGAGGGGCGCACCAACACGGGGTAGCCGATGCGGTCGGCCACCTCGCGGGCCTCGGCAAACGACGTCGCCGTGCCGTAGGCCGGCGCCGGCAGAGCCGCGGCGTCGAGAACCTTGCCGAACTCCCCGCGGTCCTCGGCCAGGTCGATGGCCTCGGGTGA	MLQRQRPAVVVRRQHALGLELGNGCAHHDARGRLGQVNARGLGHERHGARGARVGLDDVEDVVFERELDVHQAPHANAVGERLGGAAHRRDVLRANRHRRQGARGIARVDARLLDVLHHSAEVDLGAVAQDVHIDLDGGVEEAVHQHRVIGRKLGRAVDVIFQARLVVDDLHAAAAEDVGGAHQHGVADAVGHLAGLGKRRRRAVGRRRQSRGVENLAELPAVLGQVDGLG				NA	NA	NA	NA	NA
AK009_09088	186			hypothetical protein	GTGGTAGGGGGTCTGGGCCTCGAACTCGCCGGCGCAGGTGTCGACGGTCTTGAACACCGGGTGCACGCCCAGCGACAGGCGCAGCGAGCGAACGCCCTGCTCACCGGCCAGCTCGGGGCGCAGCGCGGCGATCTGGGCGTCAGACAGGCCGTACACCTTTGCCTCGCGCAGGAGCTCCTTGTCTAG	MVGGLGLELAGAGVDGLEHRVHAQRQAQRANALLTGQLGAQRGDLGVRQAVHLCLAQELLV				NA	NA	NA	NA	NA
AK009_09089	996			hypothetical protein	TTGGCGGAATTCGACGAGCGCGGCGAGCTCGGCGAGGAACCAGGGGTCGATGTGGGAGGCCTCGTGGACCTGCTCGATGCTCGCGCCGAGGCGCAGCGCCAGCTCGACGTCGTACATGCGCTTGTCCGTCGGGGTGCGCAGGTCATCGAGCACGGCGCTGAGATCCGTCTCGCGGCCGGGCGCGAAGTAGGAGTCGGGCCGGGTCCAGAAGCCGTTGGGCTTGTCCTCCATCGAGCGCATGACCTTGTTCAGGCCCTGGATGTAGTTGCGGCCGATGCCCATCGCCTCGCCGACGGCCTTCATGGAGGTGCCGAGTGTCTCGTCCGAGCCCGGGAACTTCTCGAAGGCGAAGCGCGGCATCTTCACAATGACGTAATCCAGCGTCGGCTCGAATGCGGCCGGGGTGACGCCGGTGATGTCGTTGGTGATCTCGTCGAGCGTGTAGCCGATCGCCAGCTTGGAGGCGATCTTCGCGATCGGGAAGCCGGTCGCCTTCGACGCCAGCGCCGAGGAGCGCGACACGCGCGGGTTCATTTCGATGGTGATGATGCGGCCGTCGTCCGGGTTGACCGCGAACTGGATGTTGCAGCCGCCTGTGTCGACGCCGACCTCGCGGATGATCGCGATGCCTTGGTCGCGCATGGTCTGGTACTCGCGGTCCGTCAGTGTCAGCGCGGGGGCGACAGTGACGGAATCGCCGGTGTGCACGCCGAGCGCGTCGACGTTTTCGATCGACGCGATCACCACGACGTTGTCGTCGCCGTCGCGCATCAGCTCAAGCTCGAATTCCTTCCAGCCCAGGATGGACTCCTCGATCAGCACGTTGGCCTCCGGCGAGGCCTCGAGCCCGCCGCCGGCGATGCGGTCGAGGTCCTCCATGGAAAACGCCAGGCCAGAGCCGAGCCCGCCCATGGTAAACGACGGTCGGACCACAACCGGCAGGCCGAGCTCGGCGACGGTTGCGTGAACCTCGTCCATGGTGTGGCACACGCGTGA	MAEFDERGELGEEPGVDVGGLVDLLDARAEAQRQLDVVHALVRRGAQVIEHGAEIRLAAGREVGVGPGPEAVGLVLHRAHDLVQALDVVAADAHRLADGLHGGAECLVRARELLEGEARHLHNDVIQRRLECGRGDAGDVVGDLVERVADRQLGGDLRDREAGRLRRQRRGARHARVHFDGDDAAVVRVDRELDVAAACVDADLADDRDALVAHGLVLAVRQCQRGGDSDGIAGVHAERVDVFDRRDHHDVVVAVAHQLKLEFLPAQDGLLDQHVGLRRGLEPAAGDAVEVLHGKRQARAEPAHGKRRSDHNRQAELGDGCVNLVHGVAHA				NA	NA	NA	NA	NA
AK009_09090	225			hypothetical protein	GTGCTTGGCCAAGATGCCGGCCCTGTCGAGCTGGATCGCCGCGTTGAGCGCGGTCTGCCCGCCCAGGGTCGCCAGAATCGCGTCGACGGGGTGGCCCTGCTCCGCCTCGCGGGCGAGGATCTTGTCGATGTAGTCCGGCTCGATCGGTTCGACGTAGGTGTGGTCGGCGAACTCGGGGTCCGTCATGATCGTCGCCGGGTTGGAGTTAATCAGCGTGACCCTTAA	MLGQDAGPVELDRRVERGLPAQGRQNRVDGVALLRLAGEDLVDVVRLDRFDVGVVGELGVRHDRRRVGVNQRDP				NA	NA	NA	NA	NA
AK009_09091	1206			hypothetical protein	ATGTCTTCCCTCTTCATGCGTGAGTTTTTCCTCTCCTGGTTACTTCTTGTTGGGGCTGGCGTTGTCCATCAGCTCGATGAACTGATCAAACAGCGGGTTGGCGTCGTGGGGCCCGGCCGCGGACTCCGGGTGGTACTGCACCGAGTACGCCATGCCGCTTTCCAGGGCGACGCCCTCGATGCTGCCGTCGTTAAGGCAGGTGTGGGTGACAAGGGCTGGGCCGAAGTCGGTATCGAAGCTCTCGCCCGGGCCCACCGGTGCTTCCAAAACGAAACCGTGGTTCTGGGAGGTGATGTCGATCTTGCCGGTGAGGTGGTTTTTCACCGGCACGTTGACGCCGCGGTGGCCGAACTTCATCTTCGTCGTCCCGAGCCCGAGCGCGCGGCCGAGGATCTGGTTGCCGAAACAGATGCCGAACAGCGGCACGCCTGCGGCGATGACGTCGCGGGTGACGTTGACCATGGCGTCGGCGGTCGCGGGGTCGCCAGGCCCGTTGGAGATGAACACGCCGTCGGGGTTGTACTGCGTGATCTCGCTGTACGGGGTGTTGGCGGGCACGACGATGGTCTCAATGCCGCGGTCGGCGAAGTGACCCGGGGTGGCGCTCTTAATGCCCATGTCGTAGGCGACGACGGTGTAGCGCTTCTCCCCCTTGGCGGACACGGTGTAGGGCTTGTCGGTGGAGACCTCGTCGGCGAGGTCGGCGCCGGCCATCGAGGGCTGCTCGTTGACTCGCGCCACAAGCGTATCGACGCTCGCACGCGCAGCGTCACCGATGAAGATTCCCGCGGCGATCGAGCCTTCAGTACGCAGGTGGCGCACGACGGTGCGGGTGTCCACGCCGTAGATGCCGACGACGGACTGCGAGGCCATCTCCTCTTCCAGGGAGCGCTCCGCGCGCCAGTTGGACACGCGCTTGGCCAGGTCTCGGATGACCAGGCCCGCGACCCAGATCTGGTTGTCGTGGGACTCATTGTCCTCGTCGTTCCACCCGGTGTTGCCGATCTGCGGGGCGGTCATCACCACGATCTGGCGGTGGTACGACGGATCCGTCATGGTTTCCTGGTAGCCGGTCATGGCGGTGGTGAAGACCGCCTCACCGAAGACCTCCCCGGATGCGCCGAAGGAGTAGCCCCGGAAGACGTGGCCGTCGCCGAGCACGAGGACGGCCGGGATGCGTTCGTTTGTCATGGTAGAAATCCTTAG	MSSLFMREFFLSWLLLVGAGVVHQLDELIKQRVGVVGPGRGLRVVLHRVRHAAFQGDALDAAVVKAGVGDKGWAEVGIEALARAHRCFQNETVVLGGDVDLAGEVVFHRHVDAAVAELHLRRPEPERAAEDLVAETDAEQRHACGDDVAGDVDHGVGGRGVARPVGDEHAVGVVLRDLAVRGVGGHDDGLNAAVGEVTRGGALNAHVVGDDGVALLPLGGHGVGLVGGDLVGEVGAGHRGLLVDSRHKRIDARTRSVTDEDSRGDRAFSTQVAHDGAGVHAVDADDGLRGHLLFQGALRAPVGHALGQVSDDQARDPDLVVVGLIVLVVPPGVADLRGGHHHDLAVVRRIRHGFLVAGHGGGEDRLTEDLPGCAEGVAPEDVAVAEHEDGRDAFVCHGRNP				NA	NA	NA	NA	NA
AK009_09092	405			hypothetical protein	GTGGGTCAGGGCGCCGCGCAGCAGCGTCAGCTCGACGCGCGCTGCAAAGTCCATGCCCTCGTAGGGGGTGTTCGACGCCTTGGAGGCCATCTCCTCGCCGCGGGCGGTCCACGCCGCAGTGGGGTTGACCAGCGCGAGGTTGGCGGGCTCGCCGACCGCGATGGGCCGGCCCTGGTCCGCGAGTTTCAGGATCTGCGCGGGGCGCTCGCTCATCACCTTGGCCACGAACCGCCAGTCGGCGCGGCCCGATTCGACGAACACCTTGGCCACGACGGCGAGCGATGTCTCCAGGCCGAGCATGCCGGGCTTGGCGTGCTCGAACTCCACGCACTTGTCCTCGCTGCCGTGGGGCGCGTGGTCGGTGGCGACGACGTCGACGGTGCCGTCGAGAAGCGCCTCGCGTAG	MGQGAAQQRQLDARCKVHALVGGVRRLGGHLLAAGGPRRSGVDQREVGGLADRDGPALVREFQDLRGALAHHLGHEPPVGAARFDEHLGHDGERCLQAEHAGLGVLELHALVLAAVGRVVGGDDVDGAVEKRLA				NA	NA	NA	NA	NA
AK009_09093	174			hypothetical protein	GTGCGGAGTGACCTCGGCGGTGACGTTAATGCCCTGGGCCTTGGCCCAGCGCAGAAGCTCGACGGTGCCTTCGGTCGAGGCGTGGCAGATGTGCAGGCGCCCGCCGTAGTCGCGGGTCATGATCGCGTCGCGCGCCACAATGGACTCCTCCGCCACCCGCGGCCAGCCGCGTAG	MRSDLGGDVNALGLGPAQKLDGAFGRGVADVQAPAVVAGHDRVARHNGLLRHPRPAA				NA	NA	NA	NA	NA
AK009_09094	408			hypothetical protein	ATGCGAGCGGCTCATCAGCCCAATCTCGGTGAGCTGCTCGCCGCGAAGCCCCTGGGTGATCGACCCGACCGGGTAGACGTCGCAGGTGCCGTGGGCTTGGCCCTTTTCCCACACCGCGTCGGCGAGGAAGGGCTGGTCGATCACGGGATTGGTGTTGGCCATGGTGAACACGGCGGTAAACCCGCCGCGCGCGGCCGCGTCCGAGCCGGTGGCGATGGTTTCCGTGTCCTCGCGGCCGGGTTCTCGCAGGTGCACGTGCATGTCGACGAGCCCCGGCAGCAGCACCTTGCCCCCGCAGTCGTAGGTGGCGTCGGCGCCGCTGGGGTCCACATCCGCGCCGATCTGCGCGATCACTCCGTCTTTAATGAGGATGTTGACCTCGTCCTCGCCATAGGGGCGGGCGTTTAA	MRAAHQPNLGELLAAKPLGDRPDRVDVAGAVGLALFPHRVGEEGLVDHGIGVGHGEHGGKPAARGRVRAGGDGFRVLAAGFSQVHVHVDEPRQQHLAPAVVGGVGAAGVHIRADLRDHSVFNEDVDLVLAIGAGV				NA	NA	NA	NA	NA
AK009_09095	924	pyrB_2	COG0540	Aspartate carbamoyltransferase	GTGAAGCACCTCATTGACATCAAGGACCTGACCCGCGACGAGATCGTCGGCATCATGGACGAGGCCGACCGCTTTAAAGAGGCCCTGCACGGCCGCGAGATGAAGAAGCTACCGACACTTCGCGGGCGCACGATTTTCACCCTCTTCTACGAAAACTCCACCCGCACGCGATCTTCCTTCGAGACGGCGGGCAAGTGGATGAGCGCCGATGTAATCAACCTCTCGGCATCGTCCTCCTCGGTGAAGAAGGGCGAATCCCTCAAGGACACGGCACTGACCGTTGAGGCGGTCGGCGCGGACGCCATCATCATCCGCCACCCGGCCTCCGGCGCCCCGCACCTGCTGAGCCAGTGGCTGCCGGGAACCTCCATCATCAACGCCGGCGACGGCCAGCACCAGCACCCCACGCAGGCGCTTCTCGACGCCGTCACCATGCGCCAGCGCATCGGCGATGTTCAGGGCCGCAAGGTTTTGGTCGTCGGCGACGTGCTCCACTCGCGCGTGGCGCGCTCGAACGTCGACCTGCTGTCGACCCTCGGCGCCGAGGTGGTGCTAGTCGCCCCGCCGACCCTGCTCCCCACGGGCGTTGAAACGTGGCCCGCTCGCGTGAGCAGCGACTTCGACGCCGAGCTCGCCGACGCCGACGTGGTCATGATGCTGCGCGTGCAGGCGGAACGGATGAACGGCGGGTTCTTCCCCTCGCACCGCGAGTACGCGACCCTGTTCGGGCTCTCCGCGGCGCGTGCTGCCGCGCTGAAAGACTCAGCGATCATCATGCACCCGGGCCCGATGCTGCGCGGGATGGAAATCAACTTCGGCGTCGCCGACCGCGACAACGCCGTGGTTCTCGACCAGGTAACCAACGGCGTGTACACCCGCATGGCGGTGCTGTTTACGCTTCTGGCAGGAGAGGACAACTCATGA	MKHLIDIKDLTRDEIVGIMDEADRFKEALHGREMKKLPTLRGRTIFTLFYENSTRTRSSFETAGKWMSADVINLSASSSSVKKGESLKDTALTVEAVGADAIIIRHPASGAPHLLSQWLPGTSIINAGDGQHQHPTQALLDAVTMRQRIGDVQGRKVLVVGDVLHSRVARSNVDLLSTLGAEVVLVAPPTLLPTGVETWPARVSSDFDAELADADVVMMLRVQAERMNGGFFPSHREYATLFGLSAARAAALKDSAIIMHPGPMLRGMEINFGVADRDNAVVLDQVTNGVYTRMAVLFTLLAGEDNS	PGPT0021160_3848	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
AK009_09096	567	pyrR_2	COG2065	Bifunctional protein PyrR	GTGAGCGAGAAAGATTCGCGCGCGGCGACGGAGCTGTTAAACGCCTCCGACGTGGCGCGCACGATCGCACGCATAGCGCACCAGATCATAGAGAAAAACGCCATTGGCGCGGACACGTCCAACGTGATGCTGCTCGGCATCCCGTCCGGAGGAGTCCCGCTGGCCGAGCGCATCGCGGCAGCCGTGGAGGAGTTCTCCGGCACCTCGATCCCGGTGGGCAGCTTAGACGTCACGCTTTACCGCGACGACCTGCGCAACCGCCCGCACCGCGCGCTGCTGCCGACGAATATCCCGGGGGAGATCAACGGCGGGATTGTCATCCTTGTCGACGACGTGCTGTTTTCCGGTCGCACTATCCGCGCCGCCCTCGACGCCATCGCAGACATCGGCCGCCCAGCGGCAATCCAGCTCGCAGTGCTGGTCGACCGTGGGCACCGGGAGCTGCCGATCCGCGCAGACTACGTGGGCAAAAACATCCCGACCGCGCGCAGCGAGGACGTGCGCGTCACGCTGACCCCAATCGACGCCTCCGACGCGGTGACGCTGAGCAGGGAGGATACGCAGTGA	MSEKDSRAATELLNASDVARTIARIAHQIIEKNAIGADTSNVMLLGIPSGGVPLAERIAAAVEEFSGTSIPVGSLDVTLYRDDLRNRPHRALLPTNIPGEINGGIVILVDDVLFSGRTIRAALDAIADIGRPAAIQLAVLVDRGHRELPIRADYVGKNIPTARSEDVRVTLTPIDASDAVTLSREDTQ	PGPT0021245_603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
AK009_09097	1335			hypothetical protein	ATGAGCTTGAACGCTTCCCACCACGTCCTCGCACCACGCGAAAAAGTCTGGCAGTGGCACACCCGCCCCGGTGCGGTTGTCAGGCTTACTCCCCCGTTTTTGCCCATGCGACCTATCGAGCAGGCTCGCTCGCTTGCCGACGGCACCACCACCTTCGCCCTGCCAGCCCGCCAGCGCTGGGTGGCCAAGCACGTTGACACCGGCTACCGCGAGGGTGCCCAGTTCCAGGACACCGTGGTCAACCAGCCATTACGCACCACCACGCAGTGGGTGCACACCCACAGCTTCGCCGACGCCGGGGACGGCGCCACGACCGTGACTGACGACATTGACACCCGCGTGCCCCGGTTCCTGCTGGAAAAGGCGGTGGCCTACCGCCAGCACCAGCTCATCGCGGACTTTAAGTTCCTGTCCACCCTGCCCGACACCGCCCCGCTGACCGTCGCCATGACAGGGGCCAGCGGCCTTGTCGGCACCGCGTTGGCGGCGCAACTGGGTACCGCGGGGCATACGGTGATTGCGCTGTCACGCAGCCGCGGTGAGGGTGCCGGGACGCGTCATTGGGACGTCGATAAGCCCGCGGCTAACCTGCTTTCCGGTGTTGACGCGGTGATTCACCTCGCCGGCGAGTCAATCATGGGGCGCTTTACGGAGAAGAAGAAGCGCTCGATCCTCGAATCCCGAGTCGGGCCGACGGAAAAGCTGGCGCGGCTGGCCGCGGACAGCGGGGTCAGCACGTTCGTGAGCGCCTCCGCCGTGGGCTACTACGGCTCGGACGCCGGGGGTTACGAGCACGACGAGAGCGCTCCGCGCGGCACCGGCTTCCTCGCCGAGGTGTGCGAGCAGTGGGAGCAGGCCTCGCGTGTCGACGGCCTGCGCACCGTCAACATCCGCACCGGCCTGGCACTCTCCGGCGCGGGCGGGCTGCTGCCCGTGATGCGGCTGTCCGCCTCCACCGGCGCCGGCGCCCGCTTCGGCCAGGGCGAAAACTGGATGAGCTGGATTGCGCTCGACGACCTCACCGACATCTACGTGCGCTCGCTTATCGACGCCCGCTTAAGCGGCCCCGTCAACGCCACCGCGCCGCACCCGGTCACCAACGCCGAGTTCTCCGCCACTCTCACCGACATTCTGCGCCGTCCCGACATAGTGTCAATCCCGAAGTTCGGGCCCGCCGTCTTGCTCGGGCGCGAGGGCGCCGACGAGCTGGCGCTGGCAAGCCAGCGCGTCGTTCCCCGCGCCGCCACGGAGGCCGGGGCCGACTTTCGCTACCCCACGCTCGAGACCGCGCTCGCACACGAGCTCGGGCGGGAATCACTGGTGGACCAGGCCTGA	MSLNASHHVLAPREKVWQWHTRPGAVVRLTPPFLPMRPIEQARSLADGTTTFALPARQRWVAKHVDTGYREGAQFQDTVVNQPLRTTTQWVHTHSFADAGDGATTVTDDIDTRVPRFLLEKAVAYRQHQLIADFKFLSTLPDTAPLTVAMTGASGLVGTALAAQLGTAGHTVIALSRSRGEGAGTRHWDVDKPAANLLSGVDAVIHLAGESIMGRFTEKKKRSILESRVGPTEKLARLAADSGVSTFVSASAVGYYGSDAGGYEHDESAPRGTGFLAEVCEQWEQASRVDGLRTVNIRTGLALSGAGGLLPVMRLSASTGAGARFGQGENWMSWIALDDLTDIYVRSLIDARLSGPVNATAPHPVTNAEFSATLTDILRRPDIVSIPKFGPAVLLGREGADELALASQRVVPRAATEAGADFRYPTLETALAHELGRESLVDQA	PGPT0014730_384	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK009_09098	756			hypothetical protein	TTGCCGGGTCAACTCCTCGAGCGTGATCTGGTCGCGGTCGGCGACGAGTTCCTGGCGCCCGAGCTTCACAATGGTGAACCGGTCCCCCACCAGGTAGGCGTGGTGCGGATTGTGGGTCACCAGCACCACCGCCACCCCGCGCTCGCGGGCCGCGGCGACAAAGCGCAGCACCATGCCCGACTGCTTCACCCCCAGCGCGGCCGTCGACTCGTCGAGGATGACAACGCGGGCGCCGAAGTGGATCGCGCGGGCGATGGAGAGCACCTGGCGCTGCCCGCCGGAGAGGTTGCCGGCCTCGACGTCGACATCGGGAATCACGATGCCCATCTCGCGCAGCGCCTCGTTACAACGCGAGCGCATCTCGTCCTGTTTCAAGATGCCGAACGTGCCGGTGATCTCGTTGCCGAGGAAGAAGTTGCGCCACACGCTCAAGCTGTCGACGATCGCGAGGTTCTGGTACACGGTCGCGATGCCGTGGTTGATTGCGTCGCGCGGGGAGGAAAACGTGGTGGGGGTGCCGTCGAGAAGCATCTGGCCCGAGGTGGGTTGATGCAGCCCAGAAAGAATCTTGATGAGAGTCGATTTGCCCGCTCCGTTGTCACCGAGCACGCACAACACTTCGCCCTGATCAATTTCGAGGTTGACCCCGCGCAGGGCATCAAAGGCTCCGTAGGACTTGGTCACGTCCTCGAGCTGGATAATCGCCATGTCTTACCTACCTCGAATCCGTGTACCGAGCGAAGGCGGTGTTGGTGA	MPGQLLERDLVAVGDEFLAPELHNGEPVPHQVGVVRIVGHQHHRHPALAGRGDKAQHHARLLHPQRGRRLVEDDNAGAEVDRAGDGEHLALPAGEVAGLDVDIGNHDAHLAQRLVTTRAHLVLFQDAERAGDLVAEEEVAPHAQAVDDREVLVHGRDAVVDCVARGGKRGGGAVEKHLARGGLMQPRKNLDESRFARSVVTEHAQHFALINFEVDPAQGIKGSVGLGHVLELDNRHVLPTSNPCTERRRCW				NA	NA	NA	NA	NA
AK009_09099	744			hypothetical protein	ATGTCTTACCTACCTCGAATCCGTGTACCGAGCGAAGGCGGTGTTGGTGAACACCGCGAACAGCAGCATCGCACCGAGGAAGAACTTGAACCAGTCCGGGTTCCACCCGGCGTAAACAATGCCCTGGTTGGTCAGGCCGAAGATGAGCGCACCAATCGCGGTACCAATCGCGGTGCCGCGGCCGCCGTTCATCGAGCAGCCGCCGATCACGGCCGCGATGATGTACAAAAACTCGTTGCCGACGCCCTGGCCCGCCTGGATGGAATCAAACGCAAAGAGGGTGTGCATGCCGACGAACCACGCGGCGAAAGCGACCGTCATGAACAGGATGATCTTCACTCTCGCCACGGGCACACCCGACGCGCGCGCGGCGTCCTGGTTGCCGCCGACCGCGAAGATCCAGTTGCCAAACGTCGTCCTAAACAGTACGAACGACGCCACAGCGACGAACAGCAGCCACCACACGACGGTGATGCGGATGCTCACCCCACCGATGGAAAAGGAGCTAGCGAACACCGCCCGAGCCGAATCAAAACCCGCCATGTTGGAAATGCTCGGGGTGGCAACCTGGCCGGTCACCAGCTTGGTCACCGCCAGGTTCAGGCCCTGGAGCATGAGGAACGCAGCGAGGGTGATCAGGAAGCTGGGGATGCCCGTGCGCGTGACAAGCACGCCGTTGAGAGCACCGATGGCCAGCGAGATGCCCAGCGCAATGACCGCGCCGACCCACACGTTGAGGTGTAG	MSYLPRIRVPSEGGVGEHREQQHRTEEELEPVRVPPGVNNALVGQAEDERTNRGTNRGAAAAVHRAAADHGRDDVQKLVADALARLDGIKRKEGVHADEPRGESDRHEQDDLHSRHGHTRRARGVLVAADREDPVAKRRPKQYERRHSDEQQPPHDGDADAHPTDGKGASEHRPSRIKTRHVGNARGGNLAGHQLGHRQVQALEHEERSEGDQEAGDARARDKHAVESTDGQRDAQRNDRADPHVEV				NA	NA	NA	NA	NA
AK009_09100	1224			hypothetical protein	TTGCGGTGCTCATCGCATGCCAGCCTTCGCGGCCTCCGCGATCTTGTCCACGTTGCTCGCGTCGACGAAGCTCGGGCCGGTGTAGACGGGCTGGCCGCCGCCGATGGTGCCGCCGTTGCGCTTAGCCAACCACAGCGAGTCCACGGCGAGGTAGCCCTGCAGGTACGGCTGCTGATCGACGGCCCACTTCACGCTGCCGTCGGCAATGGCGTCGACAAGCTCAGCGTTCGTGTCAAAGGTCGCGATCTCAGCATCGGAACCGGCGTCCTTGACCGCGTCGATCGCGCGCATGGCCACCGGGGCCTGGAGGCCGAACACGGTGTCAATCCCGGGGTCTTGTGCCAGCTTGGCCTGCATCGTGGCCTGCGCCGAAACGAGGTCCTGGCCGTTGACGTAGAGCAGCTCCACCTTGCCGGAGTCGCCGAGGCCCTCCTTGACACCAGCGCAGCGTGCTTCCTGCGAGGAGTTGCCCTGCTCGTGGATGACGCACAATACGTTTTTCGCGCCCTCGTCCTTCAGGCGCTCACCCGCGGCGGTGCCGGCAACCGACTCGTCCTGGCCGAAGAAACCGCTCAGCCCGTAGTTCGCGTACTCGTTCATGCCGGCGTTGAGCCCGACGGTGGGAATGCCCGCCTCGACGGCGCGCTGCGCGGCCGGGCCGATGGCCTCGGCGTTGGGCAGGGTCACGGCGATGCCGTCCACGCCGGCGTCGATCGCAGACTGCACCAGGTTCGCCTGGTTGGGCGCCTGCGGGTCGGAGGAGTAGCGCAGCTCGATGTTGTCCTTCGCCGCCGCATCCTCCGCGCCCTTGCGCACGAGGTCCCAGAACGTGTCGCCGGGGGCGCCGTGGGAGACCATCGCGACAACGTAGCGAGGGGTATCCACGCCGCCGGCTGTTTCACCGCCAGCGGAGCTCTCCGGCGCACCACCGGTGGACGAGCACGACGCCAAAACGGCGGCTGCAGAAACGGTAACGAGAGCGGCAAAAAGTTTTCGAGTATTTATCACCCCAACATAGTGGCCGAGCGCATCTGTCCTAGTCAAATGGGGTTTTTCTTCTTGAATCGATCAAGATTGGCTGACCTGCGCCGTCGGGAAGCGGTACCCGGCGACGCACGCGCCGCTACGACTGTTCGAGCCGCTCCAGCTCCACCTCAGCATCGAAGTCGGCCTCCGGCCAGGACAGCCCAAGCGATGCCAACGCGTCGTACATCAGGGTCTTGA	MRCSSHASLRGLRDLVHVARVDEARAGVDGLAAADGAAVALSQPQRVHGEVALQVRLLIDGPLHAAVGNGVDKLSVRVKGRDLSIGTGVLDRVDRAHGHRGLEAEHGVNPGVLCQLGLHRGLRRNEVLAVDVEQLHLAGVAEALLDTSAACFLRGVALLVDDAQYVFRALVLQALTRGGAGNRLVLAEETAQPVVRVLVHAGVEPDGGNARLDGALRGRADGLGVGQGHGDAVHAGVDRRLHQVRLVGRLRVGGVAQLDVVLRRRILRALAHEVPERVAGGAVGDHRDNVARGIHAAGCFTASGALRRTTGGRARRQNGGCRNGNESGKKFSSIYHPNIVAERICPSQMGFFFLNRSRLADLRRREAVPGDARAATTVRAAPAPPQHRSRPPARTAQAMPTRRTSGS				NA	NA	NA	NA	NA
AK009_09101	672			hypothetical protein	GTGCGTCAGCGCGATCTGGTAGGCGTCCATGTACTGCGACCACAGGCGGCGATCATCAATGTCGCCCGGGTTGTACTTCCAGTGCTTCTCCTCGTTGAGGATACGCTCACGCAGGTTCTCCTTCTGGAACTCGCGCGAAATGTGGGGCATGACCTTGATAATCTTGACCCCGCGCGCGGCCAACTCGCTCTCCCACTCGACGATCGCGCCGTAGCGGCGCTCAATCTCCTCCGACGGAGCCATCTGTTTCACGCGCTGGACCAGCACGTCCTCGTAGTGGGAGCGGTCGAACACCGCCACCATGCCGGGCTCGGGGACGTGCGGCTCGAAGCGCCACAGGAAGTCGTGGGCGCGCTCTTCTTCCGTCGGCGGCCCGAACGCATGGACACGCACTCCTTGCAGGTCCATGGTTGCACCTACGACGTGCTTAATCAGCCCGCCCTTGCCCGATGTGTCCATGCCCTGCAGGATCAAAAGGACGCTGCCGGCCTTGGAGTTGCCCGCGCGGGCGTTGGCGTACAGCATTTCCTGGAGGTCTTCGAGGTCGTCGTCGAATGCGCCGAAGGCCTCGTCGATCTCGGAGTCACCGTCGAGCTCCGGCGTCGCGGTCGGGTCGACGTCGGCGAGCTGGAACGTCTCGTCCACGCGGAATTGCTGGGCTTCCTCTACTGA	MRQRDLVGVHVLRPQAAIINVARVVLPVLLLVEDTLTQVLLLELARNVGHDLDNLDPARGQLALPLDDRAVAALNLLRRSHLFHALDQHVLVVGAVEHRHHAGLGDVRLEAPQEVVGALFFRRRPERMDTHSLQVHGCTYDVLNQPALARCVHALQDQKDAAGLGVARAGVGVQHFLEVFEVVVECAEGLVDLGVTVELRRRGRVDVGELERLVHAELLGFLY				NA	NA	NA	NA	NA
AK009_09102	207			hypothetical protein	ATGGCGGAGGAGTACGCGGGCCACGCGGCACCGCCGTACATCCATGCCGTGCTCGACGACGTCGTCAAGACGCTCCCGGCGCCCGAGGCCGATTCACCCGCCGACGAGTCGGCTGAGCGCGAAGACGTGCTCGGCGAGATCGTCGCCGAGGCGCCGATTGCCGAGCCCCGCGCGCTGGACATCACGGACTCCGGTAGCGCACAGTAG	MAEEYAGHAAPPYIHAVLDDVVKTLPAPEADSPADESAEREDVLGEIVAEAPIAEPRALDITDSGSAQ				NA	NA	NA	NA	NA
AK009_09103	972	ppsC		Phthiocerol synthesis polyketide synthase type I PpsC	TTGCTTGGAACATGCATTCAATTTCATAAGTTTGGCAATCCAAAAGACGTATTACAAGTTGAATATAAAAATATAGAACCACTGAAAGATAATGAAGTTTTCGTTCGTATGCTAGTTAGACCGATTAATCCATCTGACTTAATTCCAATAACGGGAGCGTACGCTCATAGAATTCCTTTACCTAACATACCTGGTTATGAAGGTGTTGGTATTGTAGAAGATGTAGGTGCGGGCGTTACGAGAGACCTTATCGGTAAACGTGTTTTACCGTTACGCGGAGAAGGTACTTGGCAGGAGTATGTGAAGACGTCAGCTGATTTTGTAGTCCCTATCCCTGATTCCATCGATGATTTTACAGCGGCACAAATGTATATTAACCCTCTTACGGCGTGGGTTACTTGTACAGAAACGTTAAACTTACAGAGTAATGACGTTTTATTAGTGAATGCTTGTGGATCCGCTATTGGACATCTATTTGCGCAGTTATCACAAATTTTAAACTTCCAATTCATTGCCGTTACAAGAAATAATAAGCATACAGAAGAATTACTGCGCCTTGGTGCTGCATATGTAATTGATACTTCCACTGCTTCGCTTTATGAAACAGTTATGACATTAACAAACGGCAGAGGTGCAGATGCTGCGATTGATTCTATCGGGGGGCCGGCTGGAAATGAATTAGCTTTCTCCTTACGTCCAAACGGGCACTTTTTAACGATCGGTCTTCTATCAGGAATACAAGTGAACTGGGCCGAGATTGTCACGAAAGCAAAAGTACACGCAAACATATTTCATTTACGACATTGGAATAATGAAGTGTCACCATATAAATGGCAAGAAACGTTTCGTCACTTAATTCGTTTAGTAGAAAATAAGCAATTACGTTTTATGAAAGTACATTCTACATATGACTTAGCGGATGTGAAAGCGGCAGTTGATGTTGTGCAGTCCGCTGAGAAAACGAAAGGGTAA	MLGTCIQFHKFGNPKDVLQVEYKNIEPLKDNEVFVRMLVRPINPSDLIPITGAYAHRIPLPNIPGYEGVGIVEDVGAGVTRDLIGKRVLPLRGEGTWQEYVKTSADFVVPIPDSIDDFTAAQMYINPLTAWVTCTETLNLQSNDVLLVNACGSAIGHLFAQLSQILNFQFIAVTRNNKHTEELLRLGAAYVIDTSTASLYETVMTLTNGRGADAAIDSIGGPAGNELAFSLRPNGHFLTIGLLSGIQVNWAEIVTKAKVHANIFHLRHWNNEVSPYKWQETFRHLIRLVENKQLRFMKVHSTYDLADVKAAVDVVQSAEKTKG				NA	NA	NA	NA	NA
AK009_09104	987	yxeI	COG3049	putative protein YxeI	ATGTGTACTAGTTTGACGTTACAAACAAAAAATTTCCAGCATCTTTTTGCGAGAACAATGGATTTCACATTAGATATGAATCAGGAAGTAATAATCATTCCTCGGCGTTATCAGTGGAAAAATATAACTGGTGAAACGATCCGAGCGAAAAAGGCTGTTGTCGGAATGGGAATTAATCATGAAGGAAGGGTCATTATGGCGGACGGAGTAAATGAAGCTGGTATGACATGTGCCACTCTCTATTTCCCGGGATTCGCTACTTATAGTAACAGCATAGATGACCATAAAACGAATTTAGCACCATTTGATTTTGTGGCTTGGAGCTTGACGCAGTTTAATTCTGTTGAAGAGTTAAAAAAATCTGTTGATAACATTTCCCTTATAGATGTACCATTACCAGTTTTAGGGATTACTCCGCCACTACATTGGATTTTAGCAGATAAATGGGGAGAGTGTATTGTACTTGAGCCGACAACTGATGGAATAAAAATGTATGACAATCCAATAGGAGTGATGACTAATAGCCCGGAGTTTAATTGGCATTTACAAAATTTAAGACAATATATTGGACTTAAATCGCAGCCATTTGCACCAACCGAGTGGGGAGACGTACCATTAAGTGCTTTTGGCCAAGGTTCCGGATCGATGGGACTTCCTGGAGATTTCACCCCGCCATCAAGATTCGTGCGGGCAGCATATGGCAAACAAAACATTCAAGGTATAGAGAACGAAGAAGAGGGGATATCGGCTATTTTTCATATCTTATCAAATTGTGAGGTTCCTAAGGGGGCAGTAATAACAGAAGACGGTATATTAGATAATACTATCTATACAAGTGCAATGTGTATGGAGTCTGGAACATATTATTACCATACTTACGATTGTAGACAAATTATAGCCATTCATTTATTCAATGAAAATTTAGATACAGCTGAGATTAAAACGTATCCGTTCCAGCGGAAGCAAAAAATCTTTTATGAAAACTGA	MCTSLTLQTKNFQHLFARTMDFTLDMNQEVIIIPRRYQWKNITGETIRAKKAVVGMGINHEGRVIMADGVNEAGMTCATLYFPGFATYSNSIDDHKTNLAPFDFVAWSLTQFNSVEELKKSVDNISLIDVPLPVLGITPPLHWILADKWGECIVLEPTTDGIKMYDNPIGVMTNSPEFNWHLQNLRQYIGLKSQPFAPTEWGDVPLSAFGQGSGSMGLPGDFTPPSRFVRAAYGKQNIQGIENEEEGISAIFHILSNCEVPKGAVITEDGILDNTIYTSAMCMESGTYYYHTYDCRQIIAIHLFNENLDTAEIKTYPFQRKQKIFYEN	PGPT0028080_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028080-yxeI-K24041	NA	NA
AK009_09105	141			hypothetical protein	ATGTATTTCGGAAGCAAAGGTTGGTATGTAAAAGAACTTAAAAAATTAGGTATTCGTACTTATGAAGGTAAAAAACTAGAATCTTATCGTACGCATGTGTTATCTAGTTTACTTGAGAGAATGAAGAAGGCTTCGGCTTAA	MYFGSKGWYVKELKKLGIRTYEGKKLESYRTHVLSSLLERMKKASA				NA	NA	NA	NA	NA
AK009_09106	426			hypothetical protein	ATGGTTAACTTTGTTGCAAAAGACATATATACTAAAGATAGTATACAACGAGGTGGACAAGACGTGATTATAGAGAAGCACGAAATTCAAATTGACCAAATTACTAGCGGTAAAGTGAATATCTTTACTTTCTATAGAAATAGAAAGCAAATTGATGATCATTTTTTACGATTGCAAGAACCATCGCTTACAGCAAACTACTTCTTCCATTTTCATTTTGATGCAGAGAGCTTGCATCTACTGCAGGAAGAGTTTCCAGGCGTATATCCGTACGACGGTAGTGAAACGATTCACGACTGGACGGAAAAGATGAAAGCTGAATTGCAACATCAGATCCAAACAGGTAAATGGAATAAACGCGTACGTATTGGTAATCGCATTCTAGATGTGGTGTTTACGTGGTGTGACGAAGATATAGTAGAGTGA	MVNFVAKDIYTKDSIQRGGQDVIIEKHEIQIDQITSGKVNIFTFYRNRKQIDDHFLRLQEPSLTANYFFHFHFDAESLHLLQEEFPGVYPYDGSETIHDWTEKMKAELQHQIQTGKWNKRVRIGNRILDVVFTWCDEDIVE				NA	NA	NA	NA	NA
AK009_09107	186			hypothetical protein	ATGGGAGTATACGTTCTAACAGTCTTTGAAAAAGATGGTTCAAAAGCATTAGACGAATCATTCGAGGCGGCAACTGAAAAAGAAGCAAAAGCAAAAGGTGAATCTATTTTACAAGAAAAAGGATTGTATGAAAAAACACATCGCTGTACATCTACTGCAGGTAAGCTCGTTTTATTCCAGCGCTAA	MGVYVLTVFEKDGSKALDESFEAATEKEAKAKGESILQEKGLYEKTHRCTSTAGKLVLFQR				NA	NA	NA	NA	NA
AK009_09108	1242	yhaO	COG0420	putative metallophosphoesterase YhaO	GTGAAACAAGTAAAGTTTATACATGCGGCTGATTTGCATTTGGATAGTCCGTTTAAAGGAATGGAGATGAATGTTGCGCAGTCTGTTTGGGAGAGAATGAAGCAAAGTACGTTTGAATCATTTGAGCGTATTGTTGATAAAGCGATTCAAGAGCGCGTTGATTTCGTATTACTAGCTGGGGATTTGTATGATGCGGAGACGAGAAGTTTGAGGGCGCAAGTGTTTGTGCGTGAGCAAATGAAGAGACTTTCGCAGTACGATATCCCTGTTTTTATTATTCACGGTAACCATGATCATTTAGGAGGAAGCTGGGCAGCGATTGAGTTTCCGGAAAATGTTCATGTGTTTACGGAGCCTTACGTAGAAGAGAAATCATTTTATAAAAATGGTGAGCTATTAGCTTCTATTTATGGGTTTAGTTATTTGCAGCAAGCGGTAACGGATAATATGACAGCGCAGTATACGAAAATGAGTGATGCGCCTTTTCATATTGGCATGCTTCACGGAAGTGTGGAAGGAGATGCAGAGCATAATCGCTATGCACCGTTTCAAATTCGTGAGTTGAAAGAAAAACAGTTTGATTATTGGGCTCTTGGCCATATACATAAACGTGAAATTTTATCAGAAGAGCCATACATTATTTATCCAGGGAACATACAAGGTCGTCATCGTAAGGAAACAGGTGAGAAGGGTGCGTACCTTATTGAACTTACGAAACAAGGAACGCACTGTTCATTTTTCCATACGGCAGATGTTGTATGGGATGAGATCGAGGTTTGTATTGATGGACTTGAAACTGTTGATGAACTTATGACGAGCATGTCAACTGCGATGAATGATTGCCGAAGAGAAGAGGAAGGGACGCTTTTAACTGTCGTATTCATAGGGCAGGGCCCACTTTCTCCTTATTTGCGTGACGAAAAGCGTGTGGAAGAGATTTTTCACATTTTAGCATCTGGCGAAGAGCGAAAAGATTTCGTATATGTGATGAAGTGGAAAAATGAGACGGTTTCTTTTGCGGAAATCGAGCGTTTGAAAGAAGAAAATCATTTCGTCGGTAGTGTGCTAAAAGAGTTAGAAGCTTTCACCAATATGGACGGCGTGTTGCGCACCATTTGGACGTCTCCTGTAGCGCGTAATAGTATTGAATCTTTTACAGAAGAAGAGAAGAAAGAGATTCAAAAGGAAGCAGAAAATATTATTTTAGAGCAATTATTCCAGCAAGAGAGGGATAAAAAATGA	MKQVKFIHAADLHLDSPFKGMEMNVAQSVWERMKQSTFESFERIVDKAIQERVDFVLLAGDLYDAETRSLRAQVFVREQMKRLSQYDIPVFIIHGNHDHLGGSWAAIEFPENVHVFTEPYVEEKSFYKNGELLASIYGFSYLQQAVTDNMTAQYTKMSDAPFHIGMLHGSVEGDAEHNRYAPFQIRELKEKQFDYWALGHIHKREILSEEPYIIYPGNIQGRHRKETGEKGAYLIELTKQGTHCSFFHTADVVWDEIEVCIDGLETVDELMTSMSTAMNDCRREEEGTLLTVVFIGQGPLSPYLRDEKRVEEIFHILASGEERKDFVYVMKWKNETVSFAEIERLKEENHFVGSVLKELEAFTNMDGVLRTIWTSPVARNSIESFTEEEKKEIQKEAENIILEQLFQQERDKK				NA	NA	NA	NA	NA
AK009_09109	2925	yhaN	COG4717	putative protein YhaN	ATGAGAATTGAAAAACTCCATATTTATGGGTACGGAAAATTAGAAAATGTGGAAATGGATCTTTCCTTACTGACGGTGTTATACGGTGAAAATGAAGCGGGGAAATCGACAATTCGCTCGTTTATGAAAAGTATTTTGTTCGGTTTTCCGACGAGAGGACAGCGCCGTTATGAGCCAAAAGAAGGTGGGAAGTATGGCGGAGCGATGACTGTACAAACAGAGAAGTACGGTCGTTTGAAAATTGAACGATTGCCAAAGACGGCATCTGGCGAGGTGACCGTTTATTTTGAAGACGGGAAAACGGGCGGCGAGGAAATTTTAAACGATATATTAAGCGGGATGAATGAAAGTTTATTTGAATCGATCTTTTCATTTGATATGCATGGTCTTCAAAATATTCATCAGCTCGGCGAAGCGGATATTGGCAATTATTTATTTTCGGCAAGTGCAGTCGGAAGCGATGCGCTATTACAGTTAGATAAAAAGCTAGAAAAAGAAATGGATCAACGCTTTAAACCGAGTGGGCGTAAACCGGAAATTAACGTGTCACTGCAAGAGATGAAGAAACTTGAAGAGAAGATGAAAGAGTGGCAAGGGAAAATTGGCACGTATGAAAAACAAGTCGAGCAATTAAAAGAAAGTGAAGAGAAACTTGCTTCTGTTCGTATGGAGAAAGAGAGTGCAGAAAAACGAAAGCAAGATTATGAAATATTAGCAGCGCTTGAGCCACTCGTTATTGAAAAGCGTGCGCATGAGAAAGTGTTAGAAAATGAGAGCGGGCAGTTTCCTGTAAACGGAATGGCGCGCTATGAAGCGATTAAGGCGAAGATGGAGCCGCTCCAATTACAAGTTGACTCGCTCCATAAAAAAATAGAGACGGTGCAATCGGAAATTGCCTCGATTCAAATAGATGAAGAGTTTTTACAAAAAGAAAGTTATGTAGAAGAACTTCGTATGCAACATATGTCTTACGAAAATGCACGCCAAGAAATGCGTGATATGACAGGAAGTATTGCGAATATAAAAGAAGAAATTGCAGAACTAGAACAACAAATTGGTGCTACTTTTGAAAAGGAAGCGGTTCTTGCGTTTGACATGAGTTTGGCAACGAAAGAATTAATTACGCAAACCGTACAAAAAGCGCGTGAATTAGAAACGCAAAAAGCACAGCTTGATGATCGTTTTAAAGTAGCGCAAGAGCAATTAGAAGAACAAGAAGAAAATATAAGACAGATTCAGAAACAAATGTTAGTTGATGAAGAGCGAGATACGTTAGTTGAGAAAGAGAAATCGTTCCAAGATGCGGCGTTTATCGGTATGGGCGCAGAGAGAATGAAGCGCAAGTATGAGGAAAAAGCAGGAGCAGCTATGCAAAAGAAAAAGCAGTGGCAAAGAGTTTGTCTTCTGTTACTTCTTATTAACACGCTTGTTTTATTCACGAGTTTATTTATTGATAACCGCCCGCTCTTATTTATTAGTGTTATTGTTTTTGTAGGGATTGTTCTTGCCCTTGTTTTATATAAAGATCCGTCAAGTGGATTACAAGAAGAGCTTCTTACTCTTCAGCAAAGTGCTGGCGGGAGACAAAGTGAAGAAGTGCTGTCTGTGCGCTATCAGTTAGAAAAAGATGAAGAGATTCGGAAGCTATTTGAGCGTGAGTCTTATAAATTGCAGCAAATGGAGCGAGCTTATGATAAAGTCGTTTCATCGTATGAGGAATGGGAGAGAGAAACGTTCCAGGCGGGAGAACAAGTAGATGCATATAAAACGCGCTATATGTTCCCAGAATTTTATACGTATGCACACATATTGCCAGCGTTTGAGCGTATTGAAAAAATGCAGCAATTATATCGGGAGTTAGAAAAAGAAGGCACGCGAAAATCTTCATTATATGAAATGATTTCGCATTTTGAACAGAAACTAGAAGCTGTTATCGGTAGTGCGGAGTATAGTAAGCTACACGGGGCACAAAGTCGTATGCAAAATGAGAAAGAGAAGCGCCAAACTTGTAAGCAGTTAAAAGAAAAACTGGCGGAATGGCAAGAAGAATATGAGTTTATGCAAGAACAATTGAAACAACTGTTAGTAGAACGAAATGCATTATGGAATATTGCAGAGACTACAGATGAAGAGATGTTTTTAGAAGCGGGTAAACTGGCGGAAAAACGTGAAGATGCTGAGAAACAAGTAGTGCGTTTATTACCGCAAATTGATCTGTTAGAACAGCGTTTAAAGAGTTTATCATTAGCTGAACATTACGAAGCTGACGGTTATGAAGAGAAATTAAAGAGAGAAATTACAGTCGTACAAAACTGTCTGGCGCAAGAGAAAGAATTGACAGAGCGCATCGCGAAACATCGTATGGAAATTGCGAATTTAGAAGAAGGTAGTACGTACGGCGATTTAATGCATGAGTGGGAAATGAAAAAAGCGCAAGTACGTGAACAAGTGAAGAAGTGGGCTGCTTATGCGGCCGCAAAGACAGTATTAACGAAAACGAAGCAATATTATCATGAAGTGCATCTGCCTCGTATTTTACAAAAATCAGAAGAGTATTTCGTCTATTTAACGGGCGGACGCTATAGTAAAATCTTTTCACCGTCAGAGGCGGAGCCGTTCGTTGTTGAACGTAACGACGGTATACGTTTTTACAGTCATGAACTAAGCCAAGCGACAGCGGAGCAGTTATATTTATCGCTGAGATTTGCACTTGCGAAAACATTTGAACATGATTACCCATTTATTATTGATGATAGTTTCGTGCACTTTGATGCGGTAAGGACGGATCGAACGATTGAACTAATAAAGGAAATCGCAAAAGATAGACAAGTCATCTTCTTTACATGTCATGCGCATTTACTCGCGTATTTTACAGAAAAACAGATTATAAAATTAACACATAAGCGTAAAGAAAATGAGTTGTAA	MRIEKLHIYGYGKLENVEMDLSLLTVLYGENEAGKSTIRSFMKSILFGFPTRGQRRYEPKEGGKYGGAMTVQTEKYGRLKIERLPKTASGEVTVYFEDGKTGGEEILNDILSGMNESLFESIFSFDMHGLQNIHQLGEADIGNYLFSASAVGSDALLQLDKKLEKEMDQRFKPSGRKPEINVSLQEMKKLEEKMKEWQGKIGTYEKQVEQLKESEEKLASVRMEKESAEKRKQDYEILAALEPLVIEKRAHEKVLENESGQFPVNGMARYEAIKAKMEPLQLQVDSLHKKIETVQSEIASIQIDEEFLQKESYVEELRMQHMSYENARQEMRDMTGSIANIKEEIAELEQQIGATFEKEAVLAFDMSLATKELITQTVQKARELETQKAQLDDRFKVAQEQLEEQEENIRQIQKQMLVDEERDTLVEKEKSFQDAAFIGMGAERMKRKYEEKAGAAMQKKKQWQRVCLLLLLINTLVLFTSLFIDNRPLLFISVIVFVGIVLALVLYKDPSSGLQEELLTLQQSAGGRQSEEVLSVRYQLEKDEEIRKLFERESYKLQQMERAYDKVVSSYEEWERETFQAGEQVDAYKTRYMFPEFYTYAHILPAFERIEKMQQLYRELEKEGTRKSSLYEMISHFEQKLEAVIGSAEYSKLHGAQSRMQNEKEKRQTCKQLKEKLAEWQEEYEFMQEQLKQLLVERNALWNIAETTDEEMFLEAGKLAEKREDAEKQVVRLLPQIDLLEQRLKSLSLAEHYEADGYEEKLKREITVVQNCLAQEKELTERIAKHRMEIANLEEGSTYGDLMHEWEMKKAQVREQVKKWAAYAAAKTVLTKTKQYYHEVHLPRILQKSEEYFVYLTGGRYSKIFSPSEAEPFVVERNDGIRFYSHELSQATAEQLYLSLRFALAKTFEHDYPFIIDDSFVHFDAVRTDRTIELIKEIAKDRQVIFFTCHAHLLAYFTEKQIIKLTHKRKENEL				NA	NA	NA	NA	NA
AK009_09110	945	yhaM_2	COG3481	3'-5' exoribonuclease YhaM	ATGAAAAAGAAAATTGCAGAATATGAAGTTGGTGAACAAGTCGATGTTTTCTTGTTAATTAAAACAGCGACAAAAGGTCTAGCAAGTAATGGAAAGCCATTTTTAACAGTAATCTTACAAGATCCAAGTGGAGATATTGAAGCGAAGCTATGGGACGTATCACCAGAAGTTGAGAAACAATATGTAGCAGAAACAATCGTTAAAGTAGCTGGTGATATTTTAAACTACAAAGGACGTATTCAATTACGTGTGAAACAAATCCGTGTTGCGAATGAAAATGAAGTAACAGATATCTCGGATTTCGTAGAAAAAGCACCAGTGAAAAAAGAAGATATGGTTGAGAAAATTACGCAATACATATTTGAAATGAGAAACCCGAACATTCAGCGTCTAACAAGACATTTATTAAATAAGCATCAAAATGAATTTTTAGAATATCCAGCAGCGACAAAGAATCATCATGAGTTCGTATCTGGACTAGCTTATCACGTTGTATCAATGCTAGATTTAGCGAAAGCTATTTCAAATCTATACCCATCATTAGATAAAGACTTACTATATGCAGGCGTTATTTTACATGACCTTGGTAAAGTAATTGAACTATCTGGTCCAATTTCTACAACGTATACGTTAGAAGGAAATTTACTAGGCCACATTTCTATCATGGTGAACGAAATTGGTAAAGCAGCAGATGAGCTGAACATCGATGCAGAAGAAGTATTAATTCTTCAACACATCGTCCTTTCTCACCACGGAAAAGCAGAATGGGGTAGCCCAAAACCACCATTAGTAAAAGAAGCAGAAATTCTGCACTACATCGACAACTTAGATGCAAAAATGAACATGATGGACCGCGCATTAGGACGCACAAAACCAGGCGAATACACAGAGCGTGTCTTCGCACTTGATAATCGTTCGTTCTATAAACCGACGTTCCATAATTAA	MKKKIAEYEVGEQVDVFLLIKTATKGLASNGKPFLTVILQDPSGDIEAKLWDVSPEVEKQYVAETIVKVAGDILNYKGRIQLRVKQIRVANENEVTDISDFVEKAPVKKEDMVEKITQYIFEMRNPNIQRLTRHLLNKHQNEFLEYPAATKNHHEFVSGLAYHVVSMLDLAKAISNLYPSLDKDLLYAGVILHDLGKVIELSGPISTTYTLEGNLLGHISIMVNEIGKAADELNIDAEEVLILQHIVLSHHGKAEWGSPKPPLVKEAEILHYIDNLDAKMNMMDRALGRTKPGEYTERVFALDNRSFYKPTFHN				NA	NA	NA	NA	NA
AK009_09111	333			hypothetical protein	ATGCCGCATGTTGTGTTTCGTGGAATTACTACTGAACAATTAAAACACATAAGCAAGCCATTAGTAGAAGAGCTCGCAGAGATTTGTGAGTGTGGTACGGATAATTTTACGTTGGAACTACCAAGTTCTACGTTTGTATTCAATGGAGAAGAAATAGAAGCGTTTCCTCTTATTGAAGTGAAATGGTTCGAGCGTGGACAGGAAATTCGTGATCGATTTGCCAAGGCCATTACTACATATGTAATGGATTTTGGACTTCCAGAAGTAGAGGTTGTATTTACGGTTTTCACAGAATCAGCGTATTATATTAACGGGAAGCATTGTGCAAGTTAG	MPHVVFRGITTEQLKHISKPLVEELAEICECGTDNFTLELPSSTFVFNGEEIEAFPLIEVKWFERGQEIRDRFAKAITTYVMDFGLPEVEVVFTVFTESAYYINGKHCAS				NA	NA	NA	NA	NA
AK009_09112	627	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	ATGGAAAATTATATGCTATTTATCCTTACAGCACTCCTTATTATAATGATGCCTGGTCCCGGTTTTGCTTTAGTTACAAAAAACACTATCTCTCATGGTAGAAATGGTGGAATAAAGACCGTCTTAGGAACAGTATCTGGAATGATGATTCATACAATAATGGCTACACTAGGACTCTCTGCTATCTTAATGAAATTTGCTATGCTATTTACATTAATAAAATATGCTGGGGCATTTTATTTAATTTATTTAGCTGTAAAGTCAATTAAAAGTGCCTTTTCTAAAAAAGAAGATATGTCAAGTTCAGTGGAAATAAACTCTAAGGATATTGGAACGGTTAAAAGTTTTAGACAAGGATTTACCACGGCAATCTTAAACCCAAAAACGGCTGTATTTTTCCTTAGTTTTCTACCCCAATTTATTGTGAGTAATCAAAGTCATTTCTTCCAATTTCTTTTGTTGGGATTCACATTTACGACTTTGACAGCAATATGGTATTTACTTTATATCTCTCTAATACGTCAATTAAGAACTTTTTTAAGAAAAGAAAAGGTGAACCGTACAATAGAGGGTATTACTGGCACAGTATTATTAGTATTTGGAGTTAGGCTATTTTTCCAAAAATAA	MENYMLFILTALLIIMMPGPGFALVTKNTISHGRNGGIKTVLGTVSGMMIHTIMATLGLSAILMKFAMLFTLIKYAGAFYLIYLAVKSIKSAFSKKEDMSSSVEINSKDIGTVKSFRQGFTTAILNPKTAVFFLSFLPQFIVSNQSHFFQFLLLGFTFTTLTAIWYLLYISLIRQLRTFLRKEKVNRTIEGITGTVLLVFGVRLFFQK				NA	NA	NA	NA	NA
AK009_09113	945	mhqA_1	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGTATAAAATTAAAGGGCATCATCACATTTCAATGGTTACGAAAAATGCAAATGAAAATAATCACTTTTATAAAAACGTGCTTGGCTTACGTCGTGTGAAAATGACAGTAAATCAAGATGATCCGTCAATGTACCACTTATTTTATGGAGATAAAACAGGAAGTTCAGGTACGGAATTATCATTTTTTGAAATTCCATTAGTAGGAAGAACATATCGCGGTACGAATGCGATTACTCGAATTGGATTACTCGTTCCTTCAGAGGAAAGCTTACATTACTGGAAAGAACGATTTGAGAATTTTGATGTGAAACATAGTGAAATGACAACATATGCAAATCGTCCTGCTTTACAATTTGAGGATGCTGAAGGTCTTCGCTTAGTACTACTCGTTTCAAACGGAGAAAAAGTAGAGCACTGGGAAACTTGGGAGAAATCAGAAGTTCCTGCAAAGCATCAAATTCAAGGAATGGGTTCTGTGGAAATGACAGTTCGTAGACTTGATAAAATGTCGAGTACACTTACAGAGATGTTCGGTTATACAGCGGTTAGCCGTAGCGAAGAGGAAGCAATTTTTCAATCCATTAAAGGAGAGGCTTTTGGAGAAATCGTTGTGAAATATTTAGATGGACCTACTGAAAAGCCGGGCCGAGGGAGCATTCACCATTTAGCAATTCGCGTGAAAAACGATGCAGAGCTTGCCTATTGGGAAGAACAGGTGAAACAAAGAGGCTTCCAGTCTTCAGGAATCATCGACCGTTTCTACTTTAAAAGCTTATATTTCCGTGAATCAAACGGAATCCTTTTTGAAATTGCGACAGATGGACCAGGATTTACAGTTGATGGAGATGTGGAACATTTAGGAGAAAAACTTGATTTACCACCGTTCTTAGAAGATCAGCGTGCAGAGATTGAAGCGAATTTAGCACCTATTGAAGAGAAGTAA	MYKIKGHHHISMVTKNANENNHFYKNVLGLRRVKMTVNQDDPSMYHLFYGDKTGSSGTELSFFEIPLVGRTYRGTNAITRIGLLVPSEESLHYWKERFENFDVKHSEMTTYANRPALQFEDAEGLRLVLLVSNGEKVEHWETWEKSEVPAKHQIQGMGSVEMTVRRLDKMSSTLTEMFGYTAVSRSEEEAIFQSIKGEAFGEIVVKYLDGPTEKPGRGSIHHLAIRVKNDAELAYWEEQVKQRGFQSSGIIDRFYFKSLYFRESNGILFEIATDGPGFTVDGDVEHLGEKLDLPPFLEDQRAEIEANLAPIEEK	PGPT0028510_943	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
AK009_09114	978	mhqA_2	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGAACCAATTAAAAGGAATTCACCACGTTACAGCGATTACAAGTAGTGCAGAAAAAAACTATGAGTTTTTCACTCACGTTTTAGGAATGCGTTTAGTTAAGAAAACAGTAAACCAAGATGATATTCAAACGTATCATTTATTCTTTGCAGATGATAAAGGGAGTGCAGGAACAGATATGACATTCTTTGATTTCCCAGGTGTTCCGAAAGGCGTACACGGTACAAATGAAATTTCAAAAACTTCATTCCGTGTTCCGACTGATGCAGCATTAGAGTATTGGGTGAAACGCTTTGACCGTCTTGAAGTAGAACATACAGGAATTAAAGAGCAATTTGGTAAGAAAACTCTTTCTTTCGTTGACTTTGATGACCAAGAATATCAATTAATCTCAGATGAACTTGATAAAGGAATCGAATCAGGTACACCGTGGCAAAACGGGCCAGTACCATTAGAATATGCAATCACTGGTTTAGGACCTGTATTTATCCGTATTGCAAACTTTAGTTTCTTCAAAGAAGTGCTAGAAAAAGTTTTATTATTTAAAGAGGTTGCGCAAGAAGGAGAATTCTATTTATTTGAAGTAAATAAAGGTGGAAACGGTGCTTCTGTCGTTGTAGAACATAATACGGTTCTTCCAGAAGCACGACAAGGTTTTGGTACGGTTCACCATGCTGCATTCCGCGTAGAAGATCGCGCTGTATTAGAAGAATGGATTGAGAGAATCAGTAGCGTTGGACTTCCTTCATCTGGTTATGTAGACCGTCATTTCTTTGAATCATTATACGCAAGAGTTGCACCACAAATCTTATTTGAATTTGCAACAGACGGCCCAGGGTTTATGGGAGATGAGCCATACGAAACACTTGGCGAAAAATTATCTTTACCTCCATTCCTAGAGCCAAAACGTGAAGAAATTGAAAAATTAGTTCGTCCAATTGATACAGTGAGAAGTACGAAGGAATTCATTAAAGAGTAA	MNQLKGIHHVTAITSSAEKNYEFFTHVLGMRLVKKTVNQDDIQTYHLFFADDKGSAGTDMTFFDFPGVPKGVHGTNEISKTSFRVPTDAALEYWVKRFDRLEVEHTGIKEQFGKKTLSFVDFDDQEYQLISDELDKGIESGTPWQNGPVPLEYAITGLGPVFIRIANFSFFKEVLEKVLLFKEVAQEGEFYLFEVNKGGNGASVVVEHNTVLPEARQGFGTVHHAAFRVEDRAVLEEWIERISSVGLPSSGYVDRHFFESLYARVAPQILFEFATDGPGFMGDEPYETLGEKLSLPPFLEPKREEIEKLVRPIDTVRSTKEFIKE	PGPT0028510_285	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
AK009_09115	1095	rapH		Response regulator aspartate phosphatase H	ATGGGAGCAGATGTAGTAACGCGGGAGCAAATGAGACACTTATTGGATGATTGGTATCATTCAATGTTAAAACAAGATGTGGTTAAAGCGAAAGTACTAAATGAGGAAATAGAGTCCAAGGTTATTTATATTAAAGAAGATCAGTATGCGGCATTTTATCACGCATTATTAAAATTCCGTTATCATGTGCTAATTGATAGTTTGAGTATTACAGAGAATAGTTTTGATGAAATTAATACCTTTATAATTCCTGATGACGCACTTTTAACACATTATTATCACTTATTTAAAGGTATTCATGCAATGTATATATCAAATTACATTGAGTCACAAAATCACTTTGAAGAGGCTGGGAAATTAATTAAATATATAACATCTTCGTTGGAACATGCTGAATTCAATTATAGATTTGCATATTTGTCTTATCAAACGTATAAACCATTGATGGCGATTGATCAAATACGTTTAGCAAAAGATGAATATGAAAAACATCCTGGCTATGAAGTTTGTATTGCTTTGTGTGAGAATATTTTTGCAATGGCTTGTATTGATTTAAAGCAATATGAACAAGCCGAAGAGAAGTTGAATTTGGCATTAGATGTATTTCAAAAGATAGATAATGAAAGATTTATTACAATGGTTCGTCATAATTTAGCATGGTTATATGCAAGTCAAAACCTTTCGAGTTTAGCAATTCGACATTTAGTAGAAGTAATAAAAAGTAATCCCAAACATTTCAAAGCAATGTTTGTATTAGCACGTGAATATTACAAAATTGGAAAAATCGATACTGCCGCTGAATTAATTGAAAAAGGATTAGATATATGTAATAAGATACAAAATAAAGAATTTCAGCACCGTTTTGTAATTTTAAAGGAAATGAATCAAAAGACGTCTAGTGTATTATTAGAATCCACTATTTTAAATGGGATTTTATATTTTGAGAAAGAAGGTTTGTTGGATTGTATTCAAGAATATACTGAGATTTTAGCTATGCAATTTTATAAAGAAGAAAACCATGTAAAGGCAAGTAAATATTTTTATATAAATAATCAAGCACAGAAAAAACATTTAGAAAAAGGGGCGTTGAAATAA	MGADVVTREQMRHLLDDWYHSMLKQDVVKAKVLNEEIESKVIYIKEDQYAAFYHALLKFRYHVLIDSLSITENSFDEINTFIIPDDALLTHYYHLFKGIHAMYISNYIESQNHFEEAGKLIKYITSSLEHAEFNYRFAYLSYQTYKPLMAIDQIRLAKDEYEKHPGYEVCIALCENIFAMACIDLKQYEQAEEKLNLALDVFQKIDNERFITMVRHNLAWLYASQNLSSLAIRHLVEVIKSNPKHFKAMFVLAREYYKIGKIDTAAELIEKGLDICNKIQNKEFQHRFVILKEMNQKTSSVLLESTILNGILYFEKEGLLDCIQEYTEILAMQFYKEENHVKASKYFYINNQAQKKHLEKGALK	PGPT0025760_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025760-rapC-K06361	NA	NA
AK009_09116	201			hypothetical protein	ATGAAAAAAGTAGGCGTAATAGCAAAAGGATTAATTTTTGTAGGGATTCTTTCATTGGGACTTAATTTTTCTTCTACTACACAGCAAGCAGTTAATATTGGTGACGGAGGAGCACCAGCAAGACCAGACTACGTTAACATTGGCGACACAGGAGGAGCACCAGCAGATAATAGAGGCGACGGCGGAGTAAGCCAACTATAA	MKKVGVIAKGLIFVGILSLGLNFSSTTQQAVNIGDGGAPARPDYVNIGDTGGAPADNRGDGGVSQL				NA	NA	NA	NA	NA
AK009_09117	873	menH_5		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	TTGAAACGGTTTAAGTTTTATATGATTAGCGGTATTGTGCTCGTTTGGTTAATTGTTTGTAACTTCGTTGAGAAGCCGATTGCGAAGGTTGGAGAAGTGAAAGATACTGTTATGATGAAGTTGAATACGAAAGAGAGTATGGCGCAAATTGATGGGCAGACGATTTATTTTAAACAAATTGGTGAGGGGAAACCTCCGTTACTTATGCTTCACGGGTTTGGTGGTTCTTCTGATGGGTTTAGTGATATTTATCCGGAACTAGCGCGAGACCATACGATTATTGCGGTTGATATTTTAGGGTTTGGGCGTTCTTCTAAACCTATTGATTTTCAGTATTCGTTTCCTGCGCAAGTGAATTTATATTATAAGTTAATGAAGAAGCTCGGATACGATCAGTTTGCGGTGCTCGGCCATTCAATGGGCGGAGAGATGTCCCTTAATTTAGCGTATTTATATCCGGATGCAGTGACGCATCTCATCTTGGCGGATGCCACAGGGATAGAGTCTTTCCAGCAAAAAGAAAGTTATGAAGTACCACCGCTATCGACGGACTTACAAACTGTAACTGAGATTGCGAAGTATAATAAAAATGAAGTGAAAAATAGTCGTGATGATAAAGAGCATTATGATCAGCTTACGAAAATGAGAGAGCGCCGCATTGCGATGGAAGCAGATAAAATTAAGGTACCGACTTTAATTTTATGGGGACGACATGATAAGAGTGTTTCTTGGAAAAATGGTGAACTGTATCATGGGCTATTTGCGAATAGTACGTTTCATATTATTGAAAAAGGATACCACGCACCGTTTCGTCAGGAACCAATTGAGTTTATGGAATATGTACAAGCATTTTTCGCGAAGCATCCACAATAA	MKRFKFYMISGIVLVWLIVCNFVEKPIAKVGEVKDTVMMKLNTKESMAQIDGQTIYFKQIGEGKPPLLMLHGFGGSSDGFSDIYPELARDHTIIAVDILGFGRSSKPIDFQYSFPAQVNLYYKLMKKLGYDQFAVLGHSMGGEMSLNLAYLYPDAVTHLILADATGIESFQQKESYEVPPLSTDLQTVTEIAKYNKNEVKNSRDDKEHYDQLTKMRERRIAMEADKIKVPTLILWGRHDKSVSWKNGELYHGLFANSTFHIIEKGYHAPFRQEPIEFMEYVQAFFAKHPQ				NA	NA	NA	NA	NA
AK009_09118	201			hypothetical protein	TTGGAAACTTTACCATGGTGGGTTTATCTTGTAATTGTCGGGATTGTACTAAGTGGCTACATGGTTTTATATACTTCGAAAAAAGAGCAAGATATGGATAATGAGTTTATTGAAAAAGAAGGCGAAGTATATATGAAGCGCTTAGAAGAAGAGCGTGAGAAACGTAATCAGGATAGTGATAAAGATTCGGTATTGCTTTAA	METLPWWVYLVIVGIVLSGYMVLYTSKKEQDMDNEFIEKEGEVYMKRLEEEREKRNQDSDKDSVLL				NA	NA	NA	NA	NA
AK009_09119	852			hypothetical protein	ATGCATAGGGATGAAACATCATTACATCCTGATACAGGTGTTACATCTGTAATGTTTGTTGAGCGTTCATTAAATGAAATTCGTTTTTGGTCTAGAATCATGAAGGAGCATTCTTTTTTTCTTCGCTTAGGGTTTAGATGCGAGGATACTCAACTAATTGAAGAGGCTAATCAATTTTATCGATTGTTTGAACATATCGAACAAATAGCGCATTCCTATACAAATGAAACAGATCCTGAGCAAATAAAAAGATTTAATGCAGAAGTACAACAAGCCGCAACTAATATTTGGGGATTTAAAAGAAAAATCTTAGGATTAATTCTCACATGTAAATTGCCAGGACAAAATAACTTTCCACTGTTAGTTGACCATACAAGTAGGGAAGCTGACTATTTTAGAAAACGTTTAATACAATTAAATGAAGGGAAATTAGATGCCCTTCCTGATGCTATTATTAAAGAAAATGTTTTCTTTTTACGGATTATGGCAGACCATGCTAAATTTATTGGCCATCTTCTTGATCCATCGGAAAGAAAGCTTGTAGATACAGCACGGAATTTTAGCAATGATTTTGATGAATTGATGTATCAAGCAATTGACTTAGAATCTATGAAACCACAATCCCAAACAGTCCCACTTTTAGATCAATTTTTAGATCAAAATCGTGTGTCGGTTACATCTCTTCGGGATTTTAAGAAAACAGCACGTGATTTAATTGAGCAATGTAAAATAAAGAGTATCATTCATCCATTATTAGCAGACCATGTTTTCCGTGAAGCTGATAGATTTCTTGAAATCATTGATATGTATGATGTTCATCTTACAAATATTCAATCACAACCTAGATATTAG	MHRDETSLHPDTGVTSVMFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTVPLLDQFLDQNRVSVTSLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHLTNIQSQPRY				NA	NA	NA	NA	NA
AK009_09120	708			hypothetical protein	TTGTTTGCACTACATTTTACAAATAAAGGGGTATTAGTAATCATGAAAGCAAAGAAATTAGTAAGTTTAGCGTTACCAGTTATGTTATTGAGTGGTTGTATTACAATTGAAACTGATGGTAAGAAAGCTGAGCCAAAGAAAGAAGAAACGCAAAAGGTAGAGAAAGAGAATAAGACTTCTGAAAAAGAGAGTAAGTCAACTGATAGCAAGAAAGAGGATAGCTTATCTGTAGCGAAAGGTGAAGGTACAAACAGTAGTTCATCAAGTAGTCAACCAAGTTCTTCTTCAAATAATTCAACTTCTTCTAGTTCTTCAACTGGTAAGGTAACTGGTTCAGATGTTGAAAGGTACAAGGCAGATATCATAAATAGTGCTACTCAAATTGAAGATACAATGAAATTAATTGAAGGAATAGCAGATTCAGACGTAAAATCATACAAACAAAAGAAAAGTGAAGTACAACTGAGTTTAGGTGGAGCAAAGGCAACTGCAACGAAACTGAAGAATCTACAAGCACCTCCTGAATTACAGGGAGAACAAGTGAAGATAAAGCAATCGATGGAACTGTATGCGGATTGTTTCCAACTTCTCTTTGATGCATTAGACCAAGAAGACGAGAGTAAAATGCATCAATCATTAAGTAAAGCACAAGAAGGTTCAAAACTGTTTGAAGAAGCAGCGAAGAGTATCGGTAGCAAAACAAACTAA	MFALHFTNKGVLVIMKAKKLVSLALPVMLLSGCITIETDGKKAEPKKEETQKVEKENKTSEKESKSTDSKKEDSLSVAKGEGTNSSSSSSQPSSSSNNSTSSSSSTGKVTGSDVERYKADIINSATQIEDTMKLIEGIADSDVKSYKQKKSEVQLSLGGAKATATKLKNLQAPPELQGEQVKIKQSMELYADCFQLLFDALDQEDESKMHQSLSKAQEGSKLFEEAAKSIGSKTN				NA	NA	NA	NA	NA
AK009_09121	1074			hypothetical protein	ATGAAAGTGAAGAAACTAATGGCTGCTGTAGTTCCAGTTACATTATTATTAAGTGGTTGTGTTACAGTAAAAGATTCGGCAAGTAAAGAAGCAAAGACAGAAGAAACAAGTAAAGCTAAGTCTTCTGGAACAAAAGAAAAATCAACTAATTCGAAAGAAGAAAGTAAAGATGTTCAAAAGGTTCGAGTTTTAGATGAAGATTATGCACAATATTTATTAGACATTGAACAGGATATGTTAAGACGATTTGATTACTATGATGCATCTGTAAAGGATTTGAGAAACGGAAGTAAATCAAAAGCTGAGGTATTAGATAGTGTTAAAGACATCTATAAAGTATTTGATAAGATAGAGAAGATTTCTGCACCGCCAAAACATAAAGAAGACCAAAAAGAGATTGAAAGAGCTGCAGGTAAACTAAGAGAAACATTCGGTGAAATAGAGAAGTTATTCAACGATAAAGGTTTTAGCTTAGAGACTGATAAGGAAATCTTAAATAAAGCAAATATAAAATTAGAGGAAGCAAAACGTATTTGGAAACCTACATTTGATAAGTTAAGGGCTGAAGTAAAAGGTGATACAACCACGGAAAAATCTACTAGTACAACAAGTAGTTCTACACAGGCAAACCCAACTACTGGCAGTCAGGCTCAAACAGATAAAAGTCAAGCAAAAACTGGGGTATTTGTAGATACAGTTGGTACAAGTGAAGAGTTAGGAATTAGTTATAGCAACATGCAGAAGAACATTAAAGATGGTACTGAGATTATTGGTAATTGGGGTATTGATTACGGCAGTGGCGTAAAAACTACGCTAGTACTAAAAGGTGATAAAACATTTGAGTCTTATGCGAATGGTTCTTATCCGAATAAAGATAACTATTTAACAGGAACATATACGGTGGATGTCCCATCATTCCAGTTATCTTTAAAAGTAACAAAAGCAGTTAAAGACGATCAAGAAGTAAAGTTAACAAATGATAGTATCATGTATAAATTGCAAAACTATGATGGAAACACATTACAAATTTATCATATGGACGATAATGTTCGTATTCGATATGTAAAACAATAA	MKVKKLMAAVVPVTLLLSGCVTVKDSASKEAKTEETSKAKSSGTKEKSTNSKEESKDVQKVRVLDEDYAQYLLDIEQDMLRRFDYYDASVKDLRNGSKSKAEVLDSVKDIYKVFDKIEKISAPPKHKEDQKEIERAAGKLRETFGEIEKLFNDKGFSLETDKEILNKANIKLEEAKRIWKPTFDKLRAEVKGDTTTEKSTSTTSSSTQANPTTGSQAQTDKSQAKTGVFVDTVGTSEELGISYSNMQKNIKDGTEIIGNWGIDYGSGVKTTLVLKGDKTFESYANGSYPNKDNYLTGTYTVDVPSFQLSLKVTKAVKDDQEVKLTNDSIMYKLQNYDGNTLQIYHMDDNVRIRYVKQ				NA	NA	NA	NA	NA
AK009_09122	1197	oxdD	COG2140	Oxalate decarboxylase OxdD	ATGAAGAAACGTACTGTTAATGAAGCGGGAGGGAAAGTGCCGCAACCAATCCGCAGCGACGGAGCAGGTGCAATTGATTCTGGACCTCGTAATGTTATGCGAGATATTCAAAATCCGAATATGCTTGTTCCACCTATAACGGATGCAGGATTAGTTCCTAACTTGAAGTTTTCATTCTCGGACACTTCTATGATTTTGAAACACGGCGGGTGGTCTCGGGAGATTACTGCTCGGGAACTACCAGTTTCGACGACGATTGCTGGGGTAAATATGAGCTTAACGGCCGGTGGAATACGAGAACTTCATTGGCATAAAGAAGCGGAATGGGCGTATATGCTTTTAGGACGGGCACGCATAACGGCTGTTGATCAAAATGGACGGAATTTTATTGCTGATGTTGGACCAGGTGATCTTTGGTATTTTCCGCCTGGTATTCCGCATTCCATTCAAGGATTGGAACATTGTGAATTTCTACTTGTTTTCGATGATGGACATTTTTCTGATTTATCTACTTTAGCTATTTCTGATTGGTTTGCGCATACGCCAAAAGAAGTGTTGTCGGCTAATTTTGGAGTACCTGAGAGTGCTTTTCATTCTATCCCTTCAGGTCAAGTTTATATTTATCAAGGAGAGGTGCCAGGTTCGCTTGAAAGTCAGGAAGTTCAATCACCGAAAGGGGAAGTTCCTTTAACATTTAAACATGAACTGTTAAAACAAAAGCCAATTAAGACTCCTGGTGGTAGCGTTCGAATTGTAGATTCTACAAATTTCCCTATTTCAAAAACGATCGCAGCAGCGCTCGTTGAGGTTGAGCCTGGTGGAATGAGAGAACTTCATTGGCACCCGAATAATGATGAATGGCAATATTATTTGACAGGAGAAGCGAGAATGACTGTGTTTCTTGGAAATGGTACCGCTCGTACATTTGATTATAGAGCTGGTGATGTCGGATATGTACCGTTTGCGACGGGGCATTATATTCAAAATACAGGTACCGAAACATTATGGTTTTTAGAGATGTTCAGAAGCAATCGTTTTGAAGATGTATCGTTAAATCAATGGATGGCACTGACTCCTAAAGAAATAGTGGAGAGTAATATACATGTTGGCCCGCAAGTAATGGATTCCCTGCGTAAGGAGAAGTGGCCTGTTGTGAAATATCCGGGGTTTTCGTATAGTCCGAAAAATGATGAGTAA	MKKRTVNEAGGKVPQPIRSDGAGAIDSGPRNVMRDIQNPNMLVPPITDAGLVPNLKFSFSDTSMILKHGGWSREITARELPVSTTIAGVNMSLTAGGIRELHWHKEAEWAYMLLGRARITAVDQNGRNFIADVGPGDLWYFPPGIPHSIQGLEHCEFLLVFDDGHFSDLSTLAISDWFAHTPKEVLSANFGVPESAFHSIPSGQVYIYQGEVPGSLESQEVQSPKGEVPLTFKHELLKQKPIKTPGGSVRIVDSTNFPISKTIAAALVEVEPGGMRELHWHPNNDEWQYYLTGEARMTVFLGNGTARTFDYRAGDVGYVPFATGHYIQNTGTETLWFLEMFRSNRFEDVSLNQWMALTPKEIVESNIHVGPQVMDSLRKEKWPVVKYPGFSYSPKNDE				NA	NA	NA	NA	NA
AK009_09123	450			hypothetical protein	ATGATTTTTAGTGAGCGTTTAAAAGAAGAAAGGGAAAAAAGAAATTGGTCGCAAAATGATTTGGCTGAAAAAATTCATGTAAGTAGGCAATCTGTTTCGAAATGGGAGACGGGAAAGAACTATCCGAGCATTGAAATTATTATTCATTTAAGTGATTTGTTCGATATTACGATTGATGAACTGCTAAGGAGTGATGAAGAATTGACGCAGAAAGTAATTGAAGATAGTAAGAAATTGGCATATCCAAAATGGAAGGTGTTTTTTGATAGTTTATTTATGATAGGGGTATTTTTACTTATTGCAAAAATCGTTGTATGGATGCTAAATAAATTTGCTGGAGCAAGTATTGCAATTGTAGCAGATGCGCCATATGTAATGAATCTTTTACCCCTTGCATTCATGATTATAGGTGGTATAGGTTCCGATAAGTTGAAGGAAATATATAGATAG	MIFSERLKEEREKRNWSQNDLAEKIHVSRQSVSKWETGKNYPSIEIIIHLSDLFDITIDELLRSDEELTQKVIEDSKKLAYPKWKVFFDSLFMIGVFLLIAKIVVWMLNKFAGASIAIVADAPYVMNLLPLAFMIIGGIGSDKLKEIYR				NA	NA	NA	NA	NA
AK009_09124	453			hypothetical protein	TTGCTTGGCCTCGTGCATAAGGGGGGTGATGAAGGTGTCGCGGAAAGCCTCGCGGCGGGTGCGCAGGACCTGCTCGCGGGCGGTGGGCAGCACAAACATGCCCAAGCCCCGGCGCTTTTCCAGCAGGCCTTCCTGCTGGAGTTCGGTGAGTGCTTTGGCGGAGGTGGTGGGGTTGACGGAGTGGAAGTGGGACAGCTCGTTGGTCGACGGGGCGCGGTCGCCGGGGCCGAGCTGCCCGGAGGCGATGAGATCGCGGAGCTGGTCAGCGATCTGCATGTATATGGGTTTACCACTCATGTGGGTAACTATATAACCCGTGGGCTGAGCGTGTCAACGCTCACCGCTAGAATGACCAACCATGACCGAACAGCAGCGAGTTCTCTCCGGCATTCAGCCGACCGCCGATTCCTACCACCTGGGCAACTACCTCGGGGCGCTGAAGCAGTGGATTGA	MLGLVHKGGDEGVAESLAAGAQDLLAGGGQHKHAQAPALFQQAFLLEFGECFGGGGGVDGVEVGQLVGRRGAVAGAELPGGDEIAELVSDLHVYGFTTHVGNYITRGLSVSTLTARMTNHDRTAASSLRHSADRRFLPPGQLPRGAEAVD				NA	NA	NA	NA	NA
AK009_09125	333			hypothetical protein	GTGCGACGCCATGATGACCACGCGGGTGTTGTCGGCTGCGACGAAATCGATCAGGTTGTTGCGCAGCCGGGCGCGCGTGGCGGCGTCGAGGCCGTCGAAGGGGCCGTCGAGAAGCAGCAGCGGCTTGGCTGCTGCGAGGGCGAGGGTAAAGGTGAGCTCGCGCCGCTGGCCGACGGAGAGCTTGCTCAGCCGCGTGGAGGTGTCGAACGGCAGCGTCAAGGCCGCGCGCGGTGTCGCCTCGCGGGCCCAGGCGATGTGGTCAGCGACGGTACGGCCAGCGAAGAGGGCGTCGGCGGCCGCGGGGATGTACGCCGCGTCGGGGCCGATCAGTGA	MRRHDDHAGVVGCDEIDQVVAQPGARGGVEAVEGAVEKQQRLGCCEGEGKGELAPLADGELAQPRGGVERQRQGRARCRLAGPGDVVSDGTASEEGVGGRGDVRRVGADQ				NA	NA	NA	NA	NA
AK009_09126	288			hypothetical protein	GTGTTAGGCCTTTCGGGTAGCAAGCAGGTCGATGAGTTCGGCGTCGTTCGGGTAGGTCAGCTCGACACCGTCGGCACCGTCGGCGCCGGTACAGGGTTCGGCGAGCTGGGCGCGAAGAGTCGGCCCCAGGGACTGGGCGGCAATCACGTCACGGCCCGCGATCAGCTTGTCGACGTCCGCCTTACGCCCCGTGAGCACCGGAAACGACGCGCGGGCGTCGTCAAGCAGCAGCGGCTGCGAGGTGACTTGGTCGAAGACGCGGATGACGCGGTCGGCGAGCCCCGCTAG	MLGLSGSKQVDEFGVVRVGQLDTVGTVGAGTGFGELGAKSRPQGLGGNHVTARDQLVDVRLTPREHRKRRAGVVKQQRLRGDLVEDADDAVGEPR				NA	NA	NA	NA	NA
AK009_09127	933			hypothetical protein	GTGGACGAACAACCCCTGGTACCGGCTTTACGACGTCCTGCTGATCACCCAGGGCGACACCCCGTTTGTCGACACCAACGGCGAGCCCTACATGGTGGACAACGCCGGCCAGAACGCCACGACGATCACGCTGACCGTGCTTCTCACCTTTGCCCTCTTCGCCGTCGCGGCGATGGTGGGCATCGCCACCGGGATTGCCGGCAGGAACCGCGGGGCGTTTGCAATCCTCATGGCCGCCACTGTGATCGGTGGCCTAGTGGCCGGATTTACCTACGCGGCGTTGACCGAGACGGTGGAAATCGGCGGCGACATAATTCCACGAACCGCACCCAACGCGGGGTCGATCGCGCTCGCCGCTGTCTTGACCGCACTCGCCCTTGGCGCCGCCTGGGTGATTGCGCGCGCCCCGCGGTTTATCCGCTAGCCCTTGCTGTTGCCCTTGCGCTTGTGGCGCACGGGCGCTTGCTCCGCGACCATGCGTACCTTGCGGTAGACGCGCCGCGCGCCGGGGATCTTGCGCCCGCGGGTGCGCACGAAGCTTGCCAGCTCGTCTTTGGGGTCGATCTGCGCCGCTCTTTCCTCGTCGTAGTCGAAGATCGGCAGCGACCACCTGAACCGGAGCGAGAGCAGGCGCGTGACAAACACGAAGATCACGGCCACGATCGTGACTATCCACTCGGGCACCCCTGCCGCCATCAGCCCCATGTACACGACGGTGCCCAGCACCGCGATGGAGGCGTAGAGCTCCTCGCGAAACACCAGCGGCACCCGGCCGGAGAGGATGTCGCGCATCACGCCACCGGAAACACCCGTGGTCACGGCGGCAACGGCGGCGATGATGAACCCGTGCCCGAGCGACAGGGCGATCTGGATACCCAGCACCACAAACGCCGCCAGGCCGACGGCGTCGGCGACGAGGAAGAACTTGCGTAG	MDEQPLVPALRRPADHPGRHPVCRHQRRALHGGQRRPERHDDHADRASHLCPLRRRGDGGHRHRDCRQEPRGVCNPHGRHCDRWPSGRIYLRGVDRDGGNRRRHNSTNRTQRGVDRARRCLDRTRPWRRLGDCARPAVYPLALAVALALVAHGRLLRDHAYLAVDAPRAGDLAPAGAHEACQLVFGVDLRRSFLVVVEDRQRPPEPEREQARDKHEDHGHDRDYPLGHPCRHQPHVHDGAQHRDGGVELLAKHQRHPAGEDVAHHATGNTRGHGGNGGDDEPVPERQGDLDTQHHKRRQADGVGDEEELA				NA	NA	NA	NA	NA
AK009_09128	627			hypothetical protein	GTGGTCGGACCAGCGCTGCTCCACCGTCGGCGCCTTTTCCACCCACGTGCGCTGGGCACGCTCAAGCATCGCGGCGGTCGCCGCCTGGACGTCGATACGCCAGCCCGCGTCGTTGTTGAACGCCTGGCCGCGGAAGGTCCACCAGGTGTACGGCGCGGTGTCGGGCTCGAGCCTGCGCGCAACGTCGAACCACTTCGGGTCCGCATTCGCTTGCCGACGCCCCGTCGACGCGTAATCCACCGCGCCCGCCCAGGAGTAGAGCGATTTCGCTTCCAGGTCCTGAGCCTCATCGTCCGGAAAGACGCCGAACACGGCGTCCATGAACGCGCGCTCGTCGGGGAGGAACCCGGACTTCTTCTGGTTGGTCTTCCAGTTCTTCAAGTCCTCGCGGCGGTGGCAGATGTTCCAATCCCCGCCAATGACCATGTTCGGGTACTCGCTCGCCCAGAACTCCAGCAGCGGCTCGAACGAATCGAGGAAGCGGTACTTCTCGTCCTGCTTCTCCGTGCCCGCCGAACCGGAAGGAAGGTAGAGCGACGCGACGCGGACGTCGTCAAGCGTGCCGGCGATGAACCTGCCGGAATCCTCGAAGGATGTGATGCCTATCTCCACGTCCTCCAACTGTGA	MVGPALLHRRRLFHPRALGTLKHRGGRRLDVDTPARVVVERLAAEGPPGVRRGVGLEPARNVEPLRVRIRLPTPRRRVIHRARPGVERFRFQVLSLIVRKDAEHGVHERALVGEEPGLLLVGLPVLQVLAAVADVPIPANDHVRVLARPELQQRLERIEEAVLLVLLLRARRTGRKVERRDADVVKRAGDEPAGILEGCDAYLHVLQL				NA	NA	NA	NA	NA
AK009_09129	261			hypothetical protein	GTGCCAGCCCGCCTCCAGCGCGGGGGCGAGTACCGCACGCGCCTGGTCCACGCTGGCACGAACCTCCTGCATAAGAACGATGTCGGCAGTGGTCGTTTCCAGCCACGCGAGCATTCCGGGGTTCAACTCGTTGCGGACCTTGGTGGCGGCGCGGATGCCGTTGACGTTGACAGACGCGATCGTGAGACTCATGCGTGTCACCCTAGCAATGACGTCGACGGGCAACTTCACCGCCGTTTCCACCCAACATTGGTATTCTGA	MPARLQRGGEYRTRLVHAGTNLLHKNDVGSGRFQPREHSGVQLVADLGGGADAVDVDRRDRETHACHPSNDVDGQLHRRFHPTLVF				NA	NA	NA	NA	NA
AK009_09130	1992			hypothetical protein	GTGGGAGCCCCGGTTGTCGATCTCACCGACCTTGCGCGAGGGGGAGTGGCCCTGGATCAGTACTTCTTCGGTGGCCTTGTCCAGGGCGTCGGCAAGCACATCCGCCTTGGGGTTGCCCTGGTCGGCCGCGAGCCGCAGCGACTCCGCCAGCGCGAGGAACTCGCCGAGCGAATCCCAGCGCAGGTGGTTTTCCGCCTCAAGTTGCTGGACATGCTTCGGAGCGGAGCCGCCGGCACCCGTCTCAAACAGCCCGCCGCCCGCCATGAGCGGGACGATGGAGAGCATCTTCGCCGACGTGCCCAGCTCGAGGATGGGGAACAGGTCGGTGTTGTAGTCGCGCAGCACGTTGCCGGTGACCGAGATGGTGTCCTTGCCCTGGCGCAGGCGCTCGACGGTGATCTTGGTCGCCTCGACGGGCGACGCGATGGAGATGTCGAGGCCGTCGGTGTCGTGCTCGGCGAGGTACTTGTTCACCAGGCCGATCAGGTTGCGGTCGTGGGCGCGGGACTCGTCGAGCCAGAAGATCGTCTTCATGCCGGACTTGCGCGCGCGGCTCACCGCGAGGCGGACCCAGTCGCGGATCGGGGCGTCCTTGGCCTGGCAGGCGCGCCAGATGTCACCGGTTTCAACATCGTGCTCCATCAGCGTCTCGCCGGCGGAGTTGACCACGCGCACGGTGCCGTCGGCCGGGATCTTGAACGTCTTGTTATGGGAGCCGTACTCCTCGGCCTTCTGCGCCATGAGGCCCACGTTGGGCACGGTGCCCATCGTGGTCGGGTCGAACGCGCCGTTTTCGCGGCAGTCGTCAATGACAACTTGGTAGATGCCGGCGTAGGAGGAATCGGGGATGGTGGCCAGGGTGTCCTGCTCCTGGTCCTCGGCGTTCCACATGTGCCCGGAGGTGCGGATCATCGCCGGCATCGAGGCGTCGACGATCACGTCGGAGGGCACGTGCAGGTTGGTGATGCCCTTGGCGGAGTTGACCATGGCCAGGTCGGGGCCGTCGGCAAGCGCCTTGTCAAAGGCGGCGCGAATCTCCTCGCCGTTGTCGAGGGCGCCCAGCCCGTCGAGGATGGCGCCGAGGCCGTTCTCGCCATTGAGGCCCGCGGCAAGAAGTTCCTCACCGTGGGCATCGAATACGTCATAGAAGTACGCGCGTACTACGTGGCCGAAGATGATGGGGTCGGAAACCTTCATCATGGTGGCCTTGAGGTGCGCGGAGAACAGCACTCCCTCGTCCTTGGCGCGGGCGATGGCCTTGAGCAGGAACTCGTCGAGAGCCTTGGCGGACATGAAGGTCGCGTCGACGACCTCGCCGGCGAGCACGGGCAGGGATGCGCGCAGCACCTCGACGGAGCCGTCGGCCTTGACCAGCTCGATGCGCAGCGTGTCGTCGGACGGCATGATCACGGACTTTTCGTTGTCGCGGAAGTCGCCGTGCTCCATCGTGGCCACGTTGGTCTTCGAGTCGGAGGACCACTCACCCATGGAGTGCGGGTGCTTGCGTGTGTAGTTCTTCACAGCCTCGGGCGCGCGGCGGTCAGAGTTGCCCTGGCGCAGCACCGGGTTGACTGCGGAGCCCTTGACCGAGTCGTAGCGCGCGCGGATGTCGCGCTCCTCGTCGGTGGTGGGGTTATCCGGGTAGTCGGGCAGATCGAAGCCCTTGGCCTGCAGCTCAGCGATCGCCTTCTTCAGCTGCACCAGCGATGCCGAGATGTTGGGCAGCTTGACGATGTTCGCTTCCGGGCTGTTCGCAAGGTCGCCGAGCTCGGCGAGGGCGTCGTGGGCGTACTTGTCATCCTTGACGCGCTCCGGGAACAGGGACAGGATGCGACCTGCGACGGAGATGTCGCGAGTTTCCACGTTCACTCCCGCGTTGGAAGCGAATGCCGTGACGATCGGCAGCAGCGAGTAGGTCGCAAGCAGCGGTGCTTCGTCGGTGCGTGTCCAGATGATGGTAGCCACTATTTTGCTCCTCTAACTATTACTTAA	MGAPVVDLTDLARGGVALDQYFFGGLVQGVGKHIRLGVALVGREPQRLRQREELAERIPAQVVFRLKLLDMLRSGAAGTRLKQPAARHERDDGEHLRRRAQLEDGEQVGVVVAQHVAGDRDGVLALAQALDGDLGRLDGRRDGDVEAVGVVLGEVLVHQADQVAVVGAGLVEPEDRLHAGLARAAHREADPVADRGVLGLAGAPDVTGFNIVLHQRLAGGVDHAHGAVGRDLERLVMGAVLLGLLRHEAHVGHGAHRGRVERAVFAAVVNDNLVDAGVGGIGDGGQGVLLLVLGVPHVPGGADHRRHRGVDDHVGGHVQVGDALGGVDHGQVGAVGKRLVKGGANLLAVVEGAQPVEDGAEAVLAIEARGKKFLTVGIEYVIEVRAYYVAEDDGVGNLHHGGLEVRGEQHSLVLGAGDGLEQELVESLGGHEGRVDDLAGEHGQGCAQHLDGAVGLDQLDAQRVVGRHDHGLFVVAEVAVLHRGHVGLRVGGPLTHGVRVLACVVLHSLGRAAVRVALAQHRVDCGALDRVVARADVALLVGGGVIRVVGQIEALGLQLSDRLLQLHQRCRDVGQLDDVRFRAVRKVAELGEGVVGVLVILDALREQGQDATCDGDVASFHVHSRVGSECRDDRQQRVGRKQRCFVGACPDDGSHYFAPLTIT				NA	NA	NA	NA	NA
AK009_09131	576			hypothetical protein	GTGCTAGTGGAAGTACAGCAGCGGCGGGAAGCTCTGCATGTCGTTGAAGATGCAAAACGCCACGTCTTCAAGCTCGACGCGTGGCTGCTCGGCGATCCACGAATCGTAGAGCCCCTCGGCGTCGACAAGCTCAGCGGCGTCATCGCACTGCGTCAGGCGGTAGCCCAGCGTGCAGTGGAAGGCGTACTCATCGAGCCCAGCCACGGGGATCTCAAGGACCTCGCCCGCTTGACGACGAAACCGGTCGAGCTCGCGCTCCACGCCGGAGCACACGCGCGCCGAATCCATGATTCGCCGCATCAGGGCGGAGGGTCTGGAACCGTTCGTGGTCGACGTGCGCTACGACACCGGCCAAGACTACGTTCTCCCGCTCGTGGAAAGCGGTGCCGTGACGGCGGTAATGTGCCCGACCGATATGAGGCAGCTGCAGTACCTGCGGGCGCTCAGCTCAAACGGCATCGACGTTCCCCGCCAGGTCAGTGTCACCGGGTGCGACGGATTCCTGCCGGGGATGGATGTTTTGGGGCTGACGACCTACACGTGGCCAATCGGGCATTTCGCCGACACGGTGATTGA	MLVEVQQRREALHVVEDAKRHVFKLDAWLLGDPRIVEPLGVDKLSGVIALRQAVAQRAVEGVLIEPSHGDLKDLARLTTKPVELALHAGAHARRIHDSPHQGGGSGTVRGRRALRHRPRLRSPARGKRCRDGGNVPDRYEAAAVPAGAQLKRHRRSPPGQCHRVRRIPAGDGCFGADDLHVANRAFRRHGD				NA	NA	NA	NA	NA
AK009_09132	594			hypothetical protein	GTGCGCGACCTCGGCGACGGCCGGGATGTCAAGCACGTCGGCGATCGGGTTGCCGAAGGTCTCGCCGTAAAACGCCTTGGTGTTGGGCTTGACCGCGGCCTGCCAGGAGGCGGGGTCGTCGGGGTTGTCCACGAAGGTGAACTCGATGCCCAGGCGCGGCAGGGTGACCTCGAAGAGGGTCTCGGTGCCGCCGTAGAGGCGCGGGGAGGTGACAATGTGGTCGCCGGCGGAGGCGAGGTTGGTAATCGCCGCGGTTTCGGCGGCCATGCCCGAGGCGAACGCGACCGCCGCGACGCCGCCTTCGAGGCTGGCGAGGCGGTCCTCCAACGCCTGCTGCGTCGGGTTGGTAATGCGGGTGTAAATCGGGCCAGCATCGGAGAGGTTGAAGCGGTTCTCCGCGTGCTGCGCGTCGTTGAACACGTACGAGGTGGTCATGTAGATCGGCTGGTTGCGGGCGCCGTAATCGGAGTCGAGCTGCTGGCCGGCGTGGACCGCGCGCGTATCAAAGGACCATTCGTGTGCTTGAGAGTTGTCGTAGTGAGCCATAGGGCCAATGTAACGGCGACCGCGCGCGTTGTGTACCAAGCTGTCTAA	MRDLGDGRDVKHVGDRVAEGLAVKRLGVGLDRGLPGGGVVGVVHEGELDAQARQGDLEEGLGAAVEARGGDNVVAGGGEVGNRRGFGGHARGERDRRDAAFEAGEAVLQRLLRRVGNAGVNRASIGEVEAVLRVLRVVEHVRGGHVDRLVAGAVIGVELLAGVDRARIKGPFVCLRVVVVSHRANVTATARVVYQAV				NA	NA	NA	NA	NA
AK009_09133	573			hypothetical protein	GTGCAGGCGCAGCGCGTTGATGAAGTCCCAGGCCTTCGCGCGATCGTTCAGGTCGCCCGCAAGGTCGAAGGAGAGCACCGAACCGGTGTACTTGAGCCCGAGCTTCTCCTTGATGGCGTAGTAGGGGCTCGATTCCAACCCGGCGAAGTTCACTTTGGCCACCTTGTCGTTGTTGGCCAGGTACTCGGCCACCTTCAGGGCGTTGTGGTTGTGGCGCTCGACGCGCAGGCCGAGGGTGTCCAGGCCCTGCAGGGCGACCCAGGCGTTGAACGGGGACATCGCCGCGCCGGTGTCGCGCAGGATGCCCGCGCGGGCCTTGATGGCGAAGGCGGGCTCGCCGAGGTCGGCGTACTTCAGGCCGTGGTAAGCGGCGTCGGGGGTGACGAAGTACGGGAAGACCGGGGCGCCGTCGCGCTCGACGGTCCAGTCGAACCGGCCGGCGTCGATAAGCGCGCCGCCAATGGCCGCCCCGTTGCCGGTGTAGAACTTTGTGGTGGACACGACGACGATGTCCGCGCCCAGCTCAAGCGGGCGCACGAGCGCCGCGGTGGCCATCGTGTTGTCCACGATTAG	MQAQRVDEVPGLRAIVQVARKVEGEHRTGVLEPELLLDGVVGARFQPGEVHFGHLVVVGQVLGHLQGVVVVALDAQAEGVQALQGDPGVERGHRRAGVAQDARAGLDGEGGLAEVGVLQAVVSGVGGDEVREDRGAVALDGPVEPAGVDKRAANGRPVAGVELCGGHDDDVRAQLKRAHERRGGHRVVHD				NA	NA	NA	NA	NA
AK009_09134	171			hypothetical protein	ATGGACGCTGGCTTCCTAGACAGCGGCGAACCCGCGCTCGAGGTCGGCGATGATGTCGTCGATGTTCTCAATGCCCACGCTCAGGCGCACCGTGGACTGGCTGATGCCGGCGCGCGCAAGGCCCGCCTCGTTCGACTGCGAGTGCGTCGTCGACGCCGGGTGGACCACTAG	MDAGFLDSGEPALEVGDDVVDVLNAHAQAHRGLADAGARKARLVRLRVRRRRRVDH				NA	NA	NA	NA	NA
AK009_09135	603			hypothetical protein	TTGGGCGGTCTGGATGCCGATCTGCCAGGCGCTCGCGCGCGCGGACACCGCCAACACGCAGGCGTAATCGACCATTTCGGGGAACATGATGGTCCACTCGAGCGTGCGCGCCCCACCCATCGACCCACCGAGCACCGCGCGAACGCGCTCAAGCCCGAGCCGGTCCAGAAACTGCCTCTCCGCGGCCACCTGGTCGCGAATCGAGATGGCGGGGAAACGCGAACCCCACCGCCCGCCGTCGGGGTGCTCACTGGCCGGGCCCGTCGAGCCGTAGCAGCTGCCCAGCGCGTTCGTGCAGATCACGCAGAACGTATCTGTATCCAGCGCCTTGCCGGGGCCGATGACCTCGCACCACCAGTCGGCGGCGTTGGAGTCGCCGGTCAGCGCGTGCTCGACGAGCAGGACGTTGTTGCTGCCAGACGGGTTGCCCCGGAATTCGCCCCAGCGCTGAAACGCGATCGTGACGTCCGGGATGTCCACGCCCGCCTCGGTAGAAAAGGTACCGATGGCGACGTGGTGCAACTCGCCCTCGGGGGGCAGTGTCAAGGACATGGACGCTGGCTTCCTAGACAGCGGCGAACCCGCGCTCGAGGTCGGCGATGA	MGGLDADLPGARARGHRQHAGVIDHFGEHDGPLERARPTHRPTEHRANALKPEPVQKLPLRGHLVANRDGGETRTPPPAVGVLTGRARRAVAAAQRVRADHAERICIQRLAGADDLAPPVGGVGVAGQRVLDEQDVVAARRVAPEFAPALKRDRDVRDVHARLGRKGTDGDVVQLALGGQCQGHGRWLPRQRRTRARGRR				NA	NA	NA	NA	NA
AK009_09136	552			hypothetical protein	ATGGTCGGTGGACGCGCTGGGGAGTTAGATGTCGTATGCCCCGCTGCGCGCCGCGAAGTCGTGCGGCGAGGGTGTTTGCTCCGTCAGCGCGATGAACTTGCGCAGGATGATATCCATCTGCCGCGCCTCGACGAGGAAGGCGTCGTGGCCGACCGGGCTGGAGAGCTTCGACATGGCCAGCAGGTTTCCCAGGTTGCGGCTGAGGTGTTCCTGCTGGTGGTAGGGGTACAGGATATCGGTGTCCACGCCGACGATCATGGTGGGAACCTTCGAGCTGGCCAGCGCCTTGTTCAGGCCGCCGCGCCCGCGCCCGACGTCGTGGCGGTTGAGTGTTTCGGTCAGGGTGACGTAGCTGCCGGCGTCGAAACGCTCCACAAGTTTGATGCCCTGGTGGTCGAGGTAGCTCTGGACGGCGAAGCGCTGGTTCTCACACCGGTAGGGGCCAAGCGGGTTCTCCCCGGCCTGGGCGGCGGTGCCGAAGCGCTCGTCGATCTCCAGCTCCCCGCGGTAGGTCAGGTGCGCAATGCGCCGCGCCGCCGCCAGCCCGGCTGA	MVGGRAGELDVVCPAARREVVRRGCLLRQRDELAQDDIHLPRLDEEGVVADRAGELRHGQQVSQVAAEVFLLVVGVQDIGVHADDHGGNLRAGQRLVQAAAPAPDVVAVECFGQGDVAAGVETLHKFDALVVEVALDGEALVLTPVGAKRVLPGLGGGAEALVDLQLPAVGQVRNAPRRRQPG				NA	NA	NA	NA	NA
AK009_09137	399			hypothetical protein	ATGTCGTGGGGGTTATCCAGCAAGTGTTTCGGCACGCTCCACGATGTTGCGGACGAGGAAGGTGCGCGTCATCGGACCGACCCCGCCTGGGTTCGGGGAGACCCAACCGGCCTTGTCCCACACGTCGGGGTGGACGTCGCCGACCGTTTTGCCGTCGACACGCGAGACGCCCACGTCGAGCACCGCGGCGCCCTCCTTGACCATGTCGGCGGTGATCATGTGCGGCTTACCGGCCGCGGCGATGATCACGTCGGCCCGGCGCGTCTGTGCCGCGAGGTCTTTCGTGCCGGTGTGGCACAGGATGGCGGTGGAGTTGGTGGCCTTTGTGGTCAGCATCAGGGAGATCGGCCGGCCCACGGTCACGCCGCGGCCGATGACGCAGACGACCGCGCCGTTTAA	MSWGLSSKCFGTLHDVADEEGARHRTDPAWVRGDPTGLVPHVGVDVADRFAVDTRDAHVEHRGALLDHVGGDHVRLTGRGDDHVGPARLCREVFRAGVAQDGGGVGGLCGQHQGDRPAHGHAAADDADDRAV				NA	NA	NA	NA	NA
AK009_09138	342			hypothetical protein	TTGGACGATGTAGCCGGTGACGGCCGGGTCGTTGTTCAGATCGTCGATAAGCGAATCAAGCTCCGCTTGGGAGGTGTCGCCGGGCAGCTCCTTCATGATGGAGGCGATGCCGAGCTCGGCGCAGTCCTTGTGCTTCATGCGCACGTAGTTCTGGCTCGCGGGGTCCTCGCCAACGAGAACCGTGGCCAAGCCCGGGGTGATCCCCCTGTCCTGCAGCCCCGCCACGCGCTCTTTCAGATCCGCGAAGATCTCCTCGCGGTAGAGCTTTCCGTCCAATTTGATCGCAGTCACGGCCCCCATCCTAGACTTGAAGCTTGTGTCGCACCTGCATGTCATCCTTGA	MDDVAGDGRVVVQIVDKRIKLRLGGVAGQLLHDGGDAELGAVLVLHAHVVLARGVLANENRGQARGDPPVLQPRHALFQIREDLLAVELSVQFDRSHGPHPRLEACVAPACHP				NA	NA	NA	NA	NA
AK009_09139	201			hypothetical protein	GTGAATCTGCACGTCCGCGAGGTCGTGGTAGTCCAGCCCTGCGCGGCGCAGGTGTTTTTCGCTGAGGTCGAAGCCGAGCGGCTCGACGAGGTGCAGGGTTGCCCCGGTGCCGGCGCACATGCGTATCGCGTTGCCCGTATTGGGCGGGATAACCGGGTTATCAAGGATGACATGCAGGTGCGACACAAGCTTCAAGTCTAG	MNLHVREVVVVQPCAAQVFFAEVEAERLDEVQGCPGAGAHAYRVARIGRDNRVIKDDMQVRHKLQV				NA	NA	NA	NA	NA
AK009_09140	114			hypothetical protein	ATGCTCCGGCGGCAGCCCGGTCGGCTCGGTGCCGAACAGCAGCGCGTCGGAGTCGCGGTAGGCAACGGTGTGGAAGTGCGTGGTGGCGTCGGTGGTGAATGCGAAGACGCGTGA	MLRRQPGRLGAEQQRVGVAVGNGVEVRGGVGGECEDA				NA	NA	NA	NA	NA
AK009_09141	741			hypothetical protein	TTGCTCGGCGCGGCCGAGGGGCCCGTCGAGGTCGTGGAGAATCGTGCTGGTCAGGCCGGCCCCGTCAGGCCCCCACACGTTTGTTGCCTCCAACCCGTTCCACTGCCCCACCGGGTAGCGGTACAGGTGAACGGTCAGGTCAACGTTGGGGAACGCCCACTCGGTGGGGCTGTGGTGGACGGCGATGCCGTTGGCGATGTCGATGCGGCTGAAGAACTCCGCGAGCGGGATGCGTTCGTCGGTGTCGACCATGGTGGTCTCGGAAGTAAACCACGAGAAGAACGTGCCCTCCGGCAGGCCGGTGACCTTGCGCCCGATGAGTTGGCGGATGAACCCGCCTTCCCACACGGTGGAAAACTGCTGGTCCTCGCAGTCCTCAGGGACGGGGTAGGTCTGCTGGGTTGGGGTTTCCACGTCGCGCGTGTCAAGCGCGTCGATGTACCAGATCCGCGCGATAATCGCGGCCCGCCCGGCCAGGGATACTGTCACCTCAACGAGCTCGATCTTGCGCCCGGGCCGAATTGTTTCTACTGCAACGTTGGCTTCCTCCAGCGGCAGGCGACCGAGGATATCGTAGGAAACGCGCACGAGCCGCTTGGTGTCGTCGGGGTCACGGGAGAGCTGGGCGACGTGCACGATGAGCCCCGCGAGGCTGGAGAAGTGGTAGTCCTGCGCCGACCAGGCTCCTTCGCAGTGGGTGGTCGGCGCGAACGTCGTGTCGCCGGTGCGTCGGAAGTATGA	MLGAAEGPVEVVENRAGQAGPVRPPHVCCLQPVPLPHRVAVQVNGQVNVGERPLGGAVVDGDAVGDVDAAEELRERDAFVGVDHGGLGSKPREERALRQAGDLAPDELADEPAFPHGGKLLVLAVLRDGVGLLGWGFHVARVKRVDVPDPRDNRGPPGQGYCHLNELDLAPGPNCFYCNVGFLQRQATEDIVGNAHEPLGVVGVTGELGDVHDEPREAGEVVVLRRPGSFAVGGRRERRVAGASEV				NA	NA	NA	NA	NA
AK009_09142	1125			hypothetical protein	ATGACTCTGGCATGGTGTTCTCCTTTTCTATCGTGCGCTGACGTCGCCCATCCGGTTGGCCGCGGGCGCGAGCAGCGCGGGCCGCGCCGCCACCCACGCCGCGGCCATGACGGCGAGCGAGAGCAGAAAGACGATGAGCCCGGTGACGTCGCCTGCGTATTCGGCCGGGTCGATGACTCCGTCGTCCCACAGACGAGCGGAGGAGTAGTAGGGGTGGGATTCGCGCTCGAACTGCTCGCGGATGGGAGCCTCGAAGTCCTCCTGCTCCTGCGCGCTCCACTGCCCGCCGGAGCGCTCGATCTGGTTGCGGCGCACCGTGGACATGGTCATCGCGGCCTGCGGCCCGCCCATCACGGAGATCCGCGCGTTGGGCCACATCCACAGAAAACGCGGGGAGTAGGCGCGCCCGCACATGGAGTAGTTGCCCGCGCCGAACGCGCCGCCGATGACCACGGTGAACTTGGGCACGCGCGTTGTGGCCACGGCGTTGACCATCTTCGCGCCGTGCTTGGCAATGCCGCCGGCCTCGTACTCGCGCCCCACCATGAACCCGGTGGTGTTTTGCAAGAACACGAGCGGGATGGCGCGCTGGTCGCACAGCTCGATAAAGTGGGCACCCTTTTGGGCGGATTCGGCGAACAGGATGCCGTTATTGGCGACGATCCCGACCTGGTGGCCGTAGATGCGCGCGAACGCGGTGACCAAGGTGGTGCCGTACTCGGATTTGAACTCGTCGTACTGGCCCCCGTCGACGATAATCTCGATGGCGTCGCGCACGTCGTAGGGGTCGCGGCTGCCGACCGGGACGACGTCGTAAAGCTCGTCCTGCGAGCGCGTGGGCTCGACGGGCTCGATCACGTCCCAGGCGGCGTGCTTATCGCGCGGCAGCGTGGCGACGATCCGACGCACCCGCGCCAGCGCGTCCGCGTCGTCGAGCGCCAGGTGGTCGGTGACGCCGGAGACGGAGGAGTGCAGGTCGCCGACGCCCAGCTCCTCGGGTGTGACCTCCTCGCCCGTCGCGGCTTTGACCAGCGGCGGGCCGGCCAGGAAGATGGTGCCCTGGTTTTTCACGATGACGTTTTCGTCCGCCATGGCCGGCACGTAGGCGCCGCCGGCGGTGCATGA	MTLAWCSPFLSCADVAHPVGRGREQRGPRRHPRRGHDGEREQKDDEPGDVACVFGRVDDSVVPQTSGGVVGVGFALELLADGSLEVLLLLRAPLPAGALDLVAAHRGHGHRGLRPAHHGDPRVGPHPQKTRGVGAPAHGVVARAERAADDHGELGHARCGHGVDHLRAVLGNAAGLVLAPHHEPGGVLQEHERDGALVAQLDKVGTLLGGFGEQDAVIGDDPDLVAVDARERGDQGGAVLGFELVVLAPVDDNLDGVAHVVGVAAADRDDVVKLVLRARGLDGLDHVPGGVLIARQRGDDPTHPRQRVRVVERQVVGDAGDGGVQVADAQLLGCDLLARRGFDQRRAGQEDGALVFHDDVFVRHGRHVGAAGGA				NA	NA	NA	NA	NA
AK009_09143	570			hypothetical protein	TTGCGGGATGCCGCGCTTGGACATGTTGGCCATGTTGTAGAAGATGCGCCCGAAGTGGTCGCGGTCGGGGAAGACCTCGGCCTGGTTGAGCAGCATTGCTCCCCCGGAGTCGACGAGGTAGATGCACGGCAGGTGATTGTCGGCGGCGATTTCCTGGGCGCGCAGGTGCTTCTTCACCGTCATCGGGTAGTAGGTGCCGCCGGAGACGGTGGCGTCGTTGGCCACGACGAGGCAGGTGCGGCCCTCGACAAGGCCGATGCCCGCGATCACTCCGGCAGCCGCGACCTTGCCGCCGTACATGTCGTGGGCGGCCAGCGGCGCGACCTCAAGAAACGGCGAGCCCGGGTCGAGGAGTTGGTCGATGCGCTCGCGCGGCAGGATTTTGCCGCGGGAGGTGTGCCGCTCGCGCGCGGAGTCGGATCCGCCGCGCGCGGTCTCGCCCAGGATGCGCTTCAGGTCGCGGACGAGGCCGAGGTGCTGCTCGCGGTTGCTGTGTGGAGTGGTCAAGGGTTGTCCCCCCTTTGTAAAGGGTCGTGGGTGTCAGGCAGAACTTCAGTTAATCGCGATTAA	MRDAALGHVGHVVEDAPEVVAVGEDLGLVEQHCSPGVDEVDARQVIVGGDFLGAQVLLHRHRVVGAAGDGGVVGHDEAGAALDKADARDHSGSRDLAAVHVVGGQRRDLKKRRARVEELVDALARQDFAAGGVPLARGVGSAARGLAQDALQVADEAEVLLAVAVWSGQGLSPLCKGSWVSGRTSVNRD				NA	NA	NA	NA	NA
AK009_09144	507			hypothetical protein	GTGCTCGCGCACCACCTCGGGCCCCGCGCGCTTGATCACGTACCTGATCGAGTTGATCATCCCGGCCACGAGCTGCACCCTCATCCGCGCCACGCTCGCGCCAAGGGTCGGCTCCGCCCGCTCCAACACCTCGGTCCACATCGCCAGGTACTCGCGCTGCTTGGCGCGCACCAGCTCCTGGCTCGACGGGTCGAGGTTTTTCAGCTCCCTCTCCTGCACGCTGACCACGTTGGGCTCGGTCACGCCGATGGTGACGTGGAACGCCACCAGCTCCCCCATCACCTCGCGGGCGCTTGCTTCTCGACGCCCTCCGGCATCAATAATCTCCCTCGCCCCCGCCATAAGCCGGTCGGAGATCTCGTCGAGAATCTCCGCCAAAAGCGCGTCCTTGCTCTCGACGTAGCGGTACATCCCCGGGCCGGAGATGCCTACGGCGGCACCGACGTCAGCGAGCCTGGTCTGGTGAAACCCCTTGCGCGCCATGATGTCCGCCGCCGCCGCGAGTAG	MLAHHLGPRALDHVPDRVDHPGHELHPHPRHARAKGRLRPLQHLGPHRQVLALLGAHQLLARRVEVFQLPLLHADHVGLGHADGDVERHQLPHHLAGACFSTPSGINNLPRPRHKPVGDLVENLRQKRVLALDVAVHPRAGDAYGGTDVSEPGLVKPLARHDVRRRRE				NA	NA	NA	NA	NA
AK009_09145	1368			hypothetical protein	GTGCGCGAGGCCCAGCACCCACTGCAGCGGGCCCTGAGTGGAGGTGAGCTCCTGGATGTGGGGCACCTCCACCACCGAGTAGCGCCGCGAGAGCCTGCCCGAGGTCACCACCGCGGTGCCGTCGCGAAGCAGCAGCGACTGGCGACGCCAATCCACCGGCGAGACCCAGCGCGCCCGGCGCGGGGTGCGCACGTGCGCATCCGCGCTGGCGGGGTCGATCTCGCCCAGCTCACCGACCTGAAGTGGGCTCAGCGCGCGCACCACCGCGAGCGCCTCGTCGAGCGTGCCCACGGGCAGAAGGGTCAGCGTCCCGCCGTCGCCGGAGGTTTTGTAGCCTGCGACGTTGACCTTGACCTCCCACCAGCCCAGTGGCCGCCACAGCGGGGGCTGGGTGAGCGAGACCGCGTGGATGCGGTCCAGGGGCACGGCCTGGCGGCGTCGATTAGCAAGGCCAAAGGTGACGTTGACCACCTCGTCGCCGCGCACGGCCTGGAAGCGCCAAGACTGATCGATCATCCGCCACAGCGACGGGAGGACGCCGATGATAACCGGGATTGCCGCCGCGGGGCTGAGGTTGGTGGCCAATGGGAGCGCCGTGAACGCGGCGGCGACAAGCGTGCTCACCCGCAGCAGCGTTCCGATCAGCGAGCGGTGAATCGGCACCGGCGCGACCAGGAAGTCTTGCGCGTCCGCGGCCGTGTCCACCTCTGCCCCCTCGCGGGCGACGGCGCGCATGATCTCGGCGCGGACCCGCTCGGCCTCGTCCTTGGGCAGGTAGGCGATCTCGATCGCGGAGTCGCCGCCGCCCGCTGCCTCGACGCGCACGGCGGCGAGGCCGAAGATCCGCGCGGCGAGCGGCTCGACCACGTCGACGGCCTGGATCCTGTCGAAGCGGGCCGTGCGCACGTGCGTGGTAAACACGCCGCGCTTGAGCCCGAGTTCCTCCTCCCCGATGCCGTAGCCCATCCGCGACCACCACAGCTGAGACACGGCGAACAGCACCGCGACTCCGACGACGAAGATCCCGACCCCGCGCAGGATGTCGAACGCGGCGAAGTGCTCCGAGCTCACCCACGTGTACAAGGGCTCGAGGAAATTGACCGCTGCGATCACTACCAGGGCGAACAGCACACCCCAGGCGCGCAGCAGGGGTGTGATCCGGTGTACTTTCCTGTCCATTACAGCCCGCTCATGCGCTGGCGGGCCTTGGCGGCCAGCCGGTCGCGCAGCGCGTCGGCGACGTCGGCCTCGATGCCGGGAAGCGACGACACCGAGGTCGTTGACGCGGTGTTGACCTCGAGATCTTTCAGCCCCACCGCGCGCGCAATCGGCCCCGAGGTGACGTCGACGAACTGGATGCGCCCGTAG	MREAQHPLQRALSGGELLDVGHLHHRVAPREPARGHHRGAVAKQQRLATPIHRRDPARPARGAHVRIRAGGVDLAQLTDLKWAQRAHHRERLVERAHGQKGQRPAVAGGFVACDVDLDLPPAQWPPQRGLGERDRVDAVQGHGLAASISKAKGDVDHLVAAHGLEAPRLIDHPPQRREDADDNRDCRRGAEVGGQWERRERGGDKRAHPQQRSDQRAVNRHRRDQEVLRVRGRVHLCPLAGDGAHDLGADPLGLVLGQVGDLDRGVAAARCLDAHGGEAEDPRGERLDHVDGLDPVEAGRAHVRGKHAALEPEFLLPDAVAHPRPPQLRHGEQHRDSDDEDPDPAQDVERGEVLRAHPRVQGLEEIDRCDHYQGEQHTPGAQQGCDPVYFPVHYSPLMRWRALAASRSRSASATSASMPGSDDTEVVDAVLTSRSFSPTARAIGPEVTSTNWMRP				NA	NA	NA	NA	NA
AK009_09146	717			hypothetical protein	ATGGTGTTCATAGTACTAATGGAAGTCACGGGCCCCCCGGTTGAGGTAATCGCCCAGCTCAAGGGGCTCGAACTTGTCGGCCACCAGGTTGACCGCGCCGGTGGCGTTTTGCACGATGCCGCGCACGATCAGCGACTTCGCGGTCCTGGCCAGCACAAGCTGGCGCTCCCACAGCCCCACCGGGACGATGACGTTGATCAACCCGGTTTCATCCTCCATGCCCAAAAACGTCACGCCCTTCGCGGTCTTCGGCCGCTGCCGGTGCGTGATCACCCCGGCGACGCGCACCCGCGAGCCGTCCTCGACGCGGCGCAGGTCATCGGCGGTGAGGATGCCACGCTCTCGCAGGCCCGCGCGCAGAAGCTCCACGGGTTGCTTGTCGTGGGTCACACCTGTGGCCGAAACGTCCGCCGCCATCAGCTCGAAGGCGTTCATGCCCGGCAGCGCAGGCGCCTCGATGGCGCTGAGGCCCGGCAGCATGCCCTCACGCTCGGTCGCGGCCACGCCCGCCTGCCACAGTGCCTGCCTGCGGTCCACGCCGAAGCAGTCCAGCGCACCCGCGCGCGCCAGCGCCTCTACGTGCTCGACCGACAGGTCGGCGCGGCGCGACAGGTCCGGGATGTCGCGAAACGGCTGGGCCGCCTCGATGCGGTCGGCCGCCTGGTCGCCGAGGCCCTTGATCAGGTTCAGCCCGACGCGGATGGTGCGGTTGTCTAG	MVFIVLMEVTGPPVEVIAQLKGLELVGHQVDRAGGVLHDAAHDQRLRGPGQHKLALPQPHRDDDVDQPGFILHAQKRHALRGLRPLPVRDHPGDAHPRAVLDAAQVIGGEDATLSQARAQKLHGLLVVGHTCGRNVRRHQLEGVHARQRRRLDGAEARQHALTLGRGHARLPQCLPAVHAEAVQRTRARQRLYVLDRQVGAARQVRDVAKRLGRLDAVGRLVAEALDQVQPDADGAVV				NA	NA	NA	NA	NA
AK009_09147	396			hypothetical protein	TTGGATCAGCGACTGCGGCGAGTAGAACCCCATCGGCTGGGCGCGCAGCAACCCGACGCAAAACTGCGCCGGGTAGTAGCACTTGAACCACGCGGAGAAGAACACCAGCGAGGCGAAGGACTGAGAGTGCGACTCGGGGAACCCGTAGGCGGCGAACGCGACGATTTTGGCCCAGAGCGTCTCCGCCACGTCGTGAGCAATGCGGTTGGTGGCCCAGCAGCCGTCGAAGAAGCGGGCTTTGAGCTGCGCCATCCTCTCCGGCGAGCGCTTCGAGCCCATCGCGCGGCGCAGCGCGTCGGCTTCGCGGCCGGAAAACCCCGCGGCGTCGACGGCGATCTGCATGAGCTGCTCTTGGAACAGGGGCACGCCCAGGGTCTTGCCCAGCGACTTTTCTAA	MDQRLRRVEPHRLGAQQPDAKLRRVVALEPRGEEHQRGEGLRVRLGEPVGGERDDFGPERLRHVVSNAVGGPAAVEEAGFELRHPLRRALRAHRAAQRVGFAAGKPRGVDGDLHELLLEQGHAQGLAQRLF				NA	NA	NA	NA	NA
AK009_09148	462			hypothetical protein	GTGGTCGTAGACGATGGCTTCTTTGCCGTCGCGACGCCGCAGGTAGGGGTGCACGGACCCGCCCTGGATGGGGCCGGGGCGGATCAGCGCGACCTCGACGACGAGGTCGAAAAAGCAGCGCGGTTTCAGCCTCGGCAGCGTGGAAAGCTGCGCGCGCGATTCCACCTGGAACACGCCGACGGCGTCGGCGCGGCACAGCATCTCGTACACGCGCGCATCCGCGACGTCGAGCTCCCACAGGTTGACCTCGCGCCCGGCGGTGTCGCGCACCAGGTCGATCATGTGGTGCAGCGCTTCGAGCATGCCCAGGCCCAGCAGGTCGAACTTGACCAGCCCGGCCGAGGCGCAGTCGTCCTTGTCCCACTGCACCACCGAGCGGCCCTCCATCCGCGCCCACTCCACCGGCACCACGTCGGCGATCGGGCGGTCGCAGATAACCATGCCACCGGAGTGGATGCCTAA	MVVDDGFFAVATPQVGVHGPALDGAGADQRDLDDEVEKAARFQPRQRGKLRARFHLEHADGVGAAQHLVHARIRDVELPQVDLAPGGVAHQVDHVVQRFEHAQAQQVELDQPGRGAVVLVPLHHRAALHPRPLHRHHVGDRAVADNHATGVDA				NA	NA	NA	NA	NA
AK009_09149	1509			hypothetical protein	GTGCCGGGGCTGGCCTTTGAGCTCCGCCGCAAGCTTTTCGACGCCCTCCGGTGGCCGCGAGATCCCCTTCGACCAGGAATCCGCCGCGCCCTGCGCGTACCCCAGGGCGCGGGCGGCGTCGCGGATCGCGCCCTTGGTGCGGTAGGTGATCACGTTTGCCACCTGCGCCGCGTTGTCGCGCCCGTAGCGCTCGTAGGCGTACTGGATCACTTCTTCACGACGCCCCGACTCAATATCAATGTCAATATCCGGCGGGCCGTCCCTATCCGGCGACAAGAAGCGCTCGAACAAAAGCCCCGCGCTGATCGGCTCGGCGTTGGTGATGCCGAGCGCAAAACACACCGCCGAGTTCGCCGCCGAACCCCTGCCCTGGCACAGGATGTTTTCCCGGCGGCAGAAGTCCACCAGGTCGTGGACGATGAGGAAGTAGCCGGGGAAGTTCAGCTCCTCGATCACGCCGAGCTCGTAGTCGATCTGCGCCATCGCGCGCCGGCGGATGTCCTCCGGGCGTGTCGCGTAGCGCAGCTGCGCACCCGCGATGGTGATCTGGCGCAGCCAGCTCATCTCATCAAAGCCCGCCGGCGTGGGGTAGCGCGGCAGCTCAGGGGCAACGAGGTTGAGAGTAAACGCGCACTGCGCGGAGATGGCCAGCGCCGTGTCAATCTTGTCCTGCGCGCCCGGCAGCATCGCCTGGAGCTGCTCGGCGGAGCGCAGCCAGTTCGCCCCCATGGGGTGCAGGTGCGCGTGGGCGTCGCCCAGGCAGTCGCGCCGCGCCAGGGCGCGTTTCGCTGCGGCCAGGCGGGCGTCGTCACGCGTGGCGGCGGCCGGCACGGCGCTGACAATCGCGGGGACGTGCGGGTAGTCATCGAGCGCGCGGTGGTGGTCGGCGTCCTCCGGAGTCATCGACACCTCGTACTCGCGCACCACCGCCCCGGGGCCAAACAGTTCGATCAGGTAATCGATCTGCGGGGCCCACTGCCAACCCGCCAGCACGATGCACGTGCCCGCCAGCTCATGGGCGATAAGCTCCAGCGGCGGGTAGGCGACCTCGTCTTTTTCCCGGGTGATCATGCGGGCCGCGGCAATGAGGCGGGACAGGCGGCGATACCCCTCCGGGCCCCGCGCCAGCACAGGCAGAACACGGTCACCCAGGCTCAGCTCCGCACCGAACACCGTGGCCACCCCTTCGCGCGCCGCGGCCTCGGCGAACTTCACTGCCCCGTAAAAACCGTCCCTGTCCAGCAGCGCGAGCGTGGTGATGCCCAGGCGCTTGGCGTGGCGGACCATCTCTTCCGGCTCGCTCGCCCCGCCAAGGAAGCTATACGACGACACCGCGTGCAGCTCGGCGAACGGCGCGTGGCTGGCTTCGGGGCGGTTGGTGGGGGCGTCGACAAGCGGGCGTGTGTGGTTAACGGGCACAGGCATGGGGCCGGGGCGGCCGGAGAGAATACGCTCCAGCCGCGACCACGACAGGGCCTCGCCGCCATGAAACATCATGGGAGTAGATAA	MPGLAFELRRKLFDALRWPRDPLRPGIRRALRVPQGAGGVADRALGAVGDHVCHLRRVVAPVALVGVLDHFFTTPRLNINVNIRRAVPIRRQEALEQKPRADRLGVGDAERKTHRRVRRRTPALAQDVFPAAEVHQVVDDEEVAGEVQLLDHAELVVDLRHRAPADVLRACRVAQLRTRDGDLAQPAHLIKARRRGVARQLRGNEVESKRALRGDGQRRVNLVLRARQHRLELLGGAQPVRPHGVQVRVGVAQAVAPRQGAFRCGQAGVVTRGGGRHGADNRGDVRVVIERAVVVGVLRSHRHLVLAHHRPGAKQFDQVIDLRGPLPTRQHDARARQLMGDKLQRRVGDLVFFPGDHAGRGNEAGQAAIPLRAPRQHRQNTVTQAQLRTEHRGHPFARRGLGELHCPVKTVPVQQRERGDAQALGVADHLFRLARPAKEAIRRHRVQLGERRVAGFGAVGGGVDKRACVVNGHRHGAGAAGENTLQPRPRQGLAAMKHHGSR				NA	NA	NA	NA	NA
AK009_09150	576			hypothetical protein	ATGGACCCCTTCGACGCGCTGCAGTTCGATGTCGGAGGTGGCGGACGGCCCGGAAATCATCGTCACCGGCCCGCGCGTTCCCACCTCGCGCACCCGCTCCCACGCCTCGGGGAAGAGCTCGACGATGGTGTCGGAAAACACCAGGCAGATGTGGTGGTCGGGGATGAGCGAGAGTTCGCGGCGCCCTTCGTCGTCACGCCCGGTGAGGAAGATGGTGCCGGTTTCCGCGCACGACACCGTCGACGAGGTGACCACGCACGACGCCTCCAAGGGGTCGCGCACCTCATCTACCGGCGTCAGCCACGCGCGGTCCACGCCGCTCGGTGCAATCACGGGCCCAGAGACCAGCTCCCCCACAACCCGGCCGACATCGGAGACACCGCCCGCGACGTGCACGGCGGCCTTGTAGTCAACCAGGCGGTCAATGAGCATGTCGAGGGTTTCGTTTGCTGTGAGCGTCGAAACGCGGCGGTACTCGCGGGGCACGGCTGGGGCCTGCGGGTTGTCCGCCAGCGCGGAGCGCAGCCTCGACAGGATATCGGATTTGGCGCTCATCGGTTCTCCTTAAACCAGTGA	MDPFDALQFDVGGGGRPGNHRHRPARSHLAHPLPRLGEELDDGVGKHQADVVVGDEREFAAPFVVTPGEEDGAGFRARHRRRGDHARRLQGVAHLIYRRQPRAVHAARCNHGPRDQLPHNPADIGDTARDVHGGLVVNQAVNEHVEGFVCCERRNAAVLAGHGWGLRVVRQRGAQPRQDIGFGAHRFSLNQ				NA	NA	NA	NA	NA
AK009_09151	1389			hypothetical protein	GTGACGGAAGGCCTTTTTCGGCGGCGCGGGGATGACACGCTCCTTCGTCCACCCGCCGAAGAGGCCGGGCAGCCACGAGATGCGGAACCGCGCGAGCGGCAGGACGCGTTCGGCGAGCGACATGAGCCACCCGGAGCTCATCGCCACCGACGCACCCTTCATCGCCGCGGTCATCTGCGCTGGCTGGCTCGTCTTTTCCACGGCCTCGGCGCGCAGGTGCACCAAGATGTCGGGGATGTTGATCTTGACGGGGCAGACGTCGTAACACGCGCCGCACAGCGTCGAGGCGAACGGCAGGGTCGCGTTGGCCTCGGATTCAATGCCGGTGAGCTGCGGGGAGAGGATTGCTCCGATCGGCCCCGGGTAGGTCGAGCCGTAGGCGTGGCCGCCGACGTGCTCGAACACGGGGCAGACGTTCAGGCAGGCGGAGCAGCGGATGCAATGCAGCGCAGAGCGGCCCTGCGGGTCCGACAGCACCGCGGAGCGGCCGTTATCCAGCAGCACGAGGTGGATGTTGCGCGGCCCGTCGCCGGTGTGCACCCCTGTCCACAGCGAGGTGTACGGGTTCATCCGCTCGCCTGTCGACGAGCGCGGCAGCAGCTGCAGGTACACCTCCAGGTCGGCGAAGGTGGGCACAAGCTTTTCAATGCCCATCACTGTGATCAGGGTCTCCGGCATGGTCACGCACATGCGCCCGTTGCCCTCGGATTCCACCACCGCCAGGGTGCCGGTTTCCGCGACCCCGAAGTTCGCCCCGGAAATCGCCACCTTGGCGCCAAGGAACTTCTCGCGCAGGTACGTGCGCGCGGCCTCCGCCAGCACCGCCGGCTCGTCGCTAAGCGGGCGGTCCATATACTCGCTGAAGATCTCGCGGATCTCGCGCCGGTTGCGGTGGATAGCTGGCACGAGGATGTGCGAGGGTTTATCGCCCCCGAGCTGCACGATCAGCTCCGCCAGGTCTGTCTCCACCGCGCAGATGCCCGCCGCCTCGAGGTGCTCGTTGAGCCCGATTTCTTGGGTGGCCATGGACTTGACCTTGAGCACTTCGCTCTCACCCGTTTCTCGCACGAGCTTTTCGACGATCGCGTTCGCCTCACCCGCGTCCCGCGCCCAGTGCACGACTCCGCCCCGCGCGGTGAACTCGCGCTCGAATTGTTCCAGCAGCTCCGGCAGGTTCGCCATCACGTTTTCCTTGATCGCGGACCCAGCGCTGCGCAGCTCCTCCCAATCGGGCAGCTCGCCCACGACCTCGGCCCGCTTCGCGCGAATCGCGTGCGTGGCGTGCCGAATGTTCTCCCGCATCTGCGTGTTGCCCAGCTGCACCCTCGCGGCGCTCGGGAACGGCACGTCGAGGTTGATGTTGCCTCGCCCGTAGGCCGGCATTCCTAG	MTEGLFRRRGDDTLLRPPAEEAGQPRDAEPRERQDAFGERHEPPGAHRHRRTLHRRGHLRWLARLFHGLGAQVHQDVGDVDLDGADVVTRAAQRRGERQGRVGLGFNAGELRGEDCSDRPRVGRAVGVAADVLEHGADVQAGGAADAMQRRAALRVRQHRGAAVIQQHEVDVARPVAGVHPCPQRGVRVHPLACRRARQQLQVHLQVGEGGHKLFNAHHCDQGLRHGHAHAPVALGFHHRQGAGFRDPEVRPGNRHLGAKELLAQVRARGLRQHRRLVAKRAVHILAEDLADLAPVAVDSWHEDVRGFIAPELHDQLRQVCLHRADARRLEVLVEPDFLGGHGLDLEHFALTRFSHELFDDRVRLTRVPRPVHDSAPRGELALELFQQLRQVRHHVFLDRGPSAAQLLPIGQLAHDLGPLRANRVRGVPNVLPHLRVAQLHPRGARERHVEVDVASPVGRHS				NA	NA	NA	NA	NA
AK009_09152	369			hypothetical protein	GTGACCACCACCCAGATCAGCCTGACCGTGACATCTCAGCCAGCGAAGTGTCACGGTCAGCCAGCACACCAAACCAAAACCCCAAGTCACCTCCGCACGGTGACGTGCAGGGCCGCTCTAGTCCTCCAACTGCGCAGCGACCTCGTCGCTGAGGCTCATGTTGGTGTAGACGTTCTGCACGTCGTCGGAGTCCTCGAGGGCGTCGATGAGCCGGAGCATCTTCTTCGCCGAATCGAGATCCAGCTCCACCTCGACGGAGGCGCGGAAGTCCTGCTCCGCGTCGTCGACCTCGATGCCCTCGGATTCCAGCGCGGAGCGCACGGCGCGCAGGTCGGTCGGTGCACAGATGACCTCGAAGACGTCGTCTAG	MTTTQISLTVTSQPAKCHGQPAHQTKTPSHLRTVTCRAALVLQLRSDLVAEAHVGVDVLHVVGVLEGVDEPEHLLRRIEIQLHLDGGAEVLLRVVDLDALGFQRGAHGAQVGRCTDDLEDVV				NA	NA	NA	NA	NA
AK009_09153	477			hypothetical protein	ATGTGTCGGGGTTTATGGGCTGGTGGCGGCGAGGCCGCGGGCGATCAGCGGGGCGCGCCAGCAGTGGCACACGGCGATCGCCAAGGCGTCGGCGGCATCGGCGGGCTTCGGGGGCTCAGCCAAACCCAGGATGCGGGTGATCATGGTGGTCATCTGTTTCTTGTCCGCCCTACCGTTGCCCGAAATCGCCTTTTTCACCTCGGACGGCGTGTACATGTGCACCGGCAGGCCGCGCTCGGCGGCGGCGAGGATGAGTACGCCGACAGCGTGGGCGGTGTGCATGACGGTAGAAACGTTGCCGCGCTCGAAAATGCGCTCCATGGCGATAACATCGGGCTGGTAGTCATCCAACCACTCGCGCACCGCAGCGGACAGGCGTACAAGCCGCTGCGGCAACTCGGAGGCCGCGGGCGTGCGCACGACACCGACCGCGATGGGGATCACCTGGCGACCGCGGCCGGCCTGGACAACCGATAG	MCRGLWAGGGEAAGDQRGAPAVAHGDRQGVGGIGGLRGLSQTQDAGDHGGHLFLVRPTVARNRLFHLGRRVHVHRQAALGGGEDEYADSVGGVHDGRNVAALENALHGDNIGLVVIQPLAHRSGQAYKPLRQLGGRGRAHDTDRDGDHLATAAGLDNR				NA	NA	NA	NA	NA
AK009_09154	594			hypothetical protein	TTGCGTCAGCGCCGCGCGAAGCAGTTCGGAGGAGGAGTCCCCCGGGCGTTCCTGGATGAGCGTGTCGACGACCCCGCGCGCGACCTTGTCCGCAAACCCGAGACCGATCAGCGCCTCGACAACCTGCTCGGCGGCGAGCGAGGTCCCCGCCGTCACGGGCGCGCTCGGTGCCGCTCCCGGCTCGGAGGTGGCGTAGAGACCGTCAATCTTGTCCTTGAGCTCGAGCGCCATGCGCTCGGCCATCTTCTTACCTACGCCCGGGATCGTTTGGATCCGCTTGATCGCCGCGGCGTCACCGGCGCTAATCAGCCCGGCAAGCTCTGCAGGTTCGAACACCGACAGGCAGGCCAGCGCCAGCTTCGGGCCGAGACCGCTGACAGTTTGCAGCCGGTGGAACATCGTGCGCGCACCGTCGTCGGCGAAGCCGTAAAGCGTCACCCCGTCGTCCTTGACCACCATGGAGGTCAGAACCCGGGTGGTCTCGCCGCGGGTCAGTCGCGCCAGCGTCGGCGGCCCGGCAAGGAAGCGGTAGCCGACGCCGGCGCACTCGATGACCGCGTGGTCCAAGCCAATGGAGAGCACCTCTCCGTGTAG	MRQRRAKQFGGGVPRAFLDERVDDPARDLVRKPETDQRLDNLLGGERGPRRHGRARCRSRLGGGVETVNLVLELERHALGHLLTYARDRLDPLDRRGVTGANQPGKLCRFEHRQAGQRQLRAETADSLQPVEHRARTVVGEAVKRHPVVLDHHGGQNPGGLAAGQSRQRRRPGKEAVADAGALDDRVVQANGEHLSV				NA	NA	NA	NA	NA
AK009_09155	213			hypothetical protein	GTGATCCGGCGTCAGCGAGCGCCGTCGCGCCCCGGTGAGCACGAGGTTAAGCTGCTCGCGCACCTTGGGCTGGCCGATGAACTCGCCCAGGGATTTCGGGCGCAGCGACTTTTCCACGTCGCGGTCGTCGGCAAGCTCAGTGGCGTTGACGACGGAGCTCGGCGGCCGGCCCACCGCATCCGGCAGGGCGAACTCGGTCTTCTCCACGTCTGA	MIRRQRAPSRPGEHEVKLLAHLGLADELAQGFRAQRLFHVAVVGKLSGVDDGARRPAHRIRQGELGLLHV				NA	NA	NA	NA	NA
AK009_09156	822			hypothetical protein	TTGTGTCATAACCCCATCCGGGGGCTGTGGCGGGCTCTAGAGCAAGTTGAGCTGCCCCGGCGCCTCCGGCGGCGGGGTCAGTCCCACGTGGTGCCAGGCCGCGGCGGTGGCGACGCGGCCGCGGCCGGTGCGCGACATCAAGCCGGCGCGCACCAGGTAGGGCTCACAGACTTCCTCCACCGTGCCGGGCTCCTCCCCCACGGCAATCGCCAGCGTGCTCACGCCAACCGGTCCGCCGCCGTGTCCGCGAATGAGGGAGTTGAGCACCGCGCGGTCGAGCCTGTCCAGGCCGAGCTCGTCGACGTCGAACACCTCCAGCGCGGCGCGGGCCGCGGCGACGTCGACACGCCCGTCGCCGTGCACGTCCGCCCAGTCGCGCACGCGGCGCAGCAGGCGGTTGGCGATACGCGGGGTGCCGCGCGAGCGCGAGGCGATCTCGACGGCTGCGTCGGCGGTGATGTCCACGTCGAGGATCGTCGCGGCGCGGGTGATCACGCTGGTGAGATCGTCAACGTCGTAGAACTCCATCTGGGCTGTAAAACCGAAGCGGTCGCGCAAAGGCCCGGTCAGCATGCCGGCGCGGGTGGTGGCGCCAACCAGGGTAAACGGTGGGATCTCCAGCGGAATCGACGTCGCGCCCGGGCCCTTGCCCACAATGACGTCGATGCGGAAATCCTCCATCGCCATGTAGAGCATCTCTTCCGCCGGCCGCGCGATGCGGTGGATCTCGTCGATGAAGAGCACGTCGCCCTCCATGAGGTTCGACAGCATCGCGGCGAGGTCACCCGCGCGCTCCAGCGCCGGGCCCGAAGTCATGCGTAG	MCHNPIRGLWRALEQVELPRRLRRRGQSHVVPGRGGGDAAAAGARHQAGAHQVGLTDFLHRAGLLPHGNRQRAHANRSAAVSANEGVEHRAVEPVQAELVDVEHLQRGAGRGDVDTPVAVHVRPVAHAAQQAVGDTRGAARARGDLDGCVGGDVHVEDRRGAGDHAGEIVNVVELHLGCKTEAVAQRPGQHAGAGGGANQGKRWDLQRNRRRARALAHNDVDAEILHRHVEHLFRRPRDAVDLVDEEHVALHEVRQHRGEVTRALQRRARSHA				NA	NA	NA	NA	NA
AK009_09157	477			hypothetical protein	GTGGCCGGAAAGCGCCCACCGCATCATGCTACGTTATCGTTCCCCGTACAAAAGGCCCGCCCCCGCATGTCGCGGGAGCGGGTCTTTGGGCTCGGAGTGTTGCGGCACGTGGCTTACGCCTGTCTACTGCTCGTCGGTCAGCTGTTGGGGGTGGTCGTCGGCAAGCGGGGCGGCGGGCTCGACGCGTCGCATCACGCCCGCGCGCTCCATCGTGACCACAGTGCCGGGAGCGAGCTCGACCTCGAGGGTGTCCTCACCGGTGGAGACAACCGTGCCGTGGAAACCGGAGACGTTGACCACCCGGTCGCCGGGGACGATCGACGCCTGGAGTTGCTCGACCTGCGCCTGACGCTTACGCTGGCCGCGCATCATCAGAAACGTCGGCAGCATGAACAACGCGAGGACCAGCAGAAGAAAGATAAGTTCCATGGGCCCCATTGTGTCATAACCCCATCCGGGGGCTGTGGCGGGCTCTAG	MAGKRPPHHATLSFPVQKARPRMSRERVFGLGVLRHVAYACLLLVGQLLGVVVGKRGGGLDASHHARALHRDHSAGSELDLEGVLTGGDNRAVETGDVDHPVAGDDRRLELLDLRLTLTLAAHHQKRRQHEQREDQQKKDKFHGPHCVITPSGGCGGL				NA	NA	NA	NA	NA
AK009_09158	693			hypothetical protein	TTGCATGCTCGTGGCATCGCAGGCCACCAGCGGCTGCGCGAGATCGTCGGAGCCTGTCAACGGGTCGGTTTGCTGCGTGGTGCACACCGTGCTCATCAAAGCGAGGGAAGCGAACTGCTGCGTCGGGTCCGCAGACTGGCGGGTGCTGCGCAGCATCTCGGCCGTTTCTGTGCGACGCTCGGCGGACTCGATCGGGCCGGACGGATCTTCGAGCGGCTCCGAGGTCACCTCGAGCGAGCCCTCCTCGGTGCCGAGCTGCGTGGCGACGGAGTCCAGGGTGGTCTGGGCATCCTCCTTCGGCACAATCCCGTAGGCGACCCAGTCGTCGGCGGTCTGCACCAGCACATCACTGACCGCGGCCAGGTCCGGCACCGGGTTCTGGATCACGGGGCGAAACGCCAATTGCGAGGTTTGTCCGAGGTTGCGCACCGCCGAGGTGTCATCCCCGGCGGCGGTGATCACCAGCGTGTTGCCGTCGACGACCACGCTGGCGCCGCTGACACCCATGCCGTTGACGCGCTGCTCGATGATGTTGCGGGCATCGGCAAGCTGCTCCGGCGTGGGGTCCTCGCCCTGGGGCACGAGAGTCACGCGCGTGCCACCCTGCAGGTCAATGCCGAGCTTCGGTGTCGCCGACCTGTCGCCGGTGAAGAAAACAAGCGCGTAGATCGCGACGATGATCAGCAGAAATAG	MHARGIAGHQRLREIVGACQRVGLLRGAHRAHQSEGSELLRRVRRLAGAAQHLGRFCATLGGLDRAGRIFERLRGHLERALLGAELRGDGVQGGLGILLRHNPVGDPVVGGLHQHITDRGQVRHRVLDHGAKRQLRGLSEVAHRRGVIPGGGDHQRVAVDDHAGAADTHAVDALLDDVAGIGKLLRRGVLALGHESHARATLQVNAELRCRRPVAGEENKRVDRDDDQQK				NA	NA	NA	NA	NA
AK009_09159	210			hypothetical protein	GTGGGCGCAGCTGACCTCGGACATGATCGGCCAGCAGGTCGCTATCACCCTGGACTCGCAGGTCATTTCCGCCCCCGTTATCCAGGGCGCGACGCCGGTGGGTTCCGCGACCTCGATCACCGGGTCGTTCACCCAGGAGGAGGCGACATCGCTGGCGAACAACCTGCGCTACGGCGCGTTGCCGCTGTCGTTCGTGGGCGAAGACGGTGA	MGAADLGHDRPAGRYHPGLAGHFRPRYPGRDAGGFRDLDHRVVHPGGGDIAGEQPALRRVAAVVRGRRR				NA	NA	NA	NA	NA
AK009_09160	840			hypothetical protein	GTGCGGCTCGGTAGGTTGCGGCGCGACGACGGTGCGCTTGCGCGTCGCCGCCTCTTCACGGGGTGCCTCCGGCTGCAGACCCTCGGCATCGGCGTCGCCGTTGCGGAACGCCTCGACCGCCGCGGCATGCTCCTTGTGCTTGTCCTGCCGGTTGACCAGAGAGACCAGAATCGGGGTGGCGAGGAACAGCGAGGAAAAGATACCCTCGATAACGCCAATCAGCTGGATCAACGCGAGGTCGCGCAGAGTACCGATGCCCATCATCCACACCGCGACCACCATGAGCGAAATAATCGGAAGTGCCGAGATCACCGAGGTCGAAATCGAGCGCATCACCGTCTGATTCACTGCCAGGTTTGCCTCTTCCGCGTACGTGGATCGGCGCGAATCGAGCACCCCGGCGGTATTCTCTCGGACCTTGTCAAAGACGATGACGGTGTCGTAGATGGAGAAGGTCAGCACGGTGAGCAGGCCGATGATCATCGCGGGGGTGATCTCGAGGCCGAACAGAGCGTAGGTGCCCAGGATGAGCACGCCGTCGACAAGCAGGGCCGCCATCGCCGCGACCGCCATCTCGCGCTTGAGCCGCAGCGCGACGTACGCCGCGGCGGCGAGCAGGAACACACCCATCGCCAGCAGCATCCGGTTGGTAATGGTCGATCCCCACGACTCGGAGACTGTGGAGTCGCCGATCGCATCGGGGCTGGCGTTGCCCTCGGCGTCGAGAGGCTGGTGCTGCTCGAAAATCGCCTGGCGGGCCTGGTCGATCTGCTGCTGCGTCAAGTGTTCGGAGTTGATCTCCAGGGTGCGCGCGTCGCCCGCGCCGACGATCTGCGTTAG	MRLGRLRRDDGALARRRLFTGCLRLQTLGIGVAVAERLDRRGMLLVLVLPVDQRDQNRGGEEQRGKDTLDNANQLDQREVAQSTDAHHPHRDHHERNNRKCRDHRGRNRAHHRLIHCQVCLFRVRGSARIEHPGGILSDLVKDDDGVVDGEGQHGEQADDHRGGDLEAEQSVGAQDEHAVDKQGRHRRDRHLALEPQRDVRRGGEQEHTHRQQHPVGNGRSPRLGDCGVADRIGAGVALGVERLVLLENRLAGLVDLLLRQVFGVDLQGARVARADDLR				NA	NA	NA	NA	NA
AK009_09161	1467			hypothetical protein	ATGCGGTGCGCGAGCGCCTCGCGCGCACTGCTGTACGGGGTTATCGTGGAGTCAGTGTGCACGGTTGGTCCTCGCTTCGTCTGCTTAGGTGGCCTGCGGGGCCGCATCGCCGACGGATGCCGGGCGCAGCTGCCACCGATCCATGTTCCAACCGATACCGGTTGGGCCTGTGTACACAATAACGTTAGACAGCTTCCGGTCCACGGCAAACGAACGCGGCTGCGCCGCCAGGGGCAGGCTGGGCAGCTCATCCCACAGCTCGCTCTCGCGCTCGCGCATCGCCTCGACATCTGTCGAGCGCGTGCTGGGAATCGTGTATTCGGTCTGCGGGTTGACGGGCCGCAGCATCGCATCAATGGTGCCCTCGACCACGACGTCTTCTCCCCACTCGCCGACATCGACGCGGCCAAGGTCGCGCAGGGTCGCGCCCGCGCCTGTCGACGCCGTGACATCGATCACGCTAATGCCGGCCGGTTCGCAGGTGGCGCGGATGGAGTCGACCATCGCCGCCATGCGTGGCGACGCGTGCGTGTACCCGACGCGCAGCTCCAACCCGCCCGCCGCGCTCGCAGCTGCGATGTCCACGCCGGCGTGGGGGGCGGCGATGTCGTCGAAACGCGGCGCCAGCGGGTCATTGTTTGGAACGACGTGGGTGAGCACCGCCGGGACCTCCACGCCAGCCGCCCCGCTCGAGGCGGCGGCCACCGCGTTCGGGTCGGCGCACTTGGCCAATGCCTGCCGGTTGGCAGGAAACGACCAAGGCCCAGCCGTTTCGAACGTCAGCGACTCGGTGAGAGTGCCCACCAGGGACGTCACATCGAGCTCGTTGCCCTCGGCATTGACGTCCAGCCACTCTGGGTTCGGCTCAGCCAGGTCAGCCACGCGCAGGTTGCCCGTGCCGTTGAGCTGCGCCGAGGCGGCCGTGCCCGGCCAGACCACGATCTCGTCCGTCAACGGGGCGTCACCGTAGTAGCGCTCGTTGGCCACCAGGGAGACCTGCCCCGCCTCGCCGACGCTGTCAACGGTGTAGGGCCCGAAGGAGACGTGCATCGCCGGATCAAAATTGGCCAGATCGAAGCCGCTTCGCCACACCTCGGCAACGGGGCGCAGCGTGGCGGCGTCCCCCGCGTCCAGCTGGGCACTAAACCCCGCCACGTCGGTGCCGAGCTTCGCCGCCACCGCGTGCGCGGGCACGACCGTGCCGGGGCCGAACAGCTCTCGCCACTGCGCACCGTGGCCGGGCGCGAACACCACGTCGAAGGTTTTTGCTCCGGGTTCGCAGTCGAGGCGCTCTACCTCCTCGAACAGTGGCATGTGGGAGCCGAACAGGGCGGGGTTTTTCCCCGCGGTAAACGCAAGCAGGTAGTCGGTGCAGGTCACCGGCTCCCCGTCGGAGAACACCGCTTCATCCGAAAGTGTGTATTCCACGATGCGCTGCGCACCGGGCAACGCCTGGGTGCGTACTAG	MRCASASRALLYGVIVESVCTVGPRFVCLGGLRGRIADGCRAQLPPIHVPTDTGWACVHNNVRQLPVHGKRTRLRRQGQAGQLIPQLALALAHRLDICRARAGNRVFGLRVDGPQHRINGALDHDVFSPLADIDAAKVAQGRARACRRRDIDHANAGRFAGGADGVDHRRHAWRRVRVPDAQLQPARRARSCDVHAGVGGGDVVETRRQRVIVWNDVGEHRRDLHASRPARGGGHRVRVGALGQCLPVGRKRPRPSRFERQRLGESAHQGRHIELVALGIDVQPLWVRLSQVSHAQVARAVELRRGGRARPDHDLVRQRGVTVVALVGHQGDLPRLADAVNGVGPEGDVHRRIKIGQIEAASPHLGNGAQRGGVPRVQLGTKPRHVGAELRRHRVRGHDRAGAEQLSPLRTVAGREHHVEGFCSGFAVEALYLLEQWHVGAEQGGVFPRGKRKQVVGAGHRLPVGEHRFIRKCVFHDALRTGQRLGAY				NA	NA	NA	NA	NA
AK009_09162	1431			hypothetical protein	ATGCGAGCCCTTCGTCTCCTTGTAGCGCCAGTGCGCCGCCACGCCGAACTCGGCGTTGTAGTGCATTTCGTGGGTGCGCACCTGCACCTCCAGCGGGCGGCCGCTGTCCGTCATCACCGTGGTGTGCAGCGACTGGTACACCCCGAAGCGCGGGTTGGAGATGTAGTCCTTGAACCGGCCCGGCATCACGGAGTACAGCGAGTGCACCACGCCGATCGCCGCGTAGCAGTCGTGGACGTTGTCCACCAGCACGCGGATGCCCACCAGGTCGAAGATCTCGTCGAACTCGTGCCCGCGCACCACCATCTTCTGGTAAATCGACCAGTAGTGCTTCGGCCGGCCCATCACCTCGGCACTGATGCTGCTCGCCTTGAGCTCCGCCTCGAGCTGCGCCTTGATCTCGCCCAGCGCCCGGTCGCGCGAGGGAGCGCGATCGGCGACGAGCCTGACAATCTCCTCGTACTTCTTCGGGTACAAAATCGCGAACGCGAGGTCCTCGAGCTCCCACTTCACCGTGGCCATGCCCAGGCGGTGCGCCAGCGGCGCGATGACGTCGAGGGTTTCCTTGGCCTTCTTCGCCTGCTTCTCCGGCGGCAAAAAGCGCATCGTGCGCATGTTGTGCAGCCGGTCTGCAACCTTGATCACCAACACGCGCGGGTCCTCGGCCATGGCGACGATCATCTTGCGGATCGTTTCGGCCTCCGCGGCCGCTCCGAGGGCAACCTTGTCCAGCTTGGTCACACCGTCGACAAGCTTGGCCACCTCGGGGCCGAAGTCGGCGGAGAGATCGGCCAGCGAGTACTCCGTGTCCTCCACCGTGTCGTGCAGCAGCGCGGCGACCAGGGTGGTGGTGTCCATGCCGATTTCGCCACAGATCGTCGCCACCGCCAGAGGGTGCGTGATGTAGGGGTCACCGGACTTGCGCGTGACCCCCTCGTGCAAGCGCTCGGCCACATCGTAGGCGCGGTTGAGCACCTCGGCGCTGGCCTTCGGGTGGTAGCGGCGGTGGATGGACATCAGCGGGTCAAGCACCGGGTTAACCCGGGCCCGGCCGCCGGTCAAGGAGCGCGCCAGACGCGCCGAGACGCTGCGCACGCTCGAGCCCGAACGCTTCTGCGTTTTCTCCGTCGCCATCACGGGCCCCTCTCTCGCGGTCTACCGCCTGATGGAATCTCTAGTTGTTGTGCTCGAGCACAACCAGGGGGGCGTCGCCAAGCCTGTCGCGCCCGCCTAAGCCGTCAACTTCAAGCACTACTGCGTATCCTACGACGCTACCACCGGCGCGTTCGATCAGCTCAGTCGCCGCGACCAGCGTGCCGCCGGTGGCGAGGACGTCGTCGACAAGCACCACTTTCATGCCCGCGAAGTCAATCCCCTCAGCCGGGACCTCCAGTGCCGCGGAGCTGTACTCCGTGGTGTACTCCTCGGTGA	MRALRLLVAPVRRHAELGVVVHFVGAHLHLQRAAAVRHHRGVQRLVHPEARVGDVVLEPARHHGVQRVHHADRRVAVVDVVHQHADAHQVEDLVELVPAHHHLLVNRPVVLRPAHHLGTDAARLELRLELRLDLAQRPVARGSAIGDEPDNLLVLLRVQNREREVLELPLHRGHAQAVRQRRDDVEGFLGLLRLLLRRQKAHRAHVVQPVCNLDHQHARVLGHGDDHLADRFGLRGRSEGNLVQLGHTVDKLGHLGAEVGGEIGQRVLRVLHRVVQQRGDQGGGVHADFATDRRHRQRVRDVGVTGLARDPLVQALGHIVGAVEHLGAGLRVVAAVDGHQRVKHRVNPGPAAGQGARQTRRDAAHARARTLLRFLRRHHGPLSRGLPPDGISSCCARAQPGGRRQACRARLSRQLQALLRILRRYHRRVRSAQSPRPACRRWRGRRRQAPLSCPRSQSPQPGPPVPRSCTPWCTPR				NA	NA	NA	NA	NA
AK009_09163	1053			hypothetical protein	GTGCTAGGCCGTGACGCGGTAGATGTCGAACACGCCCTCGATGTTGCGCACGTGCTTCATGATCGAGCCGAGCTGCTTGGTGTCCGAGACGGCCATGGTAAAGCGCACGGTGGCGACGTTGTCGCTACCCAGCTGCGAGGTCAGCATCATGATGGGAAGCTTCTGCTCCGAGAGCACCCCCGTGATCTCGGCGAGCAGACCCTGCCGATCCAGAGCCTCGACCTGCAGCGTCGCCTGAGACGCCGCGCCCGGGGCGGAGGATGCGGCCCACGAGACGTCGATAAGCCGCTCCGGCTCTTCCTGCAACTTGGCCGCGTTCGTGCAGTCCGCGCGGTGCACGGACACGCCCGCGCCGCGGGTGACAAAGCCGAAAATCTGATCACCCGGCACCGGCTGGCAGCACTTCGCCAACTTGGCCAGCATGTCCGGGCTGCCCTCGACGAGCACGCCCGCGCCGTTGGCCACCGCCTTGGAGCGCACCAGCTCCGACATCGGGGTGCGCGCGGCCAGTGTGTCCACGGCGTCTTCCTCGTCGCCGAACACGTCGGTGAGCATGCGCGTAACGTGCTGGGCGGACACCGTGCCCGCGCCGATCGCGGTATAGAGGGCATCCACGTCCTGGTAGTGCAACCTTTGGGAAATCTGTCGCATCGTGTCGGCGGTGAACAGCCGGTGCATGGGAAGCCCGCCGCGCTGCACCTCTGCAGCCAGGGCGTCACGGCCGGCCTCCAGGTGCTCCTCGCGGCGCTCCTTGGCAAACCACTGCCTGATCTTCGTCCTCGCCCGCGGCGAGACCACGAACTCCTGCCAGTCGCGCGACGGCCCGGCGTTTTCGTCCTTGGAGGTGAAAATTTCCACCCTGTCGCCGGACACGAGCTCCGATTCAAGCGCGACAAGCTTGCCGTTAACCTTCGCACCGATGCAGCGGTGCCCCACCTCCGTGTGCACCGCGTAGGCGAAGTCCACCGGCGTCGATCCGGCGGGCAGGTTAACCACGTCGCCCTTGGGGGTGAACGCGAAGATCTGCTGGGCGGTGAGGTCGTAGCGCAATGA	MLGRDAVDVEHALDVAHVLHDRAELLGVRDGHGKAHGGDVVATQLRGQHHDGKLLLREHPRDLGEQTLPIQSLDLQRRLRRRARGGGCGPRDVDKPLRLFLQLGRVRAVRAVHGHARAAGDKAENLITRHRLAALRQLGQHVRAALDEHARAVGHRLGAHQLRHRGARGQCVHGVFLVAEHVGEHARNVLGGHRARADRGIEGIHVLVVQPLGNLSHRVGGEQPVHGKPAALHLCSQGVTAGLQVLLAALLGKPLPDLRPRPRRDHELLPVARRPGVFVLGGENFHPVAGHELRFKRDKLAVNLRTDAAVPHLRVHRVGEVHRRRSGGQVNHVALGGEREDLLGGEVVAQ				NA	NA	NA	NA	NA
AK009_09164	1221			hypothetical protein	GTGAGCCGGTGCGGCGACGCCGCCGGAGACGAGTGCGGTTGCGGTAGCGACTGCGAGGAGGCTGTTACGAAGCTTCATGGTTTTTCCTATCTACGAGACATGACATGTACAGGGTGTGAACCTAGTCGCACCAATCAGGGTGCGCAAGGCCCCCGTACCGTGTTCTCCGAAAGTTCACCTCTGGTCTATCGTGGCGTCAATTGGCGGGTGGCCGGGGGCGTTGGGTGGGGCGTCGACAAGCGCCTAGCTCACCGTGGCGGAGGTGATGCGGACCTCGTCCTTCGGCGCGCCGTCGGGCTGGCCGTCGGCGGTGCCGCGGGCGGCAACCTCGTCGAGGGTGGCCAGGCCGGTGTCGTCAATGCGGCCGAAGTAGGTGTAGGCCGGCGGAAGCGAGGAATCGCCGTAGTTGAGGAAGAACTGCGAGCCGTTGGTGTCCAGGCCTGCGTTCGCCATCGCGATGGTGCCGCGCTCGTACTTAACTGGTTGCTGCTGCTGCAAGAGCATTCCCTTGTACTGCTCGGCCTGCTCCGCCGGCACGCCCTCCGGGATCTGGGAGGTGTCGATCGTCTCAAGCGCCTCGTCGGTGGGGTACTCGTTGGGGAACTGGAAGCCGGGCCCGCCCGAGCCGGTGCCCGTCGGGTCGCCGCACTGCAGGACTTGCAGGCCCTCGCCTGTGGTCAGGCGGTGGCACACGGTGTCGTTGTAGTAGCCCTCCGTGGCCAGGTACTCGACGGCGTTGACCGTGCAGGGGGAGACGGAGCGGTCCAGCTCCATGCCGATCGGGCCGGCAGAGGTCTCCAGGGTCACGGTGACGGTGCCCTCAGTGGAGACGTTGTCGCTCGGGGGCACGCCGACGAAGTTGTCCTTCTGTCCCTCCTGCTCCTCGTACGAGCAGCTCACGGTGGCGGGCAGCGGGGTAGAGCGCGTAAGCGACAGCGGCTCGGCCTGGATCGGCTCCGGCTCGGTCGTCTCGGCGGTGGACTCAGCGGCGGTAGTCTGCTCACCGGAGGCGGTCACGCTCTCGTCCGAGCCCTGGTTGGCCAGGAAGTAGATGCCTCCGCCGATGGCGGCGAGGACAGCCAGCGAGGCCGCGGCAACAGCCCACGGCTTGGTCTTTTCCTTACGGTCGCGGGCCCCCAACTCCTTTTCAAGGTCGCGCAACGCTTCCTTGCCACGCTGTTCATTATTGGGCGCCTGGGACACGATGGCTTCCTCCATTGA	MSRCGDAAGDECGCGSDCEEAVTKLHGFSYLRDMTCTGCEPSRTNQGAQGPRTVFSESSPLVYRGVNWRVAGGVGWGVDKRLAHRGGGDADLVLRRAVGLAVGGAAGGNLVEGGQAGVVNAAEVGVGRRKRGIAVVEEELRAVGVQACVRHRDGAALVLNWLLLLQEHSLVLLGLLRRHALRDLGGVDRLKRLVGGVLVGELEAGPARAGARRVAALQDLQALACGQAVAHGVVVVALRGQVLDGVDRAGGDGAVQLHADRAGRGLQGHGDGALSGDVVARGHADEVVLLSLLLLVRAAHGGGQRGRARKRQRLGLDRLRLGRLGGGLSGGSLLTGGGHALVRALVGQEVDASADGGEDSQRGRGNSPRLGLFLTVAGPQLLFKVAQRFLATLFIIGRLGHDGFLH				NA	NA	NA	NA	NA
AK009_09165	354			hypothetical protein	TTGCTACCCGTTGTTTCCGGTCAGGGCGGCCTCGGCAGCGTCGTAGTCCGGCTCGTTGGTGATTTCGCTGACCAGCTCGGTGTAGACGACGTTGTGCTCGGCGTCGGTGACAATCACCGCACGGGCGAGCAGGCCCTCAAGCGGGGAGCCCTCGAGGCGCAGGCCGAAATCCTCGCCGAAGGAGGAGCGAAACGCCGATGCAGCGGTGACCTTGTCAATACCCTCCGCGGCGCAGAAGCGCTGCTGGGCGAAGGGGAGGTCCCGGGAGATGCACAGCACCTCGGTGTTGTCGAAGTCCGCGGCCAGCTTGTTGAAGGCGCGAACGGATGCCGCGCACACGCCGGTATCGAGTGA	MLPVVSGQGGLGSVVVRLVGDFADQLGVDDVVLGVGDNHRTGEQALKRGALEAQAEILAEGGAKRRCSGDLVNTLRGAEALLGEGEVPGDAQHLGVVEVRGQLVEGANGCRAHAGIE				NA	NA	NA	NA	NA
AK009_09166	657			hypothetical protein	GTGCGCCATCGTGGTCGTCGGGCCGTGGCCTGGCAGAAGCGGAAGGCGGTCCTCGAGATCCCACACCGGCCCGCACAGGCTGGCCTGCATAGCCGCGTCGTCCGAGTACGGCAGATCCGTGCGACCGATGGAACCCTGGAAGATCACGTCGCCGGCGAGCACGAAGTCGTCGTGGACCCACAGGGCGCTGCCCGGCGAGTGGCCCGGGGCGTGGCGCACGGTGAAGTCGATGCCAGCGAGGGTGACCAGTTGGCCGCCGGTGACCTCGGTGACGTTGTCAATCCGCTCCATGTTGTCGATGTCGAAGGGAACGCGCAGCCACTCGGTGGCCGCCGCCCCGTCGAGCATGAAGACGTCGTCGGCGTGGATGAACGTCTCCACCCCGAACTTGCCCGCGTCGCGGATGTGGTCGATGTGGCCGTGGGTCAAGATGATCGCGACCACCGTGAGGTTTTCCTCAGCGCAGAACTTTTCGACGCGCGCGTGCGCCCCGTAGCTCGGGTCGACGACAACGGCCTCGCCGGTGTCCTCGTTGGCCACGATGTAGCAATTGGTTTGCAGCGGGCCCGCCGCGAATCCGATGATCTGCACGTTGTTGCTACCCGTTGTTTCCGGTCAGGGCGGCCTCGGCAGCGTCGTAGTCCGGCTCGTTGGTGA	MRHRGRRAVAWQKRKAVLEIPHRPAQAGLHSRVVRVRQIRATDGTLEDHVAGEHEVVVDPQGAARRVARGVAHGEVDASEGDQLAAGDLGDVVNPLHVVDVEGNAQPLGGRRPVEHEDVVGVDERLHPELARVADVVDVAVGQDDRDHREVFLSAELFDARVRPVARVDDNGLAGVLVGHDVAIGLQRARRESDDLHVVATRCFRSGRPRQRRSPARW				NA	NA	NA	NA	NA
AK009_09167	1017			hypothetical protein	GTGCTCCGCGAGGTTCTTCACCGCGACCTCGCTCGCCTCCAGCTCGTTGTCGCCGAGCACGAGCGCGAACTTCGCGCCCGCCCGGTCGGCGCCCTTCATCGCGCCCTTGAGCCCGCGCCCGCCGTAGGACATGTCGGCGGAAATTCCGGCGGCGCGGAGGTCGTCGATAAGCAAGCTCATGCGTTTGCTCGCCTCCTCGCCCATCGCCACCCCGAACACGTCGACGCGGCGCTCAACCCCATCGAGGGTGACGCCTTCCGCCTCGAGAGCGAGCACGGTGCGGTCGACACCGAGGCCGAAGCCTATGCCGGAGAGGTCCTGGCCGCCGATTTGGGCCATGAGGCCGTCGTAACGCCCGCCGCCGCCGATACCCGACTGAGCCCCGAGACCGTCGTGGACGAACTCAAAGGTTGTCTTGGTGTAGTAGTCCAGCCCGCGCACCATGCGCGGGTTGATCACGTAGTCGACGCCCATCGCGTCGAGGGTGGCGGTCACCGTGTCAAAGTGCGCGCGCGCTTCGTCCGAGAGGTGGTCGATCATCAGCGGGGCGTCGGCGGTCATCTCTTGGACCTCGGGGCGCTTGTCGTCGAGCACGCGCAGCGGGTTGATCTCGGCGCGGCGGCGGGTCTCCTCATCGAGGTCGAGGGAGAACAGGAACTGCTGCAGCTTCTCGCGGTAGGCGGGGCGGCACGTGTTGTCGCCCAGGCTTGTCAGCTCGAGGCGGAAGCCCGTCAGGCCGACGGCGCGGTAGCAGCGGTCGGCCAGGGCGATGATTTCGGCGTCGAGAAGCGGGTCGTCGACGCCGATGGCCTCCACACCGACCTGCTGAAGCTGGCGGTAGCGGCCCGCCTGGGGGCGCTCGTAGCGGAAAAACGGGCCATAGTAGTTGAGCTTGACCGGCAGGTAGCCGCGATCCAGGTTGTGCTCGATCACCGCGCGCATCACCCCGGCCGTGCCCTCCGGGCGCAGCGTGACGCTGCGGCCGCCGCGGTCCGCAAACGTGTACATCTCCTTTGA	MLREVLHRDLARLQLVVAEHERELRARPVGALHRALEPAPAVGHVGGNSGGAEVVDKQAHAFARLLAHRHPEHVDAALNPIEGDAFRLESEHGAVDTEAEAYAGEVLAADLGHEAVVTPAAADTRLSPETVVDELKGCLGVVVQPAHHARVDHVVDAHRVEGGGHRVKVRARFVREVVDHQRGVGGHLLDLGALVVEHAQRVDLGAAAGLLIEVEGEQELLQLLAVGGAARVVAQACQLEAEARQADGAVAAVGQGDDFGVEKRVVDADGLHTDLLKLAVAARLGALVAEKRAIVVELDRQVAAIQVVLDHRAHHPGRALRAQRDAAAAAVRKRVHLL				NA	NA	NA	NA	NA
AK009_09168	573			hypothetical protein	GTGCTCAAGCGCGATCTCAGCGGCGTTTTCGACCTGTTCGGCGGTGCCGCCCAAAATGGCGCACATGCCCGCCGCGGCCATCGCGGAGGCGGAGCCGACCTCGCCCTGGCAGCCGACCTCGGCGCCCGAGATCGAGGCGTTCGTTTTGATGATCGCCCCGATCGCGCCGGCGGTGAGAAGAAACTCTCGGGCCCGCTCGTCGGTAAAGTCCTCGGTGAAATCACGGCAGTAGTGCATCACGGCGGGGATGATGCCCGCCGCGCCGTTCGTCGGGGCGGTGACCACCTGGCCGTGGGCGGCGTTTTCCTCGTTGACGGCGAGCGCGAAGAGGTTGACCCACTCCATCGCGTCGAGGCCGCGGGCCGTGGATTCCTCGTACTCGGCGGTGAGCAGGCGGTACAGACGCGGGGCGCGGCGGGTGACGTTGAGCCCGCCCGGCAGCACGCCTTCGGCTTTCAGCCCGTTGGCGACGCACTCCTGCATCACGTTCCACACCGAATCGAGGTGCGCGCTGACCGTGTCCCAGCCGTGCAGGGCCTCCTCGTTTGCGCGCATCACCTCGGCGATGCTTAA	MLKRDLSGVFDLFGGAAQNGAHARRGHRGGGADLALAADLGARDRGVRFDDRPDRAGGEKKLSGPLVGKVLGEITAVVHHGGDDARRAVRRGGDHLAVGGVFLVDGEREEVDPLHRVEAAGRGFLVLGGEQAVQTRGAAGDVEPARQHAFGFQPVGDALLHHVPHRIEVRADRVPAVQGLLVCAHHLGDA				NA	NA	NA	NA	NA
AK009_09169	492			hypothetical protein	GTGGTTCAAAAGCTCCTCACCAGAGTGGAACTCGAAGGGGATTGTGTCGTCGGGCTGTTCCGTGGACACCCCAGCGCGGTTGCGGTGGGCTTCCATGCCCGCGCGGTCGAGGATGAACCCGCCGCCGACGGAGTAGTACTCCTTGCGCGAGGTAATGCGGTTGCCCTCAGCGTCCCACGCGTCGAAGATCAGGCAGTTGGGGTGCTGTGCGACCGGCTTGGGGTTAAACGTCACCTCGTAGTCGACGCTGCCCGCCGGCCCGGAGATGGTGCCGGACTCGGGGATTGCCACCCCGGGCACCGGGTCGATGTCGGGCGTGGTGGTCGTCGGGGTGTAGCCGACAAGGCCGAGCAGGACCGCGCGGTCGGTCCCGTGCCCCACACCCGTGGCGGCCAGCGAACCGCGCAGCTCGACTCCCACGCGGGTGGGCAGCTCGCCGAGGTTGTCGACGAAGGCCATCGCCGCGCGCATCGGGCCAACGGTATGGCTTGA	MVQKLLTRVELEGDCVVGLFRGHPSAVAVGFHARAVEDEPAADGVVLLARGNAVALSVPRVEDQAVGVLCDRLGVKRHLVVDAARRPGDGAGLGDCHPGHRVDVGRGGRRGVADKAEQDRAVGPVPHTRGGQRTAQLDSHAGGQLAEVVDEGHRRAHRANGMA				NA	NA	NA	NA	NA
AK009_09170	636			hypothetical protein	GTGGCCCCGCAGCAGCTCGGAAAAAGGTATGAAATCATCGGTCACATCCACACCCGCCTTGCGTTTGCGCGGTGGGACGTCCGCGCTCGAGTCCGTCACCGCGCCGGCGAGCCCGCCAACGGAGCCCTCGGTGGCGACGATGAGCCGGGCCAGCTCGGCGGCGGCGCGGGCGACGCGCTTGTTAAAGTCCGCGCCCTCCGGCCCGCCGAAATCATCAGTGGCGGCGAACAGCGAGGTGGGAACCACGACGGCGCGCATGTACGACAGCAGCGGGCGCATCGCGTACTCAGTCACCAGCGAGTGGCGCGCCGTGCCCGCGGTCGCGGCGATAATCGTCGGCATTCCGTTGAGGGCGTCGGTGTCCAGCACGTCGAAAAACATCTTGAACAAACCCGTGTAGCTCGCCTTGAACACCGGGGTGACGGCAACCAGGGCGTCGGCCGCGCTGAGCTGGGTCTTGACCTCGTCGAGGTGGGCGGTAGACATGCCCGTCGAGGTGTGCTGGGCCAGATCCGCCGTAAGCTCGCGCAGCTCAATGGTGGTCACCTTGAGCTTCTCGCCGCGCCCGCCGACGGCCGAGGACACCGCATTAGCGATCGTGTCGGCCACCTGGCGCGTTGTGGAGGGCGTCGATAA	MAPQQLGKRYEIIGHIHTRLAFARWDVRARVRHRAGEPANGALGGDDEPGQLGGGAGDALVKVRALRPAEIISGGEQRGGNHDGAHVRQQRAHRVLSHQRVARRARGRGDNRRHSVEGVGVQHVEKHLEQTRVARLEHRGDGNQGVGRAELGLDLVEVGGRHARRGVLGQIRRKLAQLNGGHLELLAAPADGRGHRISDRVGHLARCGGRR				NA	NA	NA	NA	NA
AK009_09171	696			hypothetical protein	GTGGTCGATGAGGAAGAGCTGGCGCTGGTAGTCGCCCACCCAGTCCGCGAACTGCATTGTGCGCTCAATAATCATCTCCGGCGTTCCCACCGTCAGCGGGGTCAGCTCGGTGAACTCCTCCAGCGAGGGGCCGTGGCCGTAGACGGGGGCGTTGTCGAAGTAGGGGCGGAACTCCTTTTTCGCCTGTTCCTCGGAGTCGGCGATGTAGACCTGCCCGCCGAGGCCGACGATCGCCTGGTCCGCGCTGCCGTGGCCGTGCGCCTCATAGCGGCGGCGGTACAGGTCAACCATGGAGGCGGTGTGCTCCTTGTTCCAAAAAATGTTGTTGTGGAAGAAGCCGTCGCCGTAGTAGGCGGCCTGCTCGGCGATCTGCGGGGAGCGGATCGAACCGTGCCAGACGAACGGCGCTACGCCCTCAAGCGGAGCCGGGGTGGCGGTGAAGCCCTGCAGGGGAGTGCGGAACTGGCCCTGCCAGTTCACCACAGGTTCGCGCCACAGCCGGCGCAGCAGGTGGTAGTTCTCCACGGCGAGCGGGATGCCCTGGCGGATGTCTTTGCCGAACCAGGGGTAGACGGGGCCGGTGTTGCCGCGGCCCATCATCAGGTCCATGCGTCCGTCGACGAGGTTCTGCAGGAAGGAGTAATCCTCGGCGATACGCACCGGGTCCGTGGTGGTGATGAGCGTGGTCGCGGTTGA	MVDEEELALVVAHPVRELHCALNNHLRRSHRQRGQLGELLQRGAVAVDGGVVEVGAELLFRLFLGVGDVDLPAEADDRLVRAAVAVRLIAAAVQVNHGGGVLLVPKNVVVEEAVAVVGGLLGDLRGADRTVPDERRYALKRSRGGGEALQGSAELALPVHHRFAPQPAQQVVVLHGERDALADVFAEPGVDGAGVAAAHHQVHASVDEVLQEGVILGDTHRVRGGDERGRG				NA	NA	NA	NA	NA
AK009_09172	156			hypothetical protein	GTGCTGGCCGGTGGCGAAGACATCGAGCCCGAGCTCGTCGGCTCTAACGGCAATCGCCGTCATGGCGTCGATGCGCTCCTTTTCCGTGGGGGTTGTTCCCGTGGTGGGGTCGGTGGTGACGTCGCCGATGGTGAAAATTCCGAACTGCAAGGGTGA	MLAGGEDIEPELVGSNGNRRHGVDALLFRGGCSRGGVGGDVADGENSELQG				NA	NA	NA	NA	NA
AK009_09173	852			hypothetical protein	GTGGATGTCGTCGTCAGGCGCGAAGGTGACCACCTGCTGCGCGCCGAGGACACTCAGCGCCAGCGCGGGGCGAAGAAGTACGTCGCGGATGCGCTCAATAGTCGCGATCGTCTCCGGCAGCGGCTCCGCGATGGGTTTGAAATTCCGGTACTCGCCGTGGCTGATCGCGTTGCGCAGCTCCGCGAACTCCTTCAAGTCGGCGGCGTACTCGCGCGAGACAAGCCCCTTCTTGGCAGCGAGGTTGACCATCCAGGAAAAACCGTCCGATTTCTTCGCGTTCAATGTATCACGCAAAAACGCTTCGATGTCGTTGAACGCGGCGAGAAAAGACGTCGCACGGTTTTCAGTCATGGCTTAGGAATATACGCCGCGGTCCAGGTAGTCGCAGGCGCGCATGTGGCCGTCCTGGTAACCGCGCAGGAACGCCTCCTCGCGCTGCTGGGAGGAACCGTGCGTCCACACATCGGGGTTGACCTCGCCGCCGGAACGCTTCTGAATGTTGTCGTCGCCCACCGCGCGAGCGCTCTGAATCGCCGAGGAGATCTGCTCGCTCGTAAACGGCTCCAGGACAGCGTCCTCACCCTTGTCGGCGTGCGATGCCCACAGGCCCGCATAGCAGTCGGCCTGAAGCTCGATGGCAACGGCCGCGGAATCCTCTCCGGGATTGTTGTAATTGCTCATGCCCAAAGTGCCCTCAAGCTGCTGGATGTGGTGGCCCATCTCGTGTGCGACAACGTACATCTGGGCGAGAGGGGCGTCCGAGCCACCGAGCTGCTCCAACTGGTCGAAAAAGCTGACGTCGAAGTAGGCGGTGGTGTCCGCGGGGCAGTAGAACGGGCCTGTCTGTGCTAA	MDVVVRREGDHLLRAEDTQRQRGAKKYVADALNSRDRLRQRLRDGFEIPVLAVADRVAQLRELLQVGGVLARDKPLLGSEVDHPGKTVRFLRVQCITQKRFDVVERGEKRRRTVFSHGLGIYAAVQVVAGAHVAVLVTAQERLLALLGGTVRPHIGVDLAAGTLLNVVVAHRASALNRRGDLLARKRLQDSVLTLVGVRCPQARIAVGLKLDGNGRGILSGIVVIAHAQSALKLLDVVAHLVCDNVHLGERGVRATELLQLVEKADVEVGGGVRGAVERACLC				NA	NA	NA	NA	NA
AK009_09174	255			hypothetical protein	TTGGAAAAAGTGCAGCCCGGGCTGGACATATTCAATGCCGGCCTCGGCGGGAAGGACGTCCTGCCAGACACCGTCGACGCTGACCGCCGTCGCCTCCAGGCGGCAATCGACGTATTCGTTCTGCGCACCCGAGGAGTTGCAGTGGTCGAGGTTGTAGTCCCCGCCATCGGAGACCTGATTGGGATTCGCCTGCGGCAGAGGCATCTGCCCGCCGCCTCCACCGCCGCCGCCGAGGAGGAGGAACAGGCCGAGTAG	MEKVQPGLDIFNAGLGGKDVLPDTVDADRRRLQAAIDVFVLRTRGVAVVEVVVPAIGDLIGIRLRQRHLPAASTAAAEEEEQAE				NA	NA	NA	NA	NA
AK009_09175	699			hypothetical protein	GTGGCGGCTGAGCACCTCGCGGGCGGCGCGGTTGGCGTCGGAGCGCAGACGCAGCGCGGCGGCCTGGCGCTCGCGGCGCAGGTCAAGGTAGCGGTACTTCAGGCGGGTTTCCTCGCCGACCTCGTTGGAGGAGAAGTCCTCGACCTGGAAGGGCAGTGCGGCGGCCTTGTTCAACACCGTCAGCTCGACTGCGTTGACCTCGATCTCGCCGGAGGCGAGGTTCGGGTTGGCGGAGCCCTCCGGGCGCGGCTCGACCACGCCGGTGACCTGGATGCAGTACTCGCTGCGCAGGTCGTGAGCCGCCTCGGCGACCTCGGACTCGCGGAACACCACCTGCGCGAGACCGGAGCGGTCGCGCAGGTCGATGAAGATAACGCCTCCGTGGTCGCGGCGGCGCGAGACCCACCCGGTGAGAGTTACTGTCTGGCCATCGAGTTCTGTGCGGAGGTCTCCGGCAAGGTGGGTGCGCAGCACTGTCTTTTTCCACGTCCTTCTAGTCACGGGGTTGTTGCCTTAATGAATAGCAGGCCGGTTGTGTCGGCCTCGTACGCGGCAACGCATAGCGGGCTTCTACTCTACTCTTTCTCCCCGCACGGCACCCGAGTCGGCCCCGTGAGCCGCCTGCGACGCCGACGCGCGATGTTTCAGGCAGCGCAAGCGCGCGGTGAAGGTCAGTGTTTGGCAAAATTGCTGCCATGA	MAAEHLAGGAVGVGAQTQRGGLALAAQVKVAVLQAGFLADLVGGEVLDLEGQCGGLVQHRQLDCVDLDLAGGEVRVGGALRARLDHAGDLDAVLAAQVVSRLGDLGLAEHHLRETGAVAQVDEDNASVVAAARDPPGESYCLAIEFCAEVSGKVGAQHCLFPRPSSHGVVALMNSRPVVSASYAATHSGLLLYSFSPHGTRVGPVSRLRRRRAMFQAAQARGEGQCLAKLLP				NA	NA	NA	NA	NA
AK009_09176	1152			IS256 family transposase ISCur3	GTGGACCTGAGATCACCACAGACCACCAGATGCTGCTATCCGAAGCTCATACCCGCGCTATCCGATCGTCAGAACCGCGCTACTAAAAGCACGTCCCTAACAAAAACCCGCGACTTCAAAGCGTTTCACCGATACGTGACCTCCACGAGGTCACTAACCGAGATCGCCTGTGATGCCGGAGTCAGCAGATGGACCCTCGACCGCCGATTCGAACCGTTATGGCTCATCGATGTTCCCAACACCCCAGACCCCAACAGGGTCTACGACCAGATCTTCATCGACGGCACCTACACCGACGCCGGCTGCCTGCTCGTAGCAGCAAGCTACGACCACGTCATCGCCTGGCACTGGGCCAGAACTGAATCAACCCACGCTTACACACAACTGCTGCGCGGTATCGCCCAACCGTTATGCGTCGTCCTCGACGGCGGACAAGGCGCCTACTCAGCGATCAAAGCCTGCTGGCCCACCACCATGATCCAGCGCTGCCTCGTCCACGCCCAACGCGTCATCCGTCGCTACACCACATCACGGCCCCGCACCGACGCTGGCAAAGCGATCTATGCCCTAGCGCTGAAACTGACCAAGATCACCACCTTGGACCAGGCACGCCAGTGGACCATCAGACTGCACGAGTTCGGGGTGGTCTACAAGGACTTCCTGAACGAGAAAACACCCGTACCCAAAGAGCGCCGCACCCCCAGCCACCAATGGGAATTCACACATATCCGGGTCCGAAAGGCATACAACTCGCTTTTGCACTTATCGCGCAACAACTGGCTGTTTGCCTATCTCCAACCCCCGCCAGAAGCACTCGAACCGGCCCGGTGGGCAGCAACCACAAACAGCCTAGAAGGCGGAGTCAACGCACAACTCAAACGCATCGCTGACGCCCACCGCGGCAGATCCGGGGAACGACAACGCAAGATGCTCGAGTGGTACCTGCACTCGAAAACGCAGCTGCCTGACGACCCACTCGAGATCGCCAGGCAGTGCAATTACGGACAAGATCAACTCGCCAAAGTTCCCGATCTCGTCCCAGAAGACCACAACACAGCCGACCAAGAAACAGGACGACCAGCCTTCTACGACAACGCTATCCCAACCGAATACCAACACAACATAGGAATCCGCAAAGGCCCCATGCGATAA	MDLRSPQTTRCCYPKLIPALSDRQNRATKSTSLTKTRDFKAFHRYVTSTRSLTEIACDAGVSRWTLDRRFEPLWLIDVPNTPDPNRVYDQIFIDGTYTDAGCLLVAASYDHVIAWHWARTESTHAYTQLLRGIAQPLCVVLDGGQGAYSAIKACWPTTMIQRCLVHAQRVIRRYTTSRPRTDAGKAIYALALKLTKITTLDQARQWTIRLHEFGVVYKDFLNEKTPVPKERRTPSHQWEFTHIRVRKAYNSLLHLSRNNWLFAYLQPPPEALEPARWAATTNSLEGGVNAQLKRIADAHRGRSGERQRKMLEWYLHSKTQLPDDPLEIARQCNYGQDQLAKVPDLVPEDHNTADQETGRPAFYDNAIPTEYQHNIGIRKGPMR				NA	NA	NA	NA	NA
AK009_09180	1386			hypothetical protein	TTGAGCGAGGAAGAAGTAGACCAGCGCCGCGCCGATCATCCAGGCGACGAACCCCGCCAGCGCCATCAGCGAGACGACCCGGAACGCGGAGGCCGGATTGATGTGGGACACGGTCAGTTTTCGTGCGGCCATGGATTACTCCTCATCCTCGTAATCGTGGGTCGGGCCGACCGGGTCCGTCTCCACGCTGTTGACGTTGACCGGGGAGGCGCTCGAGGTCACTTCCTGGGCCTCGGCGAGGGTCTTCTCGCCCTTCGCCACGGCGGTCGCTTCCTCCTCGCCCTCGTCCTCGACGTTCTTGTCGATCGCCAGCAGCTCCACGTCCTCGGCCAGGTCCACGAGGCGCACGCCCATGGTGGCGCGCGAGCTCGGGCGGATCTGCGCGACCTCGGTGCGGATCACACCGCCGGCGGACGTGATGGCGAAGATCTGGTCTTCCTCCTCCACGGCCAGGGCGCCGATGAGTTTGCCGCGCTTCGGGGTGTACTTGAACGTCATCACGCCCAGGCCGCCGCGGCCCTGGGTGGCGTACTCACCAATCGCGGTGCGCTTGCCGTAGCCGCCGGAGGTGGCCACGAGCAGGAAGTCGTTGTCGTGCACGACCGTCATGGCCAGCAGCTGGTCGTCGCCGCGGAAGCGCATTCCCTTGACACCGGCGGTGGCGCGGCCCATCGGGCGCAGCTGCTCGTCGTCGGCGGTGAAGCGGATCGCCTGTCCCTGCTCGGAGACGAGCAGGACGTCGTCGTCGTCGCTGGCCAGCACAGCTCCGATGAGCTGGTCGCCCTCGTTGAGGTTGATCGCGATCAGCCCGGCGGAGCGCGCGGACTCGTAGTCGGTCAGGCGCGACTTCTTCACGCGGCCTTCGCGGGTGGCCAGGACCAGGTAGGGAGCGTCCTCGTAGGACTGGATCTGGATCACCTGGGCGATGCGCTCCTCCGGCTGGAACTCCAGCAGGTTAGCCACGTGCTGGCCGCGCGCGGTACGCCCCGCCTCCGGCAGCTCGTAGGCCTTAAGCCGGTAGACACGGCCGAAGTTGGTGAAGAACAGGATCCAGTCGTGCGTGGAGCAGATGAAGAAGTTCTTCACCACGTCGTCCTGCTTCAGCTCGGCGCCGCGCACGCCCTTACCGCCGCGCTTCTGCGCCTTGTACGCGTCGACCTTGGTGCGCTTGGCGTAGCCGGTGGAGGTAATGGTGACCACGACGTTCTCGCGGGCGATCAGGTCTTCCTCGGAGACGTCACCGGTGGCGGCGATGAGCCGGGTGCGGCGGTCGTCGCCGTAGCGCTCGACAATCTCGGCGAGCTCGTCGGCCACGATGGCGCGCTGGCGCTCCGGGCTGGCCAGGATGTCCTTGAGGTCGGCGATCTGGCGTTCGATCTCGGCTAG	MSEEEVDQRRADHPGDEPRQRHQRDDPERGGRIDVGHGQFSCGHGLLLILVIVGRADRVRLHAVDVDRGGARGHFLGLGEGLLALRHGGRFLLALVLDVLVDRQQLHVLGQVHEAHAHGGARARADLRDLGADHTAGGRDGEDLVFLLHGQGADEFAALRGVLERHHAQAAAALGGVLTNRGALAVAAGGGHEQEVVVVHDRHGQQLVVAAEAHSLDTGGGAAHRAQLLVVGGEADRLSLLGDEQDVVVVAGQHSSDELVALVEVDRDQPGGARGLVVGQARLLHAAFAGGQDQVGSVLVGLDLDHLGDALLRLELQQVSHVLAARGTPRLRQLVGLKPVDTAEVGEEQDPVVRGADEEVLHHVVLLQLGAAHALTAALLRLVRVDLGALGVAGGGNGDHDVLAGDQVFLGDVTGGGDEPGAAVVAVALDNLGELVGHDGALALRAGQDVLEVGDLAFDLG				NA	NA	NA	NA	NA
AK009_09181	576			hypothetical protein	GTGGGCGCGCTTTTCGGCCTCGTCGAGGCGATACTGGGTGCGCCTGACGATGACTTCGATCTGGTGCTTGACGTAGTAGCGCAGCATCTGGTCAAGCCGCAGGGTGCGCGGCACGCCATCGACGATGGAGAGCATGTTGGCCGAGAAGTTCGTCTCCAGCTGCGAATGCTTGTACAGGTTGTTGAGCACCACGCGCGGCACGGCGTCGCGCTTCAGCGAGACAACGATGCGCATGCCCACGCGGTCGGAGGACTCGTCGTCGATACGCGAAGCGCCCGGCAGCTTGCCGTTGGCGATGTGGTCGGCGATGTTCGCGATGAAGTTATCGGGGTTGACCTGGTAGGGCAGTTCCGTGATCACGATGACTTGGCGCGAGCCGATCTCCTCGATCTCGGTGACTCCGCGCATGCGGATCGAGCCGCGGCCGGTGGTGTAGGCGTCCTTGATGCCGGTGTCGCCGACGATGAGGCCGGAGGTGGGGAAATCGGGGCCCTTGACGCGCTCCATCACGGCCTCGAGAGTGGTCTTCTCATCCGCGTTGTGGTTGTCCAGGATCCAGTAGATGGCCTCGGCTAG	MGALFGLVEAILGAPDDDFDLVLDVVAQHLVKPQGARHAIDDGEHVGREVRLQLRMLVQVVEHHARHGVALQRDNDAHAHAVGGLVVDTRSARQLAVGDVVGDVRDEVIGVDLVGQFRDHDDLARADLLDLGDSAHADRAAAGGVGVLDAGVADDEAGGGEIGALDALHHGLESGLLIRVVVVQDPVDGLG				NA	NA	NA	NA	NA
AK009_09182	666			hypothetical protein	GTGCGGCGGGATGTTGGTGGCCATGCCGACGGCAATGCCGCCGGAGCCGTTCATCAGCAGGTTAGGCACGCGCGAGGGCAGGATGTCCGGCTCTTTGGTCTTGCCGTCGTAGTTCGGCGAGAAGTTGACCGTGTTCTCGCGGATGTCGCGCACCATCTCCATCGCCAACGGGGTCAGCTTGCACTCCGTGTAGCGCATTGCGGCGGGGCCGTCGTTGCCCGGGGAGCCGAAGTTGCCCTGGCCGTCAACAAGCGGGTAGCGCATGGACCAGGGCTGGGCCATGCGCACCAGGGTGTCGTAGATCGCGGAGTCACCGTGCGGGTGCAGGTTAGCCATCGTCTCACCCACCGGCTTGGCCGACTTCACGTAGGAGCGCTCGGGGCGGTAACCGCTGTCGAACATGGTGTACAGAACTCGCCTGTGCACCGGCTTGAGACCGTCGCGCACGTCGGGCAGGGCGCGCCCGACGATGACGCTCATGGCGTAGTCGATGTAGCTGGTCTGCATCTCATCATTGATGTCAATGGGTTGGATGCGGTCGTAGCCGTCACCAGTGAGGGTGTCGTCGCTCAAAGGCTTACCTTTCTATTTGGTTACTCGGGGCATTTTACCGCGTTGTGCGGGCTTTCGGCGCCGGCGTGCGGTATCAAAGTGGTATGGCTATGA	MRRDVGGHADGNAAGAVHQQVRHARGQDVRLFGLAVVVRREVDRVLADVAHHLHRQRGQLALRVAHCGGAVVARGAEVALAVNKRVAHGPGLGHAHQGVVDRGVTVRVQVSHRLTHRLGRLHVGALGAVTAVEHGVQNSPVHRLETVAHVGQGAPDDDAHGVVDVAGLHLIIDVNGLDAVVAVTSEGVVAQRLTFLFGYSGHFTALCGLSAPACGIKVVWL				NA	NA	NA	NA	NA
AK009_09183	453			hypothetical protein	GTGCGGGTTGCAGCTCTTCCGCCACAGCGCCCAGCGGAAATCACACAAGCAACTGCAGCCACAACAGTAACAAAAGTAACATGCGTAACGCGGCGGCGCCAGCGCTACTCCTTAGTGTTGTTCCACCCAGTCCAAGTAGACCCGGTAGGCAACCTCGGCGAAGCCGTCGTTAGACCCGGTCAGGGGGTGCAAGCGCGAGATCGTGGCGCGAAGGGCCTCTGCGGCGGCGGGTGCCGAATCAAAAACCGGCACCCCGTGCACCCGCGCACCCGGTACCGCGGCCGCAGCGCACAGGGCAGAAAACGACCGCACGCGCATGCCCGCCACCACGCAGTACTCGTCGGCAATGGCGAGGAGCTGCTCCGGGCTAAGGGGTCTCATCGCCGCGTGCCTGCCGGATCCGCGCCTCGGTCGCGGCGTAGGCCGCCGAATGGGTGCGTGCGAGGGCGGTGA	MRVAALPPQRPAEITQATAATTVTKVTCVTRRRQRYSLVLFHPVQVDPVGNLGEAVVRPGQGVQARDRGAKGLCGGGCRIKNRHPVHPRTRYRGRSAQGRKRPHAHARHHAVLVGNGEELLRAKGSHRRVPAGSAPRSRRRPPNGCVRGR				NA	NA	NA	NA	NA
AK009_09184	1359			hypothetical protein	GTGCTCAATCCGCCCGGTTTCGGGGTTGAGGTCCACGTATCCCTTATTTCCCGCCCCGTTTCGGGCATCGTTATTACATCGGTGGTGTTCTCGACAGAACCCGGCGAGGTTTGCAATATCGGTCAAACCGCCGTCTTTGTACGCCAGGATATGGTGCGCCTCCATCTCCATGGCGACCTTGGTGCAACCGGCCCACGCGCATACTCCCTGGATTGCGAGCAGGGTGAGCTTTTGGTGTACCGCTGCCAGCCGAGTCGACCCCATGGAGAGGGGAAGCCCGGTGACGTCGTCGAGCTGGAGGAGGAAGTCGGTGCCGCCGAGTCCGAGGCGGATGGCGTCGAGGGCGGTGAAGTCGGTGCCGGTGTTGGTGGGGAAGGTCGTGGAGTGGTTGGCGCCGAGCAGGTCGTCGAGGGTCAGGGAGAGCACGATCGAGCACACCCCGGCACCGCTTTTCGTCTTGCCGCTCTCGTACGCCCGCGCGATGGCCATGAGCTGGTCAAAACCGCGCTGGGCGCGCGTGCGGGTGTCCTCGGATGCGGGGGCGTAGGTGTTGGTGCCGGGCGCATAACCGGGCTGGATCAGCGCCTTGAGCAGCGCGAGCTCGGCTGCTGGCCCGCTCACTATGAGGCGGGTCAGCCCGTCGCTGTCGGGGTGCCCAAAGGCGACCGAGCGCTTCTTCCAGGCGGCGAAGGGGTCGATCTGGCCGTCGTAGTCGCGCCCGGCTCGATTGGCGCGGCGAACCTCGTCGCGCAGCCAGGTGCGAAGGTCTTCCGGGGTACGCTTCTTTGCCTCGGCGAGCGCTTTGTTATGCAGCTCGTCGAAGCCCGGGTTGGCGTGCTCGTTGAGGTTGCGCAGGCCGTAAGCGATGATCTTCTGCTTCTCGGCGTTGACGCGCGCAGCGTTGCGGCGGGCCTCGGCTCGGGCTTTCGCGGCTTCTGCTTTTCGATGCTCCTCCTCACGCGCCCGCTTCTCTTCCTGCTCTGGATCCGGGGCGGGCTCGCTCGGCGGCTCGGGCACCTCGGGCGGTCCGAAGAGGCGCCTGCCGCGGTGCAGTCGATCCATGGCTTCGCTGCGGGAAAGTCCGAGGACGTCGGTGAGGTTTTGGGTGGCGTGGTTCGCGCCTACGGTAGATCCTGCACCGTCGCGCTCGGCGATGAACGCAAAGGAGGCATCGATGAGCGCGAGCTTTACCAGAGCGGTGTTCAGTCGCTCCATGTCGGCGTGGACGGCGGCGAAGGTGAGATTTTCGGGGGTCGAGAATGTGGCGGAGAGGGTGTCGGTGGCGTTGGCAATGGCGTCGATAAGCAGGGAAAGCTCGGTTCTCATGGCACCTCCTTTCGTGAGATGCCTTTACAGTAG	MLNPPGFGVEVHVSLISRPVSGIVITSVVFSTEPGEVCNIGQTAVFVRQDMVRLHLHGDLGATGPRAYSLDCEQGELLVYRCQPSRPHGEGKPGDVVELEEEVGAAESEADGVEGGEVGAGVGGEGRGVVGAEQVVEGQGEHDRAHPGTAFRLAALVRPRDGHELVKTALGARAGVLGCGGVGVGAGRITGLDQRLEQRELGCWPAHYEAGQPVAVGVPKGDRALLPGGEGVDLAVVVAPGSIGAANLVAQPGAKVFRGTLLCLGERFVMQLVEARVGVLVEVAQAVSDDLLLLGVDARSVAAGLGSGFRGFCFSMLLLTRPLLFLLWIRGGLARRLGHLGRSEEAPAAVQSIHGFAAGKSEDVGEVLGGVVRAYGRSCTVALGDERKGGIDERELYQSGVQSLHVGVDGGEGEIFGGRECGGEGVGGVGNGVDKQGKLGSHGTSFREMPLQ				NA	NA	NA	NA	NA
AK009_09185	189			hypothetical protein	GTGGCGCTCGATGATATCGCCGAACTCGGGCAGAGCGGGAGCGATGATCTTGCCGGCCTTGCCGCGCAGGCTGGCGTACACCTTCTGCGCCGCCGCGGGGCCCTGCTGGGCGAAGCGGTCGCCGAGAGAGAGAACGTCGCGGGTGATCTCCTCTTCGCGCGAGGCGAGGTAGTTGCCAAACCCGGCTGA	MALDDIAELGQSGSDDLAGLAAQAGVHLLRRRGALLGEAVAERENVAGDLLFARGEVVAKPG				NA	NA	NA	NA	NA
AK009_09186	879			hypothetical protein	GTGCCCGAGGTCGCCCTGAAGCTCCTCGACCTTGGGGTGAGCCGTCGGGATGTGCTCGGCCAACGCCTCGGCAGACGCAATGGTGCAGTCCTCGTCGTTATTGAACCGGGTGTAGAGCACCGGCGCGGTGACATTGAGCAGCGCGCTCGTGTAGTCGTTGCCGTCGATGTGGTCGACCAAGTTGGTGCGCGACAGCCTCGCCCACTCCCCCACGTGCTTGCCCGACTGACGCCCGTAGCCGGCGATGTCGAGCCGACCGTCCGGCCAGTACCCCAACACGCGCGACACCGCGGCCATGAACCTCGCGCCAATAAAGAGGCGGCGCTTGGTCGCCGGGTTGAAGGTCTTGTAGTATGGGCTGCCCGTACCCACGCCCATCAGGCCCAGCACGTTGAGGTCGTTGGCCTCGCGGTTTGCAAGGAACAGCGTGCCGATCTGCCCGCCCATCGAGTGCGTCAGGAAGATCACGGGGTGGTCGCTGGGCAGACCGAGGTTATCCTTCGCCGCCTTGATCGTCAGCGGGTAATCCTCCGTGGCCAAGGTGTGGTAGCTCCACGACTGGTTGCGGCTGGCAACCGCTGTGCTCGTTCCCTGTCCGCGAAGCTCGCCGACGGCGGCGGGAAATCCCCTCTCCGCCAGCCATTCGGCGATGGGCCGGTAATAGCGCGCCCCCATGCCGAACCCTGGCCAGATAACAACGAGCGGCTTTTCGCTGTTCGGAGCCGGGTACAGCACGACGGTGCTCGTCGAGTTGTCGGGAAGGGTGATGTCTACGGAGTGAGCCATGGCAAAAGTGTAGACAATCACGCCCCCGCCCGCGCCGAACGGCAACGCTACGTCACGATAGCTTTTCGGTCAGCGGGATCGGCGACCCACTAA	MPEVALKLLDLGVSRRDVLGQRLGRRNGAVLVVIEPGVEHRRGDIEQRARVVVAVDVVDQVGARQPRPLPHVLARLTPVAGDVEPTVRPVPQHARHRGHEPRANKEAALGRRVEGLVVWAARTHAHQAQHVEVVGLAVCKEQRADLPAHRVRQEDHGVVAGQTEVILRRLDRQRVILRGQGVVAPRLVAAGNRCARSLSAKLADGGGKSPLRQPFGDGPVIARPHAEPWPDNNERLFAVRSRVQHDGARRVVGKGDVYGVSHGKSVDNHAPARAERQRYVTIAFRSAGSATH				NA	NA	NA	NA	NA
AK009_09187	399			hypothetical protein	GTGCAGCGCTTGGGCGTAGGCGCCGTAGTGGCGCAGCCGGAGGGCGTCGTCACGCAGCGAGCGCGGGGCCCGGGAGACGTCGACGCCGGTGAAGCGGATGGTCCCGCTCGAGGTGTAGGACTGGCCCATCGCCGCGAAGTCGTCGGCGATCTCCACCCCCGGCGCGTCGGCGGGGATCAGCACCGCGACCGCTTCGCCGCCCTCGTCCGCCGTGACGGCAAGCAAATCCGCGTAGGCGGAGCCGGTGCAAAACCGCTTCTCGCCGTCGAGGCGCCCGTTCGCGATGCGCACCGGGGTCGCGCCGTTGACCTGCGCGTTCGCGATGAGCGCGTCGCCGAACTCCTCGCCGGGGAACCGCCGCGCGAACACCAGGTGGCTCTGCGGGATCTGCGCCAATGA	MQRLGVGAVVAQPEGVVTQRARGPGDVDAGEADGPARGVGLAHRREVVGDLHPRRVGGDQHRDRFAALVRRDGKQIRVGGAGAKPLLAVEAPVRDAHRGRAVDLRVRDERVAELLAGEPPREHQVALRDLRQ				NA	NA	NA	NA	NA
AK009_09188	612			hypothetical protein	GTGCAGGAACCCGCACAAGATCAGGTCGACACCCGCGGCGCGCAGCTCCTCCGCGCGCTCGAGGATGCGCTCCTTCGTGCCGATCAGCCCGGTCTTGAAACCGTCGTTGTACTGCACCAGGTCCTCCAGGCTGGAGTTCGCCCACATGCCCTTGCCGTCGCTGGTTGCCGCGCCAGCGTCCTGCACGGACTTCTTAAAAGTCTTCACCGCGTCGGTGTCAGCGTGCGCGATGATCTCGCGCAGCCGGTCCTCGGCCTCGGCCTGGGTGTCGCCGAGGATGACGAAAGCGTTGACGCCGATCTTGGTCTCGCGGCCGGCCTCCTCGGCGTGCGCCCGCACCTCGGCGATCTGCTCGCGCAGTTCGTCGACGCTGCCGCCGTTGGTGAAGTACCAGTCGGCGTAGCGCCCGCCGTTTCGGCGCGCCGCCGTCGAGGTCCCGCCCTGGAACAGCTCTGGCGTCACGCGCGGGCGGGGCTTCAGGGTGTAATCGCGGATGCGGTAGAAGTCGCCGGCGAACTCAGTCGGTTCCTGGGTCCACAGCGCGCGCAGCACCTGCAGGAACTCGGCGGAGCGCCGGTAGCGCTCGTCGTGGTCGAGCCAGGGCTCGCCTAG	MQEPAQDQVDTRGAQLLRALEDALLRADQPGLETVVVLHQVLQAGVRPHALAVAGCRASVLHGLLKSLHRVGVSVRDDLAQPVLGLGLGVAEDDESVDADLGLAAGLLGVRPHLGDLLAQFVDAAAVGEVPVGVAPAVSARRRRGPALEQLWRHARAGLQGVIADAVEVAGELSRFLGPQRAQHLQELGGAPVALVVVEPGLA				NA	NA	NA	NA	NA
AK009_09189	237			hypothetical protein	TTGCCACAGCCCCGGGTGGACCGCGGCGATGACCTTGAGCCGCTCGGTGGCCTCGAGCAGCGCGAGCGAGAAGCTGACGGACTCGTGCTGGAACTCGGCGGAATAACTCGACAGGTAGCGCACCTGCGTCAGCGCGTAGTCGAACCCGCTATCCTCCGCGTGCTTGGCCAGGCAGCGGTTGTAGTCAATCCCCCAGTCGGTGCGCTGCGCGACGGTCGAGGTGACAAGGCCGCCTGA	MPQPRVDRGDDLEPLGGLEQREREADGLVLELGGITRQVAHLRQRVVEPAILRVLGQAAVVVNPPVGALRDGRGDKAA				NA	NA	NA	NA	NA
AK009_09190	510			hypothetical protein	GTGGAACACGAGCGGACGGTGCGAATCGGTCGCCGCCTCGGCGCGTTCGATGCGCGCGATGGCCAGGATGTGATCGCCCACGTCAACCTCGTCAATCAGCGTCGTGGTGGCGCGCAGCGCAGCCCCCGGCAGGAGGATCGCGGTGCCGTCGGTATCGAAATCGAGGTCGCGGAAGCGCTCGGCAGACGGGCGGTAGAAGTGGTCGAGTGCGCCCCGGTTGGCCTCGGTGAGGATGCTCAGGCCGATGTGCTCGGCGCGGCGCAGAAGGGGCCACGTGGTGGAGGTTTTCTGGATACTGATGCTGACCAGCGCGGGCTCGAGGCTGTGGCCGACGAAGCTGCCGATGATCATGCCGGACGGGGTGCCGTCGACAAGCGCCGCCGCGGAGGCCAGCGGGGTGGGTGCGAGCGCGAGCGCGGTGCGCAGGGCCCGGGTGTTGGAGATCTCGTTCGAATCGGTGTTGTGGCGGGTGGGAAGACTGATGATCATGGGGGTAAGTCCCTTTCGTAA	MEHERTVRIGRRLGAFDARDGQDVIAHVNLVNQRRGGAQRSPRQEDRGAVGIEIEVAEALGRRAVEVVECAPVGLGEDAQADVLGAAQKGPRGGGFLDTDADQRGLEAVADEAADDHAGRGAVDKRRRGGQRGGCERERGAQGPGVGDLVRIGVVAGGKTDDHGGKSLS				NA	NA	NA	NA	NA
AK009_09191	1194			hypothetical protein	ATGATCATGGGGGTAAGTCCCTTTCGTAAGTTAGGCGGTCTTTGCGCTGGCGGCCACAAACGGGATGTTGTGCGGCTCGCGGTTGTCCGTGTTGTCAGGGTGGTTGGCCACGGCGATGCCGAGGCGCTTGAGCTCGGGCACGACACCTTCGCCGACGTGGAAGGTCTCCTCGAGGTGCGGGTAGCCGGAGAGGATGAAGTGGGCGAAGCCGGCGTCGACGTACTGCTTGATCAGCTCGGCGACCTCGGCGTACGACCCGACGAGCGCGGTGCCGGCGCCGCCGCGCACGAGGCCAACCCCCGCCCACAGGCCTGGGTAAATCTCCAGGTCGCGCGGGTCTTGGCCCTCGTGGAAGTCGCCGCCCTGGTTGTGCAGCTGCGTCATCCGGCGCTGGCTCTCCGATTGGGACCGGCGCAGGCCGCTTTGGATCTTCTCGACGTCCTCCGGGCTGATCGTGGAAAGCAGCCGGCCTGCCTCGTGCCACGCCTCCTCCGAGGTCGGGCGCGCGATGATGTGGAACCTGATCCCGTAGTCCAGCGCGCGGCCCTGCTCCGCGGCCGCGGCCTCGACCTTCGCGCGCTTCTCCCCCGCTGCCTCGGGCGGCTCGCCCCAGGTGAGGAAGACGTTGGCGTGGCGCGCGGCCACGTCGATCGCCCCGGCGCTGGAGCCGCCCAGGTAGATCGGCGGCGCTACTTCGGGGCGCCGCGCCAGGCTGGCGCCGTGCGCGGAGGCGAACTCCCCGCTGTAGTCGACCGGGTCCGCGTTGGTCCACAGGTGGCGGGTGATGTCGAGGGCCTCGCCGGCGCGGGCGTAGCGCTGCACTTTGGTCAGGGTGTCGCCGTAGGCGAGCTGCTCGTGGTCCTCGCCACCGACGACGACGTTGAGCAGCACCCGGTTGCCGGACAGCGACTGGAAGGTCGCGGCCTGCTGCGCCAACAGCAGGGGCGAGACCAAGCCGGGCCGGAAGGCTACGAGGAACTTCAGCCTGCGCGTCGCGCCGATGAGCGCGGCGGTGGCCAGCCACGCGTCCTCGCACCACTGCCCCGTGGGGGTGAGCACGGATTCGAACCCGTTGTGCTCGGCCGCGAGCGCGATCTGGGTGAGGTAGGTCAGGTCCGCGTCGCGTTGCCCGATGTGCAGCCCCGCTCCGTGGCCGCCGGGCATGATCATTCGGGAGTCCCCGTAGGTGGGTAG	MIMGVSPFRKLGGLCAGGHKRDVVRLAVVRVVRVVGHGDAEALELGHDTFADVEGLLEVRVAGEDEVGEAGVDVLLDQLGDLGVRPDERGAGAAAHEANPRPQAWVNLQVARVLALVEVAALVVQLRHPALALRLGPAQAALDLLDVLRADRGKQPACLVPRLLRGRARDDVEPDPVVQRAALLRGRGLDLRALLPRCLGRLAPGEEDVGVARGHVDRPGAGAAQVDRRRYFGAPRQAGAVRGGELPAVVDRVRVGPQVAGDVEGLAGAGVALHFGQGVAVGELLVVLATDDDVEQHPVAGQRLEGRGLLRQQQGRDQAGPEGYEELQPARRADERGGGQPRVLAPLPRGGEHGFEPVVLGRERDLGEVGQVRVALPDVQPRSVAAGHDHSGVPVGG				NA	NA	NA	NA	NA
AK009_09192	807			hypothetical protein	GTGATCGAGCAGCGCGGCCAGATCGGGGTCGGTTCGCGCGCGGCGGACGAGGTTGACAAGGTCGCGTTCGTGGGCGGTGCCGAGCAGAGCGGACACGCTGAGCGGGTCGATGCCGCGGGGGCGGGCGAAAGCGTCCAGCGGCGAGGCTTCCACCAACTGGCGGATCAGGGGGGATTGGTGGCCGAGCCGGGGGCGGTGGACCGCGCCGTGGATGATCCACGCGTAGCCGAGCACCTCGCGTGCGTAGACGTAGAGCGACGAAAGGGTGTGCCCCGTCGCGAGATCGGTATGCGCCAGCTCGTAGCCCGCCATCGCCGCCACGCCCGTGCCTATTTCAAGGGTCCACTCCGGGGCGAAGTGCGCGGCCGGGGCGACACGGGAAAAGACCTCGTCGGCAAGTTCGAGCGCGGGTACGGCCTGCCACCCGTAGGTCGCGCTGGTGATGGTGCCGTCGTCGGAAACGTCGGCGGAAAAGGCGAGCCCGATGTGCTTGACCGGTGCGGGAGCATCGGCGGCGAGGCGTGCCATGCGCCAGGCGACCGCTTCGAGGAAGTCCTCCGGCGAGGCTTCGGCGATGTCCAGGGCAACGGATTCCTCGGCGAGGGTGGCGCCCGAGAGGTCCGTGAGGACGACCTGGGTGACGCGCCTGCCAATGTGGGCGCCCACGGCGAAGCGGCCGGCACCGTGAATGTAAATCCCGGCGCTCGGCCGGCCGGCGGGGTCGGCGCCACCATTGGGTTCACCGAAGCGGACCAGACCCGCGGCCTCCATCCGGGAGATCAACCGGGCGGTGGTGGGCTGGGTTAA	MIEQRGQIGVGSRAADEVDKVAFVGGAEQSGHAERVDAAGAGESVQRRGFHQLADQGGLVAEPGAVDRAVDDPRVAEHLACVDVERRKGVPRREIGMRQLVARHRRHARAYFKGPLRGEVRGRGDTGKDLVGKFERGYGLPPVGRAGDGAVVGNVGGKGEPDVLDRCGSIGGEACHAPGDRFEEVLRRGFGDVQGNGFLGEGGAREVREDDLGDAPANVGAHGEAAGTVNVNPGARPAGGVGATIGFTEADQTRGLHPGDQPGGGGLG				NA	NA	NA	NA	NA
AK009_09193	243			hypothetical protein	GTGCTGCGCGTCCTCGACGTCGACACGCCGCAGAATGCGGTGCTCCGGGTCGAGTGTGGTTTCCCACAGCTCGCTCGGGTTCATCTCGCCGAGGCCCTTGTAGCGCTGGATGCCGTCGTCGGTGTTGATCTTGCGGCCGGCCTCCTGGCCTTCGGCGAGCTGCGCGTCGCGCTCGCGGTCGGAAAACGCGTATCCGGGCTCGCCCTTTGCCCACTTGAGCTTGTACAGCGGCGGGTTGGCTAG	MLRVLDVDTPQNAVLRVECGFPQLARVHLAEALVALDAVVGVDLAAGLLAFGELRVALAVGKRVSGLALCPLELVQRRVG				NA	NA	NA	NA	NA
AK009_09194	1101			hypothetical protein	GTGGCCCTGCTCGATGAGCTCGGGCATGAAGCGAAACAGCAGGGTCAGGAGCAGGGTGGCGATGTGCTGGCCGTCGACGTCGGCATCCGCCATAAGCACAATCTTGTGGTAGCGCAGCCGCGAGATGTCGAACTCGTCGTGGATGCCAGTGCCCAGTGCGGTGATGATCGCCTGGACTTCGGCGTTCTTCAGCACACGGTCCATGCGGGCCTTTTCCACGTTGAGGATCTTGCCGCGCAGCGGCAGGATCGCCTGGTACATCGAGTCGCGGCCCTGCTTCGCGGAACCGCCAGCGGAGTCGCCCTCCACGATGAACAGCTCAGAAGCCTTCGGATCCTTCGAGCGGCAGTCGGCGAGCTTGCCGGGCAGCCCGCCCATGTCGCCGGCGGACTTGCGGCGCACGAGGTCGCGAGCCTTGCGGGCGGCCTGGCGCGCCTGGGAAGACGACACGGCCTTGTTGATGATCACCTTCGCCTCGGCCGGGTTGGCGTCGAACCAGTCGGAGAGGTGCTCGTTGACGGCGCGCTGCACGAAGCCCTTGATCTCGGTGTTGCCGAGCTTGGTCTTGGTCTGGCCCTCAAACTGCGGATCGCCGACGCGCACCGACACGATGGCGGACAGCCCCTCGCGGCAGTCCTCACCGGTGAGGTTGGGTTCCTTCTCGCGCAAAAGCTTGTGGTCGCGGGCGTAGCGGTTCATGATCGAAGTCAGCGCGGCGCGGAAGCCCTCCTCGTGCGTGCCGCCCTCGTGGGTATTAATCGTGTTGGCGAAGGTGTGGACGGACTCCTTGAAGCCGTTGTTCCACTGCATCGCCACCTCCGCCTCGTGGTCAGTGCCCTTGGCCTCGAACCCGATCACGGAAGGGTGGATCGGGGTCTTCGACTTGTTGAGGTAGTCGACGTAGTCCATCAACCCGTTCGGGTAGTGGTAGGTGACCTTCTTCTCGCGCTTCTTCTGCACGGCCGGGGCGACCTCGTCGCTGCCGGATTCCTCGACAACGGTGTCGTCAAAAGAATCGCCGTCGACAAGCGCTGCGGTGTCGCCTTCCTCGACGATCGCCTCAAGCTCAAGCTCTTCCTCGGTGACACGCTCGTCCTTTAG	MALLDELGHEAKQQGQEQGGDVLAVDVGIRHKHNLVVAQPRDVELVVDASAQCGDDRLDFGVLQHTVHAGLFHVEDLAAQRQDRLVHRVAALLRGTASGVALHDEQLRSLRILRAAVGELAGQPAHVAGGLAAHEVASLAGGLARLGRRHGLVDDHLRLGRVGVEPVGEVLVDGALHEALDLGVAELGLGLALKLRIADAHRHDGGQPLAAVLTGEVGFLLAQKLVVAGVAVHDRSQRGAEALLVRAALVGINRVGEGVDGLLEAVVPLHRHLRLVVSALGLEPDHGRVDRGLRLVEVVDVVHQPVRVVVGDLLLALLLHGRGDLVAAGFLDNGVVKRIAVDKRCGVAFLDDRLKLKLFLGDTLVL				NA	NA	NA	NA	NA
AK009_09195	393			hypothetical protein	GTGCTTTCCGTCGCGCTTGATGTCGGCCTCGACGCGGGTGGACAGCGCGTTGACCACGGAGATGCCGACGCCGTGCAGGCCGCCGGAGACGGCGTAGGACTCGGAGTCGAACTTGCCGCCGGCGTGGAGCTGGGTCATCACGACCTGGACGGTGGGCGCGCCAGAGGGGTGCATCTCCACCGGAATGCCGCGGCCGTTGTCGACGACCTGGATGCCGCCGTCGGCAAGCAAGGTAACGTCGACGCGGTCGGCGTAACCAGCCATGGCTTCGTCGACGGAGTTGTCCACCACTTCCCAAACAAGGTGGTGGAGGCCGCGTGCGCCGGTGGAGCCGATGTACATTCCGGGGCGCTTGCGTACAGCTTCAAGCCCCTCGAGAATGGTGATCGATGA	MLSVALDVGLDAGGQRVDHGDADAVQAAGDGVGLGVELAAGVELGHHDLDGGRARGVHLHRNAAAVVDDLDAAVGKQGNVDAVGVTSHGFVDGVVHHFPNKVVEAACAGGADVHSGALAYSFKPLENGDR				NA	NA	NA	NA	NA
AK009_09196	606			hypothetical protein	ATGGCTGACCTCGTGAGCTCCACCTTTGAAACCCTGCGCGCCGCGGCTCGGCAGCGGGGCGGCAGTGTTCCTGACCTGCGGCGCCAGGGTCGGTCGGAGGTTCCGCGGCGGGCGCGCGTGGTGTCGTTGAGTGACGGCGTGGAGGGGGCGTCCATACGCGTGCCGGGCCTGAAACTGGACGACGCCGAGCGGAAAACCTGGTCAGGACCGGGAAGGCCCACCGGGCCGGACGGCCGGGCGCTGCCGCGCGGTGTACCGGTCAAGGGGTTCGGCTCGCTGGTTCGCACGGAGATCAAAAAGCGCGCCTGGACGGAGAAGATGGCGTTCGGCTGGGTGATGGGCAACTGGGCGGGCCTCGTCGGCGAGAAGATCGCCCAGCACACCGAAGTGCAAATGATCAAAGATGGCGAGGTGTTCATCAGCTGCGACCAGACGGCCTGGGCGACGGAGCTGAAGTACATGCAGGCCACGGTGCTGTCTGCGATTGCGGACAAGATCGGGCCCGGGGTGATTACGAAGCTGCACGTCTACCCGCCGAAAACCAAAAGTTGGCGCAAGGGACCGCTGCACGTCAAGGGCCGCGGGCCGCGCGACACGTACGGGTAA	MADLVSSTFETLRAAARQRGGSVPDLRRQGRSEVPRRARVVSLSDGVEGASIRVPGLKLDDAERKTWSGPGRPTGPDGRALPRGVPVKGFGSLVRTEIKKRAWTEKMAFGWVMGNWAGLVGEKIAQHTEVQMIKDGEVFISCDQTAWATELKYMQATVLSAIADKIGPGVITKLHVYPPKTKSWRKGPLHVKGRGPRDTYG				NA	NA	NA	NA	NA
AK009_09197	876			hypothetical protein	TTGCGCCACGGCGACGAGGCGCTGGCGGCGAAGCGCATCCAGCTCGGCGAACACGTCGTCGAGGATAAGCACGGGGTGCGAGCCCTCGGAGGCGAGCAGCGCGTACTCGGCCAGGTGCAGCGAAAGCGCGTAGGACCAGGTCTCGCCGTGGCTGGCGTAACCCTTGGCCGGGGTGTCTCCGAGCATGAGCACCATGTCGTCGCGGTGCGGGCCAACAAGCGTGGTGGCGCGCTCGATTTCCTCCCTGCGCCGCCGCGCGAGTTCGGTGAGCATCGCGGCCTCGATAACGCCCGGCTCGCGGCTGGGCTCGCCGGAAAGAGCGCGCACCGCGTCGTCGACGGTAGAGGAATAGGACACGGATGCGGGGCGCGATTCGGGCGCGACCGCCGCGTAGGACTCGGCGATGTGCGGGGTGAGGACGTCGAGAAGCTCAAGCCTGCCCGCGGTGACTTCCGCGCCGAGCCGCGCGAGCTGGAGATCCCACACGTCCAGGGTGGCCAGGGCGCTCGCGCCGGTGTCGTCGCTGTAGCCGCGGCGCAGCTCGTGAGAGGAGCTGCGCAGCAAGGCGTTGCGCTGTCGCAGCACCTTGTCGTAATCCGCCTTCGCCCCGCCGAGGCGCGGGGCGCGCGATGCCGCGAGCTCGTCGAGGAACCGGCGCCGCTCCGCAGGCTCGCCCGCTACCAGCTTGAGGTCTTCGGGCGAAAACATCACGGTGCGCAACACACCGAGCACCTCTCGCGCCGATTTCAGCCTGGTGCGGTTGATTTGGGCCTGGTTGGCTCCGTTGACCTTGATCAACAGGTGGGTTGTCAGCTCCCGGCCGTCGTTGACGGTGGTGACGGACACGCGGGCATCCCCGCACCCGGAGCGGATTAG	MRHGDEALAAKRIQLGEHVVEDKHGVRALGGEQRVLGQVQRKRVGPGLAVAGVTLGRGVSEHEHHVVAVRANKRGGALDFLPAPPREFGEHRGLDNARLAAGLAGKSAHRVVDGRGIGHGCGARFGRDRRVGLGDVRGEDVEKLKPARGDFRAEPRELEIPHVQGGQGARAGVVAVAAAQLVRGAAQQGVALSQHLVVIRLRPAEARGARCRELVEEPAPLRRLARYQLEVFGRKHHGAQHTEHLSRRFQPGAVDLGLVGSVDLDQQVGCQLPAVVDGGDGHAGIPAPGAD				NA	NA	NA	NA	NA
AK009_09198	396			hypothetical protein	GTGAGTTCAGGCCAGGAGCGAAAGTCGCGCAGGTCGAGATCGCGTACGTACACGGGCCTAACCCGGCAGGCGCACGGGCATCAGCAGGTAGGTGAAGTCCGTCGACGGGGTCGGGAACGTACCGTCGGCCTCTGCCTCCGGAAGCTCCTCGGGCTCCGGGATCATGATCGCCGGGCGCGAGGCCTCGGTAAATCCGAAGACGACCCGGCTGGTGCCGATCACGGCCAGGCCGTCCTTCAGGTAGCCGGAGTTAAATGCGATGAGCAGCTCGTCGGCGCCGGAGAACGCGGCGTCGACAGTTTCGCTCGCCTCGCCCGAATCCGCGCCGGAGGCATGCAGGGTGACCTCGCCGTGGCGGAAGTGCATGCGCACCTGCGCGTTGCGGTCCGCGACTAG	MSSGQERKSRRSRSRTYTGLTRQAHGHQQVGEVRRRGRERTVGLCLRKLLGLRDHDRRARGLGKSEDDPAGADHGQAVLQVAGVKCDEQLVGAGERGVDSFARLARIRAGGMQGDLAVAEVHAHLRVAVRD				NA	NA	NA	NA	NA
AK009_09199	660			hypothetical protein	GTGGGTCTTCGGCAGCAGCGGCTGGATGTTTGGGAAGTCAGCATCGAGCATGCGGGTTGTGGTTTCCCGGTTGCCGGAGTGCAGGCCGAAAAGGCCATCGCCTCCGACGTTGCCAGCGGCGCCGACCGCGATCTCGACGGGTTCTTCAACGTGGGTGTCCAAGGTGCGGGCGTTGTCCAACAGGGTTTTCGCCGGAACCAGCAGCTTCGCTTCAACATCGTCGGAGGCGGGCTCCCACTGGAGGCGTCGAATAGCGAGGCGGAAGCGGTCGGTCGCCGTGAGCTGCACGGCGTTGCCCGTGATTTCCATGTGCACGCCGGTGAGCATGGGCAGGGTGTCGTCGCGTCCGGCCGCCGAGGCCACCTGGGTGACCGCCCCGACAAATGCCGACGGGGAGATCCGGCCTGTGACCTCGGGAAGCGTCGGCAGCTGCGGGTAGTCGTCGAGAGGCATCAGCGGCAGCTCGAAGCGGGCGGAGCCGCCCTGGAGCAGCATCTTCGAGCCGTCGGTGGAGACCTCCATCGGCTTGGCCGGCATGTTGGCGACAATGTCAGCCATGAGCTTGCCCGCGACAGCCACGCGTCCGGGCTGGGACACCTCGGCGCCGATGCGGACGCGGGAGGAAACTTCGTAGTCGAATCCGGCGAATTTCAATCCTGA	MGLRQQRLDVWEVSIEHAGCGFPVAGVQAEKAIASDVASGADRDLDGFFNVGVQGAGVVQQGFRRNQQLRFNIVGGGLPLEASNSEAEAVGRRELHGVARDFHVHAGEHGQGVVASGRRGHLGDRPDKCRRGDPACDLGKRRQLRVVVERHQRQLEAGGAALEQHLRAVGGDLHRLGRHVGDNVSHELARDSHASGLGHLGADADAGGNFVVESGEFQS				NA	NA	NA	NA	NA
AK009_09200	552			hypothetical protein	GTGGACAAACCCCGGCTCACGTTCCTAGCGCGTGCGCGCCTGGTTCTTGATCATTTGGGTCAGCACCTGGATCTCGTCGTACGTGCCGCGGTTTTCGGTCATTTCCTTGCGAATCTTGCGGTCGGCGTACATCACGGTCGTGTGGTCCTTGCCGCCGAACTCGTCGCCAATCTTGGGCAGGGAGAGATCGGTCAGCTCCCGGCAGAGGTACATCGCGAGCTGGCGCGCGTGCGCGACCTGCCTGGTCTTGCCGGCGCCGGTGAGCTGGTCCAGCGTTATATCAAAGTACTCAGCGGCTGCGTCCTTGATCGCCGCCGCGCTGATTGTCACTTCGCCGCCGTTGGGCAGCAGGTCGCGCAGCGCGACCTGGGCGACCTCGAGCGTAATTGGCTCGTTGATCAGCGAGGAGTAGGCGGAAACCCTGATCAGGGCGCCTTCGAGCTCGCGGATGGAGGACTCGAATTGCGAGGCGATGAGCTCGAGCACGGCGTGGTCGACGTGGGTGCCGTCGGCGGCGGCCTTCTTCAGCAAAATTGCAATTCGGGTCTCTAG	MDKPRLTFLARARLVLDHLGQHLDLVVRAAVFGHFLANLAVGVHHGRVVLAAELVANLGQGEIGQLPAEVHRELARVRDLPGLAGAGELVQRYIKVLSGCVLDRRRADCHFAAVGQQVAQRDLGDLERNWLVDQRGVGGNPDQGAFELADGGLELRGDELEHGVVDVGAVGGGLLQQNCNSGL				NA	NA	NA	NA	NA
AK009_09201	462			hypothetical protein	GTGGATCTTCGTGCCCATTGCGGTGTAGAGCTCGTCGATCTTCTCCGGGTGCTCCTGCTTCACCTTGGCGAAGACGCGCGCCGGACCCCAGGCTGCCTCCATCGCGGCGAGGTAGTCCTCGGGGAGGTCGCGGCCGTCGTTAAGCACGGCGAGCGACATGGGGACCCACTCGACCTCGATGTCGCGGACCTTTTCCACCTCCTTAATCCAGCGGGAGGTTTGCCAGCAGAACGGGCAGGTTGTGTCGAACCAGAAAGTTACGTGCTCAGTCATGGCCCCCAGCGTAGCGAAACTACAGATATGGGTAGCGTGGATCTCTATGAAGACCAATCTTTCGCGTATCGACGCCCAGGCCCGCGCCGCGCTCATCGCGGACGTGCACTACGACATCCACCTCGACATCACGGGCGAGGACATCTTCACCTCCACCACCACGGTGAGATTTACCTCCACGCAGGGTGA	MDLRAHCGVELVDLLRVLLLHLGEDARRTPGCLHRGEVVLGEVAAVVKHGERHGDPLDLDVADLFHLLNPAGGLPAERAGCVEPESYVLSHGPQRSETTDMGSVDLYEDQSFAYRRPGPRRAHRGRALRHPPRHHGRGHLHLHHHGEIYLHAG				NA	NA	NA	NA	NA
AK009_09202	2571			hypothetical protein	ATGCGAGCAGCTCAAGCTCAGCCACAGCGCGCCGCTGCAGCGCATCGCCCGCCGCGTCCACGTCGACGGCGAGCTCGCGGCGTACGTCACCATCCTGCTGCGCCCCGACGCGGCGCTGCTGCGCGTCGCCTCGGCGCCAGCGTCGGCCTAGCTGCGGGTGGCCGCGGCGGCGTCCACGGCCTGCACGCGCAGAGCGCGCGCCGCGCGGTCGCGGCCCTCGGAGAGCACGCGGCGCAGCCCCGCGGTGAGGTCCTCGCGGGCCAGCAGTGCGTCGGCCTTGGCGACCGCGTCCTCGGAAATGTCCCACATCGGGTAGATGCCCTCCAACGTGCGCTGCGCCATCTCGTTCGAGAGGCGATCCCACAGCTCAGGCGCGATGCGGAAATACTTGTCGCTAAGTCCCTCCAGGCCCTCGTCGTTGAACGTCAAACCGTCGATGAGGTAGCGGATCTCCAGGTTGGAGCGATCGGAGCGGGTGATTTCCTCCCACGCCCAGCGCTTGTTAGCGACCGCCCGCGCGCGCAGCTTCGACACCGCGCCCTCGGACGAGGGATCGTTGACCGCCTCGGCGTCGTCGACGCTGCGGGTGCCGTGGGCGATGAGGGCTGTCAGCGCCAGCCAGCGCAGCTCCTTGTTGTCGGAGTTGTCGAGCAGTTGGGAGAGGTGCGTGGCGGAGGCGTCGTCAAGCGGGAGGCGAGCAAGGGCGCGGTCGAAGATCAGGGCCGGCTCGGTGCCGCGCAGGGCGTCGTTCAGCTGCGCGGTGGCCTCGTCGCGGTAGTCGGGCGCAACGTAGAGTGTGGCCGCGGTCACGGCCTGGCCCAGCAGGCGCTCCTGCACGGTCGGCTGGTCCTCCGTGGCAACGTGGGAGGCCACGAGCTTGATAAACTCACGCGCCGGCAGGCGCCCGTCGCGCGTCGCCTCCCACGCCGCCGACCAGCACAGCGTGCGCGCCATCGGATCCTCGATCGCGCCGAGGTGCTCGAGCACGAAGCTCATGTGCTCCTCGGTCAAGCCCATCAGGCAGTAGGTGAGGTCGCGGTCGTTGACCAGCGCCAGGTCGTGCTTCACGCCGGCAAACTCGGGGACCTCAGTGCGCTCGCCCTCGATGAAGATCTCGGTGTCGTGGGTGCGGGTGACGCGGCCGTCGATAAGCGAGTACAGGCCGACGCCAATGCGGTGGCTGCGCTGCACGTCGGATTCCTGCACCACCGTAAAGGAATCGTCGGTGATCTCCGGGTAGAGCCGCGACACGCCGGTGGTGCGCAGCCACTGCTGCGACCACTGAGACAGGTCGCGCCCGCTGGCCGCCTCGAGGGCACCGAGCAGGTCAGCGAAAGTCGCGTTGTCGAACGCGTGGTTGCGGAAGTGTTCGCGCACCCCGGCGAAGAACTCGTCGCGGCCGACGTAGGCCTGCAGCTGCTTGAGCACGGAGGCGCCCTTGGCGTAGGTGATGCCGTCGAAGTTCTGCTCGGCGGTCTCAATGTCAGGCGCGTCCGCGGCGATCGGGTGCGTGGACGGCAGCTGGTCCTGGGAGTACGCCCAGGCCTTCTCGATGGCGGCGAAGGTGACCCACGCGTTCGGGTACTCGCCGATCTCCGTCTGCGCAATCGCCGAGGCCCAGGTGGCGAACGACTCGTTGAGCCACAGGTCGTCCCACCACTGCATGGTCACCAGGTCGCCGAACCACATGTGCGCCATCTCGTGCAAGATCGTGTCGTTGCGGCGCTCGACCTTGTGCGGGGTCGGCTCGGAAGTGAAGATGTACTCGTCGCGGAAGGTCACCGCACCGGCGTTTTCCATCGCGCCCATGTTGTACTCGGGGCAGAAGATCTGGTCGTACTTGCCAAAGGGGTAGGGCACCGCGAAGTTCTCGTGGAAGTAGCTAAACCCGTCTTTTGTCTGGCGGAACAGGCGCTCGGCGTCGAGGTGCTCAATCAGGCTGGCGCGCGCGTAAAGGCCCAGCTCGATGTTCTTGTGCTCGTCGGAGAAGGTGTCGTGGACGGACTCGTACTCGCCGGCGCACACGGCCACCAGGTAGGTCGACAGCGGGTAGGTGATCTCGCACGACCAGGTGTTGCCACTGCGGGTGGCCTTTTCGTTGAGCACCACGACGTAGCGCTCGGGCGCGGTCACCGAAATGGCGTATGTGGCCTTGATGTCGGGCTGGTCAAAGCACGCGAACACCTTCATCGCGTAGGCCGGCTCGAACTGGGTGTAGAGGTAGTCCTTGCCGTCGGCCGGGTCGGTGAACTTGTGCAGGCCCTCGCCCGTGCGGCTGTAGGCGGAGGTGGCGGTGACCACCAGCTCGTGGGAGCCGGCCTCAAGGACCATGTCTCGCCCGTTAAGCTCCGCGCCGTCGAGGCTGGCGGAAAACGAGTCGGCGACGAGATCAAAGAACGTCTCACCCTGCGTGGAGGTAAATCTCACCGTGGTGGTGGAGGTGAAGATGTCCTCGCCCGTGATGTCGAGGTGGATGTCGTAGTGCACGTCCGCGATGAGCGCGGCGCGGGCCTGGGCGTCGATACGCGAAAGATTGGTCTTCATAGAGATCCACGCTACCCATATCTGTAG	MRAAQAQPQRAAAAHRPPRPRRRRARGVRHHPAAPRRGAAARRLGASVGLAAGGRGGVHGLHAQSARRAVAALGEHAAQPRGEVLAGQQCVGLGDRVLGNVPHRVDALQRALRHLVREAIPQLRRDAEILVAKSLQALVVERQTVDEVADLQVGAIGAGDFLPRPALVSDRPRAQLRHRALGRGIVDRLGVVDAAGAVGDEGCQRQPAQLLVVGVVEQLGEVRGGGVVKREASKGAVEDQGRLGAAQGVVQLRGGLVAVVGRNVECGRGHGLAQQALLHGRLVLRGNVGGHELDKLTRRQAPVARRLPRRRPAQRARHRILDRAEVLEHEAHVLLGQAHQAVGEVAVVDQRQVVLHAGKLGDLSALALDEDLGVVGAGDAAVDKRVQADANAVAALHVGFLHHRKGIVGDLRVEPRHAGGAQPLLRPLRQVAPAGRLEGTEQVSESRVVERVVAEVFAHPGEELVAADVGLQLLEHGGALGVGDAVEVLLGGLNVRRVRGDRVRGRQLVLGVRPGLLDGGEGDPRVRVLADLRLRNRRGPGGERLVEPQVVPPLHGHQVAEPHVRHLVQDRVVAALDLVRGRLGSEDVLVAEGHRTGVFHRAHVVLGAEDLVVLAKGVGHREVLVEVAKPVFCLAEQALGVEVLNQAGARVKAQLDVLVLVGEGVVDGLVLAGAHGHQVGRQRVGDLARPGVATAGGLFVEHHDVALGRGHRNGVCGLDVGLVKAREHLHRVGRLELGVEVVLAVGRVGELVQALARAAVGGGGGDHQLVGAGLKDHVSPVKLRAVEAGGKRVGDEIKERLTLRGGKSHRGGGGEDVLARDVEVDVVVHVRDERGAGLGVDTRKIGLHRDPRYPYL				NA	NA	NA	NA	NA
AK009_09203	195			hypothetical protein	GTGGCGCACCGTCATGCGCGCCACGCCGAACTCCTCGACGAGCTCGCGTTCCGACGGCAGCTTGTCGCCGGGGTTAAGCTCCCGGGCTTCAATGCGGCGGCGGAGTTCCTCCGCGATAATGATGTACATGGGCCTTCGCGCCATCAGACCTCCCTCAACTCAGAGCACGCGATACGCATAAATTCTAATGCATAA	MAHRHARHAELLDELAFRRQLVAGVKLPGFNAAAEFLRDNDVHGPSRHQTSLNSEHAIRINSNA				NA	NA	NA	NA	NA
AK009_09204	1056			hypothetical protein	GTGCGTCATCGTCGCCGGGTGCTCAACCAGGCTCTCCACCCCGCCGAGGGATTCCGCGAGGCAGAACAGCTTGGTGGAGCGGCAGAACGTATGGGCCTGCTGCTCGGTATGGAAAATCACCGATACCATGCCGCCGAAGCGCTTCATCTGGCGCACCGCGGTGTCGTGGTTGGGGTGCGATTCAAGCCCCGGGTAACACACGCGCGCGACCGTGTCGTGGCCCTCGAGGAAGCCCGCCACCGCCTCAGCGTTGTCGCAGTGCCGGTCCATGCGCACCGCGAGAGTCTTCAAGCCGCGGGCGGTGAGGTAGGTGTCAAAGGGAGACGGGATAGCGCCGACCCAGCCGAAGAAGAAGCGCAGCTGCTCCTCCATCTCGGCGCCGTTGGCGCAAACCACGCCGCCGATCACGTCGGAGTGCCCGCCGATGTACTTGGTGGTGGAGTGGACCACGATGTCCGCGCCGAGCTCGAAGGGCTTCTGCAGGTAGGGCGACGCGAAGGTGTTGTCCACCACGAGAGCAGCGTCACCCTTGATCTGCGCAATCGCGCGGATATCGGCGATATCGAGCAGCGGGTTGGTGGGGCTTTCCACCCAGATCGCCTTCGTGTTGTCCTGGACCGCCGCCGCCACCGCCTGGGCGTCAGTCATGTTCACCACGGAGTTGGACACGCCCCACAGCGTGAACACCTGCTGGATCAGGCGGTAGGTGCCGCCGTAGGCGTCGCTGCCGATGATGATGTGGTCGCCGGGTTTGAGCAATACGCGCAGCACGCTGTCAATCGCGGCCATGCCGGAAGCAAAAGCGACGGCGAACTCGGAGCCCTCGAGCGCCGCGACCGTGTCCTCCAGCGCGCTGATCGTCGGGTTTCCCACTCGCGTGTACTCGTACCCATTGCGCGTCACCGCCAGGTCGTCCTGGGCGAACGTGGTCGAGGCGTAGATCGGGGTGTTGATCGGCCCGTACAGGGAGTCGGGGTCGTAACCCGCATGGATAGCATCGGTAGAAAAACCGGAGGGCACTGGGATTGTCCTTTCCTCGGCGAAGCAAAGTCTTGA	MRHRRRVLNQALHPAEGFREAEQLGGAAERMGLLLGMENHRYHAAEALHLAHRGVVVGVRFKPRVTHARDRVVALEEARHRLSVVAVPVHAHRESLQAAGGEVGVKGRRDSADPAEEEAQLLLHLGAVGANHAADHVGVPADVLGGGVDHDVRAELEGLLQVGRREGVVHHESSVTLDLRNRADIGDIEQRVGGAFHPDRLRVVLDRRRHRLGVSHVHHGVGHAPQREHLLDQAVGAAVGVAADDDVVAGFEQYAQHAVNRGHAGSKSDGELGALERRDRVLQRADRRVSHSRVLVPIARHRQVVLGERGRGVDRGVDRPVQGVGVVTRMDSIGRKTGGHWDCPFLGEAKS				NA	NA	NA	NA	NA
AK009_09205	1068			hypothetical protein	ATGACTGTTTACGAAAAATTTTCTAATTCCGCATCCTTCATCCTCGCCAGCGGCGCCGAAAACCCCGCCGTGTCCGAGGCCGTTGACTCCGTAAGCAACTGGTGGCAAGACCCCACCACGCGCGAAAACCTCATCGAGCGCCCGCTCAAGATTGCACTCATTCTGGCCATCGCGTTCGTCGTCCACTTCGTGGTCGCCAGGCTGATCACCCGCGCCGCTGACCGCGGTATCCACCGCCCCGGCGGCACGCTCGGCCTGCGCCGCAGCGTTACCGAACAGGACACACCGCAGGCCAGGGCGCAGGAAGAGCGTCGACAAGCACGCATTCGCACACTGTCCAACGTCGGCCGCTCAGCGGCGGCAATCGTGATCTGGGTGTGGGCGGCGCTGGCGGTTCTCAGCGAGATCGGCGTGAATGTCGCCCCGCTGATCGCCTCCGCCGGTGTCCTCGGTGTTGCGATCGGTTTCGGTGCCCAGTCGCTGGTCAAGGACTTCCTCTCCGGCATCTTCATGCTGCTGGAAAACCAGTACGGCGTCGGCGACACGATAAGCGTCAACGGTGTTGAGGGCACGGTTGAAGAGATGACCTTGCGCGTGACCACGCTGCGCGACATTGATGGCGTGTTGTGGTACATCCGCAACGGCGACATCAACCAGATCGGCAACCAGTCCGACACCTACTCGGTGGCCCGCCTCGAGATCCCCGTCTCACTCACCGCCGAGCCGAAACGCGCAGCAGAGGTAATCGAAGAGTCGTCGCGCGAGGCCGCCAACGCCTCCGCGATTCGCGCGAGCGTGATCTCCGAACCCGAGCTGCTTGGTGTGAGCAACTTCGCCACCGACCACATGACCTACCGCGTCACCGTCAACACCATGCCAGGCGACCAGTGGAGCGTCGCGCGGTCCATGTACGAAGACATCCTCCAGGCGCTCCAGGATGCCGGCATCATGCTGCCAGGCACGCAGCCCGTCGTGATCAAGTACCATCCGGACAACCGCAGAACCGACAACGGTGACAAGGAGTTAGCCAACCATGGACATTTCCCGTCCGGGTCTACACAGCGATAA	MTVYEKFSNSASFILASGAENPAVSEAVDSVSNWWQDPTTRENLIERPLKIALILAIAFVVHFVVARLITRAADRGIHRPGGTLGLRRSVTEQDTPQARAQEERRQARIRTLSNVGRSAAAIVIWVWAALAVLSEIGVNVAPLIASAGVLGVAIGFGAQSLVKDFLSGIFMLLENQYGVGDTISVNGVEGTVEEMTLRVTTLRDIDGVLWYIRNGDINQIGNQSDTYSVARLEIPVSLTAEPKRAAEVIEESSREAANASAIRASVISEPELLGVSNFATDHMTYRVTVNTMPGDQWSVARSMYEDILQALQDAGIMLPGTQPVVIKYHPDNRRTDNGDKELANHGHFPSGSTQR	PGPT0013695_1469	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
AK009_09206	228			hypothetical protein	GTGGCGCTTGCGCAGCATGGGGCGCCCGCGCCGCTCGTTGAATGTGTGCGGCCCGCCCCAGTACTGCACGAGGAACCAGCGCAGGCGGTCCTCGGCGCCGTCCCAGTCGTCGTCGGGGTACATCGGGCCGATGAGGTCGTCGCTTTTGACGCGGGTGTAGAAGCCATGGACGAGTCTGCGGAAGAAGTCCTCGCCCAAAAGCTCGTAGAGCGTTTTATCGCTGTGTAG	MALAQHGAPAPLVECVRPAPVLHEEPAQAVLGAVPVVVGVHRADEVVAFDAGVEAMDESAEEVLAQKLVERFIAV				NA	NA	NA	NA	NA
AK009_09207	366			hypothetical protein	GTGCAGCACCTCGGCGGCGAGGTCGCGGGCCTGCTCGGGGGTGCGGATCGGGGAGCGGCGCGGGCCAAGCGCGAAGCCGGGGATGCCGGGGACGCGCAGGGTGCAGTCGATGTCCATGCACACGCGCACGGGCCCGGCGCCGGCGGCGGCAGCCACCGCGAGGTCGAGGTGGTCGACGGAGTCGACCATGATGGTGATCTCGCGGCGCAGCGCCTCATCGGCGGCGAGCTGCGCCAGCGCCGCGGTGTGCACGCTGGGGTAGGCGACGACAATGTCTGTGAAACCTTCGCGCACGAGGTTGATTGCCTCGGGCAGGGTGTAGGCGAGGATGCCGCGGTAGCCTTCGTGGTTCAGGGCTCGTCGTAA	MQHLGGEVAGLLGGADRGAARAKREAGDAGDAQGAVDVHAHAHGPGAGGGSHREVEVVDGVDHDGDLAAQRLIGGELRQRRGVHAGVGDDNVCETFAHEVDCLGQGVGEDAAVAFVVQGSS				NA	NA	NA	NA	NA
AK009_09208	489			hypothetical protein	GTGTTCGGCTCATCGCAGGGTCCATCCTTGTCTTCTGTAGGTGTCCCACTCGTGGTGGGTGCCATCCGCATCAACCGCGATCATGCGGTCGACGTGCTCTGTCATCTCGCCGGCCTTCGCGTGGCGGAACCAGACCGGATCGCCGATGCGCAGCTCGCGCGCCGCGCTGCCGTGCAGCGGGGTCTGCACCTCGCCCGCGCCCTCGGTAGCGGAGTAGCCCAGCCCCGGCGGGTAGACGGGCACGGGCACCCGGTCGGCGCCGGGCGGGCCGGAGGCGATCCAGCCGCCGGAATTGACGGTGGCCCAGCCCGGCGCGGGCAGGCGAGAGACCTGGCAGACGAAAAACGCCGCCGGGACGTGGTCGATGTCGGAGAAGTTGTCGAAAATAACCGGAGTGTAAAACCCGGAGCCGGCAGCGAGCTCCGTCAGCGAGTCGTCGACGGCACTGACATCGAGCGAGCCGGTGCCCCCGCCGTTGACGAACTCTAA	MFGSSQGPSLSSVGVPLVVGAIRINRDHAVDVLCHLAGLRVAEPDRIADAQLARRAAVQRGLHLARALGSGVAQPRRVDGHGHPVGAGRAGGDPAAGIDGGPARRGQARDLADEKRRRDVVDVGEVVENNRSVKPGAGSELRQRVVDGTDIERAGAPAVDEL				NA	NA	NA	NA	NA
AK009_09209	366			hypothetical protein	GTGGGTCGAGGTGGAGATCGCGCCCGCGATCGATTGGGTGTCGATGTCTCCCTGGTTGGCCAGTGCGAGGCCGAAGGGGGCGAGGAGCTGCGGGACGTGGTGCAGGCGGGTGCCGGCGAGGAAGCGCACGCGCTTGCGGGCGCGGTCGACTTTCACGACGCCGGAGAGGTTGTCCAGGCTCATCATGTCCTGCTCGCCGGCGGCGACGGGGGTAAAGGAGTGGCCGCCGCCGACGGGCCGGATGCTGCGGCCCGCGGGCAGGCTGCTTACGATGGCCGCGACCTCATCGATCGTGGCGGGGTAGTGGACGCGATCGGGGTGCGTGGTCACCGACCCAGCCCAGTTTCGGAACTTCCCATTCTTTAG	MGRGGDRARDRLGVDVSLVGQCEAEGGEELRDVVQAGAGEEAHALAGAVDFHDAGEVVQAHHVLLAGGDGGKGVAAADGPDAAARGQAAYDGRDLIDRGGVVDAIGVRGHRPSPVSELPIL				NA	NA	NA	NA	NA
AK009_09210	867			hypothetical protein	GTGCGCGGAGCCAAACACCCAGTTCGGGTCCATCGCTTCGCGCAGGGCGCAGAACTCATCGAAGCGCGGGTAGATCTCGGAGAAGTCCGCCCGCCCCATCGTGTGCATCTTGCCCCAGTGCGGGCGCCCGCCGGCGGCGCGCAGGATCTCCTCGAAGCGCGGGAAATAGTTCGCCGGGTTCATCGCCTTGGGCACGTGGATCGCGATGTACATCGACTCCCGGCCCGTCGAGCTCGACAGGGCGACCTCGTCGGCGGCGGTGGAGCGCAGCTCGAAGGGGAAGGGGATCAGCCAGCCGCGGTCATCGATTTCTCGTTGCAGCTCGCGCACGATCCCGGGGCCGTCGGCAAGCGGCACGGCGAACTCCATCTCGTGGAAGCGCACGCGCCGCGGCGAGGCGAAAACCTCGTGGGCGCGCGAGCGGTAGGTGGTCGCGCCCATCGCGGCGACGGAGATCGCGTTGAGCCGCGGGATGGCCGCGGGCACGCGGCGGGTGAACGCCAGCGAGGCGGCGAACACGCCGTTGCCGATGACCTCCTCCTCAAAGGCGCGGGTCAGCCAGGTGCGCGGGCGGGGCTCACCGTCCGGTGCGGGGGCCGTTGGCTCGAGGCTGGTGTTGCTCTTGACCATCGCGCGGTCGGTGTGCGGGAACCAGAAGGCCTCGTAGTGGTCGACGGCGCGGGTGCGCTCCTCCCAGGTGTCGAGGACCTCGGTGAAGTCCTCGGCGCCCTCGACGGCGAGCAGGTCAAAGGAGTCCACGCACTGCATCTCCACCTCCACGATTATGCCGAGCGCGCCCAGCGACACCGTGACCAGGCGAAGCGCATCGGGGTCGTCGTCGAAGGCAAAGGAGTGGAGGTTGCCTGA	MRGAKHPVRVHRFAQGAELIEARVDLGEVRPPHRVHLAPVRAPAGGAQDLLEAREIVRRVHRLGHVDRDVHRLPARRARQGDLVGGGGAQLEGEGDQPAAVIDFSLQLAHDPGAVGKRHGELHLVEAHAPRRGENLVGARAVGGRAHRGDGDRVEPRDGRGHAAGERQRGGEHAVADDLLLKGAGQPGARAGLTVRCGGRWLEAGVALDHRAVGVREPEGLVVVDGAGALLPGVEDLGEVLGALDGEQVKGVHALHLHLHDYAERAQRHRDQAKRIGVVVEGKGVEVA				NA	NA	NA	NA	NA
AK009_09211	201			hypothetical protein	GTGGTAGACGGTGCCGAAGGGGGCGTCGACACGCACCCAGCGCCCCGCCGTGGAGATCCGCAGGTGACGGGGAACCTCGACGGGTGCGGCGAAGCCGGGGATGAGCCCGAGAGCGGTACACGTGAATATCATGCGCATCGGGATTTCCACCGGGGACCCGGAGTCGGCGTCGGCGGTGAGCACGGTCTGGTTCAGCAGTGA	MVDGAEGGVDTHPAPRRGDPQVTGNLDGCGEAGDEPESGTREYHAHRDFHRGPGVGVGGEHGLVQQ				NA	NA	NA	NA	NA
AK009_09212	264			hypothetical protein	GTGGCGCACAACGGTGACGGGGACGACATCGCGCTCGCTGAAACCTTCGCGCGGGGGCAGGGCTCCTGGCCAATTGGGGTCGCGCGCTGTGCCCACGCGGGCCACCTCCGCCTGCAGGGCGTTGAGCAGGTCGCTCGCGGCCACGGCCGCGCCGTCGCGGGACGCCACACCGACGATGCGCCGGGAGGCGACGCAGTCGAACGGGGTGGTGACGAAGACGTCGACGTGGTCGTCGTCACGCTGGGCAAACCGCGCTGTCGCTGA	MAHNGDGDDIALAETFARGQGSWPIGVARCAHAGHLRLQGVEQVARGHGRAVAGRHTDDAPGGDAVERGGDEDVDVVVVTLGKPRCR				NA	NA	NA	NA	NA
AK009_09213	1647			hypothetical protein	GTGCCGGTCGATGATGTCCTGGCGCGTGGTAAACGAGGTGTTACCCACCTTGATCACCTCGGTGCGCACGAGGATCTCCGTGGTGTCCGGCATGACGGGGCGGGTGAAGTCGGCCTCAATGTGGCGCACGAACACCTGGAACGAGCCCGAGGTGCCGAAGAACTCCGTCGCAAACGCCAGGCGCGCCTCCTGGGCGTACTCGATGTAGACGGCGTTGTTGACGTGGCCGTAGCGGTCGAAGTCGCCCCAGCGAACCGGCAGGCGGAACTCGTGGGTCTTGGTCGTGGAAGTGGTCTCAGTCATACGTCCTCCTCGTCTCGCGGCTCTTTTTTGAAGAGCCGGTGGTTCTTAGCGGGTCAGCCTGCGGTGGGTGACGCGCGAAGGCTTCGCGGCCTCCTCACCGAGGCGCTCGACCTTGTTCTTCTCATAGTCGCCGAAGTTGCCCTCGAACCAGAACCACTTGCCTTCCTCGATGTTGCCCTCCCACGCGAGGATGTGGGTGCAGGTACGGTCCAGGAACCAGCGGTCGTGCGAGATGACCACTGCGCAGCCCGGGAACTTCTGCAGCGCGTTCTCCAGCGAGCTGAGGGTTTCCACGTCGAGGTCGTTGGTCGGCTCATCGAGCAGGATCAGGTTGCCGCCCTGCTTCAGCGTCAGCGCCAGGTTGAGGCGGTTGCGCTCACCACCCGAGAGCACCTTCGACGGCTTCTGCTGATCCGGGCCCTTGAACCCGAATGCGGACAGGTAGGCGCGCGAGGGCATCTCGTTTTGGCCGACGTGGATGTAATCCAGGCCATCGGAGACAACCTCCCACACCGTCTTTTCCGGGTCGATGTTAGCGCGGTTCTGGTCCACGTAGGACAGCTGGACCGTCTCGCCCACCTGGACCTGGCCGGCGTCCGGCTGCTCGAGCCCGACGATGGTCTTGAACAGCGTGGTCTTGCCCACGCCGTTCGGGCCGATCACGCCGACGATGCCGTTGCGCGGCAAGGTAAAAGACAGGTCGTCGATGAGGATGCGCCCATCGAAGCCCTTCTCCAGGTTGGTGACCTCGACGACCTTGTTGCCCAGTCGCGGCGGGGTCGGAATCTGGATTTCTTCGAAGTCGAGCTTGCGATACTGCTCGGCCTCGGCAGCCATCTCCTCGTAGCGCTCCAGGCGAGCCTTGTTCTTCGCCTGGCGGGCCTTCGGCGAGGAGCGCACCCAGTCCAGCTCGTTCTTCAGGCGCTTCTGCAGCTTCTGGTCCTTCTTGCCGCTGACCTCGAGGCGCTCCGCCTTCTTCTCCAGGTAGGTGGAGTAGTTGCCCTCGTAGGGGTAGAGCTTGCCGCGGTCGACCTCGCAGATCCACTCGGCGACGTTATCCAGGAAGTAGCGGTCGTGTGTGATCGCCAAGACGGCACCCTTGTAGTCCTGCAGGTGGCGCTCCAGCCACAACACGCTCTCGGCGTCGAGGTGGTTGGTGGGCTCGTCGAGAAGCAGCAGGTCCGGCTCGGAGAGCAGCAGCTTGGCCAGGGCGACGCGGCGGCGCTCGCCACCGGAGAGGTGGGTCACGGGCGCGTCGGACGGCGGGCAGCGCAGAGCCTCCATGGCCTGCTCAATCTTGGAGTCGACCTCCCACGCGTCGGCGGCGTCGAGGGCTTCCTGTAG	MPVDDVLARGKRGVTHLDHLGAHEDLRGVRHDGAGEVGLNVAHEHLERARGAEELRRKRQARLLGVLDVDGVVDVAVAVEVAPANRQAELVGLGRGSGLSHTSSSSRGSFLKSRWFLAGQPAVGDARRLRGLLTEALDLVLLIVAEVALEPEPLAFLDVALPREDVGAGTVQEPAVVRDDHCAARELLQRVLQRAEGFHVEVVGRLIEQDQVAALLQRQRQVEAVALTTREHLRRLLLIRALEPECGQVGARGHLVLADVDVIQAIGDNLPHRLFRVDVSAVLVHVGQLDRLAHLDLAGVRLLEPDDGLEQRGLAHAVRADHADDAVARQGKRQVVDEDAPIEALLQVGDLDDLVAQSRRGRNLDFFEVELAILLGLGSHLLVALQASLVLRLAGLRRGAHPVQLVLQALLQLLVLLAADLEALRLLLQVGGVVALVGVELAAVDLADPLGDVIQEVAVVCDRQDGTLVVLQVALQPQHALGVEVVGGLVEKQQVRLGEQQLGQGDAAALATGEVGHGRVGRRAAQSLHGLLNLGVDLPRVGGVEGFL				NA	NA	NA	NA	NA
AK009_09214	399			hypothetical protein	ATGTGCCCTGTTGATGGAAACAATTCTCCACTTAGGGTACATCACGGGGCGGAATCGGCCCCGCTAGAAGGGAGCCTCCTCGCCGTCGACAGCCGCGTCGGCGAAGCTCAGCCCGGAGTCGCTGCGCACCGGGCTGCCCTGGCCAACGAGGTCCTCGGCGCTGCTGCGCGTCGGCGTCGTCTCCGGGGCGAGGTCCTCGCCGGTCTTCAGCGCCACCGGTGCCATGCCCTCCGGCGTGTTCGACTGGTTGGTCGTCTTCTGCGAGGACACCTGGTAGTTGCCCAGATCGAAAGCAACCTTGGAGGCCTTGAGCAAAATCTTCTGCCGCGTGGCCGGTTTGCCGTCCTCGTCGAACTGCGTGGGATCGGTCCAGGAGTCCGTGATCAGGGACCCGATTAG	MCPVDGNNSPLRVHHGAESAPLEGSLLAVDSRVGEAQPGVAAHRAALANEVLGAAARRRRLRGEVLAGLQRHRCHALRRVRLVGRLLRGHLVVAQIESNLGGLEQNLLPRGRFAVLVELRGIGPGVRDQGPD				NA	NA	NA	NA	NA
AK009_09215	222			hypothetical protein	TTGCCAGATCGGGCGCTGGTTCTTGTCGAGCTCATCGGTGCGGAAGCGCCGGGACGAGGCGACGCGGAATTTGGTCAGGTACTTGTTGCTGTCGAAGTGCAGCATCTCTGGTTCGAAGATCAGGTTCCCGGAAACGGTAATGTGCATCTGGCTCACGAGAGAGCCCCCTTTTTTTTCTCGTTGGTGGCGTGTGCTGACGCGCGGCGTTTAACCCCGCGGTAG	MPDRALVLVELIGAEAPGRGDAEFGQVLVAVEVQHLWFEDQVPGNGNVHLAHERAPFFFSLVACADARRLTPR				NA	NA	NA	NA	NA
AK009_09216	930			hypothetical protein	TTGGGTATATTGCGCGAGCATCTCGTTGTAGCGGCGCCATTCCTCGTCATCCGTCTCCTCGGCGCGCCGGTCCAGCTCGCGGGTCTCGGTCTTATCCTCGCGCCACCACAGGTAAAACAGAACGGCGAACACGACGGTCAGCGGGAACGACCCCGACGCCCAGGCGATGCCGCCGCCGGCCTTCTGGTCTGCGAGCAGGTCCGGACCCCACGGCAGGCTCAGCGAGTTGTAGAAGTCTTCGCCCATGATCACGCCCAGCTGCATGAGGTAAACACCCATGAACAGGTGGATCGGCATGGACACCCACAGCCACGCAAGCCGCACCTTCGCGCTGGCGCGCCCCTCGATGTGGTCTGGTCCGATGAGCTCCCAGAAGTAGAAGTACCCGGAGAGCAGGAACACCCCGTTCATGATCACGTGGCCCGCGTGCTCGGAGATCATCAGCTCGTAGAGCGGGATGGAGATGTAAAGGATGTAGAAGAAGAAGACGAACTGCGCCAGCGACACCGGCGGCCACGTAATCACGCGCAGAAACCGCGAGCGCTGGAAGGATTCCACCCACATGCGCGGGTTGAACTCTCCGGCCGGGTACGCGGCCGCAACCAGGGTCAGCGGCGCGCCGAGCACGAGCAGAACGGGCACGGCCATGGACAGGATCATGTGCACGATCATGTGCGCGGAGTACGACGCCGGCATGTGCATGCCCACGCCCGAGGACAGGGTGACCACGATCGTGGCGCAGCCGAGGAGCCACCACGCGGTGCGCGTGTGGCGCCAGCCGTCCACGCGGCGGACAAGGTGCAGGTAGTAGAGCGCGAGCAGCAGCGCGATGACGCTGTAGAGCAGCTCGAAGCGCCACTGGCCCAACCAGTTAGTCACGGTCAGCGGCTCGTTGAGGTTGTAGCCCATCTGCAGCTCCATCTCGCTTAG	MGILREHLVVAAPFLVIRLLGAPVQLAGLGLILAPPQVKQNGEHDGQRERPRRPGDAAAGLLVCEQVRTPRQAQRVVEVFAHDHAQLHEVNTHEQVDRHGHPQPRKPHLRAGAPLDVVWSDELPEVEVPGEQEHPVHDHVARVLGDHQLVERDGDVKDVEEEDELRQRHRRPRNHAQKPRALEGFHPHARVELSGRVRGRNQGQRRAEHEQNGHGHGQDHVHDHVRGVRRRHVHAHARGQGDHDRGAAEEPPRGARVAPAVHAADKVQVVEREQQRDDAVEQLEAPLAQPVSHGQRLVEVVAHLQLHLA				NA	NA	NA	NA	NA
AK009_09217	393			hypothetical protein	GTGCGCGTAGCCGAGCAGCCCCAGCACCAACAGTGCGACTGTCTTGGCGATGAGCACAAGCCCGTAGTTGTACTGCAGCAGGTCCTCGGGCCGCACGCGTATCGACGCATTAATCAAGCCCGAGATCAGCATGACCAAGAAGGAAAACAGCGCCACCTGCGAGTAGCGGCGCGCGGCGCTTTCCAGGTGCGGCCCCAGCCGACGCCCGTAGGCGACGAGCGCCATGAGCGCGCCGATCCACAGCAGCATGAACACCAGGTGCCAGAGGAAGGAGTTCGTGCCGTAGTCGTGGTCGCCGCCGGTGGCGGAGTGGCCCGTCAAACCCAGCGGCATAATCGTGACCAGAGAGCCGATCAGCAGCGCAACCTGCGCCCACCAGGAGTGGGCGGTTAG	MRVAEQPQHQQCDCLGDEHKPVVVLQQVLGPHAYRRINQARDQHDQEGKQRHLRVAARGAFQVRPQPTPVGDERHERADPQQHEHQVPEEGVRAVVVVAAGGGVARQTQRHNRDQRADQQRNLRPPGVGG				NA	NA	NA	NA	NA
AK009_09219	1197			hypothetical protein	ATGGGTAGCGCTTCGGGTAAAGGCCTAAATCTCGTGCATTTCCTTGTTCACCGTTTCGGGCGCCCACACGATGGCGGCGAGCGAGATGGCGGTGACCACGGCGAGGTAGACGCCCACCGCCTGCGGGCCATAGGAGGCGTTGAGCGCAGTGGCGATAAAGGGAGCGATGGCAGCGCCGAGGATGGACGAGACGTTATAGGAAACGCCCGATCCCGTGTAGCGAACGTTGGACGGGAAGAGCTCCGGCAGGATGGCGGACATCGGCCCGAAAATCATCCCCATCAGGACCATTCCGAGGAACAGAAAGACCCCAAGAGAGATCATGGTGAAGCTCTCCGGGTTGAGCAGCCAGCCAAAGCTCAGGCCGTAGATGATGATGGCCACGGAGGTCAGGCCAAGCACGGGGCGCCGGCCGTAGGTGTCCGCCAGGCGGCAGGCAACCGGGATGCCGAGCATGAAGCCGAAGATGCAGACGAGCTGGAGCTTGAGGAAGTCGACGTAGGGGATACCCAGGCCAACCCCTTCGGCGGCCGAGCCAATGCCGTAGGAGAGGAACCAGGTGGTCACGAGGTAGAACAGCGTGTAGCAGCCGACCATTATGAAGGTGCCCTGGAGAAGCGGCCGCCACGCCTTAGCGAACACCTCGGACAAAGGGGAGGAGACTTTCTGGTCGGTCTCGATCACCTGCTGGAACACCGGGGTCTCCTCGATCTGCAGGCGCACCCACAGCCCGACCGCGACCATCACGGCGGACATGAGGAAGGGCACGCGCCAACCCCAGGTCATGAACGCGCCCTCGAGGTCGCCGGTGGAGTGGCCCAGCCAGGTGACCAGCACGAGGAAGAACCCGTTGGCGAGCAGGAATCCGAACGGTGCACCCAGCTGCGGCCACATCGCGGCCCAGGCGCGGCGACCCTTCGCGGCGGTTTCGGTGGACAGGAGCGCCGCCCCCGACCACTCGCCGCCGAGCCCGAGGCCTTGGCAGAAGCGCATCAGCGCGAGCAGCGCCGGGGCCCAGATGCCCACTTGTGCGTACGTGGGCAGAAGGCCGATGATGAAGGTTGCGATGCCCATGGTGAGAAGTGCAAAGACGAGGGTTGCTTTACGCCCGACGCGGTCGCCGAAGTGGCCGAAGACGATCGAGCCGAGGGGCCGGGCGATGAACGCGAGGCCGAAGGTGGCGAAGGACTGCAGTAG	MGSASGKGLNLVHFLVHRFGRPHDGGERDGGDHGEVDAHRLRAIGGVERSGDKGSDGSAEDGRDVIGNARSRVANVGREELRQDGGHRPENHPHQDHSEEQKDPKRDHGEALRVEQPAKAQAVDDDGHGGQAKHGAPAVGVRQAAGNRDAEHEAEDADELELEEVDVGDTQANPFGGRANAVGEEPGGHEVEQRVAADHYEGALEKRPPRLSEHLGQRGGDFLVGLDHLLEHRGLLDLQAHPQPDRDHHGGHEEGHAPTPGHERALEVAGGVAQPGDQHEEEPVGEQESERCTQLRPHRGPGAATLRGGFGGQERRPRPLAAEPEALAEAHQREQRRGPDAHLCVRGQKADDEGCDAHGEKCKDEGCFTPDAVAEVAEDDRAEGPGDEREAEGGEGLQ				NA	NA	NA	NA	NA
AK009_09220	405			hypothetical protein	ATGTGCCGCGATCTCGCGCAGCACCGCGACATGGCCGTCGAAGGCCTCCTTGCCCGCGCGCGTGAGCGTGACCCACACGGTGTCCTTGGCGTGGGTGGAGCCGTATTCGCGGAAGCGGGTGATGTAGCCGTGTTCTTCGAGGGCGGAAAGCTGCTTGGACAAGGTGGTATCGGAAAGCCCGGTGACCTCGCGCAGGTGGGCGAAACGCATCTCGTAGCGCACTTCGCCTTCGGTAGCTCCGGCGGCGGACAGCGCGGCGCAGATTTTCAGCCGGCCCACGGGGTGGATGACGGGATCAAGCTGCACGGCCGCTCCATTCCCACCAGTACAAAACTGCAAACGCTGCGGCGGAAACCACCCCTGCGACGATCGCCCAGGTCAATGGCCTCTTGGGTAGCCAGGTGA	MCRDLAQHRDMAVEGLLARARERDPHGVLGVGGAVFAEAGDVAVFFEGGKLLGQGGIGKPGDLAQVGETHLVAHFAFGSSGGGQRGADFQPAHGVDDGIKLHGRSIPTSTKLQTLRRKPPLRRSPRSMASWVAR				NA	NA	NA	NA	NA
AK009_09221	756	crt_3	COG1024	Short-chain-enoyl-CoA hydratase	GTGGATACAACGACGGTGAGACTTGAGCGAAACGAAGCGGTGGCAACGCTGACCATCACATCCAAGATGGGAGCAATGGGCCGGGCGTTTTGGGAGGAAGTGCCGCACGTGCTGGCCACCTTGGGTGATGCCCGGGTGCTCGTGCTGCGAGGCGTTGAAGTCTTCAGCGCCGGGCTGGACGTCAAGGACAGCGCTGAGCAGATTGTGCCGGCGCTGGGGAATCCGGAGAAGTTCACGGCGGTGGTGGACCGGATGCATGCCGTCACCGAGGGGGTGGCGGGGCTGCCGATCCCCGTTGTCGCCGCCGTGAACGGGTGGTGTGTCGGCGCGGGCCTCGAGCTCATCGCCGCCGAGGACATCCGTCTGTGCAGCTCCGATGCCCGTTTTAGCCTGCCGGAGGTCAAGCTGGGTATCACCGCCGACCTCGGCGGATTGCAGCGCCTCCCGCACATTGTTGGGCGTGGTCGCGCGGCGCACCTCGCCTTAACCGGCGAGCCAATCGACGCCCGCACCGCCGAATCCTGGGGACTGGTCACCGAGGTGCTAGGTAGCCCCGAGGCACTCTTTGCGCGGGCGGAAGAACTGGGCCAATCCCTCGCCGGATTGCCGCCAAAGGCGCTCGAAGGCACGAAGCGCACGCTTGTCGACGGCCTTGACCACAACAAGAGCATGAAAAACGCGGTGTTGTGGAACGCCCAGCATGTCAGCGTGGACAACCTGCAGGAAGCACTGTTCAAAAACAGCACTGACAGGTAA	MDTTTVRLERNEAVATLTITSKMGAMGRAFWEEVPHVLATLGDARVLVLRGVEVFSAGLDVKDSAEQIVPALGNPEKFTAVVDRMHAVTEGVAGLPIPVVAAVNGWCVGAGLELIAAEDIRLCSSDARFSLPEVKLGITADLGGLQRLPHIVGRGRAAHLALTGEPIDARTAESWGLVTEVLGSPEALFARAEELGQSLAGLPPKALEGTKRTLVDGLDHNKSMKNAVLWNAQHVSVDNLQEALFKNSTDR	PGPT0001860_7372	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
AK009_09222	2199			hypothetical protein	ATGAGCTTCAAGCTTAGCGACGCCTCGCCCACGCCGCCGTCACAGCGACGCAGCCAACCGGGTGCCCTGGTCGATCGCGCGCTTGGCGTCCAGCTCCGCGGCCACGTCCGCGCCACCAATCAGGTGGGCTGTGATACCGCGGGCGAGCAGCTCGTCGTAGGGCTCGCGCAGCGACTCCTGGCCGGTGCAGATCACGACGTTGTCCACGTCCAGCGTGCGCTCTTCGCCGTCGACCGTGATGTGCAGGCCGGCGTCGTCAATGCGGCGATAGGTCACACCCGGCAGCATCTCCACCCCGCGGTGCTTGAGCTCGGTGCGGTGAATCCAGCCGGTTGTCCGGCCCAGGTTCTCACCGAGTTTCGAGGACTTGCGCTGCATGAGCGTCACGCGCCGCGCCGGACGCTCCCGCTCGGGCGCTTTCAACCCTCCGGGGTTGGTGTAGTCCGTATCCACGCCCCACGCGTCGAAGAATGCCTCCGGGTCCCGGCTAGTGTCGCGCTCGGGCTCAGTGAGGAAGCTCGCAACGTCGAAGCCGATGCCGCCCGCGCCCAAAATCGCGACCTTGTCGCCCACCTCCGCGCGCTCGCGCAGGACGTCGAGGTAAGTCAGCACCTTCGGGTGATCGAGGCCCTCGATCTCCGGCACGCGCGGGGTCACGCCCGTGGCCACAACAACGTCGTCGTAGCCCTCCAGGTCGTCGGCGCTCACGCGGGTATTCAGGCGCACGTCGACGCCCTCGGCCGCGAGCATGTTGGTGAAGTACCGGACGGTTTCGTCGAACTCCTGCTTGCCCGGGATTCGCCTCGCGATGTTGAGCTGGCCGCCCACGGTCGGGGAGGCGTCGAAAAGCGTGACGGCGTGGCCGCGCTGGGCCGCGGTGACAGCGCACGACAATCCCGCCGGGCCCGCACCGACAACCGCAATGCGTTTCGGCGCCTCGGCCGGGGTGACCACCAGCTCGGTCTCGTGGCCCGCGCGAGGGTTGACCAGGCATGTTGCAACCTTCATGGAGAAGGTGTGGTCCAGGCATGCCTGGTTGCAGGCGATGCACGTGTTAATCAAGTCAGCGTTGCCGGCGGCGGCTTTGCCCACGAACTCGGCGTCCGCGAGGAACGGCCGCGCCATGGACACCATGTCGGCGTAGCCCTCGGCGAGCAGCTCTTCGGCCTTGTCGGGGGTGTTGATCCGGTTCGAGGTAACCAGCGGGAGGTTGAACACGCCCCGCTGCCGCGCCTTCATCAGCTCCCGTGTCACCCACGCCCACGCCCCGCGGGGCACCGAGGTGGCAATCGTGGGCACCCGCGCCTCGTGCCAGCCGATGCCGGTGTTCAAAATGTCGGCACCGTCTTGCTGGATCCACGCCGCGAGCTGGATGACCTCGTCCAGCGTGGACCCGTCCGGAACCAGGTCCAGCATGGACAGCCGGTAGATGATGATGAACTCGGGCCCCACGGCCTCGCGGACGCGGCGCACGATCTCGCGGGCGAATCGGGCGCGGTTTTCGTAGGACCCTCCCCAGCGATCCGTGCGCTGGTTGGTGTGTCGCGCGATGAACTGGTTGATCAGGTAGCCCTCGGAGCCCATGATCTCCACGCCGTCGTAGCCGGCGGAGCGGGCCAGGGTCGCGGCGCGGACGAAGTCCTCGATGGTCTGCTCGACCTCCGCGTCGCTCAGTTCGTGCGGGACAAACGGGGCAATGGGCGCCTGAATCGGGCTCGGGCCGACCATCTTGTCGTGGTAGGCGTAGCGCCCGACGTGCAGAATCTGCATTGCAATCCTGCCGCCTTCAGCGTGCACGGCTTGCGTGATTCGGCGGTGCTGCTGGGCCTCCTGCTCGGTGGCCATCCGCGCGCCGTGGTGAACGGTGCGCCCGGCGTCGTTAGGCGCGATGCCGCCGGTGACAATGAGGCCGGCGCCGCCGCGCGCCCGTTCGGCGTAAAAGACTGCGAGGCGTTCGAATCCTTGCTCCACCTCTTCGAGGCCGGTGTGCATGGATCCCATGATCACCCTGTTTTTCAGGGTCGTAAAACCGAGGTCAAGTGGCTCAAAAAGGTGCGGGTAGGGGCTTGTCATGGTGGGCAGTCTAGCAGTTGGCTTCTGCGGCGGAGACCGTTTCGAACCAAACAGGCGAGCCTGAAAACTGCACCCGCGCAGGCTGCGTGCAACATCAAGGCTGCGGCTCAAAGGCCAGATAGTTAG	MSFKLSDASPTPPSQRRSQPGALVDRALGVQLRGHVRATNQVGCDTAGEQLVVGLAQRLLAGADHDVVHVQRALFAVDRDVQAGVVNAAIGHTRQHLHPAVLELGAVNPAGCPAQVLTEFRGLALHERHAPRRTLPLGRFQPSGVGVVRIHAPRVEECLRVPASVALGLSEEARNVEADAARAQNRDLVAHLRALAQDVEVSQHLRVIEALDLRHARGHARGHNNVVVALQVVGAHAGIQAHVDALGREHVGEVPDGFVELLLARDSPRDVELAAHGRGGVEKRDGVAALGRGDSARQSRRARTDNRNAFRRLGRGDHQLGLVARARVDQACCNLHGEGVVQACLVAGDARVNQVSVAGGGFAHELGVREERPRHGHHVGVALGEQLFGLVGGVDPVRGNQREVEHAPLPRLHQLPCHPRPRPAGHRGGNRGHPRLVPADAGVQNVGTVLLDPRRELDDLVQRGPVRNQVQHGQPVDDDELGPHGLADAAHDLAGESGAVFVGPSPAIRALVGVSRDELVDQVALGAHDLHAVVAGGAGQGRGADEVLDGLLDLRVAQFVRDKRGNGRLNRARADHLVVVGVAPDVQNLHCNPAAFSVHGLRDSAVLLGLLLGGHPRAVVNGAPGVVRRDAAGDNEAGAAARPFGVKDCEAFESLLHLFEAGVHGSHDHPVFQGRKTEVKWLKKVRVGACHGGQSSSWLLRRRPFRTKQASLKTAPAQAACNIKAAAQRPDS				NA	NA	NA	NA	NA
AK009_09223	411			hypothetical protein	ATGCGTCCCGCAGGCGGTAACAGCCTGCGGGCCGCGCATTTACAACTGGGAACGGTTGTTGCCGTCGTCGAGGCCTTCCTCAACCTGCCCGGTTCGCGCTTCCGTGTTCGGGTGCTCGTCGAGGTGACCCTCGTCGGTCGCGGCGGTCTCGTTCTCCGCGTTCTCGAAGTCGTCGACGGAGTTGAAGTTCGTCGGGGAGTTTCCGATGCGAGTGACGGCGGCGTCGAGAAGCTTGTCCTTTTCGGAGGACTGGCTGCGGTCAGCGTCCTGAGCCATCTACTTCTCCTCCTCGGTGGAGACTTCCTCCTGGAACTGCGGGTCGGCGTCGGGATCGGTGAGATCGTTAATGCTGTCTTCGTTGGTCGGGGTGTTCTTCTCGGTCATGGTCAAGCCTCCTTCAATGGGTTATGA	MRPAGGNSLRAAHLQLGTVVAVVEAFLNLPGSRFRVRVLVEVTLVGRGGLVLRVLEVVDGVEVRRGVSDASDGGVEKLVLFGGLAAVSVLSHLLLLLGGDFLLELRVGVGIGEIVNAVFVGRGVLLGHGQASFNGL				NA	NA	NA	NA	NA
AK009_09224	417			hypothetical protein	GTGGGTGCCGTCGTAGGTGACGCCGCGGAAGGTGACGGTGCCCTGGTAGTAGGGGTTGGTCAGGATCTTGTGCAGCCCGGTGGTGGTGACTGGTTTGGCCGGCTGGGAGGGGGTGGGTCGGGTGGTCAGGCCGCGGGCTGTGAGTTCTTTGGCCAGGCGCGACAGGGACCAGTCCCCGGTGGCGTAGGCGGTGAAGGCGAAACGGACGAGGTCGGCGCGTTCGGGGTCGATCACGATCTCGCGGGACTCGCGTCCTCGGGCGTCGGTGGTGCGGACGTTGAGGTAGCCCAGAGGCGCTTTGGTGGGGGTGCCGCCGATCGCGGCCTTCTGGATCATGCCTTTGAGGACTTCCTGGGCCAGGTTCAGCGAGTAGAACTCGGCCATGGAGGCCAGGATGCCGTGCATGAGCATCCCTGA	MGAVVGDAAEGDGALVVGVGQDLVQPGGGDWFGRLGGGGSGGQAAGCEFFGQARQGPVPGGVGGEGETDEVGAFGVDHDLAGLASSGVGGADVEVAQRRFGGGAADRGLLDHAFEDFLGQVQRVELGHGGQDAVHEHP				NA	NA	NA	NA	NA
AK009_09225	555			hypothetical protein	ATGTGGACCCAGTTTAGCGTTCGGCTGCGAACAGGCGACGAAGATGGGCGCCGGACTGCCCGACGGGCTGGTCGCCGGCGGTGCGCAGCGCGATCCGGATCAACACCTCGGCAACCTTCGCGACATCGATCTCCTCGCGCGGCTCATAGCGCACGCGCAGGGGCCGATCCGCTTCGACCCGGGCGGTGGTGCGGTGATACCTGCGCACCATCCTCATCCACCCTCAGGACCCAGAACATCGTCGCGAACCTCATCGGTAGCCGGGTCGATCCGGTCATCCAGGCTGGCGTAGAAGGCGTCTTCGGCAGCCTGTCGTTCGTTGACCTGGTCGATGACGTATTGGGCGAAGTCGGCGTCTCGGTCGGTGATGACGGACTCGTCGTGGGCGGGTTGGGGTTCTTCGCCGGGCCATGTGGTCTGTCGGGTGGGTCGGTCGCGGTCCAGGCGGGTGCCGGAGGCGGTGACCCAGTCACGGAGGCGGTGGCGGGCGTCGGCGAAGTCGCGGTGCCATCCCAGGGGTGCGGAGCCGTTTTGTTCGGGGTCGTAGGCGCATAG	MWTQFSVRLRTGDEDGRRTARRAGRRRCAARSGSTPRQPSRHRSPRAAHSARAGADPLRPGRWCGDTCAPSSSTLRTQNIVANLIGSRVDPVIQAGVEGVFGSLSFVDLVDDVLGEVGVSVGDDGLVVGGLGFFAGPCGLSGGSVAVQAGAGGGDPVTEAVAGVGEVAVPSQGCGAVLFGVVGA				NA	NA	NA	NA	NA
AK009_09226	975			hypothetical protein	GTGCGGTGGTTCTGGCAGCGCGCTGGTGTCGGGGGTGTGGGGGTGGTCGTCGAGGATGCCGGGGTCCTCGTACTGGTCGTCGGGCTCGAGGCCGTGAGTGCTCATGTCTCCCCCGGGTCACATGCTGAGGCTGTCGGCAGCGGGCGTGGCCTGGTGGTGCTGGGGTGGTTCAAAGGCCTGCCCAGCCGCCTGGCGTTCGAGTGCTTGGCGGGGTGTGCGGTCTACGTCGTAGCGGGTGCGGGCGGTGTCGTGGCCGATCTTCTTGGTGACGAACTCTTCGCCGGCGATGCGTTGTCCGTCGCGTTCGTAGGTGTAGTCGTGGGCGTAGCCTTCGGCGACGAACTGGTCGCCTTTGGTGAAGCGTTCGAAGGCGCGTTCGGCGGTGGCGCGGTAGAAGACGAGGTTGCCGAAGGAGGGTTCCAGTTTGGTGAAGGTGCCGTCTTCTTCGCGTTGGAAGTTCTCTTGGCCGTAGCGGGCGTAGAAGCGGGCATCGCCGCGTTCGGTGTAGGTCAGCTGTGGATCGGATGCGATGAACCCGGACAGGGATTCCTGGGTGCGGATGGACATGACGCGGTACCTCTCAACTCGTGGACTGCAGCCCGCCGGTGGTGTGGGATGCTGGTACCGGTCAGGTGCACCCCGCGACCCCGGTCATGCACGGGGGTTCTGCAGGAGCTGTTCGAGCCGGGCGCGACCCCGCTTGAGGGCCTCGGCGTCGGGACGGGTGGGCCAGGCGGTCAGGTCGGTGATGATCGGCGGCGCGGAGCGGAGCAGGGTGACGCCGGTGCCGAAGGGGAGGGTGCGGATGCGGTCGGGTGGCAGGATCGGCACCCGCCGTACGGAGCGCCAGACACGTTGGAAATGATCGTGGAGGAAGCCACTGTGATCAGGACTCCAATTCCTGTGCCCGCGAGGAACAGGCTGACCGCGAACATCCACAAGTTCGCCTCCAGAACCAGGGTTGCCAGTGCATAA	MRWFWQRAGVGGVGVVVEDAGVLVLVVGLEAVSAHVSPGSHAEAVGSGRGLVVLGWFKGLPSRLAFECLAGCAVYVVAGAGGVVADLLGDELFAGDALSVAFVGVVVGVAFGDELVAFGEAFEGAFGGGAVEDEVAEGGFQFGEGAVFFALEVLLAVAGVEAGIAAFGVGQLWIGCDEPGQGFLGADGHDAVPLNSWTAARRWCGMLVPVRCTPRPRSCTGVLQELFEPGATPLEGLGVGTGGPGGQVGDDRRRGAEQGDAGAEGEGADAVGWQDRHPPYGAPDTLEMIVEEATVIRTPIPVPARNRLTANIHKFASRTRVASA				NA	NA	NA	NA	NA
AK009_09227	957	smvA		Methyl viologen resistance protein SmvA	ATGTACCCCCTCGTCATGACTGGCCTACTGCTGGGCACCGGGACGCTCGGGGATAGGTTCGGACACAAGCTGGTGTTCCAGATTGGCATCAGCGCGTTCGGGATAGCTTCCCCACTCGCAGCCTTCTCTCCAAACGCGTGGGTGCTGATCGTCGCGCGGGCACTACTCGCGGTGGGTGCAGCACTGATGCTGCCCGCGACACTCGCGATCATCCGGTTCACGTTCGAGGACGAGGATGAGCGCAACGTCGCCATAGCTGTTTGGTCGAGTGTCTCGATCGGTGGCATTGCCTTCGGCCCGCTCGTTGGAGGCCTGCTCCTGGAGTGGTTCTGGTGGGGCTCGGTCTTCCTCATCAACGTCCCCTTTGCCCTCGTGACCTTCTTGTTGGCGGCCATGTACGCGCCAGCGGCTCGCGCATCGGCAAGAACGTCCTGGGACTTGCTGTCTTCTGTGCTGGCTCTCGTTGGGTTGACTGGCCTAGTCGCAGCGATCAAGCAGGGTGCCGTATCGGCCCCCTCCGGTGCGTTTATTACAGGGGCACTTGCGACGAGTTTCGTCTGCTTCTGGTGGTTCGCACGGCGCCAGCGGAGACTCCCAACACCGCTCCTGGATTTCTCGGTCTTCCGCAGCCGATCGGTCGTTGCCGGTGTCTTGGCAGCAGGGCTGGCCACATTCGTCTTTGCCGGAGTTGGGGCGGTGACTTCTCAGCACTTCCAGCTGGTTCGTGGATTCTCACCCTTGCAGAGCGGACTCCTGTTGGTCGCGATCGCGGCGGGCGCGACGGTGACCTCCCTCCTTGCGGGTTCAGTGCTTTCCCGAGTCGGCCGCGTCGCCTGCTCGGCGCTGGCTGTGTTGTTGCGGGCGGGGGTTATGCACTGGCAACCCTGGTTCTGGAGGCGAACTTGTGGATGTTCGCGGTCAGCCTGTTCCTCGCGGGCACAGGAATTGGAGTCCTGA	MYPLVMTGLLLGTGTLGDRFGHKLVFQIGISAFGIASPLAAFSPNAWVLIVARALLAVGAALMLPATLAIIRFTFEDEDERNVAIAVWSSVSIGGIAFGPLVGGLLLEWFWWGSVFLINVPFALVTFLLAAMYAPAARASARTSWDLLSSVLALVGLTGLVAAIKQGAVSAPSGAFITGALATSFVCFWWFARRQRRLPTPLLDFSVFRSRSVVAGVLAAGLATFVFAGVGAVTSQHFQLVRGFSPLQSGLLLVAIAAGATVTSLLAGSVLSRVGRVACSALAVLLRAGVMHWQPWFWRRTCGCSRSACSSRAQELES	PGPT0028045_1369	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
AK009_09228	1080			hypothetical protein	ATGCTGGATGCCACCACCCTCCCGATCACCTTTGAGAACACTCGCCTACGCCCCCTCTCTGAGCTGGACGCAGACGCGTATGCGGCCGGCACCAAGGATGAAGCTGTGCGGTGCTTCGGCCACCTGCCCGACTCCGACTACACCCCCGAGTCCGTGCGACGGATGATCCGTGACGAGGTTGCTGAGGGTCTGTCGTCCGGCACGCTGGCAGTCCTCGCACTTGCCGACGCCGAGACGGACCGGTTTGTGGGCTCCTTGGTGCTCTTCGACGTCAGCTCCGAGGCTGCCGAGATAGGGTTCTGGATTCATCCGGATGCGCGGGGAGCAGGGCACGCTCGTCGGGGCCTGGAGTTGGCATCGCGCTTCGCACGCAACAGTGGACTGCGAACCTTGACAGCACGCACGCTCCTGGAGAACAAGGCCTCCCAGCGGTGCTTGACGAACGCAGGGTTCCATGAGGTCGAGCGAGCCATCGGGACCACGCCCGCAGGACAGCGCGAGGAACTATTCCATTACCGGCGCGATCTCAAGCCCACCGCCCAGTGGCCGTTGGCGACGGAGCGGCTTCGGCTCCGTCCGCATAGCGCCGACGATGCCGAATGGCTTCACGAGCTGTACTCGCGACCCGACGTTGCCCGCTACCTGCTGGACGAGCCATGGACCGCGGAAGTCACCCACGACAAGCTCACCGAACGCCTAGCGAAGACTGACATCGATGGCGAGACTGGCGCGCTTGCGCTGGTCATCGAGCATGACGGCGTCCCGATCGGAGACGGCGCGTTGTGGCTCACCGATCACGAGCACCGTCAAGGCGAGATCGGGTGGGTTCTCGACCCGGCGCACGGTGGGCAAGGTTTCGCCAGCGAAGCCGTCCGAGCAGTACTCGCCCTCGGGTTTGACCACTACCGGCTCCACCGCATCACCGCGCAGATGGATGCCCGCAACAGCGCCTCGGCAGCACTGGCTCGTCGTGTCGGGCTCCGGCTCGAAGCACATCACGTCCAGGACTGGTTCAGCAAGGGCGAATGGACCGACACCCTCATCTTCGCGCGACTTGCCTCCGAGCACATGCGCCAATGA	MLDATTLPITFENTRLRPLSELDADAYAAGTKDEAVRCFGHLPDSDYTPESVRRMIRDEVAEGLSSGTLAVLALADAETDRFVGSLVLFDVSSEAAEIGFWIHPDARGAGHARRGLELASRFARNSGLRTLTARTLLENKASQRCLTNAGFHEVERAIGTTPAGQREELFHYRRDLKPTAQWPLATERLRLRPHSADDAEWLHELYSRPDVARYLLDEPWTAEVTHDKLTERLAKTDIDGETGALALVIEHDGVPIGDGALWLTDHEHRQGEIGWVLDPAHGGQGFASEAVRAVLALGFDHYRLHRITAQMDARNSASAALARRVGLRLEAHHVQDWFSKGEWTDTLIFARLASEHMRQ				NA	NA	NA	NA	NA
AK009_09229	597			hypothetical protein	GTGGGCTACTGGGAACATCGCAAACCTGTGCGACGCCTCCGTGCAGTGGACATCGGGGAGGTTGCGAGGGCATCGGTGAGGCTGCTGGACGAAGGCGGGTTGAGGGCCCTCACCCTGCGATCTGTGGCGCAACAGGTGGGTGTCGCTCCAGCCAGCCTGTACTCCCGCTTCGAATCCGTCGACGATCTGTTCGACCTCGCCCTCGACACGGCGCTTGCAGACGATCCCGTGATGTCCGAGTCGATCCGCAACGCCGACCTGCCTGCCCTGATGCACGCCTTCTTCGCGCACCTCACGACCCACCGGTGGGCCGGTCAGGTCATCGGTATGCGCGCTCCCAGGGGCCCGGCCTACCTGGCCCTTTCCGAGCGGATGTGCGTCCTGCTCGAACAAGCGGGTACCCCGGATCCGCTGGGAACTGCCTACCGATTGTCCAACCTGGTGATTGGCGCCTCGCTGACCGCACCCATGGCGTCTGACGAGAAGCGCGTCGCCATTGACCCTGACCAAGCTCCTACCTATGCGCGGCTCCACGCGACGCACCACATCAGCCCACGCGAGATTCTCTCCGACGGCCTCACGGCACTCCTGTCGTGA	MGYWEHRKPVRRLRAVDIGEVARASVRLLDEGGLRALTLRSVAQQVGVAPASLYSRFESVDDLFDLALDTALADDPVMSESIRNADLPALMHAFFAHLTTHRWAGQVIGMRAPRGPAYLALSERMCVLLEQAGTPDPLGTAYRLSNLVIGASLTAPMASDEKRVAIDPDQAPTYARLHATHHISPREILSDGLTALLS				NA	NA	NA	NA	NA
AK009_09230	480			hypothetical protein	ATGACCATCGCAGCGCGGCACCAGGCCTGCCGCTACACGTCAACAGCTAGGAGTGCCACGGAGCACCGTTCCGGTGAAACATCCACAGAACTGGCAGCGCGGCTGCTCGCAGAAGCACCTCAACGGGATTGGAGACTCCGTGACCTTGCCGCGCTAGTTCACCTCTCGGTGTCACAGCTGGGCAGAGCGTTCACACAACGATTCGGGATGCCGCCCATGCGGTACCTGGCTCACATTCGGGCCCATCGGCTGGCTCACCTTTTGGTCGAGACTGATCTTCCAATCGGCGTCGCCATGACAAAAGTCGGGTGGCGCAGCCGTGGACATGCCGCACGGCAGTTCACCGACGTCGTCGGGATCAGCCCGTCCGAATATCGGCGCACTGCGATTAGGCGCACTCTCACGGAGACCAGCCCGTGGCCATCAGCAACGCAGGGCAGCCCCGAATCAAAAGGCCCCCTCACGACAGGAGTGCCGTGA	MTIAARHQACRYTSTARSATEHRSGETSTELAARLLAEAPQRDWRLRDLAALVHLSVSQLGRAFTQRFGMPPMRYLAHIRAHRLAHLLVETDLPIGVAMTKVGWRSRGHAARQFTDVVGISPSEYRRTAIRRTLTETSPWPSATQGSPESKGPLTTGVP				NA	NA	NA	NA	NA
AK009_09231	639			hypothetical protein	ATGGAACTGGCGCCGCCGTGTCGGGGACAGCAGCGGATGTTCGCGACGGTGGATGGTGAGGATTCCGCCGTCGACTCCCGGACGCGGGGTGAACGCGCGAGCGGGAACACGACTGTGCAGCGTGAACTCGAACCAAGGCGCCCATTGCGCCGTCATCATCGTGGCACCGCCGACACCCGCTCTGCGCCGCGCGACTTCCCATTGCACGAGCACGATTGCATCGGTCCATGCCGGGGAGTGCAGGATGCGGCGCAGTATGGCCGTGGTCTGGTGAAACGGCAGGTTGCCGACGAGCACATGCGCAGATGTTGGAAGCCGGTAGGTCAGGAAGTCGTCGGCGACGACCTCCACGTGCGACGGGAGTCGTTGGGTCAAGCGTTGGGCGAGCCTGGTGTCGATCTCGACGGCTGTCACCGGCCGCCCGAGCTGGGCCAGCGGGGTGGTGAGTGCTCCGTCACCGGGGCCGATCTCGATGATCGGGCCCTCGGTGGCAGCCACGAGCCGTGTGATCGTGGCAATGGTGGATGGGTCAGTCAGGAAGTTCTGGCCGTGCTCATGACGGCCACCTCGATAGGTAGGCACTGTTTGCTCCGTGGTTGTTCCGGAGCCGGGCACGCTGAAAGAGCCGCCCGGCCGTGA	MELAPPCRGQQRMFATVDGEDSAVDSRTRGERASGNTTVQRELEPRRPLRRHHRGTADTRSAPRDFPLHEHDCIGPCRGVQDAAQYGRGLVKRQVADEHMRRCWKPVGQEVVGDDLHVRRESLGQALGEPGVDLDGCHRPPELGQRGGECSVTGADLDDRALGGSHEPCDRGNGGWVSQEVLAVLMTATSIGRHCLLRGCSGAGHAERAARP				NA	NA	NA	NA	NA
AK009_09232	486			hypothetical protein	TTGGGTGACGGTGTCGATGCGGGTGATGTCGGCCGGCGATGGTTACAAGTACCTGCTGCCACCGTGGCGGCTGGTGACGGTGACCGGTCGCTGTCGACGCCGCTGACCCGCTACTACGCCGAGGCCGGCACCCCACCCGGACACTGGCTCGGCTCCGGCGTCACCGCTCTGGGTAATGGCGAACTCACACCTGGCGCCCAGGTGTCGGAAGCGCAGCTCCAGTTGCTAGTGGGGATGGGGCGGGACCCGATCACTGGTGACCCGCTGGGGCGGGCGTATCCGGTGTACAGCTCGACGGCGGATCGTGCCGCGCAGCTGGACCCGTCGCTCGGCCCTGGGGAGCGGGGCCGGATGGTGGCGCAGATCGAGGCGGAGGAGGCTGCGCGGGGTCGCGGCGTGCGGTGGCGGGGTTTGATTTCACGTTCAGTGTGCCGAAGTCGGCGTCGGTGTTGTGGGCGGTTGCGGACGCGGGGACGCAGGCGTTGA	MGDGVDAGDVGRRWLQVPAATVAAGDGDRSLSTPLTRYYAEAGTPPGHWLGSGVTALGNGELTPGAQVSEAQLQLLVGMGRDPITGDPLGRAYPVYSSTADRAAQLDPSLGPGERGRMVAQIEAEEAARGRGVRWRGLISRSVCRSRRRCCGRLRTRGRRR				NA	NA	NA	NA	NA
AK009_09233	234			hypothetical protein	TTGATTGCGCAAGCCCATCATGAGGCGGTTGCGGCGGTGGTTGCGTTCATGGAGCGCGAGGTTGCAGCCACCCGCACGGGCGCAACCGCTGAGGATGGCGCGGTTGCACAGGTCGACGTCACCGGGCTCATCGCGACCGCGTTTGATCACTTCGATTCCCGTGCCGGGGACTCGCACTTGCATACGCATGTGGTGATCAGCAACAAGGCCCAAACGGTCTTGGATGGGAAGTAG	MIAQAHHEAVAAVVAFMEREVAATRTGATAEDGAVAQVDVTGLIATAFDHFDSRAGDSHLHTHVVISNKAQTVLDGK				NA	NA	NA	NA	NA
AK009_09234	240			hypothetical protein	GTGGGAGCCGCGGGAGATGGGACGGGACCGGAACCCGTCGTGGGCGATCACCGATGTCCCCGAGGAACTGGTGGCGGAGTTTTCCACGCGGGCGCGGCAGATCGAGGTGGAGAAGGACCGGCTGGTAGCCGAGTACGTGGCCACCCACGGACGGCAGCCATCGGATGCCACCGTGATCCGGTTGCGCGCCCAGGCCACGCTCGCGACGCGGCCGGAGAAGCAGGTCCGCTCGCTTGCTGA	MGAAGDGTGPEPVVGDHRCPRGTGGGVFHAGAADRGGEGPAGSRVRGHPRTAAIGCHRDPVARPGHARDAAGEAGPLAC				NA	NA	NA	NA	NA
AK009_09235	480			hypothetical protein	GTGGTGTCAAACACAACATGTGGTATTGCCGGCCCCGGCCGGCCCCGCCAACACATCCACGACCCGGCCCGACACCGCGACCGAGGCCAAGGCTGCTGCCTGGTCTGGACCGAGCATCCGACCCTCGGCATCAGGCTTGCTCGTGATGGTCTCGACGGTGGCGAGATCGATGCTCGGGCCGGTGGTGGTGCGGGCCCGTTGCAGGAGGCGGTCTTCGGCGGCGAGGAGGGTGTCGGAGGAGAACACGGTCGAGTGCTTCGGACGGAACACGCTGGTGCCGTCCAGGCGGCGGAACTCCACCGGACTGGTCGCGAGCTCGGGTGGGGTCAGGCGCAGGGACGCCTGTTCGGCAGCGTCGGCGACCATGGCGGTGATGGCTTCGCGGTCCTCGACGGTGGCGAACCGCCACCCCATCGTTTGGCGGGCGGCTTCGGCCATCAGGTTCCAGCGCCGCCACGTCGAACGCTTCTCACCGACTAG	MVSNTTCGIAGPGRPRQHIHDPARHRDRGQGCCLVWTEHPTLGIRLARDGLDGGEIDARAGGGAGPLQEAVFGGEEGVGGEHGRVLRTEHAGAVQAAELHRTGRELGWGQAQGRLFGSVGDHGGDGFAVLDGGEPPPHRLAGGFGHQVPAPPRRTLLTD				NA	NA	NA	NA	NA
AK009_09236	618			hypothetical protein	ATGGCAGCTTCCATCGATCTGGAATACCCGTTCACTGGCCGCTGGATCGTCCAGAACAGCCCCGCCAACCGAGTACCCAGCCATGGCACGGCGCTGCTGGCCACGTCCTACGCCATCGACTTCGTTCCCGCCGATGGCGCCGGGCGCTCCGCACCCATCACGTTCAGTTCGTTCATACGACCCGAACCGGCAGAGAAGTTCTCGGGCTTTGGCCGCATGCTCCTGACGCCTGTCGAAGGGATCGTCGTCTCCGCGCACGACACCGAACCCGACCACCCTGCATATCGCGGACTACCGTCTATCGGCTATGCCCTCACCCAGCAACGCCGAGCCCGAGCAGGGTGGATCGCACTTGCCGGTAACCACGTACTCATCGAGTCCGATGGTGTCGTGGTCGCCCTCTGCCATCTCCAGCAAGGCAGCCTGAAAGTCCGGACGGGACAGCGCGTGCAGATAGGCACCGGGCTCGCGCGCTGCGGGAACTCCGGCAACAGCACCGAGCCGCACGTCCACATCCAAGCGATCACCACCCCCGATATCGAGCGCGCCGCAGCCGTGCCCCTCACGTTCAGGGGCACCCTCCCGCGCAACGGAGCGGTCATCGACATCAGCGATTAG	MAASIDLEYPFTGRWIVQNSPANRVPSHGTALLATSYAIDFVPADGAGRSAPITFSSFIRPEPAEKFSGFGRMLLTPVEGIVVSAHDTEPDHPAYRGLPSIGYALTQQRRARAGWIALAGNHVLIESDGVVVALCHLQQGSLKVRTGQRVQIGTGLARCGNSGNSTEPHVHIQAITTPDIERAAAVPLTFRGTLPRNGAVIDISD				NA	NA	NA	NA	NA
AK009_09237	861			hypothetical protein	GTGCGGGGATGCGGACCGGTACTGGCGGCAGGCCGACGGCACTCAGTTGCGCTGCGACAGGATGGCACCGTGGTCGCCGTTGGTGATGGCAGAGCTGGTGAATGCGATGTCGACCGCTGGGAAGACGTGATCGCGGTAGCAGCGGGCAACGTCCATACCGCCACGAACACGGGCAAATCGCACACCATCGGTCTTCGCTCAGACGGCACAGTGCTGGCGACTGGATGGAACGACGACCAGCAGTGCGAAGTCGGAGGATGGCGAGACATCGCAGCGGTAGCGGCGGGTTGGCGACGCACCCTCGGTGTCGCCTCGGATGGCACGGTGCTGGCTACCGGACGCATCAGCGAGGGCGCGTGCGATGTGCGATCCTGGCGAGACATCGTGGCAGTCTCGTGCGGCGACTGGCATTCGGTCGGCCTATGTGAGGACGGTTCAGCCGTAGCGGTCGGTAACAACCGACGAGGGCAATGCGCTGTTGGGCACTGGCGGAACCTCACGGCGATTGCGGCAGGTTACCTCCACACGGTCGGGTTGAGACACGACGGGCGAGTACTCACTACTGCGGCACCGGCCACAGGAGCGGGCAACGTCAGCCGGTGGGAGGAGGTCGTCGCGGTGGCCGCCGGGAGTCGCCACACAGTGGGCGTGATCGCTTCCGGCCGGGTTCTGGCCGTTGGGGATAACAGCCACGGGCAGTGCGATGTCGAGGGCTGGGACAACATCATCGCAGTCGCAGCAGGCTCCGCCCATACCCTCGGCCTGTGCGCTGATGGTGCCCTCGTCAGCGCAGGAAACAGCGCCGACGGCAGGCGAGACGTCACGTCGTGGATAGGCCTGCACTGCCCTGAAAGAGACTAG	MRGCGPVLAAGRRHSVALRQDGTVVAVGDGRAGECDVDRWEDVIAVAAGNVHTATNTGKSHTIGLRSDGTVLATGWNDDQQCEVGGWRDIAAVAAGWRRTLGVASDGTVLATGRISEGACDVRSWRDIVAVSCGDWHSVGLCEDGSAVAVGNNRRGQCAVGHWRNLTAIAAGYLHTVGLRHDGRVLTTAAPATGAGNVSRWEEVVAVAAGSRHTVGVIASGRVLAVGDNSHGQCDVEGWDNIIAVAAGSAHTLGLCADGALVSAGNSADGRRDVTSWIGLHCPERD				NA	NA	NA	NA	NA
AK009_09238	2139			hypothetical protein	ATGGACCTGCCGCGCCCGTTCCGCTGCTCGTTGTCGAGCGTGCTCCTGATCGGCACGCTTGGCTTCGATGCGTCGGGCGGCGTCGGTGATGGGGAGACCGCGCAGTTCGTCGGCTTCAGCACGGGTCGTGGCGGCTCGCGCTCGGGCGTCGCGGGCGTCGCGGTGGGGGGTCGCTATCCGCATGCCGAGATGGTCACGACGTGCTCGCTCCGCCCCGTACTCGCTGACCAGCAACGCCAGCCGCTCCTGCTCGTGCCGCCCGAGTGTCGCTTTCCGGTCGGCGGTGGCGGCCTCGAGGGTTTGGGCGGCGTCGGTCACGCGCGGATCGGTCTCGGCGCGCTTAGCGGCGACTCGGGCTGCCCATTCCGGGAGACGGTCAGAGCCGCTCGGCGTGGTGCCCCATTCGGTGGTGACCTGTCCGCGCAACGTCTGAGTGTGTTCGGTTGCGGTGCGGTGCTCGGCGCGGGCTTTGCGTCGGCCAAACCTGCCCACGGTGGCGAGTCGGGCGCGTGCGGTGTCTTCACCCTCGACAGCACTGAGATAGGTCGCACCGTCGTGTGCGGCTTGAGCGGTGAGCGGTCCAGCGACCTCGGCGCGCACTCGTGCGGCCTCGTCTTCGGCCTTGCGGAGCACGGCAGTGCTCTTATCGTCCCCCGCTCGATGAGCGGTGCGTTGGGCGTCGAGGCGTGCGGCGATCTGCTCCCACCGCTCCGCCTGTCTCCGGGCGCGCTCGGCTTCCTGGTCAAGGCGGACGAGTTCAGCGGTGACAAGCTTGGCCGGGCCGTCACTGACGAGACCGCGCACTGCTTCGACGGCTTGGGTGGTGGCGTGGTCGAGGCCCCGGTCTGCCCGGTCGCGTTCCATCGCCTCAATGAACCGAATCTTGGCGTCGTCCATGTTCTCGGCGACGATGTGGAGCCGGTTGGTGTCGCGGCCTCGGGTCATGCCGACGTACACGCCCGCCGCGCTCGGCGCGTTACTGAGCAGCGTGTGGGAGCCGTCAACGGTTGCGCCTTGGACGCCGTACGCGGTCGCGGCGTAGGACAGGTGCGCGTGCTCGGCCACGTACTCGGGTGGAAGCGCGACGGTGCGCAGGTGCTTGCGGTCGCTGCCGACCTCGTGTGCATACACCGTGCCCTCGTCGGTGACGTGCTGCACGGTCCACTGTTGCCGGTTCGCCACACCCAGGGTGCTGTCGTTGCGGCGGGTCTGGATGAGGTCACCGGCACCGATGCTCAAGCCGTCGCTGCCGGTCGCCGTCGTGGTGTCGTCTACCTCGCCACGCTCGACACTCCCGGCGCGGATGCGCTCGTTCACCGCAGCGGCTTCTTCGTTGGTGGCGACGGTGATTGCCTCCCCGTCACGGGCGTGGGCGGTGATATGCTCGCGGGCCGCGTCCTCGACGGCGTGCAGGATGACGAGGCCCAGGGTGGCGAGTCGGTCGAACACGTCACCGGGGTTCTCCCGGTCGCGCATGGCGAGGGTGAGGGCCGCGTAGTCGGGGTCGGTGAACCGATGGAGTTCGGTCATGTCGTAGGTGCGGCCCCTGATCTGTTCGGCCATGTCGAGCACACCGCCCCGGCCGACCGCGGGGAGTTGGGCGCGGTCACCGATGAGCGCGACGGTGGCGCCTTCTTCTTGGGTGATGGTGAGGAGGGCGTGGGCAGTGTCTTGGTCGAGCATCCCGGCCTCGTCCACAATCACCCGTGTGCCGCGATCCAGTCGCGCGTCTTCGGGTGGCCCGGTATAGGTGCCGCCGGTTGTGGGATCGGTGTCGCCGGGGTTCAGGCGTGTCCACACGCCGTCACGGTTCCACCGCCACCCGTGCGCGTGCACCAGCGCCGCAATCGATGTCGCGGGTACGCCGAGTTCGTCGTGCGCGACCTGCGCCGCCCGCAACGTCGGTGCAACCACCCGCGACGCCCTGCCGTGTCCGGCGGCGACGGTGATCGCGGTGCGCAGCATGGTCGTCTTCCCGCTGCCCGCCGCACCCTCCACGATCACCAGCGGATCGGTAGAAGCCACCGCCGCTGCCGCAACGGTCTGTCCGGCATCGAGTCCGGTGGCGTGCGCCACGCGGGTCACGTCCGGGTGTTCCGGCTCCCGATCCGGCACAGCGGTGGTGATCTGGTCGCGTAG	MDLPRPFRCSLSSVLLIGTLGFDASGGVGDGETAQFVGFSTGRGGSRSGVAGVAVGGRYPHAEMVTTCSLRPVLADQQRQPLLLVPPECRFPVGGGGLEGLGGVGHARIGLGALSGDSGCPFRETVRAARRGAPFGGDLSAQRLSVFGCGAVLGAGFASAKPAHGGESGACGVFTLDSTEIGRTVVCGLSGERSSDLGAHSCGLVFGLAEHGSALIVPRSMSGALGVEACGDLLPPLRLSPGALGFLVKADEFSGDKLGRAVTDETAHCFDGLGGGVVEAPVCPVAFHRLNEPNLGVVHVLGDDVEPVGVAASGHADVHARRARRVTEQRVGAVNGCALDAVRGRGVGQVRVLGHVLGWKRDGAQVLAVAADLVCIHRALVGDVLHGPLLPVRHTQGAVVAAGLDEVTGTDAQAVAAGRRRGVVYLATLDTPGADALVHRSGFFVGGDGDCLPVTGVGGDMLAGRVLDGVQDDEAQGGESVEHVTGVLPVAHGEGEGRVVGVGEPMEFGHVVGAAPDLFGHVEHTAPADRGELGAVTDERDGGAFFLGDGEEGVGSVLVEHPGLVHNHPCAAIQSRVFGWPGIGAAGCGIGVAGVQACPHAVTVPPPPVRVHQRRNRCRGYAEFVVRDLRRPQRRCNHPRRPAVSGGDGDRGAQHGRLPAARRTLHDHQRIGRSHRRCRNGLSGIESGGVRHAGHVRVFRLPIRHSGGDLVA				NA	NA	NA	NA	NA
AK009_09239	177			hypothetical protein	ATGCGCGACATGCTCCGGCGTGAGTGCGCCCGGCGGCAGAACAGAGAAGCAATCCGAGACAGCAAGCCCGGTCGCCAGACCGATGAACTCCCGCAACTCAGCGGGCGTCACCCGCGCGCCCGCCTCGGTGATGACCCTCGTGACGTGCTCGGCCACGGTGTGCCGCGTCCACGTTGA	MRDMLRRECARRQNREAIRDSKPGRQTDELPQLSGRHPRARLGDDPRDVLGHGVPRPR				NA	NA	NA	NA	NA
AK009_09240	813			hypothetical protein	ATGCTCCGCCTGCCACTCGGCGACCATGCGGTCCAGGTTGCGTCTGATCTGCGCCGACCGCTTCGACATGACCGCGTTGAACGGTTCCAGCTCGGTCACCTCACCGGATACCGGGTCGAGGGTCAGACCGTGCTCCGCGAGCGTCTGCGCGAGTTCGGGGTGCGCGGCGATGACCGCGGTGCCGAGGGCGCGGATCGCTCCTTGCTGCTTGAACAGGGCCGCGGTGGTCAGTGCCCGCCACTTCCCGGCCGCCCACACCCGGGTGCCGATCTGGAAGTGGATATGCCGGTGCGGATCACCCGCCCGCGAGGTCTTGTGCGTGATCGCGACGGTCTGCATGTGCTCGACCGGGAGGACTTCCTGCGCGCCGCGCGGCCCCGCCAGGGTGACCGAGTGCTGGCCAAGGAACCGTTGAATCTCTGTCGCCGCGTCACGCTGCGCCATATCCAACGCCTCCGATACCGCCGGGTGGAGGGCGGCGGCGACCGACAGGGACTTGGGGGCATTGATCGTCATCTCCGCGAACAACGGCGACCCCTTCCGCACGTCGCCGGGCTTCCGCGGCGTGCCCATCGACTCCCCGGTGTCCGGGTTGATCCAGTCCACCCACCCCTCGTACTCGTCCGCCGACAGCGACCGGGCAAAGGTGAGCTCGCCGGTGGAGTCGATCACGGCGTACTCCGCTACGGCGTCTTCTGCGCCGAGGTAGTACTCGTCGGCGCGGGACCGGTCGGCCTCGACATAGCGGCGGGCGGCAGCACCGCTGCCGCGGAACAGGATCACGCCGCCCTTCATCTTGGCCCTCCCTCATGA	MLRLPLGDHAVQVASDLRRPLRHDRVERFQLGHLTGYRVEGQTVLRERLREFGVRGDDRGAEGADRSLLLEQGRGGQCPPLPGRPHPGADLEVDMPVRITRPRGLVRDRDGLHVLDREDFLRAARPRQGDRVLAKEPLNLCRRVTLRHIQRLRYRRVEGGGDRQGLGGIDRHLREQRRPLPHVAGLPRRAHRLPGVRVDPVHPPLVLVRRQRPGKGELAGGVDHGVLRYGVFCAEVVLVGAGPVGLDIAAGGSTAAAEQDHAALHLGPPS				NA	NA	NA	NA	NA
AK009_09241	657			hypothetical protein	ATGGCGGAGCTGTCACGGCGGTCAGGGCTCAGCGTGCCCACGATCAAGTACTACTTGCGCGAAGGGCTGTTGCAGCCGGGGCGACGGACGAGCGTGAATCAGGCCAGATACGACGATGCCCATCTCGAACGCCTCCGACTGATCCGCGCGCTCGTGAAGGTTGCCGGGCTTCCGCTCGACAAGGTTCGGGAGGTCGTGCAGGCGGTCAGCATTGAGTCTTCCGTCCTCGATGCGATGGGCGTCACCCAAGACGCACTCGTTGGCGACGTTGGAGCCGTCCCAGGCGAGGAGGCTGCGTTACAGCTACTCTCGGAGCTCGTCACCGCGCGCGGTTGGCGATGCCAGGAGGAGTCGCCCGCGCACGCCGCAGCGGTTCAGGCGATAGCTGAGCTGCAGGCCGAAGACCTCACCCTTCTTCTGGATCGTCTCGATGAGTACGCCGACGCCGCGGACGCGGTTGGACGCATCGACGTCCGGGCCGTCGCTGAGGCCGAGAACCTCGAAACGATGATCCGCGGTGTCGTCCTGGGCAGCGTGCTTCGCCGCCCACTCCTGGACTCCCTCGTGCTCCTTGCCCAACAGCACTACGCCAACCAGCTCAACCAGAAGATCGAAACCACCAGGCACGACACTCCCACACGTCAAGCTCGCGCATAG	MAELSRRSGLSVPTIKYYLREGLLQPGRRTSVNQARYDDAHLERLRLIRALVKVAGLPLDKVREVVQAVSIESSVLDAMGVTQDALVGDVGAVPGEEAALQLLSELVTARGWRCQEESPAHAAAVQAIAELQAEDLTLLLDRLDEYADAADAVGRIDVRAVAEAENLETMIRGVVLGSVLRRPLLDSLVLLAQQHYANQLNQKIETTRHDTPTRQARA				NA	NA	NA	NA	NA
AK009_09242	891	azoB		NAD(P)H azoreductase	ATGGCACGCATCGCTGTCATAGGAGCAACCGGGTACCTCGGTGGGTACGCCCTTACCCGCCTGCTGGCAGACGGCCACACAGTGCGCGCGATCGTGCGGTCGCCAGAGAAGGCATCGCTACCAAAGGGTGTCGAGACCGTGCGGGGTGACGTCACGGCCCCCGACACGTTGGTGGCCGCGTTCACCGACGTTGATGGCGTGCTGCTGACCCTCAACGGTGGGAGCGACCCTGAGCGGGCGCGACACATCGAGGAAGACGGCGTTGCGAACGTTGCCGCCGCCGCTGAAGCGGCTGGGGTGCGGCGCGTGGTGCTGATCTCCGGCATGTTCGCACAGCCCGCCTATGCCGACTATCCCTGGGAACACTCCAAGGCCCGTGGCGAGCAACTCTTGATGGCCAGCCCGGTGGCATCCACCGTGTTCCGTGTCGGGTTCATCAATGAAACGCTCGCGAAGTTCATCCGAGGCGGCCGCCCGGTACTCATCGGCAACCAACCGCACCCGATCCACCCCGTCGCCGCTGACGACATCATGGCGGCTGCCTCCCGCGCGTTCGAGATGCCCGAAACCGCGAACAAGGTCTACGACGTGGCCGGGGAGCAGACGATGACATTGCGGGAGGCGACCGCCGCATACGCGGGCGCAATATCCGGCAAGCCCGTTGCATCGAACGCGGTGCGGGTCATGCCGCTCGGGTTCATGCGCGCCATCAATCGCCTATTCCTGAAGGGCGAGATGACCAGACCCCTGGGCATCCTCGACAGCATTGACCGCCACGGCGACGTGACCGACACCACCGCGTGGTTCCAGGACTTCGGCACCCCTCCCACCCCGTTCGCCAGGTGGATCGCGCTACAGCGCGACAACGCCGCCGAAAGGTCAACATCATGA	MARIAVIGATGYLGGYALTRLLADGHTVRAIVRSPEKASLPKGVETVRGDVTAPDTLVAAFTDVDGVLLTLNGGSDPERARHIEEDGVANVAAAAEAAGVRRVVLISGMFAQPAYADYPWEHSKARGEQLLMASPVASTVFRVGFINETLAKFIRGGRPVLIGNQPHPIHPVAADDIMAAASRAFEMPETANKVYDVAGEQTMTLREATAAYAGAISGKPVASNAVRVMPLGFMRAINRLFLKGEMTRPLGILDSIDRHGDVTDTTAWFQDFGTPPTPFARWIALQRDNAAERSTS				NA	NA	NA	NA	NA
AK009_09243	393			hypothetical protein	TTGCTAGACGGCGGCGAGTCCGATGGTGACGAGGATGAACCCGAGGAGCTGAAGCGATCCTCGGGTGATCTGGAAGACATCCCAACGGCGGCGCATTGCGATGAAGCCTTCGGGTGCGGTGTCCTGTTTGATGCGTCCGGTGCGGAAGTTGATGGGCACGTTGCCGAAGATGGTGACGATGAGCGCGATCCCGAGGGCGACGGCGGCGGAGATCAGCCAGGCCGAGGGCGTCGGGATTGCGACGGTGATCGCGAGGACGGTGGCGGCGGTCATGCCGATGGGCATGATGCGTCCGTAGGTCTTGAGCAGCCCTTTCTCGAAGGTGAGCTGGTCGTCGGGAGCGAGTTTTCGGATCACGGGGTGCACGAGTGCGACAGAGGCGAACTCGGCTGA	MLDGGESDGDEDEPEELKRSSGDLEDIPTAAHCDEAFGCGVLFDASGAEVDGHVAEDGDDERDPEGDGGGDQPGRGRRDCDGDREDGGGGHADGHDASVGLEQPFLEGELVVGSEFSDHGVHECDRGELG				NA	NA	NA	NA	NA
AK009_09244	858			hypothetical protein	GTGGCCGAACACACCCCGCCCGCCGCCGACGACGCTGCGGAGCCGGGCAGCCGAGGATTCGGGACGCCCGAAGGGCTACGCGCCCTGCTCCTCCGCCTGCACGAGTCTGGGCCTGGGGCGTGGCAGGGTGATCGGGAGGCGGCGGATCTGATGCGCTACACCGCCGAGCGGTATCGACGGCTGGCCAGGAAACACAACCTCGACCCGTGGCATATCGCGTCGGCGGCGTTCGAGGTCATGCTCGCCCCCTCGACGCGGAACGCAGGGAACCCGTGGGCCGTGGTCACCCGCGCCGTGCAGATCACCTGCGGCGTCGAGGCTCGGGCTGCTGGGCTGTTGGTGGCGACGAGCAAGGCCCGCCGCACGCCCAGGATCGCCGGATTCCATGATGCCGTGCGGTTCGCGGACCGAGAGGGCCTGGCCGACTACCATCCTGCGTTCGCGGTCGCTCCCGACGATGATGATCCAGAGTCCGGTGAGGATGACGGGCCGGTCGCTGCCGTGCTGTCGGAGGTGGTGGGACTGTTCGTGTTGGAGGGCTGGGATGCCGCGCTCGTGGCCGACTGCGTGGAGCATGTGGCCTATCGGCTGGCTGACCTGTCTTCGCGGTCCCGTGCGGTGGAGGTGCTGCGCCGCGACCGCACCGTGCCGGTCGTGCTGGGTCTGCCGCCACGGTCCTGGACTGCGCTGCTGCGGATCGTACTGGGCCATCCCGCGGCGAAGCACACCGGCACCCCGACCGGCGACGGCATACTGCTGCGCCTGCTCAACGGTGAACCGCCGGACTCACTCCGCGACGACAACGCGCTGACAGACGCCATACGCGCCGCCCACCCCAACCCGACGCCTGAACGGTGA	MAEHTPPAADDAAEPGSRGFGTPEGLRALLLRLHESGPGAWQGDREAADLMRYTAERYRRLARKHNLDPWHIASAAFEVMLAPSTRNAGNPWAVVTRAVQITCGVEARAAGLLVATSKARRTPRIAGFHDAVRFADREGLADYHPAFAVAPDDDDPESGEDDGPVAAVLSEVVGLFVLEGWDAALVADCVEHVAYRLADLSSRSRAVEVLRRDRTVPVVLGLPPRSWTALLRIVLGHPAAKHTGTPTGDGILLRLLNGEPPDSLRDDNALTDAIRAAHPNPTPER				NA	NA	NA	NA	NA
AK009_09245	348			hypothetical protein	GTGAACCTCCTCGGTGGTGCGGCCCGGCCTCCGGGTGGCATCGACCGGGTGGCGCTACTCGCGACAACATCTACATATAGCGTTTGCATCGCTTCATTCGCACTAGATATTGTGGTTGATGCTGCGTACCTGTCTGACATGGCAACCACAGCAGCACACAGCACCCCCAAGGCTTCCCCGGCACCCTCGGCTCGTGAGCGGCAGAGCCGGGTTCCGAGCGGTCTGCCGCCGGGGTTTGACCCGGTGGTGTGGACGCGCGAGGCGTGCGAGTGTTCCGGGGTGCCGGTCGGTGTGACCGATCCGGTCGCCCTGGCGAAGCTCCGCGTCCTCACTCGCCCCAAGCGATGA	MNLLGGAARPPGGIDRVALLATTSTYSVCIASFALDIVVDAAYLSDMATTAAHSTPKASPAPSARERQSRVPSGLPPGFDPVVWTREACECSGVPVGVTDPVALAKLRVLTRPKR				NA	NA	NA	NA	NA
AK009_09246	147			hypothetical protein	GTGGAGCTCGGTGCGGGAGAGCAGCCCGGCTCCGTAGTCGCGGGCCATGTCCTCCATCCGCTGACGGGCGGCGGTGATCTGCTCCATCGCCGCGGTGATCCCGGCGTCCTCGCCCGGCGCGGCGGTCGGCAGCGTGGTCGCGGCTAG	MELGAGEQPGSVVAGHVLHPLTGGGDLLHRRGDPGVLARRGGRQRGRG				NA	NA	NA	NA	NA
AK009_09247	828			hypothetical protein	GTGCGCGGACACGACGAGCCCGCCCCGCTCGGGCCTGCCGGGCAGGGGCAGGCAACGGTAGAAGCGGCGCTTCCCGATAGACGTCTCGCCTCGGTGCAACCCCGACGACACGAGCGTGTTCCCGCACTTCGCGCAGGAAATCAGCCCGGCGAGCAGGCTTTTGGAGGAGCGGCCCACGCGCCGGTCGGGATGGTTGAACACCGCCCGGATACGCATCGTCTCTTCCGGGGTGATGATCGCCTCCCAGTTCCCCGGCCCCAGGATCGCCCGATCGCGCCGTTCCCACGTCGCCGTCGTCTTGGATGCTGGTTCGTAGGCGCGCTGCCCCGAGATGCGCGCGGAGCACAGGATCGAGCCGACGGTGCTCTCGTGCCACACGTTCAACCGGCTCTTGCCTTTCGACGGCGGTGTTGGTCCGTCGTCGCGGTTGAGCCACCTGGTGATCTGCCGCACCGACTGCCCTGCGAGGAACCGGTCGGCCATCTCGCGGATGACGGCGGCTTCTTCGGGGATGAGGACGCCGCCGATGCCGTACCCGTACTTTGCCCCGCCGTGCCAGTCGCCGCGCTCGGCTTTCTGCTGGTTCGCCCGGCGGATGCGGTCGGCTTTGTGGCCGGATTCGTAGGAGGCGATCGCGACGAGCTGACGGGCCATGAGCCTGCCTTCGTGGGTGTTCAGGTCGAACGCGCCGCCCTTGACCGTCTCGATCCGGATCGGATGCGTCTCCACGAGGTCGATGAGGTCTTCCAGTTCGCGGGGGCGACGGTAGAGGCGGTCCACATGCCATGCCACAATCCGCGACGGCCCCAGCTTCACGCGTTCGAATAG	MRGHDEPAPLGPAGQGQATVEAALPDRRLASVQPRRHERVPALRAGNQPGEQAFGGAAHAPVGMVEHRPDTHRLFRGDDRLPVPRPQDRPIAPFPRRRRLGCWFVGALPRDARGAQDRADGALVPHVQPALAFRRRCWSVVAVEPPGDLPHRLPCEEPVGHLADDGGFFGDEDAADAVPVLCPAVPVAALGFLLVRPADAVGFVAGFVGGDRDELTGHEPAFVGVQVERAALDRLDPDRMRLHEVDEVFQFAGATVEAVHMPCHNPRRPQLHAFE				NA	NA	NA	NA	NA
AK009_09248	159			hypothetical protein	ATGCCTTTTTTTGCGTTTGTCCATTATTTGCACCAGAACCGCCAATATGCTTCTCATGAATATCAAAAAATCTTAAAAAAGGAAAAATTCCAAGTAAGTATGAGCCGTAAAGGAAATTGTTATGATAACGCAGTGATTGAATCTTTTCATAGTGTATAA	MPFFAFVHYLHQNRQYASHEYQKILKKEKFQVSMSRKGNCYDNAVIESFHSV				NA	NA	NA	NA	NA
AK009_09249	642	xerC_15		Tyrosine recombinase XerC	ATGAGCAAAAACATTAATTTAGAAGAAACATTAGCAGCCTTTTCTGCTTATTTAATAGAAAAAGGACGGAAACAATCCACGATTAAACGTTATGCTTACGATATTAAAGATTTTTATAAGTGGTTAAGAGCAAATAAAAAACTTCTACATATCAAATCATGGAGTGAACTTTCTGAAGCGGATTATCAGACGTATTTCTCTGAGTTAGAAGACAAGCGTAAATATTCTCAGAAAACAAGACACAGAATATGGGTGGTTTTAAAGAAGTTACACATGTTTTTATGCATAGTTAGTCCATTGGATGGTATTAATCTCTCTTTGATTCCTGATCAATCACTAAATGATAATGATTTTATTACCGAAATGGAAGAAAAGCTTTTAAAACAAACTGTCCTATCAACAAAAGGGCTAACGGAAAGACAAGCTAAATATCGCCCTCTTATTATGGATAGAAACGTTTGTATTATAAATTTAGTAGTAAACTATGGGTTGTCTTTGCAAGAGCTTGTATCGCTTAATATGAGCCATATAAACTTTGCTAGAAATATCTGGTGTTATGTCAAGAAAATAGACACATTAAACAGAGACATTTTATTCGTTAAGCAGCTTGAGATTGTTGCTTTTCATAGAACCTCTTTTTAA	MSKNINLEETLAAFSAYLIEKGRKQSTIKRYAYDIKDFYKWLRANKKLLHIKSWSELSEADYQTYFSELEDKRKYSQKTRHRIWVVLKKLHMFLCIVSPLDGINLSLIPDQSLNDNDFITEMEEKLLKQTVLSTKGLTERQAKYRPLIMDRNVCIINLVVNYGLSLQELVSLNMSHINFARNIWCYVKKIDTLNRDILFVKQLEIVAFHRTSF				NA	NA	NA	NA	NA
AK009_09250	144			hypothetical protein	ATGGCTGTACTAAAAGATTCGAATTACATAGAAATGAATACTTATAACGAGATTGGATTTTTCAAAGGGATATTTTGGGGACTAATCTTTGTAGTTCCCTTTTGGAGTATTATGATAGCCACATTCATTTGGCTTTGTAAATAA	MAVLKDSNYIEMNTYNEIGFFKGIFWGLIFVVPFWSIMIATFIWLCK				NA	NA	NA	NA	NA
AK009_09251	1710			hypothetical protein	ATGGGGAAATCATTTATTATTCAAAATCAGCGTAGCTTAAATGGAAAAACAACAAATGCTGTTGTAGTCACATTAAAATCTTGGCAGAAATTTGTTGCAGCGTTTGAGGAGAAATACTACAGCTATAAAGATACATATTTGGAAGATATTCTGCAGCACATGACATACGAAGAACGTATTGCTGATGTAGAAGGCTTTGTCGAAAAAGCTAAACCATCTTTTTCACGTCGCGCAATGTCTACACTTGCAGAAAAAACTGGAAGAAAGCATAAATTATACGGCATTACAAATGCTGATCTCGAAGTATTCTTATATCTGCATAAGAAATGCTTTACTAATGGTGTCATTCCCAATGTAACCATACATATGATGTGGGAAGATTACAAGCAATATAAAGAAGAATTTGCTTATATCCAACACTCTCAATTCTATATCGCATTAAAGAAATTAAACTTACATAATATTATCTCCATTGAAAACGGACTAGATGGTCGTTATACAATTAAACTCACTCATTTTATGAATGAGGAAACAGAAAAAGCAAATCCGTATGTATATATTAGTCCTGTTATATTTACAAAGGATTTCTTTAAGCTATCTATAGCAGCTAAGAAACTTTTCTTAGACATTGCGATGCAACAACATACGGAAACAACATTAAAGCGTTCTTTGGACAAGCAGGACGAAAGAGGAAACAAAACTCACTTCGGTGGGATGTATCGTTTCTTACATAAAAAATATCCGCATCAGATCCGTGCGGTTATCGAGGAATTAACAACTGCATTACCATGTACGGGGAATCCCCTATTCAAAATTTGTAAAATGCAAAAAGGTGTAAAGCATACAAAACGATATACGACGTTATATCTGTCTATCCATTCAGACTTCTTATGTTCGAAAGAAGCTGGAGAAGAACAACATAGGGATCCATTTACACCAAAAGCTACCTATGCTAGAAAAGCAAAATTTATCGAAGCAGTCTTACAAGAAATGAATATCGGTGAACTGTCTGCAGACATGAATAAATTCATTCATGTATTAAAGTATACTTGTCATCGTCAAATTCGCAGTGTAATTCGCGGACTACGTGACATGGTTGATCGAAAAGAAGGATATCCAACGAAAATTGTATATACATTGAAGAAACTATTGCATCAAACATCTCAATATCAAATTCTCGATACAGCAGCAAAAGAAGGTATCTATCCTCTTATTGCGCAGCATATACCAAAAGAGAGAAATAGTGACCGTGAGCAAGCTGTCTTTAATTTTGGTCTACATTATTCTATGTACTCTCTTCATAACATTAAGAGAATGTTTAAGAATGTGCATGCACTACTGAAGCAGAAATTTGCAGTACCAGTGACGGAAGAGTCTTATTACCGTAATTATCTAAAATACCAGGAAGAAACGTTATTTAGAAAATATGCATATGATCAGGGTGTTAATCTCCATGCATATATCGCTTTAGAAATTGAAATGCGTGAAAAACTAAAAGTTCGTGGTCATAAAGAACGCACGATTCCAAGTGATGTTCGTGAATGGTTTATCGAGGCAATTGATAAGCTGCCACAAGAAAAACTTCGTGTTATTGAACTACCAAAGCAGTTTAATTTACTAGAGTTTATGCGTACCTTCGAACGTTTAGTACGTGCTGGAGTAACAATAACAGCTCCAGATCAGGTGCTACACGCAATGGAAATAAAATAA	MGKSFIIQNQRSLNGKTTNAVVVTLKSWQKFVAAFEEKYYSYKDTYLEDILQHMTYEERIADVEGFVEKAKPSFSRRAMSTLAEKTGRKHKLYGITNADLEVFLYLHKKCFTNGVIPNVTIHMMWEDYKQYKEEFAYIQHSQFYIALKKLNLHNIISIENGLDGRYTIKLTHFMNEETEKANPYVYISPVIFTKDFFKLSIAAKKLFLDIAMQQHTETTLKRSLDKQDERGNKTHFGGMYRFLHKKYPHQIRAVIEELTTALPCTGNPLFKICKMQKGVKHTKRYTTLYLSIHSDFLCSKEAGEEQHRDPFTPKATYARKAKFIEAVLQEMNIGELSADMNKFIHVLKYTCHRQIRSVIRGLRDMVDRKEGYPTKIVYTLKKLLHQTSQYQILDTAAKEGIYPLIAQHIPKERNSDREQAVFNFGLHYSMYSLHNIKRMFKNVHALLKQKFAVPVTEESYYRNYLKYQEETLFRKYAYDQGVNLHAYIALEIEMREKLKVRGHKERTIPSDVREWFIEAIDKLPQEKLRVIELPKQFNLLEFMRTFERLVRAGVTITAPDQVLHAMEIK				NA	NA	NA	NA	NA
AK009_09252	1695			hypothetical protein	GTGGAGAAGTTAAAAGTACTATTTCAAAACACTTTATATATAGCGTATCCTTTATTTACTGGGGTAAAGGGGAATGATAAGATTTTAAATAAATGGCAAAGATTTTATCAAGATGTGGAAAAAGATCTACAAAAAATATATAACTCAACTTATTCATCACAGACTTTCGAAAGGCTAGTAAAATGGGTTTCTAAAAAAGAAGCCTTAGGATTATCTGCAATAGATATTCTCCCTAAATTAGATAATCATAAGGAAGAAATTTACGAATGCCTAAGATATGACTTATTAATGGAATTTGGAGTTAAACTGCCTGTTTTCACAAAAGAATTACCTTTAAATTCAGGACCTAAAAGTGAATATATAGAACGAAGTAATGCAGGATTTATGTATCATTTATCAGATACAATTGCCAAGAATAAGTTTGCAGATGACCAAGATAAGGAAGGTCGTATTGCTCAGTTACCGGATAAACAAAATAGTCTTGTGGTAGTATCTTCTCGCGATGATGGTGATATGAAATTACAGAGAGAGGAGTTGAAAAAGTGGAATACGCTAATTGATTCTACATTTTTAACTAGAGTAATGGATGATTTGACGGCGGACTGCCTAGATATTGTAACAGAACTATGGGTAAAGAGTGCGGAAAATGATAAGACCATTGTGCCTGTACATTACGAACAAATCCTAGATATGTGTAATATGAAACAAATTAAGAACGGTAAAACTTATTATCGAAAAGAAGACAGATTAAAAATTATGGAGCGTTTAGCTGCTCTTGCTAGTATTTTTATTTATGTAAATGAAGATAATGAGATAGTGATTTTAAATGAAGAGGATCCAAATGAAACTTTAGCTTATAAAAAGCAAAGAATTAGAAGATTATTTGTAATGGACGAAATTATTATTGCAAAAGATGTTGATACAGATAAAACATTAGGTATAGAGAGCATGAACGTTACACCAGGTAGTTTTTTATCGAAATATCTATACGGTTCTGAAAAACTGACAGGTTTATTATCTAAAAAGGCATTAGAGTATAACAGTAAACAACAGAGGTATCATAAAAGGTTGACAAGATATTTAAGTTGGCGTTGGCGTATTCAACAATCATATCAACATTTAACACATTCATATAGTATTGGTGGTCCCAAAGGAGTTTTACAGGTAATGGAGATAAGTATGAAAAGAAAGCCAAGTCTAATCAGACAAGTTTTTGAAAAGACTTTAGATGACCTTATGAGAGACCAAGTAATTCAAGAGTGGAAATACTCTCCTGAAATAGATGAAGAGAAATGTAAGGGGAAAAATTGGTTTGAAAACTATTGGTTAAAGTTAAAAATAATTATTTCTCCTACAAATGAGCTTGTTAAATTACAACAAGAGTTAATTATTAAGAAAAGTAGGAAACAGGTACCATTTTTCATTGAAATAGAAGGAAAGCAACCAGTTATTGAAGAGGAGACAATTAGTATATTAAATCAAGAGAACCCTAATAGCATTGAATTTTATATCGAAAAGATGAACACGTACAAAGAGAAGAATAATAAAAGTATACGTGAGTTTGCAAAAGAAATTGAGATTTCATATTCAACACTTTCAAGAATGTTATCTGGAAAAAGAAAAAGATTAAATGACGATACGAAAAATAAGTTAGATAAGTGGATAGAGAGACAAGAGGTAGTGAATTTATTATAA	MEKLKVLFQNTLYIAYPLFTGVKGNDKILNKWQRFYQDVEKDLQKIYNSTYSSQTFERLVKWVSKKEALGLSAIDILPKLDNHKEEIYECLRYDLLMEFGVKLPVFTKELPLNSGPKSEYIERSNAGFMYHLSDTIAKNKFADDQDKEGRIAQLPDKQNSLVVVSSRDDGDMKLQREELKKWNTLIDSTFLTRVMDDLTADCLDIVTELWVKSAENDKTIVPVHYEQILDMCNMKQIKNGKTYYRKEDRLKIMERLAALASIFIYVNEDNEIVILNEEDPNETLAYKKQRIRRLFVMDEIIIAKDVDTDKTLGIESMNVTPGSFLSKYLYGSEKLTGLLSKKALEYNSKQQRYHKRLTRYLSWRWRIQQSYQHLTHSYSIGGPKGVLQVMEISMKRKPSLIRQVFEKTLDDLMRDQVIQEWKYSPEIDEEKCKGKNWFENYWLKLKIIISPTNELVKLQQELIIKKSRKQVPFFIEIEGKQPVIEEETISILNQENPNSIEFYIEKMNTYKEKNNKSIREFAKEIEISYSTLSRMLSGKRKRLNDDTKNKLDKWIERQEVVNLL				NA	NA	NA	NA	NA
AK009_09253	240			hypothetical protein	ATGGATACATTTCGAGATAAATTAAGGTTGGGTGCAATAGATATTAATCAGAATGATAAAAATGGAGTATTTCTACGTCAATTTGATGAGGTTCGATATAAAGAAGAAAAGTATATCATTATTTGGCATCCAATATATGAGGAGTTTGTTGCATCTCATCATACAAGAAAATTCATTCCATATGAATTGTTGAATAGAGTTGAATATAAAAAAAATCTAAAAGAAAATGTACCTAAATAA	MDTFRDKLRLGAIDINQNDKNGVFLRQFDEVRYKEEKYIIIWHPIYEEFVASHHTRKFIPYELLNRVEYKKNLKENVPK				NA	NA	NA	NA	NA
AK009_09254	486			hypothetical protein	ATGATTAATAATTGGATGACAATTATCGAAGTTGAAAAGGTAACAGAAATTTCATATGTAATCATAAGACGCTATATTAGAATGCACGGTCATCACTTAAGGGTAAAAAAACAGGGAAAAAACTACTTGATTTCTAAGGAATACATTCATATTTTATTAAAAATACGATTGTATTATCAGGAAGGAAAAACGACAGAGCAAATAGAGGATGTGCTCTGTTCTGTACATATCTTACCCAAAATAAATATTAATGAAAATGAAAAGTCTATGGTACTTAATGTTACAGAGACTTTAATACATATGAATTCAGGTTTGAACGATTTAAATAGAAAGTATGATGGATTATTACACGAATTTGAAAAACAAAAAGAATATATTGAGGATGTATTAACAAAAAGACAGCAAAAATTATTGTTAAAGTTTCAGGAAACGGAAGGATTCAATAGTAGGCAAGATAAAAAATGGTGGAAGTTGTGGAGACTATAA	MINNWMTIIEVEKVTEISYVIIRRYIRMHGHHLRVKKQGKNYLISKEYIHILLKIRLYYQEGKTTEQIEDVLCSVHILPKININENEKSMVLNVTETLIHMNSGLNDLNRKYDGLLHEFEKQKEYIEDVLTKRQQKLLLKFQETEGFNSRQDKKWWKLWRL				NA	NA	NA	NA	NA
AK009_09255	621			hypothetical protein	ATGGTGTTAAGATCACGCGATAAGAAAATTATACAAGCTTTGGATCTCTTTAAATGTATGACTAGGGATCAAATTGTTCGTTTGTTGTTTTCTGATGTGAAAAACCCTATTACATCTGCAAATTTTGTGCTAAAAAGGCTGAGGAGAGATGGATATATTGACGCCAAGATAGATGAACAGCCATATATCTATTTTCCAGAGCCATCTAGTGTCAAAAAGACTTCTCAAAAAATAAAACATTACCTAGCTATTGTTGATTTTTATATTGGTATTTGTCAGTATAAATCCCCGTCTGTTTTTGTAGTAGAAAAAAGGTTTGGTTCTGGATATATCCAACCTGATATTTTCATGGTGTGGAACAAAATGGCATTTTTTGTTGAGATTCAACTTTCTAGATATTCTTCAGATCTAATGAAAAATAAATTGAAACGATATATAAATTATTTTGGAGCTGAAGAGTGGAATTTCAAAAATAAAACATATGAACTTAGTACTTCACCGTATGTTTGGATTGTTTCGAAATCGCCCTATGCTATATCGGAAGAAAAACTTCAAATTATTCAAACATCTAGAGCAGAAGGTATTTTGCATAATAAGACCATTTCAATCAAACATGGTTAA	MVLRSRDKKIIQALDLFKCMTRDQIVRLLFSDVKNPITSANFVLKRLRRDGYIDAKIDEQPYIYFPEPSSVKKTSQKIKHYLAIVDFYIGICQYKSPSVFVVEKRFGSGYIQPDIFMVWNKMAFFVEIQLSRYSSDLMKNKLKRYINYFGAEEWNFKNKTYELSTSPYVWIVSKSPYAISEEKLQIIQTSRAEGILHNKTISIKHG				NA	NA	NA	NA	NA
AK009_09256	375			hypothetical protein	ATGAAGAATAGGATTAAAGAAATTAGAAAAAAAAATGGCGATACTTTAAAGGATTTAGCAAAAAAAACTAACTATGATTACAGTAATCTATCTAAAATTGAGCGAGGAATATATACCCCTTCCCTAAACATACTGAAAAAAATTTCAACTATATATAATATAGATATTCAGTATCTGATTGAATTGGATGAAAAGTGCGAAGATGAATTAAATGAAAAAGAGTTCATCCTAGACATAAATTTGAACTCGCAAGAATTACTGAAAAAATATAATTTAATTTTGGATGGTAAATTAGCTACAGAAGATGAAATAGAATTAGTGGTACAAATCATTCGGAAGCTACGTGAAACTTTAGAAAAGAAAAAAAACGGCTAA	MKNRIKEIRKKNGDTLKDLAKKTNYDYSNLSKIERGIYTPSLNILKKISTIYNIDIQYLIELDEKCEDELNEKEFILDINLNSQELLKKYNLILDGKLATEDEIELVVQIIRKLRETLEKKKNG				NA	NA	NA	NA	NA
AK009_09257	432			hypothetical protein	ATGAAAGAAAACATAAATTTAAATTCTGTTGTATTTAATACACTAAAACAATATGAACAAGCATTCACTATAATGACATTTCGTTTTACAAAAATTGATGAAGATTTTTATTACACCTACATTGATCCTGCTTTAGTAGATAACATGCAACTATCTAAAAAACATTTTATTAACAGAAGGCTACAAGATATATGCATAAATCGCGAAATATTTAATAAAATGTACACCTATTATGAACTAGCATGGAAAAATGAACAATCCAATTTATATATATTTAACCTTAACACGCATATATATATTATTTACTTTAAAAAAATTTATGTTGAAAAGGAAAAAGAGGTAGTGCAGGGGCATTGTATCCCAATAAATCCTAATTCAGAATTACTATCTGCTCTTGATATACCTATAGTCCATAGATTTGATTTTATATAA	MKENINLNSVVFNTLKQYEQAFTIMTFRFTKIDEDFYYTYIDPALVDNMQLSKKHFINRRLQDICINREIFNKMYTYYELAWKNEQSNLYIFNLNTHIYIIYFKKIYVEKEKEVVQGHCIPINPNSELLSALDIPIVHRFDFI				NA	NA	NA	NA	NA
AK009_09258	750	cyt1Aa		Type-1Aa cytolytic delta-endotoxin	ATGGAAAATTTAAATCATTGTCCATTAGAAGATATAAAGGTAAATCCATGGAAAACCCCTCAATCAACAGCAAGGGTTATTACATTACGTGTTGAGGATCCAAATGAAATCAATAATCTTCTTTCTATTAACGAAATTGATAATCCGAATTATATATTGCAAGCAATTATGTTAGCAAATGCATTTCAAAATGCATTAGTTCCCACTTCTACAGATTTTGGTGATGCCCTACGCTTTAGTATGCCAAAAGGTTTAGAAATCGCAAACACAATTACACCGATGGGTGCTGTAGTGAGTTATGTTGATCAAAATGTAACTCAAACGAATAACCAAGTAAGTGTTATGATTAATAAAGTCTTAGAAGTGTTAAAAACTGTATTAGGAGTTGCATTAAGTGGATCTGTAATAGATCAATTAACTGCAGCAGTTACAAATACGTTTACAAATTTAAATACTCAAAAAAATGAAGCATGGATTTTCTGGGGCAAGGAAACTGCTAATCAAACAAATTACACATACAATGTCCTGTTTGCAATCCAAAATGCCCAAACTGGTGGCGTTATGTATTGTGTACCAGTTGGTTTTGAAATTAAAGTATCAGCAGTAAAGGAACAAGTTTTATTTTTCACAATTCAAGATTCTGCGAGCTACAATGTTAACATCCAATCTTTGAAATTTGCACAACCATTAGTTAGCTCAAGTCAGTATCCAATTGCAGATCTTACTAGCGCTATTAATGGAACCCTCTAA	MENLNHCPLEDIKVNPWKTPQSTARVITLRVEDPNEINNLLSINEIDNPNYILQAIMLANAFQNALVPTSTDFGDALRFSMPKGLEIANTITPMGAVVSYVDQNVTQTNNQVSVMINKVLEVLKTVLGVALSGSVIDQLTAAVTNTFTNLNTQKNEAWIFWGKETANQTNYTYNVLFAIQNAQTGGVMYCVPVGFEIKVSAVKEQVLFFTIQDSASYNVNIQSLKFAQPLVSSSQYPIADLTSAINGTL				NA	NA	NA	NA	NA
AK009_09259	540			putative 20 kDa protein in cryB1 5'region	ATGAATATGAATTTTGATTTCGAGGATCATGAAAATAAGAATTTATCTGTGCAGGAGGAACATCACCATTGTAGTGAAGGAGGGGAACATAAAATAGCATTTTGTTGTGTAGTCTCAATTCCAAAAGGTTTTAAATATGTTGCCCATTGTGATCCGAAATTTGTATATAACCTTGATTGTCTATCCGTTTCAAAAGAAAAATGCCGTAAGGTTGTTCCTATAGAAGGATGTGGATGTGCAGAGGTAGATTTACATGTATTAAAGGTAAAGGGATGCATCTCATTTGTATCGAATATAGAAATAGAACCTATTCATGAATGCATGACCTGCTCAGCAAATCCACATAAAGAAAACATTGCTGTGAGTTGCCAAGATACTGTCTGCGTAGATCAAGTTTTGTATTGCAGTGTAGATTGTTTGCCAGATTGTGATATTAATTGTGATAATGTAAAAATTTGCGATGTGAGCATTGAACCAATTGGAGATTGTGATTGTCACGCGGTGAAAATTAAAGGGAAATTTTCACTTCACTATAAATAA	MNMNFDFEDHENKNLSVQEEHHHCSEGGEHKIAFCCVVSIPKGFKYVAHCDPKFVYNLDCLSVSKEKCRKVVPIEGCGCAEVDLHVLKVKGCISFVSNIEIEPIHECMTCSANPHKENIAVSCQDTVCVDQVLYCSVDCLPDCDINCDNVKICDVSIEPIGDCDCHAVKIKGKFSLHYK				NA	NA	NA	NA	NA
AK009_09260	1932			Pesticidal crystal protein Cry11Aa	ATGGAAGATAGTTCTTTAGATACTTTAAGTATAGTTAATGAAACAGACTTTCCATTATATAATAATTATACCGAACCTACTATTGCGCCAGCATTAATAGCAGTAGCTCCCATCGCACAATATCTTGCAACAGCTATAGGGAAATGGGCGGCAAAGGCAGCATTTTCAAAAGTACTATCACTTATATTCCCAGGTTCTCAACCTGCTACTATGGAAAAAGTTCGTACAGAAGTGGAAACACTTATAAATCAAAAATTAAGCCAAGATCGAGTCAATATATTAAACGCAGAATATAGGGGGATTATTGAGGTTAGTGATGTATTTGATGCGTATATTAAACAACCAGGTTTTACCCCTGCAACAGCCAAGGGTTATTTTCTAAATCTAAGTGGTGCTATAATACAACGATTACCTCAATTTGAGGTTCAAACATATGAAGGAGTATCTATAGCACTTTTTACTCAAATGTGTACACTTCATTTAACTTTATTAAAAGACGGAATCCTAGCAGGGAGTGCATGGGGATTTACTCAAGCTGATGTAGATTCATTTATAAAATTATTTAATCAAAAAGTATTAGATTACAGGACCAGATTAATGAGAATGTACACAGAAGAGTTCGGAAGATTGTGTAAAGTCAGTCTTAAAGATGGATTGACGTTCCGGAATATGTGTAATTTATATGTGTTTCCATTTGCTGAAGCCTGGTCTTTAATGAGATATGAAGGATTAAAATTACAAAGCTCTCTATCATTATGGGATTATGTTGGTGTCTCAATTCCTGTAAATTATAATGAATGGGGAGGACTAGTTTATAAGTTATTAATGGGGGAAGTTAATCAAAGATTAACAACTGTTAAATTTAATTATTCTTTCACTAATGAACCAGCTGATATACCAGCAAGAGAAAATATTCGTGGCGTCCATCCTATATACGATCCTAGTTCTGGGCTTACAGGATGGATAGGAAACGGAAGAACAAACAATTTTAATTTTGCTGATAACAATGGCAATGAAATTATGGAAGTTAGAACACAAACTTTTTATCAAAATCCAAATAATGAGCCTATAGCGCCTAGAGATATTATAAATCAAATTTTAACTGCGCCAGCACCAGCAGACCTATTTTTTAAAAATGCAGATATAAATGTAAAGTTCACACAGTGGTTTCAGTCTACTCTATATGGGTGGAACATTAAACTCGGTACACAAACGGTTTTAAGTAGTAGAACCGGAACAATACCACCAAATTATTTAGCATATGATGGATATTATATTCGTGCTATTTCAGCTTGCCCAAGAGGAGTCTCACTTGCATATAATCACGATCTTACAACACTAACATATAATAGAATAGAGTATGATTCACCTACTACAGAAAATATTATTGTAGGGTTTGCACCAGATAATACTAAGGACTTTTATTCTAAAAAATCTCACTATTTAAGTGAAACGAATGATAGTTATGTAATTCCTGCTCTGCAATTTGCTGAAGTTTCAGATAGATCATTTTTAGAAGATACGCCAGATCAAGCAACAGACGGCAGTATTAAATTTGCACGTACTTTCATTAGTAATGAAGCTAAGTACTCTATTAGACTAAACACCGGGTTTAATACGGCAACTAGATATAAATTAATTATCAGGGTAAGAGTACCTTATCGCTTACCTGCTGGAATACGGGTACAATCTCAGAATTCGGGAAATAATAGAATGCTAGGCAGTTTTACTGCAAATGCTAATCCAGAATGGGTGGATTTTGTCACAGATGCATTTACATTTAACGATTTAGGGATTACAACTTCAAGTACAAATGCTTTATTTAGTATTTCTTCAGATAGTTTAAATTCTGGAGAAGAGTGGTATTTATCGCAGTTGTTTTTAGTAAAAGAATCGGCCTTTACGACGCAAATTAATCCGTTACTAAAGTAG	MEDSSLDTLSIVNETDFPLYNNYTEPTIAPALIAVAPIAQYLATAIGKWAAKAAFSKVLSLIFPGSQPATMEKVRTEVETLINQKLSQDRVNILNAEYRGIIEVSDVFDAYIKQPGFTPATAKGYFLNLSGAIIQRLPQFEVQTYEGVSIALFTQMCTLHLTLLKDGILAGSAWGFTQADVDSFIKLFNQKVLDYRTRLMRMYTEEFGRLCKVSLKDGLTFRNMCNLYVFPFAEAWSLMRYEGLKLQSSLSLWDYVGVSIPVNYNEWGGLVYKLLMGEVNQRLTTVKFNYSFTNEPADIPARENIRGVHPIYDPSSGLTGWIGNGRTNNFNFADNNGNEIMEVRTQTFYQNPNNEPIAPRDIINQILTAPAPADLFFKNADINVKFTQWFQSTLYGWNIKLGTQTVLSSRTGTIPPNYLAYDGYYIRAISACPRGVSLAYNHDLTTLTYNRIEYDSPTTENIIVGFAPDNTKDFYSKKSHYLSETNDSYVIPALQFAEVSDRSFLEDTPDQATDGSIKFARTFISNEAKYSIRLNTGFNTATRYKLIIRVRVPYRLPAGIRVQSQNSGNNRMLGSFTANANPEWVDFVTDAFTFNDLGITTSSTNALFSISSDSLNSGEEWYLSQLFLVKESAFTTQINPLLK				NA	NA	NA	NA	NA
AK009_09261	549			hypothetical protein	ATGACAGAAAATGGAGTGTTTTATAAAATATTCACAACAGAAAATAATAATTTTTGTATAAATCCTACTTTGTTAGAAAGGGTTTTTAAAAATAATTTAGATGAATTTGATTTTTCGCTAGTAAAAAAAAACTTAGAACATGAGAAGAATTGTGTGATTACTTCTACAATGAATCAAACAATTTCTTTCGAGAATATGAATAGTACAGAAATGGGGCATAAGACATATTCTTTTTTAAATCAAACAGTATTAAATAATAAGGGGAATTCTTCTTTAGAGGAACAAGTCTCTAATATTTTTTATAGATGTGTATATATGGAAGTTGGAAAATCAAGTTCATATATTAAACCTCTTGAGCAGGATTCTAATAAAATAAGGTATGTTTGTAGTTTGCTCTTTATAGTGCCCTATAAGAATAACATAACATCAATTATTCCAGTAAATTTACAACTAACATTATTATCGAAAAATGTAAAACAATCCTCTTCTACAAATATATTTTCAGGAGATATACATTTTAATATGGTAACAATGACTTATTTAACTTAA	MTENGVFYKIFTTENNNFCINPTLLERVFKNNLDEFDFSLVKKNLEHEKNCVITSTMNQTISFENMNSTEMGHKTYSFLNQTVLNNKGNSSLEEQVSNIFYRCVYMEVGKSSSYIKPLEQDSNKIRYVCSLLFIVPYKNNITSIIPVNLQLTLLSKNVKQSSSTNIFSGDIHFNMVTMTYLT				NA	NA	NA	NA	NA
AK009_09262	1659			hypothetical protein	GTGCGAGGCGACCTCGGTCGTCGTCCACCATTCTCCGGGGTCCGCGCCGGGCACGCCCGCGTCGGCAAGGCGCGCGAGCTGTCGCGCAGCTTGTCGACGCCCCGCCTCACCAACGCCGGGATCCTGAAGGGCTCGGCGCAGCTCCGCTATCACGTCGTCGCGCGCGAGCACGCGAACGGCGGTGAGCTCGTCCGCCCCGGGGGCGGGGTCGGCGGAGCTCGAGGCCGTTGTCACGCGTGCTGGTGCAATGGAGTGGCTGGTACAGAACTCCTCGATGAAGCGCGAGGGCTGGATCACCTCCTCGCCGTCAGGCTCGTCGACGGCCGTGACCAGCACGCAGTGGGTGGCCCTGCTGGTGGCCACGTCAAACAGGCGCTTCTCCTCCGCCAGCTGCTCCGCCTTCCGGCTCACCGGCACCGCGGGGTCGACGTTGTTGTCGACAAGATCAACGAGCTCTTCTTGGCAGAACATCGTGCCGGTTTCCGCCAACGACGGCCACTGCATCTCTTGCACACCCGCGACGACGACGGTGTGGAACTCACGCCCCACCGCACCGTGCGCCGTGAGCAGGGCGACCGCGTCCGGCGTGGCGGTGCGCCTATCGCGCACGCCGGTGGGCAGCTCCTGCTCCGCGATGTGCGCGACGAAACCTGCGACGTTGGAGCCGCCGACACGGCGCTCGACGTAGTCGCCGGCGGCGTCGAAAAGCGCCATCACGGCGTCGAGGTCGCGGTCGGCTTGGGATCCCGTCGCCCCGCCACGCAGCGCGGCGGTGAGCAGGCGGTTCGCCAGGCCGGTCGCGTTCCACACCGCCCACAGGACGTCCTCGATGCTGCCCTGGGCAAGCTCGCCGCGCCCGGCGTCGAGCACGGCGCGCACGTGGCCCAGGATGGACAGCTCACGCTCGGTGAGCATGACGCCGAAATCGGGCAGGGGCTGGGTCGATCGCAGCAGGTGGCGCAGAGTGTCTTCGGCACGTTCTTCCGGCTGCCAGCGGCGCAACCCGCGCAACAAGCGGCGCAGGGTGACAGGGTCGGTGCCGCCGACCGGGCCGAGCAGAAGGTCGCGCCACTCGGCGGAGCTCAGCTCCCCCTCCAGCGCGCGCAGGCCGAGGATGAGCGCGGCGACGATGCGCTGCTCGCTCAAGACCACGTCGGTGGGGTTGAGCATGACCGGAACGCCGGCGTGCAGCAGAGCGCGCCGAACGGACTCGATCGAGCCGACCGAGCGCACGATCACGGCCATCTCGCGGTAGTCAACGCCGCCTTCGAGGTGGGCGCGGCGCACGGTGTCGGCGACGATGGAGTGCTGGGCCGCGCTACTGTCACACACCGCCGCCTGGGCAATCGGTGCGCGCCGCGACGCCCCGAGGTCGATGACCTCGTGGTCGAGCCCCCCGAGGTTCGCAAAAAAGCGTGGCGACGCCCCACGGAAGTGAAACACACTCTGGCCGAGGTCGCCGCCGACGACACCCAGCGAGGCGTGCTCTACAAGGCGGCGCACGAGCTCGCCGGCTGCAGGCGCGAGGTGCTGCGCGTCGTCGACGACGACGGTGTGCCAGCGACCGTCGATCTCGCCGCGCAGTACCGAGGAGACGAGCTCGGAGGCGCTGACGAAGCGTGCCGGGTTAAGCGCCATGACCTGCTGGTACTCGTCTAA	MRGDLGRRPPFSGVRAGHARVGKARELSRSLSTPRLTNAGILKGSAQLRYHVVAREHANGGELVRPGGGVGGARGRCHACWCNGVAGTELLDEARGLDHLLAVRLVDGRDQHAVGGPAGGHVKQALLLRQLLRLPAHRHRGVDVVVDKINELFLAEHRAGFRQRRPLHLLHTRDDDGVELTPHRTVRREQGDRVRRGGAPIAHAGGQLLLRDVRDETCDVGAADTALDVVAGGVEKRHHGVEVAVGLGSRRPATQRGGEQAVRQAGRVPHRPQDVLDAALGKLAAPGVEHGAHVAQDGQLTLGEHDAEIGQGLGRSQQVAQSVFGTFFRLPAAQPAQQAAQGDRVGAADRAEQKVAPLGGAQLPLQRAQAEDERGDDALLAQDHVGGVEHDRNAGVQQSAPNGLDRADRAHDHGHLAVVNAAFEVGAAHGVGDDGVLGRATVTHRRLGNRCAPRRPEVDDLVVEPPEVRKKAWRRPTEVKHTLAEVAADDTQRGVLYKAAHELAGCRREVLRVVDDDGVPATVDLAAQYRGDELGGADEACRVKRHDLLVLV				NA	NA	NA	NA	NA
AK009_09263	582			hypothetical protein	TTGGCGTTCCACGGCGCGCAGGAGGAAGTCGCGCAGCTGCCGGGCAAAGCCCACCATGGAAAGCGCGGGGCGCAGCTGCTCCGGCCATGTGCCGCGCCCGTCCTCGGCGTGGCCCTGGAGGAGCTGGCGGATGGCGGCGTCCTGCTCGGCGCCGGAGATCAGCCGGATATCACCGTCCACGCGTTGACGCAGCAAGGCGAACGCCAGGGAGTGCACGGAGCGCACCATCGGCTCGTCGATGACGAACCCGGAGGCAGCGAGCCGGTCGGACAGCTCGACGCGCAGGCGCGCGCCCGATTCCTTAGACGAGCTGATGACCAGGATGCCGCGGGGGTCGGCGCCGGACTCGACGGCGCGCACGACGGTGTCAATGAGGAAGCTACTGACTCCCGAGCCCGCCTCGCCCGTGACCTTCCAGGTCCCGCTCGTGGGCAGGGGTTGGGCCCACGAGCGCTGCTCAGTGCGGCGGCGGCGCGGCACAAGGTAGGCCCGCGGTGGTGCGGGAAGAGAGTTGTCTGTCGCCATGGGCACCGATTGTGCCAGGCTAGATCGACACCAGCGCGCGAACCCGCCCCAAATTAG	MAFHGAQEEVAQLPGKAHHGKRGAQLLRPCAAPVLGVALEELADGGVLLGAGDQPDITVHALTQQGERQGVHGAHHRLVDDEPGGSEPVGQLDAQARARFLRRADDQDAAGVGAGLDGAHDGVNEEATDSRARLARDLPGPARGQGLGPRALLSAAAARHKVGPRWCGKRVVCRHGHRLCQARSTPAREPAPN				NA	NA	NA	NA	NA
AK009_09264	624			hypothetical protein	ATGGGCACCGATTGTGCCAGGCTAGATCGACACCAGCGCGCGAACCCGCCCCAAATTAGCACTCACATTCGATTCGCCGCGGCAAGACGCGCTGGTGAGTTCACGAAACTCGCACGCCTTGAGCGCCAGCGCACCCAGGTCTGGGATGTGCGCCCAGCGAGAGACAATGCGCTCATCGACGGCCTCGTTGAGAAGGGCGTCGACAAGCGTGAGCGCCGCCGTGTACCCGCGCGGGCGCGGCTCGGCAGACGGGACGATGTCGGTCAACGCTGGCGGCAACGTGCCCGAAAACAGGCAGCAGGCGAAGAAGTCGAGGTGGGCCACAGACACCCGTCCAGTTGGAGCCGCCGCATCCCACACCGCGCGATCCGCCTCCGCCCACATGTCGGTGCGCTCGACTGTCGGGGCGTCCACGCCGGCCATCGCCTCGTCGAAGGCCAGCGCGGCGGCGACTGCCTCGTCGGCACGCGCTGCGATATCGCCCTCGATGAACTCGCTGGCCCGAAAGCCGCCGACGACGACTCGGCCATCGGTGGCGCGCACGGGCCGTGCCACGAGGACGCCCGGGGAGGTAAAGCGCTCTCGGACCTTCGCAGACCACGCGGAGGTGGCTGTCGCTGCTGA	MGTDCARLDRHQRANPPQISTHIRFAAARRAGEFTKLARLERQRTQVWDVRPARDNALIDGLVEKGVDKRERRRVPARARLGRRDDVGQRWRQRARKQAAGEEVEVGHRHPSSWSRRIPHRAIRLRPHVGALDCRGVHAGHRLVEGQRGGDCLVGTRCDIALDELAGPKAADDDSAIGGAHGPCHEDARGGKALSDLRRPRGGGCRC				NA	NA	NA	NA	NA
AK009_09265	1335			hypothetical protein	GTGGTCAAGGCTGTGCAGCTCAGCGTTGTTCAGGCTCAGCGTCTGCTGCATCATCGTGGGCGCCAAGGCGCCGTTTTCTGGGCAGGGAACGTGCTCGGCGAAACCGAGGGCATGCCCGACCTCGTGGTTGACCAGGTACTGGCGGTAGCGTCCCAGATCGCCTTCGAAGGGGGCGGCGCCGCGCACCCAGCGGGCCTCGTTGATCACGACCGTGCTCACGCCGGTGGCCATGGTGCGGCAGCTCGTTTCCAGCCCGAGGTCGCCGCCGCAGTTGGCCTTCGTCGTGCCCGGGGAGGTGAGCTGGATCTTCAGGTCGGGGTTTTGGTCGGCGGCGACGTGCTCGAAGCCGAAGCGCGGGTCGTTGGTCCACCCGCGCGGGTCCGCGAGGGTGGCGTCGACAAGCGCCGCAAACGCGTCGTCGCCGCCGTACAGGCTGGTGTCGAGGCCGTTTTCCACCTCGACGATGTAGCGCAAGACCAGCTCTTCACCCCGGCCCGCCGCCGCGCCGGGCGCCCCGATCGTGCGGAACGTGCCCTCGCCGCGCTCGGTAAACGGCCCGCCGGGCGGCAGGTCCTCCAAGCCGACGCTGCCCTCTGGCAGCTTCGCGGGCTCGCGCGCGGGGCTGGCCTCGTGGTTGTGCGCGCTATCGCCCTGGCGCGAATCAGAGGTGTCCGCCACCGGCGAGGCCACCACCGCCTCCCCCGGGTTAGAAACCATGTTGACCAGCACGAAGACGGTCAGCACGGCGAGCACCGGGATGGCGTAAGCACGCCAGCCGTACTCGCGGGCGAAGCGGACGAAGAACGACGGCTCCTTCTCGCGAGTCTCGGGCCTGGGGTGGGGCTCGTGGCCGTGCCTATGTGTCATACGCCTCAATCTAACCCGGCGCTAGCGGGCGAAGCCAACGGCGCGCGCGTTGGAGTTACCTACCTCAACGTAGGCAATGCGCTCGGTGCGGACGAGGAACTTGCGTCCCTTGTCGTCCTCCAACGTCAGCGTTGGCTGGCCTTCCGCGATCGCCGTGCTCACGCGGGCGAGTACGTCCTCCTGCAGGTCGTTGCTGGAAACGGCGAGCTCGCGCTGGCTGTCGGAAAGTCCGATCCTGATATCCATGTGCCTAGATTCACTGTCCTTGTCTCAGATTGGTTTTCATTGGTTTTCTCAAGTGGACACCATTGTATAGAGGGCATTATCGCCAGCAGCATCCACTGCATCCGCCGACGAAAATGCACCAACGCTAAGATGAGCGTGTGCCAGACGCAAAAGATCCCGCAGAGAAACTCGCGCCGACGTTCGCTGAGCTCGGTGTCGCGGCGGAGATTGTCGACGCGTTAG	MVKAVQLSVVQAQRLLHHRGRQGAVFWAGNVLGETEGMPDLVVDQVLAVASQIAFEGGGAAHPAGLVDHDRAHAGGHGAAARFQPEVAAAVGLRRARGGELDLQVGVLVGGDVLEAEARVVGPPARVREGGVDKRRKRVVAAVQAGVEAVFHLDDVAQDQLFTPARRRAGRPDRAERALAALGKRPAGRQVLQADAALWQLRGLARGAGLVVVRAIALARIRGVRHRRGHHRLPRVRNHVDQHEDGQHGEHRDGVSTPAVLAGEADEERRLLLASLGPGVGLVAVPMCHTPQSNPALAGEANGARVGVTYLNVGNALGADEELASLVVLQRQRWLAFRDRRAHAGEYVLLQVVAGNGELALAVGKSDPDIHVPRFTVLVSDWFSLVFSSGHHCIEGIIASSIHCIRRRKCTNAKMSVCQTQKIPQRNSRRRSLSSVSRRRLSTR				NA	NA	NA	NA	NA
AK009_09266	585			hypothetical protein	GTGGACGTAGGTCATGGGGTCATCCGGGGTCTGGAAGTTGATCACGTGGGTGACGTCGTCGACGTCGATGCCGCGCGCGGCGACGTCCGTGGCCACAAGGATGCTCACCTCGCCGCTGCGAAACGCCTCGAGCGCCTGCTCGCGAGCGCCCTGGCCCAGGTCGCCGTGGACGGAACCGACGTCGAAGCCGCGCTCGGCAAGATCGCGCGCCACCTCGGCCGCGGTGCGCTTGGTCCGCGTGAACACGATCGTGCGGCCGCGGCCGCGGGCCTGCAGGATCCGCGCGGTGACCTCGAGCTTGTCCATGCGGTGCGAGCGAAACACCACCTGGCGCGTGGTCGAGTGCGTGCTCGGGGTGTTCGCGGCCTCCGCGCGGATGTGCACAGGCCGGTTCATCAACGAGCGCGCGAGCGTCAAAATCGCCCCGGGCATCGTGGCCGAGAACAGCATCGACTGCGCCGGCTGCGGCAGCGCCGCCCACAGCTTCTGAATGTCCGGCAGGAAACCGAGGTCGAGCATCTCGTCGGCCTCGTCGAGAACCAACACGGCCACGCGATCGAGCTGCAGGTTGCCGCGGTTGAGTAG	MDVGHGVIRGLEVDHVGDVVDVDAARGDVRGHKDAHLAAAKRLERLLASALAQVAVDGTDVEAALGKIARHLGRGALGPREHDRAAAAAGLQDPRGDLELVHAVRAKHHLARGRVRARGVRGLRADVHRPVHQRARERQNRPGHRGREQHRLRRLRQRRPQLLNVRQETEVEHLVGLVENQHGHAIELQVAAVE				NA	NA	NA	NA	NA
AK009_09267	1374			hypothetical protein	GTGGGCCGCCATCAACACCGAGCTGGGCCTAGAGATGCCCGAGCCGCCGGAGTGGTTTTCCACCTCGCCCGAGCTCTACCAGGGACTCGACATCCCCGACTCCGCGGGCGAGCGCGTCGGCCCGGCGGTCACCGTCCACGGCGACCCGACCCCGCGCCGCTCGCGCGAAAGGAAGCGCCGGTGAGTGCTCCGTATCGACGCACCCGTGGCGACCTGATCGCAACGGCGGTTATCGCCGTGGTCTCGCTGGTCCTCGTGGCCGCGGCCTTTCTCACCGCCCCCATCCGCGCCTCCCAGCTATCGCCTGCCGAGAAGCAGTACGAAAGCGCCGCTCGCTTATCGACGCCCCCGACAACGCTCCAGGAGTCCTTCCGCCTGCCCGACACCTCGCCGGGAGTCTCCCCGGTTATCGCGGAGGGCATGATCATTTCCTACGCCGACGGCACGCTCCGCGCGACGACGCCGCAGGGCGAGACGGCGTGGACGTATCAGCGCGACCTCGAGCTGTGCACACTTGACCAGGCCTGGGGAAAGGTGATCGCCACCTACCGCGGCAACGCGGGGTGCGGCGATGTCGTGGCGCTCGACGCGCTGGCCGGCACGTACTCGGCCACGCGCTCGTCGGTGGCGCCGGACGAGGTGGCCTCGCTGTCGTCAAACGATCGCGTGGGCTACGTCAGCTCTGAGCGCGTGGAGCTGTGGCGCTCGGACCTTGTCCGCACCGTGGAGTACGGCCGGGTCGAGGCTCCACAGGAGTCCGGGATGCAGCCGCACGCCTGCGGGATCACCTCGGCGCTGACCCGCAAAGAGCTGCTCGCGGTGACCGAGCGTTGCGACGACGGCACGTGGCTGCGCCTGCAAACCACCACGCCCGAGGATTCCCGCAAGCCGGAGATCGAGGCCAATGTCTCGATCGCCGAGTCGGCCTATCTGGTCGCGGTGTCACCGGAGGTTGCGGCGGTGTACAACCCCGGTTCCCGCGAGGTCCGCGCCTACAACACCGGTGGCGAGGAGGTGTCGGCGTCACCCGCCCCGGATTTCGGGCCCGCGCCCGACTCGGCGACACACGAAGCCGCCGACCTGCCCCACCACATGACCTACTTTGCCCCGAACACGCTCGGGTTGTTTGAGCCGGACAGCCTGCGTTTTAGCGGGGAGTTTGAAGGCGCGCTCGGGCCCGGTGTCGCGGCCGGCGACAGGCTGCTCTTCGCCACAGACCAGGGTGTGGCCGTGGCCAACTGGGACACCCGCGAGGTGGAGCGGGTGATCGCCGTGGATCGCGGCGGCTACACGGGCACGGTGGGGATTGCTGGCGCCGGGGGCGTGGTCGTCGAAAAGCGAGGCGGCGAGCTGGTGGTGTTTTCGGCGAACTAG	MGRHQHRAGPRDARAAGVVFHLARALPGTRHPRLRGRARRPGGHRPRRPDPAPLARKEAPVSAPYRRTRGDLIATAVIAVVSLVLVAAAFLTAPIRASQLSPAEKQYESAARLSTPPTTLQESFRLPDTSPGVSPVIAEGMIISYADGTLRATTPQGETAWTYQRDLELCTLDQAWGKVIATYRGNAGCGDVVALDALAGTYSATRSSVAPDEVASLSSNDRVGYVSSERVELWRSDLVRTVEYGRVEAPQESGMQPHACGITSALTRKELLAVTERCDDGTWLRLQTTTPEDSRKPEIEANVSIAESAYLVAVSPEVAAVYNPGSREVRAYNTGGEEVSASPAPDFGPAPDSATHEAADLPHHMTYFAPNTLGLFEPDSLRFSGEFEGALGPGVAAGDRLLFATDQGVAVANWDTREVERVIAVDRGGYTGTVGIAGAGGVVVEKRGGELVVFSAN				NA	NA	NA	NA	NA
AK009_09268	270			hypothetical protein	GTGGACCGCGGCGGGGTGGAACACACCGACGAGCGCGAGGAGCGCGGAGATCAAGGTGACGATGCCGAGCAGCACCGCTCCCCCGCTGAACATGTAGACGGCCACGCCGAGCAGGATGGCCTCGATGAGCACGATCGCGCCACGGCCAGAGGGCTGGCCCGCCAGGGTGCGGGCGGCGTGGAAGGCGACGAAGCCGAAGACGATGAGCAGGAACACCGCGGTGCCAATGCCCACGAAGTCCGTGGCGGCGGAGGCGGACTCCAAGCTTGA	MDRGGVEHTDEREERGDQGDDAEQHRSPAEHVDGHAEQDGLDEHDRATARGLARQGAGGVEGDEAEDDEQEHRGANAHEVRGGGGGLQA				NA	NA	NA	NA	NA
AK009_09269	264	whiB1		Transcriptional regulator WhiB1	ATGGATTGGCGCCACGAAGCCGTTTGCCGCGACGAAGACCCCGAACTGTTCTTCCCCGTCGGAAACTCCGGCCCCGCACTCACCCAGATCGCGCAGGCGAAGCTCGTCTGCAACCGCTGCCCCGTTACCAGCCAGTGCCTGAAGTGGGCGCTGGAGACCGGCCAGGACGCCGGCGTCTGGGGCGGCCTGTCCGAGGAGGAGCGCCGCGCGCTCAAGCGCCGTAACAAGCAGCGCGCCCGCAGCCGCGCACGCCTGACCGCCTAA	MDWRHEAVCRDEDPELFFPVGNSGPALTQIAQAKLVCNRCPVTSQCLKWALETGQDAGVWGGLSEEERRALKRRNKQRARSRARLTA				NA	NA	NA	NA	NA
AK009_09270	318			hypothetical protein	GTGAATCTGGGTAATGGACACGGTCGTGAGCGAGGCGATGATGCGCTGGCGAAGGTGGTCCGGGGCGTGGGAGGCGCCGCAGCACTTCTGCACGATCGTGCGCGCGGCCAGCTCGTTTTCGTAGCGGCTGAAGCACTCGGGGCAGGACTGGATGAAGTCGCGGATCTCGGCGGCGCGCTCGGCGCTAGTTTCGGAGTCGAGCAATTCGCACAACATTCGGTGCGCGTTCTCGCACTTCGGGCAATCAGTGCTCATCTACTTCTTCTCCTCCAGACCGATTCCTTGCTCGTTGGCCACATCCTTCAACAACACGCGTAG	MNLGNGHGRERGDDALAKVVRGVGGAAALLHDRARGQLVFVAAEALGAGLDEVADLGGALGASFGVEQFAQHSVRVLALRAISAHLLLLLQTDSLLVGHILQQHA				NA	NA	NA	NA	NA
AK009_09271	600			hypothetical protein	ATGCAGCCGCGACATCACGGTGCCGAGCGGAATGTCGAGGGCCTCGGCGATTTCCTTGTACGCCATATCCTCGACATCGGCCATGTAAACGACCATCCGGTAGTCCTCGTTGAGCTCGTCGAACGCCTCCGAGATCCGCCCGTTGGGCATGCCCTTGAGCGCGGCGACCTCGGCGGATTCCAGGCCCGTCGAGTCGTGCGAGCTCGTGGTGTAGAGCTGGTGGTCGGTCATGTCCTCGGTCGAGGTCTCAATCGGCCTGCGCTGCTTCTTGCGGTAGGTGTTGATGTAGGCGTTGGTCATGATCCGATACAGCCAGGCCTTCAAATTGGTGCCGGGCTTGAAGCTGTCGAAGGCGTTGAACGCCTTGAGGTAGGTCTCCTGCACCAAGTCTTCCGCGTCTTGGGGGTTGCGCGTCATCCGCAGGGCGCCGCCGTAGAGCTGGTCCAGAAGCGGCATCGCCTCCTCGGTGAAGCGCTTGTGCACGTCAGTGTCGGCCATGGGGATCATTGTAGCTACCGGCCGCTGGCCTATTGTGGGGCACCATGGCGAAAAGAACCCGGGCCGTCGAGGCCGTGGCGGCGATTGACCACGAGATCTTGA	MQPRHHGAERNVEGLGDFLVRHILDIGHVNDHPVVLVELVERLRDPPVGHALERGDLGGFQARRVVRARGVELVVGHVLGRGLNRPALLLAVGVDVGVGHDPIQPGLQIGAGLEAVEGVERLEVGLLHQVFRVLGVARHPQGAAVELVQKRHRLLGEALVHVSVGHGDHCSYRPLAYCGAPWRKEPGPSRPWRRLTTRS				NA	NA	NA	NA	NA
AK009_09272	168			hypothetical protein	GTGCTGGACGACGAGGGTTTTCAAAACTGCGTCGGCGTCGAGGCCCAGCTCGGCGACGGAGTGCTCCCCAAAATGATCGTGGCTGGGCGCGTAGCTCAAGATCTCGTGGTCAATCGCCGCCACGGCCTCGACGGCCCGGGTTCTTTTCGCCATGGTGCCCCACAATAG	MLDDEGFQNCVGVEAQLGDGVLPKMIVAGRVAQDLVVNRRHGLDGPGSFRHGAPQ				NA	NA	NA	NA	NA
AK009_09273	468			hypothetical protein	GTGGAAGGACAAGCAGCCCTACTACGTCACCCCCTCGGAGGGCATGCTGTACGCGGCCGCGCTGTGGGAGACGGGGCTCGACATACTTTCCACCACGATGGTCACCACCGACTCGGTGGGCGACGACATGACGTGGCTGCACAACCGCCTGCCGCTGTTTCTCGCCCGCGACGAGATCGAGCAGTGGGTGCGCGGCACGCCGGAGGAAGCGCTCGAGCTGGTGCACCCCTCGCGCATTGCCGGCGACCTGTCGTATCGCCCGGTATCCAAGGATGTGGGCAACGTCCGCAACGATTTCGCCGAGCTTATCGACGCTCCCTAGACGCCCAGCTGAACAAACTCCGCGCCGGTGAGGCGCGCCAAGTCGCTTGGGGCGAGGGAGATGGACAGGCCGCGCTGGCCGCCGGAGACGGTGACGGTGGGCAGGGCAGCGCAGGGGGCGTCGATAAGCGTGCGCAGCGCCGTTAA	MEGQAALLRHPLGGHAVRGRAVGDGARHTFHHDGHHRLGGRRHDVAAQPPAAVSRPRRDRAVGARHAGGSARAGAPLAHCRRPVVSPGIQGCGQRPQRFRRAYRRSLDAQLNKLRAGEARQVAWGEGDGQAALAAGDGDGGQGSAGGVDKRAQRR				NA	NA	NA	NA	NA
AK009_09274	858			hypothetical protein	GTGCCCGCGCAGGTGCGCGATGCCGGTGAGCTCGGACGGCGTCGTCGCTACCGCTGCGAGTGCGGCGACGGTGGGGGTCAGCTCACCGAGGTCGCTCATGTCCAGCCGGATGCCGCGCAGCATGCCTCGCGACGGCCCCGTCACGCGCAGGGTGTGGCCACCCGCGCCGTCGGCCTCGAGCACGGTCTCGCCGCCCATGCGCTCCACAATCGTGCGGATCGCGTCGCCCGGCTGCGTGGTGGACACCGGCCAGTGTTTCACGGCCACGGAACCGCCGGTGACAGCCGCTGCGGCGATGAACGGGGTTGCGTTCGACAGGTCCGGCTCGACCACCCACGTGCGCCCGCGGATCGGCTGCGGCGCAACGCGCCAGGTGTGGCCGGAGGTTTCGACGGTCACGCCGGCGTCGGCAAGCATGGCGAGCGTCATCTCGATGTGCGGCATCGAGGGCAGGGTGCCGCCGGTGTGGGTGATGGTCACGCCTTCGTCGAAACGCGCGGCGGCGAGGAGCAGCCCGGAGACGAACTGGGAGGAGCCGGAGGCGTCGATCTCCACGGTGCCGCCGCGCGCGTGGGAGGTGCCGTGAACACTAAACGGCAGGCTGTCGCCCTCGATGTCGACGCCGAGGTCGCGCAGGGCGTCGAGGATGGTGGCGATGGGGCGCTGGCGGGCGCGATCGTCGCCGTCGAAACGCACCTGCCCGGACGCAAACGCGGCAACCGCGGGCACGAAGCGCATCACGGTGCCAGCGAGCCCGCAGTCGACCTCGGCGCCGTGCAGGTCGCCGGGGGTCACGGAGATCGTCTCGCCCTCGGTGTGAAAACGCACGCCCATGGAGACGAGCGCCGCCTCCATTAA	MPAQVRDAGELGRRRRYRCECGDGGGQLTEVAHVQPDAAQHASRRPRHAQGVATRAVGLEHGLAAHALHNRADRVARLRGGHRPVFHGHGTAGDSRCGDERGCVRQVRLDHPRAPADRLRRNAPGVAGGFDGHAGVGKHGERHLDVRHRGQGAAGVGDGHAFVETRGGEEQPGDELGGAGGVDLHGAAARVGGAVNTKRQAVALDVDAEVAQGVEDGGDGALAGAIVAVETHLPGRKRGNRGHEAHHGASEPAVDLGAVQVAGGHGDRLALGVKTHAHGDERRLH				NA	NA	NA	NA	NA
AK009_09275	261			hypothetical protein	GTGGGAGGGTCGATCCTTGGAGCGTGGCCGCGAGCCCTTGCCGGGGCGGACGCGGACGTCGGACTCGTCGTAGTCGGAAAACCGCCTCGCCACGAAAACTTACGCCTCCACCATCTCGGCCCACATGGTTTCGAACCCGGGCAGGGTCTTGGCGGTGGTGGCGATGTTTTCGACCTCAACACCCTCGGTGGTCAGGCCGATGATCGCCCCGGCGGTGGCCATGCGGTGGTCGTCGTAAGAGAGCCACTGGCCCCCATGTAG	MGGSILGAWPRALAGADADVGLVVVGKPPRHENLRLHHLGPHGFEPGQGLGGGGDVFDLNTLGGQADDRPGGGHAVVVVREPLAPM				NA	NA	NA	NA	NA
AK009_09276	714			hypothetical protein	GTGCAGCGCCTCCAGCAGGCGTCGGACAGCGCGCGCACGCCTGCCCACCGGGGAGGAGTGATCGAGCTCGTCCCACGCGCACTCCGGGTCGGCGGGCGGGCCGAGGTGCGTGCAGCCGCGCGGGCAGTCCTCCGCTGCCGCGGCGAGCTCGGGGAACACGCCGACGATCTCGTCGGGACTGACGTGGGCCAGCCCGAAGGAGCGGATGCCGGGGGTGTCGATGATCCAGCCGCCGCCGGGCAGCTCGAGCGCTACCGACTGGGTGGAGGTGTGGCGGCCCTTGCCCACCCCGGAGACCTCGCCGGTTTCCCGGTTGGCGTCGGGAACGATGCGGTTGACCAGTGTCGATTTGCCCACGCCGGAGTGGCCGATGAGCGCGGAGAGGCGACCCGTGATGCGTTTGGTGAGCTGCTTGATGTCGTCGTCGATGCCGACCTCCATCACGTCGACGTCGAGGTCTTCGAGCTCCGCGCGGAAAATCGCCGGGTCAGCCAGATCAGATTTGGTCAGGCACACGATTGGGGTGACGCCCCCGACGAACGCGGCGATCAGCGCGCGCTCGACAAACCCGGTGCGCGGCGGGGGATCGGCCACCGCGCTGACAATCAGCAGCAGCTGCGCGTTGGCCACGATGATGCGCTCGTAGGGGTCGGTGTCGTCCGCGGTGCGGCGCAGCACCGAGGTGCGGTCCTCGCGCTTGACGATGCGCGCTAG	MQRLQQASDSARTPAHRGGVIELVPRALRVGGRAEVRAAARAVLRCRGELGEHADDLVGTDVGQPEGADAGGVDDPAAAGQLERYRLGGGVAALAHPGDLAGFPVGVGNDAVDQCRFAHAGVADERGEATRDAFGELLDVVVDADLHHVDVEVFELRAENRRVSQIRFGQAHDWGDAPDERGDQRALDKPGARRGIGHRADNQQQLRVGHDDALVGVGVVRGAAQHRGAVLALDDAR				NA	NA	NA	NA	NA
AK009_09277	495			hypothetical protein	GTGAGGGTCTACATCCCGGCGACGTTTTCCATGCTGGCCTCGCTCAAGGACAACGGCGTTCTCCACCCCCGCAACGGCTGGGGTTTCGCCGCGACACCAAAGCTGACGGAGCTTTTCACCTCGGGCGATCAGGAGGAGATTGAGGCGATTGCGTTCGACGAAGCTGCGTTGGCGTCAATACGCTTGCTCGCGATTGGGGACGAGGAGCAGTTCCCGCACCGCCGCGTGGTTGTCTCCGCCGATGTGGAGGCCACCGGCGAACCCGAGATGGGGGAGTCCGTGGTCCGCATCGCGGGGCCCGTTGAGCTCAAAGACGTCGCCGCGCTGCATATCGACGTCGCCGAGGCCGAGGCCGCCACCGCGAAGGCGATTGACAACGTCGACGCCGCGGATCTCGGCGACGAGGACGCCGAGCTGGCGGTGGGCGACGCCCAAGACAACTACATGGCCTTCTACGACCCCAGCGAGCTACCGTTTATCATCGAGCTGCTTTAG	MRVYIPATFSMLASLKDNGVLHPRNGWGFAATPKLTELFTSGDQEEIEAIAFDEAALASIRLLAIGDEEQFPHRRVVVSADVEATGEPEMGESVVRIAGPVELKDVAALHIDVAEAEAATAKAIDNVDAADLGDEDAELAVGDAQDNYMAFYDPSELPFIIELL				NA	NA	NA	NA	NA
AK009_09278	408			hypothetical protein	GTGCAGGATGCCGATCATGCCGTTTTCCACGGCGCCGCGCACGTTCATGATGTCGTCGTCGATCATCACGCAGTCGGCCAGCGGGGCGTCGACCGCGTCCGCGGCGGCCTGGAACGCGGCGCGCTCGGGCTTGCGCGCGCCCACCTCGCCAGAGAGCACGACCGCATCGACTATCCCGCGGAACTCCCACTCGCGCACCTGGTCGGCCTGCTCCCCCTCGGCCTCGACGTTGGAGAGGATGGCGGTTTTAATGCCCGTGTCCTTCACGGACTCGATCAAGGTGCGCCACCGGCGCTGGTCCTCGGCATCGGTGTCGAGAACTCCGGCGTAGTCAATGATGAGTGCCTGCATCAGGATGGGAAACCTCTCTGTGAGCTTAGTTTTCGTGCTTACTTTATTGTGCGCTAG	MQDADHAVFHGAAHVHDVVVDHHAVGQRGVDRVRGGLERGALGLARAHLAREHDRIDYPAELPLAHLVGLLPLGLDVGEDGGFNARVLHGLDQGAPPALVLGIGVENSGVVNDECLHQDGKPLCELSFRAYFIVR				NA	NA	NA	NA	NA
AK009_09279	366			hypothetical protein	GTGTTCTACCCAGTGCCAGGGCAGCAGTACATGCACGTTTTGGTGCCCAGGAGGTTGCCCTCGGCCAGGCCCCAAGACCGCGCCGAGCCCACGGCTAACGTCTCACCCCTGGTGCGCGGTGCCCTCGACGCGGCCTTTGGCAACCGCGACGCGGCGACTCTTAAATCGAAGCTGTACGCGCTCGGGGTGCGCAACCACGTCAAGGCTAAGCAAAGGGCTTTGGCGGTGCGCGGACCGGTGCGCATTGTCACGTGCCACGCACGCGAGGGCGGGGAGTTGTTTGGCACCGTCGACGTTGGCGGGCGGCGCTTCGGCTACGTCGCCCGCGTGCGCGACGCGCGCCTAGTGTCGTTCAAGGTGCTGTAG	MFYPVPGQQYMHVLVPRRLPSARPQDRAEPTANVSPLVRGALDAAFGNRDAATLKSKLYALGVRNHVKAKQRALAVRGPVRIVTCHAREGGELFGTVDVGGRRFGYVARVRDARLVSFKVL				NA	NA	NA	NA	NA
AK009_09280	396			hypothetical protein	GTGACAAAAGTTGCACCAGCGTTGCAACTTTTGCCATTTTCCCAGGTGGTGTGGAGGCCTGATGTAAAACTTGTCACTGCTGACCCTCGGCGATTCACCCGCGAAAGGGTTTCTACTGTCGTACCGAGCTCGGACTTCGGGCTTCCTGCTTCCCGCGTATCGTGCGATGGTCGCAGTCATGTCGAAGAACCCGCTAGTCATTCTGCTGATCCCCGTCACGTGCGTGGGGATACTGCTGAACGTAGTGCAGATTGTCACCGGCGACTTCTCCCACCCGCTGTACTCCCAAGGAAAAACCCTCACCTTGCTGGGAGGTATAGGGTGTGTCCTTTACGCGCTCAGCGTTTAGCGCCGGCGGCGCCGCGGGAAGTAGCGTGTCGACCTACAGCACCTTGA	MTKVAPALQLLPFSQVVWRPDVKLVTADPRRFTRERVSTVVPSSDFGLPASRVSCDGRSHVEEPASHSADPRHVRGDTAERSADCHRRLLPPAVLPRKNPHLAGRYRVCPLRAQRLAPAAPREVACRPTAP				NA	NA	NA	NA	NA
AK009_09281	318			hypothetical protein	TTGCTGCTCGAACTGCTTGCGCATCATGAACAGCTGGCGCACGGTTTCCTCCTGGACGGCCTCCTCCATCGCGTGGAACATGTCGCCGCCCTCCTTCTGGTACTCCACCAGCGGGTCGCGCTGCGCCATCGCGCGCAGGCCGATGCCTTCCTTGAGGTAATCCATCTCGTAGAGGTGCTCGCGCCACTTCGTGTCGATCACCGGCAGGATGACCATGCGCTCGACGTTGCGCATCTGCGCCTCCCCGCCAATCGCGGCGACGTTGGCCTCCAGCGCGTCGTACTGGGCCTGGGCGTCGGCGACGAGGGCTTCGCGTAG	MLLELLAHHEQLAHGFLLDGLLHRVEHVAALLLVLHQRVALRHRAQADAFLEVIHLVEVLAPLRVDHRQDDHALDVAHLRLPANRGDVGLQRVVLGLGVGDEGFA				NA	NA	NA	NA	NA
AK009_09282	1263			hypothetical protein	ATGCTCAGCAATATCATCCGCCACAGCGGCGAACTTCGCCTCCTGGGTTTTGTACACCAAATCGTCATGGTCAACGCGCTGGTTCGGCTTGTTCGGCGGAATTGCCACGACGTCGAGGCCGTAGATCTGGTGCAGCTCGGCGGCCTCCGTCTCCGCGGTACCCGTCATGCCGGCGAGCTTGTCGTAGAGGCGGAAGTAGTTCTGCAAGGTCACGGTCGCCAAAGTCTGGTTCTCGTTTTTGATCTCGACGTTTTCCTTGGCCTCAATGGCCTGGTGCATGCCCTCGTTGTAGCGTCGCCCCGCCAGCACGCGTCCGGTAAAGCCATCGACGATCAACACCTCACCCTTGCGGATGATGTAGTCCTTGTCGCGCTCGAAGAGCTCCTTGGCCTTAATCGCGTTGTTGAGGTACGACACCAGCTGGGAGTGCTCCGGGGCGTACAGGTTGTCGATGCCGAGCTGGTCCTCGACGTACTCCACACCCTCCTCGGTCACGCCGATGGTGCGCTTGCGCTTGTCCACCTCATAGTGAATGCCCTCGCGCATGCGCGGCGCGAGCTGCGCGAAGACGGTGAAGAATTGGCTCGAACCGTCGACGGGGCCCGAAATAATCAGCGGGGTGCGCGCCTCATCAATCAGGATCGAGTCGACCTCATCAACGATGGCGTAATTGTGTCCGCGCTGGACCATATCCGCCGTCGAGCGGGTCATGTTGTCGCGCAGGTAATCGAAACCGAGCTCGTTGTTCGTGCCGTACGTGATATCCGCCGCGTAGGCCTTCTTGCGCTCCGGCGGGCGCATCTCGGACAAGATCACGCCCACGTCGAGGCCCAGGAAGTGGTGCACGCGGCCCATCATCTCGGCATCGCGCTTAGCCAGGTAGTCGTTGACGGTAACGATGTGCACTCCCTTGCCCTCAAGGCCATTGAGGTACGCCGGAAGCACAGAAGTCAGGGTCTTGCCCTCACCGGTTTTCATCTCGGCGACGGACCCGAAGTGCAGCGCCGCGCCACCCATGACCTGGACTCGGTAGTGCTTCTGGCCCAGCACGCGCCACGAGGCCTCCCGGGCGGTGGCGAAGGCGTCGATAAGCAGCTCGTCCAAGCTGGTGCCGTCCGCGATGAGCCGCTTGAACTCGGCGGTTTTTGCCTTGAGCTCAGCGTCGCTCAGGCTCGCGTACTCGTCTTCGAGGGCGATGACCTCGTCGGCCATCTTGGCGAGGCGCTTAACGGTGCGACCCTCACCGGCTCGGAGAAGCTTTGA	MLSNIIRHSGELRLLGFVHQIVMVNALVRLVRRNCHDVEAVDLVQLGGLRLRGTRHAGELVVEAEVVLQGHGRQSLVLVFDLDVFLGLNGLVHALVVASPRQHASGKAIDDQHLTLADDVVLVALEELLGLNRVVEVRHQLGVLRGVQVVDAELVLDVLHTLLGHADGALALVHLIVNALAHARRELREDGEELARTVDGARNNQRGARLINQDRVDLINDGVIVSALDHIRRRAGHVVAQVIETELVVRAVRDIRRVGLLALRRAHLGQDHAHVEAQEVVHAAHHLGIALSQVVVDGNDVHSLALKAIEVRRKHRSQGLALTGFHLGDGPEVQRRATHDLDSVVLLAQHAPRGLPGGGEGVDKQLVQAGAVRDEPLELGGFCLELSVAQARVLVFEGDDLVGHLGEALNGATLTGSEKL				NA	NA	NA	NA	NA
AK009_09283	684	hpf	COG1544	Ribosome hibernation promotion factor	ATGACTTCTGCAGACAACAACGACGCCAACGCCGTCTTGAGCCCGGAGGCGCAGGTGACCATCACCGGGCGCAACGTCGAGGTCCCCGAGCACTTCCAGGAGCGCGTCAACGCCAAGCTCGCCAAGATTGAGAAGCTTGATCCGACGCTGAATTTCTTCCACGTCGAGCTCAAGCACGAGCCGAACCCGCGCCGTGAGGCGCAGGCGCAGCGCATCCAGATCACCGCCACCGGCAAGGGCCACCTCGCCCGCGCCGAGGCCAAGGAGGACAGCTTCTACGCGGCCCTCGAGTCGGCGATTGGCAAGCTGGAGCGCTCGCTGCGCAAGGTCAAGGTGCGCCGCGAGATTTCCCGCTCCGGCCACCGCGCTCCGAAGTCCACCGGCCAGATCGCCGCGGAGCTCGAGGCACAGGCCCGCGAGGCGCGCGCAAACGCCGGCGGCCAGTTCGACGTGGACCCGTACGCTGACCAAATCGAGGACGTTCAGCCGGGCCAGGTCGTGCGCCGCAAGGAGCACCCCGCCACGCCGAAGAGCGTCGACGACGCCCTGTCCGAGATGGAGCTGGTCGGCCACGACTTCTACCTCTTCATTGACAAGGAGACCAACCGCCCGTCGGTGGTGTACCGTCGTCACGCGTTCGACTACGGCCTGATCTCGCTCGTGGAGACGGACGACAACGCCTAA	MTSADNNDANAVLSPEAQVTITGRNVEVPEHFQERVNAKLAKIEKLDPTLNFFHVELKHEPNPRREAQAQRIQITATGKGHLARAEAKEDSFYAALESAIGKLERSLRKVKVRREISRSGHRAPKSTGQIAAELEAQAREARANAGGQFDVDPYADQIEDVQPGQVVRRKEHPATPKSVDDALSEMELVGHDFYLFIDKETNRPSVVYRRHAFDYGLISLVETDDNA				NA	NA	NA	NA	NA
AK009_09284	846			hypothetical protein	GTGGGACCTCGACACCGAGCTCAAGGACGATTGCGCCGAAGCGGGCATGACGGTGGATCGCGTTCCCACCGTCGGACTCGAGCCGGGGTTCGCCTCAATGGTGGTGGACATCGCCGAAAACGTCACCCAGAAGGAAAAGCCCGCCACCTTGTCAGAGGTCACGGTCCAGGGCTGCACGGTCAACGGCTCGCCGTGCGCGCCGGATTGCTGCATGATGCAGCGCCCGGGCATGCCGGCGCCGAGTCACCCGCAGAACCCGGTGGTCTAGCGGTACGCCCGATCCCACGCCCTCTGGTAGTCACGCACCGCGTCGGCAACGCTGGCCATCCGGGCGGTGCGGATGTGACGCCAGAGGGCGAAAAGCTGCGGGTCGAAGCTGTGGTCGTTCGCGCGCTCAGTCACCGTTTCGACGATCGCAGCGACGCGATCCGCCCGCGCAAAGATCTTCGCCGCCCGCGGCGTCACACCCCTCGGCAATCCGGGGGTGTCGTAGAAGTCCGCGATCGAGCCCACGGTGAGCCGGGGGTTCGGCAGGTCGGTGCGCGCACCGCCGGCCGCCTCGATGAGCACCGCCGCGTCGTCCGTCGCCCGCGCCAGCAGCGCGTCCGCCTCGCCGGGGCTGAGCCACGACGGCTCCGGGAGCCGCTCCGTCTCCTCGAACCAGCGCCAGGCAACGCCGGCATTCTCAACGTCGTAGTGGGGCACGAGCACGTGGGAGAGGCCATCTTCGCCCTTGATCACGAGCGCGCCGGCTGGCCCGAGCGCCTGCGCGGCGGGGGAGCCGGCACGCAGCGTGGCCGCCTGGCCCGGCCCCCACAGAATCAGGCGGACTACAGGCTCGCGTGA	MGPRHRAQGRLRRSGHDGGSRSHRRTRAGVRLNGGGHRRKRHPEGKARHLVRGHGPGLHGQRLAVRAGLLHDAAPGHAGAESPAEPGGLAVRPIPRPLVVTHRVGNAGHPGGADVTPEGEKLRVEAVVVRALSHRFDDRSDAIRPRKDLRRPRRHTPRQSGGVVEVRDRAHGEPGVRQVGARTAGRLDEHRRVVRRPRQQRVRLAGAEPRRLREPLRLLEPAPGNAGILNVVVGHEHVGEAIFALDHERAGWPERLRGGGAGTQRGRLARPPQNQADYRLA				NA	NA	NA	NA	NA
AK009_09285	1083			hypothetical protein	GTGGTCGGTGATGAACCCGATCGGGACGCACACGATGTGCTTGACACCCTCCTTGCCCAGCTCGAGGGAGCGGTCGACAACGTCGGGCTCAAGCCACGGGGTGGCGGGGTTGCCGGAGCGCGACTGCCAGACGACCTCGTAGTCGGAAATGCCCGCGGCCTCGGCGACGAGGCGGGAGGCCTCTGCGACCTGGCGGGAGTACAGGTTGGGGTCCTTCGGCCCGCCCGAGGAGTCGTCAGCGGCGTTGGGCACCGAGTGCGCGGTGAACAGCACGCGGGAAACCGACTGGTCAGCGGCCTCCCACGCGGCGCGCGTCGGCCGCGCCATCAGCTCGACGAAGGCGGGGTGGCCGTAGAACTGCCACAGCTTGGTGTACTCGATCTCCGGTGTGATCTCGCGCAGGCGCAGGATGTCCTCGTCGTACTGGCGGCAGGCGGAGTAGCCGCCCCACGCGGAGGTGGCGAACACCAGCACGCGCTTGTGCCCGGCGGCCTGGATCTCCTTGGCCGTATCCTCGGCCATCGGGTGCCAGTTGCGGTTGCCGAAGTAGACCGGCAGGTCGTGGCCGCGGGCGGCCAGTTCCTTCTCGATGTTGGCGATGATCTCGCGGTTCTGCTGGTTGATTGGGCTGACCCCACCGAAGTGGAAGTAATGCTCGCCCACCTCAGCGAGGCGCTCGCGGGGGATGCCACGCCCGCGGGTTACGTTCTCAAGAAAAGGAATAACCTCGTCCTCCCCTTCGGGTCCACCGAAGGAAAGAACGAGGAGTGCGTCATAGTCGTTCAATGCCATGTACCTGATGTTAGAGCAGTCGCACGGCTTTCGGGGACATACCCGACCAGCGAACTGGGGAGACGCGCACGGTCTGGCCCGCCGACGGGGCCTCGATCATCGTGCCATCGCCGAGGTAGATGGCGACGTGGCTGTCACCGTTGTTGCCCCAGAACAGCAGATCGCCGCGTTGTGCCTGGCTGGGGTCGACCTGGGTGCCGCGTTGGTACTGGTAGCCGGTGTAGTGCGGCAGCGAGATACCCACGCCCGCGAAGGCGTAGAGGACGAGCCCAGAACAATCGAAGCCCTTGA	MVGDEPDRDAHDVLDTLLAQLEGAVDNVGLKPRGGGVAGARLPDDLVVGNARGLGDEAGGLCDLAGVQVGVLRPARGVVSGVGHRVRGEQHAGNRLVSGLPRGARRPRHQLDEGGVAVELPQLGVLDLRCDLAQAQDVLVVLAAGGVAAPRGGGEHQHALVPGGLDLLGRILGHRVPVAVAEVDRQVVAAGGQFLLDVGDDLAVLLVDWADPTEVEVMLAHLSEALAGDATPAGYVLKKRNNLVLPFGSTEGKNEECVIVVQCHVPDVRAVARLSGTYPTSELGRRARSGPPTGPRSSCHRRGRWRRGCHRCCPRTADRRVVPGWGRPGCRVGTGSRCSAAARYPRPRRRRGRAQNNRSP				NA	NA	NA	NA	NA
AK009_09286	441			hypothetical protein	TTGGGCGTCGACACGCTCGGTGGCGGGCGCGGTGGCTGGTTCAGTGGCGGGTTCGGTGGCGGGCTCTGCCGCGGCCTCGGGCCTAACCTGCGCCAACTGCTCCTGGGAGGCCTTGTGCTGCTCGACGGCGCTGTCGCGCTCGGCGAGGCGAACGTCGAGCTCGGCCTGGTTTGTCTCCAGAGTGGAGCGCGCCTGGCTCTCGGCGTCGGCCGCGGCCTGGGCGGTGCGCTCGGCGTGCTCGGAGGCGAGGCGCAGGCGGGACTCCTCGTTGGCAGCTTCTGTGCGGGCCCGCTCGACGCTGTCGAGCTTCGCCTGCTTCTCCTCAATCTGTTGGCGCAGGAACATGGAGCGGTCGAGCAGATCGCGCTGCGCATCGCTGCTTCCCAAGCCGGCGAGCGGAGACGGGCTGCCGCCGTTGCGGTACTGGGTGCGGGTCAATGA	MGVDTLGGGRGGWFSGGFGGGLCRGLGPNLRQLLLGGLVLLDGAVALGEANVELGLVCLQSGARLALGVGRGLGGALGVLGGEAQAGLLVGSFCAGPLDAVELRLLLLNLLAQEHGAVEQIALRIAASQAGERRRAAAVAVLGAGQ				NA	NA	NA	NA	NA
AK009_09287	543			hypothetical protein	GTGGGCCCTGTTCGGTTTCTCAGCGCCTCGCAACCGTGCCTCGTCGCGACGCGCGCCGTGAGGAGCCCTTGTGGATACCCATGCCAGTGGCATCCGACGACGCTGGTCGCATCTCACGACCCGCATCGTTGCATGCTCGACCACCATGTCCTTGTTGTGTGCGGCGGGTGCCGTTGTGCAACCCGCGGCACAGGCGCAAGAGCAGAGCGCCTCGTCGCTCGTCGCCGCCATCTCGTCTGCCCAAGCCCGCATCGATTCTCTCGATGTCACCATTGGAGACCTCACCGAGAGCGTCAACCAAGCGCTCGTCGATCTTTACGACGCCCAGGCGGCCGCAGAGCAGGCCCGACGCGGTGCCGAGGAGGCGCGGCGTCGCCTGACGCAGTCGCAGGCCGACGTCGACGCGGCACGGGCGGAGCTCGAATCATTGACCCGCACCCAGTACCGCAACGGCGGCAGCCCGTCTCCGCTCGCCGGCTTGGGAAGCAGCGATGCGCAGCGCGATCTGCTCGACCGCTCCATGTTCCTGCGCCAACAGATTGA	MGPVRFLSASQPCLVATRAVRSPCGYPCQWHPTTLVASHDPHRCMLDHHVLVVCGGCRCATRGTGARAERLVARRRHLVCPSPHRFSRCHHWRPHRERQPSARRSLRRPGGRRAGPTRCRGGAASPDAVAGRRRRGTGGARIIDPHPVPQRRQPVSARRLGKQRCAARSARPLHVPAPTD				NA	NA	NA	NA	NA
AK009_09288	303			hypothetical protein	GTGCTCACTGACCGCGGACGCAGCATGCGGGGTGCGGATGATCACCGTCTCGAAAGGGGTGTTCAGCACGAGGTCCTGGGCGACGTCGCGCAGGTCCGCCGGCTGCAGCGGAGTCGTTTCCAGCACGACCACCCCGACGGGGTCGATGGCTGTGGTGTCGGCGTTGCTGAGGGCGTCGTGAAGCGCTGCCTCGAGCCCGGGGTTGACGGGATTGTCGGTGCCGAAGGCGATGCCGTCGTCGAGGAGCTGCGAGCGCAACGACTCCATATCCGTGTCCGCGGGAATCATTCGGCGGCCTCCTAA	MLTDRGRSMRGADDHRLERGVQHEVLGDVAQVRRLQRSRFQHDHPDGVDGCGVGVAEGVVKRCLEPGVDGIVGAEGDAVVEELRAQRLHIRVRGNHSAAS				NA	NA	NA	NA	NA
AK009_09289	1431			hypothetical protein	GTGGTCGACGGTGTACTCGCCGCCCTGCGGGGACTCGACGATGACCGGCTTGGAAGCGCGGCCCTCAGCACCCTCGGCAGCGGACTCGCCGTTGCCCGGCCAAGACTCGTTGTAGGAGACGGTCTCAACCTTCTCGGCGCGGACCGGCTCGAACGTCTCGTTGCCGGCGTCGTTGTAGTCCGGAAGCTGGTTGCGGAAGGTCTGCTTCGACTCGGACAGCAGGATGCGGTCCTGGGGGCGCTTCGGGCCGGCGATGGACGGCACGACGGTGGAGAGGTCGAGCTCGAGGTACTCGGAGTACTCAGCCTCCGGAGCGTCCTGCTCGAGCCACATGCCCTGCGCCTTGGCGTACGCCTCGACGCGCTCGATGGTCTCCTTGTCGCGGCCGGTCAGCTCGAGGTAGCTGATGGTCTCCTCGTCGATCGGGAAGATCGCACAGGTCGAACCGAACTCGGGCGACATGTTGCCGATGGTGGCGCGGTTGGCCAGCGGGATCTGGCGAACGCCGTTGCCGTAGAACTCGACGAACTTCTGAACCACACCGTGCTCGCGCAGCATCTCGGTGATGGTGAGCACCACGTCGGTTGCGGTCACACCGACCGGGATCTCACCGGTGAGCTTGAAGCCGACGACGCGCGGGATGAGCATGGAGACGGGCTGGCCGAGCATGGCCGCCTCTGCCTCGATGCCACCGACGCCCCAGCCGAGGATGCCGAGGCCGTTTTCCATGGTGGTGTGGGAGTCGGTGCCGATGCAGGTGTCCGGGTACGCAACGCCGTCGTTGTCGAAGACGACGCGGGAGAGGTACTCGATGTTGACCTGGTGGACAATACCGGTTCCCGGCGGGACGACGCGGAAGTTGGAGAAGTTCTCCGCACCCCAGCGGAGGAACTGGTAGCGCTCCTCGTTGCGCTGGTACTCGATCTCGACGTTCTTATCCAGAGCTTCGGAGGTACCGAAGGCCTCGATGATCACGGAGTGGTCAATAACCATCTCAGCCGGGTTCAGCGGGTTGACCTGGTCCGGGTTGCCACCGAGGGTGGAAACGGCCTCGCGCATGGTGGCGAGGTCGACAACACAGGGCACACCGGTGAAGTCCTGCATAAGGACGCGGGCCGGGGTGAACTGGATTTCGATGGAGGGCTCTGCGGCCGGCTCCCAGTTCGCGATCGCGTTGATGTGGTCCGCGGTGACGTTCTTGCCATCCTCGGTGCGCAGGAGGTTCTCGCCGAGAACCTTCAGGGAGTAGGGAAGCTTCTCCATGCCGTCGACGGCGTCGAGTGCGTAGTAGTCGTAAGACTTCCCGCCTACCTCGAGCGTGCGCTTGGCGTTGAAGGAGTTCTTGCTTTCAGCCACAGTGAGCTCCATTTCTCGTCGTTAAACCAATGTGAGTCAAATACGACCCATTGGGGTGGTCAATGCCTATCTTAG	MVDGVLAALRGLDDDRLGSAALSTLGSGLAVARPRLVVGDGLNLLGADRLERLVAGVVVVRKLVAEGLLRLGQQDAVLGALRAGDGRHDGGEVELEVLGVLSLRSVLLEPHALRLGVRLDALDGLLVAAGQLEVADGLLVDREDRTGRTELGRHVADGGAVGQRDLANAVAVELDELLNHTVLAQHLGDGEHHVGCGHTDRDLTGELEADDARDEHGDGLAEHGRLCLDATDAPAEDAEAVFHGGVGVGADAGVRVRNAVVVEDDAGEVLDVDLVDNTGSRRDDAEVGEVLRTPAEELVALLVALVLDLDVLIQSFGGTEGLDDHGVVNNHLSRVQRVDLVRVATEGGNGLAHGGEVDNTGHTGEVLHKDAGRGELDFDGGLCGRLPVRDRVDVVRGDVLAILGAQEVLAENLQGVGKLLHAVDGVECVVVVRLPAYLERALGVEGVLAFSHSELHFSSLNQCESNTTHWGGQCLS				NA	NA	NA	NA	NA
AK009_09290	711			hypothetical protein	ATGATGGTGTTAGTTCTTCACCATCTGGCGCAGCACGTACTGCAGGATACCGCCGTGGCGGTAGTACTCAGCCTCACCTGGCGTGTCAACGCGAACCTTGGCGTCGAACTCGACCGTCTCGCCGCCTTCCTTGGTGGCGGTGACGTGGACGGTCTCCGGGATGGTGTCGCCCTCGTTGAATGCGGTCACGCCGGAGATGTCGAAGGTCTCGGTGCCGTCGAGACCCAGGGTCTCGTGGGACTCGCCCTCCGGGAACTGCAGCGGCAGAACGCCCATGCCGATGAGGTTCGAGCGGTGAATACGCTCAAACGACTCGGTGATGACGGCCTTGACGCCGAGCAGGTTGGTGCCCTTTGCAGCCCAGTCGCGCGAGGAGCCGGTGCCGTACTCCTTGCCCGCCAGGACGACGAGCGGGATGCCAGCCTCAGCATAGTTCTGGGCGGCGTCGTAGATGAACGCCTGCGGTGCACCCTCCTGGGTGAAGTCACGGGTGTATCCACCGGCCTCTTCCACCAGCTGGTTGCGCAGGCGGATGTTGGCGAAGGTACCGCGAACCATGACCTCGTGGTTGCCACGGCGGGAACCGAAGGAGTTGTAGTCCTGGCGCTCGACACCGTGGGAGTCGAGGTAGTTCGCGGCCGGGGTGCCCGGCTTGATCGACGAAGCGGGGGAGATGTGGTCGGTGGTGACCGAATCGCCCAGCTTCGCTAG	MMVLVLHHLAQHVLQDTAVAVVLSLTWRVNANLGVELDRLAAFLGGGDVDGLRDGVALVECGHAGDVEGLGAVETQGLVGLALRELQRQNAHADEVRAVNTLKRLGDDGLDAEQVGALCSPVARGAGAVLLARQDDERDASLSIVLGGVVDERLRCTLLGEVTGVSTGLFHQLVAQADVGEGTANHDLVVATAGTEGVVVLALDTVGVEVVRGRGARLDRRSGGDVVGGDRIAQLR				NA	NA	NA	NA	NA
AK009_09291	456			hypothetical protein	GTGCGCCGGGGTCCGTACCGACTGTTCCACCAGATCGAGAATTGTTTCCAGCCGGTCGGCGGGAACGCCTGCGGCCAACTTGATGATCAGCCCCTCGAAAACGGTGGTGAGGTATTCCTGAATCACGTCGGGAGAGACGTCGTCACGCGTGAACGCGTTGTCCTCCAGGCGTTGACGCAGAGCATCGTCGAGCACGACCTGATGGGTTCGCCACCGTATCTCGAAATCAGGGTCAGTACGCAACCTGCGCACGATTTCGGAACGTGTGATGAACCAGTCGTTGGAGTCCGGGTTGCGCACGATTCTGCGCATCACCTCAATCAAGCCGTGCTGTGCGACAACCTCCGCTTGGCGGGCTGCATCCTCGGCGGCGATGGCGAGGAACAGCTCCTCCTTGTCCCTGAAGTGGTGGAAGATCGCACCCCGGGTCTTGCCGGTCGCTTTCTCGAGCCGTGA	MRRGPYRLFHQIENCFQPVGGNACGQLDDQPLENGGEVFLNHVGRDVVTRERVVLQALTQSIVEHDLMGSPPYLEIRVSTQPAHDFGTCDEPVVGVRVAHDSAHHLNQAVLCDNLRLAGCILGGDGEEQLLLVPEVVEDRTPGLAGRFLEP				NA	NA	NA	NA	NA
AK009_09292	729			hypothetical protein	ATGGCACGCATTCTCCTTGTTTCCTTGCGCACCGGTGAGCTCGGCCCCCAGGTCGCGCGCGCCGAATTTAACGACGTCCTCAAGGCAACCGGACTTCGCGAACGGGACCTGGAGATGCGGGTGATCAGTGATGCCAACACCCCGATCGGTTCTCTCGACGCTGTTGACGGAGTGGTTGTGGGTGGCAGCTCACTCAATGTCACCGCGCCTGAATACGACGTGTGGCAAGAACACGTCCACCGTGAGCTGTCGGGGATCCTCCACTGCGGCCTTCCCGTTTTCTTTGTCTGCTTCGGCATTAGCTGGCTCGTCGCCGAACTCGGCGGTACGGTCGGTCATTCCGCACCGGAAGTCTCGGGGCCGAGCGTAGTCACGCTTGCCGCTCCAGCCAGCACGGACCCGCTCCTTGAAGACTTCCCCGATACTTTCACGGTGTTGACCGGGCACACGGAGAACCCGGAGATCCTGCCGGACTCACTCGAGGTACTCGCTGGCGGCCCGACCTGCCCGGTGCAGATGGTTCGCTACGGCGATCGCGTCTGGGCCACGCAATTCCACGCGGAGATGGACGCTGCAGCGATGCGCACGCGGATGGACTTCTTCTACGACTACGGCTACTTCCCGCTAACGGAGTACGACACCATTGTCGCCGCATTGCCCAGCGTGGATGTTACGTGGTCAAACGAGATACTCCGGCGATTCGTTGAATTCTGCTCTCATACCGGGTAG	MARILLVSLRTGELGPQVARAEFNDVLKATGLRERDLEMRVISDANTPIGSLDAVDGVVVGGSSLNVTAPEYDVWQEHVHRELSGILHCGLPVFFVCFGISWLVAELGGTVGHSAPEVSGPSVVTLAAPASTDPLLEDFPDTFTVLTGHTENPEILPDSLEVLAGGPTCPVQMVRYGDRVWATQFHAEMDAAAMRTRMDFFYDYGYFPLTEYDTIVAALPSVDVTWSNEILRRFVEFCSHTG	PGPT0021580_6575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
AK009_09293	279			hypothetical protein	GTGCGCCTGGAGATCCCCCATGTCAATCTCGCCCTCGGGCAGTGCAACCCGCATGATCATGGTGAAGAAGTCATCCATCAGGGTCTGGGAGACGTCGACGATGTTCAGGCCCCGTTCCGCGGCGGCGTTGGCGACACCGGCGATGATTCCGACCCGGTCCTGTCCGGTCGTGGTGATGATTGCGTGCATGTATGTGAGTGTAGAACCCCACCCCGACACGCCACCGAGCTACCCGGTATGAGAGCAGAATTCAACGAATCGCCGGAGTATCTCGTTTGA	MRLEIPHVNLALGQCNPHDHGEEVIHQGLGDVDDVQAPFRGGVGDTGDDSDPVLSGRGDDCVHVCECRTPPRHATELPGMRAEFNESPEYLV				NA	NA	NA	NA	NA
AK009_09294	1371			hypothetical protein	GTGGCATCAGACATTGACTTCAGGGCCCGCCGCATCCTCGACGTGATTGCGATGATCGAGGATTACCGACTCGACATCCGCACCGTGACCATGGGGATCTCCCTGATCGGGTGTGCACGCGCGACGATGTCCGCTACCGCCGAGGCAGTCTACGACCGTGTCACCGAGCGCGCGGCACGCCTGGTTGAGGTGTGCGAGGGCATCGAGCGTGAACTGGGTATACCGATCGTAAACAAGCGCATCTCGGTCTCCCCCATCTCGCTCGTGGCAGCGGAGCTCGATGGCAATCCCGCCGACATCGCCGCCTCACTTGACCGCGCCGCCGCCGCACTGGGCGTGAACTTCGTCGGAGGCTACTCCTCCCTCGTGGAGAAAGGCATGACGGAATCCGATCGCCGCCTTATCGCCTCGATACCGGAGGCCTTAGCTACGACGAGCAATGTGTGTGGATCGGTCAACGTGGCCACCTCGCGCGCGGGCATCAACATGGACGCTGTGGCCCAGATGGGTCAGGTGGTCAAACAGGCTGCGGAACTAACGGCCGAGGAATCCTCCATTGCCTGTGCCAAGCTCGTCGTCTTCGCCAACGCGGTGGGAGACAACCCCTTCATGGCGGGGGCCTTCCACGGTATCGAGGAGCCGGACACGGTGGTATCGGTGGGTGTTTCCGGGCCCGGTGTCGTCGACCATGCGATCGGCTCACTTGAGGGTGCCAGTCTCAACGAGGTGGCCGAGGAAATCAAGAAGGCGGCGTTCAAGATCACGCGCGCCGGACAGCTGGTGGGAACATTGGCCTCGAAACGTCTGGGTGTGCCCTTCGGCATCGTGGACCTCTCCCTCGCCCCCACCGCAGAGATTGGCGATTCCGTCGCCCACATCCTCGAGCGGATGGGTTTGGACCAGGTTGGAACCCACGGAACGACCGCTGCGCTCGCGCTGCTGAACGACGCCGTGAAGAAAGGTGGAATGATGGCCTGCTCGCGCGTCGGCGGTCTCTCCGGATCTTTCATCCCTGTCTCGGAGGATCAGGGCATGATCGACGCGGTGCGGGCGGGCTCCATCTCGATGGACAAGCTCGAGGCGATGACGTCGATCTGCTCGGTCGGTTTCGACATGGTTGCCATCCCCGGTGACACATCCGCCGAACTTATTGCGGGAATGATCGCAGATGAGGCCGCAATCGGTGTGATGAACCATAAGACGACCGCTGCACGTCTTATCCCCGTCCCGGGAACGGTTCCCGGCGATGAAGTGAACTTCGGTGGTCTGCTGGGCTACGCCCCGGTGATTCCAGTGAGCAGCGTCGGCAACGAGGCATTTATCCGACGCGGCGGCTTCATTCCAGCGCCCGTGCACGGTTTCCGAAACTAG	MASDIDFRARRILDVIAMIEDYRLDIRTVTMGISLIGCARATMSATAEAVYDRVTERAARLVEVCEGIERELGIPIVNKRISVSPISLVAAELDGNPADIAASLDRAAAALGVNFVGGYSSLVEKGMTESDRRLIASIPEALATTSNVCGSVNVATSRAGINMDAVAQMGQVVKQAAELTAEESSIACAKLVVFANAVGDNPFMAGAFHGIEEPDTVVSVGVSGPGVVDHAIGSLEGASLNEVAEEIKKAAFKITRAGQLVGTLASKRLGVPFGIVDLSLAPTAEIGDSVAHILERMGLDQVGTHGTTAALALLNDAVKKGGMMACSRVGGLSGSFIPVSEDQGMIDAVRAGSISMDKLEAMTSICSVGFDMVAIPGDTSAELIAGMIADEAAIGVMNHKTTAARLIPVPGTVPGDEVNFGGLLGYAPVIPVSSVGNEAFIRRGGFIPAPVHGFRN				NA	NA	NA	NA	NA
AK009_09295	687			hypothetical protein	ATGAGGATATCGGATGTCGCCCACGCAGCCGGGTGCTCGGTGCGGGCGATTCGCTACCTGCACACAACGGGTGCTGTGGATGAGCCGAAGCGTACGGGTGCGAACTACAGGGACTACTCCCTCTCGGATGTGGCAGCCATTCTGCGTGCTCGCGCTTTGGTGGATGCCGGGGTTCCGGTAAACCAGATAAAGCAACCGGGTGCCGTCGGGCGGGCGCTGAATTTGATCGAGGAACGCATCGCGACACTCTTATCGCAGCGGGATCGGTTGATTGCTTTGTCCCAGACAGATGTCGGAGTGCCTGCTGATATCCGTCGAGACCTCCGCAACATTATTGAGGATGGGGCTTTGCTTGGACAGGAGCTCGATTCGCTGGATCTCATGGCACTCGCTGGCGTTGCTACAGAGGCAACGTGGGAACAATTGCGACGCAACATCCGCGACGCGACGTGTGTCACGGCCACTCACCGCTGCGTCGAACTCTGGCGGAAGCTGGGAGAAACTAATCCCACCCATGAGGAAATGGAGACTCTGATCGCTGAGCTCAGGCGACAATTACCCTCATCACTCCTCAACGGCATCGTGGACACTCTGAATTCAGGCAATATGGCGCTCGCCCCCGACGACGTTGACCTGACGGGAGCGCAATCCCTCGCACTGGCAGCTCTGATTGGGGAAGTGAGGTGA	MRISDVAHAAGCSVRAIRYLHTTGAVDEPKRTGANYRDYSLSDVAAILRARALVDAGVPVNQIKQPGAVGRALNLIEERIATLLSQRDRLIALSQTDVGVPADIRRDLRNIIEDGALLGQELDSLDLMALAGVATEATWEQLRRNIRDATCVTATHRCVELWRKLGETNPTHEEMETLIAELRRQLPSSLLNGIVDTLNSGNMALAPDDVDLTGAQSLALAALIGEVR				NA	NA	NA	NA	NA
AK009_09296	489			hypothetical protein	GTGAGCTCGGTCGTCGCATACCTATCGAAGCATCCGGGTTATCGGCTCTTCCGTCACGAACTAGAGCTTTACCGGGATACCTGGAAATGGTTTCGTGGACGTGTTGATGTTCCTACCGGGGCAAGGCTTCTGCCCTATCCCGCAGGAAGAGTACAGATGGTTGGCATGCTGAGCGCTGTCATGTCTGTAGAGATGGTCTGCGTACACCTGTTACTGCCCGTAGGAACGATTCGCCTACTCGCGCTCGTTATCTCACTATGGGGACTTGCTTTTATGTGGGCTGCGCTGGCCTCCGAGCGGGTCTATCCGAGTTACGTAACGGACGATGAACTCGTCGTCGGCGGACCATCTGGCACAGACACGGAACTTTCGCTGACCGTTCCAATCCAGGCGTCAAAGGACACTTTCTTCTGGCAACGCAGTGTTCCTGTCGCAGTGACTCGAGTACGTTTCTACAGCGGTTCCGCCAAAGGTCAGCGCCTGCTGTAA	MSSVVAYLSKHPGYRLFRHELELYRDTWKWFRGRVDVPTGARLLPYPAGRVQMVGMLSAVMSVEMVCVHLLLPVGTIRLLALVISLWGLAFMWAALASERVYPSYVTDDELVVGGPSGTDTELSLTVPIQASKDTFFWQRSVPVAVTRVRFYSGSAKGQRLL				NA	NA	NA	NA	NA
AK009_09297	735			hypothetical protein	ATGACCCAGCGACCATTTCTGCTCCTGAGCACCCGGCCGGAGGATGAAACGGCTGCCGAGGAGCTGAACAGCTTTGCCACTGCAATGGGCCTTCCCGCAGCGGCCATCGAGCAACGCCGTGTTGAGGCTGCGCCGCTGGGTGAGGTTCGCTTCGAGGACTACTCGGGCATCATCCTCGGCGGAAGCCCATTCAACAACACCGACTTGAGCAAGTCCCAACTGCAGCTACGGGTCGAGCGTGAAATCGGCACACTTGTCGCAGCGGCTGTTGCCCGTGACTTTCCACTCATGGGTGCCTGCTACGGCATCGGAGCGATCGGCACAGCCATCGGAGCCCGACTCGGTAACAGGTTTGCCGAGGATGCGGGTACAGTCGAGCTCTTATTGAACGAGGCGGGGGCAATTGACCCGATTCTCGATGGTGTGCCGGGCACATTCACCAGCATCGTCGGCCATAAGGAGGCGGTTGAAACACTGCCGGAGGGAGCGACTGTGCTGGTGACGGGGCAACACTGCCCAATCCAGATGTTCCGGGTGAAAAGCAACATCTACGCCACACAGTTTCATCCGGAGCTTACGGCTGAGGCACTCGAACTCAGGCTGAGGGTGTATGCGGACCGCGCCTACTTCGATCCCACCGAGTTGGATTCGATCCTGACTACTGCCTACGCCGCGGATTTCAGCTCGAATAACCGCGTGATGGAAAATTTCGCGCGCCGCTATCGCCGGAACTAG	MTQRPFLLLSTRPEDETAAEELNSFATAMGLPAAAIEQRRVEAAPLGEVRFEDYSGIILGGSPFNNTDLSKSQLQLRVEREIGTLVAAAVARDFPLMGACYGIGAIGTAIGARLGNRFAEDAGTVELLLNEAGAIDPILDGVPGTFTSIVGHKEAVETLPEGATVLVTGQHCPIQMFRVKSNIYATQFHPELTAEALELRLRVYADRAYFDPTELDSILTTAYAADFSSNNRVMENFARRYRRN	PGPT0021580_6439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
AK009_09298	264			hypothetical protein	ATGTTCTTCGGAAATGATTCCCGACAGGCCATCGACCGCCTCACCGTGCGCGTAGCCGAGCTCGAACGCAGCGTCGCCGCCCTATCCAAGCAGGCGGGGATCGCGACACCCGAGCGCAAACCCCTCGCATCCGGTGAGGTTCGCCGGCTGCTGGCGGAGGGCAAAACAATCGCCGCCATCAAACAGCTGCGCATTGAGACAGGTCTCGGACTGGCTGAGGCGAAGCGGGTTATCGACCGCATCCAGGCCGGCGAGGACCTCTAG	MFFGNDSRQAIDRLTVRVAELERSVAALSKQAGIATPERKPLASGEVRRLLAEGKTIAAIKQLRIETGLGLAEAKRVIDRIQAGEDL				NA	NA	NA	NA	NA
AK009_09299	504			hypothetical protein	GTGGGTGACCAGCACTACCGCGCCAGTGTAGGTTTTCAGCGCGTCCAGCACCTGCTCGCGCGACTGGGGGTCGAGGTTGTTGGTGGGCTCGTCGAGAAGCAGCACGTTCGCGCGCGAGGAGACGAGCGTCGCCAGCGCGAGGCGGGTCTTCTCGCCGCCCGAGAGCGTCCCGGCCGGCTGGTCGAGCTTGTCGCCGGAGAACATGAACGCACCGAGCAGGCCGCGAAGGTCCTGCTGGCCCGCGTCAGGGCAGGCCGCGATCGTGTTCTCCCACACCGAGCGCTCGCCGTCGATCGTGTCGTGCTCCTGCGCGAAGTAGCCGATCTTCAGCCCGTGGCCCGACACCAGACCGCCCTCGCCGTCCGTGCGCTCCACCCCAGCGAGCAACTTGAGCAGAGTCGTCTTACCCGCGCCGTTGGTGCCCAGCACCACCACGCGCGAGCCCTTATCGATCGCCAGGTCCACCCCGGCGAACACCTCGAGCGAGCCGTACATCTTGGTTAG	MGDQHYRASVGFQRVQHLLARLGVEVVGGLVEKQHVRARGDERRQREAGLLAARERPGRLVELVAGEHERTEQAAKVLLARVRAGRDRVLPHRALAVDRVVLLREVADLQPVARHQTALAVRALHPSEQLEQSRLTRAVGAQHHHARALIDRQVHPGEHLERAVHLG				NA	NA	NA	NA	NA
AK009_09300	195			hypothetical protein	GTGCGAGATCATGATCAGCCCGCCCTCGTGCTTGGACAAAAAGCCGCGCAGCCAGCTAATGGAGTCGGCGTCGAGGTGGTTGGTGGGCTCGTCGAGAAGCAGCGTCGTGGTCGACTTACCCGAGCCATTGTTGGCGGCGAACAGGATTTGGGCGAGCTCGACGCGGCGGCGCTGCCCGCCCGACAGGGTTTTTAA	MRDHDQPALVLGQKAAQPANGVGVEVVGGLVEKQRRGRLTRAIVGGEQDLGELDAAALPARQGF				NA	NA	NA	NA	NA
AK009_09301	465			hypothetical protein	ATGCGAGGCCTAGACCGCGAACCCGAGCGCGCGCAGCTGCTCGCGGCCCTCCTCGGTGATCATCTGCGGGCCCCACGGCGGCATCCACACCCAGTTGATCACGACCTCGTCGACGTCGGTGTTCGCCGTGATCGCGGTGGTGGTCTGGTCCTCGATGACGTCGGTCAGCGGGCAGGCGGGCGAGGTGAGCGTCATGTTGATGATCGCCTTGGTGGCGTCATCCTCCTCCTCGATCCACAGGTCGTAGACCAGACCGAGGTCGACGACGTTGATGCCCAGCTCCGGGTCGATCACGTCGTGCATGTACTCGGCCGCCTCGCCGGCGAGCTTGATCTGCTCCTCGGTCTGCGGCGGGCGCTGCCCCGCGCCCTCAAAGTTGGATTCAGCCATTGTTGTCTCCTTCATTTTCGAGCGCGTCCGCGGTGGCGGCCTGGAAGGCCTTCCACCCCAGCAGCGCGCACTTGA	MRGLDREPERAQLLAALLGDHLRAPRRHPHPVDHDLVDVGVRRDRGGGLVLDDVGQRAGGRGERHVDDRLGGVILLLDPQVVDQTEVDDVDAQLRVDHVVHVLGRLAGELDLLLGLRRALPRALKVGFSHCCLLHFRARPRWRPGRPSTPAART				NA	NA	NA	NA	NA
AK009_09302	462	sufU_2	COG0822	Zinc-dependent sulfurtransferase SufU	ATGAACCTAGAAGCGATGTACCAAGAGGTCATCCTCGACCACTACAAGAACCCGCAGCACGCCGGGTTGCGCGACCCGTTCGACGCCGAGGTGCACCACGTCAACCCATCGTGCGGCGACGAGATCACCCTGCGCGTTTCGCTTTCCGACGACAACGCCACCGTGGCCGATGTCTCGTACGACGCGACGGGGTGTTCGATCTCGCAGGCGTCGACAAGCGTGATGGCGGAAGAGATCATCGGCCTGAGCCTCGGCGAGGCGCTGGCGAAGCTGGCGGCCTTCGAGGAGATGGTTACCTCGCGCGGGACGGTCGAGGGCGACCCCGAGGTGATCGGCGACGGCGTCGCGTTCGGCGGCGTCGCAAAATTCCCCGCCCGAGTCAAGTGCGCGCTGCTGGGGTGGAAGGCCTTCCAGGCCGCCACCGCGGACGCGCTCGAAAATGAAGGAGACAACAATGGCTGA	MNLEAMYQEVILDHYKNPQHAGLRDPFDAEVHHVNPSCGDEITLRVSLSDDNATVADVSYDATGCSISQASTSVMAEEIIGLSLGEALAKLAAFEEMVTSRGTVEGDPEVIGDGVAFGGVAKFPARVKCALLGWKAFQAATADALENEGDNNG	PGPT0000075_671	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
AK009_09303	978			hypothetical protein	GTGCGCCGGCCACGCGCAGTGGTGCCCGGTGCGAATCGCCACGCCCTCGGAGTCGAGCACCTGGCCGAGGTCGTGCGGGTGAACGCCGTCGACCGTAAAAGCGATGGCGCCGCCGCGCTTCTCGGCGGTAAGCGGGCCGGCGATGGCCAGGCCCTCGATGGCCTGCATCTTCTTAAGCGCGTAGGCGGTCAGCTCGTGCTCGTGGCGCGCCACGGCCTCCATGCCCACCTCGGTGAGGAAGTCGACGGCCGCGCCGAGACCCACGACCTGGCTGGTCATCTGGGTGCCCGCCTCGAAGCGCTGCGGCGCCGGCGCGTAGGTGGAGCCCTCCATCTTAACCACCTCGATCATCGAGCCACCGGTGAGAAACGGCGGGAGCTTGTCCAGCAGGTCGCCCCTGCCGTACAGCACGCCGACGCCCGAGGGGCCGCACATCTTGTGGCCGGAGAACCCGGCGAAATCCACGCCCAGCTCGTGGAAGTCCACCGGCATGTGCGGAACCGACTGGCACGCGTCCAGCACGGTCAGCGCGCCGACCGCCTTGGCGCGGCGCACCATCTCCGGCACATCGGCGTGCGCACCGGTCACGTTCGACTGGTGCGTAAACGCCACCACCTTCACGCTCTCATCGAGCTCGAGCGAGTCGAGGTCGATGCGGCCGTCCGGGGTCATCGCGTACCACTTCAGGGTTGCGCCCGTGCGCCGCGCCAGCTCCTGCCAGGGCACGAGGTTGGCGTGGTGCTCGAGCTCGGTGACCACGATGGTGTCGCCCTCGCCGACGCGGAGGCTGCCGGCGCGGTCGTCGCCAAGCACGAAGGCGACGGCGTTGAGCGCCTCGGTCGCGTTCTTGGTAAACGCGATCTCGTGGCCCTGCGCGCCCACGAACGCGGCGATCTTCTCGCGCGCGGACTCATAGGCGTCGGTCGCCTCCTCCGCGAGCTGGTAAGAGCCGCGGTGGACCGGCGCGAAGGTGTTTAG	MRRPRAVVPGANRHALGVEHLAEVVRVNAVDRKSDGAAALLGGKRAGDGQALDGLHLLKRVGGQLVLVARHGLHAHLGEEVDGRAETHDLAGHLGARLEALRRRRVGGALHLNHLDHRATGEKRRELVQQVAPAVQHADARGAAHLVAGEPGEIHAQLVEVHRHVRNRLARVQHGQRADRLGAAHHLRHIGVRTGHVRLVRKRHHLHALIELERVEVDAAVRGHRVPLQGCARAPRQLLPGHEVGVVLELGDHDGVALADAEAAGAVVAKHEGDGVERLGRVLGKRDLVALRAHERGDLLARGLIGVGRLLRELVRAAVDRREGV				NA	NA	NA	NA	NA
AK009_09304	438			hypothetical protein	ATGGTATTTACAGATTTAGAACGCTCTTTACAACAGGGGGTTCTTACTGATATTCGAGGAATTGTTCGTACGCTTCTTCAGGATATGGACTATGTTGTAGAGGAAGATAAATCTTTTATTACGGATGCGTTTGTCAAGCAAGTAATTGTCTATTTAGAAAAAACACGTTTTTTTCAGAAGTGGATAGAAGTGAATTTTTCTACTGTTGAGCTAACAGAGCTATTGCAACAGATGGAACACTCTATGCGTAGAAGAAAGTCTACATTAAGACAGCGGAACTATTTTAACAGTTTACTATATGATTTAAGTCTGCGAGAAGATATTCCAAAGGATTATTTATGTATGAAAAAGAGACTATTGCAATTGGAGCATCTGAAGGAACAGCAGAAAAAGGAAAAACTTCAAAATTCGGTCTCTACGAAGCAAATTAAAGTATGA	MVFTDLERSLQQGVLTDIRGIVRTLLQDMDYVVEEDKSFITDAFVKQVIVYLEKTRFFQKWIEVNFSTVELTELLQQMEHSMRRRKSTLRQRNYFNSLLYDLSLREDIPKDYLCMKKRLLQLEHLKEQQKKEKLQNSVSTKQIKV				NA	NA	NA	NA	NA
AK009_09305	306			hypothetical protein	ATGCCAAAAGCTTTCTATATGGATATTGAGTATTACGAGAGACCTGCAGATATATTGCGGATGCTTGGACATCCTATGCGTTTGATGATCGTTCGAGAATTAATTGCGAAAGGTCCATTACATGTATCCGAGTTACAGAAGTTACTACGTGTTCCACAATCTACAATGTCACAGCAGTTAATAAAGTTAAAACAGTTTAAGATCGTTTCCTATGAGCGAAAAGGAAATGAGGTTTATTATATAGTAAGTGACGAAAAAGTGATTGAGAGCATGAAGAGAATAGAGGGTTTGCAACAGTGGACGTAA	MPKAFYMDIEYYERPADILRMLGHPMRLMIVRELIAKGPLHVSELQKLLRVPQSTMSQQLIKLKQFKIVSYERKGNEVYYIVSDEKVIESMKRIEGLQQWT	PGPT0004300_342	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_09306	282	abrB_4	COG2002	Transition state regulatory protein AbrB	ATGAAAGCAACAGGTATTGTACGAAAAGTAGATAATTTGGGACGAATTGTAATACCAAAAGAAACAAGAAAAACGTTACAGGTGGAAACAAGCGATACTTTAGAATTTTTTGTAGAAGAAGATGCGATTGTTCTACAAAAATATACACCTCATGGTACTTGTCCTATCACAGGAGAAATATCTTCAACGAATGTAAAACTAGTAGGTGGAAAGCTGACATTGAGTCCAGAGGGTCTAAAACAACTGTTAGCTGAACTAGAACAATACAAAGTGACTGTATGA	MKATGIVRKVDNLGRIVIPKETRKTLQVETSDTLEFFVEEDAIVLQKYTPHGTCPITGEISSTNVKLVGGKLTLSPEGLKQLLAELEQYKVTV	PGPT0014790_192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_09307	234	hfq_4		RNA-binding protein Hfq	TTGGAAACGAAATTACAATCATTTCAAAAGGATAGAGGTAAGAACATACTATTTTCACAGGAACACTTATTACAAGAAGCGTTTCAAAAGAAGAAGGATATCACGTTAATTCTGTTAAAAGGACTACATATAAAAGGAATAATAACAGGATATGATACTTTTTCTATTTTAATAGAATATGAGGGGAAACAACAGCTTGTATATAAACATGCAATCTCTACGATTCGATTCTAG	METKLQSFQKDRGKNILFSQEHLLQEAFQKKKDITLILLKGLHIKGIITGYDTFSILIEYEGKQQLVYKHAISTIRF	PGPT0025560_1725	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
AK009_09308	192			hypothetical protein	ATGTATCCTAAGTTTTTTGATAAAATGGCCTTTTCAAAAGAGCATAAAGATTTATTAATTCAGTTGTATAATAAAGAAATTACAAGAAATGAGTATAATCGTGTATTAAACAATTTATATGAGACAAAGCCTAAGGTAAATGAAAATAAGAAACAAGATAAAGTGCTGGGTTCTGTTACAAAGTTTTTTTAA	MYPKFFDKMAFSKEHKDLLIQLYNKEITRNEYNRVLNNLYETKPKVNENKKQDKVLGSVTKFF				NA	NA	NA	NA	NA
AK009_09309	594	tasA_4		Major biofilm matrix component	ATGTCATTAAAAAAGAAATTAGGTGCTGGAGTGGTTTCAGCCGCTCTTGGTTTATCTTTGATTGGTGGGGGAACCTATGCATATTTTAGTGATCAAGAGGTCACAAATAATAAATTTGCTGCTGGAACATTAGATTTTGCTATGCAGCCTACCACATCTCTTAATCTAGACAATTTAAAACCAGGGGATAAAATATTAAAAAAATTTAATATAAAAAATAGTGGTACGTTGGATATCAAAGATATCGTGATGAAGGTTGATTATACTGTGAACGATTTTAAAAAAGATAATGGTGTTGAAGATTTTGGTAAACACATTAAAGTACAGTTTCTGTGGGATTGGGATCCAGAGAAAAGTCCTGTATATGAAACAACCTTGGCAGAATTAAAATCACAACATCCAGAAGTTGCTTCTCAAAAAATATTCCTGTCAAAATGGGCAGAAACAGGTGGATTAAAATCTGGAAAAACGGATTGGTTTTGGATGAAATTTACCTTTGAAGACAATGGTACGGATCAAAATATGTTCCAGGGAGATAGTATTGCGATGAATATGGAGTTCCAAGCGAATCAAACAGAAGGACAAGAAAGATAA	MSLKKKLGAGVVSAALGLSLIGGGTYAYFSDQEVTNNKFAAGTLDFAMQPTTSLNLDNLKPGDKILKKFNIKNSGTLDIKDIVMKVDYTVNDFKKDNGVEDFGKHIKVQFLWDWDPEKSPVYETTLAELKSQHPEVASQKIFLSKWAETGGLKSGKTDWFWMKFTFEDNGTDQNMFQGDSIAMNMEFQANQTEGQER	PGPT0025195_154	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
AK009_09310	654			hypothetical protein	ATGACGAATATTTATGGATATATACGTGTAAGTACAAAAGATCAAAATGAACAACGCCAATTACATAAGATGATGGAACGAGGAGTGGAAGCTCGGCGTATTTTTGTCGACAAAGCAAGTGGACGACATTTTGATCGCCCTCAATATCAATTATTACGAAAGATATTAGGTACAGGTGATATTGTTTACATAGATGCCTTAGATCGTATGGGCCGTAATTATGATGAGGTAATTTCAGAATGGAAGTATATAACAAGAGAATTACAAGCTGATATTGTAGTTTTAGAAAATGAAACCTTGTTTGATAGTCGAAAATTTCGTGAGATGGGTGATATGGGCCGATTAATGGAAGATCAATTTTTATCATTGCTATCCTACGTTGCGGATCAAGAGCGTAAAAAAATTCATCAGCGACAAGCAGAAGGGATTGCCGTAGCTAAATCTCAAGGTAAGCATTTAGGACGTCCTCAACTTACCCTTGCAACATTAAGCTCAAAGCAACTACAAATAATAGAAGAAACTTATCCAAAGTGGAAAAACAGAGAAATAACAGGGATTAAGTTTATGGAGTTAATTGAATTAAAGAAAAATACCTTCTATAAAATAATCAAAGAATTTGAAGTAAAAAAAGGCAAAATGATTTATAAAGAATAA	MTNIYGYIRVSTKDQNEQRQLHKMMERGVEARRIFVDKASGRHFDRPQYQLLRKILGTGDIVYIDALDRMGRNYDEVISEWKYITRELQADIVVLENETLFDSRKFREMGDMGRLMEDQFLSLLSYVADQERKKIHQRQAEGIAVAKSQGKHLGRPQLTLATLSSKQLQIIEETYPKWKNREITGIKFMELIELKKNTFYKIIKEFEVKKGKMIYKE				NA	NA	NA	NA	NA
AK009_09311	282			hypothetical protein	ATGAATTATTTGAGTCAATTAATAGGAATTTTACTAGGCTTAATTATGTACCTTTGTATAATAATCAGCATGAAAATTGGGGATAATACGTACATAGGAGATTACTTTTTTAAATTATTTAACATGAATAATAATAAATTTATTGTTGCAATCACTTTTTTTGTATGCTTATGGATTGTTGGAAAGATATTTAAAGACAAACAGGCCATATGGTTAAATTGGGGACGATTACTTTTAACTGGACTAATGTTGGTTGCCCTAGTTTCATATTTAGTAATGTAA	MNYLSQLIGILLGLIMYLCIIISMKIGDNTYIGDYFFKLFNMNNNKFIVAITFFVCLWIVGKIFKDKQAIWLNWGRLLLTGLMLVALVSYLVM				NA	NA	NA	NA	NA
AK009_09312	642	natA	COG4555	ABC transporter ATP-binding protein NatA	ATGCTTGAGATAAAAAACTTAAAATTTCAATATGAAGAAAATATTCCATTGCTACATAATATCTCATTTTCTGCAAATCCAGGAGATATTATCTGGCTTCAAGGATCTAATGGCTGTGGAAAAAGTACATTATTACGTATAATTTCGCAGTTAATTGAAGTTGATTATGAGTTTTACTATAATCAACAAAAAATTGAATCAAAAGAAGATATACTAACAAATTTAATTTATATTCCTTCAGAACCTTATCTTTTTGATTATTTAACAGGTGAAGAAAATGCAGAGTTTTTACGAACCCTATTTGATATTTCTAAAAATGAATTCCAACAATTTTTCTCGAAAATGACAGAAGAATTTCAAATCAAACATGCACTTCAAAAATTTGTACAAGAATATTCCTTAGGAATGCGTCACAAATTGTATTGGTCCGCAGTTTTTGCACGTAACGCACCAATTATATTATTAGATGAACCATTTTCATCTTTAGACAATAATTCTCAGGAAATCGCTATTAGAATATTGAAACAAAAAGCGACTGAAGGAGCAATTATAATATTTGTTTCTCATCTTCCTGAAATTAGTGAGAAGCTGGCAACTAGAGGGCTAACCTTAGAGGGTGGAACAATAATTAATAGATTTTAA	MLEIKNLKFQYEENIPLLHNISFSANPGDIIWLQGSNGCGKSTLLRIISQLIEVDYEFYYNQQKIESKEDILTNLIYIPSEPYLFDYLTGEENAEFLRTLFDISKNEFQQFFSKMTEEFQIKHALQKFVQEYSLGMRHKLYWSAVFARNAPIILLDEPFSSLDNNSQEIAIRILKQKATEGAIIIFVSHLPEISEKLATRGLTLEGGTIINRF	PGPT0006725_28096	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_09313	534			hypothetical protein	ATGAAAAAAGTAATAGCACACATAAGTTTGAAATATATATGGTCAAATTATTCTAGAAAGTTCACTTTAATTTTTTTAATATTAATGGCCTCGTGTATATGGGGAGGCATCTATCAAAGCCATCAGGCTCCTTTGCCACCTAACCCTCCAGATTATAATTGGATGCATTATTTTTCACACAATATGGAACAATCCTTATTTTCTATTGCTGTAGGATTTATTACTTACGGGATTGGTAGTTTTATATTGTTATTTATGAATGGAATGGTAATAGGGATTGTACTAGCCATGACAATACAACATGACATGGTAGACACTATTTTTACGGCATTTTTACCACATGCTATTTTTGAATTACCAGCTATGATGATAGCTGCTCTTGTACCATTTATAATTTGGAATTTTATTAAAAAAAGTATACGGCTTCGTAAAATTCAATATACCTTAATTAAAGCTGAAGTTATTCCTTCAGTTGTATTAATAGTGATTTTATTATTTATAGCCTCAATTATGGAGAGTATGTTTGCCATTTAA	MKKVIAHISLKYIWSNYSRKFTLIFLILMASCIWGGIYQSHQAPLPPNPPDYNWMHYFSHNMEQSLFSIAVGFITYGIGSFILLFMNGMVIGIVLAMTIQHDMVDTIFTAFLPHAIFELPAMMIAALVPFIIWNFIKKSIRLRKIQYTLIKAEVIPSVVLIVILLFIASIMESMFAI	PGPT0024685_647	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
AK009_09314	1668			hypothetical protein	ATGAAAGGTTCTCAGATGATTATTCTGAAAAATATAGTTTTAGAGCAGATTCGGCAAGATTTTGCTGGAGTAACTGAGAAAGTTAAAACTAAATTAGGAATTCGACTTCCAAATTCATTAAATTGGATTATTACACTTCTATTTCAAAATACATTAATTTTATTTTTCGCCTTATTATTTGAGGGTATTACGGACCCAGAAATCAGAAATATAGTTATAGTTGCTGTTTTGTTATTTAATTGTTTTCTTCCAAGTTCAATGGCTAGACAAAACTCAATTAGAGTTAGTAATAACCCTTTGTATGATTTATTATGGCAATCTAAATTCAATCGTAATCAATTATTAAATTTTACATTATTAGCTGAAGTGCTAGTTTTCTGGTTGCATGAATTAATGCTTGAAATTATTGCGTTCTATGTAATCATTAGGATATCTCCAGATTGGATTACTAGTATCACTTTTTGTATAGGTTGGTTTCTTTTAGTATCATCAATTTATTTTTCAAAAATGAAAAAATTAGTTTTAGAATCATGGGAAACATCTATCTCCGTTTCAAAATATACAGAACTATTTTATGTATTAAAAATAGGAATTATTGCATTAATTATTTCGTTTTTAACTAAACTGTTATTTATGCCAATAATTCAAGAGCCGATTACTAAGGATGTCTACCGACAAGGTATTTATAAGCTATTTAGCGTGTTCTCTAGTCGCGTTGAACACACTTTTAAAGAAAATCTAGGATTAATTTTCAACTATTTTCAATTTAGTTGGCTATATTACATATTAGGTGGACTCCTAATTTTATACATAATTTCAGCTATTTATTATTTTTACTTTTACTCACTCCAAACACATCTAGTTAGACATAAAAATAGAGTAAATCTTAACCAATCGACAAGTAGAATTTTTAAATTTTACCAATGGTTAAGTGAAGTGCTTTATAAAAAACACCCTTGGGTCAAAAGAGATGTAATTATTCTTGAACGAGTTATTGTAAACTCCAATCTTCCCCATAGGATATATTTGTTTCTACCTCCTGCAATAAGTGCTTTAATTGGTTTTACAATCTTATTATTAGGAAGTTTACAATCATATTCTGGTTTTATTTTGGCCTTCTGGTTCATTGGTTGGATGGTGTTATCCCAAACTAGTTGGTTATGGTTATTAAATTATCCAATTTTACATCCAGGAAGTGAATTAAGACAAATTGATTTAGTAAAATTGTCTTCACATTTTACTGTTCAACAATTTTTGAATAGTAAGGGGAAATTAGTTAATATTTTAGCTTTCCCATTACAATGTTTCTTGACAATCACACTATTAATAGGTTTTATTTTACTACACGGTTCTATTTACGAATTAATTGTTGGAATTCTTGGTATGTGGCTACTCTTCTTCATAAATGGGGGATTATCAACATATTGGATGAAATTATGTAGTCGTTTTGATTATGCAAATATGTTTATGGTACGTCTAGATAGCTACGAAGCTAAATTTCTACAACAATTCTTTACTATTCCAAAACGTATAATTAATGGTCTGTTATTTATTACATTTTTCATTGGGGCATTTATCAGTGTCGAATTAAGTCAACAACTCATTTATGACATCTTTTTAATCATAGTAGTATTATGGGGATTTAGTTTATATTTTGTAAAAAAATAA	MKGSQMIILKNIVLEQIRQDFAGVTEKVKTKLGIRLPNSLNWIITLLFQNTLILFFALLFEGITDPEIRNIVIVAVLLFNCFLPSSMARQNSIRVSNNPLYDLLWQSKFNRNQLLNFTLLAEVLVFWLHELMLEIIAFYVIIRISPDWITSITFCIGWFLLVSSIYFSKMKKLVLESWETSISVSKYTELFYVLKIGIIALIISFLTKLLFMPIIQEPITKDVYRQGIYKLFSVFSSRVEHTFKENLGLIFNYFQFSWLYYILGGLLILYIISAIYYFYFYSLQTHLVRHKNRVNLNQSTSRIFKFYQWLSEVLYKKHPWVKRDVIILERVIVNSNLPHRIYLFLPPAISALIGFTILLLGSLQSYSGFILAFWFIGWMVLSQTSWLWLLNYPILHPGSELRQIDLVKLSSHFTVQQFLNSKGKLVNILAFPLQCFLTITLLIGFILLHGSIYELIVGILGMWLLFFINGGLSTYWMKLCSRFDYANMFMVRLDSYEAKFLQQFFTIPKRIINGLLFITFFIGAFISVELSQQLIYDIFLIIVVLWGFSLYFVKK				NA	NA	NA	NA	NA
AK009_09315	222	ublA		Bacteriocin uberolysin	ATGTTCGAGATTATGGGTTATTTTGGGGTAGACCGTGGTTGGGCTACTAAAATTGTAAATGCTATTGATGCAGTAGGTTGGGGAGTTGCAGCTGCAAGTGCAATCGCTGCAATTGTTACAGCTGGTGGATTAGCTGTGACAAGCGCAATGATTGATGTAGCAATTTTCACTGTTAAAGATTTTCTACGCAGAAACCTAAAAGCACAAGCTGTTGCATGGTAA	MFEIMGYFGVDRGWATKIVNAIDAVGWGVAAASAIAAIVTAGGLAVTSAMIDVAIFTVKDFLRRNLKAQAVAW				NA	NA	NA	NA	NA
AK009_09316	1194	yknX_3	COG0845	Putative efflux system component YknX	ATGGTATTATCTAAAATTACTACTTCTAATAATAAAAGAATATGGATTATCGTCGGGGTTATTGCACTAATTGTTATTGTGGCAGCAGTTAATATTTTTGTTATGCAAGGTAAGAAGAAGGTTGCATCAACAAGTGCTGATGCTGTAAGTTTTGAGAAAGTGACAGAGCGTAAGCTGAATAATACGAAGTTAATTTCTGGTCAGGTGAAGCCTGGTAATATTGAAAGTTTCTATGCAGATCCGGCCAAAGGGAAAGTGAAAGATATTGAGGTAAAAGAAGGGCAAGAGGTAGAAAAAGGTACGAAGTTATTCTCTTATGACAATGAAGAGATTAATCTTCAAATGAAGCAAGCTGAGCTTGATCAGAAGATGGCGGATATGCGTTACGATCAAGGAAAAAAGAAGATTGATTCGTTGAAGAAAGAAATTAAGAAGGCGAAAGATAGCGGAGCTGGGAAAGAAGTAACAGATCCAATGGACGAGCAAGTAAACGAGTTAGAGATAGGACAAAAAACAATTGACCTTGAGAAAGAAAAAGGAAAGTTGCAGAAAGAAGAGTTAAGTAAGAAGCAGAAAGAACTTACAATTTACAGTAATTTTGCTGGTGTTGTTCAAAAGCTAGATAAAGATGCGGCACAAAGTTCATCTCAAGCGTTAGGTGGTCAAGGAAAAGCGTTTTTACAAGTAGCTTCTAAAGATCCATTCCAAGTCCACGGTACGTTAACTGAGCTTCAGAAGTCACAAATCCAAAAGGATCAAACATTCACTGTAACGGCGAAAGCAAATAATAAGAAGAAGTGGACAGGTAAGATTACAGAGGTAAGTGAGTTCCCAACAAGTGCAGAGATGGCGCAAGCTGGCGGCATGGGTGAAGCAACTCAAAATATGTCCCAATATACGTATAAAGCTAGCCTTGATAGTCAAGATGGTTTATCTCCAGGTTATCACGTTTCTCTGCAAGTAAACTTAGAGAATAAGAAGATGATTGCTGTCCCAAGTAAGAGCATTGTAGAAAAAGCCGATGATGCATTTGTTTATGTTGAGGATAAAGGGAAGCTTCGTAAACAAAATGTGAAAAAAGGTTCTACTGATGGAGATTGGACAGAGATTACTGAAGGCGTAACAGTGGGGCAAAAGGTGGTTAAAAATCCTTCCGACGATGTGTATGACGGAATGGAAGTGAAAGAGAAATGA	MVLSKITTSNNKRIWIIVGVIALIVIVAAVNIFVMQGKKKVASTSADAVSFEKVTERKLNNTKLISGQVKPGNIESFYADPAKGKVKDIEVKEGQEVEKGTKLFSYDNEEINLQMKQAELDQKMADMRYDQGKKKIDSLKKEIKKAKDSGAGKEVTDPMDEQVNELEIGQKTIDLEKEKGKLQKEELSKKQKELTIYSNFAGVVQKLDKDAAQSSSQALGGQGKAFLQVASKDPFQVHGTLTELQKSQIQKDQTFTVTAKANNKKKWTGKITEVSEFPTSAEMAQAGGMGEATQNMSQYTYKASLDSQDGLSPGYHVSLQVNLENKKMIAVPSKSIVEKADDAFVYVEDKGKLRKQNVKKGSTDGDWTEITEGVTVGQKVVKNPSDDVYDGMEVKEK				NA	NA	NA	NA	NA
AK009_09317	681	yknY_6	COG1136	putative ABC transporter ATP-binding protein YknY	ATGATTACGTTAAATAATATTGCTAAAACGTATTATCAAGGAAAATTGGCGGTGCCGATTTTGCATGATATTAGTTTAACAATTCAGAGCGGTGAGTTCGTTTCGATTATGGGACCGTCTGGTTCTGGTAAGTCGACGCTTATGAATATTATCGGTTGTTTAGATCGTCCAACAGAAGGCGAATATATGCTGAATGACGTGAATATCTTAACAGCAGACGAGTCAAAGCTTGCTTTAATTCGTAATGAATATATCGGCTTTGTATTCCAGCATTTTAATTTACTGCCACGTCTTTCTGCGGTGGAAAATGTTGAACTTCCGCTCGTATATGGTGGCGTGAAGAAAGCAGAGCGTCATAAGCGTGCTTTAGAGGCGTTAGGTAAAGTTGGATTAGCAGACCGCGTACATCATTTACCGAATGAATTATCAGGTGGACAGAAGCAACGTGTAGCGATTGCAAGAGCGATTGCGAATAATCCAACGTTCATTATGGCCGATGAACCGACTGGTGCACTTGATACGAAGTCTGGTGAGCAAGTTATGGATATTTTCACGAAGCTCAATGCCGAAGGTACGACAATTGTCATGGTTACGCATGAAGAGGAAGTAGCAGCGTATTCTTCCCGCCGCATTGTACTGCGAGATGGGAAAATTACTGAAGATAGAAGGTGTGCGGTATGA	MITLNNIAKTYYQGKLAVPILHDISLTIQSGEFVSIMGPSGSGKSTLMNIIGCLDRPTEGEYMLNDVNILTADESKLALIRNEYIGFVFQHFNLLPRLSAVENVELPLVYGGVKKAERHKRALEALGKVGLADRVHHLPNELSGGQKQRVAIARAIANNPTFIMADEPTGALDTKSGEQVMDIFTKLNAEGTTIVMVTHEEEVAAYSSRRIVLRDGKITEDRRCAV	PGPT0013345_13626	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK009_09318	1200	yknZ_3	COG0577	putative ABC transporter permease YknZ	ATGAGTTTACTAGATAGTATAAAAATTGCCTTATCGTCTATTTTAGCTCATAAACTGCGCTCAGCTCTTACCATGCTTGGGATTATTATCGGTGTAGGCTCTATTATTACCGTCGTTGCGATTGGGCAAGGCGGAGAAGCTGCCTTAAAATCACAATTTGTTGGATCAGGGAATCAAACAGTTCCCATTCATTATAGTCCTGATATAAATGATCCTTTTGGTATGGATATGGCTGAAGCACCAAAAATAACAGAAGAAGATATTTTTGAACTCAAGAAAATCCCAGAGATTGCACATATCGTAACAACAAATTCAAGTATGGAGTCTCTTGATATTGAAGATAAAAAAGAGATGGTGAATATTACTGGATTAGACAATGAATACTTCACGGTGAATAAAGTGAAAGTACTAAAAGGACGTTCGCTACAAGAATCAGATGTGGATCAAGGTAATAACGTTGTCATGATTAGTAAACAAATGAAAGAAAAAGTGTTTAAGGATGCCAATCCAGTCGGTAAAATTATTGAAGTGAAAGGTCAACCGATGCAAATTATTGGTGTCTACAAATCAGATAACAAGTTTATGGGAATGGGACCATCAGAAGCACTCGTTCCCATTTCATTATGGCCGACACTGTATGGAAAAGATGAGATTCAAAATATTTCTGTTCAAGCAAAAAATGTAGATCATTTAGAGCAAGCAGGTAAAAAAGCTGCGGATGTCTTAAACAGTCGCAAGCCAAGTGATGCAACTGGTAAATATGAAGTTGTGAATTTAAAAGAGATTCAAGAAGGTATTTCAAAAATGACGGGTATTATGACAATGATCATCGGTGGTATCGCTGGTATTTCATTAGTCGTTGGTGGTATTGGTGTTATGAATATCATGCTCGTATCTGTAACAGAGCGTACGCGTGAAATTGGGGTACGTAAAGCACTTGGTGCAACACGTAGTAAAATTTTATTACAATTTTTAATTGAAGCAGTTATGTTAACGCTTCTTGGCGGTTTAATTGGTATTGGTCTTGGATATGGCGGGGCATATATTGTTTCGACATTTGCGAAATGGCCACCGCTTGTTTCATGGGAAGTTGTTGTTGGGGGCGTATTATTCTCAATGACACTTGGTATTATTTTCGGATTAATCCCGGCAAATAAAGCTGCGAAATTAGATCCAATTGAAGCACTTCGCTATGAATAG	MSLLDSIKIALSSILAHKLRSALTMLGIIIGVGSIITVVAIGQGGEAALKSQFVGSGNQTVPIHYSPDINDPFGMDMAEAPKITEEDIFELKKIPEIAHIVTTNSSMESLDIEDKKEMVNITGLDNEYFTVNKVKVLKGRSLQESDVDQGNNVVMISKQMKEKVFKDANPVGKIIEVKGQPMQIIGVYKSDNKFMGMGPSEALVPISLWPTLYGKDEIQNISVQAKNVDHLEQAGKKAADVLNSRKPSDATGKYEVVNLKEIQEGISKMTGIMTMIIGGIAGISLVVGGIGVMNIMLVSVTERTREIGVRKALGATRSKILLQFLIEAVMLTLLGGLIGIGLGYGGAYIVSTFAKWPPLVSWEVVVGGVLFSMTLGIIFGLIPANKAAKLDPIEALRYE				NA	NA	NA	NA	NA
AK009_09319	699	yknW_2		Membrane protein YknW	ATGGAAGCGAATATGAAAATACAAGATGTAGGTGTGAAAAAGCCATCATTATTTGGAATGATTACATCTCCTGGATTACAGTTTGAAAGAATGAAAACAAGTAAGAGAGTTTGGGGTGTATTCTTCTTAGTAGCACTGTTACAGGGGCTGCTCGGTGGTTTAAGTGCGTATGTTATACATACTTCACCTGAGATGCTTAAAATGAAAAAGGAATTGGGTGAACTTGCTGGTCAAAGTTCACTTACATCAGAAGTGATTTCTGGAATTGGCTCAAGTTTTGCTAGTGCGATGGTTGGAACACTATTCATAGCAGCTATTTATAAGATGTTTATGATGATTTTTGGGAATGATACCCCTTATAAAACCCTAGTAAACATTGTAGTTTATACAAATATTGTCCTTATTATTGGTGGACTTATTAATACAATTTTAAGTCTAATTTTTGGTACTGGAATGACTCAATATACAAGTTTAGGATTATTATTTACGGAAGGTACATTTGCATATGGAATTGGTAATACAATTGAAGTATTCTATGTATGGAATTTAGCCTTAATTTGGCTTGGATTACATATTACAGCTGGATTAAGCAAAGTGAAAGCATCGATTCCAATTATTATTCTATTCATTATTAAGGCAGTCTTCTTAGCGGCAATTATTGTATTGATGGCTAAACTTTTACCAGGTATACCAATGTAG	MEANMKIQDVGVKKPSLFGMITSPGLQFERMKTSKRVWGVFFLVALLQGLLGGLSAYVIHTSPEMLKMKKELGELAGQSSLTSEVISGIGSSFASAMVGTLFIAAIYKMFMMIFGNDTPYKTLVNIVVYTNIVLIIGGLINTILSLIFGTGMTQYTSLGLLFTEGTFAYGIGNTIEVFYVWNLALIWLGLHITAGLSKVKASIPIIILFIIKAVFLAAIIVLMAKLLPGIPM				NA	NA	NA	NA	NA
AK009_09320	297			hypothetical protein	TTGGGATTGGTGAAGACCATTTTAATTAGAGATGACACATTGGCGCATATAAAAAATGATTTAGTTGAAATCAGTCAGTCTAATGTAAATTCCAAAGGTTTAACTCATGTTCAAATTACTTTAAACAAAAATGAAATTATACATCTCGCGAATAAACTACAAAGTATGTTTGGAAAAGTAGATATTTGTATTCACTGTGATAAAGTGATAGATGCATTTGAAATGCCTTATCGATATAAAAGTCGCAAACAAGCACATCTCGGTTGCCATATTTATAATAATAGAGGGCGTGTATAA	MGLVKTILIRDDTLAHIKNDLVEISQSNVNSKGLTHVQITLNKNEIIHLANKLQSMFGKVDICIHCDKVIDAFEMPYRYKSRKQAHLGCHIYNNRGRV				NA	NA	NA	NA	NA
AK009_09321	186			hypothetical protein	ATGAATTACATACTTTTTAGAAGTGCAGATGGGAATACAGGGTATATGAGTCAACATGGAAATGGTGGAGGTTCTAAATCCGCTCACGGAAATACAGGTCATCATATTGACGTGCCCGCTGAATTGTATGCACAAGGAAATGGTGGCGGACATCATCGTGAGCCAGGGGGGCATTCAAGGGGTTAG	MNYILFRSADGNTGYMSQHGNGGGSKSAHGNTGHHIDVPAELYAQGNGGGHHREPGGHSRG				NA	NA	NA	NA	NA
AK009_09322	912			hypothetical protein	ATGTCCAATCAAAAATTGGTCAATTTACGTATTGATTTTGCCTTTAAACAATTATTCGGGACATCCGGAAGCGAAGATATTTTGTTAACATTTCTAAATGCAATGTTAGCTGATTCATTGGAATCGCTCATTCAATCCCTTCAATTCGAAGATCCACATTTACATCGAGAACATGAAGAGGATAAATTATCGATTCTAGACGTATCGGCTACATTAGACACTGGAACCAAAATTAACATTGAAATCCAGTTGAATAATAATCATGACCTTTTAAAGCGTTCCCTATATTATTGGAGCAAGCTCTATGCATCTCAATTAAAAAAGGGAATGCCCTACAGCTCATTGCATAAAACCATTACAATCAACTTATTGAACTTTGTCATGTTTAAAGACTATGAAGCATTTCATACGACGGGGAAACTGTGGAATATGCAACAGCAGCAACTCTTAAGTGATGATATCGAAATTCATGTCGTGGAAATTCCAAAATTGCTACAGCAGTGGCGAGAGGAAAAAGTAAATCCATGGGAAGATTCTTTTGTTCGGTGGTTATTACTATTACCAGCCAATGAAGATGAGCATTTAACACATACTCTGGAGGCGATTGCGATGAATCAGGATCCAATTTTACAAAAGGCAATAGATAAATGGGAGCATATGAGCCAAGATGCTTCGTTCCGTCAAGCATACGAAGTACGCGAAAAGATATTGATGGATGAAGCAGCAGGTATTGCACATGCGTTAAATAAAGGGCGAGAAGAAGGCATGAAAAAAGGACTTGAACAAGGCGTTCAACAGGGAAAACGTCAAATGATTCTCGGTATGCATCGTTTACAAGTCCCAATAGAAACCATTGCACAAGCCAGTGAACTCACGATTGAAGAAGTAAAGAAAATCATAGAGCAGGCATAA	MSNQKLVNLRIDFAFKQLFGTSGSEDILLTFLNAMLADSLESLIQSLQFEDPHLHREHEEDKLSILDVSATLDTGTKINIEIQLNNNHDLLKRSLYYWSKLYASQLKKGMPYSSLHKTITINLLNFVMFKDYEAFHTTGKLWNMQQQQLLSDDIEIHVVEIPKLLQQWREEKVNPWEDSFVRWLLLLPANEDEHLTHTLEAIAMNQDPILQKAIDKWEHMSQDASFRQAYEVREKILMDEAAGIAHALNKGREEGMKKGLEQGVQQGKRQMILGMHRLQVPIETIAQASELTIEEVKKIIEQA				NA	NA	NA	NA	NA
AK009_09323	357			hypothetical protein	ATGATTTTTTTATTTCGATTTGATGTGACAGACAAGGGAATGGATTTTATTCTGAATGAAGAAATAGCAAAAGATATGTATCCTGATTTGGAAGAAATGCTCCGTGATTTAGTGAGATCTTTATGCTCAATGCTTGAATACTATAAAGTCTATAACAAAGAGAAAACCATCTTTTCAGGATTCATTCACGATAATGGGGAAGCGGAGGTTACACTCAGTAAGGGTTTGGGAAAATACATTGATCCATATACCAAGAATCAAATTATCTTTGATCATGGAAAACTTATTACTGAACTTTGTACCACAATCATGGATCGGAGATCAGCAGAAGCCCAATTAAAAGGAGAACGATGGTAG	MIFLFRFDVTDKGMDFILNEEIAKDMYPDLEEMLRDLVRSLCSMLEYYKVYNKEKTIFSGFIHDNGEAEVTLSKGLGKYIDPYTKNQIIFDHGKLITELCTTIMDRRSAEAQLKGERW				NA	NA	NA	NA	NA
AK009_09324	210			hypothetical protein	ATGTCTAGGTATGTGTGCTTAAGTCTATGTGACTATCGTTATGTGACCGATGGAGAGATTTTCAAAGTTATGGAGCATGAAAAATCTATTTTGGATACAAAACATAAGAAAATTGTGCTTCTGCTGATTGAAATGGCTAGATTATATGATGAAATGAATCATTCAAGTGGTTGGAAGTGTGTTGGGATGGGAGTAGATTTTCTGTTATGA	MSRYVCLSLCDYRYVTDGEIFKVMEHEKSILDTKHKKIVLLLIEMARLYDEMNHSSGWKCVGMGVDFLL				NA	NA	NA	NA	NA
AK009_09325	213			hypothetical protein	TTGATACATCAATATGAATTGAACTTTTCAGTGATGTACAGTGGCAAGGTAACAGACTCACAATCTACGATTATTCCAGCACAATCTTTAGAGGAAGCAAGTAAGAAATTGCATTCGGAAGTAAAGCGGGGATTAGGAAAATGTAGTATAAAAATGAATTCCGCAAGTTTATTTGTTTCAGAAGAAGTTCAATATACAGTCTTACAAAAGTGA	MIHQYELNFSVMYSGKVTDSQSTIIPAQSLEEASKKLHSEVKRGLGKCSIKMNSASLFVSEEVQYTVLQK				NA	NA	NA	NA	NA
AK009_09326	474			hypothetical protein	GTGAGGCACTTATTAGGGCACAGCGAGACGGAGCAATTCTTTAGCCTTCTGCCACACCGTCGTCGCCGACACCGCCTCCGCACCGAAGCGCCGCCCGAGCGCCTCCGCGGCCACCTCACCCGCAGGGTAGGAAGCGAACGCCGTCTCCGCGTCCTCCCACCGCTCGCGCGCAGCACACAGCACCGCCGCTACCAGATCGCACCCGAGACCCCGACCACGGTGCTCGGGCAGAACGTAGACCAGGCCGAGCTCACAGACGGATTCGACGTCGTGGTCGAAGGTGACGGCCTCAGCAAGGCCGACGACGTCCCCGGACTCGGAGCGGGCAAGCGCGGTGAGCTGAGTGCCGCCGCGGTCGCGCAGGCGTGCGCCGGCGTCGATAAGGCGTTGATGCGTCCAGTCAACGGTGTCGAGGATGAGCTCGCCGCGCGGGAAATTCGCCGAGTGACGGGCGTTTCTTTTCGGTACCGGTAG	MRHLLGHSETEQFFSLLPHRRRRHRLRTEAPPERLRGHLTRRVGSERRLRVLPPLARSTQHRRYQIAPETPTTVLGQNVDQAELTDGFDVVVEGDGLSKADDVPGLGAGKRGELSAAAVAQACAGVDKALMRPVNGVEDELAAREIRRVTGVSFRYR				NA	NA	NA	NA	NA
AK009_09327	1719			hypothetical protein	GTGTACGTCGGAGAAACCAATGACATTGCGCAGCGAACCACAACACACTTATCCAACGATCCCCGCTTAGCTGATAGTGAGTTAGCAGGGCTAGTTTCTGACGACCCGGGCGTGAACGGGGTTAGCAACTCTGTCAGGCGCTCCCAAACGTGGCGATTGTTTAGAGATAGGGATTCAAAGATTCTGGTAATTGGCCACTCCCTCTTCAACAAGTCAATGACTTTGGAGGTGGAGGACCGACTGATGCTCTACTTGGCGGCGATCGATGATGTGGTATCTGCGGAGAAGCGTCGCGTATTTCTCAACAATGCGCGCCGAAATGTTCAAACTGAGTACTTCACTCGCGACTATGTCGACGACGCTTTCACCAACATCTGGATGCGCCTAAGAGAACGCGAGCCTGAACTATTCCCGATCGAACAGCTCGTACGCGATTCGGCGCTGTTCAAAGCATCTCCGTTCCATCAGTTGAACGCACAACAAGTCGGCGCAAAACTCGCGATCTTAGATTCGGTTGAAGCTGCGATCAAGGATGCCGAGGGGCCGAAGTCCGACCAGTCTCAACTCATCCTTGTCCAAGGTGGTGCTGGTACAGGAAAAACAGTCTTATTGAGCAGCGTTTTCTACGATCTCGCTCATCTGCCCGTTGACCCTGATTCCCCAACTCAAGAGTCAACCTTGGATGTCTATATGTTGGTCAACCATGACGAGCAGATCACGGTTTATACGCAGATCGCCGAACGCCTGGGGCTCAGCGCCATCAAAAATCCGAGGGTGATGAAGCCCACCAGATTTATCAATTCGCACCAAGCGGGTGATCAGATTGCTGACGTGGTGCTTGTCGACGAGGCGCATCTCCTTTGGACCCAAGGCAAACAGTCCTACCGCGGAGAGAATCAACTCAAAGACATCCTGGAACTAGCCCGCGTCGTTGTCGCAGTTTTCGACCCGAACCAGGTTCTGGCGGGAAATCAGTATTGGAATGAAGATGACCTTCGAGCGTTGCGGGAACGCGCTGGAGAAGAAAATTGTCTTCAACTGGACCAGCAAATGAGAATTGACTCGGAAGGCCCGGCTGAAGAGTGGATCCATCGTTTCGTCCACGGCAATGAGGTTCTCCCCATCCCAACCAACGACAAGTATCAAATTCAGGTGTTCGGAACCCCAGAAGAATTGCATGAGGCAGTTAAGGCTCGTTCGAAAACTGAGGGTGATTCTCAGATCGAGAAAGGACTGTCTCGTCTCATCGCCACCTACGACTGGAAATTCTCAAACGGAAAAACGAAACCAAAGGACGGGGCGACCTGGGATGTTGTCATTGGAGATTTCAGGCTCCCTTGGAATAACCAGCAAAAGGGGAGGAAGAACAGTAGCCTATCGTGGGCGGAACGCGAGCACTCGATAGACGAAGTTGGATCGATCTTTACGATTCAGGGCTTCGATTTGAATTTTGCTGGGGTAATTCTCGGCCCTTCCGTGATTTATCGGAACGGCCGAGTTCAATTCGACCCCGAAGCAAGCATGAACCCGAATGTAAGGAATCGGCGCGGCGAAGTCGTAAACGGTAAGAAAGTCATGATGGACGTCAGCGAAAGTCTGCTGCGAAATCAGCTCAACGTGCTTATGACCCGAGGAGTTAGGGGGATGGGCATTTACGCAGTGGATGCGGAACTACGTGAGGCACTTATTAGGGCACAGCGAGACGGAGCAATTCTTTAG	MYVGETNDIAQRTTTHLSNDPRLADSELAGLVSDDPGVNGVSNSVRRSQTWRLFRDRDSKILVIGHSLFNKSMTLEVEDRLMLYLAAIDDVVSAEKRRVFLNNARRNVQTEYFTRDYVDDAFTNIWMRLREREPELFPIEQLVRDSALFKASPFHQLNAQQVGAKLAILDSVEAAIKDAEGPKSDQSQLILVQGGAGTGKTVLLSSVFYDLAHLPVDPDSPTQESTLDVYMLVNHDEQITVYTQIAERLGLSAIKNPRVMKPTRFINSHQAGDQIADVVLVDEAHLLWTQGKQSYRGENQLKDILELARVVVAVFDPNQVLAGNQYWNEDDLRALRERAGEENCLQLDQQMRIDSEGPAEEWIHRFVHGNEVLPIPTNDKYQIQVFGTPEELHEAVKARSKTEGDSQIEKGLSRLIATYDWKFSNGKTKPKDGATWDVVIGDFRLPWNNQQKGRKNSSLSWAEREHSIDEVGSIFTIQGFDLNFAGVILGPSVIYRNGRVQFDPEASMNPNVRNRRGEVVNGKKVMMDVSESLLRNQLNVLMTRGVRGMGIYAVDAELREALIRAQRDGAIL				NA	NA	NA	NA	NA
AK009_09328	624			hypothetical protein	GTGAAACAGGTCCACAAACGGCTTGAACCGCACGGGCGCTCCACCGGTGATGGCCAGCATCAGCTTCATCCGCTGGCGCGCCGCACGCACCACGGACTCCGGCGAGCCACCTACCGCCACCCAGGTCAGCAGGGGTTGATCGGTGCGCGGGTAGACGGAGGCGAGCTCAAGCGACGCTCTCGTGGTGCCGGACCAGCTGAACGGCTCGCGGGAGGCGTCGGCGTCGAGAAGCGTGCGCACAAGATCGAGTTTCTCCTCGAAAAGCGCCTCGTAATCTCGCAGGTCGTAGCCGAACAGCGGGAGGGACTCGGTAAACGAGCCTCGGCCGAGCTGCATCTCGGCAAGGCCGTTCGAAATGGCCTGGAGCGTGGAGAAACGCTGGAAGATGCGCACCGGGTCGTCGGAGGAGAGCGCGATCACGATGGTGGTGAGGTGGTTGTTATCAGTGCGCGAGGCGATGGCGGCGAGCAGCATGTCGGGCGCGGACACGGCGTAGTCCTCGCGGTGATGCTCTCCAATGCCGAAGACGTCGAAGCCGACTTCGTCGGCAAGCACAGCCTCCTCGACGACGTTGTGGATGGACTGGGCATGGGTGAGCACGTTTCTGTCGGTGTCGGCCTGTAG	MKQVHKRLEPHGRSTGDGQHQLHPLARRTHHGLRRATYRHPGQQGLIGARVDGGELKRRSRGAGPAERLAGGVGVEKRAHKIEFLLEKRLVISQVVAEQREGLGKRASAELHLGKAVRNGLERGETLEDAHRVVGGERDHDGGEVVVISARGDGGEQHVGRGHGVVLAVMLSNAEDVEADFVGKHSLLDDVVDGLGMGEHVSVGVGL				NA	NA	NA	NA	NA
AK009_09329	729			hypothetical protein	ATGAGCGATTCACAGCAGTTCACCCTGCCCACGTGCCTGAGGGAGGCCATGGCGGGTGACTTCGCTAATGCGGAGTCATTGCTGCGGCGCTACTACGGTTCCAGGCTCGAAGGCAGCAAAAGCGCTCTGGACAAAGAGGGATGGTACTCGGGCGCGTACTACGACGAATGGGGAGAAAGCACCAGTCCCAAGAATCCGACAGCGTTTACGGCTGAGGACCTCCTTGCGGTTTCCTACCTGAGCGTATCTATTTCCGGGCGAGCGGCGGCTGAAATTTTGCACCGGCGACGTGAGGAAATCAACGATTGCCTGGCGGCCGCGGTGGGTGAGTGCGAGGGGTACGCGTCGCTGAGCGAGGTGCCGTTGGAAAAGACTTCCTATACCGGAATAGTCAAGTTTCTTCCTGACACAGCCTGGGCGCCATTTCTGTTGGAGAAGAAGCTGCGCGAGCTGGATGGCATTGGTGCGGTGAAGGCATCGAAGTTGATCGCCCGAAAACTGCCACGCATCTACCCGATCTACGACGAGCGCGTCACAGCCCTTACCGGCGCGCGTGATCAGTATATGCGCCCGCTCCATGTGACGCTGGTGGAAAACCCAGGCGTCGAGCAGACCCTGGAGGAACTGCGCCGGTCTGTGGGTTTGCCCGCAAGCATTTCCTCGATCCGGGTTTTCGACGTCCTTGTCTGGATGGAGCAAACTGACCTGGTGAGAGGGTTGGGCAGGTAG	MSDSQQFTLPTCLREAMAGDFANAESLLRRYYGSRLEGSKSALDKEGWYSGAYYDEWGESTSPKNPTAFTAEDLLAVSYLSVSISGRAAAEILHRRREEINDCLAAAVGECEGYASLSEVPLEKTSYTGIVKFLPDTAWAPFLLEKKLRELDGIGAVKASKLIARKLPRIYPIYDERVTALTGARDQYMRPLHVTLVENPGVEQTLEELRRSVGLPASISSIRVFDVLVWMEQTDLVRGLGR				NA	NA	NA	NA	NA
AK009_09330	273			hypothetical protein	GTGGAAAGTGAAGGGGCAGTCGTGGCTAAGTGGTTTGATCAGGCGCGTGAAATTGATCGCCTGCGCAGCGAGAATCAGCGGTTGCTTAGCCTGGCTGAGCAGCTGAAGATCCGGCTTGGTGACTCCGCAGCAAACACCGATATATACGGTGTGTCCGATGAGGAGAAGCAGGCGGTGGCCGACGGGCGACCGGTCGAGGCGATCAAGAAATACCGGGAACGCACCGGGGCGGACCTTTTGACGGCGAAAAGGGCGATTGATTCGGTTTCTTAG	MESEGAVVAKWFDQAREIDRLRSENQRLLSLAEQLKIRLGDSAANTDIYGVSDEEKQAVADGRPVEAIKKYRERTGADLLTAKRAIDSVS				NA	NA	NA	NA	NA
AK009_09331	666			hypothetical protein	ATGTACTGCAGCCAGCGCCCAGGCCTCGGTTCTGCCCAGGTCAATGCGGTCAACCCTGAAAGGGAAACATATCGCTCGGGAGGCTGGTACCGCAACGCAGCACGTCAGCGACGAGCCCGTCCCCTTGGGCAGCCACCAGAGCGCTCCCTAGCCCTCCCGGTACTTTTCGTGCCTCTCGGCGGCGCGGGCGCGGCGGTCGTCGACAAGCAGCGGGTTGTTTTCCCCCGCGGCCTCGCGGCTGGCGGCCTGCTGCGCCAGGGCGACCTCGTCTCGGCCCTCCAGCGCACCGCGGCGCTCGGCGATCTCGGACTGGGTGTCGCTGCGCCGCAGCACGACCGGGATGTAGGCGAACACGGCGATCCCGACGGCAACAATCGCCAGGTAGATCCCCGGACCGTGGTAGAAACCTTCGTCGAACGCGGAACTGGTCCGGCGCAGCCAGATCGCGAGGATGGAGATGAAGAACGACACTGTGGTAAACATCCACCCCGCGGCGGCGAGGGGGAATCGCCTGGTGGCAAGCACCAGCGACGTCAGCACCACGAGGCCGATAAACGACAGAACCGTGAACGCGTATTCCGTCAGCTTCGCCTGCACCGCGTCCGCCGCGTCGGTGAAGGTGAGGATCTGCCAGCCGGCCACGTTGCCGGCGAACGGCAGGAATAG	MYCSQRPGLGSAQVNAVNPERETYRSGGWYRNAARQRRARPLGQPPERSLALPVLFVPLGGAGAAVVDKQRVVFPRGLAAGGLLRQGDLVSALQRTAALGDLGLGVAAPQHDRDVGEHGDPDGNNRQVDPRTVVETFVERGTGPAQPDREDGDEERHCGKHPPRGGEGESPGGKHQRRQHHEADKRQNRERVFRQLRLHRVRRVGEGEDLPAGHVAGERQE				NA	NA	NA	NA	NA
AK009_09332	756			hypothetical protein	TTGACTCTAGCAGCAGCCGCTGCTTGCCGGGGCCGCACCGGGCTTGCCAATCGAAGGCAACCCCAGCCCGACCCCGATCGGTGCGGTCGTGGGAACATCGCCCGCCGCGGAATTGTCCCCGGCCTTTGTGCGACGATGCTTGACGACGCCCGAATCAGCAATCAGGTAGTGCGGCTTCGCATCCGTCACGGCGACGTACACAACATCACCCGGGCGCACCTCCTGGTCAATCTCACCCCGCGGGGTGAAGTGCACCAGGCGCCCGTCCCGCGCCCGGCCCGACATGCGCTGGGTGGAGTCGTTCTTCTTGCCTCCGCCCGCCTGGACCAGCAGCTCCACCTCGGTGCCGATGAGCTTGGCGTTCTCCTCCGCGCTGATGCGCTCCTGCAGCGCCACGAGGCGCTCGAATCGCTCCTGGACAACGTCCTTCGGCAGCTGGCCGGCCATCTCCGCCGCAGGCGTTCCTGGCCGAGGGGAGTATTGGAAGGTAAACGCCGAAGTAAACCGCGCCTTCTCCACCACGTCGAGCGTGTCCTGGAAGTCCTCTTCGGTCTCGCCGGGGAAGCCGACGATGATGTCGGTAGTGATCGCCGCGTGGGGCAGCTTGTCGCGAACCTCATCGAGGATGGCGAGGAACTTTTTCGATCGGTACGACCTGCGCATCTCCTTGAGCACCTTGTCCGAGCCGGACTGCAATGGCATGTGCAGTTGCGGGCACACGTTGGGAGTCTCCGCCATTGCATCAATCACGTCTGA	MTLAAAAACRGRTGLANRRQPQPDPDRCGRGNIARRGIVPGLCATMLDDARISNQVVRLRIRHGDVHNITRAHLLVNLTPRGEVHQAPVPRPARHALGGVVLLASARLDQQLHLGADELGVLLRADALLQRHEALESLLDNVLRQLAGHLRRRRSWPRGVLEGKRRSKPRLLHHVERVLEVLFGLAGEADDDVGSDRRVGQLVANLIEDGEELFRSVRPAHLLEHLVRAGLQWHVQLRAHVGSLRHCINHV				NA	NA	NA	NA	NA
AK009_09333	759			hypothetical protein	ATGCGGCGAGGTAAAACGCACTCTTTCGAGCCCCTCGATGTCCCCGCAGGCACGCAGCAGCTTGGAAAACGCGGAACGATCCCGCTCAAGGGATGCGTCGACGAAGTTGACCCCGTAGGCGTTAACGTTCTGGCCGAGCAGGGTCACCTCGGAGACCCCCTGATCCACGAGGGCCTTGACCTCGGCGAGGATGTCTCCGGGGCGACGGTCGAGCTCCTTGCCGCGCAGCGAGGGAACGATACAAAACGTGCAGGTGTTGTTGCAGCCCACCGAGATGGACACCCAGCCCGCGTACGAGCTTTCCCGCTTCGCGGGCAGCACCGAGGGGAAGACCTCGAGTGCTTCTACCACCTCGACCTGGGCTTCCTCGCTGACGCGCGCGCGGTCGAGCAGCGCTGGGAGCGCCGACATGTTGTGGGTGCCGAAGACGGCGTCCACCCACGGCGCCTTCTCTATCACCGTGTCGCGGTCTTTCTGCGCCAGGCACCCGCCGACGGCGATCTGCATCCCCGGGTGGTTGTCCTTTGTCTTCTTCAGCTGACCGAGCGAGCCGTAGAGGCGCTGGTCCGCGTTGTCACGCACGGCGCAGGTGTTGAAAACCACCAGGTCGGGCTCGGCCCCCTCCTCGGCCGCGGTGTATCCCGCGCCCTCGAGCATCCCGGAGATGCGCTCGGAGTCGTGCACGTTCATCTGGCAGCCGAAGGTGCGCACCTCGTAGGTGCGTGCGGCATCGGGGTTCAGCGAAGTTGTCACGGCTAG	MRRGKTHSFEPLDVPAGTQQLGKRGTIPLKGCVDEVDPVGVNVLAEQGHLGDPLIHEGLDLGEDVSGATVELLAAQRGNDTKRAGVVAAHRDGHPARVRAFPLRGQHRGEDLECFYHLDLGFLADARAVEQRWERRHVVGAEDGVHPRRLLYHRVAVFLRQAPADGDLHPRVVVLCLLQLTERAVEALVRVVTHGAGVENHQVGLGPLLGRGVSRALEHPGDALGVVHVHLAAEGAHLVGACGIGVQRSCHG				NA	NA	NA	NA	NA
AK009_09334	519			hypothetical protein	ATGAGCGATTCTCGCGCCATCCGCGCGCTCAGGTCGTCCCTCACTCCCGCGACCCCGGCGGTCTTCTGGTGGATGGCACCATGCCCCCGATTGACTGTGGCCAGTCACCCTCAGCCGTTAGGGGTGCAGTGCCAATGGCTGGCCTGCGCAGCTGGGTCACTCGCACTCGGCAATCCGCGCGTCGAGCACCTCCCGGCCCAGCCGCAGGCTCAGCGCCGAGCTGTAGCCGCGCCTCGCCATCACCCCAACAATCCGGCGCAGGTGCTTGTCGTACTCCGCGCGATCGGATGGCGCTGCCTTGACTTCGCGGGCCTTCTTCTCCGCGACAGCTCGGGCGGCGGCTTCCTCGTCCTCGGCGGTGATCTGGGACAGCGCCTCCTGGCGCACCGGCTCAGCAACCCCCTTGTCCAGCAGCTCCATGTCGAGCGCACGAGCCGACTTTCCCCTTCGCTGGGAGCGCTGGCGGACCCACTCGCTTGCGAAAACCGCGTCATTGACCAGCCCCGAGTTCTCCAGTGA	MSDSRAIRALRSSLTPATPAVFWWMAPCPRLTVASHPQPLGVQCQWLACAAGSLALGNPRVEHLPAQPQAQRRAVAAPRHHPNNPAQVLVVLRAIGWRCLDFAGLLLRDSSGGGFLVLGGDLGQRLLAHRLSNPLVQQLHVERTSRLSPSLGALADPLACENRVIDQPRVLQ				NA	NA	NA	NA	NA
AK009_09335	519			hypothetical protein	TTGTGCTTAACCCTCGTTAGGCACCAGGTTGCTATCGGAGGCGCCCAGCGGCTCGTTGGCATCGTCGTCGTCGAAGTCGATGTTGGGGACCATGTCCACCGGGTCATCGGTCAACGCGTCAGCGTCAACCCCCGCGTAGGCGCCGACGCCGAGCTTCTGGAAGATCTTGTCCTCGATCTCGTTCGCCAAATCGACGTTGTCCTTGAGGAACAATCGGGCCTTCTCCTTGCCCTGGCCGAGCTGGTCGCCCTCGTAGGTGAACCAGGAACCGGACTTTTTCACGATGCCGTTGTCGACGCCCATGTCGATGATGGAGGATTCGCGCGAAATGCCCTCGCCGTACATGATGTCGAATTCGGCGATCTTGAACGGCGGCGACACCTTGTTCTTGACCACCTTGAGCCTGGTGCGGTTGCCGATGGAATCCTGGCCGTCCTTGAGGGTCTGGATGCGACGGACGTCGCAACGCACGGAGGCATAGAACTTCAGGGCCTTGCCGCCGGTGGTGGTCTCGGGTGA	MCLTLVRHQVAIGGAQRLVGIVVVEVDVGDHVHRVIGQRVSVNPRVGADAELLEDLVLDLVRQIDVVLEEQSGLLLALAELVALVGEPGTGLFHDAVVDAHVDDGGFARNALAVHDVEFGDLERRRHLVLDHLEPGAVADGILAVLEGLDATDVATHGGIELQGLAAGGGLG				NA	NA	NA	NA	NA
AK009_09336	147			hypothetical protein	GTGGGAGTCGCCCATTTCGCCTTCGATTTCGGCCTTCGGCGTCAGCGCGGCGACCGAGTCAATGACGATGATGTCGATAGCGCCCGACCGCACCAGCATGTCAGCGATTTCCAGCGCCTGCTCGCCCGTGTCGGGCTGGGAGACTAA	MGVAHFAFDFGLRRQRGDRVNDDDVDSARPHQHVSDFQRLLARVGLGD				NA	NA	NA	NA	NA
AK009_09337	279			hypothetical protein	GTGCAGCGCAACGGTGGTCTTACCGGAGGACTCGGGCCCGTAAATCTCCACGACTCGCCCCCGCGGGAACCCGCCGATGCCGAGCGCAACGTCGATCGCGGTGTTGCCGGAGGAAATGACCTGGATCGGGGGGCGATTTTCATCCCCGAGGCGCATGACCGCGCCCTTGCCGAAGTCCTTCTCAATCATCGCCAGCGCAGCGTCGAGCGCGTTTTGGCGATCCCCGCCCGCTGCCGCGGTAGTCTTCTTTTTCGCTGCCATGTCAGTCACTCCCTTTAA	MQRNGGLTGGLGPVNLHDSPPREPADAERNVDRGVAGGNDLDRGAIFIPEAHDRALAEVLLNHRQRSVERVLAIPARCRGSLLFRCHVSHSL	PGPT0017365_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
AK009_09338	714			hypothetical protein	GTGGTGCGCCCACCGGCGAGGACCGGCAGGAGAAAACCGATCAGGAGGAACAAACCGGCGACGAAAAACCCGCGCCTGGCCCCGAGGACCAGCGCCGCGAGAACGAGCGCGGTGTTCTGGATCACGATGGGCACCCCCAGGGCGCCAGCGGGGATGGCGACGAACCCCAGCACGATCACGAGCGCGGTGAACACCGCGACGAAGGCTACGTCGGCGGTGGTGTTCGATGCCTGTGTGGCCTCGGCTGAAGCCGGGGGAGTTGGTGATGTTTTCGACATGGCAGAAACCTTACTTGAACACCGTTCAGTGCGGTGCGTTTCGGGGTCCGAAAAGCGCCGGAGTGTAGATTGGGCCCATGCGCTTGACCGAATTCCAGCAGCTGGTGGAAGACGAGTTCGGCCCCGCGAACGCGGGGTGGGTGATGGACTCGCAAGTCCTGTCGCCGTACAACCAGACCGCGAACGAGATGATCGAAAGTGGAATCGACCCCCGTTTAGCGTGGGAGGGGTTGTGCCGCGCCTACGACGTGCCGGAAGACCGGCAACTGGGAAGAGACCGCCCGGGATTCTGACACGCGTTTCGCGGCGCGTCGCTCGCGTTCGAACATGCTTGCGTGTAGGCTTCGACGTGTCGAGGCGCTGCGCTACGTTAGGGCCAGTCTCATCTGGGACCGAAGGGAACCAGATGGCCGCCTGCGGGAGTCTAAGAGGATGA	MVRPPARTGRRKPIRRNKPATKNPRLAPRTSAARTSAVFWITMGTPRAPAGMATNPSTITSAVNTATKATSAVVFDACVASAEAGGVGDVFDMAETLLEHRSVRCVSGSEKRRSVDWAHALDRIPAAGGRRVRPRERGVGDGLASPVAVQPDRERDDRKWNRPPFSVGGVVPRLRRAGRPATGKRPPGILTRVSRRVARVRTCLRVGFDVSRRCATLGPVSSGTEGNQMAACGSLRG				NA	NA	NA	NA	NA
AK009_09339	387			hypothetical protein	ATGCAGGACGACGGTGCCCTCGTAGCTCACGCTGGCGCCTTCAAAGCGGATAACAGGCATGGGTTAACGCGCTGGGCTCGCGCTACCGCGCAAAAGCTGCGGAAACGCGGTGTGCACGCCGATGGCGATGGCGACCATGACGGCCATCTCAAGCACGTCGGTGGGGATGAAAGGCAGCTGCGCTGCCAGTGCGGCGGGGAAGTCGAGCCCCGCGCGCACCACCATGCCGATGGAGCCGAACAGGTACTGAAGGCCCAGACCGAGGTAGCCGGCGAGGATAAACAGCGCCACCTTGACGGGTCGGGAGCGGCCGATGACGCGCTCTGCGATGGCGCCGGCGACGGGAACCGCAATGAGGTAGCTGATGACGTAGCCAACCGTAGCTGA	MQDDGALVAHAGAFKADNRHGLTRWARATAQKLRKRGVHADGDGDHDGHLKHVGGDERQLRCQCGGEVEPRAHHHADGAEQVLKAQTEVAGEDKQRHLDGSGAADDALCDGAGDGNRNEVADDVANRS				NA	NA	NA	NA	NA
AK009_09340	432			hypothetical protein	GTGCCACGGCTGGCTCGGCAGCGCCGTGACCGACACGACGAAGATGAGCAGGGCTACCAGTTTGGCTGTTGGTGGGGTGCGGTGGAGAAGCGAATTTCCGCCGACGTAAACGCTCAACGGGACGTACGTGAGCATCGCTTACTCCCCGAGAAGTTCGTTGTAGAAGGAAACGGTGTCGTGCGGGGGGCCGTCGAAAAGCACGCGCCCCTCGTCGAGGCAGAGGACGCGATCGAAGCCCGCGAGCATGTCAAGATCGTGGGTGACCACGATGACCTGCTGCTCCAGCGCCGCTATCTCACCGATAATGCGGCGGCGGTTGCGCGCGTCAAGCAGGGTGGTTGGCTCGTCGGCGATGACGAGCTCCGGCTCGATCACCAGCACGGCGGTCAGCGCGAGCAGCTGCTTTTCGCCCCCGGAGAGGGTGTGCGGTGA	MPRLARQRRDRHDEDEQGYQFGCWWGAVEKRISADVNAQRDVREHRLLPEKFVVEGNGVVRGAVEKHAPLVEAEDAIEAREHVKIVGDHDDLLLQRRYLTDNAAAVARVKQGGWLVGDDELRLDHQHGGQREQLLFAPGEGVR				NA	NA	NA	NA	NA
AK009_09341	363			hypothetical protein	TTGAGCGCGGCGGATGCTGCGAATCATCACCGGTGTACCAAACGCCGTCAACGAAAGGCCCGCTCCGCGGGCCTTTCGCGCGTCCAAGACCTCATTGACCGTGTTGGCCATCAGCGGGATCAGCCGGATCGTGACGGAGACGGCAAGGCTTATGGTGTCCACCGGCACACCGAAACGACGCAGGGGCGCGAGGCTGCGCTCGAGCCCGTTCATGAGCTCTTCGAGCGTTGTTGTGAGGGTGAGCAGGTTCGCGGCCGCGAGCGTGGCGACGAGCCCGAACGCCGTCGTGAGCGCTTGGGCGGGGCCGTTTTGCCACCACAGGTACAACCCGAGCAGGGCAATCAGCGGCACGACGGGGGCTAG	MSAADAANHHRCTKRRQRKARSAGLSRVQDLIDRVGHQRDQPDRDGDGKAYGVHRHTETTQGREAALEPVHELFERCCEGEQVRGRERGDEPERRRERLGGAVLPPQVQPEQGNQRHDGG				NA	NA	NA	NA	NA
AK009_09342	876			hypothetical protein	GTGCTCGCCGCGCAGCTCACGCATGCGGGCCTGCACGGCGTCGTTGGACACGTCGCTGCCTGCATCTGCTGCCTGCGGTGCGGAGTTCACTTCGCTAGACTCGATCGCCGGCTTCTGGCTGTTGGTCAGTTCACCGGCCATTTGCGCGCGGATCTGCTCGAGGCGGCCGTGGCCGGCCATCTGGATGCCGGCCTGCTCGACCTCAGCCATGCGGCCCTGGATGGAGTTCTGCGCCAGCTCGGCCTGGCCGAGGGCGTTGGCGTAGCGGCGTTCAATCTTGTCACGCACCTGATCCAGGTTCGGGGTGCCGGTGGTGATCGCGTTCATCGAGGACATGGTCTCGGCGACCTTCTCCTGCATCTTCGCCTGCTCGAGCTGGGACAGAAGCTTGGAGCGCTCTGCGACCTGCTGCTGCAGCTGCGCGGAGTTGCGCTCAACGGCCTGCTTCGCCTGCGCCGCCTGCTGCAGGGCCTGGTCGTGGAGCTGCTTGGTGTCTTCGATGCTCTGCTCGGCCGTGACCAGCTGGGCGGCGAACGCCTCGGCGGCGTTTTCGTATTCCTGCGCCTTCTGCGCGTCGCCTTCGCCACGGGCCTTGTCCGCCAGCTGGAGTGCCTGGCGGGTGTTGGCCTGGAGCTTCTCCACCTCTTCGAGGCGGCGGTTGAGCTGCATCTCCAGCTGGCGCTGGTTGCCGATGACGGCTGCGGCCTGCTGAGACAGGGCCTGGTGCTGGCGCTGCGCCTGGCTAATTGCTTGCTCGATCTGGATCTTCGGGTCTGCGTTCTCCTCGATCTTGTTGTCGAACAGAGCCATCAGGTAGTTCCAGAACTTGGAAAACGGGTTAGCCATCGCGGCGCCTTACCTTTCGTTGATGTTTAA	MLAAQLTHAGLHGVVGHVAACICCLRCGVHFARLDRRLLAVGQFTGHLRADLLEAAVAGHLDAGLLDLSHAALDGVLRQLGLAEGVGVAAFNLVTHLIQVRGAGGDRVHRGHGLGDLLLHLRLLELGQKLGALCDLLLQLRGVALNGLLRLRRLLQGLVVELLGVFDALLGRDQLGGERLGGVFVFLRLLRVAFATGLVRQLECLAGVGLELLHLFEAAVELHLQLALVADDGCGLLRQGLVLALRLANCLLDLDLRVCVLLDLVVEQSHQVVPELGKRVSHRGALPFVDV				NA	NA	NA	NA	NA
AK009_09343	372			hypothetical protein	ATGGCAACGACAACTCTTCTTCTCGATAACTTCGAGGTCGCGCAGCTCAAGCGCCCCCTCGAGCGACCCGTTGAGCGCGAAGCGGTGCGCGAGCCCCTGTTACGCGAGGCACTGGGCATGTCCCTGCGCGCCTTCCGCGCGGACAAGAACGTCTCGCTGCGCACACTCGCCGCAAAGGCACGCGTGTCGTCGGGCTACATTTCCGAGCTTGAGCGCGGCCGCAAGGAGGTGTCGTCGGAGCTCCTGGCGTCGATATGCGAGGCCCTCGATACGACGGTGGCCGAGGTGCTGCTAGAGGCGGTGGCGAACCTGTCGCTGAAGTCGATTACCGACGAGCTTGAGGCGAGCGCGCCCGCGGCCGCTGAAATCTAG	MATTTLLLDNFEVAQLKRPLERPVEREAVREPLLREALGMSLRAFRADKNVSLRTLAAKARVSSGYISELERGRKEVSSELLASICEALDTTVAEVLLEAVANLSLKSITDELEASAPAAAEI				NA	NA	NA	NA	NA
AK009_09344	225			hypothetical protein	GTGGGTGGAAAGGACCTCCTCGGGCACGCTGGCGAGCGAGCGCTTCAGGTCGGTGGCGTAGACGACGAGTCCGCCGCGCAGCACGGCCGAGGCGCCTGGAACGGTCGCGAGCGTTGCGGCGACCAGGCCTGCGGTCAGGGACTCGCAGAAGCTGATGGTCTGGTTGCGGGTGCGCAGAGCGTCGATAAGCTCGCGCGCGAGAATTGTGGAGCTATCCACGGTTGA	MGGKDLLGHAGERALQVGGVDDESAAQHGRGAWNGRERCGDQACGQGLAEADGLVAGAQSVDKLARENCGAIHG				NA	NA	NA	NA	NA
AK009_09345	417			hypothetical protein	GTGGAGCTATCCACGGTTGACCTTCCTCGAATCCACGATGTACTGGATGCCCGTGATCACGGTGACGGCCGTGGCGACCAGCATGACGATGAACGTCGGGACGTCCATCCAGCTCGGCAGCGGGCACAGGTACAGCGCCACACCGAGGGTCTGAAGAACGGTCTTGAGCTTGCCGCCTTTCGACGCCGGGACGACGTTGCCACGGCGCAGCATGAACATCCGCCACACCGTGATGCCGAGCTCACGGACCACGATGAGCACCGTGATCCACACCGGCAAGGTGGATGCGATGTTGAGTGTGACCAGCGCGGTGATCATCAGCGCTTTATCGGCAATCGGGTCGGCGATCTTGCCGAAGTCGGTGACAAGGCCGCGGGACCGCGCGATGTCACCGTCGAGCTTGTCCGTGGCCATTAG	MELSTVDLPRIHDVLDARDHGDGRGDQHDDERRDVHPARQRAQVQRHTEGLKNGLELAAFRRRDDVATAQHEHPPHRDAELTDHDEHRDPHRQGGCDVECDQRGDHQRFIGNRVGDLAEVGDKAAGPRDVTVELVRGH				NA	NA	NA	NA	NA
AK009_09346	960			hypothetical protein	ATGGTTGTCCACCTTGCGGCGGTTGCCGTGGTCGTCGTAGTCAATGTGCCACTTCGGCCCGTCCGGGTCAACGCGGCCAGCGGCAATGTCCATGCGGTTCTTCACCAGGGACGCCACGACGGTCACAGTAAGCACGCCGATGATCACGGACAGGGAGGTAAAGGTCCCGATCTCCGGCACCATCACGTTCTCGCCGCCGTTGACAAACGGCAGGTTGTTCTCGTGCAAGGCGTGCAGCAGCAGCTTGACACCGATAAAACCAAGGATGATGGCCAGGCCGTACGACAGGTAGACAAGGCGGTCCAGAAGACCGTCGAGCAGGAAGTACATCTGACGCAGGCCAAGCAATGCGAACGCGTTGGTCGTGAACACGATGAACGGCTCAGAGGTGATGCCGTAGATCGCGGGGATGGAGTCAAGCGCGAACATGATGTCGACGAAACCAATCGCCAGAAGCGCCACGAACAGCGGAGTCAGTGCCTTCTTGCCTGCCTGGGTGACGGAGACAAGCTTGTCGCCGTGGTACGACTTGGTCACCGGGAAAACGCGGCGCAGCGTCTTCACAATGAACATGTCGTTCGGGTCGGTTTCTTCCTGGTCGGTCGCCTCGTCGTACGCCAGCTTGATCGCGGTCCAGATGAGGAATATCGCAAACAGGTAGAACACGTCCGACCACGCGGCAATCACGGCCGCGCCAAGCAGGATGAAGATCAGGCGCATGACCAGCGCGATCGCGATGCCCAGCAGCAACACCTTCTGCTGGTACTTGCGCGGGATTTTGAACGCGCCCATGATCAGCGCGAAGACGAACAGGTTGTCAACGCTCAACGCCTTTTCCGTGACGTAACCGGTGTAGTACTGCGCGGCGTGCTCGCCGTCCCACAGCCACCAGATCACGCCGCCGAAAAGCAGAGCGATGGTGACGTAGAACGCGGTCCAGAATCCCGATTCTTTCAGTGA	MVVHLAAVAVVVVVNVPLRPVRVNAASGNVHAVLHQGRHDGHSKHADDHGQGGKGPDLRHHHVLAAVDKRQVVLVQGVQQQLDTDKTKDDGQAVRQVDKAVQKTVEQEVHLTQAKQCERVGREHDERLRGDAVDRGDGVKREHDVDETNRQKRHEQRSQCLLACLGDGDKLVAVVRLGHRENAAQRLHNEHVVRVGFFLVGRLVVRQLDRGPDEEYRKQVEHVRPRGNHGRAKQDEDQAHDQRDRDAQQQHLLLVLARDFERAHDQREDEQVVNAQRLFRDVTGVVLRGVLAVPQPPDHAAEKQSDGDVERGPESRFFQ				NA	NA	NA	NA	NA
AK009_09347	648			hypothetical protein	ATGACGGCCGAGGTGATCAGCCATACTGATGTGGGCACACCCATGTGTTCCATAAATACCTCCGGTCAGAAAATCCTTACAAAAGTGACCGGAGGTCTCCCCCACCCACGGTGGGCCGCCCCGACCGGGGCCTTCCTGAAGAAGCAAGGCGCCGTGTTGACGATCGAAAGCGATTGCGGGGTACTCCCCTCCAATGCCCCTATGAGCTTACACCAAGCAATAAAACGGCTAGAACGCTCCGCCCGTTGGGTTGTAGGTGGCGTTGACCACACGGGTCTCGCCGGGGGTGGTGGCGTCGGAGGGGGCGTCGCCAAGCGAAGGCTCGTCGGTGGGCGCCTCCGCAGGATCGGCCCCCTTGATCATCCACAGGATCGTCTCCAGCTCCTCCGGCTTGACCAGCACCTCACGCGCCTTCGAGCCTTCGGACGGGCCCACCACGCCGCGGGTTTCCATCAAGTCCATCAGGCGCCCCGCCTTGGCGAAGCCAATGCGCAGCTTGCGCTGCAGCATCGATGTCGAGCCGAGCTGGGAGGTGACCACGAGCTCGACGGCCTCGAGCAGGTCGTCGAGGTCCTTGCCGATGTCGTCGTCGATGACCTTCGCCTCGGCCTGCTTGTCCTCGGTCACGCCCTCGACGTACGACGGTGA	MTAEVISHTDVGTPMCSINTSGQKILTKVTGGLPHPRWAAPTGAFLKKQGAVLTIESDCGVLPSNAPMSLHQAIKRLERSARWVVGGVDHTGLAGGGGVGGGVAKRRLVGGRLRRIGPLDHPQDRLQLLRLDQHLTRLRAFGRAHHAAGFHQVHQAPRLGEANAQLALQHRCRAELGGDHELDGLEQVVEVLADVVVDDLRLGLLVLGHALDVRR				NA	NA	NA	NA	NA
AK009_09348	360			hypothetical protein	GTGGATGCCCGCCGCGCGCGCCTTCTGTGTGATGCGCACGATCGACTCCTCGATCTCCTTCGGCGCGGTCATCATCAAGTCGGCGAGCTCGTCGACCACGCAGATGATGAACGGGTACGGGCGCATCTCGCGCTCCGAACCGGGAGGAGCGGTCAGCTCGCCCGAGCGCACCTTCCGGTTGAAGTCCTTGATGTGGCGCACGCGCGAGGACTTCATGTCCATGTAGCGCTGCTCCATCTCCTCCACCAGCCACTGCAGCGCGGCGGCCGCCTTCTTCGGCTGGGTGATAATCGGCGTGATCAGGTGCGGGATGCCCTCGTACGGGGTCAGCTCCACCATCTTCGGGTCCACCAGGATTAG	MDARRARLLCDAHDRLLDLLRRGHHQVGELVDHADDERVRAHLALRTGRSGQLARAHLPVEVLDVAHARGLHVHVALLHLLHQPLQRGGRLLRLGDNRRDQVRDALVRGQLHHLRVHQD				NA	NA	NA	NA	NA
AK009_09349	906			hypothetical protein	ATGACCAAGTCATTAGTAAATTTACGAATTGATTTTGCTTTTAAGCAATTATTTGGGACAAGTGGTAGTGAGGATATTCTTATCACATTTTTAAATGCCATGCTAAAGAATTCATTAGAATCACCTATTATGTCACTACAATTAGAGGATCCACATTTACATCGAGAACACGAGGATGATAAATTATCAATTTTAGATGTCTCAGCCACATTAGACACAGGTACTAAAGTAAACGTAGAAATTCAGCTGAATAATAATCACGACATGATTAAACGAAGTTTGTATTACTGGGGTAAATTATATACTTCACAGTTACAAAAAGGGATGCCTTACAGCTCTCTTAGTAAAACAATTACTATTAATTTGTTAAACTTCGTACTTTTTCCCGAATATGAGGAATTTCATACAACGGGAAAGCTATGGAATGTACAACAGCAAAAGCAGTTTAGTGATGATATAGAGATTCATGTTATAGAGCTTCCTAAACTAATGGAACAATGGCGGGAAGAGAAAGTTAATCCGTGGGAAGATTCATTTGTTCGTTGGCTGTTATTACTTCCGGCAAATGAAGATGAACACTTAACTCAAACATTGGAGGACATTGCGATGAATCAAGATCCGATTTTACAAAAAGCAATGAATAAGTGGGAGCGAATGAGTCAAGATTCGACATTCCGACAAGCCTATGAAGCGAGGGAAAAAACCCTAATGGATGAAGCTGCAAAGTTTGCTCACGCAGAGGAGCAAGGAATCAAAAAAGGTATTGAAAAGGGTATTGAAGAAGGCAAAAAAGCCGAACGTATACAATTGGTATGTGGTATGTATAAAAACGGAATGTCTGTAGAGGATATTGCCAAATTTACGAAGTTACCTATAGAAGAAATAAGAGAAATTATCCAATTATAA	MTKSLVNLRIDFAFKQLFGTSGSEDILITFLNAMLKNSLESPIMSLQLEDPHLHREHEDDKLSILDVSATLDTGTKVNVEIQLNNNHDMIKRSLYYWGKLYTSQLQKGMPYSSLSKTITINLLNFVLFPEYEEFHTTGKLWNVQQQKQFSDDIEIHVIELPKLMEQWREEKVNPWEDSFVRWLLLLPANEDEHLTQTLEDIAMNQDPILQKAMNKWERMSQDSTFRQAYEAREKTLMDEAAKFAHAEEQGIKKGIEKGIEEGKKAERIQLVCGMYKNGMSVEDIAKFTKLPIEEIREIIQL				NA	NA	NA	NA	NA
AK009_09350	396			hypothetical protein	ATGTTTTCAAAAAAACAAAAATTAGTAACAGTGGTTACCACTCTGACGCTAGGATGTGGATTAGTTTTCGGATTAACTCCTACTTCCGCAGATTCTATAAGTAATCCTACTCCTATTAAGGAAGAACAAGTAAGAATACAGATACCTTTTACTGGATATGTTATTTCAGCAGATGATAATTATTTAGTTGTAGCTGACACTAATACAAAAGAGGAGGCACTTTCTTATCAAAATAATTGGTGGGAATTAGCTTCTCAGAATAAAATTTTACGTGTTCCTATTACTAGCAAGGATAACTATAGCGTAGGTGAAAAACTAAATATATTTTCCGTAGGATGGACTCACTCTATTCCACCAATCGCTGTTATGCCTGTTATCGAAAAAATAATTGAATAA	MFSKKQKLVTVVTTLTLGCGLVFGLTPTSADSISNPTPIKEEQVRIQIPFTGYVISADDNYLVVADTNTKEEALSYQNNWWELASQNKILRVPITSKDNYSVGEKLNIFSVGWTHSIPPIAVMPVIEKIIE				NA	NA	NA	NA	NA
AK009_09351	1407	moaA_5		GTP 3',8-cyclase	ATGATTCATCAATATAAATTAAATGGATACAATATCGTGTTAGATACTTATAGCGGATCCGTACATGTCGTTGACGATCTTGCTTATGAAATAATTATGCTATATCAGAATACTCCTATGGAAGAAATCCTGTCAATAATGCAGGAAAAGTATAAATATGATTTCCACGTTTCCAAGAAGGAAATTCGAGAAACAATTGCGGATATTGAAGAACTAAAAAGAGATGGGAAGCTTTTTACCGAAGATGATTATAGGGACCTTTCAATTGATTTGATAAATCGTCCCACTTATGTAAAAGCTCTTTGCCTTAATGTAGCGCATACATGTAATCTGTCGTGTGAATACTGCTTTGCTAGCCAAGGAAAATACAATGGAAATAGAGCCATAATGAGTTTTGAAGTTGGAAAAAGAGCCATAGATTTTCTATTAGAAAACTCAGGTAATCATCGAAATCTCGATGTTGATTTTTTTGGTGGGGAGCCACTCATGGCGTGGAAAACTGTCAAACAGATTGTCGCCTATGCAAGAAATAAAGAAAAAGAGTACAAAAAAACTTTTCGTTTTACCTTTACTACAAATGGTATGCTGCTTAATGATGAAATTACTGAATTCTTAAATCAAGAAATGCACAATGTTGTATTAAGCCTTGATGGAAGAAAAAAAGTTCATGATTATCTTCGTAAAACTGTCAATGGGAAAGGTAGCTATAATCATATCGTTCCAAAGTTCCAGGAGTTTGTTGAGAAGCGTGGAGATAAAGAATACTATGTACGTGGAACCTATACCCATAATAATGTTGATTTTACCAATGATATTTATCACATCGCTGACTTAGGTTTTAACAAAATCTCAATGGAACCTGTTATCTGTAATTCCCAAGAACCATATGCGCTCTGTGAAGAAGACCTGCTGGAAATTTACAATCAGTATGAAATTCTCTCGAAAGAAATGCTAAACCGTGAGGAAAAAGGAAATGGTTTTACATTTTATCATTACATGCTCGACCTTTCAGAAGGTCCGTGCGTTCAAAAGAGAATTTCTGGTTGCGGTTCTGGGACTGAATATCTAGCTATTACCCCGTGGGGGGAGATATTTCCTTGTCATCAGTTTGTGGGAGAAGAAGAATATAGTATGGGGAATATATGGGATGGCATTACAAAAGCAGAGATACAGTCTCAGTTTAAGGAAAGTAATTGCTATTCAAAACCGGAATGTCAGGAATGTTGGGCACAGCTTTACTGTAGTGGCGGTTGTCCAGCTAATACAATACATGCAACGGGTTCTCTTAAGGGAACACATGAGTTCAGCTGTAAAATCTTCCGAAAGAGAATAGAGTGTTCTATGATGGTTAAAGTAGTTCAATCCATTAGAGCTATGAAGAAGGAAGAGCAAGGCATGGTTCAGTAA	MIHQYKLNGYNIVLDTYSGSVHVVDDLAYEIIMLYQNTPMEEILSIMQEKYKYDFHVSKKEIRETIADIEELKRDGKLFTEDDYRDLSIDLINRPTYVKALCLNVAHTCNLSCEYCFASQGKYNGNRAIMSFEVGKRAIDFLLENSGNHRNLDVDFFGGEPLMAWKTVKQIVAYARNKEKEYKKTFRFTFTTNGMLLNDEITEFLNQEMHNVVLSLDGRKKVHDYLRKTVNGKGSYNHIVPKFQEFVEKRGDKEYYVRGTYTHNNVDFTNDIYHIADLGFNKISMEPVICNSQEPYALCEEDLLEIYNQYEILSKEMLNREEKGNGFTFYHYMLDLSEGPCVQKRISGCGSGTEYLAITPWGEIFPCHQFVGEEEYSMGNIWDGITKAEIQSQFKESNCYSKPECQECWAQLYCSGGCPANTIHATGSLKGTHEFSCKIFRKRIECSMMVKVVQSIRAMKKEEQGMVQ	PGPT0026880_495	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0026880-ydeM|yidF|alsB|chuR-K06871	NA	NA
AK009_09352	162			hypothetical protein	ATGAAAAGAATTATAACACTGAGCACTTGTAAACTGCAAGATACTATAAAACATGGTGGGTGTGGTGCATGTCAGACATCTTGTCAGTCTGCTTGTAAAACCTCATGTGGAGTTGCAAATCAAAAGTGTGAAAATACAATAAATAGGAAACAAGAAGTATAG	MKRIITLSTCKLQDTIKHGGCGACQTSCQSACKTSCGVANQKCENTINRKQEV				NA	NA	NA	NA	NA
AK009_09353	2736			hypothetical protein	ATGAACATATTCAAAGGGTTTCTAATTTCATCAATTGCAATGACAACTTTTGTAGGAACAGATCTAATCCTACAAAATGATAGTATTCATAATAAAGTTTATGCTGAATCTTATAATGTCACATACAAGGAAAGAGATTCACAGGAAGAAAGATTAATTGTAAAGTTTAAAAATCAAATTGACTTACCTTATGAAGATGGTATTGAGAAAAGAATAAAAAATGGGGATTATGATAACAATTTAAAGGAGTTATTTTCTGAAAATAAAGAACTTACTTTGAATCGTCTGTTCTCATCTGTAAATCCGATAGAGATTGAAAAGTTATCAGTACACTCTAAATCATTTGCTAATCAATCAGCTAATAATTTATTAAATTATTATATTGTACAAGCTCCTAATAACATAGAAATAGAGTTGTTACTGAAAAAATTTGAAACATCACCTCTTGTAGAGGAGGCTTATATACAAGAAAAACAAATTTTGACACCCCCTGAAATACAGGTACAAGATTTATCTGTTAATCCGTACGATGATCCTAGATTTAAAAATCAAGGATATCTTGAAGCGGCACCAAAGGGAATTAATGCCTCGCATGCTTGGAGCATTAAGGGTGGTGACGGGAAGGGTACAACTTTTGTGGATATGGAATATGGGTGGTTATTAAACCATGAGGATTTAGTCAATAAAAATATAAAGCTTATGTCTGGACAAAATATAAGCCAGCATAGAGCTCATGGTACTTCAGTTTTAGGAATTGTTTCATCCGAAGATAATCAAATTGGAAATATTGGAATTGCACCAAAAGCAAATGTAAAAGTAATATCCCAAATTAGGGATAATGGAATTTATAATACAGCAGATGCTATTTTAAGTGCTGTACATAATTTACAATCAGGGGATGTTCTTTTATTAGAGGCACAAGCTTCATATGATGGGTATGGGGATAAATATTTACCTGTAGAAGTACATCCAGATATTTTTGATGCAATTCGTGTTGGTGCAGATAAAGGGATTATTATTATAGAAGCTGGCGCAAATGGTTCAAACGACTTAGATAATTTTAAAGATCGTAATGGAAAAAAGATCTTAAATCGAAATAGTCCAGACTTCAAGGATTCAGGTGCTATTATGGTTGGGGCGGGATCATCAACTGTTCCACATAAACGTTTATGGTTTTCAAATTATGGAAGTCGATTAGATGTATATGGATGGGGAGAAAATGTTGATACAACATCAGCAAATCCAAATCAAAATACTACAAATTTATATACATCAACATTTAGTGGAACATCAAGTGCTTCACCAATTATTGCCGGGGCAGCAACTTCGATTCAAGGTATTGCTAAAGAACATCGAGGTTCTCCTTATACACCAGCCGAATTAAGAAATATTTTAAGTAATCCAAATACAGGAACACAATCTCAAGATCCTTGGAATGATAGAATAGGTGTTTTACCTGATTTAAAATCTATATTAAATAACTTAGGTTTTAATTCAGATATACCGAACTCTTCTAGTATTTTAGAAGGAAAGCAGTTTGCATGGTCACTAAAAGGAATTAGTGATTTTGAGTTTGCAAAAATTAATTTCAATAAGTCAACAGAAGAAATGCAAATCGACTTAAAAGCAGGCGTACCGCATCATTATTTTAATGAAACGTATGCGAGTATTAAAGTACAAAATGCAACAGGAAAAGTAGTATACAATAAAGACATTTATGGAAACAAACAACAAAATGCTGAAGCGCAAAGAGTTCCAGTCAAAGTAGGCGATTATATCGAGTTAACACATCTAGAAGGTGTACATAGGGCTACTCTTACAAATGTAGATAATAGTAAACAAGAGAGCTTTGGAAAAAAAGCCATATATGAAGTTACAAAGGAAGGCCTGAAGAAAGTAGAAAAAATGCCAGAAGCAACAATTTTAGAAGGAAACAAGTTTGCGTGGTCATTAAAAGGATATAGTGATAGAGAATTTGCAAAAGTAGATTATGATAAAACGGTAGAAGAGATGAAGGTAAAACTAGAAGCAGGTGTACCACATTCCTACTTTGCTAGTACGTATGCGAGTATTAAGGTCCAGAATTCTTCTGGCAACGTCCTGTACAATAAGGAAATCGTGGGAAATAAACAACAAAATGCTGAAAGTCAAACTGTGCCCGTGAAAATAGGGGATTACATTGAACTTACTCATATAGAAGGGGAAGCAACAAAGGAAAAAACGCGAGCGACTTTAATTAACCTTGAAAATAACAAAAATGAAACCATTGGAAAGACAGCAAGATATCAAGTGACAAAAGAAGGCCTGAAGAAAGTAGAAAAAATGCCAGAAACAACAGTTTTAGATGGAAATCAATTTACCTGGTCTTTAAAGGGGTATAATGATCGAGAAATCGCAAAAGTAGAGTATAACAAAGCAACAGAAAAAATGCAGATTAAATTAGAAGCGGGTATCCCCCATTCCTATTTTACTAGTACGTATGCAAGCATTAAAGTCCAGAATTCATCCGGTAATATTTTGTACAATAAAGACATTATAGGAAATAGACAACAATCTGCTGAGAGCCAAACCGTTTCAGTCAAAGTAGGGGATTATATTGAGTTTACTCATATAGAGGGAGAAGCACAGAAGGAAAAGACCCGTGCCACACTTACTAATCTTGAGAATAGTAAACAGGAATTTGTAGGCAAGAAAAAAACATATCAAGTTACTCCTACAGGATTATTAATAAAATAG	MNIFKGFLISSIAMTTFVGTDLILQNDSIHNKVYAESYNVTYKERDSQEERLIVKFKNQIDLPYEDGIEKRIKNGDYDNNLKELFSENKELTLNRLFSSVNPIEIEKLSVHSKSFANQSANNLLNYYIVQAPNNIEIELLLKKFETSPLVEEAYIQEKQILTPPEIQVQDLSVNPYDDPRFKNQGYLEAAPKGINASHAWSIKGGDGKGTTFVDMEYGWLLNHEDLVNKNIKLMSGQNISQHRAHGTSVLGIVSSEDNQIGNIGIAPKANVKVISQIRDNGIYNTADAILSAVHNLQSGDVLLLEAQASYDGYGDKYLPVEVHPDIFDAIRVGADKGIIIIEAGANGSNDLDNFKDRNGKKILNRNSPDFKDSGAIMVGAGSSTVPHKRLWFSNYGSRLDVYGWGENVDTTSANPNQNTTNLYTSTFSGTSSASPIIAGAATSIQGIAKEHRGSPYTPAELRNILSNPNTGTQSQDPWNDRIGVLPDLKSILNNLGFNSDIPNSSSILEGKQFAWSLKGISDFEFAKINFNKSTEEMQIDLKAGVPHHYFNETYASIKVQNATGKVVYNKDIYGNKQQNAEAQRVPVKVGDYIELTHLEGVHRATLTNVDNSKQESFGKKAIYEVTKEGLKKVEKMPEATILEGNKFAWSLKGYSDREFAKVDYDKTVEEMKVKLEAGVPHSYFASTYASIKVQNSSGNVLYNKEIVGNKQQNAESQTVPVKIGDYIELTHIEGEATKEKTRATLINLENNKNETIGKTARYQVTKEGLKKVEKMPETTVLDGNQFTWSLKGYNDREIAKVEYNKATEKMQIKLEAGIPHSYFTSTYASIKVQNSSGNILYNKDIIGNRQQSAESQTVSVKVGDYIEFTHIEGEAQKEKTRATLTNLENSKQEFVGKKKTYQVTPTGLLIK				NA	NA	NA	NA	NA
AK009_09354	2478			hypothetical protein	ATGCCAACCGACATTCATCTCCCACCTAAAATTGGTGTTTCACACCTTCACATTTTTGAGGAAGGAGTCTTCTGTCGGGAAACAATAAAAATTAGAAAAGGATGTAGATTAGTGATTAGTCAGAAAACGAAGAAAAGATTTAATAAAGTTATTATAATGACCGCAGCATGTAGCATGTTTTCTATGTTTGGAACGTCTATGTTGCACACTAAAGCTGCAACACATTCAGCTGCTCCAGCAGTTTATGTGAGTCCCCAAAATATACCTGTCTCAGATATTATTAGTATAGACTGGTCACCAGTTCAGACTCCACCTTATACGTACTGGGCTGTACACAACTGGAATGCAGGTGGTGAAGCTGGAGGATATGCTGGTTTTCAACAACAAAGTGGGTTTGATGAAAATGGAAAACGTACTTTACATTTTGCCTTATGGGATCCAATTTCCTCTAAAGAAGCAATAAAAGCCGAATACTTATCTCCGAATTCGCAAGCTGGCCCCTTTGGAGGAGAAGGAACAGGAATGAAGGTTCAAACAACTTATGGTTGGAAAGACAACAATTGGTACAGAATGACAATGCGTTCATGGCAAGAAAATGGTCATACCAAATTTGGACAATGGATGAAAGATGTAACAAAGAATAAATGGCATCAAATTGCAATTATGGACTTTCCGGTTGCTAATGTTGCATTTAATCATGGATTAGGAATGTTTCAAGAAGACTGGGCTGATAGTGGACAGAATGTTCGAGAAGCGCGCCTAAAAAATGGTTATAGCCGAAAATTAGTTGATAAACAATGGAGTTCTTGGAATAATCAAAGTATTTCTGGAACGCATGATAATACTTATCAATATGATGGAGGAGCTACTTCAGAATATGTATGGGTCAAAGCAGGAGGTAATACGCAGTCTACTATTGGGTCAGGAAAAATATTCACGCTAAATCAACCTACTCAACCTGAAATAGGAAAATTAGATTTTGATATCCAATCTATATATTATGAAAATGAAAAATTAAATGTATCTTGGAAACTAAAAGAAAATAGTACACCGCAATTTAAGGGGAAAATTGAAATTTATAACAATGAAAATATGACGGGCCAACCTATTAACGTAATTGATGATATTAAATCTTATCAAAATGGAATCAGTCAATCTATATCATTACCAACAAATGCTTATGCAAAAATTGTATTAACGGATATATTTGATCAAACTGTTGAGAAAAAGGTACAAATCAAAAATGAATCTCCAAACATTTTTGAAGGTAATGAATTTGCTTGGTCGCTGAAAGGGATTGGAGATTTTGAATTTGCGAAAGTAAATTTAAATAAATCAACAGAAGAAATGCAAATAGATCTAAAAGCAGGTGTACCACATGACTACTTTGATAGTACATATGCAAGTATTAAAGTGCAAAACACATCAGGTAAAGTGGTCTATAACAAAGAGATTTATGGAAACAAACAGCAAAATGCTGAATCGCAAAAAGTTCCAGTCAAAGTAGGCGATTATATCGAGTTAACACATCTAGAAGGTGTACATAGGGCTACTCTTACAAATGTAGATAATAGTAAACAAGAGAGCTTTGGAAAAAAAGCCATATATGAAGTTACAAAGGAAGGCCTGAAGAAAGTAGAAAAAATGCCAGAAGCAACAATTTTAGAGGGAAACAAGTTTGCGTGGTCATTAAAAGGATATAGTGATAGAGAATTTGCAAAAGTAGATTATGATAAAACGGTAGAAGAGATGAAGGTCAAACTAGAAGCAGGTGTACCACATTCCTACTTTGCTAGTACGTATGCGAGTATTAAGGTCCAGAATTCTTCTGGCAACGTTCTGTACAATAAGGAAATCGTGGGAAATAAACAACAAAATGCTGAAAGCCAAATTGTGCCCGTCAAGGTAGGGGATTACATTGAATTTACCCATATAGAAGGAGAAGCAACAAAGGAAAAAACGCGAGCAACTTTAACTAACCTTGAAAATAACAAAAATGAAACCATTGGAAAGACAGCGAGGTATCAAGTTACAAAAGAAGGCTTGAAGAAAGTAGAGAAAATGCCAGAAACAACGGTTTTAGATGGAAATCAATTCGCTTGGTCATTAAAGGGATATAATGATCGAGAAATCGCGAAAATAGAATATAACAAATCAACAGAAAAAATGCAGATTAAATTAGAAGCGGGTATCCCCCATTCTTATTTTACTAATACGTATGCAAGCATTAAAGTCCAGAATTCATCCGGTAATATTTTGTACAATAAAGACATTATAGGAAATAGACAACAATCTGCTGAGAGCCAAACCGTTTCAGTCAAAGTAGGGGATTGTATTGAGTTTACTCATATAGAGGGAGAAGCACAAAAGGAAAAGACACGCGCCACACTTACTAATCTTGAGAATAGTAAACAGGAGTATATGGGAAAGAAAAGAATATATCAGGTTACCTCTATGGGATTATTAATAAAGTCATAG	MPTDIHLPPKIGVSHLHIFEEGVFCRETIKIRKGCRLVISQKTKKRFNKVIIMTAACSMFSMFGTSMLHTKAATHSAAPAVYVSPQNIPVSDIISIDWSPVQTPPYTYWAVHNWNAGGEAGGYAGFQQQSGFDENGKRTLHFALWDPISSKEAIKAEYLSPNSQAGPFGGEGTGMKVQTTYGWKDNNWYRMTMRSWQENGHTKFGQWMKDVTKNKWHQIAIMDFPVANVAFNHGLGMFQEDWADSGQNVREARLKNGYSRKLVDKQWSSWNNQSISGTHDNTYQYDGGATSEYVWVKAGGNTQSTIGSGKIFTLNQPTQPEIGKLDFDIQSIYYENEKLNVSWKLKENSTPQFKGKIEIYNNENMTGQPINVIDDIKSYQNGISQSISLPTNAYAKIVLTDIFDQTVEKKVQIKNESPNIFEGNEFAWSLKGIGDFEFAKVNLNKSTEEMQIDLKAGVPHDYFDSTYASIKVQNTSGKVVYNKEIYGNKQQNAESQKVPVKVGDYIELTHLEGVHRATLTNVDNSKQESFGKKAIYEVTKEGLKKVEKMPEATILEGNKFAWSLKGYSDREFAKVDYDKTVEEMKVKLEAGVPHSYFASTYASIKVQNSSGNVLYNKEIVGNKQQNAESQIVPVKVGDYIEFTHIEGEATKEKTRATLTNLENNKNETIGKTARYQVTKEGLKKVEKMPETTVLDGNQFAWSLKGYNDREIAKIEYNKSTEKMQIKLEAGIPHSYFTNTYASIKVQNSSGNILYNKDIIGNRQQSAESQTVSVKVGDCIEFTHIEGEAQKEKTRATLTNLENSKQEYMGKKRIYQVTSMGLLIKS				NA	NA	NA	NA	NA
AK009_09355	2241			hypothetical protein	ATGGGGAATAAATCAAAGCATAAAACTAAAAGAATACTTGTAGCTACTGCAACATTAACTATAATTGCTTCTGGAATGGCTTCTTCATCAGATGTCTTTGCAGAGGAAACGCAACAGCAAAAAAGTTTATCGACATCACTGCAAAGTGAAAAGTCAGTTAAATCAGAAAATAGAATATTTACAGTCCCAGGAAAAGGGGATGTTGAGGTACTAAAACAACAGGAAAGAAAAAGTATGGCATTTAGTCCATATGAACCAACTGGTTTATATGCAAAGCCAAATGAACAAATAACGATTAATGTAGAAGGTAATCAAGATATTGAGGTATATATTGGAACGTATTCATATGATGCTTCTTGGAGAGAAGATTCTAAGATAAAATCATTTACATTAAAACCTGGTATAAACACAATCCAATCTCCAAATGGGGGGATGATTTATTTTTATAATAAACAACAAGGAGGTAGCATTCGAACAACAATTACAACAGGTGGAACGACTACGCCTTTCTTTGAACTAGGAAAGCATACAAAACAAGATTTAATAAACATGCTGGACCAGTATCCTAGTGCACATGCAGTGGAGTTAAAAGGCGAACGTGTATTAATTACGGCCAGCCCTGCACGTGTTAAGAAATATTTGTTGGGTTCTAATACAGATCCTGTACAACTCTTAAAAAAGATGGATGAAGCTACTCGAATTCAAGACAAAGTAGCTGGATTATCTGAAGAACAAGTAGATAAACATTATGTTCATTACGTAGAAGAAAATCATTCTCCTGATTATTATATGTATGCAACTTCTTATCGAACAGCATATGTAGGAGACGCAATCCAATACGTGTTAGATATTAATAAATTTATAACAGATGGCTGGGGCCCTTGGCATGAGGCAGGACATTTGAGACAACAATCGCCCTGGAAGTTTTATAATATGACAGAAGTACAAAATAATATATACAGCCTTTCTGTAGAAAAAGCATTTAATCAACCATCCAACTTAGAGAAAAGTGGAATTTATCCAAAAGCATTTCAATATCTAGAACAAGTGAATAAAAATTATGATGAAATTAGCGATGTTTTTGTAAAGCTTGTTATGCTTTGGCAACTACAGTTAGCGTATGGAGAGGATTTCTATCCTAAATTGCATCAATTGTATAGAGACATGCCTTCAAGTGAACTTCCACAAACTGATGAAAATAAAAAACAATTATTTATGATTTCAGCATCAAAAGTAGCCAAACAAAATTTGATTCCTTTCTTTGAGAAGTGGGGATTACATCCAAACAACGATACCATTCAAAAAGTAGCTGCATTAGGATATCCAATTTTAACAGCAGAGATTTGGAAGGGTACAGATTCTAATCCAATTAAACCAGATATGCCTAATGTAAATAATATTTTAGAAGGAAACCAGTTTGCATGGTCGCTGAAAGGGATTGGAGATTTTGAATTCGCAAAAGTAAATTTAAATAAATCAACAGAAGAAATGCAAATAGATTTAAAAGCAGGTGTACCACATAACTACTTTGATAGTACATATGCAAGTATTAAAGTGCAAAACACATCAGGTAAAGTGGTCTATAACAAAGAGATTTATGGAAATAAACAACAAAATGCTGAATCGCAAAAAGTTTCGGTTAAGGTAGGAGACTATATAGAGTTAACACATCTAGAAGGTGTGCATAGAGCTACTATTACAAATGTGGAAAAAAGCATCCAGGAAAGTTTTGGGAACAAAGTGGTGTATGAGATTACAAAAGAGGGATTGAAGAAAGTAGATAAAATTGTTAATCCGGAACCAGATACAGAAGCTCCCACACAGCCACAAGGATTATATGCAAGCAACCTTACTTCTAACAGTGTAGAGCTAAAATGGAATCCGTCTACAGATAATGTAGGTGTAAAAGAATATCAGGTATTACGTGATGGACAATTGATTCAAACCGTACAAGGAACGACATTTACTGATCAAAACTTAACAGTTAATAAGGAATATAAATATGCAGTGAAGGCTGTAGATGCAGCTGGAAATACATCAATTCAAAGTGAAATTCTTCTGGTAAAAACAAAAGATCAAAATGTATCTTATGAGAAATGGGATCCAAAGAAGGCATATACAAAGGGCGATAAAGTTGAACATCAAGGGACAGTGTATGAAGCGGTTCAAAGTCATCAAGGAAATGGGGACCCGAATTGGATATTTGCGTTATCTTTATGGAAACCAATTACAATCAAATAA	MGNKSKHKTKRILVATATLTIIASGMASSSDVFAEETQQQKSLSTSLQSEKSVKSENRIFTVPGKGDVEVLKQQERKSMAFSPYEPTGLYAKPNEQITINVEGNQDIEVYIGTYSYDASWREDSKIKSFTLKPGINTIQSPNGGMIYFYNKQQGGSIRTTITTGGTTTPFFELGKHTKQDLINMLDQYPSAHAVELKGERVLITASPARVKKYLLGSNTDPVQLLKKMDEATRIQDKVAGLSEEQVDKHYVHYVEENHSPDYYMYATSYRTAYVGDAIQYVLDINKFITDGWGPWHEAGHLRQQSPWKFYNMTEVQNNIYSLSVEKAFNQPSNLEKSGIYPKAFQYLEQVNKNYDEISDVFVKLVMLWQLQLAYGEDFYPKLHQLYRDMPSSELPQTDENKKQLFMISASKVAKQNLIPFFEKWGLHPNNDTIQKVAALGYPILTAEIWKGTDSNPIKPDMPNVNNILEGNQFAWSLKGIGDFEFAKVNLNKSTEEMQIDLKAGVPHNYFDSTYASIKVQNTSGKVVYNKEIYGNKQQNAESQKVSVKVGDYIELTHLEGVHRATITNVEKSIQESFGNKVVYEITKEGLKKVDKIVNPEPDTEAPTQPQGLYASNLTSNSVELKWNPSTDNVGVKEYQVLRDGQLIQTVQGTTFTDQNLTVNKEYKYAVKAVDAAGNTSIQSEILLVKTKDQNVSYEKWDPKKAYTKGDKVEHQGTVYEAVQSHQGNGDPNWIFALSLWKPITIK				NA	NA	NA	NA	NA
AK009_09356	1032	aes		Acetyl esterase	GTGTTTATGAAAATAAACCAGTCAAATCTTAAAGGGGTATGGAAAAAAAGAATATTAATAATTCTTTTGATTGTTTTCGGATTGATTATTGCAGGAGTTAGTTATTGGAACCTTTCACCTACTCCAAAAGCGTTTCTAATAAAAAAAGCATTTGAAGGTGGAATGTTTGTTCAATCGGATAATTATCAAAACGCTTTAAAAGAAACACAAATTGTTAAGGACATCAATTATAATTCTAAATTTCCTGATGGTATATTAGATATTATTTATCCGAAAAACCATCCTGACAAAACACCTGTTATTTTTTGGGTACATGGGGGTGGATTTGTAGGCGGAGATAAATCCGATATCACTGGTTATGCAGTAGAATTGGCAGCTCAGGGTTATACAGTGATAAATATAAATTATGCTCTTGCACCTAAGATGAAATATCCTACACCAGTATTCCAACTTGGTGAGGCTTATGAATATATAAAAGAAAATGCAAAGAAATATAATTTAAAACTTGATCAGGTTTATTTTGCAGGAGATTCTGCTGGAGCACAAATATCTGGACAATTTGTTAATATTCAAACATCTGCCAATTATGCAAGGTTAACTAAAATTGATCCTGTTGTTGAGCCTGCTACAATTAAAGGTACGTTACTATTTTGTGGTCCATATAATATGCCTGCATTAGCTAAAATGGAAACAACTAAAGAAGTACAAGATTTTATGCGTACCACTGGTTGGGCTTACTTTGGGAAAAAGGATTTTGAAACATTACCTGAAATAGAAATTGCTTCTATCATTAAACACGTTACAAAAGATTATCCACCAACATTTATTACAGATGGAAATACTGCATCATTTGAAAATCAAGCCAAAGCATTAGCGTCCGAGTTAGAAAGTAAGAGAGTACCTACAGAAAAACTCTTCTTTGATAGAAATGTTTCTGGTGAGTTGGCTCATGAATTTCAATTTAAAATGAACACACCAGCAGGGCGAGAAACTTTTAATAAAGTTCTTGAATTTTTAAATGAAAATAAATAG	MFMKINQSNLKGVWKKRILIILLIVFGLIIAGVSYWNLSPTPKAFLIKKAFEGGMFVQSDNYQNALKETQIVKDINYNSKFPDGILDIIYPKNHPDKTPVIFWVHGGGFVGGDKSDITGYAVELAAQGYTVININYALAPKMKYPTPVFQLGEAYEYIKENAKKYNLKLDQVYFAGDSAGAQISGQFVNIQTSANYARLTKIDPVVEPATIKGTLLFCGPYNMPALAKMETTKEVQDFMRTTGWAYFGKKDFETLPEIEIASIIKHVTKDYPPTFITDGNTASFENQAKALASELESKRVPTEKLFFDRNVSGELAHEFQFKMNTPAGRETFNKVLEFLNENK				NA	NA	NA	NA	NA
AK009_09357	1383	yhdG_6	COG0531	putative amino acid permease YhdG	ATGGCCAACTTATTTAGGAAAAAATCAGTAAGGAAATTGTTAGAAGATAGTAAAAGTAAGACTTTGACAAAAACGTTGGGCGCATTTGACCTTACCATGCTAGGGATTGGTGCAATAATTGGTACAGGAGTACTTGTATTAACTGGATTAGTAGCCGCAAGAGATGCGGGTCCAGCAGTTATTTTTTCATTTATGATTGCCGCAATTGTTTGTGGGTTTGCAGCCCTATGTTATGCAGAAATCGCATCTGCTCTTCCAGTTTCGGGTAGTGTATACACCTATTCATATGCGACGATTGGTGAGTTTGTAGCCTACTTAATGGGATGGACTTTATTGTCTGTATATATAGTTACAACTGCCGCAGTAGCGGGTGGATGGACAGGCTATTTTCAAAACTTATTAAACGGGTTTGGGATTGAGATACCAAAATCACTTTTAACAATTCCAACACAAGGTGGAATCGTTAACTTACCAGCAGTAATCATTACTTTGTTATTAACTTGGTTATTATCAAAAGGCACGAAAGAAAGTAAGCGAGTGAATAACGCAATGGTATTAATAAAAATTGGTATTGTTGTTTTATTCATTTCAGTTGGTATATTTTACGTGAAACCAGAAAACTGGATTCCGTTTGCACCTTATGGTATAAGCGGAATCTTTGCCGGAGGAGCTGCAGTATTTTTTGCCTTTTTAGGATTTGATGCGTTAGCAACGTCTGCTGAAGAAGTAAAAAATCCACAACGTGATTTACCGATTGGTATTATTGCTTCGTTAGTTATTTGTACAATTATTTATGTTATAGTTTGCCTTGTTATGACTGGTATGGTTTCTTATAAGGAATTAGATGTACCAGAAGCAATGGCCTACGTATTAGAAGTTGTAGGACAAGATAAAGTAGCGGGTATAATCGCAATTGGAGCTGTAATTGGTATTATGGCTGTAATTTTTGCTTACATTTATGCAACAACACGTGTATTCTTTGCGATGAGTCGTGACGGTTTATTACCAAAATCGTTTGCGAAAATTAATAAGAAGACAGAAGCACCAGTATTCTCAACTTGGTTAACAGGTATTGGTAGTGCTTTAATTGCTGGATTTATCGATTTAAAAGAATTAGCGAATTTAGCGAATATTGGAGCGTTATTAACATTTGCGATGGTTGGTGTGTCAGTTATTATTCTTCGTAAAACACATCCAAATTTAAAACGTGGTTTCATGGTACCACTGGTACCAATCTTACCGATTATTTCAATAACATGTTGCTTATTTTTAATGGTAAATCTACCTTTAAAAACCTGGGTTTACTTCGGTATTTGGTTATTTATAGGGATAATAGTATATTTTATATATTCTAAAAGACATAGTCAATTAAACAAACTATAA	MANLFRKKSVRKLLEDSKSKTLTKTLGAFDLTMLGIGAIIGTGVLVLTGLVAARDAGPAVIFSFMIAAIVCGFAALCYAEIASALPVSGSVYTYSYATIGEFVAYLMGWTLLSVYIVTTAAVAGGWTGYFQNLLNGFGIEIPKSLLTIPTQGGIVNLPAVIITLLLTWLLSKGTKESKRVNNAMVLIKIGIVVLFISVGIFYVKPENWIPFAPYGISGIFAGGAAVFFAFLGFDALATSAEEVKNPQRDLPIGIIASLVICTIIYVIVCLVMTGMVSYKELDVPEAMAYVLEVVGQDKVAGIIAIGAVIGIMAVIFAYIYATTRVFFAMSRDGLLPKSFAKINKKTEAPVFSTWLTGIGSALIAGFIDLKELANLANIGALLTFAMVGVSVIILRKTHPNLKRGFMVPLVPILPIISITCCLFLMVNLPLKTWVYFGIWLFIGIIVYFIYSKRHSQLNKL	PGPT0020810_4617	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
AK009_09358	1002	tdcB_3		L-threonine dehydratase catabolic TdcB	ATGATTACCAAAAAAGTATTGTTAGATATCACTGACATTAAAAAAGCCAAAGAAATTCTTGATGTAAATGCCCGAAAAACACCTTTGGTTAAATCTTTCTATTTAACTAGTAAAACGGGTGGAGAAATTTATTTAAAGCTGGAAAACATGCAGTTAACGGGTTCATTTAAATTTCGTGGTGCATTTAATAAAATTTCCCAACTAACAAATGAAGAGAAAGAACGTGGTGTAATCGCTTGTTCAGCTGGAAATCATGCACAAGGTGTTGCATTATCTTCCCATTTACTAGGAATCAAAAGTAAAATTGTGATGCCAACCTCTGCACCGCAAGCTAAAGTGGATGCGACGAGAGGATATGGTTCTGAAGTTATTTTATACGGTGATACGTTTGATGATGCAAAAGCGAAGTGTGAAGAGATTATAAAAGAAACAGGCGAAACATACCTACATCCATATGATGATGTAGAAGTAATGGCTGGCCAAGGGACAATTGGGTTAGATATTCTGGATGATATGTGGGATGTTGATACTGTTATTGTACCTATTGGTGGAGGAGGAATTATTTCAGGAATTGCTGTAGCGCTGAAATCATTTAATCCCTCCATTAATATTATTGGGGTTCAAGCAGATAATGTTCATGGAATGAAAGCTTCTTATGATGCGGGGAGAATTTTAGAACACTATGAAGCACCAACAATAGCGGATGGTTGTGCGGTAAAAATACCAGGGAATTTAACTTTTGAAATTGTAAAAGACCTAGTAGATGATATTGTAACTGTATCGGAAGAAGAATTAGAAGTAGCAATGAAAGACTTACTGCAACGCGGAAAAGCTGTCGTAGAAGGTGCGGGAGCATTAGCCACAGCCGCTCTTCTGGCAGGAAAAGTTGATAAATATGTACAGGGTAAAAAAGTAGTAGCGGTTATTTCAGGTGGCAATGTGGATTTAAAACGTATTTCAACTGTTTGTGAGCATTTCTTTGTTGCCAATGAGGTAAAATAA	MITKKVLLDITDIKKAKEILDVNARKTPLVKSFYLTSKTGGEIYLKLENMQLTGSFKFRGAFNKISQLTNEEKERGVIACSAGNHAQGVALSSHLLGIKSKIVMPTSAPQAKVDATRGYGSEVILYGDTFDDAKAKCEEIIKETGETYLHPYDDVEVMAGQGTIGLDILDDMWDVDTVIVPIGGGGIISGIAVALKSFNPSINIIGVQADNVHGMKASYDAGRILEHYEAPTIADGCAVKIPGNLTFEIVKDLVDDIVTVSEEELEVAMKDLLQRGKAVVEGAGALATAALLAGKVDKYVQGKKVVAVISGGNVDLKRISTVCEHFFVANEVK	PGPT0001960_5411	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
AK009_09359	348	ald1_3		Alanine dehydrogenase 1	ATGAAGCCAGGAAGTGTCATTGTGGATATCGCAATAGATCAAGGTGGTACAGTAGAAACTATTGATCATTATACAACTCATGATAATCCTGTATTTATTAAACATGACGTAATTCATTATGCAGTACCAAATATGCCTGGTGCCACCCCACGTACTTCAACTATGGCGTTGGCAAATGGAAATATTGAGTATTTATTAGCAATTTCTAAAGATGGATTAGAAATTGCAATTCAAAATAAATCATCATTAGCATCTGGGGTAAATGTATATAAAGGTATTATTACCTACGAAAATTTAGGTATGACGCTAGGTTTGGACTTTAAAGAATTGAAAGAAGTGTTAGTATGA	MKPGSVIVDIAIDQGGTVETIDHYTTHDNPVFIKHDVIHYAVPNMPGATPRTSTMALANGNIEYLLAISKDGLEIAIQNKSSLASGVNVYKGIITYENLGMTLGLDFKELKEVLV	PGPT0020070_2375	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK009_09360	810			hypothetical protein	GTGAAACACCGTGCCGCAGTCGGCGCTGGTGAGCGCGCGCTCGATGTCACTTGCCGACGTCAGCAGCACCGGCACCCTACCGCGCGCCGCCAAGCGCGCCGCGGACACCTTCGCCGCCATGCCGCCGGTGCCCAGCGCGCCGCCATCGCCAGCCGCGACGTTGTCGAGGTCCTTGCCGGAGCGGACCTGCGTGATCAGGCGCGCCTCGGGGTCGGCAGGGTTGCGGTCGTAGAGGCCGTCGACGTCGGAAAGCAGGTACAAAGCGTCCGCCGAGACCAGCGTGGACACGATGGCGGAGAGCCTGTCGTTGTCGCCGAAGCGCATCTCGGAGGTGGCCACCGTGTCGTTTTCGTTGACGATGGGCACGGTGCCGAGCTGGCGGAGCTTGTCGATGGTGCGCTGCGCGTTGCGTGCGCGGTCGCGCCTGCCGGCGTCGGACTGGGTCAACAGGACCTGGCCGATGGTGCGGCCGTAGCGGGCGAAAGAGCGACCCCAGCTTTGCGCGAGGTGGACCTGGCCCACCGCCGCCGAGGCCTGCTTGGTGGCCAGGTCGCGTGGCCGGGTGCTCAAGCCCAGCGGCGCCATGCCTGCCGCGATCGCGCCCGAGGAGACGACGATGACGTCGCTGCCGGCCGCCATGCGGGCCTGCAGCGCGTCGACGATGCGGTCGATCTGCTCCTGGCTGATGGAGAAATCATCGTTCACAAGCGAACTGGTCCCGATCTTGACCACAACCCGCTTCGCAGTGGCGATGTGGTGGCGCAGCTCCTCCTCCGTTTTCAGCGTTTCTGCTGGGTGGACTGGGGCTGA	MKHRAAVGAGERALDVTCRRQQHRHPTARRQARRGHLRRHAAGAQRAAIASRDVVEVLAGADLRDQARLGVGRVAVVEAVDVGKQVQSVRRDQRGHDGGEPVVVAEAHLGGGHRVVFVDDGHGAELAELVDGALRVACAVAPAGVGLGQQDLADGAAVAGERATPALREVDLAHRRRGLLGGQVAWPGAQAQRRHACRDRARGDDDDVAAGRHAGLQRVDDAVDLLLADGEIIVHKRTGPDLDHNPLRSGDVVAQLLLRFQRFCWVDWG				NA	NA	NA	NA	NA
AK009_09361	1122			hypothetical protein	TTGGCGGATCCAGCGCATCGCTTTTTCGCCCGTGACAACCCACGCGCCCTCGAACTCGGGATCGGGCTCGACCACGATGCCGTCGGCGGCGTCGACCGCGCGGGGTTTAAGCACCTGCAGGGACCCCGGCTCGGCCTTGACCTTCGGGCGCGACTTTCGCGCGGCGCGCACGATGTCCCACAGCGCCCACTTGAGCTCGTCCAAGCCCTCGCGCGTGGCCGTGGAGATCGTGAAAATCGGCCAGCCGAACCGCTCCTTCAAGTCCTCTTCGAGGAAGTCCGCGAGCTCGCGGGCGTCGGGAATGTCCATCTTGTTCAGCACGATCAGGCGGGGCCGATCACGCAGATCACCAAGGCCGGAATCGGTATCCAGCTCTTCAGCGTAAGAGGCCAGCTCGGCCTCGAGCGCGTCGATATCGGACAGCGGGTCGCGGCCCGGCTCCATAGTGGCGGTGTCGACGATGTGGGCGAGAACGGCGGTGCGCTCGATGTGGCGCAGAAAGTCCAGGCCCAAGCCCTTGCCCTGGCTCGCGCCCGGGATCAGGCCCGGGACATCCGCGATGGTGAACGTGTCGGTGCCCACGTCGACGACGCCCAGGTTCGGCTGCAGGGTGGTAAACGGGTAGTCGGCGATCTTCGGCTTCGCTGCCGAGAGCACCGAAATCAGAGAAGACTTGCCCGCGGAGGGGAAACCTACGAGTCCGACGTCGGCCATGGATTTCAGCTCGAGGACGAGTTCGTGGGCTTCGCCCGGTTCGCCCTTGAGCGCAAACCCGGGGGCCTTGCGCTTCGTGCTGGCCAGCGCCGCGTTGCCCAGGCCGCCGAAGCCTCCCTCGGCCGCGACGAAACGGGTGCCCGGCACCGTCAGGTCGGCGAGGATTTCGCCGTCGACGCTGCGCACGACAGTGCCGACGGGCACCTCCAGGACAAGGTCTTCCCCGCGCGCGCCGTTGCGGTGATCTCCGGCACCGTTGGCGCCGCGCTTTGCCTTCAGGTGGGGCCGGAACTGGAAGTCCAGCAGGGTGTGCACCTGCGAGGAGACCTCGAAGATGATGTCGCCGCCGTGCCCGCCGTTGCCCCCGTCGGGCCCGCCGAGGGGCTTGAACTTCTCTCGGTGCACTGA	MADPAHRFFARDNPRALELGIGLDHDAVGGVDRAGFKHLQGPRLGLDLRARLSRGAHDVPQRPLELVQALARGRGDRENRPAEPLLQVLFEEVRELAGVGNVHLVQHDQAGPITQITKAGIGIQLFSVRGQLGLERVDIGQRVAARLHSGGVDDVGENGGALDVAQKVQAQALALARARDQARDIRDGERVGAHVDDAQVRLQGGKRVVGDLRLRCREHRNQRRLARGGETYESDVGHGFQLEDEFVGFARFALERKPGGLALRAGQRRVAQAAEASLGRDETGARHRQVGEDFAVDAAHDSADGHLQDKVFPARAVAVISGTVGAALCLQVGPELEVQQGVHLRGDLEDDVAAVPAVAPVGPAEGLELLSVH				NA	NA	NA	NA	NA
AK009_09362	558			hypothetical protein	GTGGGGCAACGTCTTCAAAGTCGTACCCATTGGCCGCGCCCTGCTTGCCTTCATCGTGGTGCTGGGGTTCATGCTCGTGGTCTACGCGATCTTTGCGCTGGTGATCTTCCTGGCCTCTTTGGTTTCTTCCTGGCTCATCGCGCTGGTGGGAATCCTCGCGCTCATCGCGTTCATCCCCGTGGCCATTATTTTGTCGTTCGTGCAGGTCTACATCATCGACGGTTACGGCGTGGGCGATGCGCTATCGGCGACGCGGCGCGACGTGATGCGCGAATTCTGGAAAATTCTTGCCTCGCTGCTGCTGCTCACGCTCATTGGCTACGCCATCACCATTGTCACCCTCGGCCTTGGCCTCGCGGCCTACATCCCGCTCGCGTCGCTGGTAACGGTGTACATCTACCGGAAGATCTCCGGCGGCAACGTGGTTCCGCTGAGCAGCTAACCGCACAGGGTATACGAGCCCTCGCCGCCTTTGGATTGTGCCTGCTGGAGAACGTAAGGTGGGAGGACACGAAAGTTTCACCACGGAAAGGCTGGCACCATGGCTCAGTTCGTTGA	MGQRLQSRTHWPRPACLHRGAGVHARGLRDLCAGDLPGLFGFFLAHRAGGNPRAHRVHPRGHYFVVRAGLHHRRLRRGRCAIGDAARRDARILENSCLAAAAHAHWLRHHHCHPRPWPRGLHPARVAGNGVHLPEDLRRQRGSAEQLTAQGIRALAAFGLCLLENVRWEDTKVSPRKGWHHGSVR				NA	NA	NA	NA	NA
AK009_09363	354			hypothetical protein	GTGCGTTTCGCGCAGCGCGGCCTTGTAGTACAGCGCCGTGAGGTAGATGCTTACGACGAAGAGAACCCCGTAGAAAACGACGAGCGCGGCGATCTGCCCGCCGGTCAGGGCGGACGGGTTATCCACGTCGAGCGGGACCGACAACGTGGTGATCATGGCCACGATCAGCGCGATCAGCGCGACGATGAAGATCAGCGACAGGCCAATCCACATGTGCCAGGTGCGCGAGAAGATGCGCTTGAACCCGTAGCTGATGGGGTCGGTAACGCCCCACGGGGCAGGCTGGTGGTCGTGCGGGTACGAGAGGTTTTCGGAGTTAGTAGTCACGCGTACAGCATGCGCCTGAAAAGGTGA	MRFAQRGLVVQRREVDAYDEENPVENDERGDLPAGQGGRVIHVERDRQRGDHGHDQRDQRDDEDQRQANPHVPGAREDALEPVADGVGNAPRGRLVVVRVREVFGVSSHAYSMRLKR				NA	NA	NA	NA	NA
AK009_09364	345			hypothetical protein	ATGGCACACAAGAAGGGTGCATCCAGCTCCTCGAACGGTCGTGACTCTGAGTCGAAGCGCCTCGGCGTGAAGCGCTTCGGCGGTCAGCAGGTCAAGGCCGGCGAGATCCTCGTCCGCCAGCGCGGCACCAAGTTCCACCCGGGCGACAACGTCGGCCGCGGCGGCGACGACACGCTGTTCGCTCTCGCCGCTGGTGCAGTCCAGTTCGGCATCAAGCGCAACCGTCGCATCGTCAACATCGTCCCGGCCGACGGCCAGGGCGTTGCCTCCGAGGTCCTCGAGGCCGCTGAGGCAGCAGGCGTTGTCGAGGAAGGCACCGTCGACGAGGTCACCGCGACCGCCTAA	MAHKKGASSSSNGRDSESKRLGVKRFGGQQVKAGEILVRQRGTKFHPGDNVGRGGDDTLFALAAGAVQFGIKRNRRIVNIVPADGQGVASEVLEAAEAAGVVEEGTVDEVTATA				NA	NA	NA	NA	NA
AK009_09365	306	rplU_2	COG0261	50S ribosomal protein L21	ATGTACGCGATCGTCAAGACCGGCGGCAAGCAGTACAAGGTTGCCGAGGGCGACCTGGTCCGGGTCGAGAAGCTCGAGGGTGAAGCAGGCGACAAGGTTGCACTCACCCCGGTTCTTCTCGTCGATGGAGCAGACGTCACCTCCGGCCCGGATGCACTTGCCAAGGTAAACGTTGAGGCCGAGATCGTCGAGCACGGTAAGGGCAAGAAGATCGACATCCTCAAGTACAAGAATAAGACCGGCTACAAGGTTCGTCAGGGCCACCGTCAGCCGCAGACCACCGTCAAGATCACCGGCATCAAGTAG	MYAIVKTGGKQYKVAEGDLVRVEKLEGEAGDKVALTPVLLVDGADVTSGPDALAKVNVEAEIVEHGKGKKIDILKYKNKTGYKVRQGHRQPQTTVKITGIK				NA	NA	NA	NA	NA
AK009_09366	768			hypothetical protein	GTGAGCGTCGTCGGAATCAGTACCAGTATCTTCCTCATCCGCCCCGGAGATCACCGATGCGGCCAACCGGTCGAGCGCGTCTTCGTCGAGTGCGATCTCACCCGAGCCCTCGCGGGCGGGCTTGTCGTTGTCCGTGTCGTTGGCGCGTCCGCGGGGCGTCGTCACGCGCTCTGCGGATTCATCGACGGGGTCCTCGGTGAGGATGAGGCCGCGGCCCTCGCAGCACTCACACGGCGTGGAGAAGGTTTCCAGCAAGCCGGTGCCGAGTCGCTTGCGGGTCATCTGCACGAGCCCCAGCGAGGTGACCTCGGAGACCTGGTGGCGGGTGCGATCGCGTCCCAGCGCCTCCTTGAGGCGACGCAGGACCAGCTCCTGGTTTTCGGGCAGGATCATGTCAATGAAGTCGACGATGATCATGCCGCCGATGTCGCGCAGCCGCATCTGACGCACGATCTCCTCGGCGGCCTCGAGGTTGTTGCGCGTGACGGTTTCTTCGAGCGACCCGCCGGAGCCGGTGAACTTGCCGGTGTTGACGTCGATGACGGTCATCGCCTCGGTGCGCTCGATGATCAAGGTGCCGCCCGAGGGCAGCCACACCGTGCGCGACAAGGCCTTCTGGATCTGCTCGTCGATGCGGTAGTGCTCGAACGCGTCCTGGCCATCGTGCTCGCGGCGCTCGTAGCGCACGAGGCGGTCGGCGAGGTCGGGAGCGACGGAGTTGACGTAGGCGTGGACGGTGTTCCAGGGCCTGTGGCCGTCGACAACTAG	MSVVGISTSIFLIRPGDHRCGQPVERVFVECDLTRALAGGLVVVRVVGASAGRRHALCGFIDGVLGEDEAAALAALTRRGEGFQQAGAESLAGHLHEPQRGDLGDLVAGAIASQRLLEATQDQLLVFGQDHVNEVDDDHAADVAQPHLTHDLLGGLEVVARDGFFERPAGAGELAGVDVDDGHRLGALDDQGAARGQPHRARQGLLDLLVDAVVLERVLAIVLAALVAHEAVGEVGSDGVDVGVDGVPGPVAVDN				NA	NA	NA	NA	NA
AK009_09367	672			hypothetical protein	GTGCAGCCGCGTCACATCGGCGGCGATGGCCTCCTCGGGCACGCCCTCGGCGGCGGTGCGGATGATCGCCCCACCCTTCCCGGGCACGACCTTGGCCAGGATCTCCTTCAGCCGCTTGCGCTCGAGCGCGGGCAGCTTGCGCGAGATCCCGGCGCTGCGCCCGCCGGGCACGTAGACAAGGTAGCGCCCGGCCAGGGAAATCTGCGTGGTCAGGCGCGCACCCTTGTGCCCGACCGGGTCCTTGCTCACCTGCACGACGACCTGGTCGCCGGACTTCAGTGCCTGCTCGATGCGGCGCGAGCGCCCGCCCAGCCCTGCTGCCTTCCAGTCGACCTCGCCGGCGTAGAGCACGCCGTTGCGGCCCTGGCCGATGTCGATGAAGGCCGCCTCCATGCTCGGCAGCACGTTTTGCACGCGGCCGAGGTAGATGTTGCCAATCATCGAGGCGTTCTGATCGGAGGTGACAAAGTGCTCCGCCAGCACGCCGTCTTCGAGCACGCCGACCTGGGTGATGGTTCCGTGTCCGCTGCGCCGCGCGCGCTCGCGCACCACCATGGTGCGCTCGACCGACTCGCGCCGCGCGAGGAACTCGGCCTGCGAGACGATCTTCGAGCGCTTGCGCTCCTCTTCGCGTTTCTCGGTGCGGCGGCGGCGCTGCGCCTCCAGGCGTGA	MQPRHIGGDGLLGHALGGGADDRPTLPGHDLGQDLLQPLALERGQLARDPGAAPAGHVDKVAPGQGNLRGQARTLVPDRVLAHLHDDLVAGLQCLLDAARAPAQPCCLPVDLAGVEHAVAALADVDEGRLHARQHVLHAAEVDVANHRGVLIGGDKVLRQHAVFEHADLGDGSVSAAPRALAHHHGALDRLAPREELGLRDDLRALALLFAFLGAAAALRLQA				NA	NA	NA	NA	NA
AK009_09368	825			hypothetical protein	TTGCGCTCCTCTTCGCGTTTCTCGGTGCGGCGGCGGCGCTGCGCCTCCAGGCGTGAGGAGCCGCGGATTGCCTTCGGCTCGTCGATGACTTCGACCTGGGAGTCATCGTCGCGATCCTCGGCCGCGGCGCTGACGGTCTCGCCCTCATCGCTTGTCGACGCCCTCTTCGCCCGGCGCCTCTCCGCACGCGAGGGCGCCTTGAAGATGGGCACGTACGCCGGAGCCTCCGTCGACTCGGGCGCGGGCGTGACCTCGGGTTCGACATCGGTCAACAACTCGTCGCTGCCCTCGATGTCCTCGGGGTCCAGCAGAGCGTCGCTGTCTGTGGGCTCTTCGGGCTCTTCGCTCTCCGTCGCCACGAGCTCCTTGTCCACCTTCTCCTCGATCTGGCGGATCTCATTTTCCACGTCCTTGCGCACGCGCTTGCGAATCTTTTCATCGGCCTCGGCCGCGGCGTCGTCGGAGGCGGCGTCCAGGTGGGCCGGGGCGGGCTCGCTGAGGGCGTCGAGGAGCTTCTCGCTCTCCGCGCGAGACAGCGATGATTGCGCGACCTTGACCAATCCCATCTCGGTCAGCGCGACAATGACCTCCTTCGACGGCACGCCCAGCAACTTGGCGAGCTGGAACACCCGGGTCTTGTCGCTGAGCTGGCTGCGGTCGAACTCGGCCGCCTTGCGTTGCGTGTCTGAGAGTGTGGAATTGTCATCTGTGGCCACGGAGAATCTCCATTCATTGTCCGGGCTGCGCGGGCGGGCACCGGGCGCTGGCGATCTACTTCGTCGCCGCCGCCGCACAGTGCCGCCCCGTCCCGGGATGCGGTTGTAA	MRSSSRFSVRRRRCASRREEPRIAFGSSMTSTWESSSRSSAAALTVSPSSLVDALFARRLSAREGALKMGTYAGASVDSGAGVTSGSTSVNNSSLPSMSSGSSRASLSVGSSGSSLSVATSSLSTFSSIWRISFSTSLRTRLRIFSSASAAASSEAASRWAGAGSLRASRSFSLSARDSDDCATLTNPISVSATMTSFDGTPSNLASWNTRVLSLSWLRSNSAALRCVSESVELSSVATENLHSLSGLRGRAPGAGDLLRRRRRTVPPRPGMRL				NA	NA	NA	NA	NA
AK009_09369	1821			hypothetical protein	GTGGCACAGCGAACCGGCCAGCGCCCCTTAGACGTAGCCGACGCCGGCGCGCCAGGTGTACGTCGCTGCCACCCCGACCGGGGACTCCGGGTTTTCGTAGTCCGCCACGCGGTAGAACTCCATGCCGACCTCCGTCGGGCGGATGCGCGCGACGGCGTAGCCGTGGGCATCAAGGTCCACGTGCTTCACAGCCGGGTTGAGCTTGCGCAGGAAATCCTCCGCGAGCAGGGAGACCGGGTTGTTTTCCGGGTGGTAAACCTTGGTATAGGTGGTCACCGTGTCGCCGACGTTCGCCGCGCTAATCGACGACGTCACCAGCTCACAACCAATCTCTTGTCCGTTGTGCACGATCGAGTTCACCCACTCGGTGTGAATGTCGCCGGTGAGGAAGAGCACGTTGGCGTCGTCGGCGGCGAGCTCGTCAAAAAGTCGGTTGCGGGCCCAGGCGTAGCCGTCCCACTGGTCCGGGTTCATCGGAATGCCCGCAACCAGGGTGGAGAAGTCCTCGATGAGGCGGTTGACCATGGACGCCTCGGAGCTGGTCTCCGCCATCGCGCCGAGGGTCAGCGGGGCAATCATCACCGAGTTGCCCATCACGTTCCAGGTGGTGTTGGAGTTGCGCACCACGGAAGAGAGCCAGTCGAACTGCTCCGAGCCGAGCATCTCGCGGCCCTCGGCGGTGGCGGCAAAGCGGGAGGGCTCCTCGTCGCGGTAAGTGCGCAGATCCATGATTGTCAGGTTGACCAGGCTGCCGAACTGCAGGCTGCGGTAGATGTGGCCGCCTTCGGACGGGCGCGTGGCGCGCACCGGCAGCCACTCGAAGTAAGCCTGCTGGCCCGCGTTTCGACGCTCCAACCACGGCCCCTCCGAGCCCGCCGTGTGGTTTTCCGCGCCGTCGCGCCACGAGTTGTTGGCCGTCTCGTGGTCATCCCAGATGACAATCCACGGCGCCGCCGCGTGCGCGCGCTGCAGCGCGAGATCCTGCTTGTAGCGGCCGTGACGGGCTCGGTAGTCCGTCAGCGTGATGGTCTCATTGTGCGGGGTGTGCACGCGCGAGGTGCCGCTTTTGCCGACGTAGCCGCCGGTCTCGTACTCGTAGATGTAATCGCCCAGGAACACGACTGCGTCGAACTCGTCGCGCTCGGCCATGTCGCGGTAGGCGGCGAAGTAGCCCGCCTCCCAGTTTGCGCACGAGGCCAGCGCGAAGTTCACCTGATCCACCGTGGCCTCGTACGCTGGGGCGGTCTTGGTGCGGCCGACCGCCGAGTACACACCGTTGTAGCTAAACCGGTAGAAGTACACGGTGCCCGGCTGCAAACCGTTGGGGTCGACGTGGACGGTGTGGTCGACGTCCGCCGTCGTGGTCACGCTGCCGGAGCGCACCACGGTGGCGAAATCCGGTGCAGTCGCGACCTCCCAGCCGACGGTCGCGGCCTCGCCAACGCCGGAGCCCGGGGTGGCTTCCGGGCTGACGGTCACGCGCGTCCACAGGATCACCGACACCGGCGTCGGGTCGCCCGAGGCGACACCGTGCATGAAGTGCGAGTACACGGACTCGGGCGCGCCAGGCAGGACGCGGCCGCTGGCGATCGACGAGCCCTGGGCTGCCGAGGACAGATCCGAGGAGAGCTGCGCGGAGGCGTACGGGGCGGCGGCGACGCTTGCGGCGGCAACGCCGGAGCCGACGATGAAGGAACGGCGGGGGAAAGACTGCGAAGACATAGGCTCATCGTTCAACGGCCCCCGCGCGACCGCAACACGGGTGCGCAGTGTTGGCCAAGACTTCGCCGCGGGTTTACCGCGCGTTCACACCCCCTGTGA	MAQRTGQRPLDVADAGAPGVRRCHPDRGLRVFVVRHAVELHADLRRADARDGVAVGIKVHVLHSRVELAQEILREQGDRVVFRVVNLGIGGHRVADVRRANRRRHQLTTNLLSVVHDRVHPLGVNVAGEEEHVGVVGGELVKKSVAGPGVAVPLVRVHRNARNQGGEVLDEAVDHGRLGAGLRHRAEGQRGNHHRVAHHVPGGVGVAHHGREPVELLRAEHLAALGGGGKAGGLLVAVSAQIHDCQVDQAAELQAAVDVAAFGRARGAHRQPLEVSLLARVSTLQPRPLRARRVVFRAVAPRVVGRLVVIPDDNPRRRRVRALQREILLVAAVTGSVVRQRDGLIVRGVHARGAAFADVAAGLVLVDVIAQEHDCVELVALGHVAVGGEVARLPVCARGQREVHLIHRGLVRWGGLGAADRRVHTVVAKPVEVHGARLQTVGVDVDGVVDVRRRGHAAGAHHGGEIRCSRDLPADGRGLANAGARGGFRADGHARPQDHRHRRRVARGDTVHEVRVHGLGRARQDAAAGDRRALGCRGQIRGELRGGVRGGGDACGGNAGADDEGTAGERLRRHRLIVQRPPRDRNTGAQCWPRLRRGFTARSHPL				NA	NA	NA	NA	NA
AK009_09370	453			hypothetical protein	GTGGGGGCGTCGAAAAGCGAAGTGCTACTTGTTCGGGAACCAGATGTCGATCTCGCGCTCGGCGGACTCCACCGAGTCGGAGCCGTGGACAACGTTCTCGGCGACGCTGAGCGCGAAGTCGCCGCGGATCGTGCCCGGGGTGGCCTTCTCCACCGGGTGGGTGCCACCGGCGAGCTGGCGCCACGCGGCGATGGCGGACTCGCCCTCGACAATGCCGGCCACCAGCGGGGCGGAAGTGATGAAATCCACGAGCTCGCCGAAGAACGGCTTGTCGGAGTGCTCGGCGTAGTGCTTCTCCGCGGTCTCGCGGTCCGCGGTACGCAGGTCGAGCTCGACGAGCTTGAGGCCCTTGCGCTCGATGCGGGCGATAATCTCTCCGACGTGGCCGTTGGCGACGCCGTCCGGCTTGATCAGGATCAAAGTGCGTTCAGTCATAGTCGCCAACACTACTAA	MGASKSEVLLVREPDVDLALGGLHRVGAVDNVLGDAEREVAADRARGGLLHRVGATGELAPRGDGGLALDNAGHQRGGSDEIHELAEERLVGVLGVVLLRGLAVRGTQVELDELEALALDAGDNLSDVAVGDAVRLDQDQSAFSHSRQHY				NA	NA	NA	NA	NA
AK009_09371	768			hypothetical protein	TTGCAGCTCCATGGAGAAGATCTGGGGGATCTGCTCCATGTCGGTCGGGCCGATGAACAGCTTGGAGTGCGAGGCGGAGACGATGTGCGCCACGTCGGCCTGGTTCATCAGCATGCCGACGGGGTTGACGGTGGCCCCGGCGCGCATGACGCCGAGCAGGCTGGCCGCGAAGTTGATGGAGTTGGGCACCTGGAGCGTGACCACGTCGCCGGGCCCGATCCCGCGGGAGGTGAGCTCCCCGGCGATCGATTCGGAGTAGTCCCTCAGCTCGGCGTAGGTCGCCGTGGTTCCGGTCGTCAGCTCGGTGATGGCGGGCAGCGCCGCGTCCTTCTCGCTCAGGCCGCCGAAGACCAGGTCGAACACGTTCGTCTCCGGTACCTCGACGCTGGGGTAGGGGCTGTGGTAGATCAACGAAACCTCCCGTTGTGTGATGTGGGTCGCAATGCTTATCAATGTGTAGCATACGCTATACCGCCCGGGGCGATTTTTATTTATCTGTGCAAAACTACCCGGGTGGCGGCGCCGCAGGTGGTTATGCTCAGGTGTTATGCGCACCCTTTGGTTTGTTCTCGCCGCCGCGTTCTCGCTCGTCGCCGTGGGCGCGAACTGGCTGGATCTTCCCCGGCCGGCGGCCCTTGCGTCGATCGCGGCGGCCGCGGTGTTCCTAGTCCTGGGTTTCCGCGAGACGTACCGCAACCGCGTTCAGGGCCCCGTCGAGCTCGACGCCGAGCAGGAAGAGACGATCCGCAGGATGAAGTCGGAGGGTAA	MQLHGEDLGDLLHVGRADEQLGVRGGDDVRHVGLVHQHADGVDGGPGAHDAEQAGREVDGVGHLERDHVAGPDPAGGELPGDRFGVVPQLGVGRRGSGRQLGDGGQRRVLLAQAAEDQVEHVRLRYLDAGVGAVVDQRNLPLCDVGRNAYQCVAYAIPPGAIFIYLCKTTRVAAPQVVMLRCYAHPLVCSRRRVLARRRGRELAGSSPAGGPCVDRGGRGVPSPGFPRDVPQPRSGPRRARRRAGRDDPQDEVGG				NA	NA	NA	NA	NA
AK009_09372	672			hypothetical protein	GTGGGTGAGCAGCAGCGCCTCCAGTTCGGCTGGGGCGACCTGGTAGCCCTTGTACTTGATCACTTCCTTGGCGCGGTCGATGATCCTCAGGCCACCGTCGTCGCCTATGCGCGCGATGTCGCCGGTGCGCAGCCACCCGCCCTGCACGAGGGTGTTGTTCGTGGCCTCCTCGTTGTCGAGATAGCCGAGCATGACCTGGGGTCCGCGCACGAGTACCTCGCCCTGCTGGCCCTCCTCGACGTCCTCGAGCGTGTCAATGTCCACGAGGCGGATTTCGGTGTTGGGCGCGGGCTTGCCCACGCTCGAGTGGTCGGCGTCGCCGTGCAGGTTGAGAGCGACGAGGGGGGCGGCCTCGGTCATGCCCCAGCCCTGGACCACCTTCGTGCCCAGTCGCTCCTCAACCGCGCGCATGATGGGGGCGTCGATAGGCGCGGCGCTGCTGACCATCAGCTTGGAGTCGGCGAACCAGGACGCGTCGATTTCCGGGCCTTTCGCCATCGCGATGGCCATTGGCGGGGCGATGAAGGTGAACTCGATGTTGTGCGTGCCGTGGGCGCTGAGGAAGAGTCCGAGGTCGAACTTGGGCATGGTGAAGATGTGGTGGCGGCGGTACAGCGGGCTGAGCAGCAAGACGGTGAGCCCGTAGATGTGGGAGAACGGCAGCACGCTTAA	MGEQQRLQFGWGDLVALVLDHFLGAVDDPQATVVAYARDVAGAQPPALHEGVVRGLLVVEIAEHDLGSAHEYLALLALLDVLERVNVHEADFGVGRGLAHARVVGVAVQVESDEGGGLGHAPALDHLRAQSLLNRAHDGGVDRRGAADHQLGVGEPGRVDFRAFRHRDGHWRGDEGELDVVRAVGAEEESEVELGHGEDVVAAVQRAEQQDGEPVDVGERQHA				NA	NA	NA	NA	NA
AK009_09373	1191			hypothetical protein	GTGCAGGGTTTCCACGTCTGCCATGTGGCGCATGACGTCGTTCTCGAGCAGGATGCCGACGCCGCCGAACATGTCGCGGGCGTTAGCCGCCACGCGGCGCGCGGCGCGGGTGCCGTGGACCTTGGCCAGGGCGGCCTGCTGCTCGGTCAGCGTGCCGGCCTCCTCGAGCTCGAGCAGGCGCTTGCAGTACAGGGCGAGCGAGGTGACATCCATGAGCATGTCGGACAGGCGCTGCTGGATGATCTGGTTCTTGATCAGGGGGCGGCCGAACTGGACGCGCTCGGAGGCGTACTTCAGTGCCTTCTCGTAGCAGTCCACGGCCAGGCCAAAGGCGCTCCACGCCACGCCGATGCGGGTGGCCATGAGCACCTGGGCGGTGTCGCGGAAGGAGCGGCAGCCGGGCAGGCGGCGGTCGTCGGAGACGCGGACGTTGTTGAGCTTGATGTGCGCCTGCGGGATGCCACGCAGGGCGGCCTTGCCGGTGATGGTCTCGGCGTCGTAGCCCTCCTGGTCCTGGTCGACGATGAAGGCGCCCACGTTGCCGTCCTCCATGCGGGCGTAGACGACGGTGATGTGTCCGACGGAGCCGTGGCCGATCCACTTCTTCTCGCCGTTGATGACCCACTCGTCGCCGTCACGTACGGCGGAGGTCTCCAGCGCGATGGAGTCGGAGCCGTGGTCGGGCTCGGTGAGCGCGAACGCGCCGCGGATCTCCATCAGGGACATCGGCTTGAGGTATTTCTTCTTCTGCTCCTCGGAGCCCAGCAGGTTGATCGACTGCATGGCCAGGCCGGCCTGGACGCCGAGCGCGGTGGCGGTGGAGGCGTCGAGGCGGGAGATCTCGAAACCGATGAGGCGCTTTGCGCGGATGCTCATCTCCGGCTCGCCCTCGATGTCGATGCCGTCGCGGATCAGGCCGCGGCGCGCTGCCTCCTCAGCGCCGGGGATGTTGTACTCGGCCTTCTCCCACGCCTCGTTGATGCTGGGGCGGGCGAACTCGCAGAAGTCGCGCGCCTTCTTCCACCATTCGAGGTCCGCGCCGTCGACGTCATCGAAGATGCGGTAGTAGTCGGTGCGGGGGTCGAGCGGGATGCCCTGGAACTCGGTGAACTGGGGTGTGTCGGCCATGATTGCCCTCCAAAGCTATTAGATGAGTCGTGCTTTCTCAGTATTGTGACTCACATCGCATAG	MQGFHVCHVAHDVVLEQDADAAEHVAGVSRHAARGAGAVDLGQGGLLLGQRAGLLELEQALAVQGERGDIHEHVGQALLDDLVLDQGAAELDALGGVLQCLLVAVHGQAKGAPRHADAGGHEHLGGVAEGAAAGQAAVVGDADVVELDVRLRDATQGGLAGDGLGVVALLVLVDDEGAHVAVLHAGVDDGDVSDGAVADPLLLAVDDPLVAVTYGGGLQRDGVGAVVGLGERERAADLHQGHRLEVFLLLLLGAQQVDRLHGQAGLDAERGGGGGVEAGDLETDEALCADAHLRLALDVDAVADQAAARCLLSAGDVVLGLLPRLVDAGAGELAEVARLLPPFEVRAVDVIEDAVVVGAGVERDALELGELGCVGHDCPPKLLDESCFLSIVTHIA				NA	NA	NA	NA	NA
AK009_09374	1296			hypothetical protein	GTGGGTGAGCAGCAGGGCTTCGAGCTCGGCAGGCGCGACCTGGTAGCCCTTGTACTTGATCACTTCCTTGGCGCGGTCGACGATGTAGGTCACGCCCTCCTCGTTCACGCGGGCGACGTCTCCGGTGCGCAGCCAGCCGTCGCCAATGAGCACCTCGTCCGTCGCCTCTTTGTTGTTGAGATAGCCCATCATGACCTGCGGGCCCCTGACGAGCAGCTCGCCCATCTCGCCATCGGTCACCTCGGTGTCGGTCTCGAGGTCCATGATCTTGAACTCGGTGTTAGGTGCCGCGAAGCCGATGGAGCCCGGATCGGAACGGCCGTGGATGCCGAAGTGGGTCACCGGCGAGGTCTCCGTCATCCCGTAGCCCTGGATGATCTTGATGCCGAGCTTGGAGGCGACGGTGCTGGCGGTGTCAAAGTCCAGCGGCGCGGCGCCGGACAACATGATCTTGGCCGCCTCGAAGTTCTCCGCCTTCACGGTGGGGTTCTTCGCCAGGGCCACGGCCATCGGCGGGGCGATGAAGGTGAAGCCGATCTGGTGCTTCGGGTGGGCGTCGATGAACGTCTGCAGGTCGAACTTCGGCATGGTGAAGATGTGGTGGCGCTTCTTCAGCTGGGACAGCAGGAGCACCGTCAGGCCGTAGATGTGGGAAAACGGCAGCGGGGAGAGGAAGTTGGTGCGCTCCGTCACGCCGTTTTCCACCAGCAGGTGGTTGACCTGTTCGATGTTGGAGACGATGTTGCGGTGGCTGAGCATCACGCCCTTCGGCAAGCCGGTGGTGCCGGAGGAGAACGGGATGGCCATGATGTCGTCCGCGGAGACCTCGACGTCGGGCGGGGTGTGGCCGCCAGCCGCGACGGCGGGGATCTCGTAGCTCCACATCTGATCCATACCCTCGATGTCGGTCAAGCCGATGTAGTACGAGGCCCCGGAGAGCTTGATCAGCTTGTTGACGTCCGAGGAGTTCATCAGCACGCCGAGCGGCGAGACGATCGCGCCGGCCCGCAGGATGCCCAGCAGGGCGACGACGTAGTTGATGGAGTTGGGGATCTGCAGGGCGACGACGTCGCCCTTTCCAATGCCGCGCTCGGCCAAGGCGCCGGCGTCGGATTCGGCCATCTCCCGCAGCCCGCGGTACGAGACGGTCATTTCGGTGGTCAGCTCCGTGAGTGCAGGAAGCGAACCCTCTTCTTCGGTCAGGTCACCGAAGATGTGTGTGAACAGATCGACCTCGGGGATGTCGATCGCTGCGAAAGGGCTGGTGTATGCCATGAGGTGGGTTCTTCTACCTAG	MGEQQGFELGRRDLVALVLDHFLGAVDDVGHALLVHAGDVSGAQPAVANEHLVRRLFVVEIAHHDLRAPDEQLAHLAIGHLGVGLEVHDLELGVRCREADGARIGTAVDAEVGHRRGLRHPVALDDLDAELGGDGAGGVKVQRRGAGQHDLGRLEVLRLHGGVLRQGHGHRRGDEGEADLVLRVGVDERLQVELRHGEDVVALLQLGQQEHRQAVDVGKRQRGEEVGALRHAVFHQQVVDLFDVGDDVAVAEHHALRQAGGAGGERDGHDVVRGDLDVGRGVAASRDGGDLVAPHLIHTLDVGQADVVRGPGELDQLVDVRGVHQHAERRDDRAGPQDAQQGDDVVDGVGDLQGDDVALSNAALGQGAGVGFGHLPQPAVRDGHFGGQLRECRKRTLFFGQVTEDVCEQIDLGDVDRCERAGVCHEVGSST				NA	NA	NA	NA	NA
AK009_09375	198			hypothetical protein	TTGGTTTGGTTGGGCACTGTCAGTCCAGCTTTCTATGACAATAGGGGTTTAGGCTTCGAACGGTACGGCGCGAAGCTTCTTGCGCTCGATCTTACCGGTCGGGTTTTTCGGAATCTCGTCGACGAACTCTACGGCGCGGACCTTCTCGTAGGGGGTGACCCGCTCGGCCACCCACTCCATGAGCTCCTCGGCGGCTAG	MVWLGTVSPAFYDNRGLGFERYGAKLLALDLTGRVFRNLVDELYGADLLVGGDPLGHPLHELLGG				NA	NA	NA	NA	NA
AK009_09376	1158			hypothetical protein	TTGGATGGTGTCGGTGCCCTCGTAGGTGTGCAGCGACTCCAGGTCCGCCATGTGGCGCATGACGTCGTTTTCCAGCAGGATGCCGACGCCGCCGAACATGTCGCGGGCGTTCGCCGCCACGCGGCGCGCGGCGCGGGTGTTGTGCACCTTCGCCAAGGCGGCCTGCTTCTCGCTGAGCTCGCCCGCCTCCTCGAGCTCGAGCAGGCGCTTGCAGTACAGGGCCATGGCCGTGACGTCCATGAGCATGTCGGACAGGCGCTGCTGGATGATCTGGTTCTTGATCAGGGGGCGGCCGAACTGGACGCGCTCGGTGGCGTACGTCAGGGCCTTCTCGTAGCAGTCGATGGCGATGCCCAGCGCGGTCCATGCCACGCCGAGACGGGTGCCGCCGAGGACGACTGCGGTGTCGCGGAACGACCGGGCTCCGGGGAGGCGGCGGTCGTCGGAGACGCGGACGTTGTTGAGCTTGATGTGCGCCTGCGGGATGCCGCGCAACGAGCCCTTGCCGGTGATGGTCTCGGCGTCGTAGCCCTCCTGGTCCTGGTCGACGATGAATCCGCCGACCTCGCCGTCGTCCATGCGGGCCCACACGACAGCGATGTGGCCGACGGAGCCGTGGCCGATCCACTTCTTCTCGCCGTTGATGACCCACTCGTCACCGTCACGCGTGGCGGTGGTTTCCAGGGCGATGGAGTCGGAGCCGTGGTCGGGCTCGGTGAGCGCGAACGCGCCGCGGATTTCCATCCGCGACATGGGGCCGAGGTACTTCTTCTTCTGCTCCTCGGAGCCCAGCAGGTTGATCGACTGCATGGCCAGTCCCGCCTGGACGATGACGGCTGTGGTCGTCGAGGCGTCGCAACGCGCGAGCTCGAGGGTGATGAGGCGGTTGGCGCGAATCGACATCGGCCGCTCCCCCTCGATGTCGATACCGTCGCGGATCAGGCCGCGGCGTGCGGCCTCCTCCACGGCCGGGACGTTGTATTCGGCCTTCTCCCACGCCTCGTTGATGTGCGGGCGGACCCAGGCCGCGTAGTCGCGCGCGGTCTTCCACCATTCGAGGTCGTCGCCGTCGACGTCAGCGAACACTTGGTAGTAGTCGGCCCTAGGGGAGAGAAGGTCGTTGGTTTGGTTGGGCACTGTCAGTCCAGCTTTCTATGA	MDGVGALVGVQRLQVRHVAHDVVFQQDADAAEHVAGVRRHAARGAGVVHLRQGGLLLAELARLLELEQALAVQGHGRDVHEHVGQALLDDLVLDQGAAELDALGGVRQGLLVAVDGDAQRGPCHAETGAAEDDCGVAERPGSGEAAVVGDADVVELDVRLRDAAQRALAGDGLGVVALLVLVDDESADLAVVHAGPHDSDVADGAVADPLLLAVDDPLVTVTRGGGFQGDGVGAVVGLGERERAADFHPRHGAEVLLLLLLGAQQVDRLHGQSRLDDDGCGRRGVATRELEGDEAVGANRHRPLPLDVDTVADQAAACGLLHGRDVVFGLLPRLVDVRADPGRVVARGLPPFEVVAVDVSEHLVVVGPRGEKVVGLVGHCQSSFL				NA	NA	NA	NA	NA
AK009_09377	243			hypothetical protein	ATGCACGATGCTAGGGGTGACCCAATCGATGGGAGCGGTGGGAACCAGCGCAGACAACGCGCTAGCGGAGTCGTTCAACGCGACATTGAAACGCGAGGTGCTGCAAAACCGGAAATGCTTCGACTCACTGCTGCACGCCAGACGGGACGTCTTCGCGTGGTGTGTGCGCTACAACCAGAAGCGCAGACACTCATGGTGCGATTATCTGTCGCCCCTCGAGTTCGAAAACCGCACCTGCGGTAA	MHDARGDPIDGSGGNQRRQRASGVVQRDIETRGAAKPEMLRLTAARQTGRLRVVCALQPEAQTLMVRLSVAPRVRKPHLR				NA	NA	NA	NA	NA
AK009_09378	1260			hypothetical protein	ATGGTTGTCAGGTCAGTCGCGACATCGTTGACAGTTAGGGTCGCAAAACCACCTGGGATGATGGTTGTCAGGTCAGTCGCGACATTGTTGACACTGGTGCCGGGGCGCGTTTCGGCGGCCGTCAAGCTGATCAGCCGCGACATTGTTGACACGGTGAACAGCCCCAACCGCAACCTCGCCATCGTTAAAGCCGTCAGAGAACAACACGAACCCGTGGCAAAAGTCGCCGCCCGCTTCAACATCTCACGCCAAAGGGTCTACAAAATCCTGGCCGACTTTGATACAGGCGGACCCGACGCTATGGCCCCGAAGTCCCGCGCACCGCGCACCCACCAGCACGCCGTACCCGAACCGCTGCGCAACCACATCATCGAGATACGCAAAGAACTCACCCGGGCCGGTTTCGACGCGGGCCCCGACACGATTGCCTTCCACCTGGAGCGCCAAGGCATGCGCGTGCCATCACCATCAACAATCCGCAGGATCATCACCGCCGCCGGTTTAGTGACCCCGCAGCCGCAGAAGAAGCCGCGCAGCTCCTACATCAGGTTCGAAGCCGCCATGCCCAACGAATGCTGGCAGGCAGACATCACCCACCTGTTCCTTCTCGACGGCACCCGGGTAGAAGTCCTCGACTTCATCGACGATCACTCCCGCTACCTGCTGTCGATGACCACCCGCGCCGCCTTCACCGGCGTGGCCGTCGCAGACGAACTATCCCGACTCATCGACATCTACGGCCCACCGGCATCAACATTGACCGACAACGGCCTGGTGTTCACCGCACGCCTGGCCGGACGCAAAGGCGGGCGAAACGCCTTCGAGAAAGTCCTGACAACCCACCGCATCCAGCAAAAGAACGGCAGGCCGGGCCACCCGCAAACCCAAGGCAAAATCGAACGGTTCCACCAAACATTAAAAAAATGGATCAGCGCACAACCACCAGCGGAAACCATCACACAGCTACAACACCAACTCGACGAATTCGCCGGCTACTACAACACACAACGCCCGCACCGCGCCCTAGGACGGCGCACCCCCGAGACCGCCTACACAACAGGGCCGAAAGCCACCCCCACCACCACGCCCACCCAAGAATGGCGCGTGCGCCACGACATCGTCGCCCCCAACGGCAAAGTCAGCATCCGCTACGCAGGCAGGCTCTACCACCTAGGAATCGGACGAGCATGGGCCGGGGAGAACATGGGCCCGACCCCTGGAAAGTGGACACAGGGAATTGAACTTATGCGGTCAAGGTGA	MVVRSVATSLTVRVAKPPGMMVVRSVATLLTLVPGRVSAAVKLISRDIVDTVNSPNRNLAIVKAVREQHEPVAKVAARFNISRQRVYKILADFDTGGPDAMAPKSRAPRTHQHAVPEPLRNHIIEIRKELTRAGFDAGPDTIAFHLERQGMRVPSPSTIRRIITAAGLVTPQPQKKPRSSYIRFEAAMPNECWQADITHLFLLDGTRVEVLDFIDDHSRYLLSMTTRAAFTGVAVADELSRLIDIYGPPASTLTDNGLVFTARLAGRKGGRNAFEKVLTTHRIQQKNGRPGHPQTQGKIERFHQTLKKWISAQPPAETITQLQHQLDEFAGYYNTQRPHRALGRRTPETAYTTGPKATPTTTPTQEWRVRHDIVAPNGKVSIRYAGRLYHLGIGRAWAGENMGPTPGKWTQGIELMRSR				NA	NA	NA	NA	NA
AK009_09379	504			hypothetical protein	GTGCCCGCCCGGGTAGAACACCACGTCGAAGTTGTCCGGGTCGACATCTTCGAGCGAGGCCGGGTTGTCAATGACTGGAGCCAGCTCGGCGAGAATCGCCTCCTGCTCGTCATTGAGGCTGGCGGGGTCGGCGACGGGTTTGCGTCCACCGGGGGTTGCCACCGTGAGGTCCCAGCCCGCGTCACGGAAAACCCCGTACGGGGTGGTGAACTCCTCGGCCCAAAAGCCGGTTGGGTGCTGCGAGGCGTCGTTAAGCGTCCAGTGGTCTGCTGCGGTGAGAACGAAAAGTGCTTTGGTCATGGCCCCAGAATACGAATGCAGCGCCGGGCTGTCGGTGAATTCTCTGGCCGTTGCCTGCGGGTTTTAGCCACAAACCATGGGAAGAATCAAGCGGCGCACTGCGTGCTGCGCCGTGCTCACCAGGAGGAACCGAAGGAGCCGGCAAAGGTGGTGCCGCGCCTTTCCATAATTGTGTCCCCGACAGTGTCCGAAGTCACGACATAG	MPARVEHHVEVVRVDIFERGRVVNDWSQLGENRLLLVIEAGGVGDGFASTGGCHREVPARVTENPVRGGELLGPKAGWVLRGVVKRPVVCCGENEKCFGHGPRIRMQRRAVGEFSGRCLRVLATNHGKNQAAHCVLRRAHQEEPKEPAKVVPRLSIIVSPTVSEVTT				NA	NA	NA	NA	NA
AK009_09380	147			hypothetical protein	GTGGGGGCTAAACGGTTCAGCCGCGCTGTAATCCACGCCGAGCTCAACGAGCTTGTCCTCGAGCAGCCACGTGGCCTTGCTTGCGAGGCCGCCGGCGCTCTCCTCGGCGTTGGAGAAGCCGGTCATCTTCCGCCCGGCAAACGGTGA	MGAKRFSRAVIHAELNELVLEQPRGLACEAAGALLGVGEAGHLPPGKR				NA	NA	NA	NA	NA
AK009_09381	1614			hypothetical protein	ATGCGCATGCCATTTTTCGCCCAGCGAGCGCAAGCGTCGGCGGCCGCATTGCTCTTTGCCGCTGTGCATGTGAATGTCGTCGCTGGCGCCGCTGAAGCTCCCGTGCCCGAGGTCACCGCCGAGCAGTGCCCCATCACGGTCAACGTTGAGCGAGCCGAGTGCGGCCGCATCGAGGTGCCCATGCGTTACGACGACCCCGCCGGCGAGGCAATCTCCGTCGGGTTCATCCGCATCCCCGCGCAGAACCCGGCTGCGCGCCGCGGCGCGTTGTTCGGTAACCCGGGAGGGCCGGGCGGCGACGCGTACACCTACTTCGGCACCGAAGGCAGCGGTTTCGACTGGCCACAGGAGATCCGCGACGAGTGGGACTTGGTGGCGGTCCAGCCCCGCGGGTTGCTCCATTCAACGCCGCTGAACTGCCAGTCACCGAACCCGCAGACCCCACTGGACGTAGCGCAGCTCCAAATTGAATCCACCTTGTCCAGCGGTCGGGTGAGCCGCTCGCTATGCCAGGGTCAGCGGCCGGGTTACCCGGAGACGATCACGACGGAAAACAACGCACGTGACTGGGACGAGGTTCGCCGAGCGCTCGGCTACGACAGGATTTCGATCATGGGACTGTCCTACGGCACCTACCTCGGATCCGTTTATGCCACTATGTACCCGCAGCACACCGACCGTGTAGTGCTGGATTCCACGATGGATCCTTCCCTTGCCTGGCAGGGGCTGATGCGCACACAGCAGGGCGGCTACGAGCGCGCGCTGAACGATTACTTCGCTTACGTGGCCGCCAACGACGCAACCTACGGGATGGGTGACACCCCGCTGAAGGCCTACCAGTACTGGTCGCGCAAGGTCGTCGCCGAATCAGGTACGAACCCAACAGTAACCCCTCCCCCGGCTCAGGTCGGGGACCTCCCGCCCGGGCTCGGATCCTCCGGCCAGGCCGGCGCGGACGTGCTCACCGCCACCGGGAAGGCCCGCGTGGAGGGCGAGGGAATCGTCTCACGTCTTCTCAACCCCGGGGCAAATCAGGCCACCTCCCCGCTGCTCACCGCGACCCGCATAAACCTGCCTCACCCACAGGCCTGGGATCAGCTCGCGCGACTCACAAACGGGACTCTTGAGCAGGGCCAGGACGCAGCGCCCGCGCAGGCACTTATCGACGAGTACCAGCAGCAAGTCGTGGCATTGCACCAGCTCCAGGCGGTCCAGATGTGCAACGAGAATGTCTCCCCGCCCGATTTCGGCCTCATCCCGGCGGCGCTGTGGTCCTCTGAGGTCAGCGGCGACATCTTCACCAGCCCCAATGCCGTGATTGGCTCTGGCATGTACTGCGCGGGCGCCGAGCCTGTTGCCGGCACAGCGGAGCTGGATGGTTCCCGCCTCGAGCTCCGCCCGCTGCAGATCAATGGCACCGGGGATCCGCAGACGGTGTATGAGGGACGCGGCACCATCGCCGAGTCGATGGGCAGCCACCTGCTCACCGTGCACGGCCCTGGCCACGGCCACGTCGGGTTCGGCAACAAGGTAGTCGACCGTATCGTCATCGACTACCTGCGCACCGGCCGCACGGAGACGACAGACGCGCCGGGATACTTCGAGGCGCGCTAG	MRMPFFAQRAQASAAALLFAAVHVNVVAGAAEAPVPEVTAEQCPITVNVERAECGRIEVPMRYDDPAGEAISVGFIRIPAQNPAARRGALFGNPGGPGGDAYTYFGTEGSGFDWPQEIRDEWDLVAVQPRGLLHSTPLNCQSPNPQTPLDVAQLQIESTLSSGRVSRSLCQGQRPGYPETITTENNARDWDEVRRALGYDRISIMGLSYGTYLGSVYATMYPQHTDRVVLDSTMDPSLAWQGLMRTQQGGYERALNDYFAYVAANDATYGMGDTPLKAYQYWSRKVVAESGTNPTVTPPPAQVGDLPPGLGSSGQAGADVLTATGKARVEGEGIVSRLLNPGANQATSPLLTATRINLPHPQAWDQLARLTNGTLEQGQDAAPAQALIDEYQQQVVALHQLQAVQMCNENVSPPDFGLIPAALWSSEVSGDIFTSPNAVIGSGMYCAGAEPVAGTAELDGSRLELRPLQINGTGDPQTVYEGRGTIAESMGSHLLTVHGPGHGHVGFGNKVVDRIVIDYLRTGRTETTDAPGYFEAR				NA	NA	NA	NA	NA
AK009_09382	2775			hypothetical protein	GTGCGAGCCAACCAGGCGGGTCGCGGTCTCGGGGGCGTCGACGAAGCGGTTGACCACCCGGCCATCGTAGGCGGAGTCGTACAGGGCGGGGCGGATGTTGTCGCTCATCCCGCCGTCGACGGCAATGTAGCGCCGCGTGGTGGTGTGCGAGGTGTGCACATCTTTGATCGTGCCCGCGCGGTACACGGTCACTGTCGACGGGCCCGCGATCGCGCGGCCGGGCTCGACAACCACCGTCGGGGCGGGGATCCCCAGCTCCGCGGCTACCTGGTCGACGCTGGAGAGCAGGTCGCGGGCGACGCCGGTGACGTCGAGAGGCTGCTCGTCGTCCACGTAGGCAATGCCGTAACCGCCGCCGAGATCGAGGTAGTCCAGCGCGACGTTGTTCTCCCGGTAGATGGTCGCGTACAGGCCCAGCACGCGCTCGGCGGCGAGCTTGAAGCCCTCTGCGTCGAACACCTGGGAGCCGACGTGGCAGTGCAGACCCGCAAGCGTGAGGTTGGCCGCAGCGATGGCGTCGACGGCCGCCTTGTGCGCGGAGCCCGAGGCCAGCGACAGGCCGAACTTCTGGTCCTCGTGGCTGGTGGCGACGAACTCGTGCGTATGCGCGTCCACACCGGGCTTGACACGCACGAAGACGTCTTGGTGTTTACCGAGGCGCCCGCAGACGTCGTTAAGCTCGGCGAGCTCCTGGTGCGAGTCGATCACGACGTGGCCGACCCCGGCCTCGGCGCAGAGGGTGAGGAAGGACTCCGACTTGTTGTTACCGTGGACGGTGATGCGCTCGGGCGGGAAGTTCGCGGCCAGCGCGATGCGCAGCTCGTTTTCGGAGGCGACGTCGAGTGCCAGCCCCTCCTCGTCCACCCAGCGGGCGACCATGCGGGTCAAAAACGCCTTGGAGGCGTAGTGGACGTTTTCCGGCGCGCCGAACGCGGCCGCCATGTCGCGGCAGCGCGACCGGAAGTCGTCCTCGTCGATGACTATGACGGGCGTGCCGTACTCCTCAGCGATCTCGGGCAGCGGCACCCCGGCGATGGTGACAACGCCGTCTTCCTGCCGCGCCACAGAGCGCGGCCACACGTGGGCGGGAAGGTCGTTGAAATCCATTTACATCCGCTCCGGTGCGCTGACGCCGAGCAGGTCAAGGGCGTTGGCCAGGACCTGGCGTGTGGCCATGGCCAGCGCGAGGCGCGCTTCGTGGATCGGCTCGGCGTCCTCGCCGGCCTTGGGCAGGATCTGGCGGGCGTCATAGAACTTGTGGAACGAGCTCGCCAGTTCCTCGACGTAGCGGGCCACGCGGTGCGGCTCGCGCAGCTCGGCCGCGGCTTTGATGACCGCGGGGTACTCGCCGAGAGTGCGGATCAGATCACCTTCCTTCTCATGCGTCAAAAGCCCCAGGTCAGGCTCGGCGACGCTCACGCCCGCCTCAGAGGCGCGACGCGCGATCGAGCACAACCGCGCGTGGCCGTACTGAACGTAGTAGACGGGGTTGTCCGAGGACTGCCTCGTCCACAGGTCCAGATCGATATCGAGGGTCTGGTCTACCGAGGAGCGGGCCAGAGAATAGCGTGCACCGTCGACTCCGATGGCGTCGACGAGGTCTTCGAGGGTGATGATCGTGCCGGCGCGCTTGGACATTTTCACAGGCTTGCCGTTTCGTACAAGGTTGACCATCTGGCCGATGAGCACTTCCACTGCGTCCGCGTCGTAGCCGAGGGCCTGCGCCGCCGCGCGCAACCGGGCGATGTAGCCGTGGTGGTCCGCGCCAAGCATGTAAATGGCCAGTGTGTGGCCGCGATCGAACTTGTCGGCCACGTAGGCAATGTCGCCGGCGATGTAGGCGGCGTCGCCGTCAGACTTGATCACCACGCGGTCCTTGTCGTCGCCGAAGCCGGTCGAGCGCAGCCACCACGCACCGTCGCTTTCGTACAGGTTGCCGTTGTCCTTGAGCGTGGCCACCGCCTTGTCCACGGCGCCAGATTCGAACAGCGAGTTTTCGTGGAAGTACACGTCGAACTCGACGCCAAAATCCCTCAACGAGCGCTTGATGTGGGCAAACATCATATCCACGCCCGCCGCGCGGAAGGTTTCCTGGACCTCGGCGTCCGTGCCCTCCAGCGCGCCTTCGTGCTTGTCAACGACCCCAGCAGCGATCTCGGAAATGTACGCGCCACCGTACCCGTCCTCCGGCGTGGGCTCGCCCTTGGCCGCGGCGACGAGCGAACGGGCAAAGCGGTCGATCTGGCCACCGTGGTCGTTGAAGTAGTACTCGCGGGTGACGTCTGCACCGGCGGCCTCGAGAACGCGGCCGAGGGAGTCGCCCACCGCCGCCCAGCGGGTACCGCCCAGGTGGATCGGCCCGGTCGGGTTCGCGGAAACGAACTCCAGGTTGACTTTCTCGCCGGCGTAGATGTGGCAGCGGCCATAGTCCTGGCCCGCCTCCAAGATGTCGGCGACGAGCTTGCCCTGCGCGTCCGCCGCGAGGCGCAGGTTGATAAAACCGGGGCCTGCAACGTCGGCGCTGGCGATAGCCGGGTCGGTGGCGAGGGTGTCGACAAGCCAGCCCGCGAGCTCGCGGGGGTTGGTGCCGGCCCGTTTCGCCACCTGCAGGGCGATGTTAGTGGCGTAATCGCCGTGTTCGGGGTTGCGCGGACGCTCCACCGTCACGGTTTCGGGCACGACAGTCGCGTCGAGGTCGTGGTCGGTGAGAACGGTCGTGGTGGCCTGCCTGATGGCGGTCGCGAGGTCAGCTGGCGTCATGGGGAAACAGTCTAA	MRANQAGRGLGGVDEAVDHPAIVGGVVQGGADVVAHPAVDGNVAPRGGVRGVHIFDRARAVHGHCRRARDRAAGLDNHRRGGDPQLRGYLVDAGEQVAGDAGDVERLLVVHVGNAVTAAEIEVVQRDVVLPVDGRVQAQHALGGELEALCVEHLGADVAVQTRKREVGRSDGVDGRLVRGARGQRQAELLVLVAGGDELVRMRVHTGLDTHEDVLVFTEAPADVVKLGELLVRVDHDVADPGLGAEGEEGLRLVVTVDGDALGREVRGQRDAQLVFGGDVECQPLLVHPAGDHAGQKRLGGVVDVFRRAERGRHVAAARPEVVLVDDYDGRAVLLSDLGQRHPGDGDNAVFLPRHRARPHVGGKVVEIHLHPLRCADAEQVKGVGQDLACGHGQREARFVDRLGVLAGLGQDLAGVIELVERARQFLDVAGHAVRLAQLGRGFDDRGVLAESADQITFLLMRQKPQVRLGDAHARLRGATRDRAQPRVAVLNVVDGVVRGLPRPQVQIDIEGLVYRGAGQRIACTVDSDGVDEVFEGDDRAGALGHFHRLAVSYKVDHLADEHFHCVRVVAEGLRRRAQPGDVAVVVRAKHVNGQCVAAIELVGHVGNVAGDVGGVAVRLDHHAVLVVAEAGRAQPPRTVAFVQVAVVLERGHRLVHGARFEQRVFVEVHVELDAKIPQRALDVGKHHIHARRAEGFLDLGVRALQRAFVLVNDPSSDLGNVRATVPVLRRGLALGRGDERTGKAVDLATVVVEVVLAGDVCTGGLENAAEGVAHRRPAGTAQVDRPGRVRGNELQVDFLAGVDVAAAIVLARLQDVGDELALRVRREAQVDKTGACNVGAGDSRVGGEGVDKPARELAGVGAGPFRHLQGDVSGVIAVFGVARTLHRHGFGHDSRVEVVVGENGRGGLPDGGREVSWRHGETV				NA	NA	NA	NA	NA
AK009_09383	144			hypothetical protein	GTGGCCGGCGCGCACCGCCACGACGGCCGGGCGGCCAAACGCGTTGTAGTTCGAGCTCATGGAATAGCAGTAGGCGCCGGTCGCGGCCAGCGCGATCAGGTCGCCGGTGGCGATGTCCTCGGGCCACATTGCGTCGTTAATTAA	MAGAHRHDGRAAKRVVVRAHGIAVGAGRGQRDQVAGGDVLGPHCVVN				NA	NA	NA	NA	NA
AK009_09384	2043			hypothetical protein	ATGCGTCACGTGGCTCGGCAGCACCTGGCGCACCGCGTCGGTGGAGGCGTGGAAGTCCGGCACGAAGGCAGTCGCGCGTATCGACGGATGCACCCCCACGCCCACCGCGCGGTAGGTCGTGTCGGTCACCCCGTCGACGGGAACGTCGGTCCACGACACCACGGCGCCGCCGAGAACCGAGGCGGCGGCGTTGTCGGGGTGGCCCTCGAACGCCGAGGACAGCTGCACTACCGCCGCGCTGTCGAGCGGGTCTTCGGCCAGGGCGTTGGCGGCAACGACGCCGGCGACGGCGGCCGATGCGGACGAGCCCAGCCCGCGCGACTGCGGGATCTCGTTGTGGCACACCACGCGCAGGCCCGGCGCCTCGACGCCGGCTGCCTCGAACCCGGAGTTAATGGCCTTGACCACCAAGTGGGAGGAGTCGCGCGGCAGATCGTCGGCGCCCTCGCCGAAGATCTCGATCGCGAGCCCGGAGGCGATGGTTTCCACCTCGACGGTGTCGTAGATGCCCAAAGCGATGCCGAGCGTGTCAAAGCCCGGCCCCAGGTTTGCGGAGGATCCGGGCACGGTGACGGTGACCTTGAGGCCGACGGGAAGAGCGGTGGGCATGGGGACTTTCTTGGGTTAGGCGTCGAGGCGGATGACGGAGTTGATGGCTTGGACGTCGGCGTGGTTGGTCAGGGCGTCGACAATCTCGCTCAGCGTGCGCTCCTGCGCGGCGTGGGTGACCACGATCAGGTGCGCGCCGTCGTCGGATTCCTCCTGGCGCACGGCGGAGAGCGAGATCCCAGCCTGGGAGAACATGCGCGCGAGGTCGGCAAGCACGCCGACGCGGTCGTTGACGGTCATGTTGATGTGGTAGCGCGAGTGCACCTCGCCGAAGCCGACGACCTCGTAGTTGGCGTAGGGGTTCTCGGCGGGGGCGCGTCCGCCGTGGACCTTGTTGCGCGCGGCGCCGACCAGGTCGCCGAGCACGGCGGAGGCGGTCGGCGCGCCGCCGGCGCCGTTGCCGTAGAACATCAGCCGGCCCGCGGCCTCCGCCTCGACGAAGATCGCGTTGTAGGACTTATCGACGCTCGCCAGCGGGTGGTCGTTGGCCACGAGCGTCGGATGGACGCGGGCGTTGACGCCGACGGTGTTGCCGGTGTCGTCAAGCAGGCGCTCGCAGATCGCGAGCAGCTTGATCGTCTCGTTCGACTGCTTGGCCGCCTCGATGTCGTCGGCGGTGATTTTCGTGATCCCCTCGCAGTAGACGTCGTCGTAGGTCACGCGGGTGTGGAAGCCCATCGATGCCAAGATCGCGGCTTTGGACGCGGCGTCGTGGCCTTCGACGTCAGCGGTGGGGTCGGCCTCCGCGTAGCCCAGGCGGGTTGCCTCGGCGAGCGCGTCCTCGTAGCTCATGCCGCTGGTGGCCATGGCGTCGAGGATGAAGTTGGTCGTGCCGTTGACAATGCCGGAGATGCGCTGGACCTGGTCGCCTGCGAGCGAGCGGCGCAGCATGCCGACGACGGGGATCGCGGCGGCGACGGCCGCCTCGTAGTAGAGGTCGACACCGGCGGCGTTGGCGGCGTCGGAAAGCTCGTCGGCGTGCGCCGCGACGAGCGCCTTGTTGGCGGTCACGACGGACTTGCCGTTCTTCAAAGCCTCGAGCACGAGCTCGCGCGGGTACTCGATGCCGCCAATGAGCTCGACGACGACGTCGACATCGTCGCGGTCGATCAGCTCGCGGGCGTTGTCGGTGAGGTAAATCCCGTCGACCTCGGGGGCGTCCTTGTGTTTATCCAGGTTGGATACCGCGACGCCGCGCACCTCAATCGGGCCGCCGATGCGGTGCTCAAGGTTGTCGGAGAATTCGGCGAGGAGTCGGAGCACCTCGGTGCCGACGGTGCCCTTGCCCAAGATGGCGACACCGACCGGCTCGCCGATGCCCTTGCCTGGGTAGTTTCCGTTGCGGCTCTCAGCGCTCGATACAGTCATAGTCCTTCGAAAATCCTTCGTCGTGTAGCAATGGTCTGCGGCCCAAGTGTACCGCTTTGTCTATAA	MRHVARQHLAHRVGGGVEVRHEGSRAYRRMHPHAHRAVGRVGHPVDGNVGPRHHGAAENRGGGVVGVALERRGQLHYRRAVERVFGQGVGGNDAGDGGRCGRAQPARLRDLVVAHHAQARRLDAGCLEPGVNGLDHQVGGVARQIVGALAEDLDREPGGDGFHLDGVVDAQSDAERVKARPQVCGGSGHGDGDLEADGKSGGHGDFLGLGVEADDGVDGLDVGVVGQGVDNLAQRALLRGVGDHDQVRAVVGFLLAHGGERDPSLGEHAREVGKHADAVVDGHVDVVARVHLAEADDLVVGVGVLGGGASAVDLVARGADQVAEHGGGGRRAAGAVAVEHQPARGLRLDEDRVVGLIDARQRVVVGHERRMDAGVDADGVAGVVKQALADREQLDRLVRLLGRLDVVGGDFRDPLAVDVVVGHAGVEAHRCQDRGFGRGVVAFDVSGGVGLRVAQAGCLGERVLVAHAAGGHGVEDEVGRAVDNAGDALDLVACERAAQHADDGDRGGDGRLVVEVDTGGVGGVGKLVGVRRDERLVGGHDGLAVLQSLEHELARVLDAANELDDDVDIVAVDQLAGVVGEVNPVDLGGVLVFIQVGYRDAAHLNRAADAVLKVVGEFGEESEHLGADGALAQDGDTDRLADALAWVVSVAALSARYSHSPSKILRRVAMVCGPSVPLCL				NA	NA	NA	NA	NA
AK009_09385	336			hypothetical protein	TTGTCTGCGTCCGGGTTTACGGCGAAGGGGGAAACGCTACACCCGGCTCAGCGTGGCGCTTGCCGGCCCAGCGATCTCCAGGTCGACAACACGCAGACCGGCCTCGCGCGCGCCGTCAAGGATCTTCTCCGGGATTGGCTCTGTGCTCAGCACCATCGCCGTGGGCCCCGCCCCCGACAGGTAGGCGGCGAAACCGCGGTTGCGCAGGTGGTTGACCCATTCCGCGGTGACCGGCAGCACGTCGGCGCGGTACGGCTGGTGCAGGCGGTCGCGCGTTCCCTCCCACAGAAGTTCGGGGTGGTGCTGGATCGCCACCGTCATCACGGCGGTGCGTGA	MSASGFTAKGETLHPAQRGACRPSDLQVDNTQTGLARAVKDLLRDWLCAQHHRRGPRPRQVGGETAVAQVVDPFRGDRQHVGAVRLVQAVARSLPQKFGVVLDRHRHHGGA				NA	NA	NA	NA	NA
AK009_09386	180			hypothetical protein	ATGTTGACCCACCCGGGTTTAGGCATCCGGGTTTCGGTTTCCCGGCCCGGGCAGCGCGATGATGTCGAAGCGGTCGTTCGCCAAGTGCTTGCGCAGGTCCTTCTTGTCAAACTTGCCGACCGACGTCTTGTCAATGGAGGACACGAACGTCCAGTATTCCGGGGCCATCCACCTCGGTAA	MLTHPGLGIRVSVSRPGQRDDVEAVVRQVLAQVLLVKLADRRLVNGGHERPVFRGHPPR				NA	NA	NA	NA	NA
AK009_09387	327			hypothetical protein	GTGGCTGCGCACCGGCGACGTGGGCACGGTCACCAGCGACGGCTTTATGACGCTCTACGACCGCGCCCGCGACGTCATCCGCTCCGGCGGCGAGTGGATTTATTCGGCGCAGGTGGAAAACCTGATCATGGAGGCCGACGAGGTCATCGAGTGCGCCGTGATTGGCTACCCGGACCCGCAGTGGGGCGAGCGGCCCCTGGCGATCACGGTGCTCGTTTCCGACGCCGCGCCCACCGCCGAGACCGCGGCGCGGCTGCGCAAGCAGCTGTCGAAGCTCTTACCGAGGTGGATGGCCCCGGAATACTGGACGTTCGTGTCCTCCATTGA	MAAHRRRGHGHQRRLYDALRPRPRRHPLRRRVDLFGAGGKPDHGGRRGHRVRRDWLPGPAVGRAAPGDHGARFRRRAHRRDRGAAAQAAVEALTEVDGPGILDVRVLH				NA	NA	NA	NA	NA
AK009_09388	282			hypothetical protein	TTGGGAGCGGTCCGTCGACGACATCACCTTGCCGTCGTTAACCACCCGGTATTTCAGCCACGGGGCGAAGCGGCCCTGGGAGACGCGGAAGGCGTAGCGGGCCTCACCGGACACGCCCGACGGCGGGCGCGCCACCGTGCCCACCGTGGAGGTCTCCGTCATACCCCAGACGTGGATGACGTCGACGCCGTAGCGCTCCTCCCACACCTTGATCAGCGCCGGCGGCGCGGGGGAGCCGCCCACGAAGATCTCGGTCAGGCTCATGCGCTCCGGTGGGTTTGA	MGAVRRRHHLAVVNHPVFQPRGEAALGDAEGVAGLTGHARRRARHRAHRGGLRHTPDVDDVDAVALLPHLDQRRRRGGAAHEDLGQAHALRWV				NA	NA	NA	NA	NA
AK009_09389	378			hypothetical protein	GTGGATGATCAGTTGGATCCACAGGGTGGGCACGCCGTGCGCGACGCGCGGGTGCGTCGCAGCGATCAGAGCCGCGAGCGTTGGGGCAGAGACGTCCGAATCGGGCAGCACCAGCGGGGTGCCCACGAGGAAGGCGGCAAACGGAACGCCCCAGCTCATCACGTGGTAGATGGGGATGCCGCACAAAAACGTCTCGCCGTGGGTGATCGCCATCGAATCGGTGGCGCGCAGCCCCATTGCCTCCAGCCAGATGGAGCGGTGGGAATAGGCCACGCCCTTGGGAGCGCCCGTCGTCGCGGTGGAGTAGACCAGCGCTGCGGCGGTGTTTTCTGGCAGCTCGGGCCAGTCGTAGACGGTAGAGCGGCCGTCGAGAAGTGA	MDDQLDPQGGHAVRDARVRRSDQSRERWGRDVRIGQHQRGAHEEGGKRNAPAHHVVDGDAAQKRLAVGDRHRIGGAQPHCLQPDGAVGIGHALGSARRRGGVDQRCGGVFWQLGPVVDGRAAVEK				NA	NA	NA	NA	NA
AK009_09390	258			hypothetical protein	GTGGTTGATCACGTACGCGATTTGGTCCTCAACAAGCTGGATATTCACCGGGGTGAACACGGCGCCTTTCGACGCCACCGCGAACATCACCTCAAGGTGCTCAGCGCAGTTGTACAGCAACGTGGCCACGCGTTCGTCGCCTGTGATCCCGAGGTCGTCGTGAAGCGCGTGCGCGAAAGCCGCGGCGCGGGCGCCGATCGCCGCGAACGAGGATTCCTCTGCCTCCCCGGAACGCCACGTGGTAACGCGGGTGGTTGA	MVDHVRDLVLNKLDIHRGEHGAFRRHREHHLKVLSAVVQQRGHAFVACDPEVVVKRVRESRGAGADRRERGFLCLPGTPRGNAGG				NA	NA	NA	NA	NA
AK009_09391	1143			hypothetical protein	GTGGAACTCCTTGCGCTGCTTCGCGTTCTCCGGGCTCATGGCGTTGACGGAATCGACGCGCACAAGCTGGTTGTAGCGCTGGCGGTTGCGTCCGTTGCCGTGGGAGTGGCTCTGGCCGTTGGCACGGACCTGGCCAATCACCGCGTCACCGGAGCGCAGGCCGTTCTGGCGCACCAGCTTGTTGTGGATGAACACGTCCGCCTGGCTGGCGCGGTAACCGGTGGTGCGAACAAAGGCGGTGTTATTGTCCACGACGTCGACGATGCCGGCAACTTCCTGCAGGTCCTCAGGGTTGAAGTCCTGGTTGTTGTTGCGGTTGTTATCCCGGTTGTCCCTGTTGTCGTCGCGGCCGTTACGGTTGCGGTTGCGACGGTTGCGGCGACCACGGCGGTTGCCGTCGTCGTTGGACTGGTTGTCCCGGTTGCGGTCGTCGTTGCCGTGGTTGCGGTTGTTGTTGCGGCTATCGCGGCTGTCGCGGTTGTCGCCGCGATCATCCCGGTTGTCCCCGTCGTGGTTGCGGTGGTTGTCGCGGTTATCGTCCTGCGCGTTGTTGCCGTCTTCGTTGTCGTGGGAGCCCTCGTTCGACCCCTCGCCACCGCTGTTACGGGCGCGGTTGCGACGTGCCCGGCGCGCCGCAGATCGCGACTCGTAGCGCTGCTCGTCCTGCGAGGAGTTGTCCTGCGAGGAGTTGTCCTGTCCGCGGCGCTCGTCCTCGGAACCGGAGTTGTCGGCGTTGTTAGCGCCCGAGTTGTCAGCGCCTGCGTTATCGGCCTCGGCTGCACCGCCGGTCCGTCGTGTCGCGCGGCGGCGGGGGGCGGCAGCCTCGGCCGCCTCCTCCGGCGCCGCAGCTACAGCCCGCTTCGGCACCTCACCGGTGGTGATAGCCCGGATCAGGTCGCCTTTGCGCAAAGCGGAAATGCCTTTCAGACCCTTCTCTGCGGCCAGCTTGCGCAGCTCAGGGAGCTTCATTGTCGCCAGGTCTTGGTGGTCATTGCCTTGCGTAGCGCCGTGTGCAGCATTGCCCGTGTCGGTCACGAATGTCCTTTCGTCGCTTCGTGCACGGCAGCAGCGCCCGTAGAAGAGCCACCGTGCCGGGCCTGCGCACAATCTGCGCGGGCTGTGAAGCTTTCGTGTGCAGTTTGA	MELLALLRVLRAHGVDGIDAHKLVVALAVASVAVGVALAVGTDLANHRVTGAQAVLAHQLVVDEHVRLAGAVTGGANKGGVIVHDVDDAGNFLQVLRVEVLVVVAVVIPVVPVVVAAVTVAVATVAATTAVAVVVGLVVPVAVVVAVVAVVVAAIAAVAVVAAIIPVVPVVVAVVVAVIVLRVVAVFVVVGALVRPLATAVTGAVATCPARRRSRLVALLVLRGVVLRGVVLSAALVLGTGVVGVVSARVVSACVIGLGCTAGPSCRAAAGGGSLGRLLRRRSYSPLRHLTGGDSPDQVAFAQSGNAFQTLLCGQLAQLRELHCRQVLVVIALRSAVCSIARVGHECPFVASCTAAAPVEEPPCRACAQSARAVKLSCAV				NA	NA	NA	NA	NA
AK009_09392	435			hypothetical protein	GTGCATGATGCGCGCCTCCTCCGGTGCCAGCAGGAGCTCGTCCTTGCGGGTGCCGGAAGGGTTGACGTCCACAGCCGGGAAGACGCGGCGCTCTGCGATCTTGCGATCGAGCTTGAGCTCGGCATTGCCCGTGCCCTTGAACTCCTCAAAGATCACGGTGTCGCCGGCGGAACCCGTCTCCACCATCGCCGTGGCGATGATCGTCAGCGAGCCGCCCTCCTCGATATTGCGCGCGGCACCCAGGAAACGCTTCGGCGGGTACAGCGCATTGGAGTCGACACCACCGGACAGGATGCGGCCCGACGCCGGCGAGGAGTTGTTGTACGCGCGGCCGAGGCGGGTGATCGAGTCGAGCAGGACGACGACGTCTTGGCCCATCTCCACCAGGCGCTTGGCGCGCTCGATGGCCAGCTCAGCGACGGCGGTGTGCTCTGA	MHDARLLRCQQELVLAGAGRVDVHSREDAALCDLAIELELGIARALELLKDHGVAGGTRLHHRRGDDRQRAALLDIARGTQETLRRVQRIGVDTTGQDAARRRRGVVVRAAEAGDRVEQDDDVLAHLHQALGALDGQLSDGGVL				NA	NA	NA	NA	NA
AK009_09393	1074	prfA_2	COG0216	Peptide chain release factor 1	ATGGCGGGCGAAGTTTCCATTGTCGACGATTACGTCTCCGAGTACGAGGGCATCCAAGCCCAGATGGGCGACCCGGATGTCGCGGGCGACCAGGAGCAGTTCCGCAAGCTGTCGAAGCGCTACGCGGAGCTGCAGCCGATCATCAACGTTTACAACGAGCTGAGCGAGGCGCGGGAGAACTTCGAGGCCGCCAGCGAGATGGCGAGCGAGGACAAGGAGTTCGCCGAGGAGGCGGAGCGCCTTGAGGGCGACATTGCGCGCCTCGAGGAGGAGCTCGCTGACCTTCTCGCGCCGCGCGATGAGCACGACGGGGACGACATCATCATGGAGATCAAGGCCGGCGCGGGCGGCGAAGAGGCCGCCCTGTTCGCCGGTGATCTGGCCCGCATGTACCAGAAGTACTGCGAGAAGCACGGCCTGACCTGGGAGGTCCTGGACCTCGCCGAGTCGGACCTGGGTGGCGCCAAGGACATGACCGTGGCCGTCAAGTCCAAGACGCCGTCGCGCGATGGAGCGTGGTCGAAGCTGAAGTTCGAGGGCGGCGTGCACCGCGTGCAGCGCATCCCAGTGACCGAGTCCCAGGGCCGCATCCAGACCTCGGCTGCCGGCGTCTACGTCTTCCCCGAGGCGGAGGAAGTGGCCTCTGTCGACATCGACGAGAAGGATTTGCGTGTCGACGTCTACCGTTCCTCCGGCAAGGGCGGCCAGGGTGTCAACACCACCGACTCGGCCGTGCGCATCACGCACCTGCCGACGAATATCGTGGTGACCTGCCAGAACGAGCGCTCGCAGATTCAGAACCGCGCCCGTGCGATGCAGGTTCTGCAGGCCCGTCTCGACCAGCTCGAGCGCGAGAAGGCGGACGCGGAGGCGGCCGAAGGGCGCGCCAGCCAGGTGCGCACGATGGACCGCTCCGAGCGCATCCGCACTTACAACTGGCCGGAGAACCGCATCTCGGATCACCGCATCAACTACAAGGCCAACAACCTCGACTCCGTGCTCGACGGCAACATGGACGAGCTCATCGCCGCGCTGCAGAAGCACGAGCGCCAGGAGCGCCTTGAGGCAGAGTAA	MAGEVSIVDDYVSEYEGIQAQMGDPDVAGDQEQFRKLSKRYAELQPIINVYNELSEARENFEAASEMASEDKEFAEEAERLEGDIARLEEELADLLAPRDEHDGDDIIMEIKAGAGGEEAALFAGDLARMYQKYCEKHGLTWEVLDLAESDLGGAKDMTVAVKSKTPSRDGAWSKLKFEGGVHRVQRIPVTESQGRIQTSAAGVYVFPEAEEVASVDIDEKDLRVDVYRSSGKGGQGVNTTDSAVRITHLPTNIVVTCQNERSQIQNRARAMQVLQARLDQLEREKADAEAAEGRASQVRTMDRSERIRTYNWPENRISDHRINYKANNLDSVLDGNMDELIAALQKHERQERLEAE				NA	NA	NA	NA	NA
AK009_09394	255			hypothetical protein	GTGCTGCAGCGGCTCGCGCGCGGCCCGGCGCCTAATTGCCTCGGCGAATCTCACCTGAAAGTTGGGCGTCGGCTCGGTGGAGTTCACGGCGAGCGGGGCGACGTCGAGAAGCCATGCGGCGAGCAGGCGCGCGTCGACCTCGGGCGTGTCAACCCCCGCGGCGCGCAGCATGTGCGCACCTCGGGCAACGAGCTCGCGCGTCTTACTCTGCCTCAAGGCGCTCCTGGCGCTCGTGCTTCTGCAGCGCGGCGATGA	MLQRLARGPAPNCLGESHLKVGRRLGGVHGERGDVEKPCGEQARVDLGRVNPRGAQHVRTSGNELARLTLPQGAPGARASAARR				NA	NA	NA	NA	NA
AK009_09395	1185	aspS_2	COG0173	Aspartate--tRNA(Asp/Asn) ligase	ATGGAGCGCTACTTCCAGATCGCGCGATGCTACCGCGACGAGGACTTCCGCGCCGACCGCCAGCCGGAGTTCACGCAGCTCGACATCGAGGCGAGCTTCGTCGACCAGGAGGACATCATCGAGCTGGCCGAGGAAATCCTCGTCGAGCTGTGGAAGCTTATCGGCGTGGACATCTCCACCCCGATCCCGCGCATGACGTACGCCGAGGCCATGGAGAAGTACGGCTCGGACAAACCCGACCTGCGCTTCGGCATTGAGCTGGTGGACTGCACCGAGTTCTTCAAGGACACCCCCTTCCGCGTGTTCCAAAACGAGTACGTCGGCGCTGTCGTCATGGAAGGCGGGGCCTCCCAGCCGCGCCGCCAACTCGATGCGTGGCAGGAGTGGGCGAAACAGCGTGGCGCCAAGGGCCTGGCGTACATCCTGGTCCAGGAGGACGGCGAGCTGTCCGGACCGGTGGCCAAGAACATCACCGACGCGGAAAAGGCGTCCATCGCGCAACACGTCGGTGCGAAGCCGGGGGACTGCATCTTCTTCGCCGCGGGCGACACCAAGAGCTCCCGCGCGCTGCTCGGCGCAGCCCGTGGCGAAATCGCACGCAAGCTCGATCTGATCAAGGAGGGCGACTGGGCGTTTACGTGGGTCGTCGACGCGCCGATGTTCGAGCCCTCCGCAGACGCCACCGCGTCGGGCGACGTCGCGCTGGGCCACTCCAAGTGGACCGCTGTGCACCACGCGTTTACCTCCCCGAAGCCGGAGTACCTTCACTCCTTCGACTCCGAGCCCTCAGAGGCGCTGGCGTACGCCTACGACATCGTCTGCAACGGCAACGAGATCGGAGGCGGCTCGATCCGTATCCACCAGCGCGACGTCCAGGAGCGCGTGTTCAAGGTCATGGGGATCACGGAGGAAGAGGCCCAGGAGAAGTTCGGCTTCCTACTCGAGGCCTTCGCCTTCGGTGCCCCGCCGCACGGCGGCATCGCGTTTGGCTGGGACCGCATTGTTTCGCTGCTCGGAGGGTTCGACTCCATCCGCGACGTCATCGCCTTCCCGAAGTCCGGCGGCGGCGTGGACCCGCTGACCGATGCGCCCGCGCCGATTCCGACGGCACAGCGCAAGGAAACCGGTGTCGATTTCAAACCGAAGAAGGTTGACGCCCCGGCTGATTCGGGCGCCCCCAACTAA	MERYFQIARCYRDEDFRADRQPEFTQLDIEASFVDQEDIIELAEEILVELWKLIGVDISTPIPRMTYAEAMEKYGSDKPDLRFGIELVDCTEFFKDTPFRVFQNEYVGAVVMEGGASQPRRQLDAWQEWAKQRGAKGLAYILVQEDGELSGPVAKNITDAEKASIAQHVGAKPGDCIFFAAGDTKSSRALLGAARGEIARKLDLIKEGDWAFTWVVDAPMFEPSADATASGDVALGHSKWTAVHHAFTSPKPEYLHSFDSEPSEALAYAYDIVCNGNEIGGGSIRIHQRDVQERVFKVMGITEEEAQEKFGFLLEAFAFGAPPHGGIAFGWDRIVSLLGGFDSIRDVIAFPKSGGGVDPLTDAPAPIPTAQRKETGVDFKPKKVDAPADSGAPN				NA	NA	NA	NA	NA
AK009_09396	969			hypothetical protein	TTGCCCGCCGCGCGGGCGGCCAGATCGTTGCCGAACAGTCCCTCCTCCATGGCCGGCCGCCTAACTCAGCCTGCGCGCCACCGCGTGCGCGAACTCGGAGATTTCCTTGTACGCGGGGTCGTCACCAGCGCCGGAGTAGCGCGCGAGTGCTTCGAACGTCTCGTACAGATCGCGGCGCACGAGCTTCTCGTCGGCTGTAAACGGCCCCTGGTGCGAGGGCCGCAACAAATCGCCGCTGACCTCGAACTCTTCCAGATGCACGCCCGCACCGACATCGACTCCCGCAGCCTGGAAATCAGCGGTGATTGTCTCGTCCTGCTCCCACACCTCGCTGTGGGCGTTGACGTTGAGCACGGAAACGCTGGACAGCGCCCAGGCGATAAGCGCGGCGGTGATCCGTGCATGCAGGGTCTCCGGTCGCTCCACTTCCGGCCACAGCCCGCTGACCTCGCGCACCCAGGCCTCGGTGAACACGTGGGCTTCCTCGTCGGTAATCGGGTCGGTGGAGATGTAGTTGGGAAAGCCCGCGATCACCGATGCGAGGTCGAAGGTGACGTCGCGAAATCCCGCCCACTCGTAGTCGAGGAATTGGATCGTCCCGGCGTAGATCACGTTGTCGGGCGCGAGGTCGAAGGGTGTGAACGCGCGGTTTCCGCCCTTGAGCAGGCGGTAGCTACCGTGTTCGGCGACGGTTTTGACCTCGTCGGGCACCTCGATGCCGGCCTGCTCCATCATTTCCAGCCCGAGCCGGATGCGGTGGAAAAGCAACCGGTCGCGAAGGTTTTGTACTCCCTCGGCACCGCTGTGGGCGCGGGTCAGGCGGCTAAAGAGCACGTTGAACGCGTCTTCCTTGTCGGCTGTGCCGGCGTGCATCCTGCCCAGTGCCGAGCCGAAGGAACGCAGCACGTTGACCCGCTCTTCAGCGGTGGACTCCGCGAGCAGGCTGTCCAGGGTGTCGCCGTCGCCTGA	MPAARAARSLPNSPSSMAGRLTQPARHRVRELGDFLVRGVVTSAGVARECFERLVQIAAHELLVGCKRPLVRGPQQIAADLELFQMHARTDIDSRSLEISGDCLVLLPHLAVGVDVEHGNAGQRPGDKRGGDPCMQGLRSLHFRPQPADLAHPGLGEHVGFLVGNRVGGDVVGKARDHRCEVEGDVAKSRPLVVEELDRPGVDHVVGREVEGCERAVSALEQAVATVFGDGFDLVGHLDAGLLHHFQPEPDAVEKQPVAKVLYSLGTAVGAGQAAKEHVERVFLVGCAGVHPAQCRAEGTQHVDPLFSGGLREQAVQGVAVA				NA	NA	NA	NA	NA
AK009_09397	1029			hypothetical protein	ATGGCCAGCCGGGTCGTAGTAGACGGCGTCGTCGAGACCCTCCGGAATGTAGCGCTGCTGAACCACCCCACGCTCATCGTCGTGCGGGTAGACGTAGCCCACGGCGTTTCCCATCGCCTCCGCATTCTTGTAGTGCCCGTCACGCAGGTGCGCGGGGACCGGGCCAGCTTTGCCCTTAGCGACGTCCGCCTGAGCGCGGTTGATCGCTTCGTAGACGGCATTGCTCTTCGGCGCCGTGGCGAGGTGGATCGTCGCCTGGGCGAGGGCGAGCCGCCCTTCCGGCATCCCGATGAACTGCACGGCCTGGGCCGCGGCCGACGCCGTCTGCAGCGCGGTCGGATCCGCCATCCCGATGTCCTCCGAGGCGTGGATGACCAGGCGGCGCGCGATGAACCGGGGGTCCTCCCCCGCCTCGATCATGCGCGCCAGGTAGTGCAGAGCCGCATCGACGTCCGAGCCGCGGATCGACTTGATAAACGCGGAGATGACGTCGTAGTGCTGGTCCCCGTCGCGGTCGTAACGCACGATCGCGCGGTTGACGTTGTCGTGCACCACCTCGACGGTGATCGCGCCGCCATCGTCGATCGCTTCGGCGGCGGCTTCGAGGTAGGTCAGGGCGCGGCGCGCGTCACCGCCGGCGAGCAACACGAGCTGCTCGCGGGCGGCCGGCTCGAGCGTCTTGTCCCCGCCCACGCCGCGTTCGTCTTCCATCGCGCGGTCGAGCACGCGGCCGATGTCATCGGGCTCAAGCGAGCGCAGCTGCAGCAGCAGCGAGCGCGACAGCAGCGGCGCCACGACACTAAACGACGGGTTCTCCGTCGTCGCCGCGACCAGCAGCACGGTGCGGTTCTCCACCGCGGCGAGGAGTGCATCCTGCTGTGTTTTGGAAAACCGGTGCACCTCGTCGATAAACAACACAGTTTTCTCGCCGCGCGCTATGTCGCGGCGGGCCTGCGCGATGACCTCGCGGACCTCTTTGACCCCGGACGACAGCGCCGACAGACCCACGAAGTTCTGCCCCATCGTTGA	MASRVVVDGVVETLRNVALLNHPTLIVVRVDVAHGVSHRLRILVVPVTQVRGDRASFALSDVRLSAVDRFVDGIALRRRGEVDRRLGEGEPPFRHPDELHGLGRGRRRLQRGRIRHPDVLRGVDDQAARDEPGVLPRLDHARQVVQSRIDVRAADRLDKRGDDVVVLVPVAVVTHDRAVDVVVHHLDGDRAAIVDRFGGGFEVGQGAARVTAGEQHELLAGGRLERLVPAHAAFVFHRAVEHAADVIGLKRAQLQQQRARQQRRHDTKRRVLRRRRDQQHGAVLHRGEECILLCFGKPVHLVDKQHSFLAARYVAAGLRDDLADLFDPGRQRRQTHEVLPHR				NA	NA	NA	NA	NA
AK009_09398	2139			hypothetical protein	GTGCGTGCCGCCGCACAGCTCGATGGAGAACGGTCCGCCGATCTCCACGACGCGCACGACGTCACCGTAGTTCTCGCCGAACAGCGCCATCGCGCCCATCGCCTTCGCCTCCTCGAGCGAGGTCTCGATGGTGTTGACGGCGAAGTCGGCGTCGACGGCCTGGTTGGTGATCGTCGCGATCTCGCGCATCTGCTCGTCGCTGAGCTGCTCGGTGTAGTTAAAGTCAAAGCGCAGGTAGCCCGGCTTGTTCAGCGAGCCCGCCTGCACCGCGGTGGGGCCGAGCACCTGGCGCAGCGCAGCGTGGATGAGGTGGGTGGCGGTGTGCGCCTGACGCGCGCCGTGGCGCCACGCGCTGTCGACCTCGGTGGTCACGCCCTGGCCCAGGTCAAGCCCGCCGTTTTGCACGGTGGCTTTGTGGATCCACAGCTTCTTGCCCACCTTCTGCACGTCGGTGACGTTGAGCACGGTGTCGCCGACGACGATGCGGCCGCGGTCGCCCATCTGGCCGCCGGACTCGGCGTACATCGGGGTGACGTCGAGGATGACCTCGACCTCATCGCCCTGGGAGACCTCGGTGACCTTCTCGCCGTCGCGCACGAGGCCGATGACGGTGCCGTCGTGGGTCAGCTCGCTGAACCCGACGAACTCAGTCGGGCGGGTATCGACCCACTCGCGGTAGAGGGACTCGTCGACGTTGCCCTGCTTCTTCGCCTTGTTGTCAGCCTTGGCGCGCTGGCGCTGCAGCGCCATCTCCCGGTTGAACTCCTCCATGTCCACCTTGAGGCCGGACTCGCGGGCCATCTCCAGCGTCAGGTCGATGGGGAAACCGTAGGTGTCGTGCAGCTCGAAGGCTTGGGCTCCCGGCAGCGTGCCGGCCCCAGCAGCCTTCACCGATGCCGCGGCCTCCTCGAAGCGGTGCGTGCCGGACTCCAGCGTCTTCATAAACGCGCGCTCCTCGGCCACGGCGACGCGGACGATGCGCTCGCGGTTGTCGGCGATCTCGGGGAACGACGGGGTCATGGTGTCCATGATCGTGTTCATGAACGACTCCAGCACCGGCGCGGTGGCGCCGAGGAGGCGTGCCGAGCGCACGATGCGGCGCAGCAGGCGGCGCAGGATGTAGCCGCGGCCTTCGTTGGACGGCGTGACGCCGTCCAGGATGATCATCATCGCGGTGCGCGAGTGGTCGGCGATCACGCGGAAGCGGACGTCGTCACGCTGATTGCCCGCGTTGTAGCGCGCGCCGGTGAGCGAGATGGCGGCGTCGATCACTGGGCGCAGAAGGTCCGTCTCGTAGACGTTGTCCACGCCCTGCAGGATGCAGGCGACGCGCTCAACGCCCATGCCGGTGTCGATGTTCTTCTTCGGCAGCTCGCCGATGATCTCGAAACCCTTCTTGTCGCCCTCGCCGCGGATCGACTCCATGAACACGAGGTTCCAAATTTCGAGGTAGCGCGTGTCGTCGGCGATGGGGCCACCCTCTTTGCCGTGCTCGGGGCCGCGGTCGTAGTAGATCTCGGAGCACGGCCCGCAGGGCCCGGGCACGCCCATGGACCAGAAGTTGTCCTCCATGCCCATGCGCTGGATCCGCTCGGCGGGCACGCCGATAACGTTCTCCCAAATGTCGGCGGCTTCGTCGTCGTCAAGGTAGACGGTGACCCACAACCGCTGCGGGTCAAGCCCGTAGCCGCCCTCGGAGACCGGGTTGGTCAGAAGCGCCCAGGCGTGCTTGATCGCGCCTTCCTTGAAGTACTGGCCGAAGGAGAAGTTGCCCGCCATCTGGAAGAACGTATTGTGGCGGGTGGTGATGCCGACTTCTTCGATGTCGAGGGTGCGCACGCACTTCTGAATGGATGTCGCAGTGCCCGAGGCAAACGGCGGGGTCTGCTGGCCCAGGAAGTAGGGCTTAAACGGCACCATGCCCGCGTTGACGAACAGCAGCGTCGGGTCATCCAAGATCAGCGAGGCACTCGGCACCGGCTCGTGTCCGGCGTCGACGAAGTGCTGGGTGAAACGCTCTCGGATCTCATGGGTCTGCACGGGCGATATCCTTTAACAAGTGGAAGGGGAGTAAAACCGCAAACCACTTTACCCGCGCGGGTGCCCTCGCCGGCGATCGACCGCGTGGCGGGGCGCTAG	MRAAAQLDGERSADLHDAHDVTVVLAEQRHRAHRLRLLERGLDGVDGEVGVDGLVGDRRDLAHLLVAELLGVVKVKAQVARLVQRARLHRGGAEHLAQRSVDEVGGGVRLTRAVAPRAVDLGGHALAQVKPAVLHGGFVDPQLLAHLLHVGDVEHGVADDDAAAVAHLAAGLGVHRGDVEDDLDLIALGDLGDLLAVAHEADDGAVVGQLAEPDELSRAGIDPLAVEGLVDVALLLRLVVSLGALALQRHLPVELLHVHLEAGLAGHLQRQVDGETVGVVQLEGLGSRQRAGPSSLHRCRGLLEAVRAGLQRLHKRALLGHGDADDALAVVGDLGERRGHGVHDRVHERLQHRRGGAEEACRAHDAAQQAAQDVAAAFVGRRDAVQDDHHRGARVVGDHAEADVVTLIARVVARAGERDGGVDHWAQKVRLVDVVHALQDAGDALNAHAGVDVLLRQLADDLETLLVALAADRLHEHEVPNFEVARVVGDGATLFAVLGAAVVVDLGARPAGPGHAHGPEVVLHAHALDPLGGHADNVLPNVGGFVVVKVDGDPQPLRVKPVAALGDRVGQKRPGVLDRAFLEVLAEGEVARHLEERIVAGGDADFFDVEGAHALLNGCRSARGKRRGLLAQEVGLKRHHARVDEQQRRVIQDQRGTRHRLVSGVDEVLGETLSDLMGLHGRYPLTSGRGVKPQTTLPARVPSPAIDRVAGR				NA	NA	NA	NA	NA
AK009_09399	528			hypothetical protein	GTGATCCCTAACTGCGTTGAAGCCGGCCGAAAGCCCTTCCGGATTCGAGCCCGAGCCCTGCGCCAGATCCGGCTTGCCGCCGCCCTTGCCGTCAACGTAGCCGCCGATGAGCTTGACCAGGTCACCGGACTTGACACCCGCCTGGACCGCGGACTTCGTGGCCGCCACCGCAAACGGCACCTTGCCGTCGACGCTGGAGGCGAGCACGACCACACCCGGCTGGGTGCCGAGGCGCTCGCGCACGTCGGACGCCATGGTGCGCAGGTCGCCGGCGCCGAGGCCGTCGGGAAGCGTCACGGCGACAAGCGAGAACTCGCCGACGCGCTGCGCCTGCTCGACGTACTGCGCGGTCTGGCTGGAGAGCTGCTGGCGGCGCATTGCCTCGAGCTCCTTCTCCGCGGCGCGCAGGCGATCGGTGAGCTGCGCGATGCGGTCCGGCAGCTGCTCGGTCGGCGTTTTCAGCTCCGCTGCCAGACCCGATGCCAATGCGGCCTCGCGGGAGAAGTAGCGGAAGGACTCCAAGCCTGA	MIPNCVEAGRKPFRIRARALRQIRLAAALAVNVAADELDQVTGLDTRLDRGLRGRHRKRHLAVDAGGEHDHTRLGAEALAHVGRHGAQVAGAEAVGKRHGDKRELADALRLLDVLRGLAGELLAAHCLELLLRGAQAIGELRDAVRQLLGRRFQLRCQTRCQCGLAGEVAEGLQA				NA	NA	NA	NA	NA
AK009_09400	495		COG0816	Putative pre-16S rRNA nuclease	ATGAAGGTGCTCCCCGACACACCAGGGGCGGACGACCCGGGCAACGGCCGACGCATCGGTCTTGATGTCGGGACCGTTCGCATCGGTGTCGCCGTCTCCGACCGCGACGCACGCCTGGCCATGCCCGTTGAAACCGTGGACCGTGTGACTACTTTCGGAGATGACGACGGGGCGGACGTCGACCGCCTCGTTGAGCTGATTGGTTTTTACGGGGCCGTCGAGGTCGTCGTCGGTCTGCCCCGTGACCTCAAGGGCAACGGTTCGAAAAGCGTCAAGCACGCCGAAGACATTGCGGCGCGCCTTCGCGCACGTTGCGGCGTCCCGGTGAGGATGGGCGACGAGCGCCTCACCACCGTGGCCGCCACGCACGCGCTTCGCGCGTCCGGGGTGAGCGCGAAAGCGGGCCGCAAGGTGATCGACCAAGCTGCGGCGGTGGAGATCTTGCAATCGTGGCTCGATGGCCGACTAACTACTCTCAAGGAGACTCACCCATGA	MKVLPDTPGADDPGNGRRIGLDVGTVRIGVAVSDRDARLAMPVETVDRVTTFGDDDGADVDRLVELIGFYGAVEVVVGLPRDLKGNGSKSVKHAEDIAARLRARCGVPVRMGDERLTTVAATHALRASGVSAKAGRKVIDQAAAVEILQSWLDGRLTTLKETHP				NA	NA	NA	NA	NA
AK009_09401	921			hypothetical protein	GTGCTGCTCGAAGGTGTCGTTGAACACCGTCGTGCCGTCGGAGTCGATGGTGACGAAGAACAGCCAGTTGCCCTCGGCGGGGTTCTCCATTGCGGTGATTGCCTCGAGCGACGGCGAGGCGATCGGGGTCTCCGGCAGGCCGTCCATCGCGTAGGTGTTCCACGGGGTGACGCGCTGGCGCGCCGAATCGCCCGTGGCGACCTCGACCGTGGGCAGGTCGTAATTGACGGTGGAGTCGAACTCCAGGCGCATCGGCGCATTCAGGCGGTTGAGGATCACGCGCGCGACCTTGTCAAACTCGCCCGCGGGGGCCTCGCGCTCCACCAGCGACGCCGCGACCAGCAGCTCGTAGGGGGTGATGCCGACCGTCTCCGCGCGCGCGACGATGTTGGTGGAGTCGTACAGGTCCGCCGAGCGGGAAATCAGGTCGGTGAGGATCGTCTCGGCGTCCGCACCCGGGTCGATGATGTACTCGCCCGGGGCGATGAGGCCTTCGAGGCGCTTCGGGTCGCCGGCGCGCGCGGTGACCGTCTCAGCCGCCCAGTCGGGCACACCGAGGTCAGCGGGGTTCGTGTTCGCCGCGACCTGCTGGAGCTTCTCGACGGTCACACAGTCCTGCGTCGGCTGATCCCCGCAGGAGACCTGCTGGATCTGCGAGTAAATGCCCTGGCGGGTCTGCCCGCCGACGACGTTTACGTCCATCAGCGTGGCGCCCCCGTTGACCTGCAGCGGCGTAATCCGGTTCGCCGGGTCGAGCAGGGCAGCCACCGCGGCCTCCGCGCTCATGCCCGACTGCAGGCGGTAGAAGCCCGGCTGGATGTTGTGGGAATCCGGGTGCGCCATCGCGGCGGACTGGAAGGCGGAGTTCGACTTCACCACACCCTTTTCTTCCAGCTGGGGGCCCAGCGCGGAAACGCTTGA	MLLEGVVEHRRAVGVDGDEEQPVALGGVLHCGDCLERRRGDRGLRQAVHRVGVPRGDALARRIARGDLDRGQVVIDGGVELQAHRRIQAVEDHARDLVKLARGGLALHQRRRDQQLVGGDADRLRARDDVGGVVQVRRAGNQVGEDRLGVRTRVDDVLARGDEAFEALRVAGARGDRLSRPVGHTEVSGVRVRRDLLELLDGHTVLRRLIPAGDLLDLRVNALAGLPADDVYVHQRGAPVDLQRRNPVRRVEQGSHRGLRAHARLQAVEARLDVVGIRVRHRGGLEGGVRLHHTLFFQLGAQRGNA				NA	NA	NA	NA	NA
AK009_09402	342			hypothetical protein	GTGCTCCTTCAACGCGTGGGCGGGCACCGTGGACACAATCACGTCCGCATCGATCGCGAGTGCCCTAACATCCGCGTCAAAGGACGTGAACTGCAGCTGCGCGTCCTTGACCAGCGGGCGAACCTCTGCACTGCGGTCGCTGCGGTTGAGCACCGTGAGGTTGTTCACCCCACGCTCGCCAAGCGCCCACAGTGCCGGGCGCGCCGTGCCACCCGCGCCGATGACCAGGGCGGACGTGATAGGGGCGTCGCCAAGCAGGGCGGTAAGCGCCCCGGCGATGCCCTCGCAGTCGGTGTTGTCGGCGCGCCACCCGCCGTCGATACGCGTGAGCGTATTCGCTGA	MLLQRVGGHRGHNHVRIDRECPNIRVKGRELQLRVLDQRANLCTAVAAVEHREVVHPTLAKRPQCRARRATRADDQGGRDRGVAKQGGKRPGDALAVGVVGAPPAVDTRERIR				NA	NA	NA	NA	NA
AK009_09403	603			hypothetical protein	ATGATCCCTGGCCCACACCGCTTGCCACGGCCGCGGCGTCCAACGGGTACACGTCAGTGGGCGGGCTGGTCATGCTCGCCGAACAGTCGTTTAGCCAGTTTGAGCAGTTCACCGGGGTTGCCGCGCCGCGCGAGGCGATGCGCGAGGCGCTGTTGTACCCCAGGCGCTAGGCCGGGCCGTGGCGTAGACTCACACCTTATGTGGCTGTGGGGGGCTGCGGCGCTCGCGTGGAGCGCCGCATTGACGTATTTCGATCTAACCAGGCTGCGCCTGCCGGATTGGTTGACGCTGCCAGGGGCCGTCGTCACGTTCGTGGCGTGCGTGGCGCACCCGGTGGGGCTGTGGGGGTTTCTCTGGCCGTCTCTGTACCTGGTTGCCGGGTCCGGTATGGGCGGAGGGGACGTGAAGCTGGCAGTGCCGCTGGGCATCGCGTGCGCTCTGCTGGCGGGCGTCGGGGGTGTGTTCGCCGCGATCCTGGCGGCCAGCCTGTTCACGCTGGTCGCAGCCGCTGTGACGCGCAGGCGTGGGCTGGCGCACGGTCCGTCGATGCTCGCGGCGGCGTGGCTGGTTGGCCTATATGCGCTGGCGCAAGGCGACCTGTGA	MIPGPHRLPRPRRPTGTRQWAGWSCSPNSRLASLSSSPGLPRRARRCARRCCTPGARPGRGVDSHLMWLWGAAALAWSAALTYFDLTRLRLPDWLTLPGAVVTFVACVAHPVGLWGFLWPSLYLVAGSGMGGGDVKLAVPLGIACALLAGVGGVFAAILAASLFTLVAAAVTRRRGLAHGPSMLAAAWLVGLYALAQGDL				NA	NA	NA	NA	NA
AK009_09404	852			hypothetical protein	GTGCGAGCCCAGGCCGATGGGCAGGCCGTCGACGGCAACCTCGACGATGCCGCCGAGGGTATCGCCGTCCTTCTTCGCGGCTTCGATCCGCGCCACCATGTCCTCCTCAGCGGCCTTGTCGAATGCGCGAACGGGCGAAGCATCGACGGCCTCAATGTCGGCAGGCGTCGGCGCGTGTCCGCTGTACGGCGCCGACTCCCCGATGGAGATCACGTAGGAGACGATTTCCACGCCGAGGACCTCGCGCAGCAACGAGCGCGCGACGGCACCCGCGGCGACACGCGCCGCCGTCTCGCGCGCCGAGGAGCGCTCCAGGATCGGGCGCGCGTGCAGGTGCCCGTACTTGACCATGCCGGCAAAATCAGCGTGCCCGGGGCGCGGCCGGGTCAGCTGCGCGCCGCGGCCGGAGCTCATTGCCTTGGCCACCTCGGGGTCATCCATATCCACCGGCTCCGGGGACATGATCGTGGTCCACTTCGGCCACTCGGTGTTGGCGATCTGGATGGCGATCGGGCTGCCGATGCTATAGCCGTGCACCACGCCGGTGAGCAGGGTGAGCTCATCGGCCTCAAACTTCATGCGCGCCCCGCGGCCGTAGCCGAGGCGGCGGCGCGCGAGCTGGTGGCCGATCTCCTCCTTGGTCACGGGCACGCCAGCAGGCATGTTCTCGATCAGGGCGACAAGCGCCTGGCCATGGGATTCCCCAGCGGTGGTCCAACGAAGCATGCGCAACATTGTGTCACAGGTCGCCTTGCGCCAGCGCATATAGGCCAACCAGCCACGCCGCCGCGAGCATCGACGGACCGTGCGCCAGCCCACGCCTGCGCGTCACAGCGGCTGCGACCAGCGTGA	MRAQADGQAVDGNLDDAAEGIAVLLRGFDPRHHVLLSGLVECANGRSIDGLNVGRRRRVSAVRRRLPDGDHVGDDFHAEDLAQQRARDGTRGDTRRRLARRGALQDRARVQVPVLDHAGKISVPGARPGQLRAAAGAHCLGHLGVIHIHRLRGHDRGPLRPLGVGDLDGDRAADAIAVHHAGEQGELIGLKLHARPAAVAEAAARELVADLLLGHGHASRHVLDQGDKRLAMGFPSGGPTKHAQHCVTGRLAPAHIGQPATPPRASTDRAPAHACASQRLRPA				NA	NA	NA	NA	NA
AK009_09405	288			hypothetical protein	GTGGATGCCCGTCGCCGCCTCACCGGTGGCCATATCGACGGTGCGCAGAGCGCGCGGCACCGTGGAGATCGGCTTCATCGCGGCGCGCACCCGCAGCTGCTCGCCGTTGGTCATGCCCCCTTCGAGCCCGCCGGCGCGGTTTGTCAGGCGGCGGACGCCGTCGCTGTCGCGGACCATCTCGTCGTGGGCTGCGGAACCGCGGCGGCGCGCCTCCTCGAAACCGTCGCCGACCTCCACGCCCTTGACCGACTGGATGCCCATCAACGCCGCGGCGAGCTGCGCGTCTAG	MDARRRLTGGHIDGAQSARHRGDRLHRGAHPQLLAVGHAPFEPAGAVCQAADAVAVADHLVVGCGTAAARLLETVADLHALDRLDAHQRRGELRV				NA	NA	NA	NA	NA
AK009_09406	576			hypothetical protein	GTGGACGATGAGCACTTTGCGCGCGCCGATCGCACCCACGCGCTCGGCGACGCCGGAGAGGTTGCTGTGCCCGATGTGGACCTTGTACGGGGAAGGCCCGTTGACCTCGACTACTGCCATGTTCCTACTCCTTCACAGGGAATCGATGATTCCCAATACCTCGGCCACCACGCGCTGCGGCGGCCGCTCGTCGGTGCGCACGCGGTGGCTGGAGACCTCCCGGTACAGGTGCTCGCGCGACGCCAGCAAGTCCCGGTAGTGCTGCGCCGGGTCGGCCGCGTTGAGCACCGGGCGCGTCGTCTCGTTGGCGGTGCGGCGGATTCCTTCCTCCGCGCTGACATCAATCCACACCACGGTGTGTGCTTGGAGGAGCGTGCGGGTGGCGTCGTTAAGCACTGCTCCCCCGCCGAGGCTGACCACCCCGCCGGTCGCGAGCGCTGTGGCGACGTAACCGGCCTCGAGCTCGCGGAAGTTCTTCTCGCCGTGCTCGAGGTAGACCTCGCCGCAGGCCTTGCCCTCCCCCTGCTCGATCAGCTCATCGGAGTCCACCAGCGGCAAGTTCAGAGCGCTCGCTAG	MDDEHFARADRTHALGDAGEVAVPDVDLVRGRPVDLDYCHVPTPSQGIDDSQYLGHHALRRPLVGAHAVAGDLPVQVLARRQQVPVVLRRVGRVEHRARRLVGGAADSFLRADINPHHGVCLEERAGGVVKHCSPAEADHPAGRERCGDVTGLELAEVLLAVLEVDLAAGLALPLLDQLIGVHQRQVQSAR				NA	NA	NA	NA	NA
AK009_09407	468			hypothetical protein	GTGCATCTCCACGATGTCGTCGCCGATCAGCCCCCTGTTGCGCGCGAGGTGGGCGACGAACATCATTCCGACGGCCACGGCGTTGCCGTGGCGCCACGTGTAGTTTTCGCGCAGCTCAATCGCGTGGCCGAGGGTGTGGCCGTAATTGAGTATCTCGCGCAGGCCCGATTCCTTCAGGTCCTGGCTGACCACGGACGCCTTGACGGCCACCGAGCGCTCCACCAGCTCCGCGTAGTGGGCCTGGGGGTCGTCCATGTACAGCTCCAGGATCCGCGGATCCGCGATAAACCCGGTCTTAATCAGCTCCGCCGAGCCGGAGATGAGCTCCTCTTCCGGCAGCGTGATGAGCCGCTCAAGGTCGATAAACACCGAGTCCGGCTCGTGGAAGCTGCCCACGAGGTTCTTGCCCGCGGCGGTGTTGATCCCGGTCTTGCCCCCGACCGCGGCGTCAACCATCCCGAGCAGTGA	MHLHDVVADQPPVAREVGDEHHSDGHGVAVAPRVVFAQLNRVAEGVAVIEYLAQARFLQVLADHGRLDGHRALHQLRVVGLGVVHVQLQDPRIRDKPGLNQLRRAGDELLFRQRDEPLKVDKHRVRLVEAAHEVLARGGVDPGLAPDRGVNHPEQ				NA	NA	NA	NA	NA
AK009_09408	303			hypothetical protein	ATGGTTCCTCCTGACAAGGTAATCGAGCGCGAGATCGTAACCGGTCGTGCCCAACCCCGCGATCACCCCGATGGCGAGCGGCGAGAGGTACGAGTGGTGGCGGAACTCCTCGCGGGAGTGGACGTTCGAGATATGGACTTCGATGAAGCCCGCGCCGTCGGCGACCTCGGCCAGCGCGTCGCGAAGCGCAACCGAGGTGTGCGTCAAGCCCCCCGGGTTGATAATGACCGGCCAGCCGCCGTCAGCGGCCTCGTGCACCCAGTCGATGAGCGCACCCTCGTGGTTGCTCTGGCGGCACTCTAG	MVPPDKVIEREIVTGRAQPRDHPDGERREVRVVAELLAGVDVRDMDFDEARAVGDLGQRVAKRNRGVRQAPRVDNDRPAAVSGLVHPVDERTLVVALAAL				NA	NA	NA	NA	NA
AK009_09409	729			hypothetical protein	GTGGCCGGTGGAGTGGGTGAAGTAGTCGCCGTAACCCGCGTCCTCGATGATCTCGCGCGCCGCCTTGTCGACGTCGACAAGCGCCGTTCCCGGAGTCGCCGCATTGATGCCGGCGAGCTGGGCGCGCAGCACAATGTCGTAGATTTCGCGGGCGAAGTCTGTGGCGTGGCCGACGACGAAGGTGCGCGTCATGTCCGAGTTGAACCCTTGGCGGTGCATTCCGAAGTCGATGGTGACCAGGTCGCCGTCGACAAGCGTGCGCTCGCCGGCGCTGTAGTGCGGCATGGCGGAGTTCGGCCCGGAGGCGACAATCGTGTCGAAACTGGGCCGCTCGGCGCCGAGCAGGCGCATGCGGTACTCGAGGTCGGCGGCGATGTCGCGCTCGGTGCGACCGGCGGCGAGTTCACCGGACTCGACGAGACCCGTCAGCGCCTGAGCCGCGAGCTGCGCGGCCTCGGTCAGACCGCGCAACTCGACTCCGTCCTTGATCAGCCTGATCTGTTCGATCACCCCGCGCACGGGCACGAGTGTCACGCCCTCGGGGCACGCCTTGGTGAGACGATCGAGCATGGCGACGGAGACGTAGTCCGCCTCGAACCCCACGCGGCGGCCCTCCGGCACACCGGACAGCAGCGCCTCGGCGCAGTGGCGGGTGATCGTCGCCTCGATGTCCGGGACCTCGGCCGCGACCTGGGTGGCGTAGCGACCGTCGATGGAGATCTCAGCTGA	MAGGVGEVVAVTRVLDDLARRLVDVDKRRSRSRRIDAGELGAQHNVVDFAGEVCGVADDEGARHVRVEPLAVHSEVDGDQVAVDKRALAGAVVRHGGVRPGGDNRVETGPLGAEQAHAVLEVGGDVALGATGGEFTGLDETRQRLSRELRGLGQTAQLDSVLDQPDLFDHPAHGHECHALGARLGETIEHGDGDVVRLEPHAAALRHTGQQRLGAVAGDRRLDVRDLGRDLGGVATVDGDLS				NA	NA	NA	NA	NA
AK009_09410	234			hypothetical protein	GTGGTATGCAAACACGACAATGCTACACCACCGGCGGAGGACTTAAACAATGGTCAGCGCCTTGTCCCACTCGGTGATCACCTGCGGCGCGCCGGAGGTGATGATCAGCGTGTCCTCGATGCGCACCCCGCCCTTGCCGGGGACGTAGATGCCGGGCTCGATGGTCAGCAGCATGTTCTCCTCCAGCACGCCCTTGCCGGTCGGCGCGGCGGCGGGAGCCTCGTGGACCTCTAG	MVCKHDNATPPAEDLNNGQRLVPLGDHLRRAGGDDQRVLDAHPALAGDVDAGLDGQQHVLLQHALAGRRGGGSLVDL				NA	NA	NA	NA	NA
AK009_09411	423			hypothetical protein	GTGCTCGATCTTCAGGTCGACCGAGATCGGCAGCTCCGCGAACAGTGCCTCGCCCTCGTGGAAGGACACCTGCACGCGCATGTTCTCCAGCAGGAAGCGCGACGCCTCGCCGAACTTGTCCTCCGGCAGCTCGTACTGCTCGTAGGTCTTGTCGTCCATCACGACGTAGCTGGTGCCGTCGTTGTACAGGTACGTCATGTCGCGGCGGTCCACCGTCGCGGTCTCCACCTTCACGCCGGCGTTCCAGGTCTTGTCCACGGTCTTGCCGGAGACGACATCCTTGAGCTTGGTGCGCACGAATGCGGGGCCCTTGCCCGGCTTGACGTGCTGGAACTCAATGATCTGCTGCAGCTTGTTATCAACCTTGAGCACAAGACCGTTTTTGAAATCGGCGGTAGTTGCCACGTGACGTGCCTTTCCTAG	MLDLQVDRDRQLREQCLALVEGHLHAHVLQQEARRLAELVLRQLVLLVGLVVHHDVAGAVVVQVRHVAAVHRRGLHLHAGVPGLVHGLAGDDILELGAHECGALARLDVLELNDLLQLVINLEHKTVFEIGGSCHVTCLS				NA	NA	NA	NA	NA
AK009_09412	798			hypothetical protein	ATGGGTGTAATAGCTGATTTATCACATCATGAAATAGTAAATTGGAGTCGTGCAAGTAAACAATTAGATTTTACTATATTACGTGTGCAAGATGGAAGTAGGGTTATAGATCGTGAGTATCAAAAGAATGTAACGGGATGTAAAGCCTATGGTGTACCATTCGGTAACTATGCGTTTTGTCGTTTTGTATCTGAAAATGATGCTAGAGTGGAAGCGCGTGACTTCTGGGAACGTGGAGACAAGGATGCGACAATATGGTTTGCTGATATAGAAGTAACCACAATGGATGATATGAGAGCCGGAACACAAGCGTTCATAGACGAGTTGCGAAGACTAGGAGCGAAACGCGTCGGAATCTATGTAGCACATCATAAATACAAGGAATTCCAAGCCGATAAAATCAATGCGGATGCTGTATGGATACCGCGCTATCCTAACAAACCTCTATTCCCTTGTGACCTATGGCAATACAGCGAAACGGGGCGTGTGGACGGTATATCGGGTGACGTAGATTTAAACTATCTGACAGGTACAAAACCTCTTAAATGGTTTACAGGAAGCGTGAATACAAACTTCCAAATTCATATAGGAGACTTTGACGAATTGACTTGGGCGGGAGATTCTAAAAGGGAAGTGAAAGAGTTTCTAGAAGGGTATGGTGTTTGGGATATGCGACTAGAGAAAAACGCTTACCGATTGATTGTAGGAGATTTCTGTAATGAGGAATGGTGCGACGAAACGCTACAAAGATTAAAAGAAAGATTTCCGGGTTACGGAATGTGGAAGGTGAATATTTAG	MGVIADLSHHEIVNWSRASKQLDFTILRVQDGSRVIDREYQKNVTGCKAYGVPFGNYAFCRFVSENDARVEARDFWERGDKDATIWFADIEVTTMDDMRAGTQAFIDELRRLGAKRVGIYVAHHKYKEFQADKINADAVWIPRYPNKPLFPCDLWQYSETGRVDGISGDVDLNYLTGTKPLKWFTGSVNTNFQIHIGDFDELTWAGDSKREVKEFLEGYGVWDMRLEKNAYRLIVGDFCNEEWCDETLQRLKERFPGYGMWKVNI	PGPT0019115_1239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
AK009_09413	882			hypothetical protein	ATGGCTTTGATTAAACCGTTTCCAGTAATAGAAACAAAAACAAAGAGGTTACCCCAAACGAATGAACGACCTCTTTATTACAAGGTTGCTAGAATTCAATCAAGAAACCCGGTTGATAGCGCGGAAGGGTCTGTTCTACAAGGACAACTTTTCCCGCAAAGTAACTTTGGATTCACGGGTACAGCGCAACCGTTATACACCTTTTCATTCGGTGTTCGAAACGGTGGACCTGCTTCACTTCTCAAACCGTCCTTACTGAAAGTAGGAGATTCTCGTGAAGATAGTTACCGCTTTGAAGTATACAAAGACCCGGAAGGATTTCACATCCTATATCTTGTTCTATCTCCTTATTCAAGGGGTGGTGTAATCGTCTACCATTCGATTGAATGTAAAGAGTATTTTGAGGTAGACATGGAGTTTACCGAGCGTGGGTATACCCTTGTTTGGTCAAGTGTAACAGGTGATACACAAGGCGTATATGAAGGTGGGCGACGACTATTAACCGAGAACAAAGCCGAAGAACTCTATTTGAAAAAGAATACAATAGGGTTCCGACAAGTGACACTAGACCCCGCAACAGGTTTTTACCATCGTGGTGACGGGTTACTTTATACCAAGCGTGGGGACATTGTAACACTATTCGGTGACCTGCTACATGGTAACGGTGGGGCTTATAAAATCGTGGGACGTGTCCCGAAAGAGTTTGCCCCGTTATACGAAACACCTATACAAGCAATGTATTCAAAAGCTGATTCCACATACGGAAGTCAAACAATGATCGTCGACCAAGCCGGACAAATTATACAAATGGAAAATAGGGTAAATGGTGACCCGAACGCGACAAACACCAAAATCGGTGGCACATGGCAATGTGCATATTAA	MALIKPFPVIETKTKRLPQTNERPLYYKVARIQSRNPVDSAEGSVLQGQLFPQSNFGFTGTAQPLYTFSFGVRNGGPASLLKPSLLKVGDSREDSYRFEVYKDPEGFHILYLVLSPYSRGGVIVYHSIECKEYFEVDMEFTERGYTLVWSSVTGDTQGVYEGGRRLLTENKAEELYLKKNTIGFRQVTLDPATGFYHRGDGLLYTKRGDIVTLFGDLLHGNGGAYKIVGRVPKEFAPLYETPIQAMYSKADSTYGSQTMIVDQAGQIIQMENRVNGDPNATNTKIGGTWQCAY				NA	NA	NA	NA	NA
AK009_09414	915			hypothetical protein	ATGACGAAGGATAATACATGGCGTGAGGTCACACTCACATTACCGCCTAGAATGGCGTATACACACGTATTTGAAGATACAAAACCAAATCACTATGACATTAACAATCTATCTGTAGCGACGCTATACGCGGGCGTACGTGTCCTACCAAGTCCACACGAATATGAACTAATGGTTCCAAGTAACGGGCGTAACATCCTAGCAAGAAAAGAAGGGTCTTCCCAAATTGAAATTTACAATGATAGTGACGTCACGGCGCGTATCATTTTAACAACATTCAACGAACCATTTAACCCGGCTGTACTTGCTAATAGTGCAAGTAGTACAAGTGGCGGGGGTGGCGGTGGTGCTACAGATGGAAACGTCATTGTAAAAGGATTCTCAAGCGCGCTTCCTGCCGGAAATAACAATCTAGGAAAAGTAGTTGTGACGGAAATGCCTACCGTTCCAATTGAGTTTAAAACATTACCATCGGGTACAAATATGATTGGTAACGTAGGTGTCACGAAACTACCACCACTTGCTGAAGGTACAAGTCATATCGGAAGTGTAAACGTAGAAGGCGGGGTTTCTATTGCGAGTATGCCACCTGTACAGGTTACGAATGACCCTGTTCGAGCTTCTTGTATTGCGTGGGAAGGAACAATTAGTGTAAATCATGTTGTGTTCGATATGGGACAGCATGACGTACTTAAATTCAATTATATTTTGAATGAAGGGGATACAGATTTATTTATAAACTTTGATTCATATCAAGCGACTCCTAACGATCTAAAAGGAGCCGGATTAACGGGTAGAGCTGCTACTATCAGAATGCGACCAGGTGAATCTATTACAGACTTTACAAGAAAAACAAGCAAGGTCAATATGATTCGTACAAGCGGTTCTGGAACTGTCCGTATTTTGGGGGTGTAA	MTKDNTWREVTLTLPPRMAYTHVFEDTKPNHYDINNLSVATLYAGVRVLPSPHEYELMVPSNGRNILARKEGSSQIEIYNDSDVTARIILTTFNEPFNPAVLANSASSTSGGGGGGATDGNVIVKGFSSALPAGNNNLGKVVVTEMPTVPIEFKTLPSGTNMIGNVGVTKLPPLAEGTSHIGSVNVEGGVSIASMPPVQVTNDPVRASCIAWEGTISVNHVVFDMGQHDVLKFNYILNEGDTDLFINFDSYQATPNDLKGAGLTGRAATIRMRPGESITDFTRKTSKVNMIRTSGSGTVRILGV				NA	NA	NA	NA	NA
AK009_09415	513			hypothetical protein	ATGGCGGAACTACAGGGACTCAAACTAAACGACAAGTTGAAGCAAGTATATGACAAGGCGTTATCCCTTGGTTTGCGATTCACAAGCGGATACCGCCCCGGTTCTACCGGACCAAGTGGGAGACCGGATAGCCATTCCCAAGGCATGGCTATGGACTTCGCGGGTTCAAAAGATAAAATGGACGAATTTGCAAAATGGGCGAAAACGTCACCGCTATTTACGGAAGTGTTATGGCAAACGGCTGGGCACTACGATCATGTACACGTCGGGTGGCAAGAGGGAAAACACCAAGCCGGAAAGATGTACGTAGGCGATAAAACATTGATAGACAGGCCAACGGGTGACGGTGGCGGTGCGCTAAGTACGGGTACGGCTTCCCCAAATTCCGACAAAGGATTTATTACAAGTGCATTTATGGGAATCATACGCGCCGTTATGATCTTGGTGTTTTTAATTATAGCTGTATATTTCTTCTTCCAAGCCTTCCCAGATATGAAAGTAAAACTACTATAA	MAELQGLKLNDKLKQVYDKALSLGLRFTSGYRPGSTGPSGRPDSHSQGMAMDFAGSKDKMDEFAKWAKTSPLFTEVLWQTAGHYDHVHVGWQEGKHQAGKMYVGDKTLIDRPTGDGGGALSTGTASPNSDKGFITSAFMGIIRAVMILVFLIIAVYFFFQAFPDMKVKLL				NA	NA	NA	NA	NA
AK009_09416	753			hypothetical protein	ATGGCTTTAGATGTTAGACCATTCATAAACGACGCCCAACGAATCCAAAAAGAAACAGGAATCCCTGCTTCTATTATTCTAGGTCAAATGGTCTTTGAATCTAGTGGTAGCAACCCCGGTGGAATGTCCGGACTTGCCTATAACTCGAAAAATTTATTTGGTATCAAAGGTGTAGGACCTGCCGGGACAACGACTGTATGGTCAATGGAATACGACAAAGGTGGTGGACGTGTTTCCGGATTCCGGAAATACAATTCTTATTACGAATCCATGCTTGACCATGCACGACTCTTACAAACACCGCGCTATGCTTCCCAACTACAAAACGCGAAAACATTCGAGGATTTCGCGCGCGGGATTAAGGCGGGCGGATACGCAACTGACCCGAATTATGCGGGGCAACTGATTTCTATTATTAAACAAAATGGATTAGATAAGTACGACGACGGGACGCCATACACCGGAGAAGGAAGCGTTCCTGCTGGTGGAGGGAGTGATAAACGTGGAATATTCACAAGCGTCGCTAATGGTGTCATTCGTGCCTTGCTTATTCTATTGGCTTTTGTGGCTTGTGTTCTCTTTTTTGCCAAGGCATTCCCGCAAGTGGAAGCTACGGCAAAGAGTGGAGCAAAGAAAGTTACAAAGTCTTCCCCACGATCTAAGGGATATAAAAAAGTAAAACCGAAAGGCGGTGCTACGAATGGCGGAACTACAGGGACTCAAACTAAACGACAAGTTGAAGCAAGTATATGA	MALDVRPFINDAQRIQKETGIPASIILGQMVFESSGSNPGGMSGLAYNSKNLFGIKGVGPAGTTTVWSMEYDKGGGRVSGFRKYNSYYESMLDHARLLQTPRYASQLQNAKTFEDFARGIKAGGYATDPNYAGQLISIIKQNGLDKYDDGTPYTGEGSVPAGGGSDKRGIFTSVANGVIRALLILLAFVACVLFFAKAFPQVEATAKSGAKKVTKSSPRSKGYKKVKPKGGATNGGTTGTQTKRQVEASI				NA	NA	NA	NA	NA
AK009_09417	615			hypothetical protein	ATGCCAGAATTTGAAAGACTCGACCCTCCTGCAAGTGGTGGGAGTGGCGGAAAACATAAACCGAAGTTTGACAAAAAACAAAAGATGCTATTACTAGGGGGCGGAATTGCCGTCGTCCTAGTGGCTCTTTTTATGAACAAGGCGAAACATAGCGGTGGTTCTTCACAAGAAGCCGTAGAGGAAGAATTGAAGGATTACTATACAAACTATCCAACGCTCGGAAGTCAAAACAGTGTCGTGCAAGACGGGATGAACACACTAGTCGGAAGACAAGAGGAAATGTTAAACGCCATGTTGGAAGCACAAGGGAAGAAAGACCCGGCTGAACTAACAAAGATTTATGTCACGTTCGACAGTAGTGAGGACGCCTTAAAACGTCAACAATATTTAATTAATGCCGGAGCAAGTACGACGTATGTCAGAAAACAATTTATTGAAAATGGATGGGCGGGCGCAAAGGATTACTACGTTGTAGAAGCATACGGGAAAGACCGTCAAGAAATGGCTGACCTTGTGAAAAAAGGTGTCCAAGACAAACAGTGGGGCGGAATGGAAGTCGGGAAAGTGAAGACCGGGGACGCACCAAGTTATGGCGCACATTCTAGGAGTTATTAA	MPEFERLDPPASGGSGGKHKPKFDKKQKMLLLGGGIAVVLVALFMNKAKHSGGSSQEAVEEELKDYYTNYPTLGSQNSVVQDGMNTLVGRQEEMLNAMLEAQGKKDPAELTKIYVTFDSSEDALKRQQYLINAGASTTYVRKQFIENGWAGAKDYYVVEAYGKDRQEMADLVKKGVQDKQWGGMEVGKVKTGDAPSYGAHSRSY				NA	NA	NA	NA	NA
AK009_09418	276			hypothetical protein	ATGGATTACAAGCGCGACAATTTAAACCGTCACGCGTTCCGTGCATTGGACAAACCTGTATATGAACCCTCTATCAATCTGAATGTGGAGTTTGACGAGTATCTCGGCTCTTATGCCTTATTAGTAAAGCATACGGCAAAGCAACCGAAAATGGTGGTTGCTGACCCGATAAAAGAACCGTGGGAGAAAACACGACCAAACTTGCAAAATGAACAAATCCGAAGAGAGGATTTCCCGCAAGGCTATTATTTCGGAAATCCAATTATGGGGGTGTAG	MDYKRDNLNRHAFRALDKPVYEPSINLNVEFDEYLGSYALLVKHTAKQPKMVVADPIKEPWEKTRPNLQNEQIRREDFPQGYYFGNPIMGV				NA	NA	NA	NA	NA
AK009_09419	147			hypothetical protein	ATGACAAAAGTATTCGATATGATCGCGGGAATTGGAATGCTCATTGGTATTTATTTGTTCCTTTCAAATGGTCGAGAAACAGTGTCAATCATTGAAGCAATGGGTAAAAACTCAATTGCGGGCATTAAAACATTACAAGGACGATAG	MTKVFDMIAGIGMLIGIYLFLSNGRETVSIIEAMGKNSIAGIKTLQGR				NA	NA	NA	NA	NA
AK009_09420	177			hypothetical protein	ATGAAAGAATTTACGGAGTCAATGCCATTCGTCATCTTCTTTATGTCCGTGACCGTCCTATTGCAATCCTTCACAAATGAACGTGTAACAAATGGTTTTTTGCTACTCGTGTTAATGAGTATGGTTGTTACAAATTCGGACAAGTTTATAAAACTATTAAATGAGGTGAGAGTATGA	MKEFTESMPFVIFFMSVTVLLQSFTNERVTNGFLLLVLMSMVVTNSDKFIKLLNEVRV				NA	NA	NA	NA	NA
AK009_09421	432			hypothetical protein	ATGAACAACGACGCAAAGGGTTTAACGTTTCTCACTCTATCCCTTTTATTTTTATGGCTCGTGTTTGACGATTTTGTCGGAAAGAAACGTCTATCAAAATTGGCGCAAATGATGACGCCGGACTTATCACTTCCAAGCGCTGGAGAGGTCGCGGAGAAAGTGGTGGATGGTGCAAAAGAGTCTGTAAAAGAAACAACAAAGAATACAAGGGAAGCACAAAAAGAAGCGGATAAAAAAGCGGGTGAAATTCTGTTTGAAAAACCTGCAAAGAATGAAAAAGACCCCAAAAAGAAAGAAGTGTTAGAACGTCTTTCTGAACAGAGTAAGAAACGTGCCGAAACGAACGCGTATAAAGATAAGGGGTGGCTCGGATACAGTTGGGAGGACTTATTTGAGGATACGTGGGGTACGGTGAAAGGGTGGTTTAAATGA	MNNDAKGLTFLTLSLLFLWLVFDDFVGKKRLSKLAQMMTPDLSLPSAGEVAEKVVDGAKESVKETTKNTREAQKEADKKAGEILFEKPAKNEKDPKKKEVLERLSEQSKKRAETNAYKDKGWLGYSWEDLFEDTWGTVKGWFK				NA	NA	NA	NA	NA
AK009_09422	207			hypothetical protein	ATGGACGCTCAAATGGTAGGTCAATTAATTGGTAGCTATGGATTTCCGATTTATATGTGTATCCTTTTTGCTACCTCTATGAAAAAGACACTAGAAGGCGTTACACAATCTATCAATTCGAACACGCAAACAATCAATTCTAATACACAAATCGTAATGCAATTACAACAAAAAATAGAGCAAATGGGTGGTAAGGCGCATGAGTAA	MDAQMVGQLIGSYGFPIYMCILFATSMKKTLEGVTQSINSNTQTINSNTQIVMQLQQKIEQMGGKAHE				NA	NA	NA	NA	NA
AK009_09423	231			hypothetical protein	ATGGGACTGAATCATTACTATCATGATTTATACCCGGATACGGGGTTTCGTACAACAAGCGGAACGACTGTAGCGGAAATGGGTGACCAAGTTGTATTAGTGGATGAAAAGGATATTAAGACAGACGTAAAGCCAAAGAGTGACCCAGTAACAGGGGCAAGCATTTGGAAGTCGATTGGTCTATTTATCATCATCATAATTGCATTCGGTTATGTGGCGGGGAGGTTGTAA	MGLNHYYHDLYPDTGFRTTSGTTVAEMGDQVVLVDEKDIKTDVKPKSDPVTGASIWKSIGLFIIIIIAFGYVAGRL				NA	NA	NA	NA	NA
AK009_09424	1071			hypothetical protein	ATGGCACAACAGAAAGAGCAATATTCACCGCAACAACGCGCGATGATTTGGGCAACGTCAACGCGTCAATATCAACAAACATTGCCTACACAAGTAGTCACACAAGAGGGTATGACACTTGATTTCACATTGCCGAAAGCGCGTTTATTAACAAAGATATGGTTACATGTCAAAGCCGTAGCCACGTTGAAAAGCTCTAGCGGGAACATTCAACGTGACCCGATGTCTCCATATGGTATTTTACGTCGAGTAGAACTCAACTTAAATAACGGCTTCTCACCTTACATTGTATCAGGTAAAGAACTGTTTATGTATAACGTTTTACGACAACATCCAGACGTGTTATTACCAGGTGCAAATAAACAATCATTAAACTTTGTGGAAAACGTAGCAACAACAGCCGGTAAAGATAATGAAATTCAATTTACCGTTCCGATCCCTGTAAGTTTAAATGACCGTGACCCTGTAGGTATGGTTATGTTACAAAACAATACGGCTAACGTGAATCTAACAGTATCCGTTGACCAACTAGCGAATGCGTACAAATTAAATGCGTCAAATAGTGACCAAGTGACATTTAAATCTATGTCCATTACACCTGTTATCGAAACGTTTTCGATTCCTTCTATCCCGGGCGGTCAACCGGATATGTCTGTACTGAAACTCGTACAATCGAAGTCGGACTTATTCTCGGGCGGAGGACAAAATATTTTAAAACTAAACGTAGGGACGATTTATCGTAAACTACTATTCTATATCGAGGATTCAAACGGGAAACCGTTAGAGCCAAAAGACTTTACTGGAAATATGGAGCTTGTCTTTAACCAAGCGGACACGCCATACAATATCAAGCCGGAAGTATTGGTTCATAAAAACCATTCTGACTTAGGATACCCACTTCCACCGGGTGTGTATTGCTTCGATTTCAGTAATCAAGGTGTACCGAATTTAGGCGGTAGCCGTGACTATATTGATAGTGAGCGATTAACGGAATTTTGGTTCCGATTTAGCACACAAGTAGGCGGGAAAGTCACTGTAGTATCAGAAACATTATCACGATTACAAATGTAA	MAQQKEQYSPQQRAMIWATSTRQYQQTLPTQVVTQEGMTLDFTLPKARLLTKIWLHVKAVATLKSSSGNIQRDPMSPYGILRRVELNLNNGFSPYIVSGKELFMYNVLRQHPDVLLPGANKQSLNFVENVATTAGKDNEIQFTVPIPVSLNDRDPVGMVMLQNNTANVNLTVSVDQLANAYKLNASNSDQVTFKSMSITPVIETFSIPSIPGGQPDMSVLKLVQSKSDLFSGGGQNILKLNVGTIYRKLLFYIEDSNGKPLEPKDFTGNMELVFNQADTPYNIKPEVLVHKNHSDLGYPLPPGVYCFDFSNQGVPNLGGSRDYIDSERLTEFWFRFSTQVGGKVTVVSETLSRLQM				NA	NA	NA	NA	NA
AK009_09425	255			hypothetical protein	ATGCACGTAGTTGATATTTTAGATGTAAATATGAATCGAATTAATACGCATTTCAGTGCAACAAAACCAACGTTTCAACAATTAGTGGATTATAAAAATCGCTATGAAAACGGTGCGTTTGTGGCAACGTCTGAGCGTTTTGCGGAATTTGAATTATTCGAGGGCGCGCGTAAAGAACGTTTAGCGGAAGAGCAAAAGCAAGCGGAATTAGAACGTATTAAAAAAGCCCAACAAGCTGAAGGAGGAACAAACTAA	MHVVDILDVNMNRINTHFSATKPTFQQLVDYKNRYENGAFVATSERFAEFELFEGARKERLAEEQKQAELERIKKAQQAEGGTN				NA	NA	NA	NA	NA
AK009_09426	141			hypothetical protein	ATGGGTAAACTATTTAGCCCGTCTTGGTGGGTATCTATGTTTGTATCAACATTTGTCACAATGTTTTTCATTTATCTAATTAAAAAAGGTTCTGAGAAGTACAATATTCCGGTTGTAAGACCGATTGCGGAGGCGGTATAA	MGKLFSPSWWVSMFVSTFVTMFFIYLIKKGSEKYNIPVVRPIAEAV				NA	NA	NA	NA	NA
AK009_09427	141			hypothetical protein	GTGGAGGGTAAATTTGCAGGGGTCGGACTCAAAAATATTATTGTCCTATGGCTCATGTTCATTTTATTAACAGTCATGGCAAAAGCGATTTTAACAAAACATCCGGTGAAAGGACTTAGTGAAGTTGTCCAAGCCGTATAA	MEGKFAGVGLKNIIVLWLMFILLTVMAKAILTKHPVKGLSEVVQAV				NA	NA	NA	NA	NA
AK009_09428	639			hypothetical protein	ATGAATGGCATCCCGACTGACGAACATGTCTTTATTGCAGGGAAAACAGGTAGTGGGAAGTCATTTCTTGCTGAAGTGTATTTAGCCGGGTATGAACATGTTGTGATGTTAGATACAAAAGGACAATGTTTGGAGCGTAGGAAGAAAGGCAAGGAACTTTGGTACGGGTTACGGGAAGGCAAAGACTTTGTACTGGTCGAGACACTGGAAGAAGTAGCCGAAGCCCGGACAAAGAAAATTATTTATTGTCCAATTCCAGAAGAACAGGACGAAGAACATTATGACGCGCTTATGAAGTGGGTGTATGAGCGCGAAAATACCATTCTATGGATTGACGAATTGATGCAGGTTGCCCCGTCTCCTACAAAGTATCCGTTCCATTTGCGCGCACTTATGACGCGCGGGCGTAGTAAGGAAGCGACGGTATGGGCATGTACACAAAGACCCGCTACAATCCCGATTGATGTGTTTAACAATTCCAGTCACTTCTTTATTTTCGATTTAAATATTCCGGCTGACCGTGACCGCATTGTAAAAGCTACAGGGTGTCCGGAGTTTTACGAAAAGCCCGGTAAGTATAACTTTTGGTATATGCGGGATAGTGACGATGAACCTGTTCGCGCCACTTTGAAACTTTGA	MNGIPTDEHVFIAGKTGSGKSFLAEVYLAGYEHVVMLDTKGQCLERRKKGKELWYGLREGKDFVLVETLEEVAEARTKKIIYCPIPEEQDEEHYDALMKWVYERENTILWIDELMQVAPSPTKYPFHLRALMTRGRSKEATVWACTQRPATIPIDVFNNSSHFFIFDLNIPADRDRIVKATGCPEFYEKPGKYNFWYMRDSDDEPVRATLKL				NA	NA	NA	NA	NA
AK009_09429	309			hypothetical protein	ATGTCCAATACGGTACTTATCCGAGCGAGTAGGTGTATCTATTCTATACCGCTAGGTGATTGGCACAAGAATTGGAAACCTTGTTTTCCGTTCGTTGAAGAATGGTCTGTCACGGTAGGCGAAAAGTATGTTGTTTTTGAATACAAAGAACATTGCTACCGTATGGACGAACACTTTTTCAATGCTTTATTACCACGCGTTCCGTATGCGTCACGAAAGCAAGCTCTTAAAAATGGTAAAGGTGTTTTGCGGACGGAAAGGAGTTATGACAAGAAGGGTGTGAAGAAACATGAATGGCATCCCGACTGA	MSNTVLIRASRCIYSIPLGDWHKNWKPCFPFVEEWSVTVGEKYVVFEYKEHCYRMDEHFFNALLPRVPYASRKQALKNGKGVLRTERSYDKKGVKKHEWHPD				NA	NA	NA	NA	NA
AK009_09430	585			hypothetical protein	TTGGTTCCTGTAGACGTTCCGGGGAAAGAAGAAGAAAAGGCGGAGATTGATGCAAAGTTAGAAGAGAAGCGCAAAAAGGACAGGGAACGAAAAGCCCGTTCACGCGCGAATGCAAAATCTTCCCCACGATCTAAAGGAAAAGCAAAAGCACCGTCAATGGAAATCTTTCAATTAAAACCAATTCTAATGACAGTGTCACAAATGGTGGCTACCCGTGAAGGGTTCGAAATATGGGCTTTAAGTGAAACCGAAATTGATACGCTATGTGAACCGATAGAGAACATGTTAGCAAAAACGTCAGCACTTGAAAAAGTCGGGGAAAATAGTGACGCGATTGCACTTGCTATCGCATGTTTTACAATCTTTGTACCAAAATTCTTGATGTGGAATGCCACACGAAAACAAAAGAAAGCGCAGGTGGTAACAAATTATGCTAAACCAATTCAACCTACCGGAAACGCCGGGGGAAACAAAACAAGAGAGACTGGAACAAGTAGCGGACCAAGTGCTAGACCATCTACCGTTTCCGGTCAAAGTTTTAGCGGGGAACTCAATCAACTCATTCCGGCAAGCGCTCCATTTTGA	MVPVDVPGKEEEKAEIDAKLEEKRKKDRERKARSRANAKSSPRSKGKAKAPSMEIFQLKPILMTVSQMVATREGFEIWALSETEIDTLCEPIENMLAKTSALEKVGENSDAIALAIACFTIFVPKFLMWNATRKQKKAQVVTNYAKPIQPTGNAGGNKTRETGTSSGPSARPSTVSGQSFSGELNQLIPASAPF				NA	NA	NA	NA	NA
AK009_09431	438			hypothetical protein	ATGGAAAGAAGAAAAGCATGTGAAGACGAACTGAAAGCATTAGAGGAAGAACATGAACGTGTACCATTTTTAAAAACAACGGGCATGGGTAAAACTTTCTTGTCAATAAATAATCTCCAATTCTTCGCCAAAAAGAAGGAAGAGGAAGAAGAGGAAGAGTTTGAAGAGGTTGAGGAAGAGGAAGAAGAGGAAGACGAAAAGCCGAAACCAAAACGTAAACCAAAATCAAAAAGTGAGGAGGATGCACCACAATGGGCAAAGACATTCATGTCGACGATACAGGAAGTAATAAAGCCGAAGGAACAGGAAGCGGGGGCGCAAAAAGTACCAGTACCACCGAAACCAAAAGTCGAGGAAGAGGAAGAACCGGAAGTGGAGGAACTGGAGGAAGAGGACAACAAACCGAAGAAGAAAAGCTTCCTAAGTTGGTTCCTGTAG	MERRKACEDELKALEEEHERVPFLKTTGMGKTFLSINNLQFFAKKKEEEEEEEFEEVEEEEEEEDEKPKPKRKPKSKSEEDAPQWAKTFMSTIQEVIKPKEQEAGAQKVPVPPKPKVEEEEEPEVEELEEEDNKPKKKSFLSWFL				NA	NA	NA	NA	NA
AK009_09432	174			hypothetical protein	GTGGATGCTTTAACGGAACTAATCATAGCTAACAATAAAGTGGAAATGCTTGTGCGTCATGCAACTACGATTATGACAAAAGAACAAACTCTTAAATTAAAAAACCTTATATCTGATGATGGATTAAAAGCAATGATAGAAACTAGAATTTCTGATTTATACAAATCGAATTAA	MDALTELIIANNKVEMLVRHATTIMTKEQTLKLKNLISDDGLKAMIETRISDLYKSN				NA	NA	NA	NA	NA
AK009_09433	123			hypothetical protein	ATGACTGATAAACAGTATGCGGATTGTTGGAAAGCATTAAGGAGACAAGCAAAACCGACATTACTTGAAACCATGAAGGCAATAGAGATTCTTGTTGAACAAGGAATAGTAGAAAAGGACTAG	MTDKQYADCWKALRRQAKPTLLETMKAIEILVEQGIVEKD				NA	NA	NA	NA	NA
AK009_09434	153			hypothetical protein	ATGCGTGACAAATTGCTCGACTTTATCATCGAACTATCACAATCTAGCAAACAAGTCGTAAGCAAGTCGTATGTCATTGATAGACTGATGCAAGTAACAAAAGAAGACTACAAGGAACTAGAAAAGAATGTGGAGGGGAAGAAGGATGACTGA	MRDKLLDFIIELSQSSKQVVSKSYVIDRLMQVTKEDYKELEKNVEGKKDD				NA	NA	NA	NA	NA
AK009_09435	201	lexA_3		LexA repressor	ATGTTGACGCCAAGGGAACAGGATACGTTAGAATGTATAAGCGGGTATATGGAAGAGTTTGGGTTCGCGCCAAGCGTGCGAGATATGGCGAGTCGAATGTACGTAAGTCATAAGACAGCACATCGCTATTTAATGCAATTGGAAAGTAAAGGACGTATTAGGAGAGTACATCAAAGACCTAGAGCCATCCAGTTGTTATAA	MLTPREQDTLECISGYMEEFGFAPSVRDMASRMYVSHKTAHRYLMQLESKGRIRRVHQRPRAIQLL	PGPT0014895_4204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
AK009_09436	2205			hypothetical protein	ATGACTACTACTAATAGAAAAAAGCGTAGAGAGATTAAACTCTTTACGCTAGATACTGAAACACGTGGTTTGGACGGCGACGTGTTTCGAATTGGACTATTCGATGGAAAACAATACTATACTGGCTATACGTTTGCAGACGTATTACCAGTGTTTGAAAAGTACAAAGCATATGACTGTCATGTGTATATACATAACCTAGACTTCGACCTTTCCAAGATCATAGCAGAGTTACGTGATTATGCCGAACCGACATTTAATAACTCGCTATTTATCAATGGTAATATAGTAACGTTTACCGCTTCTCATATTATACTACATGATAGCTTCCGATTGCTACCGTCTTCACTTGAAAACTTATGTAGAGATTTCGACCTTTTAGAAGGCGGGAAGATGGATATTGTCGATTATATGGAAGAAAACAATTATGGTATTTATAATGTAAAAAACCGTAAATTGAACAAGAGACTTACAAAAGGTAATTTCTTTACAACCGTAGATAAGGATGACCCTGTTCTATGTGAGTACATGGAATATGATTGTCGTAGCTTATATAAAATCTTAGAAATTGTAATAGGTCTATCAAAATTAGAAGTTGAACAATTTATTAATTGTCCGACTACGGCTTCCCTTGCTAAAACAGTTTATAAAGAACAGTATAAGAAAGATTATAAAGTTGCTATTTCTACAAAACAATATAATCATAAACAGATAGGAAAAGGATTAGAAGCCTTTATTAGAAAAGGTTACTATGGAGGGAGAACCGAAGTTTTCACACCTAGAATAGAAAATGGATATCATTATGACAAAAATAGCTTATATCCGTATGTTATGAAAATGGCTGAAATGCCTGTTGGGTATCCGAATGTATTGGATAATGAAGAAGCGGAACTTTCTTTTGATTTATGGAAAAGAAGAAAATATGGAGCAGGTTTTATACATGCGAAGGTGCATGTACCTGAAGATATGTATATTCCTATCCTACCTAAAAAAGACTATACAGGTAAATTGATTTTTCCAGTTGGCAAAATAGAAGGTGTTTGGACATTCCCGGAATTAGCGTTAGCAGAAGCGGAAGGATGTAGAATAGAAAAAATTGAGAGTGGTGTGGTATTTGAGAAAACAGCACCTGTCTTTCGTGAATTTATTTCGTATTTTGAGGAAATAAAAAATACAAGTAAAGGCGCTAAACGGGCATTTTCTAAACTTATGCAGAATGCTTTGTATGGAAAATTTGCAATGCAGCGGGAACGCATCATGTATGCTGATATTTCTGAGAGAGATAAACTTGAGGCAGAAGGACATACAGTAAGCGAAATTATATATGATATGAATGGAATTCGAATGGAATTTTTAGAGTATGATGGATATGCTAAGGCTGAATATATTCAACCACATATTTCAGCATATATTACTTCTATTGCTAGAATACTATTATTTAAAGGTTTGAAGTACGCGCATGAAAAAGGAATTTTGGCTTATTGTGATACGGACAGTTGCGCAACAACTACGAAATTTCCTGATAAAATGGTGCATGATAAGGAATATGGTAAGTGGAAGTTAGAAGGGTATGTTATTGAAGGGCTCTATTTCCAACCAAAAATGTACGCGGAAAAAGCTATTAATACCGATGGTGAATATGAGGAAGTATTACGAATGAAAGGCGTTCCGAAATGGGTAGTAGAGGAACAACTAGATTATAATACGTTTAAAAAGTGGTACTTACAAGTAAAAAGAGGAAAAGCGGAAATTCCTATTTATAAAGGCGGGGAACGTGTTCAAAAATTCTTGACGAAATCTAAAAATAATATAGAAATGAATGAACTAGCGGAAATGCATAAAACAATTAATTTTGCTAGGGAACAAAAAAGAAACATTGACCTAAATAAAAATACTACCTCACCTCTAGTTCGTAATGACTATGGGGAAAATAAGGACGAAAAGTCAGAGTATGAGTTTGATGAATGGTATGAAAGATTGGAAGAGTTTAATGATGATATGAATGCGGTAGAGGAACTTTGTATGAAGTTTGGAAAGATACAAATACCAGAGAAAAAGCAAAGGAAGCTATACGGACTTTATAAAGAGTATTCTTCAAAAGCGAAAGCTATGTGTTTTTCAAATGAGGGACTACCGATTCAAGATTGGTGTAAAAAGACAGGATGGGACATGAAAGAACTATTAGGTGAATTAAGTTTCTTATAA	MTTTNRKKRREIKLFTLDTETRGLDGDVFRIGLFDGKQYYTGYTFADVLPVFEKYKAYDCHVYIHNLDFDLSKIIAELRDYAEPTFNNSLFINGNIVTFTASHIILHDSFRLLPSSLENLCRDFDLLEGGKMDIVDYMEENNYGIYNVKNRKLNKRLTKGNFFTTVDKDDPVLCEYMEYDCRSLYKILEIVIGLSKLEVEQFINCPTTASLAKTVYKEQYKKDYKVAISTKQYNHKQIGKGLEAFIRKGYYGGRTEVFTPRIENGYHYDKNSLYPYVMKMAEMPVGYPNVLDNEEAELSFDLWKRRKYGAGFIHAKVHVPEDMYIPILPKKDYTGKLIFPVGKIEGVWTFPELALAEAEGCRIEKIESGVVFEKTAPVFREFISYFEEIKNTSKGAKRAFSKLMQNALYGKFAMQRERIMYADISERDKLEAEGHTVSEIIYDMNGIRMEFLEYDGYAKAEYIQPHISAYITSIARILLFKGLKYAHEKGILAYCDTDSCATTTKFPDKMVHDKEYGKWKLEGYVIEGLYFQPKMYAEKAINTDGEYEEVLRMKGVPKWVVEEQLDYNTFKKWYLQVKRGKAEIPIYKGGERVQKFLTKSKNNIEMNELAEMHKTINFAREQKRNIDLNKNTTSPLVRNDYGENKDEKSEYEFDEWYERLEEFNDDMNAVEELCMKFGKIQIPEKKQRKLYGLYKEYSSKAKAMCFSNEGLPIQDWCKKTGWDMKELLGELSFL				NA	NA	NA	NA	NA
AK009_09437	738			hypothetical protein	ATGGCAAATAAACGGTTAAAGAAGAAACTAGAAACCAAACGTAAAAAGTCGTTACTTGTTTCGGAAGGTTATAGTAAGAAAGAAACAAAGAAGCTGAAAGGTAGAGAGTTAGAAACTGTTTATAAAAAGAAAGCGCATAATAGGAAAAATAGAGAGCGCGCTAGGGAAATAGCAAACCTAGCAAAACAGTGGGGTCTATCACCGAGTAAGTATAACTCTTGGAAAAAGTTACTTCCCGAAATAGAGAGAATTAAAAAAGAACAAGATAGGGAAGCACCTTTTCTATTAATATACTATCAAGACTTTACAGGTGAGACAGATAGTAAGTTTATATACGATTTTAAAAAGAGAAATAATACAAGATCACGATCTCAAATTACAGAATCCATAATAGGATGGTTACAGAATGCTCATAATAAACTCTTTTTGGGAAGGGTTGCTATACGTATAGTTCCAAAGCGTGATGTTTCGAAAACGAATACACTTTGGAGAAATCATGGTTATGTAAAGATATATGAAGGGCAAGGGAAAGAGTTATCAAAACTATTAACGGCTATAGAAACGATTATGGTCGGTGTGTATGATGTAAAAGAGCGTGACAAATATTTAAAGGAATTAGTAGCTAAGCTACGTTCTTTACCTTATGAAAAGGCTAAAAAGAACGCAAAGGAGATACAAAAGATATACGATACAAAGTCGTATAAGAAAGAAAGTTGGGATAATGATGACTACTACTAA	MANKRLKKKLETKRKKSLLVSEGYSKKETKKLKGRELETVYKKKAHNRKNRERAREIANLAKQWGLSPSKYNSWKKLLPEIERIKKEQDREAPFLLIYYQDFTGETDSKFIYDFKKRNNTRSRSQITESIIGWLQNAHNKLFLGRVAIRIVPKRDVSKTNTLWRNHGYVKIYEGQGKELSKLLTAIETIMVGVYDVKERDKYLKELVAKLRSLPYEKAKKNAKEIQKIYDTKSYKKESWDNDDYY				NA	NA	NA	NA	NA
AK009_09438	225			hypothetical protein	GTGAACGCTATTAAAAATTTGGTTCAGGTATCTATTCGAACAAATGAGCGAGAACTAGAATTTGTATCTTTTAATGGAATGGTTCATTTGAAACAAAAATTAGAAGATGACGAAACATCGGTAGTGTTAACAAAAGAAGAGTTGGACGTGGTTGCAGCTATGTCTAATTTTGATAATGTGATAGCAAACTTTATGAACTCTATTACAGAAAAGAAAGCCATGTAA	MNAIKNLVQVSIRTNERELEFVSFNGMVHLKQKLEDDETSVVLTKEELDVVAAMSNFDNVIANFMNSITEKKAM				NA	NA	NA	NA	NA
AK009_09439	504			hypothetical protein	ATGGAAAACAATACTAAACAATTAAATAATGAGGTTAACGAAATCGCGGTAGTGGAAGAGACAATAAATACAAATGATATTATGACAGTGGACAAGGTAACACCATCTATCTTTGAAGCAGAAGGTTCAAAAGAAGTATTCTTCTCATCTATTCAAAAAACAGACCGTAAATCAGCAGTTAAAATGTACAATGCTATTAACTCAAGTGAAAATGCTCTATCAGATCATACTGGTGAAGTTTTGCAAATTACGGACATGGTGGCTCATGCTATTACTTTAGAAGATGAACAAACGAAAGAAAATGTGGATGCTTTACGAGTTGTATTATTGGACAAGGATGGAAAAGGTTATCACGCCGTTTCACAAGGTGTTGTATCGTCTATTCAAAAGATTATCAGCATTGTTGGACCAGCTCCATGGACAGATGAACCACTTAAAATTGTACCTTATGAAGTAAAAACGCGTAAAGGTTTCAAAACATTAACACTTCAACTACAAGGCTAA	MENNTKQLNNEVNEIAVVEETINTNDIMTVDKVTPSIFEAEGSKEVFFSSIQKTDRKSAVKMYNAINSSENALSDHTGEVLQITDMVAHAITLEDEQTKENVDALRVVLLDKDGKGYHAVSQGVVSSIQKIISIVGPAPWTDEPLKIVPYEVKTRKGFKTLTLQLQG				NA	NA	NA	NA	NA
AK009_09440	177			hypothetical protein	ATGAGTAAACTACTGACTGCGCAAGAGGTTGCAGACTTATTGCGTGTTCATAAAAAGACTATCCATAGAATGATACATTCTGGAAAGTTGGACGCTTCAAAAGTAGCAAACAAATTCCTCATTAAAGAGGAAGATGCAAAAGGACTATTGGAAAATAAAAATAAACTGGACAATTAA	MSKLLTAQEVADLLRVHKKTIHRMIHSGKLDASKVANKFLIKEEDAKGLLENKNKLDN				NA	NA	NA	NA	NA
AK009_09442	1002			hypothetical protein	ATGCATCAAACATCTTATACTTGGCAGCAGTTAAGTTTCTTTTTTTCATCTCAAAACGTACAACGTTATCTTGCCCGTTGTTATGAAAAATCCTCTATTCAGGATGCCGAAAAAAAAAGTTTTGAAAATTGTTATCCCTTTATTTATTACCTAGAACACGGGAAAAATTATTATGAATTATATAAGAAAGCTCCATTTTCTATTCAACCAATGTTGTTATTTTATGGAATTAGTCAACTTTTTAAAGCATGTCTACTAACCATTGATCCTAACTATCCTGAATCCACTACTGTTTTAGCTCATGGCGTTACAACTCGCAAACGAAAAAAACAAGGGTATCAATTTTTAGAAGATGAGGTGAAGATACAAAAAAACGGATTGTTTACTCATGTTGCAGAACAACTGTTTCACATGAAACACTTAGAAGCAGAAAAATTTAACATGCTAGAACTAATGGGAAATATTCCAGAATTACAAAATTTGTTTCGCTATAGTCAAAAAGGATCAACTTTATATAAAATCGATTCAACAATTAAAAATGAGCTCTCCTTTTCAGTCAACCTACTAGATCGATTACATATGACTAAAGAGAGATTTTCTCGCTACATTGAAACATCTTGTAAGCATTTATCAATGCGACACGTACCTGAGAAAACTAATGAATCGAATTTACTTTTTACGGCGCCCATTCAATCATGGAATCCTATGTACAGTACTCCTTTATACTATGAACATCTTACTAATACTTATTATTTACCACTTACGACTGATCCTAGAAATCCTAAGCCAGTATTACCTGAACTCCTTGTTCATTATTTATTGCTCTATAATTTAAGCATGATTTCTAGGTATGAAACAGATTGGTGGTATGACTTACTTGGAAGCTATGGCTCTGAAGATTATCCATTTATTTATCAATTTCTTAATATTTCTGCTCAAAAAATCCCTTACTATATTTCATCATTTTTACTAACAGAACCTAACCTATTTCATGGGAAATAA	MHQTSYTWQQLSFFFSSQNVQRYLARCYEKSSIQDAEKKSFENCYPFIYYLEHGKNYYELYKKAPFSIQPMLLFYGISQLFKACLLTIDPNYPESTTVLAHGVTTRKRKKQGYQFLEDEVKIQKNGLFTHVAEQLFHMKHLEAEKFNMLELMGNIPELQNLFRYSQKGSTLYKIDSTIKNELSFSVNLLDRLHMTKERFSRYIETSCKHLSMRHVPEKTNESNLLFTAPIQSWNPMYSTPLYYEHLTNTYYLPLTTDPRNPKPVLPELLVHYLLLYNLSMISRYETDWWYDLLGSYGSEDYPFIYQFLNISAQKIPYYISSFLLTEPNLFHGK				NA	NA	NA	NA	NA
AK009_09443	1464	guaB_2	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGTGGGAATCTAAATTTGTTAAAGAAGGTTTGACTTTTGATGATGTATTACTTGTACCAGCTAGGTCAGATATATTACCAAGAGAAGTAAGTGTTAAAACAGTTTTATCTGAAAGCTTACAGCTAAACATCCCGTTAATTAGTGCAGGAATGGATACAGTAACAGAAGCTGACATGGCTATTGCAATGGCTCGCCAAGGTGGTTTAGGAATTATTCATAAGAATATGTCTATTGAGCAACAAGCAGAGCAAGTTGATAAAGTAAAGCGCTCTGAAAGCGGCGTTATTTCAGATCCTTTCTTCTTAACTCCAGAACATCAAGTATATGATGCAGAACATCTTATGGGAAAATATCGTATCTCAGGTGTACCGGTTGTAAATAATTTAGATGAGCGAAAATTAGTTGGTATTATTACAAACCGTGATATGCGTTTCATCCAAGACTACTCAATCAAAATTTCTGACGTAATGACAAAAGAACAGTTAATTACAGCTCCAGTTGGTACTACACTGGAAGAAGCTGAAAAGATCCTACAAAAGTATAAAATTGAAAAACTCCCTCTTGTTGATAATAACGGTGTATTACAAGGGCTTATTACAATAAAAGATATTGAAAAAGTAATTGAATTTCCAAACTCTGCTAAGGATAAGCAAGGACGCTTATTAGTTGGAGCAGCAGTTGGTGTAACAGCTGATGCTATGCTTCGTATAGATGCATTAGTAAAAGCTAGTGTAGATGCAATTGTACTTGATACAGCCCATGGGCATTCTAAAGGTGTTATTGATAAGGTAAAAGAAGTTCGTGCTAAATATCCATCATTAAATATCATCGCTGGAAATGTTGCTACAGCTGAAGCAACGAAAGCATTAATTGAAGCTGGTGCAAACGTAGTTAAAGTTGGTATTGGACCAGGTTCTATTTGTACAACACGCGTTGTAGCTGGTGTTGGTGTACCACAATTAACAGCAGTTTATGATTGTGCAACCGAAGCTCGTAAACACGGTATTCCAGTTATCGCTGATGGCGGTGTTAAGTACTCTGGTGATATGGTGAAAGCTTTAGCAGCAGGAGCACATGTTGTTATGCTAGGTAGTATGTTTGCTGGTGTTGCCGAAAGTCCTGGAGAAACTGAAATTTACCAAGGTCGTCAATTTAAAGTGTATCGTGGTATGGGTTCTGTCGGTGCGATGGAAAAAGGAAGTAAAGATCGTTACTTCCAAGAAGGAAATAAAAAACTTGTCCCAGAAGGTATCGAAGGACGAGTGCCATATAAAGGACCTTTAGCAGATACAGTTCACCAATTAGTTGGTGGCTTACGTGCGGGTATGGGATATTGCGGGGCACAGGATTTAGAATTCTTACGCGAGAATGCACAATTCATTCGTATGTCAGGTGCTGGCTTACGTGAAAGCCATCCTCATCACGTACAAATTACAAAAGAGGCTCCAAACTACTCATTATAA	MWESKFVKEGLTFDDVLLVPARSDILPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLMGKYRISGVPVVNNLDERKLVGIITNRDMRFIQDYSIKISDVMTKEQLITAPVGTTLEEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMLRIDALVKASVDAIVLDTAHGHSKGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGVKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIYQGRQFKVYRGMGSVGAMEKGSKDRYFQEGNKKLVPEGIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLRESHPHHVQITKEAPNYSL	PGPT0021445_3681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
AK009_09444	1317	dacA_4	COG1686	D-alanyl-D-alanine carboxypeptidase DacA	GTGAAAGGTATGTTTTGCAAAAGATTCATTGCTTTGGTAACAGTGATTACACTAGCTTGTAGCATTTTTATGCCATATAGCAATGCATCAGCTGAAACAGGAGCCGCTTTAAACATTGAAGCAGGTGCGGCAATTTTAGTAGAAGCGAATTCTGGGAAAATTGTATATCAAAAGAATGCAGATGAATTATTATCCATTGCTAGTATGACAAAGATGATGAGTGAATATTTAGTTCATGAAGCAGTGGATAAAGGAAAACTTAAGTGGGACCAGAAAATTAAGGTTTCTGAATATGCATATAAGGTTTCACAAGATGCTTCATTATCAAATGTTGCGTTAGAAAATGGTGGCTCTTATACAGTAAAAGAGTTATATGAGGCAATGGCAATCTTTTCTGCAAATGGTGCAACAATTGCATTAGCAGAAGCAATTGCAGGTAAAGAAGTAGATTTCGTAAAAATGATGAATGATAAATCGAAAGAACTAGGATTGAAAAATTATAAATTTGTCAATTCTACAGGTTTAACGAATAAAGATTTAAAGGGAATGCATCCTGAAGGAACAACAGCGGATGAAGAAAATAAAATGTCTGCAAAGGATGTTGCAACTTTAGCACAACATTTAATTAAAGATTATCCAAAAGTGTTAGATACAGCAAAAATTCCTAAAAAAGAATTCCGTCCAGAAAAAGAGAAGTTTGCAATGTCAAACTGGAACTGGATGTTAAAGGGCTTAGTTAAAGAATATGATGGCGTAGATGGTCTGAAAACAGGCTCAACTCCAGAAGCAGGAGATTGCTTCACTGGTACGGTTGAAAGAAACGGTATGCGTTTTATTTCTGTAGTTATTAAAACAAGTTCTCATACAGCACGTTTTGATGAAACAAAGAAGCTATATGATTATGGATTTGCTAACTTTGAAGTGAAACAAATGTATAAAAAAGGTTCTTTAGTAAAAGGACAAGAAACAGTAAGAGTAGAAAATGCGAAAGATAAAGATGTAGCAGTTCAAACGAAACAAGCTATTTCACTTCCAGTGCCAAAAGGAAGTAAAGATGTTTATAAAACAGAATTAAAAGAATCAAGTAAGGGACAAGAAGCACCTATTAAAAAGGGAGCTGCGCTTGGTCAAATGGTAATTACGCCAAAAGATACAAACGACCCTGGATTTTTAACTGGTAAGTCGTTGCAAGTGGATCTTGTAACAACATCTGAAGTAGAAGAAGCAAACTGGTTTACTCGTGCTATGCGCGGAATTGGTTCATTCTTTAGTGGTATGTGGAATAGTGCTGTTGATACAGTAAAAGGTTGGTTTTAA	MKGMFCKRFIALVTVITLACSIFMPYSNASAETGAALNIEAGAAILVEANSGKIVYQKNADELLSIASMTKMMSEYLVHEAVDKGKLKWDQKIKVSEYAYKVSQDASLSNVALENGGSYTVKELYEAMAIFSANGATIALAEAIAGKEVDFVKMMNDKSKELGLKNYKFVNSTGLTNKDLKGMHPEGTTADEENKMSAKDVATLAQHLIKDYPKVLDTAKIPKKEFRPEKEKFAMSNWNWMLKGLVKEYDGVDGLKTGSTPEAGDCFTGTVERNGMRFISVVIKTSSHTARFDETKKLYDYGFANFEVKQMYKKGSLVKGQETVRVENAKDKDVAVQTKQAISLPVPKGSKDVYKTELKESSKGQEAPIKKGAALGQMVITPKDTNDPGFLTGKSLQVDLVTTSEVEEANWFTRAMRGIGSFFSGMWNSAVDTVKGWF	PGPT0024040_871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK009_09445	888	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	ATGACAAATGTAACAGGGACAGAGCGTGTAAAACGTGGAATGGCAGAAATGCAAAAAGGCGGCGTTATTATGGACGTAATTAACGCTGAACAAGCAAAAATTGCAGAAGAGGCAGGCGCAGTTGCCGTTATGGCATTAGAGCGTGTACCAGCAGACATTCGTGCAGCAGGTGGCGTTTCTCGTATGGCAGACCCAACAATCGTTGAAGAAGTTATGGGTGCAGTGTCAATTCCGGTTATGGCAAAATGCCGTATCGGTCACCTTGTAGAAGCACGTGTATTAGAATCATTAGGGGTAGACTATATCGATGAGAGTGAAGTATTAACTCCTGCTGATGAAGTATACCATTTAAATAAACGTGATTACACAGTTCCATTTGTATGTGGTTGCCGTGATATCGGAGAAGCTGCACGTCGTATTGCAGAAGGTGCATCTATGCTTCGTACAAAAGGTGAACCAGGAACAGGAAACATTGTAGAGGCAGTGCGTCATATGCGCCAAGTCAATGCAGAAATCCGTCAAGTTGCGAGTCTACGTGAAGATGAGTTAATGACATATGCAAAAAATACTGGTGCTCCTTACGAAGTATTACTTGAAATTAAACGTCTTGGTCGCTTACCAGTTGTAAACTTTGCGGCAGGTGGTGTAGCAACACCACCAGATGCTGCATTAATGATGCAACTTGGTGCTGATGGGGTATTTGTTGGATCTGGTATCTTCAAATCAGAAAACCCAGAGAGATTTGCACGTGCAATCGTTGAAGCAACGACTCATTATGAAGATTACGAACTAATTGCAAGCCTTTCTAAAGGGTTAGGTAATGCAATGAAAGGTATCGAAATTTCAACGTTATTACCAGAACAACGCATGCAAGAGCGTGGATGGTAA	MTNVTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVSRMADPTIVEEVMGAVSIPVMAKCRIGHLVEARVLESLGVDYIDESEVLTPADEVYHLNKRDYTVPFVCGCRDIGEAARRIAEGASMLRTKGEPGTGNIVEAVRHMRQVNAEIRQVASLREDELMTYAKNTGAPYEVLLEIKRLGRLPVVNFAAGGVATPPDAALMMQLGADGVFVGSGIFKSENPERFARAIVEATTHYEDYELIASLSKGLGNAMKGIEISTLLPEQRMQERGW	PGPT0009180_1397	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
AK009_09446	591	pdxT_2	COG0311	Pyridoxal 5'-phosphate synthase subunit PdxT	ATGGTGAAAATCGGTGTACTAGGTCTTCAAGGTGCAGTTCGTGAACATGTAAAATCAGTTGAAGCAAGTGGTGCCGAAGCTGTTGTTGTAAAGCGTATAGAGCAACTTGAAGAGATTGATGGTCTTATTTTACCAGGCGGTGAAAGTACAACAATGCGCCGTCTTATTGATAAGTATGCTTTCATGGAACCACTTCGCACATTTGCAAAGTCTGGTAAACCAATGTTTGGTACATGTGCAGGGATGATTCTTCTTGCGAAAACACTTATTGGCTATGAAGAAGCACATATTGGTGCTATGGATATTACAGTTGAGCGCAATGCGTTCGGACGCCAAAAGGATAGTTTTGAAGCTGCGCTTTCAATTGAAGGCGTGGGTGAAGACTTCGTTGGTGTATTTATCCGTGCGCCGTATGTTGTAGAAGTAGCTGATAATGTTGAAGTGCTTTCTAAGCATGGTGACCGAATGGTAGCGGTAAGACAAGATCAGTTTTTAGCTGCTTCATTCCATCCGGAATTAACAGATGATCATCGTGTCACAGCATACTTTGTTGAAATGGTAAAAGAAGCGAAAATGAAAAAAGTTGTATAA	MVKIGVLGLQGAVREHVKSVEASGAEAVVVKRIEQLEEIDGLILPGGESTTMRRLIDKYAFMEPLRTFAKSGKPMFGTCAGMILLAKTLIGYEEAHIGAMDITVERNAFGRQKDSFEAALSIEGVGEDFVGVFIRAPYVVEVADNVEVLSKHGDRMVAVRQDQFLAASFHPELTDDHRVTAYFVEMVKEAKMKKVV	PGPT0009185_1177	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
AK009_09448	1275	serS		Serine--tRNA ligase	ATGCTTGATATTAAATTTTTACGTACAAACTTTGAAGAAGTAAAAGCGAAATTACAGCATAGAGGTGAAGATCTAACTGATTTCGGACGTTTTGAAGAACTTGATACGAGAAGAAGAGAACTACTTGTTCAGACAGAAGAATTAAAAAGTAAACGTAATGAAGTGTCTCAACAAATCTCTGTATTAAAGCGCGAAAAGAAAGGTGCAGAAGCTCTAATTTTAGAAATGCGTGAGGTTGGAGAAAAAGTAAAGGATTTTGATAACGAACTTCGCACAGTTGAAGAAGACTTAGAAAGATTAATGTTATCTATTCCAAATATCCCTCATGAGTCTGCTCCAGTCGGTGAAACAGAGGATGATAATGTAGTAGCGCGTACTTGGGGAGAAGTGAAAGAATTTACTTTTGAACCAAAACCACATTGGGATCTTGCTACTGATTTAGGAATTTTAGATTTTGAACGCGCTGGGAAAGTAACAGGAAGCCGCTTCGTATTTTACAAAGGTGCTGGTGCAAGATTAGAGCGTGCTTTAATTAGCTTTATGCTTGATCTTCATACTGATGAGCATGGATATGAAGAAGTATTACCTCCATATATGGTAAACCGTGCAAGTATGACAGGAACAGGACAACTTCCAAAGTTTGAAGAAGATGCATTCCGTATTGAAAGTGAAGATTATTTCTTAATTCCAACAGCTGAAGTACCTGTAACGAATATGCATCGTGATGAGATTTTAAATAAAGAGCAATTGCCTATAAGATATGCTGCATTTAGCTCTTGCTTCCGCTCTGAAGCAGGTTCAGCTGGTCGCGATACACGCGGTTTAATTCGCCAGCATCAGTTCAATAAAGTAGAGCTTGTGAAGTTCGTAAAACCAGAAGATTCTTATGAAGAGTTAGAAAAATTAACAAATGATGCAGAACGCGTGTTACAATTATTAGAGTTGCCATATCGCGTTATGAGCATGTGCACAGGCGATTTAGGATTTACAGCAGCGAAGAAATACGATATTGAAGTATGGATTCCAAGCTATGGCACATATCGTGAAATTTCTTCTTGTAGTAATTTTGAAGCTTTCCAAGCGAGACGTGCAAATATCCGTTTCCGCCGTGAGCCAAATGGAAAACCAGAACATGTCCATACATTAAATGGATCTGGTCTTGCAATTGGACGTACGGTTGCAGCTATTTTAGAAAACTACCAACAAGAAGATGGTACAATTATAATTCCAGAAGTTCTTCGCCCTTATATGGGAGGAAAAACAGTTATTAAGTAA	MLDIKFLRTNFEEVKAKLQHRGEDLTDFGRFEELDTRRRELLVQTEELKSKRNEVSQQISVLKREKKGAEALILEMREVGEKVKDFDNELRTVEEDLERLMLSIPNIPHESAPVGETEDDNVVARTWGEVKEFTFEPKPHWDLATDLGILDFERAGKVTGSRFVFYKGAGARLERALISFMLDLHTDEHGYEEVLPPYMVNRASMTGTGQLPKFEEDAFRIESEDYFLIPTAEVPVTNMHRDEILNKEQLPIRYAAFSSCFRSEAGSAGRDTRGLIRQHQFNKVELVKFVKPEDSYEELEKLTNDAERVLQLLELPYRVMSMCTGDLGFTAAKKYDIEVWIPSYGTYREISSCSNFEAFQARRANIRFRREPNGKPEHVHTLNGSGLAIGRTVAAILENYQQEDGTIIIPEVLRPYMGGKTVIK				NA	NA	NA	NA	NA
AK009_09450	393			hypothetical protein	ATGGATCTTATTATACAAACGTTTCCTTTAGATGGAAAAACTTTATATTATGTACAATGTCCTGTCTGTAAGAACAATAGAATTTTAAACAGTGGTGCAAATGTGTCACGCATTATAAGCGATGATACATTCCGTAAACTTTGTGGTTGCACTTGTGATGTAAAGCAAGCTGAGACAAAAGTAGAGGCACCAAAAAAGGTTGAAAAACCAGCTGTAAAGAAAGAGGCAGCTCCAAAACGTACAGGTAAAGTATTAACGGCAGTAATTAACGGGAAAGAAATGACTGTTAAAGAGATTGCTGAAGCATACGATATTAGTACAAGTACTGTTCGTCAGCGTATTAACGCAGGAAAACCTGAGAGTGAAATTATTGCTCCAACAAAGAAGAAGTAA	MDLIIQTFPLDGKTLYYVQCPVCKNNRILNSGANVSRIISDDTFRKLCGCTCDVKQAETKVEAPKKVEKPAVKKEAAPKRTGKVLTAVINGKEMTVKEIAEAYDISTSTVRQRINAGKPESEIIAPTKKK				NA	NA	NA	NA	NA
AK009_09451	669	dck	COG1428	Deoxyadenosine/deoxycytidine kinase	ATGAATTTAAGGCAAAAATATGATATACCCAATGATGCAGTAATCACTATCGCCGGAACGGTAGGTGTGGGTAAATCAACTATGACAACTGCATTAGCTAATGCTTTAGGTTATCGCACATCATTTGAAAAAGTAGATTCCAATCCATATTTGGACAAATTCTATGCGGACTTCACTCGCTGGAGCTTCCACCTACAAGTGTACTTTTTAGCAGAACGATTTAAGGAACAAAAAAGAATTTTTGAATATGGTGGCGGTTTTGTTCAAGATCGTTCCATTTACGAAGACACTGGAATTTTCGCAAAGATGCATCATGAAAAAGGTACAATGACGGAAACTGATTATGAAACATACAAAGGTTTATTTGACGCTATGGTCATGACTCCTTACTTCCCTCATCCAGACTTATTAATTTACTTAGAAGGTTCTTTCGATGATATTGTCGATCGCATTCAAGAACGTGGGCGCCCAATGGAACAGCAAACACCAATTGAGTACTGGAAAGAAATGCATGGACGTTATGAAAACTGGATTAACAACTTTAATTCATGTCCTGTATTACGCTTAAATATTAATGAGTACGATATTTTAAAAGATGGTGATTCAATCGAACCAATCATTAAAAAAATTGGCCATTTTTTAAAACAAACACGTAAACTTGTAAAATAA	MNLRQKYDIPNDAVITIAGTVGVGKSTMTTALANALGYRTSFEKVDSNPYLDKFYADFTRWSFHLQVYFLAERFKEQKRIFEYGGGFVQDRSIYEDTGIFAKMHHEKGTMTETDYETYKGLFDAMVMTPYFPHPDLLIYLEGSFDDIVDRIQERGRPMEQQTPIEYWKEMHGRYENWINNFNSCPVLRLNINEYDILKDGDSIEPIIKKIGHFLKQTRKLVK	PGPT0021370_98	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519	NA	NA
AK009_09452	636	dgk	COG1428	Deoxyguanosine kinase	GTGACCGGAGTACCATTTATCACGGTTGAAGGACCAATTGGTGTTGGAAAAACTTCACTTGCGAAGGAAATTTCAACTCACATGCAACTCCACTTACTAAAAGAGATTGTTGATGAAAATCCCTTTTTAGGAAAGTTTTATGAAGACATCGACGAATGGAGTTTTCAAACAGAGATGTTCTTTCTTTGTAATAGATACAAACAATTAGAAGATATTAACATAAAGTATTTGAATCAAAGGAAACCAGTAGTAGCAGATTACCATATCTTTAAAAATTTAATTTTTGCATCCCGCACATTAAAAGACTCTCAATATGACAAGTACATGCAAATTTATCGTATCCTTACACAAGATATGCCTGTGCCAAATGTCATTGTTTATTTAACAGCTAGCCTAGAAACATTGCAAAAACGAATCACCTTGCGCGGAAGAGAATTTGAAAAAAACATGGATCCAAATTACTTACTACAGCTCACAAAAGATTATGAAACAGCAATGGATACTTTTAGAAAAGATCATCCGGAGATACCAGTATTGAAATTTAATGGAGACGATATGGATTTTGTAAAAAATCCTGATGATTTAAACGTCATCCTATCTGCCCTTCAAAATACTCTCTTAAAGGAGTCGAAATAA	MTGVPFITVEGPIGVGKTSLAKEISTHMQLHLLKEIVDENPFLGKFYEDIDEWSFQTEMFFLCNRYKQLEDINIKYLNQRKPVVADYHIFKNLIFASRTLKDSQYDKYMQIYRILTQDMPVPNVIVYLTASLETLQKRITLRGREFEKNMDPNYLLQLTKDYETAMDTFRKDHPEIPVLKFNGDDMDFVKNPDDLNVILSALQNTLLKESK	PGPT0021655_554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021655-dgk-K15518	NA	NA
AK009_09453	540	entB	COG1535	Enterobactin synthase component B	ATGAAAAATACCGCCTTGCTCATTATCGATATGATTAATGATTTTCAATTTTCCCACGGACCCATTCTAGCTCAAAAATGCGAAACTATAACAAACCCTATTTTACAATTAAAGAAAAAAATGAAATCCTTCGGCTATCCTATAATTTACGTTAATGACCATTATCAACTTTGGAGATCTGATATCGACCAACTTATTACTCATTGTACAAATAAATATAGTGAAAATATAATCCATAAGATTGCTCCAAGTTCTGATGATTACATTTTTATTAAACCACATTATTCCGCTTTTTATGAAACACCTTTAAATTCATTACTAGGTTATTTAAAAATAGAAAATCTAATATTAACAGGAGTTGCCGGGAATATATGCATCCTATTTACAGCTAATGATGCTCATATGAGAAATTATAAATTGTATGTACCACAGGATTGTATCGCCTCTAACAACGACCAAGATAATATACATGCTTTAAAAATAATGGAAACTACATTGAAAGCAAATATAACATCGTCATCCAAAATAAAATTTAATTAA	MKNTALLIIDMINDFQFSHGPILAQKCETITNPILQLKKKMKSFGYPIIYVNDHYQLWRSDIDQLITHCTNKYSENIIHKIAPSSDDYIFIKPHYSAFYETPLNSLLGYLKIENLILTGVAGNICILFTANDAHMRNYKLYVPQDCIASNNDQDNIHALKIMETTLKANITSSSKIKFN				NA	NA	NA	NA	NA
AK009_09454	501	tadA_3	COG0590	tRNA-specific adenosine deaminase	ATGGAACAAGATCGAGATATTTATTTTATGCAATTAGCGATAGAAGAAGCTAAAAAGGCGGAGGAAATACAGGAAGTACCAATTGGAGCAGTTATAGTGTTAGATGGTGAGGTAATTAGTGTTGCTCATAATTTAAGGGAAACTGAGCAAAGATCAATAGCTCATGCTGAGTTGCTAGCGATAGATGAGGCGTGTAAAAAATTAGGGACATGGCGTTTAGAAGATGCAACATTGTATGTAACATTAGAACCTTGTCCAATGTGTGCGGGTGGAATTGTTTTATCGCGAGTGAAGCGAGTTGTATATGGTGCAAGTGATCCGAAGGGCGGATGTGCAGGGACATTGATGAATCTTTTAACGGATGAACGATTCAATCATCAATGTGAAGTAGTAACTGGTGTACTTGAGGAAGAATGCGGTACGTTGTTAACAAACTTTTTTAGAGAGCTTCGTAAAAAAAGAAAAGCGATAAAAAAATTAGAGAAAAGCAATGGGAACTAA	MEQDRDIYFMQLAIEEAKKAEEIQEVPIGAVIVLDGEVISVAHNLRETEQRSIAHAELLAIDEACKKLGTWRLEDATLYVTLEPCPMCAGGIVLSRVKRVVYGASDPKGGCAGTLMNLLTDERFNHQCEVVTGVLEEECGTLLTNFFRELRKKRKAIKKLEKSNGN	PGPT0006855_80	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
AK009_09456	1689	ruvB_2		Holliday junction ATP-dependent DNA helicase RuvB	GTGTCATACCAAGCGTTATACCGAACATGGAGACCGCAAAAGTTCGAAGATGTAGTCGGTCAAAAGCACGTGACAAAAACGTTGCAAAATGCCCTTCTTCAAGAGAAAGTTTCACATGCTTATTTATTTTCTGGTCCGAGGGGAACAGGAAAAACGACAATTGCAAAAGTATTTGCAAAAGCAATTAACTGTGAACATGCTCCGGTAGCTGAACCTTGTAATGAATGTCCTTCTTGTTTAGGAATTACACAAGGATCCATTTCAGATGTATTAGAAATTGATGCGGCTTCAAATAACGGTGTAGATGAAATTCGAGATATTAGAGATAAAGTAAAATATGCTCCAAGTGCTGTAGAATATAAAGTATACATTATTGATGAAGTTCACATGCTTTCTATGGGTGCATTCAATGCGCTTTTAAAAACCTTAGAAGAGCCGCCAGGACATGTTATCTTTATTTTGGCGACAACAGAACCTCATAAGATCCCGCCTACAATTATTTCGCGTTGTCAGCGTTTTGAATTCCGAAAAATATCAGTGAATGATATTGTTGAGAGATTATCAACAGTCGTGACGAATGAAGGTACGCAAGTGGAAGATGAAGCATTACAAATTGTTGCACGTGCTGCTGAAGGTGGTATGCGTGACGCGCTTAGTCTTATTGATCAGGCTATATCTTATAGTGATGAGATTGTTACGACAGAAGATGTATTGGCGGTAACAGGATCTGTTTCTCAGCAATACTTAGGCAATTTAGTAGAATGCATACGTGAAAATGATGTATCAAGAGCATTACAGATCATAGATGAAATGATGAGTAAAGGGAAGGATCCAGTTCGTTTTATGGAGGATTTCATTTACTATTATCGTGATATGCTTTTATATCAAACTTCACCGCAACTAGAACATATGTTGGAACGAGTAATTGTAGATGATCAATTCCGTAAGTTGAGTGAAGAAATGCAACCGGAAGTGATCTATGAGATTATTCATACCCTTAGTAAGGGACAACAGGAAATGAAGTGGACAAATCATCCGCGTATTTTCTTAGAAGTTGTTATGGTGCAGTTGTGTCAACAGTTTATGATGCAAGCAAACGGTACGGATCGTTTGCAAGCAATTATGAACAGGATGCAGCAATTGGAGAAAGAGTTAGAGCAAGTCAAAAAGAACGGTGTGCCAGCTGGTGTACAACAGGAAGTAAGAGAGACACGTGCAACACCAAAACCCGTACGAACAGGAAGTATGAAGATTCCTATCGGGCGTGTAAATGAAGTATTAAAACAAGCGAAGCGTCAAGATTTAGAACAATTAAAAGCTGTATGGGGTGAGTTGTTAGGAAGACTCAAATCATATAACAAAGTAGCGTTTGCTGTTTTACTAGAAAATAGTGAACCAGTGGCAGCTTCAGATGACACTTACGTTTTAGCATTTCAATATGAGATTCACTGTAAGATGGCGAGCGAAAATCGAGAAGCTATGGATACAGTAGAACAAGCTTTATTTGAATTGCTAAGTAAAAGGTTAAATATGATTGCCATTCCAAAAAGTGAATGGGGTAAAATCCGTGAAGACTTTTTACAACGTGAAGGTGGAGAGTCTGAAGAAAGCCCGGAGAAAAAGGAAGACCCTCTTATAGAAGAGGCAGTGAAATTAGTAGGACAAGAACTCATTGAAATAAAAGAGTAA	MSYQALYRTWRPQKFEDVVGQKHVTKTLQNALLQEKVSHAYLFSGPRGTGKTTIAKVFAKAINCEHAPVAEPCNECPSCLGITQGSISDVLEIDAASNNGVDEIRDIRDKVKYAPSAVEYKVYIIDEVHMLSMGAFNALLKTLEEPPGHVIFILATTEPHKIPPTIISRCQRFEFRKISVNDIVERLSTVVTNEGTQVEDEALQIVARAAEGGMRDALSLIDQAISYSDEIVTTEDVLAVTGSVSQQYLGNLVECIRENDVSRALQIIDEMMSKGKDPVRFMEDFIYYYRDMLLYQTSPQLEHMLERVIVDDQFRKLSEEMQPEVIYEIIHTLSKGQQEMKWTNHPRIFLEVVMVQLCQQFMMQANGTDRLQAIMNRMQQLEKELEQVKKNGVPAGVQQEVRETRATPKPVRTGSMKIPIGRVNEVLKQAKRQDLEQLKAVWGELLGRLKSYNKVAFAVLLENSEPVAASDDTYVLAFQYEIHCKMASENREAMDTVEQALFELLSKRLNMIAIPKSEWGKIREDFLQREGGESEESPEKKEDPLIEEAVKLVGQELIEIKE				NA	NA	NA	NA	NA
AK009_09457	330		COG0718	Nucleoid-associated protein	ATGATGCGTGGCGGAATGGGAAATATGAATAACATGATGAAACAAATGCAAAAGATGCAAAAAGACATGGCGAAAGCACAAGAAGAGCTTGGTGAAAAAACAGTTGAAGGTACAGCTGGCGGCGGAATGATTACAGTTATTGCAAATGGTCACAAGCAAATTCTTGAAGTGAAGATTAAAGAAGAAGTTGTAGATCCAGAAGATATCGAAATGTTACAAGACTTAGTGTTAGCTGCAACAAATGATGCACTTAAAAAGGCCGATGAGCTATCAAACTCTACAATGGGTAAATTTACAAAAGGCTTAAACTTACCAGGTGGAATGTTCTAG	MMRGGMGNMNNMMKQMQKMQKDMAKAQEELGEKTVEGTAGGGMITVIANGHKQILEVKIKEEVVDPEDIEMLQDLVLAATNDALKKADELSNSTMGKFTKGLNLPGGMF				NA	NA	NA	NA	NA
AK009_09458	597	recR	COG0353	Recombination protein RecR	ATGCATTATCCAGAGCCAATATCAAAACTAATCGATAGTTTTATGAAGTTGCCAGGTATCGGACCGAAAACAGCGGTTCGATTGGCATTTTTCGTATTAGATATGAAAGAAGATGATGTGTTAGGTTTTGCGAAAGCACTTGTAAATGCGAAGCGAGATTTAGCGTATTGTTCTGTATGTGGACATATTACTGATCGTGATCCTTGTTATATTTGTAATGATTCGCATCGAGATCAATCAGTTGTTTGTGTCGTGCAAGAACCGAAAGATGTAATCGCGATGGAAAAAATGAAAGAGTATCAAGGTGTATATCATGTGTTACGTGGTGCGATTTCTCCTATGGAGGGAATTGGACCGGAAGACATTAATATCCCGCAACTCTTAAAGCGACTACATGATGAAACGGTACAAGAAGTAATATTAGCAACAAACCCTAATATTGAAGGGGAAGCTACAGCGATGTATATCTCCCGCCTCTTAAAACCTACAGGCATTAAAGTAACTCGTATTGCACATGGTCTGCCAGTTGGTGGAGATTTAGAATATGCAGATGAAGTGACACTATCGAAAGCGTTAGAAGGTCGCAGAGAAGTATAA	MHYPEPISKLIDSFMKLPGIGPKTAVRLAFFVLDMKEDDVLGFAKALVNAKRDLAYCSVCGHITDRDPCYICNDSHRDQSVVCVVQEPKDVIAMEKMKEYQGVYHVLRGAISPMEGIGPEDINIPQLLKRLHDETVQEVILATNPNIEGEATAMYISRLLKPTGIKVTRIAHGLPVGGDLEYADEVTLSKALEGRREV				NA	NA	NA	NA	NA
AK009_09459	222			hypothetical protein	ATGTTCTTTCAAAAAAAGGGTAAATTGCGTAAAGAGTATGATGATAAGTTAATTGTACTTTTGGAAAAAGTGAAGAATGAGTGGTTACGTCAGAAGAGAATGGTTGAACAAAGTGTAGAACCATCTCAAGATGTCATTTGTTCTTTGAAGATAGCAGAGGCGAAATATTTCTTCTTGTTGAAAGAAGCAAAGCGTCGTCCTGTAAAAATGGAACAATGGTAA	MFFQKKGKLRKEYDDKLIVLLEKVKNEWLRQKRMVEQSVEPSQDVICSLKIAEAKYFFLLKEAKRRPVKMEQW				NA	NA	NA	NA	NA
AK009_09460	270			hypothetical protein	ATGAATTCTACAATTATTATTGTTGGCATTCTTACTTTAGTGTTTATTTTTCTTGTTTTTGGTGTTGCCTCTAAGCCATTGCGTTTTATAGGTAAGGTGATTTTTCATGTTACTTTAGGCATAGCGTTGCTTTTTATCGTAAATGTTGTAGGGACATATTTTGATTTTCATATCCCGATTAACATGGGTACAGCAGCAATAACGAGTTTATTAGGCCTACCGGGTGTGGCAGCATTAGTGATTATTAAGCTTTATATTATGCCAAGATAA	MNSTIIIVGILTLVFIFLVFGVASKPLRFIGKVIFHVTLGIALLFIVNVVGTYFDFHIPINMGTAAITSLLGLPGVAALVIIKLYIMPR				NA	NA	NA	NA	NA
AK009_09461	1074			hypothetical protein	GTGCACGAAAAACCCGAAGACCAGCGGGACCTGAAGCGCCAGGTTGATCCACAGCGCACCGGGCAGGCGCTGCACAAAAGCCATGACCGCGTGGGCGAGCCCGATGACCGTGATGTAAACCCAGTTAAACGTGGTCCAGTGCGCGCCATCATCGACCTTGAGCACCACCAGCAGGATCAAAAAGACGGTCAGCGACTCCATGATCAACGTTCCGGAGAGCACGCCGTTAAGCCCCTTCAAGGGGTCCTTGGCCGGCGCGCGCCCGGGGCCCAGCGGGCTCGTTTGCGGCCGGGACGGCTTCTTGGAGCTCATCTAGGGTTCCTTTCCAAACATGGAGCGGGCCTCGCCCGCCGTAACGACGGACCCGGTAATGACAACACCGGATCCAGATTGCACGCCCACCTCGGCGAGCGCATCCTCGGCAAGTTCGACGGCGAGCTCGTAGGCGTCGGCAAGCCGCGTGACGACGTGCACCCGCTCGTCGCCGTAGATCTCGCGCGCCAGCTCCGCCAGCTCGTAGGCGTCCATCGCGCGCGGGGAAGTGTTTTGCGTGATCACCACCTCGGTGAACACGGGCTCGAGCGCGGCGAGGATTCCGGTGGCGTCCTTGTCGCCGAGCACCCCGAGGACGCCGATGAGGCGTGTGAAGTCGAAGTCGTTGGCAAGCGCGTCGGCAAGCGCGCGGGCCCCGTGCGGATTGTGGGTGGCGTCGATGAACGTTGTCGGGGTGGCGCGCACTCGCTCCATGCGGCCCGGCGACTCCACTGCCGCGAAACCGCGGCGCACGGTGTCCGCGTCGAGGGGGCGCTCCGAGCTCGCGCCGTGGAACGCCTCCACCGCGGCGAGCGCGACGGCCGCGTTGCGGGCCTGGTGCGGACCGGACAGCGGCAGGAAGATGTTGGTGTACTCCCCGCCGAGCCCCTTCAACGTGAGGTTCTGACCACCCACGGCGACCGTCGCCTCGGCCACCGTGAACTCGCTGCCCAGGCGCGCGACGGCCGAGCCGGTCTCCACGGCGGCCTCGAGCACCACGCGCATCGCCTCCGGTTCCTGGTCGGCGATAATCGTGACTGA	MHEKPEDQRDLKRQVDPQRTGQALHKSHDRVGEPDDRDVNPVKRGPVRAIIDLEHHQQDQKDGQRLHDQRSGEHAVKPLQGVLGRRAPGAQRARLRPGRLLGAHLGFLSKHGAGLARRNDGPGNDNTGSRLHAHLGERILGKFDGELVGVGKPRDDVHPLVAVDLARQLRQLVGVHRARGSVLRDHHLGEHGLERGEDSGGVLVAEHPEDADEACEVEVVGKRVGKRAGPVRIVGGVDERCRGGAHSLHAARRLHCRETAAHGVRVEGALRARAVERLHRGERDGRVAGLVRTGQRQEDVGVLPAEPLQREVLTTHGDRRLGHRELAAQARDGRAGLHGGLEHHAHRLRFLVGDNRD				NA	NA	NA	NA	NA
AK009_09462	570			hypothetical protein	GTGGTCGAGGCCGATCGGCATGATCACGTTGACGTCGGCCTCGATGACGTTGGTGGCGTCCCAGCGCCCGCCCATGCCGACTTCGACCACGGCGACCTCCACGGGGGCGTCGGCGAACGCGGCGTAGGCCAGGCAGATCAGCGCCTCGAAATAGCTCAGTCGCTGTCCGCTGTGCTGGTCCGCCAGTTCCATGTACGGCGCGACCTGGTCGTAGATGGCAACGAACTGCGCCGGGTGGATGGGCGCACCGTCGATGCCGATGCGCTCGGTGATCAGCTGCAGGTGGGGGCTCGTCGTGCGGCCGACCCGGTGGCCGAAGGCGCGCAGCAGAGACTCGATCATCCGCGTCGTCGACGTTTTGCCGTTCGTGCCCGCGACGTGGATGGAGCGGAAAGACGTCTGCGGCTCGCCCAGGTAGTCCATCACGAGGCGGACGCGATCGAGCGTCGGGTCAATCTCCGTTTCACCCCACCTTTTGAGCAGCTCGGCCTCCACGCGTCGCAGCTCGGCGATGTCGTGCTCGGTCACCGGGCGGGGTTTCGCCTCCTCGTCGGTGGGTTCGTCGCCTAG	MVEADRHDHVDVGLDDVGGVPAPAHADFDHGDLHGGVGERGVGQADQRLEIAQSLSAVLVRQFHVRRDLVVDGNELRRVDGRTVDADALGDQLQVGARRAADPVAEGAQQRLDHPRRRRFAVRARDVDGAERRLRLAQVVHHEADAIERRVNLRFTPPFEQLGLHASQLGDVVLGHRAGFRLLVGGFVA				NA	NA	NA	NA	NA
AK009_09463	711			hypothetical protein	ATGCGTTCGAACTCTTCCTGCGCGATCTGGCGGCGGGCCTTGATCTTCTCCACGACCTCGGCCGGTGCCTTGGCCAAGAAAGACTCGTTGCCCAGCTTCTTGCCGGTGGTCTCGAGCTCCTTTTCGGCCTCAGCGAGCTCTTTGCTCAGCCGCTTGCGCTCGGCGGCGATGTCGACGGTGCCCGAGGTATCCAGCGCCACGTCAAGCGTCGCCTGGCTTAGGCGCACTTCAACGCTTGCCGACGCCTCAAACTCACGCTCAGGAGTCTCCACCTTCGCGATCGAGCGCACCAAATCCTCCTGGCCGGCGAGGTCGGCGCGGGCAAAGTCGAGGCGGGCCGGCACCTTCTGCGAGGGCTTGACCCCCTGGTCGGAGCGGAAGCGGCGCAGCTCGGTGATCAGCTTGACCGCGTCCTGGATGCGGCGGCGAGACTGCGTGTCCCTCTCCGCGCCTCCGTTGGTGTCCTCGGCGGTGGGCCACGGCGCGAGGGAGAGCGACTCCTGCTCGGTCAGCGCGGTCCACAGCACCTCGGTGACAAACGGCATCGTCGGATGCAGCAGGCGCAGCACGACGTCGATCACGCGGCCAAGCACGATCTGTGTGCTGCGACCGCGGGCTCGCTCGGCATCGCTCGCTGACTCTGCGTCGCGCGGGATCTGGGTCTTGGCAATCTCCAGGTACCAGTCGCACAGCTCGTCCCACGCGAAGTGA	MRSNSSCAIWRRALIFSTTSAGALAKKDSLPSFLPVVSSSFSASASSLLSRLRSAAMSTVPEVSSATSSVAWLRRTSTLADASNSRSGVSTFAIERTKSSWPARSARAKSRRAGTFCEGLTPWSERKRRSSVISLTASWMRRRDCVSLSAPPLVSSAVGHGARESDSCSVSAVHSTSVTNGIVGCSRRSTTSITRPSTICVLRPRARSASLADSASRGIWVLAISRYQSHSSSHAK				NA	NA	NA	NA	NA
AK009_09464	156			hypothetical protein	GTGATACAGCTCCTCGTTGGCCTTGGCGAACTGGTAGTCATCCAGGTAGGCGTCGACGGAGGCGCGCACCTCCTCGGCGCGGTCGAGGATCCACCGGTCGGCGTCGGTAAGCTCCGCGCGCGCCGGCAGCGGGCCCACCGCGGCGCCGTTGAGTAG	MIQLLVGLGELVVIQVGVDGGAHLLGAVEDPPVGVGKLRARRQRAHRGAVE				NA	NA	NA	NA	NA
AK009_09465	1092			hypothetical protein	GTGGAGGTAGAGGTCGGTGAACGGAACCTGGGGGCGCCCGTCGTTGCCCGCCGGGAACAGCTCCGGGGTTTGGGTGGCGGCGAACGTGCCGAACATCATCATGCGCGCGACCCAGAAGAACAGGATGTCGTAGGCAGTGACCAGCACGGATGTCGGGTAGAACGCCTCGAGCTCGGGCGTCTTCTCCGGCCAGCCCATGGTGGAAAACGGCCACAGCGCCGAGGAGAACCAGGTGTCCAGCACGTCCGGGTCCTGGGTGTAGCCCGCCGGCGGCTCCTCGTCCGGGCCGACGCATACGATCTCGTCGTTCGGTCCGTAGAAAATCGGGATGCGGTGGCCCCACCACAGCTGGCGCGAGATGGTCCAGTCGTGCATGTTGTCGACCCAGTCGAAGTAGCGCTTCTGCATCGACTCCGGGTGGATCACGGTGTCGCCGGAGCGCACCGCCTCGCCGGCCATGGCGGCAAGCTTGTCCACCTTGACAAACCACTGCAGCGACAGGCGCGGCTCGATCGCCTCGCCGGATCGCTCGGAGTGGCCCACCGAGTGGACGTAGGGGCGGACCTCCTTGACAATGCGGCCCTGGGCGGCCAGCGCCTCGCGCACGGCAACGCGAGCCTCCTCACGGCTCATGCCGTCGAACTCGGTGCCGGTATCGGCGATGCGCCCGGCGGTGTCCATGATGATCGGCATGTCCAGGTCGTGGCGCAGGCCCATTTCGTAGTCGTTCGGGTCGTGCGCCGGGGTGATTTTCACCGCGCCGGTGCCGAGCTCCATATCGACGTAGTCGTCCGCGATCACGGTCAGGGTGAGGTCGTCGCGAAGCGGGTGCTCAAACGTCTGGCCCACGAGGTGCGCGTAGCGCTCGTCGTCGGGGTGGACGGCGATGGCGACGTCGCCAAGCATCGTTTCGACGCGGGTGGTGGCCACGACGAGGTGCGGCTCGTCGTCGTTAAGCGAGCCGTAGCGGATGGAGACGAACTCGCCCTCGACGTCCTTGTAGATGACCTCGATGTCGGACACCGCGGTCTCCAGCACCGGGGACCAGTTGACCAGGCGGTAGTCGCGGTAGATCAGGCCGGCGTCGAATAG	MEVEVGERNLGAPVVARREQLRGLGGGERAEHHHARDPEEQDVVGSDQHGCRVERLELGRLLRPAHGGKRPQRRGEPGVQHVRVLGVARRRLLVRADAYDLVVRSVENRDAVAPPQLARDGPVVHVVDPVEVALLHRLRVDHGVAGAHRLAGHGGKLVHLDKPLQRQARLDRLAGSLGVAHRVDVGADLLDNAALGGQRLAHGNASLLTAHAVELGAGIGDAPGGVHDDRHVQVVAQAHFVVVRVVRRGDFHRAGAELHIDVVVRDHGQGEVVAKRVLKRLAHEVRVALVVGVDGDGDVAKHRFDAGGGHDEVRLVVVKRAVADGDELALDVLVDDLDVGHRGLQHRGPVDQAVVAVDQAGVE				NA	NA	NA	NA	NA
AK009_09466	297			hypothetical protein	GTGGTCCATGCCCGGCAGCCACAGGACCTCGAAGCCCTGCATGCGCTTGCGGCGCACGAGCGCGTCCATCAGCGTGTGGTCCAGGGCGTGGCCCATGTGGAGCTGGCCGGTGACGTTCGGCGGCGGCAGAACGATGGAGTAGGTCGGCTTGCCGGAAGCCGGGTCGGCGGTGAAGTAGCCCTTGTCTACCCAGCCGTCGTAAAGAGCCTGCTCGTGCTCGCGCGGCTCCCACGCTTTGGGCAGCGCGTCGGCGCGGTTTTTGCCTACCAAGTCATCTCGTTCAGTCACGGGCCTTAG	MVHARQPQDLEALHALAAHERVHQRVVQGVAHVELAGDVRRRQNDGVGRLAGSRVGGEVALVYPAVVKSLLVLARLPRFGQRVGAVFAYQVISFSHGP				NA	NA	NA	NA	NA
AK009_09467	282			hypothetical protein	GTGGTCCAGCCGCATCATCGCGTTGAAGTGCTCGCCGGGGATATCGGGCGCGGCCTTGGAGGCGATGTAGGCGTTGGTGTTCGCGGGGTTGCCGACGACGAGCACGCGAACGTCGCTGGCAGCGCCGCTGTTGAGGGCGCGGCCCTGCTCCGTGAAGATGCGCCCGTTCGCCTCCAGCAGGTCTTCGCGGGACTCACCCTTGCCGCGCGGCTTGGCGCCGACCAGGAAGGCGGCGTTGACCCCGTCGAAGGCCTGCTCGGCGGAATCGGTGACGTTGATTGA	MVQPHHRVEVLAGDIGRGLGGDVGVGVRGVADDEHANVAGSAAVEGAALLREDAPVRLQQVFAGLTLAARLGADQEGGVDPVEGLLGGIGDVD				NA	NA	NA	NA	NA
AK009_09468	972			hypothetical protein	GTGCAGGACAACGTCGGAGTGGCCGTTGAGCGCGGCCGTTTCGCTCTGGTCAAGCACCGGGTCGAGGTTTTCGCGCAGCATCAGTGCCACGGCATCGGTGTTGTCCTGGAAGCGGTAGAAAATCGCGTCGATGAACCTGCGCATCCCCTCCACGGGTACGGCGTGGGAGCGGTTGAGCACGTCGGCGGGCGGGGTGATGCGCTGCATCGCGTAAGTCAGAGCGCGCCGGTAGAGGGCCTTCTTATCCACGAAGTGGTAGTGGATCATGCGCTTGGACATCCCGGATTGGCGGGAGATGTCGTCAAGCTTCGTGTTCGCGAACCCCTCCTTCGCGAACATCGTCAGCGCTACGTCAACAACGCGGTCGAGGCTCTCTCGGGTTTCGCCGCCGGGCGCGCGGGAGGCGAATCCGCCGGGCTCCGCGGCAGGGTCCGAGGAGAGATCCGCGCGTGGCGTGTGGGCCAAGGGTGCTCCTTTGAAAGAGTGTTTCGGGCAAGCGATCGTTGCAATGCACCCCCTATGGTGCCCGAAACCGACTGCCTATGTGCAAAAGCCCCGGCGAATACAACGCAAAAACGCCCGCGTTGCCACCTTTATGGGGGGAGGAGGGCGTCGAAAAGCAGCCTATACTGGACGCGGAAGTCACCACCACGATCAGGCAGGACGCGCCATGAGCCACAACAGCACGACACAACCCGTCAACGTCGCCGTCTCGGGAGCGGGAGGCAACATCGCCTACTCGCTTCTGTGGAGAATCGCCTCCGGCGATGTCTGGGGGCCCGAGCGCGCGATCAACCTGACCCTGCTGGAGATCCCGGACGCCGTGCACGTCGCCGAGGGCGTGGCCATGGAGCTGGCCGATTCCGCGTTTCCGCTGCTGAGCTCAATCAACGTCACCGATTCCGCCGAGCAGGCCTTCGACGGGGTCAACGCCGCCTTCCTGGTCGGCGCCAAGCCGCGCGGCAAGGGTGA	MQDNVGVAVERGRFALVKHRVEVFAQHQCHGIGVVLEAVENRVDEPAHPLHGYGVGAVEHVGGRGDALHRVSQSAPVEGLLIHEVVVDHALGHPGLAGDVVKLRVREPLLREHRQRYVNNAVEALSGFAAGRAGGESAGLRGRVRGEIRAWRVGQGCSFERVFRASDRCNAPPMVPETDCLCAKAPANTTQKRPRCHLYGGRRASKSSLYWTRKSPPRSGRTRHEPQQHDTTRQRRRLGSGRQHRLLASVENRLRRCLGARARDQPDPAGDPGRRARRRGRGHGAGRFRVSAAELNQRHRFRRAGLRRGQRRLPGRRQAARQG				NA	NA	NA	NA	NA
AK009_09469	495	clpX_2	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	GTGATTGCCGAGCGCGTCGGCAAGCGCGGCATCGGCTTCGGCGCGGAGATCGACTCAAAGAGCGAGCGTGACGACGCCAACCTGCTGGGCAAGGTCATGCCCGGAGACCTTGTGAAGTTCGGGCTCATCCCCGAGTTCATTGGGCGCCTTCCCATCCTCGCCAACGTCGAGGACCTCGACCGCGACGCGCTCGTTCGCGTGCTCAAGGAGCCGAAGAACTCGCTGGTCAAGCAGTACGCCCGCCTGTTTACTCTCGACGGCGCGGAGCTGGAGATCACCGACGACGCGCTCGGCGAGATCGCGGACCGGGCGGCGGAGCGCAAGACCGGCGCGCGAGGCCTGCGCGCCATCATGGAAGAGTTGCTCGTCCCGGTCATGTTCGACCTGCCCGATCGCGAGGACGTCACCCGGGTGGTCATTAACGCGGCGGTCGTGCGCGGGGAGGCGGACCCGGAGTACGTCACCGAGGCGAAGTCAGAAGGAAAAACCGCCTAG	MIAERVGKRGIGFGAEIDSKSERDDANLLGKVMPGDLVKFGLIPEFIGRLPILANVEDLDRDALVRVLKEPKNSLVKQYARLFTLDGAELEITDDALGEIADRAAERKTGARGLRAIMEELLVPVMFDLPDREDVTRVVINAAVVRGEADPEYVTEAKSEGKTA	PGPT0014600_1783	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
AK009_09470	771			hypothetical protein	TTGGTTCGGGTGCTTGCGGCCGCCCTGCGGCGGGACGGAGGCGACGGTGCCCTCAAGGATCTTCAACAGGGCTTGCTGGACGCCCTCGCCCGACACATCACGCGTGATCGACGGGTTTTCGGACTTGCGCGAGATCTTGTCGACCTCATCGACGTAGATAATGCCGTGCTGGGCGCGATCGACGTCGAAATCGGCGGCTTGGAGCAGCTTGAGCAGGATGTTTTCCACGTCCTCGCCCACGTAACCGGCCTCGGTCAGGCTGGTGGCGTCCGCGATAGCGAACGGCACGTCGAGCATCCGCGCCAGCGTCTGCGCGAGGTAAGTCTTGCCCGAACCCGTCGGCCCGAGAAGCAAGATGTTCGACTTGGCGATCTCGACGTCGTCGTCACGCTTGCGGCTGCTCAGCGAGGCCGGGGACTGCGAGCGGATGCGCTTGTAGTGGTTGTACACGGCGACGGCGAGGGTGCGCTTGGCCGTGTCCTGGCCAATGACGTACTGGTCGAGGAAACCCACGATCTCGGAGGGCTTGGGCAGCTTCTCCGCGTCCGCGTCGTTGGCCCCCTGCGAGCCGGCGAGCTCTTCCTCGATGATTTCGTTGCACAGCTCGATGCACTCGTCACAGATGTAAACACCGCCGCCGGCGATGAGCTTCTTCACCTGCTTCTGACTCTTTCCGCAGAAGGAGCACTTGAGCAGGTCAGCGCTTTCTTGCATGTGTGCCATTCGGGTTTTGCTCTCGCTTCGTCTCGGGTATGTGTCCCTTCACTCTAG	MVRVLAAALRRDGGDGALKDLQQGLLDALARHITRDRRVFGLARDLVDLIDVDNAVLGAIDVEIGGLEQLEQDVFHVLAHVTGLGQAGGVRDSERHVEHPRQRLREVSLARTRRPEKQDVRLGDLDVVVTLAAAQRGRGLRADALVVVVHGDGEGALGRVLANDVLVEETHDLGGLGQLLRVRVVGPLRAGELFLDDFVAQLDALVTDVNTAAGDELLHLLLTLSAEGALEQVSAFLHVCHSGFALASSRVCVPSL				NA	NA	NA	NA	NA
AK009_09471	1023			hypothetical protein	GTGCACGTGGCCATCGCCATGTGGGAGGAGCCGTGGAAGTCCGGCGACGACGCGGAGCGCAAGGGCTGGATCATCGCGATCGACGGTGGCAAGAACCGGCGCAGCGTCTGCGAGGACGGGGTTGCCGAGCGCGACCCCGACCCGTTGGCGGTCGAGGCACTCGAGGCCGAGCTGGCAAAACTGAACGTCTCAGCGCGCGACGTGTGGGTGGTCACGGGCAAGCGTCAGATCGCGCTGCGCTCGCTGCTGCAAAAGGCCGGGTTCGATGTGTCGGGGTCGTTCTCCCCGCAGAACCGGGCGGTCCGGCGCGCGACGAGTTTGATGCAGCGCCGGCGCAAGGCGACGTCGATACGCGTGCCTGAGGGCGAGCGGCGCAGGCGTCGTAAAGCGGCCCGCGAAGCAGCGCCGGAGACCCAGTGGCTGCCAAGCTACTCGCGCACCGAGGCGCGCGACGTCAATGCGGTCACTATCTCGTGCGACGCGTCGTCGGACACGCACTCCACGGGTAGCGTCTGCTTCGTCGCGTCGACGGGCGATTACGAGGTGGAGACGAAATCCACCACCGCGAGCATCGACGACCTCGAGCTGGTGGCGCTGACCAAGGCGCTGCGCTACGCCGTGCGCGTCGGTGCGCGAAGCGCGACGATCGAGAGCGACTCCGCCGGAGCGCTAGCCGCGGCCCACGGGATGCACAAGCGGGGAACCGACGGGCGCCGCCGTGGTGGCATTCGCGGCAACGTGCGCCGCGACTACTACGAAGCGTGGCGCGAGGCGTCTGAGTCGCTGGACCTCACCCTCAAGCGGGTCCTCGGTCACTCTGGCGACCCGCTGAACAAGGCCGCGGACCAGATCGCGTACCTGGCGATGCGCGCCTCAGTGCACCCCCAGGAGGCCTCCGAAGCCGCGTTGAAGAAGGGGATCGCGTCCTCGCTGGCGGAGGCAACGGAGGGCGGGGCGCCGCGGCGACGCAAGAGACGCCGCCGGGGGCGCAGAGGGCGCGGCCAAGCGCCGAAAACCACGTAA	MHVAIAMWEEPWKSGDDAERKGWIIAIDGGKNRRSVCEDGVAERDPDPLAVEALEAELAKLNVSARDVWVVTGKRQIALRSLLQKAGFDVSGSFSPQNRAVRRATSLMQRRRKATSIRVPEGERRRRRKAAREAAPETQWLPSYSRTEARDVNAVTISCDASSDTHSTGSVCFVASTGDYEVETKSTTASIDDLELVALTKALRYAVRVGARSATIESDSAGALAAAHGMHKRGTDGRRRGGIRGNVRRDYYEAWREASESLDLTLKRVLGHSGDPLNKAADQIAYLAMRASVHPQEASEAALKKGIASSLAEATEGGAPRRRKRRRRGRRGRGQAPKTT				NA	NA	NA	NA	NA
AK009_09472	756			hypothetical protein	ATGACCCGCCCAGGGTTCCTAGCGATATTTTCTCCATGTTCCCCACGTCAGCGGGCCCTCGTACTCCTAACGGTTGAGCTTGCGGTAGTCGAAGACCTGGTCGATGATGCCGTACTCCACGGCTTCGTCGGCGGTGAGGATCTTGTCGCGGTCGGTGTCTTTGCGGATCTGCTCGGCACTGCGCCCGGTGTGCTCAGCCAAGGTCGACTCCATCAATCGACGCATGCGCTCGATCTCCGCGGCCTGGATTTCCAGATCCGAAACCTGGCCTTGCGTGCCCTGGGTCGCGGGCTGGTGGATGAGCACGCGCGAGTTGGGAAGGGCTGCGCGCTTGCCGGGGGCGCCGGCGGCGAGGATCACGGCGGCGGCCGATGCCGCCTGACCCAGGCAGACAGTCTGCACGTCGGGGCGCACGTACTGCATGGTGTCGTAGATAGCCATCAGCGCGGTGAAGGATCCACCCGGAGAGTTGATGTACATGGTGATGTCGCGATCCGGGTCCTGCGATTCGAGCACGAGCAGCTGCGCCATCACATCGTTGGCGGAGGTGTCGTCTACCTGGGTGCCGAGAAACACGATGCGCTCTTCGAAGAGCTTGCCGTAAGGGTCGATCTGCTTCGTGCCGAAGGAGGTTTCCTCCAAAAACTGCGGCAGAACGTAGCGGGAGGTGGGCATCTGGAAATTCATGGTAAAAGTCTCCTTGTTCTGCTTAGTTGCCGACGGTTCCGTCGGTGGCCTGGCGTGCGTCCGAAATAA	MTRPGFLAIFSPCSPRQRALVLLTVELAVVEDLVDDAVLHGFVGGEDLVAVGVFADLLGTAPGVLSQGRLHQSTHALDLRGLDFQIRNLALRALGRGLVDEHARVGKGCALAGGAGGEDHGGGRCRLTQADSLHVGAHVLHGVVDSHQRGEGSTRRVDVHGDVAIRVLRFEHEQLRHHIVGGGVVYLGAEKHDALFEELAVRVDLLRAEGGFLQKLRQNVAGGGHLEIHGKSLLVLLSCRRFRRWPGVRPK				NA	NA	NA	NA	NA
AK009_09473	657			hypothetical protein	TTGTTCTGCTTAGTTGCCGACGGTTCCGTCGGTGGCCTGGCGTGCGTCCGAAATAACGTGGTCGACGATGCCGTATTCCTTGGCTTCCTGAGCGGTGAACCAGCGGTCTCGGTCGGAGTCCTTGGTGATCTGCTCAAACGTCTGGCCGGTGTGCTCGGCGATGAGCTCGGCCATCTCGCGCTTCGTCGCTGCGAACTGCTCGGCCTGGATCGCGATGTCCGCGGCCGTGCCGCCGACGCCCGCCGAGGGCTGGTGCATCATGATGCGCGCGTGCGGCAGGGCGTAGCGCTTGCCCTTGGTGCCTCCCGAAAGCAGGAACTGGCCCATGGAAGCCGCCAGGCCCATCCCGTAGGTCGCAATGTCGCAGGGCGAGTACTTCATGGTGTCGTAAATGGCCATGCCTGCGGTGACGGATCCGCCCGGGGAATTGATGTAGAGGGAGATGTCGCGGGTCGGATCCTCGGCGGACAGAAGCAGGATCTGGGCACAAAGCTTGTTGGCGATCTCGTCGTCGACCTGCTGGCCGAGAAAAATAATGCGCTCGCGCAGCAGGCGCTCGTAGACGGAGTCGCCGAGGTTCATTCCGGGTTGCGGAGAAGTCATTTTGGCTCCTTAGGCGTAAAAAGTGTTCAGCGGTCAATGCCACCACACTACTAG	MFCLVADGSVGGLACVRNNVVDDAVFLGFLSGEPAVSVGVLGDLLKRLAGVLGDELGHLALRRCELLGLDRDVRGRAADARRGLVHHDARVRQGVALALGASRKQELAHGSRQAHPVGRNVAGRVLHGVVNGHACGDGSARGIDVEGDVAGRILGGQKQDLGTKLVGDLVVDLLAEKNNALAQQALVDGVAEVHSGLRRSHFGSLGVKSVQRSMPPHY				NA	NA	NA	NA	NA
AK009_09474	1143			hypothetical protein	GTGGTCGGTCAGCTCCTGCTGGGAGACCTCCGGTTGCTCCTGCTCTGCAAGGGCATCGAGGAAGAGCTGGGTGCGGACGGACTCTTCGGCCTGCTCGCGGGTCTTGGCGTCGAACTCCTCGCGGGTCGTGCCCTGGGCCTCAAGAAGCTGGGCGAGCGCGTTCTCGTCGTGCGCCATCTGGCCCAGGAGCTGGTGCAGCTGGTTGTGCGCCTGCTCCTCCACAATGGACTCCGGCAGGGCGAACTCGGACTGCGCCAGGGCCGCCTTGAGCACCTCGTCGCGGATCTCCGCGGCCTGCTCGGTCTTCTTCGTCTCCTCGAGCTGGGTCTTGGTGGACTCGCGCAACTCCTCGACGGTGTCAAACTCGGAAGCCATCTGCGCGAACTCGTCGTCAAGCTCCGGCAGGATGCGCTCCTTGGTCTGCTGCACGTGGACCTTGACGGCTGCTTCCTCACCCTTGTGCTCGCCGTACTCGATGGTTGCGGTGAACTCGGCATCCTCGCCGGCCTTCAGGCCCTTGACTGCCTTGTCGAGGCCCTCGATGAGGTCGTCGGAGCCAACCTCGTAGGACAGGCCCTCGGTGGAAGCCTCGTCGATGGTCTCGCCGTCGATCTCGGCGGTCAGGTCGATGACGGCGAAGTCACCCTTCTTCAGCTTGCGGGTGGTGTCCTTCAGCTCGCCGAAGCGGGCGCGCAGGTTGTCGAGCTCCGCGTCCACGGCGTCGTCGTCAACGCTGAGCGCCTCGACGTTGACGGAGATTGCAGAGAAGTCCGGCACCGTGATCTCCGGGCGCACGTCAACCTCGGCGGTGAACTCGACCACGTCGTTGTCCTCGATCTTGGTGATGTCAATCTGCGGCTGACCCAGCGGGGTGAGCTCGTGCTCTTCTATCGCCTGCTCGTAGCGCGAGGGGAGCATGTCGTTGACAACCTGCTCGAGGAGGGGACCGCGCCCAAATCGGGCGTCGATAAGCTGGCGCGGAGCCTTGCCGCGACGGAAACCGGGGATCGTGACCTGCTGGGCGATCGCCTTGTACGCCTGGTCGATCTCGGTGCCGAGCTCATCGAACGGAACGTTCACGGTCAGCTTGACGCGGGTGTCGCTGAGCTTATCGACGGTTGTTTTCACGGATGTCTCCTGTAG	MVGQLLLGDLRLLLLCKGIEEELGADGLFGLLAGLGVELLAGRALGLKKLGERVLVVRHLAQELVQLVVRLLLHNGLRQGELGLRQGRLEHLVADLRGLLGLLRLLELGLGGLAQLLDGVKLGSHLRELVVKLRQDALLGLLHVDLDGCFLTLVLAVLDGCGELGILAGLQALDCLVEALDEVVGANLVGQALGGSLVDGLAVDLGGQVDDGEVTLLQLAGGVLQLAEAGAQVVELRVHGVVVNAERLDVDGDCREVRHRDLRAHVNLGGELDHVVVLDLGDVNLRLTQRGELVLFYRLLVARGEHVVDNLLEEGTAPKSGVDKLARSLAATETGDRDLLGDRLVRLVDLGAELIERNVHGQLDAGVAELIDGCFHGCLL				NA	NA	NA	NA	NA
AK009_09476	420			hypothetical protein	GTGCCCCGAGCTGCCTCCGGGCGCGACGTGAGTGTGTGTCGCCGCGATGAGCACGTTGCCGTCGTGGTAGCGGTTCCCGAATCGCGCCTGCAAGCGGCGGATTACTTCCAGATGAATTGCCTGGAACATCAGCCCCATATCGACGGTCACGTGGGCCACGCGGCCCCCGTTTCCGTCGTCGAAGACGAACGCGCGGGCGAACTGGCGCTGGTGGAGACCAGACGAGATCTGCTTCGGCACCGCGTAGCCGTTCATCCCGGCGCCGAGGGGTTCGCCGGTGATGTCCGCCATGCCCCGGCCCACGTTCATGGCGACCCCGGCGGCGCCCGTCCCATCTGCCGCGTTGGGCGCGGAAGCGTTGGCGGCGGGGTGGGCAGGGCCCGACGTCGCAGCGGCGAACGCGACGGTTGCTGCCGCTGA	MPRAASGRDVSVCRRDEHVAVVVAVPESRLQAADYFQMNCLEHQPHIDGHVGHAAPVSVVEDERAGELALVETRRDLLRHRVAVHPGAEGFAGDVRHAPAHVHGDPGGARPICRVGRGSVGGGVGRARRRSGERDGCCR				NA	NA	NA	NA	NA
AK009_09477	1095			hypothetical protein	GTGAGGAATCAGTCCCATGAGGTCCTTCTCTGGGGCTCCGGGATCGACGGGGATGCCGTGGGCCATCGCGGACGACAAATGGTCGAATGTCTGGACGACCGCGGGCAGCCCGTGCCGCCCGAAGAGCGTCGCGCCACCCTCGTAGTTCTGGGTTTCGTACTCCTCGGGAGTAGTCAAGTAGTGGGAGTAGCCGTTGACGTAGCCTTGCGCGATCACCGCGTCGAAGGGCACGTCGAGGGCTTCCGCCACAGCCCGGCGGATGCGCAGACCGGCGGTCACCGTCGGTTCGAAGGGCAACGACGCGATGACGACGCCGCCGATGCGGTGGACAAGGAAAAGGTCGGTCTGCTGCACGAGCCCGTCGATGTAGCCCACGGGCAGGAGCATCTCTTTCGGCGCATGAACTTCAGCTACCGAGGGTGGCACGACAACCTTGTTCACTTGTTGCACCCACGGGGTGCCGCCGCGCTCACCCTCGTTGAACCCGAGCAGGGGTTCGCCACCGCCGTCTTCCTGCGAGGATGCGGCAAACGCCGCCCCCAAGATGGCGGGCCCGGTTTTTCCTGGGCGGCCGTCGGTGGTCCACCTTCCGTCGACCGAAACGTTGCGCATGTTCACCCAGCGGTGCCGCGAATCAATCCCACCCCCTGCAAGCTCGATCGGACGACCACTAACCCCATCGAGCTGGCGCAGCCCCAGAATCCTCGCCGACGCGTACTCGTCCTCGCCCCCCGGCCCGCTGTGCGGGTGCAGCCCGTGGTTGGGCGTGACGTCGCCTGGGGTGGAGGTTGCGAAGGCGGCGACGAACGGCGCGCTGGCCGGGTCGCAGTGATCGACGCCCGCGCGGTGCTCTGCGAGCCAGGCGGCGTAGCCCTTGTTATCGCCCGAAATGAGGGTGTGCTCCGGGCCGAACGTGGTGGGGTGAATTCCGTACCAGTTGATGAAACCAACCGACCGGCCGTCGCGAAGCACGTGCAACGTCGCCGACTCCCGGTCGACGCCGTCCGGGTTCACGGCCTTGTCTTCCTCGGGGTTGCGGTCGAATGCGGCCTTGGACCTGTTCACTCCCGCATCGTGAACCTGGCCTCGCGTTAG	MRNQSHEVLLWGSGIDGDAVGHRGRQMVECLDDRGQPVPPEERRATLVVLGFVLLGSSQVVGVAVDVALRDHRVEGHVEGFRHSPADAQTGGHRRFEGQRRDDDAADAVDKEKVGLLHEPVDVAHGQEHLFRRMNFSYRGWHDNLVHLLHPRGAAALTLVEPEQGFATAVFLRGCGKRRPQDGGPGFSWAAVGGPPSVDRNVAHVHPAVPRINPTPCKLDRTTTNPIELAQPQNPRRRVLVLAPRPAVRVQPVVGRDVAWGGGCEGGDERRAGRVAVIDARAVLCEPGGVALVIARNEGVLRAERGGVNSVPVDETNRPAVAKHVQRRRLPVDAVRVHGLVFLGVAVECGLGPVHSRIVNLASR				NA	NA	NA	NA	NA
AK009_09478	297			hypothetical protein	GTGATACTGCTACTGCACCGTCACCTGCGCTGTTCCCTCAAAGGGAGTCAAGTTTCCAGTCAGGCTGCGCGACGACCCGAAGTACCTGATCACGTACTCGCCCGGACCCGCCGCGGCAGTGTGCCACGTAATCGTCGTGTTCACCTGGCCGAAGTTGCTGGCCCATTCAATAACGGTGTCTTCGTGCGAATCGTCAGCAACCCGTCGACCGTCTGCCGTTTCGACGAAGAAGAAGCCACGCTCATGGCGCAGGTCGGAGTTTGGATTGGCGCCGACGAACGTGACGGAGACCGTTGA	MILLLHRHLRCSLKGSQVSSQAARRPEVPDHVLARTRRGSVPRNRRVHLAEVAGPFNNGVFVRIVSNPSTVCRFDEEEATLMAQVGVWIGADERDGDR				NA	NA	NA	NA	NA
AK009_09479	486			hypothetical protein	GTGGCGCCACAGGGCGGCGTCGCGCTCGACGGCGCGGGGATCCTGGCGCGCCAGCGCGGTCAGCGCCTTGCTGCGCAGCACGTCGATGGTGGCGCCAGCGGCGTGGAGCGAGGCGCGCTGCGCCGCCGCTGCCGCCGCGCTGTGGGCGAGGATCACAGCGGCGAGCGCTGCGAACAGCAATACGTAGTTCACGTCGCGCCCCTCAACGGCGGAGGCCGCGATCACACCAAGGAGCGCACCTCGCGCGACGACGAGAGCGGTGGTGACCCCCTGAGCGATTCCCGTGCGCAGGATGAACCGGCGCACCGGGGGCGCAAACCGCACAAGGCGGGGGTCGACAGGGGAGGCCACGGTGCTTCTTACACCTTCACCCTCTGCCTGAAGGACCAGAAGGACCACGCCTGCGCGACGATCACGGCGGGCAGGATGATGATCCCGGCCCAGCTCATAATCCTCAGGGTGTACGGGTTCGATGCCGCGGAGTAG	MAPQGGVALDGAGILARQRGQRLAAQHVDGGASGVERGALRRRCRRAVGEDHSGERCEQQYVVHVAPLNGGGRDHTKERTSRDDESGGDPLSDSRAQDEPAHRGRKPHKAGVDRGGHGASYTFTLCLKDQKDHACATITAGRMMIPAQLIILRVYGFDAAE				NA	NA	NA	NA	NA
AK009_09480	924			hypothetical protein	GTGGGCGCTGGTCGAGGGGATGACGTCCGGGAACAGGGAGCCGAACAGCACCACGCAGACTGCGGCGATGGCTATGGTCGTGGCGGCGAAGGCGAACCCATCGCGATTGGCAAAGGTTGCGCCGATCGCCGCGGCGATGCCAAGCGCCGCCACCGCCACGGCAATCCAAGTCCACTGCGCCCCGGCTACGTTCTGCAGCCACACGACGTACAGCAGGGAGACGATCGCGGTCGGCGCGGCGAGCCAGCGCAGTGCCAGGGTGCGGGCGCGGCCGCGCAGCGGCTCGTGAGCCTTCAACGCGACGAAGATCGCGCCGTGCAGCGCGAAGAGCAGCACGAAAGCGAGGCCACCGGCAAGCCCCAGTGGGTTGAACAGGCCGACAAAGCCGTCGGTGAAGGAGCTGATTCGGCCCTTGTCGTTGAGCGGCACGCCGGCGACGAGGTTGGTGAAGATCAGGCCCCACAAAAAAGCCGGGAGGTAGGAGCCGAAGGTGGTGCCGATGTCGCAGCGGCGGCGCCACTGGGCAGTCTTGCCTTTTACACGCCACTCGAGGGAGACGCCGCGCACAATCAGGCCGACGAGGATGAGCACGAAGAGGAAGAAGAACCCCGAAAGCAGGGTTGCGTACCACTCGGGGAAGGCCGCGAAGATGGCCGCGGCGGCGGTCACGAGCCACACCTCGTTGCCGTCCCACAGCGGCCCGATGGTGCTCACCTGCGCGGTGCGCCGGCGGTCGTTGTCCTCGGGCGTGTCACCTCCGACGAACGGCAGCAGCATGCCCACGCCGAAGTCGAAACCCTCGAGCACAAAGAAGCCAGCGAAGAGCACGGCAATCCCCAGAAACCAGATCGTGTTGAGATCCATCAGCTACTCTCCTTTATCTCCGCGAATGCTTGTCGATGCCCCATCGCCGCGCCCCGGTGA	MGAGRGDDVREQGAEQHHADCGDGYGRGGEGEPIAIGKGCADRRGDAKRRHRHGNPSPLRPGYVLQPHDVQQGDDRGRRGEPAQCQGAGAAAQRLVSLQRDEDRAVQREEQHESEATGKPQWVEQADKAVGEGADSALVVERHAGDEVGEDQAPQKSREVGAEGGADVAAAAPLGSLAFYTPLEGDAAHNQADEDEHEEEEEPRKQGCVPLGEGREDGRGGGHEPHLVAVPQRPDGAHLRGAPAVVVLGRVTSDERQQHAHAEVETLEHKEASEEHGNPQKPDRVEIHQLLSFISANACRCPIAAPR				NA	NA	NA	NA	NA
AK009_09481	429			hypothetical protein	GTGGTCGGAGACGCCGAAGTCGACGATCATATGGAGGTTCTGTTCCCCGTTGGGTCCGTCGACTCCCTGGAACGATGGGTTGGGGTGGACCACCCACGGCTGGCGGCCCATCTCGGTGAAGATCCAGCCGGAGAAGTTGGAAATCCACGGCGCGGGCAGCGCGGCCAGGCAGGCGATCTGGATCCAGTTCTCGGAGGGGACGCGCTTCTTACGGGTCTTCCACAGGGCGACGACCGCCATGATGGCGGGCACGGCCATGAAACCGATCATCAGGCGGAAGGACCAGTAGGTGACAAAGAGGTTCGGGATGTAGTTACCCGGCCCGTAAAGCTCCTGGTACTGCGTGTTGAGGTCCATCGCGCCCTGCAGGGTCACGCCGCTAAAGCGACCCTCCGCGAGGAACGGCAGCACGAACGGGACGCCGATTAA	MVGDAEVDDHMEVLFPVGSVDSLERWVGVDHPRLAAHLGEDPAGEVGNPRRGQRGQAGDLDPVLGGDALLTGLPQGDDRHDGGHGHETDHQAEGPVGDKEVRDVVTRPVKLLVLRVEVHRALQGHAAKATLREERQHERDAD				NA	NA	NA	NA	NA
AK009_09482	162			hypothetical protein	GTGAATCGCCGTTTCGCAGTTGTTCATGGTCGACACCGACAGAATCGAGAAGTACGGATCGGTCTCGGTGTGGCACAGCGCTTCCGCCGAGGCCATCTTCATCGGCTGCTGGACAAACATGAGCTTGGCCAGTGCGTCCCCGGTCAAGACAACTCCGATTGA	MNRRFAVVHGRHRQNREVRIGLGVAQRFRRGHLHRLLDKHELGQCVPGQDNSD				NA	NA	NA	NA	NA
AK009_09483	174			hypothetical protein	GTGGGGCACGGCTTGAACTGCCGTGGGGTTGGTCAGCAGCGCCGCGAAGTCGATGAGCTCGGCGCGGTCGGTCTCGGGGTTGTAGCGCGCGCCGACGGGGTGCTGCATAAACGAGTTGGCCACGATGATGAAGTAGGCCGAGACGTTCACGGCCACGGCGACGATCCAGATTGA	MGHGLNCRGVGQQRREVDELGAVGLGVVARADGVLHKRVGHDDEVGRDVHGHGDDPD				NA	NA	NA	NA	NA
AK009_09484	396			hypothetical protein	GTGCGCCCAGCGGGGGACGCGTCCCCAGCCGAAGATCCACACGCCGAGGAAGACGGACTCGAAGAAGAACGCCGCGAGGCCCTCGAAGGCGAGGGGAGCGCCGAAGACGTCGCCGACGAAGCTGGCGTATTCGGACCAGTTCATACCGAATTGGAACTCTTGGACCAACCCGGTGACCACACCCATGGCGAAGTTGATCAGAAACAGGTTTCCGAAGAATCGCGTGGCGCGGTACCAGGGTTCTTTGCCCGTTACCTGCCAGAGCGTCTGCATGATGGCAACCACCGGGGCGAGCCCGATGGTGAGCGGAACGAAAATGTAGTGGTAGACGGTGGTGATGCCGAACTGCCACCGGGAGAGATCGACGAGATCAAGCTCCATGGTGCTGGCTCCTAG	MRPAGDASPAEDPHAEEDGLEEERREALEGEGSAEDVADEAGVFGPVHTELELLDQPGDHTHGEVDQKQVSEESRGAVPGFFARYLPERLHDGNHRGEPDGERNENVVVDGGDAELPPGEIDEIKLHGAGS				NA	NA	NA	NA	NA
AK009_09485	951			hypothetical protein	GTGGTCCTCGGTGGCCAGGTGCTGGGCGGGGCGTCGGATTGTCCGTCCCGACATACGCAGCCCGTCAAAAGCTTGCGGGCTAGTGACTTCGTGGAGGAGTTGAAAGTCGATGTAGATCAGGTCAGGGTCGCCGTCTGCCCCCTTTGTCACCACGTGGTCCCGCCACACTTTCTCGGCGAGTGTCAAAGGCTTGTCTGCCATCACTTTCCTCCTCTGGTAGTCACGAACATTCCCATTATGCGGAATGCTAGTATCCATCGTGTGAGACAGTATAGCGAAGACTCCGGCATTAAAGTGCTCGACCGCGCCATCGCCATCGTCCGCTCCGTCGCCATGGGCGACAAGTCGTTGGCGAACCTAAGCGAGGATACTTGCCTGCCCCGAGCCACGACACACCGCATCGCCACCGCGCTCGAGGTACACCGCGTGCTCACACGCACCCCCTCCGGCGAATGGACCATCGGCCCCGCACTCGCCGGTTTTTCGGCCAAGGCGTCACCGCGCCTGCTCTCTGCGGCCGAGCCCATCATGCGTGAGCTGGTCACCACGACCGGAGAATCCGTACAGCTCTACGTACTCACCGGCAACACGCGCACCTGCATCGCCGCCGAGGAGCCGCCCAGCGGACTGACCTACACCGTGCCGGTGGGCTCGCAGCTTCCACTGACCGCGGGCTCCGCGGCGCGCGTCTTCGCCGCCTTCGACCTGATTGCGGACCACCCGTTCCCCGAGCCCGAGCTCGACCGGGTGCGCAACGATTACCTGGCCGAATCCGTCGCCGAGCGCGAGATCGGCCTAGCCAGCGTGTCCGCCCCGATCACGGACTCCGCGGGCCACGTGCTGGCGGTGCTCTCAGTATCCGGGCCCGTTGAACGCCTCGGCCCGCGACCCTGCGACACCTGGGGAAAGGTAGTCAGCGCCGCGGCCACCAGGCTCAGCAGCGCACTGTAG	MVLGGQVLGGASDCPSRHTQPVKSLRASDFVEELKVDVDQVRVAVCPLCHHVVPPHFLGECQRLVCHHFPPLVVTNIPIMRNASIHRVRQYSEDSGIKVLDRAIAIVRSVAMGDKSLANLSEDTCLPRATTHRIATALEVHRVLTRTPSGEWTIGPALAGFSAKASPRLLSAAEPIMRELVTTTGESVQLYVLTGNTRTCIAAEEPPSGLTYTVPVGSQLPLTAGSAARVFAAFDLIADHPFPEPELDRVRNDYLAESVAEREIGLASVSAPITDSAGHVLAVLSVSGPVERLGPRPCDTWGKVVSAAATRLSSAL				NA	NA	NA	NA	NA
AK009_09486	1140			hypothetical protein	GTGGCCGGTGACAGCGGTGGCGGCGGCGACCAGCGGGGACACCAGGTGCGTGCGCCCGCCGGGTCCCTGGCGGCCCTCGAAGTTGCGGTTCGACGTCGAGGCGGAGCGCTCCCCTGGCTTGAGCTGATCCGGGTTCATGCCCAGGCACATGGAGCAGCCGGCGGTACGCCACTCTGCACCGAACTCGGTAAACACCTTGTCCAGGCCCTCCTCCTCGGCCTGCTGTTTAACCATGGTGGACGAGGGCACGACCATCATGCGGGTGCCGTCTGCGATGCGGCGGCCCTTGAGAATCTCGGCGGCGGCGCGCAGGTCCTCGATGCGGGCGTTGGTGCACGATCCCAGGAACACGGTGTCGATCTTGATGTCGCGCAGCGGCGTACCCGGCGTCAAGTCCATGTACTGGAGAGCCTTTTCCGCGGCGCGCTTCGCGGTGTCATCGCCGAAGGACTCCGGATCGGGCACGTTCTCCGACAGCGGCAGGCCTTGGCCCGGGTTGGTGCCCCAGGTGACAAACGGGGTGAGCGCGGAGCCGTCGATCTCGACGACGGTGTCGAAGGTGGCGCCGTCGTCGGTAGGCAGGGTCTTCCAGTACTCCACCGCGGCGTCCCAATCGGCGCCGGTGGGGGCGTACTCGCGGCCCTTGACGTACTCGAAGGTCTTCTCGTCGGGGGCGACCATGCCGGCACGGGCACCGGCCTCGATGGACATGTTGCAGATGGTCATGCGCGCTTCCATGGACAGCTTGCGCACGGCCTCGCCGCGGTACTCGATGATGTGGCCCTGGCCGCCGTTGGTGCCGATCTTGGCGATGATCGCCAGGATCAGGTCCTTGGCGGTCACACCCTCGGCGAGCTCGCCGGAGACCTCGATGGCCATGGTCTTAAACGGCTTGAGAGAGAGCGTCTGGGTGGCCATGACGTGCTCGACTTCGGAGGTGCCGATGCCCATGGCGATGGAGCCGAACGCGCCGTGGGTGGAGGTGTGCGAGTCACCGCACACGATGGTCATGCCGGGTTGGGTGATACCGAGCTGCGGACCGACGGTGTGGACGATGCCCTGCTTCACATCGCCCATGGAGTGCAGGCGCACGCCGAACTCCTCACAGTTCTTGCGCAGTGTTTCCACCTGGATGCGTGA	MAGDSGGGGDQRGHQVRAPAGSLAALEVAVRRRGGALPWLELIRVHAQAHGAAGGTPLCTELGKHLVQALLLGLLFNHGGRGHDHHAGAVCDAAALENLGGGAQVLDAGVGARSQEHGVDLDVAQRRTRRQVHVLESLFRGALRGVIAEGLRIGHVLRQRQALARVGAPGDKRGERGAVDLDDGVEGGAVVGRQGLPVLHRGVPIGAGGGVLAALDVLEGLLVGGDHAGTGTGLDGHVADGHARFHGQLAHGLAAVLDDVALAAVGADLGDDRQDQVLGGHTLGELAGDLDGHGLKRLERERLGGHDVLDFGGADAHGDGAERAVGGGVRVTAHDGHAGLGDTELRTDGVDDALLHIAHGVQAHAELLTVLAQCFHLDA				NA	NA	NA	NA	NA
AK009_09487	291			hypothetical protein	GTGCTCGCGCGAGGAGCCGGTGCCGAAATCCGTTCCGGCGAACAGGACCGAGCCGTCCTTGTACTCATCCTGGTTCAGCACGAAGTCCGGTTCATTGTCGCGCCAGTTGGAAAACAGGCCGTCCTCGAACCCGCTGCGGGTGACGCGCTTGAGGTAGCGCGCCGGAATGATCTGGTCGGTGTCCACGTTCGAGCGCGTCAACGGGACGCCAACACCGGTGTGAGTGGTGAACTTTTCCATTCTCGTGTGCTCCTTCTTAGAGGTCGGCGGGGCTGGACAGGTGGCCGGTGA	MLARGAGAEIRSGEQDRAVLVLILVQHEVRFIVAPVGKQAVLEPAAGDALEVARRNDLVGVHVRARQRDANTGVSGELFHSRVLLLRGRRGWTGGR				NA	NA	NA	NA	NA
AK009_09488	585			hypothetical protein	GTGGGCGCGGCCGTGGCGCACGTAGAGGATCCGCGAGGTGGCGGGCAGGCGGAAGCGCTTCTCCGCCTTGTGAAGTACCTGGCGGTCCAGGTCGTAGGTGAGCAGCTCCTTGGCCTCATCGAGGGGCAGCCAGCGGATCTCATCGACCTCGCTGTTGGGCGTGAACTCGCCGCCGGTGACCTGACCCGTCCAGTAATAGACCACCTTGGTGGTGTTTTTCACCGGGTAGATGGTCTTGCCCAAAAGCTTGCCCAGGCGGATGTCGTAGCCGGTCTCTTCTTTGATCTCGCGCACTGCGGTTGCAACGAGAGACTCGCCGGGGTCGACTTTTCCCTTGGCCAGGGACCAGTCGTCGTAGTGCGGGCGGTGGATGCAGGCGACCTCGATTTTTTCGACAGCCTCCAGGTCGCCGCGCCACAGCACGGCACCGGCCGCGAGCGTGGTCTTGTTGAATTCGCGCTCGGGGTGGCGCGGGATTTCCTGGTGGCGGCCCGTGAGGAACATCTCTCCGCGGTCGTCTTTGTCTGTTTCGTGCATTGTCGCCCTAGATGCCATGGAGACATTGTGGCGCACACTCCGCGGTAG	MGAAVAHVEDPRGGGQAEALLRLVKYLAVQVVGEQLLGLIEGQPADLIDLAVGRELAAGDLTRPVIDHLGGVFHRVDGLAQKLAQADVVAGLFFDLAHCGCNERLAGVDFSLGQGPVVVVRAVDAGDLDFFDSLQVAAPQHGTGRERGLVEFALGVARDFLVAAREEHLSAVVFVCFVHCRPRCHGDIVAHTPR				NA	NA	NA	NA	NA
AK009_09489	999	gpsA_2	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGGTCAACGTAGCGGTGATGGGCGCAGGGTCGTGGGGTACGGCGTTGGCGAAAGTGTTTGCCGACGCCGGCAACGCGGTCACCCTGTGGGCGAGGCGTGCGGAGCTTGCGCGGTCGATTACCGCCGAGCACGTCAACGCCGACTACCTGCCCGACATCACCCTCCCGCAGGCGTTGGTTGCCACCGCCTATCCCGCAGAAGCGCTGGACGGCGCGGATATCGTGACTTTTGCGGTCCCGAGCCAGACCATGCGCGAGAACCTTTCGGTCTGGCAACCGCTGCTGCCAGCGGATGCGACACTGGTGTCTATCTCCAAGGGCATCGAGCAGGGCACCCATTTGCGCATGTCCCAGATTATCGCGGAGGTCACCGGGGCGAACGAGGAGCGCATCGTCGTTCTCACCGGGCCCAACTTAGCGCGCGAGGTGGCCGAGGAGCAGCCGGCGGCCACGGTCATCGCGTGCACGAACCTCAACCGCGCGAAGCTGGTCCAGGCGGCGTGTTCGACGCGCTACATGCGCCCGTACACGAACACCGACGTCGTGGGCGCGGAGTTCGGTGGGGCCTGCAAGAACGTCATCGCGCTCGCCTGCGGCATGGCGGCGGGGTTGAACTTGGGAAGCAACACGCAGGCGACGCTGATTACGCGCGGATTGGCGGAAATTGCGCGCCTCGGCATTGAGCTCGGCGCCGATCCGCGCACCTTTTCCGGCCTAGCGGGAATGGGCGACCTGGTGGCCACGTGCACGTCCACGCTGTCGCGCAACCGCACCTTCGGCGCGGCGCTGAGCGCGGGGGCGAGCCTGGAGGAGGCCAAGGCGGCGACCAGGGGGCAGGTCGCTGAGGGTGTAATTTCTTCGCAGTCGATCTACCAGCTGGCCACGGAGGCGGGCGTGGACATGCCGATTACCACCGCGGTGCGCGCGGTGTGCCACGAGGGAGCAGGGGTCTCAGACGTCATCGTGGCGCTGATGGGTCGCTCGAAAAAGTCCGAGTAA	MVNVAVMGAGSWGTALAKVFADAGNAVTLWARRAELARSITAEHVNADYLPDITLPQALVATAYPAEALDGADIVTFAVPSQTMRENLSVWQPLLPADATLVSISKGIEQGTHLRMSQIIAEVTGANEERIVVLTGPNLAREVAEEQPAATVIACTNLNRAKLVQAACSTRYMRPYTNTDVVGAEFGGACKNVIALACGMAAGLNLGSNTQATLITRGLAEIARLGIELGADPRTFSGLAGMGDLVATCTSTLSRNRTFGAALSAGASLEEAKAATRGQVAEGVISSQSIYQLATEAGVDMPITTAVRAVCHEGAGVSDVIVALMGRSKKSE	PGPT0024330_3480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
AK009_09490	1056	ddl_3	COG1181	D-alanine--D-alanine ligase	GTGATTCGTGTAGCAGTAATTTACGGTGGCCGCTCCACCGAGCACTCCATCTCCTGCATCTCCGCCGGGGCCATTATGGCGCAGCTGCCGAAGGAGACCTACGAGATCGTCCCCATCGGCATCACCCGTGAGGGCGCGTGGGTCACCGGCAGTATCGACCCTGTCGGCGGCGCGACGCTGCCCGAGGTCGCGCCTGGGCGCGAGGTGGCGCTGACGGCGACACCGCAGCGCCGCGGCACGATTTCGGACGTCGCAACCGGCGAGGTCCTCGAGGTCGTCGACGTCGCCTTCCCCGTGCTGCACGGCATGTACGGCGAAGACGGCACGATCCAAGGCTTCTTCGAGCTCTCGGGCCTGCCCTACGTCGGTCCGGGCGTGCTCGCCTCCGCGTGCGCGATGGACAAGGAATACACCAAGCGGCTCGTCTCCTCTGCGGGTATCGCGGTGACCGACGAGGTCATCGTGCGTCGCGGCGAGTCGCTTGACGATGCCACCAAGCAGCGCCTCGGCCTGCCCGTATTCGTCAAACCCGCCCGGGGTGGTTCCTCAATCGGTGTGTCCAAGGTCAGCGACTGGGCTGAGCTGGACGACGCGATCGCCGTCGCGCTGCAGTCTGACTCCAAGGCGATTGTCGAAGCGGAGCTTGTCGGCGACGAGGTGGAGGTCGGCGTGCTCGAGTACCCGGACGGCCGCGTCGAGGCTTCCGTGCCCGCCACGCTCAACGGCACCGAGGACGGCGAGGAAGGCTTCTACGGCTTTGAAACGAAGTACCTCGACGAGGGCGTGACAGCCACCATCCCCGCGCCCTACAGCGAGGAAGTCACGCAGCAGATTCGCTCGCTCGCCATCACAGCGTTTCGCGCCCTCGGCTGCCGCGGGCTGTCACGGGTGGACTTCTTTCTCACCGAGCGCGGGCCGGTTCTCAACGAGATCAACACCATGCCGGGTTTCACCCCGATCTCGATGTACCCGCAGGTGTGGAAGGCCTCGGGAGTGAGCTACCCCGAGCTGTTGCACACCCTTATTCAGACCGCGCTGGCACGGTCGCCTCGATAG	MIRVAVIYGGRSTEHSISCISAGAIMAQLPKETYEIVPIGITREGAWVTGSIDPVGGATLPEVAPGREVALTATPQRRGTISDVATGEVLEVVDVAFPVLHGMYGEDGTIQGFFELSGLPYVGPGVLASACAMDKEYTKRLVSSAGIAVTDEVIVRRGESLDDATKQRLGLPVFVKPARGGSSIGVSKVSDWAELDDAIAVALQSDSKAIVEAELVGDEVEVGVLEYPDGRVEASVPATLNGTEDGEEGFYGFETKYLDEGVTATIPAPYSEEVTQQIRSLAITAFRALGCRGLSRVDFFLTERGPVLNEINTMPGFTPISMYPQVWKASGVSYPELLHTLIQTALARSPR	PGPT0020050_2342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK009_09491	1563			hypothetical protein	ATGCACCAGCGGGTGCAGGTGCTCGGGAATGTCCGCACCGGATTGCAGCAGGGCGAGCCCGGCGGCGGAGTAGCCGATCTTGCCGTGGGCGACAACGCGCTGGCCCGCACGCGCCCGGCCCAGCTCAAGGGGAGGCAGGCTGCCGCCGAGAGAACCCACCGCACTGATCGACAGCACGAGCGAGGCGCCGCTGGTGACGTCCCCGCCGACGAGCTCGGAGGTGTACTCGCCCACCTTCGACTGGATCCCGGCGGCGAATTGACGCACCACCTCAAGCGGCAGCTCGGGCGGGGCGGAAAACGCCAGCACCGCCGCGATCGGCCGCGCACCCATCGCCTCGATGTCGGCGAAGTTCTGCACCACGGCCTTGCGCCCCACCGCGAACGGCGTGGTCAGCTCGGGCGCGAAGTGGCGGCCCTGAACCAGCATGTCTGTTGTGACCACGACGCGGGAGTTCGGCACCGGCGGGGTCAGCACGGCGGCGTCGTCACCGTTGAAGGGCGACGGCGCCTCGCCGAGGATCGCGCGGATGACCTCGTGCTCGCCCACCTCTCCCAGCGTCGGGCCGGTGGTGGGAAAGCCTGTCTCAATCACGGGTGCGTGCGCCTTTCGTTAGACTGCCTAATCATGAGCAAGGATTCCGCTACCCCGATTCCCAAGCCATTCATCGTTATCAGCCTGGTCCTCGCGGTGGCGCTGATCGTCGGAGTCCTCGCCGGAGCCAAAGTCTACTTCAACCGCGTTGCGCTAACGCCGGTGTCCATGCCCGAACTGCCCTCGCCGCTGGCCGATTCGCCGGAGTGCGCCTCGCTTCTCGACGCCCTGCCCAACACGCTGATGGGCCACAAGCGCGCCGAGCTCGCCGAGCCGGCACCCGCGGGTGCCGCCGCGTGGCAGTCGTCATCCACTGAACGTGTCACGCTGCGCTGCGGGGTGGACATGCCACTGCAGTACACCGAGTACACCCCGACGTTCGAGGCCGGCGGGGCGCAGTGGATGCGCATCGACGATCCCATCGCCGGCTCAAACCTGACCACGTGGTACACCACCGACCGCTCCCCCGTCGTCGCCGTCACGGCGAACGGCGATACCGGCGACCCCGCACGCGCGCTTGCCGACGTTAACGCCGCTGCGTTGCCGGAGGCGACCCATCCTCCCGCCCCCGCCCCGCTTTCGCAGCTAACCGATAGCCCCGCCACCGAAGCGGGTACCTGCGACGCACTGCTATCCGCCCTGCCGCAGTCTCCCGCCGAGGGGTACACGCGCCTCGACGTCGAGCAGGAACGCACCGTGGCCTGGCAGGCAGAGGGCAAGGAGCCGATTGTTCTGCGCTGCAATGTCGCTCCACCGGAGAACTACGAACCCGGCCTGCAGCTCTACCAGATTAACGGGGTGACCTGGTTTGAAGACACCGAGCTCGCGGGCAACCCCGGGGCGTCGACCTGGTTCGCGCTCGGCCGCGACGCCGTGATAGCCGTGCACCTTCCCCAGGGCGAAGGCAACGCCGCGGTGACCGCGCTGTCGGAAGCTATCGAGGCGACCGTGCCAGCGCGGTCTGAATAA	MHQRVQVLGNVRTGLQQGEPGGGVADLAVGDNALARTRPAQLKGRQAAAERTHRTDRQHERGAAGDVPADELGGVLAHLRLDPGGELTHHLKRQLGRGGKRQHRRDRPRTHRLDVGEVLHHGLAPHRERRGQLGREVAALNQHVCCDHDAGVRHRRGQHGGVVTVEGRRRLAEDRADDLVLAHLSQRRAGGGKACLNHGCVRLSLDCLIMSKDSATPIPKPFIVISLVLAVALIVGVLAGAKVYFNRVALTPVSMPELPSPLADSPECASLLDALPNTLMGHKRAELAEPAPAGAAAWQSSSTERVTLRCGVDMPLQYTEYTPTFEAGGAQWMRIDDPIAGSNLTTWYTTDRSPVVAVTANGDTGDPARALADVNAAALPEATHPPAPAPLSQLTDSPATEAGTCDALLSALPQSPAEGYTRLDVEQERTVAWQAEGKEPIVLRCNVAPPENYEPGLQLYQINGVTWFEDTELAGNPGASTWFALGRDAVIAVHLPQGEGNAAVTALSEAIEATVPARSE				NA	NA	NA	NA	NA
AK009_09492	531			hypothetical protein	GTGCGCCGACTCGATCCTCGGGGTCTCACCCAAAAAACGCGCGGCGCTTTGCGCGTCGCGGCCCCACAAGATGGCCACCATCGGGCTGCGGCGCGCACCCAGCGCCCGAATCGCCGCCTCAGTCACCGCCTCCCACCCCTTGCCGCGGTGCGACGCCGGGGCACCGGGGCGCACGGTGAGCACCCTGTTGAGCAGCAGGATGCCCTGGGAGGCCCAGCTGCTCAAGTCGCCGTCCGCGCGCGGGGCGATCCCGAGGTCGTCGTGGAGCTCTTTGTAGATGTTGACCAGCGAGCGCGGCGGGGCGACCCCGGGCTGGGTGGAAAAGCTCAACCCCATCGGGTGCCCGGGCGTGGGGTACGGATCCTGCCCGAGGATGAGCACGCGCACCTCGTCGAAGGGGTCGGCGAACGCGCGCAGGATGTCGTTTCCGCGCGGCAGGTACTCGCGCTCGGCGCGCAGAAAGTCGCCCATCGCGTGGATCTGCTCGGCCACCGGGGCGAGCGGCTCCTGCCACGAGTCGTGGACTGGTAA	MRRLDPRGLTQKTRGALRVAAPQDGHHRAAARTQRPNRRLSHRLPPLAAVRRRGTGAHGEHPVEQQDALGGPAAQVAVRARGDPEVVVELFVDVDQRARRGDPGLGGKAQPHRVPGRGVRILPEDEHAHLVEGVGERAQDVVSARQVLALGAQKVAHRVDLLGHRGERLLPRVVDW				NA	NA	NA	NA	NA
AK009_09493	834			hypothetical protein	GTGCACCTTGGCCTCGGTGTCGCTGGCGCGCGCGATGACGAGGCTGTCGCCCCCGGCGTCGAGAAGCGTGCGCTCGAGCTCGTCGACCGGGCCGGAAAACATGAACATGATCTCGAGGTGAGCGGCAGAACCGTGGCTCTCCCCAACCGCGCCCGGTGCCTGCGGCTCGCGCGGGGTCTCCCCCGTGACCTCAGCGAGCAGCTCGTCGAGCAGGATGACGAGCCCGGTGCCTCCGGCGTCGACGACACCGGCGTCGCGCAGCGCCGCGAGTTGCGACGGCGTGCGCTCAAGCGCCTCGCGCGCGGCCACCGCCGCCGCCTCAACCACCTTGTCCAGCGGTTTGCCCACGGCGTCGCGGGCGGCGTCCGCGGCGGCGAGCAGCACGGTGACCACCGTGCCCTCAACCGGATCGACGATCGCGCGCTCGACGAAGTCCACGCCCGAACTCAGCGCCTCGGCCACGACCTCGCCCGTCACCTCCCCTCCGCCGACGGACTGGGCCACGCCCCTGATTACCTGGGACAACACCACGCCGGAGTTGCCGCGCGCGCCGCGCATGCTGCCGACCGCCAGCGCCTCAGCCACCTCGACCAACGAGGCCGACTCATCGAGCTTCGCGGCCTCGCGCACCGCTTCGGCCATCGTGTGCGCCATGTTCGAGCCGGTGTCCGCATCCGGGACGGGAAAAACGTTGAGCTGGTTGATCTCCACGCGACGGCGATCGAGTTCAGATGCCGAGCGCTGCGCCCACGACAGGAGGTGGGCGACGTCGAACACTGGCTCGAGCGCGGGTGGGTTAGCCATGGCACCCGAGTTTACCCCGGCGCCGATTAA	MHLGLGVAGARDDEAVAPGVEKRALELVDRAGKHEHDLEVSGRTVALPNRARCLRLARGLPRDLSEQLVEQDDEPGASGVDDTGVAQRRELRRRALKRLARGHRRRLNHLVQRFAHGVAGGVRGGEQHGDHRALNRIDDRALDEVHARTQRLGHDLARHLPSADGLGHAPDYLGQHHAGVAARAAHAADRQRLSHLDQRGRLIELRGLAHRFGHRVRHVRAGVRIRDGKNVELVDLHATAIEFRCRALRPRQEVGDVEHWLERGWVSHGTRVYPGAD				NA	NA	NA	NA	NA
AK009_09494	348			hypothetical protein	GTGGGCGTTGTCTTCGTGGGTGACCACGCCCGTACGCATCTCCTCCGCCGCCTCGGCCATCGTCTCCGCCGCCACGTCCACCGGCAGAGCCGCGTCGTGCACGGCGAGCGCCGCTATCCCCGTCACCAGGCGCACCGTCGGCAGCACCGAGACGTGCTCGACGGTCTCGCCCGCCGCCTTTTCGACGCCCGCCACAGCCGCCTCGCTCATCAGCCCGTTGGGCAGGAAGATGACCTCTCGCGGGCGGGCCTTGGCAATAGCCGCGAGGACGGCCTCAACCGTTGCGGCCTCGTCCGCCTCCGGCGCGATGGTTGCGGCGCCGGCCCCGGAATAGAGCTCGGCGAGTGA	MGVVFVGDHARTHLLRRLGHRLRRHVHRQSRVVHGERRYPRHQAHRRQHRDVLDGLARRLFDARHSRLAHQPVGQEDDLSRAGLGNSREDGLNRCGLVRLRRDGCGAGPGIELGE				NA	NA	NA	NA	NA
AK009_09495	675			hypothetical protein	GTGGGACAGCTGCTTGAGTGCCCCGGTTGCCTGGGTGGGGCCGTCGAGAAGCACGAAGTCCGGGTGCTGGAGCTGGGGCGCCGAGCGGAAGAAGCTGAGCTTGCCGGTGAGCATGACTCGCTTGCCTTCGGTCAGCGCGCGCATGGCGAAGCGGGAGCCGAAAAAGGTCGCGCCGATGCGGTAGCGGCCGTCGTCGACGGTGATTTTGTAGATCGGCTTGCCCTCGCGCGGGATGAAATGGGTATCAATGACGCGGCCGATGATGCTGATCGTGTCGCCCTCGCGGGTGCCTTCCAGCTCGCTGCCCGCGCCGTAGTGCAGATACTTGCGCGGGTAGTGGCGCAGCAGGTCGCCGCACGATTCGATTCCGAGGTGCTTGTGCAGGGCGCGCGCCTGCTTAATGGGAATGACCAGATTAAGCGGGCGCGGATCGATGGTCCCCAACACGGCGCTACTCCACCCCGATCTCCGCTATCGCACCCAGGCTATCGGCAGGGTAAATGCGCACCTCCGCGCCCAGCGTCGTGGACAGTAGGTCCTGGTCGAGCGAGGGGATCGCCACCGGGTCGTAGAGCACGGAGATCAGCTCCCCACCGCCTTCGAGAAGGCTCGCACAGGCCGCGGCGACGGCATCTGCGGGCGCACCGGATGCGTGGGCGTTGTCTTCGTGGGTGA	MGQLLECPGCLGGAVEKHEVRVLELGRRAEEAELAGEHDSLAFGQRAHGEAGAEKGRADAVAAVVDGDFVDRLALARDEMGINDAADDADRVALAGAFQLAARAVVQILARVVAQQVAARFDSEVLVQGARLLNGNDQIKRARIDGPQHGATPPRSPLSHPGYRQGKCAPPRPASWTVGPGRARGSPPGRRARRSAPHRLREGSHRPRRRHLRAHRMRGRCLRG				NA	NA	NA	NA	NA
AK009_09496	1017			hypothetical protein	TTGGCGCCCGGCCTGGGCTTCCTCACGGATCTTCTCCCAGCCGCGCTCCACCCACGCGGACTTGAACTGCGGGACGACGGAGGACTGGATCGGTTTGCGCCCACCGGGCAACTCGCGCAGGGTGGAGATTTCCAAGTCACCGAAAACGGTGATCGCCATGGTGCGCGGGATCGGGGTGGCCGTCATCACCAGCACGTGCGGCGGGTGCTCCCCGCCCTTGGCCCGCAGCGCGTCTCGCTGCTCGACGCCGAAACGGTGCTGCTCGTCAACCACCACGAGGCCGAGGCGGAAAAACTCCACGCCCTCCTGGATCAGCGCGTGGGTGCCCACCACGATGTCGGCCTGGCCGGAGACGATGTTGAGCATCGCTTCCTGGCGCTGCGCGGCGGTCATCGACCCCGTCAGCGCCACAACGCTCGTGGTCAGGCCGGCGCGCAGCGCGGTTTCCTGCAGCGAGCGGGCGTGCTGCATGGTCAGCACCTCCGTGGGCGCGAGCAGGGCGCACTGGGAGCCGTTATCCACCGCCTGGAGCATCGCCAGCAGGCTGACGATGGTTTTGCCGGAGCCGACCTCGCCCTGGAGCAGCCGGCTCATCGGGCGCGGCCGCGACATGTCCGCGGTGATGTCGGCCAGTACCTGTTTTTGCCCGTCGGTCAGGGGAAACGGCAGGTTGCCCAGCAGCTGGTCGAACTGCCCGCCGCGCACCGGGGGCAGCGCGGTCGCGTCCTCGAGCAGGCGATCCGCGCGGCGCACCGCCATCACCAGCGCGATGCCGCTGGCCTCCTCGTACTTCAACCGGCGCCGCGCCGCATCAGGGCCGGCCGGGCCGGGCTCGTGGATCTCCCGGATCGCCTTGTTCAGCGACGAGAAACCGATCGGGGTAAACCCGAGTGGTTCCTCAACCGGCGGCAGCGTTTTGAGCACCGCGTGCACCGCGCCCATGATGGTCCACGTGCTCACCTTCGACGTCGCCGGGTACAGTGGCAGCCACTCGCGGCCGGAGAGGATCTCCTCTAA	MAPGLGFLTDLLPAALHPRGLELRDDGGLDRFAPTGQLAQGGDFQVTENGDRHGARDRGGRHHQHVRRVLPALGPQRVSLLDAETVLLVNHHEAEAEKLHALLDQRVGAHHDVGLAGDDVEHRFLALRGGHRPRQRHNARGQAGAQRGFLQRAGVLHGQHLRGREQGALGAVIHRLEHRQQADDGFAGADLALEQPAHRARPRHVRGDVGQYLFLPVGQGKRQVAQQLVELPAAHRGQRGRVLEQAIRAAHRHHQRDAAGLLVLQPAPRRIRAGRAGLVDLPDRLVQRRETDRGKPEWFLNRRQRFEHRVHRAHDGPRAHLRRRRVQWQPLAAGEDLL				NA	NA	NA	NA	NA
AK009_09497	633	tnpR		Transposon Tn3 resolvase	GTGGCAAATATTTATGGATATATACGTGTAAGTACAAAAGAACAAAATGAACAACGTCAGTTACATAAGATGATGGAACGAGGAGTGGAAGCTCGACGCATTTTTGTCGATAAAGCAAGTGGACGAAATTTTGATCGCCCGCAATATCAATTGTTAAGAAAAATATTGAGTCAAGGTGATATTGTTTATATAGATGCTTTAGATCGTATGGGACGTAATTATGATGAAGTAATTTCAGAGTGGAAATACATAACAAGAGAATTACAAGCTGATATTGTGGTTTTAGAAAATGAAACTTTATTCGATAGCCGTAAGTTTCGTGAAATGGGTGACATGGGTCGATTGATGGAAGATCAATTTTTATCTTTGCTATCCTACGTTGCGGATCAAGAGCGTAAAAAAATTCACCAGCGACAAGCCGAAGGAATTGCGGTAGCTAAGTCTCAAGGAAAACATTTAGGCCGTCCTCAGGTTAACCTTTCGACCTTAAGCAAACAACAAATGAATATAATAGAAGAAACTCATTCAAAATGGAAGAATGGCGAGATTACTGCTGTTATGTTTATGGAAATGTTAGAGCTAAAGAAAAACACATTTTATAAAATAATGAAGGAATATGAAGGGACCAAATAA	MANIYGYIRVSTKEQNEQRQLHKMMERGVEARRIFVDKASGRNFDRPQYQLLRKILSQGDIVYIDALDRMGRNYDEVISEWKYITRELQADIVVLENETLFDSRKFREMGDMGRLMEDQFLSLLSYVADQERKKIHQRQAEGIAVAKSQGKHLGRPQVNLSTLSKQQMNIIEETHSKWKNGEITAVMFMEMLELKKNTFYKIMKEYEGTK				NA	NA	NA	NA	NA
AK009_09498	396			hypothetical protein	ATGGATTCATGGGAAAAAGAAATGTTGCAGAATCATGGTTGGTATATGCATGCGGTATTGGCTGAGGATTATGATGGGATTCATGCTAATTATCACACCCATGGCTTAGCACATAAGTATAACCATCAAGATTTGCAAATAATACTAAATATTGATCCAGAAGTAGCACATGATATTTTTTATACAATTGTTGAAGAAATTAAAAGTGGGGAAAAGTTTGAGCAAGGAATAGAGTATAATAATATTATTGACGGTTATCCAATTATTATGAAATCTTTTAAAGAAATGAACCGAGAGGTCTTAAGGATTTTATTACCTGACGAAAGAGGGATTTTACCAACTCGTTTAGAGTGCAGTGACGATTATAAGATACAATTAGATAACATTGAAGATTAA	MDSWEKEMLQNHGWYMHAVLAEDYDGIHANYHTHGLAHKYNHQDLQIILNIDPEVAHDIFYTIVEEIKSGEKFEQGIEYNNIIDGYPIIMKSFKEMNREVLRILLPDERGILPTRLECSDDYKIQLDNIED				NA	NA	NA	NA	NA
AK009_09499	363			hypothetical protein	TTGAATTATAATAAAAAAATAAAAGAACTTTTAGATTGTGTAGATCATGCCGATGATAATGAAATTGAATGGAAATCTATGTCTATAGAATTTTTTAATAGTAGTGAAATAGAAGATGGACAAATAGGCTATCACGTTGATTTAGATGGACAAGATTTAACTAGTGGTAAAGAAGGTGACTGGAAAGAAGAGTGGATTGTAATTGGAATGGACTCTTATGTAGGAGACCCAGTTTTTGTAGATATTAACAATATAGATCTTCCTGTTTATACAGCTGAACATGGAGAGGATTTTTGGAATCCCGTACGTATAGGTGATAGTATAGACGAGATAATTCAACAATTTAAACAAAATAAAGCATAA	MNYNKKIKELLDCVDHADDNEIEWKSMSIEFFNSSEIEDGQIGYHVDLDGQDLTSGKEGDWKEEWIVIGMDSYVGDPVFVDINNIDLPVYTAEHGEDFWNPVRIGDSIDEIIQQFKQNKA				NA	NA	NA	NA	NA
AK009_09500	6699			hypothetical protein	ATGGAAAAGAATCGTAGCAAAAAAAGATGGTATAAGTATTTAATACAACTCATGGTAGTTGCATTAATTGTTACTTCTATACCACTGAATGGGTTGGCTGAAACGGCACCAGCGTTTACACCATCTCCAAATTCAGAACAGAGTCCAGAAGTAGAAAAGAAGGAGGAAAAAGAATTACCTTCTCCACATCCAAATCAGTTGAAGAAAAACAAGACAAAAAATCAGGCAAACCCAACTGAAGTTGTGGAAGAAAGAACGGAAACGGAAAAAGTTTTCGATAATAATGATGGTACATTTACGAAAAAGGTATATACAGAACCTATTCATACAGAAAAAGATGGGAAATTAGAAGAGGTTTCTCCTAAATTAGTAACGGCACCAGACGAGAAGATTGTTACAGAAAATACAAAATTAAAACCAGAGTTTGAAAAAACAACGCAAGATGGAAAATATGTTCAATTTAAAGTAAAAGATCATACGATTCAATATGAATTAATGAGTGCAAATGGTGAAAAAGGGGAAGTAAAACCGTCACCAGTCACTGCAACACATGAAAATAATACAGTATGGTATAAGGGAATCTTCCCAAATATTGATTTAAAAAGTACGACATTTAATGGAAATGTGAAAGAAGACTTTGTATTACGTGAGTATACAGGGCATCATATCTTTACATTTGCATTACAAACAGATTTAACACCAAGTGTACAAGAAGATGGTTCTATTCATTTCCAAGATGAAAAGAAAGAAAACATCTTCACATTACCAAAACCGTATATGAATGATTCAAACGTAAATCAGCAGTCGGGAGAAGCTGTAACGTCAGATGCTGTTCGTTACAACATTGAGAAAACAGATGAAAAAACATATACGTTAACGGTTACGGCAGATCCAAAATGGTTACAAGCACCAGAACGTAAATATCCGGTAAATATAGATCCTTCTATTGAGATTGATAACTTTGAAAATGCATATGTATCTACTCTTAGCCCGAATAGAAATTATTCTGGAGGAGATTTATGGGATAGTGGTCAAAATGCTTATACATTAAAAGTAGGGTATTATGACGGATCAACTGGGACAAACTTTGCATTTATTAAACCGCAAATTTCAGATTTAAAAGGTGCACAAATTGAAAGTGCAACATTCCATGCGTATGCAGTATGGCATTACTATGGAAATCAGCCCAATGGTGTATGGCTAGATGAAGTTACAGGTGGCTGGAGTGTCGGAGGAGTAAATTGGAACAACAAGCCTGGTTCTAATAATATTGCCCATGCAGATGTAGGACGAGGACAATGGGCTAAATTTAATGTAACTAATACAGTAAAAGCATGGGTAGAAGGCGCAAGACCAAACAATGGATTTAAGTTACATACAAATGGTAATGGCCAAAACCATTGGAAGAAGTTTATTGCGGCGGAAAATGGATCCAATGCACCTTATTTAGAAGTAAACTATTCGTATGCAAAACCCAATAAACCGAGAGTACAGTCGTATTCTAATGGAAGCAGTAGTAGTTCAGGTCACTTTAACCTACAGTGGGATGCAGTCCCAGGAGCAACAGGTTATAAAGTAGCAATCTTTAATGGATATGACTATGAATATATTCCTGTTGGTAATGTGACAAATTGGAGTACGAAAGATAAGAAGATATTCCCAACACCAGAAGAAATTGCACAAGGACATTTTGAATTCCATGAAGATGGAAAAGGTGGAGAAGCGCCAGTTAATCCAGGACCAATTTATAAAAATGCTCATGTAGCGGGTAGCCCGTACGGAGATTATAGTGGTGCCCGTGGATATTGGATTCGTATTGTCGCAGAGTATCCATTTGGTGATAGCCCAATTTCTGATGAAGCAATTATGTATATACCGTTAGAACAAGTCAAGAAACCGACAGGTTCGGCTTATATCAATGCAACCGACAAACAAACAGGATATGTTTCTTTAAAATGGGACGGTGTTCCTGAGGCTGCAGGTTATAAAGTATGGGTATATAACGGAAAAGATTATGAAGCGTTTGATGTAGGAAATGCGACAACATGGACGACGCAAGGACAAAATATTTGGCCAACAAAAGATGAAATTGCAAAAGGTCAATATCTTCTTCATCATGATAAAAAAGGTGTAGAGCTTGCCTTAGACCCATCTCCTGTTTATCGAAATTCCGGTGGAATTTATGGCGGATCTACAAACTATTGGTTCCGTGTAACAGCGTATAGTAAAGCTGGACATGCTGAAAGTGAGATTTCACAAGAGTTCACGCCGAGGTTCTCACAAGACTTTGGATTCTTAGGCATGTTAGATTACTGGGCATCCATTGATGTATTAAATGGGAAAGTTAATGCTACAAATGGTAACTTCCTAATGAATGAAAAGGATATTACTCTATCAGGACGTGGACCAGATGTATCTATTGAAAGAACATATAATAGCCTGAGTAAACATGTTGGTTTATTCGGTAAAGGCTGGTTTAGCAGTTTAGAAGAACGCATTTGGAAAGATGCAGAAGGAAACTTACTTCTGACTTCTGCAGATGGTGCGCAAATTACATTTACCCGAACGGGAGATGGAACGTACCAAGCACCTACGGGTGTGTACTTAGATATGAAGGAAACATCGGAAGGGTATGAAGTCAAAGATAAAGATCAAACCGTTACGTTTTATACCAAAAAAGAGAATTCTGGTCGTATGGAATATGTGAAAGATAAATATGGAAATACGACAACATATGAATATGATGGTGAATTCCGATTATCTAAAGTAAAGAATGCATCTGGGAAAGAATTGTTACTACAATATGAAGGAGCAAATAAAAAAGTCTCCAAAGTAACAGGACCAGACAATAAAGTCATAACGTATACTTACAGAGGAGATTTACTTATTTCTTCTACAACACCAGAAGGAAAAGCGTATCGATATGGATATGAAAATGACTTGCTCACTCATGTATATGATCCGAAGCATACAGATGAAAAGCCATATCAAACGATTTACACATATGAGAATAATAGATTAGTAAAAGTAACGGACCCATTAGGAAAAGCGACAACATTAGCGTATAATACAGATACGAAAGAAGTTACGTTAACGAATCCAAAAGGGCGTAAGACGATTTATACGTATAATGATGCCGGTAATCCAGTGAAAACGATTGTAGATGCTGGGCGTCTGAACTTAACAACAACGTATGAATACAGCGCAAATAATTTAGTAAAAACAACAACACCAAAAAATCAAACAGAGTCCTTTACATACGATGGGAATGGAAATGTAACATCTGCCACTGATACAATGGGAACGGAAAAGTTTGAATACAATAAAAATAATGGCGTTGTGAGTCACACTGACAACGAGGGAGATAAAACAACAGTTGCTTACAAGTCAGCCAATACAGAAGTTTCTGTAACGGACCAAGCAACGCACTCTTCTTCTGTCATATTCCATGACCAATATGGGAATCCGATAGAAACAAGTAAAGACATTGGTACAGGCGAGAATTTCATACAAAACCCAAGCTTTGAAATGAATGAAACGGAGAAATGGTCCATTTTCCGTCATAACAATGATGGAACTGGAACGAAAGATTCGCTTCCAGCACCTGGTGGTCTGGGAGGAGCTTCTTCCTTAAAGGTAACAACAAAAGCAAGTAATAACGATTGGGGTTATATCGCTGCCATTCAAGAGGTTACATTAGAACCAAATACAACATATACATTAAGCGGTATGATTAAAACGACTTTATCACAAGGTACAGGTGCTTTCTTTAATATTCAATTATTAAAAGAAGATGGCTCAGCTATTGACGGTGGTGGTTGGAATGATAATCGCTACAATAAAGTACAGGGCGAAAAAGATTGGACCAATCGTCAAGTTACCTTTAAAACAACAGAGCAAACGCGAAAAGCGAAAATCTATTTACAGGTAGAAAATGGCGGAGCTTCGACAAGTGGCACAGCTTGGTTTGATAAGTTACAGCTTGAAAAAGGAGAAACATCTTCTAGTTTTAATCCTATTACGAACAGTAGCGTTGAGAATATGATGGAAAACGGTTGTATTCCAGGATGGATTAGAGGAGATGGTACAAGTTGTAGTCCGAAAGAAACAGCGCATGAAGGATTTACGGGATCTTCCTCGATTGTATTCGAACGCAGTCAATATGGTGACTCAGATATTGGGTATGGTCAATGGGTAAATTTAAATCAGAAAACAGCAGCACCTATAACAGTAACAGGGATGTCAAAATCTGAAAATGTAGAAAATGATGCCCCCGATAAACTTTCGAAAGATTACTCTATTTGGGCAGATGTATACTATCAAGACGGTAGCGGAGAAAATTATCAAGCGAAATTCCCAAGTGGTACAAATGATTGGAATCGTAGTGCAGTATTGATTCCAGCGAAAAAACCGATTAAACACGTAGCAGTATATGTTTTATTCCGAAAGAATAATAAGGGAAAAGTTTGGTTCGATGATATACGTTTACTAGAAGGTAATGTACTCGTTAAAAATGAGTACGATCAAGATAGTAATGTAACTGCAATGTATGATGAAGAAGGAAATAAAAATACATTCACATACGATGCTTCTGGAAACAAAATTAGTGAAACAGATGAAAAAGGCAATACAAAATCATTCGATTATAACAAAGATGGGCAACTTACAAAAGTTACACTGAAAAATGGAACATCAGTTGGATACAGCTACGATCATAATGGAAATACAACAGAAAAATCTGTGATGTTTGGTGGGAAAACACAAACGTACAAATATGAATATGACGTAGATAATAAAAATACAGTATTTGTGGATGCGTTAAATCGCCGTATTGAGCATACTTATGATGAGAATGCAAACAAAACGAAAACAAAAATGCCGAATGGATCACTCTTGGAATACGTTTATGATTCAGCAGATCGTATGATCGGTGAAAAACGAAACGGAAAAGATTCCTTTACATTTGAACGTGATCAAAATGGGCAAGAAACAAAAATCAAAGACCATGTGAATGGTGTAGAAAGAGGAAAAACATACGATAATGCTGATCGCATTACCAGTATGACAGATAGTCGAGGCGGAAAAGTAGACTGGGCCTATCATGATAAAGCAAATAGTAAGACAGAAAAGTTAAAAGAACAAACGATTACACATGGTGGATATAATAGTAAGATTGCGTATGAATATAACACTGGTGATCAGAATACGAAAGTAATAGATGGTACATCGACTTACCGATTTGATTATGATGAACAAGGACATGTGCGCACATATGCAGCACCAAACAGAACAGGCTCAACATTCAACTATGATCAAATAGGTAAACTAAAAGATTTAGTGATTGGAACACCAAACCAACTGATTCTCTCTGAACGATATGAATATGATAAAACAGGCAACCGTACAAAAATTACACATGAAAGTTCTGGCGGAAAAGTAACAGAAACAAATTATGTATACGATCCAATTAATCAGTTACTAAAAGAATCATTACCAAATGGAACTGTTAAAGACTATACGTATGATGGATTTGGCAACCGTACAAGTTTGAAAGTAACAGAGGGCGGGAAAGAAACAAAAGCTGTTACCGCAACATTCAACGAAGGAAACCAGCTTGTCAAATTTGGAAACGAATCTCTTACATATGACGTAAATGGAAATCGTACATCTGACGGCAAATACACATATACATGGAATGAAGCAGACCAACTGGTTGCTGTAACGAAAAAAGGGGAAAGCAATCCTTTCGCAACATACAAATATGATGATGATAATCGCCGTATTGAAAAGAATGTTAACGGCGTAGTTACGCGTTATTTCTATGACGGTGACAGCATCAATCCGTTATATGAAACAGATGGAAGTGGAAATGTCCTTCGTCAATATGTATACTCAATAGAAGGTACTCGTCTAGCGATGAAATCACAAGGACAAACATTATTCTATCACTATAGTCCACGTGGTGATGTAGTGGCGATGACAGATAATGATGGACAAGTAGTCGCAAATTACGAGTATGATGCATGGGGTAACGTATTAAAGAGTGACACAAAAGGTATTGCAGCAGACAATTCATTTGGTTATGCAGGATACATGTATGATAAAGAAATCGGCATGTATTACCTTATAGCACGTTACTATAGTCCAGATCATGGAGTATTCTTATCCGTAGACCCAGATCCAGGTGATGAGGATGATCCTGTTACACAGAATGGATATACGTATGGTGATAATAACCCAGTAATGATGATTGACCCAGATGGACATTGGGCATTCTTAATTCCGGTAGCTGTACATGGTGGACGTTTTATTTTGCAAAGAACCGTTTCTAGGACTGCGGTACGCTATTCAGGACACTTATTCTCACAAGCTACTCGAAAACAAAGTGGAAAACTCGTTAAGAGAAGCATGAAGTCCATTAGAGATCAAGGTGTTAGACATGCTTGGAAGCAAGAAAGAAATATGATAATAAAAACAGGAAGAGGAACTCGAAATTGGAGTAACAAACGAAAAGCAGAGATTGTGAGAACTGGTAAAGCTAAAGGATTTCATGGTCATCACATTAATAGTGTAAAGTCAAATCCTTACTCGGCTGCAAACCCAAGAAACATTAAATTCCTCACACCAAAGCAGCACATTAATGCACATAGGGGAAGTTGGAGAAATCCTACAAAAGGGAAATTGATTAGAAGAAGGTAG	MEKNRSKKRWYKYLIQLMVVALIVTSIPLNGLAETAPAFTPSPNSEQSPEVEKKEEKELPSPHPNQLKKNKTKNQANPTEVVEERTETEKVFDNNDGTFTKKVYTEPIHTEKDGKLEEVSPKLVTAPDEKIVTENTKLKPEFEKTTQDGKYVQFKVKDHTIQYELMSANGEKGEVKPSPVTATHENNTVWYKGIFPNIDLKSTTFNGNVKEDFVLREYTGHHIFTFALQTDLTPSVQEDGSIHFQDEKKENIFTLPKPYMNDSNVNQQSGEAVTSDAVRYNIEKTDEKTYTLTVTADPKWLQAPERKYPVNIDPSIEIDNFENAYVSTLSPNRNYSGGDLWDSGQNAYTLKVGYYDGSTGTNFAFIKPQISDLKGAQIESATFHAYAVWHYYGNQPNGVWLDEVTGGWSVGGVNWNNKPGSNNIAHADVGRGQWAKFNVTNTVKAWVEGARPNNGFKLHTNGNGQNHWKKFIAAENGSNAPYLEVNYSYAKPNKPRVQSYSNGSSSSSGHFNLQWDAVPGATGYKVAIFNGYDYEYIPVGNVTNWSTKDKKIFPTPEEIAQGHFEFHEDGKGGEAPVNPGPIYKNAHVAGSPYGDYSGARGYWIRIVAEYPFGDSPISDEAIMYIPLEQVKKPTGSAYINATDKQTGYVSLKWDGVPEAAGYKVWVYNGKDYEAFDVGNATTWTTQGQNIWPTKDEIAKGQYLLHHDKKGVELALDPSPVYRNSGGIYGGSTNYWFRVTAYSKAGHAESEISQEFTPRFSQDFGFLGMLDYWASIDVLNGKVNATNGNFLMNEKDITLSGRGPDVSIERTYNSLSKHVGLFGKGWFSSLEERIWKDAEGNLLLTSADGAQITFTRTGDGTYQAPTGVYLDMKETSEGYEVKDKDQTVTFYTKKENSGRMEYVKDKYGNTTTYEYDGEFRLSKVKNASGKELLLQYEGANKKVSKVTGPDNKVITYTYRGDLLISSTTPEGKAYRYGYENDLLTHVYDPKHTDEKPYQTIYTYENNRLVKVTDPLGKATTLAYNTDTKEVTLTNPKGRKTIYTYNDAGNPVKTIVDAGRLNLTTTYEYSANNLVKTTTPKNQTESFTYDGNGNVTSATDTMGTEKFEYNKNNGVVSHTDNEGDKTTVAYKSANTEVSVTDQATHSSSVIFHDQYGNPIETSKDIGTGENFIQNPSFEMNETEKWSIFRHNNDGTGTKDSLPAPGGLGGASSLKVTTKASNNDWGYIAAIQEVTLEPNTTYTLSGMIKTTLSQGTGAFFNIQLLKEDGSAIDGGGWNDNRYNKVQGEKDWTNRQVTFKTTEQTRKAKIYLQVENGGASTSGTAWFDKLQLEKGETSSSFNPITNSSVENMMENGCIPGWIRGDGTSCSPKETAHEGFTGSSSIVFERSQYGDSDIGYGQWVNLNQKTAAPITVTGMSKSENVENDAPDKLSKDYSIWADVYYQDGSGENYQAKFPSGTNDWNRSAVLIPAKKPIKHVAVYVLFRKNNKGKVWFDDIRLLEGNVLVKNEYDQDSNVTAMYDEEGNKNTFTYDASGNKISETDEKGNTKSFDYNKDGQLTKVTLKNGTSVGYSYDHNGNTTEKSVMFGGKTQTYKYEYDVDNKNTVFVDALNRRIEHTYDENANKTKTKMPNGSLLEYVYDSADRMIGEKRNGKDSFTFERDQNGQETKIKDHVNGVERGKTYDNADRITSMTDSRGGKVDWAYHDKANSKTEKLKEQTITHGGYNSKIAYEYNTGDQNTKVIDGTSTYRFDYDEQGHVRTYAAPNRTGSTFNYDQIGKLKDLVIGTPNQLILSERYEYDKTGNRTKITHESSGGKVTETNYVYDPINQLLKESLPNGTVKDYTYDGFGNRTSLKVTEGGKETKAVTATFNEGNQLVKFGNESLTYDVNGNRTSDGKYTYTWNEADQLVAVTKKGESNPFATYKYDDDNRRIEKNVNGVVTRYFYDGDSINPLYETDGSGNVLRQYVYSIEGTRLAMKSQGQTLFYHYSPRGDVVAMTDNDGQVVANYEYDAWGNVLKSDTKGIAADNSFGYAGYMYDKEIGMYYLIARYYSPDHGVFLSVDPDPGDEDDPVTQNGYTYGDNNPVMMIDPDGHWAFLIPVAVHGGRFILQRTVSRTAVRYSGHLFSQATRKQSGKLVKRSMKSIRDQGVRHAWKQERNMIIKTGRGTRNWSNKRKAEIVRTGKAKGFHGHHINSVKSNPYSAANPRNIKFLTPKQHINAHRGSWRNPTKGKLIRRR				NA	NA	NA	NA	NA
AK009_09501	1548	patA	COG1696	Peptidoglycan O-acetyltransferase	ATGACGGAATATATAACTAACTTTCGCGTGACAACAAGATATTATTATATTGGGGGATATGGTATGCTTTTTAATTCTTATGAATTTATGCTTTTTTTCTTACCTATAGCAGTAATTGGATATTTTATATTGCAAAAATTCAATCAAAATATCGCAAAAATTTTCTTAGTGGGCATGTCCCTCTATTTTTATGCATATTTTGAAGCGAAATATTTATTACTAATAGGAGTCTCATTATTTACAAACGCCTTTATAGGTCAACAAATTATAAAAAAAACGAACGAAAAAAACCGAAAAGTATTATTGACAGTTGGCTTGGTGTTTAATATCACATTACTAGGATACTTCAAGTATTCTGATTTCTTTTTAGACAATATAAATACTATATTTGGAACGGATATACCTTTATTGAAGCTTTTATTACCTTTAGGAATTAGTTTCATTACCTTCCAAAAAATCGGTTTTTTAGTGGATTGTTATAAGAGAGAATTAACAAAGTTTAATTTTATTGATTTTTGCTTGTTCGTAACGTTTTTCCCGCAACTTATTGCAGGACCAATTGTTCATCATAGTAAGGTTCTCCCTCAATTCCAAGATGAGTCAAAAAGAAGACTTAATATTGAGAATATTTCAAAAGGGCTTTATATATTCGGTATCGGTCTTACTAAAAAAGTGGTAATTGCTGATTCATTAGCACAATGGGCTGATTTCGGCTTTAGCAACGTAAATCAACTATCTACGATTGATGCGTGGATTACATCGCTTGCTTATACATTACAACTGTATTTTGATTTTAGTGGATATTGTGATATGGCAATAGGTGCTGCACTGTTATTCAATATTTCATTGCCAATTAATTTCTTCTCTCCATATAAATCGTTAAGTATTCAAGATTTTTGGAGACGTTGGCATATGACATTAGGACGATTTTTCACTCAGTATGTATATATTCCATTGGGTGGTAGTCGTAAGGGACAAGTTCGAACTTATATAAATTTATTTACAATCTTTCTTATTAGTGGTATTTGGCATGGCGCTGGATGGACATTTGTTATTTGGGGTATTTTACATGGATTGGCTATTGTATTACATCGATTATTTAAAAACTTAGGTGGAAAAATGCCTAAATTGTTTGCATGGGTTTTAACAATGGGATTTGTGCATGTAACGTGGGTATTTTTCAGAGCAACTTCAGTAGAAGATGCTTTAACTATGCTAAATCGCATGTTTAATGTGAACTACTTACACATTCAAACCGCCCTTATTCAATTTCGACCTGAAACATTAGAGGGTGTTTCTACAATAAATAATTTAATTTATACCATTGCTAATTTATTCCCATTCCAAATAACTAGTACTCACTTTAATTTCCAAACAATCTTATATCTAGCAATTGGAATGACTATTGTATTATTTACAAAGAATTCTATAGAAAAATTAGATTCTTTTCGTCCCAAACCGACTTATGCTCTTGCATTAGCTAGCATGTTTATACTTTCTTTAATGTATTTAAATCGTGTGAGTTCATTCTTATACTTTAATTTCTAA	MTEYITNFRVTTRYYYIGGYGMLFNSYEFMLFFLPIAVIGYFILQKFNQNIAKIFLVGMSLYFYAYFEAKYLLLIGVSLFTNAFIGQQIIKKTNEKNRKVLLTVGLVFNITLLGYFKYSDFFLDNINTIFGTDIPLLKLLLPLGISFITFQKIGFLVDCYKRELTKFNFIDFCLFVTFFPQLIAGPIVHHSKVLPQFQDESKRRLNIENISKGLYIFGIGLTKKVVIADSLAQWADFGFSNVNQLSTIDAWITSLAYTLQLYFDFSGYCDMAIGAALLFNISLPINFFSPYKSLSIQDFWRRWHMTLGRFFTQYVYIPLGGSRKGQVRTYINLFTIFLISGIWHGAGWTFVIWGILHGLAIVLHRLFKNLGGKMPKLFAWVLTMGFVHVTWVFFRATSVEDALTMLNRMFNVNYLHIQTALIQFRPETLEGVSTINNLIYTIANLFPFQITSTHFNFQTILYLAIGMTIVLFTKNSIEKLDSFRPKPTYALALASMFILSLMYLNRVSSFLYFNF	PGPT0026125_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
AK009_09502	1074			hypothetical protein	ATGTATAAACGTTTTATATGTTGGTTTGTTCTATTCCTATTCCTTTTATGCGGAATAGTTTGCGCTATTATCTATAAACTTGACCCATTGTATGTATATAAATTTAAGAAAAATGATTTCTTTTATGCTACTGAACGCTATCAAATGCCTGGACTCATTAAAAATATGGATTATGACACTTTATTTGTGGGTACTTCTATGGCAAGAAATTTCCTTGAACCTAATGCTGATAAATTATTTCATACTACCAGTTTTAACGGGGCTCTTCCTGGTTCAACAGCCAGAGAGCAAAATATGGCAGCTCAGTTAGCTATACAATCAAAAACTATTAAAAATATTATTTGGGAACTTAATACCTATTCATTCTCTGGAAATCCTGATTGGGTGTCAGAAGGTGCCTCACCATTCCCAACTTACATGTATGATACAAATAAGTTGAATGATATCCAATATTTCCTTAGTCCATATTCTCGAAAAATAGCATTACAAAACATGAAATTAAACTTAGATTCAACAAAACTTCCACAGGATCCTTACTGGCTTTATAAATTTGGAGATGAGGAACCTAAATTTGAAGTAGATGTAGCTAAAAGAGTTGTTGATGGTGCAACTACTCATAAACCAATAAGTGAAGGTCTGTATCATGAACAAATGCTTAAATCTTTTGATTCTAATATTATTGAATTTGTAAAACAAAATCCGGGAGTACAGTTTACATTTTTCTATGCTCCATATCCAGTCACTTCTCATGTAGTTAAAGATAAAAATGATCCAAAACATACAGAGGAAAATATATTATTTAAAAAAGAAGTTTATAACAAATTAAAAGAACTAAAAAATGTAAAACTTTATGATTTCCAGGATGCAAAAGAAGTTACGTATAATCTTTCAAATTATATGTCCGATCAGACACATTATTATAGACATGTAAATGATTGGATTATAAAACAATTAGCAACTACGGAACCAATTACTAGTAAGAAAGTTTACGAGCGAAGATTGTCAGATTTTTCTAATGAAATTAAAAACTTTGATACTTCTAAGTTAATAAATTCAGATGAAAAACCTAATTAA	MYKRFICWFVLFLFLLCGIVCAIIYKLDPLYVYKFKKNDFFYATERYQMPGLIKNMDYDTLFVGTSMARNFLEPNADKLFHTTSFNGALPGSTAREQNMAAQLAIQSKTIKNIIWELNTYSFSGNPDWVSEGASPFPTYMYDTNKLNDIQYFLSPYSRKIALQNMKLNLDSTKLPQDPYWLYKFGDEEPKFEVDVAKRVVDGATTHKPISEGLYHEQMLKSFDSNIIEFVKQNPGVQFTFFYAPYPVTSHVVKDKNDPKHTEENILFKKEVYNKLKELKNVKLYDFQDAKEVTYNLSNYMSDQTHYYRHVNDWIIKQLATTEPITSKKVYERRLSDFSNEIKNFDTSKLINSDEKPN				NA	NA	NA	NA	NA
AK009_09503	435			hypothetical protein	GTGCACGGCCTTCTTGTACGCCGCCGCGGCCTGGCCGAGCTCCGCTCCGGCCTGGCCGAACTGCCGCACGAACTTCGGGCGCCGATTGCCCGCAGGAAGATCGGCCATGTCGTGCCACACCAGCACCTGCGCATCGGTCCCCGCGCCCGCGCCGATGCCGATGGTGGGAATCGGGCACTGGCGCGTGATGTCCGCCGCCAGCTCTGCCGGGACCATCTCGAAGACCACCATGTCGGCTCCGGCGTCGACGACGGCCTGGGTATCAGCGCGCAGAGCCTCGGCACCCGCATTACGGCCCTGCACCTTAAACCCGCCCAGGTTATCCACCGACTGCGGAGTGAACCCGACGTGGGCGCACACCGCCAGCCCGGCATTTTTCAGCGCCCGGATCCGCGGGGCGACGCGCACGCCGCCCTCGAGCTTGACCATGTGTGA	MHGLLVRRRGLAELRSGLAELPHELRAPIARRKIGHVVPHQHLRIGPRARADADGGNRALARDVRRQLCRDHLEDHHVGSGVDDGLGISAQSLGTRITALHLKPAQVIHRLRSEPDVGAHRQPGIFQRPDPRGDAHAALELDHV				NA	NA	NA	NA	NA
AK009_09504	375			hypothetical protein	GTGGGCCGTGGAGTAGTCGTAGGCGGTGAGCATCGCCCAGGGCTCACGCCGCGCCTTTCTCTCCTTGAGATCGGAAACGCGGACCTTTTTGGTGGGGGTGAGGTAGCCAGTCATAGGGCTTCAACACTAGACGAGGAAGAGGCCAAGTATCCAGATGAAGACCATGGCGGTGCACCCCATCACCCCGGTCACCGCGGTCTGGGAGCGGTACGCCTGTTGCGGTGTCATCTTGGAGAAGTTCGTCACCACCCAGAAGTGGCTGTCGTTAGCGTGGGAGACGACGAGCGAACCGGCGGAGATGGCCATCACAGCGAGGCCGACCTGCACGGGGGTTTCCAGCCCGAGGGTCGGCAGAAGCGGCGCGACCAGGCTTGA	MGRGVVVGGEHRPGLTPRLSLLEIGNADLFGGGEVASHRASTLDEEEAKYPDEDHGGAPHHPGHRGLGAVRLLRCHLGEVRHHPEVAVVSVGDDERTGGDGHHSEADLHGGFQPEGRQKRRDQA				NA	NA	NA	NA	NA
AK009_09505	525			hypothetical protein	GTGGGTCTCCGCGACCAGGAGCACGGCAAACAAGAATCCGATAGCGAGCGCAATCACCGGGGTGCCGGCGAAGACGACCGCGCGGCCGAACCATCCGCCGACACCCGCCGCGGAGGTGATCGACCCGGCGGCCATGAGCAGAATGGGCACGAGGATCGGGGCGAGGGACAAAGCCGTCGATGGCAGCCGAGTGTAAGAGTTCTTCAGCTCGTTGTAGGCGGCCTCGACATCGGTGTCCGGGACCGCTTCCGTCTCCAGGGTGTGAAGCGACGGGCCGATCCAGACGGAGTAGAAGTAGGCGGCGACCATGACGGGGATGGACACGAGCGCGCCGAGTGCCATGACGAGCAGCAGGTTGGTGTCCAAACCGAGGTTCGACGCCGACGCGAGCGGTCCGGGCGTTGGCGGGATGAACACGTGGGAGGTGAACAGACCAGCGGACAGGGCGATCGCCATGGTGGCCGGCGAGGCGCCGGTGCGCTGCGCCAGCGCCCTGCGCACAGGGTTGAGGATCACGAACCCTGA	MGLRDQEHGKQESDSERNHRGAGEDDRAAEPSADTRRGGDRPGGHEQNGHEDRGEGQSRRWQPSVRVLQLVVGGLDIGVRDRFRLQGVKRRADPDGVEVGGDHDGDGHERAECHDEQQVGVQTEVRRRRERSGRWRDEHVGGEQTSGQGDRHGGRRGAGALRQRPAHRVEDHEP				NA	NA	NA	NA	NA
AK009_09506	393			hypothetical protein	GTGCTTTGTGCCGATTACGCGCACGATGGCGTCGGCAAGCTGAAAAGCCGCACCGGTCTTTTCCAGGATGAAGCCAATGAGCGTGCCGAAGATGACGACGAGACCGAAGGACTTGAACGTGGCCGCGAAGCCTTCGCCGATGACCGACGCGATGCCGGGGGTGACCAGCGCCCCTTCGGCGTCTTTGACGTCGAGCAGCGGAATCCCGCCGATCAGGCCGAAGACGAGCGACACAAAAAGAAGGGAGAGGAAGGGGTGGATCTTCCACTTCGAGATCATCAGGATCAAAACGACGATCGCGACGACGAAGACGCCCATCAGCGGCAAGCCAGTCATCGGTGCTCCTTAGCCCGGGAAAAGTTCCCCCCGAGCTTGATGGGGGACGTTCAGTAA	MLCADYAHDGVGKLKSRTGLFQDEANERAEDDDETEGLERGREAFADDRRDAGGDQRPFGVFDVEQRNPADQAEDERHKKKGEEGVDLPLRDHQDQNDDRDDEDAHQRQASHRCSLAREKFPPSLMGDVQ				NA	NA	NA	NA	NA
AK009_09507	1275			hypothetical protein	GTGACCGTTGCCTGTGAGCCAGAACCGCCGAAACCGCTTCGTACAATGACACCTATGTTCACCGCCTTGCACTCCGCCCTTGGAATAGCGCCCACCGACGAATTCACAAATGAGATGCTCGACCGACTGGTCGAGGAGCGTATTGCGGAGCGGCAAGACCTCGACTTCAAGGAGAAGATCGACAGCAAGCCGACTCGGCCTGAGAGCGACGTGAAGAAAGACCTGTGCGCTATGGCGAACAGCGGTGGTGGGGTCATTGTCTACGGCGTGGGTGAGCTTCCCGACATGAAAGACCACGCCGGTAAAAGGGTCAGTGCCGGCGAGTACTCCTCTGGACTGGAACAGTCGTATTTGACCGTTGCCACCGCCTACATTTCGCCGCCGCTGCGGGGTGTGGAGTTCCACCGGGTCGAACACCCCGAACACGAAGCATTCGTCGTCGTGGTGCCGGCGAGTCAGCAAGTGCCGCATATGTACTTCGCCGAAAAGAAAAACGCCACGGTGCTCGCTGCGCCGACTCGTAACGGGAGTCACTCCGACTGGTTGAGTGAGCCTGAAATTGCGAACTTGTACCGGCTGCGGTTTCAACGGGAAGAAGCCTCGTCCCGTGAAGTAGACGAGGTGTATAGCAAGGTGGCCGCGAAGCGGTCGAGTGACGGCTTTTGGGGTGTCGGTGTTGCGGTGCCGACGTACCCGGTAAGAAACGGCGACGTTACTGAGCGTGACGCGACTATGGCAAGGTTTGCCGCTTATGACGACCCGCTGCGCCTGGATTACAACGGGGCGGTGTCTCCGGCGACTGCCTCGAATTACCGCAGGGGTTTGAAGTGTTGGACGTTTTCGGGAAAGCAGTACGACACGCAAGAATTGCTCGCGTATGTCGAGCTGCACGAAAACGGGGTTGTCACCGTCCTGTCGCGGCTGGACAGGGAGACGTTCTCGACGGAAGACCAGTTAGTGCCCACGCATGCGTTTGCGTGCTTGGTGGGCGACCTCCTGGCGCTTATTCGCCACTATGGAGGTGTCACCGGCAACACCGACTACACCGTGCGCTGCAACGTTGAATGGGATCAGGACAAGCCGTTGGTGTTGTGGCAGCCGAAAGATCCGAGGTACTTCTCCGAAGACCCACTGCCGTTAGAGTCCTTTAGCCCGGTGGAGGCGGAGGTAAGTGTTACCGCGAACGCTCCGCTCATTGACACCGCGAGGTCGCTGGTGCGGGACTGCTTGAACCAGGCAGGAGTTGAGCAGCTTCCGGTGTGGAGAAAGCAGTAA	MTVACEPEPPKPLRTMTPMFTALHSALGIAPTDEFTNEMLDRLVEERIAERQDLDFKEKIDSKPTRPESDVKKDLCAMANSGGGVIVYGVGELPDMKDHAGKRVSAGEYSSGLEQSYLTVATAYISPPLRGVEFHRVEHPEHEAFVVVVPASQQVPHMYFAEKKNATVLAAPTRNGSHSDWLSEPEIANLYRLRFQREEASSREVDEVYSKVAAKRSSDGFWGVGVAVPTYPVRNGDVTERDATMARFAAYDDPLRLDYNGAVSPATASNYRRGLKCWTFSGKQYDTQELLAYVELHENGVVTVLSRLDRETFSTEDQLVPTHAFACLVGDLLALIRHYGGVTGNTDYTVRCNVEWDQDKPLVLWQPKDPRYFSEDPLPLESFSPVEAEVSVTANAPLIDTARSLVRDCLNQAGVEQLPVWRKQ				NA	NA	NA	NA	NA
AK009_09508	348			hypothetical protein	ATGTCTTTCCCCGCCCCCGGCACCATTATTCGAGACTGGCTGAACGAGCGTGCCGAAGCAGGCGTTGTCCGCGCCAAGGTCGTCACCGACGTCGCCTACAGCGACGGGGTGCTGACGGTGACAATCGAGCCGGAGAAGTTCGTTGACTTGAGCGCCTGGAACTCGCTGAACCAGGGCTACTCCGACTCGCTCGGCGACTTCTACGCCACGGAACTCGGTTGGACGAATAAGCAGTCCGTCTACCTGCGCGAAATGGTCACCGAATTGCGCGTCGTGACGGCAGACGGCTCGGTGCTCGAAACGGTGGACACTGCCGCCTACCAGCGGAAGAAGAACCCGCAGTTCTAG	MSFPAPGTIIRDWLNERAEAGVVRAKVVTDVAYSDGVLTVTIEPEKFVDLSAWNSLNQGYSDSLGDFYATELGWTNKQSVYLREMVTELRVVTADGSVLETVDTAAYQRKKNPQF				NA	NA	NA	NA	NA
AK009_09509	576			hypothetical protein	ATGACCCACCACAACTCGAACGCAGCGCCACCACACCGCTGCACCGAAGAAAAGAAAACCACGACCCCACGCACAAACAAGGAGGTGTTGCTCTCGCTTGACGTGTTCTTCAACCGGGACGAGCTGGTCACAATGAACCGGTTCCTCCGCCGCCACGTCGACAGCGTCCGCGTTGTCGGAGCTGACGGTGAGCACGTTCACCTCGACGTGTTCCAGGCAATGAAGTTTCTGACCACGCTGGTCAAATACTCCGACCAGGACAACGGCATGATCACGCTGGAGGCCGACGCAAACCCGCGCCACCTGACGTACTACGAACGGGACAACCTCGTGGCCGCCGACCAGTTCGACCCGAAAGAGCTGGAGGCAGGCGACGCGCCGAAGGAGGACGCGCCCCGCGAGCTCCTGGACGCAATGTTCTGCCAGGACACCTGGGAAGTCTGGACCGCAGAAGGCATAGACTTCCTGGCTCGTTGCAACGACTTTGAGGAGGCTCGTCGCATTACCCAGTCGTTCCGGGACGAGGGTGTGCCGGCGCAGTTGAGTAGGACAATTCGTACGGTCTACCCCGTGTAG	MTHHNSNAAPPHRCTEEKKTTTPRTNKEVLLSLDVFFNRDELVTMNRFLRRHVDSVRVVGADGEHVHLDVFQAMKFLTTLVKYSDQDNGMITLEADANPRHLTYYERDNLVAADQFDPKELEAGDAPKEDAPRELLDAMFCQDTWEVWTAEGIDFLARCNDFEEARRITQSFRDEGVPAQLSRTIRTVYPV				NA	NA	NA	NA	NA
AK009_09510	411			hypothetical protein	ATGGGTACGGGTCGGAAAGAGAGCGCATTTTCTTGGCGTAGAACGTGCCCGGTGCGGCCTCCTGAGACCAAGCCGAACTACGCCCGCCACCGTCGTTTTCATGTTGTTGTGCAGTCATGGACCGGCATTGTGTCGTCGCACGAAAGCACCCGCCAGCGCGGGGGTTCTCACCTCGTCCCAATTCGGGACTCCGCTGCCACTATTGACGCACCCCTCCAGGCCAAAGCCCCACTTCCAACCCCTGACACCCTCCCGCACCGACTCTCGCCACGACCCCCGCAACGCCTACCGCCCCGGAACCCAGCCTTGCGACAGCCGCGTCTCACCACTGGCTCTCGTCCTCTGGCAACCGCTGCTCGAACGCTGCAATCAGCCCACGGTTCTCGTGCTCGTCAAAGGGGACGGCCATAG	MGTGRKESAFSWRRTCPVRPPETKPNYARHRRFHVVVQSWTGIVSSHESTRQRGGSHLVPIRDSAATIDAPLQAKAPLPTPDTLPHRLSPRPPQRLPPRNPALRQPRLTTGSRPLATAARTLQSAHGSRARQRGRP				NA	NA	NA	NA	NA
AK009_09511	1416			hypothetical protein	ATGCCAGCCGCGAAAGAACTCACTCCGCGCCAACGCACCGTCCTGCAATGGGTCGTTGACGGGTGCCCTACCGACCCTGAGGTGCCTTCGACGTACAAAACCACCGCCCGCACGCTCGAAGGCCACGAGCTCGTCAAGGTCAAAGGCCACGGCAAGACCTGGCAAGCAACAGTCACCGAGCGTGGCAAGCGGGTGCTAGCAGGGAAAGAACCGCTCCGGAGACCGAAACGGAAGCGCGGTACGGCATCCGAGACGGGGTACGCCCAGCCGGCCTATGCCCCTCCGGAGCCACCACCTGCGAGCGAAGTAGCACTGGACGCGCGGGTGACCGACTTGCTCGAAGACTTGGTCGCCTCTCAGCGTGGGTGGGTTGTCAGGCGCGTAGAAAACCGCGACGTGGCACGAGCCGACTGGGACGCGGTAGAAAAGTGGGTCAAAGGACCGCGTAACGACCTTGTCCCGGACGGCAAGGAGTTCAAGCTCGAATGGCGCACCGACTCGTGGCACTTCGACTCTCCCGTGACGGTGACCGCTGCGTTGCTCGACGCGGACGAGTGGGTGTCACCAGACCCAGGGCCTGTCCTGCGGGGAGAAGTTGAGGTCCGCAAATTCCACCCGGCTATCAACAGGCTTCTGCGAACCTCTAAGTGGTACAGCGCAGAGACCAAACAGCGCGCAAAGTTGCTTTTGCACGTCGTTATCACCGAGGCTCAAGCCCGCGGGTGGAGCGTGACGGCACACGACACCGAGGACTACAAGGGCAAGAAGGTGCTGGAGAAAGTCACGCTCGACACCGACCACCGCTCATATGAAGTGTGGGCCAGCGAGCGCGAAAATAGCGTCGAGCGGCCGCCGACGAAGAAGGAGGTCAAAGCCTACGAGGACTCGCTGCGCTGGTCGTACAACAAGGGCAAAGAAATGCCGAAGTACTACGTCAAAGAAGGCACAGGCCTGGTGTCTCTCACTGTCGGTTTCACCAGGCGTAACGACACCCCTGCGAAGCCGACGCGGCTGAATTCGGTGCTCGGAGACTTCTTTGCTGACGTCCACCGCAGAGAGCAGTGGTACGCAGTGGTGGAAGAACGAGACCGACTTGAGGCTGAGCGCCGGCAGCGCCGACTCGACAAGGCAACGGAGCTCGCCCGTGTTCACCACCGGGAAGGTGAGCGTCACAAGGTACTTCTCAGGCGCGTTGAGGTCTGGAAAGAGCGGCGGGAAATTGAGGAGTACCTCGACGCGCTCGAAGGCGTTCCAGAGGCCGAAGAGTGGCTCAACTGGTGCAGGGAACGACTGACCAAGACCAGCGCTTTGGGCGAAACCGACTTGCCTATGGCCGTCCCCTTTGACGAGCACGAGAACCGTGGGCTGATTGCAGCGTTCGAGCAGCGGTTGCCAGAGGACGAGAGCCAGTGGTGA	MPAAKELTPRQRTVLQWVVDGCPTDPEVPSTYKTTARTLEGHELVKVKGHGKTWQATVTERGKRVLAGKEPLRRPKRKRGTASETGYAQPAYAPPEPPPASEVALDARVTDLLEDLVASQRGWVVRRVENRDVARADWDAVEKWVKGPRNDLVPDGKEFKLEWRTDSWHFDSPVTVTAALLDADEWVSPDPGPVLRGEVEVRKFHPAINRLLRTSKWYSAETKQRAKLLLHVVITEAQARGWSVTAHDTEDYKGKKVLEKVTLDTDHRSYEVWASERENSVERPPTKKEVKAYEDSLRWSYNKGKEMPKYYVKEGTGLVSLTVGFTRRNDTPAKPTRLNSVLGDFFADVHRREQWYAVVEERDRLEAERRQRRLDKATELARVHHREGERHKVLLRRVEVWKERREIEEYLDALEGVPEAEEWLNWCRERLTKTSALGETDLPMAVPFDEHENRGLIAAFEQRLPEDESQW				NA	NA	NA	NA	NA
AK009_09512	732			hypothetical protein	ATGCTCGACTACAACGGATTCGCCCTACTTTCACTGTCTAGCTACAACGGGCATCAGTCGTTCAGGTTTGATGAAGACCTGGCGCAAAGCGATTCGATCACCTGTACCGTTTGTGGCAAAGGCAAGACTGTGAATATTGCCCTGGCCAAAGACAAGCGCCCATCCGTTAAAGCTGGATACCGCTGGATGGTCTGTCAAGACTGCTGCGGCGCGTCAATAGCCATCGCCAACGAAGATGGCTGGGCGACGGTATATCCACCTCGCCCGAGCGGCCGGCAGATCGAAAACCTGCCAACCGACGTGATGCAGATGTGGGAAGAAGCGAATCTAACGTACTCGGTGGGTGCCTACACAAGTGCAGTCCTGATGTGCCGAAAGATCGTTTTCGCGACCGCGGTGAAGTGCGGCCTGCCAGCGAAGAATGAAAAGGGTCGCGCACCGAAATTCGAGGTGTGTGTGAACTACCTCGTTGACAACGGGATCATCACGACGCACATCAAGGACAACTGGGCTGACAGCATCAGAACCTGGGGCAATGCAGCCACTCACGAGATCCAATCGGTTAGACAATCAACCGCGGACAAGGCGATCAAATTCACCGAGCAGGTTCTCTTGCTCTCGTTCGAGTACCCGGGCGCGGCCAAAGCGGAGAACGAGAACGAAACCGACCAGGCAGGTGAAAGTTCTCCCCGCAGCACAGTTCCGCGCACGTCTGGCAATTACCCAAGCTAA	MLDYNGFALLSLSSYNGHQSFRFDEDLAQSDSITCTVCGKGKTVNIALAKDKRPSVKAGYRWMVCQDCCGASIAIANEDGWATVYPPRPSGRQIENLPTDVMQMWEEANLTYSVGAYTSAVLMCRKIVFATAVKCGLPAKNEKGRAPKFEVCVNYLVDNGIITTHIKDNWADSIRTWGNAATHEIQSVRQSTADKAIKFTEQVLLLSFEYPGAAKAENENETDQAGESSPRSTVPRTSGNYPS				NA	NA	NA	NA	NA
AK009_09513	546			hypothetical protein	GTGCCCGTTGCATTCTCGCTCCCCTCAGGATTCTGCGCCGTCACATATGCTTGGGGTATGGCCGACTATGAGGAACTTGATGTCCGATATGAAGATCCGTTCGATATTGAGCCAAGGGATACAAACTTCAAGACCGACTACGTAGGCACTGGGCGTCTCTACAAGGACGACACCGGACAGGCTATAAACATCTATGACCTGGCTGAACTTGACCGAAACCAGTGGATGGTTGTGGGGATTGACCTCTCGCACGCCGGATGTCGCGACTTTTCGGAGGACACCGTTCATTTGTGGGCGGTTAACAAACTCGATGCAGAGGCCGAAGGAAGGCACCCGCTGAAACCGAATTCCGACGGAAAACTTCCGGTGGTAAACATCAAATGCCACAACCTGACAGTTGAACAGGTGCTGAGAAATTTCGTGGACGCGGAGATGTCGTTCCGTCTCAAGGCGGTAGCGGAAATGCCGTTCCAGCTCATCGGTTATGCGGATCGTCCAAACATGGATGACGGCGGTGCTCGTCCAGACTCGGAGCCCGCCCCTTAG	MPVAFSLPSGFCAVTYAWGMADYEELDVRYEDPFDIEPRDTNFKTDYVGTGRLYKDDTGQAINIYDLAELDRNQWMVVGIDLSHAGCRDFSEDTVHLWAVNKLDAEAEGRHPLKPNSDGKLPVVNIKCHNLTVEQVLRNFVDAEMSFRLKAVAEMPFQLIGYADRPNMDDGGARPDSEPAP				NA	NA	NA	NA	NA
AK009_09514	2580			hypothetical protein	ATGGCACAGAAATTGAACCTCTCCTACGACGAAAACCTGGTTGCAGAACTCTCGAACAAGTTCGACCTCCGCGACCCGAACGCCGAAGCGCTTGCCGATTTGGTGAAGCGAATCGAAAAGGGCAACTACGACGCTTTAGAACCGCTGGTGCTCAACCTCGCAACGGGTGCTGGCAAGACCTACGTCATGGCAGCGTTTATCGAGTACCTGCGTCGTCAAGGACACCCCAACGTCATGGTGGTCACGCCGACGAAGGTCGTGCAGGACAAGACCGTCCTCGACTTCACCGAAGGCTCGCACCGCTACATTGGCGGCTTCGATGTCCCGCCTCGGCTTGTCACTCCGGGTGACGTGTCGAACCTGCGAGTCGATAACGTCGCGTCCGACCTGTTTGTGGGCGAAGGCGCCTCTACGCTGTACGTTTTCAATGTCCAGCAACTTTTCCCGCCCAAGGACGGCGGCAAGAACGTCGCAACGGGAGACGAAGCGGCGCGCCGCAAGACATGGAAGTTCCAGGAGGACTCGGGCGCGCTGGCACAACGGTTGATCGACACGGAGGACTTGGTCATCATTGCTGACGAGTCGCACCTGTTCGGCTCCACCGCGAAGACATTCCGTAAGTCGCTGACTTCGCTGAAACCCGCCGCAACTGTGGGGCTGACGGCCTCGCCGGACAAGGGAGACGACGTTGTCTACCGCTACCCGCTGTGGCGGGCTATCCAGGACGGTTACGTCAAGCAGCCGGTGCTGGTCTACCGCGAATCGGGCTACGACTCGGAAGACCGCCAGCTCCAAGACGCATTGTCGCTTCTGGCTATCAAGGAAGAAGCGTACGCGAACTACCGAGCAGCACACCCGAACGGCAAGCAGACCAAGCCGTTGCTGTTCGTGGTCTGCTCCGGCGTGCCTCACGCCACCGAGGTTGCCGATAGGCTTCGCGGACCAGGCTTCGTCAATGACCCGCTCGCGGTGCTCCAGGTGGACAACGAGCACAACGACAACACCACCCAGTCGTTCTTGCGCTACCTCGACACGGACAACTCCCCGGTTCGGGTAATCGTTTCGGTCAACAAGCTGCGTGAAGGTTGGGACACAAAGCGCATCGCCGTGATGTGTACCCTTCGCACAATGGGCTCAGAGGTGCTCACCCAGCAGGTCATGGGCCGAGGCCTTCGCCTGCCGTTCGGGGCGTTGACTAAGGTGCCTGCCATTGACGAATTAGACATTCTGTCGCACGAGTCCTTCGTCAAACTGCTGGAAAGCGAGAACGTCCTCAAGCAGTTCGGTATTGAGGACGCGGTGCGCGAGGATGATGACAAGGAGATCATCACCCCGCCTGGCACAACTAACCCACCACAGGTGGGCACTGGTACTGGCACGGGTGCTACGGGCGACACCTCGACTGACACCGGCGAGGAAGGCACCACGGTGCAACCTGGCGAGGACTCTCGCAACTTTGGTGACGTTCCTGACACTCCGGCAGTTGACCGCACCGTCGGCACACGAGCGCTCACCGACGAAGATGACATTGGAAAAGACGTTGAGGTATTCACCCCGGTGATCGTCAACATCAATGAGAAATTCGCCGGCACCACTTTCGACTTCCCGTCTTCGGCTATGACAAAGACGAAGAAGCAGTTCGAGCTGGTCGACGTCCCGAACTCCGTCATTGTCGAGCGAGCAGACAAGGTCACCGACACTGACGAGTACTTGGCTCGCACGAAGATCGGCGTGGCAGACGAGGGCAACAAAATCAAACCCGACAACGACGAGCGCTTCGCTGTACCGAGTTTCAAACAGACTCCTTCCCAAGTCGCCGCGGAACTGATTCGCCGCGTCATGGGTTCCGCAGCGGTTGCCGCAACGACAGAGAACACGAGCCAACTCAAGCGCCGCATCGTGCCGACGTTCATGGAGGCGACGAAGATCGAACAGTGGACCGAGAAGGCCAAGGAGTCCGCGGCCCGGCACCTGCGCGAACTCGTCGTTGAGGAGTCCAGGAAGGCGAACGCCCAGACCGGGACCACGGTGTCCATCCACCCGGTGACCCTCCCGATTGACGACTCGTTCGTACTCGACCTCGACAAGAAGATCCTCGACCTGCTCGACCGGCAGGAGAAGAGTGCGGGTAAGGCAGGTTTTAGCACCGCGGAATACTACGGCACCTGGAAGAAGGGGCTATTCGAGGCCGCGCGCTTCGACTCGTTTACCGGCGAGTACCGCCTGGCAGCACTACTCGACCTCGACCCGAATGTCGTGTGGTGGAAGCGGATTTACGCCCACGAAGGCGCGCGAGTGGCCTACACCCCGCACAACTCATACGTTCCAGACTTTGTTGTCTTCGACAAGGACGGCACCCACTGGATCGTAGAGGCCAAGGAGAACCGAGGCCGCGACGACGAGCGCGTCCAGGCCAAGCGTGCAGCCGCCGAGCGCGTGGTGCGCCAACTCGTTGGCATGCCGGAGTATGAGGACCAGACCTGGGGCTACCTCATTGCCTACGAGGACGACATTGCCTCTTCCGACTCGTGGGCCGACTTGGTTGCCGGTTCGGTGACGGAGCGGATGCCGACGCTCTAA	MAQKLNLSYDENLVAELSNKFDLRDPNAEALADLVKRIEKGNYDALEPLVLNLATGAGKTYVMAAFIEYLRRQGHPNVMVVTPTKVVQDKTVLDFTEGSHRYIGGFDVPPRLVTPGDVSNLRVDNVASDLFVGEGASTLYVFNVQQLFPPKDGGKNVATGDEAARRKTWKFQEDSGALAQRLIDTEDLVIIADESHLFGSTAKTFRKSLTSLKPAATVGLTASPDKGDDVVYRYPLWRAIQDGYVKQPVLVYRESGYDSEDRQLQDALSLLAIKEEAYANYRAAHPNGKQTKPLLFVVCSGVPHATEVADRLRGPGFVNDPLAVLQVDNEHNDNTTQSFLRYLDTDNSPVRVIVSVNKLREGWDTKRIAVMCTLRTMGSEVLTQQVMGRGLRLPFGALTKVPAIDELDILSHESFVKLLESENVLKQFGIEDAVREDDDKEIITPPGTTNPPQVGTGTGTGATGDTSTDTGEEGTTVQPGEDSRNFGDVPDTPAVDRTVGTRALTDEDDIGKDVEVFTPVIVNINEKFAGTTFDFPSSAMTKTKKQFELVDVPNSVIVERADKVTDTDEYLARTKIGVADEGNKIKPDNDERFAVPSFKQTPSQVAAELIRRVMGSAAVAATTENTSQLKRRIVPTFMEATKIEQWTEKAKESAARHLRELVVEESRKANAQTGTTVSIHPVTLPIDDSFVLDLDKKILDLLDRQEKSAGKAGFSTAEYYGTWKKGLFEAARFDSFTGEYRLAALLDLDPNVVWWKRIYAHEGARVAYTPHNSYVPDFVVFDKDGTHWIVEAKENRGRDDERVQAKRAAAERVVRQLVGMPEYEDQTWGYLIAYEDDIASSDSWADLVAGSVTERMPTL	PGPT0027225_1258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027225-res-K01156	NA	NA
AK009_09515	2010			hypothetical protein	TTGGGCAGACAACAACGCCTTGAGCTGACCTGGACGAATAAGGACAAGGCACTCATTCCCACCGAGCAAGGCCGGTACGGTTACACCTGGGTAGACCCGCGGGACCCGCGGTATTGCGAGACGAGGGTGTTGACGGTTGACGAAACGGTGGCCGGGACGAGGGCAGACAAGGAGGAGGGCACGACCTACTCCGAGCGGGCAGACCTGGAGCCACAGTCGGACAACCTGCTCATTCTGGGCGAGTCCGGCGACGTGCTTGAAGCGCTCACGCGGATGCCAGAGTGGTCTGAAAAGTACGTCGGCAAGGTCAAGTGCATTTACATTGACCCGCCATTCAACACAGCGCAGACCTTTGCGAATTACGAAGACAACCTAGAGCATTCGGTCTGGCTCACCATGATGCGTGACCGACTGCTTCACATGCGGGACCTTCTGTCCGAGGACGGCTCGATTTGGGTCCACCTTGACGATGTAGAGAACCACCGGATGAGGGTGCTGCTCGATGAGGTGTTCGGGGCGGGGAATTTCCTGGCCGAAATCACTTGGAAGAAGGGCGCTCAGGTCCGCAATAATTCTGGAGACTTCTCGTCGGATAGCGACTTCATCACGGTGTATGCAAAGGATCGCACCGAATTTGATTTGAACAAACTCGAAGCAACCTCCGAGATGCTCGGTAGATACCGCCAGGACGACGGTGACCCAAACCTCTGGCAGTCCATTGGCAGTGCCGCAGCCCACTCAGTATCGCGGCGTCAGCACCCAAGTGTTTACGGCATTCAACACCCTGTTACTGGTGAGATGATGTATCCCCCGAGCAACTCAAACTGGAGGTATGCCCAAGAGAAGATGCTGAGTAGCCTTCGCGAATGGGCTCCCTATGAGCTGGGAGAAGTTACGGACGAGGAACTCACGGAACGAGCTCGTGTGGAGGGGCCGTCCATCGAGCTACGGACAGATGTTCGTCCGTTGGTCATTCCAAACTGGTCCGAAGAGGTCGCAAACCAAGCTCTTGCTCGTCACAAGGAGGGGTGCTGGCCCGACGTATTCTTCACCAAGGGCGGCTACGGTGGACTCCGAGTTAAGGGACGAGTGCCGGAAGACTTTGGATCTACTCCGCGAACCATTTGGGATGACGTTGGGTTTAACGACACGGCGAAGCGTGAATTGCAGGCTATTTTTCCCAGGATTAAGGCGTTTGACACCCCTAAACCTGAACGCCTTTTGGAGCGCATCATCCACATCGCAACGAACCCCGGCGACATTGTTCTCGACGTGTTCGCCGGTTCGGGAACCACCGCGGCCGTCGCCCAGAAAATGGGCCGCCGCTGGGTGACCTGCGAGCTCGTAGAAGACACGTTCAACCGCTTTACCCGCCCGCGCCTGGAGAAGGTTGTCAACAACGAAGACCAGGGTGGTATCACCCTCCAGAAGGAGGAGCGAGCCGACGCTACCGAGGACGGTTTGCCCGAGGGACTTACCCCGGAAGAAGCCCAGAAGTTCACCTCGCTGCTGAGTAAGACCATCAAGAACGCCGACGAGCTCAAGAAAAACGCTGCGGTGAAACAACTCAAGTCCATGACCAAGACCAAGCCTGTCAAGGGTGTGGTCAACTGGCGCGGCGGCGGAGGGTTCCAGATCGCCCACCTTGAGCCTGCCTGCTTCGACTACGACCCCGAAGTTGCTCTAACCACGTTGACCGAGCACGCCACCGGTGAGTTGCTCGTGCGTTCTGTGGCCGCACAGCTTCGCTTTGCACTTACCCCGAACGACCTGCACTTCGACGGCAAGCGCGGCCGCGAGCACCTCGTTGTAGTCGAGGGTGTCCTGGACGAGGAGAAGATTGACGAAGTCATGTCTCACCTCCCAGAAGGCCACTCCGTCCTGTTCGCCGCGACCGTGGTCGATGACTTCGCCCGCGAGCATGTCCGCTCGTTCAAGAACGGCTCGCGAGTAGTCCACGTCCCGCTTGAGGTCTTCCCGTATTCCGACGCTGCCGAGGAGGAGAAGTAA	MGRQQRLELTWTNKDKALIPTEQGRYGYTWVDPRDPRYCETRVLTVDETVAGTRADKEEGTTYSERADLEPQSDNLLILGESGDVLEALTRMPEWSEKYVGKVKCIYIDPPFNTAQTFANYEDNLEHSVWLTMMRDRLLHMRDLLSEDGSIWVHLDDVENHRMRVLLDEVFGAGNFLAEITWKKGAQVRNNSGDFSSDSDFITVYAKDRTEFDLNKLEATSEMLGRYRQDDGDPNLWQSIGSAAAHSVSRRQHPSVYGIQHPVTGEMMYPPSNSNWRYAQEKMLSSLREWAPYELGEVTDEELTERARVEGPSIELRTDVRPLVIPNWSEEVANQALARHKEGCWPDVFFTKGGYGGLRVKGRVPEDFGSTPRTIWDDVGFNDTAKRELQAIFPRIKAFDTPKPERLLERIIHIATNPGDIVLDVFAGSGTTAAVAQKMGRRWVTCELVEDTFNRFTRPRLEKVVNNEDQGGITLQKEERADATEDGLPEGLTPEEAQKFTSLLSKTIKNADELKKNAAVKQLKSMTKTKPVKGVVNWRGGGGFQIAHLEPACFDYDPEVALTTLTEHATGELLVRSVAAQLRFALTPNDLHFDGKRGREHLVVVEGVLDEEKIDEVMSHLPEGHSVLFAATVVDDFAREHVRSFKNGSRVVHVPLEVFPYSDAAEEEK	PGPT0027230_463	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027230-mod-K07316	NA	NA
AK009_09516	153			hypothetical protein	ATGTGCGAGCATGTGGTAGATCTCCGGGATGCAGTAGATGATGACGGCGATCACGACGATCATGAGCGCGGAGTTGAAGCTTTTGGTGGTCGGGGTTGCGGGACGAGCACTGTGGGCCATGATGCCTCCTTGGCAGACGGGGTATATCGATAA	MCEHVVDLRDAVDDDGDHDDHERGVEAFGGRGCGTSTVGHDASLADGVYR				NA	NA	NA	NA	NA
AK009_09517	327			hypothetical protein	GTGATGCCGACCTGCTCAGCCAGCGCAGCGCCGGTGATTCCTTTGGCCTCGATGAGTGCGTCGAGACGGCACACGACGCGGGGTGTCTTAGACAAGTCCGTCAACCTCCTCCTCGAGTGTCTTGCCGCGCACGAGCACAGCTTCGAAGGCAATGAGCGTTGCTATGAGGATGAGCGCGGGGCTGACGTCGGAAAGCGGTGTGCCCGATCCGGTGTTCCACCAGGACTCGACTCCGAGGGCGGATGCCGCGTAGTTGTTGGCGAGCCCCTCGATGCCGAGGCGGGCAATGAGCCAGCAGATTATCGAGTACCCAGCGAAACGCAGTGA	MMPTCSASAAPVIPLASMSASRRHTTRGVLDKSVNLLLECLAAHEHSFEGNERCYEDERGADVGKRCARSGVPPGLDSEGGCRVVVGEPLDAEAGNEPADYRVPSETQ				NA	NA	NA	NA	NA
AK009_09518	1377			hypothetical protein	GTGCGACATGCCCTTGTCGGGCTGGTTGAAGTATGCCTTGGGGAACCAGCGCCGGGCCAGCTCCTTGACGGTGGAGACGTCGATCATGCGGTAGTGCAGTGCTGCGTCGAGACGCGGCATGTGCGCGCGGATGAACGAGCGGTCGGTGGCGATCGAGTTGCCGGCAAGCGGCGCGGGGTGGGCGGGATCGCAGTGCTTAGCGACGAGCCCCAGCACCGCATCTTCGGCGTCTGCGAGGCTGACCGTCGATGCGGTGATCTCGGTGAGCAGGCCGTTGTCGGTGTGCATGGAGACGACGACGTCGTCCATTTTGGCGAGCTGAGCGTCCGTGGCGTGGACGACGATGTCGATGCCGTCGCCCAGGATGTTGAGATCGGCGTCGGTCACCAGCGCGGCGACTTCGACGATGACGTGTTTGTCGGGGTCAAGCCCGGTCATCTCAAGGTCGATCCAGACGATGCGGTCGTTCTTGGTGGCGATCTCGTGGGACACTTACGCCTCTCCCATCTGTTCGTAGAAACGGCCCATCAGTGGCGAGAGCCAGCCGCGCGGCGTGTAGGTGGAAACGACGTCCATTGCTTTCGACAGGGGGCCGGGGACGACGCGGCGTTTGTTGCGGCGCATCGCGGCCAGGGTGTCTTTTGCGCAGGATTCGTAGGTGGTCCAGAGGAAATCGGGGACGACTTTGTCCACGATGGTTTGTTCTTCCTCCGGCACGACGGCCGCGCGCACGGGGCCGGGGGCAAGCAGCGTGCAGTGAACGCCTGTGCCCTTCAGTTCGTAATGCAACGACTCAGTGAACGTGTTCACGCCCGCCTTGGTGAACACGTAGGTGGAGTTGTTGGGAATCGGCATGTTTCCGGCGGCCGAGCCGACGTTGCACAGTGCGCCTTCGCCGCGCGGCACCATTTGATCGAGCACGGCCTTGGTGATGCGGAACACCGCGGTGGCGTTGAGGTTGTACTGGTTGACCTCGTAGTCCCAATCGGCTTTCATGAAGGGGCCGAAGGAGGCGATGCCTGCAGAGTTGACGCAGATCGTAACCGTGCGCGAGTGAATGTGTTCAAGCAGGGCCGTGACGTCGCGTTCTTTCGAGAGGTCGGCGGCAAAGACTTCGCAATTGACGCCGTGGCGCGTGGTGAGGGCGCCCGCGAGCTGCAAGAGCACGTCCTCACGGCGCGCAACGAGAATGAGGTTGTAGCCGGCGGAGGCAAGGTCGCGGGCGATGGCTTCGCCGATGCCTTGCGACGCTCCAGTGACCAGTGCGTAGGAGTCGATGGAAGGGGCAGGAAAAGTCATGTTGCCCACAGTACTAGTCGTACTCGACCTCGAAGATGTCGCCGGGCTGGCAATCGAGGGCTTCGCACAGTGCGCTGA	MRHALVGLVEVCLGEPAPGQLLDGGDVDHAVVQCCVETRHVRADERAVGGDRVAGKRRGVGGIAVLSDEPQHRIFGVCEADRRCGDLGEQAVVGVHGDDDVVHFGELSVRGVDDDVDAVAQDVEIGVGHQRGDFDDDVFVGVKPGHLKVDPDDAVVLGGDLVGHLRLSHLFVETAHQWREPAARRVGGNDVHCFRQGAGDDAAFVAAHRGQGVFCAGFVGGPEEIGDDFVHDGLFFLRHDGRAHGAGGKQRAVNACALQFVMQRLSERVHARLGEHVGGVVGNRHVSGGRADVAQCAFAARHHLIEHGLGDAEHRGGVEVVLVDLVVPIGFHEGAEGGDACRVDADRNRARVNVFKQGRDVAFFREVGGKDFAIDAVARGEGARELQEHVLTARNENEVVAGGGKVAGDGFADALRRSSDQCVGVDGRGRKSHVAHSTSRTRPRRCRRAGNRGLRTVR				NA	NA	NA	NA	NA
AK009_09521	561	pncA	COG1335	Nicotinamidase/pyrazinamidase	ATGAAAACAGCACTGCTCATCGTCGATGTTCAGAACGATTTTTGCCCCGGCGGCAGCCTCGCCACCGCGCGTGGCGACGACGTCGCTACCGCGATCGCGCAGCTTATCTCCGGCGACCACGGCTACGCCCACGTCGTGGCGACCCAAGACTGGCACATTGATCCAGGCGCGCACTTCTCGGCCGAGCCCGACTTTGTGGACTCGTGGCCGGTGCACTGCGTCGCGGGTTCCGCGGGTGCGGCGTTGCGCCCGCCCATCGATACCGCCCGCATTGAGGCGTTCTTCCGCAAGGGCGAGTACCGCGCCGCGTACTCGGGTTTTGAAGGGGTCGCCGAGGACGGCAGCCCGCTTGGCGAATGGCTCAACCGCGCCGGAATCAGCGCGGTTGACGTGTGCGGCATCGCCACCGATCACTGCGTGCGGGCGACGGTTCTCGACGCACTGCGCGAGGGGTTTGACGTCCGGGTCTTGCAGGAGCTGTGCTCGCCTGTCGACGAAGCCCGCGGCGCTCTCGCCCTCGACGAGATGCGCGCCGCGGGCGCGTACATTAAAGCGAGCTAG	MKTALLIVDVQNDFCPGGSLATARGDDVATAIAQLISGDHGYAHVVATQDWHIDPGAHFSAEPDFVDSWPVHCVAGSAGAALRPPIDTARIEAFFRKGEYRAAYSGFEGVAEDGSPLGEWLNRAGISAVDVCGIATDHCVRATVLDALREGFDVRVLQELCSPVDEARGALALDEMRAAGAYIKAS	PGPT0013470_2097	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
AK009_09522	276			hypothetical protein	GTGGCACGAGATATTGATGACATCGAGCGCGACATCGAGCGCACCCGCGAACAGCTCGCAAGCACCCTCGACGAGATTGCGCACCGCGCCAACCCATCGGCGCTCGCGGACAACGCGAAGGGTCAGGCCAAGAACTTCTTCCAGGACGAGACCGTACAGAAGGTCCTCGCCGGCGTCGGTGTCGGTGTGGCTGTGCTCATCGGCATCAAGGTTCTCAACGGCCGCAAGCGTAAGAAGGAGCTCAAGGAGCTGCAGCGCCTGCTGGCGCGCCGCTAG	MARDIDDIERDIERTREQLASTLDEIAHRANPSALADNAKGQAKNFFQDETVQKVLAGVGVGVAVLIGIKVLNGRKRKKELKELQRLLARR				NA	NA	NA	NA	NA
AK009_09523	543			hypothetical protein	GTGTCGTGGCTACACCGGCCAGTCGCGCAGAATCCGCTCGACGTGGCCCGAGGCGCGCACGTTGTACTGCAGCTGCTCGATCGCGCCATCGGCGCCGATGAGGAAGGTCGAGCGGATCACCCCGACAACCGTCTTGCCGTAGTTGAGCTTTTCCCCGTACGCGCCCCACTCGCTCATCACCGTCTTTTCTGGATCCGAGAGCAGTTCGATGCCCAGGCCGTGGTCCTCGCGAAACTTCGCCAGTGCCTCGGGAGAGTCCGGGCTAATTCCGATGACGTCGACGCCTGCGTTGTCGAAGTCACCGAGTCTTTCGGAAAAGTCGCACGCCTCCGTCGTGCAGCCGGGCGTGTTGGCGCGGGGGTAGAAGTAGACGAGCACCTTGCGGCCTGCGTAATCCGACAGGGCCACGGTCTGGCCCCGATCGCTGGTCAGGCTGAAACCGGGGGCGCGATCTCCTACATGCAAGCGGGTATTTTCGGTCATGTCTTTAGGTTTTACACTAATGTAGGTTCGGAAACCTTTACTAGAAGTTTGCAGACCTGA	MSWLHRPVAQNPLDVARGAHVVLQLLDRAIGADEEGRADHPDNRLAVVELFPVRAPLAHHRLFWIREQFDAQAVVLAKLRQCLGRVRANSDDVDACVVEVTESFGKVARLRRAAGRVGAGVEVDEHLAACVIRQGHGLAPIAGQAETGGAISYMQAGIFGHVFRFYTNVGSETFTRSLQT				NA	NA	NA	NA	NA
AK009_09524	747			hypothetical protein	GTGCGCGGAGGCAAACACGGCGTCGACCCCCACTTTGCCCAGCGGGCTTGTCGTCGAGGCGCAGCCGGAGATCGAGGCCACGCCGTTGTAGACGCCGGGGTTGTTCTGGGCGAGCGAGAGCGCCGAAGTGGCGGACATGGACACGCCCATCACGGCGCGCTTGCCGTTCGCTCCGAGGTAGCTTTCAATCCCGAGGGGAAGCTCACGGGCGAGGAAGGTGTCCCACTGATCAGGGCCCTGGATCCAGTTGGTGTAGTAGGAAAACGCGCCCGAGGTGATCATGACAACGTTGACGCCGCGGGAGGTGTAGAACTCCGCGGCATCCGTGTAGGCGAACCAGCCGGTACCCGCGTCAAGACCATTGAGCAGGTAGATCGTCGGTGCGTTGTCGCGCAGAGCGGGCTCTTTTGGCCGCGCAATCAGCATGCTCTCCCGGCGTCCCATCACCGGCGAGTAGGCCTCGGCGTACTCGACACCGCGGTTTCCAATCGCCCACAGCTCTTCAGCGGTGAGCTCGCGGGACGGCTCGGTGAAGATCTGCGCTGGCTGCACGGCCGGCTGCTCGCGGGTAACCAGGGGTGCATCCTCACCCGACGAGCCGCCCGTCGACGAGCCTGTCGACGACATGGAGGACAGCGGGTTGGGCATTTGCGCAGATGCCACCGCGGGCAGCGTTGCGCCGAGCGCGGCGGTGCACACAGCTGCCGTGAAGCGGGCCGTGAAGCGGGCTCGGCGGGAAGCGGATGA	MRGGKHGVDPHFAQRACRRGAAGDRGHAVVDAGVVLGERERRSGGHGHAHHGALAVRSEVAFNPEGKLTGEEGVPLIRALDPVGVVGKRARGDHDNVDAAGGVELRGIRVGEPAGTRVKTIEQVDRRCVVAQSGLFWPRNQHALPASHHRRVGLGVLDTAVSNRPQLFSGELAGRLGEDLRWLHGRLLAGNQGCILTRRAARRRACRRHGGQRVGHLRRCHRGQRCAERGGAHSCREAGREAGSAGSG				NA	NA	NA	NA	NA
AK009_09525	126			hypothetical protein	GTGCGTGCCCTGCGGGTAGAAACGCGCCTCGTGGTCGATGCCGCGCATGTTCAGGCGCTGGTCCAACACGTGCGTGCAGATGTTGGAGGCGAGATCGGTGCGCCCGCCGATGGTGACGAAGTTTAG	MRALRVETRLVVDAAHVQALVQHVRADVGGEIGAPADGDEV				NA	NA	NA	NA	NA
AK009_09526	411			hypothetical protein	GTGGTTCAGTGTCCACACTTCCATGGCTTAGCGCTCACCCTTGGCGGTCAGCGCGCCGCCGAGGGCTCCCCCGAGGGCGCAGACCAGGAGCACGCCGACGGCGTAGATCCAGGTGCCGGGGTTGTACATCAGCGCAGTGGACACCCAGAACATTACGGCGGCGATGGCGGGGAAGGACCAGGTGAAGCGGAACCACGTGGCGTCGATAAGTCCAAGCAGAAGCGATGCCACCGGCAGGTAGACCAGAAGCGTCGACGTGGTTGCGCGCGGCTGGAGGCTCAGCGCGAGCAGCGCGGGCACGACGATCAGCGCGGCGAAAGACAGGGCGAAGCTGGCGTTCTGCCGGCCGGATCGCCCGGCAATGGTCTTCTCAATGTTTGCCATAGCGTCCACGATAGGCCCTACCGCTGA	MVQCPHFHGLALTLGGQRAAEGSPEGADQEHADGVDPGAGVVHQRSGHPEHYGGDGGEGPGEAEPRGVDKSKQKRCHRQVDQKRRRGCARLEAQREQRGHDDQRGERQGEAGVLPAGSPGNGLLNVCHSVHDRPYR				NA	NA	NA	NA	NA
AK009_09527	564			hypothetical protein	ATGCAGCAGACTCAGCCACACGTCATATGGATCAACGGTGCGTTCGGTTCGGGCAAGACGACGGCAGCGAAGTTGTTGGCACGAAAAGTTCCCGGTGTGGTGATCGTTGACCCTGAAGAGGTCGGGGCTCTTCTAAGGCCTGTTCTTCAGCCGGTGGTGCCCGTCCACGACTTCCAGGAATGGCCCGCATGGAGAAAGCTTGTGGCTACCACGCTCAACGCTGTCCTCCGGGAGTTGCCGGAGGGCAGCCCCGTGACCATCGTTGTTCCCCAGACTGTGATGGTGGAGGACTACTGGTCGGAGATTACGTCCGACCTTGATCCATCGGTCCGACTCACGCCTGTGGTACTGAACATCGATCCAGTAGAACACCGACGCCGCGCAGAAGAGGACACTGAAGAGTCTGGTGCTCTGCGATGGAGGCTGAACAAATTCCCAGTCTTTCAACAGGCAGCATGGCTCCGACGTGCGTTTACCAACATCGACGTTTCCTCGTTGACCCAGGAGCAGACGGTCGCAGCTATCAGGGCGGTGGCGTTCCCTCCCGACCCTGAAGCTGTGTGA	MQQTQPHVIWINGAFGSGKTTAAKLLARKVPGVVIVDPEEVGALLRPVLQPVVPVHDFQEWPAWRKLVATTLNAVLRELPEGSPVTIVVPQTVMVEDYWSEITSDLDPSVRLTPVVLNIDPVEHRRRAEEDTEESGALRWRLNKFPVFQQAAWLRRAFTNIDVSSLTQEQTVAAIRAVAFPPDPEAV				NA	NA	NA	NA	NA
AK009_09528	309			hypothetical protein	GTGGCCTTCGCCCTTCATGACCTCCTGTCTGCACGCGGAGTCAAGCACGTCGTCATCGAGGGCGATGCGCTCGACCTCGCGTACCCTGCACCGTGGGAGCAGCAGATGGCAGAGCGAAACCCGACATCGCACAGCAATCGAACCGCTGACTCGGCGATTTCGTTTACGTTCGGCGTGCAGTTGCTCCGCCTGGCGCATGTTCTGCAGGCTAAGGACAGTGCATCTCAGGAATCATGCTGCGAACCGACCCACATCAGAGCGATGTTGCTACGGGGTGAGACATCGGGACAGCGCGTGGCCCTCCAATGA	MAFALHDLLSARGVKHVVIEGDALDLAYPAPWEQQMAERNPTSHSNRTADSAISFTFGVQLLRLAHVLQAKDSASQESCCEPTHIRAMLLRGETSGQRVALQ				NA	NA	NA	NA	NA
AK009_09529	480			hypothetical protein	TTGTGCCGCCAGGCAGATCGAGCACGCCATCCCGACCGCCCGATTCCAGACCTACAGGCAGGCCACGGGAGACGTCGTCGAGGCGGCACGGCTCTACCTGTGGAACATCCAGGCCGCGAGCGCGTTGATGACGAGCTGGTCGAGGTTACGCAGACGAAGCTCTGGAGCGCGAACGGGCTCGCCAAGCTTCTCGACACCATCACGCAGGTGCAGAACAGCTACAACCCCCGGCTGCGCGTTGGCGGCGTCGTTCTCAACCAGCACGAGTCCCGCACGGTCGGAGGCGGCCACTGGGCGAGCGAAATCGAGGCGGCCGCCGAGGCGCGCGGCCTCTCGCTGCTCACCCCGCCTGTTCCAAAGCGGCAGTCAATCTCGGATGCGACTGAGGAAGGGCTCGGGCTCGACGAGGGTGGCCCGGACTGGCGCGAGCTCGCAGCGATCTACGACGGATACCTCAACCAGCTCACCGGAAGGAACTAA	MCRQADRARHPDRPIPDLQAGHGRRRRGGTALPVEHPGRERVDDELVEVTQTKLWSANGLAKLLDTITQVQNSYNPRLRVGGVVLNQHESRTVGGGHWASEIEAAAEARGLSLLTPPVPKRQSISDATEEGLGLDEGGPDWRELAAIYDGYLNQLTGRN				NA	NA	NA	NA	NA
AK009_09530	666			hypothetical protein	GTGAGAACGGCGGCCGCCGCCGCCGCTCTGAACGTACGGTGCACGGAACTATGCCGCTTGGAAGGTGACCACTCCGCCGGACAGGACGAAGATCAGGCCCGCAGCGATGAAGCCAACGATGCCAATGACGAGGCTTCCCGTCTTGGGTTCCATAACGCTTCTCGTGGCGAAGGAGTAGATGACAAGGATCACGGACGCGACGGCAGCCACGATCGCAACCCACTGGATGATGTTGTTCAGGTTCTCAAACATTGCGGTTCGCTTTCGTCATTCCAGCGGCCGGCCCACGGGGCCGGTGCCGGGGGGCATCAGCTCGAAGTGCTTGCCCCCGTTGAATTCACGCTCCAGGTCCTCGACGAGGCCCATGACGCCGTGCAGCTGCATGTCGGTCATGTTCCGCCAGCGGTACTTATCCCGACCAGCGAAGTACGCGGCGCGGATGCGGCCGCTCTGGTCGCTGTCCGCGTAGTAGGTCATCTTCGGGCGGGTGAGCTTGCTCGCTCCCTCTCCCCCGCTCGGCGTCGATGCTGCCGGCGCTTCCGCAGCCGGGGTCGGTGTCGGCTGCGCTGCCGGCACTGCCTGGGTGTTGACGGGCGTCTGCCCGCTGAGCGCGGACGTGCGGCGTTCGCTTCGCTTCGTGGCCATGTTCTTAGTTCCTTCCGGTGA	MRTAAAAAALNVRCTELCRLEGDHSAGQDEDQARSDEANDANDEASRLGFHNASRGEGVDDKDHGRDGSHDRNPLDDVVQVLKHCGSLSSFQRPAHGAGAGGHQLEVLAPVEFTLQVLDEAHDAVQLHVGHVPPAVLIPTSEVRGADAAALVAVRVVGHLRAGELARSLSPARRRCCRRFRSRGRCRLRCRHCLGVDGRLPAERGRAAFASLRGHVLSSFR				NA	NA	NA	NA	NA
AK009_09531	330			hypothetical protein	ATGGCTGAATGTGCCAGCCGGGGCCTCAAGAATCGCGTCTACGACACCCGGGGACGCCTCACGGGGGCATGGGTCCGTCGAACACGGCTGGAGCGTCACAACGCCCGTCACGCGCCCGTCGCGGATCCACACGACGTCGAGCGGCACACGGGTGTCCTGCATCCACACCTCCGTGCGCTGTGCGTGCTCGAGCGGGAACCACATGCCGGTGCCCTCCGGCACGCTGTCGCGCCCGCTGAGCCCTTGGCGCTGCGCCTCGGTGCTGGTTGCTTGCTCGGCGGTGACCGTCACCCCGTCGATGGTCACGCGCAGCTCGTCGACGCCCGCTGA	MAECASRGLKNRVYDTRGRLTGAWVRRTRLERHNARHAPVADPHDVERHTGVLHPHLRALCVLEREPHAGALRHAVAPAEPLALRLGAGCLLGGDRHPVDGHAQLVDAR				NA	NA	NA	NA	NA
AK009_09532	678			hypothetical protein	ATGGGCGTAGGACGGATTGACACCCCGCAGGCCAGGCAGATTGTGCAGACCGTCGCGGCGCAGCTCATCATCGGCTATGCGCCCCCGCATATGGTGGCGGCCGACGACCGGCGAAGAGCGGCGCAGCTCCGGAGGATCTTCGGAGACGACACCCACCCTGAGCCGAGCATCATCATCGGTGCGAGTGATGACCGGGGGATGATGCTGGGCGGCGCCGTGGTCGAGCCGTTCGTGTCCGACGAGCTGATATCGAAAGAGCCCGACGCCGCGCGGCAGTTCGCAACAACACACCGAATCCTCGCCGCCCTCTTCGTGCTGCCTGAGGCCCGCGGGTCCGGTATCGGCCGAGAGCTGCTTTCAGAGGCCGCGTACTGGGCTCTTCCTCATGGTGGCCGCTACCTCGACGGGTTCGTGGACGACCGGAATAATAGCGCGGACTTCTACCGCAGGTCCGGCGCGACCGTTGTCGGTCACAACACGGGACTCCCCGCACGGCGTCCCACCAACAGCGAGCTGAGCCATTACCCGGGCATTGACGGAACATGGTTTTACGTCGACGCATGGCGAATGCACCAGGGCAAGATCAACTGCGCGCGGTGCCGCGACGTGTTCGAGTTCGTCGACGAGGACGGCGGCTACCTCCTATGCCCCAACTGCGGGACGCCCGAGGCGAAGTAG	MGVGRIDTPQARQIVQTVAAQLIIGYAPPHMVAADDRRRAAQLRRIFGDDTHPEPSIIIGASDDRGMMLGGAVVEPFVSDELISKEPDAARQFATTHRILAALFVLPEARGSGIGRELLSEAAYWALPHGGRYLDGFVDDRNNSADFYRRSGATVVGHNTGLPARRPTNSELSHYPGIDGTWFYVDAWRMHQGKINCARCRDVFEFVDEDGGYLLCPNCGTPEAK				NA	NA	NA	NA	NA
AK009_09533	249			hypothetical protein	GTGACCCCATATCGTCATCTGCTCGGGAACGATGGTGAGCGGCTGCGCATGCAATCGAAGCTGGAGGGAATCGAGGGTGCGCAGCGGCCCGCGCTTGCGCGCCTCGCGCAGCTCTCGCTCTTCGCCCCTCTGCGCCGGCAGATGCGGGTAGCGCTTGTTCGTTCCCACTGTGACATCGTTACGGGAACATCAGACGTCGAGCGTGGCTACTTCGCCTCGGGCGTCCCGCAGTTGGGGCATAGGAGGTAG	MTPYRHLLGNDGERLRMQSKLEGIEGAQRPALARLAQLSLFAPLRRQMRVALVRSHCDIVTGTSDVERGYFASGVPQLGHRR				NA	NA	NA	NA	NA
AK009_09534	342			hypothetical protein	GTGGACGGCTCCGAGTTCAATGCAGAGAACGCCACCGACGATGAGGACGATGCCGAGGCCCATCAGCCAGGTGAAGGGCTCTTTGAAGAGGAACTTGCTGAGGATGGCGGTGAGTGCGACGCCGGATGCGGCCCAGATGCCGTAGGCGACGCCGAGCGCCATGCCGCCGGCGAGGGCGAGGCTGAGCATGGTGAATGCGAGGACGTAGCCCACCGCCACGCCGACGTACCAGCGCTTCTTGTCGACGGCCATACGCAGGGAGAGCGTGCCGACGACCTCGAAGATGATTGCGCCGATGAGGAACAGCCAGACCATCACGCGACCTCTGCCTTCTTCTTGTGA	MDGSEFNAENATDDEDDAEAHQPGEGLFEEELAEDGGECDAGCGPDAVGDAERHAAGEGEAEHGECEDVAHRHADVPALLVDGHTQGERADDLEDDCADEEQPDHHATSAFFL				NA	NA	NA	NA	NA
AK009_09535	270			hypothetical protein	GTGACCGGCCTGTGCGCCGAGTTCGACGCAGAGCACTCCGGCGATGACGACGACGATGCCGATGCCCATCAAGAGCGTGAGCGGTTCGCCGAAGATGATGAGGGAGAGGAGCGCCGTGAGTGCGACCCCGGAGGCTCCCCAGATGCCGTATGCGACGCCGAGGGCCATGCCGGTGCGCAGCACGAGGCTGAGGAACACGAAGGCGCCGATGTAGCCGGCTGCGACGAGTGCATAGAGGGCGGGTGCGTCGAGCGCCCCCTTGAGGGATAG	MTGLCAEFDAEHSGDDDDDADAHQERERFAEDDEGEERRECDPGGSPDAVCDAEGHAGAQHEAEEHEGADVAGCDECIEGGCVERPLEG				NA	NA	NA	NA	NA
AK009_09536	528			hypothetical protein	GTGCCAACCAAAATCGAACTTCTCGATCACGCAGTTGAAGTCCTTCGCCGCGGCGATGCCCTCGCCCTCGATGCAGTCGCTCGCGAGGCGGGGTTGACGAAGCCCGGGGTGGTCCACCATTTCGGCACGAAAGAAGTTCTCACTGTCGCAGTCGTGAACCGCATCATCGACCGCTGGGAAGCGGATCTGCATACTCGGGCCTCGACGGATGCCGAGCCGATCGACAAGCTGCGCGCGTACGTCGACTACGCACTCAATGGCGACTTCGACTCCAGCGATCTCGCCCTGCTCGCGGACGTGAACCTGCGGGAGCGGTTGTCTGCTCTGTGGGCGGAACGCCTCACCCCGTGGCTCGGCAGCGACATCGACACTGACCCGGCGAGCCGCGCATCACTTCGAGCCGCCCGCCTGCTGGCCGACGGCGCATGGTTCAACGCTGCTCTCGGCATCCCCACCGTCCGCGACGACGAACGATCCGTCCTGCGCGCGATCGCCCTGCAACTCGTGAATGAAGGAGACCCCCAGTGA	MPTKIELLDHAVEVLRRGDALALDAVAREAGLTKPGVVHHFGTKEVLTVAVVNRIIDRWEADLHTRASTDAEPIDKLRAYVDYALNGDFDSSDLALLADVNLRERLSALWAERLTPWLGSDIDTDPASRASLRAARLLADGAWFNAALGIPTVRDDERSVLRAIALQLVNEGDPQ				NA	NA	NA	NA	NA
AK009_09537	387			hypothetical protein	GTGGCAGGCGTACGACCGGGGGATGTCGTCGGCAAGCAATGTCGTGGCGCTGGCGTTGGGCATCGTGCTGGTGATGGGCGGGGTGCTGGCGATCGCGCTGTCGGGCGAGGCCGCGGGCACGGCCAACATCGTGGTCGCGGTCGTGGCCAGCATGTTCGGCGTGCTGCTGCTCGTCGTCCCGCTCATCGTGCGCCTGGCGTCTTCACTTGTGGAGGAGCGCCAAGCCAAGGCCGTGGCGGACCAACGCGCGGAAATCGCCTCGCGCCTTCACGATTCGGTGTTGCAGACGCTGGCGCTGATTCAAAAGCGGGCCAGCGACCCCGAGGAGGTCGCCAGGCTCGCGCGCGGCCAGGAGCGCGAGCTGCGCACATGGCTTTTCGACGCTGA	MAGVRPGDVVGKQCRGAGVGHRAGDGRGAGDRAVGRGRGHGQHRGRGRGQHVRRAAARRPAHRAPGVFTCGGAPSQGRGGPTRGNRLAPSRFGVADAGADSKAGQRPRGGRQARARPGARAAHMAFRR				NA	NA	NA	NA	NA
AK009_09538	486			hypothetical protein	GTGGCGGTGCTCCGGCACCGCGTCGACGTCGAAGCCCGAGCCCCGATCGCGCACGAACACGCTGAGCTCACCGGCGAGGTTTTCCACGTACACGTCAAGCGTGTCCACGCCAGCGTGCTTGGCGGAGTTGGCCATGGCCTCGCGCGCGGCGAGCACGATCGGTTCCGTCGCCTCGCTAAAGGCCACGTCCTCGCCGACGGTGACCGGGCGGATCACCACCGAGTAGAGGTCCTCGACCTCCCCCGCCGCTTTGTGCAGCGCGGCGAACACCGTGGCGGTCGTGTGCTTACTGCGCGTGTCCTCAGCGTCGAAAAGCCATGTGCGCAGCTCGCGCTCCTGGCCGCGCGCGAGCCTGGCGACCTCCTCGGGGTCGCTGGCCCGCTTTTGAATCAGCGCCAGCGTCTGCAACACCGAATCGTGAAGGCGCGAGGCGATTTCCGCGCGTTGGTCCGCCACGGCCTTGGCTTGGCGCTCCTCCACAAGTGA	MAVLRHRVDVEARAPIAHEHAELTGEVFHVHVKRVHASVLGGVGHGLARGEHDRFRRLAKGHVLADGDRADHHRVEVLDLPRRFVQRGEHRGGRVLTARVLSVEKPCAQLALLAAREPGDLLGVAGPLLNQRQRLQHRIVKARGDFRALVRHGLGLALLHK				NA	NA	NA	NA	NA
AK009_09539	390			hypothetical protein	GTGGTCCTGGTCGGACTCGTCGACGCCCTGGATGCTCACGCCCGGGCAGATGCGGATGCCGAGCCGGTCCGCGCCGATCTCCGCGGCGACGGCTTGGGCAACCGAGATGGGGTACGCGGCGCGCTTGGCGGGGGTGCCGCCGTATTCGTCGTCGCGGACGTTGGAGTTCTTGCCCAAGAAGGTGTGCAGGAAGTAGCCGTTCGCGGCGTGGAGCTCGACGCCGTCGAACCCGGCGTCCATCGCGCGGCGCGCCGCGGCGACGAACTCGCCCCGGGCGCGCTCGAGTTGCTCGATCGTGGCTTCCGCAGGCGTGGCGTAGGGCAGGTGGTTGCCCTCGGCGTCGCGGGTGTGGCCGTCGTGGGCGACGGCGCTGGGCGCCTCCACGGGTAG	MVLVGLVDALDAHARADADAEPVRADLRGDGLGNRDGVRGALGGGAAVFVVADVGVLAQEGVQEVAVRGVELDAVEPGVHRAARRGDELAPGALELLDRGFRRRGVGQVVALGVAGVAVVGDGAGRLHG				NA	NA	NA	NA	NA
AK009_09540	351			hypothetical protein	GTGCGTGTTCCAGCCCGCGTGCATGAGCTGGACCACGATGGTTCCGCCGGCGTCGTGCACTGCGTCGGTGACCTTGCGCCAGGCGGGGATGTGCTTATCGTCGTAGATGCCGGGCTGGAGGAACTGGACGCGGCCCGCCTGCGAGGGCGAGGTGCCGTCGGTGACGAGCAGCCCGACGGAGGCGCGGTCGCGGAAGTAGCGCACCATGCGGGGCGTCGGCGTGCCGTCGGCGGCCGCGCGCAGCCTGCCCATCGGTGCTTGCATCACTCGGTTACGCAGCTTCAGGGCGCCGGCGGTGATTGGTTCCCAAAGGATATCGGTAGAGGTCATGGGCTCCTCTCGGTGAAATAG	MRVPARVHELDHDGSAGVVHCVGDLAPGGDVLIVVDAGLEELDAARLRGRGAVGDEQPDGGAVAEVAHHAGRRRAVGGRAQPAHRCLHHSVTQLQGAGGDWFPKDIGRGHGLLSVK				NA	NA	NA	NA	NA
AK009_09541	744			hypothetical protein	GTGCCGGTTCGACGTCTGCGTCTTGCGCAGAATATTCGACGCGTGCGTCTCCACCGTTTTCACCGAAATGAACAGCTGCGTGCCAATTTCCTTGTAGGTGTAGCCGCGGGCGAGGAGGCGGAGAACTTCCAGCTCGCGCCTGGTGAGGGCGTCGACAAGCGGGTCCTCAACCTTGACGGGCTCGCCCTCCGGGTCTTCGACCACCCCGCCGGAGGCGAACGCGTCGAGCACGAACCCCGCCAGCCGCGGGGAGAAATAGGCATCCCCGCCGTGGACGCGCTCAATGGCCTCGGCAAGCTCGTCGCCCGCGATGTTTTTGGTCACGTACCCGCGGGCCCCGGCGCGGATCAGCGCGATGACGTCCTCGGCGGCGTCCGAAACCGACAGTGCCAAAAACTTTGTCGACGCGGCCACGCCCCGAATCACCGCGAGGCCGCCGCCGTCGGGCATGTGGACGTCGAGAAGCACGACGTCCGGCTCTTGGGCGTTGATGCCGCGGGTTGCCTCCGTGACCGTGCCCGCCTCCCCGGCGATGTCGAACCTGGAGGCGAGCTCGGCGCGCACGCCGGCGCGGAAAACGGAGTGATCATCAACCAGGAAGACTTTCATAGCCCCCAACTTACAGGGCGGCGTAGCATGGGGCCCGCCCACGAAAACACCGTATCTATTTCACCGAGAGGAGCCCATGACCTCTACCGATATCCTTTGGGAACCAATCACCGCCGGCGCCCTGAAGCTGCGTAA	MPVRRLRLAQNIRRVRLHRFHRNEQLRANFLVGVAAGEEAENFQLAPGEGVDKRVLNLDGLALRVFDHPAGGERVEHEPRQPRGEIGIPAVDALNGLGKLVARDVFGHVPAGPGADQRDDVLGGVRNRQCQKLCRRGHAPNHREAAAVGHVDVEKHDVRLLGVDAAGCLRDRARLPGDVEPGGELGAHAGAENGVIINQEDFHSPQLTGRRSMGPAHENTVSISPRGAHDLYRYPLGTNHRRRPEAA				NA	NA	NA	NA	NA
AK009_09542	720			hypothetical protein	GTGTCGCGGCGCGGGTGCATACTTAGTGGCGTGAGTGGAACACCTATTCGACTATCCGCGGAGCCGCAGGCGCCCGAGCCCACCCGGGCCGAGCGCATCGCTGAGCTGCGTTCGCGCATGGCCGATATGGGGGCGCACGCGCCGCAGCGCGTCTTGCCGGACGCGGACGTGCTCGGAGTCGGTGACCAGTTCCACCGCGTTTTGCCTGATGGTGGGGTGCCGCGCCGGGCTGTGACCCACATCAGCGACACGCCCGCGCTGGTGGTGGAGATCATCGACCGCGTCACCGCCGAGGGAGGGTTCGCAGCCGTGGTGGGCTGGCCCGAGCTCTCCTACGCCGGTGTGGCCACCCTAGAACGGGTCATCGCGGTGCCCGAGCCGGGCATCGACCCGCTGGCCGTCGCCGGGGTGCTGGTCGAGGGCCTCGACCTAGTGGTGCTGCACACGCCCCAGCCCTTGAACCTGAGCCCGGTGCGCGCGAGGCCGCTGTTGGCGCGCGTGCGCAAGGGGAAAGCCGCGTTGCTCACGGTCAACGCCCGGGTCCCCTCGCCGGCGCTGAGCATCACCGGTACACTCGCCGGGTTCCACGGCATCGGCCGCGGCGCCGGGCGCATCGTGGGCATGGACATGCGCGTCGAAGCGGCCGGGCGCCGCACCGCCTCGACGGTGATCACCCTGGGCCAGGCCCCGCGGCCCGCGGGCGTGAGGGCGGTGAGGTGA	MSRRGCILSGVSGTPIRLSAEPQAPEPTRAERIAELRSRMADMGAHAPQRVLPDADVLGVGDQFHRVLPDGGVPRRAVTHISDTPALVVEIIDRVTAEGGFAAVVGWPELSYAGVATLERVIAVPEPGIDPLAVAGVLVEGLDLVVLHTPQPLNLSPVRARPLLARVRKGKAALLTVNARVPSPALSITGTLAGFHGIGRGAGRIVGMDMRVEAAGRRTASTVITLGQAPRPAGVRAVR				NA	NA	NA	NA	NA
AK009_09543	1545	dinB_3		DNA polymerase IV	ATGCGGGTGGCCGCGATCTGGTTTCCGGACTGGCCCGTGCAGGCTGCGCGCCTCGACGCCGACGATGCGCTGCCCGAGCCCGTCGCCGTGGTCGCGCAGCACCGCATCAAGGTGTGCTCGCGCCAGGCGCGCTCCCGCGGGCTGCGCCGGGGGATGCTGCTGCGCCACGCCCAGGCGCTGGTCCCGGAGCTCACGGTTGTCGAGGACAACCCAGATCGCGACGGGCGGATGTTCGCGGCCCTGGCCGCGGGTTTCGACGACGTCGCCTCCTCCGTCGAGGTTATGCGCCCAGGGCTGGTCGTGGTGGATCTCGCCGCCGCCGCGAAGTTCCACGGCGGCGAGGACATCGCGGTTGAGATGCTTATCGACGCCGCCGCGCGCCGCGGTATCGATGCCTTTGCCGGGGCGGCGGACGAGCTGGCCACGGCGATCGTCGCTACGCGGTCCTCGGCGCTTGTCCCGAAGGGCGAGTCGGCGCAGTTCCTGGCGGCGCAGCCGCTGCGCGTCCTGCTCGCCGAGGTGGCTCTGGCGGCCGACGCGGAGACCGTCAAGGCGCTCGGCCAGCTCGGCCTGGCCACCCTAGGCGACATCGCCAACGTGCCCGCAACGGCGATGTCCACGCGCTTCGGCGCGCGCGGCACGTACATCCACCGCATCGCCCGCGCGGCACCGGACCGCCGCGTCGCCCCGGAGCTGCCCGTGGCGGACCTGGCGGTGGCGATCACCCCTGAGGACCCGATCGAGCGCGTCGACGCGGCGGCGTTCGCGGCCCGCGCCCTGGCGGCGAGCCTGCACGAGCGGCTCAAGGAGGCGGGGAAGGTGTGCCTGCGTCTGAAAGTCACCGCGGAGCTGGGCAGCGGCGAGCGCGTTGAGCGCGTGTGGCGCACCCGGGAGGGCTTAAGTGAGTCCGCCACGGCGGACCGTGTGCGCTGGCAGCTCGACGGCTGGCTCACCGGAGGCGGCGCAGGCCAGATCACCTCGCTGATCCTCGAGCCGCTCGAGCTGGCGCAGCCCGAGGTCGTCGGCGAGCTGTGGGCGGACGGGACAACCACGGATGAGGCGCGCCGCGTGGTGGAGCGGGTGCAGTCGCAGCTCGGCATCGACGCTGTGGTGCAGCCCAGGCTCGTCGGCGGGCGCGGCGTGGCCGAGCGCATCGAGCTGGTGCCGTACGGAGAAAGCGTCAACGAGCCGCAGGCGGCGCCGTGGCCGGGGGCAATCCCCCCGCCGCTTCCGGCGCGCCTCGGCGGGGGCATCGAACACCCATCCTCCAAAGTGCTGCTTATCGACGCCACCGCCAAACCAGTCGGAGTCACCGCCGAGGTGCTCCTCACATCCGCACCCTACGCGCTGGGGTGGGGTGACAAGCGCTACCTGGTCACCGGGTGGGCAGGCCCATGGCCGGTGGACGAAGGCTGGTGGGCCGGGGTGGCCAACAGAGTCGCGCGGCTGCAGGTGGTGGGCACGCGCGAAAACGGCAGCGAGCCGTGCGGGTGGCTTCTGATGTGGACGCGGCAACGCTGGCGGGTGGAGGCGGTGTACGGCTAG	MRVAAIWFPDWPVQAARLDADDALPEPVAVVAQHRIKVCSRQARSRGLRRGMLLRHAQALVPELTVVEDNPDRDGRMFAALAAGFDDVASSVEVMRPGLVVVDLAAAAKFHGGEDIAVEMLIDAAARRGIDAFAGAADELATAIVATRSSALVPKGESAQFLAAQPLRVLLAEVALAADAETVKALGQLGLATLGDIANVPATAMSTRFGARGTYIHRIARAAPDRRVAPELPVADLAVAITPEDPIERVDAAAFAARALAASLHERLKEAGKVCLRLKVTAELGSGERVERVWRTREGLSESATADRVRWQLDGWLTGGGAGQITSLILEPLELAQPEVVGELWADGTTTDEARRVVERVQSQLGIDAVVQPRLVGGRGVAERIELVPYGESVNEPQAAPWPGAIPPPLPARLGGGIEHPSSKVLLIDATAKPVGVTAEVLLTSAPYALGWGDKRYLVTGWAGPWPVDEGWWAGVANRVARLQVVGTRENGSEPCGWLLMWTRQRWRVEAVYG				NA	NA	NA	NA	NA
AK009_09544	624			hypothetical protein	GTGGACGCGGCAACGCTGGCGGGTGGAGGCGGTGTACGGCTAGAAGGTGAGTCAGGCCTTGGAGATGTCGACGACCAGGCGCGTGGGGTCGTCGAGAAGCTGAACCGAGTAAGGCAGGGTCGAGCGCAAGCCGACGACGATCTGGGCGCGGCCCTCGTACGTGCCCGCGTGGACGATGTCGACCACGTTCGAGGAGCTCGACGAGATGTCGATGGGTGTTGCCGCGTCGAGGCCGGCTTCGGAGCGGCTGATTGTGCCGTCGATATTGATGTTGAGGTAGGAGCTGCCCGCCACTTTGACGGGTTTGCCTGCGGTTTCCTGCAGCGGGGAGGGCACGTAGTTGACAAACCACCCCGGCTCGCCGGTGCCCGCGAAATCGACGGTGAGCCTGTCGAACCCGCTGTGGCTGTCGATCGTGATCGCCGATACCGCGAGATGCGCGGGCTCGGCGGGGCGCTGCGTTTTGGGGGACTGGTCCATGGCCGCTGGCGAAGCGTACGCCCCGCGTTGGGCGACACCGACCTTTGCCGAGACGGTATCCGCAGCGGTGGTCGAGGAATCCGGGGCAGCGCACGAAGATACGGCGAATGCGGTCGCGGCGATCGCGACACCTATTCCCCGTAA	MDAATLAGGGGVRLEGESGLGDVDDQARGVVEKLNRVRQGRAQADDDLGAALVRARVDDVDHVRGARRDVDGCCRVEAGFGAADCAVDIDVEVGAARHFDGFACGFLQRGGHVVDKPPRLAGAREIDGEPVEPAVAVDRDRRYREMRGLGGALRFGGLVHGRWRSVRPALGDTDLCRDGIRSGGRGIRGSARRYGECGRGDRDTYSP				NA	NA	NA	NA	NA
AK009_09545	483			hypothetical protein	GTGGCCCTTGATGTGGGAGGTCTCCCACACCACGTCGCTGCCCCGGTTGAAGGGGTAGAGCTTTTCCAGTTCGTTGACGAGCGGGCGGCCTTTGACCGCGCAGCAGCGGTCCCGCCTGCCGTGCGTGCACACCAGAACCAGCGGGGCCAGCCGCGCCATCGCGTGGTTGCGGCCGGGCCCCGACAGGTCGAGATCCAAGATCGCCTCGGGACCGTCGACGTGCTTGACCTCGGTCAGCCCGATGCTGGTGTGGATGATGTAGAGGTGGTGGTCGTCGATACGCCTGCCCTCGCGCGTGGGGTGGCGGATGAGCTGCAGGGACGCGCCGAACTTTTTCAGGTGAGCTTTGATCTTGGCGGTGAGCTCGTCGCCGAGTGTGTCGCCGTCGAGAACGTCGTGGCTCCACGGCCCCGGCCATTCGAGCAGCACGTACACATCGCCCTGCTTGGCTGTTCCCGGCAGAGGCTCCACTTCCACATCTGA	MALDVGGLPHHVAAPVEGVELFQFVDERAAFDRAAAVPPAVRAHQNQRGQPRHRVVAAGPRQVEIQDRLGTVDVLDLGQPDAGVDDVEVVVVDTPALARGVADELQGRAELFQVSFDLGGELVAECVAVENVVAPRPRPFEQHVHIALLGCSRQRLHFHI				NA	NA	NA	NA	NA
AK009_09546	324			hypothetical protein	ATGATCGCCGACGCGATGCGCGGGCAGTACTTCGTGCCCGGCAACCGCGGCCGCGGCATTTTCTCGCCCGCGGCGCAGGCGGCGGAGGTCGGCGTCGCCGCACAGCTCGCAGCGGAGGAAACGCGCATCACCTACGGCCAGCTGCAGGTCGTGGGCGAGGAGGTCGGCGAGGACGAGGCGCGCATAAAGCTAATCGACGCCTCCACGAACGCAACCTTCGATGTCACCATGCGCCGCAGCGCAGTATCCGGGGTTATCTCCTCTTGCGGCGATGAACCGAAGGAGGGCGTTGTGTGGGGCGTCGAAAAGATCGCGCGCTCGTGA	MIADAMRGQYFVPGNRGRGIFSPAAQAAEVGVAAQLAAEETRITYGQLQVVGEEVGEDEARIKLIDASTNATFDVTMRRSAVSGVISSCGDEPKEGVVWGVEKIARS				NA	NA	NA	NA	NA
AK009_09547	723			hypothetical protein	GTGGGTTTAGGCGCAGCGAGAAGCGCTCTAGCGGCGCATCACCTTCTTAGACAGCCAGTTGCCCAAGAACTGGGCGAGTTGCACCATGATCACGATCACGATCACGGCCGCGAAGGTCACGGCGGGCTCGAACTGGCGGTAGCCGTAGACGATGGCGAAGTCGCCGAGGCCGCCGCCGCCGATGTAGCCCGCCATCGCCGACATGTCGATCACGGCGATAAAGATGAAGGTGTAGCCCAAAATCAGTGGGCCGAGCGCCTCGGGCAGGATCACGGTGCGGATGATGCGCCATGGGCCGACACCCATGGAACGCGCCGCCTCGATCATGCCCGGGTCGATGGACACCAAGTTCTGTTCCACGATGCGCGCGACGGTAAACGTGGCCGCGACGCACATCACGAACGTCGCCGCCGAGCGGCCGATCGTCGTGCCCACCACCTGCAGCGTGATGGGGTAGAGCATCGCGATCATGATGATGAAGGGGATCGGCCGGAAAAAGTTCACGAGCACGTTGATCAACCAGTAGACCGCGCGGTTTTTCAGGATCCCGCCCGGGCGCGTGGTGTAGAGGAACACGCCGAGGATCAGGCCGAAGAAACCGCCGATGACCATGGTGATCGACACCATGAACAAGGTGTCGCCGATGGCCTCGATGAAGGTGGGGCCGAGGCGTTCCCAGTTGGGCTGGGCGAGGATGGAAGTGTTCATCGGACGATCTCCTGA	MGLGAARSALAAHHLLRQPVAQELGELHHDHDHDHGREGHGGLELAVAVDDGEVAEAAAADVARHRRHVDHGDKDEGVAQNQWAERLGQDHGADDAPWADTHGTRRLDHARVDGHQVLFHDARDGKRGRDAHHERRRRAADRRAHHLQRDGVEHRDHDDEGDRPEKVHEHVDQPVDRAVFQDPARARGVEEHAEDQAEETADDHGDRHHEQGVADGLDEGGAEAFPVGLGEDGSVHRTIS				NA	NA	NA	NA	NA
AK009_09548	1029	metN2	COG1135	Methionine import ATP-binding protein MetN 2	GTGGCTTCCACCGGCACCCGGGTTGAGTTCCGGGACGTTTCCAAAGTGTTCACCACGGCCAAGCGCGAGGTGGTCGCCGTCGACGGCGTCACGCTGACCGTCGAGCCCGGCGAAATCCTCGGCGTCATTGGTTACTCGGGTGCCGGCAAGTCGACGCTCGTTCGCCTCATCAACGGCCTGGACATGCCCACGAGCGGCGAGCTGCTTCTCGACGGCACCAACATCGTCGGCATGAAGGAGCGCGAGCTGCGCAACATCCGCCGCGGCGTTGGCATGATCTTCCAGCAGTTCAACCTGTTCAATTCGCGCACCGCCGCCGGCAACGTTGAGTACCCGCTGACCTTGGCCGGCATGCCGTCGGCCGAACGCAAGCGTCGAGTAGCGGAATTGCTCGAGTTCGTCGGCCTGTCCGATCGCGGCAAGAACTACCCCGAGCAGCTTTCGGGCGGCCAGAAGCAGCGCGTCGGCATCGCCCGCGCGCTCGCCACCAACCCCTCGCTTTTGCTTGCCGACGAAGCCACCTCCGCCCTCGACCCCGAAACCACCCGCGAGGTCTTAAGCGTGCTGCGCCGAGTCAACGAAGATCTCGGGATCACCATCGTCGTGATCACGCACGAGATGGAGGTCGTGCGCGCCATCGCGGACAAGGTCGCGGTGATGGAAAACGGCAAGGTTGTGGAGTACGGCTCGGTCTACGAGGTGTTTTCCAAGCCGCGCACGCACGTGGCGCAGCGCTTCGTGTCCACCTCGCTGCGCAACACGCCGGATGAGGTCGAAGCCCGCGAGCTGCTCGCGGAGCCCGGCCGCCTGTTCACCGTGGACCTGAGCGAAAACTCTGGGTTCTTCGGCGCCGTGGAGTCCGCGCGCGCCGCTGGCGTGAGCGTCCAGCCGGTCCACGGTGGTGTGACCACCCTGCAGAACCACTCCTTCGGCAAGATGACGGTGCGCCTCAACGGCGACGACGCCGCGATCAGCCAGTTTTTGGCCACGCTCCAGCGCACCACCGACATTCAGGAGATCGTCCGATGA	MASTGTRVEFRDVSKVFTTAKREVVAVDGVTLTVEPGEILGVIGYSGAGKSTLVRLINGLDMPTSGELLLDGTNIVGMKERELRNIRRGVGMIFQQFNLFNSRTAAGNVEYPLTLAGMPSAERKRRVAELLEFVGLSDRGKNYPEQLSGGQKQRVGIARALATNPSLLLADEATSALDPETTREVLSVLRRVNEDLGITIVVITHEMEVVRAIADKVAVMENGKVVEYGSVYEVFSKPRTHVAQRFVSTSLRNTPDEVEARELLAEPGRLFTVDLSENSGFFGAVESARAAGVSVQPVHGGVTTLQNHSFGKMTVRLNGDDAAISQFLATLQRTTDIQEIVR	PGPT0020520_2234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK009_09549	924			hypothetical protein	TTGCTTGTCGCGCTTGACCTGGACGGCGGTGCCGCCGGAATCCTGGTTGAGCGCCTCGGTGACCTCGTCGGAGTGCCAGACCTCGACGAGTTTTTCAAAGATCTCGTTGTCCACCTGGTCGGCCTTGACCGTGAACACGTTGATGTAGGGCTCGGCGAGCTCGGAGTTCGGGTCGTCGGCGGCCACCGCAGATGCCGGGTCGATGCCGGCGCGGGAGAGCCAGTTATTGTTGATCACGGCCGGGCGACCCTCGTTGTACGCCGACGGCGTCTGCGAGGCGTCGATGGCGACGACCGAGACCTTGGACGCGGCCTCGTCGATGTCGGCCGGGGTCGGGGTCAGCGTCGGCGCGCCGGGCTTCAGGGTGACCAGGTCAGCCTGGACGAGCACGTTGATCGCGCGGCCCTGGTTCGACGGGTCGTTCGGAACGGCGACCTCTTCGCCCTCGATGCCGTCGAGGGAGTCGTGGTCCTTCCAGTACAACCCGAGGATGTTGATTTCGCCGGAACCGATGATGCGCAGATCCTTGCCCGCCGAGGCGTTGTACTGCGCCTGGTAGTTGATGGTCTGGAACTTCGAGATCTCAATCTGGTCCTCGTCGAGCGCCGGGTTGACCGGCGGGTACTCCGAGAACCGGACGATGTCGAGCTTGATGCCCTCTTCCTCGGCCTTTTCCTCAAACGCGGTCCAAGCTTGCTGGTCGGCGTCGGTTGTGCCGATCTTCACGGTCACCGTGTCGTTGCCCTCGCCCGGAGCGTTCGTCCCGGAGACGGAGGAGCCGGATTCCGTCGAGCAGGCGACGAGACTGGTCGCGGCAATGGTGGATGCGGCGACAGTGGCGGCAAAACGGGAAAACTTCATGCGCTTAAATCCTCCTGTGCGTTATGGCTTAGTTCGATTCGAGGTTGGTCAAGATGTCGTTGA	MLVALDLDGGAAGILVERLGDLVGVPDLDEFFKDLVVHLVGLDREHVDVGLGELGVRVVGGHRRCRVDAGAGEPVIVDHGRATLVVRRRRLRGVDGDDRDLGRGLVDVGRGRGQRRRAGLQGDQVSLDEHVDRAALVRRVVRNGDLFALDAVEGVVVLPVQPEDVDFAGTDDAQILARRGVVLRLVVDGLELRDLNLVLVERRVDRRVLREPDDVELDALFLGLFLKRGPSLLVGVGCADLHGHRVVALARSVRPGDGGAGFRRAGDETGRGNGGCGDSGGKTGKLHALKSSCALWLSSIRGWSRCR				NA	NA	NA	NA	NA
AK009_09550	930			hypothetical protein	GTGCGTTATGGCTTAGTTCGATTCGAGGTTGGTCAAGATGTCGTTGAGCTCGGCCTTGTCGCGCTTGACCGGCACCGAAGTGCCCTTGGAGTCCTGGGCGACCGCCTCGGTGACCTTCGGGTCGTGCCAAATCTCGACGAGCTTGTTCAGCGTCTCGTTGTCAATGTCACCGCTGCGGGAAGCGAAGACGTTGATGTACGGCTCGGCCTCGGGGGAGTTCGGGTCATCCTCGAAGACGGCCAGGCCCGGCTCGATGCCAGCGCGGTCGAGCCAGGTGTTGTTGATGATCGCCGGGCGTCCCTCGTTGTAGGCGGCCGGGGTCTGGGAGGCGTCGACAGGCACGACAGAAACCTTCGACGCGGCCTTGTCGATGTCAGCCGGGGTCGGGGCGAGCGGGTCTGCTACACCCTCGCTCAACGTGACCAGGTCCGCTTGGACGAGCACGTTGATGGCGCGGCCCTGGTTCGACGGGTCGTTCGGAATGGCGACCTCTTCGCCCTCGATGCCGTCGAGGGAGTCGTGGTCCTTCCAGAACAGGGCCAGGGGCACGATCTCGGTGGAGCCGACGATGCGCAGGTCGTTGCCGGAGTTCTTGTTGTACTCGGCGAGGTACATGATGTGCTGGAATTTATTCACGTCCAACTCACCCTGGGCGAGCGCCTCATTGACCGGTGCGTAGTCCGAGAACTGCACGATGTCGAGGGTGATGCCCTGCTCCGCGGCGAGATCGCTGAACACGGACCACGCCTGCTGGTCGGCGTCCGTGGTGCCGATCTTGATCACGGTTTCACCGTTTTCCCCCGTGGTGCCGGGGGTGGCGGTGTTGGCGGATTCAGTGCCGCAGGCAACCAGGCTGGTTGCGGCGATGCCGGTGGCGGCCAGGGTGGCGAGCACTCGGTTGAGTTGCATGGGGTCTCCTTGGAAAAGTGA	MRYGLVRFEVGQDVVELGLVALDRHRSALGVLGDRLGDLRVVPNLDELVQRLVVNVTAAGSEDVDVRLGLGGVRVILEDGQARLDASAVEPGVVDDRRASLVVGGRGLGGVDRHDRNLRRGLVDVSRGRGERVCYTLAQRDQVRLDEHVDGAALVRRVVRNGDLFALDAVEGVVVLPEQGQGHDLGGADDAQVVAGVLVVLGEVHDVLEFIHVQLTLGERLIDRCVVRELHDVEGDALLRGEIAEHGPRLLVGVRGADLDHGFTVFPRGAGGGGVGGFSAAGNQAGCGDAGGGQGGEHSVELHGVSLEK				NA	NA	NA	NA	NA
AK009_09551	1386			hypothetical protein	GTGCGCGATCTAACCTCGCGGGCTCAGATCCTCCGGCAAGACGTGCTCGCCGGTCTTATCCATGGTCAGCGCCAAGGAAGAAATGTAGCGCGGCGACCCGTCCGGGTTATCCGCTGCGGAGCGGATCACGTCGGGGCGCTCAACCTCCTCACCGGTGACGCAGCAGGTGAAGCGCTCATCGGAGGGGTTGCTGTGGGCGTCGAAAAGCGGCGCGTCGATGCCGTCGTCGTTACGGCGGCGGTAGTACTTACCCTTGGTCAGCACGGCGATCAGCGGGGTGGCCACCACCGCGATCAGCGCAGCGACCAGCGCCGAGTAGGGCTTGGCGGACTCGCCGAAAGCACCGAAGAACATCGCCACAGAGACGATCGCCGACAGCGCCAGCGAGCCGAGGCCCACCGGGTTGAAGTTGGCGATCATGCCGCGGCGGTACTCGGGGTACTCCGGGGAGATCTTCAGCAAGGACTTGTTGATCGCGATGTCCGCCGCGACCGTGAAGATCCAGGCGATGGCGAGGTTGGAGTAGAAGCCGAGCACGAAGCTGAGCATGCCGAACATGTTGAACTCCATCAGCGCCAGCGCGATGGCCAGGTTGAAGAACACGAAGAACGTGCGGCCCGGGTAGGACTTGGTGATGCGGGTGTACGAGTTCGTCCACGCCAGCGAGCCGGAGTAGGCGTTGGTGACGTTGATCTTGATCTGCGAGACCACAACCAAAAACACAGCGAGTGCCACTGCCAGCCAAGCGGGCATCATCTCCTGGTACAGGGCGAAGAACTGGCGCACCGGCTCGGAAGCCTCAGCCGCCGAGGCACCAAGGTGGCTCATGACATAGACCGCGAGGAACACACCGAGGATCTGCTTGGTCGCGCCGAAGAGGACCCAGCCCGGACCGGCCATGATCACGGAGGTCCACCACGACTTGGAGTTCTCCGGGGTCTTCGGGGGCATGAAGCGGATGTAGTCGATGTTCTCAGCGATCTGCGCCACCAAAGCGAGGCAGACGCCCGCGGCGAGCATCATCGCGGCGAAGCTCGTCTCACCGGAACCCTCACCGGTGTAGTTAAGGAACTCGGTGACGGTGCTTGGCTCCTGGACGACGAGGATGACCAGCGGGAGCACGATCATGACCAGCCACAGCGGGTTCGTCCACGTCTGCAGTTTGGACAAGAGCTTCATGCCGTAGATCACCAGCGGGAAGATGATCAGCGTGGATACGAGGTATCCCAGCCACAGCGGCACGCCGAGGCCCAGCCTCAAGCCCTGCGCCATGATCGCACCTTCGAGGGCGAAGAAGATGAACGTGAAGCTGGCGAAGATGATGTTGGTCACCACGGAGCCGTAGTAGCCAAAGCCGGAGCCACGTGTGATCAGGTCAAGGTCTAA	MRDLTSRAQILRQDVLAGLIHGQRQGRNVARRPVRVIRCGADHVGALNLLTGDAAGEALIGGVAVGVEKRRVDAVVVTAAVVLTLGQHGDQRGGHHRDQRSDQRRVGLGGLAESTEEHRHRDDRRQRQRAEAHRVEVGDHAAAVLGVLRGDLQQGLVDRDVRRDREDPGDGEVGVEAEHEAEHAEHVELHQRQRDGQVEEHEERAARVGLGDAGVRVRPRQRAGVGVGDVDLDLRDHNQKHSECHCQPSGHHLLVQGEELAHRLGSLSRRGTKVAHDIDREEHTEDLLGRAEEDPARTGHDHGGPPRLGVLRGLRGHEADVVDVLSDLRHQSEADARGEHHRGEARLTGTLTGVVKELGDGAWLLDDEDDQREHDHDQPQRVRPRLQFGQELHAVDHQREDDQRGYEVSQPQRHAEAQPQALRHDRTFEGEEDEREAGEDDVGHHGAVVAKAGATCDQVKV				NA	NA	NA	NA	NA
AK009_09552	360			Thioredoxin-like reductase	ATGGGCACGAAGATCCACACCGAAGGCCAGGGCGGCAAGCAGGGCGACGGCGCCTACAACGACATTATCGCCGCGGCTCTGGACGAGGTCGGCGTGCCCGGCACCTGCGCCGAGGTGGCTGATACCACCGACGCCGACGACCTGCTGCGCGGCTACCACGCCTCGGCGATGGACGCCGTCGGCGACGACGTGGGCACCCCGGTGCTCAAGCTCGGCGACACTGCTTTCTTCGGCCCCGTGATCACCCGCGTGCCCACGGGCGAGGAGGCAGGCAAGCTTTTCGATGCCTCCGTCACGCTCTCGGCGTTCCCGTACTTCTTCGAGCTCAAGCGCTCCCGCACCGAAAGCCCGCAGGTCTAA	MGTKIHTEGQGGKQGDGAYNDIIAAALDEVGVPGTCAEVADTTDADDLLRGYHASAMDAVGDDVGTPVLKLGDTAFFGPVITRVPTGEEAGKLFDASVTLSAFPYFFELKRSRTESPQV				NA	NA	NA	NA	NA
AK009_09553	384			hypothetical protein	ATGGCCGAGGTGGTTGGTGCCAATCTTAAGCTCAAAGCCGTCGGCCGTGGTGGCGAACGGCACGTACATGATGCCGGCATTGTTGATCAGGACGTAGATAGGCCCGCGCTCGGCCGTGGATTCAGCAAAGCGGCGCACGGAGGAGAGATCCGCCAAGTCGAGGTGCTCGACGTCAACGGAGCCACTAATACGGGCGGCGGCCTCGCGGCCCTTGTCCTCGTTACGAACCGCGAGGGTGACGTCCGCACCCGCGCGGGCGAGCTCGCGGGCCGTGACAAAACCGAGACCGCTGTTGGCCCCGGTGATCACGAAGCGCTGCCCGGAAACCCCGGCGATGCGCTGGGCGTCCCAGCGCATCGGATGCCCGTTGCGGCACGGGCTTAG	MAEVVGANLKLKAVGRGGERHVHDAGIVDQDVDRPALGRGFSKAAHGGEIRQVEVLDVNGATNTGGGLAALVLVTNREGDVRTRAGELAGRDKTETAVGPGDHEALPGNPGDALGVPAHRMPVAARA				NA	NA	NA	NA	NA
AK009_09554	186			hypothetical protein	TTGCAGCGCGCCCATCTCGGCGGACTGAGCGACCGTGCGGTTGGCAAACCGCATCACGGCGTCCATGAGCCGCTTCTCCGAGTGGCCCTGCAGGTTGGTGTCGCTGTAGCCGGGGTGGGCGGCGACGGCGACCACGCGGGAGCCGGCGTCGTCCAGCTTGCGGTTGAGCTCCGAGGTAAACAGTAG	MQRAHLGGLSDRAVGKPHHGVHEPLLRVALQVGVAVAGVGGDGDHAGAGVVQLAVELRGKQ				NA	NA	NA	NA	NA
AK009_09555	456			hypothetical protein	GTGTCGCTCCTCGTTCGACCACTCCTGGCCGATGAAGGCGTCGACAATCGCGAGCGCCTCCTCCTCGGTGTGCATGCGCCCGCCGATGCCGATGAGCTGGGCGTTGTTGTGCTCGCGAGCCAGGCGCGCGGTCTCCGTGGACCACGCCAGGGCGCAGCGCGCGCCCTTGACCTTGTTCGCGGCGATCTGCTCGCCGTTGCCGGAGCCGCCGAGCACGATGCCCAGCGAACCCGGGTCCGCGACCGTGCGCTCGGCGGCGGCGATGCAGAACGCGGGATAGTCGTCGGCGGCGTCGTAGACGTGCGCGCCGCAGTCGATTACCTCGTGGCCCGCGGCCTCGAGGTGCTCCTTGATCTGGTTCTTGCGCTCGAAACCGGCGTGGTCTGCTCCAAGATAAATACGCATGGCACCTACCTTAGGCCCCCGGCTCACCCAGCGCGAAGCGCACTCCGGTGA	MSLLVRPLLADEGVDNRERLLLGVHAPADADELGVVVLASQARGLRGPRQGAARALDLVRGDLLAVAGAAEHDAQRTRVRDRALGGGDAERGIVVGGVVDVRAAVDYLVARGLEVLLDLVLALETGVVCSKINTHGTYLRPPAHPARSALR				NA	NA	NA	NA	NA
AK009_09556	939			hypothetical protein	GTGCACCCGGGGATCCGCGCGGAACAGCGCGGGGCGCGCCGGGGCGTAGACGCGGGCGTCGACACGCAGCCAGGAGGAAATCACCACCTCAAGCGCGCCGGGGTCGGCAAAATCGGGGACCACCACCGCCACGTCCGCGGTGCCGAAGACGACACCCGCCGGCCGGGCGATGGGGTGGGTGATGCGCCCGGCGAGGGCGAGTGTCTCCGCGTTTTTCACCCGCACCTCCTCATCTTCGTCGCAGTGCCGGGCGCCGAAATCGGCCTCGGGGTGGTGCGCGAGCGCGCCTGGCTCGTGCACGAACTCGGCGCCAGCGTTCCAGGCGCGCCAGCCGAACTCCCAGTCCTCGCCGCCGTAGCCGACAAATCCCGCGTCAAACCCGCCGATGTGGTGGAAGAAGTTCGCCGAGCAGGTCAGCACGGCCGAGATGATGTAGCGCCAGCTCGTGGAGTCGGCCCGCGCCAGGTCGTCGGTATCAGCCCAGGCCTGGGTCAGCCAGCCCGGTTCGGCGAGATCTGGGCCGGTCAGCCGCGTGCCCACGACCACTGCCCGGCGGTTGCGCTGCACGTGGGCCACCGCTGCGGTGAGGTAACCGGGCTGGGGAATGGTGTCGCCGTCGAGAAACGCGTAGACCTCGCCGGTTGCCACGGACGCGCCCAGGTTGCGCGCGGCGGCGGCGCGGAAGCCCAGGTCGTCCTGGCGCAAGGTGATGACGTCGGTCAGGGCGTCGACAAGCGAGGGCTCCTGCTCGGGCGGGGTTGGCGAGCCGTCGTCGGCGACGATGATCTCCACCCGCGCCGGGTAGTCCTGCGCGCGAAGAGCTGCGAGCACGGCGCGCAGGCCAGCTGGGTTGTCGTAGTAGGGGATGATGACGCTTACGTCAGGCCACATGCCGCCCACTGCCTTTCCCATACCAAGGCGACGTCGCCCCAGTCGTAG	MHPGIRAEQRGARRGVDAGVDTQPGGNHHLKRAGVGKIGDHHRHVRGAEDDTRRPGDGVGDAPGEGECLRVFHPHLLIFVAVPGAEIGLGVVRERAWLVHELGASVPGAPAELPVLAAVADKSRVKPADVVEEVRRAGQHGRDDVAPARGVGPRQVVGISPGLGQPARFGEIWAGQPRAHDHCPAVALHVGHRCGEVTGLGNGVAVEKRVDLAGCHGRAQVARGGGAEAQVVLAQGDDVGQGVDKRGLLLGRGWRAVVGDDDLHPRRVVLRAKSCEHGAQASWVVVVGDDDAYVRPHAAHCLSHTKATSPQS				NA	NA	NA	NA	NA
AK009_09557	744			hypothetical protein	GTGCCGGTGCGCGCACACGGGCACCGCAACCCGGCCCATCTCGGCGGCGAGCTCGTCCGCGCTGAGCCAGCCCGTGATCTCCACGTGGGGATAGGCCGTGCGCAAGCCACGCGCCCACTGCTCGTGGCCCTGCGACACCGCCCCGAGGAAGCGCAGGTGGTAATCGGTGCCCGCGAGGGCGGCGATGAGGTCCTCGTGGCCCTTGCCGGGGTAGAGGAAACCGAGGATGCCCACGGTGTTCGGGACGGGGTCGAAGTGGGAGGCAACCTGCGGGATGGGCAGGCGGATCACCGCGGGGGCATGCTCGAAAAACTGCGCCTCGTGCTGGGAGTTGACCACGCTGACCGTGGCGGCGTCGCGCAGGCGCCGGTACGCCTCGGCGCGGCGGGAGAAACGCTCCGCGCCCTCCTCGGGCTGCGGGATGTCGTGGAAGGACACCGACAGGGCGCGCTCGCCCACGCGGCCCAGCAGCGCCTCGACCGCCGCGAGCGGCTGGGTGCCGAAGAGGTGGTCGGTGAAGGTGACGTGGATGGGGGCGTCGGGAAGAGGGGCGCAGTCAAACGTGTTCTCGCGGATGATGTCTCGCTCGTCGACGCCGAGCGCGGCGGCGAGCTGCAGCGCGTAGGCGGTAACGCCGTGACCATCCGGTCCGACGATGAGGTGCTTCATGCTAGCCCCAGGTTGCTGATCCGCTGCGCGTGGCGCGTCATCCCGTGGGCGACGAGCGCCGGGCGGGCGCGGTAG	MPVRAHGHRNPAHLGGELVRAEPARDLHVGIGRAQATRPLLVALRHRPEEAQVVIGAREGGDEVLVALAGVEETEDAHGVRDGVEVGGNLRDGQADHRGGMLEKLRLVLGVDHADRGGVAQAPVRLGAAGETLRALLGLRDVVEGHRQGALAHAAQQRLDRRERLGAEEVVGEGDVDGGVGKRGAVKRVLADDVSLVDAERGGELQRVGGNAVTIRSDDEVLHASPRLLIRCAWRVIPWATSAGRAR				NA	NA	NA	NA	NA
AK009_09558	537			hypothetical protein	GTGCCACACCGGGGTCGTCTCCAAATAGTCCGAGATCACCACCGAGCCGTGGCGCTGCTCGCGCGAGCGGATCTCCGCAATCGACATCGCGGCCGCGCGGCGCAGCGCCGGCGGCGGGGGAGAGGCGTCCACGGGGCTGTCCAGCCCGCGCGCGGCGGCGGCGAGGATGCGCAGGTCGTGATAAGGCACCACCGGCGGGTTCAGCGAGGGGTGGTCGGGGTCGCGGATAATCGCCTGGTAGGGCATGAGGGCGTCGAAACGCAGCACGGGCACCACCACGTGGCGAGCGCGCGCGGGAAGCTGGCGGACAAGCTCGGACGTGCCGACGGGGAGGCCGCGGTAGTTGTCCCGGATCGGCTGGGTGACAAGGACGTCGGTACGCGCGATGAGATCGCCGAACCACCCCATGTCGTTGGCTTCGAGCTCGTGCACGGGTGCGATGCGCTCGGAGTCGAACTTTCCGCAGCTCATGAGCAGCTTGCGGGTCGATTCCGCTTGGCAGTTTCCGACGACGGTGAGGGTGGGCATGGCCCCTAA	MPHRGRLQIVRDHHRAVALLARADLRNRHRGRAAQRRRRGRGVHGAVQPARGGGEDAQVVIRHHRRVQRGVVGVADNRLVGHEGVETQHGHHHVASARGKLADKLGRADGEAAVVVPDRLGDKDVGTRDEIAEPPHVVGFELVHGCDALGVELSAAHEQLAGRFRLAVSDDGEGGHGP				NA	NA	NA	NA	NA
AK009_09559	960			hypothetical protein	TTGATCCACCCTATCGCCCAAATACGGCACAGTGCCACGGGCGAGGAGGCGGGTGGCTGCCTGAGCCGCGCTGGCCCCGTCCGCGCTGCGGTAGACCTCCACCGCCTCGGTCCGGTCCACCTGGTCGGCGTAGCAGCCCGTATCGGGCACGACCACGCCCGTGCCGACATCGCGGCACATCTCCAACCAGCCGGAATGCGTGCCGCGGGTGTACGGCAGCACGCAGGCGGTCAACGCCGCTACCTCGCGGTGCAGCGCCGCGTCATCGAAAGGCCCGTGCACCACCAGATCGACCTTGCCCGCCAGCTCCGCGCGCAGCTGCGCGGTGGCGGGCTCGTCGTGGACAAACACGCGCAGCGCAACGTCGCGGCTCAGATCCAGGTAAAACTGCGGGTCGCGCACGACGTTGGAGCGCAGGGACTTGAGAAACACGCCAACAACAGGTTCACGGCGCACTGTGGGTGGCTCGGCCACAATGGCGGGGTGGGGCGCGACGGTGACGTTGCGCGCGCGGAAGGCGTCGTCAAGCGTGCGCGCCGCGCACTCGGTGAGCGTGATCACCGCGCTCGCCGCACCGACGAGGGTGCGCAGCCGCTGGTGGTGCTCGGTTTGGTCCGCAAGGTGCGGGTTGTCGATGTCGTGGGCCGTGACGACGAGCGGGATGGGCAGCGTCTCAACCAACTGCTCAATCTGCTCGGGCGAGCGGTGCTCAAAGCCGAAGTGGATGTGCACCAGGTCCGCGGCGGGCGGGGTGCGCCAAAACTCGGCCTCGAGCGCCGGGTGCGGCCACCAGTTGCCGTCGATGTCCGGATCAGGCAAGTACTCAACACCGGCAGGGCGAATTGCCTGCGTGTAGGGATGTTGGGCGGGAATGGACAAAACCCGCACGGTGCGTACGTGCTTGCTCACTCCATCAATATAAACAACCGTGCATCTAAACGCTCGGATGCGTCCAGCTAA	MIHPIAQIRHSATGEEAGGCLSRAGPVRAAVDLHRLGPVHLVGVAARIGHDHARADIAAHLQPAGMRAAGVRQHAGGQRRYLAVQRRVIERPVHHQIDLARQLRAQLRGGGLVVDKHAQRNVAAQIQVKLRVAHDVGAQGLEKHANNRFTAHCGWLGHNGGVGRDGDVARAEGVVKRARRALGERDHRARRTDEGAQPLVVLGLVRKVRVVDVVGRDDERDGQRLNQLLNLLGRAVLKAEVDVHQVRGGRGAPKLGLERRVRPPVAVDVRIRQVLNTGRANCLRVGMLGGNGQNPHGAYVLAHSININNRASKRSDASS				NA	NA	NA	NA	NA
AK009_09560	741			hypothetical protein	ATGCGGGCCCTTTTCCGGCACCAGGCGGCCGAACCAGACCGCCGCTGCCCCGCCGGGTCCCGGCGTCCACTCGGAGACGTTGACCCCGTTCGGGATCACGGTAATCGGCGAGGGCGTGCGCCAGTTGCTCGCGGTCGCGTGGCTGACGGCCGCGAACTCACCCGCGTCGGCGCCCGCGCGGTCGATCACATCCTGCAGCTCGTCGAGCACCGGGGTGTGCAGCGTGGTCACCATGGGCAGGGCCTCGGGCGAAGCGGGCGAGGGGAACATCCACGGGCTCAGCGAGTTGTTGTGCACCACGTCGTAACCGCACCGCACCAGCAGCTTGCGCAGCCCGATGAACGCGCGGTCCTCCCGCTCACGCTCACCCGCGGGGTAGCCCGTATCCGTCGCCAGCTCCGGGCTCGCGCCCCAGTCCACGCCGGGCAGCTCGAACTCGGGGCAGTTGCCGTCGGAGCCGCGCGCGGCGAAGAAGTGGACCTCGTGGCCCTCCATGCGCAGCGCCTTGACCATCGTGTGGCAAAATGCCTCGAGCCCACCCGCGTAGGGCTCGCGGATGGGGTATCGCGCGGGCGCGACGAACGCGATCTTCAACCCCGGCGCGCGGCTCACCGTCGCTTCACTCGGCATCACGATCGTCATCGGCGCTGCACCTCCTCTCCTGCACTTTTCGTGGTGTTAACACTATCCAGAACGCTTCGGTATATCTCGGCGTGCGTGGCGCGCACCCGGCGCAATTGA	MRALFRHQAAEPDRRCPAGSRRPLGDVDPVRDHGNRRGRAPVARGRVADGRELTRVGARAVDHILQLVEHRGVQRGHHGQGLGRSGRGEHPRAQRVVVHHVVTAPHQQLAQPDERAVLPLTLTRGVARIRRQLRARAPVHAGQLELGAVAVGAARGEEVDLVALHAQRLDHRVAKCLEPTRVGLADGVSRGRDERDLQPRRAAHRRFTRHHDRHRRCTSSPALFVVLTLSRTLRYISACVARTRRN				NA	NA	NA	NA	NA
AK009_09561	138			hypothetical protein	GTGGGACAGCTCTCCGAGCCAACGGATGGAATCGCCGTTGAGCCGCGGCGCGATCTCCTCCTGGAAGTAGCGGTGGTCGCCCTTGCGCCCCGCGAGCAGCAGGGGCAGACCCAGCAACCGGCAGGCGTCGATAGCTAA	MGQLSEPTDGIAVEPRRDLLLEVAVVALAPREQQGQTQQPAGVDS				NA	NA	NA	NA	NA
AK009_09562	474			hypothetical protein	ATGATCCGGCAGCTCCACCCACGACGGCCACGCCGCGATGATCGCGTCGGCTTGGGTATAGGCGATCTGGTGCGGGGCGTCGTCGCGAAGCCCGGGCATGGCCAGGGTGATCACGGGAACGCCCAGAAGCCGCACGAGCGCCCCGACCTCGACGGAGACGTCCACGTAGAAGGCCTTGGGGTTGTTGTCCGCGATCCACTGCGCGATCTGCGCCATGCGGCTTTGCAGGTCGCGGTTGCCGTACGGCGCGTAGTGCAGCGTCCCTCCGGCCGTCATCGCACGGCCGTGGGGGCGCTTGCGGTTGTCCATTGCGTCGTCGGCAAGCACGACGTCGGCGCTGTCGGCGGTGGACAGGATCACCGCGCGTTCGCCGAGCAGCGCCAACTGTTTCTGGATCTCCCTGCAGCGCTGCAGGTGACCGGAGCCGTGGTGGTGGGCGTAGATCCCGATCACTTCACCATCACCTCCCGGTAG	MIRQLHPRRPRRDDRVGLGIGDLVRGVVAKPGHGQGDHGNAQKPHERPDLDGDVHVEGLGVVVRDPLRDLRHAALQVAVAVRRVVQRPSGRHRTAVGALAVVHCVVGKHDVGAVGGGQDHRAFAEQRQLFLDLPAALQVTGAVVVGVDPDHFTITSR				NA	NA	NA	NA	NA
AK009_09563	288			hypothetical protein	GTGCGTCACCGCGAGGTCCGCAATCGAGTTCTGGCCCCCGGCGCTGACCACGACGCCGGCGGCGCTGAGGATCTCCGTGGGGTCGTCGACGCGGTTGTCGCCCTCCAGATAGGTGAAGCGGTATCCCTCGCACGCCGCCTCCACGCCCGCCCAATCACTAGGCTCCCACGTCGCGCCGCCCTTGCCCGCCATGACCACCACGTGGGTGGAGTCGCGGTGCACTTGCTCGCGCATGTGCAGCCGCGAGATCCCGCCGACGGCGTGCACGCGACTTGCGTGGGCGTGTAA	MRHREVRNRVLAPGADHDAGGAEDLRGVVDAVVALQIGEAVSLARRLHARPITRLPRRAALARHDHHVGGVAVHLLAHVQPRDPADGVHATCVGV				NA	NA	NA	NA	NA
AK009_09564	273			hypothetical protein	GTGCGCGTCGGCGAGCGCGACGGTAATGTGCTCGGTGCCCTCGGGGGTGAGGTTGACCTGGTGGGTCAGGTGCGCGGCGCGGTTGGCGTCGGCAAGCGAGACAATCGCGATGCGTTGCGACGCTTGCCCGGCCACCCGCGCGATCACCTCTGCCGCCCGGCGCGCCGCGCCCTCGGTCTCCCAGCGCGACCAGTCGGGCTTAAGCGCGGCGGCGCGGCGCAGCAGCTCCGGCCACGTATCGGGGGCGGGGAAGGTTTCGGCGACGAGGGCTAG	MRVGERDGNVLGALGGEVDLVGQVRGAVGVGKRDNRDALRRLPGHPRDHLCRPARRALGLPARPVGLKRGGAAQQLRPRIGGGEGFGDEG				NA	NA	NA	NA	NA
AK009_09565	234			hypothetical protein	GTGCGGGTCGGGGTTGATGGTGCGCAGCTCGCCGGGCGCCATATACGTCACCGGGCCAGCCACCACCGCGCCCGGGTGGGTGGCAAGCGCCTCGACGTAGCCGCCCACCAGATCCCCGGAGGCGACGCAGTCCGCGTCAAGGAAGATCAGGATCTCCGCGCCGCGCTCGATCGCGGTGCGGGCGGCCAAGTTGCGCGCGGCGGCGAGGTTGCGCTGCCCGGCAACCACCGTTGA	MRVGVDGAQLAGRHIRHRASHHRARVGGKRLDVAAHQIPGGDAVRVKEDQDLRAALDRGAGGQVARGGEVALPGNHR				NA	NA	NA	NA	NA
AK009_09566	807			hypothetical protein	ATGGCTGCACCTCACCCTCGACATCGCCTGGGTGGCGCTCGGCGCGGTGTTCTACGTGCTGCTTTTCGCCACCGGCCAATGGGCGCGCATCGTGCCGACGAGCTGGGACACGTTCCCCAACGCGGTTTCGGCGGGCCTGCAGTACCTCACCCTGAACTGGCCGGAGGACAACGGATGGGTGCGCTACAACGCGCTGCAGGAGCTGACCTACTTCGCGGTCGTGTTCATTGCCGCGCCGCTGGCGATCATCTCCGGTGCGCGGATGAGCCCGTGGTGGCCGAAGGGCTGGTCGCTGGTGTCGATGAAGGCAGCGCGCTCGATCCACTTCCCCACCATGATTTTCTTCGTGGTGTTCATCATCACCCACGTGGGGCTTGTGTTCCTGACCGGCATGCGCCGCAACCTGAACGCGATGTTCGCCGCGCGTGGCGACGTCGACCCGGCCACCTACGCCACCGACTGGACCGGCACCCTGGTCTTCCTCGGGGCGTTGGTTGTTATCGCGGCGGCGTGGTTCGCCGCGCGCCCGCTGGTGGTCGCGCCGGCTGCCCGGCTGACGGGAACCGTCTCGCAGCGCTAGGGGGTAGCGGTGCGCTGCCAGGTGCCGTCGACAAGCTCGATGGCACCTTCGGCCGCGAACTGATCCAGCCAGCCCTGCATCGGGAACTCGCCCCACTTGGAGTGGAAGTAAGCGGCGTTGGCCAGGATGTCGTCGAGGTGCTCCCACGGCGGCGAGGACACCGGGTGGTGCTGGTGGTAGGCGTGGGCGCCGCCGCCCCAGTACAGCTCGATGCCGCTGCGCTCTAA	MAAPHPRHRLGGARRGVLRAAFRHRPMGAHRADELGHVPQRGFGGPAVPHPELAGGQRMGALQRAAGADLLRGRVHCRAAGDHLRCADEPVVAEGLVAGVDEGSALDPLPHHDFLRGVHHHPRGACVPDRHAPQPERDVRRAWRRRPGHLRHRLDRHPGLPRGVGCYRGGVVRRAPAGGRAGCPADGNRLAALGGSGALPGAVDKLDGTFGRELIQPALHRELAPLGVEVSGVGQDVVEVLPRRRGHRVVLVVGVGAAAPVQLDAAAL				NA	NA	NA	NA	NA
AK009_09567	711			hypothetical protein	GTGCGCCCAGTTCAGCCAGGCGGGCAGGCCCACGGGGGTGCCCACGGGCAGCGGCTGGCGGCCGTCGTAACGCTGAATAAACTGCGCGCCGGCGTCGGTGCCCAAGATGTAGCGCGCGAGCAACACGGCGAGCGCAAACGCGAAGCCGAGCGCGATGGCCGGGGTAAGCCAGCGCGTCCAGCTGCGCGAGGCAACGGGCTTTTCCGCGCCGACCGGTTCGGTCGCGCGGGCTACTGGTTTGGGCTCCGGTGCCGGGGCCACCGGTTCCGATTCCGGTGCCGGCTCTCTTTCGCGCAGCGCCGCCGGTGGCAGCGCAATGTAGGTTTCGCTGACCGGCGGGTACGCCTCGCCGCCCGGCACGCGCGGCAGGCCGCGGCGCACAGGGACCGCGCTGAGTCCCTCGGCGGGCTCGTCGTGTGCGGGTTGTGCCGCGGCGGGCGCGGGGCTTTCGGGCACGTCGAGGTCAATGACCGCCCCGGCGGGGGGCCAGGGCTCGCCACCGACGACCCGGGGGAGGCCACGGCGCAGTGGTGTCTGCATCGGTTCCTACTTCCTGGAGTCGAGCTCGGAGATGATCTGGGGCACGATGTCGAAGATGTCGCCGACGATGCCGAAGTCCGCGATCTCGAAAATCGGGGCGTCGGGATCGTTGTTGATGGCCACGATCGTGTCGGAGGTCTGCATGCCCACGAGGTGCTGGATCGCGCCTGA	MRPVQPGGQAHGGAHGQRLAAVVTLNKLRAGVGAQDVAREQHGERKREAERDGRGKPARPAARGNGLFRADRFGRAGYWFGLRCRGHRFRFRCRLSFAQRRRWQRNVGFADRRVRLAARHARQAAAHRDRAESLGGLVVCGLCRGGRGAFGHVEVNDRPGGGPGLATDDPGEATAQWCLHRFLLPGVELGDDLGHDVEDVADDAEVRDLENRGVGIVVDGHDRVGGLHAHEVLDRA				NA	NA	NA	NA	NA
AK009_09568	933	etfA_2	COG2025	Electron transfer flavoprotein subunit alpha	ATGACGGACATTCTCGTCGTTATCAACCCCACTCACGACGGTTCCCTCGACCTCGCAGCCGCGGAGCTCATCGGCGCTGCCAGCGAGATCGGTACCCCGGTGGCGCTGACCGTCACCGCGGACCACGCCGAGGAGCTGGCGGCCCTGGGCGCGAGCCGCGTGCTCATCGCGCCGTCGGCCTCGCTTGTCGACGCCACCGTGGCCGCGTTCGACCTGCTCTACCCGGGTGCCGTGGTGTTTAGCCACACCGTGCGCGGGCGCGAGACCGCCGCCCGCTTCGCGGCGCGCAGCCGCAAGGCGCTGCTCACCGACGTCGTCGGCCTGCGCCGCGACGCCGAGGGCGTTGTGGCCGATCACTCCAACTTTGGTGGGGCCTACACCGCCGTGGGCGCGGCGACGCATTCGGCGCCGGTGGTGACGTTGCGACCTGGGGCCGTCGAGAAGCGGGCGGAGCCTGCGACACCTGAGGTGGAGACGCTTGAGGTAGCGGCCGGGGAGGTGCGCGGCGCCACGGTGGTCAAGGTGACCCCCATCGAGCGCACGAGCCCGCGGCCCGACCTCGTCACCGCCGACAAGGTCGTCGCCGGCGGAGTCTCACTCGGCTCCGAGGAGTCATTCGAGGAGCTCGTCGGCGGGCTTGCCGATGCCCTCGGCGCCGCCGTCGGCGCCACCCGCTCCGCCGTTGACGAGGGCCAGGTGCCGTACGAGGCGCAGATCGGCCAGACCGGCGTGCTGGTGTCACCGAAGCTCTACATCGGCATCGGCATCTCAGGCGCGATCCAGCACCTCGTGGGCATGCAGACCTCCGACACGATCGTGGCCATCAACAACGATCCCGACGCCCCGATTTTCGAGATCGCGGACTTCGGCATCGTCGGCGACATCTTCGACATCGTGCCCCAGATCATCTCCGAGCTCGACTCCAGGAAGTAG	MTDILVVINPTHDGSLDLAAAELIGAASEIGTPVALTVTADHAEELAALGASRVLIAPSASLVDATVAAFDLLYPGAVVFSHTVRGRETAARFAARSRKALLTDVVGLRRDAEGVVADHSNFGGAYTAVGAATHSAPVVTLRPGAVEKRAEPATPEVETLEVAAGEVRGATVVKVTPIERTSPRPDLVTADKVVAGGVSLGSEESFEELVGGLADALGAAVGATRSAVDEGQVPYEAQIGQTGVLVSPKLYIGIGISGAIQHLVGMQTSDTIVAINNDPDAPIFEIADFGIVGDIFDIVPQIISELDSRK	PGPT0001040_4430	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
AK009_09569	702			hypothetical protein	GTGCGTCCAGTCTTCCGGGTCGACGCCGAGCTCGTCGAGAGTCACCGCGTTGATCTCCTTCTTCTTCGCGGCCATCAGGCCCTTGAAGTTGGGGAAGCGCGCATCCGGGAACTCATCCGACACCGCGGCGACGGCGGGCAGCTCGCAGGTCAGCTCGACCACGGCGCCGTCGCTGGCCTGGGTGGCGGTGACCGTGGTGCCTTCGACCGTCAGGTCTGTCAGATTGGTCAGGGCAGGCACGGCGAGCAGCTCGCCGACCATCGCCGCGATGACGCCGCTGGCGCCATCGGACGAGGTGGCGCCGGTAACGACGAGGTCGTAGCCGTTCTTCTTCACCAGAGCCGCGAGCACCTCTGCCGTGAGCGTCAGGTCCGCGCCGATCAGCTTCTCGTCGGAAACGAGGTAGGCCTCGGCGGCGCCCATCGCGATCCCCTTACGGATCGACCCGACGGAGCTCTCCGGGCCGACGCTGAGGATGTCGACGGTGCTGTCGCCAGCCGCCTCCGCGATACGCAGGGCGGCCTCGACGGCGCGCTCACCGACCTCGTCGGCGACAACATCCCCCGTGCGGTCCGTCAGGCCCGTCTCGAGGTTCATGGTGCGGTCGCTGTAGGTGTCGGGAACTTCTTTCAGCAATACGGCGATGCGCATCGCGACTCCTTACCAGCTAGATGGTCAAAGCAATGCTGCCGGAGAGTCTAG	MRPVFRVDAELVESHRVDLLLLRGHQALEVGEARIRELIRHRGDGGQLAGQLDHGAVAGLGGGDRGAFDRQVCQIGQGRHGEQLADHRRDDAAGAIGRGGAGNDEVVAVLLHQSREHLCRERQVRADQLLVGNEVGLGGAHRDPLTDRPDGALRADAEDVDGAVASRLRDTQGGLDGALTDLVGDNIPRAVRQARLEVHGAVAVGVGNFFQQYGDAHRDSLPARWSKQCCRRV				NA	NA	NA	NA	NA
AK009_09570	771			hypothetical protein	GTGTGGCCCCGGCGGGGACTAGAAGTCGAAACCGCCGAAGTCGAAGCCGCCGTCGCCGCCAAAGAAACCGCCGTCGCCACCAAAATCCCCACCGAAATCGCCACCGGCGTCGCCTGCGTCCGCTCCGACGTCGCCCGCGTCACCCATGTTGCCGCCGACGTCCGCACCGGCGTCACCGGCCTCGAACTCCGCAGGCGACGGGGTGCCGGCCATGCCGGCGAACATCGCCGAGTAGAACATCATCGAGCTCGCGGCCCACATACCGGTCATCATCGCCGGAGCCCACCACGCACTCGAGTACCAACCAGCCGGCACCGGGCGGCCCGCCACGGACCCGCCGGGGTAGTAGTGCGGTGTCTGCTCGGAGGCGTTGGGGGAGGCGATGACCTCGGTACCGTCTTCCTGCGTCACGGTGCGCTGCTCGGTCACGCGGCCGGCGCGGCGCTGGCCCTCGAGCTCCGGCAGCGGCGGGCCAGGGGGCATGCCCATGATCTCGCGGGCGGCGTTGACGTAGTGCAGGCCCTCGAGGGCGGATTCGCGAGCGAGGTGCGCCTGCTTGACGGTGCGGGCATCGGCAAGCGCGGCGGAAGCGGCGGTGAAACGCTCGGAGGCATCCGCCATGGCCTGGGAGGAGGCGGTGTCGCTGCCGGGCAGGTTGAGCACCTGGGAGCCGAGGCGGTCGGTCCAGCGCTTGGCGTCGGCGAGGGCGTCGTCAAGCTGCTCTTGCTCAAGTTGCTTGCGCGATCCACCACCCACGCGAGTGCTGATTAG	MWPRRGLEVETAEVEAAVAAKETAVATKIPTEIATGVACVRSDVARVTHVAADVRTGVTGLELRRRRGAGHAGEHRRVEHHRARGPHTGHHRRSPPRTRVPTSRHRAARHGPAGVVVRCLLGGVGGGDDLGTVFLRHGALLGHAAGAALALELRQRRARGHAHDLAGGVDVVQALEGGFASEVRLLDGAGIGKRGGSGGETLGGIRHGLGGGGVAAGQVEHLGAEAVGPALGVGEGVVKLLLLKLLARSTTHASAD				NA	NA	NA	NA	NA
AK009_09572	612			hypothetical protein	GTGCAGCACAATCGCCGCCTCGAGACCGCCGGTGCGGTGCACCAGCAGCGACGTGAACGCCGCGAACACGGCGACGCTGACGAGCCCACCCGCGCTGTAGGTGTGGCCAAAGACGAACAGCGGCAACGAGATGGCGTAGACCACCCACGGCGAACGGATCCACGCCCCGAGCGCCTGGGGAAGAGAGCCGCGAAACACCAGCTCCTCGGCGGCGCACTGCAACGGTATGAGGCTGACACAAATCGCGGCGCTGACCCAGAATGTGCCATCGAGCGGTGCCGGAATGCCCCGGTGGATGATCGCGTCGACGACCAGGGCGAGCGCCGGCGGCACGCCGATCAACAGCAGCGACAGCCTCACAATCCGCCAGCGGATGCGCCCGGTGACGGACAGCAGCGCGCGGGGGCGGCGCCCGCCAAGCCATGCGGCGATAAAGGCCGCGATTCCCGACAGAGCGATCGCCCCATAGAAAAACGCCATGTTCACCGGGTTGGTGCCGAGATCGGGGTCGATGATGAGGCTGTAGAGCCACTCCATGTCCACGCCGATTCCGAAGCTGGTGAACAGAAACACCGCGGTGAACAAGGCCTGAATGAGGAAGAACAAGACTAA	MQHNRRLETAGAVHQQRRERREHGDADEPTRAVGVAKDEQRQRDGVDHPRRTDPRPERLGKRAAKHQLLGGALQRYEADTNRGADPECAIERCRNAPVDDRVDDQGERRRHADQQQRQPHNPPADAPGDGQQRAGAAPAKPCGDKGRDSRQSDRPIEKRHVHRVGAEIGVDDEAVEPLHVHADSEAGEQKHRGEQGLNEEEQD				NA	NA	NA	NA	NA
AK009_09573	807			hypothetical protein	GTGCTCGCCGGTGAGGTAGAACTCGGCGTCATCGGGGGTTGTCTGCGGGGCGAAACCGTCGAGCGTCTCCGAAACGCGTTGCGCCGCCCACGCCGTCGCTCCCGGCACCGTGCCGCCGTAGATGGATTCGTGCACCGCGGCGTACAGCGGGGCGCGCTCGAAGCTGACCATGTCGCCCACGTCGGCGAGGAAATCCGTGCGCAGCCTGCCGTTGGGGTGGAACGGTTCCTCCAACAGGTTGGCAAGAGTCTCAAAGCCGCCCTCGCGCCCCAGCGTCACACCGACTGTGCGAAACCGCCGGGAACTGAGCCGCTCACCGGTGGGCAGGAGCTCCTCGGAGTTGTCAAGGTGGCGGCACACCTCGCGGACCATGGACTCCGCCCACGGGACCTCGCTGTAAAACTCCAGGTGGCGGGCCCGCAGCTTAGCGAAGGTGGCGCGGTAGACCTCGTCCACGCCGCGGGTGACGGTGGGCAAACCGCCCGTGAAAAACGCGTGGCGCACGCTTTCCGGGTGCGCTGCCAGGTAGTGCGCGAGGCAGAACCCGCCGAAGGATTGGCCGAGCACGTCCCAGCGCTTCACACCGAGCTCTTCGCGGACCGCTTCGGCATCGGCGACGATCTCGTCGGCACGAAGCTGGGTCAGCGTGGGGGCGTCGATAAGCTGCGGCGTGGCGCGGTCAATGCGGGTGGAGCGGCCGGTGCCGCGCTGGTCGAGCAGCACCACCCGGTAGTGCTTCAAGGCCGTGTCGATCCACTCGAAGCGCTCGCGCGGGCTCGGGAAACCGGGTCCACCCTGCAGATATAG	MLAGEVELGVIGGCLRGETVERLRNALRRPRRRSRHRAAVDGFVHRGVQRGALEADHVAHVGEEIRAQPAVGVERFLQQVGKSLKAALAPQRHTDCAKPPGTEPLTGGQELLGVVKVAAHLADHGLRPRDLAVKLQVAGPQLSEGGAVDLVHAAGDGGQTAREKRVAHAFRVRCQVVREAEPAEGLAEHVPALHTELFADRFGIGDDLVGTKLGQRGGVDKLRRGAVNAGGAAGAALVEQHHPVVLQGRVDPLEALARARETGSTLQI				NA	NA	NA	NA	NA
AK009_09574	894			hypothetical protein	GTGGTAAACGCGCGGCAGGCCGTAGTCCATCCACTGCCCCATCGTGGCCACCGCATCCGGGGTGCTCACGTACGCTGCGTCGCTGGCGACGAGCTCCGGAATCGTCTTACCCGTGCGCCATTCAATCTCCGCGCGCAGCTCGGCGGCCGCCTGGTTGAGCGCGTCGCGCATCTTCGGGTCGTTGAGCCTGTCGGCGGCCGCCGCGTAACCCGACATACGCCCACCGATTACGTCCAGCGGGTAGTGCACGCCGAGCACAACGCGCGAGTTTCCGGCCTCGGCACCCCGGTAGGCCAGCTGCGGGCCAAGCTCCGGGACCATGTAGGCCAACAGAGTGGTTACCCACACCGCCTGGTTGGTGTGGCCCGAGGGAAACGCTGGGGAGGACAAGTAGAGGTCTTCCGCACCCGCGGTGTCGTAGCGCTTGATGCGATCCGGCGCGGCGATGTGCGGGCGAGGGTAGTCGTAGATTTCCTTCTCGATGAGCGTCGAGCTGGCCAGCCCGCCGGCGCGGGCGAGGTAGCCGTTGTCGAGCAGGTAGGCCGTCTTCGGCAGGCGGCCCTCGGCGAGCGCGTCGCGAAACGCGGTACCGAACTCCTCGCCCATCGCCGGCGACAGGGCCGTGAGCAGCCCGTCGGCGGATGCCACTGCATCGATCTGCGCCTGGGTGACCTGTTCCGGGGTGGCGTTGTTGTTGATCCGCACTACCGTGTCCAGGTTCGCGGCCATCGTCTCCGGCTGCGTGTCGCGCACCTGTGGGAACAGTCGGTTGACCTCGGCGTAGATGCCGTAGTCGTAGGAGGAGATGTCCGAGATGTAGCCCGCGAGGTAGTCCGGCGGGAAGGGCACCGGCACCGGGGCGCCGTCCTGCTCGGCGGGAATCGCGCCGGTTGA	MVNARQAVVHPLPHRGHRIRGAHVRCVAGDELRNRLTRAPFNLRAQLGGRLVERVAHLRVVEPVGGRRVTRHTPTDYVQRVVHAEHNARVSGLGTPVGQLRAKLRDHVGQQSGYPHRLVGVARGKRWGGQVEVFRTRGVVALDAIRRGDVRARVVVDFLLDERRAGQPAGAGEVAVVEQVGRLRQAALGERVAKRGTELLAHRRRQGREQPVGGCHCIDLRLGDLFRGGVVVDPHYRVQVRGHRLRLRVAHLWEQSVDLGVDAVVVGGDVRDVAREVVRREGHRHRGAVLLGGNRAG				NA	NA	NA	NA	NA
AK009_09575	1083			hypothetical protein	GTGACATCCCGGCACCGCGTCCTTAAGCGATTACATCACCGAATCCAGCAGCGTCTTCGTGTACGGGTGCTGCGGGTCGGCCCACACGCGCTCGGTGGCGCCGTGCTCGACGATGCGCCCGTTGTGAATCACCGCGACGGTGGGGCAGAGCTCGCGCACGACTGCGAGGTCGTGGGAGATGAAGATGAGGGTGCCGTCGCCTACGACGTCGTCGATAAGCTCGAGCACGCGGCGGCGCACGGTGACGTCGAGGGCGGAGACGGGCTCGTCGGCAAGCAGGATGTCGGGCCGGGGCGCGGCGGCGCGCGCGATCGAGATGCGCTGGCGCTGACCGCCGGAAAATTCGCGAGGCCACCTGCCGCCCATCCCGCCGAGCCCAACCTGGTCGAGGACCTCGGCGGCGCGTGCCTTGTCGACGCCCGTTTCGCGTATCGACGCCCCCACCCGCATCCGCGGATCCAGCGAGGAGTACGGGTCCTGGAACACCATCTGTACACTGCCGTCGACAGCGACCTCGCCCGCCTCAGGGTGCGACAGGCCGGCGATGACGCGCAGCAGCGACGTTTTGCCGGAGCCGGAACCGCCGACGATGCCGATGCGCTCGCCGCGGCGCACGATGAGCGTGACGTCGTCGAGAGCGCGGGTGGAACCGCGGGTCAGGGTCACTTTGGTGAGCGTGACCACCGGGGCGCCGAGCGGACGATGTGGTGCTGGGGGTCCGGGGCGGGAGGCGTCGACAAGCGAGCGGGCGTAGGGCGAATCGGGGGCGACGATGCGGCCGTCCTTGAACACGAGCACCCGGTCCGTCATGCGGCGCACGACGGCCAGGTCGTGGGAGATGAAGATCAACCCCATGCCGCGCGCGGTGACGAGCGCGTCAATGAGCTCGAGGATCTGCTTCTGCACGGTCACGTCGAGCGCGGTGGTGGGCTCGTCGCAAATCAGAACCTCCGGGTCGCGCGCGAGTGCGGCGGCGATGAGCACGCGCTGGCGTTGGCCGCCGGACAGCTCGTGCGGGTAGGCGCCGGGCCGCTCGATGCCGACCTCGGCGAGCAACGCGGCGGCGCGGGCGCGGTCGCGTGA	MTSRHRVLKRLHHRIQQRLRVRVLRVGPHALGGAVLDDAPVVNHRDGGAELAHDCEVVGDEDEGAVAYDVVDKLEHAAAHGDVEGGDGLVGKQDVGPGRGGARDRDALALTAGKFARPPAAHPAEPNLVEDLGGACLVDARFAYRRPHPHPRIQRGVRVLEHHLYTAVDSDLARLRVRQAGDDAQQRRFAGAGTADDADALAAAHDERDVVESAGGTAGQGHFGERDHRGAERTMWCWGSGAGGVDKRAGVGRIGGDDAAVLEHEHPVRHAAHDGQVVGDEDQPHAARGDERVNELEDLLLHGHVERGGGLVANQNLRVARECGGDEHALALAAGQLVRVGAGPLDADLGEQRGGAGAVA				NA	NA	NA	NA	NA
AK009_09576	564			hypothetical protein	ATGCTTAGGTTGTTAACGCGGATCACGCCCGCCCCCGATCAGGTTGAACGCGAGCACGGTGATCGCGATGGCGAGGCCCGGAAACAGCGCGAGGTGCGGGTCGGTGGCCAAGTACGGCTGCGAGGACTGCAGCATCCGGCCCCACGAGGCATAAGGTGCGGGCGTGCCCAGGCCCAAAAACGACAGGCCGGCTTCGGCGAGGATCGCCAGGGCGAGCGCCACCGAGACCTGCACCACCGTCATGGGCAGGATGTTGGGCAGCACGTGGGTGCGTGCGATGGCAAGCGGCGCCACCTTGGACACACGCGCGGCGAGGATGTACTCCTGGCTCATCACCTGCAGGGTGCCCACGCGCGCCACCCGCGCAAACCCGGGAATACCGGCGATACCGATCGCCGCGACGACGATCCATACCGAGGCGCCGAACACGGCGGTAAACACGATGGCCAGCAGCAGCGCCGGGAACGCCAACAGCAGGTCGCTCGCGCGCATCACCACGGACTCGACCGCGCCGCGGCGCATCCCGGCCCACACGCCCAGCGGCACCCCGACCAGCGCGGATAG	MLRLLTRITPAPDQVEREHGDRDGEARKQREVRVGGQVRLRGLQHPAPRGIRCGRAQAQKRQAGFGEDRQGERHRDLHHRHGQDVGQHVGACDGKRRHLGHTRGEDVLLAHHLQGAHARHPRKPGNTGDTDRRDDDPYRGAEHGGKHDGQQQRRERQQQVARAHHHGLDRAAAHPGPHAQRHPDQRG				NA	NA	NA	NA	NA
AK009_09577	396			hypothetical protein	GTGTCAAGGTCACGGTTGCCTCCGGATCCGCGGATCGATCACCGTGTACAGCAGGTCCACGACGAGGTTGACCGCCAGCGTGAATCCGACCAGCAGCATGAGCACGGTCTGCACGGTAGTGAGGTCGCGGTTGCCCACGGCGTCGAGAAGCATCGTGCCCAGGCCAGGGATAGCGAAAACCCGCTCGATGACCACCGCGCCGACAATCAGGCTGGAGAGCTGGATGCCCGCGACGGTGAGCACGGGCAGCGCCGCGTTGCGCAGCGCGTGGCCATAGAGCGCGCCGCTTGTCGATGCCCCCCGCGCCCGCGCCGTGCGCGCGTAGTCTTTGCCCATCTCGTCGGCGACCGCGTGGCGCACGTAGCGCGTCAGGATCGCCGCCTGCACCAGCGTTAA	MSRSRLPPDPRIDHRVQQVHDEVDRQRESDQQHEHGLHGSEVAVAHGVEKHRAQARDSENPLDDHRADNQAGELDARDGEHGQRRVAQRVAIERAACRCPPRPRRARVVFAHLVGDRVAHVARQDRRLHQR				NA	NA	NA	NA	NA
AK009_09578	354			hypothetical protein	GTGGGCCGGGGTGCCCCACCCGTTGGCGGGCAGCCAGCCGAGGCGCACGGAAAACAGCGCGACAGCGAGGATGCCCACGAGGAAGCTGGGCACGACGATACCCAACTGTGTCAGCCCCGCGAGGACGGCGCCGTCCGGGCGGTCGCCGCGCAGCGCCAAGTACACCCCAAGCGGAACCGCTATCGCCAGCGACAGCACCATGGCCAAAACCGTGAGCGTGAGCGACGCGCCGGCGCGTTCCACCACCGCCTGCGTGATGTCGGTGCGGCTCGCCAGCGACCCCCCGAAATCACCGGTGAGCAGGCCGGTGATCCAGTCGAAGTACTGCACTATCAAGGGCCGGTCGAGCCCTAG	MGRGAPPVGGQPAEAHGKQRDSEDAHEEAGHDDTQLCQPREDGAVRAVAAQRQVHPKRNRYRQRQHHGQNRERERRAGAFHHRLRDVGAARQRPPEITGEQAGDPVEVLHYQGPVEP				NA	NA	NA	NA	NA
AK009_09579	657			hypothetical protein	ATGAACAACCGCGAAGCACCCTTCGACGACCCTGCGGTGCGCCAGGCCGTGGCCCACGCCATCGACCGCGACGCGATCAACCAGGTCGTGTACAACTCGATGGGCACCGACACCGGCGGCGCCCCCGTCCCGCCGACGGACCCGTGGTTTACCGGCCGCGACTACTACCCCTTCGACCCGGCCAAAGCCCGCGAGCTACTCGCCGGACGCACCCCGGAGGTGACCATCACGGTGCCGAACCTCCCGTACGCGCAGACCGCGAGCGAGCTGATCTTCTCGCAGCTTCGCGACACCGGCTTCCACGTCACCCTGGAAACGGTAGAGTTCCCCGCCGTGTGGCTGGGCCAGGTCCTGCGTGGCCACGCCTACCAGGCGTCGCTGGTCGCGCACGTTGAGCCGCGCGACATCCCGATGCTGTTCGGCAACCCCGACTACTACCTCGGTTACGACTCCGCGCAGGCCAGGGAGCTCATCGCCGCCGCCGAGGTCGGAGACCAGGCAGTCAACATGGAGGCCGCCGTGGACGTCATCATGGCCGATGCGGGCGCGTTGACTCTGCTCAACGCGCCGAACATTGTCCTGCTCGCCCCTGAGGTCAGCGGCGTCGACCCGAACGTGGTCACCGACGGCCTGGCGCTGGCGGAGGTCCAGAAATGA	MNNREAPFDDPAVRQAVAHAIDRDAINQVVYNSMGTDTGGAPVPPTDPWFTGRDYYPFDPAKARELLAGRTPEVTITVPNLPYAQTASELIFSQLRDTGFHVTLETVEFPAVWLGQVLRGHAYQASLVAHVEPRDIPMLFGNPDYYLGYDSAQARELIAAAEVGDQAVNMEAAVDVIMADAGALTLLNAPNIVLLAPEVSGVDPNVVTDGLALAEVQK	PGPT0004430_18587	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
AK009_09580	573			hypothetical protein	GTGCTCGACCTCGCCGCCCCAGTAATCGTCGCGGGCGCGAAACGAGACGGCCTCGCCGACGTCGAAACGCTCGAGCGTGTACGGGCCGGTGCCCAGCGGGTCGGTCGCCAGCCGCGGAATCGAGTCCGGCGTCATCATCGCGCCCGTCAGCGTCCCCATCGACCACAGCCAGCTATTCGACGCCCGTGCCAAACGCACCCGCAGCGTCCGCTCGTCAACGACCTCGACCTGCGCAACGGGATCCATCTGCGCCTTCAGCGCGTTTGTCCACCTGGTGCGCACGTAGTCGATGGAAAAGGCGGCGTCGTCGGCGGTAAAGGGCTTGCCGTTGGAAAACGTCACGTCGTCGCGCAGGTGGAAGGTGTACTCGGTGGCGTCGGGGCTTTCCTCCCAGCTCTCGGCGAGGAGGGGCTGCGGGGTGCCGGAGGCGTCGATACGCACGAGCGTCTCGTAAACATTCGACATGAGCGCTTGGGGCGCGGCGGCCCCGCCGATCGAGGTGAAATCCAGCCCCGCCGGGGGCGCCTGCGTGGCGACGACCACACCGCCGTCACGCGCCCCGCCTGCCGGTGA	MLDLAAPVIVAGAKRDGLADVETLERVRAGAQRVGRQPRNRVRRHHRARQRPHRPQPAIRRPCQTHPQRPLVNDLDLRNGIHLRLQRVCPPGAHVVDGKGGVVGGKGLAVGKRHVVAQVEGVLGGVGAFLPALGEEGLRGAGGVDTHERLVNIRHERLGRGGPADRGEIQPRRGRLRGDDHTAVTRPACR				NA	NA	NA	NA	NA
AK009_09581	384			hypothetical protein	GTGGCTCGCGTTTTGCAGCGAAATCATGAGCTCGTCGGCCTTCGCGTGCTCCGTAAACCACGTCAGGTAGTCCGCGACTTCGTCCGCGGTGCCGCGGGCGGTGTAGCGCATCATGTCAATGATCTGCCGGCCCTGGAAAGAGTTGATGATGGCGTCGAGTTGGGCGTCGTCAAGCACTTGCCCGCGCCGGCCCATGAACGCCCGCACCCGGTTGCGGTGCACGATCTTTTCCTGGCGCGCGGCATCCTCACTGGTCTCAGCTGCGGTGACGTTGACCGCCGCGATGACGTGGGGCTCGGGGTGGCGCTCGGAGGGCTGGTAGTTCTCCCGGTAGTAGGTGGTGGCGTCGACAAGATGCTGAGGAGCGAAATGGGACGCAAATGA	MARVLQRNHELVGLRVLRKPRQVVRDFVRGAAGGVAHHVNDLPALERVDDGVELGVVKHLPAPAHERPHPVAVHDLFLARGILTGLSCGDVDRRDDVGLGVALGGLVVLPVVGGGVDKMLRSEMGRK				NA	NA	NA	NA	NA
AK009_09582	273			hypothetical protein	TTGATCCGACAACCACGCCTCAAGCTCGCGCACGTCATCGGGGAATGCCTCCGCGGCTCGCGGGTCGCGGCGCAGCGCACGGCCCAGCGTCTGCTGGTCAGTGCCCGGAGCACGCCCCAGCCCGAGGTCAATGCGATCGGGGTAGAGCTCGGCGAGCATACCGAACTGCTCCGCGATAACGTACGGGGCGTGGTTGGGCAGCATCACGCCACCGGAACCGAGCCGGATGCTGGAAGTCTGCGCGCCGATGTGGGAAATGAGCACCGCCGGTGA	MIRQPRLKLAHVIGECLRGSRVAAQRTAQRLLVSARSTPQPEVNAIGVELGEHTELLRDNVRGVVGQHHATGTEPDAGSLRADVGNEHRR				NA	NA	NA	NA	NA
AK009_09583	1215			hypothetical protein	TTGCAGCGGCGCCCAGGCAACGAGCGGGGTCAAAACGTCGGCTGCCCAACCCAACGAAATGGCGGTCTCGATGGCCGACCAGATCACGGCAACCCAAATCGGCAGGAAGAACGCCCAGGTGAACCGGGTGCGGGAGCGGAACAGTGGCTCGATGAGCGTGACAAGGATCAGCGCGATGGCGGGCGGGTACAGGAATCCGATGACCGGGGCGGCAATTGCCATGACGAACTCGAGTCCCTGGGTGGCGATCAGTGTGGACATGATTGTGAAGATGATTGCCCACGTCTTGTAGGAGCCGGCGAACTGCTCGGAGAAGTATTCAGCCGTGGCCGTGATCAGGCCGACTGCGGTGGTTATGCAGGCGAGCAGAACAATCAGCGCGAAGACGATCTGGCCGGCGGTTCCGAGGGTGAGGTTGGAGGCGTCGGAAAGCAGTGCCGCACCGTTGTCGTACTGGGCGGGGTTGGGGATGATCCGCCCGATCGTGCCCAAACCGAGGTAGATCAGGGCGAGCAGCAGGCCCGCGCCGGCGCCGGCGTAGATGGTGCCACGCACCAGGGCAGGGCCTTCCTGGAAGCCGCGGAAGCGCAGCGTGGAGATCACCACAATGGAAAAGGCGAGTGCCGCGATAGAGTCCATGGTCAGGTAGCCCTGCAGCAGGCCTTCGGTGAACGGCCGCGCAGCGAACTCCACGGCCGGCTCGCTGGGAGAGGCGGTCCACTTCGTCAACGCGACGACGATCATGACAACCAAAAGGATGAGCAGCGCAGGGGTGAGGAATTTACCCAGCTTTTCCATGATCGTGTTCGGGTTCCACGACAGTGCGAGCGCGATGCCGAAGAAGATGATGTTGAAGATCGCGGAGGCGACGATCCCCTCAACACCGAACAGCGGGGTGATCGCTGTTTCCATGGACACGGCACCCGTGCGCGGCAGTGCGTAGAACGCACCAATCGACAGGTACGCCAGGATCGGGAAGACTACGCCGAAGACTGTGCCGGCGCGCTGCGCGAGGTCACGGACATTGGCGCCGGAAAGCGCAATGGCGATCACGGCAAGCAGCGGCAACAGTGCGCCGGTGCCCAAAAAGCCCAAGATCGCCGGCCAGAAGTTGTCGCCGGCTTGGACGGCAATCATCGGCGGGAAGATCAGGTTTCCGGCGCCGAAGAACATCGAGAACAAGGCGAGCGCAGTGACTACGATCGCGGTGGTTGA	MQRRPGNERGQNVGCPTQRNGGLDGRPDHGNPNRQEERPGEPGAGAEQWLDERDKDQRDGGRVQESDDRGGNCHDELESLGGDQCGHDCEDDCPRLVGAGELLGEVFSRGRDQADCGGYAGEQNNQREDDLAGGSEGEVGGVGKQCRTVVVLGGVGDDPPDRAQTEVDQGEQQARAGAGVDGATHQGRAFLEAAEAQRGDHHNGKGECRDRVHGQVALQQAFGERPRSELHGRLAGRGGPLRQRDDDHDNQKDEQRRGEEFTQLFHDRVRVPRQCERDAEEDDVEDRGGDDPLNTEQRGDRCFHGHGTRARQCVERTNRQVRQDREDYAEDCAGALREVTDIGAGKRNGDHGKQRQQCAGAQKAQDRRPEVVAGLDGNHRREDQVSGAEEHREQGERSDYDRGG				NA	NA	NA	NA	NA
AK009_09584	774	mak	COG3281	Maltokinase	GTGTTCCGCAAGCTGGAAAACGGCACCAACCCGGATGTGGAGCTGCTCAGCGCGATCGGCGACTGCCCGCACGTCGCCGGTGTGCGTGGCCACATCACCCGCGACGGTGCGACGCTGGCGATGCAGCAGCAGCTTATCGACGGCGGCGAGGACGGTTTCGACCTCGCCGTCGCGGACGCGCTCGGCGACGCCGGCGAGCTCGGCCACGCGATCGGCGCCGTGCACACCGCGCTGGCCCAGGCCTTCGGCACCTCCGAGGTCAGCGGAGAGACCCTCCGCGCCGCGCTCAACACCCACCTCGACGAGCTGGTTGTGCAGGCACCCCAGCTCAAAGAGTTCGAGTCGGCGATGCGCCAACTCTACGGCTCCATCGATGACGGCCCCCACGAAATTCAGCGCATCCACGGCGACCTGCACCTCGGGCAGACGATGAAGACGGTCAACGCGACAGAACCTCGCTTCTACCTCATCGACTTCGAGGGAGAACCCGCCCGGCCGCTGTCGCAGCGCCTCGCCCCCGATCACGCGCTTCGCGACGTCGCCGGCATGATCCGCTCCTTCGGCTACGCGCGCGGCATGGGCTCGCACAGCGCGGACTGGGAGAAGGGCAACGTCGCTGCGCTGATCGATGCTTACGGCGCCGCGGCCGACGACACCGTACTCGCTGCCTATGTGGTGGATAAGGCCGCCTACGAGGTCGTCTACGAAGCAAACAACCGTCCAGAGTGGGTCGACATCCCGCTTTCTGCCATCGCGGATCTGACCCAGAGCTAA	MFRKLENGTNPDVELLSAIGDCPHVAGVRGHITRDGATLAMQQQLIDGGEDGFDLAVADALGDAGELGHAIGAVHTALAQAFGTSEVSGETLRAALNTHLDELVVQAPQLKEFESAMRQLYGSIDDGPHEIQRIHGDLHLGQTMKTVNATEPRFYLIDFEGEPARPLSQRLAPDHALRDVAGMIRSFGYARGMGSHSADWEKGNVAALIDAYGAAADDTVLAAYVVDKAAYEVVYEANNRPEWVDIPLSAIADLTQS				NA	NA	NA	NA	NA
AK009_09585	393			hypothetical protein	GTGCAGGTAAGACAGCAGCGCGAGCTGACGCACGGCGGACAGGCCCGCCTCGGGCTCGTCGAGCAAGTACACCCCGTCGGGGATGAAGGCTTGGACCATCTCCAGGATGGATTCACCGTGCGACATGTGGTGCAGGTTTTTCACTCCCGGGCCGTCGCTGCCGAGCCTGGTTGCCTGGGCAAAGTGCATGTCCCCGCGCAGGAAGTAGCCCTGCTTGGGCCTCGTCGAGCATTCGACGCGCACCGCGTGAAAGAGCACGTCGCGCTCGCCGGGCAGCCCGTCGCCGTAGGCGCCGCCGGTTACGTCGAAGCCGTATCCGCGCGCAATGGCGTTGAGCAGCGTGGACTTGCCCACGCCGTTGTCGCCGGTGATCACCGTGATGGGGTGCGATAG	MQVRQQRELTHGGQARLGLVEQVHPVGDEGLDHLQDGFTVRHVVQVFHSRAVAAEPGCLGKVHVPAQEVALLGPRRAFDAHRVKEHVALAGQPVAVGAAGYVEAVSARNGVEQRGLAHAVVAGDHRDGVR				NA	NA	NA	NA	NA
AK009_09586	276			hypothetical protein	GTGGGTCGACATGAGGATCTGCGCGCCCGACGCTGCGAGGTGGTACACCATGCCGAGCAGCTCGAGCTGGGCGAACACGGACAACCCGTCCTCGGGCTCGTCGAGGATGAGCAGGGATTCCGGGCCGAAGCGGTTGCGGAAGATCTCCATCAGCCCCTGCCCGTGGCTGAGCCGGGTGATTTTAGAAAGCGGGTCGCCAGCAAGCGATGCGTGATATTCCGCAAGCTGCGCGTAGGTCTCACCGCGCAGGAAGTAGACGTCCTTGGGGTTTCGTGA	MGRHEDLRARRCEVVHHAEQLELGEHGQPVLGLVEDEQGFRAEAVAEDLHQPLPVAEPGDFRKRVASKRCVIFRKLRVGLTAQEVDVLGVS				NA	NA	NA	NA	NA
AK009_09587	1242			hypothetical protein	GTGCTCCCAGAGGGAGGAGACGGAGTTCGACACGCTGGAAAACCGCGCGTTGCGCGACCCGCCCTCCGGGTTGGCCCCCACCGCTGCCGCGATTGCCTCGATGAGGGTGGATTTCCCAGCGCCGTTCTCACCGGTGATGATGGTGATGGGGGTGGTCAGCTGCAAGGGGGCGTCGATAAGCGAGCGCACCACATCGAGCGAGGACAGGTAGCCGCCGGGCTCGCCGGCGATGCGTACCTTGTCCACAAACATGGGGCCCATTGTAGGGCGCGTGGCTTACTCGGCGTGCGGGACGATCACGGCGCGGCCGGAGATCTCGCCGTCCACCAGCGCCTGGTAGGCCTCGAGCGCTTTATCCAGCGGGTAGGTGGTCACCTGCGGCTCGATCTGGCCCGCCTTGTACATATCCACGACTTCGTGGAGCTCCTCGACGGTGCCCCAGTAGGTGTTCACCAGCTCCGCCTCGTACGGCGTGCTCAGAAACGCCCACTCGTAGGGCGATTGGTTGCCGATGCCGACGATGGTGACGCGTCCCTGGCGCGCCACCGAGCGCATCGCCGTGGTCACGGTCGCGCCGATGCCGACGAAGTCGAACGCGGCGTTGACGCCATTGCCGCCCGTGATCTCACGGATCCGCTCGACCTGGCCCTCGCCACCAGCAACGGGGATGGCGCCGCGCTTCTCAGCCTGTGCCATCGCGTCTTCCTTCATATCGGTGGCGATGATGGTGGCGCCGGTGAGTGCCTTAAGGATCTGCACGCCGATCAACCCCAGGCCGCCGAGGCCGATGACGAGCGCGTACTTTCCACCGCCGTTGAGGTGCGGCAAGGCGAGCTTGATGGCGTGGTAGGGCGTCAGCGCAGCGTCGGCAAGCGGCGCGGCGTTAATCGGGTCGGCGTCGCCGAGCGGCACGAGGTTGCGCGCCGGGACGACGACGTACTCGGCCATGCCGCCGTCGCGCCCGAGGCCGATTCCGGCGTAGTCCATTTCGGCCGCGTTCTCGCAGTAGGTGTCCTGGCCGCGGGTGCAGGCGCGGCAGATGCCGCAGCCAACGGGGCCGTAGACGAGGTAGGCGGCGCCGAGCTCGATGCCGGCAACGCCCTCGCCGAGCTCCTCGGCCCAGCCGGTGTTCTCGTGCCCAAGGGTGAATTCCGGGTCCATCTGCGGGTTAAGGCCCTCGTCGAACTCGTTGAAGATGGCCACGTCGGAGTGACAGGCTCCTGCGCCGGCGACCTTCAATAG	MLPEGGDGVRHAGKPRVARPALRVGPHRCRDCLDEGGFPSAVLTGDDGDGGGQLQGGVDKRAHHIERGQVAAGLAGDAYLVHKHGAHCRARGLLGVRDDHGAAGDLAVHQRLVGLERFIQRVGGHLRLDLARLVHIHDFVELLDGAPVGVHQLRLVRRAQKRPLVGRLVADADDGDASLARHRAHRRGHGRADADEVERGVDAIAARDLTDPLDLALATSNGDGAALLSLCHRVFLHIGGDDGGAGECLKDLHADQPQAAEADDERVLSTAVEVRQGELDGVVGRQRSVGKRRGVNRVGVAERHEVARRDDDVLGHAAVAPEADSGVVHFGRVLAVGVLAAGAGAADAAANGAVDEVGGAELDAGNALAELLGPAGVLVPKGEFRVHLRVKALVELVEDGHVGVTGSCAGDLQ				NA	NA	NA	NA	NA
AK009_09588	438			hypothetical protein	ATGTGGCGGACGGCTTTCATGTCTGGCTCCTGTCTGTGTTTGTGGACAAAATCTTTTGCCCACTTGCCAGGCTACCGAAAAACCGCAGGTGAAAGCGGTTGTTCTCAATGGCTGCCCCAGCCCGAAAACCTGTGGATAAGCGCCCATCGCGCACTCGCTTCAGGGCAGTTAGCTGCTTTTCAACGCTCTGTCAAACCAGCAGGTGGACGGGGTTATCCACTATTACCGCACTCCCGTAGCACGGTGAATATAAAACGTTTAACGTGCGCGTTTGGGAAGAAACCGCAGGATAGGCTGCGGTCTATCCACACGTTGTCCACAGGTGTTGTGCCTAGGTGTGGATCCCGACCCGTCCGACGGGTAGTTTGTGCACAGACCCTGTGGATAACTAAATGTCTGGGCCCGAACGCGGTCAGGGGCGTCGGAGGCGGCCTGTAA	MWRTAFMSGSCLCLWTKSFAHLPGYRKTAGESGCSQWLPQPENLWISAHRALASGQLAAFQRSVKPAGGRGYPLLPHSRSTVNIKRLTCAFGKKPQDRLRSIHTLSTGVVPRCGSRPVRRVVCAQTLWITKCLGPNAVRGVGGGL				NA	NA	NA	NA	NA
AK009_09589	183			hypothetical protein	GTGGGAGGGGAAGTAGAAGTCCTCGGCCCGCAGCTCGTTGGAGACTTCGATGATGGTGTCGGGGCTGAGCAGCATCGCGCCGATCACGCCGCGCTCGGCGCGCTCATCGTGCGGCGGCTGACGGTACTCGCGCAGGTCATCGCGCGAGCGGTTGAAGTTCGACCCGCCGCGGTAACGGCTTGA	MGGEVEVLGPQLVGDFDDGVGAEQHRADHAALGALIVRRLTVLAQVIARAVEVRPAAVTA				NA	NA	NA	NA	NA
AK009_09590	432			hypothetical protein	GTGCAAGCCGTTGGTCAGCTCGTCGAGGTCGATGAAGCCGGTGGGCACGCCCAGCTCCAGCCCGCCCCCGCTGGCGATCGAGGTCAGCTCGTCGATCGTCGGCTTCAGCAGGTCGGAGAGCACGCGATAGTCCGCGGAGGCTTCCTTGCGGGACACGTTGAAGATCTCCTGCTGGGCGCGGTCGACGAGGGCTTCGACCTCCATGCCCTCCTCGCCCTCGTAGCCGAGCTGGACGACGTTCGTACCAGCGTTGACCAGCTGCCGCAGCAGCGACTTCTCGGCGACAATTTCGGCATAGTAGCGGGCGTTCGCCGCCGTGGGCACCTCGGAGATCAAGGTGTGCAGGTAGGGTGCGCCGCCGACGCGCTCGAGCTGGTTGAGCCTGTCGAGCTGCCCCGCGACAATGAGGACGTCGACGTTGGCGCCGCCTGA	MQAVGQLVEVDEAGGHAQLQPAPAGDRGQLVDRRLQQVGEHAIVRGGFLAGHVEDLLLGAVDEGFDLHALLALVAELDDVRTSVDQLPQQRLLGDNFGIVAGVRRRGHLGDQGVQVGCAADALELVEPVELPRDNEDVDVGAA				NA	NA	NA	NA	NA
AK009_09591	288			hypothetical protein	GTGCTGCTGTTTCAACTTGCGGGCTTTGGTGCGGATCTCCATCATCGTCAGGTTCGGGGAGTCGTCGATAAACAGCGGGGCATCCTGGATCTCGGAAAGCCGGGTGGTCAGCTTCTCCCAGTGGGCTTCCTCCATCCGCCCGGAACGCATGGCGGCCAGCGGGATTTCGGTCTCCGCGGACAGCATGCGCATGATGATCTCGGAGGCGCTCATCTCCAGAGAGAAGATCACGGACGTCTTGCCCTGGTTGATCGAGCAGGAACGCATGAAGTCCAGCGCCAGGGTTGA	MLLFQLAGFGADLHHRQVRGVVDKQRGILDLGKPGGQLLPVGFLHPPGTHGGQRDFGLRGQHAHDDLGGAHLQREDHGRLALVDRAGTHEVQRQG				NA	NA	NA	NA	NA
AK009_09592	249			hypothetical protein	GTGCGCCACCGTGATCGTGGCAATCGGCCCGCCGCGGTGCTTGGCCACGATGATGTCGGCTTCGCCCTGGCGCTCGTCGTCAGGCGATTGCGAGTCGGGCCGGTAGAGCAGGAACACCATGTCCGCGTCCTGCTCGAGCGAGCCAGATTCGCGCAGGTCCGCGAGCTGGGGGCGCTTATCCGTGCGCGCCTCCGGGCCGCGGTTGAGCTGCGAGATCGCGATCACGGGGACCTCAAGTTCTTTTGCTAG	MRHRDRGNRPAAVLGHDDVGFALALVVRRLRVGPVEQEHHVRVLLERARFAQVRELGALIRARLRAAVELRDRDHGDLKFFC				NA	NA	NA	NA	NA
AK009_09593	534			hypothetical protein	GTGGCAGATCATCGCCGCCGGCTGCATGCTATCGTTCTTCAACCTCGGCGCTTGGGGCGCGCTCTACGCCATCGGCCCGGAGCTCTACCCCACGGCGGTACGCGCCACGGGCACCGGCGCAGGCGCCGCCTTCGGGCGCATCGGTTCAATCATTGCCCCCCTGATCGTTCCGCTGCTTTTAGATTTCCGCGGGCCGATCGCGGTGTTCAGCGTGTTCGCGGCGGCGTTTGCGATCGCGTGCGTCGCGGCTTTTACGCTGCCGGAGCAGCGCGGCCGAGCGTTGAACTAGCTGAACAGGCCCTTGAGACGCTTGCCCAGGCCACGGCGGCTCGGCACGGCCTCATCGAGCGCGTCGATGTCACGGGGCAAGTTGTAGAGCACCGTGGAGTTGCCGGTGTCGGCCACCGTGATGGCGTCGTCGAGGCTAGCGACCGTGCGCGCGCACGGTTCGGAGGCGTTGATGCGGCGCACAGTCATTGCTTTCTCCTTCGCGTGAGTTCTTCTTGTAGAACACTTGTAGGACTCCGAGAATAA	MADHRRRLHAIVLQPRRLGRALRHRPGALPHGGTRHGHRRRRRLRAHRFNHCPPDRSAAFRFPRADRGVQRVRGGVCDRVRRGFYAAGAARPSVELAEQALETLAQATAARHGLIERVDVTGQVVEHRGVAGVGHRDGVVEASDRARARFGGVDAAHSHCFLLRVSSSCRTLVGLRE				NA	NA	NA	NA	NA
AK009_09594	312			hypothetical protein	GTGCACCGTCTCCGGGGCGGTGGCGGGCGCGGTGTCGTAGTGTTCGGGCGTGGTCTGCGCTTCGAAAGACTGAACGGTAGCTTCCGCCTCGTCGTGGCGACCGCGCGACTCGAGGAACCGGACGGACTCTGGCAGGCCCAGGCGCACGACGATGGCGTAGACCGCGGGGACCGCGCCCAAGGCGAGGCCCCAGCGCCAGCCGTCTTCCCCGCGGGCGACGACGAAGGTGCCGATGATCGCTGCGGCGATCCAGCCCACGGCCCAGAAGGCCTCGAGCAACACCACCATGCGTCCGCGCACGCGCCGCGGTGA	MHRLRGGGGRGVVVFGRGLRFERLNGSFRLVVATARLEEPDGLWQAQAHDDGVDRGDRAQGEAPAPAVFPAGDDEGADDRCGDPAHGPEGLEQHHHASAHAPR				NA	NA	NA	NA	NA
AK009_09595	270			hypothetical protein	GTGCATGACGGTGATGTCGGAGGCCTCGATCGCCACGTCGGCCCCGGCGCCCATGGACAGGCCGAGGTCGGCTTGTGCGAGCGCCGCCGCGTCGTTGACGCCGTCGCCCACCATAGCCACGCGCCGGCCGGCGTCTTGGAGCTCCTTGACGGCGGTGACCTTGCCCTCTGGCATCACTCCGGCGGTCACGGAGCCGGGGGCGATGCCGACCTCCGCGGCCACGGCGCGGGCAGCGCCGGCGTTGTCACCGGTGAGCATGTGCGGCTCTAA	MHDGDVGGLDRHVGPGAHGQAEVGLCERRRVVDAVAHHSHAPAGVLELLDGGDLALWHHSGGHGAGGDADLRGHGAGSAGVVTGEHVRL				NA	NA	NA	NA	NA
AK009_09596	993			hypothetical protein	TTGCGCGGCGCGAAACGCCGGATCCAGGGTGCCCAGCGCGCTGGCGGGGCGTCCTACGCGCACGGTGCGGGCATCGATACGTGCGCTCACCCCGTACCCAGCCTCGTTGCTAAACGACGTCGCCACGGGCACGTTGCTGGCGGCGTCGACAATCGCGCGGGCGATGGGGTGCTCGGAGCCCGCCTCCACCGCCGCGGCGAGCGAGAGCACATCCGCTTCCTCCCACCCAGGTGCGGCGGTGACGCGGTCCAGCCCCATGTCGCCGGTGGTGATCGTGCCAGTTTTATCCAGCACGATGGTGTCCACCTGGCGGGTGGATTCCAACACCTCGGGGCCCTTGATCAGCAGGCCCAGCTGAGCACCGCGGCCGGTGCCGACGAGGATCGCCGTGGGCGTGGCCAGGCCGAGCGCGCAGGGGCAGGCGATGATGAGCACGGCCACCGCGGCGGTGAAGGCCTCCACCGTGTCGCGGCCGGCAACGAGGTGGGCGATCAGCGAGATCGCGGCGATGGCGATGACTGTGGGTACGAAGACGCGCGAGATGCGATCAACGAGCCGCTCGACCGGGGCCTTGCCGGCCTGGGCGTCGGTGACAAGCTTGGCGATGTGCGCGAGCGCCGTCTCCGAGCCGACGCGGGTCGCCTCGACGATGAGGCGCCCGGACGTGTTGAGGGTGGCCCCGGTGACGGCGTCGCCCTCGGCGACTTCAACGGGGACGGATTCGCCGGTGAGCATGGATTCGTCCACCGCCGAGCGCCCGGAAATGACCCGGCCGTCCGTGGGAATCTTCTCGCCGGGCCGGACCACGAAGCGGTCGCTGACGGCGAGCTGGTCGGCGGGGATACGCACCTCAGCGCCGTCTTTGAGCACGGCCGCTTCCTTTGCGCCCATGCTCAGAAGGTCGCGCAGCGCCTGCGAGGACCGCCCCTTCGCCCTGACCTCGAACCACCGCCCGAGCAGGAGGAACGTGATGACAACGCAGACGGTCTCTAA	MRGAKRRIQGAQRAGGASYAHGAGIDTCAHPVPSLVAKRRRHGHVAGGVDNRAGDGVLGARLHRRGEREHIRFLPPRCGGDAVQPHVAGGDRASFIQHDGVHLAGGFQHLGALDQQAQLSTAAGADEDRRGRGQAERAGAGDDEHGHRGGEGLHRVAAGNEVGDQRDRGDGDDCGYEDARDAINEPLDRGLAGLGVGDKLGDVRERRLRADAGRLDDEAPGRVEGGPGDGVALGDFNGDGFAGEHGFVHRRAPGNDPAVRGNLLAGPDHEAVADGELVGGDTHLSAVFEHGRFLCAHAQKVAQRLRGPPLRPDLEPPPEQEERDDNADGL				NA	NA	NA	NA	NA
AK009_09597	357			hypothetical protein	GTGCGCCTCGCCCGGAAGCAGGCTCATCTCCATGGTCATCCCGGGCTCGCCGGCGTTGCCGATGAAAAGCGCCCACACCGACCACAGGTACGCCGCCGAGGTGCCGAGCGTGATCAGCGTGTCCATTGTCGTCGTGCTGTGGCGCAGGTTGATCAGGGTGTTGCGGTGGAAGACCGCGCCACCTGCGAAAAACACCAGCGTTGTCGCGGCAAGCGCCGCCCACTGCCAGTTGAGAAACTGCCAGGCCGGGATCATGGAGACCAGCATCACCGGCAGCGAGATGATCGCGCACCAAATCACGGTAAACCGCAGCTGGGCCGCCGAGCGCTCGCGCGCGTCATCGCGGGCATCGCTTGA	MRLARKQAHLHGHPGLAGVADEKRPHRPQVRRRGAERDQRVHCRRAVAQVDQGVAVEDRATCEKHQRCRGKRRPLPVEKLPGRDHGDQHHRQRDDRAPNHGKPQLGRRALARVIAGIA				NA	NA	NA	NA	NA
AK009_09598	315			hypothetical protein	TTGTCTGAACGTGTCAGTTCACTTGGTTCCAACCCTAACAACCACGTCGGTATTCCCGGTTACCATGGCAGTCACGTAACACCGATGCAGGATCAGCGAAAGGATTTAAGAGCAATGGCAGTTCGCCAGTTCAACGTAGAGGGAATGACCTGTGGCCACTGCGAGGCCAGCGTTAAGGAAGAAGTGCTTGAGGTCGCCGGCGTCACCGGCGCCACGGTGGATCACACCACCGGGGTGCTCGAGGTGACGGGCGAGGGTTTTTCTGCGGAGGAGATCTCCAAGGCCGTCCACGAGGCCGGGTATTCGCTGGCCTAG	MSERVSSLGSNPNNHVGIPGYHGSHVTPMQDQRKDLRAMAVRQFNVEGMTCGHCEASVKEEVLEVAGVTGATVDHTTGVLEVTGEGFSAEEISKAVHEAGYSLA				NA	NA	NA	NA	NA
AK009_09599	438			hypothetical protein	GTGCGCTCGGGCTTGCAGGTGGCCGCTTGGCAGTTACGCCTGATTGTTGTTCTGCTCGGCGATCTGGCGGCGGACCTCGTCCATATCAAGAGCCTTCACCTGGCTGACAAGGTCCTCGAACGCTGCCGGGGGCAGAGCACCGGACTGGCGGAAGACCATGATGCCGTCACGAAACGCCATCAGGGTGGGGATCGCCTGGATCTCCAGCGCTGCCGCGATCTGCGGGTTTGCCTCAGTGTCCAGCTTGGCAAAGGTGGCGTCCGGGTGCGCCTCGGAAACCTTCTCGAAGGTCGGGGCGAACGCCTTGCAGGGCCCGCACCATTCCGCCCACGCGTCGACGATAACGGTTCCCTCAGCGGAAACAGTCTGCTCGAAAGTGTCCTCGGTGACGTCGATGGTTGCCATGAAAGTGTCTCCTTAAGAGGTTGGTTTGTCTGA	MRSGLQVAAWQLRLIVVLLGDLAADLVHIKSLHLADKVLERCRGQSTGLAEDHDAVTKRHQGGDRLDLQRCRDLRVCLSVQLGKGGVRVRLGNLLEGRGERLAGPAPFRPRVDDNGSLSGNSLLESVLGDVDGCHESVSLRGWFV				NA	NA	NA	NA	NA
AK009_09600	795		COG1842	35 kDa protein	ATGGCAAACCCGTTCAGCAAGGGCTGGAAGTACTTGATGCAGTCCTTCGACACCAAGATTGATGAGAACGCGGATCCGAAGGTCCAGATCCAGCAGGCCGTCGAGGGTGCGAAGAAGCAGCACGCGGAGCTGAGCCAGCACGCGGCGAACATTATCGGCAACCGCAACCAGCTGCAGATGAAGCTTGAACGCCTGCTCAAATCTCAGGAGGACCTGCAGCAGAAGGCGCGCACCGCGCTTCAGGCTGCGGACAAGGCATCCGCCGAGGGTGACGCCGAGAAGGCCCAGCAGTACAACGACACCGCGGAGGTCATCGCCTCCCAGCTGGTTTCCGTCGAGCAGGATCTGGAGCAGACGAAGCAGGCCCACGCCGCCGCCGAGCAGGCCGCGTCCGAGGCGCAGCAGAAGCAGAAGGAATCGGAGGCGCGGCTCCAGGAGCAGCTAGGACAGGTTTCGCAGCTTGAGTCGCAGCTGAACCAGGCGAAGATGCAGGAGCAGACCGTCTCCGCCATGGATTCGATGAACCAGTTCGGCGGCAGCGATAACGTGCCGACGCTCGATGGGGTGCGCGACAAGATTGAGCGTCGTTACGCGGACGCGCTCGGCGCCCAGGAGCTGGCGAAGGGCTCCATGACGGATCGCGTCGCGGAAATCGAATCCGCCGGCAGCGACATCGCCGCCTCCAGCCGTCTCGCAGAAATCCGCGCCTCTATGGGCACGCCGGAGATCGAGGCGCCAGCGGACGAAGTTGATGCCGAAAAGGGCGACGTCGAAAAGGGCGACGAGCCGAAATAG	MANPFSKGWKYLMQSFDTKIDENADPKVQIQQAVEGAKKQHAELSQHAANIIGNRNQLQMKLERLLKSQEDLQQKARTALQAADKASAEGDAEKAQQYNDTAEVIASQLVSVEQDLEQTKQAHAAAEQAASEAQQKQKESEARLQEQLGQVSQLESQLNQAKMQEQTVSAMDSMNQFGGSDNVPTLDGVRDKIERRYADALGAQELAKGSMTDRVAEIESAGSDIAASSRLAEIRASMGTPEIEAPADEVDAEKGDVEKGDEPK				NA	NA	NA	NA	NA
AK009_09601	963			hypothetical protein	GTGGGCTTTGTCGCGCTGCTCGGCGGAAGCGGCGTTGTCGTACCACCACGTCGCGTACTGTTGGCCCACCTCAAACGGCGTTTGGAACCCGGCGGACGTCCACACCTCCTCAGGGAGCGGGACGTAGCGCGACCGCAGCTTGCGACGTGGCGCCATCATCGACGGCTTCGGGGTGGGTTTCGGCGAGCTGCTCGCGACGTCGAGCGGCGACGGGCCGTCCGGCTGCCTGCGGCCACCGGGCTTGTTGGCCTCGTTGGTTGCCTCGACCTCGGCCTCGGAGGGCTCGTCGCAAGGGTCCGGTGCGGAGCGGTCGGTCGGCTCCTCGACTTCAGTGGCCGGCGTCTCCACCGGCTGTTCGACGGGTTTGGCCTGCTCTTCGGGCATCTCCTCGTCGTGTTGCAAGGGGTCTGGCGCGAATCCGGGGACGACCGTGGGGCCGAGGTCGCCGTCGATCGGCTCGGCGTCGTTAAGCGGGCGCTCACGGATGATGGGCGGCAACGGGCCCTCGAGGACCTGAAGCTGCATGGCGTCCGCGAAATCTTCGCGGGGATCGAGGATGGTTGTCGAGTCGCAGGAATGGCGCAGCGCGGTCGACATCGAATCCCAGCCGAACCCGTAGAGGTGCACGCGGACACCGAAGCCCGTCGCTTCCTCCACCCCCGGGATCATGTCCGCGTCGCCCGAAAGCAGGACGAAGTCCGTGAACTGCTGGCGAGAAGCGTTGACGACGAGGTCTGCGACGAGGCGCGTATCGACGCCCTTTTGCGTACGTCGCTCACCCCACTCGATGAGCTGCCCGGTCCGCAGTTGCACGCCATCGCATGTGCGCAGAGCGCGCTGGTAGCGGTGCGGGCCCGAATCGGGGATGCCGTCGTACCAGTATTGGCGGTGAATTGGTTGGTGGAGCTGGTGCGAGATCATGCCACCGAGGGTGGCCACCACCTCCGGGAGGTCGATTTCTAA	MGFVALLGGSGVVVPPRRVLLAHLKRRLEPGGRPHLLRERDVARPQLATWRHHRRLRGGFRRAARDVERRRAVRLPAATGLVGLVGCLDLGLGGLVARVRCGAVGRLLDFSGRRLHRLFDGFGLLFGHLLVVLQGVWRESGDDRGAEVAVDRLGVVKRALTDDGRQRALEDLKLHGVREIFAGIEDGCRVAGMAQRGRHRIPAEPVEVHADTEARRFLHPRDHVRVARKQDEVRELLARSVDDEVCDEARIDALLRTSLTPLDELPGPQLHAIACAQSALVAVRARIGDAVVPVLAVNWLVELVRDHATEGGHHLREVDF				NA	NA	NA	NA	NA
AK009_09602	375	ytrA_2	COG1725	HTH-type transcriptional repressor YtrA	GTGAACCTGGATATCGAGCCGCTTTACGCGCAGGTGGCCACCTTCATTCAAGACCTCATCATGGAGGGCTCTGTAAAGCCCGGACAGCGAGCGCCCTCTACCAACGAGCTCGCAACGTTTCACGAAATCAATCCCGCCACCGCGCGAAAAGGCTTGAGCTTGCTTGTCGACGACGGCGTGTTGGAGAAGCGACGGGGCATAGGAATGTTTGTCACTCCGCAGGCTCGGGAGGTGATCCTTGCGCAGCGTCGCGAGGGATTCGCCGGCGATTTCATCGCGCCCATGATTGATGAAGCGCTGCGCCTGGGGTACTCCGCCGACGACTTGAGAGACCTCGTTGGCCGCGTTGCTGCAAGCCGTGGCATGTATCGTTAA	MNLDIEPLYAQVATFIQDLIMEGSVKPGQRAPSTNELATFHEINPATARKGLSLLVDDGVLEKRRGIGMFVTPQAREVILAQRREGFAGDFIAPMIDEALRLGYSADDLRDLVGRVAASRGMYR				NA	NA	NA	NA	NA
AK009_09603	954			hypothetical protein	GTGGGCGTGCATGCCGGAGCCGTTGTCGCCAGCCAGGGGCTTCGGCATGAAGGTGGCAACCTTGCCGTACTGGTGGCAGGTGTTCTTGACGATGTACTTGAACGTCTGGAGGTCATCCGCGGCATGCAGGAGCGTGTCGAAGCGGTAGTTGATCTCGTTCTGGCCCCCGGAAGCAACCTCGTGGTGGAAGCGTTCCACATCGAAGCCGACCAGCTGCAGGTTCTTCACGATCGCGTCGCGTACCTCCTGGGTCTTGTCCACTGGGGTGTTAGGGAAGTAGCCGCCCTTGTTGCGAGTGGGGTTGCCCAGGTTCGGGGAGCCGTCGAGCATGTTCTCGTTGCCGCGGTTCCACCAGCCCTCGTCGGAATCGACGTGGTAGAAGGACGTGTTCGCCTCAGCGGCGTAGGACACCTTGTCGAAGATGAAGAACTCGGCCTCCATGCCGAAGGACGCGGAGTCAGCGATGCCGGTGGAGGCGAGGTACTCCTCGGCCTTCTTCGCCACGTTGCGCGGGTCGCGGGAGAACGGCTCGTAGGTGAACGGGTCGTGGACGAAGAACTTCATGTTCAGCGTCGGCACGTCGCGGAACGGGTCGCGGTGCGCGGTGGTGGGGTCCGGGAGCAGGACCATGTCCGACTCGTCGATGGTGGTGAAGCCTCGGATGGAGGAGCCGTCGAACGCCATTCCAGCCTTCGCTGCCTCCTCGTCGAAGGCAGACGCGGGCAGGGTGAAATGGTGCTCTGTGCCAGGGACGTCGGTAAAGCGGATGTCGAGGAATTCGATTCCCTCATCCTTGATGTACTTGACGACGTCGTCGGTGTTAGTGAAAGCCACTTGAGTCTCCTTGCTGTTAGAGGCTGTTTCGGCTGCGGGGATGGGAATCGGGCCCGCTGCAGCGCCTACTGGAATTTTAGTAAATATCTGTCGATGTATCGACAGGAACGCGCGAAGTGA	MGVHAGAVVASQGLRHEGGNLAVLVAGVLDDVLERLEVIRGMQERVEAVVDLVLAPGSNLVVEAFHIEADQLQVLHDRVAYLLGLVHWGVREVAALVASGVAQVRGAVEHVLVAAVPPALVGIDVVEGRVRLSGVGHLVEDEELGLHAEGRGVSDAGGGEVLLGLLRHVARVAGERLVGERVVDEELHVQRRHVAERVAVRGGGVREQDHVRLVDGGEASDGGAVERHSSLRCLLVEGRRGQGEMVLCARDVGKADVEEFDSLILDVLDDVVGVSESHLSLLAVRGCFGCGDGNRARCSAYWNFSKYLSMYRQERAK				NA	NA	NA	NA	NA
AK009_09604	1632			hypothetical protein	GTGTACGCATTTTTCCTAGATTCCGATGGGTGCCTTGGTCGGCTCGACCGGCGCAGGCAGCGCGGTCTCGCCCATGAGGTCCGCATCGACCGCGGCTGCGGCCGCCCGGCCTTCCGCGATCGCCCACACGATCAGCGACTGGCCGCGCCCGTTGTCGCCGGCGATGTAGACCTTCGGCCCGTCCTCCACCGTACGCGCCGCGCGGTAGGAACCGTCGCGGGTCATCCGGCCGCGATCATCGATCTCGATGCCGAGCTCAGCGTTGAGGCCGCTGGCCTGGGATCCGGTGAAGCCCAGAGCAATGAGCACGAGATCGGCCTCGATCTCGAAGTCGGTGCCCTCGACCGGGGTCCGGCGGCCGTCGATGACGCGCATTTCGTTGCCGCCGATGGACTCGACTTTGCCGTCGGTGCCGTGGAAGCTGACGGTGTTGACCGAGAAGAGGCGCTCGCCCAGGGTGTCGCCGGCGCCGCGGCGGGCGAGCCCGAGCTGCTCGATCTCAGCGGCCGACTCATCACCGGTGACGATGTACTCGCCCTCTTCGTGGGCGGTGGCGGTGCGGTACATCAGCGGGTACATCGGCCACGGGGTCGACGCGCCGCGCAGCTTCGGTGCGCGCGGACGGATGTCGAACTGCGTGACGCTGGCCGCGCCCTGGCGCAGTGCGGTACCGAAGCAGTCGGTGCCCGTGTCGCCGCCGCCGATGATGACGACGCGCTTGCCGCGCGCGTCGATGGTCGGGGCGTCGGTGTCGCCCTCGCAGAACTTGTTCGCGGCGGTGAGGTACTCCATCGCGAGGTGGATGCCCTCGAGCTCGCGGCCGTCGACGGGCAGGTCGCGGGCAACCGGGGTACCCGTGGCCAGCACGATCGCGTTGAAGCCGGCGAGGTCGGCGGCCGAGGGGGAGGTGCTCACCTTGAACTCGGTGCCTTCGGCGCGCATCTGCTCGATGCGCCGGTCGATGTGCTTTTTCTCCATCTTGTACTCGGGCACGCCGTAGCGCATCAACCCGCCGAGGCGGTCGTCGCGCTCGTAGACCGTCACGCGGTGGCCCGCCCGGGTCAGCTGCTGCGCCGCGGCGAGGCCCGCCGGGCCCGATCCAACCACGGCAACGGAGCGTCCCGTGTCAAAGCTGGCCTGGATCGGCTCGACCCAGTCATTCTCGAAGGCGACGTCGACGATCTTCTGCTCGATGTGCTTGATCGAGACCGGGTCGTCGTTGATGCCCAGCACGCAGGCACCCTCGCAGGGAGCCGGGCACAGACGGCCGGTGAAGTCCGGGAAGTTGTTGGTGGCGTGCAGCCGGTCATAGGCCTCCTGCCACCGGCCCTGGCGGACCAGGTCGTTCCACTCGGGGATGATGTTGCCGAGCGGGCACCCTTCGTGGCAGAAGGGGATGCCGCAGTCCATGCACCGGGCTGCCTGTTCCTTGTCGTGCTTCTCGCTCGTCTGCTCGTAGACCTCGCGGTAGTCCATCAGACGCAGCGGAACGGGGCGGTGCTTTGCTTCCTCGCGCGGGTAGCGCATAAATCCTTGTGGGTCGGCCATTATCTCACTGCCTCCATGATTGCCTCGGCCTCGTCGCGGCCGGTCCGGCGCGCGAGGTCAATGATGTCGAGAACTTTGCGGTAG	MYAFFLDSDGCLGRLDRRRQRGLAHEVRIDRGCGRPAFRDRPHDQRLAAPVVAGDVDLRPVLHRTRRAVGTVAGHPAAIIDLDAELSVEAAGLGSGEAQSNEHEIGLDLEVGALDRGPAAVDDAHFVAADGLDFAVGAVEADGVDREEALAQGVAGAAAGEPELLDLSGRLITGDDVLALFVGGGGAVHQRVHRPRGRRAAQLRCARTDVELRDAGRALAQCGTEAVGARVAAADDDDALAARVDGRGVGVALAELVRGGEVLHREVDALELAAVDGQVAGNRGTRGQHDRVEAGEVGGRGGGAHLELGAFGAHLLDAPVDVLFLHLVLGHAVAHQPAEAVVALVDRHAVARPGQLLRRGEARRARSNHGNGASRVKAGLDRLDPVILEGDVDDLLLDVLDRDRVVVDAQHAGTLAGSRAQTAGEVREVVGGVQPVIGLLPPALADQVVPLGDDVAERAPFVAEGDAAVHAPGCLFLVVLLARLLVDLAVVHQTQRNGAVLCFLARVAHKSLWVGHYLTASMIASASSRPVRRARSMMSRTLR				NA	NA	NA	NA	NA
AK009_09605	408			hypothetical protein	GTGGTCGGCGAAGATGCGGGTGAGGAACTCGATGTCCTCCTCATCCACACCGGAGATGTCCACCTGTCCGGGGTTGACCTTGCGGGCCAGGGTGGCCTCGTCGTCGATCGGCGCGAGGTAGGCGATGCCACCGGACATGCCGGCTCCGAAGTTGTCGCCGATCTCGCCGAGGACGACGACGCGTCCGCCGGTCATGTACTCGCAGCCGTGGTTGCCGATTCCGTGGACCACGGCCGTGGCGCCGGAGTTGCGCACGCAGAAGCGCTCGCCGGCCACGCCCGCGATGAACAGCTCGCCGGAGGTGGCGCCGAAGCCGGTGACGTTGCCGGCAATGATGTCCGGCTCGCCCAAATCCAGCTGCTGGGGGGCGTCAGCGGTCGGGCGTACGATGATGCGCCCACCGGATAG	MVGEDAGEELDVLLIHTGDVHLSGVDLAGQGGLVVDRREVGDATGHAGSEVVADLAEDDDASAGHVLAAVVADSVDHGRGAGVAHAEALAGHARDEQLAGGGAEAGDVAGNDVRLAQIQLLGGVSGRAYDDAPTG				NA	NA	NA	NA	NA
AK009_09606	1353			hypothetical protein	GTGGTCGAGCACGTCGTCGAGGAAGTGGTTCTGTGCGGTGGTGCACTTGCGAGCCTGGTCCGGGAAAAACTTGGAACGCGCAGTGGAGAAGATCGGGGAGAGATCGAGCTGGGCCGCACGCGGGTTATTCTCCACGAACTCGCGGTCCGTGCGCTGGCGCAGCAGGTCCGCGCGGCCGATCACCTCGTCGATCGAGCGGTAGCCGAGTTCGGCCAGGTACTCGCGGATCTCTTCGGCGATGAACATGAAGAAGTTGACCACGTGCTCCGCCCGGCCGGTGAACTTCTTGCGCAGTTCGGGGTTCTGCGTGGCGATGCCCACCGGGCAGGTGTCGAGGTGGCACACGCGCATCATGACGCAGCCCTCGACAACGAGCGGGGCGGTGGCGAAGCCGTACTCCTCGGCGCCGAGGAGTGCGGCGACCATCACGTCGCGGCCAGTCTTGAGCTGGCCATCGGCCTGGACGGTGATGCGGTCGCGCAGGCCGTTGAGCAGCAGGGTCTGCTGGGCCTCGGCAAGACCCAGCTCCCAGGGGCCGCCGGCGTGCTTGAGGCTGGTCAACGGGGAGGCGCCGGTGCCCCCGTCGTGGCCGGAGATGAGCACGACATCCGCGTGCGCCTTCGACACACCGGCCGCCACCGTGCCCACGCCCTGTTCGGCCACGAGCTTGACGTGGATGCGCGCGTCCGGGTTGACCGACTTGAGGTCGAAGATCAGCTGCGCGAGGTCCTCGATGGAGTAGATGTCGTGGTGCGGTGGCGGGGAGATCAGGCCCACGCCCGGTGTGGTGATGCGTACCTCGGCGATCCACGGGTAGACCTTGTTCGGCGGGAGCTGGCCACCCTCGCCCGGCTTGGCTCCCTGTGCCATCTTGATCTGGATGTCGGTGCAGTTGGACAGGTAGTGGCTGGTCACACCGAAGCGGCCGGAGGCAACCTGCTTGATCGCCGAGCGCTTCCAGTCGCCGTTAGGCTCGTACTCGAAACGGGCCGGGTCTTCGCCGCCCTCGCCGGAGTTGGACTTCGCACCCAGGCGGTTCATCGCAATCGCCAGAACCTCATGGGCCTCGGCCGAGATGGAGCCGTAGGACATCGCGCCGGTGGAGAAGCGCTTCACAATCTCGCTGGCCGGCTCGACCTCGTCGATCGGGATCGAGGGGCGATCGGAGACGAACTCCATCATGCCTCGCAGGGTGGCCAGGCGCTCGGACTGCTCGTCGACGGTGCGGGTGTAGTCCTTGAAGATCGCGTACTGTCCGGTCTTGGTCGCGTGCTGGAGCTTGAACACGGTCTCCGGGTTAAACAGGTGGTACTCGCCCTCGCGGCGCCACTTATACTCGCCGCCGATCTCTAG	MVEHVVEEVVLCGGALASLVREKLGTRSGEDRGEIELGRTRVILHELAVRALAQQVRAADHLVDRAVAEFGQVLADLFGDEHEEVDHVLRPAGELLAQFGVLRGDAHRAGVEVAHAHHDAALDNERGGGEAVLLGAEECGDHHVAASLELAIGLDGDAVAQAVEQQGLLGLGKTQLPGAAGVLEAGQRGGAGAPVVAGDEHDIRVRLRHTGRHRAHALFGHELDVDARVRVDRLEVEDQLREVLDGVDVVVRWRGDQAHARCGDAYLGDPRVDLVRRELATLARLGSLCHLDLDVGAVGQVVAGHTEAAGGNLLDRRALPVAVRLVLETGRVFAALAGVGLRTQAVHRNRQNLMGLGRDGAVGHRAGGEALHNLAGRLDLVDRDRGAIGDELHHASQGGQALGLLVDGAGVVLEDRVLSGLGRVLELEHGLRVKQVVLALAAPLILAADL				NA	NA	NA	NA	NA
AK009_09607	1446			hypothetical protein	GTGGCGGGCCTCGACGTCAGCTGCGACGTCGGCAAGCCCGATGCCGCCGATGGGGGAGGGCTCGGCGCCGAAGTAGTCGTCGAGAAGCTCCTGGCTCAAGCCGGTGATGTCCGCCAGGCGCGCGCCGCGGTAGCTGGCCACGGTGGCGATGCCCATCTTCGACATCACTTTGAGTACGCCGGTGGTGGCGGCCTTGACGTAGTTCGTGCACGCCTCATCGAGCGAGAGGTCACCAAGCTGGCCGTCCATGCGCAGCTCGTCGATGGTTTCGAAGGCCATGTACGGGTTGATCGCGTCGGCACCGAAGGCGATGAGCATCGCCAGGTGGTGGACCTCACGGGCGTCGCCGGATTCGATCACCAGCGAGGCGCGCGTCCGGGTGCGCTCGGCGACCATGTGCTGGTGCACCGCCGAGGTGAGCAGCAGCGACGGAATCGGCGCGAAGCGCTCATCCGACTCGCGATCGGAAATGATGATCAGGCCGATGCCGTCGTGGACTGCCTCGGAGACCTCGCGGCGCACACGGTCGATGGCCTCCTTCATCCCCTTGCCGTGGTGCGCCTTCGGGTACAGGCCCGAAATGACGCGGGAGGAGAAGTGCGGGAACTTCCCGTCGTCGTTGGCGTGCACCAGGGTGGTAAACGCGTGGTTGTCGATGATCGGGGAGTCCAGCTGGATGCGGGCGGCTGCCTCGGGCCCGGGGTTGAGCACGTCGGACTGGGGGCCGAGCAGCGTGTGCATCGAGGTCACGGGCTTCTCGCGGATGGAATCCAACGGCGGATTGGTGACCTGCGCAAAGCGCTGCGCGAAGAAGTCGAACAGCAGGCGCGGGCGCTGCGAGAGCGCCGCGATCGGGGTGTCGGAACCCATGGAGCCGAGCGCCTCGGCACCGGTCAGTGCCATCGGCTTGATCAGGACATCGACGTCTTCCTCGGTGATGCCGAACACGCGCTGGCGCAACACGGCGCGATCGTGCTTCATGTAGCTGGCGCGGGTCTGAGGGAGGTCCTTGAGCGGGGTGAAGTTCTGCTCAATCCACTCGCCATAGGGCGCCTTAGTGGCCAGCGCGTGTTTGATCTCCTCATCCGGGACGATCCGGCCAGCCTCGGTGTCCACCAGGAACATCCGGCCGGGGCGCACGCGCGTGCGCTTGACGATCTTTTCTGCCGGAATATCCACCACACCGGCCTCCGAGGCCATGATGACCAGGTCGTCGTCGGTGACCCAGATGCGGCCCGGGCGCAGCCCATTGCGGTCGAGCAGCGCGCCGATGTAGCGGGAGTCGGTGAACGCGACCGCCGCCGGGCCGTCCCAGGGCTCCATGAGGCAGGAATGGTAGGCGTAGAAGTCGCGCAGCTCGTCCGAGATCGTGGGGTTGTGCTCCCAAGCTTGCGGGATGAGCATGGCCATCGCGTGGGGCAGGCTGTATCCGCCCAGGGTGAGTAG	MAGLDVSCDVGKPDAADGGGLGAEVVVEKLLAQAGDVRQARAAVAGHGGDAHLRHHFEYAGGGGLDVVRARLIEREVTKLAVHAQLVDGFEGHVRVDRVGTEGDEHRQVVDLTGVAGFDHQRGARPGALGDHVLVHRRGEQQRRNRREALIRLAIGNDDQADAVVDCLGDLAAHTVDGLLHPLAVVRLRVQARNDAGGEVRELPVVVGVHQGGKRVVVDDRGVQLDAGGCLGPGVEHVGLGAEQRVHRGHGLLADGIQRRIGDLRKALREEVEQQARALRERRDRGVGTHGAERLGTGQCHRLDQDIDVFLGDAEHALAQHGAIVLHVAGAGLREVLERGEVLLNPLAIGRLSGQRVFDLLIRDDPASLGVHQEHPAGAHARALDDLFCRNIHHTGLRGHDDQVVVGDPDAARAQPIAVEQRADVAGVGERDRRRAVPGLHEAGMVGVEVAQLVRDRGVVLPSLRDEHGHRVGQAVSAQGE				NA	NA	NA	NA	NA
AK009_09608	699			hypothetical protein	GTGGGCCAGCGGCCACGACGGGAAGGTGTTGGTGGAGAACCTCGAGTGGACGAGTGCCAGCGCGGATACGACGCGCTCGTCGCACAGGTCCGGGTAGAAGGTGGGCAGCTGCGAGGCGGTGAGCATGCCCTTATAGACGATGGTGCGCGAGGACAGCGACGGGAAGTAGACGGTATCGCGCCCCTCGGTCTCACCGAGCTCGCGGGTCAGGCGCTTGCGCAGGAACCACATTATGCGGTCCAGCTCAATGCCGGACTTGCCCTCCGCGGTGAAGAAGGGCTGGAGGAAGTAGGGCATGGCGTCCAGGGCCATGTTTCCGACACCCTCCGAGTTCACAGGGATGTCGCGCCAGCCGAGGAGTTGCGCGCCCTCTTCATCTGCGATGGTCTCCACCGCGCGCATCGCGTCGAGCATGGCCATGCGCGTGGTGGGCATGAAGGCGATGCCTGTTGCGTAGTGGCCGGGCTCCGGAAGCGTGAAGCCGAGGTTGGCAGTGACCTCTCGGTAGAACGCATCCGGGATGTTGATCATGATGCCGGTACCGTCGCCGGTGTTTACTTCCGCGCCGGCGGCACCTCGGTGGTCGATGTTCTCAAGGACATCGAGGCCGTGTTCTACGATTGTACGGCTGGCGCGGCCCTTCATATCGGCCACGAAGCCGACGCCGCATGCGTCGTGCTCGTAGGCCGGGTTGTATAG	MGQRPRREGVGGEPRVDECQRGYDALVAQVRVEGGQLRGGEHALIDDGARGQRREVDGIAPLGLTELAGQALAQEPHYAVQLNAGLALRGEEGLEEVGHGVQGHVSDTLRVHRDVAPAEELRALFICDGLHRAHRVEHGHARGGHEGDACCVVAGLRKREAEVGSDLSVERIRDVDHDAGTVAGVYFRAGGTSVVDVLKDIEAVFYDCTAGAALHIGHEADAACVVLVGRVV				NA	NA	NA	NA	NA
AK009_09609	1650			hypothetical protein	ATGAAGATCGCCATCACCGGCGCATCGGGCAACGTCGGCACGGCCCTGCTGCGCGCACTGCACAAAGACAATGAAGTGACGGATATAATCGGAATTTCCCGGCGTATGCCCTCATCGAAGCAGGAGCCCTACGCGGGAGTGGAGTGGCACAGCATTGATATCGGCGCGGCAGCACCCGAAAATGAGGCCGTTTCCCAATTGACCGGCGCATTCACAGGTGCCGACACCGTCATCCACCTGGCTTGGATCATCTACCCCAACCACGACCGCGAGCTGCTGCGCCGAGTCAACGTCGAAGGCACCGAGCGTGTGCTCGACGCTGCGGCAGCCGCTGGGGTGAAGCACATCGTTGTCGCCTCTTCGATCGGGGCCTATAACAGTGACGACGCCCGCGGCAGCGTGCAGGACGCGCAGGACACCCCGCCGCTGCGCGGAGAGGACTTCCCGGCGCGAGGCATTGAGGGATCGCACTACAGCGAGGACAAGGGCGCTGTCGAGGCACTTCTTGACGCCTTCGAAACCACCCACCCGGACATCACTGTCGCCAGGCTGCGCCCCGGCCTGATCTTCCAGGCCGACGCCGCTTCCGAGGTCCAGCGCTTCTTCCTTGGTTCCGCGGCCCCGGTGGGAGTGCTGCGGAAAGCAAAGCTGCCCGCGCTTTTGCTTCCGAAGGGCATCCGCGCCCAGGCCGTTCACGCGGACGACATCGCCCAGGCGTACCTGCTGGCGGCGAAGAAGCGGGCTACCGGCGCATTTAATATCTGCGCCGATGACATCCTCTACCCGAAGGACTTCGCGAACCTGATCGATCACGGTCGTTTCGTTGAGCTGCCTCCGGCCGTCGTGCGCGCGGCGGCCACAGCTGCCCACCGCGCCGGGGCGCTTCCGGCCGATGCGGGGTGGATCGATATGGCAATGGGCGTGCCCATGATGGACAACTCCCGGGCGAAGCACGAACTCGGTTGGCAGCCGACGCGCAGCGCGAAAGACACGGTGCGCGAACTAATCGACGCCATGATCAACGGCTCCGGCCATAATTCACCGAGCCTGTGGGCCGAGGATTCCACCGACAAGGTTCTGCCGCAGCTCGGGGTGACCGCCGGGGAGACCGCACAGATGGCGCAGGAGACCGCCTCCCCGTCGAGTGAGGTTGATCTGGAGCTTCTGGAGCACTACCTAGCCAACCACCTCACCGGCGCACGCGGGGCGGTAGAGCGCCTCGACATGATGACGATGAACTACCAGGACACACCGGTGTTTGCCCAGATCGCCCGCGTGGCCCGTGAGATCCGAGCTGACCGGGACTTCCTCGAAATTCTGACGCGCAAGTTCGGTTTCAACCCCAAACCGGCGCAGGGAGCTCTTGCCTGGGCAGGGGAGCGGTTTGGCCGGCTCAAGCCGAACGGCCGGGTGGCGCAGCGCTCTCCCATGGCGCTGCTGCTGGAGGCGGAAATGATGCGCTCTGCCGTCGTGGGCAAGATCGGCGGATGGGAGGTCCTGCTTGATAATGCGGAGCACCTGGGCATCGACGCTGGGGTGTTTGAGGCGCTGATTGATGCTGCGCACGGGCAGCTCAGCCTCATCACCGAAGTCCACGAGTACGCCTCGGCCACGGCGTTCCGGGAGGACCGCGAGACCTACAAAGGCTAG	MKIAITGASGNVGTALLRALHKDNEVTDIIGISRRMPSSKQEPYAGVEWHSIDIGAAAPENEAVSQLTGAFTGADTVIHLAWIIYPNHDRELLRRVNVEGTERVLDAAAAAGVKHIVVASSIGAYNSDDARGSVQDAQDTPPLRGEDFPARGIEGSHYSEDKGAVEALLDAFETTHPDITVARLRPGLIFQADAASEVQRFFLGSAAPVGVLRKAKLPALLLPKGIRAQAVHADDIAQAYLLAAKKRATGAFNICADDILYPKDFANLIDHGRFVELPPAVVRAAATAAHRAGALPADAGWIDMAMGVPMMDNSRAKHELGWQPTRSAKDTVRELIDAMINGSGHNSPSLWAEDSTDKVLPQLGVTAGETAQMAQETASPSSEVDLELLEHYLANHLTGARGAVERLDMMTMNYQDTPVFAQIARVAREIRADRDFLEILTRKFGFNPKPAQGALAWAGERFGRLKPNGRVAQRSPMALLLEAEMMRSAVVGKIGGWEVLLDNAEHLGIDAGVFEALIDAAHGQLSLITEVHEYASATAFREDRETYKG				NA	NA	NA	NA	NA
AK009_09610	1923	katE_3	COG0753	Catalase HPII	TTGGGTGAGACCAGCCACTCGCTGCGCGCAGGTACGCGCGGTCCGCTGCTTATGCAGGACCACCACTTCCGCGAGAAGATCACCCACTTCGACCACGAGCGCATCCCCGAGCGCGTCGTCCACGCCCGCGGCGCCGCTGCGCACGGTGTTTTCCGATCTAACGGCAAGGCCTCGAAAATCTCCAAGGCAGGCCTGTTCGCCGAGGGCAAGGAAACCCCGGTTTTCTGGCGCTTCTCCACCGTGCTGGGCTCGCGCGGCTCCGCCGATAGTGTGCGCGACACCCGCGGCACGGCCATTAAGTTCTACACCGACGAAGGCACGTGGGACTTGGTGGGCAATAACATCCCGGTGTTCTTCATCCAGGACGCCATCAAGTTCCCTGACGTCATCCATGCCGCCAAGCCGCACCCAGACCGCGAGATCCCGCAGGCGCAGAGCGCACACGACACCTTCTGGGATTTTGTCGGCCAGCACACCGAAGCGACACACCACACCTTCTGGAACATGTCGGACCGCGGCATCCCGCGCTCCTACCGCATGATGGAGGCGTTCGGCATCCACACCTTCCGCTTCATTAACGAAGCCGGCGAGACCACGCTGGTGAAGTTCCACTTCAAGCCGCGCCTCGGCGTGCACTCCCAGGTGTGGGAGGAGGCGCAGATCGCCGCGGGTGTGGACCCCGACTTCCACCGCCGCGACCTCGCCGATGCCATTGAGGCCGGCGCGTTCCCCGAGTGGGACATGGGCGTGCAGATCTTCCCGGACAACCCGGACCAGATGTTTCAGGGCATTGACCTGCTCGACCCGACGAAGATTGTCCCCGAGGAGCTCGCCCCCGTCGAGATCATCGGCACCGTGACGCTGAACAAGAACCCAGGCAACTACTTCGAAGAGACCGAACAGGTCGCCTTCCACCCGGGCCACCTCGTACCGGGCATCGACGTGACCAATGATCCGCTGCTGCAGGGCCGCCTGTTCTCCTATCTGGACACGCAGATCAGCCGCCTCGGCGGGCCGAACTTCGGCCAGCTGCCGATCAACCGCCCCCACGCCCCGGTGAATGACATGCTGCGCGACGGCATGTACCAACAGGGCGCCCACACCGGCATCGCCCCGTACAAACCCAACACGCTCGACGCCGGCAACCCGACGGAGGCGAGTGTCGCCCAGGGCGCGTTCATTGACGTCCCCCAGCCCGTCGAAGGAGCCATCACGCGCGAGAACCCGGCCTCCTTCGAGGACCACTTTACGCAGCCGCGGATGTTCTACATGTCCCTGACTGACGTGGAAAAGCAACACCTGACCGAAGCATTCTCCTTTGAGCTGGGCAAGTGCTACGAGGAAGCCATCAAGCTGCGTTACCTCGACGTGCTCGCGCAGGTAGATCAGGACCTCGCCGAGGCCGTCGCCGACAACCTCGGCCTGCCGCACCCTGCCAAGGCCGAGGTGGCCAAGGTCGAGCCGTCGCCGGCGCTGTCCCAGCTGGGCAAAACATGGCCTATCGACGGCCGTCAGGTGGCCGTTCTGGTCAGCTCCGCGGGAGATCTCGATGGGCTGGACACGCTCGTCAACGAGCTCTTCGACGCAGGCGTGACACCGCTGATCGTCTCCGACAAGGGCGGCACGCTGCCCGTCGGTGGCACCGAGCTGCCGGTCTCGCGCACCTACCTCACCGCGCGCTCCATCGAGTTCGACGCTGCCGTGGTGATCAACCCGCCGGCCACGCCTGAGGTAGCCACGATGCTCGGCGAGTTTGATCGCCACAAGAAGGCGCTGGTCGTCGTGGGCAACAACGGCACGGCTGCGCTGGACGCGGCGCGCGTGCCGGCCGAGCAGCCCGGTATCGCCGCGGTTGACAACGCTGCCAAGGCCGCCGGCCCCGTCGGCGAGCTGCTCGCAGCGCACCGCGTCTGGGAGCGCTAA	MGETSHSLRAGTRGPLLMQDHHFREKITHFDHERIPERVVHARGAAAHGVFRSNGKASKISKAGLFAEGKETPVFWRFSTVLGSRGSADSVRDTRGTAIKFYTDEGTWDLVGNNIPVFFIQDAIKFPDVIHAAKPHPDREIPQAQSAHDTFWDFVGQHTEATHHTFWNMSDRGIPRSYRMMEAFGIHTFRFINEAGETTLVKFHFKPRLGVHSQVWEEAQIAAGVDPDFHRRDLADAIEAGAFPEWDMGVQIFPDNPDQMFQGIDLLDPTKIVPEELAPVEIIGTVTLNKNPGNYFEETEQVAFHPGHLVPGIDVTNDPLLQGRLFSYLDTQISRLGGPNFGQLPINRPHAPVNDMLRDGMYQQGAHTGIAPYKPNTLDAGNPTEASVAQGAFIDVPQPVEGAITRENPASFEDHFTQPRMFYMSLTDVEKQHLTEAFSFELGKCYEEAIKLRYLDVLAQVDQDLAEAVADNLGLPHPAKAEVAKVEPSPALSQLGKTWPIDGRQVAVLVSSAGDLDGLDTLVNELFDAGVTPLIVSDKGGTLPVGGTELPVSRTYLTARSIEFDAAVVINPPATPEVATMLGEFDRHKKALVVVGNNGTAALDAARVPAEQPGIAAVDNAAKAAGPVGELLAAHRVWER	PGPT0014380_907	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK009_09611	1272	tyrS_2	COG0162	Tyrosine--tRNA ligase	ATGTCAACGCATACGGACATCATCGCCGAACTCGAGTGGCGAGGGCTGATCAACCAGTCCACCGACTTGGACAATCTCCGCGAGGAGACGCGCAACCCGATCACGCTGTACTGCGGGTTCGACCCGACCGGGCCGTCGCTGCATGCGGGGCACCTCGTCCCGCTGCTCATGCTGCGCCGTTTCCAGATGGCGGGCCACCGGCCGATCGTCCTCGCCGGGGGAGCAACGGGCAAGATCGGCGACCCGCGCGACGTGGGCGAGCGCTCCATGAACTCGGATGACACGGTCGCCGATTGGGCGCAGCGCATCTCGGGGCAGCTGTCGCGCTTTGTCGATTTCGACGGCGATAACGGCGCGATGCTGGTCAACAACAATGACTGGACGGCCGACATGAGCGTGATCACGTTCCTACGCGACGTGGGCAAGCACTTCTCCCTATCGACCATGCTCAGCCGCGACACGGTAAAGCGGCGCCTGGAAAACGACGGCATTTCCTACACCGAATTCTCCTACATGCTCCTGCAGGCGAACGACTTCGTTCAACTGCGTCGCAACCACGACTGTGTTCTGCAGATCGGCGGCGGGGATCAGTGGGGGAACTTGGTCGGCGGTGTCGACCTCAACCGTCGGATGGACGGCGCGCAGGTGCACGCCCTGACGGTTCCTCTGGTGACGGACTCCGAAGGCAAGAAGTTTGGAAAGTCCACAGGCGGCGGTTCGCTCTGGCTCGATCCCGAGATGACCTCGCCGTACACCTGGTACCAGTACTTCGTGAACACGGCCGACGCCGACGTGATCCGCTACCTGCGGTGGTTCACCTTCCTCGACAAGGAAGAGCTTTCGCGCCTGGAGACCGAGGTTGCGGAGCGTCCGTTCAAGCGCGAGGCGCAGATCCGCCTGGCTCAAGAGATGACCGACCTCGTCCACGGACCGGAGGCGACGCGTGGAGCCGAGCTCGCGGCCCAGGCCCTGTTCGGGCGCGCTGACCTCCGCGAGCTTGACGAGCGAACCCTTGCATCGGCCGTCTCAGAGACGCAGGTGTACGAAACGCCCGCCGATGCCGGGGAAACAATCGTTGACCTGCTTGTTGGGGCGGGCCTCGCTGACTCCAAGGGAGCGGCGCGCCGCTCGATTAAGGAGGGCGGCGTGTACGCAAACAACGAACGCGTGGAGTCCGAGGACTTCGTCCCGGCGAGTGAGGATTTCCTCCACGGGCGCTGGCTTGTGCTGCGGCGAGGCAAGAAGAACTTCGCCGGCGTTAAGCGCGGCTAG	MSTHTDIIAELEWRGLINQSTDLDNLREETRNPITLYCGFDPTGPSLHAGHLVPLLMLRRFQMAGHRPIVLAGGATGKIGDPRDVGERSMNSDDTVADWAQRISGQLSRFVDFDGDNGAMLVNNNDWTADMSVITFLRDVGKHFSLSTMLSRDTVKRRLENDGISYTEFSYMLLQANDFVQLRRNHDCVLQIGGGDQWGNLVGGVDLNRRMDGAQVHALTVPLVTDSEGKKFGKSTGGGSLWLDPEMTSPYTWYQYFVNTADADVIRYLRWFTFLDKEELSRLETEVAERPFKREAQIRLAQEMTDLVHGPEATRGAELAAQALFGRADLRELDERTLASAVSETQVYETPADAGETIVDLLVGAGLADSKGAARRSIKEGGVYANNERVESEDFVPASEDFLHGRWLVLRRGKKNFAGVKRG				NA	NA	NA	NA	NA
AK009_09612	177			hypothetical protein	ATGAGTCTCGATCCCAAGCTTCTCGACGTCCTCGCGTGCCCGCAGGACAAGGGGCCACTCGTCTACAAGGACGCCGAGCAGCTGCTCGTCAACGAGCGGCTGGGGGTTGCCTATCGCATTGACGACGGCATCCCGGTCCTGCTTATCGACGAAGCCCAAACGTACCCGGCCCGCTAA	MSLDPKLLDVLACPQDKGPLVYKDAEQLLVNERLGVAYRIDDGIPVLLIDEAQTYPAR	PGPT0022380_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
AK009_09613	1242	argH_3	COG0165	Argininosuccinate lyase	ATGCTCGACGGTCTCGACGATCTCGGCCGCGACGTGGCCAACGGTTCGTTCGGGCCGCTGCCGACGGATGAGGATGTCCACGGCGCGATGGAGCGCGGCTTGATTGACCGCGTCGGGCCCGAGGTGGGCGGCCGCCTGCGCGCTGGACGCTCACGCAACGACCAGGTCGCGGCGATGTTCCGGATGTGGTGCCGCGACGCGGTTCGCGACATAGCGCTCGAGGTCGTAGACCTGATCAACGCGCTGAGTGACCAGGCAGCGGCTCACCCCGATGCCATCATGCCGGGCAAGACCCACTTCCAGGCGGCGCAGCCGATCCTGCTCGCGCACTCGCTGCTGGCTCACGCACAGCCCCTGCTGCGCGACCTCGAGCGCATCCGCGACCTGGACAAGCGCCTAGCTATCTCGCCCTACGGCTCGGGTGCTCTGGCGGGGTCCTCGCTCGCTCTGGATCCGGAGGCCGTTGCCAAGGAGCTTGGTTTCGCTGACGCGTGTGACAACTCGCTGGACGGGACGTCGTCACGCGATTTCGCCGCGGAGACCGCGTTCGTCTTGGCTCAGATCGCCGTTGACATCTCGCGCCTGTCGGAGGAGATCATCGCGTGGTCGACCCCGGAGTTTGGTTACGTCACGCTTGACGACGCCTGGTCCACCGGATCCTCCATCATGCCTCAGAAGAAGAACCCCGACGTCGCCGAGCTCGCGCGCGGCAAGTCCGGTCGCCTCATTGGCAACCTCGCCGGATTGATGGCGACGCTCAAGGCGATGCCGCTCGCGTACAACCGTGACCTGCAGGAAGACAAGGAGCCGGTGATCGACTCCGTGGCCCAGCTTCGGCTGCTATTGCCCGCGCTGACCGGGCTGGTGTCCACCCTGACCTTCCACGAGGAGCGGATGCGCGAGCTAGCGCCTGCCGGCTACACCCTCGCCACCGACCTGGCGGAGTGGATGGTGCGCCAGGGCGTGCCGTTCCGCGAGGCGCACGAGGCCTCCGGAGCGTGCGTTCGCCTTGCCGAGTCCAGGGGAGTGGGCCTCGATGAGCTGACGGATCAGGAGCTTGCGAGCGTCGACACGCGGCTTAAGCCCGAGGTCCGCGAGGTGCTGACCATCGACGGGGCGGTTGCCTCGCGCAGCACCCGCGGGGGAACAGCGAGGCCACGGGTGGAGGAGCAGCGGCAGCGAGTCGTCGACGCCGCGCGCGACCACCGCCAGTGGGCCCAGGCCCCAGTGCGCGACTTTTAA	MLDGLDDLGRDVANGSFGPLPTDEDVHGAMERGLIDRVGPEVGGRLRAGRSRNDQVAAMFRMWCRDAVRDIALEVVDLINALSDQAAAHPDAIMPGKTHFQAAQPILLAHSLLAHAQPLLRDLERIRDLDKRLAISPYGSGALAGSSLALDPEAVAKELGFADACDNSLDGTSSRDFAAETAFVLAQIAVDISRLSEEIIAWSTPEFGYVTLDDAWSTGSSIMPQKKNPDVAELARGKSGRLIGNLAGLMATLKAMPLAYNRDLQEDKEPVIDSVAQLRLLLPALTGLVSTLTFHEERMRELAPAGYTLATDLAEWMVRQGVPFREAHEASGACVRLAESRGVGLDELTDQELASVDTRLKPEVREVLTIDGAVASRSTRGGTARPRVEEQRQRVVDAARDHRQWAQAPVRDF	PGPT0014242_81	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
AK009_09614	1404			hypothetical protein	GTGGAGCACCTTGGCGTGCGCTTTCGATGCGAGAACGTCGTAGGGGGCGAGCACCCAGTCGAAGTGAGTGGACACCGAAAGCGCAAACATCGCATCCGACGGGCCGCCGGAGAACCGGCCTCCCCAGAGGGCACCCTCGTTGGTCTTGTGCTGCTGCATCAACGCGCGCTTCCCCTACTTCCCGGCTTCGCGGTCGCGCTTGTTGGCGATCTGCGAGGACAGCCCGTGCAGGCGGACGAAGCCCTTGGCCAGGGTCTGGTCGAAGGTGTCTCCGGTGTCGTAGGTGGCCAGGTTGAAATCGTAGAGCGAGTGGTTGGAACGTCGCCCGTTGACCGTTGCCGTGCCGGAGCTGAGCACCATGCGGATATCGCCGGTGACGTGCTCCTGGGTGGACTCGATAAACGCGTCCAGGGAGCGCTTCAGCGGGCCGAACCACAGGCCGTCGTAGACCTCCTCGGACCAGCGGGCGTCGATAAGCCGCTTGTAGCGCGCGAGCTCGCGCTCGACGGTGACGTCCTCAAGCGCCTTGTGGGCGGTGATCAGCGTCAGCGCGCCCGGCGCCTCGTAGACCTCGCGGGACTTGATGCCCACGAGGCGGTCCTCGACCATGTCGAGGCGGCCGATGCCCTGGGCGCCGGCGCGGCGGTTGAGCTCCTCGATGGCCTCGAGCACGGTGACCTGGCGGCCGTCGATGGCCACGGGCTTGCCGGACTCAAAGGAGATGATGACCTCGTCGGGGGCGTTGCCGATCGCCGGGTCCTCGGTGTAGGCGTAGAGGTCCTTGGTCGGCGGGTTCCACAGGTCCTCGAGGAAGCCGGTTTCCACCGCGCGGCCCCACACGTTCTGGTCGATGGAGAACGGCGACGCCGCGGACTGCTCGATCGGCAGGTCCTTGGCCTCGGCGTACTCAATCGCCTTGTCGCGGGTCCAGGCGTAGTCGCGCGCGGGTGCAACGATCTCCAGGTCCGGGTCCTGGTTGAGGAAGCCGACCTCGAAGCGAACCTGGTCGTTGCCCTTGCCGGTGCAGCCGTGGGCGACGTGGGTGCCGCCGTGCTGCTGCGCGGCCTCGACGAGGTGCTTCACAATCAGCGGCCGCGAGATTGCGGAAACCAGCGGGTACTCGTTCATGTACAGGCCGTTGGCCTTGATCGTCGGCAGGCAGTACTCGTCGGCGAACTCATCTTTGGCGTCAATCACGATCGACTCAGCCGCGCCACAGTCCAACGCGCGCTGGCGCACGGATTCCATGTCCTCGCCGCCCTGTCCGAGATCGAGGGCAACGGCGATGACCTCGCCGCCGATCATCTCACCGAGGTACGGGATGGCGACCGAGGTATCGAGGCCGCCCGAGTATGCGAGCACAACGCGGTTAGTCATGAGCTGAAATCTCCTTGTGATAGTTAA	MEHLGVRFRCENVVGGEHPVEVSGHRKRKHRIRRAAGEPASPEGTLVGLVLLHQRALPLLPGFAVALVGDLRGQPVQADEALGQGLVEGVSGVVGGQVEIVERVVGTSPVDRCRAGAEHHADIAGDVLLGGLDKRVQGALQRAEPQAVVDLLGPAGVDKPLVARELALDGDVLKRLVGGDQRQRARRLVDLAGLDAHEAVLDHVEAADALGAGAAVELLDGLEHGDLAAVDGHGLAGLKGDDDLVGGVADRRVLGVGVEVLGRRVPQVLEEAGFHRAAPHVLVDGERRRRGLLDRQVLGLGVLNRLVAGPGVVARGCNDLQVRVLVEEADLEANLVVALAGAAVGDVGAAVLLRGLDEVLHNQRPRDCGNQRVLVHVQAVGLDRRQAVLVGELIFGVNHDRLSRATVQRALAHGFHVLAALSEIEGNGDDLAADHLTEVRDGDRGIEAARVCEHNAVSHELKSPCDS				NA	NA	NA	NA	NA
AK009_09615	540			hypothetical protein	GTGATAGTTAAAGCTTTTTGTTTAGGTTACCCGCCGCCCTGCCAGGGGCGGCGCGGCGGGAGCCTAGATGGCTCCGCCGGGGATAAAGAGCATCTCTGCGAGGTCTTTGCCGGCCGCAGGTTCGCGGGCGAGAACGAAGATCGTGTCGTCTCCCGCGATGCTGCCGGCGACCTGTTCGAGGCCGACGCGGTCGATGTAGCTGGCCAGATACTGCGCGGCCCCCGGCGGGGTGCGCAGCACGGCCATCGGGCCGGAGTGGTCGACGGAGACGACGAGCTCTTCGATCATCCGCCGCAGCTTCTCGCGCGGGCCGGTGACGGTGTCGCCCAACGCGTCGTGAAGCGAGCTGACCACGTAGAACGCTCTACCACCGTCGGAGGGCCGGATCTTTCGGGCGCCGAGCTCGTCGAGGTCGCGAGACAGAGTGGCCTGGGTGATATCGATGCCTTCGTCGTTGAGCAGCTCCGAGAGCTGCACCTGCGAGAACACGCGGGCCGTGCCGAGGATCTCCATGATCCTGGCCTGGCGCGCGGTGCGTGA	MIVKAFCLGYPPPCQGRRGGSLDGSAGDKEHLCEVFAGRRFAGENEDRVVSRDAAGDLFEADAVDVAGQILRGPRRGAQHGHRAGVVDGDDELFDHPPQLLARAGDGVAQRVVKRADHVERSTTVGGPDLSGAELVEVARQSGLGDIDAFVVEQLRELHLREHAGRAEDLHDPGLARGA				NA	NA	NA	NA	NA
AK009_09616	939	argF_2	COG0078	Ornithine carbamoyltransferase	ATGACCCGACACTTCCTCGCCGACGACGACCTCACGCCCGCCGAGCAGGCGGAAGTGCTGGCACTCGCCGCGCAGCTCAAGCGCGAGCCTCTATCGCGGCGCCCGCTCGAGGGCCCGCTTTCGGTGGCCGTGCTGTTTGACAAGACGTCGACACGCACGCGCTTCTCCTTCGATGCGGGCATCGCGCAGCTTGGCGGGCACGCCATTGTCACCGAGACGGGCAGCTCGCAGATGGGCAAGGGCGAGACCTACCAGGACACCGCCGCTGTACTGTCGCGCTACGTCGAGGCGATCGTGTGGCGGACTTACGCCCACTCCAACCTGCTCGCGATGGCAGAGACGGCGACGGTTCCCATCGTCAACGCGCTATCCGACGACCTGCACCCGTGCCAGATCCTGGCCGATCTGCAAACCTGCATTGAAAACCTCTGCCCGGACGAGGGCGCGGCGGGCCTGCGCGGCAAGAAGGCCGTCTACCTCGGCGATGGCGACAACAACATGGCCAATTCCTACATGATTGGTTTCGCCACCGCCGGCATGGACATCGCGATTGTTGGGCCCGAAGGGTTCCTGCCGCGCCAGGAGTTCATCGACCGGGCGCAGACTCGCGCCGCCGAAACCGGGGCGACGGTGAGCATTACCTCGGATCTAGAGGCCGTCGCTGGGGCGGATGTCGTGATCACGGACACGTGGGTGTCCATGGGAATGGAAAACGACGGCAAGGACCGCCGTACCCCGTTCCTGCCGTACCAGGTCACCCAAGACGTGATGGATCGGGCGGGCGAGGGCGCGATCTTCCTGCACTGCCTGCCCGCGTACCGCGGCAACGAGGTCACGGCGGGGGTCATCGATGGTCCCGCCTCCCGCGTGTTCGACGAAGCAGAAAACCGGCTTCACGCGCAGAAAGCCCTGCTGGTGTGGTTGCTGGAGAACCAGTAA	MTRHFLADDDLTPAEQAEVLALAAQLKREPLSRRPLEGPLSVAVLFDKTSTRTRFSFDAGIAQLGGHAIVTETGSSQMGKGETYQDTAAVLSRYVEAIVWRTYAHSNLLAMAETATVPIVNALSDDLHPCQILADLQTCIENLCPDEGAAGLRGKKAVYLGDGDNNMANSYMIGFATAGMDIAIVGPEGFLPRQEFIDRAQTRAAETGATVSITSDLEAVAGADVVITDTWVSMGMENDGKDRRTPFLPYQVTQDVMDRAGEGAIFLHCLPAYRGNEVTAGVIDGPASRVFDEAENRLHAQKALLVWLLENQ	PGPT0020080_3159	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
AK009_09617	174			hypothetical protein	GTGCTCAAATCCGGCGGCGACCGTCTCCTTGGCGATCTCGCGCTCCAGCACGACGCCGAGCATCAGCCCCCGCCCGCGCACGGATTCCACGCCGTCGACGTCGGACACCAGCTCGCGCAGAAGCGCTCCTTTGCGCGCCACATCGGCGATGAAGGCGTCGTCCACGACGTCTAG	MLKSGGDRLLGDLALQHDAEHQPPPAHGFHAVDVGHQLAQKRSFARHIGDEGVVHDV				NA	NA	NA	NA	NA
AK009_09618	258			hypothetical protein	TTGAAACAGCGCCGCGGCCCGGCCGCGGGCGATGGTGGCGCCGATGGGCAGTCCCCCGCCCAGGCCCTTGGCCATGGTGATCACGTCGGGAACCACGCAGGCGTGCTCGAAGGCGAAGAACGTGCCCGTGCGGCCGACACCGGTCTGTACCTCATCGGTAACCATGAGGATGCCGTGGTCGTCGCAGAGCTCTCGCACGCCTTCGAGGAAGCCTTCGGGCGCGGGAATAACCCCCGTCTCGCCCTGCACCGGTTCTAA	MKQRRGPAAGDGGADGQSPAQALGHGDHVGNHAGVLEGEERARAADTGLYLIGNHEDAVVVAELSHAFEEAFGRGNNPRLALHRF				NA	NA	NA	NA	NA
AK009_09619	201			hypothetical protein	GTGGCCGAGGCTGGAGATTTGCCGGGTGACGGCGTCGATCACCGCGGGGTGGGCGTGGCCGAGCGCGTTGACGGCGATGCCGGCGAGCATGTCAATGTGGCTGCGGCCCGCGGCGTCGGTGACGACCGCGCCGCGTCCGGAGGCGAGCTCAATCGGCGGCGTGCCGTAGTTGTTCATCAGGGCGTCGCCCCAGTTGTCTAG	MAEAGDLPGDGVDHRGVGVAERVDGDAGEHVNVAAARGVGDDRAASGGELNRRRAVVVHQGVAPVV				NA	NA	NA	NA	NA
AK009_09620	921			hypothetical protein	TTGCACGTCCTTCCTGAAAACAGTGCCCGCGGGGTAGGTAGCGGCGTCGTAGTCGTTCGGCAGGACCATCGTGCCGATCCCGCCCATGGTCAGAAGCTCGAGAATCACCGAGTGCGCGATGCGCCCGTCGATGACGTGGGCGGCCTTGACTCCCCCGCGCACCGCCGTGATGCACGCCTGCATCTTCGGGATCATCCCGGAGTCGAGCCCGGGCATCAGCGCCTCCAAGTCGCCCAGCTCGAGCTTGGACACCAGCGAGTCCTTATTCGGCCAGTCGGTGTACAGGCCTTCGACGTTCGTGAGCACGACCAGGCGCTCCGCGCCGATCGCGGCGGCCAGCTCGCCGGCAGCTTCGTCGGCGTTGATGTTGTAGACGTTTCCGTCGTCACCCGGGGCGATGCCACTGACCACCGGGATGCGACCCGCCTCGACGATGTCCATCACGGCGGACGGGTCGACGTCGACAATCGTGCCCACCAGCCCGATGTCGAGCTGCTCGCCGTCGCGCTCGATGAAGCGCTTCTTGGCACGGAACAGGCCGGCGTCCTCGCCGGAGGTGCCCACGGCATAGGGGCCGTAGGAGTTGATCTTGCCCAGCAGGTCGCGCCCCACCTGGCCGAACAGCACCATACGGACCACGTCGAGGATCTCCGGAGTGGTGACGCGGAAGCCACCAACGAAGTCGCCTCCTTCCAGCCCGAGCCGGGCCAGCATGGCGGAGATCTGCGGGCCGCCGCCGTGGACCACCACGGGCTTCGCGCCGACGGTGCGCAGAAAGACCATGTCGGCGGCGAATGCGGCCTTGAGCGACTCGTCGATCATGGCGTTGCCGCCGTACTTGACCACCACGATTTTGTCGCGGTAGTGCTGAAGCCACGGCAGCGCCTCGGCGAGGACGTAGGCGCGATCAGCGTTGCTTAA	MHVLPENSARGVGSGVVVVRQDHRADPAHGQKLENHRVRDAPVDDVGGLDSPAHRRDARLHLRDHPGVEPGHQRLQVAQLELGHQRVLIRPVGVQAFDVREHDQALRADRGGQLAGSFVGVDVVDVSVVTRGDATDHRDATRLDDVHHGGRVDVDNRAHQPDVELLAVALDEALLGTEQAGVLAGGAHGIGAVGVDLAQQVAPHLAEQHHTDHVEDLRSGDAEATNEVASFQPEPGQHGGDLRAAAVDHHGLRADGAQKDHVGGECGLERLVDHGVAAVLDHHDFVAVVLKPRQRLGEDVGAISVA				NA	NA	NA	NA	NA
AK009_09621	516			hypothetical protein	TTGCTTAAGCTGCGGGTAGGTGACACGTTGTTGCCCCTCTTAGGTGCTGTATGCGGAGTTGATTTCGACGTAGGCGTGCGACAGGTCCGTCGTGCGCACGGTCGCGGTGCCGGGCCCGCCGGTGCCCAGGTCAACGCGCACGTCGACGTCAGGGCCGGAAAGATCCACCTCGCGCGCCCCTTGCGCACCCGTGGAGTCGACGCACACCGCCTGCGAGTTGAAGTAGACGGAGATGCGCTCCGGATCCATATCGGCCTCCGCCATTCCCACGGCGGCGAGGACGCGGCCCCAGTTCGGGTCGGAGCCGAACATGGCGCACTTGAACAGGTTGTCCCGGCCCAGCGTGCGCGCGGCGTTGAGCGCCTGCTCGTCGCTGGTGGTGCCCTCGACCGTGATGGTGACTCGCTTGGTCACGCCCTCGGCGTCGGCCTGCATCTGCGCGGCGATGGACTCGCATACTTCGAGCACCGCGGCGTCGAGCTTCTCCTGGCTGGGGGTGATCCCGCTGGCGCCTGA	MLKLRVGDTLLPLLGAVCGVDFDVGVRQVRRAHGRGAGPAGAQVNAHVDVRAGKIHLARPLRTRGVDAHRLRVEVDGDALRIHIGLRHSHGGEDAAPVRVGAEHGALEQVVPAQRARGVERLLVAGGALDRDGDSLGHALGVGLHLRGDGLAYFEHRGVELLLAGGDPAGA				NA	NA	NA	NA	NA
AK009_09622	426			hypothetical protein	GTGCGCGGCGAGCTGCTCGATGCCGGCGCGAATCTTGTCCATCGGGAGAAGGTCGCCGATCAGTCCGGTGGAGCACACCGCGACGTCGGCCGCGTCGATGCCGAGCGCACGGCCCACCAGCTCGGCCTCTTCCCTGGCGTCACGGTCGCCCTGCGGCCCGTTGCACGCGTTAGCGTTGCCGGAGTTGAACACAACGGCCTTGAGCATGCCGTCGGCCACGGCCTCGCGCGAGACCTTCACAGGCGAGGCGACGACGCGGTTGCGCGTGAACACGGCTGCAGCGCCGAACTCGGGGCCCTCGTTGATCACCAGTGCCATGTCGGGCTTGCCCGACGCCTTGATGCCGGCCGTGGTGGCCGTGGCGCGAAAACCGCGCGGGGTGGTTATTCCCGTAGTTGTCATGGTGGGGGTCGTTTCTTTCGTTAG	MRGELLDAGANLVHREKVADQSGGAHRDVGRVDAERTAHQLGLFPGVTVALRPVARVSVAGVEHNGLEHAVGHGLARDLHRRGDDAVAREHGCSAELGALVDHQCHVGLARRLDAGRGGRGAKTARGGYSRSCHGGGRFFR				NA	NA	NA	NA	NA
AK009_09623	555			hypothetical protein	TTGTCATGGTGGGGGTCGTTTCTTTCGTTAGGGCGCGACAGCAGCGGTTGGCAGCCCGGCTGCCTCGTCCCACCCCAGCGCGATGTTCATGCACTGCACGGCGGCGCCAGCAGTGCCCTTGGTCAGGTTGTCGATCGCCGAGGTGATCAGCAGCTTGCCGGCTGCCTCGTCCACCTCAACTTGGATGTGACACATGTTGGTGCCTACGACGTTCTGGGTCTGCGGCTGGATCCCGGCCGGCAGAACCCAGACGAACTGCTCGTCGGCGTAGAACTCCGTAAACGCCTCGTGGGCGGACTCCCTGGTCACGCCCTCGCGCAGCGGCGCCGTAATAGTGGTGAGGATTCCGCGCGGCAGCGGTGCGAGCACCGGGGTGAAGCTCACCCGCACGTCTTCACCCGTGACCTCCCGGATGTTCTGGGCGATCTCCGGGGTGTGGCGGTGCCGACCCGCGGTGTTGTACGCCTTGAGCGAGCCCATGGTTTCAGAGCCCAGCAGGGACACCGCGGCCTTCTTGCCCGCACCGGACACACCGGTGATGGACACGATGCTTAA	MSWWGSFLSLGRDSSGWQPGCLVPPQRDVHALHGGASSALGQVVDRRGDQQLAGCLVHLNLDVTHVGAYDVLGLRLDPGRQNPDELLVGVELRKRLVGGLPGHALAQRRRNSGEDSARQRCEHRGEAHPHVFTRDLPDVLGDLRGVAVPTRGVVRLERAHGFRAQQGHRGLLARTGHTGDGHDA				NA	NA	NA	NA	NA
AK009_09624	969			hypothetical protein	GTGGTCGTTGCCGTAGTACTTCACCCAATCGGCTTCGTTGGTCAGCCGGAAGTCAGCCGCGCAGTCGAGCACGAGCGTGTCCTCCGGCAACTGCGTTGCAATTTCGGCGGAGTAGCCGTGCGGCAGGGCGAGGAAGACAACGTCATGGCCTTCGAGGTTGTCCGGCGTGGTCTTCATGATCATGCGATCCGCCAAGGAGGGCAGGTTGGGCATGAGCGCCGAGACCTTCTGACCCGAGTTACTATTGGCGGTCAGCGCGCCAATCTCGAATTCACCGTTGTGGTAGGCGGGATGGTTGAGAAGAAGCCGGAGGATTTCCCCTCCGGCGTATCCCGTGGCACCTGCCACTGCTACTCTGTGTGTCATAGACGCAGAATAGCAAAATATGCGCTCGGCAGCAAATTATACACGCATCTGCGCGCCGAACCTCTGCTGCGCGACACCCGCCGCCGCGAGCCGCGCCTGCGAGGCCTCATCTTCGGTCAACGTGCGATCAGGGGCGCGGAACACCAAACCGAACGCGAGCGACTTCTTGCCCTCGCCGAGGTGCTCCGAGCGGTAGACGTCGAAAAGCTTCACGCTTTCCACAAGCTCGCCCGCACCCTCTTCGACCGCGCGGCGCACATCCTCGGCCGCCACGCCATCATCTACGACGAGCGCGATGTCCTGGTTCAACGCCGGGAAAGACGACAGCACGGGCGCCGGCAGCACCTCATCGAGCGGCAGGGCTGCCAGGTCAATCTCCATCGCGCACGTCCGCGCCGGCAGCTCGAGCGCCTCGAGGATCTCCGGGTGCAGCTCACCGGCAAAGCCGACGGTGACGTCCCCAACCTTCAGCGCAGCGCAGCGGCCCGGGTGCCACGGCAGCTCGGCCGCGGCCTCCACGCGCAGATCGACCCCGGCGGCGCGGGCCACGACGCGGGCGGACTCAATGGCGTCGGCCCACGTGTAGTCGCGGCCAGCGCCTAA	MVVAVVLHPIGFVGQPEVSRAVEHERVLRQLRCNFGGVAVRQGEEDNVMAFEVVRRGLHDHAIRQGGQVGHERRDLLTRVTIGGQRANLEFTVVVGGMVEKKPEDFPSGVSRGTCHCYSVCHRRRIAKYALGSKLYTHLRAEPLLRDTRRREPRLRGLIFGQRAIRGAEHQTERERLLALAEVLRAVDVEKLHAFHKLARTLFDRAAHILGRHAIIYDERDVLVQRRERRQHGRRQHLIERQGCQVNLHRARPRRQLERLEDLRVQLTGKADGDVPNLQRSAAARVPRQLGRGLHAQIDPGGAGHDAGGLNGVGPRVVAASA				NA	NA	NA	NA	NA
AK009_09625	1731			hypothetical protein	ATGCCGGCAAAGCTTAATGCCCCCGAAAGAGCACCGGAACCCGATCGATCTGAAGCGTCGAACCGCGTGGCAGTCTTCATCGACTACGAAAACGCTAGACGCAACGCCAGAGAAGCGTTCCTCCCTTTCAGTGCCCCCTCCCACGCGGGCGTTTTTGATCCCGTAGCATTGGCGAAACATATCGTCGGCTTGCGCAACTTCCCGTCGGAGCTCACGAAGGTGTACGTCTTCCGCGGACGTCCCAACCCGAAACACCAGCCGAAGGCTGCAAGTGGCTTCGACAAGTACGCCGCCAAGTGGGATCAATCTGAGTTGTGCGAAATCCGATCGCGTGACCTGAAATACCGCCTTTTTACCGACGGAACTTTCAGCGCACACGAAAAGGGCAGTGACGTGGACTTGGTGGTACAGGCGATAAAACACGCCGTCGCCAACGAGTACGACGTCATCATTATCATGTCGAACGATAGCGACTTGCTGCCCGCCGTGGAATTCATCTACCACGAGACACGCCCACGTCTCGAGGTAGCAGCGTGGGAGGCAGACGGACAGTATCCGCTCAATATCAACCGTGGCACAGCTAGGTCTCGAGCACCCTACTGTCACTACCTCGGGGAGAACGTCTTCCGTCACGTCCACGATGACGAACAAACCCCATGTACTAACCCCAAAACACCACACCCCCAACCCCAGGAACCAGAAACAAGGATCCGGGGCGGGAGTGTGGGCGTCGTGAAGCTATGCCTCGTCGGGGGAGATGCGCTTAATGGTCTCGCCGTCCTCGGCGGTGATGTCGAGGCCGTCGAGGTTGACGCCTTTGCCGGTGAGGTGGACGGCGTCGGAGCCGGTGGCGTGGACGCCGCCGTCGACAGCCAGAGAGGCGATCTTGCCGGCGACCTCGAGTGTGGCCACCTGGGAGCCGGTGGTCAGCAGCTTGCCGCCGATGCGCAGGTTGTCCACCTCGCCGAACTCCTTGACGGACAGGGCGATGGCCTGGAGGGTGACCTGCACGCCGCGGACCAGGCTGGAACCCTCGCCGCCGGCGGTGGTGACGTCGCCCTTGACCTCGAGGTGGGGCAGGGGCTTGGATACCTGGATGCCGAGGGAGCCGTCGCCGGTCGTGGCGATGCTGTGGAAGACGGCCTTATTGAGGGAGCCGTCGTAGAGGTTGAAGCCGCGGGCGCCGGAGCCGGTGGTGGTGAAGGGCGCCTGGACATCGAGAAGGTCGATGTCACCGAAGTTGACGAAGCCGATGCCGGAGGCGCCGTTGGAGGTCACGGCGTCCTTTGCGGTCCACGTCTTCACCGCACCCCAGTTGTCCAGGACCATGTCGTTCTGGCCGTAGGTGGTGACCTTGCCGGCGTTCTCCACGAGGTCGACGTCGGCGCCGGTGATGACGAAGACGCCACCGGAGATCAGGTCGGCGGCGCCGGCGGAGATGCCGCCGTCGGTGTAGATGTCACCGGTGCGCAGGGTGGTTACGTGGATGGTGCCGCCGTCGCGCTGGCCCTCCCAGTCGCCGTGGCCGCCGACGAAGATGCCGGAGCCGCGCACGGGTTCATCCTTGGTGCCCGTGGAGATGTCGAGCAGCTCCGCAGTCAGGTGAGCGCTGGTGTCGGGCTGCCGGTTCCACAGGGTGAAGCCGCCCTGCAGCGCGTCAACGCTGAAGCCGTGGGGGCGGTGGTAGCGGCCGCGGACGTCGGCGGTTTCCACACGGACGTTCTGAGCTGA	MPAKLNAPERAPEPDRSEASNRVAVFIDYENARRNAREAFLPFSAPSHAGVFDPVALAKHIVGLRNFPSELTKVYVFRGRPNPKHQPKAASGFDKYAAKWDQSELCEIRSRDLKYRLFTDGTFSAHEKGSDVDLVVQAIKHAVANEYDVIIIMSNDSDLLPAVEFIYHETRPRLEVAAWEADGQYPLNINRGTARSRAPYCHYLGENVFRHVHDDEQTPCTNPKTPHPQPQEPETRIRGGSVGVVKLCLVGGDALNGLAVLGGDVEAVEVDAFAGEVDGVGAGGVDAAVDSQRGDLAGDLECGHLGAGGQQLAADAQVVHLAELLDGQGDGLEGDLHAADQAGTLAAGGGDVALDLEVGQGLGYLDAEGAVAGRGDAVEDGLIEGAVVEVEAAGAGAGGGEGRLDIEKVDVTEVDEADAGGAVGGHGVLCGPRLHRTPVVQDHVVLAVGGDLAGVLHEVDVGAGDDEDATGDQVGGAGGDAAVGVDVTGAQGGYVDGAAVALALPVAVAADEDAGAAHGFILGARGDVEQLRSQVSAGVGLPVPQGEAALQRVNAEAVGAVVAAADVGGFHTDVLS				NA	NA	NA	NA	NA
AK009_09626	366			hypothetical protein	GTGCCCGGCGCACACCTTGTCCTCGGCGATCAGGGAGATCTGGCCGCGGGTGGTCACGTCCTTGAGGGCCAGGGTGCCGAATTCTTCGACGGTGGTGTCCAACAGAATGGCGGTTTCGGTGTCGGGAACCTTAATGGTCTCGCTCTCGAGGGTGTTGACCTTGGTCACGCGCACGCCGCGCGCGCCGAAGACGAGGGTGCCGCCGCGCAGGGTGGTGCCCTCCGGCAGGGTAATCATTGGGGAGCCGGAAATTTCCCCCGACAACCTCAATCACCGCGGCGCGGTCTTCGATGGCCTTCTTCAGTTCTTTTGCGTCCGTTACCTGCGTCGTTTCACTCATACTTCCGTTGTCCTCCGTTTTGGTGA	MPGAHLVLGDQGDLAAGGHVLEGQGAEFFDGGVQQNGGFGVGNLNGLALEGVDLGHAHAARAEDEGAAAQGGALRQGNHWGAGNFPRQPQSPRRGLRWPSSVLLRPLPASFHSYFRCPPFW				NA	NA	NA	NA	NA
AK009_09627	1095			hypothetical protein	GTGAGGCTGCCACAATTCTCAGGGGCTTGCCAGTCGCTTCAGGACGCCCTTCGCAGCCGCCCTGGCGAAAGGGCCCACACCCGTGATAGTCGCCGCACCCGGGCCGACCATGTCGCCGTAGCCGACCGGGAAGAACCCAGGGGCGTCGATAAGCGCGCGCAGCGGCGCGAGCGCAGGACGGAAACCCGTGCACCAGATGAGGTGGTCGGCATGAAGCTCGCCGAGGGAGGTGAACATCGGCGTGGCGGTGAGCCTGCCTTCGTCGCGGGCGCGACGCACGTGCGGGAGGACCACGATGTCACCGAGCGCGCGGTCCGCGCCCGGGTCCGGTTCGCCGCGGCCGACCGCGAGGGCGCGCGCCCGGTTGCGGTGGAACAGCACGCGACCGTCGACGTCATCCGGCATCCAGCGTGGCTCGCCGCGCGTGTACCAGGTGACCTCCGCAACGTCCGTCAGCTCCGCAGCGATCTGCGCACCCGAGTTCGCCCCGCCGACCACCGCCACGCGCGTGCTGCGGAAGGGCTCCACGCCCGGGTACGTCGCCGTATGCCACTGCCGACCGGCAAAGGTGCCGGGGTAGAAGGGGACGAAAGGCGCCGACCACGTGCCCGTGGCCGCGACCACCGCGTCCGCCGTGAAGGTGCCGCGCGTAGTGTTCAAGTAGAACCCGTTGTTGTGGCGGGTGGCTTTTGTAACGCGCACCGGGCGCTTCACCGGCAGGCCGTAACGCTTCTCGTACTCCGTGAAGTAGCTCACGACGTGCTCCGCGGGCGGAAAGCCCTCGTAGTGAGGCATCGGCCAGCCCGGCAGGTTGGAGAACTCGCTCGGCGAAAACAACGTCATCGATGGCCACACGTGGCGCCAGGCCCCTCCTGGCGCGGGCTGGTCATCCACGACGATGTAGTCCACACCCGCGCGACGCAAGTAAAACGCGGTAGCGAGCCCGGCCTGGCCACCGCCGATCACAACGGCCTCATGGTGCGCACGTTCACCCAATGTCCAGCACCCCCCGGAGCTCCCGGAACACCTCAGGGCGCACAGTATGAAACACGCTGCGGCCCTGTTGGTGACGGGAAAGCAAGCCCGCATCGGTGA	MRLPQFSGACQSLQDALRSRPGERAHTRDSRRTRADHVAVADREEPRGVDKRAQRRERRTETRAPDEVVGMKLAEGGEHRRGGEPAFVAGATHVREDHDVTERAVRARVRFAAADREGARPVAVEQHATVDVIRHPAWLAARVPGDLRNVRQLRSDLRTRVRPADHRHARAAEGLHARVRRRMPLPTGKGAGVEGDERRRPRARGRDHRVRREGAARSVQVEPVVVAGGFCNAHRALHRQAVTLLVLREVAHDVLRGRKALVVRHRPARQVGELARRKQRHRWPHVAPGPSWRGLVIHDDVVHTRATQVKRGSEPGLATADHNGLMVRTFTQCPAPPGAPGTPQGAQYETRCGPVGDGKASPHR				NA	NA	NA	NA	NA
AK009_09628	306			hypothetical protein	ATGAAACACGCTGCGGCCCTGTTGGTGACGGGAAAGCAAGCCCGCATCGGTGAGCTTTTTCAAATGGTGAGACACCGTTGGCTGGCTCAGGTCCAGGATATCCGCGAGTTCGCCGACCGTAGTGGGCCCGCAACCCTCGCCGGCGAGGTGGGACAAGATCTGGAGGCGCACCGGCTCGGCGAGCACCTTGAACAGCAAGGCGTACCGTGCCGCGTCGTGGTCGGAAAAGCGCCCCGTAGAAAGGGGGCAGCAGGTGGTTGTGGCGTCGGCAAGCACGGGCGAAGGCATAGGAACAGCATATATTGA	MKHAAALLVTGKQARIGELFQMVRHRWLAQVQDIREFADRSGPATLAGEVGQDLEAHRLGEHLEQQGVPCRVVVGKAPRRKGAAGGCGVGKHGRRHRNSIY				NA	NA	NA	NA	NA
AK009_09629	1119	acr3_3	COG0798	Arsenical-resistance protein Acr3	TTGACGGCAATCTATATTGGAAGTATATTTCCATCGATAGATGTCAATATGACCCGAAAGCGAGCCATGTCACTCCTCGATCGCCTCCTCCCCCTGTGGATCCTGCTCGCCATGGTCACAGGCCTTCTGCTTGGCCGCCTCATTCCCGGCCTCGACACCTTCCTCGATTCGATGAGCGTCGGCGGAATCTCTTTGCCCATCGCACTGGGACTTCTCATCATGATGTACCCGCCGCTGGCCAAAGTGCGCTACGACAAGACGAAGGAAATCGCCGCTAACAAGCGACTCATGGTGATCTCGCTTGTGTTGAACTGGATCGTCGGTCCCGCGCTGATGTTTGCGCTGGCCTGGATCTTCCTTCCCGACGCCCCCGAACTGCGCACCGGCCTGATCATCGTCGGCCTCGCGCGGTGTATCGCCATGGTGCTGGTGTGGACCGACCTGTCGTGCTCGGATCGGGAGGCCACCGCAGTCCTCGTGGCGATCAACTCACTCTTCCAGGTCCTCATGTTCGGTGTTCTCGGGTGGTTTTACCTGCAGATTCTTCCGTCCTGGCTCGGACTGCCCACCACAACGGTGAACTTCTCCTTCTGGGCGATTGTCGGTTCAGTCCTCGTCTTCCTCGGCATCCCGCTGCTCCTAGGCGCACTCTCGCGCGTGGTGGGGGAGCGGCTGCGCGGGCGAGCGTGGTACGAGAACACATTCCTGCCGGCGATCTCACCCCTCGCGCTTGTGGGTCTGCTCTACACAATCGTGCTGCTGTTTTCCCTACAGGGAGAGCAGATCACCTCCCAACCGCTCACCATCGCGCGCATGGCGGTGCCCCTGCTGATCTACTTCGTGGGCATGTTCTTTATCGCCCTGTTTGTTTCCAAGGCCGCGGGGCTGAACTACGCGCAATCCGGTGCCGTTTCTTTCACCGCCGCGGGCAACAACTTTGAGCTGGCCATCGCGGTCTCCATCGGCACCTTCGGCGCCGCCTCAGGTGAGGCGCTCGCCGGTACGATTGGACCCATGATCGAGATCCCGGTCCTCGTCGGACTCGTCTACACCATGCTCTGGCTTGGACCCCGCCTCTTTCCCAACGATCCCACTCTGCCCGAAAGGACCACCGCATGA	MTAIYIGSIFPSIDVNMTRKRAMSLLDRLLPLWILLAMVTGLLLGRLIPGLDTFLDSMSVGGISLPIALGLLIMMYPPLAKVRYDKTKEIAANKRLMVISLVLNWIVGPALMFALAWIFLPDAPELRTGLIIVGLARCIAMVLVWTDLSCSDREATAVLVAINSLFQVLMFGVLGWFYLQILPSWLGLPTTTVNFSFWAIVGSVLVFLGIPLLLGALSRVVGERLRGRAWYENTFLPAISPLALVGLLYTIVLLFSLQGEQITSQPLTIARMAVPLLIYFVGMFFIALFVSKAAGLNYAQSGAVSFTAAGNNFELAIAVSIGTFGAASGEALAGTIGPMIEIPVLVGLVYTMLWLGPRLFPNDPTLPERTTA	PGPT0004705_378	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
AK009_09630	417	arsC1	COG0394	Arsenate-mycothiol transferase ArsC1	ATGACATCCATACTGTTCGTCTGCGTCGGCAACGGCGGCAAATCTCAGATGGCGGCAGCACTCGCCGAGAAGTACGCCGCTGGCAGCCTGGACATCCACTCCGCCGGCACCAAGCCCGGCACCAAACTCAATTCGGAATCCGTCGAGGCTATCTCCGAGGTCGGTGCGGACATGTCCCAAGGCACTCCGAAACCCATCGACCCTGAGCTGCTATCCACCGTCGACCGGGTGGTTATCCTCGGCGAGGACGCGCAGCTAAACATGCCTGACGACGCCCAAGGCGCGCTCGAGCGCTGGGTCACCGACGAGCCTTCCCAGCGCGGCATCGAGGGAATGGAACGCATGCGACTAGTACGCGACGACATCGACGCGCGCGTGCGGGGTTTGCTTACTGAGCTTGGTGTTGGGGCGGAATAG	MTSILFVCVGNGGKSQMAAALAEKYAAGSLDIHSAGTKPGTKLNSESVEAISEVGADMSQGTPKPIDPELLSTVDRVVILGEDAQLNMPDDAQGALERWVTDEPSQRGIEGMERMRLVRDDIDARVRGLLTELGVGAE	PGPT0004725_128	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004725-arsC|arsenate_mycothiol_transferase-K18701	NA	NA
AK009_09631	1833			hypothetical protein	GTGGAGGCTGACACCAAACCGCTTAAGAGGATCATGTCCGTCGAAGGGAGGTACGTGATCCCCACTTTTCAGCGTGATTATGAATGGACAAAGGACGGGCAGTGGGAGCTCCTCTTTGAGGATCTTGACTCTTTAGCCGGCCGACTAGGATCCGCCAGGGCAGAAGCAGAAGCCACCGGTTCTTCACGAGCCAGGGCAGAAAAAAGTGTTGCCCCCCACTTTCTGGGTGCGGTGGTGTGTGACCAGCTTCCCTCTCCGACCGGTGGTCTCACTCTGTCAGCGGTTATTGATGGACAGCAGCGCCTGACGACTCTGCAGTTGCTTCTACGCGGGGTGCTCGACGTTCTACAGGAGACAGGATCTTCACGACTGCGGCAGGTCAAGCGCCTACTTGAAAATCCTGAAGATGTTATTGATCACGACCATGAGCGCTACAAGCTATGGCCCCGGCGAAAAGACCGCGACGTTTGGCCGGTGGCCATGTCTGATACCGTGCCGGCCTACGGCCCTGAGGACCATCTATATCTGCAAGCCCGCCAGTATTTTGCGGATTCCGTGCGTAACGCGTTAGTGGATGACCACGGGAGGGATCGTACTGATGATTTTGTTGATGCCTTACTTGATTTATTTAAGCTGGTGGTCATTGATTTGGACGATAATGACGACGCCCAGGTCATTTTCGAGGTTCTCAACGGTCGCCAAACTCCGCTATCCGCTTCGGATCTGGTTAAGAACCTCTTGTTCCTGCGCGGAGAATTAGCCGATGAACAGGAGCTTGACGAGCTCTATGACGCTTATTGGGCCGAGTTTGATGAGCCGTGGTGGAAGGGGAAGATTGGTGTCGGCCACGCAGCTCGTGCCCGACGCGATGTCCTTCTGTCCGTATGGCTAACTGCTGCTTCTGGGAAAGAAGCAAATGTGGGCCACCTTTATGGCGAGATCCGTCAGTTTCTGGCTGGGGGCAACTATAAAACTAAGGATATCTTGATGGAGCTGTCTGAGTACAGACAGGCCTACAAAGCCATCTACGGAGTCGCCGACGCGGGTTCGACCCGTCTAGCCCAGTCCTATCGCAACCTGGTGGCTCTCAAGCTACTGACCGCGGTCCCTCTGTTGGCATGGATGCGGACACTGCCCGCAAGCAGGTTGTCCCTCGCGGACCACGAAAAGGCTGTTGGGGCGGTGGAGTCCTGGGTAGTACGGCGAATGATGCGGGGAGACAATACCCGTGGTTATGGCGCAGCTTTCCAAGGCGTGCTTAAAAATGCACAAGCTGCTGCGTGTGATCCAGAAGCTGATATCGCTGCTACCGTCGTTGCGACTCTAATGGCGAGCCCCAACTCATTGGCCTGGCCTTCCGATGCCGAGATCACGTCAGCTTTCACTCAGGATCGTTTTTATGATCGGTTCACCCAGGAGCGTATCCGTCTCATCCTAGGTGCCATTGACATGCAGATGCGTTCCGAAAACCCGAAGACGGAACCAGCTGTATTCGACTATTCACGGTTGCAGATTGAACACCTTATGCCCCAAAGCTGGCAGACGCACTGGCCATTGCCATCGAGTGTGAATGAGAATTCCGCCCGGCGGGATCTCGCCAGCGCTGAACGCGCGCTGGCGGTGGATCGTATCGGCAACCTAACGTTAGTCACCTCCGCGTTCAACCAGGGTGTTTCAAATCTCGGGTGGGAGCAGAAGCGCCCTGAATTAGCTGCTCAATCCGCCCTACAGTTGAACATTCCTATTGCCGCTACCCAGCACTGGGATGAGGCGACGATCACTGCGCGAGGGGCTGACTTGGCGGAAATCGTCTGTAGGATTTGGCCCCGCTAG	MEADTKPLKRIMSVEGRYVIPTFQRDYEWTKDGQWELLFEDLDSLAGRLGSARAEAEATGSSRARAEKSVAPHFLGAVVCDQLPSPTGGLTLSAVIDGQQRLTTLQLLLRGVLDVLQETGSSRLRQVKRLLENPEDVIDHDHERYKLWPRRKDRDVWPVAMSDTVPAYGPEDHLYLQARQYFADSVRNALVDDHGRDRTDDFVDALLDLFKLVVIDLDDNDDAQVIFEVLNGRQTPLSASDLVKNLLFLRGELADEQELDELYDAYWAEFDEPWWKGKIGVGHAARARRDVLLSVWLTAASGKEANVGHLYGEIRQFLAGGNYKTKDILMELSEYRQAYKAIYGVADAGSTRLAQSYRNLVALKLLTAVPLLAWMRTLPASRLSLADHEKAVGAVESWVVRRMMRGDNTRGYGAAFQGVLKNAQAAACDPEADIAATVVATLMASPNSLAWPSDAEITSAFTQDRFYDRFTQERIRLILGAIDMQMRSENPKTEPAVFDYSRLQIEHLMPQSWQTHWPLPSSVNENSARRDLASAERALAVDRIGNLTLVTSAFNQGVSNLGWEQKRPELAAQSALQLNIPIAATQHWDEATITARGADLAEIVCRIWPR				NA	NA	NA	NA	NA
AK009_09632	300			hypothetical protein	TTGGTCGACGTCACACTGCATCCGGTAGTCCTGCCCGGTGACAGGACTGTGCGCGGTGACAGTCGCGGGCAAGATGTCCCTGACGTTGTCGTAGGTGGCGTTGAGACTGGAGGTAGCAGCGTTGAGGGTGGCCGTGGCGAATTCGCAGGAGGTATTGGCCCCAGCTGCGACGGTGTTGATGCCGAAGCCGTCCCCGAATACGCAGACCACGGCTGGCTCCCCGTTCACGGTGATCTTTCCGCCGATGTCCGTCTGAAGCTCGGTGATCGGCGGCGCGGCGGGCTTCGGGGTGCGGGCTGA	MVDVTLHPVVLPGDRTVRGDSRGQDVPDVVVGGVETGGSSVEGGRGEFAGGIGPSCDGVDAEAVPEYADHGWLPVHGDLSADVRLKLGDRRRGGLRGAG				NA	NA	NA	NA	NA
AK009_09633	624			hypothetical protein	GTGTTGCTGGTCTTCGCGGTCATCATCGTGCTCGTGGGCCTACCCGCCGTGCCCGCGCCGGGCGGCAGCAACGTCTCCCGGGTCCTGGGGTGGCCCGTCATCCGCGCCTGCCTCACGCTGCTCGCCGTAGGGACGGGTGTGATCGGGTTGTCTTTCATGATCGCGCTTCACGCTGGTTCGCTTTTCGACGCCCCACCTCTCACACGTGGCTTCATTGTGATGGCCGGCGGACTGACCGCGTTCGTGTTGGCGCGGCCTGTGGGCGGGCTGGCTGACCGCTTCGGCCCGCGCCCCGTCATGGTCGTCTCACTCCTCGTTGCGGCTGCGGCCGTGTTGGGTATCGCGTTCAGCCCGTCCATGCTGGTGCTGGCGGTGCTGTGGGGCGTCGCGGTGCTCGCGGCGCAGGGCGCGCAGGTTGCCGTGAACATGTTGGTGCTTGCCTCACCCGCTGGCGGGCAGCTCCTCTCCACCGTTCAGGCGTTCCGATTCTTCGGTAACGCGCTGACACCGCTAACAATGCTGCCTCTCTACGGCGTCACTCCGGTCCTTGGGTTTGGCGTTGACGCGCTGCTATTGGTGGCGGTGGCGGGGATTAACGCTGCCGCGGTGCGTCGCAAAGGCTAG	MLLVFAVIIVLVGLPAVPAPGGSNVSRVLGWPVIRACLTLLAVGTGVIGLSFMIALHAGSLFDAPPLTRGFIVMAGGLTAFVLARPVGGLADRFGPRPVMVVSLLVAAAAVLGIAFSPSMLVLAVLWGVAVLAAQGAQVAVNMLVLASPAGGQLLSTVQAFRFFGNALTPLTMLPLYGVTPVLGFGVDALLLVAVAGINAAAVRRKG				NA	NA	NA	NA	NA
AK009_09634	348			hypothetical protein	TTGCATCGCCGCGTACGTGCCCAGCGCCTTACCCAGCTGCTCCGGCGGAGTGATGTGGCGCAGGATGAGCTGCAGCAGGGGAGCGGTGAACGCGTTCGCGATACCCGCGGCGATATAGGCCGCGAGGAACAGCCACCACACCGGGGAGAACACCAGAACCACCGAGGCGCAGGCGATGACGACGTACGCGGTGCGCACCACCCGCGTGGGCTGGAGGTTTCTCACTATGTAGGTGGAAAAGAGCATAGTCACGGCGAACGGCAGCATGTACGCCGTCATCGTCAGCGAGGCCAGGTGCAGGGAGATGCCGAAGTCGGAGGCGAACTCAGGCAGGACCACCGACAGTGA	MHRRVRAQRLTQLLRRSDVAQDELQQGSGERVRDTRGDIGREEQPPHRGEHQNHRGAGDDDVRGAHHPRGLEVSHYVGGKEHSHGERQHVRRHRQRGQVQGDAEVGGELRQDHRQ				NA	NA	NA	NA	NA
AK009_09635	258			hypothetical protein	ATGGGGCAAGATTATGCCCCGCTGGCCGATTTCGCCCGCCGCGTAATCGGCCAGCAGAAAAGCTTAGGCGAAAGCCCCGATCCCGGTCATCTTCTCACCGAGGATCAACGTGTGCATCTCGTCGGTTCCCTCGTAGGTGCGCACGGATTCAAGATTCGCCGCGTGGCGCAGCGGGGAGTAGTCGTGGACGATGCCGTTGCCGCCGAAGATGGTCCTCGCCTCGCGGCAGATGTCGATGGCGGTGCGGCAGTTGGCTAG	MGQDYAPLADFARRVIGQQKSLGESPDPGHLLTEDQRVHLVGSLVGAHGFKIRRVAQRGVVVDDAVAAEDGPRLAADVDGGAAVG				NA	NA	NA	NA	NA
AK009_09636	210			hypothetical protein	GTGGAGAGCGAGCAGCTGCCCCTGGTTCAGCGCCACGGCCATCTCCACCAGCTTCTTTTGCGTCAACTGGAACGAGGAGATCGGCCGGCCGAACTGGGTGCGCTCACCGGCGTACGCGACCGCCTGCTCAAGGCTGTCGCGCGCGGCACCCAGCACGCCCCAGCAGATGCCGTAGCGGGCCTCGTTAAGGCACATGAGCGGGGCCTTTAA	MESEQLPLVQRHGHLHQLLLRQLERGDRPAELGALTGVRDRLLKAVARGTQHAPADAVAGLVKAHERGL				NA	NA	NA	NA	NA
AK009_09637	609			hypothetical protein	GTGCGACTGCGTGGACACGCGCATGGACAGCTTGTTGTCGATCGGCTGCGGGTTGAACCCCTGCACGCCCTTGGGCGCGAGGAATCCCGCGACCGTTTCCTCCCGGTCCGGCCTCGCCGCGCCTTCGTGGCCGGCCTCGATCAGGTCAGCGGTGCTCACCTTCGCCCACACCACAGTGATGTCGGCGAGGTGGGCGAGCCCGATCCAGCGCTTCTCACCGTTGAGCACCCAGCCCTCGCCCTTCTTCAGCTCGGCTCGGGTGATCATGGACGCGGGATCGGACCCAGCGGTCGGCTCGGTCAGACCAAAGGCGCCGATCAGCTCACCCGCGGCCATCTGCGGCAGGTACTTCTGCTTCTGCTCCTCGGTACCGTGCTTGTGAATAGAGGTCATCGCCAGCGAACCAAGCACAGACAAGATGGTACGCAGCCCCGAATCGGTGGCCTCAACCTCCATCATGGCCAAGCCGTATTCCACCGCGCTGCGCCCCGGGCAGCCGTAGCCCTCGAGGTGCGCGCCGATCATGCCCATCTCCGCGAAACGGGGGACGAGCTCGAGGGGGACGTAAGCGTCCTCGAACCACTGGCCCACGTGCGGTTTCACATTTGA	MRLRGHAHGQLVVDRLRVEPLHALGREESRDRFLPVRPRRAFVAGLDQVSGAHLRPHHSDVGEVGEPDPALLTVEHPALALLQLGSGDHGRGIGPSGRLGQTKGADQLTRGHLRQVLLLLLLGTVLVNRGHRQRTKHRQDGTQPRIGGLNLHHGQAVFHRAAPRAAVALEVRADHAHLRETGDELEGDVSVLEPLAHVRFHI				NA	NA	NA	NA	NA
AK009_09638	222			hypothetical protein	ATGAAATCATTCCAAACTCTTTCAGGCGTTGGAGTATTAGTCGGCCAAAGAATAGGAAGCACCGCGCTAAGTACGGTTAAGACAGTACCTGCAGGTGGGTTTACAAATTTAAGGATAGCTCCAGCTACTTTTAAAGCGGTACTAACTGAAGAAGAATTAATCGCAGCTGGATTAACGCCATACTGTTGGTTATTTTCACACATGGCTAGCCAATCTTTATAG	MKSFQTLSGVGVLVGQRIGSTALSTVKTVPAGGFTNLRIAPATFKAVLTEEELIAAGLTPYCWLFSHMASQSL				NA	NA	NA	NA	NA
AK009_09639	792	cyt2Ba1		Type-2Ba cytolytic delta-endotoxin	ATGCACCTTAATAATTTGAATAATTTTAATAATTTAGAAAACAATGGTGAATATCACTGTTCAGGACCTATTATTAAAAAACCGTTTAGGCATATTGCATTAACAGTTCCATCCAGTGATATAACTAATTTTAATGAAATTTTTTATGTAGAGCCACAATACATTGCTCAAGCAATTCGTTTAACAAATACATTTCAAGGAGCTATAGATCCACTTACCTTAAATTTCAATTTTGAAAAAGCTTTACAAATTGCAAATGGTCTTCCTAATGCAGGAGTTACAGGAACTATTAATCAAAGTGTAATTCATCAAACAATTGAAGTTTCAGTTATGATTAGTCAAATTAAAGAAATTATTAGAAGTGTGCTAGGGCTCGTTATCAATAGTGCTAATTTTTGGAACAGCGTAGTATCTGCTATTACAAATACATTTACAAATTTAGAACCTCAAGTAGATGAAAATTGGATTGTTTGGCGTAATTTATCAGCTACTCAAACAAGTTATTTTTATAAAATTTTATTTTCTATTCAAAATGAAGATACAGGTAGATTTATGGCAATATTGCCTATAGCATTTGAAATTACTGTGGATGTTCAAAAACAACAATTATTATTCATTACAATAAAAGATAGTGCACGATATGAAGTTAAAATGAAAGCTCTTACTGTAGTTCAAGCTTTAGATTCTTATAATGCACCCATTATAGATGTATTTAATGTTCGTAACTATAGCTTACATCGTCCAAATCATAATATTCTTCAAAATCTGAATGTTAATCCAATAAAATCGTAA	MHLNNLNNFNNLENNGEYHCSGPIIKKPFRHIALTVPSSDITNFNEIFYVEPQYIAQAIRLTNTFQGAIDPLTLNFNFEKALQIANGLPNAGVTGTINQSVIHQTIEVSVMISQIKEIIRSVLGLVINSANFWNSVVSAITNTFTNLEPQVDENWIVWRNLSATQTSYFYKILFSIQNEDTGRFMAILPIAFEITVDVQKQQLLFITIKDSARYEVKMKALTVVQALDSYNAPIIDVFNVRNYSLHRPNHNILQNLNVNPIKS				NA	NA	NA	NA	NA
AK009_09640	606			hypothetical protein	ATGATTAAAAGAAGCTTATATTACTGGGGAAGATTGTATACTTCTCAATTACAAAAGGGGATGCCTTATAGTTTTCTTCATCAAACAATCACGATTAATTTATTAAACTTTGAGATGTTTCCAAAACATGAAGCATTTCATACAACAGGAATCTTATGGAATCAGCAACAACAACAGGTATTAAGTGATGATATAGAAATTCATATTGTGGAGATTCCCAAGCTAATGCAGCAATGGCGTAATGAACAAATTAATCCTTGGGAAGACTCTTTTGTTCGCTGGTTATTATTACTCACAGCAAATGAAGATGAAAAATTAACCCAAACATTGGAGGATATTGCCATGAACCAAGATCCAATTTTACAAAAAGCAATGAATAAATGGGAACGTATGAGTCAAGATTCTTCTTTCCGCCAAGCGTATGCAGCGAGAGAAAAAGTTTTAATGGATGAAGCTGCAAAATTTGCTTATGCGGAGCAAACAGGTATCGAAAAAGGAAAAATGCAGCTTATTCGTGGTATGCATAAAAATGGAATGGCAATAGAAGATATTGCAAAATTTTCAGGATTAACAGAAATGGAGATGCGACGATTCTTACAAAATTAA	MIKRSLYYWGRLYTSQLQKGMPYSFLHQTITINLLNFEMFPKHEAFHTTGILWNQQQQQVLSDDIEIHIVEIPKLMQQWRNEQINPWEDSFVRWLLLLTANEDEKLTQTLEDIAMNQDPILQKAMNKWERMSQDSSFRQAYAAREKVLMDEAAKFAYAEQTGIEKGKMQLIRGMHKNGMAIEDIAKFSGLTEMEMRRFLQN				NA	NA	NA	NA	NA
AK009_09641	261			hypothetical protein	ATGTTCAACCAACAATTAGTTAATTTACGAATTGATTTTGCTTTTAAACAATTATTTGGTACAAGTGGAAATGAAGATATTCTGGTTGCTTTTTTAAATGCCATGTTACAAAATTCATTAGAATCATCAATTGTTTCTTTACAATTAGAAGATCCGTACTTACACCGGGAGCATGAAGAAGATAAATTATCAATTATCAATTTTAGATATTTCAGCGGCATTAGATACAGGAACAAAGGTAAATGTAGAAATACAGCTTAA	MFNQQLVNLRIDFAFKQLFGTSGNEDILVAFLNAMLQNSLESSIVSLQLEDPYLHREHEEDKLSIINFRYFSGIRYRNKGKCRNTA				NA	NA	NA	NA	NA
AK009_09642	312			hypothetical protein	ATGGGAATTCCAAATATTCCAGAAGGATTGGATATAACTCGTGAGCAGGCAATTAATATTATCTTAGCATCAATTGGATTAGAAGAATTAGGACTAGCCCACGTAATTAATGCAGAAGGTGAAAAGGTTCAAGCAGTTGTGACTGAATTTAAAAAGGGAAAAGTATCGCTTGATCAATTGTTGGCAACTAACGAGAGCACGGTAGATACTCTCAAAACAGTAATAAAAAAAGAAATGCTGTTACAGCTCAAACTAGAAGAAACTAAATCAATATTAAAGTTATGTAGTTGTAGAAAGTCATCCGATTATTAA	MGIPNIPEGLDITREQAINIILASIGLEELGLAHVINAEGEKVQAVVTEFKKGKVSLDQLLATNESTVDTLKTVIKKEMLLQLKLEETKSILKLCSCRKSSDY				NA	NA	NA	NA	NA
AK009_09643	816	cwlC	COG0860	Sporulation-specific N-acetylmuramoyl-L-alanine amidase	ATGGTTAAAGTTTGGTTAGATGCTGGACACGGTGCACATGATTCAGGTGCCGTTGGGCATTCCTTATTAGAAAAGAATATTGTGTTAGAACTTGCTTTATCTACATATGAATATTTAAATGAACATTATGACGATATCATAGTAGGTATGACTAGATTTAATGATACATTTAAAACTCTTCAAGAAAGATGCAATATGGCCAATCGGTTCGGCGCAGATATATTTGTCTCATTCCATTGTAATAGTGGTGCTACAAACGGTGTTCCCGGTAATGGATTTGAAACATTTCGTTTTCCTGGTACTACAGGTGATACACTACGTTTACAGCAAGTGACACACCATTCTATCTTTTCTTTTTATGCTAAACATGGACTTCGTAATCGAGGAATGAAGGAAGCTTCATTTGCCGTTTTAAGAGGAACAAACATGCCGGCTGTTCTAACAGAAAACTTATTCATGAATCATACTGAAATATTAAAATTTAATAATGCCACTTTTCTATATCATGTTGCTGAAGCACATGCACATGGTATCGCTGAATACTTTGGATTAAAGCCAAAAGTAGATAAAAATAAATTGGTACCCATTTATCAGATTCATCTCGGAGATTTTAACAGTATCGAATGGACTGCTGATACTTTGCGTAAAGTAAAAGAGATTTTTCCAGGCTATGGAGTTTGGACAAAATGCCTTGAAGGTAATGCACATCGCATCATACTGGGAGATTTTAGCGGTGAATCATGGGCTGACGATACTTTATCACAACTACAAGGAAATTTTCCAGACTATGGGGCTTGGAAAAAAAGATTAAATTAA	MVKVWLDAGHGAHDSGAVGHSLLEKNIVLELALSTYEYLNEHYDDIIVGMTRFNDTFKTLQERCNMANRFGADIFVSFHCNSGATNGVPGNGFETFRFPGTTGDTLRLQQVTHHSIFSFYAKHGLRNRGMKEASFAVLRGTNMPAVLTENLFMNHTEILKFNNATFLYHVAEAHAHGIAEYFGLKPKVDKNKLVPIYQIHLGDFNSIEWTADTLRKVKEIFPGYGVWTKCLEGNAHRIILGDFSGESWADDTLSQLQGNFPDYGAWKKRLN	PGPT0024160_5787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK009_09644	306			hypothetical protein	ATGGGGATGCCAACAATTCCAGAAGGTTTAGATATTACTAGAGACCAAGCAATTAATATTATTTTAGCTTCTATTGGATTAGAAGAATTAGGGCTAGCTCACGTAATTAATGCAGAGGGCGAAAAGGTGCAAGCAGTTGTGGCTGGATTTGAAAAAGAAACAGTTACCTTTGACCAATTATTAGCTACAAATGAAAGTGTAACCCAAACTCTTAAAACGGTAATAAAAAAGGAAATGTTATTACAATTTAAGTTAGAAGAAGCTAAATCGCTAATACAATCATCTTCGCCACCTTCTATTTCTTAG	MGMPTIPEGLDITRDQAINIILASIGLEELGLAHVINAEGEKVQAVVAGFEKETVTFDQLLATNESVTQTLKTVIKKEMLLQFKLEEAKSLIQSSSPPSIS				NA	NA	NA	NA	NA
AK009_09645	654			hypothetical protein	GTGCAGACCCGGGGTGATAAACGCCCAGATTTGGGTGAGCCAGATCGGCGAGGAGAGCACGATGCCGGCCAGCGCGCCCACCTTCAACCGCAACATGAACATCTCGAACGGTGTCGTCGCCAGCAGGCGGCACTGCCCGTCGCCGGTGAAATCAGCGCGCAGGTCTTCCGGCAGGTTGCAGTACGGGCCGCGGATGATCTCACCGAGCGGTGCCAGGCCGAATGGCGCGTTTTGGTACCAGATGAAGCCGATCACCGTTCCGACGAACAGCGCCGCCAAGGAGATGACCACTCGGCGCCGCAGCTCCTTGAGGTGCTCCATCAACGGCATGCTGCCGTCGGGGTTCTTCGCCTTCTTCCGCTTCGCCGGGCGCTTGCCGCCGGTTACGACACGAGCCACGACTACTTAGTTCTGCGGGCGGGGCTGGTTATCGGCGATCTGGGTCGCGCTCTGTGCTGCGCTCTGGGTCTCAGGAGCGGCCTGCGGGAGCTCGGCCTGGACGGGCGCGGGCTTGTCGTCGTTACGCATTTCGTTGACTTCGCTCTTGAAGATACGAGCGGAACGGCCCATCGAGCGGGCGAGATCCGGCAGCTTGTTCGCTCCGAAGAGCAGCAGGACGATCGCCAGGATAATGAGGATTTCCGGCCAACCTAA	MQTRGDKRPDLGEPDRRGEHDAGQRAHLQPQHEHLERCRRQQAALPVAGEISAQVFRQVAVRAADDLTERCQAEWRVLVPDEADHRSDEQRRQGDDHSAPQLLEVLHQRHAAVGVLRLLPLRRALAAGYDTSHDYLVLRAGLVIGDLGRALCCALGLRSGLRELGLDGRGLVVVTHFVDFALEDTSGTAHRAGEIRQLVRSEEQQDDRQDNEDFRPT				NA	NA	NA	NA	NA
AK009_09646	324			hypothetical protein	GTGAAGGCGTTGACATGCCCTCTACAGTACGTCTTTGAAGTGGTCCTCTTCAGGTGGGACGACGGGCGTGGCGCTGACGGGGGCTGGCTCGGCGATGGGGCCGGACGCCTCCTCGTCGTCAAGGTCCATCCACTCGGGTCGCTCGACCCTGCGGCGCTTGTCGTTGATGCGGCAGAACTGGAAGGCCAGCTCGACGAGCACCACCATCGCGACGGCCAGCGCGATCATCGAGAACGGGTCCTGGCCCGGGGTCATGAACGCGGCGAAGATGAACAGGCCGAGGATGATGATGCGGCGCTTGTCTTTGACGTGGTCGTAACGTAG	MKALTCPLQYVFEVVLFRWDDGRGADGGWLGDGAGRLLVVKVHPLGSLDPAALVVDAAELEGQLDEHHHRDGQRDHRERVLARGHERGEDEQAEDDDAALVFDVVVT				NA	NA	NA	NA	NA
AK009_09647	249			hypothetical protein	GTGCTCGGCGACGAGGTCGTGGTACTTCTGGTTGCTCAGCGCCTTGATCGGAGTGGTGTAGAAGCACTTCGTGCCGCGCGACAGGGCCAGCGACACGGCGAACTCCCCCACGATGGTCTTGCCGGAGCCCGTCGGCGCGCAGACGAGCACGCCGCGGTCCTGCTCTACGGCCTGGCAGGCCTTCACTTGGAAGTCATCGAGCTCGAAGCCCTGGTGAGCGCGAAACTCGTCGAAATGGGTCTGCGGTGA	MLGDEVVVLLVAQRLDRSGVEALRAARQGQRHGELPHDGLAGARRRADEHAAVLLYGLAGLHLEVIELEALVSAKLVEMGLR				NA	NA	NA	NA	NA
AK009_09648	1317			hypothetical protein	GTGGCGGTCGGTGAGCGCCGCGGCGCGGGCTTTTTTCTCCGCCTCGGTCAGCTCGCGGCGCAGCTGCAGGTAGTCGACCAAGTCCGCTGCGGGATCATCCGAGGGCGGGGCGAAGGAGGCGATGTCGCGCTCCAGCTGTTCGCGAAGCGAGCCCACCTTCGCGCGGAGCCGCTCGATCTCGCGCACCTCGCCGACGACGGAGCGATCGGTCTGGAACTGCGCAAACGACTGCTCCACCAGCCGGATCGAGGCGTCGAAGCCGTTCATCTTCAGCATGTTGATCGCCATGTTGTAGCCCGGGGTAAACGGCGAGATCAGCGGGTAGGTGCGTGTCGACGCCAGCCCCGCGACCTCGCGGGGATCCATCGCCGGCGCCCACTGCACCACCGCGTTGCCGATGGGGTCGATGCCGCGGCGCCCGGCTCGCCCCGTGAGCTGAGTGTATTGGCCCGGCGTGAGGTCGACGTGCGCCTCGCCGTTGAACTTGACCAGCTTCTCCAGCACCACGGTGCGCGCCGGCATGTTGATGCCCAGGGCGAGGGTTTCGGTGGCGAAGACGACGCGCACGAGTCCCTGGACGAACAGCTCCTCGACGATGTGCTTGAACGCGGGCAGAAGCCCGGCGTGGTGGGAGGCAAACCCGCGCATCCAGGCGGTGCGCAGCTGGCGGTAGTTGAGCACCTGCAGGTCCTCGTCGGGGATGCCCTTGATGCCCTTATCGACGATCTCCGCAATGCGCTCCTGCTCCTCCGGCGTGGTCAGCTCCTTGCGCGAGCGCAGGCACTGGAACAGGGCGCCGTCGCAACCGGCGCGGGAGAAGATGAACACGATCGCCGGGAGCATGTCGCGTCCCTGCAGCGCCGAGACGACCTCGGGGCGGCCGACGGGTTTGGTGCGGTCGACGGGGCGCTCGCGCCCGGAGCGTCGTCCAGCAGCGCGCGAGCGAAATCCCCTGCCCTCCTCGAAGTCGCGGCGGCCCTCCTCGGCGCGGCCGGACTCGATGCGCTCGATGGCGTACTCGAGGTCCCGGTTGACGCGGCCGTCGGTGCCCGGCTCGAACAGCGGGAACACCTTGCGCCCGACCATCATGTACTGGCTCAGCGGCACGGGGCGGTGCTCGGAGACGATCACCGCCGTGTCGCCGCGCACCGTGGCCAGCCATTCGCCGAACTCCTCGGAGTTCGACACCGTGGCCGAGAGGCCGATCACGCTGACGGAGTCGTCGAGGTTCAAGATGACCTCCTCCCACACGGCACCGCGGTCGCGGTCGGCGAGGTAGTGGATCTCGTCCATCACCACGTGCGAAAGCAGTGCTAG	MAVGERRGAGFFLRLGQLAAQLQVVDQVRCGIIRGRGEGGDVALQLFAKRAHLRAEPLDLAHLADDGAIGLELRKRLLHQPDRGVEAVHLQHVDRHVVARGKRRDQRVGACRRQPRDLAGIHRRRPLHHRVADGVDAAAPGSPRELSVLARREVDVRLAVELDQLLQHHGARRHVDAQGEGFGGEDDAHESLDEQLLDDVLERGQKPGVVGGKPAHPGGAQLAVVEHLQVLVGDALDALIDDLRNALLLLRRGQLLARAQALEQGAVATGAGEDEHDRREHVASLQRRDDLGAADGFGAVDGALAPGASSSSARAKSPALLEVAAALLGAAGLDALDGVLEVPVDAAVGARLEQREHLAPDHHVLAQRHGAVLGDDHRRVAAHRGQPFAELLGVRHRGREADHADGVVEVQDDLLPHGTAVAVGEVVDLVHHHVRKQC				NA	NA	NA	NA	NA
AK009_09649	795			hypothetical protein	GTGGCGCTGCTCGTCGGAGACGAGCTCGTTGTAGATGCGCATGGTTGCGTTCATCGCCACCGCCATCGGCTCCGTGGGCACCTCCGGCGAGCCGAAAATGGACTTGCGGTTTTCGAACACGCACATCGACGCCACGCCCGCGAGCTCGGCCGGGTCGAGCGAGTCCCACACACCGCGCTTGAGGCACTGCGCGACCAGCAGGTCCGCGACGCTGTGGATGGAGGCGAGGCGCTCGCCCTCCTCGGTCACCTCGGGCTCGCCGTCGACGATCTCGACGTAGTCCATCTCCGTGAGCAGCCCGATGATGCGCTCGAAGGTGCGGCCGAGCGAATCGGTGGAAGAATCGACCGCGCGCTGCATCTTCTCCAGGCGGCGCTGCTCGCGGACGAGCTCCTCGCCCACGCGCGCCAGCATCTCGCGGTCGGTCGCGGGCCAGGCGTGCACGGGGTGCTCGCGGATCGCCTCGCGCAGAGCCGTGACGCGTTTCGACGGCCGCACTCGCGCCTGCTCTTTCAGCTTGCGCGGCGACGTGAAGTTGCCGCGCTGAATCAGGCTGACGACCTTGCGCGCGTGGCGGCGCGGCTGGTCCGCGAGGTGGCGCGGGATTTTGACCCGGCCGACCACCACCGGCGTGTTGCGAAACGCCGAGGCGTCGATCCGTCCGGACCAGCCGCGCTCGGTGGTGACCCAGGGGCGCGGGTCGTCGTGCTTGCCGGCGGCCTGAACCACGGCGGCGAGCTCGGGCTTCTTCTTGCCGGGCAGGGCGATCACCTCGCCCACCTGCAGGCGGGCTAA	MALLVGDELVVDAHGCVHRHRHRLRGHLRRAENGLAVFEHAHRRHARELGRVERVPHTALEALRDQQVRDAVDGGEALALLGHLGLAVDDLDVVHLREQPDDALEGAAERIGGRIDRALHLLQAALLADELLAHARQHLAVGRGPGVHGVLADRLAQSRDAFRRPHSRLLFQLARRREVAALNQADDLARVAARLVREVARDFDPADHHRRVAKRRGVDPSGPAALGGDPGARVVVLAGGLNHGGELGLLLAGQGDHLAHLQAG				NA	NA	NA	NA	NA
AK009_09650	195			hypothetical protein	GTGACGGATCTCCGGGTTGTAGCCGGTCTTCACCACCTGCTCGAGCAGGTCAATGACCTGGCGGCACCAGCGCACGAAGTCACCCGGGGTGAGCTCCGCGCCGGACTCCGCCGCCGCGGCGAGGCAGTAGCCCAGCGGCGCGCCGGCCGTCCACTGGTGCACCGACAGGCTAAAGCTCGCGTCCGGCATGCGTGA	MTDLRVVAGLHHLLEQVNDLAAPAHEVTRGELRAGLRRRGEAVAQRRAGRPLVHRQAKARVRHA				NA	NA	NA	NA	NA
AK009_09651	231			hypothetical protein	GTGCTTGTCGACGCTCTCGCGCACGCGGTCGTCGATAAGCGACACCGTGGCCACACCCAAGTTGACGCCGAAGGGGTCGAGGATGAGCGACTGGACGGCGAAGACCTTGCCGTCGGCGATAACCGGCCCGCCCGAGTCGCCCTTGACGGCTGGGGTGGTGTTGAAAATCACGCCGGCGGGTTGGACGACGGTGCGCAGGTTGCGCGACAGCGCGAACGGCAGGGTGCTTAA	MLVDALAHAVVDKRHRGHTQVDAEGVEDERLDGEDLAVGDNRPARVALDGWGGVENHAGGLDDGAQVARQRERQGA				NA	NA	NA	NA	NA
AK009_09652	321			hypothetical protein	GTGGCTCAGCTTCCCGCCGAACCCGAAGGTCGCGGTGTGCGCGAAGGCGGGCGGCGCGGTTCCGAGGGTGGGGAAGACGGTGTCATCGTCCACACGGACCTTGGAGACGGTAGCGAGCGCGATGTCGGTCCCGGCGATCACCTCGAGGTCTTTGACCCTGCGGCGAGTGCCGGCGACGTAGACGTTGACCAGGCGATCCACGCCACGGAAGAAGTGGGCGCAGGTGAGCACCGTCGTCGGCGAGAGCAGCACCCCGGAGCAGTATCCGCCGGGGTGGGCAAGCCTGGCTACGAGGTGAGTACGCACGAGCGCCGAGTGTAG	MAQLPAEPEGRGVREGGRRGSEGGEDGVIVHTDLGDGSERDVGPGDHLEVFDPAASAGDVDVDQAIHATEEVGAGEHRRRREQHPGAVSAGVGKPGYEVSTHERRV				NA	NA	NA	NA	NA
AK009_09653	693			hypothetical protein	ATGGCTCTACCCCAACGTCCTTGGCTGGCGGTTGAGCTGCTCGCAGCCGTCAGCGGTGACCACGACGATGTCCTCGATGCGCATCCCCCACTGCCCCGCCACGTAGATGCCGGGCTCGACGGAAAACGCCATGTTCTCCCGGATCACCTGGTCGTTGCCACCAACGATGTAGGGCGGCTCGTGGGTGTCAAGCCCGATGCCGTGGCCCGTGCGGTGGAAGAAGTGCTCGCCGTACCCCGCATCCGTGATCACGCGCCGCGCGGCCGCGTCGATCTCGTGTGCGGCCACGCCGGGGCGCACCGCCGCAATGGCGGCGTCGAAGGCCTCCTGGAGAACGGCGTAGGCGGCGTCGAACGCGTCATCGCGCTCCCCCGGCACCTGGTAGGTGCGGGTGCAGTCGGAGCGGTACCCGGAGGCGAACGCGCCGCCGATGTCGACGACGACCGGGTCGCCCGGCTCCAGCACGCGCGAGGAGAAGTCGTGGTGGGGGTTTGCCCCGTTGAGCCCGGAGCCGACGATGACGAAATCGACGCTGGCGTGCTCCGCGGCAATGAGCCGCTCAAGCTCCGCCGCGACCTCCTGCTCCGTGCGCCCCGGGGCGAGGAGCTCGGGCACGCGGGCGTGGACGCGGTCGATGGCTTCGGCGGCGGCGCGCAGCTGCGCGACCTCGCCGGGTTCCTTGACCATAAATAG	MALPQRPWLAVELLAAVSGDHDDVLDAHPPLPRHVDAGLDGKRHVLPDHLVVATNDVGRLVGVKPDAVARAVEEVLAVPRIRDHAPRGRVDLVCGHAGAHRRNGGVEGLLENGVGGVERVIALPRHLVGAGAVGAVPGGERAADVDDDRVARLQHARGEVVVGVCPVEPGADDDEIDAGVLRGNEPLKLRRDLLLRAPRGEELGHAGVDAVDGFGGGAQLRDLAGFLDHK				NA	NA	NA	NA	NA
AK009_09654	531			hypothetical protein	GTGCAGCCTGTCGGTCAGGCCCTGGCAGAAAAAGTCGAGACCCGCCTTGGTGGAGCCGTAGACGTAGTTCGCGCGCCGCGCCCGCCAGCCGGCGATGGAGGAAAACGCGAAGATCTCGCCGCGCGTCATGACGTCGGTAAGCACGGTCAGCGCGTTGACCTGCGCGAGGTAGTCGATAGTGGCGATGCGCGCCGCCTCGCGCTCGTCACGCTCCGCGAGCTGCTGGTCGCCGAGAATGCCGAAGGCGACGATCGCGGTGGTGACATCGCCGGCGGCCTCGATCAGCGGGCGGTGCGAGTCCAGGTCGGTCGCCTCGAACTCGCGAAAGCGCACCTCGCGGGCCCCAGCATCGAGCAATCGCTTCTCGACGCCCACAGCACGTGCCCGGTCGCGTCCCGCGAGCACCACTACCCTGCCCTGGCACATCCGCACGGCGATCTCGCCGCCGATGTCGCTGTTCGCTCCAAGCAGGAGCATCGTCCCTTGATTCTGTGCCATGGCTCTACCCCAACGTCCTTGGCTGGCGGTTGA	MQPVGQALAEKVETRLGGAVDVVRAPRPPAGDGGKREDLAARHDVGKHGQRVDLREVVDSGDARRLALVTLRELLVAENAEGDDRGGDIAGGLDQRAVRVQVGRLELAKAHLAGPSIEQSLLDAHSTCPVASREHHYPALAHPHGDLAADVAVRSKQEHRPLILCHGSTPTSLAGG				NA	NA	NA	NA	NA
AK009_09655	354			hypothetical protein	GTGCGAGCGGTACACCGCGCCGGTGGCGGTGAGGACGCGCCGCTCGGAGTCGCAGGTGGCGTAGTCGATGCGCCACGAGGAGGCGTCGTTAAGCCTCGTGCCCAAGCCAACCGGCGAGATCTCGACGGCGTTGATCAGCGTGCCCGGGGTCATGCCGCTGACCCAGGTGGCCTGGCCGAACTCGGGGTCGGTGCCTGGGTTGAGGTTGACGGCGTCGACGACAAACGGCGCGAGCGTGCGGGCGAGCTGGGCAATCATGGTAGTGTTCTCCTATCGAGGCATGCGGCGCCACACGGGTCGCGGCACGATCGCCATTATGGCGGAAAGCAGGGCGAGTCGGCGCGGGATCCATAG	MRAVHRAGGGEDAPLGVAGGVVDAPRGGVVKPRAQANRRDLDGVDQRARGHAADPGGLAELGVGAWVEVDGVDDKRRERAGELGNHGSVLLSRHAAPHGSRHDRHYGGKQGESARDP				NA	NA	NA	NA	NA
AK009_09656	831			hypothetical protein	ATGGTTCAGCCCCATCCGTCCCGGAATTTTCGGCCACGGGTGGTTATGAAGCTCCACCCCCCACTTCTCAGCGAGGCGCTGGGAACCGCCAAACGGAATAACGTCGTCGTTCTTCGATCCCCACAGCCGAAGCGGAATCCGCACGGGCTCCCGGTTGCCCAGCGCCATGCGGTCGAGGAACTCGCTGGATGCAGGGTTGCGGTCGAGCAGCTCACCGAGCGGGACGCCGGAGGTGGTCCACTTTTCCGTGCGGGTGTACCGGTACTTCATCACCGCGCCCGGCCCGCAGACCTGCGCGCCGAACGCGATCGCGGCCAGCCCCTCGTCGGACAGCTCAGGCGTGAGGTCGGCGAACGCGTCCGGGTCGGAGGCGAGCATCCCGGCGACGGCGTAGAGGATCACCGCCGCGGGCATCGCGCCGTCGACGTGCTTAAGCACCGCGGCGAGATCCGCGGGCGCCGAGCCGACCACCGCGGCCAACGGCTGCAGCTCGGGGGCGTATTCCGGCTGCTCCAGCCAGGCGCCGATCGCTCCCCCGCCTTGGGAAAAACCCCACAGACCGAGGTTGTCGGTGCCAACGCCCAAGCTTGTCGACGCCCTCACGGCGTCAGCCAGCGCCCTCGCGCCCGAGGCGTGGTCGCAGTAAAACTGCACGTTGCCCTCGGGGTGGCGCGGGTAGTCCGTGAGGACGACGTTGCACCCGAGCGCAAGCATGAAGTTGATCACGGGCTGCTCGTGGGCGGCGATGATGTCGAACGGCCGGGTGCGCAGCGCAACACCGACCGTGCACGAGTACGAGGGGTCGCAGCGCGGCGCCACGCCCTGGGTTGA	MVQPHPSRNFRPRVVMKLHPPLLSEALGTAKRNNVVVLRSPQPKRNPHGLPVAQRHAVEELAGCRVAVEQLTERDAGGGPLFRAGVPVLHHRARPADLRAERDRGQPLVGQLRREVGERVRVGGEHPGDGVEDHRRGHRAVDVLKHRGEIRGRRADHRGQRLQLGGVFRLLQPGADRSPALGKTPQTEVVGANAQACRRPHGVSQRPRARGVVAVKLHVALGVARVVREDDVAPERKHEVDHGLLVGGDDVERPGAQRNTDRARVRGVAARRHALG				NA	NA	NA	NA	NA
AK009_09657	447			hypothetical protein	GTGGTGCGGGTCGACGCTGTCCATCCGGTAGAGCTTCTCCAGCTCGTCGGCGTCGGTCGGCGCGGTAAAGCTGCCGTAAGAATCGTGTACCTGCGACATCGGCGAGACCGTGTAGGCGCGCACACCGAAATCCTCCACGGCGCGCTGCACCTTCGCCGACAGCCCGCGCCGCAGCAGGGCACGGGTCGGGCCGAACACCATGATCAGGCCGATCAACGAGGAGACAAACCCCGGGAGGATGGTGAGTACCCAGCCGGCGACGAGGATCGCGGAATCGCCCGCCAGTGTGCCCAGGCTCGAGCGCCCCTGCGCCGCCTTACGCACGGAGTTGCGCAGCGCGATGTTGGCGGCCAGACCGCCGATGACCATCAGCGCGAAGACGGCGACGAAGGCCCAGCCGATGCCGATCAGCTTAGCGACACCGAGAAACGCGAGGACCTCGACTAG	MVRVDAVHPVELLQLVGVGRRGKAAVRIVYLRHRRDRVGAHTEILHGALHLRRQPAPQQGTGRAEHHDQADQRGDKPREDGEYPAGDEDRGIARQCAQARAPLRRLTHGVAQRDVGGQTADDHQREDGDEGPADADQLSDTEKREDLD				NA	NA	NA	NA	NA
AK009_09658	285			hypothetical protein	GTGGGTGAAACCGAGCAGCGCGCCGAAGCCACCGGAGGGGCCGGGGCGCTCGCCGGACGCGGGACCGATCCAGCGGCTCCACGAGCTCGGCCACGGCGCCAGAGCGAAGTAAAAAAGCGCTATCCCGAAAATCGCCGCGAACCACAACCCGTGCGGCTCGTAGGAGTAGTACACGGCCGCTCCGGAGGCGGCGGCGAGGGTGAAGCGGAAGAAGGCTCTCACTGGGTGCGGCCCTCCGGGTTATCCCCGGGGCGGTGGTGCGGGTCGACGCTGTCCATCCGGTAG	MGETEQRAEATGGAGALAGRGTDPAAPRARPRRQSEVKKRYPENRREPQPVRLVGVVHGRSGGGGEGEAEEGSHWVRPSGLSPGRWCGSTLSIR				NA	NA	NA	NA	NA
AK009_09659	780			hypothetical protein	GTGCGCGGGCTCAAAAATCTCTGTGTGCTGGGAGACGCGACCGTCCGGATGGACGATGGCCGACACGCCCGAGGTGGCTGCCACGACGACGGCGCGATCCGTCTCGATCGCGCGCATGCGGCTCATCGCGAGCTGCTGGTACGTCATATCGGTAAACCCGAACGTCGCGTTGTTCGTCGGCGTCGCCAGAATGGTCGCGCCGTTTCGCACCGCGGTGCGGTAGGCCTCGTCGACGGCGACCTCGTAGCAGGTCGCGATACCGACCCTTACGTCGCGCATGTCGACCACGCCGTTGCCGCTGCCCGGCTTGAAGTCGCCAGCCATGTCGACGTACTCGGAGAAGTTGCGGAAGAAATCGCGCATCGGCATGTACTCGCCGAAGGGCTGGAGGTATTTCTTGTGGTGGTAGTCCCCCGTCCAGGTTTCCGGGTCGAAGACGACCATGGTGTTACGCTGACCGACCTCGTCGCGTGTCAAGGTGCCCACCAGCACGGGGGCGTCGATGCGCTGCACGGCGACGTTGATAATCGCGGCGGCCTCGGGGTCGGTGAACGGGTTGACGTCGGAGGCGTTCTCCGGCCAGATGACGATGTCCGGGTTGGCACCGGACTCCGCGAGCGCGATCGTCTCGTTAACGTGATTGGCCAAGACTGCGCGGCGCTGCGCGTTGAAGTCAAGCCCCATGCGCGGCACGTTGCCCTGCACGGCGGAGGCGGTCACCTCGCCGACCACTCCCCGCTCGGTGCCGACGCCGATCTGCGCGAGGAGCCCGAGAGCTAG	MRGLKNLCVLGDATVRMDDGRHARGGCHDDGAIRLDRAHAAHRELLVRHIGKPERRVVRRRRQNGRAVSHRGAVGLVDGDLVAGRDTDPYVAHVDHAVAAARLEVASHVDVLGEVAEEIAHRHVLAEGLEVFLVVVVPRPGFRVEDDHGVTLTDLVACQGAHQHGGVDALHGDVDNRGGLGVGERVDVGGVLRPDDDVRVGTGLRERDRLVNVIGQDCAALRVEVKPHARHVALHGGGGHLADHSPLGADADLREEPES				NA	NA	NA	NA	NA
AK009_09660	174			hypothetical protein	TTGACAGAAACCATAAAAATTGAGGAATTAAACACATTCTTACCATTGGCTTCTTTAGAAGGCCTCACCATACATGCCCATCAACTTAAGGATGGATACAAAACCAAATATTGTTCATTTGAACTAAAATCTCCCCAAATGGAGGGATTTATTAAAAATAAGCACGCAAAATAA	MTETIKIEELNTFLPLASLEGLTIHAHQLKDGYKTKYCSFELKSPQMEGFIKNKHAK				NA	NA	NA	NA	NA
AK009_09661	282			hypothetical protein	GTGCTTTATATATATTATTTGTTTTTATATCAGCAATACTTTCACTTTGATTATAAAAATTTAAAGACTTTTTTAGAGACAGAAGCCATTCCGTTTTTTCAAAAGCAGGGAAATAACAAACAACTATCCATATTCTATATCGATTTAGCAACTATTTATTATCAAGAAAATCAATTTAAAAAAGCTTGTTTGTACTATCAAAAAGGAATTTCTGGTATAGGGATCGTTAAAAATATGCATGTTGTAACATCAGATAAAAAAGTCCAAGTGAAATTTCCATAA	MLYIYYLFLYQQYFHFDYKNLKTFLETEAIPFFQKQGNNKQLSIFYIDLATIYYQENQFKKACLYYQKGISGIGIVKNMHVVTSDKKVQVKFP				NA	NA	NA	NA	NA
AK009_09662	1083	nmoA	COG2070	Nitronate monooxygenase	ATGCATAATGAATTATGTGAACTCTTAGATATTGATCATCCGATTATACAAGCAGGTATGGCTGGAGGATCAACTACTGTAGATCTAGTAGTAAGTGTTTCAGAAGCAGGTGGATTAGGTAGCTTAGGGGCTGCATATATGAGTCCCAAGGAGATACGATTAGCTATAAGAGAAATACGGTCAATTACTGACAAGCCCTTTGCTGTAAATTTATTCTGTACGGAATTAAAAGATAATTTAGACAGAGTTGAACAAGTACAAGAAGTCTTAAACAAAATGAGGAATAACTTGGGGTTAAAGCCTGGAATAGCTAACATAAGTACTAAAAATTTGTTTAAGGAACAATTTCAGGTTTTAATTGAAGAGAGAGTGCCTGTAATTAGTACTGCATTTGGTTCACTTCCAACTGAACAATTACAAATTGCAAAAGATCTTGGGATAAAAGTAATAACAATGGTAACTACAGTAAGGGAGGCTCAGTTAGTAGAAGAACATGGCGTAGATGTAATAGTGGCACAGGGCAGTGAAGCTGGAGGGCATCGTGGCACTTTCCATGTTGAACCAGACTCTAATGGAGCAAACATTGGTCTGTTTTCCTTAATTCCTCAAGTTGTAGATGCCGTAAGTATTCCAGTTGTTGCTGCTGGGGGCATTATGGATGAAAGAGGACTAGTAGCAGCATTAGCCTTAGGGGCTAAAGGTATACAGATGGGTACAATCTTCTTACCAACAGCTGAATCAGGTGCACACGATAGTTATAAAGAAGCATTGTTGCAAAGTAATGAGGAAAGTACTGTTTTAACCAAAAGCTTTTCTGGACGTCCTGCTAGAGGAATAAAGAATAAATTCATAGAAGAATTCGAAAATTCAGGAATCACTCCCCTTGCTTTCCCAACTCAAAATACTGTTACTGGTGACATCAGGAAAGAAGCATCAAAACAGAATAATGTAAATTTCATGTCTTTATGGGCTGGACAAGGTACTCGGTTACTTAATAAAAAGTTATCTGCCCAGGAAATCATAAAACAAACAATTAATAAATCTAGTCATATTATTGAGCATATTTGCAAGATTAAAGTTTAA	MHNELCELLDIDHPIIQAGMAGGSTTVDLVVSVSEAGGLGSLGAAYMSPKEIRLAIREIRSITDKPFAVNLFCTELKDNLDRVEQVQEVLNKMRNNLGLKPGIANISTKNLFKEQFQVLIEERVPVISTAFGSLPTEQLQIAKDLGIKVITMVTTVREAQLVEEHGVDVIVAQGSEAGGHRGTFHVEPDSNGANIGLFSLIPQVVDAVSIPVVAAGGIMDERGLVAALALGAKGIQMGTIFLPTAESGAHDSYKEALLQSNEESTVLTKSFSGRPARGIKNKFIEEFENSGITPLAFPTQNTVTGDIRKEASKQNNVNFMSLWAGQGTRLLNKKLSAQEIIKQTINKSSHIIEHICKIKV	PGPT0006800_1331	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
AK009_09663	891	gltR_6	COG0583	HTH-type transcriptional regulator GltR	ATGAATGTTGAGGATTTTCATACTTTTGTTGTAGTAGCAGAAAAACAAAGTATTTCACGTGCTGCAGAGAAATTAAATACTGTCCAATCGAATATTACAGCCCGAATAAAACGTTTAGAGGCACAATACAACGTGCAATTGTTCTATAGACATAGGCACGGCGTTATTCTAACACCCATAGGAGTTACGCTTTTAAAGTATGCTCAGAAGATATTATTCTTAATTGAGGAGTCACAGAAGGAAATTAAGTATTCTAATGTCCCAATGGGAACATTAAAACTGGGATCAATGGAAACTACTGCAGCAATTAGATTGCCGACCATTTTATCAAATTTTAACGAAACATTCCCAAAAGTTGAGTTGAGTTTAGAAACAAATACTACAGAAGAACTTATAAAAGCTGTTTTGATGAGGGAAATAGATGGTGCATTTATTGCGGATAGTGCGTCTTCTCCTTTATTAGCCGAAATTCCTGTATTTCATGAGACACTAGAATTACTAGCGAAAAATGGTAAAAAATCTATAGTTAGCTTAGAAGACTTGAAAGATCAGAAACTTATTGTATTTAAGTCCGGCTGTTTTTATAGAAAAAAGCTTGAAAACTGGCTTTTGTCGAAGGGAATTGTTCCACAAAATACGATGGAGTTAAATACACTTGATGGTATCATTGGTTGTGTTAAGGCTGGATTAGGTATTACTATGCTTACTAGAGCTGTGGCCAATCAAATGGACTTCACAGGGGGACTGACGCATTATCCTTTACCTCATGAAACTGGTGAAATCACTACGTATTTTATATATCGTAAGGACATAGTTAAAACTCATGCGTTTAATAAATTCTTAGAATTATTACCGCAAATCACAAAACCAGTCAATACAAAAATATTTTAA	MNVEDFHTFVVVAEKQSISRAAEKLNTVQSNITARIKRLEAQYNVQLFYRHRHGVILTPIGVTLLKYAQKILFLIEESQKEIKYSNVPMGTLKLGSMETTAAIRLPTILSNFNETFPKVELSLETNTTEELIKAVLMREIDGAFIADSASSPLLAEIPVFHETLELLAKNGKKSIVSLEDLKDQKLIVFKSGCFYRKKLENWLLSKGIVPQNTMELNTLDGIIGCVKAGLGITMLTRAVANQMDFTGGLTHYPLPHETGEITTYFIYRKDIVKTHAFNKFLELLPQITKPVNTKIF				NA	NA	NA	NA	NA
AK009_09664	1938			hypothetical protein	ATGGGAGAAGAGAGATTAAAAGTAGCAGTAGTTGGGATGGGACCCCGTGGTCTTTCGATTTTAGAACGATTATGTGCGAATAGTACAGAATGTAACACCGCTAAACAAGTAGAAATTCATTTAGTAGATCCCTATCCTCTTGGAGCAGGAAAAGTTTGGAGAACTAACCAATCTAAGCATCTGTTAATGAATACCGTAGCATGTCAAATTACTCTGTTTACCGATTCAAGTGTGGAGTGTGTAGGTCCACAAGTACCTGGACCTACTCTATATGAATGGGCTAAATTCATGACTATCATGAATCCCGGTGGAGACTATGATGAAGTTGTTTTAGATGAGGCCAAGCGGCTACAGCCGGATTCTTATCCAACCCGATCATTCTATGGTCACTATTTGGAGTGGATATATAAACATATAGTAGATAATCTTCCTCCGAATTTCCGTATATATTCTTATCAGGAGACTGCTATCTCCCTTGACGAAGACCTAAATGGGATGCAAGAAATAGCACTTTCAAATGGAACTAAAATCAATGTGCACAAGGTTATATTGTCCGTAGGGCATACCACTTTAAGCTTGTCGGAAGAAGAGAAGAGGCTACAACATTTTGCTCACAAACATAATTTATGTTATATCTCACCTTCTAATCCAGCCGATTTATTACTAGAAGATATTAAACCTAAAGAAAACGTAATCTTAAGGGGACTAGGATTAAATTTCTTTGACTACATGAGCTTATTAACTATAGGACGTGGAGGGAAATTTCATAGTATAGATGGTAATTTAATATATGAGCCTTCAGGACTTGAGCCCTATATGATTGCAGGTTCTAGAAGGGGGATTCCATATCACGCTCGTGGTGAAAATGAAAAAGGTTCTAGTGGTAGACATTTACCTCTACTATTAACTGCTGATGTAATCAAAGAATTTCACATCCGTGCTCAACAGGGATTAGATATTTCTTTTCAAAAAGAGGTTTGGCCACTAGTTGCAAAAGAAATAGAAACTATTTATTATACCGCATTAATTAACTACAGATCTTGTACTTGTCATGGTAAGCGGTTTCAAGAGGAGTATCTTAAATATGATTGGAAAACTGAAGAAGAGGAGAGGGTATTAAAAATCTTTAATATCGAAGAGGCCGAATGGTGGAATTGGGAGTCTATATCTAATCCGTGTTATAATAAGAACTTTCAAAATCAAGATGAATTTCAAAATTGGCTATTGTCGTATTTAGAAGATGATTTATCTGAGGCACAAAAAGGAAACGTATCCGGACCTAAAAAAGCTGCTCTTGACGCTTTGCGTGATTTACGTAACGAAGTACGTTTAATTATAGATCATAATGGTATTAGTGGTGAGTCTTATAAAAAGGATGTTCATGGGTGGTATACACCTCTTAACGCTTTTGTTTCTATAGGACCACCAGCTTTAAGAATTCAACAAATGATTGCCTTAATTAAGGCAGGTGTTCTAAAGGTTCTAGCTCCTGGTTTAGAAGTCAAAATAGATGAGAGTAAATCTAAGTTTATAGCAAGTTGTTCAAAATTAGACGCAAGTACGGTGGAGGCTTCTTCTCTAATTGAAGCACGTCTACCTGATACAAATGTAAGGCGCACATCAGATCCTTTGCTTTCCTATTTAATGAATACAGGACAATGTAAACCTTATGTGATTACTACAACTTATGGGGAGAGTTATGAGACTGGGGGCATATCTGTGACTTCTTCTCCTTATAACCTAATAAATAAAAGGGGAGACAGTCATATGAATCGTTTTGCTTTTGGTGTGCCAACAGAAGGAGTTCATTGGGCAACAGCAGCAGGGGTACGGCCAGGCGTAAATTCAGTTACATTAGGTGATTCAGATGCTATTGCTCGAGCAGTGTTAGACATTAAAATAGAGGCAAAGGATCAAGAGTTAGTACCTACACTGTAG	MGEERLKVAVVGMGPRGLSILERLCANSTECNTAKQVEIHLVDPYPLGAGKVWRTNQSKHLLMNTVACQITLFTDSSVECVGPQVPGPTLYEWAKFMTIMNPGGDYDEVVLDEAKRLQPDSYPTRSFYGHYLEWIYKHIVDNLPPNFRIYSYQETAISLDEDLNGMQEIALSNGTKINVHKVILSVGHTTLSLSEEEKRLQHFAHKHNLCYISPSNPADLLLEDIKPKENVILRGLGLNFFDYMSLLTIGRGGKFHSIDGNLIYEPSGLEPYMIAGSRRGIPYHARGENEKGSSGRHLPLLLTADVIKEFHIRAQQGLDISFQKEVWPLVAKEIETIYYTALINYRSCTCHGKRFQEEYLKYDWKTEEEERVLKIFNIEEAEWWNWESISNPCYNKNFQNQDEFQNWLLSYLEDDLSEAQKGNVSGPKKAALDALRDLRNEVRLIIDHNGISGESYKKDVHGWYTPLNAFVSIGPPALRIQQMIALIKAGVLKVLAPGLEVKIDESKSKFIASCSKLDASTVEASSLIEARLPDTNVRRTSDPLLSYLMNTGQCKPYVITTTYGESYETGGISVTSSPYNLINKRGDSHMNRFAFGVPTEGVHWATAAGVRPGVNSVTLGDSDAIARAVLDIKIEAKDQELVPTL				NA	NA	NA	NA	NA
AK009_09665	261			hypothetical protein	ATGAGTAATCCATATAACAGACATGATGTAACAGATGAGAATTGGAATAAGTTAGAACCATCATTACCGATATACTTGGGAAATGGGGCGGTTGTAACGCCAACAGTAATCGTCTATTTGTTAATGTCTGTTTATGGATTATTCGTACAGGTTCTCCATGGCATGATCTGCCAAATGGATACGGGAAATTTAACGGTGCACACCGTCGCTATAAGCGATGGTGTGCTAAAGGAATTTGGGATAAACTCCTTGCAAAGCTAA	MSNPYNRHDVTDENWNKLEPSLPIYLGNGAVVTPTVIVYLLMSVYGLFVQVLHGMICQMDTGNLTVHTVAISDGVLKEFGINSLQS				NA	NA	NA	NA	NA
AK009_09666	201			hypothetical protein	ATGATTACTGGTGGGGAAGTGTCCGATTTTACAAAAGCTGTCGATTTGATTACAGGATTGAAGGCGGAACATCTCATAGCTGACAAGGGATATGATTATGATGAAATTGTTCGCTTTGCCAAAAGTTATACAAAAACCACGTCTACTTTTAGAGGGGCTGTTACCGTGGCTGCTATTTCTCAGTGGTTGAAACTCGTGTAG	MITGGEVSDFTKAVDLITGLKAEHLIADKGYDYDEIVRFAKSYTKTTSTFRGAVTVAAISQWLKLV				NA	NA	NA	NA	NA
AK009_09667	1200			hypothetical protein	TTGACGAAAAACAAAAAAAGTAAGCGTGGAGGTCTTACTGCTATACATGTTGCATTAGTAACGGTTATTACTTCTACACCTGTATTTCTTCCCGGTGCAGCTAATGATCTAATTAGGAAAGATTTAGACTTAACAACGAGTGACATTGGGTTAGTATTTACTCTTTATTGGATTGGGTCTGCCCTTGGAGCCTATACTAGTAGAAGAGCAAGTAACACATCTCCTGTTGAACGACTTATTAATTTATCCTTATTTATAACAGCTTTTTCACTGTTACTAATGTATATCTATCCAAGTATTGGCCTATGGGTAGGAGCGGCATTAGGAGGGGTAGCATATGGGTATAGTCAACCTTATACTAATTTCCTTATTATGAGAAAATGCGAATTAAAAATGCAGGGATTTGCTTTTGGCTTAAAACAAGCAGCTATCCCAGCTGCTACTTTATTATGTAGCCTCACCATACCTCTGCTTGCTGGACCTATAGGATGGCGAAATGTATTTTGGGTTATAGCCGCTTGCGCATTGATGTATGCTATCTTAACGGCTCTGCTTACTTGGAATGCAAATACAAAGAAAAGAGCAATAACAAAGGAAAGAGAATTATCTATTAATAAACATCTCCTTTTTCTTGCAATTGCAGGGGGATGTGGAGCTATGATTGGAAATAGTCTGGGAGGTTTTTTAATAACTTCTTTAACCCATGGAGGTCTTTCGATGTTCATGGCAAGTATGGTTGCAGCAGCAGCATCCATAACGAATATCTTTGTCAGAATTTTTGCTGGGATTGTTACAGACCGACACCCTTCTTCATCTACAACAATATTGATACAAATGTTTATTGTGGGTGTGTTTGGTACAGGAATGCTAATGCTATCATTACCGCTAACTCAAATCTTAGGTGCAATACTTGCATATGGAGGAGGTTGGGGCTGGGCTGGGCTGCTACACTATGTTACTGGAAAAAGTTATCCTGGTAATGAAGGACAAGCAACAGCTATTAGCCAAATGGGTGTATCAACAGGTGCTGCCATAGGACCACTTTTATTTGGTTATTTATTCTCGAACCTAGGACCTAATATTGCATGGCTTTCTATGACAATTGCAGGTATACTTGCTTGCATATCAATCACTATTGCAAACTCAGCAAAGCCGATTATACATCAAAATGAGATTGTTAAGAGAAGAAATGCTATTTAA	MTKNKKSKRGGLTAIHVALVTVITSTPVFLPGAANDLIRKDLDLTTSDIGLVFTLYWIGSALGAYTSRRASNTSPVERLINLSLFITAFSLLLMYIYPSIGLWVGAALGGVAYGYSQPYTNFLIMRKCELKMQGFAFGLKQAAIPAATLLCSLTIPLLAGPIGWRNVFWVIAACALMYAILTALLTWNANTKKRAITKERELSINKHLLFLAIAGGCGAMIGNSLGGFLITSLTHGGLSMFMASMVAAAASITNIFVRIFAGIVTDRHPSSSTTILIQMFIVGVFGTGMLMLSLPLTQILGAILAYGGGWGWAGLLHYVTGKSYPGNEGQATAISQMGVSTGAAIGPLLFGYLFSNLGPNIAWLSMTIAGILACISITIANSAKPIIHQNEIVKRRNAI				NA	NA	NA	NA	NA
AK009_09668	390			IS6 family transposase ISBth20	TTGGATATTCAACTTCGTAAAACACGCAATCATCAAACGGCTTATATGTTTAAGAAGCGACTGGTTAAAGATTTTGGAGAACCAACGCTTCTTACTACAGACAAGGCTAAGGCCTTACTTTGTGCGTTCAAAAAACTGAAACATAACGGTTTGTATGTGCATACGAAACATTGCACCGTTAAGCATCTAAATAATATCATTGAACAAGATCATAGACATATCAAGCGCTGGTTTGTTAAATCCGCAGGATTTCACAATCTCCGCCATACTTCACGTACATTGAAAGGAATCGAAACGATTCATGCGCTATACAAACAAAAGAGAAGTCACATTCCAGACTTCTCTTTTTCGACGTACAAGGAATTACAGGATTTATTCAGAACCGCTTAA	MDIQLRKTRNHQTAYMFKKRLVKDFGEPTLLTTDKAKALLCAFKKLKHNGLYVHTKHCTVKHLNNIIEQDHRHIKRWFVKSAGFHNLRHTSRTLKGIETIHALYKQKRSHIPDFSFSTYKELQDLFRTA	PGPT0030690_667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_09669	219			IS6 family transposase ISBth20	ATGGGATATTTTAAGGGAAAACAATTCAAAAAAGATATTATTTTGGTAGCCGTTGGCTACTATTGTCGTTTTTCTTCAAGTTATCGTGATGTGTCTGAGATCCTAAAAGAACGAGGGGTTTCTGTACATCCTACAACAATCATGCGTTGGGTTCACGAATACGGCAATCTGATTTATCAAATTTGGAAGAAGAAAAACAAATCCGCACATTTCATATGA	MGYFKGKQFKKDIILVAVGYYCRFSSSYRDVSEILKERGVSVHPTTIMRWVHEYGNLIYQIWKKKNKSAHFI	PGPT0030690_1409	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_09670	576			hypothetical protein	ATGTTATTTACAGATTTAGATTGCTCTTTACAGCGGGGATTTCTTGTTGATCTTCGAGGAATTGTTCGCATGCTTCTTCAGGATATGGACTATGTGATTGTAGAGGAGGATGTTTCGTTTATTACAGATGATTTTGTTGAAAAAGTCATTATCTACCTAGAAAAAACGCGTTTTTTTCAAAAGTGGATAGAAGTAGATGTTTCCGCTGTAGATGTGAAGGAGTTATTACAGCAAATAGAAATTTCTATGCGAAAGAGAAAATCTACATTAAGGCAACGGAATTATTTTACCAACTTGTTATATGCTGTAGATTTGCGTGAAAATATTCCGACGGATTATTTATGTATGAAAAAAAGATTGTTGGAGTTGGAGTGCTTGAAGGAACAACAGAAACATGCACAATCCTTAATTCCAGTATCTACACAACAGATTACAGTATTAAAAAGAGCGTGGAAGGAAACAATGGGACGAAAATTAGAAGTATCAGAAGACATGAAACAGCGTGAAGTAGATGAGTTATTTAGTAGGATAAATCGAAAACAGTGTAAAATACAGAGACAACGGCAGGAACGATAG	MLFTDLDCSLQRGFLVDLRGIVRMLLQDMDYVIVEEDVSFITDDFVEKVIIYLEKTRFFQKWIEVDVSAVDVKELLQQIEISMRKRKSTLRQRNYFTNLLYAVDLRENIPTDYLCMKKRLLELECLKEQQKHAQSLIPVSTQQITVLKRAWKETMGRKLEVSEDMKQREVDELFSRINRKQCKIQRQRQER				NA	NA	NA	NA	NA
AK009_09671	279			hypothetical protein	TTGCAGCAGCTTGGCGTAGTTTCCCGCGGCGTGCAACAGGTGCGTCTTGCCCAGCCCGGATCCGCCCCAGATGAACAGCGGGTTGTAGGCGCGCGCGGGGTTTTCCGCGACCGCGACCGCGGCGCCGTTGGCAAACCGGTTCGACGAGCCGATGACGAAGTTTTCGAAGGTGTACTTCGGGTTCAGGCTCGCCTCGCGGTCCGGGTTGTGCGCGGGCGTTTCTCGCGGGAGTCGCTGCGGCACCGTGGGGTGAGCGCTTGCTTGTCGAGGCCCCCCTGA	MQQLGVVSRGVQQVRLAQPGSAPDEQRVVGARGVFRDRDRGAVGKPVRRADDEVFEGVLRVQARLAVRVVRGRFSRESLRHRGVSACLSRPP				NA	NA	NA	NA	NA
AK009_09672	558			hypothetical protein	TTGCTCCCCGACCGCCGCCGGGGTGGAGTCCTCGGTAAACGCGGGTGGCCGGCTCGAGGTGGAAAACCAGTCCGGCACGGACGTCTGCTCCGGCTTGTCATCGAGCGGGCGCGGCTGCTCGCTGGGGACCTCCGCGGGCGCGGGCTGCTGGATGGACACGGCCAGGGTGCACGTCGTGTTGAGCTTTCGGGACAACAGCGCGGTGATGTGGGTGCCCAAGGAGTTTTCTATCACGGCTTTCGCGGTGGGGTGCGGTGCGGCGAGGATGACGTAGCCGTCGACAAGCATGACGGGCGTGACCAGTTGCAAGTAGGCGCGTTGCTGGTGCGTGAGCGTGGGAACGTTCGAGTTGGGGCGCTCGGAGAGTGTGAGAAGCTCCGAGACGATGTCGCTCCAGAGCGCTGCGAGTTGCTGGTCTGCCACGGTTGCCTTTGGTTCCTTGTTGCCGATGTCGTGTTGCGCCTGTGGAGCGTGCCGGCGGAGTCTTCCACACCCCCGGAACGCCTGTGGGGCGCCCACTACCTTATGTTCCACAACTTTATCCACACCTGTGGATAG	MLPDRRRGGVLGKRGWPARGGKPVRHGRLLRLVIERARLLAGDLRGRGLLDGHGQGARRVELSGQQRGDVGAQGVFYHGFRGGVRCGEDDVAVDKHDGRDQLQVGALLVRERGNVRVGALGECEKLRDDVAPERCELLVCHGCLWFLVADVVLRLWSVPAESSTPPERLWGAHYLMFHNFIHTCG				NA	NA	NA	NA	NA
AK009_09673	264			hypothetical protein	GTGGTGTGCGGGGCGCTGTTACGCCGTGAGGTTGGAGCGGCCCTTGCGGCGGCGCGCGGAAACGATGGCGCGGCCGGCGCGGGTGCGCATGCGGGCGCGGAAGCCGTGCTTACGAGCGCGGCGGCGGTTATTCGGCTGGAAAGTCCGCTTAGACACGGAAAACTCCTTGAGTTAGGTGCGACGGCCAGCGGCGGCGCTTCCCCGGTGCCGGGACTGCACAACCTCCCGGGGCAGAGGCCGTCCCGGCGAGAATGGTGTAGCTGA	MVCGALLRREVGAALAAARGNDGAAGAGAHAGAEAVLTSAAAVIRLESPLRHGKLLELGATASGGASPVPGLHNLPGQRPSRREWCS				NA	NA	NA	NA	NA
AK009_09674	282	rnpA_2		Ribonuclease P protein component	TTGGTGGTGCACGTCGCAGCCCGAACCGAACTCGCCTTCTCCGGCGGGCCCCGGTTCGGGCTGATCGTGTCTAAGGCGGTAGGCAACGCTGTTACCCGCCACAGTGTCTCTCGTAAGTTGCGGCACGTGGTTGCGGCGGGCGTCGATACGCTCGCGCGCGATACCGACGTTGTCGTGCGCGCCCTGCCGCCCGCGGCGGCCGCGTCGAGCGCCGAGCTGGCCCGCGACTACGAGCAGGCGCTGGCGGCCGCGCTAAAGAAGCTTCGCGCCAAGGGGAAGTAA	MVVHVAARTELAFSGGPRFGLIVSKAVGNAVTRHSVSRKLRHVVAAGVDTLARDTDVVVRALPPAAAASSAELARDYEQALAAALKKLRAKGK				NA	NA	NA	NA	NA
AK009_09675	756			hypothetical protein	GTGCCAGAGGAAGCCGGAGGCCAAGATCATGATCGGGAAGACCCAGAGCATCATTTTGTTCATGATCTGCATCTGCTGCTGCATCATCTCCGCCTGGTCGCCGACGGGGGCGGCGACCTTGCCGGACAGCCGGCGCTCGTTCTGGCGCTCAATGGACAGCCGGGCGTTGAGGTGCGTAAACACTGCCGAGATGATCACCAGCGGCATACAGACCATGATGATGTCGAGGCGGGTGAAGTCCAAGCCCGTGAACGCCGAGAACGCGTCGGCCGGCATAGACATGTACGCCGAGAGCGGCACGCCGAAGAAGTCGGCGTCGAGGAAGGAGCGGACGTCTTCCGGGGAGAAGATGTAGTTCGCCGTGTTGCGGTTTTGCTCGACGCTCATCCCGAGCTGGCCGGGGCCGGTGCCCGTTCGGTTAAAGGAGCGCAGCACGTGGAACAGGCCGATGAACACCGGCATCTGCACGAGCGGGACGATGCAGGAGGCCAGCGGGTTGGTGCCCATCTCCTTGTAGAGCTTCTGGGTCTCCTGCGCCATCTTCTGCTGGTCGCCTTTATACTTGGCGCGCAGTTCCTGCAGCTTGGGCTGCATTTCTTGCATGCGACGCATGGAGCGCATCTGGTTGACCATCGGCTTGACCAGCAGCACGCGGATGGTGAAGGTGAGGAAGATGATCGCCAGGATCCAGGCGATGCCGGAGTCAGGCGAAAAGATAAAACCGAAGATTTTGTGCCAGAACCACAGCACCGCTGA	MPEEAGGQDHDREDPEHHFVHDLHLLLHHLRLVADGGGDLAGQPALVLALNGQPGVEVRKHCRDDHQRHTDHDDVEAGEVQARERRERVGRHRHVRRERHAEEVGVEEGADVFRGEDVVRRVAVLLDAHPELAGAGARSVKGAQHVEQADEHRHLHERDDAGGQRVGAHLLVELLGLLRHLLLVAFILGAQFLQLGLHFLHATHGAHLVDHRLDQQHADGEGEEDDRQDPGDAGVRRKDKTEDFVPEPQHR				NA	NA	NA	NA	NA
AK009_09676	657	rsmG_2	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGTCGGGGCCGTTTACTAGAGTCGGTAACATGTCGCAGCCCAACCCAGATCCCACCGCGCAGGCCGTTTTCGGCGATCGCCTCCCGATCGCGAAGGCCTACCACGAGTCGTTGGCCACCGTCGCCGCCGCGCGCGGCTTCATCGGGCCGAAGGAGGTCGACCGCCTGTGGTCGCGCCACCTGCTCAACTGCGCGGTGATCTCGGAGGCGTTCGATGAGGGCCTGGACGTCGCCGACATCGGCTCCGGCGCGGGCCTGCCCGGCATCCCGCTCGCGATCGCCCGCCCGGACCTCAGCGTCACACTCATTGAGCCGCTGCTAAAGCGCTCGACCTACCTTACCGAGGTCGTCGACGAGCTCGGCCTGAGCAACGTCACCGTGGTGCGCGGCCGCGCGGAGGAGCAGAGCAGCTCGCTTTTCGATGTCGTCACCTCGCGCGCCGTCGCTCCCTTGGGCAAGCTGGCTGGCTGGTCGCTTCCCCTGGTCAAACCGGGTGGGGCGATGATCGCGATGAAGGGCGAATCCGTGGCGGAAGAGCTCGAGCGCGACGCCGAGGAGATCCGGCGCGCCAAGGGCGGCAAGGCCGAGATTTTCACGGTTGGCGATGGTTTGCTCGAGCAACCCACAACGCTGATCAGGATCCCGCGCACGCGCTAG	MSGPFTRVGNMSQPNPDPTAQAVFGDRLPIAKAYHESLATVAAARGFIGPKEVDRLWSRHLLNCAVISEAFDEGLDVADIGSGAGLPGIPLAIARPDLSVTLIEPLLKRSTYLTEVVDELGLSNVTVVRGRAEEQSSSLFDVVTSRAVAPLGKLAGWSLPLVKPGGAMIAMKGESVAEELERDAEEIRRAKGGKAEIFTVGDGLLEQPTTLIRIPRTR				NA	NA	NA	NA	NA
AK009_09677	450			hypothetical protein	GTGCAGGTTGTTGTTCAGGTGTTCGCGGATCATCCCGATGTTGCCCAGAAGCTGGCCCACGCCCTCAAGCGCGTAGTACTCGCACTGGATGGGGATGAGAACCTCATCAACAGCGGTCATCGCGTTGATGGTGAGCAGGCCAAGGGACGGCGGGCAGTCGATGAAGACGTAGTCGAACCCGTTGTCCTGAATGAACCCGCGACGGATCGCGTCGCGCAGGCGGTACTCACGGCGCACCAGGCTGACCAGCTCAATCTCCGCGCCAGCCAGGTCGATGGTGGCCGGGATGCAGAACAGGTTGTCGTTGCCGGGCGAAGGTGCCATTGCCTCGTCCGCCTGGGCCTCGCCGATGAGCAGCTCGTAGGTCGAGGTCGTTCCGGCACGGTGCTCCACGCCCAGCGCGGTCGACGCGTTGCCCTGGGGGTCGAGGTCGATCACGAGCACTTTTAG	MQVVVQVFADHPDVAQKLAHALKRVVLALDGDENLINSGHRVDGEQAKGRRAVDEDVVEPVVLNEPATDRVAQAVLTAHQADQLNLRASQVDGGRDAEQVVVAGRRCHCLVRLGLADEQLVGRGRSGTVLHAQRGRRVALGVEVDHEHF				NA	NA	NA	NA	NA
AK009_09678	405			hypothetical protein	GTGCACCAGCTCGGCGAGCTCGTCTTCATCGAAGACCTGGCGTGGCTGCTTCGGGTTAGGGAAGATCTCACCGACAGGAATTTCCTGGTAGCGCGCCCCCATGCCGATGGGCTGCTTCGGCCGCTCGGCCTGGGGCACGACCGTCGGGGCGCCCGGGATGCCGCCCAGGATGACGTCGGCGGCGCCGTCGCCAAGCCGGCCGGTCTTGCCCGTCTTATCGGCGGATTCGGTGCTAGATGGGATCAGCGCGGCGAGACCGCGACCCAGCCCGCCCTTGCGTTCCTGTGCCATGTGCTTAGTCTCCATCCTGTCCGGTATTTTGGGCCTTGTCGAACTGTGCCGCCACCTCGGGGCTCACGCCAATGGGGCCGGTGGTGGGGTGCGGCTGGAAGTCCCCGCGGGTAG	MHQLGELVFIEDLAWLLRVREDLTDRNFLVARPHADGLLRPLGLGHDRRGARDAAQDDVGGAVAKPAGLARLIGGFGARWDQRGETATQPALAFLCHVLSLHPVRYFGPCRTVPPPRGSRQWGRWWGAAGSPRG				NA	NA	NA	NA	NA
AK009_09679	1200			hypothetical protein	GTGGGCGGGCGGCAGGTCCAGACGCAGCCGGGGGATCACCGGGTGGTCGCGGACCACTGTGAACCCCGCGGACTCGAGGACGGGGACCTCGACAATCCCGATGAGCGCCGCCTCGCGGATGATCCCGCGGCACAGGTCCGACGTCGGTTGAGCGCCGCGGCGCAGACCGAACACCTCGAGCGCCGCAGCGCCGCGCTCGGTGGCGGCGATGATGACGGCGTCGAGAAGTACGGATTCCCAACCGCGACCCCGCGAGGCGGTGTCAGTGTGCAGGCTGGTGACCAGCCACGCGTCGCGGCTCGGCGGGGCTGTCGGCATCCGCACCGCGCCAGGAGCGTCGGCGACGGGGCAAAACAGCACCGTCGCGAACGCTCCCACCGTCGAGGTTGCCTCGGCGATGCTGAACCCCACCGTGGACTGGCGCAGGGCGCGCTGCACGAGCCAGGCGCCCTTGTCGGCCTCCGACTGCGCCCCCGTGTACGCGCTGTGCAGCGGGTCGAGCTCCCAGAAGGTCGAGGTCGCCGTGTGGCGGTGGATGCGCTCGAGGTTGTGGTAGGTCAGAGCCACCAGGCTGGCTTTGGGCGCCGCCACGTCTGCCCGCTAGCGGTCCTGGATGAGCGACAGGATGCGCTCCAGGTCGTCGCGGTCGCCGAACTCGACGACGATCTTGCCCTTGCGCTTGCCCATGGTCACGGAGACTTTGGTGTCCCATTCGTCGGCAAGCCGCTCGGCCGCGTGGGAGAGGAACTCCGGCTGGGGGGCGGGCTCGCGCTTGAGTTTGTCTTCCGCGGCTCCGTGCCTATTCAACAGGGTCACGGCTTCCTCCGTCGCGCGCACGCTCAAGCCCTCGGCCACGACCCGGCCGGCGAGCTTCTCCTGCTGCTCCGCGCCGGCCTTGACACCAAGCAACGCGCGCGCGTGCCCGGCGCTGAGCACGCCGGCGGCGACGCGGCGCTGCACCGTGACGGGAAGGTTCAGGAGGCGAATAGAGTTGGTGATGCGCGGCCGGGAGCGTCCGAGGCGATCGGCCAGTTGCTCCTGCGTCACCCCGAACTCCTGCAGAAGCTGCTGGTAGGCGGCCGCTTCCTCCAGCGGGTTGAGCTGAACGCGGTGGATGTTTTCCAAGAGCGCGTCGCGAAGCATGTCGGCGTCGTTCGTTTCGCGCACGATCGCGGGGATGTGCTTCAGACCCGCCTTTGA	MGGRQVQTQPGDHRVVADHCEPRGLEDGDLDNPDERRLADDPAAQVRRRLSAAAQTEHLERRSAALGGGDDDGVEKYGFPTATPRGGVSVQAGDQPRVAARRGCRHPHRARSVGDGAKQHRRERSHRRGCLGDAEPHRGLAQGALHEPGALVGLRLRPRVRAVQRVELPEGRGRRVAVDALEVVVGQSHQAGFGRRHVCPLAVLDERQDALQVVAVAELDDDLALALAHGHGDFGVPFVGKPLGRVGEELRLGGGLALEFVFRGSVPIQQGHGFLRRAHAQALGHDPAGELLLLLRAGLDTKQRARVPGAEHAGGDAALHRDGKVQEANRVGDARPGASEAIGQLLLRHPELLQKLLVGGRFLQRVELNAVDVFQERVAKHVGVVRFAHDRGDVLQTRL				NA	NA	NA	NA	NA
AK009_09680	582			hypothetical protein	GTGTTCGTGGCGCAAAAGCTCGGTGAAAGAGTAGGTGCCGGTCGGCTTGTCGTCCTCTTCGAGCAGGTAGAGGCGCTTGACGGCGACGACGATCGCCTCGGCGATGCAGTCTCGCTCGCGCGGGTTCGCGACGATCTTCACGTCGTGCGGGTTGGTCACGTAGCCAGCCACGACCTCGACCGCCGGCATTTTCGACAGGCGCAGCAGGTCCCACGTGCGCCCGTGGTTGTAGCAGTTGCGCAGGTCAGTGCGCGCCGCGATCTCGCGCTGGATGTAACCGGAAAGGGTCTCACCCGTGAGCGAGGACGCGCCGGATTGAGAGCCGAAGTAGAAGGTGGCCACCCCGTTGGCCAGCTCGTTGTGGTAGCGATCGAGCTGCAGCGAGATGATCAGGTCGGCGTTGAAGCTGTTGGCCAGCTCCGCGCGCTCCTTCGCCGAAGGGTTATCCCCGCGCGGGCGCGAGAAGATGGTTTCCATACCAGCGGCGACCATGCGCCCCTCTACCCTTTGGGCAAGATCCCAGAGGATCTCCTCCTCGCTGATGTCACCGTAGGGACCCCGGACCGAGGTGCCGTGCGCTGA	MFVAQKLGERVGAGRLVVLFEQVEALDGDDDRLGDAVSLARVRDDLHVVRVGHVASHDLDRRHFRQAQQVPRAPVVVAVAQVSARRDLALDVTGKGLTRERGRAGLRAEVEGGHPVGQLVVVAIELQRDDQVGVEAVGQLRALLRRRVIPARAREDGFHTSGDHAPLYPLGKIPEDLLLADVTVGTPDRGAVR				NA	NA	NA	NA	NA
AK009_09681	270			hypothetical protein	GTGCACGCTCGGGTCGATGACGACGCGCTTGCCGGACAGGCGGGGGCCGGCCTGGCGCACCCGCTCGCGCTCGCGGATCGCGTGGGCGGACCCACCCGTGATGCGCCGGCCCAGAAGGCTCAGCGCGTGCAGGGTGTCGGAGCCGCAGACGCCGTCGCCTTCCAAGCCGGAGTTAATTTGGTAGTTCACCAGCGCCTTGTGCGTCTGCTTGTTAAAGTGGCCGTCCACTCGGTGGGAGTAAAAGCCGAGCTCCTGGAGCTGTTCCTGTAG	MHARVDDDALAGQAGAGLAHPLALADRVGGPTRDAPAQKAQRVQGVGAADAVAFQAGVNLVVHQRLVRLLVKVAVHSVGVKAELLELFL				NA	NA	NA	NA	NA
AK009_09682	576			hypothetical protein	TTGGGCGTCGAAAAGCAGCTCTTGGTGCGAAAACTGGCGCGAGTTCCACTCCCCGACCTTGCCGTCGTAACCGTCGAGCATGCCGAGTCGTGCGAGAGTCGACCGCACCTCAGCGACGCGCGCGCTCGAATCGCCAACACGGTAAACGTCAGTCACTTCGCGCCTTCCTTCGGGGAGCTCATCGAGTATGGGACAACAAAAAGCTTATATTACCTAGCGGGTGGCCTAGATGTGTTGATGTATCCGCGAAACGATCTCGCTCTTCGGCTGCGCGCCGATCAGGGTGTCGACGGCGGCGCCGTCCTTGAAGATCATCACGGTCGGAAGAGACATCACCTGGAACATCGCGCCGAGCGTGCGCTCGGCATCCACGTCGACCTTGGCCACCTTGACCTGGCCGCTCATCTCCTCAGCTATCTGCTCGAGGATCGGGCTAAGCTTCTTGCACGGCCCGCACCACTCGGCCCAGAAGTCCACGACAACCGGGGTCTCGGAGTCCACGACCTCGGACTTGAAGGTGGACTGGGTGACGTCAATCGGCGTATTCATACCCGTCATTCTAGACCGGCCAAGTAG	MGVEKQLLVRKLARVPLPDLAVVTVEHAESCESRPHLSDARARIANTVNVSHFAPSFGELIEYGTTKSLYYLAGGLDVLMYPRNDLALRLRADQGVDGGAVLEDHHGRKRHHLEHRAERALGIHVDLGHLDLAAHLLSYLLEDRAKLLARPAPLGPEVHDNRGLGVHDLGLEGGLGDVNRRIHTRHSRPAK				NA	NA	NA	NA	NA
AK009_09683	1209			hypothetical protein	GTGTTCAGCGTCGATGGCCGCGCGGCAGCCCGAGCCAGCCGCCGTAATCGCCTGGCGGTAGTAGTTGTCCACCAGATCGCCGCAGGCAAACACACCCGGCAGCGACGTCACTGTCGACGGCTGGCGCACCTCAACGTAGCCCGCCTCGTCCGTGGCGACCTGGCCTTCGAGGAATCCGGAGCGCGGGTCGTGGCCGATGGCGACGAACATTGCGGTGGCATCAAGCACGGAGCTTTCGCCGGTCTGCACGTTCTTGATTTTGAGCCCGGCAACCTTGCCGGCGTTTTCCATCACTTCTTCGACGATGGTGTGGGTGACAAACTCGATCTTCTCGTTGGCGCGGGCGCGCTCGAGCATGATCTGCGAGGCGCGGAAGTTCTCCGAGCGGTGGATCAGGGACACCTTCGAACCGAAGCGGGTGAGGAAGTTTGCCTCCTCCATCGCGGAGTCGCCACCGCCGACAACGGCGATGTGTTGGTCTTTGAAGAAGAACCCGTCGCAGGTGGCGCAGGTGGACACGCCGTGCCCGGTCAGCTCGGTCTCCCCCGGCACTCCGAGGTGGCGGGGTGCTGCGCCGGTGGCCAGGATGACCGTGCGGGCGCGGTACTCCGTCTCGCCGACGTACACCTTCTTCACGTCGCCGCTAAGGTCAACGCGGTCGACGAGCTCGGGGGTGAGCTCGGCGCCAAAGCGCTCGGCCTGCGAGCGCATCTCCATCATCAGTTCCGGGCCCATGATGCCGTTTTGGAACCCAGGGTAGTTCTCCACCTCGGTGGTGTTCATCAGCTCGCCGCCGAACTCGTAGCCCTCGAAGACGAGCGGCTTGAGCTCGGCGCGCGCGGCGTAGAGCGCGGCGGTGTAACCGGCCGGCCCAGAGCCGACGACGATGAGGTCGCGCACCTCGCCCGGCACGGCCTGCGTTGTCGTTGGCTGGGCGGTGGTGTCCTCGGCAGGTGCGTCGCCGGCGGAGGGCACGACGAAGTTGAAGCCTGGGTTGGTCATAGCGGTAGATCTCTTTTCAGCATTCGCGGATATCTCGGATGCCAGTCTACTGCCCGCCTCGACGGGAGCGACTTTGATCAGTGGCGCAGGAGTGTGGTGGTGGTTTCTTACCCGGAGTTGGCGTCTGGGTTGGTGTCGGGTTTGTGGGGGAAGGTCATGCGGTATTCCTGCTCGAGGCGTGTCAGGGCTTCGATGCAGGTGTCGTAG	MFSVDGRAAARASRRNRLAVVVVHQIAAGKHTRQRRHCRRLAHLNVARLVRGDLAFEESGARVVADGDEHCGGIKHGAFAGLHVLDFEPGNLAGVFHHFFDDGVGDKLDLLVGAGALEHDLRGAEVLRAVDQGHLRTEAGEEVCLLHRGVATADNGDVLVFEEEPVAGGAGGHAVPGQLGLPRHSEVAGCCAGGQDDRAGAVLRLADVHLLHVAAKVNAVDELGGELGAKALGLRAHLHHQFRAHDAVLEPRVVLHLGGVHQLAAELVALEDERLELGARGVERGGVTGRPRADDDEVAHLARHGLRCRWLGGGVLGRCVAGGGHDEVEAWVGHSGRSLFSIRGYLGCQSTARLDGSDFDQWRRSVVVVSYPELASGLVSGLWGKVMRYSCSRRVRASMQVS				NA	NA	NA	NA	NA
AK009_09684	648			hypothetical protein	ATGAATACTTATGTAAGGGAACCAGTTAACGCATTTACTCACTTAGGTGGAGCGATCTTATCATTTATTGCCTTATTAGCTATGCTTGTGAAAGTTTCTATTAAGATGCCATCATTTGCTGCAATTACAGCTGTTATTTTGTTTGGTATTGGAATGATGGTCCTTTATGCGGCGTCAGCTGTGTATCATAGTGTTGTGGCCAATGAACGTGTTATTTACTTCTTTAGGAAGCTAGATCATTCTATGATTTTTATATTAATTGCAGGTACATATGCACCCTTTTGCTTAATTACATTAAATTCAGCAAGTGGTTTGCTATTATTTTGTTTAGTCTATGCAACTGCGATTTGTGGTATTGTGTTTAAAATGTTTTGGTTTAATTGTCCAAGATGGTTATCGACAGCAATTTATATTACGATGGGTTGGTTAATTGTTTTGTTCTTTGCACCGTTAGCTGAGAATTTAAGTACAGGAGGTATTGTTTTCTTAGTACTTGGGGGCATTTTTTATACAATTGGTGGATTTATTTATGGCACAAAGCCAAAATGGCTAGAGTTTAAATATATGGGACATCATGAAATTTTTCATGTTTTTGTATTATTAGGTAGTCTTGCGCATTTTCTAAGTGTATATTGTTACGTAATTTAA	MNTYVREPVNAFTHLGGAILSFIALLAMLVKVSIKMPSFAAITAVILFGIGMMVLYAASAVYHSVVANERVIYFFRKLDHSMIFILIAGTYAPFCLITLNSASGLLLFCLVYATAICGIVFKMFWFNCPRWLSTAIYITMGWLIVLFFAPLAENLSTGGIVFLVLGGIFYTIGGFIYGTKPKWLEFKYMGHHEIFHVFVLLGSLAHFLSVYCYVI				NA	NA	NA	NA	NA
AK009_09685	561			hypothetical protein	GTGGAAAATATAAATGAATTACTTGAGACATTACATTTAGAAAAAAATATTAAACTTGAGGATATTCCAAATGTTGACTTATATGTAGACCAAGTTGTCCAACTATTTGAGAATACTTATGCAGATACAACGAGAACTGATGATGAAAAAGTATTAACAAAAACGATGATTAATAATTACGCAAAAGGGAAACTATTCATCCCTATCAAAAATAAAAAGTATTCAAAAGAGCATATGATTTTAATTAGCCTGATTTACCAATTAAAGGGAGCTCTCTCCATTAACGACATAAAAAGTTCATTAGAAAATATAAATGACTCCTTATTAAACGATGATTCATTTGAATTAAATGCGTTATATAAAAATTATCTTGCTCTTACTGCAAGCAATGTCGAAAACTTTAAACAAGACGTAAATAAACGTGTTACAGAAGTAAATAAGATTTCTTCCTTAGAAGGTACAAAGCTAGAGAAATTTCTACTATTAACATCCTTCGTGACTATGAGTAATATGTATAGACGTTTAGCAGAGCAACTAGTTGATGATTTGAAAAAATCATAA	MENINELLETLHLEKNIKLEDIPNVDLYVDQVVQLFENTYADTTRTDDEKVLTKTMINNYAKGKLFIPIKNKKYSKEHMILISLIYQLKGALSINDIKSSLENINDSLLNDDSFELNALYKNYLALTASNVENFKQDVNKRVTEVNKISSLEGTKLEKFLLLTSFVTMSNMYRRLAEQLVDDLKKS				NA	NA	NA	NA	NA
AK009_09686	1446	dbpA_2	COG0513	ATP-dependent RNA helicase DbpA	ATGAGTAAAAAAAGTTTTTCTGATTATAAATTAAGTAAGGAAATTGTAAGGGCACTTACTGGGTTAGGATATGATCATCCAACAGAAGTACAAGGTGAGGTTATTCCAGTCGCATTACAAAAGAAGGATCTTGTTGTGAAGTCTCAGACTGGAAGTGGAAAAACAGCTTCATTTGGTATTCCACTTTGTGAAATGGTGGAGTGGGAAGAGAATAAACCACAAGCATTAGTTTTAACACCAACGAGAGAGCTTGCGGTGCAGGTAAAAGAAGATATTACAAATATAGGTCGATTCAAAAGGATTAAGGCTGCGGCAGTTTATGGGAAATCTCCATTTGCACGTCAAAAATTAGAATTAAAGCAAAAGACACACATTGTAGTTGGGACTCCTGGTCGTGTATTGGATCATATTGAGAAGGGTACCCTTTCTTTAGAGTGTTTGAAGTATTTAGTTATTGATGAAGCAGATGAGATGCTAAATATGGGCTTTATCGATCAAGTAGAGGCAATTATTGATGAATTACCTACAAAAAGAATGACAATGTTATTTTCAGCAACACTTCCAGAAGATGTTGAAAAATTGTCTCGTACATATATGAATTCACCAACTCATATTGAAATTAAAGCAGCTGGGATTACAACGGATAAAATTGAACATACTCTTTTTGAGGCGATAGAAGACGAGAAGTTTTCACTACTTAAAGATGTAACAATGATTGAGAATCCTGATAGTTGTATTATTTTCTGCCGTACACAAGAAAATGTAGATCATGTATATAGACAGCTAAAACGAGCTAATTATCCTTGTGACAAAATACATGGTGGTATGGTACAAGAAGATCGTTTTGAAGTCATGGATGATTTTAGAAAAGGAAAATTCCGTTATTTAGTAGCAACAGACGTAGCTGCGAGAGGAATTGATATTGATAATATTACACATGTTATTAATTATGATATTCCACTTGAAAAAGAAAGCTATGTACATCGTACTGGAAGAACGGGACGAGCTGGAAATAGTGGAAAAGCTATTACATTTATAACACCATATGAAAATAGATTTTTAGAAGAGATTGAGGATTATATTGGTTTTGAAATTCCAAAGGCAATTGGACCTTCAAAAGAAGAAGTTATGAAAGAGAAAGCTGCATTTGAAGAAAAGATACATGCTAAACCAATTATTAAGAAAGATAAAAATGCGGACATAAACAAAGGCATTATGAAGCTGTACTTTAATGGCGGGAAGAAAAAGAAAATTAGAGCGGTAGATTTCGTCGGTACAATTGCTAAAATTAAAGGTGTTACAGCAGAAGATATAGGCATTATTACGATACAAGATAACGTTTCTTACGTTGAAATATTAAATGGAAAAGGACCACTTGTCTTGAAAGTCATGAAGACTACAACGATTAAAGGGAAACAATTAAAAGTTCATGAGGCAATTAAGTAA	MSKKSFSDYKLSKEIVRALTGLGYDHPTEVQGEVIPVALQKKDLVVKSQTGSGKTASFGIPLCEMVEWEENKPQALVLTPTRELAVQVKEDITNIGRFKRIKAAAVYGKSPFARQKLELKQKTHIVVGTPGRVLDHIEKGTLSLECLKYLVIDEADEMLNMGFIDQVEAIIDELPTKRMTMLFSATLPEDVEKLSRTYMNSPTHIEIKAAGITTDKIEHTLFEAIEDEKFSLLKDVTMIENPDSCIIFCRTQENVDHVYRQLKRANYPCDKIHGGMVQEDRFEVMDDFRKGKFRYLVATDVAARGIDIDNITHVINYDIPLEKESYVHRTGRTGRAGNSGKAITFITPYENRFLEEIEDYIGFEIPKAIGPSKEEVMKEKAAFEEKIHAKPIIKKDKNADINKGIMKLYFNGGKKKKIRAVDFVGTIAKIKGVTAEDIGIITIQDNVSYVEILNGKGPLVLKVMKTTTIKGKQLKVHEAIK				NA	NA	NA	NA	NA
AK009_09687	987	guaC	COG0516	GMP reductase	ATGATGGAAAACGTATTCGACTATGAAGATATTCAATTAATTCCTGCAAAATGTATTGTAAATAGCCGCTCTGAATGTGATACAACTGTCACTTTAGGAAAACATAAATTTAAATTACCTGTCGTGCCTGCAAATATGCAAACGATTATTGATGAAAGAATCGCAACTTATTTAGCTGAAAACAATTACTTCTATATCATGCATCGTTTCCAACCAGAGAAACGAATCTCATTCATTAGAGATATGCAATCACGTGGATTAATCGCTTCTATCAGCGTTGGTGTAAAAGAGGACGAATATGAATTCGTACAACAATTAGCTGCTGAGCAAATTACACCTGAATATATCACGATTGATATCGCACACGGTCATTCTAATGCTGTGATCAACATGATTCAACATATAAAAAAACATTTACCAGAGAGCTTCGTTATCGCTGGAAACGTTGGAACTCCAGAAGCGGTAAGAGAATTAGAAAATGCTGGTGCTGATGCAACAAAAGTTGGTATTGGACCTGGTAAAGTTTGTATTACTAAAATTAAAACAGGCTTCGGAACTGGTGGTTGGCAGCTAGCTGCACTTCGCTGGTGTGCAAAAGCTGCAAGTAAGCCAATTATCGCTGATGGTGGTATTCGTACACACGGCGACGTAGCTAAATCTATTCGATTTGGGGCAACTATGGTCATGATCGGTTCTCTATTCGCTGGTCACGAAGAGTCTCCAGGGGAAACAATCGAAAGAGATGGCAAACTTTATAAAGAATACTTCGGTTCTGCTTCTGAATTCCAAAAGGGTGAGAAGAAAAACGTTGAAGGTAAGAAAATGTTCGTTGAGCATAAAGGTTCTTTAGAAGATACGTTAATCGAAATGGAACAAGATCTTCAATCTTCTATCTCTTACGCTGGCGGAACAAAATTAGATGCTATTCGTACTGTAGATTATGTTGTCGTGAAAAACTCGATTTTCAACGGCGATAAAGTATATTAA	MMENVFDYEDIQLIPAKCIVNSRSECDTTVTLGKHKFKLPVVPANMQTIIDERIATYLAENNYFYIMHRFQPEKRISFIRDMQSRGLIASISVGVKEDEYEFVQQLAAEQITPEYITIDIAHGHSNAVINMIQHIKKHLPESFVIAGNVGTPEAVRELENAGADATKVGIGPGKVCITKIKTGFGTGGWQLAALRWCAKAASKPIIADGGIRTHGDVAKSIRFGATMVMIGSLFAGHEESPGETIERDGKLYKEYFGSASEFQKGEKKNVEGKKMFVEHKGSLEDTLIEMEQDLQSSISYAGGTKLDAIRTVDYVVVKNSIFNGDKVY	PGPT0021450_861	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364	NA	NA
AK009_09688	1818	pepF1_3		Oligoendopeptidase F, plasmid	TTGAAAAATGTAATGGAAAATCGCCTTAATCGCGCAGAGGTGCCTGCTGAACTAACATGGGATTTATCCGATTTGTATAATTCTGATGCCGAATGGCATACCGCATTAAACGTATTAGAAAATGATATACAGAAACTTGATACATTTAAAGGACGTTTACATACCAACTCCACAACTTTATTAAATTGCCTACTTTTAGAAGAAGAGCTTTTAATGAAGTTAACAAAACTGTATTCATATGCAAATTTAAAAGAATCTAATGATCGTACAAATCCAGTTATTCAAGCGAACTCTTCCAAAATTTCTGCTTTATGGACGAAAGTACATACTGCACTATCCTTTATCCATAATGAAATTCTCTCACTTGAAGAAGGAACAATTGAAAAATATTTAACTGACGAAACAAAACTTGAACCTTTCCGTAAGTCGTTACTAGAGATACTCAAAAAAAGGCAGCACACTCTCTCTCCTGAAACAGAAGAAGCACTTGCTGCACTTGGCGAAGTTCATAGTTCTCCATACAAAATTTACGGCATGACTAAATTGGCCGATATGGATTTCACTTCTATACAAGACGAACAAGGAAACGAACTCCCTGTTTCATTCTCATTATTTGAAAGCAAATATGAATTTTCTCCAAGCACATATATACGTCGAAAAGCATATTCATCATTTGTTTCCACACTAAAACAATATAAAAATACAATTGCCACAACATATGCTACTGAAGTTAAAAAACAAGTAACACTTTCTCGTTTACGTAAATATGAATCCGTTACCCATATGCTATTAGAACCACAAAGAGTTCCACTTGAAATGTATAACAACCAACTTGATATTATTTATAAAGAATTAGCACCTCATATGCGCCGTTTTGCAGATTTAAAAAAGAAAGTATTAGGACTCGATCAAATGCTTTTCTGCGACTTACATGCACCTTTAGATCCCGAATTTAATCCAGCTATTACTTATGAAGAAGCAGGCACGCTCATTCAAGATTCTTTAAAAGTATTAGGCGATGAATATAGTTCAATAATCCAAAAAGGATTCAAAGAAAGATGGGTAGATCTTGCAGATAACGTAGGCAAATCAACCGGGGCATTTTGCTCAAGTCCATACGGCTCTCATCCCTATATTTTAATTACATGGCAAAATACGATGCGTGGATGCTTCACATTAGCACATGAATTTGGACATGCTGGTCATTTCTATTTAGCAAATAAAAACCAACGTATCATGAACGTACGCCCATCTATGTACTTTGTTGAAGCACCATCAACTATGAATGAATTACTATTAGCTCAGCATTTACTAGCGACTACTGACGATAAGAGAATGCGCAGATGGGTCATTCTACAACTACTTGGCACATATTATCACAACTTTGTTACTCATTTACTTGAGGGTGAATATCAACGTAGGGTATATGCTCTAGCAGAAGAAGGACAGGCCCTTACAGCTACAACTTTAACTGAAATTAAAACAAATGTCCTTTCGACATTCTGGGGAGATTCTGTAGAAATCGATGAAGGTGCGGGCTTAACTTGGATGCGTCAGCCTCATTATTATATGGGTCTATATTCTTACACATATTCCGCAGGCCTCACTACAGCTACTGCAATAGCTCAAATGATTAAAGAGGAAGGACAACCTGCTATTGATCGCTGGTTAGATGTGCTTCGCGCTGGTGGTACAATGAAACCACTTGAACTAATGAAACATGCCGGAGTAGATATGTCAAAATCAGATGCAATCCGTAAAGCTGTTTCTTACGTTGGTTCATTAATTGATGAATTAGAGCATTCTTATCAAGAATAA	MKNVMENRLNRAEVPAELTWDLSDLYNSDAEWHTALNVLENDIQKLDTFKGRLHTNSTTLLNCLLLEEELLMKLTKLYSYANLKESNDRTNPVIQANSSKISALWTKVHTALSFIHNEILSLEEGTIEKYLTDETKLEPFRKSLLEILKKRQHTLSPETEEALAALGEVHSSPYKIYGMTKLADMDFTSIQDEQGNELPVSFSLFESKYEFSPSTYIRRKAYSSFVSTLKQYKNTIATTYATEVKKQVTLSRLRKYESVTHMLLEPQRVPLEMYNNQLDIIYKELAPHMRRFADLKKKVLGLDQMLFCDLHAPLDPEFNPAITYEEAGTLIQDSLKVLGDEYSSIIQKGFKERWVDLADNVGKSTGAFCSSPYGSHPYILITWQNTMRGCFTLAHEFGHAGHFYLANKNQRIMNVRPSMYFVEAPSTMNELLLAQHLLATTDDKRMRRWVILQLLGTYYHNFVTHLLEGEYQRRVYALAEEGQALTATTLTEIKTNVLSTFWGDSVEIDEGAGLTWMRQPHYYMGLYSYTYSAGLTTATAIAQMIKEEGQPAIDRWLDVLRAGGTMKPLELMKHAGVDMSKSDAIRKAVSYVGSLIDELEHSYQE				NA	NA	NA	NA	NA
AK009_09689	879	moaA_6		GTP 3',8-cyclase	GTGAAGAAGTTTAAGAAGTTTTACTTGGAGATTACGAGTGTGTGTAATCTTGCGTGTAGCTTTTGTCCGCCGACGGAAAGGCAGAAGCAATTCATTTCTGTAGAGGATTTTGCTAAAAGATTAGACCAAATTAAACCTCACACAGACTACATTTATTTGCACGTGAAGGGTGAGCCGTTGCTCCATCCGAAAATAGATCAGCTATTAGACTTAAGTCATGAAAAAGGGTTTAAAGTTAATATTACAACGAACGGAACGTTAATTAATAAGAGAAGGCATAGGCTGTTAAATAAGCCCGCGTTAAGACAAATGAATTTTTCACTGCATAGTTTTGATGGACACCCAGGTTCGCAAGATAAAGAGGGCTATGTAAGGAGTATACTTTCCTTCATTAGGGAAGCGACAAGTCAATCAGATTTAATTGTATCGTTAAGGTTATGGAATTTAACTCAGGATAATAAAACAAATGCTGAAATCCAGAAAAATAGAGAGTTATTATCCATAATTGAAAATGAATTTGATCTATCTTATCAGATTGAAGAGAAGCTTACACCAGGAAAAGGTATAAAAATTGCAGAACGTGTCTTTATTAATCAAGACTATGAATTCCAGTGGCCAGCATTACATGAAGAAGAGGATGATGGGAAAGGATTCTGTCATGGACTTCGTAATCAGGCAGGGATTTTAGCGAATGGGACGGTTATTCCTTGTTGTTTAGATGGTGAAGGGATTATTAACCTTGGAAATATTAATAATGATTCATTTTCTAACATTATAGAAGGTGAAAGAGCAACAAACATTGTCGATGGATTTTCAAAAAGAGTTGCGGTTGAAGAGCTTTGTAGGAAATGTGGATATCGTAAAAGGTTTGGGAAGTAA	MKKFKKFYLEITSVCNLACSFCPPTERQKQFISVEDFAKRLDQIKPHTDYIYLHVKGEPLLHPKIDQLLDLSHEKGFKVNITTNGTLINKRRHRLLNKPALRQMNFSLHSFDGHPGSQDKEGYVRSILSFIREATSQSDLIVSLRLWNLTQDNKTNAEIQKNRELLSIIENEFDLSYQIEEKLTPGKGIKIAERVFINQDYEFQWPALHEEEDDGKGFCHGLRNQAGILANGTVIPCCLDGEGIINLGNINNDSFSNIIEGERATNIVDGFSKRVAVEELCRKCGYRKRFGK				NA	NA	NA	NA	NA
AK009_09690	1473			hypothetical protein	ATGTACTTAGGGGGGATTAACATATTTAAGGAAGATATGAAAAAAATATTGGCATCATTACTAAAAAATCCATTAGTAATAATCGTATACTGGATTTTTTGTTATGAGTTAGCTTTATTATGTATGTATGGGAGAATGAATAATAATATTTATATTTGGTTATTATCTATAGCATTTCTAATACTTATCATTATATTTACTACAATTAAAATTGTGAAAAATAGGGAACGCGAATCATCCAAATTATTAAATGTAAAGGGATGGAAATACATTTCTGTTCTAATACTTATCCTTATAACGTCTTTTTATGGGATAAAAATTTATAAAAGTGCAACGAATTATGGCGGTAAACTAGCATGGTTTATAGAAAGCGTAAAAAACGAAAGATCAGTTAAACTTGAGCGTGATAATATATATAAGTATGGTGTAGAGGGCATTTTTGAAGATATAAATAAGAAATATACTTTGCCAAAGAAGTTATATATGCCGGATGATTTTACTTTGGAATTTAAATCAGATGGAACAATTACATCATTTGATACTTTTCTTTATGGGAAAAATGCTGCTGGAAAAGAGGAAAGCTACTTAATATCTTATAATAAAAATAAATCAAAAGATATTTTTGTAGGATTAAATGGGTATGTTAACGCTGATTATAATGAAGATAAATTAGTAAAACCTTTAATTAAAACAGTTCAAGCCATTCCAGTTAAACAAACTGTAAGTAAGTGGAATGAAGATAAGTATGGGCTGGTCTATTATGGGAAAAGGAACTGGGGTTACAACAGAGAAGGAATTATTAATATTAATAAAGATGGGAAATTAGAGAAGCTTGAAGAAGCAAAGTCCGAAATAATTGGATATACGGTATCTATATTTATCCCTGGAAAAGAGAAAGAGGTAGTACCTGCTAGATATAATTTACTAGGTGACCCAAATTGGAGTAAGGAAAGTAGTTCTAAAAAGAAAAAGAAGAATTTAACTAATAATAATGAGCAATTTTACTTTTCAAAAGAAGTTGGTTATAAACTAGATGTCACAGATAAAGCATTAGGGAGCACCTTTTATTCACTAAGCAAGACAATTGATGGAGGGGAAACATGGGGAGTTATAAATGAAGACCCGTTCAATGAAGCGGTAGGTAGTGCATCAGGAATCATCTTTTTTAATGAAAAGCTCGGATTTTTAAGGGCAGCCAGACCCTCTGGAAATGAAGGGAGGTTATACCGTACAGATGATGGGGGTATAACTTTTAAAAAGTTGAGCTATACAAATTATGAAGTGAAACTAGAAAGTGGACAGGCAATAAATCCGTTTGATTTTCCTAATATGCCTTATGAGAAGGATGGAGTTTTTAACATGCTAGTAGGGCAAGGAGCAGATGGAGACTACAATGGTAATAGTAGTATACTTTATCAATCAAAAGATCAAGGTGAAACATGGGAGTATGTAAAAGAGGTTAAAGATAATTAA	MYLGGINIFKEDMKKILASLLKNPLVIIVYWIFCYELALLCMYGRMNNNIYIWLLSIAFLILIIIFTTIKIVKNRERESSKLLNVKGWKYISVLILILITSFYGIKIYKSATNYGGKLAWFIESVKNERSVKLERDNIYKYGVEGIFEDINKKYTLPKKLYMPDDFTLEFKSDGTITSFDTFLYGKNAAGKEESYLISYNKNKSKDIFVGLNGYVNADYNEDKLVKPLIKTVQAIPVKQTVSKWNEDKYGLVYYGKRNWGYNREGIININKDGKLEKLEEAKSEIIGYTVSIFIPGKEKEVVPARYNLLGDPNWSKESSSKKKKKNLTNNNEQFYFSKEVGYKLDVTDKALGSTFYSLSKTIDGGETWGVINEDPFNEAVGSASGIIFFNEKLGFLRAARPSGNEGRLYRTDDGGITFKKLSYTNYEVKLESGQAINPFDFPNMPYEKDGVFNMLVGQGADGDYNGNSSILYQSKDQGETWEYVKEVKDN				NA	NA	NA	NA	NA
AK009_09691	156			hypothetical protein	ATGGCTGATCAATTGAATGAAATCCTTGCAGTCAATAGGGACTTTGGGAGCGGGCTGGAGTGGGCGGGGGTTTTAGGAACGGGTGATTTGAGTGTCTGCCTGACCGATCTACACCGCAGTTTTCCACTACACAGCCCGCCGCTCGTCCTGCGTTGA	MADQLNEILAVNRDFGSGLEWAGVLGTGDLSVCLTDLHRSFPLHSPPLVLR				NA	NA	NA	NA	NA
AK009_09692	771			hypothetical protein	ATGGAATTGCGAGAATTTCTCTATTTGGATGAGGAACTGGTCAACCAATTCGTAAGTCAGCTTGATTTCGGTTTGGTTGATTCGGAGAGAATCACTCATGCTAACGCGAGATCTAAGGACGGAAAAGTCAGCGCCCGCGTTGTGGAAGGTGGCGCAGGCTTAAACTCCTCTGAGGAAGTAATCTATGATCGGGCGCTTACCCCGGAAGCGAAATTTAATCGTCTGTTCGATAATATGAATGCACTCACCATTGATCCAGAAAATCCAGTGGCCTACTCAGACTTGAAGAATCGGTCATTTGTCGCACTTGATTGTGAGATTTCGATACCAACCGTTGGAAAACTCATTGCACAGGTCGATGAAATCGCCCCTCTCGGTTCACTTATGAGTGTGATCACAGGTGGAAGCGACCCGAAAGTCGTTGAAACTATGGAGCAAATGCAGGCATTTGGTGAGATGGCTGGGAAACCAATCATTGCCATCGGGGAGGTTGAACATGGCCTGCAAAATTACTTCTTCAAGTTGAACCTAGACTATTTGCGCACTGATTTGGATGGAATCGAATGTGATGCAGTCGTTGTTGGTAAAGTCGAGCGGAAGTGGCCTGAAGGGGAACGGCATTCTCTGGTCAACATTCCAGGCATGAGCCTAATGAATCGAAAGACTCGGCGAAAACTCCTCCAGCAGCAAGAGGATGTTCAACCAATAAACGCGGAAATGGAAACCGAGGGCCCTGGTGCTTCATTGCGGGTAATAGCGATCTACCGCTGA	MELREFLYLDEELVNQFVSQLDFGLVDSERITHANARSKDGKVSARVVEGGAGLNSSEEVIYDRALTPEAKFNRLFDNMNALTIDPENPVAYSDLKNRSFVALDCEISIPTVGKLIAQVDEIAPLGSLMSVITGGSDPKVVETMEQMQAFGEMAGKPIIAIGEVEHGLQNYFFKLNLDYLRTDLDGIECDAVVVGKVERKWPEGERHSLVNIPGMSLMNRKTRRKLLQQQEDVQPINAEMETEGPGASLRVIAIYR				NA	NA	NA	NA	NA
AK009_09693	3201			hypothetical protein	ATGTTTAGCGAAGACATGCTGGAACATCAGACCCTGGAGCAACTGGGCGAGGCCGAATGGGAATACCGTCCTGGCAAGGATGTCGCGCCGGGCTCGGGTGAGCGCCAGAGCTGGAAAGAAATAGTGCTGCGGGCGACCCTCGAAGCCGCAGTTCGCAAGTTGAATCCTGACGTTCCAGAGGAATTCCGGCAGCAGGCTGTCGGTGAGTTGCTCACTCCAAAATCTCAAGACCCGGTTGCAGAAAACCGTCGTGTCCACGAGATTCTGGTCGAGGGCTACCGAGGGATTACGTACTACGATCTCGATGGACAACCAAACAATCCGACGATCTACTTCGTGTCCGCCAATCCAGACGAGAACACCTACCACGCGGTTAACCAGGTCACTATCCGGAATGTGGAGTTCGAGCGACGATTCGACGTCGTCTGTTATCTGAACGGTCTGCCGGTGGCGATCATCGAGCTGAAGAAACCCTCCGGTAACTCCACTGACGAGGAAGCCTACAACCAGCTCCAAACCTACGTCGCGGAGTTCCCGATGGCATTCCGCTTTGCCAACATCATCGTTGCTAGCGACGGTATCGACGCCCGCTACGGAACTCCATTCACGCCGCTCAACCACATGGCGCCGTGGAACGTCGACGACGATGGCATGCCAATCGACCTCGGATCCATTGATGACGAAGCTGAGATGCAACTTGGCCTGGACAACCTGTTGTGGGGCGTGTTCAACATCGAGCGATTTCTGCAGCTCCTGCGCGAGTACACCGCCTACGACGACACCGAAAAGGGTTTGGTCATGCGTGTGGCCAAGCCGCACCAGTACTTTGCGGTGACCAAGGCTGTAGGCAGCACCATTCAGGCTGTGCGTAGCGACGGCAGGGCCGGCGTCGTCTGGCACACCCAAGGATCCGGCAAATCCATGGAAATGGAGATGTACGCGGCAAAAGTCATGCGTGCGCCGGAACTGGAGAGCCCGACGATTATCGTGATCAACGACCGCACTGAGCTCGATGGTCAGTTGTTCAGCACCTTCCAGGTCTCGACGTTGTTGCCGGAGAAGCCGCAACAGGTGGATTCTCGTTCCGAGCTGCGTAGTGCCTTGGCGGCCAGGACGTCCGGTGGCATTTACTTCACCACGCTGCAGAAGTTTGGCTTTAACAAGAATGAGCGGGAAAAGAGGAAGCTAGACCCGACTTTCAAGCACCCTCTGATTTCCGATCGCCGGAACATCATCGTGATTGCCGATGAAGCACACCGATCACACTACGGTCTCGACGAGGGCTTCGCCGCCAACCTGCGAGCAGCACTCCCTCAAGCCACCATGATCGCTTTCACAGGTACGCCAATTTCCGAATTCGACCGCGACACGCGCCAAGTCTTCGGCGACGAAATCGACGTCTACGACCTCAAACGCGCCGTCGAAGACGGAGCGACCGTACCGGTGTTCTTCGAGCCACGTCTCATCCCGCTCGCCCGAGTGGAAGGCATCACTGACGAATACATCGACGACACTGCGGAAGAGGCCATGGATGGGCTCAGCGAAGCAGAGCGCGTTCAAATTCAACGCACCACGGCTGCGCTCGAAGCTCTGTATGGCACCGAAGACCGTCTGAACATGCTGGTCGACGACCTGTTGTTACGGTGGGACGACCGACGCGCGGTCATGCAAGACTTCATCGGCGGTCCGGGTAAGGCGATGGTCGTGACGTCGACACGCAGCATTGCCGCACGCATCTACGACAAGATCATTGAACGCCGCCCCGACTGGCATAGCGACGCCGACGACAAAGGCAAGGTCAAGGTGGTCTACTCGGCCAACCCATCGGATCCAGCCGAAATCAAGAAGCACATGCGCCGACCAAGTGCGCTCACTGCCGTGAAAGAGCGTGTGAAGAATCCAGACGATGAACTCGAAATCATCATCGTCAAAGACATGATGCTCACCGGCTTCGACGCTCCGCCCCTGCACACTCTCTTCATTGACCGTTCATTGCGAGGCGCCCTGCTCATGCAGACCCTCGCCCGCATCAACCGCACTTTCCGAGGAAAGCCAGACGGCCTCCTCATCGCCTACGCTCCCCTCACCGACAACCTGAGGGCAGCGTTGGACGAGTTCACCGTTGATGCCGATGGCACGGACAAGAAAGTGATCGGGCAGCACGCTTCCGAAACCCTCGAGATCGCACGTGGATTCCTGGTGCAAATCGATGGACTGGTGAAGGTCGACTGGCGCAATCAAGTTGCCTCGGGAGACGTGCGTGGTGCAATTTCTCGAGTTGTCGGTTTCTTGAGGTCTCCCCGGACTTCGGGGAATGTTGATCCGTCTGATGCTTTGTCCAGACCGCTTTCGAAGCAATTCCGGGATTTGACGTCGTCGTTGGCACGTGCCTGGGCAGTCGCGGTGTCGGCGGACGGTGCAGAATCGCTGAAACCCGAGGTCAAGTTCTATCTGGAAGTACGACAGTGGCTGATCAAGATAGAAGCCGCTGATCGTGCGAGCCGAGGCGAGCCGATCTCCGACACGGCCCGCCGAATACTTGGCCAACTCGTAGTCGACTCTGCGGAGAGTCTCTCCGTTATCGACATCTATGGCGAGATAGGCCAGGACATCCCCAATCTGCAGCAATTGGCAGTCGAAGGGCTCACACCGGAGAAGCTGAAGACCGATATCGAAATCGCCATTGAGTCACTTAGGGCAAAGCTCCAACAGGGTATTCGCGAAGCCACCGGCAATAACGAACTGCGAAGCACGCTGTTCTCCGAGCGAATCCGAGACGTTATGACTCGATACACCAATCAGCAGCTTACTGCCGCTCAGGTCATCGCCGAGCTGGTCGAGCTCTCCAAGGAAGTGGTCGAAGAATCACGTCGCGGTGAGAAGTTCACGCCCGCCCTGTCGAACGATGAGCTGACTTTCTTCGACGTGGTCTCACAAAACGAATCCGCCGTGACTGTTTTGGGTGACACCGTACTTGCAGACATCGCGCGAGAACTCGTAGCCACGATGCGCCGCGACACACGCACCGACTGGACCGTCCGCGACGACGTGAAGGCAAAGCTACGCCGCACCATAAAGCTACTGCTGCGCAAGTACGGTTATCCACCGGACCGGCAAAAGGAAGCCACGCAATTGGTTTATGAGCAGATGGAGAAGTTTGCGCCGAGGTACGCGAACGACCAATGCAAGGATGAAAAGTAA	MFSEDMLEHQTLEQLGEAEWEYRPGKDVAPGSGERQSWKEIVLRATLEAAVRKLNPDVPEEFRQQAVGELLTPKSQDPVAENRRVHEILVEGYRGITYYDLDGQPNNPTIYFVSANPDENTYHAVNQVTIRNVEFERRFDVVCYLNGLPVAIIELKKPSGNSTDEEAYNQLQTYVAEFPMAFRFANIIVASDGIDARYGTPFTPLNHMAPWNVDDDGMPIDLGSIDDEAEMQLGLDNLLWGVFNIERFLQLLREYTAYDDTEKGLVMRVAKPHQYFAVTKAVGSTIQAVRSDGRAGVVWHTQGSGKSMEMEMYAAKVMRAPELESPTIIVINDRTELDGQLFSTFQVSTLLPEKPQQVDSRSELRSALAARTSGGIYFTTLQKFGFNKNEREKRKLDPTFKHPLISDRRNIIVIADEAHRSHYGLDEGFAANLRAALPQATMIAFTGTPISEFDRDTRQVFGDEIDVYDLKRAVEDGATVPVFFEPRLIPLARVEGITDEYIDDTAEEAMDGLSEAERVQIQRTTAALEALYGTEDRLNMLVDDLLLRWDDRRAVMQDFIGGPGKAMVVTSTRSIAARIYDKIIERRPDWHSDADDKGKVKVVYSANPSDPAEIKKHMRRPSALTAVKERVKNPDDELEIIIVKDMMLTGFDAPPLHTLFIDRSLRGALLMQTLARINRTFRGKPDGLLIAYAPLTDNLRAALDEFTVDADGTDKKVIGQHASETLEIARGFLVQIDGLVKVDWRNQVASGDVRGAISRVVGFLRSPRTSGNVDPSDALSRPLSKQFRDLTSSLARAWAVAVSADGAESLKPEVKFYLEVRQWLIKIEAADRASRGEPISDTARRILGQLVVDSAESLSVIDIYGEIGQDIPNLQQLAVEGLTPEKLKTDIEIAIESLRAKLQQGIREATGNNELRSTLFSERIRDVMTRYTNQQLTAAQVIAELVELSKEVVEESRRGEKFTPALSNDELTFFDVVSQNESAVTVLGDTVLADIARELVATMRRDTRTDWTVRDDVKAKLRRTIKLLLRKYGYPPDRQKEATQLVYEQMEKFAPRYANDQCKDEK	PGPT0027170_1371	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
AK009_09694	1149			hypothetical protein	ATGATTAAGTCTCAAAAGATCGGCGATGTCCTAACTGTCTTTGACAATGCTCGCCGTCCTATTAAGTCGAACGAACGAATTCCGGGAACAACGCCGTATCTAGGGGCATCGGGTGTGGTTGATTTCGTGGAAGGAAAAACTCACGATGGGCCGTTGCTTTGCCTGGCTGAAGACGGTGAGAACCTGCAATCTCGTTCGCTACCAGTAGCCTGGTGCCAGGATGGAGAATTCTGGGCTAATAACCATGTGCATGTTCTTGGCGGAGTTTCTCGTGATCGGCTGAAGTTCTTTGAGTATGCAATTCTCAACACGGATTTGTCGGGTTTCATCACTGGATCTGCGCAACCCAAGTTGTCTCGACAGGCTATGAAGGACATTGTGGTTCCCAATTTTGGGGTGGCGATGGAAGAGCGGATTGGTGAGTTTTTCGGTGCACTTGACGACAAGATCGCGGCGAACCAGCGGGTAATGGCTATTTCTTATAGGTTGATTCAGACGATTGGGGCTACTGTTCAAGAATTTGTTGAATTGGGGTCAGTCGCACAGACCGACAAAAAGAGTGTCACACCTGAGATGATGAGTGGCAAAACAGTCCAACTTCATTCGATTCCGGGTTTCGATACTGGGGAGCCTGAGTTGGTAGACGGTGAAACTATTAAGAGTGGAAAATTTTTGCTGGTCGAGCCACGTGTCTTGGTTTCGAAGCTGAATCCGCTCACCCCACGTGTTTGGAACACCAGTGTCGCAGACGAAGGCGAACTTGTCGTTTGCTCAACCGAATTCATTCCTTTGTCCTCCAGTGAAGTTCCCAATTCTGCACTGTATGCATCATTGATTCAGCCCGAGTTCTCATCACGTCTTTCTGAATGTGCTTCGGGCACATCCAATAGCCATCAAAGAGTTAAGCCGGAAGACATGTTCGTTACTCCAATTCGGGATCCGCGAGAGTTCACCGATATTCAAATTGGTCAATTGGAGGCGCTGAGTTCAATGGTCAATGACCTTATGAAACAAAACCAATCCCTCGCCCGCACCCGCGATGAGCTCCTGCCTCTGCTGATGAGTGGGAAGATCACCGTGGCAGAGGCGGAACAGGAGGTGGAAGAAATGGGCGTCGAAAAGCGTGCGGAAGGAGCAGGCAATGTTTAG	MIKSQKIGDVLTVFDNARRPIKSNERIPGTTPYLGASGVVDFVEGKTHDGPLLCLAEDGENLQSRSLPVAWCQDGEFWANNHVHVLGGVSRDRLKFFEYAILNTDLSGFITGSAQPKLSRQAMKDIVVPNFGVAMEERIGEFFGALDDKIAANQRVMAISYRLIQTIGATVQEFVELGSVAQTDKKSVTPEMMSGKTVQLHSIPGFDTGEPELVDGETIKSGKFLLVEPRVLVSKLNPLTPRVWNTSVADEGELVVCSTEFIPLSSSEVPNSALYASLIQPEFSSRLSECASGTSNSHQRVKPEDMFVTPIRDPREFTDIQIGQLEALSSMVNDLMKQNQSLARTRDELLPLLMSGKITVAEAEQEVEEMGVEKRAEGAGNV	PGPT0027175_3934	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
AK009_09695	1608			hypothetical protein	ATGGCACGAACCAAGAAGGAAGAGATTAAAATCCCTTCCACGATGAAGGAAATCAAGGACACCCTGTGGAGGTCTGCGGACAAGCTCCGCGGCTCGATGGATGCGTCCCAGTACAAGGACGTCGTACTCGGACTGGTGTTCCTGAAGTATGTCTCGGACTCTTTTGAGGAGCGACAGAACGAGATTCGCAAGGAACTCGAATCGCAAAACTATACGGAAGAAGACATCCAAGAGGACCTCGCTGATGTCGATGCTTACACCAGCGAGAACGTCTTCTGGGTCGCCCCAATGTCACGGTGGGACTTCCTCCAAAAGAACTCCAAGGGAATGGAACTCGAGGGAAAGCATAAGTCCATCGGCAAGCTAATCGACGAAGCAATGCAGCAACTCATGGCTGACAATGAGTCCCTCCTTGGCACTCTTCCGCTGATCTATGGTCGGGATAACATCGACCAGCGCCGCCTCGGCGAGCTGGTGGATCTGTTCAGCTCGACGTATTTCGCCAGCACGAAGGAAAAGAAGGCTCGCGACCTGCTCGGTGAGGTTTACGAGTACTTCCTGGATAAGTTCGCCAAGGCGGAAGGCAAGCGGGGTGGCGAGTTCTACACACCACCGCCGGTGGTCCGCACCTTGGTGGAAATCCTGGAGCCGACCGAGGGCCGCGTCTACGACCCGTGCTGCGGTTCGGGCGGCATGTTTGTGCAGGCTGAGAAGTTCCTGGAGGCCACGAAGCGGGATCGTAGCGCCATCGCGGTGTATGGCCAGGAGCTGAACGAGCGCACGTGGCGCATGGCCAAGATGAACCTGGCCATCCACGCGATTAGTGCCGCTGGGCTTGGAGAACGCTGGGCAGATACCTTCGCCCGGGACATTCATGCTGGCATGCAGATGGATTACGTCCTGGCTAACCCGCCTTTCAACATCAAGGACTGGATCCGCAATGAGGAGGACAGCCGCTGGAAGTACGGCGTGCCACCTGCGAGGAATGCCAACTTTGGCTGGATGCAGCACATTGTGTCCAAGTTGAAGCCGCATGGGGAGGCCGGTGTGGTCATGGCGAATGGCACTATGACGTCGCAAAGCGGCGGCGAGGGCGAGATCCGCAAGAACATGGTGGAAGACGACGTGGTTTCGTGCGTGATTGCGTTGCCGGCGCAGTTGTTCCGTGGCACAGGCATCCCGGTGTGCGTGTGGTTCTTCGCGAAGGATAAGGCGGCTGGTCGCTGTGGAAGTGCGGATCGTCGCGGTGAGGTGCTGCTTATCGACGCCCGTCAGCTCGGCCACATGATTGATCGGACGGAACGTGCGTTCAGTGATGAGGACATTCACCGCATTGCCAACACGTTCCGCACGTGGCGCGGCCGCGAATCTGCGGAGGGCGAGTACGAGGACGTGGCCGGATTCTGCAATTCCGCAACCATCGAGGAGATTCGCGAGGCGGGCTACGCCCTGACCCCGGGCCGCTATGTAGGAATGCCTGAAGTAGAGGACGATGCCGAACCCATCGACGAGAAAATAGCTCGTCTGACCAGCGAATTGACGGTGGCATTGGACGAATCTTTGCGCCTGGATGTCGCCGTGCGCGAGCAGCTGGGGAGGTTGGAGTGA	MARTKKEEIKIPSTMKEIKDTLWRSADKLRGSMDASQYKDVVLGLVFLKYVSDSFEERQNEIRKELESQNYTEEDIQEDLADVDAYTSENVFWVAPMSRWDFLQKNSKGMELEGKHKSIGKLIDEAMQQLMADNESLLGTLPLIYGRDNIDQRRLGELVDLFSSTYFASTKEKKARDLLGEVYEYFLDKFAKAEGKRGGEFYTPPPVVRTLVEILEPTEGRVYDPCCGSGGMFVQAEKFLEATKRDRSAIAVYGQELNERTWRMAKMNLAIHAISAAGLGERWADTFARDIHAGMQMDYVLANPPFNIKDWIRNEEDSRWKYGVPPARNANFGWMQHIVSKLKPHGEAGVVMANGTMTSQSGGEGEIRKNMVEDDVVSCVIALPAQLFRGTGIPVCVWFFAKDKAAGRCGSADRRGEVLLIDARQLGHMIDRTERAFSDEDIHRIANTFRTWRGRESAEGEYEDVAGFCNSATIEEIREAGYALTPGRYVGMPEVEDDAEPIDEKIARLTSELTVALDESLRLDVAVREQLGRLE	PGPT0027180_2700	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
AK009_09696	1959			hypothetical protein	ATGACAGACAGCCAGGAACAGCTAAAGCTCACGATGCAGGGCATTGCCGATCTGGCCCACTCTTCGCGCCCTGCAGTGACTCAGTGGCGAAAGCGCTTCCCAAAGTGCTGTGAGACTCCGTTCCCGGAACCGCTGAATGAGATTCCAGAATTCGATGCTCTCGCGGTTGCGCATTGGTTGGTCGAAACTGAGCATGGCAACAATCCGGAGGCTGTCGAAGATGCCCCCTTTTTCAGCGCACTCTTCCACAGCGCAGCGACAAACCCACAGGCATGGGCGGCTCTCGTGGCTCATGCCCGCCTCGACGTCGAAGAGCTCGCCGAAAGCGAACTGAAAGACGAGTTGTTCCCCATCTCGGCCATCCCGAGCAGCGTGCTCGACGCAATTCTGAAGAGCGAGGTCCAAACTGCCAATATCCTCGCAGAGGCTGCCTACTCAGCGAAAACGGTGCTGGAAAAGATTAGCGAACGCCAGCACGCAGCTTCGAAGGAGGCTCTGCGCCCACAAGTCGAAGCAGTCTTTTCAGGGCTGCTCCGAGAGGTGATTCGCGCTCACCGAGCGGATCAGCCTCTAGTAGATCTCGTGAGCTTTGGTCCGGGTGGCGGACATGCCATGGTTGCTCAGGGCCGTTGCGATCTCTCGGGATTTCGGTTCACCTTCCCGGAGCGCAGCTTTTCCTCGGAGCTGTGCGAGGCGTTGGCTGCACGGGCTGAAGTCGAATCGGAGACCGACGAATTCGATCCGAAGGCAATCATTGTCGGGCAGTGGGTCAGCGCGACCGTCGACGAAGCCAAGGAGTTCTTTGATAGTCTCGACAACTTCTTGCTGGGCCTCGACGAAGATGGTCTCGCGATTGTGCTCGGGCCTGCGGAGTTGATGGTCCATGCAAGCAGCCGCGAGGTGCAGGTGGCACGCCGCAATTTCCTCTGGGATGCGCGAGGCAATCTGACCTCTTCGCTCTGCTACTCGGCGCTGTTGCCGAATGGTTGGGCCAGGCACCTTGGGCAACGTCAGCTTGCACTGTGGGCTTTTCGACGACCATCGACCGAACATCAGGACCCAGGTTTGATCGTGTTGGCGGACCACTCAGCGATTCGCTTGGACACGGATTCGCCACGCCGGCTAATCAACGATGTAGTGATTGCCTTGGGTAATGAAGTGTCTCCGCGGCTGCATGCGTTCAGCAATGCCAAGGTGATGACGCAGGACGCAGTGCGGCAGCGAGATAGCCTCCGTCCCACCGTGGAGAGCTCTCGAGTAGTCGACGCTCCACAATTGGCAGATCTTCGCGCGCAGGCAGACAGACTCGACATTGATGTCTTTGGCGATGGCTCGTTTGTCCAGGTAGGTAGCCCCTACGAACAAAAGGAGCGTCGTTTGGTGACGTGGGCTAAGGCCACCAAGGGCAAAGACAAGTTCATACAGGAGCTTTCCGGCACGCAGCTAAAGGATCTCGATGTACGTAACCCTGAGGGTGGTATTGAAGTGGTTGGCCGGAACGAGCTACTGGGATTGTCGAAAAGAGGTGGGCGGAAGGCTGATCTGGTCGAGCTCACCATCAAGATACCCAAGGCGGAGCTGACCCTGCCGGGGGATGTAATCGTGGTTCCTGGCGCCCCTCCCGTGGCCGAGGTGGACGGGCTCGGAGGTCGTTTGGTTGAAGCGCCGGCGTTTGTGCTCCGGTGTTTGAGTCGCAATACGCGGGGCAGCCAGCCTTTACGGACCGTGACGGATCCTTACGTCTTGGTCGACCAGCTTCGGAAGTCGAAGACCAAGGACAAGGAATCCTGGCTCATTCCGGCTATGGAGGCGGCCGATGCGCAGGCATTGAGGCAGGCTAACGAACAGTTAGCGCAGCGGAGTGCCGAATTGATGAATCAGTTAGGGATGCTACAGAAGCTGCAAACGGATCTTGGTGAGGCAGTGGTTACCGGCAGCATCCGGGCCGCGCCTGGCTAA	MTDSQEQLKLTMQGIADLAHSSRPAVTQWRKRFPKCCETPFPEPLNEIPEFDALAVAHWLVETEHGNNPEAVEDAPFFSALFHSAATNPQAWAALVAHARLDVEELAESELKDELFPISAIPSSVLDAILKSEVQTANILAEAAYSAKTVLEKISERQHAASKEALRPQVEAVFSGLLREVIRAHRADQPLVDLVSFGPGGGHAMVAQGRCDLSGFRFTFPERSFSSELCEALAARAEVESETDEFDPKAIIVGQWVSATVDEAKEFFDSLDNFLLGLDEDGLAIVLGPAELMVHASSREVQVARRNFLWDARGNLTSSLCYSALLPNGWARHLGQRQLALWAFRRPSTEHQDPGLIVLADHSAIRLDTDSPRRLINDVVIALGNEVSPRLHAFSNAKVMTQDAVRQRDSLRPTVESSRVVDAPQLADLRAQADRLDIDVFGDGSFVQVGSPYEQKERRLVTWAKATKGKDKFIQELSGTQLKDLDVRNPEGGIEVVGRNELLGLSKRGGRKADLVELTIKIPKAELTLPGDVIVVPGAPPVAEVDGLGGRLVEAPAFVLRCLSRNTRGSQPLRTVTDPYVLVDQLRKSKTKDKESWLIPAMEAADAQALRQANEQLAQRSAELMNQLGMLQKLQTDLGEAVVTGSIRAAPG				NA	NA	NA	NA	NA
AK009_09697	609			hypothetical protein	ATGGTATATATCATAATTGAAAAGGGGATGAAAGTAATGAAGAAGAAACAAAGAATGATCGTAACAGCGGCCATGGCAGCCACGTTAGCTACAGGTGCATTGCCTACTACATCGGCGTTTGCTGCAGAAACAAAAGCTCCTATCCAACAACAAGAATCACAAATGGGTATTCAACCATTTTCACAGAGTAATTTAGAAACAGCAGTTAAGGCAGCTTTATATGGTCCTGAAGTCAAAAAAATAAAAGTATTTGAACATGAATTCAATGTAAAACCAATTGAAGTAGTAGATTTAGGTGGCGGGAAAAAATATGTTAAGGGTCAAATTTCTCATCATTTAAGTTTTCGTCCAGATGATCAAGTTTATTATGAATTTACAGTGAAAGATGGAGAAGTAATCGGTACGCCACAATATCATATTGATAGAGGTGGTTTTACACCATTCGCAGCTCCTCTTTTATCAATTATTGCTGCATATAATGGGATTCCTGTTAATCCAAATGATTTAAACACACTTGGTCAACAGATTGGAAAAGTAATTGATGGAAGCTGGGAACATGCAGCACAATCTATTGCTACTGTAGTTAGCTTAAGCTTTAATGAGAAATAG	MVYIIIEKGMKVMKKKQRMIVTAAMAATLATGALPTTSAFAAETKAPIQQQESQMGIQPFSQSNLETAVKAALYGPEVKKIKVFEHEFNVKPIEVVDLGGGKKYVKGQISHHLSFRPDDQVYYEFTVKDGEVIGTPQYHIDRGGFTPFAAPLLSIIAAYNGIPVNPNDLNTLGQQIGKVIDGSWEHAAQSIATVVSLSFNEK				NA	NA	NA	NA	NA
AK009_09698	261			hypothetical protein	ATGAGAAAAGTTTTAAAAAGTAGCATTCTGACTTGTGTAACATTAGTAGGCTTATGTACAACCACTACGGCATTTGCTGATAGTCACCTCGGTTATTCGTATGAGTCCAATATAGGCTATCAAAATTCAACATGGATGTCCGAATTAGAGGATTCAAAAAAAATAAGCGGACTATCTATTCCAGGGACTCACGGTTCAATGGCTTTACATGGAGTAAGTGTTTTTGATGAAAATCTGACTAGGAATCAAACCATGAACTGA	MRKVLKSSILTCVTLVGLCTTTTAFADSHLGYSYESNIGYQNSTWMSELEDSKKISGLSIPGTHGSMALHGVSVFDENLTRNQTMN				NA	NA	NA	NA	NA
AK009_09699	1104			hypothetical protein	ATGCGTGTTAAACGTGTTAAGGATTCATTTGCAATGCATCATGGAATTGTTTATCAAAAAGCAATGTTTGAAGATGTATTAAAAGAGACTATTCAATTTTTAAGAGATCATCCGAAAGAAACGATTTTAATGCGTTTAAAAGAAGACACTGACCCTGAAACCGGCTCACTATCATTCGAAAAAATATTTAAAAATTATAAAGATCGTAATGCTGACTATTTTTTGGACCCAAATTCTGTAGCATCATCAGAAAGAAATAATCCGAAATTAGGGGATGTCCGCGGTAAAATTGTATTATTGCAAAATTTTACAGCATCCCAAGAATACGGTATAAATTGTGATTCCTTGTATACTCAAGATAAGTTTGAAGTTGGTACTGGCCCAAATGGAATGTATGATAAATGGAATGCGGTGAAAAACCATCTTTTACAGGCAAATAATAACGCCAACAATGGGAAAATCTATCTTAACCATTTTAGTGGGACGGGTGGTGCATCAGCATTATTGAATAATTTCTATCCGTGGTTTATTGCAAGTGGAAAAGAAAGTAGAAATACAAATAGCAATCAAAAGCTGATTCAAAAAAATGCAACAAATGAATGGACAGATTTCCCTCGTGATATGAATGGCCAAGTATTTTACGGTGGAATGAATACAATGGGAACTGATTTCATACAAAAAAGTGGGATAAATCATGCTGGTATTATCGCCGCAGATTTTCCTGGACCAGGTTTAATAGATAGTATTATTCGATTAAATGGGATTAAATCAAACGAAAAAGAAGTATTAATTTCCCAAATAACTTCTGAATCAATTCCATTATCCGGGCAAAAAAATCGTTCCAGCCAAAACTTTAACATTACAAATTTACCTATAGGAACAAAGGGATTAAAATGGGTTGTTGAACCTACAGAAAAAGATAATGCTTCTGCTATTTCATTCAATATTATGGTTGATGTTTCCTTAGGAACGGATTCGGTTCGTTGGAAGAAACTCTCGAATGAATCAAGGACTGAAGCATACACAAATGCTAAATATTATATTGCAAATCCGAATGGTGCAACTAGTAAATTTACAGTAAAAATATACGCTATTACTAATTAA	MRVKRVKDSFAMHHGIVYQKAMFEDVLKETIQFLRDHPKETILMRLKEDTDPETGSLSFEKIFKNYKDRNADYFLDPNSVASSERNNPKLGDVRGKIVLLQNFTASQEYGINCDSLYTQDKFEVGTGPNGMYDKWNAVKNHLLQANNNANNGKIYLNHFSGTGGASALLNNFYPWFIASGKESRNTNSNQKLIQKNATNEWTDFPRDMNGQVFYGGMNTMGTDFIQKSGINHAGIIAADFPGPGLIDSIIRLNGIKSNEKEVLISQITSESIPLSGQKNRSSQNFNITNLPIGTKGLKWVVEPTEKDNASAISFNIMVDVSLGTDSVRWKKLSNESRTEAYTNAKYYIANPNGATSKFTVKIYAITN				NA	NA	NA	NA	NA
AK009_09700	1509	gerBA_6		Spore germination protein B1	ATGTCCTTAATTGAAAGAACTATCAAAACTACAATGAATGAGATTGTTGAAACTATCCAGACAAATAACTTACAAGAACTCAAGAATAAATTAGAACAAATCTTTGATATTTGTGCTGATTTGGTTGAACATCCTTTACAACTAAAAACAAAGACGAATGTTGTACTATATTACTTTGAAGGACTTACAGATGGTGTTACATTAAAGGGAAGTGTCATTACGCCATTGTTACAAGAAGTAACGGAAGACATACAAGTATTCAATTCTGATACAATTGCTACTTATACAAAAACAGTATGTACATGGAATGAAATAAAAAAAGGGTTGCTCGAGGGGCAATGTGTGCTATTTATGGAGGGGGCAAGGAAAGCACTCCTCATCAATACAAAAGGATGGGCAGAACGATCCATTCAGGAACCTGTTTCAGAAGTTACAATTAAAGGGTCTCATGACGGTTTTATTGAAAATGCCGCTAAAAATATTGGTCTCATTCGTAGATATATTCCTTCTACTGAATTAAAAATCAAGAAATTAGCAGTCGGAGAAAGGGCTACTACTTTTGTATATTTACTTTACTTAGGTGATGTGGCGAATGCAGACGTTGTTCAAGAGGTAGAGGGAAGAATTAGTAAAATTAAAATTGATACGGTATTAGGCATAGGAGAATTATCTAACTTGACAAAAGATAATAGTTTAACTCCTTTTCCACAGGCTTACTTAAGTGAACGCCCAGATGCCATTTCTAATCATATTCTTGATGGAAAAGTAGCCGTGTTAGTTGATAGATCTCCTAGTGCAATGATTGTCCCAATAAATTTAATTGGATTTTTTCAGACGCCAGATGATTATAATGTACATTGGATGATTGCATCCTTTTTTCGTTTATTACGATTTTTAGGATTTATTATAGCTATGTTTTTACCCGCAATGTACATTGCAATGGTTTCATTTCACTTTGAAATTATTCCTTTAGATTTATATACTTCTATCGCAACATCAAGGATCAAAGTTCCTTTCTCTCCTTTATTAGAAGCGCTTATTATGGAAATCACATTAGAAATGCTTCGCGAAGCTGGGATTCGTCTCCCTCAGCCGATCGGACAAACAATTGGAATTGTTGGAGGGATTGTAATTGGTCAAGCAGCTGTTCAAGCAGGTCTTGTAAGTAATGTTATGGTTATTATCGTATCTATTACTGCCATTTCATCGTTTGTTGTTTCTAATTACGATTTATCGAGTTGTATTCGTCTGATTCGTTTTCCAATGATGTTATTTGCCTATTTTTATGGAATTGTAGGTATCGTTAGCGGGTTGATGCTCTTATTTGCTCATTTTGTGTCACTAACTTCTTATGGTTCACCATATGGGTTACCAATCGCGCCTTTTCGTTTCCAAGAATTAAAAGATTCTTTTGTAAGATTTCCTAACTCGATGCTTACTACTCGCTCTAGTACAGGACAACCGAAACAAAAAAAGAAAAAAGAAGGTGGTTCACCTGGGGAAGGTTAA	MSLIERTIKTTMNEIVETIQTNNLQELKNKLEQIFDICADLVEHPLQLKTKTNVVLYYFEGLTDGVTLKGSVITPLLQEVTEDIQVFNSDTIATYTKTVCTWNEIKKGLLEGQCVLFMEGARKALLINTKGWAERSIQEPVSEVTIKGSHDGFIENAAKNIGLIRRYIPSTELKIKKLAVGERATTFVYLLYLGDVANADVVQEVEGRISKIKIDTVLGIGELSNLTKDNSLTPFPQAYLSERPDAISNHILDGKVAVLVDRSPSAMIVPINLIGFFQTPDDYNVHWMIASFFRLLRFLGFIIAMFLPAMYIAMVSFHFEIIPLDLYTSIATSRIKVPFSPLLEALIMEITLEMLREAGIRLPQPIGQTIGIVGGIVIGQAAVQAGLVSNVMVIIVSITAISSFVVSNYDLSSCIRLIRFPMMLFAYFYGIVGIVSGLMLLFAHFVSLTSYGSPYGLPIAPFRFQELKDSFVRFPNSMLTTRSSTGQPKQKKKKEGGSPGEG	PGPT0014780_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_09701	1113			hypothetical protein	GTGGTTCACCTGGGGAAGGTTAACTTTCGAAACTTAACTTTATTAGAATTTATTATTTTTATTCACTCACTGCAACTGGCCTCAGGTATGTTAATTATGCCAAGTCCGCTTGCCGCTACTGCTGGTACAGACGGTTGGATTTCTATCATTCTGGGATGGATCATAACTTCTATAATTGGAGTATTGATTATATTGATGTTGCAAAAAAATCCCAACAAGAATTTCACACAGGTTTTAACGACGTATTTTGGGAAATGGCTGGGGGCGATATTTCTTTTTTTATATGCTTTTTATTTATTTTTTGCGGCTTTTAATACGTTATTAAAAGCAACAGATATTGTGAAAGTATGGATTTTCCCTTCTATTCCTACTTATCAAATCGTCATATTACTACTACTACCCTTCATTATTTTAGCACAGAGTGGGATAAGAGCACTTACAAGTTATTCTATGCTTGTTTTTTTCTTCACTGCTTGGATGCCGATACTTCTCCTTTTTGCATTAAAAAGTAATTATAATCCATTACATCTACTGCCCATTTTGAAAGATGGCATCTATCCTATTGTGAGGGCAACAAAAGAAACAATTACCCCATACGCGGGCTTAGAAATTGCCTATTTTATCTATCCGTTTTTACAAAAAAAAGAGAAAGCCATAAAAGGAATACTGATAGCGAATACAGGAACCATGTTTTTCTATATATACGCTACTATTCTTACTTATATATATTTTAGTCCTGAAGGTATAAAGGATGTAATTTGGCCCGTATTTCACCTATTAAAGGGGATTCGCTTTTCTTTCATAGAACGTTTAGAAATTATATACATTGCTTACTATTTAATTGTATTTTCCACTACAATCTATCCGTATTTATTTTTTAGTTTACATTCGATGACAACTATATGTAGTAGAATTTCACGTAATTGGATTATTGTCAGCTCTATTTTATTAATTGTTGGAGTATTTACATTCTTTAACCCAAATTTAAATCAAATTGTGTTTATATATTTCCTTATGGATATATTTAACATCATTTTCTTTGTTTTATTTCCAGTGTTCCTTTTTATTTACAGTATCCTTTTTACTTGGCTAACTAGGAGGAAGCAACTATGA	MVHLGKVNFRNLTLLEFIIFIHSLQLASGMLIMPSPLAATAGTDGWISIILGWIITSIIGVLIILMLQKNPNKNFTQVLTTYFGKWLGAIFLFLYAFYLFFAAFNTLLKATDIVKVWIFPSIPTYQIVILLLLPFIILAQSGIRALTSYSMLVFFFTAWMPILLLFALKSNYNPLHLLPILKDGIYPIVRATKETITPYAGLEIAYFIYPFLQKKEKAIKGILIANTGTMFFYIYATILTYIYFSPEGIKDVIWPVFHLLKGIRFSFIERLEIIYIAYYLIVFSTTIYPYLFFSLHSMTTICSRISRNWIIVSSILLIVGVFTFFNPNLNQIVFIYFLMDIFNIIFFVLFPVFLFIYSILFTWLTRRKQL				NA	NA	NA	NA	NA
AK009_09702	1128			hypothetical protein	ATGATTCGAAAATGGATAGGGATTGTAATTAGTTGTATGTATTTAATTGGTTGTAGTCAAAGAATCCCCCTTGAACAAGCCTCTTTAATCCTATTAATTGCCTTAGATAGAACACCTAATGGAGAAATTCAAGTAGGAACGAGCATACCACTCTTTCATCATGAAAAGCAAAAGAGTACCGTAGAACATTGGGTTCAGGCATCCACCATATATGAAGGATTTAGCAAAATGGATACGAAATTAATAGGTTTTGTAACTTCATCAAAAAGTGAAGTGATTTTAATCGGGAAAAAATTTGCACAAGAAGAAAACTGGATACAGGCACTCGATTCCTCTTATCGGGACCCTTACGCGACTATCAATGCTAAAGTTGTAATTGTTGATGGTAGTCCTAAAAGCATATTAAAAATTCATAGACCAGATAAACCAGCGCTCTCGTCTTATATAAGCGGTGTAATCGAAGCCTCTATACAAAATAATCAGTCTGTTTCTTCCACTATTCAACAATTGATGAGAGAAAAGAATGAAAAGGGAATGACACAAACAGTTCCAATAATTAAGAAAATAAATAATGAAATTGATACAGTAGGAATTGCCTTTTTAGATCCTAAAGGAAAGTACTTAACCAAAATCTCTAAAAATGATGTGAAATTTTTCAATCTTATTAATAAATCAAAAAGTAAAGGGCGGATAATTTTACATGTTGTTCTTTCTCCCAAAAAATCTATTCAAAAACCAAATACGTCTGTTTTAGTACAAGATGCAAAGAGAAAAATAAATGTTGATTTCCAGAAAGGTAAATTTATATTTAATATAAATATGAGCATGAATGTATCTTTAATTGAAAAAACCAATGGAAACATAACTAAAAATCGTTTATATAGCAGCAAACATATAAATAAATTGGAACATGAAATACAGGAAGAGATCAATGAAAAATTACAAAGTATGTTACAGGACATGCAGAGAAATAAAATTGATCCAATTGGTTTATCTGTATATGCTAGAGCTTTTCAGTATAAAGAATGGAAAAAAGTAAAAGAAGATTGGTTGCAGACTTTATCAAAAGCTAAAATCTGCGTGAATACTCAAGTCAAAATAAAAGATACCGGAACAATTAGAAATTAA	MIRKWIGIVISCMYLIGCSQRIPLEQASLILLIALDRTPNGEIQVGTSIPLFHHEKQKSTVEHWVQASTIYEGFSKMDTKLIGFVTSSKSEVILIGKKFAQEENWIQALDSSYRDPYATINAKVVIVDGSPKSILKIHRPDKPALSSYISGVIEASIQNNQSVSSTIQQLMREKNEKGMTQTVPIIKKINNEIDTVGIAFLDPKGKYLTKISKNDVKFFNLINKSKSKGRIILHVVLSPKKSIQKPNTSVLVQDAKRKINVDFQKGKFIFNINMSMNVSLIEKTNGNITKNRLYSSKHINKLEHEIQEEINEKLQSMLQDMQRNKIDPIGLSVYARAFQYKEWKKVKEDWLQTLSKAKICVNTQVKIKDTGTIRN	PGPT0025020_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025020-gerAC-K06290	NA	NA
AK009_09703	573			IS1182 family transposase ISBth7	ATGATGGGTGCTTTAAAAAATCATCGTGATGAACGTGTATCTGTTTCTGTAGAAGAGCTGGTTCCACAAGATCATTTCCTTCGTGCGATTGAAGCGACAATTAGTTTTGATTTTATTGAAGAGAAATTACGCCCTTATTACTGTGAAAACAATGGACGTCCGTCAATCCATCCTATCGTTTTATTTAAAATGATGTTTATTGGATATTTTTACGGTATTCGTTCGGAGCGTCAATTGGAAAAAGAGATTAAAACGAATATCGCCTACCGTTGGTTTTTAGGGTTTTCTCTATCAGATACTATTCCAGATCATTCTACAATCAGTTGGAATCGCCGTACCCGCTTTATTCATACAAATATTTTCGAAGAAATTTTTGATGAGATCGTGAGGCAAGCGACAGAGCACCGGATGGTGGGAGGACGTGCGCTAATGACAGATTCTACGCACATTAAGGCCAATGCCAATAAGAATAAATTTGTACATAAATATAAAAAAGAAAAAGCAAAGTTTTATATAGATGAGCTAGAAGCTGCGGTAATCGAAGATCGTAAGGTACATGGAAAAAAGAATTAA	MMGALKNHRDERVSVSVEELVPQDHFLRAIEATISFDFIEEKLRPYYCENNGRPSIHPIVLFKMMFIGYFYGIRSERQLEKEIKTNIAYRWFLGFSLSDTIPDHSTISWNRRTRFIHTNIFEEIFDEIVRQATEHRMVGGRALMTDSTHIKANANKNKFVHKYKKEKAKFYIDELEAAVIEDRKVHGKKN	PGPT0030640_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030640-truncated_tnp-K07487	NA	NA
AK009_09704	771			hypothetical protein	ATGAGAGATGGAAAACCGAACGGTTTTCATTTCTTAGACCATCGTACGACTGATGCGAAGTACAATATTATTACAGATACCTATGTAACGGCTGGAAATATGGCAGATTCCGAGCCATATTTAGCACGCCTCCAAGCTCAAATTGATAAATTCGGGTTCAAAGTAGAAGCTGTAACTCTTGATGCAGGCTATTTTACGAGCTATATCTGTAAGAAATTATCGGAGAGAAATATATTTATGGTGATGGGGTATCGCCGATTTGGAAAAAGAAATAAAGATGTACCAAAAAGCCAATTTAAATATGTAGAAGAAATGAATGCATTCGTTTGTCCGATGGGGTGTATTTTAGAGTATGCGACAACGGATCGTGAAGGATATCGTAAATATAAATCGAAGCCAGAAGACTGCGCTGTTTGTCCGCTACGTGAGGTATGTTTTTCAAAGAAACAAAAACAAAAAGTTATCACTCATCATATATGGGAGAAATATAAGGATATCGCTAGAAAAAACAAACTAACAGTTACAGGGAAAAAGTTTTACAAAGTACGCTGTTCAACTATAGAGCGAAGCTTTGCAGACGCCAAAGAACTACATGGCTATCCGATATGCTCGATTTCGAGGGCTGAAGTCTGTCCAAATGCAGGCTTATCTCACCGCAGCTTGTCAAAACATGAAAAAAATAGCCCTCCATCTGACCAAAAAAGGTCTGGTGGAGGGCTATTTTTTTTTGAAACTCTATTATTTTATGTTGTTTTTATTCGCTATAAATAG	MRDGKPNGFHFLDHRTTDAKYNIITDTYVTAGNMADSEPYLARLQAQIDKFGFKVEAVTLDAGYFTSYICKKLSERNIFMVMGYRRFGKRNKDVPKSQFKYVEEMNAFVCPMGCILEYATTDREGYRKYKSKPEDCAVCPLREVCFSKKQKQKVITHHIWEKYKDIARKNKLTVTGKKFYKVRCSTIERSFADAKELHGYPICSISRAEVCPNAGLSHRSLSKHEKNSPPSDQKRSGGGLFFFETLLFYVVFIRYK				NA	NA	NA	NA	NA
AK009_09705	1443			hypothetical protein	TTGGCTGCTGACCGCCTTCGCGGCCACGTCCGCGAACTCCTGCCACTGCGCAGCCTGCTCACGCAGCTGCTCAGCCTTTTTCTCATTGCCCTTCGCCGCGGCCTCCTCGGCCTGCTTGGTCAGGTCGTCCGCCTTGGCCTGGAACTGGTTGACCTTCTCCTGCGCGGCCGGGTCGTGAGCGCGCCAGCGCGACTCCTCGGCATCGGCCACGCGCTTCTCAATCGCGGCGATCTTGTCCTCGTACTCGCGGACCTTACCGCGCGGGACGTAACCGATCTCGTCCCACTTGTCCTGCAACTCGCGCAGCTTCGACTTCGCCGCGCCGAGCCCCTTGGCCGGATCAATCTGGGAGTCGTACTCCGCAATCAGCGCATCCTTCGCCGCGGCATTGGCCTCGAACTCGCGGTCGCGCTCGGCGTTGACGGCGTCGCGGGCGCCGAAGAAATGGTCCTGGGCGGCGCGGAACTGTGCCCACAACTTGTCGTCCACATCGCGCGGGGCGCGGCCGGCGGCCTTCCACTCGTCCATCAGGTCGCGGTAGGCCCGCGCGGTGTCGTTCCACTCGGTGGAATCCTTCAATGCCTCGGCGCGGGCGACGAGGTCCTCCTTTGCCTTCTTCGCTGCAGCCCTGCCGCGGTCCAGCTCGGCGAAGTGCGCGCCCCGGCGACGGTTGAACCCGTCCCGGGCACGCGAGTAGCGCTTCCACAGCTCATCGTCGGTCTTGCGGTCGATGCCGCGGATGGTGCGCCACTCATCGAGAATCGCGCGGATGCGGTCGCCCGCGGCCTTCCACTGGGTGGAGTTCTCCGCAAGGTCCTCGGCTTCCGCGGCGAGCGCCTCCTTGCGGGCAATCGCCTCGGCGCGGCGCTGCTGCTTCGCCTCGTTGGCGGACTCGCGGGCCTTGGTGGAGTTGTCGATGATGGCGTCGAGTCGCTTGTCCACGGCATCCAGGTCGCCGATCACGGCCTGCTCGTCGAGGGTGTCCTTGATGCTCTGGGCCTGCGTTTTCAGGGAGTCGGCGTCCTCCGGGTGGGTCGACAGGCGGGTTTCCAGCAGCGCGACCTCGGTGACCAGGTCGTCGAAGCGCTGGCCGTAGTGGGCGAGGCCCTCCTCGGGGGTGCCGGCCTGCCAGTTGGCGATGGCGCGCTCGGTGCCACCGCGGGTGAGGTAGACGGTGCCGTCGTCAGCCACGCGGCCGAATTTCGAGGGATCAGCCTTCGACGGTGTCGGGGTGGGCGTTGCCGGGGCGGGGTTGACTTTCTTGCGAGCGAGAACGCCCGGGGTGGGGATGCCGGGGCCCGGTGCCGGGGTGGAGTTCTGCGTCATCGTGGAAGGTCCTTTCGCCTCGTGTGTCGCCGCGCGGCACGGCTGCCTGTGATGCTGCCGATGAGTCTACTGGTATCGGAAGGGTGGTGTGCGGGTTGTACCGTTGTTTCCGCCTAA	MAADRLRGHVRELLPLRSLLTQLLSLFLIALRRGLLGLLGQVVRLGLELVDLLLRGRVVSAPARLLGIGHALLNRGDLVLVLADLTARDVTDLVPLVLQLAQLRLRRAEPLGRINLGVVLRNQRILRRGIGLELAVALGVDGVAGAEEMVLGGAELCPQLVVHIARGAAGGLPLVHQVAVGPRGVVPLGGILQCLGAGDEVLLCLLRCSPAAVQLGEVRAPATVEPVPGTRVALPQLIVGLAVDAADGAPLIENRADAVARGLPLGGVLRKVLGFRGERLLAGNRLGAALLLRLVGGLAGLGGVVDDGVESLVHGIQVADHGLLVEGVLDALGLRFQGVGVLRVGRQAGFQQRDLGDQVVEALAVVGEALLGGAGLPVGDGALGATAGEVDGAVVSHAAEFRGISLRRCRGGRCRGGVDFLASENARGGDAGARCRGGVLRHRGRSFRLVCRRAARLPVMLPMSLLVSEGWCAGCTVVSA				NA	NA	NA	NA	NA
AK009_09706	540			hypothetical protein	ATGACTACAGCACAAGACCATCTCATGGCCAGCTCGGCGCGCAGGCGAGAGCCGCATACAGTTATGCCCCCTGCGCAGCTCGATGAGCTTCTCGATCTTAGAAAGTTTCTCTCGATAATCAGAGAGGATGCAGCACTGCTCGGACCGGATGGGCAAACAGTGCCCCTGCCTGAGGAGGTTTTTAACATCCTGAGCGAGGTGGTTGATGCTATGCAAGCGGGTAAAGCCATTACCGTGGCACCGGTTGATCAACTCCTCACCACTCAAGAAGCCGCAAACTTTCTGGGGATCAGCCGCCCTACGCTGGTCAAGCTTCTCGAAGACGGACAGATTCCCTATGAGAGGACATCAGGAGGCAGACACCGCAAAGTGCGTCTCGCAGACGTGCTCACCTATCAGGAGCGCACACAAGTGCAGCGTAGAAACTCGCTGCGAGCCCTTACCGCCGAGGCAGCGGCCCTGGGCTTATACGACGAGACTGCGGATTCCTACCGCGATGCTCTCGCGGAGGTCCGCAAAAAAGTCAACGAGGAGCTATAG	MTTAQDHLMASSARRREPHTVMPPAQLDELLDLRKFLSIIREDAALLGPDGQTVPLPEEVFNILSEVVDAMQAGKAITVAPVDQLLTTQEAANFLGISRPTLVKLLEDGQIPYERTSGGRHRKVRLADVLTYQERTQVQRRNSLRALTAEAAALGLYDETADSYRDALAEVRKKVNEEL				NA	NA	NA	NA	NA
AK009_09707	579			hypothetical protein	GTGGCGCGCTTCAGTGCGGTGCTTGATGCGTGCGCGATGGTTCCCATTTCTCAGGCCGACACTCTCTTGCGCTTAGCGGAATCCGGTCTCTACCGGCCGATCTGGAATTCCCTCATTCTCGAAGAAACCAGGAGAGCTTTGGAGAAAGTCCACCCGGATATGAAAGAGACTGGCGCGGCTCGCCGGCGGGTGAACGTGATGAACGAGGTATTTGTGGATGCCTGTGTTCGCGGCTGGGAACCTCTGGTTCAAGCCATTGATCTTCCGGATGAAAATGACCGCCATGTTGTCGCCGCAGCGATTCTCGGCCGTGCTGACATCATCGTTACTGCGAACGTGAAAGATTTCCCCGAGAGGGAACTGAAGCGTTTTCAACTCTCGGTACAGACCCCCGACGAGTTCCTTCTCAATCAGCTGGATCTGAATGCGAGCCTAGTCATGGACGTCCTTCGAGGGCAGGCGGAGGACATGATTAACCCGCCACGTACCGTGGAAGACATCATCTCCAGTCTGGAGAAGGCGGGAGCGAAAAATTTCGCGACGTATGCGCGCCGGCAGATTTGGCGCGCCTCCCCCTAA	MARFSAVLDACAMVPISQADTLLRLAESGLYRPIWNSLILEETRRALEKVHPDMKETGAARRRVNVMNEVFVDACVRGWEPLVQAIDLPDENDRHVVAAAILGRADIIVTANVKDFPERELKRFQLSVQTPDEFLLNQLDLNASLVMDVLRGQAEDMINPPRTVEDIISSLEKAGAKNFATYARRQIWRASP				NA	NA	NA	NA	NA
AK009_09708	573			hypothetical protein	GTGACAGCGCCCAACCTCCTGATCATCCCCGGATCCCCGGCGCTCGTGCGCGAGCTTTCCCCAGCGCACGGCCCTTCGCGCCGCCTTGCGGAAACCATCTGGCGCACGGTTGCGGGCTACCCGCCGCGCCCAATCCACATCGTCGGCAGCCGGGACGAGCGCTGGTACACCGCGCACACCGGATCCTTCGCCGCGTGGGGAGCCCCGCAGGTCACGCTCAAGGGTGGCAACTACCTGCCGGAGCTCGTCGCCCGCTACGCGCTCGAGGATCCGGACGTTGACGACTCACGCGAACACCTGCAGCCCATTGACACCGATGCGCTGACGGTCGTTGTCGTTGACGGGCCAGCGGGTTTGACCGAGCGCGCCCCGCTCGCACTGGTGGAGGGAGCGCGCGAGGCGCACGAGGCGCTCGAGAGGTTCCTCGACGGCGGGGAGTTTCCGGGGTCGTTGGACGGGGTCGTCGAGAAGCAGCTGTGGCTTGAGCTTGCCGTGCTGGAGGCGGGCAAGCGTCTGGTGAGAAGCGAGGACTCCCTGGGTGTCGGTGCGTACGTGGCGCAGTGGAACGCGTGA	MTAPNLLIIPGSPALVRELSPAHGPSRRLAETIWRTVAGYPPRPIHIVGSRDERWYTAHTGSFAAWGAPQVTLKGGNYLPELVARYALEDPDVDDSREHLQPIDTDALTVVVVDGPAGLTERAPLALVEGAREAHEALERFLDGGEFPGSLDGVVEKQLWLELAVLEAGKRLVRSEDSLGVGAYVAQWNA				NA	NA	NA	NA	NA
AK009_09709	903	miaA_2	COG0324	tRNA dimethylallyltransferase	GTGATCCGCCCCATCGCCGTCGTCGGCCCCACCGCCTCCGGCAAGTCAGCCCTCGGCATTAGCCTCGCACGAGAACTCGGCGGGGAAGTGGTCAACGTCGACTCCATGCAGCTCTACCGGGGAATGGACATCGGCACGGCGAAGCTCCCACCCGCTGAGCGCGGAGGCATCCCGCACCACCTGCTCGATATCTGGCCGGTGACCAAGACGGCCTCCGTCGCCGAGTACCAGTCCCTCGCGGTCGCCACGGTGGAAGACATCATGGCGCGCGGCAAGGTCCCCGTGCTCGTCGGCGGCTCGATGCTCTACGTGCAGTCGCTTGTCGACGCCTGGGCGTTCCCCCCGACCGATCCCGCCGTCCGCGCGAAGTACGAGGCCCGGCTTGCCGAGATCGGAGTCGACGCACTGCACACAGAGCTTGCCCAGGTGGATCCGGCGGCGGCAGCGACCATCGAGGACAAGGACCCGCGGCGCACCGTGCGCGCGCTCGAGGTCATCGAGCTCACGGGCAAACCCTTCGCCGCCTCCCAGCCGCCGAAGGACGCCCCGCCGCGCTGGGGCACCCGCATCCTGGGGCTGCGCACAGATCCGGACTGGCTCAATCCCCGCATCGCACTGCGCGCGCAGCTGATGTTCGACAACGGCTTTGTCGACGAGGTACGCGGGCTGGTTGGGGAGGGTCTGGTCGCAGACTCCACCGCCGGTCGTGCCATCGGATACGCCCAGGTGCTTTCCATGCTGGCGGGTGAGATGGATGAGGCGCAGGCGCAGGAGAAGACGATTACCGGGACGCGGCGGTACGTGCGCCGCCAGCGCTCCTGGTTCAACCGCGACCCGCGCATCACGTGGCTGGACGCGACTGACGAGTCCGTAGTCGATGCGGCGCTAGACTCGCTGGGGTGA	MIRPIAVVGPTASGKSALGISLARELGGEVVNVDSMQLYRGMDIGTAKLPPAERGGIPHHLLDIWPVTKTASVAEYQSLAVATVEDIMARGKVPVLVGGSMLYVQSLVDAWAFPPTDPAVRAKYEARLAEIGVDALHTELAQVDPAAAATIEDKDPRRTVRALEVIELTGKPFAASQPPKDAPPRWGTRILGLRTDPDWLNPRIALRAQLMFDNGFVDEVRGLVGEGLVADSTAGRAIGYAQVLSMLAGEMDEAQAQEKTITGTRRYVRRQRSWFNRDPRITWLDATDESVVDAALDSLG	PGPT0007210_5053	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
AK009_09710	801	dapF_2	COG0253	Diaminopimelate epimerase	GTGAATATCGAGTTTCTCAAAGGACACGGCACCGAGAACGACTTCGTGGTCATTCCGGACCCGGCAGACGCCCTGACGTTGAGTGAAGCGGACGTCGCCGCGCTGTGCGACCGCCGCGCCGGCATCGGCGGCGACGGTTTGCTACGTGTGGTCAATCGCGGCGAGCGCTGGTTCATGGACTACCGCAACGCGGACGGCTCCATTGCCGAGATGTGCGGAAACGGGGTGCGCGTCTTCGCCCACGTCCTTGTGGCCGAGGGGTTGGTCACCGAGCGCGAATTCGACGTGGACACCCGCGCCGGTCTCAAACACATCGAGGTGCTGCAGGCAGACTCGACGGACGCGACGGTCACGGTGGGCATGGGCCGCGTGGAGGTTACCGGCGTCTCGACTGCCCGCATGGGGGACTTCGACTTCGCCGGCCTCGGCGTCGACGTGGGCAACCCGCACCTGGCGGCGGTGATCCCCGGCCTCACCGCCGCGGAGCTGGACGCGATGCAGTTTGCACAACCCGCCTTCGACCACTCCTTTTTCCCAGAGGGGGTCAATGTCGAGGTGCTCACCGAGCTAAACGACGGGCACGTCCACATGCGCGTGTGGGAGCGCGGAGTGGGCGAGACCCGCTCGTGCGGCACAGGAACTGTTGCTGCCGCCCGCGCCGCGCTTGCCGACGCCGGGGTGGAAAACGGCACTGTCACCGTCAATGTCCCCGGCGGCGCGATCGAGGTGGAACTGAGCGACGGCGAAGCGCTGATGACGGGCCCGTCGAAGATTGTCGCGCGCGGGACGGTGCTTCTGTAA	MNIEFLKGHGTENDFVVIPDPADALTLSEADVAALCDRRAGIGGDGLLRVVNRGERWFMDYRNADGSIAEMCGNGVRVFAHVLVAEGLVTEREFDVDTRAGLKHIEVLQADSTDATVTVGMGRVEVTGVSTARMGDFDFAGLGVDVGNPHLAAVIPGLTAAELDAMQFAQPAFDHSFFPEGVNVEVLTELNDGHVHMRVWERGVGETRSCGTGTVAAARAALADAGVENGTVTVNVPGGAIEVELSDGEALMTGPSKIVARGTVLL	PGPT0007230_4196	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
AK009_09711	570			hypothetical protein	GTGCGGCGACTCCTGCGGCTGCGGCGGGCATTAGAGGTTTATCGGGGGCAACCCATGTCATCAGCGCGACGGGATTTCTGGCAGGCGATCGGGATGGGTCTGCTCATCGCCGCCTTCGCGCTGCTGGTGCTGTGGCTCAAGGTGGCCGGGCTGCTGCTCGCGCTCACAATCCTCGGGGCACTCATCGTGCTCATGCAGCGCTACGACACCACTCCCGAGGTGGCGTCGCTGCGCGCCTCGCTGGCAATCGCGCGCGACGACATCGCGGAGACGCTCGCGCTATACGACGACCTCCTCACCGGCATGTCCGCCGAGGCGATCGCCGATCGCACCCTGCATGTCCCCGCGCTAGCAGATCGGGGTACGACCAACCCCGTGATCCAGGATTTCCACCTGCGCGCGGACGCGGCACGCCGCTTCCTGCAGCGTGTCGACGGTCTTTTGGCAAGCACCGACCTCGACCGGCCGCAGCTGGAACGGCTCATCGCCGTGGCCGACGAGCGCGCGGAAAACCTCGCCGCCTCCTGGCAGGACGCGCGCCGCGCCGCCCGCGAGATCGGGCCTGGGTAG	MRRLLRLRRALEVYRGQPMSSARRDFWQAIGMGLLIAAFALLVLWLKVAGLLLALTILGALIVLMQRYDTTPEVASLRASLAIARDDIAETLALYDDLLTGMSAEAIADRTLHVPALADRGTTNPVIQDFHLRADAARRFLQRVDGLLASTDLDRPQLERLIAVADERAENLAASWQDARRAAREIGPG				NA	NA	NA	NA	NA
AK009_09712	492			hypothetical protein	GTGGATGAAGCGCTCACCGGTGAGCTCGCTGACGCGGTACTCGGCCTCGAGGACGCGGGCCGCCAGGCGCGCCGCGGCATCCGGGGCGGACGCGGCTGTCGAGGCGACGGCCTCGGCGCCGGGGGAGAGGATCTCGCCCACGATGTCACCAGGATTGGCGGCGTGGAAGGCGTCCACGTCCGCAAAGACCTCAAAATCGAGCCCCAGTGCGGTGACGGCGAGCTCCTGCCAGGTCAGGGTGGGGGCGTCGACAAGCAGCGGCCCCTGGGCCAAGTTGACAGTGACCGAGGCGATGTTGCTGCCGTGCGGGTCGACGATGTCGGCGAGCGCGACGACATCGTTGAGCATGGTCACGTGCGCGAAGGTGCGGGTGTCGGCGGCGAACCCGGCGAACGTGGCGAACGGCTCGACGGCGAGGATGTTCAGCTGCGCGCCCGATGCGTCGGAGTATTGGATCAACTGACCACCCCGGACCTCGCCCGTGACCTGTAA	MDEALTGELADAVLGLEDAGRQARRGIRGGRGCRGDGLGAGGEDLAHDVTRIGGVEGVHVRKDLKIEPQCGDGELLPGQGGGVDKQRPLGQVDSDRGDVAAVRVDDVGERDDIVEHGHVREGAGVGGEPGERGERLDGEDVQLRARCVGVLDQLTTPDLARDL				NA	NA	NA	NA	NA
AK009_09713	2262			hypothetical protein	GTGGCCGACGTTCTCGGCGATGAGGACCACCAGCACCGGCAAGGTCACCAGGACAGCAGAGAGGTGAAACTCAGGCGAGTGGAAACGCGGCACGCCCACCCAATCGGCGGCGGCGACCGCGCCCAGCGCCTCGGGGCTAACCCCCTTGCTCACCCAGGCGGTGAACCACCCCACGATGACGCCGATCAGGATCGACAGGCGCGAGGCCATGTCGCGGGTGGCGACGGCCACAACCAGGATCGTTGCCAGCGTAACCGCGCCGACCAGCGGCTGCTCCTGGAAGTTGCCCACCGCTACCGGAGCCAGGTTGAATCCGATCAGCGCAACGATGGCGCCGGTGACCACGGGCGGCATGACGGCGTCGATAAGCCTCGTTCCCGCCGCCTGCACGAGCGCGCCCACCGCAATCAGCGCGAGGCCCGTGACCACCACACCGCCGAGCTGCGCGCCGACGCCGTACTGCTGCGAGGCCGCCAGCGGCGCGATGAAGGCAAACGACGATCCGAGGTAGCTCGGCAGCTTGTTGCGGGTAATCAGCAGGAAGATGATCGTGCCGAGTCCCGAGAACAGCAACGTCGTATTCACGGGAAAACCCGTGAGGGTTGGGACCAGCAGGGTCGCGCCGAACATGGCGACGACGTGCTGCGCGCCGATGGCCGCGGTGCGCGGCCAAGTCAGCCTCTCATCAGGGGCGACGACCTCGCCGGGTTGAATGTGGCGACCGTCGCCGTGAAGGGTCCATCCGAATGTAGAAGTCACGAATGGATATTGTTGTCGCTCGGGCTAGCTCACAACAAACTCCGAGTACTGTTCGGCGATGACGTGGGGCAGGCGGACGTCGATAAGCGTGCCGCCCTCCTCGTAGGACTCGCTGCGCACGGTGCCCTGCTCGTGGACGCGGCTGACCACGTCGCCGCGGGTGAACGGCACGAGCATCTGCACGTGCGCCTCCACGCTGTTGAGGTGCATCTCAATCTTGCCCTCGAGCTCCGCGATGCCCTCGCCCGTGTGCGCGGAGACGAACACCACGTCGTGGCCGGAGTTGTCGAACGCGTGGCGCAGCTCCGCCAACACCACCGGATCGGCCTGATCAATCTTGTTCACCACAACGATCTCAGGGGGAACGGTCTCGCCGGACTCGCGCGTGACGTCAGAGAGCACCTTGTTCACCGCCTCGATCTGCTTCAGCGGAAACGCGTCCGAGCCGTCGACGACGTGCAGCATCAGGTCCGCGCCCGTGACCTCCTCCAGCGTCGACTTGAACGCCTCGACGAGCTGGGTCGGCAGGTGGCGCACGAAACCGACGGTGTCCGTGAGCACGACGTTACGCCCGTCCGCCAGCTGCGCCTTGCGTGTCGACGGATCCAGGGTCGCGAACAGAGCATCCTCCACCAGCACGCCGGCGTTGGTCATCGCGTTGATCAACGAGGACTTGCCGGCGTTGGTGTAGCCGGCGATCGCGATCTTCGGAATCGTCGAACGCTGCCGTCGGGCGCGCTTGACCTCGCGCGCGGTCTTCATCCCGCGCAGCTCGTGGCGCAGCTTCGCCATGTCCGTGCGCAGGCGGCGGCGATCCGCCTCAATCCGCGTTTCACCGGGACCGCGCAGGCCCACGCCGCCGTTGGAGCCGGCGCGACCGCCGGCCTGACGCGACAGGTTGCCACCCCAACCACGGGTGCGCGTGTAGAGGTACTCCATCTGCGCCAGGCTGACCTGCGCCTTACCTTCCTTGCTCTTCGCGTGCTGGGCGAAGATGTCGAGGATGAGCATGGTTCGGTCGATCACCTTGATCTTCAGCGCTTCCTCGAGCGCGACCATCTGGCCCGGGGAGAGCTCGCCGTCGAACACGACGGTGTCGGCGCCGGTGGACTCGACGATGTCGCGCAGCTCCTTGACCTTGCCCGAGCCGATGTAGGTGCCCGGGTCCGGCTTGTCGCGCTTTTGGTACAAAAGCTCCACGACATCCGCGCCGGCGGTCTCCGCGAGCGCGGCAAGCTCGAGCATGTTGGCTTCCATCTCGGCGGTGGTCCCCTCGATCCACGCACCGACGAGGATGACCTGTTCGAGGCGCAGCTTGCGGTACTCGACCTCGAAGCCTTCGGCCTGATCTTCGGAGTGCAGCTCCGTCTCGACCGTCACTCGGCGAAACGCGTTTCGTTCTTCCAGGTCCAGCGAACCGACTGTGGGCTCCCCGTTAGCGGTGGGTTGCGGCGCGTTGTGGCGAAACGCGCGGGCGAGAAGTTCATCGTGGTTGAGCTCTAG	MADVLGDEDHQHRQGHQDSREVKLRRVETRHAHPIGGGDRAQRLGANPLAHPGGEPPHDDADQDRQARGHVAGGDGHNQDRCQRNRADQRLLLEVAHRYRSQVESDQRNDGAGDHGRHDGVDKPRSRRLHERAHRNQREARDHHTAELRADAVLLRGRQRRDEGKRRSEVARQLVAGNQQEDDRAESREQQRRIHGKTREGWDQQGRAEHGDDVLRADGRGARPSQPLIRGDDLAGLNVATVAVKGPSECRSHEWILLSLGLAHNKLRVLFGDDVGQADVDKRAALLVGLAAHGALLVDAADHVAAGERHEHLHVRLHAVEVHLNLALELRDALARVRGDEHHVVAGVVERVAQLRQHHRIGLINLVHHNDLRGNGLAGLARDVREHLVHRLDLLQRKRVRAVDDVQHQVRARDLLQRRLERLDELGRQVAHETDGVREHDVTPVRQLRLACRRIQGREQSILHQHAGVGHRVDQRGLAGVGVAGDRDLRNRRTLPSGALDLARGLHPAQLVAQLRHVRAQAAAIRLNPRFTGTAQAHAAVGAGATAGLTRQVATPTTGARVEVLHLRQADLRLTFLALRVLGEDVEDEHGSVDHLDLQRFLERDHLARGELAVEHDGVGAGGLDDVAQLLDLARADVGARVRLVALLVQKLHDIRAGGLRERGKLEHVGFHLGGGPLDPRTDEDDLFEAQLAVLDLEAFGLIFGVQLRLDRHSAKRVSFFQVQRTDCGLPVSGGLRRVVAKRAGEKFIVVEL				NA	NA	NA	NA	NA
AK009_09714	1443	norG_5	COG1167	HTH-type transcriptional regulator NorG	ATGGAATGGAAATTAGATAATGACTGCAAAATCCCGATTTATCAGCAAGTTATTGACTTTATTGAAAGACGTATTACATACGGAGAGCTCCCTCCTGGTAGCTTACTCCCTTCAGAACGAAAATTAGCTACGCATTTACATGTAAACCGAAGTACAGTAACGATTGCTTATAACGAACTTCGCGCTATGGGGATTGTAGAAAGTACAACCGGTAGAGGTACACGTGTTAGTACACATATGTGGGGCGTTTCTCCTACATTAACGCCGAACTGGAAAAGTTTCGTGGAGGGTGGTACTTTTTCGCCAAACTTACCGTTACTTCGCCATATTCGGGCACAAGTACAGCAAAATGAAAATATGATTGATTTCGCAAGCGGAGAGCTCGGTTGTAATCTCTTTCCTCATGAACAACTACAAGCCATTCTACGTGAACAGCCGTTAACACAATCATTAAGTTATGATCACCCGCAAGGCTATCTTCCGCTAAGGCAAACGGTAGTAAAATATATGAAGGACTATCTAAAAGTGAAAGCGACCGAACAATCTATTATGATTACATCAGGCGCACAACAAGCACTTCACCTTATCGTACAATGCTTATTAAATCCAGGTGATGCTGTCGCTTTCGAAAGCCCTTCCCATTGTTATTCATTACCATTATTCCAATCAGCAGGTATTCGTATTTTCCCATTACCTGTCGATGAGCACGGTATTAACCCGAATGACGTGCAAGAATTATATAGAAAGCACCGTATTAAAATGATCTTTTTAAATCCGAATTTTCAAAACCCTACTGGAACAATGTTACGTCCAAACCGTAGAAAAAAACTGTTATCGCTTTGTGCAGACTTACGAATTGCAATCGTTGAAGATGATCCATCCAGTTTACTTACTTTAGAAAAGAAACAACCTTGCCCTACTTTAAAATCCATTGATGAAAACGGAACAGTGATTTATATACATTCCCTATCAAAGATGATTGCACCCGGTCTACGTATTGGCTGGCTTGTCGCTCCGCAGTCTGTAGTAGAACGATTAGCAGATGCACGAAATCAAATGGAGTTGGGAATGAGCATATTCCCACAGTGGCTTATACAACAATTTTTTGAAACAATACCATTTCAGTCTCATATAGAGCCTTTACGCAAGCAACTAGGAGAAAAAAGAGACATTATCGTACGTGCTCTGAACGAACAACTACAAGATAAAATCTCTTTCTCGAACCCAAACGGCGGTATGTACATATGGGGGAAATTAAACAAACCTATTAATGAAAAACAACTTATTATGCAAAGCTTAAAAAACGAAATCGCCTTTATGCCAGGAAGTATCTTCGGTGCAAAAAATGGTTACATTCGTTTATCTTATGGTAAAGTGAATAGGTATCAAATTGAGGAAGGAATTTCTCGTTTACGTGAGGCGATTACTATTTGTGAGGAGTAA	MEWKLDNDCKIPIYQQVIDFIERRITYGELPPGSLLPSERKLATHLHVNRSTVTIAYNELRAMGIVESTTGRGTRVSTHMWGVSPTLTPNWKSFVEGGTFSPNLPLLRHIRAQVQQNENMIDFASGELGCNLFPHEQLQAILREQPLTQSLSYDHPQGYLPLRQTVVKYMKDYLKVKATEQSIMITSGAQQALHLIVQCLLNPGDAVAFESPSHCYSLPLFQSAGIRIFPLPVDEHGINPNDVQELYRKHRIKMIFLNPNFQNPTGTMLRPNRRKKLLSLCADLRIAIVEDDPSSLLTLEKKQPCPTLKSIDENGTVIYIHSLSKMIAPGLRIGWLVAPQSVVERLADARNQMELGMSIFPQWLIQQFFETIPFQSHIEPLRKQLGEKRDIIVRALNEQLQDKISFSNPNGGMYIWGKLNKPINEKQLIMQSLKNEIAFMPGSIFGAKNGYIRLSYGKVNRYQIEEGISRLREAITICEE	PGPT0028960_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK009_09715	900	pduX	COG4542	L-threonine kinase	ATGATTGTAAGTAGAGAAAATGATTCGATAATGAAGGAAGCTATCTCTGCAACAGGTGTTGGAATCTCTTGTGGTACGTGTGGCGAGCTTGTTCAAGGTTGCATTAATGATCAAAATTTTATGATCACATTTCCTATACCTCTATATGCTAGTGCTGAAGCCAGATTTGTAAGGGGAGGGAAAATAAGTATAATCCCTGGTTATAAAAATAAAGCTGCAAAAGCTGCCGAAATATTAGTAGACTCATTAAGAAAATTGGGTATAGTCGATAAGGAACTAGGAATTACAATTAAAATTGAGTCGGAATTAATGGAAGGAAAAGGGATGGCTAGTAGTACAGCTGACATTATAGCGGTTTGTCGGGCTATTTCAAATCTATGTAACTATCCTATCGGACCTTGGGAAATATCAAATATTTGTACATCTATTGAACCATCTGATGGTGTAATGTATCAATCATCGGTAGTATATGACTTTTTTAAGGGGAGGTTACTTGAGGATATTGGACCTTTAATGTCAATGCGATTGGTTATCGTTGATAATGGAGAAGCGGTAGATACAGTTAATTTTAAACGGGTACCGTATACACCAAAGGAGATGAAACAAGTCTTGGAAGCTTACCGCTTAGCGACTTGCGCGATTAAAAGTAAAGATATTGAATTGTTGGGGCGTGCTACTACAATAAGTGCCAAGGTTAATCAACGTAGACATTTTAAAAAAGAATTCAATGATATTATGAATATCTTTCCTGAATTAGGGGCACATGGAATATCGGTAGCCCATAGTGGTTCCATTCTTTCTTTATTGTTTGATGCGAATGATGATATGAAAATTGAGCATGCAAAAAATCGTATATCAATGATGTTTCCAGAAGCAACGATTAGAGAAATTACTATCTAA	MIVSRENDSIMKEAISATGVGISCGTCGELVQGCINDQNFMITFPIPLYASAEARFVRGGKISIIPGYKNKAAKAAEILVDSLRKLGIVDKELGITIKIESELMEGKGMASSTADIIAVCRAISNLCNYPIGPWEISNICTSIEPSDGVMYQSSVVYDFFKGRLLEDIGPLMSMRLVIVDNGEAVDTVNFKRVPYTPKEMKQVLEAYRLATCAIKSKDIELLGRATTISAKVNQRRHFKKEFNDIMNIFPELGAHGISVAHSGSILSLLFDANDDMKIEHAKNRISMMFPEATIREITI	PGPT0009310_58	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009310-pduX-K16651	NA	NA
AK009_09716	708	alaS_4	COG0013	Alanine--tRNA ligase	ATGGTTCGAAAATTATATCTCCAAGATCCATATCTTCAGGAATGTAACGCCATTATAACAAAAATAGAAGATAATAAAATCTTTTTGAATCAAACTGTTTTTTATCCAGAAGGTGGAGGACAGATTGGAGATCAAGGATGGATTGAGGGAAATGAGGTAATTGATACACAAAAGACGGGAGGAAATCTGTTTTATCATTCTAATTTTCCAATCATTAAGGTGGGTTCAGAAGTAGCACATATTTTAAAAGAGCCGGTAAAGGGACTACGTGAAGGAATGGAAGTTAAGGCAAAAATCAATTGGGAAAGACGCCACATGTTGATGAGAATGCATGCTGCGGCACATTTAGTTTATTATTATACATTTCAAGTTTTTGGGGAGATGTATGTGAAAGGTTGTCATATTGCAGAAGATAGGGCTCGATTTGATTTTTATAGTCCTGATAAACGTCTTGATCGTGAAGGGTTAGATAAAGTAGAAGAGTTCGCAAATTTAATCGTTACAGATAATATTCCCATTAAAAATATCCCATTAAATGAGGAACCAGAAGCAATCAATTGGATTTGTGGTGATATGCATATTCCATGCGGTGGTACACATGTTAGACAGACTGGAGATATTGGAGAAATTTCTGTAAGAAGAAACTCGAGAGGGAAAAATTTGGAGCGTATGTATTTAGAAATCGGCGGGGGAGATTCATTTAAATAA	MVRKLYLQDPYLQECNAIITKIEDNKIFLNQTVFYPEGGGQIGDQGWIEGNEVIDTQKTGGNLFYHSNFPIIKVGSEVAHILKEPVKGLREGMEVKAKINWERRHMLMRMHAAAHLVYYYTFQVFGEMYVKGCHIAEDRARFDFYSPDKRLDREGLDKVEEFANLIVTDNIPIKNIPLNEEPEAINWICGDMHIPCGGTHVRQTGDIGEISVRRNSRGKNLERMYLEIGGGDSFK				NA	NA	NA	NA	NA
AK009_09717	1038	cysK2	COG0031	S-sulfocysteine synthase	ATGCTAAGAGAAAACATAGTAGATGCGATTGGAAACACGCCGTTAGTACAACTTCAATTAGATTCGTCAGCTAGAGGGAACGTCTTTGCAAAATTAGAAATGCTAAATCCTTTTGGGATGAAGGATCGTGCCGCAAAGAAAGTCATTTTAGAGGCCAAAAAGAATGGAGTTTTAAAAGATGGTGCTCCAATTATTGAAAGTTCTTCGGGGACCATGGCATTGGGACTTGCAATGGTTGGAACTTATTTAGGGCATCCGGTTCATATTGTAACGGACAAACGTACGGATCAAATGACTCTTGCAAAATTAAAATCACTTGGTTGTAAATTGGAAATAGTTACAGAAATGACGCATTTAGGATGGCAAAGTGCTCGTCTTGATAGACTAGAAGAAATTCTTAAGGAGAATAAAGAAGCATTCTGTCCTCGTCAGTATGAAAATTCTGATAACCCCAATGCCTATGAGTCATTGGCGGATGAAGCTCTTGAAGAGCTAGGACATATAGATATTTTAGTAGCTTCTGTAGGAAGTGGGGGATCACTTTGTGGCACGGCACGAGCTTTAAAAAAAGCGAATCCTGACTTACGTGTTGTAGCAGTAGATGCGGTAGGAAGTGTTATTTTTAATCAACCAGATATTCCAGGGCGTTTACAAGGAGGACATGGAAATAGTGTAATTCCAAAAAATGTAGATTTCTCAATAATTGATGAAGTTCATTGGTTAAACGATGAAGAATGTTATGCAGCTAATTTAGAATTAGCTAAGTGTGAAAAGCTATTTGCAGGTAATAGCTCAGCGGCATCATATGCAGTTTCACGATTTTTAAGTAGTAGATGTTCAGAAGAAACGAATATTCTAACTATCTTTCCAGATAGAGGGGATCGCTATTATAAAACAGTTTATAATGAGGAATATCGTAAAGAAAAGGGTATGACTAATCTTAACCTACACAAACAACCTAAAAAAGTTTCTTATGGCATGACGGTGACTTCCTGGTCTTATGCTAGTTTACAAGATAATAAGATGCTTACGTTTTAA	MLRENIVDAIGNTPLVQLQLDSSARGNVFAKLEMLNPFGMKDRAAKKVILEAKKNGVLKDGAPIIESSSGTMALGLAMVGTYLGHPVHIVTDKRTDQMTLAKLKSLGCKLEIVTEMTHLGWQSARLDRLEEILKENKEAFCPRQYENSDNPNAYESLADEALEELGHIDILVASVGSGGSLCGTARALKKANPDLRVVAVDAVGSVIFNQPDIPGRLQGGHGNSVIPKNVDFSIIDEVHWLNDEECYAANLELAKCEKLFAGNSSAASYAVSRFLSSRCSEETNILTIFPDRGDRYYKTVYNEEYRKEKGMTNLNLHKQPKKVSYGMTVTSWSYASLQDNKMLTF	PGPT0002815_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002815-cysK2-K22847	NA	NA
AK009_09718	1164	patB_2	COG1168	Cystathionine beta-lyase PatB	ATGAAATTAGATTTTGATCAACAAATCGATAGACTTTATACAGCATCTTATAAATGGGATCAGTCCAAAATTCTTTTTGAAACAGAAGATATTTTGCCAATGTGGGTGGCTGATATGGATTTTATGTCACCCCCAGCAGTAGTAAATGCACTTATAAATAGAGCTACACATGGCGTATATGGTTATACAATCATACCTGATTCCTATTATAGTTCGATAATAGATTGGCTGAAGAGAAGGCATGGCTCAATGGTACAAAAGGAGTGGATCACACATTCTCCAGGGGTAGTAACAGCGTTAAGTATTTTGGTCTCTTGTTTAACTAAACCAGGAGATAAAGTGATGATTCAATCTCCTGTCTATCATCCTTTCTATGATGTAGTTCTTCAACAAAATAGAGAATTAGTAACGAATAATCTTATTCTAGAAGATGGCCGCTATACTATGGATTTAAAAGATTTAGAAAATAAAATAGATTCAAGTGTGAAAGTAATGTTGTTATGTAATCCTCATAATCCTGTTGGGAGAGTATGGGATGAACAAGAATTGGAGAGACTAGGAGCACTGTGTGCGAAACATAATATAATTGTGATTTCAGATGAGATTCACTGTGATTTAATATATAAAGGCAATAAACATGTACCATTTTCATCTATTTCTGAAAAAATGAAAAGTACGAGTATAACATGTATTTCTACTAGTAAGACCTTTAATCTTGCAGGGTTAAAAACATGTAACCTAATCATTCAAAATCCTCATATAAAGGAAGTGTATGAAAAAAAGTTAAAGATGCTTTCGTTACATTCGGAAAGTTTCTTTGGTATAACGGCAGTAGAGGCTGCCTATACCCATGGTGAAGAATGGCTCAATCAATTATTAATTTATTTAGAGGGAAATTTAAATTTTTTACTTGATTATTTTAAGCAGCATATAAATGAAGTGAAGGTAATCAAACCTGAAGGAACATATTTAGTTTGGTTAGATTTCCGAGGATTAAGGATGAATAAAGAAAATATAGAAAAATGGATGTACCAGAAAGCTAAATTAGCTTTAAATGAAGGTTCTATGTTTGGTGAAAATGGGAAAGGATTTCTGAGAATGAATATTGCCTGTCCTAGGGCTACTTTAGAAGAAGGTTTATCTCGGATACGTAAGGAGTTATAA	MKLDFDQQIDRLYTASYKWDQSKILFETEDILPMWVADMDFMSPPAVVNALINRATHGVYGYTIIPDSYYSSIIDWLKRRHGSMVQKEWITHSPGVVTALSILVSCLTKPGDKVMIQSPVYHPFYDVVLQQNRELVTNNLILEDGRYTMDLKDLENKIDSSVKVMLLCNPHNPVGRVWDEQELERLGALCAKHNIIVISDEIHCDLIYKGNKHVPFSSISEKMKSTSITCISTSKTFNLAGLKTCNLIIQNPHIKEVYEKKLKMLSLHSESFFGITAVEAAYTHGEEWLNQLLIYLEGNLNFLLDYFKQHINEVKVIKPEGTYLVWLDFRGLRMNKENIEKWMYQKAKLALNEGSMFGENGKGFLRMNIACPRATLEEGLSRIRKEL	PGPT0001990_2233	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
AK009_09719	900			hypothetical protein	ATGATAAGAAATAATGAAACGAAATATATACTGTTAGTATTTTTAGCTATCTGTTTTTTAGCTACAGGTGGTATTTTTGTAAAACTAAGTGAGTTACCACCAATTAATACAGGCTTTTATCGTGTATTGCTCTCTATCCCTCTTTTATTACCATTTGTATGGAAAGAACTTAATAAAGTTTCAAAGAAAGATATTTTATTAATACTTTTAGCAGGTGTATTTTTAGCAGGGGATTTAATTTTATGGAACGTATCATTTTATTATACGAGTGTTGCAAATGCTAATTTATTAGCTAATTTGGTGCCTCTAGTCATTATTCCGTTTTCATTTTTTATTTTTAAAGAAAAGATAACACGTACATTTTTCATAGGGGCTATTATTACAATATCTGGTGTAATTGTTTTAGTTAGTGGGAAAGCAGTCATAACAACAGATAATTTATTTGGAGATATGTTGGCTTTTTTAACTGCTTTTTTCTATGCATTCTTTTTATTGACAGTATATAAAGTACGAGAAAGAGTAAGTGCTAGTATTATTATGTTTGTGAGTGCTTTTGGAAGTGCAGTAACGATTTTCATTGCACTGCTTTTTACTGAAGGAGTTTATATCCCAAGTAGTTCTTCAGAATGGTTGCCTTTAATAGGTTTAGCTATTTTTTCGCAAATTTTAGGGCAAGGGCTATTGAGTTTTTGTTTGGGTAAAGTTAATGTTGCATTATCTTCAATATTAGTTTTATTACAACCAATCGTAGCTGCAATCTATGCATGGTTTATCTTTACTCAGAAGCTTACAATAGTGGAGATAATGGGGATGGTAATTTCTTTAGTTGGAATCTATATTGTGAAAATGAAAAAGAAACAAAAGGTGTCAAACAAATCAAAAGAGAAAATTGTAAGTTAA	MIRNNETKYILLVFLAICFLATGGIFVKLSELPPINTGFYRVLLSIPLLLPFVWKELNKVSKKDILLILLAGVFLAGDLILWNVSFYYTSVANANLLANLVPLVIIPFSFFIFKEKITRTFFIGAIITISGVIVLVSGKAVITTDNLFGDMLAFLTAFFYAFFLLTVYKVRERVSASIIMFVSAFGSAVTIFIALLFTEGVYIPSSSSEWLPLIGLAIFSQILGQGLLSFCLGKVNVALSSILVLLQPIVAAIYAWFIFTQKLTIVEIMGMVISLVGIYIVKMKKKQKVSNKSKEKIVS				NA	NA	NA	NA	NA
AK009_09720	267			hypothetical protein	ATGTCTACATCTGATGTTACCCACTTACAAAAACAAATTGAAGAAAAAAAGAAACAACTGCGACAGTTGGTAAGAGCATACGGATATACAGACCCCCTAATTTTTGCCTGTAGCCAAGAATTAGATCAACTCGTGTATCGTTTTATGCGTGATTATTCTCCACAAAAAGTTACATGTAAAAAACGATTCCAATTCATCAATAGAATTGGAATCTCACTATACATATGTCCTCTATATTTTACCATAACTGGAGTCTATGTGGACTAA	MSTSDVTHLQKQIEEKKKQLRQLVRAYGYTDPLIFACSQELDQLVYRFMRDYSPQKVTCKKRFQFINRIGISLYICPLYFTITGVYVD				NA	NA	NA	NA	NA
AK009_09721	282	abrB_5	COG2002	Transition state regulatory protein AbrB	ATGAAAGCAACCGGTATTGTACGAAAAATCGATGAGCTTGGTCGAATTGTGATACCAAGGGAAACGAGGCGTACACTCAATATTCACGAAAAAGAACCATTAGAAATATTTGTAGAAGGCGAAACGATTATTCTACAGAAATATCAATCGTATGGTACTTGTCCCATCACAGGGGAGATTTCTTCCCAGAATATCAAACTAGCGGATGGAAAGCTGACGTTGAGCCCAGAAGGGGCGAAACAACTTATGGAAGAATTAGAACAATACAAAGTAACAGTATGA	MKATGIVRKIDELGRIVIPRETRRTLNIHEKEPLEIFVEGETIILQKYQSYGTCPITGEISSQNIKLADGKLTLSPEGAKQLMEELEQYKVTV	PGPT0014790_191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK009_09722	234	hfq_5		RNA-binding protein Hfq	TTGGAAGTGAAATTACAAGCATTTCAAAAGGATAAAAGCAAGAACATGCTATCTTTGCAGGAACAATTGTTGCAAGAGGCGTTTCAAAAGAGGAAGGATATCACTTTAATTCTGTTAAAAGGATTGCATGTAAAAGGAATAATAAGAGGATTTGATACTTATTCTGTTTTAATAGAAGTTGAAGGTAAGCAACAGCTTGTATATAAACATGCAATCTCGACGATTCGATTCTAA	MEVKLQAFQKDKSKNMLSLQEQLLQEAFQKRKDITLILLKGLHVKGIIRGFDTYSVLIEVEGKQQLVYKHAISTIRF	PGPT0025560_1741	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
AK009_09723	279	hup_4		DNA-binding protein HU	ATGAACAAATCAGAATTAATCAAACAAGTCGCAATACAATCTGAACTAAAAAAGCCACAAGCAAGTCTTGCAGTAGATGCCGTATTAGAGTCCATTCAACATGCACTACAAAATGGAGACCATGTACAGCTATTTGGTTTCGGTTCATTTGAAGTAAAAGAACGTGCTGCACGTGAAGGACGCAATCCGCATACTGGTGAGGCACTTACTATTCCTGCGGGAAAAACACCTGCCTTTAAAGCAGGAAAAGCATTAAAAGAAGCTGTAAACGCTAAATAA	MNKSELIKQVAIQSELKKPQASLAVDAVLESIQHALQNGDHVQLFGFGSFEVKERAAREGRNPHTGEALTIPAGKTPAFKAGKALKEAVNAK				NA	NA	NA	NA	NA
AK009_09724	303	pagR_7		Transcriptional repressor PagR	ATGACAAATGTTTTTTATATGGAGCTCAACGATCTTAATTATGAACTCGAGCGAAGTGCGGAAATACTGAGGGTATTGGCACATCCTTTCCGTCTACAAATTGTACATCAATTATTAGAGAAAAATGCTTTAAATGTTACCGAATTACAAAAAATTTTAAAATTACCACAATCTACGGTTTCACAACACCTTCATAAAATGAGAAATCATAAAGTGTTATCACATGAACGCAAAGGAACAGAAGTATTTTATCGAGTGGACGATAAACAAGTGAAACAAACGGTTCACATACTGATGGGATAA	MTNVFYMELNDLNYELERSAEILRVLAHPFRLQIVHQLLEKNALNVTELQKILKLPQSTVSQHLHKMRNHKVLSHERKGTEVFYRVDDKQVKQTVHILMG	PGPT0004300_340	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004300-mtB-K22298	NA	NA
AK009_09725	435			hypothetical protein	GTGGTACCTCCAGTTCATCACCATCGCCCGGGTCCCGCTGCAGGTTCCTATGATCCGCGCGGCGTGGGGCATCTACAACGACCGCTTGGGTTAGGGCTGATGATGTCGGCAAATCAGGTGCGTCAGGGGGTCGTCGATAAGCTTGCTGTGCGCGCCCCGGAGTCCTCAATCTGCCCCTCGGAGGTGGCCCGTGAGCTCGGTGGCGATACGTGGCGTGAGCTTATGCCCTTTGTCCGTGAAACCGCAGCTCAGATGGCGCGGGAGGGCACAATCGTAGCCACGCAAGGCGACGCGGTCGTGGACGCGGAATGTGCGAAGGGGCCGATCCGTTTGCGGCACGGCCCCGGGCTGCTAACCCCGCGCGGGGGTAGATGTCTATCGGTGTGCCTACCCTCGGGCGGGACCCATAAACTCCGAGGAATAGGTACACCATAA	MVPPVHHHRPGPAAGSYDPRGVGHLQRPLGLGLMMSANQVRQGVVDKLAVRAPESSICPSEVARELGGDTWRELMPFVRETAAQMAREGTIVATQGDAVVDAECAKGPIRLRHGPGLLTPRGGRCLSVCLPSGGTHKLRGIGTP				NA	NA	NA	NA	NA
AK009_09726	1029	tdh_2	COG1063	L-threonine 3-dehydrogenase	ATGCCTGACACCATGAAAGCCGCTCGGATGCATATCGACGGGGACGTTCGAGAACTCCGGATTGATGAAATTGCTATTCCTGAGCCGGGGCCCGGCGAGGTTCTGGTCAAGGTTAAGGCCGCCGGAGTATGCCTTTCGGATGTGCACCTGCTCGACGGTTCTCTCACTCCGCCCCACCTGGAGGGCAATGTGGTCACTCTCGGTCATGAAACGGCTGGGATGGTAGCGGCCCTTGGTGAGGGCGTGACCTCTTTTAAAGAAGGGGACCGGGTAGTGCTGCGAAGTGGATACCGTTCCGCTGATGGCAAGACCTATGGCTATGGCATCGATTTTGATGGTGGTTGGGCGGAATACATCGTCGCAAAAGCAAGCGTGGCTATTGAGCTGCCGGATTCGGTTCCTTTCGATGTAGCGGCGATTGTCCCCGATGCGATTTCAACCCCTTGGTCCGCCATCGAATACACGGCTCAGGTCAGTGCGGGTACAGCCGTGGGAGTCTGGGGGGTCGGTGGACTTGGTGCTCACGCAATTAAGCTGCTTATTTCAAAAGGGGCAAAACCTATCCTCGCTATTGATCCTTCCGAAGCCGCGCGCAAGAGGGCTGAAGAATATGGTGTGGATCTTGCAATCGATAGCTCGGTCGAAAATTTCGTAGAGATCGTCTCCGAAGCGACGGGGGGTAATTTCTTAGATTTTGCTTTCGATTTCGCCGGAGTTCCACCCGTGCGGAAGCAAGCGTTGGAGGTTCTTGGCACCGGTGGTGCGCTAGTTTTGGCAGGTATTTCTGGCAAGGAGGTGGTGATCCCTAATGACTTGGAATTTCAAATGAAAAAGCAGTCAGTGTTGGGTCACTATGGGTCTCAGCCGGGGAGCGTGTCAGACATTATTGAAATGCTTAAAAATGGTGTTGTCAATTTCGATGACTCGGTGACAGAGACGCTGCCATTGACTGAGGCGCAGACAGCTGTGGAGCACCTGGAGAAAAAGGTGGGCAACCCGATCCGAATCGTGCTGCATCCCGAGGATTAG	MPDTMKAARMHIDGDVRELRIDEIAIPEPGPGEVLVKVKAAGVCLSDVHLLDGSLTPPHLEGNVVTLGHETAGMVAALGEGVTSFKEGDRVVLRSGYRSADGKTYGYGIDFDGGWAEYIVAKASVAIELPDSVPFDVAAIVPDAISTPWSAIEYTAQVSAGTAVGVWGVGGLGAHAIKLLISKGAKPILAIDPSEAARKRAEEYGVDLAIDSSVENFVEIVSEATGGNFLDFAFDFAGVPPVRKQALEVLGTGGALVLAGISGKEVVIPNDLEFQMKKQSVLGHYGSQPGSVSDIIEMLKNGVVNFDDSVTETLPLTEAQTAVEHLEKKVGNPIRIVLHPED				NA	NA	NA	NA	NA
AK009_09727	327			hypothetical protein	GTGATCGTTACCGGGGACAAAACGACGATTCTCCACCTGTGTAAACAGTGCCCGGCGGCCCACCATGCCCGCCTCGAGGTGCCCGGCGCCGGCGCGCAGTCGGGCGGTGGCGCGGTCGCGCCACTGTTCCACCGACGCTCCGGAGGCGGCGAGTGCTGCCTCGAACACGCCCGGGTGGGCGAGTACCACCAGCGCACCGACGTGGCCGAAGCCCAGCGAGGTCAGCGCCGCGGCCTTCACCGCACCCGCCCCGAGCGACAAGGGGGAGCGCAACCACACCAGGTTGCGCGCCTTCTCGCCGACCAGGGGATCGACGCAGTCAAGTGA	MIVTGDKTTILHLCKQCPAAHHARLEVPGAGAQSGGGAVAPLFHRRSGGGECCLEHARVGEYHQRTDVAEAQRGQRRGLHRTRPERQGGAQPHQVARLLADQGIDAVK				NA	NA	NA	NA	NA
AK009_09728	222			hypothetical protein	TTGGAACAGCGCCGCGCCCGCCTTCGCGTGGCCCGTGAGCGTCTTCTGGGAGATCACGTACATCGGCGCGCGCTCGTCGCGGCCGATCGCAGGCCACAGCAGCGAGTGCAGCTCCGACTCGTTCGGGTCGTTGGCGTTGGTGGAGGTGTCGTGCTTGGACAGCACTGTGACGTCGTCAGGCGCAAGCCCGAGCGCGGACAGCGAGCGTGCCAAGCGCGATGA	MEQRRARLRVARERLLGDHVHRRALVAADRRPQQRVQLRLVRVVGVGGGVVLGQHCDVVRRKPERGQRACQAR				NA	NA	NA	NA	NA
AK009_09729	597			hypothetical protein	GTGCGCCCCGTCGCCGAAAGAGGTGGCGTAGGCGATCACCGCGTAGACCGGCAGGCCGAGCTCGGCGGCCAGCGAGGCGCGGGCCACGAGCACCGTGCCGCCGCCCTCGGCCTCGAGGAACCCACCGCGCCGGCGGTCGTTGGCCCGGGAGATGAACCGGTCGGAGATGCCCTTAGCGCGCATCGCCGCGGTTTCCGCGGTGGCGTTCATGTCGCCAAAGCCCTGCAAGGATTCGACCTGGACATCGTCGATGCCGCCGGCGACGACAAAGTCGGCCTTGCCCACCGCAATCTTGTCCACGGCTTCTTCGACGGATACCGCCGCGGTGGCGCAGGCACCAACCGGGTGGATCATCGAACCGTAACCGCCGACAAGCGATTGCATGACGTGCGCGGCCACCACGTTTGGCAGCGCCTCCTGCAGGATGTCGCTCTGGCGTTCGTGGCCGAGCAGGCGGGAGACGAACACCTTGTGCAGCGACTCCATGCCGCCGATGCCGGTGCCCTGGGTCGACGCCACGTCCGCCGGGTGGATGGCCTGCATGAGCTCGGCCGGGGTGAAGCCCGCGGTAACGAACGCGTCGACGGCGGTGACTAA	MRPVAERGGVGDHRVDRQAELGGQRGAGHEHRAAALGLEEPTAPAVVGPGDEPVGDALSAHRRGFRGGVHVAKALQGFDLDIVDAAGDDKVGLAHRNLVHGFFDGYRRGGAGTNRVDHRTVTADKRLHDVRGHHVWQRLLQDVALAFVAEQAGDEHLVQRLHAADAGALGRRHVRRVDGLHELGRGEARGNERVDGGD				NA	NA	NA	NA	NA
AK009_09730	90			hypothetical protein	GTGGGCCACGGTGAACGTGACGTCGCGGTCGAGGAAGACCTCGGTGAGGTCGATCGAGCCGCGGTCGGTGAGGAAGTACTTGTCGCTTAG	MGHGERDVAVEEDLGEVDRAAVGEEVLVA				NA	NA	NA	NA	NA
AK009_09731	2094			hypothetical protein	GTGCACGCCCGCGGCCTGGGCCGCTGGGACGAGTGCGTCATTGCCGCCCATCAGGTGCGTGCCGGCCACCCAGCCGATGCGCGCCTGGGCAAGGGTCACGCCGTCGGGCCAGCCGGTCTCGGCGGACCACTTGTTTATCACGGCGTCGAGCGCGGCCTTGACCTCGCCGTATGCGCCGTCACCGCCGAAGGTGCCCCGGTTCGGCGAACCCGGCAGGACAACGTGGGTGCGCTGGACGGAATCGGAAGTCTGCGCCAGCTCGGCAAGGCCCGCGATCGTGCGCTCGACCGACCACAGCAGCAGACGGGCCTGGGTCTCGGCGTTGCCGCCGACCTCGGCCAGGGATCCGGACACGCTCGGCGCGGCGAACGGGAAGGCCAGGGTGGGGATCAGCCGGGGCTTGGTCACGCGCACGTCCTTGCCCACGGTCTCCTTCTGCTCCTCGCCGAGCCAGGCAATGAGCGCGTCGATGTCACGGTAGCTCGACAAGTTGGCGGGCACGAGCCACAGCGCAGCACCCGCGACGGCGTTGTCGCGGTAGAGGGTGCGCGCGAACTCCTTGCGCGCCTGGCTCACGTTCGAGGCAGTCATGACCACGGTGGCGCCCCCAGCGAGCAGGCGCTCGACAAGAGCAGTCGCGATGGAACCGGGCGCGGCACCCGTAACCAGGGCAATCTCGCCGGAAAACTCGCCGCTAAAGTCCTCGGCGGCGGCCTGCGCGATCTCCGCCAGCGGGCCGGAGTAGCCGTTATCCGCGTACCACTGTGCCTGCTCCGCCACAGTCTGCCCGGTGCCGCGGAAGCGCTCCACCGCAATGTCCGCCTCGCCCAGGGCCACGCGGGCGAGGTCCTCGCGCGCTTGGGCCCAGCGGTCGTCGAAAAGCACGGCCTTGCGCGCGTCGAAGCGGGGGGTGACCTGCGAGACCCAGCCGGCGCCCAGCTCGGCCTCGACGGTTTCGAGGACGGTGGTGTCGGGTGCTTCGATTTCGGCGTGCTCGTCTCCGACGCCGAGCTTGGCCAGCAGCGTGCGCGCGGTGGTCACCAGCGTGTCGGTCACCTCGTCGCGGTAGGCCTCGAGGGCTGCGGAGTCGACCACTGCGCCGCCGGAGGCGCCACCTGCCTTTGCCGGGCTGACGTTGATGCCGTGGCGGGCGGCGACGTTGGCCACGGCGGCGTCGATAAGCGCGTTCACCTCGGACTTCGAAGACGCGCCGGGCAGAGTGCCGAGGGCGCCGCCGCGCACCGACTCCTCCTGGCGGGTGCCCAGCAGGATTTCCGCCTCGACGTGGGGAACCCAGGACGCGGGCAGCGCCCAGGTGCCGGTGACGTGGTCGCCGACGTGTGCGGGTTTAAGCCCTGCCACACCGAGAACTTGGCGCAGGCGCGCGCCGATTGCCTCGGAGAGCACGGAGCCGAAGGGGGCGTAACCGGGCGCGGCGGTTCTCACGCGCTCGCGCAGCGTGGTCACGTCGGCCTCGGCGGCGCCGTCGATGGCGGGCACCCCAAGCTCGGCGGACATGTCCATGAGCAGCTGGTTGCGTCGCGACGACACCCCGCCCGTGAGCTCCTCGATGGTGTCGGAGCCGGTGATCTGCTCCACGCGGATCTTGTTCTGGAACGCGAAGAGCACGTCGATGGCGTCAGCGGCGCTAAACGGGAGGTCGGTGACGGGCGAGCCGCCGGCCGCAGCGGGAGCGGGAGTGGAAGACGGGGAGGGCGCGGCTGCCGCAGGCTCGGGAGCGGTGGCGGGCTCAACCTCCTCCGCCTGTCCAGGCTGCTCCGGCTGATTCGCCTCCTCCGGTTCGGGCGCGGCGATGGAGTCCGCCAGCATGACGGTGTCCTGGCTCGCCTCGACGTTGAGCACCGGGATGTGGCGGCCGATCACGTCCATCTCGCGCTTGGCCAGGTTGGTCAGCGTCGGCGAGGCAGCGAGGCCGACCTCGATGAGCTGATCGACGCGCCCGATGAGCAGGTCCTGCGTTTCAATCCAGCGCACCGGCGAGGCGAACTGCCAGGCCAGAAGCTCGATGAGGAGGATGCGGGCGAGCTCGCCTGCGGGAGTGTTGTCCACCGTGACTCCGGCGAGGCGCTCTGA	MHARGLGRWDECVIAAHQVRAGHPADARLGKGHAVGPAGLGGPLVYHGVERGLDLAVCAVTAEGAPVRRTRQDNVGALDGIGSLRQLGKARDRALDRPQQQTGLGLGVAADLGQGSGHARRGEREGQGGDQPGLGHAHVLAHGLLLLLAEPGNERVDVTVARQVGGHEPQRSTRDGVVAVEGARELLARLAHVRGSHDHGGAPSEQALDKSSRDGTGRGTRNQGNLAGKLAAKVLGGGLRDLRQRAGVAVIRVPLCLLRHSLPGAAEALHRNVRLAQGHAGEVLARLGPAVVEKHGLARVEAGGDLRDPAGAQLGLDGFEDGGVGCFDFGVLVSDAELGQQRARGGHQRVGHLVAVGLEGCGVDHCAAGGATCLCRADVDAVAGGDVGHGGVDKRVHLGLRRRAGQSAEGAAAHRLLLAGAQQDFRLDVGNPGRGQRPGAGDVVADVCGFKPCHTENLAQARADCLGEHGAEGGVTGRGGSHALAQRGHVGLGGAVDGGHPKLGGHVHEQLVASRRHPARELLDGVGAGDLLHADLVLEREEHVDGVSGAKREVGDGRAAGRSGSGSGRRGGRGCRRLGSGGGLNLLRLSRLLRLIRLLRFGRGDGVRQHDGVLARLDVEHRDVAADHVHLALGQVGQRRRGSEADLDELIDAPDEQVLRFNPAHRRGELPGQKLDEEDAGELACGSVVHRDSGEAL				NA	NA	NA	NA	NA
AK009_09732	435			hypothetical protein	GTGCTCGAGGGTGGCCACGTCGATCTCGGCGGGCAGCAGTTCGTCGAGCTTCTGGGCGAAGGCCGGCACGCCGTCGCGCAGCACGCGGGAGTGGAAGGGCACGTCGATGCCCGGCACGGTGACGAACGCGCGCTCGCGCACACCGTTGGCGGCCTGGGCCAGGGCGGCGAGGCCGCGCTTGGTTCCGGCCACAGAGTACTGCTGGCCGGAGATGTTGTAGTTGACAATCTCCAAAAACTCCCCGGCGGCATGTGCCACCGAGGCGACGTAATCGACGACGTCACCCGGTGCCACACCGATCATGTTCGGGCGCAGCGCACCCATGCCGTAGTCGGAGTTGCCCTCGGCATCGCGCGGCACGAGCGAACCCATCGCGGAGCCGCGCGAGTAGACGATGTCGATCACGGCCTCGAGGTCGAAAATCCCGCCGAGTGA	MLEGGHVDLGGQQFVELLGEGRHAVAQHAGVEGHVDARHGDERALAHTVGGLGQGGEAALGSGHRVLLAGDVVVDNLQKLPGGMCHRGDVIDDVTRCHTDHVRAQRTHAVVGVALGIARHERTHRGAARVDDVDHGLEVENPAE				NA	NA	NA	NA	NA
AK009_09733	246			hypothetical protein	GTGCAGCACGCCATTCGGGTGCTTGAACACCTCACCGCGCACCGTGATCTCGGTCGGGTTCTCATCCACGATGCGCTGGATGGAAAAGCCCAGGTTGGTCCTGGTGTGACGGTCGGCGCGGCGCCAGATCTCGCGCGCGGCGGGGCTGGCCTGGCGATCTCCCACACCCATGCCCTCGGCCTGCACGCCCTGGCCCGGGTAGACGTAGGCGGTGCGCGGCTGCGCCAGAAGCGCCTGGCCGCGTGA	MQHAIRVLEHLTAHRDLGRVLIHDALDGKAQVGPGVTVGAAPDLARGGAGLAISHTHALGLHALARVDVGGARLRQKRLAA				NA	NA	NA	NA	NA
AK009_09734	1449			hypothetical protein	GTGATCCAGATACTCGGAGGCCTCCTCAATGGACAGCTCGGTCAGGCCGGCGATGGAGAGCTCGCCGTGGGTGGTCGAAGCAAGGCGAACCGCCAGGATCTCCGGCTTCAGGCGCGCGCCCTTACAGGTTGGGCAGGGAATCTCGCGGGTGTAGGCGAGCAGCCGGTCCTTCTGGTGCTCCGACTCGGCCTGCTCCAGCTTGCGTTCGAGGTAGCCGATCACGCCCTCGTAGGCGGCGGTGAACCCGCGCTGGCGGCCGTAGCGGTTCTTGTACTTGACGCTGACCTTTGTCGACGAGCCGTGGATCAGGTGCTTCTTCTGCGTCGCCGTCAGCGAGGAGAACGGGGCGTGCGCGTCGAACCCCTCCTCGCCCGCCAACGCCTCGATGAGCTTGACAAAGTAGCCCTTGTTCGGCGACGAGTTCCAGGGCTGGAACGCGTCGACGGCCGGGGCGTCCGGGTCGGGGACGACGAGGTCGATGTCGATTTCCTTGCGGGTGCCCAGGCCGTCGCACGCCGGGCAGGCACCGAAGGGGGCGTTGAACGAAAACGCGCGGGGTTCGTACTCCTCGACGTCGAGGCTGTGGCCGTTCGGGCAGGCCATCTTCTCCGAGAAGATGCGGTAGCGCTCGGGGTCGGATTCGTCGAGGTCGACGAACTCGACAGAGACGAGGCCGTCGGCAAGCTTGAGCGCGGTCTCCACGGAGTCGGTCAGCCGCTGCTTCTGGCTCTCCTTGACCTGCAGGCGGTCGACGACGACGTCGATGGTGTGCTTGATCTGCTTCTCCAGCTTCGGCGGGTCAGAGAGCTGATGCGTCTCCCCGTCGACGGTGATGCGTGCGTAGCCCTGAGCGGCGAGGTCCGCGAACAGGTCCACGAACTCGCCCTTGCGCTTGCGTACGATGGGTGCGAGGACCTGGAACTTGGTGCGTTCCTCGTGCTCGAGAATCTGGTCGACGATCTGCTGCGGGGTCTGGCGGCTGATCTCGGCATCGCACACGGGGCAATGCGGGGTGCCGGCGCGCGCGTAAAGCAGGCGCAGGTAGTCGTAGATTTCGGTGATGGTGCCCACGGTGGAGCGCGGGTTGCGGTTCGTGGACTTCTGGTCGATGGACACCGCCGGCGAGAGCCCATCGATGTAGTCGACGTCGGGCTTGTCCATCTGACCGAGGAACATGCGCGCGTACGAGGACAGCGATTCAACGTAACGGCGCTGGCCCTCCGCAAAGATCGTGTCAAAAGCCAGCGAGGACTTCCCCGAACCCGACAGCCCGGTGAACACGACCATCTTGTCGCGCGGCAGGTCAAGGTCGACGCCTTTGAGGTTGTGCTCGCGCGCGCCGCGCACGGTGAGACGGTCAGCCACCTTGTGTATTCCTCCGCTGTTCAAGTGGGTAAGCAACAGCCCCCGAACATACCAGCGATTGCACCCCAGCCGCTAAGCGAGTAG	MIQILGGLLNGQLGQAGDGELAVGGRSKANRQDLRLQARALTGWAGNLAGVGEQPVLLVLRLGLLQLAFEVADHALVGGGEPALAAVAVLVLDADLCRRAVDQVLLLRRRQRGERGVRVEPLLARQRLDELDKVALVRRRVPGLERVDGRGVRVGDDEVDVDFLAGAQAVARRAGTEGGVERKRAGFVLLDVEAVAVRAGHLLREDAVALGVGFVEVDELDRDEAVGKLERGLHGVGQPLLLALLDLQAVDDDVDGVLDLLLQLRRVRELMRLPVDGDACVALSGEVREQVHELALALAYDGCEDLELGAFLVLENLVDDLLRGLAADLGIAHGAMRGAGARVKQAQVVVDFGDGAHGGARVAVRGLLVDGHRRREPIDVVDVGLVHLTEEHARVRGQRFNVTALALRKDRVKSQRGLPRTRQPGEHDHLVARQVKVDAFEVVLARAAHGETVSHLVYSSAVQVGKQQPPNIPAIAPQPLSE				NA	NA	NA	NA	NA
AK009_09735	138			hypothetical protein	GTGCAGGCCAATCGACGGCTCGTCAAGGACGTAGAGCACGCCCGCGAGCCCCGAGCCGATCTGGGTTGCCAGGCGGATGCGCTGGGCTTCGCCGCCCGACAGGGTGCCGGCGGAGCGCGACAGGGTGAGGTAGCTTAG	MQANRRLVKDVEHAREPRADLGCQADALGFAARQGAGGARQGEVA				NA	NA	NA	NA	NA
AK009_09736	1077			hypothetical protein	GTGCTCAATAACAAGCACCGTGTTGCCCTTGTCCACCAGGCCACCCAGCACCATCATGAGTTTGCGGATGTCTTCAAAGTGCAGGCCAGTGGTGGGCTCGTCGAGGATATAGATCGTGCGGCCATTGGAACGCTTCTGAAGCTCCGCGGCCAGCTTGACGCGCTGCGCCTCACCGCCGGAGAGCGTGGTGGCGGCTTGGCCGAGGCGGACGTAGCCCAGGCCGACGTCGACAAGCGTGCTCAAGTAGCGGTGGATGGACGTGATCGGCTCGAAGAACTCGGCGCCCTCAGAGATGGGCATGTCGAGCACCTCTGCGATGTTCTTGCCCTTGTAGCGCACCTCGAGCGTTTCGCGGTTGTAGCGCGCGCCCTCGCACACCTCACAAGGGACGTAGACGTCCGGCAGGAAGTTCATCTCGATCTTGATCGTTCCGTCGCCGTGGCACGCCTCGCAGCGCCCGCCCTTGACGTTGAAGGAGAACCGGCCCGCCTTGTAGCCGCGGACCTTCGCCTCTTGGGTTTCGGCGAAGAGGTTGCGGATCTTGTCGAAGACACCAGTGTAGGTCGCCGGGTTCGAGCGCGGGGTGCGGCCAATCGGGCTCTGGTCGACCTGCACCAGCTTGTCCAGGTGGTCGATGCCCTCAACCTTCTTTACCCGACCCGGCACCTGGCGGGCGCCGTTGAGCTGGTTCTGCAGAGTCTTCGCCAGGATCTGGTTAACCAGGGTCGACTTGCCCGATCCGGACACCCCGGTCACCGCGACGAGGACGCCCAGCGGAATGCTGACGCTGACGTTGTCCAGGTTGTTCTCGCGCGCGCCGACGACCTTGAGCATGCGCGACTTATCAATCGGGCGTCGCTCGGCCGGCACCGCGATCTCCTTGCGCTTGGACAGGTAGTCGCCGGTGATGGAGTTCTTCGCCTTCAGGATCCCGGCGGGCTCGCCCTGGTAGACAATCTCGCCGCCGTACTCACCGGCGCGCGGTCCGACGTCGACAAGCCAGTCGGCCTCGTTGATGGTGTCCTCATCGTGCTCGACCACGATCAGCGTGTTGCCCAGGTCGCGCAGCTTCTTTAG	MLNNKHRVALVHQATQHHHEFADVFKVQASGGLVEDIDRAAIGTLLKLRGQLDALRLTAGERGGGLAEADVAQADVDKRAQVAVDGRDRLEELGALRDGHVEHLCDVLALVAHLERFAVVARALAHLTRDVDVRQEVHLDLDRSVAVARLAAPALDVEGEPARLVAADLRLLGFGEEVADLVEDTSVGRRVRARGAANRALVDLHQLVQVVDALNLLYPTRHLAGAVELVLQSLRQDLVNQGRLARSGHPGHRDEDAQRNADADVVQVVLARADDLEHARLINRASLGRHRDLLALGQVVAGDGVLRLQDPGGLALVDNLAAVLTGARSDVDKPVGLVDGVLIVLDHDQRVAQVAQLL				NA	NA	NA	NA	NA
AK009_09737	225			hypothetical protein	ATGACGGGCGGTCTCGCCGTAGTGCCACTGCGGGTAGCCCTGTGCGTGGGCGTCGGCCTGGGTGCAGGTCTGGTAGAGGTTGTGAATCGGGTAGCCCTGCGGCATCGGGGGGATGTCAGCGGCGGATGCGGGGACGGGCCCGAGCGCGACTGTGGCCGAGGCCGCGGTGAGCACCGCGATAATGGCTGCCTTGATATTCATAGTGCCCTTTGGTTGCCGGAATAA	MTGGLAVVPLRVALCVGVGLGAGLVEVVNRVALRHRGDVSGGCGDGPERDCGRGRGEHRDNGCLDIHSALWLPE				NA	NA	NA	NA	NA
AK009_09738	660			hypothetical protein	GTGATCCACGATCGGGGTGTACGTCTGCTCGCCGTCGGACCAGTTCAAGAAGTCCTGGGAGTAGCCGGGCTTACGGAACGTCGGCGCGATCCCCGACAACTCGTGCGGGTACCACAGCGGAATCGCCGCGTCGCACCGCGAGCCGAAGGCGGGCCAGCTTGCGTCGCGCTGCGGAGTGGTCACGGGGTTAACCACCCGGTCGTTGCGCGGGTCGGCGATCTTCTCCAGGCTCGGCCCCGTAATCGTGTTGTACGGCTTATCGATGGGCTTGCTGTTGGCGCCCTGTGCGCGGGCAGGAACCTGCAGTGCCTGCTGATCGACGGTGCCGTCAGCACGGATGATGTGCGCAAACGCGTAGCGCTCTGCGGGACCGGTGCCTCGGACCACATCGGCGCCAGCCATGTTCTGGTAGAACCCGCCCTGGCAGGTGACCATCATCGAGATAAAGTCTTTTTCCAGCACGCCGAACTCGACGCGGAAGGTTTCACCCGGGGCGAGTTTGATCGGGCCGAACGTCTCCCCCTGCACCCAGCCATTGTCGGTGGTCAAGCCGATGTCGGAGCGGGCGGTCGTGCTCCACCCCGACGGCAGCTCCGCGCGAGAGTTCGCCGAGATCACGTGGTTGGTTCCGCTCTCCACCTCGGCCGTGTAATCCACTGA	MIHDRGVRLLAVGPVQEVLGVAGLTERRRDPRQLVRVPQRNRRVAPRAEGGPACVALRSGHGVNHPVVARVGDLLQARPRNRVVRLIDGLAVGALCAGRNLQCLLIDGAVSTDDVRKRVALCGTGASDHIGASHVLVEPALAGDHHRDKVFFQHAELDAEGFTRGEFDRAERLPLHPAIVGGQADVGAGGRAPPRRQLRARVRRDHVVGSALHLGRVIH				NA	NA	NA	NA	NA
AK009_09739	561			hypothetical protein	GTGGCGCTCAGCCGGCAGGGTCGCCGTGAAGGTCTGGCCCGTGCCGTGCCAGGTGCGGTCCTGGCCGCAGACAGTCTTCTCTCCCGAGAAATCAGAGACGACCCAGCCGGCGCGCATGACGGCGGTGGTGCCCGGTGCGATGTCGTACGGGCCGACAACCTCACCGACCTCGTAGGACGAGGACTTGGAGTAGCTGGTGGAGAACGAGATCTTGATCAGGTCGAGAATCGGGAAGTCGATGCCTGCGGAAACCTTCCACTCGTTGGACTTCTTCTCCGTGATCGTGCGTGTCAGCGGGAACGGCGTGGAGTTGTAGTTGGATACAGTCCACGTACCGGCGGAGGCATCGAAGTAGGTGCGGTCGATGCGGATGGTTTGGCCGCGGTCGCCGGGGTTCGCGCAGACCGCGCCGATCGTCGTCGGGTTGGCCGTGCCCATGTCGCGGACAGGAAGGGCGTTGGCGGGAGAAGCGGTGATGCCAGCGGCTGTCGCCAGGACGACTGCCGACGCTGCGGCGCGTGCGAAAATAGACATGTGTGGGGGCTCCTTAAGAGGGTGTGA	MALSRQGRREGLARAVPGAVLAADSLLSREIRDDPAGAHDGGGARCDVVRADNLTDLVGRGLGVAGGERDLDQVENREVDACGNLPLVGLLLRDRACQRERRGVVVGYSPRTGGGIEVGAVDADGLAAVAGVRADRADRRRVGRAHVADRKGVGGRSGDASGCRQDDCRRCGACENRHVWGLLKRV				NA	NA	NA	NA	NA
AK009_09740	321			hypothetical protein	GTGCGCGACCCCAGGCCAGGGCGGGATCTACGTCACCGCGCAGCGGCGCTGGTTCGACCAGACCGACGCGGCGAGCGTGGCAAACCGCAACACCATCCCCGTGCCCGTCACGCACAAGGTCACCGAGGCGCGCACGTCCACCCTGGAGATTTCAGCGACGATCACCCCGAAAGGCGAGATCGAGCGCTACTTAGCGACGGCCTACGGGCTGAACTACGTGCGGGTTCAGCACTGGTCGGTCGGCCAGACTGTCGGCCCCTACGTGCTCGGTCCCGGCCGCCAGGGCAAGCTGGTCTGGGGTTTCATGATGCTCGATACTAA	MRDPRPGRDLRHRAAALVRPDRRGERGKPQHHPRARHAQGHRGAHVHPGDFSDDHPERRDRALLSDGLRAELRAGSALVGRPDCRPLRARSRPPGQAGLGFHDARY				NA	NA	NA	NA	NA
AK009_09741	285			hypothetical protein	ATGGTGCCGGAGCGCCCCCTTTGCTTTCGCTTAGCCGAAGACGGGTGCTTCGTCCTCGCGCAGCTCGGAGTAGCGCGACTCCGGGATGGTCGCCGAGTACGGCTTGCCTTCAGCCACCCACTGCTGGTCTTCCGAACAACGGACGTTTTGCGCGTTAGTATCGAGCATCATGAAACCCCAGACCAGCTTGCCCTGGCGGCCGGGACCGAGCACGTAGGGGCCGACAGTCTGGCCGACCGACCAGTGCTGAACCCGCACGTAGTTCAGCCCGTAGGCCGTCGCTAA	MVPERPLCFRLAEDGCFVLAQLGVARLRDGRRVRLAFSHPLLVFRTTDVLRVSIEHHETPDQLALAAGTEHVGADSLADRPVLNPHVVQPVGRR				NA	NA	NA	NA	NA
AK009_09742	696			hypothetical protein	TTGTGCAGTGGAAAACTAGTACTCGGCGTTGAGCACCTTGACAACGAGATTGAGCCTCGAGGTCGCACCGAACTGGTCCATGATGTTGGAGACGTACTTTTTGATTGTGGATTCCGAGTACGCGAGATCCTGGGCGATCTCCGAGTTGGACATGCCCTCGCACAGCAGGACGAGCACCTTGCGCTCCGACTTGCTCAGGGACTGCAGCTTCATCGCCTCGCTGATCGGGTCAACGTAGGTGTCGGTGTTCTGATCGTCTTTCAGGTGCGTCGCCAGCCTGGTCATCGCCTGCGGCGAGACCACCATGCCGCCGTCGGTGGCAGCGCGGACGGCGTCGATAAGCACCTGCGGCTTTTCGCTCTTGAGCACGTAGCCGGCACCGCCGAGACGGATGATGCGCATCATCGTCCGGTCCGAATCGAACGCCGTCACGGCTATGAAGATGGGGCGGCTGTCGAGCTTGTTGATGTTTTCAAGCAGCGTCGGGCCGTCCATAGTTGGCATGTGAATATCTGCCAAAATTACGTCAACGTCGTGCTCGCGAAGGCGGGCGAGGGCTTCCTCGCCGTTCGATGCCTCTGCGACCACGACGATGTCGTCAGTGCTGTTGAAGTAGTGACGAAACGAGCTCAGGACGAGCGGGTTGTCATCTACGAGCAGGACGTGGATTGGCTCAGTCATGCTGTGAGAGCATAA	MCSGKLVLGVEHLDNEIEPRGRTELVHDVGDVLFDCGFRVREILGDLRVGHALAQQDEHLALRLAQGLQLHRLADRVNVGVGVLIVFQVRRQPGHRLRRDHHAAVGGSADGVDKHLRLFALEHVAGTAETDDAHHRPVRIERRHGYEDGAAVELVDVFKQRRAVHSWHVNICQNYVNVVLAKAGEGFLAVRCLCDHDDVVSAVEVVTKRAQDERVVIYEQDVDWLSHAVRA				NA	NA	NA	NA	NA
AK009_09743	528			hypothetical protein	GTGAGATGGGCCCCTGCCGGGACGCATGGAATTCGCCATGCTGCAGCTCAGGGTCGTCGCAGTCTTGCGGATCTTCAGCTCGATGACGGAGCCCGGTTCGGCGTATTTAATGGCGTTCGTGGAAAGCTCAGTGAATACCTGCTCGAAGCCAGGGGGGAAAGACCATCGGCACGCCTTCGCCGCCTCGGCTCCTTCGACTTTGAAGCCGTGGCTTTCCAGCAGGCGGGTGGTCACGGAGACCTGCTCGCCGATAGTGCGGTTCAACGGTGCGGGGGAGACGCCATCGTCCTCCTTCATGAAGTGCAGCAGGTGGCGTACTTCCTGCATCGCCTGGCGGGTTTCATCGGCGATGTTTTCCGCGGTTTCACGGGCATCGTCGTTGCCCGAGGAGGTCAGCGCGAGCGTCTCAGCGCGCATCACCACAGACGTCAGAGTCGTCGCCACCGAGTCGTGGAGCGCTTGGGCGAGGCGTTCGCGGCGCTCCTCCATGTCGTCACGGAGACGCTGTTGGTTCGCGGCGTGCTGTAG	MRWAPAGTHGIRHAAAQGRRSLADLQLDDGARFGVFNGVRGKLSEYLLEARGERPSARLRRLGSFDFEAVAFQQAGGHGDLLADSAVQRCGGDAIVLLHEVQQVAYFLHRLAGFIGDVFRGFTGIVVARGGQRERLSAHHHRRQSRRHRVVERLGEAFAALLHVVTETLLVRGVL				NA	NA	NA	NA	NA
AK009_09744	522			hypothetical protein	TTGCGGCTCGGGAACCACATAAATGTGACCCCAAGCGGTAGTGCACGCCACCTTATCACCCGTGGGTGCAATCAACCAAATCTGACTATTGCACGGCTAACGGCTACGCTACTGCGAGTGCAAGATCCTCCTGTCTCGAGCTCCAAGAACGTGAACTGGAAAATCGCCGCCCTCGGCGTCCTCGCGATTGTTCTCACCCTGGCCGTTACCCCTATGACGTGGCAGCAGCTGGCGGTGAACCTCACTGCGGTAGCCCTCCTGGCTTCCGCTCAGCGTTGGCCTATCGCTTCGGGAATTATCATGATCGGCCTCTTCATCTTTATTTCCGCAGCTGAAGAGGTTCGCAGTCTTACCATGATCCTTTCGGCCCCGTTTTTGGTATCTCTAGTTGCCATGGTCGGCAGGCCTAGAGCGGCTGCGGCGTTCGCGATTGCGATGGGTACATTAGCGCAACCAGCCCCTTCACAGGCCGGTGGGTGCCCAATGACTTCACTGGTGTGGCGATATTTTTCGTCGCTCTAG	MRLGNHINVTPSGSARHLITRGCNQPNLTIARLTATLLRVQDPPVSSSKNVNWKIAALGVLAIVLTLAVTPMTWQQLAVNLTAVALLASAQRWPIASGIIMIGLFIFISAAEEVRSLTMILSAPFLVSLVAMVGRPRAAAAFAIAMGTLAQPAPSQAGGCPMTSLVWRYFSSL				NA	NA	NA	NA	NA
AK009_09745	303			hypothetical protein	GTGCTCATCGATCTTCGGTCGGAACTTCTGCTCCTTGACCACCGTCTGCTGCTGGTTCTTGCGGGCCTCGCGGGCCTTTTGATCCTGCTCGTACTTAAACTTGCCGTAGTCCATGATCTTGCACACCGGCGGCTTCGCGTTGGGAGCCACTTCGACAAGATCGAGGTCTGCTTCGTAAGCCAGCTTGCGGGCGTCGTCCGTGCGGACAATGCCAACCTGCTCGCCGGAGGGACCGACGAGGCGAACTTCGGGAACGCGGATGCGTTCATTGATACGAGTGTCAGCGCTGATGAGAACTCCTAA	MLIDLRSELLLLDHRLLLVLAGLAGLLILLVLKLAVVHDLAHRRLRVGSHFDKIEVCFVSQLAGVVRADNANLLAGGTDEANFGNADAFIDTSVSADENS				NA	NA	NA	NA	NA
AK009_09746	162	infC_2	COG0290	Translation initiation factor IF-3	ATGTTCCGCGGCCGCGAGCAGTCGCGACCGGAGCTCGGCTACCGCCTCCTCGAGCGCCTCGCAGACGACATCGGCGCGCTCGGTGTAGTGGAGTCCCGTCCGAAGCAGGACGGCCGCAACATGACGATGGTCTTCGGGCCCTCCCGCAAGGCTAAGAAGTAG	MFRGREQSRPELGYRLLERLADDIGALGVVESRPKQDGRNMTMVFGPSRKAKK				NA	NA	NA	NA	NA
AK009_09747	744			hypothetical protein	ATGACAGGGCAGTGCGAACGCCAGGACTGGCGCGGCGAGTTCACACGAGAGGAACTATGTGCAATCCGCCGGGAGGTTCCGCATGCGATCCAGAGGAGTCAGGAGCGTTCCGCCCGAGCCCACACGGAGTACGACGACCCTGATGGCGACCAAGACGTGTACGGCGCCGGTATGTCCCGTGGTGTGCAGAAGGAACTCCGCACTCTTCTCGCCAACTTCTCCTCCTACCGCGAGGTGCAGATACCCAGGAGTCGCCGCACGCTGACTTTCCTCGGCAATGCACTGATTTTCCCGCTCCGGGTGGGCAAGCAGATGCCTCGAAACCACCGCCGCATCAGGCTTAACTACCTCCCGGAGTCGCGTCGCGAACTCTTGGAGCAGACCAGCAACACCAAGTACGTCGACGCCGGACTGTTCGAGCTTGACGAGGCTTTCGGTGTCGAGCAGCCCGCCCGACTCCGCGACGCGCTCACCGTCCTCAGTGAAGGTGACACGCGCGCAACACTGTTCGTGCCCTACTACAGCAGCTCGCCCCAGGGTGTCGGCACGATTTACTTCGCTCCGGCACAGCTCAACGGCCGCTACCTGGTGTTCACCGACCCCGAACGCCTCACTTATCAGGTGCCTGTTGCGGGCGAGGCGCCCGCAGCCGTGCTCGCGCCTGTTGGCAGCTTCGCGGATGGTGATCGCCCCCGCACTACCGTGAAGCTTCGCCCTCGCCCGGCCGAGAAGGAAGGCAGTTAA	MTGQCERQDWRGEFTREELCAIRREVPHAIQRSQERSARAHTEYDDPDGDQDVYGAGMSRGVQKELRTLLANFSSYREVQIPRSRRTLTFLGNALIFPLRVGKQMPRNHRRIRLNYLPESRRELLEQTSNTKYVDAGLFELDEAFGVEQPARLRDALTVLSEGDTRATLFVPYYSSSPQGVGTIYFAPAQLNGRYLVFTDPERLTYQVPVAGEAPAAVLAPVGSFADGDRPRTTVKLRPRPAEKEGS				NA	NA	NA	NA	NA
AK009_09748	1182			hypothetical protein	ATGGGCGACCCCCGTAGTCAGTCCACAGACGCGGCTGATGTTGCGAGACTTTTCGACCCCGCCCGACTTACCCAAGCTCGACGCATCAACAAGATGTCCAAGGCAGAGCTCCACCGCAAAGTCGGCGTCTCCGCCGCCGCTATCGGACAATACGAACGTGGGGAGGTTCGCCCTCGGGCCGAAACTGTAGCCGCGCTGGCCGACGCCCTTCGCGTTCCGCCGGGATTCTTCGCCCTTGGGCGACCTCGCGCCCAGGTCGACATCGCCGAGGCTTCCTTCCGGCGTCTCCGCTCTACCAGCGTCGCTCAACAACAGCAGGCCACTGCTTACGTCGAGCAAGCCTGGGAACTGGCGTGCTACCTCGAAGAGAGCGTCGAGTTTCCGGAAGTCGACCTTCCGGAGTGGGCCAGCGTTGACTCCGCCGATGTTCCGGACCCCGTGACTGCGGCACAAGCCGTTCGGCGACACTGGTCCTTGGGGAGCGAACCCATCCGGCATCTTGTGTACCAGATGGAACAGCACGGAATCCTGACGGTCTTCTTCTCCATGAAGCAGGACGAAAGCTTGGACGAGAAGAGCCGCATTGACGCGTTCTCGACCACGGCACTCCCTCGCCCGATGATCGTGCTCACACCTGACAAGGCGAACGACGTGATGCGGCACCGCTTTTCAGCAGCGCACGAACTGGGGCACATCGTGCTACATCACGGTCGACATGGGACCGACAGTCAGTTGGAACGTCAAGCAGACATGTTCGCCGCCGAGTTCCTAACCCCGCGCGACGTGATCGCCAACGAGCTACCGAGGCGGGTCAACTTCAACCGCTACGAACAGGTCAGCCAGCGGTGGGGTGTCTCGGTGGCATCGCTGCTCTTTCGATCCCGTGAACTTGATCTCCTCTCCGAGTCCACGGTTCGCCGTGGCTACATCACGCTGAACAGCCTTCCGCGACGGCCGATGCCTATTGGTGACTTTCCTGGAGAGCGTCCGGAGTTGTTGAAGTCAGCGATCGACCTTCTTGATGGCTCTGGGACCAGCCTCGCCAAGATCGCAGCCGACCTTCAGATGACCCCCCGTCACGTGCGACGCCTGGCAGGCATTGACGATCCGCAGCCGAAATTGACTCTCGTGCCGAATCGGCCGAATGACCCGAACTCGGCACTCCCGCACGAGTTCATGTAG	MGDPRSQSTDAADVARLFDPARLTQARRINKMSKAELHRKVGVSAAAIGQYERGEVRPRAETVAALADALRVPPGFFALGRPRAQVDIAEASFRRLRSTSVAQQQQATAYVEQAWELACYLEESVEFPEVDLPEWASVDSADVPDPVTAAQAVRRHWSLGSEPIRHLVYQMEQHGILTVFFSMKQDESLDEKSRIDAFSTTALPRPMIVLTPDKANDVMRHRFSAAHELGHIVLHHGRHGTDSQLERQADMFAAEFLTPRDVIANELPRRVNFNRYEQVSQRWGVSVASLLFRSRELDLLSESTVRRGYITLNSLPRRPMPIGDFPGERPELLKSAIDLLDGSGTSLAKIAADLQMTPRHVRRLAGIDDPQPKLTLVPNRPNDPNSALPHEFM				NA	NA	NA	NA	NA
AK009_09749	1611			hypothetical protein	ATGAAGTCGAGACGACTCACATTCTACCTCCTACGAGAGGACATCGCCGACTTCGACGATGCTCTCGACCCGGACAAGCCAAGTGTGGCCGTCGAGATCGACCCATCCACCGGTATCGACGGCCGTTTCTTCTACGTCAAGCCCCAGCCATCCGTGCCGGCATGGGTTGGGTTCGTGCAACCTCTACTGACGGACCAACTCAGTGACATCCGCTCAGCCTCCACATCGGGACTGTTGCTCCTCCGGACGAGCGGCCGGATCTTCGCGCTCACCTTCGGATATGGACGATCATTGCTCGACCTCTCCAAGATCGAGTACCAATTCGGTCTACGCGTCGCGCTCAACCGCATCGATCCTCGTCAGATCCGCAGCCTCGACACCAAGACGTTCGAGGATCTTGTCGTGTCAACCAACACTCAAGTGAGCAAGAGTGCTGAGCTGCCGACCTTTGGTGTCGACATCTCCCGAGACATTCTGCGCGCGGTAACCGGCGAACCCCGCGACCAAACATTCTCCAAGAGAATCGCTGGAGCGGACTCACTGGTCATGGGTGTCACGACCCCATCGTTGGAACTTCCTGCCATCTGCGACGACCTTTTGACTGCTTTCGACGCAGACGACTACAAGACGGACTTCGGCTGGATCGACCAGCTCTCACTCGTGCGGGATGACGCGACCGTCGAAGCACTCAACAATCTTCTTGTAGCGCAGCTGCGGACTGGGTCAACTGGGGCGACACACCTCGCCATGCCAGAGACGATCGACTGGGAGGACATCGACGGATTCACGATCGCCGGAACTCGCAGCCACGTCTACGAAGACCTGGACCTCGATGATTATCTGAGCCGACTTGGGGACGACCGCGCCACAATCACGCTGAAGAACCTTAAGACTAGGACTGTCTCCGTCCGGTTCGGGCGCTCGGGGAACTTCGACAAGCGGTGGAACCTCTATCAATGCATCGTGACCGAACAGCGGCTCGATAGCCGCCTTCATGTCCTCATCGAAGGACGCTGGTTCGCTGTCAGCTCCACGCTCGTCGAGGAAGTAGACGCGTTTGCTGCTGGCCTACCAGACACGCACGTGGCCCTTCCGCCGGCACGTTCAGGTGAAATCGAAGCCGACTACAACACGCGCCTGGCGGCGTCCTCGTCACAGCACCTGCTGAAATTGGACGCACGCATCAAACGACCTGGCGGTGCTAGCAGTGGCATAGAGTTCTGTGACGTCCTCTCCGACCAGGGTGACCTGATCCACGTCAAGCGGAAGTCCCGCTCCGCAACATTGAGCCACCTATTCGCGCAAGGAAGCGTCTCCGCCTCCACCTTCATCAACGACGGCGCGTTCCGAACCCAAGTCCGCCAGCTGATTGAAGACGAGGTCGCGGCGGAGTCACGCGAGACCTGGCTCCGGCTCGTGCCGAGAGACGACGAGACGGTAGATAGATCGCGGTACAGCGTCACGTACGCAGTTATCGCGAACTCGACTCGCGAGGGACGCGACTGGCTCCCGTTCTTCAGCAAGCTGAACCTGATGCAGCAAGGCCGTCAACTCGTCACCATGGGGTTCAGCGTCGCCGTGGCCCGTGTACCGATCACTGCCTCCGAGTAG	MKSRRLTFYLLREDIADFDDALDPDKPSVAVEIDPSTGIDGRFFYVKPQPSVPAWVGFVQPLLTDQLSDIRSASTSGLLLLRTSGRIFALTFGYGRSLLDLSKIEYQFGLRVALNRIDPRQIRSLDTKTFEDLVVSTNTQVSKSAELPTFGVDISRDILRAVTGEPRDQTFSKRIAGADSLVMGVTTPSLELPAICDDLLTAFDADDYKTDFGWIDQLSLVRDDATVEALNNLLVAQLRTGSTGATHLAMPETIDWEDIDGFTIAGTRSHVYEDLDLDDYLSRLGDDRATITLKNLKTRTVSVRFGRSGNFDKRWNLYQCIVTEQRLDSRLHVLIEGRWFAVSSTLVEEVDAFAAGLPDTHVALPPARSGEIEADYNTRLAASSSQHLLKLDARIKRPGGASSGIEFCDVLSDQGDLIHVKRKSRSATLSHLFAQGSVSASTFINDGAFRTQVRQLIEDEVAAESRETWLRLVPRDDETVDRSRYSVTYAVIANSTREGRDWLPFFSKLNLMQQGRQLVTMGFSVAVARVPITASE				NA	NA	NA	NA	NA
AK009_09750	387			hypothetical protein	ATGAGATCACTGCACCGAACGACCCGCAGTCGCGCGGGGCGGCCTACCCAACGTGAGCCAGAACCGGTAAGTCCGCACCGCAGCATCGGTAGCGAGGCACTCGACTCTCTGGAACGGCGGTATCACGATGGCGAGGCGCTCCGCGCGGTCGCGAACGATGTCGGGCTGAGCCGTCACCGACTGGCGTCACTGCTTCGGGGGCGAGGCATCCGCATCCGCGGAGCGTCTCCTTCTTCCGCAGAGGTTCGAGAGATGGCCCGGCTCTACCGGGCCGGCGAATCACTAAAGCGCATTGGTGACGACTTGGGGTACTCAGCTGGCACGATTCGGAACCACTTGCTCGCGGTCGGCGTGACTCTACGTGGCTCGCAGGCCCGTGATCGATGA	MRSLHRTTRSRAGRPTQREPEPVSPHRSIGSEALDSLERRYHDGEALRAVANDVGLSRHRLASLLRGRGIRIRGASPSSAEVREMARLYRAGESLKRIGDDLGYSAGTIRNHLLAVGVTLRGSQARDR				NA	NA	NA	NA	NA
AK009_09752	705			putative ketoamine kinase	TTGCGGTGGCTGCGCGAGGGTAGCGCCGCGGTGGTCAAGGTTTTCTCGCTTGACGACGCCTCCAACACGCTCACCATCGAAAAAGTCGCGCCCGCCCGACCCACGCGCGCCGCTGCGCGCGAAGCGGGCCGTGAGCTGGCGAAAATCCACGCCATGGGCGCCACCGCGTTCGGCGCCGCGCCCGACGGGTGGGAGGGGCCGAACTTCATCGGCCGCGTGCGCCAGGACTGCACCCCGACCGAGCGCTGGGCGCCGTTCTACGTGGACCAACGGGTGCTGCCGTTTGCCTCGCGCGCGGTCGAGCAGGGCAACCTGGATTGCGCGGGCTTCGACGTCGTAAAGCGAGCCTGCGAGGCCTTGCTGGAGGAGGACGAGGACGCCCCGCTCGCGCGCATCCACGGCGACCTGTGGTCGGGCAACCTGCTGTTTTCCGCAGACGGCGCGCGGTTCATCGACCCCGCAGCCCACGGCGGGCACCCGCTGACCGACATCGCGATGCTGGAGCTCTTCGGCGCCCCGTTTGTCGAGGAGATCGCCGAAGGGTACTGCGAGGCGGGATCCTTAAGAGCCGAGTGGCGCCGCAGGATCCCCATCCACCAGCTGCACCCGCTGGCGGTGCACGCCCAGACCCACGGGCCGAGCTACGGGGATGCGCTGGTCCGCGCGGCTGAGGAGACGTTGCGGGTTGTACATTCTGGTGTGTGA	MRWLREGSAAVVKVFSLDDASNTLTIEKVAPARPTRAAAREAGRELAKIHAMGATAFGAAPDGWEGPNFIGRVRQDCTPTERWAPFYVDQRVLPFASRAVEQGNLDCAGFDVVKRACEALLEEDEDAPLARIHGDLWSGNLLFSADGARFIDPAAHGGHPLTDIAMLELFGAPFVEEIAEGYCEAGSLRAEWRRRIPIHQLHPLAVHAQTHGPSYGDALVRAAEETLRVVHSGV				NA	NA	NA	NA	NA
AK009_09753	177	bioA		Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGGACGAAGCACACCTTCTAGACCTTGACGCACACCACGTCTGGCACCCGTACGGCGCGTTCCCGCCGACGACGGCTCCGTTGGTTGTGGCGTCGGCAAGCGGCGTGCGCCTCAAGCTTGCCAACGGCCGCGAGCTTATCGACGGGATCGCGCCTGGTCACCGGCACTCTCGATGA	MDEAHLLDLDAHHVWHPYGAFPPTTAPLVVASASGVRLKLANGRELIDGIAPGHRHSR	PGPT0022100_2364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
AK009_09754	786	bioF_2	COG0156	8-amino-7-oxononanoate synthase	GTGGTCTCCGATGCGGGTTCGCACGCCTCGCTTGTCGACGCCTGCCGGTTATCGCGTGCCCGGGTCGTCGTCACGCCCCGCGGCGATGTCGACGCGGTGGCTGAGGCGCTGAGCTCGCGTATCGAGCAGCGCGCCGTGGTGCTCACCGACAGCGTGTACTCCGCAGACGGGACGCTCGCGCCAGTCGCTGCGCTGCGCGGCGTTGCGCGGGAGCACGGCGCCGTGCTCGTTGTCGACGAGGCGCACGGGCTTGGGGTGCGCGGCTCCGGCGGGCGCGGCTTTGTCCATGAGCTGGGACTTGCCGGGCAGGAGGACCTCGTTGTCACCGCGACGCTGTCGAAGGCGCTGGGCGCGCAGGGCGGGGTGGTGTTCGGCTCGCCGCGGGTGCGCGCGCACTTGGTGGACACGGCACGCTCTTTTATCTTCGATACCGCTCTGGCCCCGCCGATGGTCGGCGCGGCGCGTGCGGCGTTGGGCATTGTGGAGTGCGAACCGGATCGAGCTGCGCGGGTGTTGGGCGTCGCTAAGCAATTGGCTGAGGCGACGGGGGCGATTGAGCCGGAGAGTGCGGTCGTGTCGGTCATTCTTGGCGACCCGGAGCGCGCGGTGGCCGCCCGCGACGCCGCGCGTGAACGCGGGCTCGAGGTGGGGTGTTTCCGTCCGCCGTCCGTGCCGGCGGGCACGTCGCGGCTGCGTTTGACGGCCCGCGCCGATTTAAGTGATGCCGATGTTTCCCGTGCCGAGGCCATTCTGCGCGACGTAGTAGAGGAGTTTTCGCACCTATGA	MVSDAGSHASLVDACRLSRARVVVTPRGDVDAVAEALSSRIEQRAVVLTDSVYSADGTLAPVAALRGVAREHGAVLVVDEAHGLGVRGSGGRGFVHELGLAGQEDLVVTATLSKALGAQGGVVFGSPRVRAHLVDTARSFIFDTALAPPMVGAARAALGIVECEPDRAARVLGVAKQLAEATGAIEPESAVVSVILGDPERAVAARDAARERGLEVGCFRPPSVPAGTSRLRLTARADLSDADVSRAEAILRDVVEEFSHL	PGPT0022095_3366	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
AK009_09755	672	bioD1_2	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGACGAAGTTCATCGTGGTCTCGGGCACAGGCACCGAGATTGGCAAGACAATCGCCACCGCGGCGCTAGCGGCCCGCGAGGTGGCGGCAGGTAGTCGCGTGGGAATAGCCAAGCCCATCCAGACCGGACTTGAACCGGGTGAGGAGGGGGACTGCCAAGTGGCGGCGCGGCTCGCCGGGGTTGCGGCGGCGTTCGAGTACCGCCGCCTGCTCGAGCCGCTCGCCCCGGAGACGGCGGCGCGCCGCGCGGGGGAAGAACAGTCCACCGCCATTGAGCTTGCGGATGCGGTGCGGCGGTGGTCAGGCAACGAAGACCTGGACGTGGTGTTCCTCGAGGGCGCCGGAGGGGTCCTCGCGCGGTTGGGCACCGACGTGACGATCATCGACGTCGCGCGCGAGCTCAACGCGCCGGTCGTGCTGGTTACCTCCGCCGAGCTCGGCACGCTGTCGGCGACCGAGCTTGCGACGCGATGCTTGCGCGCCGAGGGCCTCGAGTGCCTGGGCATGATGATCGGTTCGTGGCCGGAAGCCCCGGACCTGGCCCAGAGGTGCAACGTCGAAGATCTCCCACGACTGACGGGGGAGAAACTGATGGGCGCAGTGCCTCGCGGGGCGGGATCCCTCGCGCCGGAGGAGTTTGCGCGCCGGGCACCAGGCTGGTTTCGCCGTTAG	MTKFIVVSGTGTEIGKTIATAALAAREVAAGSRVGIAKPIQTGLEPGEEGDCQVAARLAGVAAAFEYRRLLEPLAPETAARRAGEEQSTAIELADAVRRWSGNEDLDVVFLEGAGGVLARLGTDVTIIDVARELNAPVVLVTSAELGTLSATELATRCLRAEGLECLGMMIGSWPEAPDLAQRCNVEDLPRLTGEKLMGAVPRGAGSLAPEEFARRAPGWFRR	PGPT0022115_2461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
AK009_09756	360			hypothetical protein	ATGAGCGCCTGGGACAAGGACATCTTCTCGCGGGAAGAAAACGTCGACTTCATCGATGAGCTTTCCGAGCTCGACCCCGACGACGTTGCCGAGTCCGTCCGAGATGCGGTGCTACTAGCGGCTAACGCGGACTCGGCGACAGAGGAAGAAATCGCCAACGGTCTTGCCGCCGCGACGATCGCAGCGATCTGGTCCGGAGCTCCATTCAGTGCGGGCGAGATCGTCGATAGCTACCCGTTTATCCGCTCCGCCTCGGCCGAGATCGACGAGAAGCTCGCGGAGGCAGCGGTGTCCGTCCTCGAGGCCGCGGAGACCGAGGACGACCAAGACGTCGACCCCTTCGTCGAAGCCCTCTCCTAA	MSAWDKDIFSREENVDFIDELSELDPDDVAESVRDAVLLAANADSATEEEIANGLAAATIAAIWSGAPFSAGEIVDSYPFIRSASAEIDEKLAEAAVSVLEAAETEDDQDVDPFVEALS				NA	NA	NA	NA	NA
AK009_09757	270			hypothetical protein	GTGGATCGACCCGGAGATGCGCGCGCCCGCCAAGGGCTGCTCTTCGGCGTACTCGCGGCGCAGCTGCATCAGGCCCGGCATCTCGTACTCGGCGAGCTCGATCTGCTTGCGTCCGGCCTCGTAGAGGCTGATATCGGCAATCTTGTAATCCGCCGTGAGGTCGGTCCCGTGGTCGGCTGCGCCGCTCGCGTCGTTCATTTCTTGTCGTTACTCCCAGTTATAAAGAGGGCTTGGAACTTGTGGCCCATGGATTGTTCGCTCCCACCATAG	MDRPGDARARQGLLFGVLAAQLHQARHLVLGELDLLASGLVEADIGNLVIRREVGPVVGCAARVVHFLSLLPVIKRAWNLWPMDCSLPP				NA	NA	NA	NA	NA
AK009_09758	1203			hypothetical protein	GTGCTCCGGCTTGAACGGGCCGGCGACATCGACGCCGATGTACTCCGCCTGCTCCTTGGTCAACTCCGTGAGCGTGCCGCCGAGGGCCTCGACATGGATGCGGGCGACCTTCTCGTCGAGGTTCTTCGGCAGGCGGTAAACCTCGTTGTCGTACTGCGCGCCGTTGGTGAACAGCTCGATCTGGGCAATCGTCTGGTCAGCGAACGAGTTCGACATCACGAACGACGGGTGGCCAGTGGCGTTGCCCAGGTTGAGCAGGCGGCCCTCGGACAGCACGATGATCGAGTTGCCGGACGGCAGGTGGAACAGGTCCACCTGCGGCTTGATTGGGGTGCGGCTGACGTCGTCGCGGTGCAGCAGCGAGTGCATGTCAATCTCGTTGTCGAAGTGGCCGATGTTGCCCAGCACCGCGTGGTCCTTCATCTTCAGCATGTCGCCGAAGGTGATAATCCCCAGGTTGCCGGTGGCGGTGATCACGAGGTCCGACTCCGCGATCGCCTCGTCGACGGTGACAACGCGGTAGCCGTCCATCAGCGCCTGCAGGGCGTTGATCGGGTCGATTTCGGTGACGGACACGATCGCGCCCTGGCCGTCGAGCGCCTCGGCAACGCCCTTGCCGACGTCGCCGTAGCCGCACACCAGCGCCTTCTTGCCCGCGATGAGCACGTCGGTGCCGCGGTTGATGCCGTCGATGACGGAGTGGCGGGTGCCGTAGCGGTTGTCGAACTTCGACTTGGTCACGGCGTCGTTGACGTTCATTGCCGGGAAGGGCAGAATGCCCTCCCTGGCGAAGTGGTAGAGACGATGCACGCCCGTGGTGGTCTCTTCTGTTACGCCCTTGACCGCGGCCGCCGTCGCCGTCCACACGCCGCTGTCGGCGGCGAGCGTTTCGCTCAGCATGGAGTAGAACGCGACCTGCTCGTCAGAGTCGCCGGGCTGGGAGTTGGGCACCGCACCGGCCTTCTCAAACTCCATGCCCTTGATCACGGCCATAGTGGCGTCGCCGCCGTCGTCAAGAATCATGTTCGGGTACACGCCCTCGCCCCAGTTGAAGATCTGGCGCACGCACCACCAGTACTCGTCGAGGGTCTCGACCTTCCAGGCGAACACGGGCACGCCCTGCGGGTTGTCCGGGGTGCCGTCCTTGCCGACCACAATGGCCGCGGCGGCCGCGTCCTCGGTGGAGAAGATGTTGCAGGATGA	MLRLERAGDIDADVLRLLLGQLRERAAEGLDMDAGDLLVEVLRQAVNLVVVLRAVGEQLDLGNRLVSERVRHHERRVASGVAQVEQAALGQHDDRVAGRQVEQVHLRLDWGAADVVAVQQRVHVNLVVEVADVAQHRVVLHLQHVAEGDNPQVAGGGDHEVRLRDRLVDGDNAVAVHQRLQGVDRVDFGDGHDRALAVERLGNALADVAVAAHQRLLARDEHVGAAVDAVDDGVAGAVAVVELRLGHGVVDVHCREGQNALPGEVVETMHARGGLFCYALDRGRRRRPHAAVGGERFAQHGVERDLLVRVAGLGVGHRTGLLKLHALDHGHSGVAAVVKNHVRVHALAPVEDLAHAPPVLVEGLDLPGEHGHALRVVRGAVLADHNGRGGRVLGGEDVAG				NA	NA	NA	NA	NA
AK009_09759	606	tmk_4	COG0125	Thymidylate kinase	ATGATCATCGCGGTAGAGGGAATCGACGGCGCCGGCAAAAATACGCTGGTTAACGCCATCAAAGACGGGCTCGGCGCGGAGACTCTGGCGTTTCCGCGCTACGCGGAGTCCATCCACGCGCAGCTCGCGCGGGAGGCGCTGCACGGCCGGATGGGCGATCTCGTGGACTCGGCGCACGGGATGGCTACCTTGTTCGCGCTGGATCGGGCGGGGGCCAAGCCGCTTCTCGACACCTTCACGAACGCCCCGGACAAAATCATCATCCTAGACCGCTACGTCGCCTCGAACGCCGCGTACACGGCAGCGCGCACCGGCGACGATGCCGCCGCCAGGTGGGTCTTTGAGCTCGAGTTCGAGCGCCTCGGTCTGCCCCAGCCCGACCTGCAGGTGCTGGTGGACACCGACCCCGCGGAGGCGGGGCAGCGCGCGCGCCGCCGTGAGGAAAGCGACGTCGCGCGGGTGCGCGACCGCTACGAGCGCGACGTATCTTTGCAGCATGACACGTTCGCCGCGTATGAGCGACTGGCGGATACCGGCTGGGCGGGTCGGTGGGTCAAGGTGTCCGACGCTGCGACTATTATGCAAGCGGTAGAGAACCTACGTTAA	MIIAVEGIDGAGKNTLVNAIKDGLGAETLAFPRYAESIHAQLAREALHGRMGDLVDSAHGMATLFALDRAGAKPLLDTFTNAPDKIIILDRYVASNAAYTAARTGDDAAARWVFELEFERLGLPQPDLQVLVDTDPAEAGQRARRREESDVARVRDRYERDVSLQHDTFAAYERLADTGWAGRWVKVSDAATIMQAVENLR	PGPT0021395_5221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK009_09760	600			hypothetical protein	GTGGACGTTGACAAGGCGGGTGTCAGAAGCGTTGCGGTAGCCCCAGACGGATTCCAGCAGCTCCTCACGGGCATGGACCTGGTTGGGCTTGCGCGCCATCTCCAGGAGCAGATCAAACTCGAGTGGGGTCAGGGCGATCTCGGCGCCGTCGCGCGTGACCATGTGCTGCGGCACGTCGATGGTGAGGTCGCCGATGGTAAGCACCTCGGCGGGCTCCTCCTCGGTGCGGCGCAGACGAGCCCGGATACGCGCGATGAGTTCCTTCGGCTTAAACGGCTTGGTGATGTAATCGTCAGCACCCGATTCCAGGCCCAGCACCACATCGACGGTGTCGGTTTTCGCCGTGAGCATCACGATCGGCACCGCGGAGACCTTGCGGATCTCGCGGCAGATGTCCACGCCATTCATCCCCGGCAGCATCAAATCCAAAAGAACGATGTCGGGGTCGTAGTCGTTAAAGGCCGGAACCGCCGCCGCGCCGTCGGTCACCGACTGCGTCTCAAAGCCTTCCGACTCGAGCACGATAGTCAGCATCTCGTTGATGGCTGGGTCATCATCGACGACCAAAATCCTGTGGGGCACGACGACTCCTTAACGTAG	MDVDKAGVRSVAVAPDGFQQLLTGMDLVGLARHLQEQIKLEWGQGDLGAVARDHVLRHVDGEVADGKHLGGLLLGAAQTSPDTRDEFLRLKRLGDVIVSTRFQAQHHIDGVGFRREHHDRHRGDLADLAADVHAIHPRQHQIQKNDVGVVVVKGRNRRRAVGHRLRLKAFRLEHDSQHLVDGWVIIDDQNPVGHDDSLT				NA	NA	NA	NA	NA
AK009_09761	180			hypothetical protein	ATGGCGCACGTCCCTGCAGGTCAGGTTCGTGGGCACGGTGCTGATCGTGTCCACCGCGGTCATGCTGGTCCTGGGCTTTGCGTTGGCCTCGGTGGTGGCCCAGAGGGTGACCACCGCGAAGGTGGGCCTGGCGACGACGGAAATCGAGCGCGCCCGGGTGGTGGCCGAGGAGCAGATTGA	MAHVPAGQVRGHGADRVHRGHAGPGLCVGLGGGPEGDHREGGPGDDGNRARPGGGRGAD				NA	NA	NA	NA	NA
AK009_09762	582			hypothetical protein	GTGGTCCACGGCGTTCGCGATGAGGTTGCGGATCACGCGCTCGATGCGCCGGGAGTCGCCCTCGATCTGCACCGGCTCGTCCGGGACGATGAAGTTCACCTCAACGTCGAGCTCGTCAGCCAGGTGTCGCGTGTGCTGCCACGCCGCTTCAATCGGGGCGCGGGCATCCATCTTCGCGGGCGAGAGGTCGGCCACGCCAGCGTCGTGACGCGAAATCTCGAGCAGGTCCCCCAGCAACTCCTCGAATCGGTCGAGCTCACGCGTCATCAGCTCGGAGGCGCGCCTCGTGGTCGGCTCCAAGCTGTCCGGGTCGGCGGCGATCATGTCCGCAGCCATACGCACAGTGGTCAGCGGCGTGCGCAGCTCGTGCGACACGTCGGAGGTGAACTGCCGCTGCAGGTCACCGTACTCCTCCAGCTGGGTGATCTGGCGCGACAGTTTATCCGCCATGTCGTTAAACGACAGCGCCAAGACCGCCATCTCGTCCTCGCCGTCGACGGGCATGCGCTCGCGCAAATGCCCCGCCGCGAAGCGCTCCGCCGTGCGCGACGCGGAACGCACGGGGGCCACGATCTGCTGTGA	MVHGVRDEVADHALDAPGVALDLHRLVRDDEVHLNVELVSQVSRVLPRRFNRGAGIHLRGREVGHASVVTRNLEQVPQQLLESVELTRHQLGGAPRGRLQAVRVGGDHVRSHTHSGQRRAQLVRHVGGELPLQVTVLLQLGDLARQFIRHVVKRQRQDRHLVLAVDGHALAQMPRREALRRARRGTHGGHDLL				NA	NA	NA	NA	NA
AK009_09763	888			hypothetical protein	TTGAGTGCCGTCGCGGTTGAAGAAGTACAGGTTAAACGGCTGGTAGCGGTTGCGCATTTCCGTGCGCTCGATCACAGCACCGGCCGGCAGGGACGAGATCCGCCACTGGCCGTCGACGCGCTGGACCTCCATCGTCGCCTCGTAACCCTGGCGCGCGGGGATAAAAGAACCGCCCGGTCGCAACTCCCCGATGACGTTGCCCTGCACGTTGAAGCTCTGGGTGTCACCTCCACTAGCCAGGGTGTTCACGCTGATCCGGTCCACGACGATCGTCGAGGCGCTGGGGTCCCAGGCCTGGCGCGCCGCGTCCGTGAGAAAGCTCTTCGCACCCTCGTAGTTGCCCGCCGGCACCGCGGAGGCCGCGAAGAAATCCCGCAGCAGTACGTCAGGGTCACTGTCAGGCGCAGGCGTGATATCGGGGTTGACCTGTGTCGGGGCGTCAAAGCTGCGAATCACCTGCGGCGCCGAATCCGTCGGCAGCGAGGCGCAGGACGTAACCAGCGCGCCCGCGGTCAGCGCCGCGAGCGCCGAAACAACACGGCTGGGCCGCGCGCGGAAACTACGCATCACTTAGGCTCCTTTCGCCGTTCGCGCCGTGGGCGCTTTCAGGTCAACCGGGGCGGTGACAAACCCCGTGCGCGGGTCTCGCGGAAGGACAAGGCGGAACTGCGATCCAACGTTGACGGTACCCGCCGCGTCAAGGGTTCCCTTGTGCAGCAGGGCGTCTTCTCGCGCAATCGCCAGGCCCAGGCCGGTGCCTCCCGAGTGGCGCTTGCGCGACTTGTCCGCGCGCCAGAAGCGGTTAAACACAAGATCTTCCTCCCCGGGCTTGAGTCCGATGCCCTCGTCGGTCACCGTGATCGCGACCGCCTCGTCGTTCTGCGTTAG	MSAVAVEEVQVKRLVAVAHFRALDHSTGRQGRDPPLAVDALDLHRRLVTLARGDKRTARSQLPDDVALHVEALGVTSTSQGVHADPVHDDRRGAGVPGLARRVREKALRTLVVARRHRGGREEIPQQYVRVTVRRRRDIGVDLCRGVKAANHLRRRIRRQRGAGRNQRARGQRRERRNNTAGPRAETTHHLGSFRRSRRGRFQVNRGGDKPRARVSRKDKAELRSNVDGTRRVKGSLVQQGVFSRNRQAQAGASRVALARLVRAPEAVKHKIFLPGLESDALVGHRDRDRLVVLR				NA	NA	NA	NA	NA
AK009_09764	1125	lpqB		Lipoprotein LpqB	GTGTTCGCCGAGCGTGACACCTTGGAAACCACGCTGATTACGCTTCTGCTTCGCGGGCCCTCGGAGCGGGTACGCACGGCGTTCAAGTTCGATCTTCCTGCCGAGGCCGCCTACACCGGGGTGGAAGACGGTGCGTACACGTTCACGGGTCTAAGCGGGTTGGGGGAGCAGGAGCGCCTGCGCTTCGCGGCCCAGCTGGTGTGGACCTTGGCCGGTGCCGGTGTGAGCGGGCCGATTGCGATCTACGCCGACGGTGATCCTCTGCTGCCGGGAACGGAAAGCTTCTCACGCGAGGACTTCCCCAACGTCAGCCCGGCGGCGACGGTGGAGGAAGAGCGGCTTTACACCCTGGCGGGTGGACGCCTGTTCGAGGTGGCCGAGGAGAAGGCACAGCCGATGGATGGCAGGGTTGCTGAGCAGGGCAATATCGTCGCCGCTGACGTCACCGCGGCTGGTGACTACGCAATCATCACCGGTGCTGAGGGGGACCAGGTGTTCCGCGCGGGAGCGTTTGAGCAGGGTGCGCGCGAGATTTTAAGGGGCGATAACTTCACGCGACCGACGTTTGAGAGCTCAGGCTCCGGGATCTGGACGGTCATGAATGGCCGCCAGGTGCAGCGCGCCGTGCGGGCCCCGTCGGGGGAGTACTCCACGGCGGAGGTGGTTGTCGAGCTGCCGGAGGGCGTCGACGGAAGTATTTCGGTGCTGCGGCTGTCCAACACGGGGGTTCGCGCGGTCATGGTGATCGAGGGCACGCTGTATACCGGCATTGTTGAGCAGTACGGCGACGGCGAGCGCCGCGTGATTAACGTTCTGGAGTACGCGCCGGATTTGGCGGGCAGCGTGATTTCGGCGGACTGGCAGCCTGACGGGTCGATCATCGCGGGTACCAGTAACCCGGGCTCGCCGGTGGTGCGCGTGGAGCAGGACGGTTCGGGTACAACGGGCAAGCCGATTGGAAATATCACCGCGCCGGTCGTGGCTGTCGCGGCGGGGGCGGACATGATCTACGCCACAGACGCGAACGCGGTGCTGCAGCTGCCGTCGGGTGCGACAGACGTCCCGAACTGGCGCGAGGTGCCTGGGTTGCAGGGTGTGCGATCCGTTCCGATTGTGGCCCGGTAG	MFAERDTLETTLITLLLRGPSERVRTAFKFDLPAEAAYTGVEDGAYTFTGLSGLGEQERLRFAAQLVWTLAGAGVSGPIAIYADGDPLLPGTESFSREDFPNVSPAATVEEERLYTLAGGRLFEVAEEKAQPMDGRVAEQGNIVAADVTAAGDYAIITGAEGDQVFRAGAFEQGAREILRGDNFTRPTFESSGSGIWTVMNGRQVQRAVRAPSGEYSTAEVVVELPEGVDGSISVLRLSNTGVRAVMVIEGTLYTGIVEQYGDGERRVINVLEYAPDLAGSVISADWQPDGSIIAGTSNPGSPVVRVEQDGSGTTGKPIGNITAPVVAVAAGADMIYATDANAVLQLPSGATDVPNWREVPGLQGVRSVPIVAR				NA	NA	NA	NA	NA
AK009_09765	432			hypothetical protein	ATGTTTTTTGGGGATAAATTAAAAAAAGAAAGAGAAAAAAAAGGTTGGTCACAGGAGTACCTTGCTACAAAAATACATGTTAGCCGTCAATCAGTTTCAAAGTGGGAAACAGGTAAAAATTATCCCAATATTGGAGTGATTATCGATTTAAGTGATTTATTCGGGATCACAATCGATGAATTATTAAGGAGTGATGGAGAGTTGAAAGAAAAAATAATTCAAGATAGTAAAGGATCGACAGATTTAAATTGGAAATCATACCTTTTAACCAGTTTAGGTATTCTTATAGGGATTGTAATTGCTAGTATGATCAAACATGATGAAATTGATTGGATATCCATTAGTTGGTCAGCAGTTGCAACAGCAGCCTTCTTATACCTTATTTCTCTTCTTTTTCCGCAAGGGAGAAAAAAGAGTAAAACAAAAAAGTAA	MFFGDKLKKEREKKGWSQEYLATKIHVSRQSVSKWETGKNYPNIGVIIDLSDLFGITIDELLRSDGELKEKIIQDSKGSTDLNWKSYLLTSLGILIGIVIASMIKHDEIDWISISWSAVATAAFLYLISLLFPQGRKKSKTKK				NA	NA	NA	NA	NA
AK009_09766	1161			hypothetical protein	TTGCAATTAATTTTAAAAAAAGTTGGTGAAGAGATGAGTAAGTTTAATAAACATAATCATTGTAATCATATTCCCTTCCCATGTGCGTTTCCTCCTTTTGAACCAGGAGTAACAGGACCAACGGGGCCCACTGGGCCACTAGGACCAACAGGACCTGCTGGAACAGGAGAAGGAATTACAGGGCCACCGGGACCACAAGGACCTGCTGGAGATACGGGTCCACAAGGAGTACCTGGTATTCAAGGTGAGATTGGAGATCCAGGACCAACAGGACCTCAGGGACCTCCTGGTATTCAAGGGGAACCGGGAGATTTAGGACCAACTGGTCCACAAGGAGTACCTGGTATTCAAGGAGAACCGGGAGATCCAGGACCAGATGGTCCACAGGGAGTGCCTGGTATTCAAGGAGAACCGGGAGATCCAGGACCAACAGGACCAACAGGGCCAGCAGGAGCAACAGGAGCTGGTGCAACAGGACCAACAGGGCCAGCAGGAATTGGAACACCAGGGCCAACAGGACCGCAAGGTAACCCAGGTATTCAGGGAGAACCGGGTCCAGAAGGCCCAACAGGACCACAAGGTAACCCAGGTATTCAGGGACCTCCTGGACCACAAGGTCCAACAGGACCACAAGGAACTCAGGGACCACAAGGAATTCCAGGTACTCGTGGCCCAACAGGAGCTCAAGGACCTCAGGGTATTCAAGGTCCACCAGGTTCTATTGGTCCAACAGGGCCAACTGGGTCTGTTGAACCACCGATAGCTGTGTCTGCATTGTATGAATCAAATACAATAACTGTTCAAAATGGAGAAAGAATCCCTTTTACCAGGGTTTTAGCACCGTCAGTAGGTGTAACAGCTGATACAGCTGCACGTACAATTACTATTCAAGGGGCAAATCGCAGATTTTCCATCACATTAAATATTGCTCTTGCTTCACAAAATACAACGCTCCCAGTAAATATACAAGTTAATGGACCATTAGGATCAATTGAGGGTGCACGTATTGTGGCTGGTAATCAACTTTCTTTAAGTTATAATCGAATTCTAACTAATAATACGGTATTATCTTTTGTAAATGTAAGTGGTGGACCAATTGTAATAGGGGGAGCAGTATCAGGGTCATCAACTGTTTCAATAAACATTTTTACTATAGGATAA	MQLILKKVGEEMSKFNKHNHCNHIPFPCAFPPFEPGVTGPTGPTGPLGPTGPAGTGEGITGPPGPQGPAGDTGPQGVPGIQGEIGDPGPTGPQGPPGIQGEPGDLGPTGPQGVPGIQGEPGDPGPDGPQGVPGIQGEPGDPGPTGPTGPAGATGAGATGPTGPAGIGTPGPTGPQGNPGIQGEPGPEGPTGPQGNPGIQGPPGPQGPTGPQGTQGPQGIPGTRGPTGAQGPQGIQGPPGSIGPTGPTGSVEPPIAVSALYESNTITVQNGERIPFTRVLAPSVGVTADTAARTITIQGANRRFSITLNIALASQNTTLPVNIQVNGPLGSIEGARIVAGNQLSLSYNRILTNNTVLSFVNVSGGPIVIGGAVSGSSTVSINIFTIG				NA	NA	NA	NA	NA
AK009_09767	393			hypothetical protein	ATGTATTACGAATCAACACATGTTCCTTATATACAGTATAATCAATATTATAATCGTCAATTTCCTATTCCTCAGATTCCAGGTATACCTGGAATGCCAGATTTTTCGAGTGTACCAAGTTTTCCAGAATACGAAGGTTCACAAACTCCAACAGCTCCTCCTCCTTCTTTTATTCCTCAACAATCCACCGCTTCTCCATTTGCTGTTGATCCAGGTGCGATTTCATTTTGTTTATTTCGAAATACGTATATATGGTTAAGTAATGGAGAACAGTTTTGGTATTATCCTATTTTTGTAGGGCCAAGATCTGTTGCTGGTTTTAGATGGAACGGTAGGTTTTGGACGATGTTTGGAGTAGATACAAGAAGGATTATTTCTTTTACATGTTTTTAA	MYYESTHVPYIQYNQYYNRQFPIPQIPGIPGMPDFSSVPSFPEYEGSQTPTAPPPSFIPQQSTASPFAVDPGAISFCLFRNTYIWLSNGEQFWYYPIFVGPRSVAGFRWNGRFWTMFGVDTRRIISFTCF				NA	NA	NA	NA	NA
AK009_09768	489			hypothetical protein	ATGAAAAAAATACAATCATTTGAGGGAATTATAACAAAAATAAGTGATTTTGATGTAGGCGCAAATGAAGAAAAAGGATGTATGAAATTAATTGTTGTAAATAATGGTTATGGAAATGAAGTACATTTTGTAGTAAAACCAAATACGTATTTTGTTGATCAAATAATGGTCAAAATAGGAGATAATATAACAGGGTTTTATGATGCGAATGTACCAGTTCCTATGATTTTTCCACCACAATTTCAAGCGGTGGTGATGGCAAAATATATGTCTCATCAAAATGTAAAAGTGGACTATTTTAATGAGCAATTGGTAAGTAGCGATGGAAGATTAAAATTAAATCTTTCTCCAAATACACAAGTTATCTTAACAAATGGACAATTATTTACAGGAAACTTAACAAATAGAAATGTAATTGTTTTATATAGTATGGCAACTATGAGTATTCCAGCTCAAACTACACCTTATAGAATTATTATTTTGTGTTAA	MKKIQSFEGIITKISDFDVGANEEKGCMKLIVVNNGYGNEVHFVVKPNTYFVDQIMVKIGDNITGFYDANVPVPMIFPPQFQAVVMAKYMSHQNVKVDYFNEQLVSSDGRLKLNLSPNTQVILTNGQLFTGNLTNRNVIVLYSMATMSIPAQTTPYRIIILC				NA	NA	NA	NA	NA
AK009_09769	246			hypothetical protein	TTGAAACAATTCAGAGAAATTTTAATGCAAGGCGCTATACCTATCGGTATAACAGATCAATATGGTATAGCGTTACGCCAATTTGATGAAATACAATATAATCAGCACACCTATTTAATTATCTGGCATCCCATATATGATGAATTTGTTGGTTCTCATGAATCTGGAAATTGGATTCCTTATTCTGACTTACATCATGCTATTTTTATTAAAAACTTAAAGGATTCTTTTTCCTCTCATACATAA	MKQFREILMQGAIPIGITDQYGIALRQFDEIQYNQHTYLIIWHPIYDEFVGSHESGNWIPYSDLHHAIFIKNLKDSFSSHT				NA	NA	NA	NA	NA
AK009_09771	1467			hypothetical protein	ATGTTGGGTTCTATCTCATTTAATCAATCTCATCAAAGTTCATTAAGCCATAATAATAGAGAAAATATTTATGGGAATCCTGGCATTGATCCAGCTAGGTTACATGAGAATATTTATTTTGTTCAAAAGGACATCCGAAGTGTATACAAGGATGTTTTTCAAGAAGCCGTGGACAAGTATAACGAGAAACAAAAACGAAATGATCGTAAAATTGATGACTACTATAACAAAGTACATAAAGATGATAAGACACATGAGCAACGAGAACTCGTTGTAGCGATAGGAGAAGGTAAAGACGACCCAAAGTATAGGGAAGCTAAAAAAGAAGCTTTAAAGCGCTATGCTGAGGCTTTTCAAGAGAGAAATCCAAACCTAGCGGTTTATAACATGGTTTTACATGATGATGAAGCCAATCCACATCTACATATTAACTATGTACCCAATTTTGAAAGCAGTCGAGGATTAACGAGGCGTGTCGGAATGGATAGAGCTTTGCAGCAACAAGGTGTCGAAGGAAAGGGAAGACAGTTAATTGCGCATTGGAGAGAAGCGGAAACAGCTTATATTGAGCAATTAGCGAAAGAACACATTCCAAATTTTGAACGTGCTAATATAGGTTCCCATAAATACATGAAAGTCCGTCAATATAAAGAATATGCAGAAGCAAAATCAACTATTGAAAATCAAGTACAAGAAAAAGAAACACAATTACAAACGATTGATTATGATTTAAAAAATGTTAAAGAGAAAACAAACGAATTAGAATTAGCTAAAAAGAGTTTGGAAAGTGATGTTGTTGATACGTACAAAGAATTAGAGGTAGTAAAACAACAAGTAGAGAATGAAAGTGAAAAGCTGCAGTTAATTGGCCAGCGTCATTTAGAGTTAGAAAAAAGAGTAGAACAAATACAAAAAGAATTAGATAGTGCTACAGATCAAGTACCAAATGAACCTGTTAAAATTCCATTTTTACGTAAAGAAGTAGTAGTAGAAGTACAGGATAAAATGTTTGGAAAAGCTGAAATCACGAAGAAACAGACAAGAAATTATGTGTTATCACCTGAACAATATCAAGAATTAACAAAAAAAGTGAATGCAGCGGTTATTATTAAAAAAGATTATGAGCGTTTAAGAGAAACAGATTTTGTGAAAGAGAATGAGAGTTTAAAAGCACATGCAGAGGGCTGGATGAAAGAAAATCGAACGTTGAAACAAGAAAAAAGTAAGTTACAAAAAGAAGTTGGTGTATTAAATAGAGAAATAAGCTCGTTAAAAGCTCATATAAGGGGTTTGCAGACGAATATAAGAGTTTTATATGTACAAACGAAAAAAGTTTTTAAAGAGCAATTTAAGGCGTTTAGAGAGATTGTTAAAAATGAATTGGGTAGCAAGGGAGTTGATAATCAATTTGAACGTGAACATAAGAAGGAAATGAATAAACATCGAGGGTTTGATATGGAAAGATAG	MLGSISFNQSHQSSLSHNNRENIYGNPGIDPARLHENIYFVQKDIRSVYKDVFQEAVDKYNEKQKRNDRKIDDYYNKVHKDDKTHEQRELVVAIGEGKDDPKYREAKKEALKRYAEAFQERNPNLAVYNMVLHDDEANPHLHINYVPNFESSRGLTRRVGMDRALQQQGVEGKGRQLIAHWREAETAYIEQLAKEHIPNFERANIGSHKYMKVRQYKEYAEAKSTIENQVQEKETQLQTIDYDLKNVKEKTNELELAKKSLESDVVDTYKELEVVKQQVENESEKLQLIGQRHLELEKRVEQIQKELDSATDQVPNEPVKIPFLRKEVVVEVQDKMFGKAEITKKQTRNYVLSPEQYQELTKKVNAAVIIKKDYERLRETDFVKENESLKAHAEGWMKENRTLKQEKSKLQKEVGVLNREISSLKAHIRGLQTNIRVLYVQTKKVFKEQFKAFREIVKNELGSKGVDNQFEREHKKEMNKHRGFDMER				NA	NA	NA	NA	NA
AK009_09772	639			hypothetical protein	ATGACAAAAGTTGTAGATTTTGGACAAGCTGAAAAAAAAGCGAAATTAAGAGATAGTAAGATTGATAGTATTTATGACCAATTGCAAACTGGTGGATATTCAGAAGAAGAAAGAGCTATGCTTTTACAGATGTTAAGTAAAATGTCTGGTGGCGAAGAATATTTCATAGGCAAAAAGAAAAAACCTACAGATCGGGTGAGATTTGTGCAAATTATAATGGATAATATAGATTATCTGATTGAAATAGGTTATTTGAGTAGTAAGGAAGAAGCTTTTTTATTCAAATTAACTTCATCTGTAGAGTTTAAAACTAATGTTCTCGTAGAACGTGAGACAAATAATCCGGCATCACCTACATATCTAGCTGAAAAGTTTAAAATGACTCGTCAAAGTATTTCTAGTGTTATGAATGGTTTATTAAAAAAGGGAATATTAGCAGTTGCACAATCAGGTGTTACAACTGAAGATGGGCGAGTTTGTACTAGCCGTACATGGTTTGTAAATCCAAATGTTATGTGTTGTTCTCCTAAAGATGGAATAGATAAAGCAACTCAACATATTTTTAGGGATTCATTAAGAAATTTTAAAGTTGAAGACCAAGGAAAGAAAAAACATAAATTACCTATTTATTTATTTTAA	MTKVVDFGQAEKKAKLRDSKIDSIYDQLQTGGYSEEERAMLLQMLSKMSGGEEYFIGKKKKPTDRVRFVQIIMDNIDYLIEIGYLSSKEEAFLFKLTSSVEFKTNVLVERETNNPASPTYLAEKFKMTRQSISSVMNGLLKKGILAVAQSGVTTEDGRVCTSRTWFVNPNVMCCSPKDGIDKATQHIFRDSLRNFKVEDQGKKKHKLPIYLF				NA	NA	NA	NA	NA
AK009_09773	1644			hypothetical protein	GTGGCTGTAGGGGTCCTTGTCGTCAGCGCCATCGTTGTCACCGGACGAGGAGAGCCCGCCCTTCGCCGAGGAAATGGTCTCCTTCAGCAGGTCAACCGCCTGGCGCACGGTCACGCCGGTGGTCTTGAGCGCGCCGTAGACGATCACCAGGATCAGCAGGGGCACGGCGACGAAGGAGGAAAACCCCGCCGAGAGTGTCCCGCCGAGGAGCGCGCCCACTGCCCCGCCGGCGACGCGGCGGCCCTCCCAATCCTGTGGGTTGCCGGCAAAGACGTGCACGAGGCCGAGCATGGCCAGCGTGATGATGCCGATGCCGAGGCTGACCCGAGCGCGAACCGCCGAGTCGGAGCGCGTGTCCAGCATCAGCGCGACCGCGACGGCTACCAGCGCCACGGGCAGGATCAGCGCGCCCGCGCCGATTACCCAGTGCACACCCTGGGCGATGAGGCGCCCGACCGGGCCCGCGATGTCGAACCATACGGAAGCGCCAATGACGGCAGACAGCCCGATGAGCACGAGCCCCCACGCGTCGGCGTGGTTGCCGCCCCGTGTGTTCTGCACCGTGTCGTGCTCGCCTTTCTCCTCGTCGCGTTCGGTTTTCTTCGGTTTACGACGCCGCGTCACCGGCTCGTCAGCCGCCTCCTCGTCGAAAAAAGGATCGGTCGAATCGTCGTTATCCTCGCTGCGGCGCAGGCCCGTCGTCAGCTTCCCAAACACCGAACCAACACCACGCGCCGCCGCCCCCAGCGAGCTGCCGACAACCTTGTACGCAGAGCCGACCCGCTCATCGGTGGTTTCCGCCGCGAGCATCGTCGAGGTCGAGGGGTGGGTCAGCGACGCGGCATAGCTTGTCGACGTCCGCGTGCTGCGCTCCCGTCCCCGAGGGCCGGTCTGCGAGCGCGCGGAGGTGCGAGGCGAGTTCGTGACAGACATGTAAGTAACAGTAGTACCGTTTGTCACTCTTTCCACATTTGCCACACCGGCCGCGGCCGAGAAAAATGCGCCAGAGGAGGTAAAGTTTTAGGACTTTACTTGCAGCGCGGCGATCTTCTCCTCATCGCCCTCGAAGTCGATCTCGACCACGTCGCGCCCCATGATCCACAGCAGCAATTCACCCGGTTCGCCCTTGGCGCGGATCACATCGTCACCACGCTCGGCGACCTTGCGCCCGCCTCCGACGGTCACCGGCGGCAGCGTCGGGGGCGTCAAGATGATCGGGGTATCCGACGAGCGCATCGTCAGCTTCGCGAACCGCTGCGCCAGCCCCATCAGCGTGCGGTCGACCCCCGCGCTAAAGTCGCGCGGCCTAGCCACCCCGTCGCCGCGGCGCACGTCCTCGTGGTGGACGAAGTTCTCCGCAGTGTTCATCATCCCATCGATCGGGGCGAGCAACTTTGGCGGGCCCGCAGCCCAGTCGCGCACAACGTCCTCGTAGGGACGCTGTTCCTGCTGCTTGGTCTCCTTCTCCAAGACCGGCTTCAGCGCTCCGATGAAGTTGCCACCGGCCTTATGCAGCTTGTTCTCTCGGATGTAGAGGTGGATGGCGAGGTCGCGGGTGTTCCAGCCCTCGCACAGCGTGGGGGCATCGGGGCCGAGGTCGAGGAAAAGGTTCGCGAGACGGTCGCGTTCTTGCTTCGCAAATGA	MAVGVLVVSAIVVTGRGEPALRRGNGLLQQVNRLAHGHAGGLERAVDDHQDQQGHGDEGGKPRRECPAEERAHCPAGDAAALPILWVAGKDVHEAEHGQRDDADAEADPSANRRVGARVQHQRDRDGYQRHGQDQRARADYPVHTLGDEAPDRARDVEPYGSANDGRQPDEHEPPRVGVVAAPCVLHRVVLAFLLVAFGFLRFTTPRHRLVSRLLVEKRIGRIVVILAAAQARRQLPKHRTNTTRRRPQRAADNLVRRADPLIGGFRREHRRGRGVGQRRGIACRRPRAALPSPRAGLRARGGARRVRDRHVSNSSTVCHSFHICHTGRGREKCARGGKVLGLYLQRGDLLLIALEVDLDHVAPHDPQQQFTRFALGADHIVTTLGDLAPASDGHRRQRRGRQDDRGIRRAHRQLREPLRQPHQRAVDPRAKVARPSHPVAAAHVLVVDEVLRSVHHPIDRGEQLWRARSPVAHNVLVGTLFLLLGLLLQDRLQRSDEVATGLMQLVLSDVEVDGEVAGVPALAQRGGIGAEVEEKVRETVAFLLRK				NA	NA	NA	NA	NA
AK009_09774	2016			hypothetical protein	GTGGCGACGCAGCTGCTGCACCATGCGGTACGGGTCATTCTCACCCTGCGCAGCCAGGTCGTTCATGACCGTTTCGACACCCTCGGCGACCTTCTTGTTGAAGTCGCGGTCATCGTCGGAGAAGCCGGTCGTCGACACGCGAGGCGTCTCCAAGAGACGGCCCGTGCGGTCGTCGATGACGCAGGTGATCGACACAACGCCGCCGGAGGCGAGGCTGGTGCGATCGGCCAGCACGTCCGGGTCCACATCGCCCATGGTCTCGCCGTCGACGTAGAGCTGGCCGACCTGGTACTGTCCGACGACGTTGATCTTGCCGCCGACCATGTCCACCACGACACCGTTCTGTGCAAGGGCCGTGTTCTCCGGCTTCACGCCGGTGGAGATTGCCAGCTCCTTGTTGGCGCGCATGTGGCGCCACTCGCCGTGCACCGGCATCGCACCCTTCGGGCGCGCCGCATTGTACAGGAACAAAAGCTCGCCGGCATAGCCGTGGCCCGAGGCGTGGACGTGCGCGTCGTCGTTGGTGATCACCGTCGCGCCGATCTGCGCGAGGTTGTTGATCACCGCAAAGACGGCTTCCTCGTTGCCCGGGATGAGCGAGGACGACAGGATGATCAGGTCGCCGTCGCGCACCGTGATCTGGCGGTGCTCGCGTCGCGACATACGCGACAGCGCCGCCATGGGCTCGCCCTGGGTACCGGTGGTGATGAGCACGACCTTGTGCGGGGCCATCTTTGCGGCCTCCTCGATCGGGATGATCGTGCCGCGCGGGGCGCGCAGCAGGCTCATCTTCTCCGCGATCTCCATGTTGCGAATCATCGAGCGGCCGTTGAAGGCCACCTTGCGGCCGTTCGCGACCGCGGCGTTGACCGCCATCTGCACGCGCGCCACATTGGAGGCGAACGAGGAGATGATCACGCGCTGCTTCGCGCCCTGAACCAGGCGGGTGAGGTTTTCCTCAATGCCCTTCTCCGAGGAGGAAATTCCCGGCACCGTGGCGTTGGTGGAATCGCACATAAACAGGTCGATGCCCTCGTCGCCAAAGCGCGACAGCGCGGGCAGGTCGGTGGGCTGACCGTCGTACGGGGTCTGATCGAGCTTGATGTCGCCCGTCATCACCACGTGGCCCGCGCCCGTCTTGATGGACACGCCCAGGCACTCCGGAATGGAGTGGCCGACGTGCCAGAAGCGGATGCGGAACGGGCCAAGGTTGAGTTCGGAATCCTTGGTCACCTCGTTGAGCTTCGGACGCTGGCGGTGCTCCTTCGTCTTCGCCGCGATCAGCGCGTTGGTGAAGCGCGAGGAGTAGATCGGAATGTCGGGGCGCAGCTTGAGCAGCCACGGGATCGCACCGATGTGGTCTTCGTGACCGTGGGTGACAATCAGTGCCTCGATCTTGTCCAGCTTATTCTCGATGGGACCGAAGTCCGGCAGGACCAGGTCGACGCCCGGTTCACCGGAGTTCGGAAACAGCACGCCGCAGTCGACGACGAGCAGGCGGCCGTTGTACTCGAACACGGTCATGTTGCGCCCGATCTCGGAGATGCCACCGAGAGCGTAGATGCGCAGACCGTTGCTCGGTGCCTGCGGCGGGGTGGGAAGGCGCTTAGTCAGATCCGCGCCCTGCATGCCCTTCATCGGGTTGCGACGGTTTTGGCCACCCTCATTTCCGCCGTTGCCACCGCGGTTGTTGCCGCCGTTGGAACCACGTCCACGGCCGCGGCGGCGGTTGCGGCCGCCATTGTTGTTGCCGTTGTTGCCGTTGTCACCGTGGTTGTTGTTGCCGCCACGGTTATTGTTACCGTTGCCGCCGCGGTTGTTGCCGTTGTTGTTATTGTCGTTGCCGGAATCCTTCGAGCGGTCACGGTTGTCGTTGCCGTCCTGCTGTGCGGAAGCCTCGGGTGCTGCAGGGGCCTGCTCCGGCGCCTGGAACACCGGCTGCTGATCGGCCGGCTCTGGGGGCCCAGCCTTGCGGGTCACCTTGCGGGCGCGATTGCGGGGTTCGTTCATACTTAG	MATQLLHHAVRVILTLRSQVVHDRFDTLGDLLVEVAVIVGEAGRRHARRLQETARAVVDDAGDRHNAAGGEAGAIGQHVRVHIAHGLAVDVELADLVLSDDVDLAADHVHHDTVLCKGRVLRLHAGGDCQLLVGAHVAPLAVHRHRTLRARRIVQEQKLAGIAVARGVDVRVVVGDHRRADLREVVDHRKDGFLVARDERGRQDDQVAVAHRDLAVLASRHTRQRRHGLALGTGGDEHDLVRGHLCGLLDRDDRAARGAQQAHLLRDLHVANHRAAVEGHLAAVRDRGVDRHLHARHIGGERGDDHALLRALNQAGEVFLNALLRGGNSRHRGVGGIAHKQVDALVAKARQRGQVGGLTVVRGLIELDVARHHHVARARLDGHAQALRNGVADVPEADAERAKVEFGILGHLVELRTLAVLLRLRRDQRVGEARGVDRNVGAQLEQPRDRTDVVFVTVGDNQCLDLVQLILDGTEVRQDQVDARFTGVRKQHAAVDDEQAAVVLEHGHVAPDLGDATESVDAQTVARCLRRGGKALSQIRALHALHRVATVLATLISAVATAVVAAVGTTSTAAAAVAAAIVVAVVAVVTVVVVAATVIVTVAAAVVAVVVIVVAGILRAVTVVVAVLLCGSLGCCRGLLRRLEHRLLIGRLWGPSLAGHLAGAIAGFVHT				NA	NA	NA	NA	NA
AK009_09775	909	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGGGCATTACAAACAAAGCTAATACCGGTGCGGACATTTTCGGCACCGTCAGCGTCGCCATGGTCACGCCGTTTGATTCCAGCGGTGAGCTCGACTTGGACGCGGGACGAAAGTTGGCTGCCCACCTCGTAGACAATGGAATCGATTCACTAGTACTCGCAGGAACGACGGGGGAGTCGCCGACGACCACCCCGGAGGAGAAGATCGCGCTGCTCAAGGCAGTGAAGGAGGAGGTCGGCGACCGCGCCCGGCTGATCGCCGGCGCGGGTTCCTACAACACGCGCAAGTCCATTCAGCTGGCGACGCTCTCGGCGCAGGCCGGTGCGGATGCGCTGCTGGTGGTCACGCCGTACTACTCCAAGCCGTCGCAGGCTGGACTGATCGCGCACTTCACCGCTGTCGCCGAGGCGACCGACCTGCCGATCTGCCTGTACGACATCCCGGGCCGCTCCGGCATCCCGATCGAGGGGGAGACGATCCGCGAGTTGGCCAAGCTGCCGACGATTAAGGGCCTCAAGGACGCGAAGGGCGATTTCTTCCAGGCGGCCCCGTTAATTCAGGAGACCGGCCTAGCCTGGTATTCTGGCGACGATCCGCTCAACGTGCCCTGGCTGTCCGTTGGAGCCACCGGCGTTATCTCGGTGGTGGGACATGCCGCTCCGCAGTTGTTGCGCGAACTCATTACAAGCTTCGAGGAAGGCGACCTCGCCCGTACGCGGGAAATCAACGCCAATACCATCGACGTGCTGGCTCGCCAGCAGGCAATTCTCGGTGGTGTGACATTTGCAAAGGCAGCCCTGCAACTTCAGGGCATTAACGTCGGGGAACCCCGTCTGCCCGTGGTCGCAGCGACCGAGGCGCAGATGGAGGCTCTCCGCGAAGATATGGAAAAGGCTGGAGTCCTCTAA	MGITNKANTGADIFGTVSVAMVTPFDSSGELDLDAGRKLAAHLVDNGIDSLVLAGTTGESPTTTPEEKIALLKAVKEEVGDRARLIAGAGSYNTRKSIQLATLSAQAGADALLVVTPYYSKPSQAGLIAHFTAVAEATDLPICLYDIPGRSGIPIEGETIRELAKLPTIKGLKDAKGDFFQAAPLIQETGLAWYSGDDPLNVPWLSVGATGVISVVGHAAPQLLRELITSFEEGDLARTREINANTIDVLARQQAILGGVTFAKAALQLQGINVGEPRLPVVAATEAQMEALREDMEKAGVL	PGPT0002080_2618	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK009_09776	411			hypothetical protein	ATGCTCGCGCAGAATCTCCAGGCAGGTCACGGCGAGCATCCTGATCTCGCCGTCGGCGTGTTCGGAGGCGCGCGCCGCGATGAACTGGCGCCACGCCCGGTAGTTGCCGGTGACCACGAAGCGGGTCTCCGTCGCGTTCGGCAAAATCGCGCGGGCGGCCTGGCGCGCCTTCTTGCGTCGCAGCAGCGAGTTCGGCTCCCCCTCCAGGTTCTCCTCGAGCGATTTCAGCAGCTCGTCGTAAATAAAGCGCGTCTCGTCGGCCGCGCGGACGAACATCCGGTGCAACTCTTCGTCCTGCGCGATCAGGGCGGGAACGACGACCTCGCTTTCGTCCTCATGCACGAAACGCTGGCTGAGCTGCGAGAAGGAGAAGTTGCGGTGGCGCAACAGCTCGTTGCCCGCCGCGCGTGA	MLAQNLQAGHGEHPDLAVGVFGGARRDELAPRPVVAGDHEAGLRRVRQNRAGGLARLLASQQRVRLPLQVLLERFQQLVVNKARLVGRADEHPVQLFVLRDQGGNDDLAFVLMHETLAELREGEVAVAQQLVARRA				NA	NA	NA	NA	NA
AK009_09777	225			hypothetical protein	GTGCTCGAGCAGCGCGTCGTGGCCCACGTCGATGATGTGGTGCAGGTATGCACTGTTGGTCGCGGTGTGGGGGTTGGGGCGGTCGAAGGTTTCGTAACAGGCGCGGCCCGCGAACTCCACGATCGCCTCGGCGTCGCTTACACCCTCATCGGGAACCCAGTCCACCCCATCGGGCACGGCGAAGCGGCTCGCGGCGATGAGCTGGACGTCCAGATCTTTCTCTAA	MLEQRVVAHVDDVVQVCTVGRGVGVGAVEGFVTGAARELHDRLGVAYTLIGNPVHPIGHGEAARGDELDVQIFL				NA	NA	NA	NA	NA
AK009_09778	783			hypothetical protein	GTGCTCGGCGACCTGGCGCACGCCCGTGAGCACGCCCGGGACGAAGGAGTCGCGGCCGTAGGAGTCCTGCCGGATGACCAGCGACTGGTCCTGGGTGCCGAAGATGACCTCCTCATGCGCAACCATGCCGGTCATGCGCACGGCGTGGACCTTCACGCCGTCGACGCCGGCCCCGCGTGCGCCGTCGAGGCTCTGTTCGGTGGCGTCCGGCACGGGGTCCATGCCTGCTTCTCGACGAGCCTGGGCAATGCCTTGGGCCGTCTTAATCGCGGTGCCGGAAGGGGCGTCCAGCTTGTGCGGGTGGTGGTACTCCACCACCTCGGCCGACTCGAAGAACGGCGCTGCCTGGCGGGCGAACGCCATGGTCAGCACAGCCGAGATAGCGAAGTTGGGGGCGATGAGAACGCCCACGTTCTCGTTTGCTTGCAGCCATTGGCGCACCTGCTCGTAGCGCTCGTCGTCAAAGCCCGTGGTGCCGACGACGCAGTGGATGCCGTGCTTGATGCAGAACTCCAGGTTGCTCATGACCGCGGACGGGGTGGTGAAATCGACGATGACCTCCGCACCCTTCTCCGTCAGCAGCGACAGGCTGTCGTCCTGATCAATCTCCGCGACGAGCTCAATGTCCTCGGTGGCCTTGACACCCGCGATGACCGCCGAGCCGACGCGCCCCTTCGCTCCAAGAACTCCAACTTTGATGGCCATGTGCGACTCCTTATATCTCTTTACAACTCAGTTCTGCGTTTGGGTGCCACTTTATCCCCACGGCGTGGAGCGCGGTGA	MLGDLAHAREHARDEGVAAVGVLPDDQRLVLGAEDDLLMRNHAGHAHGVDLHAVDAGPACAVEALFGGVRHGVHACFSTSLGNALGRLNRGAGRGVQLVRVVVLHHLGRLEERRCLAGERHGQHSRDSEVGGDENAHVLVCLQPLAHLLVALVVKARGADDAVDAVLDAELQVAHDRGRGGEIDDDLRTLLRQQRQAVVLINLRDELNVLGGLDTRDDRRADAPLRSKNSNFDGHVRLLISLYNSVLRLGATLSPRRGAR				NA	NA	NA	NA	NA
AK009_09779	168			hypothetical protein	ATGACCGTGCTGGTGGTCGTGGTGGGGGAGACTGAGGTCATCGTTGTGGTGGCTGTCGTCGCCGCCGTTGTCGTGGCGCTCGGGGCCTGGTCGGCGGCGTTGTTCTCAGGTGCCCCTGTGCAGGACCCGAGCGCTAAAGCTGTTACGAGAGTGACAGGAACAAAGTAG	MTVLVVVVGETEVIVVVAVVAAVVVALGAWSAALFSGAPVQDPSAKAVTRVTGTK				NA	NA	NA	NA	NA
AK009_09780	339			hypothetical protein	TTGCAAACGATTCAGTCTCTTCATAATTTGGGTATCATACAGTCTATTGCTAGTAAAACTGACTATACTAAGGGATTAGCCAAGCTAAAGCAACTTGGAATAGAAAAATACTTCGTATTACCACAATTAAGTTCTAACAACAAATCAACTTCAATTAAAAAGATTGCTAGGTTGTTTCATATTAAATTACAAAAAATTGTATTCATTGATAATGATATTTTAGAACTAAAAGAAGTTTCTTCTAAACTTCCACAAGTTACTTGCATTAATGCTACAAAATATGGAGGAGATATATACAAACAAGTAAAAAAGATAATAAATTCTGTTGAAAAATTTTAA	MQTIQSLHNLGIIQSIASKTDYTKGLAKLKQLGIEKYFVLPQLSSNNKSTSIKKIARLFHIKLQKIVFIDNDILELKEVSSKLPQVTCINATKYGGDIYKQVKKIINSVEKF				NA	NA	NA	NA	NA
AK009_09781	729			hypothetical protein	ATGAAATATATATGGGATAAACCAACTGCATTCATTTTAGATACGAATATTTGGTTGAATTTTTTAAATGGAAGCGAACAAGGAGTTCAGACTTTTCGAAAAATGGAGGAATTAATAGCTGCGAATAAAATTATTTTATTTGCTCCAGAACAAGTCTTACTAGAATGGAATCGTCACTATACAAGTATCCTACAGCAAAAGCTCACAACTACAAAAGAGACATTGGATCAAGCTAAATCGTTTATTAAATACTTTTATGAACCTACCGATAATTCGTATCACCAGTCATTAGAAAAGATCGAATCTCAAATACATTTAAATACAAATATCCAAAACCCATCTCTATGTAAAGATATTGAGCACTTGATAAAAAACAAAGTAACACCAATAAAGTTAACAAATCCACAATTAAAAACCATGGTGATTGAGTTTGGATTACAAAAAAAGAAACCCTTTGGACACAAAAACAGTATGGGGGATGCTGTGATTTTCTTTAGTATGTATGAACATTTCTCAAATAAATTTAACAATAACAATCAATGTGATTACGATCAAATATATTTTGTTACAAATGATGTGCATGATTTTAGTGAGGGAACAGATGATGAAAAACGTCATATCCTTCATCATGATTTAAAAGAATTAGCAGATGAAATCGATTTAAATTATTCAGATGACATACATACAACAATTAATTTATTAAAAACCAAAAAAACATTCAATGTGTAG	MKYIWDKPTAFILDTNIWLNFLNGSEQGVQTFRKMEELIAANKIILFAPEQVLLEWNRHYTSILQQKLTTTKETLDQAKSFIKYFYEPTDNSYHQSLEKIESQIHLNTNIQNPSLCKDIEHLIKNKVTPIKLTNPQLKTMVIEFGLQKKKPFGHKNSMGDAVIFFSMYEHFSNKFNNNNQCDYDQIYFVTNDVHDFSEGTDDEKRHILHHDLKELADEIDLNYSDDIHTTINLLKTKKTFNV				NA	NA	NA	NA	NA
AK009_09782	1050			hypothetical protein	ATGAACAATCAAAAATCTCCGATGTTTATTTATACACATGGGCTCAATCAAATAGATAAGGATGAACAACACCCAAAATCCCGCGTTAAAAATAAAATAAACATACAAAAACAGATTCAACACTTTCAAAACTTGTCTTTATGTGCCCTTTTATCTAGTGATATTTTTGTAGATAAAACGGTATTAACTGGGGGAAGTGTTTTGAACTTAGTTTATAATGTTCATAATAGAGTTTCTGTAGATTTAGATTTATCTTTAGAATCCCCCATATTACCTCATGAATATGTGAGATTAGAAACTGAATTGGAGAAAAATTTTGATGAGGCTTTTTCAAAAGAAAAGTATAAAGTATTAAACTCAAGATTAGAGATTAGAAGTCTAAATTTACATAATAAATTTTCATCTGAAAATTTATTCGACCCTAAAGAAATTCTTTATAAATATACTTTTCAGCTCATGGATTTACATGAATATGAAGAAATATGTAATCACCCTGGTAGTACCAAGGAACAAAAAGAGGCTCGATGCAAAGATAGCATTATAATGTTACCAAATAAAAAGAAATTTTTTGAGATTGACTTTAAATGGGAAGGACCAATTATAGAAAAACAGGAATATAAAATCCATAACTATACATTGGAAGCTCCTTCTCCTTTTATTTTATTATGTAAAAAAATGATAGGAATTCTAGCACATTCACCTCATATAGGGGATACACCAGAAAAATTTAAACGAGCAAGATCGCAGGATTTTTTTGATATCCATTCACTTATTGATGCTCAAATGATACACCTACAAGACTTAATACAACCTAATCATTTAAGCATATTTCAAACAATGCTTACGGAGAAAAATATAGAAACCTCTTCACTCAAGGATTTAAAAAAACATCGTGAATTTCATCAAAGTAACTTCACTGATTCTGTACGAAATATGAGTTTATTTCCATTGAAAAGTTTTGAGTATTATTTTGATTGTATCATTCATCTCATAGATTATATGTATCCTTTTTTAACTACATTAAAATCTGTACAATCTCCACATAGCTAA	MNNQKSPMFIYTHGLNQIDKDEQHPKSRVKNKINIQKQIQHFQNLSLCALLSSDIFVDKTVLTGGSVLNLVYNVHNRVSVDLDLSLESPILPHEYVRLETELEKNFDEAFSKEKYKVLNSRLEIRSLNLHNKFSSENLFDPKEILYKYTFQLMDLHEYEEICNHPGSTKEQKEARCKDSIIMLPNKKKFFEIDFKWEGPIIEKQEYKIHNYTLEAPSPFILLCKKMIGILAHSPHIGDTPEKFKRARSQDFFDIHSLIDAQMIHLQDLIQPNHLSIFQTMLTEKNIETSSLKDLKKHREFHQSNFTDSVRNMSLFPLKSFEYYFDCIIHLIDYMYPFLTTLKSVQSPHS	PGPT0027691_456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na	NA	NA
AK009_09783	861			hypothetical protein	ATGGCTTTAAATGCACAAGCACAATTTTTATCTATTTTAGAATTAACAAAAGGCTTATTAGAAAATAGTCCAAAACGCTTGCAACACCTAGAAGTATTCCCATTTCATCATGTTGAAGGAGATAGTCTAAGATATGTACGAACACCTGAATTGACCCCAGCATCTATTATTGGGTTTGGAGATCCAATCCCAGACAATACAACAATCCCAGATGAGCCAATCACATTCCCTATGAGTGAATTAGCTACTAGTTTTTTAGTTGCATATAAAGGACAAGATATCTATTCGTATACAAATGATTTGGTTAAACTCGAAGAGCATTTAGCTACACGTCAGTTATTATATAAATTTAGTGAGCAATTAGAATCTGGATCCAATGGTTTTCTCGGGTTTACACAACTTATCAAACCAAGTAACGTCACAGATCTAAATGGTAATACCTTAAAATTAGAGGATTTAGATCGTGCTAAGGGTCAAATTCGTGTGAAAGAAGGCGAATCTGGCGTTATTTTCACCAATCAATCAGGTTATGAACAGATTAGAAAAGCTTATTATAATAGAGATCAAATTCCACCAGTAATAGATGGAAAATCTTCTTTTGATGGCTGGAAGATTTATATCAATGATTTTCAACCAACACATTGTATAAAAGATAAATCAACTACAAATATTTGGTTTGCATCATTAGGAACAGATGCCTTACATGGGATTATTCCAGAAAATGTAGGGGATAATATGTTTGTCACTAGAAAAACGGTTCGCACAGAAGGATCTGAAATTGTTGTACACAAAACATGGCCAGTGGGACTTGCGTTAGGATCTCAAGCGGCACTTGCTAGTGTGAAAAATGTAGCAATATAA	MALNAQAQFLSILELTKGLLENSPKRLQHLEVFPFHHVEGDSLRYVRTPELTPASIIGFGDPIPDNTTIPDEPITFPMSELATSFLVAYKGQDIYSYTNDLVKLEEHLATRQLLYKFSEQLESGSNGFLGFTQLIKPSNVTDLNGNTLKLEDLDRAKGQIRVKEGESGVIFTNQSGYEQIRKAYYNRDQIPPVIDGKSSFDGWKIYINDFQPTHCIKDKSTTNIWFASLGTDALHGIIPENVGDNMFVTRKTVRTEGSEIVVHKTWPVGLALGSQAALASVKNVAI				NA	NA	NA	NA	NA
AK009_09784	552	hin_5	COG1961	DNA-invertase hin	TTGAAAATTGGTTATGTTCGTGTATCAACTGTAGATCAAAATTTGGATTTACAAATAGATGCTTTAAAGGCGTATGGATGTGATGAAATATTTGAAGATAAGTTGAGTGGCATCGCCGGAAAAAGGCCCGGCCTTGAAAAAGCTCTTCAATATGTGAGACCTGGTGATTCTCTTGTAGTCTGGCGACTTGATCGTTTGGGAAGAACGATGCATCATCTTATCCAAATTGTAAATGAATTAAATGAACAGGGTGTTAGTTTCTATAGTGTACAAGAAAATATCACGATGGATCGCTCTAGCGCTACAGGACAATTGATGTTTCACTTATTTGCTTCTTTTGCAGAATTTGAAAGAAACCTCATTCGTGAACGGACAGAAGCGGGAAGAATTGCTGCAAGGGCTCGGGGACGTTTTGGTGGAAGACCTGAAAAGTTAGGAGAAAAAGAACAACAAATGATACAAACACTCGTGTCTAAGAAAACCCCAATCAAAGATATTGCGCAAATATTAAAAATTTCTCGTACAACGGTGTATCGTTATTTACAAAAGTAG	MKIGYVRVSTVDQNLDLQIDALKAYGCDEIFEDKLSGIAGKRPGLEKALQYVRPGDSLVVWRLDRLGRTMHHLIQIVNELNEQGVSFYSVQENITMDRSSATGQLMFHLFASFAEFERNLIRERTEAGRIAARARGRFGGRPEKLGEKEQQMIQTLVSKKTPIKDIAQILKISRTTVYRYLQK				NA	NA	NA	NA	NA
AK009_09785	2982			Tn3 family transposase TnBth3	ATGGCGACGAGAGAAGTTCTGACTCAAACGCAACGAGAATACTTTTATAAATTATCAGACCAGGTGAGTGAACGAGAGCGGATACGATACTATACATTATCTGAAGAAGATATACAAATCATCCGTCAACAACGTGGAGCAACGAATCAATTAGGTTTTGCGTTTCAACTGGCGTATTTACGATTCCCTGGGCGCCCATTCGCTTCTGGAGAAAAAATACCCGATTTCCTTGTATCATTGCTTGCAAAAAGATTAGGAATCGTTCCTGCAGCTATACATAATTATGCGAAAATTCGCGATACAACAAGGAGAGAACACATCAGCAAAATTCGAAAACATTTTGGATTCCGTTCTTTTACCTTACGAGAATATCGAGAATTAGCAAATTGGCTTCTTCCAACTGCTATGGGAACCGAGAAAGGTCTAGTCTTAGTTGATCTTTTGATACAAGAAATGCGAAAAAGAAAAATCATTCTTCCTGCCATGTATGCCGTAGAACATTTAGTTTGGGCGGTATGTGAACGTGCAGAAAGGCGAACGTTTAAAAAATTAACAAAAGCGTTATCTCCACAACAACTTTTACAATTAGACCAGCTATTAACAAAGTCTGCAGATAAACATATTACGAATTTATCCTGGTTACGAAAACCACCTGGGACGGTTTCTCTTAAAAATTTTCATAAAATATTAGATCGCGTTCAATTTATTCAAAGGCTCGCATTACCATTAGAAAACGGACAAGAGATTCACCAAAATAGATTACTACAATTAGCTAGGGAAGGCTCTCGATATTCCACCCAACATTTGTCTCGATTCCATTCCATGAAACGGTATGCAACTTTAATGGCATTTTTAATTCATATTTATGCTTTTTTAATCGACCAAGGTTTATATGTAAATGAAAAATTACTTGGGCGCATGTTTAAAAGAGGAGAAAAAATACATAACGATTCGTTTCAAAATGACGGAAAATTAATTAATGAGAAAATCCGTTTATTTGCAAAGCTTGGGAAAGTTTTAATTGAAGCAAAAGAAAGGGAACAAGATCCTTTTGTATCTTTACAAGCTGTTATACCATGGGACCAATTTGTTTATTCGGTAGAACAAGCGGAAGCGTTGGCGAGGCCTGCAGAATTCGATTATTTAGAATTACTGGATACCTATTATGGACAATTTCGCAAGTTTGCCCCCCGACTTTTACAGATTTATACGTTTCAATCTTCTGGTATCACCCAAACATTATGTGAAGCACTTGAAATCTTAAAGGAACTGAATACATCTAAAAAAAGAAAAGTTCCTGAATTTGCTCCCATGGATTTTATAAAATCAAAATGGTTGAAACATGTTTTAAAAGAAGATGGCATTGACCGTCATTACTATGAATTTAGTGTATGGACAGAATTATGTAATCACCTTCGTTCGGGAGATATATGGGTACCAGGAAGCAAACAATACAAAAACTTTGATGAGTACTTATTACCAGTACAAACCTGGGAAGAAATCAAAAGAAAACAACAAATTCCATTGTCTATTGCTACAAATGTAGATGAATATTTACAAAATCGATGCGGATTGATGCAAGAACAATTAACAATGGTAAATCAACTCATTCGAAACCAAGAATTATCGGATGTTTCTGTTTATGGCGGTCACATCCAAATTCCATCTTTAAAAAAGGATGTTCCAGACGATGTGGCGGATATTACAAGGGCTATTTATGATGTATTACCACGTATTAAATTAACAGAACTATTAGTAGAAGTAGACTCTTGGACCCGTTTTAGTCAACAGTTTGTACATCTTCATACAAAAACAGGGCCAAAAGATGAAACTGCATTATTTGCGGCGATTTTAGCCGAGGGGATTAATCTTGGATTAAGTAAAATGGCTGATGCATGTCCTACTGTTACCTATACACAACTTGCTTGGATAGTAGATTGGTATATCAGTGATGAAAATTATACAAAAGCTCTGGGAGTCTTATCAAATTTTCAACGGCAAAATAGGCATGCTGCCCATTGGGGCAATGGAACCACTTCTTCTTCAGATGGACAATATTTTAGGTCAAGTGGTGCTTCTAGTCCATTAGCTCAAGTGAATGCCAAACATGGAAGAGATCCTGGCCTAAACTTCTATACTCATATTTCAGACCAATACGATCCTTTTTATGCTCAAGTCATTAGTTCTTCTGAGGAAGCGCCTCATATTATAGACGGATTATTATACCATGAAGCCGATACTAGAATTGAAGAACATTATACGGATGCTGCTGGATTTGTAGATCATGTATTTGCTATGTGTCATATGTTAGGGTTTCGATTCTCTCCGAGAATTAAAAGTATAGATAAGACGAAAATTTATACAATCGACAAGCCTACCTATTATCCAGAGCTAAACTTTATGATTGGCGGCACCATACAAATGAAACATATACGAGACAACTGGGATGCATTATTGAGATTAATCAGTTCTGTGCAAAATGGAACGGTTACTGCATCGCTTATTTTAAAAAAGTTAGCATCTTATCCACGGCAAAATAGTTTAGCGGTAGCATTACGAGAAATTGGACGTATAGAAAGAACATTATATACATTAGAATGGCTGCAAGACCCTGCACTGAGAAGGCGAGTTCAAGTCGGACTCAATAAAGGAGAAGCGAAACATTCGCTTGCACGAGCCGTGTGTTTTCATCGATTAGGAGAAATACGTGATCGTTCTTATGAAGATCAATTGCATCGAGTGAATGGTCTGCAGTTATTAATTTCTGTAATTGTCATTTGGAATACAGTGTATATCGAAAAGGCGATTGAATTATTACGATCTCAAGGAATGGAAATTCCAGAAGAATATGTGCAACACATTTCTCCATTAGGTTGGGAACATATTGCATTAACAGGTGATTATATCTGGAATGTACAGAAAAAAACATCGATTCATCATTTAAGACCTTTGCGAACAAAATATGTAAGAAATAGATACTAA	MATREVLTQTQREYFYKLSDQVSERERIRYYTLSEEDIQIIRQQRGATNQLGFAFQLAYLRFPGRPFASGEKIPDFLVSLLAKRLGIVPAAIHNYAKIRDTTRREHISKIRKHFGFRSFTLREYRELANWLLPTAMGTEKGLVLVDLLIQEMRKRKIILPAMYAVEHLVWAVCERAERRTFKKLTKALSPQQLLQLDQLLTKSADKHITNLSWLRKPPGTVSLKNFHKILDRVQFIQRLALPLENGQEIHQNRLLQLAREGSRYSTQHLSRFHSMKRYATLMAFLIHIYAFLIDQGLYVNEKLLGRMFKRGEKIHNDSFQNDGKLINEKIRLFAKLGKVLIEAKEREQDPFVSLQAVIPWDQFVYSVEQAEALARPAEFDYLELLDTYYGQFRKFAPRLLQIYTFQSSGITQTLCEALEILKELNTSKKRKVPEFAPMDFIKSKWLKHVLKEDGIDRHYYEFSVWTELCNHLRSGDIWVPGSKQYKNFDEYLLPVQTWEEIKRKQQIPLSIATNVDEYLQNRCGLMQEQLTMVNQLIRNQELSDVSVYGGHIQIPSLKKDVPDDVADITRAIYDVLPRIKLTELLVEVDSWTRFSQQFVHLHTKTGPKDETALFAAILAEGINLGLSKMADACPTVTYTQLAWIVDWYISDENYTKALGVLSNFQRQNRHAAHWGNGTTSSSDGQYFRSSGASSPLAQVNAKHGRDPGLNFYTHISDQYDPFYAQVISSSEEAPHIIDGLLYHEADTRIEEHYTDAAGFVDHVFAMCHMLGFRFSPRIKSIDKTKIYTIDKPTYYPELNFMIGGTIQMKHIRDNWDALLRLISSVQNGTVTASLILKKLASYPRQNSLAVALREIGRIERTLYTLEWLQDPALRRRVQVGLNKGEAKHSLARAVCFHRLGEIRDRSYEDQLHRVNGLQLLISVIVIWNTVYIEKAIELLRSQGMEIPEEYVQHISPLGWEHIALTGDYIWNVQKKTSIHHLRPLRTKYVRNRY				NA	NA	NA	NA	NA
AK009_09786	1578			hypothetical protein	ATGGCTCAATCAGAATTTAACCAAAATCTACGGGAGCAAGGGCAATCACGTGCAAGAGTTATTATTCTACGTGTGAATAATCCGGGATACAACACTAATACTTTAGACATCGCAGACATAGAAGATATCATTCATTTACCTCAAGCTATAGAGTTAGCTAATGCATTTCAATCTGCACTAGTACCTACTACATCCAACTTCGGGGAGGACACATTAAGATTTGATGTAGAAAGGGGATTAGGAATAGCTACTCACGTTTATCCTAGAGCTATAAATGTGAATTATGTAACACGTACTTTATCACAAACTAATAATCAAGTACAGTCCATGATAAATAAGGTGATAGAAGAGCTTAAATCTTTATTAGGAATTAATCTGGCTAATTCAGTGCTACAACAATTAACCACTGTAATTACAGAAACTTTTACAAACCTCTACGTACAACAGCAATCTGCTTGGCTTTTTTGGGGACGCCAAACATCATCACAAACCAATTATACTTATAATATCGTATTTGCAATCCAAAATGCCCAAACAGGTAGTTTTATGAAAGCTATTCCTATAGGGTTTGAGATATCTGCATATATTGCAAGGGAACGCTTATTATTTTTTAATATTCAAGATTATGCAAGCTATAGTGTCAAAATACACGCAATTCAAGTTATGCAGCCATTGATTCATGAGAGTTTTCAACCCCTAAGAGGCATATTTAATATCATAACTTCCGTAAATAATAGAAGTGCTATTCAAATTACTGAATATTATGACGAAAATACACATGATTATCCTGTTAAGTTATGGGACTATAATAATATTATTAATCAAAAATGGATTTTAGTTTTTAATCAAACTACCCGTGCTTACAGTATTCAAAACCTAATAGCTCGCTATTTAGTACTAACATGGGATTCTACTCCTGGATCAAATAAAGTTTTTGCTTCTACTAATCGTTGGAACGATTCACAATTCTGGATTCTTGAAAGTACAGCAGATGGTTCCATTTTTTTAACAAATATGAAAGACACTCAATTTGTATTAGAGATAGAAAACTCTAGTACTACTAATGGGACAAATGTTATAGTCAATAGAAAAAATAATAATGCACAGCAAAAATTTTACTTAAATAAAGTAAACCAAGAGTTTCAGGATGGTGTATATAAGATTAAGACTGCCCTAAACAATAGTAGCGTTCTGCAGATGTCTGAAGATTATTTTGGTTATACGTCAGATTACTTTGTGAAATTATGGACCAACAATAATAATGATATTAACCAAAAATGGATTTTTGAATTTGATAGCACTAAATCTGCGTATCAAATTAAAAGTCAAAGGGATCCTTCCTTAGTACTAGCATGGACTTGGAGTGTACCTACTGTTAAACTCCCTATTCCAAATAACGATGATCATCTCTGGTTTCTTCAAAATGCTGGGTCGGGTACCTATTATTTTGTAAATATGACAGACACCCGATATGTTTTAGAAGTGGCTAGTTCTAGTACCACTAATGGAACGATACTTACAATCAATAAACGAAACGGAAATTTAAATCAAAAATTTTTGTTGGACATGATTAATTAA	MAQSEFNQNLREQGQSRARVIILRVNNPGYNTNTLDIADIEDIIHLPQAIELANAFQSALVPTTSNFGEDTLRFDVERGLGIATHVYPRAINVNYVTRTLSQTNNQVQSMINKVIEELKSLLGINLANSVLQQLTTVITETFTNLYVQQQSAWLFWGRQTSSQTNYTYNIVFAIQNAQTGSFMKAIPIGFEISAYIARERLLFFNIQDYASYSVKIHAIQVMQPLIHESFQPLRGIFNIITSVNNRSAIQITEYYDENTHDYPVKLWDYNNIINQKWILVFNQTTRAYSIQNLIARYLVLTWDSTPGSNKVFASTNRWNDSQFWILESTADGSIFLTNMKDTQFVLEIENSSTTNGTNVIVNRKNNNAQQKFYLNKVNQEFQDGVYKIKTALNNSSVLQMSEDYFGYTSDYFVKLWTNNNNDINQKWIFEFDSTKSAYQIKSQRDPSLVLAWTWSVPTVKLPIPNNDDHLWFLQNAGSGTYYFVNMTDTRYVLEVASSSTTNGTILTINKRNGNLNQKFLLDMIN				NA	NA	NA	NA	NA
AK009_09787	402			hypothetical protein	ATGAATAATCGTTCATTTTTGAATTTGAAAAGAGGGGACTGTATTTATGTATATTCTGGAGGGACTTTAGAAGCACAGGGTAGATACCTTCATGTTGTTGAAGATAAAAATGAATTATTTTTATGCTGGAGAAAGCATAATGGAAATGAAGTATATACAAATTTGAATGGAATTAGTGTAGAAACAATAAATGAAAATACAGCGTATCTACAAAATACACGTGCTACTTGTGAACGAGGATATAACAATAATTATGACGATAATTCAAATAGTTCGCATGAGCATGGATATAATAATAATTATGGCCATAATTCAAGTAGTTCGCATGAGCATGGATATAACAATAATTATTATACAGGTTGTACGTGTGGACGTAGCCACAATAACAATCAGCTTAAATAA	MNNRSFLNLKRGDCIYVYSGGTLEAQGRYLHVVEDKNELFLCWRKHNGNEVYTNLNGISVETINENTAYLQNTRATCERGYNNNYDDNSNSSHEHGYNNNYGHNSSSSHEHGYNNNYYTGCTCGRSHNNNQLK				NA	NA	NA	NA	NA
AK009_09788	414			hypothetical protein	ATGTCAAAACTGCAATACCCCTGCCCAGGTCGTCCAGAAAATCAATTTGCGAAAAAAAGACGTTTCGAAGCATTGATACGTGAACAATATAATAATATAAATTTGTATACGGATACTGTACCAAATACATCTGTGCTGATAAATGGAGATATGACTTCCTTTGGACATGATGATTTGTTTAATCCTGAATGGAGTAAGATAAAAGATTTTTTTAGAACATTAAGAAGATCCTATTATTATCGATTAGGCAACCATAATATTGAAAATAATTTTGATGACTTCGTAAATAACGGGTGTTTTAAGAGTTCTCTTGTGAATTTAATTTATCATGTTCAAGGGCGTGGTATACCATCATCTCAATTTGACTATAGAACAGAATCAGGGGGATATTATTTAGGTTTTGCTGTTACATGA	MSKLQYPCPGRPENQFAKKRRFEALIREQYNNINLYTDTVPNTSVLINGDMTSFGHDDLFNPEWSKIKDFFRTLRRSYYYRLGNHNIENNFDDFVNNGCFKSSLVNLIYHVQGRGIPSSQFDYRTESGGYYLGFAVT				NA	NA	NA	NA	NA
AK009_09789	258			hypothetical protein	ATGTTACAACATTTATTTTTGGATCTTAGAAAGTATGAATATCTTCAAATTTACTCTTCTGGAAAGCTAGAAGGACAAGGAATGTATGTTGGTTTAGTTGAAGATAACAATCAGACATTTTTATGTTGGCGCAATGAAAAAGGGAATAAAATTTATACCAATATTAATTTTATTAGCATAGAAAAATTATCAACCGACGATAATTGTGGTCATCACAATTACCCAAATTGTAATTGTGATCCGAACTATAATGATTGA	MLQHLFLDLRKYEYLQIYSSGKLEGQGMYVGLVEDNNQTFLCWRNEKGNKIYTNINFISIEKLSTDDNCGHHNYPNCNCDPNYND				NA	NA	NA	NA	NA
AK009_09790	699	gerBA_7		Spore germination protein B1	ATGTCTTTAGATATGAATAAACTTGAGAGAATAATGAATGAAAATATTGAAACCATCCAAACAAATAACTTACAAGAACTAAAATGTACATTAGTAAAAAAATTTGATATTTGTGCAGATTTAATAGAACATTCTTTGCAATTGAAAACAAAAACGAATGTATTACTATATTATCTTGAGGGCCTTACAGATGGTGTTGCACTAAAAGGGAGTGTCGTTACCCCATTATTACAAGAAGTTAATGAAGACATGCAAGTATTTAATTCTAATATTATTACTACTCATACCAAAATAGTATATACATGGAATGAAATTAAAGAGGGATTGCTCGCGGGGCAATGTGTATTGTTTATGGAAGGAGAACAGAGGTCCCTTCTTATCAACACAAAAGGATGGGCAGAAAGAGCGATTCAGGAACCTATTTCTGAAGTTACTATTAAAGGCTCACATGATGGGTTTATTGAGAATGCCACTAAAAACATAGGCCTCATTCGAAGGTATATTCCTTCTGCAGAGTTGAAAATAAAAAAATTGAAGATTGGAGAGCGGGCCACTACTTTAGTATATTTACTTTACTTAGGTGATGTGGCAAACGAAGATGTAGTACATGAAGTCAAGACAAGAATTTGTAAAATCAAAACGGATACAGTATTGAGTATTGGTGATTTGGACTCCCTTTCCACAGTCTTATATAAGTGA	MSLDMNKLERIMNENIETIQTNNLQELKCTLVKKFDICADLIEHSLQLKTKTNVLLYYLEGLTDGVALKGSVVTPLLQEVNEDMQVFNSNIITTHTKIVYTWNEIKEGLLAGQCVLFMEGEQRSLLINTKGWAERAIQEPISEVTIKGSHDGFIENATKNIGLIRRYIPSAELKIKKLKIGERATTLVYLLYLGDVANEDVVHEVKTRICKIKTDTVLSIGDLDSLSTVLYK	PGPT0014780_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_09791	177			hypothetical protein	GTGATTTGGACTCCCTTTCCACAGTCTTATATAAGTGAGCGTCCAGATGCTATTTCTAATCAAATCCTTGATGGTAAAGTGGCAGTTTTAGTTGATAGATCCCCTAGCGTAATGATTGTTCCAATGAATTTAGTTGGTTTTTTCAGACCCCTGATGATTACAATGTCCATTGGTTAA	MIWTPFPQSYISERPDAISNQILDGKVAVLVDRSPSVMIVPMNLVGFFRPLMITMSIG	PGPT0014780_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_09792	555	gerBA_8		Spore germination protein B1	ATGGTTTCATTTCACTTTGAAATTATTCCTTTAGATCTATACATTTCTATTGCAACATCAAGAATTAAAGTCCCCTTCTCACCTTTATTGGAAGCTTTTATTATGGAAATCACATTAGAAATGCTTCGTGAAACTGGAATTCGTCTCCCTCAACCGATTGGGCAAACAATTGGAATTGTTGGAGGTATCGTAATTGGGCAGGCTGCTGTTCAAGCAGGACTTGTGAGTAATGTTATGGTTATTATCGTATCTATTACTGCTATTTCATCATTTGTCGTTTCTAATTATGATTTATCAAGTTGTATTCGTCTTATTCGTTTTCCAATGATGTTATTTGCCTACTTTTATGGAATTGTAGGTATTGTTAGTGGATTAATGCTCCTATTTGCTCATTTTGTCACAATAACCTCATATGGTTCGCCGTATGGGCTACCAATTGCACCTTTTCGTTTACAGGAACTAAAAGATTCTTTTGTAAGATTTCCTAATCATCTGATAACTGATCGATCTAGTACAGGACAACCAAAGCAAACAAGAAAACAGAAAGGGAATTAA	MVSFHFEIIPLDLYISIATSRIKVPFSPLLEAFIMEITLEMLRETGIRLPQPIGQTIGIVGGIVIGQAAVQAGLVSNVMVIIVSITAISSFVVSNYDLSSCIRLIRFPMMLFAYFYGIVGIVSGLMLLFAHFVTITSYGSPYGLPIAPFRLQELKDSFVRFPNHLITDRSSTGQPKQTRKQKGN	PGPT0014780_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK009_09793	318			hypothetical protein	ATGAGGAAACATAACTTTCAATACTTAACTTCATTTGAATATATTGTTTTTATTCATTCGCTACAACTTGCATCAGGTATGTTAATTATGCCAAGCCCACTTGCCAATATTGCAGGTACAGATGGTTGGATTGCTATTATTTTTGGATGGATGATAACTTCGGTAATCGGAATAGCTATAATATTGGTAATGCAAAAAAATCCTAATAAAAATTTCCCCCAGATTCTAACGAGTTATTTTGGTAAATGGCTGGGAACATTCTTTATTATTATATTTGGTTCTGGTGCAAATAATGGACAAACGCAAAAAAAGGCATAG	MRKHNFQYLTSFEYIVFIHSLQLASGMLIMPSPLANIAGTDGWIAIIFGWMITSVIGIAIILVMQKNPNKNFPQILTSYFGKWLGTFFIIIFGSGANNGQTQKKA				NA	NA	NA	NA	NA
AK009_09794	441			hypothetical protein	GTGCGCCAGGATCAACGGCCACACCTTCCCGGTGCGGTGGTAGAAGTAGCCGAAGACGACGCCCATCACGATGTTGCCAAACCCCGCCGAAACTCCCTGGTAAAGGTGGTAGCTACCGCGCAGCACCGAGGACGCGGCGATGGCGGGCCACGGCCCCCACCCAAGCTGGCGCAGCCGCGTGATCAGCCACATCACCACCACGGTCTCCTCGCCGAAGGCGTTGGCGAAGGACCACAGCAACAGCGTGGGCACCTGCACGGCCTCGGTGGTGGGGATGACCTGCTTCGACCATCCCATGTGCAGTGCAGTGACGTAAAGAACAAGCCCCGGCAGTCCGATCAGCGCGGCGAGCCCCGCGCCGTGCAGCCAGTCGCGCCACCGCAGCCGCGGCAGCGACTTATCCAGCAGGAACAGCGCGAGCGCGCCCCACGCCAACAGTGA	MRQDQRPHLPGAVVEVAEDDAHHDVAKPRRNSLVKVVATAQHRGRGDGGPRPPPKLAQPRDQPHHHHGLLAEGVGEGPQQQRGHLHGLGGGDDLLRPSHVQCSDVKNKPRQSDQRGEPRAVQPVAPPQPRQRLIQQEQRERAPRQQ				NA	NA	NA	NA	NA
AK009_09795	918	pheA_2	COG0077	Prephenate dehydratase	ATGAACCGCGTCGCATTCCTTGGCCCGCACGGCACGTTTACTGAGCAAGCCGTGTGGGATTTTGAGCTCGACGGCGCGCGACTTGTGCCCGTCGATTCACCCTCCCAGGCGCTCGCCGCGGTGCGCTCCGGCGAGGTCGAGTGGGCCGTGGTTGCCATCGAGAACTCCGTCGACGGCGCCGTGACCTCCACCACCGACGCGCTGATTGAGGCCCCCGGGGTGCAGATCTACGGTGAGACGGAACTCGAGATCTCGTTCGCGATTATGACCCGGCCCGGCGAAACGCTCGCCAGCGCAACGAGCTTTGCCACGCACCCCGTCGGCTACCAGCAGGTTCGCCGCTGGATGGCGACGCAGGTGCCGGCCGCGCAGTTCCGCGCGGCGTCGTCGAACGCGGCCGCCGCCGAGCTCGTCGCTTCGGGCGAGGTCGATGTGGCGGCGGCCCCGCGCCGGGCCGCGGACCTGTTCGGCCTTGAGATCCACGCTGAGGGGGTCGCTGACATCGAGGCCGCGCGCACCCGCTTCGTGCTCGTCGGCCCGGCGGGTGCGCCGACACCGCGCACCGGAAACGACCGCACCTTCGTGGTGTTCCAATTGCCGAACGAGCCGGGCACCCTGGTCGGTGCGCTGCAGGAGTTCGCCTTCCGCGGCGTTGACCTAAGCCGCATCGAGTCACGCCCGACGAAAGCGACGCGCAACACCTACAACTTCTTCGTCGACCTCGTCGGCCACATTGACGACGCCCCGCTCGCCGAGGCGCTGCGCAACCTGTACCTGCGGGCGAGCTCGATTGACTTCCTGGGCTCCTGGCCGCGCGTTGATCGGCTAGGATGCGAGCCGGTAACGGACGCAGATGCGGATGCCGCGCGCCTGCGCGCCGCGGAAGAATGGGTCGCAAGGGCCCGGGAAGGCAAGTAG	MNRVAFLGPHGTFTEQAVWDFELDGARLVPVDSPSQALAAVRSGEVEWAVVAIENSVDGAVTSTTDALIEAPGVQIYGETELEISFAIMTRPGETLASATSFATHPVGYQQVRRWMATQVPAAQFRAASSNAAAAELVASGEVDVAAAPRRAADLFGLEIHAEGVADIEAARTRFVLVGPAGAPTPRTGNDRTFVVFQLPNEPGTLVGALQEFAFRGVDLSRIESRPTKATRNTYNFFVDLVGHIDDAPLAEALRNLYLRASSIDFLGSWPRVDRLGCEPVTDADADAARLRAAEEWVARAREGK				NA	NA	NA	NA	NA
AK009_09796	804			hypothetical protein	GTGCTCGAGCGTCGACGAGCTGCGCGAGCAGGTGAAAGTCACCGTGTTTCACGAGGTCGGCCACTACTTCGGGATGGAGGAAGACCAGCTTCACCACCTCGGCTGGGGCTAGTCCAGCGGGTACTTGCCCCACTTCACAACCCGCCACGAACCGAACTCGCCGAACGGGTCAATGACCACGTAGTGGCAGTTGGGAAGGTACGACGCCTCCGCGAAGGCCGGGTCGACGTCGGTGGCGTTGGCGGCGAAGGCACGGATCGCGCCGCCATGGGAGACCACCACGGTGTCGCCGCCGGCCTCGACGAGGGGGTCGATCGCCGCGCGGTAGCGGGTGAGGAAGATTTCGAGGGAGTCGCCGCCGTCGATAAGCGAATCAAGCTGCCGCCGGTAAAAGCCGCGAAATGCGCCGTGGTAGGCCGTGTGCGCCTCGAGTGTGTTGAGCATTTCAAAGCGCCCCGCCTGCACCTCGTGGAGGCCGTCGAGCGCGGGGATGACATCAAAATGCTCGCCGAAGCCGATCTCGCCGGTCTGCTTCGCGCGCAGCGCCTTGGATGTGACCACCCGCGCCGGCGCGTAAGCGTCCATGATGTCGCGCCCCGCCGCGGCGGCCTGGGTTTGCCCCAGCTCTGTGAGCTCCGCGCCCGGCAGGGCGGTGTCGAGGTGGCGGCCGACGTTCGAGGTAGTTTGCCCGTGCCTGAGCAAAATGAGCATCTACTTGCCTTCCCGGGCCCTTGCGACCCATTCTTCCGCGGCGCGCAGGCGCGCGGCATCCGCATCTGCGTCCGTTACCGGCTCGCATCCTAG	MLERRRAARAGESHRVSRGRPLLRDGGRPASPPRLGLVQRVLAPLHNPPRTELAERVNDHVVAVGKVRRLREGRVDVGGVGGEGTDRAAMGDHHGVAAGLDEGVDRRAVAGEEDFEGVAAVDKRIKLPPVKAAKCAVVGRVRLECVEHFKAPRLHLVEAVERGDDIKMLAEADLAGLLRAQRLGCDHPRRRVSVHDVAPRRGGLGLPQLCELRARQGGVEVAADVRGSLPVPEQNEHLLAFPGPCDPFFRGAQARGIRICVRYRLAS				NA	NA	NA	NA	NA
AK009_09797	840			hypothetical protein	TTGGCGCAGCGGGCGGCGCTCGGGTCGCTCGGGCGGGGGGTTGCCGTCGATACGCAACCCGTCGCGGCCCGCCGTCGCCGACCCGGTCAGCGTGGCGAACTGCCCGTTGTTGGCGTAGACGAGACCACAGTTGACGCTCCTGCTGCCTCCCTCCCAGGCGGCCGCCGAGAGGGCGGTCCAGAACGGCTGCAGCGCGACCTGATAGAGGTTTTCCTCGCCGCCGAGGTACTCCTGGGCGGCGGTGGTGCAGACGTCGCCGAGGTACTTGTCCTGCTCCTCGACGCTGGGGGTGTGGTCGGGAAAGACCTCCGCCATAGAGACCACCGAGGTGACCTCCAAATGGTGGGGCTCGGCGCAGTCGACTGCGCGAAGCGTACTCGACGCGTCGGTTACGGCGCACTGGCCGGCATCGAGAACGCGGGCCTGGTCCTGCTCGGCGGCACGCCCCGTTGTCAAAGTCGGGGTGCCGGATGCGTCGGTGACCTGCAGTCCGCACAACATCGTGCGGTCTCCGCGCTCCCACGCCTCGGCCGGCGGGAGAATGGACGCGATGGAGTAGCGACCGTTCGGGTCGTACACGCCGGCCAGGTAATTCAGCGTCGAGGCCCCGCACAGCTCCTCGCGCAGCTGGGCCTGGCGCGTTTGGCTGGGAATTTCCGCGTTGGGCCCGAACTCGGAGGAGGGGAAAGCCGCGAGGTCCTCTCGCGCGGACACCTCGAAGCGGTGCTCCTGCTCGCACGGGGCCTGCTCGAAACCCGAGATCGAGCCGTCCTCGGCCACGTCCCAGGTCAGGCAGGCGCCCTGGTCGGCGGTGGTGAAGGAGGCGACGCTCGAGGTTGA	MAQRAALGSLGRGVAVDTQPVAARRRRPGQRGELPVVGVDETTVDAPAASLPGGRREGGPERLQRDLIEVFLAAEVLLGGGGADVAEVLVLLLDAGGVVGKDLRHRDHRGDLQMVGLGAVDCAKRTRRVGYGALAGIENAGLVLLGGTPRCQSRGAGCVGDLQSAQHRAVSALPRLGRRENGRDGVATVRVVHAGQVIQRRGPAQLLAQLGLARLAGNFRVGPELGGGESREVLSRGHLEAVLLLARGLLETRDRAVLGHVPGQAGALVGGGEGGDARG				NA	NA	NA	NA	NA
AK009_09798	777			hypothetical protein	ATGGTAGCCGGCCAGCGCCACCTCGGAAGTGCCCACGAGGTACATGTCGTCGCGCTCGAGGTAGTAGATCTCCTCGTCGTGCGCGTCGAGGAACCCGGTGCCCGCCATGATGTCCGGGCGGACCAGCACGGGCGGGATGACCACCGTGAAGCCGGCCTCGCGCGCTTTTTGGGCGGCGAGCATGAGCATGCCGAGCTGGAGCCACGCGCCGTCACCGACGAGGTAGTAGAAGCGGGCACCGCCGACCTTCGTACCCCGCTTCATGTCGATGATGCCCAGCGCTTCACCCAGGTCGAGGTGGTCGCGCACCTCGAAGTCGAACTCGGGGATCTCACCGACGTGCTCGATAACGACGAAGTCCTCCTCGCCGCCGGCGGGCGCGCCTTCGACGACGTTGGCGATGCGCAGCTGCAGCTTCGCCACCGCCTCCTCGGCTTCATCCTGGGCCGCCTCCGCCTCCTTGACGCGGGCTTTAAGCTCGTTGGATCCCTCGAGCAGCGCCGGGCGGTCCTCGGGGGCGGCCTGGCCGATCTTCTTGCCGAAGGCCTTCTGCTCGCTGCGCAGCTCGTCCGCCGCCTGAATAGAGGAGCGGCGACGTTCGTCCGCCTCAAGCAGCTGATCCACCAGCTGGGGGTCTTCACCACGGGCCCGCTGAGACTCGCGCACGACATCGGCATTTTCACGCAGGAATTTGAGATCAATCACACTGAGCCATCCTACCTTGGGCACTCCAACCCGTGCGCCCGCGAAGCTCTTTTGCGCGGTAAGGCACAATAG	MVAGQRHLGSAHEVHVVALEVVDLLVVRVEEPGARHDVRADQHGRDDHREAGLARFLGGEHEHAELEPRAVTDEVVEAGTADLRTPLHVDDAQRFTQVEVVAHLEVELGDLTDVLDNDEVLLAAGGRAFDDVGDAQLQLRHRLLGFILGRLRLLDAGFKLVGSLEQRRAVLGGGLADLLAEGLLLAAQLVRRLNRGAATFVRLKQLIHQLGVFTTGPLRLAHDIGIFTQEFEINHTEPSYLGHSNPCAREALLRGKAQ				NA	NA	NA	NA	NA
AK009_09799	126			hypothetical protein	GTGCATCTCCTCGGCGTCCTCGGGCGCGCAGTAGACGAACATTTCCAGCTTGTCGAACTGGTGCACGCGCAAGATGCCCTTTGTGTCCTTGCCGTAGGAGCCCGCTTCTCGACGAAAGCACGATGA	MHLLGVLGRAVDEHFQLVELVHAQDALCVLAVGARFSTKAR				NA	NA	NA	NA	NA
AK009_09800	999			hypothetical protein	GTGCTTTCGGTCGGCGCGCTCGGCTCTCTCCCGCCGGTACATTTCCTTGGCTTTTTCCAGGGTAGGGGCGGCGCCGCCCATAGAGGCCGGGATCCACCGTTCGCCGTCGGGGAAGGGGCCGAAGCGCTCCGCGTACTCCGCGCGGTTGAGCTCGAGGAGCTCTCCCAGCGCCTGCTTCAGGCGAGCCGTCACTTCTTCCGGGGTTCCCTCGAGGGAGACCGGCTCCCCGTACCGGATGATCACGGGAATTTTGGCGCGCCCGAGGTGGCGGGGCAGGTCCTTTGTCCAGATGCGCTGGGAGCCCCAGATGGCGCACGGGATCAGGGGTGCGCCGGCGCGCTGGGCGATGCGCGCCGCGCCCGTCTTGAAGTCGGAGAGCTCGAAGGAGCGGGAGATGGTGCCCTCGGGGAAGATGCCGACGAGTGCGCCTCTGTTTTGAATCCAGTCCACCGCCGAGTCGATGCTGTCTGCCCCCGCCGCGCGGTCCACGGGCACGTGGCGCATCCCGCGCATGAGCGGGCCGATGACGGGTGCGGAGAACACCTCCTTTTTCGCCATGAAGCGCACGAGGCGCTTGCCCGCGACGTGCGGGCCCACGGCGCTGAAAATGAAGTCGAACCAGCCGGTGTGGTTCGCGGCGATGAGCGCCCCGCCGGTCGCGGGGATGTTGTCCAAGCCGCGGACCAGCGTGAACGTGCCCTGGGCGCGGAATACTTTCTTGATCGCGCTTTCTATCCACTGATAGAAATAGTCCTTGCGCTCCTCCTCGTGGGGCGGCGGAGGCGAGTAGTCGTCGGGGACCTCGAACAGGCCCTGAATTGTCGTCACTGCTGGACCTCCAGGACGTCTTTGCCCACCCACGGGCGCAGCGCCTCCGGCACAACGACGGAGCCGTCCGCCCGCTGGTTGTTTTCTAGGATGGCGACAAGCCAGCGCGTCGTGGCCAGGGTGCCGTTGAGGGTGGCGGCGGTCTGGGTTTTTCCGGAAGCGTCGCGGTAG	MLSVGALGSLPPVHFLGFFQGRGGAAHRGRDPPFAVGEGAEALRVLRAVELEELSQRLLQASRHFFRGSLEGDRLPVPDDHGNFGAPEVAGQVLCPDALGAPDGARDQGCAGALGDARRARLEVGELEGAGDGALGEDADECASVLNPVHRRVDAVCPRRAVHGHVAHPAHERADDGCGEHLLFRHEAHEALARDVRAHGAENEVEPAGVVRGDERPAGRGDVVQAADQRERALGAEYFLDRAFYPLIEIVLALLLVGRRRRVVVGDLEQALNCRHCWTSRTSLPTHGRSASGTTTEPSARWLFSRMATSQRVVARVPLRVAAVWVFPEASR				NA	NA	NA	NA	NA
AK009_09801	825	yitU_2	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU	GTGACGCCACGGCTCATCATCAGCGACATCGACGGAACCTTCCTCACCAGTGCCGGACGCGTCACCCCCAGATTGCGTGACGTGGTCATGCGCGCCGTGCGTTCGGGCGCGCACTTCGGACTGGCCACGGGGCGCCCGCACCGCTGGCTCATGCCGGTGCTGGACCAGCTCCCCATTTCCCCGGTCTGCGTCTGCGCGAACGGCGCTGTGACGTACGACCCCGCCCGCGACGAGGTGCTGCGCGCCTTCGAGCTCGACTCCGAGCTGATGGCCCAAGTCGTCGCCGACGTCGATGCGGTATTCCGCCCGCTGGGCGTGCGCTGGGGCTACGGAGTCGAACGCGTCGGGCAGTCGGCGCTCGACCCGGAAGACGAGGTGTTCCTAGTCACCCCCGACTACAACCCGGATGCGTGGGACCCCCGCTTCGGCGTCGCCCCCGTCTCAGAACTCGTCTCGGTTCCTGCGGCGAAGCTGCTGGTCCGGTGCGCCGAGATGCACTCTGCCGAAATGTTCGACCTCATCGCCCCGGTCATCGACACTTCCGAGGCGCACATCACCTATTCCATGGACGAAGGGTTGATAGAAATCTCCAGCCCGGGGGTGACCAAAGCCACCGGCGTCTCCGCCCTCGCCTCGCACTACGGAGTGAGCGCCGAGGACGTGGTGGCGTTCGGCGACATGCCCAACGACTGCGAGATGCTGGCGTGGTCAGGACTCGGCGTGGCCATGGGCAACGCGAACCCGGTCGTGCTCGACGTCGCCGACACTGTGACCGTGAGCAACGACGAGGACGGCGTGGCGAAAGTTCTCGAGCAATGGTTCTAG	MTPRLIISDIDGTFLTSAGRVTPRLRDVVMRAVRSGAHFGLATGRPHRWLMPVLDQLPISPVCVCANGAVTYDPARDEVLRAFELDSELMAQVVADVDAVFRPLGVRWGYGVERVGQSALDPEDEVFLVTPDYNPDAWDPRFGVAPVSELVSVPAAKLLVRCAEMHSAEMFDLIAPVIDTSEAHITYSMDEGLIEISSPGVTKATGVSALASHYGVSAEDVVAFGDMPNDCEMLAWSGLGVAMGNANPVVLDVADTVTVSNDEDGVAKVLEQWF	PGPT0017727_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
AK009_09802	1338			hypothetical protein	ATGAACAAATTCGCAATCATTCACATGCAGAAATTTCAAATTTCTGATGTGCAAGGGATTCAAAAACATAATCAAAGACAAGGAAAAAGTAAATCAAATTTAGACATCGATTATTCGAAAAGTGAACAGAATTATGATTTGTTGAATCAACAAAAAATTAGATATGAAAGCACAATTAAACAAGAGATCAGTGAGCGAGTAAAACGAAAGCCACGGGCAAATTCTGTTGTGCTTTCAGAATTTGTAGTAACAGCTTCGCCTGATTACATGCATTCATTAAGTTTAGAAGAACAGAAACGTTATTTTGAGAGTTCACTAGCGTTTATTCAAAAGCGTTATGGCAAACAAAACACGTTGTATGCGATGGTTCATATGGATGAAGCAACACCACATATGCATATTGGTGTGATGCCAATTACAGAAGACAACCGTTTGTCGGCAAAAGATATGTTTATGAGAAAAGAGCTCATATCTTTACAACAGGACTTCCCGTTGGAAATGCGGGAAAAAGGTTTTGATGTAGAGCGGGGAGAAGGTTCTGAGAAAAAACATTTATCGCCCCAAGCCTTTAAGGAAAAACAAGATTTAGAAGTAGAAGTGGAACAGTTATCCAATGTAAAAACGCATTTAAAGACAAAAGTAGTGGAAACGCATAATCAATTACAACAAACCACAAACTACATCGAAAAACAGAATGAAACGTTACAAAAAATTCAGCAACAATTTTTGAGTTTAGATAAAAAAATAAAAGAAAAGAAACAGGAATTTGAAACGTTTCGAAATCAAATTCCGGATAAGCCAGTGTCAATGTCTTATTTGCGAGAAGAAACAAAAACAGAAGTAACAACGAAACTGTTTGGAAAGCCAGAAATTACTGAGAAGAAAACAGGAAACATTGTGGTTACACGTGAGCAATGGAGAGATATGACAGAAAAAGTGAATGCAGCCGTTATTGTTAAAAAAGATTATGAACGTTTACAGAAGACGGATCTTGTAAAAGAGAATCAAAGTTTACGAGAAGATAATAAATATTTAGAAGAAACAATAGAGGGGAATAATCTTGCTTTAAAACATTCTTATAAACAAAATCGGAAATTAGAAGAAGTAAATAAAGAATTGCATACTGAAATAGGCACTTTAAAGGCTCATATAAGAGATTTACAGATGAATATAAAGGTTTTATATCAACAGACGAAAAAAGTCTTTAAAGAGCAATTTAAGGCATTTAGAGGACTTATTAAAAACGAACTGGATATGAAGGGTGTAGATAATCAATTTGAACGTGAACATACAAGAGAAATAAGAAGTAGACAGAAAGGATATGACATGGAACGTTAG	MNKFAIIHMQKFQISDVQGIQKHNQRQGKSKSNLDIDYSKSEQNYDLLNQQKIRYESTIKQEISERVKRKPRANSVVLSEFVVTASPDYMHSLSLEEQKRYFESSLAFIQKRYGKQNTLYAMVHMDEATPHMHIGVMPITEDNRLSAKDMFMRKELISLQQDFPLEMREKGFDVERGEGSEKKHLSPQAFKEKQDLEVEVEQLSNVKTHLKTKVVETHNQLQQTTNYIEKQNETLQKIQQQFLSLDKKIKEKKQEFETFRNQIPDKPVSMSYLREETKTEVTTKLFGKPEITEKKTGNIVVTREQWRDMTEKVNAAVIVKKDYERLQKTDLVKENQSLREDNKYLEETIEGNNLALKHSYKQNRKLEEVNKELHTEIGTLKAHIRDLQMNIKVLYQQTKKVFKEQFKAFRGLIKNELDMKGVDNQFEREHTREIRSRQKGYDMER				NA	NA	NA	NA	NA
AK009_09803	1296			hypothetical protein	ATGAGTAAGTTTAATAAATTTGATAAATGTAATCATATTCCCTTCCCCTGTGCGTTTCCTCCTTTGCAAGAAGGGCCAACGGGACCTACGGGGTCAACAGGTCCAGTAGGTCCTACTGGACCTACTGGAACAGGAGAAGGAATAACAGGACCACCAGGACCTACGGGAGATCCAGGTCCAGCAGGTCCACAAGGGGTACCGGGTATTCAAGGTGAACAAGGAGATCCAGGTCCGACTGGACCACAAGGAGTACCAGGTATTCAGGGAGAACAGGGAGATCCAGGTCCGACTGGACCACAAGGAGTACCAGGTATTCAAGGCGAACAAGGGGATCCTGGTCCAGATGGACCACAAGGAGTACCAGGTATTCAAGGCGAACAAGGAGATCCAGGTCCAACTGGACCAGTCGGACCTACTGGAGCTGGTGTAACAGGGCCTACTGGTTTGCCAGGTCCAACAGGTCCAGGAGCTGGTGCAACGGGCCCAACAGGTCCTGCAGGCCCAACAGGTCCTGGTGGTGGTGCAACCGGTCCGACTGGTCCAACTGGACCTGGTGGTGGTGCAACCGGTCCAACAGGTGCAACTGGGCTACAAGGGCCGCCTGGCCCAGCTGGGCCAACAGGGCCTCAAGGAAATCAAGGCATTCAGGGAGAACCTGGCCCAGAAGGACCAACAGGACCTCAAGGAAACCAAGGTATTCAGGGACCAGCTGGAGCTAGAGGACCAACAGGACCTCAAGGACCTCAAGGTATTCAAGGACCAGCTGGAGCTAGAGGACCAACTGGTCCTCAAGGAAACCAAGGTATTCAAGGACCAACAGGACCTCAAGGACCTCAAGGACCTCAAGGACCTCAAGGACCTGTTGGTCCTACATTAACTGCTAATAATATTTATGTAGCAAATCCTAGTACAAATATTAATGTTGTAGGTTCACCAGGTAGAAATGCTCCTATTCCTATGACTACTACTGTAACTCGTAATGGAACGATATTAACATTAGCTTCCCCAGGTATTTCAGTATCAACAACAGGAACGTATTATATAATTGCTAAAGGGACTATAGAATCCCCAGTAAATGCTAGGGCAGCTATAGCTCTTGCATTAAATGGAATATTGATACCACAAACTAGTTCTTTAGCTAATCTTCCATTTGGTTCTACTCCAATATCAGGGACACAAGTTATGACATATGCAATTGTTAATATTTCAGCATCTCAAGTAATAACAGTTGTAAATAATGATGTTGAAAATTCTGTATTTGGAAATGTATCTATAGGTGTATTTCGAATTGGTTAA	MSKFNKFDKCNHIPFPCAFPPLQEGPTGPTGSTGPVGPTGPTGTGEGITGPPGPTGDPGPAGPQGVPGIQGEQGDPGPTGPQGVPGIQGEQGDPGPTGPQGVPGIQGEQGDPGPDGPQGVPGIQGEQGDPGPTGPVGPTGAGVTGPTGLPGPTGPGAGATGPTGPAGPTGPGGGATGPTGPTGPGGGATGPTGATGLQGPPGPAGPTGPQGNQGIQGEPGPEGPTGPQGNQGIQGPAGARGPTGPQGPQGIQGPAGARGPTGPQGNQGIQGPTGPQGPQGPQGPQGPVGPTLTANNIYVANPSTNINVVGSPGRNAPIPMTTTVTRNGTILTLASPGISVSTTGTYYIIAKGTIESPVNARAAIALALNGILIPQTSSLANLPFGSTPISGTQVMTYAIVNISASQVITVVNNDVENSVFGNVSIGVFRIG				NA	NA	NA	NA	NA
AK009_09804	615			hypothetical protein	ATGCCAAATACGATTGAATTTAAACAAGTTGAGAAAAATGCAAGAATACGTGATTTAGAAATGGAAAATGAAAAATTTAAGAAAGATCATAATGAAGTTTCCAAAGTTGAATTAGAAAAAGCGATGGAAACTATGGCAAAAGCAACTGGTAAAGAACTTTACATAGGTACTAAAAAAAGCCTACATTCGAAAGTGAGGTTTGCTCAAATTTTGCAAAGTAATTATGAATTTTTAAGGGAAAGGGAATACTTAACGGCTAAAGAAAAAACATTTTTAATTGATATTGTTTCTTCGATTGCTTTTAATTCAAACTGTATTGTTGATGATGTGAAATCAAAAAATCCAGTTCCGTTGAATATTTCAGGACTTGCAAAAAAAATTGGATTAACACGAGCGAATACTAGTCTTTCAGTAAATTCTTTAGTTAAGAAAGGGATATTAGCGAAAGCTGAAAGTGGAATTGACGGGAATAATGCAAAAGCTTATTCATTATTTGTAAATCCACACATTATTTATGCAGGAGATAAGGATAATGTAAATGAAGCACTTAAAGCAATCTTTTATAAATCGATGAAAATGAAAATATTAAAAGATTTGCCAGATAAATTATTTTAA	MPNTIEFKQVEKNARIRDLEMENEKFKKDHNEVSKVELEKAMETMAKATGKELYIGTKKSLHSKVRFAQILQSNYEFLREREYLTAKEKTFLIDIVSSIAFNSNCIVDDVKSKNPVPLNISGLAKKIGLTRANTSLSVNSLVKKGILAKAESGIDGNNAKAYSLFVNPHIIYAGDKDNVNEALKAIFYKSMKMKILKDLPDKLF				NA	NA	NA	NA	NA
AK009_09806	582			hypothetical protein	GTGAGAAAGTCATATCTCGCAGTACCCCTCGCCGCGGCCCTCGCGGCGGGGCAGGCACCCGTCGTCGCTCTGGCGGCCGACTCGTCGGCGCCGATCGCCGCAGACCACAAGGCCGGTACCCCCGGTTTTGGCGTGGACCTGCCTGGTGATGTGAAGATGAAGACCGCCGACGGCAAGACCGTGACCCACGCTTGCGCGGGGCGCAAGCTGGCTTACCAGTCGCGTGAGGTTCCCCTCTACGCCGCGAACGACACAGCGGGAAAGCTTGCCGTGATGGCACTCGACGGCACCGAGGTGACGAACCAGGATGATCTTTGTTTCCGCCTCGCGCCGGACGCCGATGATAAAGGACAGGACCTTACACGGATGGTCATTCCTGAGGATTTGTCCTTCCTGGGCACGCCCGGTGACACCGTGTGGGTGGCACCTGCCACCGCCGATAAAACGATCCCGCCACGGCCCATGTCTACTGGGATTGGTGCTTTTGACTCGAAGCGGATGACAGGCGACGATGCGGTGCCCACCAACTTCCGAGACAACCAGGTGAGATTTGAGATGACCGACTTCCAGGGCCCGGAATGA	MRKSYLAVPLAAALAAGQAPVVALAADSSAPIAADHKAGTPGFGVDLPGDVKMKTADGKTVTHACAGRKLAYQSREVPLYAANDTAGKLAVMALDGTEVTNQDDLCFRLAPDADDKGQDLTRMVIPEDLSFLGTPGDTVWVAPATADKTIPPRPMSTGIGAFDSKRMTGDDAVPTNFRDNQVRFEMTDFQGPE	PGPT0003825_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MANGANESE|IRON_TRANSPORT,PGPT0003825-ABC_MN_P-K09819	NA	NA
AK009_09807	453			hypothetical protein	TTGACGCGGGGCGAAGAGCCAGCTGAGGGCAAAGATGGCGGTGACGGCCAGCACGATCGTCGCGCCAGTCGGAGAATCGTAGGACCAGGACAACCACACCCCGATGACGCTGGCGAAGGCCCCGATTCCGGCGGCCAGCCACATCATCGTGCCGAGGTTGTCGGTATAGAGGCGCGCGGCCGCCGCGGGCGTGACCAACAAGGCGAGGACCAAGATGTTGCCAATGGTCTGCACCGAGATCACCACCGCGGCAGTCACGCTGAGGTAGAGGGCAAGGTCGAGTGCGTAGACCGGCAGGTTCATCGCGCGCGCGGTCTCACGGTCGAAGGCGACGGCCCTGAGCCACGGGCCCAGCACCACCATGAGCGCGATGATGACCGTCCCGGCGACGGCGCACACCCAGATCGCCCCGGTGTCCACGCCGGTCAAGGAGCCGAAGAGGAACGAGCTTAG	MTRGEEPAEGKDGGDGQHDRRASRRIVGPGQPHPDDAGEGPDSGGQPHHRAEVVGIEARGRRGRDQQGEDQDVANGLHRDHHRGSHAEVEGKVECVDRQVHRARGLTVEGDGPEPRAQHHHERDDDRPGDGAHPDRPGVHAGQGAEEERA				NA	NA	NA	NA	NA
AK009_09808	399			hypothetical protein	GTGCTACGTGGTGCTGCGCGGGATGTCGTTCATTGGCGACGCCGTCGCCCACGCCGTCTTCCCAGGCATTGCCCTGGCCTTCGCGCTCGAGGTCTCTGTCTTGCTCGGCGGCGCGGTCGCCGGGGTCGTAGTGGCCGTGGCCATATCCACGCTCACCCAGCGGCGCCGGATCAAGGAGGACTCCGTCATCGGCATCGTCTTCGCCGCCGCCTTCGCGCTCGGCCTGGTGGTGATCTCCCGGGTGGAGGGCTACACGGCGTCGCTAAGCTCGTTCCTCTTCGGCTCCTTGACCGGCGTGGACACCGGGGCGATCTGGGTGTGCGCCGTCGCCGGGACGGTCATCATCGCGCTCATGGTGGTGCTGGGCCCGTGGCTCAGGGCCGTCGCCTTCGACCGTGA	MLRGAARDVVHWRRRRPRRLPRHCPGLRARGLCLARRRGRRGRSGRGHIHAHPAAPDQGGLRHRHRLRRRLRARPGGDLPGGGLHGVAKLVPLRLLDRRGHRGDLGVRRRRDGHHRAHGGAGPVAQGRRLRP				NA	NA	NA	NA	NA
AK009_09809	168			hypothetical protein	GTGCGTGCGCAGCGAGCGCAACCACGGCGAATCCGGGCCGACCCCGAAGGTGTCCATCCAGCAGCCCGCCTCGGTCAGTGCGCCGGGGGCGCCGTCGGCGACGATCCCTCCCCGGAACAGGACGAGCCGGTCGCAGGAATCCACCGCCTCGACGATGTTGTGGGTTGA	MRAQRAQPRRIRADPEGVHPAARLGQCAGGAVGDDPSPEQDEPVAGIHRLDDVVG				NA	NA	NA	NA	NA
AK009_09810	654			hypothetical protein	TTGGCGCTGCCCGCCCGAGAGCTCGCCGACCGGGCGGGCGCGCAGGTCGAGGAGGTTGACCTCCTCGAGGGCGGCTTCTGCAGCCGCGGCGTCCCCGCGCCCCGGCCGTGCGTACCAGCGCCCCTTACCCAGCGCACCCGAGAGCACCGCGGAGTAGACATCGAGCGGGAAATCCCAGGCCACGTCGTGGCGCTGCGGGACATACCCGATGGCCTCGCGCACGGCGGTACCGGTAAGTTCACCGACCTCGACGGTGCCGCTAGCCACCGGCACGAGCCCCAGCAACGCGCGCATCAGCGTGGTCTTCCCCGCTCCGTTCGGGCCAATCAGCCCGACGAACTCGCCGGCAGAGACGGAGAAGTCCACATCGCGGAAGACGACCCGGTTGCCGTAAGTGACCGAAACCGAGCGGGCCTTGAGCAACGGCTTGCTCATGACTGCCTCCCAGAACGAGAACGAGAGCGCAGCGCCGCCACGGCGGCGAGCACCGCGACAATGACTACGACAGCCACCGCGGTGATAATCGCGATGAGCTTTGAGTCGACGCGTCCCGCCGAGGGATCCGCAGGGGCGAAATCCCGCTCGAACGCGGCGTTGACGTCGGTGCCCTCGCCCACGGTGAGGCGGACGACCTCCTCCGCCGTGTGCACCTGA	MALPARELADRAGAQVEEVDLLEGGFCSRGVPAPRPCVPAPLTQRTREHRGVDIEREIPGHVVALRDIPDGLAHGGTGKFTDLDGAASHRHEPQQRAHQRGLPRSVRANQPDELAGRDGEVHIAEDDPVAVSDRNRAGLEQRLAHDCLPERERERSAATAASTATMTTTATAVIIAMSFESTRPAEGSAGAKSRSNAALTSVPSPTVRRTTSSAVCT				NA	NA	NA	NA	NA
AK009_09811	2592			hypothetical protein	GTGCACCTGACCTGCATTGTCCTTGACCACCGCGCGCACGCCGACGAGGTGGACGCCGGGGTCGGTAAAGACCCAGTTGGCGTGGGTGTGGGTGTTCGGCTCCACCCACATCGGCTGCGCACCCTCGAGCTGGGAGTTCCACAGCTGCTGGGGCTGGTGGAAGCCGCCGGGCTGGATAAACAGGGTGAAATCCCCCTCGCCGTCGTGGCCGCCGAACTCCATGCTCACCCCGGCGGAGGCGCGGTCCAACAGCGTGGGGGCCTGGGTATTCCACCCCAGCCACGGCACCCCGGCGATCTCCGTCTGCGGGATCACCCAGACTTCTTCGCCCGGCCCGGCGCCGGTGAAGTCGAAATCACCGGTCTCCGGCAGCGTCTGGATGGCTTCATCGCCGACGTCAAAGACGACGTCGTCAAGGTGCCGCCACACGGGCGGGACCTGGGAGTCATCGCGGACGAGGAACTCGAGCTTCTCGCCCACAAACATCGCCCCCAAATCGGCGTGGCCCTGGGAGATCACGGTGCGCTCCCCGGCCGGGGCGATGTTCTCATCCGCGCTGACCTGCTGCTGCAGCGCAGGGTCCTTATCGGCAACCTGGGCCACAGCCGCGGGCGCGTGGAGCCCCACCGCGGCAACCACGGCGAATGCCGCAAGAGTGCGTTTCATCTTCTATTCCTTTCCTTTCAGGCATTCGCTAAGCGACGCCCCATTGGCCCTCATAAATTCCACGTACGACCTCGCCTCACCCGAGCCCTCGGGATCGAGCGAGTCGCCCCGGATGGGGCACACACGCACCCCGAGGGTCTTCGCCGTCTCCGTCAGCTCGTTCGACTTGCCCGCCAGCTCCGGTTCCAAGAACACGGCGGGGACGTCGAGGTTCTCCAGCGTCCTCGTCAGCGCCATGAGGTCTCGCGGGCTCGCCTGCACGCTGGCGTTGGGGGTGACAAACCCCGCGATCTTCATCCCGTAGGCCCTCCCGAGGTACGAATACCCGTGGTGGGTGGTGACCAGGTTGCGGTTTTCCTCCGGGATAGACTGGATCGCTGCGCGCATGAACTCGTCGACCTCGTCGAGCTGCGCGAGGTATCCCCTCGCGTTGCCGGCGTAGGCGTCCGCGTTCGCCGGGTCAGCGGCGCTGAGCTCGTCGCGCACGACCTGTACCACTGCCTTCATCGCGGAGACGTCGTGCCACAAGTGGGGATCGAGCTCGCCGTGGACGTGCCTGCCCAGCACCGCCTGCGGCAAGAGATAGGTCTCCTGCCCAGGCTGGCCGAGGAAGCGGAACTCGCGCTGCGGCGGGATCGGCTGCAGCGTGGTGTTCGGCACCGCGATGACCGCCTCGTCGGTCCCCAGGTCCGGCGGGGCGTCCCCGCGCAGGACGATATCGCTGCTCTCCCCATCGACGACGGTGGCGATGTCGACGTGCCCGTGGTCAATCACCCGCTTGCCGGGCGCGGCCTGCGCAGGGTCGTTTCCCACCACCACGGTCACGGTGCGCTCGACGCTCTCGCGCACCTCCGTGGCATCGACGGAGGGGCGCACATCGGCCCGGAAATCCAGCTCGTAGACACCGGGTTTCGAAAACGCCCAGCTCACGTGCGTGTGGGCGTCGGTAGGCAGCGTCGTGACGTCCTTGTGGTCCACTCGGTCCCGGGTGTTGAACAACACCTCGGGCGTGCCGAAGGTCCCCAGCACGAACGCCGCCGCCTCACCCGGCCCGCGCGCGCCGGTGAGCCGGAAGTCCGCCACCGCCGTGGGCGGGAGGTCGCCCTTGGTGGCTACCTTCAGCCCGAGCCACACCGTATCCAGGCTGGCGTCTTCGACCAGCGGAATCGGGCTAAACCCGTAGCGCTGCGCCTGCTCGGCCAGCTCCACCACGGCCGCGCCGGGCCGCGCCGTGGTCTCCACCGTGCGCGTGAGCGACTGCGGCTCGAGGAGGAGCCCGTTGGTAAACACGACATCCGCATAGGCGAGATCCCGGGTGGCGTGCAGCCTCGGCTCGTAAGTGTGCGGATCCACGCCGGGGGGCATGAGCCCGGTCACCGTCGCGGCGCCCCCGGCGACGTTCTTCACGACGTCGCTAAGAATCGACGTGGAGGCGACGACGCGGAGGCGACCATCCTCGCTCCCGCCCCCGGGCGTCGCGGCGCTCCCGGGGGCACAGGCGGTCAAGAGCGCAACCGCCCCCGCTGCCAGGATTGCTGCGTACTTGCTCACCGCCGCGCGCCTACCGCCGTCAGCAGCTTGCTGCGCAGGCGAGCGTCGAGGAAGACCAGCCCCGCGCCGAAGACCAGGATGCCCAGTCCGAGCATGGCAAACGGCAGAGTCATCACCGTGGTTCCGGTCTCCGCGAGGCTGCCCTCGCGCACGGCTTCCGCCCCGCCCTCGGCCGCCTCACCGCCGCCGGTAGCGCCGCCGGCCGCCCCCGCGCCGCCGCTGGAGCAGCTGCCCTTGGGGTCGAAGACGGTGCCGAAGTCGAAGTGGCCCTCGTTGGCGTTGCCCGACCCGCCGACGTTAAACGTCAAGGTGGCCTGCCCGGTGAGCTTCTCCCCGCCCTTCGCGGTCGTGGTCTGCCGGACGGTGACTTTATAG	MHLTCIVLDHRAHADEVDAGVGKDPVGVGVGVRLHPHRLRTLELGVPQLLGLVEAAGLDKQGEIPLAVVAAELHAHPGGGAVQQRGGLGIPPQPRHPGDLRLRDHPDFFARPGAGEVEITGLRQRLDGFIADVKDDVVKVPPHGRDLGVIADEELELLAHKHRPQIGVALGDHGALPGRGDVLIRADLLLQRRVLIGNLGHSRGRVEPHRGNHGECRKSAFHLLFLSFQAFAKRRPIGPHKFHVRPRLTRALGIERVAPDGAHTHPEGLRRLRQLVRLARQLRFQEHGGDVEVLQRPRQRHEVSRARLHAGVGGDKPRDLHPVGPPEVRIPVVGGDQVAVFLRDRLDRCAHELVDLVELREVSPRVAGVGVRVRRVSGAELVAHDLYHCLHRGDVVPQVGIELAVDVPAQHRLRQEIGLLPRLAEEAELALRRDRLQRGVRHRDDRLVGPQVRRGVPAQDDIAALPIDDGGDVDVPVVNHPLAGRGLRRVVSHHHGHGALDALAHLRGIDGGAHIGPEIQLVDTGFRKRPAHVRVGVGRQRRDVLVVHSVPGVEQHLGRAEGPQHERRRLTRPARAGEPEVRHRRGREVALGGYLQPEPHRIQAGVFDQRNRAKPVALRLLGQLHHGRAGPRRGLHRARERLRLEEEPVGKHDIRIGEIPGGVQPRLVSVRIHAGGHEPGHRRGAPGDVLHDVAKNRRGGDDAEATILAPAPGRRGAPGGTGGQERNRPRCQDCCVLAHRRAPTAVSSLLRRRASRKTSPAPKTRMPSPSMANGRVITVVPVSARLPSRTASAPPSAASPPPVAPPAAPAPPLEQLPLGSKTVPKSKWPSLALPDPPTLNVKVACPVSFSPPFAVVVCRTVTL				NA	NA	NA	NA	NA
AK009_09812	690			hypothetical protein	GTGTGGCTGCCCTGCGCCTTGCCATCGGCGGCGGTGAACCACTGCTCGCCGACGACCTGGCCGAGACCGCCCTGGGTGAACACCGCCATGGAGCCCGGGCCTTCAAAGCCCGCAATGTCCCAGGTGACGTCTCCCTTGGTGTTCTCCAACAGCGACGGGTGCTGCGTGTTCCCGCCCAGCCACGGCACGCCGGCCTGCTGGGTCGAACCAATCATCCACACAGGCCCGGCCGGGACGGGGCCGATCGCCTGCGGCAGGTTCGCCTTGGCCGCATCGCCGAGGCCGAAGACCAGCGAGGCGGGATCCTTCCACTGCGCCGGGACCGTGCGATCGTCCTTGATGCGGGGAACGATACCGGCGGTGCAGGTCTGCTCCCCGCCGCCGGCGGTGGAGTTGCCCACCGGCTTGGCCGCAACGGAGGTCGCCTTGCTGGCCGACTTGCTGCTCGAGCCGCTGCTTAAGTTCTGGGCCTGTGCCTGTTGCCCCTGCTGCACCTGCTGTCCAGCGGCCTGCTTCTGGCCGCCCTGGGAGCCGCCTGCGGAACCCCCTGTGGAGCAGGGCGCGCTACCGAAGTCGAAGTGGCCCTCGTTGGCGTTGCCCGACCCGCCGACGTTAAACGTTAAGGTGGCCTGCCCGGTGAGCTTCTCCCCGCCCTTCGACGTGGTGGTTTGCCGGATGGTGACCTTATAG	MWLPCALPSAAVNHCSPTTWPRPPWVNTAMEPGPSKPAMSQVTSPLVFSNSDGCCVFPPSHGTPACWVEPIIHTGPAGTGPIACGRFALAASPRPKTSEAGSFHCAGTVRSSLMRGTIPAVQVCSPPPAVELPTGLAATEVALLADLLLEPLLKFWACACCPCCTCCPAACFWPPWEPPAEPPVEQGALPKSKWPSLALPDPPTLNVKVACPVSFSPPFDVVVCRMVTL				NA	NA	NA	NA	NA
AK009_09813	513			hypothetical protein	GTGGGTCTTCGCCGGGATCGTGTGCCTGCCCTGCATGGCCCCGTTGCCGGCGGTGAACCACTGCTCGCCGACGACCTGGCCGAGCCCGCCCTGGGTGAACACCGCCATGGATCCGGGCCCCTGGAAGCCCGCGAGCTCCCAGGTGACCTGGCCGGAGGTCTTGATCAGCAGGTCCGGGTGTTGGGTGTTCGCGCCCAGCCAGGGCACGCCGGCCTGCTGGGTCGAGCCGATCATCCACACAGGCCCGGCCGGGACGGGGCCGATCGCCTGCGGCAGGTTCGCCTTCGCCGCATCGCCGAGGCCGAAGACCAGCGAGGCGGGATCCTTCCACTGCGCCGGTGCCGTGCGATCGTCCTTGACCAGCGGTTGCAGGCCTTGGGCGCACGCGCCCTGCGCGACATGCGCGACTGTATCTGCATTGGCTGCCGGCAACGCCGCAGTTCCAACATTAAGAGTTCCTGCAGCAGCGACGGTGGCGAGCAAAAGCGCAGGAGCGCGCCTACCCATGCGTAG	MGLRRDRVPALHGPVAGGEPLLADDLAEPALGEHRHGSGPLEARELPGDLAGGLDQQVRVLGVRAQPGHAGLLGRADHPHRPGRDGADRLRQVRLRRIAEAEDQRGGILPLRRCRAIVLDQRLQALGARALRDMRDCICIGCRQRRSSNIKSSCSSDGGEQKRRSAPTHA				NA	NA	NA	NA	NA
AK009_09814	1863			Tn3 family transposase TnBth2	ATGCTTGAATCATTAAGATTTAAATCTACGACACAAAGTAAAGGGTTAGAACAAGCTATTACTTTCCTATTAAAAAATAAACTTAAAAAATCCGAATGGATTTCAACAATCTATACACGTAAGAATGGAATGAATAAAAATGATTGGGAATCAGTTCCTCTTGTTGATTTAACCTGGATTCCTGAAGGATGGTGGCGCTGGATTAGCTCCAATCGTAGAAGAAATGTATATCCAGACAAAATTAATCGAAGACACTTTGAAGCTTGTGTATTTTATCAAGTTAGAAATGAATTGAAATCCGGAGATTTATGTATTGAAGGTAGCGAACAATATGCTGATTATCGAGAGCAATTAATATCCTGGGATGAATATCAACAAAACTTACATATATTTTGTGAACAGGCAGGCCTTCTAACAACAGCTGAGGCATTTAAAACACAGGTGTGTAATAAGCTTGAATCACTTGCGAAAAAAGTGGATACTTCTTTTCCAAAAAATAAAGCCGTTACCATTCGAAACGGAGAACCTTTTATCACAAAATTAAAAAAGAAGAAGATTTCACCGTTATTAAAGGCTGTTAGAAAACGAATTGAAGAAAGAATGGTACCTATTAATGTTTTAGATTTATTAAGTGATACAGAATATTGGTTAAACTGGACAAGATTTTTTGGTCCTATTTCTGGTTATGATGCCAAAATTACTAAACCCACTCAAAGATATTTAACAACTGCTTTTTGTTATGGTTGTAATTTAGGTCCTACTCAAGCTGCACGTTCCCTTGGTACAGTGGATCGAAGGCAAATTTCTTGGATTAATGAACGACACGTCACTGAAGAAAATATCCAAAAAGCCATTGAATGGTTAATTAATGCTTATAATAAATTTAATTTACCAAAATATTGGGGAACAGGAAACAGTGCTGCAGCTGATGGTACAAAATGGGATCTCTATGAACAAAACTTATTATCTGAAAATCATATTCGTTACGGTGGGTATGGTGGAATTGGATATTACCATGTTTCAGATAATTATATTGCCTTATTCAGTCACTTTATACCTTGTGGTGTCTGGGAAGGGGTTTATATTTTGGATATTCTAATGAAAAATCAATCTGATATTCAACCTAATACATTACATTCTGACACGCAAGGACAAAATGCACCGATATTTGGGTTATCCTACTTATTAGGGATCCAACTGATGCCCCGGATTCGAAATTGGAAAAATTTAAAATTATTACGACCGCATAACAACTCGAATTATCAGCATATTAATGAACTATTTACAACTTCGGTGAATTGGAACATAATCGAAAAACATTATGAGGATATGTTACGTGTAGTGATGTCTATTAAAACGGGACGTATTCATCCTTCGACTATTCTTAATAAACTTAGTGGATATAGCAAGAAAAACAAATTATATCAAGCATTCCGTGAATTAGGTTGTGCAATCCGCACATTATTTTTATTGAAATATTTATCGGATGAGGAGTTAAGAAGCACTATTCAAGCGGCTACAAATAAAAGCGAATCTTTTAATGGATTTACAAAATGGTTATTCTTCGGAGGAGATGGAATTATTGCAGAAAATCATCGGGAAAGACAACGGAAAATTATAAAATACAATCATCTTATTGCAAATTGTGTTATTTTCTATAACGTTTTTCAACTTACCCGTATCCTGCATGAATACATCCAGGAAGGAAATGAATTAGACGAAGAAGTACTATCTGATTTGAGTCCATACCTTACCTTTCATATCAATCGATTCGGGAAATATGGATTGGACGATAATCGGCAACCACCCGATATCCAATTTGATATGGCTATTTCACCTCATAGATTAAACGCTGCAAATTAG	MLESLRFKSTTQSKGLEQAITFLLKNKLKKSEWISTIYTRKNGMNKNDWESVPLVDLTWIPEGWWRWISSNRRRNVYPDKINRRHFEACVFYQVRNELKSGDLCIEGSEQYADYREQLISWDEYQQNLHIFCEQAGLLTTAEAFKTQVCNKLESLAKKVDTSFPKNKAVTIRNGEPFITKLKKKKISPLLKAVRKRIEERMVPINVLDLLSDTEYWLNWTRFFGPISGYDAKITKPTQRYLTTAFCYGCNLGPTQAARSLGTVDRRQISWINERHVTEENIQKAIEWLINAYNKFNLPKYWGTGNSAAADGTKWDLYEQNLLSENHIRYGGYGGIGYYHVSDNYIALFSHFIPCGVWEGVYILDILMKNQSDIQPNTLHSDTQGQNAPIFGLSYLLGIQLMPRIRNWKNLKLLRPHNNSNYQHINELFTTSVNWNIIEKHYEDMLRVVMSIKTGRIHPSTILNKLSGYSKKNKLYQAFRELGCAIRTLFLLKYLSDEELRSTIQAATNKSESFNGFTKWLFFGGDGIIAENHRERQRKIIKYNHLIANCVIFYNVFQLTRILHEYIQEGNELDEEVLSDLSPYLTFHINRFGKYGLDDNRQPPDIQFDMAISPHRLNAAN				NA	NA	NA	NA	NA
AK009_09815	1185			Tn3 family transposase TnBth2	ATGCTGACTGTTCAAGAAACAGCTTATCCAAGATTAAAGAGTAATCCTACACCGAAAGAGCTAGATAAGCTATTTTCTCCTATATTAAAAGAATTAAATTGGACTAAAATGCATTCTCGTAATCCATTTTCTCAGCTAAACTTTTTAATAATGCTAAAAGTTTTTCAGTGTTTAAACTATTTTGTTCCCATTACAGATGTTCCACTTGTTATTATTAAGCATATCGCTAAAATATCTAACATTAGCCTTTCGGGTGATGAAAAATGGGATTCTTATCATCGGACAGGTACTGGGAAACGGCAAATTACTATGATTCGTAATTACCGACAAGCGAAGATATTTGATAATCAAGCTCGTCAAATTATGCTATCGGCAATGGAAAATGCAGTATTAGAAAAAGACGCAAAAAGTGATATTGTAAATGTTGCAATTGATGAATTAGTTAAACATAGTTATGAATTGCCTGCATTTCAGACATTAGTAAAATCGGTAGATCATATTCATAGTACAGCTTATCGTACTTTGTATAAGCAAGTTGCAGATTCATTAAGTAATGAAGAAAAATCAAAAGTAGATGCACTATTTCAACAGATTGATGGGGCCACTTATTCTGATTGGCATGCGATAAAACGAGACCCCGGTCGTCCTACACTAGAACAAATTAGGACATGGATTGCAAGAAAAAATTGGATTAGTGACCGACAGGTGGGAAGTAATTTTTTTCAAAACTTACATATTCCTCCTGCGAAAGTAGAACGATTAGCGGCAGAAGCAAAAACATTAGATGCAGCTCGTATGAAAGAACTTGAACCCCATAAACGATATACACTAGCTATATCTTTATTGCATGTTCAACACGCCAAAACGATTGACGATATTGGAACGATGTATATCAAACGAGTTGCAAAAGCTGAAAATAAAGCGGAAAGAGCTTTCCATATTTTAAAAGAAAAACGAGAAAAACAAACAGACGAACTCATTACTACATTACGTGATACCATCACCACTTATCAATTAGACGTTGATGTAGAAACACGATTACACTCATTGGAAACATTAATTGGTGGAAATCGCGGTCAACAGATTTTAGAGAATTGTGACGAATATTTAGCTTATACTGGAAATAACTACTTTTCTTTTATGTGGAAATATTTAAAGAGTAATCGATCTGAATTAATTAATTAA	MLTVQETAYPRLKSNPTPKELDKLFSPILKELNWTKMHSRNPFSQLNFLIMLKVFQCLNYFVPITDVPLVIIKHIAKISNISLSGDEKWDSYHRTGTGKRQITMIRNYRQAKIFDNQARQIMLSAMENAVLEKDAKSDIVNVAIDELVKHSYELPAFQTLVKSVDHIHSTAYRTLYKQVADSLSNEEKSKVDALFQQIDGATYSDWHAIKRDPGRPTLEQIRTWIARKNWISDRQVGSNFFQNLHIPPAKVERLAAEAKTLDAARMKELEPHKRYTLAISLLHVQHAKTIDDIGTMYIKRVAKAENKAERAFHILKEKREKQTDELITTLRDTITTYQLDVDVETRLHSLETLIGGNRGQQILENCDEYLAYTGNNYFSFMWKYLKSNRSELIN				NA	NA	NA	NA	NA
AK009_09816	573	bin3		Putative transposon Tn552 DNA-invertase bin3	ATGAGAAAGATAGGTTATGTACGAGTAAGTTCTGTAGATCAAAACCCAAAGAGGCAATTACAACAGATGGAAGAAATCGGAGTGGATATCATATATCAAGAAAAAGTATCAGGTGCCACCCAAGATAGACCTGAACTTCAAAATATGTTAGGTAATCTTAAAGAAGGAGACATCATTTATGTGACAGATTTAACACGAATTACTCGAAGTACAAGGGATTTATTTGAATTAGTTGATTACATAAAAAATAAACAAGCCAATTTAAAATCATTAAAAGATACTTGGTTAGACTTATCAGAAGAAAATCCATATAGTCATTTCTTAATGACAGTAATGGGAGGAGTAAATCAATTAGAAAGGGACTTAATTCGAATGCGTCAGCGTGAAGGAATTACCCTTGCTAAAAAAGAGGGGAAATATCAAGGGCGAGTAAAAAAATATCATGAGAAACATGCAGGAATGAATTATGCGATGAAGCTTTACGAAGAAGGAAATATGACAGTAAAACAAATTTGTGAAATTACAAGTGTATCTAGATCCTCTTTATATAGGAAGATACACGATTTGGGATAA	MRKIGYVRVSSVDQNPKRQLQQMEEIGVDIIYQEKVSGATQDRPELQNMLGNLKEGDIIYVTDLTRITRSTRDLFELVDYIKNKQANLKSLKDTWLDLSEENPYSHFLMTVMGGVNQLERDLIRMRQREGITLAKKEGKYQGRVKKYHEKHAGMNYAMKLYEEGNMTVKQICEITSVSRSSLYRKIHDLG				NA	NA	NA	NA	NA
AK009_09817	978			hypothetical protein	ATGAATTGTTATGATAAAGGGTTTGTTCAAGCGTTTATAGATGGGGAGCTTCCTCATGATAAAAGAAAAGAATTTACAAAGCATCTAGATACATGTGAAGTATGCCAAAATACATTACTTGAAATTAGTAAATTAAATCAATGGGAACATGTAATGTTAGAGGATGAAACTATACACTCATCACAAGATATCAACATTGATATTGATCAAGCGTGGAAAACATTTGAAAGTCGCACAAAACTAGAAAATGTTTCTTATATAAATGAAAAAACTGAACAGAAGAAGGGATTGTTTACGAATATGGATAAAAAATCAAAACGCTTTATGTATGCGGTGGTAGCTGTAGCAGGACTTTTCACAACAGCTATGATTCCACAAGTACGAGTGGCAGCGACGAATGTTGCTTCCTATTTTTCGAATGAAGTTTCAAATGATAAGGTTGTAAATGAAGGTATGCAAGATGAAAATGGTGTCACACAAGATATGATGAAAAATGGCCAATACATTCCGATTGATGAGAAAATCACAGATCAAGGTGTTACGGTACATTTCAAAGAATTATATGTGGCAGATTCACGTATATCTGTTCATTATAAAATTGAAAAAGCAGATGGAAGTTTAGTACCGTATGAATTTGATACAACGGGATTAAATCTTAAAAGTGAAGGCAAGGAAAATGGACAACAAGAGGAAAACCCAGAGTACTACGGAAAAGATGGTAGCTTCTCACAATTACCATTTATTCAAGGAGAAAATGGCTTACCATTCAAGCTAAAAGCGGCAGGGCAAGAATTAGATCATGTAGGTATTCGTGATAAAGATCGACCAGAAAGTGTCCTTACATTTGTGGAAGGTCCTGAGGGAAAAGATTCCTTTAAGCAGCCACTTACATTAGATGTAAATATAAATAAAATTGGAAAGGTATCCGGATCTTGGAAGGGACAAATTCTAATTGATTCTTCCAAGTTGCAAAAATAA	MNCYDKGFVQAFIDGELPHDKRKEFTKHLDTCEVCQNTLLEISKLNQWEHVMLEDETIHSSQDINIDIDQAWKTFESRTKLENVSYINEKTEQKKGLFTNMDKKSKRFMYAVVAVAGLFTTAMIPQVRVAATNVASYFSNEVSNDKVVNEGMQDENGVTQDMMKNGQYIPIDEKITDQGVTVHFKELYVADSRISVHYKIEKADGSLVPYEFDTTGLNLKSEGKENGQQEENPEYYGKDGSFSQLPFIQGENGLPFKLKAAGQELDHVGIRDKDRPESVLTFVEGPEGKDSFKQPLTLDVNINKIGKVSGSWKGQILIDSSKLQK				NA	NA	NA	NA	NA
AK009_09818	531			hypothetical protein	ATGTTAAAAATAAAAAAGGAAGAAAGGCCTGTCTCGGATCTGACATTTGAAGATTTATTTAAACAATACTACGTTTACGTTGTGAAACAAATTCTATGGATTGTTAAAAATCAGCCTATTGCTGAAGAATTAGCACAAGAAGTATTTTTACAGCTATATAGAAATGATTGGAAAACAATTGAAAGCTTACCTGGTTGGCTCATAAAATCTTCTACTTATGTTGCATATAAATATTTACGATCCGAAAAAAGGCATCAGGCGAGAATAGATAAAACGATACAACACCATGAGGTTCAACCTATCTCATCATTAGATGATGATTGGATTAGAAAAGAAGAGATTACAAAAGTACAAAACGTACTTAGTAATATGAATGAACGAGATCGAACCATATTGTTAATGAAATTTTCTGGTTTTCAATACAAAGAAATCGCAGACGTACTTCATATTGACATATCTTCTATTGGAACACTATTGGTCCGAGCCAAACAGAAGTTTCGTAAAATGTATAAACAAGTAGAGGAGGCATAA	MLKIKKEERPVSDLTFEDLFKQYYVYVVKQILWIVKNQPIAEELAQEVFLQLYRNDWKTIESLPGWLIKSSTYVAYKYLRSEKRHQARIDKTIQHHEVQPISSLDDDWIRKEEITKVQNVLSNMNERDRTILLMKFSGFQYKEIADVLHIDISSIGTLLVRAKQKFRKMYKQVEEA				NA	NA	NA	NA	NA
AK009_09819	291	cry4Aa		Pesticidal crystal protein Cry4Aa	TTGGTTCTATCTAATTGGAGTGCTGGCGTATCTCAAAATGTCCATCTCCAACATAATCATGGGTATGTCTTACGTGTTATTGCCAAAAAAGAAGGACCTGGAAATGGGTATGTCACGCTTATGGATTGTGAGGAGAATCAAGAAAAATTGACGTTTACGTCTTGTGAAGAAGGATATATTACGAAGACAGTAGATGTATTCCCAGATACAGATCGTGTACGAATTGAGATAGGCGAAACCGAAGGTTCGTTTTATATCGAAAGCATTGAATTAATTTGCATGAACGAGTGA	MVLSNWSAGVSQNVHLQHNHGYVLRVIAKKEGPGNGYVTLMDCEENQEKLTFTSCEEGYITKTVDVFPDTDRVRIEIGETEGSFYIESIELICMNE				NA	NA	NA	NA	NA
AK009_09820	927			hypothetical protein	ATGAGTACACATTTAAATTTTTCTCAGCAGAATTTTAAAGTCCATGGAGTTAAGTTTTTTGATGGACTTTTTAATATTATAAAACTCGAAAATGAACGCAAAGAATTACCATCCTCAGCATTAGCGACTTATATCATGCTTCACTTTGAATGCAATGATATAGGAATGCTACCACGTGAATTTCAAATAATGGATCTTGCTAAAAAAAGTGGGATTCCCTACACAACAATTTATACAGGATTTCAAGTTTGCTTGGAGCGTAAGCTCGTAAGAGAAATACCTGTTGGAAATCGTACTGTTTATGAAATTGTAGATTATGCATTATACAACCACACTGCTGCAGAAACTACAGATATGATAAATATATCGTTATCGTATTTCCGTATTCCATTTTATTTAATTCAAACAACTATACTAAGTAGCCTTGTAAAGGCTCGAGATAATAGAGGAATTATGATTCTTTTAGAATTAATCAACACATTTTCGAGAAAAATTGGTATGGAACATTATAAGCACAAGATTGAAGATTTCGAGATTACGAGAAAAATGGCTTTTCTAAAGGAAAAGTTGAATCGTAATGCAAAGAAAGTGCGACAATACATAGAGATTGTAAAGCCTATTAAATTTAATGCAGTAGATCTTAAAGATAAGAAATCAAGTGAGTCTCGTATTACACGTGTTAGAAGGCAGGTACAACAAGTTATTATTGAAAAGTTTAATGTCATTTTTTCTTCGAATTGTGTTATTGAAAATGATAAAAAAGAATTACATAGACCTATAGCGAAGTGTAGAAAAGAAGCAGTATCTCGTTTGAAACATATGGGACAAGCGTTAAGAAAAAAAGATAAAGAAAATATAATGACTGCATTTAGACAAGAAATTGTTGATATCGAAATCTATTTACCAACAAAACAAAAACAAAATTAA	MSTHLNFSQQNFKVHGVKFFDGLFNIIKLENERKELPSSALATYIMLHFECNDIGMLPREFQIMDLAKKSGIPYTTIYTGFQVCLERKLVREIPVGNRTVYEIVDYALYNHTAAETTDMINISLSYFRIPFYLIQTTILSSLVKARDNRGIMILLELINTFSRKIGMEHYKHKIEDFEITRKMAFLKEKLNRNAKKVRQYIEIVKPIKFNAVDLKDKKSSESRITRVRRQVQQVIIEKFNVIFSSNCVIENDKKELHRPIAKCRKEAVSRLKHMGQALRKKDKENIMTAFRQEIVDIEIYLPTKQKQN				NA	NA	NA	NA	NA
AK009_09821	546			hypothetical protein	ATGAGTGAGAGTAAAACAAACGAAGAACAAAATGAGTATAAAATGAAAGAAGTATCTGAACTTACTGGGCTTTCGAATGACTTATTAAGAGTTTACGAGGAAGAGTTTAATCTACAAATAAATAGAACTAATGGTGGGCATCGTCGCTACACGGAAGATGACATTAATAAGTTTATATCTATTAAGAAGAAGATCCAAGAACAAAATTGGAGCTATAAGAAAGTTCGCTCTTGGTTAAATGGTGACGAGCTACCAGTAGCATTAGAAGAACACCAGGTTAAAACAAACCTAGAGAAAAAAGTAGAATATCAAACAGAATTAATTCAAGATTTGACTGAAAAGTTGGATCAAAGTATCAAACTACAAGTGGAAATGGTAAAACAAATGCATGAGCTGAAGACCGAGAAACAAGAACTTGAGCAAATCGTGGCACGTAGAAATCAGGATCTTATAGATACTTTAATTCAAGAAAAAAGAAAAGAACGTCAAGAACGAATTGTGACAGAATCAAAAAAATCATTCTTACAAAAAATATTTGGAAAGTAA	MSESKTNEEQNEYKMKEVSELTGLSNDLLRVYEEEFNLQINRTNGGHRRYTEDDINKFISIKKKIQEQNWSYKKVRSWLNGDELPVALEEHQVKTNLEKKVEYQTELIQDLTEKLDQSIKLQVEMVKQMHELKTEKQELEQIVARRNQDLIDTLIQEKRKERQERIVTESKKSFLQKIFGK				NA	NA	NA	NA	NA
AK009_09822	315			hypothetical protein	ATGAATAGGGATCACTTTTATACGTTAAACATTGCAGAAATTGCAGAAAGAATTGGTAATGATGATTGTGCCTATCAAGTATTAATGGCATTTATCAATGAAAATGGTGAAGCGCAAATGCTGAATAAAACGGCTGTGGCAGAAATGATACAGCTAAGTAAACCGACTGTTTTTGCAACCGTAAATAGTTTTTATTGTGCAGGATATATTGATGAAACTAGGGTAGGAAGGTCTAAGATTTATACCTTATCGGATTTAGGTGTAGAAATAGTAGAGTGTTTTAAACAAAAAGCAATGGAAATGCGTAATTTATAA	MNRDHFYTLNIAEIAERIGNDDCAYQVLMAFINENGEAQMLNKTAVAEMIQLSKPTVFATVNSFYCAGYIDETRVGRSKIYTLSDLGVEIVECFKQKAMEMRNL				NA	NA	NA	NA	NA
AK009_09823	1455	cetZ		Tubulin-like protein CetZ	ATGTTATTAAACAGTAATGAACTAGAACATATCCATTCAACTAACCATAGTGTAAATGATATTAGTATACGATGGGGAGTTATTGGTGCTGGTCAAAAAGGTAATAAAGAGGCTGATTTATTCGCAGGTTACAAGTTTTCGAATGGAACTACTTGCTATCCGACATTAGCTGTTAACTTTGCAGAGTCAGATATGATGCATTTACAAAATATTATTAAAGAAGATCGTATTCATTTTGACGGTTTAAAGGGGGCTGCACGTACACCTTCTGTAGTTACTGACTTATTTGACCCTGAAACTAATCCTAATGCTAATGGATACCTTGATAAATTAGCCCAAGAGCTCGGTCGAAAGTTTACAAATGAAGAGGGAGAAGTAATTGTAGACCAATTCTTAATTTGTCTTGGAGCTGGTGGTGGCGTTGGAACAGGTTGGGGTTCACTTGTTTTACAATTAATTCGTGAACAGTTTTTCCCTTGTCCAGTATCTATGCTTATTTCTTTACCATCCGGTGATCCTGATGAAATTAACAATGCACTTGTATTACTAAGTGAAATTGATGAATTTATGAGAGAGCAAGACAGATTATTTGGAAATTCTGATATAAAGCCTTTAGCAAATGTAATTGTTAATGATAATACGCAAATGCAACGTATAATTGAGTCACAAAAAGGCACGAAAGATCTGAAAAACAGATATGTAAACTGGAAAGAAGTTGCGAACGATAATGTAGTGAGTACTTTACATGAAATAAACATAATCCCAGAGAACTATGGTTCTGATAACGTTACATATGACCCATCGGATTTAATAAAACTATTAAGTATTCCAGGACGTTTCTTAACAATTGGAAAAGCGAGAATTGCTAAATTCGATTTACATTCACTTGAAAATAGTATTAAACGAAGCTTAGATGAGGGATTCTTCTCAGCGGAACATCAATTTGAAACAGCAACAATGTATGGTGGTTTCGTTTTAAGACCTTCTAACGCAGACTTCTTCAAAGATGTTAATACGGAAAATAGAATTCGTAATACCTTAGGAGAGTATAAACGATTAGATGAAATCGCTGGTAAATTTGGAGATCCAATTTGGGATAATGAATATGCGGTTTGCTACACTATATTTGCTGGTATGACAATGCCTAAACGCTATATATCTCTTGCGCGAGAAGGAAAAGAGTTGGCTGAAAAACAAGAGCAATTAAGAGCAGAAGCTCAACGTAAACAGGACGAAGAAAAAGTAGATATTTCTTTTGCAACAAATCGTGTTCAAAAAAACACATTCAATCCTTATAATAAAAACCAAGGATTTGGCGGGGCATCAAGATTCAGTGGTGGTAAAAACTCTGCATTTAAACGTCAGACTAGTGAAGCTACTTCAACACAAAATCAACAAGAAGAAGAGAATATTATTAGCACTCTTAAAACTTCAAATCCATTTAAAAAACGTTAA	MLLNSNELEHIHSTNHSVNDISIRWGVIGAGQKGNKEADLFAGYKFSNGTTCYPTLAVNFAESDMMHLQNIIKEDRIHFDGLKGAARTPSVVTDLFDPETNPNANGYLDKLAQELGRKFTNEEGEVIVDQFLICLGAGGGVGTGWGSLVLQLIREQFFPCPVSMLISLPSGDPDEINNALVLLSEIDEFMREQDRLFGNSDIKPLANVIVNDNTQMQRIIESQKGTKDLKNRYVNWKEVANDNVVSTLHEINIIPENYGSDNVTYDPSDLIKLLSIPGRFLTIGKARIAKFDLHSLENSIKRSLDEGFFSAEHQFETATMYGGFVLRPSNADFFKDVNTENRIRNTLGEYKRLDEIAGKFGDPIWDNEYAVCYTIFAGMTMPKRYISLAREGKELAEKQEQLRAEAQRKQDEEKVDISFATNRVQKNTFNPYNKNQGFGGASRFSGGKNSAFKRQTSEATSTQNQQEEENIISTLKTSNPFKKR				NA	NA	NA	NA	NA
AK009_09824	681			hypothetical protein	GTGGACGATCAGGGTGATGATGGAGACGACAATGACCGTCGGGACGAAGACCGAGGAAATCTTATCCACCAGGCGCTGGACCGGGGCTTTTTTCGCCTGGGCCTCAGTGACCAGCTTGGCCATCTGGGACAGCGTGGTCTCCGAACCTGTGCGGGTGACTTCGACCAGCAGTCGACCGGAGGTGTTGATCGTCGCGCCTGTGACCGGGGTGCCGGGGGCGGCCTCGACGGGAACGGACTCGCCGGTCAGCATCGACTCGTCGATGGCCGAGGTGCCCTCGATGACACGACCGTCGGTGGCGATCTTCTCACCCGGGCGGACGACGAAGACGTCACCGACTGTCAGCTGGGAGACCGGGACGCGGACTTCCTCACCGTCGCGGATCACCGCGGCGTCTTTCGCACCCATGTCCAGCAGGGACTTCAGCGCCGCGGAGGACTGGCCCTTGGCGCGGACCTCAAACCACCGGCCGAGCAACAGGAAGGTGATGACTACGGCGATGGTCTCGAGGTAGATGTGGTCCATGCCGTCACGGCGGGGCAGCAGGCTCATCTCCATGACCATGCCGGGGTGCCCGGCGTTGCCGAAAAACAAGGCCCACAGCGACCACAGATACGCAGCGGTAGTGCCCAGAGACACGAGCGTGTCCATCGTGGTCGAGCCGTGACGCAGGTTGGTTAA	MDDQGDDGDDNDRRDEDRGNLIHQALDRGFFRLGLSDQLGHLGQRGLRTCAGDFDQQSTGGVDRRACDRGAGGGLDGNGLAGQHRLVDGRGALDDTTVGGDLLTRADDEDVTDCQLGDRDADFLTVADHRGVFRTHVQQGLQRRGGLALGADLKPPAEQQEGDDYGDGLEVDVVHAVTAGQQAHLHDHAGVPGVAEKQGPQRPQIRSGSAQRHERVHRGRAVTQVG				NA	NA	NA	NA	NA
AK009_09825	405			hypothetical protein	GTGGAACGGGGCGCCACCGTAGAAGTAGATCAGGGTGGACATGACGAGCAGGGCCCACTGCCAATTCATGAACTGCAGGGACGGGATCATCGAGATCGCGACCACCGGAACGGAGAGGATCGTCGACCCGATCAGACGCGACTTCAGGTCTGTCGCCTCGGCCTCGCGGGCCTGGTCGTGGCGGTCACCGACCACCTCGGTGTCCTCCTCCGGGCCGCTGTCCACGGCGGAGGCGTGTTGATCCCCCATGGTGAACGCGTCGTACCCGGCACCCCGCACGGTTTCGATCAGCCGATCGGCGTCGACTTTGGTGGGGTCGTAACTGACGGAGGCGGATTCGGTGGCGAAGTTGACGGTGGCCTCCACGCCATCGAGCTTGTTGAGCTTGCGCTCCACCCGCCCTGA	MERGATVEVDQGGHDEQGPLPIHELQGRDHRDRDHRNGEDRRPDQTRLQVCRLGLAGLVVAVTDHLGVLLRAAVHGGGVLIPHGERVVPGTPHGFDQPIGVDFGGVVTDGGGFGGEVDGGLHAIELVELALHPP				NA	NA	NA	NA	NA
AK009_09826	270			hypothetical protein	GTGTCTACCCGAGGCGGGGACCGGGCCCAGGGATTAGGGCTTGACGGTGTAGCCGGCTGTCGTGACAGCGGCGACAACATCGTCGTCGGTGAAGTTTTCACCCGTGACGGTCACCTGCCCGGTATCCACGGTGGCCTCCACCATGGTCACACCGGCGACCTCGCCGATCTCCTCCTCCACGGAGGACTTGCAGTGTCCGCAGGTCATGCCTTCGATGATGTACTTCTTTGTTACGGCGCTCATCAGATGATCCTTTCCTTGATGTCCTGA	MSTRGGDRAQGLGLDGVAGCRDSGDNIVVGEVFTRDGHLPGIHGGLHHGHTGDLADLLLHGGLAVSAGHAFDDVLLCYGAHQMILSLMS				NA	NA	NA	NA	NA
AK009_09827	396			hypothetical protein	GTGCCCCAGCAACCTTCAACCTATACCCTTGGGGGGTATCAGTCAAGGAGGTGCCTGCCCCTAAGCGTCCCGTTCGGCGGGCAGGACTTCCGGAACGGCCGCGATCGTTGCTGCACTTCTTGTACAAAATGTGCGTTAAAGGGTATGGGCATCACGGTCACCCTCAGTCAGTTCCGCAGCGAACAAAGCCACTATCTTGATGCCGCCCAACGTGAACCGGTCACCATCCTCAGTTGCGGGCCCCGCCGCCGGGCGGTGATGGTCTCCCCGGACTTCTACGACCGGGCGGTTCAGGCGCTGGAGGATGGCGAGGATATCCGTGCCGCAGCGGCTGCCCGCCAGGAGGCGGGCGGTGTCTCCCACGAGGAGTTCACGTCCGACCTCGAACTGGACTGA	MPQQPSTYTLGGYQSRRCLPLSVPFGGQDFRNGRDRCCTSCTKCALKGMGITVTLSQFRSEQSHYLDAAQREPVTILSCGPRRRAVMVSPDFYDRAVQALEDGEDIRAAAAARQEAGGVSHEEFTSDLELD				NA	NA	NA	NA	NA
AK009_09828	345			hypothetical protein	GTGGGCGCTCGTTCCCCTGGCGGTGGCCTCGCTGGTGACCGGAGTCCTTCAATCCCTGGGGACGACGTGGGGATTGTTCCGACACTACTGGGTGGTGTTCAAGCTGGGGCTCACTGTGGTGGCGACAGGTGTGTTGGTGCTGTACATGCAGACCTTCGAGTATCTTGCCCGGGTGGCGGCAGACCCGGGCGTGGGGCTGGAGGCCGTGCGGAATTTCTCCCCGGTCCTCCACTCCGTGGCAGCAGCCTTGGTATTGCTGGTGGCTACGGTGCTGGCGGTGTACAAGCCACGGGGTCTGACCCGATACGGGCAACGAAAAAAGGCCCCGCTAGCAGCCTGATGTAG	MGARSPGGGLAGDRSPSIPGDDVGIVPTLLGGVQAGAHCGGDRCVGAVHADLRVSCPGGGRPGRGAGGRAEFLPGPPLRGSSLGIAGGYGAGGVQATGSDPIRATKKGPASSLM				NA	NA	NA	NA	NA
AK009_09829	198			hypothetical protein	ATGGGCCCAGTCGCCATGGGTTGGGGATGCCGGCCGAGGGGGCGTTCCTGGTCCAGGAGCACCTCTAATGGCGAGAGTGATGACCCCACGAATACGCAAGGCCGCGCTGGTGGCACATGTGGTCTGCTCGGTCGGCTGGCTCGGGATGGTGCTCGCCTTTATCGCGATGGCGGTCATGGGGATAGTGAGCGCGGATGA	MGPVAMGWGCRPRGRSWSRSTSNGESDDPTNTQGRAGGTCGLLGRLARDGARLYRDGGHGDSERG				NA	NA	NA	NA	NA
AK009_09830	474			hypothetical protein	ATGACCGTAGACGGCAATCGAGCCATCATCGTACTGGATGCGGATCCACTGCCCGAAACCGGAGGCCGGGCCGGAGTCGATGACAGTGCCGCCCATCGCCGCGAGGATCGGGGTACCCACGACGCTGGCGATGTCGATACCCGCGTGGAGGGTTCCCCAGCGCACGCCGGAACCGGAGGTGACGGTGCCTTCAGCGGGCTTGACCGCCGAGGGCGCGCGGGCAGCGCGCTCGTTCTGGGCCCGCTCGGCGTTGTACTGGATGGCCTTGTCCAGCTGCTCGTCGATGTTGGCGACCGGCTTGAATTCGGAGATCGCGAGAATCTGCGGTGCGGCCTGCGTCCCACTCGAGGACAGGGCCGTGTCGTTGGTGACCAAATCCACCTCGACGGTGGCAGCCTCCGGGGAGTCCGGAGCCTCGACCTCGGCCGGGGCTTGCAAGGTGGCGGCCGTGGCGCCACCGACGCCGGCGGATGA	MTVDGNRAIIVLDADPLPETGGRAGVDDSAAHRREDRGTHDAGDVDTRVEGSPAHAGTGGDGAFSGLDRRGRAGSALVLGPLGVVLDGLVQLLVDVGDRLEFGDRENLRCGLRPTRGQGRVVGDQIHLDGGSLRGVRSLDLGRGLQGGGRGATDAGG				NA	NA	NA	NA	NA
AK009_09831	1566	lnt	COG0815	Apolipoprotein N-acyltransferase	GTGAAGGCTAGTACTGCAGCAGACGTTACAGTCTCACGTCTTTCCCGGGGGATAGCGGGCGATAACTGGCGCAGATTGGCCGGTCCCACCGCGCTCATGATGGGAGCTGCGGTGGTCTGGTGGCTGGCGCTGCCGCCACGCGGTTGGTGGGTGCTGTTCCCGGTGGGCGTGACTATGTTCATGCTGGCTTTGGCAGGTCAACCACTACGTAACCGTTTGTGGCTCGGTGGGTTGGGCGGGGTGGCGCACTACGCTCTTGCTCTGCGCTGGCTCACCGACTTCAACACTGCCGGATACGCTGCTGTTGTTGCCGTTCAGGCGCTATTGTTAATGCTGGTTGCCGCGGTATCGCCTAGCGAGGCGGCTTTTCGCAGCCGCTGGTCGGGCTGGTGGCTGCTCACCCCTGCTGCCCTGGTGTTATTGGAGGCTGTGCAGCACCGGTTCCCGTTCGGCGGTTTCCCGCTGTCCGCTTTCGGATACAGCCAGACCGATGGTCCTTTCATGGCGGCAGCGCCCCTGGGTGGGACTCTCCTGGTGACCGCGTTGGCCGCAGTTGCGGGGGCCGTTGTTACCGCTGTCATCTTCGGGCCGAGACGAGCCCGTGCAGCATCCGTGGTCGCAGTGGTCGTGGTACTCGCGGTACCGGCGTTCGCGCCAACGATCGTAGATGATACGGCAGAAGGCAGCCTTGACGTCGTGCTCGTGCAGGGTGGAGGCCCCCGCGGGCTTCGCGCGGTCAATACCGATCCGTTTGATACGACCCGCCGGCACCTACAGGCTGCCGAAGATATCACCGGGGACCCTGATCTGGTTCTGCTGCCCGAAAACGTCGTCAATATCGACGGCTCAATCGACGGGACGCGCGTTGATGCAGCTTTCGCTGAACTGGCCAGGCAACTCGACACGAACATCGTCGTCGGAATTACCGAATCCGAGGATCAACATTTCCGGAACGCATCCATAGTGTGGGGACCGGACGGGACCCGGTTAGGACGCTATGAGAAGCATCATCGTGTGCCGTTCGGCGAGTACATCCCTATGCGCAATCTGATTGAACGACTCAGCGAGGACGCACGGTTCATTCCCCGCGACGCCATTGCCGGAGAGGGACCGGCGGTGCTCGATCCCAGCGGGACACCACGATTGGGGATCGTCATTTCTTATGAGGTCTTCTTCGCCGACCGGGTCGCCGATGCCGTTCGCAATGGTGGGCAGCTACTCCTCGCACCGACCAACGCCGCGTCTTTTGTGACCGAGGAAGTACCTGCAATTGAAGTGGCCGCATCCCGGATGCGTGCCCGCGAGTTTGGCCGCACCGTTCTCCAGGCTGCCCCCACCGGATACTCCGCAGTTATCCAGCCCGACGGCACAGTCTCACAACTCAGTGGCCTGGGCACGAACGAACTGCTGACGGCAACCGTTCCCCTTCATACTGGTTTGACGCCGTATGCGCGCATGGGGGATACGCCCCTGTTGGTTCTCGCGATGCTGGCTCTTGCATGGCCTGCGGTTACCGGCCTCGTCAGCTGGCGCAGGAGAAGGCAGGTTACGGAAATATCCCACTAA	MKASTAADVTVSRLSRGIAGDNWRRLAGPTALMMGAAVVWWLALPPRGWWVLFPVGVTMFMLALAGQPLRNRLWLGGLGGVAHYALALRWLTDFNTAGYAAVVAVQALLLMLVAAVSPSEAAFRSRWSGWWLLTPAALVLLEAVQHRFPFGGFPLSAFGYSQTDGPFMAAAPLGGTLLVTALAAVAGAVVTAVIFGPRRARAASVVAVVVVLAVPAFAPTIVDDTAEGSLDVVLVQGGGPRGLRAVNTDPFDTTRRHLQAAEDITGDPDLVLLPENVVNIDGSIDGTRVDAAFAELARQLDTNIVVGITESEDQHFRNASIVWGPDGTRLGRYEKHHRVPFGEYIPMRNLIERLSEDARFIPRDAIAGEGPAVLDPSGTPRLGIVISYEVFFADRVADAVRNGGQLLLAPTNAASFVTEEVPAIEVAASRMRAREFGRTVLQAAPTGYSAVIQPDGTVSQLSGLGTNELLTATVPLHTGLTPYARMGDTPLLVLAMLALAWPAVTGLVSWRRRRQVTEISH	PGPT0024470_2359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
AK009_09832	960			Pesticidal crystal protein Cry15Aa	ATGACAATTACAAATATCGAATTAGCTATACGAGATTATACAAATTGGGATGGTACTCGTGAAATTCCGGGATACATCAATCGTCAGGTTATAGATGGGCCAAATATATATGACTATGTAATTAGTGACTCTGTAGCTGTTCCAAAAACTGTAATTTTCAATGTAAATCCAACTCCATATACCGGGCCTAATATAATATCAGAAAATAATACAGATGTAAATCAAAATAAACGTATTAAGTTTTCTGAAAAAGTAGTTGAAACTACTACACATACTACTACAAAGGGTTTTAAAATTGGCGGTGGAATTAAATCTACTACAAAAGGAACTTTAAAATTAAAATTTCCTGTAGGAGAACTAGGGTTTGAGCAAACTCTTGAGCTACCTCTTACAGGAGAATACAATAGTAGTTCCACTACGGGGAACACTTGTGCAAATGAAAAATTATGGGAAATAACAGATAATATAACTGTACCTCCACATTCACGTGTAACTTCAACTTTAATAATTATGAAAACGGAAGTAAGGGTTCCAATGGAATTAACCACTAATCTTAGAGGAACTAATTCTAGTGGTGAAGGCTCGTTCCCTACTAGTAATGGTCTTTTTTCATATACTACTTCAGCTCGTGGAACTGTAGGCGGTATTTTTGTTAGTTATTACGTGAGGCCTGCTTCTGCATTGTATAATACCTCTTGGCCTGATAAACCTGCAACTTTTAATTCTATTGGCTCAAATGAATCTCTAAATTTATTGGGATCTGGATATTCTGACGTAGTTCCATCTCTATATGTTACTATTAGACAAGATCAAACTCCATTATCAGGATATCCAGGTGAAACGAAAACCTGGTATTCAGATAAAGTGATATTAAGAGATGGAAGAATTGTAACACTACCAAGCAATGCTGATGTAAATATGTCACAAACAGCCAAAATTCCATATTGTGATAGATCTTAA	MTITNIELAIRDYTNWDGTREIPGYINRQVIDGPNIYDYVISDSVAVPKTVIFNVNPTPYTGPNIISENNTDVNQNKRIKFSEKVVETTTHTTTKGFKIGGGIKSTTKGTLKLKFPVGELGFEQTLELPLTGEYNSSSTTGNTCANEKLWEITDNITVPPHSRVTSTLIIMKTEVRVPMELTTNLRGTNSSGEGSFPTSNGLFSYTTSARGTVGGIFVSYYVRPASALYNTSWPDKPATFNSIGSNESLNLLGSGYSDVVPSLYVTIRQDQTPLSGYPGETKTWYSDKVILRDGRIVTLPSNADVNMSQTAKIPYCDRS				NA	NA	NA	NA	NA
AK009_09833	912			hypothetical protein	ATGGAAATTACAGATATTGTATTAAAAATATATGATTTTATCGAGTGGGATTACGTAACTAATCAAGATGGAATACCTTATACTCTTTTTGATAAAGCCATCTATGAATATGAACTTAATGATACGGTTACTATTCCAGAAACTAAAGTTTTTCAAACTACTCCGATTCCAATTGCTTCCGCCCTAACTATAACTGAAAATAGGTCATCACAAACACAGCTTCACACTATAAAATTTTCCGAAAAAAAAATGGAATCGGTCACCAACACTACTGTTCATGGTTTTAAAATTGGTGGTGCAATTAAAGTTGGTGCAAAAGGTACAGTAACTGCAAATTTTTTAGTATCAGGCGGAACAGCGGAAGCGAATGTTGAACTTTCTTTAACAGGAGAATATAATTATAGTTCGACTACAGCAAATGTCAATCAAACAGAAAAAACATGGGAAATAACAGAAAACGTAAGTGTTGCCTCACATACTAGTTTAACGAGCCAACTTATAATTATGCAAGCAGACATCAGAGTTCCTATGATATTAAACTCTAATCTTATAGGAAAGCGATATTATGATGACTATGCCAATATGTTTTTTTCGTATATTTTCCAAAGTAAAACAAGCGGTCGAACAGAAATGATTTCTCCAGCTAGTAGATTAGCTAATCAATCATGGCCTGGAAAACCTATAGTTTTTAAATCTGGAGGTTCAAATGGATCTCTGAATTTAAGTGGATTCGGATATTCTGATTTATATAAAGGTCTATATGCATTTATTAGATACACTGAAACCCCATTAGATAGATATTCATCACCTGGTAAAACATGGGATTCGAATTTGATACATTTAAGAGATGGACAGATTTTGAATGTATATGATAATAGAGGTATTGTAAAACCTGTGAGGCTAGTTGAGTAA	MEITDIVLKIYDFIEWDYVTNQDGIPYTLFDKAIYEYELNDTVTIPETKVFQTTPIPIASALTITENRSSQTQLHTIKFSEKKMESVTNTTVHGFKIGGAIKVGAKGTVTANFLVSGGTAEANVELSLTGEYNYSSTTANVNQTEKTWEITENVSVASHTSLTSQLIIMQADIRVPMILNSNLIGKRYYDDYANMFFSYIFQSKTSGRTEMISPASRLANQSWPGKPIVFKSGGSNGSLNLSGFGYSDLYKGLYAFIRYTETPLDRYSSPGKTWDSNLIHLRDGQILNVYDNRGIVKPVRLVE				NA	NA	NA	NA	NA
AK009_09834	3018			Tn3 family transposase TnBth1	ATGCCTGTAGATTTTTTAACACCTGAACAAGAAGAAAAATATGGTTGTTTTTGTGACACTCCAACATCAGAGCAGTTAGCAAAATATTTTTGGTTAGATGATACAGACAAAGAACTGATATGGAATCGTCGTGGAGAGCATAATCAACTTGGTTTCGCTGTTCAATTAGGAACCGTTAGGTTCTTAGGAACATTTTTATCTGATCCTACAAATGTACCACAATCGGTTATTACATATATGGCAAATCAACTTCATCTAGATGCTCAAAGCTTTTCTCGTTATCGAAATAAACGAAGTCAGTGGGATCAAATGCAAGAGATACGTTCTGTTTATGGATATAAAAACTTTACAGATAAATCAACACATTGGCGATTCATCAGATGGCTATATGCACGTGCTTGGCTATATAATGAACGACCAAGTGTCTTATTTGATTTAGCAACAGCACGATGTATCGAACAAAAAATTTTACTACCTGGTGTATCTGTATTAACAAGGCTAGTATCAACGGTTCGTGATCGTTCAGCAGAAAATATATGGAAAAAGCTCTCTAGTCTTCCGGATAATGTTCAGAAAAAACAATTAGAAAATCTTCTTCAGATAGATCAAAAAACAAAGAAAACGTATTTAGAGCGTCTAAGTAATCCCCCTGTTACGATTAGTGTTACGGGCATTAAGAATACGCTGATTCGTTTACAAGAGCTTCGTCAATTGAACACTGAAAATTGGGATATGTCTAGAATTCCTTCGAAAAGATTACAACAATTCGCTCGTCACACAGTCGCTGTTAGAGCACAAGCAATTGCTAGAATGCCCGATCAACGACGTATGGCTATGTTAGTTGCATTTGCTAAAATGTATACACAAAGTGCTCAGGATGATGTCATTGATATTTTTGATAGATATTTAACAGATTTATTTGCTAAGACATATCGAAAGGAACAAAAAGAACGTCTTCGTACAATTAAGGATTTAGATAAGGCAGCGCGCCAATTACGGGAAGCTTGTGTAATATTATTAGAACATACGGATCCTTCTATCCATCCAAAAACGGCAGTGTTTGAAAAAATCTCAGAAAAGGATTTGATACAAGCTGTCCAAATTGTTGATTCACTCACCTATTCACCAAATCAAACACTAGCCTATTCAGGATTGTTACAACATTATGGCACAATCCGAAAATTTCTTCCTTTACTCATGGAAGAAATTGAATTACAAGCAACGCCTGCTGGATTACCCATCTTGCAAGCATGGAATTTTGTAAAAGAGCATGGGAAATCCAATAAGAAAAGATGGAAAAATGCTCCTCTTGCCGGTTTGAATGCAAATTGGTCTAAGGTTGTAATTGATAAAGATTCCGGAACTGTAAATCATCGAGCATATACGTTTTGGATGCTCGAACAAGTATTAGAAGCTTTGCACCGACACGATCTATATATAGTAGGAAGTGAAAAATATGGGGACCTTCGCGCACAATTATTACAAGGCGAAGAATGGAAAAGTATTCGCCCTAGTATTCTTCGCTCATTAGACTGGTCAATAGATTCTTATGAATCATTGACACCGTTAAAAGAAGAGTTAGAGAAAACTTATCATCAAGTCATTGAGAATTGGGAGAATAATCCTGCGGTGCAAATAGACACATTTGCAGGTAAAGAGAGAATTGTTTTGACACCTTTAGACAAACAACCAGAACCTGAATCACTACAAAAACTAAAACAACAAATACATACGATGTTGCCAAATATAGATATTCCTCAATTATTACTCGAAGTAAATCGTTGGACGGGATTTATGGATGGTTTTCGACATATTAGTGAGGCTAAATCCAGAATTAACGAGTTACCTATAAGTATCTGTGCATTGCTTATATCTCAAGCATGCAATATCGGGTTAAGACCTTTAGTTCAAGATGGGGTTCCTTCATTAGAACGTGATCGTCTTACATGGATTGAACAAAATTATTTTCGTGCAGAAACACTTTCAGAATCAAACGCGAAACTTGTAGATTTTCATAGTCAATTACAGCTGGCTAAAATGTGGGGTGGTGGAGAAATTGCTTCAGCTGATGGATTACGTTTCATCACACCAGTAAAATCCGTACACACTGGTCCAAATCCTAAATATTTCGGTTCTGGTCGTGGTGTTACGTATTACAACTATACGAGCGATCAATTTACCGGACTCCACGGTTTGGTGATTCCAGGCACAATTCGTGATTCATTATACTTACTTCAATGTGTGTTAGAACAAAATACGAACTTACAGCCAAAAGAAATTATGACAGATACAGCTGGGTATAGTGATATTATTTTTGGGCTCTTTGGATTATTAGGATATCAATTTAGTCCTCGTTTAGCTGATATCAGTGAATCACGTCTTTGGCGTTTTGATGCGAACTCAGATTATAGCATGTTAAATAATTTGTCTAAAAGTCGCATTCGTGAAGAACTCATACATCGTCATTGGGAAGACATGCTTCGTGTTGCGGGATCTTTGAAACTAAATAAAATAAATGCAACACATCTTATCCAAGCACTTCAGTATAATGGGAAACCAACTATGTTAGGGCGAGCAATTGGAGAATTGGGGAGACTCTTTAAAACACGTTATTTACTCTTATATTTACATGATGAAAATTATCGTCGTAAAATTTTAAATCAACTCAATAGAGGGGAAGCAAGGCATAGTTTAGCGAGGGCTGTATTTTACGGCAAACGTGGAGAACTTCATCAATCCTATCGAGAAGGACAAGAAGAGCAATTAGGCGCATTAGGTTTAGTAGTAAATGCAATTATTGTATGGAATACACGATATATAGAATCTGCATTACAAGTACTCCGAAATCGCGGTCATACAATTGATAATGATGATATATCTAGACTTTCACCATTAGGCCATAAACACATTAACATAGTAGGTCGGTATTCATTTGTTCTCCCAGAAGAAGTAAAAGATGGGCAATTGCGTACACTAACATATGAAGAAACAAACAAAAAGGAACCTGATTCTTTATAA	MPVDFLTPEQEEKYGCFCDTPTSEQLAKYFWLDDTDKELIWNRRGEHNQLGFAVQLGTVRFLGTFLSDPTNVPQSVITYMANQLHLDAQSFSRYRNKRSQWDQMQEIRSVYGYKNFTDKSTHWRFIRWLYARAWLYNERPSVLFDLATARCIEQKILLPGVSVLTRLVSTVRDRSAENIWKKLSSLPDNVQKKQLENLLQIDQKTKKTYLERLSNPPVTISVTGIKNTLIRLQELRQLNTENWDMSRIPSKRLQQFARHTVAVRAQAIARMPDQRRMAMLVAFAKMYTQSAQDDVIDIFDRYLTDLFAKTYRKEQKERLRTIKDLDKAARQLREACVILLEHTDPSIHPKTAVFEKISEKDLIQAVQIVDSLTYSPNQTLAYSGLLQHYGTIRKFLPLLMEEIELQATPAGLPILQAWNFVKEHGKSNKKRWKNAPLAGLNANWSKVVIDKDSGTVNHRAYTFWMLEQVLEALHRHDLYIVGSEKYGDLRAQLLQGEEWKSIRPSILRSLDWSIDSYESLTPLKEELEKTYHQVIENWENNPAVQIDTFAGKERIVLTPLDKQPEPESLQKLKQQIHTMLPNIDIPQLLLEVNRWTGFMDGFRHISEAKSRINELPISICALLISQACNIGLRPLVQDGVPSLERDRLTWIEQNYFRAETLSESNAKLVDFHSQLQLAKMWGGGEIASADGLRFITPVKSVHTGPNPKYFGSGRGVTYYNYTSDQFTGLHGLVIPGTIRDSLYLLQCVLEQNTNLQPKEIMTDTAGYSDIIFGLFGLLGYQFSPRLADISESRLWRFDANSDYSMLNNLSKSRIREELIHRHWEDMLRVAGSLKLNKINATHLIQALQYNGKPTMLGRAIGELGRLFKTRYLLLYLHDENYRRKILNQLNRGEARHSLARAVFYGKRGELHQSYREGQEEQLGALGLVVNAIIVWNTRYIESALQVLRNRGHTIDNDDISRLSPLGHKHINIVGRYSFVLPEEVKDGQLRTLTYEETNKKEPDSL				NA	NA	NA	NA	NA
AK009_09835	246			hypothetical protein	TTGCGTGATTTGGTTCCATTGCTACACATACCCCATATTCTTCAGAAGTATATTAGACTTGCAAAGTTAGAAGGATTTAGTGCCCATGATTTAAGGCATCGCTTTGGTTATGTGATGGCTGAACGCACACCATTACATCGTCTTGCACAAATTATGGGACACGATAACTTGAATACCACGATGATTTATGTAAGAGCTACACAAGAAGATTTACAGGGAGAAGTAGAAAAGATTGCCTGGAACTAA	MRDLVPLLHIPHILQKYIRLAKLEGFSAHDLRHRFGYVMAERTPLHRLAQIMGHDNLNTTMIYVRATQEDLQGEVEKIAWN	PGPT0022000_4701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK009_09836	339			IS6 family transposase ISBth20	ATGAAAAGATTGGTCAAACATTTTGGAGAACCATCGGTTCTTACGACAGACAAGGCCCCAGCTTTACTTTGTGCATTCAAAAAATTACAGAAAGCTGAGTATTATGTACATACCAATCACTGTACCATTAAATATCGTAATAATCTTATTGAACAAGATCATCGACATATCAAACGTCGGTTTGTGAAATCAGCTGGATTTCAAACTCCTCGTCATGCTTCTCGTACCATAAAAGGAATCGAAACGATTCAGGCTATATATAAACAGAGGCGAAATTTCCAAACAAATCTTGCCTTTTCAGTGTACAATGAATTACAACAATCAATGGCCACTGCATAA	MKRLVKHFGEPSVLTTDKAPALLCAFKKLQKAEYYVHTNHCTIKYRNNLIEQDHRHIKRRFVKSAGFQTPRHASRTIKGIETIQAIYKQRRNFQTNLAFSVYNELQQSMATA	PGPT0030690_666	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_09837	315			IS6 family transposase ISBth20	ATGAGATATTTTAAAGGAAAACAGTTCAAGAAAGACATTATTTTAGTAGCCATTGGCTATTACTGTCGTTTTTCTTTAAGCTATCGTGATGTATCTGAGATTTTTCAGGAACGTGGTGTGTCAGATCATCCCACAACGATCATGCGTTGGGTTCATGAATATGGCCAGCTAATCTATCGAATATGGAAGAAAAAAAACAAATCGGCACTCCATACTTGGCATTTAGATGAGACGTATATCAAAGTCAAAGGAGAATGGTGTTATTTATACCGCGCGATTGATAGTGATGGACATACACTGGACTTTCAAGTTTGA	MRYFKGKQFKKDIILVAIGYYCRFSLSYRDVSEIFQERGVSDHPTTIMRWVHEYGQLIYRIWKKKNKSALHTWHLDETYIKVKGEWCYLYRAIDSDGHTLDFQV	PGPT0030690_959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_09838	2028			Pesticidal crystal protein Cry10Aa	ATGAATCCATATCAAAATAAGAATGAATATGAAATATTCAATGCTCCATCCAATGGTTTTAGCAAGTCTAATAACTATTCTAGATATCCATTAGCAAATAAGCCAAATCAACCACTGAAAAACACGAATTACAAAGATTGGCTCAATGTGTGTCAAGATAATCAACAATATGGCAATAATGCGGGGAATTTTGCTAGTTCTGAAACTATTGTTGGAGTTAGTGCAGGTATTATTGTAGTAGGAACTATGTTAGGAGCTTTTGCTGCCCCTGTCTTAGCTGCAGGTATAATATCTTTTGGGACTTTGTTGCCGATCTTTTGGCAAGGATCTGACCCTGCAAATGTTTGGCAGGATTTGTTAAACATCGGAGGAAGGCCTATACAAGAAATAGATAAAAACATAATTAATGTACTAACTTCTATCGTAACACCTATAAAAAATCAACTTGATAAATATCAAGAATTTTTCGATAAATGGGAGCCAGCACGTACACACGCTAATGCTAAAGCAGTACATGATCTCTTTACTACCTTAGAACCTATAATAGATAAAGATTTAGATATGTTAAAAAATAATGCTAGCTATCGAATACCAACACTCCCTGCATATGCACAAATAGCTACTTGGCACTTGAATTTATTAAAACATGCTGCTACCTATTACAATATATGGCTGCAAAATCAAGGTATAAATCCAAGTACTTTCAATTCATCTAATTACTATCAGGGCTATTTAAAACGTAAAATACAAGAATATACTGACTATTGTATACAAACGTACAATGCAGGACTAACTATGATTAGAACTAATACTAACGCAACATGGAATATGTATAATACTTACCGTTTAGAAATGACTCTAACTGTGTTAGATCTTATTGCTATTTTTCCAAATTATGACCCAGAAAAATATCCAATAGGAGTTAAATCTGAACTTATCAGAGAAGTTTATACGAATGTTAATTCAGATACATTTAGAACCATAACAGAACTAGAAAATGGATTAACTAGAAATCCTACATTATTTACTTGGATAAACCAAGGGCGTTTTTACACAAGAAATTCTCGAGACATTCTTGATCCTTATGATATTTTTTCTTTTACAGGTAACCAGATGGCCTTTACACATACTAATGATGATCGCAACATAATCTGGGGAGCGGTTCATGGAAATATTATTTCTCAAGACACATCCAAAGTATTTCCTTTTTATAGAAACAAACCTATTGATAAGGTCGAAATTGTCAGACATAGAGAGTACTCAGATATAATATATGAAATGATATTTTTTTCGAATAGCAGTGAAGTATTTCGATATTCATCCAATTCAACAATAGAAAATAATTATAAAAGAACTGATTCTTATATGATTCCAAAACAAACATGGAAAAATAAAGAATATGGTCATACTCTATCGTATATAAAAACTGATAATTATATATTTTCAGTAGTTAGAGAAAGAAGAAGAGTTGCATTTAGTTGGACACATACTAGTGTTGATTTCCAAAATACAATAGATTTAGATAACATCACCCAAATCCACGCTCTAAAAGCTTTGAAGGTAAGTTCTGATTCGAAAATTGTGAAAGGTCCTGGTCACACAGGTGGAGACTTGGTAATTCTTAAAGATAGTATGGATTTTAGAGTTAGATTTTTAAAAAATGTTTCTCGACAATATCAAGTACGTATTCGTTATGCTACTAATGCTCCAAAGACAACAGTATTCTTAACCGGAATAGATACTATAAGTGTGGAGCTCCCTAGTACCACTTCCCGCCAAAACCCAAATGCTACAGATTTAACATATGCAGATTTTGGATATGTAACATTTCCAAGAACAGTTCCAAATAAAACATTTGAAGGAGAAGACACTTTATTAATGACCTTATATGGTACACCAAATCATTCATATAATATATATATTGACAAAATCGAATTTATTCCAATCACTCAATCTGTATTAGATTATACAGAGAAGCAAAATATAGAAAAAACACAGAAAATAGTGAATGATTTATTTGTTAATTAA	MNPYQNKNEYEIFNAPSNGFSKSNNYSRYPLANKPNQPLKNTNYKDWLNVCQDNQQYGNNAGNFASSETIVGVSAGIIVVGTMLGAFAAPVLAAGIISFGTLLPIFWQGSDPANVWQDLLNIGGRPIQEIDKNIINVLTSIVTPIKNQLDKYQEFFDKWEPARTHANAKAVHDLFTTLEPIIDKDLDMLKNNASYRIPTLPAYAQIATWHLNLLKHAATYYNIWLQNQGINPSTFNSSNYYQGYLKRKIQEYTDYCIQTYNAGLTMIRTNTNATWNMYNTYRLEMTLTVLDLIAIFPNYDPEKYPIGVKSELIREVYTNVNSDTFRTITELENGLTRNPTLFTWINQGRFYTRNSRDILDPYDIFSFTGNQMAFTHTNDDRNIIWGAVHGNIISQDTSKVFPFYRNKPIDKVEIVRHREYSDIIYEMIFFSNSSEVFRYSSNSTIENNYKRTDSYMIPKQTWKNKEYGHTLSYIKTDNYIFSVVRERRRVAFSWTHTSVDFQNTIDLDNITQIHALKALKVSSDSKIVKGPGHTGGDLVILKDSMDFRVRFLKNVSRQYQVRIRYATNAPKTTVFLTGIDTISVELPSTTSRQNPNATDLTYADFGYVTFPRTVPNKTFEGEDTLLMTLYGTPNHSYNIYIDKIEFIPITQSVLDYTEKQNIEKTQKIVNDLFVN				NA	NA	NA	NA	NA
AK009_09840	459			hypothetical protein	ATGAATCAATTAGCACAGACATATTGGAATACTTATTGGGGAAACAACAAAAAACCAGAATCTGTTATAGCTTGGCAATTTGGAGATTCCCCTAATTATCTTGCACAACTAGTAATTGACGGTATTAAAACTGCTACATGCTCCGGTCACATTTTTTATGAATTAGAAAATGAACCGCTACCGACCACTAATGATTATAGTATTATACTTAATAGTAATGATGAACCTGTAGCTATTATTAAGATAATAGAAGTAACTGTAACACCAATGAATGAAGTAAGCGAAGAATTCGCTATCGCTGAAGGCGAAGGAGATCGTACTTATAATTACTGGAGAGACACCCATGTTCGTTTTTTTACAAAGGAACTAAATGAGCTTGGTCTTAATTTCTCTGAAGATATGTTACTCGTCTGTGAGCGTTTTGAACTTGTTGATGTGAACAATAAAGTGAAATTATAA	MNQLAQTYWNTYWGNNKKPESVIAWQFGDSPNYLAQLVIDGIKTATCSGHIFYELENEPLPTTNDYSIILNSNDEPVAIIKIIEVTVTPMNEVSEEFAIAEGEGDRTYNYWRDTHVRFFTKELNELGLNFSEDMLLVCERFELVDVNNKVKL				NA	NA	NA	NA	NA
AK009_09841	177			hypothetical protein	ATGGTTTGTAAATATGTTCTGTATATATATGGAATCTTTAATTTTCCAATTGCATTTTATGATAAAGGATATAGTTACTTAAAGAACGTTCAGACTATTAATGGTAGCTTATTATCACTATGCCATATTGAAGTGAGTAGTACTAGAGTTGAAATAGATAAAAAACCGATATTCTAA	MVCKYVLYIYGIFNFPIAFYDKGYSYLKNVQTINGSLLSLCHIEVSSTRVEIDKKPIF				NA	NA	NA	NA	NA
AK009_09842	798	uppP_5	COG1968	Undecaprenyl-diphosphatase	ATGAGCGATATCATTATTGCCTTCATACTCGGTATTGTAGAAGGATTAGCTGAATTTTTACCTATATCTTCTACTGGCCACCTTATATTAGTCGGGCATTTATTAGACTTTGAAGGAGAAAGAGCAAAAACGTTTGAAATTGTTATTCAGCTAGGCGCAATTTTAGCTATTGCAATTTTATATCATAAACGTCTCGTTTCTCTATGTAATATTAAGCCTCTTCTACGGAAAGAGAAAAAATTCAACGCGTTTCATGTATTTCTTGGCGTATTTCCGGCAGTAGTGGCTGGTTTGCTACTACATGATATTATTAAAACATACTTATTTCAGCCATACACTGTTGTGATTGGACTTGTAGCAGGGGCAATTCTTATGATCTTTGCAGAAGTAAAAAAGAAAGAGGCAACCGCCTATTCACTGGACGATTTAACATACCGTCAAGCTTTAACAATTGGATTATTTCAGTGCTTAGCAGTATACCCTGGCTTCTCTAGAGCTGGCTCTACTATCTCTGGAGGTCTATTAGCAAAAGTAAATTATAAAACCGCATCCGAGTTCTCTTTTCTAATAGCTCTTCCTGTAATGGTTGGAGCTACAGGCTTAGACTTACTAAAAAGCTGGGAGTATTTAAGTGTCGATGACATCCCTATGTTTGCGGTAGGATTCATTACCTCTTTTACCGTAGCGATGCTAGCGGTAGTAACTTTTCTAAAGCTTTTAGAGAAGATAGGTTTAAAACCTTTTGCATACTATCGTATTTTGTTGGCTATCTTATTTACGCTTTTCGTATTACTATAG	MSDIIIAFILGIVEGLAEFLPISSTGHLILVGHLLDFEGERAKTFEIVIQLGAILAIAILYHKRLVSLCNIKPLLRKEKKFNAFHVFLGVFPAVVAGLLLHDIIKTYLFQPYTVVIGLVAGAILMIFAEVKKKEATAYSLDDLTYRQALTIGLFQCLAVYPGFSRAGSTISGGLLAKVNYKTASEFSFLIALPVMVGATGLDLLKSWEYLSVDDIPMFAVGFITSFTVAMLAVVTFLKLLEKIGLKPFAYYRILLAILFTLFVLL	PGPT0024165_4395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK009_09843	738	bcrB		Bacitracin transport permease protein BcrB	TTGGTTAATCTACTCTATACAGAACTCTTAAAATTAAAACGCTCTAATATGTTTTTAATTAGCATTATTGGTGCTGGTGTCGCACCTTTCTTAGTTGTAGTAGCCTCTTATATACATATAAAAACAAAAGAGCCAACTCCGACTATTTGGTTCCATCAATTATTCACTGATGTTAACTTATATACTACTTTAGTTATAGGATTCCCCTTATATGGAGTAGTGGTTGCATATTTGCTTACCCGCGAATATGCAGAAGATACACTAAAAAATTTACTAACTATCCCCGTGTCGCGCATTAGCTTTATTATAAGTAAATTCATCATTCTCTTTCTTTGGATCATGATGCTAACTTTAGTCGCTTGGACACTTACTTTAATATTAGGGCTATTGGGGAATTTCCCTGGTTTTAACATTGCTTTACTTTTAAGTTCTTTCCTAGAATTTTTAATATGTGGTGGACTTCTCTTTCTATTGTCTTCACCTATTGTACTACTAACTCTTGTCATGAAGAGCTATGTACCGCCCATTATATTAACAGTCATTATTACAATGACCAATCTTATGCTCGTAAACTCCAAGCATAAAGATTTATTTCCGTGGACCGCTACTCTAGATATCGCAAATAATGAATTACAACCGACATATCCACCAGAGTATTCTTATATCATCATTGCAGTAACAACAATTTCCGGATTTATTGCAACACTATTCTATTTTAAAAAAGTAGACATTCATTAA	MVNLLYTELLKLKRSNMFLISIIGAGVAPFLVVVASYIHIKTKEPTPTIWFHQLFTDVNLYTTLVIGFPLYGVVVAYLLTREYAEDTLKNLLTIPVSRISFIISKFIILFLWIMMLTLVAWTLTLILGLLGNFPGFNIALLLSSFLEFLICGGLLFLLSSPIVLLTLVMKSYVPPIILTVIITMTNLMLVNSKHKDLFPWTATLDIANNELQPTYPPEYSYIIIAVTTISGFIATLFYFKKVDIH				NA	NA	NA	NA	NA
AK009_09844	930	bcrA_5		Bacitracin transport ATP-binding protein BcrA	GTGTCTCCTATAAATACAATTATAAAAACGACTAACCTTACTAAAGTATATGGCAATCAAAAATCAGTAGATAATTTAAATATTAATGTTCAACAAGGGGAGATTTATGGCTTCATAGGCCGCAACGGTGCTGGTAAAACAACAACCATTCGTATGCTGCTTAGTCTTATAAAGCCTACAAGTGGAACGATTGAAATATTTGGAGAGAACTTATTCCAAAATCAAAAAGATATTTTAAGCAGAATTGGTTCTATAGTTGAAGTTCCAGGATTTTATGAAAACTTAACTGCAAAAGAAAACCTATTAATTAACGCAAAGATAATTGGGGTTCACAAAAAGAATGCTATCGAAGAAGCATTAGAAATAGTAGGCTTGCAGCATGAGACAAAAAAGTTAGTAGGAAAGTATTCTTTAGGAATGAAGCAACGCTTAGGAATTGCACGCGCTCTTCTCCATTATCCCGAGCTACTCATATTAGATGAACCAACTAACGGACTAGACCCTATTGGTATTAAAGAAATGCGAAAACTTATTCATTCTTTAGCTCAAGAAAGAAATATAACCATACTCATTTCTAGTCACATATTAGCCGAGGTAGAACAGTTAGTCGATCGTATCGGAATTATTCATGAAGGAAAGTTACTAGAAGAAGTTTCTCTTGATACGCTACGTAAAGCAAATCGTAAGTACATAGAGTTTCAAGTGAATAATGACAATAAAGCTGTGATGTTATTAGAAAATCATCTTCAAATTTTTGATTATGAAGTACACGATGAAGGGAATATTCGTATTTACTCTCATTTTGGACAACAAGGATACATAAATAGAACATTAGTTCTTAATGGTATTGAAGTATTAAAAATGATGATAAGTGAAGATAGACTAGAAGATTATTTCACCAAGCTAGTTGGAGGTGGAACAATTGGTTAA	MSPINTIIKTTNLTKVYGNQKSVDNLNINVQQGEIYGFIGRNGAGKTTTIRMLLSLIKPTSGTIEIFGENLFQNQKDILSRIGSIVEVPGFYENLTAKENLLINAKIIGVHKKNAIEEALEIVGLQHETKKLVGKYSLGMKQRLGIARALLHYPELLILDEPTNGLDPIGIKEMRKLIHSLAQERNITILISSHILAEVEQLVDRIGIIHEGKLLEEVSLDTLRKANRKYIEFQVNNDNKAVMLLENHLQIFDYEVHDEGNIRIYSHFGQQGYINRTLVLNGIEVLKMMISEDRLEDYFTKLVGGGTIG	PGPT0006725_12261	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK009_09845	1014	walK_2		Sensor histidine kinase WalK	TTGAAGACTGATAAAACCCTCTCCCTTATTACATTACAACTTATCATTTGTGGGATTTTAAACATACAAATGGAACCAAGATTAAAAATGTCTTTATTTATAATCCTTATCTTAATTACAATTTATCTCTTCTTTTCAAGAATACAATTCATTCAACATCGCAAGGCAATGGATACTAAATTAAGTCGTGTACTAAAAGGAAACTTACAAACGAGATTATTCACAAGCAATGACCACTCATTACATAATATCGTTTTTTCAATAAACGAGCTAATAGCTAAATTAGAGCAAGTTCAGATTGAAGCCAAAAGATCCGAGGAATCCAGAAAACAACTTTTGTCTAGTATCTCCCACGATATACGAACACCACTCACCTCCATCATCGGATATATAGATGCTTTAAAAGATGGGGTTGCTGTTTCTGAAATAGAAAAACAAGAATACCTTAAAATACTTTATATGAAATCAAATAACTTAAAGCACCTAGTTGATGAAATATTCAATATGGCGAAGCTAGACGCTAATGAATTTCCACTAAAAGAAGAAGAACTCGACTTTTCTGAAGTTACTAGAGAAGTTTTGATTGAATTTTTACCTGAGCTCTCAAAACATAACATCGAACTGCAAGTTCTCATACCAGAATCTACTTGCCCTATTATCGCAGACCATCTGAGCCTTATGCGGATTATGAGTAATTTAATGAAAAATGCCATTTATTACGGAAAGGATGGAAAAATAGTAGGAGTCGAACTACTAGAAACCGATAGAGAATATGAACTTCATATTTGGGACAAAGGCCCTGGTATTCCAAAGCATGATTTACAAAATGTGTTTGAGCGAATGTACCGAAGCGAACAATCAAGAAACTCCTCGTTTGGTGGTAGTGGTCTCGGGCTCTCTATTTCTAAAGCGCTCGTTGAGAGAAATGGTGGGCATATATGGGTTGAAAGCACTCCATGGAAACGAACTATTTTTGGCTTTTCTATTCCAAAACACAATACTTTTAAGAAATAG	MKTDKTLSLITLQLIICGILNIQMEPRLKMSLFIILILITIYLFFSRIQFIQHRKAMDTKLSRVLKGNLQTRLFTSNDHSLHNIVFSINELIAKLEQVQIEAKRSEESRKQLLSSISHDIRTPLTSIIGYIDALKDGVAVSEIEKQEYLKILYMKSNNLKHLVDEIFNMAKLDANEFPLKEEELDFSEVTREVLIEFLPELSKHNIELQVLIPESTCPIIADHLSLMRIMSNLMKNAIYYGKDGKIVGVELLETDREYELHIWDKGPGIPKHDLQNVFERMYRSEQSRNSSFGGSGLGLSISKALVERNGGHIWVESTPWKRTIFGFSIPKHNTFKK				NA	NA	NA	NA	NA
AK009_09846	714	walR_8	COG0745	Transcriptional regulatory protein WalR	ATGAAAGATATACGTATCCTTTTAGCAGACGACGATAAAGAAATCCGAAATTTATTAAAAATATATTTAGAACGAGAATTATATATGGTAGACACTGCAATCAACGGCGAAGAAGCCTTACATTTATTTAATCAAAATAACTATAACCTCGTTATATTAGATCTTATGATGCCCAAAATAGATGGAATCGAGGTATGTAAAAAGCTTAGATATAAAACTAACGTACCTATATTAATGCTCACCGCTAAAGATCACGAAATTGATAAAATTTTAGGCTTAAGCATTGGTGCTGATGATTACATTACAAAACCTTTCAGCATTCACGAAGTAATTGCACGAGTAAAAGCTCTTATGCGGCGTTTTTTAGTTCTTGGAAGTAGCAATACTGCTCAACAAAAAACAACTTTATCTTTTAAAGGACTAACTTTCAATCTAAATACATACACAGTTCATACAAATAAAGAAGAAATTAACTTAACCGGAAAAGAACTGGAACTATTAAAATTCTTTACTTCAAACCCAGGACAAGTATTTACAAAAACACAGCTCTTCCAAAATGTGTGGGACGATAATTATATAGAAGATGACAATACCGTTATGGTACATATTCGAAAACTTAGAAAGAAAATAGAAATCGACCCTTCCAATCCAAAATTCATTCAGACTATATGGGGAATTGGTTATAAGTTTGTAGGTGAAAAGCTTGAAGACTGA	MKDIRILLADDDKEIRNLLKIYLERELYMVDTAINGEEALHLFNQNNYNLVILDLMMPKIDGIEVCKKLRYKTNVPILMLTAKDHEIDKILGLSIGADDYITKPFSIHEVIARVKALMRRFLVLGSSNTAQQKTTLSFKGLTFNLNTYTVHTNKEEINLTGKELELLKFFTSNPGQVFTKTQLFQNVWDDNYIEDDNTVMVHIRKLRKKIEIDPSNPKFIQTIWGIGYKFVGEKLED	PGPT0028485_214	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
AK009_09847	837			hypothetical protein	GTGCTGGCCGACGCGCCAGAGGTGTTCGAGGCGCTCGCGGGCGTCGTCAGGAATGCTCTTGCCTTCCAGGTAATCGTCGATGTGTGCGTAAGTGATGCCGAGTGCCTCCTCGTCGGGAAGCGCCGGGCGGTCATCCTCGAGGTCCGCGGTGGGGATCTTCTCCCAGAACTGCTTATCCGCACCGAGCTCGCGAAGCAGCGCGACACCCTGGCGCTTGTTCAGCCCTGCGAGCGGCAGCAGGTCGGCCGCGCCGTCGCCGTGCTTGGTAAAGAACGCGGTGACGTTCTCCGCCGCGTGGTCGGTACCGATGACCAGCAGGCCGCGCTCCCCGGCAATCGCGTACTGCGCGATCATGCGCATGCGGGCCTTGACGTTGCCCTTGTTAAAGTCGCGCAGCTCCTCGCTTCCGAGGGCGTCGGTGACGGCGTCGGCAAGCGCGCTGGTGGCGGGCTTGATGTTGACGGTGACCCGCTCGTCCGGCCGGATGAACTGGAGCGCGCGCTGGGCGTCGGCCTCGTCCGCCTGGGTGCCGTGGGGCAGCCGCACGGCATAAAACGTGGCCTCGGTCCCGTTCGCCCGAAGCTTCTCGACGCTCAACTGCGCAAGCCGGCCCGCAAGCGTGGAATCCTGGCCGCCGGAAATCCCGAGGACGAAACCGTTGGCCCCGGACGCGATGAGGTAGTCGGCGAGGAAGTCGACACGCGCGTCAATCTCCGCGGCGGCGTCGATGTTGGGTTTGACGCCAAGCTGCTCAATAATTGTCTGTTGGAGGGTGGTGCTCTGCGCGTTCATGACGTTCATCGTAGCGCTTTTGGTTATCCGGCCTGGGTGAGGTAA	MLADAPEVFEALAGVVRNALAFQVIVDVCVSDAECLLVGKRRAVILEVRGGDLLPELLIRTELAKQRDTLALVQPCERQQVGRAVAVLGKERGDVLRRVVGTDDQQAALPGNRVLRDHAHAGLDVALVKVAQLLASEGVGDGVGKRAGGGLDVDGDPLVRPDELERALGVGLVRLGAVGQPHGIKRGLGPVRPKLLDAQLRKPARKRGILAAGNPEDETVGPGRDEVVGEEVDTRVNLRGGVDVGFDAKLLNNCLLEGGALRVHDVHRSAFGYPAWVR				NA	NA	NA	NA	NA
AK009_09848	534			hypothetical protein	GTGTTCGTTGTTGAGGAACTTGATCACTTGTTTCGGCACCGGCCGGGTGTTGTCGCTCGTGAGCGACGCCCCGCCGCCGTAGGTGGGGCAGACGAGGACATACGGCTCGTTGACGATGAGCTCATCCTCGGTGCGGTGCAGCGGGATGCGGGCAGCGGGCAGGCCGACCTTTTCCACAAACCGCTGGGTGTTTCCGGTGGCGGAAGAGAAGTAGACGATGAGCATCGTTTTCCTCTGACCCCCTCTCCGTCTCCTGAGTATGTGGTGCCTGCCGGCTGTTTAGGCGGCCTGGGCCAGACGCTGGATGCGCTCCGGGCGGAAACCGGACCAGTGCTCCCCGCCGACCTCGACGACCGGGGCCTGAAGGTAACCCAGCGCCATGACGTAGTCGCGGGCCTCGTTGTCGACGGTGATGTCAACGAGGGTGTATTCGAGTCCGGCCTTGTCGAGGGCCTTGGTGGTGAAGTTGCACTGGACGCAAGCTGGCTTGGTGTAAACGGTGATGGACATAACCTGTGCGCTCTTCCTCGGTGA	MFVVEELDHLFRHRPGVVARERRPAAVGGADEDIRLVDDELILGAVQRDAGSGQADLFHKPLGVSGGGREVDDEHRFPLTPSPSPEYVVPAGCLGGLGQTLDALRAETGPVLPADLDDRGLKVTQRHDVVAGLVVDGDVNEGVFESGLVEGLGGEVALDASWLGVNGDGHNLCALPR				NA	NA	NA	NA	NA
AK009_09849	300	nrdI_3		Protein NrdI	GTGATCGCCGCGGGCAATTCTAATTTCGGGCCGGACTTCTGCCTTGCGGGTGAAGTCATCTCCCGCAAGTGCCGCGTCCCGCACCTGTACCGCTTTGAATTAATGGGCGATGAACACGACGTTGACTATGTCCGTGAGCAACTCGTCGACAACGCCCACGCCCTGGGGCTAGACCCGCTTGATCGGGCGGACGTCGATAAGCTCGCTGCTCGAGCGGACGAAATCCAGCAAGAGTCCGCGCAGCGCCTCGAAAGACTCCGTAAGAAGTACGACCGCAACAACACCAAGAAAACAGCATAG	MIAAGNSNFGPDFCLAGEVISRKCRVPHLYRFELMGDEHDVDYVREQLVDNAHALGLDPLDRADVDKLAARADEIQQESAQRLERLRKKYDRNNTKKTA				NA	NA	NA	NA	NA
AK009_09850	2043			hypothetical protein	GTGCGGGGCCGGGTAGTAGACGCGGCCGATCTTGCCTTCCTTGCGGATCTCGATCTTCGAGGCGATCGGGTGGATCGACGAGGTGGAGTTGTTGATGTACGAGATCGAGCCAGTCGGCGGCACCGCCTGCAGGTAGCGGTTGTAGATACCGTCGCGCGCGACATCGGCCTTGAGCTGCGCCCACTCCTCGGCGGTGGGGACGGCAACGTTGGAGCGGGCGAAGAGCTCCTTGACCTTGTCCGTCTTCGGCTGGAAATCGGCCGGGTCGTAGCGGTCGAAGAACTCGCCCGTGGCGTACTCGGACTTGTCGAAGTCGGCGAAACGCTCCCCCTTTTCCACGGCGATGGCATGGGAAGCCTTGATCGCCTCGTACATCACGGCGGCGAAGTAGGCGTTGGTGAAGTCGAGGCCCTCCTCGGAGCCGTACTCAATGTGCTCGCGGCCGAGGTAACCGTGCAGGTTCATCTGGCCCAGGCCGATGGCGTGCGAGGCGTTGTTACCGTCGCGCACGGGCGGCACGGACTCAATCGACGTCTTGTCAGCCACTGCGGTCAGCCCGCGGATCGCCGTTTCGACCGTGCGGGAGAAGTTGTCGGAATCCATCGTCTTCGCGATGTTGAGCGAGCCCAAGTTGCACGAGATGTCGTGGCCGACCTCCGCGTAGCTCAAGTCCTCGTTGAGCACGGACGGCGAGTTGACCTGCAGGATCTCGGAGCAGAGGTTGGACATGTTGATGCGGCCCGTCTTCACCGGGTTGGCCCGGTTAGCGGTGTCCTCGAACATGATGTACGGGTAGCCGGACTCGAACTGGATCTCCGCGATCGTCTGGAAGAACTGGCGCGCGTTGATCTTCGACTTGCGGATGCGCGGGTCCTCGACCATCTCCTCGTACTTCTCAGTCACGGAGATGTCGGCGAAGGGCACGCCGTAGACGCGCTCCACGTCGTACGGAGAGAACAAATACATAACATCGTTGCGCTTGGCCAGCTCGAACGTGATGTCCGGGATGACCACGCCGAGCGAAAGGGTCTTGATGCGGATCTTCTCGTCGGCGTTCTCGCGCTTGGTATCCAGAAAGCGCATGATGTCGGGGTGGTGCGCGTTGAGGTACACCGCGCCTGCACCCTGGCGCGCGCCAAGCTGGTTGGCGTAGGAGAAGGAATCCTCGAGCAGCTTCATTACCGGGATGACGCCGGAGGACTGGTTTTCAATGTGCTTGATCGGCGCGCCCGCCTCGCGGATGTTCGACAGCAGCAGCGCCACGCCGCCGCCGCGCTTGGACAGCTGCAGCGAGGAGTTGATCGCGCGGCCGATGGACTCCATGTTGTCCTCGATGCGCAGCAAGAAGCAGGAGACGAGCTCGCCACGCTGCGCCTTGCCGGCGTTGAGGAAGGTCGGGGTGGCGGGCTGGAACCGGCCGGTCATGATTTCGTCGACAAGCGCGGAGGCGGTCTCCTCGTTGCCGCTGGCGAGGAACAGGGCGGTCATGGCGACGCGGTCCTCGAAACGCTCGAGGTAGCGGCGCCCGTCGAAGGTTTTCAGCGTGTAGGAGGTGTAGTACTTGTACGCGCCCAGGAAGGACTGGAAGCGGAACTTAAACGCGTAGGCGCGCTTGAAGGTTGCCTTGACAAACTCCCAGTCGTAGGCCTCGAGGACTTCCGGCTCGTAGTACTTGTTCTTTACCAGGTAGTCGATCTTTTCCTCCAGGTCGTGGAAGAAGACGGTGTTTTGGTTGACATGCTGGATGAAGTACTGGTTCGCGGCTTCGCGATCCTTGTCGAACTGGATTTCGCCGTTCTCGTCGTACAGGTTAAGCAGCGCGTTGAGCGCGTGGTAATCGAGCTGCTCGGCCTGCGAGACGGGCTCTGCGACGTTCTTGCCGAGGGTAGGGGTAGACACGGTTCAAGGCTCCTATGCTGTTTTCTTGGTGTTGTTGCGGTCGTACTTCTTACGGAGTCTTTCGAGGCGCTGCGCGGACTCTTGCTGGATTTCGTCCGCTCGAGCAGCGAGCTTATCGACGTCCGCCCGATCAAGCGGGTCTAG	MRGRVVDAADLAFLADLDLRGDRVDRRGGVVDVRDRASRRHRLQVAVVDTVARDIGLELRPLLGGGDGNVGAGEELLDLVRLRLEIGRVVAVEELARGVLGLVEVGETLPLFHGDGMGSLDRLVHHGGEVGVGEVEALLGAVLNVLAAEVTVQVHLAQADGVRGVVTVAHGRHGLNRRLVSHCGQPADRRFDRAGEVVGIHRLRDVERAQVARDVVADLRVAQVLVEHGRRVDLQDLGAEVGHVDAARLHRVGPVSGVLEHDVRVAGLELDLRDRLEELARVDLRLADARVLDHLLVLLSHGDVGEGHAVDALHVVRREQIHNIVALGQLERDVRDDHAERKGLDADLLVGVLALGIQKAHDVGVVRVEVHRACTLARAKLVGVGEGILEQLHYRDDAGGLVFNVLDRRARLADVRQQQRHAAAALGQLQRGVDRAADGLHVVLDAQQEAGDELATLRLAGVEEGRGGGLEPAGHDFVDKRGGGLLVAAGEEQGGHGDAVLETLEVAAPVEGFQRVGGVVLVRAQEGLEAELKRVGALEGCLDKLPVVGLEDFRLVVLVLYQVVDLFLQVVEEDGVLVDMLDEVLVRGFAILVELDFAVLVVQVKQRVERVVIELLGLRDGLCDVLAEGRGRHGSRLLCCFLGVVAVVLLTESFEALRGLLLDFVRSSSELIDVRPIKRV				NA	NA	NA	NA	NA
AK009_09851	312			hypothetical protein	GTGGAACATCTCGTTGCGCGAGGCCTTGAGAATCAGGGTGTGAAACTTCAGGTCGGTCGCGAGGAACTCCTCGCTGTTGCCCTCATCGGCGAGCTTGACCATGGCCTCGGCCATCGCGATCAGCTCCTCGGCCTCCGACTTTTCGGCGTGGCGCGCTGCGATGACCGCCGCGACCGGCTCGACCGAAAAACGCAGCTCGCTGAGCTCCTTGAGCTGGCGCTGCGCGTCCGCTTTCCAGCGCCACCCGATGACGGCCTGATCAAACACATCCCACTGGCTGGCGGGCAGCACCTTGATGCCGACGCGGCGTGA	MEHLVARGLENQGVKLQVGREELLAVALIGELDHGLGHRDQLLGLRLFGVARCDDRRDRLDRKTQLAELLELALRVRFPAPPDDGLIKHIPLAGGQHLDADAA				NA	NA	NA	NA	NA
AK009_09852	1317			hypothetical protein	GTGGTCGCCCACCATCGCCACCGTCGCACCCTGGGTGTGCAGAGCGCGCACCGCGCCCGGCTTGTCGGCGGCGCGCACGCCCGCGAGCACGTTGGACACCCCGAGGAAGTCGGCGAAGCGCCGCGCCACCGGGTAGGTGTCGCGGGTGAGCATCACCGTTTCCACGCCCATGTCCTCGAGGCGCTCAACGGCGTCGATGGCGTCGGGCTTCACCGGGTCGTAGAAGGTGATCACGCCGCGGTCCTTGCCCCTGTAGCGCACCACGATGGGGGTGCCGCCGCTGGTCGCGGCGACGGCCAAGCGGCCGCGCAGACGCGACAGGTCCGTCGGGCGCCACAGCGAGGCCTCGATGACCTCCGTGCGCTCCTCGCCGTCGTCTTCCTCAAACGTGAGCGTGAGCCGGCCAGCGAACTCCCCGTCGGCGCTGTCGACCTCGTTGCTCAGCTCGATCCACGTCGGCAGCGACGCGTCCTTCGAGCGCGTGTCCCGGGATTCGCGGGCGGATTTGACCAGCGCCTTCGCCATCGGGTTGTCCGACTCTACCGCCAGCACGGACGCGACGCGCAGCACAATGTCGGGGTCCTCACCGCGCTCCGCGGTCACCGTTTCCACCTGCATCTCCGGCGTGGCCAGGGTGCCCACCCGGTTGAACACCGCCGTGTCCGTCGTCTCCAGCACGCGGAACGTGTGGCCGTCGCGAAGCAAAATGCCGTTCCGGGCGGCCGATTCAATGCCGAGGCGCAGCGCCAGCGCCGGCGAGATCGCCAGCGCGACCGGGGCGACCACCGCGAGGATGGCCAGCGCGGTGGAAAAGGCCTTGTTGAAGTCGCCCGTGATCAGCAACCAGATCAGGAAATCCGCCCCGGCAATGAAGTAGGCTGCGGGGATGAGCAGGCTGGCCGAGCGCGTCGAGAGCATGGTGGCAACGTTCTCGCGCTTCGAGGCATCCTCGACCCACTTGTGCACGACGGCCCACCGCGTGGCGTGGCCAGTACGCGCGACGCGCACCTTCACCGTGCCGGACTTGATCAGCTCACCGGAGTAGATGCGCGAACCGACTTTGGCTTCAAGCAATTCGCGCGTGTTGATCAGCGGCGAGCGCAGCATGCACGAGCCGCCGACGATGTCGCCGTCGACGGGAATGATGTCGCCGGGGCCCAGGACCACGTCGTCGCCGCGGTTGAGCTCGGAGGCAGGAAGCTGCTCCTTGACCACCTTGCCGGAGGTGCGGCCGCGCCGGATGACCGTGAACTCGCGGTTCGGGTCGGGCCGGCGCCGCTCCATGTCCTCAAGCAGGTAAGAGCGCACGCGGATTGA	MVAHHRHRRTLGVQSAHRARLVGGAHAREHVGHPEEVGEAPRHRVGVAGEHHRFHAHVLEALNGVDGVGLHRVVEGDHAAVLAPVAHHDGGAAAGRGDGQAAAQTRQVRRAPQRGLDDLRALLAVVFLKREREPASELPVGAVDLVAQLDPRRQRRVLRARVPGFAGGFDQRLRHRVVRLYRQHGRDAQHNVGVLTALRGHRFHLHLRRGQGAHPVEHRRVRRLQHAERVAVAKQNAVPGGRFNAEAQRQRRRDRQRDRGDHREDGQRGGKGLVEVARDQQPDQEIRPGNEVGCGDEQAGRARREHGGNVLALRGILDPLVHDGPPRGVASTRDAHLHRAGLDQLTGVDARTDFGFKQFARVDQRRAQHARAADDVAVDGNDVAGAQDHVVAAVELGGRKLLLDHLAGGAAAPDDRELAVRVGPAPLHVLKQVRAHAD				NA	NA	NA	NA	NA
AK009_09853	588			hypothetical protein	TTGCCAGCCGATGTCTCCCGCGCGTGTAAACAGCAGCGCGCACAGGGCCCACAGGAACGAGGCGATCACCGCGATCGAGCTCGCCCCGTCGAGCGCGGAAATGCCGCGGCGCACGCCTCCGGCCATCGCGCGGTGGAACGGCCAAGCGCACCACAGCGCCACCGGGGTGGCAAGCGCCAGGCACACCCACTGCCAGCCGGCAAACTGCGCCTGGGGCACGTAGCTCATCACCAGCACGGGGATGGTGAGCAGGACCGCGACCCACATGCGCAGCGGGGTGACCAGGTCGCGGGCGGTAAACAGCAGGTCGGTTTGGGAGCGCGGCGAGCGTTCGAAGTCGCCGCGCATGAATCCCGCCGCCCGCTTCTCGCTCAAGGACAACTCTTCGAAGCGGCGCAGTCGGCGCATCTTGCCCGTCATGCCGCGGGTGCCGCGGCGTGGCATCGGGTGGTCGGTTGCGCGCCTGCCCACGGCGCGGCGGCGCAGCGTCGAGTCCGTCATCCGCGCCTGCACGCCGAACTCCGCGATGACCGCGGTGATACGTGCCGGGTCCATGCCCTCGGGGGCGGTGATCCACGCCGTCGCTGA	MPADVSRACKQQRAQGPQERGDHRDRARPVERGNAAAHASGHRAVERPSAPQRHRGGKRQAHPLPAGKLRLGHVAHHQHGDGEQDRDPHAQRGDQVAGGKQQVGLGARRAFEVAAHESRRPLLAQGQLFEAAQSAHLARHAAGAAAWHRVVGCAPAHGAAAQRRVRHPRLHAELRDDRGDTCRVHALGGGDPRRR				NA	NA	NA	NA	NA
AK009_09854	486			hypothetical protein	GTGGGAAAGTCCCCGCCTCATCGCCCACCTCGTGCGGGGTGTCCGGGTCGAACCCTGCCACAATCGCGGCCTGGCGAGCCTCCGCGATCGAGCGTTCGAGTGCCTCCCTCACGGCCGCTCCACGAACTGGTTAGCGGCGGGGCGGAACATGAAAAACACCGCGAAGGTCAGCGCGACCACGATGGCAAACGACGCCCACGAGGTGACCTGGATGACAAACGCGGCGAGGTTGATGAAGATCGCCACCGCGATAAACCCGCACGCCCACCCGCGGGCCCCCTTGAGCCCCTTGGGAAACTGTGCCGCGGCAACGACCATGCACAACGCCAGCACGATGTTGCCCAGCGCGGTGACGCGCGTGTTGCGCATAAACGCCTCGCGGAACTGCTCATCACCGGCCTCCGGGAAGCCCGCGGTCAACAGGACCATTCCCGTGACCAGCATCAACACCGCTGCCGCGATGATGAGCCAGTAGGAGGTGCGTAG	MGKSPPHRPPRAGCPGRTLPQSRPGEPPRSSVRVPPSRPLHELVSGGAEHEKHREGQRDHDGKRRPRGDLDDKRGEVDEDRHRDKPARPPAGPLEPLGKLCRGNDHAQRQHDVAQRGDARVAHKRLAELLITGLREARGQQDHSRDQHQHRCRDDEPVGGA				NA	NA	NA	NA	NA
AK009_09855	729			hypothetical protein	GTGCGTAGGGCGGGCGGCCACTCCTCGCCCGTGTACGGGCGCGCGGGACGGCGGTTGGGGTCGTTGGTACCTCCCACCATTGTGGGGAACATGCCTGCCACTGCCCTACCCGTCCTTCTTGGTGTCGTGGGACAACGCCTCGTGGATTTCCTTCCGGGAAGCGTAGATCAGCCCGCACGCCGCCGCCACACCGATGATGATTTGGACAACGCCGAGAACCGCCGTAAAGCCCACGGGAAGCTGCGTCGCCCCCGCCACCGCCGCCGGGGCGATGACCACCAGCAGGGTGCGGATGACAAAGAAGATGGAAAACACCGTCAAGAGGCGGCGCGCCGCATCGGCCCATTTCTGGCCACGCGCCACCGCGCGCAGGGCGAACGCCAGCAGGACCATGATGAGCAGCTGAAACAGCGTCATGATGGCGATCGAGGTATACGTGCTCATCGTCAGCATCATGTCCGAGACCTCCTGGCCGCGGTTGCGGGCGGCGTCGGCGGCCGCCTGGCGCAGCGCCGAGGGGTCGAGGATCAGGCCGACGGAGTTGGTCAGCTGGTGCACGAGCTCGCCGAACACCATCACCGACCAACTCCCCAGCAGGTAGCGCATCGTGTCCGCGCCGCGCGGCTTCTTCCCGACGCCACTGATATGGCTCGGGCTGTCCGGGTTCTGCGGCTTCAGCGGCGGGATCGAGGTCATCGCAGGATCCTCGCGGCGTCGACGGCGAAGTAG	MRRAGGHSSPVYGRAGRRLGSLVPPTIVGNMPATALPVLLGVVGQRLVDFLPGSVDQPARRRHTDDDLDNAENRRKAHGKLRRPRHRRRGDDHQQGADDKEDGKHRQEAARRIGPFLATRHRAQGERQQDHDEQLKQRHDGDRGIRAHRQHHVRDLLAAVAGGVGGRLAQRRGVEDQADGVGQLVHELAEHHHRPTPQQVAHRVRAARLLPDATDMARAVRVLRLQRRDRGHRRILAASTAK				NA	NA	NA	NA	NA
AK009_09856	1023	hemB_2	COG0113	Delta-aminolevulinic acid dehydratase	GTGTCCGCCCAAGGGCCTAGACTGGGTTCCGTGTCTTTTGCTAACGAGATCCGCCGCCGCCCACGCCGCCTGCGCACTACCCCCGCCATGCGGGAGCTTGTCGCCGAGACGCGGGTGGGCGCCAGCGATCTGATTTACCCGATGTTCTACGCCGACGGCCTGGACTCCAAGCGCGAGATTTCGTCCATGCCGGGCCAATACCAGCACACGCTGGACTCCCTCAAGGCCACCGCGTACGAGGCTTTCCAAGCGGGGGTGCGCTGTATCGACCTGTTTGGCGTGCCGCTCGATTCCGACAAGGACGCCACCGGCTCGGTCGGCTGGGCCGAGGACGGGGTGCTCAACCGCGGCATCCGAGCCCTGCGCGAGGAGTTCGGCGACGACCTCGTGATCATGGCCGATACCTGCCTTGACGAGTTCACTGACCACGGCCACTGCGGGATTGTCGACGAAAAGCGCCAGGTCGTGCTTAACGACGCCACCCTCGACTGCTATGCGCGCATGGCCGTGGCCCAGGCGCGCGCCGGTGCGCACGTGGTCAGCCCCTCAGGCATGATGGACGGCCAGGTGAGCGTGATCCGCAGCGCGCTCGACGCCGAGGGCTTCACCGACGTTGCGATCATGGCCTACTCCGCGAAGTACGCTTCTGCCTTCTTTGGGCCGTTTCGTGAGGCCGTGGGGTCGTCGTTACGCGGCGATCGCCGCACCTACCAGCAAGATCCCGCGAACGCGCGCGAGTCCTTGCTGGAGGCGCAGCTCGATATCGATGAGGGCGCGGACTTCGTCATGGTCAAACCGGCGATGGCGTACCTCGACGTTCTGGCCCGCATCGCCGAGTTCTCCCCCGTGCCGGTGGCGGCGTACCAGGTCTCCGGTGAGTACGCGATGATTCAGGCCGCGGGCCGTAACGGCTGGGTCGATCTGGAGGCGACGATGCTGGAGTCGCTGACCTCGATCAAGCGCGCCGGCGCGGACCAGATCCTGACCTACTTCGCCGTCGACGCCGCGAGGATCCTGCGATGA	MSAQGPRLGSVSFANEIRRRPRRLRTTPAMRELVAETRVGASDLIYPMFYADGLDSKREISSMPGQYQHTLDSLKATAYEAFQAGVRCIDLFGVPLDSDKDATGSVGWAEDGVLNRGIRALREEFGDDLVIMADTCLDEFTDHGHCGIVDEKRQVVLNDATLDCYARMAVAQARAGAHVVSPSGMMDGQVSVIRSALDAEGFTDVAIMAYSAKYASAFFGPFREAVGSSLRGDRRTYQQDPANARESLLEAQLDIDEGADFVMVKPAMAYLDVLARIAEFSPVPVAAYQVSGEYAMIQAAGRNGWVDLEATMLESLTSIKRAGADQILTYFAVDAARILR	PGPT0003655_1890	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
AK009_09857	396			hypothetical protein	GTGCTCAGCGAGGGCGTCGACAAGCGAAGGCACGTCGGCGACCTCGGGCACGACGTCGACACGCAGGCCCTGCTCGCGCGCCTCGGCGGCCGCCATCGGGCCGATCGCGGCGATGATCGTGCGCTGGTGGGGCTTGCCGGCGATGCCGACGAGGTTCTTCACCGTGGAGGCCGAGGTGAAGCACACCGCGTCGAAGCCTCCCGACTTGATCATGTCGCGCACCTCAAGCGGCGGCGGGGCCGCGCGCACGGTGCGGTAGGCGACCACGTCGTCGACCTCCCAACCAAGATCGATCAGGCCGTCGACCAGCACGTCCGTGCCCAGGTCCGCGCGCGGCAGCAGCACCCGCGAGACGGGGTCGATGTCCTCGACGTACTCGGGGAAGCTCTCCACTAA	MLSEGVDKRRHVGDLGHDVDTQALLARLGGRHRADRGDDRALVGLAGDADEVLHRGGRGEAHRVEASRLDHVAHLKRRRGRAHGAVGDHVVDLPTKIDQAVDQHVRAQVRARQQHPRDGVDVLDVLGEALH				NA	NA	NA	NA	NA
AK009_09858	1002			hypothetical protein	ATGGGGGTGCATGCGGGTAATTTGGCGGCGGTTGCTGGTGCGGAGAAGGCGACTGCGGCAGCGGCGTATGCGTCGTGGTTGGCGGCGCCGGTGGAGGTTAAACCGGTGGTGGAGCAGGCGTATATGAAGGCGTTTCCTCCGCGGTTGAATACGGGCTTGGTGCCGACGGTGCCGTCGTTTAACCAGTTGCTGCCAGCGTTGGATGCGATGCCGGTGGCGCCGTTTTCGCCGGAGGCGATTAAGGTTCCTGCTGCGCCGTCGTTTGAGCGCAGTGTTTTGCCGCGGGTTGTTCAGGATGCGATGGAGGCTAACGGGTTTGGTGATATGGCGTACGCAAGCACCCCGCAAGAAGTTATTGCTGCTGTGCCGGGAGAAGATGTGGCTGCACTCGGTGGGGTGTCACCGGTGAGTCCTGTCACACAGGCCGCCTCTGTGGCAACTGTGCCGCAGCTAACCCCGTCGGCGCAGTTGGCGTCGGCGCCGCAGATGTCACCTGGTGTGACTGCTTCCGGGGGTTATGGTGCGCCGGCGGTTGGGTTGACCCCGTCCCTGAGCCCGCGTGGTGGTCTAAGTTCTGCCTCGGGTCGTACAGCTGGTCATTCGGGTGCGCACCGGGGTGTTGGTGGCAGGCATGGTGTGGGTTCAGCTGCGGGCGCGGGTGCGGGTTCCGTGGTCGGACTCGTTGGCCGCGGCGCGAGCACGCCTTTGACCGCAGCTACTCCGCTCGCCGGATATGCCCCGAACACCCCAGTCGCCACGACCGGTTATGGCGCCGCATCGACTGCAAACGCAGCTCAAACCACCAATCGCGCGACAGCATTTGGTGGACCGATCGGTCCGGGTGGGCACGGTGCTAATGGTGGGTCGCGTAAGCGTCGCGTGCGGGCGGTAACCAGCGCGGTGGAACGCAACGGCAACCTGCGCGCCCTGCTCGGTGATGCCCCCGCGGTGCTGCCCGACGTCATCGGCGACGACGTCCGCACCCCACGACACACAACCTAG	MGVHAGNLAAVAGAEKATAAAAYASWLAAPVEVKPVVEQAYMKAFPPRLNTGLVPTVPSFNQLLPALDAMPVAPFSPEAIKVPAAPSFERSVLPRVVQDAMEANGFGDMAYASTPQEVIAAVPGEDVAALGGVSPVSPVTQAASVATVPQLTPSAQLASAPQMSPGVTASGGYGAPAVGLTPSLSPRGGLSSASGRTAGHSGAHRGVGGRHGVGSAAGAGAGSVVGLVGRGASTPLTAATPLAGYAPNTPVATTGYGAASTANAAQTTNRATAFGGPIGPGGHGANGGSRKRRVRAVTSAVERNGNLRALLGDAPAVLPDVIGDDVRTPRHTT				NA	NA	NA	NA	NA
AK009_09859	945	crcB_3		Putative fluoride ion transporter CrcB	GTGCCCGGACGTGCCGAACGCAACCTGCTGGTCGGGGTTGTCCGGGTCAATCTCGCGGGTGTAGTACGCAGAGACGACCTCGGCGATGTCAATCAAGTCGCTCGGCTGGGCGGGCTGACCCGCGCGTTCGTGTGCCATGTCGGAAATGCTCCTTCGCGTCAATGGGTAACGCCTTCAATCATTCCCGCACCCGCCGGTTCTCGCCACGGATCCGCGTCTGCGAGGGGTAAGGTGAGCGTTCGTGAAAGAAGCCCTCATCGTCGGTGCCGGTGCCACGCTCGGCGCGCTGACCAGGTGGGCAATCACCCTCGCGCTCCCCGTCGTACTCCCCGTGCCGCTCGACGGCATCCACCTGGTCAACGTCCTCGGCTGCCTGGCCATGGGCTACTTCGCCCCCGGCAAGTTCTGGGGGACCGGCTTCTTAGGCGGCTTCACGACGTTCTCCGGCGTCGCCATCGCCGCCGCGCTCAGCTCGCCCCTGGGTGCGATCGCCCTGCTCGCGGTCTACTTCGTGGTCTGCGTCGGGGCATGGCTGCTTGGCGACGCCCTCCGCACCCGCACCAGGGGCACCGCATGATCTCCCTGGCCATCATCTTCGTATTGATGCCCGCCGGGGCCGTCACCGTCGGCGCTTTCCTCGGCGGGCTCGCCCGCTGGGGGCTCAGCCGCATCCCCGGGGGGCTGACGGGAACGCTGCTGGCCAACCTGTTCGCCTCTATCGTGATCGGGCTCTCACTCGGTCTGGAACCCCGGTGGCAGGTGTTTCTCGGTGTCGGATTCGCCGGGGCGCTGTCGACGTGGTCCACGCTTGCGAAAGAGCTCGGGCAACTTATCAAGGAGCAGGCCTGGCGACGGGCCGGGGTGTACGCCGTGGCAACCGCGGTTCTGGGTGCTGGCGGCGCGTACCTCGGCTACCTGACATCGGGTGTGGGCCTCGCGTCCTAG	MPGRAERNLLVGVVRVNLAGVVRRDDLGDVNQVARLGGLTRAFVCHVGNAPSRQWVTPSIIPAPAGSRHGSASARGKVSVRERSPHRRCRCHARRADQVGNHPRAPRRTPRAARRHPPGQRPRLPGHGLLRPRQVLGDRLLRRLHDVLRRRHRRRAQLAPGCDRPARGLLRGLRRGMAAWRRPPHPHQGHRMISLAIIFVLMPAGAVTVGAFLGGLARWGLSRIPGGLTGTLLANLFASIVIGLSLGLEPRWQVFLGVGFAGALSTWSTLAKELGQLIKEQAWRRAGVYAVATAVLGAGGAYLGYLTSGVGLAS				NA	NA	NA	NA	NA
AK009_09860	315			hypothetical protein	GTGCGAGGGCGTGATCACGATGCCGTCGGCACGCTTCGGGTCCGTGCCGGTCACGCCGCCGCTGAGCGCGGCGTTGTGTCGCAGGATCGCGTGCGAGACCGCGGGGGTCGGGGTGTAGGCGCCGGCGGCGTCGACAAGCACCTCGATGCCGCCGGCGATGAGCACCTCGAGGGCCGAAATCATGGCTGGCTCGCTCAACGCGTGGGTGTCGCGCCCGATGTAGATCGGTCCGCCGATGTTGTTGTCGCGGCGGTAATCCACGATCGCCTGCGTAATCGCCCAGATGTGCTGCTGGTTAAACGCGTTGTCCAGTGA	MRGRDHDAVGTLRVRAGHAAAERGVVSQDRVRDRGGRGVGAGGVDKHLDAAGDEHLEGRNHGWLAQRVGVAPDVDRSADVVVAAVIHDRLRNRPDVLLVKRVVQ				NA	NA	NA	NA	NA
AK009_09861	621			hypothetical protein	ATGCGACGGCGTGTCCCCGGTTACGGCGGTGATCTCGGCTGCGAGCAGGTCCATGATCAGACCGTCCTTGTCGGTCGACCACACGGTTCCGTCGTGGCGCAGGAACGACGCGCCCGCGGATTCCTCGCCGCCGAAGCCGATGGTGCCGTCGATAAGCCCAGGCACGAACCACTTGAACCCGACGGGGACCTCGACGAGCTCGCGGCCCAGCGAGGCCACGACGCGATCGATCATGGACGACGACACCAGCGTTTTACCCACGGCGGTGTTCTCGCCCCAGCCTGGGCGGTGCGAGAACAGGTACTCAATCGCTACAGCCAGGTAGTGGTTCGGGTTCATCAGCCCGGCGTCGGGGGTGACAATGCCGTGGCGGTCCGCGTCCGCGTCGTTGCCGGTGGCGATGTCGAACTTGTCGCGGCTGGCCACCAGCGACGCCATTGTGTCCGGGCTGGAGCAGTCCATGCGGATCTTGCCGTCCGTGTCCAAGGTCATGAACCGCCAGGTGGCGTCGACAAGCGGGTTGACCACGGTGAGGTTGAGCTTGTGGGTCTCGGCGATGGCTTGCCAGTAGTGCACGCTGGCCCCGCCCATCGGGTCCGCGCCGATTCTCAGCCCACTTGA	MRRRVPGYGGDLGCEQVHDQTVLVGRPHGSVVAQERRARGFLAAEADGAVDKPRHEPLEPDGDLDELAAQRGHDAIDHGRRHQRFTHGGVLAPAWAVREQVLNRYSQVVVRVHQPGVGGDNAVAVRVRVVAGGDVELVAAGHQRRHCVRAGAVHADLAVRVQGHEPPGGVDKRVDHGEVELVGLGDGLPVVHAGPAHRVRADSQPT				NA	NA	NA	NA	NA
AK009_09862	195			hypothetical protein	GTGCTCGTCGCCCTTGAAGGACTCAGCATAGATCTTGTACTTGTCCTCGGTTCCCGACGGTCGCGCGGCGAACCACGCGCTTTCCGTGGTCACCTTGAGCCCGCCGATGGCGGCGCCGTTGCCGGGGGCGTCGGTAAGCTTCGCGGTGATCTCCTCCCCCGCGAATTCGGTCGCGGTGACCTGCTCCGGGGATAG	MLVALEGLSIDLVLVLGSRRSRGEPRAFRGHLEPADGGAVAGGVGKLRGDLLPREFGRGDLLRG				NA	NA	NA	NA	NA
AK009_09863	498			hypothetical protein	GTGACAACGACGTACGGTGCCCACGAAGCGCAGGTGTTTCAAGCGCCTGAAGGCACCCGCGAGATGGTGCTCGACATCCTCTCTGCCGCAGCGCGGTTCTTTATGGCCTACATCTGGATCTCCGCTGGGTGGTCCAAGATCGGTGCGCACATGGATGTCACTCAGACCATCCAGGCGTATGAGATTTTCACCCCAGCCTGGTCGGACCTTCTGGCCCGCGTCATCGGTCCGATGGAGTTGGCGGGTGGGTTGCTGCTGTTGCTGGGCATCAAGCTACGCCCGGCGGGATGGGTCTCCATCGGGGTGTTGATCCTGTTCATCATCGGATTGGGCTCGGCATGGTCGCGGGGCCTGGTCATCGACTGCGGGTGCTTTAACCCGGAGCCGACGGAAACCGGCACCAACATCCTGGCGACGATGGCCCGAGACGTGTTCTACATCGCTATCACGTTGTTCATGATCTACCGCCCGTTTAAGAAATGGGCGATTTACCCCTAA	MTTTYGAHEAQVFQAPEGTREMVLDILSAAARFFMAYIWISAGWSKIGAHMDVTQTIQAYEIFTPAWSDLLARVIGPMELAGGLLLLLGIKLRPAGWVSIGVLILFIIGLGSAWSRGLVIDCGCFNPEPTETGTNILATMARDVFYIAITLFMIYRPFKKWAIYP	PGPT0028505_3470	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
AK009_09864	450			hypothetical protein	GTGGCCCGGGCTGTACTGCCCGCCCTGGGAGTCGAGAAAGGTCATCGGGCGGACGTTGACCTCAAGTTCGCCGGCCTGGATCTTCTCCAGGGCATCGCCGTCGGTCGTCGTTGCCAAGTCGGCGCAGTAGGAGCAGGAGAAATCCTCGAACAGATCGACCGACTTGGCGCCTTCGCCGCCCTCGGCGGCCGAGAGGGTGAAGTAGGGGTCACCCTCCGTGTAGCTGACCTCGAGGTTCTCCACGGGGACCATTTGTTCGGCGATCGCCTGGCTGCGCTGGGAGCGCCCGTTGAAGACGATCAACCCAATTACCAGGGTGGCAATGGCGACGACGGCGACGAGCGCCCAGATGAAGGCGGCGCCGCCCTTGTCGTTGGGGTTTTTAACTTTACGCGTGGTCATGGTTTATACACCTTCACTTTGATGACTCATACACAACTTCCCCTGTAG	MARAVLPALGVEKGHRADVDLKFAGLDLLQGIAVGRRCQVGAVGAGEILEQIDRLGAFAALGGREGEVGVTLRVADLEVLHGDHLFGDRLAALGAPVEDDQPNYQGGNGDDGDERPDEGGAALVVGVFNFTRGHGLYTFTLMTHTQLPL				NA	NA	NA	NA	NA
AK009_09866	258			hypothetical protein	ATGGGGTGCAAGCACTATAATGGGGTACGAACATATTGTATGGACGATTGTAAAATTGGAAAAGAACTATATCAATTAGGAACAGGCTTGATTGGTGATGAAAAGGATCAGAAACGGAAAGTAAAAATGAAGTGGGATTCTGTTTGTCAACAGGCGCTCTTGTTAAGAAGTAAAGGATATACCTATCAAAAAATTGCAAACCAATTAGGATGTCATGCGAGTAGTTTACGTAAACAGCTCCATCAACGTGGACTGTAA	MGCKHYNGVRTYCMDDCKIGKELYQLGTGLIGDEKDQKRKVKMKWDSVCQQALLLRSKGYTYQKIANQLGCHASSLRKQLHQRGL				NA	NA	NA	NA	NA
AK009_09867	414			hypothetical protein	ATGAGGGTAGTTGCGAAAAAAGTACAAATGCTACGCTTACAGGAGAAGCGTAATAAGCATGAGGAAAATATAGAAGCAGCTTGTGCCGAACAGCTCAAAATAAAAAGAGAGTGTATCGAACTAGAAAAAAATATAGCGAAAAAACGATCCCAAAAGGTACAAACGACAGAAGAAAAATGGGATGAAAAATGTAATCAAGCCGTACAATTATTTAATCAAGGAATGGAATATCCAACTATTGCAAAAAAAGTGGGATGTAATGTGAGTAGTTTGTATAGAGAGCTTAAGAAACGTGACTTACTACAAATGCCAAAGCAAGTAGCACCGTGTAAATCAGTAAAGGCCCCTATCATACCACCACAAACAAAAAAATCAAAGTTTGAACGATATAAAGAATACTATATGTATAGATAG	MRVVAKKVQMLRLQEKRNKHEENIEAACAEQLKIKRECIELEKNIAKKRSQKVQTTEEKWDEKCNQAVQLFNQGMEYPTIAKKVGCNVSSLYRELKKRDLLQMPKQVAPCKSVKAPIIPPQTKKSKFERYKEYYMYR				NA	NA	NA	NA	NA
AK009_09868	99			hypothetical protein	ATGAATAAAAAAGTTTTAACAGCTTTAGCATTAAGTATTCCCGTATTCATTTCAACAGGAAATATGGCTAGTACTCAGATCAATACCCAGCTAACATAA	MNKKVLTALALSIPVFISTGNMASTQINTQLT				NA	NA	NA	NA	NA
AK009_09869	447			hypothetical protein	ATGCATGGATTTGGGGAAAGTACTAGTCCACGTGTAATTATTAATGATATCAAGTTAATGGATGTAGAAGGAAAATACATGGATCCAGAGTATCCAATTCAGTCTAAATTAATTAGCAGAGGAGCTGAGAAGTTAGTCCAATCTATAGAAGAAGATATATATAATGATCCCCCTTCAGCTGAACTAACAAAATCACATACATTTCAACACGCCGTATCTAATGCGTCTACTCTAACAAAATCTATTACATATAGCCATAAAGGTGGCGTGAAGTTTACTTATAAAGCAACAATAAACCTGATAGGCGCTGATTCAGAAGTTGGTGGTGAAGTATCCTATGAATATACAAAGTCTAATCAAGAGGGCACATCGGATTCAAAGACATTTTCAAAACATTTAGTTCAACTGCATCTGCAAAACTACAATCTATGTCAAGAGCGAAATTAG	MHGFGESTSPRVIINDIKLMDVEGKYMDPEYPIQSKLISRGAEKLVQSIEEDIYNDPPSAELTKSHTFQHAVSNASTLTKSITYSHKGGVKFTYKATINLIGADSEVGGEVSYEYTKSNQEGTSDSKTFSKHLVQLHLQNYNLCQERN				NA	NA	NA	NA	NA
AK009_09870	342			hypothetical protein	ATGTCAAGAGCGAAATTAGTTTCAAATGTATATACTTATCCTGCAATATATGAAATTAAAAACCGTAGCTTTTTTACCGGTTCTGTTCAGTTTTCATATGTATTATCTACCACCCCTAATAAAGTGGAAACAAAAACAGTATCCTTATATGAATTATTTACGAGAACAGATTATCCAACAAGAGATAGCATTGCTGAGAGATATCATATGTGGTCACAGACATTTTGGAAGCCAGAAAGTGGAGAAGCTGTGCAAGCTCTTTTATTTGAAGGGACTTCCATCTTAAATATTGACGAAACATACCGCACAGAAACCTGTTTAAAAGCTATAAAAAGTATGTAA	MSRAKLVSNVYTYPAIYEIKNRSFFTGSVQFSYVLSTTPNKVETKTVSLYELFTRTDYPTRDSIAERYHMWSQTFWKPESGEAVQALLFEGTSILNIDETYRTETCLKAIKSM				NA	NA	NA	NA	NA
AK009_09871	1056			hypothetical protein	ATGCGGAACTTCTTTGAAGAGACATACATAAATATCAATTTCAAAAGAGAATTCATACAGCTCATTAGTGATATTAGCGAATATAGGGGTAAGTTATCCGTTTACCAATCACAAAAACATTCGACATTACATCATTTGGAAAAGAACATCCTACTTCAATATATGATAAACTTCACCACGATGTACCAAGATATACGTGTTCCGAATACAAGAGTAAAAGAACTATTATTAAACGATTTCCCACCTCAAACAACAAAAGAAGACGCTGTGTATTGCTACTATCAAACGCTTTCTCTCGTACACCAAACTTTCGACACGCTATCCATTAGCCCGGAAACCATTCAAGAATTGCATTTCCAGTTACTACATTATAGTACCTCGGATAGCGGGAAATGGCGTCAAAAGAAATTTCTGATTCCCGGGATGCCAGCATACGAGGGACATATCAGTAGTTATCGACTTCTTCCACATGAGCAAGTTCCACAATCTGTAAAAGAATTATGTGAGCAATATAACGCGTTACGTGCCAATAAAGACATGCATGCCCTTCCATTAATTGCCCGCTTTATTTTAAACTTTTACTGTATCGTCCCTTTTGATCAAGGGAATGGAAGATTGGCTATCCTATTACTGCATTTATTATTACTACAGAATGGGTATACGTTTATAAAATATATATGTTTAGACAAATATATAAAAAAGAACGAATCAACTTATTACGAATCTATTTATCAATCTTCTGCGAATTGGTACTACAGCGAACATAATATTAGCTTCTGGTTAAAAAGCTTATTAACGATACTAGTAGAAGGATATCAAGACTTGAATCAAATACTATTGGGTTCTATAGATAAGCAGACAAAAGCGCAACGAATTAAGCGCTATATTCTGCAGCAAACAGACACATTTACACGAGAGGATATTCGCGGAGTCTATCCAGACGTGGCTGAGAGTACAATTAGTACAGCTTTTGCTGCTTTACAACATTCCGGTCATATTAAGCTTATCTCAAAAGGAAGAACCGCAAAGTGGATACAAGTTCACCATTTAGATTAA	MRNFFEETYININFKREFIQLISDISEYRGKLSVYQSQKHSTLHHLEKNILLQYMINFTTMYQDIRVPNTRVKELLLNDFPPQTTKEDAVYCYYQTLSLVHQTFDTLSISPETIQELHFQLLHYSTSDSGKWRQKKFLIPGMPAYEGHISSYRLLPHEQVPQSVKELCEQYNALRANKDMHALPLIARFILNFYCIVPFDQGNGRLAILLLHLLLLQNGYTFIKYICLDKYIKKNESTYYESIYQSSANWYYSEHNISFWLKSLLTILVEGYQDLNQILLGSIDKQTKAQRIKRYILQQTDTFTREDIRGVYPDVAESTISTAFAALQHSGHIKLISKGRTAKWIQVHHLD				NA	NA	NA	NA	NA
AK009_09872	573			hypothetical protein	ATGAAAAAGAAACAAAGAATGATCGTAGCCGCAGCCATGGCAGCCACATTAGCTACAGGTGCATTGCCTACTACATCAGCGTTTGCTGCAGAAACACAAGCTCCTATCCAACAACAAGAGTTACAAATGGGTATTCAACCGTTCGCACAGAGTAATTTAGAAACAGCAGTTAAGGCTGCCTTATATGGTCCGGAAGTCAAAAAAATAAAAGTATTTGAGCATGAATTTAATGTGAAACCAATTGAAGTGGTAGATTTAGGTGGCGGGAAAAAATATGTGAAAGGACAAATTTCTCATCATTTAAGTTTCCGCCCAGATGATCAATTGTATTATGATTTTACAGTGAAAGACGGAGAAGTAATGGGTACGCCTCAATATCATATTGATAGAGGTGGTTTAACACCATTTGCAGCGCCTCTTTTATCAATCATTGCTGCATATAATGGCATTCCAGTTAATCCAAATGATTTAAACACACTTGGTCAACAGATTGGAAAAGTAATTGATGGAAGCTGGGAACATGCAGCACAATCTATTGCTACTGTAGTTAGTCTAAGTTTTAATGAGAAGTAG	MKKKQRMIVAAAMAATLATGALPTTSAFAAETQAPIQQQELQMGIQPFAQSNLETAVKAALYGPEVKKIKVFEHEFNVKPIEVVDLGGGKKYVKGQISHHLSFRPDDQLYYDFTVKDGEVMGTPQYHIDRGGLTPFAAPLLSIIAAYNGIPVNPNDLNTLGQQIGKVIDGSWEHAAQSIATVVSLSFNEK				NA	NA	NA	NA	NA
AK009_09875	471			hypothetical protein	ATGGGCATTAACAGTACAGAAGCCGACACAGCACGAAACCCGCCGCGGCACGTTCCTGTTGAAGGGAAGGCGCCGGGCGGGCGTCGTTTAAGCGAAATGCTCTTACGCGGCGTTGACCGGAGCGTTAACGTCCTCCGGGAGGGCGTTCTTCGCGACCTCGCAGATGGCGGAGAAGGTAGCGAAGTCGTTGACGGCGAGATCGGCGAGGATCTTGCGGTCGACCTCAACCTCAGCCAGCTTCAGACCGTGGATGAGGCGGTTGTAGGTGATGTCGTTCATGCGGGCTGCAGCGTTGATGCGCTGGATCCACAGCTTGCGGAACTCGCTCTTGCGCTTGCGGCGGTCGCGGTAAGCGTAGGTCTGGGAGTGCAGCCACTGCTCCTTCGCCTTGCGGTACAGGCGGGAGCGCTGGCCGCGGTAGCCCTTGGCCGACTTGAGAATCGCGCGGCGCTTCTTCTTGGCGTTAACTGA	MGINSTEADTARNPPRHVPVEGKAPGGRRLSEMLLRGVDRSVNVLREGVLRDLADGGEGSEVVDGEIGEDLAVDLNLSQLQTVDEAVVGDVVHAGCSVDALDPQLAELALALAAVAVSVGLGVQPLLLRLAVQAGALAAVALGRLENRAALLLGVN				NA	NA	NA	NA	NA
AK009_09876	273			hypothetical protein	GTGGCGGGCAGCCGCGTCGGTAATCGCGTGCGCGTAAACGTCCATGTACTCCGCTGTGGTGAGGATCTCCGCGAACTCCACGGCCGCGGACTCGGTGACAAACACGTCCGTCGCTGCGCCCGTGGCCACGGCCGCCTCCACCGAGTTCGCTCCCTCGACGATGAAGCGCCCCGCCTTCTTGCGCGCCGCCGCGCGGTGCAGCTTCGCCGCGTTGACGACGCGCGGGGTGCGTTCCGTAAAAGCCTGAGTGAAGTCGAGTGCCATGGGCATTAA	MAGSRVGNRVRVNVHVLRCGEDLRELHGRGLGDKHVRRCARGHGRLHRVRSLDDEAPRLLARRRAVQLRRVDDARGAFRKSLSEVECHGH				NA	NA	NA	NA	NA
AK009_09877	267			hypothetical protein	GTGGCCGCGGATGGGAATGGAGACGCGGTGGTCGGCGGCGTCGATAAGCTCCTGCGGCAAGCCGTGGGCCTCGTTGCCGAACAGCCAGGCCGTCGGTTGCGCCACAACCTCCTGCGCGTCGTCGAGGCTGACCTCACCGCCCATTGTTGTCGCCGCGAGACTCAGACCGGCCGCGCGCAGCTGGCCGATGACGTCCGAGACGTTGCGCTCGCGCGCGACAGGCAAGTGGAAAATCGACCCAGCCGAGGCGCGAACCGCCTTGCTTGA	MAADGNGDAVVGGVDKLLRQAVGLVAEQPGRRLRHNLLRVVEADLTAHCCRRETQTGRAQLADDVRDVALARDRQVENRPSRGANRLA				NA	NA	NA	NA	NA
AK009_09878	945			hypothetical protein	TTGGGAAATCAGCATTGTCTGCTCCTCGTTCGTCTTTTCTTCGCTGTCTTCGATTACCTTCTACGCCTGCACGCCGAACGGCAGGGTGAAACGGACATCGCCCTCGACCATGTCGCGCATGTCCGAGAGCCCGTTGCGGAACTGCAGCGTGCGCTCCAGCCCCATGCCGAACGCGAAACCGGAATACTCCTGCGGGTCGATGCCGACTGCGCGCAGCACGTTCGGGTTGACCATGCCGCAACCGCCCCACTCGATCCATCCGGCACCGCCCTTCTTGTTGGCGAACCAGACGTCCACCTCGGCCGAGGGCTCGGTGAACGGGAAGTAGTTCGTGCGCATGCGCGTCTTCGCTTCCGGGCCGAAGAGCACCTTCGCCAGGTGGTCGAGGGTGCCGCGCAGGTGGGCCATGGTCAGGCCCTTGTCCACGGCGAGGCCCTCGACCTGGTGGAAGACCGGGGTGTGGGTCGCGTCGAGCTCGTCGGTGCGGAACACCCGGCCCGGGCACGCGATGTAGACGGGAACGTCGCGCTCCAAAAGGGTGCGGACCTGTACTGGCGAGGTGTGGGTGCGCAGCACCTGGCGCGAGCCCTCAGCGCCGATGTAGAAGGTGTCCTGCAGCGTGCGCGCGGGGTGGTCCGGGATGAAGTTCAGCGCGTCGAAGTTGAAGTACTCCGCCTCGACCTCCGGGCCCTCGGCAACCTCCCAGCCCATCCCGAGGAAGATGTCGGCGATGTGCTCGGACAGGGCGGTGATCGGGTGCATCGCGCCGGTCTGGTGGCGCGTCGTGGACACCGTGACATCGACCTTCTCGTCCTTCAGGCGCTGCTCGCGGTACTCCGCCTCGCGCACCTCACGCACCTGCGCATACGCCTTTTCGACGCGCCCACGAGCCATGTTGACCAGCCGGCCCGTGTCTTTGCGCTGGTCCTTCGGCAGCTGCCCTAG	MGNQHCLLLVRLFFAVFDYLLRLHAERQGETDIALDHVAHVREPVAELQRALQPHAERETGILLRVDADCAQHVRVDHAATAPLDPSGTALLVGEPDVHLGRGLGEREVVRAHARLRFRAEEHLRQVVEGAAQVGHGQALVHGEALDLVEDRGVGRVELVGAEHPARARDVDGNVALQKGADLYWRGVGAQHLARALSADVEGVLQRARGVVRDEVQRVEVEVLRLDLRALGNLPAHPEEDVGDVLGQGGDRVHRAGLVARRGHRDIDLLVLQALLAVLRLAHLTHLRIRLFDAPTSHVDQPARVFALVLRQLP				NA	NA	NA	NA	NA
AK009_09879	423			hypothetical protein	GTGGTGGCGTGCCGAGCGCGCGACCGTCAGCGCGTCCCACGTGGCGGCCTCGAAGTAGACGTTAGTGGTCCTATCCGAGATCTCGGAGGTCGTGCCGCCCATGATCGCGGCGAGCGACTGGATGCCGTTGTCGTCGGAGATGACCACGTCGTTCGGGGTCAGTGTGCGCTTCGCGTGGTCGAGAGTCTCGAAGGTCTCGCCGCCGCTCGCGTTGTGCACGCGGAGGTTGCCGGCGACCTTGTCGGCGTCGAACGCGTGCATCGGCTGGCCGAGCAGCAGCATGACGTAGTTGGTTACATCCGTCGCGGCGTTAACGGAACGCACGCCGGACAGCATGAGGATGCGCTTGAGCCAGAACGGCGCCTGAGCCTTTGGGTCAATGCCCTCAACCTTGCGCAGGCCGAACCGCTGGGCCTTGGTTGA	MVACRARDRQRVPRGGLEVDVSGPIRDLGGRAAHDRGERLDAVVVGDDHVVRGQCALRVVESLEGLAAARVVHAEVAGDLVGVERVHRLAEQQHDVVGYIRRGVNGTHAGQHEDALEPERRLSLWVNALNLAQAEPLGLG				NA	NA	NA	NA	NA
AK009_09880	417			hypothetical protein	ATGTCTCACGGCACTGGAGATCACGGCCCGAAGCCCTACGCAGTAGACATTGAGAAGGCCACGGTCGACAACGACGCCTTCCGTGACACCCTCTGGACCGGCGAGCACCTGCAGCTCACCGTTATGACCATTCCTGCCGGTGGCGAGATCGGCGCTGAGATCCACGACGACCACGATCAGTTCCTTCGCCTCGAGGCTGGCTCCCTGCGCGCGATGATCGGCACGAGCGAGACCGAGCTCGAGCTCGACGAGACGGTCCACGACGACTTCGCCATCTTCGTGCCGGCCGGCAAGTGGCACAACTTCGTCAACGAGGGCGACGAGCCCGCGAAGCTGTACTCCATCTACGCTGCTCCTGAGCACAAGCACGGCACCTTCCACGCCACCAAGGCGGACGCGGACGCCGCTGAGCACTAG	MSHGTGDHGPKPYAVDIEKATVDNDAFRDTLWTGEHLQLTVMTIPAGGEIGAEIHDDHDQFLRLEAGSLRAMIGTSETELELDETVHDDFAIFVPAGKWHNFVNEGDEPAKLYSIYAAPEHKHGTFHATKADADAAEH				NA	NA	NA	NA	NA
AK009_09881	951			hypothetical protein	GTGAGCGGCCCGACTGTCTACCCCCTCGCGCCCTCGGCGTGGGGGGCAGCAGAAGAGATTGACGTCGACCACTTGGTCCAGGCGCTGCTTTTCAGCGACGTGACCAGCACGTTCGGCACCACCTACCTCGAGGTTCGACTTGAGCCGGACCCGCTGACCCGCGGCTGGCGAGTGCGCGCGGGCGAGCACGTGATCGGTGCCATCGCTGCGGCTGTGCGCAGCCGCTTCCCCGCCATCGAACGCATCCACGCGTCCGGCTTCGTGCCGAGCACCATCGCGGGGGCCCGCTTTGATTCTGAGCGAGGTCGGTGCGATGTGCAGGTGTACCTGCCCCCGCCACAGATGTGCGTGCCCCGCAACAATGCCCCCGCGGGCGCGGTCGTTCTCGGCCCCGGCGACATGATCGCCGTCGACACCTCGACCGGCGAGTTCACCGCCGCCGAGCTGGCTGCGCGCTCCCCCGGCCAATGGCTGGTTGGTCTGTCGATTGTCGGCGACGCCGTCGTGATCACCCTCGACGGGCGCGTACTGGGCACCGTCTCTGATGCCGACAACGCCGCATTAGCGTCGCTTATCGACGCCCCCACCTCCTACGCCCGCGCCCACATCATCGACGCGATGGTTGGCCTCGACGTTTCCGAACCGGCCACGGAGCCGGCCCCCGTACCAGCGTTAACTGTGCCGGCGCCGGAACCCGAGCGCGACTGGAACTTGGTCACGTTCCCCGACGGAACGTGGTCGGTGGTTGTGGAACGTGACGCTGCGATCGACCCGGAAGATATCGCTGCGCCGGCTCGTCGATCTCGCCCCGTGGCGGGTCCGGCTTCGATTGACTTCACGCCTACGACGAGCTTTCGGGCGTCGTCGGCCGCCTACCTCACGGAGGTGGAGAAGATGCGCATCCGCCGCGAGCAGCAAGACGCTTCCAAGGGTGGGCGGCACCGTCGGTAG	MSGPTVYPLAPSAWGAAEEIDVDHLVQALLFSDVTSTFGTTYLEVRLEPDPLTRGWRVRAGEHVIGAIAAAVRSRFPAIERIHASGFVPSTIAGARFDSERGRCDVQVYLPPPQMCVPRNNAPAGAVVLGPGDMIAVDTSTGEFTAAELAARSPGQWLVGLSIVGDAVVITLDGRVLGTVSDADNAALASLIDAPTSYARAHIIDAMVGLDVSEPATEPAPVPALTVPAPEPERDWNLVTFPDGTWSVVVERDAAIDPEDIAAPARRSRPVAGPASIDFTPTTSFRASSAAYLTEVEKMRIRREQQDASKGGRHRR				NA	NA	NA	NA	NA
AK009_09882	606			hypothetical protein	ATGATCCCGTTGACTAGCTGCGCGACCACACCCACCGGGCTCATCCACTCGCCGCGCAGGCCGGTCTCGCGGAAGGAATCGCCGAAGATGAGCGCGAAGGTGCCGTTGGCTAGCGGGGCCATGATGCCGAGGTCGCCGGAGCGGAATCCCACCAGGTCAGAGATGCCGGGGCCAAGAATGTCACCCATGATCTGCACGATGAACTCTCCGGGCATGACCACAGGGGTGCCCGGCTCGGTGTGGTTGAGATCAGGCGCGGTCGGGCGCGTGCCACTTGAGCTCAGCGAACTTTGTGCAGTCGCCGGGGATGACGCGAGATTGAAAAGCGTCGTTGCGCTGAGAGCAGCGGTGGTGACGAGGGCTAGGGTGCGGGCGGTGATGCGCATGGGACTTTGGGGACTCGCTTCGGTAATTCGGTTCGGGAACGCTGGGGACTATACCGGTCTGGGGGGTGCGCTGGGGAGCTTGTTGGTGGTGCGAGTTTTCTTGAGGTCTAGTAGCTATACCTCAGCGCGCCCGAACAAAACCCGAACTACCGACGGTGCCGCCCACCCTTGGAAGCGTCTTGCTGCTCGCGGCGGATGCGCATCTTCTCCACCTCCGTGA	MIPLTSCATTPTGLIHSPRRPVSRKESPKMSAKVPLASGAMMPRSPERNPTRSEMPGPRMSPMICTMNSPGMTTGVPGSVWLRSGAVGRVPLELSELCAVAGDDARLKSVVALRAAVVTRARVRAVMRMGLWGLASVIRFGNAGDYTGLGGALGSLLVVRVFLRSSSYTSARPNKTRTTDGAAHPWKRLAARGGCASSPPP				NA	NA	NA	NA	NA
AK009_09883	177			hypothetical protein	GTGCAGCACGTTGCCGATGCCGCGGTTCCACATGCCCTGCATGTACAGCGTGCCGTCGATGTTAATCAGGTCGGAGGGAATGAGCGTGAGGCCGTCGACGTGCGGGTAGTTCAGCAACTGCTCGACTTTATCGCCGGCGTTGAGCGGGCGGATGATCTCGATGATCCCGTTGACTAG	MQHVADAAVPHALHVQRAVDVNQVGGNEREAVDVRVVQQLLDFIAGVERADDLDDPVD				NA	NA	NA	NA	NA
AK009_09884	303			hypothetical protein	TTGCTCGTTGGTCCAGCTGCCGTGGCGCGCGATCACCGCCACGGGCACCGAGTTCCAATCCTGGGCAAGCGTGTCGGAGACGCGGACCTCGATCTGCAGCGTCTGCTCGTTGAACATTGCCAGCACCCAGTGGCCGTCGATGAAGCGCAGGTTCATCTCACCGGCCTGGACCCCGCTCAAGATCGGCGCGCCGCTTGTCGACCACGAGCCCGTTGCGGGGGTGAATACCTCCCACGCCGAGCGGTCGGCGATGTTGTCGAGCGTGAAACGGGACAGGTAGACGGGGTGGTCGCGCTTGAATGA	MLVGPAAVARDHRHGHRVPILGKRVGDADLDLQRLLVEHCQHPVAVDEAQVHLTGLDPAQDRRAACRPRARCGGEYLPRRAVGDVVERETGQVDGVVALE				NA	NA	NA	NA	NA
AK009_09885	258			hypothetical protein	GTGCGGGTTGGCGTTGGTGGGGGCGTCGATAAGCGGCTAGTTCGTGGCTTGCTCGAGCAGAGCATCCTCGAGGACCTGCTCCTCGACGGCCGCGGCCGGCTGCTCCTCGACGCTCACGACCTCCGGGGCCTGAATCGCGGGCTTATCGACGCCAAAATACGTGTCCAGGCCCTTGACGTTGAACTGGGTGGAGTTGTAGCGGCTGTTGTTGGACGTGTTCCACTGCGAGATCACGATGTCCATGTTTGCCAGGGTTGA	MRVGVGGGVDKRLVRGLLEQSILEDLLLDGRGRLLLDAHDLRGLNRGLIDAKIRVQALDVELGGVVAAVVGRVPLRDHDVHVCQG				NA	NA	NA	NA	NA
AK009_09886	465			hypothetical protein	GTGGTCGAGCACCGTGGCGACCCACCCGCTGGCCTCGTAGCTGTACTCGACGCGGGTGGCGTTGCGTGCGTCAACTGCTTGGAAAAACTCCAAGCGCACCGGTTCGACGCGCAGGATGTTGACGCGCTCGTCGGATGCGCCGTCGAGACGCGCGGCTCCGCGGACGCGCACCGCGCGGTTCATCGGCTGCCACCAGAAGTTCAGCGCCGCGACGGGGCTGTCGCTGAGTTGCTCCACTTTCGTGGAGTCCGCGCCGGTGCCGAAGCAGAAGCCGGTGTCACTGAGCTCCATGAGGTTCATCACGCGCGCGTCGGGCACGCCGTTTTCGTCAACCGTCGCCACCGTCGCGGCGCGCACGTCGTCACAGCCCGCGGCGACTGCTGCTTCGAACCATTGGGTGAACAGCTCGAAGGGGTCGCCGGGCAGGTTGGCGGTATCAAAATCGGGCGCGCTTCCGGTCAGTGA	MVEHRGDPPAGLVAVLDAGGVACVNCLEKLQAHRFDAQDVDALVGCAVETRGSADAHRAVHRLPPEVQRRDGAVAELLHFRGVRAGAEAEAGVTELHEVHHARVGHAVFVNRRHRRGAHVVTARGDCCFEPLGEQLEGVAGQVGGIKIGRASGQ				NA	NA	NA	NA	NA
AK009_09887	447			hypothetical protein	GTGGTTGCCCACTGCCGAGACGTCGAGACCCATGAGGTTCATGATGTCGATCGTCGGCTGGTCGTCAAGAATCATCGATTCGAACGGCGAGGCACCGATGAGGTCGCCCGAGGACGTGAACGCGTGCGCGCGGCCCGCAGCAGCCTCGTCGACGGCGCACTTGAGCGCCACGGCGCCAGGGATCGACTTGTTCGGGTCCTTCGCGTCGAGCTTTTGCTCCCAGCGGCCGTGGAAGTCGGTGATATTGGAGACGGTGAACTCGCTGACGGTCTGTGCCGAGGCGAGCGGCAGGCCGGCCAGCGCGAGGGCGCTGACCGACACTGCGGCGAGGGAAGTGGTTACGGAGCGAAACCGCATGGGGACAGGTCCTTTCACAAAGCACATGCAGGAAGTTATGCGATGATCACCATAGGGTTTCAAGGTGGATCGCAGGTGCCGGCTTGTTGA	MVAHCRDVETHEVHDVDRRLVVKNHRFERRGTDEVARGRERVRAARSSLVDGALERHGARDRLVRVLRVELLLPAAVEVGDIGDGELADGLCRGERQAGQREGADRHCGEGSGYGAKPHGDRSFHKAHAGSYAMITIGFQGGSQVPAC				NA	NA	NA	NA	NA
AK009_09888	291			hypothetical protein	GTGCACATGCTTCTCGAGCAGGTTCGGCACTCCCCAGACGCGATTGAGTTGGATATCATCACCGATTCCTTGACCGTGGCGCGGGTGATGAATTCCGACGCGCGGCGCCCGTTCGCGCTGAACTACGAGCGCCGCGCCATGGCGGAGCTGGATAAGGTGCGCGCGCGGGGTGACGGTTCGGGTCAGCTGGGTGCGAGGCCACGCTGGCAACCCGCTCAACGAGCTCGCCGATCGCGCCGCGGTGGCCGCCCGCCGCTGCAAGCAATGGGAGCAGCCGCGGGGTCCGATTAA	MHMLLEQVRHSPDAIELDIITDSLTVARVMNSDARRPFALNYERRAMAELDKVRARGDGSGQLGARPRWQPAQRARRSRRGGRPPLQAMGAAAGSD				NA	NA	NA	NA	NA
AK009_09889	690			hypothetical protein	ATGAAGCACGTACTCGGATTTGCGGCGGTCGCCGCGGCAGCGACACTCACCCTGACGGCCTGCGGCGAGCAGGACACTGCGGAACCGACATCTGCCCCGGCGGCACAGCCGGCCACGACGGAGGCATTGGCGCCCGCCGCCGCACCCGCAGCACCGGCTGGCATTCCCGCTGGCTACACGGAAGAGGACTTCTACGCGCTGTTCGGCTCCATCGAATCGCCGGGCGTTCCCACCGTCACCCCGCCGCAGTGCACCCCGCTCGCATTCGACTCCAGCACGCTGGTCGAATGGGGTGCGGTGCCGCCCGAGCAAAAGCCGGTAACGATGTACACCTCCGCGGGCGAGCAGATGGTGTTCGTGCGCCAGGACGCCGAACTCGCCGGATTCGACGCAGCCGGCTGCGAGAGCTTCACGCGCGAGAACACCACTCCCCTGGGCACGACGGTGACCACGTACACGACCGCGCCGATCGACGTGAACGTCCCGGGCGCCGACCGCGCGCAAGGGTTCACCCAGACCGTCACGGGCGTCACGCTCGACGGCACCGACATGGGCGCGATGAAGGCCGGCGAGCAGTCGACGCTGCTGGTCGTCGAAGCGGGCGACAACACCTACTTCGTGGCAGGCAGCGGCGGAGCGACCGTGGACGATGTCACCACGCTGGCGCAGGCAAATATCGCTCAGGGCTAA	MKHVLGFAAVAAAATLTLTACGEQDTAEPTSAPAAQPATTEALAPAAAPAAPAGIPAGYTEEDFYALFGSIESPGVPTVTPPQCTPLAFDSSTLVEWGAVPPEQKPVTMYTSAGEQMVFVRQDAELAGFDAAGCESFTRENTTPLGTTVTTYTTAPIDVNVPGADRAQGFTQTVTGVTLDGTDMGAMKAGEQSTLLVVEAGDNTYFVAGSGGATVDDVTTLAQANIAQG				NA	NA	NA	NA	NA
AK009_09890	408			hypothetical protein	GTGGCCTGCGAATATGTACATGGCGTGGCTGTGGCGCAACAAGCCATGGTACCTCCAGGCCATCAGCATCGGGCGCATCCCTCTGCAGATCCCGCTGATCCGGGCGGCGTGGGGGATCTACAAGGGCCGGTCCTAGTGGTTTCGGCAGAGAGGTTGCGTGAAGGGATCGTCGATAAGCTTGCGGCTCGTGCCGCCGAGTCGTCGATCTGCCCGTCCGAGGTCGCGCGCGAGCTTGGCGACGACACCTGGCGCGACCTGATGCCAGCCGTGCGCGAAGCTGCTGCTCACCTCGCACGCCAAGGGGTTGTTGCGGCCACCCAGGGCGACAACGTGGTTCAGGCCGATGGCGCGAAAGGGCCGATCCGGATCCGTCGCGGACCGCAGTGGGGCGCGTCTGAGGCCCCTTAG	MACEYVHGVAVAQQAMVPPGHQHRAHPSADPADPGGVGDLQGPVLVVSAERLREGIVDKLAARAAESSICPSEVARELGDDTWRDLMPAVREAAAHLARQGVVAATQGDNVVQADGAKGPIRIRRGPQWGASEAP				NA	NA	NA	NA	NA
AK009_09891	312			hypothetical protein	GTGGGTCTTCCTTGCTGTAGCACTGGTGTCCACCGCGCTGGGTTACGCGGACCGCCAGCTGGGCACCTACCTCGCGGCGGTGTTCTCGCTGGTCATGATCGTGCCGTTCCTCGCGCTGTTCTCCCGCAGGCTACGGGACGCGGGCTTTTCGCCCATCCTGTTGCTCCTGCTGATTATCTCGGTGCTGGGCGGCCTGATTCTGCTGGGGATGGCGCTGTTTGCGTCGGCGGGGGAGGAATCTACTTGGAACAACTAACTAGGCACGCCGGCGCACCGTGGCTACCTTCGGGCACCGCGGGCAGGACGAGCTAG	MGLPCCSTGVHRAGLRGPPAGHLPRGGVLAGHDRAVPRAVLPQATGRGLFAHPVAPADYLGAGRPDSAGDGAVCVGGGGIYLEQLTRHAGAPWLPSGTAGRTS				NA	NA	NA	NA	NA
AK009_09892	828			hypothetical protein	ATGCGACAAGAATCCTGCGACGACTACCTGAATGACCTGCTCAACCGCATCGAGGATGCGGCTGACTCCACCGACAAGTTCTTCGAGATTATTGACTCGGTAATCAAACGCACCAACAGGCTGTCCGCCTACAACGCCCTGCTCGTCGAGATCCAGTGCCCGGGCTCGAACAACACCATGCCGGCGGGTGAGTGGGAAAAGCTGGCCCGCCAGCCCCGCCCGTCAGCAATACCGCAGTTGATCCTGTGGAATCACGGCCCGGTTGCGCCTGTCTACGAGTTTTCGGACACCGAGCCGATCCCGGGCCGCGAAGTTGAGGCGGTCGACCTCACCCCGTCGTTCGAGTTCGCGGAGGCCATCGACGACGTTGGGCCGTACGTCGATAAGCTGCTGGAGCACGCCTGCCACATTTTGGGATCGACCCGATGCCCTCTCGCCTCGGCGGCAACCGCGCGGGAGATGCTTTTCGCAGTGACCGCGGAACCAAAGTCATCATCCGTCCGAGGAAGGAACAGCACTTCAAGCTGCGGTTTGTCGCCCGCTACAACGCGTCGCACTCCCCCGAAACTCAGTTCCAAACCCTTGTCCATGAGTACGCTCACGCCCTCCTCGGCCATCTCGGGCCATACGATTCGGATGACCCAGAGGAGAAGTGGACTCCGACTGCACGCGCCCGCTGCCACATGGACAGGACGATCCAGGAACTCGAAGCCGAGGCGGTCGCCTACATTGTGTCCAGGAGCAAGGGGATCGACGGCAAATCGGCCGAGTACCTCCGCACTTACGTGGGCGACGCCCTGGATGGCGGCGCGGGCTGGCCAGCGTTAA	MRQESCDDYLNDLLNRIEDAADSTDKFFEIIDSVIKRTNRLSAYNALLVEIQCPGSNNTMPAGEWEKLARQPRPSAIPQLILWNHGPVAPVYEFSDTEPIPGREVEAVDLTPSFEFAEAIDDVGPYVDKLLEHACHILGSTRCPLASAATAREMLFAVTAEPKSSSVRGRNSTSSCGLSPATTRRTPPKLSSKPLSMSTLTPSSAISGHTIRMTQRRSGLRLHAPAATWTGRSRNSKPRRSPTLCPGARGSTANRPSTSALTWATPWMAARAGQR				NA	NA	NA	NA	NA
AK009_09893	168			hypothetical protein	GTGATTGAGACGGCCGCCCTTGCCCCGGTCGTTGACGGGATCGGAGTTGATCGCCGCAGTCACACGTTTCGCGCCGTAGCAGCCGTTCTCGGCGTTGAAGGTGGTCTTGATCTGCGCTCCCAGCACCGCGTCATCGACGAGGCGTTGCCGGCGGGCAGGGGCAGCTGA	MIETAALAPVVDGIGVDRRSHTFRAVAAVLGVEGGLDLRSQHRVIDEALPAGRGS				NA	NA	NA	NA	NA
AK009_09894	609			IS6 family transposase IS1628	ATGACCGAGCGGGGTGTGCCAGTCGATCACACCACGATCTACCGCTGGGTGCAGAAATACGCCCCTGAGCTGGATAAGCACACTCGGTGGTGCCGGCAGGTACCCGACTGGCAGGCCCGGTCCTGGTGGGTGGATGAGACCTATATTCGGGTCGGCGGCACGTGGTGCTATCTCTACCGGGCTATTACCGCCGGTGGGCAGACCCTGGACTTTTATCTCTCTCCGAAGCGCGATGTCGCGGCGGCCAAGCGTTTCCTGGCCAAGACGCTGCGATCGAATACGACAGCCGGGTCCCCGCGGGTCATCAACACCGACAAGGCACCAGCTCTGGCCAAGGCAATATCCGAGCTGAAGGCGGAGGGAATCTGCCCTCAGACGGTGGAGCACCGGCAGGTGAAATACCTGAACAACGTTCTCGAGGGAGATCATGACCGACTTAAAAGAATCCTGAGGACGAAGGGAGCGTTCAAAAACCGAATTTCCGCCTACCGAACGTTGAAAGGGATGGAAGCGATGCATTCATTACGGAAAGGCCAGGGCACGATGTTTGCCTACGGGCACCCGAACCCAGACGCGGTGATCGTCAGCCGGATATTCGAGACAGCTTAA	MTERGVPVDHTTIYRWVQKYAPELDKHTRWCRQVPDWQARSWWVDETYIRVGGTWCYLYRAITAGGQTLDFYLSPKRDVAAAKRFLAKTLRSNTTAGSPRVINTDKAPALAKAISELKAEGICPQTVEHRQVKYLNNVLEGDHDRLKRILRTKGAFKNRISAYRTLKGMEAMHSLRKGQGTMFAYGHPNPDAVIVSRIFETA	PGPT0030615_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_09895	1086			hypothetical protein	ATGAAGGGTGCGGCAGCTGCAGAGACAGTGGGGGACCTGGCGTCTCAACAGTGGGGACTGGTCACCACAGCCCAGGCCGCGGCGCACGGTGTTGATCTGCCCTCATTGCGCCGTTTGGCCATGCGGGAGGTCATCACCCGCATCCGGCACGGAGTGTACGCAACCACAGGCACCCCGCTCTCGGCTGAGCTCGAGGTCAAGGCACACTGGCTGGCTGTGCACCCGGAACTCATGGCCGCCGAGCGCACCAGTGACCCACAGCTCGCCGTAGAAGCGGTGGTCTCGCACACGACGGCCGCCGAGTTGTGGGGGGTCGGGGATTTTTGGCCGGACGGAGTACACTTCACGACGGCAGTAAGACGGCGCAGCCGACAGGCGGACGTTTACTTTCACCGAGCCGACCTTAGAGATTCTGACTGGGTGCTTCACCCGACTTCGGGCATGCCAGTGACCACTGTCGCGCGCACGGTTGCCGATCTCGCTGACGAGGGACACGAAGCCGACCATCTCCTCGGCCTGGCCGCAGACGCCGCTCGTGCGTCCTTAACGATGGAGCGGGACCTGGTGGAGGCTCTTGCCGGTAAAGAAGAGGTCTTCGGACTGACCGCAGGGGATAGAGCAGGATTGGCACGTCTTGTGGGGGAGTACTTCCCCACGGTGGAGTTGGATCCACGAATATACGAAGAAATCGATAAGGCAATGCGCCCAATCCGGGAACAGATCGACACACTAATGCGGTCACTGTCACCACAGATCACCATGAGTGAAAACCTGGAGAGAACGGTGGACGGGGGTTCCCTGGTACCTGATCTTTTCGAGGATCTGAGGAAGAAGGTAATGACCGGGACAGACGAGAAATTCCTAGCGTTGCCGGCCACTGCAGAAATAGCGCGCCTCACGGAAGCGGCCTTCGGGAAAATGGTAGTCCCGGAATACCCCACCCTGGCAGCCTTACCTCTGAAGCGACAGAACGAAGAAAGCGCCGGCCCCAATGACCAAGAAACCCCTGAAAACCACCAAGACCCACGGCCAGATCATCGCCGTGTTGAAAAAGGAAGCGAAACACCTGGGAAAGAACCCGAATGA	MKGAAAAETVGDLASQQWGLVTTAQAAAHGVDLPSLRRLAMREVITRIRHGVYATTGTPLSAELEVKAHWLAVHPELMAAERTSDPQLAVEAVVSHTTAAELWGVGDFWPDGVHFTTAVRRRSRQADVYFHRADLRDSDWVLHPTSGMPVTTVARTVADLADEGHEADHLLGLAADAARASLTMERDLVEALAGKEEVFGLTAGDRAGLARLVGEYFPTVELDPRIYEEIDKAMRPIREQIDTLMRSLSPQITMSENLERTVDGGSLVPDLFEDLRKKVMTGTDEKFLALPATAEIARLTEAAFGKMVVPEYPTLAALPLKRQNEESAGPNDQETPENHQDPRPDHRRVEKGSETPGKEPE				NA	NA	NA	NA	NA
AK009_09896	453			hypothetical protein	GTGTTGAAAAAGGAAGCGAAACACCTGGGAAAGAACCCGAATGACGTATATAATCAATTCTTCCGGGAGACTTTCCTGCGTGAATTAATGCGGCAGACCAGCGGGTGGGTGCTCAAAGGGGGCTCAAACATCTACTGCCGTATCCCCGGGGCGCGGCACACTCGTGATCTCGACCTGTACCGGCAGGTTGACCCCACCTCCGCCACTGGCGCCGCCGACGCGCTGATAGCTGCCATGGATGGGTGCCAGGTGGGACCGTACACGTTTCGCCTCCGCCGCCCCGACAAGCAAGGCAAAACCGGCGCCATTGACAGTGAACGCGTCGACGTCACCATCACTTACGGCGTCAACAGCCGGCTCATTCATTTCGGTGTGGACGTCAGCGGGGACCTTGAGGTGACGGGAGCGGTGGAAGCGCTCACGGTAGAGGCGAGCTATGAGGTGGACTGTTAG	MLKKEAKHLGKNPNDVYNQFFRETFLRELMRQTSGWVLKGGSNIYCRIPGARHTRDLDLYRQVDPTSATGAADALIAAMDGCQVGPYTFRLRRPDKQGKTGAIDSERVDVTITYGVNSRLIHFGVDVSGDLEVTGAVEALTVEASYEVDC	PGPT0027691_4921	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na	NA	NA
AK009_09897	3186	recD2_3		ATP-dependent RecD-like DNA helicase	ATGGCCGTTTCAGGCGAAGGTATCCATTTGACCGACGAGTTCAACGAGGCGCTTTCCGCGTTACGCGGTGGTGAAAACGTTCTCATTACAGGCAATGCTGGGACCGGTAAGTCGACACTGTTGCGCCTCTATCTCGACGAGCGTGGCACTGACGATGTCATTGTCACTGCGCCTACGGGTGTCGCGGCACTGAACGTCGGGGGATTTACCATTCACCGCGCTTTCGGGTTTCGCCCGGGATATTTTCCAGACGACCTCAAACCAGGAGGGAAATGGCGACCGTCTGCTTCCGTGAACAAGGTCCTCAGTGCGATCAACGTTCTTGTCGTGGATGAGATCTCCATGGTGCGTGCCGATTTATTCGACATGATGGACATCGCGTTGCGCAGCATCCGCCGCAGTGAGGAGCCATTCGGTGGAGTGCAGCTGATACTGGTCGGTGACCTCCTCCAACTCGCGCCCGTGGTTACCGACGGTGAGCGCGAGCTGTTTAGCACTGTGTGGGAGTCGCCCTATTACTTCTCGGCGAAGGCGTCTGAGCGGCTTCGACTCACCGAAATCAACCTCACGACAGTCTGGCGGCAGTCAGATGAGACGTTCATTGAGATTTTGAATGAAGTGCGCGAGGGGTCGGTGGGCGAGGGAGCACGCGAAATCCTCAATTCCTACGTTGATCCAGATTTCGTACCACCGCAAGATTGGGTGACGTTGGCATCGCGCAACAGGCGTGTTGACGCAATCAACAAGCAGCGCCTTGAAGCTCTGCCAGCAGAAAAGTTCGTTTCCGTCGCTGTGTACACCGGCGACGCCGACGCAAAGTCATTCAACGGCAGCGAAGAACTCACATACGCGCGCGGGGCGCGAGTGATGACACTCATCAATGACTACGCGGGGCGCTTCGTCAACGGCAGCTTCGGTGAAATTGTCGAGGCATCTGCTGATGAAATTGTAGTTTCGTTGGACAACGGTGAGCAGGTTGCTTTAGGAAAGCACACCTGGGAGATTGGAAGGCCGCAGGTTGCCGACGGCAAGGTTTCAAGTGCAATGGTCGGCACCGTGACACAATTCCCGGTCAATCTCGCGTGGGCAATTACGATTCACAAATCCCAAGGACAGACGATCCCAAAACTCTTTATTGATCTGTCGGGTGGCACGTCTCAAGACGGGCAGTTCTATGTGGCGGTTTCACGCGCTGTCAGCCTGGAAAACCTGCGTTTAAGCGCACCAATTGAGGCGCGCCATATTCGGGCGAGCAACCAACTCGTGCGCCGGCTGCGCCGTTCCTCCTCTGCGACGGTAGAGACCAAGCGCTTCCTCGCGATGTCCGTTGATGGAGTGGACTTTTCGGTCTCCCAGCACGTCGCGCTTGTGCACGCCGTGGTTGTTGACGGCGGCGAAATAGTTGCCAATTTCGGCTCATGGATCAACCCGGCAGCTGACCTCGGAGACTTCGGTGTCGCACATTCCATCCCGGCGGGGGGCCTTGCCCTCGCACCGGCGCTCGGTGACTTTTGGCCATTGTTGCTGCGCCAAGCTGAAGGTGCTGTGGTGATTGGGCATAACTTGGCAATGCTGGAACGGGCGGTTAGGCACCAAGAAAAAGGCATGGCCCTAAATCTCGGCGTGGGGTACGACACAGCAGAGTTGAACTTCTCCCCGGACGGATCCACGCCTGCGCAACAGGCCACGTCAATCGCGGAGGCCTTGCTCAGCAACCGCTTGTCGATTAGTCGCGGCCAGGTCGTGCCCCCGGCAGACCGTGAACGCGAAGGAGCTGTTTTCCTCCCAACATGGGCACCGCGAACGAACATGATGTTGGATGCGCGTAAGGCGACTGAGTCTGACATTGCCTGGGCAGCGCTCTTCGGCGGCTCGCTTGTTCCCACCGATCGCAACGAAGTGCAAGAATGCATTGAGCTCATGGGTGCGTGGGGGACATCGCGAGGCATGTGGACTACGGAAATGCGCGATGAACTCCTTGAAAGAGCAAAAGTTGTGTTGCCAGGAGGATATGATGCGCCGCCCGTTGTCGTGAAAAGTGATCAGTCCTACGCCCTTCTTTACGAGGGGGCACGAGTGGCGTTTACTGGGCGAAAGAATTTGCTCGGTGCCCCGGCGGATGATGAGCGCCTCGCCGAAATTTGTGCTTCGCGCGGTTTGGTGTACAAGAAAAGTGTTTCTAAGACTCGGACTGACGTTCTCGTTGCGGGTGATCCGGCATCGATGTCCCGGAAGGCGCAAAACGCTCGCGAATTCGGCACTCCAATCATCACTCAGGAAGAGTTCGAACGCTGGTATGCCGACTCTGATCGCGCTGCAGGTCCTGCGCCTGCAGCCGGAGACAGCGCTGTCGTACCCGAGACCGTGATCGAGGCTGAATCGCCCGCACCAGCTGACGACGCTGCTCGCAAGTCTGTCTCCGCCGATCTGATTCGTGATGCCGCGGACGTTCTTAACCCCGGCACTCGTGTCGCGTTCCGCGGCTCAACATACGTTTTCGGCCAGCTCATACCGCAAGGAGAAGAGCTGCAGAAGTTCTGTTCAGAAATCGGTTTGGAGTTCAAACAGGCCATCACGAAGACACGAAGTGACGTGCTCGTCACGGACGACCCGGAAGCTGAAGACGGGAAGGGTCTTCTCGCCCGACGCTACGGTAAACCCATGGTCACCTCGAAAAACTTTACAGCCTGGGCAGAAGCACAGGTAGAGGCACGAACCAGCCAGCACGTCAGTCCGGATCCGGAGCCCCAGCCCCAGGCGACGCAGGTGGTTGAGGAAGCTTCACAACTTCCGTCGGAGGAACGGGTGCCGGAATCTACGGTTACGGAGGATCAGACGCGGCGTGATTACGAACTCCGCGCTGAGCCGTACGCCGTGACCGGAACCGCTGCGCCGGAGGGCACACCACTATTGGCCGGTACCGTGCCGAATAACGGTGCTCCTGCCAAACAACAACAGCGACGAAGCAAAGCTGCGCAGTGGGCGCTGCGCTTTGTCGCGATCGTCGGCATTTTGACGGTGTTATTTGTGCTCGCTGCCATCTCCAACGCACCTGTCGCTCTGCTCGCGATCGTTATGTTGTTGTGGATGGCCGTGGCTCTCGCTGCGGCCATCACCGGAATCGTCGCAGCCGCAAAAGCGGTTTCCTCTCGCGGAAAGGATGCACCTCCACACCGACAGCGATGA	MAVSGEGIHLTDEFNEALSALRGGENVLITGNAGTGKSTLLRLYLDERGTDDVIVTAPTGVAALNVGGFTIHRAFGFRPGYFPDDLKPGGKWRPSASVNKVLSAINVLVVDEISMVRADLFDMMDIALRSIRRSEEPFGGVQLILVGDLLQLAPVVTDGERELFSTVWESPYYFSAKASERLRLTEINLTTVWRQSDETFIEILNEVREGSVGEGAREILNSYVDPDFVPPQDWVTLASRNRRVDAINKQRLEALPAEKFVSVAVYTGDADAKSFNGSEELTYARGARVMTLINDYAGRFVNGSFGEIVEASADEIVVSLDNGEQVALGKHTWEIGRPQVADGKVSSAMVGTVTQFPVNLAWAITIHKSQGQTIPKLFIDLSGGTSQDGQFYVAVSRAVSLENLRLSAPIEARHIRASNQLVRRLRRSSSATVETKRFLAMSVDGVDFSVSQHVALVHAVVVDGGEIVANFGSWINPAADLGDFGVAHSIPAGGLALAPALGDFWPLLLRQAEGAVVIGHNLAMLERAVRHQEKGMALNLGVGYDTAELNFSPDGSTPAQQATSIAEALLSNRLSISRGQVVPPADREREGAVFLPTWAPRTNMMLDARKATESDIAWAALFGGSLVPTDRNEVQECIELMGAWGTSRGMWTTEMRDELLERAKVVLPGGYDAPPVVVKSDQSYALLYEGARVAFTGRKNLLGAPADDERLAEICASRGLVYKKSVSKTRTDVLVAGDPASMSRKAQNAREFGTPIITQEEFERWYADSDRAAGPAPAAGDSAVVPETVIEAESPAPADDAARKSVSADLIRDAADVLNPGTRVAFRGSTYVFGQLIPQGEELQKFCSEIGLEFKQAITKTRSDVLVTDDPEAEDGKGLLARRYGKPMVTSKNFTAWAEAQVEARTSQHVSPDPEPQPQATQVVEEASQLPSEERVPESTVTEDQTRRDYELRAEPYAVTGTAAPEGTPLLAGTVPNNGAPAKQQQRRSKAAQWALRFVAIVGILTVLFVLAAISNAPVALLAIVMLLWMAVALAAAITGIVAAAKAVSSRGKDAPPHRQR				NA	NA	NA	NA	NA
AK009_09898	558			hypothetical protein	GTGCTCGTCGACGGAGAAGTCGCCCACCGGCACGATCTGCTCGGTGAAGCGGCCGTTGGCGATGGCGTCGGCCGCGCGGTTCTGGGACTGCAGAGCGAACTCGTCCTGGTGCTCACGAGAGATGCCGTACTTGGCGGCGACGTTTTCCGCCGTGATGCCCATGATGCCGTTGCCCATCGGGTCGGTCAGCGCACCGGTGAGCCAATCCACCAGCTTGCCGTCACCCATCTTGCGGCCCTGGCGCATGCCCTCGACCGAGTACGGAGCTTGGCTCATCACCTCGACACCGCCGACGAGGGCGAGGCGGGAGTCATCAGTCATCAGCTGCTGCGCCGCGCTGATGGCCGCCTGCACGCCGGATCCGCAGAGACGGTTCACGCCGTAGGCGTGGGAGCCCTGCGGCAGGCCGGCCTCGAGCGCGACGGCGCGGGAAGTGTAGAGGTCACGCGGGCCGGTGGTGACCACGTTGGCCCACACCGAAGAGTCGAACTGGTCAGCTGCGACGCCGGAGTCCTCGATCACGGCCTTGGCGACGTGCGCACCCAGGTCGATCGTTGA	MLVDGEVAHRHDLLGEAAVGDGVGRAVLGLQSELVLVLTRDAVLGGDVFRRDAHDAVAHRVGQRTGEPIHQLAVTHLAALAHALDRVRSLAHHLDTADEGEAGVISHQLLRRADGRLHAGSAETVHAVGVGALRQAGLERDGAGSVEVTRAGGDHVGPHRRVELVSCDAGVLDHGLGDVRTQVDR				NA	NA	NA	NA	NA
AK009_09899	1185			hypothetical protein	GTGGGGGGCAACCTGGAGGCCGACGTAGTCGAAGAGCCCGAAAACGCCGGTGCGCGGCACGCCGAAGGGCTTGCCGAAGGCGGTGTCCGCTTGCTCCGGTGCGATGCCCTGGTCAAAGGCGACCTGCGCGCCGACGCCCATCCAGAACGATCCGATGCGGTTGGCGATGAAGCCCGGGGTGTCGCGGCAATCCACTATGACCTTGCCGAGGTCGCGCTCGAGGACCTGGCGCAGTTTGTCGGCGATTTCCGGGCGGGTATCCGGGCCCTGGACGAGCTCGACGAGCCGCATGACTCGCGGCGGGTTGAAGAAGTGGGTGATGGCGAAGTCGCCCTTGAACTCCTCGCTGGACTCGGCCAGCAGGGTCTCCAGCGGGATGGTGGATGTGTTCGAGGTCACCGGGGTGCCGGGGCGGCGGTGCGCGTCCACCTTAGCGAAAGTATCGCGCTTGACGTCGATGTCCTCGAAGACGGCCTCGACGATCCAATCAGCCTCGGCGAGGCGGTCGAGGTGGTCCTCGGTGTTGCCAGGCGTGACGCGCTCGGCATACTCGGGGCGGGTGAACCCGTGGCGCTTGACCTGGGTCTCAATGCCCTTGCGGGCGCGGGCGTCGCGGTCGTCGCCGTCGGCGGGCAGGTCGAGCAGGTGGACCTTGATGCCGCCGCTGGCAAGAAGTGCGGCAATGCCAGCACCCATGGAGCCCGCGCCGAGAACTGCTGCGGTTGTGATGTCAGAAGCCATGTGTGCTTAAACCTCCAGAATGAGAGCGATTCCCTGGCCGCCGCCGATGCAGGCGGTGACAAGGCCAAGTCCGCCGCCGGCGTCCCGCAGGGAGTGGATGAGCTTGGTGATCAAGATGACGCCGGTTGCGCCGATCGGGTGGCCGAGCGCGATCGCACCGCCGTTGATGTTGGTCTTGTCGTTGTCGAAGCCGAGCTGGTCGGCGACGGCAATGGCCTGGGCGGCGAAAGCCTCGTTGGACTCGATAAGCTTGATGTCATCGAGCTTCAGGCCTGCCTTGTCCAGGGCACGCGGCACCGCGACGGTCGGGCCGAGGCCCATGTACTTCGGATCGCAGCCTGCCAGCCCCCAGGAGACCACCTTGGCCATCGGCTCCAGGCCAAACTGGGAGAGACCGGACTCGCCGGTCATCACCAGCGCGGCCGCAGCATCGTTGATACCTGA	MGGNLEADVVEEPENAGARHAEGLAEGGVRLLRCDALVKGDLRADAHPERSDAVGDEARGVAAIHYDLAEVALEDLAQFVGDFRAGIRALDELDEPHDSRRVEEVGDGEVALELLAGLGQQGLQRDGGCVRGHRGAGAAVRVHLSESIALDVDVLEDGLDDPISLGEAVEVVLGVARRDALGILGAGEPVALDLGLNALAGAGVAVVAVGGQVEQVDLDAAAGKKCGNASTHGARAENCCGCDVRSHVCLNLQNESDSLAAADAGGDKAKSAAGVPQGVDELGDQDDAGCADRVAERDRTAVDVGLVVVEAELVGDGNGLGGESLVGLDKLDVIELQACLVQGTRHRDGRAEAHVLRIAACQPPGDHLGHRLQAKLGETGLAGHHQRGRSIVDT				NA	NA	NA	NA	NA
AK009_09900	387			hypothetical protein	GTGCCCGATAGCGTCGGCAAGCGCGAAGGGGCCCTTCTTCCAGCCGTAGCCGAGCTCCATGGCGATGTCGATCTGATCGACCGTGGCCGCAATCTCTTCGGCGGTGTCGCAGCAGTACTGCAGTGTAATACGGAAGACCTCACGCGCGTAGTTGCCTTCCGGGGTGCCGGACTCCATGAGCTCCTGCGGATCCTTGGGCACCTCGTAGGTTTGCTTCGGGCGGTAGTCACCCTTCTCGAAGTCGTAGACCTCGTCGCGGCCGCGGTAGAAACCGGACTCGGCGGTGCGGCCGGTGAAACCCTTCTCCAGCAGCTCCTTGAACTGCGGGGAATCGGTCACTCCGTAGTCCTGCATTGCATCGTCGGCAGGCAGGGCGGCCAGCAGTGA	MPDSVGKREGALLPAVAELHGDVDLIDRGRNLFGGVAAVLQCNTEDLTRVVAFRGAGLHELLRILGHLVGLLRAVVTLLEVVDLVAAAVETGLGGAAGETLLQQLLELRGIGHSVVLHCIVGRQGGQQ				NA	NA	NA	NA	NA
AK009_09901	705			hypothetical protein	ATGCGGCCCGTCTGTGTCGGGCGCGAACTAGTTGTTCAGCGGCTTGCGGGTTGTTGCCATGTGGGCGGCCCGGTCGCCGTTTTCCTGGCGAGCGAGCACGCCGGAGGCGGCGTCGACCTGGCGGTCCGCGAGCTCCGCCTCGGTGGCGGTGCCCTCACCGTTGTACACGCTGGCGAGCGCCGCGCCGATGGCGGCATCGGTCTCCGAGCCCTCGGTGTATTCCAGGGTCTCGGTCGTCAGCGGCAGCTCCGCGTCGGCCGGGGCGGTGTAGCGGCTGGCAAGCTCGCGGGCGAGTTCGAGAGCCTGCTCCACCACGTGGTCCGGGCTCATGATCACGCGGTCGTTCTCGCGCCAGAAGTCCACGTTAACCGCTGGAACGGGCTTAACGTTGAGCAATGCGTCATAGGCCACCTTGTGGGCATTCGGAACCCCAAGTTCGAGCAGTCGCTCAAGAAGACGTACGGGACCCGACCATGCCGGGAACAGGCCGACGGAGCGCTCGGGGAAGCCCACGCGGGTCTCGGCGTGGATGACCGATGCGTCGGTGTGGAGCAGAAGCTCCATGCCTCCACCGAGAGCGACGCCGCGCACGGCGCCGACAACCGGGTACGGGGCGCGGCGCAGCGCGTGCAGGCCGTCGATGCCCTGCCGGATGGTGGCCTGGCGTGCTTGCTCATCGCCGTTCGGGCCGGAAATTTCGGCTAG	MRPVCVGRELVVQRLAGCCHVGGPVAVFLASEHAGGGVDLAVRELRLGGGALTVVHAGERRADGGIGLRALGVFQGLGRQRQLRVGRGGVAAGKLAGEFESLLHHVVRAHDHAVVLAPEVHVNRWNGLNVEQCVIGHLVGIRNPKFEQSLKKTYGTRPCREQADGALGEAHAGLGVDDRCVGVEQKLHASTESDAAHGADNRVRGAAQRVQAVDALPDGGLACLLIAVRAGNFG				NA	NA	NA	NA	NA
AK009_09902	975	ctpA	COG2217	Copper-exporting P-type ATPase	ATGGACAAGACCGGCACCGTCACCTCCGGGGTCATGTCGGTCACCGGCGTCCACGCCGCCGACGGCTACACTAACAACGAGGTCCTCGCCTTGTCGGCGGCCGTCGAAGCAGGCTCCGAGCACCCCATCGCCAAGGCGATTGTCACCGAGGCCGAGCGCTCCGGGAACATCCAGGAGGCCACCGACTTCGACAGCACCGCCGGCCGGGGCGTCACGGCCACCGTCAAGGGTCACGTCGTCATCGTCGGCCGTCCCGCCGGCCAGCTGCCCCGTGACCTCACCACCGCCTTCGACCACGCACAGTCGCAGGGCGCGACCCCGGTGGCCGTCTACGTCGATGACCAGCCCGCCGGTGTGGTCGTGGTGCGCGATGCCATCAAAGACTCCTCAGTGGAAGCGGTCGCCCAGTTCCGCAGGCTGGGGTTGAGTCCGTACCTGCTCACCGGCGATAACGCGAAGGCCGCGGCCGCCGTCGCCCAAGAGGTGGGCATCGATGCGGCCAACGTGAGTGCCGAGGTCATGCCGCAGGACAAGGTCGCGGTCATCGAGAAGCTGCAACATGAGGGCAAGAAGGTCGCCATGGTCGGCGACGGCGTCAATGACGCGGCCGCCCTGGCCCAGGCCGATCTGGGTCTGGCCATGGGGGCGGGCACGGATGTCGCCATCGAGGCCTCCGATATCACCTTAATGAACAACGACCTGCGCTCCGCGGGCGATGCCATCCGTCTGTCACGTCGTACGCTGGGCACCATCAAGGGCAACCTGTTCTGGGCGTTCGCCTACAACGTCGTGCTGATCCCGGTCGCCGCGATCGGTTTCCTCAACCCGGGGTTGGCGGGCATTGCGATGGGCTTCTCCTCGGTGTTCGTGGTCTCCAACTCCCTTACGCTGCGTAGATTCAAGCCCTCCCACGACAACACCAGTTCCTCACCGCAGCCCGCTCGCCCCTCCGTGCGGCAGCCGGTCACCGCCTAA	MDKTGTVTSGVMSVTGVHAADGYTNNEVLALSAAVEAGSEHPIAKAIVTEAERSGNIQEATDFDSTAGRGVTATVKGHVVIVGRPAGQLPRDLTTAFDHAQSQGATPVAVYVDDQPAGVVVVRDAIKDSSVEAVAQFRRLGLSPYLLTGDNAKAAAAVAQEVGIDAANVSAEVMPQDKVAVIEKLQHEGKKVAMVGDGVNDAAALAQADLGLAMGAGTDVAIEASDITLMNNDLRSAGDAIRLSRRTLGTIKGNLFWAFAYNVVLIPVAAIGFLNPGLAGIAMGFSSVFVVSNSLTLRRFKPSHDNTSSSPQPARPSVRQPVTA	PGPT0004090_5177	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK009_09903	165			hypothetical protein	GTGGGGCCGGGGAGAGGTCAGGAGCAGGTACTTGGGGACGGAGGTCTGAGTGTTATTGGAGGGACTCAGCCGCAGGAGGAGGACACGGGGTTCCTTATCGCTAGAAAAGGATGCGGATTAGGCGGTGACCGGCTGCCGCACGGAGGGGCGAGCGGGCTGCGGTGA	MGPGRGQEQVLGDGGLSVIGGTQPQEEDTGFLIARKGCGLGGDRLPHGGASGLR				NA	NA	NA	NA	NA
AK009_09904	342	ricR_2	COG1937	Copper-sensing transcriptional repressor RicR	GTGGATACTCGCACCCCTGATCAGGCCGTTTCCTCCTCGGGTGGGGCCGACACCTGTCACACCACCCATGGCTACATCAACGACAAGGATCGCTATCTCGCCCGCCTCAAGCGCATCGAGGGCCAGGCCCGGGGCCTGCACAGCATGGTCGACGAGGAACAGTACTGCATCGACATCCTTACCCAGATCTCCGCGGTCAATGCTGCCCTACGCAGCGTTGCCCTGGGACTACTCGATGACCACATGAAACACTGCGTCCGTGACGCCGCCCAGTTAGGAGGAGAGGAGGCCGACGCGAAGTTCCAGGAAGTCACCGACGCTATCGCCCGTTTCGCCCGGTGA	MDTRTPDQAVSSSGGADTCHTTHGYINDKDRYLARLKRIEGQARGLHSMVDEEQYCIDILTQISAVNAALRSVALGLLDDHMKHCVRDAAQLGGEEADAKFQEVTDAIARFAR	PGPT0004171_115	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004171-copY-NA	NA	NA
AK009_09905	318			IS3 family transposase IS3501	ATGCCTAGGAAGTTCAGTGACGAGTTTAAGGACAAGGCGGTGCGGTTAGCCGAGGAGCTCGTTGAGCTTGAGGGGTGCTCGAAGTGGGCGGCGGCGGAGGAGATCGGCGAGAAGCTCGGCGTCTCGGCGCACACGCTCAACAACTGGTTGAAACCTGTCAAAGCGTCCCCCGACGTTCAGCGGAGCACTGGCGAGTCGGTCGACGACGAACTGAAGCGTCTGCGGCAAGAGAACAAAGAGCTGCGCAGGGCAAACGAGATCTTGAAGACCGCTTCAGCTTTTTTCGCAGCGGAACTCGACCGTCCCACCAGAAGATGA	MPRKFSDEFKDKAVRLAEELVELEGCSKWAAAEEIGEKLGVSAHTLNNWLKPVKASPDVQRSTGESVDDELKRLRQENKELRRANEILKTASAFFAAELDRPTRR				NA	NA	NA	NA	NA
AK009_09906	183			hypothetical protein	ATGTGGGTTTATCACCTCTCGTGGCTACCGAGCAGCGAAAACACGAGCCCCGTCGGCCAGGAGCTTGTCAGACGCGCTGCTTATCCCCGAATTGGTGAAAGTCTTCGAGGACAACTTCAGCGTGTACGGGGTACGCAAGATGTGGAAGGCCATGCAGCGCGCCGGCTGGGACATCGGTCGTGA	MWVYHLSWLPSSENTSPVGQELVRRAAYPRIGESLRGQLQRVRGTQDVEGHAARRLGHRS				NA	NA	NA	NA	NA
AK009_09907	615			IS3 family transposase IS3501	GTGTACGGGGTACGCAAGATGTGGAAGGCCATGCAGCGCGCCGGCTGGGACATCGGTCGTGATCAGACGGCACGGTTGATGAAACTCGTCGGCATCCAAGGCCGCAGAAGGGGCCGCACTCCGATCACAACGCTTCGGGCTGATGTCCCGGATTGTCGTCCTGATCTGGTCAATCGTGACTTCACAGCGTCAGCGCCGCACCGGCTGTGGGTCGCTGACATCACCTACGTGCGTACCCTGTCGGGGTTTGCGTACGCCGCGTTCATCACCGATGCGTACTCCCGCAAGATTGTCGGGGTTGCCACCAGGGCGAGCATGCGCACCGATGAGCTGCCTCTTGAGGCTTTTGAGCATGCTCTTTATCACGCAGGTGATCTCCGTGCTGAAGGACTTGTCCATCACAGCGATCGCGGCTCGCAGTACGTGTCCATTCGTTACAGTGAGGCGCTTGCTCAAGCTGGGATTGATCCGTCCGTTGGCACCGTCGGCGATTCCTACGACAACGCGTTGGCGGAAACGGTCAACGGTCTATACAAGACCGAGCTGATCTATCCCCACCGGCCGTGGGCGTCGGTTGGGGAAGTCGAGATCGCGACCCTTCGCTGGGTGTACTGA	MYGVRKMWKAMQRAGWDIGRDQTARLMKLVGIQGRRRGRTPITTLRADVPDCRPDLVNRDFTASAPHRLWVADITYVRTLSGFAYAAFITDAYSRKIVGVATRASMRTDELPLEAFEHALYHAGDLRAEGLVHHSDRGSQYVSIRYSEALAQAGIDPSVGTVGDSYDNALAETVNGLYKTELIYPHRPWASVGEVEIATLRWVY				NA	NA	NA	NA	NA
AK009_09908	417			IS3 family transposase IS3501	ATGTCCACCAACAAGGGGTCAGGTCCGCCGCTGCAGGCGCTGAATCAAGCCATTGTGTGTGCCAAGGACACAGCGGGCCTTGTTCACCATGCAGATCACGGATCGCAATACGTCAGCATTGTCTACAACGAGCGTCTAGCCGAGCACGGAATCACGGCCTCTACTGGAACGGTCGGTGACTCCTACGACAATGCCTTAGCCGAAAATGTCAACGGTTCCTACAAAAATGAACTCATTCATACCCGCACTTGGAACGATGTGGTCGACGTAGAAATCGCGACCTTCGAGTGGGTCACGTGGTGGAACGAATCAAGGCTTCACCAAAGTCTCGGCTACCGTACGCCGGCAGAAGTAGAAGAAGAGTTTTGGACTGGCAACCCAAATCACGAGAGAATGGAAATCAAGGCAAATACCTAG	MSTNKGSGPPLQALNQAIVCAKDTAGLVHHADHGSQYVSIVYNERLAEHGITASTGTVGDSYDNALAENVNGSYKNELIHTRTWNDVVDVEIATFEWVTWWNESRLHQSLGYRTPAEVEEEFWTGNPNHERMEIKANT				NA	NA	NA	NA	NA
AK009_09909	414			hypothetical protein	ATGAGAGCAGTTGCGAAAAAAGTACAAATGCTACGCTTACAGGAGAAGCGTAATAAGCGTGAGGAAAATACAGAAGCGGATTGTACTAAACAGTGCAAAATAGAAAGTGAGTGTATTAAACTAGAAAATAATACAGCTAAAAAACGCTCCCAAAAAGTACAAGCGTCAGAAGAAAAATGGGATAAAAAATGTAAACAAGCAGTACAATTATTTAATCAAGGAATGGAATATCCAACTATTGCAAAAAAAGTAGGGTGCAATGTGAGTAGTTTGTATAGAGAGCTCAAGAAACGTGACTTACTACAAATGCCAAAGCAAGTAGCATCATCTAAATCAGTAAAGTCTTCCATCATACCACCACAAACAAAAAAATCGAAGTTCGAACGATATAAAGAGTACTATATGTATAGATAG	MRAVAKKVQMLRLQEKRNKREENTEADCTKQCKIESECIKLENNTAKKRSQKVQASEEKWDKKCKQAVQLFNQGMEYPTIAKKVGCNVSSLYRELKKRDLLQMPKQVASSKSVKSSIIPPQTKKSKFERYKEYYMYR				NA	NA	NA	NA	NA
AK009_09910	399			hypothetical protein	ATGGGAAAAATGGAATCTATTGTTCTTCGAAAACGCTATCATATTCAGTATAATAAAGATAACGATTATACTGAGGAGATTGGGATTATGAATAAAAGAGAAACGAGAATTCGTATTTTAGATTTGCAGGATCAACATTGCATGGGTTGCAAGCACTATAATGGGGTACGAACATATTGTATGGACGATTGTAAAATTGGAAAAGAAATATATCAATTAGGAACAGGATTGATTTTTGATGAAAAGGATTCGAAAAGGAAAGTAAAACTGAAGTGGGATTCTATTTGTCAACAGGCGCTCGTGTTAAGAAATAAAGGATATACCTATCAAAAAATTGCAAACCAATTAGGATGTCATGCGAGTAGTTTACGTAAACAACTTAATCAACGGGGATTGTAA	MGKMESIVLRKRYHIQYNKDNDYTEEIGIMNKRETRIRILDLQDQHCMGCKHYNGVRTYCMDDCKIGKEIYQLGTGLIFDEKDSKRKVKLKWDSICQQALVLRNKGYTYQKIANQLGCHASSLRKQLNQRGL				NA	NA	NA	NA	NA
AK009_09911	408			hypothetical protein	ATGTTTACAAAAAAACTAGTAGCCGTAGCAACTACTGTAGCATTAGGGTCTGGATTTACTTTTGGTATTACACCAGCTTTTGCGGATTCTAATGAAGTTTCCACACATCATACACCAATTTCTACTATACAAAAACAGGAACAAATACCGTTCACTGGATATGTTATTTCAATGGATAGTCACTATTTAGTTCTTGCTGATACATCGACAAAAGAAGAGGCACTTTCTTATCAAAATGATTGGTGGGAGCTTGTTTCTCAAAATAAAATTTTAAGAGTTCCTCTTTCTAATGCTGAAAACTATGCAGTAGGAGATAAGTTACATGTACATGCCTCTGCTTGGACTGCATCATTACCACCAATTGCTGTTATGCCTACTATAGAAAAAGCCGCTGATAAATATCAGTAA	MFTKKLVAVATTVALGSGFTFGITPAFADSNEVSTHHTPISTIQKQEQIPFTGYVISMDSHYLVLADTSTKEEALSYQNDWWELVSQNKILRVPLSNAENYAVGDKLHVHASAWTASLPPIAVMPTIEKAADKYQ				NA	NA	NA	NA	NA
AK009_09912	165			hypothetical protein	ATGGAAAAAATTAATGTAACCATGCAATTATGCATAATGTTTAGAAATTTAAATGTAGTAGATAATAAATATGGTAGAATAATGGGTGTGAATACATTCTATAAAACAGATTCTTTTGAAAGGCGTAACATATCAATCACATTAGAGGATATGGCGTCATTCTAA	MEKINVTMQLCIMFRNLNVVDNKYGRIMGVNTFYKTDSFERRNISITLEDMASF				NA	NA	NA	NA	NA
AK009_09913	906			hypothetical protein	ATGAATCAACCTTTAGTCAATTTACGAGTCGATTTTGCTTTTAAGCAATTATTTGGTGTACAAGGACAAGAGGAATTACTGATTTCTTTTTTAAATGCAATCTTGCATGAATCCTTATCTACACCGATTGTATCCTTAAAAATTGAAGACCCACATCTCCATAAAGAATATGAAGAAGATAAATTATCCATACTAGATATATTAGCTACACTTCAAGATGAAACCAAGGTGAACGTGGAAATTCAGTTACGAAATACACAAGAGATAGTAAAACGTTCCCTGTATTATTGGAGTAAACTGTATACATCTCAATTGGAGCAAGGGATGCCCTATCGTTCTTTACGAAAAACGATTGCGATTAATCTATTAGATTTTGATCTCTTTCCTCAATATGATGACATGCATACAGTCGGACAATTTTGGAGTCAACAACACAAGGAAGTGTTACTCGAAGATTTAGAAATCCATTTCATTGAAATTCCGAAATTGCTACAGCAATGGAGAGAAGAAAAGATTAATCCGTGGGAAAATGAATTTGCTCGTTGGTTACTTTTACTACCAGCGCATGAAGATGAGCATTTAACCCACACGTTGGAGGATATAGCCATGAAACAAGATCCAATGTTACAGAAGGCAATCCACAAATGGGAAAATATGAGTCAGAGTAGCTCTTTCCGTCTCGCATATGAAGCACGGGAAAAAGTGTTATTTGATGAACAAGCAAAATTAGCACATGCTCGTGAGGTTGGTATAGAAGAAGGGATGGAAAAAGGGAAAGTAGTAGGCATTCAAGAAGGAAAAATCCAACTTATCCGAGGCATGCATAAAAATGGCATGGATATCGAAGATATTGCGAAGTTTACGAATATGGAACTGTCGGAAATACGCAATATTTTAGACAAGTAA	MNQPLVNLRVDFAFKQLFGVQGQEELLISFLNAILHESLSTPIVSLKIEDPHLHKEYEEDKLSILDILATLQDETKVNVEIQLRNTQEIVKRSLYYWSKLYTSQLEQGMPYRSLRKTIAINLLDFDLFPQYDDMHTVGQFWSQQHKEVLLEDLEIHFIEIPKLLQQWREEKINPWENEFARWLLLLPAHEDEHLTHTLEDIAMKQDPMLQKAIHKWENMSQSSSFRLAYEAREKVLFDEQAKLAHAREVGIEEGMEKGKVVGIQEGKIQLIRGMHKNGMDIEDIAKFTNMELSEIRNILDK				NA	NA	NA	NA	NA
AK009_09914	357			hypothetical protein	ATGTACATGATTTTCTTATATCGGTTTGATTTAAAGGAGAATGGAATCGATTTTGTGCTAAATGAGCAAATCGCTGCAGATATGCTTCCACACTATGATGCTCTGTTGAGACCATTAGTGGCATCGTTAGCTGATACGTTACAATTGTATCGTTCATTAAGTACACATCCCACCATTTTAACGGGGAAAATACTGGATAATGGGCAATTAGAAGTGATGTTAAGTGAAGGATTAGGACAATATATAGATATATATACAAAGAATCAAATTATTTTTGAAAATGGAAAACGTATTGCGGATATTTTAGTAAACGTAATGGACTCTCATACGAGTAAAACATTGAAAAGAACGCATTGA	MYMIFLYRFDLKENGIDFVLNEQIAADMLPHYDALLRPLVASLADTLQLYRSLSTHPTILTGKILDNGQLEVMLSEGLGQYIDIYTKNQIIFENGKRIADILVNVMDSHTSKTLKRTH				NA	NA	NA	NA	NA
AK009_09915	213			hypothetical protein	ATGGAAAAAACAATGATGGTAGGTACAACAAATATGATGATGTCTATGGAAAAAATGATGTGTGAAATGAAGTGTATGAAGATGATGATGAACAACATGATGCAAATGAATGTAAATATGGATAAAGCTATGGTCAATACAATGCATGAATGTGATGAAATGATGACTTCTACTATGTCTATGATGAAAGCTATGAAAGAGAAATGCTGTTAA	MEKTMMVGTTNMMMSMEKMMCEMKCMKMMMNNMMQMNVNMDKAMVNTMHECDEMMTSTMSMMKAMKEKCC				NA	NA	NA	NA	NA
AK009_09916	1212	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	GTGCGTGTCGACGGCGCCAAGAACAGCGTGCTCAAGCTCATGGCGGCCGCGCTGCTGGCCGAGGGCACAACCACCCTGCACAACTGCCCTGAAATCCTCGACGTCCCCCTGATGCGCGACGTCCTTGTCGGCCTCGGCTGCGGCGTAGAAATCGACGGCCCCGTGGTCCGCATCACCACTCCCGCGGCTGTCTCGCCGCACGCCGACTTCGAGGCGGTGCGCCAGTTCAGGGCCTCAGTGGCCGTCCTCGGCCCGCTGGTCGCACGGTGCAAGGAGGCCTACGTCGCGCTGCCGGGCGGCGACGCGATCGGTTCGCGCCCCCTGGACATGCACCAATCCGGCCTGGAGAAGCTCGGCGCGACCACCCACATTGAGCACGGCGCTGTCGTCGCCCGCGCGGAGAGGCTCACTGGAGCATCGATCTCGCTCGACTTCCCATCCGTGGGAGCGACCGAGAACATCGTCACCGCAGCAGCGCTTGCCGACGGCCGCACCACCTTAGAAAACGCCGCCCGCGAGCCTGAGATCGTCGACCTGTGCGACATGCTCAACTCCATGGGTGCGCGCATTTCGGGAGCCGGCAGCTCCACCATCACCATTGACGGCGTGGACAAGCTTCGGCCGACCGAGCACGTCGTGGTGGGTGACCGCATTGTTGCCGGCACGTGGGCCTACGCCGCGGCGATGACGCAGGGCGACATCACTGTTGGCGGCATCGCCCCGCGCCACCTCCACCTGGCACTGTCGAAGTTGAAAACCGCGGGGGCGGACATCGAGACCTATGACAACGGCTTCCGGATCCGCCAAAATCAGCGCCCGAAGGCAGTTGATTATCAGACGCTTCCTTTCCCGGGCTTCCCCACGGACCTGCAGCCCATGGCAATCGGTATCGCCTCGATTGCCGACGGTGTGTCCGTGATTACGGAGAACGTCTTCGAGGCCCGGTTCCGCTTTGTGGATGAGATGCTGCGCCTCGGTGCCGACGCCAACGTCGATGGGCACCACGTTGTGCTGCGCGGGGTGGACACGCTGTCTTCCACGGACGTGTGGGCCTCCGACATCCGCGCCGGCGCAGGGTTGGTGCTTGCCGGACTGGTTGCAGACGGTGTCACCACGGTGCACGACGTCGCCCACATCGACCGCGGCTACCCCAGGTTCGTGGAGAACCTTGTGGCCTTAGGAGCGAACGTACAGCGCGAATCGGGGCGCTAG	MRVDGAKNSVLKLMAAALLAEGTTTLHNCPEILDVPLMRDVLVGLGCGVEIDGPVVRITTPAAVSPHADFEAVRQFRASVAVLGPLVARCKEAYVALPGGDAIGSRPLDMHQSGLEKLGATTHIEHGAVVARAERLTGASISLDFPSVGATENIVTAAALADGRTTLENAAREPEIVDLCDMLNSMGARISGAGSSTITIDGVDKLRPTEHVVVGDRIVAGTWAYAAAMTQGDITVGGIAPRHLHLALSKLKTAGADIETYDNGFRIRQNQRPKAVDYQTLPFPGFPTDLQPMAIGIASIADGVSVITENVFEARFRFVDEMLRLGADANVDGHHVVLRGVDTLSSTDVWASDIRAGAGLVLAGLVADGVTTVHDVAHIDRGYPRFVENLVALGANVQRESGR	PGPT0024090_4958	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK009_09917	249			hypothetical protein	ATGCGCACCGAGCTTGCGCATCACGCTGCGCAGGTAGGACTTCACGGTTTCCGCGCCAATGCCCATTTCCTCGGCCGCCTCGACGTTGGTGTGGCCGAGTGCCACGCAGGAGAGCACGTCGAGCTCGCGGGCGGAGAGCTTAGTCGTCTGCTTGATCCGCACGGGCGACACCATCTGGTCGCACAGCTGCTCGAGGTCTTTGCGCAGGTCTTCGTCGGTGACGCGGTTAGCCAGCATGCGCAGCTTTGA	MRTELAHHAAQVGLHGFRANAHFLGRLDVGVAECHAGEHVELAGGELSRLLDPHGRHHLVAQLLEVFAQVFVGDAVSQHAQL				NA	NA	NA	NA	NA
AK009_09918	558			hypothetical protein	TTGCTCCCACTCCGCGCTGTTCATCACTCGCCCAGCCTTGGCCGCGCCCTTGCCGCCGTCGGTTTGGCGCAGCGCGGCGTTGATGGCCAGGTCCTGCTCCAGACAGCGGGCGGTCATGGTGACCTCCTCGATCACCTTGTCGCCGAGGCGGACCGGCGAGTGCACGCCGACGTAGAGCACGCCGCGGATCTCGCGCTGCACGATCACTGGCACCGCGACGATCGAGTGCAGCCCCTCGTCCTGGATCTGGCGGTCGTACTCATGGGAGATGACGTTGGCGCGTGTGTAGTCAGAAATACCCACGGCCCTGCGGGTGGTGACAACGCGGCCACCGACGCCGGCGCCCGGTTCGATGACCAGGTTCTGCAGCGCCGGGGTACGCAGGCCGATCCACTGGGTGATCTGAATGCGGTTGTCGGCCAGGAGCGTTCCGTACATGGCCACGGGGATCCCGGTGGCAGTCTTCAACGTCGTAAGGGCGGCGCGGATTGCGTCGTCCTCGTCCCTGATCGTTTGAGCGTCCATCACATTCCTCACGGACCTCACCTAAGCATCTAG	MLPLRAVHHSPSLGRALAAVGLAQRGVDGQVLLQTAGGHGDLLDHLVAEADRRVHADVEHAADLALHDHWHRDDRVQPLVLDLAVVLMGDDVGACVVRNTHGPAGGDNAATDAGARFDDQVLQRRGTQADPLGDLNAVVGQERSVHGHGDPGGSLQRRKGGADCVVLVPDRLSVHHIPHGPHLSI				NA	NA	NA	NA	NA
AK009_09919	684			hypothetical protein	GTGCGGGCCGGCCTCGCCCTTGGTCAGGAGAGGGGAAGCGGCGGGCTCGACGGCGACGAGCTTGACGTCCGACTTCTTCTCCTTGAGGTACTTGCCGGCGCCCGAGATGGTGCCGCCGGTGCCGACACCTGCGACAAGGATGTCGATCTCACCGTCGGTGTCGTTGAAGATTTCCGGGCCGGTGGTTTCGTAGTGCATCTGCGGGTTGGCCTCGTTCTCGAACTGGCGGGCCAGGATCGCGTTGTCGGTGTTCTCGACGATCTCGTTGGCCTTCTCCACAGCACCCTTCATGCCGGCGGCGCCCGGGGTCAGCTCGATCTGCGCTCCCAAGGCACGCAGGACGACTCGGCGCTCGGTGGACATCGTCTCCGGCATGGTGAGGATTACCTTGTAGCCCTTGGCTGCGCCGGCGAGCGCGAGTGCGATGCCGGTGTTGCCCGAGGTGGCTTCGACGATGGTGCCGCCCGGCTTGAGCTCGCCGGACTTCTCTGCGGCTTCGACGATTGCCTTGCCGATGCGGTCCTTGACGGAGTTAGCCGGGTTGTAAAACTCCAGCTTGGCCAGCACGCGGGCGCCGGTGTCCTTGGACACGCGCTGCAGTTCAACGAGCGGGGTTCCGCCCACAAGGTCGAGTACGTTAGCGGCGATCTTTGCCATGATTGCTCCTTCGAAGTGTTTGTCTAG	MRAGLALGQERGSGGLDGDELDVRLLLLEVLAGARDGAAGADTCDKDVDLTVGVVEDFRAGGFVVHLRVGLVLELAGQDRVVGVLDDLVGLLHSTLHAGGARGQLDLRSQGTQDDSALGGHRLRHGEDYLVALGCAGERECDAGVARGGFDDGAARLELAGLLCGFDDCLADAVLDGVSRVVKLQLGQHAGAGVLGHALQFNERGSAHKVEYVSGDLCHDCSFEVFV				NA	NA	NA	NA	NA
AK009_09920	234			hypothetical protein	GTGCTGATAACATTAAACGACCTGTTTAAAATTTTATTAGCATTACTTATATATGTTGATGCTATTTCTTTTTTTATAATATTTTTAGTTTGTGTTATAAAGTCACTCCATGTGTTAGATTGGTCTTGGGCTGGAAAAAGAACTGGTATTAATGTACCAAAACCTATTAAAGCAAGTCCTAAGGGTGTTGTGAACCCGAAACCAGTCAGTACGGTCCCAACTACAATAGTATAG	MLITLNDLFKILLALLIYVDAISFFIIFLVCVIKSLHVLDWSWAGKRTGINVPKPIKASPKGVVNPKPVSTVPTTIV				NA	NA	NA	NA	NA
AK009_09921	357			hypothetical protein	GTGTTAGATGACTTTGTGTCAGCAATACTTGTATGTTGGCATCTTTCAAGATATATTCAAGCCTCTTTGTTGGATATGCGGGATCTAGTGGGACATATGCGCCACCAGCTTTTATTATTCCTAATATACTTACAATCATCTCTAAAGAACGTTCTATATAAACCCCTACCATACTTTCAGGGCCTATGTTTCGTTTTTGTAGATAAAAAGCTAATTGATTTACTTTTTCATTTAATTCCTTATAAGTTAACTGTTGATCTTTATATACCAACGCAACAGAATCTGGATTCTGAATTACTTGCTGTTCAAATAACTCTTGAATCACTACATCTTTTTGATAATTGCCCTCTATGTTAG	MLDDFVSAILVCWHLSRYIQASLLDMRDLVGHMRHQLLLFLIYLQSSLKNVLYKPLPYFQGLCFVFVDKKLIDLLFHLIPYKLTVDLYIPTQQNLDSELLAVQITLESLHLFDNCPLC				NA	NA	NA	NA	NA
AK009_09922	345			hypothetical protein	ATGAAGGAGTCCCTGGCAGTCGGGCTCGACGTTCTGGCCGCGCGCCAGGTCGAACTCGGCCGCGCCGTACGCGAGGCCGCACGCGAGCGCGGCTACGTCTCGGTCGCCGCCGAGGGCTACGAATCCAACGGCGTCGTCGTGCTCTACGCCGACGCCCCCGGGCTGCAGTCCGGCGCAGCGCTGAAGCCCTTTGGGGTGCAGATCGCCGCGGGTGTGCCGCTGAAGATCGGCGAGGGCGAGAACTTCTCCACGTTCCGCATCGGTCTGTTCGGCCTGGACAAGTGGGATGATCCGCAGGCCGCGGCGCAGAAGCTTATCGACGCCCTCGATGCGGCGCGCAGTTAA	MKESLAVGLDVLAARQVELGRAVREAARERGYVSVAAEGYESNGVVVLYADAPGLQSGAALKPFGVQIAAGVPLKIGEGENFSTFRIGLFGLDKWDDPQAAAQKLIDALDAARS	PGPT0001920_1520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0001920-sgaA-K00830	NA	NA
AK009_09923	330			hypothetical protein	GTGCACGATCGTGTCGGTCGGCAGCGTGGCGTGGTAGGCGGCCTTGCCGTCGCGGTAGCCCTCGAAGATCTCGAGCCACTTCGCCAGGTCGAGCGTGAAGGAGGTGGATTCGCTCGTGACGACGGCCTCACGTGCGCGCGAGTTGAGCATGACGTAGCCGGTCGCCGGCGAGCCGGACCAGGACTTCTGCGGCGCGGAAATGAGAACGTCAACCTGCGAGGCGACCATGTCGGTGAAGTCGGCGCCAGCGGCGATGCAGTCGAGGACGAACAGGGCGTCGGCCTCGCGCGCCGCCGCGCCGAGCTCGGCGATGTAGTCCGCGCCGAGTGA	MHDRVGRQRGVVGGLAVAVALEDLEPLRQVEREGGGFARDDGLTCARVEHDVAGRRRAGPGLLRRGNENVNLRGDHVGEVGASGDAVEDEQGVGLARRRAELGDVVRAE				NA	NA	NA	NA	NA
AK009_09924	468			hypothetical protein	GTGGGCGGTGACCACGAGGTCGGGGCCGAACTCGGCGATGGCCTCGCGCACGCTATCCAAAGCCGGCGGCGCGTACGAGGGGGTGTCGGAGACGTCGGTGGCAACTGCGTTGAGGACCTTGACTTGGTCGGTGAGGGCACCCTTCTCAATGATCTGCGTCCACCTAAACGTGAAGTTGCCCTGCCGGATAATCAGCACCTTCTTCCCGGTCGCGAGCTGGCGTGCCACAGCCTCCATCGCCGCGGTGCCGCCCCCGGGGACAAGCGCGGCGGTATCGGCGTTGTAGGTGTCGGTGAGAATGCCGAGCAGCTCCTGCGTCGAGGTAATGAACTTCTGCGACATGTGGTTCAAAGAGCGGTCGGTGAACACCACCGAGTACTCGAGCAGGCCGTTGGGGTCGATGTCAGTGCGGGGCAGTTGAGTCATGCCCTCAAGATTAGCCCTGCACCGCGTCCCAGGCGCGCATGA	MGGDHEVGAELGDGLAHAIQSRRRVRGGVGDVGGNCVEDLDLVGEGTLLNDLRPPKREVALPDNQHLLPGRELACHSLHRRGAAPGDKRGGIGVVGVGENAEQLLRRGNELLRHVVQRAVGEHHRVLEQAVGVDVSAGQLSHALKISPAPRPRRA				NA	NA	NA	NA	NA
AK009_09925	300			hypothetical protein	ATGGGCGGCGAGCGCGGCGCTGATGCGCTGCGCGTCGACGCCTGGCAGCCAGACGAAGTTGGCCTGGGTGCGCGCCGCCTGAACGTGGTCGGCCACCTCGTCGCGCACCGCCACCGTCTCGTCGGTGCGGGCCCGCATCGCGTCGGTTGCCTCGAGCGAGGCGATCGCTCCGGCCTGGGCGACCGCGCTGACTTGGAAGGGAATCGCCACCGCGTTGAGCGCGGCGATGATCTCGCGCGGGCCGAAGGCGTAACCGACGCGAACCCCGGCCAGGCCGTAGGCCTTGGAAAACGTGCGTAG	MGGERGADALRVDAWQPDEVGLGARRLNVVGHLVAHRHRLVGAGPHRVGCLERGDRSGLGDRADLEGNRHRVERGDDLARAEGVTDANPGQAVGLGKRA				NA	NA	NA	NA	NA
AK009_09926	531			hypothetical protein	GTGGGCGGGCACTTTCGCCATGAACTCGTCGAATTCCGCGTTGGTGATGACCTGCCCGGAGGGGTTGTTCGGGGTGCAGAGGAACACCAGGGACGTGGAGGCGTCGATGAGCGAAGCCATGCGATCAAGGTCGTGCTTGCCGTCGCGGGTCACGGGCACGGGGCGAGGCTGGGCGCCGACGACTTGCAGGAAGATGGGGTAGGCCTCGAAGCTGCGCCACGCGTAGATGACGTTGTTGTCGGTCGTGCACGTCGCCTGCACGAGCTGCTGCAACAGCGCCGAGGAGCCGTTACCCACCGCAATCTCCTCGCGGCTTACGCCCAGGTGCTCCGCCAAGGTCTCCCGCAGTTCGACGGCGAACATGTCGGGGTAGCGGTTGGCACCGCGCGCAGCACTCACCATCGCCTGTGTCGCAGCCGGCAGCGGCTCTTCGCTCGACTCGTTGGACGACAGCTTCAGTGCGCTGTCGTTGCGCGTGCCGGGAAGGTATGGCGGGATGGCTTCGATGTCGGGGCGAATCATGGGGCTTAG	MGGHFRHELVEFRVGDDLPGGVVRGAEEHQGRGGVDERSHAIKVVLAVAGHGHGARLGADDLQEDGVGLEAAPRVDDVVVGRARRLHELLQQRRGAVTHRNLLAAYAQVLRQGLPQFDGEHVGVAVGTARSTHHRLCRSRQRLFARLVGRQLQCAVVARAGKVWRDGFDVGANHGA				NA	NA	NA	NA	NA
AK009_09928	414			hypothetical protein	TTGATTCCAATTCAATCAAATTTAGAAGGACGTACATATGCGCTATTTAAGTTAGAAGAGATTATGAAACCACTTGGATATAGCATTGGTGGTAATTGGGATTATGATAAAGGATGCTTCGATTACAAAATCGATGAAGAAGATGGGTATCAATTTTTACGAGTGCCGTTTACAGCAGTAGATGGTGAACTGGATGTACCTGGTGTAGTAGTCCGTCTTGAAACGCCGTATATTCTTTCGCACGTATATCAAGACGAACTAGATGATAATGTGAATACTTTAACCGCTGGAACGAGTGGGATGGATCAATTTGCTGAACCGAAAGATCCAGATGGAGATGTAAAAAGAAAATATATCAATATTGGGAAAGTGCTCATGCAAGAACTAGAGCGTCATTTTATTAATGGTGAATAA	MIPIQSNLEGRTYALFKLEEIMKPLGYSIGGNWDYDKGCFDYKIDEEDGYQFLRVPFTAVDGELDVPGVVVRLETPYILSHVYQDELDDNVNTLTAGTSGMDQFAEPKDPDGDVKRKYINIGKVLMQELERHFINGE				NA	NA	NA	NA	NA
AK009_09929	996			hypothetical protein	TTGAAATCCCGTCCGAATTTAGTAGATACATTTCGTGATTCCATTATTTTTCGTTTAATTTGTTTTATTATTGTACTCACTGCTTTTTCTGGTTTTCTTATACATAGATTAGAACCCTCTCATTTCACTACATGGTTTGACGGAATTTGGTGGTCAATTGTTACCATTTTTACAGTTGGATATGGCGACTTTGCTCCCCATACAACGATAGGAAAACTAATAGGTATAAGTATTATTTTATTAGGAACTGGCTTTTGTTCTTATTATATGGTTCTATTCGCTACTGAGATGATTAGTAAACAATACATGAAAGTTAAAGGTGAAGAAGCCGCTACCTCTAACGGTCATATGATTATCGTTGGCTGGAATGAGCGTGCAAAACATGTTGTAAAGCAAATGCATGTACTACAACCAAACCTTGATATCGTTTTAATTGATGAAACACTTTCTTTACTCCCAAAACCCTTTCATCATTTAGAATTTATAAAAGGTTGTCCGCATCACGATCAAACTTTATTAAAGGCTAATATTGCAACGGCACACACCATATTAATAACAGCGGATAAAGAAAAGAACGAAAGCTTAGCAGATACACAGTCCATTTTAAATATTTTAACTGCGAAAGGACTCAATCCAAACATTCACTGCATCGCCGAACTACTTACTACTGAACAAATTCAAAATGCAACGAGAGCGGGCGCGTCAGAAATTATAGAAGGAAATAAATTAACGAGTTATGTATTTACCGCTTCTCTTTTATTCCCTTCTATTTCAGGTGTACTATTCTCACTTTACGATGAAATCTCTGATAACAAATTACAACTGATGGAGCTTTCTCCGTCCTGCACCGGACAAACCTTTGCAAATTGTAGCTATACCCTTCTAAAACAAAACATTCTCTTACTAGGTATAAAGCGTGATGATCAATATATGATTAATCCAGTCCATACCTTCATTCTTATCGAAAGCGACATACTCATTGTTATTCACCATTAA	MKSRPNLVDTFRDSIIFRLICFIIVLTAFSGFLIHRLEPSHFTTWFDGIWWSIVTIFTVGYGDFAPHTTIGKLIGISIILLGTGFCSYYMVLFATEMISKQYMKVKGEEAATSNGHMIIVGWNERAKHVVKQMHVLQPNLDIVLIDETLSLLPKPFHHLEFIKGCPHHDQTLLKANIATAHTILITADKEKNESLADTQSILNILTAKGLNPNIHCIAELLTTEQIQNATRAGASEIIEGNKLTSYVFTASLLFPSISGVLFSLYDEISDNKLQLMELSPSCTGQTFANCSYTLLKQNILLLGIKRDDQYMINPVHTFILIESDILIVIHH	PGPT0002715_2324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK009_09930	681	sapB_3	COG1285	Protein SapB	ATGGACTATACCGATTTATTAATCAAACTAGGTCTCTCGGCTATTTTAGGATTTGCCATTGGTTTAGAACGCGAATTAAAACGGAAACCACTTGGTTTAAAAACGTGTTTAGTTATTTCTATTATTAGTTGCCTCCTAACGATTGTTTCTATTAAAGCAGCTTATAACTTACCACATACCGATCATATGAATATGGATCCACTTCGACTTGCCGCTCAAATTGTATCAGGAATTGGTTTTTTAGGTGCTGGCGTAATTTTAAGAAGAGGCAACGATAGCATTGCAGGACTCACGACTGCCGCTATGATTTGGGGTGCTTCTGGTATTGGTATTGCCGTTGGAGCTGGTTTCTATATCGAGGCAATTTTCGGAATGTGTTTTCTTATGATTAGTGTCGAACTTATACCATTGACAATGAAGTTTGTAGGTCCTAGATCATTTCGTCAACGTGATATTGCAGTGAAACTTGTTGTGCGAAATATGGACAATATCCCGGTTGTAATCGAGGAGATAAAAGAAATGGATATAAACGTTAAAAATATGAAGCTTAAAACGTTAGAAAACGGTTCTCACTATTTACATCTTAAACTGTCCATTGATCAAAAAAGACATACCGCTGATGTTTACTATACTCTCCAGCATCTTGAAAGTGTCCAACAAACTGAAGTGGAAAGTATGTAG	MDYTDLLIKLGLSAILGFAIGLERELKRKPLGLKTCLVISIISCLLTIVSIKAAYNLPHTDHMNMDPLRLAAQIVSGIGFLGAGVILRRGNDSIAGLTTAAMIWGASGIGIAVGAGFYIEAIFGMCFLMISVELIPLTMKFVGPRSFRQRDIAVKLVVRNMDNIPVVIEEIKEMDINVKNMKLKTLENGSHYLHLKLSIDQKRHTADVYYTLQHLESVQQTEVESM	PGPT0014005_1707	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK009_09931	1464			hypothetical protein	TTGTTTCCGGATAATCGCCGGCGGGATTCAGATGCGTTTGTGGAACCGGATTTCGCAGGCATCGCCGCCCGGCGCCGACGCGGTGAGCGGGTGACGTTAAAGGTGGAACACCATAAATACACCCGCCGTCAGGCTACTTCTGGCCAGCAGCATTATTCCTACCGGCAGTTCTGCGCGCTGTTTGAAAACTACGTCGATGTCAACGACCTGACTGCGCTTTTGACCCATGCCCCTGGTGAGGAGCTGTGCGTTGATTGGTCCGGGGAAACCATGGCAGTTGTTGACCCGTTGACCGGGGTGTCTGTGCAGGCGTATGTGTTTGTGGCGTCGCTGCCGCATTCGGGGCTTATCCATGCCAGTGCGTGGCCGGATATGCGGATGCGGTCGTGGCTGTGTGCCCACCGCGACGCGTTGGACTATATCGGTGGCGTGCCGGTGCGCATCGTGCCCGATAACGCCTCGACAGCAACCAACCAGATCACACGTGGTGCGACGGTGCGTGAAGTCAACGAGCGCTACCAGCAGTTCGCCGAGTTCTACGGTTGCGGGATTACCCCGGCTAGGCCGGGTAAACCCAGGGATAAGGCCCATGTGGAAAAGGCGGTCGATATCGTCCAGACCTGGGTCGCAGAAGCGTTATCGGGCCAAGAGTTCTCCACGTTCGACGCTCTCAACGCCGCTATTGCAGCACAGGTCGACTGGATCAACGACCGGGAAGGATTCCGGGGCCGCAACGCAAGCCGCAGGCAGTTGTTTGTTGAAAGCGAAGCAGAAGCATTGCGCCCGCTGCCTCAACAGCGCTGGTCGTATTCCACGTGGCGTAAAGCCAAGGCCGGGGTGAACTACCACGTCCAAGTGGAGAAGCATTTCTACTCTGTGCCGTGGAGCTTCGCCGGCAAAAGTGTCGACGTGCAGATCTTCGACGATGTCGTCGACATCTTCAGCGCGGGTGAGCATATCGCTTCCCACCGTAAAAAGCCTGGCAACATGCAGTACTCCACAGATAAAGAGCATGTGCCGGCAAAGCACCAGGACTTGGCCACGAAGTGGGATCAGGGCCGGATTGAGTCATGGGCTCAAAGTATTGGGGCCGCAACCTACGAACTCATCCGCCAGATGTTTCACGCCCACCAAGTTGAAGCCCAAGCCTACAATAGCGCCCTTGGCGTGCTGAGCCTGTCGAAGAAGTACTCCCGCAGCCTGCTTGAACAAGCCTGCCAAGACGTCCTCGACTCCCACATGGTCCCGTCGGTGCGCAAAGTCCACGACACCATCAAAGACCTCGCAACCCGCACCACCGCCACCGCCACAGGTGGTGCGCAATCACCTACATCATCTGCCGCGTCAACTAGGCCGGTGACTCGTCCCGCACCACCAGCCCAGGCGTCGCACGTACGGGGCAAAGCAGCGTTCGAGTTCAGTGAGCTTGAATTCGGTGAGCTTGAATTCGGTGAGGAGGCGTAG	MFPDNRRRDSDAFVEPDFAGIAARRRRGERVTLKVEHHKYTRRQATSGQQHYSYRQFCALFENYVDVNDLTALLTHAPGEELCVDWSGETMAVVDPLTGVSVQAYVFVASLPHSGLIHASAWPDMRMRSWLCAHRDALDYIGGVPVRIVPDNASTATNQITRGATVREVNERYQQFAEFYGCGITPARPGKPRDKAHVEKAVDIVQTWVAEALSGQEFSTFDALNAAIAAQVDWINDREGFRGRNASRRQLFVESEAEALRPLPQQRWSYSTWRKAKAGVNYHVQVEKHFYSVPWSFAGKSVDVQIFDDVVDIFSAGEHIASHRKKPGNMQYSTDKEHVPAKHQDLATKWDQGRIESWAQSIGAATYELIRQMFHAHQVEAQAYNSALGVLSLSKKYSRSLLEQACQDVLDSHMVPSVRKVHDTIKDLATRTTATATGGAQSPTSSAASTRPVTRPAPPAQASHVRGKAAFEFSELEFGELEFGEEA				NA	NA	NA	NA	NA
AK009_09932	798			Insertion sequence IS5376 putative ATP-binding protein	ATGGCGTTAACCGATGAAGATTTCGACAAGCTCGGCTCGCTGCGCGGGATGCGCGTGTTCGCCGCGACGATCCAAGAGATCGTCAACGACCCCACGCGCGATAACGATTCCTTCGAAGACAAGATCAAAGAAGCCCTCGAAGCCCAACTCACCGCCCGCGACAACAAGGTCATCCAGACAAGGTTGCGTGAAGCGAAACTCCTTGGCTCAACCGCCGCACTCGAGCGCTTCGATGCCTATCCCGGCCGCGGTGTAACCCAAGACCGCATCGACCGGCTCGCCACCTGCGAATGGATCGACTACGGCAAAGACCTCATCATCGTGGGAGCTACCGGCACCGGTAAAAGTTTTCTCGCTCAAGCCCTGGCCGTCGCGGCGTGCCGCAAAAAGCTCACCGCCCGTTACTTCCGGCTCAACGACCTGGCCAACGATTTCGACGCTGCGGCTGAGCATCCCCAGGCCCGCAAACAACTCCTCGCTGACCTGCAAGCCCCGGCACTTGTCGTCATCGATGATTTTCTCGCCACCGATGTCTCAGCGCACGCGTTGAACCAGGTATTCAACCTGCTCGTCGGGCGTGAACATGCCTCTACCGTGATCGCCAGCCAACACGAACCCGATTACTGGTACGACGTCTTCTCAGAAGCAGCACTGGCAGACGCAGTCATGTCCAGACTCGCCAACCACGGCTCGAAACTCACCCTGACAGGAGAAGACATGCGAACCCGCGACGACATCAAACAAGAAAGGATGGCCCCTACGACACCCACACGGCTACGTCAACCCCGAAAGTCGTAA	MALTDEDFDKLGSLRGMRVFAATIQEIVNDPTRDNDSFEDKIKEALEAQLTARDNKVIQTRLREAKLLGSTAALERFDAYPGRGVTQDRIDRLATCEWIDYGKDLIIVGATGTGKSFLAQALAVAACRKKLTARYFRLNDLANDFDAAAEHPQARKQLLADLQAPALVVIDDFLATDVSAHALNQVFNLLVGREHASTVIASQHEPDYWYDVFSEAALADAVMSRLANHGSKLTLTGEDMRTRDDIKQERMAPTTPTRLRQPRKS				NA	NA	NA	NA	NA
AK009_09933	1416			hypothetical protein	ATGTGGAGAAAACAACAAAAAAATTTAAATTTTGCTGCGCCGCTTGGCTTAATACAATCTTTAGTTATCACTTCTGATCCCCAATATCCTTGGACAGATTGTCAGGATAGTATCTCATTTCCAAATTGTAATAATCCTATTGTATCGCCATGTTCAAATCGTCCAGAAAACGAATCTACGAAAGAACAACGTTCAGCAGCATTGATACGTGAACAATACAATAATATTAATTCTTATACGGATACTGTACCCAATGCATCTGTGCTGATAAACGGAGATTTGACTGCCTTTGGGCATGGCTGGCAGTGGGATAAAATAAACGAACTTCTTAGAATATTAAAAAGACCCTATTATTATGGTCTAGGCAATCATGATATTGAAAATAATTTTAATGACTGCGTAAATAATGGATGTTTTAAAAATTCAATGGAGAATTTAATAGCCCATGTTCAAACTCGCGGCATACCATCAACTCAATTTGATTATAGGACTCAACCAGGAGAACCTTATTTGGGTATTCCTGTTACAAAGCATCAAGGCAGTTTTGCTTATGCAGTAAATTTCGGATCGATATGTTCTATCCAATTACAAAATTTTCCTACAATGAATAAGCAAACAGGCCCAACTATTACCGATTTTAATGAGTATCACATATTTGAAAACTTTGATTGGGTAAGAACTCAATTAGAAACAGCTAGAATAAATGGGAAAACTATCATAATAAATGTTCATAAACATCAAATGCTTTATGATCAATATAAAAATTTATTTCAACAATATGGTGTTGCAGCAATTTTTGCTGGGCATCTCCATACAAATTTTGGATATCAGATATCGTATAATAATATACCTATTTTTCTATCCGGTGGTGCATCCCAACGCACATATTTAATTATAGAACAGTTTTCAAATAGATTGGATATGTACGCTGTTAATTGTAATGATTGGAGAAATAGATGTTTAATGAGTCCTATTTTTAATGGAGAGTATCAAATTGTGACAGCATTAAATAATAGTAGTGTAGTAAGTTTGGAGGGGGCCTCAAATACCAATGTTATATTAATGTCCAATAATAAGGCAGATACTCAAAAGTGGTATCTCTCGTACAACAGTGTTAAGAATGGTTATGTAATACGACGTAATCGTGCCTCAAATATAGTGTTGGCTTGGAACGCTGCAGGTGGAACGGCCAATGTATTTACTACGCAGCTTATTGAAACATATGATGCTCATTATTGGGCTATAGAGCGTGTTAATAATAGTAATGAATATATATTTAAAAATAAAATGAATCCAGACTTAGTTTTAGAAGTAGCTGGTTCGCAAACTACTAATGGTACAAATATTCAAGTACATGCAAGACACCCTTTAAATACTTCTTTAAGAAATCAAACATTCTTAATACAACCAATTTGA	MWRKQQKNLNFAAPLGLIQSLVITSDPQYPWTDCQDSISFPNCNNPIVSPCSNRPENESTKEQRSAALIREQYNNINSYTDTVPNASVLINGDLTAFGHGWQWDKINELLRILKRPYYYGLGNHDIENNFNDCVNNGCFKNSMENLIAHVQTRGIPSTQFDYRTQPGEPYLGIPVTKHQGSFAYAVNFGSICSIQLQNFPTMNKQTGPTITDFNEYHIFENFDWVRTQLETARINGKTIIINVHKHQMLYDQYKNLFQQYGVAAIFAGHLHTNFGYQISYNNIPIFLSGGASQRTYLIIEQFSNRLDMYAVNCNDWRNRCLMSPIFNGEYQIVTALNNSSVVSLEGASNTNVILMSNNKADTQKWYLSYNSVKNGYVIRRNRASNIVLAWNAAGGTANVFTTQLIETYDAHYWAIERVNNSNEYIFKNKMNPDLVLEVAGSQTTNGTNIQVHARHPLNTSLRNQTFLIQPI				NA	NA	NA	NA	NA
AK009_09934	483			hypothetical protein	TTGCGCGTCGGCGAGGTGTCGGCGCATGTTCGGCCCGTCGAGTGGGAGGATCTCGGCGCCTGCCACAATCCGGTTGAGGATCGATTCGGCGATCACCGCGTCATGCAGGGATTTGTACCAGTCCTGCGGCTCGAACTGGGAGGTGACCAGGGTCGAGCCACGGCCGTCCCGGGCCGCGAGGATGTTGAGCAGCTCCGCGGCGGTGTGCTGGTTGATGGGCGTGGTCAGGAAGTCATCGATGACCAGCAGGTCGCAGTTGTGCAGGTCGGTGAGGAAGTCCAGCCGTTTCTGCGACGCGGGGTCCATGACCGCGAGCTGGTTGGCCAGATCATCGAGTCTGAAGAACCGGGCGGTGTAGAACTTCCGGCAGGCGGCGTTGAGCAGCGCCAACGCGAGGTAGGTCTTGCCGACACTGGATTTCCCCAGGATGACCAGGTTGTGGGTCTGATCGATCCATTGACAGCTGGACAGCCGTGCAATTAG	MRVGEVSAHVRPVEWEDLGACHNPVEDRFGDHRVMQGFVPVLRLELGGDQGRATAVPGREDVEQLRGGVLVDGRGQEVIDDQQVAVVQVGEEVQPFLRRGVHDRELVGQIIESEEPGGVELPAGGVEQRQREVGLADTGFPQDDQVVGLIDPLTAGQPCN				NA	NA	NA	NA	NA
AK009_09935	1404			hypothetical protein	GTGGACCTGGGCCCGCAAGGCCGCCAGGCGTTGCTTGACCGCGGTGTAGCTGACCGCCCGCGGGGAATCAGCGTCAACCAGTTGCCGGCAGGCCTGTTCCAGCAGTGCCTTGTTGTCGCCCTTGCCCAGGGCGAGGATGTTCAGGCAGGTGCGATACCCCTGGGCTTCGATCGGGCGGGCATCGAGCACGCTGGTGATCGCGGCGACGGTGTGGGGACCGACCTTGTGGGCCTGACGCAGGAAATACGCCCTGGACCACAGGTCCGAGGACTGCTGATGCTGATCGGGGACATGATCGGGGTCGGTGACGTAGACATGCTGGCGCGGGGAGACGGTATGGGTGGCGATGATGTCCCCGTCGCACATGACCGTCAGACGGTCGCCGGTGATCTTCACATCAACGTGGCGTCCGGCGAAGGTGTGGGGCACCGAGTACTTCACCGTGGCGATTTCGATGTGGTAATCACGGTTGACCTTGGATTTCCGCCAGGTCACCGGCTGCCAGCGGGACTCCGGCAGCCCAAGCAGTTCCGGCCGCTCATACTCATCGAACAGATCCTTGCGGCTGATCTGCTGTCCGCGGAACGGTGTTCTGGTGTTGATCGCGGTGACCTGGTCGGCCACAGCAGTATTGAGGTCATCCAGGCTGGCGAATCGCTGGCCCGCGAGCCGGCCGATCACCCAGTTGGTCACGACCTTGACCCCGGCTTCGACATTGCCTTTGTCCTGTGGTTTTACGGGACGGGTCGGTACCGCAGCGGTGCGGTGGTGCTCGAGGAAATCCCGGTAGGCGCGGTTGACGTCCCGGGCCCGGTCCCCACGAGCGATCTGGTTGGATGCGGTGGAGGCGTTGTCCGGGATGACGACCTGCGGGATACCGCCGAAGAACTCGAAGGCCTGCTGGTGGGCGTCCAACCAGTTCGGGGACTTCTCATCGAGATAACCGCGGGCGAAGACCATCCCGGAGTACGGCAACGAGGCCACGAACACCGACACCTTGGTCTTGCGCCCGGTGATGGGGTCAAAGACGGCCATCTTCGTGCCCGCCCAGTCGACCTGCATCGTGTGACCGGGAACGTGGGTGATCCGCATGGTCAGGTCGTTGACATCGACGTACTCGCCGATGATCTGGCAGAACCGCTGATAGCTGTAGTGCCGCTGGCCAGGGACGCCGTCCGTGTCGAGGTAGCCGGCCCACAACACGCGCAGCGGGAGCTTCTTCTTGCCCGAGCGTTTGGTGACCATCGCGGCCACGTCGAAGGCGACGAACTCATCCGAGGGCGCCTTGCGCCCGTCGGTGAACAAGGCGTCGAGTTCTTCCGCGGTGAGGTCTTCCACCTGGGAGGTGGAGGTAAAGCCCTGGTCCCGGCAGATTCTCTTCGCTTTGGCGATGGTGGTGTGTGA	MDLGPQGRQALLDRGVADRPRGISVNQLPAGLFQQCLVVALAQGEDVQAGAIPLGFDRAGIEHAGDRGDGVGTDLVGLTQEIRPGPQVRGLLMLIGDMIGVGDVDMLARGDGMGGDDVPVAHDRQTVAGDLHINVASGEGVGHRVLHRGDFDVVITVDLGFPPGHRLPAGLRQPKQFRPLILIEQILAADLLSAERCSGVDRGDLVGHSSIEVIQAGESLAREPADHPVGHDLDPGFDIAFVLWFYGTGRYRSGAVVLEEIPVGAVDVPGPVPTSDLVGCGGGVVRDDDLRDTAEELEGLLVGVQPVRGLLIEITAGEDHPGVRQRGHEHRHLGLAPGDGVKDGHLRARPVDLHRVTGNVGDPHGQVVDIDVLADDLAEPLIAVVPLARDAVRVEVAGPQHAQRELLLARAFGDHRGHVEGDELIRGRLAPVGEQGVEFFRGEVFHLGGGGKALVPADSLRFGDGGV				NA	NA	NA	NA	NA
AK009_09936	732			hypothetical protein	ATGAAAATTGAGGTTTGGTCGGATTTTGTATGCCCATTTTGCTATATTGGGAAACATAGATTAGAGATGGCTTTAGAGCAATTTCCACATAAGAAGGATGTTGAAGTTGAGTTTAAAAGTTTTGAGTTGGATCCGAATACTCCCGTTTACTCTGGAACAAGTATTAATGAAGTGCTTGCATCAAAGTATGGGATTAGTATTGAAGAAGCTAAGCGTAATAACGTACAGCTAGGAAATCATGCAGCTAGTATGGGTTTAAGTTTTAATTTTGATGAGATGAAGCCGACGAATACGTTTGATGCGCATCGTCTTGCGAAGTTTGCAAAGAATCATGGAAAAGAAAAGGAGATTACGGAAAATCTACTTTTTGCATATTTCACTGAATCGAAAAATTTAAGTGATGTGGATACACTTGCTACTATTGCTGAAGCTTCAGGTTTAGATAAGCAAGAAGCTTTAAATGTTATTAATGATAAAAATGCGTACGCAAATGATGTTAGAATTGAAGAAGCGATTGCTCAGCAATATCAAATTTCGGGAGTGCCTTATTTTATTATTAATCAAAAGTATGCTATTTCAGGTGCACAACCACTTGAAACTTTTGTTGGTGCACTCCAGCAAGTTTGGGAAGAAGAGAATCCTGCACCGAAGTTACAGGAACTTTCAGTAGATGGTGGAAGCGACCTTTCTTGTACTGATGGAAGTTGTTCAGTGCCGTCAAAAGAACAATAG	MKIEVWSDFVCPFCYIGKHRLEMALEQFPHKKDVEVEFKSFELDPNTPVYSGTSINEVLASKYGISIEEAKRNNVQLGNHAASMGLSFNFDEMKPTNTFDAHRLAKFAKNHGKEKEITENLLFAYFTESKNLSDVDTLATIAEASGLDKQEALNVINDKNAYANDVRIEEAIAQQYQISGVPYFIINQKYAISGAQPLETFVGALQQVWEEENPAPKLQELSVDGGSDLSCTDGSCSVPSKEQ				NA	NA	NA	NA	NA
AK009_09937	960	menH_6		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAAAAGGATAGGTATAATTACTATAGTAGTCTTAGTCCTTCTAGTAATCGTGTATATGTTAGTTGGGAATTATTTTTATAACTACGCGTTGAATGCGAAACAAGAAAAAGAGTTTTTACAAGATAATCCTCATTTAGTAGAAACGGTAAATGCATCGGGAGATGTATTGGCTACAAATGAAGAAAAGAATGCGAACTTCGTATCGAAGTATAAACCTAACACATTAACTATACGTTCTTTCGATAAAATGAATTTAAAAGGCTATGAATATATGAATGAACAATCTAGTCATAAATGGGCAATTGTGGTTCATGGATACAATGGTAGAGCATCAGAAATGACGAAATATATTCGTAACTTTTATGAACAAGGCTATAATGTCATAGCACCAGACCTTCGTGGGCACGGAAATAGTGAAGGGGATTATGTTGGTATGGGCTGGCATGATCGTAAAGATGTTTTGATTTGGATTCAACAAATCTTAAAGAAAGATCCTAATACTGAAATAGCTCTATTTGGTGTTTCAATGGGCGGGGCAACTGTAATGATGACTTCAGGAGAAGATTTACCTTCTAATGTTAAAGTTATTATTGAAGATTGTGGATACTCAACCGTTATTGATGAATTTACTTATCAGCTAAAAGATTTATTCCACTTGCCGAAGTTTCCTGTTATGAATGCGGCAAATACAGTTACAAAATTAAGAGCTGGATATGATTTAGAAGAAGCTTCAGCTGTAAAACAAGTAGCGAAAAGTAAAACACCTATGCTATTCATTCATGGGGATGCTGATACATTCGTTCCTTTTGAAATGTTAGATGAAGTATATAATGCTGCAAAAGTAGAAAAAGAGAAATTAATTGTTCCAGGTGCTGGGCATGGAGAAGCGGAGAAAGTAGATTCGAATAAATATTGGAATACCGTATGGAAGTTCGTAGGGAAGTATATTCCGGCATAA	MKRIGIITIVVLVLLVIVYMLVGNYFYNYALNAKQEKEFLQDNPHLVETVNASGDVLATNEEKNANFVSKYKPNTLTIRSFDKMNLKGYEYMNEQSSHKWAIVVHGYNGRASEMTKYIRNFYEQGYNVIAPDLRGHGNSEGDYVGMGWHDRKDVLIWIQQILKKDPNTEIALFGVSMGGATVMMTSGEDLPSNVKVIIEDCGYSTVIDEFTYQLKDLFHLPKFPVMNAANTVTKLRAGYDLEEASAVKQVAKSKTPMLFIHGDADTFVPFEMLDEVYNAAKVEKEKLIVPGAGHGEAEKVDSNKYWNTVWKFVGKYIPA				NA	NA	NA	NA	NA
AK009_09939	222			hypothetical protein	ATGCCGGCAGGTATTGTGTGGGGAGGAAATTATGACGATTTAGGATTATACCGTGTAGCGGACCTTCAGTTCATGGAAGAGGATGGTTCGATGTTCTCGCGTGTACCGAATAAAGCTGCATATGAAGCGACCGCGTATATGTTAGAAACAATGGTATGTCACGCACGTAATGCCTTCTGGCAACTGTCAGACGTGCAAGAAGCAACTGGATATACCAAATAG	MPAGIVWGGNYDDLGLYRVADLQFMEEDGSMFSRVPNKAAYEATAYMLETMVCHARNAFWQLSDVQEATGYTK				NA	NA	NA	NA	NA
AK009_09940	471			hypothetical protein	ATGGGCGTGTGTGAACGACGTGGATTTCAACGAACAGTTTTAAATGACATCTATCATGTGGAAGAACAGCTACAATCCTATGATCCTCACTTGTATCTTATGTGGAATCCTAAAAATGGGGAACATGTCATTATGGATGGACTATTAGATATGTCGATTATGAAAATTCCACAAATCGGATTTGAACAATTGGACGCAAGAATTGTAGACCACATCAAGAGAATCCATACAGTGAATGGGTTCTCCGCTGTTCAAACTGTGGAAGATACAGAGAAAAAGAGACAACAAGAAGAAGAGAGAAAACTGAATGATCTAGCGGAAGATTATGCGAGAGAATCAAAAGAAGCCTTTTGGAATGCGCATGCATATGGTCGTGTGGATGGCGTACAGAAATATGTACAGGGTGTAAATGTGGGAGGGAATGGAAATGAACCTGCAAGAGCTAATCCTACAAGTGAACCGGGATGTTGA	MGVCERRGFQRTVLNDIYHVEEQLQSYDPHLYLMWNPKNGEHVIMDGLLDMSIMKIPQIGFEQLDARIVDHIKRIHTVNGFSAVQTVEDTEKKRQQEEERKLNDLAEDYARESKEAFWNAHAYGRVDGVQKYVQGVNVGGNGNEPARANPTSEPGC				NA	NA	NA	NA	NA
AK009_09941	576			hypothetical protein	ATGAACCTGCAAGAGCTAATCCTACAAGTGAACCGGGATGTTGATGACATTTTTGAAAATGGAGATATTCAACATTGGCTCAATCGTGCATTAGATGATATCACCCCGATTGCAAGGGTAGAAAAGAAAGCCACTTTAACATATCCATACACATTACCAAATGACGTACAAGATATGGAACGAGTGATGCAAATGAACAAAGTATTTACGCGCATACCTGTAGGAGAACAAAATCAGCAAGGGTATTGGGTGTGGGGAAATGAATTGATGCTACAAGGTGGGAGTCAACAACCTATTGAAGTCTATTATTATAAAAAGTTAAGTCATCTAAAAGGAATGGAAGATGTACCTGAAATTGATAGTCCCTATCACGATTTATTAATTTTATACGCTGTTGGACAACTACAGTTTATGGATGGAGATTATGCGGATAGACCAGATCGTATGCAGCGATATGAACAACGTAGACAACAATATGCTGTCTTTCGTGAGAAACGGAAAGTAAAGAGGTCCGGTGTACGAATCAAGACCGTCCACGAGTATAGTGATGCTGCTCCTACCTTCCTTGCGGATTGA	MNLQELILQVNRDVDDIFENGDIQHWLNRALDDITPIARVEKKATLTYPYTLPNDVQDMERVMQMNKVFTRIPVGEQNQQGYWVWGNELMLQGGSQQPIEVYYYKKLSHLKGMEDVPEIDSPYHDLLILYAVGQLQFMDGDYADRPDRMQRYEQRRQQYAVFREKRKVKRSGVRIKTVHEYSDAAPTFLAD				NA	NA	NA	NA	NA
AK009_09942	591			hypothetical protein	ATGTGGGGGGGAATCATAGTGAATCTGCAAGAACTAATCCTGCAAGTGAACCGGGATGTTGACGACATTTTTGAAAATGGAGATATTCAACATTGGCTCAATCGTGCATTAGATGATATCACCCCGATTGCAAGGATAGAAAAGAAAGCCACTTTAACATATCCATACAAATTACCAAATGACGTACAAGATATAGAACGAGTGATGCAAACGAACAAAGTATTTCCGCGTATACCTGTAGGGGAAGAAAATCAGCAAGGGTATTGGGTGTGGGGAAATGAATTGATGTTACAAGGCGGGAGTCAACAACCTATTGAGGTCTATTATTATAAAAAGTTAAGTCATCTAAAAGGAATGGAAGATGTACCTGAAATTGATAGTCCCTATCACGATTTATTAATTTTATACGCTGTTGGACAACTACAGTTTATGGATGGAGATTATGCGGATAGGCCAGATCGTATGCAGCGATATGAACAACGTAGGCAACAATATGCCGTCTTTCGTGAGAAACGGAAAGTAAAGAGGTCAGGTGTGCGAATGAAGACCATCCACGAGTATAGTGATGCTCCTACCTTCCTTGCGGATTGA	MWGGIIVNLQELILQVNRDVDDIFENGDIQHWLNRALDDITPIARIEKKATLTYPYKLPNDVQDIERVMQTNKVFPRIPVGEENQQGYWVWGNELMLQGGSQQPIEVYYYKKLSHLKGMEDVPEIDSPYHDLLILYAVGQLQFMDGDYADRPDRMQRYEQRRQQYAVFREKRKVKRSGVRMKTIHEYSDAPTFLAD				NA	NA	NA	NA	NA
AK009_09943	471			hypothetical protein	ATGGGCGTGTATGAACGACGTGGATTTCAGCGAACATTTTTAAATGATATCTATCATGTGGAAGAACAGTTACAATCCTATGATCCCCACTTGTATCTTATGTGGAATCCTAAAAATGGGGAACATGTCATTATGGATGGACTATTAGATATGTCGATTATGAAAATTCCACAAATCGGATTTGAAGAATTAGATTCTCGTACGATAGACCACATCAAGAGAATCCATACAGTGAACGGATTCTCCGCTGTTCAAACTGTGGAAGATACTGAGAAAAAGAGACAAAAAGAAGAAGAAAGAAAACTGAATGATCTAGCGGAAGATTATGCGAGAGAATCAAAAGAAGCATTTTGGAACGCGCATGCATATGGCCGTGTGGATGGCGTACAAAAATATGTACAGGGTGTAAATGTGGGGGGGAATCATAGTGAATCTGCAAGAACTAATCCTGCAAGTGAACCGGGATGTTGA	MGVYERRGFQRTFLNDIYHVEEQLQSYDPHLYLMWNPKNGEHVIMDGLLDMSIMKIPQIGFEELDSRTIDHIKRIHTVNGFSAVQTVEDTEKKRQKEEERKLNDLAEDYARESKEAFWNAHAYGRVDGVQKYVQGVNVGGNHSESARTNPASEPGC				NA	NA	NA	NA	NA
AK009_09944	222			hypothetical protein	ATGCCGGCAGGTATTGTGTGGGGAGGAAATTATGACGATTTAGGATTATACCGTGTAGCGGACCTTCAGTTCATGGAAGAGGATGGTTCGATGTTCTCGCGTGTACCGAATAAAGCGGCATATGAAGCGACCGCGTATATGTTAGAAACAATGGTATGTCACGCACGTAATGCCTTCTGGCAACTGTCAGACGTGCAAGAAGCAACTGGATATACGAAATAA	MPAGIVWGGNYDDLGLYRVADLQFMEEDGSMFSRVPNKAAYEATAYMLETMVCHARNAFWQLSDVQEATGYTK				NA	NA	NA	NA	NA
AK009_09945	921			hypothetical protein	ATGAAAGAAATATGCATGTTATTAGTGGCTGTTATATTATGGGGGACAGCTATTGCACCAACAAAATGGGTGTTAGAATCTATTCAGCCGTTTACTTTGTTGTTTATTCGTCTTTTCTTTGCAGGTGGAATTTGTATGCTATTTTCATTTAAGCAACTACAAAAATCAGTTGTACATAAAAAAGTTCCATGGCAAAGAATGAGTTTGTTAGCCTTTACCGGTGTAGCTGGGTATTTCATGTTCACATCGTATGGTATTTCTTTAACAAGTGGATTACATGTTAGTATCATAGATGCTGCATTACCATTAGTTACAATTCTTTTTTCAGCATTCTTCTTGAAAGAGAAAATTCGATTGAATTATTGGATAGGGATTATATTGGGTACTATAGGAGTACTCTTTATTACGATTCCATCTAAAAGTGCTGATCAAGAAGTGTCTTTAATAGGAGATATACTGATATTATTAAGTACTTTTCTATTTGCTTTCTACACGGTTTTGCTAAAACAACCAAAACAAGAACAGTATTTATCAAACGAGGTTTTTACAACATTAACTTTAATTATCGGAGCTGTTATTCTATTACCGTTTGCACTGGTAGAAATTCTTTATTACGGTTTACCAAAGATTGAAACTTGGAAAACGGGACTTAGTGTAATATACCTTGTTATTGGAGCAACAATTTTAGCATATTGGTTTTGGAATAAAGCGCTAGAGAGAGTTTCAGCATCAGTAAGCGGATTATATTTAAATGCATTACCATTAATAAGTATCGCTACTTCAATTATTCTATTAAATGAGTCTCTGACATGGAGGGTAATAATGGGAGCGAGTTTAGTTTTAATCGGAGTAGGATGGGCGGATAAGCAAAAGTTATGTAATCTATTAAAAGGTAATAAGGTGGAGAATAGAGACTGTTAA	MKEICMLLVAVILWGTAIAPTKWVLESIQPFTLLFIRLFFAGGICMLFSFKQLQKSVVHKKVPWQRMSLLAFTGVAGYFMFTSYGISLTSGLHVSIIDAALPLVTILFSAFFLKEKIRLNYWIGIILGTIGVLFITIPSKSADQEVSLIGDILILLSTFLFAFYTVLLKQPKQEQYLSNEVFTTLTLIIGAVILLPFALVEILYYGLPKIETWKTGLSVIYLVIGATILAYWFWNKALERVSASVSGLYLNALPLISIATSIILLNESLTWRVIMGASLVLIGVGWADKQKLCNLLKGNKVENRDC				NA	NA	NA	NA	NA
AK009_09946	792			hypothetical protein	TTGTTCAATCCTTATTTATTAAACACCATAAGCGCCCATTCAAGAAGCCCACACTATCATAGGAAGTTTCCCATCATTCTATTTTGGAGTCAAAAAAGCGGTTGTACTTCTCTTGCCAATTGGTTCTTTTACCAGATTGATTTATTGCAAACAGCTCTAAGTTATAGTCCTTTCATTCATAATTTTGAATACGATATATACAAAAGTACACCTGCCTATAGTGTACGACTAGGTGTAGCGTTACGAGAAAAACAAAAAGAAACGTTTAAACTTGTTCGTAACCCTTATAGGAGAGCAGTCAGTTCTTTCGTGTCCTTAATTGGACCTCCTTATATGGAAAATCCGGAATGGAAACCCATCCGAAAGTTTTTATATCAAGATGAAAATTCCCCCAAAGGGATCTCATTCAAACAATTTTTATACTATCTATTTATGAAAGGGGCTCACGCAAGTGATATTAACCCACATTTCACACAACAATATATAGCTGGTGAAGAAGAATATGTGACCAATTATATATACTTAGAAAACTTCGATCAGGAAATGAAAGAATTAGAAAAGCGTTTCGAATTAAAAACCGCACCAATAAATGAGTTCTCAACATCATGGCATCATCAAACTCCCGCCATGATTTATAAAGGGAATTTTAGCGAAGCTGATATTACTGATCCTTTATTTCCCCGTCATCCAACTTTTGAAAGCTTTTATGATACTGAATGTATACAACTTGTTCAAACAATATTTCAAAATGATTTCGACACATATAAATACAGCAAAGAATATCCATACTAA	MFNPYLLNTISAHSRSPHYHRKFPIILFWSQKSGCTSLANWFFYQIDLLQTALSYSPFIHNFEYDIYKSTPAYSVRLGVALREKQKETFKLVRNPYRRAVSSFVSLIGPPYMENPEWKPIRKFLYQDENSPKGISFKQFLYYLFMKGAHASDINPHFTQQYIAGEEEYVTNYIYLENFDQEMKELEKRFELKTAPINEFSTSWHHQTPAMIYKGNFSEADITDPLFPRHPTFESFYDTECIQLVQTIFQNDFDTYKYSKEYPY				NA	NA	NA	NA	NA
AK009_09947	1083			hypothetical protein	ATGAGGAAAGTCTTAAAAAGAAGCATTCTTACTTGTTTAACATTGGCAAGTTTATGTACTACTACTGTATTTGCGGATAGTCACCCCGGTTATTCATATGAACCCAATATAGGCTATCAAAATTCAACATGGATGTCAGAATTAGAGGATTCGAAAAATATAAGCGAACTATCTATTCCAGGGACTCACGGTTCAATGGCTTTACATGGAGCAAGTGTTTTTGATGAAAATCTGACTAGGAATCAAACTATGAACTTATCCCAGCAATTAAATTCAGGTATTCGCTATGTAGACATGCGAGTGAAACGTGTTAAGGATTCATTTGCAATGCATCATGGAATTGTTTATCAAAAAGCAATGTTTGAAGATGTATTAAAAGAGACCATTCAATTTTTAAGAGATCATCCGAAAGAAACGATTTTAATGCGTTTAAAAGAAGACACTGACCCTGAAAATCGCTCACTATCATTCGAACAAATATTTAAAAATTATAAAGATCGAAATGCTTCTTATTTTTGGAACCCAAATTCTGTATCATCTTCAGAAAGAAATAATCCAAAATTAGGAGATGTCCGAGGAAAAATTGTACTATTACAAAATTTCACAGCATCTCAAGAATACGGTATAAATTATGATTCTTTATATACCCAAGATAAGTTTGAAGTTGGTATTGGACCAAACGGAATCTATGATAAATGGAATTCAGTGAAAGCCCATCTTCTACAAGCGAATAATAACTCGAAAAATGGGAAAATCTATCTAAACCATTTTAGTGGTACGGGAGGAGGATTAGCGGTATTAACTAATTTTTATCCTTGGTTTGTTGCAAGTGGAAAAGAAAGTAGAAATACAAATAGCAATCAAAAGCTGATTCAAACAAATGCAACAAATGAATGGGCAGATTTCCCTCGTGGTATAAATGGACAAGTATTTTATGGTGGAATGAACACTATGGGAACTGATTTTATACAAAAAAGTGGGATGAATCATGTTGGTATTATCGCCGCTGATTTTCCTGGACCAGGTTTAATAGATAGTATTATTCAATTAAATGGAATAAATTTAAATAAAAAGAATAATTAA	MRKVLKRSILTCLTLASLCTTTVFADSHPGYSYEPNIGYQNSTWMSELEDSKNISELSIPGTHGSMALHGASVFDENLTRNQTMNLSQQLNSGIRYVDMRVKRVKDSFAMHHGIVYQKAMFEDVLKETIQFLRDHPKETILMRLKEDTDPENRSLSFEQIFKNYKDRNASYFWNPNSVSSSERNNPKLGDVRGKIVLLQNFTASQEYGINYDSLYTQDKFEVGIGPNGIYDKWNSVKAHLLQANNNSKNGKIYLNHFSGTGGGLAVLTNFYPWFVASGKESRNTNSNQKLIQTNATNEWADFPRGINGQVFYGGMNTMGTDFIQKSGMNHVGIIAADFPGPGLIDSIIQLNGINLNKKNN				NA	NA	NA	NA	NA
AK009_09948	678			hypothetical protein	GTGGTTGAGGTGAAGGAATTGCAATATAAAAAGTTTGGATATGTCAGAGTTTCCAGTAAAGACCAAAACGAAGAACGCCAGATTGAAAATATGAAATGTCTTGGGATAGAAGATCGGGATATTTTTATTGATAAGCAGTCTGGTAAGAATATGAAGAGAGAAAATTATCAAATGCTAAAACGATTAGCTCGTACGGGTGATACCATTATTTTTGATTCCTTAACAAGATTAGGTCGTAGCATGAACGATGTGCTAGAAGAATTTAGATATTACGAACAACAGCAAATTAATTTACAATTTATTAAAGAGCCTTTTATTAATGTGAATTATAGTGGAGAAAGTACAAATGATATCATTCAACAGGCTGTACAAAAAGCAACTCTTACCATTCTTTCTGCCTTTGCAGAAAAAGAAAGGAATGATATCAAACAACGACAAGCAGAAGGGATTGCATTAGCAAAGAAGCACGGGAAACATATAGGAAGACCACCGGTACAAATTACGGAGCAATTTATTGAGGCATATGAGGCATGGCAATCTGGAAAGATTACGGCGGTCGGAGTGATGAGAAAATATGATATAAAGCGTTCTTCTTTTTACAAGTTAGTAAAAGAATATGAAGCGCAAGAAAATACAAAACATGTCGATAAAAAAGAATGCCATGTAGAGAAAGGATAA	MVEVKELQYKKFGYVRVSSKDQNEERQIENMKCLGIEDRDIFIDKQSGKNMKRENYQMLKRLARTGDTIIFDSLTRLGRSMNDVLEEFRYYEQQQINLQFIKEPFINVNYSGESTNDIIQQAVQKATLTILSAFAEKERNDIKQRQAEGIALAKKHGKHIGRPPVQITEQFIEAYEAWQSGKITAVGVMRKYDIKRSSFYKLVKEYEAQENTKHVDKKECHVEKG				NA	NA	NA	NA	NA
AK009_09949	960	recD_2		RecBCD enzyme subunit RecD	ATGAACGCACTCCGCCGGGCGTGGGAAATTGAGCATGGTGCTGGGTCGGTAGTGGGGCTGGCACCGTCTGCGGTGGCGGCGCAAGTGCTGGCCGACAATCTGGGCATTCAGACGGAAAACACGGCGAAGTGGTGGACCACCCACCAACACACCGGCGCCACCTTCCAGCCCGGGCAGCTGGTCATCATCGGCGAAGCCTCCCTCGCCGGCACCCTCTCCTTGGACCGGATCACGCAGGCAGCCGAGGATGCGGGGGCGAAGGTGCTGCTGGTCGGTGACTACGCACAGCTCCAGTCCGTCGACGCTGGCGGTGTGTTCAGCCTGTTGATCCACGACCGCCACGATGCCCCCGAACTGGTCGATGTCCACCGCTTCACCCACGCCTGGGAGAAGACCGCATCCCTGGAACTGCGGCACGGCCGCACCCCAGTCATCGACACCTACCTGGCACATGACCGCATCCACGATGGCGACGCCGAGGCCATGACCGATGCCGCCTACACCGCCTGGCGCCACGACCGACAGCAGGGGTTGGCGTCGGTGCTGATCGCCGAAACCCGCGAGAACGTCACCGCCCTCAACGTCCGCGCCCGCGCCGACCTCATCCTCGACGGCACGCTGAAGCCCGGCCCCGACATCACCCTGTCCGACGGATCACAGCGAGCGTGGGTGACACGATCATCACCCGCCGCAACGACCGGCGGTTGCGGAACCGACATGGCTGGGTCCGCAACGGCCAAACCTGGACCATCACCGCCGTGCGTGACGACGGGTCGATCACGATCCGCCCACCCGGTACCCGGTTCGGCAACAGCATCGTCCTACCCGCCGACTACGTGGCCGAGCACGTCGACCTCGGCCACGCCGTCACCGCCCACCGCGCCCAAGGCATCACCACCGACACCGCCCACGTCCTCGTCGAACCCACCACCACGAGGGAGAACCTGTATGTCGCGATGA	MNALRRAWEIEHGAGSVVGLAPSAVAAQVLADNLGIQTENTAKWWTTHQHTGATFQPGQLVIIGEASLAGTLSLDRITQAAEDAGAKVLLVGDYAQLQSVDAGGVFSLLIHDRHDAPELVDVHRFTHAWEKTASLELRHGRTPVIDTYLAHDRIHDGDAEAMTDAAYTAWRHDRQQGLASVLIAETRENVTALNVRARADLILDGTLKPGPDITLSDGSQRAWVTRSSPAATTGGCGTDMAGSATAKPGPSPPCVTTGRSRSAHPVPGSATASSYPPTTWPSTSTSATPSPPTAPKASPPTPPTSSSNPPPRGRTCMSR				NA	NA	NA	NA	NA
AK009_09950	762			hypothetical protein	GTGGAGGGCGGTGTCGAGGACCGCTTCTGCTCGGGCTTCGATGAGGTGGCGGCGTTCGGTCAGCGCTTGGCGCATGTCGGGGGTCATGGGGCCGGTGGCTTCGGGAATCAGTCCGGCGATGAGGCGCGGTGCCTGTCGTGTGCGGCCGGAGCCGGCAGGTCGGGTGGTGGCGTTGGCGAGTCGGTGGCGGATGACGGAGGCGATGTCGTCGGCGTCAGCGAACCCGCGCGCCTTGATGAGGCGTGGCAGGAGGGTGTCGACGTTGTGGTGGTTGGCTTCGGCCCGGCGCAGTTCCGCGGTCAGAGCGCCGAAGGCGTCGGAGTCGATGACGGCTTGCGCTTGGTCGGTGGTGAGGCCGCTTCTGGTGATGAGAGCAGCCCAGCGGTCGTGTTGGGCTGCGGCGGCGATGGTTTCGTATTCGGCGGCGAGTTGGGCAATCGAGCCCCACCGGTCCTGTTCGGCAGTGATGGTCTCGTGCGCCGACAGCTCAGCACCACTGTGTTGGAGCACGCCGTAGAGGACCGTGCGGGCGGTGGCGTCGGGATTGTCGCCCGGATGCGACGTGGCGTGGCCGTCGGGTCGGTCGAGGATGACGTAGGCCTGGTTCGATTCCCGTCCGCGGGTCATCGCGACATACAGGTTCTCCCTCGTGGTGGTGGGTTCGACGAGGACGTGGGCGGTGTCGGTGGTGATGCCTTGGGCGCGGTGGGCGGTGACGGCGTGGCCGAGGTCGACGTGCTCGGCCACGTAGTCGGCGGGTAG	MEGGVEDRFCSGFDEVAAFGQRLAHVGGHGAGGFGNQSGDEARCLSCAAGAGRSGGGVGESVADDGGDVVGVSEPARLDEAWQEGVDVVVVGFGPAQFRGQSAEGVGVDDGLRLVGGEAASGDESSPAVVLGCGGDGFVFGGELGNRAPPVLFGSDGLVRRQLSTTVLEHAVEDRAGGGVGIVARMRRGVAVGSVEDDVGLVRFPSAGHRDIQVLPRGGGFDEDVGGVGGDALGAVGGDGVAEVDVLGHVVGG				NA	NA	NA	NA	NA
AK009_09951	672		COG3385	IS4 family transposase IS231V	ATGATTGATTTAGAAACGATTATGGAACAGTTACAACCAGGGGAATTATATGAAATTCCTGTTGTCTATGTTGGGCGTGACTATCTACTTCCAGTAAGAGCTGTAATGTATAGGCTTACTCCTGATCAGGAAACACAACGTAGAAAAGATCGAGCATACAAAGAAAAAAAGAAAAACATAACGTTTAGTGATCGAACAAAAAAATTACAAGGCATCAATGTATACATTACGAATATTCCATTGGAATATGTTTCTAAAGAAGCTATCCATGAGTTCTACTCTCTTCGTTGGCAAATAGAAATTATCTTTAAAACATGGAAATCTATTTTTCGCATTCATTCCAATACAAATGTGAAGAAAGAACGATTAGAATGTCATATCTATGGAAAATTAATTGCTCTTTTACTCTCTTCTACTGTGATGTTCCAAATGAGACAAGTATTGCTGATAAAAAAACAAAAAGAATTAAGTGAATGGAAAGCTATGTATATGATTCATGATTATTTCCGCGTATTATATCGACAAATACAAGAACAATCGAAGCAACTAATAACAAGTTTTCTTCGTTTATTCCACTTACTTGATAAAAATGGACGAAAATCACATCGTTATCGAAAAAAAACTGTATTTGATATTTTAGGTACTGCATACGAGCAGTATATAGAAAAATAA	MIDLETIMEQLQPGELYEIPVVYVGRDYLLPVRAVMYRLTPDQETQRRKDRAYKEKKKNITFSDRTKKLQGINVYITNIPLEYVSKEAIHEFYSLRWQIEIIFKTWKSIFRIHSNTNVKKERLECHIYGKLIALLLSSTVMFQMRQVLLIKKQKELSEWKAMYMIHDYFRVLYRQIQEQSKQLITSFLRLFHLLDKNGRKSHRYRKKTVFDILGTAYEQYIEK				NA	NA	NA	NA	NA
AK009_09952	756		COG3385	IS4 family transposase IS231W	ATGAAAAAATCATCTCATTTTAAAGACTTTCGTTTACTTGTAAAAGAATTACAGCGTGTATTTTCATCACACTTTTTAACACATTTGGGGAAAGAAACACAGTTTGTTCAACGTACCAGTAAATTTGGAGCACAAGATTTAGCTGCTTTATGCATAGGAATGGGCCAAGATATTGCAAGTTATTCTTTGACAAGACTATGTGGTGTTTTAGAATCAGAAACAGGTGTCCTTATTAGTCCGGAAGGACTAAATGTACGATTAAACGAAAAAGCAGTAGAATTTTTACGTTCGCTCTTCTCGCAACTCTTACAAAAACAATTATTAGCCACTATATCTCTACCTTCTTCTTTTTCAGAATACTTTCGGCGTATTCGTATTTTAGATGCCACTACATTTCAAATTTCAGATCAACTCGCAGCCGTTTATCCTGGTTCAGGCGGAAGTGGAAAAGCTTCTGGAGTGAAAATACAATTAGAATATGATTTACTGAGTGGTCAATTCTTACATGTTGCATTGGGACCTGCGAAAGAAAATGATGTGAATTACGGCAAAGAAGTTCAACCTACCGTTGATTTACAAGATCTTTGTATACGGGATTTAGGTTATTTTAGTTTGATCGATCTAGATGGCATCCAACAAAAAGGAGCCTACTATTTATCTCGGCTTAAAATGAATACCAAACTGTTTCAAAAAATGAAGAGGCCCCTATTTTTAAAAATGGAGCAAGTAAGAAAAATATCAATATACAATGATTGA	MKKSSHFKDFRLLVKELQRVFSSHFLTHLGKETQFVQRTSKFGAQDLAALCIGMGQDIASYSLTRLCGVLESETGVLISPEGLNVRLNEKAVEFLRSLFSQLLQKQLLATISLPSSFSEYFRRIRILDATTFQISDQLAAVYPGSGGSGKASGVKIQLEYDLLSGQFLHVALGPAKENDVNYGKEVQPTVDLQDLCIRDLGYFSLIDLDGIQQKGAYYLSRLKMNTKLFQKMKRPLFLKMEQVRKISIYND				NA	NA	NA	NA	NA
AK009_09953	261			hypothetical protein	ATGTGTCTATTAGGTTCAGAAAAGAATCCGATTATGATAAAAGTAGGAACAAGAGCACGAGCAGAAAAAATAGCAGCAATTTGTGATGATTATGATTTGTATTACATCATTAGTTTAGAATTAAATGAAGATCTAACAGATTTGAAAAAAGCGATGAAAGGACGGACACGTCCAATGGATATATATGATACATGTGCTTGTAACAGTGGAAAGAAATATAAGTTCTGTTGCATGAGCAAAGAAATAGAGTTAGATATATAA	MCLLGSEKNPIMIKVGTRARAEKIAAICDDYDLYYIISLELNEDLTDLKKAMKGRTRPMDIYDTCACNSGKKYKFCCMSKEIELDI				NA	NA	NA	NA	NA
AK009_09954	639			hypothetical protein	GTGGTGGAAGATCCACAGTCAGGGTTCTTGCACCGCCATCTGGTCGTTCCTTTTGTGGTGGTGCCGTTTTTCTTCATTTGCCCAGTACATACTGGGCATCGTGGTCTGTTTGGTGTCACCGGCAAAGCTAACCAGCATCCAGCTACCACACTGAAGCGCCGTTCCGGCGGATTGAACGAGAAACGGGCCCGAATAAGGACTAAATCCTTATTCAAGCCTGATTTGTATAGTCTGATCTGCGGAAACCGCAAGAATCAGACACACATTCTGCTACTTAACCCCCGGCGAATGCTGGGGCAGTTCTTTTGTACGGCGTTGCTGTGGGCGTCGAGAAGCTTACTTGCTCGGAAGCGCGGTCAGGGCGGCGCCGATTCCTGCCAGCCAGGAGTCCTTAGCCAGCGTCAGGCCGTCCTGGCTCGGGCGGATGCCGTCGTCCTCGGTCATGTTGTCATCGCCGAAGTACATGGACAGCAAGCCGGCAGCGAACGCGGTCAGGCCTACGCCAGCGAGGCGGTTGGATACGAACGGAAGCAGCAGCGCAACGCCCAAGCCGGTCTCAGCGGAGGCGAGGAGCTTGGCGAAGTTCTCGGCGTCCATCTCCTTGACAAACGGCAGGCCGGTCGAGGCAGCGTTGCGTAG	MVEDPQSGFLHRHLVVPFVVVPFFFICPVHTGHRGLFGVTGKANQHPATTLKRRSGGLNEKRARIRTKSLFKPDLYSLICGNRKNQTHILLLNPRRMLGQFFCTALLWASRSLLARKRGQGGADSCQPGVLSQRQAVLARADAVVLGHVVIAEVHGQQAGSERGQAYASEAVGYERKQQRNAQAGLSGGEELGEVLGVHLLDKRQAGRGSVA				NA	NA	NA	NA	NA
AK009_09955	351			hypothetical protein	TTGCTAATTGGCCGGCTGGATCTCACTTTCGACGACCCACTTGTGGTTGGTCATTTCCATCCCGTCAGCATGGACATCGACCACGTAGACCGTCTCTGTCGTGGAGGAGTCGATGGTGGCCTCCGCGCCCTGCATGCCGTCCATGTGGTCGGCCTCGAGCACCACGGCGGTGCCGTCGGCGAGGCGCTCACTACCGGCGTCCTTGATCTCTTCCTGCACCACCCACTTGTGGTTGGGCACGGGTTCGCCGCCGTCGACGGGCGTGTACGTCACTTCGTATGCCGTGGTGTCGTAGGCGCCCACGATCGTTGCCGGCGCGCCCTGCATGCCCGGCATGTGGTCGGCGCTTAG	MLIGRLDLTFDDPLVVGHFHPVSMDIDHVDRLCRGGVDGGLRALHAVHVVGLEHHGGAVGEALTTGVLDLFLHHPLVVGHGFAAVDGRVRHFVCRGVVGAHDRCRRALHARHVVGA				NA	NA	NA	NA	NA
AK009_09956	1074			IS110 family transposase ISSep2	TTGAATGACTTAGACCACCCACAACTCATTTTTGAATCTACAGGTATCTATTCAAGAGGTATGGAACGATTTTGTTGTGTAAATCAAATTAACTATATTCAAATGAATCCGTTAGAAGCCAAATTTAAAACGAGCGCTCTAAGATCATGGAAAACTGATCAGGCAGATGCTCATAAGCTTGCTTGTTTAGGACCGACGCTTAAACAAACAGACAGCTTACCTATACATGAGTTAATATTCTTTGAATTAAGAGAACGCGTCCGTTTTCATCTAGAAATCGAGAATGAACAAAATCGACTTAAATTTCAGATCCTTGAATTACTCCATCAAACATTCCCTGGTTTAGAAAGATTGTTTAGTAGTCGATATTCAATCATTGCACTCAACATCGCAGAAATCTTTACTCATCCAGACATGGTTCTTGATATCGACAAGGAGGTACTGATTACACATATATTCAATTCTACAGATAAGGGAATGTCAATGGATAAAGCTACAAAATATGCACTTCAATTAAGAGTGATTGCTCAAGAAAGCTATCCTAATGTCGATAGACATTCCTTTCTAGTCGAAAAATTACGCTTACTTATTCAACAATTAAAACAATCTATTCATCATCTCAAACAATTAGATGATGCCATGATTCAATTAGCACAACAACTCGATTATTTTGAAAATATTCATTCGATACCTGGTATTGGTAAGCTAAGCACAGCTATGATTATTGGGGAGATTGGTGATATTAAGCGATTTAAATCAAATAAACAACTCAATGCTTTTGTTGGCATTGATATCAAACGATATCAATCAGGTCATACACACTGTAGAGATACCATCAACAAGCGTGGTAATAAAAAAGCGAGAAAACTTTTATTTTGGGTGATTATGAATATAATAAGAGGGCAGCATCATTATGACAATCATGTCGTCGATTATTACTACAAACTAAGAAAGCAGCCTAATGAGAAACCTCATAAGACTGCCATCATTGCTTGTATAAATCGATTATTAAAAACAATTCATTATCTTGTAATGAATCATAAATTGTACGATTATCAAATGTCACCACATTAG	MNDLDHPQLIFESTGIYSRGMERFCCVNQINYIQMNPLEAKFKTSALRSWKTDQADAHKLACLGPTLKQTDSLPIHELIFFELRERVRFHLEIENEQNRLKFQILELLHQTFPGLERLFSSRYSIIALNIAEIFTHPDMVLDIDKEVLITHIFNSTDKGMSMDKATKYALQLRVIAQESYPNVDRHSFLVEKLRLLIQQLKQSIHHLKQLDDAMIQLAQQLDYFENIHSIPGIGKLSTAMIIGEIGDIKRFKSNKQLNAFVGIDIKRYQSGHTHCRDTINKRGNKKARKLLFWVIMNIIRGQHHYDNHVVDYYYKLRKQPNEKPHKTAIIACINRLLKTIHYLVMNHKLYDYQMSPH	PGPT0030635_3850	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK009_09957	699		COG3385	IS4 family transposase ISBce2	TTGTGTGTATGGTTAAATCAACAAATCGCTACAACCTCTCTTACTCAACTTTGTAGTCAATTAGAAACTTCAACAGGAATTTTATTAAGTCCTGAGGGAGTTAATCGACAATTTAACTCGGCTTCTGCAGCCTTCTTTCGAACTGTATTTACTACACTTCTACAAGCTAAAATTGGAGGATCATCTACAATTTCTCATTCTCTTTCTGCTTACTTTGAGCGGATTTGCATCCTTGATTCTACAATCTTTCAAGTTCCAGATCGATTCGCAGCTACTTATCCTGGTGCTGGAGGCTGTAGTCATACAGCTGGCGTGAAAATTCAATTAGAGTATGACTTGTTGAGTGGAGAGTTTTCTGATGTGAAAATTGAACCAGGAAAACGAAGTGATCAGGCATATGGGGCGACTCGAATGGACATGACACAAAAGAATGAACTATATATTCGTGACTTAGGGTATTTTCGTTTACAAGACTTTAAATCGATCCAAGATAAGGAAGGGTATTATTTATCGCGTCTTAAATTACCAACTAAAATATATAGAAAAGAATTCGAAACAGTGGTATTTAAAACAAAACCTGCTCAATTGAGACCGGTATATATACAAATTCATTTGGAAGACATCATGAACCAATTACAACCTGGCCAAGTGTATGAATTACATGATGTATATGTAGGGGTTCTGGTGCAAAAAAGCTAA	MCVWLNQQIATTSLTQLCSQLETSTGILLSPEGVNRQFNSASAAFFRTVFTTLLQAKIGGSSTISHSLSAYFERICILDSTIFQVPDRFAATYPGAGGCSHTAGVKIQLEYDLLSGEFSDVKIEPGKRSDQAYGATRMDMTQKNELYIRDLGYFRLQDFKSIQDKEGYYLSRLKLPTKIYRKEFETVVFKTKPAQLRPVYIQIHLEDIMNQLQPGQVYELHDVYVGVLVQKS				NA	NA	NA	NA	NA
AK009_09958	291	cry4Ba		Pesticidal crystal protein Cry4Ba	TTGGTTCTATCTAATTGGAGTGCTGGCGTATCTCAAAATGTCCATCTCCAACATAATCATGGGTATGTCTTACGTGTTATTGCCAAAAAAGAAGGGCCTGGAAATGGGTATGTCACGCTTATGGATTGTGAGGAGAATCAAGAAAAATTGACGTTTACGTCTTGTGAAGAAGGATATATTACGAAAACAGTAGATGTATTCCCAGATACAGATTGTGTACGAATTGAGATAGGCGAAACCGAAGGTTCGTTTTATATCGAAAGCATTGAATTAATTTGCATGAACGAGTAA	MVLSNWSAGVSQNVHLQHNHGYVLRVIAKKEGPGNGYVTLMDCEENQEKLTFTSCEEGYITKTVDVFPDTDCVRIEIGETEGSFYIESIELICMNE				NA	NA	NA	NA	NA
AK009_09959	1434		COG3385	IS4 family transposase IS231F	ATGAATCTCTCGATTCAAGAGGAGTTACAACCATTTGTAGAAGAATTACAGCGCTATATCACACCTGAATTTTTGGAAGAACTGGCAAGAGAGATGAAGTTTGTAAAGAGAAAACGCAAATTTTCGGGATCAGATTTAGCTACCATTTGTATTTGGATTAGCCAAAGAGTGGCCAGTGATCCTTTAGTACGATTATGTAGTAGGCTTCACGCAGTTACAGGTACTGTACTTAGCCCGGAGGGCTTAAATAAACGATTTAATGAAAAATCAGTGTTATTTTTAAAACATGTCTTTTCTTTGTTGTTACAACAAAAAATCTGTGAGCAAACTTACATTTCTAATCAACTTCTTTCCCATTTTAAACGCATTCGTATCATGGATGCCACCATGTTTCAGGTACCTCATACTTTGGAACATATATATCCTGGTTCAGGTGGTTGTGCGCAAACAGCTGGAATCAAAATTCAATTAGAATATGATTTACATAGTGGCCAATTTTTCAATTTTCAAGTGGGCCCTGGAAAAAATAATGATAAAACATTTGGAACAGAATGTTTAGATACGTTACGACCAGGCGATTTATGTATTCGTGATTTAGGGTATTTCTCATTAGAAGATTTAGATCAAATGGATCAACGGGGGACATATTATATTTCGAGGTTAAAGTTAAATACGAACGTATATGTAAAAAATCCAAGTCCGGAATATTTTAAAAATGGTGCCATTAAAAAACAATCAGAATACATACAAATCAATGTCATACAAATTTTGAATCAACTCCAACCAGGTGAAACAATAGAATACCAGCAAGCTTATATTGGAGATAAACAGCAGTTATTTTCACGTCTCGTTTTTCATCGTTTAACAGCAGCACAATTACAAAAACGCCTGAAAAAAATTGCAGAAAAAGAAAAGTCGAAACACAGAACCTATTCAGAGAAAAGTAAATTAGTAGCAGGATTAAATGTGTATGTGACAAATGCACCTTGGGAATGGGTTCCGATGGAACAAGTACATGAATTGTATACATTACGCTGGCAGATAGAAATTGTTTTTAAAACGTGGAAATCATTATTTGATATAGATCATTGTCGCACTGTCAAACAAGAAAGAATAGAGTGCCATTTATACGGGAAACTGATCGCTATTTTCTTATGTTCTTCTACTATGTTTAAAATGCGTCAACTTTTATTACAGAAGAAGAAAAAAGAATTAAGTGAATATAAAGCAATTGGAATGATTCAGGACCATCTATTTCTCCTCTATCAATCCATACAAAACACCCAAGAGATAACAAAGCTTCTAACCCGCCTGTTCCACCTTCTACAACAAAACGGACGGAAATCTCATCGATACGAGAAGAAAACAGTCTTTGATATCATGGGTGTTATCTATGAGTATAGTGGATGCAGCAAGCAAAAGAAAGCTGCATAA	MNLSIQEELQPFVEELQRYITPEFLEELAREMKFVKRKRKFSGSDLATICIWISQRVASDPLVRLCSRLHAVTGTVLSPEGLNKRFNEKSVLFLKHVFSLLLQQKICEQTYISNQLLSHFKRIRIMDATMFQVPHTLEHIYPGSGGCAQTAGIKIQLEYDLHSGQFFNFQVGPGKNNDKTFGTECLDTLRPGDLCIRDLGYFSLEDLDQMDQRGTYYISRLKLNTNVYVKNPSPEYFKNGAIKKQSEYIQINVIQILNQLQPGETIEYQQAYIGDKQQLFSRLVFHRLTAAQLQKRLKKIAEKEKSKHRTYSEKSKLVAGLNVYVTNAPWEWVPMEQVHELYTLRWQIEIVFKTWKSLFDIDHCRTVKQERIECHLYGKLIAIFLCSSTMFKMRQLLLQKKKKELSEYKAIGMIQDHLFLLYQSIQNTQEITKLLTRLFHLLQQNGRKSHRYEKKTVFDIMGVIYEYSGCSKQKKAA				NA	NA	NA	NA	NA
AK009_09960	342			hypothetical protein	ATGGACACCTATCACGTCGACTACGACTGGGCGTGGGGCACAAAACGCCCGGGAGACCTGGTCACGCTGCGCGCCCACCTGGAGTTTCCCGACCCCGCCACGGCGAAGCGGGCGGTGGTGGAGTTCTTCGACAACCTCATGGCCGTCCACGGTTTCCACGGGGCCGGCGGCTGGGCGGCTGAGGAGGTCACACCCGCGCCGGGCCCGACGCAGCGCGTGATCGACTTCACCGCAGGAGGCCAGGATGTTGCCGACGCTATCGGCTACGCCGCCGAGGACGCGGTCGAGCACTTCAGCACCTTCCCGGGCGCTACCGTGCGCTGGGAGCACATGCCCTACTGA	MDTYHVDYDWAWGTKRPGDLVTLRAHLEFPDPATAKRAVVEFFDNLMAVHGFHGAGGWAAEEVTPAPGPTQRVIDFTAGGQDVADAIGYAAEDAVEHFSTFPGATVRWEHMPY				NA	NA	NA	NA	NA
AK009_09961	801	panC_3	COG0414	Pantothenate synthetase	ATGACCGAACTCGTTCATACACCCGCAGAGCTTGAAGCCGCCATCGGCCACCCCCGCGCGCTCGCCCTCGTGCCCACCATGGGTGCGCTGCACGACGGGCACCTGTCGCTGGTCCGCGCGGCACAGACAACCGGCTCACCGGTGGTGGTGAGCATTTTTGTCAACCCGCTGCAGTTCGCGCCGGGCGAAGACCTCGACGCCTACCCGCGCACGTTGGACGCCGATGTCGCGTTGCTCGAGCGCGAGGGCGTCGACGCCGTGTTCGCCCCGTCGGTTGCCACGATGTACCCGACCGGCCCGCGCACGACAATCCACCCGGGCCCGGCAGGAAAGATTCTTGAGGGTGCGTCGCGCCCGACGCACTTCGCGGGCGTGCTCACCGTGGTGGCGAAGCTGTTTTCCCTCACCCGCGCCACGGATGCGTTCTTCGGGGAGAAGGACTACCAGCAGCTCGTTCTCATCCGGCAGATGGTCGCCGACCTCAACATGCCGGTGCGCGTCCACGGTTGCCCCATCGTGCGGGAAGAGACCGGCCTGGCAATGTCCTCGCGAAACCGCTACCTCTCAGCTGAACAGGCCAGCGCCGCCGAGGTACTCTCGCGCGCGCTCGCGACAGGGGAACTCAGCGCCGCCCGCTCGCTTCTCGACGCCTCCCCGGGTGTCGCCCTCGACTACCTGGCGCTGACGACACCCGAGCTTGAGGAGATCCCCGCCGGCTACAGCGGGCCCGCCCGCCTGCTGGTGGCAGCGCGCGTGGGCACGACCCGGCTGATCGACAACGCTGAGGTGAACGTCGACTAG	MTELVHTPAELEAAIGHPRALALVPTMGALHDGHLSLVRAAQTTGSPVVVSIFVNPLQFAPGEDLDAYPRTLDADVALLEREGVDAVFAPSVATMYPTGPRTTIHPGPAGKILEGASRPTHFAGVLTVVAKLFSLTRATDAFFGEKDYQQLVLIRQMVADLNMPVRVHGCPIVREETGLAMSSRNRYLSAEQASAAEVLSRALATGELSAARSLLDASPGVALDYLALTTPELEEIPAGYSGPARLLVAARVGTTRLIDNAEVNVD	PGPT0008750_4036	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
AK009_09962	570			hypothetical protein	GTGTCAGCTCTTGTCCAGATATTCCCACTCCTCCGGCACCGTGGACATCAGCGCCTCCATCGCGCCCCGCGCCAGCTGCGGGTGCTGCTCGACGAAGCGCTCGGCGTCGTCGTAGGCACGCTGCACGATGTCGTAGTCGTCCACCAGGTTGATCAGCCGCAGCGTGCGGTGGCTGCCGGACTGGTTCACGCCCAGGATGTCGCCCTCCTGTCGGGTGCGCAGGTCGAGCTCCGCGAGCGCGAAGCCGTCGGTGGTGGCAGCGACCTGACAGACGCGCTCGAACGCCGGGGACTCCTCGTCGGCAAGTGTGTGGAACAAACACAGCGACTGATTGCCGCCGCGGCCAACGCGCCCGCGCAGCTGGTGGAGCTGGCTCACACCGAAGTGCTCCGACTCGCGCACCATCATCACGGTCGCGTTGGGCACATCCACGCCCACCTCGATGACCGTGGTGGACACCAGCACGTCGATTGCCCCGGCGGCGAAATCCTTCATCACCGCGTCCTTGTCCTCGCCCTTCATCCTGCCGTGGAGAACACCGACCTCGAGGTCGGCGAACTCGGTGGCTGA	MSALVQIFPLLRHRGHQRLHRAPRQLRVLLDEALGVVVGTLHDVVVVHQVDQPQRAVAAGLVHAQDVALLSGAQVELREREAVGGGSDLTDALERRGLLVGKCVEQTQRLIAAAANAPAQLVELAHTEVLRLAHHHHGRVGHIHAHLDDRGGHQHVDCPGGEILHHRVLVLALHPAVENTDLEVGELGG				NA	NA	NA	NA	NA
AK009_09963	585	rsmD_2	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGAACCGCATCATTTCCGGCGAGGCGCGCGGGCGCAAAATTAAGGTACCGCCAGAGGGGACTCGTCCGACGTCTGACCGTGCCCGCGAGGGGCTTTTCTCCTCCCTGCAGGTGCGCTTTGGTTTGATCGACCAGACGGTGCTCGATCTCTTCGCCGGTTCGGGCGCGCTTGGACTTGAGGCGGCCTCGCGCGGCGCGTCGGAGGTGGTGCTCGTGGAAAACGACCCGCGCGCGGTCAAAGTCATTGAGTACAACGCGTCCGTTGTCGGCCACCCGAACGTGCACGTCGAGCCGGTCAAGGCGTCGACCTACTTGGCCCGGGCGCCGCGCAACCACTTCTCCATGGTGCTTGCCGACCCGCCCTATGACCTCGCGGACGAGTCCGTCGCCGAGATGCTCGCCGCCCTTGAGCCCGCGCTTGTCGACGGCGCCGTGGTCGTCGTCGAGCGCCACCGTGACAGCCCGGAGACCGCCTGGCCCGAGGCGTTCACCCCGACGACCCAGAAGCTGAAGAAGCGCCTGTACGGCATCGCGCGTATGGATATGGCCGTCTACTCCAGCCCCCGAAAGGATCCCACCCCATGA	MNRIISGEARGRKIKVPPEGTRPTSDRAREGLFSSLQVRFGLIDQTVLDLFAGSGALGLEAASRGASEVVLVENDPRAVKVIEYNASVVGHPNVHVEPVKASTYLARAPRNHFSMVLADPPYDLADESVAEMLAALEPALVDGAVVVVERHRDSPETAWPEAFTPTTQKLKKRLYGIARMDMAVYSSPRKDPTP				NA	NA	NA	NA	NA
AK009_09964	273			hypothetical protein	GTGGGCGGTGGTGTAGTCGACCAGCAGCCCGCCCCAGAAATCGACGCGGATGTTGGGGACGTCGGCAAGCACCTGCTCGATCAGCTCAACGCGCTCGTGGACGGTAAAGAGACCGGAGGTTTTCGCGGGGTTGCCGGTGACGAGGACGACGACCTCGTCAAAGTGGCGCGCGGCGCGGGTGAAGATGTCGACGTGGCCGTTGGTCACCGGGTCGAACGAGCCCGGGCACACTGCTGTGGTCATGGGGTGGGATCCTTTCGGGGGCTGGAGTAG	MGGGVVDQQPAPEIDADVGDVGKHLLDQLNALVDGKETGGFRGVAGDEDDDLVKVARGAGEDVDVAVGHRVERARAHCCGHGVGSFRGLE				NA	NA	NA	NA	NA
AK009_09965	366			hypothetical protein	ATGAGCTTATCATCAATAATTCCATTTAACCCCATTGGCTCTAAATTAGAAGACCCAGCTGACACAATGCCATCTGTTGCCGCGGTTGCAACTGCAGCACCGTCAATCGTAACGGTAGTCGCTGCACGATCAATTGCTGTAACAGTTCGATTGCTTGTTGTCACGCTACCTGTCGCATTGACAATATCTACTTTTTGTCCAACGAAGAATCCCTTCACACTACTTACCACAAGTGCATTCGCAGCCGTCGCCTGTGCGGTACAATTCGCAATACGTCCTGAACCATTACCGAAGGTAACACGTGCACGGAAGTTCTTCATATCCGTTGTTAAACCTTTTACCTCAGATTCTACTGCACGAAGATAA	MSLSSIIPFNPIGSKLEDPADTMPSVAAVATAAPSIVTVVAARSIAVTVRLLVVTLPVALTISTFCPTKNPFTLLTTSAFAAVACAVQFAIRPEPLPKVTRARKFFISVVKPFTSDSTARR				NA	NA	NA	NA	NA
AK009_09966	411			hypothetical protein	GTGACGCCTGAAATTCAGCAGAAATTAGAGAGTCTGGAAGCAAAGGCACAAAGAGCAGAAGAACTGGAATATCAGCGTGAACAGCACCAATTATCACAACGATTCACTCAAGCGTTAGGGCAATTCGCGCAAGAAAAAGGCGCAGATGCAGCAGCGTTAGAACAATTTATGGTGGAACAAAATGTTCCTAATTTTGAAGTGGCGTATAACGCCATGCGTGCGCAGCAGTTAGAAGAACAGCTTACTTCAGCAAAAGAAACGGCCATTCAAGAATATTTACAAAGTAAGAAAGCGCCGAAGGTGGAAGGTCCTGGTGTAACAGGACTTGTCTCGGATGAACCAACTACAGATTTTAAAGTGGCGCGTGAAAGAGCATTACAACGATTACGATCAGCAAACCAACAAATTTAA	MTPEIQQKLESLEAKAQRAEELEYQREQHQLSQRFTQALGQFAQEKGADAAALEQFMVEQNVPNFEVAYNAMRAQQLEEQLTSAKETAIQEYLQSKKAPKVEGPGVTGLVSDEPTTDFKVARERALQRLRSANQQI				NA	NA	NA	NA	NA
AK009_09967	162			hypothetical protein	ATGCTCGATGAACTGGGTGAACACTGCCGCGTTGGTGATGTCGTTTCGACGTTTGACGCTGGAGGCGCCGCATTGTTTGCAGCGCCACCTGGTGGTGCCTTTGCTGGTGGTGCCGTTGCGTTTCATCACTGCGCCGCAGTGGCAGCGTGGTTGGTTCTTTGA	MLDELGEHCRVGDVVSTFDAGGAALFAAPPGGAFAGGAVAFHHCAAVAAWLVL				NA	NA	NA	NA	NA
AK009_09968	327			hypothetical protein	TTGAATTTTCGTAGTCGGCCAGCACTTCTTGATTGCGCTGTAGGCTCCCTGGCCGCCATCGATAACGGCGATAAGTGGGGCTTCGATGCGCTCGAGAAGTCGTTGGTAGTCGCGCGTGGTTTCGTGTTTACACCAGTGCCAGGCAATCACGTGGTCGATCGTCGCCGCGACGATCAGACAGCCGCCGGCGGTGTAGGTGCCGTCGAGGAAGATCTGGTCGTAGATCCTCTTGTCGTGGCCGGCGGTGGGGTCAGGCACATCAGCGAGCCAGCACCACTTGAAGCGCCGCTTCATTGTGGCGCGGCTGACGCCGTTTCGTTTGGCTAG	MNFRSRPALLDCAVGSLAAIDNGDKWGFDALEKSLVVARGFVFTPVPGNHVVDRRRDDQTAAGGVGAVEEDLVVDPLVVAGGGVRHISEPAPLEAPLHCGAADAVSFG				NA	NA	NA	NA	NA
AK009_09969	459			hypothetical protein	GTGGGTGTAGTCGGTGTCGATAGCGTTGTCGTAGAGGGCTGGTCGTCCTGTTTCGTGGTCGGCTTGGTTCTCGTTTCGGGTCAGGGTGGATACTTTGGCGAGTTGGCCCTGGCCCCAGTCGGACTGCCTGGCGATTCGTACTGGATCGTCAGGCAGTTCCGTTTTGAGGTAGAGCCACCAATCCAGCATGCGGCGTTGTCGTTCACCGGATCTGCCCCGGTGGGTTCTGGCGAGCAGTTTGAGCTGGGCGTTGATGCCGCCCTCCAGGCTGTTGGTGGTGGATTTAATGCGGTGTTTCTCCAGCACACCTTCTGGTGGGGTGAGGTAGACAAACAGCATCTCGGACCGGAAGAGGTGGTTGAGGCTGTTGTAGGCCTTGCGCACGTTGGGGTGGGTCCACACGCGGGTCCATGCACCGGTTTTGGGGTCTTTGATCAGGGTTTTCTCGTCCATCCATGA	MGVVGVDSVVVEGWSSCFVVGLVLVSGQGGYFGELALAPVGLPGDSYWIVRQFRFEVEPPIQHAALSFTGSAPVGSGEQFELGVDAALQAVGGGFNAVFLQHTFWWGEVDKQHLGPEEVVEAVVGLAHVGVGPHAGPCTGFGVFDQGFLVHP				NA	NA	NA	NA	NA
AK009_09970	306			IS3 family transposase ISBt2	TTGAAGACAAGAGTTCATTACCCAGAAGAAGTAAAGTGGAAAGTGATTGAAATGAAAAAGGATGGATATTCCAATCGGACAATTATGGAGAAGCTTGGAATTAAAAATGTTTCCCAAATTAAGACGTGGATGAAGTGGTATCGTACCGATCAAACGTACCGTTTTCAACAACCTGTAGGAAAACAATATTCTTATGGAAAAGGACCAAAAGAGCTCAGTGAATTAGAACAGCTACGTTTAGAAAATAAACATCTAAAAACAAAATTACTTGTATGGGGAAAGTATCTGGAAATCGAAAGGGGCTGA	MKTRVHYPEEVKWKVIEMKKDGYSNRTIMEKLGIKNVSQIKTWMKWYRTDQTYRFQQPVGKQYSYGKGPKELSELEQLRLENKHLKTKLLVWGKYLEIERG				NA	NA	NA	NA	NA
AK009_09971	885			IS3 family transposase ISBt2	ATGGGGAAAGTATCTGGAAATCGAAAGGGGCTGAAACCAGAAACTGTAGTTACTTTATGGAGAAATGTACAAACAAAAATAACGGTAAAAGACTTGTGTAACGTATTAGAATTACCCCGTTCTACATTTTATCGTTGGTTACAACGAACGGAAGATCTGAAAGATGATATAGAAGAAAAAGTAAAGGACGTCTGTCTTAGGCATAAATTCCGGTATGGATATCGAAGAGTGACCGCTACTCTTCGAAAAATGGGACTGTGTGTCAATCATAAAAAAGTATTACGAATCATGAGACAAAATCATATTCTTTCCAAAGTGCGTCGAAAGAAAAAGAAATATATCAATGGTGCGGAACCAATGGTAGCCCCTCATCGATTGGAGCGCCAATTCGATGCATCCAAACCAAATGAAAAGTGGTTTACGGATGTGACGTATCTCTTATTTGGAGAGCGTACCTTGTATGTATCAACGATCATGGATGCCTTTAATCGTGAAATTATTAGTTGTGTCATCAGCGAATCACAAACACTGACATTAGCGATGAAAACATTGAAACAAGCAATGAGAGGGCGAAAAGTAAAAGATGTCCTTCTTCACTCGGATCAAGGAAGTATTTATACAGCAAAAGAATTTCAAGCGTATGCCAAAGAAAACGGCATGATCACCAGCATGTCCCGGAGAGGAAATTGCCATGATAATGCCGTCATGGAAAGCTTCTTTGGTCATTTAAAAAGTGAAGCTTTCTATTCACAAAAGATAACAAAAGTATCCAACACAACTGTGCGAAAGATTGTGCTAGAATACATTCATTACTACAATTGTGTGCGAATTCAAGAAAAATTAAACCACCTATCCCCTAAAGAATTTAGGGAACAAGTGGTTTAG	MGKVSGNRKGLKPETVVTLWRNVQTKITVKDLCNVLELPRSTFYRWLQRTEDLKDDIEEKVKDVCLRHKFRYGYRRVTATLRKMGLCVNHKKVLRIMRQNHILSKVRRKKKKYINGAEPMVAPHRLERQFDASKPNEKWFTDVTYLLFGERTLYVSTIMDAFNREIISCVISESQTLTLAMKTLKQAMRGRKVKDVLLHSDQGSIYTAKEFQAYAKENGMITSMSRRGNCHDNAVMESFFGHLKSEAFYSQKITKVSNTTVRKIVLEYIHYYNCVRIQEKLNHLSPKEFREQVV				NA	NA	NA	NA	NA
AK009_09972	408			hypothetical protein	ATGGTACAAATTCAAAGAAAATATAATTTTATGCCAGGTACAACCATTTCATCTGGGCAAGTAAATGAAGAATTTACGAATTTAATTAATGCCCATAATGACAATGATGGGATTTTACAAAATTTGAATGAGTATGGGTTCTATAAAAATAACATACGAGCAGGAAAGACAGAGTTTATTCAGATAAGTCGTGGACAAACGTTGCAGAAACAAATCTTATTTACTCCTGCCTTTTCCCAAACTCCAATTGTTACGGTGACAGCGGCGAATGGAGATATTGGAACAGGAGACATCGTGGTATATCTTTCGCAAGTTACGACGACTGCTTTTACACTTACTCTGCACAATAAGAATACAACAAGAGATACTTCATTGGCTTTTCATTATATTGCCATTTCAATGGGATGA	MVQIQRKYNFMPGTTISSGQVNEEFTNLINAHNDNDGILQNLNEYGFYKNNIRAGKTEFIQISRGQTLQKQILFTPAFSQTPIVTVTAANGDIGTGDIVVYLSQVTTTAFTLTLHNKNTTRDTSLAFHYIAISMG				NA	NA	NA	NA	NA
AK009_09973	408			hypothetical protein	ATGGTACAAATTCAAAGAAAATATAATTTTATGCCAGGTACAACCATTTCATCTGGGCAAGTAAATGAAGAATTTACGAATTTAATTAATGCTCATAATGACAATGATGGGATTTTACAAAATTTAAATGAGTATGGGTTCTATAAAAATAACATACGAGTGGGAAAGACAGAGTTTATTCAGATAAGTCGTGGGCAAACGTTGCAGAAACAAATCTTATTTACTCCTGCCTTTTCCCAAATTCCGTTTGTTACAGTGACAGCGGCGAATGGAGATATTGGAACAGGAGACATCGTGGTATATCTTTCACAAGTTACGGTAACTTCTTTTACACTTACTTTGCACAATAAGAATACAACAAGAGATACTTCACTGGCTTTTCATTATATGGCTATTTCAATGGGATGA	MVQIQRKYNFMPGTTISSGQVNEEFTNLINAHNDNDGILQNLNEYGFYKNNIRVGKTEFIQISRGQTLQKQILFTPAFSQIPFVTVTAANGDIGTGDIVVYLSQVTVTSFTLTLHNKNTTRDTSLAFHYMAISMG				NA	NA	NA	NA	NA
AK009_09975	552			hypothetical protein	ATGGCGGGGCAGTTTTGTTTCTGCGGTGACGTGGGCCGGGGCATCGATGCTGGTGTGGGCGAGGACGCTGGCTGTGGTCTGCTCGGGAGTGTAGGTGGCGTTCTCTTCGTCGTCGATGGTGATGCGGGTGAACAGGGCGCGGTTGAGGATGCGTCGTTCGGCTGGTTCGCACTTGTTGTAGAGGTCGTTGAGGTCGACCAGGAGTTCAGTGAGCTGGTCCAAGCCTGTTCGGGCCTCGGCGTAGGTGTCGGTGAGGTTGTCGAGCCGGGTGGTGATCTGGTCGAGGCTGGCGCGGATGCGGTCTTGCTCGCTCGTGAGGAGGTCGAGGGGGATCGCGTCGGCGTAGTGAGCTTGGTCGAGTTTGAGGCGTTCGGCCTCGAGCTTGTCGCGCTGGGCGGTCAGGAGCTTGCGTTCGTCCTCGCTGGATCCTTCGAGCTGGTCGAACACGTCGTTGAGGACCTTCCGGACGTGCTCAGCCTGGGTCTGGGTCAGGGAGTTGCGCTGGTAGGTGCGTTCGATCTCGGCTTCGGCGCGTTCGGCGAGGATCGCTGA	MAGQFCFCGDVGRGIDAGVGEDAGCGLLGSVGGVLFVVDGDAGEQGAVEDASFGWFALVVEVVEVDQEFSELVQACSGLGVGVGEVVEPGGDLVEAGADAVLLAREEVEGDRVGVVSLVEFEAFGLELVALGGQELAFVLAGSFELVEHVVEDLPDVLSLGLGQGVALVGAFDLGFGAFGEDR				NA	NA	NA	NA	NA
AK009_09976	675			IS6 family transposase IS431R	ATGAACTATTTCAGATATAAACAATTTAACAAGGATGTTATCACTGTAGCCGTTGGCTACTATCTAAGATATGCATTGAGCTATCGTGATATATCTGAAATATTAAGAGAACGTGGTGTAAACGTTCATCATTCAACGGTCTACCGTTGGGTTCAAGAATATGCCCCAATTTTATATCAAATTTGGAAGAAAAAGCATAAAAAAGCTTATTACAAATGGCGTATTGATGAGACGTACATCAAAATAAAAGGAAAATGGAGCTATTTATATCGTGCCATTGATGCAGAGGGACATACATTAGATATTTGGTTGCGTAAGCAACGAGATAATCATTCAGCATATGCGTTTATCAAACGTCTCATTAAACAATTTGGTAAACCTCAAAAGGTAATTACAGATCAGGCACCTTCAACGAAAGTAGCAATAGCTAAAGTAATTAAAGCTTTTAAACTTAAACCTGACTGTCATTGTACATCGAAATATCTGAATAACCTCATTGAGCAAGATCACCGTCATATTAAAGTAAGAAAGACAAGGTATCAAAGTATCAATACAGCAAAGAATACTTTAAAAGGTATTGAGTGTATTTACGCTCTATATAAAAAGAACCGCAGGTCTCTTCAGATCTACGGATTTTCGCCATGCCACGAAATTAGCATCATGCTAGCAAGTTAA	MNYFRYKQFNKDVITVAVGYYLRYALSYRDISEILRERGVNVHHSTVYRWVQEYAPILYQIWKKKHKKAYYKWRIDETYIKIKGKWSYLYRAIDAEGHTLDIWLRKQRDNHSAYAFIKRLIKQFGKPQKVITDQAPSTKVAIAKVIKAFKLKPDCHCTSKYLNNLIEQDHRHIKVRKTRYQSINTAKNTLKGIECIYALYKKNRRSLQIYGFSPCHEISIMLAS	PGPT0030690_862	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030690-putative_transposase-K07498	NA	NA
AK009_09977	213			hypothetical protein	ATGGGATATGGGCACCTTCCTTTCGCTAAAATGAATGGCGAGAAAGCAAAAGAGGTTTCTTCCACAATGATAGATGTAAATGGGGATCGTATTATAGATGGATGGGAGCGAAAATGGGATGTATCGGGTAATCAAAGTGGGAGATTTGAATATGAAAATACTTCCACGAACTATCCTTGGAATAAAATGTATACAGCATTAAATATTAAATAA	MGYGHLPFAKMNGEKAKEVSSTMIDVNGDRIIDGWERKWDVSGNQSGRFEYENTSTNYPWNKMYTALNIK				NA	NA	NA	NA	NA
AK009_09985	339			hypothetical protein	TTGGACAAGCGCAATCAACATTTAACAACACAAAATAATCAACTCGAACACCATTTAGACATGTTAAATGCACGTCATCAAGCGATGAACGACATGGTAAGAAATGATACACGTATTTTGTTTGCGGGACTTAGATGTGCATTGAAAGATAGGAACATTGAATTAAGCGCAGAAATTAAATATCAACGTATGCCAGAAGTCGGTATTGATCCCGATACGGTGGATCAGGGGGCTTTAACACATGCATATCAAGGTGATGTGTCAGGGATAGACCATCATATAAGAAAGGCATCAGCACCTATTAAAAAAGAGACAGAGAATGACTTAGAATTAGAATAA	MDKRNQHLTTQNNQLEHHLDMLNARHQAMNDMVRNDTRILFAGLRCALKDRNIELSAEIKYQRMPEVGIDPDTVDQGALTHAYQGDVSGIDHHIRKASAPIKKETENDLELE				NA	NA	NA	NA	NA
AK009_09986	306			IS3 family transposase IS3502	ATGCCTCGTAAGTCCTATACTGAGGAGTTCAAGCGCGACGCGGTCGCGATGTATGAAGACACAGACGGTGTGTCTCTTAATTCGGTTGCTCATGATCTCGGTGTTAACCGTGGCAGTCTCGCTGCCTGGGTCAAGCGCTATGGCACGGGCAAAAAAGCCCGCGCGATTGATGCTGCAGCTCGAGCCCGGACATCATCGGATTTAGAGCGGATCCGACAACTCGAGAAGCAGAACCGGCTTCTTCAAGAAGAGCGAGACATCCTTCGCAAGGCGGCGCAGTATTTTGCGAAAGAGATGGGCTTGTGA	MPRKSYTEEFKRDAVAMYEDTDGVSLNSVAHDLGVNRGSLAAWVKRYGTGKKARAIDAAARARTSSDLERIRQLEKQNRLLQEERDILRKAAQYFAKEMGL				NA	NA	NA	NA	NA
AK009_09987	243			hypothetical protein	ATGAAACGTACATTTTTATTAACTTATACAACCGTATCAGGAAAAACATATACGGAATTTAAAACATTTGAAAATGGTCCCGATTACGATACATGTGTATCACGAATTATAGATGAATTTGATGAATTGGCATACTTATATATTAAAAAAGATGTTGTACATTATATTAATGTTGATCACATTGAAAGTCTAGACATTGAAGAAGTGACAGAGGGACAACACATTACTTATGATTTTGAATAA	MKRTFLLTYTTVSGKTYTEFKTFENGPDYDTCVSRIIDEFDELAYLYIKKDVVHYINVDHIESLDIEEVTEGQHITYDFE				NA	NA	NA	NA	NA
AK009_09991	375			hypothetical protein	ATGGAAACCAAGTATTTTGATTTTGGTTTGATGACACAAGACAAAAAGATTCATCGGATATGGTTGCATAGTAATCAACCCAACGGGTATCGGTTAGGAGTGAAATTAGATTTTGAAACCAAGCAGGTAAATGGTACAAGACCAAATGCTGCGAATGTTTCCAATTGGGATGAAGCGATTTGGGACCAGAATACATTTGATAGAATCGAAATGTATATTAATCGCCTACGGGTAAATAATCGAACGAAAAAAATAGGCATGATTATCGAGGACGTAACTCATATACGTCCTTTTGTTGTATACGGCATCGGGGTTCAGTATGAATTGAAAAGAAGAAAGGAGACGTCCTATGGTACAAATTCAAAGAAAATATAA	METKYFDFGLMTQDKKIHRIWLHSNQPNGYRLGVKLDFETKQVNGTRPNAANVSNWDEAIWDQNTFDRIEMYINRLRVNNRTKKIGMIIEDVTHIRPFVVYGIGVQYELKRRKETSYGTNSKKI				NA	NA	NA	NA	NA
AK009_09992	180			hypothetical protein	TTGAAATCAATTGTTCATTTTATTTGCCTCTTTATCATATTTTGTATTTTTGGATATGTGATAGATTTAATATTTTTTAAAGAAATAAATATTTTTCTGATTTTAGAATCAGCCTTTATTTTATCATTACTAATCATGCCGATATTAAAGATTGTAAAAGAGATAGAAATTGAAAAATAG	MKSIVHFICLFIIFCIFGYVIDLIFFKEINIFLILESAFILSLLIMPILKIVKEIEIEK				NA	NA	NA	NA	NA
AK009_09993	201			hypothetical protein	ATGATGGTAGGTACAACAAATATGATGATGTCTATGGAAAAAATGATGTGTGAAATGAAGTGTATGAAGATGATGATGAACAACATGATGCAAATGAATGTAAACATGGATAAAGCTATGGTTAATACAATGCATGAATGTGATGAAATGATGACTTCTACTATGTCTATGATGAAAGCTATGAAAGAGAAATGTTGTTAA	MMVGTTNMMMSMEKMMCEMKCMKMMMNNMMQMNVNMDKAMVNTMHECDEMMTSTMSMMKAMKEKCC				NA	NA	NA	NA	NA
AK009_09994	258			hypothetical protein	ATGGGGTGCAAGCACTATAATGGGGTACGAACATATTGTATGGACGATTGTAAAATTGGAAAAGAACTATATCAATTAGGAACAGGATTGATTGGTGATGAAAAGGACCAGAAACAGAAAGTAAAACTGAAGTGGGATTCTGTTTGTCAACAGGCGCTCGTGTTAAGAAGTAAAGGATATACCTATCAAAAAATTGCAAACCAATTAGGATGTCATGCGAGTAGTTTACGTAAACAGCTCCATCAACGTGGACTGTAA	MGCKHYNGVRTYCMDDCKIGKELYQLGTGLIGDEKDQKQKVKLKWDSVCQQALVLRSKGYTYQKIANQLGCHASSLRKQLHQRGL				NA	NA	NA	NA	NA
AK009_09995	156			hypothetical protein	ATGAGGGTAGTTGCGAAAAAAGTAGGTTCTGGTGCAAATAATGGTCAAACGCAAAAAAGGCATAGATTCCTTCTGGAATCCACTCCTAAGCAGTTAATCCAAATAACTGATGAATACATCTATTCTGATTTTGGGCAGATTGTGCCCTTAATTTGA	MRVVAKKVGSGANNGQTQKRHRFLLESTPKQLIQITDEYIYSDFGQIVPLI				NA	NA	NA	NA	NA
AK009_09996	390			IS6 family transposase IS240A	TTGAGTAAGAAACGAGATGCGAAGGCTGCCAAGTGCTTTTTAAAGAAAGCCTTGGCTTCTTTTCATGTCACAAAACCTCGTGTAATCACTGTTGATGGTAATAAAGCCTATCCCGTTGCGATACGAGAATTAAAAAATGAAAAAAGCATACCATATGGTATGCCACTTCGGGTTAAAAAATATTTAAACAACATGATTGAACAAGACCATCGATTTATAAAAAAACGAATTCGGAATATGCTTGGTTTGAAATCGATGCAAACAGCTGTAAAAATGATTGCTGGAATAGAAGCCATGCATATGGTCAAAAAAGGTCAACTCAAATTAAGGGCACAATCTGCCCAAAATCAGAATAGATGTATTCATCAGTTATTTGGATTAACTGCTTAG	MSKKRDAKAAKCFLKKALASFHVTKPRVITVDGNKAYPVAIRELKNEKSIPYGMPLRVKKYLNNMIEQDHRFIKKRIRNMLGLKSMQTAVKMIAGIEAMHMVKKGQLKLRAQSAQNQNRCIHQLFGLTA	PGPT0030615_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030615-IS6_family|IS15|IS26-K18320	NA	NA
AK009_09997	240	leuD_2	COG0066	3-isopropylmalate dehydratase small subunit	ATGAATTGTACTAAAAACGCAATGTTACCTATATGTTTAAATCAGAAAGAAAGAGAACATTTAGCTCAATTTGATGAAATAACTGTTGATTTATCTAATCAAACAGTGTCTACGGTGTCTCAGTCTTTTCATTTTGATATAGATGAAACCTGGAAAAATAAATTAATCCATGGCTTAGACGATATTGCTATTACTTTACAATTTGAAAATTTAATAGAAAAATACGAAAAAACTTTTTAA	MNCTKNAMLPICLNQKEREHLAQFDEITVDLSNQTVSTVSQSFHFDIDETWKNKLIHGLDDIAITLQFENLIEKYEKTF	PGPT0001443_4154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
AK009_09998	252			hypothetical protein	ATGATACGTATAAACAGACGTATTATTCAATCTATGGATAACGAAGCATCAGTTGAAATTGAAACAGATAAGCTAAAAAAATTATGTGATGTCGGTGAAAAGCACGGTGGCGCTTCTAAAACTTCAGGTGCTGGTGGTGGCGATTGCGGCATTACTATTATCAATAAGGTAATTGATAAAAATATTATTTATAACGAATGTCAAATGAATGATATCAAACCATTGAAATTTAAAATTTACCATGGACAATAA	MIRINRRIIQSMDNEASVEIETDKLKKLCDVGEKHGGASKTSGAGGGDCGITIINKVIDKNIIYNECQMNDIKPLKFKIYHGQ	PGPT0007565_511	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007565-mvaK2-K00938	NA	NA
AK009_09999	252			hypothetical protein	TTGTTAATACTCATTGCTCGCTTCATACCTACAAAACGTATTGCACAACAAATACCGCTAATTATTGTAGCAATTGAATCAATCTTAAGCTTAATAACGACACAAGGGTGGATACGTATTTCATTTATAGATGATTTACCTTTAAAAGAATATTCACTTGAATGGTTCCCAATTGCTGTTGTAGCAACTCTTGTTGGTTATATGATTAGTTATTTTGTTAAACAATCTAACATTGTATATCAAAAAGAATAA	MLILIARFIPTKRIAQQIPLIIVAIESILSLITTQGWIRISFIDDLPLKEYSLEWFPIAVVATLVGYMISYFVKQSNIVYQKE	PGPT0014385_731	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
AK009_10000	228			putative HTH-type transcriptional regulator	GTGTTGTTAGACAATGGTTGGGTCATGACAAAAACAGGAGTTGATAAGAGAGAGAAATTATTGAGTTTAACTGACAAAGGCCAAAGACTTTTTGAAACTATTAATAAAAAGATCACTGTCATTCAACAAGATATTATAAAAAAAACTGGATTAACTGATGAGCAAGTATTTGATATTACAAATGCGATGTCTCAAATTCATGAAGCAATGATAAAGGAGGAACAGTAA	MLLDNGWVMTKTGVDKREKLLSLTDKGQRLFETINKKITVIQQDIIKKTGLTDEQVFDITNAMSQIHEAMIKEEQ				NA	NA	NA	NA	NA
AK009_10001	291			hypothetical protein	GTGATTCAAAAAAGCCAAAAGCAAGAATATATGCACGAACATGCACAAGGTCTTGGTTTTAGAGGGGATATATTTGGAGGATATATTTTATATAATCTAGGCTTTATTGAGTCAGAAGACCGTTATTTTATAGGCGATGAAGAGATTCAAAATGATAAACAATATACGTTAGGTACTGTTGATATGTATACATTTGGAAGATATTTCCCATTGCTAAAGGGGTTATCTACAGATTATATTATGCCTGAATTTTTACGTGATATTTTTAAAGAGAAATTACTAAAATTATAA	MIQKSQKQEYMHEHAQGLGFRGDIFGGYILYNLGFIESEDRYFIGDEEIQNDKQYTLGTVDMYTFGRYFPLLKGLSTDYIMPEFLRDIFKEKLLKL	PGPT0013395_2039	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
AK009_10002	345			hypothetical protein	TTGGAAGACACCCGCGTCCTCGAGGCCCACATCACCCTCGACGCCGCCATCGCGCCCCTGCCCGGCGAGAAAATCCCCGCTGCCCCCTGGGCCCACGCGCTTTCGCTTATCGACGCCCTCTCCAGCGCCCTTCACCGCCCCATCCGCCACGTGTGGGTGACGCACTCCCTAGGCGCCAATGAGCCTCCCGCCCTGCGCGAGCACGGTTACACCCCGGCGTTTTCGGAGGTACAGGCAACGCTGTCCCTGGAGGCAGTGCCCGCACCCGTGCACGCGGTGGATGTCGTCGCCGACATGGATTTCGCACCTGAGGACATCGACTCGTTCCTGCGCCTGCTCGCCTGA	MEDTRVLEAHITLDAAIAPLPGEKIPAAPWAHALSLIDALSSALHRPIRHVWVTHSLGANEPPALREHGYTPAFSEVQATLSLEAVPAPVHAVDVVADMDFAPEDIDSFLRLLA				NA	NA	NA	NA	NA
AK009_10003	228			hypothetical protein	GTGACCAATTCAACATACTTTTTATGGGATGTATTAACTACTGCTTATGTGGGTTCTCCAAATTTAGTTGAATCAACGAAATTGAAAATTGATGTAGTCAGTCAAGGACCTAGTCAAGGGAGAACATTCCAATCTGAATATGGACGTGAAGTTCAAGTCATTACGGATGTAAATAAACAAGCATTTTTTAACTACATAACGGATTTAGCAAAGAAAATCGAGTCCTAA	MTNSTYFLWDVLTTAYVGSPNLVESTKLKIDVVSQGPSQGRTFQSEYGREVQVITDVNKQAFFNYITDLAKKIES	PGPT0013465_1861	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK009_10004	309	suhB_2	COG0483	Inositol-1-monophosphatase	GTGAATGAGGCAAGAAGTGCACGAGCATATGGTAGTGCAGCATTAGAAATTATAAGTGTAGCGAAGGGTCAATTGGCGGCTTACCTAACACCTAGACTACAACCGTGGGATTTTGCAGGTGGATTGTTGATTTTGAACGAAGTAGGTGGGATAGGAACTAACTTATTAGGCGATAAATTAGACTTCAATCAACCGAATTCAATATTAATAGCAAATCCTAGCCTTCATCGTGAAATATTAAATCATCATTTAAATCAGCAAAGAGATACACTTATTACACTCCATGAAAAAAGGTTTGGAAAGAGATAG	MNEARSARAYGSAALEIISVAKGQLAAYLTPRLQPWDFAGGLLILNEVGGIGTNLLGDKLDFNQPNSILIANPSLHREILNHHLNQQRDTLITLHEKRFGKR	PGPT0018535_2582	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
AK009_10005	264	accC_2	COG0439	Biotin carboxylase	GTGAGAATTGAATCAGCATGTTATACTAATTATACGATACCACCTTACTATGACTCCATAGTGGCAAAACTTATAGTTCACGAACCTACACGTGAAGAATCAATTATGACAGGCATTCGTGCTTTAAGTGAATATCTTGTTTTAGGTATCGACACTACGATTCCATTTCACTTAAGACTTCTAAATAATCATATTTTTAGAAGTGGGGAATTTAATACAAAATTCCTAGAAAAGTATAATATTATGGACGATAATAACCAATAG	MRIESACYTNYTIPPYYDSIVAKLIVHEPTREESIMTGIRALSEYLVLGIDTTIPFHLRLLNNHIFRSGEFNTKFLEKYNIMDDNNQ	PGPT0001705_1810	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
AK009_10006	285	bioF_3		8-amino-7-oxononanoate synthase	TTGAATGCACTTAGTGAATATTTTAACCACCAATTTATGGAATTATTTCCCAATCAACCATTATTTAATACACCTATCAAAAATATCGTTTGTGATAGTTTGGCTTCAGCACAAGCACAATACGACATGTTATTTGAACATGGTATATTTGTCAGTTATTTAAGGTATCCAACAGTGTCACAGCCAACATTAAGAATTTCATTATCCTATTTTCATGACACAGATGATATTGATCGACTTTTCAATGTAATGAAACAATACGATGAAGGTGATAGCTATGTATAG	MNALSEYFNHQFMELFPNQPLFNTPIKNIVCDSLASAQAQYDMLFEHGIFVSYLRYPTVSQPTLRISLSYFHDTDDIDRLFNVMKQYDEGDSYV	PGPT0022095_3584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
AK009_10007	321	norB		Quinolone resistance protein NorB	ATGATTTATTATATTGTGGCATGTATTGGCTTTATCTTTATAGGTCTAGGATTAGGATTTTTTGCTACTCCCGCGCTATCTACTGCTGTATCTAATGTTCCAGCTGAAAAAGCAGGTACTGCATCAGGAATTATCAAAATGACTTCTACACTAGGTGCAGCATTTGGAATCGCTGTTGTGACAACAATATATACGGCATTATCTGTAAATCACCCGGCATATTTAGCAGCTACTATCGCATTTATCGTGGGTGCAGGTTTAGTGTTTATCGCATTTATTGCGGCGTATTGTTTAATTCCTAAAAAGAATGTAGATATTTAA	MIYYIVACIGFIFIGLGLGFFATPALSTAVSNVPAEKAGTASGIIKMTSTLGAAFGIAVVTTIYTALSVNHPAYLAATIAFIVGAGLVFIAFIAAYCLIPKKNVDI	PGPT0028970_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028970-norB|norC-K08170	NA	NA
AK009_10012	231			hypothetical protein	ATGAATCAACTATACTTAAACAAAGTTTCTATACTTGAAGCAAGTGGAAAAACTAAGAAATTACAATGTATTTTGAAAGAACAAGTTCCTAATTGTGACAATCAATTTTTAGAATATATAGCTCAGATTTATATTGAGGACGAGCGATTTGTAAAGTTTATTAACAAGCAACGTGAACGTGGTTTGAATTTATACATTTCTGACGCGATAAAAACATTTATTAAATTATAA	MNQLYLNKVSILEASGKTKKLQCILKEQVPNCDNQFLEYIAQIYIEDERFVKFINKQRERGLNLYISDAIKTFIKL				NA	NA	NA	NA	NA
AK009_10013	195			hypothetical protein	ATGTATTATTTTTTAAATGTTTTTATTTCAAAAAAATTAGATAAAAAATATCCTATGACTATTGGAATGAAAAATAGAAATAGAAAAAATGAACCTGTAAAAAATGGCTGGGATTTTATGGCTAGATATTGGTGGATTGTTTTTCCTATTGGAGGTTTTCTAAGTTGGTTAATACCTGAATTAACAGGAAAATAA	MYYFLNVFISKKLDKKYPMTIGMKNRNRKNEPVKNGWDFMARYWWIVFPIGGFLSWLIPELTGK				NA	NA	NA	NA	NA
AK009_10014	174			hypothetical protein	GTGCATGTTTATTCAGAACTTACTGACCAACAACTTAAAGACTCGATGTTAATCCCAACCTCTAACATTGAACATACAATACAAGAATTAGAACATCGATATGGCCGTAAATTAACCATTGGTGTTATGCCACAAGGTCCTTTAACAATACCGTACGTAGAAGATAAAGAATAA	MHVYSELTDQQLKDSMLIPTSNIEHTIQELEHRYGRKLTIGVMPQGPLTIPYVEDKE	PGPT0001785_373	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001785-larA-K22373	NA	NA
AK009_10015	342	menD_2		2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGAACGGTTTATTAATGGCCAAATTAAATGAACTTCATATTAACATTGTATTAGTTAATAACAACGGAGGAGGTATCTTTTCATATTTACCTCAAAAACGATCGGCTACAAAATATTTTGAGCGATTATTTGGAACACCAACAGGCTTAAACTTTGAATATACTGCACTGTTATATGATTTTACATTTAAGCGCTTTGATAATTTGACTGACTTTAAATATGCTGAATTATCTAAAATGGGTTCTCACATGTATGAAGTTATAACCAATAGAGACGAAAATTTGCATCAACACCAAAATTTATATCAGAAATTGAGTGAGATTGTTAATGTTACATTATAA	MNGLLMAKLNELHINIVLVNNNGGGIFSYLPQKRSATKYFERLFGTPTGLNFEYTALLYDFTFKRFDNLTDFKYAELSKMGSHMYEVITNRDENLHQHQNLYQKLSEIVNVTL	PGPT0009365_1336	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
AK009_10016	219			hypothetical protein	ATGGAAGCAATTGAAGATGCAGAAAATATCATTCACCCACTTCTTGAAAAGAATGATATAGATGAGGAAGTTAAAAAACAAGCAATAAATGTAAAAGCGCAGTTAGACCACTCTAAAATATATTACAAGTGGCTCGCTCAATTAAGTGAAGCTCTAGAGTCAGGAGAAATTTTTAACTATTTCCCAATTCCAGATGAACAACATCATCATGATCAATAA	MEAIEDAENIIHPLLEKNDIDEEVKKQAINVKAQLDHSKIYYKWLAQLSEALESGEIFNYFPIPDEQHHHDQ	PGPT0013690_43	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
AK009_10017	165	purM_2		Phosphoribosylformylglycinamidine cyclo-ligase	ATGTATAACATATTTAATATGGGTATTGGATATACAATTATTGTTGACAAAAAAGATGTTCAAACAACATTAACAACGTTACGTGCAATGGATACAACTGCATATGAAATTGGTGAGATTATAAAAGATGATGATACACCTATTCATTTATTGGAGGTAGAATAG	MYNIFNMGIGYTIIVDKKDVQTTLTTLRAMDTTAYEIGEIIKDDDTPIHLLEVE	PGPT0021570_3860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
AK009_10018	357			hypothetical protein	ATGCGCTATGATGTTGACGAGTTAGGAAATGTTAAAGGCTTATATACACAAATATTAAAAGAAACGCCTGATGGCATGGTAATGGAAGATGGACCAGAACGATTTTGGCCGGCTGATTTAGTCTTATTATCTATAGGGTTTGTTGGTACTGAAACCACTGTTCCGCATGCGTTTGATATACACACCGAGCGTAATAAAATTGTAGCTAATGATACAAATTATCAAACTAATCACGCTAAAATATTTGCTGCAGGAGATGCAAGACGAGGTCAGAGTTTGGTTGTTTGGGCAATAAAAGAAGGTCGTGAAGTAGCACATTCTGTTGATCAATACTTAAGTAAAGAAGTTCTAGTGTAA	MRYDVDELGNVKGLYTQILKETPDGMVMEDGPERFWPADLVLLSIGFVGTETTVPHAFDIHTERNKIVANDTNYQTNHAKIFAAGDARRGQSLVVWAIKEGREVAHSVDQYLSKEVLV	PGPT0000640_1675	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
AK009_10019	180			hypothetical protein	TTGAAAGTTGTTTTATATTTCATTTACTTTTTCGTTGCGTTTTTTGTTGTAGATTCTTTAATTAGTTTGGTATTTCCAATTGAATTTGATGTGTATACAAATTTAATTACTGCATTCATTTTTGCAGTTTTTATGACACCACTATTATTTGTATTAAAACAAGACAAAAACAAAAAATAA	MKVVLYFIYFFVAFFVVDSLISLVFPIEFDVYTNLITAFIFAVFMTPLLFVLKQDKNKK				NA	NA	NA	NA	NA
AK009_10020	219	lepA_2		Elongation factor 4	GTGCCAGTTCAGGCGGCTATTGGTCAAAAAATTGTTGCACGAACAAACATTAAATCTATGGGTAAAAATGTTTTATCTAAATGTTATGGTGGAGATATCAGTCGTAAACGAAAACTTTTAGAAAAACAAAAAGCAGGTAAAGCTAAAATGAAAGCAGTAGGCAATGTAGAAATTCCGCAAGATGCATTTTTAGCAGTATTAAAAATGGACGATGAATAA	MPVQAAIGQKIVARTNIKSMGKNVLSKCYGGDISRKRKLLEKQKAGKAKMKAVGNVEIPQDAFLAVLKMDDE				NA	NA	NA	NA	NA
AK009_10021	225	yeeD	COG0425	Putative sulfur carrier protein YeeD	ATGGTATACGAATTAGGAACAGTAGGGATGGTTTGTCCATTTCCTTTAATAGAAGCACAAAAGAAAATGAATGAATTAAATCAAGGGGATGAATTGAAAATCGATTTCGATTGCACCCAGGCTACGGAAGCATTACCTAATTGGGCTGCAGAAAATGGATATCCAGTTACAAACTATGAGCAACTTGATGATGCATCATGGACGATTACTATTCAAAAGGCATAA	MVYELGTVGMVCPFPLIEAQKKMNELNQGDELKIDFDCTQATEALPNWAAENGYPVTNYEQLDDASWTITIQKA				NA	NA	NA	NA	NA
AK009_10023	192			hypothetical protein	ATGTCTTCCATCAGCTCATTAATTGTGATGTCTGGATTCTTACTTAAACTGAGCACACCATCAATAACTTCAGTTAAATTGTGGGGAGGAATATTTGTAGCCATACCTACGGCAATTCCTGCCGCACCATTTACTAGTAAGTTAGGGAAACGTGCAGGTAAGACTGACGGCTCTCTTTCATTACCATCATAG	MSSISSLIVMSGFLLKLSTPSITSVKLWGGIFVAIPTAIPAAPFTSKLGKRAGKTDGSLSLPS				NA	NA	NA	NA	NA
AK009_10024	243			putative protein	ATGGGTCTAGCTGAAGACAAAATTGTGACAAGTGATGTTAATCAATTTCATGCAGTAAAAGGTCTACTCAGCAAACTTCTTAATGAAGATAGCGAAATTTTAACAATGATTTCAGGCGAAGATGCTGATAATTCAATTACAAACCAAATCATTAATTGGATTGAATCGGAGTACCCTGATGTAGAAGTGGAACAACATGAAGGTGGACAACCTATTTATCAATATTTCTTCGCAGTAGAATAA	MGLAEDKIVTSDVNQFHAVKGLLSKLLNEDSEILTMISGEDADNSITNQIINWIESEYPDVEVEQHEGGQPIYQYFFAVE				NA	NA	NA	NA	NA
AK009_10025	222	aroA_4	COG1605	Protein AroA(G)	ATGGTTGATGTAACGCATAGTACAGGTAGAAAAGATATTATGTTACCGACAGCGAAAGCGGCTTTAGCCGTTGGTGCTGATGGAGTTATGGCTGAAGTTCATCCAGATCCTTCTGTTGCGTTAAGTGATGCCGGTCAACAAATGGATCTTAATGAATTCAATCAATTTTATCACGAATTAAAACCACTTGCTGATATGTACAATTCGAAGAAACTGAAATAG	MVDVTHSTGRKDIMLPTAKAALAVGADGVMAEVHPDPSVALSDAGQQMDLNEFNQFYHELKPLADMYNSKKLK	PGPT0012915_75	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
AK009_10026	117			hypothetical protein	ATGGAACTTTGTGATAAAGATATGCCTGTATATATGACCAATCAAAACGGAGATATGATAGAAGCTACAGTTGATGAATTATTACCATTAGGATTTTCTGGAAAGGATTTAAATTAA	MELCDKDMPVYMTNQNGDMIEATVDELLPLGFSGKDLN	PGPT0021360_2830	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK009_10027	246			hypothetical protein	TTGGAAGATGAAGCGACTACACATACATGGTTTGTAGATGAACGATTTACGAAGAGATCGTTAAAAACTAAAGAAGAAGTGGTTAATTATGGTCTAGCGTATAACGAACATAGAATTCACAACGAACAAGTTACAGAATTAATGCTTTCTTATTTGGAAGAGTTAGACGGTTTTATAAAAAAGTTTCAAGAAATAGAAAAATGCGCATCTGATGTAAGTTTGGCGACAGAATCAGATAACGCATAA	MEDEATTHTWFVDERFTKRSLKTKEEVVNYGLAYNEHRIHNEQVTELMLSYLEELDGFIKKFQEIEKCASDVSLATESDNA				NA	NA	NA	NA	NA
AK009_10028	222			Organic hydroperoxide resistance protein-like protein	GTGCGCGATGCTGAACCTGAAGTAACGTTAACGGTACGCTTGGAAGACGATCCAGATGCCGAAAGCCCAAAACTTAGCGTTGATATTCATGCAAAAGTTAAAAATGTTTTATCACAAGAAGATGCTGAAAAATATTTACAAGATGCGCACGACTTTTGTCCGTATTCAAAAGCTACACGTGGCAATATCGATGTAAACTTAAATGTTGAAGTAGTAGAATAA	MRDAEPEVTLTVRLEDDPDAESPKLSVDIHAKVKNVLSQEDAEKYLQDAHDFCPYSKATRGNIDVNLNVEVVE	PGPT0013160_2851	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
AK009_10029	297	gpsA_3		Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGACTTTCTTAGGTCTAGGTGGCATAGGTGACTTGATCGTAACTTGTACGTCCACACATTCACGAAATTACACACTTGGGTTTAAATTAGGGCAAGGCAAAACAGCAGAAGAAGCTTTAAAAGAGATGAAAATGGTGGTTGAAGGTATTTATACAACTAAATCAGTATATCATCTTGCTCAACAAGAAGGAGTAGAGATGCCTATCACTAACGCATTATATGAAGTTTTATTTGAAGATGTCCCTGTAAGTAAAAGTGTTAGAACACTTATGGAAAGAGACAAAAAAGCAGAATAA	MTFLGLGGIGDLIVTCTSTHSRNYTLGFKLGQGKTAEEALKEMKMVVEGIYTTKSVYHLAQQEGVEMPITNALYEVLFEDVPVSKSVRTLMERDKKAE	PGPT0024330_3437	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
AK009_10030	288			Putative peptidyl-prolyl cis-trans isomerase	ATGGCTAATGCAGGTCCTAATACAAATGGATCTCAATTCTTTATTGTCCAAATGAAGGAAGTGCCTGAAAATATGTTAAGTCAATTAGCAGATGGTGGATGGCCTCAACCTATTGTAGAAGCATATGGTGAAAAAGGTGGTACGCCTTGGTTAGATCAAAAACATACAGTATTTGGTCAACTTATTGAGGGTGAATCAACTTTAGAAGATATTGCAAATACTAAAGTTGGTGATCAAGACAAACCTGTTTATGATGTAGTCATTGAATCGATAGATGTAGAAGAATAA	MANAGPNTNGSQFFIVQMKEVPENMLSQLADGGWPQPIVEAYGEKGGTPWLDQKHTVFGQLIEGESTLEDIANTKVGDQDKPVYDVVIESIDVEE	PGPT0015111_2286	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
AK009_10031	177			hypothetical protein	TTGAAATTAAATCAAGTTGATCCAGAAAAATTACGTAAACATTTAATTAATAACTATTCAATTGGTATTATTGCTTTAAATAGCACAGATATTCGTATTGCCTTTAGTTGTGTAGAAAAAGAAGATATTCCTTATGTCTTTGAATCTATTGCTAATGCAATTGATGATATTAAATAA	MKLNQVDPEKLRKHLINNYSIGIIALNSTDIRIAFSCVEKEDIPYVFESIANAIDDIK				NA	NA	NA	NA	NA
AK009_10034	153			hypothetical protein	ATGGAACACGTTTCTAAATTAGGCGAAGCGATTGTGGATACAGTAACAGCAGCACAAGCAGAAGATGGTGCTGAATTAGCAAAAAGTATCGTTAACATCGTAGCTAATGCAGGTTGCATCATTCAAGATATTGCTCACGCATTTGGTTATTAA	MEHVSKLGEAIVDTVTAAQAEDGAELAKSIVNIVANAGCIIQDIAHAFGY				NA	NA	NA	NA	NA
AK009_10035	222			hypothetical protein	ATGAAAAATACATATATTAAAACACTAGAAACTTTAAAAGGTAAATGTAATTTAGTAACAAATTCTGAATCTCTTTCAGACTTAAAAGACAGTGATATATTTTGGACTGACGCAATGTTATCTATGTTAGAAAATATGAAAAAAGAACAAGTAACAGTTGAAGAAGGAATTGCCTATTTAGAGAATATTATTCAAAAAAGTGGAAGTAATTATAAAAATTAA	MKNTYIKTLETLKGKCNLVTNSESLSDLKDSDIFWTDAMLSMLENMKKEQVTVEEGIAYLENIIQKSGSNYKN				NA	NA	NA	NA	NA
AK009_10036	180			hypothetical protein	ATGCTCCGTCAGAACGAGACGCCATCTTGCGAACGAGATCATCCGGGCGATGACGACACCCAAATTATTATGGGCCAGGGTCGAGATCACGACATCCGGCCGCCAGCGCCGGGCATATTGCGCAAAGGGCACGATGCTCGTCAGCACGTGGGCCGCGTCGAGAACGTGATATTCGACTGA	MLRQNETPSCERDHPGDDDTQIIMGQGRDHDIRPPAPGILRKGHDARQHVGRVENVIFD				NA	NA	NA	NA	NA
AK009_10037	183			hypothetical protein	ATGATGGCGAACAAAAAAGATTCCAAATTAAATTATCATGAAGAAGAAAATGCTATGGTTACCGACTTAGATGATTTAAAAGAATTAGGAAAAGAAATGGAACAGATTTCACAGGAAAATGATGAAGAAAAATTAAATCAATCTCATGATAACGAAGTTCGTTCAGATTTAAAAAAACAGTAA	MMANKKDSKLNYHEEENAMVTDLDDLKELGKEMEQISQENDEEKLNQSHDNEVRSDLKKQ				NA	NA	NA	NA	NA
AK009_10038	93			hypothetical protein	ATGCGCGCCCAGCGTGTTCACGTAGTCGTCGCGCAGCACGCTGACATAGCGGCCGTCGACGACCGAGCGCACCGAATATTTGCGCTCGAATGA	MRAQRVHVVVAQHADIAAVDDRAHRIFALE				NA	NA	NA	NA	NA
AK009_10039	225			hypothetical protein	ATGGATAGCGTGCAAAAACAGGTGGACGCCGTGCAGGCGTTCCTCGCCTGGCGGCGGCAGCACGGGCGGGAGAATGCCCTCGATCAGGACCTCATCGCGTGGCGCGACCACCTGACGACCGTCGCGCGGCTCGAGCAGCTCAGCGCCGTCGAGGGCATCCTCGCGGACGAGTTCGAGGCAGCCGGGCCGGATCTGGTCGAGAAGCTGCGGGCGGTGCTGTCGTGA	MDSVQKQVDAVQAFLAWRRQHGRENALDQDLIAWRDHLTTVARLEQLSAVEGILADEFEAAGPDLVEKLRAVLS				NA	NA	NA	NA	NA